Gene Number:                 1
Celera Gene:                 hCG14741 - 96000070136222
Gene Symbol:                 AGT
Protein Name:                angiotensinogen (serine (or cysteine) proteinase inhibitor, clade A (alpha-1 antiproteinase, antitrypsin), member 8);ANHU;SERPINA8
Celera Genomic Axis:         GA_x5YUV32VWMC(6679077..6784391)
Chromosome:                  Chr1
OMIM number:                 106150
OMIM Information:            ANGIOTENSIN I;AGT


Genomic Sequence (SEQ ID NO:1662):
CAGTTTGCTGATATCACAGGAGATCTGCTATTTGATCATTTTGCCTGCCAACTTGGATGTCTGTCTCAGCAGGAAACCATTTAAAGAAAATAAATGAATT
CTCAGCACTTGACATTTTCTGGAGGACCTGAGTCCTTTCCAAGTGAGCTCATATCAAGCACAGTTGGTAAGACAGAGACGGGAAAATGTGCTTTCTCCCT
GTTAAGAGGACAGCCTCGCTGAAGCATCTTGGGCAGGGCAGTATTAAGTGACTTTTCCTTGTTGATGAGGGGTCCTCTCACCTTTGGGAGAGAGGTGGCC
CTCCACCCTGGAGGGGCTGCAGGAAGTGGAAGCAGGTTCCATAGCTGGGGGGTGTTACAAGTGAGCTGAAGGAGAAGTAGCATGGAATTCCTCCTCATTT
TCTCTCCCGAGTCCACCCTGCCTCCTCCTTCCCAACAGCTTGTTTATTACAGCATGGTGACTTGGGGCAACGTGATTATATGAGATGGTTTTTTTCTCCC
TTCTCTGTCCTCCCTCCTGGGCACAGTGTATATAGTATGAGAGCTACTGTAATGAAAGGTGCACAGGCCTTTTTAGGAAAGTGATTGCAGGTGAGGCCAA
CTCAGCCAGGAAAATCTCCTGTTGCTTCCTAGGATGGGTCAGGGGAAAAGGAGAGGGACTTTAAAACATGGATACTTCAGACCTGGCTGCACACTGGACT
CACCAAGGGGATTAAAGAAAAACAATGCTTGGGCCTCACCTCCAGAGATTCAGATTTAATTGATCTAGGGAGTGGCTGGGGTATCAGGATTTTTAAATCT
CCCCAGGTGATGCTAACATGCAGCCAGATGTAAAGATGGTAGGTTTAGAGGGAGAGAATGCAATGGTTTTCACTGTTGTACTGCAGGGTGATGATATGGG
GCAGGGCAGGAGCCTATTCCAGCCCCTACACCTGTGGACACTTGCGTTAGAGGTGTCCACACTTCTACCTTGAAGCTGCAGCACTGGAATACTTCCTCCA
CACTGCTGGTGCTCTGGAGCCTTTGACTAGCCAGGGGGCCGCTGAGTAACAAACCTTCCCACTGTCTCCTTCCACCATGGACCAGGGGCAGCCATCACAC
TTCCTCATGTTTTTTAGTGACATTACTTATCATTTACCTTAAAGTAAATGATAAATAAAGGTGGACCTAGGGGTCTCTCTTGTTTTTCCTTTCTTTCTTT
CTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTCTTTCTTTCTTATTTTTCTTTCTTTTCTTTCTTTTCC
TTCTTTCCTTCTTTCTTTTGATGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGTAAGCTCCACCTCCCGGGTTCAT
GCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCAGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACC
GTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATTCACCCGCCTCAGCCTCCCAGAGTGCTGGGATTACAAATTCCTTTCTTTTTTAAGAGACAG
GGTCTTGCTATCACTCTCTTCCAGGCTGGAGTGCAGTGGCGAGATCATAGCTCACTGCATGCTCAAACCCCTGGCCTCAAGCAATCCTCCCGCCTAGGCC
TCCCAAATAGCTGGGACTGCAGGTGCACACCACCATGCCCAGCTTCCTCTTATTTTCATAAAAGAATAATTTGTGTGTGCACATCTTTCTTTGGAATCTT
GGATTGATCAAAGGAGGTATAGTTATTACATGTGTCCTACATGCTGAAGTTGAAAGACAAAACTAGAGAAGAAAAATGCCTAGTTTCTGTGGGAGTGATT
ATAACAAAATAGCTAATATTTTTGAGATACTATTTATGAAGTAATCAATTAAGCCATTACAATAATTCTGTGAGCTAAGTACCAATAGTATCCCCATTTG
GCTCACCGTAATAATACGTAATTGGCTCAATGAAATAATAATGCGTCCAGGGATCTGAGATACACACTTGAGAAAATTAGTGGTGAGTCAACATAATTGC
CAAATTATATGATATTATTATAAAGCAAAGCTTTGGGTGTAATATTAAGGCCTATGTCTCTTTCTGTAAATGGTTAAACTGAGGCACCGAGCAGCCTGCT
TAATCGAAATCAGAGCACAAAAGAGGGGAGGAGGTACAATCCTCTAAAACACATACTGTCATCAACCTCTTCATCTTGAAATATTCAATTAAATGTTATC
CAAACCCAAAGTTACTAATGAATTTGGAAATGAGCTGGCTGTGACTGTGAGTATGGAAATTGGTGGAGAGGAGAAACTCCAGAGACTGGGGAGGAGCCAC
AGGCTGCCTGGCTTCAGAGTTGTTAGGTAGAAGAGAAAGCAGACCTGGAAAGAAAGATACAGGGAGGGAAAGAAGGAAAAGGGAGATAAAAATTACAGAA
CCATTGAAGGAAACTGCTCCACAGTTTCCCCTCTGCCTTTGGGCAGGAGAATGTCTCAAGAGCGTTCCCAAGCTTCATGTGCACAGGAATCAGTGGGGTC
CTGTGAAAGACGACTTCCATTCAGCAGGTCTGGGGCAGGGCCTGGCACTCTGCATTTCCAACGCTCTCTCCTAAGTGATGCCTATGCTGCTGCTGGCCCA
TGGACCTCCCTGTGAGCAGATGGGTCCACTGGGATCCTCTGGGGAGAGGGTGATTGAAACCCCCTGGAATCCTTCTCCCATACCTCTGACACTCAGACCC
ATGGTCTCCCACCCCCGTCATTGCTACAGTGGCCCCGGTAACTGGCCAGTTTTGTACTTATTGGAGTCTGGGGGAGTGTCATGGGAACCACGGGACAACA
TGAGCAAGGGAGAGTGAGCAAACTGGCAGCTGGAAGGCAGGCAGGCTAAGTTACCCAAATGACAGAAGGAAGAGAAGGACAAGAAGGCAGAGTCTGCTCA
CTCACTCAAGTCAAGGTGATTAATCTCTCTATGCCTCAGTTTCCACCCTGCAAAATGGGGATACTATTGGTACTTAGCTCACAGAATTATTGTAATGGCT
TAATTGATTACTTGATAAATAGTATCTCAAAAATATTAGCTATTTTGTTATAATCACTCCCACAGCTAGATGTCAGCCCTTGCATGAAATCAAGCATTCG
GCAAACATCTATGCAGCGTGGACTCTGCTGGGCCCCAGCTGGGTCCCTGAGCAGAGGGTCTGGATTGGCCATACCTCATTTATATTGAGATGAATGAACT
CCTTGTTCTTTGTACTGAGAGCCTGGAACACCCCTGATAGGARAGAAGGGGGAAAGGCATCCTTTTAAAGACAATTCCTTTACCAAGTTTGTTTCCCAGC
GACCAAAGGGCCTTCCAGTGGAGCCTGTGGGGAAGCTGCTCCATCTGGTGGTAAACAAGGACTTTCATCAAGGGCGGCGATGGGACTCTCATCAAGGGCG
GGCTGAAGGTGAACTTCTCTGAACGGATGGAGGCATCCAGTCCTGTAGCAAGCCAGTGGTCACCTAAGCCAGTCAGCCGGCCAGCAGCTCCTGGAGCCAA
AGCAACGCCCCTATCTTAACCTTCTGGGGGGTACAGGGCCCTTGAAATCCATAGGCCCCAGAAAAAAAGCACACGCACGTAAAGTTTTGCATGAATCTGA
AAGTTGTTAGTCTCGCCCTTGTAGGAAGGTGCCGTGGGTGCTGTCAGAGGACAGAGTGGCACAGGAGAGCGTGCCAGCACTGAGCTGGGGGCTGGGTCTA
CCGCATGGTGTAGTGACCTGAGTGCACCTGAGCAAGTCACTGCCCTCTTGGGGCCTCAGCCTCCTCACCTTCAGAAGACGAGGTCGAGCCAATCAGCCCT
GGCTTCACTTGAGAATCTCTCGGGTAGCTTTAATAATACAACCCAAAGCGGGGTGGGGGACCATCACTGGACACAAGAAATGGAAGAGACCCAACAACCA
AACATGGTGACTGGGTCTTGTGTGGATCCTGAGTCAACCAAGCAACTGTAAAAAGGTGGCCTGGAAGACTTGGGCATGAACCGGGCACTAGAGAATGTTG
AGGGTTTGCTGAGAATTTCGTTAGGTGTGCAAATGGTATGAAGATGATGCTAAAAACAAGTCTATCAGCTGGAGATACTCAGATGAATGGACAGAGTTTC
TGAGATCTGCTATTAAATTATTTAGGGGGAAAATGTATGTGTTGCGGGAGCACAAGGGAAAAGTTAGCAAGATGGTAATTGTTGAGGTTGGGTGTAAAGG
TCTGGAAACACCTGGCGAATTTGCGTAACTCCCAATGCTGTGTGCCACCCCTGAGATTCTAACAGAATTGGTCAACTGTGCAGCCTGGTCATCAGCATTT
CTTTAGGCACCCCTGGAGATTGTAATGTACAGCGAAGTTTGAGAAGTGCTGATGTGGAGTGCATGGGAACCTATTATGATTCTTTATATCTAACTGGAGG
GTTGACATTCTTACAATAAAAAGTTAAAATAATACTGCAGCAAAGCTCCATCCTTGGTAATTCTAAAAGTTCTCCAGGCAAATCTAATGTGAGGATGCCA
GAGTGGATGGTGTTAAGCCTAAAGGGTCTTCACCCTAATATTCCTCTACTATAAGAAAAGCTGAGGCACTCCCACCCCCCGTTCTGGGAAGGATTACACC
TGGGTGGTTTAGAAAGGGAAAGAGCAATGGAGAGAAGAGAAACTAGCAAATCTCATTATTTCTAGGGTCAGCTCTGACCACCCTGTAAGTCTAATAACAG
ATTCTGTTTCAGGAGGGGTCTTTCTAGAATGCACCTCTCACTAGCTACCAGTAACCCCTTAGGGAAAGCCGGCTTCCTGGCTTGATATACTAGACCCTTT
GGGGCCTGCTGGTCTGTCTCTGATTTTCTCTCATCATTCCTTAATCAACACATACTCATTGATTGTCCAGAAATTACGGCTCTCCTGGAGCTTAGAGTCT
AGAGGGGCTGTGCTTCAGGCAAGTAATTAGTGTTCTATTACCAAAGAAGCAGAGGGAGCTATCATGCTGATAACCAAGGGTCACAGCCCTCACCTTTTTA
TTTTAATTTAATTTAATTTTATTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATATTTTTGAGATGGAGTCTCCCACTGTTGCCCAGGC
TGGAGTGCAGTGGCAAATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGGGGTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCA
TACCACCACATTTGACTAATTTTTTGTATTTTTAGTAGAGACAAAGTTTCGCTATGAGCTGGTCTCGAGCTCCTGACCTCACGATCCAACTGCCTCAACC
TCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCCAGCCCCCTGCCTTTTTTTTTTTTTTAATCAAGTATTCATACCTCGAAGTGGCCTATGGAA
CACAGATTAGAAAATACCAAGCAGGACAAAATGGAAATGCGGGGCCCCCTGCTCCTAAGTTGTGAAGACTTTCAAGATGGAAACGCCAGAACATTAAACC
AAGCACGAGGCACCCTTGAGGGCACGGGTCCTTTGGCACCTGCACACAGGGCATGTCCTCATAGCCACTCCAGTACTGAGTTACAGGCCCTGGACATGCT
TCACTCAGCCTCACCTTCAAAACCACCTTTGAGGGGCAGGATGGCTATGACAATAAACTGCAAACACTGAAGCGCACGGGCACATAATCCCTCTCTATTT
GTGGTGTAACAAATCTTATTTGAGATAACTGGGTCAATGTCTAGGGCTTACAGGGCGGGGAAGGGGGGAGGAAGGGGGACTGAGACTCTCCTGTTTCTAT
ATGCTATGATGGGATTTGACCTGCAATTGAACCTTTCCTCAAACACAAGGCACAAACCTGCCCCAGCCCATCATCCTCCCACAGAGGCACTGTGAATGTA
TAAAGAAAGGCGATGCTAAGAAACRTGCTGCAGGGGAGGCTGGCACATTCTGCTCCTTAGCTAACCGCACAGGCCCATGGGTCCACACACATCAGACCAT
GGCTCTCTGTGGTCTATCTTTGCCATTACTTTAACCAGGCTGTTTCTCATGCGCTCATGGAGGGTGACTGAAGATGCCACCCCGAGGTGCACCCTCAGCC
TCGCTGGACACTTACGGCTCGCATTCTCCAGCCGGACCAGGCAGTTGAGGAAGTCATCGAAGTCCAGCTGGAGCTCCTCATCCGCATACCTGAGCACAAT
CAGCTGCAGGAGGTGGCTGCTCAGCTGAAAGCCTGTGGGGACAAAGGAGGAGACCCAGGACTCGCTGTATCCGAGCCCCGAGGTGAGTCTGCACCTTTGA
GGGAGCTCCCAGGCAGCTGAGGAGAGGGCTCAGAAGAGGAAGCCACTGTTTCACTCCTCAAAGCKGGGGTCCCCAGACCCAGTGGGACTGCTGCCCTTGG
TGTGAATGCAGCGTGAGAGTGTGAATCTGTGGTGCAGGGGCGAGTGTGCGGGGGACTCTCAGGCGTGCTTTCTGTGTTTAATGGCTTCTGAGTTTAGCGA
GTTTGTGATCTTAATTTTGATGCTAACATCACCCATAGAGTCTCGCTGACTTTACAGGAAGCTTTGTTTGGGGGAACTTAACACTGGGTGGTGTCTGAGC
CCCAAGTTCATTCCTACACCAGCCTCCCCTCGYGTTCTATGTCTCAGGTCACTTCCAGCTGTGGCCCTAGAAAGTTTCTTGGAGGGGATGCTGCTGCCCA
CGGAGAATGATACTCTGCCAGGGCCCATTCCTACACATCCACGATGGGGGAAGAATGACAGGCTATAGCCAGGAGGCTTGGATCTGAGCCCTGGCACTGC
TCCAGCCGTGGCATATGGGTTCAGTTCTCTGGGCTTTGGTTTCCTCATTGTCAAATGAGGAGTTTAGACAAAGTGAACTTCCTTCTGGATTTGATATTTA
GATTTTTTTTTTTGAGATGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCAGTGCAACTTCTGCCTTCTGATTTCAAGTG
ATTCTTCTGCTGCAGCCTCCTGAGTAGCTGGGACTACAGGCACCTGCCACCACAACTGGTTAATTTTGTATTTTTAGTAGAGGCGGGGTTTCATCATGTT
GGCCAGGCTGATCTCAAACTCCTGACCTCATGATCCACCCACCTAGGCCTCCCAAAGTGCTAGCATTACAGGTGTGAGCCACCACACCTGGCCAGTGCTT
TGATTTCTAATTAGTGCCCTTAGAAGTGATTTCTTTCCCCCTTTCATTTTTGTCTACATGTTCACTTTCTAGGAGGTGTTCACAGGATTGTTCAGAAATC
CACCCAGGGTCTTTCTGCTTCTTCCTAATTCCAGCAGAGGAGCAGGCAGGTCAGACACAGAGCACAGAGTCYCTGGAGCCTGCACGGCAGTGCTGGCTGC
CAGCCTTGGCCAGAATCCTGATGTTTGGGGCTAGAGGAGGGGGATGAGGGGCGATTCTCCCCACACCACGTCAGGGTAGGAAAGACACAGCCATGCCCCT
CCTCTCTGAGTGCTCCCTTTGTCCCCTGCTCAGTTCCTCCTCCTACCATGGAAACAGAGTCATCATCCCCTAAGAAAATCAGGCGCCCCTTCTCAGCCTG
GCACTTTGCTCATTTATAAATCATCTGATTTTCTTCTCCCTCACATAGGACCCGAGATGGTCCTGGCTGTGTATACTTCATCCTTTTATCAGGCCTGAGC
CTGGACATGTTTCCAGATTTTGCTTTCCCTGGGAGRGAACCACTTTAAAAGGTTCAGGAGGCCCCTATCTGTGAGGTGTGCTTGGTGAGAAGCGCAGGCA
GCCCGGCAGGCGGGAGGTCTGCAGAGCGCTYGTGGAAACTACGGTTGTGTGTGCAGGACATGGGACCACAGAGATGCCGACAGCCATCCAGCACCGGACA
AGAGTGGGAAATGCCACCTGGAGCCCAGCCTTTGGGTAAGGGAGCAGGGTATAAACTATGATGCAGTCATCCATTTTGGATTCAGAGTCTGATGCTGATA
AAACCCGGGACAGGGCCACAGGTGGCAGAGGGACGTGCGGACCCCAAACCATGGGTGCTGCATGCTCTGTCTCATCCACGATAACAACCATCTGAGAGCA
GAAATGAGAAGTTTGGAATCACTGCAGCTTGCCACCAAAGAGCCATGTGTTAAGTACTGGGCCAGAAAACATGGTCAGAGGCTATGAGGCCTCCAGAGGG
CAGGCCAAGTTCATTTTTAGCAGATACATTTAAAAAGTTTCTACCAATGTTCACAGTGGTTTAAAATGAGGGCCCTGGTGTCAGGAAGTGAGTCCTGGGT
CTGAACCCTGGTGCCACCACTCCAAGGGCCRTGACCTTAAGAATCACCAACTGGGCTCAGAGGCCCACCTCCTGGGCAGCAGAGAGAAGACCTGCCATCT
GCTCAGGTTGCCCACAGGCAGTACCTGGCATGCAGTCAGCCACCTGTACTCCAGTCTTTTCTTTACCTGCAGCTTTCAGTGCAGTCCGTAGTTCATAGGT
AGAYATGGTGCCGGACTTGTCAGCATCAAACCGAAGGAAAAGGTTCTAAAGGGTGGAGAGCAGAAGCCTTGAGAAGGAGCGTGCCTGAAAGGCATCGCTG
RTGGCAGTAAATGGRTGACAGCCAGCCCGGGGGAGCTACCCTCTAGGGGCCGCAGAGGCCACAGTTGGACTGGGCCTTCCAAAAGAAGTCGGTCTCCCTT
TTGTCTTCCTTTTCGTCTTGGGTGGAAGCACGGTGGTACTCCCGTAAGYATCGGAATAGCATGATGCTGTTTTCCCTTCTCCCCTGTCCRAATACAATTC
CTCTAGCCTATAGCCTGCAGCCTGCTGCACCATTTTAAATCCCCTCTGCTCTAGGTTCACTGGGTCCCCCAGAGGCCAAGCCCTGCTCCAGGTTACATAC
AATCCACTGCTTCAGCTTGTCCCAGAACACTTTGAATTCATCAAACTCCAGCTTCCCATTGCCGCTGGTCTGTGCCATGTGGGTTAAGGGAGACATGAGC
AGTGTTTCAACCTGAGGCTCCTCGTGGGACCTCAGCTCTGGGACTGCAGAGGGGGAGGGCCGATGGGCTGGCCTGGGTGCACAGGTTTGGGGCCCTGGGG
AAGTGGTTTTAATGATTAAACCACAAATCTCTGAAGAGGGGAAACGGCAGAAGTGGAATGGGGGTGGTCCYGGAAAGTTCACAAAAACAGAACTCTGTTC
CCTTGGATGGGATCCCAAAGTGGCAAGAAGACCCCCAAGTCCCTTCAAAAGCTCCCCACCCCCACCACTRGGCAGTCTTGTGCATCTTGATTCTGATCCA
ATTTCAGCATGGGGGTCCCCCAGCTTTGGGTTATTTTCTGTGAAGAAGACTATTCTGCTGGCTAAGGATGTCATGTTCTTGGAGAGTCTGCACTATTGAA
GATTACTCTACTGTGCTTAAAGCCCAGGATCCATGTCTATTTCTGCTCAAATATTTGGAAGGATACGTCCATCAGGGAAATGATGTTTTTACAGGAGATC
AGGCTTAGCTTCTTGAATTTGATGTCCTTTTCTGAAATTGCACATGAAAGCTGAATTCAGTTGACCCGATAAGATAAACCTATGTACCCATCTGCTGAAA
GCCCAATAATGTGGCTAAATCCAGGGCTGTTGGGGGCTGTGATGTGGCTACTCTCTTATGATGCTGGTAGGAGTAGAAGTTAACATGACCTTTCAGAAGG
AAAATTGGCTAAATGTGAAAAAAGCAATAAAAGTGGGAATACGCCTTCATCCATTTATTCTAGTTCTAAGAACCCCGAGCAAAGAATWACATATGAAGAT
TTTTGTCATCATATTATTTATAGTGGCAAAAATTTGGAAGTGAAATAATGACCAATAGAGAGGCATGGTCAATACCTTAGGCTATGTCTATATAATGAAG
TATTATACGACCCTTAGGAATCATGTTTTTGCAGCATATTTAATGGCAGGATTTAAATTTGTTGGAGAAATTTGTACTCCCATACTGCTGCTGGTGAAAA
TGTGAAATAGTCACTTTAGAAAACAGTTGGATAGTTTTTAAAAACATTAAACATAGAGTTAAGCAATCCTCTTAACTAAACATATAATTAAGAGGATGGT
TATGCCACCATGTAACCATAGACTGTTGCATTGTGATGGAACCATCCTCATAACTATATACCCAGGAGAAGTAAAAACACATGCCCACCCAAAAAACTTG
TATAGGAGTGTTTACAGTTGCATTATTCATAATGACCAAAAACCGGTAACAACCCACGTGGCCACCAATAGATGAATGAATAAACAGAACAGGGCCCATC
CATACGATGGAATGTTGTCTGGCTGTAAGAAGGAATGAGACATTGATACATGCTACAGCATGGATGGACCTGGAAAACATCACACCATGTGAGAAAAGCC
AGTCAGAAAGGACCACATATTGTATGATTCCTTTTTTTCCCCCTGAAACGGAGTATTGCTCTGTTGCCCAGCCTGGAGTGCAACGGTGTGATCTTGGTTC
ACTGCAAACTCCACCTCCCAGGTTTAAGCAATTCTCCTGCCACAGCTTCCCGAGCAGCTGGGATTACAGGTGCCCACAACCACACCTGGCTGATTGTGTG
TGTGTGTGTTTATTTTTAGTAGAGATGGGGTTTCACCATGTTGACCAGGCTGGTCTTGAACTCCTGACCTAGGTGATCCGCCTGTCTCGGCCTCCCAAAG
TGCTGGGATTACAGGCGTGAGCCACCRCACCCGGCCTATGATTCCTTTTATATAAAATATTCAGAATATGTAAATAGAATCTATAGAGAAARTAGATGAG
TGGTTGCCTGGGGCTGGGGGAAATGGGTACAGGGTTAACACTGTTAATGGGTAAAGGGTTTCTTGTTGGAGTGATGAAACATTCTAACATTATATGTCTA
CGCATATGACACACATGTACATACATGCAGATACACATATGTTAAGAGTGGTTATTTATGGTGGTGAGATCATTTGTGACTATCTTTGTCATTAGGCTTT
TCTGCATTTTTAAGAATTTTCTACTATAAACCTGCATCGTTTTTGGAATCAGGAAAACAAACAATGAAAGCTATTTTTAAAGTCTACCTACAAATCAGCC
CTGGGAAGCAGATCTGCGGCTCGGAGGAGCAGGGAGGGGACCCAGGCAGTGTGGTCGCTTGTCCCTCCATAGGTGCCCCAGGACCCYGATGGGGTTGGCA
CTTACTCTTTTGCAGCACAGCATTTAAAACATACTCAAGTTCCTCTGCTGTCACCTCCATGTCCTGTTGAAGTGGAGACAATTGTTTKTTATAGCCCTTG
GCACCTTCTTTTATAGTTTATTTTTGTTTTAAATCAGTTCTGAGCTTCATTTGGCTCCAGTGACAGACCAGCCTTCAGGACCCTGCTGTGGGCAGATGTA
CCTATCTCCTGTGTAGCTGCAGCTATGTGTCTCATATGTCACATGTTTTAGGGRCATGCCAGCCCAACTAGGAGAGAGCCTAACTTGAGAGACATCCCAA
CCCAGGAAAGCGCATGAAAAGCTGGGCAGGGCAAGGCAGTGGTTTCCCAGCTTCCCTGAGGGTCAGAACCAACTCCTGGAATTGTCCTAAGCTCCTCAGA
TGATTCCTATGTTGGAGGCAGTTTGGGAAAACCAGACTGAGTCTTCCTCTGTACAGTAGAACCACCTGCAGAGCTTTAAAATAGTCCCGCATCTGGGGCT
TACCCCAGGGAATCTTGAAATCAGAGGACCTGAGAATATGGTCCTATTTTTAAGACCTAGGAGTTGATTTAGAATTAAGAATAAGGGTGAATTTCAGAAT
CATGGATCTAAGGCACTCCAGGAAATCTCAGCAGCCCCCACCCCAGAAGCTGGTTAGAAATGGAGAGTCTCAGACCTTGCCCTGAGACTCAGGCTTTTTT
TTTTTTTTTTTTTTTTTTTTTGATACAGGGTCTTGCTCTGTCATCCAGATTGGAGTATTAGTGGTGTGACCACAGCTGACTGCAGCCTCAATTTCCCATG
CTCAAGCAATCCTCCTACCTCAGCCTCCCAAGTAGCTGGGACTATAGGCATGCACCACCATGCTGGGCTGATTATTTTTGCAGAGATGGGCTCTCCCTAT
GTTGCCCAGGATGCTCTTGACCTATTGATGAGGAATCTGTGTTTTTTTTCCCAGGATGCCCAGGTGACTTTATGCACATGTGTGTTTGAGTAGCACTGAC
ATAGACCTCATTTTAGTCAGGGTTTTGCGCTAGCCGTGTGTTATGCTGTGGAGTGCTTCTAACACATGTCCGTCCTGAAGCCTCTGGGCCTGGGGAATGG
GGGTTTGGGATGTTTGGTGTTGGTAAGAAAGCACTGCCCCAGCCAGGCCCCCACTGAAAGAGGAGGAAAGAGAAATGGAGCCATGTGCCCAAGTCATCCA
ACTACTTGGAAGAAAAGCAGGACATGAGTCAAGGAGGGCTGAACTCTAGAGGTACTTTTTGGTTGTTAATAAAGGTCGACTGAAACTCCTGCAACATTCA
CCGCTTCCCTTCCAAACTCTGGATCTCCATCTGACAACTTCTGCGCACCCGCATGAACCTCTTTAACTCCTCTGAGCCTGTCTTGCTGGGTCTGACCCAG
CATGCTCCAGATAGCACCTGGAGCAGGGAGGTCACCACTGCCTTCCCCCCTCACCATGCTCTGTCCCGCCCAGGGCTRCGCTCAGCCACCTTCCTGCTGT
GCTTTAAGCAGTCACATGAGCCCCCATTTTCTCCATCCGATCCTGTGGTCCCCTAATCTCCCTGYCTTGCCTGTTTATTGCAGTGCCTAATATACTACCA
TCAGACAGCCCCTAGGTTTAGATATCACCCCTCCAGGTGACCCCTTTCATAATTCAGGAACCCCAGTTTGGGGAAACACATGAAGCTAATAGAGTCATTA
GCACCTTGACATGAATTAGTTCATCAGCTCATTGTATTTATGGCTCCAAGAGAGCACCTCTGGGGCAGTTTCTAGAAAGACTTCCCTCCCCTGACCCCAG
CAGGTGGAGGAAGAGCCTGGATCTGTGTGAGGCTCCATCCAGTGTCCCTAAAAAGGAAGCTGAGCAGTGGAAAGAGCTAGGATAGGGTGGGGGACAGGAA
GTTGCAATTGAATAGGGACCTCCTTGAACATGATCCCCTTTACTACAGCAAACAGAGTATTCTAATGGCAGTGATTTTCAGGCAGAGTTCAAAGGAGTCA
CCTCTTCAAGGCTTGCTCTAGCCTCCCAAAGAAAGCACCTGGGGCCAGGCGTGGTAGCTCATGACTGTAATCCCAGCACTTTGGGAGGCTGAGGCCAGAG
GATTGCTTGAGCCTAGGAGTTTGAGACCAGCCTGGGCAACATAGCAAGACTCTTTATTATTTATTTTTTTAATTAGCTAAGCATGATGGCATGTGCCTAT
AGTCCCGGCTACTCAGGAAGCTGAGGTGATAGGATCTCTTGAGCCCATGAGTTTGAGGCTGCAGTGAGCTAGGCTTATRCCACTGCACTCCAGCCAGGGT
AAAAGAGTGAGACTCTGTCTAAAGCAAAACAGAACTAAAAAACAAAGCGTCTGGGCCTATTCCAAGCTTCTTTGGGCTCACTGGCCCCATCCACAGCCGC
AGACTGTGTAAGTAAATGTTGTAAACAGGGTGGTCTTTGGGCCTTGAATGATCAGTGCTGGTCTTACTTTGCAACAAGCTCCATCATGCCTCAGGATGAC
GTTGCTGACCAACCCCACGACTGCAACCCTTTGCTAGGAAGCAGGTCCAGGCCCTCAGSCTGGTGGGGAGATGGAAGTGGGGCATGTCCTACCTCACCAG
CGACTTGTTCAAACAGAGCCCGAAACCRCTGCTCCTCCTCTGTCTCCTGGTCAGGTGGAGTTGGCTTTGGAGGCTAAAAAACAGCCAAAGAAACTTGCAC
AAAATGATCCACAAAAAAGAAACATGACAAAAATAGCAGGAAAGAAGCCAGGASCCTGTGTGCCCAGCCCCATGTCACCCTCCTGAGGCRGTGTGCACAA
GCTGCGTCCTGTAGCGTGAGGAACATTTTCTCATGAAGGCTCTTTTAGAAGGTGAGACTAGAAGGACTTTATTAGCTGGACCTGTGGAGCCCTTCTGCCT
TACAGACGAGGAGGCCAAAGGACCTTGACCCGTGCCTAAGTTAGGTCCTGGCCATTGGATTTTCATGCTTCCTGCCCTTCCTCTGGCTTACTTCTTACCA
CCCTGGACTGGAATGACTTACTTCATCATCTGTTTTGATAGCTGGTAAAATCGTTGAAGGCAAGAGTCTGTTTCTACCACTAAGCTCTGGGCTTGGTATA
TAGAAAGAGCTCAGTAAATGTTTTGGGTGATTTTTGGTTTCTTTGGTTTTTTAGCACCATTAATAAGCTGTGCCCCAGCATGGAACAGCAAATTCCCTCC
TAAAAGCAGATCTCTGCTGTCCCTGGACGTGTCAGACTATTTCCAGCTATAGTATCTCAGGGCCTCTTGCGAGTCCTCCAGCCCTTGGACGAGGGTAAAG
CCACCCCCATGTCACCCCTTCCACACCACATAACATAGGGGAGATGTAATRTGTTCCCCTGAGTCCACAGTAAAAAACATCTCCCTGCCTCTCTGGTTTT
CTTTTCATTGATTAGATTTCTTAAAATACAATTAAAAGTCTACCCACTTCAGAAGCGGCAGCCTTCTCTCAGGTGGAGTTGGTAGTGTGAAAGTTATTGA
GTCAAAATGAAGTCACTAATGTTAAGAAAACCCTGACAAATAGAGCTCGGGAAGGCCAGAAGGTTCTCATGCTTATTTGCCTGATAACAAAAATATCACA
AAAGGCTGCAAAACCCACAACCTTTCACAGAGGCCCTCGCAACCATACACAAAAATACTTCTACCTCTGCCTAGCAACTGCCTGTCCAACATCAGACTGG
CTTCACTTTTGTTATTGATCTTTGTAGCCAAGGATAATTATTTCAAAACAATTATGTAATCCTTCTCATTTTTTCTTTAAAAACCTTTGTCCTCCTTTAC
CTCCCCAAATAGGTGCATAGTTTACTATGGCATGCACCTTCCCATTGCAGTGCTTTATCCCTAAATAAATAGCTTTTCTTTTAGAGAGTGTCTCTGTGTT
TGTTATTTCAGTTGACAGTAGCACAGAGGAAGATGACATSGAACAGAACTTTATACCAAGCACCCACCTCACTCCCATGCCAGGTCCTTGTGGACTAGAA
GAGCACAGACTAGAACACACACATCTTGGTCTCCAGGAGGTTAGAATCATAGATGCTTACTTGATTGCATGTAACCATCCCTGAACTGCAGAGTTTTACA
TGATGCTGTGATTAGAAGGAAGGTTTCCAGAACCATCACCTGAATCCCATACTCCATAGCAACATCAGAAGACTCACCTCAGGAAGGTCAATGTCTACAT
TTCCATCCATATCCCTGTAGGGGCAGAAAAACACACTGCCTCAATTGTGGATTAACTTCCCATTGGGATCTGCAGAGCTGAAGAGCCCAGAGCCTGGGAA
GGTTCTGTCCCTTTGAATCCCTTATTGTTCAGTGCTGTTTACATTTCACAGAGTTTGCAGACCCCATGCATTGACACCCCCACCCTTAGTCACTCAGACC
TTGCTCAGAATGTAAATAAGAGGGACAGCCATTGTGTTAGACCATTCTTGCATGGCTATAGAGAAATAACAGAGACTAGGTAATTTATAAAGAAAAGAGA
TTTGATTGGCTCATGGTTCTACAGGCTTTACAGGAGCACAGTGCTGGCATCCGTTCTGCTTCTAAGGAGGCCTCAGGAAACTTACAATTATTGCAGAAGG
TGAAGGGGGAGCAGGCAAGTCACATGGAAAAAGCAGGAGCAGGGTGGTATGGGGGAGTTGCCAAATACCCTTAAACAACCAGATCTCGTGCAAACTCACT
ATCGTGAAGACAGCACCAAGCCATGAGAGATCCGCCCCCATGACCCAAACACCTCCCATCAAGCCCCACCCCTAACACTGGGGATTACAATTCAACATCA
GATTTGGTGGGGACACATATTCAAACTCTATCATTCTGCTATGGGCCCTCAAATCTCATGTCCTTCTCACACTGCAAAATATAATTATGCCTTCCCAATA
ACCCCCAAAGTCTTAAGTCATTCCAGCATTAACTCAAAATTCCAAAGTCCAAAGTCTCAYCTGAGATAAGGCAAGTCCCATCACCTATGAGCCTGTCAAA
TCAAAATCAAGTTCCAAGATATACAAATTCCATTTTATACTTCCAAAATACAATGGGAGTATAGGCATTGGGTAAACATTCCCATTCCAAAAGGCCAAAA
GAAAGGGGCTACAGGCCCCATGCAAGTTTGAAACCCAGCAGGGCAGTCATTAAATCTTAAAGCTCCAAAGTGATCTCCTTTGACTCCATGTCCTACATCC
AGGGAACACTGGTACAAAGGGTGGGATCCCAAGGCCTTGGGAAGCTCTGTCCCTGTGACTTTGGCTGCTGTCATGGGTTGTTGAGTACCTGTGGCTTTTC
CAGGCTCAAGGTGCAAGCTGCCAGTGGATCCACCATTCTTGGGTCTGGAGGATGATGRCCGCCTTCCCACAGTTCCACTAGGCAGTACCCCAGTGGGGAC
TCTGTGCGAGACCTTGAACCTCACATTTCCCCATCTGCATAGCCCTAGTAGAAGTTCTCTGTGAGGGCTCTGTCCCTGCAGCARGCTTTTGCCTAGGCAT
GCAGGCTTTTCCATACATCCTCTGAAATCTAGGTGGAGGCTGCCAAGCCTCATTCAGTCTTGCACTCTGTGTGCCTGCAGGCTTAACACCATATGGAAGC
TGTCAAGGCTTATGGCTTGCACTCTTGCACCCTCTGAAGCAGTAGCCCAAACTGTATCTGGTGCCTTTGAGCAGAGACTGGAGCTGGAGCAGCTGGGATG
CAGGTAACAGTGTCCTGAGGCTGCATAGAGCAGTGGGGCCCTAGGCCTGGCCCATGAAGCCATTTTTTTCCTCTTAGGCCTCTCGGCCTGTGATGGGAGG
AGGTGCTGCTGCAAAGGTCTCTAAAATGCCTTTGAGGCCTTTTCCCCATTGTCTTGGTTATAGCACTTGGCTCTTTTTAGTTATGTAAATATCTCTAGCA
AGTGGTTGCTCCATAGCCTGCTTGAATTCCTCTCTCGAAAAAGCTTTTTCTTTCTCTGCTATATAGCCAGGCTGCAAATTTTCCAAATTTTTATGCCCTG
CTTCCCTTTTAAATGTATATATTCCAGCTTTAASTCATATCTTTGCTCCCATATCTGAGTATAGGTTGTTAGAAGCAGCCAGGTCACATCCTGAATGCTT
TGCTGCTTAGACATTTCTTCTTCCAGATACCCTAAATCATCACTATGACGTTCAAACTTCCACAGATCCCTAGGGCATGGACACAATTCAGCCAAGTTCT
TTGCTAGGGCATAACACACATAACCTTTGCTTCAGTTCCCAATGAGTTCCTCCTTTCCATCTGAGACCTCGGCAGCCTGAACTTCACTGTTCATATCACT
GTCAACAGTTAGGCCATAACTATTTAACCAGCCTCTAAGAAGTTATAAACTTTTCCTCATCTTCCTGTCTTCTTCTGAGGCCTTCAAACTCTTCCAACCT
CTGCCTGTTATCTACTTCCAAAGTCACTTCCACATTTTCAGTTATCTTTATAACAATGCCCCACTCTTCTGTACCAATTTTCTGTATTAGGCTGTTCTTG
TACTGCTATAAAGAAATACCTAASACTAATTTACAAAGAAAAGAGGTTCAATTGGCTTTACAAAGAAGCATGGTGTATTCCCTAGAAGTTAACTTAACTC
CTTGACTTCTAGGGAGACCTAGGAAACTACAATCATGGCAGAAGGGGGAAGAGTCATGTCACATGGCAAAAGCAGGAGCAGGGGTGGGGCAGGTGCCACA
TACTATTAACCACATCTCACAAGAATTCACTCAGTATCACGAGGATAGCACCAAGCCATGAGGGATCCACACCCATGACCCAAACATCTCCCACCAGGCT
CCACCTCCAACATTGGGGATTACAATTCAACTTCAGATTTGATGGGGACACATATTCAAACTAAATCAGCCATCACCAAGAACTTGTGAATTCTGGATTT
ATGAAACTAAAAGAAGTTAAGCCAGCAGTCACTCCTTATTTCTTTAATGTACTTTAACAAGGGCAACTGATAAAGTGTTTTGTAGAATAGCAGCACCTCC
AAAGACGCATAAACAGTGCAGTTGCATTACACATTCACTCTCCATGAACTTTGCATCTTCAAAGGAGATACATATCTGTTGGAGACCATTCAGCCTATTG
AGTGGTAGGCACTGGGGAGGGGGTGCATTTTAAAAGATTACAAAGTTGAATCAGAACCAAAAAAACCACCWTTTTTTTTAGACGGAGTCTCACTCTGTGG
CACAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTTTAAGTGATTCTCCTGCCTCAGCCTCCCAATTAGCTGGGATT
ACAGGCACGTGCCACCATGCCCAGCTAATTTTGTATTTTTAGTAGAGATAGGGTTTCTCTGTGTTGGCCAGGCTGGTCTCAAACTCCTGACTTCAGGTGA
TCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCTGGCCTAAAGAYCACCTTTTGAAGCTGCATCCCTAACTCCTGCCT
CTCATCACAGATGTAAATTCCTGATTCCACTGGTGGGGTTGGGGAGGGATGGGTGTCTCTGTGCTTATGTTAGGGAAAAAGAGGAAAAATGATGCAATCA
TGTTTTTTTGCTATTCACATATTTAGGGGGACTTGTAATATTTGGATAGTAGTAATATTAAGAGGAGGAGCAGGCTTCAGCTTTTGATGATGCTAAAAAC
ATTTGGAAGAATACAGTCTCATAGACTAAAACTTGAAGGGCTCTCAAAGAAAAACTGATACAAAGTCAAAGGGAATACAAATAAACATTAACATCAATTG
GGGGTAGTCCTCCCTTTCCTCCTCATCCCCTGGGCATCCATAACATAACCCTTTCAGAACTTCTGTTTGTTTAATCAGGAGTCTGTCTGAGAGCTAAACC
AATGCRAACACAGCTCAGTGTGAATTTTTGTTACCAAGCTACAGAGCTGATTCTTATACTCAATATCATAGCAGATTAAAGAATCTTGTTCAGAGCAAGA
TTGAGTATGGAGTTTTTTGCCATGTACAAGTCACCTTATGCATGTCAGTGACTCTGAGCTCACCCCACTAATAAGATAGAGAACAAGAGGCATGGCATTG
GCATAACTTGGGTCTCTCTTGTTCTTGCCACCCATAAGAGATGTCAATCTGCATGGATCTCATACAGGGTACTTTTGTGTGAACAGATACTAGGATATTC
ATCCCCATCTTGTACTAGTATCTGGGAGAAGGCTGGAGAAAAATTCTCTGGTAGAGTGTTTAAAAATTAAAGACTTTTCTGCATCTATTTAGCCAAGAGA
AAGAACCATGCCTTTTGTAATCAGCTTGGGAAACCCCACTAGACTTCATAATTGAGAGTCTTTTCAATGCATGCCACCAATCTAATTCTCTCTCACTAAA
CGAAAGATGAAACTAGAGTGAGTCATGTATTCACAGCTGTCTCTCTTGTTAACTCTGTGCAGATTGATCTTTTGTTGGAGACTTATCTAGCTTAAATACA
GAATTAGCAGATTTTAGCGTTCTCCTTAATCTTTAGAATATTGTCATCGGGAAAAGAAATGGATTCCTCTGTCTTGAACCATTTTTCCCCCTGTGCCACA
GAGCAACCAATGGTGAATGGGCAGTAATGGGAAACATTTTCCATAGAAGTAACTGATATAAAGTAATTTCGCTAAGACACTGTGAGGAAAATGTGGTGGA
ATATTGGGTATGTAAAATGAGAGGCAGATTTGCCAACATTTATTTAAATTGGAGCTGAAAGAACATGTCATTCTTGAAATTTGCAATAGCCACCCCCTTC
ATCATGCCCAGAAATGTCTAGCATCCCTGCATGTGGCTCTTATCCAAGAAGCTTCTTGGTAATAGGGTCTGAAAAATGAAGGTCTCCACCCAAGAATGTC
TTGTGAGCATGACTCTGGGACCAGTAGAAAACAGCAACTTTTCAATGGTTTGCTTGAGGGAGCGAGGAGCAGAGCTAGAAGGGATATGTGCCTTGCCTTG
CAGATAAGCTAAGAAAGTGTCCTGCAGCCTGGCGTGGTGGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTAAGGTCAGG
AGTTCGAGACCAGCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAATTAGCCGGGTGTGGTGGTGGGTGCCTGTAATCCTTGCTA
CTCGGGAGGATGAGCCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATGGCACCATTGCACTCCAGCCTGGGCAACAAGAGTGA
AACTTCATTTCAAAAAAAAAAATTAATAATAAATAAAAGAAAAGAAAGAAACCATCCTGCCTTGTTTCTCAGGTACACATGGGAAAGGGAAGAATGGAGT
CTTGGCTCCAGCAGTTCCCAGGTGACTTCTGTGTGAATAAACCACTAAAAGAAGTGGGATTCTGGAAGCTGTTCCTCTGACTCACCGGGTAATGGCTTTT
TTCTCTGAAAAGATTCTCAGACAGAAATCAGCTTCCTGGTGGGGCTCAAAAGTGCTGGGAATCMGGATGTACTCCCCAGGGGGCAGCTTGAACCGGTCGG
AGACTTCTCTCAGGTTGATGAACGTCTTGCTTCTGGCCCGAGAAGCGTGGTATCTGAAGAAGTCTTTGTTCAGGTGTTCRTCTTTGTCAGGGCACTGCAA
TGGGCAAGAAAGGGAGGGGTTTCCTAGGGAAGTTCCTCTTGGCTTTTCGGACACAATTCATGGACTCTTGGTTGAGTCTCGGGTGTGAGACCGAGGAGGA
GCCGCGAATTTAGAACTCAGATGGAGAACTCTGAAATGCAGTGTGGTTCCCACCTACCTCATAAATGGCATAGCCGATTGTCAGCACATTGGCACCAAAT
CTCTTGAGTTTCCTTCTATCTTTCTGCATCAGGGCTACAAGGAAACTACACTCCTCCTGCCCCTCATCTTTCTCAGTCAGAGACAATTTTATTTGTGGAT
TGGTCCAAAAGGTATCTGTCATTTGGGAGAGGTAGATTATTTTCCCCTTTTAAAAAACAACCCACAAAGACCACACACACACACACACACACACACACAC
ACACACGCACATACACCTATCTGCCCTCATTATATGTCCTACCAAACATGAGAAAGTAATACCTTCTCTCCCTGTTCAATAAGTCCTCCTACCCTACTTT
TGATAATCCCCAACGGGAATGCAAAATATCCTCTCTTTCATTTCCACCTTCTCTTCAACCATTTCCTATGCAGTTTCTTAAGGACATTCTTCTGGGTCTA
GTCTGCTAAAGCTTGTTCTATCAGTTTTTTTTCCACTTAGTATTTCAAAGGAGAGTGCAGTGGACTTCTGGTTGTCCCCCTGGCATCTACTTGATGGTGG
GCCGTTTGAGTAGGATTGACCTCGAGCACTGCTCCAGCATGAATTCTGATTGGTCTGTGCCAGTCCTTTTTGCCACCGAGGATTGGACAAAGCCAATCAA
TGCATAGCATTCACTGGACAATATTAGTTCAAGGAATTTCCAATTAGAGGGAAGTTGAGGGCTTTTTTTTGATACCCCCAGGAGCTCTTGCTGTTCGTGT
GAATGAGGGCTCAGGAAGCCCTGGATACTGCTGCCAGCCCTCCTGTGATTATAAAGAAAGCCAGACAGAGAAAGAAGTCAACACATAAAAGAGGGCAGAA
CAGTGAATTACAAGCAAATGGAACCAGGGCCCTGATAGAACTGTGCCTGAAGCCCACCCTACTTTTCCTCTGAGCTCTTCAATTATGTGAGATAACAAAT
CCTTTCTATTGCTAAACTGGCATGAGTCATGCTTTCCATTACTTGTAATGGAAAATAACCTAAGTGGTAAAACAAAGGAGGTTTCCCCAAACAATTCTTA
TCCAACTAAATCTTTGCAGCCTTTTTTCCCCAGTCACTTTTGAAACCTTACTATGTTTCAGGCTTTCTCTGAGGACCCGGCCCTTATCCTTTGGTGTCCT
GAGTTGGAAGGGACACTTGGGAGTGGCAGAGAGAGTGACAGGCAGCCTACCTACCCAGGAAATTGCGGCAGCCCCCAGCCGTGGAGCCGCGAACCCAGCT
TCCCTGATGGACCGTCACCTCCCATTTGTGGATCGCGTCTTCCTYCAGGGCATCGGGAGTGAGGTTGCAGATCTCCACTTTATCAAAKTGGGCCTTGAAG
TCCTKAAATGCCATCCTGCAGCAAAGCKGAGAGACACGATGCACAGGAGGGCAAGAGTGAGGGCATCATCCATTCACTCATTCATTAAATCATTCACTTA
TTCATTAAATCATCTTGTTCCTGTCCGCAAGGAGTGGGGGGACTGCAAAGTGTGGGGAGATGGAAAATTTTTTAAAAGTAAAATAAAGGTTAAAAAGGTA
AAAACCAGGCTAAAAATATAGATTGATTGTAGATGTTAAGTGCTACAGAGAAAAACCAAATTGGGCTGAAGGATGGGAGCGTAGGGGTGGGATGCTATTT
TAAACAGGGAGGTAAGAGAAGCCCTTACTGATGGGGCACATTCTGAGTGGAGACCTGAACTACCAGGTCCTGGGCAGGGCAGCTCTCTGGGGGTCTAGGC
AGATGGACAGCAAGGCCCCGAGGCAGAGAGGTGCTTGAGGTGCTCACAGAACACCAGGAAGGCACGAGGTGTCTGTAAGGAATAAGATCAAGAGATCATA
GTACGTCAAATAGGTATAGGGATTTTGGCTTTGACTCTGAGAAGATGGAGAGCTTTTAGAAGGCAGTAAACAGAGGAGTCACATGCTCCATGGCTGCTGT
GTTGAGAACAGACTTTGGGGACACAAGTGGAAGCAGAGAGGCAGCTAGGAAGTTAGTGCCGGTGTCCAAGTGAGAGACAAGGGTGGCTTGGTCCAGGCTG
ATGGTATGGGAGGTGATGAACAGTGGCCAGATTTGAGACACATTCCAAAGGTAAATTTTATAGGATTTGCTAATGGACTGGATGTGGGGAAGGAGCGAAT
GAAAGGAATCAGGATGTTTGATTTGAGTGACTGGAAGGATGGAGATGGGGAAGGCTGTGGTGGGGCAGTTTGAGAGAGAAGCTCAGGAGGTCAGGTTTGG
GCACGTGAATGTGAGATGTCTATTATACATTCAAGGAGAGATGTTAAAGTAGACCATTGAATATGTGACTCTGGAATCCTGGGGAAAGGAGCTGAAGATA
GAAACCTGAGAATTAGTGTAAAGATAGTTTTTAAAGTCAAGAGACCAGACGAGACGCCTAAAGAGTGGGAATAGACAGCCAGGAGGGGGACCATGGATGG
GGTCCTGGGACACCTCAGTGCTAACAGGTTAGGGAGATGAGAGGGGGCCAGGACAGGATGTTGAGAAGGAGCTCAGGTAGGAGGAGGACCACCAGGGCGT
GTGGTCCCCCGCAATCCAGCACGTCAAGGGCTCCTGATGGATCAAGATAATCTGATCGAGCAAAGTGAGAGTCGGTGGCGTCCCTGGCAAGATCAGGGTK
AGTGGGGTGGTGGGGCACACTCATAGCTGAGTGGAGTCGAGAGAGTAAGGGAGAAGAGGAACTGGCGGGCTTGCTGTAGAGGACAGGAGAGAGCTGGGTT
GGTCACTTGAGTGGGTCAAGAGAGGCTTTTTTTTTCTTTGCAGGTAGGAGAAATGATAGTGTTGGAGTGCTAAGGGGAATGATTCAGAAGAAGGGGGGAA
TTCATACGTAAGGGGAGAGAAGAGAGTTGCAGGAGGTACATCCTAGAGCYGGTGAAGAATGGAAAGAGGCTACACAGGGCTTCAGAGTCAGGATTCCAGG
AGGAAGGGCTCCACGCACAGAGTGCATGATTTAACACCACCCATCACCTTGGGCAGGCTCAGCCCWGGTGTTGGGGCTGCTCCTTCAAGAGGGGCAGGGC
AATGGATCACTCACATGGACGCTCTTCTTTGTGGAGCYTCCTGCTGTGAATTTCCGAGTTTCCTCTGCCCGGCTTCTCCCACCGTCTGCAYCAGACCTTC
TTTCCACTAGCCTGACCTCAGGTAGCCTCTCAAACTCTGGTTTCTACCTCCTGCTCATATGCAGCAATTACTGTGATGKTACTAATTCCAGAACTCAGCT
TTCTTCCTGCAGTTTTTGCTCCTCTCTTGTAACCCCCTAACTCAAAGTCCCCTGTACTTCAAAATTCAAAGTTTATCTGTAATTTCTAATTTGACAGCTT
GGGAATCTCTCAAGCACCCTGCATGTGTTCCACAAATCTGGGGAACCTAAACCCTCATGGTTCCCGAGGCAGAGATGGCTGGCAGTCATCAGCACAGGAC
CAAGACTGCACCCCACTCCTTCCATTTGGGAGTAGAATGTGAGCCGTGACGCATTTACTTCTGAGTCAAGATTTTTAGAAAGTGAGAGTGTCTTTTTCAA
TGTTTTATTTTATTCTTCTCTTCTGCTGGCTATGTGCAGATGATGACGTGACCYTAGAAGATGGCAGAGCCACACAATAGAAGGCGTTTGGGTTCCTGAA
TCACTGTATGAACAGAGCCACCCACAGAATATGAACATCCTCCCTGGACTGTCATAATGAGTGAGGAAAAAACTTTACTGTGTTTGAGCCTTTATATATT
TGGGGTCTATTCACTACTGCAGCTAGTGTTACCTTGAGTCATTGGTGCCTTGAATTACAGAACTGCCACAACGAAATTCTAAAATATGTTAGCAGTTGAG
CAAGAGGGATCATGGAACTGTTCGAGCTGGAAAATGGTTATCTATGTTATGCAGTGGCAAAACATTGGGTAAATCTGTTGCATGTTGTTATGGACTGAAT
GTTTGTGGTCTCCCCTAAATTCATATGTTGAATCCTAACCCTCGAAGTAGTAGTGTCAGGAGGTGGGGCCTTTGGGAGGTGACTAGGTTGTGAGGGTGGA
GCCCTCATGGATGGGGTTAGTGCCATTATAAAAGAGGCCCCAGAGAGCTGCCTTGCCCTCTTTCTACCATGTGAGGACAGAGTGAGAAGGATCCATCTAT
AAATCAGAAACAGGGCCCTCCACAGATACAGGTACTGCCTGTGTCATCTTCTTGGACTTCCTGGTATCTAGAACTGTGAGAAATAAATTCCTGTTCTTTG
TAAGCCACTCAGTCTATGGTATTTTTTTATAGCCACCCAAATAGACTAAGACAACTATAAAAATACAGAAGGCAGAACAAATCACTACTGAGGCTGTGTT
CTATGGGAAAAGAATGAAAAAGGCTGGAATAGTCATGGTTTTGGGTTGTAGTATTTTTTTTTTTTTTTTTTGAGATGGAGTATCACTCTGTTGTCCAGGC
TAGAGTGCAGTGATGCAATCTCGGCTCACTGCAAGCTCCACCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTATAGGCAC
TCACCACCACCCCTGGCTAATTTTTTGTATTTTTAGCAGGGGTGGGGTTTCACTGTGTTAGCCAGGATGGTTTCAATCTCCTGACCTCGTGATCCACCCG
CCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCTGCTGTTGTATTTTAAAAGCTGTTACAAGAAAGAGATGAGCTCAGGCAAGAC
TTGATTGGTTGGAGCACATGAAAGGGAATAGAGCCAGAAACCAGAAATTTGTGGTCTCACAGGGTTAGAAGGGCCAACTTCTAGAACCCAAACAGGAAGA
AATAAGACTGAAAAAGATTCTAGAGATGAAGGCCCAATACAAATGTTCAATTAAACAAAGAGATTCAGGCCAAGGGAAAGTCCAGAGTAGAAATGTTTAC
TTCCTACGTAGGTCGATATCTTTAGATGCTCTCAGGGCAGCTGCCTTCAAAGGTACCTCTCATCAAGATGGGTGTGGAGGGAATGGATCCTGTGAGCAGT
AGGGCTGCCTGTCTTCAAATTCACTGTGTAAACCTGGATGACAAAGAGTGCCAAGGAGGTGTGTCAGGCTAGAGACCAGAGGCTCTTCCTCTATTGGATT
GCAGGAACCCCCTGAAGACTCTTCAACAAACCGAGAGCTGGGGTGAGCCCCCACCAAGACAGGAGGGAGATTAAATTTCCCTCTAATCTGGGTGTATATG
AGGAGTCTGAGACAGATGAATTTGATTTGCCAAAAATGGAGAGAGAAGGCTGGGCGTGGTRGCTCATACCTGTAATTCCAGCACTTTGGGAGGCCAAGGT
GGGTGGTTTCTCTGAGGTCAGGGGTTCGAGACTAGCCTGGCCAACACGGTGAAACCCCATCTCTACTAMAGATACAAAATGAGTCGGGCGTGGTGGCGCA
TGCCTGTACTCTCAGCTGCTTGGGAGGCTGARGCAGGAGTATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGACGAGATCGCACCACTGCACTCCAG
CCTGGGCAATAAGAACAAAACTCCGTCTCAAAAAAAAAAAAAAAAAAAGAAAGAAAGAAAGAAAAAGGAAAGCGAGAGAGAAGCACAGTGCTCCTTACGC
CCCAGGGCCATGGGACTTGCTCGTATCTGCAGTTAACACAGGAACAAGCACGGTACCAGAATTCCCCATCATCCAGAGCAGTGTGACACAGACGYTTCTG
CTCAGCTGGACCAACAGAACGCCACTCCGGAGAACTAGGAGTAAACAAAATTGGTGTTCAGGCAGAGGTCATGATGAAGAGCAACAATGGCCTTGATGTG
GAACCCACAGTGTGCGGTTATGGAGGAAATAAGACCTGCTTAGTAACTACTCACTGGGTCCCAAAAATGCACCCAGGGATGTAGCGGCAGGTGAGCCACT
GGCCCCCAAATAAGAGGGCTGGTCAGAAAGTACATCTCCAAGTGTTGCTGATGGATAAAATACCCCTGAGGATGATCTGAACCACCGACATGGAAGATTA
TCTTGGGATAGTCACAAGGCATTGCATGCCCGTGGGGTAGCAGAAGAGCCCGGCTGGAAGCCACAAGTCTGCTGACTTTCGTGCTTGGCCTCCAACTTGC
CATGTGACCTGGAGCAGTACTTGGCCCTTCCTTAATGGACAAGCTGACACTTGGAAAGGTGATAATGCCTTACACCTGCCCATGCTTGATGTTGTCTGTA
CCCGGCACCTTTTGTATGTGACCTCGCTGGCAAGCCAGGTGGGGTTCTGTGAGCTAGGTGTGCCCGTCCTGCAGATAAGAGGGCTCAGGTAGGCCCATGG
AAACACTCTCAGGGAAGAGTAGGGGTAGGAATGGCTGCCTGTCACTCTCCAAACTCAGGATTTGTGACTCCAAGTTCATTGCATTTTCTGTGACTCCCAC
AGCCGCCTCCAAATAGTTCAAAGTAGGTCACCACTGTTGCGGTGCTACAGCCAACGTGGCAGCTCCCTCTCATCCTGTGATCTCAACTCAACCTCAGGGG
AGTGCTCAGGTGATCCAAGGGGAGGATCAGCCGGGACCTGTCTCCAGGTGCTCGGGCCAGGGTCAGAAGAGTGGAACTGGCAGCCATTATTTTCTTTTGG
AGCCATTATCCTAAGTGGCTCACACCCAGATAATTGGCCTGACAGGCTGGCCATGCGGTGCCTTCAACCCTACTCACATGTCACCAGCAGCACAGCRAAG
TCAGGGARTCGGGAYGGCGCCTGCCCCTCCCATCACCCATGGAGGCTGCATGAGTGGAAGACAAATTTTATTCCAGCCTTGGCTCTCAGTCMCTTTCTTG
ATTTCTACCTCTGTGAGTCCCAGAAAATGGGAGACAATGGCCCATTTTCCCTTTATAGGCTACGATCTCAAAGTTGAGGGGCACTGCACATCTTACAACG
TGACGCAGTCTCACTAATTTTGGTTTCAGTAGTTCTCTGTGCTTTCCATTTCTGCCAGGAGAGGGAGGCCAATCTCTTTCCTCCTCAACCCATCTCAGCT
CATCTCTGCCAATGCTTCTTGGTTCTCAGAAGGCGGCAGCCAAGGCCAGAGCAGAGGATGGTGGGACGAGAGCCTCCATGGGGACMATGACAGCCTGGAA
AGCACAGGCCTGTGTGCCCTGCCCTCACGCTGGGGTCTGGCTAATACAGCAGCGGCTGCACCATGTCTGGYGACCTGGTAGCTGTGTCTGGACTGAAGAC
AAACACTGGCTCAGTTTTAACCAAGTTCTAGACTAGCTTCAGATTTCCCCAGAAGCTCAGGGGCCATGGATGTGGCAGGAAAGGGCTTCAGGAGCCCAAC
AAGCAGCGGACGAGCAACAGCYTCAGGCAGGCCCTGCCACGCACCCACACAAACATCCCTGGTTCTTAGTCACCTGGTCCACTTCCCAAGGGACCAGAGC
TGGAGGAGCTGTGGGGACACACACAGAAAAGGCAGACCTTTCTTGATAACTGGGGGCCAAAACTCTGGTTAACAGCTCTGTAATAGATAAAATTCCAATT
CCATGTCCTCTATTTTTTTTCCTTTAAAAAAAAAAAAAAAAAGAGATGGGGTCAACATGCTCTGTTGCCCAGGCTGGAATGCAGTGGTGCAATCATAGCT
CCCTGCAGCCTCAATCTCTCATACTCAAGTGATCCTCCCACCTCGGCTTGCTGACGTGTTGGAATTATAGGCATGAGCCACCATGCTCAGCCTCACTTCT
ATTTCTCTGCTGGGCTATTGGGCCTCTGCCATGGTCAGTGACCATCAGAGAGAATCCTATAGTTACATGCTAGGTAATATTTCAGGGATTCCGACACTCC
AAATACACACACACACACAAACACACACGCAYTTATGCATATGCACACTGCTTACTGGAGTTACTCACAACTACAGATAAAGCTTTTCACCATATCACTG
GGTTATAAACATCACCATGGGAGGTAACACATTTATGTATTGACATAAATACAATTCGTGAAAGTTAGAGTGCTGTTGTAAAAGTCTTTCTTGAGAATCA
ACCTTGATGCAAGGTGGGCCTGAGGGCTGAAAGGGGAGGAAGAAGGGGCACCTCAGAATCRGGACAGGATCCTGAGTCAGAGCCCGGGAGGATAGTAGAC
AGGCCACTCCTTCACATGTCTGCACAAGCCAGCTYTGGCCCCACACGCCCCGGGAACCAGCCAGAGAGGCAGGATAGGGTGACTGACCTGTCGCTCCAYG
ACCCGTTCCACTCAACCTGGCCCCAAGGGTTCCGGATTCGGATGAGCTCGATTCTCTGGCCTCGGAAGCTTACCTAGAAGGGAAAAGCATGAGGGAAGTG
TGAAATGATAAATATGGTGGAGGTTTGGCCACATTCATCTATGAGCTCCAGGTGGACCAGCTCCATCCAGAACTGGTTCTGTTGAAAGTCTCTTGCCTAA
AATGCTGCTGAAGGTATGTAGAAGTTCGCCAGTTCTTAACCAGCCCTTGGAACCTTCTAATTCCTATTGAATAATTGCTACTATTGCCAATGATATTATA
TTAAGCACCAAAATGCTTATGCCACATCTGGGAAGTAAAGTAGAATTGCAATTAACAAGAAATTAGTCCATATGAATCTAAAAATGGGTTTCTCTCTAGA
CTTGGATCTCCCTAGAGGCAGGAGCCAAGTCTTAGGCATCTTCAGCATCTAGCAGARTGAATGGTAAAGAGTAGTCCTCAAAGGTGCTCATGGAACTATT
ACTGAACTTTCTTCATCCTAGCATCCCATGCACAGATGAATGATAAGAAAATAAGCACATGTTGGGGATTTAAACACAACAATAAACAAAAACAGCTTTT
AYGTCTTCTAGACCCAATATTCTCCTTATTTCAGGTGTCTGTGAGGATTCCTGCTGTTCACCTCAATCACCCTTGAGCCTGTGTGCCCTCAGGCTCTGCC
TGGGAGCAGGGACAAGGGCCAATGCATTTGAGAAGGGTTTTAGAGGAGAGAGRGTGAAAGTAAAAGACTTCTAGTTATCRACTAACCAGAAACTGTAGCA
GTCAGAATGTTTTATCCTCATGCATTTGGCATAAATTATATTTTGGATGTGTAAAAATTCAAGTAACATCAACTCTTCRGAGTCCAAGATGTGGCTTGTG
GCTCACCATTAAAGGGGCTCATTTAATTTGAAAGGTTCAGGGCAGGTGAGTTCCTTGTAGGGGGGAGAGGAAGCAAAATCAAGCAAACCAAGATGATGAG
AGGTTTCTGTTGTTACGTGGAATACGTAGAAGATCTAACCTAGAAACATCACATGCCYGCTTGAGTGAGCAATCTGCAAGTCATCTATGGATGGTGAAGG
AGGACAAAGGAGCCAACACAAATAGCTAACATTCTAAAGAATCCCAAAGAGTCCAAYGGCGTCTCACACCTTGGCTCCAGTGAGGAGGAAGGGCAGRGTC
TCCCTTCAGTGTTCTTTACTCCCCACGCATTCAGAGGATGTCACTCAAAAGGTGGGTGGCTACAGAAGACCAGGTGCATCTGCACCTTCTAAGTACTGGG
CTTGAGACTGGTCCAGGGAGGCATGGAGTGGGCAAGGCAGGCTGCTGGGCTTTGCTGAGCTTGAGTCTGGCAGAGTGATACCTTTGGCTTCTTGTCCTCC
TCTTTCATTCAATTCTTTCTTWCTCTTCCCCTTGTGCCCCTCAAGGATCTCTCCTCCTAACCAACAGCTCCCTTGAAGTCAGGGTGGTGCTGTGTGGAGT
CTGGGTGTCCCCCAGGATCAGTTCCACCCTGGGCTACAGCTACAAGAATGGGACTCGTGGTGATTAATTTTATGTGTCAACTTGACTGGGCCATGGGGTG
CCCAGATATTTGCTTTAAGGTTATTCTGGTTGTGTCTGCAAGGGTGCTTCTGGGTGACATGAAATTTAAGTTGATTGAGTAAAACAGATTGCCCTCCCCA
GTGTAGGTGGGCCTCATCTCATCTGTGAAGACCTGACCWGAACAAAAAGGCAGAGGAAGGGGGAATTCACTCTCTCTTCCTGGGTGCCTGAGCTGGGACA
TCCGTCTCTCCTGCCCTCAGACTGGGACTTTTACCATTGGTGTTCCTGGTGGCTAGGCCTTCCTTTCAGACTCAGACCAGAACTACACCACTGGCTTTCT
TGGGCCTCCAGTTTGCAGAGAGCAGATCGTGGGACTTCTTACTCTTCACAATTGCATGAGCCAATGCCTTACAATAAATCGTATTACAGGTGATCCTGGA
ACAATGTCAGGGGTTGGGGTGCCAACCCTCCTGCATTGTCAAAAAATCTTGTATTCCCTAAAGCTGAACTCCGAATAGCCTACCATTGACCAGAAGTCTT
ATCGATAACRTAAAGAACCAATTAACATGTTTTATAATTATTTATATTATATACTGTATTCTTACAATAAATAAGCCAGAGAAAAGAAATGTTATCAAGA
AAATCATAGGGAAGAGGAAATACATTTACTATTTATTAAGTGGAACTGGGTMATTGTAAAGGTCTTCATCCTTATTATCTTCAYGTTGAGTAGGCTGAGA
AGGAGGAGGAGGAGTTGGTCTTGCTGTCTCAGGGGTGGTAGAGATGGAAGAAAATCCCCATATAAGTTCAAGCCTGTGTTGCTCAAGGGTCAACTGTGTG
ATGTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGGTGTGTGTGTGTTTAATTGTATGTATATATATTT
GGTTCCCTAGTGATTCTATTTCTCTGAAGAATCCTGACTAACACAGGACTGAAGGAGAATTGGGAAAGAAAGGAAATTAAAAATAAACAAAGACCAGGCG
CTTACAGCTGCTAAACGAGTTTTGTGCTGCGGTGGAATCACATGGTTTCTCTCTTTCCTGGCTTGCCGTTTTGAATTCCAGCCTGCCTCTTTAGGTGACA
TAATCTCTGAAATGCCTGAAAGGCAGACATTTAAACTGCAATGCACTGAATAAATGCCTAAGGGATTAGCATTGTCACATGTCTCCCCATAGCCTGCAGT
TGGAGTTCAAGTCGCCTACCTGGTCAATTCCCGTTACACTGTAGGCATGACCCTTAATAAGACCAAACGGCGTCCGGGCCTCAGATTCTGCAGYACTTCT
GGTCTAAAACATGGRAARAGCAGMGTCACACCCACCGTCTAAGTCAAGCCTCCCCTGCTGGATCAGACCCAGCTACATGCCTGGCCCRGTCACAACCTCC
AGCCCCTTCTGCTGCCCCAGGTGCAGGCCATGTGCGTGGGCTATGCACGGGGCTCCCCTAGGATGTTTAGCAGTGACATGAAGCAAGTTCCAGTCTCTTC
CCAGGATGGGGAGGCGCTCGCTTCCAGTGTGGACTCCAAAGAACAGTTCACTATTTTGTCCCCAAACAGAACAACTTGTCACCTTCATGTAGTATAGTGT
GAGAGAGAAGACACAATCACATACATCCCAGAGACGAAAAGAAGAATATAACAACAGGACACACAGCTCTGCGTCACAAACCTGAAAGTGCAGAGGAACT
GGCTAATTCATTAGCAAAAAACAGACCCCAAGGCTAATCTAAGAGGAAACAGAAAACTAGAATTGATTAAAAAAAATACATAGTGTCATAGCAGTCCATA
AAAAACAACAAAAAGTTTTAAAAAGATGAGATAAAATTATAAGTGTGTGTGTTTGTATGCATAGAGAAAATTTTAAAAAATATCATTAGACTTCTATCTG
CTATTTTTTTCATAGTACATGAAATGAAAAAAAAAAAACAAATTTCAGAAAACTAGATAGRAAGATCCCRTTTCAGTAAAATCAAACCAACTGACCTTGA
TGTTTGTGTGTGGAAGTGTGTGCCTGTTTGTACGAGCAGATAGAGAGCTGGGAAGGATACAGGCCAGGTGATCCCAGTCCCAGGGTGGAGCTGGAGAACA
GAGGCAGCTGAGAAACGGGTGGGAGGGAGGTAAAAATGCGCCTGTATGGGCCTCAAGATTGTTCCATCTGATACAGCAAGTACATCTTACCTTTGTTATT
TGACGACTATTAAATAAAAACTTGTGTTTTATTTGTTATTTATTTATTAGAGACAGGGTCTTGATCTGTCACCCAGCCTGGAGAGCAGTGACACGATCAT
AGTTCACTGCGGCCTCAAACTCCTGGGCTCAAGGGATCCTCCTGCCTCAGACTCCAGACACACACCACCATGCTTGGTTAAAACTTGTGTTTTATTTATT
TATTTTTATTTTATTTTATTTTATTTTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTATWCTTTAAGTTTTAGGGTACATGTGCA
CAACGTGCAGGTTTGTTACATATGTATACCTGTGCCATGTTGGTGTGCTGCACCCATTAACTAGTCATTTAGCACTAGGTATATCTCCTAATGCTATCCC
TCCCACCTCCCCCCAAAACTTGTGTTTTAATTAGCAGGAATAAACACTGCCCCCAAGAGTTATGCCCCTCCTTGGGTGTGGCTGGGGTACCTGGTACAGC
CCCAGCATAGTGCCTGGAATGCACTATGCAGCCYCAGCATAGTGCCTGGAATGGGAGCCCATGAGCAACTTACATCARTGAAGCAGCCCAGCAGGGAGCC
TCTCTTCAAAGCCTTCTCTAGAATCTCATAGAAGTTCTCGGGGGCCTCTTTAGTTTGGAAGGTCTCTGCCACACCCCCRGTGAAGTCTTCCATGGCCTCG
ATGGCGCTGCCTCCCTTCAGAGCTTCATAGCTCCCATTTAGCCTGCAAGGGTGGCAAGAGAGAGAGGAGAGAGTCAGGGACCTAGGGAGGCCACYRGGGC
ACCCTGCTTTCAGAGCTTTTCTAACTAAGCCTGAAGCATCTCCCAGGGCTTGCCCTGGCTGGGTGGTGTGGAAGGAAGACGGGAAGCAAGTTATCAGGGT
TTGTTTGGAGCTTCGAGGAAGCCAAAGATCCTGACCTTCCTGCAAGGGAGGCAGTGTGGTGTGGTGGTATAGAGCAGCAGCTCTGGTGCCTGAGTGGCCG
CAGGTTCAAATCCTGGTTCTACGACTTACCATCTGAATGACCAAGTCGCTAGTGCCTTCATTTTCTTATATGCAAAATGGGGGAGAGAGTTGTGCTCTCC
CTTCTAGGACTGCTGTGAGGTTCAAATCGTGTGTCTCACTCTCTAACCTCCCATGGAACGGGGCCTGGCTATGTGGATAGAGAGAGGCCCTTTCCCTTCT
TCTCTGGTCTCACATACTCCTAACCATTTTTGTCATAGTCATCTCTTTTATTCATATGCATTTTACATATATGTGCTCTGCTTGATTTTTAAATAAGCTT
TTCAATTTAGAATTTTAGAATCTGGTGGGAGGTGACTGAATTATGGAGGCGGGTCTTTCCTGCACTGTTCTTGTGATAGTGAATGAGTCTCATCAGATCT
GATGGTTTTAAAAATGGGAATTTCCCTGCCCAAGCCCTCTTTGCCTGCCACCATCCATGTAAGATGTGACTTGCTCCTCCTTGTCTTCTGCCATTATTGT
GAATCCTTCCCAGCCACGTGGAACTGTGAGTCCAATTGAATGTCTTTCTTTTGTAAATTGCCCAGTCTAGGGTATGTTTTTATCAGCAGTGTGAAAACAG
ACTTAATACAATAGCTTATTTGGGCTTCTTTAGTTTTTACCTAATGTCCTTTTTCTGTTCCAGAATCCCACCCAGGACCCCACACTGCACTGAGTCCTCA
CATATCCTTAGGCTTTTTGTGGCTGTGACAGTTTATAAGACTGTCCTTGTTTTTGATGACCTTGACGGTTTTGAGGAGTCCTGGGCAGGCATACTGCAGG
ATTAGAATTTGTCTAATGTTTTTTCTCCTGGTAAGACTAGGGCTATTAAAGAAATGATAAATGCTTGAGGTGATAAGTATCTCAATTACCCTGATTTGAT
CATCGCACATTGTGCGCTTGTAATCAGAATATCAAATGTGCCCCATCAATATGTATACTATTATGCACTATTATGCATCCATAAAAATAAAAAATGAAAC
ATTTTTTAAAAATTAAAAAAATAGCTGGGTGTGGTGGTTGGTGCCTGTAATCCCAGCATTTCGGGAGGCTGAGGCAGGAGAATCACTTGAGCCCAGGAGT
TGCAGGCTGCAGTGAGCTATTACGGTGCCACTGCACTCTAGTCTGGGTGAGAGAGCAAGACCCTGTCTCCAAAAAAAAGTAAATAATAATAAAAAAAAGA
GTGGGGCTATTGGTTAGTGGAAGGAAGACCGGAGAGGTAAAGCTSCCCTCTCATCTCATSATATCAAGAGTACCTGCCGTCCACATGCCTTACCACAGCT
GATGCTGGCCTTGATCACCTGGCTAAGGTAGTGTTAGTCAGGTGTCTCCACTGGAAAGTTGCTCCTTCTCTCCCCTTTCCATGCTGAACTCTTTGGAAGG
AATCATTATGTGAAGGCCGCATGAAAAAATCAGGGAGTTATACTCCACCTCCTCAAGGATGGAATATAAACATAATTTATTTGGAATTATTCTACACAGG
ATATATGTTCCTTCTTCCACATTTATTTATACAATCATTTATTCAAATTAGTATGAACCCATTGATATTTATTTTCTACTTGGGTTTATTTTGTGTTTTT
TTGTTTTGTTTTGTTTTTGTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTTACTGCAACCTCTACCTCCTG
GGTTCAAGTGGTTCTGCTGCCTTAGCCTCCCGAGTAGTTGGGATTACAAGCATGCACCACCATGCCTGGCTAATTTGTGTATTTTTAGTAGAGACTGAGT
TTCATCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCTACTTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTCACTGCAC
CCAGCTTCTACTTGGGTTCATAATCCAGTACTGCTTTGTCTATTTCGTTGGTTGAATTCTTCTAGCTTTGGCTGTTTGGAGCTCCTTCAGTATGCTCTTG
TGCCCTTTTGGCATAACCTCATTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTTGCATGTGTTCTCATTTTCTGGCACTAT
AAGATGATCTAGGTTCATTTTATGTATGTATGTATATATGTATGTGTATATATATGTATGTATGTGTGTATGCCCCAGTCCTAGAATCAGCCTTATCTCC
AAGAAGCCCCAGTTCCTTTGATTGAAGAATGATCTTAGAAACCAAGACTTGAGACATAGGTGTGCTTGTTGCTACAGGATTGTCATTGCTTCTAGTTCCT
CTCACTGACAAAGCAAGGAAATACATATGTGTATGATAACCCAAGTATAGATCAATATATATGTGTATGATAACCCATGTACAGATCCATGTATCTCTAC
ATAACCATCTCTGTTAAGCTAAATCTAAGTTCATTCTGGAATCTCCAACTCTAATCTGCATGGATCATTCTGGCCTCCTCCCCTTGCCTATCTGTAACCT
CTCAATCCAACAGTGAGAAACTCGGCTCCCGCCATCCACCATCCGTTCACTCGATTGTTCAGCTCAATATACATGTATAATTAGATCAATTTTTCATTTG
TACTCCTACAAGAAACAATTTTAGCAACTAGAGCATAGCACTCACGTACAGTTTCTTTTGCCTTTAATCTTACAGACTCCACTGATTTCCAAAGTTACTT
AGGTCAGCACCTTTCTCTCCAACCCCTTCAATGAGGTTATTTCATACGTTTGAAATTGGCTCTCATAGTTACGGACGCCAAGAAATCTCACAATCTGCCA
TTTGCAAACTGGAGAACCAGGAAAGCTGGTGGTATCATTCAGTTTGAGTCCAAAGGCCTGAGAATTGGGGGGTTGATGATGTAAGTCCAAGTTTGAGTCC
AAAGGTTTGAGAACGAGGAGCTCCAATGTCCAAGAGCAGGGGAATATGGATGTCCCAGTTCAAGTAGGGAAAGGGAATTCACCCTTCCTTTGTCRTTTTC
TTTTATTTGGATCTTTAGCAAACTGAATAATGCTCGTCCACATTGGTGGCAGCAATCCTCTTTACTCAGTCTACTGATTCAAAAGCTATTTTCTCCAGAA
ACACTCTCACAGACACACCCAGAAATAATGCTTCACCAGCTATCTGGGCATCCCTTGGCCCAATCAAGTTGACACATAAAACTAACCATAACACCATCTA
TACAGTTTTTTTTTGGTGAGCTGTTCTGCCAACCATTTTTGGCCTTTTTAARTGACCCCAATAAATCTTTTTTATGTTTAGAAACTAGATGGCACACAGT
TKCTGTTGCCTTGCTTGCATCCTGATGTGGGGGGCACTCACCAAGGGGCAGAGGTGGGCTTGGGTCCCACCCACTGGACTTGGAAACAGTGCCCTTTGTC
CCCTTAAGCCTGTCTGGTGGCACTGATGGTGTTTGCACAGACCTGGGTGGGACAGAGGGCAAGCGTGGGCATCTTTGGTTCTTATTTGATGGCTTTAATT
CTGTCCTGCTGATTTCAGGATTAATTTAACCACAGTATGMCTCCCCTCTATTTTGCCACTTTTATGTCCCACTTGGAGGTAGAAGCAAGACCATCCTTGC
TTCTGTCTCTGGGGATAGTATTCTCATGGCTTGAAGATCCAGGCTGAACCTGAAAGTGGCTCCCAGGAGCTCTGCCATCATCTGTGGATCAAATTCAGGC
TGTTGTGGCCTTTCACTAACGAGCTAGTGGGCTGGAAATTGAGAGCCTGAGGAAACTGAGGCCATTTGGCTGGTGATTAAAAATGAATTTCTTGGTTCCA
CTTATATGAGGTTCCTAGACTAGATAAATCATAAAAACAGAAAGTAGAGTGGTGTTGCCAGGGGCTGGGGGAAGGGAGGAATAGGAAGTTATTTGTTAAT
AGGGACAGAATTTCAGTTTTGCAAGATGAAAAAGTGCTGGAGATAGATCGTGGTGATAGCTGCACAACAACATGGATGTACTTAATGCTACTCAACTGMA
CACTTAAAAATGGTAAAATTTATGTCATATACATTTTATCATATACGATTATTTATCGATATGTCATATACGAYTTTTTAAAAATAAAAAAGAAGCATCC
CGTAGGACGGACAATTGATGTCTCTATATCMACGTGCGTAATAGCCCAGATGTTTGAGCCATGCCAGTGTCCGAGGGAAGTGTGAAGCACTAAGTGCTGT
CGGCACAGCCAGAATTCCCCTCCGCTTGCCTTCCCAGCTCTTCCAAAGGCCAGATTCATGGCCCAGGGAGAAAAAGGGTCATGAATGTAGCSACTGCTCC
CAAAGATGGGCACATCTAGGCTACGACAGGAAAACCACCTCCAACCCCGCTTGAGCCCTGAGAGGGTTGGGTCCTGCCGAGCCTCACCTGCAAACCCAGA
GCCCTGATTTTTTCCCAGCCCTTAGATGCTCACTACAAAGACTAGTRTAGAGACTCCTGTCGGGAGGCTGCYTGAGCTGGGGAAGCTGTCACTCACTTGG
CGTAGGCTTTTTCCAGCAAGGCGCTCCAGAACTCRTTGTGGTCGGCAGAGTGGAGGAAAACCAAGCGGTCCCTGAAGGTGGGCAGGCGGTCATCGATCAC
CACGTCCAGCCACTCACTGTGCTGCCAGAACTGTTGCCCAGGAAAAAGACAGAAATGATGYGAGTCAGCTACATGGGAGCTCCAGGCCCTGTTTGTAAAT
GTTGATCCTGTTGCTTTTTTCCCCTCTGACCAAGCTACCCATAGACAGCTTTGAAAATCACACACGGGTTCCAAGGTAGGGCACCTGGGCTTTGTCCWCC
AAGTTACAAGCTGAGTATTCCACCCAGCACTAACCATTGACATCAGCTGAAAGACTCAGGGTCAACCCATCAAAGCCGCAGGCGATGCAGGGGGCAGGAC
AGGACTCACAAGTAGACACTCTACGGTGCTCTGAATTAGTTTTTCTTCTTCACAAGAAAGTTGTTTTTGTGGGGGAGGGAGAATGGTAACGTGGGGTTTG
GGTTTGCTGTTTTGTAGCCCAGTTCTCTGTTATTCTCTCCCATCCAGTTTCAGGGTCTAGCTCCAATTTTCCTTAACCTTGCTCCCTCCTCGCCCATAAG
TGGAGCCCCTAAGACTGATTTGTTGGCCATTCACATAGGAGGCAGGTGGACTCAGTAATCCCTGCGTGCCAGTGAGGAGACATGAGTGGAGTGTGGGTGT
GTGTGAATGCATGTGCGCACACATGTGTATACATGTGCATACAGGCAGGCATGACAGGTATGTGCACTGTTTGTGGTTTATTTATACATTGCATGTGTGA
AAGCRTGTGTTTGCTCACATGTGTGCATGTGTGTGCATGTATGTGTGCAYGCATGTGTTTGCAAGTGCTTCTACACACGTGTGTGTTTGAGCACATGTAT
GCATGTGTATGAGCTTGTGTGTGGTCTGCTGGGAACAGGAAGGGAGGTTGGAACGAGTCAAGGACCATGGTAGTTTCTCTGTGTATCCTGCAGTGACCCA
CCTCCTACCCGTTCCTTCTGGTTCAGTTGGCCTGAGAGCGATCCTAAGGTAACCTCTAAGAGTAARAAGAAAAGGGTTGAAAGAGGAGGGTAGGCACAGT
GGTTTTGGGAGCCATTTATTTACAGCTTTGCTGTGTCATCCTGAGCATCTTGCTGCATCAGTGATTCAATCCCAATCAGAAGAGTTGGCCACGATGTGGC
TGAGGGTGTCTGTGTGTGTGTGTGTGTTTTAAGGAAGATTCTTGTCACCTGCTCCAGCTGGACCTCCCCTCCAGGGCTTCCCGCTTTTGGGGCTATCCAC
AGCTTCAGGTGGGACTGAGGCACAGTTGGGTTAGGTGTTTAAAGTTCGGGCCTGGGCCTTGGGGTTCCTGAGCAGGGGAGCAGTGGGGAGGAGCCTCAGG
GCTGGCTTTCCTTGCAGAGGGGCTGGCTCAGGGGGCCTGTGAGTCAGGAGAGATTATCTGCCAGCCCAGAGAGCTCTGCTAACTTCCTAGCACGCACACC
TGCACTGTGGCTGAGGAGTGGAAGAGGAGTGTGAAGGAGGTGGATTTATTTCCAAAGCTCTGCTTCCTAGAAGGCCAAGGAGGGGAGCGGGCGGAGTATT
GTTATTGCGGGACTGACAGGCATCAACAGGGTCACTCCCCACCCCCACATGATCCCTGGCAGCACAAAAGGATGCTGGATCCAGAACTCCTGAGTTCTAG
GTCTGGCTTGGCTACTTATTGTTTTGTGACCCTGGATCAACCACTTCCACTCCCTGGGACTCAGTGTCCTCGGGAGTTAATGAGAGGACTGGGTCAGGGG
ATTGCCAAGGCTCCTCCCAGCTGTGACATTCAAGGGACAAGAACACTGTTCCTTTTGGGAGCCCAAGAGGTGGTGGTTCTGGTTCTGGTTTAGAGGCAGT
AGTTCTGCTGGTTCTGGTTCTGGTTTAGAGGCAGTAGTTCTGCTGGATTTTCTGAGCTTAACCACCCCCAACACTGCCACCCTGGTGTGTTTAAGAGGAC
TGGGGAAAGACCGGCTCCTGGGGGCGCCATCAAACCAAGACTGTGGTCTCAGCAGAAGTCACAGGATGGGAAGGGAGACAGCCAGGTGGTGGCAGGTCTG
TGAGAGAGCAGGGGTAGAGTTTCCCTGGGACCCAAAGTGGCTCTGTCCCCAGCCGGCGCAGGAGGCCTGACCCCTGGGAATTGCATGCTCCCTGAGCTAC
ATGTGACCTGCTCACTCTCTTTGCCTTTGAAACACTTCTGTGCTATTGGTGACAGGGCTTGAGAGTACCTCTGCTTATCAGATTGCAGGCYTCAGGGACA
GAAGAAACGGGCTGGCCCTGAGTGGTGGCCTGTGAGTCAGGAGAAGGTGACACTGTCTGGGGTGGAAGGTCAAGGAATGCCTACTCGGTGCCTGGCTCTG
TGCCRGCTCCTGTGTGTGATGCCATTTAGCTCTACRGGAAGCCTGCAGGGAACTGTCAGTCTCTCCTTTTTTCAGACGAGTGTAGAAAGGTTTAATGTCA
CTAAGAAAATTGTCTGAGGTCACCCACCTAAGTAAGAACAAGGGGCAAGTTTCAGTATCTGGTCGAACCCTATATAAGGACAGGGGTGGAGGAGAGACTG
GAGGGATAGAAAGTGAGGTGAAGCAGCAGGAAACCATCTCCTGGGGGCAAGCCTCTCCTGATGTGCACCTCGGCTGAGGGTCTGCGGGTCACACGGGACT
CCAGCAGATGTTGTCTGTATTTTTCTCAGTTTTTATTTTTTAAAATCCCTCAAGATCTCCAAATTTACAATTCTTCCATAAAGAGAACCTCTCTGTTTAT
GAGAAATCAACCAGTTTCCTGGAGGTATAATTGGTTTAGTCAATTTGTGCTTAAAGCACAAGAAATTCCAAATAATAAAACCCTTAACAGATGGACCTCC
AGATTTGCCAAAACATCACTTATAGTTTTAAATGTATGCTCCATAAGGATTCACCGTGCAATGCCGTTAATGTTCTTCTGAGGCATTTAGCTGTTATTCC
ATGATAAAATGTGGCTTTAGCATGGTTTAGGACCATATGTCACACAGATCTGATGACATTTTTTTCTAGGGTTACCAGGCAGTGTGGAAATGCACCTGCC
CTCATGCYGGGCCCCAGAGAGGTAAACCCACTGGCYCAGGGCTCCCTCTTACCTGGAAATGGAATATCCCGGCATAACCAGGGCCAAAKCTTTGGTCCTG
GGGGATGACTCTGGCCAGTGCTTTTTGATTAAGCGTAAGGGAGGCGATGRCGGCTAATAGCCAGCAGTCTCCTGCAAAATGGAAGCCATAAATCACAATT
TTCATTGCTATTTCACAGCAAATAGGAAAACTCTGTGTCAGAAGGGGATGTGGGGAGTTTCAGATGTGGCCACATCTTTTCTACCTGTTTAAAAACAGAC
AGGACACCAACAAATAACTCTCTCCTCCCCTTCTGCCTCCCTTGCCTGCTCTTCTCTGCCCGTCTATCATAAACAGCTGTTGCCTTCTTGGCACTGTTAT
AGGACATGCTTACTTGGGTTTCAGACATATGGCTGCCTGATGCATCAGCTCTGTRAATTCCAGCAACTCCCTTTCCAGAGGWCCAAGWCTGCATACATCA
GTGTCAGCAYGGGCTGGGCGAGCAGACATTTCATAGCTGCCACCCAAGTGGTTCGGCAGTACTTGGGAGGGTGGTTAGAAATCTCCCTGCAGCCCCAACC
RAGACWCAGCTTAATTACAGATAATGGTATCTCCGTGGTGGCTCCATTTGCTTTAAATTATCTTGCATTTTCAAGATTTATTGACTGACCTACTGAACTT
CCCAGCTGTGTCTTCATGTTAACACACATCTGGAGGAAAACTAAAAAGTGAAGTCAAACATCAAACATGATTTTATCTGTGCTATCTGTGCTGTTCCAGA
CTCCTGGAGGCATTCCTTTGCCCACACTGAGTGTGGGCTGTGTCTGGTGTGTGCCTCACAGTGTCTCAGATGCCGCCTGTGTAAGCAGATATCTGGGAGG
ATCCATTTATCCGAATCACCTTTATCCAGATTCACTTGTTTTCAGTAGACAACATCAACGTCATCAGAACMTAARAGCCCATCACACTCAGCTTGGCAGT
TTCTGAGTTCACATTTCTGGAAAGCACCGTATGTCACTGGGCTTGGGACATTGTAATATGGCCYTTTCTGGCTGTTTGACACAGGCAAGAGAGACTCGCC
AGGGCYGAACATCGGGAAAGCTAATTCCGAATCGCCCTGGTTCTGGCTTTCTGAGAGGTGTCACCAGCAGAGTACAAGCCACCCCCAGCCTTAGCTGGAG
CACAGAAGGATTGGTTTCTAATGCATCTGCTGGTCTTTGGGAGCCTCAGGTCAGCTTTGGGAGATGCTACTAGGAAGTGACATGGCTGGAACCTGCAGGA
TCGTTTGTTCAGCAAACTTTACCAAGTGCCTCTAGGGTGGCAGACCTTGTGCCACGCAGAAGATGCAAAGATAAGGAGAGACTTGGTGTCTGCTTTCAGC
TTCAGGGCGGCCAGGCCAACAGGAGTCTAATAGAGTGACCTCTGCTGTGGGCTGACCTTTCCCAGCTCTCCTCCAAGTTTCAACTTTGCCCAGTTGAGGA
AAATGAGTGTTTTCCGGCCTGAGAACTCAACACCTCACGTGTTTTCAGCCAGAAATGCTCTGAGCTTTTGGCGGGGAGATTGAGAAGCCAAAACAAGATT
GCTTTTCTCTCTCTTGGGCCTGGGCAGATGGATGGGGCTGGCCACCCAGCTGTGCCTGGAAGAAGTGCCCTCTGTGGGTCAGCGTGTTGCTCGGCTATCT
GGGTGGTGCAGAGCAGAGGGCACTATGGGAGGAGCAGGCTGGAGTGAAGTGGCACCATCTCGGCTCACTGCAGGGGGAACGCTGTGCCTCTTGGGTTCTC
AGGGACCCCATACTGCAGTCGCTCTTGATCCAGCAATCCAACCTCCCTCTCGCCATGCTCCATCCCCTCACACTCACCCAGCTCCACCCCTACCCCCACC
CCCTGCAGATAACAGCATGCCTTGATGCTGTTCCAAGTGTGTTCTAGTTTTTTTTTTTTTTTTGATAGAGATGTGGTCTTGCTATGTTGCCCAGGCTAGT
CTAAAACTCCTGGGCTCAAGAGATCTTCCCACCTCCCCCTCCCAAAGCGCTGYGATTACAGGTGTGAGCACTCTACATGACCAGATGTTCTAGTTCTTAT
TGTGGGTGGCAACAGATCACGGCTGTTCATTTTCTTGTTATTCTTTATAACATATATATGCCATGTACAGTACTTTGGTGTAGTAAAAGTGTTACAAAAT
AATCTTTAGAATCAACCATCCACTAAGGTAAAATATAAGGTTGTAACTCCAAATATATGTTTATGCCAATGTGACAAACCAAAACTTTGAAAAACAAAGG
AGCCAGTAGAATGATTTCCTATTGGATAGCAATGGAGGACTACGGGGTCGAGGGGAAGGGAGGCAGAGGAAGAGGGGGASAGGTGGGCAGCGGCAGGGAG
GATCTCCTGGAGAAGGACCACCTGAATGTAAACCTTTTGAAAAGTCTACATTGTATCTAGAATATGGCATACATGGGGGATTGGTTCCAGGACCCCTGTG
TATACCAAAATCTGTGCATACTCAAGTCCCACAGTAAGCCCTGTGGAATCTGCCTATACCAAGTCAGCCCTCTGTATATGCGGGTTTCAAATCCTGGAAT
AGTATATTTTCTCCYTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCATCCTCCCTCCCTCCCTTCCTCCCTCTCT
CCCTTCCTTCTTTCCTTCCTTTTTTTCCTTTTTGTTTGTTTGAGACAGTGTCTTACTCTGTTGTCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACT
GCAGCCTCAACTTCCCAGGCTCAAGCAATCCTCCCATCTCAGCCTACCAAGTAGCTGGAACTATGGTCATGCACCACCAAGCCTGGCTAATTTTTCAATT
TTAATTTTTAGTAGAGGCGAGCCCTCACTATGTTGCCCAGACTGGTCTTGAACTCCTCGGCTCAAGCGATTCTCCTGCCTCGGCCTCCCAAAGTGCTGGG
ATTACAAGTGTGAGCCATCACGCTCAGCCTGGAACACGGTATTTTCTGTCTGTGTTTGGTTGAAAAAAAATCCACTTAGAAGTGGTCCTGCACTGTTCAA
ACTCATGTTGTTAAAGGGTCAACTGTAATTCCGTCTATCATCCATCATCTATCTATACCCATCCATCCATGTATTTACCCACCTACCTTCCTATCATTAT
TTACTACCATCTATCTATTATTATATATTTATTTTGTATGGTCTATCAGTCAATCAATCAACCTATCAACCTATTTATCTATCTAATTATGCATCCGTTT
TCTACCTATCATCTATTACTTATTATCTATGTTTCTATCTATCTATCCATTTGCTTCTCTCTCTCTCTCTCTCTCTCAATTGTCTCTCTGTCTAGCTAAT
TAACTAACATCAGTCTAGGTTTGTGACTTTGGATCTTGTGTTTAGGATAGCTCAGTTGCTCAGCATGGAGGTTCCAGCATGGCCTTTCTTAACCAATAGA
CCACAGTGACAACCTCAGCTAGAAATAAGTCAGGGTCCACACAAGCTTGCAGTGGTTTGTTCTCTAGGCTGATTTCACTGGTATTTTTTAAAAGAAAGTC
TCTCGCTCTCTCACTYTCTCTGTCTTTCATAGATAGAACAAAGGTAAACCCAGCCCAGTTGGATTAAGTCCTAAAATGCAGGACCCAATTTGAGTGACTT
GAGGTGCACTCAGGTTCATTGCAGGAGGGAGACTGGATTGCTGGGGAGCGGCTCCCCAGGGTGTGTATAATGGTTAGCAGTAAGGGCTCTGCTGCTGGAG
TGTCTGGGTTCAAATCCTGATTGCCTGTCTACCACCTCTGTGACCTTGGACAAGTTACTTAGCCTTCCTCAGCCTCCATTTCCTCATCTGTGACGTTAGG
AGGGTGGGTTGTGAAGATGGAATGAGGCAATGTGTGCTGGGGAGAGTACCTCGCAGGTGACTGAGTTCATGTGTGCAGGTGTTAGCTACTGTGGTGGTGT
AGGAGAGCCCGACCAACGCTGCTGGGTGTCACTTTCCTCTGTAAACTCCGGGGCTGTGAGCCCCACATCACAGGCATGTCTGACTCTAGAGGAACRGAGG
TGCAGGGGCTTGAGGCCACTGGACTCCATTCAGAGGGAGTGAGGAAGCAGAGGCCRAAGCAGTGTTGTTCCCCCAGCCCCRTGCCTCTTGGGTCCTCAGG
GACCCCATGCTGCAGTTGCTTGCCTGTCCCAGTGACTCAACCTCCCTYTYGCCATGCTCCATCCACTTACACTCACCCAGCTCTCCCTGGCAGATATCAG
TCCTGGTGGCCCCTCCAAGAATGAATTCTGGGTTTTTCACGATTTCCTGGAGGAATGAGAGTGTTATTAGGCTGAGGCCTGCCATGCTGCAAGCCACTAT
GAAAGGGTAGGCTCAGGGTCTCTCTGCTTTCTTGGGGCAGAGGGCTTTCCCTGTGCTTGATTCTTTTCCCTGAGGAGGGCCACGTGGATGTAAAAGGCTG
CCACCTCTCTATGCTCTGGATAAGGCTGGGCTCATCTTTGGTAAATCTCCTCCGCCGGGGAGAGGTCCTGCCTCCTGAGCTGCACTCAGCACCAATCTCT
GGCCAGAAACACAGGCCACACCCGGCCACAAAGCTGGACATCAGCCACACACTGAGGATTCCTGTGCTCACTCAGGCACTGGGCTAGGAGTCCAGGGCTA
TCCCAGCTGTGAGCTCTGTGACCTCTGTGGGCTTCAAGGAGCTGAGTAATGCATGTACCACAGGCTGGGGCCTTGGACTAAACATACTCCCTACCCACCC
AKCTTCTCCATTTCTTTCTTTATATAATCCTTCCCCCACAAAGTGGATTCCAAATATATATAGGTTTAGAGACAGAATCTTGCTGTGTCACCCAGGCTGG
AGTGCAGTGACATGATCATAGCTCACTACAGCCTTGACCTTCTGGGCTCAAGCAATCCTYCCACCTCAGCCTCCCAAGTAACTGGGACTACAGACGTGAG
TCACCACGCCCAGCCACTTTTTAATTTTTTTTTTTTTTTTTGTGGAGATGGGGGTCTCGCTATGTTGCCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTG
ATCCTCCCGCCTTGGATTCCCAAGGTATTGAGGTTACAGACACATGCCACCCTGCTCAGTGTTTCTTTTTACAGAGATGCRCTTAGGTAAAATTTCATGT
ATCTATACCATATAAAGAGAGATATGCACACATCTCTCATATTGTTTCACCGAAGTGCATTATATATATATATTATTCTATATTACACATAAGCACATAC
ACTATGTGTATTAATGTAATCATTAATACATATTAATATATACATATACAATATGGAGGGGTATTTATAAAACATGAACAAAAAAGTGTAGAAAGCAATC
TTATGATATGCATATATTCTTCCACTCTTTGAGTTGCTGGGCTCCATTCCTGACATTGGACGACAACAAAGAGAGAGGGAAAGCCCCTGCCCTGGTGGAG
CTGCCCTGGACGCGGAGGGCGGTGCTCTCGGAAGCCCCGCCCCTTCCCAGCCTCCTGCCCCGCCCCTCCCCCAGCCTGCCTCAGCCCTGGCCTCACCCAC
GGCGCCCACTGTGCCTGCAGCTGCCACCACCTCCCAGAAGCTGTTGTTTCGTTCAGGAGAGTTTTGCAAATTGCATTTGAGGAAGAGACAAACCATAAAC
CAGGAGAGAAAAGAGCGAGGATGGAGAGGGAAGGGGTGGGATGGGGCAAGGSTAGCTACAGCAGTCAGCAGGGGAGGCGTCTCTGGGGGAAGCAGAGGAG
CACAGACCTAAACAAAGGGAGGGAGGGAGGGAGGGAGGGAGRAAGCCGGGCCGGTCYCGGGAGAGGTAACAGCCAAWCCTGTGGCAGCGAGGCMCGTTCT
GGCTCACCCTGCAGGGGTGGTGAGTTAACTGGGCCGGGGCCTGCAGAGGAGTGAAGGATTTTTCCCACCTCTTCCCACTTTTCCAGGCACCAGGACTGAG
GAGGGGCCTGGGCTGGAGGTGGAAGGTTCCAGCAGTGTCTGGGCGGACGCCAYGTGGGGAGCTCAAGCTGCGCCGCCTTCCCCGAGAGACCTCTGCTTTG
AATTGTCTTCCTCAGGCTTCTCAGCACCCTGCTTCTCCTCTCATCTTGTGTCCCAAAGAATCAAAGGCAGGACAGAGATTTCTTTGAAGTCAAGGGGATT
ATCAGGACCAAGAGCAGAAGCTTCAAATGCTGGTGCTCTCTCTGCATTCCCCAGGATGTGACAACCTGGAGGAGTGACAGACACCAGGGGCGCCTGCCCA
GGGAGAGCTATGTGTGGCATTAGTGTCTAAAATACTCAAGAAAGCTTGGCCAGGAGAATTKCTGAAGAACACGGGGTGTTTTTAGATGCGCCAAAACCCC
AGGCCCGGCAGAAGTAAGGACCTCCCAAATGCTGGCCTGTCCTCTGCCAGGTCTCACACGTCTTTGCATTCCCACCCCCAGCTCCAGGTAGCTTTGGCGC
CATTTCATTAAATGACTCTGATCTCCGTGGTGGCTGGAAAGGGAGTGAAGGTGGGGGGCAGCTGCTCAGTTCTGGGGTCCTGGCTTGGCTTGCCTGTGCG
GACCCCTCTCATCTGTAGGAAGCRCACTGCTCTTCTTCCTCCTCCACCTTGGCTAGCGCAGGAGTTTGCAGGTGGCTCTGAGCTGAGCCCAGAAGGACAA
TGCAAACCAGGACCATGTCAGTGGGCCTCAATAGAGTCCCAGGAATAGCCTGCCCSGCTCAGCAGTAGGGTTCAGGGTGGGCCATTTAACTTCTCACGGC
TGCATCCTCATCTGTCACCAGCTTAGACATTCTGGGCTTGYTGCAGAATGTGCCTGCCCGAAGGGAAACCCAGGAGTCCCCCAAGCCCTCCCTGTCTTGA
TTGCCCAGCCCCTGCCAGGGGATAGCCMTGGCAAGCAATGCCCCCACTGCCAATGCTACTCACTCCTCAAGTGGACATAAAATGTACTCCAAAAGCCACA
GATCCCTGCCCAGCAGGCTGTGCTAGCTCCTGGGGCAGGGCTGTTCCCGGATGCCCGCCTCCTTCCCATCCTCCCTGCCCCTCCCCTCCCCCAGCCTTCT
GCAGGCCTGGCCCCGCCAACCGTACCAACTGTGCCTGCAGCTGCCACCGCCTCCCAGCTCCTATCTTGCAATTGGTTGTTTTGTTCAGGAGAGGTCTGTT
TTTGTTTTTGTTTTAAACCARATCGCACCCAATGAGGAGAAAAATACAAAAGGAAAAAACTCAGAAACTCTCCAAGTAAACACAAATTAGCCATCGGGTA
TAAATTGGGGAGGTGTCTGGATGTGTGACCGACTCCTCTGTGGGTCAGTGYTTCTGGKAATTGGTGTGCACACGTGCCAGTCACAGGGGGTTCTGCGGAC
GCATGTGTGGAAGGGGCAGCTAGGCGGTGGGCCTGGGTTAGATGCCTGGGAGTGGTGTGTATGCTGACGGCCCACATGCCCACATGTGCAAGGTGCCTGT
GACTTGCCTTGTTGTRTGTGCCCAGGTGTGGTACACGTGTGTGCTTGTGCATGCTCCACATGTATGCTGGTTGCATGTGCACTTGGGAGCATTGTCTACG
TGTGAGTGTCCTGCATGTGCGTGTCGATCCTGGATGTACATTTGTTCCTGTGAAATGTTGCTTGGGAGGCCATGAGGAAGGGGTTACCTGAAGCTACAGT
CCTGTGATAGGACGATCAGAGGTGTCTCAATTGCAGGGGTCTTGACAAACCTGAAGTGAACCTAGACTGCTGCCTGAAGCCCCGAGGGAGGCACGCAGAC
CCCTCCCCCTCCCCCTCCCCTCCCCCACCCCACAGCCCTACCACCAGGTGGTTTTCCTGGAGCACTAAGGGCCAAGCACCCTGGAATGTTTGCTTTCAGG
GACTGTTCTGTTTACCTTGTACATCATCGGGGCTCAGCCGAAGACACACTTTCCTCTACTAAGCACAGTGAATAATTCACAAAGGGAAAAGCCACCCTTC
TTTCTTTCTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTGTTTCTTTCTTCTTTCTTTCTTTCTCTTCTT
CCTTTCTTTTTTTCTATCTTTCTTTCTCTTTCTCTCCTTCCTTCCTTCTTTCCTTCCTTCCTCCCTTCCTCCCTTCCCTTCCTTCCCTTTCCCTCTCTCT
CTTCCTCTCCTTCTCTCTTTTTCTCTTTCTTTCTCTCTTTCTTTTTCATTCATTCTGTCTTTCACATGGCCTTCCAGTGAAGAAAAGCCACATTTCCAGC
AAGGTCTGGAGATGCCAGACGCTGCTGTTCATAGCTATGTGCCGATCCCTGTCATGTGCCCAGCACTGTGGAGGCCATGGGGCCTTTGGGGCTGTCCCAG
AACAACTGACAACCCCTCCTGGGGGTCAGGGGAGCAGCACAGGGAACGGCAAGCTCACCGTGCAGGAGAGGCTGTGGTCACATGCCACGCTGTGCACAGG
TCTGCCACAGGGGTTGTTCACATGGGCTAGAGGGGTGTGGGCACTTTCGGGGAGGTGTCCTGGATTTACACTGAGAATTGGTGGGGGGGAATTGCCTGGC
CAAAAATAAATGGGTACAGGCAGACAAGGAGGGATGGACTGCATGGTGGCTGTTCCCCATCAGGCTGGGAGACCTCACCCGATACTCCCTCCTCCTCTTT
CTGTGCACCCACTTCCACTCAGGTCCACAGTCCCTTGCATGAGACCTGGGGGTGATCTCACCTTCTCTCCAGGTTGAGCCTATCACCCTCTCTGCCTCCC
AGCCCCTCCCAGCCAGTTCCCTGAGTCACCCTCAGTGCACTCCTTGCCCTGGGCTCCCTTGAGGGCAAGCCTGGCTGTCCACTGCCCTCCAATGTCCCCT
TGGCTTTGTGCTCTGCCCACCCTCCCCAAGYACAGCTGTGTTTGACAAGAAGGTGGTGCTGAGGAGGAGGGCCGTCCAGCCCCACGGTCCCACGGGCTGC
TGAGAYGTGCACCGTGTAATGCTGAGTCCYACTGCAAATGATGCCCAAGCCACAGAGGTCTGCAGGGAACCTGGCAATGCTTGTGATTTCCCTATGGCCC
GCTACCCCCCGGCTCCCTGCGACTCTATGCTGCAARAAGAGTCTCCATGCTCATCCTCAGCCCTTTTGTTCCTGATTTTACAGAAATCTGTAAGATATGA
TGTAAAGCTYCTAACTCCCCTAAATAAGAAACAGATAGGGGTACGRGAATGAGGACCAGACCAAAGGGACAATCTTCAGTTGCAGACAAAGGAAAAGGCA
GAACAGATTCTGAAAATGAGTCTGTGGGAACGACAGCAACACAGTAGACCTGGGTTAAGATCAATAAAGGGTCTGCCGTAGGTGGAGACAGTGGGATGAA
GAAGGGACAGAGGGCTGGTACAGGGGCATGGGCTGGGTGGCAGGTCGGGGTGCATCTTGGCAGGGGCTTGTGTGTATCAAGGGCCCTGGCCTGTGGATGA
AGGCCTCACCCAGCGTTTGGGGCAATGCCAGAGGAGATAATACTAAGGAAGACAGCCCCTTGGAGCAGAGATCTGGGACTCTAGAGTCGCTGGGSAGGCC
TTGGTGGCCCTGGTCCCAGGAGGGRAGACTTCTGAAGGGGGAGACAAAGATGCCCTCCATGCTGGTTTGTGCGTCCAGCTTTTATCTYGGAGAATTCTAA
CTTTGACAAAAAGTAAGTGAGTTGTAGAGTACAGATTACACTTTAAACTAGATGATGTCAATATAGACTGCAAGGATGGGGGCCCTCCTAGAGTCAGGAG
ACGATGGTGTTAGGTTACAATGACAGCAGTAGAAATAACAAGGACCAGCACTGATTCTTTACACACCAGGCTCTTTGCTAAGTGCTCTACTCATGGTAAC
GCAGCTGACCCTCATGAGGACCCCATAAGTTGCATTATTGTCCCCATTTTAAGGAAGAGAAAAAGTGCTTCCAACCTTTTCATATCAAGTGCCTGTAGAG
AACATGAGCATCTGTATGAAACCCTGGATCAAACAGAAAGAGCCGCTGCTTCTGGCCAGGGGCTCTGCTCACCAGGGGCCCAGGAAATCAATTTCTCTAA
CTCTATTTCCCAGGGCTCCTGACATCAACTGCAGGGAAATCTCTGCCCACAGTTAAAAATGCACCCACAGCCTGCAGCCTGGGCAGCTGCCCACGCGCCC
ATTTGTTCATGCGCCGAGGCCGGAAATAAGCCCAGGGAGACCTAATGGTCGTGGGCGGTGCCCCTCAGAGGGTCACTCTTTTATGTCTTGTAACTTCTGC
TTTTTTAGTTTGGAAATGTCCTTTTTCTTACTTAGCAGAGCATGACCTACTAATCCTGTCTGTAAAGTGCAACCCCACGTGATCTGCCAGTRCCGTGACC
TCACACTGCAATTGGCCATATGCAGAGAACCAAAAACAATCACAGCGTGGCTTCGGTGAGGAAGGTGCCTGGGAGCTTTCACCCCAACTCCGATAGGGCC
ACTGAATGCTCACTGTGATTTCCCCATGAACATGGCACCTTGTGGGATCAATTACCTGGCAGGTGAAGATCAAAGCACCTGTGTGCCTATGCATGCAGTC
ACCCACCCCCCACATACACGCCTATGCATATCCACACACATGTGCACACAGTCACACACATGCACATACACAGTCAAATTCCTACACACACAAGTGCGTG
CACACACATACACCCCACACTGCCTACTGCAGGAAATAGCAATAAAACCCTTACCACTTCGGAAACACCCACTTAGGTTCACTTTGGCCCTGCCCCTGAA
GAGCCCAGAAGTTTTGTGAATGTGCGTTAAAAAAAATTGTTTTTAATCATCAACATTATTTTAATGTTGGGAGATAGTGAGGAGGTAGTTATGATGAGTC
CTTTGCTACTCATATGTAAGATGAGAYTCAGAGCTAATAATCATTGTAATGATGATAATAATAGTATCAGTAATAGTAATAATGTGACAATAGCTGTAAT
GTACTGGAAACCTTCTGTGTGCTAGACATTGGCCTGCRTTAGCCATTATTGTTCCCATTTTACAGGTGAGGAGACTGAGGCTCAGGGAAATGAAGTGATA
TGACTATATGCATGAGACAAATTGTCAGGATAAGACRGGCACTCAGGATCTCACTTGTAGGACCAGCATCCCTTGTACTGCCCCTCCTTGCCCAAAAGCA
ACCGGACCCCACAGGAGCCACTCCCAGGCCCGTACMCACCTGGAGGGAATGGAAGCCAGCCCAGCTGGCGCCGGGTCAGAGGTAGAGCCCTGACTAATCC
AGCACCGCAAATATTGACATGGCGTCCCAGGCACAAGCTAGCACCTCTTGGGACCCAGTGACCAGCTGGTGCCTCTTGGGACGACACCTCCAGACTGTCA
GAGGTGGGGCACTGTTCACCCTGATCTCTGGGAATGGGGGGTGCATGGTTCTYGGGAGAAGATTCCTGCTTCCCTTGTATTCCATCTGTCACCCGGTTGC
TGAGACCTTGCTGAGCCAAACATCCATCCACACTGAGCACCCTCAGCTCTGGGCCAGAAGCCACAGAACACTGTGCATAACGTGATCTCAGTGTTACCAC
ACACAGGGTGGGGGCCTGTCCTTGTGGATAAGGTTTTGATTCGTGCCTATCACCTGCTGACAAGACCCACTCTGACTCCAGGTCCTCAGCCTCGGTRGGA
GTCAGACAGCTTGGAGCCGGGGAGCGGGTACAACCAGATGCCCCSGGTCCCCACCGCAGAGCATCCCAGGCCTGTACATTATTTTCTGCCTCCAAACTGC
AAAGCTTTCCACGGTAGACTGGGATGATGCAMCTCAGTTGCACTGAGCGTAGCCGGCCCCTCCCCAGCACCCCTGTTTCCACTTCCTGCGGGGGCTGCTG
ARCCTCGGCCTCATCTRTGCTCCTTCCCCTGCTCRCCCCACTCACCCCTGGTCGTTTCCACACAAAGGGGATCTGCGGCCTCTCACTGTAGAACAGGGAG
GAATTGCTGGCTGGGAAGTCTGCATCCTCAAACAGGGTGCCTCTCTGCAGGCACTCCTGCCTCATTTGCTCAAAGCTCTGGCCTGAGGAGTGGGTGATCC
GGGCGTCCTTGGGAACCGGGTGTGCCTGAGGCCCTGGGGCCCGGTAGAGGTAAGGCATGGCTGCTCCCTGGAAGGCTGGCTTGGGTCCGGCAGTGGATGG
AAAAGAAAGTGAAGAAGCGAGCTGTGTGTGCCGGTCAAGAAGGAACAGCTCAGAGGGCCACTGGGCTGAGTGGCCCTCACCTCCACCTATTTTCTGGGCA
CCTCCCTGTTAGACTGAGATGGGACACRCCCTGATGGAAAACAGCAGAGAGAGCCCTCTGCCCACTCTGCACTCCTGCAGACTCAGAGGCAGCTCTGGGG
CCTGGCACATTCCACTCAGAGGCGGCACCTCTGCTTAGTGCGCTCAGGGGGCCTMATGGGAGAGAGAGGATTGCTTCAGAAGGAAAAGGAGCAAGAAACC
CAASTGGTCCAGGAGGTGGCTTTACGGAGAAGTGCACGGTGTGGYCTTGAGTCCCATCTCCTGCATCAGAGAATGGCAGAGTTTTGTAGTCGGAAGGGAG
STTGGTGAATGAAAGCAGGATGCATTATGTGAACACAGCTGGCACAGCTCCTGCACAGGCAATCCCATAGTGATTCAGCACTGGGGTCAGCAAACCTTTT
CTGTAAAGGCCCAGACCATGAATATTTTCAGCTTTGTGGGCCACGCAAAGTCTGTGCTGCAACTACTCAACTTWGCTGTTGTAGTGACAAAGCAGCCGTA
GATGTGACACAGATGAATGGGTGTGGCTGTGTTCCAATAAAACTTTATTTACAAAGGCAGGTGGGGGTTAGATTTCATCCAACCTGACCCCTGATAGAGG
AGAACTCACAGAGGACATCGGCTCTTCCTCTAGGGCACATGTGCCTCTTTCRTTCTCTAGACATCATATTAATAAAGTTCCTTGTTGTTATAGTCCTACA
AATAGGATCTCACGTCTGAGAAAAAACAAATGTTAGAGGATGGAGGTGGTTTGATAAATGTGTTTGCCCATAGAAATGATTATACAGGCTGGGTGTGGTG
GCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGAGGGTTGATCACCCRAGGTCAGGAGATCAAGACCAGTCTGGCCAACATCATGAAACCCTGTC
TCTACTAAAAATACAAAAAATTAGCCCGGTGTGGTGGCGGATGCTTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCCCTTGAACCTGGGAGG
TGGAGGTTGCAGTGAACTGAGGTCGTGCCACTGCCCTCTAGCCTGGGTGACAGAGAGAGACTCTGTCAAAAAAAAAAAAAAAAAAAARGAAAAAAGAGAG
AGAGAGAGAAAGAAAAGAGAGAGAGAGAAGGAAAGAAGAAAAGAAATGATAAATACTGGAGGGGATAGATAGCCTAAATACCCCAACTCGATATCACACA
TTCTGCACATGTAACAAAATAGCACATGTACCCCATCAATACRTACAAATATTATGTATCAATAAAAATAAGTCAATAAAAGTATTAGTCACCACGTGAA
AACTCTGATGTTCTAAGCACTTTATAATGATTTCTGTGTGATTCTCTAACTAGTCAAAGTTGAGGTTTGGAGACAAGGGGTCTTGAGTTAATGGGTACAG
TTAAAAGGCCATGATGTGAATTTTTATATAAGCTCACAGTTCCCAGGAGTGTGCACTCAGTCTGACACACGTTCTGTCTAGTAGATCCTGCATATGGTTT
TACAGGGGAGGTCTAGACATTAGAGTTGGGGATATTTGGGTTTTACTCTGCTATGGCCTGATTGCTTGTATTCCGCACCACCCCCCCGACCCCGCCAAAA
TTTGTATGTTGAACCCATACCCTGCAAGGTAATGGTATTAGAAAGTGGGGCCTCTAAGGGGTGATTAGGTCAGAAGAGTGGAGCCCTCATGAATGGGATT
GGTGTCATTATGAAAGATTAGGTCACAGAGGGCCCCCTCCTCCCTTCCACCATGTGAGGACACAGGAACCAGAAAGTAGACCCTCACCAGGCATGGAATC
TGCCAGTGCCTTGATCTTGGACTTCCAGCTTCCAGAACTGTGAGCAACACATTTCTGTTGTTTATAAGCCACCCTGTCTGTGCTGTTTTGTTATAGAAGC
CTGAATGAACTAAGACAAATTCCCAGTTTTCCCTGGGGTGATCTTGGGCGAGTTATCCATGCTGTCTGTCCCTGCTTCCAAGCTGTGAATCAGGATAATC
GGTGCTGCCTGCTAGAGGCATGGCGGGTTTGTGGAARCAAAGCCACTTGCAAAGTCTGGCACATGGAGGGGATCAGGAGCTGCTGATTCCTCCCTTTCCC
CTATCCTCTCTGCACCCCCTGCCMCTCCCACAGATGCTGCTGAATTTCATGGTCTCCTTCTGAGCCTGACTTGCCTCAAMTTGCAAGGCATCTCTTTTGT
CTCTTTGTTTGCACAATGAAGGACTTTGGAACTGGGGTCCTCTGGCTGGGACCAGAGTGCAGTTCTGGCCAGTCCAAATGATTCTTGGCTAGAGATGATG
GAGCTGCCCAGGAGTGTCCCATTGCCCACTGCCCTGGCAGACGGCTCTGTTTCGAAGTGATTAAGGAGGGCAACCTAGGGAGACAGGTGTGGCAATGTGA
GGGCCATCCATTTCTGGTGACACCTCGGCAGGGAAATGATTACCAGCCCAGATCTCTGGGAGCATCCCCTTCAAATGCCCCAGCAACTGAGAAAGGACCT
TGAAGTAAATTTCAGCACTGACCAGAACTGTAAAGGGTTTGCTCAGCACCAGACCCACTCCCAGCTTCAGGGATTTACGTTCTCATTCTCCTCCCGATAC
AAACACCTCTCCAGGCTGGGGTCTTGTCCTTCCACCTGGGACTTATCTATGTATTGGAAGAACCTGCCTTTTTCTTTAGAGTCTTAGTATAGTTGCTAGG
TAATTGGAGAATTGCATCATCATTGTGAGTAAAACAAACATGCCTCAGAGTAGGAAACACACCAAAAAGGTTTAACAATCCTCCAGAACCACAGCTGGAA
TTCCTCCTGCCCCCTAACACTCTGGGACTCTGAGAATGTCTGCGGGAGGGAGTGCATTCTCAGGATTTACAGCCTCATCATTCTTCCTGCCCAATGTCTG
CCCACAGAGCCCTGGGTCCATCTTTCCTGCAGAGCTCATGGCACYGGACTTCTCCATGACTTTGTCTTAGCGTCTAATCCTGCTCCCAGCTCAGCCCAGT
GCAGGGCAGGAGCACGATGCACATTTGCTGAGTAAACATTGAACCAATGCCTCAAGAAAGCAGATGGCATTCTTGGGTGTCTTCATTTAGTTTTCCAAAC
CTTCACTTCTCAGGATGAACAATAGTTACAGAAACTGCAGCCATGCARTCTAAGGTCTACCAGGCCTTGCACACTTCCTCACCCACACTGGGAAATGCCC
TGAGTGGCTCAGAGGGAAAGGGCTCTGAGCTTGGGCAGAGAATCATGTGCACTGTTTTTAATAAGCTCTGCCAGCTTGTCGCTAGCCTAGAGATGCAATC
AGCTTTGAGCCAAGCGGGGGCCATGCATCATGTTAAGTGTATTTTCTTCTCTTTAGCAGAGCAATCTGCTGAAGTGATTTCTACATGAAATGAACCTGAC
CTGGCATCTGGGGCCTTCCTGGCCTCTCTTTTCTGTGCTGTTCTTTCTCTGTCTCCTCCACACTCAGGCCTSTGGCGAACTCCCTTTGTTTCTCTTCTTC
TTGTTCATCTTGAAGGGCAGCAGGAGGTGAACATAGTGCCTGSGTGGCTCTGGGATGCCATGGGGCAAAACCCCAAGGACAAATGCTCRGAAGCTTCACA
TGGGTGCAGGGAGATGACCTCTAGGACCCCACCCGGTCCAGGCCTTACAGCAGGGCCTGGGTTTTGAGGGATATGCCAAACAGCCTGGATCCTGCAGAGG
GATCTCAGCCCTATGATGGGCTGAGAGTGAGCCCACCCGGCTGCGACATTTGTAGCCCCTTGGCTTGCAGTGTGGAGGATGGGGTGGGCTGGCGAGGAGG
GTGGAGAGTGGAGAGGCAGGGGACCTGCACAGGTGTCCAGGTGAGAGGGGCTGAGGCTAACTCCAGATGTAACCAGAGTGAAGGCAGGAAGGGACAGATT
CTTCTAGAAGTACTGTCAGGGCGTTCTGCTGGGGTGCAAGGGTGGAGGTGTAAAGGTGGCGTCCTGCCTTCAGACTTGAGCAAATGGGTGATGGTGGTGA
CAGAAGGAGGAGAGGCAGACTTGGAAGAAAAGTTGAACACTTTGGGTATGTTAAGAGTAAGACGACTGCGTGCAATGGCTCACACCTGTAATCCCAGCAC
TTTGGGAGGCTGAGACAGATGGGTCACCTGAAGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTAAAACCTTGACTCTACTAAAAATACAAAAAATGA
GTCAGGCGTGGTGGGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGTCAGAGGCTGCAGTGAGCCGAGATC
SAGCCACGGCACTCCAGCCTGGGCGAGGAGCGAGACTCCATCTCAAAAAGAAAAAGTAAAACACCCCCCTACTTGCTGAAGGGAGTGTAAATTGGTGTCT
CCTTTTTGGAGAACTATTTATGAATACCTCTCAGAGCTACCAATGCACCCACTCTGATCCAGCTGTTTCCCTTCTAGAAATTTATCTTTATCCTGATGAT
AGAGCCGCACCCCGAAAAGTGAAAGGTATACCAGCTTGYTCATTTCATGGTGGCATTGTTTACATTAAAAAAGGTTGGAAAGCACTTAGTGCCCTCTGTT
GGGGGAATGGTRAAGAAAATTATGGTCCAGCTAATCATGAAGTGGAACAGTGTACAGCCATAAAACGGAACAAGGAAACTCTGCATACACTGATGTGGGA
AGGTCCCTGGGATACAGTGTTCAACTGAAAAGTCAAAGTGGCCGGGTGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTAAGGCAGGCGGAT
CATGAGGTCAGGAGTTCAAGACCAGCCTTGCCAACATAGTGAAACCCTGTCTCTATTAGAAATACAGAAAATTAGCCAGGCATAGTGGTGGGCACCTGTA
ATCCCAGCTACTTGGGAGGCAGAGGTAGGAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATGGTGCTACTGCACTCCAGCCTGGGTG
ACAGTGCGAGACTCTGTCTCAAAAAGAAAAAGAAAAAAGAAAATTCAAAGTGCAGAATGGCATGTAGAGTATGCCAGCATTTGTGGAGAAAGAAGGCAAA
AAATATTTATTTATATCTGCATAAAAATTTCTCGGAAACTACACAAAGATCTACTCATAATAGTGGTTCTGTTTTCTGGGGGTAGGTGGAGTAGATGGGG
GTAGAGGAATGTGGGGAGACTTTTCTATATGCCTTTTATATTTTTTTAGCTTTAACCCTATAGATTTACCTGGTTGAATTTTTTAAAATTTTATTTTAGA
GTCGGAGTCTTGCTCTGTCACTCAGGCTGGAGTGCAGTGACATGATCATAGCTCACTGAAGGCTTGAACTCCTGGGCTCAAGAGATCCTCCTACCTCAGC
CTCCCCAGTGGCTGGGACTACAGGTGTACACCACAACACTAGCCTTAACTGTTGTCGACTTTTAAAAGCCTAGTTTGAAACTTAAAGCCCACAATGATGT
TTTGGCCTAGGTGGGCTCTGCCTTCCCTCCCCCGTGTATCTCTCCTCGCAAGATGTCTGTACATTTGCAAAGGAGCTTATCTGTCCTGAGGGCCACCCCC
ATTTCCTAGAAGATGAGAACTAGATCTTCACCCAGACCTTGCTTCCCTATCCATCCCCTCCCAAGGTCATTGGTAAGCCTGACATCAGGTGAGGGTCTCM
CTTTCTTCATCCAGGGACTTGTCCATCCCTGGAACACTCCTAGTTTCACCCCTGTCCTAGTGGGCACTCATTCATGAACCATAACAAATCTTTTCTTCAG
TGGGAATGAGCCGTGCTCAGGCATCACACCATAGGGTAAGAGCCATCTCCTGAAAGGCAACAGAGCACCCAGCCCAAATCTCCCCCACACTCGCTGCTCC
ACAGGGTGATGCCAGTCTTTGGCCTCAGCTGTCTGACTCAAGAGATCCCAGCTTGTAGGCGCATAGGCTCGTGGACGACCTGGTGGTTCCCCTGGTTTCC
CAGGGCTGCACAAGCTGCCTATAGCTTCTCTCAGCTCTGGCCTTGCTTTCTGGCTTGATTGTGGAATATAGTTTCCTCCAAGGCCTAATCTCCCTAAGTA
AGCTCTAGATCACTGCCCCTATGGCCTAAGGTGACACCGTTGAAATTGTACTTCCGTCCCTGAGAAGTAGTTTCACTCCTTAAACATTCATTGTTGAAGA
ATGATAAATATACCTGTCTGCCTTCTGCTAACTCTCTGGGATTTCTTTCCCTGGAGTTTGACCTCAGCCCAAGACGATTTCCTTTCTCCTTCTCATCTAS
GAGCTGGAGGTTGATGCTATGCACAGATCTTAGGATGACTTGAATCACAGGTGCAGCAGGATAGGAATTTACTCTCCGCAGTTTAGGGCCCAAAAAAATC
CTAATTTTTGAGACAGAGTCTCCTCTGTTGCCAGGCTAGAGTGCAGTGGTGCGATCTTGGCTCACCGTAACCCACCTCCCGGGTTCAAGCTATTCTCCTG
CCTCAGCCTCCCAAGTAGCTAGGACTACAGGCGTGTGCCACCACATCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGA
TGGTCTTGATCTCTTGACCTCATGATCCACTCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCATCTGGCCAAAAATCCTAATTAA
AAAAAATATTATCTCTTCTTGCCCTCTGGAGTCCCCAGTTACCACCTCGCACCAAAACTTGTATTTAGATTTTGTTGTGTGACACTCTTATTCATTTTAA
AATGGTCTCTCTTACTCTATCTCTCTTCTTCTGTCTCTGTAAACTAGCAGTTACTTCAAAGTTCAAATATCCTGTAAGGTTTGTCAGAGGTGTTTGAGCC
AGAATGTCTCCAACTTGAATAGGGGTTGGGTAAAATAAGGCTGAGACCTCCTGGCTGCTTTCCCAGGAGGTTAGGCGTTCTTAGTCACAGGATGACATAG
GAGGTCGGCAGGTCACAAAGATACAGGTCACAAAGAACCCACTGATAAATAAAACAAGATGCAGTAAAGAAGCTGCCAAAACCCACTAAAACCAAGATGG
CGATGAAAGTGACCTCTGTTCGTCCTCACTGCTCATTATACACTAATTATAATACATTAGCATACTAAAAGACACTCCCACCTGCATCATGACAGTTTAC
AAATGCCATGGCAATGTCAGGAAGTCATCCTCTATAGTCTAAAAAGGAGAGGAAGCCTTGTTTCAGGGAAGCCTCTGCCCCTTTCCTGGTAAACTCATGA
ATAATCCACCCTTTGTTTAGCATATGACCAAGAAATAACCCTAAGTATACTCAGTTGAGCAGCCCATACTGCTGCTCTACCTACGGAGTGGCCATTCTTT
CTTTACGTCTTTATAAACTTGCTTTCGATCTATAGACTCGTCCTGAATTCTTYCTTGCGTGAGGTCCAAGAACCCTCTCCTGGGGTCTGGATCAGGACCC
CTTTCCAGTAACAGGTCCACTTTTCCCCAAATAAGTGATCTTCCTCCTCCTTCCTCCTTCTGATAGTGGCATCTAGGTCAGGGTGAATCTTACCAAACCT
GCCACTGGAGCAGGGACCTCTGGCTCTCTGGGATCTTCTTGGTTGAGGTGTCTCTGGGAACCAGCTTCTTTCCTTACGGTATTTGCTGTGGAGGGGTCAC
AGCTAGCATAACTTGTGTTTCATTTTCCTATCGGGGGCAATGCACCGTAATTACCCCGGAAGCTCAGCCTGGCTCCAACATTTCCCGTTAATGATGAGCC
CTCCACCTGGTTTCTCTGTGCTTGCCGAACCTCAGAAACTCATTTGCTCTTCTCAGTGGTCCCCAGCTTTGGGCTCTCAGCTCTGCAGACTCTGCCACAC
CATCTCATGCCCTGCTCAGGGCAACACCCTGGTGGACAAGGTGACTCTTAATTCCCAGCCACCCCCCGCCCCATAGTGGAAATTGTGATTGGACATTTAT
TATTATTATTTTATTTTAGAGACACTGCTGGAGTGCAGTGGCATGATCATAGCTCACTGTGGCTTCCAACTCCTGGGCTCCAGCCATCCTTCTGCCTCAG
CCTCCTGAGCAGCTGGGACTATAGTCATACCCAGCTAATTAAAAAAAAAAAAAAACCTGTAGAGGAGGGAGTCTCAGTATGTTGCCCACACTGGTCTTGA
ACTCCTAGCTTCAWATGATTCTCCTGCCTTGGCCTCCCAAAGTGCTGGGGTTACAGATGTGAGCCACTGCACCTGGCCTTATTATGTTTAATTGGAGGGA
ACATTGATAAAGTCTGTTACATAGTAGCAAGAGTATCCCTAACATGCCTTACCACTGAGAAATAAGATTCTTTGCTGCTGGAGGTGTGTGAAGTTTTTCT
ATAGCAGAAGGAGATGTAATTTTTTTAAAAGTCCTTTGACTACAGAGATTTTTATATTGTCTGTGTACAATATTACTGGGTTTATTAAAATAATTTAATT
TAAAATATCTCATTTGATTTATCACCTACATCTACAGTTGTGTATTTAGTTATGGGACATACATCTAATTGAATTCCCATCTTTTTGTGGTAAAGGTTTA
TTTTCAGCATCTCTTTATGCATCTCATCCTTTCCCACTCTCCATTTTCTCTTTTTAATGCACCATTTTCTGATTCTTATAAATGACGTATCCTCCCCCTT
TGGCAAGGTAGCATTAGCCAGCAAGCATACCTAATATTTGTGTGGATGGAAGGCTCAGGAAGAGAACTATTTGTCTCTTTCGAGCTTATGGCTTTCACAA
AGTGTCATAGCAATTTTTATGACTCAACTTTCAAAAGAGATTTATTAGCTTGGGTCTCTAGGAAAAAATAATTTATAAGGCCACTGACAATCATAGCTGT
GAAGACATAAAGTAACATGATAAGCACTTATTTTTATAGCACTTTTTACATATGAGACTACCATGGTATGAAGTTCAATTATGATGACTGATTTATAAAC
ATCATTTCTTGTTTAACGTGGGTAATTTTTAAAAGTATGAACTGGTGAGAATGTCAAATGGTGCAGCCAATTTGGAAAAGTGTGACAGGTCCTCAAACAA
CTAGACATAGAGTTACTGTAGGAGCCAGCAGTTTCACTCCTGGGTATCTGTCAAGAGAACTGAAAACAGATGTCCACACAAAACTTATTCATGAATGCTT
ACAACAGCCTTATTCATAACAGCCAGAAGGTGCAAGCAACTAATTGTCCATCAGCTGATGAATGGATAAATAATGTGTGGTATATCCACGTAGTGGAACA
TTATTCAGCCATAAAAAGGAATGAAGTACTAATGCTACACCTTGGATGAACCTTGAAAACATTACGCTAACTGAAAGAAGCAAGTCACAAAGGACAACAG
ACTATGGAAATCTATGGAGACAGGAAGTCATTAGTGGTTGCTTAGGGCTGGGGATGGGGTGAAGTGGGAGGGGTGGGGGTGATGGCTAAAGGCTTTCTTT
TTGAGATGATGAAATCTTCTAAAATTGACTGTGGTGGTGGTTGCACAACTCTAAATATGCTAAAAATCATTGAATTGTACACTTTAAATAGGTGAATTGT
ATGTACAGTATMTGAATTACATCTCAAAGCTATCTTAAAAAGATAAATAAGCTCTGTGCCTCATTTTGCCTCCTACAGTGTTTCGTAAAGTTGTAGTACT
AAAAGGGAGATTTGATAGCAATAATGATAATAATAATAAACAGGCTGGGCGCAGTGGCTCAAGCCTGTAATCTCAGCACTTTGGGAGGCTGAGGCAGGTG
GATCACCTCAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTAAAACCCCATCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGTGGGCACC
TGTATTCTCAGCTACTCAGGAAGCTGGGGCCAGGGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCTGAGATCACATCATGGCACTCCAGTCTT
GGTGACAAAAGTGAAACTCCATCTCAAAATAATAATAATAATAATAAACAATTTCTAAGTATTATTCTTAGYAGTCACCTACGCATGGCACTTTGTGCAG
ATGACTCCTGCATGTGTCAGGGTTTTTCTTGCGGGCAATGCAGTCTGATCAGTATAAACTAGGCAGAGAGGTATTTGATGAAGGGTTTGGGGAACTCAGA
AAATGGACTGGGAAGCTAAGAACCAGGCATGGAAATGAGCAAGAACTAGGGGAGATTGGGGAGCAGGAGCAGAAATGGTCTTGCACCAGGGTCAGAAATG
CCTGTGGTTGAAAGTCAGCTGTCTTCAGCGTTCAAACCTCTGTGCTCCAGATTCCAGCTCCAGGGTGGTTGGCTTAGTGGGTACCTGCCTCTCAGCCCAA
GGAGAACAGAGCTTTCGATTCACAGAGCTTCCGATTCACAGAATTTCCAGCCTCCACTCAAGAACAACAGGGATCCAGGTGCTGAAAAGGGATAGATGCC
TCCCACAGACTCCAGGGAAGCATTCAGTTGTGACCACCTCTACCCTTTTAAGGGATCGAAGCCCAGCCTAGCAGGAAACTGAGCTTTGGGGCTTTGAAAT
TTTGCCCCAAAGTGCTGCTAGAAGAATTGGATTAGATAGGATACCACCATGTCACTGACTACTTAGGGGGAAAAGAAAGCTGAGGTAGTGAAAACATTTA
ATGAAATCCTGAACACCCAGAGTAACCTATTTCTTCCTTGCTCCGTTCCCATTTATATCTGAGAACTGTGTTCATGCCCCAGATGTTGCAAGAATACTGC
GGAAACAAAAGTGTTCGAAATAATTCTTTTTTTTCGAGATGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGAGTGATCTCAACTCACTGCAAGC
TCTGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCGCCACCATGCCCGGCTTTTTGTATTTTTAGTAGA
GATGGGGTTTCACCGTGTTAGCCAGGATGGTCTCAATCTCCCGACCTCATGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCA
CCGCGCCCAGCTGAAATAATTCTTATGCTCAGGATCAAAATGATAAGGGGTCAATTGTATTAAACACACACACACACACACACACACAAACTTTGCCTTA
AACATAAATGTGTTTCAGAAGCTTGGAAGCAGAAAATAATTTTAGGAGCTGAGTATTATTAATCAGCCTATGTGTTTTCAACTGCACCAAGAAATATAGC
AAAGATATGCAAACTCTTTGGATTTAAGACATCACCTTTGTGTTTTGACACTCTTTCCCAAACCCCGCCTAAATGACAGGTGGGACTGTTTTCTTTTAAA
CAGTAAAGGCAGGGTCCTGAGAAGACACTTGAATGGGGCAATTGGAGGAGTGTTTAATCGATGAACTATTTACAAAGATGTGGGCAGGAAGACCATGATA
GACTGAGCAGTTGGGGGGCTGGAAGCAGCAGGGTACCCCTAGAATCTACAGCTCTGAGGGGGTGAAGGAGAAGCAGTTTCAGGAAGGAGGGCGGGATGGG
AGCTGATGGGGGAGGATGCAGTCACCTGAGGCCAACCTAAGGGGAAGGAGAAGCTGTGGAGTGGAAGCCAGGGAAGGAAGGGAGCCCTGTGACACCATCT
GTGTAATCAGCCTCCCAGGAGGTGGAGCAGGGTGACAAGTGCACTCCGAGGGAGGGGCCACCAGGTGAGTCAGCCCAGGGCCCAGCTGCTAAGACCAGGG
GCAGGCCTCCTCCAAGTGGGGTTGGGCAGGGGGGCAAAGGAGAACAAAAAAGCCACTTTACCTACTTCTGTATTGAGTTTTTAAAAAAGACTGTATTAAT
TTACATTGTAATTTTAAAATAAAAATGTAAAAATATTAAACATGACTCGGAAATCATTGAGTTTGAGGATCTCATGAGAAGTTGATGACCCTTCTTGAGG
TAACTAACGACACTTTGGAAGGTGAAACCAGGTTGCTCGCCCACTCTAAGAAGGAGCGAGAAGGAAGAAGGAGAAACAGCACTGTGCCCCCTTCTCCCGC
TGCAGTCGGGGCGAGATTTCCATGCTCTGGGAGGTAGTGGAAGGAAGCGTTCAGTGAGGCCCTTAAAGACAATGGCCCTGCCAGCCAGTTGTGATGTTGA
CAATGTTCTCCTGCAGGAGGGCGGGAGGCCTATAAAGTACCAAGCGCAGTCCTCCATGAGCAACGGGGAGGCGATGAGCGACCCTCTCCTCCAGGGATAG
ACACAGACCCTCTCCTCCAGGGATAAACACAGCCAGTTATGGCCGGGCGCGATGGCTCACATCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCAGA
TCACGAGGTCAGGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAACATACAAAAAAAAAAGTTAGCCAGGCGTGGTGGCAGGCG
CCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAGTGGCATGAACCCGGGAGGTGGAGCTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCC
TGGGCGACAGAGCGAGACTCCATCTCAAAAAAAAGAAAAACAAAAAAACCAGCCAGTTATATTTACCAGCTATTAATTAAATTTTTCACTGGAAGCAGTC
TTGCCTTGTACATAGGGATGAAACACACACACACACACACAMATACACACACCATATATATATTTATAAATGCATATATAAAAATTATGGTAAAATACAT
GTAACATAAAATTTACAACCTTAACCATTTCTAAGTGCTCAGTTCATTGGCATCAAGTATATTTGCATTGTTGTGGACTCATCACACCATCCATCTCCAC
AATTCTTTTTATCTTCCCCAACTGAAATTCTGTGCCCATTAAGCAAAATCTCCCCATTCTCCCCTCCCCCAGCCCCTGGAAACCACCATTCTATTTTCCG
TCTCTATGAATCTGACTATTCTAAGAACCTCGTAAAAGTGGAATCATATAGCATTTGTCTTGTTGTGACTGGTTTATGTTACTTAGCATAATGTCTTCAA
GGTCCATCCATGATRTAGCATATGTCAGAATGTCCTTTCTATTTTGCTTGAATAATATTCCATCGTATGGATATGTCATATTTTGTCTTTCTATTTATCT
GTTGGTGGACACTTGAGTTGCATTCACCTTTTGTAAATATAACACATACACAATGACACACAAACTCCAGTATGTGCCAGGGACCCGCACTTGTTAAAGG
GTCATCTATAAAAGAGAAAGAGAAAATACATGTGCCAACCTAAGTGAGAAGATGAGAAGCTTCAAGAAGCTTGAGTTGGGCTTCTGTGCATCACAAAGGT
GGAGCCTGGACTGTCATCTGGGCCCGGCCTCTTGGGTAGTGGTCCCTGAATGACTGGCAGAACAAGAACATGAAATGGTCTCCACGCAGAAGACAGCCAC
GTGGAAGTGGCTGACTGGTAGACCAGCTGAGATGAAGACTACTCCAGTCYTCACAGCGGTGCTCAAATGGCCCCATCAAATCAAATGTAATGACCAGGCA
GAGACTAGGGTGAAAACAGTTGTGGAAATCCATTTGTATGTCTCCTGTAATATATGATTGGATTAGCTCATCCCAACTCAATGAACTTCATTGCCAAGTT
CTCCAGAGGAAAAGTCTGTCCTTCTAGTGCCTTCTGTTTTCACACAATAAGCAAGGATGACATTTTGGCGTGACTTGTTAAATTGTAGCAAATGAGACAA
CTGTCAGGGTGTAGACAAAGGCAAACAAATCACTTAGTGATTTGTCGAGTGAAAATCGACCTCAACTAAAGGCGCTCACTGGAGTCTCCTTGTGGCATTT
CTCATGGGCACTTGCTTTCATAAGCATCGCCCTTTGATGTTATTTTGCTAGGAGAATGTGGAAAAGTGTATTTGGAAACACTGAGTTTCAGAGCTGATAG
TAATGCTGTATCATTTCAATCAGAAAGGAATTTTGCAAAAAGGAACTGACTTTTTTGTTTGTTTGTTTTTGAGAYGGAGTTTAGATCTTGTTGCCCACGC
TGGAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTTAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCAT
GCGCCACCATGCCTGGCTAATTTTTTGTATCTTTAGTAGAGATGAGGTTTCTCCATGTTGGTTGGGCTGATCTTGAACGCCCGACCTCAGATGATCCACC
TGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGAGACCAGCAGGGACTGACTTTTAACAGATCAGTTATTTAAGCTTGTCCTCTGTGC
CTGGGATGGTTTTAGGTACCTGTCTGCATTCACTGTGTTAATACAGTRTAGTCCTCAAATACCGTTGGTCCTTGAACAACACAGATCTGAACTATGTGGG
GCCACTTCTTGGATTTTCTTCCACCTCTGCCACCCTTGAGACAGCAAGACCAATTCCTTCTCTTCCTCCTAAGCCTACTCAACCTGAAGATGATAAGAAT
GAAGGCCTTGATGATGATCCACTTCCATTTAATGGAGAGTAAATATGTTTTCTCTTTGTTACGATTTTCTTARTAACATTTTATTTTCTGTAGCTTACTT
TGTGCACAGTATATAATATACACAGTATTTAATACCTACGACATAAAAATATGTGTTAATCAACATTAGATTATCAGTAAAGTTTCTGATCAACAGTGGG
CTATTAGGAGTTGAGTTTGGGGAGAGTCAAAAGTTATTCTTGCATTTTCAACTGCGAAGGAAGTCAGTGCCTCTAACCCCAGTGCTGTTCAAGGATCAAC
TGTAGTTCACCAAGAAAGCTGGGGTTGATCCCATTCCAGCCCTACCCTGCTCTTGGTGGGCACAGAGAGTTGTGAGACCTACCTCTGGCCAGACACTGTT
CTATGTGTGGAAATATTGCAATGAAGAAGATCAACCMTCCAAATGCTCACTGTGGCCAGGCTCGGTGGCTCATGCGTATCATTCCAACTCTTTGGGAGGC
CATGGTGGAATGATTGCTTGAGGCCCAGAATTTGAGACCAGCCTGAGCAATATAGCAAAACTCTGTCTCTACAAACAAACAAATAAACAAACAAACAACA
AAAAATAATGCTYTCTGTACATAAACCAGSACATAAGTAATATAATTTCATGGGATGATAGTCACTATAGAGAAGATARGGGTGGTGCAGTGGAATAAGG
TGAGATAGGGTTGGTGGGCAGGGCTCTTCTCTGGGGGTCATCAGACGGGTGAAATTTGAGCTGAGATATGAGTGATGAGGAGCCGCTGCACAAAGATGCT
GGATAGAGGGAACAGCAAGATTTGTGYCTTAGGAAGCTTTGAGTTTCTGTGGGTTTTGTTGTTGTTGTTGTTGTTATTATTTTTTTTGAGATGGAGTCTC
ACTCTGTCACCCAGTTTAGAGTGCAGTGGCATGATCTTGGTTCGTTGCAACCTCCGCCTCCCAGGCTCAAGAGATTCTCCTTCCTCAGCCTCCTGAGTAA
CTGGGATTACAGGTGTGTGCCACCATGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGACTGGTCTTGAGCTCCTAA
CCTCAAGTGATCCACCCACCTTGGCCTCCCAAAGTGTTGGGATTACAGACGTGAGCCATCGTGTCTGGCCAAGTTTCTGTGTTAATGGACACAGAAGAAG
TCAGCACAGCTGGAAGGCAGAGGACAAGGAGGTGCATGGTCCAAGGCTGTAGAGAGAAGGGCAGCAGCCAGGTCGTGTAAGTGACTGCACACGGCAAGGA
TTYAGGAGTTTCCTCTCATTGCAATGGGCAGCCTTGGGGAGTTTTCCTCTGGGAGGAAATCTCATGGATTTATACTGAAGAAATARCTGGCTATGTGCTG
TGTGATAACAGATGGAAGGGGGCTGGAGGGGAAGCAGAGAATCGGGTTGGGAGGCCTGTGGGACCGCTAGAAGCCACCCCTGCACTAGGTAAACAGTGTG
GACCTGAAAGGGACAGGCTGAAGCACGAAGTGTGATTTACAAATATTACTCGAGCCAGAATAAAGACAGCTGCCTGGAAGCCTCAGACACAAGTGACCTT
GGATATGAACTCCATTTGGCTTTCGTCACAAGGTTTTTAAAGGAACAAAAAGGGAGGAGTCAGGGAGTGGCCTGATACAAAGTTCTGTCAGGAGTTCTCA
TTGGTTTCCAGAAATAACATTGATTAGTGATAGGCTATACATTATTAAGCTATAGGGTGTGGTTTACAGTGTCCAGTGAGGCATTATTAGGTTAATTCAT
AACTACTCTTGGCAATAGCAAGCAGTTTCAGTGGATGAATACATAGCTCAAAAGGGGCATGTAGGATGCGATTGATGTCTAATTTTAATGCCTATCTGGG
CCTAATAATTTGAAAAGGCTCACATCCCTCAGATAAAAGTTATTTTCTTTCTTCAACAGCTGTGGGCACTGTTGGAGAAGTATAATGGAAAACAAAATCT
CCCAACCCAGAAATCCTCTCTACAAAGGTAGCAAAGAAAGAAAACACTCTCATTATTGAGAAAAACATTAAACCAGAAAGTGTTACACACCACAAGCAAT
CTGCTAAGAGACAGCCAAGACAGAAAGGAAGCTCACCTGCTTATGGAGCCAAGCAGACACAGCTCGTTCCACACACGTTTTCAAGACGGACAGTAACTGT
TACCAACTGAGTCAGCTTTTCCCCTAAAGATGGTATCGTGAAGCCAATACATGAAACCCAAAGCGAGCCTCAAGCAGTGCRGACTTTATTCAATGGCCAA
AGAATGGAGAAGCAGGAGCATGGCCGCAAGTCAACTTCTTGTCTAGTGAGAGGTGAGGGGGTTAAAATATAGGGTATCYTGGCTGGGTACCCTGCCTCAC
GCCTGAAATCCCAGCAGTTTGGGAGGCCGAGGTGGAYGGATCACTTGAGATCAGGAGTTTGAGGCTAGCCTGGCCAACATGGCAAAAACCCATCTCTACT
AAAAATATAAAAAACAAAACAAAACAAAAAAATAGCCGGGCATGGTAGCTCACACCTGTAATCCCAGCACTGTGGGAGGCTGAGGCAGGTGGATCACCTG
AGGTCAGGAGTTTGAGAACAGCCTGGCCAACAAGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCGGGCGGATCACAAGGTCAGGAGCCTCCT
GAGTAGCTGGGACTATAGGCGTGCACCACCACGCCTGGCTAATCTTTTGTATTTTTAGTAGAGATGGGTTTTCACCGTGTTAGCCAGGATGGTTTCGATC
TCCTGACCTCGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCAGGCCGCCTTCCTGTTTCTTAAAGATAAGA
TAGAGAAGACAGGTTAGAGAAGAGTAGAAATTCAGCTATGTCATGTAGGCATTACACTGGGTGACATAAGTAGTAAGAGAACTTGACAACACTACTTGTC
ACACACAGCTCATTCTAACTTTACCTGGCAACTGAGGTGACCATCTGTATTAGCTAATGGGCTTTATCTAGAGAAAAACAAGCTTCTTACATCTTTGTGA
CAGGAGGCAGTTTTGCAGCTTGGAGGCATGTGCCCACTGAAGGCAGGCTSTCACCCTCCCACAGACACTGGGAGCTGGGGCCACTGTCTCTCCCTTGATG
TTTGCCTTTCAAGGAGATGGCTCCCGGGTCCTTGAGAAACACATGCCTGGGTAATCAAGCTGACAAAAGTCCTMTCTGATCTTCACAAAAATGTTATATA
CATTTGAAAGAGAGGAGAAAGTGCTTATAATTACAAGTTTTCTAAGGTAAATGCTCTGAGAATAAGAGAGGGAGGGAAAYCTCTTCCCCCATTTTCAACC
GGGAGAATTAAGCCTCTTGTTTTTAAGTTGCATTTGTCCTTACAGTGGCTACTAGGTGTTGGGAACACTGCCCGGGAGCTAGGAAGAGCAATTAGGGCTG
GAGGCTGTTTGGCGCCAACAGGCTGTTGCTGAGTGCGGATGAAAGTCCAGAGAGAGAGTGGAAGGTGGGGGTCAAAGGGCATGGTGGTGCCCTGCATGGC
AGATGGTGGAGAAACTGCACCAGGCAGGTGCCTCAGGCTTTCTGGGTCAGGGGAGAGGGTCAGGTGGCCYTTGAAGTTCTGTTTGCTGTTAGCCTGACTG
AGTTAACTGCATGGGTACCTGACTGTCTTTGCTCAGTCTCCTAGTGGACAACCACATTTCCGGAAGGCTTTTCACGAGTGATATAGCAACTAATGCTCTC
CCAGGGCTCACTGCCTGGCAGGCTCTGCTCCAAATGCTTTCATATGTTAACTAATTCAATCCTCACTATGAGGATTCTCTACTCCCATGAGACAGGGATT
GCAGGGAGTATAAGGTTGTGTTGGATGTGTTTCCTGGCATTAGTAAAAGAGGATGTGAGGCAAGAGCAAAACTAATGCATGTGCTGAAAGAGCTATGGTG
CAAAGAGTACACACAAACCTTTTCTCCCCTTCTCTGTATGCTGCTGTGGACACTGTTACAAAGCATGAAAATGAGGCCGTAGATGCAAAAGCTTAAAAGG
GTGACCCATACCTCAAAAGTTCTCAGTAAGTGGCAGCATTTTATTATCGTGGCTATYATTTTGCCAGTTATATCTTAACAGGTATAAATATTGAAACCTC
CTTAGCGAAAATTATAACGGTGAGCAAATTATGACAGCGGAGGAGATCTGACCTAACCATCTCCTTCTTGCCTTTTAAYCTCTAAACTGTCCTGGGTCAT
TTTGGGGCATGGGTCAAGCTAACTTTAGGAGAAATTTAGTTTATAGTTTAAATGATGATAGACCTTCCCAAAACTAAGTCATCTTTGTAAAACTAATGAA
AGGCCACCAGGTCAAAAGAATGAGAGGGGCCTGAATTCTGCTGAGATGTAGACATAGTTAAGCAATCACCAGCCGTTATTCTGGAGGTCATGAAATTTGC
AACTTTCTCAATTACTCCTATAATTAACATCACTMCTCTAGACCCTAAAATTGGCCTTTTCAGATTCCTTTTCAGACTTTTGTATTTCTGAAACCAGGTG
ACTTTACCTGGACCCACGACCCCTACCTGTGGTCCCTGACCTAGAAGCAGGCTCAGCATATGAGGACCATTTTTTCCACACCCCTATGATTGCATCTCCA
ACCAATCAGCAGCATCTGTTCTCTAGCCACCTGCCTACCAAACTATCTTTTAAAAACCCCTGCCTTCATATTTTTGAGGAGGCTGATCTGAGTAATAATA
AAACTCTGGTGTCCTGTTCAGGTGGCTCTATGTGTATAAAACTCTTTCTCTATTGCAACTCCCCTGTCTTGATAAATCAGCTCTATCTGGGCAGTGGGGA
AGATGAGCTAATTGGGTGGTTACAATATTACCTCTTCAATGTGACTGAGGTTCTTGAAGGCAGGAAATTGTCATATAATTTATGTCTCCCATGTCAGTAC
CTTATATAGGGTAGGTATCAATAATTACTCATAAAAGATGAGAATTATTGGTTCCCTAGAAGTCATTTTCCCATTCYAGGCATGGTGCCTTTTAGGGGAC
AKARCTCTGACTGAACTTTATATGTCCTCCTTAGTTAGTTACTTAGGGTCTTGATTTCTTCTGGAGGCTGTATTTSTCATTTAAATTTTGCTAGATATTA
TGCATATTACTTAAGTTTTCACACTTAATGGCATAAATCTGTCCCTAGTATTCCCTCTCAATTTTCTAATCTCCTCTGTAACTGCAGTCTATTTATATGT
CCTCAGTAAATATTTGTTGAGTCTGATAGTTTTTGGTTAYGATCATGGACTAGTGCAGTGAGGGCAGTTGGATATTTTCCTCCTGGGAGGACATCTGGGA
TTCACAATCTGGATGTTTGGTATCATGAGACAATCTCCCTGCCCTGGCTTGGGGGGCCACCCATGGGTTAAGGCATAAGTAACAATTCCTGACAAGAGTG
GRGTCATTAATGTCTGGAGCAGGAAGCTGAGGGGAGTTGTGTTTTTCTCTTGCCTCAACATTGTAGGAGGAGAGAGAATCCTTTCTAGGCATCAGGGTCA
TCCCTGAGCACTCCTGGTGTGATTTTAGGGTTCTCCAAGGCCCACTGTGGTTCTAATTTCCTGCCACCATCCCTGAACATCCCACCATTCATATCCTCAG
TGTAGAAAACAGAGATGGTAACTTTGACTCCAGAAGGTCACCATTCACATGACCACTTAGGAGAAAAGGAGAAGGGAGAACTTCCAGTATTTTATCCAAA
TTCTTTATTCGTCACTCAGCTAGCCCAGACGTCTTCTTAGGAAGCATTGGRAGATATGAGAGAGTGGTGTGGGGTGGGAAGCAAATGGTTGGGGAGACAT
AGCATCTGGCTTTTTTGGGAAGCCCTGCTGGGTTTAGACAAATCTGCAGACAGGAGGAAGAATGAGATGAATGGCACTTAAGTGTTATTCCTCTCCAGAT
CATGATTCTCCCAGTTTGAATTAAGACTCKTCTCTGAGTTTTGGAGGAGAGATGCTTGGAAAGGATGATTGAAGAGATTCATTCACCCATTAGACTCCCT
ACTATTGATTAAGGATGTAATGAAGTGATATAAGTCATCCAATAAGCTATGCTTACTATGTTTTTTTTTAAACATAGTAAATGCAAGCCAAATAGAGCCC
TCTCCCACCTTAGCCAGTAGAGTGACATCTTAGGATCTTAGGTGAAGTCTTTTTTTTTTGGTTCTTTTAGTTTTTAAATTTGGAGGATTAGGATGACAAA
AATGACACCTATGGGTGAAGGGGTATGGAAGGACTGGAATGACATTCAGACTTTTTTTTCAGTAGGTTTGCTGGTTTAAAAACTGTATCTGAGGACAAAA
TGCTTGGATTCAAATCTTGGCTCCCTAACTAACTGAGATCTGTCTTCTCTGTTCTTTGTCATCTTCATCAATAAAATGGGGGAAAATAACACTGTCTATG
TCTTAGGGAGAATAAGATGGAACATTGCATATAAAGTGTCTAACACAAGTCCTGGCACATAGTCATCAATAACTTGTTTATTATTGTGCTTGTTAAATTC
CATTCACCTGGAAGATCCAGGGATCCATTCAAAGTTGGCTCTGGCTGCCGTGATGCCAAGTGAAGTCATTCCAATTTTGCAGTCTAAATAGCACACACTG
CCTTGTCCCTAAGAGAAATACCAGCCCCAGACATTGTGAATTGATCATTTCCACTGAACCATTTATAAGGCAGAGTTGATCCTTATCATTAAGGTGAGCA
AAGCAGTTGTTGTGGGCACTTCTCTTCATGATGATGTTCAGTCATTTAGGTCTCTGTGGAATGGCTGGCAGGAGGCCCTAATGGTGACAGAAATCCCAGT
GACTACTGTCCTACTGGCTCTGGTTGGGAGCCTTTCCTAGCAGTCCTACCATGACTGGCCTCTTGGATCCACTCTGAATTCTTCTACTTCTCTTTGCAGT
AGAAAGRCATTAACTGATATTTCTCTTTCCAAATTTCTTTGCAATGTTTTCTGTAGAAGAACTGAACATTAAATAAATATTATTTCTAGAACTCAGTTTT
CGCAAAAGATAGCATTTCAGTCCCACAAGAGCAATATTTATATCATTGCAACTATGGGGCTTCGGTGGGAAAAGGATGACAATATTTTTCCATTTGGATA
GCTGTTTCTTATCTAAACTTATTAAATGGTGAGCAGAACTCTTCATTGTAGACTTTTCCCAACCCTGAGTGCCAAAGCAAACACACAAAGTTCGGACCAC
TGACATGTTGCTGCAGTAGTATAAGGGCAAATAAGTCTGAATGGAGATAACAGACTTGGAAACGGTACTTTGTGTCTCTACTTTCATGGTCCTTCCCTCT
ACTGACATGGAAATAGCACCCTAGGCCTGCCCGGGGCCATCCCTGAACTAGGGATGCATCCCCCGTCAAAACAAACTGAGGACATTGGATAATTCACATT
TTACATAACAGTATTTTACTCAGATTTATGTGGCTGCTGATGAATTTTCATCAAAAAAGTATTTTCTGGAATAAAATCCATTAAACCAATTTAATCCCTT
AATCAATTTTTATGTAGTGTAGTTAAATCATTTTTATTTTTCTAAAAGTTAATGAAACATTTTCTATTTTTATTTCTGAAAAGTAATTTTCATCAGGATA
GATTCTTTTCCATTTAAAGCTTATAATAAAGAGCTAATTAATCAATTGATTTTTGTCCCCATCAGATTTTCCTGAGTATAGCTTCTGCTACTGTGAGTTT
TCTTTTATGGCCAGATCCAAAGTTTCCTTTTGTTTTATTTTTCCCCTGCTGTAGTCAAGTCCAATGTCTCAGGCTCAAATTCTGCACATCTAAATTTTGC
CAGCAATATTCTGTTTGTTTGTTTGTTTGTGACAATGTCTTACTCTGTTACCCGGACTGAAGTATAGTGGCATGATCATGGCTCACTGCAGCTTTGACCT
CCTGGGCTCAGGTGATCTTCCCACCCCAGCCTCCTGAGGAAGCTGGGACTACAGGCACGTGCCACCAAACCTAGATAATTCTTTGTATTTTTTGTATAGA
TGGGGTTTTGCCATGTTGCTGAAGCTGGTCTCAAACTCCTGGGCTCAAGTGTTTCACSCACCTCAGCCTCCCAAAGTGCTGGTATTACAGGTGTGAGCCA
CTGTGCCTAGCCAGCAATATTCTTTTTAATCAGTTTTYGATTGGTGAAAAAGTGACTATTTCTACCTATAATATTCATTATGGATTGGATAAAACATATT
GTCTAATTATTTTGGTGTCATTATATTCAGAATTCCCAGTATAGTCATCCCTTCATACAGGAATGGAATAATAAAATTATACATTAAATAAGTGTTGTAA
ATACAGTAGATGTTTCTAAAGCTAATTTTTAAATGAAAGGACAATATATAAGTCTAKAGCTAACTCCTCTGTCATGCACAATCTGAGTTAACAGAATAGW
TTAGGGGTTAGCAAGCTTTTTCTATAAAGGGCCATGTAATAAATATTTCAGGCTTTGCAGTTCATATGTTCTCTGTTGCAACAACTCAACTGTGCTGTTG
TAGCACAAAAGCATCCTGGACTATTCATAAACTAATGAGCATGGCTGTGTTGCAATAAAACTTGTTTACACAAACAGATGGTGGTCCAGYCCAGATTTGG
CCCATGGGCTGTAGTTTGCCAATCCTTGGAACAGATAAAYGTTCATGCTATTATTTGTTTAGTAAGAGTATTCTTTAGTTGCCAGGTTGACCATGAACTA
CCATAAATAGAGAGCTCCTGGAATGTACATTGGAAAAGTTTTTCTTTTTGTCCAGTTTTTCAGGATCACAGCTGTTATACAAAGCTCTGTGTACCAACAA
TGCATATATCACCAGGCTCATATACARTTTTCTTAGAGGAGCTCAATACCCTGTGGACTTAAATTAAGAACCATAAAACTGCTTGAGAGTGGACAAAGAG
AAGATAACCATTTTTCCTATCTTACTGAAAATAGAAGCAGAACAATCACTCGGACTCACATCATAGGACTAATTATGGATGGAGCATATTAGATGATAAA
ATAAAAACTAACAGGAAAGGAAAGCATGACACTAGCTTTGGTATTCAGTCATGGCTTAGAGTTACTAGCCTCATCTGGGTATAGCAGACAAGCTCTGGCC
TTAGGAAAATATTATACTCTACACTTTGATGACTCCCCTAAAAACAAAACAACTAAAACAATTGTAAAAAGCAAAGCCTATTACAAAGAGGGAGCCAAAA
TTCAACATGAAATATACTGTGCTTAATAGAATTGAATTCTTGAATAATGTTCTTCTGGCCTCCAAGTGAGAATAAAGGTTGTGCTATTTAAGAATGTTTT
TCAGCTGCACATAACTGCCTGTATTAGTCCATTTTCACACTGCTCTAAATAAATACCTGAGACTTGGTAATTTATAAGGGAAAGAGGTTTAATTGGCTCA
CAGTTCTGCATGGCTGGGGAGGCCTCAGGAAACTTACAATGATGGTGGAAGGGGAAGGAGGCACCATCTTTGTAAGGCTGGAGAAGAGAGAAAAGTGTGT
GTGAAGGAGGAACTGTCAAGCACTTATAAAGCCATCAGATCTCATGCAAACTCACTCTCATGAGAATAGCATAGGGGAAATCGTCCCCATGATCCAGTCA
CCTCCCTCTCTTGACACATGGGGATTACAGGTGCCTCCCTTGACAGGTKGGGATTACAATTCGAGATGAAATTTGGGTGGGGACACAGAGCTAAACCGTA
TCATTCTCCACCGGCCCTTCCCAAATCTCATGCYTTTTCAGATTTCAAAACCAATCATGCCTTCCCAACAGTCCCCCAGAGGCTTAATTCATTCCAGCAT
TAACCCAAAAGTCCAAGTCCAAAGTCTCATCTGAGACAAGGCAAGACCCTTCTGCCTAGGAGCCTGTAAAATCAAAAGCAAGTTAGTTACTTCCAAGATA
CAGTGGGGGTACAGGCAGTTGGATAAATTGGCCAAAACAGAAGGGCTACAGGCCCCATGCAAGTCCAAAATTCAGTGGAGCAGTCATTCAATCTTAAAGC
TCCAAAATGATTGCCTTTGACTCCATGTCTCACATCCAGGTCATGCTGATGCAAGCAGCAAGGTCCCATGGCCTTGGGCAGCTCCACCCCTGTGGTTTTG
CAGGGCACAGCCCCCTTCCTGGCTGCTTTCACAGGCTGGCATTGAGTGTCTGTGGCTTTTCCAGGTGCATGGTGCAAGCCAGGTGGATCTACCATTCTGG
GGTCTGGAGGATGGTGGCCGTCTTCTCACAGTTCCACTAGGCAGTGCCCCAATGGCAACTCTGTGTGAGGGCTGCAACCCCACATTTCCCTTCCACATTG
CCCTAGCAGAAGTTCTTCATGGGATCTCCACCCCTGCAGTAGACTTCTGCCTGGACATCCAGGCATTTCCATACATACTCTGAAATCTAGGTTCCCAAAC
CTCAATTCTTGTCTCCTGTGCACCCACAGGCCCAACACCATGTGGAAGCTGCCAAGGCTTGGGGCTTGCACCCTCTGAAGCAATGGCCTGAGCTGTACCT
TGGCCCCTTTTAGCCATGGCTTAAGCTGGAGGGGTTGGAACGTAGGACACCAAGTCCAGAGGCTGCACAGAGCAGGCGGGCCCTAGGCCTGCCCACAAAA
CCATTTTTCCCTGTTAGGCCTCCAGGCCTGTGATGGGAGGGACTGTGGTGAAGGTCTCTGACATGCCCTGGAGCCATTTTCCTCATTGTCTTGGTGATTA
ACATTTGGCTTCTCATTACTTATGCAAATTTGTGCAGCTGGCTTGAATTTCTCCCAAGAAAATGGTTCTTTTATTTTCTACCCCATCATCAGGATGCAAA
TATTCAAAACTTTYATGCTTTGCTTCCTTTTTAAACATAAGTTCCTATTTCAGATCATTTCTCTCAAGTTCAAAGTTCCCCAGATCCTAAAGGCAGGGGT
AAAATGCTGCCAGTYTCTTTGCTAAAGCATAGCAAGAGTGACATTTGCTCCAGTTCCCAATAAGTTCCTTATTTCCATCTGAGACCACTTCAGACTGAAC
TTCATTGTCAACATCTCTATCAACATTTTGGTCAAAACCATTCAACAAGTCTCTAGGAAGTTCTAAACTTTCCCACATCTTCCTGTCTTCTGAGCCCTCC
AAACTGTTCCAACCTCTGCCTGCTACCCAGTTCAAAAGTTACTTCCACATTTTTTGATATCTTTACAGCAGTGTCCCACTCTCTGCAGTACTAATTTACT
TGCCTAAAAATGCTGCAAATAGTACTCACACAATAGTGCAGAGATAGGCAATCATTTGTACTAGTTTAAATAACTCTATATGCCAAGCAAAAACCCAGGT
GTTTTCTATCATTCTTTGCTTGCTGGCTTTTGGTCCTTACACTTGTTGCCTCATGGTTGCAAAATGGCTGTTTTGTCTCCAGACATTACATCAACATTTG
AAGRAGGAAGMAGGGTTAGTGTCTGAGCCACTGACTCTGCTGATAAAAGGACAGAGAAAGCTCTCCCAAAAGCCCTCAACAGATTTCTGTTTGTCTCATT
GGTCAGAACTATCTTACTTGACCACTAATGGTTACAGAGGAGAGCAGTGATGCAGGATTTTTCTYGGYCCCTTTGCCAGTCAGGGACCTCTTGCTGGTGA
TGCTGGAGGCCTTGCTTGGGGCACACTACCTGTCCCTGGAGGTGCCTCACCCAATCGGCCCCCCTGGGCCAGGTCTGGCTTGTATACCAGTTCCTGAGTT
CTTGTCCCACGCCCAGAATGAATGAGGCTGTGCTGAACTCTGAAGGGTGAGGGTGATGGAGAAGAATTTTTTTGACCAATGAAACAGCTTTCAGTGGGGA
GGGGATGCAGGGGTGGTCTCCCTACCAGAAGGTGGGAAAGTCCCCCATGTGGCTGGGTCTGGGGCTTTTTATGGACTCAGAATGGGGAGTATGTGTTGAT
TGGTTTATGAGTATGCAAAAAAGGTTAAAGCAAAGACTCTACTCAAAGGTGGGCATGACAGTGTAGAAAATCAGTTAGGAAAGGACAGGTATATGTAAAA
TAGGTGAAGGGTGGGGATCAATCAGAGGAAAGCACACCAAACAGGAAGACAAGTTCTCAATCTGGTCCAAGGATTTAAGTTGTAGCTTGGCTTTCAGGCT
TTAAACTGTCTTCAGCTTGGAGGCGGGATTTCACCGGGGACCCGCCCCATCTGCCTAGGCATTTGGCTGCCTCCTCCTGCCCTTAGTAGGAAAGTGAGTG
TTTCATTTTCTCAATTTATCTGTGGATGTGGACAAAGGGGAAAGGGGTAGGGAATAGGGGGTTGTAGTCAGCCTCCAACAGRTTATTACCACTGAAATTG
TGCCCTAAAGGATTAAAGAAGTCAGTAACTAACAGAAATTCTTGAGTTTGCAAGGTAAGAAACAACTTGCTCAAATGCTGAAACTCCCTCTGCTTGTGAG
ATAAAACTAGCAGAAATCAGTTGGAACCACCATGGCCAACTGGAGTTTGCACACAGTGAGCTTGGTGAAGTCACGGCCCGAATTTCTACCACGTGTTTCA
TATTAACCCCTTGAAATTTTCTCATGGGACCCCTGAGGCAACATGAAGAGATAACTGTGCAAACCTGAGGATTTTCTAGGCCTCCCCTTTCCTTTCACTA
ATCACCTACAATCCCAATATCCACCCCCTAAACCTTTTCTAATAAAATTATGCCCTGCCTTAAAGCCATCTCAGGGAGACAGGTTTGAGCTTGACCCCTG
TTGCAATAGAAAGCTTTTCTTTTGTCAAAAACCCAGAGTCATAGCACTGGCTTCTAGTGCATCAGGCAGCAATCACTTTTTGCTTGATAACACCATTTTT
CATAAGTACCTGAAACTGGATTCACTAATTATGTCAGCTAATGTTGACATTGATAGAGGTAAACGACTCATTTCTTATTTATAAATCTGCAACTGTTGAC
AAGAAAAGCCATTGGCTTGGTTATAACTTTTGAAATGTGCTGCAATTAGCCAGGTGTGGTGGCTCATGCCTGTAATTCCGGCACTTTGGGAGGCCGAGGC
AGGCGGATCACGAGGTCAGGAGATCGAGACCACCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGG
CACCTGTAGTCCCAGCTCCTAGGGAGGCTGAGACAGGAGAATGGCGTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAG
CCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAACATAATGATAATAATAATAATAAAAAATAGAAAGAAATGTGCTGCAATCACAA
AATTTCCCAGAACTTTATCTTATATGACCGTTTTCCTCCAGCTCATGGACAGCTATGTCTGAATCAACAGCAGTCCATAGGGCACTGCCCGAGGTATCAG
GTGATGTCTAAAAGGATTCAATAGGAGGAGCAGGCATCTGGGAATATACCAAAGGAAATAAAGTCAACACCTAGTAACAATATCTGCACTCCCAAGTTCA
ATGCAGCATTATTCACAATAGCCAGGATATGGAAACGACTTCTGTCTGTCAACAGATGAATAGATAAAGATTTGGCATACTGTATACACACAATGGGATA
CTATTCAGCCTTCAAAAAAGCATAAAGGCCAGGCATGGTGGCTCATGTCTTAATCCCAGCACTCCGGGAGGCTGAGGTGGGCAGATCACTTGAGCTCAGG
AGTTTGAGACCAGCCTGGGCACCATGGTGAAACCCTGTCTCTACAAAAAAGTACAAAAAAGTTGGCCAGGTGTCATGGCATGCATCTGTAGTCCCAACTA
CCAGGGAGGCAGAGGTGGGTGGATCACTTAAGCCAGGGAGGTCAAGACTGCAGTGAGCCATGATTGTGCCACTGCACTCCAGCCTGGGTGACAAAGTGAG
ACCCTGTCTCACAAAAAAAAAAAAAAAAAAAGCGGTGTGGAACTGTGCCGCTTGCTACAACATGGATGACTGGAAGACATTATGCTAAATGAAACAAGGC
AGATACAGAAAGGAAAATACTGCATGACCTCATTTATATGTGGAATCTTTTTTTTTTTTAAAGTGAATATACAGAGATAGAGAATACAACAGTGGTTACC
AGGAGTTGAGGAGGAGAGCAGGGAGGAGATGTAGGTCAAATGATACAAAGCAGCAGATATATACGATGAACAAGTCTAGAGATCCAGCGTACAACATGAG
GACTATACTTAAAAATGTCACATTGCACTTGGGATTTTTGCTAAAAGAGTAGACTTTAYGTGTCCTTGCCACCTAAATGAGTAACTGTGAGATGATGGAT
ATGTTAATTTTCTTGACTACCATAATCATTTTACTATCTTCATATCAAAATATCATGCTGTACACCTTATATAAATACAATAAAAATTATTATTAAAAAA
GAAAGAACAGGCTGAGAATGGTGGCTTATGCCTGTAATCCCAACACTTTGGGAAGTTGAGGTAGGAGGATCACTTGAGACCAGTAGTTCAAGATMAGCCT
GGGCAACATAGCAAGACCCTATCTCTACAAAAAATAAAAATAAAAAAATTAGCCAGATATGGTAGCATGCACCTGTAGTCCTAGTTACTCTGGAGACTGA
GGCAGGAGGATTCTTTGAGACATGATCATGCCACTGCACTCCAGTTTGGAGGACAGAGCAAGACCCCAACTCTAAAACAACACACAAAAATACAGCCATT
TCTCCTGGGTGAAATGGGGGAGCTCAGACTATTTTGTTTTATTTGTCAGGAGTCTAAAGCCCATGTGAGCCAACTTAAGAAAATTCTGTTTGTATTTGAG
TGTTCTTTATTGGAAAGAAATGGACTTTTCCCTAATGAGCCCATTTTACAAATCGAGAGCTCCAAATGCCCGGTTCCAGCCCCCATGATATAGATGGGCA
GCAATGAGGACCAGAAATGCTGGGAAGTGTCCTTGTCATGCAAGGAAAACTTGGAACTTCAAGGATCCATCATGGGATGCAGGACAGTAGGCTCCACCCC
TCTTCCTGCTTTCCAGTAAATGATGTTCAGGGCTCACATGYCTCTTCCAAGGCATGATGTGGGGTTGCAGTTCTGATCCCAGCAGAGAACAAGGCTCCTG
TGAAACAATTAGTTTTGGCTCAGAGGCAAAAAATGGAAACCCCATTCCTGTATTTACCCTTCATTCTTTCCTTACCTCATACAGCTGGTTCCAGGTTTGA
TTGCATCATATACATAAATAAATAATCTGCTTTCCTGGTTTGGTTTAGTTTTGCTGGAGAGAGGAGTTTATGTGTTCATCCCATGACTAGCTGGGTGGTC
AAGAGATTGGAAAGTAGGAGTTCTAGTTTAGACCAAGTCTCATCTCAGAAACCACAGAGTAGAACTGATCCCAAACGTCATCATCCCTGTAGGGAAAAGA
AAGAGAGATCAGACTGTTACTGTGTCTATATAGAAAGGGAAGACATAAGAGACTCCATTTTGAAAAAGAGCTATACTTTAAACAATTGCTTTGCTGAGAT
GTTGTTAATTTGTAGCTTTGCCCCAGCCACTTTGACCCAACCTGGAGCTCACAAAAACATGTGTTGTATAAAATCAAGGTTTAAGGGATCTAGGGCTGTG
TCAAAGTGGCTGGGGCAAAGCTACAAATTAACAACATCTCAGCAAAGCAATTGTTTAAAGTACAGCTCTTTTTCAAAATGGAGTCTCTTATGTCTTCCCT
TTCTATATAGACACAGTAACAGTCTGATCTCTCTTTTTTTTCCCTACATATCCCAATAGCACCTGCCTGACTAATACATCATGCTCTGCTGACTCCATAT
GTGGCTGGTTTCCTGGATCCGATTCTGACTGATGGTATCTGTTCTCACRCTGCTAATAAAGACATAYCAGAGACTGGGTAATTTATAAAGAAAAAGAGGT
TTAATGGACTTATGTGTTCCACGTGGCTGGGGAGGCCTCACAATCATGGTGGAAGGTGAAGGAGGAGCAAAAGCACATCTTACATGGTGGCTGGCAAAAG
AGAGAAAGCATGTTCAGGGGAACTCCCCTTTATAAAACCATCAGATCTCATGAGACTTATGCACTATCACAAGAACAGCAYCAGAAAGATCCACCCTCAT
GATTCAATTACCTCCCACTGGGTCCCTCCCATGACACATGGGAATTATGGGAGCTACAATTGGAGATTTGGGTGGGGACACAGCCAAACCATATCAGATG
GCTTATTTGGTTTCTATGTAGAACCTCTGCTTTTCATTCAACAGTCTTCATTTAGCCACAGATAAGCTCTGTCCCTAACTTCCRCTGATGGAATGTACAC
ATAAGAAACTTCCACTGATGGAATGAACACAGAAGGTGCCTACTGGGAAGAAAACTGGCCTGAATCTGAGCTGGGTCAAATGTCTGCAGTCAGTTTGAAT
GGCTGCTCCTTATGGGAATAATTTACATTCTCAATAAAATTCTCTAGCAATTTTCTGATTGATTTTAATGAGCTTTAAAGCCTTMCGTAGAAGATCCCCC
AGCTGATAGTCAGCCTTGGGCATGGATTAAGGGCTTTTAACCAATCTTGCAACAAGTTTAAGCAGATATTCTTTATTGGGTCCAATCTAACCAAAATTAT
TTTCTTATGTTCTCCCCAGTAACGTGTCATTATTAAGAGAAGTTTGGCTTGCTTAGAGGCCAAATTTAGAGGGTCCTGAAATTTTATTTTCTTTTACACC
ACTTTCCAGCATGTTACCTGATCAGTTGTTTATTATCTTTGCTGTTGAATGGAGTGATCATTCCAAGGGCCYGAGGCAGGAGGCCCAGGCACAGTGGAAA
CTCTCCCAAAGACCAGGATCTTTGTTTTGTTCCCTGACATATGCTGAGCACCAGGAATAGTGARTGAATGAAACAAATTGTGAGGCTTTAAAGAGCCGAA
ATATTTAAACACTGGGCACAAGGTTGTTGCTTAATCAGTGCTAGATCCTTACCTCCCCCTTGTGTCCAGGTSGACTTGTTACTGCAGTTAAACCACTTGC
TGATCCTCAAACAACTAGTTAGTGGCACAGCCAGGCCTAGGACCCCAGTCTCTACTGTTCCAACTAACCCATTCGCAGGCAGGAGCACTTTGAATGGTCT
CTTATTTTAAAAAAATTAAATTAAAATTGTCTATTTATTTAGAGACAGAGTCTTACTCTGTAGCCCAGGCTCGAGTGCAGTGGTGCAATCATAGCTCACT
GTAACCTCCATCTCCTGGCCTCAAAAAGTGTTTGAATTACAGATGCGAGGCACTGTACCTGGCCCGAATGTTCTGTTCAGACAAAGCCACCTCTAAGTCG
CTGTGGGGCCCCAGACAAGTGATTTTTGAGGAGTCCCTATCTATAGGAACAAAGTAATTAAAAAAATGTATTTCAGAATTTACAGGCCCATGTGAGATAT
GATTTTTTTAAATGAAGATTTAGAGTAATGGGTAAAAAAGAGGTATTTGTGTGTTTGTTKATTGTTCAGTCAGTGAATGTACAGCTTCTGCCTCATATCC
AGGCACCATCTCTTCCTGCTCTTTGTTGTTAAATGTTCCATTCCTGGGTAATTTCATGTCTGCCATCGTGGATATGCCGTGGCTCCTTGAACCTGCTTGT
GTTGAAGCAGGATCTTCCTTCCTGTCCCTTCAGTGCCCTAATACCATGTATTTAAGGCTGGACACATCACCACTCCCAACCTGCCTCACCCACTGCGTCA
CTTGTGATCACTGGCTTCTGGCGACTCTCACCAAGGTCTCTRTCATGCCCTGTTATAAYGACTACAAAAGCAAGTCTTACCTATAGGAAAATAAGAATTA
TAACCCTTTTACTGGTCATGTGAAACTTACCATTTGCAATTTGTACAGCATAAACACAGAACAGCACATCTTTCAATGCCTGCATCCTGAAGGCATTTTG
TTTGTGTCTTTCAATCTGGCTGTGCTATTSTTGGTGTTTAACAGTCTCCCCAGCTACACTGGAAACTTCCAGAAGGCACTTTTCACTTGCTTGTGTGTTT
TYCCCAGTGTCTATTAGAGGCCTTTGCACAGGGTAGGCTCTTTGGAGCAGCTGAAGGTCACACATCCCATGAGCGGGCAGCAGGGTCAGAAGTGGCCCCC
GTGTTGCCTAAGCAAGACTCTCCCCTGCCCTCTGCCCTCTGCACCTCCRGCCTGCATGTCCCTGTGGCCTCTTGGGGGTACATCTCCCGGGGCTGGGTCA
GAAGGCCTGGGTGGTTGGCCTCAGGCTGTCACACACCTAGGGAGATGCTCCCGTTTCTGGGAACCTTGGCCCCRACTCCTGCAAACTTCGGTAAATGTGT
AACTCGACCCTGCACCRGCTCACTCTGTTCAGCAGTGAAACTCTGCATCGATCACTAAGACTTCCTGGAAGAGGTCCCAGCGTGAGTGTCGCTTCTGGCA
TCTGTCCTTCTGGCCAGCCTGTGGTCTGGCCAAGTGATGTAACCCTCCTCTCCAGCCTGTGCACAGGCAGCCTGGGAACAGCTCCATCCCCACCCCTCAG
CTATAAATAGGGCMTYGTGACCCGGCCRGGGGAAGAAGCTGCYGTTGTTCTGGGTACTACAGCAGAAGGTAAGCCGGGGGCCCCCTCAGCTCCTTCTCGG
YCTTGTCTCTCTCAGATGTAACTGAGCTGTGGGCTAGGAGGAAAAGGCCGGGAGGAGGCACGGTGATGACTGAAAAACCTCTCCCCTCTCATAAGACCAG
TCATCYGGACGCGGGCTTTCCCCCACTCGGTGCCCACCTGGGGTCTTACAGGAGGAGCTGCTCCTCCTCAGCAATAGGACAAGATGGTCAGGTCTTCCTG
CTTCCGCTGAGAAAAGTTAGGGTCCTCAGGAACGGAGCAGACTGGTACAGGAACAGAGTCATCATGGCCAAGAGTCCACCGGGTCCTCTTGCCATCAGGA
GGAATAGCAGGGCTTGTRCAGGAATTGGGGCTGGAGGGAAGGRCCGGGCTCGGTCAGTCTCCAGCTGGGATCCCCAGAGTGGTCACCCTACCCCTCCCTC
GAGACAGACTGCCTGACTGTGTGTCATCAGGCTGGTCACCRTCTCCCTGAACCTCGATTTGCTCACCTATAAAATGGAACTAATAACGATGCCTGGGCTC
CCTGTCTCAGGGGCTCTGGTATAGCTGAAGAGAACTAATATAACATGAAAGTGCTTTCTAAGCTTTGGGATAAGCTAAAAGGCAGATTCCAATTTTATTC
GAGGGCAGCGTAGATTGGTGCTTCAGCTCGTGGATGACAGAGTCAGGGGGCCTGGTTCTGAGTCCTAGTTCTGTCTCTTCCCAGCTGTGTGACGTTGAAC
AAGYCACTGGACCTCTCTGTTCCTCTGCAAAACAGCATGAACCAATTCATTAACTACTTCTCCAGGATGCAGTAGGTCCCAGGGACTATCCTAGGAATGT
GGGCTGTATTAGTAAACACAACAGCGGGAACCCTGTTCCGGGGCTCACATTCACATCAGAGCAAACAGACAAAGACGCTGGACAGAATAAGTGCATAACT
ACATGGTACAGAGGGTTATAAGGAGGGAAAAGGGGAGCTGGATGAGAGAGTTGAGAGTGCCCGGTGTGYTGGGGAAAGCTGCAGGGTGAAATACTGCATC
AGGGAAACCTCAGGGAAGGTGAGGACTATGGTGAGGTCAGAGGGGTTGATATGAGAACAGTGCCCTGCAAATGGCAGGCACCACAGGAGCATGAGCCRTC
ATCTTCACCTTTAGCATTCAGCCCGGGAGAAGTAGGGAGACATAGAAGGGGCAGGTGCTGGCCAAGAGGCAGGGGCAGGAGAGGAGAAGGCGGAGGGGCA
CTCAGGGCGAGGGTGTCAGGCCCRCCACCCCAGAGCACCATTACTCCCAGGACGCGGCTGCGTGCAGACCTGGAACCAGCCTAGGGAGCAGCCGCAGATC
ACAACTGAGAACAAACGACAGTCTCTGCCTCAAAAATGGCCCATGGAATTGCGTCTCTGGAGACGCTGCCTGAGCAGGAGCAGCACAGTGAGCGGGCTGC
ATCGACCAGCGCCATCCAAACCCCGAACAGTTGGCGCTTGTCAGGCAGGACTTCCCAGCAGTCGGTTCCCACAGGTTTCCCCTGTTGACCTGATTTGATG
TGACTGTCTAGATTAGGTGTGAACTGGTGGCTTAGGCTTCTCTGCACAGAAAGGCCTGCAAGCAGCAGAGAGAGTTTTCTGTTCCATTTTTCCATGTCAT
GTGGCTCTTCCTGAGAACAGCGGATGGAGTCAAATGCATGGGGAGTGGGGTGAGATGGTAGCTGAGGTCAGAATTTGGCATTTGAATGACTGAAGCAGAA
CAAAACACACCAGGTACTTCAGCAGCTGCACCGTGTTGAGGGCAGGTGCTGGTTACGGGTCTGGGTGAGGGAAGCCAGCTGCCAATGTAAGAAGAATGAC
TGGGTATGCTTAGATGAAGCAGAAAAATCTAGGCATCAAGGTGGCCTTGAGTCAGTGATGACACGCTACAGCTCCAAGGAAGCCTGGCCTAGCCCTGGGG
GGACAGAAAAGGCCAAGAAGTGACGATATTGCAGTACACCCCCCTCCACAAGAAATGAGTGAGATGTGGTACAAAATGTTAGAATTGAATGAATCAATAG
AATAAACGTTCATCCCTTCAATCAAGAAGAGTCAGATGAAATGAATTAGCAGGGCCAGCCCAAGAACCTCTTCTGGGGGTCTCAGGGTAGCTTTCATTTG
TAGCAGCTGAGGCKGAAGCCCAGCTGCAAGGCCTTTGAGAGAACGTGGTGCTGGACCCGTGTCTAGGGCAGGGGTTCTAAACCCTGCTTACATATCAGAG
TCACCTGAGAATTTTCTATTTTTTTTTTTTTTTTTTTATACGTGGTCCCAGCACAGACTAAGGAATCCAACTATCATTGGGCAAGCCATGCTAGGTATGC
ATGCCTTTRGGGCTCTGCAGGGGATAGCGCTATGCAGGGATGGTTGAGAGCTGGTTTTGGGGTTGAGACACGTGGGAAATACTTGGACTTTGGGCTGAGC
CTGTGGTGCTCAATCCCGGCTGCATGTTGGGACCACAGGGAGATGACAAAACCATCCCCAGCCCTCACCCTAGGGCCCTCGAATGAGCATCTCAGGGGTC
TAGGAGGCCTCCACAAAGACCTACTGATTGGCACACACTTGTTTCTCTAGGAAGAGAACTTACAGCTGCAGGCAGGAGCATGTCTTAATCTGCTTGGGCT
GCCATAAGTACCACAGACTGGGAGGGTTTAACAACAGAAATGTGTTATCTCACAGTTCTGGAAGCTAGAAGCCTGGGAGCCAGCCATCAGCAGAGTTGGT
TTCCTCTGGGTCCTCTATCCTTGGCTTGTAGATGGCCGTCTTCTCTCTGTGTCCCCACATGGTCTTCCCTCTGTGTCCCCACATGGTCTTCCCTCTGTGT
GTGTCCATGTCCTCATCTCCTCTTCTCATAAGGACACAGGTCATATTAGATCAGGGCTCACCCTCATGGCCTCATTTTAACTTAATCATCTCTTTAAAGA
TCCTGTCTCCAAATAATGGTCACATTCTGAGGTCCTGGGGTTGAGGACTTCAACACGGGCATTATGGCCGTTGGGGGAGGTAGGACATAATTCAGCTGAT
ATTGGTGCATTTTGCACTTGGATCATGTAGATATTTTCCATGGAGCTTTGAATCCATTTCTTCTTTTTTTTGTAGACATGAATGGATTTATTCTGGGCTA
AATGGTGACAGGGAATATTGAGACAATGAAAGATCTGGTTAGATGGCACTTAAAGGTCAGTTAATAACCACCTTTCACCCTTTGCAAAATGATATTTCAG
GGTATGCRGAAGCSAGCACCCCAGTCTGAGATGGCTCCTGCCGGTGTGAGCCTGAGGGCCACCATCCTCTGCCTCCTGGCCTGGGCTGGCCTGGCTGCAG
GTGACCGGGTGTACATACACCCCTTCCACYTCGTCATCCACAATGAGAGTACCYGTGAGYAGCTGGCAAAGGCCAATGCCGGGAAGCCCAAAGACCCCAC
CTTCATACCTGCTCCAATTCAGGCCAAGACATCCCCTGTGGATGAAAAGGCCCTACAGGACCAGCTGGTGCTAGTCGCTGCAAAACTTGACACYGAAGAC
AAGTTGAGGGCCGCAATGGTCGGGATGCTGGCYAACTTCTTGKGCTTCCGTATATATGGCATGCACAGTGAGCTATGGGGCGTGGTCCATGGGGCCACCG
TCCTCTCCCCAAYGGCTGTCTTTGGCACCCTGGCCTCTCTCTATCTGGGAGCCTTGGACCACACAGCTGACAGGCTACAGGCAATCCTGGGTGTTCCTTG
GAAGGACAAGAACTGCACCTCCCGGCTGGATGCGCACAAGGTCCTGTCTGCCCTGCAGGCTGTACAGGGCCTGCTAGTGGCCCAGGGCAGGGCTGATAGC
CAGGCCCAGCTGCTGCTGTCCAYGGTGGTGGGCGTGTTCACAGCCCCAGGCCTGCACCTGAAGCAGCCGTTTGTGCAGGGCCTGGCTCTCTATACCCCTG
TGGTCCTCCCACGCTCTCTGGACTTCAYAGAACKGGATGTTGCTGCTGAGAAGATTGACAGGTTCATGCAGGCTGTGACAGGATGGAAGACTGGCTGCTC
CCTGAYGGGAGCCAGTGTGGACAGCACCCTGGCTTTCAACACCTRCGTCCACTTCCAAGGTAAGGCAAACCTCTCTGCTGGCTCTGGCCCTAGGACTTAG
TATCCAATGTGTAGCTGAGATCAGCCAGTCAGGCCTTGGAGATGGGCAGGGGGCAGCCCTGCGGACATACCTGGTGACCACCCTTGAGAAGTGGGGAAGT
GGCTGCTCCGCTGGGTCCCTGGATGGGCCGTCCACCTCCTGGACCTGCTGCCCTACTATGTGCACGACTATACAACATCCTTTTTCTTACATCATTTAAT
CCCCTTATGATGTGGTGAAGAGGTATTTGTGCCTTTGTTTACCAGTGAAGAAATAGAGACTCGGAGAAACAAAGTGCCTTGCTCAAGATGGCACAGCCAC
CAGTGGGGGTCCTGGGATTGAAACCCACATCTCCTGGCCCCACAGCCCAGTTCTACACTCAGAAGGGTCAGGTTCATATCTCTTGAGAAGGTCAGGAACT
GGGGTCCCTGGCCCATGCAGAAATAAGCAATTGGCTTGCTTAAATCCCTTTCATGTTAGGAGGGGCATTACTGAAAACCCTCTACTACAAAGATTGTTGA
TTTTTTTTTTTTTTTTTATTGAGACAGGGTCTTGTTCTGTCACCCAGGCTGCAGTGTAGTGGTGCCATCATTGCTCACTGTAGCCTTGAACTCCTGGCCT
CAAGCGATCCTCCCACCTCTGCCTTCCAAAGTGTTGGGATTAAAGGTGTGAGCCACTGCACCCAGCCACAGATTGCTTAAAGCATTCATTTAACAAATAC
TTGTTGARGATTTGCTACTTGTAAGACTTTAAGCCTGGCATCTCAGAGGAGGCCAGAGGAGGGCTGTATAGGCCCTGCCTCCAGGCTTTTAAAGGTCAAT
GGGCAAATGCCTAGGATTTGGAGCTGCAGGGAAACGTGCTCCACAAGGTAACTCAGGGAAGCCTCGGGGCTCTCAGAGGACAGAGGTCACTGGGGAGCGG
AGAGCAGGCCTTGCCTGGCAGTGAGGGMAACAGGGCTGGTGAAGCTAGGAGCAAGCATGATGAGCCCAGCCTGCAGAGTTTGGGGCAAGGAACGAGGATG
GGGCGGTTGGCTTGGCATGAGTGTTGAACCAGAAAATGGGCCTGGGGAGGGCAGAGCTGGAGACACTTTGAACGCCATGCTTGGTAGGTGTGGGAATGGG
GACGCGTTCTGTTCAGAGGTCATCCCGGAAGCCTGCCGTGTGCAGACTGGAGGCAGGGAGGATTGTTTGAAGGTTACGCAAGAGTCCAGGCACACAGTCA
CGGGAACACGTGCTCAGGGAGCAGCTCGGCAAATCCATGGGTGGGGTGGGGCTGAGGGGTGTGTCTAAGAGACACTGAGGAGGCTCTGTCAAGATGTTAA
CCTCGTGAGGGACAGAGAGYCAGGCGGGAGGTGAAAGACAAGACTGTGGAGAAAGAGGTTCAGTGGCGCATAGTGATTTTTCTTACCACRACAACCTCCT
TGAGGTCTTTCCCTTCGGGTTCAGGGRGAGGTGATAGATGGGGGGATTGCTCAGCCCTGGCACTGACTGGTCACAGGGGCAGAGGCCAGCCCGAGGGTTG
CCCSGTTGAGGGTGGCAGCACACTGTGCAGGGCAGAGCAGGGACACATGGACTTAGCCTGCTGTCCCTAGGAGAAGTGYTGGGAGGAGCGCTCACTGAGA
AGGAGGGTCCTGCAGAAGGCAAAGGCAAGAAAGCCAGTGGCATCTGAAATGGGTCTCCCTTCGAAAGAGAGCACATCCACCTGACCCAGACCGCAGAGCC
AGGCCAGGAGGMAGAGGAGGAAGAATAAAAAAGCCAACCACATCGGGACTCAAAGGAAGCCCAGGATCCTCGCCGGCCTCCACCGCATGCTGCCCTGACC
CTGCCCCACTTCCTAACTTTGCTGGCCTCAGTTTCCGTCAAAGGAGGCAGCCACTTCCTGCCCACATGGTCTGTCCAGTGAGGAGATCGGGGGCTGTCTM
GGGACCTCTAGGTTTCCCTTTAGCAATGATGTTCTATTTACATGACCTCAGCAGGCAGCTAGATGTGTCCCACTAGAGAGGACCTRAGGATCTGGGGCCT
GATGGGCTCCAGGGTACCGTCTGCCCAGTGCTTGCTGTGCTCCTGAGCATGGGGCGCTGGCCCTGGYGGTTTCCATGACACCAGGTCCTGACTTGACCTC
GACAGATTTACCTAGCCTCCGGATGAGAATGGTGAGCTGTGCRTGTCAGACGAGCAGAGGGAAGACGGCAGCCACTCTCATGTCAAATCCCAGCRTCTTT
TGGGAGGCAGCTTCCCTTTTTTAGTTTAGTTTGTTGGAAGAAAAGAATTGTCCYTTTCCCCSCTCTAAACTAWAARCCTTGCCAGCCCAGGTGGGCAGCA
CCGAGGTCCCTGCAGGGAACGTGCAAGGGGAACCCTGCAGTTTCCCGCTCACATGCCCTTCCGAGACTGAGTGCTCCGAGGACTGAGGACGAGAAATATG
CCAGGTCTGCCACTGCCTTCTTACGAGACCCGGACCCAGGGGAGGCACAGCCATGCCCAGCTCCTGCCTGCCAGTTCTGTCCTCCCAGCTGCCCTACTTT
CATGCTGGGACCTCCAATTCAGTACAAAGGGAGACCTCACTGTTTCTGAACCATCTCTACTCAGACTCCCAAGTGCCACGTGCCCAGGGGACTGTTCTGT
GACAAACTTATACACAACTTCACCCTATTCTCCTAAGAACAACCGCAGAATAGGCCTTTCAGGATGAGTGGGAGGACAGCCGAGGGCAGGGATGTGCTAG
TGTAAGGTCGAGGCAGAGGGTGGGCTGCTGTCATGGAAAGACCCCAGGTAACTGCGTCACACACAAATTTGTGTCCTTCTCCCACAACGGGCTCTCCCGA
GTTCTCTGTCATCTGCACGGCCCTGTGAGCAGGAGGGGAAACAGAGGGCTCACCCCTGYCCCCAAGGCCCAGTGTGCAAATCCATTCATCACAACGAGGT
TGTGTGAGTCTCCCCAGTAGCAAGGGCTGCTGAGGAATGGAGCCCTCGTTTCCGGGGCCTGCGTGGCCCACTCTGTATTCTATGACTGTGATGGGGGAGG
GTGGGGGCCACAGGACAGCTGGTGGGCTCTGCCATGGCTGGGGCTAGACATGGATTAAAAAGTGAGTATGAGCAGGGGCCTCTAGGAGTGGTGGGATAGT
GCGGTGGTGGCCACATGTCATTCTACGTGCGTCCAAACCTACAGAATGTAAAACACCAGGAGGGAGACTCAAAGAAAACTATCAACTTTGAGTGCTGAGG
ACGTGTCAGTGTAGGTTCGTCAGTTGCAACAAATGGGCCACGCTGGTGTGAGATGTTGATCACGGGGGAGGCTGTGTAGTGGGGGACAAGAGTTATATGG
GAACTTTCTGTACTTTCTGCTCGATTTTGCTGTGAACCTAAAGTCACTCTAAAAAATAACATCTCTTAAATTTTTTAAAAAGTGAGTGTGTCAAACCACA
GCCTTTGGGTCAGGACAGTTCTAGGTTTGAGTTGACCTGGCAGGTACCAGTGGCTTATGTCCCTTAAGGTGACAGATGCAAAACCCCCGGTTTGGTGCCT
GGCATGTTGTGTGTCTTGCAGGTGGCGGTTAGGGCTGCCTCAGTGAACTCAAATGGCTGCATTTTACAGGAGAAATATTTGAGCCACACTTGCGGTCCTG
TGGCCAGGAGAATGCAGAGTGGCCTGGGGGGGGCCAAGGAAGGAGGCTGAGGCAGGGCGAGGGGCAGGATCTGGGCCTTTGGTGTCTGCCAGCCCTCATT
CCTGCCCCTGTCTTGGGTGACTCTTCCCTCCCTGTCTCCTGTCTGGATTTCAGGGAAGATGAAGGGCTTCTCCCTGCTGGCCGAGCCCCAGGAGTTCTGG
GTGGACAACAGCACCTCAGTGTCTGTTCCCATGCTCTCTGGCATGGGCACCTTCCAGCACTGGAGTGACATCCAGGACAACTTCTCGGTGACTCAAGTGC
CCTTCACTGAGAGCGCCTGCCTGCTGCTGATCCAGCCTCACTATGCCTCTGACCTGGACAAGGTGGAGGGTCTCACTTTCCAGCAAAACTCCCTCAACTG
GATGAAGAAACTRTCTCCCCGGTAGGAGCCTCCCGGTCTCCCCTGGAATGTGGGAGCCACACTGTCCTGCCCAGGCTGGGGGCGGGGTGGGGAGTAGACA
CACCTGAGCTGAGCCTTGGGTGCAGAGCAGGGCAGGGCCGYGGTGGCACGGGGCTGGGCAGGCGGCCTGTGTGTCTGTCTACCAGTCCTCYATCCAGCCA
GCACCCAGCTCTCCAGTTAGTGTCTGTCTTTCAAGTGCAGGCAAGGTAAAGGAGGAGAGGAAGAATGCTTTTTCTACACTTACACTTGCCTGGTAGTTTT
GGAGGGGGAGAAAACATTGCAATCCGCCCTCTGAGAGAGGACCATTTTGGTCCCACACCTGACACACAGCACACCTGTGACATCCAAGAGCTTCTTGGAA
CTGACTTGCCAGGAGGGTTCGGACTTCGCGTGAGCGGGGGTGGGGCCTTCTCAGGGAGCGTCCCTTGACTCCAGAACGCCCTTGCTGGCGGCTGGCGGCT
GGGTGGGGATAGGTGTTGTTAGCTCCTCTTTCCTGCTGCAATTCCTTTCCACAGAGCCCTGGACTCAAACTACACATCACCCCAGATCATCGAGGCCTGG
AAATCTGCTCCCAGAGGCAGGCATTGAGTGACACGATGGCTTGACATCAACTCTGGGTGTTTTTTATGTTTTAAAAATTGTGATGGTAAAATATACRTAA
CAAAATTTGCCATCGTAACCATTTTCGAGTGCACAGTTCAGTGGTACTAGGCCCATTYACACTGTTGTGCAGCCATCACCCCCGTCCATCTCCATTTATC
TTCTCAACTTCCCAAACTGAAGCTCTGTCCTGCTGAAACACTAACTCTCCATTTCCCCTTCCCCTTGGCCCCGGCAACCACCACGATGTCCTCGAGGTTC
ACCCATGTTGTAGCACATGTCAGAATGTCCTTCCTTTTGAAGGCTGAATAATATTCCATTGCATGTGGTTACCACCTTTTGTGTATCCACTCATCCATCG
ATGGACACGTGGGTTGCTTCCACCTTTGAGCTGCTGTGAATAGTGCAGTGTACCCTGTAAACATGGGTGTACTGTCAGCTCTTATAAGTGCTTGATACAT
CACTGGAAATGTCCATGGGCTCTGAAGGATGCCAAAAGATGGAAGAGGCTCTATACGAAGATCAATCGAGTTGACATAGCAACGTGTCCAGCACGAGGTT
GACACTGTACCCTCCTGCCTCTCTCCTTTTCATGGGTGTCATGTCATCAAGAACACTGCTGTGGCAGTAGTAAGACACAGTGCATTATTTCAGAGAATAG
CATTTAAAAATTACCCAAGTAACACACCTTCAATGCAGCCAACCTAAAAACAGAATGCACCAAAGGACAACCATTCCTAGGTCCTCATCGGTAAATCTTC
TATGTCCCTCACATAGTATTGCAAATGACATGAAGGATTTTTATTGTAGGTTTTGCTGAAATTTTCCCCAAGGGGGAGGATGACTTAGTTGGGTGATGGG
GGKAGCAAACATCCCTGTCGTCAGGGTTGGGTGCAAGGAGCATAAGCCTGCCTGGCCTCTGGGAGAGCCCTCACTGTGTGGCCTGGAGCCTTCCTAACTG
TGCRTCATCTCCCCAGGACCATCCACCTGACCATGCCCCAACTGGYGCTGCAAGGATCTTATGACMTGCAGGACCTGCTCGCCCAGGCTGAGCTGCCCGC
CATTCTGCACACCGAGCTGAACCTGCAAAAATTGAGCAATGACCGCATCAGGGTGGGGGAGGTATGTGTGAGCCTGTGTCTGTGCCTGACCTGGGTTCCA
AGTGTGCACAGGGTGGGAGGCATGGATGTAAGGGACACAGAGGAGGCTATGGGTGGGGCCAGCAGGGCAAGAGGGAGCGGAGAGTAGGGCCAAAGGTGGG
AGAGAAGTAGCCAGAGCATTCTGGGGCCTTCCAGGTGCAGAGCAGCAAATCCCTCCCCATCCCTGCTGTGCCTCCTCCTGCTAGGTGTGTGTTCCATGGT
CCTGCTTGGCCTTGCCTTGCCTCAGGGTCCTCCAGGGTTCCTATAGTGGAGTTGAAACCGGGATGAAGACAGCAAGCACCCCTGGACCTGGTGCCCTGGG
CCCAGCCCCTTCTTCAGGGAAATGCTGAGCAGCAGACAGAATGTCCCCCTGCCATGTGGCACCATGCACATCTGCAGCTACCAAGGATGTGCCTTGATGT
TCTGGGCCCTGTGCTCAGTGCTGGGGAGAAAGTGGGAGTTCTTACGGGGGCCAGCGGGAAGAGCCCTCTGTGCTAAGTTAGCTAAGCCCTGGCACTGGTG
GGCCATGGCCAAGGGAGCCAGGAATTCTGCCTGGGACATCAGGGCAGAATGTGAAGATGGGAGGATGTAAGGGGTGTGTTAGGGAGGAGCCGGCATGTGA
GTTTGGCCATTGTGGCCAATTAACGGTCATCTACACACAGACACACCCTTGCCTACACTGAGGGGCAGGCATACACTGTGCATCCTCCTGGCAGGCTGGA
AAATGTCCCCCTCCAGGACAGTGCACAGCACAGAGGTCCTGAGCCCACCCCGGCCCTCTAGCCCTCAGCACCCTGGGTCACCCAGTGCGCCCTCAGAATG
ATCCTGATGTCTGCTGCTTTGCAGGTGCTGAACAGCATTTTTTTTGAGCTTGAAGCGGATGAGAGAGAGCCCACAGAGTCTACCCAACAGCTTAACAAGC
CTGAGGTCTTGGAGGTGACCCTGAACCGCCCATTCCTGTTTGCTGTGTATGATCAAAGCGCCACTGCCCTGCACTTCCTGGGCCGCGTGGCCAACCCGCT
GAGCACAGCATGAGGCCAGGGCCCCAGAACACAGTGCCTGGCAAGGCCTCTGYCCCTGGCCTTTGAGGCAAAGGCCAGCAGCAGATAACAACCCCGGACA
AATCAGCGATGTGTCACCCCCAGTCTCCCACCTTTTCTTCTAATGAGTCGACTTTGAGCTGGAAAGCAGCSGTTTCTCCYTGGTCTAAGTGTGCTGYATK
KAGTGAGCAGTAGAAGCCTGCAGCGGCACAAATGCACCTCCCAGTTTGCTGGGTTTATTTTAGAGAATGGGGGTGGGGAGGCAAGAACCAGTGTTTAGCG
CGGGACTACTGTTCCAAAAAGAATTCCARCCGACCAGCTTGTTTGTGAAAMAAAAAAGTGTTCCCTTTTCAAGTTGAGAACAAAAATTGGGTTTTAAAAT
TAAAGTATACATTTTTGCATTGCCTTCGGTTTGTAKTTAGTGTCTTGAATGTAAGAACATGACCTCCGTGTAGTGTCTGTAATACCTTAGTTTTTTCCAC
AGATGCTTGTGATTTTTGAACAATACGTGAAAGATGCAAGCACCTGAATTTCTGTTTGAATGCGGAACMATAGCTGGTTATTTCTCCCTTGTGTTAGTAA
TAAACGTCTTGCCACAATAAGCCTCCAAAAATTTTATCTTTYATTTAGCAGCCAAACAGATGTATACAATTCAGCAGATAGACTGTGCAAACGAAAGTGC
TTTCCTGGACTTTGGATGGAATTTCCATGGGAGGTCTGAGCCAGTACTTAGCAGTCCTTTGAAGTTTTAGGTGATGCTTTTCTCTGGACACTTCCATTGG
TAAGCAGTGGTGGCCATCTGTGTGATGGACAGGGGGCGGGAAGAGGGTGACAGGGAAGGCCCCATACCCCATGTGGCACCTGGGAAAGGAACCAGGCAGA
TGGGACTTCTTCCGTCCTGGTGACACAGGGCCAGACTGCTGCTGGTATTGTGCCCCGGGAGTGGAAGGTAGAGAAATAAATCTTCACAAATAAATATTTG
CAATTTTCCCCCATCTGTTGAGTGCCTCTGCCTGCTCCTCCTCGATGGGATTAGGCCCACAGTTCGGAATCTTGGGGAGAGCCAAGGAAGCGGTAGGCAC
CCAGTAGGCCCACGGCCGTCGGCTGATAGCAATGGTGATGCTGTCCTACCTACTTGTGTAAGGCATTCGATCTTCCTCCCTTCCATACATATTGAAATAA
ATAAGCCGCGCAATGTGTTAGCTATTGATCAGAACTAAAGTGAAGTCAGCCACGGGGATTACAAATCTCGGCTTCTCCCCTCATGTTCCTGAGAGTCTTC
CCCTGGTTTTGAACACATCTCCCTAGCTCGATGTCAAGGTGAGGGATTCTGTCGGCAACAGCAGTGCCCTTAGTTGCTTCGTCGTAACTCCCCGTCACCG
GTTTTATTCAGTTACCTTCCAGTCCCACTCTCAGAGCTTCCTGGCTTGTTCTGCTCTCAAAGCGGGTAGAGCTGGCACACATGGACTCTCCGAAACGGCT
GCAAGATGCCAAGTTTCTCGGAAGAACTGGAAGCACAGAGACCAGAAGTGCCTTAAGGTCTCGCTATTCAGTGTGGCGCTTAGACCGGCAGTGGCGGCAG
CTGCCCTGGGAGCTTGTTAGAATGTGGCTTCTCACGCCCCTCCTGGACCTACAGAGTCAGAATCTGCAGTTTTACAGGAGGTCCAGGCTTGGAAGTTGCT
CGTAGAGACCTGAGACAGCGCAGCCACGTGCTGGAAACAAAGCATTTAAGTTTGTGACTTTATTTTAAAAGGCAGCAGGCAGTCGACAAACCAATTTCTT
CTACTTAGAGGCGGCTTCGGCTTCTGGAAGTCGCTAGGAGTATAAAGTTGCCAACCAGCGCTGTTCTCCCGCTGTTTTCTGTGCACTTATAAATGGGAAG
TTAGGTCAGGATAGATCTCTCAGCTATTACAAGGATACAAAATACGAACATTCTACAAGTTACTTAACACACACACACACACACACACACACACACACAC
ACAAAATTAATTCCACAGGTCAGTTTCTCTGAAACATTTTTTCACTAAATTCTAAGTCTTCCTGGAGTTGCAAGTGCCTATCTCCTAGACAAGGCAATTA
CTCACCAACTAAAATCACTGTCAATCTGAGATTTCGGCTGGGCATGAGACCATGGTCAGGGGATGCTTTGAACAGCCTCTGAGGAAATTAGTGAGTTTGA
AAAATGGAAAGATTTTTATTACTCACTTGGCAGTAAAACCTGATGGGGACAGACGTCAGGCTGTTTAAGATCCTCAGAAGAAAAAGTTGATAGTGTGAAT
ATTCCTAAATTTGCCACACGAAGATGTACATGTGATTATAAGGTGCTGTTGCAGAAGCCCCTGGGGGTGTTATGGGATATACACTATATGGGCCACTTTA
CCTTCCTAAAATCTGAAAAACTTCAACTACTGAAACATGGACTGAAGGTTTTGAATAGTGGATGGTGAATTTGAATACCATCCCGTGTGATTTTTTTTTC
TAGCAGACTTTAGTTTTTTAGAGCAGTTTTAAGCCCACACCAAAACTGAGAGGAAGATACAGCAATTTCTCATATACCCCCTACTACCTTCCAGTCTCCC
CCATTATTGACATCCCCCACCSAGAGTGGTCCATTTCTTACAACCCACGAACCTACATTGACACATCATTATTACTCAACGTCCATAGTTTACATTAGGG
TTGGCTCTTGGTGTTGTACATTCTATGGGTTTAGACAATTTTCAGGAGTTTCACTGACCTGAAAATCCTCTGTGTCCCTCCTATTCACCCCTCCTTCCCT
CCTAACCACTGGTAACCACCGATCCTATTCCCATCTTCTCCATAGTTTTGCCTTTCCCACCCAGGATGTCATATAGTGGAATCATTCAGTATGTGGCCTT
TCCAGATTAGCCTCTTTCACTTAGTAATGTGCATTTAAGTTTCCTCCATGTCTTTTCATGATCGCTCATTTCTTTTTTATTGCTAAATACTATGCCACTG
TCTGGATGTGTCACAGTTTATTTATTCACCTACTGAAGGACATCTTGCTTGTTTCCAAGTTGTGGCAATTGCGAATTAAGCTGCTACAGACACCCATGTG
TGGGTTTTTGTGTGGACATGTTTACCCCACACAATTTTTAAAGTTGCTCAATGATCAGAGATGTTCTGAGTGACTCTGATAGACCCACAAACATGTCAGT
GACTCTATCCCTTCAAGAGAGTAAGGGTCTCAGGGCCCACACCCCTGAACTTGAGTAACCTCATTCTTCTGTTAAGTTAGCTGGAGCCAGGAGAGGAGTT
TATGACTAAGTCCTCAAAAGCCAACACAACAGAAACAAAAATTGAAAACTGGCACTAAGTAAACTAAAGAGCTTCTGCACAGCAAAAGAAACTACCAACA
GAGGAAACAGATGAACTAAAGAATGGGAGAAAATATTAGTAACTATGCATCCAACAAAGGTCTAGGATCTAGAATCCATAAGGAACTTAAACAAATCAAC
AAGTAAAAACAACCCCATTAAAAAGTGGGCAAAGGACATGAACAGACACCTCTCAAAAGAAGACACACAAGCGGCCAACAAATTTGAAAAAATGTTCAAC
ATCACTAATGATCAGAGAGATGAAAATCAAAACCACAGTGAGATACCATCTCACACCAGTCAGAATGCCTGCTATTAAAAAATCAAAGGAACAAAAGATG
CTGGTGAGGCTGAGGAGAAAAGGAAACACACACACTGTTGCTGGGATTGTAAATTAGTTCAGCCCCTGTATAAAGCAGTTTGGAGATTTCTCAAAGAACA
AAAAAACAGCATTACCATTGACCCAGCAATCCCATTACTGCATATACACCCAGAGGAAAATAAACCATTCTACCAAAAAGACACATGCACTCATATGTTT
ACCACAGCACTATTCACAATAGCAAAGACATGGAATCAACCTAGGTGTCTATCAGTGGTGGACTGGATACAGAAAATGTAGATATACACCATGGAATACT
ATGCAGCTATAACAAAGAATGAAATCATGTCATTTGCAGCAACATACATACAGCCAGAGGCCATTACCCTAAACAAATTAATGCAGGAACAGAAAACCAA
ACACCACATGTTCTCACTTATAAGGGGGAGCTAAACACTAGGTACACATTGGGCCATAAATATAGGAACAACAGACACTGGAGACTCTAAAAAGGGGAGG
AAAAGAGAAGGTCAAGGGTTGGAAAATTATCTACTCGCTACTATGTTCACTATTTGGGTGACGAGTTCCACTGAAGCCCAAATCTCAGCATCACACAATA
TATTCATGTAACAAACCTGCATATGTACACCCTGCAGCTAAAATGAAAAACAGAAAGTTACGTGGAGTGAGTGTCATCCTTCGAGGCTTGATTCTATGTT
TTGTGAGGTGGCTTCAGAGCAGCCCTTTACATCGGGTTAATTTGGCTCCACCGCAGGGGCCATACCCCCACCCTCCACGTCTTTCCACTCTGGACACACT
TTTCCCAGGCCCGTTTTGCTCTGGGGCTTTTTTCTACCTGCTCCTTTCTGGGGATTCTTTCCTTGGCCTTGACAACCTCTTTACACAGGCGGGCTGGTCA
ATACCCAGCTCCAAAAGCAAAGCGACGCTCCACAGACCTGTCTCCTCTCCGTTACTCTGCACCCCCAGTTCCAGCCTCTTCAGTGTCCCCAAACTCCACA
CCGCCTCCTCTCAGGGAATGGGCTGGGCTCTGGATGCTCCTGTGCATCCAGAGACCCTCCATGCTAGACGCTGGGCCATCGCAGGACCCCCACCTGCCCC
TTCTCTCTAGGACCCTGCACTGCCGGCATCCGACACTGAGCAGCGCTGTTTCACACAGTATCGATTTTCAGTTGTTCAGGATGGGAGGGTCAATCAGGTC
CCAACATGCCATCAAGCTGGATTACACAAGAGATTTAAACAGTCAGAATGCCACTCTGAATTTCGCTCTGTTGTCCAGGCTAGAGCGCAATGGTGCGATC
TCTGCTCACCGCAATCTCCACCTACCGCATTCAAGCAATCCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAATACAAGTGCCCGCCACCATGCCCAGCTAA
TTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCATATTGGCCAGGCTGGTCTCAAAACTCCTGACCTGAGGTGATCCGCTCACCTTGGCCTCCCAAAGTG
CTGGGATTACAGGTGTGAGCCACACCGCACCYGGCCAATAATACATTTTAGTTCAAGATTAGTGAGAGCTAAGGAGAAATGAGAATGCTGATTGTTCTGA
AATTCAGTCTCCACATGAAAACCAGCTGAGGGTTGAGTGGAAAATGGAGAAACTTTCGCAATCAAATGAAGGTAACACTTCCTTCACTCAACAATTTACA
GATGTTCACAGCCATCCAACACGAAGCTTAGTGGCTGATCAAAAGTAGCAGGATATTTTCAGGGTAAAAACTGAGACTCACGGGCAGCACCAAGAATGTC
TGCACATCTCAAAAGACAGACAGCGTTTCCTTTAGGGCGCTGAGGCTGAGGTCTTACACAGAGAGGAGGATTGCCAACTGGCAAAGCCCTGCTTTTCACC
AACTGCTCGAACGGACTGGACTGCCTGGCTGCTGAYAGGGAGGGAGAGATCCACCAGATCTATTCAGATGCCATGAACAGAGAAAATAACACTGCCTTCA
AACGGGGACCCCTAACAGATCTTGCTTAAGAATCTAACAGTTCAGCATCTGCAGTTGATCACTGCTTTTGAGTTCTGAGACATGAACACACCATGGAGGT
GTCCACGTTGTCAATGACTCAGCCATGCTGGCTCCAATTACTGCACCACCAGTGCTGTTGCTGCTGTTAGAGTGACATCTAGACCCCAGTACCAGAGAGC
TTCATGGTTGTTTCAAAAGGGCCCCGCAAAGGAAAATCAGCCCTTACCTCCTGCACTACAGAGTTCCTGAGTGACCCTGCTTTTATTCCATCACTAGGAT
CATTAAGCCATGGCAGCACAGCTTGGTGACTGTGCGGTTCTCATATGGGCAACTCCATATAGCAGTTCTAGGGAGCTGCGAGGAATTACCAAAAAAGACC
CCAGATGAGAGATTGGGGAGTTCATCTACAGAAGTTCCAAATCCTTTTTTTCTTTCTCTCCTTCCTGGACACACAGCTAAAACTACAGTTCCAGGCCCCA
CGTGCCTGAGCGCCACACACTGGAGTGAGGGGGAAGGATTTTGTGCTCACCCAAACTGGGGCCAGAGCCACACCCTGGGCGCCCCCATCACACTCTTCTC
CCTTTCTGGTAGGTTGCAGTGGAGGGGGAGTGGGCTGAATGGTGGCCTTCAAAAAGATATGTCCACATCCCATCCCCTGGAGCCTGTGAATGTGAACACA
TTTGGAAAAGGGTCCTTGCAGATGCAATTAAGCAAGGAATCTCAAGATGCGATCATCCTGGATTAACCAGGTGAGTCCTGAATCTGATGACAGTATCTCT
ATCAGTCAGAAGGGGAGAAGGCCACGTGAAGACGGAGGCAGAGACTGGGGTGATGCTGCCGTAGCCAAGGAACACCTCCAGCCACAGGACGCTGGAGGAG
GCGAGGAATCTCCCCTAGAGCCTTCAGGGGGAGCACGGCCCGGCTGACGCCATGAGTTTAGACTTTTCAAAACTGTGAGAGAATGCACTTCTGTTGTTTC
CAGCCACCACACTTGTGGTAATTTGTTACGGCAGCCCTAGAAATGAATGCAGGAGGTTCCTCCAGGGTGAACTTGGAAGCCATAGGATGGAGATGGCTGA
CTTCCAGTCAGCCTGGGTCCCCGAATGACCTACTCATGGCCTCCCCAGCAGCATTATAGTAGAACAAAAAAAACTTCTCCTGTGGCTGACACCCACTTTT
GAGTCTGTATATTAGAAAAATTGAAACTAATGACAGGTTTACAGTATGTAAGTATTATTTCATCTTTAAGCTTTATTCAATAGTAATTTCTCCAAAGCAA
AGCAAATAAAACAC


SNP Information

Context             (SEQ ID NO:1718):
TCACAATCTGGATGTTTGGTATCATGAGACAATCTCCCTGCCCTGGCTTGGGGGGCCACCCATGGGTTAAGGCATAAGTAACAATTCCTGACAAGAGTGG
R
GTCATTAATGTCTGGAGCAGGAAGCTGAGGGGAGTTGTGTTTTTCTCTTGCCTCAACATTGTAGGAGGAGAGAGAATCCTTTCTAGGCATCAGGGTCATC
Celera SNP ID:            hCV1985464
SNP Position Genomic:     74202
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:1719):
CATTCTGGGCTTGTTGCAGAATGTGCCTGCCCGAAGGGAAACCCAGGAGTCCCCCAAGCCCTCCCTGTCTTGATTGCCCAGCCCCTGCCAGGGGATAGCC
M
TGGCAAGCAATGCCCCCACTGCCAATGCTACTCACTCCTCAAGTGGACATAAAATGTACTCCAAAAGCCACAGATCCCTGCCCAGCAGGCTGTGCTAGCT
Celera SNP ID:            hCV11677395
SNP Position Genomic:     48728
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:1720):
ACAAAGACGCTGGACAGAATAAGTGCATAACTACATGGTACAGAGGGTTATAAGGAGGGAAAAGGGGAGCTGGATGAGAGAGTTGAGAGTGCCCGGTGTG
Y
TGGGGAAAGCTGCAGGGTGAAATACTGCATCAGGGAAACCTCAGGGAAGGTGAGGACTATGGTGAGGTCAGAGGGGTTGATATGAGAACAGTGCCCTGCA
Celera SNP ID:            hCV27956119
SNP Position Genomic:     88369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1721):
AAGACGGCAGCCACTCTCATGTCAAATCCCAGCGTCTTTTGGGAGGCAGCTTCCCTTTTTTAGTTTAGTTTGTTGGAAGAAAAGAATTGTCCCTTTCCCC
S
CTCTAAACTAAAAGCCTTGCCAGCCCAGGTGGGCAGCACCGAGGTCCCTGCAGGGAACGTGCAAGGGGAACCCTGCAGTTTCCCGCTCACATGCCCTTCC
Celera SNP ID:            hCV27501534
SNP Position Genomic:     93762
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:1722):
GCAGAAGGCAAAGGCAAGAAAGCCAGTGGCATCTGAAATGGGTCTCCCTTCGAAAGAGAGCACATCCACCTGACCCAGACCGCAGAGCCAGGCCAGGAGG
M
AGAGGAGGAAGAATAAAAAAGCCAACCACATCGGGACTCAAAGGAAGCCCAGGATCCTCGCCGGCCTCCACCGCATGCTGCCCTGACCCTGCCCCACTTC
Celera SNP ID:            hCV27501535
SNP Position Genomic:     93212
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,20|A,1243)   total(A,1243|C,20) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1723):
TGTCCTACTGGCTCTGGTTGGGAGCCTTTCCTAGCAGTCCTACCATGACTGGCCTCTTGGATCCACTCTGAATTCTTCTACTTCTCTTTGCAGTAGAAAG
R
CATTAACTGATATTTCTCTTTCCAAATTTCTTTGCAATGTTTTCTGTAGAAGAACTGAACATTAAATAAATATTATTTCTAGAACTCAGTTTTCGCAAAA
Celera SNP ID:            hCV9614621
SNP Position Genomic:     75707
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1724):
GCCTACCTACCCAGGAAATTGCGGCAGCCCCCAGCCGTGGAGCCGCGAACCCAGCTTCCCTGATGGACCGTCACCTCCCATTTGTGGATCGCGTCTTCCT
Y
CAGGGCATCGGGAGTGAGGTTGCAGATCTCCACTTTATCAAAGTGGGCCTTGAAGTCCTGAAATGCCATCCTGCAGCAAAGCGGAGAGACACGATGCACA
Celera SNP ID:            hCV22271618
SNP Position Genomic:     22445
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,40)   total(C,73|T,5)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:1725):
CATGGCTGTGTTGCAATAAAACTTGTTTACACAAACAGATGGTGGTCCAGCCCAGATTTGGCCCATGGGCTGTAGTTTGCCAATCCTTGGAACAGATAAA
Y
GTTCATGCTATTATTTGTTTAGTAAGAGTATTCTTTAGTTGCCAGGTTGACCATGAACTACCATAAATAGAGAGCTCCTGGAATGTACATTGGAAAAGTT
Celera SNP ID:            hCV9614622
SNP Position Genomic:     77440
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:1726):
ACATTGGAAAAGTTTTTCTTTTTGTCCAGTTTTTCAGGATCACAGCTGTTATACAAAGCTCTGTGTACCAACAATGCATATATCACCAGGCTCATATACA
R
TTTTCTTAGAGGAGCTCAATACCCTGTGGACTTAAATTAAGAACCATAAAACTGCTTGAGAGTGGACAAAGAGAAGATAACCATTTTTCCTATCTTACTG
Celera SNP ID:            hCV9614623
SNP Position Genomic:     77627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1727):
CTTAGTAGGAAAGTGAGTGTTTCATTTTCTCAATTTATCTGTGGATGTGGACAAAGGGGAAAGGGGTAGGGAATAGGGGGTTGTAGTCAGCCTCCAACAG
R
TTATTACCACTGAAATTGTGCCCTAAAGGATTAAAGAAGTCAGTAACTAACAGAAATTCTTGAGTTTGCAAGGTAAGAAACAACTTGCTCAAATGCTGAA
Celera SNP ID:            hCV28020903
SNP Position Genomic:     81082
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1728):
AACTCACTCTCATGAGAATAGCATAGGGGAAATCGTCCCCATGATCCAGTCACCTCCCTCTCTTGACACATGGGGATTACAGGTGCCTCCCTTGACAGGT
K
GGGATTACAATTCGAGATGAAATTTGGGTGGGGACACAGAGCTAAACCGTATCATTCTCCACCGGCCCTTCCCAAATCTCATGCCTTTTCAGATTTCAAA
Celera SNP ID:            hCV28020904
SNP Position Genomic:     78449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1729):
TATCCCAATAGCACCTGCCTGACTAATACATCATGCTCTGCTGACTCCATATGTGGCTGGTTTCCTGGATCCGATTCTGACTGATGGTATCTGTTCTCAC
R
CTGCTAATAAAGACATACCAGAGACTGGGTAATTTATAAAGAAAAAGAGGTTTAATGGACTTATGTGTTCCACGTGGCTGGGGAGGCCTCACAATCATGG
Celera SNP ID:            hCV1985470
SNP Position Genomic:     84649
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:1730):
ATGACTGGCAGAACAAGAACATGAAATGGTCTCCACGCAGAAGACAGCCACGTGGAAGTGGCTGACTGGTAGACCAGCTGAGATGAAGACTACTCCAGTC
Y
TCACAGCGGTGCTCAAATGGCCCCATCAAATCAAATGTAATGACCAGGCAGAGACTAGGGTGAAAACAGTTGTGGAAATCCATTTGTATGTCTCCTGTAA
Celera SNP ID:            hCV28020905
SNP Position Genomic:     67650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1731):
CCAAACCATATCAGATGGCTTATTTGGTTTCTATGTAGAACCTCTGCTTTTCATTCAACAGTCTTCATTTAGCCACAGATAAGCTCTGTCCCTAACTTCC
R
CTGATGGAATGTACACATAAGAAACTTCCACTGATGGAATGAACACAGAAGGTGCCTACTGGGAAGAAAACTGGCCTGAATCTGAGCTGGGTCAAATGTC
Celera SNP ID:            hCV1985471
SNP Position Genomic:     85084
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:1732):
GAGTCCAAAGGTTTGAGAACGAGGAGCTCCAATGTCCAAGAGCAGGGGAATATGGATGTCCCAGTTCAAGTAGGGAAAGGGAATTCACCCTTCCTTTGTC
R
TTTTCTTTTATTTGGATCTTTAGCAAACTGAATAATGCTCGTCCACATTGGTGGCAGCAATCCTCTTTACTCAGTCTACTGATTCAAAAGCTATTTTCTC
Celera SNP ID:            hCV28020906
SNP Position Genomic:     37195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1733):
TGCAGTCAGTTTGAATGGCTGCTCCTTATGGGAATAATTTACATTCTCAATAAAATTCTCTAGCAATTTTCTGATTGATTTTAATGAGCTTTAAAGCCTT
M
CGTAGAAGATCCCCCAGCTGATAGTCAGCCTTGGGCATGGATTAAGGGCTTTTAACCAATCTTGCAACAAGTTTAAGCAGATATTCTTTATTGGGTCCAA
Celera SNP ID:            hCV1985472
SNP Position Genomic:     85285
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,7)   total(A,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1734):
GGTCCTGAAATTTTATTTTCTTTTACACCACTTTCCAGCATGTTACCTGATCAGTTGTTTATTATCTTTGCTGTTGAATGGAGTGATCATTCCAAGGGCC
Y
GAGGCAGGAGGCCCAGGCACAGTGGAAACTCTCCCAAAGACCAGGATCTTTGTTTTGTTCCCTGACATATGCTGAGCACCAGGAATAGTGAATGAATGAA
Celera SNP ID:            hCV1985473
SNP Position Genomic:     85572
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1735):
CAAGGGCCCGAGGCAGGAGGCCCAGGCACAGTGGAAACTCTCCCAAAGACCAGGATCTTTGTTTTGTTCCCTGACATATGCTGAGCACCAGGAATAGTGA
R
TGAATGAAACAAATTGTGAGGCTTTAAAGAGCCGAAATATTTAAACACTGGGCACAAGGTTGTTGCTTAATCAGTGCTAGATCCTTACCTCCCCCTTGTG
Celera SNP ID:            hCV1985474
SNP Position Genomic:     85664
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:1736):
AACAAATTGTGAGGCTTTAAAGAGCCGAAATATTTAAACACTGGGCACAAGGTTGTTGCTTAATCAGTGCTAGATCCTTACCTCCCCCTTGTGTCCAGGT
S
GACTTGTTACTGCAGTTAAACCACTTGCTGATCCTCAAACAACTAGTTAGTGGCACAGCCAGGCCTAGGACCCCAGTCTCTACTGTTCCAACTAACCCAT
Celera SNP ID:            hCV1985475
SNP Position Genomic:     85772
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:1737):
GGGTTTAGACAAATCTGCAGACAGGAGGAAGAATGAGATGAATGGCACTTAAGTGTTATTCCTCTCCAGATCATGATTCTCCCAGTTTGAATTAAGACTC
K
TCTCTGAGTTTTGGAGGAGAGATGCTTGGAAAGGATGATTGAAGAGATTCATTCACCCATTAGACTCCCTACTATTGATTAAGGATGTAATGAAGTGATA
Celera SNP ID:            hCV15830118
SNP Position Genomic:     74730
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:1738):
TCTCTCTCAGATGTAACTGAGCTGTGGGCTAGGAGGAAAAGGCCGGGAGGAGGCACGGTGATGACTGAAAAACCTCTCCCCTCTCATAAGACCAGTCATC
Y
GGACGCGGGCTTTCCCCCACTCGGTGCCCACCTGGGGTCTTACAGGAGGAGCTGCTCCTCCTCAGCAATAGGACAAGATGGTCAGGTCTTCCTGCTTCCG
Celera SNP ID:            hCV1985476
SNP Position Genomic:     87506
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;JBIC-allele(T,452|C,1031)   total(C,1031|T,452)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:1739):
ATCAGGGAAACCTCAGGGAAGGTGAGGACTATGGTGAGGTCAGAGGGGTTGATATGAGAACAGTGCCCTGCAAATGGCAGGCACCACAGGAGCATGAGCC
R
TCATCTTCACCTTTAGCATTCAGCCCGGGAGAAGTAGGGAGACATAGAAGGGGCAGGTGCTGGCCAAGAGGCAGGGGCAGGAGAGGAGAAGGCGGAGGGG
Celera SNP ID:            hCV1985478
SNP Position Genomic:     88498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1740):
AACTCAGAAACTCTCCAAGTAAACACAAATTAGCCATCGGGTATAAATTGGGGAGGTGTCTGGATGTGTGACCGACTCCTCTGTGGGTCAGTGTTTCTGG
K
AATTGGTGTGCACACGTGCCAGTCACAGGGGGTTCTGCGGACGCATGTGTGGAAGGGGCAGCTAGGCGGTGGGCCTGGGTTAGATGCCTGGGAGTGGTGT
Celera SNP ID:            hCV219869
SNP Position Genomic:     49158
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;TFBS


Context             (SEQ ID NO:1741):
TGTGGTCCCCCGCAATCCAGCACGTCAAGGGCTCCTGATGGATCAAGATAATCTGATCGAGCAAAGTGAGAGTCGGTGGCGTCCCTGGCAAGATCAGGGT
K
AGTGGGGTGGTGGGGCACACTCATAGCTGAGTGGAGTCGAGAGAGTAAGGGAGAAGAGGAACTGGCGGGCTTGCTGTAGAGGACAGGAGAGAGCTGGGTT
Celera SNP ID:            hCV9070330
SNP Position Genomic:     23800
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:1742):
GGGGCAGGGCAATGGATCACTCACATGGACGCTCTTCTTTGTGGAGCTTCCTGCTGTGAATTTCCGAGTTTCCTCTGCCCGGCTTCTCCCACCGTCTGCA
Y
CAGACCTTCTTTCCACTAGCCTGACCTCAGGTAGCCTCTCAAACTCTGGTTTCTACCTCCTGCTCATATGCAGCAATTACTGTGATGGTACTAATTCCAG
Celera SNP ID:            hCV27483569
SNP Position Genomic:     24291
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,13|C,1468)   total(C,1468|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1743):
CGGCTGGATGCGCACAAGGTCCTGTCTGCCCTGCAGGCTGTACAGGGCCTGCTAGTGGCCCAGGGCAGGGCTGATAGCCAGGCCCAGCTGCTGCTGTCCA
Y
GGTGGTGGGCGTGTTCACAGCCCCAGGCCTGCACCTGAAGCAGCCGTTTGTGCAGGGCCTGGCTCTCTATACCCCTGTGGTCCTCCCACGCTCTCTGGAC
Celera SNP ID:            hCV1985480
SNP Position Genomic:     91223
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,35|T,5)   total(C,71|T,7)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;HGMD;dbSNP
Population(Allele,Count): no_pop(T,3|C,6)      total(C,6|T,3) ;Salt Lake City(T,14|C,165)   Hutterites Brethren(T,266|C,1215)   Salt Lake City (hypertensive)(T,12|C,59)   Paris (hypertensive)(T,14|C,71)   Northern Ireland, France, Scotland(T,240|C,1760)   40 Africans; 32 white Americans; 2 CEPH individuals(T,14|C,133)   Paris(T,15|C,180)      total(C,3583|T,575);(T,-|C,-)   ;;(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:1744):
CTCCCACGCTCTCTGGACTTCACAGAACTGGATGTTGCTGCTGAGAAGATTGACAGGTTCATGCAGGCTGTGACAGGATGGAAGACTGGCTGCTCCCTGA
Y
GGGAGCCAGTGTGGACAGCACCCTGGCTTTCAACACCTACGTCCACTTCCAAGGTAAGGCAAACCTCTCTGCTGGCTCTGGCCCTAGGACTTAGTATCCA
Celera SNP ID:            hCV1985481
SNP Position Genomic:     91406
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,15|T,23)   total(C,47|T,29)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;HGMD;dbSNP
Population(Allele,Count): no_pop(C,2|T,7)      total(C,2|T,7) ;Australian Caucasian (hypertensive)(T,-|C,-)   Australian Caucasian(T,-|C,-)   Salt Lake City(T,-|C,-)   Hutterites Brethren(T,-|C,-)   Africans from Harare, Zimbabwe(T,-|C,-)   Salt Lake City (hypertensive)(T,-|C,-)   Paris (hypertensive)(T,-|C,-)   Northern Ireland, France, Scotland(C,920|T,1240)   Paris(T,-|C,-)      total(C,920|T,1240);(T,-|C,-)   ;;(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:1745):
TCCTCCCACCTCTGCCTTCCAAAGTGTTGGGATTAAAGGTGTGAGCCACTGCACCCAGCCACAGATTGCTTAAAGCATTCATTTAACAAATACTTGTTGA
R
GATTTGCTACTTGTAAGACTTTAAGCCTGGCATCTCAGAGGAGGCCAGAGGAGGGCTGTATAGGCCCTGCCTCCAGGCTTTTAAAGGTCAATGGGCAAAT
Celera SNP ID:            hCV1985483
SNP Position Genomic:     92208
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1746):
ATAGGGACAGAATTTCAGTTTTGCAAGATGAAAAAGTGCTGGAGATAGATCGTGGTGATAGCTGCACAACAACATGGATGTACTTAATGCTACTCAACTG
M
ACACTTAAAAATGGTAAAATTTATGTCATATACATTTTATCATATACGATTATTTATCGATATGTCATATACGACTTTTTAAAAATAAAAAAGAAGCATC
Celera SNP ID:            hCV253900
SNP Position Genomic:     38199
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:1747):
AGGGAAACGTGCTCCACAAGGTAACTCAGGGAAGCCTCGGGGCTCTCAGAGGACAGAGGTCACTGGGGAGCGGAGAGCAGGCCTTGCCTGGCAGTGAGGG
M
AACAGGGCTGGTGAAGCTAGGAGCAAGCATGATGAGCCCAGCCTGCAGAGTTTGGGGCAAGGAACGAGGATGGGGCGGTTGGCTTGGCATGAGTGTTGAA
Celera SNP ID:            hCV1985484
SNP Position Genomic:     92428
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:1748):
CAAGATGTTAACCTCGTGAGGGACAGAGAGCCAGGCGGGAGGTGAAAGACAAGACTGTGGAGAAAGAGGTTCAGTGGCGCATAGTGATTTTTCTTACCAC
R
ACAACCTCCTTGAGGTCTTTCCCTTCGGGTTCAGGGGGAGGTGATAGATGGGGGGATTGCTCAGCCCTGGCACTGACTGGTCACAGGGGCAGAGGCCAGC
Celera SNP ID:            hCV1985485
SNP Position Genomic:     92890
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:1749):
GGAGGTGAAAGACAAGACTGTGGAGAAAGAGGTTCAGTGGCGCATAGTGATTTTTCTTACCACGACAACCTCCTTGAGGTCTTTCCCTTCGGGTTCAGGG
R
GAGGTGATAGATGGGGGGATTGCTCAGCCCTGGCACTGACTGGTCACAGGGGCAGAGGCCAGCCCGAGGGTTGCCCGGTTGAGGGTGGCAGCACACTGTG
Celera SNP ID:            hCV1985486
SNP Position Genomic:     92927
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:1750):
GCACAGCTGTGTTTGACAAGAAGGTGGTGCTGAGGAGGAGGGCCGTCCAGCCCCACGGTCCCACGGGCTGCTGAGACGTGCACCGTGTAATGCTGAGTCC
Y
ACTGCAAATGATGCCCAAGCCACAGAGGTCTGCAGGGAACCTGGCAATGCTTGTGATTTCCCTATGGCCCGCTACCCCCCGGCTCCCTGCGACTCTATGC
Celera SNP ID:            hCV219438
SNP Position Genomic:     50830
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;TFBS


Context             (SEQ ID NO:1751):
GGTCTTTCCCTTCGGGTTCAGGGGGAGGTGATAGATGGGGGGATTGCTCAGCCCTGGCACTGACTGGTCACAGGGGCAGAGGCCAGCCCGAGGGTTGCCC
S
GTTGAGGGTGGCAGCACACTGTGCAGGGCAGAGCAGGGACACATGGACTTAGCCTGCTGTCCCTAGGAGAAGTGCTGGGAGGAGCGCTCACTGAGAAGGA
Celera SNP ID:            hCV1985487
SNP Position Genomic:     93004
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,5)      total(G,5|C,1) ;no_pop(G,-|C,-)   JBIC-allele(G,291|C,1182)   total(G,291|C,1182) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1752):
GCAGAGGCCAGCCCGAGGGTTGCCCGGTTGAGGGTGGCAGCACACTGTGCAGGGCAGAGCAGGGACACATGGACTTAGCCTGCTGTCCCTAGGAGAAGTG
Y
TGGGAGGAGCGCTCACTGAGAAGGAGGGTCCTGCAGAAGGCAAAGGCAAGAAAGCCAGTGGCATCTGAAATGGGTCTCCCTTCGAAAGAGAGCACATCCA
Celera SNP ID:            hCV1985488
SNP Position Genomic:     93079
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,5)      total(C,5|T,1) ;JBIC-allele(T,501|C,974)   total(C,974|T,501)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1753):
CCTGCCCCACTTCCTAACTTTGCTGGCCTCAGTTTCCGTCAAAGGAGGCAGCCACTTCCTGCCCACATGGTCTGTCCAGTGAGGAGATCGGGGGCTGTCT
M
GGGACCTCTAGGTTTCCCTTTAGCAATGATGTTCTATTTACATGACCTCAGCAGGCAGCTAGATGTGTCCCACTAGAGAGGACCTGAGGATCTGGGGCCT
Celera SNP ID:            hCV1985489
SNP Position Genomic:     93400
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;JBIC-allele(A,729|C,766)   total(A,729|C,766)
SNP Type:                 INTRON


Context             (SEQ ID NO:1754):
TGAAGCAGCCCAGCAGGGAGCCTCTCTTCAAAGCCTTCTCTAGAATCTCATAGAAGTTCTCGGGGGCCTCTTTAGTTTGGAAGGTCTCTGCCACACCCCC
R
GTGAAGTCTTCCATGGCCTCGATGGCGCTGCCTCCCTTCAGAGCTTCATAGCTCCCATTTAGCCTGCAAGGGTGGCAAGAGAGAGAGGAGAGAGTCAGGG
Celera SNP ID:            hCV22272864
SNP Position Genomic:     33879
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,7)   caucasian(A,26|G,14)   total(A,55|G,21)
SNP Type:                 SILENT MUTATION;INTRON;TFBS;hmCS

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


Context             (SEQ ID NO:1755):
CCCTTGGCCCAATCAAGTTGACACATAAAACTAACCATAACACCATCTATACAGTTTTTTTTTGGTGAGCTGTTCTGCCAACCATTTTTGGCCTTTTTAA
R
TGACCCCAATAAATCTTTTTTATGTTTAGAAACTAGATGGCACACAGTTTCTGTTGCCTTGCTTGCATCCTGATGTGGGGGGCACTCACCAAGGGGCAGA
Celera SNP ID:            hCV27495007
SNP Position Genomic:     37452
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1756):
GTGGGCGTGTTCACAGCCCCAGGCCTGCACCTGAAGCAGCCGTTTGTGCAGGGCCTGGCTCTCTATACCCCTGTGGTCCTCCCACGCTCTCTGGACTTCA
Y
AGAACTGGATGTTGCTGCTGAGAAGATTGACAGGTTCATGCAGGCTGTGACAGGATGGAAGACTGGCTGCTCCCTGATGGGAGCCAGTGTGGACAGCACC
Celera SNP ID:            hCV27528704
SNP Position Genomic:     91328
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:1757):
AGGAAAAAACTCAGAAACTCTCCAAGTAAACACAAATTAGCCATCGGGTATAAATTGGGGAGGTGTCTGGATGTGTGACCGACTCCTCTGTGGGTCAGTG
Y
TTCTGGGAATTGGTGTGCACACGTGCCAGTCACAGGGGGTTCTGCGGACGCATGTGTGGAAGGGGCAGCTAGGCGGTGGGCCTGGGTTAGATGCCTGGGA
Celera SNP ID:            hCV219870
SNP Position Genomic:     49151
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:1758):
CGTACCAACTGTGCCTGCAGCTGCCACCGCCTCCCAGCTCCTATCTTGCAATTGGTTGTTTTGTTCAGGAGAGGTCTGTTTTTGTTTTTGTTTTAAACCA
R
ATCGCACCCAATGAGGAGAAAAATACAAAAGGAAAAAACTCAGAAACTCTCCAAGTAAACACAAATTAGCCATCGGGTATAAATTGGGGAGGTGTCTGGA
Celera SNP ID:            hCV219871
SNP Position Genomic:     49021
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:1759):
ACAGTTTTTTTTTGGTGAGCTGTTCTGCCAACCATTTTTGGCCTTTTTAAGTGACCCCAATAAATCTTTTTTATGTTTAGAAACTAGATGGCACACAGTT
K
CTGTTGCCTTGCTTGCATCCTGATGTGGGGGGCACTCACCAAGGGGCAGAGGTGGGCTTGGGTCCCACCCACTGGACTTGGAAACAGTGCCCTTTGTCCC
Celera SNP ID:            hCV27517060
SNP Position Genomic:     37502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1760):
CATGGAGTGGGCAAGGCAGGCTGCTGGGCTTTGCTGAGCTTGAGTCTGGCAGAGTGATACCTTTGGCTTCTTGTCCTCCTCTTTCATTCAATTCTTTCTT
W
CTCTTCCCCTTGTGCCCCTCAAGGATCTCTCCTCCTAACCAACAGCTCCCTTGAAGTCAGGGTGGTGCTGTGTGGAGTCTGGGTGTCCCCCAGGATCAGT
Celera SNP ID:            hCV27517061
SNP Position Genomic:     30822
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,125|T,1356)   total(A,125|T,1356) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1761):
AAGCTTTCCACGGTAGACTGGGATGATGCACCTCAGTTGCACTGAGCGTAGCCGGCCCCTCCCCAGCACCCCTGTTTCCACTTCCTGCGGGGGCTGCTGA
R
CCTCGGCCTCATCTATGCTCCTTCCCCTGCTCGCCCCACTCACCCCTGGTCGTTTCCACACAAAGGGGATCTGCGGCCTCTCACTGTAGAACAGGGAGGA
Celera SNP ID:            hCV22272509
SNP Position Genomic:     53702
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,17)   caucasian(A,12|G,28)   total(A,33|G,45)
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:1762):
AAGGAGGACAAAGGAGCCAACACAAATAGCTAACATTCTAAAGAATCCCAAAGAGTCCAACGGCGTCTCACACCTTGGCTCCAGTGAGGAGGAAGGGCAG
R
GTCTCCCTTCAGTGTTCTTTACTCCCCACGCATTCAGAGGATGTCACTCAAAAGGTGGGTGGCTACAGAAGACCAGGTGCATCTGCACCTTCTAAGTACT
Celera SNP ID:            hCV27517062
SNP Position Genomic:     30597
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,27|G,1270)   total(G,1270|A,27) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1763):
CCTGTAATTCCAGCACTTTGGGAGGCCAAGGTGGGTGGTTTCTCTGAGGTCAGGGGTTCGAGACTAGCCTGGCCAACACGGTGAAACCCCATCTCTACTA
M
AGATACAAAATGAGTCGGGCGTGGTGGCGCATGCCTGTACTCTCAGCTGCTTGGGAGGCTGAGGCAGGAGTATCACTTGAACCTGGGAGGCAGAGGTTGC
Celera SNP ID:            hCV27517063
SNP Position Genomic:     26569
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1764):
CCACCGTCTGCACCAGACCTTCTTTCCACTAGCCTGACCTCAGGTAGCCTCTCAAACTCTGGTTTCTACCTCCTGCTCATATGCAGCAATTACTGTGATG
K
TACTAATTCCAGAACTCAGCTTTCTTCCTGCAGTTTTTGCTCCTCTCTTGTAACCCCCTAACTCAAAGTCCCCTGTACTTCAAAATTCAAAGTTTATCTG
Celera SNP ID:            hCV27517064
SNP Position Genomic:     24379
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1765):
CTGAGCATGGGGCGCTGGCCCTGGTGGTTTCCATGACACCAGGTCCTGACTTGACCTCGACAGATTTACCTAGCCTCCGGATGAGAATGGTGAGCTGTGC
R
TGTCAGACGAGCAGAGGGAAGACGGCAGCCACTCTCATGTCAAATCCCAGCGTCTTTTGGGAGGCAGCTTCCCTTTTTTAGTTTAGTTTGTTGGAAGAAA
Celera SNP ID:            hCV1985490
SNP Position Genomic:     93643
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;JBIC-allele(A,522|G,951)   total(G,951|A,522)no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:1766):
CCCTGGAATGTGGGAGCCACACTGTCCTGCCCAGGCTGGGGGCGGGGTGGGGAGTAGACACACCTGAGCTGAGCCTTGGGTGCAGAGCAGGGCAGGGCCG
Y
GGTGGCACGGGGCTGGGCAGGCGGCCTGTGTGTCTGTCTACCAGTCCTCCATCCAGCCAGCACCCAGCTCTCCAGTTAGTGTCTGTCTTTCAAGTGCAGG
Celera SNP ID:            hCV1985491
SNP Position Genomic:     95641
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;no_pop(T,-|C,-)   JBIC-allele(T,269|C,476)   total(C,476|T,269) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1767):
CCTTTGCTAGGAAGCAGGTCCAGGCCCTCAGCCTGGTGGGGAGATGGAAGTGGGGCATGTCCTACCTCACCAGCGACTTGTTCAAACAGAGCCCGAAACC
R
CTGCTCCTCCTCTGTCTCCTGGTCAGGTGGAGTTGGCTTTGGAGGCTAAAAAACAGCCAAAGAAACTTGCACAAAATGATCCACAAAAAAGAAACATGAC
Celera SNP ID:            hCV22272299
SNP Position Genomic:     13928
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,28)   caucasian(A,7|G,31)   total(A,13|G,59)
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:1768):
GGAGTAGACACACCTGAGCTGAGCCTTGGGTGCAGAGCAGGGCAGGGCCGCGGTGGCACGGGGCTGGGCAGGCGGCCTGTGTGTCTGTCTACCAGTCCTC
Y
ATCCAGCCAGCACCCAGCTCTCCAGTTAGTGTCTGTCTTTCAAGTGCAGGCAAGGTAAAGGAGGAGAGGAAGAATGCTTTTTCTACACTTACACTTGCCT
Celera SNP ID:            hCV1985492
SNP Position Genomic:     95691
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;JBIC-allele(T,684|C,805)   total(C,805|T,684)no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1769):
CTGGAAATCTGCTCCCAGAGGCAGGCATTGAGTGACACGATGGCTTGACATCAACTCTGGGTGTTTTTTATGTTTTAAAAATTGTGATGGTAAAATATAC
R
TAACAAAATTTGCCATCGTAACCATTTTCGAGTGCACAGTTCAGTGGTACTAGGCCCATTCACACTGTTGTGCAGCCATCACCCCCGTCCATCTCCATTT
Celera SNP ID:            hCV1985493
SNP Position Genomic:     96197
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1770):
TGTTTTTTATGTTTTAAAAATTGTGATGGTAAAATATACGTAACAAAATTTGCCATCGTAACCATTTTCGAGTGCACAGTTCAGTGGTACTAGGCCCATT
Y
ACACTGTTGTGCAGCCATCACCCCCGTCCATCTCCATTTATCTTCTCAACTTCCCAAACTGAAGCTCTGTCCTGCTGAAACACTAACTCTCCATTTCCCC
Celera SNP ID:            hCV1985494
SNP Position Genomic:     96258
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:1771):
GCCTCGATGGCGCTGCCTCCCTTCAGAGCTTCATAGCTCCCATTTAGCCTGCAAGGGTGGCAAGAGAGAGAGGAGAGAGTCAGGGACCTAGGGAGGCCAC
Y
GGGGCACCCTGCTTTCAGAGCTTTTCTAACTAAGCCTGAAGCATCTCCCAGGGCTTGCCCTGGCTGGGTGGTGTGGAAGGAAGACGGGAAGCAAGTTATC
Celera SNP ID:            hCV22272871
SNP Position Genomic:     33995
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,10)   caucasian(C,19|T,17)   total(C,37|T,27)
SNP Type:                 INTRON


Context             (SEQ ID NO:1772):
CTGCAGCACTTCTGGTCTAAAACATGGAAAGAGCAGAGTCACACCCACCGTCTAAGTCAAGCCTCCCCTGCTGGATCAGACCCAGCTACATGCCTGGCCC
R
GTCACAACCTCCAGCCCCTTCTGCTGCCCCAGGTGCAGGCCATGTGCGTGGGCTATGCACGGGGCTCCCCTAGGATGTTTAGCAGTGACATGAAGCAAGT
Celera SNP ID:            hCV25632406
SNP Position Genomic:     32388
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:1773):
GCAGGAATAAACACTGCCCCCAAGAGTTATGCCCCTCCTTGGGTGTGGCTGGGGTACCTGGTACAGCCCCAGCATAGTGCCTGGAATGCACTATGCAGCC
Y
CAGCATAGTGCCTGGAATGGGAGCCCATGAGCAACTTACATCAATGAAGCAGCCCAGCAGGGAGCCTCTCTTCAAAGCCTTCTCTAGAATCTCATAGAAG
Celera SNP ID:            hCV25632407
SNP Position Genomic:     33734
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:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1774):
GTGGCTGGGGTACCTGGTACAGCCCCAGCATAGTGCCTGGAATGCACTATGCAGCCCCAGCATAGTGCCTGGAATGGGAGCCCATGAGCAACTTACATCA
R
TGAAGCAGCCCAGCAGGGAGCCTCTCTTCAAAGCCTTCTCTAGAATCTCATAGAAGTTCTCGGGGGCCTCTTTAGTTTGGAAGGTCTCTGCCACACCCCC
Celera SNP ID:            hCV25632408
SNP Position Genomic:     33778
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,40)   total(A,75|G,1)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:1775):
AATGTTGATCCTGTTGCTTTTTTCCCCTCTGACCAAGCTACCCATAGACAGCTTTGAAAATCACACACGGGTTCCAAGGTAGGGCACCTGGGCTTTGTCC
W
CCAAGTTACAAGCTGAGTATTCCACCCAGCACTAACCATTGACATCAGCTGAAAGACTCAGGGTCAACCCATCAAAGCCGCAGGCGATGCAGGGGGCAGG
Celera SNP ID:            hCV15877971
SNP Position Genomic:     38998
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,330|A,1145)   total(A,1145|T,330)no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1776):
CGGTCTCCCTTTTGTCTTCCTTTTCGTCTTGGGTGGAAGCACGGTGGTACTCCCGTAAGCATCGGAATAGCATGATGCTGTTTTCCCTTCTCCCCTGTCC
R
AATACAATTCCTCTAGCCTATAGCCTGCAGCCTGCTGCACCATTTTAAATCCCCTCTGCTCTAGGTTCACTGGGTCCCCCAGAGGCCAAGCCCTGCTCCA
Celera SNP ID:            hCV15877972
SNP Position Genomic:     8890
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,11|G,29)   total(A,16|G,62)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,271|G,1230)   total(G,1230|A,271)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1777):
GACTGGGATGATGCACCTCAGTTGCACTGAGCGTAGCCGGCCCCTCCCCAGCACCCCTGTTTCCACTTCCTGCGGGGGCTGCTGAACCTCGGCCTCATCT
R
TGCTCCTTCCCCTGCTCGCCCCACTCACCCCTGGTCGTTTCCACACAAAGGGGATCTGCGGCCTCTCACTGTAGAACAGGGAGGAATTGCTGGCTGGGAA
Celera SNP ID:            hCV22272511
SNP Position Genomic:     53717
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,17)   caucasian(A,12|G,28)   total(A,33|G,45)
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:1778):
CAGTTGCACTGAGCGTAGCCGGCCCCTCCCCAGCACCCCTGTTTCCACTTCCTGCGGGGGCTGCTGAACCTCGGCCTCATCTATGCTCCTTCCCCTGCTC
R
CCCCACTCACCCCTGGTCGTTTCCACACAAAGGGGATCTGCGGCCTCTCACTGTAGAACAGGGAGGAATTGCTGGCTGGGAAGTCTGCATCCTCAAACAG
Celera SNP ID:            hCV22272517
SNP Position Genomic:     53735
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,24)   caucasian(A,20|G,18)   total(A,34|G,42)
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:1779):
AGACATGGTGCCGGACTTGTCAGCATCAAACCGAAGGAAAAGGTTCTAAAGGGTGGAGAGCAGAAGCCTTGAGAAGGAGCGTGCCTGAAAGGCATCGCTG
R
TGGCAGTAAATGGGTGACAGCCAGCCCGGGGGAGCTACCCTCTAGGGGCCGCAGAGGCCACAGTTGGACTGGGCCTTCCAAAAGAAGTCGGTCTCCCTTT
Celera SNP ID:            hCV25767516
SNP Position Genomic:     8701
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:1780):
GAAGGATTTTTCCCACCTCTTCCCACTTTTCCAGGCACCAGGACTGAGGAGGGGCCTGGGCTGGAGGTGGAAGGTTCCAGCAGTGTCTGGGCGGACGCCA
Y
GTGGGGAGCTCAAGCTGCGCCGCCTTCCCCGAGAGACCTCTGCTTTGAATTGTCTTCCTCAGGCTTCTCAGCACCCTGCTTCTCCTCTCATCTTGTGTCC
Celera SNP ID:            hCV11400212
SNP Position Genomic:     47853
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:1781):
TTCAGGAGAGTTTTGCAAATTGCATTTGAGGAAGAGACAAACCATAAACCAGGAGAGAAAAGAGCGAGGATGGAGAGGGAAGGGGTGGGATGGGGCAAGG
S
TAGCTACAGCAGTCAGCAGGGGAGGCGTCTCTGGGGGAAGCAGAGGAGCACAGACCTAAACAAAGGGAGGGAGGGAGGGAGGGAGGGAGGAAGCCGGGCC
Celera SNP ID:            hCV11400213
SNP Position Genomic:     47552
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;TFBS


Context             (SEQ ID NO:1782):
ATGCCAGAGGAGATAATACTAAGGAAGACAGCCCCTTGGAGCAGAGATCTGGGACTCTAGAGTCGCTGGGCAGGCCTTGGTGGCCCTGGTCCCAGGAGGG
R
AGACTTCTGAAGGGGGAGACAAAGATGCCCTCCATGCTGGTTTGTGCGTCCAGCTTTTATCTTGGAGAATTCTAACTTTGACAAAAAGTAAGTGAGTTGT
Celera SNP ID:            hCV9614651
SNP Position Genomic:     51425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:1783):
CCAGCCTGTGGTCTGGCCAAGTGATGTAACCCTCCTCTCCAGCCTGTGCACAGGCAGCCTGGGAACAGCTCCATCCCCACCCCTCAGCTATAAATAGGGC
M
TCGTGACCCGGCCAGGGGAAGAAGCTGCCGTTGTTCTGGGTACTACAGCAGAAGGTAAGCCGGGGGCCCCCTCAGCTCCTTCTCGGCCTTGTCTCTCTCA
Celera SNP ID:            hCV9616184
SNP Position Genomic:     87314
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|A,5)      total(A,5|C,1) ;Caucasian(A,123|C,604)   Australian Caucasian (hypertensive)(C,28|A,193)   Australian Caucasian(C,76|A,304)   40 Africans; 32 white Americans; 2 CEPH individuals(C,29|A,118)      total(A,738|C,737);HYP3(C,30|A,118)   total(C,30|A,118)(C,-|A,-)   SC_12_A(C,1|A,12)   SC_12_C(C,3|A,21)   SC_12_AA(C,0|A,13)   SC_95_C(C,23|A,160)   total(A,206|C,27)    
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:1784):
GTGGATCGCGTCTTCCTCCAGGGCATCGGGAGTGAGGTTGCAGATCTCCACTTTATCAAAGTGGGCCTTGAAGTCCTGAAATGCCATCCTGCAGCAAAGC
K
GAGAGACACGATGCACAGGAGGGCAAGAGTGAGGGCATCATCCATTCACTCATTCATTAAATCATTCACTTATTCATTAAATCATCTTGTTCCTGTCCGC
Celera SNP ID:            hCV11400217
SNP Position Genomic:     22528
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,3)   caucasian(G,33|T,7)   total(G,68|T,10)
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,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:1785):
GACCACTTAGGAGAAAAGGAGAAGGGAGAACTTCCAGTATTTTATCCAAATTCTTTATTCGTCACTCAGCTAGCCCAGACGTCTTCTTAGGAAGCATTGG
R
AGATATGAGAGAGTGGTGTGGGGTGGGAAGCAAATGGTTGGGGAGACATAGCATCTGGCTTTTTTGGGAAGCCCTGCTGGGTTTAGACAAATCTGCAGAC
Celera SNP ID:            hCV16091229
SNP Position Genomic:     74551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1786):
CTGTCTTGCTGGGTCTGACCCAGCATGCTCCAGATAGCACCTGGAGCAGGGAGGTCACCACTGCCTTCCCCCCTCACCATGCTCTGTCCCGCCCAGGGCT
R
CGCTCAGCCACCTTCCTGCTGTGCTTTAAGCAGTCACATGAGCCCCCATTTTCTCCATCCGATCCTGTGGTCCCCTAATCTCCCTGCCTTGCCTGTTTAT
Celera SNP ID:            hCV11400218
SNP Position Genomic:     12778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1787):
GCTGAGAAGATTGACAGGTTCATGCAGGCTGTGACAGGATGGAAGACTGGCTGCTCCCTGATGGGAGCCAGTGTGGACAGCACCCTGGCTTTCAACACCT
R
CGTCCACTTCCAAGGTAAGGCAAACCTCTCTGCTGGCTCTGGCCCTAGGACTTAGTATCCAATGTGTAGCTGAGATCAGCCAGTCAGGCCTTGGAGATGG
Celera SNP ID:            hCV27860960
SNP Position Genomic:     91445
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:1788):
CCGGAAAGTTCACAAAAACAGAACTCTGTTCCCTTGGATGGGATCCCAAAGTGGCAAGAAGACCCCCAAGTCCCTTCAAAAGCTCCCCACCCCCACCACT
R
GGCAGTCTTGTGCATCTTGATTCTGATCCAATTTCAGCATGGGGGTCCCCCAGCTTTGGGTTATTTTCTGTGAAGAAGACTATTCTGCTGGCTAAGGATG
Celera SNP ID:            hCV11400219
SNP Position Genomic:     9370
SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,18)   caucasian(A,12|G,24)   total(A,30|G,42)
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,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:1789):
GGATGAAGGCCTCACCCAGCGTTTGGGGCAATGCCAGAGGAGATAATACTAAGGAAGACAGCCCCTTGGAGCAGAGATCTGGGACTCTAGAGTCGCTGGG
S
AGGCCTTGGTGGCCCTGGTCCCAGGAGGGGAGACTTCTGAAGGGGGAGACAAAGATGCCCTCCATGCTGGTTTGTGCGTCCAGCTTTTATCTTGGAGAAT
Celera SNP ID:            hCV9614658
SNP Position Genomic:     51395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1790):
CATGCTCATCCTCAGCCCTTTTGTTCCTGATTTTACAGAAATCTGTAAGATATGATGTAAAGCTCCTAACTCCCCTAAATAAGAAACAGATAGGGGTACG
R
GAATGAGGACCAGACCAAAGGGACAATCTTCAGTTGCAGACAAAGGAAAAGGCAGAACAGATTCTGAAAATGAGTCTGTGGGAACGACAGCAACACAGTA
Celera SNP ID:            hCV9614659
SNP Position Genomic:     51046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1791):
CCTCGATGGCGCTGCCTCCCTTCAGAGCTTCATAGCTCCCATTTAGCCTGCAAGGGTGGCAAGAGAGAGAGGAGAGAGTCAGGGACCTAGGGAGGCCACT
R
GGGCACCCTGCTTTCAGAGCTTTTCTAACTAAGCCTGAAGCATCTCCCAGGGCTTGCCCTGGCTGGGTGGTGTGGAAGGAAGACGGGAAGCAAGTTATCA
Celera SNP ID:            hCV25632412
SNP Position Genomic:     33996
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,34)   total(A,1|G,65)
SNP Type:                 INTRON


Context             (SEQ ID NO:1792):
CCAAGCGGTCCCTGAAGGTGGGCAGGCGGTCATCGATCACCACGTCCAGCCACTCACTGTGCTGCCAGAACTGTTGCCCAGGAAAAAGACAGAAATGATG
Y
GAGTCAGCTACATGGGAGCTCCAGGCCCTGTTTGTAAATGTTGATCCTGTTGCTTTTTTCCCCTCTGACCAAGCTACCCATAGACAGCTTTGAAAATCAC
Celera SNP ID:            hCV25632413
SNP Position Genomic:     38861
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:1793):
CCGCTTGAGCCCTGAGAGGGTTGGGTCCTGCCGAGCCTCACCTGCAAACCCAGAGCCCTGATTTTTTCCCAGCCCTTAGATGCTCACTACAAAGACTAGT
R
TAGAGACTCCTGTCGGGAGGCTGCCTGAGCTGGGGAAGCTGTCACTCACTTGGCGTAGGCTTTTTCCAGCAAGGCGCTCCAGAACTCGTTGTGGTCGGCA
Celera SNP ID:            hCV25632414
SNP Position Genomic:     38647
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:1794):
CACTCTCATGTCAAATCCCAGCGTCTTTTGGGAGGCAGCTTCCCTTTTTTAGTTTAGTTTGTTGGAAGAAAAGAATTGTCCCTTTCCCCCCTCTAAACTA
W
AAGCCTTGCCAGCCCAGGTGGGCAGCACCGAGGTCCCTGCAGGGAACGTGCAAGGGGAACCCTGCAGTTTCCCGCTCACATGCCCTTCCGAGACTGAGTG
Celera SNP ID:            hCV27516854
SNP Position Genomic:     93773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1795):
GGAGGTGTTCACAGGATTGTTCAGAAATCCACCCAGGGTCTTTCTGCTTCTTCCTAATTCCAGCAGAGGAGCAGGCAGGTCAGACACAGAGCACAGAGTC
Y
CTGGAGCCTGCACGGCAGTGCTGGCTGCCAGCCTTGGCCAGAATCCTGATGTTTGGGGCTAGAGGAGGGGGATGAGGGGCGATTCTCCCCACACCACGTC
Celera SNP ID:            hCV27495024
SNP Position Genomic:     7472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1796):
GTCCCACTAGAGAGGACCTGAGGATCTGGGGCCTGATGGGCTCCAGGGTACCGTCTGCCCAGTGCTTGCTGTGCTCCTGAGCATGGGGCGCTGGCCCTGG
Y
GGTTTCCATGACACCAGGTCCTGACTTGACCTCGACAGATTTACCTAGCCTCCGGATGAGAATGGTGAGCTGTGCGTGTCAGACGAGCAGAGGGAAGACG
Celera SNP ID:            hCV27516855
SNP Position Genomic:     93567
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,725|T,768)   total(C,725|T,768) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1797):
GAAACTTGCACAAAATGATCCACAAAAAAGAAACATGACAAAAATAGCAGGAAAGAAGCCAGGAGCCTGTGTGCCCAGCCCCATGTCACCCTCCTGAGGC
R
GTGTGCACAAGCTGCGTCCTGTAGCGTGAGGAACATTTTCTCATGAAGGCTCTTTTAGAAGGTGAGACTAGAAGGACTTTATTAGCTGGACCTGTGGAGC
Celera SNP ID:            hCV9072464
SNP Position Genomic:     14090
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,10)   caucasian(A,31|G,7)   total(A,59|G,17)
SNP Type:                 INTRON;TFBS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,6)      total(G,6|A,6) ;JBIC-allele(G,38|A,705)   total(G,38|A,705)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:1798):
AGCAGCTCGGCAAATCCATGGGTGGGGTGGGGCTGAGGGGTGTGTCTAAGAGACACTGAGGAGGCTCTGTCAAGATGTTAACCTCGTGAGGGACAGAGAG
Y
CAGGCGGGAGGTGAAAGACAAGACTGTGGAGAAAGAGGTTCAGTGGCGCATAGTGATTTTTCTTACCACGACAACCTCCTTGAGGTCTTTCCCTTCGGGT
Celera SNP ID:            hCV27516856
SNP Position Genomic:     92820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1799):
CCCAAAAGCCCTCAACAGATTTCTGTTTGTCTCATTGGTCAGAACTATCTTACTTGACCACTAATGGTTACAGAGGAGAGCAGTGATGCAGGATTTTTCT
Y
GGTCCCTTTGCCAGTCAGGGACCTCTTGCTGGTGATGCTGGAGGCCTTGCTTGGGGCACACTACCTGTCCCTGGAGGTGCCTCACCCAATCGGCCCCCCT
Celera SNP ID:            hCV16247800
SNP Position Genomic:     80365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1800):
TGGACACATCACCACTCCCAACCTGCCTCACCCACTGCGTCACTTGTGATCACTGGCTTCTGGCGACTCTCACCAAGGTCTCTGTCATGCCCTGTTATAA
Y
GACTACAAAAGCAAGTCTTACCTATAGGAAAATAAGAATTATAACCCTTTTACTGGTCATGTGAAACTTACCATTTGCAATTTGTACAGCATAAACACAG
Celera SNP ID:            hCV16247802
SNP Position Genomic:     86559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1801):
ATTTTAAAAAATATCATTAGACTTCTATCTGCTATTTTTTTCATAGTACATGAAATGAAAAAAAAAAAACAAATTTCAGAAAACTAGATAGGAAGATCCC
R
TTTCAGTAAAATCAAACCAACTGACCTTGATGTTTGTGTGTGGAAGTGTGTGCCTGTTTGTACGAGCAGATAGAGAGCTGGGAAGGATACAGGCCAGGTG
Celera SNP ID:            hCV168552
SNP Position Genomic:     32970
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,10)      total(G,10|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:1802):
ATAGAGAAAATTTTAAAAAATATCATTAGACTTCTATCTGCTATTTTTTTCATAGTACATGAAATGAAAAAAAAAAAACAAATTTCAGAAAACTAGATAG
R
AAGATCCCGTTTCAGTAAAATCAAACCAACTGACCTTGATGTTTGTGTGTGGAAGTGTGTGCCTGTTTGTACGAGCAGATAGAGAGCTGGGAAGGATACA
Celera SNP ID:            hCV168553
SNP Position Genomic:     32961
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,10)      total(G,10|A,5) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:1803):
TATAAGTGTGTGTGTTTGTATGCATAGAGAAAATTTTAAAAAATATCATTAGACTTCTATCTGCTATTTTTTTCATAGTACATGAAATGAAAAAAAAAAA
A
CAAATTTCAGAAAACTAGATAGGAAGATCCCGTTTCAGTAAAATCAAACCAACTGACCTTGATGTTTGTGTGTGGAAGTGTGTGCCTGTTTGTACGAGCA
Celera SNP ID:            hCV168554
SNP Position Genomic:     32938
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,11)   total(A,4|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1804):
GGGCCGGGCTCGGTCAGTCTCCAGCTGGGATCCCCAGAGTGGTCACCCTACCCCTCCCTCGAGACAGACTGCCTGACTGTGTGTCATCAGGCTGGTCACC
R
TCTCCCTGAACCTCGATTTGCTCACCTATAAAATGGAACTAATAACGATGCCTGGGCTCCCTGTCTCAGGGGCTCTGGTATAGCTGAAGAGAACTAATAT
Celera SNP ID:            hCV16247806
SNP Position Genomic:     87841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1805):
GACCTCGACAGATTTACCTAGCCTCCGGATGAGAATGGTGAGCTGTGCGTGTCAGACGAGCAGAGGGAAGACGGCAGCCACTCTCATGTCAAATCCCAGC
R
TCTTTTGGGAGGCAGCTTCCCTTTTTTAGTTTAGTTTGTTGGAAGAAAAGAATTGTCCCTTTCCCCCCTCTAAACTAAAAGCCTTGCCAGCCCAGGTGGG
Celera SNP ID:            hCV16247807
SNP Position Genomic:     93695
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1806):
ACACACAAATTTGTGTCCTTCTCCCACAACGGGCTCTCCCGAGTTCTCTGTCATCTGCACGGCCCTGTGAGCAGGAGGGGAAACAGAGGGCTCACCCCTG
Y
CCCCAAGGCCCAGTGTGCAAATCCATTCATCACAACGAGGTTGTGTGAGTCTCCCCAGTAGCAAGGGCTGCTGAGGAATGGAGCCCTCGTTTCCGGGGCC
Celera SNP ID:            hCV16247808
SNP Position Genomic:     94359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1807):
AAGAAATGTTATCAAGAAAATCATAGGGAAGAGGAAATACATTTACTATTTATTAAGTGGAACTGGGTCATTGTAAAGGTCTTCATCCTTATTATCTTCA
Y
GTTGAGTAGGCTGAGAAGGAGGAGGAGGAGTTGGTCTTGCTGTCTCAGGGGTGGTAGAGATGGAAGAAAATCCCCATATAAGTTCAAGCCTGTGTTGCTC
Celera SNP ID:            hCV9070431
SNP Position Genomic:     31684
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1808):
TTGTGCTCTGCCCACCCTCCCCAAGCACAGCTGTGTTTGACAAGAAGGTGGTGCTGAGGAGGAGGGCCGTCCAGCCCCACGGTCCCACGGGCTGCTGAGA
Y
GTGCACCGTGTAATGCTGAGTCCCACTGCAAATGATGCCCAAGCCACAGAGGTCTGCAGGGAACCTGGCAATGCTTGTGATTTCCCTATGGCCCGCTACC
Celera SNP ID:            hCV9614660
SNP Position Genomic:     50806
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,9)      total(C,9|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1809):
GGCCAAGTGATGTAACCCTCCTCTCCAGCCTGTGCACAGGCAGCCTGGGAACAGCTCCATCCCCACCCCTCAGCTATAAATAGGGCATCGTGACCCGGCC
R
GGGGAAGAAGCTGCCGTTGTTCTGGGTACTACAGCAGAAGGTAAGCCGGGGGCCCCCTCAGCTCCTTCTCGGCCTTGTCTCTCTCAGATGTAACTGAGCT
Celera SNP ID:            hCV9616191
SNP Position Genomic:     87328
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;Caucasian(G,-|A,-)   Australian Caucasian (hypertensive)(G,126|A,137)   Australian Caucasian(G,-|A,-)   32 white Americans; 2 CEPH individuals(G,-|A,-)      total(G,126|A,137);(G,-|A,-)   HYP2(G,20|A,48)   total(G,20|A,48) 
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:1810):
CTGAGATCACATCATGGCACTCCAGTCTTGGTGACAAAAGTGAAACTCCATCTCAAAATAATAATAATAATAATAAACAATTTCTAAGTATTATTCTTAG
Y
AGTCACCTACGCATGGCACTTTGTGCAGATGACTCCTGCATGTGTCAGGGTTTTTCTTGCGGGCAATGCAGTCTGATCAGTATAAACTAGGCAGAGAGGT
Celera SNP ID:            hCV9614806
SNP Position Genomic:     64172
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:1811):
CGGGAGAAGTAGGGAGACATAGAAGGGGCAGGTGCTGGCCAAGAGGCAGGGGCAGGAGAGGAGAAGGCGGAGGGGCACTCAGGGCGAGGGTGTCAGGCCC
R
CCACCCCAGAGCACCATTACTCCCAGGACGCGGCTGCGTGCAGACCTGGAACCAGCCTAGGGAGCAGCCGCAGATCACAACTGAGAACAAACGACAGTCT
Celera SNP ID:            hCV9616192
SNP Position Genomic:     88624
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:1812):
TACTGTATTCTTACAATAAATAAGCCAGAGAAAAGAAATGTTATCAAGAAAATCATAGGGAAGAGGAAATACATTTACTATTTATTAAGTGGAACTGGGT
M
ATTGTAAAGGTCTTCATCCTTATTATCTTCATGTTGAGTAGGCTGAGAAGGAGGAGGAGGAGTTGGTCTTGCTGTCTCAGGGGTGGTAGAGATGGAAGAA
Celera SNP ID:            hCV9070435
SNP Position Genomic:     31652
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,8)   total(A,1|C,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:1813):
TACAGCAGTCAGCAGGGGAGGCGTCTCTGGGGGAAGCAGAGGAGCACAGACCTAAACAAAGGGAGGGAGGGAGGGAGGGAGGGAGGAAGCCGGGCCGGTC
Y
CGGGAGAGGTAACAGCCAATCCTGTGGCAGCGAGGCACGTTCTGGCTCACCCTGCAGGGGTGGTGAGTTAACTGGGCCGGGGCCTGCAGAGGAGTGAAGG
Celera SNP ID:            hCV15989867
SNP Position Genomic:     47657
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:1814):
GGCGCTGAGGCTGAGGTCTTACACAGAGAGGAGGATTGCCAACTGGCAAAGCCCTGCTTTTCACCAACTGCTCGAACGGACTGGACTGCCTGGCTGCTGA
Y
AGGGAGGGAGAGATCCACCAGATCTATTCAGATGCCATGAACAGAGAAAATAACACTGCCTTCAAACGGGGACCCCTAACAGATCTTGCTTAAGAATCTA
Celera SNP ID:            hCV29269197
SNP Position Genomic:     103936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:1815):
CCCTTCAATCAAGAAGAGTCAGATGAAATGAATTAGCAGGGCCAGCCCAAGAACCTCTTCTGGGGGTCTCAGGGTAGCTTTCATTTGTAGCAGCTGAGGC
K
GAAGCCCAGCTGCAAGGCCTTTGAGAGAACGTGGTGCTGGACCCGTGTCTAGGGCAGGGGTTCTAAACCCTGCTTACATATCAGAGTCACCTGAGAATTT
Celera SNP ID:            hCV9616199
SNP Position Genomic:     89514
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:1816):
ATCGGGGGCTGTCTCGGGACCTCTAGGTTTCCCTTTAGCAATGATGTTCTATTTACATGACCTCAGCAGGCAGCTAGATGTGTCCCACTAGAGAGGACCT
R
AGGATCTGGGGCCTGATGGGCTCCAGGGTACCGTCTGCCCAGTGCTTGCTGTGCTCCTGAGCATGGGGCGCTGGCCCTGGTGGTTTCCATGACACCAGGT
Celera SNP ID:            hCV27483306
SNP Position Genomic:     93486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1817):
AATGTGGCTTTAGCATGGTTTAGGACCATATGTCACACAGATCTGATGACATTTTTTTCTAGGGTTACCAGGCAGTGTGGAAATGCACCTGCCCTCATGC
Y
GGGCCCCAGAGAGGTAAACCCACTGGCCCAGGGCTCCCTCTTACCTGGAAATGGAATATCCCGGCATAACCAGGGCCAAAGCTTTGGTCCTGGGGGATGA
Celera SNP ID:            hCV25632420
SNP Position Genomic:     41808
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,3)   caucasian(C,38)   total(C,55|T,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:1818):
TAGGGTCCTCAGGAACGGAGCAGACTGGTACAGGAACAGAGTCATCATGGCCAAGAGTCCACCGGGTCCTCTTGCCATCAGGAGGAATAGCAGGGCTTGT
R
CAGGAATTGGGGCTGGAGGGAAGGGCCGGGCTCGGTCAGTCTCCAGCTGGGATCCCCAGAGTGGTCACCCTACCCCTCCCTCGAGACAGACTGCCTGACT
Celera SNP ID:            hCV27483307
SNP Position Genomic:     87718
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1819):
TATGTCACACAGATCTGATGACATTTTTTTCTAGGGTTACCAGGCAGTGTGGAAATGCACCTGCCCTCATGCCGGGCCCCAGAGAGGTAAACCCACTGGC
Y
CAGGGCTCCCTCTTACCTGGAAATGGAATATCCCGGCATAACCAGGGCCAAAGCTTTGGTCCTGGGGGATGACTCTGGCCAGTGCTTTTTGATTAAGCGT
Celera SNP ID:            hCV25632421
SNP Position Genomic:     41836
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,3)   caucasian(C,30)   total(C,47|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:1820):
GTGAGCCCCACATCACAGGCATGTCTGACTCTAGAGGAACGGAGGTGCAGGGGCTTGAGGCCACTGGACTCCATTCAGAGGGAGTGAGGAAGCAGAGGCC
R
AAGCAGTGTTGTTCCCCCAGCCCCGTGCCTCTTGGGTCCTCAGGGACCCCATGCTGCAGTTGCTTGCCTGTCCCAGTGACTCAACCTCCCTCTCGCCATG
Celera SNP ID:            hCV25632422
SNP Position Genomic:     45956
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:1821):
CACCATCCTCTGCCTCCTGGCCTGGGCTGGCCTGGCTGCAGGTGACCGGGTGTACATACACCCCTTCCACCTCGTCATCCACAATGAGAGTACCTGTGAG
Y
AGCTGGCAAAGGCCAATGCCGGGAAGCCCAAAGACCCCACCTTCATACCTGCTCCAATTCAGGCCAAGACATCCCCTGTGGATGAAAAGGCCCTACAGGA
Celera SNP ID:            hCV11401606
SNP Position Genomic:     90760
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(T,3|C,64)      total(C,64|T,3) ;HYP2(T,3|C,65)   total(C,65|T,3)
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:1822):
CAGAGGCCGAAGCAGTGTTGTTCCCCCAGCCCCGTGCCTCTTGGGTCCTCAGGGACCCCATGCTGCAGTTGCTTGCCTGTCCCAGTGACTCAACCTCCCT
Y
TCGCCATGCTCCATCCACTTACACTCACCCAGCTCTCCCTGGCAGATATCAGTCCTGGTGGCCCCTCCAAGAATGAATTCTGGGTTTTTCACGATTTCCT
Celera SNP ID:            hCV25632426
SNP Position Genomic:     46048
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:1823):
CCCCTGTGGATGAAAAGGCCCTACAGGACCAGCTGGTGCTAGTCGCTGCAAAACTTGACACCGAAGACAAGTTGAGGGCCGCAATGGTCGGGATGCTGGC
Y
AACTTCTTGGGCTTCCGTATATATGGCATGCACAGTGAGCTATGGGGCGTGGTCCATGGGGCCACCGTCCTCTCCCCAACGGCTGTCTTTGGCACCCTGG
Celera SNP ID:            hCV11401607
SNP Position Genomic:     90933
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:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:1824):
GAGGCCGAAGCAGTGTTGTTCCCCCAGCCCCGTGCCTCTTGGGTCCTCAGGGACCCCATGCTGCAGTTGCTTGCCTGTCCCAGTGACTCAACCTCCCTCT
Y
GCCATGCTCCATCCACTTACACTCACCCAGCTCTCCCTGGCAGATATCAGTCCTGGTGGCCCCTCCAAGAATGAATTCTGGGTTTTTCACGATTTCCTGG
Celera SNP ID:            hCV25632427
SNP Position Genomic:     46050
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:1825):
GCGCCTGCCTGCTGCTGATCCAGCCTCACTATGCCTCTGACCTGGACAAGGTGGAGGGTCTCACTTTCCAGCAAAACTCCCTCAACTGGATGAAGAAACT
R
TCTCCCCGGTAGGAGCCTCCCGGTCTCCCCTGGAATGTGGGAGCCACACTGTCCTGCCCAGGCTGGGGGCGGGGTGGGGAGTAGACACACCTGAGCTGAG
Celera SNP ID:            hCV11401609
SNP Position Genomic:     95513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:1826):
AACCAGATGCCCCGGGTCCCCACCGCAGAGCATCCCAGGCCTGTACATTATTTTCTGCCTCCAAACTGCAAAGCTTTCCACGGTAGACTGGGATGATGCA
M
CTCAGTTGCACTGAGCGTAGCCGGCCCCTCCCCAGCACCCCTGTTTCCACTTCCTGCGGGGGCTGCTGAACCTCGGCCTCATCTATGCTCCTTCCCCTGC
Celera SNP ID:            hCV25632428
SNP Position Genomic:     53632
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:1827):
GCCTACTCAACCTGAAGATGATAAGAATGAAGGCCTTGATGATGATCCACTTCCATTTAATGGAGAGTAAATATGTTTTCTCTTTGTTACGATTTTCTTA
R
TAACATTTTATTTTCTGTAGCTTACTTTGTGCACAGTATATAATATACACAGTATTTAATACCTACGACATAAAAATATGTGTTAATCAACATTAGATTA
Celera SNP ID:            hCV16247813
SNP Position Genomic:     68773
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:1828):
TCAAGACGGACAGTAACTGTTACCAACTGAGTCAGCTTTTCCCCTAAAGATGGTATCGTGAAGCCAATACATGAAACCCAAAGCGAGCCTCAAGCAGTGC
R
GACTTTATTCAATGGCCAAAGAATGGAGAAGCAGGAGCATGGCCGCAAGTCAACTTCTTGTCTAGTGAGAGGTGAGGGGGTTAAAATATAGGGTATCCTG
Celera SNP ID:            hCV26885200
SNP Position Genomic:     70981
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1829):
ACCAATGCACCCACTCTGATCCAGCTGTTTCCCTTCTAGAAATTTATCTTTATCCTGATGATAGAGCCGCACCCCGAAAAGTGAAAGGTATACCAGCTTG
Y
TCATTTCATGGTGGCATTGTTTACATTAAAAAAGGTTGGAAAGCACTTAGTGCCCTCTGTTGGGGGAATGGTAAAGAAAATTATGGTCCAGCTAATCATG
Celera SNP ID:            hCV16247814
SNP Position Genomic:     58639
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:1830):
TTCTCTGGGGGTCATCAGACGGGTGAAATTTGAGCTGAGATATGAGTGATGAGGAGCCGCTGCACAAAGATGCTGGATAGAGGGAACAGCAAGATTTGTG
Y
CTTAGGAAGCTTTGAGTTTCTGTGGGTTTTGTTGTTGTTGTTGTTGTTATTATTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGTTTAGAGTGCAGT
Celera SNP ID:            hCV26885201
SNP Position Genomic:     69527
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1831):
ACAAATAAACAAACAAACAACAAAAAATAATGCTTTCTGTACATAAACCAGCACATAAGTAATATAATTTCATGGGATGATAGTCACTATAGAGAAGATA
R
GGGTGGTGCAGTGGAATAAGGTGAGATAGGGTTGGTGGGCAGGGCTCTTCTCTGGGGGTCATCAGACGGGTGAAATTTGAGCTGAGATATGAGTGATGAG
Celera SNP ID:            hCV26885202
SNP Position Genomic:     69379
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:1832):
CAGCCCTACCCTGCTCTTGGTGGGCACAGAGAGTTGTGAGACCTACCTCTGGCCAGACACTGTTCTATGTGTGGAAATATTGCAATGAAGAAGATCAACC
M
TCCAAATGCTCACTGTGGCCAGGCTCGGTGGCTCATGCGTATCATTCCAACTCTTTGGGAGGCCATGGTGGAATGATTGCTTGAGGCCCAGAATTTGAGA
Celera SNP ID:            hCV26885203
SNP Position Genomic:     69137
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1833):
CGGGTTTGTGGAAGCAAAGCCACTTGCAAAGTCTGGCACATGGAGGGGATCAGGAGCTGCTGATTCCTCCCTTTCCCCTATCCTCTCTGCACCCCCTGCC
M
CTCCCACAGATGCTGCTGAATTTCATGGTCTCCTTCTGAGCCTGACTTGCCTCAACTTGCAAGGCATCTCTTTTGTCTCTTTGTTTGCACAATGAAGGAC
Celera SNP ID:            hCV16247818
SNP Position Genomic:     56224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1834):
GAAACACTGAGTTTCAGAGCTGATAGTAATGCTGTATCATTTCAATCAGAAAGGAATTTTGCAAAAAGGAACTGACTTTTTTGTTTGTTTGTTTTTGAGA
Y
GGAGTTTAGATCTTGTTGCCCACGCTGGAGTGCAATGGCGCAATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTTAAGTGATTCTCCTGCCTCAGCCT
Celera SNP ID:            hCV26885204
SNP Position Genomic:     68175
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1835):
ACCCTGTCTCCAAAAAAAAGTAAATAATAATAAAAAAAAGAGTGGGGCTATTGGTTAGTGGAAGGAAGACCGGAGAGGTAAAGCTCCCCTCTCATCTCAT
S
ATATCAAGAGTACCTGCCGTCCACATGCCTTACCACAGCTGATGCTGGCCTTGATCACCTGGCTAAGGTAGTGTTAGTCAGGTGTCTCCACTGGAAAGTT
Celera SNP ID:            hCV83166
SNP Position Genomic:     35460
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:1836):
TCTTCACAAAAATGTTATATACATTTGAAAGAGAGGAGAAAGTGCTTATAATTACAAGTTTTCTAAGGTAAATGCTCTGAGAATAAGAGAGGGAGGGAAA
Y
CTCTTCCCCCATTTTCAACCGGGAGAATTAAGCCTCTTGTTTTTAAGTTGCATTTGTCCTTACAGTGGCTACTAGGTGTTGGGAACACTGCCCGGGAGCT
Celera SNP ID:            hCV16247819
SNP Position Genomic:     72080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1837):
ACTATTCTAAGAACCTCGTAAAAGTGGAATCATATAGCATTTGTCTTGTTGTGACTGGTTTATGTTACTTAGCATAATGTCTTCAAGGTCCATCCATGAT
R
TAGCATATGTCAGAATGTCCTTTCTATTTTGCTTGAATAATATTCCATCGTATGGATATGTCATATTTTGTCTTTCTATTTATCTGTTGGTGGACACTTG
Celera SNP ID:            hCV26885205
SNP Position Genomic:     67215
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1838):
AAAAAAACCAGCCAGTTATATTTACCAGCTATTAATTAAATTTTTCACTGGAAGCAGTCTTGCCTTGTACATAGGGATGAAACACACACACACACACACA
M
ATACACACACCATATATATATTTATAAATGCATATATAAAAATTATGGTAAAATACATGTAACATAAAATTTACAACCTTAACCATTTCTAAGTGCTCAG
Celera SNP ID:            hCV26885206
SNP Position Genomic:     66842
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1|-,12)   total(A,1|C,1|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1839):
TGGGACTATAGTCATACCCAGCTAATTAAAAAAAAAAAAAAACCTGTAGAGGAGGGAGTCTCAGTATGTTGCCCACACTGGTCTTGAACTCCTAGCTTCA
W
ATGATTCTCCTGCCTTGGCCTCCCAAAGTGCTGGGGTTACAGATGTGAGCCACTGCACCTGGCCTTATTATGTTTAATTGGAGGGAACATTGATAAAGTC
Celera SNP ID:            hCV26885207
SNP Position Genomic:     62314
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1840):
AGTTGAGCAGCCCATACTGCTGCTCTACCTACGGAGTGGCCATTCTTTCTTTACGTCTTTATAAACTTGCTTTCGATCTATAGACTCGTCCTGAATTCTT
Y
CTTGCGTGAGGTCCAAGAACCCTCTCCTGGGGTCTGGATCAGGACCCCTTTCCAGTAACAGGTCCACTTTTCCCCAAATAAGTGATCTTCCTCCTCCTTC
Celera SNP ID:            hCV26885208
SNP Position Genomic:     61553
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:1841):
AATGATAAATATACCTGTCTGCCTTCTGCTAACTCTCTGGGATTTCTTTCCCTGGAGTTTGACCTCAGCCCAAGACGATTTCCTTTCTCCTTCTCATCTA
S
GAGCTGGAGGTTGATGCTATGCACAGATCTTAGGATGACTTGAATCACAGGTGCAGCAGGATAGGAATTTACTCTCCGCAGTTTAGGGCCCAAAAAAATC
Celera SNP ID:            hCV26885209
SNP Position Genomic:     60400
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,8)   total(G,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1842):
AGAGGAGCACAGACCTAAACAAAGGGAGGGAGGGAGGGAGGGAGGGAGGAAGCCGGGCCGGTCTCGGGAGAGGTAACAGCCAATCCTGTGGCAGCGAGGC
M
CGTTCTGGCTCACCCTGCAGGGGTGGTGAGTTAACTGGGCCGGGGCCTGCAGAGGAGTGAAGGATTTTTCCCACCTCTTCCCACTTTTCCAGGCACCAGG
Celera SNP ID:            hCV15972700
SNP Position Genomic:     47694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1843):
AATTGAACCTTTCCTCAAACACAAGGCACAAACCTGCCCCAGCCCATCATCCTCCCACAGAGGCACTGTGAATGTATAAAGAAAGGCGATGCTAAGAAAC
R
TGCTGCAGGGGAGGCTGGCACATTCTGCTCCTTAGCTAACCGCACAGGCCCATGGGTCCACACACATCAGACCATGGCTCTCTGTGGTCTATCTTTGCCA
Celera SNP ID:            hCV25632432
SNP Position Genomic:     6025
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:1844):
TAAAAAGTTTCTACCAATGTTCACAGTGGTTTAAAATGAGGGCCCTGGTGTCAGGAAGTGAGTCCTGGGTCTGAACCCTGGTGCCACCACTCCAAGGGCC
R
TGACCTTAAGAATCACCAACTGGGCTCAGAGGCCCACCTCCTGGGCAGCAGAGAGAAGACCTGCCATCTGCTCAGGTTGCCCACAGGCAGTACCTGGCAT
Celera SNP ID:            hCV25632433
SNP Position Genomic:     8431
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:1845):
CAGGTTGCCCACAGGCAGTACCTGGCATGCAGTCAGCCACCTGTACTCCAGTCTTTTCTTTACCTGCAGCTTTCAGTGCAGTCCGTAGTTCATAGGTAGA
Y
ATGGTGCCGGACTTGTCAGCATCAAACCGAAGGAAAAGGTTCTAAAGGGTGGAGAGCAGAAGCCTTGAGAAGGAGCGTGCCTGAAAGGCATCGCTGATGG
Celera SNP ID:            hCV25632434
SNP Position Genomic:     8604
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,6)   caucasian(C,40)   total(C,70|T,6)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:1846):
TGTCCCTCACATAGTATTGCAAATGACATGAAGGATTTTTATTGTAGGTTTTGCTGAAATTTTCCCCAAGGGGGAGGATGACTTAGTTGGGTGATGGGGG
K
AGCAAACATCCCTGTCGTCAGGGTTGGGTGCAAGGAGCATAAGCCTGCCTGGCCTCTGGGAGAGCCCTCACTGTGTGGCCTGGAGCCTTCCTAACTGTGC
Celera SNP ID:            hCV11401619
SNP Position Genomic:     97003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1847):
TTGGAGCCATTATCCTAAGTGGCTCACACCCAGATAATTGGCCTGACAGGCTGGCCATGCGGTGCCTTCAACCCTACTCACATGTCACCAGCAGCACAGC
R
AAGTCAGGGAGTCGGGATGGCGCCTGCCCCTCCCATCACCCATGGAGGCTGCATGAGTGGAAGACAAATTTTATTCCAGCCTTGGCTCTCAGTCACTTTC
Celera SNP ID:            hCV27501739
SNP Position Genomic:     27897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1848):
GCCGCAGAGGCCACAGTTGGACTGGGCCTTCCAAAAGAAGTCGGTCTCCCTTTTGTCTTCCTTTTCGTCTTGGGTGGAAGCACGGTGGTACTCCCGTAAG
Y
ATCGGAATAGCATGATGCTGTTTTCCCTTCTCCCCTGTCCGAATACAATTCCTCTAGCCTATAGCCTGCAGCCTGCTGCACCATTTTAAATCCCCTCTGC
Celera SNP ID:            hCV25632438
SNP Position Genomic:     8849
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:1849):
CAGGTATAAATATTGAAACCTCCTTAGCGAAAATTATAACGGTGAGCAAATTATGACAGCGGAGGAGATCTGACCTAACCATCTCCTTCTTGCCTTTTAA
Y
CTCTAAACTGTCCTGGGTCATTTTGGGGCATGGGTCAAGCTAACTTTAGGAGAAATTTAGTTTATAGTTTAAATGATGATAGACCTTCCCAAAACTAAGT
Celera SNP ID:            hCV16247820
SNP Position Genomic:     72979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1850):
CCTACAAATCAGCCCTGGGAAGCAGATCTGCGGCTCGGAGGAGCAGGGAGGGGACCCAGGCAGTGTGGTCGCTTGTCCCTCCATAGGTGCCCCAGGACCC
Y
GATGGGGTTGGCACTTACTCTTTTGCAGCACAGCATTTAAAACATACTCAAGTTCCTCTGCTGTCACCTCCATGTCCTGTTGAAGTGGAGACAATTGTTT
Celera SNP ID:            hCV25632439
SNP Position Genomic:     11287
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:1851):
GTCAGGCGTGGTGGGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGTCAGAGGCTGCAGTGAGCCGAGATC
S
AGCCACGGCACTCCAGCCTGGGCGAGGAGCGAGACTCCATCTCAAAAAGAAAAAGTAAAACACCCCCCTACTTGCTGAAGGGAGTGTAAATTGGTGTCTC
Celera SNP ID:            hCV26885210
SNP Position Genomic:     58401
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:1852):
CAAACTCCTGGCCTCAAGTGATCCTCCCGCCTTGGATTCCCAAGGTATTGAGGTTACAGACACATGCCACCCTGCTCAGTGTTTCTTTTTACAGAGATGC
R
CTTAGGTAAAATTTCATGTATCTATACCATATAAAGAGAGATATGCACACATCTCTCATATTGTTTCACCGAAGTGCATTATATATATATATTATTCTAT
Celera SNP ID:            hCV16247824
SNP Position Genomic:     46981
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1853):
TTTCTCTTCTTCTTGTTCATCTTGAAGGGCAGCAGGAGGTGAACATAGTGCCTGGGTGGCTCTGGGATGCCATGGGGCAAAACCCCAAGGACAAATGCTC
R
GAAGCTTCACATGGGTGCAGGGAGATGACCTCTAGGACCCCACCCGGTCCAGGCCTTACAGCAGGGCCTGGGTTTTGAGGGATATGCCAAACAGCCTGGA
Celera SNP ID:            hCV26885211
SNP Position Genomic:     57689
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:1854):
TGCCTCAAGAAAGCAGATGGCATTCTTGGGTGTCTTCATTTAGTTTTCCAAACCTTCACTTCTCAGGATGAACAATAGTTACAGAAACTGCAGCCATGCA
R
TCTAAGGTCTACCAGGCCTTGCACACTTCCTCACCCACACTGGGAAATGCCCTGAGTGGCTCAGAGGGAAAGGGCTCTGAGCTTGGGCAGAGAATCATGT
Celera SNP ID:            hCV26885212
SNP Position Genomic:     57248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1855):
CTGCTGATTCCTCCCTTTCCCCTATCCTCTCTGCACCCCCTGCCCCTCCCACAGATGCTGCTGAATTTCATGGTCTCCTTCTGAGCCTGACTTGCCTCAA
M
TTGCAAGGCATCTCTTTTGTCTCTTTGTTTGCACAATGAAGGACTTTGGAACTGGGGTCCTCTGGCTGGGACCAGAGTGCAGTTCTGGCCAGTCCAAATG
Celera SNP ID:            hCV26885213
SNP Position Genomic:     56280
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1856):
GGTGATCTTGGGCGAGTTATCCATGCTGTCTGTCCCTGCTTCCAAGCTGTGAATCAGGATAATCGGTGCTGCCTGCTAGAGGCATGGCGGGTTTGTGGAA
R
CAAAGCCACTTGCAAAGTCTGGCACATGGAGGGGATCAGGAGCTGCTGATTCCTCCCTTTCCCCTATCCTCTCTGCACCCCCTGCCCCTCCCACAGATGC
Celera SNP ID:            hCV26885214
SNP Position Genomic:     56137
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:1857):
GAAATGATAAATACTGGAGGGGATAGATAGCCTAAATACCCCAACTCGATATCACACATTCTGCACATGTAACAAAATAGCACATGTACCCCATCAATAC
R
TACAAATATTATGTATCAATAAAAATAAGTCAATAAAAGTATTAGTCACCACGTGAAAACTCTGATGTTCTAAGCACTTTATAATGATTTCTGTGTGATT
Celera SNP ID:            hCV26885215
SNP Position Genomic:     55343
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1858):
TGAACCTGGGAGGTGGAGGTTGCAGTGAACTGAGGTCGTGCCACTGCCCTCTAGCCTGGGTGACAGAGAGAGACTCTGTCAAAAAAAAAAAAAAAAAAAA
R
GAAAAAAGAGAGAGAGAGAGAAAGAAAAGAGAGAGAGAGAAGGAAAGAAGAAAAGAAATGATAAATACTGGAGGGGATAGATAGCCTAAATACCCCAACT
Celera SNP ID:            hCV26885216
SNP Position Genomic:     55188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1859):
CCATAGAGTCTCGCTGACTTTACAGGAAGCTTTGTTTGGGGGAACTTAACACTGGGTGGTGTCTGAGCCCCAAGTTCATTCCTACACCAGCCTCCCCTCG
Y
GTTCTATGTCTCAGGTCACTTCCAGCTGTGGCCCTAGAAAGTTTCTTGGAGGGGATGCTGCTGCCCACGGAGAATGATACTCTGCCAGGGCCCATTCCTA
Celera SNP ID:            hCV502836
SNP Position Genomic:     6733
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,8)      total(C,8|T,5) ;JBIC-allele(T,123|C,1360)   total(C,1360|T,123)
SNP Type:                 INTRON


Context             (SEQ ID NO:1860):
GATAAATGTGTTTGCCCATAGAAATGATTATACAGGCTGGGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGAGGGTTGATCACCC
R
AGGTCAGGAGATCAAGACCAGTCTGGCCAACATCATGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCCGGTGTGGTGGCGGATGCTTGTAATCC
Celera SNP ID:            hCV26885217
SNP Position Genomic:     54953
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1861):
CAAAGGCAGGTGGGGGTTAGATTTCATCCAACCTGACCCCTGATAGAGGAGAACTCACAGAGGACATCGGCTCTTCCTCTAGGGCACATGTGCCTCTTTC
R
TTCTCTAGACATCATATTAATAAAGTTCCTTGTTGTTATAGTCCTACAAATAGGATCTCACGTCTGAGAAAAAACAAATGTTAGAGGATGGAGGTGGTTT
Celera SNP ID:            hCV26885218
SNP Position Genomic:     54752
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1862):
TCTCATGTCAAATCCCAGCGTCTTTTGGGAGGCAGCTTCCCTTTTTTAGTTTAGTTTGTTGGAAGAAAAGAATTGTCCCTTTCCCCCCTCTAAACTAAAA
R
CCTTGCCAGCCCAGGTGGGCAGCACCGAGGTCCCTGCAGGGAACGTGCAAGGGGAACCCTGCAGTTTCCCGCTCACATGCCCTTCCGAGACTGAGTGCTC
Celera SNP ID:            hCV27486805
SNP Position Genomic:     93776
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1863):
TTCAGCACTGGGGTCAGCAAACCTTTTCTGTAAAGGCCCAGACCATGAATATTTTCAGCTTTGTGGGCCACGCAAAGTCTGTGCTGCAACTACTCAACTT
W
GCTGTTGTAGTGACAAAGCAGCCGTAGATGTGACACAGATGAATGGGTGTGGCTGTGTTCCAATAAAACTTTATTTACAAAGGCAGGTGGGGGTTAGATT
Celera SNP ID:            hCV26885219
SNP Position Genomic:     54574
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,8)   total(A,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1864):
GCAGAGGGAAGACGGCAGCCACTCTCATGTCAAATCCCAGCGTCTTTTGGGAGGCAGCTTCCCTTTTTTAGTTTAGTTTGTTGGAAGAAAAGAATTGTCC
Y
TTTCCCCCCTCTAAACTAAAAGCCTTGCCAGCCCAGGTGGGCAGCACCGAGGTCCCTGCAGGGAACGTGCAAGGGGAACCCTGCAGTTTCCCGCTCACAT
Celera SNP ID:            hCV27486806
SNP Position Genomic:     93754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:1865):
CTCCCTCACATAGGACCCGAGATGGTCCTGGCTGTGTATACTTCATCCTTTTATCAGGCCTGAGCCTGGACATGTTTCCAGATTTTGCTTTCCCTGGGAG
R
GAACCACTTTAAAAGGTTCAGGAGGCCCCTATCTGTGAGGTGTGCTTGGTGAGAAGCGCAGGCAGCCCGGCAGGCGGGAGGTCTGCAGAGCGCTCGTGGA
Celera SNP ID:            hCV27501740
SNP Position Genomic:     7836
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,401|A,1082)   total(G,401|A,1082) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1866):
AGCAAACATCCCTGTCGTCAGGGTTGGGTGCAAGGAGCATAAGCCTGCCTGGCCTCTGGGAGAGCCCTCACTGTGTGGCCTGGAGCCTTCCTAACTGTGC
R
TCATCTCCCCAGGACCATCCACCTGACCATGCCCCAACTGGTGCTGCAAGGATCTTATGACCTGCAGGACCTGCTCGCCCAGGCTGAGCTGCCCGCCATT
Celera SNP ID:            hCV11401620
SNP Position Genomic:     97104
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:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIG-allele(G,427|A,1074)   total(G,427|A,1074) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1867):
TCAAAGCGCCACTGCCCTGCACTTCCTGGGCCGCGTGGCCAACCCGCTGAGCACAGCATGAGGCCAGGGCCCCAGAACACAGTGCCTGGCAAGGCCTCTG
Y
CCCTGGCCTTTGAGGCAAAGGCCAGCAGCAGATAACAACCCCGGACAAATCAGCGATGTGTCACCCCCAGTCTCCCACCTTTTCTTCTAATGAGTCGACT
Celera SNP ID:            hCV11401621
SNP Position Genomic:     98353
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


Context             (SEQ ID NO:1868):
GATGGGGTTGGCACTTACTCTTTTGCAGCACAGCATTTAAAACATACTCAAGTTCCTCTGCTGTCACCTCCATGTCCTGTTGAAGTGGAGACAATTGTTT
K
TTATAGCCCTTGGCACCTTCTTTTATAGTTTATTTTTGTTTTAAATCAGTTCTGAGCTTCATTTGGCTCCAGTGACAGACCAGCCTTCAGGACCCTGCTG
Celera SNP ID:            hCV25632440
SNP Position Genomic:     11388
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,36)   total(G,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:1869):
AAGGCCAGCAGCAGATAACAACCCCGGACAAATCAGCGATGTGTCACCCCCAGTCTCCCACCTTTTCTTCTAATGAGTCGACTTTGAGCTGGAAAGCAGC
S
GTTTCTCCTTGGTCTAAGTGTGCTGCATGGAGTGAGCAGTAGAAGCCTGCAGCGGCACAAATGCACCTCCCAGTTTGCTGGGTTTATTTTAGAGAATGGG
Celera SNP ID:            hCV11401622
SNP Position Genomic:     98471
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(G,4|C,76)      total(G,4|C,76) ;HYP1(G,4|C,76)   total(G,4|C,76)(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:1870):
AGCAGATAACAACCCCGGACAAATCAGCGATGTGTCACCCCCAGTCTCCCACCTTTTCTTCTAATGAGTCGACTTTGAGCTGGAAAGCAGCCGTTTCTCC
Y
TGGTCTAAGTGTGCTGCATGGAGTGAGCAGTAGAAGCCTGCAGCGGCACAAATGCACCTCCCAGTTTGCTGGGTTTATTTTAGAGAATGGGGGTGGGGAG
Celera SNP ID:            hCV11401623
SNP Position Genomic:     98480
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(C,4|T,76)      total(C,4|T,76) ;HYP1(C,4|T,76)   total(C,4|T,76)
SNP Type:                 UTR 3


Context             (SEQ ID NO:1871):
GACAAATCAGCGATGTGTCACCCCCAGTCTCCCACCTTTTCTTCTAATGAGTCGACTTTGAGCTGGAAAGCAGCCGTTTCTCCTTGGTCTAAGTGTGCTG
Y
ATGGAGTGAGCAGTAGAAGCCTGCAGCGGCACAAATGCACCTCCCAGTTTGCTGGGTTTATTTTAGAGAATGGGGGTGGGGAGGCAAGAACCAGTGTTTA
Celera SNP ID:            hCV11401624
SNP Position Genomic:     98497
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:1872):
AATCAGCGATGTGTCACCCCCAGTCTCCCACCTTTTCTTCTAATGAGTCGACTTTGAGCTGGAAAGCAGCCGTTTCTCCTTGGTCTAAGTGTGCTGCATG
K
AGTGAGCAGTAGAAGCCTGCAGCGGCACAAATGCACCTCCCAGTTTGCTGGGTTTATTTTAGAGAATGGGGGTGGGGAGGCAAGAACCAGTGTTTAGCGC
Celera SNP ID:            hCV11401625
SNP Position Genomic:     98501
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:1873):
GCTCCAGTGACAGACCAGCCTTCAGGACCCTGCTGTGGGCAGATGTACCTATCTCCTGTGTAGCTGCAGCTATGTGTCTCATATGTCACATGTTTTAGGG
R
CATGCCAGCCCAACTAGGAGAGAGCCTAACTTGAGAGACATCCCAACCCAGGAAAGCGCATGAAAAGCTGGGCAGGGCAAGGCAGTGGTTTCCCAGCTTC
Celera SNP ID:            hCV25632444
SNP Position Genomic:     11554
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:1874):
TGGTCTTACTTTGCAACAAGCTCCATCATGCCTCAGGATGACGTTGCTGACCAACCCCACGACTGCAACCCTTTGCTAGGAAGCAGGTCCAGGCCCTCAG
S
CTGGTGGGGAGATGGAAGTGGGGCATGTCCTACCTCACCAGCGACTTGTTCAAACAGAGCCCGAAACCGCTGCTCCTCCTCTGTCTCCTGGTCAGGTGGA
Celera SNP ID:            hCV25632445
SNP Position Genomic:     13859
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:1875):
GGAAGCTGTTCCTCTGACTCACCGGGTAATGGCTTTTTTCTCTGAAAAGATTCTCAGACAGAAATCAGCTTCCTGGTGGGGCTCAAAAGTGCTGGGAATC
M
GGATGTACTCCCCAGGGGGCAGCTTGAACCGGTCGGAGACTTCTCTCAGGTTGATGAACGTCTTGCTTCTGGCCCGAGAAGCGTGGTATCTGAAGAAGTC
Celera SNP ID:            hCV25632379
SNP Position Genomic:     20864
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,40)   total(A,77|C,1)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:1876):
GCCTATCACCTGCTGACAAGACCCACTCTGACTCCAGGTCCTCAGCCTCGGTGGGAGTCAGACAGCTTGGAGCCGGGGAGCGGGTACAACCAGATGCCCC
S
GGTCCCCACCGCAGAGCATCCCAGGCCTGTACATTATTTTCTGCCTCCAAACTGCAAAGCTTTCCACGGTAGACTGGGATGATGCACCTCAGTTGCACTG
Celera SNP ID:            hCV26885220
SNP Position Genomic:     53545
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:1877):
CCACACACAGGGTGGGGGCCTGTCCTTGTGGATAAGGTTTTGATTCGTGCCTATCACCTGCTGACAAGACCCACTCTGACTCCAGGTCCTCAGCCTCGGT
R
GGAGTCAGACAGCTTGGAGCCGGGGAGCGGGTACAACCAGATGCCCCGGGTCCCCACCGCAGAGCATCCCAGGCCTGTACATTATTTTCTGCCTCCAAAC
Celera SNP ID:            hCV26885221
SNP Position Genomic:     53497
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;TFBS


Context             (SEQ ID NO:1878):
ACCCAGTGACCAGCTGGTGCCTCTTGGGACGACACCTCCAGACTGTCAGAGGTGGGGCACTGTTCACCCTGATCTCTGGGAATGGGGGGTGCATGGTTCT
Y
GGGAGAAGATTCCTGCTTCCCTTGTATTCCATCTGTCACCCGGTTGCTGAGACCTTGCTGAGCCAAACATCCATCCACACTGAGCACCCTCAGCTCTGGG
Celera SNP ID:            hCV26885222
SNP Position Genomic:     53253
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:1879):
CGGGCACTCAGGATCTCACTTGTAGGACCAGCATCCCTTGTACTGCCCCTCCTTGCCCAAAAGCAACCGGACCCCACAGGAGCCACTCCCAGGCCCGTAC
M
CACCTGGAGGGAATGGAAGCCAGCCCAGCTGGCGCCGGGTCAGAGGTAGAGCCCTGACTAATCCAGCACCGCAAATATTGACATGGCGTCCCAGGCACAA
Celera SNP ID:            hCV26885223
SNP Position Genomic:     53036
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,4)   total(A,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1880):
CATTAGCCATTATTGTTCCCATTTTACAGGTGAGGAGACTGAGGCTCAGGGAAATGAAGTGATATGACTATATGCATGAGACAAATTGTCAGGATAAGAC
R
GGCACTCAGGATCTCACTTGTAGGACCAGCATCCCTTGTACTGCCCCTCCTTGCCCAAAAGCAACCGGACCCCACAGGAGCCACTCCCAGGCCCGTACCC
Celera SNP ID:            hCV26885224
SNP Position Genomic:     52937
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1881):
TAATCATTGTAATGATGATAATAATAGTATCAGTAATAGTAATAATGTGACAATAGCTGTAATGTACTGGAAACCTTCTGTGTGCTAGACATTGGCCTGC
R
TTAGCCATTATTGTTCCCATTTTACAGGTGAGGAGACTGAGGCTCAGGGAAATGAAGTGATATGACTATATGCATGAGACAAATTGTCAGGATAAGACGG
Celera SNP ID:            hCV26885225
SNP Position Genomic:     52838
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:1882):
TGAAAAGGCCCTACAGGACCAGCTGGTGCTAGTCGCTGCAAAACTTGACACCGAAGACAAGTTGAGGGCCGCAATGGTCGGGATGCTGGCCAACTTCTTG
K
GCTTCCGTATATATGGCATGCACAGTGAGCTATGGGGCGTGGTCCATGGGGCCACCGTCCTCTCCCCAACGGCTGTCTTTGGCACCCTGGCCTCTCTCTA
Celera SNP ID:            hCV16172254
SNP Position Genomic:     90943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:1883):
CGGCTCCCTGCGACTCTATGCTGCAAAAAGAGTCTCCATGCTCATCCTCAGCCCTTTTGTTCCTGATTTTACAGAAATCTGTAAGATATGATGTAAAGCT
Y
CTAACTCCCCTAAATAAGAAACAGATAGGGGTACGAGAATGAGGACCAGACCAAAGGGACAATCTTCAGTTGCAGACAAAGGAAAAGGCAGAACAGATTC
Celera SNP ID:            hCV26885226
SNP Position Genomic:     51010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1884):
TGGGGCAAGGCTAGCTACAGCAGTCAGCAGGGGAGGCGTCTCTGGGGGAAGCAGAGGAGCACAGACCTAAACAAAGGGAGGGAGGGAGGGAGGGAGGGAG
R
AAGCCGGGCCGGTCTCGGGAGAGGTAACAGCCAATCCTGTGGCAGCGAGGCACGTTCTGGCTCACCCTGCAGGGGTGGTGAGTTAACTGGGCCGGGGCCT
Celera SNP ID:            hCV26885227
SNP Position Genomic:     47642
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:1885):
AGGAGGGAGATTAAATTTCCCTCTAATCTGGGTGTATATGAGGAGTCTGAGACAGATGAATTTGATTTGCCAAAAATGGAGAGAGAAGGCTGGGCGTGGT
R
GCTCATACCTGTAATTCCAGCACTTTGGGAGGCCAAGGTGGGTGGTTTCTCTGAGGTCAGGGGTTCGAGACTAGCCTGGCCAACACGGTGAAACCCCATC
Celera SNP ID:            hCV9070460
SNP Position Genomic:     26461
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1886):
ATAGGTTTAGAGACAGAATCTTGCTGTGTCACCCAGGCTGGAGTGCAGTGACATGATCATAGCTCACTACAGCCTTGACCTTCTGGGCTCAAGCAATCCT
Y
CCACCTCAGCCTCCCAAGTAACTGGGACTACAGACGTGAGTCACCACGCCCAGCCACTTTTTAATTTTTTTTTTTTTTTTTGTGGAGATGGGGGTCTCGC
Celera SNP ID:            hCV26885229
SNP Position Genomic:     46760
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:1887):
ACCTTTCAGAAGGAAAATTGGCTAAATGTGAAAAAAGCAATAAAAGTGGGAATACGCCTTCATCCATTTATTCTAGTTCTAAGAACCCCGAGCAAAGAAT
W
ACATATGAAGATTTTTGTCATCATATTATTTATAGTGGCAAAAATTTGGAAGTGAAATAATGACCAATAGAGAGGCATGGTCAATACCTTAGGCTATGTC
Celera SNP ID:            hCV408079
SNP Position Genomic:     9888
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1888):
AGCTTGTTTGTGAAACAAAAAAGTGTTCCCTTTTCAAGTTGAGAACAAAAATTGGGTTTTAAAATTAAAGTATACATTTTTGCATTGCCTTCGGTTTGTA
K
TTAGTGTCTTGAATGTAAGAACATGACCTCCGTGTAGTGTCTGTAATACCTTAGTTTTTTCCACAGATGCTTGTGATTTTTGAACAATACGTGAAAGATG
Celera SNP ID:            hCV11401630
SNP Position Genomic:     98736
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(G,8|T,72)      total(G,8|T,72) ;HYP1(G,8|T,72)   total(G,8|T,72)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:1889):
GGGAGGGAACCACTTTAAAAGGTTCAGGAGGCCCCTATCTGTGAGGTGTGCTTGGTGAGAAGCGCAGGCAGCCCGGCAGGCGGGAGGTCTGCAGAGCGCT
Y
GTGGAAACTACGGTTGTGTGTGCAGGACATGGGACCACAGAGATGCCGACAGCCATCCAGCACCGGACAAGAGTGGGAAATGCCACCTGGAGCCCAGCCT
Celera SNP ID:            hCV27507132
SNP Position Genomic:     7931
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1890):
AGTCCTCCCTTTCCTCCTCATCCCCTGGGCATCCATAACATAACCCTTTCAGAACTTCTGTTTGTTTAATCAGGAGTCTGTCTGAGAGCTAAACCAATGC
R
AACACAGCTCAGTGTGAATTTTTGTTACCAAGCTACAGAGCTGATTCTTATACTCAATATCATAGCAGATTAAAGAATCTTGTTCAGAGCAAGATTGAGT
Celera SNP ID:            hCV317106
SNP Position Genomic:     19206
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,9)      total(G,4|A,9) ;no_pop(G,-|A,-)   JBIC-allele(G,102|A,1383)   total(G,102|A,1383) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1891):
CGCGAACCCAGCTTCCCTGATGGACCGTCACCTCCCATTTGTGGATCGCGTCTTCCTCCAGGGCATCGGGAGTGAGGTTGCAGATCTCCACTTTATCAAA
K
TGGGCCTTGAAGTCCTGAAATGCCATCCTGCAGCAAAGCGGAGAGACACGATGCACAGGAGGGCAAGAGTGAGGGCATCATCCATTCACTCATTCATTAA
Celera SNP ID:            hCV25632381
SNP Position Genomic:     22488
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,3)   caucasian(G,40)   total(G,75|T,3)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:1892):
GCAGCTAGGCGGTGGGCCTGGGTTAGATGCCTGGGAGTGGTGTGTATGCTGACGGCCCACATGCCCACATGTGCAAGGTGCCTGTGACTTGCCTTGTTGT
R
TGTGCCCAGGTGTGGTACACGTGTGTGCTTGTGCATGCTCCACATGTATGCTGGTTGCATGTGCACTTGGGAGCATTGTCTACGTGTGAGTGTCCTGCAT
Celera SNP ID:            hCV15972651
SNP Position Genomic:     49316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1893):
CCTCCCTTGACAGGTGGGGATTACAATTCGAGATGAAATTTGGGTGGGGACACAGAGCTAAACCGTATCATTCTCCACCGGCCCTTCCCAAATCTCATGC
Y
TTTTCAGATTTCAAAACCAATCATGCCTTCCCAACAGTCCCCCAGAGGCTTAATTCATTCCAGCATTAACCCAAAAGTCCAAGTCCAAAGTCTCATCTGA
Celera SNP ID:            hCV27934343
SNP Position Genomic:     78534
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1894):
TCCGTGGTGGCTGGAAAGGGAGTGAAGGTGGGGGGCAGCTGCTCAGTTCTGGGGTCCTGGCTTGGCTTGCCTGTGCGGACCCCTCTCATCTGTAGGAAGC
R
CACTGCTCTTCTTCCTCCTCCACCTTGGCTAGCGCAGGAGTTTGCAGGTGGCTCTGAGCTGAGCCCAGAAGGACAATGCAAACCAGGACCATGTCAGTGG
Celera SNP ID:            hCV15972652
SNP Position Genomic:     48424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1895):
GTCAGGAGAAGGTGACACTGTCTGGGGTGGAAGGTCAAGGAATGCCTACTCGGTGCCTGGCTCTGTGCCGGCTCCTGTGTGTGATGCCATTTAGCTCTAC
R
GGAAGCCTGCAGGGAACTGTCAGTCTCTCCTTTTTTCAGACGAGTGTAGAAAGGTTTAATGTCACTAAGAAAATTGTCTGAGGTCACCCACCTAAGTAAG
Celera SNP ID:            hCV253894
SNP Position Genomic:     41136
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1896):
AAACGGGCTGGCCCTGAGTGGTGGCCTGTGAGTCAGGAGAAGGTGACACTGTCTGGGGTGGAAGGTCAAGGAATGCCTACTCGGTGCCTGGCTCTGTGCC
R
GCTCCTGTGTGTGATGCCATTTAGCTCTACGGGAAGCCTGCAGGGAACTGTCAGTCTCTCCTTTTTTCAGACGAGTGTAGAAAGGTTTAATGTCACTAAG
Celera SNP ID:            hCV253895
SNP Position Genomic:     41105
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1897):
CCTGAGCTACATGTGACCTGCTCACTCTCTTTGCCTTTGAAACACTTCTGTGCTATTGGTGACAGGGCTTGAGAGTACCTCTGCTTATCAGATTGCAGGC
Y
TCAGGGACAGAAGAAACGGGCTGGCCCTGAGTGGTGGCCTGTGAGTCAGGAGAAGGTGACACTGTCTGGGGTGGAAGGTCAAGGAATGCCTACTCGGTGC
Celera SNP ID:            hCV253896
SNP Position Genomic:     40991
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1898):
ACAAAGACTAGTGTAGAGACTCCTGTCGGGAGGCTGCCTGAGCTGGGGAAGCTGTCACTCACTTGGCGTAGGCTTTTTCCAGCAAGGCGCTCCAGAACTC
R
TTGTGGTCGGCAGAGTGGAGGAAAACCAAGCGGTCCCTGAAGGTGGGCAGGCGGTCATCGATCACCACGTCCAGCCACTCACTGTGCTGCCAGAACTGTT
Celera SNP ID:            hCV253897
SNP Position Genomic:     38735
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,24)   caucasian(A,18|G,22)   total(A,26|G,46)
SNP Type:                 SILENT MUTATION;INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,9)      total(G,9|A,1) ;JBIC-allele(G,713|A,784)   total(G,713|A,784)no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:1899):
TCCTGCCGAGCCTCACCTGCAAACCCAGAGCCCTGATTTTTTCCCAGCCCTTAGATGCTCACTACAAAGACTAGTGTAGAGACTCCTGTCGGGAGGCTGC
Y
TGAGCTGGGGAAGCTGTCACTCACTTGGCGTAGGCTTTTTCCAGCAAGGCGCTCCAGAACTCGTTGTGGTCGGCAGAGTGGAGGAAAACCAAGCGGTCCC
Celera SNP ID:            hCV253898
SNP Position Genomic:     38672
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:1900):
AAAGTTAGAGTGCTGTTGTAAAAGTCTTTCTTGAGAATCAACCTTGATGCAAGGTGGGCCTGAGGGCTGAAAGGGGAGGAAGAAGGGGCACCTCAGAATC
R
GGACAGGATCCTGAGTCAGAGCCCGGGAGGATAGTAGACAGGCCACTCCTTCACATGTCTGCACAAGCCAGCTCTGGCCCCACACGCCCCGGGAACCAGC
Celera SNP ID:            hCV25632388
SNP Position Genomic:     29261
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:1901):
GGAGGAAGAAGGGGCACCTCAGAATCGGGACAGGATCCTGAGTCAGAGCCCGGGAGGATAGTAGACAGGCCACTCCTTCACATGTCTGCACAAGCCAGCT
Y
TGGCCCCACACGCCCCGGGAACCAGCCAGAGAGGCAGGATAGGGTGACTGACCTGTCGCTCCACGACCCGTTCCACTCAACCTGGCCCCAAGGGTTCCGG
Celera SNP ID:            hCV25632389
SNP Position Genomic:     29335
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:1902):
GGGGTTTCACCATGTTGACCAGGCTGGTCTTGAACTCCTGACCTAGGTGATCCGCCTGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACC
R
CACCCGGCCTATGATTCCTTTTATATAAAATATTCAGAATATGTAAATAGAATCTATAGAGAAAGTAGATGAGTGGTTGCCTGGGGCTGGGGGAAATGGG
Celera SNP ID:            hCV408080
SNP Position Genomic:     10827
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1903):
TGCATACTCAAGTCCCACAGTAAGCCCTGTGGAATCTGCCTATACCAAGTCAGCCCTCTGTATATGCGGGTTTCAAATCCTGGAATAGTATATTTTCTCC
Y
TTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCATCCTCCCTCCCTCCCTTCCTCCCTCTCTCCCTTCCTTCTTTCC
Celera SNP ID:            hCV26885231
SNP Position Genomic:     44415
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,10)   total(C,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1904):
AGCACGGGCTGGGCGAGCAGACATTTCATAGCTGCCACCCAAGTGGTTCGGCAGTACTTGGGAGGGTGGTTAGAAATCTCCCTGCAGCCCCAACCCAGAC
W
CAGCTTAATTACAGATAATGGTATCTCCGTGGTGGCTCCATTTGCTTTAAATTATCTTGCATTTTCAAGATTTATTGACTGACCTACTGAACTTCCCAGC
Celera SNP ID:            hCV26885232
SNP Position Genomic:     42406
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,12)      total(A,2|T,12) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:1905):
TTGCCAAAACATCACTTATAGTTTTAAATGTATGCTCCATAAGGATTCACCGTGCAATGCCGTTAATGTTCTTCTGAGGCATTTAGCTGTTATTCCATGA
T
AAAATGTGGCTTTAGCATGGTTTAGGACCATATGTCACACAGATCTGATGACATTTTTTTCTAGGGTTACCAGGCAGTGTGGAAATGCACCTGCCCTCAT
Celera SNP ID:            hCV26885233
SNP Position Genomic:     41705
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,7)   total(T,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1906):
CATGACAGGTATGTGCACTGTTTGTGGTTTATTTATACATTGCATGTGTGAAAGCATGTGTTTGCTCACATGTGTGCATGTGTGTGCATGTATGTGTGCA
Y
GCATGTGTTTGCAAGTGCTTCTACACACGTGTGTGTTTGAGCACATGTATGCATGTGTATGAGCTTGTGTGTGGTCTGCTGGGAACAGGAAGGGAGGTTG
Celera SNP ID:            hCV26885234
SNP Position Genomic:     39550
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,14)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1907):
TGGTTAAAACTTGTGTTTTATTTATTTATTTTTATTTTATTTTATTTTATTTTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTAT
W
CTTTAAGTTTTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACCTGTGCCATGTTGGTGTGCTGCACCCATTAACTAGTCATTTAGCAC
Celera SNP ID:            hCV26885235
SNP Position Genomic:     33475
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:1908):
CCCGCCCAGGGCTGCGCTCAGCCACCTTCCTGCTGTGCTTTAAGCAGTCACATGAGCCCCCATTTTCTCCATCCGATCCTGTGGTCCCCTAATCTCCCTG
Y
CTTGCCTGTTTATTGCAGTGCCTAATATACTACCATCAGACAGCCCCTAGGTTTAGATATCACCCCTCCAGGTGACCCCTTTCATAATTCAGGAACCCCA
Celera SNP ID:            hCV408085
SNP Position Genomic:     12865
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   no_pop(T,-|C,-)   JBIC-allele(T,99|C,1390)   total(C,1390|T,99)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1909):
TTGGTTAAAACTTGTGTTTTATTTATTTATTTTTATTTTATTTTATTTTATTTTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTA
T
ACTTTAAGTTTTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACCTGTGCCATGTTGGTGTGCTGCACCCATTAACTAGTCATTTAGCA
Celera SNP ID:            hCV26885236
SNP Position Genomic:     33474
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1910):
AAGCATGATGGCATGTGCCTATAGTCCCGGCTACTCAGGAAGCTGAGGTGATAGGATCTCTTGAGCCCATGAGTTTGAGGCTGCAGTGAGCTAGGCTTAT
R
CCACTGCACTCCAGCCAGGGTAAAAGAGTGAGACTCTGTCTAAAGCAAAACAGAACTAAAAAACAAAGCGTCTGGGCCTATTCCAAGCTTCTTTGGGCTC
Celera SNP ID:            hCV408086
SNP Position Genomic:     13579
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1911):
GCTTGGTTAAAACTTGTGTTTTATTTATTTATTTTTATTTTATTTTATTTTATTTTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTAT
T
ATACTTTAAGTTTTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACCTGTGCCATGTTGGTGTGCTGCACCCATTAACTAGTCATTTAG
Celera SNP ID:            hCV26885237
SNP Position Genomic:     33472
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1912):
AGTATCTCAGGGCCTCTTGCGAGTCCTCCAGCCCTTGGACGAGGGTAAAGCCACCCCCATGTCACCCCTTCCACACCACATAACATAGGGGAGATGTAAT
R
TGTTCCCCTGAGTCCACAGTAAAAAACATCTCCCTGCCTCTCTGGTTTTCTTTTCATTGATTAGATTTCTTAAAATACAATTAAAAGTCTACCCACTTCA
Celera SNP ID:            hCV408087
SNP Position Genomic:     14651
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1913):
CATGCTTGGTTAAAACTTGTGTTTTATTTATTTATTTTTATTTTATTTTATTTTATTTTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATT
T
ATTATACTTTAAGTTTTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACCTGTGCCATGTTGGTGTGCTGCACCCATTAACTAGTCATT
Celera SNP ID:            hCV26885238
SNP Position Genomic:     33469
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1914):
TCCCATTGCAGTGCTTTATCCCTAAATAAATAGCTTTTCTTTTAGAGAGTGTCTCTGTGTTTGTTATTTCAGTTGACAGTAGCACAGAGGAAGATGACAT
S
GAACAGAACTTTATACCAAGCACCCACCTCACTCCCATGCCAGGTCCTTGTGGACTAGAAGAGCACAGACTAGAACACACACATCTTGGTCTCCAGGAGG
Celera SNP ID:            hCV408088
SNP Position Genomic:     15240
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1915):
CCATGCTTGGTTAAAACTTGTGTTTTATTTATTTATTTTTATTTTATTTTATTTTATTTTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTAT
T
TATTATACTTTAAGTTTTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACCTGTGCCATGTTGGTGTGCTGCACCCATTAACTAGTCAT
Celera SNP ID:            hCV26885239
SNP Position Genomic:     33468
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1916):
ACTTTGGCTGCTGTCATGGGTTGTTGAGTACCTGTGGCTTTTCCAGGCTCAAGGTGCAAGCTGCCAGTGGATCCACCATTCTTGGGTCTGGAGGATGATG
R
CCGCCTTCCCACAGTTCCACTAGGCAGTACCCCAGTGGGGACTCTGTGCGAGACCTTGAACCTCACATTTCCCCATCTGCATAGCCCTAGTAGAAGTTCT
Celera SNP ID:            hCV408089
SNP Position Genomic:     16658
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1917):
GCGTCTCTGGGGGAAGCAGAGGAGCACAGACCTAAACAAAGGGAGGGAGGGAGGGAGGGAGGGAGGAAGCCGGGCCGGTCTCGGGAGAGGTAACAGCCAA
W
CCTGTGGCAGCGAGGCACGTTCTGGCTCACCCTGCAGGGGTGGTGAGTTAACTGGGCCGGGGCCTGCAGAGGAGTGAAGGATTTTTCCCACCTCTTCCCA
Celera SNP ID:            hCV11677401
SNP Position Genomic:     47677
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1918):
ACCTGAATTTCTGTTTGAATGCGGAACCATAGCTGGTTATTTCTCCCTTGTGTTAGTAATAAACGTCTTGCCACAATAAGCCTCCAAAAATTTTATCTTT
Y
ATTTAGCAGCCAAACAGATGTATACAATTCAGCAGATAGACTGTGCAAACGAAAGTGCTTTCCTGGACTTTGGATGGAATTTCCATGGGAGGTCTGAGCC
Celera SNP ID:            hCV204369
SNP Position Genomic:     98942
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,10)      total(C,10|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:1919):
TGCACACGGCAAGGATTCAGGAGTTTCCTCTCATTGCAATGGGCAGCCTTGGGGAGTTTTCCTCTGGGAGGAAATCTCATGGATTTATACTGAAGAAATA
R
CTGGCTATGTGCTGTGTGATAACAGATGGAAGGGGGCTGGAGGGGAAGCAGAGAATCGGGTTGGGAGGCCTGTGGGACCGCTAGAAGCCACCCCTGCACT
Celera SNP ID:            hCV16243204
SNP Position Genomic:     70086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1920):
ACAGGCCACTCCTTCACATGTCTGCACAAGCCAGCTCTGGCCCCACACGCCCCGGGAACCAGCCAGAGAGGCAGGATAGGGTGACTGACCTGTCGCTCCA
Y
GACCCGTTCCACTCAACCTGGCCCCAAGGGTTCCGGATTCGGATGAGCTCGATTCTCTGGCCTCGGAAGCTTACCTAGAAGGGAAAAGCATGAGGGAAGT
Celera SNP ID:            hCV25632390
SNP Position Genomic:     29399
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:1921):
AGCACAGCTGGAAGGCAGAGGACAAGGAGGTGCATGGTCCAAGGCTGTAGAGAGAAGGGCAGCAGCCAGGTCGTGTAAGTGACTGCACACGGCAAGGATT
Y
AGGAGTTTCCTCTCATTGCAATGGGCAGCCTTGGGGAGTTTTCCTCTGGGAGGAAATCTCATGGATTTATACTGAAGAAATAACTGGCTATGTGCTGTGT
Celera SNP ID:            hCV16243205
SNP Position Genomic:     70003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1922):
CTGCAGTTGGAGTTCAAGTCGCCTACCTGGTCAATTCCCGTTACACTGTAGGCATGACCCTTAATAAGACCAAACGGCGTCCGGGCCTCAGATTCTGCAG
Y
ACTTCTGGTCTAAAACATGGAAAGAGCAGAGTCACACCCACCGTCTAAGTCAAGCCTCCCCTGCTGGATCAGACCCAGCTACATGCCTGGCCCGGTCACA
Celera SNP ID:            hCV25632397
SNP Position Genomic:     32294
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:1923):
CCCAGCTGTGAGCTCTGTGACCTCTGTGGGCTTCAAGGAGCTGAGTAATGCATGTACCACAGGCTGGGGCCTTGGACTAAACATACTCCCTACCCACCCA
K
CTTCTCCATTTCTTTCTTTATATAATCCTTCCCCCACAAAGTGGATTCCAAATATATATAGGTTTAGAGACAGAATCTTGCTGTGTCACCCAGGCTGGAG
Celera SNP ID:            hCV16247850
SNP Position Genomic:     46602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1924):
GGGGCAGCTTGAACCGGTCGGAGACTTCTCTCAGGTTGATGAACGTCTTGCTTCTGGCCCGAGAAGCGTGGTATCTGAAGAAGTCTTTGTTCAGGTGTTC
R
TCTTTGTCAGGGCACTGCAATGGGCAAGAAAGGGAGGGGTTTCCTAGGGAAGTTCCTCTTGGCTTTTCGGACACAATTCATGGACTCTTGGTTGAGTCTC
Celera SNP ID:            hCV22272716
SNP Position Genomic:     20980
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(A,7|G,33)   total(A,10|G,68)
SNP Type:                 SILENT MUTATION;INTRON;hmCS


Context             (SEQ ID NO:1925):
CCTACCTGGTCAATTCCCGTTACACTGTAGGCATGACCCTTAATAAGACCAAACGGCGTCCGGGCCTCAGATTCTGCAGCACTTCTGGTCTAAAACATGG
R
AAGAGCAGAGTCACACCCACCGTCTAAGTCAAGCCTCCCCTGCTGGATCAGACCCAGCTACATGCCTGGCCCGGTCACAACCTCCAGCCCCTTCTGCTGC
Celera SNP ID:            hCV25632398
SNP Position Genomic:     32315
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:1926):
TCAATTCCCGTTACACTGTAGGCATGACCCTTAATAAGACCAAACGGCGTCCGGGCCTCAGATTCTGCAGCACTTCTGGTCTAAAACATGGAAAGAGCAG
M
GTCACACCCACCGTCTAAGTCAAGCCTCCCCTGCTGGATCAGACCCAGCTACATGCCTGGCCCGGTCACAACCTCCAGCCCCTTCTGCTGCCCCAGGTGC
Celera SNP ID:            hCV25632399
SNP Position Genomic:     32324
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:1927):
CCACCATGCTTGGTTAAAACTTGTGTTTTATTTATTTATTTTTATTTTATTTTATTTTATTTTTTATTTATTTATTTATTTATTTATTTATTTATTTATT
T
ATTTATTATACTTTAAGTTTTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGTATACCTGTGCCATGTTGGTGTGCTGCACCCATTAACTAGT
Celera SNP ID:            hCV26885240
SNP Position Genomic:     33465
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,6)   total(T,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1928):
CTGTATCCGAGCCCCGAGGTGAGTCTGCACCTTTGAGGGAGCTCCCAGGCAGCTGAGGAGAGGGCTCAGAAGAGGAAGCCACTGTTTCACTCCTCAAAGC
K
GGGGTCCCCAGACCCAGTGGGACTGCTGCCCTTGGTGTGAATGCAGCGTGAGAGTGTGAATCTGTGGTGCAGGGGCGAGTGTGCGGGGGACTCTCAGGCG
Celera SNP ID:            hCV22272646
SNP Position Genomic:     6465
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,33)   caucasian(G,5|T,29)   total(G,6|T,62)
SNP Type:                 INTRON


Context             (SEQ ID NO:1929):
GGCAGCGTAGATTGGTGCTTCAGCTCGTGGATGACAGAGTCAGGGGGCCTGGTTCTGAGTCCTAGTTCTGTCTCTTCCCAGCTGTGTGACGTTGAACAAG
Y
CACTGGACCTCTCTGTTCCTCTGCAAAACAGCATGAACCAATTCATTAACTACTTCTCCAGGATGCAGTAGGTCCCAGGGACTATCCTAGGAATGTGGGC
Celera SNP ID:            hCV976461
SNP Position Genomic:     88104
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:1930):
GTTGCTCAAGGGTCAACTGTGTGATGTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGGTGTGTGTGTG
T
TTAATTGTATGTATATATATTTGGTTCCCTAGTGATTCTATTTCTCTGAAGAATCCTGACTAACACAGGACTGAAGGAGAATTGGGAAAGAAAGGAAATT
Celera SNP ID:            hCV26885241
SNP Position Genomic:     31878
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1931):
TGTTGCTCAAGGGTCAACTGTGTGATGTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGGTGTGTGTGT
G
TTTAATTGTATGTATATATATTTGGTTCCCTAGTGATTCTATTTCTCTGAAGAATCCTGACTAACACAGGACTGAAGGAGAATTGGGAAAGAAAGGAAAT
Celera SNP ID:            hCV26885242
SNP Position Genomic:     31877
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1932):
GTTCAAGCCTGTGTTGCTCAAGGGTCAACTGTGTGATGTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATA
G
GTGTGTGTGTGTTTAATTGTATGTATATATATTTGGTTCCCTAGTGATTCTATTTCTCTGAAGAATCCTGACTAACACAGGACTGAAGGAGAATTGGGAA
Celera SNP ID:            hCV26885243
SNP Position Genomic:     31866
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1933):
GTGTTCACAGCCCCAGGCCTGCACCTGAAGCAGCCGTTTGTGCAGGGCCTGGCTCTCTATACCCCTGTGGTCCTCCCACGCTCTCTGGACTTCACAGAAC
K
GGATGTTGCTGCTGAGAAGATTGACAGGTTCATGCAGGCTGTGACAGGATGGAAGACTGGCTGCTCCCTGATGGGAGCCAGTGTGGACAGCACCCTGGCT
Celera SNP ID:            hCV976464
SNP Position Genomic:     91334
SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:1934):
AGTTCAAGCCTGTGTTGCTCAAGGGTCAACTGTGTGATGTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGAT
A
GGTGTGTGTGTGTTTAATTGTATGTATATATATTTGGTTCCCTAGTGATTCTATTTCTCTGAAGAATCCTGACTAACACAGGACTGAAGGAGAATTGGGA
Celera SNP ID:            hCV26885244
SNP Position Genomic:     31865
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1935):
ACCCCACCTTCATACCTGCTCCAATTCAGGCCAAGACATCCCCTGTGGATGAAAAGGCCCTACAGGACCAGCTGGTGCTAGTCGCTGCAAAACTTGACAC
Y
GAAGACAAGTTGAGGGCCGCAATGGTCGGGATGCTGGCCAACTTCTTGGGCTTCCGTATATATGGCATGCACAGTGAGCTATGGGGCGTGGTCCATGGGG
Celera SNP ID:            hCV25632036
SNP Position Genomic:     90894
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:1936):
TAAGTTCAAGCCTGTGTTGCTCAAGGGTCAACTGTGTGATGTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAG
A
TAGGTGTGTGTGTGTTTAATTGTATGTATATATATTTGGTTCCCTAGTGATTCTATTTCTCTGAAGAATCCTGACTAACACAGGACTGAAGGAGAATTGG
Celera SNP ID:            hCV26885245
SNP Position Genomic:     31863
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1937):
GAGGGCCACCATCCTCTGCCTCCTGGCCTGGGCTGGCCTGGCTGCAGGTGACCGGGTGTACATACACCCCTTCCACCTCGTCATCCACAATGAGAGTACC
Y
GTGAGCAGCTGGCAAAGGCCAATGCCGGGAAGCCCAAAGACCCCACCTTCATACCTGCTCCAATTCAGGCCAAGACATCCCCTGTGGATGAAAAGGCCCT
Celera SNP ID:            hCV25632037
SNP Position Genomic:     90754
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:1938):
TATAAGTTCAAGCCTGTGTTGCTCAAGGGTCAACTGTGTGATGTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGAT
A
GATAGGTGTGTGTGTGTTTAATTGTATGTATATATATTTGGTTCCCTAGTGATTCTATTTCTCTGAAGAATCCTGACTAACACAGGACTGAAGGAGAATT
Celera SNP ID:            hCV26885246
SNP Position Genomic:     31861
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1939):
ATCCTAAGTGGCTCACACCCAGATAATTGGCCTGACAGGCTGGCCATGCGGTGCCTTCAACCCTACTCACATGTCACCAGCAGCACAGCGAAGTCAGGGA
R
TCGGGATGGCGCCTGCCCCTCCCATCACCCATGGAGGCTGCATGAGTGGAAGACAAATTTTATTCCAGCCTTGGCTCTCAGTCACTTTCTTGATTTCTAC
Celera SNP ID:            hCV78306
SNP Position Genomic:     27908
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1940):
GAAATGATAGTGTTGGAGTGCTAAGGGGAATGATTCAGAAGAAGGGGGGAATTCATACGTAAGGGGAGAGAAGAGAGTTGCAGGAGGTACATCCTAGAGC
Y
GGTGAAGAATGGAAAGAGGCTACACAGGGCTTCAGAGTCAGGATTCCAGGAGGAAGGGCTCCACGCACAGAGTGCATGATTTAACACCACCCATCACCTT
Celera SNP ID:            hCV317627
SNP Position Genomic:     24050
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1941):
ACAGGGAATATTGAGACAATGAAAGATCTGGTTAGATGGCACTTAAAGGTCAGTTAATAACCACCTTTCACCCTTTGCAAAATGATATTTCAGGGTATGC
R
GAAGCGAGCACCCCAGTCTGAGATGGCTCCTGCCGGTGTGAGCCTGAGGGCCACCATCCTCTGCCTCCTGGCCTGGGCTGGCCTGGCTGCAGGTGACCGG
Celera SNP ID:            hCV25632038
SNP Position Genomic:     90608
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,32)   total(A,1|G,69)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:1942):
ATATAAGTTCAAGCCTGTGTTGCTCAAGGGTCAACTGTGTGATGTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGA
T
AGATAGGTGTGTGTGTGTTTAATTGTATGTATATATATTTGGTTCCCTAGTGATTCTATTTCTCTGAAGAATCCTGACTAACACAGGACTGAAGGAGAAT
Celera SNP ID:            hCV26885247
SNP Position Genomic:     31860
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1943):
GTGGCTCACACCCAGATAATTGGCCTGACAGGCTGGCCATGCGGTGCCTTCAACCCTACTCACATGTCACCAGCAGCACAGCGAAGTCAGGGAGTCGGGA
Y
GGCGCCTGCCCCTCCCATCACCCATGGAGGCTGCATGAGTGGAAGACAAATTTTATTCCAGCCTTGGCTCTCAGTCACTTTCTTGATTTCTACCTCTGTG
Celera SNP ID:            hCV78307
SNP Position Genomic:     27915
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;TFBS


Context             (SEQ ID NO:1944):
GAGGCTACACAGGGCTTCAGAGTCAGGATTCCAGGAGGAAGGGCTCCACGCACAGAGTGCATGATTTAACACCACCCATCACCTTGGGCAGGCTCAGCCC
W
GGTGTTGGGGCTGCTCCTTCAAGAGGGGCAGGGCAATGGATCACTCACATGGACGCTCTTCTTTGTGGAGCTTCCTGCTGTGAATTTCCGAGTTTCCTCT
Celera SNP ID:            hCV317628
SNP Position Genomic:     24166
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,13)      total(A,1|T,13) ;JBIC-allele(A,336|T,1139)   total(A,336|T,1139)
SNP Type:                 INTRON


Context             (SEQ ID NO:1945):
GCAATGGTCGGGATGCTGGCCAACTTCTTGGGCTTCCGTATATATGGCATGCACAGTGAGCTATGGGGCGTGGTCCATGGGGCCACCGTCCTCTCCCCAA
Y
GGCTGTCTTTGGCACCCTGGCCTCTCTCTATCTGGGAGCCTTGGACCACACAGCTGACAGGCTACAGGCAATCCTGGGTGTTCCTTGGAAGGACAAGAAC
Celera SNP ID:            hCV25632039
SNP Position Genomic:     91013
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,37|T,3)   total(C,73|T,3)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:1946):
CATATAAGTTCAAGCCTGTGTTGCTCAAGGGTCAACTGTGTGATGTAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAG
A
TAGATAGGTGTGTGTGTGTTTAATTGTATGTATATATATTTGGTTCCCTAGTGATTCTATTTCTCTGAAGAATCCTGACTAACACAGGACTGAAGGAGAA
Celera SNP ID:            hCV26885248
SNP Position Genomic:     31859
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1947):
CAACCCATCTCAGCTCATCTCTGCCAATGCTTCTTGGTTCTCAGAAGGCGGCAGCCAAGGCCAGAGCAGAGGATGGTGGGACGAGAGCCTCCATGGGGAC
M
ATGACAGCCTGGAAAGCACAGGCCTGTGTGCCCTGCCCTCACGCTGGGGTCTGGCTAATACAGCAGCGGCTGCACCATGTCTGGTGACCTGGTAGCTGTG
Celera SNP ID:            hCV78308
SNP Position Genomic:     28286
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|C,8)      total(A,7|C,8) ;JBIC-allele(C,227|A,1242)   total(A,1242|C,227)
SNP Type:                 INTRON


Context             (SEQ ID NO:1948):
TGTAGTGTCTGTAATACCTTAGTTTTTTCCACAGATGCTTGTGATTTTTGAACAATACGTGAAAGATGCAAGCACCTGAATTTCTGTTTGAATGCGGAAC
M
ATAGCTGGTTATTTCTCCCTTGTGTTAGTAATAAACGTCTTGCCACAATAAGCCTCCAAAAATTTTATCTTTCATTTAGCAGCCAAACAGATGTATACAA
Celera SNP ID:            hCV204370
SNP Position Genomic:     98869
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|C,10)      total(A,3|C,10) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:1949):
GTGTCAGCACGGGCTGGGCGAGCAGACATTTCATAGCTGCCACCCAAGTGGTTCGGCAGTACTTGGGAGGGTGGTTAGAAATCTCCCTGCAGCCCCAACC
R
AGACTCAGCTTAATTACAGATAATGGTATCTCCGTGGTGGCTCCATTTGCTTTAAATTATCTTGCATTTTCAAGATTTATTGACTGACCTACTGAACTTC
Celera SNP ID:            hCV9614783
SNP Position Genomic:     42401
SNP Source:               dbSNP
Population(Allele,Count): SC_12_AA(A,3|G,18)   total(G,18|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1950):
CAAGGGTGCTTCTGGGTGACATGAAATTTAAGTTGATTGAGTAAAACAGATTGCCCTCCCCAGTGTAGGTGGGCCTCATCTCATCTGTGAAGACCTGACC
W
GAACAAAAAGGCAGAGGAAGGGGGAATTCACTCTCTCTTCCTGGGTGCCTGAGCTGGGACATCCGTCTCTCCTGCCCTCAGACTGGGACTTTTACCATTG
Celera SNP ID:            hCV26885249
SNP Position Genomic:     31139
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:1951):
CAAGTTCTAGACTAGCTTCAGATTTCCCCAGAAGCTCAGGGGCCATGGATGTGGCAGGAAAGGGCTTCAGGAGCCCAACAAGCAGCGGACGAGCAACAGC
Y
TCAGGCAGGCCCTGCCACGCACCCACACAAACATCCCTGGTTCTTAGTCACCTGGTCCACTTCCCAAGGGACCAGAGCTGGAGGAGCTGTGGGGACACAC
Celera SNP ID:            hCV78309
SNP Position Genomic:     28522
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,8)      total(C,5|T,8) ;JBIC-allele(C,228|T,1211)   total(C,228|T,1211)
SNP Type:                 INTRON


Context             (SEQ ID NO:1952):
GTGCCGGTCAAGAAGGAACAGCTCAGAGGGCCACTGGGCTGAGTGGCCCTCACCTCCACCTATTTTCTGGGCACCTCCCTGTTAGACTGAGATGGGACAC
R
CCCTGATGGAAAACAGCAGAGAGAGCCCTCTGCCCACTCTGCACTCCTGCAGACTCAGAGGCAGCTCTGGGGCCTGGCACATTCCACTCAGAGGCGGCAC
Celera SNP ID:            hCV9614784
SNP Position Genomic:     54128
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,21)   caucasian(A,5|G,21)   total(A,16|G,42)
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:1953):
GCAGAAATAAGCAATTGGCTTGCTTAAATCCCTTTCATGTTAGGAGGGGCATTACTGAAAACCCTCTACTACAAAGATTGTTGATTTTTTTTTTTTTTTT
T
ATTGAGACAGGGTCTTGTTCTGTCACCCAGGCTGCAGTGTAGTGGTGCCATCATTGCTCACTGTAGCCTTGAACTCCTGGCCTCAAGCGATCCTCCCACC
Celera SNP ID:            hCV26885178
SNP Position Genomic:     92017
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,10)   total(T,10|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1954):
CTGACTAATACATCATGCTCTGCTGACTCCATATGTGGCTGGTTTCCTGGATCCGATTCTGACTGATGGTATCTGTTCTCACACTGCTAATAAAGACATA
Y
CAGAGACTGGGTAATTTATAAAGAAAAAGAGGTTTAATGGACTTATGTGTTCCACGTGGCTGGGGAGGCCTCACAATCATGGTGGAAGGTGAAGGAGGAG
Celera SNP ID:            hCV26885179
SNP Position Genomic:     84667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1955):
CATGGTAGTTTCTCTGTGTATCCTGCAGTGACCCACCTCCTACCCGTTCCTTCTGGTTCAGTTGGCCTGAGAGCGATCCTAAGGTAACCTCTAAGAGTAA
R
AAGAAAAGGGTTGAAAGAGGAGGGTAGGCACAGTGGTTTTGGGAGCCATTTATTTACAGCTTTGCTGTGTCATCCTGAGCATCTTGCTGCATCAGTGATT
Celera SNP ID:            hCV11677418
SNP Position Genomic:     39766
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;JBIC-allele(A,632|G,849)   total(G,849|A,632)
SNP Type:                 INTRON


Context             (SEQ ID NO:1956):
CCATTTGCAATTTGTACAGCATAAACACAGAACAGCACATCTTTCAATGCCTGCATCCTGAAGGCATTTTGTTTGTGTCTTTCAATCTGGCTGTGCTATT
S
TTGGTGTTTAACAGTCTCCCCAGCTACACTGGAAACTTCCAGAAGGCACTTTTCACTTGCTTGTGTGTTTTCCCCAGTGTCTATTAGAGGCCTTTGCACA
Celera SNP ID:            hCV11401583
SNP Position Genomic:     86730
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(C,4|G,76)      total(G,76|C,4) ;HYP1(C,4|G,76)   total(G,76|C,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:1957):
TTGTGTCTTTCAATCTGGCTGTGCTATTGTTGGTGTTTAACAGTCTCCCCAGCTACACTGGAAACTTCCAGAAGGCACTTTTCACTTGCTTGTGTGTTTT
Y
CCCAGTGTCTATTAGAGGCCTTTGCACAGGGTAGGCTCTTTGGAGCAGCTGAAGGTCACACATCCCATGAGCGGGCAGCAGGGTCAGAAGTGGCCCCCGT
Celera SNP ID:            hCV11401584
SNP Position Genomic:     86802
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Caucasian(T,65|C,662)   Salt Lake City(T,21|C,158)   Salt Lake City (hypertensive)(T,9|C,62)   Paris (hypertensive)(T,9|C,76)   40 Africans; 32 white Americans; 2 CEPH individuals(T,37|C,111)      total(C,1069|T,141) ;(C,-|T,-)   HYP3(T,37|C,111)   total(C,111|T,37)   JBIC-allele(T,239|C,1212)   total(C,1212|T,239)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1958):
GACCTGGGTGGGACAGAGGGCAAGCGTGGGCATCTTTGGTTCTTATTTGATGGCTTTAATTCTGTCCTGCTGATTTCAGGATTAATTTAACCACAGTATG
M
CTCCCCTCTATTTTGCCACTTTTATGTCCCACTTGGAGGTAGAAGCAAGACCATCCTTGCTTCTGTCTCTGGGGATAGTATTCTCATGGCTTGAAGATCC
Celera SNP ID:            hCV27487139
SNP Position Genomic:     37740
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,254|C,821)   total(A,254|C,821) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1959):
TGGTACAGGAACAGAGTCATCATGGCCAAGAGTCCACCGGGTCCTCTTGCCATCAGGAGGAATAGCAGGGCTTGTGCAGGAATTGGGGCTGGAGGGAAGG
R
CCGGGCTCGGTCAGTCTCCAGCTGGGATCCCCAGAGTGGTCACCCTACCCCTCCCTCGAGACAGACTGCCTGACTGTGTGTCATCAGGCTGGTCACCATC
Celera SNP ID:            hCV27507088
SNP Position Genomic:     87743
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:1960):
TTTACTTCTGAGTCAAGATTTTTAGAAAGTGAGAGTGTCTTTTTCAATGTTTTATTTTATTCTTCTCTTCTGCTGGCTATGTGCAGATGATGACGTGACC
Y
TAGAAGATGGCAGAGCCACACAATAGAAGGCGTTTGGGTTCCTGAATCACTGTATGAACAGAGCCACCCACAGAATATGAACATCCTCCCTGGACTGTCA
Celera SNP ID:            hCV317630
SNP Position Genomic:     24754
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:1961):
GCCTGCCTGGCCTCTGGGAGAGCCCTCACTGTGTGGCCTGGAGCCTTCCTAACTGTGCATCATCTCCCCAGGACCATCCACCTGACCATGCCCCAACTGG
Y
GCTGCAAGGATCTTATGACCTGCAGGACCTGCTCGCCCAGGCTGAGCTGCCCGCCATTCTGCACACCGAGCTGAACCTGCAAAAATTGAGCAATGACCGC
Celera SNP ID:            hCV25632041
SNP Position Genomic:     97146
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:1962):
TGGTCAGTGACCATCAGAGAGAATCCTATAGTTACATGCTAGGTAATATTTCAGGGATTCCGACACTCCAAATACACACACACACACAAACACACACGCA
Y
TTATGCATATGCACACTGCTTACTGGAGTTACTCACAACTACAGATAAAGCTTTTCACCATATCACTGGGTTATAAACATCACCATGGGAGGTAACACAT
Celera SNP ID:            hCV78310
SNP Position Genomic:     29032
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,10)   total(C,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1963):
AAGAAATTAGTCCATATGAATCTAAAAATGGGTTTCTCTCTAGACTTGGATCTCCCTAGAGGCAGGAGCCAAGTCTTAGGCATCTTCAGCATCTAGCAGA
R
TGAATGGTAAAGAGTAGTCCTCAAAGGTGCTCATGGAACTATTACTGAACTTTCTTCATCCTAGCATCCCATGCACAGATGAATGATAAGAAAATAAGCA
Celera SNP ID:            hCV78311
SNP Position Genomic:     29857
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:1964):
CTAGCCTGGCCAACACGGTGAAACCCCATCTCTACTAAAGATACAAAATGAGTCGGGCGTGGTGGCGCATGCCTGTACTCTCAGCTGCTTGGGAGGCTGA
R
GCAGGAGTATCACTTGAACCTGGGAGGCAGAGGTTGCAGTGAGACGAGATCGCACCACTGCACTCCAGCCTGGGCAATAAGAACAAAACTCCGTCTCAAA
Celera SNP ID:            hCV26885251
SNP Position Genomic:     26632
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:1965):
CTGAACTTTCTTCATCCTAGCATCCCATGCACAGATGAATGATAAGAAAATAAGCACATGTTGGGGATTTAAACACAACAATAAACAAAAACAGCTTTTA
Y
GTCTTCTAGACCCAATATTCTCCTTATTTCAGGTGTCTGTGAGGATTCCTGCTGTTCACCTCAATCACCCTTGAGCCTGTGTGCCCTCAGGCTCTGCCTG
Celera SNP ID:            hCV78312
SNP Position Genomic:     30002
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,14)   total(C,14|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1966):
GCCAGGCTGGTCTCAAACTCCTGACTTCAGGTGATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCTGGCCTAAAGA
Y
CACCTTTTGAAGCTGCATCCCTAACTCCTGCCTCTCATCACAGATGTAAATTCCTGATTCCACTGGTGGGGTTGGGGAGGGATGGGTGTCTCTGTGCTTA
Celera SNP ID:            hCV26885252
SNP Position Genomic:     18767
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1967):
CAAGGAAAACTTGGAACTTCAAGGATCCATCATGGGATGCAGGACAGTAGGCTCCACCCCTCTTCCTGCTTTCCAGTAAATGATGTTCAGGGCTCACATG
Y
CTCTTCCAAGGCATGATGTGGGGTTGCAGTTCTGATCCCAGCAGAGAACAAGGCTCCTGTGAAACAATTAGTTTTGGCTCAGAGGCAAAAAATGGAAACC
Celera SNP ID:            hCV26885180
SNP Position Genomic:     83841
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1968):
TGTGTGCCCTCAGGCTCTGCCTGGGAGCAGGGACAAGGGCCAATGCATTTGAGAAGGGTTTTAGAGGAGAGAGAGTGAAAGTAAAAGACTTCTAGTTATC
R
ACTAACCAGAAACTGTAGCAGTCAGAATGTTTTATCCTCATGCATTTGGCATAAATTATATTTTGGATGTGTAAAAATTCAAGTAACATCAACTCTTCGG
Celera SNP ID:            hCV78313
SNP Position Genomic:     30180
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:1969):
CATATCTGTTGGAGACCATTCAGCCTATTGAGTGGTAGGCACTGGGGAGGGGGTGCATTTTAAAAGATTACAAAGTTGAATCAGAACCAAAAAAACCACC
W
TTTTTTTTAGACGGAGTCTCACTCTGTGGCACAGGCTGGAGTGCAATGGCATGATCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTTTAAGTGATTCTC
Celera SNP ID:            hCV26885253
SNP Position Genomic:     18471
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1970):
AAAAAAGAAAGAACAGGCTGAGAATGGTGGCTTATGCCTGTAATCCCAACACTTTGGGAAGTTGAGGTAGGAGGATCACTTGAGACCAGTAGTTCAAGAT
M
AGCCTGGGCAACATAGCAAGACCCTATCTCTACAAAAAATAAAAATAAAAAAATTAGCCAGATATGGTAGCATGCACCTGTAGTCCTAGTTACTCTGGAG
Celera SNP ID:            hCV26885181
SNP Position Genomic:     83295
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1971):
CGACTAACCAGAAACTGTAGCAGTCAGAATGTTTTATCCTCATGCATTTGGCATAAATTATATTTTGGATGTGTAAAAATTCAAGTAACATCAACTCTTC
R
GAGTCCAAGATGTGGCTTGTGGCTCACCATTAAAGGGGCTCATTTAATTTGAAAGGTTCAGGGCAGGTGAGTTCCTTGTAGGGGGGAGAGGAAGCAAAAT
Celera SNP ID:            hCV78314
SNP Position Genomic:     30279
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:1972):
TCACTTCCACATTTTCAGTTATCTTTATAACAATGCCCCACTCTTCTGTACCAATTTTCTGTATTAGGCTGTTCTTGTACTGCTATAAAGAAATACCTAA
S
ACTAATTTACAAAGAAAAGAGGTTCAATTGGCTTTACAAAGAAGCATGGTGTATTCCCTAGAAGTTAACTTAACTCCTTGACTTCTAGGGAGACCTAGGA
Celera SNP ID:            hCV26885254
SNP Position Genomic:     17824
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,6)   total(G,6|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1973):
CTCGAAAAAGCTTTTTCTTTCTCTGCTATATAGCCAGGCTGCAAATTTTCCAAATTTTTATGCCCTGCTTCCCTTTTAAATGTATATATTCCAGCTTTAA
S
TCATATCTTTGCTCCCATATCTGAGTATAGGTTGTTAGAAGCAGCCAGGTCACATCCTGAATGCTTTGCTGCTTAGACATTTCTTCTTCCAGATACCCTA
Celera SNP ID:            hCV26885255
SNP Position Genomic:     17334
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,9)   total(G,5|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1974):
TAGGGGGGAGAGGAAGCAAAATCAAGCAAACCAAGATGATGAGAGGTTTCTGTTGTTACGTGGAATACGTAGAAGATCTAACCTAGAAACATCACATGCC
Y
GCTTGAGTGAGCAATCTGCAAGTCATCTATGGATGGTGAAGGAGGACAAAGGAGCCAACACAAATAGCTAACATTCTAAAGAATCCCAAAGAGTCCAACG
Celera SNP ID:            hCV78315
SNP Position Genomic:     30458
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;JBIC-allele(C,575|T,914)   total(C,575|T,914)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1975):
ATATACGATGAACAAGTCTAGAGATCCAGCGTACAACATGAGGACTATACTTAAAAATGTCACATTGCACTTGGGATTTTTGCTAAAAGAGTAGACTTTA
Y
GTGTCCTTGCCACCTAAATGAGTAACTGTGAGATGATGGATATGTTAATTTTCTTGACTACCATAATCATTTTACTATCTTCATATCAAAATATCATGCT
Celera SNP ID:            hCV26885182
SNP Position Genomic:     83059
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:1976):
AGTACCCCAGTGGGGACTCTGTGCGAGACCTTGAACCTCACATTTCCCCATCTGCATAGCCCTAGTAGAAGTTCTCTGTGAGGGCTCTGTCCCTGCAGCA
R
GCTTTTGCCTAGGCATGCAGGCTTTTCCATACATCCTCTGAAATCTAGGTGGAGGCTGCCAAGCCTCATTCAGTCTTGCACTCTGTGTGCCTGCAGGCTT
Celera SNP ID:            hCV26885256
SNP Position Genomic:     16784
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1977):
GGGGTTGGGGTGCCAACCCTCCTGCATTGTCAAAAAATCTTGTATTCCCTAAAGCTGAACTCCGAATAGCCTACCATTGACCAGAAGTCTTATCGATAAC
R
TAAAGAACCAATTAACATGTTTTATAATTATTTATATTATATACTGTATTCTTACAATAAATAAGCCAGAGAAAAGAAATGTTATCAAGAAAATCATAGG
Celera SNP ID:            hCV78316
SNP Position Genomic:     31510
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:1978):
AACATGGATGACTGGAAGACATTATGCTAAATGAAACAAGGCAGATACAGAAAGGAAAATACTGCATGACCTCATTTATATGTGGAATCTTTTTTTTTTT
T
AAAGTGAATATACAGAGATAGAGAATACAACAGTGGTTACCAGGAGTTGAGGAGGAGAGCAGGGAGGAGATGTAGGTCAAATGATACAAAGCAGCAGATA
Celera SNP ID:            hCV26885183
SNP Position Genomic:     82859
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1979):
TGTCCTACATCCAGGGAACACTGGTACAAAGGGTGGGATCCCAAGGCCTTGGGAAGCTCTGTCCCTGTGACTTTGGCTGCTGTCATGGGTTGTTGAGTAC
C
TGTGGCTTTTCCAGGCTCAAGGTGCAAGCTGCCAGTGGATCCACCATTCTTGGGTCTGGAGGATGATGGCCGCCTTCCCACAGTTCCACTAGGCAGTACC
Celera SNP ID:            hCV26885257
SNP Position Genomic:     16589
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,7)   total(C,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1980):
CAACATGGATGACTGGAAGACATTATGCTAAATGAAACAAGGCAGATACAGAAAGGAAAATACTGCATGACCTCATTTATATGTGGAATCTTTTTTTTTT
T
TAAAGTGAATATACAGAGATAGAGAATACAACAGTGGTTACCAGGAGTTGAGGAGGAGAGCAGGGAGGAGATGTAGGTCAAATGATACAAAGCAGCAGAT
Celera SNP ID:            hCV26885184
SNP Position Genomic:     82858
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,8)   total(T,8|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1981):
GTCCTTCTCACACTGCAAAATATAATTATGCCTTCCCAATAACCCCCAAAGTCTTAAGTCATTCCAGCATTAACTCAAAATTCCAAAGTCCAAAGTCTCA
Y
CTGAGATAAGGCAAGTCCCATCACCTATGAGCCTGTCAAATCAAAATCAAGTTCCAAGATATACAAATTCCATTTTATACTTCCAAAATACAATGGGAGT
Celera SNP ID:            hCV26885258
SNP Position Genomic:     16260
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:1982):
AAAAGCCCTCAACAGATTTCTGTTTGTCTCATTGGTCAGAACTATCTTACTTGACCACTAATGGTTACAGAGGAGAGCAGTGATGCAGGATTTTTCTCGG
Y
CCCTTTGCCAGTCAGGGACCTCTTGCTGGTGATGCTGGAGGCCTTGCTTGGGGCACACTACCTGTCCCTGGAGGTGCCTCACCCAATCGGCCCCCCTGGG
Celera SNP ID:            hCV26885185
SNP Position Genomic:     80368
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:1983):
CTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCTATGATTCCTTTTATATAAAATATTCAGAATATGTAAATAGAATCTATAGAGAAA
R
TAGATGAGTGGTTGCCTGGGGCTGGGGGAAATGGGTACAGGGTTAACACTGTTAATGGGTAAAGGGTTTCTTGTTGGAGTGATGAAACATTCTAACATTA
Celera SNP ID:            hCV26885259
SNP Position Genomic:     10892
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:1984):
ATTCTTTGCTTGCTGGCTTTTGGTCCTTACACTTGTTGCCTCATGGTTGCAAAATGGCTGTTTTGTCTCCAGACATTACATCAACATTTGAAGGAGGAAG
M
AGGGTTAGTGTCTGAGCCACTGACTCTGCTGATAAAAGGACAGAGAAAGCTCTCCCAAAAGCCCTCAACAGATTTCTGTTTGTCTCATTGGTCAGAACTA
Celera SNP ID:            hCV26885186
SNP Position Genomic:     80211
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,12)   total(A,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1985):
CCGAAAAGTGAAAGGTATACCAGCTTGCTCATTTCATGGTGGCATTGTTTACATTAAAAAAGGTTGGAAAGCACTTAGTGCCCTCTGTTGGGGGAATGGT
R
AAGAAAATTATGGTCCAGCTAATCATGAAGTGGAACAGTGTACAGCCATAAAACGGAACAAGGAAACTCTGCATACACTGATGTGGGAAGGTCCCTGGGA
Celera SNP ID:            hCV9614794
SNP Position Genomic:     58712
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,11)      total(G,2|A,11) ;(G,-|A,-)   Caucasian(G,4|A,80)   African-American(G,10|A,74)   Asians(G,10|A,74)   total(G,24|A,228)
SNP Type:                 INTRON


Context             (SEQ ID NO:1986):
TTCTATCATTCTTTGCTTGCTGGCTTTTGGTCCTTACACTTGTTGCCTCATGGTTGCAAAATGGCTGTTTTGTCTCCAGACATTACATCAACATTTGAAG
R
AGGAAGAAGGGTTAGTGTCTGAGCCACTGACTCTGCTGATAAAAGGACAGAGAAAGCTCTCCCAAAAGCCCTCAACAGATTTCTGTTTGTCTCATTGGTC
Celera SNP ID:            hCV26885187
SNP Position Genomic:     80204
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1987):
CATTTCCTAGAAGATGAGAACTAGATCTTCACCCAGACCTTGCTTCCCTATCCATCCCCTCCCAAGGTCATTGGTAAGCCTGACATCAGGTGAGGGTCTC
M
CTTTCTTCATCCAGGGACTTGTCCATCCCTGGAACACTCCTAGTTTCACCCCTGTCCTAGTGGGCACTCATTCATGAACCATAACAAATCTTTTCTTCAG
Celera SNP ID:            hCV9614795
SNP Position Genomic:     59800
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:1988):
ATGCTTTGCTTCCTTTTTAAACATAAGTTCCTATTTCAGATCATTTCTCTCAAGTTCAAAGTTCCCCAGATCCTAAAGGCAGGGGTAAAATGCTGCCAGT
Y
TCTTTGCTAAAGCATAGCAAGAGTGACATTTGCTCCAGTTCCCAATAAGTTCCTTATTTCCATCTGAGACCACTTCAGACTGAACTTCATTGTCAACATC
Celera SNP ID:            hCV26885188
SNP Position Genomic:     79715
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,14)   total(C,2|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1989):
AAATCTTCTAAAATTGACTGTGGTGGTGGTTGCACAACTCTAAATATGCTAAAAATCATTGAATTGTACACTTTAAATAGGTGAATTGTATGTACAGTAT
M
TGAATTACATCTCAAAGCTATCTTAAAAAGATAAATAAGCTCTGTGCCTCATTTTGCCTCCTACAGTGTTTCGTAAAGTTGTAGTACTAAAAGGGAGATT
Celera SNP ID:            hCV9614796
SNP Position Genomic:     63712
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|C,6)      total(A,4|C,6) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:1990):
CATTACTTATGCAAATTTGTGCAGCTGGCTTGAATTTCTCCCAAGAAAATGGTTCTTTTATTTTCTACCCCATCATCAGGATGCAAATATTCAAAACTTT
Y
ATGCTTTGCTTCCTTTTTAAACATAAGTTCCTATTTCAGATCATTTCTCTCAAGTTCAAAGTTCCCCAGATCCTAAAGGCAGGGGTAAAATGCTGCCAGT
Celera SNP ID:            hCV26885189
SNP Position Genomic:     79614
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,13)   total(C,3|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1991):
GAATGCATGTGCGCACACATGTGTATACATGTGCATACAGGCAGGCATGACAGGTATGTGCACTGTTTGTGGTTTATTTATACATTGCATGTGTGAAAGC
R
TGTGTTTGCTCACATGTGTGCATGTGTGTGCATGTATGTGTGCATGCATGTGTTTGCAAGTGCTTCTACACACGTGTGTGTTTGAGCACATGTATGCATG
Celera SNP ID:            hCV11677422
SNP Position Genomic:     39505
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,15)   total(G,1|A,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1992):
TTGAGCCCTGAGAGGGTTGGGTCCTGCCGAGCCTCACCTGCAAACCCAGAGCCCTGATTTTTTCCCAGCCCTTAGATGCTCACTACAAAGACTAGTGTAG
A
GACTCCTGTCGGGAGGCTGCCTGAGCTGGGGAAGCTGTCACTCACTTGGCGTAGGCTTTTTCCAGCAAGGCGCTCCAGAACTCGTTGTGGTCGGCAGAGT
Celera SNP ID:            hCV11677425
SNP Position Genomic:     38651
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,8)   total(A,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1993):
AAGTGCTGTCGGCACAGCCAGAATTCCCCTCCGCTTGCCTTCCCAGCTCTTCCAAAGGCCAGATTCATGGCCCAGGGAGAAAAAGGGTCATGAATGTAGC
S
ACTGCTCCCAAAGATGGGCACATCTAGGCTACGACAGGAAAACCACCTCCAACCCCGCTTGAGCCCTGAGAGGGTTGGGTCCTGCCGAGCCTCACCTGCA
Celera SNP ID:            hCV11677426
SNP Position Genomic:     38492
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,9)      total(G,1|C,9) ;JBIC-allele(G,339|C,1154)   total(G,339|C,1154)
SNP Type:                 INTRON


Context             (SEQ ID NO:1994):
TACCTGGAAATGGAATATCCCGGCATAACCAGGGCCAAAGCTTTGGTCCTGGGGGATGACTCTGGCCAGTGCTTTTTGATTAAGCGTAAGGGAGGCGATG
R
CGGCTAATAGCCAGCAGTCTCCTGCAAAATGGAAGCCATAAATCACAATTTTCATTGCTATTTCACAGCAAATAGGAAAACTCTGTGTCAGAAGGGGATG
Celera SNP ID:            hCV1985422
SNP Position Genomic:     41950
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS


Context             (SEQ ID NO:1995):
CTGCTTGAGTGAGCAATCTGCAAGTCATCTATGGATGGTGAAGGAGGACAAAGGAGCCAACACAAATAGCTAACATTCTAAAGAATCCCAAAGAGTCCAA
Y
GGCGTCTCACACCTTGGCTCCAGTGAGGAGGAAGGGCAGGGTCTCCCTTCAGTGTTCTTTACTCCCCACGCATTCAGAGGATGTCACTCAAAAGGTGGGT
Celera SNP ID:            hCV27487140
SNP Position Genomic:     30557
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:1996):
ACATTTTATCATATACGATTATTTATCGATATGTCATATACGACTTTTTAAAAATAAAAAAGAAGCATCCCGTAGGACGGACAATTGATGTCTCTATATC
M
ACGTGCGTAATAGCCCAGATGTTTGAGCCATGCCAGTGTCCGAGGGAAGTGTGAAGCACTAAGTGCTGTCGGCACAGCCAGAATTCCCCTCCGCTTGCCT
Celera SNP ID:            hCV11677427
SNP Position Genomic:     38331
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,9)   total(A,9|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1997):
TCTGCCCGTCTATCATAAACAGCTGTTGCCTTCTTGGCACTGTTATAGGACATGCTTACTTGGGTTTCAGACATATGGCTGCCTGATGCATCAGCTCTGT
R
AATTCCAGCAACTCCCTTTCCAGAGGACCAAGACTGCATACATCAGTGTCAGCACGGGCTGGGCGAGCAGACATTTCATAGCTGCCACCCAAGTGGTTCG
Celera SNP ID:            hCV1985423
SNP Position Genomic:     42255
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,13)   total(G,13|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1998):
ACAGCGAAGTCAGGGAGTCGGGATGGCGCCTGCCCCTCCCATCACCCATGGAGGCTGCATGAGTGGAAGACAAATTTTATTCCAGCCTTGGCTCTCAGTC
M
CTTTCTTGATTTCTACCTCTGTGAGTCCCAGAAAATGGGAGACAATGGCCCATTTTCCCTTTATAGGCTACGATCTCAAAGTTGAGGGGCACTGCACATC
Celera SNP ID:            hCV27487141
SNP Position Genomic:     27992
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,126|A,1375)   total(A,1375|C,126) 
SNP Type:                 INTRON


Context             (SEQ ID NO:1999):
TTACTTGGGTTTCAGACATATGGCTGCCTGATGCATCAGCTCTGTGAATTCCAGCAACTCCCTTTCCAGAGGACCAAGACTGCATACATCAGTGTCAGCA
Y
GGGCTGGGCGAGCAGACATTTCATAGCTGCCACCCAAGTGGTTCGGCAGTACTTGGGAGGGTGGTTAGAAATCTCCCTGCAGCCCCAACCCAGACTCAGC
Celera SNP ID:            hCV1985424
SNP Position Genomic:     42310
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:2000):
GGATGTACTTAATGCTACTCAACTGCACACTTAAAAATGGTAAAATTTATGTCATATACATTTTATCATATACGATTATTTATCGATATGTCATATACGA
Y
TTTTTAAAAATAAAAAAGAAGCATCCCGTAGGACGGACAATTGATGTCTCTATATCAACGTGCGTAATAGCCCAGATGTTTGAGCCATGCCAGTGTCCGA
Celera SNP ID:            hCV11677429
SNP Position Genomic:     38274
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2001):
TGCCGCCTGTGTAAGCAGATATCTGGGAGGATCCATTTATCCGAATCACCTTTATCCAGATTCACTTGTTTTCAGTAGACAACATCAACGTCATCAGAAC
M
TAAAAGCCCATCACACTCAGCTTGGCAGTTTCTGAGTTCACATTTCTGGAAAGCACCGTATGTCACTGGGCTTGGGACATTGTAATATGGCCCTTTCTGG
Celera SNP ID:            hCV1985425
SNP Position Genomic:     42771
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:2002):
AGCTGAAGGTCACACATCCCATGAGCGGGCAGCAGGGTCAGAAGTGGCCCCCGTGTTGCCTAAGCAAGACTCTCCCCTGCCCTCTGCCCTCTGCACCTCC
R
GCCTGCATGTCCCTGTGGCCTCTTGGGGGTACATCTCCCGGGGCTGGGTCAGAAGGCCTGGGTGGTTGGCCTCAGGCTGTCACACACCTAGGGAGATGCT
Celera SNP ID:            hCV11401590
SNP Position Genomic:     86949
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(A,3|G,64)      total(G,64|A,3) ;HYP2(A,3|G,65)   total(G,65|A,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:2003):
GCCTGTGTAAGCAGATATCTGGGAGGATCCATTTATCCGAATCACCTTTATCCAGATTCACTTGTTTTCAGTAGACAACATCAACGTCATCAGAACCTAA
R
AGCCCATCACACTCAGCTTGGCAGTTTCTGAGTTCACATTTCTGGAAAGCACCGTATGTCACTGGGCTTGGGACATTGTAATATGGCCCTTTCTGGCTGT
Celera SNP ID:            hCV1985426
SNP Position Genomic:     42775
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:2004):
GGGGGTACATCTCCCGGGGCTGGGTCAGAAGGCCTGGGTGGTTGGCCTCAGGCTGTCACACACCTAGGGAGATGCTCCCGTTTCTGGGAACCTTGGCCCC
R
ACTCCTGCAAACTTCGGTAAATGTGTAACTCGACCCTGCACCGGCTCACTCTGTTCAGCAGTGAAACTCTGCATCGATCACTAAGACTTCCTGGAAGAGG
Celera SNP ID:            hCV11401591
SNP Position Genomic:     87074
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(A,3|G,64)      total(G,64|A,3) ;HYP2(A,3|G,65)   total(G,65|A,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2005):
TCAGAACCTAAAAGCCCATCACACTCAGCTTGGCAGTTTCTGAGTTCACATTTCTGGAAAGCACCGTATGTCACTGGGCTTGGGACATTGTAATATGGCC
Y
TTTCTGGCTGTTTGACACAGGCAAGAGAGACTCGCCAGGGCTGAACATCGGGAAAGCTAATTCCGAATCGCCCTGGTTCTGGCTTTCTGAGAGGTGTCAC
Celera SNP ID:            hCV1985427
SNP Position Genomic:     42864
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:2006):
GGCCTCAGGCTGTCACACACCTAGGGAGATGCTCCCGTTTCTGGGAACCTTGGCCCCGACTCCTGCAAACTTCGGTAAATGTGTAACTCGACCCTGCACC
R
GCTCACTCTGTTCAGCAGTGAAACTCTGCATCGATCACTAAGACTTCCTGGAAGAGGTCCCAGCGTGAGTGTCGCTTCTGGCATCTGTCCTTCTGGCCAG
Celera SNP ID:            hCV11401592
SNP Position Genomic:     87117
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 40 Africans; 32 white Americans; 2 CEPH individuals(A,22|G,125)      total(G,125|A,22) ;(A,-|G,-)   HYP3(A,22|G,126)   total(G,126|A,22)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2007):
AGTTCACATTTCTGGAAAGCACCGTATGTCACTGGGCTTGGGACATTGTAATATGGCCCTTTCTGGCTGTTTGACACAGGCAAGAGAGACTCGCCAGGGC
Y
GAACATCGGGAAAGCTAATTCCGAATCGCCCTGGTTCTGGCTTTCTGAGAGGTGTCACCAGCAGAGTACAAGCCACCCCCAGCCTTAGCTGGAGCACAGA
Celera SNP ID:            hCV1985428
SNP Position Genomic:     42906
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:2008):
TTTTTTTTTTTGATAGAGATGTGGTCTTGCTATGTTGCCCAGGCTAGTCTAAAACTCCTGGGCTCAAGAGATCTTCCCACCTCCCCCTCCCAAAGCGCTG
Y
GATTACAGGTGTGAGCACTCTACATGACCAGATGTTCTAGTTCTTATTGTGGGTGGCAACAGATCACGGCTGTTCATTTTCTTGTTATTCTTTATAACAT
Celera SNP ID:            hCV1985429
SNP Position Genomic:     43853
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2009):
CTTTCTCTGTCTCCTCCACACTCAGGCCTGTGGCGAACTCCCTTTGTTTCTCTTCTTCTTGTTCATCTTGAAGGGCAGCAGGAGGTGAACATAGTGCCTG
S
GTGGCTCTGGGATGCCATGGGGCAAAACCCCAAGGACAAATGCTCAGAAGCTTCACATGGGTGCAGGGAGATGACCTCTAGGACCCCACCCGGTCCAGGC
Celera SNP ID:            hCV12001371
SNP Position Genomic:     57643
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2010):
AGCCTGTGGTCTGGCCAAGTGATGTAACCCTCCTCTCCAGCCTGTGCACAGGCAGCCTGGGAACAGCTCCATCCCCACCCCTCAGCTATAAATAGGGCAT
Y
GTGACCCGGCCAGGGGAAGAAGCTGCCGTTGTTCTGGGTACTACAGCAGAAGGTAAGCCGGGGGCCCCCTCAGCTCCTTCTCGGCCTTGTCTCTCTCAGA
Celera SNP ID:            hCV11401597
SNP Position Genomic:     87316
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:2011):
AAGTGATTTCTACATGAAATGAACCTGACCTGGCATCTGGGGCCTTCCTGGCCTCTCTTTTCTGTGCTGTTCTTTCTCTGTCTCCTCCACACTCAGGCCT
S
TGGCGAACTCCCTTTGTTTCTCTTCTTCTTGTTCATCTTGAAGGGCAGCAGGAGGTGAACATAGTGCCTGGGTGGCTCTGGGATGCCATGGGGCAAAACC
Celera SNP ID:            hCV12001373
SNP Position Genomic:     57572
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2012):
GATGGCTCCTGCCGGTGTGAGCCTGAGGGCCACCATCCTCTGCCTCCTGGCCTGGGCTGGCCTGGCTGCAGGTGACCGGGTGTACATACACCCCTTCCAC
Y
TCGTCATCCACAATGAGAGTACCTGTGAGCAGCTGGCAAAGGCCAATGCCGGGAAGCCCAAAGACCCCACCTTCATACCTGCTCCAATTCAGGCCAAGAC
Celera SNP ID:            hCV27540832
SNP Position Genomic:     90730
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:2013):
CCCTCCTCTCCAGCCTGTGCACAGGCAGCCTGGGAACAGCTCCATCCCCACCCCTCAGCTATAAATAGGGCATCGTGACCCGGCCAGGGGAAGAAGCTGC
Y
GTTGTTCTGGGTACTACAGCAGAAGGTAAGCCGGGGGCCCCCTCAGCTCCTTCTCGGCCTTGTCTCTCTCAGATGTAACTGAGCTGTGGGCTAGGAGGAA
Celera SNP ID:            hCV11401598
SNP Position Genomic:     87343
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(T,3|C,64)      total(C,64|T,3) ;HYP2(T,3|C,65)   total(C,65|T,3)
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:2014):
AATGCACCTGCCCTCATGCCGGGCCCCAGAGAGGTAAACCCACTGGCCCAGGGCTCCCTCTTACCTGGAAATGGAATATCCCGGCATAACCAGGGCCAAA
K
CTTTGGTCCTGGGGGATGACTCTGGCCAGTGCTTTTTGATTAAGCGTAAGGGAGGCGATGGCGGCTAATAGCCAGCAGTCTCCTGCAAAATGGAAGCCAT
Celera SNP ID:            hCV22273463
SNP Position Genomic:     41889
SNP Source:               Applera
Population(Allele,Count): african american(G,26|T,2)   caucasian(G,37|T,3)   total(G,63|T,5)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:2015):
ACTAATACATCATGCTCTGCTGACTCCATATGTGGCTGGTTTCCTGGATCCGATTCTGACTGATGGTATCTGTTCTCACACTGCTAATAAAGACATACCA
G
AGACTGGGTAATTTATAAAGAAAAAGAGGTTTAATGGACTTATGTGTTCCACGTGGCTGGGGAGGCCTCACAATCATGGTGGAAGGTGAAGGAGGAGCAA
Celera SNP ID:            hCV11678660
SNP Position Genomic:     84670
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,11)   total(G,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2016):
CCATATTGGCCAGGCTGGTCTCAAAACTCCTGACCTGAGGTGATCCGCTCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACACCGCACC
Y
GGCCAATAATACATTTTAGTTCAAGATTAGTGAGAGCTAAGGAGAAATGAGAATGCTGATTGTTCTGAAATTCAGTCTCCACATGAAAACCAGCTGAGGG
Celera SNP ID:            hCV3180409
SNP Position Genomic:     103532
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:2017):
CTATAAATAGGGCATCGTGACCCGGCCAGGGGAAGAAGCTGCCGTTGTTCTGGGTACTACAGCAGAAGGTAAGCCGGGGGCCCCCTCAGCTCCTTCTCGG
Y
CTTGTCTCTCTCAGATGTAACTGAGCTGTGGGCTAGGAGGAAAAGGCCGGGAGGAGGCACGGTGATGACTGAAAAACCTCTCCCCTCTCATAAGACCAGT
Celera SNP ID:            hCV11678662
SNP Position Genomic:     87401
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;no_pop(C,-|T,-)   JBIC-allele(T,171|C,736)   total(C,736|T,171)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2018):
GCCTGGGTGCACAGGTTTGGGGCCCTGGGGAAGTGGTTTTAATGATTAAACCACAAATCTCTGAAGAGGGGAAACGGCAGAAGTGGAATGGGGGTGGTCC
Y
GGAAAGTTCACAAAAACAGAACTCTGTTCCCTTGGATGGGATCCCAAAGTGGCAAGAAGACCCCCAAGTCCCTTCAAAAGCTCCCCACCCCCACCACTAG
Celera SNP ID:            hCV26885260
SNP Position Genomic:     9271
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2019):
CTGTGCTGTTGTAGCACAAAAGCATCCTGGACTATTCATAAACTAATGAGCATGGCTGTGTTGCAATAAAACTTGTTTACACAAACAGATGGTGGTCCAG
Y
CCAGATTTGGCCCATGGGCTGTAGTTTGCCAATCCTTGGAACAGATAAATGTTCATGCTATTATTTGTTTAGTAAGAGTATTCTTTAGTTGCCAGGTTGA
Celera SNP ID:            hCV26885190
SNP Position Genomic:     77390
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:2020):
AATACAGTAGATGTTTCTAAAGCTAATTTTTAAATGAAAGGACAATATATAAGTCTATAGCTAACTCCTCTGTCATGCACAATCTGAGTTAACAGAATAG
W
TTAGGGGTTAGCAAGCTTTTTCTATAAAGGGCCATGTAATAAATATTTCAGGCTTTGCAGTTCATATGTTCTCTGTTGCAACAACTCAACTGTGCTGTTG
Celera SNP ID:            hCV26885191
SNP Position Genomic:     77200
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


Context             (SEQ ID NO:2021):
GGTGGAGTTGGCTTTGGAGGCTAAAAAACAGCCAAAGAAACTTGCACAAAATGATCCACAAAAAAGAAACATGACAAAAATAGCAGGAAAGAAGCCAGGA
S
CCTGTGTGCCCAGCCCCATGTCACCCTCCTGAGGCGGTGTGCACAAGCTGCGTCCTGTAGCGTGAGGAACATTTTCTCATGAAGGCTCTTTTAGAAGGTG
Celera SNP ID:            hCV22272300
SNP Position Genomic:     14054
SNP Source:               Applera
Population(Allele,Count): african american(C,9|G,29)   caucasian(C,7|G,31)   total(C,16|G,60)
SNP Type:                 INTRON;TFBS

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:2022):
ACAGGAATGGAATAATAAAATTATACATTAAATAAGTGTTGTAAATACAGTAGATGTTTCTAAAGCTAATTTTTAAATGAAAGGACAATATATAAGTCTA
K
AGCTAACTCCTCTGTCATGCACAATCTGAGTTAACAGAATAGATTAGGGGTTAGCAAGCTTTTTCTATAAAGGGCCATGTAATAAATATTTCAGGCTTTG
Celera SNP ID:            hCV26885192
SNP Position Genomic:     77157
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,12)   total(G,2|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2023):
CGTGCCACCAAACCTAGATAATTCTTTGTATTTTTTGTATAGATGGGGTTTTGCCATGTTGCTGAAGCTGGTCTCAAACTCCTGGGCTCAAGTGTTTCAC
S
CACCTCAGCCTCCCAAAGTGCTGGTATTACAGGTGTGAGCCACTGTGCCTAGCCAGCAATATTCTTTTTAATCAGTTTTCGATTGGTGAAAAAGTGACTA
Celera SNP ID:            hCV26885193
SNP Position Genomic:     76858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2024):
ATATAGGGTAGGTATCAATAATTACTCATAAAAGATGAGAATTATTGGTTCCCTAGAAGTCATTTTCCCATTCTAGGCATGGTGCCTTTTAGGGGACATA
R
CTCTGACTGAACTTTATATGTCCTCCTTAGTTAGTTACTTAGGGTCTTGATTTCTTCTGGAGGCTGTATTTGTCATTTAAATTTTGCTAGATATTATGCA
Celera SNP ID:            hCV26885194
SNP Position Genomic:     73804
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:2025):
TTATATAGGGTAGGTATCAATAATTACTCATAAAAGATGAGAATTATTGGTTCCCTAGAAGTCATTTTCCCATTCTAGGCATGGTGCCTTTTAGGGGACA
K
AACTCTGACTGAACTTTATATGTCCTCCTTAGTTAGTTACTTAGGGTCTTGATTTCTTCTGGAGGCTGTATTTGTCATTTAAATTTTGCTAGATATTATG
Celera SNP ID:            hCV26885195
SNP Position Genomic:     73802
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,12)      total(G,1|T,12) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2026):
ATTCTGCTGAGATGTAGACATAGTTAAGCAATCACCAGCCGTTATTCTGGAGGTCATGAAATTTGCAACTTTCTCAATTACTCCTATAATTAACATCACT
M
CTCTAGACCCTAAAATTGGCCTTTTCAGATTCCTTTTCAGACTTTTGTATTTCTGAAACCAGGTGACTTTACCTGGACCCACGACCCCTACCTGTGGTCC
Celera SNP ID:            hCV26885196
SNP Position Genomic:     73235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2027):
TTAGCTAATGGGCTTTATCTAGAGAAAAACAAGCTTCTTACATCTTTGTGACAGGAGGCAGTTTTGCAGCTTGGAGGCATGTGCCCACTGAAGGCAGGCT
S
TCACCCTCCCACAGACACTGGGAGCTGGGGCCACTGTCTCTCCCTTGATGTTTGCCTTTCAAGGAGATGGCTCCCGGGTCCTTGAGAAACACATGCCTGG
Celera SNP ID:            hCV26885197
SNP Position Genomic:     71850
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2028):
TCTTGTCTAGTGAGAGGTGAGGGGGTTAAAATATAGGGTATCCTGGCTGGGTACCCTGCCTCACGCCTGAAATCCCAGCAGTTTGGGAGGCCGAGGTGGA
Y
GGATCACTTGAGATCAGGAGTTTGAGGCTAGCCTGGCCAACATGGCAAAAACCCATCTCTACTAAAAATATAAAAAACAAAACAAAACAAAAAAATAGCC
Celera SNP ID:            hCV26885198
SNP Position Genomic:     71137
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2029):
GCGGACTTTATTCAATGGCCAAAGAATGGAGAAGCAGGAGCATGGCCGCAAGTCAACTTCTTGTCTAGTGAGAGGTGAGGGGGTTAAAATATAGGGTATC
Y
TGGCTGGGTACCCTGCCTCACGCCTGAAATCCCAGCAGTTTGGGAGGCCGAGGTGGACGGATCACTTGAGATCAGGAGTTTGAGGCTAGCCTGGCCAACA
Celera SNP ID:            hCV26885199
SNP Position Genomic:     71079
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2030):
GGGTGAGAGAGCAAGACCCTGTCTCCAAAAAAAAGTAAATAATAATAAAAAAAAGAGTGGGGCTATTGGTTAGTGGAAGGAAGACCGGAGAGGTAAAGCT
S
CCCTCTCATCTCATGATATCAAGAGTACCTGCCGTCCACATGCCTTACCACAGCTGATGCTGGCCTTGATCACCTGGCTAAGGTAGTGTTAGTCAGGTGT
Celera SNP ID:            hCV11677432
SNP Position Genomic:     35445
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,11)   total(G,1|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2031):
GGCACATTCCACTCAGAGGCGGCACCTCTGCTTAGTGCGCTCAGGGGGCCTCATGGGAGAGAGAGGATTGCTTCAGAAGGAAAAGGAGCAAGAAACCCAA
S
TGGTCCAGGAGGTGGCTTTACGGAGAAGTGCACGGTGTGGTCTTGAGTCCCATCTCCTGCATCAGAGAATGGCAGAGTTTTGTAGTCGGAAGGGAGGTTG
Celera SNP ID:            hCV27850626
SNP Position Genomic:     54304
SNP Source:               Applera
Population(Allele,Count): african american(C,28|G,4)   caucasian(C,28|G,2)   total(C,56|G,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:2032):
CAAAACTTTGAAAAACAAAGGAGCCAGTAGAATGATTTCCTATTGGATAGCAATGGAGGACTACGGGGTCGAGGGGAAGGGAGGCAGAGGAAGAGGGGGA
S
AGGTGGGCAGCGGCAGGGAGGATCTCCTGGAGAAGGACCACCTGAATGTAAACCTTTTGAAAAGTCTACATTGTATCTAGAATATGGCATACATGGGGGA
Celera SNP ID:            hCV1985430
SNP Position Genomic:     44180
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,8)   total(G,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2033):
ACCTGGTCAATTCCCGTTACACTGTAGGCATGACCCTTAATAAGACCAAACGGCGTCCGGGCCTCAGATTCTGCAGCACTTCTGGTCTAAAACATGGAAA
R
AGCAGAGTCACACCCACCGTCTAAGTCAAGCCTCCCCTGCTGGATCAGACCCAGCTACATGCCTGGCCCGGTCACAACCTCCAGCCCCTTCTGCTGCCCC
Celera SNP ID:            hCV11677435
SNP Position Genomic:     32318
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,15|G,25)   total(A,16|G,62)
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:2034):
CAGCTAGAAATAAGTCAGGGTCCACACAAGCTTGCAGTGGTTTGTTCTCTAGGCTGATTTCACTGGTATTTTTTAAAAGAAAGTCTCTCGCTCTCTCACT
Y
TCTCTGTCTTTCATAGATAGAACAAAGGTAAACCCAGCCCAGTTGGATTAAGTCCTAAAATGCAGGACCCAATTTGAGTGACTTGAGGTGCACTCAGGTT
Celera SNP ID:            hCV1985431
SNP Position Genomic:     45416
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:2035):
ATTTGAGACCAGCCTGAGCAATATAGCAAAACTCTGTCTCTACAAACAAACAAATAAACAAACAAACAACAAAAAATAATGCTTTCTGTACATAAACCAG
S
ACATAAGTAATATAATTTCATGGGATGATAGTCACTATAGAGAAGATAGGGGTGGTGCAGTGGAATAAGGTGAGATAGGGTTGGTGGGCAGGGCTCTTCT
Celera SNP ID:            hCV16243230
SNP Position Genomic:     69330
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:2036):
GGTGTAGGAGAGCCCGACCAACGCTGCTGGGTGTCACTTTCCTCTGTAAACTCCGGGGCTGTGAGCCCCACATCACAGGCATGTCTGACTCTAGAGGAAC
R
GAGGTGCAGGGGCTTGAGGCCACTGGACTCCATTCAGAGGGAGTGAGGAAGCAGAGGCCGAAGCAGTGTTGTTCCCCCAGCCCCGTGCCTCTTGGGTCCT
Celera SNP ID:            hCV1985432
SNP Position Genomic:     45896
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,19)   caucasian(A,22|G,16)   total(A,39|G,35)
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:2037):
ATTGCTTGAGGCCCAGAATTTGAGACCAGCCTGAGCAATATAGCAAAACTCTGTCTCTACAAACAAACAAATAAACAAACAAACAACAAAAAATAATGCT
Y
TCTGTACATAAACCAGCACATAAGTAATATAATTTCATGGGATGATAGTCACTATAGAGAAGATAGGGGTGGTGCAGTGGAATAAGGTGAGATAGGGTTG
Celera SNP ID:            hCV16243231
SNP Position Genomic:     69313
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:2038):
ACAACCTGGAGGAGTGACAGACACCAGGGGCGCCTGCCCAGGGAGAGCTATGTGTGGCATTAGTGTCTAAAATACTCAAGAAAGCTTGGCCAGGAGAATT
K
CTGAAGAACACGGGGTGTTTTTAGATGCGCCAAAACCCCAGGCCCGGCAGAAGTAAGGACCTCCCAAATGCTGGCCTGTCCTCTGCCAGGTCTCACACGT
Celera SNP ID:            hCV1985437
SNP Position Genomic:     48161
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2039):
GCGCAGGAGTTTGCAGGTGGCTCTGAGCTGAGCCCAGAAGGACAATGCAAACCAGGACCATGTCAGTGGGCCTCAATAGAGTCCCAGGAATAGCCTGCCC
S
GCTCAGCAGTAGGGTTCAGGGTGGGCCATTTAACTTCTCACGGCTGCATCCTCATCTGTCACCAGCTTAGACATTCTGGGCTTGTTGCAGAATGTGCCTG
Celera SNP ID:            hCV1985438
SNP Position Genomic:     48556
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2040):
AGGAATAGCCTGCCCCGCTCAGCAGTAGGGTTCAGGGTGGGCCATTTAACTTCTCACGGCTGCATCCTCATCTGTCACCAGCTTAGACATTCTGGGCTTG
Y
TGCAGAATGTGCCTGCCCGAAGGGAAACCCAGGAGTCCCCCAAGCCCTCCCTGTCTTGATTGCCCAGCCCCTGCCAGGGGATAGCCCTGGCAAGCAATGC
Celera SNP ID:            hCV1985439
SNP Position Genomic:     48641
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:2041):
GTCCCTGAGCAGAGGGTCTGGATTGGCCATACCTCATTTATATTGAGATGAATGAACTCCTTGTTCTTTGTACTGAGAGCCTGGAACACCCCTGATAGGA
R
AGAAGGGGGAAAGGCATCCTTTTAAAGACAATTCCTTTACCAAGTTTGTTTCCCAGCGACCAAAGGGCCTTCCAGTGGAGCCTGTGGGGAAGCTGCTCCA
Celera SNP ID:            hCV155818
SNP Position Genomic:     3343
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,9|G,29)   total(A,9|G,65)
SNP Type:                 INTRON;hmCS

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;hmCS


Context             (SEQ ID NO:2042):
AAAAAAATGTATTTCAGAATTTACAGGCCCATGTGAGATATGATTTTTTTAAATGAAGATTTAGAGTAATGGGTAAAAAAGAGGTATTTGTGTGTTTGTT
K
ATTGTTCAGTCAGTGAATGTACAGCTTCTGCCTCATATCCAGGCACCATCTCTTCCTGCTCTTTGTTGTTAAATGTTCCATTCCTGGGTAATTTCATGTC
Celera SNP ID:            hCV15868880
SNP Position Genomic:     86260
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,246|G,1237)   total(G,1237|T,246) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2043):
AATATTGAGACAATGAAAGATCTGGTTAGATGGCACTTAAAGGTCAGTTAATAACCACCTTTCACCCTTTGCAAAATGATATTTCAGGGTATGCGGAAGC
S
AGCACCCCAGTCTGAGATGGCTCCTGCCGGTGTGAGCCTGAGGGCCACCATCCTCTGCCTCCTGGCCTGGGCTGGCCTGGCTGCAGGTGACCGGGTGTAC
Celera SNP ID:            hCV27859426
SNP Position Genomic:     90614
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:2044):
AGCCTCCATGGGGACCATGACAGCCTGGAAAGCACAGGCCTGTGTGCCCTGCCCTCACGCTGGGGTCTGGCTAATACAGCAGCGGCTGCACCATGTCTGG
Y
GACCTGGTAGCTGTGTCTGGACTGAAGACAAACACTGGCTCAGTTTTAACCAAGTTCTAGACTAGCTTCAGATTTCCCCAGAAGCTCAGGGGCCATGGAT
Celera SNP ID:            hCV11677446
SNP Position Genomic:     28371
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,10)      total(C,6|T,10) ;JBIC-allele(T,254|C,849)   total(C,849|T,254)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2045):
ACCAGCAGGGACTGACTTTTAACAGATCAGTTATTTAAGCTTGTCCTCTGTGCCTGGGATGGTTTTAGGTACCTGTCTGCATTCACTGTGTTAATACAGT
R
TAGTCCTCAAATACCGTTGGTCCTTGAACAACACAGATCTGAACTATGTGGGGCCACTTCTTGGATTTTCTTCCACCTCTGCCACCCTTGAGACAGCAAG
Celera SNP ID:            hCV16243241
SNP Position Genomic:     68548
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:2046):
CCTCTGCCCACTCTGCACTCCTGCAGACTCAGAGGCAGCTCTGGGGCCTGGCACATTCCACTCAGAGGCGGCACCTCTGCTTAGTGCGCTCAGGGGGCCT
M
ATGGGAGAGAGAGGATTGCTTCAGAAGGAAAAGGAGCAAGAAACCCAACTGGTCCAGGAGGTGGCTTTACGGAGAAGTGCACGGTGTGGTCTTGAGTCCC
Celera SNP ID:            hCV1985447
SNP Position Genomic:     54255
SNP Source:               Applera
Population(Allele,Count): african american(A,15|C,17)   caucasian(A,19|C,13)   total(A,34|C,30)
SNP Type:                 INTRON

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:2047):
CAGGGGGCCTCATGGGAGAGAGAGGATTGCTTCAGAAGGAAAAGGAGCAAGAAACCCAACTGGTCCAGGAGGTGGCTTTACGGAGAAGTGCACGGTGTGG
Y
CTTGAGTCCCATCTCCTGCATCAGAGAATGGCAGAGTTTTGTAGTCGGAAGGGAGGTTGGTGAATGAAAGCAGGATGCATTATGTGAACACAGCTGGCAC
Celera SNP ID:            hCV1985448
SNP Position Genomic:     54345
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,15)   caucasian(C,17|T,11)   total(C,34|T,26)
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,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2048):
CAACTGGTCCAGGAGGTGGCTTTACGGAGAAGTGCACGGTGTGGTCTTGAGTCCCATCTCCTGCATCAGAGAATGGCAGAGTTTTGTAGTCGGAAGGGAG
S
TTGGTGAATGAAAGCAGGATGCATTATGTGAACACAGCTGGCACAGCTCCTGCACAGGCAATCCCATAGTGATTCAGCACTGGGGTCAGCAAACCTTTTC
Celera SNP ID:            hCV1985449
SNP Position Genomic:     54401
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,4)   caucasian(C,14|G,6)   total(C,22|G,10)
SNP Type:                 INTRON

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:2049):
TACATGGTGGCTGGCAAAAGAGAGAAAGCATGTTCAGGGGAACTCCCCTTTATAAAACCATCAGATCTCATGAGACTTATGCACTATCACAAGAACAGCA
Y
CAGAAAGATCCACCCTCATGATTCAATTACCTCCCACTGGGTCCCTCCCATGACACATGGGAATTATGGGAGCTACAATTGGAGATTTGGGTGGGGACAC
Celera SNP ID:            hCV27878017
SNP Position Genomic:     84881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2050):
TGACTCTAGAGGAACGGAGGTGCAGGGGCTTGAGGCCACTGGACTCCATTCAGAGGGAGTGAGGAAGCAGAGGCCGAAGCAGTGTTGTTCCCCCAGCCCC
R
TGCCTCTTGGGTCCTCAGGGACCCCATGCTGCAGTTGCTTGCCTGTCCCAGTGACTCAACCTCCCTCTCGCCATGCTCCATCCACTTACACTCACCCAGC
Celera SNP ID:            hCV22271885
SNP Position Genomic:     45981
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(A,18|G,22)   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:2051):
AATTTATGTCTCCCATGTCAGTACCTTATATAGGGTAGGTATCAATAATTACTCATAAAAGATGAGAATTATTGGTTCCCTAGAAGTCATTTTCCCATTC
Y
AGGCATGGTGCCTTTTAGGGGACATAACTCTGACTGAACTTTATATGTCCTCCTTAGTTAGTTACTTAGGGTCTTGATTTCTTCTGGAGGCTGTATTTGT
Celera SNP ID:            hCV27878018
SNP Position Genomic:     73777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2052):
TACAAAGCATGAAAATGAGGCCGTAGATGCAAAAGCTTAAAAGGGTGACCCATACCTCAAAAGTTCTCAGTAAGTGGCAGCATTTTATTATCGTGGCTAT
Y
ATTTTGCCAGTTATATCTTAACAGGTATAAATATTGAAACCTCCTTAGCGAAAATTATAACGGTGAGCAAATTATGACAGCGGAGGAGATCTGACCTAAC
Celera SNP ID:            hCV27878019
SNP Position Genomic:     72857
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2053):
GGAGGGAGTGCATTCTCAGGATTTACAGCCTCATCATTCTTCCTGCCCAATGTCTGCCCACAGAGCCCTGGGTCCATCTTTCCTGCAGAGCTCATGGCAC
Y
GGACTTCTCCATGACTTTGTCTTAGCGTCTAATCCTGCTCCCAGCTCAGCCCAGTGCAGGGCAGGAGCACGATGCACATTTGCTGAGTAAACATTGAACC
Celera SNP ID:            hCV29269200
SNP Position Genomic:     57045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2054):
TACCATGTATTTAAGGCTGGACACATCACCACTCCCAACCTGCCTCACCCACTGCGTCACTTGTGATCACTGGCTTCTGGCGACTCTCACCAAGGTCTCT
R
TCATGCCCTGTTATAATGACTACAAAAGCAAGTCTTACCTATAGGAAAATAAGAATTATAACCCTTTTACTGGTCATGTGAAACTTACCATTTGCAATTT
Celera SNP ID:            hCV15868890
SNP Position Genomic:     86542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2055):
GAATTTTCTATTTTTTTTTTTTTTTTTTTATACGTGGTCCCAGCACAGACTAAGGAATCCAACTATCATTGGGCAAGCCATGCTAGGTATGCATGCCTTT
R
GGGCTCTGCAGGGGATAGCGCTATGCAGGGATGGTTGAGAGCTGGTTTTGGGGTTGAGACACGTGGGAAATACTTGGACTTTGGGCTGAGCCTGTGGTGC
Celera SNP ID:            hCV9616200
SNP Position Genomic:     89709
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2056):
AGCCCTCACTGTGTGGCCTGGAGCCTTCCTAACTGTGCATCATCTCCCCAGGACCATCCACCTGACCATGCCCCAACTGGTGCTGCAAGGATCTTATGAC
M
TGCAGGACCTGCTCGCCCAGGCTGAGCTGCCCGCCATTCTGCACACCGAGCTGAACCTGCAAAAATTGAGCAATGACCGCATCAGGGTGGGGGAGGTATG
Celera SNP ID:            hCV9616201
SNP Position Genomic:     97166
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Salt Lake City(A,1|C,178)   Salt Lake City (hypertensive)(C,71|A,-)      total(A,1|C,249) ;(C,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:2057):
TTAAAAAAAATTGTTTTTAATCATCAACATTATTTTAATGTTGGGAGATAGTGAGGAGGTAGTTATGATGAGTCCTTTGCTACTCATATGTAAGATGAGA
Y
TCAGAGCTAATAATCATTGTAATGATGATAATAATAGTATCAGTAATAGTAATAATGTGACAATAGCTGTAATGTACTGGAAACCTTCTGTGTGCTAGAC
Celera SNP ID:            hCV29269201
SNP Position Genomic:     52727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2058):
AACTTCTGCTTTTTTAGTTTGGAAATGTCCTTTTTCTTACTTAGCAGAGCATGACCTACTAATCCTGTCTGTAAAGTGCAACCCCACGTGATCTGCCAGT
R
CCGTGACCTCACACTGCAATTGGCCATATGCAGAGAACCAAAAACAATCACAGCGTGGCTTCGGTGAGGAAGGTGCCTGGGAGCTTTCACCCCAACTCCG
Celera SNP ID:            hCV29269202
SNP Position Genomic:     52192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2059):
GCTGTTCACCTCAATCACCCTTGAGCCTGTGTGCCCTCAGGCTCTGCCTGGGAGCAGGGACAAGGGCCAATGCATTTGAGAAGGGTTTTAGAGGAGAGAG
R
GTGAAAGTAAAAGACTTCTAGTTATCGACTAACCAGAAACTGTAGCAGTCAGAATGTTTTATCCTCATGCATTTGGCATAAATTATATTTTGGATGTGTA
Celera SNP ID:            hCV29269203
SNP Position Genomic:     30153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2060):
ACTTGTCAGCATCAAACCGAAGGAAAAGGTTCTAAAGGGTGGAGAGCAGAAGCCTTGAGAAGGAGCGTGCCTGAAAGGCATCGCTGATGGCAGTAAATGG
R
TGACAGCCAGCCCGGGGGAGCTACCCTCTAGGGGCCGCAGAGGCCACAGTTGGACTGGGCCTTCCAAAAGAAGTCGGTCTCCCTTTTGTCTTCCTTTTCG
Celera SNP ID:            hCV29269204
SNP Position Genomic:     8715
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2061):
CGCTGGGCAGGCCTTGGTGGCCCTGGTCCCAGGAGGGGAGACTTCTGAAGGGGGAGACAAAGATGCCCTCCATGCTGGTTTGTGCGTCCAGCTTTTATCT
Y
GGAGAATTCTAACTTTGACAAAAAGTAAGTGAGTTGTAGAGTACAGATTACACTTTAAACTAGATGATGTCAATATAGACTGCAAGGATGGGGGCCCTCC
Celera SNP ID:            hCV1985520
SNP Position Genomic:     51488
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2062):
AAATCAGCGATGTGTCACCCCCAGTCTCCCACCTTTTCTTCTAATGAGTCGACTTTGAGCTGGAAAGCAGCCGTTTCTCCTTGGTCTAAGTGTGCTGCAT
K
GAGTGAGCAGTAGAAGCCTGCAGCGGCACAAATGCACCTCCCAGTTTGCTGGGTTTATTTTAGAGAATGGGGGTGGGGAGGCAAGAACCAGTGTTTAGCG
Celera SNP ID:            hCV9616207
SNP Position Genomic:     98500
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:2063):
CACCCATCACCTTGGGCAGGCTCAGCCCTGGTGTTGGGGCTGCTCCTTCAAGAGGGGCAGGGCAATGGATCACTCACATGGACGCTCTTCTTTGTGGAGC
Y
TCCTGCTGTGAATTTCCGAGTTTCCTCTGCCCGGCTTCTCCCACCGTCTGCACCAGACCTTCTTTCCACTAGCCTGACCTCAGGTAGCCTCTCAAACTCT
Celera SNP ID:            hCV11677453
SNP Position Genomic:     24238
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:2064):
CAAATGCACCTCCCAGTTTGCTGGGTTTATTTTAGAGAATGGGGGTGGGGAGGCAAGAACCAGTGTTTAGCGCGGGACTACTGTTCCAAAAAGAATTCCA
R
CCGACCAGCTTGTTTGTGAAACAAAAAAGTGTTCCCTTTTCAAGTTGAGAACAAAAATTGGGTTTTAAAATTAAAGTATACATTTTTGCATTGCCTTCGG
Celera SNP ID:            hCV9616208
SNP Position Genomic:     98629
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:2065):
GGGTTTATTTTAGAGAATGGGGGTGGGGAGGCAAGAACCAGTGTTTAGCGCGGGACTACTGTTCCAAAAAGAATTCCAACCGACCAGCTTGTTTGTGAAA
M
AAAAAAGTGTTCCCTTTTCAAGTTGAGAACAAAAATTGGGTTTTAAAATTAAAGTATACATTTTTGCATTGCCTTCGGTTTGTATTTAGTGTCTTGAATG
Celera SNP ID:            hCV9616209
SNP Position Genomic:     98651
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:2066):
TTACGCCCCAGGGCCATGGGACTTGCTCGTATCTGCAGTTAACACAGGAACAAGCACGGTACCAGAATTCCCCATCATCCAGAGCAGTGTGACACAGACG
Y
TTCTGCTCAGCTGGACCAACAGAACGCCACTCCGGAGAACTAGGAGTAAACAAAATTGGTGTTCAGGCAGAGGTCATGATGAAGAGCAACAATGGCCTTG
Celera SNP ID:            hCV22272185
SNP Position Genomic:     26895
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,40)   total(C,74|T,4)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:2067):
TGATGGACCGTCACCTCCCATTTGTGGATCGCGTCTTCCTCCAGGGCATCGGGAGTGAGGTTGCAGATCTCCACTTTATCAAAGTGGGCCTTGAAGTCCT
K
AAATGCCATCCTGCAGCAAAGCGGAGAGACACGATGCACAGGAGGGCAAGAGTGAGGGCATCATCCATTCACTCATTCATTAAATCATTCACTTATTCAT
Celera SNP ID:            hCV11677459
SNP Position Genomic:     22505
SNP Source:               Applera
Population(Allele,Count): african american(G,11|T,27)   caucasian(G,11|T,29)   total(G,22|T,56)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,5)      total(G,5|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:2068):
AAATGATGCCCAAGCCACAGAGGTCTGCAGGGAACCTGGCAATGCTTGTGATTTCCCTATGGCCCGCTACCCCCCGGCTCCCTGCGACTCTATGCTGCAA
R
AAGAGTCTCCATGCTCATCCTCAGCCCTTTTGTTCCTGATTTTACAGAAATCTGTAAGATATGATGTAAAGCTCCTAACTCCCCTAAATAAGAAACAGAT
Celera SNP ID:            hCV11677387
SNP Position Genomic:     50936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2069):
CCTGGGCTCAAGTGTTTCACCCACCTCAGCCTCCCAAAGTGCTGGTATTACAGGTGTGAGCCACTGTGCCTAGCCAGCAATATTCTTTTTAATCAGTTTT
Y
GATTGGTGAAAAAGTGACTATTTCTACCTATAATATTCATTATGGATTGGATAAAACATATTGTCTAATTATTTTGGTGTCATTATATTCAGAATTCCCA
Celera SNP ID:            hCV16243255
SNP Position Genomic:     76938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2070):
AGCAGTTTTAAGCCCACACCAAAACTGAGAGGAAGATACAGCAATTTCTCATATACCCCCTACTACCTTCCAGTCTCCCCCATTATTGACATCCCCCACC
S
AGAGTGGTCCATTTCTTACAACCCACGAACCTACATTGACACATCATTATTACTCAACGTCCATAGTTTACATTAGGGTTGGCTCTTGGTGTTGTACATT
Celera SNP ID:            hCV16243256
SNP Position Genomic:     100922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:2071):
GGTCAAAGGGCATGGTGGTGCCCTGCATGGCAGATGGTGGAGAAACTGCACCAGGCAGGTGCCTCAGGCTTTCTGGGTCAGGGGAGAGGGTCAGGTGGCC
Y
TTGAAGTTCTGTTTGCTGTTAGCCTGACTGAGTTAACTGCATGGGTACCTGACTGTCTTTGCTCAGTCTCCTAGTGGACAACCACATTTCCGGAAGGCTT
Celera SNP ID:            hCV12003149
SNP Position Genomic:     72370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2072):
GCTGGGGCCACTGTCTCTCCCTTGATGTTTGCCTTTCAAGGAGATGGCTCCCGGGTCCTTGAGAAACACATGCCTGGGTAATCAAGCTGACAAAAGTCCT
M
TCTGATCTTCACAAAAATGTTATATACATTTGAAAGAGAGGAGAAAGTGCTTATAATTACAAGTTTTCTAAGGTAAATGCTCTGAGAATAAGAGAGGGAG
Celera SNP ID:            hCV27977661
SNP Position Genomic:     71974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2073):
TTGGCACTGTTATAGGACATGCTTACTTGGGTTTCAGACATATGGCTGCCTGATGCATCAGCTCTGTGAATTCCAGCAACTCCCTTTCCAGAGGACCAAG
W
CTGCATACATCAGTGTCAGCACGGGCTGGGCGAGCAGACATTTCATAGCTGCCACCCAAGTGGTTCGGCAGTACTTGGGAGGGTGGTTAGAAATCTCCCT
Celera SNP ID:            hCV27878020
SNP Position Genomic:     42288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2074):
GCCTTCTTGGCACTGTTATAGGACATGCTTACTTGGGTTTCAGACATATGGCTGCCTGATGCATCAGCTCTGTGAATTCCAGCAACTCCCTTTCCAGAGG
W
CCAAGACTGCATACATCAGTGTCAGCACGGGCTGGGCGAGCAGACATTTCATAGCTGCCACCCAAGTGGTTCGGCAGTACTTGGGAGGGTGGTTAGAAAT
Celera SNP ID:            hCV27878021
SNP Position Genomic:     42282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2075):
CTAGGCATGGTGCCTTTTAGGGGACATAACTCTGACTGAACTTTATATGTCCTCCTTAGTTAGTTACTTAGGGTCTTGATTTCTTCTGGAGGCTGTATTT
S
TCATTTAAATTTTGCTAGATATTATGCATATTACTTAAGTTTTCACACTTAATGGCATAAATCTGTCCCTAGTATTCCCTCTCAATTTTCTAATCTCCTC
Celera SNP ID:            hCV9614613
SNP Position Genomic:     73876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2076):
TGTCCCTAGTATTCCCTCTCAATTTTCTAATCTCCTCTGTAACTGCAGTCTATTTATATGTCCTCAGTAAATATTTGTTGAGTCTGATAGTTTTTGGTTA
Y
GATCATGGACTAGTGCAGTGAGGGCAGTTGGATATTTTCCTCCTGGGAGGACATCTGGGATTCACAATCTGGATGTTTGGTATCATGAGACAATCTCCCT
Celera SNP ID:            hCV9614614
SNP Position Genomic:     74040
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,10)      total(C,1|T,10) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2077):
GTCTGAAAAATGAAGGTCTCCACCCAAGAATGTCTTGTGAGCATGACTCTGGGACCAGTAGAAAACAGCAACTTTTCAATGGTTTGCTTGAGGGAGCGAG
G
AGCAGAGCTAGAAGGGATATGTGCCTTGCCTTGCAGATAAGCTAAGAAAGTGTCCTGCAGCCTGGCGTGGTGGCTCACTCCTGTAATCCCAGCACTTTGG
Celera SNP ID:            hCV11677464
SNP Position Genomic:     20267
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|-,10)   total(G,5|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2078):
CTCAGTGCACTCCTTGCCCTGGGCTCCCTTGAGGGCAAGCCTGGCTGTCCACTGCCCTCCAATGTCCCCTTGGCTTTGTGCTCTGCCCACCCTCCCCAAG
Y
ACAGCTGTGTTTGACAAGAAGGTGGTGCTGAGGAGGAGGGCCGTCCAGCCCCACGGTCCCACGGGCTGCTGAGACGTGCACCGTGTAATGCTGAGTCCCA
Celera SNP ID:            hCV11677391
SNP Position Genomic:     50731
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


Gene Number:                 2
Celera Gene:                 hCG14778 - 146000219965978
Gene Symbol:                 IL8RA
Protein Name:                interleukin 8 receptor, alpha;C-C CKR-1;C-C-CKR-1;CD128;CDw128a;CMKAR1;CXCR1;IL8R1;IL8RBA
Celera Genomic Axis:         GA_x5YUV32VWPT(23702654..23718813)
Chromosome:                  Chr2
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1663):
GCGTCTGCTCACAAACAGAGCTGTGCAGGCAAATTGGAGTGAGGGGTTGGGAATGACTGCTACAGTGGTATTTATTTACTGATTTTTTTATGAAAATGGC
TAAATGTGTATTTTTTTTCTTTTATCTTTTGAGACCGAGTCTCACTCTGCTGCCCAGGCTGGAGTGCAATGGTGCAATCTCAGCTCACCTCTGCCTCCCA
GGCTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGAGTACAGGCACACGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTGGAGACAGGGT
TTCACCATGTTGACCATGCTGGTCTCGAACTCCTGATCTCAAGCAATCCACCCACCTCAGCCTCCTGAAGTGTTGAGATTACAGGCGTGAACCACTGCGC
CTGGTGTGTATTTTTTTTTTTTCTGATTGCAAAAGTAATGCTTATTTTAAAGATTGAGCAACATCAAAAGACATAAGCAAGGAAGCAAATATCTACAATC
CCAAATATCTACAATCCCCAAAGATAACCCCTGCTAACATTTGACTACGTTTCCCGTGTTTTCCCTGTGCATACACATATATGTATTTGATACAAAATGT
AATACTGTACATTCTACTTTTTAATCTTTATTGCCACTTAGCATCCTATTACAAACACTTTTCTATAGCATTAATTATAGCTGTACATTATTTTAAATAG
AAGCATGGTATTCCATTTTATAAATCCAGTATAATTTGTATAAACATTTTTTGAAGAACATTGAGATTATTGCTGTTTTATTATTATAAACAACCCTGTG
ATAAACTTACTTTCCTTCCTTCCTCCTTTCTTTCCTTCCTTCCTTCCTTCTTTCCTTTCTTCCTTCCCTCCCTCTCTCCTCTTCCTCCCTTCCTCCCTTC
CCTCTTTTAGTGGAATTTCAGCATCAAAGGTTCTGCATTTTTTGGTGTGTTCGATACACAGCTCCCCCACGGGACCATGGGGGTTGTGTACAAAATAAAT
AAATAAATAAATAAATAAATAAATAAATAAATAAAGTGATCATAAGAGCCTGGGCAACATAGCAAGACCCTCATCTCTACAAAAGTGTTTTAATTATCTG
GTTGTGGTGGCACACACCTATAGTCCCAGCTACATGGGAGGCTGAGGCAAGAGGATCGCTTGAGCCCAGCAGTTCAAGGCTGCAGTGAGCTATGATCACT
CCACTGCACTCCAGCCTGGGAGACAGAGTGATGTCCTGTCCTGAAAGAAAGAAAAATAAAGGAAAGTGGGCATCTGAGCACTCATTTGAAGGAAATCCTC
CGGAATCGATTCAGAAATCCTCATGAAGKACCCAGAATTCCCTGCTTTGGAGCCAGCCAGACCAGGATGAACTAAAAGTGACTGAACACTTATTATCTGC
CAACCACTTTACATATATTAACTAATTGATCCTGATGCCAATCCTATAAACTAGGTCCTACTTTTATTATCCTTTTGCAGGTGAGAAAACTGAGGCACAG
AGTGAGCATCTAAGCTGCCCAAGGGCACACATCTAGCCAGGGACAGAGTTGGGATTTGTACCAGCTGGTTTGGAGCTCAAGCCTTCCATCATCACAACAG
CTTGGAGAGGTAAGTATTATTATCCCCGTTTTTATAGATAAGGATATTTTGATAAATGTTAAGAGATGCCACAATTTGCCAGTTGACTGGCATTCAGGCT
GCACCTGTCACGGCTTTCTTCGTGGCACTGGGTGTTCTGCATAGAATAGAAAAATGCTTTCCTATCACCACCCAAGATCACAAACTAGTAAAGAAGAGCC
AGTATTTCCATCCTGGTCTGTCTGACTTCAAAGCAAGGAATTCTGGGTCCTTCATGCGGATTTTCTGAATCCATTCCGGAGCGTTTCCTTCAGATGAGTG
CTCAGACGCTCACTTTCCTTTTTTAATTTTTCTTTCTTTCAGGACAGTACATCACTCTGTCTTCCAGGCTGGAGTGCAGTGGAGTGATCGTAGCTCACTG
CAGCCTCGAACTCCTGGGCTCAAGCGACCCTCTTGCCTCAGCTTTCCATGTAGCTGGGACTATAGGTGTGTGCTAGTACATCCAGATAATTAAAACATTT
TTGTAGAGATGGGTGTCACTACGTTGCCCAGGCTCACTTTATTTATTTATTTAGAGACAGGATCTCACTTCATCACCCAGGCTGGAGTGCAGTGGTGTGA
TCATAGCTCATTGTAGCCTTGACCTTTCTGGCTTAAGTGATCCTCCTGCCTCACCCTCCCTAATAGCTGGGACTACAGGCACACACCACCATGCCCAGCT
AATTTTTACTTTTACTTTTTATTTTTAGAGAGATAGGTCTTGCTATGTTGCCCAGGCTTGTCTTGAACTCCTGAACTCAAGCAATCCTCCCACATTGGCC
TCTCAAAGTGTTGGGATTACAGGCATAAGCCACCATGCCTGGCCTATTTATTTATTTGTTAATTTTTTTTAAAAAAATTGAGATTGCAGGAAATAATTTT
TAAATTTAATTTTAGTTTTAAAACGGAGATTGCAGGAAACAAATATGCTCACTTTTCAAGGTCCTTCTCTGGCTTCCTCTGGAGACTGGAGATCAGGGCT
GGGAGGTCTGCACCTGGCTAGGTCACGTGTCTGTCAATGCCCCTGTATCTTTACCACTGCAGCCTTGACCCAGTGTCTCACTGACACTACTCCCTGCTCC
TCTCATCCTAGACCACATTTGGTTTCCAGAACTCTCACAGTTGGGCATGTTTTGGTTGCTGGTAACAGAAAAGTCAACTTAAACTGGTCTTAACAATAAA
GACAATTTATTGGCTCATGGAACCGAAGAAAGTACAGAGAGAAGATGGCCTCTGGGCATGGTTTGTTCAGGACTCTTGGTCTGTTTCTCTGATTCTCTCA
ACTCTGCCTTCTTCTGTGTGTTGGTTTTTTCCTTGGACTGTTTTTGCCATTTATGGTAGCAAAATGGCTGCTGACTGCAACAAGACTATATACTTGCTTT
TCCACATTCATTGAGCAAACATCTGAACTTTGCTCTGACTGGATCATCTTGGGTCACAGACTCACTCCCTGAGCCTGTTGCTGTGGTTACGAGGACGTCA
CTGGGGAGAGAGGAGAAACCTCCCTCTACCCCTTTCCTCTACTTTGATCCCAGATCCAAGTGGATTCTTCTGGAGGAATGAGAAGAGATGCTGAAGCTGG
CATAAGGCTGATGCAGGGACAAAATAGATGTTCTTACAGCCACATTGTGCTGTTCACATGGTCTGTGCAGAAGTCATCATGTTTAAAACAGAGTGGTAAG
AAGATGTCACCCAAAGAGATACTACATTTTSCCAGTTGACTGGCATTCGGGCTGCACCTGTCACAGCTTTCTTTGTGGCATTAGGAGCTCTACATGGAAT
GGAAAAATGCTTCTCAGCAGGAACATTCTAGGCCATTTTAAGAGGGCACAGTTATAAGTGGGAAGTGAGGTATAGAAGATAGGTTGGGTGGGCTGACTTG
CTGGAACATTTTGAAGTGGGTAAAATTTTATTCTAAACTCATCTATATGTGCTTTCTCCCTCCTTCAGTGAAATGCTCGTCCTACTGCGAAGTGAAAGGT
TCTTTCCACCCTTGTCCTCCAGATGCAACTTCTCCTGGAGACCCCAGCATTGCTGTTGCCCTCACCACACTCATGCAGCAGGGCTGCTCCCCTTCACTCC
TCGGGCTCCAGGAGACCAGCCTCTTCCCTAACCCCTCAGTGATTCCTTGAAATAGACTGGAATAGTGAACCGACTTACTGAGGGTTTAGGAAAAGCAGAA
GGGAACTATACACCAAGAAGAACTTAACACACGGTGTTAAATATACCTGCTCTTGGCCCTGGTCTTTCTCAAGGGGGTGTCTCACAGGGGATTCCCTGTC
TAGCAACTGCTGCCCCCTTGTGGCAAAAACTATCCTTCTCCCGGCCTCAGGGTCTTTCTTGAGTATAGGCAGGTGTTTTGCAGTCTAGGCCCCCGTCTTT
TTTCTCCTGTGTCCCCAGTGACTATTTTCTGCCCTTGGGGCTGATTTTCCCTAGATGATTAATAGAGGGAGTCTCCCACCTCCTGGGACTACCCCATCTT
TGACTCCTTTCTAGTCTAGGCGTTAGAGCACAATAGTCCAACATCAGTAAAAGCAAAGCATGAGTGGCTATTGTCCCCTTACACTTCCTGTTACCATCTA
TGAATGATAAAAGAGCCCAGGAGGAAAGCACAACTTAGCTTAAAAAATAGGCTTGCCGGCTGGGCATGGTGGCTTATGCCTGTAATCCCAGTGCTTTGGG
AGGCAAAGGCAGGAGGATCACTAGAGGCTAGGAGTTCAAGATAAGCCTGGGCAGTATATCAGGACCCTTTCTCTACAAATAAATAAATAACTAAATAAAA
AATAAAAATAAAAATATAATATAAAAAAAGAAAGCCAGATGTAGTGGCTCTTGCCTGTAGTCCCAGCTATTCAGGAGGTTGAGGTGGGAGGATTGCTTGA
GCCCAGGCATTTGAGGTTACACTGAGCTATGATCACACCACTGCATTCTAGCCTTGGCAACACAGTGAGAGCCTGTCTCTTAAAAAAAGAAAAAAATTCT
TTCCAGTGCAGAACTGTAGGAATCCATGGCATGGTAAATTTGGCATTTGTGGTAGGGCAGGATTTATACTTGCACAGACTGGCATTAGCTCCAAACATTA
GAGGAAGGTTGGAAAGAAGCAATGCCAGGCAGACCAACTGGGCTGTGTGGAAGTGAAGCTATCAGGCATACCAGTGACTTTAGTGTGTAGCCAAAAGCAA
TAGACACTGAATCGTGGTGGTGACTTATGGTCCATGAATCACAGGAGAAATGTCTCCCTTCATTTATTCCACAACCATTGATTGAGCACCTACTATATTC
CCTGAAAGAGAACATAAACATGAATTGAAGAAGGTTCTTGCTGTCTCATGGCTCCCAAGCTAGAAGAGGGCTGACTTGTAAATGCCTCACAGCAGGGTTC
ATGTTATATGGAGAAGTGACGAAGGTGCCAGAAGACTCAAGCTAGGGGACAGCCATTAGCTGCTGGAGGCAGCTAAGGTGGGTTCCCAGAGAAGCCGTTC
TCCGTTACTGAGATGGGGGCTGCAGTGACCTTGACCACAGCTCTTCCATTCATGGACTGCCCCAGCTCTGTGGTCTCTCTGCTAACCAGCCAGACTCTGG
GAGTGGCCTATGCCGTCAGCCTCAGGGCCATTTAAACCAACTGGTCATTGGCAGTGATTGTGCGAAAGAGTGGCTGGCGGCAAAGGAGGGTTTGTGTTCC
ATTCAAATACCCTCAAAAAGCCTGAAAAATAAGTAGAGATTGAGGCCAGGCCTTGGAGTTGTGGAAGGTGGAGAACACTGGGAAGCCAACCTCCAAAGAA
GACCAGGTTGGAGGCAAAGGAGGAAGGGGAGCTCTCGTTGGCAAACCAACAGGGAAGCCAAGGATATCCCAGTAACTGCTCTCACATCCTTGATGAGAAT
GCCTTGAATCCGAGCTAGGCCACCTCAAAGAAGCCTGCAAAATAAGTAGAGATTGAGTGCCTGCTGTTCAAACACAACTCAAGCGCAGTCCTCCTCCTCT
TTCCCACTGGATTGCCCCCAAGTCCCTCCTATGGGGGACTCCTTCTGAAGTCTCTGCTGTAAGTCAAATCCTTCGCCCTTTATACTTGGTCAGGAAGTTG
CAAGCTTCCACAGGTGATATACTAGGGAATTTAGGAATAAACAAATGGAAATAAATTCAAGAAAAGGAAAATAATAAAAATGATCATCCATAGAGTGGAG
AATTCAGATAATGGACCCTCAACCCCAGCTTCACACCTGGGACCCCCACTTGGTCATATGGACCCTGGCAGTCTCTAATCACAAGTCTGTGATCCCTTGA
CTTAAACTGTTCTTCCCCAAATGTAGACATGGGTGGGGCTCAGAAGGGAGGTGTCATCTGATGTGGTTTCCTTATTTCCGTTTATTCATCAAGTGCCCTC
TAGCTGTTAAGTCACTCTGATCTCTGACTGCAGCTCCTACTGTTGGACACACCTGGCCGGTGCTTCAGGTAGGAAGCCACCTCTGTTTGCTAGGACTTTC
TGTGGGGTAGGGCTGCTTGGCTTGACTTTATTTTGGAAAATGTATTCATTTCTGTGGGAGCTGAGGATTTCTGCTGCCCGCTTCCTCTCTTGTGACCASC
ACTCATACATGGAGTTAGCAGGTGAAGAGGACAGCCTCCTCATCCCCTCTTTTTATACCTTSCCCTTTTGTGGGAAGAGGCTGACCATTCCCCAATTTGA
TGTTTATTGCTTCACCTTAAGACTTTGTCTTCAGTGAAAATGCAAATACTGGTAGGGAGGGAACACACTAAAATGTGTGGATCTGAGTGGACTCATCATA
CACCCTCAGGCCTGGCAGCAAATGAGAGGTGGATGATTCTGTCTTCCTCGATTTGCAGATGAGAAGACTGAAATCTATAGGGGTACGAGACCCCACTCAA
GGTCATGAGACTTATTTATTTATTTATTTATTTATTTTGAGATGGAGTCTCACTCTGTCGCCTAGGCTGTAGTACTGTGGCACGATCTCGGCTCACTGCA
ACCTCCATTTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGTTGGGATTACAGGTGCACGCCACCACACCCAGCTAATTTTTTTGTATTT
TTAGTAGAGACGGGGTTTCATCATTTTGGTCAGGCTGGTCTCGAACTCCTGACTTCATGATCTGCCTGCCTTGGCCTCCCAAAGGGCTGGGATTACACAC
GAAACTTATTAATGGTAGAATCAGGATGGAATGAAGACTGGATGCTAGGTGTCTTTACAACCAACCTCGGTGACTTTCCAAAGGCTTTCAGACTTCTCTG
GAGAGTCCTGGAGCTTTGAGGGGCTCTTTAGGGGCCATCTGGGTTCGGAGATTAGCACACTCTGCCCCACAGTGGCTCARCTTTTATCTGCTTCACATAC
TGGGCTTCTGGGAAGATCTTATTTCAGTAAACTATTTCACAATAGGAAAWATATTTGAAAACTCTTGAATGATTCTGTGGATTTTTTCAGGGGTGGAGGG
TTTCAGGGACCAAGATGGAGACTTTATCTTCTCAAATACTTAAAACTCCTTTAGACAGAGGAACAAAATATGTGCTCCTCATTTAAAGAAGGCTTAAAAT
ATACAGTTTAATGCAATGTGTTGTTATCACTTCCTTCCCCCAGTAGATTTTAAGGAGGGTAAACAAGAATCAGGGAGAACATAGGAATAGAAATAGTAGA
AGGGGACACCTGGGAACAGGTTTGCCTTCTTGCATTTTGCTTAATGCTGGCCCTTCCCTGAATGTCTAAGACCAACCTGGTCCCCACATCCAAATGCACA
GACACAGCTGAGGATGGAGAAGGCTAAAGAGGGACAGAGGTAGAGACAYAGGCTGAGAGGAGGCAGTTGTAGGTTGAGCTAGGGCTAAGGTGTTTTCCCC
ATATTCCATCTTACCCCACACTCAGGCCAGGCCTTAGAGTTGTGGAAGGTGGAGAACACTGGGAAGCCAACCTCCGAAGAAGACCAGGTTGGAGTCAAAG
GAGGAAGGAGAGCTCTCATTGYCAAACCAACAGGGAAGCCAAGGATATCCCAGTAACTGCTCTCACATCATTGATGAGAATGCCTTGAATCCGAGCTACT
AAATCACATTTCCTTCCTTCTAACCTTCCAGTTAGATCAAACCATTGCTGAAACTGAAGAGGACATGTCAAATATTACAGATCCACAGATGTGGGATTTT
GATGATCTAAATTTCACTGGCATGCCACCTGCAGATGAAGATTACAGCCCCTGTAKGCTAGAAACTGAGACACTCAACAAGTATGTTGTGATCATCGCCT
ATGCCCTRGTRTTCCTGCTGAGCCTGCTGGGAAACTCCCTSGTGATGCTGGTCATCTTATACAGCAGGGTCGGCCGCTCCGTCACTGATGTCTACCTGCT
GAACCTGGCCTTGGCCGACCTACTCTTTGCCCTGACCTTGCCCATCTGGGCYGCCTCCAAGGTGAATGGCTGGATTTTTGGCACATTCCTGTGCAAGGTG
GTCTCACTCCTGAAGGAAGTCAACTTCTAYAGTGGCATCCTGCTRYTGGCCTGCATCAGTGTGGACCGTTACCTGGCCATTGTCCATGCCACACGCACAC
TGACCCAGAAGCGTCACTTGGTCAAGTTTGTTTGTCTTGGCTGCTGGGGACTGTCTATGAATCTGTCCCTGCCCTTCTTCCTTTTCCGCCAGGCTTACCA
TCCAAACAATTCCAGTCCAGTTTGCTATGAGGTCCTGGGAAATGACACAGCAAAATGGCGGATGGTGTTGCGGATCCTGCCTCACACCTTTGGCTTCATC
GTGCCGCTGTTTGTCATGCTGTTCTGCTATGGATTCACCCTGCGTACACTGTTTAAGGCCCACATGGGGCAGAAGCACCGAGCCATGAGGGTCATCTTTG
CTGTCGTCCTCATCTTCCTGCTTTGCTGGCTGCCCTACAACCTGGTCCTGCTGGCAGACACCCTCMTGAGGACCCAGGTGATCCAGGAGASCTGTGAGCG
CCGCAACAACATCGGCCGGGCCCTGGATGCCACTGAGATTCTGGGATTTCTCCATAGCTGCCTCAACCCCATCATCTACGCCTTCATCGGCCAAAATTTT
CGCCATGGATTCCTCAAGATCCTGGCTATGCATGGCCTGGTCAGCAAGGAGTTCTTGGCACGTCATCGTGTTACCTCCTACACTTCTTCGTCTGTCAATG
TCTCTTCCAACCTCTGAAAACCATCGATGAAGGAATATCTCTTCTCAGAAGGAAAGAATAACCAACACCCTGAGGTTGTGTGTGGAAGGTGATCTGGCTC
TGGACAGGCACTATCTGGGTTTTGGGGGGACGCTATAGGATGTGGGGAAGTTAGGAACTGGTGTCTTCAGGGGCCACACCAACCTTCTGAGGAGCTGTTG
AGGTACCTCCAAGGACCGGCCTTTGCACCTCCATGGAAACGAAGCACCATCATTCCCGTTGAACGTCACATCTTTAACCCACTAACTGGCTAATTAGCAT
GGCCACATCTGAGCCCCGAATCTGACATTAGATGAGAGAACAGGGCTGAAGCTGTGTCCTCATGAGGGCTGGATGCTCTCGTTGACCCTCACAGGAGCAT
CTCCTCAACTCTGAGTGTTAAGCGTTGAGCCACCAAGCTGGTGGCTCTGTGTGCTCTGATCCGAGCTCAGGGGGGTGGTTTTCCCATCTCAGGTGTGTTG
CAGTGTCTGCTGGAGACATTGAGGCAGGCACTGCCAAAACATCAACCTGCCAGCTGGCCTTGTGAGGAGCTGGAAACACATGTTCCCCTTGGGGGTGGTG
GATGAACAAAGAGAAAGAGGGTTTGGAAGCCAGATCTATGCCACAAGAACCCCCTTTACCCCCATGACCAACATCGCAGACACATGTGCTGGCCACCTGC
TGAGCCCCAAGTGGAACGAGACAAGCAGCCCTTAGCCCTTCCCCTCTGCAGCTTCCAGGCTGGCRTGCAGCATCAGCATCCCTAGAAAGCCATGTGCAGC
CACCAGTCCATTGGGCAGGCAGATGTTCCTAATAAAGCTTCTGTTCCGTGCTTGTCCCTGTGGAAGTATCTTGGTTGTGACAGAGTCAAGGGTGTGTGCA
GCATTGTTGGCTGTTCCTGCAGTAGAATGGGGGCAGCACCTCCTAAGAAGGCACCTCTCTGGGTTGAAGGGCAGTGTTCCCTGGGGCTTTAACTCCTGCT
AGAACAGTCTCTTGAGGCACAGAAACTCCTGTTCATGCCCATACCCCTGGCCAAGGAAGATCCCTTTGTCCACAAGTAAAAGGAAATSCTCCTCCAGGGA
GTCTCAGCTTMACCCTGAGGTGAGCATCATCTTCTGGGTTAGGCCTTGCCTAGGCATAGCCCTGCCTCAAGCTATGTGAGCTCACCAGTCCCTCCCCAAA
TGCTTTCCATGAGTTGCAGTTTTTTCCTAGTCTGTTTTCCCTCCTTGGAGACAGGGCCCTGTCGGTTTRTTCACTGTATGTCCTTGGTGCCTGGAGCCTA
CTAAATGCTCAATAAATAATGATCACAGGAATGAAYGCATGCTGAAAAGACCACTCTTTTGCACACCATCTGCTCAAAGCTCCTCTTGTCTGTCCTGTCC
GCTTTCAGCCTCCGTCTGTCCACTTATTAAGTTTGCCTTTGTGGTTTAGCTTCATTAGATGTTTATCTGTGTAAAAATGTCCCAAGTGAGGACTTAAGAT
GTCAGGGCTCTTCTGATGGCAAATGATAGAAAGAGAAGTCAAACTAGCTTAAGCAAAACTGAGAGTGTGGGTTTAGCCTGTGTGGGGAAGGATCAGGGAA
GGCTTGAGGTTGGGAATAGGGTGAGGCTCAGAGACAGGACCTAGATCAAGCTTCAGATGGGGATCAGTGATTGATGTTGAAATCAAAGCTGGGATGGGGG
CAGGGATGGGGTGGCAGCTTGGGATGAGGTCAGAGAAGGATGAATGCCAGGAATCGGTAGAGATCTACAAGGAGGGAGAGTGAGAGTCAGGGTCACAGTG
AGGTGTTGGGAACAGGGAGATTCAACATGGAGCTGGGACCAGATATGGAGAGTGAGACTTTGGAATGGGATAAGTGTGGGGGAGTGGTGAGGCTCAGGGA
GGGGGTGTCAGGCCTGGAATGAATATCAGGGAAGGCTTAGTAGCTATAAGGCTGGAGCAGAAGACGTGCCTGGTAGGGTCACCATCCTATCTGGAGCATC
ATCTAAGATCTTCTTCCGGGGCCAAAAGACAGAGGCTCCTCAGTCTGTCCTGCTTAAGACTCTCCAGGCAGGTGAGTGAGGAGGGAGTTAGGCACTCGAG
CCCTAAGAGATAGACCTGATTCAGCAGAGAAGACAAGAAGGATGCAAAGGATGCACAGAGAATCTAGGGCAGAAGGCTGAGAACTGGGGCCTCCTTTTCC
TCTCCTCCCTCCGCTGATCTCCCTCCACCTCTCCTACTGTTTCCTCAAAGTCCAACTTCCTCCTTCTTCACCTTATGCTTCTGCAAGGACAACTCCATCA
GAGGCTTCAGTAAGTAAATAGGGATCCACACTGGGTCCAGGGGAAATGCAAATGACTCATAACCTCATGAAAAATGCTCAGTCTCACTAGGAACTAAATG
AGGCTCAAACAGCAACAAAATAACTCAGAAGTGTTTTAAACAGGGGAGGGATATAGTGGACTCTTCAAACAAGTGCAACATTTTTCGATTGGATTTTTTT
TTTTTTTTTAATGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCATACACAGCTCACTGCAGCCTCAACCTTCTGAGTTCAGGTGAT
CCTCCAACCTCAGTTTCCAGAGTAGCTGGGACCAGAGCTGTGCGCCATTATGCCCAGATAATTTTTAAAATTTTTTGTAGATATGGAGTCTTGCCACGTT
GCCCAGGCTGGTCTTGGACCCCTGAGCTCAAGTGATCTGCCTGCTTCGGCCTCCTAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCCAGGCTGATT
GGAAATTTTAATGCAGCCTGTAATTTTCTGGGTATAGCTCAAGACACAAATGATTTGGATTTCAGATTTTTAAAAAATGTCAGGATTTTGGTACTTAGTT
AACAGCATATTGAAGTACCAAAAACTGATATTTCAATTACTAGATAGGGTGAGGATTAGATCCAGTCAGAGCCAGGGAGAGTGTTTGCCTTAAGGAGGGA
CTCCCTTGTCCAGGATGGGGCTGGCACTAGGGATGGGGTGAATCTTAGGACAGGAGTGGGGGTCAGAAATGGGAGGGGTCAGTGATGAGATTGGGATTAC
AGAGGGGATGTACATCAGGGTAAGGTGAGGGACGGGGATTAGGATGTAACGGCATGTTCTGCACAATGCTTCCTGATGTTAAAATCCTAAAGTTTGTTTT
GTAGCCTTGGTGACAACGTTTGAGACTCTAAATCAAAATGTGAAAATCTACTGTTTTCCCCTAAACCAGTTCCACTTCTGACCAACCACAGCCTCTCACC
ACCCCTTGCCCTCCATCCCCTGGCCCATTCTTGTTAATTCCAGCAAAAATACTAATTGACAATCAACATTTTATGCCATAGAGGTAAAATTTGCCCCTTT
CTCAGCAAAGTAGTATTTTAATAAGAGTCTTTCAGAGACTGAAAAATCTCATAGATGCAAATGAGTAACATGACAATCTCCTCTTTGGTCTAAGGATCGT
CCCAAAGAGGTGCCTTCCTAGAGAAGACCACTCACCAAGAGACAGTGGTGGAGCCCTGTCTTTTGCCGTTTCCATGCAGAGGTCAGAGAGGCCACTCTAG
GTTCCACCCAGAAAGCCACAAGGAGCTAACGGCGGAGCTCTCAGCACCAATGTTTTCTTGCAGCCTGGTATTCAGTTTTTAAATCCAAAGTCTTCCTTCC
AACCTTCAGGGTAGAAATGAATCAAAGACATAATAAATAAAAAATAATCGAAATATGTTAACTCGACTTTTTAAGATTAAATTTTCTTTCTATTGTCTAA
GTATTTTATACACATTGTTGAAAAAACGAAATGGCTTTATGAAGCTTATAACAAAAAACCAGCAGCCTTCCAGCTCCAATCCCTGCAGACAAGGGCAGCA
GCTGTCAGCTCTCATAGCTGTTTCATCGGATAGTGATCTATATATTTCTAAATATCATACTTGTTCTGCTAGTTTTTTTCTTTTTTTTGGTCTCACTCAG
TCTCCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCGCCTCCCTGGTTTAAGTCATTCTCCCACCTCAGCCTCCTGAGTAGCTGGGA
CTATAGGTGCCCGCCATTACGCCTGGCTAATTATTGCATTTTTTGGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTAATCTTGAACTCCTGACCTCAA
GTGATCCCCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAAGTGTGAGCCACTGTGACCAGCCCTCTGCTAGTTCTTGTTTTTCTCCCCCTCCAGGTTT
AGCTATCATCACTGACTCTCTCTTTTGGCTTTGAGAATGTAATATTCTCCCAGTCCCTCTCCTGCTTTCACCCCAATCCAAGCAAACACAAATACTGCCT
TCTCCATTCTCCAGAAACAGATGCCACATTTTTTGGTTAAGTCGACATTCAATTTTTTTGTTATTATGACTATGTAAAAAATTATTCACAGTAGGATCCA
ATTTTTTTTGTACAAGTTTTGTTTTCCCTGGAATTGATGAGAGGATGTTCCATGTACTTATCATGACATCAGTTCCAATGTCTCCCTCAATACATTCACA
CTCAGCGGATAATCTATTAATTTTTCTTTCTCAAAGACCTCTCTCCGGGAGTCCTTCATTGTCTTCTTCCAACCTGGACAGGTGACTCTTAGGAAAGGGG
CCAGTTCCTCTTTACTAAATTGCTTTGACTATGTTTCCAGAGAAATTTTAGAATCTGCTTATCAATTTCTATATAATGTCCAGCTGGGATTTTGATTTGG
ATTATGTAGAATTCATAGATCAATTTAGAGAAAATTGACATTGTCATATTGAGTCTTCCAGTCCATGGGCACGATATCTTTCTCTATTTATGTCTTCTTT
AATTTTTTTGCAAAGGATGTTTTATAGTTCTTGGTACACAAATCTTGTACATACTTTGCAAAATTTGTCCCTAAGTATTTTATGGGTTTTTTGGATGCGA
TTACAAATGATATCTTAAAAAGTTTTCATTTTCCAGTTCTTTTTTTGGTTACCATAGTATATAGAAATACAGTTGCAGTATGTATATTGACCTTGTAACT
TGGGACCTAAGTAAATTCATTTATTGGTTCTAGTAGATTTTTTTAAAGATTGCTTTGGATTTTAACTGTATGCCATCATTTCAGAATTTAAATCTTCTTT
TTAGTTTTAGAATGCATGATGTGTACCTTGGTGGTGTTTTTCTTCATTCATTGTGCTGGGCGCCTGGTAAATTTTCTTAATCTGGAAATTTAGGTTATGT
AAATTTATCTGGTATTAGTTCTTTGACAGTGTTCCACCCTTCGTTTTCCTTATTCTTTAATTTTTTTAAAAGAATTATTCTATTTTATTTTATTTTTGAG
ACAGGATCTCACTGTATCACCTATGCTGGAATGCAGTGGCCCAATCTCAGCTCACTGCAGCCTTGACCTCCCAGGCTCAAGGAATCCTCCTACCTCAGCC
TATTAAGTAGCTGGGACTACAGGTGTGTGCCACCATGCCTGCCTGGCTAGTTTTAAATTTTTAAATAGAGTCGGGGTCTCCCTATGTCACCCAGGCTGGT
CTCCAACTCCTGGGCCCAAGTGRTCCCCTCTCCTTGTCTTCCAAAGTGCTAGGATTACAGGTTGAGTCACTGCACCCTGCCTATTTAAAAAAAAAAAATT
AAAAAATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGGCTACAGGCATGCAACACCACCTTTGGCTAATTAAAAAAAAATTTGTAGAGACAGAATCTTAC
TATGTTGCCCAGGCTCGTCTTGAACTCCTAGGCTCAAGCAGTCCTTCTTCCTTGGCCTCCCAAATTTCCGGAATTTCAGGCATGAGCCACCAAGCTTGAC
CTATTTAAAAAAAAAAATTTAGGGGCTGGGTGCGGTGGCTCACGCCTATAATTCCTGCCCTTTGGGAATCCAGGGCGGGAGGATCATTTGAGTCAAGGAG
TTCAAGGCCAGCCCGGGCAACATGGTGAAACCCCATCTCCACAAAAAAATACACACATGCACAAAATTAGCTGGGCATGGTGGAATGCACCTACTCTGGG
GGCTAAGGTGGGAGGATTGTTTGATCCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATTGCACCACTGCCTTCCAGCCTGGGCAACAGAGTGAGACCTTGT
CTCAAAAAAAAAATCCTCCTTCCTTAGCCCCCAGGTAGCTCGGACTACAGGCACGCAACACCATCTCTGGCTAATGTTTAAAATATTTTTTGGAGAGATG
GAGTCTCACTATGTTGCCCAGGCTGGTCTTGATCCCCTGGCCTCAAGTGATTCTCCCACCTCTGCCTCTCGAAGTGTTGGGATTATAGGTGTGAGTCACT
GTGCGTGGCAAAAAATATACTTATTTTAAAGTCAGATCCAAATTGCTTTATTATCTTTAGCTCCTCAGGTGTGAATTCTCCCATTTGCTGTTGACTGACT
GTTGATTGTGATGATTGTCAGCTCTTTGTAACATTTTATTGTTAATTCATCTTTTGAAGGCATTTTTTTGTTTCATGGGAGTCTTGCATGTGCCCTGGAT
TATGAAGAAGTCTATTCAGGGGTGGCTTTATGGCTGTACCTGCTAGGGCCTTACTGGGTTACATAGCTCAGAGCATTTTTTGTTATTGATATTTCTTGGC
CCTGAGTTTCCACACCATTGCAAATGACAGATTTGGGTCCTCATCACTTGATACTAGGGCTTGGGATTCTGGAATGTTCCTCAATTGGCCCCTTTTCTCT
CATGACCTAGGAAGGCAGCTCACTTGGGGGTTGTGTCTCAGGCTGCAAAGTGCTTTTCTATCCCCATTCAAGGGCATGGCAGCTCTTTCTTGGTCCTGAC
AATTTTATAGGCAATCAAGTTGTAGTTTCTGCTATACATGGGGCCTTTAGGGTCACTGGTATTATCATTCCCATCCTTAAGGTACATGATCAATTCTAGT
ATCTTTCTGGGTTCCTCTGGCTTTAATCCTACTCCCTGATAAGTCCATACATTTTTAAGCTCCCTCTTCATTTCTGGCCCTTGGAGATTTTTTCTCTCTC
TCTTGCCTGCTATTGACCTCAGATATTTATTTTTAAAAATTAATTAATTCATTCATTTATTTTTGAGACAGAGTCTCACTCTATTTCTCAGGCTGGAGTG
CAGTGGCGTGATCTCAGCTTACTGCAACCTCTCCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGATTACAGGCACCCACCAC
CATGCCAGCTAATTTTGGTATTTTTAGTAGAGACGGGGTTTTGTCATGTTGGCCAGGCT


SNP Information

Context             (SEQ ID NO:2079):
TAAATTTCACTGGCATGCCACCTGCAGATGAAGATTACAGCCCCTGTATGCTAGAAACTGAGACACTCAACAAGTATGTTGTGATCATCGCCTATGCCCT
R
GTGTTCCTGCTGAGCCTGCTGGGAAACTCCCTGGTGATGCTGGTCATCTTATACAGCAGGGTCGGCCGCTCCGTCACTGATGTCTACCTGCTGAACCTGG
Celera SNP ID:            hCV28020930
SNP Position Genomic:     7908
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:2080):
GGCCCTTCCCTGAATGTCTAAGACCAACCTGGTCCCCACATCCAAATGCACAGACACAGCTGAGGATGGAGAAGGCTAAAGAGGGACAGAGGTAGAGACA
Y
AGGCTGAGAGGAGGCAGTTGTAGGTTGAGCTAGGGCTAAGGTGTTTTCCCCATATTCCATCTTACCCCACACTCAGGCCAGGCCTTAGAGTTGTGGAAGG
Celera SNP ID:            hCV27854525
SNP Position Genomic:     7449
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:2081):
TTTCCCTCCTTGGAGACAGGGCCCTGTCGGTTTATTCACTGTATGTCCTTGGTGCCTGGAGCCTACTAAATGCTCAATAAATAATGATCACAGGAATGAA
Y
GCATGCTGAAAAGACCACTCTTTTGCACACCATCTGCTCAAAGCTCCTCTTGTCTGTCCTGTCCGCTTTCAGCCTCCGTCTGTCCACTTATTAAGTTTGC
Celera SNP ID:            hCV27452292
SNP Position Genomic:     10136
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:2082):
AAAGGCTTTCAGACTTCTCTGGAGAGTCCTGGAGCTTTGAGGGGCTCTTTAGGGGCCATCTGGGTTCGGAGATTAGCACACTCTGCCCCACAGTGGCTCA
R
CTTTTATCTGCTTCACATACTGGGCTTCTGGGAAGATCTTATTTCAGTAAACTATTTCACAATAGGAAATATATTTGAAAACTCTTGAATGATTCTGTGG
Celera SNP ID:            hCV1575286
SNP Position Genomic:     6980
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2083):
GTCATCTTTGCTGTCGTCCTCATCTTCCTGCTTTGCTGGCTGCCCTACAACCTGGTCCTGCTGGCAGACACCCTCATGAGGACCCAGGTGATCCAGGAGA
S
CTGTGAGCGCCGCAACAACATCGGCCGGGCCCTGGATGCCACTGAGATTCTGGGATTTCTCCATAGCTGCCTCAACCCCATCATCTACGCCTTCATCGGC
Celera SNP ID:            hCV1575287
SNP Position Genomic:     8591
SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,2)   caucasian(C,2)   total(C,12|G,2)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,28)   caucasian(C,1|G,39)   total(C,9|G,67)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): (C,1|G,6)      total(G,6|C,1)Caucasian(G,23|C,287)   Chinese(G,6|C,54)   Japanese(G,1|C,19)   African(G,23|C,77)    ;British caucasian control(C,31|G,356)   British caucasian CFA patient(C,5|G,136)   British caucasian SSc patient(C,17|G,238)      total(G,730|C,53);(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:2084):
TCTGGGCCGCCTCCAAGGTGAATGGCTGGATTTTTGGCACATTCCTGTGCAAGGTGGTCTCACTCCTGAAGGAAGTCAACTTCTACAGTGGCATCCTGCT
R
TTGGCCTGCATCAGTGTGGACCGTTACCTGGCCATTGTCCATGCCACACGCACACTGACCCAGAAGCGTCACTTGGTCAAGTTTGTTTGTCTTGGCTGCT
Celera SNP ID:            hCV28020928
SNP Position Genomic:     8145
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:2085):
CCCTGACCTTGCCCATCTGGGCCGCCTCCAAGGTGAATGGCTGGATTTTTGGCACATTCCTGTGCAAGGTGGTCTCACTCCTGAAGGAAGTCAACTTCTA
Y
AGTGGCATCCTGCTGTTGGCCTGCATCAGTGTGGACCGTTACCTGGCCATTGTCCATGCCACACGCACACTGACCCAGAAGCGTCACTTGGTCAAGTTTG
Celera SNP ID:            hCV27999422
SNP Position Genomic:     8130
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:2086):
ATTACAGCCCCTGTATGCTAGAAACTGAGACACTCAACAAGTATGTTGTGATCATCGCCTATGCCCTAGTGTTCCTGCTGAGCCTGCTGGGAAACTCCCT
S
GTGATGCTGGTCATCTTATACAGCAGGGTCGGCCGCTCCGTCACTGATGTCTACCTGCTGAACCTGGCCTTGGCCGACCTACTCTTTGCCCTGACCTTGC
Celera SNP ID:            hCV28020929
SNP Position Genomic:     7941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:2087):
CTTGCTTTGAAGTCAGACAGACCAGGATGGAAATACTGGCTCTTCTTTACTAGTTTGTGATCTTGGGTGGTGATAGGAAAGCATTTTTCTATTCTATGCA
R
AACACCCAGTGCCACGAAGAAAGCCGTGACAGGTGCAGCCTGAATGCCAGTCAACTGGCAAATTGTGGCATCTCTTAACATTTATCAAAATATCCTTATC
Celera SNP ID:            hCV11934371
SNP Position Genomic:     14423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:2088):
CTGGGCCGCCTCCAAGGTGAATGGCTGGATTTTTGGCACATTCCTGTGCAAGGTGGTCTCACTCCTGAAGGAAGTCAACTTCTACAGTGGCATCCTGCTG
Y
TGGCCTGCATCAGTGTGGACCGTTACCTGGCCATTGTCCATGCCACACGCACACTGACCCAGAAGCGTCACTTGGTCAAGTTTGTTTGTCTTGGCTGCTG
Celera SNP ID:            hCV27977685
SNP Position Genomic:     8146
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:2089):
TCTGTGGGGTAGGGCTGCTTGGCTTGACTTTATTTTGGAAAATGTATTCATTTCTGTGGGAGCTGAGGATTTCTGCTGCCCGCTTCCTCTCTTGTGACCA
S
CACTCATACATGGAGTTAGCAGGTGAAGAGGACAGCCTCCTCATCCCCTCTTTTTATACCTTGCCCTTTTGTGGGAAGAGGCTGACCATTCCCCAATTTG
Celera SNP ID:            hCV27466344
SNP Position Genomic:     6199
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2090):
TGATGTCCTGTCCTGAAAGAAAGAAAAATAAAGGAAAGTGGGCATCTGAGCACTCATTTGAAGGAAATCCTCCGGAATCGATTCAGAAATCCTCATGAAG
K
ACCCAGAATTCCCTGCTTTGGAGCCAGCCAGACCAGGATGAACTAAAAGTGACTGAACACTTATTATCTGCCAACCACTTTACATATATTAACTAATTGA
Celera SNP ID:            hCV9461306
SNP Position Genomic:     1329
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:2091):
TCAGGCCAGGCCTTAGAGTTGTGGAAGGTGGAGAACACTGGGAAGCCAACCTCCGAAGAAGACCAGGTTGGAGTCAAAGGAGGAAGGAGAGCTCTCATTG
Y
CAAACCAACAGGGAAGCCAAGGATATCCCAGTAACTGCTCTCACATCATTGATGAGAATGCCTTGAATCCGAGCTACTAAATCACATTTCCTTCCTTCTA
Celera SNP ID:            hCV27848639
SNP Position Genomic:     7622
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:2092):
TGAGGATTTCTGCTGCCCGCTTCCTCTCTTGTGACCACCACTCATACATGGAGTTAGCAGGTGAAGAGGACAGCCTCCTCATCCCCTCTTTTTATACCTT
S
CCCTTTTGTGGGAAGAGGCTGACCATTCCCCAATTTGATGTTTATTGCTTCACCTTAAGACTTTGTCTTCAGTGAAAATGCAAATACTGGTAGGGAGGGA
Celera SNP ID:            hCV26889308
SNP Position Genomic:     6262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2093):
ATTTCACTGGCATGCCACCTGCAGATGAAGATTACAGCCCCTGTATGCTAGAAACTGAGACACTCAACAAGTATGTTGTGATCATCGCCTATGCCCTAGT
R
TTCCTGCTGAGCCTGCTGGGAAACTCCCTGGTGATGCTGGTCATCTTATACAGCAGGGTCGGCCGCTCCGTCACTGATGTCTACCTGCTGAACCTGGCCT
Celera SNP ID:            hCV27878091
SNP Position Genomic:     7911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:2094):
TGACCAACATCGCAGACACATGTGCTGGCCACCTGCTGAGCCCCAAGTGGAACGAGACAAGCAGCCCTTAGCCCTTCCCCTCTGCAGCTTCCAGGCTGGC
R
TGCAGCATCAGCATCCCTAGAAAGCCATGTGCAGCCACCAGTCCATTGGGCAGGCAGATGTTCCTAATAAAGCTTCTGTTCCGTGCTTGTCCCTGTGGAA
Celera SNP ID:            hCV27452241
SNP Position Genomic:     9565
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:2095):
GGGGCAGAAGCACCGAGCCATGAGGGTCATCTTTGCTGTCGTCCTCATCTTCCTGCTTTGCTGGCTGCCCTACAACCTGGTCCTGCTGGCAGACACCCTC
M
TGAGGACCCAGGTGATCCAGGAGAGCTGTGAGCGCCGCAACAACATCGGCCGGGCCCTGGATGCCACTGAGATTCTGGGATTTCTCCATAGCTGCCTCAA
Celera SNP ID:            hCV25632286
SNP Position Genomic:     8566
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:2096):
GATTAGCACACTCTGCCCCACAGTGGCTCAGCTTTTATCTGCTTCACATACTGGGCTTCTGGGAAGATCTTATTTCAGTAAACTATTTCACAATAGGAAA
W
ATATTTGAAAACTCTTGAATGATTCTGTGGATTTTTTCAGGGGTGGAGGGTTTCAGGGACCAAGATGGAGACTTTATCTTCTCAAATACTTAAAACTCCT
Celera SNP ID:            hCV8841231
SNP Position Genomic:     7050
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2097):
TTCTTACAGCCACATTGTGCTGTTCACATGGTCTGTGCAGAAGTCATCATGTTTAAAACAGAGTGGTAAGAAGATGTCACCCAAAGAGATACTACATTTT
S
CCAGTTGACTGGCATTCGGGCTGCACCTGTCACAGCTTTCTTTGTGGCATTAGGAGCTCTACATGGAATGGAAAAATGCTTCTCAGCAGGAACATTCTAG
Celera SNP ID:            hCV15826143
SNP Position Genomic:     3331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:2098):
TCATCTTATACAGCAGGGTCGGCCGCTCCGTCACTGATGTCTACCTGCTGAACCTGGCCTTGGCCGACCTACTCTTTGCCCTGACCTTGCCCATCTGGGC
Y
GCCTCCAAGGTGAATGGCTGGATTTTTGGCACATTCCTGTGCAAGGTGGTCTCACTCCTGAAGGAAGTCAACTTCTACAGTGGCATCCTGCTGTTGGCCT
Celera SNP ID:            hCV25632287
SNP Position Genomic:     8052
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,40)   total(C,74|T,4)
SNP Type:                 SILENT MUTATION;hmCS

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

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


Context             (SEQ ID NO:2099):
CTTGAGGCACAGAAACTCCTGTTCATGCCCATACCCCTGGCCAAGGAAGATCCCTTTGTCCACAAGTAAAAGGAAATGCTCCTCCAGGGAGTCTCAGCTT
M
ACCCTGAGGTGAGCATCATCTTCTGGGTTAGGCCTTGCCTAGGCATAGCCCTGCCTCAAGCTATGTGAGCTCACCAGTCCCTCCCCAAATGCTTTCCATG
Celera SNP ID:            hCV27452228
SNP Position Genomic:     9911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:2100):
GAAGAGGACATGTCAAATATTACAGATCCACAGATGTGGGATTTTGATGATCTAAATTTCACTGGCATGCCACCTGCAGATGAAGATTACAGCCCCTGTA
K
GCTAGAAACTGAGACACTCAACAAGTATGTTGTGATCATCGCCTATGCCCTAGTGTTCCTGCTGAGCCTGCTGGGAAACTCCCTGGTGATGCTGGTCATC
Celera SNP ID:            hCV25632288
SNP Position Genomic:     7856
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,34)   caucasian(T,40)   total(G,4|T,74)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:2101):
TTTAACTCCTGCTAGAACAGTCTCTTGAGGCACAGAAACTCCTGTTCATGCCCATACCCCTGGCCAAGGAAGATCCCTTTGTCCACAAGTAAAAGGAAAT
S
CTCCTCCAGGGAGTCTCAGCTTCACCCTGAGGTGAGCATCATCTTCTGGGTTAGGCCTTGCCTAGGCATAGCCCTGCCTCAAGCTATGTGAGCTCACCAG
Celera SNP ID:            hCV15826153
SNP Position Genomic:     9888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:2102):
AAGCTATGTGAGCTCACCAGTCCCTCCCCAAATGCTTTCCATGAGTTGCAGTTTTTTCCTAGTCTGTTTTCCCTCCTTGGAGACAGGGCCCTGTCGGTTT
R
TTCACTGTATGTCCTTGGTGCCTGGAGCCTACTAAATGCTCAATAAATAATGATCACAGGAATGAATGCATGCTGAAAAGACCACTCTTTTGCACACCAT
Celera SNP ID:            hCV15826154
SNP Position Genomic:     10069
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Gene Number:                 3
Celera Gene:                 hCG1640727 - 61000125148997
Gene Symbol:                 LOC51049
Protein Name:                insulin-like growth factor 1 receptor;JTK13
Celera Genomic Axis:         GA_x5YUV32W6GH(14096498..14417517)
Chromosome:                  Chr15
OMIM number:                 147370
OMIM Information:            INSULIN-LIKE GROWTH FACTOR 1 RECEPTOR;IGF1R


Genomic Sequence (SEQ ID NO:1664):
GCACACCCATCTCAGAGACTAACCACCGCAAATGACAAGTGAAAAAGACAGAGCCGTTACAGCTATCCTGGTCGGGTTTATTTTCCCAGACTACCATGTG
GGGAGTTGAACATACCCACCCTCAGGTCGGGGACAGGCTCGTGACGATGCTCAGGGTAGTGGTGGAGCCCCAGAAGCCTCCAGTTTCCATTTTGGACCCA
CGGAGATCTCCAGGGTGCCTATCACTCTTGGCCCAGGCCTGGGCTTTCCAGGAACTTCCCCGATTGATGTTTTACTGAACGTGGTGCCGAAAGTTAGTCA
CAGGAAGACATTATCTCAGCTGTCTCTGCGCAAATGCTCTCTGAAACCTCCACGTTGCTTTTAAAGCATCATGGAGAAATGTAGCATTTATGCCTTGGGA
GCCAGCTATCTATGCAGAGCTAAAATAGAAAATCTTCTCAAGTTGAGTATAAACAGATCCTCAACAAGACTGAGACTCTTGTTGCTTGTGGCTGTGTGGG
GATAGGAATCAGCTACAGCATCACTTGTATTTTTCCTGCCCTTGGGGTGCTCTGTGGAGACCATGTGATGCCTTCCACAGCTAATGCCCCTAAGGAAAGA
CCTTAGGCAGATACACACTGAAAGTATACACATCTGTAGACAGCTGTGGGCAAGGATGTTGGAGTTTAGCATCTCTACTAACTCACCTAATAGTAAAAAC
GGGAAGCATTGTGCTAACATTTTTTTTAGAACAGCTGCAACTATCTAAATTATAATACAATCTTAACAATTTAACATTCAGATACAATTATGCAGAATGA
AGTGCACCCATCTTAAGTGTACAGTCTGATGTGTTTCTGCTAAATGCATATACTAGCATAGCCAACACCCCATCAAGATATAGAGCATTGCCATCACCCA
AGAAAGTTCTTTATGCCTCTCCCTAGTCATTTGAAACTTTCCCTCTCTACCCACCCAGGGCAGCCATGATTCTGATTTCTAGCTCTAGATCAATCTTGCC
TGTTTTTGAGCTTTACATAAATGAGCTAATACAGTATGTACTCTTTTGGCTTATACATTATGCTTTGGAGACTCATTTATGTTTTTGCATGGATTAGTAG
TCCATTCCTTTTTACTGCTAAGCAGTATTGCATTGAATGGATATATCATGATTTGTTTATCCATTCTCCTTTTGATTTACATTTGGGTTGTTTTAGTTTT
TGCTATTATGAACAAAGCACCTATTGACATTCCCATAGAAGTATTTTTGTGGAATTTTCATTTCTTTTGGGTAAATAACTAGGGCTAGACTTGCTGGATC
GTAAGTTAGTTGTATGTTTTACCTTATAAGAAACTGTCAAACAGTTGACATAATGCACTCTTAATGAAGCTTATTACCTGTGAAGTGAGGTCTTTTAAAT
TTTTTGTCTTTTGATTTTTGTCTTAAATTGCATCGATATTAGATGTGTGGACATTCTTCTGAAATATCTTAAGGATCAGACCTTGATTAACTGTGTTATT
TTAGTAGATCTTTAATGCTTCTGAGTTATTTATACGGACAGCTCGAAATCTGAACGACTCCCATTGGAAAACCAGAATGATCTCTTTCATGGATCTCTCC
CATATTTTTATTTATCTTCTTTAATGTTTTATACATACAAAAATATGTAGAACATGTGTTAGTTATTAAGCATACTTATAAAATGGAAATTTGTAAATCC
GTCACTCAATCCAAGAGTGAACTCATTTCCAAATTACAATGGAAACCCATGTGCCTATGGGCTTCTCATCCTCTCCAAAGGAATTCACATCCTTCATTAA
TTCTTTTGCTAAAACAAAAGCAAAACAAAGGAAAAATATTATTTTATTATTTAAAGCAAAAAAAATTTTCTGTAACTTTTAAAGTTTTCCTTGCTTTTTA
AGAGCTTTATCAAAATGGTGTTACGCTGTGTGCGTTTTTGATATTTGTATATTTTTACTCAGTGTGTTTCAAAGATCTGCCCATGTTGTGTGGGGCTGTA
GTTTATTCACTTTTGCTGCTAACATTCCTTTCTGCGAATACATCACAATATACTGTATTACTTGATACTTGTCAATTGTTGTGCTGTTTCTCACGTTTGC
ACTTGATGTATATGATATACATTACATTTTTTGGGGAGTCTGGTACATTTAGCAGAATAATTTGAGATGAAACTGTTATCAAGTAAACGGCGTTTTTAAA
AAATGAAAACAAGCAATCAGTTTCTGCTCCAAAAGAGGGAGAACCTATAAGATACCTGAGTAAAATGGTATAAAATAAAAAGTTTGGTGCATTGTCAATG
TGGGTATAAAGCAAAGACTCCAATTAATTTTTGTCTACATGATTTTATTTCAAGGTTGAAAAAATAAGTTTGACTTGTGTATGTAAAATATAATCATTGA
AGAAATACAAATCACCTCCTTTGTCCATGTGGTCAAGTTAGAGCGTAAAGACAACCTAAATTTTTGTTCCTTTTTTTTCCCTAAATATTAAGCTATATAA
TGATACATCTCCCACTTCACTGTTTAAAATAACTTAATACGATTGATTTCCTACTACTTCAGGAAAACACAAACATTTAAAAAATTCACAAATAAAAATC
ATTTTAGTAAAAAAAAAACACACAAAAACAAATCCTACAACCCCTACAACAACCTATATACATTTAAAAATTCTATAGACCTCTTTATGTTCTTGGGGAC
AAATAAACAGGCATATTTATTACTAATACTAAAAATACATTGGGTAGTATTTGAAGATTTTATATTAGCACTAGCCTTTTAAAAATCAGCTCTAAATTTT
TGTCTTACAAGTATGTATTAAAAATTCTGAAATCAAGTATAATGAAATTATATATCAATATTCCTTTGCATTTAACTCCAGAGTGGATCTGCAGGAATCA
AGACCAACCTCATGCAGAGAACTTAAGAAATATTTAAAAATTAGTAGACTGGACTTTAATTCTTCATGTGTAGTGCCTAATTTTTAAATAATACATTTTA
AGATTCTAATAAATTTATTTCACTGTTAAATCTAGGAACATCCAAAACTGAAACTCTTTATTTAAAAATCAAGCTGAATTTCAGTTAAACAAAACCATCC
CATCATATGAATAACTTTCTTAGGTAAAACAAGGTTTATTTTCTTTCTATACAACTGACTCTGAATTGAGCTAGAAATTTCCAAGGAGGAAAATGATCTA
GGAAACAACTTTAGAAAAAAAGGGCTAAGTTTCCGTTATGATAGCTTTTGACTTGTTTTCAGCTCTTAAAAAATTATTTACGAACGATGGATACACGTTC
TAATGCAGAAGTATTTTAGAATTAGAGAGTAAAAGAAACCTACTACCTTCCTTTACATCAGGTCCCTTCTTACCATCCTACCCGATTGTTTGAGACAACC
ACTTCTTATCTCGACAATTCACAACTCTTTTATTAGCTATCTTAAAAAAATTTATTACTGGCATCAATTAGCCTGAGTCATGAAACCGGACCACATTAAG
GGCGACACAYGGTCCAATCACTGTTTGTAAAAGTCCACGTATTTCAAACTCCTCTCTCCTGCCACTGCTGRGCTGTTTCCCTCTTTGAGGACCTGGTCTC
CGCAGCATTTATTCATTAGATGGCAGTCCTAGGGGAGTCTCGCTTTGGGGAAACCTCTSCTCCTGCACATTCAAGAAAACAACCGCGGAGACTTAGGGTC
GGTACTGGTTTCCAGTCACTTACGTAGCAAACGAAGCAAGAGGAACGTGCCTGGGAGGACCCGAGACAGGTGCGGGTGGGTTTCCGCAGTAGCCGCTGAT
CCCGAGTGCATGCGGCGTGTTCCCGGGTCGGGACCGCRGCCAAGGGAGGCTTCCCGGCCCCAGCCTCCACCCCCTCCTCGGCGCCCCGGGACCCGGACAC
GCCCCCCGAGCTTCGGAGACCCGCAGCGTGCACGCGCCCCGGCCGCTCCCCGCAGCCGCCCACGTGGTGGAGCCCTGAGCTGCGCGAGGCCGCGGAGAGC
GCTCAGGGCGGGCGGCTGGTCCGGGAGGCCACGCCAGCGCGACCCAGCCGAGTCGGCCCCCAGCCCGGGCCCCCACATTTCCTCCCCCGGAGGGAGGGAG
GCGACTCTCCGCGGGCTGCCCTCCCCAGCGCCCGCCGCGCCCTCTGGCGGCCGCCGCGGGGACGCGCCCGGGGCACGCGGCGCTGCCTGTCTGGGCCCCC
CTTCCGGGGCGCGGGGCCCGCGAGGGGCGGCGGGGTCCTCTCTCCTCGAGCCACTCTGGGCCGAGCCACACGGGCCGCGCCCTTCCCCCTCCGCTCCCCC
TGAGCCCCCAAACTCCGGGCTCCACGGTCGCAACGCCGCGGGCACCCCAGCCTGGCGTGAAAGTGCCCGGCGTAGTAGCCTGGGGGGGGGGGTCCCCTTT
CTCCCAGGTGCGCCCCTTCCGCCACGTTCGGGCTTTCCAGTACGCAGCGAAAAAAATGCCGCATGCACGCATTTATTTATTTTGCAACAGCTGCAAGAAA
CAATGAAGCTTTTCAAGAACCGGGGAAACGCGCTTTCCAGCCGCGCTGTTGTTGTTTTCAATGAACCTCTCCCAGCCCCGCACTCCCCGCCCACCCCTCC
CCTCTCCTGCCCACCCCTCCCCTGCCTAGCCTTTCCCTGGCTACCCACCCCTGCCCCGCCGAGACCGGACCGGCGGCGGGGGCATTGTTTTTGGAGTCGG
GCGGGAGGGGAGGGCGCGTGCGGGGTGGCCGGCGCAGTGCGGTGGGGGCGGGAGCGGGTGGGCACGCGCGCGTGTCTCTGTGTGCGCGCGGGAGGCGGTG
GGGCGGGAGATGGGGGGCGGCGCCTCGCAGTCTCGCGCCCCACGCCCGGGCTCCGCTCCGCACGTCTTGGGGAACCCGGGCTCCGGTTTTTTGCGCGCGC
CGGCCTGGGCCGGGCCCTCGGCGCGCCGCTGCTGCGGCGGTGGCCGCTCGAGTGTGCGAGCGGGCGCGTGTGCGCGGGCCAGGGCGCGCGCGCGCGCGCG
CGAGCCCCCAGTGTGTGGCAGCGGCGGCGGCGGCGCGGCGAGGCTGGGGCTCTTGTTTACCAGCATTAACTCCGCTGAGCGGAAAAAAAAAGGGAAAAAA
CCCGAGGAGGAGCGAGCGCACCAGGCGAACTCGAGAGAGGCGGGAGAGCGAGAGGGACGCCGCCAGCGAGCCTGCCCACGGCCGGCGCTCGCAGACCCTC
GGCCCCGCTCCCCGGATCCCCCCGCGCCCTCCACGCCCCTCCCGCGCGGGGGCAGCTCCACGGCGCGCCTCGCCTCGGCTGTGACCTTCAGCGAGCCGGA
GCCCCCGCGCAGAGCAGGCGGCGGCGGGCGGGGGCCGGGCGGGGGCCGGCGCGGGGCGGGCGGCGGCGCAGAGCCGGGCGGCGCGGCGGGAGTGCTGAGC
GCGGCGCGGCCGGCCCGCCGCTTTGTGTGTGTCCTGGATTTGGGAAGGAGCTCGCCGCGGCGGCGGCGGCGCTGAGGGAGGAGGCGGCGGCGAGCGGAGC
CAGGAGGAGGAGGAGGAGGAGGGGGAGCCGCTCATTCATTTTGACTCCGCGTTTCTGCCCCTCGCCGGCCTCGCCTGTGACCCGGACTTCGGGGCGATCT
TGCGAACTGCGTCGCGCCCTCCCGCGGCGGAAGCTCGGGCGTCCGGCCGCCTCCCGCGCGGCCAGGGCCGGGCTTGTTTTTCCTCGCCTAGGCAGATTTG
GGCTTTGCCCCCTTTCTTTGCAGTTTTCCCCCCTTCCTGCCTCTCCGGGTTTGAAAATGGAGGCCGACGACGCCGACAGTCCGCCCCGGCGCGCCTCGGG
TTCCCGACTCCGCCGAGCCCTGGGCCGCTGCTGCCGGCGCTGAGGGGCCGCCCCGCGCCGCCCGCCCCGTCCGCGCACCCGGAGGGCCCCGGCGGCGCCG
CCTTCGGAGTATTGTTTCCTTCGCCCTTGTTTTTGGAGGGGGAGCGAAGACTGAGTTTGAGACTTGTTTCCTTTCATTTCCTTTTTTTCTTTTCTTTTCT
TTTTTTTTTTTTTTTGAGAAAGGGGAATTTCATCCCAAATAAAAGGAATGAAGTCTGGCTCCGGAGGAGGGTCCCCGACCTCGCTGTGGGGGCTCCTGTT
TCTCTCCGCCGCGCTCTCGCTCTGGCCGACGAGTGGAGAAAGTGAGTATGTGCCCGCCGCCCGCGGCCACTGCGGGAACTTTTCCTCCGAGGGGCTGCGC
CCTGTTTGCGAAACCCGAGTTGCCACCGTCGCAGCTGTCGGGCCCCCGGGCTCGGGAGCGGCGGGGTGGGGCGCAGGGCGGCTCTGCCGGGAGGGAGGCT
GCAGCGGACCCGGGACCCGGGCTCGTTCGTCTGGAGCCCCGCGGGCCCTGGCTCCGCGCATCCCCGCGCGGGAAGGGCTTTTCTCTTTCTCCGTCCTGAC
AGCCCAGCCGTGTTTCCCGGCTAGGCGCGAGGACTCGGTAGGGAAGTTGGTGCCGGGGCGGGCTCCGCGGTTCCCGGGCCCCGCGACCCGCACCTCGCCC
CTTCCRTGCGCAMGAGCCTCTCCGCACACAGCGCTGATCCCCCTGCGGCGCGCAGGCAGCAGCGACAGCACCCTGGGCCGCACCGCGTCTCCGCTGCTGG
GGCTGACCGGGCAGTGGGGAGCGGGCAGCCGCCCGGCCCGCGGGGTGCGAGTTGCCCTCGAGGGGGGAGGTGCCCTGCGGAGAGGCCCCGAAGCCCCAGG
ACACGTCTCCAAGCGCCCGTCGCTGCCTCCCGTCGCCCAACGTGCTTTTGCCCCTCGGGCTCCTCGGGTTCCTGGCCTTGCCCGTCACTTTGGCCCGCTC
CTCGTTGGGTTACCTGCCCCCGGCGTCCCGGGGCTGGGCGGTGGGGTGAGGGGAAGCGCTCTCTGGGCAGCCCCCCGGGAAGTGCGAGGCCGGGAGTCTT
CCTCAGCTTGTCTCTTCCGGGGAGCGCCACTGGGTCCCCAGTTCAGAGGGCTCTGGGATGGTCTCCCAGTTTCTCCCGGGCCGGGGGATGGAGGGGTACT
AGGGCCGCATCCGAGTGTGCGTTGGTGGGTGTGTGGTCGGAGCCGACGTGCATTCCGACACACGTGCTCGCAGCGCGGGGTGTAGTCGCCGCCTCACGGG
GACACCTAGACGCCCGTCCCTGGCGAGAGGTGTCGTACGCTGTGGTTTCAGCGCCAGGGTCTGCGGCGGCGCGGGGAGGGTGTTGTGTTTTGCGAGCGCG
GAGCCCTGGCCTTGGTTTTGTTGTGGTCGGCGTCGTGTCGCCCTCTCTTCTGCCGCCCCGCACTTCCTTTGTACGTAGTTAATAAGCAGTGTCGCTCCAC
ATTCGCTGTCTTTTGCAATCTGATAGCTTTTGTTTTGGTGGTGTCGGGTGGGGGTTAGTAGGGAAGCGCGGGGATGCGGGGAGCGAGAACTCCCCCCGGT
GTCTACGGCCGGAGGAGGTGGGGGTTTTATTCTTCTGAAAAAGTTGAAAGTGTGGCTTACTGGTACATTCAAGATGGTAGGGTAATTTGAACACGATTAA
AAGTTTAAATGTCGCAGAACTGGGACTGGGAACGGTGAGGGCGTGTTGGTGAGTAATGGTTGCCGAGGGTATGCAGGTGGTGCCGATTAACTTTGAAAAA
ATCACGACTGAGCCTTCACGAGTGAGGCGGGGAAGGAGGAGGCAGCGGAGGTTGTATGGCCCCATCACCGGGGCAATTCAGAAAGGCTGTTTCTATAAAC
AAATCCTTAAACGTCTGGTAAGAAATGAGTCCGCGACGGAACGAGAGCAGATCGTGGTTCGCGTGTTTACTGCCGAGTGGGACGCGGACTGGGGCCGGAC
CTTCCACAGATCTGGGCTCTCCTGCTCTTTGTTTTCTAAACTTTCAGCGGACTCGATTGGGCGAAAGCCTTCCGGCTCCCTTTACTAAGTCGTTTAGGTG
GTGGCTGGGGGGACAAAGRAGGGTTTTTATCTTTAAAAGATAAGTACGGTTTAGAAGACACGGGAGAAATAATCCATTTTGTTATGTTATGCAGTTGAAC
TGTATAGCTTCTCTAGTTTTGTGTTTTTAATGTTCTGAAATTCAAAACAGCAGGGATGGCCTTCGCCGACGCAGGAGTCGGGCATTTTAAAATAGGCTGT
TTTTCTTTTGGAGCGTTCTTCTTGAAGGATATTSTTTGTGCAAGACGGCGATTTTTGAGAACACAGGCAGRAGGGAGGGGGTGTTTTAATGTATGTTTTT
ACTCCATGATACCAAAGCTTCCCCCCAGGATCCCTTTACAGTGGTTAGTTCCTGGAAACCTGATGGGTGGTCAGAAGGCACCCCAAATCTCGATTATGGT
TTGCTGAAGTCTTGACTGACTCAGTACCTGCCCCTCCCTCCATCTCTGAAATGTGGAGAATTAAAAGCTATGCCTGTGAACGGGCGTTCAGTTTTTAGCS
GGGAAGGTGCTAGACCACTTAACTCTGATAGAAATAAGCTGCTGAGCCCTATCAGGGAGGGCGTTCTTTCAGCTGTTGTCTGGTGGAGAAATAAAGACAG
GGTGTTGGTTCAGTTGCAGGTATTTTGCTGGCGTATTGAGAGATTAGAGTTTCCTCTTTGAGTGTGATGGCAGTAGAAAGAGTGTTGTTTATCTTAGAAA
ACTTAGTTTCTGAAGCAGAGGCAGTCATATGGATGTGTTTGTTTTGTATCACCATAATGTGAACAGAGCATCTAAATGAAGGCGGTTCGGAGGTTCTGAG
TGATAGCCAGATAATCTGAGGGCTATTTTGTTTTTAAAAAGTCAGCATGCACTTTAAATTTATTGTACCCATCTCCTTAAAAGGATTCAGTCATCTTTCT
ACCCCAGGCATCCTGTTGTCACAGAAATGTAGGTATGTGAAATGTTGGTGTTTAAAGAAGTTAGTGTTTTATTACCAGAAGGAGAACCCAGAAAAAGAAC
TTCTGAAAGAACCTAAACAGCAAATTATAGTTTAGATCCTCTGGAGAGACATAGCAAGCAAATGGTGTTTTGTGGAAGGGTGGGGTTTGTGTCAGGATTT
GAAATGTAAAAGGTCATAATGTTTGATTTGTCGAAAAAGATTAGAAAAGTTCAACTCTAAGAAATATGCTAAGGTTGAATAGATGAAGCTTAAAAATATC
ACAAAAAGTGAAAGAAGTCAGTCACAAAAGACCACATATCGTATGATCCGGTTTATGTGAAATGTCTAGAATAAACAAATCCATAGAGGCAGAAGGTAGA
TGAGTGGTTGCCAGGGGCTGGGGGCGGATGGAATGGGGAGTGACTGCTRGTGGGCACAGGGTTTCTTTTTGGGGTGATGAAAATTGTTCTAAAATTAGTT
TGTGGCGATGGCTGCATAGCTCTAAATATACTTAAAACCATTGGATTATRTACTTTAAATCGGGGACTTTAATGGTATGTGAATTATATCTCAATAAACC
CTTTTTTTTTTTTTTTAAAGAAATGTGATCAGGTTGAAAATAACTTGTTATGCTACCTTAAATTACGTTAAAATTATTACATAYATTTGACAGGCTGATG
TCTCTCTCTCTTTTCATTTATGAGTTTTTCAGATCCGTGAGTTGCAGCAATACAACAAACTGATAATTGAAGCTTAGCAACAGGGATTCAATCCCGCAGT
AGAAATGGGCAAGCAGGAGAAAAAGAATCTTGGTTCTATGTAGCTTCAGTTAGGGATTGAGGAGCTGGATTTAAAAAACACAAATGCTGGTGGAGGGCAG
ATTTTTGACAATAGAAACCTCAGCTGAATCTGAAATGATGGTTTTTTTCAGGATAGAGTTTAGGAGCTGAGTCTGAAGGGCTGTTTGTATTTCCAGTTTT
ATTATGTTTTCCAACAAAGAAAGACATTGCTGTTTTAAGATGTTTTAAACACTCATTTTTTGATATGCCACATTGACCACAAGTGGTAGTAAGGACTGAG
GATGAACAGAACAGTTCATTTTAATGCAGTATTGTTGTTTCTTTTCTTTGCAGTTTTATTTTATTTCTTACATAGTTCCAGGGTCTGAGCAGGAGAAAGA
ATCTTTAGGATGCAGTAGTTTTAGGATACACTGTTTCAAGTATACAGTGATTTTTATAAAATTAAAATTCCTTACAGAACGAAAGGTTTTAAAATGTGGC
AAAGGCATTTTTGTTTTGAAACTGTGTGCATTTATCCAGATTTACCCTGGCCTTTCAATAGGAAAAGACCTAGAGAATAATTGTTGTTTACATTTGCTTT
TGGTCTTTGTCTAAGGCTTAGTTTACTAATAAAAATGTTTCCTGCCCTTCCTATTGTTGCAAGATCAGGGCAGTAATGAAAATCAACTGTATCATTTTCA
CTTGTTGCCTTAGAGTTTTTGCCAAGAGGAACCCTCAAGGGACGGTGGTTTCCTTTTAAATCTGGTTTCATTTGTTTTGTAAGAATGTGCTGTAAGAAGC
AACTGAATCCAGCCTGCACTTATTGTGCACCTACTGTATGAAAGCTGACCTTGTGCTACTCAGTGCATGAACCTGCAGAGTCTTGCATGAAACCACCTTT
CTTGAAATTCAGATTTTTTTTCAGACTCAGTATAGGGTGCAGTTTTCAAGTAGACAGTAGTTAGCATTTTAAAGGTTCTTTTAAAAATATTTCTGTAGAC
TTAGGACTCTAGTGTTGTTCATCAGAAGCCTTTACCCTATACCTTTTTTGCCTCATTGGTGCTTTCCGTTATATTGGGATGTCACTGTAGACTGTGACAT
ACAGGTGATGTTAACCCATCTTGACTGGCGGCACTGTCTTCTTTATAACATTGGATATGGCAATTGTGATTTACAAACTGCAGTGTTGTAGTTGCCTTTT
TCCAAAAATTAGGAGTCACAGGTGTGTACATGAACGTTGCATAGCATGTTTTGAGTTGTAAGAAAGATGGAACTTATTTCAGAAGTTTTCTGGATTACAT
ATTGCTTAGTTAGCTTTCTAGAAATCAGGAAGCATTCATAATTTCAGGGCATTTTATAATTTGTAAATAACTTGGTGTTTTTAAAAGCGTGAGGGAGTAA
GAGTGAGGAGACAAATCCTGAAAGTTTTTGTTTTTTAATTGTAAAGCATACAAGATACATTTCTTTATAGGTTGTGATTTTCCCCAATTTGTTTTCAAAA
CTCATTTAAAAATCAGACCTAGTTCATGGAAGAGGTATTTGCGCCTGTGGGCGAACTTGATTTGAACTGCTTTTCTTAGCCAGCTTAGGACAGGTGCTGA
GTCCAGGGGATGAGCTCTTCTCAATTGTACTAAATATATAATAGTTGCACACATGTTACGGATATAGTTTCTTGATTTCCAGTCTGAGATGTTCTGAAGG
AAAATTCTGAACACTTTAGAGACAACAAAGTGCCTAATGAGTGATGCACTCTGATCCCTCCTGGAAAATGGTGTTTGGCATCAGCTTAGCAAGAGGAGGT
TTTCCAGTTATTTGTAAAGATGTGATGTGGCTTTAAGTGGGGATGGGGGAGGGTAGCAGCCCCAGTGTTTGTGGACATTGAGACCTGTTGACATTTGGGA
AGCATAACTGAGTTCCACTATTTGAAAAGATTAAAACTTTGATATATGTACACATCCCCTCATGCCTGCACCCCCATCCCCGAGGGTCTGGAAAAGAATT
GATTTGTTCTGAGGAAGGAACATATATTTGGAATATAAAATGGTTAGTAAACAAAGGATCTTTWAAACAAGTTAGATTGTTATCTCAAGAGAAGCATACT
TCCTCGGCATGATGTTTTCTTTTGTTAAATTGCTTTGGTTTTATTTGACTCAAAGTATTAACAATACCTTTGATTTTGAGACTTTTGGACTTTTGAAGAC
TAAGTTTTTAAATGGTCAATTTTACTCGTTTGAAAGTCCCAGATACCATTTTTGAAGATTTCTCTCCCTTTTTTTCCACTGATGCCGGCTTTACTTATGT
TTTATTTTCAAATCTTAAGGAAAAACTGATATTTCCTTACTTGAACTGAGAAATAGTCGTTTTCCCTCCCTCTTTTCTTCCACAGTAAATACATGTTGAG
TACTTACTGGATGCAGTTCTTTAGGTTTAGAAATTATTTGATACTGTAAAATGTCTTACCATAAGTTTTTAAAGATACCCGTCAAACTATAGATGTTACT
GCCATGTTTATTAAAAAAAAAAATAAAACGAAACAAACTAGTAAGCAAGCTTAAAATTTTTCTTTTTCCTGCCCTGGACTACAGATTTTTTTTTCTTTTT
TTTTTTTGAGACAGGGTCTCTGGTCACCTAGGCTGGAATGCAGTGGTGTGATCACGGCTTGATTCTGCCTTGACCTCCCAGGCTCCAGTGATCCTCCCAA
GTAGGTGGGACTACAGGCACACACCACCATGCCTGGCTAATTTTTTGTATTTTTAGTACAGACGAGGTTTTGCTATGTTGCTCAGGTTGGACTCAAGCGA
TCCACTCACCTCGGCCTCCCGGAGGGCTGGGATCACAGGTGCGAGCCACCACCCCCAGCCTACAAGAATTTGTAAACTCATAGATTGCTCTTCTGTTTTC
ACTGGACCACAACAGAAAGTAGTTTCTTTTATGGTGAGGGATGAACACCTACGATTGCAATATAAGTTGTTGGGCCTTGTGTCCATGGAGCTCACTTGGT
GGTTGGTGGTCTTGAAGCATTCACATTCTTTGGAGTAGTGGGGCGGCTGGCTAGTCACATGGGGAAGATGTGCACACCTGTGGATGGGGCCATCACACAC
TGCAGCGATAGCTGGGCCTACCTTACTGCTCACCTGGCTGGGCACAGCGGCTCCTGCCTGTAACCCCAGCACTTTGGGAGGCCAAGGTGGGCAGATCACT
TGAGGTCAGAAGTTCAAGACCAGCCTGGCCAACATGGTGCACCCCCTTTCTACTAAAAATACCAGAATTAACCGGGCGTGGTGGCCCGTGCCTATAATCC
CAGCTACGTGAGAGGCTGAGGCAGGAGAATTGCTGAAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATGATGCCACTGCACTCCAGCCTGGGTGACAG
AGCGAGACTCCATCACACACACAAAATACATATATAAAAATAAATTGCTCACCTGGTAATAGTCTGGAAAACATTTTTTTTTTGTTTTTTTGCATATTTT
AAAGACTTTAGAAAGTAGTCTTGCTAATCCAGAAAGTTCTTGCGGGGAGGAGTTTGAAACTTTGTTTTATCTCACTCCTCAGTCTTAGCCCCCTTAATAC
CATAGGTCTCTACTTCAGTAAGAGTTACATAATACGAATGCCGTTTGTTCAGAATTGTGTATCTCCATCCATCCGTCCATCGTCCAAATTCTGCRAGTTT
GAAATACATTGTTGTTGCTGTTTTGTATACTTTTGTTCAACCATTTTCTTTTTAACATGGCACTAGCTTTCTCAAACTGGCTTTGGAATTATTTGTCAGT
TTAAAAATAAATACCACTTTAAAAATTACTCTTGACATGGGAGAACAAATATATTTTGATAGTTGTTAGAGCATAAATATTTTATAGAGCATAACTTGAA
ATTTTTCCTGATACATTGTGATTGCTTTCAGCTTGTCCTCTGCTGTAAAAAATATAGTCGTGGTTAGTCTCTGTAAAGTTGGTTATTGGGAATATGTGCT
TGATTACGTAAATGAGACATCACCAATTTAAGTCAGCCAAAGTTTAGTCAATAGAACTTTAAAGAACAGAAGTCTAATGGTAATTAGGGAGAGATGAATT
TATTTRTAGGAGTTTTCCCCAAATTCAAAGCGTCTTAGTGACCTTTGATAACTTCCTGGAAAAAGTAGGAAGCATGGAGAGAAATTCCAGGTAGGAGCCC
ATGATCCAATTGACTGCATCAGCTTACAAAGTGTTTTCTAAGTCATTAGCTATTAATTCTGTCTAGATTGTAAAATCCCTCTCAGTTGTGTCCACATTTA
TCTGTGTTGTCCTGTATTTATTCTCTTTACCTAATTTCCCTGAGTCTCATTTTAGTGGGATAATACACAAGCTTACAGACTCAGGACTTTAAAGAGAAGC
ACAGATTGCCACGAAAACAAATGAACACAGAGACCAGTAGCAGCAGAGGGAGATCTGCTGTGAGGCTTCCCTTAGTTCTGTTGTCTGATTTCTGTGGATA
ATGAGTTCACTGCATATGTTAGGTCACAACATGATATCGTGTAGTCGTAGGTACAGAACTTTTGTTATGGTAGCCTTTCTTCGTCAGGTGATACAATTGG
GATTTTCTTTCTCACATGCACCTCAGTAAAATTTTCAGCAACAGAGATTGGCTCAGGATGGAATTTGTTCAGTTTCAGTTCTGCAGCCTGTCCTTTTCTG
GGGAGACTCATTAATTGAATGTTGCCTTTCGATCTCACTGAGTCACTTGAAATCGCTCAGATTGACCCCTATTCCGGGATCCAGCCTGGTCCAGTGCAGA
CCTGCATTGACTCTGACTACATGCTGAGTTGGCCTCTGAACCAGTTCCTGTACCATTCCCTTAGTCTGATGGACTTGCCAGCTCCAAATACTCAGAACGT
GCCTCTTGTGGTCCTAGGATCAAGTCCAGGGTCCTTAGAATCAAGTAATGAAACAGGTCCTTAGTAATCCTGTGCTGTAGGGATCCACTGTTAGTTCCTG
GTACTCCCCAGCATCTGTGCATTAGCTTGATGGAAAGGAAGCTGTGTTATGCCTGTCTTCAAGTTTTTGCTTCTGCTGTTTCCATAGCTGAGAATGTTTT
TCCTCTTCACTACTCTGCTACTTCTCCTTCCATCCTCAATACTGAATAGCAGAAAGTGCCGCTTAAGAACACAGGAAGGTCACCATAGCTTTAGTTTCTC
CTTAGCTGCCAATTAGTTCTTTGGTCCTAAAGTTATTAACTTTTCTGAGTCTTGATAGAAATGCGGAGACTTAAAAATATTTGGGGGAGACATTTCTCCT
TTTCTCACTAAACAACAGAATGAAAACCTTTTCTAACAGGTTTAGAAAACCAAAGTCAGAAAAATTGTGAGGAAATAGAATAGGTTTTTTAAATTGAAAT
AATTTCCAAGTTCCAGGTGGATCTGTAAAATAGGGACAAGATCATAACTTTCAAAAGGCAGCACGCTAAGTCAGGTGATTCCTTTCCCCCATATGCCTTT
TCTGTGGTTTGAATAGGTCAGAGATGCCATCTTTACATTTCCAAGTCAAATTCCTCTTCCTTCTTGAAGGTTTTTGGGATTTCCCTAACTTGTATAGATC
TACTTTCCCATTACTCCTTTTGAGTTCATAACCCACGGTTTTGCTGGTTGACAGTGATTTGTCTTGTTCCTTGCTTGTAATTTTATTAGGACCATGGAGC
CAAAGTGGCTGGTTTGAATCTCAGCTCTTCASTAGCTAAGCTCTCAGGCAAATAATTTAATCTTCTTGTGCCTCAGTTTCCTCATCTGTGAAATTATAAT
TTTAATAGAATCTACTTTAAACATTCATAGAAATCAAATTCGTACACATGTCAAGTGCCTAGAATAGAACCTGGCACCTGGTATTAAGCCCTTGGACTTC
AACTGCTACTGTTCTTAGGGTTGTGACATCCTCGAACAGAGATGTTCTTTGGATAGAAATATAAGGCTTACTTGATGTTTGATTGTCCTTGCCATTTAAA
TATGTTATAGAACCTGGCACATAGGTGCTCAATAAATGTATAATAAAACTTTATTTTGCTAAGGTGTTTATTAACAAGATGGCATGTTGCTTATTAAACA
GTTGTGATTTTTTTTTTCAGTAAACGATGGTCATCCCCCTGCAGTTTGCCTTCCATTTCAGAGATCTGTTTATTACACTTTCTCCCTTAATATTGTCATT
TGTCAATTTCTGCTCACACCTGAGAGGTGTCCAGTGTGCACTTTGCCCATCTCGCCTATGCATAGGCTCCATCTAGTGGCCAGAAGGGAAATTCAGCATA
TTAGGTGACTGAATTAATAGTGCCCCAAGGAGGAAGATAGCGATCCCAACCCACTCTCTGGCTTGCTTCCTGGGGACTGATTGCAAGAAAATGTGGATAC
TACAGACTTCTGTAGAAATCACTGGGCTACAGTTTTGGATTAAGGTTACTCTACTGTGTCAGTGCGAGCTGTCCTGAGAGAATTAGGGTCTTCCTAAGTG
ATGCAGACAGGCGYACTGCAACTCCATGGCAGAGCTGTTAACACCTAGTGTGTCTTTTACAGTTAGAGTTTTAAGATAATTTTACAGGACTTTAATAAAT
TTAAAGCTCCAAAATATTTGAGATTAGAGATTAAAAAAACACTACTGATTTCATTTGGAAAAATACAGCAAGATTTACCTTCCATTGCTCTATTTAAACA
GGTAGTAACACTTTCATTCTCTTCTCTCTCCCCTTTGGCTATTCTATGTGGTTAAGATGCTCGCCAGCCAGAAATACTCACAGAGAATAAGAATAAATAC
ATCCAGTGTTGTGTTAGGTCCCACACCGTCTATATTTCGCTAGCTAATTTTATGTATTTTGTTTCATGTTTTATTGATATTTTCAGAATCTTTCTTGCTG
AGATTACACAAAATATATAGCTGGTTATTCAGTTTTACGTGTCAAAAGCCTTAAACCTGTTTCCCCATGATTGCCTTTTATTATTTTTAATTCGGAAATC
TTTGTTTGGCTGTCTGAGAGAGAACTTCAGCCTCCCTTCCTCCCAGACATTTTGAACAGTTCAGGCTGTACTCATTCGTGTCTYTTTGTCTTGGCAGGTG
GAAGCCCCTCTGCTTGGAATAGCAAACAATACTAYCAGCTTGCCCTCTGGCAAGCTCCTTTAAGAGTTAGCTGTAATTTCACCCTCTCTCTGGCCTTGAT
TCTGCATGCAGAATGATTGCACTGACTTGAGCTCCTGTGGTCTCTTGCTATACCTCCTATTTGGGCATCTCCCCCATATTGCTTTCCCCCACCATTGGGG
AGGGGAATGGTACCTTGGTTATCTTTGAATTCCCAGGAGGTGGCCCAGTGCCTGGTGCATAGGAGGAGCTGAAGAAACGGAAGACTTCTTAAAGGGATAC
TCGCCATTCACTTTGAAGCACTTCTTTGTACAACAAATTTATTTTCATCTGATCATTGCACCTCTGCTAGCCAAAACATTTTATCACACCAGTTACTGCT
GCATGGAACTTGAAAGCAATAAAATTATCTTTAAAATCATTGTTTGATTAGGCTTTTTGCACATTGAGGTGAATAAAAAAAATTAGAACTCCTGGAAGGG
TAATTTGTGAGTCTGGCCTTGTGTCAAGATCACCTCATCCCTGTGGATGGAGACTTTGTTCCATAAGTTCCCTATAGATAAGATGTAATGAATAATTCAT
TGGCACCGATTTATGTCTGTAGTGTGCTTTTAAACCCTCYTGGAGCTGGGTTCCTGAGGAGGAAGCATCTGCAGGCTGGACTCGGCTGCCTGGTGGTCTC
CGGAGTGGCCTGGTGCAGAGGGCCAGGGTGGCATCTCAGAAAGTTGGGTGGGTAGGGTACTTGCACACCTGCTGACCTTGAGTTACAGGGTGGACCTAGG
TCATTTCACAGGCCCTTCCAGCCTTCAGATCTCAAGATACTAGGCAGAGAGAGAGATGGAGATTTGAGGGAGATGTGGTTGGAACAAGCAGAATCACCAC
GTATGGAAGTTGGCTTCTATTTTTTGCATTGTTTTCTTGGTGAGGCCAGTAAGCTTTTGCCTCACTCCTGGGAGGGACAGTAGCAAGGTCTTACAGGTCT
CTCTATCATTGAAGCACCCTCYCCAACCCTGCCGGTTTTGGTTGCTGGTGAAGGCCTTTGACAGTGTCCTGGTAGGGCGACGGTGAGGCCAGCTCCCGAC
CTCTGGACAGAAGAAAGCTTACTTGTCTAGGTTGGTGTCAAGGGGACTCCTGAACTTAATGAACACCTTAGAAATTATCCTTAAAGTCTCCTCTTCCGAG
GAGTGGGGTGGNNNNNNNNNNNNNNNNNNNNAATGTAAACATAATCATTTGAAGCTGGAATGTTAATATTCAAGAGTAGCTTGTAAAAAAGCATCTTGTG
AAATTCTCATGTGAATGCTGAACCGGCTGGATGTGAACTTAGCTGGACAGCCTGGCCTGTCTTTGCTCTGCTCTTCTCCGTGCGGTTTGCATATGTGCAG
GGCTTCCTTTGAAGCCTTGTCCCCTCAAACAATTCACTGTCTCCCTCTCTCCCACGCATGGAGGCATGTTGGAAAGGGAGCTCCAGGCCTCAGTGTCTCT
GCCTGTGATTGGAATAACACTGCTCTAGCAGGGATGCCAATGAGAATTAGCAATAGATAATGTATCCAAGCTGCCCAGCAAACCTGGCAAATAGAAAGCA
TCCAATAAATGGATGCTTTTCTCTTTTTTTCTCCTCCTCATGGTGGGTGGCCCTGGTGGGCTCTCTCTGGGGCCTCCAGTCCTCCTTCCCCACAACACTG
GGGAATTGCTGCCAGTTGAATARGGCCCTTTTTTTTTTTTTTTTTTTTTGAGACAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCCG
CTCACTGCAACCTCTGCCTTACTGCAACCTCTTCCTCCCAGGTTCAAACAATTCTTGTGGATCAGCTTCCCAAGAAGCTGGGATTACAGGCGTGTGCCAC
CACGCCTGGCTAATTTTTTTTTTTTCTAGTAGAGACGGGGTTTAGGCATGTTGGTCAGGCTGGTCTCAAACTCCTGGCCTCAAGCAATCCACCGACCTCG
GCCTCCCATAGTGCTGGGATTACAGATGTGAGCCACTGTGGCTGGCCAAGGAGGGTCTTTTTTTGCACATCTACAGTGAAAGGTTTGAACCCGGACGTCT
GAGTCTCAGGTCAGTTGTTGAAACCACTAAGTAACCACCTTGCTTCTCTGTGCCTGAAGAGAATGGGTTTTTAGGTTAACCAGGCTGACTGGTTCAAGGT
CATGTCCCTATCTGTGGAAGGGGAGTGGGAGTGGAAGGTGAGTGGTGACAGAGTATGGAACCCTGTTTCTGATATCTAGATTATTTGAGGGCCTCCAGTG
GTCTCTGCTCCATGGAAAGCATATGAAAGAATATGATTTTTTTTTTTTACTCGAGCTTGTTGTCTAGTTGGGAAAACTCAACTACTGGTGGAGAGTAACA
GATGCTATGAGTTTAGTGCTAAGTTATGGGATGCTGACCGGAGAGAAGTATGTGGGCTGCAGGCAGTGGGGTCACGGAACTGCAGAATGGCTTGAGAAGC
TTTAAGGAGGATGTCTGACTTTAGTGTGCCCTAAATATTTGACTCTCAAGATCCAAGGAGGCAGCTCCCCAGGAGAGGAAGGGACCATGTGTGGTGTGGG
TGGCAGTGTGCACTGATGGAGTGGAGAGGGTGTCAGAATCCGGTGTTTGTGTGGTGGGAAGGAATTGACTGCTGGCTAGAGAATGAGGAGCGCTGAAACC
TTTGCACCATTGCAGTGGACCCGCTGAGAAGGGTGTTCTGGGGAGGCTGCTCTGGTCTCTCGATGGAGTCAGGATTGGGGGACAGATAGACACCCCGGTG
TGAGCCAGTGATGGTATAGATGAGGGAGGCAGTGAGGACAGGCTCAGGGAGGGAAGTCTTGTCTCTAGACCTGAGACCAGGAAGCAGGAATGGACTGGAC
AGGTTGGCCCASCTGAGGGAGGTGACTGGTGAGATGGGTCCTCGGTGTGAGGGGCTGGGTTGCCAGAGGAGCTGTGGGCTGGGGTGGTTTGTCGAGAGAG
CAGTCCCAGTTGATGGAGAGGCAGGACCCGCAAAACAGGTTGGCTGCAGGACTGGGGGCGGTAGCACAGGGCAGCTCCCGAGGAGACACCTGGCACTTTT
AAGGCATGGAATGGAGAGAGCTAGGGGAGAGCACACCTGCAGTGAGGCAATTCACATAGCAAAGTTCTCCGGAAACTGCAGTGTTCAACTTTTTTAAAGA
ATAGCTGGATGTTAGAAAAGTGRAGGAACTGTCACCTTTATTAGGGGCATCATGGATACCTGGTAGCATCAAGGGCTAGGGTTAAAACCCGTGGAGTAAT
ACGCCCTCCTATTGTGTTCCTCTCCTCTAAAAATGAAGGTGAAACTGTTTCAGGTGAGCGCTGTTGTTGTTCRTTTGCTGGGGCACTGCTTTCTGATTTT
TAGAGGAGTCCAGGCTGGAGACTGACCCCTGCCTTTTTCTGAGTTGGGCCGGCTGGGCCCGAGGCTGGTTCTGGGCTGGGCCAGGCTGATGCAGTGGCCT
TGGGCTTCCCGAGGCTGGGAGAGGGCRGTGGCCCCCGCTACCCTGAAGAGCTGGCCAACGCGGCAGGGCTCTTTCCAGTCCTTACCATGCAAGTGAAGAG
GAACAGTTTGTTTAAAGAGGGGTGCCAGCTTCACATCCAGGCCTGGACTTTGCTACTGGTGCTTTTGAACTTGTGTTGATTTATGTTTGTAAATTGACTG
GACACATTGTGGTTCTTGATGAGAAGCAATTGCCCATCCTTAGCCCACGATTAGTGCCACTCTCTGGGTGCTGCCTGTTCTGCCACTGTAACTGTTTTCA
CTTGACAAATAACATTAAAAAACACAGTTCTGCAAGAGACTTCCTGGGAGGGTGGTATCATTTGGCCTGTGGGCTTTTGTAAYACTTTCCTGCTATTAGG
AGAGTGAATTCTGAATTTTCAATCACGTTSACCTGTTGGAGCAAGTAGAGTTTCAGACGGTCTCCGCTTTTCTCGACTAGAAAGCAGGCCTTCTCCCTTT
TCCCCCCAGTCTTGTTTCMTGACACCATTCCCCTCTGAGATGAGGGTTGGAGAATTAGAAGTCTACTGATGCATTGTACCGGGGCACGTTATTGACCCTC
TCTGCTCTCCTTTCCTCATCTGTAAAATGGAAGATAATGCCACCCATCAGGCCGAGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAG
GTGAGCGGATCACCTGAAATCAGGAGTTCGAGACCAGCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAATATAAAAATTAGCCAGGCACAGTGGC
ATGCACCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGGAGGTTGGAGGTTGGAGGTTGGAGGTTGC
AGTGAGCCAAGATCGCGCCACTGCACTCCAGCCTGGGCGAGAGTGAGACTCCATGTCAAAAAAAAAAAAAAAAAGTGTCACCCATCTTGGAGGATCGTTA
CCAATACTTCATGAGTGAATACATACACATTTCTTAGAACCTAGGGTTTATAAACACTAGGAGTTAGCTGATACTATTGTTGCTAAGGATAGAGGAAATA
CGCATTAGAAGTTATTTACTTCCTTTAAAAAAAAAAATACCCTTTGGGTGTGTATTGATTCTGATGTTTTGCTCCTAGCTACATTTGCCGTTTTTTTTTG
ACTGCAGAATTAGGAACCAGCTTCATTTTTTTTTTTTTTTTTGGATGGAATCTCGCTCTGTCGTCCAGGCTGGAGTGTGGTGGCGCAATCTTGGCTCACT
GCAAGCTCCACCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCCAGCAGCTGGGACTACAGGCGTCCGCTGCCACACTAATTTTTGTATTTTTAG
TAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTTGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTAAAGGCGTGA
GCCACCGCGCCCGGCAGGAACCCAGCTTCATTTCTTGTAAAGAGAGTTTGACAAGCGCTCCACTGGGGATAGCAGCACAGCTTCCTCCTTTTCTGTCCCT
GTCTCCCTCCTGACTCTGCATCTGCCTCCGTTTGAAGCATCCTCCTCCAGTAAGTGGGTCATTTGGATTCCAAGGCCCTTTTGAGGCCATGGTGATGGAT
CATTTGCGTTATCAATGTGAACTGTGGATGTCCCTTCGCCCTTCAGTCTCTTCCTTCTTCAAGGAGGGGGAGGTAATTGGGGGTCATGTGGCCTGGGGAA
GAGCCTGGTCACGAGCATGAGGGATGTGAGTGGGACTATGTTTCCAGCCAAAATTTAGGGCACAGGATCTGAAAAACACTTAGATTAAGTATCTGCAACA
CAAATTAGGGTATTTTAAATTGAATGTGGAGAACCCTGAGAACCTGTGCCCTTTGTGCGTGGATGGCTGCTTGCAAGGATGAGCATCCCCAGCTGGAGCG
GCCCATGGCTGCCAGAACAGGAGAAGGCTTCAGTCAGGTGGGAAGCCAGCTGCAGTGTGTTGCCTGATGCAGGATGGTGCGAGAAGGAGCTGCTCTCTTG
CTCTGCTCCCTGGATCGCACAAGGTCTTCCTGAGACCAGAATTCAAGGTTAGTCCTGTTTAGGCAACTTGGTAGATGGACTTGAATGGTCTTTGCTAAGC
GAATATTGCCTATGGTGGTATTTGCAAGGAAAACAAAAGTGTTTTGAGCCCAGACTAACCAATTTAACAATGCTAGTAGGTAAGGATACTACTGTTTGCT
TTCTGTGATGAGAGGTCTCTTAGGAGGAGGGGTTAATTCTTTTGATTTAAAACTTACTACTTGAGGCAAATAGGCACATGAAAAGATGTTGAAAGTCACT
AGTCATTGGTGAAATGTAAGTCAGACCCACAATTGGTACTTCATACTCATTAGTATGGCTATTACCAAAAACACCAGATGATAGCAAGCATAGGCCAGGA
TGTGGAGATGTTGGAACCCTTGTGCCTTACTGGTGAGACTGTTAAAATGGCACAGCCTTTTTTTTTTTTAACAGGAAGATGATATGGTGCTTCCTCAATA
AATTCATCATAGAATTGCCATATGATCCAGCAATTCCACTTTGGGGTATATGCCCAAAAAGAAGTGAAAGCAGGGGCTCGAACAGATATTTGTACACCCA
TGTTCATGGCAGCAAATAATTCAAAATAGCCAAAAAGTGAAAGCAACTCAAGGGTCCATCCATAGACGGGTGGATAAACAAAATGTGGTCTATCCATACA
ATGGAATATCATTGAGCCTTAAAAAGGAAGGAAATTCTATGATGTGCTACAATGTCTGTGAACCTTGAAGACACTCTGCGAAGTGAAAGAAGCCAGTCAT
GAAAGGACAAACAGTGCATAATTGTTACCCTTACGTGAGCTATGTAGAGTAGTCACATTCATAGAGACGGAAAGTAGAATGGTGAGGGGCGGTGAATAGA
GGCTGGGGGGAGGGAGCAATGAGGAATTGGTGTTTAATGGGTACAGAGTTTCAGTTTGGGAACATGTAAAAGTTCTAGAGGTGGATGGTTACGGTGGTTG
AGCAACATTGTGAATCAGTGTCAGTGAACTATACACTTAACAAGGGTTAAAATGTTAAATTCTTTGTTGTGTATATTTTACCACAATTTTAAAAAGCTTA
TTTCTCAATTGTTTATGCGAGTATATGTGTGGAATAGTTGGGGAGACAAATTCAAGGAGACCAGTCCTTGTCCATGGCGGTCCTAGGTACCACGGGATCA
CTGCGGGGGAACTGTGAGGTCAGGAGAGGCCTTGAAAAAAAACGCAGGTTTGAGCTGAGTCAGATGGAATGGGTCTGTTTTCTATATCAAGAGACAGTAT
TGCAGATAATTTTTTTCTTTCAAGGAAAGCAAGTCAGGAGTCAAACTCTCATGCCACYGTAGTCACAAATGAAATTTATTGCTAATCAGCCATGTGACGT
GTAATTGCTTTTTCATTTTCTTATTTTTCCAGAAGAGAGATTTGTTTAGATGTTTGATTCCCTCACTGATTATGATTATACTGGAAGTTTTTCATTTGTT
TTGACAGCTCAATTTTTTTTTTATTGTAAATGGACTCCCTCATTACAGAGGGGGGAGCCCTTGAAAGAAAGGGATTGACCTCTGCAGGCAAGAATCTGAG
CATCCTAAAAGTAGAAAAGGGCTAGAGGCTTCGCCTTACAGGCCAGGAAGCTTGGAGGGACGCGCTGCTAGAGACCATGGCACGCATGCTGTGTGTCGAA
GGCCAGGTCCGCCTGTCTGCCTCTCCAGCAGATACTCTCTGGGGCTATTTTTTTCTGCTTGGTTGTCATCYTTTGGTTTAACCAGGCGCCAGGGCTCAGG
CCTGGACCTGCTGGATTCCAAAGAAGACTTCGAGGTGGCCGAGCTTGTCTGGCTTCCAGAGGAGCTTTCTCTGTCCCGCCCGGGGGAGTGGCTCACCTTG
GTCTGAGACCAATGGGAGGAAGCCTGCTGCGRGCAACTGGTCTGTGCCTGGAAGTTGGACTTGCATTTTCTCTGGACCTCCAAAGCAAACCCGAATGACC
ACTCTCATCCTCCCCTTTTGCTTGTTTGTGTATGTGCTTGTTTTGCCTGGTCGTCAGGCAGGAGGTGGTGTCAGATGATGAGAGGTGTTGCTCGTCCCTG
GGTTGGTTCTCTTACGGGGCTGTATGGATGTCTTAGCTCAGACTGCTGTGACAGGTTACTATAGACTGAGGGCTAAAACCACAGACTTATGTTTCTCACA
GTTCTGGAGGCTGGAAGTCTGAGATCAAGGTGCCGACCAAATTTGGTTTCTGTTAAGGGTCCATTTCTTGGCTTGCAGATGACAAATGTCATGTGTCCTC
ACAGGGTGGAGAGAGCAAGGGGCTCTGGTCTCTTCCTCTTTATGTAAGGGCATTGTTGCCATTATGGGGGCTCTACCCTCAGGACCTCATCTAAACCTGA
TTACCTCCCTAAGGCCCCACCTTCAGATACCACTGAAGGTATCTGGGGGTTGGGGCTTCAGTATATGAATTGGAGGGGACACAGTCATGCAGTTCAGAAC
AGTGGAGCAGTGTGCCATAGTGAAGGGATCTCCAGACCAGGATTCTCTATGGAAGTTCTTGGCCAGGTCTGAGAGTTGGTTACAGATCATTAAAATTTAC
ATGGAATCCAGTACTTGAAAGTACATGTCTTCAGGATGGCGCTGAGCACATTCGCCTCTGTAACCAAATGCCTGAAATGTGTAGTGCACCTTCTGAGCAC
CCCAGTGCTTTCCTTAAAGTGAATGCAGTTTGAGAGGAACTCAATTATTGAGAAATTTTATATGACCCCATTTCTCTCATTTTAGGACAGATAAGTTGCT
TATTTTAAACTCTGCAGGAGCTACATAGAGGAAGTTATACTCCAGGAGAGCTTAAATTTCACTCTCTGAAAACTCTGTTCCATGTAAGTACATTCCTCCT
CTCTCCCCTCCTCAGTGAGCACGTACCCATCAGATGTGTGGAATTCTATTAAAAGCAGCTCCTCGTGACCCTCCAGGGTTTTGTAAAGCTGACACCAGCA
TCAGTGAGTTGGAAGGGGCTGCCACAGAAGACAGACTTACTGCTGCAGCCCGCTTCAGAGCCCTCAGTAGTACTTTTTCCTCTCCCAGCAAATCCAGGAG
GCTGGGAAGGTGATTGTTAATTGTTTATGAGCATTAACTGTTTACCAGTCATACTTACTATTTTAAATCTGACCCTGCCATTATGTTGTTTTGTTTCTGT
TCACAGCTGAGCTTTAAGCTGGGTAGAATTTCGTGATGAGTCACTCCTATGACTGTAAAATCAGTATCGATCAAGCCTTCCTGTTCATCCTGTGAGCAGT
TTAGAGACAGATGAGACAGGCTTATGGTTTCCACTGGCTCGGCTCCGTGCGTGTGCGGATTGGGCTTCCTGAGAGCCTGGTTAGCCCCTTTTATCTGCTC
TCTGAAACCTGCGCAAGGGTKTTTAGCATGCACCTTGAAACCTCTGCTGCCTGAAGACAGTGTGCTTAAATGAAGGGTATACAAACCCATGTGAGGTTTT
CTCTTCCCTTTTCCATGAACTCCACCCCAATTACCTGTTTGAATTTTGCATGCCAGTTATTTTCAGGGAACTAGTGACCCTTTTCTTGCCACCCTGGGCT
TTGAATTGAAGGCCAGTGTGCCACCTTTTCTTTGGCTTTGTTAGAACGTTGCCCTCAGGGTCATATGTGCTGGCTGCTATGAATTCTTACTGCTTGATGG
ACAGAGAAAGGTGAGGGTTAGATATCTGGACAGGGCATGACAGGGCGGGTCATCGAGTAGGAACATTGGGACCTTTTGCTTCCAGGCTTGAGCAGTGGGT
GAGAAACACTGTCTTCCCATTAGGGCAGTGGGTGAAACACTGACTTCCCTCCATCCTCTGGGCAGCCTTGTCAGGTGGGTGTGGAAGCTGAGGTGTGTCT
GCCCCAGGCTGTGCAGTCAGCCCCGTGTTCTAGCTTCCCGTGCCGAACCTGGCCCTGGAGGCTGTCTGCCTGGCAAGGGGGCTGCACAAAGCTCGGAGGG
GCATTTCTGGTGCTTGGTAGATGGTAGGCCTGCCCCCAGTGCACTGATAAGAGCATGGGCTGAGAGTGCCACTTGGATTCGGCTACAGTGGGCGGCAGAG
TGGGGGTGACTGGTGTTGCTTTTACTCTAGAGCAGAGGAGGCAGATGAGGTAGATCGGGGCCCCAGGGATGCTGAGCTGAGCTGGGTAGAGAGAATTTGG
TTTTGTAGGATTTGGAGACAGAGACAAATTTGGAGTGTTTGGATGTTCGGGGACCTGCAGGAGGTATGTGAGGTGTGTAAAATGCAGCCCCTGTTTTAWA
AAGAGCTTACATTGTCTCTTGAGAAGATAAGGTGTGCCCAGCTGTGGAATGGAACCAGATGCTTTTATGAGTGAGGATGGAGTGAGCACACTGGGAAAGA
GCCCTGGAATTGGAGGAAGAGATCATTTTGCCCAGAGGGATCTTGGAGGTCTCCTGGAGGAGGGTACTTAGATGATCAGAAGGATTATACTAGACTTGAT
GGGGTGGTCTTGGCATCAGAACTTTAAAAATGTATTTTGGGGCTGGAAGCAAGGCTGGAGAGGAAGGTTTGTTTAAGTTGTAGTGGGGGATGAGGCTGGG
GGCAAATCAGGGATGGTTTTCCAGGTCTGTAAAGGCTGGGGTAAGAGGAATGGTTGGTTCTTAAGAGCAAAAAAAATCCCTTACATATTGGTTCTCTTAT
TTGTGCTAAGTTAAATACATGGGAGGCTACTGGTGTTTATGAAATAACCCTGAGCCTTTTTGGGGAGGTAGTAGTGGATGTCTGATGGAAGAGATAGAAG
ACTGGTCCCAGGGGTTCTTAGTGGCACCTTCCTCTCAGGTCATCACTGTGCTTTTGCACATTGCAGTTATATTTGACTACATTTGATTATGGCAGATTTA
CTTAGAAGGGCACTGGAAAAAAGCCTCCCAAATTACAACTGACACAGGAAATGACTTTATTTTCTTCTATTTTTTTTCTTTGCTTTTCTCCCCCAATCAA
CATACATTTTTAAACCTGTCATCTCACATGACCTGCCGGTAGAATTGATATGTTTAATTTCTGTAGAAAATAACTGGAAATATTTCACAAGCTCCAGTAG
CTTCCTGTTGTAGGGACCCTTAGGACTTTGGAATGAGAAGTTTTCTATTGAGTTGTCATATTTGGAAGGATAAAGGTGCCCTCTTTTCCCTCGATCCACA
TAGTAGACTCCTGTGTGCGGGCATTTGTTTGGTGTCTCACGTTGATGCAAATGCAGCCATTGCAGAGTGAGCCCCGCTCTGTTACTGGATCTCCATTTGC
TCAAAAGAGAGCAGTGTCCCCCTCCAAATCTGCATGTCTGAAAGCATTCATGCAGGTTCATTGCATGGGTCTTTGCATTTTACTTAGACTTAGCAAAAAT
CAGGTATAGTCTTTCCTGAAAACAAAAGTGACCATTGTTTTTAATCAACTGCAGGGTGTTTGGAGTTGTGAAATATTTAGGGTCCCGAGTCCATTCCAGA
TTCAACATTGGGAAAGAATGAGAAAGCTGAAGCCTGGGGCAGGCTCTGTCTGCAGAAACCATGGGCTATCACCCCCTCTCCTTAGCAGCATTGTAAACAA
ACGTCATTTGTAAGGAGCATGTCCCAACTGAGCTTGTAATTATAGGGGCAAGATTTGTGTGGTGGTAGGGGCATGGAGCTGGAGACTGGGGGCTTCCTTA
TTGGTTCATTTATCCTGGCCCTTCTCTTTTCTCTCAAGTCTCAGCTCTTTTAAGATTCAGAAAATAATGCAAAATGCCTAAGATTTCTGAAATTCCTGGC
TTCAGAGACTTGACTACATAAAAGAGCCAGGATTTTCAGGCTGGCCATTTCAGGATCAGCCATTTCCCACTTCCTGATTCATAGCTTCCAGGATTTGTAA
TGCCTGTAGACTTTTTTCTCTYTTGCTTAAAAGTGGCCATTGAAAGAAAAAATAAATAGCAAAATCCCCATCCCAGAAGTTCTACTTCCTGTTGTTGTAC
TATTGAGCTCTGAAAAACAGCTTTGTAAGTTTARGCTCTTGTTTGGACTATTTCAGTGGAATTCTTGAGATCTTTTTGTTTGGACAGGCAAGTATGAAGG
CGATAAGTCGAAAGAACTACAGCTTACTCAGCACAGAAATGCAGAGGCTCAAATTTAAGTTCTTCCTTAGCTTTATGGTGTGTATATTAATATAATCCAA
GCAATAGTGAGTTGCTTAGCCAGGGTGCACAGACATTTTCCACAATGCCAGTTGTTTCCCTCATAATGTTTAATGTTTATTTTTAAAGGACATATTTGGG
CACACGTTTCATTTTTGCCTGTAAAAGAATTGGGAATATTTATGATTCTTGCAACAAAGGAGAAGGATCCAAAGTAACCAAGAAAATGATGGACTGGCAG
CCTTCACATTTTCCCACAACTCTTTTCATGAAATAAAATGTAGATAAGGCTGGGTGCCATGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGC
GGGCGGATCACCTGTGGTCGGGAGTTTGAGACCAGCCTGGCGAGCACGGCAAAACCCCGTCTCTACGAAAAATACAATACAAAAATTAGCCGCGTGTGGT
GGTGTGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGTGGGAGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGCGAGACAAGATGGCGCCATTGCA
CTCCAGCCTGAGTGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAAGTGTAGGTTAGCAAAAGTGCCTACAGTTCAAATGCTTCCATGCTA
AACGTTGTATTTCTTCCGGTCTCATTTGTGATGAGAGTCATAAGATTTTGAGAAATACAAAAACCTTTCCAGCTTTATAGGATGATAATGGCTTGGCCAC
TCAAGTAGTTCTGATTGGGTTAACTAATTTTGGTCCAGTAATCATTTCATTTGGGGTGAATGGATTTTTCCCCCCTAAATACGGGTACCTGGAAAGTTGA
AGCAGTGAATCTGGTGAAACTTAATCAGTGATTTCGTAAGGGTTAACAAATGTTTCTGGGTGGGATTCCTAATGTCCAGCTTCCTCTGTGTAGCTCAGTA
AGTCTTCTTTGGAGACACTAGCCTGCATTGTAAGACTGTCACATGGGAGCATCTTTTTATTTTATTTTACTTTTTTTTAAAAAAATGAGGTCTTTATTAT
CCTGGCTGGAGTGCAGTGGTGTGATCATGGCTCACTGTARCCTTGAACTCCTGGGCTCAAGTGATCCTCTTGCCTCAACCTCCCAAGTAGTTGGGCTGAT
AGACATGAGCTACTGTGCCACGTAGCATTCTTGGGGATTATTGTAGGGTCCTTTTGGACCACACATGGTTTTATACTCTGTAGCTGATTGATGTACTGGC
ATGTCAGTGACATTGTGTGTATCATTACACTATTTGGTTAATTGATGTACTGGTGGAATAGCCATCTTCTGGAGGCTCTTGTTTGCATACTTCTCTTAGT
GGCGGACTAGCGGTTGTACAGTAAATAGATGATCATTCTCGCTCTGTTTTACCTTTCCTCAGCTGCTCTTCTAGTAGGAAAATAACAGCCCTCTTAGCTG
TAGTCTTCTGGAGGCTCTCTCAATAATAGAAGTGGAAAGAAAAGACTCAAATCCCTGGGCAGTGACTTTTTAGTTGTTTCATTTGCTTTTAAGGCAGAAA
CACCTTTAACTCTTAGTAGCCTTACAGATCATTTTTGAAAACACCTGTGCTTGCCTTGAATGGGGCGGTGACCACTGGATCCCCCCATGCTGGGTACATG
TTTTGCAGTCACAGACACTGCTGGCCTCACCTTTGGTGGTGAAGGAATGTTTCCAATTTCTGCTGATGGTGTAGTGCTCTTGGGAGCTGGGTGCTCTGAA
TGAGCAGATGGGCATCTGCTTTTTTAAGCCTGCTGTTCATTCTGCAAAATAGTTATTGTGCAAATACCTGATAAGCACCAGGTCTGTGCCAGGCGCTGTA
TTTTGTATTTTGCATGTCTGAGGCCAGCATCTTTTTCCCTGTTCCTTTTTCTCCTCATCCAGTGAACTTTCCACTGTGGTTGTAGTTTGTCTGAAAAAGA
TTTGGAAAAAATGTACAGCCATGTTTCTCTTGTCTAGAGAAGCTGTCTTAAGGACTTCGACAAGTTTCATTGGCAGAGTGAATGAGTGGTGGCCTCTGAA
TAGTTGAAATGTTAATGCTATCTATAGGTTCTAGAGAATCTGTGTCTTTAAAAGTCATAGCGATAAAGTCTCAGCTTTTTGAGAGAGTGGGTTTCAGACA
TACTACTATACAGGAAATCTGATTGTTGCATTGAAACAGGATTTGTTATCACATCACGGTTAGACATACCCAAAAGGCAAAAACTACAGTGGTCATGATT
GCTTTACATAAGATTTTGGAGGAGAAACTGTTAGCTCCATGAAAGCAGGAACTGTGTTCACTCTTGAATGCCTGCTACCTGCACATGGTGAATGTTCTAT
AAATGTATATTAAAGAAATGGAGGTCCTTAGAGTTCCAAGATCACCGTCAATATCATCACCCTAGGCTTCCTCGTCCTTCCAGTTACTTCTTTTCCAGAA
GAGTCCATTGCCTCCTTTATATGAGGTCTACAGAGCGCGTTCAGAGGGCTCTTATCATTGATTCAGCAATCACGTGTACACATAGCACTAGAATGACTTC
ACATATTTGACCTGTTTAAAAATAACGTGCAGCTATGACGAACAGCGAACCTTTGATTAGGGACACATTTGCCTGCCGCCAGACACTACAAGTATTATGT
GTATTGCTTTTTTCAAATTATAATAGTAATAGATGATTATGAGAAGAAAATTAGAAAATAAGTTTTCTGTCTCTCTATAAAAGGAAAATAAAAATTATCC
TTAATCTCAAGGTAACCATTGTTAATATTTTGTTGTGTTTTCCTGAGATTTTCCCCCTAGACTTATATGTGTATCTATATATTTAAAAAAATGAAATTAG
TAGTATACTATGTACACACATATTGTGAATTTCTGCCCATAACATTATATCTTTATCACCTGGAATGAGGTCTTTAATGAAATTATTAAAATTAAAATTA
TTCTATAAATGCTAAATTTAGGTATTTTACAATTTTTTTTTTTTTTTTTTTTTTTTTGAGACAAAGTCTTGCTCTGTTGCCCAGGCTGGAGTGGACTGCA
GTGGTGCAATCTCAGCTCACTTCAACCTCTGCCTCCCAGGTTAAAGCAATTATTCTGCCTCAGCCTCCCGAGTATTTGGGACTACAAGTGCATGCCACCA
TGCCTGGCAAATTTTTGTATTTTTAGTAGAAACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAATGATCTGCCCACCTTGGTC
TCCCAGAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCTGGCCCATTTTATAATTTTGATCATTAAAAAATGATGTGATAAAATTATTGTGTATTGTTG
TTGATACACTACTCTGATTAATTCTTTGGGCTAGATTCCTAAAAGTGGAAAGTAAGGAATAAGAATTGTGTAAGTGTGCATGATCCTAGATAAATATTGC
CAAAATATTTTGCAGAAAATTCTTAGTTTCAGCTTCCAGAAGCAGTGTCTGTCATCCATACTCCACCAGAATTGAACACTAAATTGAGCTTTGCAATTTT
AGCATTTAAAAAGTTGTATCATTTAATATAGAATRGCAGTCTCTTCATTATGATCTTCCCTTGCCTAGTAAGTTTATACTCAAGTCAAAATCGGTTAATC
ATGCATATTGATTCCTTGTTTATCTTTTTCTTTTAATTCTTTAATACTTCTAGAATGTATTTGTAGTTAAGTGAAGTAAGATACCTCCTCCTGTTGACGA
TTTAGTTTCCCCACATTGTGCTGTTTTTTTTCTTCACTGGATTATGTAACAATATCTTTTCTTTTTTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTGAG
AGAGTCTCGCTCTGTTGCTCAGGCTGGAGTGCAGAGGTGTGATCTCTGTTCAAAGCAGCCTCCCCCTCCCCAGTCCAAGTGATTCTACTGCCTCAGCCTC
TTAAGTAGCTGGGATTACAGGCGTGCGCCACCACGCCTGGCTATTTTTTTATTGTATTTTTAGTAGAGATGGGGTTTCCACATGTTGGCCTGGCTGGTGT
TGAACTCCCGGCCTCAGGTGATCCGCCCACCTCACCTTCCCAAAGTGTTGGGATTACAGACGTGAGCCACTGCGCCCAGCCTAGAGACTCTATTTTATTA
GTGTTTTTTGTAGACAAAGTCTCACTCTGTTGCCCAAGCTGGAGTGCAGTGGCGCCATCTCGGCTCCCTGCAACCTCCACCTCCCGGGTTCAAGCAATTC
TGCCTCAACCTCTCGAGTAGCTGGGACTACAGGCATGTGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAAATGGGGTTTCACTATGTTGGCCAG
GCTGGTCTTGAAATCCTGACTTTGCGATCCGCCTGCCTCGACCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGCTCCTGGCCGAGACTCTATTTT
AAAGCTGTCTTCTCCCACTGATTTGCCTTTTGTTTGTGGTAAAATCATTTTGTCTTAAACACTGTAGCTTCATTATACATGTTAACATCTGCTAGGAAGA
ATCTCCACTCAGGTTAAAAAAAAAAAAATTTGAAGCACCATTATTTCAGGTGAACTTTGTGTGTGTGTATGTTGTTTTGTTTTTGCAATTCTTCTCCGCT
ACTCTTCCAAAAAAGAAAACACAAATTTATTAGGTTTTGATTGTTAATAAATCAGTTTGGGAGAAAACATTTCCAGATATTTGAATTACTCATTCAAGGA
CATTTCGTGTTTCTCCATTTACTCAACTATTATCTATCTATGAAGAAATCACAGAAGGTCATAGAGGTTGTATACTTTTCCTTTTGGGTTATTTCTGGTT
AATGAATGCTTTTTGTTGCTAATGTAGAAGGAATCTTTATTCCCCATTGTTTATTTTATATTTTTAAATTTTTTTTCAATTAAAAAAAATTTTTTTTTCA
TTCCTGAGACAGGGTCTCGCTCCGTTACCCAGGCTGGAGTGCAGTGGTGCGGTCATGACTCACTGCAGCCTTCAGCTCCTAGGCTCAAGTAATCCTCCAC
CTCAGCCTCCTGAGTAGCTGGGACTACTGGTATGCGCCACCATGCCTGGCTAAGTTTTTTCTTTTTCTTTTAGAGGCAGGATCTTGYTGTGTTGCCCAGG
CTGGTCTCAAACTCATGACCTCAAGTGATCCTCCCACCTTCACCTCCCAAAGTGCTGGCATTGCAGGYGTGAGCCACCATGCCTGACCTTCCTTGTTTCT
TTTAGGTGATTATTGGTTGTGTGTGAGGAAAGCTCTGGTATTTTCTGTACTTATCTTGTACCTACCCAATTTGTTGATTGCTCTTATTCGTTATAATAGT
CTTTCAGTTGACTCTTCCTAATTTTTTTGTGCCGAGAATCATTGATGACAAATAAGGATAATTTGGTCTCCATTTTTCTGGTACATAATACGTCTTTACT
TACCATCAGTTGTGTGTCACTTAGGAATATAAATGGCTGAAAATAACTGAAAGCCTGCCTAATAAGGGAGTAGGCCGACAGGGGCTGACTTTTCTCAAGT
TCAGGCAGTCTGGAGGGAAGGAGTCTGTGGCTGCTGTGAGGTGCTCAAAGAGGGTGTGAGGACTGGGCTCCTGGCTTCTGTTTGTTCATCCTTAGCCTGT
GGCTTTTGTCCTCGTGAACACAAGATGACCTCCAGGAATTATGTCTGTTTCAGGCAGGAAGAAGTTGAGAAGGAATGAAGACAAAAGGCAAAAAAGGCAG
AATGACAGGTCAGCAAGCGCTGCTCAGCCAGTAGGCCCTGCTTCTCCTTGGCCAGAACTGAGTTGCATGCAGCTGGCTAGAAGGTGGGAGATGAATGTGG
GTATGGCTAGTGGGTTGGGCATGGGGGTTGGGCCAACCAAGCATGGTTGGTCATAGGGTCTTGCTGCATTAGCCTGCACATCCAGAATTGTTACATGTTG
ATTACAGGCATATTTGTCCTTTTTTGTCTATATTAATGATAATGCCTCTGTTTCTCAATGTGTAAGGCATCTTTTGGTTTAAGAGGTTTTCATCATGTTG
AAGAATTGCCTGTCTTGTTTTCTTGGGTGATTTATTAAGGATGGGTGTTGAATGTCATCAGATGTCATTTTGGCATTCATTTGGATTCAGAAGTGGTTGT
TACACCTATTAATTGAGGTAGGAATAGATTACCTAGTAGTAATCCCTCCTCAAATTCCCGTGTTAAACTATTTTTGGTTGCGGTGGGTGGCTGTTTAAAT
TCCTAATTAAATTTGGTTTGCTAACATATTCAGATTTTTTAATCTCTTATTTTAAATGAGATAGCTTTACAGTTCTCTTTAGATGAGTTCTTTTCCAGAT
TTTGCTGTCAGGCCTAGACTAGTTTTGTAAAATGAATTAATGACTTTTCCTTTTTACCTTCTCTGTAACAGTTTTTATAGTGTGGCAATAAACTGTCCTT
TGAAGGTTTGGAACAACTCACTTGTTAAATGCCTGGAGGCTGACACTTAAAAAAAAAAAAAAGAATAGTTTTTGTTGTGTTTCTTTTTGTTGTTGGTGTT
GTTTTTAGTCTTCAGTGCAGTGGCATAATCTTGGCCCACTTCAGCCTTGACCTCCCAGGCTCAAGCAGTCCTCCCACCTCAGCCTCCCTGGTAGCCGGGA
CCACAGGTGYTTTGCCGCCACACCCGGCTAATTTTTTATTTTTTTTGTAGTTTTTGTAGAGATGGGGTTTTGCCACGTTGCGCAGGCTGGTCTAGCATTA
CTGGGCTCAAGTGGTCCACCTGCCTTCGCCTCCCAAGGTGGTGGGATTAACAGGTGTGAGCCACCATGCCTGGCGTAAAAAGATGGTTAGTTTTTGTTTT
GTGACAGCTTTAAAAAAGGTCTTCCATGGGTGTTGGTCTGTTCCAGGGTTCTGGTTCTTTCCTCTGATGCTCTTTTTTTTTTTTTTTTGAAACAGGATCT
CGCTCTTGTCCCAGATGGTGTACAGTGGTGTGGTCATGGCTCACTGTAGCCCCAGCCCACTGGGCTCCAGCAAGCCTCCCACCTCAGCCTCTGGAGTAGC
TGGGACCCATACCTGGCTAATTTTTAAATGTTTTTTAGAGACAGAGTCTCGCTATGTTCCCATGCTGGTTTTGAACTCCTGGGATCAAGCGACCCTCCTC
CCTTGGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACCATGCTGGCCTTCTGGTTCTTTTTAAATCAATTTTAGTAATTTAGTAATTTCCAGCAAG
TCAATTAAAAATTATAGCTCAGTTGTATGTAGTATTTTCTGTGTGGTGTTATGCCCTCTGTATCTGTTTTCTCAGATGTTTTAGTTGCTTTTCTCTCTTA
ATCTTGATTAGAYCTGCCAGAGCTGTGCTTATTTTGTGTCCCCATCCAAATCCAGAATTAATTGCCGTGCTCCACATGTTTTGGTCAATGGTGGACCTCR
TCTGTAACAGTAGTCCCATGAGATTATAATGGGGCTGAAAACAGTGCTGTCCCCTAGGGATATCGTGTCTGTTGTAGTGCAAGGCACTGCTCACGTGTTT
GTGTTGATGCTGGTGTAAGCCCACTGTGCTTCCAGTCAGATGAAAGTGCAGCGCATACAATTGTGTGCGGTACCTAATACTTGATAATAAACAACCATGT
TACTGGTGTATGTATTTACTATGCTGTACTTTTAATTGTTAGAGTGTACTCCTTATACTTATTAAACACAAAATTAATTGTAAAATAGCCTCAGGCAGGT
CCTTCAGGAGGTATCCAGAAGAAGGCATTGTGATCATAGGAGCTGATGGCTCCGCCTGGGTTACTGCCCCTGTAGACTTCCAGTGGGACAGGATATGGAG
GTGGAAGACAGTGACATGGATGATCCGGACCCTTTGTAGGTCTAGGCTAACGTGTGTGTTTGTGTCTTAGCTTTTAACAAAAAAGTTTAAAAAGTTAAAA
AAAAAAGTTAAAAATAGAAAAAAGCTTATAGAATAAGAATATAAAGAAAATATATACAAGAACCAAAATTTAAGAAAAATAAAGTTTGTAAAAGTAAAAA
AAGTTGTGCTTAAGCTAAGTTTAATTTATTATTGAAGAAAGAAATTTTTAAATAAATTTAGTGAGGCCTAGGTATACAGTATTTATAAAGTCTACRGTAG
TGTACAGTAATGTCCTCAGCCTTCACATTCACTCACCACTCACTGACTCACCCGAGGGAGCAACTTCCAGTCCTGCAAGCTTTATTCGTGGTGGTACTCC
CATATACGTATGTATACTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAGTCTCGGCTCACTGCAACCTCCA
CCTCCCAAGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACCACGCCTGGCTAATTTTTTGTATTTTTAGTGGA
GACAGCGTTGCACCGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCA
CCGCGCCTGGCCTTTTGTTTCGTTTTTAAGAGACAGGGTCTAGCTCTGTCACCCAAGCTGGAGTGCAGTGGCGTGATTATAGCTCATTGCAGCCTTGAAC
TCCTGGGCTCAACTGATTCTGTTGTGTCACCCTCCCCAAGTAGCTAGAACTACAGGCTCATGCCACCACACTTGGCTAATTTTTGTTTTTTAATTTTTTG
TAGAAATGGAATCTCACTATGTTGCCTAGGCTGGTCTTGAACTCTTGGTGTCAAGCAAGTGCTTGGCCTCTGAAGTGCTGAGATTATAGGTGTGAGCCTG
GCCATATGTACTTTTTTTTTTTTTTTTTATCCTTCTTACTATATTTTTATTGTACCTTTTCTATGTTTAGGTATGTTTAAATACACACATACTTACCATG
GTGTTACAACTGCCTGCAGTATTCAGTGCAGTAAYGCACTACAGGTTTGCAGGTTGGTAGCCTAGGAGTAATAGGCTATACTGTATAGCCTAGGTGTGTA
GTAGGCTATACCATTGAGGTGTAAGTATACTCTGATCACACAATGATGAAATCACCTAACTGTGCATTTCTTAGAATGCATCCCTGTCATTAAGTGATAC
GTAACTCTGCTTCTTTAAGCCTCTGTAGCACTTTGGTTATGTTAGGATTCTGTGTCTTTACAAGTCTGCTTTGCTGATCGATTGTGACATCTTGAGGGCG
GCTGCACTACTTTCTGCCTGCACCTTGTTTCGCATGTCTACCTGGCGCATGACATACACCTCGTTGTTCAGTTCTTGCTTCTCTGCTTGTGTCTTTGCAT
TCACCACCAGCTATTCTGATAGTTATCAGGAGGTTTTCATTGATTGCAGTCTCGTGCAATGGGTGCAGGTAATGGGTAGCCTTATGGAGGAGAAAATGCT
TACCTATTTGGGTTCATTCCAAGGAGTAGTTCAAGGATAAACCTCTAAGTTTGGGGAGTGCTGTAATTTGCTGGATATGTGAGCCATAGAAGACAGCTTG
GATGGCATCTGATGCTTCCTGGCTGCAGGGATGGAGGCAGCAGACCCTCCTGCCTGGGGTGGTTGGTTGCCATCCCTGTCGGGGGCTCATGCTCCACCCT
CAAGGCTATTCTTGGGGGAGTTGTGACATGGCTTTCATAAAAACTCAGTGGAATTTTACCCTGTGTATTAGTTAGTAAAGGTGAGTCTGGTTCAGTTGGT
TTGAGTCAAAAAATCTGTTAATATCTCTGCTTTAGACCTGCATCAGGCTAATACTTGAATTTAGGGTCTGTCCCTGGTGTCATCTGAATTTTTGTTTGCT
ATGTGTGACCAAGGAGATGGTCACTCTTCAGGATGGGTGGGTGGAGGGGAGAAATGCTATGATTTCTGTTGGGTCATGTGAAATCAATTTGGAATGTGGA
TGGGGCCCTTACACTTTTTCTTTTGAGCTTAGTGATTTTCTGTGTAGGGTGGAGAGCGATTAGGAAGGAATTCACCACCCTTAGGTCCTCAGGCATAGGG
TCTTCTAGGGGCAGGACTGATGAGTGAACAGCAGGGTGGATGGAGCAGAACCGTTGGAACCTTCAGGGCAGGACCTGCCACCATTATTTGGTCACAGGAA
GTGTTCAGTGGTGAACTTGTTGGAAATGATTTTGAGTAACTTCCGTCTCCTAAATCATATTAGGACTCTTTGGTCTCCTATGGTTATCTGAGTTGTTTTC
CAGGAGGAGCTGGGAAGGTACCAGGAGAAAGATGACTGTCCCTCTCATGTTTGCTGAGGGTGTTCCTGTAAGGTGAGCTAGTGTTCCTTTTAGGGCCCGT
GGAGACCGACCTTCACATTGAAGAAGCATATCTGTGCTCCGAGATGTTTTCATGGGGAGAAGTGTCAGGTGTAATTATAAAAGGAGTCTTTCTCTTTAAA
TACTGTAGGCGATTTAGAAATAGTGGAGGTTTAATTGAAGAGCTTGTCTACGTTTTTACATTTTCCTTAGGCACAGAGAAACTAGTATCTTTCTCTGGGT
TGCCTTTTTTTTTGGAGACAGAATCTTACTCTGTCATCCAGGCTGGAGTGCRGTGGCCTGATCTCGGCTCACTGCAGCCTCTGCCTTCCGAGTTCCAGCA
ATTCTCCTGCCTCAGCCTTCCAGGTAGCTGGGATTACAGGCACGTGCCACCATGCCTGGCTAATTTTTATATTTTTAGTAGAGATGGGGTTTCACCATGT
TGGCCAGGCTGGTCTGGAACTCCTGATTAGGTGATCCACCCGCCTCTGCCTCCCAAAGTGCTAGGATTACAGGCATGAGCCACCACACCTGGCCTGGGTT
GCTTTTTAAATTCATACCTACTGTCTTATTTGGGTCTCAAATGTGATCAGTGGTTATACTTTTCTTGSTATGCATTTAAGTTGGAGCAGGCTCCGGGGCA
CCACTTCCCTCCCTAGAGTTGATGAACCCCTCATATCAGTGACCTCCCCATGTCACAGTGTATCTCGTGTGCACTGCTAGATATTCTGATCACACAGTGC
TGAGATTACTGGTTTCTCTCCCTTTCTCTTTCTGTGGTTATAGGGATTCTTTAAGGGCAGGCAACATGTTCTTTGTTTCCATAGGATCTGACAAAGTGCA
TGGCATAGGTAGGTGTTCATCAAAAGGGGTGGAATAGGGTTGATCTCAAGGGTTTTAAGAGAGATCTGACGAGTTTGGGTGTGTGACTTAAAAAGCAGAT
ACAGCGCCTTTTCACGGATACACCTCCGTGATTCCTCAAGTGGTCTGGCTGTGTTTATTTTAGGATTCTAAAAGTAAAGTGTTCTGTTCTGAGTCTTTCA
CGATCTGATGTTCTCCAGTTCTGTGAGGTCTCCTCCTTTAGTCCCATCATTGGGGCTGTTTCTGCTCGGAAGGCCAGGAAGTTGCTGGAAGTCTGCTGGG
CTTTGCAAAGGGACTTTTGCTTGTGTGGGCATTGCCCAGTTGTGTTACAACTTGTTTACAGCCGTTGGTTTTTAAGGGATGAGGTAATCTTAGCTCAGCT
TAGTGTAATACACAACAGTTTTGTTTATTGAGAAAATCATTGTTGAAGTTTTTCAGATGTTAGAGATGTTATGAATTGCAATCAAGTCGGTATCCTCTTA
TATAAGTGCATCTGACAAGCCCATTTCACAACTACATCTCATCAGTCACAGTTGGATGGCAAGGTTTATTGTTTAAAGTTTTTGTTTTTTCTTTTTTAAG
TTGGGAAAGGAAGACAGATGGTTTCAGAAGCCAAGAAAGGGCACAAAGGCGTGGATATTTGGAAATCGGGACATAATTCACCATTCTTCTTAATTTTTTC
TGATCTCTAAGACACTGAGACAGCTGTTAATTGAATTGCTTGTTCACAGTATTTGAGACGTAATGAAATGTGAGTGTCCTAATCACCTGGCGGGCGTAGA
TCTTTGGGATCCTCCTGGAGGCTTAGTAGGGCTGCCCTGAGCAGTATTGTCTTCTCCAGCTGGGCCTCTGAGCTGTACCATGTGCCCGTGCTCAGCCTCA
GTCCMTCCCTCAGCCAGTTGTTAAATCACTTTGGACGTGTGACAGCCTCAACATGTCACAGCTTTAAAAGTTCAGATTTTAAAAAGGTAAGGAAATGATC
TCCTAGTGAGACAACTTCTGCCTAAAAAATAAAAGCTTCTAAGACATAAATTCTRTGTTATGAACAACTTGCAATTTTCATAGTTTTCAGTTTTAGCTCT
GGCAGCCTCWGATAGATCTTAAATATGTTTATCACAGCTGGAAAAATGTTTTATTGTCATCTTTGTTTATCATAATATGCCACCTACTCTGGTTGTGTCT
TACAACTGTAGCTCTGTGGGGTTTTTTTTGTTTGTTTTATGCTTGCTAATGGGGGAGGTGGGGGGTGKGGGCGGATGAATATAAATGATACCTAGAAATT
GAAATTGGAAAAAAAAATGTATTCAGCCAGTACTCTTTCCAGGTTATAGCTAAACGTCAGTTGGCAACCTCTATGCTGTGGTTTATTGAGTAACACTTAA
TACTTARCACAGCCCTCAGTGAAGATCTTTTATGGCCTTTTCTGAATGTTATACAAACATAACTAAAGCTTATCCAGATGAGGACAGGGACCTTTCTTTC
CTTCCTTTTTAAATGGAGCAAAATTTGGCCACTGGGTTGCTGTGGATGAGAGAGTAGAAGGAGAAAGGCAGTCATCGGGAGACTGTGTGCTGAGAGAGCG
CATGTGGGATTTGGCTTCAGGAAGTCTGGGCTTGCATTCTATCCAGCGCTAATATTTAGTGAGTGTGATTTGGGGCAAATTATTTCGTCTCCCTGAGCTT
CAGAATGTTTGAAACTTTGTGAGGAGTCTGACCCCACACTGTAGGCTCCCTCCATGTATATATTTCTTCTTCCTTTTCCTTTTTTTTTTTTTTTTTTTTT
WAATTTTTGAGATAGTGTCTCGCTCTGTAACCCCAGTTGGAATGCAGTGGCATGGTCATGGCTTACTGCAGCCTCAACGTCCCAGGCTCAAGGGATCCTC
CTGCCTCAGCCTCCTGAGTAGCTGGGGTCACAGAKGTGTGCCATCACGCCTGGCTAATTTTTAACATTTTTTGTAGAGATGGGAGTCTCACTATGTTGCC
CAGGCTGCACTCAAACTCCTGGACTCAAGCAGTCCTCTCCCTCCAGCCTCCCAAAGTTCTGGGATTACAGGCATGAGCCACCATGCCCGGCTGGAACTGT
TGGCTTTGAARAARAATGATGCTGTGCTTGCCTTTGCAGTCCTGTCACCATACTTCCTGGAAAGTGGGTGGACACGCTGGATGGTAGATGTTGAGTTSTT
TAGATGCCTGGATGCTTACATGCTTTGTGTGGGTTCTTACTGGGGCTGTAACTTACTAGAGGACAGACTCCAACTTCTGCTTACTTAGTCTGGGGAGGTT
AATAATAATCTAGGGCACCCGCTTCCCAGTGGGTTTCCATCAGTCTCCTCCAGCCCACTCTACTCTCTGTTAGCCAGCTGGGCACCTCTTCCTCTGTGTC
CCTTCGGTATCTTCCCAGTGGCTCTTTCCACGACTGGCTCAGACCATGTGTATATCTGCTCATTGTCTGTCCAGGGTCCCTCCAAAGATGCCTCTGTGGG
CTGGGCCCCTGGTGGTGCTTCCTCCAGATAATTGTTGAAGATGGAACAGGAGTGTGCAAGAACACCAGCGTGCTTCCAGTATTCAGGTCTAGCGGCAGGT
CCCAGGCATCAGCGGCTCACCACTCCACCGCAGGTAGCCTGATTGCCCAGCCTTGGAGCCGCAGCCTCCTTGGGTGGTGTGGCAGCTGTCAGTGTCTGAA
ACCATTTTGAACTTTAAAGGGTGGTGTCAGACAGCAGCTATTGAGGCTACTTAAAAGAATTTTTTTAAATGTACGAGTTCAGTGGCATTAAGTACATTCA
TATTGTTGTGCAACCATCACCACTGTCCATCTCCAGAACTTGTTCATCTTCCCAAACTGAAACTCCATGTCCATCAAACAACTCCCCATTGCCTTTTTCC
CCAAGTCTTTGGCAACCGCCATTCCACTTTCTGTCTGTAAATTTGACTRTCTGGATACCTCATGTAAGTGGACTCGTACACTATTTGTCCTTTTGTGACT
GGCCCATTTTATGAGCATAATGTCCTCAAGGTTCATTCAGGCTGTAGCATGTGTCCAGAATCTCCTTCCTTTTTAAGGCCCAATAATATTTAATAATATA
TGTATGTGTGATAACACATTTATATAATGTCCATTACCATGTGGTATATATGCTTATCCATTTGTCTGTCGATGGACACTTGAGTTGCTCCCCYGCTTTG
GCTACTGTGAATAATATGACTGTGATCATGGATATGCAAATATTTCCTTAAGTCTTTCAGTTCTTTTGGGTATATACCCAGAAGTGGAATTGCTGGATCA
TATGGCAGTTCTATTTTTAATTTTTTGAGGAACCACTGTACTGTTTTCCATGTAGACTGCATAAGAATTCCAATTTTTCCACATCTTGCCAACGTTTATT
TTTATTTATTTYTTTAAATTTTTTATAGTAGCTATCCATTCTAATGGATGTGAGGTGGTATCTCATTATGGTTTTGATGGGACTTTTGAGTTTTAGCAAA
TATCAATGAAGTATTTAATTTTTTTTTTTTTTCTTAGAGACAGGATCTCACATTGTTGTCCAGGCTAGAGTGCAGTGATGTGAGCATAGTTCACTGCAGC
CTCAACCTCCTAGGCTCATGTGATGCTCCCACCTACGCTTCCTCAATAGATGGGACTATGTTCCTGCGCCATCACTCCTGGTGAATTTTTAAATTTTTGT
AGAGATGCGGTCTTGGTACATTTTCTAGGCTGGTCTGGAAGTCCTGGCCTCAAGCAGTTCTTCCACCTGAACCTCCCAAAGTGCTGGGATTATAGGCGTG
AGCCACTGCACCTGGCTTATTTAAATTTTTATGGGTATGAATTCACTTAAAAGCTGAAGGTTTTGAGAGGAGAGRGAGCATRTGAAAAAACCTAAAGGTT
TTGGGAGGAGGAGGAGAAGGAAGAGAGGGAGCATGTGAACAAGAGCAACTGATTACTTCCTTGTCATTCATTTGCCCAGTGTTTACTAAGCACCTGCTGT
GTCTCAGACCTGTGCTGGTTTGGCCCTTGTGAAGGACAGTAAATACAGTGCAGTTCCAGCTGCGCATGGGATCACAGTCCAGTAGGTAAACGAGTGCCTA
AACTTAAGAGAAATGAGTGCAGTTGGGGTCCTGTGGCGGTGAAGGGGCGAGTCTGCACCCAGGCGAGTGTTAAAGGCCTGGCCTAGAGAAGATGGGTGTT
TTGATGGAAGGAGCTGCTGGGAASCATGTGTACTCGGTGTCTTGGAGTTTAGAAACCTCAGTTGGCTCCATGTCTCGTCCTTAGTAAAGGAATATCGGGA
GCTGAGACTGGATGTATTGACACAGGTCAAATCACAGAGTCTTAGGCCATTTCAAGGAGGTTGGATTTTTCTCTGGAAGGCACAGGGAGGTTTTGAAGGA
CTTAATGCAGAAGAATGGGCACTGTCAGGTTTGTGGTTTGGAAAGTCCGCCTTGGTAGTAGGGTGGAGGGTGCATTATGGAGGGCTAGACCAGGGTCCAG
CCCCCAGCGAGATGCTGTGTGGTAACCAGGGGAGAGAGAGGTGGTGGTGTTAGAAGCCACGACTTGGCATAGAAGCCAAAGCATCCCCAGGTTGTCATTG
TGTAATTAATGGTTAAGTTGGGGCAAGAAATAAAGCTCTTAAAAGTGTCCAGCTGTAGAGCTCTCTGCCTGTTTTTATCTTCAGATTTTTGTCTTTGCCA
TCTCTGGCCTCCAGTGGAAGGCCGAAGTTACTTAACTTCCTTGCTGGAAGCAGGGCTCCTCATGATTGCCAGCCCCTGTTTGGTAGTGGTCCTGGAGTGC
TGTGGAAATGGGATACTTGGTGCCACTTACCTTGGGGCTTTGCTCCTGAACTGCAGCGGTGTCTTGTGCTCTGTGGTTTGTAGCATGGAACAGAGGCTGA
TGGGCGGGGAGTTTGAGTCCCAGTGATTGAGGCCCCCTGCCTGCCTGCACCTTACTGAAGGAAGGACATGGTGGCTTCTCAGTGTGCTCTCTGGTGATCT
GAACCTAGATTCTTGTTTCACGGGTAGGGGGCAGGGTTTTGGATTCAGCCCTGGCCAGCCCTGGCCCAAGTTCATAGTGTCAGTAGTATAGTTCTCCCAC
CACCCCCTTCTCTCCTGCTCCTGTTTTCTCCCCCGCCCCTTCTCTCCTACTCTCCTTCCTCTCCCACTCTCCCTCCTCTCTCTGCCTTTCACTTCCCCCC
ACACTCTCTCTCCCCCGCTCCCAACTTTCTTTCTCTCTTCGACTCACCACACAACACACACCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
ATGGCACTGTTATTTCATGTGTATACCTTTGCGTAGCGTTGGCACATGTGGGAATGCTATTATAATGCTTTCGTTGGGGGTCTGTGCTAACCACTGCTGA
GTGTGCTTCATGTTTTCTAGACAGCATGAGACCAGAGCTCTCCACCTTGCCATTAGCTGGTGGGAGAATTTTGAGAAAGTCACCCAATTGCTCTTAAGTC
CTCATTTTTTTTTTTAAATCTGTAAAATGGTATCACAGATGCTTATAGCTCAAGACTAGTTGATGAGGGTCTGTGACTCAAAAGGCCCCATAGATGGGGT
TCAGAGGGCCTTTGGAAATGGCGTGCAAGCTCTTTGTAAGTGTATTTTTTTTGGAGAAAGGGCCCAGCTTTTTATCAGACATCCTGAGAGATTCAGGACC
TAAAAAATAAACCTTGATTAATCTTGGAAGCCTCTTTTTACGCAGTACGCTTTGATTCATCAGTATATGCATGTGGATGGGTTCTCAGATGGCCTGATGT
TTCTCCTCCTTCCTCTGTGTGGTGGGCGACGACTTTGGCTGCCCAGATGTTAACATCAGTAAGCAGAAGCTCAGTCAGTGTTAGCAAAATTAAATCACTC
TGCAAAAATCAATGTTAGTGAAATTAAATCACTTGATCTTAAAAGCAGCATGAAATAGCAGTTTTTCATCTTCATTGTGCTGTTTTCCCACTCTAGATAT
CTTGCAGATTTTTTTTGGTTGCTTGGTTGGTTGGTTTTTGGCGTCCTTTTCAAGGACAAGCAGCTTTGGACAGTTGCACTACTTTTTTTTTTTTTTTTTT
TTTTTTGACAGAGTCTTGCTCTGTCACCCAGGCTGGGGTGCAGTGGCGTGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAGTTCTCCTGC
CTCAGCCTCCCAAGTAGCTGGGATTACAGGTGTCTGCCACCACACTCGGCTAATTTTTATATTTTTAGTAGGGACAAAGTTTCATCATGTTATTCAAATT
CCTGACCTCAAGCCATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGTCACTGTGCTCAGCCAGTTGCACTACATTTTTTTTTTAGA
TGCCATTGTTGAGGATCCAGGGGTTTGTCATAGATTGATTAATCAGAAAGTATTAATCTAAAGTATTAGAATATATTGATTGCAGGCAGGGACCTTGCAT
AGTTTAAAGATGACTCAGAAGGCACATTAGGTTCTTGCCACACTTTGCTGCCATCACAGATGGATGTGAGTTGCCCCCTTATATAGGTCTCTCGGGATGC
CCCAGTGGAGAACAGCATTGATGTTGAACAGATCCTGTCCGATGGAGAGATACCAGCGTTTCAGCCAGCGGTGTGAGTGAGGGCAGGGGCCACCTCTGAG
GGTGCTTGCTCCCTCACACTGTCCTCACGCTGCCCTCAAGCTGTGGGCAAAGGAGAGGGATCCTGTGCCATCACAGCCCTAGAAGCAGAATTCCAAAATG
TGGGCTCCTTTGGGTGTGGTTTGGGGGTCAAGGAGATAGAGCAAGTAAGGAATGAACTTTGAGGGTTTATGATCATTTTCATGATGATAATGACCTAAAA
ACATGCTTGGCTGGGCATGGTGGCTCATGCCTATAATTCCAGCACTTTGGGAGACTAAGACAGGAGGATTTCTTGAGTCCAGGAGTTCAAGACCAGCCTG
GACAACATAGGGACACCCCATCTCTACAAAAAAATTAAAAAATTAGCCAAGCATGGTGGTGTGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGG
AGGATCCCTTGAGCCTAAGAGGTCAAGGCTGCAGTGAGCCATGTCTGTGCCACTGTACTCCAACTTGGGTGACAGAGCAAGACTATCCCAAAACAAAAAC
AAAAACACATGCTTATGGTAGGCAATTAAAACAGGAGGTAAGGAGTAAACATGCCAGGCCCCTCCTCCTCTCCTCTGACTCTTCCTTCTTCCCCCCTGCT
TCCCAAGGGTAAGCTTTGCAGATACTTGCTATGCAAGCAAAAATGCTATTCTTAGCCATCGTTTAAACACAGATTTGCAATTTGTGGTTTTTCATTTATA
TAAATTTTGGCTCTCTTCCTATAGCAGAATGATCTTTGTTTTTAAAATGATTTTAAGTATACAATTAATATGTGAATGTATGTTTCTTATGGAAATTAGA
ACAATACACAGTTACAGAGTAGAAGGTGATAGGTGATATAGCTCACCCTCTCCTCTTCCTGCTAYTCTCCCCAGTCTGCTTCACTCCCCGGAAGGAACTA
CTGGCCCATCAGCATGTCTCCTTCCAGGCATTTTTTCCATGTGGTTATGTCCACCTGCATAAGAAACTGGGGGCGGCAGGGTGGGGCGGTGTTGGCGGGT
CAGGCAGAAGCAAGCCACAGAGCAGTAAGGGTACTTTTTAAAAAAACATTTAAATAGATCCCTGTTGTCCTGCGGCTTACATGCTCATGCATACTCACTG
TTTCTTTAAATAAACTTTTTCTTTTAGAATAGTTTTAGATTTACAGAAAAGTTGCCGCGATAGTCTAGAGAGATCCCATGTACCTCTTAACAGCTTCGCC
TCTGTTAACATTCTGTGTCACCATGGTAATTTGCCACAGCTAAGGAACCAGCATTAGTCCATGACTGTCAGTGAACTAAACTCAAGACTTTTTTTGGATT
TTACCAGTTTTGCCCAATGTTCCTTTCCTGGTCTAGGATCCTGTGCAGAATAGCGCATCACAGCACATTACATTTAGCTGTCTCCTTCACCTCTTCTGGT
CTGTGACAGGGTCTCAGACTTTCCTTGTCCTTGGTGACTTTGACAGTTTCGAGGGACACTGGCCAGGTTTTGTGCACACTGCCCCTTAATTTGGAGTTGT
CTCATGGTTTTTTTTGTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCGTCTCCCAAGCTGGAGTGCAATGGTGCAACCTCGACTCACTGCAACTTCTGC
CTCCCAGGTTCAAGCAATTCTCCTGCTTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCTGCCACCACACCCAACTAATTTTTGTATTTTTAGTAAAGA
TGGGGTTTCACCAGGTTGGGCAGGCTGGTCTCGAACTCCTGACCTCGGGTGATTGCCCACCTCGGCCTCCCAAAGTGCTAAGATTACAGGTGTGAGCCAC
CCTGCCCGGCCCATGGTTTTCTTATGGTTAGTCTGGGACCATGGGTTTTTGGGAGCAAGACCACAGAGCTGAAATGCCCTCCCTTCAGTGATTTGTCAGC
ATGACCTATCACCATTGTTGTTAACCTTCACCACCTGGATGAGGCAGTGTATGCGTGGGGACATACATCTATTTGCCCCACTGACATGAGGGTTGGATCT
CTAGAAGAGGAGTCACTGTTCAGAGGTTATAGGCATTTGTATTTTTTGGCAGATGTTGTCCTTCAAAATGGCTGTACACATATGCTCCTCCCAAAAGTAG
GAGAGTGCCTGTTGCCCCATGTCCTCACTCAAGCTTGGTGTTATTAGATTGGTAATTTTTTTGTGTGTGAATCTGTTAAGTTAAAAATATTTCTTTCTTT
GGCCGGGCACAGAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGTCCGAGGCGGGCAGATCACTTGAGCTCAGGAGTTCAAGATCAGCCTGGGCAAC
ATGGTGAAACCCCATCTCTACCAAAAATACAAAAAAATTAGCTGGGCATGGTGGTGCTTGCTTTTGGTCCCAGCTACTTGGGAGGCTGATGTGGGAGTAT
CACTTGAGCCCAGGAAGTTGAGGCTACAGTGAGCCGAGATCGTGCCACTGCCCTCTAGCCTGGGTGACAGTGTGAGACCCTGGCTCCAAAGAAAAAAAGA
AGATTGATTGAGATAGGGTCTTGCTCTGTTCAGGCTGGAATGCAGTGGTGTCATCATCATAGTTTACTGTAGCCTTGAACTCTTGGGCTCAAGCAGTCCT
GCTCCTTTGGCCTCCCAAAGTGCTGGGGTTACAGGCATGAGCCACTATGCTCAGCCAAGCTAAAAATATCTTAGTGTGCATTTCTCTAATTGTCAGAAGT
GTATTTATTTACCATACCCTGGAAACCTTATGTAAGATGATGGTGAGTTTGGACTTTCCAGTAACATTTGGAAACTGTTTAGTACCAAGCTCTCATTAAC
AATATAAACAAAATAGGGGTCTACCCTTAAGGAATCAAAGCCATTATCTAAAAGCTCTTTCCCGCAACAACTACCTGAGATAATGTCCTTGGTCATATGC
CCCAGCATTTAAAAATGGAGTTAGTGAGAGTCTGTTGTTTACCACCTGATACATTGGTAAGAGCTGCTTGATGGTATGGGGACATCAGTAGGGAGGATAT
AGACGTAGCCACCCCCGCCCTASATAGTAGGGGCCTCAGGGTGGGGTAAGCCTGGGTGGGGGAGGTATGAGTGGTGGAACAGTGGGAGACCCTGGATCCT
TAGTCTCCAGCGTGATTGCATTTTGCCAAGGCTTTGTCCCATGTCCCTTTGTCCCGTGTTCCATTTGCCCGTGGTGTTGCCTAGAGAGCATGGAGRGGCT
GGTGGAGCATGCTCTGTGGTTCCCTAACCCAGGGCTGTGTGGGGAGAGCTTGCAGCACCCCCCTGACCCCATATGAACGTCCTTGCTATTTCCTGCTGTG
CCATCCAGCAACTATAGGATGCTGTGCTGTGGCTGGGAGACCTGTTTGGTCTTGGAAGCTGGGTCCTGGATGAGCAGAATGAGGCAGGCATAGAGGTGAT
GTTGGCTACGGGCAGGGGAGCRTTTGCTTTGCCTTGGAGTAGTGCCATTTCCATGTAGAGGGGCAAGATTTACCACCCTGTTGTGGGGATTTGAGACTTT
GGGTTTTGTTTTCCTTTACACCTTGAGCTTTGTTCTACAGCAGGTCCCTGGGAAGACTGGTCCACAAAGCTGCTGAATGGGGCTGCTGTCCWKCAGCCCT
GCCTCCTGCTGCAGAATGCAGAGGACGCTGTAGACTTGCTTGGTGGGTGCCTGGGGTTTTCTGCCTCCCTGGTGCACTGGGCACAGCGGCTTGCCTGCCT
TTTGGGTCGTCTCCACCTCCCAGGGATGTTTTTGTTCCCTGATCGAATGACYTCCTGTTTTGTTTGTTTTTTGAGACGGAGTTTTGCTYTGTCACCCAGG
CTGGAGTGCAATGGCATGATCTCGGCTAACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTTGTGCTTCAGCCTTCTGAGTAGCTGGGACTTCAGGTG
TATGCCACCATGCCACGCTCATTTTTGTATTTTTAGTAGAGATGGGGTTTTACCATGTTGGTCAGGCTGGTCTCGAACTCCTGGCCTCAAGCAGTGCGCC
TGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCCTGACCTCCTGTCTTCTGTTTTTGCCCACTGTCAAGGGTAGACTTCT
TCAAGGCTGTACTTGTGCTATCCTAAAGAGGAGTAATGGGAGACATTTCTGACTTTGTCAGCATGCTGCTTGGCAGCACCTGCCTCGTTTCTGGTGACCA
TTTGGAAATGTGTCCTTTATCTGGTAGCAAGGAGCATTTACATTGATCCCTATGCACTTAATTGGCATACTTTTATTCCTCTGGATTTTTTTTTTAAAGC
ATAATTGTTCGTGTCTACATGATGTAACATGCTGCTGACTTTTAAGCAAATTAACAGAGTTCGTGCTGAAGCGCAAGGGTGCAGGGAAACAAAATGGGAG
GGTTATTAAAGGGGTGAGGCGGCTCCTCAAAGATGTCACTGCACCATTCATTCTTGTGTTCCTGGCCCATGGCAGGCTCATTAATCCTCCACGACAATCC
ATTAGCATGCCTGTCAACCCTTCAGAGAAGATGAGCCATAGGAAGGCTTAGGGATCCCCACTTGAACTGCTGTGTGGCTCTATGAACATCCCCACCTTCC
TGGAGTGAGGTGGTTGTGGCCACCTGACTTTCCCCATTTTTTTTTTTTGGACCTCAGCCTCCAGCGCTCCTGGGCCAGACTCAGGGTGGGGGGGATGCAG
GTGCCAGTGACTGACACTTGGCCCCTCACACTTCACTGCCTGATTTGCTTTAAAGGCAAGGGTTGCTCATGCTTGTCTGAGCTCTCCATCTGTTTGAGAA
TTATATTGTTCTCAACTGGAACTTGTAAAAGAGAAAAAAATGTACTTCTCAATTTCCATGGAAGAATATAGATTTTCTGGTGGGGTGGAAACTTTCTTAG
CATGAAGGGATCTTTGTGTGATCTGCGCATCAGCACTGAATAAAGAATGGGTGCGCCGAAGTCGGGGAGGCCGACTTTCCTGTGGCTTGCTGGGGAAAGT
TTGAACTGTGTGTAAGCAGTGCGTGGAAGGAAAGCTAAGTGTGGAGATAACGAAGGGAATGGGATTTAATAGAAACAGGGTGTGATGAGTGGCAGTTGCC
TGATGAAGTGGAAATCTTGTGTTCCAAATTTGTGAGATCCATTTCTGTCCTCTAAGGAAAATGTTGTATGTGCAGGAGGAGTTCATGTAGTTGGGTTAGA
TTGTGTTTTCTGTCTTTATTTTTTTTCCTGCCTCTATGGGTTGTGAACAAAAACAAGAATTTGATATTCTGCAGTATAGTTAACTCGTGCAAACAGTGTA
TGCTTTTCAGTGGGATATAAGGTCTGAAATAATAGGATTTTCCCTAGTAAGTCAGTTTCATTCCTTTACATGTGGGTTATGAGATACAAAGTGAAGCTCT
GTAAAGCTTTTTACGAGCTCCCTGTGTTGCCCTCCTTTGACGGGTCAAGGCATTGGGGTTGACAGAGGTTTCTACTCTCAGAGGCTTTAAAGAGGTGCCC
ACTCTGGTGAGATGGCTGTCAGCATGCACGATGTGTGTGAGAGAGCACCTCTTCAATCATATGCACCTGGCTGTAGCATCCTTGTCAGCCTTAAGAGATA
CCTCCAAAGCGGAATTTTCTACCCCTAGAATCATGTGAGGTCATCTCAATTTAAGCCCCAGCTCTGCTCCCTAAATTACCTGAGTGATCCCAGGTAGGTC
ATTTGCTCATTGTTAACCATCAGTTTCCTTAGCTGCAAAACAGAGCAGATAACACCCCAAAAGAGTTCTCATAGTAAATCACATCAGGCTTACACAATCT
CAGAAATGTGCAGCTCCACAGGAATCTTCATTACCTCTTTAGGCAGTCCAGTCGGGTTTCAAATGAATCCTACTGTCTGTTCTTATATGGAACCACAGTC
CCTCACCCTGTGTTGATCTAAGTTCTCTGTTTCTCTCCTCCAGCAGGGTCATAAAGAGCCTGACCAGTCCCCCTCCCTGGAGACCTTTGTGTGCTGGGTT
TCTGCAGCCGTTCTCCATGAGAAGGGACTTCTGGTCCCTGCTCTCACTTGGATGTTCTTCCACTGACTTATCTCTCTTAATGTGTGGAGGCAGAAACCCA
GTTTTCAGGGTCTCTCCCCTGGCCCCTTACTAAGTCTCCCTTAGGTACAGTCTAAGACTGCCTGACTTTTTCTTCTTTTTTTTTTTTTTTTTGGCAGCCA
CAACATCACATCGTCACATACAGAAATTATATCCAATTAAATCTCCTAAGTCTTTTTCACACCTCCTACATTTGTGCATTTCTTTTTTTGCACCCAAGTG
TCCAAATAGCATTTATTTCCTCTCTATTGCAATTCCAATCTGTTGATCTTTTTAGCTCTTGACTCTGTCATCCAGTGTATTTGCCATTGCTCCTGGAAAC
TTGTCATCTTTGAATTAGATAAACATTTTATCTGTGCCATCGTTCAAGTAATTGATAAAAATGTTGAAATCTACAGTACTCAGAAAGAGACCTGTGGCCT
CCCACTAGAGACCTTCCTTGGTCTGTTCATTAATCAGCACTTTGTAGGGTAAATTGAACATTTACTAAGCTATTCAGATGTAGTTCATATTTCTTCACCT
TGTCAACAAAGAGATCTTAGCAAGGCATTGTAGACCAAGTATGTGTTCCTGGAATATACATATTAAGAAAAAATCCTTATGCCAAGAAAATGGGCACATC
CCCAAAACCCAGGTTATTGTAGTTTACGGCTTCTGACCCAGGGCTTCACTTTGTAGCAGTGTTTTTCTTCTGTTTTTGCCTTTGGCTGATACCACTGCTA
GAGTGCAGATAAGAGAATGTTACTACCAGGGGGCTTGAGTGTCGGGCTATGATTGGCTGTCATCTGGAGCAGAGTGGGACTGAGCTGCTCAGGAGAAAGG
TCTTCAGGTGATTTTTTTTGGGAAGCTAAGAGCACTGGTTTTAGACATCCTCTCCTGGCTGATGATGGGATTGGCCTTCATGGGGCTGCTGTCTGGCTGG
GCTGGTGGGCAGAGGTTCCTGTGGGTGTGGATGGAGAAATCCTAAATGCCGAGGGTRCCTGGTCTTAGTAGAAATCGTAGGATGCCTCAGTGAAGAAGTC
AGGGATGCGGATTGTCCTCCGGATGCTTGGATGAGCGTGCAGTGGAAAAAGTACTCCTTTGGGGGAAGAGGTGAATCTGGAGGTGTTAGAGCAGAAGAGT
AAATGCAGAAGTTGTAGCAGATACAAAGGCTTTGGCAAGAGTGGGAGTGATCATTGAAGGGAAGGCAGGGGCTTGCTGGGACAGGCTGGAGCCGTGATGG
ACCCTCATAGTAACCCTGCTGCATTTTACAAAGGAAGAACTGTGTTGGGGTACAGATGTGCCAAACACTCAAAGTTAGAAAATCAACGCAGTCGGTTGTG
GCTTCTGCCCTTGAAACATCAGATAGTGAGAACCTGCCACTGTTCAGTTTGCAGAGTGGTTGGTTGCATACAGTGTTTTAGCTCTTGCCCACTCAATACA
GAGGTTGCATGCGGGCGTCCACCTGCTCCGCCACCTCTGCCTGCTTGTGGCTGTGTGCCCAGAGCCCATTTCCCTGGGGAGTCAGTGCAGCACTCCTGGG
GGACCCTTCTGTTTGTGTCCTGACGAATCTGACTGTGCTGGATGCAGTCCCACAGCCACACCTGGTATGGGTGGCATCTTTAAAGGCCTGGCCTGTGTGT
GCTGTATCTGCAGCAGAGCTGTGGCCAAACCTGCTTTCCTTCCATCTGGGTTCCCCTTGGTTCTCGGTGGTGGACGGGCTGTGTGGTCTCCCCTCAGCTG
TCCACTTGCACTTGTGTTAAAATGCGGCAGAACTTTCCCTCTATACTTAAATTGTGGTGAAATACRTATGACATAAAACTTACCATCTTAACTTTTTTTT
MTTGAGACAGGATCTCATTCTGTCACCCAGGCTGGAGTGYGGTGGCGCGATCTCTGCTCACTGCAACCTCTGCCTCCTGGGTTCAGGCGATTCTCATGCC
TCAGCCACCCGAGTAGCTGGAATTACACGYGCCCGCCACCATGCCTGGCTAACTTTTGTATTGTTAGAGATGGGGTTTCGCCATGTTGGCCAGGCCGGTC
TTGAATTCCTGGCCTCAAGTGATCCCCCTGCTTCGGCCTCCCGAAGTGCTGAGATTACAGGCGTGAGCCGCCGCGCCTGGCCTTCCTTTTTTTTTTTTTT
TTAAGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCCGTGGTGCGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTGAAGTGATTCTTCTGC
CTCAGCCTCCCGAGTACCTGGGATTACAGGCGCCAGGCACCATGCCTGGCTAATTTTTGTATTTTTAGTGGAGATGGGGTTTCACCATGTTGGCCAGGCT
GGTCTTGAACTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATCACAGGTGTGAGCCACCACGCCCACCGGCCTCCCATCTTAACA
TTTTAAAGTGTTCAGTTTAAGTACCTTTACACTGCTGTCCAATCAATCTCTAGAACRCTTTTCATCTTGAAAAACGGAAACTCTGTACCCATTAATAACT
CCCATTCTCTCCTACCACAGCCACGGGCAGCCACTTTCTGCTKTCTCCGTGAGTCTGACTACTTTGAGTACCTATGAGCAGAATCCGCAGGATTTCTCCT
TTTGTGACTGCCTTATTTCACTTAGCATAATGTCCTCAAGCTCCATCCAGGTTGTTGCATGTGAGAGGATTTCCTTCCTGTGCATGAACTAGAGTGATGC
AGGGACTGACCTCTGGCCATGTGATGGGTGGTTGGTGATGGATCCAAGAGGTAGCTGGTCTCTGAATACTAGCCCAGTCCTTTTCCTTGCTAGGAAAGTC
CCCAGATCAGATAGAAAGCCTCAGTATTTCAAGAAGCTTCTGTTTTGACACCACATCCATGAAGAATCACACTGCAGGGTAGGGGAACAGATGAGTGGGA
TTTCTACACTGTTATCAGCTAGACTTAGATAACTGGCTAATTGAAAAGAGTACAGGTCACTTAAGGAAACTGGAGCATTGTAGGGCAAGGTAAAGTGCTT
TTGAAATGAGGATGTGAACTGTAACTGGAATGATGTAATGTGTTCTACAAAATGAAGCCAGTGAGAGGACAGGGGACACAGGGCCGACTTTTATTTAGGA
CATTTGCCTGGTTCTGAGAAGAAAGTTGAAAGTCACGAGAGAGAGGGAAAGGAAGGCAGAAGGAACTTGGTTTTTGCAGGTGCCTGCTCAGCATGGGCCT
TGCCCCAGCTTGGCTGTACCTCACAGCACCATCCACTGGCTCTACAGTCTGTCCTTCGGAGGTTTAGGGTGCTGTCTCATGCACAGTGGGTGCTAGGTGG
TAGTGAGGACAGGGTGTGGGACTAGGCAGGTGCTGCCCCTCGGAAGGCCTCATGGTGAGGCAAAGATCTCTGGCTCCGAGGGACTCTATCTCCTGGTGTC
CTGCTTCATCGAGAAGCCAGCCACCCATGGGAACTGTGGATAATTAGAAAGGCTTAGAGGCTCTTCTAAGGGTGTTTTTTGAAATATGGAGACCTAGAAT
ATTGGGCTTTGGGATATTTTAAGATGAGAAAGGCATTTGGAGTAACTGTCAGAGCAGATAAAGTTGTTTTTATGAAGATCCGGGAAAACGGTTGTTACAA
ATACAGCTCTGCACCAATTCTGCGCCAGTCTGTTTGGCTACAGATGCTTTCAGTGGAGGGGACACTGGGGCTTGTGTTCCCTTTAGTCTTTGAATTCCCG
TTAAAGTTTCCATGTCTTAAGTGGCGTGGCAGGATAGAAACATCTCACCCATCTTAGTAAGTTCTTTGCTGTATGTAGCACTCTGGTTTTAACGTTCTGA
GCCTTCAGGACTGCCCTTGATGTGTGCATTTATTTTGTTGATATGCATGATGTGTGGGTGGCTCTGCGGCAGTAAAACAGTTCACATTCAAATTACACTC
GGTTTCTAATTTCTGTTCTCAGAGTTTCCTCTGTAATGGAAATCTCTTACATTCTTATCATTGCCTTCAGTTATTGAATGTGTTAGGTGGCCAGGATTGC
TGTCTGTGTGAAATGGGAATGTATATATACAACGTAAACATGTTCTGATTGACACGTGAAGATAAAGGGCTTAACATGAATTGTGTCGGTTTACACTTAC
ACAGAAAATTCTACTGTAATAAACTGAAGTGTCAGTAGTGTTTGTTATCATAACATTGTCTTTTTCCCTCTTTTCTGATCTCTGATTTTTCAATTAGGAA
TGAGGCCTAAAGAAACCCATGCTCTCTCTTCTCTGAGCGCAAGGAGGGTGTGCTGAGACCTTGAAGGGCACAGCATGGGAGGATCATATACTAGGGAGAG
TCTGTCTCCACCCCATTTTTCTTCTGCTTTGCTTTGTTTCGTAGTTTCTTCGGGCTTCTTGGGGGTTTTCTGAGAGAGAGAATGTCAATTTGAGAAGTAA
CAGGTGCACAGGCTTTACCTGCACCACACTGCAGATAAGGTGGGTAGGGAGGGTAGTGACAGGTGGTGTGGTGGGTTATTCAGTTCTTTCCTAGGGCAGT
GGGTCTCACAGGGTGGTGCTTAGGCCAGCAGCATCAGCATCACCTGGGTGCATATTAGAAACAAATTTTGGGGCCTCACCTCTTGCGTTTTAACAGTTCC
TTCAAGTGGTCCTGATGCATGTTGAGGACTTTGAACACTCCTCCTACAAGCAAAGTGAAGTTGACCTCCCACACACTTGTCTCAGTCTGCTTTCTAGCAT
CTGTCCCATTGCCTTTGTTGTTCTCCCCGCCACACGGGCTGCACCCCTGGGATTCCCCCAGCTGCCACCAGGCATCAGCTCCAGCTGCCTCCCAGGGTGT
GCTCCTGCCTCTGCTTGGAGTACCCTGCCTCCCACTCTTCCTGGCAAGACCCTGCTCATCTTTCAGGGTCGTCTCTGCTGAGAAGTCTTCCTGACCTCCT
CGGAGATAGGGAGTTGTGGGGCCTTGTCTTTATGTTCCCAGGGTTCTGTCTATTGCGCTATTAAAACTTTTTTTTTCATTTAATTTGCCACTTGCTAGAG
AGATGGTTGTTCTGCCTTCGTTGTGCAAAATTCAGTGATACACTAATCCTCTCCTAACCTCTTAAATCATTTTGACTTTCACAGAGTGATAGTGTCTAGA
GAGGGTTTTTGTTGTACTAAGTTATTGGTTCCAAAGAATTCATTTTAAGAGGAGTAAAGAACTAYTATAGTATGCCGCTTACTGAGACAAAACCGACTTC
TCACATAAGCCCAAAGGTTTTGTTATGTTGGATTTTACCATTAGAGTTAAAGATGATGATTGGTTCACTAATGTGCTTTACCTTCACAGTGTGCCTGTAG
ACCTGTAGTAAAAGAAGGCTAATTATGTTTCCTGATGTCTTTTATTTCCAACTATAAGCTAAGCCTATCTCATTTTTTTTTTTTTTTTTTTTTTTTTTTT
GAGATGGAGTCTCGTTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTCATGCCATTCTCCTGCCTCA
GCCTCCCAAGTAGCTGGGACTACAGGTGCCCGCCACCACACCCGGCTAATTTTGTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGA
TGGTCTTGATCTTCTGACCCGTGATCCTACCGCCTCGGCCTCCCACAGTGCTGGTATTACAGGCATGAGCCGCCGCACCCGGCCAACCTATCCCATATTT
TTAAAGAAGAGTTGATCAAGTAGTTACCCATTTTAACTAAATGGATAACTATAACATTCTTTAATGGAATTGTTGACAGAGGGATAATCAGTGTTTTTGC
TAATTCATGCCACCCTCCTTTGTTGTATGTTAGTAATATTTACATTGGGGCAACAAAATAGATCAGTATTTCCATTAATGTTTACTTAATAACAGCTGCT
AAAAGGTATTACTGTTTGCAGTAACACAAAAGCACTTACCTGATTCTTATGCCAGCTTCTATAGGGTAGGTAGTGACAGCCCATTTTGCAGGTGAGGAAG
ATGGGGTTTAGAGGTGAGGTGTGTCTGCCTGAGAGCAGGAGCTGGTAAATGGCACTCTGGGCTCATGGGAGTCACGCTGTTTTTTTTTTTTTTTTTTTTT
CCTAGGACCTCAAGGTTGTGTCTAAGACATAATTTACAGTTCTCGTGTAGGTCTTCCAAATACTTAGCTACACAGCTTTGGGGCGTTTTCTCAGCCAAAT
ACTTTTCTTTAGCCCTTCTCATATTAACATTTAGTTCTTAGGGATTTATTTTCAAAATATATATAGCTTGTATATGCCATTCACCTAAGTTGTTAGAGCA
GACATTCTGCCTCTTGATCTTTAGAAAATACCTAAGAGTATTTTGTTAACAGTACTCATTTCAGCTGAAAGACTTTATTTTAAAATTTAATTTAATTTTA
TTATTGTTTTTTGAGACAGAATCTTGCTCTGTGTCTCCCAGGCTGGAGTGCAGTGGTGTGATCTTGACTTGTTGCAACGTCTGCCTTGTGGGTTCAAGTG
ATTCTTGGGCCTCAGCCACCCAAGTAGCTGGGATTACAGGCGTGCACCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCAAACTCT
TGGCCTCAAGCGATCTACCTGCCTTGGGCTACCAGAGTGCTGGGACTGCAGGCATGAACCACTGTGCCTGACTTTTAAGGCTTTCTTTAAAATGGCATCT
TTTGGCCAGGTGTGGTGGTAATCCCAGCACTTCTGGAGGCTGAGGCTGGAGGATTGCTTGAGCCCAGGAATTGGAGACCAACCTGGGCAACATAGGGAAA
CCCTCTCTCTGCCAAAAAATTAAAAAACAAAACAAAACCTAGGTGTTATGGTGTACCCCTGTGGTCCCAGCTGCTTGGGAGCTGAGGTGGAAGGATTGCT
TGAGCCCAGGAGGTCGAGGCTGCATTGAGCCACGATTGTGCTGCAGCACTCTAGCCTGGGTGACAGAGTGAGACCACGTCTCAAAAAACAATAAAAAATA
AATAAAATGACATCTTTGGAGAAGTGAATTCTACCCAGGTACCAAGCCCCTGCCTGCCCCTCCCAACTCCCTTCCCTGACTCCCAGCACCCCCATCTGTT
TTGGTTCTGCTGTTGCCATTCTCTGGCTTTGGGGACTTTGCTGAGGCCCCACTGTCCCCATCTTCCAGCTGTACCCTTTCTCTCTGCTTCCCTGCTTGTC
TTATTCTTTACAGGGCTGCCTGGGATCTCACATTCCAAAAGTTTTTGGGTTTGTTTTTGGATCATGCCAATATCGGTTGCTTTGAGAAGGGAGAAAGGGT
ATTTTGCATTTTCCTTTTAATCATCGGTGAGTAGCCACAAAGGGTGTGTCTCTCCCTCTTGTGCTGTGTTTACTGTTTACTCCCTCGGTGCATGAATTAT
TTCATGGCACCAGTGGAGCATATTTTCTTCTCTTTCCTGTTTGTGGCTTGCGCCTCCTGAACGCTGCTATCATTCATGGTCCAGCTTGGTTTTCTTTTTC
ACTGTTTCTATCACAAAACCTCCTGAAGACCAGTGGTGTCAGTCATAGGCTCCAAAACAGCTGGTTCCTAGGCCCTGCCTCGTGCTCTGTGGTTTGGGCT
TGTCTTTTCTTCCAGAGTAAGTGGGTAGCTTCTTCCTACTTTTTTTCTCTTTTCTTCTATAAATGGGAGGAAAAGTGTGAAGTATGGAGACTGCTCTTTC
ATTTGAAGGAAATTCACAGTTCCAGCTCTGTAGTGTGGCCTCTGTTAACTAGTGGTCAACACTGACTGTGGAAGGGGGGCCAGATGGCAAAGTGAAGCAG
ATTCTTTCCTCCTGTCTGCATTTTGATTGCAGTATGAAGTTCAACTTGCTTCAGTCTTTGTCTTCATGTTGTTTCACTAGGTACTGAATTTTGTGATCTG
TTGGAAATAACAAGTAAATAGATGCCTAACGCTTTATACAGGTTGAGCCTGTCTAATCCAAAAATCCAAAATCCAGAATGCTTCAAAAGTTTCAGCTTTT
GGAGCACTGACATGACACCACAAGTGGAAAATTCCACACCTGACCTCATGTGACGGGTCACTTTTCGAAACTCAGGCACACGACACACAGTTAATTTAGT
GTCCCCAAGGGAAAAAAAGACCCTCCCGGCCCCCTTCAGCTGTGATGTGTCTTTTCCACACATGCCCAGATTCCCTCAGACACCTCCACAAAGGGTAATA
AAATGGTTCGTTGTATACAAACTTTGTTTCATGCACAAGATTATTAAAAATATATAAAATGACTTTTTAGAGAAGCGAGAAGAGAAATGAGAGGTAGGGG
AGGGAGGGAGGAGTTGGGGGACAGTTGGGGGAATAGTTGAAGCTAAGGTGTTTAGGCAGAGCTCTGAGGAGGTGACGTTTGAGTGGAGACCCAGATGGCT
AGAGAATGGGGCAGCCTCCTGAAGGAGCAGAAGCACTGTGGGCGGCAGGGTATCACAGAGGAGGAGCTCGGTGTGTTGGAGGTTGGTGAGTCCCGTGGAG
TCTTGTCAGATGGTGTTGGGACAGGGACGGACCGTGAGGAGGCTGGATCATGGGGAATGTGTTGCTTTAGGCCAAGCTGGAGTTGATAGTGGCTCAGATC
AGAGCTAAAGTARTGGAGACACACAGACATTGAAAGAATGATGAAATTCACTCATTCTGCGTGTGTCCCATGTCATGTGTCCGCTGCACACCAAGTACTG
TTTTAGGCACTGGTGATATAATTGTGAACCAACTGGAGCTGCGGTGAGAGAGACCATGAAAAGAAGGGCCAGAGCGGTGTCCTGCAGAGGGTGGTGTACC
TTGGGAGGGAAGTGTGTAGGGTTGTTGAGGAACAGYGTGCTGCACAGGGAGGAAAGACRTGGGGCAGCATTGTGGGAAGAGCAACCAAGATTCTCATAGG
CTTGGGAGCGGAAGCCCTGAGGTCTGTTGCTGGACTAGATATGTGAGGTKTGAGAGGAGAGAAGAATCAGGAATGACTCTTTGATTCTTAACGTGAGCAA
CTCAGAGAATGAGAGTGCTGCAGTTTACAAGCTTGGAAGGTGGATTATGTGGGGGGATGAGTGAGTTGTTTGACACCTCAATGGATATACTCAGATGGAT
GTATACGTTAGAGCTCAAAAGAGTCTGGGCCAGTGACATGAATTTGATCATATCTAGAGTATGAGTGGCACAGGAAGCCACTTGTCTGGATGAGGTGACA
GAGGAAAAGGTTGAGGATAGCAACCAACATTTAGAGGTAAGGTAGAAGGCAGAGCAGTGTGGAATCAGGGAAGCCGAGAGGAGGAGGCAATGCCAGGTGA
CTGGAAGGTCAAGTGACACTTCGACAGTGTCACTGAGGGCTCTGCTAGGAGCTATTCGGTGTCATAATGGGGACAGAAGCTCAGTCGGAGTGGGTTAAAG
GTAACCAGGAGGTGAGGGTGCTGAGAGGTGGGACTATTGACAAGCCTTGTGTCAAGTTTTGCTATGTAGGGGCTGAAATCTAATGTATGTGACTGTGTAT
AAGTGACTTGACTTCCCCAAATCTGTTTCCTCACCTTTAAAATGGGTGTTTGCCAAGTGCTGGTTTCTGCTATTCTTTTCTCTGTCTTAGGGGTGTCATT
TTCTCTTTGGTAAAACAGAAGAATTAGATGATATGAAGTTTCACATTCTAAGTTCTCAAGCTTTGCCCACTCCTCAGCCCTTGGGTCCCTCCACTTCCTC
TTCTCTTCGCTATCTCTGCTCAGTTTCTGTCTTTGATTGTAATGTAATGCCCAGTGGGACTTTTCTTCTCTCCCTCGTCTGTTCACTTATTCCGTCCTGC
ACTGGGCCACCAGATTAATCCTGCAAAAGGCCTCACATGGGCTTCTCTCCYGCTCAGGAGCCTTGTGGGGGCTTTATTCCTCTGAGATGAAAGTTCTTAT
CCCCACATGTGATCCTTTATGACTTGGGTGCTATCAAATTCATTTCCTCAACTGCTCCCCTCTTCACCCTGACCATCAGATCTGCTGGCACATGGGCATA
CCTTGTTCTGCATTGTCTCTGGCCTGTGGGATATTTACCGAGCTTTAAATCCTAGGCACCCTTTGGGAGCCGGCCTGTGTGCAGAGCTCCCCTTAGCACG
GTGGCACAAAGCTTGGACACCACCTCTTGTCTGTCCTGCTTAATTCCATTCACATCTAGAGTGGACTCGCTGTGTGCACACCACTGACCACCTGCCTCAT
GTGACAGTTGTTCCTCATGGGTCTTAGCTCTTTGCCTTCACCATGAGCCTCCTCAGAGGGCAGGGCACTGCCTGTTGGCATTTCTCGTGGTATCATACAT
GTTGGGTGCTTCCCAAATTAATTACATCAGTCAGAAAACTTCACTCTATCTGAGAAGCTTTAATAGTGTACTKGGGATTATTAAATCCTAAAAAAGGTTA
TCACAAAGAGTTTTCTTGGTGTGTGTCTGTGCTTAGAATTTAGAAAATAAGTCATCCAGTATTGAGGCCATTTTATGAAAAGCCTTTAAAATCTGCAAAT
GCGTTGGCCCAGCACTTCCACTTCTAGGGATTTATCCTAAGAAAATAGTCTTGGGTATCTGCCAATAATGTTCACTGGAGTGTTGTTTATAATGTGCAAA
ACAGGAGCTAACCTAAATGTCCAACAATAAGGGATTGGTTAAAAAAAAAAAACAACCCTCATGGTGTGTATTAATACTCTGGAACTACTGTCCCCTTAAA
ATGGTGATGTAGAAGGACATGTATTGACCTAGTAAAATATTAAGTGAAGGAAGTGTGTTTACAAATGTCATTTTTGTCTGATTTCACTTACCTTCATTTA
TAGAGAGTGGATAATTGGCATAGATAGTGTTAACATTGTTTATCGTGGAATGTTGAGATCGTTGATGATTTTTACTGGTTTTTTTTTTTTTGGTTATTAC
CTCTAAACTCTGTAGGAAGCATGCTTTCTTGATCAATAAAACTTAAAGTTGGAGTTTATGCTGCTTTTATTCATAAAAAAATCACGTTTTTAATCTTCTG
TTAGGTTATCCTTTATGTCTACATTAATGCACGTGTGGAGAGAACACAGTCTACTCGGCTTATGTCAAATGGTAGTGGGAAGCATGGAAGCATGCGTTTT
TTAGTCCCCACTTTACAAGTCACAGTGACGGTTCTCCAGTGTAGAGTAGATTGATTGCCCTGTGTCCTTCAGGCAGGGTGCAGTAGTAAGTTATTGATAC
TTGGCTGCTGAGCTGTCGTTCAGGCCTTGGCAACTGACGCTCTGCAGAACGGACCAGGAGTGTGCGGTGGTGGAGTCCGGCTGGCCTGGGTTGCAGATTT
AACTTTCGCCTCTGCCTCTGTGTGCCTCTGGGCTGTAAGCTTTAGTTTGCACGGTTAACGGGGATGGCCTCTCCCATGGTCGGTTGGAGTGTGTTGCACA
GCGTCTGGTCCAGTGTTGGCACTGTATAAATGCCAGCTAACTGGTTAGCCACCTAAACTGTCAGTCTGCAACCCACAGCTCTGCAGTGAACAATTGAACC
TCATTTCTTTAATAATAATACAGGATTCCTGAAAACCAACTGTATTATTGTTTGGAAAATAGTTTAAAAATTATTTCYTTCTAACTGAGACGTTTACCCT
CTTGTCTCCCTTCAGTCTGCGGGCCAGGCATCGACATCCGCAACGACTATCAGCAGCTGAAGCGCCTGGAGAACTGCACGGTGATCGAGGGCTACCTCCA
CATCCTGCTCATCTCCAAGGCCGAGGACTACCGCAGCTACCGCTTCCCCAAGCTCACKGTCATTACCGAGTACTTGCTGCTGTTCCGAGTGGCTGGCCTC
GAGAGCCTCGGAGACCTCTTCCCCAACCTCACGGTCATCCGCGGCTGGAAACTCTTCTACAACTACGCCCTGGTCATCTTCGAGATGACCAATCTCAAGG
ATATTGGGCTTTACAACCTGAGRAACATTACTCGGGGGGCCATCAGGATTGAGAAAAATGCTGACCTCTGTTACCTCTCCACTGTGGACTGGTCCCTGAT
CCTGGATGCGGTGTCCAATAACTACATTGTGGGGAATAAGCCCCCAAAGGAATGTGGGGACCTGTGTCCAGGGACCATGGAGGAGAAGCCGATGTGTGAG
AAGACCACCATCAACAATGAGTACAACTACCGCTGCTGGACCACAAACCGCTGCCAGAAAAGTAAGAATGATGCTGACTGYTGCTTTCTCTCTGCCTCTC
TCTCTCCTCTCCTCCTCCTTGACCTCCCTTCTCTTCTGAGTGCACGAGTTCCGCTGGGCAGGGTGCAGTCGTGTTGCATTTAGGACGTGGCATGCCTGCT
GTGCGGAAGTGGTTCCCAGTGGGGGTCTTGGTTGGCTTTCCTTTGCATCTGGGACTCTTGGATTGCGGGACTGTGGCGTGGCTGGAGGCCATCATGGCTG
CTGTCAAGACTGTTCAAATCACATGTTAGAAATAATCCAGCACACTCCTGGGCTAGACACTTGCTGACCTTCAGCTTTGAATTCCTGATGAGAAAGGTGA
CCTGGTGTGCTTGGAAGTCCCTGAGCCTTGGCAGCTGGGGGCTGCTTATGTGTCAGCTCTTTCATCCTTTGTGCGAAGTGATATTTTTTGTTCTGCAGGA
CTTCCTTAGTTTGAATGGACTTGGAATATGGTTAAATAAAGGGAAGGTAAAGCACTAACTCATATCCTGTGAAAGTGGTCCTTAGGTCCTAGTGATGATG
TTATGATACTCAGGTGTCCTGGTTATGACAGAGCACCTGGCCCAGGTGGGAGACCTCTGGACCCATTTCTGCAAGTCCCAGGTTCAGGCTGTACTTGCAG
GTAGCTGTGTAGCAGGGTGCATTTTTAAACCTCTGGGATTCTGTTTTCGTTCTTTTATACCTGTTTACTGAACAGTTGTGAAAATCTTAAGATTTCACGA
GTGAAGGAACTTTGGAAAGTATTTACTGTTCTGGGGGTCAGATGGTGGTATTTTGAAGCTTCTTGTATATTTATCTGCAATATGCTTATTTTCCCTTGAG
AATAACTGAGCTCTTGCCTTCATGTGATCAGTTCCTTAAGAACCAGGCTGTTTGGTATTAAAATGTGACTCTGAGCCTTCACCTTATTGCATTCAGCAAT
AGTTATGTATATTGGCTAGGAAGCTTTTCCTCACTGGTTTGAAGTCAGTGTGTTAGCTATAAATAGCTATTATTTAAGTGTTGGCCCAGTTAAAGATGTA
AGGAACCCATGTTCTCTAGTTATGAAGAACCAAGAAACCCCAAATTGTTAGACTTGCCTAAAATAAATAAAAGGCGAGACCCCACAGGGGTGAAGTGTGT
AAAGTAAATAAAGGACAGACCTCCCAGGTAGCCCTTCAGTTCCCGTTCAACCAGTCCTGAGGCAGGAAAAGGATCTGTGTACCCTGATCTGCCACGCACT
TTTCTATTCTGCAGAATTGGATCAGTGCGTATGTGAACATTGATTAGTGAGGGCAGGGGTCCCACTGGCTGCAGCCAGTACCTTGTAGAGCTCTGAGAAT
GCAGTCAGGCCACTTTAAGGTTGGCTGGAGTTGGAGGGAGATCTTATGCTAAAGTCACTTGTGTGGTTGATTAAAACTGCCCTATCATTAAGTTACCCAC
TGGTTTGAGAAAACAACAAAATATATTTTTTAAATAACCTTGACATTTAAAAATTTTATCTGAAAAGTAAAAGGTGTTATCAAGGGAGGCAGCATGGAGT
AGAAAAGAGATGTTGAATGTGGTGATGAGGGCCAGGAATGACCTTGGATGGGCCAGCCCTTCTGGGCTGTAGTTGGGCTTTTTTAGGATATTTCTAGGGC
AGTCCAGTACATCCCTTAGTGGTGATCATATATGGGCATGAGGATGTTTTGAAAACTCATAAGCTCTTTAGAGAAGGGAGGTGCCATATGAAACGTCATT
AAGTGGAGAGTTGTTCACGAACTAGGTAGGTAGTTACTTTGGTCTTGCCATAGGTTTTTGGCTGTTTCTGATGAGCTACTGWTTGAAGACCCCTGGGGTA
GGGGTGAGGCCTGCATTCTGGGTCCAAGTCTAAGAGTGGCGACTAGAAATGAGCAAGTTATTTAAATTGCCTGGGCCTTGGTTTCTTCATATGTGGAATG
GGGTAAAGCCTGCCTTCCTCATAGGGCTGTTGGAAGATGAAAAGGAGGAAGGAAAAGCACCGTGAAAATGTTAACGATGGTTAGAAGGTGGGCTCTGCTG
GTGACAGACAGAGCCTTGATATCACCTGTTGGTTGGTCACCTGCTTCCCCAAGGCCACGCCCTGCAGCCTTCTCCTTGACCATCCCAGCCCTGCTGATGT
TCCTTGTGATTTCACAATGGAGTACTTATATAAAATTGGTAACTGCTTTCCGGGAAATTGACTTCCCTTCCCCTTGTCCTGAAAACTCAGGCATGGGCAT
ATTTCTTGGAGATTTTCTAGTTGAATCAGAACTTCCTCTTGGTTTGYGTAGATTCCATTTAGACCTGCATTGTCCAGTGTGGTAGCCGCTTATTGAGTAA
GCCACGTGGCTTATTGAGTACTTGAACTGTGGCTTGTCCGAATTGGGACTGCTTTAGGTGTAAAATATACACTAGATTTCCAAGACATAGTATAGCAAAA
ACTCTGTACACCATTTCATTAATAATTACTATGTTGATAACATGTTGAAATATAACATTTTGGATATATTAGATTAAGTAAAATGTGTTCTTAAATTTCA
CCTGCCTGTTTCCTTTTTATTCTTTTTTTTTTTTTTTTGAGGCGGAGTTTCGCTCTCATCACCCAGGCTGGAGTGCAGCGGCGCGATCTCRGCTCACTGC
AACCTCCGTCTCCTGGGTTCAAGCGATTCTCTTGCCTCAGCCTCCCAAGTAGCTGGAATTACAAGCATGTGCCACCATGCCCGTCTAATTTTTGTATTTT
AACTGGAGACGGGGTTTCACCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGATGATCCGCCCGCCTCAGCCTCCCAAAGTGTTAGGATTAC
AGGTGTGAGCCACCATGCCYGACTCTTTTTAATTCTTAATGTGGCTACTTGAAAATTTAAAATTACAGATGTGGCTTGCATTCTGTGTTGGTAAGCTGCT
TTAGAGCATTTCTTTTAACACCAGGAGTTCTTCCCCTCATCATCTTTTTGGCTGAGTCGTCACTGCAGCGCTCATAGCCCCGCATGTACCTCTCCAGCCA
GAACCCTTAGGAATCATTTGGGGAGCTCCATGAAGGGCATTGAGTCCAGGCAGAATGGCTACCTTGAGTTCAACATAAGCATTAAGATGGCCATTCGAAA
ACATTAAGCACAGAAGAATCCCATTCAGGTAATCTTCTGTTGGCTGGCTGTAGAACTACGGAGAACATCTGGAGAAACAYGTCAAGGGTGTGTGTGAAAT
CGTTGAGCCTACTCGATTTTGTCGTGCTGTTGCGYGGTTTTCACTTGGCACTGTCCTTTAAACTCCTTCTGTGCCGTGACTCTGCAGTGTCTGGCAGCGT
AGTAGACTCTACTCCCTCTATGGACGTGATCCCTCTGTGGGTTCTCTGCACACTTCTGTATTTCTCGGTTCTTTTTGGATTTAGGAGTGGATTTTATACA
TTTTTGAGTCATTCCTAAAGAGCGATTGACCCTTAAAGAACTGTGTACAGTGGTTTCCTTTCAGTAAGAACATAGTTGTGTGGCACCCCCTGACATGTGG
TGTGGTTGATTCTTCTTCCTTGTCTTCCAACGCCACCCTCTTATGAGTCTCTTCCTACCCCCACAGGTGCCGCTTCTCTGTCTCCCTTCCCTCAGTCTGG
CTTTTAACGGTGGTCTCCTGACATAGTCCATTCAGGCTGCTGTAACAAAATCCCATACCCTGAGTGGCTTACACACAACAGAAATACTGCTCACAGTTCT
GGAGGCTGGAAGTCCAAGTTCAAGGTGCTTACCAGATTAACTGTCTGGGGAGGGCCCACACTCTGGTTCACAGAAGCACCTTTTCACTGTCTTCACATGT
TGGAAGGGGCGAGGGATTTTTTTTCTGGCGTCTTTTTTATAAGGGCACTAATCCCATTTGTGAGGGCTCCACCCTCATGGCCTAATCACCTCCCAGAGCC
ATCATACTGGGGATTAGGTTTCAACATAAGAATTTTGAGGGGACATAAACATTCAGATCATAGCATGGCTGGAGTTCTGTCCTGGGCTCTCTTTTCACTT
TCCTTGTTCTCATCTCATCCACTGGTAACTGCATTGCCTCCTGTCTCCACCTAAACTTCCAAGTATCTCCAGCCCAGAACCCTTTTGAGTCCAGGACCTG
TCATTCATATCCATCCCAGAACCCTTTTGAACCCAGGACTTGTCATTCATATCAGACCACCACGAGCATTTCACTACAGCCTCTGATGGTCTTCCCTGTT
TCCTCACTTTTGCCTATTTTTTTTCTTTTCTATTCCCTCTTAAGTGGGCCACACTTTTGTTCCCCTGGTTCTTATGTCAGGAATGTGGGTGTCCTTTGGA
CACTTCCTTCTCCAGTTGGATACCAGGCCCTTTCCCTCCCGAATGGAATGGAAATGCTGCTTCAGCTGTGTTCCTCTGCTCCTCCCCCTTACAGCAGTGA
CATAGCCTCTCTCCTGCTATTGTGTCCTGTGGCTCCACCGAGCACTGGGGAGCTTTTCAGTATGCACTTTTTTTTTTTTGGAGAAAGAGTCTTACTCTGT
CACCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCATTGCAACCTCCGGGCTCCCAGGTTCAAGTGATTCTACTGCCTCAGCCGCCTGAGTAGCTGGGA
TTACAGGCCCGCACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAACCAGGCTGGTCTCGAACTCCCGACCTCAGG
CGATCCACCGGTCTTGGCCTCCCAATGTGCTGGGATTACAGGCATGAGCCACTGCGCCCGGCCATCTAGTGTGCACTTTGGACTGATGAGCTCCCCTACC
TGAAATCCTGTAGCAAGTCCCTATAGGATAGGCATGTGGTACAGTGTGAAGCTCCTGAGTGGTCAACAGCTACCCCGTGACAACATGCCACACTCCATGT
GCCACTCCCTCCYGCCTGCCTGCTGTGTCCTTGGCCCCAGTGGTGCTCTCCCGTGCTGACCAGCCGGCACGGCTCACCTGGCCGAACTCTAGCCTTGCCT
TTTCCTCTCAAGGATGTAAAGGCTCTGCAGATTTCGGGAGGCCTGTCTCCCAGCACCTGATGGGACACTTTTTGCCCCACTGTAAATTCTGGGTGTATCC
TCCACTGTATGCTGTCACCCCAAGGGCAAGCACTGCATCTGCTTAGTGAAGGATTTATTGTTCGGAAGATACATTTTCCCCTTGAGCAGAGAGTRGCGTA
TCCTGGCAGTCTTCGGTGAGCCAGTTGTACCAGGATTATGAAATGCAGATGTTTACTGTGTCATTGTTGCTGTCATTGCTACTGAGGAGTACTGACCAGA
ATCATCTGCAACTCTTAGTTGGCAGAGAGGACCACTATGGCGGGTAGCTCTTTTCTTTCCTGCCATTGTGGGGATGATTCCAGGCCAAAGATGATGGAGA
AGTATGGAAATCATCTGAAAGGTTGAAGCTTGGCACGTGAAGCCATTCATGACTTTGTAAGGCAGTTTTGCTGAAGGCCAGTTCTGCCCTGGGAGGGACG
GAGGTGAATCCTCCTGAGTACCTGTGGTTTTCTTACTTCCTGCTGAATTTACCTAAGTGCCTGTTGTTTGCTTGCTGTGGAGGCTTTCTGGTATTTCATT
TCAGGTGCAGATGCCTTCACTTTCCCACAAAAAAAACCCCAACAAAACCTAAGACCTTACTGCAACTAAGTYTCCAAGTACTTTTTAACCYAWTGGGATG
AACAGCCTGTGGTCTGCTCAGATCACCCTGAGTGCGTGTGAGAAGGCCTGGGCTTTGCCAGGAAATCCAGGAAGGCAGGGCCGGGCTGTGTTGGAAGCTG
GCTTAGCTGGTGGGGCAGCCTTATTTCAATTAAAAGGGCATTGACTGGGAGCAGCAGTCCTGGAGTTTGTTGCATTTCCTATTGCCCTCAAAATGAGAAA
CCAGGAAAATAGCAGATTGGAGCCTTCGAGAAGGCAGTAAATGGCTGTTTTTATTGACAAAAGGAAAACATTTTACTGCCATCTCACTGATGGCATCTCA
CTGACTTAAAATGAAGGCAGGTTGTAGTAAAAAAAAAAAAGTCTACATTTTTCCACCGCCACGTTCTTATATCCTTGTTTGTCAGCCACTGCTCACAAGG
GCAGTGTTGTCTTGCGGAGTAGAGGCGCTCTCCTTCCCTCGTTTTCCTCTATAGGTTGGTGTGGCTGACCTGCTAGATCAAAGTGGAGGACCTGTTTAAG
AATGTGTAAATTGAAGGCTGGGCGCAGTGGCTAACACCTGTAATCCTAGCATTTGGGGAGGCTGAGGCAGGAGGATCGCTTGAGTCCAGGAGCTCAAGAC
TGGCCTGGGCAACATGGTGAGACCTTGTTCATATAAAAAAATTTAAATAATTAGCTGGTTGTGGAGGCACGTGCCTATAGTCCCAGCACTTTGGGAGGCT
GAGATGGGAGGATCCGCCTGAGCCTGGGGAGATGGAGGTTACAGTGAGCCGTGGTTGTGCCACTGCACTTCAGCCTGGGCGACATAATGAAATCCTGTCT
GAGAAAAAAAAAAAAAGATTTTGTAACTAAGTTTTATGGCTAGCTTTGAGAAAGGAAAATAATAATAAAAAAAGAATGTGTAAATCACCTGCTGGATGGG
GGGAAGAGGGGCACATTGTCTTTGTAGTGAGACTTCACTCATGTGATGTGCAGTATTTCATCTTAACATTTTTTTTTTAAACTTAAGCTACTTGTGAAGA
GCTGAGATGTTTCTGTTAAGCACTGTGTGGTCTGCTGCTGGTCTTCTGCAGGCCACTGTTCCCCAGACTGCTAAGACGATCATGACACAGGCTTGCATTT
TCAGGTGGACTCTTGGGAGGGGCTTGTGGACCCTGGAGGAGAAGGCAGCCAGGAGAGGGGCATCTGGCTTTGTGTTGTTGGTAGGAACTTGTCTCGGTTG
CCCTGGAAGGCCTCTGCTCTGGTCAGCTGCTCCCAGTGTGGGGGTGATCTTTATTTAGAAGGGGGTCACATGCCCCCAGGCCTCATTGCTATGCCTTTTA
TAGTCAGGCGTGGAGCTCACATTCTCTTCTGCCTGATTGCCGACGCTTGTTGCCGAGATGGTGAAGCAGTTTGTGTGCAGGTTCCCTGGGACCTGGCTTA
GCCCACCTCATTTCTTGGGGCGTGTGCCTTGTGCCTCAAAGACTTTGCTTTTGGCTAATTGTCATTAGTGATGGTGTCACCATCCTGGGCCTCCTTCAGA
AGTTTTTAATAGGGATCTCGTCTAAGAGACCAAAAAGCTTTCAGAACCACTGACTTGTGGTGATTTTTGCATGCCAAGTATTTGGAAAATATCTGGAGCC
CCTTCAGCTCTCACCAGTTAAACCTATTTGTACAWTTGTTCTGGTTTCTTCCTGTGCTTGAAAAGCCTCTTTCTTTGTTGCGTTAATACCTCTGTCTTGC
TTTCCTCATGTGTATGCCAGTGTGACATTCTCGGCAGAGTGGGGATGACGTGGAGCGTGTGGGCCCGTGGTTAATCTTGTCCTGAATTGCCTTGCTCAAC
TTGCGTGTATAGGGTGGTTCAAAAGTTAAGTTTGGCTGGTGGTGAAGTTGGAAGCATCACTTAGAAACACGCCTCCTTTGGGCATATGGTGTGAATCAGG
GACTCTGGCTATAAAAGGTGGGGTCTCTGAGCACCATCCTRGTTGGAATGTTCCCCTGACTYGGAGGTAGCGAGAGACAGCCAAGGTGTTTGTTCCAGGG
AGGCTGGTGGGTGGGAGATGGGATTTTTCTGTCTGTGGCACAGGCAGTATTAAGTAGAGCAGGCTGTTTAAATCACATTTTAAGTAAAAACCAAAGTGCA
CAGATGATCTGCAGAACTTCTGGGGGATAAGAAGCTGCTTTCCTCGAAGAAGTTCAYCTCCAAACCAGCGCCCATGGCTCAGCAGCCAGCATGGCAGCCC
CAGGGGTACATGGGACTTSGGCATGTGAGGCTGGTGAGGGACAGGGACAGCTGGGTCCAGCAGTGCCTTTCCTAGGGACGGTTGCCACGTCACCTGTCTG
CCCTGTACTTCCATTTCCTTTCTTTGAACTCGGGGGGCTTGCATCGGACTACCTGTGCCGTTTCCTCAAACTCTAAAATTGAGTAAGTTACTGAGGGTTT
CCGTGGTCTGCTCTGAGAAGATTTCTTGCTTCCTGATCTGCCTGTGTGTTCGTGTTGCTTGGTCTCTCTCTCTGTCTCTCTCTCTCTCCTCTTTGATCCT
AGTACATACAGGCAAGGTATGCAGCATTTAAAATGTTCATAACTCATCAAATGGCACACTGATCATCATGTATAATTTGGGAATCAGGGTTTAAGAAATT
TAGAGATCATTTATATGGAAGAAGGAACCCCAAGTAGAAACCCAAAATCTAGACCATTCTGGGTTCTAATCTGTACCTGCCACTGGCTAACATATGGCTT
TAAGCTGGATGTTACAATGAGAGCTGGAGTTTCGTCTGATTGCACATAGCCTTGCTTTTCTGTCTTTGGAAAAGTAGCTCACTGYAGAGCCCTGGTAAAC
GTTTGAACTGCATTGCGGGAGTAGGCAGAAGAACAGAACAGTCCTTGGAGCTTGGTAGGAGGTGTGAGGGCTTATGGGGGACAGTTGTCTTTTCAAGTCA
AGGAGGAATAAGGGCTTCTGGGGCSGGTGGAAAGGGTGAGTCTTAGGCAGGGAAGGGTGACCATCCAGGTTAGATCACTTCTTCTGCGGGGTCAGCTTGG
CCGCTGTTAGGTTTTCAGGATGTCATGGGGCTGGCCAGGCCTCACCCCTGATATCCCTGAGCATCTGTTCCTTACAATATTGTGGAGTCCGTGGGGGCAG
AAGCTACCATCCTGTGCCTGCCCTCACTCTCAGTGTGACTGGTCTTCAGGATGTTTAGGTGGCTCCACATGCGGATGTACAGCTTTCCCCTGCTTGTTTT
CCCCATGGCATATTAACAGCGAGATCTGCAAGAATACATCATTTTGTACAGAACAGGATGTATTTCTTTTAAACTACGTTCCTGTGTGGACAAGTGGTAT
CATATGCAAAGGTTTAAGGACCGTTGATGCCTTGAGATAGTGCCATCTGTTTGCCTCAGGTATGTGGTGCTAGGACAAAGCTGCCAGACCTCACCTTCCT
TCAGTGAGACAGGAATAGGACAGTATTTGAAAAGCATCTAACATGTTTCCAAGCACATAGGTTTTTGGTAAATGGTGGCAGCTGCTGCTATTTTTTTTTT
AAATTAAACTATCTAAGAGTTGCATTCTRAGACCATCTAAAATTCTGAGTCTTAAGCTGTGTTGACTATATATGTTCACTACCATAACTAAATGGTCCTT
CTGTATTGCTTTTCTAAATTGTAGAATTTCAATTATTGTAAATAGCGGGCCATACTGTAGGTGTGGTTCTTGCTAATTTGATTCGTACTGTTCAAATTCT
TGTGTCTGTCCAGATAAACTGTATCTTTACAGAACATTCAGCGAGGTACATATGTCTATATCGGGGTGCCAGTGGAGTCACCCTAGTCATATGTAAACTC
TATTTATTTGGTTCCGAAACTGAATTTATTTTGTTTGCAAGTTTGGTRTTTGGGAGCATTTAAGAAATATCCATAGATTCTTGTATGATACTGACATTAA
ATCATTAAATACCATATTTTTTAAATGCCTCTGTCTGTTTGCATGGATAACATTAAAGTGGTTAGAGTGGGCACAGTTATTGGTAAAGATTACAAAGATG
TGCATTTTTATGACAACTTTAGGTCTCACATAGGTAGCCAACCATCTGCTCCAGGATGAAGCATGTGCCTGTTTATCCTCTTCTTTGGTAACGCTAGGTA
TATGTGTGCACACGTGCACGTGTGCGTGTGTGTTTGTGTATGTGCGTACCACTTTATTCTCCCACCCAGCCTCTTCTCCTGTTTTGTTTAGTTTCATTTT
CCTCCTCTCACCCCCATTGCAGGAAACAAACACTGGCTCTCTGTCCTCCCTTAGGTCTTCCTTCCGTTCAAGGGGATCAGGTGGGTGGGAAAATGTTGTG
CAGGAATGCCAGGCCTCTGCCCGAAGCCGGGCTTCTGTTTCATCTCATTATTGAACAGAAGTCGCTTTTTGTTTCTTTGCCTTGGTCACAAACAAGCGCC
CAGTCCTCTCTTCTTTCTTCCTGCCATTTTTCCCAGAATCCATGTGGGATGGGAACAGAGGCAGCGTATTTAGGGACTGTCGGTTGCTTGATACCCATGG
CCTTGTTTAGAGAAGCTGCACCCACTGCCCCAACGTGTAGCTGCATCTGATTTGTTTTTGCAAGTCCTAATGAAGGGACCTGGATGAAGTTAGTGAGGTT
GCCGTTCCTGGGGTTAATGCAGAGTGGCCCATGGAGCTTAGCCACCCTTCATGCAGAAGGTGGGGCTGAGGGCAGCCAGTGTGACTGAGGCTCGCTGGCC
CACCCTGAGCTGCTTGTGCCCATGGGGCCCCTGGGGAGGAGGGCCCAGCTGCAGTGCGSATACATCTGCCCTTGGCAGCAGATCTGTGAACCCAGGCTGC
CATTCTGGATTTCCGGATAGATGCAAAGTGCTTGGACGTGTTTTAGCAGCTGCTGAGACCAGGAGTTGGGCTTAGTAGTAAAAAGGGGGAACAAAATAAA
AGAAGATCAGGAGACAAAGAGCCTACAGTACAAAAAAGGAAAGACGAAGGTTGATATTATTAGAARTACTTCCTGGGCAGCCTTACTGTTTGAATTAGGA
TCACCCCCACCCCCACCTCCCAGAGGTATTAGTTGTAATGCAGAGACAAATGGAAACTAGTCAGATCCTTGGGTCCTAGAAAAGACCAGCTTTGTTCCTG
GGGTGGTAACCTAGTACAACGTTTCCGTTCCTATTTCTTGACCTCTGAATGGCCCCTTCTGCTTTGCTAAGTAGATGATATTATTAGGTGCTTAGACTAT
TCTTCAGATAGGATGTAAGGATATATTTTTGTTCTCTTCCTCAGTGAACTTGAAATGATTGGATTATTTTGTAATACGTCGATACTACTTTTAGAAGCTT
TTGAATAACTGTGTCAAAGAAGCTTTAGAAGAGGTTTTAAGCAGGRTTGCAGAGAATGTACTGAGTGTGTTTTTCCACTCACAAGGAAAGACAGCAGCTG
AATGCAGAAGTGTGTRTCTGGTTCTAACTCTTTATCACTTCAGGGACTGTCCAGGCAGCACCATCCGTTGGRTCTCCTGCCCTTCCTCYTCCCACCCCTG
CCTTAYCCCTGGCCATTCTTTTGTGACCAGTAGTCSTTTATGAATGGAATTCTGAGAATGTATAATTTTCTCAGAAGAATGCTTCTTTAGCTCACCAAAT
ATTTCTTGTTTGCTGAGGGGGGAAAAAGATCCTCCTTGGAAAAGTCACTGGGTGCCAAAGGTGGGTGATKAGGAGAGATGAACTTCTGGGTGTGCCTAGC
AAAGCTGTTTCTGTTGATAGGCRATTAAYAAAACAGCCAAACTTGACCTAACAGACTGCCATTTTGAGAGGAATTTGTTTTGCAGGATTAATTGGCTTCG
AGGTGTACTGGTGGCTGTGCAGTGATGACGGCTGTCGTGCCTCCTGTGTCTTCTGCTCATTGTGATGCAGGGCAAGTGCTTAGGCCTCAGACACAGGCTC
CCTGAACTTCGTGTTCAGTGCTTTAGGGTGGGGGGACTTGAGACCCTTGACTTGACTCGGTCCCACTGGAAAGCTTCTGTTGCTTATTTGGGTAACCCCA
ACTCTATCTTATTGGGCRGTAGTGTTATCCTAATTCTTGGAAATACTCAGTGTAGAATAAAGAGCTGATGAAAATGTGTAAGAAGGGAGTAAGTGGTCAT
TAGAGAGAAATGGTAATTGGGATGATGCTCTGACCCCTTCAGCAAAAAATAAAAGGTGAATGGTTTATTATGAGCTAGTTCAGATTCTGTTTTTGGAAAY
GAGCTTGGTTATACATAGTGCATTTGAAAAGCGTGAAGCATGGACTTTCAGATGCCAGCTCCTCAGCCTCCTGTAACTCCAGTCGCAAAATCCCTCCAGT
GTATCTAAATAAATGCAAACTCATCAGTGCCTTACCATTATAAAGCTGGGCTGGAGAGGCAGGTGGCCTGGAGAATCAAATGACAAGAAGTATAGGGAGC
AGCCCAGCTTCATGATCGGGGGAATTTGCATGAAAATTGTGTACACTTAAGCACCATTGTCTATTGCAGAAAGCACGATCTGGCCTCTTCTACTGACTTT
CCTTCCAGCTCTGAGATTCAGTTTTGAAGACAAGGTTGTTGGGGACCTCGGATAGATCTGTTGGCCGTGGCTTTCAGTAAACACTACTAGAGACTGAGGA
CATGTTCTAGACTTGGAATGGTATGAAGCAGTCGAACTTTTTAGGATGGGCCCTACCCTTAGGGACTGCCTACGAAACTAGATCTAGAAGAGGAGGCTGT
GGACATTAGGAGGTGGCTGCAATTGGGAAGTTCCAGAGAGCTTACTGAGGGATAACGGATGTAGGACAGGAGGCTGGCAAAGCACCTCAGTGATAGGGCA
GAAGGAAATAAAGTGGTTAGGGAAGGAGTTGAGAGCAGGAAATTCAGGTAGGATTGATGTTAAGTCTTAGATCTTTGAAGTGACTTTCTCTGGTCTGGCT
TTTGCTGTTACCAAAGTGAATTATTCATAAGTGCATATGAGAAATGCTGATGTAACTCGATTATGTGGAATGAATTTAAATTCATTTAAGTCATTCTTTT
CCACTAAAGTAAGCTTTCCCTCATCCAGAATCTGAGCAGCCCGATAGCCAAGCAGGAGTTTCCTTGTGCCATGGCCAGTGATTGATGTCTTCTTCTATGA
TGCTGCTGAAATGCTGGGGACTCTGAAGCGCAGCTGGAGTGATCAAAGCAAAATTAAAATACTTTCTCAGTGGTTTGGGAGTTGGGTGCGTTCTGCTGTA
TTTTTTGGTTTTCGGCATCTGGGTTTGGTGTGCATGCATGGTGAGCTCTAGCTGGAGCAGACGTTACCTACTGAGGCTACGCTCTTCGTGGTTTCTCCTT
AACCATCACCCACTTGATCTTCCATGAAGCCCCCCAAATCTTCCTTACTGAGGACTCTTGCTTCCAGGTTGCTTTTGTGCTCATCCATTGCTGGGTTATT
TGGTCAGTGATGATGGTTTCTCTGTACTTTTTATCAGTAGGTTCAGAGGACCTTGTTTACTCCTCATTCATCTCTCTCCCCAAACAGTTGAGAAACCACT
TGTGGGTTAGGACTCATGCTTTGTTTATAATGTTTGATTCTCCAACCTCACAGCTAATGGGAAGCCCGTGGAGGAGATACTCTGTAAAAATCCATCTCCC
ATGTGGGCTTGACCCCACTTAGTGTCTGAGTGGTTTGGTCCTCATAGTTCTCTTGGGGGAGGAGGAAGGGAAGGAGGAGGAGGTGGCGATGGCAGTGGCA
GCAGTGGTGGCATCTTGGACCAGAGTGAGAAATCTTGGACCAGAGACAAAAGAGGTCTTCTCTCAGGGTAGTGCACCATGAGAGGGAGCACCTGTTTACA
TTTTGTATCCTGGACACCAATCTTGCCTTGCTCTGGTGCTGGCCCTGAGAGGTGCAGGAATTTTATAAAGAGATTTACAAAACATTTTTGGATGACCAAA
TTGGTCCCTGGTTCTAGCTGGAATGAATAAACAAACTAAATAACAGTAGAGTGTGAGAGTAAGTGTGTGTGCTAGAGAATGTGTGCACATGTATGGCCTA
GGTGAGTTCTTCACTTTGCTGACTTGTGAATTATTTGGGGTCCTATGGTCCTCCCCATCATTCTTATTCATGTCAGTCCACCATCATTAAGGAAGTGGAA
GCGAACACATTGTGTACATATCACTCCCATAGAGAGGGAGACTGGGGAAGAGGTTTGAGTTATAAGTCGCACCTAGGTTAGGTCTGGATGTGTCTTTGCA
GGTTTCCTTGCTAGTTCCTTGGCCAGAGTTTCCATCGTGTCCCTCAGCTGCACAATTAAGGTGCCCCCGTTTTGTGCAAGTCTCATGCTAGGCAGTATGA
GATGACACAAACTAGGATTCTGTTGTGAGATAAGATAAAAACACTTGACATTTAAAAGAGAGAGACAACTTATGCGGTGTGACGAGACACTCTACGACTT
TTGCCAGAAGAGAAATAGAGGCAACAAGTGCTAGGAGCTCAGAGGAGGGTAAGTTCCACATTTGGAACTTTGGATTAAAAGAATATTTGGGTCTGGTTGA
AATCGAGGCCTTTCATGAGAAATGTCCACACTTGCTCAGTACTGTTTGCCGAACACTGTATACAAGGCCCTCGACTCGTGAATGAGTTGTAATGCAAAAC
TTTGCCAGGCATTTGGAATGTGGAGTATACTATTTTGTAAAGATGAGGTCTGAATGGTGGTTTAGGTCCCAGGCCAGTGTCCCTCTGCCCCCCACCTCCA
TATGTGCCCTCAAGCCGGTTTGGCTTAGACATTATTTATCTCTGACTACTGTGTACAGCTTAGTTCCATGGGGAGGAAAAGGCTTGATGAACCCTACCCT
GGAAGGCTGGTGGCTCTGTTTTCTGATGGATGAGGTAGGAGTGGTGGAAAGCTGGTAGTTTCTACTTTGTGCCTGTTTAAAAAGCCCCCTCTGAGGCCTT
AGCACTTAACAGATGTTCAGGATTGGGGGAATAAAGGAGCTGCCTTTGCAGAGGTCTGTGGGCATGCAGTGGGTGAGAGAGCAGGCACTGAGTGCCCCGA
GTTTCCTGCCTGTGTGGGCAGGAGGATTCTCAGTGGAATCAGGAGCATCTCCGCCTGGTGCTGGAGGAGGTGTGGAGTTGAAGGTGGGATTCTTCCTCTT
GAAGGACTTGAATGAGTTTCTGTGTGGCTGAACAGAAACTGGTTCAACACCCATGTCATGATTTTTGTGAAGCGAGGACTTGGGGTCCCAAGTCTAGGTT
TTAGGTTCCCTGCTGTAACCCGTGGCCACCGAGAGAGAGTTTTATGATAAAATGTCAGCAAAGTAYCTGACAACGTCTCACGCTAGAATGAGTTTCGTAC
ATGTTTAGTTCCCTCTCTYTTTATTCCACGCYCCCCCACCCCAACTTTAAATCAGAAACGTGAGGGTGCTGATTGAAGCTTTTTATAACTTTTCTTATTG
AGAATTGTTCTCTGGAGTTGTCTCCAAGAACAAAGGAATTCCAGACGTTCTYCTTCTCTCCTTGTCTCTTCTGTCCTCCAGTCAAAGAAAAACTCTGCAT
ATGATCTTTGGCCTGGAGAAATATTAAATCTATGTTAAGTATGCAGACAYGAATGGGCARATGAAGGATTTGTGGCAAAGAAGATCTGCCGAAACAAATA
AGTCATGTAAATGGGCAGAGGGMAATATTAAATTGATTGCATCTTTCAGCTCCTGGTACTTAATGCAAAGATAAAGTAGTGGGAAAAGGTTGTCATTTGA
AATAATGGAAAGATGAGGGAGTTTTGAAGCTAGCTGGGATTTTTCTGCCTGTTAATAGAGTGACTTGGATTACAGACTATAAAGATAAAGAGTAGGGCCG
TTGCATTTAGTATGGATCATGATGCTGATTGCTGTCTGAGCAACCTCTGTACTAAGGGAGGAGAAGCTAACATCCCCGGGCCTGGAAGATACTGGATACT
AGCTCATTAAACTCTTGTGAGAAGCCTTCATTAGCATTATGGGAAGACTTGCTGTATCTATATTATGAAGGCATTTAGATTTTTTTTWAAATGCATGTTC
TTAACATTTTTTGTTTATTAAGTGGGGCAGTAGATTAGGACTGAATGGATTTGATTCTCTCATCCTACATAGTGTGCCCAGAAGCCAGAAGGTTTCCCAG
AATTTGTATTATGGCAGCGAGGGCAAATTTAATTAGCAGATAGGAAAAGCTTTGGAGCAGTTTAGGCCAATCCATTTAATTGTATCAGCAATTAATATTT
TGAGAAAATGGAAATAATTAAATTTACATTTCTTCTAGGACTTTATTTTGTTATCCTTTAAGGTTATTGTAAATGAGGAGACTTTTGAACTCACAGACTA
AAGCAAACTACACCAGATAATCATTAACTTTTTCTATTGTGTGCCACCCTTCCCAACCAGATTGTTCCATAGTATCACTTATGAACCAAGAACCTGTGAG
CTTGCAAAACGCATTTTTAAGGAGTCTCAACTTTTCTGATTTGTGTTAAAGTTTAGGTGTGGGTCCCAGAAATGAGTTTCATGGAGGGGAGAGSTTGTCT
CTCTGGGTGGGTAATACAGGGGCCACTGGGGGCTCACTGTGGCTTTCTGGCACAGACAKTTATGAAGCAGGGGTKACTAAAGTGGGAGAGAGCAGCCAGT
TCTCCAGCAGCCCCAGTGAGAGCTCTCATGGATCTGCCTATTGCACTGGGGTAGGAGCCATCACCGTCAGCTTTTCTCTGGCCCACAGTGCCATTTTCTG
ATTAAGCTGAGACCTCTGTAATAGACACGTTGTCATTTTTTCTTGTGTCTAAAAGTTTGCTTGACTGCAGTGGGTCTCCAGCTCAGAGCAGGTCTGGCTA
GAGAAAACAGGAGGTGATGACTGGAGCACTTTGCCCTTATGGAACGTGCTCTGATGTAGAAAGCAAGAGGATTTTCCTTGCAGTCACTGAAGGTACCTTG
TGTACACAGAAAGAAGACAGAGGGAGCCCCGGATGCCTCGGTATCCCTCAGAGCCRGATCCTTCAGACCTGTGCAGTACCTGTGGATTTGGTTAGTCGAT
GATGCGCTGCCATTAAAACAAAGGCATCGGCCCTGGAATAGAGAAGTTCAGTGAGAACCTCTGTACTCCATGGGCATTTTCTAGGAAATAATTTCACCTG
CCCTGTGTAATTCTCTGGAAGAATCACAGTGAGTTGGAAGGAAACTTAAGACTTGGAAAAGGATTGAGAGGTTAGCCCAGACCAYACCAGGGCTCTGAAG
GCCCAGCTGGGGTTAGAACCTGGGACACCCTCCAGCCCACTGTCTCCTGTTCCCTGGCCATTTACTGCCCCACTCCCCTTTCTACTCTCAGGGGCCCTGG
ATCTAATGAGGGGATTCGTGCAGTTTGCTGCACTAATACATTGCAAGTGGTGCCAACCTAAAGGTATTCTGATGGTGGAATCAGAGCAGTAGCATCTTAT
TAGGTCAGAATCTGTATCTCCTCTTCCAAGATTTTTACATGATTTAGTGTTTTCTGAATTGGAAAAAAACAAAAACAAAAACACACAAAAAAACCATGTC
TAAATCCTAGCATTTCATCCCATGTTGATGAAAGGGCATCTTTTTTTTCCCCTAATCTGTGGTTAGAACTCTCAGAAACTTTTAGAAGATCCCTCCTATG
TTTTGGAGGTTTGCAGATTTGAACCCCAGTTCCTCCCACAGTGCTTCTCCAACTCCTGGAATGAGGTAAACCTCCAGGCAGCCTGTTGACCCAACCCATG
CATGCCGGTCTTTGGGACTCCTAGATGTGGACCCTGGAGTGAATAGGGATCAGGTGGGAAATGAGTTCCTTTGATSAAGATCCTTGTACCAGTGAACTGA
CCCCACTCCCCGTCTGGATTCCTGTGGTGATTACCCTCTGTATTAGTCTGTTTTCATGCTGCTGATAAAGACGTACCCAAGACTGTGAAGAAAAAGAGGT
TTTAATTGGACTTACAATTCCACATGGCTGGGGAGGCCTCAGAATCATGGCAGGAGGCAAAAGGTACTTCTTACATGGTGGCAGCAAGAGAAAATGTGGA
AGAAGCAAAAGTGGAAACCCTGATAAACCCATCAGATCTCGTCAGACTTATTCACTATCATGAGAATAGCACRGGAAAGACCAGCCCTCATGATTCAATT
ACCTCACCTGGGTCYTTCCCATAACACATGAAAATTCTGGGAGACACAATTCAAGTTGAGATTTGGGCGGGGACACAGCCAAATCATATCACCCTCTTAG
CAAGGACTGTGTTCGTGATCATGACTGGCATTCACTGAACAATGACTAGGTGCCAGGCACCTCGCCAGTATTCTTTAATCTTTGCACAGTCTGTAGGGTG
GATATGGATATTACTGTTCCATTTTTTGTGGAAGAGGAAATGGAGGCAAGAGACCTGATTATAACTTGTGCAAGGTGCCATGCAGCTAAGCAGCCAGCCC
AAATCCAGACCTGCTTTCCTATGATTTTCCTGCCCATTACTCTCCCATCGTAGCTCACCTAATACTTCCTAGTGGGCTGCTGCTGAACACACACCCAGGG
ATGACTTAGTGGCTTGTCTTGCTCTGAAGAAGGCTAGGCACCATGTTGGATGAGTTCTTGAAGATGTCTTGCTCTAGTCAAGAAACTTTTAAATCTTTGG
AGTTTTTGTCCACATCTGCCTAGTTCTTAGTAAACATGATGTGGGTTCTATTAGCATGGCGCCCTCCCTCCCTTCCTACCACCTTTATATGAGCGGAGAA
CATCTATGACTCTTATGAGAAAGGAAAGATGAAAATCAGAGTGACATAGTATAGTTAAATTGCAGATGCTTAATTATAAAACAGCTTGTTTCTGAATTTT
AATTCCTTGCTTTTCTCTGACTTTTTAAATTCCCCTCCTTAGGCAGAATTCATTTTTACATTGATGATTTTTTTTTTTTTTTTTTTTTTTTGAGATAGAG
TCTTGCTCTTGTCACCCCGGCTGGAGTGCAATGGTGTGATCTTGGCTCACTGCAACTTCCGCCTCCCGGGTTCAGGCAATTCTCCTGCCTCAGCCTCCTG
AGTAGCTGGGATTACAGGCATCTGTCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCAGGTCTCGAACT
CCTGACCTCAGGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTCTAGGTGTGAGCCGCCACACCTGGCCTGATGAATTATTTTCATGTGTGGAA
CAAAACTTTGATGCTGATCAGTGATTAGGTACCTTTGTTTGGTTCATTTTTAACTAAGGAGATTTCTTTCTTTTTAAAACCATTCTTTAATCTTGTAAAA
ATATCATTTAATGGGTGGATGTTTTAGCTGTGATGAATGACAGGTTGTCGTAAAGGAAGAAAGGTATGTGGTTTCCAGTAAACTTTTAATTCTTTTGCAA
AATAAAAATAACAGTCGTACAGAGAGTAAAATATATGAAGAGTCAGGAAGTGATTTATCAAAATCAGATCTTGGACTGCTGGTTTTACCATGAATTAGGC
TCTTGGAAAGTGATTGGGCCAGTGTAGGTTTACATTTTTTTTTTCTTGTTTTATTTGTCAAAGCAAACTTGTGGTTGCCTGCCCGTAGTTTAATTCTGCC
TCCTTTGGGCAAACAACCGACTTTTACTGGGAGTCTTTCTCAGGGAGATAAAGGTGCACCCTGAAACTCTGCTCTCTGATTCCTCAGCAAAGTCAGTCCT
GAGTATGGGGCTTGGGTGTCTCTGCAAGGCCTTGCAAGTGAGATGGGCTGTCACCTGAGCTCAGGTGGGGCTGCTCCTGCCTTGGACAGCCTCCCCAGCT
TCTCCTGCATTATACCCAGGGGCTGGAGGGCAGAGAGCAGGTCTTCTTCTGCTGGTCGGGGCAGTCACAGGCTTTCCTCTCGGCCTGCTTGTCCTCCGGG
TGGGTCCAGCACCCGCTGGGATTCCTGTGGGCTTAGTCACTGTGTGGCGGCGGCAGAAGGACTGGGGAAACCGCCGGCCGGCCCTGGTGCGCTGTCACCC
CGAAGGAATGCGGGCCAGGCCGGGGCTGCTGGGCCTGGAAAGTTCTCCAGTCCCTGTTGCGGATCTGGCCTGCCGACTCAAAGTAAATCTCTCTTCCCCT
TTATTTCCCATCAAATAAAAAAGGAACACGAGGTAGCCACTGTACTCACTGAAGATGCATTGTTTTTTTTTTTTTTTTTTTTTTAAGCGAGCAGCAGCAA
GATTTATTGTGAAGAGTGAAAGAACAAAGCTTCCACAGCATGGAAAGGGACCCAAGCGGGTTGCCCTGAAGATGCATTTTTTAACTTGCTTTTTAACTAA
GTATTTTTGCTCTGAGCTTTCCTGGATCTGTAAACACACCCCCAGCTATTCAAGATGGGCTTCTTGGTGAAAAGTGATGTGTCCTAGGAGAAATCACGCC
TGTTGTTGCCGCTGGCCATCACAGATCCCGGTGCCTGTCTGTGAAAGGCTGGCCGGGCTGGGTGGGGATGAGAATGGTCGGGTTGTCTAGACTCAGCCTG
GACTGTCTTTGACTGGAGGGGCCTGAGCTCCTCCTCCACTGCTCAAGACCCCGGTTAAGGGGACAGCAGAGCAGGGATGAGAAGTGGCCCTCTTCACATC
ACCTCCCAGCAAGAGGGCCTGACTTAGTGCTCCCACCATTGCCAGCCCCAGTTTCAGGGTCCCACTCAGTTGTATTTGAATAGGTCTCATGACATGTGCT
TTGCTTGAAGAGCGGCTATTAGCAGCAGACGTTCAAGAGGCTGAGCTCAAGCAGGTGAGCATGTTCTGAGCCATTGTGAACCCAGTGAGGTGCCTATGCT
GATGCCCAGGGCCGCCTGGGCGGGGTCAGGCCCCCATCGCTTCTTCATCCTAGCTCTGGGAGTGCATTCTGCACTCTCCCGAGGCCAGCTGGTGGCCTTT
GGTGATCACCCTCTCTGTAAGTTTTTAAGTGGCTTCCTTTCCTCTGGTGGAGAAGCCAGCACCTTTATCCTATGACAAGAAAGCTCTTTGTAGTAGGTGG
TAGTAGAATCAGACAGATCTGGCTTAAAATCTTGGCTGTGCTACCTCTTGGCTCTGCACATTGGTGAAGAGAATTTACCTTCCTAAGGCCTCTCAGCTAC
ACGACTGTGGACACTCAGCTTCCTTCTAAGGTCGTTGTGAGAGGTAAAGAAAAGGGGTTAGTCCAGGGCCAGACATGGCACAATGCCTCAATGAAATATT
AGCTGATACTATCRTAATTTTTAAATTCCCATAGGACTCACTGTTAAAGGATTACAAGGCTGACACAAAAAATACTGCATTTTGAATTTGTGTCTGATTT
ATACATTTCCAAAGAGTGGAATTCTCACTACAACAGCTGTTCTTTGAAAGGTTAGATCTTTGTTCTGAGATAAATTAAGTGGAAAAAGGTGTAGAGCATT
ATATGTACTCTGATTCTTCAGGGCTTAATTTAAAAAGAGCATGTWTGCTGGTGAATGCTGGTTCAATCATTAAGAAGTTTTTGAGAAGGAATCCCAGAAA
GTAATAAGCACTTATTTTTCATGGAAAGGAACCGGAAGTGCTTGGTGACCTCCACAGGTAATCTTGTATTATTTTTGCACTGTTTGGARTTTTTTAACCA
TGTGCTTTTATTTCTTCTATTCTTTTCAAAGGTCAGTAGGTGTTATCTGGACAATAGGGTTCTGGTCTGTTTTCTGTTTTCTTCATTGTACTGTGCATTA
AGAAAAACCCTAATGTGCTTTTTTTTTTTTTTAAGTGAACCTTTCCACATCTCATTGTCCTTCAGTGAGAGCAGGCTGTGTGTGTGGTCTTGGTGAACTG
TCCCGTTCCCTGGAGACAGTATCTGGGGGCCTCCCTGCCCTTCCCAGTAAGAGCTGGGCCTTCACAGGAATAGAGGCCTAGGATTCGCCTTCATCCTCTT
GAAGAGCCCTAACAGTAGGTCCTGGCTGGGGTCTGGCATAGAATGCCCTTGGCACGAYGTGTGTGAGTGTGTCTTTCCTTAGTAAATGGCCTTGAAAATG
YCATGTGCTTCTGGCAGGCCTGGATAAGGTTTGCCCTGCATAACCCTTGGAAAGCACAGTTCTCACTTGTAACACCCTGTCTGCAGGTCCATGATATTGT
AATTAAAAAGTTATGGGATCACAAGGGCCTATTTAAAGGGCATCTGGTCTAAAGGCACAGTTAAAAGCAGAATTTGTGTCAGTGGCTCCCTTAATTTCTC
AAATATGGTTCTGTTTCTAAATTCATCCCACTGGATGTCTGTGTTGAGTTTTCTGTTGATGAAAGAATGTTTAAAAATGAGGCAGATCCAAATTCTAATG
TCTGAGTGTACCACTGCTTAATTACTTTGGGCAGGTCACCTCACCTCTCTTGGAAAGAAAGGTGATATACTACATCTGTGATTTTCAATTTTTTTTTTTT
TAACTAGACCCACAGTAAAACATAGATATACACCATGATCCCAGGACAGAATAAGTATATAACTAAAATAAGTGTTTTGAAATCACTTCTTGTCTGACAC
AGCACTCACGCTTTCTATTCATGTAGTACCACGATACTTTCTTCTATTCTAATGCTGGTAAGAGATGCCTTAAACTGATTTTGAGAACTACCAATGGGTA
GCAGCTAGCGGCTTAAAAAGGATGTTATTAAGGTCCTTTTCACCCTGATTTTGACTCTGTTGGCTCTCAGCTGAGTGCCCCATACTTAGTGCACATAGAG
TTGGCCTCTGAGGTCAGCCTCCTGTTTTCCTGTGAAAATGAGGATGGAAGAGAGTCACTTGTTTCCCTCCTTCATGGCTACCCCCTGAGGACTGGGAAGA
ATTTAAGAATTTGAGTATATGTTCCCAATAGCATGATGTGTTTCATTGTTCATCTGTAAGCATTTTTAAATATTCGAGATCTGTATCTTGGGTAATTTTT
ATCAACTTTTTATTTGTAAAATAATTTCAAGTCAGTTATTAAAGTAACAAAAATAATGGCAAACTTGATACCTTCCCGTATTTTTTTTTCATATTTTTCC
TTGAATGCTTACAAAAATATTAAAGAATATTATCACATCATTGTAGTCACCGATGAATTATTTTCTGGTGGCTTATGATTAGAAGAGCTTGACTCGGAGT
GGAAACAGATAACATTTGAGTGCTCTTTCTGTTAATTCATCCTTGTCAATAACCCCATTAGCTAACTTCCAGCAAGGCTGTGTTAGGAATGTGGAATCAA
TTAGATGAATTTTGAAAATAACTTGGTCTGTTCTAAAAGGCCCTATGAGATYCAAACTGTTGTGGCCTGGTGCCTGGTAACTTTGATGGCCATTTTGAAA
TGTTACCGTAGTGATAATTCTTCTGGAATCTCAAGTCATTAAAAGTGATATGGCTAACTCTGGGCCCTGTGCTATAAAAATAGATGTCATGGGATGTGTG
AATCCTTTCTTCAGTGTTATAGTTAATAGCAACTGAAGGAACGTTTTGGTCAAATCCCGAATACTTATTAGGGGCTCACTGCTTGGCTGCATTTTTCTCC
TCTGCGTAAATCATCTATCCATGTAATTATTAACCCCTAAGAATGAATAGCATTTTTAAAAGGGTTCCATTTTCCCCTCATATGACTTTGGTTCATTCTC
CTCCTTGTTTCTGTCTCTCAGTGAACTTTCCAAAAGATGGGTTATGATGAAAGRTGAATCGTCGTTGATAACTGCTCTTACTTATCTGTGTATCGAAACT
GCAGGTAGTGCTCTTCAGCTCTGTGGCTGGATTTAGTGCCTCTTCTAGGGAGGGGTGGGTGTTGGCACAAAGCGTATCCCATTTCCCTGAATGTCGTGTG
GACACGTGAGAGGACAGTGCACCCTTTGGGCTTGGTGCTGCCCCCTTCACGCTACTGAACCCCAGGGTCATAATTAAAAGCTGTGTTAGCTCTTCTCTGG
TTAGAGGCATACAGGTTGGAGGCTTGTACATAGCCGTGAGCCGGTTGGTCTAGGCCAGGAAGCAAACCATTGGAAAATGTGGTTAGCAGTGACAGTTGAC
AGCATGTTTGCCTGCAGTAGTGGTGGTTGGTGCTGCGTGTTGACTGGAGTTGCTTGCATTGGGAGAGCCTGACTTGGCCAAGTGTGTAGCTTGAGACCAG
TTGGATTCCTCTCASAGAGACAGTCTTCACCCCCAAGCTCTGGGTGTTGGGCGTGCAGCATTCGTATTCAGCAAACATTTGCTGATTTCCGCCTCTGCAA
CTACTGAGCTCAGCTTTGGGGATCTGAAGATGAATAGACACAGCCACACTTCTGGGGAAATCTCCCTGTGGGGAGGCTGACATGGAAACCAACCAAATGG
GAGTGTGGTGCATATCTTATTAGAGCTTTGTGCAAAGTGCCACAGGAAGCAGGAGAAGGGGTAGATTGGTGTGGAGGGGGCAGGGGAAGACTTGCCTAGG
AGCAGGGCCTCGCAGGATGCAGAGGAGTTTGCCAAGTACCAGAGATTGTGGGGTAGGTGAATAAAGGCTGAGTATAAGGATAAGTCAATTCAGGCAGATG
TCCTCTAAGAATGAAGGTGAGAATGCTGGCGGAAACCAGTTGTGGCCCTGTCTGCCTTCCCTAGGAGACTGGACCTGACTTTACAGGCAGTGACGGTGAA
GCAGGGCAGTGCCACGAGCAGATCTGTGTTTCCTGAAGGGTCTCTGGCAGCTGTCTGGGGAAGGAGGGAAGCTGGCAGAGCCGTGGGTGGAGGCAGATGC
CATTGCTATGGAGTGAGCATGGGGAAGGGGGTCGGAGGCCTTTTGGAGATAGATACAGCAAGACTTGGTGAAGGATGAAGTTGGGGCAGGTAGAGGAAAA
GCAATGAGCTTACGGATGACTGGAGACTGACTGGAGAAGATGACCACCCTTGCCATTAACTAGGATAGGAAACAACAAAGGGTAGGAGTTTGACAGGGGA
GAATGTTTGTGCTGTTGAGTTGTTGAGTTTAGGTGCTTGTGGCACGAGCAAGGGGAGTGAGCTGGTCTAGGAGGTTTTTGGAAACACTGACCTGGCTGCA
GAGAGGGAGATCCTGGGACACCTGTTTTGGGAGTTATCCCAGTGGGGAAGGATCACTGGGAAGGGGGCCACCCCTTTGGGAGGGGTCAGTGGGACGACTC
CCAAGGGAAGAGGTTGGTTATAGGGAGTTAAAAGAAAGGAGCACCCCTCACGCGAGCCCATTTTTCAAGGATACATGTTTGTCTTTTAGATTCTATAAGG
AGTAGCTGCTACACAGAAAGATGTCTACGTGTGGGTGAACACCTGGCGTATCCCATGCAGGGAGGCTTCAGCAGACCTTGGTGGCGATGGAACCACCACA
GTGATCCGAGGATTGGGTCTGAAGGCTCCTCCGAGTCTCCAATAAAAGGGGTTGTTTTGAAGGGCTCAGGTTCTTCCTGGGCTTTTTTGGGACAGTCTTG
CTCTGTTGCCCAGGCTGGAGTGCAGTAGAGGCAATCATGGCTTATTGCAGCCTCAGCCTCCTGCCTCTGGGCTCAAGTGATCCTTCTGCCTCAGCCTCCT
GCGTGGTTGGGACTATAGGTGCATACCCCCATGCCTGGCTAATTTTTAATAGAGATGGGGTCTTGGGCTCAAGTTATCCTCCCACCTCAGTCTCCCAAAG
CGCTAGGATTACAGACATGAGCCACTGTACCTGGCTGAGAAGGTTTTTTTTTTTTTCCCCCTTCCAAACCCCCATGTGGTCCAGACGAGGCCAGAGGATC
TCAGGGGAATTCCCTCTCCGAGGAGCCTCCACTGCTATTGCATGGCCCCCAGCATAGTCATTTGAGTGAAGAGCCCTCCAAAATCATTAAGCTGATTTGT
AGAATCAGTTTGCTGTCTGACTACCTGATGAAGATGAGAAGTGGTAGACCTCCCCCCACTGTAAGGTCTTAACAAGATCTAGGTGGAACATGGGACTGTT
TGCAAGCTACTTCTGTTTCTGAAATCACATGCTTGGGATCCCAAATAATCTACTGAAAGCTGTCTTCGGGAGGCAAAGCCCAGGGATTTGTTTTGTTTGC
CCCTAATCATCTCTTCCATCCCCTTTCTCAAAAGTCTTATATCTAGATAATTTAGTACATTTGATCTACTAACAGCCAGGGCCATAACAGGAGCTGATAT
TACATACCCCGGAAGTCCTTTGCAAACACACTGTAGTGGCGATTGATTAGTGTTCCGAGCCATAGGTAACATTAGCCTGCCTCGTAGGACCCTCAGATGC
TGACCGTATCTGCTGCAATTCTTAGATGTAAAAGAGCGCGCATCGTATAAATCAAAACTAGATGATTATTTTCATTTGAAATTGTTGTTGCACTGTAATT
TCTCAGGGTTTTGTATTTTCCAACAGTGGTGTCACTTAATGGGAAGATCGCTCAGGCTTTGTAACTGGGCATAATACCAGGTATTCTCGTTTAGGCATTC
TGCTCAGTAGTATTAACCTGAAGCCATAGGACATGCCAATGTTTTTTTCCGTGTTTTTTAAAAAAATTAAAATGGTTGGCTACAAATGCATCCTTTTTTA
CTTCAGAGTAAGTCGGCCTTGGTTAAGTCTTAATATTTCTCATGCCTATTTTTTTTTCTTCAAATGAAAACATACGGAGAGAAAAYAGCATGTTTATGCC
TTTTGGTTGTACCCAGCACTGCCCAGAATGGCTTACAGAGTTTATACCCATGGAGGTTTCGTAAAGGTGACATTAACTTCGCAGTAAAGTCACTGACCCC
GAACCTGTGTCACTTCAGGCTTAGCCAAATGCTAACAGAGCAGCTCAAAGCTTAAGCAGAGGTATGTGCTTGCTAAGTAAGTGTGTGTTTTGGACTAATT
GGTGACTACCATTCTGAACATTAACTGCCCTTTGTGTTTTAATGTTGCCAGGAGGCCGATTGTGTAACCTTTGGAGGCTTCCCTGAGTTTGGAGAACTGA
ATTCATGTGGTGACTTCCTATTTATAATGTCTTTGGGGGAGCTATGAAATAACTTTTCTTCTAAGTGTGATTTTTGCTTTTTTAAAAGTTTTTATGTTGT
TGTCAATTGGGTATTTCCCTTCTATGCCAAGACGAATTGTAGGTTCAGGTTTCTATGCAGCCTGTATGTAAACACTGGCCCTAAAGAAGGACTCTATCAC
TCTACTTTCAGTTTCTTGCATTAAAACAAGTATGGGTAGCGGTATCCTTCTTATTTCTGCTTCCTGGTCCTGTGTGAGACCCTGAAAGGTCCTAATGGCA
GTGCTGATTAGATTGTGGCCAGGGTTCACCCACAAGTTCCGAAGCTGGGGAAGGTGGAAGTGCTGTTAACTGACTTGTCCCATGTCTGGGGTTTTGCAGC
CTGGGGAGAGGTGACCACCCCTCGTTTCAGTCCAGGTAGGGTTTTATGTCCCTGTCAAAAATGTGTTGTGTGAAGTACCTTGACTTTCATTTCCCAGGGA
AGAAAGCCCGTTTCAATTGGCTCAAGCGGAAAAGAGCACTGTGGGTCCACTTAATGGAAGAGTCTAAGAGTGGCTTCAGGAAGTCCACTGGGGGCTCCCC
GTGACTCTGCCCACCTGCATATTGTCTTCATTCTAAGGATCCAKGTGGTAGCAAAAGGGTTGTTACAACTTTAACCCTGCATCCCCACCTTCAGGTTCAG
TACCCAAGGGTGAGCAATCTGTTCCAGTGGCACAGACCTGTTTCAAGAGGTCTCTAGCCGTGATAGTGCTAGGCCACTGCCCTCCACCAGTGTGTTCCAG
AGAAAGATGCTCTGATGTGCCAGCCCAGGCCATGAGGTTCCCGGCCTCAGTAAGGAAGAAGGAGGACAAGGTGGTCCCTTAGGAGAAAATGTGGATATTC
AAGAAAGAGGGTCGCAAAATAGCAAACACCCACTATGGCTGGGCAGTACAGGGTTGCAGAAATATATTTTGATGTGTGATCGCATTGGAGCTACTTCAAA
GAGCAAACACACCACTTTGATTTATTTCTCTTAGTGATACAGTATTTAGAGAGGGAGATACTTTTTATCTTCRTGGGATACTTACAGTGGTGCTCTAGAA
GCCATGTACTGCTTCTGGCTTCTCCTTCCTTTCCTCCAAGGCTCCTCCTGCCTCCTCCCAAAGCTCTGTGCCCTGAAAGAKCCTTGAGCCATTGCTCAGA
TGTCAAAATTGTATTAAGCAGACACATCAAATTAAAACTTTTGGGATCACTCACCAATATGGTTTCCTGTACAGTACTGCCCTGAGGGGGGATTACAAGT
AGTTATGCATCCATTTCATTGATGTATCATTTTTATTAAAAAGAAAAACAATCCAACCAAGAGAGGAAGTGTAGCCAGCTGCCTAAAGAGTGGCGATGAT
GGGAGATGATATTTTGATTACATTAATCCATATCCTGTTAGTTCACTTTGCTTCTGTCGCTGCTGCTGGTGAAGTTACTAATGTGAACTAATTACATTTG
CTCTGAAAAGCCAGAATTTTTAATGCATCTCAGCAAGAAAGGTTAATATTATCAATTTAACAGCATGAATGAAACATTGTGTGTATTGAACTTGAACTGT
CCTAAAAGCTTGGATAATAAAAACCCAGTGGCTTCTTTTATAACTCACTGGATAAACAGTTATTGGTGAGACATGGATAAGGCTTTCTTCTCTTTCAGTT
TTATGGGGGGTGGTAGGCAGTCAGCATTAGATGCTGTCTGTTTACAGGGTGATATCGTAACTTCGTGAAATTGGAGGCCACATTTAAAAAGGCACTCCTT
CCTTTTAAAAGCTTTGCAAGGGGGCTGCATATATTTTCCTAATTAGTGGGAATATTTTCTTTTTTCTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTCAC
TTTATTGTCCAGGCTGGAGTGGAGTGGCATGATCTCGGCTTACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCATGCCTCGGCCTCCTGATTAGCT
GGGATTACAGGCATCTGCCACCTCACCTGGCTGATTTTTTGTATTTTAGTAGAGACGACGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCTTAAGCT
CAGGCAATCCGCCTATCTCGGGCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGAGCCTGGCTGGTGGGAGTATTTTCAAAGAGAACAACAATTCA
CCACACCCCAACATGGTAACAGTCTTTTTGTTTTAGAAGCATCTGTGAATTGCCAAGACTCGTAGAACTAAGATGTATTCRAAGTCAGTCGATTTTCTGG
AAACGACCCAGTCCCTGAAGATAGTCTTTTGGGGAGTTGAGTGTTTTGAGAGGGACACCCCCTCTACAGGGACTTAAAATGGAATGGCTTTTTGTGTGTG
CACATGGTACCTGCAGTGATTTCTTGTGTTTAATTACTTCCTGCACTCATCTGACTTACACAGTGGTAAACAATGAGGATGGGAACAGGCGGCAGCTGCT
CTGTGCCATCCACCGTCTTGGGAACCCCAGCGTGGCATTCTCTCTGGGGCAGCATGTTGAAGTGTTTGGCTGGTGACATTTTGGTGACCAGTTGGCTCCT
CATTGTCTTTCAATGTGGAGATTAGGAACCGAGCGAGGATTTGGAACCCTTGCGTTTGTTCTGCCAAGAACATGACTTGCCTCTGGCCTGAGAGCAGTGG
AGTAAGCTGATAGGAGCTAGAAATACTGTTTTGGGTAGGACTTACCCAAAAGAGTGGGCTGAGTCACAGAACTCCCAAGTTTGAGCCCTGTCAAATAAAT
TCTGAATTGTTCTCAGGTATGTTTCTCAATTGGAATTTTTTTAAAAATTTAATTTAAAAAAGACTTCGAAAAGTTACCTTGTTCTCATTTTTCTTCTCCC
TCTTTGCCCCGTCCCCACAATATCTTAGGGCGAAGAAAAGCAGGTTTGAGAAAAGCTTTTTTTCATCATGTATTTGTAATAGCTGGAGCCTGCTGAGATG
ATGAGGTRGAGTGGAGGGAGAAAGAGACCTTGAGGAGGTGTGGAGGGGGAAGGGGTGGAAAGTTCTGTCGTCTTCTGTGCCTCTCTCTCTCTCTTGCTCA
GGGTCTCCAGTCAGCCCTCTGGGTTTGTGCCCTTCGTGCTGCACTGACAGGTCAAAGCCGACTCAGGCCTTTGATGTCTGCTCTAGGAGCAAAAGTGATT
CCTGGTCCCGCAGCCGTTYCCACTGCCTTGTGTATGAAGGTCTGCTGCTCTGAGGTGGATGGTGGCTCTAGGCAGGCTGTTTCCGCTGGGTGCGGTTGTT
GCTGCAGGTTTTTCTATATAGCTTGGTCATGCTCCTGTATCTAGATTAAAATCCTATGACAGATGGGCCTGCTTATATCTAAACTTATTCAGAGAGTCTT
ATGATAGGCAACAGGTTACCCTTTACCGGGGTAAAACATGGTTTATTCTACAGTTTGGTCCCGTTGTAAGGCCAGGAGATAGAGTCTCACTAGTTTGCCC
CGGCTGAACTCAAACTGCTGGACTCAAGGGATCCTTCCGACTCAGCCTCCCAATTAGCTGGGACTGTTGGTGTCAGGCACACACCACCTTGCCTAGCTTG
AAGATCTTTCTTCTAAATGAGCGGGCTTTAAAGTGATCAGTGGGACCTGGGCAGGTTGGCTCTTGCCTATAATCCAAGTGCTTTGAGAGACCGAGACAGG
AACATCACTTGAGCCCAGGAGTTCGAGGCTAAAGTGAGCTGTGAGCACACCAGTGCACCCCAGCCTGGGCAACAGAGTGAGACTCTGCCCCAAAGCAAGA
TAAAATTATCCCACAGGATTTTAGTCCTGACTTGTGTATTACTATGCAGTTGTGTCTGTSTGAGGCTCAGATTCCCCCCCATTTAGGATTTGTGTGGCTA
AATCTCAGATCTCATTTTCAGGTGAATTTCTCTATTAAGGTTATAAAAGACCAAAATAACTGGAAATTCAACTCTGTACTTGAATACTTGGTAATGCCCA
GCATTCTCTTGACTATCCCATTTCACAGTTTGCCGGTCATTTCCCCAGTGTACTCACTGGATTCTTCCCGCAGCCATGAAAGGTAGGTATAATTAACTCC
AGTTTACATTCAGGACAATAGAATGTTCGTCAAAATGCTTTTGCACATGTTTTCTCACCCTGAGTGGCTACACTTGTACAGTCATACCCTCCAAACTCTA
AGATGTATACTCTTACATACCAAAACACAAAGAAACAACAGGAAGTAAGAACAAAACTCAAGAGGTCTGAGTGACATCTTGCCTTGCTTCACAACTTCAG
AGTTTGCATTGCTTTAAAAACATTGGTTATAAGTGAGTGTGGAAACAGTGTGTTCACTATTTTTATGCTGTGGCTGTGCTGTGCAGGAGCTGGGCTTTTC
GTGCATTTTAGACAGAATTGACCTTGGTTAATGCTTGACTTGGGAACTATGCAGAAACATCCAGGAAGTGGTGGTGGCTGATCCTGACCGTCCTCAGTTT
TGTGAAGCAACAGCCTCTGTGCCTCTTTCTCTGCATGCTCTGTTGACGGTCTAGTCTTGAGAGAGAACCTGCTGCTGTCCCGTCTGTCRTAGCCTTCCTA
GCAACTCTTAGGCCTGCRTGCTGTGTTTTCATGATCTCCCCCAAAGCGGCACTTTGATGTTTTTTCAGAGTCAAAGTATCACTGTGGATATTTATCCCAA
ACAAAATTGCAAACTGATCAAATGTTATGTCTTTTGATACCAAATCAAAAACGATTCTTGGTGGCTGATCAGGTTGTCTCCTAAAAATTTGCCTTTTGAA
CCTATACTGCCTTTATGAGATGATTATGAAAGTAGAAAATAGCCTGTGAAAAATGGTACCTTTGCTAAAAAGAAAAAAAAATTTTTTTTGAAACTAAGAG
TCTCTGTTGTCCAGGCTGGAGTGCAGTGGCACTATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTCTCCCGAGTAGCTGGAACTGCAGGTGCA
CGCCACCACATGTGGCTAATTTTCATATTTTTAGTAGAGATGGGGTTTCACCATGTTGCCCAGGCTGTTCTCGAATTCCTGAGCTCAAGCAGTCTGCCCA
CCTTGGCTTCCGAAGGGGCTGGGATTACAGGCCTGAGCCACCGCGCCTGGCCTGCTGTAAGAAAATATTAAACTTAGGATGGGAAATGTGATCTGAACAG
GATTCCTGTGAAGGTACCCAGTGTAGGTCTTAGTCTCCTCTCCAGTGTACATTTATGGAGGGGCAAGATTTCACCATTCTGTGAAGAACTCTGCGTGTTG
ACGACTGCTCACGCCTAGGGAATAAATTTCAGAGCATGYGTAGATAGTGCCATTTTCTACTTAAAATACTATAATCCATTATTTACTTCGGAAAATAAAA
GCATTAAGGCTGAAAGTTTTGGGTTAGTAATCTTGATGTTTTAAAATGCCTTAGCATTCCTTCATTTGTTTTGCTTGCCACGTGGTTTTGCTCTGATTTA
CACACCTCTGTGCATGGCTAATCCACTGTGCCACTCTTGGGGCTTTATTAACTCTTCTCTGCCAGTTTTTCCCTTAGAGAATATCATGGCCATTCTCTAA
GATGATAAATGGGACTAAGAGTAAATGCAGGCTGAAAAAGCATTTAACAGGTCAAGGATCTGAAGCTTTTAAGAAGGCAAAACAATAAATAAGAAACCCA
AACAGAGTCTTGAAGCACACCCATCGAAACCCAAGTTTCAGAATTTGCTGCAGCCTTGCTGCCAAATCACAGTAAAAGCTGAAAAGGCTTTTGTGGTTAG
TTACGTGTGATACAAGAAATCGATGTGTCTGAGAGAAGTAGGATTTCTCTTTTTGAGGGGGAAAAATACAGCAAGGGGAAATGTTTTATTAACAATAAAT
ATGCGGCTTACCATATCTGTAGGGCACAGATTTGGTTAGTAGTATTTTGRAGGCAGGATAAAGGAAGATCCTAAAATCTCTGTGCTGTGTAGCTTCCATT
CGAGCTGCACATGTTAAAAACATTCTAGGATCCACACAGTTTAAACAAGGTGGCTGGCTTAGGAAATGCTTCTCCCCATTCCTTGGCATCCCCACAACCC
TATTCYCCTACTTTCTCTTATGTATCTGGACTGGCTTTTAAAAGATATTTAGTGAAATTTAATTTTCTAGGGAAACTCCACTTTGTCAAAAGTGTAGTAT
TCCTCAAGGATAGCTTTGCTGGTCGGCAAATCTCAGTTGAGTGTATTTGTGGTTTAAAAAAAATTCTTTCTGAATAGAAATACAAAGAGTGATAATGTTT
AACATTTTATTTTTTAAAAAGCTTTACGCTGTGTAAATTGTGGGTTGACTTCATGTTTCTAAACTTTGTCTTTTAGAATGACTCTCTTGGGTAAATTATT
AGCAGACACTCTCGTGTTGACATGTCCATTTTCCTTTCCATTAAGCTGTCTCCATTGCAGTTCTGTTGATATGGCTTTATATAGTTTTCCTGAGCTTTTT
TTTTTTTTTTTTTTTTTTTTTGGTAACAAGATACCTATGCAAGCTGAAAAACTCTTGGCTTTTTAGTTTGTATCACTTCCAGAAACTTTTAGATGCTACG
TATAGAAGTGGCTTTCTTTTAGGGTTAGGTAAGATACTTCCTTTTTTGGAAATAGTTTTGCCATTTGGTCTCGCTGCCTGATTTGTGCTTTTTCTTCTTC
AGCAGGTAGTAGGAGGCTGTGTATTGTATTGCCTTTTACCAGACACCCAGAGGGGTCATGTTGGAAAATAGCATCCTCTTAGCAAAAACACAATCCCTTC
TCTGAGAATAAATTGCCAAGTCTTTCCAGGTCATTGATGGACTCTCAGGTGCTGCATTTCTGCACGTCGGGGAACAAGGGTGAAGAACAGAGCTAGTCCA
GCACTGCTCCGTCCTCCCGCATTTCTTCTTCTGTAGAGTCTTTTGCAAACTAGAGAGTCTTGCAGAGAGTTGTTGGGTTTTCCCAGGAGATACTGTATGC
AAAGAATTGTCATGAAGACATAAAATCAAGTCTTGGTGTAAAACTTTTAATAAATTTAAAGGCATGTCTCTGTTTTTCTCCTCCTCYATGGGGATTTTCA
TGTGGTTAGTAATAAAACTGTAGGCAGTTGTATGTCTAGATTTCTATGTAATTTGTTTGTGTTCGTATATGCACACCTGTATACATGTGCACATGTATTC
AAGAAAGACCTGCAGTATGCTTGAAAGGATTGAGGTGCCTAGTTTGTGGTAGTAGCTGAACAGAGTGGGAGGTCAAAGTTAAGTCATTGTGAGGCAAGGG
AACTTGACTTAGCCCTTTAAGAATTGGTCTGTCCCTGCTAAGCCAAGGCTATTAGTGTTTTCTTCCCTAGCTGTGTTCTGAAATGGTTCACCTGACATTC
AGCTGGGTTGGGGGAGAACCTCTTTAAACATCAGATCTTATTCCGGAGGAGTGTATCCAGCCTTCTCACAGCATATCCTGTTAAATATCTGTTCAAGGTT
AGCCTAGGCCTGGAGTATGGACAGCATGAAGCCAGATCTAAAACAGATCAGTTCATGGATAAATGATGAATTTAATAAAATTTGAAAATAAACCCCACAT
AACTAGTGCTGCTATTGATCATTCATATAGCCAGCAGGAGTGGTGAGAGGCTTGGTCTGCCTGAGGTGTGGAGATGCTTGTGGYGGGGGGCAAGGTGGAC
GAGGGCTGGGGCTGCTCCTGGAGCATCTTTACGCGGGTGGAGGAGCTCTGACACAGTGGCAGTGTTTGTAACACTTTCCAAAGGGATTAAAATAATTCTG
TAGAGTTAACCCTAGGCTAGTGTGGCTTGATCTGAAACAGTCCCAGCCAGAAGGTAAGAACTCCTGTGTTATGTTGTTAGCATACAATTTGCTGAAGTTC
ACATTTTAAATTTTATATTTAAAAACCAAAAAGTAGTACTGATCATTTTGGACTGTTTCAAAGTGATATTGTTTTTACTTGTTACAAACATTGGCTTGCC
TGCATCTAATTGCACTCACAATGGGCCGGATGTGGTGGCTTACACCTGTAATCCTAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAGAAG
TTTGACACCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAGAATTAGCCAGGCTTGGTGGTGGGTGCCTGTAATCCCAGCTTCTCGGGAGGCTGAG
ACAGGAGAATCACTTGAACCTGGGAGGAGGAGGTTGCAGTGAGCCAAGATTGTGTCATTGCACTCCAGCGAGTGCAGTGTAAATCCCTTAAGGAAACAGT
GTGTTGTGGTAATCRTGATATCATAGTAAATAGGTTTTGTTCGTTATTTTTTTCTTTTACTTCCTTTTCTACCAGTGACTAGTCCTAATGTGTTCTAACT
TTTGAAAATAAAGTACAAATTAGATGGATTTAAACATACGGGAAGTAAGACGGAAATTCATTACTTTTAAAAAACAATTTGTTGTGGATAAGATTTAGAA
ATGGAAACACAATAAACTGTGTTTCCATGACACAGGTATACTACCAAGTTCTTACAATGTACCTTTGAGGTAACGAATTTTCATGTCATTTGGAGTAGGG
CTGGGCCAGTGAGTCACTCATCTCCTTGTTCATTCATTACGTGAATACCTAGTAAATGCCCACTAGGCACCCTGGAGTCATTTGTGTAGAGTGGCATCTC
TATACAACTGTTCGACTAACTGTCGGAGACACCCTAATCACCCCAGCCACAAACAAATAGAACATTGTATGTGTGCTGAATCCCACAAAGGCCAGACATG
ATGSCATGAGACCAAGAAGGAAAAGAAATAATGTGGAAAGGGTTTGGGGTGGAAAGGTGGGGAACCTGGAGGCGGGCCACATGGGGCCCCAGAAGCCATG
TTGAGGGTTTTGTCTTCACCAAAGGATCAGTGGGAGATTAGTGTAGAACATTAAACAGAGGTGGGGTATGTGTCATATTTCCATTAAAAAATTCATCCTG
GCCACAGTGTAAAGAATAGATTAGGGAGGAAGCCAATCAGGAAGCAATTGGAGTAGGCAATGCAAAAGGCAAAGTGAACTTGGACTAGTGGTGGAGATAA
GTTGACTGCAGAGAGAGTAGGAAGTAAAATTGGCCAGGCCTGTGTTGGGGGTGGGCTTGTGAGCAGGATATCAAAGATAATGTCCAGGATTCTGGCTTGG
ATGACAACTATGGCAATGCCCATTACTGAGCTAGGAGATGCTGGAGGAAGATCAGGTGGGGACTGTGAGCATGAGTTTGATTTTTGCAGATACTGGGTTT
GAGACACTTCTGAGTCAAGCAGGCATTTGGAAATGTGGACTGGTGCCGAGAAGGAATTCCCAGCAGTGACTTGGTTTAGGTGGTCCTGGAAAGTAGAAAC
ACACACGAGATAATTCTGGGGATGGAGCTTAAAGGGACGTCAGCGTTCAAGGGCCAGGTAGAGGATCATGAGCTGTAAAGGGACCCAGGTGGYTCCAGCA
CAGCGAGGAAAGCATGCGAGTGTGATGGCCAGGCTTCCAGGGAGAGAGGAGGGTTTTAAGGAGAACAACGTGCTAAAAGCCACTAAGAAGCCAAGCAGAG
TGAGAAATGAAGACCTCCACTGGGTCTTGCAAGAGGGGAGGCCTTTGAGGACCTCACCTGAGAGCTGATGAATGAAGTGATGGCTGGAAGCAGCTCTGGA
GAGGGAGGAATACTGTGGGGAGGGGAGGAACTGAAGAAGTAGAGAAGCATGGCTGTGCACAGGGGAGGTGGGATGGCAGCCAGGGAGGAGCAGAGGTGGA
ATGTGGATCTTGTTTTCCCCAACAGAGATAGAGGGGGGCTAAAAGTCCATGGAAGGGACTCTGCTGAGAGGGAAGGGTGGATCCATGAGACAGAAGGGGA
GAGCTCCAGTAAGGACCCAGAGGTCTGAGGACAGGCCAAAGCACAGATGGAGGGATTAGCTTTGGATGGTAAGAGGAAGGACAGATGGCCCCTTAAACAT
GACGGTAATGCAAACTGCTCTGTTTTTTTTTTTTCTTTTGGCGTTTGTGATGAACTTTGTATATGCTTTCCTTGTTTGATCCTTATCAAACCTTATGAGA
AGAAACTACCATTCTCCTCATTTGATGGATGAGGACCCTAAGCCCTGGAGAGGCCAGGAAACATTCCCAGAGTCCCTCAGGAGGAGGACTAGTGCTGGGC
TCCTTTCCTCCTGTTCTGCTGCCTCTGAGAGGAGCCAGGATTGAATCGTAGCCTTGTCCTCTGACCTGGAGGTCTGGGAGTAACTCTCTTATGACTTTTT
TAGCCTAGTAGAATTGAACATGAACTTCATGTTTTAAGGGATGGTTGCATTTGTTTGAATGGTCACTTCTTTTTCTATCAGTATTAGCTAATATAGGGAG
AAGGAAGTCATGCTTCTCAAGTAAAGCAACAGTATCTGTGTATCCATTTACTTGATTGAGCTTTCTACTGAATTACAGGAGTTAAATTATACTTTGTTAC
ACTCTTGRTATTACAAAATGATGGCCATGCCTTTATTATAAAATGACACCAGTTATTCTTTCCTGGAGGATGTGCCTTGTGTCACTAGCCGCACTAAGCA
CTTCCCCACTAGTGGCCCCATGTGGTTGTGTGTCATCGCTGACTACCTGTTACAGGTGAGGAAGCTGGGTGGTGCAGAGACAGAAAGCCGGTGGCCCAGT
CAGGAGCTCCTAAGTGGCAGAGCCCTGTCTCCTGGGTTCCTTCTCCTGTCTTTCTTGCCTCTCACTTGAAATAAGAGAGGACATCAGAACTGGCCTGAAT
GGGGCCCTGGTAGGGCAGGAACAGGACACCTCTGTGGTTTTGTTATGATGTCCTGAGGATAAAGGAGTGAAAAAAAAATCTTTGAGGAATTGAAGATTTC
TTTATGAAAGATGGCTGAAACTCCTGACAGCTTTTCAAATTCATCTTTGGAGAAACTTCCGTTTTCTCTTTCCTGTTCCGAGGCTTAAAGCTGCCCTGAA
ATCTACACATTTATCAACAGTCTCTTGTCAAGACTCCAGGGAGACAAGAACTCTTATACATTGCTGTTGAGAGTGTAAAACGGTACAACCTTTATGGAAG
GCAAATTGGCGTTATAAATGCGTGTTACCTTTGACCCAGAAATTCTACTTCTAGGAATTTATCTTACCAATACACCTGCCCACATACAAATTGCAGCATT
GTTTTTGATAGTAATACGTTAGAAATAACCCACGTGTTCTTCAGTGGGAGACTGGTTAATACACTAAGATATATGCACAAAATGGAATGCTCTGCTGCTG
AGAGAAACCACAAGTATGCCCTGCACCCCTGTGAATAGATCTCCAGTATATTAGGTGGAGAAGGCAAGGCAGGCTTCTTTTTTGTAAAGTTAAGGAGGGT
AAATAAGACTGCATGTTTGCATCTGCTTGTATTTGTGCAGACTGACACTAGAAGGGAAACCAAGTAACTGAAAAACACGATGATTCACCGGGGTAGGTGG
GGAAACATCTAGGTCGGGACAGGTATGGGAGTGACACACCTCAGTGTACATCTTTGTATCATTTTTAAAAGTCTGTGCTTGCATTATGTATCAAAACTTA
GTGCTATCTCCTCAGGTGCAGGGTTCTCTGGAACTCTGTCTAGGTTGGTCTCTTGGATGGCATTCTTGSAGACTTGCCGGAAAACCAAACAAAAGGTGTG
AGTGCATGCCTCCTGGATAGATGTCTTTTTAGTGTAACTTAGCACACCTTGTACACTGTCAGGGCGCCTCTCAGATGAGTCATCCCGGCAGCCCCTGCTC
CATGAGTGTCTTCCCCACAGTCCTGAGTGCTTCTAAAATCATCTACACCAGTGGAGGCAAAACTAGATATTTTCTTAGTTTGCAGAAAGGAATATTTCCA
GACAACATGAACTTGTTCTCCTTTGGTCTCCTTTTCCTTGTCATTGTTCAAGTCACAAGGTCTGCTGATTAAATTTCCCCTTGGGTTTCAAAAGAACTTG
CTTGTTTGGTTGTTGTGTTTTGCCTTTTAATTTGAGAGTTGAGGCCCCCAGGTGCATGTGGTAAAGAATTCAAAGGGCTAAATGGGTGTGTGTTGTTCGT
TATTTCTTTGAACCTCTTGGCACTTGAATGGTGTCAGTAATTTCACTAATTATGGTTGGCAAAGAAACTCTGACACATGGCTTTGGAGCTGTGTTGTTCT
TACATCATATCTCTTGAGTTGAACCTATGCTCTCTTGATGGATGAACTCGTAATTCACCAGGTGCGTGGATCGCTGTGATTAATTGTTTCAAGCTATCAG
TTATTTAACTCTCTAGTGCCAAATGTTCAGGAGAAAATGTAAGTGCAGTGTAATGTAAAATCAAGCCGGCAACTCCAGCAATTTGCTCTTCAAACTATAG
CTCTATCAGTTCCCATTCATTTATACACTTACACTACTCAATTTGTCGTTGTTGTTGTTGTTGTTGTTGTTTTTGAGACAGAGTTTCACTCTTGTCACCC
AGGCTGGAGTGCAATGGCATGGTCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTACCTGGAATTACAG
GCACCCACCGCCACACCCAGCTAATTTTCTGTATTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCTGGCTGGTCTCGAACTCCTGACCTGGTGATCCG
CCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGCCACTGTGCCCTGGCACTACTCAATTTGTAATAAATCAGGGTAAGTTATTTTTGGTGCCAAGTCGA
TTAATTGAATATAGGTTATTTTGCATCTTAGATTCCCTCTGACGACTAAATCTTATAAGCAGAGGTATGTGAGCATGAGAACTGTGTCGGGTGGTCCTGA
AGAGATTAGTGGATTAGAAGGAGATTTGGAGATTTTTAAAAAAGCCTCTGGACAGTGAGTTAAATGGTGGGTTGACACTCTGTGGTCGGGACTTTTTGGA
GAGTCTRTAAAGTTCTGCTGTATTTCTCAAGAGCTAGAGAGAGATGATACTATGACCAAATTTGGTTTGAATGTATTATAATGTACTGAGTATCACTAAT
TTGTTGGGAAATGACTGTTAAAAATACTTACTGACGCTTAAAAATATCACCTATAGCATTAGTATAAGTAGCCAACTGATTTACATATATTTCATGTGTG
TGTTGGGAGAGGGGTGTGGATTCGTTAGGCCAAAGATTTCGGTAATATATTTGGAAGAGATAAATGAAGATAAAGAGATAAATTACCTTTTGAATAATTC
CAAAACTAAAAATGCTTCCCTTAATTTTTATTTCTGATTTTCTTATTTCTATCAGAGAAATGTTTCTCATGTGACAAATATAATGCTTTCATATTTACTT
CTGCATGCACAACTTTTAATTAAGTATTAATTGATTAATTTTTTAGAGACAGGATCTTGCTGTGTCATCCACTTTGGAGTGCAGTGGTGTAGTCATAGCT
CACTGGGACCTCAAACACCTGGGTTCAAGGGATCCTCCTTTTTCAGCCTCCTGAGTAGCTGGAACTACAGGCATAAGCCACCTTGCCCAGCAAATTTATT
ATTATTATTATTTTTGTAGAGATGGAGGTCTTGCTGTGTTGCCCAGGCTGGTCTCAAACTCCTGGCCTCAAGTGATCCTCCTTCCCCAGCCTCCCAAAGT
GCTGGGATTACAGGCGTGAGCCACCACATGCAGTCCGTGTACACTTTCACACCTTTTAATTTCTTTACTCATTAGGTGCATTCTTTAGCAATTATGTGTA
AAGTGGAAATGAGCGTGCAAATCGTCATTTTCTATTGACTTGCACTCCAGAATTGGAAAATTGGAAAACTGTAGGAAACTGGAAAATTAGAAAACTGTAG
GATCTAAAACAAATCGCTTCTATGACTTATAATATTCACTTGTAGAACTCACTGGCCTTTGTCAGCTTTCAGAGTATGTGAACACTTTTTGCCATGTAAG
TAGTTAGTCCATTGGYAATGGATATATGTAAGTTGGTATCTTCACTGCAAACATTTAGTTAATTGCGTTTATTCTTGAGCCATTCTTGCTCTACCCTTAG
GACTTGATTTTCAGTAGCTACAGTGGTTATTCCAGAAGTTGTTAGAATTAAGAGCCAGGAGGAGGTACTATGTAAGCTACATTTAGACTCCACTGGACAC
TCACATATTGCACGTGGAATATCTTAAAGGGGTTGTGTGCTGTGGTCAGGGTGGGAATTATCTCTTTTCTTTCCATGAGACCTCCACTGTGCATTATTTA
AGGGCCTGTCAATTGCCCGTTATTCAAGTTTTGTTGTTCTTGGAGGACACTATTGCCTATTTCTTTCCTTGTTTAAAAAATTTCATTTAGGTAGGCTTAG
CATAGTTGCAGTAGAATTTAATAAATCCTTTTTTTTTTTTACAGAATAAATCTTTTTATTACGTAAATACCCTTTAATTTGCCTATTTTTAAAATTCTTG
TTTCTGTGCTTACCTTGTTGTTAGACAGCCAAGGGGATATGCTGCTCTTTTTAGTGCCAAGGTAAAAGGTAAAGCTGTATCTTAAATATTTGTATTTCTC
TTTGGTCTTGGTGACCCAAAGTGATTTGGGTCATTCTGACATTTAATCAAGTTTAAACAACATGGCTCTTAGAAGTATGTTTACCAGGTAATCTGAGGGC
TGGTTACCTGGTAACGCAATTGAGAAATTTCATCAAGACTAATTGATTAATTTATTAAGCACTTATTGTCCAGTTTGCCTTTAATTTTCATTTTTCTAAG
TTTCCATTAGCTATCATGGCCTCACTTGTTATTTMATAATGAATGGTTACAAATTGTTTGTGTGTTTTTGTAATTAGAATGTAATAGCAATCGTCTACCA
GATGAGCTGACATTGTAATGACATGAAGTCAGTAACAATTATGCCTTACAGGAAAATTAATTCTGTAATCCTATCATCCCATATTTTGCCTAAGAGATTC
GATTTGGCTGCTGCTAGGCTGCTTAGGCAGGTGACAGCATGGTGGGACACTTCTCATTTTTCTGGTTAGACTACTTAACCATAACRTTCATGGTGCCACC
TGAAAAAATAATTTTATCGTTTTAGACTTTTAAAATATTTTTAGGCTTTTTTTTTTTTTGGCTTAAAAAAAGAATCTGTTCTACTTGGGTATTTTGTTCT
CCTTATTTCTTAGTGAACAAAGATATTTGCTCGACTTCTATCCCAGAAGGACCATCCTTTCTTCTTCCTTTTCCTTACCTCTAAGGGATATGAAGCTGTG
AGAGGGAATTGCATATAGCAATACCATTTTGATTCCAGTGAAAGTTCTTACCTTTCTCTTTTGTCATTCTCAACCTCTTACCTGAAGAGTCCATTCCCTC
AGTATATAGAGCATCTGGAAGTCTAAGGTGCAGGCAGGACTGAAAGAGCTGAGAAAGGCCTCACATCAGGTGACACTGGGGCACCTGGCTGTGCTCCCTT
GTTGGGGGGTCCCTTGGCCTGGGCAGTTTTGCGCTTCTCCCTGTTTCCCTGTGCCCTGAGACTTTGTGGGTCACAGGCARGGGGGCTGGCCTCCCTGATC
AAGGGCCCTTGGCCTAGGAGGGCCCCTGGATTTATCTAGTCCAGCTTCTCGTCGTCCAGGTGCAAAACTGATGCTCTGAGATGTTTAGGGATTTGTCCAA
GAGCAGAGTTGGAGCCACAGTCCAAATCTTCTGAGCCTAGTATGGTATTCTGTCATCCTTGGTTTCATTTTGTTCTGTTCATAAAAATTGCCCAAAACTG
CTGGGCAAAGTGGCTCATGCCTGTAATCCCAGCTCCTCAGGAGGCTGTGGAGGGTGGATTGCTTGAGGCCAGGAGTTCAAGCCTAGCCTGGGCAACATTG
GGAGACCCTGTCTCTTAAAGAAAATAATTGCCTAAAACTATTCAGGGTTAAAAATTTGTCTCTAAGCTTAAGAATTTGGAAAAACTCAGAAAAGTAGCCA
CCTATAACTCCAGCATTCTGAGAACAGTTAAGTGTATTTTCTTCTAGTTTTTTGTTTGTTTTTGAGACGGGATCTTACTGTCACCCAGGTTGGAGTGCAA
TGGCGTGATCACTACTCACTGCAGCCTCTACCTACTCAGGCTCAGGTGATCCTCTTCACCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGTACACCACC
ATGGCCAGCTAATTTTTGTGTTTTTTTTGTAGAGACAGGGTTTCATCATGTTGCCCAGGCTCATCTCAAACTCCTGGCCTCAAGTGATCCACCCACCTCG
GCCTCCCAAAGTCCTGGGATTACAGGCGTGAGCCATCATGCCCGGCCTTCTTCTAGATGTTTAAAACAAACACATTTTAGTGYAGTTGAGCCTCTGATCG
TTACATGTTTATTTCCTAGCATTTAAAAGCCTTTCAGCGACATACACTCCTTATTAGCTTAATTTTTTCTTTTAAGAGCYGTGTTCTTGCTCTGTCACCC
AGGCTGGGGTGCAGTGGTACCATCGTAACTCACTGAAGCCTTGAGCTCCTGGCTTAAGTGCTCTTCCCACCTTAACCTTCTGATTAACTAGGATTACAGG
TGTGCATCACCACGCCCAGGTAATTTCTAAAAAAAAAAGTTTTTTGTAGAAGTGATGCCTCGCCATGTTGCCCAGGTGTCTGTCTTGAATGCCTGGCTTC
AAGCGATCCTCTCCCCTCAACTCTCAAAAGGCTGTAACCCTGATTTTAATGGTAGTGTAAAGTGACATGGGATGAAGGAACCGTAACATTCTTAAAGTTT
CCCCATTGTTGGGCATTTGCATTGGTCCCAGTTTTTTATAAGTAAAGAAGGCTGCAGCAAACTCTGTTGTACTACTTAATCTTTGTCCTTTATTTCAAAT
TATCTCCCTACAATACGTCCCTTGAAATAGGATTTCTGTGGAAAGGTATCAGTTTAAAGCTCTTGACCCATATGGCCAAGTTGCTTTCCAAACAGCTTAC
CTGTTGAGACTCGGACCTATGCTTCTAAAGCCTATGTGTGAAATGTTCACATTGTCTTTGGGAGAAGCTTCCCACGAATAAGAAAAATAAGGGAAGAACA
AATAACATAATTGTTTGGATATATGCTGTGGTTTGTGTGGACGTCTCCCACCCTTTCCCTTCCCCAGCCCAAGTCAGTCTTCTGTATAAACAACTTACAT
AATACAGACTCTTCACTGTTTGTATTATACATGTATTTTGTGAGTCTGTGTCAGTATTTGTTTACACGGGAATTAGGGCATCAGGCTGTCTTCCTAGGGT
TCCTCTGTGCAGACTTGTAGACAGTATGGGTTCTTTGCGTGCTGAGTTGAGGTGGCCCCAAACCTTTCAGACAGTTGCTCAGATACCTGGCAGTTGCTCA
TTTACCCTTCCAGACCTTCCTGCCTCTATATTAGCCAATGACAAGCAGATGCTTTCCACAAAACATTCGTGTGTGAACTGTTGACATTTATGACTGTTTT
CTGAGCCCACACCAGGTCATTTTTCTATAAAATCAGAACTGTGAGAGCTCAGGGCATGTGGCCATCCTGGATAATGGGTCCTGCTGTCTGGGGAGTCRTT
TTCATCAAAATTCACTTTTAAAGAATAGAGTGTTTATTAACGAAAATATGTGAGCCTTGGCTGGGCACTGTGGCTCCYGCCTGTAATCCCAGCACTTTGG
GAGGCCGAGGCGGGTGGATCACAAGGCCAGGAGATCGAGACCATCCTAACGCGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAAAGTTAGCTGGGC
GTGGTGGCGGGCACCTGTAATCCCAGCTACTCTGGACGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGGAGCTTGCAGTGAGCGGAGATTGTGCCA
CTTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAGAAAAAAAAAAAAGAAAGTATGTGAGCCTTATCCCCCAAATGTACCTGACATGTGAA
TAATATGGCTCAAACTAATGATGTGTATAATATTAAATTGACTTTGTTATTATAAGTGATACATAATTCAATTTTAGTTAAAATGCATTATTTCAATCAA
TATCAAATATTGCAGAAGGAAAACCTAAAATAGTAGCCAAAGTTACTCAGATGAGATAAAGAATATGTTTAGGGCTGGAAAATCATACTTTTTTTTTTTT
TTTTTGAGATGGAGTCTTGCTGTGTTGCCCAGGCTGGAGTGCAGTGACATGATCTTGGCTCACTGCAACCTCCGCCTCCAGGGTTCAAGCGATTCTCCTG
CCTCAGCCTCCCAAGTAGCTAGGACTACAGGCACGTGCCACCACACCTAATTTGTTTGTGTATTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGATG
GTCTTGATCTCCTGACCTCGTGATCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCATTACGTCCAGCCTTTTTTTTTTTTTAAATA
AAGAGGGTCTCAGGCTGGCGTGCAGTGGCACGATCTCGGCTCACTGCAGCCTTGACCTCCTCTGCTCAAGCAATCCTCCCGCCTGAGCCCCCCAAATAGC
TGGGACCACAAGTATGCACCACCATACCTGGCTTTTTTTTTTTTTTTTTTTTTTTTGTATTTTTTGTAGAGACGGGGTMAYTCTATGTTGCCCAGGCTTG
TCTCGAACTCCTGGCCTCAAGCGATCCACCTGCCTTGGCTTCTCAAAGTGCTAGGATTACAGATGTGAGCCACTATGCCTGGCCAATAATTATATAAATT
TTGATATAAATTCCTGCTCTTCAAGGAGATGTGGGTTTTTTTTCCTCCTGAGAGTATATTTATAAAGTTAATTGGATTTTATACAAAAGAAGCTTTTGAC
TCATTTCATTTAGCTTTTAATGTTATCATCTGGGAGGAGATGGTGAAGAATTCTGTTAGCCAAACCATGGCGAATTAATGTTTCTTACAGATGGTTTTAT
TACTTTTTATGATATTATTTGGATCATGAAACAAGTATCTTGGAAAATGTGAGATACAAAGATGTGAGTTGGGAGGTCTCTCTTGTATGTGAGTTCCTTC
TATAACAGAGAAAGGATACTTTCAGTTTAAGCTGAGATGCTTTTTCCTTTTCACTCTTGAAAAGTCTTTGTTGCAGGAATTTTCTGTGCCCTCCCTCCTC
TGGGACAGATCTGCTTCTTGATACTGCAGGGCTCCAGCCTTCCTTCCAGCCAGCTCATTTCTCAGGGAAGCCTTGTTTTCCTTTTTCAGAAAATTTAAAY
GTATATTTAACGCACAATTTAACTCCCTTTCCTGTTGATAATTTTTTTCTTCTTCATATTTTGTTATTAATAATAGCTTACAGAATGGGATCAGTATCAG
GATCGGGAGGTAACCAGGTCTCCAAGTTTTCCCTTTCGTTTTTCTTTTCTGCTTTTAATGAGCCTTAATTAATCCAGGGAGCTAGGCTGCAGTATCTGTG
GCTCTCCCTGATGTTTTCTTTCTGCMTTTCTGTCTTGGAGGGGAACCTGAGGATTTGGAAGTAGAGGGCTCTACTAGTGCTTCCTTTTTGTCCTTTTCTC
ATTGTCCAAAAGAGTCTTAAGCGATCTCCAGGAAATCCCCTGCTCCTGCCAGGAATCTGCCTGTGAGTATTTGAGTGAGTTGCTGCTYTTTAAGTACCAG
TTGAGAAGCTGAAGGTTGGTGTTGTGGTTGTGATAAACTCCCAACATGAAAACTGAGGACCACCAGCGTTTTCAGCTCACCTTTGACTCACGCTGGCAGC
TCCAGGAACACTGAACAGGAGTCCCCACTGAACCTTTGCTGCGTTCCGAAGCAGCACAGCCATGGTTAGGCACTGCCAGGCAGCTCTTGGAAACCACAGG
GAGGGAAGTTTTGGTTCCTTCTTTCTGTCTTTGTTTTTGAGAGGAATGAGCTTGGAATAAAAGAACGCTAGTAATGACTGATTTGCAGGTTAGGTGTAAA
CATTAAATCCTCATAACAGGCTAATGAGAGGTGGGAGAAATTATCCCCATTTTACAGATGAAGGAACAGAGGCTCCTAGAGACTAAAGAACTTGCTACTC
AATGAGGTCAGGATTCACACCTAGGTTGACCTGAGGATAGCTGCTGCAGTGCTCACCCTTCCTACCTTCCCAAGAAACAATACGCAGAGAATTTCTTTTC
TAAATATTGTGTGCCTAGAAGGTGCTTTGTGTTATCGAAACAGATATATATGTGTATATCTGGTCTCTTTAAAATTCTCTTTAATAAAAACAAAAAGTGA
TGCTAGTGTAAAATAAAAGATATATATAGAAAATTGTGTGTCCTCGTTAATCTTCTTTAGGAAAGATATATGCATATATGCAGTATAGTTTTGGGTTTTT
ATAAAAATGAGATCATGCTATTAGTATAGTGAATAGCCTCTATATAGTCTTTCGTAACATTTTTACTTTTTCTCGGTGTATGGATATCAATTTAGGTCAG
TTGCTGCGGAGTTTGAAACGAGTTAAAATTTCAGCAGTTCACAAAATGGATGATTCATAGTTTAGTCGAGCCATCATCTGTTGATGGACAGTCATGTGGT
TTCTTGTTTTTTCTTTCTCTGTGTTTCACTAATGAAACAGGATTACAGTAAATTGACTCGTGTATGTGTATACATCCATCTTTGCTGGTACTATAGAAAA
GTGTATTGCTGGCTGGGCATGGTGGCTCATGCCTGTAATCCCGGCAATTTGGGAGGCTGAAGTGGGTGGATCACCTGAGGTGAGGAGTTTGAGACCAGCC
TGACCAACATGGCAAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCAGTGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAG
GCGGAGGTTGCAGTGAGCCTACATCGTGCCACTGCACTCCAGCCTGAATGACAGAGCAAAACTCCATTGCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
AAAAAGGCATTACTGCCTTGTTCCTGATTTAAATAAAAAAATGTGTTTTAACAAGGAATATGTTAAGTTTTGGTAAATATAGTTTATCATATTTAAGTTG
TGTATACTCATTCATGTTTTAATTTTTATCGGAAGAGGCTGATGAATTTTATGAAATGCCTTTTTGGCATGATATAATTGTGAGCTTTTGCTTTTATTTG
GTGGTGTAATAAATTACGTTGATTAGATTTCCCAATATTGAATCATCTTTGCATTCCTGGAATAAGCCCTAATTTGTTATGGTGTGATAATCTTTGGATA
TGTTGCTATTTGATTTGCTAATATTTTTTTAAAAATTGTGACTGTAGCCTACAAAGCCCTACAGATAGGGGTCTTTAGTTTTTTTCCTTGTTTGCATTCT
ATCAGGTATTGATATTAGGATTATGTTTTTTAAATAATTTAAGAAGAATTTCACCCTTTCCCAGCATCTAGAAGCATTTACATAATATAGGAAATAACCT
GTTTTTTTTTTTTTTTAAGTTAGAGTAAAATTAACTGGAAAACTTCATAGGCATCCCCTGTAGTCCCATCCCAGAACATTTTAAAACAAATTTTTTAGTT
TTTCAGAATATATTATAGTTGTTCTGTTCAGCTTTTAAGCCTTTTCTCTGGATTTTGATATTTTCTACTTGCTGGGAAAGAATTTATCTACAATTTGAGT
TTATCGCACAGTTATTTGTAATATTGTTATCATTTCTCTGGTAATCATAACCCTTTCTCATTACTAACACATATTTTTGCTCTTTTTTTGCTTTTTTCCC
CCTTAATCAAGTTTGTTAGAAGTTTATATATTTTATTGTCTTCAAAAAACTAGGTATATTAATTTTATATTTATCCTGCTTTTAATTTCATCTCAGTATT
TAATTTTTATTCACTTTTTCCATTCCTTTAAGTTTATTAAGTTGAATGCCTGTCTCATTTGCTTTTTAGTCTTCTTAAAATAATGGCATTTAAGGCTATA
CATTTTCTTTGAAAATTGCTTTTGTTACGTATTTTTGGTTTTAGACAGTTGATCTCCTTTTTGTTGTTTTCTAGATGGTTTGTAATTAAAATATTTATTT
GATCTTTGATTCTGACATTACTTAGAAGTATGTCTGTCCTTGAATTTTTCTTTTGCTTACCTTTTGATATTGTTTATATGATTTATGAATGCAGCTCTGA
GGTATCTGAGRGGATTTATTAACGTTTACTTGCGTCCAAGTACATGATTAAGTTTTAATTGCTTTGTGGACATTAAAAAATTATGCCCTTGGTAAAATGC
AAAGGTTTTATTTTCTGTATTTAGTAAATCAAACTTACTGATTGCATTATAGTCAGATCTTCCAAATTCATGTATGTTTTCAGTTGTCAAATTGACAGTT
AATGATGCACCTTTTATAATTTTTTTTTTTGAGACAGAGTTTCACTCTGTCGCCCAGGCTGTGTAGTGCAGTGGCGTGATCTTGGCTCACTGCAGCCTCT
GTCTCCTGGATTCAAGTGGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTATAGGCACATGCCACTGCACCTGGCTAATTTTCATATTTTTAGTAGA
GATGAGGTCTCACTATATTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAATGATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGC
CACCACACCGGGCCCCTTTTATAATTTTTAAACTTTTCATATTTCCAAGAGAAATGCTTAGTGTATTTATCTGCCGTTTTGCTTGATGCATCAATATGTG
TAATTTTTTTATTTTTCAGGGATTACATATTTATCACATGTAATATCCCTCTCTGTCCAGTTTAATGCTTAATGGCCTTGAGTTCTTGGTTTGATTTTAC
TATTGCCAGCTTTGCTTTCTTTTTACTTGACTTTGCTTGGTATACTCTTGTTCAATTGTTTGTTTTTAAATAGAGCTGGACTTTTAAAACCCATTGAGAC
ATTTTTGTTCTCTAATAGGGACGTTCTGCCTTGTCTTTCTTTACTGTGATAATGCATACATTTTGCTTTATTGCTTTCATCTTATTCAATGGTTGCCATT
TATTTTACTTTCTGTTATTCTCAATTCCCATGTTAATTGAACAAGTCCTTTGCTAATTTGAAAAGTGTGTTATTTTCAAAGCTACCGGTGCCTAACAATT
TGAAAATCTGTATTTTTCTCCTGAAATAGGTACCAGCATTAAATTACTAATTCTTCCACCAGGGTTTGCATTTCCGCAATTTCTGCCGTTCCCATGACTT
TCTCTGTCTCCTGGATGTGTTCTCTGTCTTTTCACTCATGGATTCTAGTAGATTCTTATTCCTTGCTCTTGGGCGCTCGCATTTCTTCTTCTTAATCCTC
CAGAATCTGATACTCTAGAGCAACAGATCTTTTCTGTTCAATTTAAAATTTTAAAGTGTTTTTTTTTTTTTAATTCCTGAAAGTTTTTATACTCCAATTG
TGTCTCCACATATGCTCTTAGACTCCTCTTCCCGTCTAGTTCTCCTTTCTTGGTTCAATTAGTTCTGTTTCAGCTGGTGCCACCTGTTGCAGCTGAGCTT
GGTCACCCTCCCTCAGGCTCCTGCGTCGTCCTCAGTGGGTCATGGTTTTTCTTTGCTTGCCGATGGCTGCCCTCAGCCGTCACACAAGTCATGGGTTAGT
GTCACTCAAGGAATGGCAGACCAGCAGATGGTAGGTGATAAGCCAGGAAACAGATACTGTGCCGCTGAGTTGCTCTGTTCCCAGTCTCTTCCGACAACAT
AAGGCTTGGGAACAGTTCCACCTTCCATGGAAGCCCCCCTTCCCTCTGGTTTCACCTGGGACAGCAGGATGAGCAGGGTGCAGGGCCTTCTTCCCTGTGG
ATGGACTCTCAGTTACAATGACCATGGAGAACTGTACCCGCTCTCTGTTTTGGAGATTTGGGAGATCCTGAGGGCCTCAGAAGGCCCTCACTCTCATCCC
ATGCACTACCTGTAAGCTCATTAGATTACTGTCCTTGTTACTTTAGAGAGGGGACTGTGAGGGAGGCAGGACCAAGTATGTTTATTCAGGCCACTGTCTT
CCCCATAAAGACTATATTTGTGTACATTTTTCTTTGCTGTATTGTGAGAAGGAGGTAGAAAAAAGATGTGCATGTCTGCATTTGGAAACAGTTCTGAGAG
TGGTGCTGCATCAGCGGGGCTGGATTGCCCTCAACTATAAGAAAGTGGGATACTTATATAAAGGAAGCATAATACAGCATGTTTCTCTTACAGGAAGGAC
TGTTTCTTAGAGTCCTCATCCTCTGTCTCCATCACTCAGTATAGCAAATCATACATTCCATCAATGTTAATGACATCAATTGTATGCCTGTAAGTATGTA
CACACGCACAGGGGCAGGGGGCACTTCTTCACTCCACAGCTGGAAAACTTGGGACAAAATGCCTAGCCAGCTTGGCCCAAATTTGAGGGTATTGCCATCT
GTATCTCAGTGCAGGTGTTTCTGTCTGATGTTCACAGTCTGTTTATCCAGAGTGCCCCAGAAAGGACAGTAGTGTTAGGTTAAACCTGTGTATGTCTGTT
CTTGGTTTTAATAACAGTCCTGTCTTTGGAATTATTTAGTGTGTTCTCTCATTTCTCAGGAAGTCAGGATGTTAGTGCCGAAGCACTTCTCTGACTTGGT
CCGACATTGAAGTACCTTCCCCTGCATTACAGAAGAACGGCCCCCCAGGGGGTCTGTTTGATGAACACATGTATTATTGCAGTGAGATACTCTAGAAATA
GCTTCATGTCCTTGCAAAATTGCCAGCACAAGTAAGGACCTGGAAATTGTTGCTATGCATGTATGTCAGAAGATTTCTTAACCAATTCTGTACTGAATAA
AATAAAATTTATTTTCAAGTTTTGTAGGGACCTGGGGCAATATGTCAGATAGAGTTGAATATTTTCAAGGCATTTTTAGTTCATGGGGCACATAGTTGGC
TTAAGATATCTATGTGTATCAGGACTGAAAGGTAAAGTGCCCGAACCTGCTAATGAAAGAGGTGTCTGTGTGGCCATCTGAGGTTCAGCCACAATGTGTC
TTGCAGAATTATTTTATTTTGCTAGTTTTTAATTTCTCAAACAGTTCAGCTGCCTGTCCCGTGGTACCGTGAGACTTCTAATTCAAGATGACCAGTATTT
GCAGACAGAGCCACTGCCTTTGCTGCCACATTTTGCTTGGTTATTGTGTGAGAACACCATTTTTCTCTTTTTAAATGAATTGTGTTTCTCTTTTTAAATT
GAGCATCYGACTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCACGGTGAGTGGATCACCTGAGGTCAGGAATTTGAGACCATCCTG
GCCAACATGGTGAAACTCCTGTCTCTACTTAAAAAAAAAAAAAATGSAAAAACTAGCTGGGCATGGTGGTGCACATCTGTAATCCCAGCCACTTGGGAGG
CTGAGGGCAGGAGAATGGCTTGAACCTGGSATGCGGAGGTCATAGTGAGCCAAGACTGTGTCATTGCACTCCAGCCTGAGCAACAGAGAGAGACTGCCTC
AAAAAAAAAAAAATCCGTTTACATAGTGATAAATAAAGTAATTACTATAGTGGTGGCATTCTGCCTAAGTCATCTTGAAAACTGAATGCAAAATCTTTTT
AATAGCTCCATAATGGTCTCTTGAAGTGTTACAGATTTTTATAACRATAGCTGTAATACAAGTGCCTTTATTTACTGTGAGACTTGAACATTTTGACCAT
TTACATGGGTACTTGTGTGTCTCCAGCTGAGCTGAGTGCATGTCGCTGCGGCATTGCAGGCGTGTGTGCATGTTGGCTCTTGCAACGGGGCGTCTGCCAG
GGGTTGTCTCGGGCAGGAGAAGGAGGCCAGACTGGCACCACTTGTAGTGATTGGAATGTGTCTAGTCCAGCTCTTCAGTTCCATGTAGGAGGTTTTAGGA
TGGAGATTGTGTTTTGGGAACTCCAAGTCACTGTCCAATTTGGAGAGTATTATGTAAGAAGGCTTATGTTTTCTGATTACCCATCCTTCGATACAGACCA
AATAATACCACAGTGATAAAAATGGGAAAGGAGCTGTCGCTCAGCTCTTCTTGGCCGTGTTGTTTGCTTTTCGATGTCTAATTTATGAAAGCATTTCAAA
GTGACATATATACTGAACAGCTTCGTCTTGCCAAATGTAAAATAAACTGGAGATGAGTTTAGCACAGAGCTTTGTAGATTGTTGTCCTCTTGGTAGAGTC
GGGGCCTAAACACCACCTGGCCTCTGTGCCAGTGGACAGGTGACCTGCCTGTCCTACTGCTGGTCTCTGCAGCTCTCTGTCTTGGGCAACCCTGGCTCTG
AGTTCCAGAGTGTTCTCCAGTAGGAGAGTCTGCAGGGGCACTGTGGAGCACCTGGGTATGTGCACATCTGTTGTTGGCTGGCGTTGTCTCTGATGGCTTG
GGGTGTCACAGAGACATGACAGTACTGTCACTGCATACCTCTCAAGCTTTTGCTGAGTCCTACATGAGTTGCAGGGGCAGAGAGGGAGGGAGAAAACAAT
GCCTAGCCACACTGAGAAAGGGGAAAGTGCTACAGAGTCCTGGAAGGAAGCGAGGATGGACATGGACGGGGAAGCATTCATACCAGGCAGGAAAAGTGAC
TTCATGGACCAGTCACAGAGGACAGGGCCAGGGATCAAACCTTCCGTAATTTGCCTCCACAGTTTGTCTGAGACTGGCTACCTGGTTGAGTCTGCCAGAG
CCCTGTGTGCAGGTACTACCACTCACTGTCACCTCCAGGCAGGAAAGGCCATGTGAATGCATGCATCTTTGCAGGAACTTGCCCCTTTCCACTGAGGTTT
GAGGCAGACTCCAACCACATTTCCATCCAGTGGCTTAGTGGTCTTACCCGTGAGCTTGAASTGTTGTCCCTGCCAGGACAGTCTTTGCCTCTGTAARTAT
CTCCATATTCCTCCATCCTTTCAGGTCCCATTCAGTCCCTAGGTCCTCCATGATGGAATATTGGTTGATGCACTTATTCCACAAACATTTGTTGGCCACC
TTTCAAGTGCCAGWCAACCCTTCTAGGTATGGAGGGGTACAGTGATGAGCAAGCCACTGTTTCTGGCTGCAGAGGGCTCACTGTTTAGTGGGAGAAACAG
ACAAATCATACATCTTAACTACACTGCCCTTGATTGCTCTTTACCTGTTATATCAGTCGATCTTGCCTGCCTAGCATTTGTTCCCTGTTTGGGGGCCTGT
ATGATGTTCGTTTGGATACCTCAGGGTACATTTTCCCATCTTTGTGATGATGTAGCTCACTTGGTCTGAATGATATGTAATCCTGCACATGTAGAGTGAC
CATTATATTTGCATAAATAGCATTGGAGGAATATATAAGAAATGAATAAAAGTTGTTATATCATTTGATTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTT
TTTTTGAGATGGAGTCTGGCTCTGCTGCCCAGGCTGGAGTGCACTGGCACGCGCATAGCCCATCGCAGCCTCAAACTCCTGGGCTCAAGTGATCGCCTGC
CTCAGACTTCATTTTGATTTGTGAACCTCGTGATTCTATTACTTGTTCCACAAAAAATTTTAAATGAAAAAGTATTTCAAAAATACATATATTCCGGCCA
GGCATAGTAGCTCATGCCTCTAATCCCATCACTTTGGGAGGCCAAGGCAGACAGATCACCTGAGGTCAGGAGTTTCAGACCAGCCTGGCCAACATGGTGA
AACCCCGTCTCTACTGAAAATACAAAAGTTAGCTGGGCGTGGTGGCACGTGCCTGTAATCCCAGTTACTCGGGAGACTGAGGCAGGAGAATTGCTTGAAC
CCGGGAGGTGGAGGTTGCAGTGAACCGAGATTGCATCATTATGCTCCAGCCTGGGCAGTGAGTGAAACTCTGTCTCCAAACAAAACAAAACTAAAACAAA
AACAAAAACAAAACAGGCTGGGCACGGTGGCTCATGTCTGTAATCCCAGCACTTTAGGAGGCCGAGGCGGGCCGATCACAAGGTCAAGAGATCAAGACCA
TCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGACG
CAGGAGAATTGCTTGAACCTGGGAGGCGGAAGTTGCAGTGAGCTGAGGTCGCACCACTGCACTCCAGCCTGGCGACAGAGCTAGGTTCCATCTCAAAAAA
AAAAAAAAAAAAATTCCTCCACAACATATATTCCAATGTTTAGTTTTTCTGTTACAGAGATCACATGTACTCTAACTTGTCAACTAAATTTAAAAGGAAA
AGACAACTTTGAGAGAAAATTAAAACCAATGCAGTGTGTGTAAATGCCATTTTGATAAGCTCTTATTTCATGTTGACATATTCTATGGTGCTCGTCTTAC
ATAACCTAGTTAGGGAAATGTTTTGTTCCAGTCTGGCTTTGTTTTTCTTCATGTGTTTAGGTCCTTCCACTTTCCTTTTGTTAATTTTTGGTGTTGTACT
TCAGGAAATGAATTGAGGGTTGCAAATGACCTGGAGGGCCTTAGTTTGTTTGCTTGTTTGATTTTAGCAACAGTCACCGTGGTACACCTGACGTGGCTGG
GACTCCTGATTTTTTTTTTTTTTCTTTTTGAGAACAAAGAATGTGTCCTTGTCTTGGCATGGACTGGGTAGCCTTGTTCACCTCCCCACCCATCTCTCCT
TATTGGTGAGGCATTGTAAACCGTGTTAACAGGTAGCATCCACAGAACCCTGGAAAGGTTGTGAAGTCCCTTTGGAAGCCTAAGGGTTTTGATCTCATCC
AGGTTGTAATCTTAAATTCTGGTACAAATTCCCTTGTTACAACTGGGTTAAGTGGTTTTAACCTCTTTTGTGCCTTCATTTTGAATGCTTAGACTGGAAA
GTCGTTCAGAGACTCCTGACCGAATAAAGCCTACTTCCAAATGAGTGGGTTGTCCAGGTGTGCTTGTAGATGTCACATACTTCTAACAAGGCTCTGCAGC
TGCGATGTCACCTTGCCCAGCGTGACCTCMTTAGCATGTATGTGGCTTTCAGTGGCCATGTACTTTGCTTCTAGAGCTTTCTTTCCCATTCTGGGTTCTT
AGGAGGGGGCTGTGCTTTGTGTGTGGCCAGGCAGAAGTCCATGTTTTAGCTTTTCAATTCTCTTGAAGAAAACAAATGTTGTTGATAAGAACACTTGTCA
TGGCATCCGATTTGTTCTTGTGAGGGCTGTATTAGCAATAAATAGACATTTAGTTTGCATATTTAACACCTCATCTTCTTTCAGCCCACACGTCTTCACT
ACAGGATTAGCTTTTCATTACTTAGTAGAGCTTTTAATTACCTGAAGCTTTCGTGTCTTTACTGGGATATAACTTTTCTCCTTATTAACCAGAAAAAGTC
ACAGAAAATCTTGTAATTTATAATGGAATGGAGTAATATTCACAAACAGGCTTTGGCAGGATTTTTTTTGTTATTGTGTTTTTTGTTTTTGTTTTTTTGT
TACACTAGTTTTATCACAAGACAAGAAAGAGGGGAACTTTTAGAAATAAAAATTATGTGCTAAAATAATTAACCTTCCTGAGTAACACACACAGAATGTT
GGTATAGTGTTTGCACCAGAGGAATTACATATGGAAGAATGCTGGGATCTTTTACCAAATAAGGGAAAGTAGAGTTCATTACAAATAGAGGCTTCTAGCA
CAGAAAAGAGGACATTTTATAAGTACTGTGAAGCATTTTCAGAGATAATTAAATAATAGAAAATATTAAACCAATTTAAACAATTTGTAGTTTTTTTCTA
ATAACCAGTAAGTTCTTCGTCTTCGAATAATTCTTTTATACTGTTCTATTTCCAGCTCCACTGAGTGCCCCTGTGTTTTCAGAGAAAACAGGAGTCTGTT
TTGGACTTCCTCTTTGGTATATATGGTGGGAGATTTGTTTAAAAAATTTTTTTATAGAGGTAAAATTCATATGACATAAAATTGTCCATTTAAAGGTGAA
CAACTCAGTGACATCTAGTATATTCATACTGTTGTGCAATTGCCATCTCTATCTAGTTCCAAAATACATTTGTCATGCCGCAAGGAAAGCCTGTACCCCT
TAAGCAGTTAATCCCCATTCCCCTTTCCGCTCAGCTCCTGGCAACCACCAGTCTGCATTCTGTTTCTATGGATTCACCTATTTTGCATAGTGCATATAAA
TGCAGTTATATAATATGTGACCTTTTGTGTCTGGCTTCTTTCACTTAGCATAATATTTTTAAGGTTCATCCATGTTGTAATGTATCAGTACTTCATCCCT
TTTTATGGGTGAATAATAGTCCATTGTATCCAGTTGTATCCAGAAGATTTGCTTTTCATTGCCTAACTTCAGGGCTTCAGACACCTCAATCTTTGTTCTG
AGATGGATGTAAACTTAATGTATATCTCTCTCTCTCACCCAATGATCATGCCAACACCTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGTCTCGCTGTGT
TGCCCAGGCTGGGGTGCAGTCTTGGTTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTTGTGCCTCAGCCTCCCAAGYAGCTGGGGCCACAGGTG
TGAGCCACCACACCTGGCTAATTTTTTTTTCTTTTCTCTTTTTTGKTTTTGTAGAGATGGAGTGTTGCCATGTTGGCCAGGCTCGTCTCGAACTCCTGGC
ATCAAGTGATCTGCCCGCTTCAGCCTCCCAAAGTGCTGGGATTACAGACATAAGCCACCTTGCCTGGCCATGCCAACAATAATTATTTAGAAGTATGTTG
AGAATACATCCCAATAATAGAAGTGAAAGCTCTTTAAAAAGAAAAATATTCAAAACTTACCAGCTGATCTTATGTTTCATTTAGAATGGCTGCATTCTTT
GCAGTACCCTAGGGTTGTAGAAATTCTCCCCCATGATTGCACAACCCACTCCTTCTCAGCCAGTGTGCACCTGGAGTCAGCTGTGTTTGGCCTTAAGGTG
TCCATGGKCCAGCAGGGAGAGGGCAGATGGGTCAGTGTTGTCCTGCTAGTGATGAGTATCCCATGGTGGGCATGCTGATGCCACGCAAGGGAGAGGGTGT
CTGGTTCTGTGCAGTGGCAGTGGTGCAACYCCTTACCAAGGTACCGTGGGGACCTGGGTTAGGGCAGGAGGAGGAAGGTGTTCTCTACAGACTGCAGGGC
TTGGAGGCAGCCTGTCATGGGGAAGGGYGTGGATGAAGGGTGAGCCGGGACCCCAGGCAGGTACGGAGCAGTTCAAGGCCGTCAAGTGTGCTTCATTCTT
CAGTCATTAGGGTGTCTCTGAAAGGTTTTTCATTGAATCAGAATTCCCCTAATTCACGAATTCTAAAGCTTAAGTAAATTCAGTAATAATAAACTGTCAA
TTATCCAAGCGATGAATATAAATCCATAAGGTTTTTCAAATCCCCAGAAATCCCTTTCRTCTCCCACCTGGTTTTGCTGAGCGCCTGTCTCTTCTGTCTC
TTTTCTGATTCCCACCTTTCACTTTTCCTCCATTTTTCGCTTAATGGATTTATACTTTAAAGTAGGTATTCTGAAAATTCCAATTTTATGAATGGTGTGA
CGGTGAGAACTTTGATTCATTGAAAGATAAAAATAATCATTACATTTTATACTGCAAGGGTCATCCTTAATATTCTTCGTATTTTTAATATAGCTGCATG
ATTTGAGTAGTTGAGTTGGGGATTGGATAATGTATTTATTGATTGATTAACTCTCTGGGGGTCCATACATACCCCTCTTTATATCCCTGTGGTCCCTTTT
TAGTCCTTTTGTAAAAACTTGATAATGTTAACCTCTGCCAAAGTTGATGCGGTAGTTGTGAGTGGTGGGACGCAAGCGTGTTGATTTATTCTTGGAGACA
GCAGAAACAGCACCACCTTCAACTGTTTTGTCATGATCATCTTGTAACCATAATTCTGTGCTAAGTCAGAATTAATGTTATTTTGTTAATTCAGGTTATT
GTGAAAATCTCCACAGGAGGTTATTTAAGCAAGTCACAAATTGATGWTTCTGTTTGTAGAAAAACTCCAGCTCATCCAGCCAGCCACATTATTCCAGGGC
TGCATGGTGTCAGCGTAGGGACCAGGCTCGGTGTAGAGACCAAGGGTGCCTTTCCCCTTCCTTTCCGCCCGTTAATTGCCTACTCGCCCAGTGGTACCTT
CTGAACTTTTAGAAATCCAGATAGGATTTCCACATGGTTCATTAGAATTCATTTATTTTTTTCCATCTGTATTTCTTTTTGTTGTACTCCCTAGATCATT
ATTTTTAGTTACTTTTTACATGCATTGGTTAGGTTTTTCATGTAATCTCTCAGTAAGCGTACTGGGGGATGAGTGACCTCAGTATTTAAATTTTTCATAG
GTGGGATGAAATGTCTTTTCTGAGTGTGAGTATTTCTGTTCCATTCTTCTTTTCCAGGCAGGCTCTCATTCTGTGCTGCAGTTTGGATTCAGGGAGCACT
GACCCTTCTGTCAGGTTGCTCCTGCTATGAAGGATGGAAGGGCATTTTGATACATGAGGCATAACTGTAATTATCCGGTGGGGCTTGGTTTGTGCTGTTT
TCCACCTCTTCGTCATATTTTGGAAAACTGAGGCCAAAAGCAAAGTTCATTTTCCCCTTTAAAAGCTTCTTTAAAAAAATGATGAAAGAGCTTTATCAAT
GTTTTGAATAACCCAGAAAATATTTCTTATTGTTGATAATCTGCAGTTTGCAAGTGCAGCGAATCTTGTAGGTAGATTTACCTTGAGTTTTTTGAAACGG
TAGAATTAATRTATTAAAACATATGGTTTTTAGTTAAAATAGGATGTTAAAGGAATAGAGCGCACGAACAAAGAACTTTCCACTTGAACCCATGTTGTTT
CATCTGACAGTGGGTATGGTGTCCCTGGCAGGATAGGGCTTCCACCTCCTGCTGGTGCCGGTAGGACAGGGAAGAGGTGGGGAACACTGTGTCTCCATCT
CCCAAGCATCTTACCTCCCAAGTCAGATCCCTGGCATTGTTTGCATACTTGCGTGTTTGTGTGTGGGGTGATGTTTTCCTGAGAATGTGGCAAAATAATA
GAAGGTCCCAGGGTTCCTCAGTCTGCAGACCATAGCTGAGTGGTGTGTGCCTCTAGCCATGAGGTGAAGCATAGGTGAAATTCAGATCCATAGGAAGACA
GACAGACTTTGCAAGTTAGTAAGCTAACTTGCTAGAGGAAACGGTAGACTCCTGTGCTGGCTGCCAACTAAAAAGCCTTTCTCCACAGTTCTGTTCTCAT
GTACACCCTCAGGACCTTGGATGAGCTTGTGTGTTCAGGAAATTGGGCACCGAGATTTTTTTTGTATCTTTGATTTTAGTTGATATGTAGTCCTTCCAAG
GAAAGTATTCGTTGGATGCCCTTTCTACACTTTGGCATTGTGCAAGAGGTATCAAATTTTAAAGTAAAAGTGCACAACCTGGCCAGGCGCGGTGGCTTAC
GCCTATAATCCCAGTACTTTGGGAGGCTGAGGCGGGTGGATCATGCTGTCAGGAGATCGAGACCATCCTGGCCAACGTGGTGAAACCCCATCTTTACTAA
AAATACAAAAACTAGCTGGGCGTGGTGGTGCGTGCCTATAATTTCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTTAACCAGAGAGTTGGAGGTTG
CAGGGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGTGACAAAGCGAGACTCCATCTCAAAAAAAAAAAAAAATRCCCACAACTGGGCATGGTGGCTC
ATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACT
AAAAATACAAAAAAAAAAAAAAAAAAAAAGCCGGGCGCGGTGCCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAGCCC
AGGAGGCGGAGGTTGCAGTGAGCGGAGATCACACCACTGCACTCCAACCTGGGTGACAGAGTGAGATTCCGTCTCAAAAAACAACAACAACAACAACAAC
AACAAAACCTCACAACCCTGGTCTCCCAGAGCTTCCATATTAATAAATCTAGACAATGTGAAATGCAAATCCACTTAATATTTGATGCAAAAAAAATTTA
TTTGACCTGTTATTTTAACTCTTTGACATAAAATCTCTAAATCAAAATAATCAGCAACAGTTTTAAGTGTATAAATATGTATTTCTTTCAGTGCTTGAAC
ATTTTTAGACAGGAAGATTCTTGATCTTCTTTGTAAGCAAATAGCATCAAAGAGTAACATTTCTGTACCTTTGTGGTATGTACCTTGTGGCTAATTTGTC
CATGAAGGGATAGGCATTGTGTTTTGTTGCTTAAGTCGCTTAAGGCCTTTAAAGCATTTCCAAACTCACCTATTTTTGCTCTAAGGGGTATAAGGTGTTA
AAAAATGAATGGAAGTTAACTCATTCTCACCTTGTCTGCTAACTTCCTTTTGTTCTTTTTCTGTAAGAACTCATAAAGCTGTATGCATCAGCTGCTCCCA
GGGGCCTTCTAAGGCCTCAGTCCAACAACAGTGCTACAGGTGAGGAAAGGAAAGAAGRCACTATGTCATCATGTCATTCTTTTAGACTTGGTAAGAAGTA
TATTCAAGCAGATCAGATGCTCTCAGAATCACAGCGTGTTGTACTGCTAGTAATTAAAACTGAAGTCCACRTTGAATAAGAAATAATTTTTTATTGATTG
CTGGCATTTGTGAGAAAGGGTTTAATTAGACCAGGATATGGAGGGGACTTATCGACAGTTCCGTTGTACATTGTTGACATGGTTATTTTCTGTATCTCAT
TTTGCCTGGGAATTTGTCATTCTCTTCTATTTTCTTATCAGTAGCACTGCTTTTACACTTATTAGCCCTAGCTGTTTGTCTTGCTTATTTAAACTTGTAC
ATGGCACATGCTCAAAGATTTTTCCAGGCAAAATTTCTTTAAAGCAGGATTTGAGATTTTCYATCCCCTTCCGTCTGCTGGATTATTCCGGTGAGTGTTA
ATCTCCCGCCTTTGTCTTAGCCTCTCTGTGGTCTTCGGTTGCTTCCTTGTTCTCTGTAGATCTCCTGAGTTGGCCATTAGCTGTCAACAGTCAGCACTTG
CTGCCTCTCAAGTCTCTTCCCCTCCTGGCTCTGCCCTGGTTTTGCTCTCTGACGGGGATCTAAATTGGGATTCTTTCCAGTGTGGAATCCTGGGTGTCCA
CCATGTCACTCTGACTTCCAGATGATAATGAGTGTGACCATGGGCTGAATGAATGTCTCTCTGCTGGGATTAAAAGTTAGAGGAAGGCAAAAACAGAYAT
TGCGTGTTCTCACGTATACGTGGGAGCAAAAAAAGTTGATCTCTTGGAGGTAGAGAGTAGAGTGATGGTTACCAGAGACTGGGAAAGGGGGCGATGAAGA
GGGGTAGAGAATGAGTACAAACATTCAGTTAGATAGAGGGAATACATTCTAATAGGGTGACTATCGTTAACAGTAATTTACTGTATATTTCCAAATAGCT
AGAAGGTTAGAAATGTTCCCAACACATAGAAAGGATACATGTTTGAAATGATGGATATCCTAATTATTCTGATCATTATACATTGCATACATGTTTCAAA
ATATCATATTAACCCCATAAATATGTACAAATATCACACATCAATAAAAAATAAAGGGGAAGACATAGGTGTAGGCATAGATTTTTAAGCTGAGAACCTT
TTGACAGGGAAGACCAGGGATGGTTTTAGGGTGTGGGGAATCTGTGTAAGTTGGCCGTTAGCTGTCAACAGGCAACAATCACTGTCTCTCAGGTCCCTCC
CGCTCCCGGCCGTGTCCTGGTTCTACTTGCCGGCAGGGATCTAAGTTGGAATTCCTTTCCAACATGGAATCCTGAGTGTCCACCATGTCAAAATTGTGTC
AAAATTCGTCTGTATGCATTTTTCTTGGTAGAAGGGTCCCCAAAAGTCACCACATTCTCAGAGACTTCTGATCCCTAAAACTTTAGATCAACAGTCAATA
AAAAGGTCCCAGTTGTGTCTTAGTCCCCATGGCAGTACTTTTGAACATTTAAAGGTGGAGAATTGCTACTGAGGACTTTGTTCTGTGGATGAAACTTCGA
ATGAGGATTGTTGGTGAGAGTTGGATTGTTGTTGTATGAGGAAGTGCACCTTGGAATCTAATGGGGTCTTCACGGAGGGGRAGTCAGTTGTGGCACTGTT
TGTGTATTCCATTCATCATTCATCCCTCCATCCAAGCACCCACGTGGAGCTCAGAAAGATGACTAACACATACCCCCTGCTGCTCCTGTTTTTCTAAGGT
GTGCTGGGACCATTTACATTTAGTTCTTTGGAGAACACAACTACTTAGGATTTTTGTTGTTGTTGTTGTTTTCCTGTACATTGTCTTCCTATCTCCCTTC
TGGTACCCATTCCACCCTCTCTCCCCTTCCTCACTGCYGTTTCATAGGGGTTCTCAGATTCCTGTGAATAAAGCAAACCGATGTGCAGATATGTGTGCTT
ACACATGTGGACGTATTTGAGGAGGTAAGAGGGACCTGCACAAGGCTTTAGTGAGTAAGCAGAGAAGTTATTTATATATAGTGAGACCCAGTAAACGGCG
ATGTCGCAGGTGAGGCAGTTGATCTGGTCAGAATATGCCTCCAGAGACATCACTGGTGAGGCCTGCATGCATGTTGAAAAGAGTGTATCTTACATCTAGG
CTTGGGTTTCCCCCTGCAGCTCACTTATGAATAACAACGTATGCAAGAGATTTGAACATTTTCATGTTCAAATGAAACATGAAAAGGGAAAAAAATTTAA
GGTTACGGTTAAGTTTGGATTGTTTGCTTATTGGTTTGGTTATTGGCAATTGCTACAAAGTCCAGGGTGTTCTTTATCAGCAGCATGCTTATCAAGTTAC
TGACRTTCAAGCTGAGTTTCCTTCCCTCCCTCCTTCCTTCTTCTCCACTGACATTTTTTTTTTTTAAATAGGTAGGGAGGCATTTAATCTTGTAGCAGCA
TGAGAGTAGCTTAAATGTCCCTCCTCTAGCAGTATGTTTATAGCAGCGTAGGTAAGGAAAGCCCAGCTTGCACAGCTGAGCTCTAAAGTGCATACATCCC
TTAAGTTCTCATACACACACTGGCCAGTGAGACCCCCAAACTGCGAACAGAGAATTCTAATTGAAGTAAAAGCATGAAGTTTTTCTTTATTGACCATGTA
GCAACTGTGGAATCATTTGAAAATTTCTGAAAACATGAAACAGGTGTTTATAAGGAGTTTTCTGACTTAACAAAATTGGTGAAATACCAACTTTACTAAA
AACTRCTAATTCATAATTTTTTGATTAATAATTTCTAGTCTGGAAAAGAGGAATTTTTTGAAAATCACTGATATTTTTGATATACTGTTGTTTTCAAATT
GAGTTCTCATAGTGTGGTCGGCTCTGTTCTATGGAATTAATATTGAACAAGCTGTTCTGAACCTAAGAAAGGTTTGTAAAAAATAAACATGAAGGAAGAC
TTCATTCAAGAGGTCACTTAAAAATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTGTTATTTTAAGAATTAGGTCTCTGTTGGC
CAGGCTGGAGCACAGTGGCACAATCATAGCTCACTGAAGCCTCGAACTCCTGGGCTCAAACAGTCCTCCTCCCTCAGCCTCTCTAGCAGCTAGAACTGTA
TATGTACACCACCACGCCCAGCTAATTTTTTTTTTTAACTTTTTTTTACTTTTGAAGAGGTGAGATTATAGGCACTAGCCACTGTGCCCAGCCAAAAGGT
CACTTTTTTTTTTTCCTTGTTGGGGAGGAATCAATAACAGGAACACCAGTCATGATTTGGTGTTTTTTCCAGGGCAGACAAATAAAGATGATATTACGAT
GTTTGTTATCACAGAATATGTTTGCTTTTGATAGGGGTTGGGTGCTGAAGGGTAAGTGGTTAGAATCATTCTTTTTCTAAGGGTACAGTCATTAATACTC
CTTGATTCAAATCACTATTTAAGTTATAAATACATGGATTTATTTTCTAACCTCAAAATTATAGCATCTTACCACATATTTGCATGCCTCTCTTGAGTTA
ACTACTGGTGATGATTCTTAGCTCATCTGTGGCCAAGTATAGATAAGAGAATTAGAAAGTTGTTTCCAGCGTGTGAACTTTTATGATTTTCTTCCTTGGT
TACTGTACTCAGTTCTTTTTTGTTTTGTTTCTATACAAGATGAGTAGCTGGTGGCTCAGATGACCCCCGTGCTGCATGTACAGTCCCATCCAGAGAGTGT
TGGGGGCTGTGTAAACCTCGAGGCTCAGAGTGGCTGCCATTTTCCTAAAAGAGAAGTATGGCTGCTGTTGGCCTCAATGTTCAGCTTTACAAAAAYTCCC
GTAATTAATGAAGGTCAAGGCATCTGCAAACATTAATGGGGTCACAAGGGACAAATCAGTTCCTTGAGGGGAAGTTAAAATGCTAGATTGCTTACCGCTC
CAGACAAGGCRTTCTCAAGAAGTATGTGCAGTTTCAGCACAAGGATTAACACGGAGCATTACTTGAGCCATGGGGTGCCTTGGGGGACATGGATCAGCAA
CCATTTCCTTTTGCTCACAGCGCCCAGATTTTGTTCTGGGGACCACTCTTATCTGCACTGCATAGCAGCCACACATTTTGAGTGAAATTAACCCCAACTA
GCATTCGAGCGTCCTCCCCTCCCCCAAAAGATGGACTGTACCCCACACTGTAATCAGCAGGGAGGCATTTCCTGGCCACAGTTCAGGTTGGTCCCTTAGA
ACGCTGCTCAGAACTGTGGTTTGGTGGCTCTGGGAAGCAGTGCTCTCTCTGAGTGTGAATAAGGATCCACATAGCTCCAGTAGGTGTCTGACGACATCTT
GTGATCCGGGGGGAAGCCAGCCTAAGGACAAAGCCATTGTGGGGTGAGAGACAGGATTGGCACAATCACTGACAACCGCAGTAGTAGCCCAGAATAAACT
GTGCCTGAAACCTACCCTATTTTTGTATTTTTTCCAGTTTTAAGGAAATAAATCCCCTTTATTGTATACTCAGTTTGAATCAATTATTTTTATCTCTTTG
GGATTGGTTTTTGGTTAATCTCAGCAATTCAGAAATAGCTGAAGAACTATGCTGTGGGTTTAGACATCATGCYGTGACAAAAAGAAGAGGATCTTAGAAG
CGGGGGACATTCACTGAAGCTTTATGAGCCTTTCCTGAATCCCTTCAAATCAGATCAAGTTCTCTCTCTCCTGTGCTTAGAAATGCTGCCTGTTAAGTCA
CGTTGGCTACAGCACCCATCTCAGATCCCTTGTGATTCAGTTGTAAAGTAGATTCTTCTGGTCTGAATTAGAGGCCAAAACACAAGACAGATCAAAAATG
GGGAACATATTGCAAATTTCCCCACAAAAGACTGAAGGATGTGTTTACCATTGATTGCACAGGGACTGCAGTGTCTATGCTTTTAGGCATGGAAAATGCA
GGGTTTGACTATCGAGTTTAGATTTTAAAGTTGAGGATTGTTTCTTTAAGAAGAAATATAGAATATTATTCAGTCCTAAAAAGGAAGGACATTCTGACAC
AWGCAACAGCGTGAATGAACCTTGAGGACATTATGCCAGGTGAAATCAGCCAGTCACAAAAGGACAAATACTCTATGTGATTTCATTTAGATGAGGTTCC
CTGGAGTAGTCGCATTCAGAGACAGAAAACAGAATGATGGCTGCGGTGGTGGGGGGGTGGGGGGTGGTTTGGGGAAGGGAGTGGAGTGATGGTTTCACTT
TTGCAAGATGGAAAAAGTTCTGGAGGTGGCTGGCGGTGATGTTGTACAACAGTGTGAACTTACTTAACATTGCTGCACTCTATACTTAAAAATGGTTAAA
ACGGTACATTTTGTTATGGATATTTTCCCACAATTAAATTTAAAAGGAAGATGAGTAGTACTCGACTCATTATTGGATATTACATCAGGGAACTGGAGGT
AGGGTCTCACTTACTAGTTACGTAGCTCAGGAACCTGGAACCAGACTCCTTCTCCAGCTGGGCAGTCCCAGGTTTGAGTCCTGGCTCCACTGGAGGTTGT
CTGACTTGGAKGTTAATAATAACCTGCCTTAGTCCCAGAGTCCTTAGAGGGAAAATAGGTTATAATACCTGAGTCCATGTGTATCAAGCCATTGCTGGTT
CCAGGCCCCTGGAGCACTCAGAAATGGATGACCCCCAGCTGGGTCAGGCCAAGTCCTCCCTGCTGTAGCAAGCGGGACCATTGCCTCGTTCCCCCCACCT
CCACATGGAAGGTGCCTTTTGTGTCCTGCCCCATCTCTGTTTTAACAGTCACAAGACTGTAGGCAGATCTAAACTTGTTTGCACATTATTATCACCTGGG
GAGCTTTGACGATTCCAAAGCCAGGCTGCCACCCCCACCTCTAGACCAACTGAATCACCATTTCCAGGGGTGGGACTGGGCATCCGTGTTTTCGAGGCTT
CTGGGTGAGTACCTTGTGCAAACAAGTTCAGGGACCGTTGCCCTAGACACTGTTCTTCCCCTCATGTCTCAACCTGGGCCTCCTACCACTGCCACCACCA
CAGCTATGCCACCTGGGATGTGTCCCAAGCCCCCACTTGTCGGGGAAGCAGCTGGGGAGGGGTCTTTGGCCACCTCTGCAGCTATAAGGATCAGAGCAAC
ACCTGGCTTCTGTGCCTGTGGCCCCTGCTGGTGCTGGGTCCCTGGTCCGCACTGAAGGATCCAGGCAGAGTACAGTGGGTCTCCCAGGTCAGAATCCCCT
GGGTTGCTTGTTAAAGCTCACAGGGCTGGGCCCCACCCCAGGGTTTCCGATTCAGCAGGTCTCGGGCTGGTTGGATGATGAGAATTTGCATTTCTGTCAA
GTTCCCATGTGATCCTTTTTGGGGTCTGGGACCACACTTTGAGAACCACTGGTCTATTAAACAAATCTTTGCAAATTAGGGAGGTGTGTTGTGGGAGGAA
GAGACTGATAGTTGAAAGAATATTTGCCTAAATACAGTGCCTAGTATTTGCCAAGTACGCAGCCTTCTTTCTGGCTTTAATCATACAGACTTTCTCAATC
ACATGTAATTGCACATCCTTTAAGCAGCTTTTGACTGACTTTGGTTTTCTCTTTTGTGGTGATTTTCCTTAAACTCCCGAAGGGAGGGTGGAAGGGGCAA
GAGAAATTTTTATTTATTTATTTTAATTTAATTATTTTTTATTATTTATTTTTTTATTTTTTTTTTGAGATGGAGTCTTACTCTGTCGCCCAGGCTGGAG
TGCAGTGGTGTGATCTCAGGTCACTGCAACCTCCGCCTCCCGGGTTCCAGCAATTCTCCTGCCTCGGCCTTCTGAGTAACAGGGTCTATGGGCATGTGCC
ACCATGCCGGGCTAATTTTTTGTATTGGTAGTGGAGATGGGGTTTTGCCATGTTGGCCAGACTGGTCTTGAACTCCTGACCTCAGATGATCCACGCGCCT
TGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCGCCCAGCCAGATTTTATTTCTTTAAAAAAGAAACTTACTAGTTATCAGGACACTTGTGT
TCTTGGTACTTGATTTTGTCAGCATTATTTTTAAGAGCCTCKTCCCTCCTTCCCCCTACCTCCCTGTTGAGCCCAGGCTCTGAAATAACATAGGTGCATG
TGAAGTTCCCCTACCTGCCATTACCAGACATTGGTGCTGGGCGGCCCTCACCTCCACCTCCTCTCACCTGAGGCCACAGCGGTGTGCAAGGATGTGGTCT
GTCTTGAGTGTGTTTTCAAAGCAGCTGTTTGGTCTGTGCCTTGGATGTTTTTCCACAGATAAGCCCAAAAGAGAACCACATCTTAAAACGCCCGTGACCT
TGAATGGTCTTTCCGGAGGGGCGGCTGGATTTGTGCTCTCATCGTCTCAGGTATGTGTCAAGCCACTGTTGTTTCAGAGCTGGACACAGGTGCTTAGGAA
AATTCCTCACTGAAGGGTTTTCAGGATTTACAAGTTCTTGCTGTTTTTGTGACCTTSTGTGGTTTCTGGTTTCACAGAAGGCTTTGTTTCTTGGTTCTTG
TTGCTGCTTTCAGCCTTGGCCTGTAATCACTGGGCGCCAGGGAGGGCTGCGGTCTGTTTCCCGGGGTGTGCTCAGATACCGTGTCAGTTCACATGTGTTG
CTGCAGCGGCAGGGGGCCAGGCAGGAGGGGCGGGTGTCCTGAAGCACGCTCAATTTGCTGATCAGGGCCTTCACTTGGATTTTGCACTTGCCGCAGTGGA
GACATTCCTCGTAGCTACTCAGTGTGGTTTGTTTTAAGTGGGCCATCCGTTAATTCATGTGACCTGGAACTTGGTTAATGTACTTGCCAAGGTTAAAGTT
GAGACGCTGTTTGTTAAACCTTTCAAAGAGGGAAGAAGGTTGCCTTGAATTCAGTTCCAGGGTTTGGGAGTCTGAGAGGGAGGTGGTGAGGGGCCCGGGG
AGGCCCTGAGAAACAAAATGCTGGTTAAGGACACAGTCTGCTCACCGACCTCGGAAGTCTCTAGACGTCTAAAGAAGTCCAAGCAAGGAATGATGACCGA
AGAGGAACCTCAAGGGTGCAGGCGGCTCTGGGATCTCAGCACATCTCAGTGATGGAATGAGCTGCCGGGGAATGACCCCTGTGGGKGCTGTCCAAAGTCA
GAGCAGACACAAACGTAGCTCTCCAGGCCCCATACCTTGGTGGGCAAGAGGGCAGCAAGTGCATCCTCACAGTTGATGGGGAGAGCAGCATTTCAGCCTG
CAGAAAAGAGAACCACACAGATGTAAGATGAGGTCTGCACTCACTTGCCTGGTCATGCAGAGACGGAGCTGGGAGCAGCTGCATGACTTTTCAGAGAAGT
GGCACACGTTTACTGTAAGGGTCCCAAATGTAGACCACTGCAGATSGTAAGGTCTAGATGGAGGGACCAATAGTAGGGAAGTAGGGGAGAAGAAAGTAAA
ACCTTACAGTATAAAGACCCATAGATGCTCTTTTGTTTTTGATGTGTGTACGGGGGTTAGRTATTTATTGAGCACCTACTGCATGACAGAGTGTTCAGCA
ATGACAATGCAGAGCTTAATAAGAACAGGTTCTAGACTAATCTTTTAGGGGGTGAGGATAGAACAGAAATAGGTAATTATGTCCTGAGAACATGAGAGAG
TGTTGGTGGACAGAACGGCGATGTATCCCCAAGGGCAACTGAAGCCTTCACAGAAGATGCAAAGCCTGTACGTGGTCCTCGGAGTCATGCCACATGGTGA
CTGGTTATCTTAGTCGTAGGAAAACTGAGAAGCTTTGAGGCATGTTCTATCTGTCTTTGTGGGCATCATCTTCATTATTTGAACAATTCAGAGTGCTTGA
TGCCTTTTGCTTCGTTCTCACAATCCTTGACACTAAGCTGTGGGCTTGGGTTATAGTCACTCATTCTGTTATTCATGTCATTTTGCCTATCCTTCCACTT
CACAGATGAGAAGACTGAGACCCAGAGAGGGTCATGGTTTTCATTAGCCAAATGGTGCAGAAACCCAGTGGTCACAGTGGCYCTCTAGCTCTTTGTCACC
CACAGGGCCCTTGATAAGAGTACGGTCTTTCTCCAGGGGAGCAGGGTTGAGGAGTGGGGGCAGCCCTGGCCTGGGTGGCCATATCCTGATTTCCCCTCCC
TTGGCCCATAGCTCTCTATCTTGGGTGAGGTGAGAAAGTAAGGCTGCTCCTTGACTGTGGTCCCTTTTGTGTCTGTCCTGCACTGGGCCACCTTCCCAGG
GGCCTTGTGTCAGCCTGGTAGTGGTGCTAGTGGCCTTGAAGTGAGAGTGGGTGGATCACACATGGCAGATCTCTGGCAGTGACCTTTTCTGTGGATTTCC
GGTGACTGATGATAGCCTCTTTGGAAGTCAGCATATGCATAGCTCTCTGTCTTTTGAAAACAATGGAAAAACCCACCACCAGCCCCAAAACCAGCTGTCT
TTCTTCTTATGAATAGATATCCATGAAAAGCAGAAGAGTAGTTTCTTGTAAGTACTCTGGGAGTGCATAATACATTTTAAATAAGATTAAAAATTATGTT
TTATTCTTACTAGCATCACTGTCAGATAATTGAGCGTGAGAGCATTCAGTGCTGTGTGCTTGGTACGAAGTAGTAACATCAATTCAGTGTTCAGTACATC
CACTTTGTTCCAGAACAATGTATTCAAGGTCGGTGTATTTTGGCTGTGCCACAKAGTTCTGGAAATTCCCAAGAGAATAAGTTTTCACCTGTTATATAAT
CCAGCACAAGTGACTGTGTAGCAGCAACCTCATGTTTCATGATGACTTTAAAATGCAATTGATTCTAAAATTTAGCTTTTAAAAATTTCGACTTCAGATT
TTCTCTGAAGGTTTAAGGTAGGCTTCTCCTTTATTAATTTTTTCAAGAAATATTTAAGAACACTGCTCTGTGCTATGTACCATTCTAAGCACTTTACAGA
TACTAATTCATTTAATCCTCAGCCTGGTTAGGTAAGTACTGCTATTCCCACCGTACAGATGAGGAAACAGCCTCAGAGGAGTTAAAACAAGTTGCTCAGG
TTACACCGTCAGCGGTTTGGACTACTTCAGTTTCAGATAATCACTGTGAAATTTTACTGTTTTGAGCTACACGTTTCAAAATCTTTTCTGATGCGGAACT
ATCATTAAATCATATAATCCGCTTCTCTGGAGTCAGAGGTTGACAACACATTAGCACTTGACTCGAGCCTCTCCCTGGAGGAGGACATTCCGTCTGCGGG
GAGCCGAGTCCGAGGCTGGAGCAACTCTGGAACCACAGCCCTCCAGTAGAGGGCACACGAGAGCAGGCTATCTGTGGAGATAKCCTGTTGGCACAGGGGT
GAAGATGACAGAGGCGAACCCAAGCAAAGAGAGTTAATTAGCAGAGTTTGCCCTCCAGGCTCGGAGGGCAAGTCAGCCTGGGGACCTGGAGTTAGTTCCC
TTTTCAGCTGTGACCATTGAAGACATTCATCAAGTTCTCTGGCTCCGGGATGTCAGCTGTGGTAGTGACTTGCATGGGAGGTTATCCGACATACCTCACA
CACTTTAACTCCACCTCTTCAGAGTTTGTGGCCAAGAATGGAGCCAGGTGGCTATTTTTTTTTTTTAAATTTATGTAATAACAAACATTCGCATTTATTG
AAAACTTAAAGTATAATAAAAAAATAAATAAAAKAAAAAAAGAAAAAAGAAAACTTATTCCTGTGTCAGGCACTTTTCTAAGTGCTTTGCAGTGTATTGT
CTCATTTAATAGTTGTTTAAATTAACAGAGTAGGCCGGGTGTGGTGGCTCACATCTGTAATCCCAGTACTTTGGGAGGCTGAGGCGGGTGGATCACCTGA
GGTTGAGAGTTCAAGACCAGCCTGACAAACATGGAGAAACCTCATCTCTACTAAAAATACAAAATTAGCCACAGTGGTGGCGCATGCCTGTAATCCCAGC
TACTCAGGAGGMTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGTGGAGAGCCAAGATTGCATCATTGCACTCCAGCTTGGGCAAAAAGAAT
GAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAGAGTAAATAAAATTGTAAGGTGAATATGTTATCTACTTGATGGAATTTTTTAAACTACCTT
GAAAAGTTTTATAGTTTCCTATTTACAGATGAAATTAACATACTAATTATAAATCATGCCTCACTATTCACTTTAGGCAGTCTATCTCCTTAAGGATCTC
CTTACGGTTTAGATAGATAAGTGAATTGCTTAATGTTTTTGGAAGTAATAAAACTGCATTTCTTTTTAATTAAACAATCCAGATAACAAGAAGTAATTCT
AATAGGAAACTTGTAGGATGTATTTACAGAAAATCTACACAATCTTACTGAACAATGTAGAAAAGAAGATTTACCAGCCTGGGCAACATGGCAAGCTTTG
TCTCTTAAAAAACAAAACAAAACAAAATTTAGCCGGGAGTCGTGGCATACAATTGTCATGTCCACTTCTCAGGAGGCTGAGGTGGGAGGACTACTTGAGC
CCAGGAGGTCAAGACTACAGTGAGCCACATTTGTGCCGCTGTACTCCAGCCTGGATGACAGAGCGAGACCCTGTTTCAAAATAAAGAAAAAGAGATTTAA
ATGAAGCGAAATGCCATTTTCTCTAGGTGAGAAACTGGAATATTATCAATGTCACTTCTTCCCAAATTGATTTATAATTTAAAAACAATTTYAGTACTTC
TGCAGCTTGTTTGGAGCTTGATAAAATGATTGTAGAGTTTGTCTTGAAGCTTTAATAGTGAGGCAGGTTTAAAATTGGGGGCAAAAAAGAAATGGGTTTT
AGGGTGTAGAAGGGACTTGCCTGATCACTTTTGCTAGAAATAAATGTCCCTCCAAATTAAATTACTAATGTCGCACATCAGATCGTATTTAAATCCATTA
GAAGATTTTACTGTTCCATTAGAGCTACCCATAGCTGGTGAAGACTCTGCTTATAGTGGAACCTAGTTTCTCAGTTTTCCATTTATATTTATTTACCTGA
GCTTTTTGTAAAGTARTAAGTACTTGACTGAATTTCTGCTATTTATCAAATGCTTTTTGAATAGAAATAATGAGTTAATAACATTTAGCCTTTTTYGGTA
AATAGTATAAACAAGATAGGGCAAATATGTAAACTACTTAGAACTTTATCTACCTTGCATATTTTGTACCTCTTATTTGCATATGCATGTCACATGCTCC
TTATGTACCATGTGCTATTACTGTGCCGGGGTACTGGGGCTATATTGAGTCTATTTCCTGTCTTTGTAGACTTGATGGATAATTTGGACAGCATTGTGAT
ATTCCAGGTTTAAGAGTCTTAAGGTTCAAGACTACATTAAATGTTAATGTAGTCCAACATTTCTTGAACTCTGAAATCCTCTGAGCATCTTTTCATGCAC
TGGCCTAAAATGTTTTCATAGCCCAGCAAAAGGCTGATTACTTATTTCCCTCCTATTGATTTTTTTTGAGATGGGGTCTTGCTGTGTTGCCCTGTCTGCT
TGTGAACTCCTGACTCCGGTGATCCTCCTGCCTTGGTCTCCTGTTTATGTTTTAAATAGCATTTCTCAAACCTATTTGAGCAAATAACTTTCCTGTTAAT
ATGTAGTATTCCTTGAAAGAATTGAATTTGTGAGTCCCTAATCTAGACACTTTTAAAGAAGAAACAAAACTCAGTAACACATTTGGATAAAAACCTGAAT
ATGTCCATTTTGGGATGAAAGGAAGCAGCTTTGTTTACCATGTTGAATTAAGTGGAAAACATCTTATTTTAATCATGATTGATAGAAATCTAAATTTGTA
AATTCTGATTTTTATGTTTTTTTTACAATGAAAATACATTTTAAATGTCACCATCCCCTTCCCCATGAAGTCTTCATTACAACTAATTTTGAAAATACTC
TCTCATTTATTTATATTATATATGCATATGTTCTACTGTATAATTTTAAATACTTAAATGGGGTTATCTTTTTGCATTGTTCTGTATCTTTTTTCAGCTT
AATAATTTACCTTGCTTATAATTATTGTCAGTGCTTGCGGACCTGCTCTTTATGCATTTTTAACCATTGCATAAAGCTGGAATGATGGACATGATTTCTT
TAATCACTCCAAATTAGTCATTTAGTTGTTTCCAGTTTTTTAGTATTACAAATAACTCTGCAATAAACRTGTCTTGGGTATGCATTCTTTTAGTTTAAAA
TAGTCTTGTTCCTTCAGAAAGTTGCTCAATAATAGACTTAGAAATTCTTTTGTGCTAATTACTGTAATTGCTCATTTTAAGATCTCCTTTTATTGTTTTC
ATAGTATATAATCCTAAACTGTTACAACTGAAATAGTCCTTGAGCTAAGAAAGCAATGTGGCTTAAAGATAGGATTTCTAAATAGAGACTTAAAAATTAA
CCTTTTTGGAGCTGTGACTTCCTGATGAAGTGGCAGCACACAGGCTGAATATGTTCTACATCTGGATGGCCCAACATCATGATGCTGTGATTTGCGAGAA
GCTCTCTGCCTGCCTAGGCTGCTGGAGGATGGCAAGTTAATTTATTTGTTGTTGGGAGACCTCCCCCTGCCCCCATTAAAAAAATTATTTTGAAATACTT
GTAGATTCACATGCAGTTTCAAGAAATAATAAAGAGTAATTCCATGCACCATTTTCCTCCAATAGTAACATTTTGTGAAACTAGTACAGTATCACAGCTA
GGATATTGACGTTAATATAGTAAGGATATATGTCATCACCACAAAGGTACACCTACTTCCCTTCTATCTCTCCTCTCTCCTTCATGCCTGGTTACAAACT
AACCTGTTCTCTCTATATAAAATTTTATCATTTAATAATGTTCTGTAAATAGACTCATAGTATGTAACCTTTTGGAACTGAAGTTTTTCCATCAGCATAA
TTCCTTATAGATTCATTCAGGTTGCTGTGTTTATCAATAGTTTGTTTCTTTTTATTGCTGAATGGTATTCTGTGGTGTAAATGTACTRCATTCCATGAGC
ATGGCATGTCCCTCCATTTATTTAGTTTTTCTTTGATTTACTTCATTAGCATTTTGTAGTTTTTGTAGTCCTGTGTATGTTTTGGTAGAGTTACACCCTA
AGTATTTAATTTCTTTGCTCATTGCCAGTATATAGAGATACAACTTATTGAACTCACTTTTTAGTTTATGCTAGTTTATTACTAATTATCAATACATGCT
CAAGATATGTCAACTCCTTTTATTTTTATTAGGTGTCACTTGCTACATTTTGTGGAGAATACCGATGCTGTTGCTAGAAAGTGCTGCTGTCACAAAGTGG
GTTTATAGATAGTACCACGCTATCCTTCTTCCTAGGCTAGATTAGAAGTTATTTATGTGCTATATGCACATAGAGTTTTTGATTGGTCTATTGCAAATAC
TATGGCATCTGAAATTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCCCTCTGTTGCCCAGGCTAGAGTGCAATGGCGCAGTCTCAGCTCAC
TGCAGCCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTGCAGGCACCCGCAACCACACCCGGGTAATTTTTGTAT
TTGTAGTGGAGACAGAGTTTCACCGTGTTGACCAGGCTGGTTTCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCCCTGAATCCTATTTTT
AAGTATAAAAAGTCTTTTTTCAGCTCTGGATTATGGTGCTGCAAGCTGATATTCTTCTCATGGCAGTAAACAGAGAAGTCCTAGGGGTAATCTTACCCCT
CTGGGGAGTCCAGGATATCTGAGCATCTCCCTTTTCTTTTTACTGCTAGAAAGAATTTCTGCTAGTAGAATTTTTATTTTGGCCAACTCTGACCCCTTAG
GTTGATGTCAGAATGAGGTGTACCAACCTAGGTGGTCAGAGTTGGCTCAAAATACGACATTTTCCTGCTGAGCAATTTAGTCTAGGTTAAGTCATACTTG
ACCATATGCCCTAGTTTAGCGTCCAGTTTGTGAACATTCTTTACCTGAGTTATTGTAATTCTAATCTCTTATGTAAAACTGCAGGTAGTCAGCCCTTTGT
CTCCTTCAGTTCTACATCTGCGGATTCCTTCAACTACAGATTAAGAATATTTGGGGGGAAAAACAGTAAAAAAAAATTACAATACAACAATAAAGACAAC
AAATTTAAAAACTAGTATAACAACTTTTTATACAGCATTTGTATTGGGTATTGTAAGCTAGAGATGGCTGAAAGTCTATGAGACGATGTGCATACGTTAT
ATGCAAGCGCTGCCATTTTATTGCAGAGACTTGAGCATCCAAGGATTTTGTATCCGTGGGAGTCCTGGAACCAATCCCCCTTGGATACTGAGGGATGACT
GTATTTACAACATGTCTAGATTTTCGACAACTTGAATTAAACCAGAAAGAATATGAACACACAGAAGTTCATGTGTATATATATATGTGTATGTGTTTAG
AAGGGAGCAAGCTGTTAAACATGGGAAATAGTTGCTAGTAGTTTGTAATTTTATGATTACAATTTTAAAATTCAATTTTGCAACTGGAATTTGACTTGAT
TGGTTAGTGCCTTACAGTAATTAACCTCCAAATCATCAGAATGTCATCTTGTTATTTAGGTAATTGAATCTACTTTTCTTGTATACAGAATGCTTTTTGG
AAACAATACACTGTATATCTAGTTTGTACCAAGAACTAATTGTACACAGTCAGATACTTGCAGTTCTTTTGGACTTGAGTTTCTTTATCCTTCTATCAGA
TGTCACAATTCCCTCTTCCCTTTGTAGCATATGAAAGTAGTTGTGTGTGCACTGTATTTGAGAATGTCAAGTAATAGAATCTCTAGAAAACATTCATGAT
TTCAGTCCCAGGTAATCCAGAGTTAAAAATAATGTTCATAAGGAAGGGTAGCAAAATTTAGATTTTAATACTTATAGGAGGTGTGTTAATTGGCCCCAGG
GCCGCAGGCTTTAKCGTTCAGAGGACTTTAGCCCCAAAGGTTTTGTGGAACTTTTCCAGAGTCCTCACCAGTACATTGGGAATAAATGGAATGCCTTTGG
AAGTACTTTGAAGATTGAATTCGATAGTGTTGGTAAAGCAGTCTAGCCTGCTGTGATTGTGCTATTGATGCAAATATTCTCTAGCCTGTATTATTTTTCC
TTGGAGCTCAGGAAGTGATCCCCACCCACCTCAAGCAGTAAAGGAAAGAGAGGCAGGAGGGTCTGACCATGTGAGGTGCCCCAATAAAGCATCTGTATTG
TAAATCAGGAATGTAGGTATTGGGTTTCCTTAAAACAAAGCACACCTACGTGACCACTAGCTGGAGCACAATGTGGGCTCGGTCTGCTGAAAGAGTCAGT
TGGTTGCGGCTGTCTAATCCAATTATGGATGGTCCCAGCGCTCAGCCTTTCAGCTGCTGCCCCTCCCCTGCAGACTCTGCCTCTCTCACCCTCCCTTTTA
GGGCTTGGTCTGTGGCTACCCCAGAAATCACGTGCACTCCTAGGCTTCAGCGAGTACAGCCTTGTTAATCTCAGACATGGAAAGCAAGTTGCCTAGGTCT
ACAGATGAGTATTCAGTTTCCCCACCAGTTGACCTCAGTGCAGGTTTTGTTGGTTCCAGTCATTTGGGGTCAGCACCTGTTTGAAGCCAGGACACTTAGA
ACAAGGTGGAGGAAAACCTGAGGGTACATACAGTGTGGTTTCCTTGGCTCATCTAATGCAGAGTCAGAATGATTAGCCACATTGCAAATTGTCTTTACTC
AGTGGTTTAATTGTTAACCAGGGAGTTAATTTTTTTTTTTTTATTAAACAAAGAAGAAAACACCTCTAGATTTTTCTGGGACAGATGGCCCCATTGAAAG
AGGCCATGTGCTGCAGCGAATGGCCAGGCCTCGGGTGTGGCAAGTGCCTTCCAGCTCAGTGCTTGCTTTGTGCTCCTTTGCCTATTTGAAGACGTGGATG
AATCAAAATCTATAAGCCTATTTCAGTCAAGTATTCTAAGGAACCTGGAAACACAGGGGATTTCTCTGTTGCCTCTAATACAGTGAAAAACCACTGTCTT
TTTTTGTTGTTGTTGTTGCATTGGGGGAAGAAAGTCCAGGTTTGCATGTACATTTTCACTCATAGGATTTTTTTTTAGAATAGTTTGGGGAGGACATTGT
GCTCTGGCCAATAACTGGGCCAGTGTCTGGTCACAAGATGATCAGGCAGGTGCCTGCATGACTGTAGGACAGAGAACTGGGCAGCTAGAGAGCCTGTGTG
GAACGTGAAGCCTTTCCCCACTTTGTTGCCGTCCTAACCTTTTCTCAAGTCATGGAGAATTGATCCTTAGACATTCCTTACCTCTCTCACCCACTTGAGG
ATTGCTCAGAGCCTGGGTTTCGGATTGAAATAGCACTATTTCTGGTTGATGACGACATTCTGTGAGCCAGCARTGTAGTTTAAATATCCACAAGAGCGCC
CTGGTTCCATCAGCGCCCCTTCGTAATTGGTCATGAGACTTGGACCTCCTTCGGGGCTGGGACTCGGGCAAGGGAGTTGAGTAGAGCTTCTCTTTCTGGG
CTCCTGGGAAGGATTCATGGCATAAAAGTGGGACTTCAGCATTCTCTGGGCACACCTGTCTCTGTTTTTGTCCTCTCCTGAATCTTTCTGGCCTGCAGAG
CAGAATAAAGTCACTCTGTGCCAACCTGACTTTTGTTCATGACTATATTAGGGGCATGGATAGAAAGTGCCCCCATAGCACTCTCAGATAAAACACCTTC
AAACAAACCCAGAAACCCATGCTCACAAAACCACCCACCTTAAATTATGAAACTTTCAGGCTGACTAAATCCTGAAGGCGTTGGAGCGTGAGCAAAGGGA
AAATGGTGACACAGAGCTTTGCCCTTCCTAATCCAAATGAAAAGCTCTGTAACCCTCCCCCCACCTTTGCTATCAAGAAATGTTGGACCTTTGGGAAGCA
GATGTAGAGTATTGATCCTTAAAACAGAGACCTCTCACCCTAGGTCTCTTAAAACAGAGACCTTAAAACAGAGTATTGATCCTTAAAACAGAGACCTCTC
ACCCTAGGTCTCTTAAAACAGAGACCTCTCACCACTTTCTAACTGAAGTGGGTTCCACATTGGAAGTACTTTGCAGAAACTTCTATTACCGCAATTACTT
TTGCACCAACAAATAGTATCCTCAACTCAGAAGGAAAGAATTGGAACACTCAGCTGGAGGTGTCTGGTAGGGACATGTGTCTGCTTTTTGAATCAGTCGT
ATATGTTTTTGTTCCTGTGCCTGGAGGCCCTTTGTGGTGTGAGAACATTGAATTTGGAGAGGGAAAGGGAGACAAAAGAGAAATGGGGGTGATGCTTAAG
GGAAAGTAGGGTTTTTAGTTTGTTCACCACGCTTGATGGCAGATTTGCCTCTGGATCCTCAGGCCACGTTCCTATGGTGGGTAGGGATCTCTCTCTCTCT
CTCTCTCTCTGTSTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAAATAGTGATTTCTCTAAGTTAATAAAGAATGTGGGGTGACCTCCTACACATGCCC
GTATGCTATTGTGTAGGAACAAATGCATGGTAGGAATGGGTAGACTCTAATCTGAAAGCATCAAGTTGTATGCATCTTCTGCAATTAGGAATCTGCTCAC
CAGCACGAGTGCTGTGGTTTCTGTAGTTCTGGGATTCAGAGGAGCATTTTAAAGATGTAGGATGTTRGAGGAGGAGGTGCAGGGATCTCCCCTTGGGTAA
AGAGTGGGAGACAGTCTCTGAGTCATAATCTGGGACCAGTGGAAGGTCAAAGGGAAGAACTGTCCTGTTGTCTGCTAAGTCACAGGCTTCCTTCCTGTTC
TCTGAGCCCTGTCACTTACCCAAGGTGCAGCAACAATTAGTGTCTGTTTACACATAACAGACATCTCTTTCATAAAATAATTTTTAAGGCATTTGTTTGG
TAGAAGCTTCCCTGTTTGGGGGAGTCTTTTCCCTGAATGCATGTAAATAACTTCACAGTTTGCGCAAGTTTGCAAACGGTCTATACTGCTCAGCCTTGAT
TGGGCTACCCAAGGATGCGCCCGCCCTGCTGAGGTCTGACAGCTCTGGGAGGCCAGTGAGGCCTGTCCTAATCCCTGTTCTGGCCGGTGATTCAGCTCCA
GGTGGAGGCTGTGCAGAAACAGCCCCGGTCATCTTTGTGTGAAATACATTTGTCGTCTTCATTTTCTTTTTTCTTCTGCTGGTATCTTCATGGTTTTCAG
CAAAACTGTGTACATTACATTTTTTTCTTTACCATTTCTCCGTAGTTATTTCTAGCATTTTTTTTTCAGCTGATGAAAGCAAATGAAGAATTTKTATGCT
CCATAGTCAGTCAAACATTGATTTCTCTGACTTTTAACTTAGAAAGTCATTTTGCAGTGGCTTGCGTGTGTGTATTTAGACTGTGCTTCTACAAAAAAGC
ACACGTAGGCTTATGGCTCAGTTTACTTGTTCCAGCTCACTTTCCTGTTCATTTACCTTCTTGTAAAATGGAAAGACAAACATACCTTAAACTTAACTCA
GATCGTGATTGCCAACTTTGTTCTCTGTGTGTAAGTAGTTATATTATTCCTAGGTTATGGCATCTTGATTTATCTTTGAAAGAAGAAAACCCTCACTGAG
TTGACAGGGACACATTGTTYTAGGCTTCTACAATTGTGCTGATGACGCTTTTTCCCATTGGAATGACAGGGATGATAAGGTCGGCTGGCTAGCCTTTTTT
TAAAATGTAGAAAACCACAACTTTAATTTATAGCATCATCATTTTCCTTATGTATGTAGTATGTTTCAAAAATAATCCAATGTCAGATTCTTGCTTCTGT
GATCAAGGTCTTGTTTTTGCCCTTTCTTTGCTCACCACTTCCCTGCCCCTGACGCCGAGTCCTCGCCTTAGAGGAGGTGGTCAGCTTATATTGCAACATT
GAAAATGTTATACCTTACAAAGAAGGTGATATGCCATTTCTTAATTATAATGATGTGCAACAGTGACTTCTGATGTAGACCTTTAACATTGGGCCACGCA
GCTTTTTCTTTGGAGGAGGGGCATTTCAAATTGGATGATGCTCTTATAGTTTAATAAAGAAACAAGCAAACAAAATAGGCTATACAGGGCATGTGTTCTT
AAACTCTGTGACAGTGGAGGTGAACCCAGGCCCCTTTCATGGCCTTGGGAGGGTCCTCAGCTTTGGGGGCGAGTTATCTGGGTGGAAAAGCACCATGGGA
GGAAGAAGTCAGAGAGGCGGGTTGCTGGAGCTCAGAGAATAAAAGCAAGTCTCTGCCCTGAAAATGGCCCTGATTTGCTTCAGATGTACTCTGTCTGCCA
ACATTTAGTGTCTGTGACTTAGCCAAAGGAAATGTACATTAACTGTTCAGTTTCTATGTAGTTTGTGCTCTAGGATTTTGCCTCCGGAGGATTTCTGTGA
AGGAAGCTCTGTTCAAGTGGCTCTGTTCCACTTGGGTTTGGAAAGAGGCCGGGACAGGTGATTTCGAAGGAAGGATGAGGACAATGGAGGAGATGGGCTT
GGTCATTGCAGTGTGTGAGGTGGCCCAGCTTATCTGGCATTTTGGGGTACTATATGTGCCATATGAGGTGGGTATGGGTGTTTGAAGGGAAAGGGGGTGG
CCTGGGCAACTTGTGTCCTTGCCTAGAAAGATCATCACTCTTTTTATTTAAAAGAAACATGTGAAAGAGCCATCAGGGATAGTTTTGTCCTCCCTCTTCT
TACAAGTGATCATTCCCTTGGTAGGGCAGTGCCAGACCCTGCTTGTGAGCACAGAAAACGCCATAAGCTCCTCATGAAAGCATGTCTGGGGAAGCTTATC
TCAAATGCAGTTTGCACTTGCAAAGGTCCTGTGGTATAGCGGGGGAGCAGGGGAGATGGAGTCTGGGAGCGGTGAAGGCTGGGTCACTAGCTGGCTTTGT
AGCCTCTGGGCGTGTTGTTTTTATCCTCAGAGGGGCCACTGCACCTGCTCCATGGTCTCTTCCCACAGCAGACCCTTCTGTCTCTGTGCCTCGAGGGGCT
ATGTGGAAAGCAGAGAAAGACTCAACCAGAGTCTTCCCTTAAGGAAATCGGAAGGAAAACAAAATTAACGGCATTAGAACTGAGTATGTATTAAAACTTC
TACTGTCTTACAAAATTTAGTTTTCTTTCTTATTTTTCTTTCCATGTTGACTCAGTAGGTAAATGGACTAAACACACATTCATTTAGGGCAGGAAGAACT
TCATCATTTGATTACCTTTAGTTCATTTACCTTATAATGCCTAAAACAAAGCAGAAAGTGACGTTGGTTAATCAAAAAGATCACTTTCTTTTTTGTGTTC
TTTTGTGCTATTGTGAGATGCCTCTTCTCCAGCAAGCTGTAGTTGTTCACAAAGTAAAGCTGTTCCTAAGCCTTCATTAGATTGAAGCTTGTCCCAGACT
TTCTTTAAAGAAGTTTGCATAGCTTAGTTCATGCTCAGATGATTCAGTGATGATGATGGGTTGTTGGTTAGAAATTACTTAAAAATGCCTAATACATTAT
TGACTGATAAATGTTAAGACATATTCTTTAAGGGTCTAAATCCTATTCTTGTGGAGCTGCAAAGATCTTGGGGGTGTGGTTGCCCTTGTCTGTTGCATCA
TCTTTCAAATGCAACAGCTGTAATGATATTCTGTATCTTGAAAAACTTAAAAAAGCAACAACTAACTTATTTGTATCTTTTCCTCTAATATTTAGTTTTT
ACTTCACTTGTAACTTATTACATGTATTAAGGAGTTTATTTTTWTATGACATTTTACTCATAAAAGGATGAAACCAAGATTGGTGATCTGTTCACATAGA
TTAAAATCCTGTTTGTGACCACTTAGGTGTGTAATGTGTGACTTGTGGACTGTGTCAGAGGAAGATTTTCCAACCAAAAGTACCCATTGGTATCACAGAT
GAAAAGTCCTTATACCATCTGAAAAAAAGTAGAAGGTGGGGAGAAGCTTGAAAACCTAAGGAGGCCATTAGGAAAGGCTGTATATTTTCTGATTCCGTTT
AAAATTTTAAGTTGGTGAAAATACTATGTGATCGAAGGATGAACATATTTTAGTAAATAGAGTTATAGTGCTACAATGAGATAAATTTCACAGGTAAATG
TGACGTAGCTAATGCATAATCATTCTTTGTGTTGCATGGCAATTCTGTACAAATRGAAGGTAGCATGTTTAACGTYCCTGTTATTTCACATAAATACAGA
CTGAGAGTTTCAGTGGTCTGGTTTGAAAGGGAAGAAATAGAAGAAGGAAGGAGAGAAGTTGGCAGAGGAGCAATCTGCTCTAATATCCTCCAGTACACAA
TCTAGCTATAGGTCCTCACCTGGCAGGGTTTGAGGATCAGAATGGTGGCTCAGGTTTAGACAATTCTCCCTGTTTGTGGGGCCCAGCAGCTAGTTAAGAG
AAAAATCTTTTTTCCTTCCCTATTACCCTATAAGGTCCCCAAATTCATTGTATGTAGAATACTTGAGTCAGAATAACTTTCCTAACACTTAGGTTTCAGG
TTTGTTAGGTATGCCTGACAGCTCTCTTATCAACTCCCATTTATTTGCTAATCTAAATGAAAGTTTGATGGTAGAGTATTGTAAATGTAGGGAAGGTGAA
GTGTTCACCTTCAGATGGTAGCTATTTATCTCAGCAAGAAGAGCAGATGACTAACACCCAAATACATAACCATTATTATATRACTTAGCATTTATAAGGC
ATTTCTATGCATCCTGAGAGACTAGAGCACTCTCAAATGAGGTTTCAGAGTAAGATTMATCTTTGCAAATGAAGACAAATTAGCAAAATCTTCCTATTTT
TAAAGTGTGCCTTTTGATTTGATACCTATTTATTTGTTTGGAAAGAAGCTTTTAAAATCAAAACCATGAATCTGTGGTTATCTTCAAAGGATAAATTATG
RTAGGTRGTTGTTACCCAGGTTACCATTTTAAGATGATTATGGCTGGCCCAAATTAGGGGATCTTTTCATATATGTATTATATATTTTAACTTCAGTCTT
TTAAAAATGAATATTCCTAGGTGGCATGGGAGGGTGGGAAGGTCAAAAGCCCAAACTTCTCTTACTTATTGGCTGCTTCCTTGAACTTAGCGTTTTTCTT
TTGGAAAAGTGAGCTTTTGTTTTTGGATATTTTGTACTGATACTCTGTGCCTACACAGATTTTGTTTTGGTTCAATAAGAGTTGATATTTTGCCAGGGGT
TGCCTCCCATGAGATTCCAAATACAGATGTAAGTTTAACAGGCTTCTGAACTGGATGTTTCTATGCGCTGAAACTCTGTAAACGCGTGTAGCTTTGTCTA
CCATTGTATATTGCTGTATTGATTTGTTGGGTTGTTTTTTTTCTTCCTCCTGAAAAGCTCTGGTCTGTCCTCTGCTGATACAAAGACTGGTCCATTCCCC
AGGGTCACTGCAAGAGAACCTCCAGGGCCTGGCCACTGTTAGATATTACTAATCTGTGAAGTTGCTCCAAATTCTCTTGCCCCGATCATAAAGTTCCATT
GAGTTCAATTTTATGTGAAGGTTCTTTGTCAAAAGGAATAAATGTTTATTCAACAGATCCAGTTGTTGTCAGCATTGACAGATGTGAAAATTAGCAAATA
GCAAGAAGTCTCCCCTTTAGAAAAGGAAAACAAGTACTTAAAAAAAATCTTGTGTTGTCAATAAACAAGTCCATTTTAAAAGCATCTTTGAAGGTGTGTA
ATGAAAATGGAGGCCTTAGGTTGTATCAGGGTTTATGAGGAGCCAGCTTATMTGTAATCAGATGTTCCTGTTACTGTTATCACTGTAGTATAGGGCTTAG
TTCTGCCCTTTAAGTCACAGACTCAAGTTACTCCTGATTTTACCAGCAGTCAGAATACATTTTTCTTTAAAAGGAAAAGAGACGATATCCYAGTGCTTCT
CTATACTAAAACAGGAAGAGAAGCTTCCTTGTTGAAGTGACAGTTTAGATGTTGTTATTTTGACAGAAATATTAGTAAATATGTCACATTATCCCTTGCT
AAATATTTATAGCATAGAACGTATACTCTGATGCATAATATTTTATGAAAGAAATATCTTTTGCCTCAAATCCCTTTCACTGTTTTGACATGAATCTATA
ATTTATACCCAGAGGTCTGCAGGAAAAAGACTTTATTAAGACCCTTTTATTTCAGCCAAGATAAAACTCCATCCTAAGAGGGAACACCCTGGAATCTTTG
AGACCCTTAAAGGTGGGGTATTCTGAAATACCTGTGTTCGTTCCTTTGCTAGAATTTAGATAGCTTCACTTTTGCAAAAAGGCACAAAATGAGGGCAATT
TTTGATGGAAAATTTTAGTTTTTGAGATGAAGCAGGGGGCACAGTGGCGAAGCGCCCTATCTTAGCACTTAGGTAGCAGCCGTAACAAGTGTCCTGGGTA
TTCCTCCCTAGAAAGGAAATGTTGGTCACAAATGGCAGTGTCCTCTGCATTCAGTTCAGCTATGTGACTGAAAGACACTGTTCTTCAGCAGCTGTGAGTT
TACAAGATGTCGCACATTGAGTATTTTTCTCTAGCTTATTTAGAAACGCCAGTCTAGACTTCCGCAGTTTTGGATTCGTGGSCATAGTTTTGGCCTTTAT
TAGATGGCCCTCAAAGGTACTTTTCAGGTGGACATTGATTTCATGCCAGCTGTCAGAGATGATTTTCCCTAGAAATGGCTGGGTATATGGAGACATTCTG
TATTAGAATGGAGGTATACACCCATCTCTTCTGTATTAGAGAGCAGGTGTTGCCCCCCGTGGTGCTCAGATTGCTKAGTGTGAGAAGGAAAAGACCAGTG
ATAAGAGGAGGAAAACTGCGCCTTCCATGTAGCTCAGTTAACAGCATCATGATTCTCCAGGATGGCCCCATTTCTGTTTTTATTTACAAAATGGACTTGA
GAATTAATTAGTAAGCAAACTGTCTCCATTAGGTAAGTGGCATTCTGATTTGTCTGTGTAAAGTTCCATTTCCCAAGTAATGTGTTCCAAAGCATTTTTA
TGTACAACTACTGGAAACTGCTGTACAAATGTTTGCTGCTATTTGGTTGTAACAAAATCAGTAATGAGTTTCAAAATGGAATAATTTCAGAGCCCTTCAT
CTACAGTAGTTTGGGAAACACTTGAAATACCAAGTGATCTGAATTCACTACAAGCTCTCCAACTGGAAAATGTGCCTGGTGTCGTCTTCAAGCAAGAATC
CCCCGCCCCTTAACCACTGCTGCTGTGGACTTGAGTCTTCAACCTTGTTTTGTAGACTTTAGCATTTGTATTGTGTCATCCTTGACACCTCCCCAACCCC
AGCCTTCCCAGCTTTGATTGCTTACCTTAGCAATGCTCTCAGCTTGGACCAGAAGGCACGGATGTTTCCCTGACCTTAACCTCACTGTGTATCAGCTCAA
GGAAGAAGCCAGATTTGCTGATGTTGTAAGCACTAAATTATGTTCATAACATTTAACCCTCACATCCATAAGCAAACTAAGTGGGAAAATAAAGATTGAC
TATTGTAGCAGTCATAGATTGTTTAGGAAGCAGCAAAAAGGCAAATTTTTCTTTAAAGTTCAAAATGGGGCGAAAGAGGGTAGGAAAGGAAAAGTTTATT
AAGAAAATTGTATACTACATTAATTTGACTTTGCCGTCTAGACTTAAATTAAATTCATGTATTTTTTTGGTCTTAACACATTGACATGTATCAGTAAGTT
AAAAACTTAAAAATACACAAATGATTAGATTAGCATTATTATGTGTTTCTTTCTTGTTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGAGATGGAGTCTC
ACTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCGAGCAG
CTGGGACTGCAGGCACCCGCAACCACCCCTGGCTAATTTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTGTGTTAGCCAGGATGGTCTTGATCTCCT
GACCTCGTGATCCACCTGTCTCGGCCTCCCAACGTGCTGGGATTACAGTCATGAGCCACTGCGCCTATTATGTGTTTCTTATAGAAAATCTCTCTAATTT
TTTAATAAGCATGTTTTTACAAATGCTGTTTCCTGAGAACTGTCGCACCACATGCGACATGCCATGCATGCGACTGGAACATGCCAGATATTTGTGGGTG
GTCCCTTCGTGTCACCTGTGCCTTCTTACCAAGTAATTTGAAACACCCGTGTAAACTACCTTTGGCAAATAGGATAGCTAAATCACCGCTAAGATTTATA
ATTTACTTTTTGGATATCTGAAACATCAACARTAYAGCCATCCATGGCGTGTTCCTCTGGAGTGTGGTCCGTGCCRTCTCTGCCTGCTCCATCTGGCTGA
TCCCAGGCAGGCAGCTCAGCTCTCAGCAGACACAGATCCCCAGCACATATGAACGTGAAAGAGGCTTCTCCRTGGGAGCGAAGTGGCCAGCAGGTGTCAC
AGGCTGTGTGGGCCCAGCATCGTGTGGGCACTGCTGGGGGAATCCCATCACAGCATGTGCTGGCGTTAGTAGTAGACTGTGTGTGTCTCAGAGGGTCCAG
AAAGTAATACAGTAAAGGCGCCTGGGGGTGTGTGGGGGTGGTTGGTTGGGGTTTGCTTGTTAGTTTGTTGTAAAAGCCCAGCTTTTCATTCTTGGAAAGA
TTTCAGCCAACTCGAGAGGGTKACCTGCCAGGAATGCTGCAGAAGCAAGAACTCAGTGGGTGAGCACTTCCATTTCTTCAACAAATGCTTCTGAGTCCCT
GACCTGTGCCAGGTGCTCTTCTTGAGCTGAGAATCCTGCAGGGARAAAAGAGATAAAGACCCCATAGTCCTGTGGTTTACCTTCTAATGAGCATACTTTT
GTCGATCAAACAGGGTGACCTCTCTGGTGTCTCTGCACACTACCTGTATGGTCTTTSCGTAGCTGATGGGGTCTCCTGACTAGTGATTGGTGATTTTAAT
CTGGATTTTGCCACAGCACTTATTTTCTAACATATGACTTAATTTACTTAATAATTGTGTCTATTGAATGTATTCTTATACATACACACAGGCATGCACA
CACGGACACGAATATAAGCTTTACAAGGACAGAAACCTTATYTTTTATTTATTTCTTCCTTGTGTATCCTGAGCACTGAGAACAGCCTGGCACAAAGCAG
GGCTCAGGAAATGTTTGCTGAATGCATGTTCACACTGGATGTGTTCGAAGGCTCTCACTCGCGACTCCTGTTGGCTTGTGGAGAGTGCATCTAGCTGTAA
AAGCCATGGTGCTTGGATGTCTTGGGGTGCTGAGCCTGTTCCCCCCTCATTTGGGGGTGTGGTGCTATGCTGGCGTTTGGGTCCATGCCCCGCATTTCTG
ATGGCTGCCCCATCTGCYCTGTGTGGGGTGGCAGAGTTCTGTGTACACAGAGTTACATTTCGTTGTTCCTGGCTTCTCTATGGATGACAGCAGCACTGAT
AAATGCCACACCTGCTTTCTCAGCAGTCTTGCGGGGTGATTTTTCCTCTTAAGGAAGTCACCTGATGTCCATGCTGAGTAGGAAATGCATCCAAAGCTTT
GGGAGCTCAGTGTTGGCCCCTGGGCTGCAGCCCGAGCCCCGTTTTAGAGCTGTGTCTCCCAGGCAGCTGTGATGACTGCTCGAAAGCCCACTCAGGGGGA
AGGTAAACCTGATGCCCGGGTGTTTGGACAGTGAGCATGGCGAGTGGACCGTTACCTGTGCATAGAGTTGTTCATATGTGGTGACAGATGTTGGGCTGTT
ATTTAGTAACTTCAAATTGTTTTTCTTTGCGTCGGAGCCATGTCTAGGTTCTGAGTGCTTCTCCCAGGTCAGATGGAGAGCTCTTCATTTGGGGTTGGGG
GAGCGGGGTGGTGTTTTCAGGTGCCCAAGGCATTCCATGCACATGCACCTGCAGGGTATGTGTCATCTGGGGTAAGACAGAGCCCTCCCGGTTCCTCTTC
TGGATGTGTGCTTTTAGTTTTTAAAGAATGTCAGTATATACATTGCCATTTATTCAACAAATACGGACTGAGCATTCTGTTGTGCTGACGTAGCTACTTG
GGGTTACAGAGACAAAGCCAACTCCATTCTCCAAATGGAAAACAAATGGAAACATTCTAGTGGTAGAAACAGACAACAAACAAGTAGACAGAAAATAATG
TCAGACAGTGGTAAGTGCTATGAAAAAAATACAGACTCACTGATTGTGATGGAGACTTTTAAGTTGGATTCTCATAGAAGGCCTTTCTGAAGAGGGGACA
TTTGCCCTGCCACTGTGAATCAGCCATGAGAAGACGTGGAGAGGAACATGAGGTGGTAGGCCCCAGCGAGGGAAAGATCTCCATGATGGCATCGATTATT
CGCTCCACAAATATTATTGAGCACCTGCTGTGTGCCAGGCACTGTTCCTGGTGTCAGGGTTATAGAAGTGGACAAAATGAGGCCTCTGCCTCTGTGGAGC
TTTTATTAAAGTAGGGAAGGGGATGGGAGGGCTGGGTCACATGTTAGGTGTGGGGTACAGGGTACGTGGTGCCAGGCAGGTATCCGGGTACCTTTTTACG
TAGGGTATTCAGAGAAGGTCTCTAGAGAGGTGACATTTGGACGAAGACCTAAAGGAAAGGGARGGGAAAGGCGAGGAGCTTGGAGAGCTTGGTGCATCTT
GGTGGGGGATGGGGTAAACTGAGTCAGTTATGTAGGGCCCTGGAGGCCACGGTGAGGACTTCGGCTTTGACTCTGAAAGGAGATGGCAGAGTTTGGAGCT
GGTGTGTACGTTAACAGGACCATGCTGGCAGCTGCGTTAAGAGAGACTGTAAGGGCAAGGACAGAAGTAGAGAGACCAGTAGGAGTAGGCTGTTGCCCCA
GTGTAGGGCAGAGAAGATGAACCTTAGACCAGGATGGTGGAGATGGTCAGTGGAGAGAAGTAGTCAGAGTCTGGAAGCACCAGCAAGACTGTCTGGTGCA
CACAGGATGCACGTGGGATGTCCAGTGAGGAGGATGAGATGAGGTTGGGTGGCTGGAGCCTGGTGAGTGACAGGCAGAGAGGGCTATTAGATCACATKGG
CCCTGGAGCCATGGTGAAGAATTTGGATTTTGTTCTCTGTGTTGGAAAGTTAGCAGAGAGCTTATATGGGGGGTGAGATGGCATAGGGACAATGTTAATA
ACAGCAACGAATATTTATTGAGCACTTACTGTGTACCAGCTGTTGCAACAGCCTCTCAAGGGTTCGTTCTGCTATTAGAGCCATGTTATAAATGAAGAAA
CTGAGGCACAGAGAGGTTAGCTAACTTGTCCAAGATCACACAGTTAGGGACAAACTTGACAGAATTATGTGTGTCCTGGTATGTATTTCAGTTTTCTTTA
GGGAAGGTACCACAACTTTGGGTAACTATGCCCCTACCCCAGGATTTAAGATGTTTTGATGGTTGAAGGGCGATGTTTAAGAGTGGGACCAGAGAATATT
GAGGTATTAAAATCTCACTAAATCTGTATTCATTATATCTGTATTCATGGTATAATTCATGTGCCTCCCCCTTTCGTGAGCCCCTCAAACATGATCATGG
ATATGTTTTCTCCACCCGTAAAGTACGTTCATATTCATAGAAAACCCACAGAGAACTGCAGACCTGAAGGTTTCTTTGTAAGAGCTTTCATTGGATAGCT
AGAAGGGCTGCAGTAAGTTTAAAAAAAAAAAACCCAAACCACCCTGGATTCCAGGCTGCACAGCCTCTAGGAGGTGTGGGTAATCCCTTTATAAAGCTTG
GCATAATTTCTGTTAAGACTTGCTTATTTTGCTCTCAGCTTGCTATCTTGATATGTTTGCCTTTGAGGAGGTTAGAGTTATTGTGATTTAATCACAGACC
ATGTATTTCGCAAGATTCATTTGGTATCTCCAGCTTGTTTTCTTGTTTCCTCGGCTGTCAGTCCACAGGCAGAGGTGGGAGGCGGCCGGCATGGGGGACC
GAGTGTGGTAGAAAGGAGTGTTTACTTAGCGGAGGGGAGTGCTGAGGGCTGCTGTTACCTTCCCAGAATGGCTGATCCCCAGCAGTGATGAGCAGGCTGG
GATCGTGGTGTTAAATTTGGTATTTTCTAGAAATATATAGCAGGCTTTCCCCTCCACCTGCCCCCCTTCAAGGTTTCGAAGCCTTGTGTTTTGCAAGAGT
TGAGAGGGGAACAGTTAATAGCTTGGATTATCTTGTCTCTGGAGAGAATTTATGTATCAATTCACCGGAAGACTGCTCTGGTATTAGGGCAACAAGAATG
GTTTTATTTCTCCCTTCCTTTCCTGCACTCTGTTCTTATGTAATTCTTGTATTAAAACCATTCCTGGTAAATTAGAACATGCTCTTGTATTTGGGCCCTG
CTTTGAAGAAGGCTGCTGAGTCTAAAAAGTTTGGTAGCCTCTCGTTTCTCATGGTGATTTCTGAGATTTCTAGGGACTTGGTGTTTTACAGAGCTTGTTG
AGTTGCACAAACCAGCCTCCTTGGCCCTTCTAGGTGATAAAAGATGCTGGGCTGGGAGGGCAGCTGTGGAAAAGGGTGTGGGCGAGGGAGACAGTGCTTC
ATCCTGCCTGGATGAAGCATGTTGGTTGTTGGTTTATTCATAAATTAGAAAAATATATTAAGAATTGAAGTTGTTCCTTATCTCATAAGATTTCTAGCAG
GCTGCATAAAGTCTGTAGATGGTAATATCCATTTAAAAGTGGACAATGAAAAAATTACCTCTTTGGGAGTTGTGTTGCTATCTCTACCCCAATTTGGCAA
TCTTTAATTAACTTGGCAACCCCCGTTTTACCAACAAAGAACAACCTTTGATTAAAAAAAAATAAAATGTCAGGGAGTGAAAGATACGGAGTGTGACTCA
GCAGATGGGAATTCCTTTAATAACACGCTGGGTGTTAGCGTTAGAACCGCCACTGAACAGCTCTGCAGGATGCCCTCCCAGCCCTCCCTCCRCCTATTTG
GATTAGACCAGGAGACTGCAGCAAACTTCTCAAGGGGAGGCGAACTTGGTGTTGGTATCTGAGCGATTGTCTGTTTCAATTGTTTCCCTCTGTCTTGGAA
AACACCGGCACAAAACACAAATCCAGTCCCAGTTCCTGCAGCTGCTGGGGCGAAGCAGGCTTTTTATGAATGAGGCCCAGAAGGGGGAGGAGAGGGCTTG
TGTTACAGCAGCAGTTGGGTAATACATTTCATTCACTTGCAGCCATCTAGCCCAGGCTTCATTTTAAAGGATATTGTTCATTTTTGGCAATTCAGATTAG
ACTTTTTTTCTTCCTTGTGCAACTGTTGGTAAGTTAGAACACGAAGCATGTGTGTGCATTCTTTTTGCTTGCTTTTTTGAGTGTTTGCTCCTTTAGTTGG
GATAAATGGTAGGAGAGGTAGGAAGGCTTTGTCATCCCCGGGGACCTTGCTTACTTCTCCCTCCCAGCACCACTTAAGAGAAGAGGAGGTGGCCTCCCTC
TCCCCAACCTCAGAGCCCTCAAAGCCCTTGATAGTGAGCCTGAGCACTTGTTAGGAGGTGACTTCTACCTGGGGTGTGCTGGGGTCCACATGTGCCAGTC
TCTCTGCCCTGCTCCCCGTGAGCGGCTCTTTATTTGTGGCCCTTGAGGCCCCATTGTTGTGGCCACCAAAACCTGAATTGGAAGCTGTGTGACAATGCTG
GTCCCCCTCCCTGCACTGCTTCCTGCTGGGGGCAGAACAAAGAGAGCGGGCATTGTCTCTGGCATAAATGAACCTCTATCAAAACAAACACCCAGAGAGA
GGGGCAGCCTGRTTACAGCTGCCTGTGTGAGCCTCGACAGTGGGCCTCATTCCTCACAAAGGGAGCTTTGAGGCCCGGAAGAGGCCTTTCCTTGATGATC
GAGCTGTGCACAGGGAGCAAACCCCAAGCCGACTGCTTGTCTGTGCCACCCTCAAACAATGATTTCCCCAAATTGGACAGCCTGGGTTTGTATCCTTGAG
CACRGTTTTGGGAAGAGCATTCTGCATGAGGCATTGTAGCTATGTRTATGGAGTATAATTCTGTTTTCAGGTTGCTCTGCCACAGAGGTTAAGAACTCCC
TCTTCCAAGGTAGACATTGAGAACAGAGACGACCACACTGGGTTTTCACTGCAGCTTTTAAACAGGATGACTCCCAGCCCCCATCCCCGTGGCTAGCAGC
AAGCAGGGACTCTGAAACACTGCAAGCCAATGGACTGAGCATCTTACTTTTGCTGTCCGTGTTTTGGTGTTTTGTAAACCCATCTGGTAATGACCCTGAT
GCCCCATGTCCCAGCAAGGGCATAGGTACCTGCCATTGTGCACCAAAGTCCCTTTCCTCATGGCCCTGGCTGTTCTCCTGCATGGGGTCATGTGTGTCCC
GTTACCAAGTTRTGGCCCCTTTTCAACCTTGAGTGCCACATCTGGGCTGTTGTAGGCATGGGTAGTACAAGCTGGGTTTGTTACTCTAAAAATGAAAGGG
AGGATCAGTTGTTAATACCTTCCTGTAGGTGCGAGAGGGAATGAGTTGAGGATTCGATCACTGTTTATAGCCAGTCTCGGATCCTGATTGTGAAGTCATT
CTTTCTGGATAATAACTACTATATCCAGCATCTTGAGAGTATAAAATAAAGGCACATGTTGTACGTCATCTCTGAGATGTAGCGATGGCTTGGACTTTGG
AGGCTGATGAGAGAAAACTCATGGTGGTGAGCTGGAGCAGGGTGTGGCTGGCGGATTCTGAAGGTGCTAGCCCTAGTTTTACAGCTGACCAGGGAAGGTC
ATTGAACCCTACAGTCTTGGCCCTGAGAGAACCTTGGAGGACTTAAGGATGGAGAAAGGTGACAAAAGAGATGCAAGCCAACAGCAATTTTGTGGAACAA
AGTGTGTACAGGATTTGAACTTAACTCTGCGAAAGACAGGGGTTGCTTGTATGCACGAATTCACATCTGAAGAATGCATCTGATTGTGGCTGCAATTTCT
GTGGACGTGCAAACATCTACCTGTGCATTTTATTTGTCTAGCATCATTGAAAGAGTTTTTTGCTTGAGTTGATTTCCCAGGTAATTGAAGCTTACTTCTC
AAAGCACAAGATATTTTTTCTCATATATTARCGGTCTTAAGTGAGTGAGACCCCTAAGAATTCTTAATTCCTTTATCTTACTTTTCCTACAGGAAACTTA
TTATGTTTTCCTAGATAGGAATTGTGCTACCAAAAATGAAAAGTAAACGTAATATGTAATGTTCTACTGGTAATTGTTTCCATTTTAGGTTGACACCGAA
CTAATGATATTTAAATTGTAGCTGACTTGAAACACAGTGAAAAAATGGTTTCCTGCTGTTTTTTTAAAGCTGGATTCAGTAACATGAAGGTAATTAAAAA
TGTACAGATCTCAGTAATAGACAGTCATATGTTGCTTAATGACAGGGATATGTTCTGAGAAATGCATTGTTAGGTAATTGGATTTTATCATTATGCCAGC
ATCATACAGCGTACTTTCACAAACTTAGTTGATACAGCCTACTACACACCTAGGGTCCATGGTATAGCCTGTTGCTCGTAGGCTGCAAACCCGTGGAGCA
TGTTGCTGTTCTGAACGCTGTAGGCAATGGTAACACAGTGGTAAGTATTTCTGAATCTAAGCATAGATAAGGTGCAGTAAAAAATATAGTGTAAAAGATA
AAAAAATGGTACACCTGTATAGGGCACTTACTAGGAGTCAGGCTTGCAGGACCAGAAGTTGCTCTGGGTGAGTCAGTGAGTCAGTGGTGAGTAATTGTGA
AGGCCTGGATAAATACTGTACACTTAGGCTACACTTAGTGAATATTACATTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATGAGAT
AGGGTCTTGCTCTGTCCCCCAGGCTGGAGTGCAGTGGTGCAATCACAGCTCACTGCAGCCTCGACCGCCAAGGCTCAAGCGATCCTCTTACCTCAGCCTC
CTGAGTAGCCGGGACTAGACGCACACACCACCATGCCTGACTAATTTTTGTGTTTGTAGTAGGGATGAGGTTTCACCATGTTGCCCAGGCTGATCTCAAA
CTCCTGACCTTAAGTGATCCACCCGCCTCGGCCTCCCAAAGCACTGGGATTACAGGCATGAGCCACGGCGCCTGGCCACAGTTAACTTTTTTAATAAGTA
GAAGGTGTACACTCTTAAATAACTATAAAAAGTATAGTAAATACATAAACCAATAACATAGTCACTTATTATCATTATCACATATTATGTACTGTGCACT
GTTGTACGTGCTGTACTTTTATACAGCTGGCAGCACGGGTTTGTTTGCACCAGCATCCCCACAAACATATGAGGAACATGTACATCTTACCACGGTTGCA
ATGTCACTAGGCAATAGGAATTTTCTAGCTATATTCTATCCTTACAGGACCACTATCGTATATGCACTTCATCTTTGAAACGCTGTTAGCTGCCTCATGA
CTGTATTTCTATTCCTCAGTCATGGGCTCACCATGCAGTACACATGTGTGGTCACTGGAGGGAATGGAAGAACACTGAGGAAATGCATAGCCTGTTTCAT
ATATTTATTACACTATTATTTATTTAGAGGAATGTTAAGAAATCTTGCTTTTATGTAGTTTTAGAATGCCATGAAATATCTAGTTGGGGCATTATCTGCC
ATTTTGCAAGGTAATCTTCCACTTCTGAATAACGTTACAAGTAACCCGCGTTTGGAGGACTGATTTGGGACTAAGGCAAGGAATTTAGGAGGCACAAGTA
GAGGGGAAGAAATAAACACATGACTTTTGTTTTTGTTTTTGTTTTTGTTTTTTGAAAGAAGGACAGTGGTTTGCTTGTTGATTCTGCTTTGAGAGGATGG
GGATGCACTCCAGAGAAAGTGAAACGGGGCTATGGGAGGAAGAGAGCAGCGCACACACAGCACCTGCATTTGATTGTGAATGCGATTGTGACTCCTTAGG
CAGGAAGGAGAGTGCTAAGACCGTCATCATGGACACTCAGAAAATACCTGCTAATCCGTTTACTGGAAGATACAGGGAGCTGCAGATAATTATTGTTTTT
TAAGATGGAGTTTCGCTGGAGTGCAATTGTGCAATCTCGGCTCACTGCAACCTCCACATCCCCAGTTCAAGCAATTCTGCCTCAGCCTCCCGAGTAGCTG
GAACTGCAGGCGTGCACCACCACGCCTGGCTAATTTTTTGAATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCT
CAGGTGATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCGCCACTCCCGGCCGCTGCAGAGAATTTTTAAAATAAATGATAGATT
CTCACAGATAAGAAGWACAGGATAATTATTTGCCAAAGTTTGAAACTGCCATTATATTCAAAGGCATTCTCTTTTGGGAGTGGTTTTATATTTAAGGTTT
GAATTTAGATGACCTCAATCTTGAGGTGTTATCGGAGCATTACAGGGGAGTCTTATATACATGCAGGTGCGATTTAATTTGAAGATACTTCCATTTAAAC
TTTATGCTGCCAGAGTTGGCCAGCTAAGCAAAAAGAATTCTGATAGGTCTTATTCTCCTCCCCATCCCACACGCTGATTTTTTTTTTCTTTGTGTTTGGC
CGAAACATTTTACATTTCTCATTTTTCACAGAGCTACTGTTTCTCTAGGATTGTTTTCCCTGAAGTGTGTACCCTGTGTTTGGGCAGAGCAGCAAGACCA
GACTTCCAAATGGCATGCTGCGTTTTAATGTGCTTTCATAATTGTCTGTTCCAAAAGGGTGCCTGTGTGTGTATGGTGTGTGTGTGTGTGTGTGATTCAG
AGCACCTGAGAGCACACTGCCCGTTGTCCCCTCCAGCCCTTCTGAAATGCAGGCCACCCTTTCTGTTTCAGTTGCCCCTTGGGTGGCAGTCTGTGATAAC
TCAAGGTCAGGAGGAAGTATTTGTTTTGGTTGTCTTGTTTAACTAATTAAATCTTTAATCTTGGTCCTTAAAAGAAACTAAAATAAAATCGTAAAGTAGT
TCTGATAAGTCCTTGCCATAAATTATTGCTTTTGTAAACGCACATAAAGGACTCTGAACTGTTGCTACTCATAACATTTCTGACGCCAAATGTGTGGGGT
TTTGCCATACCAACAACCAGTTCTCTAACTCTCCAGACACCAACTGGGGGCCTTACAATTCAGTGCAGTTCTGACACTCACCACCTGGAGTTAGCACAGA
CTCCACAGGGATGAGGGTTCAGTCCCACGAGTCTGCCCTTGCTGCAGATGCGAGTAGCAGGTATGGGGTGCCCACACTTCTGTCTGACTTGCCTGAAAGG
TTGAGAGTTTGTTGCCAGGCCCCTTGCTTTCAGGTCTGATAACTTGCTAGGTTATTAAACCTGAAACTTGATAACTTCTGTAGATGTTGAAATTAGAACG
GCCTCACTCACCTGGGCTCACAAAATTCCAGAAAGTAGTTGACGTCCTATTACTGGTTTACCGTGAAGGCTCTATGTCCAGAGTGGACAGGACAAGTGGA
AGAGTGGCACAGGGCGAGGTGTGGGGGGTGGCGTGGAGCTCCTTTTCAGGAGTCTCTAAGAAGGTGGGACTCCAGCGGCAATGCCTTGTCCATGTGCTAA
GCCAGCCGAGGGCGCACGAAGTGCTGTGTGGTGTCCAAGCTGACTTGGGAGGGACMAGTTTGGGGCCAGCCCCCCAGCCTCMCTTGTCATGTCCCACCTC
TGCTGGCATCTGTGGGCTTAAAGTGCCTTCACTCCCATCCTTTTCAACTATTTCTTGATTAAAAAAAAAAAACAAAAAACTGTTGAATAGTAGGAGACTC
TCTCTCTCATTGGTATTTGTGGGAATAAATATTAAATAAACACTTTCTAATAGGTGTTACCAGGACGCCTAAGGAAATTATCTCACAGAGTTTTCAACAC
TGTGAAAAGAGAAGCTGACTGCCAGGGAGAGATCCCTTTTTCCTAGTCCTTGTGAACATGTGCTGGACAGCCAGGAGTGGCACTGTGGCAAGAAACACCC
GTTCTCTGGCATTAGTAAGAGGGATATAGCCAAGGGTATCTGTATACCAGTGTTAGGCCCATACATCCATAAAACATTGATGTGAGAGCTTTAGGGCACA
GCTGACCCTAAGCCTAACGTGATCATTAATGTCATGAAAATTGGAGAATTGGTCAGGCGCGGTGGCTCACACCTGTAATCCCAGCACGTTGGGAGGCCGA
GGTGGATAGATCACTTGAGGTCAGGAGTTCAAGACCAACCTGGGCAACATGGTGAAACCCCGTCTCAAAAGAAAAAAAAGAAAAGAAAATTGGAGAATTT
ATAACGTCTGATGTGACCTGTTCTTTAGGTGTTGAAATTAGAACGGCCTCACTCACCTGGGACATTCTTCAGCTCAYGCCCTGTACCTGGCTTACAGTTG
CTCAGTGAAATGCTTTCTTGATTGTAGCATGGTGGGATTTTTATAAATCCAAATGACTTAGAGGTAGGTGTCACATTTTTAGCAGCTAAAATCATACTAA
TCGTAAAGCTCAGATTCCTGTAAGTAGGGCGCTGAGCACAGGCTGCATCCTGGATATATGAATAGATGAACCAGATCGTGTACATGTGGGACACGTTCTT
TGTCCTTTGGGACTTTCTTTTGCTTGGATGTTGGTAGTAACCATGTAAGTTCGGGCAGCTTTCTAGAAACTTTCCTTGTTGTGCAACATTATGCAATAAA
TGCACTGCTTTGTGATATCTGAGACGTTTTGGTTTTCTTCAGCTTGTTTGAGTTAAATTTAGACTCCTGGCATAGTTTTAGGTTTGAATGCATTCTCTGA
GATAGGATAAGGACCAAAACATCCACTCAGCAGCCAGATGGGATTTTATCCTTGTGCTGCCATTTTTGAGACTCATGCCTCTGTTTCACTCTCTGTAAGA
TGGCATTAATAGTGAGGGATTGTTGTGCTGTGAGGTTTAAATGAGCTAATCCCTGTGAGGAGTTTACAGCAGGGCCTGGGCCATAGTGAAACACTGTGTA
TGTGGAAGCCACTTCACTTTTGTCATAGCTTTGTTGTCATTAGTGTATACCCTGTCTCCTTGCCGTTTATGGGTCCTTCTTTCAAGCAGTCGGATTTTCT
GTCTGACATAGTATAAGTTTAGAGGAAACAATAGCAGCTGTAAGATAATAGTAATTTTCCTTCTGAAATCATTTTGGTGAATTTAGTCAGAATATCTGAT
CCATAAACTCTCATTATAAAACATTGCCTTATGATTGGAGTTTTTTCTGAGAACAGTTCCAATGAACATGATTTTTTGGTGGTGAGGTACTATTTCTGTG
CAGTAATGAAGTTGTGAGGACACACAGATACCACATCCATGTTGTTTGGGAATTGTTTGGGAAAGGTACGTGGGATAGCCTGGCATGGGGAAGAATGATG
TTAGGGTATTCTCCTTGAGGAGCTCAGAATAACCAAAGGTAAAGCATTTGGTGGTATAAGATATATTCATCTTAAAAATAAGTTGAAAATAATAAGATAY
TGGGAGATGTTAGCCACCGAAGTAAATAACTACAGTGAAATAGCTCTTTATTAATTTTGAAACCTAAAGTTGAAAGAGTTCCGTATTATTTGTCAGTATC
TTTATCCTCTTCAAAAATGTTTCCAGCTTTGGGATAAATTGTGAATAATTGTTTCACTTTGTTTTTTAATATTGGCTATGTAGTGATTTTGCATTGAACT
GTGATATAAGAATGATCATCAGCCCCTTGAGATTACTGTGTGTACCTGTGTCACCAGTGGCATATAGGGGCTTAAAAGCAAGCAAGTTTAATATATACAT
TCATTGAGAACACACTGTAGACTGTTAGGATTTTCGGTGCTGGAGCCATAGTGATGAATATGACAAGGCCCTCACCCTTGAGGTGCCTATAGTCGTGTGG
AACCTAGGTCCTCGCAGGGACTCTAGGGCAGGTATGTTCTTGAAAGATTTTTTTTTTTTTTTTTCTTTTTGAAGAGACAGGGTCTTGCCTTATTGCCTAC
ACTGGAGTGCAGTGGTGCGGTCATAGCCCACTGCAAGCTCAAAGTCCTGGGCTCAAGAAATCGTCCTGTCTCAGCCTCCCGAGTAGCTAGGACTACAGGT
GTGCACCACCATGTCTGGCTAATTTTTATTTGTATTTTATTTTTATAGAGACAGAGTCTTACTCTATTGCCCAGGCTGATCTTGAACTCCTATCTCAAGT
GATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCCTATGTAAAAGATTCTTATCAACAGTTAAAATAAGAAGCTGCT
CAAGACATTTACCTATCCTGAATGTTTCAGGCCCTCAAGGTGCCAGGTAGCTGCAATATAGTTCTAGTGTAGAAAAGAAAACCCTGAYGAGGTCTATATA
TTCCAGGACTCTGTCTGAGGCCCTTTGACACTCCGGGGGCACCCTGCCGTGACCCTGACTCTTTCCTGCATGTACTGAGGATGGAGGTAGCCTATGGGTG
GCACAGAGATTTGCTGTCTGGCTAGCAGTACTTCAGGGTACTGGGTGGCTTGAGGACCTCCTGTTAGAAGCTTGGATTCACTTTTCCCAAGGCAACCASG
ATTGGATTCTATTAGTTCTGGGTCTTGAGAGCCTGCAAGGGCTTCCTTCTGCGAAGGTGAGTCTGGGAGAGACGCCATGGAGTCAGTGTGAGTTCTGCAG
CCTCCCAAGTTCCGCTGGCGTGAGAGGCTTGCCTGGTGCCAGGGCTCTGGRCATTGGGAACATTGCCTGGTCTACCGGGCAAGAAACGTGAACCACCGCA
GTGAACTGGCAGCGCGTTGGCATTTTTCCCTCCATGTTTTTATAAAACCGCTGAGTAGACACCAGATTATAAATCCTGTGTAAATAGTCTTGAAGAGTTT
CTGGGTTCAGCCCCAGAGAAGACTGGTTTGGGTTTTGAGGAATACTTCAAGAAAATGTTTGTTGGTTCTGTTTTCCAACGTAAAGTGCTGCACAAGGACT
GTGCTGTGAGATCCAGGAGTGTCTTTTCAGCCCTCAGTGAGTGCCTGCAGGGGACACAGCTGCTTTGGAGGAATGTGGTTCCGGAGGGTTTCCCACTCTC
CATCCTAGTTGCTAAAGTCACGTTCCACGTATTGTGTTCTGATGATAGAATGAAAGCCCACTCCCCGCACCCTGGGGTCTAGGTGGGGAAAGGAGAGGTG
TATATGGGATAGCCACGGGGTTTGGCATGAGCTCAGTAGAGACAGCAAACTGACCCAGACAGACTCCCGCTTTAGGGAAGCTGGGATGAACTAAGTGAAG
GTGGGTCATGGGAGCAATGCTGAACCACTTTGGTGGTTACAGTGAAGGCTGCTACACACCCAGCTTTGGGAGGTGGGGCCCAGGGTGTCCAGCTTTGTAG
AAAGGCATGGTGTGGGGGTGGCTGGCGGAGGGGGTGGTGGGTGGTTTTCCTCTTGAATCTCTGAGAAMCTTGACTGGTGTACTGCTCTCTGCTTTCCTAA
GGGGTCCGTAGCTGTGCTGGTGGTTTGCTTGGTATCTGTATTACATCCACTCTGTGCTTCAGCCTGTTTGTCCAGTTACTGTGTCTAGTGAAGCTAGCAT
TCACATATTTTAGATTAAATTCCACACTCCACCCCCAAATTAAAACCCTGCTATTTAAGGTAAAAATAATTTTAAAATGTTTTATTTTGGTCTCTTTGGA
TAAATTAATCTTGAGGAAAGCAATACTTACTGAATGTTGATGTGTGTATATGTCTTTCTCTTTGTACCATACTTAACAGGCAAGTAACTCTCTTGTAAAA
TCAGATTCTAAATGATTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTGAGACGGAGTCTCTGTAGCCCAGGCTGGAGTGCGGTGGCGCGATCTCTGCTCAC
TGCAGGCTCCGCCTCCCGGCTTCACGCCATTCTTCTGCCTCAACCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTTATTTTTCGTA
TTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGGGCTGGGATTACA
GGCGTGAGCCACCACGCCCAGCCTCTAAATGATTTTCTTAAGTGTAATTCAGGAGTTGGCAAACTACAGCCCATGCTGCCACATCTGGCCTGCCACACCT
GTTGTTGCACATAAAGTTTCATTGAGTCACAGTCATACTCATTTGCTTTCATATTGTCTGTAGACAACCTAGAATGTTAGAAAATTCTTTCTCTGGCTGG
ACGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGCGGCCGGATCACCTGAGGTCAGGAGTTCGAAACCAGCCTGACCAACATGGAGAA
ACCCCATCTCTACTAAAAATACAAAAATTAACCAGATGTGGTGGCACATGCCTATAATACCAGCTACTCGAGAGGCTGAGGCAGGAGAATCACTTGAACC
CAGGAGTTGGAGGTTGCGGTGAGCCATGGCTCATGCATGTAATCCTTGCACTTTGGGAGGCTGAGACGGGCAGATCACAAGGTCAGGAGATCGAGACCAT
CCTGGCTAACACGGTGAAACCCCGTCTCCACTAAAAATACAAAAAAAAAAAAAAAATTAGCCAGGCGTGGTTGCGGGCGCCTGTAGTCCCAGCTGCTCGG
GAGGCTGAGGCAGGAGAATGGCTTGAACCCAGGAGGCAGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGTGACAGASCGAAACTCC
ATCTCAAAAAAAAAAAAAAAGTTATTTCTCTATGTAAACAAAGAAAACTCTCCTTCCTTATAACTTGTATGTGTTGGGTCTATTTGTATTCTGTGAACCA
TAAGAAATAAGTCAACTATCAGCTGGGCGTGGTGGCTGACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCCA
GACCATCCTGGCTAACACGGTGAAACCCCGTGTCCACTAAAAATACAGAAAATTCTCTGGGCGTGTTGGCGGGCGCCTGTAGTCCCAGCTACTCCGGAGG
CTGAGGCAGGAGAATGGCATGAGCCCGGGAGGCGGAGCTTGCAGTGAGAGATCGCGCCACTGCAGTCCAGCCTGGGTGACAGAGCCAGACTCTGTCTCAA
AAAAAATAAGTCAACTATCTCAAGGTAATTACCCTTTTGAATACTTGAGGACATCTTTTCTGTGCCCTCTGAATATTTCCTTCCCCAGATAAAATATTTC
TAGTTCTTTTACYTGTTCTTTGTTTCAGRGTTTTAAGTCTCCATTTGATAAAGTATAGTTTAATAGCCTTCGAAACCACATCGTTGAGATTTAAAAAGCC
CTCCTTGAGAGACATGACCAGTAGAAATCATACCAGGACCGTTTAGCACCCTAACTCTGGGAGCCATGGCTCTTGGGATGCGGCTGAAGATTGTGTTATC
GTCCTGAAGCTCTCTTGGACAGCTGAGTCAATGACTGGAGGTAGGAAAGTTCCTTGAACTCTTTCTTGTGCCCTTCCAGCTGTGAGCTGTGTCACCATTG
TATTATTTTTACATTGTTGTTGTTCTTGAAAAAGCTTTTTTTTTTTTTTCAAGGCAGAGTCTTACTCTGTCGCCCAGGCTAGAGTACAATGGTGCGATCT
CAGTTCACTGCAATCTCCGCCTCCTGGTTTCAAGCATTTGTCCTGTCTCAGCCTCCCCAGTAGCTGGGATTACAGACGCCTGCCACCATGCCCGGCTAAT
TTTTTTAATTTTTAGTAGAGATGGGGTTTTGCCATATTGGCCAGGCTGGTCTCAAACTGCTGACCTCAGGTGATCCTCCCACCTCAGCCTCCCAAAGTGC
TGGGATTACAGGCGTGAACCACCGKGCCCGGCCAAAAAAGCTTTTGAAAACTTCGTCGTATAATATTATGGCCATCCTTCCAAACGTGACCTTTTTATGT
TGTATTTTATCTAACTAATTTGCCCTTGCCCCCAACTTTTATCTTGGAATTTCTTACGTATTAATATACTGTCAGGGTCCCTGCTTGGGGCATTGTCCTT
GGGCTTGTCATTAGATAACTCCAAGTTGGCTTGACTCCAGAGGAGCTGCCTTCACACGTGCTGTGAAATGTACTGTTGTTGACCAGAGACCATCGTTATC
ATTAAGTCCACAAACCTGCTTCCTGTCTCTTAGGCTGTTCCAGTCTTCTATCGAAAAACAGTGGTTTAAGTGGCTTCTCCGATAGTGCTGGTGAATTGGA
AGCTTCTCGTCATCCCCCTTGGCTGGGGCGAGGCTTACTTCCTGGGGCCTTGGCAGTTTTGATCTAAYTGACTTATGTTACCTTTCTGTATTAATCAAGC
CTTTTTATTTTCCATACTTCTGATGCTTTGACATCTTGGGGCCTTGCTGACCCTGAAGAGACCAGCCCCCCTAGGGTTAGCCAGTTCCTAGGTAGTGAAT
GAGTACAATGCTCATATGCAAAATAACCAATCCAAAGGCCACGCCCCTCACTCATATGCAAAATAACCAATCCAAAGGCCAGGCCYCTTACCACCTTTAT
TGGGATTTCATACTCCAGGCCAATATTGCCCTACCTTAATCACCCTAGGGCCAGATACCAGGCAAGAGACAGCCCCTACACCCCAGAGCCTGTCAGAATT
ACTCCAGCCAGCTAGTCCTAAACCTGCTTACCTTGTGTGATTTATTCCTTCCCAAGGAAACCACAATAAAGGCTCTCCTCCATGTTTTCCTACCATTCCC
TCTGCCTCAGGACCAACCTTGGTTCTTCTCCGTGTGGCCCCTTGGCATGGTGCACTACCTCTTCTTGGGGACTGTGAGTAACAGACTTTTTCAGTGGCAA
TTGTCTTTTAACTGTTGGCCTCACCGTACCTGAATAGCAGTAAACCCTACATCTTAAAATACTTTGAGATTGTCACATACAGTACCCAGAATAGGTGAGG
ATGAAGGCAATTTACTGGATGCAGAGCGGCCCCAGTCCATTCCTTATGTCCGAATGCTAAGACTTGAGAAAGGTGGAGAGGAGCCTGACTATCAAGAGTT
GCCTTCTTGGATGAAGTGGGCTGAAGACACACGAACCCCTTCCATTAATACATCTACATATTTTCCACCATTGTAATTGTATTAATAATTGGAGAAAATA
ACAATGACTGTCAACAACAATAGCTTAATCCAGTAGAGATGAGGTCCGGAATAGGTTCTGGCCTACCTCAGTTCATGTTTTTTACTTTCAATGCTGAAGC
ACAAGCAAATGCAAAAGCTTCTCTTGAATGTTTTGTAAATTGTGGGATAATTGAGGTATGTGACATGGTTAATAACCCAGTGTCTGCTCATTGAGCACTG
GGTTATTAACCATACATAGCAAATGGAGCACATCATCGTGGGTTGCTTGCGTCACTAGATCCTGTTGCAAAACCAAGATTCAACTTTAAAATACATTTTA
ATTTAAGTTACTCTTTCTGGCATGAATGATACATCACTTTGGAGCAACACTTACCAGGCAGTGAAAGCTTTTTTTAATGCCCTGTGTAGCACTGCTTTCG
GTGCCCTTATATGATTTGGATGGATGGATGGATGGATGGATATAGCCACAGGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACCATCATAGCTC
ACTGCAACCTCAAACTCCTGGGCTTAAGCGATCCTCAACCTCCTGAGTAGCTGGGACTACTACAGGTATGTGCCACTATGCCCAGCTAATTTTTAAATTT
TTTGTAGAGATGGGGGTCTCACCGTGTTGCCGGGGTTAGTCTCAGACTTCTGGCCTCAAGTGATCCTCCCACCTTGGCCTTCCAAAGTGCTGGGATTACA
CGTGTGAGCCACTGTGCCCAGCCTGTTTATATGGTTTTAAAAACAAAAATGTATATGCTCTCAAGATGGCTTTCAGAGAGCTTATTAGTGTCTTGGCCAT
TTGGAATTCCATTTCACTTAAATTAGAAGAGTGAAAGAGAAATGAATGGAAGACCAAAAATGGGGAGAAGAAAYTGTATCTGATATAAGCGTGGCTCTAC
CTGGGAGAATGGCCATTCCGAATTACTGGAAACAGGAAGAAGACTTGCTATGATGCTTCCTTATATCTGTGGGGGAAAATCAAACTTACATTCTGAAAGG
AAACTTAATACTTCATGTTTTTAAACACAAAAGGATATTTTTTCAGAGTAGCAGTTATAAAGTTGTTAGTTTAATCTTTTAGTTCAGCTTTTTTTCTTAC
CAGAAAAATAATTAGTAGTACAAAAATTTATGCGTTTGTTTTAGCTCTATTCTGATACTGTTAAGAAGATACATGACATAAAAACAGGAATATTTTCAGT
CAGTGATTACAATTTAAAATCATATTCGAAATTTAATAAAAAGTTTAAAAGAAATCACCAGCATAAGATGTTGTCATTTGGCTCTTGGGGCAAACCAGCT
CTCTTCTGGTGAAAGAACTTTCTGGATGAGGTCGAAAGGCAACAGAAAACCTGGGGAACAATGGCTGTCTTTTTAATGGGAGTTGCTCCTATTCCTGGTG
GTAACAACCTCTTCCTGTTGCTCCTTTCCGAATGGAATTGCCTCAGTGAAGTTGTTGAAGAAGTGAGGAGGGCGAAATATGCCCATCCTTCTACAGTGGG
GAGAGGCCTGGCGCATGAAAGCAGGCCTTTGTGTATGCCGGGCTGGGCCCATGCAAACAGGGCACAATCAGGCTATTGTTTGTTTGGGAAAAGCTATGGC
ATCCTATTGCAATTATTTATGGAAGAAAATATTTGATGTTTTTGGAAGAGGTTAGGTGTGGGGGGTGATGAGGGAGGGAGGAAAGAGACTGGGCTTACCT
CTTGTCCCATTCACTCCAAATCTCTCAGTGCGTAGGATAGGGTCCATCTGGTCCAAAGGAGAGTTTTGTGTGACTCTGTGTGTTGGAGTGTTTTCGAAAT
GCAGAGAAATTCAGAGCTTCTCTAGCTTTGGCTAGAGAAGGAACAATGGAAGTGAGTCTTATTCTACCTAAGTTTGATGTGGGGCAGCCTGTTCTGTAGT
TGCCTTCCAAGCCCTTCTTCTTTCTGATGCTTTCTTGGTACCATTGCCCACATGCTGCCTCCACCCTGGATGAGGTCTAGACCTGTTACATTGATTCTCA
ACTAATTAAAAGTCAATATGGTAAAATATTTGCAGCATTCCTTCTCCTTCCCTGTGTTCATTTCTGAAGCTCAACAGTCTTCCATACTCAAGCTGTGGGG
AGGTCCCTTTCTCCTTTGACACCAGCCATTTTGTGATCTGCCCTTTCAGGCCACCCCAGCCACCCTACTTTCCCAGTCTTGCCTCTGCCTACTTCACCTC
TTCTCTCGAACCTCAGAAGCTTCTGGAGTCTTCACAGTGGCCCTAATCATGGGTCTCATCCTTGTTTTCCTGTCTCTTTGAGGTTCCAGCAGCCAGCTTT
GCCTCATCAGGCCTTTCTCTGAAATTCCCATCAATAACTACAAGATCTGCCCAGTACCTTGTGCATATCAGGTCTCAGGAAATTGTGAGTTTCTTGTTTC
ATTAARCATTTTTCTTTCCAGGAATCATCATTCATCGCATTGCCATATGTGTCCAGATCCCCCTTTTCAGGGAGCCAGTAATTCGAAAGCACTTGCCTGT
GTTGAATATGGTGGAAAAAACAAATGTCAACCCTAGCCGGCCATCACTCCCCATCGGCCCACCCCATTCTCTTGTGCCAGTAGGACTTGCCTGTGTTTTC
TTTGGGCAGTTCAAAGTTGGGCTCTTGAGAAGTTGCCTGTAAATTCAATTGAAGTGACCAGATCTCATCCTTACCCACTCTGTAGCTGCAGATAATAAAC
ACTGGGGACTTCCCTTGTGCCTGTGTTTTAATGTAACCTTAAGACTTGATGCTCCCTGGAGTGTAAGAATATGAATAGCTACTCGCTGTGGATATTGCAG
TTAATTACTCCTTCCTGTCCCATGTGGTCCCCAGAGGAATATGAGATTGCCACAAACATGGCAGCTTTCTTTGGGGAGGTGGGAGAGGGAGATGAATCTT
GGGGCAAGGCACATTCTCATAACCATGTGGCTCCAGAAAGCTGCCTGACTCAGAGAATGGCTATAAATGCCCGGTTGTATGGATCTGAGATCCTCAAAGC
CAGGTTCATTCACTTATTTATTAATTTAACAAACATTAGGCAGCTGTGGTGCTCTGTCTGCTCCAGCAGTGATCAAGACAGAAAAGATTTCTTCAATGCT
GCGTGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGACAGGCGGATCACCTGAGGTCAGGAGTTCAAGAACAGCCTGGCCAACATGGTG
AAACCCCGTCTCTACTAAAAATACAAAATTAGCTGGGTGTGGTGGCCCATGCTTGTAATCCCAGCTACTCGGGAGTCTGAAGCAGGAGAATGGCTTGAAC
CCGGGAGGCAGAGGTTGCAGTGAGTGGAGATCATGCCACTGCACTCCAGACTGGGCAGCAGAGCGAGAATCTGTCTCAAAAATAATAATAATAATAATAA
TAATAATAATAATAATAGTAAGAATACTGGGGTGGGGATGGTAGGATGCACAGTAAAGAGAATAATAAGCTAGTGATGAGCATCTAAGAAGAAAACACAA
AACAGTACTGTCATCACAATGCAGGAGTGCTGGGTTGGGGGCCAGGTGTGGTTGAGGGGTGCTGTATTACGCTGGGTAGTCATTGAGGCCTCTGTGAAAA
GGTGGCATTTAGACTAAGGGAGATTGGAAGGTCCAGCCATGGGAAGTTCAGGAGAAAGGATAAGAAGAAAAAGCTGTCACATGGGCACAGACTGATGACC
AGCAAGGCTGGAACTTGGAAGATGAGGGAAACTGAGAGTGATTGTCAGCTCAGGCTGCTTTGACAAATTACTGTAGCCTGGGTGGCTTAAACAATAGACA
TTGCAGCATTCCCTCTCCCTCTCTGTGTTCATTTCTGAAGTTGAATAGTCTTCCATACTCAAGCTCTGGGGAGATCCCTTTCTCCTTTCACACCAGACAT
TTCGTGATTTGCCCTTTCTGACCACCCCAGCCCTACTTTCCCAGTCTTGCCTCTGCCTACTTCACCTCTTCTCTCCAGCGTCATGGTTGGAGAAGCATAT
TCTCATGGTTCTGGATGCTGAAAGTCCAAGGTCAGGTGTCAACAAGGTCTGGTTCTAGTGAGGGCTCTCTTCCTGGTTTGCAAACAGCTACCTTCTCACT
GTATCCTCATATAGTGGTGGGAGAGAGCAAGCTGTGGTGTCTCTTCACTGATTAAGGACATTAATCCAATTGTATCAGGGTCTCACCCTTATGACCTCAT
TTGATCTTAATTGTCTCCTTAACAGCCCTACCTTCAACAGAGTCACATGAGGGGTTAGGGTTCCTACATATGAATTGGCAGGGTGGAGGTGGGAGGTGGC
CGGGGRTGAGACACAATTGATTTCATAGCGTCGAGTTATAAGATGGGTCACAGTATTAGATGGGACCAGAGCAGAGAGGGTCTGTAGGCCATGGCAAGAG
TGAGAATTTACTCAATACACAGTGGAAGTTGGGGATGAGTGAGAAGCACAAGAGTGGCACACTGATTTCTACAACAGTCAGTCTAGCTGCTGGGTGGAGA
AGGGGAGAAGGAGGAATAGTGGAAAAAGCAGGGAGACCGCTTAGGAAGCTGCTGGGACCGTGCATATGAGAGATGTTGGTGGCTTGAACCAGTGCTGGGT
TTCTCAGCATTGGCAGTATTGACRTTTTGGGTGARATAATTAGTTGGGGAGTGGCAGGGCGGGGGGTAGGGGTGCAGTCCTGAACCAGTGCCAGGTTTCT
CAGCATTGGCACTGTTGGCATTTTGGGTGAGAWAATTAGTTGTGGGGGGCTGTCCTGTGTATTGCAAAATGTTCAGCAGCTTCACTAGTCTCTACCTGCT
AGATGCCAGAAGCCCACCCACCCCGCCCCCTAGTCATGACAATCAAAAATGTATCTAGACATTGACAGATGTTAACCTGGGATTAGGGGGTGGGGAGACC
AAAATTGTACCCTGTTGAGAACCACTGGACCAGAGTCATAGCAATTTGYAGTGGATAGATTTAGGAATATTTGAAGACTTGTAAAATATAGCCTGAAGGG
AATGGAGACTGGGAGAGTGAAAGATACCTCTGAGACATTTTGGCTTGGACAGAACAGGGGGTGGAGGCTTCCATTCCTGAGCTGCAAAGGAGTGGGGAGG
GAGGAGCAGYGTAGTTTGGGAAGTGTGTGGTGGAGAAGGCAGATGGGRCAGGAGCTCTGTCTTGCATCTCTCAGGTCAGAAATGCCTCAGACATCCAGGG
GGGGCAAGCTAAGATGGAGTTGAACACAGCAGTGTAGGGCTCAGGGGACAGGCCAGGAATGGAGAGAAACATTTGGCACTCATCTACTTGTAGCTTCCCT
GTCGAGAAAAATGAAATCATCCAGGGGTTTTCAAATTCAGTGGTCTCTGGACCCCTTCACACTGTTAAAAATGGAAAACCCTGCCACTGTCTACATGTTT
ATGTTGCCCCAGTAATCTATGCATTGAAACCTAATCACCATGTGATGATATTAGGAGCTGGGGCCTTTAGGAAGGGATTAAATCGTGAGGGTGGGGGACC
TTTATGAATGAGATTGTGCCTTTATAAAAGAGAGCTGCTTTGCCTCTTCTGCTAGAAGGTGCCCTCCGTGAACCAGAAAGTGGAGCCCTCACAAGACACT
GAATCTGCCAGTGCCTTGATCTTGGACTTCCCAGACTCTAGAACTGTAAGGAATAAGTTTCTGTTGTTTAAAAGCTACCTAGTTTAAGGTGTTTTGTTAT
AGGTGCCCAGACAGGCTAGGACAAACGCCAATAAGCTTTCGTTTATGTGGGTTGTATCCATTGATACTTGCTGTATGAAGAATTAAAATTAATAACTTTA
AAAAGATTTATTGATTCAGAAACAGTAACAAAACTTAATATGCGTTAACGTACTTTTATGTTGGATAAAAACTATATCCCACCCCAGTATATGAATAGAG
TGGCATTGTTTTATGTGTTTAATCTCTGGCTTAACAGAAGGCAATTGGATGATCATACCTGCTTCTATGTTTATTCTGCTGCCAATATCACACAGCTTCT
GGAAACTTCCACGGCACACATTCATGAGACAATAAGAGTTAAAAAGGTAAACAGTGTCTTAGTAGTGTATGAAAATAGTTTAATCTCATAGACCCCCTGA
AAAAGCTGCAGAATCCTTACGCGTTCACAAACCACACTTTGAGAACTAAAGATCAAGGAGTACAGTTTTCTCATTTTTATGCTGTTCAGAGTGTGGTTGA
AGTTCAGCCATCACTAGTCCTTCACGGATAGTTCATACCCCAAGTTGATGGCCTTGTGGAATTGCTGAYGCTATTTTCATATATATATATATATAATTCT
AGCCTTTTTCTCTGGTCTTATAAGAGTCACATACGTAGGTAATTTCATATCCTACAAATATGTTCTAAACAGCAGAATATTCCAGGAAACCTTAAGTGAT
AACTGAGTTGAAAGAGTCATATTTTTTAAGCAATACAATTTAAATAATTTTTAAAGGAAACATTTMTAAAGGACGTTTTACATTGCTTGCATTAAAAAGA
ATATAATGAACATAATCCAACTTTTTSTCAATACTCAGGGTCATCACTGTGAAAGTAACTTCATTCTATGATAAGATAATGATGCTCCCAGGTGGGCAAG
GCAGTTTTTCATCTAAGGTAATTGAGACACCTTTTAAAAGCAAAAGATAAATTCACAGACCCTCAGTGTCATTATAAATTACTTGGTATAAAGATACTTA
AATACCTACAGCCTTATAAGGCCTAGGTGTCAATTTTTTACGCTTGCAGATCTTTTACAACTGTAAGTTAAATGATTTTACACATTAAGTGCATMTAAAA
CAAAAAGATTCAAACCCAAATATTAATTTAATGACATGGGTAATATTTTGCTAAAAGTAAACCACTGCTCAGAATGTGAATAAACTGACCTCGAAGGCCT
GAGTACGTTTGAATTACGGAACACCTCTCTTTGACATCACAATTGAATTTTTTCTTTAAGTATCGCAAGGCCCCAGTTCACGGAAGTACCACAACATAAA
TTGGTCTTCACTTGGTATGTGAACACATATTTATATGTTAAATGTGTCTTTTCTTTTTGGTGTACAACAGCTAGAGTAATGCAGTTTGCTTGCAATGTGT
TTTTTATGTAAATGCTGATGCCGAATCCACTTGGCAGCACTGAGTTACAAGAAGGTTAAGTAGATGAACTAGAAGATGGATAAACGAAGATAGATAAAAT
GAAGAAAAACAAAARTCAAGGAGAACTCAGGCGTCCAAGAGTGTGTAAACAACTTCTGGTGTGAGACGCGCTACATTGCGCTAAATGGCCTGTGCGCTTC
TGGTTTTTCCCTTCCTCTGTTGATTTTTTATAGTTGTCTTTTATTTTAAACACGCCTCCCCCCCCCCTTTTTAAACTGATTTTACCATCACTCTCTCTAG
CCCTGCCTCCCTAGAATTAGCTGCTTCTTACCTCCCTTGGATCTGGAACTTAAATATTAACGTGTATATAAGTTAATAGTAAGTAGACCGTGAATTTAGA
AGAGTAAAACAGAATCATGAGTACGTAGTCACTGTGGCCCCTTTTYTGCTGGATTTCAAGTTCGTAAGCATTTTTGGAAGAGAGTCGAAGGGGAAGGGGT
GGCTTGCCAGTCAGTTGAGTGATGCGTGAGGGAGGCGTTAAATGTGCATGATGCACTAAAATGCATGTTTCGAGATCCAGTATGACTGCTCTTCCATAGA
TGATGAAACCAAGGCAGAGAAATAAGATGTAACTCTCTTACCTTGATTAGTGATGAGAATGGGACAGCTTTATTYATGAAACCCGGAAACCACTAGCCCA
TTCTTGGGATGATTGATATCTGCAAGGATCTTCAGGAATAGAGTACCTGGGGCTCAGGAGCCAAGACTAGAAGTGTTGAAAGGTGAGCAGGAATTAGCTG
CTGGCCTCAGACGTGGAGAGACACACGGGTGTATGTGTGCACACACACACACAGGCACATGTATATTCATGATGGCTTCTTAATTCCCACTCCAGGCCAA
CTCATTTCCCTTTCCCTTCCACAGGTACTTATACCATAAAAGGTATATGAAGTGCTAAAATACTTGTAGGTATGTTGTCAATATGAGCTACTCTGTAAAT
GATAAATAATAATTGACTGGTGAGTCTAGGCAAGGCAAGTCAATGAGATTACAAGAAAAGAGATGTTAGGCCTTCAGAAAGATGGAAATTTCTCTTTGTC
CCTGCAGGGACTGTTGCAGAGCATTAGAGCCACCCTCAAACAGTTACCCAGTGAGTCTCCTCAAAGCAAGTGGCACTGAGATACARCCTTCCTACAGGTT
TTCAAGTCATCTCGTGTGGTGCACAGTCCTSGCCCTACCTSGAAGGCCCGGGCRAAGTTTTCCTGAGTGTGTATACTCATCTCTTTRTGTTRTCTCTGGC
AGGGAGCAAGTGAGTACAGGATTGGAGTAATAGGCATTTTTAGGCTTGAGATGGCTTTGTGTGTTTGGTTAATGTCACTACATTTCCTAGGGGATARTAA
AAGTCTAGCATGATAAAAGATCTCGTCTTACAAGGTCCCGATGTAAAGTTTGGAGCCTAACTTAGAATTTAAAATAAAATACATTTTGACCCATTGTATT
GAGAGCTGGTATAATTTAATATAGTGAGCCCCTCGGCTTCTGGTTGGTTGGGTTATAAAGCYTSTTATTCATTCGCTCATCCATTMATGCATTTCTCCTA
TGAGGAAGCTTTTTCCTTTGAGCTGAACACACAAAATTAATCGTGCTCGAACTCTCCAAATTTTGTGAGTTCCCTGGTAACTGACTGTATGGAAGACAGA
AATAAAAATCAGAATAAACTTTTATTTTCTGAATCAGAAAGCAGTTGCTCCAGCTTYTGGTGGTCACATTGCTAAGATGTAAAAAACAGAAGTTAGGTGA
AATAAATTAAGAATAATTATTTTGGAGAAAGAGAGGGTAGTGTTTGACTAAATTAGAAACATTCTCTGAGTCTTAGAAGCGTGAATGATTTAAATGAGGT
TCCAGCATAGTATTGCATGTGGTTTCTATTTTAGAGTTTTCCCACTTGAAAACAAACTTTGAGGATTTTTATTGAAGTCCATCAGTTTTAACTTACTCAA
AGCTTAGCAGCCACCTTTTGCTTTTCTTCCCGTTCCCCCCACCTCATGCTGTGAAGAAAGTCATACACCATTGTGGTGTTGATTGAAACCTTTATTTCTC
CAGGTCTCCTCTCATAAACTGGGCTAAGAAACACAAAGGACATTTGACACTTCATGACTACATAAGATGTGCTGTTCCTCTCTCTTTCTGTTTGAAAGTG
ACTTGGCAGGGTGAAGTTGAGAACCCCTTGGAAAGGAGGAAGCCGAAATGCAAACAMAGTTGAATCATGARGTGATGTCACTCTGAACCAATTGGAGCAG
TGGTGTCATGTGCCTGGCAGCTACTTCAAATGCCCACAAAACAGGAGTAMTGGTTTAAGCTGTTTCCCTCTTCCCCTCCCACCACCAATCAGCAGCAGAC
TGCTAGAGGACAGATGCAAAACAGTTATTAGACCAGGCTTAGTTAGACATGGAGGATGCATCTTAACAAGTTAGTACCTTTTTGCAAAGCATGAAGACTA
ATTCAAAGTCTATTTTCTGGTTTTGCTCTACCAGTAYGGCCAAAACCATTTCTTTTTAAGTGAGAAGTGGGGATATGGTCAGGTTTGATTCCAGTTGAAG
TTGTGAGCTGCACAGGGCTGGTCTGAGCCCAGTGGCATCTTTCCAGGTGTCAGAGCCATGATTTTAAGCTCCTGTTAAATTCACAGTGCTTAGTAACCAT
AACTTCTTGGTTTCATGATCATAGGGGTTTTTGCATAGCTGCCACCCCCATTTTCTGTTTGTGATCCAGTAGTTAAAACTCCCAGAAAATATTTCTCACC
CTGGTTTAAATAAACAAAACAGCCACCACAAAAACAAACAAAAACTTGGCTAACCACTATTTTCAGGCATATTCTGAGAGAGAAAGAGGGGGAAAAAAAG
ACTAGACATCCTAAAATTAAGCAACATTATTTTTGGAATTGTGTTGTTTCTTATACTCAGTCATTTGTGAATGATGTGGTTCAAACAAAACTGAAACAAA
AATAGTTTTTCTCATTAAAAATATGTTTGTCGCATAGCCAGCACTCRGAACTAGGGAGGGTAACATGGAAGTATTGTCATTCTCGGGGCTGACTGGTTGA
CAGCAGCCTATACAGGAGTGGAGAATATTGACAGGGCTGCCCGTTCTCCCCAGGTYGAAGAGAGCAAATGCACATCCCTGTGTGCACGGCCACCTGGTTC
CTCTCCTCACTTGCTGGTGAGTATTGAACGGCTCACATAATTAGGCAGAACTCAGGAACTTTCCTCCCTATCTCTTTCACTCTTCTGAAATGCCCTTTAT
GTTTTCCTCTGCTCTTTCAGTCCCAGTGCCTTTTCTCTGGTGCAGCCTCATGGTTCGGTCTCACCTTCAGCTTTTCCTTCCCTCCAATACATCCTGTAAA
TTATTGTCAGACTTCTTYTTATCTAAATAACTCGTTTAGGTAAGGTACTCATATGTTCAAAATACCATGGTGGCTCCCTGTTCTCTGTGATGTGAAGTCC
TAACCATTAGACTCAGCTTTCCCCCAGGACACCTTGGCTTATCTTCTTGCTGCTTTCCAGAGGCATGGGCCATTAGGCTGGTTTTCTGAAGGTTCTGCCA
AAAGGCTGGGCCCTTGTCTCCCACCCCACTGCTGTTACTCATGTGTTCTCCCACTTGCTCGGCATTCTTTCCCATGCTTTTTCCTTGATCATCACTYACT
AGCTAACATCTATTTTTTCCTAAACACTCTGTTGCAGTTGTAGTCTGCAGTCACTCTYCTAAGACTTGATCAYCTATTACGCTGTTTCGTTCTTTATTTT
TTAACTTTTCTTCTTCTTTTTTTTTTTTGAAACGGATTCTCGCTCTGTCACCCATGCTGGAGTGTACTGGCACAATCTCGGCTCACTGCAACCTCTGCCT
TCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGATTACAGGCACGCGCCATCACACCTGGCTAATTTTTGTATTTTTAGTAGAATCG
GAGTTTCACCATGTTGGCCAGGAGGTCAGGTCGAACTCCTGACCTCAAGTGATCCACCTGCCTTGACCTCCCAAAGTGCTGGGATTACAGGCATGAGCCA
CCATGCCCGGTTGTTTTGTTCTTTAATTTTACAAACTTGGCATAGCTTAGAAGACCATATACAGTGGCACCATATACAGTGGCACCATATTAGTGGCACC
ATATACAGTTTTCCCTGAGAAAACTGGTACCTCCCAACAGATACCAAAATCTGGGACCACCCCAACAGATACCAAAATCCACAGATGCTCAAGTCCCTTT
TATAAAATGGTGTGATATTTGTGTATAGCCCATGCTCATCTTTCCGTATACTTTAAACCAGGGATCCCCAACCCCTGGGCCACAGACCAGTCCCGGTCCA
TGGCCTGTTAGGAACCAGGCTGCACAGCAGGAGGTGAGTGGCAGGCCAACTAGCATTAACTGCATGAGCTCCGCCTCCTGTCAGATCAGCAGAGGTCCTA
GATTCTCATAGGAGTGAGAACCCTATTGTGAACTGAACATGCAGGGAATCTCAGTAATGCCTGATGATCTGAGGTGGAACAGTTTCATCCCAAAACCATC
CCTCTCCCCCACCCATCTGTGGAAAAATTGTCTTCTACGGAACCGATCCCTGGTGCCAAAAAGGTTGGGGACCACTACGTTAGACCATCTGTAGATTACT
TATAACACCTAATACAATGTAAATAGTTGTTATCATGTATTATTAGGGAATAATGACAAGGAGAAAAGTCCATACATGTTTAATACACAAGCATCCTATT
TTTTTTCCTGAATATTTTTGATCTGCAGTTGGTTGAATCCATGGGTGTGGAGCCCTCAGATATGGAGGGCATGCTATACTGATCACCCCTATGGGTGTGA
ATGTTGGGCAGATCCTCCAGTGTCACCAGCCATGTGGCCTTGGTGACCTTTCCATACTTTTCAATCAGAATGATGATCTCCACCTCTCAGGAAAGTTGTG
GGGATGAAATGGTATAGTCTGTGTGTGTAGAGTTGTTAGGCTGGGGCCTGCCATGTTAAATGCCCATGAAGCAGGTAATTATGGTAGTAGTGGTTGATAT
CTTGAAATCAGGGGGATTCCCAAATTTCTACCCCAAATCTGGATGACTGCATATTGCGGGAGTTCAGTAAATATTTGTTGCACTAATACTTATGTGCATA
CGYTGAAATAATCTAAATATTTAAAAACCAAACTAACGGTAGGACTTTCCTCAGGGATTTAACGTTTGCTGTAGAAGACTGAATGATAGAATATATAAGC
TGTATTTTTCTTGTGATTCTACACATTGYCCATGTTGCAACTTAAATATTTTTGGAATGCAATGTAAAAGTGATTTACTGTCCTATAATTGTTTTCCTGA
AAGCAAAATGATATTTAAGTGAACTGCAATGAAAAATGCAACGACTGTAATTTATCRTTGAAGGGCATTTTCAAAGTGTATAGAATGACTAAAGCTTAAG
TGTATTAAATATTCTAGAGGAAGACATATTTAGGCTATAAATCTAGACTTCCTTTGGAATTTGTTTCCTTTTTCTCAGCCAGGTGTATGAAGATTTTAAG
TTCTTAGGCCTCAGTGGGAAGAAGATTTAAGGTTCYAAGAGTACATTTGTATCTCTTTTAAATTTTCTATTGTTTATCAGTGACATATGTAAATGTTTTA
GGGAGCTGTTTACTGTAACATTACCTACTTTAGCTCTGTGCAGTTGTCTGGCAACCAATGTGATAAAGACAGAGGRAAGTGCTGTATTTTGTTGCTGACA
AGTATATCTTAAAAGTGCAGGTGCACCTGAATAGGCARTAAAGTATTAAGAGCTGCTCCTGGAGCAGTTTGCTCTCTGTGACGTGTGAAAAGTCTACGGG
GTTTATAATTGGTCTGGCCATACGGCTGCCTAGGATTAGACTCTTTTCATATCCYACTAAACACTCTCCTTAGAAGCAAGCACAAGGAGATAGTTTATTT
TAAAATGTAATTGCTATGTTACTAAGATTTGAATTTGAGTACCGAGAATAAACCATATTTCTGTTTAGAGGCTGGTTGGCTTAAAATTGTGTCTAATCCT
TCCCCTGCCCCCCAACTCCGAATCAGAGAATGAATAACAAATAAACATGACAATGAAGTCTCATGCTGTTGTTTTCATATTTGTATTTAGGAGTTTCAGA
GCAAATGACTTGGAAAACAGGCAAATCCACTGACATAGGCATTTTTAGCCACCTTGGAATCCGAGGAGGGATTCTGCACTATGCCCTGTAACCTCGTYCA
CATGCCGTTTGAATGTATACCATGAAGACCCCTTAGCTCAGGGAGCTTTGCTCTATTTAAGTAATGTTTATATTCTTAATGAACCAAAGAGGAAGTGGTY
ATGGGAAAAGAGCCAGGACTAGATTTCATTCTAATGCTTATAAGGAGAGTTCTAGGAAACCCTCAGACTTGGTAAACCAAGGCATTTGGAGATACTATGA
ATTGGTTTAAAAGGCCATTTACCACTTCTTTTGTAATTGGCCTTTTAAACCAACTCTCACTTAGCTGATTAAATGTGGTCATTTAAACTGCTAGTTAACA
ATCGGAAGTGCAGTGGCGCAATCTCAGCTCACTGCAACCTCTGCCTTCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACATG
CGCACRCCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTTAGGCTGGTCTCAAACTCCTGACGTCATGATCCACC
TGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCCTAAGATTTCTTATTGTGGTATTCTGCAGTGGAGAATGGGAGTTGGA
AAGAAATGTTTTCTCCCACACCTGTCCCGCTCCTGTCTACTGAAAGCTGATTAATCAGTCAGATAGTGAGTTCCTATTGGTAGTAMGCCTCCAAAATTTG
GAAGAGGGGAGGTGGCGTGATGTGAAAAAGCAAGGCTTTAGGGAGAGATTCCCGCTGGGGGCATTCACCCTCTGGTCCAGCGTGCCTGTTACAGTGATCA
CTCCATAGTGGTTTTGCATGAACAAGACTGCCCAGTTTGCTTAGGAAGAAAACAAAGGACATAAGKTAGTTCTCATGTCTTCCCAGCACCCTAAATACTC
GGGCTAAACTTCCACAGTCAGACCGTCAGCTTCAGGAAGGGCTGCTGTTGGGAACTTTTTTTTTAGTTTGCAGTTAGTTCAGCTCCAGCCAAAAACCTAC
AAAAAGCCACTGCAAGCCCTCTGCCTGCTCGTATAAGACACCTTGGTTGGGCCCCTGTGACTGTCCATCCATAGGATGGTTGGCCATTGACTGCACAGAG
AGGTAGGGCAAGATAAAACGACTCATTTGTGGATCTGACTCCTTGTACTTCTGTTTGGATTCAAACAGAGGAAGATAGAGTAGTGGCCTTGGGAAACCGT
GGAGAGAGAAAAGGCATAGTCAGAATGTTTTCAGAGGAGCGCAGACTTTTCAAAACCCCTCTCATCACGTTCCCACTGACCTTCAGTTCCAGTGCTGTGG
CCACAGGGTGTCTGCACCCCAACTTCTTTGCCAAGAAATTAATGATCTGTGAAGACACACAGACATGAGGCGGACTTACTATTTAAAGGAATCCTGAAAC
GAATATTTTTCTGATACATATTTATCCTAATATATTTGCTGAGCATGGTTTTTTTTTTTTTTTTTTTCCTATTTTGGAGTTTTTGGGTTTTTTAAGCCTA
GGGAATGCCTAATATGTACTGTGGAGTGCATTTGTTCATTTATATCCCAGTGCATTGTAAAATCGAGCAATTCAGTGCCTTAGAATCCTTTCTGTGAACT
TGATGCTACGTGAACTACTTGAGAACAACTACTTTCAAGCCCTCCGAAGCACTCAGTTACAACTGTCGGTCTAATTGCACATTATTCTAATTCATTAAAA
AAGTCCCCAAGGGCTTCTTAGGATACTGCTCTATGTTATTAGAAGTCCTTCCAAATAGAAAAACTTTATTAATTTAAAAATAACCGCCAATTCAGACTTC
GATTCAAACAAGGCATTTTACCAAGTCCGGCTGAAAGAGCTTCTTACCACATCTGGCATGTAGAATGGCAGAAGACTATTTTTGCTAGATTCCTTGTTGC
TGCAGCCRTTTCTGATGTCCTTTTCCCCTTCACACCTTTCGTGTTACACATGTCTGAGATGACATGATGCTAAGTAACCAAAGTACTGCTGCGATGGAAT
TGCTCTGATGTTTTTTTCCAGAGTGAAAGCTGCTATTACTTTAAAAAAAAAAAAACTTGAGGTTTGGTTTCTTTCCCCCTCTATCCGGGTGTTATACAAA
TATGTAATTAAGATGTTTGGGGGTTCAGATGACAAACAAGGAGTCTACTTCTAAGAATGCATTTGCAAGCCAAAAGAGTGGTGAACCACTTCAGAGTGCG
GGTCTGTGGGGGATGATGTCTGCTTTGCTTCGTTTTKTGGAATAATTTTTAACATTTCTATTTAGCATTCATGATACTCTAAATAGAAGCAGGAGAACAC
TGTGGCTCTCGGATCCAGGAGAGGCAGGCCACGAGGGCTCCTGCTGTTTGGGGACAGTCTGTAACTCTAAATCTTTTTATATGCAGCAATTATGACCTTA
AAAATGGGTGACTCTAATACTGGCATTCATTGCCTAAAAATAATTTTAATGTGCAAATGCCAGAGACCAGGTCATCTCAGAAATGGACTAGAATTGACCA
CTGCTATGTTTTGGTGAAACCTGATAACCTTGCTTTTCTCCGTGTACCTTGTTTTTCATTGTAAAACTATTTAATTATGAAAATGAGAGTGTGAAAGGCA
AAGTATRATTGAATTTAGGGGGCAGTTCCATATAGTTGTAACAAACTGATTATCAAATGTCCACCATTAGTATGTTAAAATACGGTTTTCTAATACTGAG
ACAACAGGGATGGAGCAGCCTATCCACTGAAGTCTTGTTGTTTGTCCCTGCTGTGTCCCAACCTGGAATCTCTTTCTTCTTCCTTCAGCAGACCCTTCGA
GATCAGCTTAAGCTTCACTGCCTTAGAGAAACTTTCCTGTCTACCTGGACTGTCTTCTAGATTTCTAGAGCAGTGTTCCTGCCCTTTTCCTTTCTAAATG
GGGTGGGAGTTCTCAGAGAACTCATCTCCTTTATGGCTTTATCCATCACAGCCACACAGATAGGTTCTGTCTGGACCATCCTTTTCCCTGAGCTTTCTTC
TCCTTTGCCATGTGTTTTCATTTCTGCCAGACACTGGCACTGGGGAAGCCTCCCATCGTCTCAGACTCAGGGTGTGTGAAAAACAAACCTGCTTTCTGGA
CTCTACAGTTTGTGCACTAGCCTAAGCCGAAAATCTTGAAATCTGTCATCAGTGACTATTGTAGTCCATAGGAATACCCAAGACTGGGTAATTTATAAAG
AAAAGAGGGTTAGCTTTTTTTTTTCCGGCTCATGGTTCTTCAGGCTGTTCAAGCATGGTTCCAACATCTGATCATCATCTTTTTTTTTTTTTTTTTAGAY
GGAGTCTCATTCTGTCACCCAGGCTGGAGTACAGTGGCGCCATCTTGGCTCACTGCAACCTCCCACTTCTGGGTTCAAGCAATTCTCCTGCGTCAGCCTC
CCAAGTAGCTAGGATTACAGGTGTGCGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAAAGATGGGGTTTTGCCATGTTGGCCAGGCTGATCTTGAA
CTCCTGACCTCAGGTGATCCCCCCACCCTGGCTTCCCAAAGTGCTGGGATTACAGGTGTGAACCACCACGCCCGGCCAGGATCTGATCATTTTCTAGGAG
GCCTCAGGGAGCTTTTATTCATGGCAGAAGGTGAAGGGGGAGCAGTTGTATCATGGCAAGAAGAGAAAGAGAGACGCCAGATCTCCTGGTAGATAACTAA
CAGAGTGAGAACTCACTCTTTACTGTGGGGAGGGCACCAAGCCCTTCATAAGGGATCCACCCCATGACCCAAACACCTCCCACCAGGCCCCACCTCCAAC
AATGGGAATCACATTTCAACATGAGATTTGGAGGGAACAAACATTCAAACTATATCTACGACCAAATTTTCCTAATTCCTTTCTACTTAAATGCTTTCTT
TTCCATTTATTTCACCCACATCTGACCCTAGGATTTCAACGTGTTCTAAAATGAATTTCTTGCACCCATTTTCACTTTCTCTCCACCAGAATCCATCTCA
CCACCCACCTGCCAGTGGCATACTCCTTGCATAGACCCTGCTCTAGCATGAATATAGCCCACTGTTATCTGTTGTAGAACCTCACGCCCAGCTTCCCACC
CTGTGTGACATCTTCACCCTCTTGCCCTGGCTTGTGCCATCCACATTCCGATCTTGATGACTCTGGTTCTCTTCTCTTTGACGGTGGAGGGTTGATCCCT
TCCTTCCCCATGATCATAAAAGGTCATGCCAACACTCCTAAAACAAAAGATAGATTAATAAGAGAAAAACCTAACAAATTTATTATATGTGTGCATGGGA
GTCATACAAAATATGAAAACTCAAGAAAATGGCCAGATGGTTGATCCTTAAATGCTTTATTTATTGGTGAGAAGGTATTGGGGGTGTAGGAGTAAATGAT
TTTCAGGGAAAATGAATATTTCCCTGAGACAGCAATTTACTTGTAAATGATGCTCTTTAGAATTTGAACACGCTCCAGAGGCAGAAATTGTCTTGTGAAA
AAGTCTGTCTGGGTATGGTTGCATTCCTCAGTCTTGAGCTGGTGGATGGCAGGGTGCAATTGCAGGCCGTAGTGTTCCTCTTTGGGGATCTGGTTTCTAG
GTGGGTAAGGGAACTTCAGAGAACAGCCTTGTCCTGTGCTTTGCGAGAGACAAAGGATGAGGAAGGGGGGTCAGGGACCTTGAGGCTGCTTCAGCATGTC
AAGAGTGCCATGTTTGGGACGCCTCAACACTGGAAATAGCCTTCATTCCTCTGCTTCTTGGGTCTGGATCCTTTTCTTTAGACTCCAAGAAATTCTTCCT
TTTGCCCCAAACTCACATTGTTTTTGTCTTCTGTCCCTCTACTTCTATGTAATTCTATTATTATGCACAGATTCTGTGTGCCCAAGGAGACTGTAAACTC
CAGGAGGGCAGGAATTATGTCTTAAAACACTAGCGGTTAAACAGTTAAGAGGTGTCTTAAAACATTCCTGTAGCCCCAGCTACACTCTTGGGTGCAGGAA
TCACAAGTGCCTTATTCCCCACAGGGTCCCCAGCATATTCCAGGAGCTCATTATGTTTTTAAATGAATGACCTACTGAAGGCAAGAGACCAGGAAGGAAA
GTTTGTAAAAGTTTACATTATTAGATTACCCCTGAGATGTGTAACCTTCTCACGAGTTAGATTTCTTGAACCACTGCCCGGGTATTGTATTCCTACTCTA
GGAGCTTGAAGGATTAATGATAATCCTTTTACAGATATATTCACAAGTTTCTGTGAATGTGAATTAAGTATGTAGATCTTGATTGCCTTTCTTGAGTGCA
TGGTTTTTTTCTAGAAAAACAAATTTAAGTTAGGTGGGACACCTAATAAAGCTCTAGGCTCCTTTCTTTTCCTCTTTTAAGACACAGTTAATTACCTTAT
GCTAAGTTGGAATATAGGAATTATCTTCCAAAACTGTGTTTGCTTGCTGTGTCTACATAAAAATTGATACAAGGTATGCCATGGTTTATACAATTTCTGG
CACATTTACCTGGTCTCTGTTACAGGTTTGTGAAACCAATTTTTTTATTGTAAATAGTACGTTACCAGCTTAATTGCTTTAGAACCTAGACAGTCTATGT
CTGTGATAGTAATTACATTCTTTCATGACTTTGTTTGGTAACCTGAATGTTGAACTAGCTCTACAGATTTAGGTCATGTCTGATGCTAGCCATTCCTAGG
AAAAAGTGGTGAGGACTACATTATGGGCCTTTCCCCCTAGACTTAAAACTGTGAAGAAGTCATTTTGGGTTGAGGTATCCCCTGGTACCCTCTCCTGAAC
TTCAATAGAATAACATGATGTGGTGAATGAACCATATTAGAAAAACCAGCCAATCAGCCRAGATTCTTGTATTGACTCTTCTGATCTCCCTCTACCTCTC
CTTTCCCCATCTGCCAAACAAAGGGTTTGGAACAGTTAAATTCTAAAGTGGTGTCATTGATGGCTCTCAGTATTCTGTGGACTTTCCTGGTTGATTCAGT
ACTTGTGATTGACCTGGACCCCCTGGTTTGGTCCAGCCTTAGAGCGGGTTTGCAGGTAGACACCTTCCTAATGTTTGTTCCACGTAAGCCCCCGGAGCAC
AGTATTTCCATCAGCTATTTTGTRGAAGTGAGCGATTCTCTTTTGGTTGTAAACCTTCACTATTTCATGTGGGTGACTTGACAATGGCTCCATTTTTGAA
TGGCCCATTGATAGTTGTAGTCTAAAAATTTCCAGAGATTACACAAGGGTTTATTTAAAGGGAATGGGAATAGGGAGAAGGTATAACCTTTCCAAAACAA
TCTTTAAGGCAATTATAAGCTGTTAGGAAATGTCATGTAATAATAACACAGATACCCAAGCTTATATCACATAAATCATTCATTTTGCATGTTTTTGACA
GGGAGATTTATTTTCCAGGTTAAAAACAAAAAAGAAAAATCTTAAAAGCTTAAGCTTTTATTGTTTGCTTTTTTTATTAAAAAGTAATTTGGAGCCAGTA
ACTTAACCTGTTTTTCATAAACATGCTATCTAGAGGCAGCCAAAAAAATATTCATGCTTGCATAGTCAGGGTCCTCAAATGAACTTATGTGTTGGATCAT
GATAACTCTGGTAATTACTCGAATTACCCTTGTTGAGTAATAGTATGGACCCTGAATACAAGGGTTTGATTTATGTGGCCAGCTCTGTGCTGCTGGGTTT
ATGAGGACTTGCCAGATGTCATCTCCTAATTAAAATCCTTCTTTACCCTTAATATCCTCTCCTCTGTCCCCAAGAAATTAATCCATTCTATTGCTGGAGC
ATGTAACAGCTGATGTTGAAGTTACAAGTTTACAGCTTGAACTTTGCCTAGACTGTACCTTTTTTGGGAAAGAGTTTGCAAAGCTTTTAAGCCTGACTCT
TGTCTTTAGATCACCAGCATCACCATGGTGCCTGGCATCAGTGGAGCCTCAGCAAGTGTTTATGGTGGAAACCTCAGAAGCTGTCACTTTCTCTGGCTGT
AACAGTTGTCATCTTTGTTTACAGGGAAAATGCTCTTGAGAAAATGGAGGTCATTAAACACTCCAGCTTCAGCAATATCATCAGAGCTTTCCGTCACGTG
AGTTATCTCACMAAAGGGTCAGATTCTGGTAAAAACTCTTGCCTTCACACTTACTTCTGTTTTATTTTGCCTTATTTGACATTTCACCAGAATTGATCCA
TAGGTTCAATAAGGCTCCATTCTGTTGGGACAAATCAAGCTAGAAAGACACTGAACTCTGGGGGTTACCAGAAATATCTGAAAGCAAAGCAGTGACTGTG
AGGTGGGAATCTCTCTGAGAATCCTTTGCAGAACCATGTAACAGCTCTGCATCACTAGACGAGCCAAGCGAAGTGGTCCTGGATGGTTCAGTAGGCTCAA
GCATTGAGGGTCCAGAGCATCCTTTGCCCCTGGACATGGAAGGGTTTTCATTGGGAGATGGCATTTAGGGCATCCTTATAAACGAGCAGGAGTAAACCTA
GCAATAAAAACCAAACCTCTGCCTTCAGAGGTATATGCTATTACTTCTGCTTAAACCGTTGTCAGAGCTAACAGTTTTGGTTAGGGATTTTTGTGGGTCC
AGGGCACGCCCAGACACCCAGATGCTTCTCTATGTTTGTAAGATGGCGAGTGTTGAGATGTCTTATAGGCTTATATTGAGTGAAAAGGAATAGGATCCTT
TGTCAGTAGTAACTTAGGCTTTTTAGGTGGCCAGGGCAAGAGAACACCCCCCCTACACACACACACACACACACACACACACACCCCTACACCCACACAC
ACCCACCCCTACACCCACACACACCCACCCCTACACCCACACACCTTCCCACACAAACCTACACCCACACACCTTCCCACACAGACCTACACCCACACAC
CAGGATTTGAAGGCTCTGCTAAGAGGCTACAACAACTGTAGCATACAACTAGCACACTTGTTGCTATTATGTGTAGGGGACTAGATGGAAAGAGTGCAGA
TAGGACTACCTACCATTCACCCCTACCAGCGAAGTGGAAGCACTCATCTTCTTTCCCTTCTTACCYTTTCAAAGCAAGTTGTTGAGGGATGAAGAGGAGA
GTGACTTTAATCGTGGCTTTAAGTAGAGATTTTCTTTAGGAGTAATTGTTTCTCTCGACAGAGTGGATAGGCTTCCATAGTTGTCTTAATACCTTTTGTC
CACCCCAAGGATTGACCCAGGCAAGGAGGATGAACCCTCCTCAATTTGGGAAAGTTAAATTTTAGGCACAGCAGGTCAAAGAGTAGGGAAGAGCTGCAGT
TGTTGGAACCAAGTGACATTGATTTAGTCTGGAAAGGAGTCACAGAGGAATCAAAAGCCAGACCCTCCTGGCAGCTTTAGATGTGGTTGGGGTCTGGGAA
TAATGCTGGTCCCAAAATCACCTCTGGAACTAACTCCTGTAAAATGAAGCCTCTGCATCCTTCAGTAACTTACTTAAAATTTTGTTAGGGCTGCATTTTC
TTCAAAGCCAAGTTCTGAATAAGAAGTATTTGTTTTGGRCTCTAGCCAGATTACTGAAGTATTGTTGAGGGAGATTTGCTGTGGAAGGKGTTGGGGGTAC
AGGGATTGTGAAGATAATGTAAAATATTTAACATTTTAAAAATTTTCAGTAAGTTCTCTTTCCCCAATGTCAGCATGACTTCTTCATTCATGTTCTTCCA
TCACTCTCCATTCAGTTAGAATCTCAATTGTGTAATATCAGTGGTAGCGACAATTATGAAATTCGTCCAGTGAGGAAAATCCGCAGAGCTAGAGCCCAAA
CCAGCAACTTTGTAGTGAGGATGACCCCACTGGCCGGGGAGAAACTGAACTGATTTTTTTTTTTCTCTCTCTCTCAGCTTTTTATTTTGAAATAATTTTA
GACTTACAAAAAAGTTGAAAAAGCATCCAGGCATGGTGGCTTATACCTATAATCCCAGTGCTCTGGGAAACCAAGACAAATCTCTTAAAGCCAGGAGTTT
GAGACCAAGCTGTGAGACTATCTCTACAAAAAAAAAGAAATTAAGTAGCCAGCAGTGGTGGCACGTGGCTGTAGTCTCAGCTACTTGGGAGGCTGAGGTG
GGAGGATCGCATGAGCCAGGAGTTCCAGGCTGCAGTGAACTATGATCATGCCACTGCACAACAGTCTTGGAGACAGATTAAGACCCTGTCTCTTTAAAAA
AAAAAAAAAAAAAAGTTTGTAAAATATCACCCAGTTTTCCCTAACGTTAGCATTTTACATAATCTATACACCAATTCTCACAGCCAAGAAATTAACAATG
ACACAATACTGTTAACCATGGACTATTTGAATTTCACCAGTTTTCCCACTAATATCCTTTTTCAGTCCCAACATCCTTCATTGTGTTTACTTACTATATC
TAGTCTTCTCCAGTCTGTAAAAATGTGTCTATCTTTGCTTGTTTTTCATGACCTTGATATTTTTGAAKAGTATGGACAGGTTGTTGCATAGAATGCTCCA
AATTGGTTCTAATGTTTCTCATCATTAAACTCATTTTTATACATTTTGGGGAAGACTACTACAAGATTGACATTGCATCTCAGTGCGTCACATCTGTGTG
ATGTCAGCATCTTACCACTGATGATCTCTTAGCCTTGAACACTTGATTGAGGTGGTGCCTGCCAGGTTTCTCCAGTGTAAATTTTCTGCTTTTCGCATTG
TTACTGATATCTTAGGGCTGATACTCACAGTATGYAGATGTCTCGTTTCTCTTTTTTCATATTTCTTTTCTTTTTTCTTTTTTTGAGACAGTCTTGCTCT
GTTGCCCAGGCAGGGGAGTGCAGCCTCAGACTTCTGGGTTTGAGCAATCCTCCCATCTCAGTTTCCCAAGTAGCTAGTGTGCACCATCACTAATTAGTGC
CCCACCAGTTTTGTTTGTTTGTTTTTTTGTTTGGGCAGAATCTCGCTCAGTCGCCAGACTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAACCTCCAA
CTCCCTGGTTCAAGCAGTTCTCCTGCCTCAGCCTCCTCCCAAGTAGCTGGGATTACAGGCAGGCACCACCACACCCAGCTAATTTTTGTATTTTTAGTAG
AGACGGGGTTTCACATGTTGGCCAGGTTGGTCTTGATCTCCTGACCGCCCACCTCGGCCTCCCAGAGTGCTGGGATTACAGGCATGAGCTACCATGCCTG
GCCTTCACCAATTTTTAAATTTTTTGTAGAAACTCACTATGTTGCCCAGTCTGGTCTCGAACTCCTGGCCTCCCACCTCAGCCTCCCAACCACAACTGGC
CRAGGTCCTGTTTCTCATCACATTGTCACTCACTGATCTTGTCATGCTTTGGTGGAGCTTATCTACAATAATTATTACTGCCATGCTTTAATGGCAATTT
TCTATCTTATTGTCATTTATTCATTGGAATTTTTACATAGGAAAGACCTGCTCCTTCTCAAACTCTAAACAGTTTCATTCACCATACTTTTCTCCAGGTA
ACTTTCTGGGTGGCTGAAAGTGACTTTCAAAGAATGGAGATATCTTTTCAATGTTGAGAGAGTGGCAGTCTGCTGGTTCCCAAGATGCCTTCTTCACCTA
GCATTGAGACTCTGCAGAATGCCTTGACCACAGTTGTGATTTGGATCTGTTGGCTTGCAAAGCCCATTTGAGAATTTACAAAATCATTTTCACGGCCTGA
GAGTCTTTTAGGTACTGATTTTTTTCATCCCTTCTTTACTAACAGACTTTATTTAGTAGAGTATTATTGGACAGGTTTGGGGTTCACCTTTATGAGAAAA
AACTTAGATTTTCTAATTTCAGCTTTTTTATTTTCTTCCATCAGTGGGACAAAGTTGACATCATTGCCTAAAAGTAATTTCTGTGATTATCTGTGTATTT
CAGTTAACCATGTTCTTTGGACTCACTGTGGTCTTCAGCAGGGATGGTGGCCAAACTATGTTTAGAAAGATAAAAATTAAAATGACATCTGCATCCTTCA
TGTAAACCCATAAAAAATAGCACGTGACCCTGAAGATCCTCTGCCTCTCATTCCAGGCATTACAATTGAAAATGCTATCTGGGATGTTAAAAACTAAAAC
TATTCTAGGACTTAGTGGAATATTGATAGTTAGGGAATGCTGTTTGCTTTCTTGAATTTTGAACCTGTTATTGAGAAGGTAGATGCGCCTGTTTACCCCA
GGAAGGCTCCTCTTTGAAGACAGTGCCCCTGGAGCACATGACCTTTTCATGCCCTTGCCTGTCAAGACTTTTCCAGTACTCTAAGGTCAAAGGGCGTTGG
GCCAGGCTGATCTAATCAGGGTATTAACCTTGCCCCACTCATCTTGATTTATTCCTAGATCCCAGTTCCCAGAGCATCCCTTTAGAGCCTCAGAAATGGA
ACAMAAGACAGCTGAAATAAGCCCGTGGCCAAAAGGCACTCTGAGCATGAGGGAAGTAAGCAGGCTTCCCTGTCACTGCTGAGGCTCTGTCATCCAGCCC
CAGCTGTCCTCTTGTGATCACTCAGCAGACCCGGGAAAAATTCAAGAATTTGTTTTTTAGTGTCAGTGGGAGACGTGGGGATCCTGCTTTTGCTGGGAGA
GCTTCAGTTGTCTGAGTCCCCACTCAACCCCAGGCTCCTGCCAAGGCCACCAAGGGCAGGAGCACTGGAAGGCTGACTATGGAGTGAAGAGGCCACTGGG
TTTCACAAACAGCACTGTCAGCCAAAGCTGTAGCTTGTTAGCCATCCAAAAGAATCTTGCACCTGCTGCCAGTGAGCTTACACCTAGATGACAGCTGGAG
CTGACACTCATTCAGCCCTTACTCTATGCCAGGTACTATTCTAAACACTTGCCATATACTCAGTTGTCCCACAGATACAACTATTTATCCCCACTTTAGA
GACAAAAAATTGAGGCACAGAAAGGTTAAGTAATTTGGCCAAGGAAGTGCAGCTAGTAAATGGCAGACCTGGGGTTTGAACCGAAATCAGTGTGACTCTA
GAGTACCTACTCTTAGACCCTACTCTCTACTGCCTCTCATTAGAAGTCTCCCCCACCTCCCTACCACCACCATCACCACCCACCCTCCCAGCCACATATA
TGCTCACACTGGGTGGTTCAGATGGCTAGAAGTGGCAGCTCAACCTTGTGTGCCTCGGACACGAAAATATTAGGTTCAGACACCACTCAGACTTCACATT
TTCATTAGTTTTGGGTAGAGGAATGAGAATAAATATTCAGCGAGACAGCCTTTTCTAACTGCAAGATTGCATTCCTCTTCTTTCTAGATGCAGTGGCAAG
AACAGTACCCTGGATGGTGGAGCTGGTAGTGGTAGATGAGATAGAGCAGTCCCTTGATTCTGCTTTGTCCCCATTAATGACAGATCTGAGGGCATCCAGA
AGGAATCTCCACAAGCCCAGCCTCCACAGTGGCTGCTTCCYCTACATGGTAGAGTGGTGCTCACCTCCACTCCTCCATAGATGCCAAGTCATCTGTGGTA
TAGATGTGGATGTCTTTGTTCAAATGGTCCTTGAGTCTTTGCTCAGATGATCCTTGGTTCTTCATTTCACCTGGGAAAGAAAATAATTTGCCTGTTGTCA
TTTTATCCATAATATTAAGAAAACTTAATGGCACAATCTAAGCTTTTTACCATGTTATTTATCATGGGATTACTTTTTTCAGGTGTCTTCTGAACACGCA
GTTGTCCCACCAAACTTTGACACTGCCCTTGTGATTAATTTTTGCCTACATTAATCACTCTCCCTTGTTTTAATTGCACATTACATTCTTTTCTGTCCTT
CCCGGACATCTTTGCTAGCACAGTGAGTGCAGGGAGGACTGTCACGGACTCTCTCCCCTCTTGAATGGGGGCATTCCAGCAGAGTGTGTTACATGAGCTC
AGAGCACATGATGTGAGAGCCTCGTGATGAAAGATACTGCAAAAACAGTGCGCACTGTTATCAAACCTGACTGCCTTCACATCTTGCTTTCTGTGGTGCA
AAATAAGGTTTTTATAGTGTCCTGTTTCTTCTGTTATCATCTAAACCAATGGGGAACGGTGAGTAAGTAGTAATCTTCAGAAAAGAAGAAAAGACAGGGA
GGAGAAAGTGTACTGGAGGCCTGCTTTACCATTAAGTTGTTAAGATGGAGTCTCACTCTGTCACCCCGGCTGGAGCGCAGTAGTGCAGTCGTGGCTCACT
GCAACCTCCAACTCCTGGGTTCATGCAGTCCTCCTGCCTCAGCCTCCCAAGTGGCTGGGGACTACAGGTGTATGCCACCACAACTGGCTAATTATTTATA
GAGATGGGGTCTCATTTTGTTGTCCAGGCGGGGTTTTTGTTTTTTGTTTTGTTTTTTTTTTTTTTTTGAGGTGGAGTCTTGCTCTGTCACCGAGGTTGGA
GTGCAGTGGTGCAATCTCAGCTCACTGCAGCCTCTCCCTCCCAGGTTCCAGCAATTCTCCTGCCTCAACCTCCCGAGTAGACTAGCTGGGATTACAGCTG
CGTGCCACCACGCCTGGCTAACTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCGCC
CGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGACACTGCGCCTGGCCGTCCAGGCTGGTCTTGACTTCCTTTCGCTTGTAGCCTCCCGAAGTG
CTGGAATTACAGGCGTGAGCCACCGCATCTGGTCTCTAAGTTTTTTTTGAAAGTGTGTGTGTATGTGTTGAAAAACAATCTTACTGCCATCATATTGAAG
TTACCTAGTGCATTTCTTCTTCAGGGTACGAAGAAAAAAGAAAAGTATGTCCTGTGGTTGATAGAAATCAGTAAAATGGAGCCCTGTACGAGGAAGTGCT
GATGAGACTCCAACTAACTCCATGGAGATGAGCTACAAAAAAAAATACTGATTGGGTTCAAATCCTTGGCCTGCCATTTACTGGCTGTGCTTCCTTGGTC
AAATTACTTAACCTCTCTATGCCTCAATGTTCTCATCTCTAAAGTATGGAAAATAATTGCATCTGTGTGAAAACTGAGTTACTATACGTAAAGTTTTTAG
RATAGTACCTGACATACAGTAAGTGYTGAATAAGTATCAGCTAGAGAGAGAGAGAGTTAGTTTCCAGCAGCCTGTTTCTGTTTGGGGTCACATGTGGTCT
CTGTCCACCTGGCTTTTTAGGCCTCTCTTACCTGTTCCCTGTTTATCCTTGCCTGCCCCAGGGAGGAGTTTGAGTTGGTACATCCTGACTGGGTACTCTG
CCTGTGGTTAGCAAATACTCTGCATGTTGAGTGCTTTCAAAATACAGAAACAARCAACTTGTGGAGGCATTGGAAAAGTGTGTTTGAGAAACAAGCAGCC
TCACCATGARTGGGAGTTTGTTTCCCTTTCTCGTCTTTCTGGTCATCTGCTGCACGGGCAGGAGGAGCTGTGGGTTGCTTTTCTTCCTTGGAACATGGAG
CACCACTCTCCCCTGTGCTGATACACTTACAAAGAAGTTCACCTACTCCTTGGAAAGTTCTGGAAAAGGGGCTTCTACACTGTTGGCCTCTCGAGGAGAA
CGGTTTTTGTTTCTGTCTTCCTGGAAAAGAGGTGACTGCTGGCATCATCTTTCTAGATAAACTSCTTGCTATGATGCCATTAGAAGCAGTGTTCTTTTGT
GTTTTGCTTTTGTTTTTCCCTGTAGACAGGAATAACATTTTGACTAGAAACTTCCCTGATGTAATAACGAAGATGGCCTCCTTAGAAAGTTCCAGAACAG
ACCCCTTCACCTCTGTCCCCAGAAGCAGAAGTAGGTGATGCACTTTCTTGGCAAGCCACATAACTACCATTTCTCTACAATCGAAGCTCAAAAATCTGTG
CTTGTATACGTTCATTTTTTGTTTTTACTTCTTTACTTCCTTTGATAAGACAGAAACTTCTGTATTAAAACTGATTTAACTCTGAGGGGCTAAGTGAACA
ACAATCTGTTGTCCTATAGAGGTCAAGGCAGTGCTCACAACAGGATCATTGTGCTGCTGTAGTTCAGTTTAGGGGACGGGGAATGTTTATAAAAACAAAG
TTTTGAAATGAGGACAGGGAAAGGCTTTGTTTACCTGGGGCTCTAGACTTAAGGTACTCATTTTGCCTGCAGAATAATGAAATGCAGAGTTGTAATTAGA
AAAGGTTGATGTAATTGATGTGTTAACAATTTTTGAGGTTTTTCTCTTTCCACTTTAGGACAGTCATGCAATTATTTTTCTGAACCAAAATCAGAACCAT
CAGTCGAAGGCTAAAACAGGCCTGGGGAAACACTGTCTTTTGGCAAAGAAAGACAAAGATCCTTGTTCTCTAGGCCAGTGTGCATATGTGTGTAATGCTT
TAAAGAACAATTTTGACAAGAACTCTTAGGATGCAACTTGTAGAGTGATTTTTAAGGAGATGCAGTAGGATTTGTGCAAGTATTCTGCTATGAGCCTAAG
ATTTTCAACATGGAAATCTAGCCATGCAGTGACTCGTTCACTTTGGCAGTGTCTATCTTAGTCTGGGGGTGAGCGTTTGTAGAAAATATTTAGAGACTCA
AGTACACTCATTTGAATTTTTGCTGTTAGCAAATAAATGGCAATATGTGTAACGTGGTGAATGGGATGTAAAGCTGTCTTTATATTACCACGGTTAGAAT
TTAATTTTGAAAGTTGCAAGTCAAACTGCTTCCTCTTGCGTCATTAAGTTGTGCCTCTTGTTTGCTCACCGGCATGTGTGTCCTTGTGTCATTTTGGTTG
CTGTGAAATTGCTCTTACCATTCTTTCATCCTTCAACCTGCTGTGCTACAATCCTAACATGCTGTTTTTGTTGAAAATGCATTCACTCTTTTTGGCATCT
TTTTTCCCCAGAAAGTTAGAATATTGGGAATTCATTGGTATTAGTGAAATTCCCACCTAATGCAGCAGTTTTTTTCTCTTACCTGCATAATAGACGCAGA
ACAAATTAACTCTAAACGGATTAGAGCTGTCAACTGACAGATACTGTGCGAGATACTGAGGAAGCCTCAGAGATGATACCAATAAACAGGACAGGGCCTT
CTGGTCGTGTTTCTACTTCTCTTATTGGTTTGTCTTAGCAATTTTGAATTGCACTGAAAACGAAATTTCATAGGTACACGATACAGTAGTTAGTTTTAAA
AGTTTTTAAAATATTAAAAAATTGAAAGTATTTAAAATATTTTWAAAATATTTTAAAATCTGCTGTGTGAGATAGATAGGAGACCTAGCTTTTCTTCCTT
CTTACCTTGATCCATAGAGAAAGCAACCCTGAAAGAAGAAAAACTCACCCATTTGAGCTTTCTTTTGTTTCCACTGAGCAATACGGAAGAAATTCACCRC
TGGTTATAGGTCTTCAGTGCTTTCTTCAGAGTGGGATTGTTTTTTGTTTCACCATAAGTAGTAGTCTATTAAATTAACAGTTGCTAGAGAAGAAGCTGCA
TCTATATATGCAGTTCTCTTCTTGTCAAGCAGTATATTTTCACGATAGCAATGAAAAAATTCCATCCTCACCAGCCGCTGAAACATAGTAATACTGCAGA
AATTCCTGTGAACTATGCGTTTGCTGCTTCCTTTTGTTTGTTTGTTTTCAGAGCAGATGGGCTTGTTTGCTTTTTGCTTAAACATTAATCAAAAATCAAT
TTATGGCTATGTAAGTGGCATTAGATAATTCTCATTCTGACTACAGTAAATAATATCTATTTGTTCATGTTAGATAAGTCTGGGCGGCAGTGGAATGTAA
AATAGAATTACATGAGATATGACATATGGCTATGTGTTTTATAAATTAATGCTTTTATGCATGTGGGAGGAGAAGTAATTTAGCTTACTGACAAAAAGAA
AAGCAAAGGAAATTCCAGAGAAAGAACAGGATACCAAGTCTAAATAAATTTGGAAGACAAAGAGAATATCATARTTTAGTTCAATCTTTTAAACAAATTG
TCACAATTTATACGTTGGGATAAGAGAACCATGAGAAAAGGTATATTCTAAGTCCTGAACATCTTTCTATACCCTGAAGATGTTTTTATAGCTCTTCTGC
TGACTCCCTGCCAAAAAAACTATTTACGGTTTGGGGTAGGGGGCGTGTCATGCCATACAGCTAAATACACTTTTTTCCTAATCTAGGAGGCATGTCTACT
TACAAATAAATTGCTTAAACTAGTTAGGCTTGTGTAAATGTAACTGACATTTCCTTGAGATCAGAAAAAGTTTTGCTGATTAACTATATTTGTGTGTGTG
TGTGTGTGTGTGTATTTAGAGAGAAGGAGGGATTTTATAATTATTACAATTTGATTTGAAATGTCTAGAGAAAGTGAGAGATTATGGAAATTACCATAAA
TGCTCCCTTTTTCATAGATTTAGATCTGTTAATTGCAAGMAATCTTTTTTTAAGTGAATCAATGGGAACTTTTTATTTCTTCCCTAAGATTCATTTAGCC
TTGAAAAGGCCAAAAGTTGAATGAAGCTTCTAAATGCCAATCTTTCCCTCCTTCTGTTAAAGAGTATGCTTCAACTATAATTACATTTGCATTGTTTAAA
ATATTAGTAATTCTACAGCCAGACCTCTGAGATAGCTGAGAAACCAAAAAGTGAAGTTCAAAGACATCATCAGGCACCCTCTCCACACACAACATACCAG
GCCCACCAAGGAGTTTACATGAGTGTTTTTGCCTTGTTAGCCGTGGAACGACCTGGGCAGTACCCAAAACTTAGCAAACTCTTCTTGTACCTTGTATTCA
GTAGACGGTCAGTAGCACCGAGAGTAGGGAGAAGAGTAAATATGTTTCTAATACTTTATTCAATGTATGTTGTTAACAGTGTAGACACTCTGACTTTCCT
TGTGAATTGCGCCTCAGTATTTAGTTTTCATTTACCCTGGATCAGATAGGGCATGATAACCTTTGAGGGGCTTTGTGCATATGTAATTTGGAATCTGAGT
CAGTCGGGCTGTGTCTCTCCCAACTTCCCTTCTCATATTCTTCTCTCTCCTCCTCCTCCCCTCCCTCCTCCTCGCCTCCCTCCTCCTCCCCCTCCCTCTT
CCTCCCCTCCCTCCTCCTCCTCCCCTCCTTCCTTCTCCTGCCCCCTCCTCCTCCCTCCTCCTCCTTCCTTCTCCTCCTCCCTCCTCCTCCTTCCTCCTCC
CCCTCCTTCCTCCTCCTCCCCCTCCTCTCTCCTCTTCTCTCGTTTCTCTTCTCTCTCTTCTTTCTCTCTTCTCTCTCTACCATTGCTGTCAGTTGAGATG
GGCCTGTGCGGCACTTTGTTTGCAGTTGATTGGCAATCTTCTGTTCTACTACTGCATCTGAATCATCACTTGCTTCCACCAGTTCTCTGAATGTCTTACC
TAGTGATCCTGGTGGGGAAATTACAGTGATTAGTGTTCCAATTCTTGTTTGCCCATAAGTGTTTCAAAGTAGTATTTTTAAAAACTCTTCTAAGACATTC
TCTCTTCTCATAGTAGATGCAGTGAATCTTAAAGGTGCCCTAACTAAAATTTTTGTGCTATAAAATTGGCAGCTTTACAAAATAAAAGGTTCGAGATATG
AGCCTGATCAAGGCTCTGCATTTGCAACAATATCCTTGGTTTGCCTGGCCCTGTTATATTTTGCTGTTGTGATATGACTCCTGCCAGTGCTATTTCCATT
TAACCTTTGTTTTTCTAAAAGACAGTAATAATTTTTCATTTCTAGGGAGTCTCTGACATCAGCTAAAGGAAAGACACTTTTCTTTGACTGTATATACATT
TCTCCCCATTTCATTAATATCAAAGTTGCTCTTTCAAATGGCTTATAAAATTTTAAAATTACACCAGTTGCATAAGCCTGCATAAAAAGCAGACTCCTAC
ATAAGCTGACAATGCATTTGTACCGTGGTGTTGAGCAGTTTTAACATCCTCCGTGCCTCTGTGCTTCTGCTAGCTACTGCTCTGATAAAGTTATCAAGGT
ATCATTGGATGCATTGACCAGGATGAAGACACAACAGTATGGCCTTATTAAATTTGGAAATAATGAACAGACGAGTAGAGAATTTAGGAGCAATATAGGC
AAGCTTAATAGGTCTTTACTTTGGGGCCTGTAACTCCAACTACATATGGAAGAATTTAAGTACAGGAAAAGTTAAGCTCTTTTCCCAGTAGTTCTGCTGA
CAAGTTGGGTGACTTCGGGATGGTTACCTCTTCATGATACCACACGGTGATGGTAACAGAGGCACTGTCCAGTCTCTGGTTCATGCACACTGGTCTTCTC
AGGGGTCCCTGTATAGGTGACACAGTGGAGAACAGGGCAGTACTGCCAGACTCAGGGACCCAGTTCATCGAGAGGGGCAGTGTTTCTCTTATGCTGCCTT
AAAGGCATTGGATGCCTTTTGGAAAGCCAGTGGACARCTCCTGCATCCACCCAAGATTAATGTTAACAGCTTAAAGAATCATTGCAATCAAGGGAAATTT
TGCAACACTTTGTTGGGATATTTTTAAATAAATGTGTGAACACCTTGTTTTAGGCTTGCTGAAAATGACCCAGGAATTCCTTGACCCGGGAATATAGTGT
ATGGCTGCCAATTATTATATTCCTTCATCAGACAAAGGCGGAACAGTTCACTCTTTTTCTTTTTTTTGGACACAAATTCTCACTCCCTCACCCAGGTCAG
AGTGCAGTAGCATGATCTCGGCTCACTGCAACCTCTACCTCCTGGGTTCAAGTGATTCTCATCCCTCAGTTTCCCAAGTAGCTGGGATTTCAGGCRCGTA
CCACCATGCCTGGCTATTATTTGCATTTTTAGTAAAGACAGGGTTTTACCATGTTGGCTAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCTTCTGCC
TTGGACTCCCAAAGTGCTGGGATTAAGGTATGAGCCACCTTGCCCGGCTACCGGACAGTCCACTCTTTACAGGGGGGCGTCTTGGTATAAGTATGGAAAG
CTCCGTAGATGCCRTGTCAGTCCATACCCTCACCACCTTCTTGACCCTGTGCCGATAAACTAAGAGATGTGGGCAGTGTACCATCTGGAAAGGAAAAGGC
TTTGGAGCCAGGTAGTCCTGCCTGCATTTGAATCTGCTTTCTACCACTTACTTACATCAGGTTTTCCTTGTCTATAAAATGGAAGTCCTTGTACCCACCA
CCTAGAATGGAAGTGAGGATTAATCCAGACCAACGATGAAGAGTCCAGCATGCAGGAAATGCTCGTTTATAACCATGGAAGTTTCGAGGACTTTTGAAAT
TCGATGACATTAACCTTTGAGGTGCATTTTAGTTGGCTTGTGTGATGAGGCCTTTCTACTTCTAGTTCCAGAATCGTCTGGATCTACATTATGTGGGAAT
GTTTATTCCCCCCTTTACTTTCCCAAAATTTGCTAAACATTTTCATTGCTATTTGAGTTTTTTAGGAGACATACTGAGATGAAGTTAGGGATGTGAAAGG
TTTACTGAGGATAACACCAATGAAAGGAAGAGAGGAGGAAGATGATGGGTGTGGGGAGCGGTTTGACCAGGACTCTGATAGGACAGACACTCTGCCAGCC
CTCCGGGAGCTCATTTGCAGAGCCCCCTGTTAGATGGATATAACCGGGCCCTGGGACCATTGCTGGGCTCAGTTACTGGCCAGGAGCTGCCTAGGAAGAG
TGTGACCTAGGCCAAAAGTTGAAGTGGACCCTAGAAGAGCTAGCAGCTGGAGGGCATCTGCTAGTGACACTCTGGAGCTGGACAGCAAGTCCTTTCTGAA
AGAGGATCTGAGCTGAGTATCCCTGTGGTCCAGTATTTCAAGTTGGAACCTCTAGGTTTGAAAAATACATGTTTTGGGTGAGAGTTTGATTATTCTTAAA
GGGACATATCTTTCAAACATATGGCTGTGGAAGAGGAAACTTGTTTTTGACTTGTAAAATACCAGCAGAGCCTTGCAGTGATCACAACTTATGTGAAATA
CAGACCATCACCCACAGTTTACGTGTTCACACTAAAGTGCCAGTCTCTCTATGGGTTTTAGAGCTGATTTAGATACATGCATTGCTAATACAGTCAGCCC
AGCCAAGATAGTGCCATCCTCCGCAAGCATCCAMTAAGGCATGGAGTCAGCTTCCGTCATTGTTAGATCAGTACTTGTTTCTTTSCCTTGCTTATTTTTC
CTAACCTCTCTGAACCTGCTGTGTTGGAAGCTTAAGGAACATCATCCTCTGTTGGGCAGAATTCTTCCATGGCCACCCCAGCATTATGCCCCACACCATT
TGACTTACTCATTTGTGAATGCCAACTCARAATGTATTGCTTTGATTCTTGATTAGGATCTCAACCTCTATTTATTGTTAAGACTATCACCCTTTGATTC
CCCCCCATCCCATTGTGTCCTTCTAAAGGCACAGAATAGAACATCTTCTGCCAGAAATAACATACAAATTTATCATCATACAACTGTACAATATGCAAAT
AACTTGCTAGATGATATTACTGAAGATTCTACATCCAATTAAAATAAARAGAGAAAACACCTTAAGATAACCATACTATTAAAAGATACAGAAGACAACT
GGAATAAATGGAAAGACATACCACATTTATTAGACAGGAATAATCATCATTAGCAAGATGGCAAGATGTCAGTTCTCCGTAAGTTTTTCAATTTAATATA
AATCCAAATACAACAGATTTTTTTCTTTTAGTTAGATTCTGAGGTTATCATTAAAACAAAAACAAACAAACAAAAAACTGAACAAGAGCAAGGAGTCCTT
ACCAGGTATTAAAAACTTCCATAGTGCCTAAATAATTAAAATAGTGAGATACCAATAGATGAAGAGACAGACCAATGGAACAGAATAGAAAGTCCAAATG
TAGATGCAAGTACCTGTGGAAATTTAGTTATTCGATAAAGGTAGCTTCACAAATCATTGGGACTAAGATAAACTCTTGATTTACTGGATTGGGGCATGTA
AATTATGGCCCAATCATGCCATGTTTCTTTTCTCTGGAAAAGAAAGTAAATTAGGTTCATACATTATACCATGTACCAGGCTAGACTCCAAGTGAATCCA
AGGTAAAAGTGTAAACAAAACTATGAAAGTCCTGGAAGAACACATAGCGAGTTCCTTTTTATAACCTTGGAGCAGAGAAAGCCTTTCTAGTTTCAACTCA
AAATCCAGAAGCCAGAAAAGAAAACATTCATAAAAATTGAATTTAAATTACAAAAAAACTTTCTGCATGGCCAAAAACCATAAGCAAAGACAGATGCCAA
ACTGAGAAAAATATCTGAAACTTCTATCACAAAGAGCTAATCTCCCTTGTTTAAAAAAACAAAGTAAAACAGAGCTCCTAGAAATTGTTAAGGAAGAGGC
TAACAGTTCAATAGGATTTGGGATGAAGTATTGAACAGATAGCTCACAGAAGAAGAAACACAAATAGCTAAGCATAGAAAAAAAGTTTGATTTCACTCAT
ACGAGAAATGCAAATTAAAACTACACCAAGATACCATTTTTTCACTTCTCATATTGGAAAAAATCCAAAATATTTGATAACACACTCTTTGGAAAACAAC
CCCACATGGCTGGGAGGACGGCAGAATAGCACATCTATAGAGGAGAATTTGGCAATATCTCTCAGGTTATAAACACGTATTCTTTGACCCACCAATCTTA
GAGGGGGCATTTACCCCATAGACTTGCACACATGTGAAATGACAGTTGTGCAGTTGTTCATTGTAGTGTTTCAAATGGCAAAAGATGAAAATGTCCCCCA
AATTCCATCACTGAGGGAATAAGTAAGTTAGGGTGATAGCTCCCAAGCTTATTTTCTCTTCAGAATCACCTCATGAAGAAAATGAAGGTCTGTGKGATAG
TAGCTGGCAGGTGGGCATGGTGGTGAGGGTGGTGTTTGAGCGGAGACCTGAATGAAGGTTGAGAAGGAGCCAGCCACTCACAGACACAGAGGAGGCCTTC
AGGCTGAGAGAGCAGAGAAGGACCCTGTGGCAGAGACAAGCTGGAAACAGCACTGCTTCCATGGTCTGGAGACTGGAATATGTGGGTTCTGCAGACACCT
GGGGGGGGCACCACCTGGTAAATCTGCCTTTCAGCTCTTGGTTCTTCCAGCAAACCATGCCAGCTGTGGCTCTGTAGCCATGTCCTCGGAAGATGGCAGA
GGTTGCAACGAGGCCTCTCTGAGGTGCTCTGGGAGCACAGAGGAGTCAGGTGGAACTTGTGGCATGTTGCCAAGGGAAGAAGTGATTTTTAGACAGAATA
GGAATTTGCCAAGAAGAGAAGTCAGAAAAGCATAACTGGCAGAGGAAGCAGCATACGTTACAAGTAACTGCATGTGTACAGGGAATCACTGAGTGATGGA
CAAGGGCTTGGCACTTGGTGGGGGGGGGTACCATGTTAACATGTTAGCAAGAAACTAGGTAGGGGTACTTGACTTGGGGGCAGCAGAAGCAGGTGTGAGT
GTTGGACAAGACGAGAACTGAGTGCTGCAAATGTTTGGCAAGACTTGATTGAGTGCATATTGTGGACCTGTGTCTCCACTGGAGACACAAATTAGAATAT
AACACCTTGCCCTGGTATGCTCAGGGTCTACTGAGGTGGAGAAACCTGCAAGTAGAGTCGGAGTACAGTGTTGAAAACACCATCTGCAACCTTAACACAG
TGCTACCAAAACCGATTTCGGAGCACTCCTGCAGGAAGTGGGCTGGCCAGGGCAAGGGAAGCCGTGGAGAACAGTGGCCTCTCCCGGGCAGGCAGGGTAA
GGCCTAGAAAGAATAAGCTGAGTGAAGGTTTGTGTGTGGCCCATCCAGGGACCTGCGACAGGAACACAGCGGCTGAGGAACGGATGCTTGGAGAGGAGGG
GGTGCTTTACATGCCAGGCGGGCAGGGCCGGGGTGGGGCCAGATGCTGGAGGAGAGGGYTGGCCAAGGGGTGGCAGAGAGGCCCCCCAGGTGGCAAGTTT
GCACCCTGTTGCTTCCTGCAAGGAGCTTTTGTTTACGTTTTCAGCTTGGACAGTCTGGCTGTCTGGCCAAGAGTGACAACGTGACTTACCATCAGAGCGA
AGCACCAAAGAGCACATAAATGAAGTGGAGATCCCTCCTGTGTCCAGCCTCCCCCTCCCCGTGGCCTTCTCCTACCTTCCCAGTCCTCCATCAGTACCCC
GGGGCCTTGCCAGAATCTCAGAAAGAATCTCTGGACTCTGGCTCAGGACCTCTGAGGTGATTATGCATCTAGAGGCATCCCCAGGTGCTGCCCAATTTGG
GGAAGCRGCACTTCCCGCTGGAAGCTGGGAAGTTTCCCCTGGCTGGGGGTCCTGTGAGGATGGAGAGGCCAGAATGAGGAATGGGTTGTGAGTCAAGACC
AACCAGAAGGGGACTTAGCAATGTCAGATGATAGCCTGGGTGAACTACATCCTGTGTGGAAAAGGCAAGGTGTAACTGCTTATTTCTTGTCAAGTGAGCC
TAATATCATCATGTTTCTTTTTATGCCTGCTCCCAAACTCAGCCCCTCCCAGTGAGATCACAGCTCCAGGAACTTGCAAGGAAAGGGACTAACGGGGCAT
CTGATTCACCCGTGTGCCCTTAATGGCGTATTGTGTGAATAAAGCAACAATTTTTAGYACAGGGATTTAAAACAACTTCTGCAAAGACAGAACTAAAAAT
TAATCTTAAAAGGTGGAGGGTTGGGGTGGAGGGCAGGAAAGAGGAGGAACTAAATTGCCATTCTCTTTGGAGACTTTCTAAAACCTAAGACGAAGAAGAG
GAGCCGAATTATGGAAACAAAACCTTTGCGGTTTTCCACAGAACAAAAATGATGTGAAGCTGCAAGTCAGCAGTTCTGGCGCAGGGGCTCCGGGGGACGC
CCGCTCCGCCGGCTGTGGTGTGCGCCCTTCCTGCTCTCCCCTCCGAGGGGCTGAGGCTCCTTTTGTCTGGCGCGCGCGCCCCACCCCGCCCCGGGYGAGG
GAAGAGGGAGCGGGCACCCCGCGCCCGCGCCGCCGCCGTGGACCAAGGTTGTTTACTACTTTCCACTCCGAATAACACGCCAATCACCAGGGCCCACCCT
CCCCGCCGGCCAATCGCTGCGTTGGGAAATTCCACCTTTCCGCGGGGCCCGGGCAGCGACTGGCTGGAGTGTCTGTCAGTCAAGTGGGCATCCCGCAAGG
ATGCAGCAGGAGTATTAGGGAGGCGATCACCAGAGCAGAGGAGGAGTAACCTTCCCCATAAACAAGATGTGTTCCCCCSACTAAGAAAGCGGGTGGAGGG
TGGAGGAGCCAAAACACATCCCAGCCCCGGGGCCCCACCGGAGCGAAGCGGGCCGAGCGCAGAGTGCAGAGTCGGGGAATCCCTCCCTCCGCCTCCCGCC
GTCGCTGCAGTTGTAAACACGTTTCCCTCCATGTCTGTTTTCCCTTCTCTCTCACCGTGGCCATTACGGGCTGCTGTTTACAAAAATCCTGCAGGCCTTT
GACACCCCGTCCTCCCTTCCCCCGGCATCCCTGCCCTTATTCTGGCTTTYTTCTCTTCCATCTCCTGGTGAGCACAGCATACTGTTCTCAGGCTTGTTTT
CCTTTTATTGCTCTCCATGTGGGACAGGTCATGCTTTATCAACATGTACCATTTTCTACAAATGCCGCCCTTCCTCTTTAAATTGCTTGGATGGGCAGAT
CGATTTTGATTAGCAACACTGCAGCAGAAACAAGKTGCATCTCTGGAAGGACTGGGTGGTTTTCTCGTTATTGTTGCTGGTTTGGGTCACATCGGATGCT
ATTTTAAATTCTGTGTTTTATTCCACGATGGGTCTTGAATCCTTTCCCTATTCCTAGGTTTGAAATATGTTTCCTCCCTTTAAAAAAAAGAAGGGGGGCA
GTATTGTGTTGAACCAAATGTTTTTCTACCTTCTCCTGTGATCTGAATCAGGTTTCCCATTTCCAGCAGTACAATGTGGTTGTATTCAGTGTGATAGGGG
CGTAGTGGACATGAATTATTTGCGACAGGGCTGCCTGGAAGATGCGGAGCGGAGTTTGCGTGGCCCGGAGCAGCTCCAGTGTCTGAGGCTTCTCTGTGTC
ACAGGCTCCAAGCAGGAAGCGCAGGCAAAATRGCAAAAYACAGCATGTGGCATTCAGTTCAAAAATGCCCTTTTTTAGAAGTCGGTATTCTAAATGACAT
CCAGTCTTGCTTAGTTTTTTAAGAGAAAGGAAAAATAATCTATGAAGATGGTTTGGAATATTTTGTGAAAAGCCTTTTCAGCATAAAAAAGATGATCTTG
AGGGTCTGGTTTGCGGAGTGGAGGATAAGCCTCCCTCCTGCGATTCTGAATTGCTTTTTGGTTTGTAGGAATTTCAGGAACATGTTGCAAAGCCGTGGCC
GCTTGAAAGGGTCGGTGCCCTGCGCCCCGTCTCAGCCCCTGCGGCCCCTGAACTTTTTCAGTGATGGGGCACTTGGGGAGAAGTGCGGGGAGTGGAGGAG
GAGGGGAAGGTGCATTGCAAATAGAAATGTAAGGCGTGGCCTGGGTGGCCAGGATGTGCCAGAGCAGCCTCCAGACCTACTTAAATCCCAGGAAAAGTCC
TGCCTCAAGTTAGGCACAACATCTGACTTGGATTTCTCTCTGTTTTTTTCTCTTCCAGTTGTCTGTCTGTGCGCCCTCTCCCACAAGGAATAGTTTTCCA
CACTGATGGAATTAATGCATATCGTGGTATTATTGGTGGAATATGTTTAACCTTTGTTTCGTGATTTGAGAGGAATGGTTCTTGTGTATCGTGTGGTGAC
AGCAGGTTAAGGAGAGTGTCAGAGCTGGTGCAGAGTTTTGCCCCGGGGCCATGAGGTTCTGGGCATCATGACTCTCTTATGAAGTTACAAAACKGGGCAA
GTGATTGAAGGCAGAAAGACACTGTAATAAAGTGTGCTCCAGTGATGTGTGCTCCGGCTTCTCTCCCTTACTCATCTGGGCCAGGTGCTTTCGCCACAGT
GAGCCTGGGTGTCCCCTGCCTGAGATGAGCACAGTGATGTCTATGCGAGGTTGTAGGACTCAGTGAAGTGCCTTAGGGATTTTGCCTGGCACTCTCCTGG
GCTCMTGAGGTGCCTAGGGCTGAGACTTCCCCTTCTCTGTCTGGTAAATCATCTCTCCCATTCTTTCTTCTGCGGCCCTTCATATGAGCTTTGTAATTTA
CTCAGGGTGGCAGGGTGAATTCATCTTTTGCTGGGTTTCTGCATCACCTGCTCCTTTCTGGCCAGGTCAGCCTGTTCATTTTTTCCATGCCAACAGCCTC
TAAGTGCCAGTAAGTCACGTCTGAACAACCAAAGCATGTTTCCCTGCGGGAGAATGCCAGGGCAGGCGGGTCTGGGAGCCAAGAGGATTTCTCCTGTTCA
GATAAGTCGGGGGAATAGAAGAGCCCTGTGACTTGAGACAAGCTTTGAGTGACACCCAGTGAATCTCCCATCACTACTTTAATCCCTGCCCCAGTGTTCT
GGTTCCCCCTTTCCTGCATGAGGCAGTACGAGTACCCTGGCCTGGCTTTGGGTTCTACACGGTCTGACTTTAGCCTGCCTTGGTCTTTGTTCCCCTCTCA
CTCCCTCCACCCCTGCCCCCCCCAACACATGTGGAGTACCTTACCCTGCCTTCCTAGTTCTGGAATGGCTGCCCCTGTGCCAGGCCACCCCATTTTCTAG
AACCACCTTCATACAGCCCCTGCGCATCCCACTGTACTATTTCCTTGTTTGTTTTTCCTGTCAATCTTGCCTTCCGCGCTAATGGGACACTGATGCTGTA
TGGTGATGTGTTCTCCCACAGTCATCTTYTCCTCCTGTGGTTGGGGTGGGGAGCTTTCTCTGTGTCCCCCCATGAGAGTGAGGACAGTCTCATTTAATGG
CACCATGGTCTGTGGAGCCAGGCAGGCCTGTGTGTCTGACTCCACTTCAGCGCTCTCAGCCAGCGTGGGCACCTCGGACCCAGACAGACGCCCCGAGCCT
GTCTTTCTGGAGAAGGAAGTAGTAATACCTTTTCCTTGAGGGAGTTATGAGGATTAACTGTGCCTGGCCCTGAATTCGTGCCTTGCAGGTACTTAGGAAG
TGAGTTATTACAAGCAGTGCTTTTTATCATCCATAGATGGAGATGTTATCTAYGCTATAGGACTGCAGAAAGAATTACAGAGAATTATGTAGAATCACTA
GGGACTTGATTAATATTTGTTTACCTTTCCCCCACATGGATTGATGTCCTTTATTATACTTTTGTACCCCCGCTTGGCAAGCCCTTGACAAATATTGATC
CAACAAAAAATTAGCTCTTTAATGTATACGTTTAGAACCTGTTGCTTTGTCAGTAGTGGTTTTTATGAAAATGAATGCTTATAGGTCAGACTTCTGGAAA
CCCTAATCTGAGGGAATTGGGCCAAATAGGAAAGTGAGCCCCTTAAAGGCAGTTGTCTGACCAGTACTTGGAGCACAACAGGTTCTTGCTAAAGCACTGT
GTTTTTAAAACAGTGGAGTTATTAGGTTGAAATTCTGAATAGCAAGAAAAAGAATAATGGAAGTGCTGCCAGCCCCGTGATGCTGGTGCAGCTGGTCAGT
TTGCAGAAGGAGGCCAGTTACTAGAGCAGAGTGGCCGTAGAGGCTGCAACACGGTGGCCAAAGCATGAAGCTGCTGTATAGTGGCAAGGTCACAGTGATT
TCCCCRCAGCCTCGGTTTAGAGGGAGACGGGGTGTGCTGAGCTGTGCCTGCTTCTGTAGAAGGGGCCTTCTCCAAGTCTGAGTAGCCTTAAGCCWTTAGG
ACTGCTGAGTCTTTCTCCACAAAAATATGTGGGAGGCCTGCAGGGCAGGTGCTCAACTAAGCTCTGGGGCTGCAAAGATCCAGAGCCATGCCCCTCCTTG
GAGGCAGGTCCTTGYAGACGAGGACAATCGTAGCCTTCCTGATTAAAGCAGGAATTGTCCAATCAGGCTATATGACGGGCATCGTCCATAGTCTTCACCA
GGGGAGCTTTTCTGACTATACATCTCTAGCCCTGTGGCTTGAGCCAGTCACTTAATTTCCCCTGAGCTTTGGTTTCCTCCTCCTGGTAGCAGAGAGACTA
TCAGAGTGAGGGGCAGATGCAATAGCATATGTAAAACACTTAGCGTTGGGCCTGGTGTTTAACTGCAATAAATGTTAGCTCATATTTTACTGTGACATAG
ATGCTGTATGCCTTTTGCTGAGTATTAAAGATACTGAGCTGTAGCATGCATACTTGCATGAATCAGTCTGCTAAGTTATTTTAAGTTTGCATTTGAAAAT
AAAGGGTGGATTGCTATCCAAATATAAAGAATTGGAACCAGGCTCTAAAAGGATGTTTGCTGTTCTTTAGCAAAATACCATTCTTCTTAAGTTTCATTCA
ATCATTCCACAAAAATTTAAGCATCTGTTTTGTCCCAGGCAGGCACTGTGCTTGTAATGGATGTGCAATAGCAAACAGAACACTTGCTTTCAGCTCACAC
AGAGCTGACTCCTGGGCAGAGAATTTCGACAGTAAAGAAATACAAGTGTGATGAAGGAGAAACCCTTTGGTACTACCTGCTACATGTTTTAATATTTAAA
TGTTGACTTAGGGAGGTCTTTCCATCTAAAAATAATGATTTGCCCTTTCTCCTGTAAATGACCCCTTTCTCTTAAGTTTTGGGTGAGAGATTTTTTTTTT
TTAAGGAAGAAAGATATTCTACAATCGAATGTACAACTGAGATAATGCTTAGGAGAGAATGTATACTGGGTTTGTGCCTTGGAAGTTGCTTAGGGGAAAC
AGTTGTGTGCAGTTGGAAAGCTGATGCTTTAAAGAAGCTTCTATAAAGTGACCCCACAATTAAACTGTTTTGTGTACATCTTTATTTATTTATTTATTTA
TTTTTTAATTGAGACAGAGTCTCACCCTTTCGCCCAAGCTGGAGTGCAGTGGTGCGATCTCGGCTCATTGCAACCTCCACCTCCCAGGTTCGAGCAATTC
TTCTGCCTCAGCTTCCTGAGTATCTGAGATTACAGGCATGTGCCACCACACCCGGCTAATTTTTGTATTTTCAGTAGAGACGGGGTTTTGCCATGTTGGC
CGGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCCACCTCGGCTTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCAGCCTACGTCTT
TAAAAATAAATGTAAATACCCAAGGCTCACAGTTCCGTTCTTCCATCTAGTCTAGCACCGTCCAGTGGAAGTTTCCACCATGATGGACTGTTCTGTGGAT
GCCCTGTCCAGTACAGGAGCCGCTAGCCACATGTGGCTATGGAGCACTTGAAATGTGGCTAGTGCTACGGAGGAACTGGATTTTGGATTTTTTTAAAGTT
TTAATTTAAATTTGAATAGCTACATGTGGCTAATGGCTACTGGACATCACAGATCTAACACAGGATTAACTGACAAAATTCTTTCCTCTTAAAAATATGT
GTTTATTTTGATAAGGATAACTGAGACCTGTACATTCCATTTTTCCTGTCATATTTAGGGCTCATAAAGGGGGTGGTATGCACGTTTTAAAAAATGCAAC
ACAACCAGTTAAACCAGCTGTCTAATTGTACACATTTCCTGGAGCTGTTGGTGTTGATTATTAGCAAATACTAAGTACTTGTAATGACCTAAGAACTATA
AGACAAGCAAGTCGTCTTCTGTAACTGAGTATCAGCGGATTCAAGCGTTAAGGAAAATGATTAAGAGAAAACAACCAAAAAAGTCTTAATGGTTCTGTCA
ATCAAGTGGCTATCAATTCATGGCTATTCAAAAGCTTTTGTGGCTATGAAAATAAACTAGATTGAAAAAATTCTAAAACAAAATTGAAACACTCATTTGA
GTTTAAAATTTTAGTTGAGTTGATTTTTATTTCTTGTTTTGGTTCATTTGTAGTTTCCCCCCGCTTCGTTGTTTCCTCAGATATGGAGAATAAAGCCTGG
CTGGTCAGTTTCAGTTTTTATTTAAATTCATTTTRTCTTCATTCCTTTTAATCTAGCACAGTCCTGTGATGTATTGGGATCACAGTGCTCTGGGGAAACA
TTGAAATATAAAAACATTTTCCTGAAAACATTTCCAGTTATATTTAATTTTCCTCCTTGAATAGAAAAATATTTCCAACTTAATCCTCCCTCTCCCCTCT
TGAAATGAATTGCATGCTTTGGAAATAACATCAATCCACCCAAGTACACAAGGACAATCTCAGCCATTTAATCGAGATATAAAGGCTTAGAGAACTCTGG
GCTTCGGAGGCACAGACTCCACCTTTCAGGATGCTAATAAACGTGGACGAGGTCTCGCCTGGGCTTCCTCCTCCATTGTTCAGCGCAGCAAACCAGCACA
GCACTCCGTGGCCAGGGTTTGCGGGGAGAAATCTCTCACTCTGTTTTAGTAGCATCATCATCCTTATCAGCACCCTGCTTTTATTTTTGAACAGCCAAAC
TTCCTCTTTCCAAACTTCGTGTGACATCTGGGACCAGCTATGTTTGAAGGAGTCTGAACATGCCACATAGTGGCTCACGCTTTTAAGGGAGGAAGGCCAG
TAAGCCTCCTCAATGGCAGAATTCTACTTTCAGTCTACCCTTTGGTTCTGTTGTGGTTGTTCCTTAGAACTTTATTCTGCTCATTAGGAAGCCCAGCCTC
CGGGGAGGGTTTAGCTTCTCATCTAAGCAAGAAGTAAAATGTCATAATGGAGGAAAAAAAAAAAAAAGTCCAAACTTTTTTTGGACTTTTAGAAACACAT
CCAGTTTGAGCTCCACTGAGCTATCATTGCAGTTACAAAGCCCATGTATATTGAGATCGGTGTAAAAATTCAGCATGTCCACCTGCATAATTATGACCAG
TGTATTGAAAGCACATTTCATTTAGTTTTGCAACAGCCGATGAGGTAGATTCTACCAACATTGTTTTACGGAAGAACAAATGGAAGCCTGGAAAAATAAA
TTGTCTACCTCACACACTTCGCAGGTGGTAAACACAGGATTTGAACTAAGACATACTTGATTTTAAAGTGTTTGCTTTTCCTTTGCACTACTGCATCTGC
GATGTTTGCACTCAGACACTCTAGAATATTTGGTGTTGCATGTTTTTGCCCCAAGAAAGAACCCATTAAAATGAAACTTTCCAGTTCGTAAGCTTTGCCC
TCAAGAAGGGAAAGAACTTCTTGCAAGGTTTCTGAAACAAAAAGAAAATGAAAAGTAACTTTACTGTATCTGGGTTTTCTGATTAAATTACGGTTTTTGC
AAGCTTGTGCATTTCTCAGTGTCCAGATAGCCAGGATTTTTCCTTTTAATAAATATCACTTTAAAAAACAAACACACACATTCTTAAATGCATGATTAAC
TGTATAGATTGATTTAGTTATAAGATGTCCTAGCCTAAATATAAGAAGGTGTATGTGTTAGAATTAATTTCTTCAATAAAGAGAAAGAAATTCAGGAATT
GTGGTTCTGTTGGTCTTCTGTACTGTATATTTTTGTGCAGCCAAAGCAGCATGCCTTGCTTCTTGGTTTCATGACCACATGGGTAGTTTCTTGAAGTTTT
TTCTTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGACGCGATCTCGGCTCACTGCAACCTTCACCTCCCGGGTTCAAGCAATTCTCC
TGCCTCAGCCTCCCGAGTAGCTGGAATTACAGGCATGTGCCACCATACCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCGCCATGTTGGCCAG
GCTGGAGTTTCTTGAAGTATTGACTGATCCTTGACTCTGAACTGTATGATCAAAGACTTTTGAAATGGCACACCGTTTCTTAACATTTAGGCCAATTTCA
GTTGCTCATATCCAAAAATAAGTCATGATTTTCGGAGTCAGTGCGCAGCACTTAGTACAACAATCCAAACCCTTGTACAGACCATCCTAGTAGAAATGTG
GATCTTGAGTATCTCAGCTTCTTAGTAGATTTTGAACTCCGTGAAAGCAGGAGCCAGGCCTCTCAMAGCAAGTCTCTCCAATATGCTCAGTAAATATTTG
TCAGATCGAGCAATGACCAGATGATGAAATACATTAAAGCCTTAGGGAGAACTGAGACTACTGCACCAGTTTTTGTGCACTATCATGCTGGAAATCTTTC
CAACATGTATTCTGTACTTCTTTGCTTCTTACTCCAGTGAATATAATTTAGTCATTTCTGGCCAACTTGAGGACATCAGCGAGCATAAATTGTTGTATTA
TGCATAATACAGTGATACCCTCAAGGCTGAGTGGGAGGCAGTTTGCCCTCTGCTGAAGGTTTCTTGTGCTTATTGTGTTCTTATGGTTTGGTTTTAYCAT
TTTTATGTCTCCATTTCTGTTTAATAGACTTATTTCAGTAAGAAGAGAAAGCCGTCTCCATCAGCMCCTCTGTAGGTGATTATTTGCCACTTCCTTTTTG
CTGTGAGTGCTTTGAAAACAGATTTCTAAGCTTGTTAGAGTTATGTGTTAAGAGTAAATAGGCAGTAAGTGAAACCAAGCTTCTTCCTGGTGCTTGACTA
CCCCAGAAATGTTTATTTGCTGAATAGTTGAGTTCTGGAAAGGTGAGGTATAAATGTGTGATAAATTTATTCCTTTGCATGATTTTTTTTTCTTTTTCTT
CCCTCCCTCCCTCCCTCCATCTATGTCTCTGTCTTTCTCTGAACATCTCTCCGTCTCAGTCTGTCTCTCTCATGATAGTTGCTGGAATAATTTAAATGAA
TGTAACTCATTTACCCACATCGAAGCCCAACTCAGTAGTGAAAAAACAAATCTTCCAAATGAATGCACTTTCCCCTTGATGTGCTATATACAAGACCTTG
GCACACCTAGTTCAATGACATAGTATTTTAGAAGGGCCTCCTTACACCTTCCTCTCAGATAAATATACATGCAGGGACATTCTGAAGAAGTTTGTTATCG
GTCTTCTCCCCTCCTACTATTAGCTCCGCCCTCCTAGTCCTTCTCTTTCACCATGCTGACCCGCGTAGGGAGGACCCTTACACCCTCTGCATGCAGCGCT
GGTGCTCCTTAGTGTTCATAACCCCAACCTCCATGGCCTCTCTCGCAGTTCTCAGGTTAGGCCCTGCTTCTAGGGGACATTAGCTTTCCACCCTCTACTA
CATACTTCCTAGTTGTTGCAGCCTTTGCAAGCAAAACTTGTTTTCATTTGGGAGACAGCATGGTCTGACAGAGCCTAGATCCTGGGGTGAAGACATTCTG
GGTTTGTATCCCGTCTTTACCACCTCTGAGCCTCTGATGCTGGACAAGTCAGCAAGTCTTTGCACCTTAGTCTCCTTTCTGTAAAAAGGAGCTTATGGGG
ATGTAATCAGAGAAGCCTTAGCATGGCTCTTGGTACAAGGCACGGACCAAATCCATGGTACGCTCACTCCTTTCCTTTCAGTAATACTGCCTAAATAGGG
CACATGTACCTAAAAGGATTTTGTACATTCCTTGACAGCAGAATTCTCATCTTCTGTTGCATATCCCATAATGCTGGGAACACAAAATAAAAATGGTAGC
TTTTCACATTCACTTTTGGCCTCAATTTTTTGTTATTCCCCAATGAGGATCATTTCATTTGGGGCTGGTCTCCGGAAAAAAGTAGATCAAGCTTTTCAGA
TGAGATTTGGGTGAAACCCTGACAAACTCTTTTTTATTGCCTTCCCTACCACATAGTGGTGGATCAGGAAACTGTAGGGCTTATGATGCTGGGAAATTTC
TGCTAATGCAATAAAGATTTTTGCTGTTGAAAGAATTTGATCTGTTTTATGTATAACATGCAGAGAGCAGAAGCATATATTATCTGTARCAGATGATAGA
GCAGGGTATATGGGCAAGTTAGAAAAACACAGTTCTCACTACATTTGAAGAAAAAGGACAAGGAGTTGTCACAAGGATCCAGGAGAGTCGCACATAATTT
TCTGTCGTGCATTTTGTTGACTGTTCCTCTTTGCATCCTTCAACCATCTTAACTTCCCACTTGCACCTCGCTGGAAGACAAATCTAAGCTAAATTAAATG
CTAGGCAATATGTCAGAATGGAAAGGGCCCTCAACTTGGGATGCCCGGTTCTCTACCAGCCTGAATAAACTCCAGCAACAGTATTTCTCTAGGAATCATC
TGTAAAAAGTAGAGGTTTGTCATATCTCTAAACTAGGGATTCACCTTATTTATTAAGCTATCAGTGACTTTATCTTGAGGTGCAYGGCTTTTAGTAACTC
TGGTTCAAGTGCAAGGAATGCAAAGTTAAGTGTATCATTGGAGGTGGGATTTTTGAGTTTGTCAGTCATTTATTGATTTGCATGTATCCTTATAGTTCAA
AGGTCTTTTTCTCAACTTAGTTGATGATCATGCTGTAAGTTGTTTTCTTTTGCTTTATCAACTTTTAAAAACGTTTATTAACTTTTWAATTTGAAATAAT
TTCAGACTTGCATAAAGGTTACAAAGAGTACCAGGAGTTCTGGAACACCCTCCACCCAGCTTCCACAGATGTTAACATCTTACATAACCGTAATACGGTT
ATCAAAACAGTGTTCACTCCATACTCCAGTGCTGTTAATCTCCAGACTGAATTCGGATTTCACTATTTTCCCACTGATGTCCCTTTTTTTKGTTCCAGAT
CCAAGAGACGATCCTACCTGGCATTTATTGTGTTCAGTTTTTCTAATTCTGGGACGTTTTCCKGGGTTTTCTTTAGTCATTCACGAAGTTCGCACTTTTG
GAGAACATGGGGCCAGTTATTTTGTAGAATATCTTTCTGTTAGAGTTTGTGGATGTTTCCTCCTKATTAAATTTGGGGGGTACATTTTTAACTTGGAGAT
CACAGAGGTGCTGCTGTTTGTGTCTTTGCGCATCCTGTCAGGAGATGCGTGATGTTTCCTTTCCTGGTGCTGTTAGCTTTGATCCCTTAGTTAAGGTGGT
CTCTGTGGCTTCCTCCATTATCATTACTATTTTTCTCTTTGTAATTAGGAAGAATCTTTTGGAGGTAGATACTTGAGACTATCTAAACAAGCATTCTGTT
CCTCATTATTCTTTCACCCACTAATTTTAACATCCATTACTGTGATGTTTGCCAAATGGTGATTTTCTATTTCTGTTTTCTACACTTAGTAATTGGATTC
TACTCTCAGGATTTTATGTATTTTTTAACAGTGAGGGACATAAACTTTTTAACTAGCAGTGGCAAGTCCACTTTTATTTGGGAGGACAATTACTAGTCAC
ATGAAGAAGAAAAAATATGCAGAASCTTAAGAAATCCCACATATGAATGTTATTTGAAATGTTCTTGCCCTTTCTCCCTACAAAGGAGGTGAAGAAGATG
ACAGGAGATGTTAATTGCCAAAATAGTCTCATAGTTTTGGTCCTGGCTGCAAATCTCTCGTTTTTGATACTCAAGAGAATGCTATTGGGGAACTGACTCT
GAAGCACAGCCCAGATGCTTGAGATGGGTTGGGAAGGTTTACATCAACACCATGAATTTAATTTATCATGTGACATTTTATTTCTGAGTTTTTAAAGCTG
TAATTAAAAGAAGTGTTCAAAGTGTTGCTTTCCTCTTTTAGAATAAACGTGGCTGGGTGTGGTGCCTCATGCCTGTTATCCCAGCACTTTGGGAGGCCAT
AGGCAAGAGGATTGCTTGAGCCAGGAGTTTGGGACCAGCTTGGGCAACATAGGGAAACCACATCACTACAAAAAAAAAAATTAGCCTGTCATGGTAGCAT
GCACCTGTGGTCCCACTTACTTGGGAGGCTGAGGTGGGAGGATCACCTGAGTTCAGGAGGTCAAAGCTGCAGTGAGGTGTGATCATGCCCCTGCTCTCCA
GCCTGGACAACAGAGCAAGACACTGTCTCAAATAAATAGGCAAACATTACCAACATGGCAAACAAGTTGGAGGAGGCCCCCTATTTAATTAAATTTCAGC
AGTCCCAAATCTAATTGGTATGAAGAAATCATTATTCAGAATTTTCCATCACTGAAATACTAAAATCACTTGTTGTTTGAGACATCTTGGCCTGTCACCC
AGGCTGGAGTGCAGTGTTGCTCTCATAGCTCACTGGAGCAGGAGCCTCAACCTCCCAGGTTTAAGTTAATGCTCCCACCTCAGCCTCCTGAGTAACTGCC
ACTACAGGCGTGTGCCACCATGCCCAGCTAATTTTTTAATTTTTCGTAGAGATGGGGTCTGTGTTGCCCAGGTCCCTCTTGAACTCCTGGCCTCAAGCTA
TCTTCTCCAGTCGGCCTCCCAAAGGGCTGTGATTACAGGCGGGAGCCACAGCGCTCAGCCTAAAAATAACTCTTTAGCCAAAAGAAAGTTTTAAAAAATT
GTCTGTTGTATTCTTTGATTTTACTCTATGTGGTCTTTTCTATTATTTTTAAAATAAAAAAGATTTATACTCCTCAAGTGTAACATTTTATCAAATCTCA
TGCTTCTGTTTGATGAAACCGAATGGCTAAATTTTTTAAATATCATGCAATCCATCCCAGTTTGTAATTTTATTATGGCCCTCACACAAGAGCGTGCAAG
CTATACTAAGCTTCCTGTGGCCCTCGTTTTTCCTCACTGATATTTGTAACTCATTCCAAATTAAATTTTAGGAGTCTGAAATGTAGCTGTTATATTTGGG
AGATGTGAAGAAAAGAATCGTAGGCATCTCAGTAGGCTAGGTATCAGATCACACATGCTTGCTGGACCAAAGAGGACTCCTTACAGTAGGATACATGATT
CTGAGTTAGTTTGTGTACTAAGTATATACTATATAGCTTTTGAAGGGGAGACGGGCACAGAATTCACAATATCATGCACTAAGGGTTATTTTGTGTTTGC
AGTTTCCAGATGAATGTTTTAAAGTTGGCTGCAGAATACAGCGAGATAGGTAAAATCTATTTGAGTATTACTTACAGACCCCAAAGGATATCCCAAAGGA
TATGTTGGACTAATTCCTAAAATATCCTGTAAGTCATTGCAGGTACAGGCGTGGATCTGGGTTTGGAAACGCCGCCTGGATCGCTGGCTGGGCTCCTGCA
GCCGCCAAGGAGGGGCTGGCTGGAGGTGGGGCTCGGCGTGCATAGCGGCCACGTGACTGCGCCCCGGCCACGCCCACCGTCCCTCACGTGGTCCCAGGCC
ACGCTGGGCTTCGGCATGTGCTAAAGTGGATAGAAAAGGGAGTGGGGCCCGGGCGTGGCTTTGTGGTTTGGGAAGATATGAACTCCTTGGGGTTTTTTTC
TCTTTTAATTCTTTAATTTTGATATTTGGAAATGCGTAAAAGGTTTTTCATTTGTCCTTGACCACGTGGTCCAAACCTCAATTTCCCTAGCAGAACGCGG
TTTCGATCACTGGTGGATCCGTCTCACAGCACCRGTCATGCTGCCTCGCTGGGAAGTGGAGGGCTCAGGATTCCCGTGGTTCACGATCCATTTTATGTTG
GAAGGAAATCATTTTGAACTATCTCAGTACACACCCTAGTGTATCTTTAAACCTAATTGAGTGTTGATGGAAAATCTGCGGTCCGAGAACCGTAAGAAAA
GGGGGCTCCCACCTCCCGCTCTGGGGTCGCCACTTGCCTCGCAGGCAGGAGGAGGCTCCCAGAGTAGATACAACTTGCCCGTCACCYGGATGGGTTGGTA
GTGCACATATGCACGGGGCGCAGTTTAAAATGAAAGTAAAAGATGCAAATGTGTTTGCAAAAGAAAAATTAACATAGGATACGTGCGGGCGTTCTCAGTT
GAACTCGGTCTTACTGTTCCACGCGAGCACCCCATGACTCAGAGCCCAAATCTCAGCGGAACAGCCCAGGACGCTCCTGCCGTCCACAGGAAGACGCCTC
TGTCTCTGTCCCCCGCCGCCACCACACAGATGCACGTACTCTCTTCACTTCCGTGTACCCAGTAAATGCAGATCCTGATTTAAATCTGCAGCAYGCTGCT
TTCTTCCCATTGCATGTGGGAAGCTTCAGGTTCTCTTCGGTTTATTTTCTCATCACCTTTATTAAAATGCAGTAAAGCAAGGAGTATATTAATGCGGGCC
TCTGCAAATAGAGGGAATTTATTGAAAAGCAGAATGGCTTGAAAGATTGAACTTCATCTTAAAAATCAGAAACAGACTCTTGTTATTAATAGCTTTAGAA
ACGAAAATCTAACTTCTGATAAATTATTTCAGAGGAGTGGTTCAAACGTGTAGTAGATAGCTCTGCCTGGTCATCAATTATAGTGACGTCCTTGCATCAG
CTCCAGAAACTCAGAATATTCATGAGCTTTCCAGTCTGACTCAGACCTTCAGGAGCCATGAAATTTTCCTGTTGGGATGAGAGGAAGCGCTGGCGGTCGT
TTCGGCAGCTTAATGAAACCAGAAATAGATAAGCACGAGTGAGGGGTGATGTCCGCTTGTTTGCTCCCATCATGTTGTTTTTAATGTGTGAAAGTGAAAG
TTTTAAAAGTCATACTAAATGTGTGATCCTTTTTAGAATTCACTGGGTACGGGTACGTGGAGGAAGTGTTTTTGTTTTTGTGAATTTGTTTAAACAAATG
ACTGAGGCTTTGTTTTCCACTCTGTCTGGCCAAGCACCATTGCTACACTTTTTTAAATTCATGACATCCTGAGCAGTGAAGCTGTTCTTCAGCCCGCCTC
TCCATTTGTGACTGGAAGACAAGGAGGCAGACACCAATGGCGCCTCTCACAATGGAGGTTTATTTTTTTTTAATCTAACGGAGGGATTGTAGATGGTGTA
AAACTTCCTTGTGCCAGGAGAGAAAGGGGGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAAATAACCCATTCTAAACAACTTTAGGAATAGATGATCCGTA
GGCATCAACTTTGCGCAGCAACAAAAGCCACTTTCTGAACCTCGTTCTGTGAAGTTTTAAAACAAATTGGGTTTGTTTAATTAAAATATTTCTTAAAGGC
AAAAAGCACTGAGCTAATTTTTAAGAATTTTAAGTTATATATTAATATGAGTAGTGATTTATAATTTTCTGTTGAAATACATAAATTCGAGAAGCCCCAC
CCCTACCACTTGCCAGTCTTGAGTCCCCACGGCTCCTTTGCCTAGGTCTAAAGTCACTGCTTGCACACTCCTGCCTTGCATATGCCTTGCCATCGTGTGG
GCCTCTTGGCTGGAAGTGTTCTTGTCCTCCCGTTAGGTATCTTTTATGACGTGAATCCTTACCTCTAATTATTATCTGTGTGTACATCTCATCACCTGCA
TCTGACTGTGTGCCTTGTGTATGTCTCTTAGCCCTCACAATTGCCTGACATGCCTTACAAACGGGTAGACCAAGTGTTAAATGAACAAATATTTAATAAG
AACTTAAAAGCTTTTTGACTTTATATATTTTTAAAGCCATTGTGATTAAACACTATGTTTGATGTGGTGCTAATTCTGTGCTTTATCAACTGTGTGAATT
GTAGTATTTTTAAAGTAGGAATAATTGAGAAATATTTTGAAGTTAGGTTAAGCATAGCAGTAAAGTTTCCACTTTTTAAAATAGCCAAATCCAGGCCAGG
CGCAGTGGCTCGTGTCTCCAATGTCAGCACTTTGGGAGGCCAGGGCGGGCAGATCGCTTGAGGTCGGGAGTTCGAGACTAGCCTGGCCAACGTGRCGAAA
CCCCGTCTCTGCTAAAAATACAAAAATTAGATGGTTGTGGTGGTGCATGCCTGTAATCCCAGCTACTCAGAGAAGTGTTTGAACCCGGGAGTTGGGGGTT
GCAGTGAGTTGAGATTTCACCACTGCACTCCAGCTGGGGCAAAAGAATGAGTGAAACTCTGTCTCCAAAAAAAAATCAGAGCGTGGTGGTGCACACCTGT
AGTCCCAGATACTTGGGAGGCTGAGATGGAGGTCAAGGCTTCAGTGAGCCATGATGGCACCACTGCACTCCAGCCTGGACAACAGAGTAAGMCCTTGTCT
CCAAAAAAAAAAAAAAAAAAAAAAAAGCCAAATCTGTTGGGTTTTTTTTTTTGGGGGGGGGGGTCCTTTAGAATGGCCCTGACAGATCTTTAAGGCATGG
AAATGAGCCTTATGCAAGCTCCTGGCAATCAGTATGTGAGTTCTGTCTCCTTGGCAAGATACAGCCTCTTAGACCCTCAGTCTGGGGAAATAATGCTGAT
TTCTCCTACGAGTTACGAGAATTACGCTAGAAAACTCTGTGGCGCATACAGGTGCCCTGTAGCCTGTTGGTTAGAAGCACTGACCCTGAAGTCAGGTCGC
CCAGGTTGGAATTCCAGCTCTGCCTTCTTCAAGCTGTGTGACTCTGGGAAGTCACACACACTCTCTCTTTGTGCCTCAGGCTCTGGTTCTGAAGATGGGA
ACGGCAGGCCCTCCCTCTTTGGCTTGTTGCACAGATGAAATCTGACAGCGTATGCCAAGCGCTTAGCACGGGTAGCAGTGAGTGCCCCGTAAATGTTAGG
TACCTTCCTACTACTACTAAACATTCATTCTTCCCTTCCCTGCTAGTACCTGCAGCTCTGACTCATCTCACACCCTTGAGAGAGGATTATCTTCATTAAA
AAGTTTTTGGTCTGCCCAGAAGCAAGTGTTACCTGTGAGAGAGCTGGGCTTGTGCATAGGTTAGATTATTTCTTTGGGTTATTCCTGGGGAAACCTGCAA
AGAAATGCAGCCAGAGGCCTCTGGTTCATTTTACTGCTCATCTCCTAAAAGTGGTTTCTCAGATTTTTATCCTTTTTTTCTCTTTTTCGAGGAAGGGGCA
AGGAAATATTTTTTCATATTATTCTTGTCATCGTCTATTTATTTAATAACAGTTGACTGTTGAAACATAGGAAAGTACTTATCCGCCAGGAAACTCCCTT
CTATTATTGGACTTACTTGCTTTCCATTTATATGTTGTCTAATTCCAAAGAGATTTCGAGACAGCTTTCAATTAAAAAAAACAAACAACAACAACAACAA
AAAAAAMCACCACATRCCGCATGGGTATTACACAGGACCTGTATGGTCAAATTGGCAACGACCACACCACATGAGAAGGAAGATTATTCTTCCTGGAACC
TGGCTCCCTTGAGATTCTTTTTTTTTTTTTTTTTTAGACGGMGTTTCGCCCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTCCGGCTCACCGCAAC
CTCCACCTCTCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGTGCCACCACACTCGGCTAATTTTGTGTTTTTAGT
AGAGATGGGGTTTCTCCATGTTGGTCAGGGTGGTCTCGAACTCCCATCCTCAGGTGATCCACGCGCCTCACCCTCCCAAAGTGCTGGGATTACAGGCATG
AACCACCGCACTCCCTTGAGRTTCTTGTAAGCCAAGGCAGAAGAAGAGACATCTTAAAGTCTGTATGTGCACACCTGCCTCCCCCCATTTTATATACAAT
TCAAGGGCTTTGCTTTTGGAAAGTTTGCCTATGTAGTCGTCCAGGGCTAAATTAACACCTGTCTCTATCTGTGTGTAAGGCTCTCTGGGAGGAGCTGTGA
GGCAAATAAAAATAAGGAATGGTGTCCCGCAAGGAGCTTACAATGTGTGYATTACAAGTATATACTGAGCATGGCCCTGGGAACACAGTGAAAAAACAGG
ATTCCTGCCCTAGTACAGTGTACACTAGTGGAAGAGAGAGAGGCAGTAAACCTAAAAGTAAGTCTTTTAAAAACTGTGGTAAAATGCACATAACATAAAA
TTTACCATCCAACCGTTTTTATGTGTACAGTTCAGTGACAGTAAGAACATTCACATTGTTTTGCAGCCGTGACCATCATTTATATTCAGAACTCTTTTCA
TCTCGCACAACTGAAGTTGTACCTATTAAACAGTAACTCCTCATTCTCTCTTCCACCTAGGCCCTGGCCAAAAACAAAAATAAGTCTTTGATTGTAAACA
CGATCAGTGCTTTGAAGGAGATGGGAAGGATGTTATCATAAAATGATGGGGCTGCAGGAATGGCACCTACTCAGAGAGGGCGGTCAGGAGAGACCTCTTG
GGAATGATGACATCCAGCAGGCAGGTCATTAAGGCATCTCTAGGCAGGTCCAGAGTGCAAGGAGGCATAAGCCAGGCAGGTGGAACAGCGTGTGTGAAGG
CCCAGAGTCAGGAAATGGTCTGCTTCCTTCCAAGGAAAAGAAAACAGCCAGTGTGGTTGGAGCAGGGGCTAGGAGAGAAAAGATGTGCATGTGTGTGTGT
GTTTGTGTATCCCCATCATGATTTAGTACTGTCAGCGCTTCTGTGTTCTGAACCTGGAGTACAGGCAGACACAGCCGCATCCCAGAAGCTCAAGAGTGCC
CATACCAGGAAATTACAGAAATCTTTGCCAAATGGATGARTGAATGCAACTTCCTTGATACAGGGTCAGAGAGGGGAAATCTGAGAAAAGCAGGTGGGCA
ATGTACTCCTGACATACTCCCTTCCGTTGCAATGGCCTTGAGTGATGGAGCAAGAGTGAAGGAATGTTCCCATGGCACTGGYACCAGGATGACTTTTTGT
GAAGCAGAGCAGTTGGTCTTAGATAGTGGAGGTGCGGGAGGCATGAGAACTGGGCAGTCTGACGGCTGCACCAGCCAGTTGGCTGTCCTTTCCACCTCCA
TGCCCAGGAGCTGGCCCAGGGCGCGCATGCACAAAGCCAGTGCTCTTTTCAATCAGAAAACAGCCTGCGTATGTTCTTGCTTGCAACTCAGATATCCAGC
CCACTGATCCAGGAAGAGATTCCTTTGACCTGGGAAGTCATAATGGCAGATATTTARACCCAGCTCTCAAGCAAGCMTCCAAGTTGTTCCGGTGAACCYG
TAACTTTGAGTAACCTCTGATTGAACCAGAGAGTAGGAACTAGGTGCAGAACCTTGTTGAATAGAATTGTTTAGCATCGTCCATTTGTTAGAGCATTTCA
GGATGCCTGTCCTAAAATTTGGTATCATAATGGTATTTACCTCTCACTCACCTCCATCTCAGCCCAGTAATTAATAACAAGGGACTTGCTTCTTCACCTG
TTTCTTTATTGGTTGTAGGAAGTCTTTTCCTTACCACAGAGGAAGGAGCTTCTGGATCCCTTTGCTACGTCCAGAGAGTTTTCATCTAATCTGGGTGTAT
TAGTCCATTTTCACACTGCTGATAAAGACATACTCAAGACTGGGCAATTTACAAAAGAAAGAAGTTTATTGGACTCACAGTTTCATGTGACTGGAGAGGC
CTCAAAATCATGGCGGAAAGTGAAAGGTACATCTCACATGGCAGCAGCCAAGAGAAGAAGAGCTTGTGCAGGGAAACTTCCATTTTAAAAACCATCAGAT
CTTGTGAGACATATTAACTAATAACAGCAAGGGAAAAACCCACCCCATGATTCAGTTAGCTCCCGGCGGGTCCCTCCCACAACATGTGGGAATTATAGGA
GCTACAAGATGAGATTTGGGTGGGGACACAGAGCCAAACCATATCACTGTGTAAAAGTTGAATAAAGTTATTTAGGAGCACATTGTATTGGGAGTTTGTT
TGTTTGTTGAAGAGCCAAGTAAAGTCATTGGAAGCATGGGAAACTTTTTTCCCTGTCTAAAAGGAACTCCTTCCTAGTGGAAGTTGAAAGCTTTCTTGGC
AGCCTCAGCCCCCACCCTACCTCCACCACCCCAGTGGGTACCTGCATCCTGAAGACCCTTCACAATAGCATCTGAACTATACTGGGCCTTCAAATGATGT
CTTGGGTAAACCCATGTCCAACCTGCACTAAATGAAGATTATTTTCGAGCGAATGGATTGAAGAACAGTGCTGAAAAACTAGAATTTGTAATATTTTCAT
TTGAGCAGAGGTGAAATTTGAAATATTTTAGAATCTTGTCTTATGATTTTTTTTCTTTCTTTGCCACATAGCCCTCCCCTGGAAATTAAATCTGTGGATT
ACTAGTATATGAACTGATCAGAGACATGGCTTGGGGTCTCCCCATTTACCCACTTCCCAGCACGTTATAATCCACTGGACACCTCCAAGGATGAGAGACC
AGCGGGTCATAATGCGAGACTGGACATCTCTCCTACCCCATGTACACTTCAGCTGAGCAGGCAGAATTAGCAGAGTCAGGACTAGAAGTTCAGTCTAGGG
ATCAAATAATAATAGTAGCTAATGTTTAAAGAGTACCTAAGATCCGCCAGGAGACATACTCAGTATAGTTCCGTGGTTTGCCACATTTCATCTTATACCA
GTAGCACAGGTGAAATTTGTCTTATGTGTATACTGAGGAAAACAAGTCCCTCTGATACACAGCAGCCAATAAATGACAAAGCTGGGATAGAAACTTACTT
CATTCTAACCCGAGAGTCCCTGTTCTTGCATGGGCACAGCCTGCCATCCCCATGCTCTGCCTCCTAAGCAGAGGATGAACTTAAGCATCTTAAAATTTTA
AACATTGACTTTCCCTAAAACCAATTAAAAAAAAAAACAARACAGACAGACAGACATGACTTGTGCCCTTAAAAATGCAGCCAGGCTGGCATATAAATGG
GCGTAGGCTGTTTCTAAATTTTTTGCTTTAAATTTTGCCAGCATAGCTTCTGGACTGGTAGTTTTGTTTGCTTTTTAATATATTTTTGACACTGTGTACA
GAGGAATGCTACCTCGCGTCATCATGTCCTCCTCCCTGAAGGCAAGCCAAGGATGTCAAGGGGCCACTTCAGGGGATGTGCACCCTGAAGGTAAAGCTGC
TCCAGTGGGAGGGGTTGGGGTAAATGACAATGTTAGCAGCTGGTAAATTTTTTTACATGGGATATCTCACAAGACTTATTGATGCATGTTATACGTAATA
ACCTGAGGCACATCAACATTTTCCACTTTTTCCTATTCTTTCTGTATTTTCACTGATACTTTTTTTCAAAAAAATCTCCAATAAGTTTAGGATCAGCTTC
AAGATTTCTCTTTAGGTAAATAGATTTGTATTTTTGATGGCCATCCTAGTCCAGTGTAAAGATATGGACAAGAAACCCCACATAAAGGAAGCAAGATYGC
TGGCTGCTTTCTCTAGGTAGCTTGAGTTGTATACTAATTTGTAGATTATTTCTCTTCATCGAAAAAACAAAACATTCTGCAGAGGGCAGTCATGTGTCCG
CTGTGCCTCTGCTCCTGTGTGCACCATAAAACTTGAAAGTGAGCCAGAATTTGAAARTATCGGATTGGGATGTGATTTCTTTAAGCCTCTGGCTAATTTA
ATATAAAGTGTTTACACTTCATTTTTCTGGCAGTGGATTTTCTATGTAGGTGGTGGAAGATTTCCTGTAAGTTTTGCAAGTTCCAGGGCAAAGAGAGTTG
CAATATGCAATATCTTTCTGTGGTCACACCAACAGAAAGGGCGATTTCTTAACCTGCTGCAGTTACCATGTGTGTAGGTGGATGCTGGCTATTACAGATG
GTATCCTTTCAACCCTCAAAATTGTTGCAAGTTCACAGGTATGTTAATGAAAATGAATAAGTGGCATTTTTAGGAATTCCAAATACTGAGTCTTGGAAGT
AGATAATCTTTTCCCTAAATGTATGCTCCGGTCAGAACTGCTGCCTACCACACCTCGTGGGTGAAACAGATATTTCGAGCATGACTGAGCTTATTAAGAG
CCCTGCGGCGCTTCCTCTGCCGGGGGTTTAGAAATTTCAAAGGATGGGGGTTGAGGGAGGGAGGAGTTATGGGCATGTGATGTGGACAGGGCGGGCAGGA
GGATGGAAGTAACAGGTCCAAAATRTATCTTTGGTGGCCCGGCAGAGCTCTTGCATGGGGTGAGAATGGTAATTTAGGAAGAGCAAGTCTTCCCATCTGT
GAAGCAGAAGAAAAAAGTGGACTTAAGGAGAAGTTCGGGTGCTGTTTATTTAGATAGGAGTAAGGAGAGTGCAGTTGGGGAAAAGCACTTCAGAGGCTTT
ACTTAGACTAGCAGAAGTCTGTTTGGCAGGGTGGGAAGCAAGTGCAGTTGGGAGAAAAACGTTTTCAATAGGCAGTTTCAGAATTGGAAATTGGAGGAGG
GCAGTCCATTTCAACATTTCCAACAGTATTAAAGAAAATTTGCGGGTTGTTTGTCAAAAGGGGTCATATGCTTTAAAGATTGAGAGATCTTTTCGGTGAA
GTAGGGGAGCTGGGGACATCGTGATGTGACAAGAGCCGTGGGCTCAGAGGCTGGGGACCTGGGTGTTTAACCCAACTCTTGTGAGTGGTGTGGCTTTCAT
AGCTTTGGTTCTCTGGTCTTCACTTTATCTGCCAAGTGAAGACATTTGACTGGATGTCGTGATCTTGAGTTGCTTTCAGCTCCAGAWTTCGAAGACCCCT
TCCATTGGGCATTCATCTAATTTCAAAGATGCTCCCTGGCTCCAGCTCTGCAGTGAAGCAGAACAAACTGATACAGCCTAGCTTGGGGGTGGGGAGTCGG
CCCTCCTTTTCCCCTCCCTTCCCAGGTCCTCTGGGTGATTGGGGGAAACTGAGAAGCCGTTCTCTTCTCCAGAGCACTCCATTTAACAAGCATTGCAGAG
CCTGGCTCGTGCTGCAGTGAACAAATGCTGACTTCAGCCTTTACCCTGGGTTTCAGGTCACACTGATTGTTTGCAAAACATGTTCTTTTTTTGTCACTTG
CCAGTACTTGTTCTCTGTGAGTAAAACACAAACACATCCTCAGGGATGTTGCACACCAGTTTGCAGCCTGCAGCTTCTGCCCTCTGGCCTGCCCAGGTCC
TCGGCTCCGGGACGAGGATGCTCCGGGATTTCGGGAGACAGCAGTTGTTTTGACATGAATCTCAAAGTTCCTACAAAGCTTATTTCTTTGAAGAAGGCCA
AAAAAAAAATGAAACATTTTCAGATCTTTGTTTTCAGATTATTCAAGTCCAGAATGTTGGATAAGATTTTTGAAGAAGAGATTTATGCTTGAGATTCCTT
TTAGTTTCTTTCTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTAGGTGACTTGGCCAGTTTGGGTTTTTACGGTGTTCAGGGAAAGGGTTAAGAAG
TTAATTTGGGAAGTACAGTCATGTGTTGTACAAGTTGCTGTCTACTGATCCCTTCATTGAGCAAGTAAACTTCACACATTCTCGTGTCTGCAAAGCATGT
GGATGCATGGGCAGTTATGTGTATGAACTTTTTTTTTTTTTGAGAATGGCTTTAGTGTTCAGACCAAGGATGGAATGAAAGATCACGTGTGCTTTCCACT
GTAGAGCTGCCCTGCTTGTTTTGATTTTATAGTTATTCTAAGTGTTAAGTTCCTTCATCTTTCAAAGCAAATTCCTTTGATCCCTGAAAATCAGCTAATG
TTTGGGAGGCAATTAAAAGATGAGGCTGTGGGGTTGGGGTGAAGGCTTCCCCAGCAGGAAGAGAGGAGAAGCCCACTGGATCTGGGAGCACGGTGCTAGG
ACTCTCTAAGCGTGACCTCCTTCAGTTTGGCCCAGAGTGGTCAGATAGTTTGCCGGGGCATAGGATGGATGACAGGCYTCATACGCATCACGTCTGAAGG
GAAAGCCCTTGAATTTTCCACGCTACTTTTTAGTAACAGTAGGCTTTGTCATAATTGGCTTCATGTTCCAGCTTTCCTAAAACTGTAAGTGATGTTGGGT
GGGCCAGCAGCAAAATAATTCACTTWACAATTTGCATGATAGTCTGGAATGAACCGAATACCTAAAACCAGGAAATAATAGTAGATATTTAATGGTTTGG
GGATCAAATAAGAATTTACTCCCAGATGTTTCCTAATTAATTGGAAAAAGCAGAAGGTTGCTGGAAGGCCATCTCCATTGGGCATTTACAGGTGAAATTC
ACTCTTCAACTAGGATTTTACTCATGGGATGCCTGTGTTCTTCATTTGAACCCAATTTTACCTATCATCTACAAAAAAAGAAAACTATTAAGAGTTAAAA
AAAAAAAAAGAGAGAGAGAGTCTTGAACTTTGAAATCCTTCATCCACGTTTTATAAAGTGTGGGGTCAGATTTTTTCCCTAGTTGAAATTGAGGAAATGA
GAGTTGCCAATATGATTGGATTTGTACTGCCAAGATGGGGTTTTAGCACTTCTAATGCATTCTGGCAAGGCTGGTATACTTGTATCAAGTGCACAGCCCC
ACTACCACCACCTCTACCACCCACAAAAATAAAAACTAGCAAAATAAAATATGAGCCAACAGAATTCTGTGGGAATGGCAAGTGTTTTGTTTTTGTTTTT
AGTAGTAATCTTTGCGAGAACATTCCAAAGATGATAGTTTTACATTTGTATGTTTTTTTCCGAGGCACTTTTGAATCATCAGATAGATTAAATATAAGTT
CCRTGTATTTTTGAAGGTGGGAGTGTTCTTTGGTACAGTTCCCCCAAAAAACTGGTTCTCATGAGGCTTATGTGGTAATTCTGTTAACGAGAATGTATGA
TTATCTGGGATACTCTGTTCTGCTCTCCATCCTGGATAAGAGTTTACTTTGAAAGTCTAGTTGATCTTTTGTGATTTCTGCACAATGTAAAAGGTACTTT
AACTTCAGGAGATAGGGCCAGCAATCAGATTTGATGATGGAAAAGAGTAGTGTAGCATTTAAGCATAATGTATACTCTATAATAAATGTTTACAAGTCCA
AAAGTGTGCCATCAGAAAGTAACCAGATCAAAGGAGAGGTGACCAGAGAAGCTGGAAAGATAAGAAATAAACAAGTTTCAAGGTTACTGATCTGTAGCTG
TTGCTGTCCATGCTTCTTGGCAGCTTTAATTATGACAGGGAGAGGGACCCAGAGGGAGAGAGAGAGACTGACTTACACATAAAGGCATTTTATCACAAAG
CCATCTAAAACAAAAGTGTTAAAGGCACAATGCTGTGTTTAAAAAGCATGTACTTCTTTAAGAGCTCAAATTTAAATATATAATACAAACTTAAGATCCA
AGGAAGAAAATGGACCCAGGACACGAAGAGAAGTTAACGCCACAGGTAATGCAGATGGCCAAGAGATGTGTGAAAAAGATAATCCAGCCTCACCAACAGC
CACAGAATTGAAATGAGATACCTGTTTCTGCTTCTGGCATTGGGAAAGAAAGAAAAATGGCACTAGCAGCCTTTTTTTTTTTTTTTTTTTTTTTTYCCCA
AAAAATTTGCTACTCTTGAGGTTCTGTCAAARAATGTGCTGTGGCCTCTAGAAGCATTTTTAAAAAGAGACTTTCACAAGTGATTGTGCAAAATTGTGAG
GTCACTGAATAGGTGTGTATCCTCCTAAGGAGGTAGCGTTGGAGGAGCTGTTCTTGTTCAATTTACTCAGCACCTGTGAAGAGGCTTCACTGTGATTTGC
CTGTACAGGTGTGCAGGTAAAAATCTAAGTTCCACAGGTAGTGCAAAAAAATCTACCTCCCTAGGTACCTCGTACATTTATCACAGTTTCCTGGTAAACA
GTTCTGCTGTTGTTGACAAAATTTTATCAGAAACATTGCATACTCTTCTCTAAATAGTAGTTTCCCTACAAGTGGCTGTCTTCAGTTTAGTCGTTTAAGT
TATGTTGACATAAATGATTATGTGTGTGGCAGGGGCTTTTGCGTAGGTTGTTGAAACATTGCACCTTTTGGACTAACAGTTTTTACCAAAATAGGCAGAA
GTGACATTTGCAGCCACAGCTGTGTGGCATTGAGCGTCTAAGGTATGTGTAATAGGCAGTGTATCGGTAGCATTGATACCTTGGTCAACACCAGTAAGCC
ATGTAATTGCCCAGAAGTGGGCTCTAACACTAGTTTTAGGAGATGCAGCCAAAACGACAAAGCTGGAGGCCTCTCCCTCTGAGCTTGGCCTCCACTTGGT
CAAAACAGTCCCCAGTTTGTCCCTACGGGACACAGGCCTGCCTTGTTAGGAAATCAGCAACATTTAGGAGCCCACAATACCTCACATAACTCTGTGTACA
GTAACAGAGAATGGAAATAGGGCTGTAAGCATGAACAACCAGTCAAGTTACAAATATAGAATACTCTCTCAATTCCACTTTAGTTAGTCATGGAGGGACA
GTGTGAGTTTTATAAACTTATAAGGAATATACAAACAGTTCCAAATTTAAAATAACTTGAAGTAACTTTTAAGTGTGTGAAAAGAATATTTTTTTCCACC
CTGTCCATTTAAGCATCTGTGACAGGCAGTATTAAGTGATGGGTGTCTTTACGTACACATGCCTGTTGCTCACAGTACTGGGGAAGAGTTGCAAAATAGT
CACCCATTCTGCAGTGATTTCTCTCTTCTTATTTGTGAAAGACTCAAAAAAAAAAAAAAAAAAAAAAAAAAAACCAACAACAAAAAAAAGGCCAGGCACG
GTGGCTCAGACCTATAATCCCAGCACCTTGGGAGGCCAAGTCAGGTGGATCACAAGGTCAGGAGAGCGAGACCATCCTGGCTAACACGGTGAAACCAACC
CCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCGTGGTGGTGGGCGCCTATAATCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATTGCTTGAACCCG
GGAGGTGGAGGTTGCAGTGAGCCGAAATTGTGCCATTGCACTCTAGCCTGGGCGCCAGAGCAAGACTCTGACTCAAAGAAAAAAAAAATAGGGGGGATGT
GGGTTGTGAGAGCGACACTGTGTGTCCATGCGTGAAGAAACCCGGCTCATGATGACCTCGCCCCAGAACGCCGAAGCAGGGCCGGTCCAGCCTGGATTTC
ACAGTGTTCTTCATTGCCTTTGTCCTTGATTTTTTGTCGTTACCATTATAACTTATCTCTCTTTCCCAAATGTATAAGTAGGCTTTGAATATGAGTTTAA
AAGAAAGAATTCGGGGATGATTTCAGAGTACACTAGAATATTTTTTAAAAGAATATTTTATAAAAATACAGTGATAGTAAAAGAAGTAGAAGGCCAAATT
CYGCCCCCAGCCCCTTCTTAATATTGGACTTTATTCCTTTGCTTTTTTCCCTTGCTGCCATCTAAGGAGGCTTTCTGTGCTATAGCATCCAGTTCCTCTG
CCAGGCATTTCTGTAAAGATGAGGCACCTTCCACTGTTTTATTCTCCATCATTAGAGCACGTGTCCTGCTGACTCGGAGCAGAGGGGAGGCACACGGGGG
TGAACATTCCCTGACAGATTGGATGTCTCTTAACTCTTTTTTCCTGGTATCAAAGAATGGCACAATTTAGTTGATTTGATAGCGTTACCAAATCGTTTTT
CCTTTAGAATGAATCTAGAATGCAGATAGATTCTGAGGTCCAGATGGGCCTCTCTCCACCAACCTGTGACCAGTGTACCTGTGATTTTATCACTGCACAT
TCATAGAAAGGTTACAGGGCTAATCTTCCCGTGATATGAATCATGAAAGTCAAAATTTATGAATGAAAATAARAAGGAATGAAGTACTGATATATGCCAC
ACCAGAGATAAATATTGAAAACATTACCTATGCTAAGTAAAAGAAGCCAGTCACAAAAGACACTACCTATTGTCTGATTCCATTCATGTAAAATATCCAG
AATAGGCAAATCTATAGCGACGAAAAGTGTAATAGTGATTGCCTGGGAAAGGGGCGTGGGAAGCATGGCTAACGGGTATTGGGTTTTTCTTTGGGGTGAT
GAAAATATTGTTAAGATTAATTGTGGTGGTGTTTGTACAACTCTCTAAATATACTAAAAGCTACCAAATTGTACACTCTAAATGGGTGAGTTATAGGGTA
TGTGAATTAGATCTCAATAAAGCTATTGTAAAAAATGTGTGAAGGAAGGGGAAGCATCCTATAACCTATACCATCCCAACAGCCCAGCTAGAGGACGATT
CCTGAGCCTCCTTCTCAGCCTTTGTGTTAATTCTTTGCATTGATGACTTCTCTCTCTTTACCCTTACTAATTAGCTCTCAAAACCTCTATTTAATAATGA
TGCTATTTATAACTTTCCTCCTTCTGGTTTCTTGCTTGCCCTTTTTGTGGTGTTTGCTTGTTTTTCTTTTTTCTCAATACTCTGCCCAGCGTTGCGTGTT
GGTTCCGGAGACTTAAGTGATCCAGTGGGCACTGTCAGGCAATTATTTCTTTTGCTCATTAATTAAGTGTTCACAGATACATTCAGCAGCCAAACCTTGT
GGCATGCCTTCTGTCCCAGACAGTGAGAATCTACTTGGAACTTGGATATTTCTGTGAGCCTTGATTATATACACCACCAAGGGGATGGCATAGAACTAAG
TTTTTTCTTCTTCTCCACAACAGACTTTGTTCTTTAATTTCACAAGCTTGACATAGCCTATAAGACATCATAGTGGTACCATAGACAGTTTTCCCTTGAT
GCCCATGGGGGATTTGTTCTGGGACCTCCCACAGATACCAAAATCCACAGGTTTATCAGCAAGGGTCACTGCTCAATTGCAACAACTGAAGCAGAAGCTC
CTCTCATCAGAGGCAGTTACTGCAGCATGTTCTGTAGGGCAAATATAACCATATGTAAGTGACTGTGCTATCAGGAGACAGAACAACAAGACCCAGAAAG
ACTCAGTGACCCACAGAGCCAGTTCCACCCAAACAAGTCTTASTAATGAGATTAGATAATGAGAGTGTATTTTCTTCATCAATTCATGTAGCTCAGCAAG
GCTGGAAACTGCTTGCACACTTCTGCAGAGAAAAAAAAAAGTTCCATTTGCTGGAACTCAATAAATAAAGAAGGCCTTAGTGGGTACGTGTTATCTCCTT
AGCATCACCTGGATGCCTGACCCTTTTCCAGAGTGTCATGTTGCCTGGGTTTTGTCCTTCAGTCTAAGTGATACACCTCTTAGTGTGGCGGAGAAAAGGG
TGCTGTATTTCTTCCTGATGGATACATGCTTAAATGGAAAAGTAGCATGAGATGAACTCCCATAGCCCCTTCCTTTTATTATTTTTAAAATATTCATTCA
TTTATTTATTTATTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGCGCAGTGGCGCGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCAA
GCAATTCTCCTGCCTCGGCCTCCCGAGTAGCTAGGACTACAGGTGTGCCCACCACCACACCTAGCTAATTTTTGTATTTTTAGTAGAGATCGGCTTTCAC
CATGTTGACCAGGCTGGTCTTGAACTCTTGACCTCAGGTGATCCACCCGTCTCGGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGC
CGGCCCTTCCTTTTAGACAATAGAAACATGCTGCAACCACATACCACCATAAACACGGTGGGGGAAGAGGCTGCAATCAACAGTCAGGAGGATCTGGGTT
CCAAGCCCAGGTTTGCAGTGTAACAGCTGTGTGCTCTTGGTGYGAACATTTGGTCATGTACAAATGAGGATAATGATACTGCCCCCTTGTGATCATTAGG
GGGATTAAATTAAATGCAGAAATATATGTGAGATGCTTAATGTGTTGTAAGGCGCATGGAATATATTTAGTGAATATTAACTGTATATTAATACAAAGTC
CTGTATTCAGAATCTCCAGTATAAATTACATTTATATAGTAGAGATATGAATAGTTTTTGTGAACAAGAAGACCTGGAACTTCAGGTGACTAGAAGCTCA
GAGTGAGCCAGCTATGTTTGATGATAGTTATTCTTAAGATCACACAGAGAAACGGCAAGCAAGCTGCTTTGGGCAAAAAAGAGCATTTCTACACTGTTCA
GACTGCCTCTGTACTGTTAGAATAGGTCTAGGGCGTGTTGCGTGAGTGGTGACTGAGTAAGATGTTCAGAGGGAAGCCGTGACCGTCATCTTGGAATATT
GTTTGAAAGTCTGACCTGTACAAAGCAGCACTCACTTCCCCTGCGTGTCAGACACCTGCATGAGGGCTGGGGAGGGTCCAGTACAGGAAAGCGCATTTTT
AATATGTGTATGGAGGAAGTTCGTCAAGATGGGTGCCATCTGGCAGTGGAGTAGCACTTCCTGGAAAGTAATGAGCTCCCTTGGACTTTGTTTGAAGAGT
CACCCAGGTTTTTGTAAAGAAGTGTTTCAGATCAGTATGCAATGGATGACTGTAAATTTCTCTTCAGATCTAAGAATCTGTGAYTGGATGAAAGGGAGAA
AGGACTGCATAAGTGCTTGTTGCTTGTAAACTGGGCCAGGTGGATGTCATGGCCCTAGGAGCTTCTTGCCTGCCTTTGCATGCCATAAAGCAGTCCTGCA
ACCCAGTGTCACCTCAGAGGGATGGGAATGTAGAAGAAGAGAGTGAATAGGGACAGTGATGAGGGGTGAAAATATGTAACTCCTTGCCCCTTCTGTATAC
CCTAGTACATTAGGAAGTTCACCCTTGTCTAGGCTTCCTGTTAGGAAGACAGCAGACTCAAAATGGAGTCTCAACCCCTTTCAAAGACTGCAAGATCTCC
TTGTACACACTGGACTTGGGAGAAAATGAGAGCTTTCAGGCCTGCTATCTTAACAGGTTCAGAAAGGTGTGGTCCAGCCCCCTGACTAACCAGCCCTGCT
GTGCACACTGAGAATTCTGCTCAGGTGTACCTTTCTGTGTGCTCCTGGGTGCACCCCCAAAGTGCTGGTTCTCTTGAAAACCTTTTTATTTAGGTTCAGA
CAGACAAACTGTGGTATCTTCCATTCTGACCATAAAGTGTTTCTTCTGGGTCTAACTACTATAGTGGGATATTTTCTCTAGAACAAGAGGTTGTTTCTTT
TTGGCATTGAGAAATGTTGCCGATGTGATTTTCTTTTGTGAACGTTTAAGACACAGCGCTTGCCACTTGAACTTTCTTTTGCCGTGCGTAGCTGATTCCA
CATAATGGCTGCAGCTCCAGGCAGAAACCTGTTTGGAAGTTGTTTTAAACTCTTCCTGGAATCTCTAGGCAGTGGCTCAGTGGGGTTTTTTTCCAACCAT
TCCTTAGGATGACCAGAAGCTTGACAGAATCCTCTTGTCTTCATTTTGAGAAAATATGTCTTTACTGTGTGTATGTGCAGCATTTGGTTTTACCTCGTGG
GTCTAAGCATTTTCAACTAAGCTTCCTTTTCCAACCTAGCAGACTTGTTTAAAGAACTTCAAACTAATAGCCAAGCTGTAATACGGTGGCTCTCTCAGCC
TGAGAAGCCTGTGCTCACCGTCACTCTCTTCTTCCCTGGGGTGATAGGGATGGGGAGTAGTGTGTGTGAGAGGACAGAAGCGAGGATTGATTGAAGATTA
TTTTACGAGGCGAGAGCATGGTGGCACACCTGTCAGCTGAGTGGACTCAGCGCCTGCCCCGGCTAGGCTGTCCTCCTCCTGTGCCAGCCGTGGGTTCCCT
GAGTCCCTCTGCAGTCATTCATGGGTGCTGAAAATAAAGATACCCTTTCTGTCGAAAGTGTTCGCCGGGCTGCCTCTGCCTCCCTGGAAAAGCAGCAGGG
CACACAGGCTTCCTAGGCAGCCCCTGAGGGAGGGGCTCTTTTTATTGTCACTCTGGTTAGTTTGAAGACCAGACAGAAGGCAGCAAAAACCAACCCTTTG
TTGAAAACTCTTTGCCTTTAGGCCCTTGGTACCATGTTCATGAGGCTCCAGATAATTCCACAAATACATTATTATTGTTACCTAGACTTGGGGACAGAGA
AGGGTGAAACATGGGTCTGGGAATTCACAGATGAATATACTGTAATCCCCTCGAGCACATTTCTTTTAAAGGAATGGGGGTATTCTAAAGGAGTGAACAC
TCCACTGGGGGGCTGCTAGGCCCCTGTGAACGGTGGCAGCCTTGGCCACGGTGTGTGCTGTGATCTCTCCTGGGTCCCCCGGGCATCCTCAGACCTCCCC
CACACCCAACCCACAGTCCCTTCTCCATCCATCTGCTGACCACACCCCAGGATGTTTCCAGCTCAGATCACGCCTGATTGCATCCACACAAACTGCACGC
CAGGCATTTCCGTTTGGATGTGTACACAAAAACAACACGTCCCAGACTGAGCTGATCTTTCTGTACCCCTCAAAAGAAAAGTTCTGTACCCGGCCAGGCC
TGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGATCACGAGGTCAGGAGATTGAGACCATCCTGGGTAACACGGTGAAACCCT
GTCTCTGCTAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACAGGAGAATGGCAAGAATCCGGAAGGCAAAGCTGGAGC
TTGCAGTGAGCTGAGATTGAGCCACTGCACTCCAGCCTGGTGACAGAGTGACACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAGAAATTCTGTACCCTTC
CAGATGGTCCTGGACATATCTTGAATCTACCCTGCTTTTCCTCATCTGCACTGCTGTCCTCTTGATCTGGGCTACTGAGGCTAGAATGCACATCTGATCA
TGTGCCTCCTGCTTAAAATAGTATTTTTCCTCTTAAGAGTAGTCCAAACTCCTATTGCTGGATTAAAAGGCTGTTCCAGGCTCTCCCTACCTCAGGGCAC
ACCATCTTTCCTCCCAGTCTCCCCTCCCCTCTGTCTCCAGTGCTTCCATCCTTCAGTCATGCTGAGGTTGTCTTTGTTACCTTTGCTTCTCTTGGCCCGC
ACTCTCTGTTGGCTCTGCCAGCATCCCTATGCACCTGCTAGCTCCTACTCACTTGTCCAGCTTTGGCCTGGAAGTCCCTTCCCCTGGCAGGCAGCCCTAA
GCTACCCTTTGCTTGCTACTGGCTCATATTCTCACTGCTTGTCCTCAGGCTGTGAGCCCTGGGAGGGCTGGGCTGAGTCCCCGAACCTGCCACGTCTATA
GGGTGTAACCTACCTGAGGCCTGACTGCTAAAATCAAAAGAAGCCTTTCTCATTTGCTTAGCTGAGCTAAGTCCTTTCTGGAGAAGAATGCCCACGTCCT
GGGTGGACTTCTGTTCGGCCTGGGGCAGGACGCTGCATGTCAGTTCACCTAGAGCCCCTCGCTTGCCCTCACCCCTCTCCCTTTCCTTCTCCTCCCCGTG
TTGTCTCATGGTCAGTTCCTCTCCTGGCAAGGCAAGAGAATCATAAAATCTCTTTGGACCATGTGTCTCTCTGATGCACTTTGGAGGTTGAAGCTCACTT
TCGTGAAGTTAGGAGCGGTTAATCCTCCTGCACGAGGATGCATGCCTGCTAGGGAAAGCCTCCCTGCGTTTATATGGAACAGTGGTGTGTACCTTAGGGC
AACCCAGAAACAGCTGAGATGGCCCTAAACTCTTCCGTATTTTGATTCAGAAGCTTTACCTTATTTGAACATCTGCAGAATAAGTTCTTTCCTTTAGAAA
TGATTGGGGATAAAATTGTTTGCATTATGAAATATTGTATGGCCAGGTGGCCCCTCTTTCATGTTTTGTTCCTTGTGAAGAGGTTGAGTCTCCTATTTTT
TTTTTTTTTTTGGAGATAGAGTTTTGTTCTTGTCCCTCAGGCTGGAGTAAAATGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAACGA
TTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATCACAGGCACGTGCCACCACACCTGGCTAATTTTTGTATTTTTAGTAAGAGATGGGGTTTCGCCATGT
TGGGCAGGCTGGTCTTGAACTCCTGACCTCAGTTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATCACAGGCGTGAGCCACCACGCCCAGCCTATG
GTATGCTTTTAAAAATGGTTTCTCTGCACTAATGATTATTTAAAAAAAAAACTCTGGCAAGAACAAAAACAAATGGTTTTTTAAAAACTCTAGAAATAAT
TTGATACATTCGAGGACTCTGGAGAGGGAGAGAGTTAAAGGCTGATGTGTGTGACTCTTTTTCCTCTCCCCCCAAGGAAAAAAAATGAAGAGAAGGAGCT
TTTAAGTGCAGTGCCTCGTTTTTATGTGATTGCAAACCTGAACCAATCCTTTTAGTGGTGGATGTGGGACATGTTAGCTTTTCCAACAGTTTAGATGGGC
CTTTGTTTTTATTGTTGGTCACTGTAAGAATTCCAAGGAATAGAAGGATCTCATGGGCAAAATCAGTTTGCTTTTTTCTCTGTATATTTGTTAGTTTAYA
GCAGCTTCTATTTTCCTCCTATTTTTAAAAGCTGAAATGCCTTTAATCGCACTCAGTGTGTTTATTCATGGAAGCCAGAGAAGAGGGTCCCTTCCTTTCC
CCCATAGCGCCGTAATTGGAAATTTGGTAGTACTAGGTGAAATTCTCAGTTTTGGCGCTCGCATGGAACAGCCATCCATCTGCTGGCGAGACACACTGCC
CGGGGCTTTTCAAGAAATCCCTTAATGGTCCTGAACACTAATAATATTTATATACATTGAGATGAGACAAAATTTACAGCGGGCTCTGGGGCTGGCTCCA
GGACTCTCTAATCCCACACTTGCTCRCGTTCTCTTGCTTGCCTCCTAGAATCCTTTCAGGTTGTGCTTCAGTGAGGGGAGCATGGTGTCCGTCTCTGCAG
CAATGCTTATTTATGCAGTTCGTCCTCTAACAAACAGAGCAACTTTCCTTTTGACCTTCCCCTCTTCTCCCCATCACATTCCATTGCTGCCCCCGCATAG
AGCATGTGCTTATGCATAGTTTGCATCATTTAACACGAAGGAACCCCTTGATTTGTGATCCCTTTAAGAAGTTGCTCTGTATATAAAGAAAATGATTTTT
CCTGGTTGGTTTTACTGAAGTTCCTTCAGAAATAGCTCCCACCACCGAAACACACCTGACTTCCCCAGCCTGTGTATCGGTTGTGGCACGGACTGACTGA
CTGGATGGTATAATTTCACTCACTCCTTTGGGAAGTTTCGGGGGACTACTGCTCAGATGTGTGGGAAATGCGGAATATATCTACAGGTACTTTGTCAGTT
TTTTTTTTTCTTTTCTTTCTCATCCTGGAAAATCCCGGCATTGATATTTAGGTATAACTATTTGCAAGCAAGTGCAGAGGGACATTTTTCTGTTCTTTTC
AACGTTCTTATTACTACTGCATTAATAGCTACTTGATCTTAATGTCTATTACACATCATTTTATATAATGTTTTCTTTAAATTGTCAGGGAAAGGGATTC
TGCAAGTAGATGTTGGTCCCCCCAGTTAGTGTCTGATGATGATGGTAAGATTCTCAGAGTTTCCTTCCTCTAATGACAAAGCATGGTGATGGTGATGTCT
GAAGAGCAGCCTCGGTGCTCCAAGATGGGTGTATGCTTAATACTGCTGGCACACGCCTGACGAGCGGGAATGTGAGCGTTGTTTCTGTAACCAGTTTYAC
TGAACCTCACAGATCCATTATACGACGTGAATTTTGTGGGAATAACATAGRCTGGGAGTCTGCTCTCTTCCAGCCTGGTCCCTCTCTTCTTTCAGCCCTA
CCCTCTCTGATCATCATGTCCCTTGCACTGCGGCCAGGTAACCTTTCTGATACGAAGGTCTGGGCATGTTGTTCCCTTGCCTAAAACTTTCCATGGTTTC
GTATTATCCACAGTTGGGCTAAACCCTCTGGGACAGGCCTTCAGTGCCTCCCCGGGCAGTGGTCCCTGGCCTTCTTCAGTAACACCCAAGCCCTTGCACC
CACAGTGACCTCGTTGCTTTTACAAGCATTTACATGTGATGTTCTTTATTCCTCCCTTGCTCATCTTTCCACTTTCAACTCCACAAAACCGTCCTCGGCA
CCCAGAAGCCCAGGAAACACCAGGCAGCTCCACTCACTCCCGTACTTGCTGTGTCGTCCGTTCCCTGGGGACAGGATTGTCGCTGATCCTGCGTGCATCT
GTCTGGCACACAGGTGCAGCACACATTAAATAGCTGCTAAATGAATAAATGAAGAATAGATGGAATTATATTCTGTTGTGACCAGTTTAAAAACATGAAA
TTGGAATACCCAATTGCAGTGTTTCTTTAGATCTTGGACCTTGAGGTGACCTCTGTAATGGATATATTTGAAATTATTAACTGTCTTCAAGTGGGGGTTT
GATGAGAGAGAGAGAGAGAGWKTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTACAGAAAATATGCTAGGTTTGTACATTCAAATTTGTGTTATCC
TCTTCAAGAAAGTCACCTTGGTAGACAGCATATATATCCCAACATTTTAGGAACTCATAAAATGCATACTTTTTTGGTGTGATCAGAGATGGGTAACTCC
TTATTACTTGTGGGTTAGATTAGTTTTTGGAAATAGCCTGGAGTCATTGAGAGCCAATCCTTATCAACAAAATGGCATAAATGGACAGGAATGGGTTTCT
TCTTCACTTTAGAGATAGCTCTGAAGACATGTCTCAGTTGGGATTAGTTCAGTTGCATATATGAATAGCAGTCATTGAAACAAGATAAAAGTGTATGTCT
CTCACATCTAAAGAAGTCTGGAGTAAGCAGTCCAGGGTTAGCCTAGCGGCCCCACTCTCATAAGGGACTAAGTTCCTTTTATCTCGCTTCACCATTCTTG
ATGTTTCGCCTTGTGGTCCAAGGTTGGTACTTGAGCTCCAAGCATTACTACTGCATTCCAGCCAGCAAGGAGGAGGATGGCCATGCCCTCTTTGTTCTCA
GGAGTCTTCCAGGAAGTTCCAGTCACAACGTTTGTTTATATCTCACTGGCCAGAACTTAAGTCATATGGCCACCTCTAGCTACAAGGAAGGCTGGGAGAT
GTAGTCTGTAACTGGATGGCCATATTATCAACTAAAAATTACTGAAAATGACAAGAAGAATAAATAATGGAAGGCAACCTGTTGTTTCTGTCAAAGGATG
ACTTCAAAAGAGAAAGTTGCAAAAGTATTTCAAGCTTGACAGTATCATGACAGTTTTCTTCAGAGGTGACGCTATTCATTTGCATGTCCAAGTTCTGATA
TCTGTTTTCAAGTTCACCTATTTGCAGCGAAATAGGAACTCTTGGAGGCAACTAGTGGGTGTGTAAACCGGTACAAACTTTCTAGAGGACAGTTTAACCC
AACAAGATGAATTCTGGAAATTGATCCTAATGAAATGTTAAGGGTGCTCATGAAGATTGCTTTGCCGATTGCAATAATAAAAAGTAAAGAAAATATCTTA
TAATTGGGGACAGGTGTAACTTATGATACATTCCACAATGGAGTGTAATACTGCTGTTAAATGTTTGTGGAATTCACAATCTTTTATGCCAAAAGAAAGC
TTTCAGAATGGCTTGTCTTTTTTGTAGATACTTGTATTTATATGTCCATGCACATACATAAGAAAGGACCRGGGAAGGTCTGCTTGAAGATATTAATAAA
GGGGTCACTTGTGGGTAGGTGGACTTACTTGTTCTCTATATTCTCTTTACTTGTTTGTGATCTCTGGTTTTTTTAATCATGTATTTTTATTACAAGAAAA
AACAAATTCTAGAATCTCCACTCAATATTGCATGTCAGAGTCAAAAAGATACACATTTAAATAATTTTGTATTGTTTTCCAATTTGAGGATAAAGTAGGA
AATGTATAATGCAAACCAGATTTCATATTTTGTTGATTTAGACTTAATTTACAAGTAAGGCTGACAGCCCACAGAGTGTGATCACGACAGCATTGTTATG
GAAATAAATGCCAGCTCATGCATTTGGGATGTACACCATGGATCTGTGGTTATTAGATACTGATTTCACTTTAGCACACGAAGAGGCTTAGCGGAGGTGG
CTTCTAATATCCTATGGTTCTGTGGGCTCGGAGATRCTACTCACCCACTTGTCAGAGGCATTGAAACCAGAGCAACTGCATCTTGAATAGGAGCTAGGTA
AAATGAGGCCGAATTCCCAGACAGTTAAGACATTCTGAGTCACAGGATGAGGTTAAAGGTCAGCACAAAATACAGGTCATAAAGACCTTGCTGATCTAGC
AGATGCAGTTAAAGAAGCCGGCGCAAACCCACCAAAACCAAGATGGTAACGAGAGTGACCTGTGATCGTCCTCACTGCTGCACTCCCACCAGCGCCATGA
GTGTTTACATGTCATAGCAACATCAGGAAGTTACCCTATATGGTCTAAAATGGAGAGGTATGAATAATCCACCCCTTGTTTAGCGTGTCATAAAAATGGG
CAACCAGCAGCCTTCCAGGCTGCTCTGTGTATGGAGTAGCCATTCTTCTGTTCCTTTACTTTYCTAATCAGCTTGCTTTCAGTTTACAGACTCACCCTGA
ATTATTCTTGCGTAAGATCTAAGAACCCTCTCTTGGGGTCTGGATCAGGACTCCTTTCCTGTAACACACCTATGTTCTTGGACTTAAGAATGACCCTCAG
ACATGGTGACTTCTTTGTCATCTAACAGCTTTGGCTTATTTGAGGTAAAACCTTTGATATCTAAGGCAGCAGAAATTTCCCTGAAGTCATTTTGAATGGT
ATCATCTTTACTATAGTGTAGTTTAATCATTTTCAAAGTAAGCATTTCTGCACACTAAGGCTTTAAAAGAGTTTTCAGTAAGGAACATATTTGAAATGGA
AAGTGAGCAGAGCACAATGCCTTTTAAATTACTGATAAACCATAGAGTTCCTGTAGGGCTTCCACTGGCTGACCCACGCCTGAGGCAACCCTCAAATGTG
GGTATTATCCCCCTCATTTTACAGATGGGAAGAGAGAGGATCAAGATCACAGAAGCTAATGGTTTGTCCCAGACCAAACAAGGAGTTCCTAGGAGAGACT
GAACTTTAAAGATATCRACTCTCTGCAGGTCTAAGTGGATGAAAGGACAGTGGTGGGGGTGAGGATTTCGTAGTGTGTTTTTGCATTGTCTCCTCAATGA
GTGATCTGGTGCTGGTGGTAGCAGTGAATGACCCAGAAGGATGCTGGCCAGGCCCAGAGAAGGCGGTGCCTCCCCTGCCCGGTCTCATCTCCGTCTCTCC
TCTCTCTCCACAGTGTGCCCAAGCACGTGTGGGAAGCGGGCGTGCACCGAGAACAATGAGTGCTGCCACCCCGAGTGCCTGGGCAGCTGCAGCGCGCCTG
ACAACGACACGGCCTGTGTAGCTTGCCGCCACTACTACTATGCCGGTGTCTGTGTGCCTGCCTGCCCGCCCAACACCTACAGGTTTGAGGGCTGGCGCTG
TGTGGACCGTGACTTCTGCGCCAACATCCTCAGCGCCGAGAGCAGCGACTCCGAGGGRTTTGTGATCCACGACGGCGAGTGCATGCAGGAGTGCCCCTCG
GGCTTCATCCGCAACGGCAGCCAGAGGTCAGTCGCGGCCACACGTGTGGTCACTACCCGCCCCACCTCACCCGCCACCCTAGCACACAAAGGTAGACTCT
GTCGGTTGTTTCATCCGGGTGCAGCCCTCAGGAAGTTCACTGAGGTGGGTCATTTTGAGAGGGCTGGCTTACCTTAAATGTTTGGTGAGATTCTAGGAAC
AATTGGCATGGCTTACCGCCCCCCTCACCAGTTTGTTTTATATTTTAAGTGCATACTGCCTGGCCATTTGAAATTAAGTACTTGCTTGCTGGTTTCGATA
CCCAGAGTTCATAGTCTCTCTGGGTACTTGCCAAGCTGCCATCTAAGAGACAGGGAACTGTAGTTTTGGATTTTCCTAGTCTGGGTGCTGCTAGCCAGGT
GAGGCTTTGGAAGTGCAAAAGAAAAGACATGCTAAGCCCCCACCACCATCCTTGAGACCAGCAAGCGGACCTAAACATCTTAGTGCAAGAGCTAGCAGCA
GCTCAGAGTAGGCAGTAGCTTAAAATAAGGGACATTTTTCCATCAGCACTTCCTTCCTCTCATCCCCCTCTACCTTGACCCTCCCTCAGTGCTCATCATG
TCCTTCATTTTCCTTCCTGAACTTTGAGACTTCACTTGGGAAGCAAAGAAGTTCCTTATGGCCAGGCATGTGGCTCACACCTGTAATCCCAATACTTTGG
GAGGCTGAGGTGCTTGGATCACTTGAGGTCAGAGTTTGAGACCAGCCTGGCCAACGTGATGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCACCTG
TAGTCCTAGCTACTCCGAGGCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATCACACTACTTCATTCCATCCTGGGAGACAGA
GTCTCACTCTGTCTCCAAAAAAAAAAAAAAAAAAGAGAAGTTCGTTATAACAAATGCCATATGCCCTTTTGTACRTGTCAACTGGACTTCTATAAATTTG
TCATTGGTTTATGCTTTTGAAAATAAGATGTTAGCATTGTTTAAAAATGTGATAACTATAACTTTGAAAGCAAAAGAAGATTGGAGATTTGGGGTTGCTG
TTCCCTTTCCTGGAGCAGAGTAAAGAACTTTTAGGGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCAAGGTGGGCAGATCCCTTGAGGCCATGGGT
TCAAGACCAGCCTGGGCAACATGCAAACCCCATCTGTACAAAAGATTAAAAAAAAATTAGTTTGGCKTGGTGGCACACACCTGTAGTCTCAGCTCCTTGG
GAGTTGCAAGTGGGAGGATCACCTGAGCCCTTGAGGTCAAGGCCGAAATAAGCCAAAATCGCCTCACTGCACTCCAGCACAGGCAACAGAGACCCTGTCT
CAAAAAAAAGAACTTTTAGGAAAGTTCTGTTTTAGTGGACTAAATGCCTCCTTCATGATTAGCACCAGGGGGCCTGTCTTTCTGAGTCTGTCAAAATCTA
TTCTACAAATATAAAAATATCGTTAGAAAAGTAGGTGTTAATTTTAAATATAATTTTTGCTGCAGCTTATGAAGTACATTGAGGAAGTGTTTATAAAGRG
GATTCTTTTTCTAGTGTATTATTTGGAGACGCAGCTTCTACTGTAGGCTTACCTTCAAATCAAAGATAATACATTCTTTTATAGTATTAGATGTAGAGCA
ACTTTCTCCCTCTTATAATCTGTATAACCATTAGSATACTAACAACAAGAAGAAAATTACTCTGAATACTTTAAAATGATAAATAGGCCAAGGACTTCAA
TGAGCTGTAGAGGATACATATTACATCCAAAATCAGTCTACCACATTGTACTCACATTTTGTTGGCAGCCTTCGAGTGTAAAAGGGCTTTTACTGGTGCA
CACCTCGGGCCCAGGGGCAGTGCCTGGAACCAAGTTGAGGCTCAGACACTATTCAGACGTCACCTTCCTCCTTGGGGTGGGGTTAGGGGAGTGGTAGCTT
GTCCATGAACTCAGTGTGCTATCGTCTTTGTTTTGTGAATACATTTTCTTAATGACATTTGGAGGCCTTCAGTCGTTCTGCAGCCACCAGAGTTGTGGCA
AAGTGGGAATGCTGTCCATTTGACAGTGTTGTTTCTTCCGCTCTAGTGCACTCTTCAGAGAATTGAGCCATTATTTCCCCTATTCATTCTTACAGTCCGT
TAAAAACTATACATCTACCTTTTTGTTTAAAAATAAAACACCATAAAGAATAATAAATTCCCTTCTCTCAGCCTTTGAGGCTTATTTAACAATTACTTTG
AAATATTTAATTTTTTCATCTTGTTTATACCTTCTCTATACCATAGTGGATTTGAGGAAGCTTAATCTATAAACATGTTATCAAAACACTTCCTTAGAAA
AACATTTTTTAAGTGCTTGATGACTCCTAGACTTTTTACCAAAGATGATTGGTTCCATTTTTTTTTTCTTTTCTTTTCTCTTTGATAGACTCTGGCTGTG
TCACCCAGGCTGGAGTGCAGTGGCACAATCATAGCTCACTGCAGCCTCAAACTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGA
TTACAGATGTGAGCCACTGTACCCAGCTTCAGATTTTTCTATTTGAGTGAAAGATGGAGAGAAACTAAACATACACTTATGGTACAACCCAGCAGTTGTA
ACCCTGGATATTTATCACAGAGAAATGAAATTTATGTCAACACAAAAATATGTACACCATCGTCCATAGCAGCTTTATTTGTAATAACCCCAAATTGGAA
ATTACTCAGATGTCCTATGATAGATAGTTAGTTAAACTGTGGGACATCCACACCATGGAATATTATTACTCAGCAATAAAAAGGAACAAACCATTGAAGT
ACACTACTTGGATGGATCTCAAGGACATTATGCTCTGTGAAAAAGCCAACCTCAAAAGATCACATACTGTATAATTCCATTTATGCAACATCCTCAAAAT
GACAGATTATAGCCAGGCACGGCGGCTCACGCCTGTGATCCCAGCAATTTGGGAGGCTGAGGTGGGTGGATCACCTGAGGTCAAGAGTTTGAGACCAGCC
TGGCCAACATGGTGAAACCGTGTCTCTACTAAAATTACAAAGTTTGGCCAGTCACAGTGGCTCATACCTATCTCAGCACCTTGGGAGGCTGAGGCAGGCA
GATTGCTTGAGGTCAGGAGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGCCTGGTGATGGGTGCCTGTATTTCCAGCTAC
TCAGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAGATCATGCCGCTGCACTGTAGCCTGGGCGACAGAGTGAGA
CCCTGTCTCAAAAAAAAAAAAAAAGACAGATTGTAGACATGGAAAACAGATTAGTGGTTGCCAGGTGTTAGGGACATTGGGGACTAGGTTGGGCAGGGCA
GTGAGTATGAACAGGTGGCATTAGGGAGAGCTTGGTGGTGACGGAACAGTTCTGTATCTTGATTGTAGTTGTGATTACACAAATCTACACAAGTGATCAG
TGACACAGCACCACACACACACACACACACACACACACACACACACACACACACACAGAGTTAATTTCCAGGTTTGATACTTATATCATGTAAGATGTAG
TAAACATTGGAGGAAGTTGGATGAAGGCTATGTGGGATCTCTCTGTAACTTTCTCGTAAATCTTTGCAGCTTTTTGTGACTCTATAATTATTTTAAAATA
AAATTTTTTTTTTTAAATGGAAAGTTTATAGGGTATGTAGATAAATTAGAAACAACAGAAGGCCAAGTAAAAAAGTGCTGAAGGAAGCCTCTACCCAGGC
TGGAAATGAGAATGTTGAATGCAATGGTAGAGGAAGGACTCTCCCCATCTGTGGGTGGGTCCAGTTCCTGTAGGACCCTTGGGGAAGCCATGACCCCCAT
TCTCCCAAACACACAATAGGAAAATACCAGAGAAGTTTTGTTTACCTGTTAGCTTTTAAACAAAACAGAACCCTGCATCTTTGTCTTAGATACAAAATAA
CCTTCATGGGTAGGGGGAAGGGACATTAATAAAAAGAGCTATAATTTACATTGTTTTTCTTGAATGTTTTTACTTCACGAAATTTGAGAGATGATTTAAG
AACAATAATGTACATATAATGGCTCCCCAGCTTACCATCCTATTACACACACATCGCATAAGTTCGTATTATTTGTCTTGTTTGGAAATCAGTCCAACTT
TCTGACCCTTGTTCTATATATAACTATRGATCCCAAAGGTTCAGCTGCTGGGCTAGCATTTTGTCTGCTATTTCCTAAATAATGGTAGGTAAGCAGGAAA
AGTGCCAGTCTTACTTGTCCCTGACTCTTGGTGGTTCGTGGCATGTTCAGGATAGTATTTGAAACAAGAGCTCATTACAAAGTAATGGAAACCCCTTGCT
TTTATTGTGTATGCAGCAAAAGCAACATTTGGATCAATTTACAAGTTTCTGCAAAACACCGTCAAGAAATAATTTCGGTTGTGCTTTAGCAAGAAAATAA
TGGATCTGTGCTATACCACATGCCTTTTGGTATCCCTCACTGGGCTTTGCCAAAACACTGACTGCAGGAGCTAGACTACTGTTAGGCAGAGACACTGCAC
TCCCTTTGCTGTCCCTGCCTTCTCTCCTAGCGACTCCTCCAGGTACACAGGCCAGGGTCACAGTATCAGAAAGCAGCTCTGTTTTCCTCCAGAACCCCCC
AAGCTTCCTTTCTGCAGCACTGTCTCTCCCACATGGAACCAGCTGGCTCACCAGTCAACAGCCTATGACACACAAATGCCTTGAGGATGCAGCATGTATT
TTGTCTGGAAGCAAGCAACACGCTCTTCCTTTGTAGGCTGTTTCTCCTTTTGCTTGCAATGTGAGTGGCTTATCTTGGGTGGGCTTGGGGGTGAGATACC
ATGTGACCACATGAACACTTCAAAACAGTTGCTTTTTCTAATGCATGCTGTAATAACAATGAAAAGCATATCCTTATGGTTTTTTTAATGCAAGAAGACA
GACTCAATTATGTGTGTTTTTGATTTTTTTTTTCTTCTTCAACAGCATGTACTGCATCCCTTGTGAAGGTCCTTGCCCGAAGGTCTGTGAGGAAGAAAAG
AAAACAAAGACCATTGATTCTGTTACTTCTGCTCAGATGCTCCAAGGATGCACCATCTTCAAGGGCAATTTGCTCATTAACATCCGACGGGGGAGTAAGT
ATTCCATCCCCCTGGAAAAACGGCTAGATCTCATGGTTTTCTTTTGTTGATGCTTTTCATGCTCCCGTCCCTGAGTCACCACTAAAATATGGGCTTAGAT
AAACAACATGGTGTGTAAGCCTCACGCATGACGTCTCTTCTTTGAGTTTCCCTGAAAGATAAAGAACAGATTGAAAGGCAATCTGTCTTTTAGCCATTGG
CACGTCATTTATTCCTGTAAAGAGGGTCATCGCTCATCTTTTTGTTAGTCACATCTTGCATAGGAGAGGCAAGCCCTGACACATACAAACCCCAGAAGAG
ACCATTGGATCAGACGTGTGACTCAGCAGACTCCAGCTGTAGCCAAATCCACACATCTTTCAAGTCTAAAGAGTTTTGGTTACTTGAATTTACTGAGAAG
ACTGAGCAAAGGGAAGTTTAGTGATATCACGTTAAAATTTTATGAAGTCCAAAAGAATGCTAGATTTCCAAATTTACTTGTGAGAGACAAAAGGATACAA
GTGTGTGTCATTGTGTACATAAAGTTTCGGTCTCACCCCTGTACAATGACCTTTATTTGCAATAGATGGCATTCCTGGTAAGTTGCTTCTRAGTTGGATT
TGTGCAAAGGATTTCCCACTGACTTAGCCTATGATCTCTTCACTTCTTTGGTTTTTTGTGTGTTTGTTTTTTGGTTTTGTTTTGAGACAGGGTCTCACTG
TATCACCCAGGCTGGAGTGCAATGGCATAATCATAGCTCACTGTAACCTGGAACTCCTAGTCTCAAACAATCCTTCTGCTCAGCCTCCCACGTTGCTGGG
ACCACAGGCACACACTACCATGTCTGGATAATTTTAAAAATCTTTTCACTTCTGATTTTTCATTGCCAAGGGCTTCTAGTAATGGTGCCTTAAATTCTCT
GCCACTGGGACCACTTGGTCAAGGTACTGATAGTTTTATAAGCTAGAATAAATATCGTAAAATGGCTTTGAAGTTGAAAGGAATTTTGGGGGGGGAATCC
TTTTATGAAGAATTTTTTTTTTTTTTTACAGTTTGAGAGGAAAAATAATGTATTTTGAGAATGTGTTTTCCTTAATATTTGTTAAATGAGTAGACTGTAT
TCTTAAGGTTTAGAAAGGACAGAAACAAGTTTGTGCTTAGTTCTTCTGAATTMGTTGATATCCCTTGTTGCTGTTCACAATACACCCACTCCCAGCCCTC
CGTGATGGAGATAACTCTGTTCCCCACAACTAGGGCTTGCCSACTCTCATGGTACTTCTGATGTTTAATTMTTTTGGCTGTGTCTGCATTTCCTCRTTTA
CTTTTAATTTGCTTATCCCTAGAACATACCTTTTGAGTGCCTAAACTTTTTTATCTTCCTGTCCTGAAGACAAAAATTTAATCTGTGAATTAAACCCATG
GAGAAGTATCATTTATGAAGGGATTGGTACATATTGATGCATGATGATGAAATGTGTCTTCTGGTTTATGTCCATTGCAGGAAATAGATTGGATTTAGGA
TGATGGGACATCTCATTAGAGGGGAAATTTCCTGATCTTGACTAAGGCATGCTTCCTGCCCCACGTTTAAAATTCAGGATCTCTTCCTTAAAACATCAAC
TGCACGCAACCTCTCATCTTTCCAACTTGAACTTCCCTTTAATTTTTCTTGGAAAGCTATTAAATTAAATTAGATGTAGGGCTTTATCCTTTAGTACCCT
TATTATTTTATTTGTATCAACTCAAAGCAAAATAGAGCATTTTATTAAATATGTCTTCATAAATTACGCACAGTAAAATCCCATTAATTGGACCACACCC
AGTTCATTATAGTGTTTATTATAATTTTAGCATTAGTTGAACTGAAAATTGGTTTTTGTTTACTATGAGAAAAAGGTAGACTAAACAAGATGAAACCTGT
TGTTTGCATATTATGTTTGTACATCTTTATTAGCAACTATTTTTCCAACTATTTTCAACTATTTTTCCAACTATTTTCTAGTTATAAAAGCAATACATAA
ATACTATAGAAAATTTAGCAATGCAGAAATGAATTTTTAAAAATCCCTCATAGATAGCCATTGTTAACATTTTGGTGTATTTTCTTCAAGTCTTAGTAAA
ATGGAACCTTTAAATATAGATCCCTGTATCTTAGGAATTAGAAAGGCAGCAAAGGCAGTTCCTAATGAGATGGAGAAAATGTTGATTTAGTCATGCCCTT
GTACTGTGGGGGCCATACTGTCTGTTGACAGAGCATATTAAAAGACGTTCCCTACATTCGTCAGCCTTAGCTAATTGGCAGTCTGGTATTTATGATTTTA
TATTTTGTTAATCAGCTTGGGAGCTGCAGTACCCCCCAGCCTCCTAGAAACTTGGCTTCCCCTGCCTGGGAGGCCTCGTTCCAGGAGTCGTTGTTGAGAG
TCAAGCCAGGGAAGTGTGTTTTTGTCAGGGAGCAGCCAGTCCTGTGCTGGGAGCRTCTCAGGGGGCACCTGCCGTTGAATTGTTCTCACTTGTGTTTGTA
AGAATCCAAGTATGTCACCCTTACACCAAGTGAGCACACAGTGACACARTCCCCTTTCAATGTAGATAACATTGCTTCAGAGCTGGAGAACTTCATGGGG
CTCATCGAGGTGGTGACGGGCTACGTGAAGATCCGCCATTCTCATGCCTTGGTCTCCTTGTCCTTCCTAAAAAACCTTCGCCTCATCCTAGGAGAGGAGC
AGCTAGAAGGGTAAGTGCCCCAAATTTCATGAGCTGACGTTCTATTACAAAATAAGCAGCGTGCTTATGAAACTGTGTTGCTGAGGTAAGAGCCCTCCCT
GCCTTGTTAAAGAGAAGAAAGGAGGAAGCCGCAGTATTGCCTGTGCTGCTCGAGTAGGTCTTGGGTGGAGTCATGGTTCTCCATTCTTAGGAGGTTGCTG
TTTGGAAAACAGAGATGTTATCACCCTTACTGGATTTTGCCTCATCAGTCAAGGGTTGCGTGTCTGACTGTGACCAGTGAGACGGCAGACGGGGGTGCRC
TTAGGGCTTTTCTGCCAAGARTGACAGCAGTTGGTCTGGAGTGCTCACCTCCCTGTGAAATCATTGTTCGCGCGACCCTCATCTGCCTCAGGATGCTGTA
CTCTACTACGCACAACTGCTCCATCTTTTAAGATATTGGAAGTGAGAGCACRGGAGGAGCATGGGCGGTTCGTTTTGTTAGAAAGAAACCYGGATTCACG
AGATGGTTTTTATTGATTAGTTTACAGGATTTGCACTATTGATAGAGTTTTTGCCTTGGCACAGGCCTGCTTTGTGATAGGGGTTTTAAAATAACCGTGG
GCTTTTCACTGGAGGATAAAAGCCGGTGCTTATTGCATGCACAATTGCTTTCCAGCCGTCAGCCTGTGTGTACCTTTGCATATGTACTTTTCTCTTTAAA
CTCTCCCTTTTAAATACGACTCTTGCCAGGCTTTAAGTGAATGCTTCAAAATAAAAGGAGTTATCAATTAAAGAGTGAATTCCTTCCAAAGAGAATTTGG
GAAAATAATTTAGGAAAAGAAGAGGCGAGAAGGTCATGGGAAAGGTTGTCTTTGCTGATTTATCTGCCCCAACTGGATAAAGTTACTGCATAAGGGTTTC
TTTACAGCCTCCCTGTTTTTCTCAGACTAACTCTTGGTCAGTCTTAAATTCTTAAAATTCCATCATCTGWTAGAGCTAACGAGAGCGGGCAGCTCTTCAT
TCCATCCTTGAAAAGCACAGTGTCCTCCCCACTGGGGAACACCAATCCTTAAAAAACTTCTTTCTCATTGCAAATCGAAGGAGGCTGCCGCTGCACCCAG
CCCCAGACTCCTCAGTCACTTACCTGGCAAGCTGAGGCCCTACCAGTTTAAGGTGATGATTATTGTTTCTTGTATTAAATTTTAAAATGAATTTTTCTCC
GCTTTTTTTTTTTCTAAGTAGRTTTGTGTTTCTGGAATCTCGGGTGTCTGTGAGCATTTCTTCTTCAGCAGAGCAGTAGCTGTCAAATTTTCTTGTTGCT
TAATGATATACTTTTTTGTTTCTAGACTAAGCAAATGATAGACATAGAGGTGAATGCTGAGAGGAGAGTTTAATTAATTTCCATTAGGAATTATTATGTG
GTTACCTTTTCATGGAGTSTTAACTAAGTATTGTGCACTTAAATGTAGTTAGAAATTAAAGCCTGATTTTTATTTGCAAGAATATTTATGATGTCTTTCT
CATTATCTGAAACTTGCATAAAACCTGAAGCATCAGCAAAATCTTTTTAAGGTTGYGTGCTCAGGTGTTTGGGAGGCTTTCCAGGTAAGCCCGGGCCCCT
GGCCTGCTCTTACCATTTTAGATGCAGGGGAGGGCAAGTGGGCCTTGGGTTTTCCCTGCTGCTGCTGCTCCCCAGTAGTCCTGCAGCTCCAAGGATGCTG
GCTCCAGCCTTTCATTCCTGCGTGCAGCTTCTAAGAGGCTCTTTCTTGAGCTTGGGCTCTTAAGAATCTTTTACCTCCCGATGGGAAGTTTTCTCTCACC
CTGTCTTCCTGGCCCATGACCACAAAGGTATAGCCCATCCTCACGATGATGAGCTCCCCAAGAGCTCTGTTTGCTTCAGGTGTTGAGACCGCTAGCAACA
CCTCAGCTGTTCATTTCTCCTTAGACTCAGGGACAGAGTTAGGTCTGGCCCCTTCACTAGCTGCCCTCACTTCTGCAAGAAGGGAAGAGTCAGAGCGAGA
AAGAGAAGGACAGGATACGATAGTCAGATAAACATCAGCAGTGCAAAGCAGAACTCGCACAGTGATACAAGGGAAAGAAAGAAATGTGCCCTAGGCATGG
AGAAGAGCCAGATACCTGAGAAGATCAGACAGGCTTCTGACAAGAGGTGGCATTTGAGATGGGCCTTGAAGGCTTTCGGGAAAAACTTGAGGAAAGCAGA
GGATTGAAGTGAAGAAAGGCAATTCAAGGTAGGGTGGCAGGAGCAAAGGCAACGAGTTGGGGCATCCTGGGGCCTGTTGGGCAACTAACACTGGAGAGGT
GGGTGGTACTAGAGTTATGTAAGATGTTTTGCACGCAGGTATAAAGGGTTATAATTTAGGAAGACCATGGAACGTATTCAAGGCTTTTGAATAGAGGAGT
GTTAGCAGAGCTGTCTGAAATTTTTATTTCGGTGTGCTTTTGGTTTAAGCCAAGATAGCTTTCATCCCAGTGTTTCTCAAACTTTGCTACACATTATGGA
ATCATTGGGGGTGGGGGCAGGGGTGGAGTTGAGAAATCCTGATGTCCAAGTTGCACCCCCACCCCAATTCAATAGGAGCGTTTGGGGTTAGGATCCAGGA
ATCAGTGCTTGTCTAAAGATCCCTAGGCWCTTCAGCAGGCAGCAAAGATTGGAAACCACTGCTTTATCCCTTCATTTCTTCCCATGTGCATATCACAAAG
CACTTTGACGGTTTTTTTTCCTAAATATTTTCCCCTCACACTGCTGCCTAATGTTTTAGAGGTTCACCCATGTTGTTAACACGTGTCACACTATTTTCTT
GAACTTTTTTTTTTTTTTTTTTTTGAGATGGAATCTTGCTGTGTCGCCCAGGCTGGAGTGTAGTGGCGCTGTCTCGGCTCACTGCACCCTCTGCCTCCTG
GGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAATAGCTGGGATTACTGGCACGCACCACCACGCCCGGCTTATTTTTGCTTTTAGTAGAGACGGACTTT
CACCGTGTTGTTCAGGCTGGTCTCAAACTCCTGACCTTGTGATCCGCCCGCCTCAGCCTCCCAATGTGCTGGGATTACAGGCTTGAGCCACCACGCCCGG
CCTTCTTGAACTTCTTTTATAGCCAGTGATAACATAAATGTTTCCATTTGGTTCAATAGGATGAAAGTTCTGTTCTGTAGCCTTTTGTTTTTGATGGAGA
ACAGAACAATTCAAGGTACAGAGATCCTTCAACTCTGACAACCTTGGCTTTCCAAAATGTCACTGAGATCCCCCTCAAAAAGTCTCCTGAGCCATCCAGA
ACAGAAAATTCAAGCATTTTACMTAGAGTAGAGCTCTTATTCCTCACTCAGAGCCTGTTGACTTTTATATCGCACTCGGCGTGAGCTGATTTTGTAACCC
AGTTACAAAAGCCATAGCCATGGTTTCCTCAAGGACACCATAGGGTGTATTTCTAGAGTAATGACCTTAGACATTAAGAAAATCAAGACCGCTCTGCTGT
TTACAAAGGAAACAGGTTTTGTAATCCACATGTACACAATTTTTATAAAATAGCTAATTTTTAAGCTCTTGAGTAAGAGAATATTTTCACTATCTGGAAA
ATCCCCTTGTTTGGACAACCTTGTTTCCTGATGGCATCAGATAAATAAGGAGTTAAAGTTTCACATTATTTGGTGCTACCAAGGATTGTTGCCTTGAAAA
GAAGAAGGAAAAAGTAGATGGAGGGTGGTGAGTTAAAAGAATTGAAATTCGCGGATAGGCATTTCTATGCTTTTGTTCCTACCACTCGACTSTGCAACAC
GCAGTGCTTTGTAATACCTTCTTGGAGCTCAAAGGTCAGGCTGAAACATGGCCGCTTTTTCACATTTCCCTGGGACTTTTGGAAAATATACACCAACCCT
GTGACCTAGCAATTCCGGGATCCACCCAAGAGAAATGAAAACATGCCCACACAAGACTTGTGTATGAATGCTGGTAGCAGTATTACTCATAATAGCCTCC
YGGGATTCCCCCGACCCCCAGCCCAAAAGAAAGACCCACTGGAAACCATTCAGATGTTCATCAGCAGATGAGTGGATAGAAAGATAAATGGATAAATGAA
ATGTGGCACAAAGGACAACTGACTACTCAACAATAAAAAGACGTGAAGTATGACACGTGTTACAACATGGGTGAACCTCTAAAACATTAGGCTAAGTGAA
AAGAAAAAATCCAGACACAAAAGACTACATATTATATGACTCATTCGTATGTAATTTGCAGAAAAGGCAAAACTATAGAGACAGAAAGCAGACCAGGGAT
GGCTGCAAGGAAGAGGTGGAGATTGACCACCAATGGGAATGAGGGAACTCTTGGATGATGGAARTGTTCTGGAACTGAGTAGTGGTGATGGTTGGACAGT
TGTGTAAATTTACGGAAGCTCATGGAATGATGGGTGAATTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGCAGTGCAGTGG
CGCTGTCTCGGATCACTGCAAGCTCCGCCTCCGGGTTCACACCATTCCCCTGCCTCAGCCTCCCGAGTAGCCGGGACTACAGGCGCTCACCACCACGCCC
GACTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGTATGGTCTCGATCATCTGACCTCGTGATCTGCCTGCCTCGGCCTCTGA
AAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCTGATGGGTGAATATTTGATAGGCAGGTTATACTTCAGAAGTAAAGCTATTTTTAAGAAACA
CCTAAACAAAGAGGAAACATTGTCTGAATATCTGTATGGTGCCTGGTTCCACCTAGATAGACATATCCACCCTTGCTGAACCCCTAAGGTTGATGTAAAT
ATTGGATTTGGGGGAGAGTGGACATGATATAAACCAGCCTGTTTGCAGATGGATTGGTGGGAGCATCTGCAGAAAGGCAAAAAAGGCCAAATACTCTTAT
CAGTTGCAGATGGCTCTGTTGCTGATGACAGCCTGTGTCCTGGGTTCTGATGCCCCCTAGAGACAGCCGTGAAGAGGCAATTTTCTCCTCGAAGGAAGGA
ACTGGAATGATTGGTTGTATAATTGCAGAATTGTTTTCAGTATGTCAGCAAGCACTGAAAATGGGGAAACTGTCCCTTCCTACCTCTGTAGGCTGGAGAC
CTCGGGTTCAGCTCCATTTATCAGGGCACAGGACCTTCCTGTTCTGAGACTTTGTTCCAGGGGACTTTCACACTTCAGAGAATAGCACATGTCATCCTGC
ACTTTTGTGGGGTGATTAAAAGCTCACGGTATCCTTTTATGTTTAGCCCATCCAATTCTTCCAACTGGCCTCAGCCAGAAAAGCAGGGAAGGCACCCCCA
GTTTGCAGCTGAGAGACTCCAGCCTGGGAGAGCTGAATAAATCTTTTGCCCAGAGGGGTTCCTCAGTAAATGCTGGAGATGAGGCTCAGACCTGACCTTT
GGATTCCCAGATGGAGTGCTCTGAACCGTGTACCTGGGGCTGTCTTCACCACTCAAATATCGATAGAGATAACATAGAGATGTCCTCAGGAAGATAACCA
ACTGTTCCCATCCTGTGTGGTCTACAGATTGGGAGATAGGGCCTACCCAAGTGTAGAAATAAACATTTTTTACAACATAGAGAAGGCTGAGAACCAGGAT
ACCAATATCAATAAAATCTGGATATCATAGAGCACATGGAAGCTAAAGAAAAATAAGTAACTGGTCAGGTGTGGTGGCTCACACCTGTAATCCCAGCACT
TTGGAAGACCATGGCAAGGCATTGCTTGAGCCCAGGAGTTTGAGACCAGCCAGGGCAACATAGTGAGATACCAGCTGTTAAAAAAAAAAAAGAAAAGAAA
AATTAACCAAGCATGGTGGGGCATACCTATGGTCCCAGCTACTTGGGAGGCTGAGGTAGGAGGGTAGCTTGAGCCTGGGAAGTTGAGGCTGCAGTGCTCT
GTCATTGCACCACTGCACCCCAACCTGGATTACAGAGTGAGACCCTGTCTCAAGGGGAAAAAAAAAAAAAAACCTAATTTTTAAAAGCATTCTTTGAATG
TAAAGGCAGTAAGCTAAGAAACAATTAGGAAATCACATTTACTGAATAATTTACTTAAGTAATCTTTTTCTTCAGGAAACAATGATAACTTTAGCGTATG
CATATTTTAAAGATGTGCAGACAGGTCTCTGCCTTTTACCTTCTCTTAATTCTCACCTAATCATGGAAGGAATTTAGCGGGGAGCCTTGCCCCAAGCTGT
GGCTCGAAAAACAAGCATGGTATTGACAGGCAGCTCATGAATGGCTTGATTATTATTTTGACAAGGGTTTTATTTTTATTTTTCTTTAGCTTCCACAGGC
TCCATAATGCCTGGGTTTTATTGATATTGGTATCCTGGCTCCCAGCCTCTTCAATGATTGTAAAAAATGTTTGTGTTTACTGTAAAAAGATAATCTTGCT
TTTCAAAGTGATTAGTCAAATACACAGAATTTCAGTGTGCCTGCCATTCATTTGTCAAATTCCTGGTTTATAATTCATGCTTCCTCCCGTGGGGGAGAAG
AATGTTTTGTTCAGAAGGTATTTTTGGTGTGGTTCCGTTCCCTGCTAGTGAAATTAGTTTATGAAAAGAGGCCTGGTTCTGGGTGTAGATGGAAGTTTGG
CCTGATTAATTGGTCCTTACCGGCAGCCCAGAGGTTTCTTCATCAACAAGGAGATTTTGTCCTGTAACTAACTCAGGTACCTGGAAGCAGCCCGACATTT
GGGGGTGCATCGCTGCAGTCTCCTTTGGAGCTGGAGAAACCYATGAGCAAGAATGGGCTWATGACACATCCATTTCCACTCCATCCCTCCTTCCGTTGTA
TGACTGCATGGAGCCCCTCTGACCTCCAGCAGTGTCACCTGCAGCCTGGTAGTGAGAAACAGCAGGTATGGATGGGGTCTACCCCCAGCAACAGTAGCGC
CAGCTGGGCCATATCCTGGCACTGCTCCCCAGGAAACACACCTTGTGTTGCATTGACCAGATCTGGGATCATTTGGACAATGTCTTATGCTGCTTTTCCA
GGATAGCTGTGTGTTCAGGAGGGAGCCCTTACTGAAAGGAAAGAACTGTTGACTTACAAGTTTTTGCTACCGGTTTGGTGGTCACTAATGTGTCCAGAGG
CCTGAAGATGGGCGTGTGAGGAGSCTGACTTAGCTTCAGAGGCTCTGTCTTTCGACTCACTTGTGTGCTCACTGCACCCCTGTGCTGGCAGGACTCCAAC
CTCCACCCCCAGCACTTGTGTGGACAGAGAGCCCAGTGCTCAGGAAAGGGTTGGGCTTCAGGCTTGTGATGCAGATTCCGTGGTGGCTCTGTGACTCCTT
CTGGTCGTTCTTAAAGTAGACAGGGAGCTTAGATGTCACCTGTGCATTCCCCTTGTTGTCCTACGAGTGAGTAAACAGGGCTACAGATAGCACTAAGGGA
TCTGCGCATGGCTGTGCAGCTCATTCATGGCATTTCTGGTCCTGGGTCCCAGTCTCTGAACTCCTTCCTGGTCTGACGTCCCTTTGTGAATGTTCAGGAA
AATGTCACAGGGCTGCTTGGCAGCATTGTAACCATAATTTGTGCTTTACTGTAAATGAGAATCAGGCTGAGGATTGACCAGCTGGTTAGAGGTCCTGGTT
TGGGTGTAAATGAAGACCCTCACCAGATGCAGAGAGATCCCCAATGGACATAGCCTCCAGGGCAGACGAAGCCTTAGGGGTTCTGTTTTGTCCTGGCTAC
GCTGGCTCTGCAGGGAGGGCTGGGGTTCTTTCTCCTTTGTGTGTTTATACATTAGATCTGTGAGTGGATCTTAGAAGTCACTCAAAGTACTGCACTGATT
CCCAAACTTAGTAAGAAGCAGAGCAGGAAGAGGAGAAGAAGGATTCACGGTCCATGGGGATCAGGCCCATCAGCACAGAGGACTCAGAAGTCAACCCTGG
CATTGTCTGCTGCCTTCCTGGGGAAGCCAGAGAGAAAGGCCCACTGCGGGGATCTTTCTCTAGACCTAAGCCGTAGCTGTCTGCTTTCTTGCCTCTCCAG
GGATGGACTTGTCCTGCCACCTGGGTAGCCAGATAGAACGGCTTCCTGTGCTGGTTGGATCTGCTACTCGTGTGCACACCCTCTGGGGCAGAAGCCACGT
CTGGTTTGGTGGGCTTTGGTCCTCCACCACCTCACTGGAACTCAGCCTCTCCTAGATTGCTGGTTCTCCACGTGTGGTCCAGGGACCACAGCAGGGGTCA
GCACCACCTGGGATTTGTGATAAATGCAGATTCTTTGCCCACCCCAGCTGAATCAGAAGCTCTGGGGGTGGGGCCCAGCCCTTTGCAAACAAGCTTTGTG
CACACTGAACTTGGAGAACCACTGTGTTGGACTCCGAGTCCTCTTGCCTGGATGAGAGGCCCAAGAGCACTGCATGTTAGTGGCTCTTCCTYCTCCCCCA
CACCTCCAGGGACTGGAGCTGGGGCTGCTCAGAATGMAAGATGAATGGGGGAGGGAGAAGGCCCRGGGTTGACCCCCCACAAGCTTGTCTCCCTGTCTCA
TGCTGTCTCCTATCCCATCATGCTGCTGATTGGGCAGGATTTACTTCCATGGATAATGGGAGACTTTAGAGCAAAGTGTACGCTGTTCCGATTGGGTAGC
AGAGCATGTCTGTTCTCTCATGGACTGCTTTCAAGCACGTTGTACATACTTGGCTGAGAAAAATAACCAAAGGCATTTCTTGGGAATGATTCTAGTAACA
TCCTCTGGTACAAGAAGCATTATTTGATGGTAATAGTGGTCATAGAATTAATTAGCATCTTACCGATTTTGATATGTTATCCTTGAATCATGTTGCTGCC
ATTGTTAACAGCAACTGTCTGTTCTCCTATAGTGTTAATAACTAAATCTCTTATTGGCAAAGGAAATGTATTGTGGAGCAGGTGGCAAAGAGGACCTGTG
TTACGTGRCCAGCAGGCTAGAGGGGACTGTGGCCAAGGGCAGGTGCGCTAACATCGATTTCTGTGCTTCTAGGAATTACTCCTTCTACGTCCTCGACAAC
CAGAACTTGCAGCAACTGTGGGACTGGGACCACCGCAACCTGACCATCAAAGCAGGGAAAATGTACTTTGCTTTCAATCCCAAATTATGTGTTTCCGAAA
TTTACCGCATGGAGGAAGTGACGGGGACTAAAGGGCGCCAAAGCAAAGGGGACATAAACACCAGGAACAACGGGGAGAGAGCCTCCTGTGAGTGACAGCA
TCCAAAACACCRTGGGCCCAACCATCATGATAACAGCAGACCCTCCTCCCATGTGTGATGGCAGCTTTCCTCTGCGGCCCCTCCTGGTTTCACATGGGGG
ACCACTAGACCATCTTAACTAGCACTTTGCTCCTACTTATATGTCATCACAATCAGTAGTGGGCAGATACGTGATGTATTCGTATTTATAAATTCTGTAC
ATCTCTGTGAGTGTGTGAAACACTTATAAGTAGGTTCTCAAACTTTAAAGTGCTGCTTACAGAATGCACAGTTAAATGTCCTTTTATACACAGGTGCACA
GTTAGATATTTCTCTTTCTTTTTTCTTTTCTTTTTTTTCTTTTTTTTTCTTTTTTCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCA
GGCTGGGGTGCAGTGGCATGATCTTGGCTCACTGTAACCTCCACCTCGGTTCAAGCGGTTCTCATGCCTCAGCCTCCCGAGCAGCTGAGATTACAGACAC
CTGCCACCATGCCCAGCTAATTTTTGGATTTTTAGTAGAGACGGGATTTCATCATGTTGGCCAGGCTGGCCTCAAACTCCTGACCTCAAATGATCCACGT
GCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCACCATGCCCTGTCCGATTATTTTTCAGGGAAGAGCCAGTGTGCTYCAGCCCTATGAGCTC
TACCCTTCTGCTCCCACAGAAGGGAAGCACAGGCCTGTGGGGTGGAGGGGGCTCTGCCCTAAGCGCAGCCCCTGTGGGCCACGGGTTTCCTGTCCCTTAC
ACTCGGCYGCCTTGTTTCTCCCACCCCAACATGAAAAAGATGGAGTGAGCCTGCAGCCCTGAGTTGATATTGCTTTTTAAATTGAGAACAATATAATTAC
AGCCTTGTACTGKTTATAAAACTTTAAGGTCTCATATCAGAGATACAGCAGTGCCTTTCTCATCTAACCCTGTGTAGAATACGGCTGTTGAGAATGGCGT
GGCTCTCTGGCTGGATAGGGTTATAAAAGTAAATCGTCTTTTCACCTTTGGCTTTTAATAAGGGAAGGGTATTAGAAAAAAAGTAATTTGTATGATGAAG
GGTGATTTGTGCGTGTGTGCAGACAGACACACATGCRGRGAGGCAAATCAGAACCGATGCGTGTTTGGCTTTGGCTTGTTTCGCTGGTGTCTGGATTTAC
CTGGCGACACTTGTTGCTCTGGGGGATCTTAGAGGGAAGCACGCTGACTGACCTAGGGCTGAACAGCAGGCTGACGACCAGCGCCGCCTCCCGCCCCCTG
CTCACTCTATCCCTGCAAAGCCCCTGCCTTGCTCCCTGTTCAGATCATAGTAAAATCGGATGTATCCGAGTATTTCAGAGTGCTTGTCTCCTTAGAGTCA
GCCAGTCTGACCTGTCAGATCATAATACRTAGTAGCCGTTTATTTTCTTTTGAAAGCAAAATCATGGTTTCCTCTCTAAATAACACTTCAGCAGGAACTG
TGACATTTCCCAATCTCAGTTGCGCACATTTTGTCCTAAAGACTTCTTAGCTCTTTTACTGTCTTCAGTCCCTCTGCTTCACCTCTTGAGTGTGTAGTGG
GATTCAGGCAGATAAGAGGGCGAAAGGACAATTCGTCAGAGAGCTCTGGGTCTCCATGAGGGTGGGCAGTCATCAGTCTTTCCCTGGTCCTTATCGTAGT
TTGAATTTGGTCCAAGGAATAAGAGAGACACTTGGCACAGCTTCCCTGCCATACCCGCCAGCCAGGCTACTTCCCATAGAGCACGTTAGGCTTGGCCAAG
TGAGATCTTCTTGTCAGTGCTTAATCCAGCCTCCCGTTGTTTGTCAGCCCTAGCTGGAGGCCTCACAGGAGTTCCTGTGTCCTTCCAGTTTGATACSAAG
TTTAGACCAAGAAAAGTTCCTTTCTGTGGCACACCTGTAGTCTCTTACCTGTCTTTGGTGGTTGTACACGAACAGGCAGATATCCACAACTGCAGAACAA
GTGTCATCGTCTCTCTTAAGAAGTTTCAGGGCAGCCTAAAGGCTCACCTTCACCCTACCAGGCCCCCTTTCATAGCCAGGATCTTAGGGATGGAGAAGAA
AGATAAGTTCRCCTCGTTCACTGAAGTCGCCCCTTGTTTTCAGGTTAGGAAACCCAGGTTCATGTCCAAGTCCCTGGGCAAGTAGCCAGCGTAACTGATT
GACCTAAAACAAAGGATGGAGCCCTTGGRGCTCTGCATAGTGAAATGTATGATTTCTTAGTGGAAAAYRAGAAAGCCACTGAGGAAGCCCAGAAGGGAAC
TTAGCATATACAGCCAGCTTTGGGGAAGGGGGAAGCAGTGCCAAGCAAGACAGGTGCTTTTCAGAGACACATGAATCTCTGTCACTCACGGATGTACTCT
TTGCMCCAGGTGAAAGTGACRTCCTGCATTTCACCTCCACCACCACGTCGAAGAATCGCATCATCATAACCTGGCACCRGTACCGGCCCCCTGACTACAG
GGATCTCATCAGCTTCACCGTTTACTACAAGGAAGCGTGAGTTTCTGCTTTGGGTGATGCCATTCTGTTGACAGGGCTACGAATGGGAGAGGCCAGTCTT
TCGATCCTTGAATGGGCTGGCTGAATACAGGGGGTCAGCAGAGTCCCCAGGGAGAGCCACGCCAAACATCCCTACTTCATCCTCATGCACCCTCTCGGGC
TGTCCCTGTGATGTCAGTCACAGCCAGTGACAGCCATGATTGGGAAAGTGTTAGCTCGAGGCCTGTCATTCTTTAGTGAGTGATTAGAGRTGTTTGAATA
AAATAAACCCAAAATGGGGAAAGCTTGYTTTTTCCAGAATTAGGTCAGTCCAGACTCATGAACGATGATGGGGGACTTCACTGAAATATCGTTTCAGCCT
CCTTACCTACTAGGCCTACTCCAGGAACACCCTGCAGGCACGTGGCTCTTTTGTATCATCTTATTCCTGTCTCTCTCTCTGTGTGCCTCTCCCAAGCTGT
GGCCCTCTGCTCTAGGTCATGAGCCTTCCAAACAAGCGAAGAAAAGTGGAGAGAGAACAACCTTCATGTCTTGAGCCTTTTGTGACTTCTCCTAGACTCT
GTTGGGAGCTTTTCCTGTGTGATCACATGACATTCMCCCATCTAAGCAGCCGAGGCTTATTCCTCCCGACTGCAGCCCTCTTTGATCTCCCTCTTCCTTC
CTTTGCCTTCTATATCCAGGTGGCTACCCCGGTCTACTTAGCCATCCCCCTTACCCAGGTCCCATGTTAATCCCATAGTTCTCTCTCCCAGATGTGTGGC
TTCCAAAGAGCAGCAACCAGAGGCACCTTATGACAGCATCTTGTACTCTTTCCTCCTGCCAGAGCTGGGGTCCTATGAATGAGAAATTGGGTACTTAGGA
TTACTAGGCTTTCAGAGTTTGTACACAGGGGAGCCCCTCATGATCTCCCATCCCATGACAGCAGACGGTGTTTTGTTCATGTTTGTTTCAGAAGCCAGCG
GCCAGCAGCTGTCCAGCCCTTTTAGCTGATAAATATAAAATACCTACCCAACCATGCATCTGTGCGAAGTACTATATTCTCTGATAGTCACACCAGTGCT
TTGGCAATGTCAGCTGGTAATTTCACTGAGGACTTGATGCTGGTTTCTAAGGCAATCTGGAAACTAAATATTTGAATATTATAAGATGCTTAAGCATCAG
AATTGTTTATGAGCAATCTGAATTTTAGAAGCTACTTCTGTTTGTCTGTAGGAAAGTCATTTTTCTCCAACAGTTACCTTCTTTCAATATCTGATATTTG
CATTAACTGACTATGCTTGTTTTTTTCTTGATGAAAAAATGCTGCAATCAGAAGAGAGAAAAATAGTTTTTGCATATGTTCTTAAGGAATAGTAACTATT
GAATCCCAGTAACTGTTGAAGTGGCTCTTCCTGAGGCAGACCATTCAATTCTGTAATGCCCGACTGGGGAAGCCCAGAGTCCAGTCACTTCATTTCTTCT
TCTATAAAAGTCTAATTGATTATTTGTTTATTTAGACCTCCCATTATAGAAAGTGTGACATGCTGGGCCTCTGGGGAAGATTTTTGAGGGTTTTGATGTC
AGAGCCCCGAACTTYCTCYGAACTTAATTGTCTTTCAGACCCTTTAAGAATGTCACAGAGTATGATGGGCAGGATGCCTGCGGCTCCAACAGCTGGAACA
TGGTGGACGTGGACCTCCCGCCCAACAAGGACGTGGAGCCCGGCATCTTACTACATGGGCTGAAGCCCTGGACTCAGTACGCCGTTTACGTCAAGGCTGT
GACCCTCACCATGGTGGAGAACGACCATATCCGTGGGGCCAAGAGTGAGATCTTGTACATTCGCACCAATGCTTCAGGTATCCATGCCTAGACAAGCCCC
CAGCATCCACACTTCTTCRCAAGCTCACTGGCCTTGCTTGTACCAGGTGTCATTGTAGGGTTAGCAGTGAGCTATGCCTGTTGTCTTTCTTGTCAATAGG
TAATACTGTGTCATATTCATTTCCCCACTGCTAACACATTAGGCTCTTCTGTGCCATTTTCTGGCCTCGGTACTATCTTCCATCATCTCCTGCTTTGTGC
CTGTGAGCCCAGGTCCTCCAGGGTGCTGGGCTGGTTTCATTGGAAGGCCCAGCCTGGAAACAGCCGTCTTCAGCTGCCCTTGTTTCTTGTTTGTTTTGAT
GTTCAATCCTCCAGGAACTGAAACCATGCTGATCTGTGTTCCACTTAATTCATGTAGCTCACTGGTTTTCCATCTTCATTCTGGAGCTTATAGAGTTCCA
AAGAGGTCAACAAAAGTTGAAAGCCTGCAGATGTAGTATGTTGTGGATATTCAGAGTATTCACTGATGATGAGGTTCCTCCTTCCTTTATCTTTAGGTTC
TAAACCATCTCATTTCTCAACTCCAGATCTGGAAACAGTAAAAGCAAACGTTAATAGTTTCCAGTATATAAAAACTAGTTTAGAAGTAGGAAAATCCACT
TCAGTTTTAAAGACACTGATTGTTTTAGTGTATTGGAGCTTCTATCACAAAAAAACAGTGTAGCCTGGGTGGCTTATAAGCAATAGAAATGTATTTCTCA
CAGTTCCAGAAGCCACAAAGTGCAAGATCAAGGCGCTGGCAGATTTGGTGTCTGGTGAGGGCCCACTCCCTGGCTCATAGATGGCTGTCTTTTCATTGTG
TCCTTGCATGGTGGCAGGGATGCGGGAGCACTCTCCGGGGCCTCTCATAGAAGGGCCTGGATTCCATTCATGAGGGCTTCACTCCCATGACCCAATCACC
TCCCAAAGGCCATGCCTCCTAATTCCATCCCCTTAGGGGTTAGGATTTTGACATGTGAGTTTTGGTAGGGGACACAGRCATTCACTCTATAGCACTGATA
AACATTCTTTGATAATAGCCATTATTTTAGTGGGTAAGGTGTTTTTAAATACCCATAAGCGAGCACAAAATCAGTTTAAATGGCAGAGAGGAGGGTGAGA
AGAAAATGCTGGTGGGGAAAACCTTTTGCTGTGCACGCCTGCTCCTTCCTCCACTCCTACCCCATCTCCATGACCCTGTAAGTGGCCACAGTCATGTCAC
TGGGTAAAGTGCTTATTRAAACAAAATTGGCACAGGCTTCTGATCCTGCGTGTGGGTTGGTGTAGCAGAGGTTCAGTGCARCAGAAGAAGTTTTTCATCT
TAAAATTTGGAAGTAACCCCTGGCCAGCAATTCACTGTAGTGTTTGGGAAACATAGGAATATCTGCTTATTGTGACAGATTCTCAAGAAACCTGTTTCCT
TTCCRCAAAGATGGAAACCAGGCACTGTACCAATGAGTCAGTTCACTACGTTTTGTCCTCTGTCCTTACACGCAGCGGAGACAGACGAGAACTTGGTCCT
CTGCCTCTGCTGTTTGGTGACACCTATCGTAAGAATGTATCTAGGAATGAGCTGTTTGTTTTTGAAGTACTTATTTTTGGAAACCCTAAAGTGGCTGAGC
ATCAAGTGGTTGTGTTTTCTCTGAAAACGCCAGTATTAGTCATAACCTTTTTCCAAAGTATCATCCCTTAAAGATGTTCAGAACCTTGTGTGTATCGTAT
AACCTGGAGCACCCTCAAGCTGTCCGCCCTTTTCAAGTTTTAAAAATGGCTTAGGCAAACATATTGCTTAAGYGATATCCAGTGAAGGTGTCYCCTGTGC
TTTGAAAAACCATCAACATTGATGCTTTTTTGTGACCCAATAAGGACAAGATTTCAGTGGTTCTGGGATGCATTTGATCTTTATGCACACTTCAGCTCTG
GGTTTCAGTTCAGGGGTCAGCATAAGTAAAGCTTGATCAGATAACTRTGCTTTGCCTATAATCGGCATTCATTCTGCTGGTGACAGAGTCCTTTGCTCAA
AATGAGGCTTCCATGCGTTTGCAGTTCTAAACTGCTTTTCAGAGTCATGCCTCAGTCATTGTACTGAAGGATGCCTGTGGAAATGGTGGACTTCCGTGTT
CTTTGCATTGCCTCTCCCCCATCCCTCTTACACACAGCTGTGACATGGGCATGCACACTCCTTCACACACACAGACTCTCCAGSCCCCTTTCCACTTCCT
CTTTCCATTTGGCTTCATGACATTTTTATCAGAGATTCAAAATCTCAGATGAAATCCAAGTCAGCCTGTTTTACCAGTTGTCGAAATTGCCGGAGTGCAG
CACTGTGGAGAATGGCAGTTGTAATAAATGAGAAATACCAGGTGTTTGAATTAGCTGTAGATTTTCAYATTGTCTCTTCTAACCCTGCTTGTGCCCCCGC
AGCCTTTTTCCATTTACAACTCAGTAATGTTTGTTTTCACAGAGATTACCGGAGGAAATAGATTATAAAGGGAAATGTTGGCATTTATAGTAGTACTATT
TCAAAATAAGGTTCACTTTTCACTTTGTATTTCATTGTTCATTGTTATTTTCTTATCCAGGTCAAACTGGCAGTTTCCTGTTGGCTTGCCAGAGTATCTG
ATAGCCTGACTCTTAAGTTCATTTCATTTTCTAGAATGTTCTTTGTTCCCCTCTCCAGTTCCTTCCATTCCCTTGGACGTTCTTTCAGCATCGAACTCCT
CTTCTCAGTTAATCGTGAAGTGGAACCCTCCCTCTCTGCCCAAYGGCAACCTGAGTTACTACATTGTGCGCTGGCAGCRGCAGCCTCAGGACGGCTACCT
TTACCGGCACAATTACTGCTCCAAAGGTAAGGGTGCAGCAGCGGCCTGGACGGAGGGTGTGACCGTTCATTCCTGTGGTTGTAATGTGCCTGAGCCCTAA
TATTACACGTATCAGACAACAGTGTAGTTCTCCATTGGAAACCAGCTATCTTCTGGTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTTGCCCA
GGCTGGAGTGCAGTGGCACGATCATGGCTCACTGCAATTTCTGCCTCCCAGGTTCAAGCATTTCTCATTCCCCAGCATTCCGAGTAGCTGGGATTACAGG
CATGCACYACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGCCCAGGCTGGTCTGAAACTCCTAACCTCAGGTGATTTG
CCCGCCTCGGCCTCCCAAAGTGCTGGGATTATAGCCTTGAGCCACCACATCTGGCCGAGACCAGCTATCTTCTTGATTAAAGGTACTGAGAGCTATTATT
TTTCCTTACAAGCATGTATAACGGCTTTCATTCCCACTCTTGTTTTGGCTTTTCTTTTCCGAGAAGACAAAATCCCCATCAGGAAGTATGCCGACGGCAC
CATCGACATTGAGGAGGTCACAGAGAACCCCAAGACTGAGGTGTGTGGTGGGGAGAAAGGGCCTTGCTGCGCCTGCCCCAAAACTGAAGCCGAGAAGCAG
GCCGAGAAGGAGGAGGCTGAATACCGCAAAGTCTTTGAGAATTTCCTGCACAACTCCATCTTCGTGCCCAGGTACCCAGCTCATGTGAAATTTCAKTTGG
CAAAACCCACTGCTCAGGCCGGTTCTGTTGCCTTTCTCCCCACCAGGTAGTGTGTAAGTCAGCAGCTGGGGGGTACAATACAGTAGCCACTGAGACGGAG
CCGAAAAAGATGACAGGTTCGGTGAAGTGAGTCCCTGCGGAAGCCAGTCAGCCCTGAAGGGAACAGGGACCAGGGCTTGGGTTGCTGGGGCCACCGGTGT
GACAGGTACTGCTGTCTCAGCCACAACCCCCCACAGAGAGCAGGTGGGCACCCTGTGGTAGAGGCAGGGAGGGGAAACTCAAAGAGTATTGACAGCTGCT
GCCTGGTGAGAGGAAAGGCCAGGATTTGGGTCCATCTCTGCCCTTCCTAATTATCTTTACTGCCTCTCTCAGCCTCACAGAGGAGGAGTGAAGCAAGAGG
GAAAAAAGTCAGAGTCTGTGCTGGAAAGGGCCTGACTTCAAAACATAGCCAGGTGCCACAGGCATCCTGTACAAGTAAGTTTGGGAAGCAGTGTAGGGCG
ACAGCCTGCATTGGCTGTTTATTCCGTGGTTACTCTGTCTTTCAAAGCAACACAGCCCCTGCCCCAGGGACTCTGCTCCTCTGCTGTGGTCTTGGTTTCT
GGGGAGTGGGGACAAAAGCAGAGGAAAGTAAACGTTCATAGCAGGACTGTTCATAGTAGCCAAATCTGGAAACCCAGTGTACATCAACAGGTGAGTGGCT
CAATAAAATGGGCTCGAACCTTACAGTAGAATATTATTCAGCCATAAAAAGGGAGGAAATTTTGATCCATGTCACAACACAGATGAACCTTGAAGACACC
ATGCCAAGTGAAACAAGGCCAGACACAAAAGGACAGATAGTGTATGATTTTATGTTGTGTGAAATATATGGAATGGGCAAATGTATGGTGACAGAAAGTA
GATTTGAATTTACCAGGGGATGGGGATAGAGTGTGGAGGGGAATGGGAATTATTCCATAATYGATAGGTTTTCTATTTGGAGTGATGAAAATTTTTGGAA
ATAGATAATGATGATAGCTGTACCATTCTGTGAATGCAATTAATGCCACTGAATTGTACCCTTAAAATGATTAAAATGGCAACTTTTTATCTTACATATA
TTTTGTTTTGTTTTAAAATTTTATTTTAACACAATAAAAAATGTTAAACAATTTTTTTTTCCTTTCAAAAAAGGATTAGCCCAGTAGTGTGTGGGAAAGG
AGATGGAAGCACAGTGGTGCTCCCTGGCCCCCTCTTCCTGTAAGATTATAGTGCAGATTTTGGAAACGACCTCATGCCTGAAAACTAGGCCAAGGAGTTG
GATTTAAATCAGCATGGCACCCATGAGCTGCCCATCCGCAGTCCCCACAGCACCCGCTGCCAGCACCCCACCCAGCACGTTCCCTTCCCCTCACTGCCCC
CGACCCTGAGAGGAGCCTGTAGCGGCTATTTATTCCACAGTGACTCTGCTCTTACAGGCTTTCTTAGGCTGTAACAACAAATGGTTTTTAAAGTGATTTT
TTTTTTCTGCCAAGTGACCTTTTTGATATTTGCAAAATGGTTGAAATAGCTATCTCACTTCGAGAAATCAGTAAAGTGGGAAATAAAGACTGGTTAGAAC
TGGAGGCATTATTTCCTTTTGAGAGTGCGCCTCTTCATTGCTTGGTGGCTTTTTTCTCCTCCCCTCCTCTCTCGAAGTTCAAACCACCAGAGCAGCCAGG
CGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACAAGATCAGGCGTTCGAGACCAGCCGGGCATCATGGTGAAACCC
TGTCTCTACTAAAGATACAAAAAATTAGCCAAGCGTGGTGGTGCACACCTGTAATCCCAGCTACTTGGGAAGCTGAGGCAGGATAATCGCTTGAACCCGG
GAGGTGGAGGTTGCAGTGAGCTGAGATCGCACCGTTGCACTCCAGCCTGGACAACAGAACGAGACTCCATCTCAAGAAAAAAAAAACACCAGAGCTGTGA
GAAGGGCCTGCGAGGCCCTCATGGCCTCTCCTAGCCTGCCCCGCTGGGGGAGTCTTCTGCCTGCTGGTGTGTGGCAGGGCTTTGAATGTGAACCTTGAGG
TTCAGTGCCCAAGGCCATTTTCTTATCCAGGATATCTTTGTATCACTGGTGGTTCCTAGAAAGCAGAAAGTTTGAGGACTAGAAAGATTGCAAAGAGGTT
TGGAAACTGGAACTCAATGAGGTTTGGTGACTTCTCTGACATCCTAATTAATTAAGAATCCGTTTGGGACCTGGTCCTCATTCCCACACACCGACTCTTT
TCCCCCTCTTCTCCTCCATTGCGTTGCTTCTCGTGGTCCTTTCCACCTAGACCAGCAGAGGCTTAGCTCGTGGCAGCTCCTGCTGCCCGCCACACGGAAG
GATGGATTTAGAGTGTCCCAAAGCAGGCTGGGCGGGAAGTTTGTTTTTCTCTATCATGGGCCCTTGGTTACGTTGCTGTCTTGTTCCACCAACCAGCAGG
AGGTTCGGGTTGTGAGTCAAGGTTTTGGAAAGATTTTGCTGAAAGGCCCCTTGCTTTCAGTTGTAGTTACGAGGCAAGACCTGTTTTTTTCTCATCAGAT
GTGGAGCACAAGGTGAAGTGACGTGAAGGCAGAGCTGTGATTGACATGTTATTAATGCACAGCATTGGTGGTGTTGGGTTCAAAACAAGTTTCCTGTGTT
CTACTGGAGAAGTGTGTTTATCTGTCCCCCGAGTCCTTCCTTTCTCTCTCCTAAGACAAGTCCAACTTGTGATTCTCTGTTTTCATGGATGTATATGAAG
ACAATATTTTGTCCGTGGTGAGAGGCCATAATTTTTAAGAAGTTAATATTTGTTTTTTTGCCTCCTACTGAGTTCTGGCAGAGTCCAGGTGAAGGAGTGT
CCAGCAGAGAGAATGACTGAATCACAGAGGCTGGCTTTCTGTTTTACACGTGGATTGTCCGAAAATGGATTTGATTTCTTTCAGTTCATTCTGAGAACAA
TGTATTTGTGGGATAAAACCAGTTAAGTAAGATTTAGTTCCTTATAAATTGTCCAGAATATCCTGTATGTTTTGAAGTACAGTGGAAGCTAGAGTTTGTA
AAACTTACTAGTTTCTGAAGTCAATATTCGCAGTAAATGCCTTTCTTTGACTACTGTCTTTATTTTGTAAATCACATAGTTTGGTTTAACTAGCTAAAAT
GTTGACAGATGTTGGAAAGTAAAAGGTTTTCCAATAGGGCTAGGTTGTATTATGGGATGGAGTGGGGAAAGTTGGCAGTAATGTTTGCTTTTGGGCGTAC
GATTTGGAAATGTAGTTGTTTACCAAAAAAAATGATGTATGGGCCATTGTGCTTCCCCTGTTCCTGCCTTCCAGATAATGTTCTSTGTCACCTCCSTCCC
CTTGTCACTGCCTTGATGTCATCAGCATTGAGAGCTGTGCAGTCCCTAAAAGTGTGATGTTGATAAACAAGTAAACTACTGAGTATACTTCATGAAGTAA
TCCCAGTTAAATGGGGGTGGGCTGAGCCGGGAGAGGGGTTTTGACAGAATTATTTTGCGGTACATCAAACCTAAGCAACTTCTGACAGACACAAGTGTAT
GTTGTGTTGGTTTTGAAGGTAGGCAGGAAATTTGTTGATGATGTGTTGACAAAGATTTCCCTGACAGTAAATGTGGTTTCTTGTGTTTTTCCCTTCCGGG
AAGCTTGGTTAGCTAGTTGGTTGGTTTGCAGAGTGTGAGGATTGTGGATGATCAGCCTCATGTCCTTACCCTTCCTCCCCCAGTATTGTGAAAGCAAATG
TACACGCCCTGACCTTGTGGTTTTCTGCTTGTTGGAACGAGCATATCTGTGTTGGGCAGTTCATGCCTTCGGTAGGACCCCCGTGTGCCACTACACAAAG
AAGGACCGTGTTTTCCTCAGGGGAATCCATGGGCTGAGAAGACTGGGGAGCCTCAGAGGCCCTTTCCCRAAGCCCTCTGCTCTCCCCTTCCAGGTTCTGA
SCTAAGGACCAGCCAGAAGCCTGCCGAGCGTCAGCCGAACCTGCAAGTGGCTTCTGGGCTGTTCCGTTCCCTGCGTGAGCTTTCCCTCTCTGCTGCTGCT
GCCGCGCTCTCCCCTCCATGGCACTGATGAGCTTCCCACATTCTGGACTTTCTCATTTCCCTGGGCAGATAGAATTCATCCCATTTGCCCCCTGCCTTTT
GCCTATTCCTAAGACCGGTGACCCCAGCCGAAGGCCTCAGCCCTGTTTTCTCACCATTCGTCCATGGCTGACCTGAGGGTTGCCCTTTCTCCATCTGGGT
GCTCCTCTCGTATTCTGTTYGTTTTTGTTGGTTCCTGTAAACATTAGAATTCTGTTTTAAGGTTTCTAGGGGGAGCCACAAAGCCCATTTCTTCATATTT
GACCAAAGCAGCAATTAGAGGGTCGCACCCTCATGCCTCATCTGCCCTTTTTGGTGAGAATGTCCTTTTTGTGATGACTTTATGCACTCCCTTTTGCTTT
TCGGTTGTTCCAAGCCCCATTCAAATCCATGACRAGGACTCTGCTCTCTGATGGGCAGGACCTTGATGAGGCCACAGGTGCTCACTGCTGAGTGGGAGGA
AGCCTGGGTGGGCTCCAGGGACCTGCAGAGTGTAGCAAGCACAGACGCTTGGGGTTGGGGGTGGGCTCGCAGCAGGAGCCCCCAAGAAGAGAGAGCCCTG
GGGTCCGTGGAACTGCTTGCTGCTAGACTCCAGGCATCTTTATTTCCACAGTCAGAGCAAATCCAAGGAGCCACCACCACAGGCTTTCATATCCCTCTGC
CCCAGGTCTCTGGGGCCTCTGCCACACACCTCACCTCTCCCCTCCTGCCCTAATAAATCTTAACCACAGCTGATAGGTTTGCCACCTTTAAGGCTTAACC
ATAAGGTCTGTGACCAGATGGCCTGAGTGTTCTGATGACACAGCCAGGACTGCCTGGCCAAGAGTGGCAGAGACACTATTTGCCTCTAGGTAAAATCGAA
GAACCACTCTGAGAGCCGGGGGGTGGGGGTGAGAGTTTGTGTGCCCATTCTGACACTTGCAGAGTAGAGAAAGCAAGATAATGAGGAAGGACATCCCTGT
GTTATTCATGAGTTCTTACCTAAGGGGGCTCAATAGCTCCTTCTATTCCAYGGTTAAGATTCTTCTGTTACTCTTACTCAAGTCATAGAAAAGACAAAAG
AGGTAAAAGTACTTAAAAGCCACATTTCTCTCCTCCTTGCAGACCTGAAAGGAAGCGGAGAGATGTCATGCAAGTGGCCAACACCACCATGTCCAGCCGA
AGCAGGAACACCACGGCCGCAGACACCTACAACATCACYGACCCGGAAGAGCTGGAGACAGAGTACCCTTTCTTTGAGAGCAGAGTGGATAACAAGGAGA
GAACTGTCATTTCTAACCTTCGGCCTTTCACATTGTACCGCATCGATATCCACAGCTGCAACCACGAGGCTGAGAAGCTGGGCTGCAGCGCCTCCAACTT
CGTCTTTGCAAGGACTATGCCCGCAGGTATGGTATGATCCAGCTGGCCCCATTGCCACCTTCCTCACAACCTAGTGGAGAAGATGTGTTTTATGGACACA
GGGTCTGACACCCAGGGCCATGACCCTTAGACCCAGGCCTGCCTGCTAAATAACGTGCAGTCATTGGCAGGTGGCGTGTAGACCAGCTGCCCAGGGAACA
GAGCCCACGCTCTCCTAGTGACACCACTCCCAGCTTGGTCTCTCCATAGAAYGTGCTGGGAGCAGGGAGCTGTCTGCAGGGTCCACCCTCCACCTGCTAC
TTGGTGCACATCGTGCATTCCTGCTGTCCTTTGCCCCCTCTTGCGCACAAATCGGGTTGCCCCCTCCTGAGCTCTCACATGTCCAGAGATGTCTCCAGTT
AGTTGCCTTGATCCAGAGTAAACATTGCCCCTCAAGATCAACTCCTGGAGYAGCCTCTGGTCTTGCTTATTTAGTCTTTGGCTTTCCCTTGTTGTTAGAC
ACTGCCTGTCACYCGGGCATTCATCCATCTTTGAAGGTGGGTGCCTTCAAAGACAGAACAAGARCTGCCCTGTCCTTTAGTAGGCCTCAGGTGGTAGAAA
GAGCACGGAGGTGACCAGAGTCTGGGGTGTGGGGTCCTCCTGGGTGCAGTTCTGGCACTGAAGTCCATTGTAGCGTGCCTTGAGGCAGTCGTCAGGCTCC
CTGCCTCAGTTTCCTTAGCCCTCCTGGGAGAGACATAGCCAGCTAACCCCTCAAGTGCCTTTTCCGGCTGTAACTTTCCATGACCTTTGCTTATCACAAC
TTTGTTTACTGCTTCAAGAAGCAAAAGCAAGAAAGGAACCACTGCAAGGTCAGCCAGCCGCTGGAGGAGTTGGTGCCGGCAGGGAGGGCTTGCCCTGCTC
TTAGCACCAGCCTCCTAGCAGCTTCCTCACAGGCCGGGCTCGGGGCCATCCTTCGTGCCTGCATAAAAATTGCAGTTGCCGCGTGTAGACGCGGGCCACG
GAGGGTCCCTGTCACAGCCGGCAGGCCCCGTGTCCTGCTTCTGCTTACTCAGCATCTTTCCAGGGCTGCTTGTGTTTGATGGCTTCACAAAGCTTTCTTT
TTTCAAGTGGTAGGCACAGGGTAGAAGAAAGTTACTTAGGTTGCCAAGATTTTCCTGCTGTGCTTGGCAGCAGGCTTTTTTTGTTGAGGGACTGGGGAGA
AAGGAGGATCTTGTGGCATCTTGAGACGTGCAAGTTTTGTGGTTGGTGTATTCTGAACCCTCYGCTGTGTGAGCAGCCCGCTCAGGGGCAGTGTACGTGG
CTGATCTCCACTGTCCTGCCCGCGTGGATGGGGGSGTTATTCTCAGTGTACGTGGCTGATCTCCACTGTCCTGCCCGTGTGGATGGGGGGGTTATTCTCA
GGTCAGCCCAGTGTTGGCCTCCCTCCCTGGGAACCCAAATCCAACTTTGTCACCTGTTTAAATTGTACAGAAGGAGCAGATGACATTCCTGGGCCAGTGA
CCTGGGAGCCAAGGCCTGAAAACTCCATCTTTTTAAAGTGGCCGGAACCTGAGAATCCCAATGGATTGATTCTAATGTATGAAATAAAATACGGATCACA
AGTTGAGGTAGGACTGGGGCAGTGGCCCGTGCCTGCATGTACTTCCATCCATTGACAGCATATGCTACCTGACTGCACAGGTTACCTCCTGGTTAGCATA
GGACTTAAAACAATAAAATCCATGCCAAGTTGGTGAGGATTTGGGTCTTTCTACCCACTCTGTACTCTCCAAGGAGTACTGCATAGTGTGCAAAGAGCTA
GGCTGCTTTTTGCCCTCAAGAAACGATTTCATTGTGTAAGATAACCTTGTGGCATAGGCCAGGTCAGTTCTAATAACTTTTAATCCTTCTGGAGTTCTTG
GTTACAAAAATGTTTGGTTAAAGCTTTTGGGTGTGCTTAAAGCTACTTGAAGACGACCTTTTAAGATTTGATTTCTTTGTCTTTACTGACACTCAGGATC
ATTGTTAGGTGGGAGGTCAGATCAGGCAGCTGGAGTCCCCAGTGTGGTGAGTTTAGTTGGCAGGCCCCAGATTYCTCCTGCATTCATGGGAAATTGACAT
GTATGTTTTATTTCCCCAGGATCAGCGAGAATGTGTGTCCAGACAGGAATACAGGAAGTATGGAGGGGCCAAGCTAAACCGGCTAAACCCGGGGAACTAC
ACAGCCCGGATTCAGGCCACATCTCTCTCTGGGAATGGGTCGTGGACAGATCCTGTGTTCTTCTATGTCCAGGCCAAAAGTAAGGCTTGTGGAGGGAGAM
GAAACGTGGTAAAACTGAAAGCAGGGTGGTCCAGGATCAGGACAGCCCGAGTGTTCATGGCTGTCTTATTTTCTGTTAAAATGGAGTTGGCCAGCTTCCA
GAAGGGTCATGCTAAGGTGCCGGCACATACCGGCACTGTGTGTGAAAGGTTGGGCAGGGCAGATGCCGAGCTTTGGGCTCCTACCTCATGTGGCAGGAAG
GGAGAGGATCCGAGCCTCTCCTTTGAGGTTGTGTAACCACTGGAGAGCCAGAGGAGACAGTTGCTTTCAACCTGGCTTACATTCAAAGACTTTTTTTTTT
TTTTAAACAAAAGACATTTTATAAAGCATTGAATTGACCATTCCACCTCCTACTTGGTCAGTAAAGCTAGATAGGGCTCGGATTCAGGGCTTGAAATCCT
AAGGGGTGTAAGGAACTCCAGAGGTCATCTGGTTCAGCCTGCTACAGGGCAGGAATCTCCACGGTAGCATCGCAGACCCTCCACTGTCCTTTTAAAGYCC
CCACATGCATTGGAAATGTACGGTGCTCACCCTTTGGTACAGAGACTGAGGAATGTGAGTTTATGCTCAAGTCATTAACAAGACAGAATTCTTAGGCTGT
TCTGTGTGATGACTTCAGATTTTAAAACAAATTATAAGATGTATAAGCGCAACAAGGGCCACATACTTGTTGTTTGACCAACAAAACTTAGTATTTTGGT
GAAATTAGTTCTGTGTTGAGTTTCTGTTATTTCTTATTTCAAACCCAGTTTTTAAGATTATTTCATGTTCATGGAATGGGATCAAATTTGGCATAACACA
TAAAATAGCAATGCAGCCTCACTTAGTGGTAACACTTTTGGGTCTAGTGGGCTGATCTTTCCTGGTGTCCACATTTCTGCTACTCACATCTGGAGTTACG
TTAAAACATGCACTCCGCCGGGTGCAGTGGCTCACGCCTGTGATCCCAACACTTTGGGAGGCCAAGGTGGGTGGATCTCTTGAGGTCAGGAGTTTGAGAC
TAGCCTGGCCAACATGGGTGAAACCCCGTCTCTACTAAAAATAMAAAAATTAGTTGGGGGTGGTGGTACACGCCTGTAATCCCAGCTACTTGGGAGGTTG
AGGCAAGAGAATCTCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCAAGATATGTCACTGCACTCCAGCCTGGGTGACAGAGCAGAACTCCATCTCAAG
AAAAAAGGAAAAAAAACAAAAAACAGCGCACTCAATAGGTCCAGCAATCTCACTTCTAGTATATTTCCAAAGGCAATGAAATAGGTATGTCAAACAGCTC
TCTGCACTCCCATGTTCACTGCAGCACTATTCACAGTGGCCAAGACATGGAATCCACCTGATGTCCATCACTATGTATATGAATGGATAAAGAAAACCTG
GTACATATACATTATAGAATACTATTCTACCATAAATTAGAAAAGAAAAATGTCGTTTGTGGCAACCTGGATGAACCTGGAGGACATGATGTTAAGTTAA
ATAAGCCAGACACAGAAAGAGAAATACCACATGATCTTTCTGATAATGCGGAATCTAAGAAGTTAAGCTCATGGAGAGTAGAATGGAGGTTACCAGGGGC
TGAGGGTGAGGGAGCAGATTTGGGGAGATGTTAGTCAAAGGATACAAAATTTCAGTTAGATAGGAGGAATAAGTTCAATAGATAYATTGTACATGATGAC
AGTAATAATGAKGTATTCTTAAAAATTGCTGAGACAATAGATTTTAAGTGTTCTCACCACACACAAAAAAATGTGATGTAATACATATGTTAATTAGGCT
CATTCAGCTGTTCTACAATGTATGCATATTTCAAAACAATAYGYTGTACATGATAAATATACAATTTTTATTTGTATATTAAAATTAATTAATTTTAAAA
AAGATCTCCAGTAGTCACCTGGTCAGCACCAGATATTCTAATCTGTTTGTGATATCTGAAAATCCTAATACAGACAGCAAAAGCAGGATGGGGTGAATAG
AACTGCAAATCTTGAGCCAACATTTTATGTGCCTGGCACTGTTCCTGGGTTCAGGTTTTTAGGGGTAAATGGATGTTTAGGCAGATAATTTTGTCAATTA
AAATAGTCTGAATTGTTCCATCTAGTCCAGTTAACCTAGTCTCACCAGTTAGTCTATGCCACCTTTGCAGCACCCAGAAGCTTCATAATATTCCTGCAGC
CTTGTCCAGGGTAGTGGCTTGCTTGCTTTCTRTCTTTCCCCAGCCTCCTTCCCTCCTCTTTTTCCTCCCCTCCATCTCCTAGAAACAGATCCTAGTTTGG
GGGTCTGTGATCTGTGAAACAGCAACCTTGGCTTCTGGGGTTGAGTGAACTCAGCTTGTTTTGGTGACATGACATGTTCCTGTCTGSCTTTGCTGCTCCA
TTTTTAACCTTGTAAGTGCCAGGATGCCAGTGGGAAATCGGGAGTCCTTCTGATAGAATTTTTCCAGCAGATGTTATCACGTACTGCAGGGAAATTGGAT
CTGCGTGCTGGCCTTACTGTTGAGAAATTTTTCCTTATGTCAGACAAGACTCTGTCCTGCTACAGTTTAGTCTCATTTCCTCTTATTTAATCCTCAGAGG
AGATGGAAGGTTTGGAAGCTTTCAGGCAACTGCCTTCCTTTTAGGAACTCCTTGTGTGCCTGAATACTATTAAATTACTCCTCAGACTTCTCTTTTCCAG
ATGAAATAATCTCAGGTCTTTTGGCCTTTTCTTGTAGCCCAATATCATACACCAGTTTCCTAGCCATTTAATCATTTTTGTTATTCTCTGGATGTGTTCC
ATTTTCTCCATGTCCCTGTTGAAATGTGAAACTCAAAAAGAACACAGTACAGCCTGACCAGTAGTATAAGTGATATAAACAGTGATATAAGGGCCTTGGG
GGAAGAAAGAAAAATCTGCCAGCTTTCCGTTGGTAATGATCACCTCTGAGTGTTTTTAGGAATTGCAAAATGCTGGAGCCTGCATCCATTTTGAGAGCTA
CAATATCAATAAAAATAYTTCTTTCTTCGATTAAAATACTTCTMATTTTAAAAATTAAAATAGCTGTAGTAGTCTTTAAAGAGTAACCATGATCACAGTT
TTCCATGGCAAAATAATCATTGATAGGGGACTTACGATTAATGTTTACTTGATCCCCAGTGATTCCAGGCCCATTTCCACATAGACATCTGTATTTGGAC
GTCCCAGAGAGGTCTCAGATTCCTTGTGCCAAAACCAAAATCACAGTTGTTGCCCTCGAAAGGCCTCTTCTCTCCTTTGCTCCTTAGCTCAGTCAGTGGT
CTTGTAATCCATTTGTTACCCAAGCCAGGAACCTCACAGCATCCTTCACTCTTCTTTCTGTTCAGCCACCCCTTTTTCATTCCAACCCAAGCCTCATGGA
TTCTGCCTCTTAAATGTCTCTGGAATCCAGCCCTCTGTCACCACCAGCACCGCCACAGCTCAGACTCCAGGTCACTCGCCTTGGGGGGATGGTAKGAGCT
GTCATACTGTATGAGCCTCATCCTGGGGCCATGACTTACCAAGCCAGATCATCTCTGTGAGTCTGCCTGGTGKAAAGACAAGGATCAGTGACTTCTTTGT
AGGTCTGAACTGGGTAATGCAGAGCATGCCCTGGAGACATGGCATGTCCCCCCAATTCTCCAAGACATGACAGTGCCTTCTCTTACTGCCAGGTCCCTCC
GTCTGTCCTCAGCACAGCCATTTCCCTGGAACGCGAATCTGATCAGTTCACTGCTGGGCCTGAAAGCTTTCGCTGACTCCTTTTAATCTGCAGAATGAGG
GTGAAACTGCTTAGCTTGGGCTGGGTCCCTTGTGAGCTGGCCCTGACTTCTCTCCAGTATCATCATTTTCTAGGAAAGCCATTTCCCCACAACCCCCAAG
GAAAGCATATCATAAACAAGTTTTCCCTTGGRGAGGTTCCCTCGACTCCCTTCTCTCCTCTCCCTTCCTCTCTGAATTGTTGCCATATGTGAAGTCCACT
TTTCTAGTTGTCATGCTACCTGTTGACACTAATTTCCCATGTCCCACAGAATGTTCCAGGGTATGGGTCCATGTGCCTGGTGCCCAGCCTAGCATCTGCC
ATACAAGTGCTGGTTCTGATGATCAGTGGCTTCTGTGGTCTTAGACTTGTAGCAGGACTCAAATGTCTGCAGCGGCATTGGAAAGGGGTGCCGTCCAGTG
TGTGCATGTGTGTGTGTGTTTATTTTAAATTGTCTRTGGAACTATCTCAAAGATTGAGGCCAGCAGGACTTGACCTATACATAGATGTAGACTGTACATA
GATGTAAGAATTTCTATTCATTTTATGAAAATGAATAGAAATTTTCATTCTATTTATTAGAAATAGAATGCTTGCTGCTGCAAGCATTTGAGTCCTTTTA
CAGGTGTGAGATCACAAAGACCGCTTACCAACAGAACCAACACTTGTATGGCAGATGCTAGGCTGGGTACCGGGGACATGGACCAAACCCTGGAACATTC
TGTGGAATGTGGGAAATTAGTGTCAAATGTATGCATTTTCACTAACAGTCATTAAACTGCGTACAAAGATTATTTTTCTTCAGTCTATCATTGAAACTAT
TGCACCAGAATATACTGTACTTTAAAAAATGAGTATATGCCTCAGTCTGCACATATTTACTCTTTTTTCAAATAATTGTTTGTTTGCCGTGTTCTATTTC
TGACACCATTTACCTTCAGGAATTCTTACTGTATGATGGGGAGTAAACGAATATACAGGTATTTTTTTCATACTTCCAACTGAATGTGAAGAAATGAAAY
GAGCAAATTGTTCACCTGGTGATATTTTATCATTTCCTCCTCTTTGCTGCAGCAGGATATGAAAACTTCATCCATCTGATCATCGCTCTGCCCGTCGCTG
TCCTGTTGATCGTGGGAGGGTTGGTGATTATGCTGTACGTCTTCCATAGAAAGAGGTCAGTGATGTGCARAGTTATGACACTTTCTGTGGCTGAGTGGTT
TGATGATTTGAATGTGAGTGAAGGTGATATTTTTGAAGATTTCAAGGAAATATTTTATGGACTGGAAAACCTGATTTTCCCATCAAATGTTCTTCCAGGA
AAAGAGAACCTTTTCTAATGATTTTAACAACAGCCAAAATAATTTTTCGATGGTACAGACCTTCCCCTGGCTGKCTTTTCTGGTATACAGATACTGCTGC
TGGTGCATACTTTTCCAAACGCGATGCGCTAGCCTTCCCAATCAAATAAGCCTTTTTATTTCCAATGAAGTAAAGAAACAGATGTTTCTTAAAAAGCGCT
AATCTCAGGCTACTGAGGAAGCCAGAAGATGTGTTAGCAAATGTCTGCTGGCTCACCCAGGCCTGAATTGGGAGTGTAGACAAGAGCTGCTGTAGACAGT
AAGCTCTCCCCATTCTGTTCTGATACCGTGTGAGAGAGGATAAATGAAACTGTTGTAGCGAAGATGAAAGTATWTACAGGAATGTATGGAGGTGGGGTTT
TGTTAACGTGAATTTAATCTTTTTGACAGAAATAACAGCAGGCTGGGGAATGGAGTGCTGTATGCCTCTGTGAACCCGGAGTACTTCAGCGCTGCTGATG
GTAAGAGTCCGGGCCACCAGCACTGCCAGCGTGCAGGGCAGGTAGATCGGGAGCTTTCAGGAGGGTTGCTARTTTGGGAAAGGAAGGAGGTTTGCATTAT
TTTGAGCTACCTTTGGCCTTGGATCTGTCTTCATTAATATTTCTTTCTTTCTTTTTTTTTTTAATCAAAGTTTTTAGCAGTTCAGTGAATATGTCAAAAC
TTGTGGGACTGTRTGGGGTGCCCCAAGGAAACACAGGCTTTAGAGATGAATGTGGCCAGCGCAGTAATCAATTTATTTAATTGCTTGAGATGTTATGCTA
GAATGAAAACAGCTTTTTAATTGTTAACATCTAGTCAGAGGATATGCTGCAGCTGACAAAACAGTCCTTTTAAACTAGTTTCAGCTTGAGTATCATCTCA
TTATAATTGTCTTTGATGAATTACAGCTCTGCTTTTTTTTTTATCATGGAATTTTTCTGTCATTCCCTTCCGACTAGGGTCATACGCTCGTGGCTCATTC
ACATTCCCCTTGGTAATAACTAATGAGGGCCATTCAGTTAAGTGGCTGGGAAGGTCTGACRTGGAAGTTGGGTGATCCTCAATGGTTATTTCCTTTTTTG
CTCTTTCTAGCATTTTTATATCCAGACCTTTTGAGTGAGTCGGATTAGGGTGAGGGGTTGGTCACTGAGTCCAGTGATACTAGGACCCTTAACTGGCACT
TTGCTAGGGGCTTTTACAAACACCATCCCATTTGTTTCTTAAACCCCTGCAATGTGCGTTTTCTTAATGCCCATCTGCAGGTGAGGAAATGAACTCTGGG
AAAAAACTTGTGCAGGCTCACATGGTTAGACAGTTGAGAAGTCAGGAGGAGAATGGAATCACTGTGGAAAGGGCTGTGAGGTCCCCCGGGCAGGCAAGGA
AACAGCCCTCAGGAGGGGCTGGACCGGATTCATCAAATGAATAATAAATAAGTGCATGATGTTGAGTGAGTACATTTAGAAAAAGTGTTTGCTGTCTTCT
TGCCTCGGGAGAAGTGAAAGTAGATGCAGGAGATGTGAAATAAAGAGACATGATTATTCTAATTATTGTGATCAAATAAGAAAACATAAGAAAATACTTT
AATAATGTGAAAACACCGTTATACTATGTAGGGTTTTACTATGGTTTCTTTAATAATTTCTAATTCAGTTTATAGTAAAGTCAATCAAAAGCAGCCTCCT
CTGAATGGGAATCAGGTGCAGAATAATGACTTTATTTCTATCTACATAAAGGTCTCACAAAGTTGGTTTTTTAATAGTAATATATATATACATACTTCTG
TAGTGTGTGTATATAAGGCAGAGAGAACATTCTGGACGGATGCACACCACACTTACAAGAGTTGTTACTTGTGGAGAGGATCTTTCCCTTTAAAAAAAAA
AAAAGCCAGATGTGGTCGAAGGCACCTGTAGTCCCAGCTACTCGGGAGACTGAGGTGAAAGGATTACCTGAGCCCAAGAGCTGCAGTGAGCTAGAATCCC
ACCACTGCACTACAGCCTATAGAGCGAGACTGGCTCTTAAAATCCAGCAAGAAGATAGATATGCATTGTTTGTATGAATAATAGCTTCTAAAAAGAAAAT
CAGTAAGGAAGGGAGTCATCCCAGATGATGGAATTGATAGAACAAGGCAAGACCACTTTCYCCCTCTGTGAGGGTGGACTGTGACTCTACGAGAGAAGCT
ATTCTGCTTTGAAATGCGGCACTAGAGGTTGGYGTGTGTAGCTTTTGACTGTGAAGTGTCCAGGAAGAGAAAGCATCAATACAACAAATTCAGATTCTCA
GGGCTCTCATGGTGACTTGAATTCACATTTTGTGTCCTTCTAGAATGCTTTCATGATACGTCTTGGTACTTCATTACAACAAAAACAAACTTATTGCCAC
CCAGGTCGACAGGTGGGAACAGTGTCACCTTATTTGAACTTRATTTATTCGGCCTTTGAGAAGCACTTATAGCCAGTTTCCTCRAGGGGCAACAAAATGA
CATTGCAGTTCAAAAGTGCTTTAAAAACTTCTTTTTCCCAAAGCTATAATCTGCATGTCACCATTCTCCAGAGTACATTGAAAATCCCCTACAGGAAAGT
GCTGATAACATTGTGCACAGAAACCGCTCCTGGCTGGTGGCACTGGGGACGCCTGCTTAAAGTCGGAGCCGTTGGGTTGAATCGAGAGAAAAGGATTGAG
CGTATTGACTTCAGGGACCTCCCAGGGAATGAATGTGATTGGTTTCAACTCCATGTTTTATGGCAGGCTAAACAGTTAATTCTGATTAAAAGCAAGCCTG
GATTCTCAGAGATAAATGGCTGGAGACAGTGAACTCTTTACACTTTCTGAGGCGCATTGTGAAGAGCCTTATCTCCTGGGTTGTCTTGCATACTTACTCT
CCTCTGACAAGCACCCGCCTCTTCTTCAGGGGTGCAAGCCACCTATGCCAGCTGGAGGGCAGAGTTCCATTCGTGAAACCCTTGAAACATAYGTACTATG
AAATACAAAAATGTGTAGGAAAGAAAACAAGATTATTAATGAAGTTCATATTGGACACCCCTCAGAGGTCTAAAATGATGGTGCCCCTCCTGGGCCTAAT
TTATAATAAACATCTCTCCTTTGAGACATCACTTAAAGGTTGATAGTTGGGATATGGAGATGTTAGGATACAGTTGTCAGCCTCTCACATCCAGCCACAG
GCCCAGGGTCAGCATCTGAAAGCATGAAAGCAAAAACAGGCACCTTCTCCACCTCCTTTCTGAGCCAGGACCACCTCCTTCCCACAGTCAGTGTGTGGTA
GAGCCTGGTGGCAGGTCCCGTCAGGCAAGGACATTAGCACACAGCGTCAGAGGAATTACTGACATTTCATATGGATCTTATGGAACAGGTTGATTTTATT
TTCGTTTTTACCCTACCCATTTGGAGGTGTAGAATTGAGCCTGTGTTTGGTTTTGTTTTCTTTCTTTCCAACCTTTTTCCTTTCTTTCTCTTTGTTTTGC
CTTCCTTCCTGCATAGAAATATTTATTTATTCATTCATTCATTTTTTTGAGACAGGTTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAGTCTCA
GCTCCCWGTAGCCTCAACCTCCTGGGCTCAGGCGATTCTCCTGCCTCAGCCCCCTGAGTAGCTGGGATTCCAGGTGTGTGCCATCACACCTGGCTAATTT
TTTAATAGAGACAGTGTTTTGCCATGTTGCCCAGGCTGGTCTCAAATTCCTGGGCTCAAGCGATCCTCCCAACTTGGCCTACGATTACAGGCATGAGCCA
CCGCACACGGCCCATTTATTTTCTTAAACCAGATCGAATCTAAACAGAAACAGAAACTGGAGAAGAAATCCTATTCAGGCTTGGTATCTACTGTGCATTC
CTCCCAAATCTCTACCCATTGGTCAAGGTCCCTGAGTTCACAGAGCCCAGGCCAGAGCCCTGGAAACGCCTCTGCCCGTCCGCTGCCTAATTGCCTGTCC
ACRCTGGGCACCACCRGGTCTCTCCCTCAGTCTCAGAGCTCAGTTGCTTCTGCACCTCATCAGGGATCCAGCCATCAAAGCCAAGGCTGGGGGACACTTG
GRCTAGAGTAATCCTACCAATAATGCAGTTCAGCTTTGTAACCGCAAATTTTCTAGTAGCCGTATTTTTTAAAAGTAAAAAGAAACAGATCAAATGCATT
TTAATAGTTTTTTAGTTCCAATAATACGTTTCGTGTAACCCAGTATATCCAAAATATCCATTTTAACATGGAGTCAGTATTAAAGTTACCTAAATATTTC
ACTTTTTTTTTTTTTTTGTCTAATCTTTGAAATCCCATGTGCATGTCTCAAATTGGACTGGCCACATGGAATGCTCAGGAGTCCCATGTAGGGACCAGCT
GCCATGTTAGATAGCCCAGGCATAGCATCTGTGTTGAGGGCCCTGACACCTCTTTTGGATTCATCCAAGAAGTAGGACCTTACGTGCACCATCATCACCT
CTCATATGTGACTCTGGCCTTTTTCCCGACCCAGCATAAGAACTCTTCCCTCTCCCTACTACTCTCCTCCTTTTTACATTTGCGTTTTAATCTGTTGGTG
AAGATGGGTAAAATCCTGCTTGACCATTTCATTCAGTTTCTCAATCCCCTGTGGTTAATTTGTTTTTTTCAAAAATGTRTTTTTATGTGATGAAAAGAAA
TTTTTAAAAACCAACTGCTTTCTTTCCTATACTAGACTTCCTTGCTTTGTTCTGGTCCTTCTATCTGTTAGTATCCTCAAATTATCTTGAAATCCTCAGA
GATCTGAAATACTAGTACTGACTGTACAGTTTTCTTACTCAAATCTATAGCATGTGGAAAGTTGACAKCAAGCCATGCCATCGCCTCCTGGTATTCTCTG
TGGGTTTAAGGAAGCAGCATCTTATATTCTTTGGCTTAGAGTTCCCCCAAAGCACGTTCTGTCTAAGGGCTTGTTTCTGTACCTGCTTTAATTACGGTTT
CTTCTCCAGTGTACGTTCCTGATGAGTGGGAGGTGGCTCGGGAGAAGATCACCATGAGCCGGGAACTTGGGCAGGGGTCGTTTGGGATGGTCTATGAAGG
AGTTGCCAAGGGTGTGGTGAAAGATGAACCTGAAACCAGAGTGGCCATTAAAACAGTGAACGAGGCCGCAAGCATGCGTGARAGGATTGAGTTTCTCAAC
GAAGCTTCTGTGATGAAGGAGTTCAATTGTCACCATGTGGTAAGAGAAAGTTCCTGAAAAGYCAAAATGCAGCACAGGGAGAGGGTATCACACAAGCCTC
CCAGTATGTTCTTGGCTGCATGTACCCGTGGGTTTGGTGTCTTGCCTTTGCCTTCTGGATAGTTACCCCATTACCTCACTGCTACCTTCAGACCCCTGTG
CTCAGACCAGGCCGCAGCACCACAGAGACAGTTCCAGACAACACAGGCACCAGCAAGGGCCACCCTGACCCTCTGAGTCTTTCTCTTTTTGATTCCTCCC
AGGTGCGATTGCTGGGTGTGGTGTCCCAAGGCCAGCCAACACTGGTCATCATGGAACTGATGACACGGGGCGATCTCAAAAGTTATCTCCGGTCTCTGAG
GCCAGAAATGGAGGTCAGTTTTCATTTCCACCGGTATTGCATGTTGCCTGGCCTGCTCTCTTTTCCTTTAYAATCTCCCTGCAAGGAAATGCTGTGTCTT
TAAATCAGTTTACTTTCCAGCATCCAGTGTTTCTTACTGCATGCTCAGTTGTAGGTCATTTATGCAAAGGATTTCCCCAACTAGAGTCAGACTCTGATCT
TCGTGAGGGGAACTTCCTGTTCCTTGGATCCCCTCTGCTAAGCCCCTCTGTGCCTTTGTTCCTGCATTCCCTCCACCCCCAGTCCCCTCCCCACATCAGT
GTCCACCTGCCAAGCCAGGCCAGYGCCACTCCCTCCCCGAAGCTTTCCTGCCCCACTCCAGTAGCTATCTCCTCTGCTAACTTCTCGATGCGCTTGACTC
ACATCCTCGTATGTGTTCTCTCTCGTTATGTTGTGTTGTGCTGTTGTTGGAGTGTGTCCCCCCTCCACCCCGTTGTGTTTAGCTTTTCATCTCAGTCCAA
GTGTGTGGCTCAGGGCCGCATTTGTGGCAGGCACTCTGTCAATAAATGTATGTTACAGTTCAAGGTTAAGCTGCCTGGATTCTTGCCCTTGCATCTGGGA
AGTTGCTGGGTGATTTCCCACCCAGCTCYGTGCGCAAGATGTGCACTCATTCATAAACCCCCTCCCCACACACAGTCCCCTTCCCCGGCATTGTTGGCGG
TCCTTGTCTTTGCCACTGGGAATCTGGTTTCCTCAGACTCTACGTCCACGTTTCAGGATTGATCCAGAGTCAGTGTCCTGCTTAYGCTTTTGAATGAATG
ATCCCACCTCAGCTGCAGGATTTCTGCTTAGTTTCCTAAAAATTTCACTTTGGGTTATGAGCTTCCAATTCTAAACCTGCTAAAGTCCTATGCAATTTTT
CATTAAAAGTCACCGTGGTGTCTCCCCCCTCTGTAGTATTAACCCACAGGCCAGCTTTTTAACATATGCGGGCATGACTTTTGAGTAATTAATTCTACAA
ATAAACTGGGAGATAAATGCTGAGACATAAAGCCAGCAAGAACTGAGTTTTCATTTGGTTGCCTCCGTGGGTCTGAAGTCTTTGACCCTTACTTTGCTGC
TTACTGRGTAAGCAGTGTGTCTGCTTTTATTCCTTAGAAGCAGTGACTTCCCCTTCTCGGCCCCTTTGGAAATTCTTTTGCTGTTCTTCATTTGGGCTTA
ATTTTTTTTTTTTTTTAATGTTCTTTGAATCGGCAACTTAATCATCTCCCAAGTGACAGTTTCTTAATTTTAGTTCCAAACACCTGTTCACATATGACTT
CATKTATTTGCAGCACATGGTGTTTGGGGCCAAGTGTGGACTGGGGCTTCAAGCAGGATGGTTTACAAAACTCCCACCCTCTGTTCTGCCAAGCATTGGT
CCCCAGCACCCCTGGGTGTTAGTGCCTCTTCCTGGTTCACTCACTCACTTTCTCTGGCCCTCTCTGTGTCTCTSTCACTCTCTTTCTTTCGAGATGGAGT
TTTGCTCTGTTGCCCAGGCTGGGGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCACCACCTGGGTTCAAGCGATTCTCCTGCCTCAGTCTCCCAAG
TAGCTGGGATTACAGGTGTGYACCACCAYGCCCACCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCT
GACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCGCTGCRCCTGGCCCTTGGTTCACTTTAATACACAAAACAGC
ATGAAGGAGAAAAGCTTGATGAAATAGGTGACTGGAGATCTGGCAGAGTATTTCTTGCCAGCATCGATTGAGGCACCTCTGAAAAGTCCAAAACTCACTC
CCTTCCTCYCCAGTTTCAGGCACAGAATAAAAATTCAGAACACATGGCCTTGGTCCTGGCTCTGYGGCTGGCTGCCTGTGGTCCTCAGACAGCYGCTGCA
GGTTCCTGGGCCTCAGTGTCCTCAATATAAAATAAGAGGGTGGGACAAGATTACTGAAGTCCCTTTCAGAACTAAAATTCACCTTTAGATTGGTCAGATT
TAAACTTTTTCTTTCTAGCTCATGTCARGTATTAAAATGTGTGCACTTACCCTGCAGTTTCATTATATTCAACCTGCTCCCCCGACCAAGTTTCACTTAC
GTATCTCACTACGAGTAGGTGTATATGTATACTTGTCTTAAATAGCTCTAACCAAATTAAAGGAAAGAATGGCAGTGTAACACCATGAACTGACAAAATT
TCAGCCCTCTGTCTTTCTCCATGCTTAAAGTTGAGTGCTTTTGTTGATTCTGTTGCTCACGGCAATTATAAATGACCACTTCATAACACATATAGGTCAT
ACTGTAATATTTAAGAATTGTGAGCATAAACTTTACATTTCATGTGCATATTTCCTCATGCATCACACGTATCTAAAGCCCTGAAAAGTAGTGATTTGGA
CTTACCCCCAGTGACTTAATGTTGCTTCCCCAGATAACCACGTGATAAGTGTTTTAAGTCACCAAGAGACAGCTTTGACAGCCTGTTCAGAATTCAAAGG
TTTGTGTCACCAAGTGTAGAGAACCAACCCAGAAGTACCGAGGAGTTGTTATAATGATTCCAAATACTAGCTTTCAGTAGAAACTAGCACCTCACAGGGC
AGCAGCCAGCATCCACTGGGCATTGACTATGTGCCACGCACCACTGGGCACTTTCTGTGCGTGGCCCCAGGTCATCTTCTCGTCAGTGAAACCACTGTGA
TACCCCATGTGGAAAAGCCTGGGCATGCTCAGCTGGTGGCCGGCCTGCAAGTGTGGGACCTGTCAGAGCCCTATGGCTTTGCAGTGCTGTGTGAGATGCT
TTGTGGTCAAGAAAACCAAGGTGTAGAGTCTGTTGCACTTGTATATGCAAAAGTAAAAGGTAACATTAAAATTAGGGACTAGTGATTGTTTTAGGATGGA
GAGACTTGGGCATGTGTTTTATATAAAACTTTTTTCTAAATGGATGTATTATTTAAGGGTAATTCTTTTTAATTCCAAAGCCAGCACGTTGCTGTCCTCT
GCAAAGAGGAATGCTTATCCCTGTTACTTATTCCTGGTTTCCTCCAAGACTAGTTTCAGCTGGACTTCAGTTGCCAAGGACTTGTCTTCYGTAATGCCSA
CAGAAAATAATAATGCCACATTGTAAGGTGAAAACAGTAATCCTGGTATTTTTGTATTTTAGAAGAAGGTTGAAGGGAAAGAAAAGGATTAAATAATTTA
TAACGATGCTYTTATGGGAAATAAAATATACCATGTCCATTTGGAAACACATTTGCTTACTTCCACACAGCCTTTGTAACGTGCTCTCCTTCCTCTTACC
TGTACTTCGGTGATGGAAATAAAAGGAACATATAAACAAATAGGAATTTGAGTAACTGAGAATCCTTACTACCAAAAATGGCTTGTTTCACTTTAAAAAA
ATGTTGCCCTACCCAAAATAGAAAATGTTGGTCCTAAAGAGTGCAAATTGGTGTTTCCCTCACCAGCTCTGATGTGGTCAGGGAGCAAGTGCAAATAAGC
TTGCGGGGAGCAAGCAGGTGCCATGCTCTCCATGATGGTTTGTTCCTTCCGAGCAAGTCCTGGTTTCTTAGCATAAACAACCCACGGTGCCCAGATTGAA
CAAAGATGATATGCAAACCTCGAAAGAAATTGGCATGGAAAAAAAAAATCCAAAATTCTCATGTGAATTTTTTTAAATSTCCAACAGAATAATCCAGTCC
TAGCACCTCCAAGCCTGAGCAAGATGATTCAGATGGCCGGAGAGATTGCAGACGGCATGGCATACCTCAACGCCAATAAGTTCGTCCACAGAGACCTTGC
TGCCCGGAATTGCATGGTAGCCGAAGATTTCACAGTCAAAATCGGAGGTGTGTCCTTAGCTTTCCAGGTCTGGGCAAGAACTAAACTCAGGTGTTTTGAG
GACTTTGTTGGCATTAGTCTGCCCCTGGAGAGGTTTTCTAGTGTGTCCCTTGAGTGCACGGACTCCTTCTTGGGAATGATGTGATTGTCTCCAGTTGATG
GTCACAAACCTGGCACGGTCGGTCCCAATGCTGATAGCTCATGGACATGGTGGTTCAGATACTGGGCACGGTCCCTGAGGCTGGCTCTCCAGACGTTTGA
GGCATTTCTTGGTAGAACACCTCTTAGCATTGGTTACAGAAATAATTAAGACAATGTCTTYAGGAGATTTTGACTTGGGAATAAARCTCACTGTCCAACC
TTGCATTCATCCCTCCAATTTTYCTAGCTTTTAAGGAGCATTGCTCCCCTTCCAGGGACCCACATTGGTTTMTAAGAGGCAAGCTGCCCTAATGACGAAG
CCTCTGCACGGAGCAGGAGCAGTGGCAGGAGCTGGCATGGCAGTCCCTTAGGTGAGGGACGATCACTGCTCACTGGGTTTCACGGCTGGGGCTGGCCAGC
CTCCAAGCTCTCGACCACTCTCTCACAACACTTACTGTCCTGCTCTTAGCTCACCAGCCTACTGGTTAGACTCCCTTGTTGCCACCACCCACTGTCACAC
CAGAAAAAAGGGTTGGATTGAATTTCTGAGCAATGGTTAAAACCCACTTCAGCCTTTAGGTTTGTGTTTTTACTTCGGTCTTTTAATCTGCCTAATAAAA
ACACACATAACATCAGGGCTGCTCAGGAAACCACCTGCTTTTACCAGGAYTCTCATCTTCCCACTATGATACAATGATAGTTTAGAAAAATACCAAATAT
TTATCCTGAGAAACTGCAGGGGAGATTTAACACCCAAAAGAAGCTATTTCAAATGGACCTCTGTGTCTAGTTCTTGAACTGCCTTTTCTGGAAGTGTTCA
CCTTCCTTTAGTAACATATTTTTTTCCTTTAGTAGTGATGTTTTAATGAAATGTTTTAGCCCCTTTGGTGAACAATGAGAATCTTTTAGAGAACGGTTTC
TTTTTTTGAGACAGAGTTTTGCTCTTGTTTTCCAAGCTGGAGTGCAGTGGCACAATCTTGGCTCACCACAACCTCCACCTCCCAGGTTCAAGTGATTCTC
CTGCCTCAGCCTCCTGACTAGTTGGGATTACAGGCGCGTGCCACCACACCCAGCTGATTTTTTATATTTTTAGTAGAAACAGGTTTTCATCATGTTAGCC
AGGATGGTCTTGAACTCCTGACCTCAGGTGATCCACGCACCTCGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCACACCCAGCTGAGAATGGT
TTCTAAAGTAGGGGTGAGTGTCTTTCTTTTTACTCTGTAGGAGCTAGAGGTATTGAAATGGAACCATATCCCAGAGCCCACATCCCTCCGTCATCAGAGT
TCCTCATTCAGGATCCACCAGTGTGTCCCTAGGTTTGGCACGTTGAGACGTCCTCACGTTTGGTGCTCTGTGAAGCTGGGCAGCCCTCAGAGAGGCAAAG
AAGTCCCAAGAGGCCGTCCTGCCTCAGGGCTCTCAGGAAAGAGCCGCCCGCGTCCCTGGCTGGGCTTCCTTGGTGCACCCAGCTCATTTCTCCTTCCCTC
TCTGTAGAACTCACATTGTCCCCRTGGAAATGCCAGCCAGCTCCCCTTTCCCAGTGCAGGGGGGAGCCAGGTGGGCCTGAGGTGGGCCAGTTCTGCCGCT
AATGGGTGAGAGACTTGGGCCAGGTGCCTTACATCCGGGAGCCTCAGTTTCCTCACCTCGGAAATAGGGTGATAATGTAACAGACCCCATGGGGTTATGA
GAAGGACTTGGTGCAGGAAAGCAGCAGCACGTGCCTGGCACAGGGCAGGGCCTCTCCAGATGGCAGTTCCTGTCTGTGTCTTATTCCCACCCTCCGRGCA
CATGGGGGGAACTCAGTTTCTCCCCACTGCGCRTCACCCTGGGAGAGGTGTTTTTTGTGCCAATTGCCATTTTAAATCCAAATCAGCAGGGATCATGTTT
GCTGTTCAACCATGTGGCATATTTATAGTGATTTTTTTTGTAATCATGGTTTTTCTTTCTGGAATTTCAAGTTTTTCRTTTGTGCTGAGGAAGGTCGTTT
GTGTTTTTTAATAGGATTCCTTCTTTTCCACCTTGTGCAAGTAAAGGCAAATCCCCTATTTGCATGTCACTGTATTAATTCACAGATAACACTTTCACAC
TTCATTTTTATTCTTCTCAAGGGCTCAAGATGTTTTCCCAATGCCCAGCGTCTCATGGATGACAAATATGACAAGTAATTTTACCAGAGGCAGTTTGAGG
GCTCTTAGCAYAGCACAAGTAAATTATGTTGGTTCAAGTCCAAGGAACTTTGTTCTCTTTGTGTTTGCTTTTGTAGCCTTACCTCTTTGGGGCATGAGTT
AGAGACATACATGAGCATTTTAAAGTGGAGCAGCCCTTTCTCCTGGGAAGGAGAACGGAAGAGTCCACTTAAGAAAAGGTTGTATGATTGAGTGCAAAAT
CAAAATCTGACAAAGCAGCAATAATTTAGGATTATAAAGCGAGCCTGCCATCAAACATAATTATGTGGCATCTTCTGGAGACATGGAAAATGGAAGAAAT
TTTCAAAAATGAGTGGGAGGATTATGTTGAAAAACAGTATTGAGTAATAGCTTCAGGGGCCTCGTAAATAGCATCTTTTCGGCATCTTACTGGGTACTTT
TGTCATCATGAATTGTTACCCTGAATATTTTCCCCCTTATTAAGCAGTGAAATTATTTACTTTTCTCCAGTGGTGGGGCAGTGCTACCAAGTTAAGTAAG
CATCTGTACTCTCCTGTTTATTTGGTCAGGTTTTAAAACCATGTGTAAATGACCAGTGGTCTCTGCAGTACTATATATTTTCTTAAATTGTGGGACTCTA
ATTTTTACACCGCTTCCTTTTTTCTTATTTTTATTTTCAAGACAGGTTCTCACTCTGTCACCCAAGCTGGAGTGCAGTGTTGTGATCATGGCTCACTGCA
GCCTCAACCTCCAGGGCTCAAGTGATTCYTCCACCTTAGCCTCCCAAGTACCTAGGAACRCAGGCGCACACCACCACTCACAACTGACTAATTTTTAAAA
TTTTTTATACAGACAGGGTCTTGCTGTGTTGCCCAGGCTGATCTTGAATTCCTGGGCACAGGCGATCTTCCTGTCGTGGCCTCCCAAAGTGCTGGGATTA
CAGGCGTTGAGTCACTGCGCTCAGCCTGCCTCTCATTTAAATGCAATAAGGGCATTAACTTCCTAAGGGAATCAAATTGTAAATATATTAAAAGTGGAGA
TTGCTTGGTATTTGCTCATCATGTGATTAATCATCCCTTACTGTCTCCACCTTATAAAATTGCAAACCCTAATATTTGGCCACCTTAAAGTGGGACGTGT
CTGTGTCTTGCCTTGCGTCTCTCCACACATAATGAGTGTAGGGTCCTCTGCTGTGACAGCAGTGGTGCCTGCTCCAGCGTGTGACTCTGCGCCCTCTCTT
CCCTTACAGATTTTGGTATGACGCGAGATATCTATGAGACAGACTATTACCGGAAAGGAGGGAAAGGGCTGCTGCCCGTGCGCTGGATGTCTCCTGAGTC
CCTCAAGGATGGAGTCTTCACCACTTACTCGGACGTCTGGTATGAGAACCTTTACTGCATTGCCAGCCTGGAGCCCCCAGYCTCTGCACTTTCCACCAGC
TCAGTCTCTAGGGCTTTATCTTTCTCTGTTCATTGTTACCCGTTGCCAGCTTTAGCTCAGTGTTGTGTGAGCCACACTTCTTCATCRTTGAGGTGTTCCT
GTTGTCAGTGGGCTAGCTAAGGGCAGAAGGGCATTCGTGGGATTTTAAAGAATTTATGGGACCAACATTCTTTCCGCCTTCAGCAGATACCGATTATGTT
TCCAGGAGGTGGGATGTGCCAGAAGCCGTCACCTCTTTTTGTTTCTCCCCTGCCTGCCTTCTTTCTCTTTTCCTCTTTCTCAATAAACAGATACTGTCTG
TGTGTCTGCCTCACCTAATCTAACCCTCAGATTGCAGACAGTGCTTTATTTAGACCCAAAGCTTATGAGTCCTGATTGTGTTTTCCTGCTGGTCCCATCT
GCTGTCTGTCTTTCAGTGGGCATCCACCGTTGTGGACCCAGGGATGGTTATGGGAAGCAAAACGTCTCCCTTAATCATAAACAGTGTCTACCAGTGGAAG
CCCATCGACCGAGGGATCAGAGGCCTCTCAGTAGTATTGTTTATTGCAGTTCCTTGGCAACATTGCAGAGAGGCAGTCAGGTTCTGAAATACAACTGAGG
TTATTGGCAGGCTGAGGCCCTGGCACAGGCACCTTCTAGAATATCAGCTAGTGTCTTGGCTTTCCTCTGGGGGGATCCCGTTGCTGTTGTGTTACAGAAA
TGGTAGTTGTTTACTCCAACAGTCTGGATGACCGCATAGAGGAACTATTTCARTAGTGACTGACATCATTTTTTTTTTAACCTCGTAAACCTTTCACAGT
TCAGGGGCCTTGGATCTTATTTTGAAGACAGGTGCAAATTGGAAATAGCATTTGAATATGACCCGGCAAAGCATGATTGCTTCTTAAGCTCAAGTATGAG
ATCTGTTTTGCAATCAGCTTGTCCAAGATGGTTATCTCTTCACTGTCAAATCAAAGTGCTCTGCATGGTGTTTAGAGATTGGGATGGTGAGGAGAGAGCA
AGCCTGGGTATGTGCATGCATCTGTTTATTCTAGGCTTCGTGCCTCCAGGAGCTTGGAGGTCAGCTTGTAGTATAATAAAATAGAAAACTATACAGCCGG
GGAGAACAGAAGCAGAATAGAAGGATAAAGTGTTGTTCATATCTCTCRGGCAAATTTTACCCAAATTCTGACGAGCAGTTACTGCACAAGCAACAACAAA
GGGACCTAGAGTGTGTTCATTGCCAATTCTGTCCATTTGGCTACATAACTACTGTGAACCAATACAAAAAGATATGTATAAACATGAATAGGCGTTTGGT
ATTCATTCCATGAAATGCTCAGGCATTGACAGCGCTTCAGGTTTTGTTTGCTTTTTAACACAGGCTTTGAGGATAGCACAGGTCAGGAAGGCTAGGGCGT
TGGAGCAGGTTTCTCAGCGGTCCAGGCTCTAAACTAAAGCTGTCCCTCTCAAAAGAATGGAAATGATTTCAGATTGTATTCAGCAGCACGAAGCAATGAT
TCCTAAATAGTTAAAAATCTAGAAAGAAACACTAAGAATTGTATTKGGCTTTGTAGAAGAGACCCCAGAATTTTAGGATTTGGGATGTATCCCTGCAGTC
AGGCCCAGTCCCCAGTGCACCTGCAGATCTTTGACAGCTGCTGGTTGAGCTTCTGCTAAGAGGTTTCCTTCCAGGGACTCCATGTTCACTGCCTCACAAA
GGCAGGCCAGCCTCATGCTTTAGACATCCTTGCTCTTARCAAATCTTTYGTGTTCTGCTACGTCAGCCTCTGTGTGACACCCATTGGACCTTCTCTCTGT
AGCACAATTGCATACCTTGCTCTGTTCTTGATAAGATAGGTCTAGGAGTCATCGAAGAGGTGTGTCTGTTCTAGCCAGAACACCTCCAAGTTTCCTGCTG
TCTTCCAGGACTTCATTCCCAGGCCCTTGGGCACTGTGGCTGCTCTCCCTGCAGCTCCCTGTAGCACCATGTCCCTCTGAAATGACAAGGGTGCCCTCTA
GGCATGGAGGAAACCAGACGAAGGACTGGGGAGCTGCACCCCACAGCCTAGAGCTGTGCTTCTTCCCGAGCATCTGGATCACCCAACACATAATCTTTAT
TTTTTATTAAGAAGCTTTCCAAATAGTCACAAATAGCCAAGGTTATTTGCTTCTTTCATGACTAATTACCATCTGTGGGGAATGTGGATTTCTCTGTAGG
TTTTAATTTGCTGGTGAGTGGGCCATTGCTACCATCCCCTCCTGGTGTGGGGAAGTATAGTTACTGAATGCTGCCTCCAGCCAGCACGGGCATTGCAGGG
GGACTCACAGCCGCCGGTCTTCCCCCTGGGGAAACAACGTCAAGGTTCCTAATTAGAAAGGGCTTTACACAGAGACATGTATCTAMTGTTTGAAGATTAA
ATCTGTCCATGAAATGGAAGACTTGATTTTATATGAAGTCATGAAGAGCCAACACCACATAGTAAAATACCGGCTTTGAAAAACACAGAGGTGTTGCATA
TTTCTCGGTGCTTCTGACTGGCTGTGTGGCCTTGGTTAAACCTCAGAGCTTCTCTGGCCTTCGGTTGCTCCATCTGTAAGGCAAGGTCTGTCTCGAGAAG
TCTGCGGTACCTGAATAGATGTTGAAATGGCTCCTGTGGCAACTGGTATTGTGTAGAGATGGTTCAGTGTCCACACCTTGCAGTTGTCACATTAAGCTGT
GAAGGACGACTGACTCTAGCACTCAGTGGTCCTCAGTGGCAGGTGATGTTGACCTCAGACAAGAGTTGCTCAGGAGATAGGCTTTGCAGTTCACCTCGAC
AAGCGTTTGTGGAGAGCTAGGTCTGCTACCTCCTGTATCGTTGCCTGTGGGTGATGGTAAGGCTCTTGGGGGTGTGGAAGATGCGGGGATGATGATGATG
ACGATGATGACGATGACGACGAYGACAGCGTCGTCGTCGTCCTGGTCCTGGAAGGATAAAGTCTTGTGGAGAAGAGGAGGCAATTCTGACAGTTTGGGGT
TGCATCATCTTCTTCACAGAAGAGATGAAGTTGTGTAGGCACCCTAAGTATGGATTGTCACAAAAAGAGCACTAGGAAGCGGGGCGGGGCGGGGCAGGGG
TGGGGGGTTCCTGGCAGTGGGAATGCTGGGCAGGCATGGCAGTAGGGAGCACCTGCTGCAGGTGGGGTTGGTGAGGTTTCCTCGTGGGACTTAGGCTGCA
GAGAGATCAAGACAGGCCTCAGCTGTTGTATTAGGCATCCTGGACTAATTCTTTAAGCCCTGTTAAGGTTTCTGAACCAGAGGGTGATTAGAGCTGTGCT
TGAAGTTCTTGTTAGCCGGAGTATACAGCTGCATTGAGCAAGATGTTGTAACCAAAGGAGAGGTGGTGGTGGGCCAGGCAAGCAGGATCCTGCACACTCA
GGGAGCTCTGAGGGACGGAAGGAGGGTGCCAGACCTTGGACAGATGTGAGCCTGGGTGGACAGTTCGCAGTGGGACTCCGAGGAGGCCAAGGGCATGGGT
GACAGCAGGCAGACTGCTCGGGTGGAATGGGCATCAGCTGCAGGGAAGCCGGGGGAAGAACAGGGCACAAATCRGAGTTCAGTGTGAGACGCRGTGAGTT
TGTGGGTAGCCCAGTAACTGGGAACTTGGAATGGAGCAGTTGGGCCGGGAGGGCCAGGGTGGGAGCCGTGCCGTGAGAACTGGCTGCCTGCAAGCCRCTG
ACACAGCCAGGAAGGGCACGTGGGGCAAGAGGAGAAGTGGGTCTGGGAGGGAGCCACATCCTCAGGCCATTTCCCAGACCAGCCTGCAGTCAGCAAAAGC
AGAGAGCTAGTCATTTCTTCTTATTTTATTTTTAATTTTTTGTTGTTGGAGAGCTAGTCATTTCTTGTACCAAGCTGCATTTCAGATGTGTGGGTACTAC
TGCCACTGGCATCTGAGGCATGCTGCCTGTATGGCTGGGCTGGTTGTGGAAGGCAGAGCTTCCCGCACAAAGCTGATGGAGAGCCCCTTCTCCCCTGGGC
CCAGGCCTCTCTAAACTGCACTTTTGGCCTCTGGGTGTCTTGTACAACATGAAGACGACAGCATTTCTTGGTCACTTGTAATTAAAAAGGACCTTGGGTT
GGTCTGTCCTCTGATTGCTAAGATTCTATTTCTGTCTAACATCTACTTTTAGTATCAATTTGTACAAAAATCTTTGATTCACCGAAAGTAGCTGAAGCAG
YGAATAAAACGTTCTCATACAGTCAGGAGCACTGTGGGCTTGGGCACAAGGTCWAGGTCCCAAGAGCTCTTGGTTGGAAATCTCCTGCCCCAGGTTTTTC
CATGTGGCTTGACCAGCACCTGCAGCCCAGGACAGGTCCAGCTAGAATCCCTGCTCCCCACCCTGCTCCCGCCCCTACTTGGTGATGAGTAGCCTATTTT
ACTCCACCAAAGTGAACCACATGGAAAGGCACACAGGTCAGGGAGAATTTGTGAATTACGGAATTTGCCCTGGGAGGGCACATTTGTTTTGCAGATTCCA
GCATTGTCTTTTTTAACATTCTGTCTGAAAGTTGTGTGTGTACTCTCTGTTTTGTTTTCCAGTGGTTTGATCTTCTAAACTGGCAAAGCTGCATGCATAT
GGCAGAATTGCTCACTACAAAGTTATTCCTCAGCCAACTTCTCTGCTTAAGGATTCTTTGTCCATGATACCCCCTCCCAGCCAGTGCAGCCCACCCTGGT
CCCCCCACCTGTGACACAGAGGCCCTGCAGGCCAGCAGCTCCCCAGCTCTGTTGTGGGTGGGGGAGCAGCAGGAGTTCTCTTCTCCCTTGGCCCAACTGG
ACCTCAAGATCCCTATAGATCTTCTAAACATTCCAGGTCCCAGGCCCTCACCCCAGACCAATCAAATCAGAGTTTCTATTGGGTGCCCAGCCCTCTGTTT
AAAAACCTCCCCAGGAGATTCTCCTGTGCAGCCGGCAGTGAGAACCACCTGGGTAGAGGTTTCCAAAATTGTCTGATTGTAAAAATCACCTGAGGAGCTT
GGTAAAGCTTGACTGTCCCAGGCCTCATTTGAGGCTACTRAGTCAATGTCCAGGCTGGGGCTTGGACAAGAATGTCATTCTTTTTGGGTCAAAGCCAGGT
TAGGTGATACCGCCTTGCCAGATAAATGGCCGGGACTAGGTAGATGCTGAACCCAGTATGCTCTGCGTTCAAAGCACAGATCAGGGGCTTCCTGACCRTG
CAAGGGATGCCGGAAGCGCCCTCACCACCTTCCTTAGCTCCACCACCGGGGCTGAATTTAGTTTACGGGGAACATTAGCAGCAACAGAGGGAGGATGATA
TCCCGCACTTAGCCCAGGGCCTGGCTCGCTGTCTGACAAGYACTGTCACCATAGTAAGGACAGTTTATCTGCTCGGGATGTAAGAAGTGCTGGAAAGGAG
GGGGCAGCATTGTTCAGTCCATCCCTTTCCAAGCTCCTCACAGTTTTTTTCTCCCTGTAGGTCCTTCGGGGTCGTCCTCTGGGAGATCGCCACACTGGCC
GAGCAGCCCTACCAGGGCTTGTCCAACGAGCAAGTCCTTCGCTTCGTCATGGAGGGCGGCCTTCTGGACAAGCCAGACAACTGTCCTGACATGCTGTACG
TACTTCCTGGGCCCTCCGTGCTCTTCTGAGTTCTCTTCTCAAATACCTGTTTTCTTGGGTCACAGGAGATTAGGAGATTAAAGCCATTCTCTCTGGTCCT
GCRCCTCCCTTGCCAGGCRTGGCTAAGAGGTTTGTCCTTGTGGAAGGAGCTGAGTGGGTTGGTCGACCTGTGCTTTTCCGTGGGTACCTTAATTCTACCC
CATATTCCGTAATGCTTTCGTTCCGATTTGCAGTTCACACTGTAGTTTCTCAGGCCAAATGTCTCTGTGAAATGTTTGGCCAGAGTAATCCATCCTTACT
CATCCTCTCCATGTGAGGTTTTTGTTTCTTTTTAAAGAAGGCTACAACACAACACATACTACTCTGAAGTYGAATTCAAGAGCCCCGCGCCCCACCTGTG
GCAGGCCTGAGGGAGCCGCCGCAGTGAGTGTGCACACAGCTGCATGGCCAGGACTCCGGCATGCACCACGTAGGGTCAGCTTGGTGTCTTCTGAACCCTG
CCCCACATGTCTTCTCTGTTAAGTGTTTACAAAAGTCATAAACCATCTAAGTAACATGCTCTCCGGAGCTTCATCCGCTGACCAATGTGGACCTGGAGCG
TGTGTGAGCTGACATCCCTGCGGACAGAAGGATGCCAGTGCTGGTGAATTTGTCTTCTCACTGCACTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCT
CTGTCGCCCAGGCTGGAGTGCATTGGCGTGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCACCCTCCAAAATAGCTA
GGATTACAGGCACCCACCACCACTCCCAGCTAATTTTTAGTAGAGATGGGGTTTTACCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGATGATC
TCCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCATCGCACCTGGCAACCCCACTTATTTTGAAAAAACACTTTGCAGCTTTTAGTCCT
AAGTTTTGTCAGATGACGAGAGAGAGTTTGTGATGCCTCACAGTGTTGGTGAGGCCTCTCTGCTCAGCGCCCCCTGGAGAAGCCCCCCTTTTGGTGGAGG
ACTTGCTCTGTGTCCGTGGACGGTGCTGTTTTGTGGCTCAGTGGAGGTCAGAGCTGCTGGAGCAGGGAGGCCTTGTTGTCCTTCCTGGAATGAGTTTGAG
GAGGGGGTGAAGGTGTTCCAGTTCAGTCATCAGGYGCACAACAGGTACAGGTTGGGAGCAGTGGCCTTGCTTTTGACATGCACTTTAAGGCAGGCTTCAG
AGATTGATCTGGATCTCCATAGCTGAACAGGAAGGTGGGCTCCCACTAGTATCTCAAGACCAATTCAGGAGATTTCCAGAAATGCTTTTCAGGACAGGTT
TGGCTTCATTTTGGAAAGGATCCTGAGGAATTGCTGGGCTGTTATGTCTGCATGAAGGCACCCAGCTCCTATCTCTCACCCATCCACCCCCCTGGAGCCA
GCACAGACTCAGGCTGGGCCCACAGTGGCGGGATAATAGATAGATATGAACCAGACATGTGTCAGGTGGACAGGAGGGAATGAGGGCTCCAGCAGCCACA
AAAGTTTTGCTCATTTGGTCTCCTACAGTGTCTGTGGGCCAGGAATCCAGATGCAGGTGTTCTTGCTCTCAGCTCAGAGTCACAGGAGGCAGAAATCAAG
ATGTCAGTGGGGCTGCAGTCTCACCTGAGGCTCAGGGACATCTTCAGGCTCCTTCAGGGTTCTGCACTTGCAGGACTGAGGTCCCCATATTCTTGGCACC
TGTCAGCTGGGGACTGCTTTCAACTCTTGGAGGCCAAGGCCACTCACAGTCCTTGCCATATACAGCCTCCATAGGCCCTCTCATAACAGCAGCCTATTTC
TTCAAGACTGATAAGAGGACAGCTCTCTACTGCTTCTACTGGTTTTTTACCTGATAAAGTCAGATCTACCCAGGATACTCTCTCCCTTTTAAGTGATTCA
CAGTCAATTGATGAGAAGCCTGATTAGAGGAGTGAAGTATCCTCTCATGTTCACAAGTCCCACCCGTACTCAAGTGAGGGGATTATATGGGATATTTACA
CCAGGGGCAACGATCTTGGGGGGCATCTTAGAATTCCATAGTCTCAGAAATCATTGTCCCTAATCAAACAATCAAGGTGCTATTTTTGTTTCAAAGCACT
TTGAGTGTTGCTACAAATACTGAATCCCTAAGCTCCTTGTAAATGGCCGGCCAGCGGAGGGCATGGGGTGGGGAAGACTGGATACACACCCCTGTGCTCT
GGGAGTACGTTGGCTGGGCGGCATGCTCATTARCTGCTGCTTCCGAACATAGGTTCAGCTGAAGTGTATCCCAGGCAGTGGACACTTCGTGTGGAATTCA
GAAAGGTGGCGCAGGAAGGATACCAGGGAAAGCCAGAGTGAAGGCATCACCCTTGCACAGCTAGCACATGTGGGGGCTCCCATTGTCCCATCAAGGCAGG
GCCAGAACCAGAAAGTCGGCTGGTGCCCTGGGCCTGGGCCAGTGATGGGAGGCTCCTCTTCTCTGAGGGTGGCACCTACAGATGCAGTGGCACTGGGTTT
CCTGGAGCCCTCATCAAGGAAACTTCCCAGCATGGCCTCTTCAGAACTCCACAATCCAAACTTGGAAGAGACTCGAAAGACCACTTAGTACCTTTTCTTG
CCCAGTATAGAAATTCTTCTTCTCCCCTTCTGTGTTAGTTTTTTATCGCAGTATAACAAACTACCCAAAACCTACTAGTTAAGAGCAACAGTAAACATGT
ATTATCTCTCAGAGGTTTCTGAAGGCGAGGAACGCAGGAGCGGCATAGCTGGCTGGCTCTGGCTTGGAGCCCTTCTCGCGGTTGCAGCCCAGCTGTCCGC
CGGGGCTGCAGTCATCTGAAGGCTTGCCTGGGGGAGGCAGACCCACTTCCAAGGTGTTGCTGCATAGGTAGTATGCCCTGCATGAATCGCCCTGTTCTAC
GTGGGCCTCTCCGTAGCACTGCCCAAGTGTCTCAGGATGTGTAGCTGGCTTCTCTGAGTGCAGAGTTCGGCACACTCTTTCTCTAAAAGGCCGGCTAAAA
AAATGTTTTTGGCTCTGTGGGCCCATACGACCTTGACTGTGACTACTGGACTCTGCCACTGTGGAGCAAACACAGCTGTGGGCGTCACATAAGCTAGCGT
GGCTGTGTTCCAATACAGCTTTATTTTTAATACTGGAATTTGAATTCCACATCATCCCTGTGTTGTCACAAAATATTCTTATTTTGAATTTCTTTTAGCC
ATTTACATGAAAACCATTCTTAGCTCATAGACCTTGGAAAACTAGGCAGCAGGCCAGATTTTACCCACAGGTACATAGTTTGCCTGCTGTGCCCTAGAGT
AAAAGATCCAGGACCTGAGCAGAAGGCACGACGTCCTTTCTGACCAAACCTCAGAAGTCACACTGAGGCTCTCACCTTCTCCTTCAGGTTACACCATGTG
AGAGTCAATCACGTGGGGATGTGAGCTCCAGGACACAGGGGAGAGGACCACTGGGGATCCGGGAGCCTGGCTACCCCCCAGTACCCCACCAACACACACA
CACACACACACACACACACACACACACACTGCCCCTCACAGGTGACCATCTGCTCCACACTTTGAGCAGCGCAGCCACTGTTTTCTTGCCAGCCATTATG
AGAAAAATCATGCTTTCAAGTCTGAATATAAGCCATGGAGTAAGAGGTCTGATGACCACTGAATCTGCATAAAGGTACAGTGCTAGAATCTAGGCTAATA
CTAGAACTGGTGGTATTTTAGCAAGCTTAGAAACAGCCCATGAAAGCAGGTGTGAGTTCTGCTTCTGTGGTTTAGGGTGGGTGAGGGAGAGCGGTATTGT
TCTGTGCTTTCTCTTTGACTCGGGTAAACGTTTATCTACAAGAGACTTGTGGGATTCTTACTTGGTCCACCTCCAGGTGACTGGGCTTTTACTATTAATG
TAAACTGCCTGGGACGCAGCCCCTGCCATGGGAAACGCAGGGCACTTCCTGTTCTCAGCATAGAGTGACAAGGAAATTTACTCAGAGCGGTTACTCTGAC
ATTCAATGTTTAGTTCAGGAGGCATTTCTGCTTTGCCATCGAGAATTTTTCTCCCTTCTAAGAAAATGTTTTCTCCTGAGAAAATTTTTCTCCCTTCCAA
GAAAAGAGTAGAATGAAAGGAGGCAACTTGGTTTCATAGGGAGTGTCATGTTGTCCTTCTGAGTTTACTGATGAGCTTACCTGAGAAAGGAGGGTYCTAG
CATGGGAGTTCTGTTGYTACAAGACATGAAAGAATGGCCTCCGTTTATCCCGGAGAGGAGAGTCCCTGAGCCCTTGGGAGTTGCCTTGAAACCTCTGCCG
GGTCCCAGGTGAGAAAGTGTGTGAGTTGTGTGGTTCTGAGATCTGAACAGGCACCRTCTGGTGACACTAGGGGCTGAAGGAGCTCGGTGGCTGCAGGTGG
ACTGGAGCTCACCATCAGGAAGTAGCCAGATTCTCACCCCTCAGTGTCACCGAGTGTTCTGGCTTTAGAGGAAGGACTCCGTGGTCCCCAAGCCACAAGG
TGTCGAGGTCTGAGTCTCAACGCCATGACTCAGTGTGAATTAACTTAGCAGGTATCACAACATCAGATTTGGGTTGTGGTTCCCTGCTGGGTCTGTACTT
TAGATTGATGACAAAGCCCGTCCTCAGCCTTATTTCAGCCCAGATCTCGGTATTTATGCCACAGATACTGTTGAGCTCCTCTGGGTGCGTGCTGACCCTG
AGGTCACACAGATGAGCCAGGAGTGGCCCTGGCTTTCAGGAAACGTAGTGACGTAAAAGGTCCCGGCTGCTGCGGGATAAGGGCCAGGGCAGAGGTGTGA
ACGCAGCCGTGGAAGACTTGGGCCAGGRAGCCATTTGTTCTGCTGCTAACACTTCCACAGCTCCACRTGTCCAGACTGTTGCCAGAGACGTCTTTGGTCT
ACAGGATTCAGGAGGGAATCTGAACTTTAGCCTGGAGCATTATCAACTCATAGATGAGTCTGAAACAAACTTAGTGAAATCTGATGTTTTTTGTAGTTTT
CCAGTACAGTTTTTCCCATCGCTGGAATCCTGGTTTGGTTCTGCGGGAATCGAGTGCTTGAGTGGGACCCAGACAGACAGGAAGGGCGCTCCTGCTCAGT
TAGCCCCAGTAAGCTCACTGAGGCACACAGGCCCCATGTCCACAGCCGCTCCTGGCTGAGGCGTGGTTCCTAAGACGACCCTTACTGTTGAGGGCTGCCA
GGAGGGAGAGACACATTCAGCCCCGCAGGTCCTCTGGGAATCCGGTGAGCGTCGGCACCGGGCTGGGGCCGTGCTGATTCCCGGCAGCGTGTGGGAATGT
GCGGGTGCCTCGTGGCCTGCTGACATCGCACACAGGTCACAGCCTGTCCAGTTCAGGACATCAGGGCCAAGAGTGAAGTGAGAATACGGAGGCACCTCTG
TGTGCTCACCCTGCTGACCGTCACCCAGCCTCCGGGGGGGGTCACAGCTGGCCCCCAGGAAGCTGCTTCCCAGCAGGGCAGGAATTCCATTTGAGTCTTG
TCCCTGTTCCAGGAGAAGGGCTGGGTATGTGTCCCCCAAAGGGGAGAGCATTCGAGAAGGATGGCGCCAGCCTCCCCAGAACTGACCTGTGGTTAAAAAA
AAAAAAAAAAATTGTGCTTTTTAAAAGATGAGTTTTATCAGCTCACACATCCTTCTAGAGTCTAATGGAGATTTTTTGTGTGTGTGGAAATAGTAAACAA
GGTCTTGAATCCCACAGAGCAAAAAAGACTTCCTTTCATGGGCAGCACTGGAAGGGTTGTTACTCTGGAATGGTTTAAAAGAGGCGTCACATGGCTTGTT
TGTGCTGATGTCACTGCCTCGCTGCTCTCCTGTGGCACCTCCTCGGTCCCTGGCCACAGGGCACAGAGCCAAGCACATCTCRTGCTCTTGGCCCAGTTAC
GCTTCTGCCCAGGGGTAAGTCAGCTGGAGAGGAATTCACAGCCCAGGCATTTCATGTCGTTATGGCCTATTTTAATTTTTTTAACCCCAATCATTTTTCT
TAGGAAGTGATGGGGAGTTTGGAAAGGCAGGCTTATTTGTCATCAAGCTGCCAGCTTTTATCAATGCAAACCACATCCCTGTGACATCTGTGACTGTTCC
TTGGACAGTTAGGTGAGGGAGGGTCTCCTGGTGGCCCCAGGGTTACTCTTATTTAGGTTGAGAAAAATTCCTTTTTCCAGGATCGTTGGTGATCAAAGTG
TAGTCATTCTGTTGCGCAGAGAACTCCATCCCAGCTCCACCCTCATGAATTTTGTAATCTTGGACAAATTATTTAGTATCTTAGTGCTTCTGTTCCCTCA
TCTGTAACATGGGGGTATATTATAGTCAGTAGCACCTGCTTCACAAACTCGTGAGGACTTCAGCAGTTCACACACATAACTGCCTCGCTGCCTGGCACCT
AGYGTGCACATGGCATTCTACCGTGGGGTAGACTTTTAAAATTCTGGCTACAGAGATACTTTTCCATAAAAGTGGCCACATGGAACTCTCCAAATCTAAG
AAGCATACTGTGGGGGCCTTCATATTTTGTCTAATTCTTTTCTCCCCAGAACAGGAACCTGCACCCTTCCTTCTTTTAAAGGGCGACGTGGTAAATAAAC
ATTTTTAGACTTGCAGGCCACAGTCTCTGTCCTAATGTCCTCAGCTGGTAGTTGTAGCTGGAAAGCAGCTGCAGCCCACATGGAAATGAGGGAGCGTGGC
CCCATGCCAGTGCAGCTGATGTAGAGGCGGGCAGCCCCGGGTTAGGCCCTGTGGAGACGCAGGCCCCCGGGCTCTAGAACGCTGAATTCTAGTGAATTCT
GGATGGCTCTCCCTCACACCCAGGCCCACCCTCCCTCAAGGTTGCACCWTCTCCACCTGAAGGAAGCTGCCAGGTGGCCATAGGAGCCCTTCTCTTGGCA
GGCCAGCTTCCAGGCCCAGTGGCTTCTCTTACATCAGGGGCCTCCCCTTGGAATGTTCCCTGAAGGCCAGACACGGGCAGGTAGTCTGTGGTCAAGCAGC
CACCCTGACAGGAGGCTAGATGCCACTGGGTGTGCTTTGAGTTTCCTAGATGTGGAGAGTTCTGTGTGGCCACTTTTATGGAAAAGCATCTCTTTAGCCA
GAATTTTAAAATAAAGAGGATAACTTCCTGGTGAGAACAGACGTGGAAAGGAAGGCACTTTGGTTTCACGCTCATGTAAGAGAGGGCTGTTGGCGGTCAC
TCCTCAGAACTATGGCCAGCCCTGGATGGTAGCCAGCTGCTTTTTGCCCCAAAAGTCTGTTTAGCTGGGTCTCTGCATTCTGGAAGCTTGTCAAAGCCCG
GGCCTTTCCTGGGTCAGGGCAGCCGGCTTTCCTTGTCCACGTGTGGCCGGCTGTTTTCTTGGGGAGCCCCGGCCACAGCCGGCAGGACTCCCTTTGCTCC
ATGYGACTCTGAGGGCCTCACAGGTATTTGCAGCCCAGGTGCTGTCGGAGCCCAGCCGATGCKACCGACACACAGCACAAGCGTCATCCTGTTCTGCCTG
TCCCTTGCGTGTGGAGGGGACTCGTGCCCAGGGCTCTCCTTGCTGGCTTGTTGGAATCTGGCTTCAGGTCTACACGGGGCCTCTCGTTTGGTCCAGAACA
GCCTGGCTCATCGGCTGGGGCTTGCTTGTGCAGGGCTGGAGCGAGCACGTGCTAGATGGAGACAGCAGACTYGGAGTGTGCATTTCTTCGTGTTGCAAGC
CTGGCCTCACAGTGCCTTCTTCCTTTGGTTGTCTGCCAGGGGTAGCCCTGCACCAGGAGGAAGCTTAGAAATAGCACAGGTGGGAACCGGAGAGAGAGCA
CTGTTGGGGAAGCTGCGGTCACTCATCAGCCTTCCTGGTGAGAAACCAGGGGTTTCCTGCTAATTCTGGAAAGGATGTTTCAGCAGTGCCTGCATGAGAY
GCCTCAGATAGAAAACTGGTTATTTTTGTTTCTTAGCACTGCCACCATAGATAACAGCTGTCACGATGGACAGTGTGGACCTGGATTAGTCCTTCTTGGG
AAAGGAGAGTTTGGGTTTTGTACCRTGGTGGTTYTGGGTTCTGRGGGAAGAGAATGGAACCGTACGAGGTAAAACAGGAGACTCTGAAGGCCACTTGGCC
ATCCAGGCAGAAAGCCAGGGATGGAGAGGGGCAGCAGGGCTGTGTTCAGTGCTCCCGCCGTACGCTTGTATGCGGGAAACCACTGCAGGCGGCCCATGAA
GCCTCCTGGCCATGTGCGCCCTCCCRGTTTGGACCCCCTCCCGTGTGTCTTGGCTGCAGGTTTGAACTGATGYGCATGTGCTGGCAGTATAACCCCAAGA
TGAGGCCTTCCTTCCTGGAGATCATCAGCAGCATCAAAGAGGAGATGGAGCCTGGCTTCCGGGAGGTCTCCTTCTACTACAGCGAGGAGAACAAGCTGCC
CGAGCCGGAGGAGCTGGACCTGGAGCCAGAGAACATGGAGAGCGTCCCCCTGGACCCCTCGGCCTCCTCGTCCTCCCTGCCACTGCCCGACAGACACTCA
GGACACAAGGCCGAGAACGGCCCCGGCCCTGGGGTGCTGGTCCTCCGCGCCAGCTTCGACGAGAGACAGCCTTAYGCCCACATGAACGGGGGCCGCAAGA
ACGAGCGGGCCTTGCCGCTGCCCCAGTCTTCGACCTGCTGATCCTTGGATCCTGAATCTGTGCAAACAGTAACGTGTGCGCACRCGCAGCGGGGTSGGGK
GGGAGAGAGAGTTTTAACAATCCATTCACAAGCCTCCTGTACCTCAGTGGATCTTCAGWWCTGCCCTTGCTGCCYGCGGGAGACAGCTTCTCTGCAGTAA
AACACATTTGGGATGTTCCTTTTTTCAATATGCAAGCAGCTTTTTATTCCCTGCCCAAACCCTTAACTGACATGGGCCTTTAAGAACCTTAATGACAACA
CTTAATAGCAACAGAGCACTTGAGAACCAGTCTCCTCACTCTGTCCCTGTCCTTCCCTGTTCTCCCTTTCTCTCTCCTCTCTGCTTCATAACGGAAAAAT
AATTGCCACAAGTCCAGCTGGGAAGCCCTTTTTATCAGTTTGAGGAAGTGGCTGTCCCTGTGGCCCCATCCAACCACTGTACACACCCGCCTGACACCGT
GGGTCATTACAAAAAAACACGTGGAGATGGAAATTTTTACCTTTATCTTTCACCTTTCTAGGGACATGAAATTTACAAAGGGCCATCGTTCATCCAAGGC
TGTTACCATTTTAACGCTGCCTAATTTTGCCAAAATCCTGAACTTTCTCCCTCATCGGCCCGGCGCTGATTCCTCGTGTCCGGAGGCATGGGTGAGCATG
GCAGCTGGTTGCTCCATTTGAGAGACACGCTGGCGACACACTCCGTCCATCCGACTGCCCCTGCTGTGCTGCTCAAGGCCACAGGCACACAGGTCTCATT
GCTTCTGACTAGATTATTATTTGGGGGAACTGGACACAATAGGTCTTTCTCTCAGTGAAGGTGGGGAGAAGCTGAACCGGCTTCCCTGCCCTGCCTCCCC
AGCCCCCTGCCCAACCCCCAAGAATCTGGTGGCCATGGGCCCCGAAGCAGYCTGGCGGACAGGCTTGGAGTCAAGGGGCCCCATGCCTGCTTCTCTCCCA
GCCCCAGCTCCCCCGCCCGCCCCCAAGGACACAGATGGGAAGGGGTTTCCAGGGACTCAGCCCCACTGTTGATGCAGGTTTGCAAGGAAAGAAATTCAAA
CACCACAACAGCAGTAAGAAGAAAAGCAGTCAATGGATTCAAGCATTCTAAGCTTTGTTGACATTTTCTCTGTTCCTAGGACTTCTTCATGGGTCTTACA
GTTCTATGTTAGACCATGAAACATTTGCATACACATCGTCTTTAATGTCACTTTTATAACTTTTTTACGGTTCAGATATTCATCTATACGTCTGTACAGA
AAAAAAAAAGCTGCTATTTTTTTTGTTCTTGATCTTTGTGGATTTAATCTATGAAAACCTTCAGGTCCACCCTCTCCCCTTTCTGCTCACTCCAAGAAAC
TTCTTATGCTTTGTACTAGAGTGCGTGACTTTCTTCCTCTTTTCCCGGTAATGGATACTTCTATCACATAATTTGCCATGAACTGTTGGATGCCTTTTTA
TAAATACATCCCCCATCCCTGCTCCCACCTGCCCCTTTAGTTGTTTTCTAACCCGTAGGCTCTCTGGGCACGAGGCAGAAAGCAGGCCGGGCACCCATCC
TGAGAGGGCCGCGCTCCTCTCCCCAGCCTGCCCTCACAGCATTGGAGCCTGTTACAGTGCAAGACATGATACAAACTCAGGTCAGAAAAACAAAGGTTAA
ATATTTCACACGTCTTTGTTCAGTGTTTCCACTCACCGTGGTTGAGAAGCCTCACCCTCTCTTTCCCTTGCCTTTGCTTAGGTTGTGACACACATATATA
TATATTTTTTTAATTCTTGGGTACAACAGCAGTGTTAACCGCAGACACTAGGCATTTGGATTACTATTTTTCTTAATGGCTATTTAATCCTTCCATCCCA
CGAAAAACAGCTGCTGAGTCCAAGGGAGCAGCAGAGCGTGGTCCGGCAGGGCCTGTTGTGGCCCTCGCCACCCCCCTCACCGGACCGACTGACCTGTCTT
TGGAACCAGAACATCCCAAGGGAACTCCTTCGCACTGGCGTTGAGTGGGACCCCGGGATCCAGGCTGGCCCAGGGCGGCACCCTCAGGGCTGTGCCCGCT
GGAGTGCTAGGTGGAGGCAGCACAGACGCCACGGTGGCCCAAGAGCCCCTTTGCTTCTTGCTGGGGGACCAGGGCTGTGGTGCTGGCCCACTTTCCCTCG
GCCAGGAATCCAGGTCCTTGGGGCCCAGGGGTCTTGTCTTGTTTCATTTTTAGCACTTCTCACCAGAGAGATGACAGCACAAGAGTTGCTTCTGGGATAG
AAATGTTTAGGAGTAAGAACAAAGCTGGGATACGGTGATTGCTAGTTGTGACTGAAGATTCAACACAGAAAAGAAAGTTTATACGGCTTTTTTGCTGGTC
AGCAGTTTGTCCCACTGCTTTCTCTAGTCTCTATCCCATAGCGTGTTCCCTTTAAAAAAAAAAAAAGGTATTATATGTAGGAGTTTTCTTTTAATTTATT
TTGTGATAAATTACCAGTTTCAATCACTGTAGAAAAGCCCCATTATGAATTTAAATTTCAAGGAAAGGGTGTGTGTGTGTATGTGTGGGGTGTGTGTGTG
TGAGAGTGATGGGACAGTTCTTGATTTTTTGGGTTTTTTTTCCCCCAAACATTTATCTACCTCACTCTTATTTTTTATATGTGTATATAGACAAAAGAAT
ACATCTCACCTTTYTCAGCACCTGACAATAGGCCGTTGATACTGGTAACCTCATCCACGCCACAGGCGCCACACCCAGGTGATGCAGGGGGAAGCCAGGC
TGTATTCCGGGGTCAAAGCAACACTAACTCACCTCTCTGCTCATTTCAGACAGCTTGCCTTTTTCTGAGATGTCCTGTTTTGTGTTGCTTTTTTTGTTTT
GTTTTCTATCTTGGTTTCCACCAAGGTGTTAGATTTCTCCTCCTCCTAGCCAGGTGGCCCTGTGAGGCCAACGAGGGCACCAGAGCACACCTGGGGGAGC
CACCAGGCTGTCCCTGGCTGGTTGTCTTTGGAACAAACTGCTTCTGTGCAGATGGAATGACCAACACATTTCGTCCTTAAGAGAGCAGTGGTTCCTCAGG
TTCTGAGGAGAGGAAGGTGTCCAGGCAGCACCATCTCTGTGCGAATCCCCAGGGTAAAGGCGTGGGTCATTGGGTTTGCTCCCCTTGCTGCTGCTCCATC
CCTGCAGGAGGCTCGCGCTGAGGCAGGACCGTGCGGCCATGGCTGCTGCATTCATTGAGCACAAAGGTGCAGCTGCAGCAGCAGCTGGAGAGCAAGAGTC
ACCCAGCCTGTGCGCCAGAATGCAGAGGCTCCTGACCTCACAGCCAGTCCCTGATAGAACACACGCAGGAGCAGAGTCCCCTCCCCCTCCAGGCTGCCCT
CTCAACTTCTCCCTCACCTCCTTCCCTAGGGGTAGACAGAGATGTACCAAACCTTCCGGCTGGAAAGCCCAGTGGCCGGCGCCGAGGCTCGTGGCRTCAC
GCCCCCCCCGCCAGGGCTGTACCTCCGTCTCCCTGGTCCTGCTGCTCACAGGACAGACGGCTCGCTCCCCTCTTCCAGCAGCTGCTCTTACAGGCACTGA
TGATTTCGCTGGGAAGTGTGGCGGGCAGCTTTGCCTAAGCGTGGATGGCTCCTCGGCAATTCCAGCCTAAGTGAAGGCGCTCAGGAGCCTCCTGCTGGAA
CGCGACCCATCTCTCCCAGGACCCCGGGGATCTTAAGGTCATTGAGAAATACTGTTGGATCAGGGTTTTGTTCTTCCACACTGTAGGTGACCCCTTGGAA
TAAYGGCCTCTCCTCTCGTGCACATACCTACCGGTTTCCACAACTGGATTTCTACAGATCATTCAGCTGGTTATAAGGGTTTTGTTTAAACTGTCCGAGT
TACTGATGTCATTTTGTTTTTGTTTTATGTAGGTAGCTTTTAAGTAGAAAACACTAACAGTGTAGTGCCCATCATAGCAAATGCTTCAGAAACACCTCAA
TAAAAGAGAAAACTTGGCTTGTGTGATGGTGCAGTCAYTTTACTGGACCAACCCACCCACCTTGACTATACCAAGGCATCATCTATCCACAGTTCTAGCC
TAACTTCATGCTGATTTCTCTGCCTCTTGATTTTTCTCTGTGTGTTCCAAATAATCTTAAGCTGAGTTGTGGCATTTTCCATGCAACCTCCTTCTGCCAG
CAGCTCACAYTGCTTGAAGTCATATGAACCACTGAGGCACATCATGGAATTGATGTGAGCATTAAGACGTTCTCCCACACAGCCCTTCCCTGAGGCAGCA
GGAGCTGGTGTGTACTGGAGACACTGTTGAACTTGATCAAGACCCAGACCACCCCAGGTCTCCTTCGTGGGATGTCATGACGTTTGACATACCTTTGGAA
CGAGCCTCCTCCTTGGAAGATGGAAGACCGTGTTCGTGGCCGACCTGGCCTCTCCTGGCCTGTTTCTTAAGATGCGGAGTCACATTTCAATGGTACGAAA
AGTGGCTTCGTAAAATAGAAGAGCAGTCACTGTGGAACTACCAAATGGCGAGATGCTCGGTGCACATTGGGGTGCTTTGGGATAAAAGATTTATGAGCCA
ACTATTCTCTGGCACCAGATTCTAGGCCAGTTTGTTCCACTGAAGCTTTTCCCACAGCAGTCCACCTCTGCAGGCTGGCAGCCGAATGGCTTGCCAGTGG
CTCTGTGGCAAGATCACACTGAGATCGATGGGTGAGAAGGCTAGGATGCTTGTCTAGTGTTCTTAGCTGTCACGTTGGCTCCTTCCAGGGTGGCCAGACG
GTGTTGGCCACTCCCTTCTAAAACACAGGCGCCCTCCTGGTGACAGTGACCYGCCGTGGTATGCCTTGGCCCATTCCAGCAGTCCCAGTTATGCATTTCA
AGTTTGGGGTTTGTTCTTTTCGTTAATGTTCCTCTGTGTTGTCAGCTGTCTTCATTTCCTGGGCTAAGCAGCATTGGGAGATGTGGACCAGAGATCCACT
CCTTAAGAACCAGTGGCGAAAGACACTTTCTTTCTTCACTCTGAAGTAGCTGGTGGTACAAATGAGAACTTCAAGAGAGGATGTTATTTAGACTGAACCT
CTGTTGCCAGAGATGCTGAAGATACAGACCTTGGACAGGTCAGAGGGTTTCATTTTTGGCCTTCATCTTAGATGACTGGTTGCGTCATTTGGAGAAGTGA
GTGCTCCTTGATGGTGGAATGACCGGGTGGTGGGTACAGAACCATTGTCACAGGGATCCTGGCACAGAGAAGAGTTACGAGCAGCAGGGTGCAGGGCTTG
GAAGGAATGTGGGCAAGGTTTTGAACTTGATTGTTCTTGAAGCTATYAGACCACATCGAGGCTCAGCAGTCATCCGTGGGCATTTGGTTTCAACAAAGAA
ACCTAACATCCTACTCTGGAAACTGATCTCGGAGTTAAGGCGAATTGTTCAAGAACACAAACTACATCGCACTCGTCAGTTGTCAGTTCTGGGGCATGAC
TTTAGCGTTTTGTTTCTGCGAGAACATAACGATCACTCATTTTTATGTCCCACGTGTGTGTGTCCGCATCTTTCTGGTCAACATTGTTTTAACTAGTCAC
TCATTAGCGTTTTCAATAGGGCTCTTAAGTCCAGTAGATTACGGGTAGTCAGTTGACGAAGATCTGGTTTACAAGAACTAATTAAATGTTTCATTGCATT
TTTGTAAGAACAGAATAATTTTATAAAATGTTTGTAGTTTATAATTGCCGAAAATAATTTAAAGACACTTTTTTTTTCTCTGTGTGTGCAAATGTGTGTT
TGTGATCCATTTTTTTTTTTTTTTTTTAGGACACCTGTTTACTAGCTAGCTTTACAATATGCCAAAAAAGGATTTCTCCCTGACCCCATCCGTGGTTCAC
CCKCTTTTCCCCCCATGCTTTTTGCCCTAGTTTATAACAAAGGAATGATGATGATTTAAAAAGTAGTTCTGTATCTTCAGTATCTTGGTCTTCCAGAACC
CTCTGGTTGGGAAGGGGATCATTTTTTACTGGTCATTTCCCTTTGGAGTGTAGCTACTTTAACAGATGGAAAGAACCTCATTGGCCATGGAAACAGCCGA
GGTGTTGGAGCCCAGCAGTGCATGGCACCGTTCGGCATCTGGCTTGATTGGTCTGGCTGCCGTCATTGTCAGCACAGTGCCATGGACATGGGAAGACTTG
ACTGCACAGCCAATGGTTTTCATGATGATTACAGCATACACAGTGATCACATAAACGATGACAGCTATGGGGCACACAGGCCATTTGCTTACATGCCTCG
TATCATGATTGATTACTGCTTTGTTAGAACACAGAAGAGACCCTATTTTATTTAAGGCAGAACCCCGAAGATACGTATTTCCAATACAGAAAAGAATTTT
TAATAAAAACTATAACATACACAAAAATTGGTTTTAAAGTTGACTCCACTTCCTCTAACTCCAGTGGATTGTTGGCCATGTCTCCCCAACTCCACAATAT
CTCTATCATGGGAAACACCTGGGGTTTTTGCGCTACATAGGAGAAAGATCTGGAAACTATTTGGGTTTTGTTTTCAACTTTTCATTTGGATGTTTGGCGT
TGCACACACACATCCACCGGTGGAAGAGACGCCCGGTGAAAACACCTGTCTGCTTTCTAAGCCAGTGAGGTTGAGGTGAGAGGTTTGCCAGAGTTTGTCT
ACCTCTGGGTATCCCTTTGTCTGGGATAAAAAAAATCAAACCAGAAGGCGGGATGGAATGGATGCACCGCAAATAATGCATTTTCTGAGTTTTCTTGTTA
AAAAAAAATTTTTTTAAGTAAGAAAAAAAAAGGTAATAACATGGCCAATTTGTTACATAAAATGACTTTCTGTGTATAAATTATTCCTAAAAAATCCTGT
TTATATAAAAAATCAGTAGATGAAAAAAATTTCAAAATGTTTTTGTATATTCTGTTGTAAGAATTTATTCCTGTTATTGCGATATACTCTGGATTCTTTA
CATAATGGAAAAAAGAAACTGTCTATTTTGAATGGCTGAAGCTAAGGCAACGTTAGTTTCTCTTACTCTGCTTTTTTCTAGTAAAGTACTACATGGTTTA
AGTTAAATAAAATAATTCT


SNP Information

Context             (SEQ ID NO:2103):
TTGCCAGAATCTCAGAAAGAATCTCTGGACTCTGGCTCAGGACCTCTGAGGTGATTATGCATCTAGAGGCATCCCCAGGTGCTGCCCAATTTGGGGAAGC
R
GCACTTCCCGCTGGAAGCTGGGAAGTTTCCCCTGGCTGGGGGTCCTGTGAGGATGGAGAGGCCAGAATGAGGAATGGGTTGTGAGTCAAGACCAACCAGA
Celera SNP ID:            hCV25744540
SNP Position Genomic:     208107
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,5)   caucasian(A,10|G,20)   total(A,33|G,25)
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:2104):
ATTTTCCCATCAAATGTTCTTCCAGGAAAAGAGAACCTTTTCTAATGATTTTAACAACAGCCAAAATAATTTTTCGATGGTACAGACCTTCCCCTGGCTG
K
CTTTTCTGGTATACAGATACTGCTGCTGGTGCATACTTTTCCAAACGCGATGCGCTAGCCTTCCCAATCAAATAAGCCTTTTTATTTCCAATGAAGTAAA
Celera SNP ID:            hCV15970181
SNP Position Genomic:     286374
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,7|G,1478)   total(G,1478|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2105):
TTGGCCTTGGATCTGTCTTCATTAATATTTCTTTCTTTCTTTTTTTTTTTAATCAAAGTTTTTAGCAGTTCAGTGAATATGTCAAAACTTGTGGGACTGT
R
TGGGGTGCCCCAAGGAAACACAGGCTTTAGAGATGAATGTGGCCAGCGCAGTAATCAATTTATTTAATTGCTTGAGATGTTATGCTAGAATGAAAACAGC
Celera SNP ID:            hCV15970182
SNP Position Genomic:     287013
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2106):
GCAAACAAAGTTGAATCATGAAGTGATGTCACTCTGAACCAATTGGAGCAGTGGTGTCATGTGCCTGGCAGCTACTTCAAATGCCCACAAAACAGGAGTA
M
TGGTTTAAGCTGTTTCCCTCTTCCCCTCCCACCACCAATCAGCAGCAGACTGCTAGAGGACAGATGCAAAACAGTTATTAGACCAGGCTTAGTTAGACAT
Celera SNP ID:            hCV25744470
SNP Position Genomic:     179850
SNP Source:               Applera
Population(Allele,Count): african american(A,12|C,2)   caucasian(A,18|C,10)   total(A,30|C,12)   
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,32|C,2)   caucasian(A,22|C,8)   total(A,54|C,10)
SNP Type:                 INTRON;TFBS;hmCS

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


Context             (SEQ ID NO:2107):
GTGGGCACAGGGTTTCTTTTTGGGGTGATGAAAATTGTTCTAAAATTAGTTTGTGGCGATGGCTGCATAGCTCTAAATATACTTAAAACCATTGGATTAT
R
TACTTTAAATCGGGGACTTTAATGGTATGTGAATTATATCTCAATAAACCCTTTTTTTTTTTTTTTAAAGAAATGTGATCAGGTTGAAAATAACTTGTTA
Celera SNP ID:            hCV4646
SNP Position Genomic:     9350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2108):
TGTCTTGGGGTGCTGAGCCTGTTCCCCCCTCATTTGGGGGTGTGGTGCTATGCTGGCGTTTGGGTCCATGCCCCGCATTTCTGATGGCTGCCCCATCTGC
Y
CTGTGTGGGGTGGCAGAGTTCTGTGTACACAGAGTTACATTTCGTTGTTCCTGGCTTCTCTATGGATGACAGCAGCACTGATAAATGCCACACCTGCTTT
Celera SNP ID:            hCV25988551
SNP Position Genomic:     153518
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,1)   caucasian(C,34)   total(C,57|T,1)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:2109):
GCTGTTCCTCTCTCTTTCTGTTTGAAAGTGACTTGGCAGGGTGAAGTTGAGAACCCCTTGGAAAGGAGGAAGCCGAAATGCAAACAAAGTTGAATCATGA
R
GTGATGTCACTCTGAACCAATTGGAGCAGTGGTGTCATGTGCCTGGCAGCTACTTCAAATGCCCACAAAACAGGAGTAATGGTTTAAGCTGTTTCCCTCT
Celera SNP ID:            hCV15824630
SNP Position Genomic:     179771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2110):
TAGAAACACGCCTCCTTTGGGCATATGGTGTGAATCAGGGACTCTGGCTATAAAAGGTGGGGTCTCTGAGCACCATCCTGGTTGGAATGTTCCCCTGACT
Y
GGAGGTAGCGAGAGACAGCCAAGGTGTTTGTTCCAGGGAGGCTGGTGGGTGGGAGATGGGATTTTTCTGTCTGTGGCACAGGCAGTATTAAGTAGAGCAG
Celera SNP ID:            hCV25927581
SNP Position Genomic:     72262
SNP Source:               Applera
Population(Allele,Count): african american(T,22)   caucasian(C,1|T,39)   total(C,1|T,61)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2111):
AATCTTGATTAGACCTGCCAGAGCTGTGCTTATTTTGTGTCCCCATCCAAATCCAGAATTAATTGCCGTGCTCCACATGTTTTGGTCAATGGTGGACCTC
R
TCTGTAACAGTAGTCCCATGAGATTATAATGGGGCTGAAAACAGTGCTGTCCCCTAGGGATATCGTGTCTGTTGTAGTGCAAGGCACTGCTCACGTGTTT
Celera SNP ID:            hCV27935362
SNP Position Genomic:     35900
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2112):
GACGCCCGCTCCGCCGGCTGTGGTGTGCGCCCTTCCTGCTCTCCCCTCCGAGGGGCTGAGGCTCCTTTTGTCTGGCGCGCGCGCCCCACCCCGCCCCGGG
Y
GAGGGAAGAGGGAGCGGGCACCCCGCGCCCGCGCCGCCGCCGTGGACCAAGGTTGTTTACTACTTTCCACTCCGAATAACACGCCAATCACCAGGGCCCA
Celera SNP ID:            hCV16277713
SNP Position Genomic:     208796
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2113):
CTCAAATGATCCACGTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCACCATGCCCTGTCCGATTATTTTTCAGGGAAGAGCCAGTGTGCT
Y
CAGCCCTATGAGCTCTACCCTTCTGCTCCCACAGAAGGGAAGCACAGGCCTGTGGGGTGGAGGGGGCTCTGCCCTAAGCGCAGCCCCTGTGGGCCACGGG
Celera SNP ID:            hCV16277714
SNP Position Genomic:     266085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2114):
TTGGATCCCCTCTGCTAAGCCCCTCTGTGCCTTTGTTCCTGCATTCCCTCCACCCCCAGTCCCCTCCCCACATCAGTGTCCACCTGCCAAGCCAGGCCAG
Y
GCCACTCCCTCCCCGAAGCTTTCCTGCCCCACTCCAGTAGCTATCTCCTCTGCTAACTTCTCGATGCGCTTGACTCACATCCTCGTATGTGTTCTCTCTC
Celera SNP ID:            hCV15970193
SNP Position Genomic:     292224
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,405|C,1058)   total(C,1058|T,405) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2115):
AGCAGGCCGAGAAGGAGGAGGCTGAATACCGCAAAGTCTTTGAGAATTTCCTGCACAACTCCATCTTCGTGCCCAGGTACCCAGCTCATGTGAAATTTCA
K
TTGGCAAAACCCACTGCTCAGGCCGGTTCTGTTGCCTTTCTCCCCACCAGGTAGTGTGTAAGTCAGCAGCTGGGGGGTACAATACAGTAGCCACTGAGAC
Celera SNP ID:            hCV25638702
SNP Position Genomic:     273396
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,34)   total(G,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:2116):
TCTTTGTCTTTACTGACACTCAGGATCATTGTTAGGTGGGAGGTCAGATCAGGCAGCTGGAGTCCCCAGTGTGGTGAGTTTAGTTGGCAGGCCCCAGATT
Y
CTCCTGCATTCATGGGAAATTGACATGTATGTTTTATTTCCCCAGGATCAGCGAGAATGTGTGTCCAGACAGGAATACAGGAAGTATGGAGGGGCCAAGC
Celera SNP ID:            hCV25638703
SNP Position Genomic:     280974
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:2117):
ATCCATCTGATCATCGCTCTGCCCGTCGCTGTCCTGTTGATCGTGGGAGGGTTGGTGATTATGCTGTACGTCTTCCATAGAAAGAGGTCAGTGATGTGCA
R
AGTTATGACACTTTCTGTGGCTGAGTGGTTTGATGATTTGAATGTGAGTGAAGGTGATATTTTTGAAGATTTCAAGGAAATATTTTATGGACTGGAAAAC
Celera SNP ID:            hCV25638704
SNP Position Genomic:     286170
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:2118):
TTCCCAAACTGAAACTCCATGTCCATCAAACAACTCCCCATTGCCTTTTTCCCCAAGTCTTTGGCAACCGCCATTCCACTTTCTGTCTGTAAATTTGACT
R
TCTGGATACCTCATGTAAGTGGACTCGTACACTATTTGTCCTTTTGTGACTGGCCCATTTTATGAGCATAATGTCCTCAAGGTTCATTCAGGCTGTAGCA
Celera SNP ID:            hCV265622
SNP Position Genomic:     42549
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2119):
TAATATATGTATGTGTGATAACACATTTATATAATGTCCATTACCATGTGGTATATATGCTTATCCATTTGTCTGTCGATGGACACTTGAGTTGCTCCCC
Y
GCTTTGGCTACTGTGAATAATATGACTGTGATCATGGATATGCAAATATTTCCTTAAGTCTTTCAGTTCTTTTGGGTATATACCCAGAAGTGGAATTGCT
Celera SNP ID:            hCV265623
SNP Position Genomic:     42794
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2120):
TTGTCCTTTTCTCATTGTCCAAAAGAGTCTTAAGCGATCTCCAGGAAATCCCCTGCTCCTGCCAGGAATCTGCCTGTGAGTATTTGAGTGAGTTGCTGCT
Y
TTTAAGTACCAGTTGAGAAGCTGAAGGTTGGTGTTGTGGTTGTGATAAACTCCCAACATGAAAACTGAGGACCACCAGCGTTTTCAGCTCACCTTTGACT
Celera SNP ID:            hCV1119260
SNP Position Genomic:     110888
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:2121):
TGCTTATTTAGTCTTTGGCTTTCCCTTGTTGTTAGACACTGCCTGTCACTCGGGCATTCATCCATCTTTGAAGGTGGGTGCCTTCAAAGACAGAACAAGA
R
CTGCCCTGTCCTTTAGTAGGCCTCAGGTGGTAGAAAGAGCACGGAGGTGACCAGAGTCTGGGGTGTGGGGTCCTCCTGGGTGCAGTTCTGGCACTGAAGT
Celera SNP ID:            hCV239822
SNP Position Genomic:     279464
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:2122):
AAAAGAAGGGCCAGAGCGGTGTCCTGCAGAGGGTGGTGTACCTTGGGAGGGAAGTGTGTAGGGTTGTTGAGGAACAGTGTGCTGCACAGGGAGGAAAGAC
R
TGGGGCAGCATTGTGGGAAGAGCAACCAAGATTCTCATAGGCTTGGGAGCGGAAGCCCTGAGGTCTGTTGCTGGACTAGATATGTGAGGTGTGAGAGGAG
Celera SNP ID:            hCV1119263
SNP Position Genomic:     61259
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;TFBS


Context             (SEQ ID NO:2123):
CCAGAGTAAACATTGCCCCTCAAGATCAACTCCTGGAGTAGCCTCTGGTCTTGCTTATTTAGTCTTTGGCTTTCCCTTGTTGTTAGACACTGCCTGTCAC
Y
CGGGCATTCATCCATCTTTGAAGGTGGGTGCCTTCAAAGACAGAACAAGAGCTGCCCTGTCCTTTAGTAGGCCTCAGGTGGTAGAAAGAGCACGGAGGTG
Celera SNP ID:            hCV239823
SNP Position Genomic:     279413
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2124):
ATCGGGTTGCCCCCTCCTGAGCTCTCACATGTCCAGAGATGTCTCCAGTTAGTTGCCTTGATCCAGAGTAAACATTGCCCCTCAAGATCAACTCCTGGAG
Y
AGCCTCTGGTCTTGCTTATTTAGTCTTTGGCTTTCCCTTGTTGTTAGACACTGCCTGTCACTCGGGCATTCATCCATCTTTGAAGGTGGGTGCCTTCAAA
Celera SNP ID:            hCV239824
SNP Position Genomic:     279351
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:2125):
AACGTGCAGTCATTGGCAGGTGGCGTGTAGACCAGCTGCCCAGGGAACAGAGCCCACGCTCTCCTAGTGACACCACTCCCAGCTTGGTCTCTCCATAGAA
Y
GTGCTGGGAGCAGGGAGCTGTCTGCAGGGTCCACCCTCCACCTGCTACTTGGTGCACATCGTGCATTCCTGCTGTCCTTTGCCCCCTCTTGCGCACAAAT
Celera SNP ID:            hCV239825
SNP Position Genomic:     279152
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2126):
TGGTATAGATGAGGGAGGCAGTGAGGACAGGCTCAGGGAGGGAAGTCTTGTCTCTAGACCTGAGACCAGGAAGCAGGAATGGACTGGACAGGTTGGCCCA
S
CTGAGGGAGGTGACTGGTGAGATGGGTCCTCGGTGTGAGGGGCTGGGTTGCCAGAGGAGCTGTGGGCTGGGGTGGTTTGTCGAGAGAGCAGTCCCAGTTG
Celera SNP ID:            hCV1119265
SNP Position Genomic:     19612
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:2127):
GTTCTTTCAGCATCGAACTCCTCTTCTCAGTTAATCGTGAAGTGGAACCCTCCCTCTCTGCCCAACGGCAACCTGAGTTACTACATTGTGCGCTGGCAGC
R
GCAGCCTCAGGACGGCTACCTTTACCGGCACAATTACTGCTCCAAAGGTAAGGGTGCAGCAGCGGCCTGGACGGAGGGTGTGACCGTTCATTCCTGTGGT
Celera SNP ID:            hCV25767425
SNP Position Genomic:     272579
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:2128):
CAAGTGAGATCTTCTTGTCAGTGCTTAATCCAGCCTCCCGTTGTTTGTCAGCCCTAGCTGGAGGCCTCACAGGAGTTCCTGTGTCCTTCCAGTTTGATAC
S
AAGTTTAGACCAAGAAAAGTTCCTTTCTGTGGCACACCTGTAGTCTCTTACCTGTCTTTGGTGGTTGTACACGAACAGGCAGATATCCACAACTGCAGAA
Celera SNP ID:            hCV16277721
SNP Position Genomic:     267297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2129):
GACTTTGTTTGAAGAGTCACCCAGGTTTTTGTAAAGAAGTGTTTCAGATCAGTATGCAATGGATGACTGTAAATTTCTCTTCAGATCTAAGAATCTGTGA
Y
TGGATGAAAGGGAGAAAGGACTGCATAAGTGCTTGTTGCTTGTAAACTGGGCCAGGTGGATGTCATGGCCCTAGGAGCTTCTTGCCTGCCTTTGCATGCC
Celera SNP ID:            hCV27978709
SNP Position Genomic:     238984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2130):
GCCTGGCACAGGGCAGGGCCTCTCCAGATGGCAGTTCCTGTCTGTGTCTTATTCCCACCCTCCGGGCACATGGGGGGAACTCAGTTTCTCCCCACTGCGC
R
TCACCCTGGGAGAGGTGTTTTTTGTGCCAATTGCCATTTTAAATCCAAATCAGCAGGGATCATGTTTGCTGTTCAACCATGTGGCATATTTATAGTGATT
Celera SNP ID:            hCV16277723
SNP Position Genomic:     297833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2131):
CTCAGTGAAGGTGGGGAGAAGCTGAACCGGCTTCCCTGCCCTGCCTCCCCAGCCCCCTGCCCAACCCCCAAGAATCTGGTGGCCATGGGCCCCGAAGCAG
Y
CTGGCGGACAGGCTTGGAGTCAAGGGGCCCCATGCCTGCTTCTCTCCCAGCCCCAGCTCCCCCGCCCGCCCCCAAGGACACAGATGGGAAGGGGTTTCCA
Celera SNP ID:            hCV533536
SNP Position Genomic:     314851
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   (C,-|T,-)   Caucasian(T,14|C,64)   total(C,64|T,14)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:2132):
GTGTAGACAAGAGCTGCTGTAGACAGTAAGCTCTCCCCATTCTGTTCTGATACCGTGTGAGAGAGGATAAATGAAACTGTTGTAGCGAAGATGAAAGTAT
W
TACAGGAATGTATGGAGGTGGGGTTTTGTTAACGTGAATTTAATCTTTTTGACAGAAATAACAGCAGGCTGGGGAATGGAGTGCTGTATGCCTCTGTGAA
Celera SNP ID:            hCV25638712
SNP Position Genomic:     286674
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,40)   total(A,77|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:2133):
GAGGCCGCAAGCATGCGTGAGAGGATTGAGTTTCTCAACGAAGCTTCTGTGATGAAGGAGTTCAATTGTCACCATGTGGTAAGAGAAAGTTCCTGAAAAG
Y
CAAAATGCAGCACAGGGAGAGGGTATCACACAAGCCTCCCAGTATGTTCTTGGCTGCATGTACCCGTGGGTTTGGTGTCTTGCCTTTGCCTTCTGGATAG
Celera SNP ID:            hCV25638713
SNP Position Genomic:     291562
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:2134):
CACTTTCCACCAGCTCAGTCTCTAGGGCTTTATCTTTCTCTGTTCATTGTTACCCGTTGCCAGCTTTAGCTCAGTGTTGTGTGAGCCACACTTCTTCATC
R
TTGAGGTGTTCCTGTTGTCAGTGGGCTAGCTAAGGGCAGAAGGGCATTCGTGGGATTTTAAAGAATTTATGGGACCAACATTCTTTCCGCCTTCAGCAGA
Celera SNP ID:            hCV25638714
SNP Position Genomic:     299687
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,3)   caucasian(A,37|G,3)   total(A,72|G,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:2135):
ATCAATTTGTACAAAAATCTTTGATTCACCGAAAGTAGCTGAAGCAGCGAATAAAACGTTCTCATACAGTCAGGAGCACTGTGGGCTTGGGCACAAGGTC
W
AGGTCCCAAGAGCTCTTGGTTGGAAATCTCCTGCCCCAGGTTTTTCCATGTGGCTTGACCAGCACCTGCAGCCCAGGACAGGTCCAGCTAGAATCCCTGC
Celera SNP ID:            hCV211950
SNP Position Genomic:     303854
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:2136):
GGTCTGTCCTCTGATTGCTAAGATTCTATTTCTGTCTAACATCTACTTTTAGTATCAATTTGTACAAAAATCTTTGATTCACCGAAAGTAGCTGAAGCAG
Y
GAATAAAACGTTCTCATACAGTCAGGAGCACTGTGGGCTTGGGCACAAGGTCAAGGTCCCAAGAGCTCTTGGTTGGAAATCTCCTGCCCCAGGTTTTTCC
Celera SNP ID:            hCV211951
SNP Position Genomic:     303801
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2137):
AGTTTGTGGGTAGCCCAGTAACTGGGAACTTGGAATGGAGCAGTTGGGCCGGGAGGGCCAGGGTGGGAGCCGTGCCGTGAGAACTGGCTGCCTGCAAGCC
R
CTGACACAGCCAGGAAGGGCACGTGGGGCAAGAGGAGAAGTGGGTCTGGGAGGGAGCCACATCCTCAGGCCATTTCCCAGACCAGCCTGCAGTCAGCAAA
Celera SNP ID:            hCV211952
SNP Position Genomic:     303297
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:2138):
GCATGGGTGACAGCAGGCAGACTGCTCGGGTGGAATGGGCATCAGCTGCAGGGAAGCCGGGGGAAGAACAGGGCACAAATCAGAGTTCAGTGTGAGACGC
R
GTGAGTTTGTGGGTAGCCCAGTAACTGGGAACTTGGAATGGAGCAGTTGGGCCGGGAGGGCCAGGGTGGGAGCCGTGCCGTGAGAACTGGCTGCCTGCAA
Celera SNP ID:            hCV211953
SNP Position Genomic:     303193
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:2139):
CTGCTACCTCCTGTATCGTTGCCTGTGGGTGATGGTAAGGCTCTTGGGGGTGTGGAAGATGCGGGGATGATGATGATGACGATGATGACGATGACGACGA
Y
GACAGCGTCGTCGTCGTCCTGGTCCTGGAAGGATAAAGTCTTGTGGAGAAGAGGAGGCAATTCTGACAGTTTGGGGTTGCATCATCTTCTTCACAGAAGA
Celera SNP ID:            hCV211954
SNP Position Genomic:     302523
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2140):
GCTTCTGCTAAGAGGTTTCCTTCCAGGGACTCCATGTTCACTGCCTCACAAAGGCAGGCCAGCCTCATGCTTTAGACATCCTTGCTCTTAACAAATCTTT
Y
GTGTTCTGCTACGTCAGCCTCTGTGTGACACCCATTGGACCTTCTCTCTGTAGCACAATTGCATACCTTGCTCTGTTCTTGATAAGATAGGTCTAGGAGT
Celera SNP ID:            hCV211955
SNP Position Genomic:     301349
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2141):
CTCTCAAAAGAATGGAAATGATTTCAGATTGTATTCAGCAGCACGAAGCAATGATTCCTAAATAGTTAAAAATCTAGAAAGAAACACTAAGAATTGTATT
K
GGCTTTGTAGAAGAGACCCCAGAATTTTAGGATTTGGGATGTATCCCTGCAGTCAGGCCCAGTCCCCAGTGCACCTGCAGATCTTTGACAGCTGCTGGTT
Celera SNP ID:            hCV211956
SNP Position Genomic:     301146
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2)   total(G,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2142):
GTCTTGGCTTTCCTCTGGGGGGATCCCGTTGCTGTTGTGTTACAGAAATGGTAGTTGTTTACTCCAACAGTCTGGATGACCGCATAGAGGAACTATTTCA
R
TAGTGACTGACATCATTTTTTTTTTAACCTCGTAAACCTTTCACAGTTCAGGGGCCTTGGATCTTATTTTGAAGACAGGTGCAAATTGGAAATAGCATTT
Celera SNP ID:            hCV211957
SNP Position Genomic:     300353
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,8|A,9)      total(G,8|A,9) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2143):
ACTGTTGGGGAAGCTGCGGTCACTCATCAGCCTTCCTGGTGAGAAACCAGGGGTTTCCTGCTAATTCTGGAAAGGATGTTTCAGCAGTGCCTGCATGAGA
Y
GCCTCAGATAGAAAACTGGTTATTTTTGTTTCTTAGCACTGCCACCATAGATAACAGCTGTCACGATGGACAGTGTGGACCTGGATTAGTCCTTCTTGGG
Celera SNP ID:            hCV27475555
SNP Position Genomic:     313200
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,70|C,1421)   total(C,1421|T,70)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2144):
CCTGTGAAATCATTGTTCGCGCGACCCTCATCTGCCTCAGGATGCTGTACTCTACTACGCACAACTGCTCCATCTTTTAAGATATTGGAAGTGAGAGCAC
R
GGAGGAGCATGGGCGGTTCGTTTTGTTAGAAAGAAACCCGGATTCACGAGATGGTTTTTATTGATTAGTTTACAGGATTTGCACTATTGATAGAGTTTTT
Celera SNP ID:            hCV27475556
SNP Position Genomic:     256552
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,205|G,1278)   total(G,1278|A,205) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:2145):
ACCCCATTAGCTAACTTCCAGCAAGGCTGTGTTAGGAATGTGGAATCAATTAGATGAATTTTGAAAATAACTTGGTCTGTTCTAAAAGGCCCTATGAGAT
Y
CAAACTGTTGTGGCCTGGTGCCTGGTAACTTTGATGGCCATTTTGAAATGTTACCGTAGTGATAATTCTTCTGGAATCTCAAGTCATTAAAAGTGATATG
Celera SNP ID:            hCV27978711
SNP Position Genomic:     87552
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2146):
CCCACGGTTTTGCTGGTTGACAGTGATTTGTCTTGTTCCTTGCTTGTAATTTTATTAGGACCATGGAGCCAAAGTGGCTGGTTTGAATCTCAGCTCTTCA
S
TAGCTAAGCTCTCAGGCAAATAATTTAATCTTCTTGTGCCTCAGTTTCCTCATCTGTGAAATTATAATTTTAATAGAATCTACTTTAAACATTCATAGAA
Celera SNP ID:            hCV8722930
SNP Position Genomic:     15332
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2147):
TCCTTATAGTTCAAAGGTCTTTTTCTCAACTTAGTTGATGATCATGCTGTAAGTTGTTTTCTTTTGCTTTATCAACTTTTAAAAACGTTTATTAACTTTT
W
AATTTGAAATAATTTCAGACTTGCATAAAGGTTACAAAGAGTACCAGGAGTTCTGGAACACCCTCCACCCAGCTTCCACAGATGTTAACATCTTACATAA
Celera SNP ID:            hCV16277802
SNP Position Genomic:     219287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2148):
TAATACCATAGGTCTCTACTTCAGTAAGAGTTACATAATACGAATGCCGTTTGTTCAGAATTGTGTATCTCCATCCATCCGTCCATCGTCCAAATTCTGC
R
AGTTTGAAATACATTGTTGTTGCTGTTTTGTATACTTTTGTTCAACCATTTTCTTTTTAACATGGCACTAGCTTTCTCAAACTGGCTTTGGAATTATTTG
Celera SNP ID:            hCV52322
SNP Position Genomic:     13295
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:2149):
CCAAATCAGCAGGGATCATGTTTGCTGTTCAACCATGTGGCATATTTATAGTGATTTTTTTTGTAATCATGGTTTTTCTTTCTGGAATTTCAAGTTTTTC
R
TTTGTGCTGAGGAAGGTCGTTTGTGTTTTTTAATAGGATTCCTTCTTTTCCACCTTGTGCAAGTAAAGGCAAATCCCCTATTTGCATGTCACTGTATTAA
Celera SNP ID:            hCV16277730
SNP Position Genomic:     297978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2150):
ACGTAAATGAGACATCACCAATTTAAGTCAGCCAAAGTTTAGTCAATAGAACTTTAAAGAACAGAAGTCTAATGGTAATTAGGGAGAGATGAATTTATTT
R
TAGGAGTTTTCCCCAAATTCAAAGCGTCTTAGTGACCTTTGATAACTTCCTGGAAAAAGTAGGAAGCATGGAGAGAAATTCCAGGTAGGAGCCCATGATC
Celera SNP ID:            hCV52323
SNP Position Genomic:     13706
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2151):
AATCATTTTGACTTTCACAGAGTGATAGTGTCTAGAGAGGGTTTTTGTTGTACTAAGTTATTGGTTCCAAAGAATTCATTTTAAGAGGAGTAAAGAACTA
Y
TATAGTATGCCGCTTACTGAGACAAAACCGACTTCTCACATAAGCCCAAAGGTTTTGTTATGTTGGATTTTACCATTAGAGTTAAAGATGATGATTGGTT
Celera SNP ID:            hCV11941903
SNP Position Genomic:     57565
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2152):
ATGTATCTAGACATTGACAGATGTTAACCTGGGATTAGGGGGTGGGGAGACCAAAATTGTACCCTGTTGAGAACCACTGGACCAGAGTCATAGCAATTTG
Y
AGTGGATAGATTTAGGAATATTTGAAGACTTGTAAAATATAGCCTGAAGGGAATGGAGACTGGGAGAGTGAAAGATACCTCTGAGACATTTTGGCTTGGA
Celera SNP ID:            hCV16277732
SNP Position Genomic:     175349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2153):
TTTTTAATTCGGAAATCTTTGTTTGGCTGTCTGAGAGAGAACTTCAGCCTCCCTTCCTCCCAGACATTTTGAACAGTTCAGGCTGTACTCATTCGTGTCT
Y
TTTGTCTTGGCAGGTGGAAGCCCCTCTGCTTGGAATAGCAAACAATACTACCAGCTTGCCCTCTGGCAAGCTCCTTTAAGAGTTAGCTGTAATTTCACCC
Celera SNP ID:            hCV52324
SNP Position Genomic:     16684
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:2154):
CTGTGCTGTGGCTGGGAGACCTGTTTGGTCTTGGAAGCTGGGTCCTGGATGAGCAGAATGAGGCAGGCATAGAGGTGATGTTGGCTACGGGCAGGGGAGC
R
TTTGCTTTGCCTTGGAGTAGTGCCATTTCCATGTAGAGGGGCAAGATTTACCACCCTGTTGTGGGGATTTGAGACTTTGGGTTTTGTTTTCCTTTACACC
Celera SNP ID:            hCV11941904
SNP Position Genomic:     49722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2155):
CCTTCCTCCCAGACATTTTGAACAGTTCAGGCTGTACTCATTCGTGTCTCTTTGTCTTGGCAGGTGGAAGCCCCTCTGCTTGGAATAGCAAACAATACTA
Y
CAGCTTGCCCTCTGGCAAGCTCCTTTAAGAGTTAGCTGTAATTTCACCCTCTCTCTGGCCTTGATTCTGCATGCAGAATGATTGCACTGACTTGAGCTCC
Celera SNP ID:            hCV52325
SNP Position Genomic:     16735
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:2156):
CGCTGGATGTCTCCTGAGTCCCTCAAGGATGGAGTCTTCACCACTTACTCGGACGTCTGGTATGAGAACCTTTACTGCATTGCCAGCCTGGAGCCCCCAG
Y
CTCTGCACTTTCCACCAGCTCAGTCTCTAGGGCTTTATCTTTCTCTGTTCATTGTTACCCGTTGCCAGCTTTAGCTCAGTGTTGTGTGAGCCACACTTCT
Celera SNP ID:            hCV25638721
SNP Position Genomic:     299581
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:2157):
CGGGAAACCACTGCAGGCGGCCCATGAAGCCTCCTGGCCATGTGCGCCCTCCCGGTTTGGACCCCCTCCCGTGTGTCTTGGCTGCAGGTTTGAACTGATG
Y
GCATGTGCTGGCAGTATAACCCCAAGATGAGGCCTTCCTTCCTGGAGATCATCAGCAGCATCAAAGAGGAGATGGAGCCTGGCTTCCGGGAGGTCTCCTT
Celera SNP ID:            hCV25638722
SNP Position Genomic:     313573
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

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:2158):
AACGAGCGGGCCTTGCCGCTGCCCCAGTCTTCGACCTGCTGATCCTTGGATCCTGAATCTGTGCAAACAGTAACGTGTGCGCACGCGCAGCGGGGTGGGG
K
GGGAGAGAGAGTTTTAACAATCCATTCACAAGCCTCCTGTACCTCAGTGGATCTTCAGAACTGCCCTTGCTGCCCGCGGGAGACAGCTTCTCTGCAGTAA
Celera SNP ID:            hCV25638723
SNP Position Genomic:     314000
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,1)   caucasian(G,30)   total(G,65|T,1)
SNP Type:                 UTR 3;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,1)   caucasian(G,40)   total(G,73|T,1)   
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:2159):
CCCTGCCACTGCCCGACAGACACTCAGGACACAAGGCCGAGAACGGCCCCGGCCCTGGGGTGCTGGTCCTCCGCGCCAGCTTCGACGAGAGACAGCCTTA
Y
GCCCACATGAACGGGGGCCGCAAGAACGAGCGGGCCTTGCCGCTGCCCCAGTCTTCGACCTGCTGATCCTTGGATCCTGAATCTGTGCAAACAGTAACGT
Celera SNP ID:            hCV25638724
SNP Position Genomic:     313875
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:2160):
TGTTCCCCTCTCCAGTTCCTTCCATTCCCTTGGACGTTCTTTCAGCATCGAACTCCTCTTCTCAGTTAATCGTGAAGTGGAACCCTCCCTCTCTGCCCAA
Y
GGCAACCTGAGTTACTACATTGTGCGCTGGCAGCGGCAGCCTCAGGACGGCTACCTTTACCGGCACAATTACTGCTCCAAAGGTAAGGGTGCAGCAGCGG
Celera SNP ID:            hCV25767447
SNP Position Genomic:     272544
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


Context             (SEQ ID NO:2161):
TTATATCTCAATAAACCCTTTTTTTTTTTTTTTAAAGAAATGTGATCAGGTTGAAAATAACTTGTTATGCTACCTTAAATTACGTTAAAATTATTACATA
Y
ATTTGACAGGCTGATGTCTCTCTCTCTTTTCATTTATGAGTTTTTCAGATCCGTGAGTTGCAGCAATACAACAAACTGATAATTGAAGCTTAGCAACAGG
Celera SNP ID:            hCV8722940
SNP Position Genomic:     9484
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2162):
GGTTTTGTAGGATTTGGAGACAGAGACAAATTTGGAGTGTTTGGATGTTCGGGGACCTGCAGGAGGTATGTGAGGTGTGTAAAATGCAGCCCCTGTTTTA
W
AAAGAGCTTACATTGTCTCTTGAGAAGATAAGGTGTGCCCAGCTGTGGAATGGAACCAGATGCTTTTATGAGTGAGGATGGAGTGAGCACACTGGGAAAG
Celera SNP ID:            hCV8722941
SNP Position Genomic:     26599
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;TFBS


Context             (SEQ ID NO:2163):
GCCAGGCGCAGTGGCTCGTGTCTCCAATGTCAGCACTTTGGGAGGCCAGGGCGGGCAGATCGCTTGAGGTCGGGAGTTCGAGACTAGCCTGGCCAACGTG
R
CGAAACCCCGTCTCTGCTAAAAATACAAAAATTAGATGGTTGTGGTGGTGCATGCCTGTAATCCCAGCTACTCAGAGAAGTGTTTGAACCCGGGAGTTGG
Celera SNP ID:            hCV16277811
SNP Position Genomic:     224495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2164):
CTTATGGTTTCCACTGGCTCGGCTCCGTGCGTGTGCGGATTGGGCTTCCTGAGAGCCTGGTTAGCCCCTTTTATCTGCTCTCTGAAACCTGCGCAAGGGT
K
TTTAGCATGCACCTTGAAACCTCTGCTGCCTGAAGACAGTGTGCTTAAATGAAGGGTATACAAACCCATGTGAGGTTTTCTCTTCCCTTTTCCATGAACT
Celera SNP ID:            hCV8722945
SNP Position Genomic:     25721
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2165):
CACACCTGTAGTCCCAGATACTTGGGAGGCTGAGATGGAGGTCAAGGCTTCAGTGAGCCATGATGGCACCACTGCACTCCAGCCTGGACAACAGAGTAAG
M
CCTTGTCTCCAAAAAAAAAAAAAAAAAAAAAAAAGCCAAATCTGTTGGGTTTTTTTTTTTGGGGGGGGGGGTCCTTTAGAATGGCCCTGACAGATCTTTA
Celera SNP ID:            hCV16277812
SNP Position Genomic:     224792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2166):
TTGGACTTACTTGCTTTCCATTTATATGTTGTCTAATTCCAAAGAGATTTCGAGACAGCTTTCAATTAAAAAAAACAAACAACAACAACAACAAAAAAAA
M
CACCACATACCGCATGGGTATTACACAGGACCTGTATGGTCAAATTGGCAACGACCACACCACATGAGAAGGAAGATTATTCTTCCTGGAACCTGGCTCC
Celera SNP ID:            hCV16277813
SNP Position Genomic:     225807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2167):
AAAGAAAAGAAAATTGGAGAATTTATAACGTCTGATGTGACCTGTTCTTTAGGTGTTGAAATTAGAACGGCCTCACTCACCTGGGACATTCTTCAGCTCA
Y
GCCCTGTACCTGGCTTACAGTTGCTCAGTGAAATGCTTTCTTGATTGTAGCATGGTGGGATTTTTATAAATCCAAATGACTTAGAGGTAGGTGTCACATT
Celera SNP ID:            hCV8722946
SNP Position Genomic:     163577
SNP Source:               dbSNP
Population(Allele,Count): WICGR7_african_american_pooled(C,34|T,66)   WICGR8_asian_pooled(C,10|T,73)   WICGR6_caucasian_pooled(C,1|T,94)   total(C,45|T,233) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2168):
GCCAAAAGGCTGGGCCCTTGTCTCCCACCCCACTGCTGTTACTCATGTGTTCTCCCACTTGCTCGGCATTCTTTCCCATGCTTTTTCCTTGATCATCACT
Y
ACTAGCTAACATCTATTTTTTCCTAAACACTCTGTTGCAGTTGTAGTCTGCAGTCACTCTCCTAAGACTTGATCATCTATTACGCTGTTTCGTTCTTTAT
Celera SNP ID:            hCV16277741
SNP Position Genomic:     181197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2169):
CTGTGCACAGGGAGCAAACCCCAAGCCGACTGCTTGTCTGTGCCACCCTCAAACAATGATTTCCCCAAATTGGACAGCCTGGGTTTGTATCCTTGAGCAC
R
GTTTTGGGAAGAGCATTCTGCATGAGGCATTGTAGCTATGTATATGGAGTATAATTCTGTTTTCAGGTTGCTCTGCCACAGAGGTTAAGAACTCCCTCTT
Celera SNP ID:            hCV8722947
SNP Position Genomic:     158104
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;no_pop(A,-|G,-)   (A,-|G,-)   African American (pooled) - WICGR(G,18|A,82)   Asian (pooled) - WICGR(G,7|A,77)   Caucasian (pooled) - WICGR(G,12|A,84)   total(G,37|A,243) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2170):
TGGTTTGGTCCAGCCTTAGAGCGGGTTTGCAGGTAGACACCTTCCTAATGTTTGTTCCACGTAAGCCCCCGGAGCACAGTATTTCCATCAGCTATTTTGT
R
GAAGTGAGCGATTCTCTTTTGGTTGTAAACCTTCACTATTTCATGTGGGTGACTTGACAATGGCTCCATTTTTGAATGGCCCATTGATAGTTGTAGTCTA
Celera SNP ID:            hCV16277742
SNP Position Genomic:     189924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2171):
CACATGGGAGCATCTTTTTATTTTATTTTACTTTTTTTTAAAAAAATGAGGTCTTTATTATCCTGGCTGGAGTGCAGTGGTGTGATCATGGCTCACTGTA
R
CCTTGAACTCCTGGGCTCAAGTGATCCTCTTGCCTCAACCTCCCAAGTAGTTGGGCTGATAGACATGAGCTACTGTGCCACGTAGCATTCTTGGGGATTA
Celera SNP ID:            hCV11941913
SNP Position Genomic:     29540
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2172):
TTGAACACTTGATTGAGGTGGTGCCTGCCAGGTTTCTCCAGTGTAAATTTTCTGCTTTTCGCATTGTTACTGATATCTTAGGGCTGATACTCACAGTATG
Y
AGATGTCTCGTTTCTCTTTTTTCATATTTCTTTTCTTTTTTCTTTTTTTGAGACAGTCTTGCTCTGTTGCCCAGGCAGGGGAGTGCAGCCTCAGACTTCT
Celera SNP ID:            hCV16277743
SNP Position Genomic:     193535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2173):
GAACGGGGGCCGCAAGAACGAGCGGGCCTTGCCGCTGCCCCAGTCTTCGACCTGCTGATCCTTGGATCCTGAATCTGTGCAAACAGTAACGTGTGCGCAC
R
CGCAGCGGGGTGGGGGGGGAGAGAGAGTTTTAACAATCCATTCACAAGCCTCCTGTACCTCAGTGGATCTTCAGAACTGCCCTTGCTGCCCGCGGGAGAC
Celera SNP ID:            hCV25638731
SNP Position Genomic:     313984
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,30)   total(A,1|G,63)
SNP Type:                 UTR 3;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(G,40)   total(A,1|G,75)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:2174):
GCTCTGCAGTGAACAATTGAACCTCATTTCTTTAATAATAATACAGGATTCCTGAAAACCAACTGTATTATTGTTTGGAAAATAGTTTAAAAATTATTTC
Y
TTCTAACTGAGACGTTTACCCTCTTGTCTCCCTTCAGTCTGCGGGCCAGGCATCGACATCCGCAACGACTATCAGCAGCTGAAGCGCCTGGAGAACTGCA
Celera SNP ID:            hCV25638732
SNP Position Genomic:     63978
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:2175):
TGAAGCGCCTGGAGAACTGCACGGTGATCGAGGGCTACCTCCACATCCTGCTCATCTCCAAGGCCGAGGACTACCGCAGCTACCGCTTCCCCAAGCTCAC
K
GTCATTACCGAGTACTTGCTGCTGTTCCGAGTGGCTGGCCTCGAGAGCCTCGGAGACCTCTTCCCCAACCTCACGGTCATCCGCGGCTGGAAACTCTTCT
Celera SNP ID:            hCV25638733
SNP Position Genomic:     64158
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,40)   total(G,77|T,1)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:2176):
TGGCCATTGAAAGAAAAAATAAATAGCAAAATCCCCATCCCAGAAGTTCTACTTCCTGTTGTTGTACTATTGAGCTCTGAAAAACAGCTTTGTAAGTTTA
R
GCTCTTGTTTGGACTATTTCAGTGGAATTCTTGAGATCTTTTTGTTTGGACAGGCAAGTATGAAGGCGATAAGTCGAAAGAACTACAGCTTACTCAGCAC
Celera SNP ID:            hCV27881225
SNP Position Genomic:     28334
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2177):
AATTCTAAAGCTTAAGTAAATTCAGTAATAATAAACTGTCAATTATCCAAGCGATGAATATAAATCCATAAGGTTTTTCAAATCCCCAGAAATCCCTTTC
R
TCTCCCACCTGGTTTTGCTGAGCGCCTGTCTCTTCTGTCTCTTTTCTGATTCCCACCTTTCACTTTTCCTCCATTTTTCGCTTAATGGATTTATACTTTA
Celera SNP ID:            hCV27881226
SNP Position Genomic:     122759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2178):
ATAAGAAGCTGCTCAAGACATTTACCTATCCTGAATGTTTCAGGCCCTCAAGGTGCCAGGTAGCTGCAATATAGTTCTAGTGTAGAAAAGAAAACCCTGA
Y
GAGGTCTATATATTCCAGGACTCTGTCTGAGGCCCTTTGACACTCCGGGGGCACCCTGCCGTGACCCTGACTCTTTCCTGCATGTACTGAGGATGGAGGT
Celera SNP ID:            hCV27881227
SNP Position Genomic:     165588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2179):
ATCAGGCCTTTCTCTGAAATTCCCATCAATAACTACAAGATCTGCCCAGTACCTTGTGCATATCAGGTCTCAGGAAATTGTGAGTTTCTTGTTTCATTAA
R
CATTTTTCTTTCCAGGAATCATCATTCATCGCATTGCCATATGTGTCCAGATCCCCCTTTTCAGGGAGCCAGTAATTCGAAAGCACTTGCCTGTGTTGAA
Celera SNP ID:            hCV27881228
SNP Position Genomic:     172806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2180):
GGTGTGGCTTTCATAGCTTTGGTTCTCTGGTCTTCACTTTATCTGCCAAGTGAAGACATTTGACTGGATGTCGTGATCTTGAGTTGCTTTCAGCTCCAGA
W
TTCGAAGACCCCTTCCATTGGGCATTCATCTAATTTCAAAGATGCTCCCTGGCTCCAGCTCTGCAGTGAAGCAGAACAAACTGATACAGCCTAGCTTGGG
Celera SNP ID:            hCV27881229
SNP Position Genomic:     231187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2181):
TTGAATTGCACTGAAAACGAAATTTCATAGGTACACGATACAGTAGTTAGTTTTAAAAGTTTTTAAAATATTAAAAAATTGAAAGTATTTAAAATATTTT
W
AAAATATTTTAAAATCTGCTGTGTGAGATAGATAGGAGACCTAGCTTTTCTTCCTTCTTACCTTGATCCATAGAGAAAGCAACCCTGAAAGAAGAAAAAC
Celera SNP ID:            hCV25748001
SNP Position Genomic:     200044
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,35)   caucasian(T,38)   total(A,1|T,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:2182):
GCAGACCTGAAAGGAAGCGGAGAGATGTCATGCAAGTGGCCAACACCACCATGTCCAGCCGAAGCAGGAACACCACGGCCGCAGACACCTACAACATCAC
Y
GACCCGGAAGAGCTGGAGACAGAGTACCCTTTCTTTGAGAGCAGAGTGGATAACAAGGAGAGAACTGTCATTTCTAACCTTCGGCCTTTCACATTGTACC
Celera SNP ID:            hCV25767456
SNP Position Genomic:     278739
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

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


Context             (SEQ ID NO:2183):
TACGTGGTGCCAGGCAGGTATCCGGGTACCTTTTTACGTAGGGTATTCAGAGAAGGTCTCTAGAGAGGTGACATTTGGACGAAGACCTAAAGGAAAGGGA
R
GGGAAAGGCGAGGAGCTTGGAGAGCTTGGTGCATCTTGGTGGGGGATGGGGTAAACTGAGTCAGTTATGTAGGGCCCTGGAGGCCACGGTGAGGACTTCG
Celera SNP ID:            hCV8722951
SNP Position Genomic:     154763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2184):
AGACCCCATAGTCCTGTGGTTTACCTTCTAATGAGCATACTTTTGTCGATCAAACAGGGTGACCTCTCTGGTGTCTCTGCACACTACCTGTATGGTCTTT
S
CGTAGCTGATGGGGTCTCCTGACTAGTGATTGGTGATTTTAATCTGGATTTTGCCACAGCACTTATTTTCTAACATATGACTTAATTTACTTAATAATTG
Celera SNP ID:            hCV8722952
SNP Position Genomic:     153057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2185):
GCAAGAACTCAGTGGGTGAGCACTTCCATTTCTTCAACAAATGCTTCTGAGTCCCTGACCTGTGCCAGGTGCTCTTCTTGAGCTGAGAATCCTGCAGGGA
R
AAAAGAGATAAAGACCCCATAGTCCTGTGGTTTACCTTCTAATGAGCATACTTTTGTCGATCAAACAGGGTGACCTCTCTGGTGTCTCTGCACACTACCT
Celera SNP ID:            hCV8722953
SNP Position Genomic:     152945
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   African American (pooled) - WICGR(G,1|A,99)   Asian (pooled) - WICGR(G,1|A,83)   Caucasian (pooled) - WICGR(A,96)   total(G,2|A,278)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2186):
CTTGCTTTCCATTTATATGTTGTCTAATTCCAAAGAGATTTCGAGACAGCTTTCAATTAAAAAAAACAAACAACAACAACAACAAAAAAAAACACCACAT
R
CCGCATGGGTATTACACAGGACCTGTATGGTCAAATTGGCAACGACCACACCACATGAGAAGGAAGATTATTCTTCCTGGAACCTGGCTCCCTTGAGATT
Celera SNP ID:            hCV16277823
SNP Position Genomic:     225816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2187):
GTGCCTTTTGATTTGATACCTATTTATTTGTTTGGAAAGAAGCTTTTAAAATCAAAACCATGAATCTGTGGTTATCTTCAAAGGATAAATTATGATAGGT
R
GTTGTTACCCAGGTTACCATTTTAAGATGATTATGGCTGGCCCAAATTAGGGGATCTTTTCATATATGTATTATATATTTTAACTTCAGTCTTTTAAAAA
Celera SNP ID:            hCV8722957
SNP Position Genomic:     149007
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2188):
TTCAAGATTTCTCTTTAGGTAAATAGATTTGTATTTTTGATGGCCATCCTAGTCCAGTGTAAAGATATGGACAAGAAACCCCACATAAAGGAAGCAAGAT
Y
GCTGGCTGCTTTCTCTAGGTAGCTTGAGTTGTATACTAATTTGTAGATTATTTCTCTTCATCGAAAAAACAAAACATTCTGCAGAGGGCAGTCATGTGTC
Celera SNP ID:            hCV16277825
SNP Position Genomic:     229898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2189):
TAAAGTGTGCCTTTTGATTTGATACCTATTTATTTGTTTGGAAAGAAGCTTTTAAAATCAAAACCATGAATCTGTGGTTATCTTCAAAGGATAAATTATG
R
TAGGTAGTTGTTACCCAGGTTACCATTTTAAGATGATTATGGCTGGCCCAAATTAGGGGATCTTTTCATATATGTATTATATATTTTAACTTCAGTCTTT
Celera SNP ID:            hCV8722958
SNP Position Genomic:     149001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   (A,-|G,-)   Caucasian(G,2|A,72)   African-American(G,32|A,48)   Asians(G,9|A,73)   total(G,43|A,193)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2190):
GCAGTACTGCCAGACTCAGGGACCCAGTTCATCGAGAGGGGCAGTGTTTCTCTTATGCTGCCTTAAAGGCATTGGATGCCTTTTGGAAAGCCAGTGGACA
R
CTCCTGCATCCACCCAAGATTAATGTTAACAGCTTAAAGAATCATTGCAATCAAGGGAAATTTTGCAACACTTTGTTGGGATATTTTTAAATAAATGTGT
Celera SNP ID:            hCV16277753
SNP Position Genomic:     203237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2191):
CCAAATACATAACCATTATTATATGACTTAGCATTTATAAGGCATTTCTATGCATCCTGAGAGACTAGAGCACTCTCAAATGAGGTTTCAGAGTAAGATT
M
ATCTTTGCAAATGAAGACAAATTAGCAAAATCTTCCTATTTTTAAAGTGTGCCTTTTGATTTGATACCTATTTATTTGTTTGGAAAGAAGCTTTTAAAAT
Celera SNP ID:            hCV8722959
SNP Position Genomic:     148858
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   (A,-|C,-)   African American (pooled) - WICGR(C,100)   Asian (pooled) - WICGR(A,1|C,83)   Caucasian (pooled) - WICGR(C,96)   total(A,1|C,279)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2192):
TTCTTACCTTGATCCATAGAGAAAGCAACCCTGAAAGAAGAAAAACTCACCCATTTGAGCTTTCTTTTGTTTCCACTGAGCAATACGGAAGAAATTCACC
R
CTGGTTATAGGTCTTCAGTGCTTTCTTCAGAGTGGGATTGTTTTTTGTTTCACCATAAGTAGTAGTCTATTAAATTAACAGTTGCTAGAGAAGAAGCTGC
Celera SNP ID:            hCV25748879
SNP Position Genomic:     200199
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:2193):
TTCTGGCATTGGGAAAGAAAGAAAAATGGCACTAGCAGCCTTTTTTTTTTTTTTTTTTTTTTTTCCCCAAAAAATTTGCTACTCTTGAGGTTCTGTCAAA
R
AATGTGCTGTGGCCTCTAGAAGCATTTTTAAAAAGAGACTTTCACAAGTGATTGTGCAAAATTGTGAGGTCACTGAATAGGTGTGTATCCTCCTAAGGAG
Celera SNP ID:            hCV16277755
SNP Position Genomic:     234032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2194):
CCAACCTCACGGTCATCCGCGGCTGGAAACTCTTCTACAACTACGCCCTGGTCATCTTCGAGATGACCAATCTCAAGGATATTGGGCTTTACAACCTGAG
R
AACATTACTCGGGGGGCCATCAGGATTGAGAAAAATGCTGACCTCTGTTACCTCTCCACTGTGGACTGGTCCCTGATCCTGGATGCGGTGTCCAATAACT
Celera SNP ID:            hCV25638740
SNP Position Genomic:     64323
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,37)   caucasian(G,22)   total(A,1|G,59)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:2195):
CTGGGACAGATCTGCTTCTTGATACTGCAGGGCTCCAGCCTTCCTTCCAGCCAGCTCATTTCTCAGGGAAGCCTTGTTTTCCTTTTTCAGAAAATTTAAA
Y
GTATATTTAACGCACAATTTAACTCCCTTTCCTGTTGATAATTTTTTTCTTCTTCATATTTTGTTATTAATAATAGCTTACAGAATGGGATCAGTATCAG
Celera SNP ID:            hCV15859779
SNP Position Genomic:     110500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2196):
CTGCCTGCCCGCCCAACACCTACAGGTTTGAGGGCTGGCGCTGTGTGGACCGTGACTTCTGCGCCAACATCCTCAGCGCCGAGAGCAGCGACTCCGAGGG
R
TTTGTGATCCACGACGGCGAGTGCATGCAGGAGTGCCCCTCGGGCTTCATCCGCAACGGCAGCCAGAGGTCAGTCGCGGCCACACGTGTGGTCACTACCC
Celera SNP ID:            hCV25638741
SNP Position Genomic:     248058
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,22)   total(A,2|G,58)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:2197):
GCTTCCCCTGCCTGGGAGGCCTCGTTCCAGGAGTCGTTGTTGAGAGTCAAGCCAGGGAAGTGTGTTTTTGTCAGGGAGCAGCCAGTCCTGTGCTGGGAGC
R
TCTCAGGGGGCACCTGCCGTTGAATTGTTCTCACTTGTGTTTGTAAGAATCCAAGTATGTCACCCTTACACCAAGTGAGCACACAGTGACACAATCCCCT
Celera SNP ID:            hCV25638742
SNP Position Genomic:     255855
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,25|G,1)   total(A,58|G,4)
SNP Type:                 INTRON;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIC-allele(G,206|A,1289)   total(G,206|A,1289) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:2198):
CTGGGGGTGTGTGGGGGTGGTTGGTTGGGGTTTGCTTGTTAGTTTGTTGTAAAAGCCCAGCTTTTCATTCTTGGAAAGATTTCAGCCAACTCGAGAGGGT
K
ACCTGCCAGGAATGCTGCAGAAGCAAGAACTCAGTGGGTGAGCACTTCCATTTCTTCAACAAATGCTTCTGAGTCCCTGACCTGTGCCAGGTGCTCTTCT
Celera SNP ID:            hCV15979743
SNP Position Genomic:     152822
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,1|T,7)      total(T,7|-,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2199):
TACAGGCATGAGCCACCACACCTGGCCTGGGTTGCTTTTTAAATTCATACCTACTGTCTTATTTGGGTCTCAAATGTGATCAGTGGTTATACTTTTCTTG
S
TATGCATTTAAGTTGGAGCAGGCTCCGGGGCACCACTTCCCTCCCTAGAGTTGATGAACCCCTCATATCAGTGACCTCCCCATGTCACAGTGTATCTCGT
Celera SNP ID:            hCV27881230
SNP Position Genomic:     39368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2200):
TAGTAATCTTTGCGAGAACATTCCAAAGATGATAGTTTTACATTTGTATGTTTTTTTCCGAGGCACTTTTGAATCATCAGATAGATTAAATATAAGTTCC
R
TGTATTTTTGAAGGTGGGAGTGTTCTTTGGTACAGTTCCCCCAAAAAACTGGTTCTCATGAGGCTTATGTGGTAATTCTGTTAACGAGAATGTATGATTA
Celera SNP ID:            hCV497295
SNP Position Genomic:     233203
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,9)   total(G,2|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2201):
ATGCATTGTTTGTATGAATAATAGCTTCTAAAAAGAAAATCAGTAAGGAAGGGAGTCATCCCAGATGATGGAATTGATAGAACAAGGCAAGACCACTTTC
Y
CCCTCTGTGAGGGTGGACTGTGACTCTACGAGAGAAGCTATTCTGCTTTGAAATGCGGCACTAGAGGTTGGTGTGTGTAGCTTTTGACTGTGAAGTGTCC
Celera SNP ID:            hCV27881231
SNP Position Genomic:     288461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2202):
AGGCAGCCTGTTGACCCAACCCATGCATGCCGGTCTTTGGGACTCCTAGATGTGGACCCTGGAGTGAATAGGGATCAGGTGGGAAATGAGTTCCTTTGAT
S
AAGATCCTTGTACCAGTGAACTGACCCCACTCCCCGTCTGGATTCCTGTGGTGATTACCCTCTGTATTAGTCTGTTTTCATGCTGCTGATAAAGACGTAC
Celera SNP ID:            hCV27881232
SNP Position Genomic:     82076
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2203):
GAGATACTGTATGCAAAGAATTGTCATGAAGACATAAAATCAAGTCTTGGTGTAAAACTTTTAATAAATTTAAAGGCATGTCTCTGTTTTTCTCCTCCTC
Y
ATGGGGATTTTCATGTGGTTAGTAATAAAACTGTAGGCAGTTGTATGTCTAGATTTCTATGTAATTTGTTTGTGTTCGTATATGCACACCTGTATACATG
Celera SNP ID:            hCV27881233
SNP Position Genomic:     98287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2204):
ACAGCAACTGTCTGTTCTCCTATAGTGTTAATAACTAAATCTCTTATTGGCAAAGGAAATGTATTGTGGAGCAGGTGGCAAAGAGGACCTGTGTTACGTG
R
CCAGCAGGCTAGAGGGGACTGTGGCCAAGGGCAGGTGCGCTAACATCGATTTCTGTGCTTCTAGGAATTACTCCTTCTACGTCCTCGACAACCAGAACTT
Celera SNP ID:            hCV25638749
SNP Position Genomic:     265108
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,23)   caucasian(G,18)   total(A,1|G,41)
SNP Type:                 INTRON


Context             (SEQ ID NO:2205):
GCCCCTTGTTTTCAGGTTAGGAAACCCAGGTTCATGTCCAAGTCCCTGGGCAAGTAGCCAGCGTAACTGATTGACCTAAAACAAAGGATGGAGCCCTTGG
R
GCTCTGCATAGTGAAATGTATGATTTCTTAGTGGAAAACGAGAAAGCCACTGAGGAAGCCCAGAAGGGAACTTAGCATATACAGCCAGCTTTGGGGAAGG
Celera SNP ID:            hCV25474152
SNP Position Genomic:     267629
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,24)   caucasian(A,5|G,27)   total(A,19|G,51)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:2206):
TGCTCTTCTGAGTTCTCTTCTCAAATACCTGTTTTCTTGGGTCACAGGAGATTAGGAGATTAAAGCCATTCTCTCTGGTCCTGCACCTCCCTTGCCAGGC
R
TGGCTAAGAGGTTTGTCCTTGTGGAAGGAGCTGAGTGGGTTGGTCGACCTGTGCTTTTCCGTGGGTACCTTAATTCTACCCCATATTCCGTAATGCTTTC
Celera SNP ID:            hCV25474081
SNP Position Genomic:     305319
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,24)   caucasian(A,10|G,28)   total(A,12|G,52)
SNP Type:                 INTRON


Context             (SEQ ID NO:2207):
TGCCGTCTCTGCCTGCTCCATCTGGCTGATCCCAGGCAGGCAGCTCAGCTCTCAGCAGACACAGATCCCCAGCACATATGAACGTGAAAGAGGCTTCTCC
R
TGGGAGCGAAGTGGCCAGCAGGTGTCACAGGCTGTGTGGGCCCAGCATCGTGTGGGCACTGCTGGGGGAATCCCATCACAGCATGTGCTGGCGTTAGTAG
Celera SNP ID:            hCV25986138
SNP Position Genomic:     152572
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,37)   total(A,1|G,69)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:2208):
TTTTAGTTTGTTCACCACGCTTGATGGCAGATTTGCCTCTGGATCCTCAGGCCACGTTCCTATGGTGGGTAGGGATCTCTCTCTCTCTCTCTCTCTCTGT
S
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAAATAGTGATTTCTCTAAGTTAATAAAGAATGTGGGGTGACCTCCTACACATGCCCGTATGCTATTGTG
Celera SNP ID:            hCV8722963
SNP Position Genomic:     144513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2209):
TTGGGCTTAGTAGTAAAAAGGGGGAACAAAATAAAAGAAGATCAGGAGACAAAGAGCCTACAGTACAAAAAAGGAAAGACGAAGGTTGATATTATTAGAA
R
TACTTCCTGGGCAGCCTTACTGTTTGAATTAGGATCACCCCCACCCCCACCTCCCAGAGGTATTAGTTGTAATGCAGAGACAAATGGAAACTAGTCAGAT
Celera SNP ID:            hCV25924291
SNP Position Genomic:     75266
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,35|G,1)   total(A,69|G,3)
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:2210):
TTTTTGAGGGGGAAAAATACAGCAAGGGGAAATGTTTTATTAACAATAAATATGCGGCTTACCATATCTGTAGGGCACAGATTTGGTTAGTAGTATTTTG
R
AGGCAGGATAAAGGAAGATCCTAAAATCTCTGTGCTGTGTAGCTTCCATTCGAGCTGCACATGTTAAAAACATTCTAGGATCCACACAGTTTAAACAAGG
Celera SNP ID:            hCV8722964
SNP Position Genomic:     97150
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:2211):
TCAAAGAGAACAACAATTCACCACACCCCAACATGGTAACAGTCTTTTTGTTTTAGAAGCATCTGTGAATTGCCAAGACTCGTAGAACTAAGATGTATTC
R
AAGTCAGTCGATTTTCTGGAAACGACCCAGTCCCTGAAGATAGTCTTTTGGGGAGTTGAGTGTTTTGAGAGGGACACCCCCTCTACAGGGACTTAAAATG
Celera SNP ID:            hCV8722965
SNP Position Genomic:     93481
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:2212):
TCCTGCATAGAAATATTTATTTATTCATTCATTCATTTTTTTGAGACAGGTTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAGTCTCAGCTCCC
W
GTAGCCTCAACCTCCTGGGCTCAGGCGATTCTCCTGCCTCAGCCCCCTGAGTAGCTGGGATTCCAGGTGTGTGCCATCACACCTGGCTAATTTTTTAATA
Celera SNP ID:            hCV16277835
SNP Position Genomic:     289907
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2213):
TGTGTGATCGCATTGGAGCTACTTCAAAGAGCAAACACACCACTTTGATTTATTTCTCTTAGTGATACAGTATTTAGAGAGGGAGATACTTTTTATCTTC
R
TGGGATACTTACAGTGGTGCTCTAGAAGCCATGTACTGCTTCTGGCTTCTCCTTCCTTTCCTCCAAGGCTCCTCCTGCCTCCTCCCAAAGCTCTGTGCCC
Celera SNP ID:            hCV8722969
SNP Position Genomic:     92273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2214):
TTAGTATCCTCAAATTATCTTGAAATCCTCAGAGATCTGAAATACTAGTACTGACTGTACAGTTTTCTTACTCAAATCTATAGCATGTGGAAAGTTGACA
K
CAAGCCATGCCATCGCCTCCTGGTATTCTCTGTGGGTTTAAGGAAGCAGCATCTTATATTCTTTGGCTTAGAGTTCCCCCAAAGCACGTTCTGTCTAAGG
Celera SNP ID:            hCV16277836
SNP Position Genomic:     291168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2215):
AATGTTTGGCCAGAGTAATCCATCCTTACTCATCCTCTCCATGTGAGGTTTTTGTTTCTTTTTAAAGAAGGCTACAACACAACACATACTACTCTGAAGT
Y
GAATTCAAGAGCCCCGCGCCCCACCTGTGGCAGGCCTGAGGGAGCCGCCGCAGTGAGTGTGCACACAGCTGCATGGCCAGGACTCCGGCATGCACCACGT
Celera SNP ID:            hCV16277837
SNP Position Genomic:     305571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2216):
GCGAAGAAAAGTGGAGAGAGAACAACCTTCATGTCTTGAGCCTTTTGTGACTTCTCCTAGACTCTGTTGGGAGCTTTTCCTGTGTGATCACATGACATTC
M
CCCATCTAAGCAGCCGAGGCTTATTCCTCCCGACTGCAGCCCTCTTTGATCTCCCTCTTCCTTCCTTTGCCTTCTATATCCAGGTGGCTACCCCGGTCTA
Celera SNP ID:            hCV16277765
SNP Position Genomic:     268536
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:2217):
TGCCTCATCTGCCCTTTTTGGTGAGAATGTCCTTTTTGTGATGACTTTATGCACTCCCTTTTGCTTTTCGGTTGTTCCAAGCCCCATTCAAATCCATGAC
R
AGGACTCTGCTCTCTGATGGGCAGGACCTTGATGAGGCCACAGGTGCTCACTGCTGAGTGGGAGGAAGCCTGGGTGGGCTCCAGGGACCTGCAGAGTGTA
Celera SNP ID:            hCV16277766
SNP Position Genomic:     277934
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2218):
GAGGAAGTGACGGGGACTAAAGGGCGCCAAAGCAAAGGGGACATAAACACCAGGAACAACGGGGAGAGAGCCTCCTGTGAGTGACAGCATCCAAAACACC
R
TGGGCCCAACCATCATGATAACAGCAGACCCTCCTCCCATGTGTGATGGCAGCTTTCCTCTGCGGCCCCTCCTGGTTTCACATGGGGGACCACTAGACCA
Celera SNP ID:            hCV25638750
SNP Position Genomic:     265412
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(G,24)   total(A,3|G,53)
SNP Type:                 INTRON


Context             (SEQ ID NO:2219):
TTTTGTGGTTGGTGTATTCTGAACCCTCCGCTGTGTGAGCAGCCCGCTCAGGGGCAGTGTACGTGGCTGATCTCCACTGTCCTGCCCGCGTGGATGGGGG
S
GTTATTCTCAGTGTACGTGGCTGATCTCCACTGTCCTGCCCGTGTGGATGGGGGGGTTATTCTCAGGTCAGCCCAGTGTTGGCCTCCCTCCCTGGGAACC
Celera SNP ID:            hCV16277767
SNP Position Genomic:     280235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2220):
AGTCCCTGGGCAAGTAGCCAGCGTAACTGATTGACCTAAAACAAAGGATGGAGCCCTTGGGGCTCTGCATAGTGAAATGTATGATTTCTTAGTGGAAAAC
R
AGAAAGCCACTGAGGAAGCCCAGAAGGGAACTTAGCATATACAGCCAGCTTTGGGGAAGGGGGAAGCAGTGCCAAGCAAGACAGGTGCTTTTCAGAGACA
Celera SNP ID:            hCV25638751
SNP Position Genomic:     267669
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,30)   total(A,1|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:2221):
CATATACAGCCAGCTTTGGGGAAGGGGGAAGCAGTGCCAAGCAAGACAGGTGCTTTTCAGAGACACATGAATCTCTGTCACTCACGGATGTACTCTTTGC
M
CCAGGTGAAAGTGACGTCCTGCATTTCACCTCCACCACCACGTCGAAGAATCGCATCATCATAACCTGGCACCGGTACCGGCCCCCTGACTACAGGGATC
Celera SNP ID:            hCV25638759
SNP Position Genomic:     267805
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,32)   total(A,1|C,69)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2222):
GAGCAGATTTGGGGAGATGTTAGTCAAAGGATACAAAATTTCAGTTAGATAGGAGGAATAAGTTCAATAGATATATTGTACATGATGACAGTAATAATGA
K
GTATTCTTAAAAATTGCTGAGACAATAGATTTTAAGTGTTCTCACCACACACAAAAAAATGTGATGTAATACATATGTTAATTAGGCTCATTCAGCTGTT
Celera SNP ID:            hCV9307008
SNP Position Genomic:     282912
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:2223):
GAAGGAGGCCAGTTACTAGAGCAGAGTGGCCGTAGAGGCTGCAACACGGTGGCCAAAGCATGAAGCTGCTGTATAGTGGCAAGGTCACAGTGATTTCCCC
R
CAGCCTCGGTTTAGAGGGAGACGGGGTGTGCTGAGCTGTGCCTGCTTCTGTAGAAGGGGCCTTCTCCAAGTCTGAGTAGCCTTAAGCCATTAGGACTGCT
Celera SNP ID:            hCV11430908
SNP Position Genomic:     212506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2224):
ATGCATCCTTTTTTACTTCAGAGTAAGTCGGCCTTGGTTAAGTCTTAATATTTCTCATGCCTATTTTTTTTTCTTCAAATGAAAACATACGGAGAGAAAA
Y
AGCATGTTTATGCCTTTTGGTTGTACCCAGCACTGCCCAGAATGGCTTACAGAGTTTATACCCATGGAGGTTTCGTAAAGGTGACATTAACTTCGCAGTA
Celera SNP ID:            hCV8722970
SNP Position Genomic:     90886
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:2225):
CTTCAGTGCAGTGGCATAATCTTGGCCCACTTCAGCCTTGACCTCCCAGGCTCAAGCAGTCCTCCCACCTCAGCCTCCCTGGTAGCCGGGACCACAGGTG
Y
TTTGCCGCCACACCCGGCTAATTTTTTATTTTTTTTGTAGTTTTTGTAGAGATGGGGTTTTGCCACGTTGCGCAGGCTGGTCTAGCATTACTGGGCTCAA
Celera SNP ID:            hCV15841677
SNP Position Genomic:     35110
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:2226):
TGAAAGGTTAGATCTTTGTTCTGAGATAAATTAAGTGGAAAAAGGTGTAGAGCATTATATGTACTCTGATTCTTCAGGGCTTAATTTAAAAAGAGCATGT
W
TGCTGGTGAATGCTGGTTCAATCATTAAGAAGTTTTTGAGAAGGAATCCCAGAAAGTAATAAGCACTTATTTTTCATGGAAAGGAACCGGAAGTGCTTGG
Celera SNP ID:            hCV8722971
SNP Position Genomic:     85745
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:2227):
GTAGAAAGCAAGAGGATTTTCCTTGCAGTCACTGAAGGTACCTTGTGTACACAGAAAGAAGACAGAGGGAGCCCCGGATGCCTCGGTATCCCTCAGAGCC
R
GATCCTTCAGACCTGTGCAGTACCTGTGGATTTGGTTAGTCGATGATGCGCTGCCATTAAAACAAAGGCATCGGCCCTGGAATAGAGAAGTTCAGTGAGA
Celera SNP ID:            hCV8722975
SNP Position Genomic:     81256
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:2228):
GAACCGTAAGAAAAGGGGGCTCCCACCTCCCGCTCTGGGGTCGCCACTTGCCTCGCAGGCAGGAGGAGGCTCCCAGAGTAGATACAACTTGCCCGTCACC
Y
GGATGGGTTGGTAGTGCACATATGCACGGGGCGCAGTTTAAAATGAAAGTAAAAGATGCAAATGTGTTTGCAAAAGAAAAATTAACATAGGATACGTGCG
Celera SNP ID:            hCV242958
SNP Position Genomic:     222487
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2229):
GAAAAGCATCTAACATGTTTCCAAGCACATAGGTTTTTGGTAAATGGTGGCAGCTGCTGCTATTTTTTTTTTAAATTAAACTATCTAAGAGTTGCATTCT
R
AGACCATCTAAAATTCTGAGTCTTAAGCTGTGTTGACTATATATGTTCACTACCATAACTAAATGGTCCTTCTGTATTGCTTTTCTAAATTGTAGAATTT
Celera SNP ID:            hCV8722976
SNP Position Genomic:     73829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2230):
GCAGAAGAACAGAACAGTCCTTGGAGCTTGGTAGGAGGTGTGAGGGCTTATGGGGGACAGTTGTCTTTTCAAGTCAAGGAGGAATAAGGGCTTCTGGGGC
S
GGTGGAAAGGGTGAGTCTTAGGCAGGGAAGGGTGACCATCCAGGTTAGATCACTTCTTCTGCGGGGTCAGCTTGGCCGCTGTTAGGTTTTCAGGATGTCA
Celera SNP ID:            hCV8722977
SNP Position Genomic:     73225
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:2231):
TGGGGAAGGGGGAAGCAGTGCCAAGCAAGACAGGTGCTTTTCAGAGACACATGAATCTCTGTCACTCACGGATGTACTCTTTGCCCCAGGTGAAAGTGAC
R
TCCTGCATTTCACCTCCACCACCACGTCGAAGAATCGCATCATCATAACCTGGCACCGGTACCGGCCCCCTGACTACAGGGATCTCATCAGCTTCACCGT
Celera SNP ID:            hCV25638760
SNP Position Genomic:     267821
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,32)   total(A,1|G,69)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:2232):
CCTAAGGGGTGTAAGGAACTCCAGAGGTCATCTGGTTCAGCCTGCTACAGGGCAGGAATCTCCACGGTAGCATCGCAGACCCTCCACTGTCCTTTTAAAG
Y
CCCCACATGCATTGGAAATGTACGGTGCTCACCCTTTGGTACAGAGACTGAGGAATGTGAGTTTATGCTCAAGTCATTAACAAGACAGAATTCTTAGGCT
Celera SNP ID:            hCV16277777
SNP Position Genomic:     281698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2233):
TTTTAAGTGTTCTCACCACACACAAAAAAATGTGATGTAATACATATGTTAATTAGGCTCATTCAGCTGTTCTACAATGTATGCATATTTCAAAACAATA
Y
GTTGTACATGATAAATATACAATTTTTATTTGTATATTAAAATTAATTAATTTTAAAAAAGATCTCCAGTAGTCACCTGGTCAGCACCAGATATTCTAAT
Celera SNP ID:            hCV16277778
SNP Position Genomic:     283042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2234):
ATTGATTATTTGTTTATTTAGACCTCCCATTATAGAAAGTGTGACATGCTGGGCCTCTGGGGAAGATTTTTGAGGGTTTTGATGTCAGAGCCCCGAACTT
Y
CTCTGAACTTAATTGTCTTTCAGACCCTTTAAGAATGTCACAGAGTATGATGGGCAGGATGCCTGCGGCTCCAACAGCTGGAACATGGTGGACGTGGACC
Celera SNP ID:            hCV25638761
SNP Position Genomic:     269515
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,34)   total(C,2|T,70)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2235):
TGGTCTTAGACTTGTAGCAGGACTCAAATGTCTGCAGCGGCATTGGAAAGGGGTGCCGTCCAGTGTGTGCATGTGTGTGTGTGTTTATTTTAAATTGTCT
R
TGGAACTATCTCAAAGATTGAGGCCAGCAGGACTTGACCTATACATAGATGTAGACTGTACATAGATGTAAGAATTTCTATTCATTTTATGAAAATGAAT
Celera SNP ID:            hCV16277779
SNP Position Genomic:     285436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2236):
GGATCTGGGAGCACGGTGCTAGGACTCTCTAAGCGTGACCTCCTTCAGTTTGGCCCAGAGTGGTCAGATAGTTTGCCGGGGCATAGGATGGATGACAGGC
Y
TCATACGCATCACGTCTGAAGGGAAAGCCCTTGAATTTTCCACGCTACTTTTTAGTAACAGTAGGCTTTGTCATAATTGGCTTCATGTTCCAGCTTTCCT
Celera SNP ID:            hCV11430910
SNP Position Genomic:     232378
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:2237):
TTAAGTGTTCTCACCACACACAAAAAAATGTGATGTAATACATATGTTAATTAGGCTCATTCAGCTGTTCTACAATGTATGCATATTTCAAAACAATATG
Y
TGTACATGATAAATATACAATTTTTATTTGTATATTAAAATTAATTAATTTTAAAAAAGATCTCCAGTAGTCACCTGGTCAGCACCAGATATTCTAATCT
Celera SNP ID:            hCV9307017
SNP Position Genomic:     283044
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2238):
AGAAAGAATTCGGGGATGATTTCAGAGTACACTAGAATATTTTTTAAAAGAATATTTTATAAAAATACAGTGATAGTAAAAGAAGTAGAAGGCCAAATTC
Y
GCCCCCAGCCCCTTCTTAATATTGGACTTTATTCCTTTGCTTTTTTCCCTTGCTGCCATCTAAGGAGGCTTTCTGTGCTATAGCATCCAGTTCCTCTGCC
Celera SNP ID:            hCV11430911
SNP Position Genomic:     235802
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:2239):
ATATAACCATATGTAAGTGACTGTGCTATCAGGAGACAGAACAACAAGACCCAGAAAGACTCAGTGACCCACAGAGCCAGTTCCACCCAAACAAGTCTTA
S
TAATGAGATTAGATAATGAGAGTGTATTTTCTTCATCAATTCATGTAGCTCAGCAAGGCTGGAAACTGCTTGCACACTTCTGCAGAGAAAAAAAAAAGTT
Celera SNP ID:            hCV11430912
SNP Position Genomic:     237443
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2240):
TTTTACAGATGGGAAGAGAGAGGATCAAGATCACAGAAGCTAATGGTTTGTCCCAGACCAAACAAGGAGTTCCTAGGAGAGACTGAACTTTAAAGATATC
R
ACTCTCTGCAGGTCTAAGTGGATGAAAGGACAGTGGTGGGGGTGAGGATTTCGTAGTGTGTTTTTGCATTGTCTCCTCAATGAGTGATCTGGTGCTGGTG
Celera SNP ID:            hCV11430913
SNP Position Genomic:     247617
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:2241):
AGCTTTGTGCACACTGAACTTGGAGAACCACTGTGTTGGACTCCGAGTCCTCTTGCCTGGATGAGAGGCCCAAGAGCACTGCATGTTAGTGGCTCTTCCT
Y
CTCCCCCACACCTCCAGGGACTGGAGCTGGGGCTGCTCAGAATGAAAGATGAATGGGGGAGGGAGAAGGCCCAGGGTTGACCCCCCACAAGCTTGTCTCC
Celera SNP ID:            hCV11430915
SNP Position Genomic:     264592
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:2242):
GAGCACTGCATGTTAGTGGCTCTTCCTCCTCCCCCACACCTCCAGGGACTGGAGCTGGGGCTGCTCAGAATGAAAGATGAATGGGGGAGGGAGAAGGCCC
R
GGGTTGACCCCCCACAAGCTTGTCTCCCTGTCTCATGCTGTCTCCTATCCCATCATGCTGCTGATTGGGCAGGATTTACTTCCATGGATAATGGGAGACT
Celera SNP ID:            hCV11430916
SNP Position Genomic:     264665
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2243):
GGCTAACATATGGCTTTAAGCTGGATGTTACAATGAGAGCTGGAGTTTCGTCTGATTGCACATAGCCTTGCTTTTCTGTCTTTGGAAAAGTAGCTCACTG
Y
AGAGCCCTGGTAAACGTTTGAACTGCATTGCGGGAGTAGGCAGAAGAACAGAACAGTCCTTGGAGCTTGGTAGGAGGTGTGAGGGCTTATGGGGGACAGT
Celera SNP ID:            hCV8722980
SNP Position Genomic:     73085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2244):
GAGCAGGCTGTTTAAATCACATTTTAAGTAAAAACCAAAGTGCACAGATGATCTGCAGAACTTCTGGGGGATAAGAAGCTGCTTTCCTCGAAGAAGTTCA
Y
CTCCAAACCAGCGCCCATGGCTCAGCAGCCAGCATGGCAGCCCCAGGGGTACATGGGACTTGGGCATGTGAGGCTGGTGAGGGACAGGGACAGCTGGGTC
Celera SNP ID:            hCV8722981
SNP Position Genomic:     72457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:2245):
TGGAGGTAGGAAAGTTCCTTGAACTCTTTCTTGTGCCCTTCCAGCTGTGAGCTGTGTCACCATTGTATTATTTTTACATTGTTGTTGTTCTTGAAAAAGC
T
TTTTTTTTTTTTTCAAGGCAGAGTCTTACTCTGTCGCCCAGGCTAGAGTACAATGGTGCGATCTCAGTTCACTGCAATCTCCGCCTCCTGGTTTCAAGCA
Celera SNP ID:            hCV11713521
SNP Position Genomic:     168836
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,7)   total(-,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2246):
AAGTGCAGTGGCGCAATCTCAGCTCACTGCAACCTCTGCCTTCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACATGCGCAC
R
CCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTTAGGCTGGTCTCAAACTCCTGACGTCATGATCCACCTGCCTC
Celera SNP ID:            hCV11713522
SNP Position Genomic:     184206
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2247):
AAGCTTTCAGAACCACTGACTTGTGGTGATTTTTGCATGCCAAGTATTTGGAAAATATCTGGAGCCCCTTCAGCTCTCACCAGTTAAACCTATTTGTACA
W
TTGTTCTGGTTTCTTCCTGTGCTTGAAAAGCCTCTTTCTTTGTTGCGTTAATACCTCTGTCTTGCTTTCCTCATGTGTATGCCAGTGTGACATTCTCGGC
Celera SNP ID:            hCV8722983
SNP Position Genomic:     71935
SNP Source:               Applera
Population(Allele,Count): african american(A,18|T,14)   caucasian(A,12|T,24)   total(A,30|T,38)
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:2248):
TTGCTGTGGAGGCTTTCTGGTATTTCATTTCAGGTGCAGATGCCTTCACTTTCCCACAAAAAAAACCCCAACAAAACCTAAGACCTTACTGCAACTAAGT
Y
TCCAAGTACTTTTTAACCCAATGGGATGAACAGCCTGTGGTCTGCTCAGATCACCCTGAGTGCGTGTGAGAAGGCCTGGGCTTTGCCAGGAAATCCAGGA
Celera SNP ID:            hCV8722984
SNP Position Genomic:     70272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:2249):
TCTGGGGGATAAGAAGCTGCTTTCCTCGAAGAAGTTCACCTCCAAACCAGCGCCCATGGCTCAGCAGCCAGCATGGCAGCCCCAGGGGTACATGGGACTT
S
GGCATGTGAGGCTGGTGAGGGACAGGGACAGCTGGGTCCAGCAGTGCCTTTCCTAGGGACGGTTGCCACGTCACCTGTCTGCCCTGTACTTCCATTTCCT
Celera SNP ID:            hCV25923584
SNP Position Genomic:     72519
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,33)   caucasian(G,40)   total(C,1|G,73)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:2250):
TGAACCTGGGAGGAGGAGGTTGCAGTGAGCCAAGATTGTGTCATTGCACTCCAGCGAGTGCAGTGTAAATCCCTTAAGGAAACAGTGTGTTGTGGTAATC
R
TGATATCATAGTAAATAGGTTTTGTTCGTTATTTTTTTCTTTTACTTCCTTTTCTACCAGTGACTAGTCCTAATGTGTTCTAACTTTTGAAAATAAAGTA
Celera SNP ID:            hCV11527345
SNP Position Genomic:     99515
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:2251):
CTTACAGTGGTGCTCTAGAAGCCATGTACTGCTTCTGGCTTCTCCTTCCTTTCCTCCAAGGCTCCTCCTGCCTCCTCCCAAAGCTCTGTGCCCTGAAAGA
K
CCTTGAGCCATTGCTCAGATGTCAAAATTGTATTAAGCAGACACATCAAATTAAAACTTTTGGGATCACTCACCAATATGGTTTCCTGTACAGTACTGCC
Celera SNP ID:            hCV11527349
SNP Position Genomic:     92381
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2252):
GTGAGCTGGCCCTGACTTCTCTCCAGTATCATCATTTTCTAGGAAAGCCATTTCCCCACAACCCCCAAGGAAAGCATATCATAAACAAGTTTTCCCTTGG
R
GAGGTTCCCTCGACTCCCTTCTCTCCTCTCCCTTCCTCTCTGAATTGTTGCCATATGTGAAGTCCACTTTTCTAGTTGTCATGCTACCTGTTGACACTAA
Celera SNP ID:            hCV9307028
SNP Position Genomic:     285132
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:2253):
CCGGCATTGTTGGCGGTCCTTGTCTTTGCCACTGGGAATCTGGTTTCCTCAGACTCTACGTCCACGTTTCAGGATTGATCCAGAGTCAGTGTCCTGCTTA
Y
GCTTTTGAATGAATGATCCCACCTCAGCTGCAGGATTTCTGCTTAGTTTCCTAAAAATTTCACTTTGGGTTATGAGCTTCCAATTCTAAACCTGCTAAAG
Celera SNP ID:            hCV11430924
SNP Position Genomic:     292685
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:2254):
TGGGAGATAAATGCTGAGACATAAAGCCAGCAAGAACTGAGTTTTCATTTGGTTGCCTCCGTGGGTCTGAAGTCTTTGACCCTTACTTTGCTGCTTACTG
R
GTAAGCAGTGTGTCTGCTTTTATTCCTTAGAAGCAGTGACTTCCCCTTCTCGGCCCCTTTGGAAATTCTTTTGCTGTTCTTCATTTGGGCTTAATTTTTT
Celera SNP ID:            hCV11430925
SNP Position Genomic:     293007
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,12)      total(G,12|A,1) ;(A,-|G,-)   African-American(A,22|G,40)   Asians(G,82)   total(G,122|A,22)
SNP Type:                 INTRON


Context             (SEQ ID NO:2255):
GCCTGAGTCATGAAACCGGACCACATTAAGGGCGACACATGGTCCAATCACTGTTTGTAAAAGTCCACGTATTTCAAACTCCTCTCTCCTGCCACTGCTG
R
GCTGTTTCCCTCTTTGAGGACCTGGTCTCCGCAGCATTTATTCATTAGATGGCAGTCCTAGGGGAGTCTCGCTTTGGGGAAACCTCTCCTCCTGCACATT
Celera SNP ID:            hCV27854735
SNP Position Genomic:     3571
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,27)   caucasian(G,36)   total(A,7|G,63)
SNP Type:                 hmCS


Context             (SEQ ID NO:2256):
CTGCCACTGCTGGGCTGTTTCCCTCTTTGAGGACCTGGTCTCCGCAGCATTTATTCATTAGATGGCAGTCCTAGGGGAGTCTCGCTTTGGGGAAACCTCT
S
CTCCTGCACATTCAAGAAAACAACCGCGGAGACTTAGGGTCGGTACTGGTTTCCAGTCACTTACGTAGCAAACGAAGCAAGAGGAACGTGCCTGGGAGGA
Celera SNP ID:            hCV27854736
SNP Position Genomic:     3659
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,35|G,1)   total(C,69|G,1)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:2257):
TATTTGTCTAGCATCATTGAAAGAGTTTTTTGCTTGAGTTGATTTCCCAGGTAATTGAAGCTTACTTCTCAAAGCACAAGATATTTTTTCTCATATATTA
R
CGGTCTTAAGTGAGTGAGACCCCTAAGAATTCTTAATTCCTTTATCTTACTTTTCCTACAGGAAACTTATTATGTTTTCCTAGATAGGAATTGTGCTACC
Celera SNP ID:            hCV27854737
SNP Position Genomic:     159231
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:2258):
ACATGCCGTTTGAATGTATACCATGAAGACCCCTTAGCTCAGGGAGCTTTGCTCTATTTAAGTAATGTTTATATTCTTAATGAACCAAAGAGGAAGTGGT
Y
ATGGGAAAAGAGCCAGGACTAGATTTCATTCTAATGCTTATAAGGAGAGTTCTAGGAAACCCTCAGACTTGGTAAACCAAGGCATTTGGAGATACTATGA
Celera SNP ID:            hCV27854738
SNP Position Genomic:     183900
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,1)   caucasian(C,12)   total(C,25|T,1)
SNP Type:                 INTRON;TFBS

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


Context             (SEQ ID NO:2259):
GAAAAGCTTGATGAAATAGGTGACTGGAGATCTGGCAGAGTATTTCTTGCCAGCATCGATTGAGGCACCTCTGAAAAGTCCAAAACTCACTCCCTTCCTC
Y
CCAGTTTCAGGCACAGAATAAAAATTCAGAACACATGGCCTTGGTCCTGGCTCTGTGGCTGGCTGCCTGTGGTCCTCAGACAGCTGCTGCAGGTTCCTGG
Celera SNP ID:            hCV11430929
SNP Position Genomic:     293809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2260):
GCCCTCTCAACTTCTCCCTCACCTCCTTCCCTAGGGGTAGACAGAGATGTACCAAACCTTCCGGCTGGAAAGCCCAGTGGCCGGCGCCGAGGCTCGTGGC
R
TCACGCCCCCCCCGCCAGGGCTGTACCTCCGTCTCCCTGGTCCTGCTGCTCACAGGACAGACGGCTCGCTCCCCTCTTCCAGCAGCTGCTCTTACAGGCA
Celera SNP ID:            hCV25746517
SNP Position Genomic:     317396
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,4|G,30)   total(A,9|G,63)
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:2261):
CTGGGTTTGTGCCCTTCGTGCTGCACTGACAGGTCAAAGCCGACTCAGGCCTTTGATGTCTGCTCTAGGAGCAAAAGTGATTCCTGGTCCCGCAGCCGTT
Y
CCACTGCCTTGTGTATGAAGGTCTGCTGCTCTGAGGTGGATGGTGGCTCTAGGCAGGCTGTTTCCGCTGGGTGCGGTTGTTGCTGCAGGTTTTTCTATAT
Celera SNP ID:            hCV11941894
SNP Position Genomic:     94419
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2262):
GTATCCTCCACTGTATGCTGTCACCCCAAGGGCAAGCACTGCATCTGCTTAGTGAAGGATTTATTGTTCGGAAGATACATTTTCCCCTTGAGCAGAGAGT
R
GCGTATCCTGGCAGTCTTCGGTGAGCCAGTTGTACCAGGATTATGAAATGCAGATGTTTACTGTGTCATTGTTGCTGTCATTGCTACTGAGGAGTACTGA
Celera SNP ID:            hCV11527358
SNP Position Genomic:     69795
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;UTR 3


Context             (SEQ ID NO:2263):
CCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGATGATCCGCCCGCCTCAGCCTCCCAAAGTGTTAGGATTACAGGTGTGAGCCACCATGCC
Y
GACTCTTTTTAATTCTTAATGTGGCTACTTGAAAATTTAAAATTACAGATGTGGCTTGCATTCTGTGTTGGTAAGCTGCTTTAGAGCATTTCTTTTAACA
Celera SNP ID:            hCV11527359
SNP Position Genomic:     67420
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2264):
GCGAAGGTGAGTCTGGGAGAGACGCCATGGAGTCAGTGTGAGTTCTGCAGCCTCCCAAGTTCCGCTGGCGTGAGAGGCTTGCCTGGTGCCAGGGCTCTGG
R
CATTGGGAACATTGCCTGGTCTACCGGGCAAGAAACGTGAACCACCGCAGTGAACTGGCAGCGCGTTGGCATTTTTCCCTCCATGTTTTTATAAAACCGC
Celera SNP ID:            hCV27475760
SNP Position Genomic:     165951
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,30|G,703)   total(G,703|A,30) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2265):
GTCTTGTCCCTGTTCCAGGAGAAGGGCTGGGTATGTGTCCCCCAAAGGGGAGAGCATTCGAGAAGGATGGCGCCAGCCTCCCCAGAACTGACCTGTGGTT
A
AAAAAAAAAAAAAAAATTGTGCTTTTTAAAAGATGAGTTTTATCAGCTCACACATCCTTCTAGAGTCTAATGGAGATTTTTTGTGTGTGTGGAAATAGTA
Celera SNP ID:            hCV11430930
SNP Position Genomic:     310895
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,10)   total(A,10|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2266):
AGGCGTCACATGGCTTGTTTGTGCTGATGTCACTGCCTCGCTGCTCTCCTGTGGCACCTCCTCGGTCCCTGGCCACAGGGCACAGAGCCAAGCACATCTC
R
TGCTCTTGGCCCAGTTACGCTTCTGCCCAGGGGTAAGTCAGCTGGAGAGGAATTCACAGCCCAGGCATTTCATGTCGTTATGGCCTATTTTAATTTTTTT
Celera SNP ID:            hCV11430934
SNP Position Genomic:     311182
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:2267):
CTCGACAATTCACAACTCTTTTATTAGCTATCTTAAAAAAATTTATTACTGGCATCAATTAGCCTGAGTCATGAAACCGGACCACATTAAGGGCGACACA
Y
GGTCCAATCACTGTTTGTAAAAGTCCACGTATTTCAAACTCCTCTCTCCTGCCACTGCTGGGCTGTTTCCCTCTTTGAGGACCTGGTCTCCGCAGCATTT
Celera SNP ID:            hCV12100565
SNP Position Genomic:     3510
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,26)   caucasian(C,7|T,11)   total(C,9|T,37)
SNP Type:                 hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 hmCS


Context             (SEQ ID NO:2268):
TTAAATTTCACCTGCCTGTTTCCTTTTTATTCTTTTTTTTTTTTTTTTGAGGCGGAGTTTCGCTCTCATCACCCAGGCTGGAGTGCAGCGGCGCGATCTC
R
GCTCACTGCAACCTCCGTCTCCTGGGTTCAAGCGATTCTCTTGCCTCAGCCTCCCAAGTAGCTGGAATTACAAGCATGTGCCACCATGCCCGTCTAATTT
Celera SNP ID:            hCV11527360
SNP Position Genomic:     67191
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2269):
TTTCCGGGAAATTGACTTCCCTTCCCCTTGTCCTGAAAACTCAGGCATGGGCATATTTCTTGGAGATTTTCTAGTTGAATCAGAACTTCCTCTTGGTTTG
Y
GTAGATTCCATTTAGACCTGCATTGTCCAGTGTGGTAGCCGCTTATTGAGTAAGCCACGTGGCTTATTGAGTACTTGAACTGTGGCTTGTCCGAATTGGG
Celera SNP ID:            hCV11527363
SNP Position Genomic:     66847
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2270):
ATAGAGCAGTCCCTTGATTCTGCTTTGTCCCCATTAATGACAGATCTGAGGGCATCCAGAAGGAATCTCCACAAGCCCAGCCTCCACAGTGGCTGCTTCC
Y
CTACATGGTAGAGTGGTGCTCACCTCCACTCCTCCATAGATGCCAAGTCATCTGTGGTATAGATGTGGATGTCTTTGTTCAAATGGTCCTTGAGTCTTTG
Celera SNP ID:            hCV16027522
SNP Position Genomic:     196241
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(T,36)   total(C,3|T,67)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:2271):
CTCCTTGTAAATGGCCGGCCAGCGGAGGGCATGGGGTGGGGAAGACTGGATACACACCCCTGTGCTCTGGGAGTACGTTGGCTGGGCGGCATGCTCATTA
R
CTGCTGCTTCCGAACATAGGTTCAGCTGAAGTGTATCCCAGGCAGTGGACACTTCGTGTGGAATTCAGAAAGGTGGCGCAGGAAGGATACCAGGGAAAGC
Celera SNP ID:            hCV194558
SNP Position Genomic:     307533
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2272):
CTGCTGCGGGATAAGGGCCAGGGCAGAGGTGTGAACGCAGCCGTGGAAGACTTGGGCCAGGAAGCCATTTGTTCTGCTGCTAACACTTCCACAGCTCCAC
R
TGTCCAGACTGTTGCCAGAGACGTCTTTGGTCTACAGGATTCAGGAGGGAATCTGAACTTTAGCCTGGAGCATTATCAACTCATAGATGAGTCTGAAACA
Celera SNP ID:            hCV9307114
SNP Position Genomic:     310167
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:2273):
CGCTGGGCACCACCGGGTCTCTCCCTCAGTCTCAGAGCTCAGTTGCTTCTGCACCTCATCAGGGATCCAGCCATCAAAGCCAAGGCTGGGGGACACTTGG
R
CTAGAGTAATCCTACCAATAATGCAGTTCAGCTTTGTAACCGCAAATTTTCTAGTAGCCGTATTTTTTAAAAGTAAAAAGAAACAGATCAAATGCATTTT
Celera SNP ID:            hCV9307045
SNP Position Genomic:     290402
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2274):
TTTTAAGTAGAAAACACTAACAGTGTAGTGCCCATCATAGCAAATGCTTCAGAAACACCTCAATAAAAGAGAAAACTTGGCTTGTGTGATGGTGCAGTCA
Y
TTTACTGGACCAACCCACCCACCTTGACTATACCAAGGCATCATCTATCCACAGTTCTAGCCTAACTTCATGCTGATTTCTCTGCCTCTTGATTTTTCTC
Celera SNP ID:            hCV11430940
SNP Position Genomic:     317938
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:2275):
CATGCCTGCACCCCCATCCCCGAGGGTCTGGAAAAGAATTGATTTGTTCTGAGGAAGGAACATATATTTGGAATATAAAATGGTTAGTAAACAAAGGATC
T
TTAAAACAAGTTAGATTGTTATCTCAAGAGAAGCATACTTCCTCGGCATGATGTTTTCTTTTGTTAAATTGCTTTGGTTTTATTTGACTCAAAGTATTAA
Celera SNP ID:            hCV12100571
SNP Position Genomic:     11661
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2276):
GCCTGCACCCCCATCCCCGAGGGTCTGGAAAAGAATTGATTTGTTCTGAGGAAGGAACATATATTTGGAATATAAAATGGTTAGTAAACAAAGGATCTTT
W
AAACAAGTTAGATTGTTATCTCAAGAGAAGCATACTTCCTCGGCATGATGTTTTCTTTTGTTAAATTGCTTTGGTTTTATTTGACTCAAAGTATTAACAA
Celera SNP ID:            hCV12100572
SNP Position Genomic:     11664
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,4)   total(A,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2277):
TTGCTTTTGGGCGTACGATTTGGAAATGTAGTTGTTTACCAAAAAAAATGATGTATGGGCCATTGTGCTTCCCCTGTTCCTGCCTTCCAGATAATGTTCT
S
TGTCACCTCCCTCCCCTTGTCACTGCCTTGATGTCATCAGCATTGAGAGCTGTGCAGTCCCTAAAAGTGTGATGTTGATAAACAAGTAAACTACTGAGTA
Celera SNP ID:            hCV11713620
SNP Position Genomic:     276785
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2278):
CGTACGATTTGGAAATGTAGTTGTTTACCAAAAAAAATGATGTATGGGCCATTGTGCTTCCCCTGTTCCTGCCTTCCAGATAATGTTCTGTGTCACCTCC
S
TCCCCTTGTCACTGCCTTGATGTCATCAGCATTGAGAGCTGTGCAGTCCCTAAAAGTGTGATGTTGATAAACAAGTAAACTACTGAGTATACTTCATGAA
Celera SNP ID:            hCV11713621
SNP Position Genomic:     276796
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:2279):
TGATCCATTTTTTTTTTTTTTTTTTAGGACACCTGTTTACTAGCTAGCTTTACAATATGCCAAAAAAGGATTTCTCCCTGACCCCATCCGTGGTTCACCC
K
CTTTTCCCCCCATGCTTTTTGCCCTAGTTTATAACAAAGGAATGATGATGATTTAAAAAGTAGTTCTGTATCTTCAGTATCTTGGTCTTCCAGAACCCTC
Celera SNP ID:            hCV27518809
SNP Position Genomic:     319803
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,13|T,1280)   total(G,13|T,1280) 
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:2280):
TGTTGGCTTTGAAGAAGAATGATGCTGTGCTTGCCTTTGCAGTCCTGTCACCATACTTCCTGGAAAGTGGGTGGACACGCTGGATGGTAGATGTTGAGTT
S
TTTAGATGCCTGGATGCTTACATGCTTTGTGTGGGTTCTTACTGGGGCTGTAACTTACTAGAGGACAGACTCCAACTTCTGCTTACTTAGTCTGGGGAGG
Celera SNP ID:            hCV9511012
SNP Position Genomic:     41798
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:2281):
CCCAAATCTCTACCCATTGGTCAAGGTCCCTGAGTTCACAGAGCCCAGGCCAGAGCCCTGGAAACGCCTCTGCCCGTCCGCTGCCTAATTGCCTGTCCAC
R
CTGGGCACCACCGGGTCTCTCCCTCAGTCTCAGAGCTCAGTTGCTTCTGCACCTCATCAGGGATCCAGCCATCAAAGCCAAGGCTGGGGGACACTTGGAC
Celera SNP ID:            hCV11713629
SNP Position Genomic:     290303
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2282):
AACTCCTGGACTCAAGCAGTCCTCTCCCTCCAGCCTCCCAAAGTTCTGGGATTACAGGCATGAGCCACCATGCCCGGCTGGAACTGTTGGCTTTGAAGAA
R
AATGATGCTGTGCTTGCCTTTGCAGTCCTGTCACCATACTTCCTGGAAAGTGGGTGGACACGCTGGATGGTAGATGTTGAGTTCTTTAGATGCCTGGATG
Celera SNP ID:            hCV9511013
SNP Position Genomic:     41714
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2283):
TCAAACTCCTGGACTCAAGCAGTCCTCTCCCTCCAGCCTCCCAAAGTTCTGGGATTACAGGCATGAGCCACCATGCCCGGCTGGAACTGTTGGCTTTGAA
R
AAGAATGATGCTGTGCTTGCCTTTGCAGTCCTGTCACCATACTTCCTGGAAAGTGGGTGGACACGCTGGATGGTAGATGTTGAGTTCTTTAGATGCCTGG
Celera SNP ID:            hCV9511014
SNP Position Genomic:     41711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2284):
GGTGGTGGACGGGCTGTGTGGTCTCCCCTCAGCTGTCCACTTGCACTTGTGTTAAAATGCGGCAGAACTTTCCCTCTATACTTAAATTGTGGTGAAATAC
R
TATGACATAAAACTTACCATCTTAACTTTTTTTTATTGAGACAGGATCTCATTCTGTCACCCAGGCTGGAGTGCGGTGGCGCGATCTCTGCTCACTGCAA
Celera SNP ID:            hCV11527373
SNP Position Genomic:     54166
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2285):
CTACAGGTTTTCAAGTCATCTCGTGTGGTGCACAGTCCTCGCCCTACCTCGAAGGCCCGGGCGAAGTTTTCCTGAGTGTGTATACTCATCTCTTTGTGTT
R
TCTCTGGCAGGGAGCAAGTGAGTACAGGATTGGAGTAATAGGCATTTTTAGGCTTGAGATGGCTTTGTGTGTTTGGTTAATGTCACTACATTTCCTAGGG
Celera SNP ID:            hCV25742254
SNP Position Genomic:     178792
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON;NONSENSE MUTATION;hmCS


Context             (SEQ ID NO:2286):
GCTTGCCTGCCTTTTGGGTCGTCTCCACCTCCCAGGGATGTTTTTGTTCCCTGATCGAATGACCTCCTGTTTTGTTTGTTTTTTGAGACGGAGTTTTGCT
Y
TGTCACCCAGGCTGGAGTGCAATGGCATGATCTCGGCTAACTGCAACCTCTGCCTCCCGGGTTCAAGTGATTCTTGTGCTTCAGCCTTCTGAGTAGCTGG
Celera SNP ID:            hCV11527375
SNP Position Genomic:     50089
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:2287):
GCAAGTCCCTATAGGATAGGCATGTGGTACAGTGTGAAGCTCCTGAGTGGTCAACAGCTACCCCGTGACAACATGCCACACTCCATGTGCCACTCCCTCC
Y
GCCTGCCTGCTGTGTCCTTGGCCCCAGTGGTGCTCTCCCGTGCTGACCAGCCGGCACGGCTCACCTGGCCGAACTCTAGCCTTGCCTTTTCCTCTCAAGG
Celera SNP ID:            hCV27518810
SNP Position Genomic:     69513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2288):
CCATTGGTCAAGGTCCCTGAGTTCACAGAGCCCAGGCCAGAGCCCTGGAAACGCCTCTGCCCGTCCGCTGCCTAATTGCCTGTCCACGCTGGGCACCACC
R
GGTCTCTCCCTCAGTCTCAGAGCTCAGTTGCTTCTGCACCTCATCAGGGATCCAGCCATCAAAGCCAAGGCTGGGGGACACTTGGACTAGAGTAATCCTA
Celera SNP ID:            hCV11713630
SNP Position Genomic:     290316
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2289):
TACTGGGTAAGCAGTGTGTCTGCTTTTATTCCTTAGAAGCAGTGACTTCCCCTTCTCGGCCCCTTTGGAAATTCTTTTGCTGTTCTTCATTTGGGCTTAA
T
TTTTTTTTTTTTTTAATGTTCTTTGAATCGGCAACTTAATCATCTCCCAAGTGACAGTTTCTTAATTTTAGTTCCAAACACCTGTTCACATATGACTTCA
Celera SNP ID:            hCV11713633
SNP Position Genomic:     293102
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,8)   total(-,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2290):
CTTAGCATTGGTTACAGAAATAATTAAGACAATGTCTTCAGGAGATTTTGACTTGGGAATAAAACTCACTGTCCAACCTTGCATTCATCCCTCCAATTTT
Y
CTAGCTTTTAAGGAGCATTGCTCCCCTTCCAGGGACCCACATTGGTTTCTAAGAGGCAAGCTGCCCTAATGACGAAGCCTCTGCACGGAGCAGGAGCAGT
Celera SNP ID:            hCV11713636
SNP Position Genomic:     296223
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2291):
GTGTTGTCAATAAACAAGTCCATTTTAAAAGCATCTTTGAAGGTGTGTAATGAAAATGGAGGCCTTAGGTTGTATCAGGGTTTATGAGGAGCCAGCTTAT
M
TGTAATCAGATGTTCCTGTTACTGTTATCACTGTAGTATAGGGCTTAGTTCTGCCCTTTAAGTCACAGACTCAAGTTACTCCTGATTTTACCAGCAGTCA
Celera SNP ID:            hCV11430889
SNP Position Genomic:     149852
SNP Source:               dbSNP
Population(Allele,Count): (A,-|C,-)   no_pop(A,-|C,-)   (A,-|C,-)   African American (pooled) - WICGR(A,43|C,57)   Asian (pooled) - WICGR(A,10|C,74)   Caucasian (pooled) - WICGR(A,1|C,95)   total(A,54|C,226)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2292):
AGTTGGAATGCAGTGGCATGGTCATGGCTTACTGCAGCCTCAACGTCCCAGGCTCAAGGGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGGTCACAGA
K
GTGTGCCATCACGCCTGGCTAATTTTTAACATTTTTTGTAGAGATGGGAGTCTCACTATGTTGCCCAGGCTGCACTCAAACTCCTGGACTCAAGCAGTCC
Celera SNP ID:            hCV9511020
SNP Position Genomic:     41535
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,9)   total(G,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2293):
GACTTGGGAATAAAACTCACTGTCCAACCTTGCATTCATCCCTCCAATTTTCCTAGCTTTTAAGGAGCATTGCTCCCCTTCCAGGGACCCACATTGGTTT
M
TAAGAGGCAAGCTGCCCTAATGACGAAGCCTCTGCACGGAGCAGGAGCAGTGGCAGGAGCTGGCATGGCAGTCCCTTAGGTGAGGGACGATCACTGCTCA
Celera SNP ID:            hCV11713637
SNP Position Genomic:     296272
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,9)   total(A,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2294):
GGAAAAAAAAATGTATTCAGCCAGTACTCTTTCCAGGTTATAGCTAAACGTCAGTTGGCAACCTCTATGCTGTGGTTTATTGAGTAACACTTAATACTTA
R
CACAGCCCTCAGTGAAGATCTTTTATGGCCTTTTCTGAATGTTATACAAACATAACTAAAGCTTATCCAGATGAGGACAGGGACCTTTCTTTCCTTCCTT
Celera SNP ID:            hCV9511022
SNP Position Genomic:     41007
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:2295):
AGTGAGAGTCTGTTGTTTACCACCTGATACATTGGTAAGAGCTGCTTGATGGTATGGGGACATCAGTAGGGAGGATATAGACGTAGCCACCCCCGCCCTA
S
ATAGTAGGGGCCTCAGGGTGGGGTAAGCCTGGGTGGGGGAGGTATGAGTGGTGGAACAGTGGGAGACCCTGGATCCTTAGTCTCCAGCGTGATTGCATTT
Celera SNP ID:            hCV11527380
SNP Position Genomic:     49323
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:2296):
GGCCAGTTCTGCCGCTAATGGGTGAGAGACTTGGGCCAGGTGCCTTACATCCGGGAGCCTCAGTTTCCTCACCTCGGAAATAGGGTGATAATGTAACAGA
C
CCCATGGGGTTATGAGAAGGACTTGGTGCAGGAAAGCAGCAGCACGTGCCTGGCACAGGGCAGGGCCTCTCCAGATGGCAGTTCCTGTCTGTGTCTTATT
Celera SNP ID:            hCV11713639
SNP Position Genomic:     297685
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,8)   total(C,8|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2297):
TCCAGAAGCAGTGTCTGTCATCCATACTCCACCAGAATTGAACACTAAATTGAGCTTTGCAATTTTAGCATTTAAAAAGTTGTATCATTTAATATAGAAT
R
GCAGTCTCTTCATTATGATCTTCCCTTGCCTAGTAAGTTTATACTCAAGTCAAAATCGGTTAATCATGCATATTGATTCCTTGTTTATCTTTTTCTTTTA
Celera SNP ID:            hCV11527383
SNP Position Genomic:     32035
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2298):
GCGTAAAAGGTTTTTCATTTGTCCTTGACCACGTGGTCCAAACCTCAATTTCCCTAGCAGAACGCGGTTTCGATCACTGGTGGATCCGTCTCACAGCACC
R
GTCATGCTGCCTCGCTGGGAAGTGGAGGGCTCAGGATTCCCGTGGTTCACGATCCATTTTATGTTGGAAGGAAATCATTTTGAACTATCTCAGTACACAC
Celera SNP ID:            hCV11713569
SNP Position Genomic:     222234
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:2299):
AGTCAGATGGAATGGGTCTGTTTTCTATATCAAGAGACAGTATTGCAGATAATTTTTTTCTTTCAAGGAAAGCAAGTCAGGAGTCAAACTCTCATGCCAC
Y
GTAGTCACAAATGAAATTTATTGCTAATCAGCCATGTGACGTGTAATTGCTTTTTCATTTTCTTATTTTTCCAGAAGAGAGATTTGTTTAGATGTTTGAT
Celera SNP ID:            hCV11527384
SNP Position Genomic:     23658
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2300):
CTGCAAGAGACTTCCTGGGAGGGTGGTATCATTTGGCCTGTGGGCTTTTGTAACACTTTCCTGCTATTAGGAGAGTGAATTCTGAATTTTCAATCACGTT
S
ACCTGTTGGAGCAAGTAGAGTTTCAGACGGTCTCCGCTTTTCTCGACTAGAAAGCAGGCCTTCTCCCTTTTCCCCCCAGTCTTGTTTCATGACACCATTC
Celera SNP ID:            hCV11527385
SNP Position Genomic:     20630
SNP Source:               Applera
Population(Allele,Count): african american(C,31|G,7)   caucasian(C,26|G,10)   total(C,57|G,17)
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:2301):
CCACTGTAACTGTTTTCACTTGACAAATAACATTAAAAAACACAGTTCTGCAAGAGACTTCCTGGGAGGGTGGTATCATTTGGCCTGTGGGCTTTTGTAA
Y
ACTTTCCTGCTATTAGGAGAGTGAATTCTGAATTTTCAATCACGTTCACCTGTTGGAGCAAGTAGAGTTTCAGACGGTCTCCGCTTTTCTCGACTAGAAA
Celera SNP ID:            hCV11527386
SNP Position Genomic:     20583
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,10)   caucasian(C,37|T,1)   total(C,63|T,11)
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:2302):
GGGGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCACCACCTGGGTTCAAGCGATTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGATTACAGGTGTG
Y
ACCACCATGCCCACCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCAC
Celera SNP ID:            hCV9307062
SNP Position Genomic:     293521
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:2303):
GTGGCATGATCTCAGCTCACTGCAACCTCCACCACCTGGGTTCAAGCGATTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGATTACAGGTGTGCACCACCA
Y
GCCCACCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCT
Celera SNP ID:            hCV9307063
SNP Position Genomic:     293529
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:2304):
TTTTCACCTTTGGCTTTTAATAAGGGAAGGGTATTAGAAAAAAAGTAATTTGTATGATGAAGGGTGATTTGTGCGTGTGTGCAGACAGACACACATGCAG
R
GAGGCAAATCAGAACCGATGCGTGTTTGGCTTTGGCTTGTTTCGCTGGTGTCTGGATTTACCTGGCGACACTTGTTGCTCTGGGGGATCTTAGAGGGAAG
Celera SNP ID:            hCV27491978
SNP Position Genomic:     266539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2305):
GTGCAAACAGTAACGTGTGCGCACGCGCAGCGGGGTGGGGGGGGAGAGAGAGTTTTAACAATCCATTCACAAGCCTCCTGTACCTCAGTGGATCTTCAGA
W
CTGCCCTTGCTGCCCGCGGGAGACAGCTTCTCTGCAGTAAAACACATTTGGGATGTTCCTTTTTTCAATATGCAAGCAGCTTTTTATTCCCTGCCCAAAC
Celera SNP ID:            hCV8723103
SNP Position Genomic:     314060
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:2306):
ACCATAATTCTGTGCTAAGTCAGAATTAATGTTATTTTGTTAATTCAGGTTATTGTGAAAATCTCCACAGGAGGTTATTTAAGCAAGTCACAAATTGATG
W
TTCTGTTTGTAGAAAAACTCCAGCTCATCCAGCCAGCCACATTATTCCAGGGCTGCATGGTGTCAGCGTAGGGACCAGGCTCGGTGTAGAGACCAAGGGT
Celera SNP ID:            hCV8723035
SNP Position Genomic:     123347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)   (A,-|T,-)   African American (pooled) - WICGR(T,15|A,85)   Asian (pooled) - WICGR(A,84)   Caucasian (pooled) - WICGR(T,1|A,95)   total(A,264|T,16) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2307):
CTGTGGAATCATTTGAAAATTTCTGAAAACATGAAACAGGTGTTTATAAGGAGTTTTCTGACTTAACAAAATTGGTGAAATACCAACTTTACTAAAAACT
R
CTAATTCATAATTTTTTGATTAATAATTTCTAGTCTGGAAAAGAGGAATTTTTTGAAAATCACTGATATTTTTGATATACTGTTGTTTTCAAATTGAGTT
Celera SNP ID:            hCV8723036
SNP Position Genomic:     128705
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,7)      total(G,1|A,7) ;(A,-|G,-)   African American (pooled) - WICGR(G,6|A,94)   Asian (pooled) - WICGR(G,4|A,80)   Caucasian (pooled) - WICGR(G,3|A,93)   total(G,13|A,267)
SNP Type:                 INTRON


Context             (SEQ ID NO:2308):
GAGGGGCAGCAGGGCTGTGTTCAGTGCTCCCGCCGTACGCTTGTATGCGGGAAACCACTGCAGGCGGCCCATGAAGCCTCCTGGCCATGTGCGCCCTCCC
R
GTTTGGACCCCCTCCCGTGTGTCTTGGCTGCAGGTTTGAACTGATGCGCATGTGCTGGCAGTATAACCCCAAGATGAGGCCTTCCTTCCTGGAGATCATC
Celera SNP ID:            hCV189030
SNP Position Genomic:     313526
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,27)   caucasian(A,20|G,20)   total(A,31|G,47)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,8)      total(G,8|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2309):
CTAAGAAGGTGGGACTCCAGCGGCAATGCCTTGTCCATGTGCTAAGCCAGCCGAGGGCGCACGAAGTGCTGTGTGGTGTCCAAGCTGACTTGGGAGGGAC
M
AGTTTGGGGCCAGCCCCCCAGCCTCACTTGTCATGTCCCACCTCTGCTGGCATCTGTGGGCTTAAAGTGCCTTCACTCCCATCCTTTTCAACTATTTCTT
Celera SNP ID:            hCV11430893
SNP Position Genomic:     162856
SNP Source:               dbSNP
Population(Allele,Count): (A,-|C,-)   African American (pooled) - WICGR(C,14|A,86)   Asian (pooled) - WICGR(C,84)   Caucasian (pooled) - WICGR(C,96)   total(A,86|C,194) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2310):
ACCATAGATAACAGCTGTCACGATGGACAGTGTGGACCTGGATTAGTCCTTCTTGGGAAAGGAGAGTTTGGGTTTTGTACCGTGGTGGTTCTGGGTTCTG
R
GGGAAGAGAATGGAACCGTACGAGGTAAAACAGGAGACTCTGAAGGCCACTTGGCCATCCAGGCAGAAAGCCAGGGATGGAGAGGGGCAGCAGGGCTGTG
Celera SNP ID:            hCV189031
SNP Position Genomic:     313344
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:2311):
TGCCTTGTCCATGTGCTAAGCCAGCCGAGGGCGCACGAAGTGCTGTGTGGTGTCCAAGCTGACTTGGGAGGGACCAGTTTGGGGCCAGCCCCCCAGCCTC
M
CTTGTCATGTCCCACCTCTGCTGGCATCTGTGGGCTTAAAGTGCCTTCACTCCCATCCTTTTCAACTATTTCTTGATTAAAAAAAAAAAACAAAAAACTG
Celera SNP ID:            hCV11430894
SNP Position Genomic:     162882
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2312):
TAGCACTGCCACCATAGATAACAGCTGTCACGATGGACAGTGTGGACCTGGATTAGTCCTTCTTGGGAAAGGAGAGTTTGGGTTTTGTACCGTGGTGGTT
Y
TGGGTTCTGGGGGAAGAGAATGGAACCGTACGAGGTAAAACAGGAGACTCTGAAGGCCACTTGGCCATCCAGGCAGAAAGCCAGGGATGGAGAGGGGCAG
Celera SNP ID:            hCV189032
SNP Position Genomic:     313334
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2313):
TTTGTTTCTTAGCACTGCCACCATAGATAACAGCTGTCACGATGGACAGTGTGGACCTGGATTAGTCCTTCTTGGGAAAGGAGAGTTTGGGTTTTGTACC
R
TGGTGGTTCTGGGTTCTGGGGGAAGAGAATGGAACCGTACGAGGTAAAACAGGAGACTCTGAAGGCCACTTGGCCATCCAGGCAGAAAGCCAGGGATGGA
Celera SNP ID:            hCV189033
SNP Position Genomic:     313325
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2314):
AAGGAGGCAACTTGGTTTCATAGGGAGTGTCATGTTGTCCTTCTGAGTTTACTGATGAGCTTACCTGAGAAAGGAGGGTTCTAGCATGGGAGTTCTGTTG
Y
TACAAGACATGAAAGAATGGCCTCCGTTTATCCCGGAGAGGAGAGTCCCTGAGCCCTTGGGAGTTGCCTTGAAACCTCTGCCGGGTCCCAGGTGAGAAAG
Celera SNP ID:            hCV11713642
SNP Position Genomic:     309517
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:2315):
GGAGCCCCGGCCACAGCCGGCAGGACTCCCTTTGCTCCATGTGACTCTGAGGGCCTCACAGGTATTTGCAGCCCAGGTGCTGTCGGAGCCCAGCCGATGC
K
ACCGACACACAGCACAAGCGTCATCCTGTTCTGCCTGTCCCTTGCGTGTGGAGGGGACTCGTGCCCAGGGCTCTCCTTGCTGGCTTGTTGGAATCTGGCT
Celera SNP ID:            hCV189034
SNP Position Genomic:     312763
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:2316):
GCCCACTGATCCAGGAAGAGATTCCTTTGACCTGGGAAGTCATAATGGCAGATATTTAGACCCAGCTCTCAAGCAAGCCTCCAAGTTGTTCCGGTGAACC
Y
GTAACTTTGAGTAACCTCTGATTGAACCAGAGAGTAGGAACTAGGTGCAGAACCTTGTTGAATAGAATTGTTTAGCATCGTCCATTTGTTAGAGCATTTC
Celera SNP ID:            hCV11713570
SNP Position Genomic:     227699
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2317):
AGGAGAGTCCCTGAGCCCTTGGGAGTTGCCTTGAAACCTCTGCCGGGTCCCAGGTGAGAAAGTGTGTGAGTTGTGTGGTTCTGAGATCTGAACAGGCACC
R
TCTGGTGACACTAGGGGCTGAAGGAGCTCGGTGGCTGCAGGTGGACTGGAGCTCACCATCAGGAAGTAGCCAGATTCTCACCCCTCAGTGTCACCGAGTG
Celera SNP ID:            hCV11713644
SNP Position Genomic:     309656
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:2318):
GTTAGGGTATTCTCCTTGAGGAGCTCAGAATAACCAAAGGTAAAGCATTTGGTGGTATAAGATATATTCATCTTAAAAATAAGTTGAAAATAATAAGATA
Y
TGGGAGATGTTAGCCACCGAAGTAAATAACTACAGTGAAATAGCTCTTTATTAATTTTGAAACCTAAAGTTGAAAGAGTTCCGTATTATTTGTCAGTATC
Celera SNP ID:            hCV11430897
SNP Position Genomic:     164700
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   African American (pooled) - WICGR(C,39|T,61)   Asian (pooled) - WICGR(C,6|T,78)   Caucasian (pooled) - WICGR(C,1|T,95)   total(C,46|T,234)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2319):
CCTGGCTTTCAGGAAACGTAGTGACGTAAAAGGTCCCGGCTGCTGCGGGATAAGGGCCAGGGCAGAGGTGTGAACGCAGCCGTGGAAGACTTGGGCCAGG
R
AGCCATTTGTTCTGCTGCTAACACTTCCACAGCTCCACGTGTCCAGACTGTTGCCAGAGACGTCTTTGGTCTACAGGATTCAGGAGGGAATCTGAACTTT
Celera SNP ID:            hCV11713645
SNP Position Genomic:     310128
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:2320):
GAAAAAGATAATCCAGCCTCACCAACAGCCACAGAATTGAAATGAGATACCTGTTTCTGCTTCTGGCATTGGGAAAGAAAGAAAAATGGCACTAGCAGCC
T
TTTTTTTTTTTTTTTTTTTTTTTCCCCAAAAAATTTGCTACTCTTGAGGTTCTGTCAAAGAATGTGCTGTGGCCTCTAGAAGCATTTTTAAAAAGAGACT
Celera SNP ID:            hCV11713573
SNP Position Genomic:     233972
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2321):
AGAAATGATTGGGGATAAAATTGTTTGCATTATGAAATATTGTATGGCCAGGTGGCCCCTCTTTCATGTTTTGTTCCTTGTGAAGAGGTTGAGTCTCCTA
T
TTTTTTTTTTTTTTTGGAGATAGAGTTTTGTTCTTGTCCCTCAGGCTGGAGTAAAATGGTGCAATCTTGGCTCACTGCAACCTCCGCCTCCTGGGTTCAA
Celera SNP ID:            hCV11713575
SNP Position Genomic:     242296
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2322):
TATCATAATATGCCACCTACTCTGGTTGTGTCTTACAACTGTAGCTCTGTGGGGTTTTTTTTGTTTGTTTTATGCTTGCTAATGGGGGAGGTGGGGGGTG
K
GGGCGGATGAATATAAATGATACCTAGAAATTGAAATTGGAAAAAAAAATGTATTCAGCCAGTACTCTTTCCAGGTTATAGCTAAACGTCAGTTGGCAAC
Celera SNP ID:            hCV9511032
SNP Position Genomic:     40868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2323):
TGGGATCCTCCTGGAGGCTTAGTAGGGCTGCCCTGAGCAGTATTGTCTTCTCCAGCTGGGCCTCTGAGCTGTACCATGTGCCCGTGCTCAGCCTCAGTCC
M
TCCCTCAGCCAGTTGTTAAATCACTTTGGACGTGTGACAGCCTCAACATGTCACAGCTTTAAAAGTTCAGATTTTAAAAAGGTAAGGAAATGATCTCCTA
Celera SNP ID:            hCV9511033
SNP Position Genomic:     40505
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:2324):
TGGTCCTGAACACTAATAATATTTATATACATTGAGATGAGACAAAATTTACAGCGGGCTCTGGGGCTGGCTCCAGGACTCTCTAATCCCACACTTGCTC
R
CGTTCTCTTGCTTGCCTCCTAGAATCCTTTCAGGTTGTGCTTCAGTGAGGGGAGCATGGTGTCCGTCTCTGCAGCAATGCTTATTTATGCAGTTCGTCCT
Celera SNP ID:            hCV11713576
SNP Position Genomic:     243326
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,8)   total(G,2|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2325):
TCTGAAGAGCAGCCTCGGTGCTCCAAGATGGGTGTATGCTTAATACTGCTGGCACACGCCTGACGAGCGGGAATGTGAGCGTTGTTTCTGTAACCAGTTT
Y
ACTGAACCTCACAGATCCATTATACGACGTGAATTTTGTGGGAATAACATAGGCTGGGAGTCTGCTCTCTTCCAGCCTGGTCCCTCTCTTCTTTCAGCCC
Celera SNP ID:            hCV11713577
SNP Position Genomic:     244198
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2326):
AATAATCCACCCCTTGTTTAGCGTGTCATAAAAATGGGCAACCAGCAGCCTTCCAGGCTGCTCTGTGTATGGAGTAGCCATTCTTCTGTTCCTTTACTTT
Y
CTAATCAGCTTGCTTTCAGTTTACAGACTCACCCTGAATTATTCTTGCGTAAGATCTAAGAACCCTCTCTTGGGGTCTGGATCAGGACTCCTTTCCTGTA
Celera SNP ID:            hCV11713579
SNP Position Genomic:     247063
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2327):
GGTTTGACTATCGAGTTTAGATTTTAAAGTTGAGGATTGTTTCTTTAAGAAGAAATATAGAATATTATTCAGTCCTAAAAAGGAAGGACATTCTGACACA
W
GCAACAGCGTGAATGAACCTTGAGGACATTATGCCAGGTGAAATCAGCCAGTCACAAAAGGACAAATACTCTATGTGATTTCATTTAGATGAGGTTCCCT
Celera SNP ID:            hCV8723043
SNP Position Genomic:     131002
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:2328):
GCCCAGCCAGATTTTATTTCTTTAAAAAAGAAACTTACTAGTTATCAGGACACTTGTGTTCTTGGTACTTGATTTTGTCAGCATTATTTTTAAGAGCCTC
K
TCCCTCCTTCCCCCTACCTCCCTGTTGAGCCCAGGCTCTGAAATAACATAGGTGCATGTGAAGTTCCCCTACCTGCCATTACCAGACATTGGTGCTGGGC
Celera SNP ID:            hCV8723045
SNP Position Genomic:     133042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2329):
TGTAACATGGGGGTATATTATAGTCAGTAGCACCTGCTTCACAAACTCGTGAGGACTTCAGCAGTTCACACACATAACTGCCTCGCTGCCTGGCACCTAG
Y
GTGCACATGGCATTCTACCGTGGGGTAGACTTTTAAAATTCTGGCTACAGAGATACTTTTCCATAAAAGTGGCCACATGGAACTCTCCAAATCTAAGAAG
Celera SNP ID:            hCV11713650
SNP Position Genomic:     311703
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2330):
TGCCTGGTCATGCAGAGACGGAGCTGGGAGCAGCTGCATGACTTTTCAGAGAAGTGGCACACGTTTACTGTAAGGGTCCCAAATGTAGACCACTGCAGAT
S
GTAAGGTCTAGATGGAGGGACCAATAGTAGGGAAGTAGGGGAGAAGAAAGTAAAACCTTACAGTATAAAGACCCATAGATGCTCTTTTGTTTTTGATGTG
Celera SNP ID:            hCV8723048
SNP Position Genomic:     134346
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   African American (pooled) - WICGR(C,9|G,91)   Caucasian (pooled) - WICGR(G,96)   total(G,187|C,9)   no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2331):
GAGGGACCAATAGTAGGGAAGTAGGGGAGAAGAAAGTAAAACCTTACAGTATAAAGACCCATAGATGCTCTTTTGTTTTTGATGTGTGTACGGGGGTTAG
R
TATTTATTGAGCACCTACTGCATGACAGAGTGTTCAGCAATGACAATGCAGAGCTTAATAAGAACAGGTTCTAGACTAATCTTTTAGGGGGTGAGGATAG
Celera SNP ID:            hCV8723049
SNP Position Genomic:     134461
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,17)      total(G,2|A,17) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2332):
CCCTGTGAGGCCAACGAGGGCACCAGAGCACACCTGGGGGAGCCACCAGGCTGTCCCTGGCTGGTTGTCTTTGGAACAAACTGCTTCTGTGCAGATGGAA
T
GACCAACACATTTCGTCCTTAAGAGAGCAGTGGTTCCTCAGGTTCTGAGGAGAGGAAGGTGTCCAGGCAGCACCATCTCTGTGCGAATCCCCAGGGTAAA
Celera SNP ID:            hCV11713653
SNP Position Genomic:     316958
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,10)   total(-,10|T,3) 
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:2333):
AAGGATACAAGTGTGTGTCATTGTGTACATAAAGTTTCGGTCTCACCCCTGTACAATGACCTTTATTTGCAATAGATGGCATTCCTGGTAAGTTGCTTCT
R
AGTTGGATTTGTGCAAAGGATTTCCCACTGACTTAGCCTATGATCTCTTCACTTCTTTGGTTTTTTGTGTGTTTGTTTTTTGGTTTTGTTTTGAGACAGG
Celera SNP ID:            hCV11713580
SNP Position Genomic:     253991
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2334):
CAGCAAGGGCATAGGTACCTGCCATTGTGCACCAAAGTCCCTTTCCTCATGGCCCTGGCTGTTCTCCTGCATGGGGTCATGTGTGTCCCGTTACCAAGTT
R
TGGCCCCTTTTCAACCTTGAGTGCCACATCTGGGCTGTTGTAGGCATGGGTAGTACAAGCTGGGTTTGTTACTCTAAAAATGAAAGGGAGGATCAGTTGT
Celera SNP ID:            hCV25990091
SNP Position Genomic:     158512
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,28)   caucasian(G,38)   total(A,2|G,66)
SNP Type:                 INTRON;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:2335):
GCTGATTTCTCTGCCTCTTGATTTTTCTCTGTGTGTTCCAAATAATCTTAAGCTGAGTTGTGGCATTTTCCATGCAACCTCCTTCTGCCAGCAGCTCACA
Y
TGCTTGAAGTCATATGAACCACTGAGGCACATCATGGAATTGATGTGAGCATTAAGACGTTCTCCCACACAGCCCTTCCCTGAGGCAGCAGGAGCTGGTG
Celera SNP ID:            hCV11713655
SNP Position Genomic:     318110
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,12)      total(C,12|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:2336):
TGTTTGGAAAACAGAGATGTTATCACCCTTACTGGATTTTGCCTCATCAGTCAAGGGTTGCGTGTCTGACTGTGACCAGTGAGACGGCAGACGGGGGTGC
R
CTTAGGGCTTTTCTGCCAAGAATGACAGCAGTTGGTCTGGAGTGCTCACCTCCCTGTGAAATCATTGTTCGCGCGACCCTCATCTGCCTCAGGATGCTGT
Celera SNP ID:            hCV11713582
SNP Position Genomic:     256399
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;JBIC-allele(A,654|G,846)   total(G,846|A,654)
SNP Type:                 INTRON;UTR 5;TFBS


Context             (SEQ ID NO:2337):
GTCTAGTGTTCTTAGCTGTCACGTTGGCTCCTTCCAGGGTGGCCAGACGGTGTTGGCCACTCCCTTCTAAAACACAGGCGCCCTCCTGGTGACAGTGACC
Y
GCCGTGGTATGCCTTGGCCCATTCCAGCAGTCCCAGTTATGCATTTCAAGTTTGGGGTTTGTTCTTTTCGTTAATGTTCCTCTGTGTTGTCAGCTGTCTT
Celera SNP ID:            hCV11713656
SNP Position Genomic:     318752
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,11)      total(C,11|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:2338):
TAGATTTTAAGTGTTCTCACCACACACAAAAAAATGTGATGTAATACATATGTTAATTAGGCTCATTCAGCTGTTCTACAATGTATGCATATTTCAAAAC
A
ATATGTTGTACATGATAAATATACAATTTTTATTTGTATATTAAAATTAATTAATTTTAAAAAAGATCTCCAGTAGTCACCTGGTCAGCACCAGATATTC
Celera SNP ID:            hCV452872
SNP Position Genomic:     283038
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2339):
TCACCCTTACTGGATTTTGCCTCATCAGTCAAGGGTTGCGTGTCTGACTGTGACCAGTGAGACGGCAGACGGGGGTGCGCTTAGGGCTTTTCTGCCAAGA
R
TGACAGCAGTTGGTCTGGAGTGCTCACCTCCCTGTGAAATCATTGTTCGCGCGACCCTCATCTGCCTCAGGATGCTGTACTCTACTACGCACAACTGCTC
Celera SNP ID:            hCV11713583
SNP Position Genomic:     256421
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;JBIC-allele(G,666|A,831)   total(G,666|A,831)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:2340):
TAACCTAGTCTCACCAGTTAGTCTATGCCACCTTTGCAGCACCCAGAAGCTTCATAATATTCCTGCAGCCTTGTCCAGGGTAGTGGCTTGCTTGCTTTCT
R
TCTTTCCCCAGCCTCCTTCCCTCCTCTTTTTCCTCCCCTCCATCTCCTAGAAACAGATCCTAGTTTGGGGGTCTGTGATCTGTGAAACAGCAACCTTGGC
Celera SNP ID:            hCV452873
SNP Position Genomic:     283432
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2341):
TTTCTAGACTAAGCAAATGATAGACATAGAGGTGAATGCTGAGAGGAGAGTTTAATTAATTTCCATTAGGAATTATTATGTGGTTACCTTTTCATGGAGT
S
TTAACTAAGTATTGTGCACTTAAATGTAGTTAGAAATTAAAGCCTGATTTTTATTTGCAAGAATATTTATGATGTCTTTCTCATTATCTGAAACTTGCAT
Celera SNP ID:            hCV11713584
SNP Position Genomic:     257519
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,9)   total(G,9|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2342):
AGATCCTAGTTTGGGGGTCTGTGATCTGTGAAACAGCAACCTTGGCTTCTGGGGTTGAGTGAACTCAGCTTGTTTTGGTGACATGACATGTTCCTGTCTG
S
CTTTGCTGCTCCATTTTTAACCTTGTAAGTGCCAGGATGCCAGTGGGAAATCGGGAGTCCTTCTGATAGAATTTTTCCAGCAGATGTTATCACGTACTGC
Celera SNP ID:            hCV452874
SNP Position Genomic:     283587
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:2343):
TTAAAGCCTGATTTTTATTTGCAAGAATATTTATGATGTCTTTCTCATTATCTGAAACTTGCATAAAACCTGAAGCATCAGCAAAATCTTTTTAAGGTTG
Y
GTGCTCAGGTGTTTGGGAGGCTTTCCAGGTAAGCCCGGGCCCCTGGCCTGCTCTTACCATTTTAGATGCAGGGGAGGGCAAGTGGGCCTTGGGTTTTCCC
Celera SNP ID:            hCV11713585
SNP Position Genomic:     257656
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:2344):
GTCACAGGGATCCTGGCACAGAGAAGAGTTACGAGCAGCAGGGTGCAGGGCTTGGAAGGAATGTGGGCAAGGTTTTGAACTTGATTGTTCTTGAAGCTAT
Y
AGACCACATCGAGGCTCAGCAGTCATCCGTGGGCATTTGGTTTCAACAAAGAAACCTAACATCCTACTCTGGAAACTGATCTCGGAGTTAAGGCGAATTG
Celera SNP ID:            hCV11713659
SNP Position Genomic:     319247
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:2345):
AGTGGCCACAGTCATGTCACTGGGTAAAGTGCTTATTGAAACAAAATTGGCACAGGCTTCTGATCCTGCGTGTGGGTTGGTGTAGCAGAGGTTCAGTGCA
R
CAGAAGAAGTTTTTCATCTTAAAATTTGGAAGTAACCCCTGGCCAGCAATTCACTGTAGTGTTTGGGAAACATAGGAATATCTGCTTATTGTGACAGATT
Celera SNP ID:            hCV11713589
SNP Position Genomic:     271081
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:2346):
TGTGCGCACGCGCAGCGGGGTGGGGGGGGAGAGAGAGTTTTAACAATCCATTCACAAGCCTCCTGTACCTCAGTGGATCTTCAGAACTGCCCTTGCTGCC
Y
GCGGGAGACAGCTTCTCTGCAGTAAAACACATTTGGGATGTTCCTTTTTTCAATATGCAAGCAGCTTTTTATTCCCTGCCCAAACCCTTAACTGACATGG
Celera SNP ID:            hCV27846840
SNP Position Genomic:     314075
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(C,28|T,2)   total(C,62|T,2)
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:2347):
AGGAGAAGCCGATGTGTGAGAAGACCACCATCAACAATGAGTACAACTACCGCTGCTGGACCACAAACCGCTGCCAGAAAAGTAAGAATGATGCTGACTG
Y
TGCTTTCTCTCTGCCTCTCTCTCTCCTCTCCTCCTCCTTGACCTCCCTTCTCTTCTGAGTGCACGAGTTCCGCTGGGCAGGGTGCAGTCGTGTTGCATTT
Celera SNP ID:            hCV25473658
SNP Position Genomic:     64581
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,4)   caucasian(C,12|T,8)   total(C,46|T,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:2348):
TTTGCCTATCCTTCCACTTCACAGATGAGAAGACTGAGACCCAGAGAGGGTCATGGTTTTCATTAGCCAAATGGTGCAGAAACCCAGTGGTCACAGTGGC
Y
CTCTAGCTCTTTGTCACCCACAGGGCCCTTGATAAGAGTACGGTCTTTCTCCAGGGGAGCAGGGTTGAGGAGTGGGGGCAGCCCTGGCCTGGGTGGCCAT
Celera SNP ID:            hCV8723050
SNP Position Genomic:     134982
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,14)      total(C,1|T,14) ;(C,-|T,-)   African American (pooled) - WICGR(C,11|T,89)   Asian (pooled) - WICGR(C,8|T,76)   Caucasian (pooled) - WICGR(C,3|T,93)   total(C,22|T,258)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2349):
GGACATTCCGTCTGCGGGGAGCCGAGTCCGAGGCTGGAGCAACTCTGGAACCACAGCCCTCCAGTAGAGGGCACACGAGAGCAGGCTATCTGTGGAGATA
K
CCTGTTGGCACAGGGGTGAAGATGACAGAGGCGAACCCAAGCAAAGAGAGTTAATTAGCAGAGTTTGCCCTCCAGGCTCGGAGGGCAAGTCAGCCTGGGG
Celera SNP ID:            hCV8723054
SNP Position Genomic:     136283
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,5)      total(G,3|T,5) ;WICGR7_african_american_pooled(G,5|T,95)   WICGR8_asian_pooled(G,7|T,77)   WICGR6_caucasian_pooled(G,7|T,88)   total(G,19|T,260)no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2350):
ATCCTTAGTCTCCAGCGTGATTGCATTTTGCCAAGGCTTTGTCCCATGTCCCTTTGTCCCGTGTTCCATTTGCCCGTGGTGTTGCCTAGAGAGCATGGAG
R
GGCTGGTGGAGCATGCTCTGTGGTTCCCTAACCCAGGGCTGTGTGGGGAGAGCTTGCAGCACCCCCCTGACCCCATATGAACGTCCTTGCTATTTCCTGC
Celera SNP ID:            hCV1599405
SNP Position Genomic:     49496
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2351):
TCCATCAGCATAATTCCTTATAGATTCATTCAGGTTGCTGTGTTTATCAATAGTTTGTTTCTTTTTATTGCTGAATGGTATTCTGTGGTGTAAATGTACT
R
CATTCCATGAGCATGGCATGTCCCTCCATTTATTTAGTTTTTCTTTGATTTACTTCATTAGCATTTTGTAGTTTTTGTAGTCCTGTGTATGTTTTGGTAG
Celera SNP ID:            hCV8723055
SNP Position Genomic:     139988
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2352):
TGAGACTTTGGGTTTTGTTTTCCTTTACACCTTGAGCTTTGTTCTACAGCAGGTCCCTGGGAAGACTGGTCCACAAAGCTGCTGAATGGGGCTGCTGTCC
W
TCAGCCCTGCCTCCTGCTGCAGAATGCAGAGGACGCTGTAGACTTGCTTGGTGGGTGCCTGGGGTTTTCTGCCTCCCTGGTGCACTGGGCACAGCGGCTT
Celera SNP ID:            hCV1599406
SNP Position Genomic:     49892
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:2353):
TAAACAGCAGAATATTCCAGGAAACCTTAAGTGATAACTGAGTTGAAAGAGTCATATTTTTTAAGCAATACAATTTAAATAATTTTTAAAGGAAACATTT
M
TAAAGGACGTTTTACATTGCTTGCATTAAAAAGAATATAATGAACATAATCCAACTTTTTCTCAATACTCAGGGTCATCACTGTGAAAGTAACTTCATTC
Celera SNP ID:            hCV8723056
SNP Position Genomic:     176866
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,13)      total(A,1|C,13) ;(A,-|C,-)   Caucasian(C,84)   African American (pooled) - WICGR(C,100)   African-American(C,84)   Asians(C,84)   Asian (pooled) - WICGR(A,1|C,83)   Caucasian (pooled) - WICGR(A,2|C,94)   total(A,3|C,529)
SNP Type:                 INTRON


Context             (SEQ ID NO:2354):
GAGACTTTGGGTTTTGTTTTCCTTTACACCTTGAGCTTTGTTCTACAGCAGGTCCCTGGGAAGACTGGTCCACAAAGCTGCTGAATGGGGCTGCTGTCCT
K
CAGCCCTGCCTCCTGCTGCAGAATGCAGAGGACGCTGTAGACTTGCTTGGTGGGTGCCTGGGGTTTTCTGCCTCCCTGGTGCACTGGGCACAGCGGCTTG
Celera SNP ID:            hCV1599407
SNP Position Genomic:     49893
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2355):
GGCTGATGATGGGATTGGCCTTCATGGGGCTGCTGTCTGGCTGGGCTGGTGGGCAGAGGTTCCTGTGGGTGTGGATGGAGAAATCCTAAATGCCGAGGGT
R
CCTGGTCTTAGTAGAAATCGTAGGATGCCTCAGTGAAGAAGTCAGGGATGCGGATTGTCCTCCGGATGCTTGGATGAGCGTGCAGTGGAAAAAGTACTCC
Celera SNP ID:            hCV1599408
SNP Position Genomic:     53357
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2356):
AAGTCTGTGCTTGCATTATGTATCAAAACTTAGTGCTATCTCCTCAGGTGCAGGGTTCTCTGGAACTCTGTCTAGGTTGGTCTCTTGGATGGCATTCTTG
S
AGACTTGCCGGAAAACCAAACAAAAGGTGTGAGTGCATGCCTCCTGGATAGATGTCTTTTTAGTGTAACTTAGCACACCTTGTACACTGTCAGGGCGCCT
Celera SNP ID:            hCV16133701
SNP Position Genomic:     102869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2357):
GCTTCTATGACTTATAATATTCACTTGTAGAACTCACTGGCCTTTGTCAGCTTTCAGAGTATGTGAACACTTTTTGCCATGTAAGTAGTTAGTCCATTGG
Y
AATGGATATATGTAAGTTGGTATCTTCACTGCAAACATTTAGTTAATTGCGTTTATTCTTGAGCCATTCTTGCTCTACCCTTAGGACTTGATTTTCAGTA
Celera SNP ID:            hCV16133702
SNP Position Genomic:     105216
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,7)      total(C,7|T,1) ;WICGR7_african_american_pooled(T,26|C,74)   WICGR8_asian_pooled(T,3|C,80)   total(C,154|T,29)
SNP Type:                 INTRON


Context             (SEQ ID NO:2358):
TATCGTATAACCTGGAGCACCCTCAAGCTGTCCGCCCTTTTCAAGTTTTAAAAATGGCTTAGGCAAACATATTGCTTAAGTGATATCCAGTGAAGGTGTC
Y
CCTGTGCTTTGAAAAACCATCAACATTGATGCTTTTTTGTGACCCAATAAGGACAAGATTTCAGTGGTTCTGGGATGCATTTGATCTTTATGCACACTTC
Celera SNP ID:            hCV11713590
SNP Position Genomic:     271593
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:2359):
GTTTTACCAGTTGTCGAAATTGCCGGAGTGCAGCACTGTGGAGAATGGCAGTTGTAATAAATGAGAAATACCAGGTGTTTGAATTAGCTGTAGATTTTCA
Y
ATTGTCTCTTCTAACCCTGCTTGTGCCCCCGCAGCCTTTTTCCATTTACAACTCAGTAATGTTTGTTTTCACAGAGATTACCGGAGGAAATAGATTATAA
Celera SNP ID:            hCV11713591
SNP Position Genomic:     272168
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,10)   total(C,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2360):
GTGTGACCGTTCATTCCTGTGGTTGTAATGTGCCTGAGCCCTAATATTACACGTATCAGACAACAGTGTAGTTCTCCATTGGAAACCAGCTATCTTCTGG
T
TTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCATGGCTCACTGCAATTTCTGCCTCCCAGGTTCAA
Celera SNP ID:            hCV11713592
SNP Position Genomic:     272757
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,6)   total(-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2361):
ATTATTACAATTTGATTTGAAATGTCTAGAGAAAGTGAGAGATTATGGAAATTACCATAAATGCTCCCTTTTTCATAGATTTAGATCTGTTAATTGCAAG
M
AATCTTTTTTTAAGTGAATCAATGGGAACTTTTTATTTCTTCCCTAAGATTCATTTAGCCTTGAAAAGGCCAAAAGTTGAATGAAGCTTCTAAATGCCAA
Celera SNP ID:            hCV16133706
SNP Position Genomic:     201240
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:2362):
CGGTTTATGTGAAATGTCTAGAATAAACAAATCCATAGAGGCAGAAGGTAGATGAGTGGTTGCCAGGGGCTGGGGGCGGATGGAATGGGGAGTGACTGCT
R
GTGGGCACAGGGTTTCTTTTTGGGGTGATGAAAATTGTTCTAAAATTAGTTTGTGGCGATGGCTGCATAGCTCTAAATATACTTAAAACCATTGGATTAT
Celera SNP ID:            hCV210484
SNP Position Genomic:     9249
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2363):
TTTGCTGAAGTCTTGACTGACTCAGTACCTGCCCCTCCCTCCATCTCTGAAATGTGGAGAATTAAAAGCTATGCCTGTGAACGGGCGTTCAGTTTTTAGC
S
GGGAAGGTGCTAGACCACTTAACTCTGATAGAAATAAGCTGCTGAGCCCTATCAGGGAGGGCGTTCTTTCAGCTGTTGTCTGGTGGAGAAATAAAGACAG
Celera SNP ID:            hCV210485
SNP Position Genomic:     8400
SNP Source:               Applera
Population(Allele,Count): african american(C,28|G,8)   caucasian(C,25|G,13)   total(C,53|G,21)
SNP Type:                 INTRON;MISSENSE MUTATION

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;MISSENSE MUTATION


Context             (SEQ ID NO:2364):
TCTGAAATTCAAAACAGCAGGGATGGCCTTCGCCGACGCAGGAGTCGGGCATTTTAAAATAGGCTGTTTTTCTTTTGGAGCGTTCTTCTTGAAGGATATT
S
TTTGTGCAAGACGGCGATTTTTGAGAACACAGGCAGGAGGGAGGGGGTGTTTTAATGTATGTTTTTACTCCATGATACCAAAGCTTCCCCCCAGGATCCC
Celera SNP ID:            hCV210486
SNP Position Genomic:     8134
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:2365):
TCAGAAACGTGAGGGTGCTGATTGAAGCTTTTTATAACTTTTCTTATTGAGAATTGTTCTCTGGAGTTGTCTCCAAGAACAAAGGAATTCCAGACGTTCT
Y
CTTCTCTCCTTGTCTCTTCTGTCCTCCAGTCAAAGAAAAACTCTGCATATGATCTTTGGCCTGGAGAAATATTAAATCTATGTTAAGTATGCAGACATGA
Celera SNP ID:            hCV9306362
SNP Position Genomic:     79752
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,34)   total(C,67|T,3)
SNP Type:                 INTRON

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:2366):
GGGCTAGGGTTAAAACCCGTGGAGTAATACGCCCTCCTATTGTGTTCCTCTCCTCTAAAAATGAAGGTGAAACTGTTTCAGGTGAGCGCTGTTGTTGTTC
R
TTTGCTGGGGCACTGCTTTCTGATTTTTAGAGGAGTCCAGGCTGGAGACTGACCCCTGCCTTTTTCTGAGTTGGGCCGGCTGGGCCCGAGGCTGGTTCTG
Celera SNP ID:            hCV25748321
SNP Position Genomic:     20073
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,21)   caucasian(A,2|G,34)   total(A,19|G,55)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:2367):
CAAATTTTGTGAGTTCCCTGGTAACTGACTGTATGGAAGACAGAAATAAAAATCAGAATAAACTTTTATTTTCTGAATCAGAAAGCAGTTGCTCCAGCTT
Y
TGGTGGTCACATTGCTAAGATGTAAAAAACAGAAGTTAGGTGAAATAAATTAAGAATAATTATTTTGGAGAAAGAGAGGGTAGTGTTTGACTAAATTAGA
Celera SNP ID:            hCV8723061
SNP Position Genomic:     179257
SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   African American (pooled) - WICGR(C,16|T,84)   Caucasian (pooled) - WICGR(C,1|T,95)   total(C,17|T,179)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2368):
TCACAGGTGTGAGCCACCACGCCCACCGGCCTCCCATCTTAACATTTTAAAGTGTTCAGTTTAAGTACCTTTACACTGCTGTCCAATCAATCTCTAGAAC
R
CTTTTCATCTTGAAAAACGGAAACTCTGTACCCATTAATAACTCCCATTCTCTCCTACCACAGCCACGGGCAGCCACTTTCTGCTGTCTCCGTGAGTCTG
Celera SNP ID:            hCV1599411
SNP Position Genomic:     54857
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2369):
TCTTTGTTTACAGGGAAAATGCTCTTGAGAAAATGGAGGTCATTAAACACTCCAGCTTCAGCAATATCATCAGAGCTTTCCGTCACGTGAGTTATCTCAC
M
AAAGGGTCAGATTCTGGTAAAAACTCTTGCCTTCACACTTACTTCTGTTTTATTTTGCCTTATTTGACATTTCACCAGAATTGATCCATAGGTTCAATAA
Celera SNP ID:            hCV8723062
SNP Position Genomic:     190912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2370):
TCAATCTCTAGAACACTTTTCATCTTGAAAAACGGAAACTCTGTACCCATTAATAACTCCCATTCTCTCCTACCACAGCCACGGGCAGCCACTTTCTGCT
K
TCTCCGTGAGTCTGACTACTTTGAGTACCTATGAGCAGAATCCGCAGGATTTCTCCTTTTGTGACTGCCTTATTTCACTTAGCATAATGTCCTCAAGCTC
Celera SNP ID:            hCV1599412
SNP Position Genomic:     54943
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2371):
GCTTAAGGAACATCATCCTCTGTTGGGCAGAATTCTTCCATGGCCACCCCAGCATTATGCCCCACACCATTTGACTTACTCATTTGTGAATGCCAACTCA
R
AATGTATTGCTTTGATTCTTGATTAGGATCTCAACCTCTATTTATTGTTAAGACTATCACCCTTTGATTCCCCCCCATCCCATTGTGTCCTTCTAAAGGC
Celera SNP ID:            hCV8723063
SNP Position Genomic:     205130
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2372):
GTGTTGGGACAGGGACGGACCGTGAGGAGGCTGGATCATGGGGAATGTGTTGCTTTAGGCCAAGCTGGAGTTGATAGTGGCTCAGATCAGAGCTAAAGTA
R
TGGAGACACACAGACATTGAAAGAATGATGAAATTCACTCATTCTGCGTGTGTCCCATGTCATGTGTCCGCTGCACACCAAGTACTGTTTTAGGCACTGG
Celera SNP ID:            hCV1599413
SNP Position Genomic:     61013
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:2373):
AGGAAAGACGTGGGGCAGCATTGTGGGAAGAGCAACCAAGATTCTCATAGGCTTGGGAGCGGAAGCCCTGAGGTCTGTTGCTGGACTAGATATGTGAGGT
K
TGAGAGGAGAGAAGAATCAGGAATGACTCTTTGATTCTTAACGTGAGCAACTCAGAGAATGAGAGTGCTGCAGTTTACAAGCTTGGAAGGTGGATTATGT
Celera SNP ID:            hCV1599414
SNP Position Genomic:     61350
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,12)      total(G,12|T,2) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2374):
CCAGTGGGACTTTTCTTCTCTCCCTCGTCTGTTCACTTATTCCGTCCTGCACTGGGCCACCAGATTAATCCTGCAAAAGGCCTCACATGGGCTTCTCTCC
Y
GCTCAGGAGCCTTGTGGGGGCTTTATTCCTCTGAGATGAAAGTTCTTATCCCCACATGTGATCCTTTATGACTTGGGTGCTATCAAATTCATTTCCTCAA
Celera SNP ID:            hCV1599415
SNP Position Genomic:     62251
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,7)   total(C,3|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2375):
ATTTCATTTCAGGTGCAGATGCCTTCACTTTCCCACAAAAAAAACCCCAACAAAACCTAAGACCTTACTGCAACTAAGTCTCCAAGTACTTTTTAACCCA
W
TGGGATGAACAGCCTGTGGTCTGCTCAGATCACCCTGAGTGCGTGTGAGAAGGCCTGGGCTTTGCCAGGAAATCCAGGAAGGCAGGGCCGGGCTGTGTTG
Celera SNP ID:            hCV1599418
SNP Position Genomic:     70293
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;UTR 3


Context             (SEQ ID NO:2376):
TCTCACCGTGGCCATTACGGGCTGCTGTTTACAAAAATCCTGCAGGCCTTTGACACCCCGTCCTCCCTTCCCCCGGCATCCCTGCCCTTATTCTGGCTTT
Y
TTCTCTTCCATCTCCTGGTGAGCACAGCATACTGTTCTCAGGCTTGTTTTCCTTTTATTGCTCTCCATGTGGGACAGGTCATGCTTTATCAACATGTACC
Celera SNP ID:            hCV8723069
SNP Position Genomic:     209350
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,10)   caucasian(C,38)   total(C,58|T,10)
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:2377):
GGTGAAGTTGGAAGCATCACTTAGAAACACGCCTCCTTTGGGCATATGGTGTGAATCAGGGACTCTGGCTATAAAAGGTGGGGTCTCTGAGCACCATCCT
R
GTTGGAATGTTCCCCTGACTTGGAGGTAGCGAGAGACAGCCAAGGTGTTTGTTCCAGGGAGGCTGGTGGGTGGGAGATGGGATTTTTCTGTCTGTGGCAC
Celera SNP ID:            hCV1599419
SNP Position Genomic:     72241
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2378):
CTTCCTGGGCCCTCCGTGCTCTTCTGAGTTCTCTTCTCAAATACCTGTTTTCTTGGGTCACAGGAGATTAGGAGATTAAAGCCATTCTCTCTGGTCCTGC
R
CCTCCCTTGCCAGGCGTGGCTAAGAGGTTTGTCCTTGTGGAAGGAGCTGAGTGGGTTGGTCGACCTGTGCTTTTCCGTGGGTACCTTAATTCTACCCCAT
Celera SNP ID:            hCV1834835
SNP Position Genomic:     305303
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,15)   caucasian(A,24|G,14)   total(A,37|G,29)
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:2379):
ATTATTTGTTTATTTAGACCTCCCATTATAGAAAGTGTGACATGCTGGGCCTCTGGGGAAGATTTTTGAGGGTTTTGATGTCAGAGCCCCGAACTTTCTC
Y
GAACTTAATTGTCTTTCAGACCCTTTAAGAATGTCACAGAGTATGATGGGCAGGATGCCTGCGGCTCCAACAGCTGGAACATGGTGGACGTGGACCTCCC
Celera SNP ID:            hCV25474542
SNP Position Genomic:     269519
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,30)   caucasian(C,19|T,11)   total(C,25|T,41)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   JBIC-allele(T,574|C,921)   total(C,921|T,574)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2380):
TGCTGTCCTCTGCAAAGAGGAATGCTTATCCCTGTTACTTATTCCTGGTTTCCTCCAAGACTAGTTTCAGCTGGACTTCAGTTGCCAAGGACTTGTCTTC
Y
GTAATGCCCACAGAAAATAATAATGCCACATTGTAAGGTGAAAACAGTAATCCTGGTATTTTTGTATTTTAGAAGAAGGTTGAAGGGAAAGAAAAGGATT
Celera SNP ID:            hCV1834836
SNP Position Genomic:     295090
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;TFBS


Context             (SEQ ID NO:2381):
AGGGGAGAGCACACCTGCAGTGAGGCAATTCACATAGCAAAGTTCTCCGGAAACTGCAGTGTTCAACTTTTTTAAAGAATAGCTGGATGTTAGAAAAGTG
R
AGGAACTGTCACCTTTATTAGGGGCATCATGGATACCTGGTAGCATCAAGGGCTAGGGTTAAAACCCGTGGAGTAATACGCCCTCCTATTGTGTTCCTCT
Celera SNP ID:            hCV25749200
SNP Position Genomic:     19923
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:2382):
TGCACATGTTAAAAACATTCTAGGATCCACACAGTTTAAACAAGGTGGCTGGCTTAGGAAATGCTTCTCCCCATTCCTTGGCATCCCCACAACCCTATTC
Y
CCTACTTTCTCTTATGTATCTGGACTGGCTTTTAAAAGATATTTAGTGAAATTTAATTTTCTAGGGAAACTCCACTTTGTCAAAAGTGTAGTATTCCTCA
Celera SNP ID:            hCV16087686
SNP Position Genomic:     97306
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2383):
CTGATGCCGAATCCACTTGGCAGCACTGAGTTACAAGAAGGTTAAGTAGATGAACTAGAAGATGGATAAACGAAGATAGATAAAATGAAGAAAAACAAAA
R
TCAAGGAGAACTCAGGCGTCCAAGAGTGTGTAAACAACTTCTGGTGTGAGACGCGCTACATTGCGCTAAATGGCCTGTGCGCTTCTGGTTTTTCCCTTCC
Celera SNP ID:            hCV15910812
SNP Position Genomic:     177615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2384):
ATCCAGTATGACTGCTCTTCCATAGATGATGAAACCAAGGCAGAGAAATAAGATGTAACTCTCTTACCTTGATTAGTGATGAGAATGGGACAGCTTTATT
Y
ATGAAACCCGGAAACCACTAGCCCATTCTTGGGATGATTGATATCTGCAAGGATCTTCAGGAATAGAGTACCTGGGGCTCAGGAGCCAAGACTAGAAGTG
Celera SNP ID:            hCV15910813
SNP Position Genomic:     178175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2385):
AAAACAGCCTGCGTATGTTCTTGCTTGCAACTCAGATATCCAGCCCACTGATCCAGGAAGAGATTCCTTTGACCTGGGAAGTCATAATGGCAGATATTTA
R
ACCCAGCTCTCAAGCAAGCCTCCAAGTTGTTCCGGTGAACCCGTAACTTTGAGTAACCTCTGATTGAACCAGAGAGTAGGAACTAGGTGCAGAACCTTGT
Celera SNP ID:            hCV8723070
SNP Position Genomic:     227657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2386):
CCATGGATCTGTGGTTATTAGATACTGATTTCACTTTAGCACACGAAGAGGCTTAGCGGAGGTGGCTTCTAATATCCTATGGTTCTGTGGGCTCGGAGAT
R
CTACTCACCCACTTGTCAGAGGCATTGAAACCAGAGCAACTGCATCTTGAATAGGAGCTAGGTAAAATGAGGCCGAATTCCCAGACAGTTAAGACATTCT
Celera SNP ID:            hCV8723071
SNP Position Genomic:     246636
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:2387):
CTGTGAGCTTGCAAAACGCATTTTTAAGGAGTCTCAACTTTTCTGATTTGTGTTAAAGTTTAGGTGTGGGTCCCAGAAATGAGTTTCATGGAGGGGAGAG
S
TTGTCTCTCTGGGTGGGTAATACAGGGGCCACTGGGGGCTCACTGTGGCTTTCTGGCACAGACAGTTATGAAGCAGGGGTTACTAAAGTGGGAGAGAGCA
Celera SNP ID:            hCV1599422
SNP Position Genomic:     80794
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:2388):
GTGGGTCCCAGAAATGAGTTTCATGGAGGGGAGAGCTTGTCTCTCTGGGTGGGTAATACAGGGGCCACTGGGGGCTCACTGTGGCTTTCTGGCACAGACA
K
TTATGAAGCAGGGGTTACTAAAGTGGGAGAGAGCAGCCAGTTCTCCAGCAGCCCCAGTGAGAGCTCTCATGGATCTGCCTATTGCACTGGGGTAGGAGCC
Celera SNP ID:            hCV1599423
SNP Position Genomic:     80859
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:2389):
AGTTTCATGGAGGGGAGAGCTTGTCTCTCTGGGTGGGTAATACAGGGGCCACTGGGGGCTCACTGTGGCTTTCTGGCACAGACAGTTATGAAGCAGGGGT
K
ACTAAAGTGGGAGAGAGCAGCCAGTTCTCCAGCAGCCCCAGTGAGAGCTCTCATGGATCTGCCTATTGCACTGGGGTAGGAGCCATCACCGTCAGCTTTT
Celera SNP ID:            hCV1599424
SNP Position Genomic:     80875
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:2390):
GAAATAATTTCACCTGCCCTGTGTAATTCTCTGGAAGAATCACAGTGAGTTGGAAGGAAACTTAAGACTTGGAAAAGGATTGAGAGGTTAGCCCAGACCA
Y
ACCAGGGCTCTGAAGGCCCAGCTGGGGTTAGAACCTGGGACACCCTCCAGCCCACTGTCTCCTGTTCCCTGGCCATTTACTGCCCCACTCCCCTTTCTAC
Celera SNP ID:            hCV1599425
SNP Position Genomic:     81485
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:2391):
ATCAGTGACATATGTAAATGTTTTAGGGAGCTGTTTACTGTAACATTACCTACTTTAGCTCTGTGCAGTTGTCTGGCAACCAATGTGATAAAGACAGAGG
R
AAGTGCTGTATTTTGTTGCTGACAAGTATATCTTAAAAGTGCAGGTGCACCTGAATAGGCAATAAAGTATTAAGAGCTGCTCCTGGAGCAGTTTGCTCTC
Celera SNP ID:            hCV27850815
SNP Position Genomic:     183276
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,27)   total(A,1|G,59)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2392):
ACATGGTGGCAGCAAGAGAAAATGTGGAAGAAGCAAAAGTGGAAACCCTGATAAACCCATCAGATCTCGTCAGACTTATTCACTATCATGAGAATAGCAC
R
GGAAAGACCAGCCCTCATGATTCAATTACCTCACCTGGGTCCTTCCCATAACACATGAAAATTCTGGGAGACACAATTCAAGTTGAGATTTGGGCGGGGA
Celera SNP ID:            hCV1599426
SNP Position Genomic:     82373
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:2393):
GCTCCTGGAGCAGTTTGCTCTCTGTGACGTGTGAAAAGTCTACGGGGTTTATAATTGGTCTGGCCATACGGCTGCCTAGGATTAGACTCTTTTCATATCC
Y
ACTAAACACTCTCCTTAGAAGCAAGCACAAGGAGATAGTTTATTTTAAAATGTAATTGCTATGTTACTAAGATTTGAATTTGAGTACCGAGAATAAACCA
Celera SNP ID:            hCV27850816
SNP Position Genomic:     183455
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,24)   total(C,53|T,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2394):
AAACCCTGATAAACCCATCAGATCTCGTCAGACTTATTCACTATCATGAGAATAGCACAGGAAAGACCAGCCCTCATGATTCAATTACCTCACCTGGGTC
Y
TTCCCATAACACATGAAAATTCTGGGAGACACAATTCAAGTTGAGATTTGGGCGGGGACACAGCCAAATCATATCACCCTCTTAGCAAGGACTGTGTTCG
Celera SNP ID:            hCV1599427
SNP Position Genomic:     82415
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2395):
TACTTCATTCCATCCTGGGAGACAGAGTCTCACTCTGTCTCCAAAAAAAAAAAAAAAAAAGAGAAGTTCGTTATAACAAATGCCATATGCCCTTTTGTAC
R
TGTCAACTGGACTTCTATAAATTTGTCATTGGTTTATGCTTTTGAAAATAAGATGTTAGCATTGTTTAAAAATGTGATAACTATAACTTTGAAAGCAAAA
Celera SNP ID:            hCV8723078
SNP Position Genomic:     249075
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:2396):
CTCAGCTTCCTTCTAAGGTCGTTGTGAGAGGTAAAGAAAAGGGGTTAGTCCAGGGCCAGACATGGCACAATGCCTCAATGAAATATTAGCTGATACTATC
R
TAATTTTTAAATTCCCATAGGACTCACTGTTAAAGGATTACAAGGCTGACACAAAAAATACTGCATTTTGAATTTGTGTCTGATTTATACATTTCCAAAG
Celera SNP ID:            hCV1599428
SNP Position Genomic:     85514
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:2397):
GAATCCCAGAAAGTAATAAGCACTTATTTTTCATGGAAAGGAACCGGAAGTGCTTGGTGACCTCCACAGGTAATCTTGTATTATTTTTGCACTGTTTGGA
R
TTTTTTAACCATGTGCTTTTATTTCTTCTATTCTTTTCAAAGGTCAGTAGGTGTTATCTGGACAATAGGGTTCTGGTCTGTTTTCTGTTTTCTTCATTGT
Celera SNP ID:            hCV1599429
SNP Position Genomic:     85889
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:2398):
GTGCAGTTGTCTGGCAACCAATGTGATAAAGACAGAGGGAAGTGCTGTATTTTGTTGCTGACAAGTATATCTTAAAAGTGCAGGTGCACCTGAATAGGCA
R
TAAAGTATTAAGAGCTGCTCCTGGAGCAGTTTGCTCTCTGTGACGTGTGAAAAGTCTACGGGGTTTATAATTGGTCTGGCCATACGGCTGCCTAGGATTA
Celera SNP ID:            hCV27831225
SNP Position Genomic:     183338
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,1)   caucasian(A,28)   total(A,59|G,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2399):
ACAGTTCTTGATTTTTTGGGTTTTTTTTCCCCCAAACATTTATCTACCTCACTCTTATTTTTTATATGTGTATATAGACAAAAGAATACATCTCACCTTT
Y
TCAGCACCTGACAATAGGCCGTTGATACTGGTAACCTCATCCACGCCACAGGCGCCACACCCAGGTGATGCAGGGGGAAGCCAGGCTGTATTCCGGGGTC
Celera SNP ID:            hCV27831226
SNP Position Genomic:     316614
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,4|T,6)   total(C,12|T,6)
SNP Type:                 hmCS


Context             (SEQ ID NO:2400):
TCAATCACGTTCACCTGTTGGAGCAAGTAGAGTTTCAGACGGTCTCCGCTTTTCTCGACTAGAAAGCAGGCCTTCTCCCTTTTCCCCCCAGTCTTGTTTC
M
TGACACCATTCCCCTCTGAGATGAGGGTTGGAGAATTAGAAGTCTACTGATGCATTGTACCGGGGCACGTTATTGACCCTCTCTGCTCTCCTTTCCTCAT
Celera SNP ID:            hCV25769604
SNP Position Genomic:     20719
SNP Source:               Applera
Population(Allele,Count): african american(A,37|C,1)   caucasian(A,38)   total(A,75|C,1)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:2401):
TCTTCTGAATTCGTTGATATCCCTTGTTGCTGTTCACAATACACCCACTCCCAGCCCTCCGTGATGGAGATAACTCTGTTCCCCACAACTAGGGCTTGCC
S
ACTCTCATGGTACTTCTGATGTTTAATTCTTTTGGCTGTGTCTGCATTTCCTCATTTACTTTTAATTTGCTTATCCCTAGAACATACCTTTTGAGTGCCT
Celera SNP ID:            hCV1834842
SNP Position Genomic:     254642
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;TFBS


Context             (SEQ ID NO:2402):
CTGTTCACAATACACCCACTCCCAGCCCTCCGTGATGGAGATAACTCTGTTCCCCACAACTAGGGCTTGCCCACTCTCATGGTACTTCTGATGTTTAATT
M
TTTTGGCTGTGTCTGCATTTCCTCATTTACTTTTAATTTGCTTATCCCTAGAACATACCTTTTGAGTGCCTAAACTTTTTTATCTTCCTGTCCTGAAGAC
Celera SNP ID:            hCV1834843
SNP Position Genomic:     254671
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2403):
CCCTCCGTGATGGAGATAACTCTGTTCCCCACAACTAGGGCTTGCCCACTCTCATGGTACTTCTGATGTTTAATTCTTTTGGCTGTGTCTGCATTTCCTC
R
TTTACTTTTAATTTGCTTATCCCTAGAACATACCTTTTGAGTGCCTAAACTTTTTTATCTTCCTGTCCTGAAGACAAAAATTTAATCTGTGAATTAAACC
Celera SNP ID:            hCV1834844
SNP Position Genomic:     254696
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:2404):
GGTGGGGCTGAGGGCAGCCAGTGTGACTGAGGCTCGCTGGCCCACCCTGAGCTGCTTGTGCCCATGGGGCCCCTGGGGAGGAGGGCCCAGCTGCAGTGCG
S
ATACATCTGCCCTTGGCAGCAGATCTGTGAACCCAGGCTGCCATTCTGGATTTCCGGATAGATGCAAAGTGCTTGGACGTGTTTTAGCAGCTGCTGAGAC
Celera SNP ID:            hCV25928106
SNP Position Genomic:     75059
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,1)   caucasian(C,40)   total(C,73|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:2405):
AACTTAAAAAAGCAACAACTAACTTATTTGTATCTTTTCCTCTAATATTTAGTTTTTACTTCACTTGTAACTTATTACATGTATTAAGGAGTTTATTTTT
W
TATGACATTTTACTCATAAAAGGATGAAACCAAGATTGGTGATCTGTTCACATAGATTAAAATCCTGTTTGTGACCACTTAGGTGTGTAATGTGTGACTT
Celera SNP ID:            hCV16087698
SNP Position Genomic:     147844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2406):
CACCCTCAAACAGTTACCCAGTGAGTCTCCTCAAAGCAAGTGGCACTGAGATACAACCTTCCTACAGGTTTTCAAGTCATCTCGTGTGGTGCACAGTCCT
S
GCCCTACCTCGAAGGCCCGGGCGAAGTTTTCCTGAGTGTGTATACTCATCTCTTTGTGTTGTCTCTGGCAGGGAGCAAGTGAGTACAGGATTGGAGTAAT
Celera SNP ID:            hCV15910823
SNP Position Genomic:     178731
SNP Source:               Applera
Population(Allele,Count): african american(C,32|G,6)   caucasian(C,36)   total(C,68|G,6)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:2407):
AGAATTTAAAATAAAATACATTTTGACCCATTGTATTGAGAGCTGGTATAATTTAATATAGTGAGCCCCTCGGCTTCTGGTTGGTTGGGTTATAAAGCTT
S
TTATTCATTCGCTCATCCATTAATGCATTTCTCCTATGAGGAAGCTTTTTCCTTTGAGCTGAACACACAAAATTAATCGTGCTCGAACTCTCCAAATTTT
Celera SNP ID:            hCV15910824
SNP Position Genomic:     179064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2408):
TTTTGAGAATGTGTTTTCCTTAATATTTGTTAAATGAGTAGACTGTATTCTTAAGGTTTAGAAAGGACAGAAACAAGTTTGTGCTTAGTTCTTCTGAATT
M
GTTGATATCCCTTGTTGCTGTTCACAATACACCCACTCCCAGCCCTCCGTGATGGAGATAACTCTGTTCCCCACAACTAGGGCTTGCCCACTCTCATGGT
Celera SNP ID:            hCV8723080
SNP Position Genomic:     254553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2409):
GCCTTCACAGGAATAGAGGCCTAGGATTCGCCTTCATCCTCTTGAAGAGCCCTAACAGTAGGTCCTGGCTGGGGTCTGGCATAGAATGCCCTTGGCACGA
Y
GTGTGTGAGTGTGTCTTTCCTTAGTAAATGGCCTTGAAAATGCCATGTGCTTCTGGCAGGCCTGGATAAGGTTTGCCCTGCATAACCCTTGGAAAGCACA
Celera SNP ID:            hCV1599430
SNP Position Genomic:     86258
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2410):
GAAGAGCCCTAACAGTAGGTCCTGGCTGGGGTCTGGCATAGAATGCCCTTGGCACGATGTGTGTGAGTGTGTCTTTCCTTAGTAAATGGCCTTGAAAATG
Y
CATGTGCTTCTGGCAGGCCTGGATAAGGTTTGCCCTGCATAACCCTTGGAAAGCACAGTTCTCACTTGTAACACCCTGTCTGCAGGTCCATGATATTGTA
Celera SNP ID:            hCV1599431
SNP Position Genomic:     86301
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:2411):
CAAGATTTCAGTGGTTCTGGGATGCATTTGATCTTTATGCACACTTCAGCTCTGGGTTTCAGTTCAGGGGTCAGCATAAGTAAAGCTTGATCAGATAACT
R
TGCTTTGCCTATAATCGGCATTCATTCTGCTGGTGACAGAGTCCTTTGCTCAAAATGAGGCTTCCATGCGTTTGCAGTTCTAAACTGCTTTTCAGAGTCA
Celera SNP ID:            hCV27500685
SNP Position Genomic:     271747
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,362|A,1127)   total(G,362|A,1127)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2412):
GCTTAGTTAGACATGGAGGATGCATCTTAACAAGTTAGTACCTTTTTGCAAAGCATGAAGACTAATTCAAAGTCTATTTTCTGGTTTTGCTCTACCAGTA
Y
GGCCAAAACCATTTCTTTTTAAGTGAGAAGTGGGGATATGGTCAGGTTTGATTCCAGTTGAAGTTGTGAGCTGCACAGGGCTGGTCTGAGCCCAGTGGCA
Celera SNP ID:            hCV15910825
SNP Position Genomic:     180037
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,5)   caucasian(C,32)   total(C,65|T,5)
SNP Type:                 INTRON;hmCS

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


Context             (SEQ ID NO:2413):
CCAGCCTGGGCAACAGAGTGAGACTCTGCCCCAAAGCAAGATAAAATTATCCCACAGGATTTTAGTCCTGACTTGTGTATTACTATGCAGTTGTGTCTGT
S
TGAGGCTCAGATTCCCCCCCATTTAGGATTTGTGTGGCTAAATCTCAGATCTCATTTTCAGGTGAATTTCTCTATTAAGGTTATAAAAGACCAAAATAAC
Celera SNP ID:            hCV1599432
SNP Position Genomic:     95060
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:2414):
GAAAATAAACCCCACATAACTAGTGCTGCTATTGATCATTCATATAGCCAGCAGGAGTGGTGAGAGGCTTGGTCTGCCTGAGGTGTGGAGATGCTTGTGG
Y
GGGGGGCAAGGTGGACGAGGGCTGGGGCTGCTCCTGGAGCATCTTTACGCGGGTGGAGGAGCTCTGACACAGTGGCAGTGTTTGTAACACTTTCCAAAGG
Celera SNP ID:            hCV1599434
SNP Position Genomic:     98884
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:2415):
GAACGACCATATCCGTGGGGCCAAGAGTGAGATCTTGTACATTCGCACCAATGCTTCAGGTATCCATGCCTAGACAAGCCCCCAGCATCCACACTTCTTC
R
CAAGCTCACTGGCCTTGCTTGTACCAGGTGTCATTGTAGGGTTAGCAGTGAGCTATGCCTGTTGTCTTTCTTGTCAATAGGTAATACTGTGTCATATTCA
Celera SNP ID:            hCV8723085
SNP Position Genomic:     269819
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,7)   caucasian(A,20|G,12)   total(A,41|G,19)
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:2416):
CACAGCCCGGATTCAGGCCACATCTCTCTCTGGGAATGGGTCGTGGACAGATCCTGTGTTCTTCTATGTCCAGGCCAAAAGTAAGGCTTGTGGAGGGAGA
M
GAAACGTGGTAAAACTGAAAGCAGGGTGGTCCAGGATCAGGACAGCCCGAGTGTTCATGGCTGTCTTATTTTCTGTTAAAATGGAGTTGGCCAGCTTCCA
Celera SNP ID:            hCV8723086
SNP Position Genomic:     281200
SNP Source:               Applera
Population(Allele,Count): african american(A,11|C,15)   caucasian(A,26|C,8)   total(A,37|C,23)
SNP Type:                 INTRON

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:2417):
GTAGAAACACACACGAGATAATTCTGGGGATGGAGCTTAAAGGGACGTCAGCGTTCAAGGGCCAGGTAGAGGATCATGAGCTGTAAAGGGACCCAGGTGG
Y
TCCAGCACAGCGAGGAAAGCATGCGAGTGTGATGGCCAGGCTTCCAGGGAGAGAGGAGGGTTTTAAGGAGAACAACGTGCTAAAAGCCACTAAGAAGCCA
Celera SNP ID:            hCV1599436
SNP Position Genomic:     100693
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:2418):
TCAGGGCTCTCAGGAAAGAGCCGCCCGCGTCCCTGGCTGGGCTTCCTTGGTGCACCCAGCTCATTTCTCCTTCCCTCTCTGTAGAACTCACATTGTCCCC
R
TGGAAATGCCAGCCAGCTCCCCTTTCCCAGTGCAGGGGGGAGCCAGGTGGGCCTGAGGTGGGCCAGTTCTGCCGCTAATGGGTGAGAGACTTGGGCCAGG
Celera SNP ID:            hCV8723087
SNP Position Genomic:     297524
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:2419):
TAGTGGATTAGAAGGAGATTTGGAGATTTTTAAAAAAGCCTCTGGACAGTGAGTTAAATGGTGGGTTGACACTCTGTGGTCGGGACTTTTTGGAGAGTCT
R
TAAAGTTCTGCTGTATTTCTCAAGAGCTAGAGAGAGATGATACTATGACCAAATTTGGTTTGAATGTATTATAATGTACTGAGTATCACTAATTTGTTGG
Celera SNP ID:            hCV1599437
SNP Position Genomic:     104207
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2420):
AAATTTCTCTTTGTCCCTGCAGGGACTGTTGCAGAGCATTAGAGCCACCCTCAAACAGTTACCCAGTGAGTCTCCTCAAAGCAAGTGGCACTGAGATACA
R
CCTTCCTACAGGTTTTCAAGTCATCTCGTGTGGTGCACAGTCCTCGCCCTACCTCGAAGGCCCGGGCGAAGTTTTCCTGAGTGTGTATACTCATCTCTTT
Celera SNP ID:            hCV25741800
SNP Position Genomic:     178686
SNP Source:               Applera
Population(Allele,Count): african american(A,28|G,8)   caucasian(A,19|G,17)   total(A,47|G,25)
SNP Type:                 INTRON


Context             (SEQ ID NO:2421):
TTGCCTAAGAGATTCGATTTGGCTGCTGCTAGGCTGCTTAGGCAGGTGACAGCATGGTGGGACACTTCTCATTTTTCTGGTTAGACTACTTAACCATAAC
R
TTCATGGTGCCACCTGAAAAAATAATTTTATCGTTTTAGACTTTTAAAATATTTTTAGGCTTTTTTTTTTTTTGGCTTAAAAAAAGAATCTGTTCTACTT
Celera SNP ID:            hCV1599438
SNP Position Genomic:     106286
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2422):
TTTTTTTTTTTTTAATGTTCTTTGAATCGGCAACTTAATCATCTCCCAAGTGACAGTTTCTTAATTTTAGTTCCAAACACCTGTTCACATATGACTTCAT
K
TATTTGCAGCACATGGTGTTTGGGGCCAAGTGTGGACTGGGGCTTCAAGCAGGATGGTTTACAAAACTCCCACCCTCTGTTCTGCCAAGCATTGGTCCCC
Celera SNP ID:            hCV1834850
SNP Position Genomic:     293204
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,8)      total(G,8|T,2) ;(G,-|T,-)   Caucasian(T,15|G,67)   Asians(T,33|G,49)   total(G,116|T,48)
SNP Type:                 INTRON


Context             (SEQ ID NO:2423):
CGATCTCAAAAGTTATCTCCGGTCTCTGAGGCCAGAAATGGAGGTCAGTTTTCATTTCCACCGGTATTGCATGTTGCCTGGCCTGCTCTCTTTTCCTTTA
Y
AATCTCCCTGCAAGGAAATGCTGTGTCTTTAAATCAGTTTACTTTCCAGCATCCAGTGTTTCTTACTGCATGCTCAGTTGTAGGTCATTTATGCAAAGGA
Celera SNP ID:            hCV25474706
SNP Position Genomic:     291971
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,29)   caucasian(C,18|T,20)   total(C,27|T,49)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,425|T,1076)   total(C,425|T,1076) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2424):
TTCTTCTCAAGGGCTCAAGATGTTTTCCCAATGCCCAGCGTCTCATGGATGACAAATATGACAAGTAATTTTACCAGAGGCAGTTTGAGGGCTCTTAGCA
Y
AGCACAAGTAAATTATGTTGGTTCAAGTCCAAGGAACTTTGTTCTCTTTGTGTTTGCTTTTGTAGCCTTACCTCTTTGGGGCATGAGTTAGAGACATACA
Celera SNP ID:            hCV15910906
SNP Position Genomic:     298211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2425):
AGTGATCCACCCACCTCGGCCTCCCAAAGTCCTGGGATTACAGGCGTGAGCCATCATGCCCGGCCTTCTTCTAGATGTTTAAAACAAACACATTTTAGTG
Y
AGTTGAGCCTCTGATCGTTACATGTTTATTTCCTAGCATTTAAAAGCCTTTCAGCGACATACACTCCTTATTAGCTTAATTTTTTCTTTTAAGAGCCGTG
Celera SNP ID:            hCV1599440
SNP Position Genomic:     107583
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:2426):
TGCTGGTTGAGCTTCTGCTAAGAGGTTTCCTTCCAGGGACTCCATGTTCACTGCCTCACAAAGGCAGGCCAGCCTCATGCTTTAGACATCCTTGCTCTTA
R
CAAATCTTTCGTGTTCTGCTACGTCAGCCTCTGTGTGACACCCATTGGACCTTCTCTCTGTAGCACAATTGCATACCTTGCTCTGTTCTTGATAAGATAG
Celera SNP ID:            hCV15910907
SNP Position Genomic:     301339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2427):
GTGTAGTTGAGCCTCTGATCGTTACATGTTTATTTCCTAGCATTTAAAAGCCTTTCAGCGACATACACTCCTTATTAGCTTAATTTTTTCTTTTAAGAGC
Y
GTGTTCTTGCTCTGTCACCCAGGCTGGGGTGCAGTGGTACCATCGTAACTCACTGAAGCCTTGAGCTCCTGGCTTAAGTGCTCTTCCCACCTTAACCTTC
Celera SNP ID:            hCV1599441
SNP Position Genomic:     107680
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2428):
CAAACTAACGGTAGGACTTTCCTCAGGGATTTAACGTTTGCTGTAGAAGACTGAATGATAGAATATATAAGCTGTATTTTTCTTGTGATTCTACACATTG
Y
CCATGTTGCAACTTAAATATTTTTGGAATGCAATGTAAAAGTGATTTACTGTCCTATAATTGTTTTCCTGAAAGCAAAATGATATTTAAGTGAACTGCAA
Celera SNP ID:            hCV15910835
SNP Position Genomic:     182829
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,30)   caucasian(T,38)   total(C,2|T,68)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:2429):
GGTTAGGTGATACCGCCTTGCCAGATAAATGGCCGGGACTAGGTAGATGCTGAACCCAGTATGCTCTGCGTTCAAAGCACAGATCAGGGGCTTCCTGACC
R
TGCAAGGGATGCCGGAAGCGCCCTCACCACCTTCCTTAGCTCCACCACCGGGGCTGAATTTAGTTTACGGGGAACATTAGCAGCAACAGAGGGAGGATGA
Celera SNP ID:            hCV15910908
SNP Position Genomic:     304798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2430):
TTTCTGAGCCCACACCAGGTCATTTTTCTATAAAATCAGAACTGTGAGAGCTCAGGGCATGTGGCCATCCTGGATAATGGGTCCTGCTGTCTGGGGAGTC
R
TTTTCATCAAAATTCACTTTTAAAGAATAGAGTGTTTATTAACGAAAATATGTGAGCCTTGGCTGGGCACTGTGGCTCCTGCCTGTAATCCCAGCACTTT
Celera SNP ID:            hCV1599442
SNP Position Genomic:     108798
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:2431):
TATAAATCTAGACTTCCTTTGGAATTTGTTTCCTTTTTCTCAGCCAGGTGTATGAAGATTTTAAGTTCTTAGGCCTCAGTGGGAAGAAGATTTAAGGTTC
Y
AAGAGTACATTTGTATCTCTTTTAAATTTTCTATTGTTTATCAGTGACATATGTAAATGTTTTAGGGAGCTGTTTACTGTAACATTACCTACTTTAGCTC
Celera SNP ID:            hCV15910836
SNP Position Genomic:     183136
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2432):
GTCCTGCTGTCTGGGGAGTCGTTTTCATCAAAATTCACTTTTAAAGAATAGAGTGTTTATTAACGAAAATATGTGAGCCTTGGCTGGGCACTGTGGCTCC
Y
GCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACAAGGCCAGGAGATCGAGACCATCCTAACGCGGTGAAACCCCGTCTCTACTAAAAAT
Celera SNP ID:            hCV1599443
SNP Position Genomic:     108878
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2433):
CACCCTCTGGTCCAGCGTGCCTGTTACAGTGATCACTCCATAGTGGTTTTGCATGAACAAGACTGCCCAGTTTGCTTAGGAAGAAAACAAAGGACATAAG
K
TAGTTCTCATGTCTTCCCAGCACCCTAAATACTCGGGCTAAACTTCCACAGTCAGACCGTCAGCTTCAGGAAGGGCTGCTGTTGGGAACTTTTTTTTTAG
Celera SNP ID:            hCV15910837
SNP Position Genomic:     184666
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2434):
AGGAGCTTGGAGGTCAGCTTGTAGTATAATAAAATAGAAAACTATACAGCCGGGGAGAACAGAAGCAGAATAGAAGGATAAAGTGTTGTTCATATCTCTC
R
GGCAAATTTTACCCAAATTCTGACGAGCAGTTACTGCACAAGCAACAACAAAGGGACCTAGAGTGTGTTCATTGCCAATTCTGTCCATTTGGCTACATAA
Celera SNP ID:            hCV8723094
SNP Position Genomic:     300748
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2435):
TCTGACATTACTTAGAAGTATGTCTGTCCTTGAATTTTTCTTTTGCTTACCTTTTGATATTGTTTATATGATTTATGAATGCAGCTCTGAGGTATCTGAG
R
GGATTTATTAACGTTTACTTGCGTCCAAGTACATGATTAAGTTTTAATTGCTTTGTGGACATTAAAAAATTATGCCCTTGGTAAAATGCAAAGGTTTTAT
Celera SNP ID:            hCV1599444
SNP Position Genomic:     113411
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2436):
GAGACAGTCTCGCTGTGTTGCCCAGGCTGGGGTGCAGTCTTGGTTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTTGTGCCTCAGCCTCCCAAG
Y
AGCTGGGGCCACAGGTGTGAGCCACCACACCTGGCTAATTTTTTTTTCTTTTCTCTTTTTTGTTTTTGTAGAGATGGAGTGTTGCCATGTTGGCCAGGCT
Celera SNP ID:            hCV1599445
SNP Position Genomic:     121883
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2437):
GGCTCAGTGGAGGTCAGAGCTGCTGGAGCAGGGAGGCCTTGTTGTCCTTCCTGGAATGAGTTTGAGGAGGGGGTGAAGGTGTTCCAGTTCAGTCATCAGG
Y
GCACAACAGGTACAGGTTGGGAGCAGTGGCCTTGCTTTTGACATGCACTTTAAGGCAGGCTTCAGAGATTGATCTGGATCTCCATAGCTGAACAGGAAGG
Celera SNP ID:            hCV8723095
SNP Position Genomic:     306435
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:2438):
TGTGCAAACAGTAACGTGTGCGCACGCGCAGCGGGGTGGGGGGGGAGAGAGAGTTTTAACAATCCATTCACAAGCCTCCTGTACCTCAGTGGATCTTCAG
W
ACTGCCCTTGCTGCCCGCGGGAGACAGCTTCTCTGCAGTAAAACACATTTGGGATGTTCCTTTTTTCAATATGCAAGCAGCTTTTTATTCCCTGCCCAAA
Celera SNP ID:            hCV8723096
SNP Position Genomic:     314059
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:2439):
GGTCAGTGTTGTCCTGCTAGTGATGAGTATCCCATGGTGGGCATGCTGATGCCACGCAAGGGAGAGGGTGTCTGGTTCTGTGCAGTGGCAGTGGTGCAAC
Y
CCTTACCAAGGTACCGTGGGGACCTGGGTTAGGGCAGGAGGAGGAAGGTGTTCTCTACAGACTGCAGGGCTTGGAGGCAGCCTGTCATGGGGAAGGGTGT
Celera SNP ID:            hCV1599447
SNP Position Genomic:     122430
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:2440):
GAACTTAAATATTAACGTGTATATAAGTTAATAGTAAGTAGACCGTGAATTTAGAAGAGTAAAACAGAATCATGAGTACGTAGTCACTGTGGCCCCTTTT
Y
TGCTGGATTTCAAGTTCGTAAGCATTTTTGGAAGAGAGTCGAAGGGGAAGGGGTGGCTTGCCAGTCAGTTGAGTGATGCGTGAGGGAGGCGTTAAATGTG
Celera SNP ID:            hCV16052820
SNP Position Genomic:     177946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2441):
TTAGAATTTAAAATAAAATACATTTTGACCCATTGTATTGAGAGCTGGTATAATTTAATATAGTGAGCCCCTCGGCTTCTGGTTGGTTGGGTTATAAAGC
Y
TCTTATTCATTCGCTCATCCATTAATGCATTTCTCCTATGAGGAAGCTTTTTCCTTTGAGCTGAACACACAAAATTAATCGTGCTCGAACTCTCCAAATT
Celera SNP ID:            hCV16052821
SNP Position Genomic:     179062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2442):
ACCCCTTACCAAGGTACCGTGGGGACCTGGGTTAGGGCAGGAGGAGGAAGGTGTTCTCTACAGACTGCAGGGCTTGGAGGCAGCCTGTCATGGGGAAGGG
Y
GTGGATGAAGGGTGAGCCGGGACCCCAGGCAGGTACGGAGCAGTTCAAGGCCGTCAAGTGTGCTTCATTCTTCAGTCATTAGGGTGTCTCTGAAAGGTTT
Celera SNP ID:            hCV1599448
SNP Position Genomic:     122528
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,7)   total(C,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2443):
TTGACCCATTGTATTGAGAGCTGGTATAATTTAATATAGTGAGCCCCTCGGCTTCTGGTTGGTTGGGTTATAAAGCTTCTTATTCATTCGCTCATCCATT
M
ATGCATTTCTCCTATGAGGAAGCTTTTTCCTTTGAGCTGAACACACAAAATTAATCGTGCTCGAACTCTCCAAATTTTGTGAGTTCCCTGGTAACTGACT
Celera SNP ID:            hCV16052822
SNP Position Genomic:     179086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2444):
TTTCTGTAAGAACTCATAAAGCTGTATGCATCAGCTGCTCCCAGGGGCCTTCTAAGGCCTCAGTCCAACAACAGTGCTACAGGTGAGGAAAGGAAAGAAG
R
CACTATGTCATCATGTCATTCTTTTAGACTTGGTAAGAAGTATATTCAAGCAGATCAGATGCTCTCAGAATCACAGCGTGTTGTACTGCTAGTAATTAAA
Celera SNP ID:            hCV1599449
SNP Position Genomic:     125958
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,7)      total(G,7|A,3) ;WICGR7_african_american_pooled(G,37|A,63)   WICGR6_caucasian_pooled(A,25|G,70)   total(G,107|A,88)
SNP Type:                 INTRON


Context             (SEQ ID NO:2445):
GCATAAAGCTGGAATGATGGACATGATTTCTTTAATCACTCCAAATTAGTCATTTAGTTGTTTCCAGTTTTTTAGTATTACAAATAACTCTGCAATAAAC
R
TGTCTTGGGTATGCATTCTTTTAGTTTAAAATAGTCTTGTTCCTTCAGAAAGTTGCTCAATAATAGACTTAGAAATTCTTTTGTGCTAATTACTGTAATT
Celera SNP ID:            hCV28000473
SNP Position Genomic:     139169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2446):
ACCTGGCAAGCTGAGGCCCTACCAGTTTAAGGTGATGATTATTGTTTCTTGTATTAAATTTTAAAATGAATTTTTCTCCGCTTTTTTTTTTTCTAAGTAG
R
TTTGTGTTTCTGGAATCTCGGGTGTCTGTGAGCATTTCTTCTTCAGCAGAGCAGTAGCTGTCAAATTTTCTTGTTGCTTAATGATATACTTTTTTGTTTC
Celera SNP ID:            hCV261876
SNP Position Genomic:     257322
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2447):
CTGCTCCCACAGAAGGGAAGCACAGGCCTGTGGGGTGGAGGGGGCTCTGCCCTAAGCGCAGCCCCTGTGGGCCACGGGTTTCCTGTCCCTTACACTCGGC
Y
GCCTTGTTTCTCCCACCCCAACATGAAAAAGATGGAGTGAGCCTGCAGCCCTGAGTTGATATTGCTTTTTAAATTGAGAACAATATAATTACAGCCTTGT
Celera SNP ID:            hCV456340
SNP Position Genomic:     266208
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,6)   total(C,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2448):
TAAATGTAGGGAAGGTGAAGTGTTCACCTTCAGATGGTAGCTATTTATCTCAGCAAGAAGAGCAGATGACTAACACCCAAATACATAACCATTATTATAT
R
ACTTAGCATTTATAAGGCATTTCTATGCATCCTGAGAGACTAGAGCACTCTCAAATGAGGTTTCAGAGTAAGATTCATCTTTGCAAATGAAGACAAATTA
Celera SNP ID:            hCV28000474
SNP Position Genomic:     148782
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2449):
TGTTTCTCCCACCCCAACATGAAAAAGATGGAGTGAGCCTGCAGCCCTGAGTTGATATTGCTTTTTAAATTGAGAACAATATAATTACAGCCTTGTACTG
K
TTATAAAACTTTAAGGTCTCATATCAGAGATACAGCAGTGCCTTTCTCATCTAACCCTGTGTAGAATACGGCTGTTGAGAATGGCGTGGCTCTCTGGCTG
Celera SNP ID:            hCV456341
SNP Position Genomic:     266313
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;TFBS


Context             (SEQ ID NO:2450):
GGTCCACTTAATGGAAGAGTCTAAGAGTGGCTTCAGGAAGTCCACTGGGGGCTCCCCGTGACTCTGCCCACCTGCATATTGTCTTCATTCTAAGGATCCA
K
GTGGTAGCAAAAGGGTTGTTACAACTTTAACCCTGCATCCCCACCTTCAGGTTCAGTACCCAAGGGTGAGCAATCTGTTCCAGTGGCACAGACCTGTTTC
Celera SNP ID:            hCV28000475
SNP Position Genomic:     91844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2451):
CAACTGGATAAAGTTACTGCATAAGGGTTTCTTTACAGCCTCCCTGTTTTTCTCAGACTAACTCTTGGTCAGTCTTAAATTCTTAAAATTCCATCATCTG
W
TAGAGCTAACGAGAGCGGGCAGCTCTTCATTCCATCCTTGAAAAGCACAGTGTCCTCCCCACTGGGGAACACCAATCCTTAAAAAACTTCTTTCTCATTG
Celera SNP ID:            hCV261877
SNP Position Genomic:     257070
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|A,8)      total(A,8|T,6) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2452):
TCTTTTCACCTTTGGCTTTTAATAAGGGAAGGGTATTAGAAAAAAAGTAATTTGTATGATGAAGGGTGATTTGTGCGTGTGTGCAGACAGACACACATGC
R
GGGAGGCAAATCAGAACCGATGCGTGTTTGGCTTTGGCTTGTTTCGCTGGTGTCTGGATTTACCTGGCGACACTTGTTGCTCTGGGGGATCTTAGAGGGA
Celera SNP ID:            hCV456342
SNP Position Genomic:     266537
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:2453):
CCCTCTCGGGCTGTCCCTGTGATGTCAGTCACAGCCAGTGACAGCCATGATTGGGAAAGTGTTAGCTCGAGGCCTGTCATTCTTTAGTGAGTGATTAGAG
R
TGTTTGAATAAAATAAACCCAAAATGGGGAAAGCTTGCTTTTTCCAGAATTAGGTCAGTCCAGACTCATGAACGATGATGGGGGACTTCACTGAAATATC
Celera SNP ID:            hCV456344
SNP Position Genomic:     268190
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:2454):
AGTAATTTGAAACACCCGTGTAAACTACCTTTGGCAAATAGGATAGCTAAATCACCGCTAAGATTTATAATTTACTTTTTGGATATCTGAAACATCAACA
R
TATAGCCATCCATGGCGTGTTCCTCTGGAGTGTGGTCCGTGCCGTCTCTGCCTGCTCCATCTGGCTGATCCCAGGCAGGCAGCTCAGCTCTCAGCAGACA
Celera SNP ID:            hCV25987285
SNP Position Genomic:     152432
SNP Source:               Applera
Population(Allele,Count): african american(A,22)   caucasian(A,35|G,1)   total(A,57|G,1)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:2455):
ATGTCATTCTTTTAGACTTGGTAAGAAGTATATTCAAGCAGATCAGATGCTCTCAGAATCACAGCGTGTTGTACTGCTAGTAATTAAAACTGAAGTCCAC
R
TTGAATAAGAAATAATTTTTTATTGATTGCTGGCATTTGTGAGAAAGGGTTTAATTAGACCAGGATATGGAGGGGACTTATCGACAGTTCCGTTGTACAT
Celera SNP ID:            hCV1599450
SNP Position Genomic:     126071
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:2456):
TGACAGCCATGATTGGGAAAGTGTTAGCTCGAGGCCTGTCATTCTTTAGTGAGTGATTAGAGATGTTTGAATAAAATAAACCCAAAATGGGGAAAGCTTG
Y
TTTTTCCAGAATTAGGTCAGTCCAGACTCATGAACGATGATGGGGGACTTCACTGAAATATCGTTTCAGCCTCCTTACCTACTAGGCCTACTCCAGGAAC
Celera SNP ID:            hCV456345
SNP Position Genomic:     268228
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:2457):
TTCTGTGGATGAAACTTCGAATGAGGATTGTTGGTGAGAGTTGGATTGTTGTTGTATGAGGAAGTGCACCTTGGAATCTAATGGGGTCTTCACGGAGGGG
R
AGTCAGTTGTGGCACTGTTTGTGTATTCCATTCATCATTCATCCCTCCATCCAAGCACCCACGTGGAGCTCAGAAAGATGACTAACACATACCCCCTGCT
Celera SNP ID:            hCV1599451
SNP Position Genomic:     127581
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2458):
CAACTACTTAGGATTTTTGTTGTTGTTGTTGTTTTCCTGTACATTGTCTTCCTATCTCCCTTCTGGTACCCATTCCACCCTCTCTCCCCTTCCTCACTGC
Y
GTTTCATAGGGGTTCTCAGATTCCTGTGAATAAAGCAAACCGATGTGCAGATATGTGTGCTTACACATGTGGACGTATTTGAGGAGGTAAGAGGGACCTG
Celera SNP ID:            hCV1599452
SNP Position Genomic:     127838
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2459):
TTGCTCCCTGTTCAGATCATAGTAAAATCGGATGTATCCGAGTATTTCAGAGTGCTTGTCTCCTTAGAGTCAGCCAGTCTGACCTGTCAGATCATAATAC
R
TAGTAGCCGTTTATTTTCTTTTGAAAGCAAAATCATGGTTTCCTCTCTAAATAACACTTCAGCAGGAACTGTGACATTTCCCAATCTCAGTTGCGCACAT
Celera SNP ID:            hCV15910919
SNP Position Genomic:     266829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2460):
AGTGTTGGGGGCTGTGTAAACCTCGAGGCTCAGAGTGGCTGCCATTTTCCTAAAAGAGAAGTATGGCTGCTGTTGGCCTCAATGTTCAGCTTTACAAAAA
Y
TCCCGTAATTAATGAAGGTCAAGGCATCTGCAAACATTAATGGGGTCACAAGGGACAAATCAGTTCCTTGAGGGGAAGTTAAAATGCTAGATTGCTTACC
Celera SNP ID:            hCV1599454
SNP Position Genomic:     129796
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:2461):
ACAAGGCATTTTACCAAGTCCGGCTGAAAGAGCTTCTTACCACATCTGGCATGTAGAATGGCAGAAGACTATTTTTGCTAGATTCCTTGTTGCTGCAGCC
R
TTTCTGATGTCCTTTTCCCCTTCACACCTTTCGTGTTACACATGTCTGAGATGACATGATGCTAAGTAACCAAAGTACTGCTGCGATGGAATTGCTCTGA
Celera SNP ID:            hCV15910847
SNP Position Genomic:     185708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2462):
AAGGTCAAGGCATCTGCAAACATTAATGGGGTCACAAGGGACAAATCAGTTCCTTGAGGGGAAGTTAAAATGCTAGATTGCTTACCGCTCCAGACAAGGC
R
TTCTCAAGAAGTATGTGCAGTTTCAGCACAAGGATTAACACGGAGCATTACTTGAGCCATGGGGTGCCTTGGGGGACATGGATCAGCAACCATTTCCTTT
Celera SNP ID:            hCV1599455
SNP Position Genomic:     129911
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2463):
TGTTTTGGTGAAACCTGATAACCTTGCTTTTCTCCGTGTACCTTGTTTTTCATTGTAAAACTATTTAATTATGAAAATGAGAGTGTGAAAGGCAAAGTAT
R
ATTGAATTTAGGGGGCAGTTCCATATAGTTGTAACAAACTGATTATCAAATGTCCACCATTAGTATGTTAAAATACGGTTTTCTAATACTGAGACAACAG
Celera SNP ID:            hCV15910848
SNP Position Genomic:     186407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2464):
GTTTGAATCAATTATTTTTATCTCTTTGGGATTGGTTTTTGGTTAATCTCAGCAATTCAGAAATAGCTGAAGAACTATGCTGTGGGTTTAGACATCATGC
Y
GTGACAAAAAGAAGAGGATCTTAGAAGCGGGGGACATTCACTGAAGCTTTATGAGCCTTTCCTGAATCCCTTCAAATCAGATCAAGTTCTCTCTCTCCTG
Celera SNP ID:            hCV1599456
SNP Position Genomic:     130573
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2465):
TCATTTTGGGTTGAGGTATCCCCTGGTACCCTCTCCTGAACTTCAATAGAATAACATGATGTGGTGAATGAACCATATTAGAAAAACCAGCCAATCAGCC
R
AGATTCTTGTATTGACTCTTCTGATCTCCCTCTACCTCTCCTTTCCCCATCTGCCAAACAAAGGGTTTGGAACAGTTAAATTCTAAAGTGGTGTCATTGA
Celera SNP ID:            hCV15910849
SNP Position Genomic:     189660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2466):
TGGCACAGAGATTTGCTGTCTGGCTAGCAGTACTTCAGGGTACTGGGTGGCTTGAGGACCTCCTGTTAGAAGCTTGGATTCACTTTTCCCAAGGCAACCA
S
GATTGGATTCTATTAGTTCTGGGTCTTGAGAGCCTGCAAGGGCTTCCTTCTGCGAAGGTGAGTCTGGGAGAGACGCCATGGAGTCAGTGTGAGTTCTGCA
Celera SNP ID:            hCV27497062
SNP Position Genomic:     165799
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2467):
GTCAAGCCACTGTTGTTTCAGAGCTGGACACAGGTGCTTAGGAAAATTCCTCACTGAAGGGTTTTCAGGATTTACAAGTTCTTGCTGTTTTTGTGACCTT
S
TGTGGTTTCTGGTTTCACAGAAGGCTTTGTTTCTTGGTTCTTGTTGCTGCTTTCAGCCTTGGCCTGTAATCACTGGGCGCCAGGGAGGGCTGCGGTCTGT
Celera SNP ID:            hCV1599458
SNP Position Genomic:     133457
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,11)   total(G,11|C,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2468):
TTTCTTATACTCAGTCATTTGTGAATGATGTGGTTCAAACAAAACTGAAACAAAAATAGTTTTTCTCATTAAAAATATGTTTGTCGCATAGCCAGCACTC
R
GAACTAGGGAGGGTAACATGGAAGTATTGTCATTCTCGGGGCTGACTGGTTGACAGCAGCCTATACAGGAGTGGAGAATATTGACAGGGCTGCCCGTTCT
Celera SNP ID:            hCV16052831
SNP Position Genomic:     180547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2469):
AGGAATGATGACCGAAGAGGAACCTCAAGGGTGCAGGCGGCTCTGGGATCTCAGCACATCTCAGTGATGGAATGAGCTGCCGGGGAATGACCCCTGTGGG
K
GCTGTCCAAAGTCAGAGCAGACACAAACGTAGCTCTCCAGGCCCCATACCTTGGTGGGCAAGAGGGCAGCAAGTGCATCCTCACAGTTGATGGGGAGAGC
Celera SNP ID:            hCV1599459
SNP Position Genomic:     134086
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,12)   total(G,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2470):
AGAATGGGAGTTGGAAAGAAATGTTTTCTCCCACACCTGTCCCGCTCCTGTCTACTGAAAGCTGATTAATCAGTCAGATAGTGAGTTCCTATTGGTAGTA
M
GCCTCCAAAATTTGGAAGAGGGGAGGTGGCGTGATGTGAAAAAGCAAGGCTTTAGGGAGAGATTCCCGCTGGGGGCATTCACCCTCTGGTCCAGCGTGCC
Celera SNP ID:            hCV16052832
SNP Position Genomic:     184486
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2471):
TTACTAGTTACGTAGCTCAGGAACCTGGAACCAGACTCCTTCTCCAGCTGGGCAGTCCCAGGTTTGAGTCCTGGCTCCACTGGAGGTTGTCTGACTTGGA
K
GTTAATAATAACCTGCCTTAGTCCCAGAGTCCTTAGAGGGAAAATAGGTTATAATACCTGAGTCCATGTGTATCAAGCCATTGCTGGTTCCAGGCCCCTG
Celera SNP ID:            hCV16133686
SNP Position Genomic:     131511
SNP Source:               dbSNP
Population(Allele,Count): WICGR6_caucasian_pooled(T,0|G,95)   total(G,95) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2472):
GATGTTCAGAACCTTGTGTGTATCGTATAACCTGGAGCACCCTCAAGCTGTCCGCCCTTTTCAAGTTTTAAAAATGGCTTAGGCAAACATATTGCTTAAG
Y
GATATCCAGTGAAGGTGTCTCCTGTGCTTTGAAAAACCATCAACATTGATGCTTTTTTGTGACCCAATAAGGACAAGATTTCAGTGGTTCTGGGATGCAT
Celera SNP ID:            hCV27484971
SNP Position Genomic:     271573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2473):
GCAGGAGTCGGGCATTTTAAAATAGGCTGTTTTTCTTTTGGAGCGTTCTTCTTGAAGGATATTCTTTGTGCAAGACGGCGATTTTTGAGAACACAGGCAG
R
AGGGAGGGGGTGTTTTAATGTATGTTTTTACTCCATGATACCAAAGCTTCCCCCCAGGATCCCTTTACAGTGGTTAGTTCCTGGAAACCTGATGGGTGGT
Celera SNP ID:            hCV29314500
SNP Position Genomic:     8171
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2474):
CTCTCTTAAGAAGTTTCAGGGCAGCCTAAAGGCTCACCTTCACCCTACCAGGCCCCCTTTCATAGCCAGGATCTTAGGGATGGAGAAGAAAGATAAGTTC
R
CCTCGTTCACTGAAGTCGCCCCTTGTTTTCAGGTTAGGAAACCCAGGTTCATGTCCAAGTCCCTGGGCAAGTAGCCAGCGTAACTGATTGACCTAAAACA
Celera SNP ID:            hCV15910920
SNP Position Genomic:     267511
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2475):
AGAAATCACTGGGCTACAGTTTTGGATTAAGGTTACTCTACTGTGTCAGTGCGAGCTGTCCTGAGAGAATTAGGGTCTTCCTAAGTGATGCAGACAGGCG
Y
ACTGCAACTCCATGGCAGAGCTGTTAACACCTAGTGTGTCTTTTACAGTTAGAGTTTTAAGATAATTTTACAGGACTTTAATAAATTTAAAGCTCCAAAA
Celera SNP ID:            hCV29314501
SNP Position Genomic:     16114
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2476):
CCTGTGGATGGAGACTTTGTTCCATAAGTTCCCTATAGATAAGATGTAATGAATAATTCATTGGCACCGATTTATGTCTGTAGTGTGCTTTTAAACCCTC
Y
TGGAGCTGGGTTCCTGAGGAGGAAGCATCTGCAGGCTGGACTCGGCTGCCTGGTGGTCTCCGGAGTGGCCTGGTGCAGAGGGCCAGGGTGGCATCTCAGA
Celera SNP ID:            hCV29314502
SNP Position Genomic:     17340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2477):
TTTTGCATTGTTTTCTTGGTGAGGCCAGTAAGCTTTTGCCTCACTCCTGGGAGGGACAGTAGCAAGGTCTTACAGGTCTCTCTATCATTGAAGCACCCTC
Y
CCAACCCTGCCGGTTTTGGTTGCTGGTGAAGGCCTTTGACAGTGTCCTGGTAGGGCGACGGTGAGGCCAGCTCCCGACCTCTGGACAGAAGAAAGCTTAC
Celera SNP ID:            hCV29314503
SNP Position Genomic:     17722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2478):
ATGCATCTTTGCAGGAACTTGCCCCTTTCCACTGAGGTTTGAGGCAGACTCCAACCACATTTCCATCCAGTGGCTTAGTGGTCTTACCCGTGAGCTTGAA
S
TGTTGTCCCTGCCAGGACAGTCTTTGCCTCTGTAAGTATCTCCATATTCCTCCATCCTTTCAGGTCCCATTCAGTCCCTAGGTCCTCCATGATGGAATAT
Celera SNP ID:            hCV29314506
SNP Position Genomic:     118161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2479):
CAAGACCAGCCTGACAAACATGGAGAAACCTCATCTCTACTAAAAATACAAAATTAGCCACAGTGGTGGCGCATGCCTGTAATCCCAGCTACTCAGGAGG
M
TGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGTGGAGAGCCAAGATTGCATCATTGCACTCCAGCTTGGGCAAAAAGAATGAAACTCTGTCT
Celera SNP ID:            hCV1599460
SNP Position Genomic:     136912
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,12)   total(A,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2480):
CCTACTTCCAAATGAGTGGGTTGTCCAGGTGTGCTTGTAGATGTCACATACTTCTAACAAGGCTCTGCAGCTGCGATGTCACCTTGCCCAGCGTGACCTC
M
TTAGCATGTATGTGGCTTTCAGTGGCCATGTACTTTGCTTCTAGAGCTTTCTTTCCCATTCTGGGTTCTTAGGAGGGGGCTGTGCTTTGTGTGTGGCCAG
Celera SNP ID:            hCV29314507
SNP Position Genomic:     120330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2481):
GAGATTTAAATGAAGCGAAATGCCATTTTCTCTAGGTGAGAAACTGGAATATTATCAATGTCACTTCTTCCCAAATTGATTTATAATTTAAAAACAATTT
Y
AGTACTTCTGCAGCTTGTTTGGAGCTTGATAAAATGATTGTAGAGTTTGTCTTGAAGCTTTAATAGTGAGGCAGGTTTAAAATTGGGGGCAAAAAAGAAA
Celera SNP ID:            hCV1599461
SNP Position Genomic:     137692
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:2482):
ACCCAGAAAATATTTCTTATTGTTGATAATCTGCAGTTTGCAAGTGCAGCGAATCTTGTAGGTAGATTTACCTTGAGTTTTTTGAAACGGTAGAATTAAT
R
TATTAAAACATATGGTTTTTAGTTAAAATAGGATGTTAAAGGAATAGAGCGCACGAACAAAGAACTTTCCACTTGAACCCATGTTGTTTCATCTGACAGT
Celera SNP ID:            hCV29314508
SNP Position Genomic:     124111
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2483):
TTAGCCCTAGCTGTTTGTCTTGCTTATTTAAACTTGTACATGGCACATGCTCAAAGATTTTTCCAGGCAAAATTTCTTTAAAGCAGGATTTGAGATTTTC
Y
ATCCCCTTCCGTCTGCTGGATTATTCCGGTGAGTGTTAATCTCCCGCCTTTGTCTTAGCCTCTCTGTGGTCTTCGGTTGCTTCCTTGTTCTCTGTAGATC
Celera SNP ID:            hCV29314509
SNP Position Genomic:     126362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2484):
GTAAAATGAAGCCTCTGCATCCTTCAGTAACTTACTTAAAATTTTGTTAGGGCTGCATTTTCTTCAAAGCCAAGTTCTGAATAAGAAGTATTTGTTTTGG
R
CTCTAGCCAGATTACTGAAGTATTGTTGAGGGAGATTTGCTGTGGAAGGTGTTGGGGGTACAGGGATTGTGAAGATAATGTAAAATATTTAACATTTTAA
Celera SNP ID:            hCV15910859
SNP Position Genomic:     192339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2485):
TTTTCAGCAAAACTGTGTACATTACATTTTTTTCTTTACCATTTCTCCGTAGTTATTTCTAGCATTTTTTTTTCAGCTGATGAAAGCAAATGAAGAATTT
K
TATGCTCCATAGTCAGTCAAACATTGATTTCTCTGACTTTTAACTTAGAAAGTCATTTTGCAGTGGCTTGCGTGTGTGTATTTAGACTGTGCTTCTACAA
Celera SNP ID:            hCV1599467
SNP Position Genomic:     145394
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2486):
TAGGGCTTAGTTCTGCCCTTTAAGTCACAGACTCAAGTTACTCCTGATTTTACCAGCAGTCAGAATACATTTTTCTTTAAAAGGAAAAGAGACGATATCC
Y
AGTGCTTCTCTATACTAAAACAGGAAGAGAAGCTTCCTTGTTGAAGTGACAGTTTAGATGTTGTTATTTTGACAGAAATATTAGTAAATATGTCACATTA
Celera SNP ID:            hCV1599468
SNP Position Genomic:     149991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2487):
CTAATACAGTCAGCCCAGCCAAGATAGTGCCATCCTCCGCAAGCATCCACTAAGGCATGGAGTCAGCTTCCGTCATTGTTAGATCAGTACTTGTTTCTTT
S
CCTTGCTTATTTTTCCTAACCTCTCTGAACCTGCTGTGTTGGAAGCTTAAGGAACATCATCCTCTGTTGGGCAGAATTCTTCCATGGCCACCCCAGCATT
Celera SNP ID:            hCV16133697
SNP Position Genomic:     204985
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:2488):
TGCTGGGATTATAGGCGTGAGCCACTGCACCTGGCTTATTTAAATTTTTATGGGTATGAATTCACTTAAAAGCTGAAGGTTTTGAGAGGAGAGGGAGCAT
R
TGAAAAAACCTAAAGGTTTTGGGAGGAGGAGGAGAAGGAAGAGAGGGAGCATGTGAACAAGAGCAACTGATTACTTCCTTGTCATTCATTTGCCCAGTGT
Celera SNP ID:            hCV9517210
SNP Position Genomic:     43482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2489):
CCCAAAGTGCTGGGATTATAGGCGTGAGCCACTGCACCTGGCTTATTTAAATTTTTATGGGTATGAATTCACTTAAAAGCTGAAGGTTTTGAGAGGAGAG
R
GAGCATATGAAAAAACCTAAAGGTTTTGGGAGGAGGAGGAGAAGGAAGAGAGGGAGCATGTGAACAAGAGCAACTGATTACTTCCTTGTCATTCATTTGC
Celera SNP ID:            hCV9517211
SNP Position Genomic:     43475
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:2490):
CCACCATGTCACTCTGACTTCCAGATGATAATGAGTGTGACCATGGGCTGAATGAATGTCTCTCTGCTGGGATTAAAAGTTAGAGGAAGGCAAAAACAGA
Y
ATTGCGTGTTCTCACGTATACGTGGGAGCAAAAAAAGTTGATCTCTTGGAGGTAGAGAGTAGAGTGATGGTTACCAGAGACTGGGAAAGGGGGCGATGAA
Celera SNP ID:            hCV29314510
SNP Position Genomic:     126698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2491):
TTCACTCCCATGACCCAATCACCTCCCAAAGGCCATGCCTCCTAATTCCATCCCCTTAGGGGTTAGGATTTTGACATGTGAGTTTTGGTAGGGGACACAG
R
CATTCACTCTATAGCACTGATAAACATTCTTTGATAATAGCCATTATTTTAGTGGGTAAGGTGTTTTTAAATACCCATAAGCGAGCACAAAATCAGTTTA
Celera SNP ID:            hCV15910930
SNP Position Genomic:     270778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2492):
ACGGTTAAGTTTGGATTGTTTGCTTATTGGTTTGGTTATTGGCAATTGCTACAAAGTCCAGGGTGTTCTTTATCAGCAGCATGCTTATCAAGTTACTGAC
R
TTCAAGCTGAGTTTCCTTCCCTCCCTCCTTCCTTCTTCTCCACTGACATTTTTTTTTTTTAAATAGGTAGGGAGGCATTTAATCTTGTAGCAGCATGAGA
Celera SNP ID:            hCV29314511
SNP Position Genomic:     128305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2493):
TGGTGGACTTCCGTGTTCTTTGCATTGCCTCTCCCCCATCCCTCTTACACACAGCTGTGACATGGGCATGCACACTCCTTCACACACACAGACTCTCCAG
S
CCCCTTTCCACTTCCTCTTTCCATTTGGCTTCATGACATTTTTATCAGAGATTCAAAATCTCAGATGAAATCCAAGTCAGCCTGTTTTACCAGTTGTCGA
Celera SNP ID:            hCV15910931
SNP Position Genomic:     271984
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:2494):
CCATTAGAGCTACCCATAGCTGGTGAAGACTCTGCTTATAGTGGAACCTAGTTTCTCAGTTTTCCATTTATATTTATTTACCTGAGCTTTTTGTAAAGTA
R
TAAGTACTTGACTGAATTTCTGCTATTTATCAAATGCTTTTTGAATAGAAATAATGAGTTAATAACATTTAGCCTTTTTTGGTAAATAGTATAAACAAGA
Celera SNP ID:            hCV29314512
SNP Position Genomic:     138016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2495):
GACCCCAGCCGAAGGCCTCAGCCCTGTTTTCTCACCATTCGTCCATGGCTGACCTGAGGGTTGCCCTTTCTCCATCTGGGTGCTCCTCTCGTATTCTGTT
Y
GTTTTTGTTGGTTCCTGTAAACATTAGAATTCTGTTTTAAGGTTTCTAGGGGGAGCCACAAAGCCCATTTCTTCATATTTGACCAAAGCAGCAATTAGAG
Celera SNP ID:            hCV15910932
SNP Position Genomic:     277720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2496):
CCTGAGCTTTTTGTAAAGTAGTAAGTACTTGACTGAATTTCTGCTATTTATCAAATGCTTTTTGAATAGAAATAATGAGTTAATAACATTTAGCCTTTTT
Y
GGTAAATAGTATAAACAAGATAGGGCAAATATGTAAACTACTTAGAACTTTATCTACCTTGCATATTTTGTACCTCTTATTTGCATATGCATGTCACATG
Celera SNP ID:            hCV29314513
SNP Position Genomic:     138096
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2497):
GGCTGCATTTTCTTCAAAGCCAAGTTCTGAATAAGAAGTATTTGTTTTGGGCTCTAGCCAGATTACTGAAGTATTGTTGAGGGAGATTTGCTGTGGAAGG
K
GTTGGGGGTACAGGGATTGTGAAGATAATGTAAAATATTTAACATTTTAAAAATTTTCAGTAAGTTCTCTTTCCCCAATGTCAGCATGACTTCTTCATTC
Celera SNP ID:            hCV15910860
SNP Position Genomic:     192389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2498):
ATTCCTTACCTCTCTCACCCACTTGAGGATTGCTCAGAGCCTGGGTTTCGGATTGAAATAGCACTATTTCTGGTTGATGACGACATTCTGTGAGCCAGCA
R
TGTAGTTTAAATATCCACAAGAGCGCCCTGGTTCCATCAGCGCCCCTTCGTAATTGGTCATGAGACTTGGACCTCCTTCGGGGCTGGGACTCGGGCAAGG
Celera SNP ID:            hCV29314514
SNP Position Genomic:     143473
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2499):
TGTATGCATCTTCTGCAATTAGGAATCTGCTCACCAGCACGAGTGCTGTGGTTTCTGTAGTTCTGGGATTCAGAGGAGCATTTTAAAGATGTAGGATGTT
R
GAGGAGGAGGTGCAGGGATCTCCCCTTGGGTAAAGAGTGGGAGACAGTCTCTGAGTCATAATCTGGGACCAGTGGAAGGTCAAAGGGAAGAACTGTCCTG
Celera SNP ID:            hCV29314515
SNP Position Genomic:     144767
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2500):
AAATTACTTAACCTCTCTATGCCTCAATGTTCTCATCTCTAAAGTATGGAAAATAATTGCATCTGTGTGAAAACTGAGTTACTATACGTAAAGTTTTTAG
R
ATAGTACCTGACATACAGTAAGTGCTGAATAAGTATCAGCTAGAGAGAGAGAGAGTTAGTTTCCAGCAGCCTGTTTCTGTTTGGGGTCACATGTGGTCTC
Celera SNP ID:            hCV15910861
SNP Position Genomic:     197901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2501):
GTTCTCTGTGTGTAAGTAGTTATATTATTCCTAGGTTATGGCATCTTGATTTATCTTTGAAAGAAGAAAACCCTCACTGAGTTGACAGGGACACATTGTT
Y
TAGGCTTCTACAATTGTGCTGATGACGCTTTTTCCCATTGGAATGACAGGGATGATAAGGTCGGCTGGCTAGCCTTTTTTTAAAATGTAGAAAACCACAA
Celera SNP ID:            hCV29314516
SNP Position Genomic:     145720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2502):
CCACCCTCAAACAATGATTTCCCCAAATTGGACAGCCTGGGTTTGTATCCTTGAGCACAGTTTTGGGAAGAGCATTCTGCATGAGGCATTGTAGCTATGT
R
TATGGAGTATAATTCTGTTTTCAGGTTGCTCTGCCACAGAGGTTAAGAACTCCCTCTTCCAAGGTAGACATTGAGAACAGAGACGACCACACTGGGTTTT
Celera SNP ID:            hCV1599470
SNP Position Genomic:     158146
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:2503):
TCTTCAGCAGCTGTGAGTTTACAAGATGTCGCACATTGAGTATTTTTCTCTAGCTTATTTAGAAACGCCAGTCTAGACTTCCGCAGTTTTGGATTCGTGG
S
CATAGTTTTGGCCTTTATTAGATGGCCCTCAAAGGTACTTTTCAGGTGGACATTGATTTCATGCCAGCTGTCAGAGATGATTTTCCCTAGAAATGGCTGG
Celera SNP ID:            hCV29314517
SNP Position Genomic:     150682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:2504):
AACTATCTCAAGGTAATTACCCTTTTGAATACTTGAGGACATCTTTTCTGTGCCCTCTGAATATTTCCTTCCCCAGATAAAATATTTCTAGTTCTTTTAC
Y
TGTTCTTTGTTTCAGAGTTTTAAGTCTCCATTTGATAAAGTATAGTTTAATAGCCTTCGAAACCACATCGTTGAGATTTAAAAAGCCCTCCTTGAGAGAC
Celera SNP ID:            hCV1599471
SNP Position Genomic:     168513
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2505):
TGGCTGGGTATATGGAGACATTCTGTATTAGAATGGAGGTATACACCCATCTCTTCTGTATTAGAGAGCAGGTGTTGCCCCCCGTGGTGCTCAGATTGCT
K
AGTGTGAGAAGGAAAAGACCAGTGATAAGAGGAGGAAAACTGCGCCTTCCATGTAGCTCAGTTAACAGCATCATGATTCTCCAGGATGGCCCCATTTCTG
Celera SNP ID:            hCV29314518
SNP Position Genomic:     150876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2506):
TTACCCTTTTGAATACTTGAGGACATCTTTTCTGTGCCCTCTGAATATTTCCTTCCCCAGATAAAATATTTCTAGTTCTTTTACTTGTTCTTTGTTTCAG
R
GTTTTAAGTCTCCATTTGATAAAGTATAGTTTAATAGCCTTCGAAACCACATCGTTGAGATTTAAAAAGCCCTCCTTGAGAGACATGACCAGTAGAAATC
Celera SNP ID:            hCV1599472
SNP Position Genomic:     168529
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2507):
GCACACAGGATGCACGTGGGATGTCCAGTGAGGAGGATGAGATGAGGTTGGGTGGCTGGAGCCTGGTGAGTGACAGGCAGAGAGGGCTATTAGATCACAT
K
GGCCCTGGAGCCATGGTGAAGAATTTGGATTTTGTTCTCTGTGTTGGAAAGTTAGCAGAGAGCTTATATGGGGGGTGAGATGGCATAGGGACAATGTTAA
Celera SNP ID:            hCV29314519
SNP Position Genomic:     155198
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2508):
GGTTTTGCCATATTGGCCAGGCTGGTCTCAAACTGCTGACCTCAGGTGATCCTCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACCACCG
K
GCCCGGCCAAAAAAGCTTTTGAAAACTTCGTCGTATAATATTATGGCCATCCTTCCAAACGTGACCTTTTTATGTTGTATTTTATCTAACTAATTTGCCC
Celera SNP ID:            hCV1599473
SNP Position Genomic:     169125
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2509):
TCCTAGGTAGTGAATGAGTACAATGCTCATATGCAAAATAACCAATCCAAAGGCCACGCCCCTCACTCATATGCAAAATAACCAATCCAAAGGCCAGGCC
Y
CTTACCACCTTTATTGGGATTTCATACTCCAGGCCAATATTGCCCTACCTTAATCACCCTAGGGCCAGATACCAGGCAAGAGACAGCCCCTACACCCCAG
Celera SNP ID:            hCV1599474
SNP Position Genomic:     169786
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2510):
CAGAGAGCTTATTAGTGTCTTGGCCATTTGGAATTCCATTTCACTTAAATTAGAAGAGTGAAAGAGAAATGAATGGAAGACCAAAAATGGGGAGAAGAAA
Y
TGTATCTGATATAAGCGTGGCTCTACCTGGGAGAATGGCCATTCCGAATTACTGGAAACAGGAAGAAGACTTGCTATGATGCTTCCTTATATCTGTGGGG
Celera SNP ID:            hCV1599475
SNP Position Genomic:     171274
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:2511):
ACAATGGCTGTCTTTTTAATGGGAGTTGCTCCTATTCCTGGTGGTAACAACCTCTTCCTGTTGCTCCTTTCCGAATGGAATTGCCTCAGTGAAGTTGTTG
A
AGAAGTGAGGAGGGCGAAATATGCCCATCCTTCTACAGTGGGGAGAGGCCTGGCGCATGAAAGCAGGCCTTTGTGTATGCCGGGCTGGGCCCATGCAAAC
Celera SNP ID:            hCV1599476
SNP Position Genomic:     171858
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,10)   total(A,1|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2512):
CTTAATTGTCTCCTTAACAGCCCTACCTTCAACAGAGTCACATGAGGGGTTAGGGTTCCTACATATGAATTGGCAGGGTGGAGGTGGGAGGTGGCCGGGG
R
TGAGACACAATTGATTTCATAGCGTCGAGTTATAAGATGGGTCACAGTATTAGATGGGACCAGAGCAGAGAGGGTCTGTAGGCCATGGCAAGAGTGAGAA
Celera SNP ID:            hCV1599477
SNP Position Genomic:     174706
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:2513):
GACCGCTTAGGAAGCTGCTGGGACCGTGCATATGAGAGATGTTGGTGGCTTGAACCAGTGCTGGGTTTCTCAGCATTGGCAGTATTGACGTTTTGGGTGA
R
ATAATTAGTTGGGGAGTGGCAGGGCGGGGGGTAGGGGTGCAGTCCTGAACCAGTGCCAGGTTTCTCAGCATTGGCACTGTTGGCATTTTGGGTGAGATAA
Celera SNP ID:            hCV1599478
SNP Position Genomic:     175035
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:2514):
GAAATAATTAGTTGGGGAGTGGCAGGGCGGGGGGTAGGGGTGCAGTCCTGAACCAGTGCCAGGTTTCTCAGCATTGGCACTGTTGGCATTTTGGGTGAGA
W
AATTAGTTGTGGGGGGCTGTCCTGTGTATTGCAAAATGTTCAGCAGCTTCACTAGTCTCTACCTGCTAGATGCCAGAAGCCCACCCACCCCGCCCCCTAG
Celera SNP ID:            hCV1599479
SNP Position Genomic:     175133
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:2515):
AGGCTGATCTAATCAGGGTATTAACCTTGCCCCACTCATCTTGATTTATTCCTAGATCCCAGTTCCCAGAGCATCCCTTTAGAGCCTCAGAAATGGAACA
M
AAGACAGCTGAAATAAGCCCGTGGCCAAAAGGCACTCTGAGCATGAGGGAAGTAAGCAGGCTTCCCTGTCACTGCTGAGGCTCTGTCATCCAGCCCCAGC
Celera SNP ID:            hCV16052856
SNP Position Genomic:     195204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2516):
CCCTGCCTTTTTCTGAGTTGGGCCGGCTGGGCCCGAGGCTGGTTCTGGGCTGGGCCAGGCTGATGCAGTGGCCTTGGGCTTCCCGAGGCTGGGAGAGGGC
R
GTGGCCCCCGCTACCCTGAAGAGCTGGCCAACGCGGCAGGGCTCTTTCCAGTCCTTACCATGCAAGTGAAGAGGAACAGTTTGTTTAAAGAGGGGTGCCA
Celera SNP ID:            hCV25747802
SNP Position Genomic:     20227
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,33)   total(A,1|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:2517):
TGTGACTCAGCAGATGGGAATTCCTTTAATAACACGCTGGGTGTTAGCGTTAGAACCGCCACTGAACAGCTCTGCAGGATGCCCTCCCAGCCCTCCCTCC
R
CCTATTTGGATTAGACCAGGAGACTGCAGCAAACTTCTCAAGGGGAGGCGAACTTGGTGTTGGTATCTGAGCGATTGTCTGTTTCAATTGTTTCCCTCTG
Celera SNP ID:            hCV29314520
SNP Position Genomic:     157092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2518):
CCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCGCCACTCCCGGCCGCTGCAGAGAATTTTTAAAATAAATGATAGATTCTCACAGATAAGAAG
W
ACAGGATAATTATTTGCCAAAGTTTGAAACTGCCATTATATTCAAAGGCATTCTCTTTTGGGAGTGGTTTTATATTTAAGGTTTGAATTTAGATGACCTC
Celera SNP ID:            hCV29314521
SNP Position Genomic:     161516
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2519):
TGACACTTGCAGAGTAGAGAAAGCAAGATAATGAGGAAGGACATCCCTGTGTTATTCATGAGTTCTTACCTAAGGGGGCTCAATAGCTCCTTCTATTCCA
Y
GGTTAAGATTCTTCTGTTACTCTTACTCAAGTCATAGAAAAGACAAAAGAGGTAAAAGTACTTAAAAGCCACATTTCTCTCCTCCTTGCAGACCTGAAAG
Celera SNP ID:            hCV15910941
SNP Position Genomic:     278551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2520):
GGGAGGTGGGGCCCAGGGTGTCCAGCTTTGTAGAAAGGCATGGTGTGGGGGTGGCTGGCGGAGGGGGTGGTGGGTGGTTTTCCTCTTGAATCTCTGAGAA
M
CTTGACTGGTGTACTGCTCTCTGCTTTCCTAAGGGGTCCGTAGCTGTGCTGGTGGTTTGCTTGGTATCTGTATTACATCCACTCTGTGCTTCAGCCTGTT
Celera SNP ID:            hCV29314522
SNP Position Genomic:     166668
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2521):
AAGTGGCTTCTCCGATAGTGCTGGTGAATTGGAAGCTTCTCGTCATCCCCCTTGGCTGGGGCGAGGCTTACTTCCTGGGGCCTTGGCAGTTTTGATCTAA
Y
TGACTTATGTTACCTTTCTGTATTAATCAAGCCTTTTTATTTTCCATACTTCTGATGCTTTGACATCTTGGGGCCTTGCTGACCCTGAAGAGACCAGCCC
Celera SNP ID:            hCV29314523
SNP Position Genomic:     169568
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2522):
GGAGGTTACCAGGGGCTGAGGGTGAGGGAGCAGATTTGGGGAGATGTTAGTCAAAGGATACAAAATTTCAGTTAGATAGGAGGAATAAGTTCAATAGATA
Y
ATTGTACATGATGACAGTAATAATGATGTATTCTTAAAAATTGCTGAGACAATAGATTTTAAGTGTTCTCACCACACACAAAAAAATGTGATGTAATACA
Celera SNP ID:            hCV15910942
SNP Position Genomic:     282885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2523):
AAAAGCAGGGAGACCGCTTAGGAAGCTGCTGGGACCGTGCATATGAGAGATGTTGGTGGCTTGAACCAGTGCTGGGTTTCTCAGCATTGGCAGTATTGAC
R
TTTTGGGTGAAATAATTAGTTGGGGAGTGGCAGGGCGGGGGGTAGGGGTGCAGTCCTGAACCAGTGCCAGGTTTCTCAGCATTGGCACTGTTGGCATTTT
Celera SNP ID:            hCV29314524
SNP Position Genomic:     175024
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2524):
GCCAGCTTTCCGTTGGTAATGATCACCTCTGAGTGTTTTTAGGAATTGCAAAATGCTGGAGCCTGCATCCATTTTGAGAGCTACAATATCAATAAAAATA
Y
TTCTTTCTTCGATTAAAATACTTCTAATTTTAAAAATTAAAATAGCTGTAGTAGTCTTTAAAGAGTAACCATGATCACAGTTTTCCATGGCAAAATAATC
Celera SNP ID:            hCV15910943
SNP Position Genomic:     284218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2525):
TGCCAGAAATAACATACAAATTTATCATCATACAACTGTACAATATGCAAATAACTTGCTAGATGATATTACTGAAGATTCTACATCCAATTAAAATAAA
R
AGAGAAAACACCTTAAGATAACCATACTATTAAAAGATACAGAAGACAACTGGAATAAATGGAAAGACATACCACATTTATTAGACAGGAATAATCATCA
Celera SNP ID:            hCV15910871
SNP Position Genomic:     205349
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2526):
TGGGAGAGTGAAAGATACCTCTGAGACATTTTGGCTTGGACAGAACAGGGGGTGGAGGCTTCCATTCCTGAGCTGCAAAGGAGTGGGGAGGGAGGAGCAG
Y
GTAGTTTGGGAAGTGTGTGGTGGAGAAGGCAGATGGGGCAGGAGCTCTGTCTTGCATCTCTCAGGTCAGAAATGCCTCAGACATCCAGGGGGGGCAAGCT
Celera SNP ID:            hCV29314525
SNP Position Genomic:     175510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2527):
AAGATGCGGAGCGGAGTTTGCGTGGCCCGGAGCAGCTCCAGTGTCTGAGGCTTCTCTGTGTCACAGGCTCCAAGCAGGAAGCGCAGGCAAAATGGCAAAA
Y
ACAGCATGTGGCATTCAGTTCAAAAATGCCCTTTTTTAGAAGTCGGTATTCTAAATGACATCCAGTCTTGCTTAGTTTTTTAAGAGAAAGGAAAAATAAT
Celera SNP ID:            hCV15910872
SNP Position Genomic:     209939
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,26)   caucasian(C,4|T,30)   total(C,12|T,56)
SNP Type:                 INTRON;TFBS;hmCS

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


Context             (SEQ ID NO:2528):
GACAGAACAGGGGGTGGAGGCTTCCATTCCTGAGCTGCAAAGGAGTGGGGAGGGAGGAGCAGTGTAGTTTGGGAAGTGTGTGGTGGAGAAGGCAGATGGG
R
CAGGAGCTCTGTCTTGCATCTCTCAGGTCAGAAATGCCTCAGACATCCAGGGGGGGCAAGCTAAGATGGAGTTGAACACAGCAGTGTAGGGCTCAGGGGA
Celera SNP ID:            hCV29314526
SNP Position Genomic:     175548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2529):
TACTTAAATACCTACAGCCTTATAAGGCCTAGGTGTCAATTTTTTACGCTTGCAGATCTTTTACAACTGTAAGTTAAATGATTTTACACATTAAGTGCAT
M
TAAAACAAAAAGATTCAAACCCAAATATTAATTTAATGACATGGGTAATATTTTGCTAAAAGTAAACCACTGCTCAGAATGTGAATAAACTGACCTCGAA
Celera SNP ID:            hCV29314527
SNP Position Genomic:     177195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2530):
CAGTTACCCAGTGAGTCTCCTCAAAGCAAGTGGCACTGAGATACAACCTTCCTACAGGTTTTCAAGTCATCTCGTGTGGTGCACAGTCCTCGCCCTACCT
S
GAAGGCCCGGGCGAAGTTTTCCTGAGTGTGTATACTCATCTCTTTGTGTTGTCTCTGGCAGGGAGCAAGTGAGTACAGGATTGGAGTAATAGGCATTTTT
Celera SNP ID:            hCV29314528
SNP Position Genomic:     178741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:2531):
CAAGGAGTCTACTTCTAAGAATGCATTTGCAAGCCAAAAGAGTGGTGAACCACTTCAGAGTGCGGGTCTGTGGGGGATGATGTCTGCTTTGCTTCGTTTT
K
TGGAATAATTTTTAACATTTCTATTTAGCATTCATGATACTCTAAATAGAAGCAGGAGAACACTGTGGCTCTCGGATCCAGGAGAGGCAGGCCACGAGGG
Celera SNP ID:            hCV1599482
SNP Position Genomic:     186037
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,13)   total(G,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2532):
CCTTCCTACAGGTTTTCAAGTCATCTCGTGTGGTGCACAGTCCTCGCCCTACCTCGAAGGCCCGGGCGAAGTTTTCCTGAGTGTGTATACTCATCTCTTT
R
TGTTGTCTCTGGCAGGGAGCAAGTGAGTACAGGATTGGAGTAATAGGCATTTTTAGGCTTGAGATGGCTTTGTGTGTTTGGTTAATGTCACTACATTTCC
Celera SNP ID:            hCV29314529
SNP Position Genomic:     178787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:2533):
GAAAAGAGGGTTAGCTTTTTTTTTTCCGGCTCATGGTTCTTCAGGCTGTTCAAGCATGGTTCCAACATCTGATCATCATCTTTTTTTTTTTTTTTTTAGA
Y
GGAGTCTCATTCTGTCACCCAGGCTGGAGTACAGTGGCGCCATCTTGGCTCACTGCAACCTCCCACTTCTGGGTTCAAGCAATTCTCCTGCGTCAGCCTC
Celera SNP ID:            hCV1599483
SNP Position Genomic:     187100
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2534):
GAGGTGGCCGAGCTTGTCTGGCTTCCAGAGGAGCTTTCTCTGTCCCGCCCGGGGGAGTGGCTCACCTTGGTCTGAGACCAATGGGAGGAAGCCTGCTGCG
R
GCAACTGGTCTGTGCCTGGAAGTTGGACTTGCATTTTCTCTGGACCTCCAAAGCAAACCCGAATGACCACTCTCATCCTCCCCTTTTGCTTGTTTGTGTA
Celera SNP ID:            hCV25743523
SNP Position Genomic:     24232
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,38)   total(A,2|G,76)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:2535):
CCAACATCCTTCATTGTGTTTACTTACTATATCTAGTCTTCTCCAGTCTGTAAAAATGTGTCTATCTTTGCTTGTTTTTCATGACCTTGATATTTTTGAA
K
AGTATGGACAGGTTGTTGCATAGAATGCTCCAAATTGGTTCTAATGTTTCTCATCATTAAACTCATTTTTATACATTTTGGGGAAGACTACTACAAGATT
Celera SNP ID:            hCV1599484
SNP Position Genomic:     193268
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:2536):
GCACGGGCAGGAGGAGCTGTGGGTTGCTTTTCTTCCTTGGAACATGGAGCACCACTCTCCCCTGTGCTGATACACTTACAAAGAAGTTCACCTACTCCTT
G
GAAAGTTCTGGAAAAGGGGCTTCTACACTGTTGGCCTCTCGAGGAGAACGGTTTTTGTTTCTGTCTTCCTGGAAAAGAGGTGACTGCTGGCATCATCTTT
Celera SNP ID:            hCV1599485
SNP Position Genomic:     198352
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,11)   total(G,1|-,11) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2537):
AAAGTGCCAGTCTCTCTATGGGTTTTAGAGCTGATTTAGATACATGCATTGCTAATACAGTCAGCCCAGCCAAGATAGTGCCATCCTCCGCAAGCATCCA
M
TAAGGCATGGAGTCAGCTTCCGTCATTGTTAGATCAGTACTTGTTTCTTTCCCTTGCTTATTTTTCCTAACCTCTCTGAACCTGCTGTGTTGGAAGCTTA
Celera SNP ID:            hCV1599486
SNP Position Genomic:     204934
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,12)   total(A,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2538):
TTTATCAACATGTACCATTTTCTACAAATGCCGCCCTTCCTCTTTAAATTGCTTGGATGGGCAGATCGATTTTGATTAGCAACACTGCAGCAGAAACAAG
K
TGCATCTCTGGAAGGACTGGGTGGTTTTCTCGTTATTGTTGCTGGTTTGGGTCACATCGGATGCTATTTTAAATTCTGTGTTTTATTCCACGATGGGTCT
Celera SNP ID:            hCV1599487
SNP Position Genomic:     209535
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2539):
CCACTGTACTATTTCCTTGTTTGTTTTTCCTGTCAATCTTGCCTTCCGCGCTAATGGGACACTGATGCTGTATGGTGATGTGTTCTCCCACAGTCATCTT
Y
TCCTCCTGTGGTTGGGGTGGGGAGCTTTCTCTGTGTCCCCCCATGAGAGTGAGGACAGTCTCATTTAATGGCACCATGGTCTGTGGAGCCAGGCAGGCCT
Celera SNP ID:            hCV1599488
SNP Position Genomic:     211629
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:2540):
TTTTATTTTCAAGACAGGTTCTCACTCTGTCACCCAAGCTGGAGTGCAGTGTTGTGATCATGGCTCACTGCAGCCTCAACCTCCAGGGCTCAAGTGATTC
Y
TCCACCTTAGCCTCCCAAGTACCTAGGAACACAGGCGCACACCACCACTCACAACTGACTAATTTTTAAAATTTTTTATACAGACAGGGTCTTGCTGTGT
Celera SNP ID:            hCV93523
SNP Position Genomic:     298929
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,10)   total(C,3|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2541):
ATTAACTGTGCCTGGCCCTGAATTCGTGCCTTGCAGGTACTTAGGAAGTGAGTTATTACAAGCAGTGCTTTTTATCATCCATAGATGGAGATGTTATCTA
Y
GCTATAGGACTGCAGAAAGAATTACAGAGAATTATGTAGAATCACTAGGGACTTGATTAATATTTGTTTACCTTTCCCCCACATGGATTGATGTCCTTTA
Celera SNP ID:            hCV1599489
SNP Position Genomic:     211953
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;hmCS


Context             (SEQ ID NO:2542):
ACCCAAGCTGGAGTGCAGTGTTGTGATCATGGCTCACTGCAGCCTCAACCTCCAGGGCTCAAGTGATTCTTCCACCTTAGCCTCCCAAGTACCTAGGAAC
R
CAGGCGCACACCACCACTCACAACTGACTAATTTTTAAAATTTTTTATACAGACAGGGTCTTGCTGTGTTGCCCAGGCTGATCTTGAATTCCTGGGCACA
Celera SNP ID:            hCV93524
SNP Position Genomic:     298960
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,10)      total(G,4|A,10) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2543):
ACACTTCTCATTTTTCTGGTTAGACTACTTAACCATAACATTCATGGTGCCACCTGAAAAAATAATTTTATCGTTTTAGACTTTTAAAATATTTTTAGGC
T
TTTTTTTTTTTTGGCTTAAAAAAAGAATCTGTTCTACTTGGGTATTTTGTTCTCCTTATTTCTTAGTGAACAAAGATATTTGCTCGACTTCTATCCCAGA
Celera SNP ID:            hCV11522901
SNP Position Genomic:     106347
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,5)   total(-,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2544):
ACCACCATAAACACGGTGGGGGAAGAGGCTGCAATCAACAGTCAGGAGGATCTGGGTTCCAAGCCCAGGTTTGCAGTGTAACAGCTGTGTGCTCTTGGTG
Y
GAACATTTGGTCATGTACAAATGAGGATAATGATACTGCCCCCTTGTGATCATTAGGGGGATTAAATTAAATGCAGAAATATATGTGAGATGCTTAATGT
Celera SNP ID:            hCV85362
SNP Position Genomic:     238243
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2545):
AGCAAATACTCTGCATGTTGAGTGCTTTCAAAATACAGAAACAAACAACTTGTGGAGGCATTGGAAAAGTGTGTTTGAGAAACAAGCAGCCTCACCATGA
R
TGGGAGTTTGTTTCCCTTTCTCGTCTTTCTGGTCATCTGCTGCACGGGCAGGAGGAGCTGTGGGTTGCTTTTCTTCCTTGGAACATGGAGCACCACTCTC
Celera SNP ID:            hCV25741856
SNP Position Genomic:     198210
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,35|G,1)   total(A,69|G,1)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:2546):
AATGTTCTCATCTCTAAAGTATGGAAAATAATTGCATCTGTGTGAAAACTGAGTTACTATACGTAAAGTTTTTAGAATAGTACCTGACATACAGTAAGTG
Y
TGAATAAGTATCAGCTAGAGAGAGAGAGAGTTAGTTTCCAGCAGCCTGTTTCTGTTTGGGGTCACATGTGGTCTCTGTCCACCTGGCTTTTTAGGCCTCT
Celera SNP ID:            hCV16052866
SNP Position Genomic:     197926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2547):
TGCCCCAGGGAGGAGTTTGAGTTGGTACATCCTGACTGGGTACTCTGCCTGTGGTTAGCAAATACTCTGCATGTTGAGTGCTTTCAAAATACAGAAACAA
R
CAACTTGTGGAGGCATTGGAAAAGTGTGTTTGAGAAACAAGCAGCCTCACCATGAATGGGAGTTTGTTTCCCTTTCTCGTCTTTCTGGTCATCTGCTGCA
Celera SNP ID:            hCV16052867
SNP Position Genomic:     198154
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,4)   caucasian(A,36)   total(A,62|G,4)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:2548):
GTGCTGGGATTAAGGTATGAGCCACCTTGCCCGGCTACCGGACAGTCCACTCTTTACAGGGGGGCGTCTTGGTATAAGTATGGAAAGCTCCGTAGATGCC
R
TGTCAGTCCATACCCTCACCACCTTCTTGACCCTGTGCCGATAAACTAAGAGATGTGGGCAGTGTACCATCTGGAAAGGAAAAGGCTTTGGAGCCAGGTA
Celera SNP ID:            hCV16052868
SNP Position Genomic:     203814
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:2549):
CCAGGTTCAAGTGATTCTTGTGCCTCAGCCTCCCAAGCAGCTGGGGCCACAGGTGTGAGCCACCACACCTGGCTAATTTTTTTTTCTTTTCTCTTTTTTG
K
TTTTGTAGAGATGGAGTGTTGCCATGTTGGCCAGGCTCGTCTCGAACTCCTGGCATCAAGTGATCTGCCCGCTTCAGCCTCCCAAAGTGCTGGGATTACA
Celera SNP ID:            hCV27009636
SNP Position Genomic:     121946
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,7)   total(G,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2550):
TCATGGGGAAGGGTGTGGATGAAGGGTGAGCCGGGACCCCAGGCAGGTACGGAGCAGTTCAAGGCCGTCAAGTGTGCTTCATTCTTCAGTCATTAGGGTG
T
CTCTGAAAGGTTTTTCATTGAATCAGAATTCCCCTAATTCACGAATTCTAAAGCTTAAGTAAATTCAGTAATAATAAACTGTCAATTATCCAAGCGATGA
Celera SNP ID:            hCV27009637
SNP Position Genomic:     122615
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2551):
CATGGGGAAGGGTGTGGATGAAGGGTGAGCCGGGACCCCAGGCAGGTACGGAGCAGTTCAAGGCCGTCAAGTGTGCTTCATTCTTCAGTCATTAGGGTGT
C
TCTGAAAGGTTTTTCATTGAATCAGAATTCCCCTAATTCACGAATTCTAAAGCTTAAGTAAATTCAGTAATAATAAACTGTCAATTATCCAAGCGATGAA
Celera SNP ID:            hCV27009638
SNP Position Genomic:     122616
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2552):
CTTTAACCAGAGAGTTGGAGGTTGCAGGGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGTGACAAAGCGAGACTCCATCTCAAAAAAAAAAAAAAAT
R
CCCACAACTGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAA
Celera SNP ID:            hCV27009639
SNP Position Genomic:     125077
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2553):
TCTCCAGTGTACATTTATGGAGGGGCAAGATTTCACCATTCTGTGAAGAACTCTGCGTGTTGACGACTGCTCACGCCTAGGGAATAAATTTCAGAGCATG
Y
GTAGATAGTGCCATTTTCTACTTAAAATACTATAATCCATTATTTACTTCGGAAAATAAAAGCATTAAGGCTGAAAGTTTTGGGTTAGTAATCTTGATGT
Celera SNP ID:            hCV29314600
SNP Position Genomic:     96539
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2554):
ACAACTGTTCGACTAACTGTCGGAGACACCCTAATCACCCCAGCCACAAACAAATAGAACATTGTATGTGTGCTGAATCCCACAAAGGCCAGACATGATG
S
CATGAGACCAAGAAGGAAAAGAAATAATGTGGAAAGGGTTTGGGGTGGAAAGGTGGGGAACCTGGAGGCGGGCCACATGGGGCCCCAGAAGCCATGTTGA
Celera SNP ID:            hCV29314601
SNP Position Genomic:     100004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2555):
TCATGCTTCTCAAGTAAAGCAACAGTATCTGTGTATCCATTTACTTGATTGAGCTTTCTACTGAATTACAGGAGTTAAATTATACTTTGTTACACTCTTG
R
TATTACAAAATGATGGCCATGCCTTTATTATAAAATGACACCAGTTATTCTTTCCTGGAGGATGTGCCTTGTGTCACTAGCCGCACTAAGCACTTCCCCA
Celera SNP ID:            hCV29314602
SNP Position Genomic:     101708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2556):
GGCACCTGGCTGTGCTCCCTTGTTGGGGGGTCCCTTGGCCTGGGCAGTTTTGCGCTTCTCCCTGTTTCCCTGTGCCCTGAGACTTTGTGGGTCACAGGCA
R
GGGGGCTGGCCTCCCTGATCAAGGGCCCTTGGCCTAGGAGGGCCCCTGGATTTATCTAGTCCAGCTTCTCGTCGTCCAGGTGCAAAACTGATGCTCTGAG
Celera SNP ID:            hCV29314603
SNP Position Genomic:     106780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2557):
TGGCAGGGAGCAAGTGAGTACAGGATTGGAGTAATAGGCATTTTTAGGCTTGAGATGGCTTTGTGTGTTTGGTTAATGTCACTACATTTCCTAGGGGATA
R
TAAAAGTCTAGCATGATAAAAGATCTCGTCTTACAAGGTCCCGATGTAAAGTTTGGAGCCTAACTTAGAATTTAAAATAAAATACATTTTGACCCATTGT
Celera SNP ID:            hCV29314530
SNP Position Genomic:     178897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2558):
GAGGGTAACATGGAAGTATTGTCATTCTCGGGGCTGACTGGTTGACAGCAGCCTATACAGGAGTGGAGAATATTGACAGGGCTGCCCGTTCTCCCCAGGT
Y
GAAGAGAGCAAATGCACATCCCTGTGTGCACGGCCACCTGGTTCCTCTCCTCACTTGCTGGTGAGTATTGAACGGCTCACATAATTAGGCAGAACTCAGG
Celera SNP ID:            hCV29314531
SNP Position Genomic:     180656
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2559):
AGCTAAATCACCGCTAAGATTTATAATTTACTTTTTGGATATCTGAAACATCAACAATATAGCCATCCATGGCGTGTTCCTCTGGAGTGTGGTCCGTGCC
R
TCTCTGCCTGCTCCATCTGGCTGATCCCAGGCAGGCAGCTCAGCTCTCAGCAGACACAGATCCCCAGCACATATGAACGTGAAAGAGGCTTCTCCGTGGG
Celera SNP ID:            hCV25986737
SNP Position Genomic:     152476
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


Context             (SEQ ID NO:2560):
CAGTCCCAGTGCCTTTTCTCTGGTGCAGCCTCATGGTTCGGTCTCACCTTCAGCTTTTCCTTCCCTCCAATACATCCTGTAAATTATTGTCAGACTTCTT
Y
TTATCTAAATAACTCGTTTAGGTAAGGTACTCATATGTTCAAAATACCATGGTGGCTCCCTGTTCTCTGTGATGTGAAGTCCTAACCATTAGACTCAGCT
Celera SNP ID:            hCV29314532
SNP Position Genomic:     180918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2561):
CTCGGCATTCTTTCCCATGCTTTTTCCTTGATCATCACTTACTAGCTAACATCTATTTTTTCCTAAACACTCTGTTGCAGTTGTAGTCTGCAGTCACTCT
Y
CTAAGACTTGATCATCTATTACGCTGTTTCGTTCTTTATTTTTTAACTTTTCTTCTTCTTTTTTTTTTTTGAAACGGATTCTCGCTCTGTCACCCATGCT
Celera SNP ID:            hCV29314533
SNP Position Genomic:     181258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2562):
TGGTGACAGCAGGTTAAGGAGAGTGTCAGAGCTGGTGCAGAGTTTTGCCCCGGGGCCATGAGGTTCTGGGCATCATGACTCTCTTATGAAGTTACAAAAC
K
GGGCAAGTGATTGAAGGCAGAAAGACACTGTAATAAAGTGTGCTCCAGTGATGTGTGCTCCGGCTTCTCTCCCTTACTCATCTGGGCCAGGTGCTTTCGC
Celera SNP ID:            hCV27837171
SNP Position Genomic:     210694
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,28)   total(G,1|T,65)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2563):
CACTCGCCTTGGGGGGATGGTATGAGCTGTCATACTGTATGAGCCTCATCCTGGGGCCATGACTTACCAAGCCAGATCATCTCTGTGAGTCTGCCTGGTG
K
AAAGACAAGGATCAGTGACTTCTTTGTAGGTCTGAACTGGGTAATGCAGAGCATGCCCTGGAGACATGGCATGTCCCCCCAATTCTCCAAGACATGACAG
Celera SNP ID:            hCV15910953
SNP Position Genomic:     284773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2564):
CATGCTTTTTCCTTGATCATCACTTACTAGCTAACATCTATTTTTTCCTAAACACTCTGTTGCAGTTGTAGTCTGCAGTCACTCTCCTAAGACTTGATCA
Y
CTATTACGCTGTTTCGTTCTTTATTTTTTAACTTTTCTTCTTCTTTTTTTTTTTTGAAACGGATTCTCGCTCTGTCACCCATGCTGGAGTGTACTGGCAC
Celera SNP ID:            hCV29314534
SNP Position Genomic:     181273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2565):
CGATTGAGGCACCTCTGAAAAGTCCAAAACTCACTCCCTTCCTCTCCAGTTTCAGGCACAGAATAAAAATTCAGAACACATGGCCTTGGTCCTGGCTCTG
Y
GGCTGGCTGCCTGTGGTCCTCAGACAGCTGCTGCAGGTTCCTGGGCCTCAGTGTCCTCAATATAAAATAAGAGGGTGGGACAAGATTACTGAAGTCCCTT
Celera SNP ID:            hCV15910954
SNP Position Genomic:     293865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2566):
TGAAATCAGGGGGATTCCCAAATTTCTACCCCAAATCTGGATGACTGCATATTGCGGGAGTTCAGTAAATATTTGTTGCACTAATACTTATGTGCATACG
Y
TGAAATAATCTAAATATTTAAAAACCAAACTAACGGTAGGACTTTCCTCAGGGATTTAACGTTTGCTGTAGAAGACTGAATGATAGAATATATAAGCTGT
Celera SNP ID:            hCV29314535
SNP Position Genomic:     182703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2567):
CTCACTCCCTTCCTCTCCAGTTTCAGGCACAGAATAAAAATTCAGAACACATGGCCTTGGTCCTGGCTCTGTGGCTGGCTGCCTGTGGTCCTCAGACAGC
Y
GCTGCAGGTTCCTGGGCCTCAGTGTCCTCAATATAAAATAAGAGGGTGGGACAAGATTACTGAAGTCCCTTTCAGAACTAAAATTCACCTTTAGATTGGT
Celera SNP ID:            hCV15910955
SNP Position Genomic:     293894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2568):
AGAGCAAATGACTTGGAAAACAGGCAAATCCACTGACATAGGCATTTTTAGCCACCTTGGAATCCGAGGAGGGATTCTGCACTATGCCCTGTAACCTCGT
Y
CACATGCCGTTTGAATGTATACCATGAAGACCCCTTAGCTCAGGGAGCTTTGCTCTATTTAAGTAATGTTTATATTCTTAATGAACCAAAGAGGAAGTGG
Celera SNP ID:            hCV29314536
SNP Position Genomic:     183798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2569):
TTCTCTAGGAATCATCTGTAAAAAGTAGAGGTTTGTCATATCTCTAAACTAGGGATTCACCTTATTTATTAAGCTATCAGTGACTTTATCTTGAGGTGCA
Y
GGCTTTTAGTAACTCTGGTTCAAGTGCAAGGAATGCAAAGTTAAGTGTATCATTGGAGGTGGGATTTTTGAGTTTGTCAGTCATTTATTGATTTGCATGT
Celera SNP ID:            hCV15910883
SNP Position Genomic:     219085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2570):
CTCCACAAAAATATGTGGGAGGCCTGCAGGGCAGGTGCTCAACTAAGCTCTGGGGCTGCAAAGATCCAGAGCCATGCCCCTCCTTGGAGGCAGGTCCTTG
Y
AGACGAGGACAATCGTAGCCTTCCTGATTAAAGCAGGAATTGTCCAATCAGGCTATATGACGGGCATCGTCCATAGTCTTCACCAGGGGAGCTTTTCTGA
Celera SNP ID:            hCV1599490
SNP Position Genomic:     212715
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,29)   caucasian(C,7|T,19)   total(C,8|T,48)
SNP Type:                 INTRON;TFBS

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:2571):
ATTATGTGTAGGGGACTAGATGGAAAGAGTGCAGATAGGACTACCTACCATTCACCCCTACCAGCGAAGTGGAAGCACTCATCTTCTTTCCCTTCTTACC
Y
TTTCAAAGCAAGTTGTTGAGGGATGAAGAGGAGAGTGACTTTAATCGTGGCTTTAAGTAGAGATTTTCTTTAGGAGTAATTGTTTCTCTCGACAGAGTGG
Celera SNP ID:            hCV29314537
SNP Position Genomic:     191866
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2572):
TAATACGGTTATCAAAACAGTGTTCACTCCATACTCCAGTGCTGTTAATCTCCAGACTGAATTCGGATTTCACTATTTTCCCACTGATGTCCCTTTTTTT
K
GTTCCAGATCCAAGAGACGATCCTACCTGGCATTTATTGTGTTCAGTTTTTCTAATTCTGGGACGTTTTCCTGGGTTTTCTTTAGTCATTCACGAAGTTC
Celera SNP ID:            hCV15910884
SNP Position Genomic:     219491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2573):
CAAACCCTTGTACAGACCATCCTAGTAGAAATGTGGATCTTGAGTATCTCAGCTTCTTAGTAGATTTTGAACTCCGTGAAAGCAGGAGCCAGGCCTCTCA
M
AGCAAGTCTCTCCAATATGCTCAGTAAATATTTGTCAGATCGAGCAATGACCAGATGATGAAATACATTAAAGCCTTAGGGAGAACTGAGACTACTGCAC
Celera SNP ID:            hCV1599491
SNP Position Genomic:     216866
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,7)   total(A,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2574):
CCCCCAAATTCCATCACTGAGGGAATAAGTAAGTTAGGGTGATAGCTCCCAAGCTTATTTTCTCTTCAGAATCACCTCATGAAGAAAATGAAGGTCTGTG
K
GATAGTAGCTGGCAGGTGGGCATGGTGGTGAGGGTGGTGTTTGAGCGGAGACCTGAATGAAGGTTGAGAAGGAGCCAGCCACTCACAGACACAGAGGAGG
Celera SNP ID:            hCV29314538
SNP Position Genomic:     206695
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2575):
TTGTTATTCCCCAATGAGGATCATTTCATTTGGGGCTGGTCTCCGGAAAAAAGTAGATCAAGCTTTTCAGATGAGATTTGGGTGAAACCCTGACAAACTC
T
TTTTTATTGCCTTCCCTACCACATAGTGGTGGATCAGGAAACTGTAGGGCTTATGATGCTGGGAAATTTCTGCTAATGCAATAAAGATTTTTGCTGTTGA
Celera SNP ID:            hCV1599492
SNP Position Genomic:     218530
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2576):
CAGGAACACAGCGGCTGAGGAACGGATGCTTGGAGAGGAGGGGGTGCTTTACATGCCAGGCGGGCAGGGCCGGGGTGGGGCCAGATGCTGGAGGAGAGGG
Y
TGGCCAAGGGGTGGCAGAGAGGCCCCCCAGGTGGCAAGTTTGCACCCTGTTGCTTCCTGCAAGGAGCTTTTGTTTACGTTTTCAGCTTGGACAGTCTGGC
Celera SNP ID:            hCV29314539
SNP Position Genomic:     207759
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2577):
GGTTTTCTTTAGTCATTCACGAAGTTCGCACTTTTGGAGAACATGGGGCCAGTTATTTTGTAGAATATCTTTCTGTTAGAGTTTGTGGATGTTTCCTCCT
K
ATTAAATTTGGGGGGTACATTTTTAACTTGGAGATCACAGAGGTGCTGCTGTTTGTGTCTTTGCGCATCCTGTCAGGAGATGCGTGATGTTTCCTTTCCT
Celera SNP ID:            hCV1599493
SNP Position Genomic:     219665
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:2578):
TTAACAGTGAGGGACATAAACTTTTTAACTAGCAGTGGCAAGTCCACTTTTATTTGGGAGGACAATTACTAGTCACATGAAGAAGAAAAAATATGCAGAA
S
CTTAAGAAATCCCACATATGAATGTTATTTGAAATGTTCTTGCCCTTTCTCCCTACAAAGGAGGTGAAGAAGATGACAGGAGATGTTAATTGCCAAAATA
Celera SNP ID:            hCV1599494
SNP Position Genomic:     220125
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;hmCS


Context             (SEQ ID NO:2579):
AAGAGGAACGTGCCTGGGAGGACCCGAGACAGGTGCGGGTGGGTTTCCGCAGTAGCCGCTGATCCCGAGTGCATGCGGCGTGTTCCCGGGTCGGGACCGC
R
GCCAAGGGAGGCTTCCCGGCCCCAGCCTCCACCCCCTCCTCGGCGCCCCGGGACCCGGACACGCCCCCCGAGCTTCGGAGACCCGCAGCGTGCACGCGCC
Celera SNP ID:            hCV27842865
SNP Position Genomic:     3838
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,4)   caucasian(A,14|G,8)   total(A,24|G,12)
SNP Type:                 TFBS

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


Context             (SEQ ID NO:2580):
ACTACATAAGATGTGCTGTTCCTCTCTCTTTCTGTTTGAAAGTGACTTGGCAGGGTGAAGTTGAGAACCCCTTGGAAAGGAGGAAGCCGAAATGCAAACA
M
AGTTGAATCATGAAGTGATGTCACTCTGAACCAATTGGAGCAGTGGTGTCATGTGCCTGGCAGCTACTTCAAATGCCCACAAAACAGGAGTAATGGTTTA
Celera SNP ID:            hCV27842866
SNP Position Genomic:     179757
SNP Source:               Applera
Population(Allele,Count): african american(A,31|C,1)   caucasian(A,12)   total(A,43|C,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2581):
TTTTAGAGGCAGGATCTTGCTGTGTTGCCCAGGCTGGTCTCAAACTCATGACCTCAAGTGATCCTCCCACCTTCACCTCCCAAAGTGCTGGCATTGCAGG
Y
GTGAGCCACCATGCCTGACCTTCCTTGTTTCTTTTAGGTGATTATTGGTTGTGTGTGAGGAAAGCTCTGGTATTTTCTGTACTTATCTTGTACCTACCCA
Celera SNP ID:            hCV516328
SNP Position Genomic:     33668
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2582):
AAGTAATCCTCCACCTCAGCCTCCTGAGTAGCTGGGACTACTGGTATGCGCCACCATGCCTGGCTAAGTTTTTTCTTTTTCTTTTAGAGGCAGGATCTTG
Y
TGTGTTGCCCAGGCTGGTCTCAAACTCATGACCTCAAGTGATCCTCCCACCTTCACCTCCCAAAGTGCTGGCATTGCAGGCGTGAGCCACCATGCCTGAC
Celera SNP ID:            hCV516329
SNP Position Genomic:     33587
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2583):
TGTTCTATGGAATTAATATTGAACAAGCTGTTCTGAACCTAAGAAAGGTTTGTAAAAAATAAACATGAAGGAAGACTTCATTCAAGAGGTCACTTAAAAA
T
TATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTGTTATTTTAAGAATTAGGTCTCTGTTGGCCAGGCTGGAGCACAGTGGCACAATC
Celera SNP ID:            hCV27009640
SNP Position Genomic:     128925
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2584):
GTTCTATGGAATTAATATTGAACAAGCTGTTCTGAACCTAAGAAAGGTTTGTAAAAAATAAACATGAAGGAAGACTTCATTCAAGAGGTCACTTAAAAAT
T
ATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTGTTATTTTAAGAATTAGGTCTCTGTTGGCCAGGCTGGAGCACAGTGGCACAATCA
Celera SNP ID:            hCV27009641
SNP Position Genomic:     128926
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2585):
TCACAGCTCCAGGAACTTGCAAGGAAAGGGACTAACGGGGCATCTGATTCACCCGTGTGCCCTTAATGGCGTATTGTGTGAATAAAGCAACAATTTTTAG
Y
ACAGGGATTTAAAACAACTTCTGCAAAGACAGAACTAAAAATTAATCTTAAAAGGTGGAGGGTTGGGGTGGAGGGCAGGAAAGAGGAGGAACTAAATTGC
Celera SNP ID:            hCV16052877
SNP Position Genomic:     208458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2586):
TCTATGGAATTAATATTGAACAAGCTGTTCTGAACCTAAGAAAGGTTTGTAAAAAATAAACATGAAGGAAGACTTCATTCAAGAGGTCACTTAAAAATTA
T
TATTATTATTATTATTATTATTATTATTATTATTATTATTATTGTTATTTTAAGAATTAGGTCTCTGTTGGCCAGGCTGGAGCACAGTGGCACAATCATA
Celera SNP ID:            hCV27009642
SNP Position Genomic:     128928
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2587):
TGTTTTGGTTCATTTGTAGTTTCCCCCCGCTTCGTTGTTTCCTCAGATATGGAGAATAAAGCCTGGCTGGTCAGTTTCAGTTTTTATTTAAATTCATTTT
R
TCTTCATTCCTTTTAATCTAGCACAGTCCTGTGATGTATTGGGATCACAGTGCTCTGGGGAAACATTGAAATATAAAAACATTTTCCTGAAAACATTTCC
Celera SNP ID:            hCV16052878
SNP Position Genomic:     214835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2588):
CTATGGAATTAATATTGAACAAGCTGTTCTGAACCTAAGAAAGGTTTGTAAAAAATAAACATGAAGGAAGACTTCATTCAAGAGGTCACTTAAAAATTAT
T
ATTATTATTATTATTATTATTATTATTATTATTATTATTATTGTTATTTTAAGAATTAGGTCTCTGTTGGCCAGGCTGGAGCACAGTGGCACAATCATAG
Celera SNP ID:            hCV27009643
SNP Position Genomic:     128929
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2589):
ATGGAATTAATATTGAACAAGCTGTTCTGAACCTAAGAAAGGTTTGTAAAAAATAAACATGAAGGAAGACTTCATTCAAGAGGTCACTTAAAAATTATTA
T
TATTATTATTATTATTATTATTATTATTATTATTATTATTGTTATTTTAAGAATTAGGTCTCTGTTGGCCAGGCTGGAGCACAGTGGCACAATCATAGCT
Celera SNP ID:            hCV27009644
SNP Position Genomic:     128931
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2590):
TGGAATTAATATTGAACAAGCTGTTCTGAACCTAAGAAAGGTTTGTAAAAAATAAACATGAAGGAAGACTTCATTCAAGAGGTCACTTAAAAATTATTAT
T
ATTATTATTATTATTATTATTATTATTATTATTATTATTGTTATTTTAAGAATTAGGTCTCTGTTGGCCAGGCTGGAGCACAGTGGCACAATCATAGCTC
Celera SNP ID:            hCV27009645
SNP Position Genomic:     128932
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2591):
GAATTAATATTGAACAAGCTGTTCTGAACCTAAGAAAGGTTTGTAAAAAATAAACATGAAGGAAGACTTCATTCAAGAGGTCACTTAAAAATTATTATTA
T
TATTATTATTATTATTATTATTATTATTATTATTATTGTTATTTTAAGAATTAGGTCTCTGTTGGCCAGGCTGGAGCACAGTGGCACAATCATAGCTCAC
Celera SNP ID:            hCV27009646
SNP Position Genomic:     128934
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2592):
AATTAATATTGAACAAGCTGTTCTGAACCTAAGAAAGGTTTGTAAAAAATAAACATGAAGGAAGACTTCATTCAAGAGGTCACTTAAAAATTATTATTAT
T
ATTATTATTATTATTATTATTATTATTATTATTATTGTTATTTTAAGAATTAGGTCTCTGTTGGCCAGGCTGGAGCACAGTGGCACAATCATAGCTCACT
Celera SNP ID:            hCV27009647
SNP Position Genomic:     128935
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2593):
TTGCATACTTCTCTTAGTGGCGGACTAGCGGTTGTACAGTAAATAGATGATCATTCTCGCTCTGTTTTACCTTTCCTCAGCTGCTCTTCTAGTAGGAAAA
T
AACAGCCCTCTTAGCTGTAGTCTTCTGGAGGCTCTCTCAATAATAGAAGTGGAAAGAAAAGACTCAAATCCCTGGGCAGTGACTTTTTAGTTGTTTCATT
Celera SNP ID:            hCV27009648
SNP Position Genomic:     29883
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2594):
TGCATACTTCTCTTAGTGGCGGACTAGCGGTTGTACAGTAAATAGATGATCATTCTCGCTCTGTTTTACCTTTCCTCAGCTGCTCTTCTAGTAGGAAAAT
A
ACAGCCCTCTTAGCTGTAGTCTTCTGGAGGCTCTCTCAATAATAGAAGTGGAAAGAAAAGACTCAAATCCCTGGGCAGTGACTTTTTAGTTGTTTCATTT
Celera SNP ID:            hCV27009649
SNP Position Genomic:     29884
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2595):
GTCAAGTGGGCATCCCGCAAGGATGCAGCAGGAGTATTAGGGAGGCGATCACCAGAGCAGAGGAGGAGTAACCTTCCCCATAAACAAGATGTGTTCCCCC
S
ACTAAGAAAGCGGGTGGAGGGTGGAGGAGCCAAAACACATCCCAGCCCCGGGGCCCCACCGGAGCGAAGCGGGCCGAGCGCAGAGTGCAGAGTCGGGGAA
Celera SNP ID:            hCV29314540
SNP Position Genomic:     209079
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2596):
CTGGGTGTCCCCTGCCTGAGATGAGCACAGTGATGTCTATGCGAGGTTGTAGGACTCAGTGAAGTGCCTTAGGGATTTTGCCTGGCACTCTCCTGGGCTC
M
TGAGGTGCCTAGGGCTGAGACTTCCCCTTCTCTGTCTGGTAAATCATCTCTCCCATTCTTTCTTCTGCGGCCCTTCATATGAGCTTTGTAATTTACTCAG
Celera SNP ID:            hCV29314541
SNP Position Genomic:     210905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2597):
GTGATTTCCCCGCAGCCTCGGTTTAGAGGGAGACGGGGTGTGCTGAGCTGTGCCTGCTTCTGTAGAAGGGGCCTTCTCCAAGTCTGAGTAGCCTTAAGCC
W
TTAGGACTGCTGAGTCTTTCTCCACAAAAATATGTGGGAGGCCTGCAGGGCAGGTGCTCAACTAAGCTCTGGGGCTGCAAAGATCCAGAGCCATGCCCCT
Celera SNP ID:            hCV29314542
SNP Position Genomic:     212595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2598):
ATTATGCATAATACAGTGATACCCTCAAGGCTGAGTGGGAGGCAGTTTGCCCTCTGCTGAAGGTTTCTTGTGCTTATTGTGTTCTTATGGTTTGGTTTTA
Y
CATTTTTATGTCTCCATTTCTGTTTAATAGACTTATTTCAGTAAGAAGAGAAAGCCGTCTCCATCAGCCCCTCTGTAGGTGATTATTTGCCACTTCCTTT
Celera SNP ID:            hCV29314543
SNP Position Genomic:     217197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2599):
GTGCTTATTGTGTTCTTATGGTTTGGTTTTACCATTTTTATGTCTCCATTTCTGTTTAATAGACTTATTTCAGTAAGAAGAGAAAGCCGTCTCCATCAGC
M
CCTCTGTAGGTGATTATTTGCCACTTCCTTTTTGCTGTGAGTGCTTTGAAAACAGATTTCTAAGCTTGTTAGAGTTATGTGTTAAGAGTAAATAGGCAGT
Celera SNP ID:            hCV29314544
SNP Position Genomic:     217266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2600):
TAAAATAAGAGGGTGGGACAAGATTACTGAAGTCCCTTTCAGAACTAAAATTCACCTTTAGATTGGTCAGATTTAAACTTTTTCTTTCTAGCTCATGTCA
R
GTATTAAAATGTGTGCACTTACCCTGCAGTTTCATTATATTCAACCTGCTCCCCCGACCAAGTTTCACTTACGTATCTCACTACGAGTAGGTGTATATGT
Celera SNP ID:            hCV15910964
SNP Position Genomic:     294028
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2601):
CTGGGAAATTTCTGCTAATGCAATAAAGATTTTTGCTGTTGAAAGAATTTGATCTGTTTTATGTATAACATGCAGAGAGCAGAAGCATATATTATCTGTA
R
CAGATGATAGAGCAGGGTATATGGGCAAGTTAGAAAAACACAGTTCTCACTACATTTGAAGAAAAAGGACAAGGAGTTGTCACAAGGATCCAGGAGAGTC
Celera SNP ID:            hCV29314545
SNP Position Genomic:     218689
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2602):
CTGCAAAGAGGAATGCTTATCCCTGTTACTTATTCCTGGTTTCCTCCAAGACTAGTTTCAGCTGGACTTCAGTTGCCAAGGACTTGTCTTCTGTAATGCC
S
ACAGAAAATAATAATGCCACATTGTAAGGTGAAAACAGTAATCCTGGTATTTTTGTATTTTAGAAGAAGGTTGAAGGGAAAGAAAAGGATTAAATAATTT
Celera SNP ID:            hCV15910965
SNP Position Genomic:     295099
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2603):
AATTAACACCTGTCTCTATCTGTGTGTAAGGCTCTCTGGGAGGAGCTGTGAGGCAAATAAAAATAAGGAATGGTGTCCCGCAAGGAGCTTACAATGTGTG
Y
ATTACAAGTATATACTGAGCATGGCCCTGGGAACACAGTGAAAAAACAGGATTCCTGCCCTAGTACAGTGTACACTAGTGGAAGAGAGAGAGGCAGTAAA
Celera SNP ID:            hCV29314546
SNP Position Genomic:     226450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2604):
TAATGCCACATTGTAAGGTGAAAACAGTAATCCTGGTATTTTTGTATTTTAGAAGAAGGTTGAAGGGAAAGAAAAGGATTAAATAATTTATAACGATGCT
Y
TTATGGGAAATAAAATATACCATGTCCATTTGGAAACACATTTGCTTACTTCCACACAGCCTTTGTAACGTGCTCTCCTTCCTCTTACCTGTACTTCGGT
Celera SNP ID:            hCV15910966
SNP Position Genomic:     295211
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2605):
TGAGAAAAGCAGGTGGGCAATGTACTCCTGACATACTCCCTTCCGTTGCAATGGCCTTGAGTGATGGAGCAAGAGTGAAGGAATGTTCCCATGGCACTGG
Y
ACCAGGATGACTTTTTGTGAAGCAGAGCAGTTGGTCTTAGATAGTGGAGGTGCGGGAGGCATGAGAACTGGGCAGTCTGACGGCTGCACCAGCCAGTTGG
Celera SNP ID:            hCV29314547
SNP Position Genomic:     227382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2606):
ACGCCTCTGTCTCTGTCCCCCGCCGCCACCACACAGATGCACGTACTCTCTTCACTTCCGTGTACCCAGTAAATGCAGATCCTGATTTAAATCTGCAGCA
Y
GCTGCTTTCTTCCCATTGCATGTGGGAAGCTTCAGGTTCTCTTCGGTTTATTTTCTCATCACCTTTATTAAAATGCAGTAAAGCAAGGAGTATATTAATG
Celera SNP ID:            hCV15910894
SNP Position Genomic:     222794
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2607):
GTTTTTACATTTTCCTTAGGCACAGAGAAACTAGTATCTTTCTCTGGGTTGCCTTTTTTTTTGGAGACAGAATCTTACTCTGTCATCCAGGCTGGAGTGC
R
GTGGCCTGATCTCGGCTCACTGCAGCCTCTGCCTTCCGAGTTCCAGCAATTCTCCTGCCTCAGCCTTCCAGGTAGCTGGGATTACAGGCACGTGCCACCA
Celera SNP ID:            hCV29314548
SNP Position Genomic:     39052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2608):
TCTGTGTTCTGAACCTGGAGTACAGGCAGACACAGCCGCATCCCAGAAGCTCAAGAGTGCCCATACCAGGAAATTACAGAAATCTTTGCCAAATGGATGA
R
TGAATGCAACTTCCTTGATACAGGGTCAGAGAGGGGAAATCTGAGAAAAGCAGGTGGGCAATGTACTCCTGACATACTCCCTTCCGTTGCAATGGCCTTG
Celera SNP ID:            hCV15910895
SNP Position Genomic:     227240
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2609):
CATCGAAAAAACAAAACATTCTGCAGAGGGCAGTCATGTGTCCGCTGTGCCTCTGCTCCTGTGTGCACCATAAAACTTGAAAGTGAGCCAGAATTTGAAA
R
TATCGGATTGGGATGTGATTTCTTTAAGCCTCTGGCTAATTTAATATAAAGTGTTTACACTTCATTTTTCTGGCAGTGGATTTTCTATGTAGGTGGTGGA
Celera SNP ID:            hCV29314549
SNP Position Genomic:     230057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2610):
CTGCCATCCCCATGCTCTGCCTCCTAAGCAGAGGATGAACTTAAGCATCTTAAAATTTTAAACATTGACTTTCCCTAAAACCAATTAAAAAAAAAAACAA
R
ACAGACAGACAGACATGACTTGTGCCCTTAAAAATGCAGCCAGGCTGGCATATAAATGGGCGTAGGCTGTTTCTAAATTTTTTGCTTTAAATTTTGCCAG
Celera SNP ID:            hCV15910896
SNP Position Genomic:     229341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2611):
CATGGATTCTGCCTCTTAAATGTCTCTGGAATCCAGCCCTCTGTCACCACCAGCACCGCCACAGCTCAGACTCCAGGTCACTCGCCTTGGGGGGATGGTA
K
GAGCTGTCATACTGTATGAGCCTCATCCTGGGGCCATGACTTACCAAGCCAGATCATCTCTGTGAGTCTGCCTGGTGTAAAGACAAGGATCAGTGACTTC
Celera SNP ID:            hCV185223
SNP Position Genomic:     284695
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,1)      total(G,1|T,1) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2612):
TATAGTGGTGGCATTCTGCCTAAGTCATCTTGAAAACTGAATGCAAAATCTTTTTAATAGCTCCATAATGGTCTCTTGAAGTGTTACAGATTTTTATAAC
R
ATAGCTGTAATACAAGTGCCTTTATTTACTGTGAGACTTGAACATTTTGACCATTTACATGGGTACTTGTGTGTCTCCAGCTGAGCTGAGTGCATGTCGC
Celera SNP ID:            hCV16143566
SNP Position Genomic:     116946
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2613):
CTCTGAGTGTTTTTAGGAATTGCAAAATGCTGGAGCCTGCATCCATTTTGAGAGCTACAATATCAATAAAAATACTTCTTTCTTCGATTAAAATACTTCT
M
ATTTTAAAAATTAAAATAGCTGTAGTAGTCTTTAAAGAGTAACCATGATCACAGTTTTCCATGGCAAAATAATCATTGATAGGGGACTTACGATTAATGT
Celera SNP ID:            hCV185224
SNP Position Genomic:     284244
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,3)   total(A,3|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2614):
CCCGTCCCCACAATATCTTAGGGCGAAGAAAAGCAGGTTTGAGAAAAGCTTTTTTTCATCATGTATTTGTAATAGCTGGAGCCTGCTGAGATGATGAGGT
R
GAGTGGAGGGAGAAAGAGACCTTGAGGAGGTGTGGAGGGGGAAGGGGTGGAAAGTTCTGTCGTCTTCTGTGCCTCTCTCTCTCTCTTGCTCAGGGTCTCC
Celera SNP ID:            hCV16143567
SNP Position Genomic:     94208
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2615):
GCATACTTCTCTTAGTGGCGGACTAGCGGTTGTACAGTAAATAGATGATCATTCTCGCTCTGTTTTACCTTTCCTCAGCTGCTCTTCTAGTAGGAAAATA
A
CAGCCCTCTTAGCTGTAGTCTTCTGGAGGCTCTCTCAATAATAGAAGTGGAAAGAAAAGACTCAAATCCCTGGGCAGTGACTTTTTAGTTGTTTCATTTG
Celera SNP ID:            hCV27009650
SNP Position Genomic:     29885
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2616):
AGTCTCCTCAAAGCAAGTGGCACTGAGATACAACCTTCCTACAGGTTTTCAAGTCATCTCGTGTGGTGCACAGTCCTCGCCCTACCTCGAAGGCCCGGGC
R
AAGTTTTCCTGAGTGTGTATACTCATCTCTTTGTGTTGTCTCTGGCAGGGAGCAAGTGAGTACAGGATTGGAGTAATAGGCATTTTTAGGCTTGAGATGG
Celera SNP ID:            hCV25741876
SNP Position Genomic:     178754
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,34)   caucasian(G,38)   total(A,2|G,72)
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:2617):
CATACTTCTCTTAGTGGCGGACTAGCGGTTGTACAGTAAATAGATGATCATTCTCGCTCTGTTTTACCTTTCCTCAGCTGCTCTTCTAGTAGGAAAATAA
C
AGCCCTCTTAGCTGTAGTCTTCTGGAGGCTCTCTCAATAATAGAAGTGGAAAGAAAAGACTCAAATCCCTGGGCAGTGACTTTTTAGTTGTTTCATTTGC
Celera SNP ID:            hCV27009651
SNP Position Genomic:     29886
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,6)   total(C,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2618):
CTTTCCTGGGTCAGGGCAGCCGGCTTTCCTTGTCCACGTGTGGCCGGCTGTTTTCTTGGGGAGCCCCGGCCACAGCCGGCAGGACTCCCTTTGCTCCATG
Y
GACTCTGAGGGCCTCACAGGTATTTGCAGCCCAGGTGCTGTCGGAGCCCAGCCGATGCGACCGACACACAGCACAAGCGTCATCCTGTTCTGCCTGTCCC
Celera SNP ID:            hCV1134365
SNP Position Genomic:     312704
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:2619):
AAATAGAGTTATAGTGCTACAATGAGATAAATTTCACAGGTAAATGTGACGTAGCTAATGCATAATCATTCTTTGTGTTGCATGGCAATTCTGTACAAAT
R
GAAGGTAGCATGTTTAACGTTCCTGTTATTTCACATAAATACAGACTGAGAGTTTCAGTGGTCTGGTTTGAAAGGGAAGAAATAGAAGAAGGAAGGAGAG
Celera SNP ID:            hCV27009652
SNP Position Genomic:     148255
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:2620):
CCTGGGGGTGTGTGGGGGTGGTTGGTTGGGGTTTGCTTGTTAGTTTGTTGTAAAAGCCCAGCTTTTCATTCTTGGAAAGATTTCAGCCAACTCGAGAGGG
T
TACCTGCCAGGAATGCTGCAGAAGCAAGAACTCAGTGGGTGAGCACTTCCATTTCTTCAACAAATGCTTCTGAGTCCCTGACCTGTGCCAGGTGCTCTTC
Celera SNP ID:            hCV27009653
SNP Position Genomic:     152821
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2621):
AATTTGAAACACCCGTGTAAACTACCTTTGGCAAATAGGATAGCTAAATCACCGCTAAGATTTATAATTTACTTTTTGGATATCTGAAACATCAACAATA
Y
AGCCATCCATGGCGTGTTCCTCTGGAGTGTGGTCCGTGCCGTCTCTGCCTGCTCCATCTGGCTGATCCCAGGCAGGCAGCTCAGCTCTCAGCAGACACAG
Celera SNP ID:            hCV25986820
SNP Position Genomic:     152435
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,21)   caucasian(T,38)   total(C,3|T,59)
SNP Type:                 INTRON;MISSENSE MUTATION

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


Context             (SEQ ID NO:2622):
ATTTACTTAATAATTGTGTCTATTGAATGTATTCTTATACATACACACAGGCATGCACACACGGACACGAATATAAGCTTTACAAGGACAGAAACCTTAT
Y
TTTTATTTATTTCTTCCTTGTGTATCCTGAGCACTGAGAACAGCCTGGCACAAAGCAGGGCTCAGGAAATGTTTGCTGAATGCATGTTCACACTGGATGT
Celera SNP ID:            hCV27009654
SNP Position Genomic:     153242
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:2623):
GCTTGTTGAGTTGCACAAACCAGCCTCCTTGGCCCTTCTAGGTGATAAAAGATGCTGGGCTGGGAGGGCAGCTGTGGAAAAGGGTGTGGGCGAGGGAGAC
A
GTGCTTCATCCTGCCTGGATGAAGCATGTTGGTTGTTGGTTTATTCATAAATTAGAAAAATATATTAAGAATTGAAGTTGTTCCTTATCTCATAAGATTT
Celera SNP ID:            hCV27009655
SNP Position Genomic:     156693
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,5)   total(A,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2624):
CTTGTTGAGTTGCACAAACCAGCCTCCTTGGCCCTTCTAGGTGATAAAAGATGCTGGGCTGGGAGGGCAGCTGTGGAAAAGGGTGTGGGCGAGGGAGACA
G
TGCTTCATCCTGCCTGGATGAAGCATGTTGGTTGTTGGTTTATTCATAAATTAGAAAAATATATTAAGAATTGAAGTTGTTCCTTATCTCATAAGATTTC
Celera SNP ID:            hCV27009656
SNP Position Genomic:     156694
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2625):
AGAAGTTGCTCTGGGTGAGTCAGTGAGTCAGTGGTGAGTAATTGTGAAGGCCTGGATAAATACTGTACACTTAGGCTACACTTAGTGAATATTACATTTT
A
TTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATGAGATAGGGTCTTGCTCTGTCCCCCAGGCTGGAGTGCAGTGGTGCAATCACAGCTCACT
Celera SNP ID:            hCV27009657
SNP Position Genomic:     159954
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|A,8)   total(A,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2626):
TGCACTGCTTCCTGCTGGGGGCAGAACAAAGAGAGCGGGCATTGTCTCTGGCATAAATGAACCTCTATCAAAACAAACACCCAGAGAGAGGGGCAGCCTG
R
TTACAGCTGCCTGTGTGAGCCTCGACAGTGGGCCTCATTCCTCACAAAGGGAGCTTTGAGGCCCGGAAGAGGCCTTTCCTTGATGATCGAGCTGTGCACA
Celera SNP ID:            hCV25987553
SNP Position Genomic:     157912
SNP Source:               Applera
Population(Allele,Count): african american(G,6)   caucasian(A,1|G,37)   total(A,1|G,43)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2627):
GAAGTTGCTCTGGGTGAGTCAGTGAGTCAGTGGTGAGTAATTGTGAAGGCCTGGATAAATACTGTACACTTAGGCTACACTTAGTGAATATTACATTTTA
T
TTATTTATTTATTTATTTATTTATTTATTTATTTATTTATGAGATAGGGTCTTGCTCTGTCCCCCAGGCTGGAGTGCAGTGGTGCAATCACAGCTCACTG
Celera SNP ID:            hCV27009658
SNP Position Genomic:     159955
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,8)   total(T,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2628):
AAGTTGCTCTGGGTGAGTCAGTGAGTCAGTGGTGAGTAATTGTGAAGGCCTGGATAAATACTGTACACTTAGGCTACACTTAGTGAATATTACATTTTAT
T
TATTTATTTATTTATTTATTTATTTATTTATTTATTTATGAGATAGGGTCTTGCTCTGTCCCCCAGGCTGGAGTGCAGTGGTGCAATCACAGCTCACTGC
Celera SNP ID:            hCV27009659
SNP Position Genomic:     159956
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,8)   total(T,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2629):
GGTTTAGAAATTTCAAAGGATGGGGGTTGAGGGAGGGAGGAGTTATGGGCATGTGATGTGGACAGGGCGGGCAGGAGGATGGAAGTAACAGGTCCAAAAT
R
TATCTTTGGTGGCCCGGCAGAGCTCTTGCATGGGGTGAGAATGGTAATTTAGGAAGAGCAAGTCTTCCCATCTGTGAAGCAGAAGAAAAAAGTGGACTTA
Celera SNP ID:            hCV29314550
SNP Position Genomic:     230625
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2630):
GTGTACCTGTGATTTTATCACTGCACATTCATAGAAAGGTTACAGGGCTAATCTTCCCGTGATATGAATCATGAAAGTCAAAATTTATGAATGAAAATAA
R
AAGGAATGAAGTACTGATATATGCCACACCAGAGATAAATATTGAAAACATTACCTATGCTAAGTAAAAGAAGCCAGTCACAAAAGACACTACCTATTGT
Celera SNP ID:            hCV29314551
SNP Position Genomic:     236273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2631):
ACACGCCTGACGAGCGGGAATGTGAGCGTTGTTTCTGTAACCAGTTTTACTGAACCTCACAGATCCATTATACGACGTGAATTTTGTGGGAATAACATAG
R
CTGGGAGTCTGCTCTCTTCCAGCCTGGTCCCTCTCTTCTTTCAGCCCTACCCTCTCTGATCATCATGTCCCTTGCACTGCGGCCAGGTAACCTTTCTGAT
Celera SNP ID:            hCV29314552
SNP Position Genomic:     244251
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2632):
GTCACAGCTTTAAAAGTTCAGATTTTAAAAAGGTAAGGAAATGATCTCCTAGTGAGACAACTTCTGCCTAAAAAATAAAAGCTTCTAAGACATAAATTCT
R
TGTTATGAACAACTTGCAATTTTCATAGTTTTCAGTTTTAGCTCTGGCAGCCTCTGATAGATCTTAAATATGTTTATCACAGCTGGAAAAATGTTTTATT
Celera SNP ID:            hCV29314553
SNP Position Genomic:     40655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2633):
AATTCACAATCTTTTATGCCAAAAGAAAGCTTTCAGAATGGCTTGTCTTTTTTGTAGATACTTGTATTTATATGTCCATGCACATACATAAGAAAGGACC
R
GGGAAGGTCTGCTTGAAGATATTAATAAAGGGGTCACTTGTGGGTAGGTGGACTTACTTGTTCTCTATATTCTCTTTACTTGTTTGTGATCTCTGGTTTT
Celera SNP ID:            hCV29314554
SNP Position Genomic:     246171
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2634):
TATTCTACAAATATAAAAATATCGTTAGAAAAGTAGGTGTTAATTTTAAATATAATTTTTGCTGCAGCTTATGAAGTACATTGAGGAAGTGTTTATAAAG
R
GGATTCTTTTTCTAGTGTATTATTTGGAGACGCAGCTTCTACTGTAGGCTTACCTTCAAATCAAAGATAATACATTCTTTTATAGTATTAGATGTAGAGC
Celera SNP ID:            hCV29314555
SNP Position Genomic:     249699
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2635):
CAGCCTTTAGGTTTGTGTTTTTACTTCGGTCTTTTAATCTGCCTAATAAAAACACACATAACATCAGGGCTGCTCAGGAAACCACCTGCTTTTACCAGGA
Y
TCTCATCTTCCCACTATGATACAATGATAGTTTAGAAAAATACCAAATATTTATCCTGAGAAACTGCAGGGGAGATTTAACACCCAAAAGAAGCTATTTC
Celera SNP ID:            hCV15910976
SNP Position Genomic:     296650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2636):
CAGCTTACCATCCTATTACACACACATCGCATAAGTTCGTATTATTTGTCTTGTTTGGAAATCAGTCCAACTTTCTGACCCTTGTTCTATATATAACTAT
R
GATCCCAAAGGTTCAGCTGCTGGGCTAGCATTTTGTCTGCTATTTCCTAAATAATGGTAGGTAAGCAGGAAAAGTGCCAGTCTTACTTGTCCCTGACTCT
Celera SNP ID:            hCV29314556
SNP Position Genomic:     252428
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2637):
ATGAGAAGGACTTGGTGCAGGAAAGCAGCAGCACGTGCCTGGCACAGGGCAGGGCCTCTCCAGATGGCAGTTCCTGTCTGTGTCTTATTCCCACCCTCCG
R
GCACATGGGGGGAACTCAGTTTCTCCCCACTGCGCGTCACCCTGGGAGAGGTGTTTTTTGTGCCAATTGCCATTTTAAATCCAAATCAGCAGGGATCATG
Celera SNP ID:            hCV15910977
SNP Position Genomic:     297797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2638):
GATCCTTCAACTCTGACAACCTTGGCTTTCCAAAATGTCACTGAGATCCCCCTCAAAAAGTCTCCTGAGCCATCCAGAACAGAAAATTCAAGCATTTTAC
M
TAGAGTAGAGCTCTTATTCCTCACTCAGAGCCTGTTGACTTTTATATCGCACTCGGCGTGAGCTGATTTTGTAACCCAGTTACAAAAGCCATAGCCATGG
Celera SNP ID:            hCV29314557
SNP Position Genomic:     259423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2639):
TTGCTTGCAACTCAGATATCCAGCCCACTGATCCAGGAAGAGATTCCTTTGACCTGGGAAGTCATAATGGCAGATATTTAGACCCAGCTCTCAAGCAAGC
M
TCCAAGTTGTTCCGGTGAACCCGTAACTTTGAGTAACCTCTGATTGAACCAGAGAGTAGGAACTAGGTGCAGAACCTTGTTGAATAGAATTGTTTAGCAT
Celera SNP ID:            hCV150135
SNP Position Genomic:     227677
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|C,4)      total(A,3|C,4) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2640):
AGCCCTTACTGAAAGGAAAGAACTGTTGACTTACAAGTTTTTGCTACCGGTTTGGTGGTCACTAATGTGTCCAGAGGCCTGAAGATGGGCGTGTGAGGAG
S
CTGACTTAGCTTCAGAGGCTCTGTCTTTCGACTCACTTGTGTGCTCACTGCACCCCTGTGCTGGCAGGACTCCAACCTCCACCCCCAGCACTTGTGTGGA
Celera SNP ID:            hCV29314558
SNP Position Genomic:     263324
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2641):
AGTCCTCTTGCCTGGATGAGAGGCCCAAGAGCACTGCATGTTAGTGGCTCTTCCTCCTCCCCCACACCTCCAGGGACTGGAGCTGGGGCTGCTCAGAATG
M
AAGATGAATGGGGGAGGGAGAAGGCCCAGGGTTGACCCCCCACAAGCTTGTCTCCCTGTCTCATGCTGTCTCCTATCCCATCATGCTGCTGATTGGGCAG
Celera SNP ID:            hCV29314559
SNP Position Genomic:     264637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2642):
AGTTGCTCTGGGTGAGTCAGTGAGTCAGTGGTGAGTAATTGTGAAGGCCTGGATAAATACTGTACACTTAGGCTACACTTAGTGAATATTACATTTTATT
T
ATTTATTTATTTATTTATTTATTTATTTATTTATTTATGAGATAGGGTCTTGCTCTGTCCCCCAGGCTGGAGTGCAGTGGTGCAATCACAGCTCACTGCA
Celera SNP ID:            hCV27009660
SNP Position Genomic:     159957
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,8)   total(T,8|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2643):
AGCTGCTCGGGAGGCTGAGGCAGGAGAATGGCTTGAACCCAGGAGGCAGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGTGACAGA
S
CGAAACTCCATCTCAAAAAAAAAAAAAAAGTTATTTCTCTATGTAAACAAAGAAAACTCTCCTTCCTTATAACTTGTATGTGTTGGGTCTATTTGTATTC
Celera SNP ID:            hCV27009661
SNP Position Genomic:     167991
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2644):
GAGACCATGGCACGCATGCTGTGTGTCGAAGGCCAGGTCCGCCTGTCTGCCTCTCCAGCAGATACTCTCTGGGGCTATTTTTTTCTGCTTGGTTGTCATC
Y
TTTGGTTTAACCAGGCGCCAGGGCTCAGGCCTGGACCTGCTGGATTCCAAAGAAGACTTCGAGGTGGCCGAGCTTGTCTGGCTTCCAGAGGAGCTTTCTC
Celera SNP ID:            hCV25742689
SNP Position Genomic:     24071
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


Context             (SEQ ID NO:2645):
TGAGGCAGGAGAATGGCTTGAACCCAGGAGGCAGAGCTTGCAGTGAGCCGAGATCACGCCACTGCACTCCAGCCTGGGTGACAGAGCGAAACTCCATCTC
A
AAAAAAAAAAAAAAGTTATTTCTCTATGTAAACAAAGAAAACTCTCCTTCCTTATAACTTGTATGTGTTGGGTCTATTTGTATTCTGTGAACCATAAGAA
Celera SNP ID:            hCV27009662
SNP Position Genomic:     168006
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2646):
GTTACACATGTCTGAGATGACATGATGCTAAGTAACCAAAGTACTGCTGCGATGGAATTGCTCTGATGTTTTTTTCCAGAGTGAAAGCTGCTATTACTTT
A
AAAAAAAAAAAACTTGAGGTTTGGTTTCTTTCCCCCTCTATCCGGGTGTTATACAAATATGTAATTAAGATGTTTGGGGGTTCAGATGACAAACAAGGAG
Celera SNP ID:            hCV27009663
SNP Position Genomic:     185843
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|-,9)   total(A,4|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2647):
CCTTCACCAATTTTTAAATTTTTTGTAGAAACTCACTATGTTGCCCAGTCTGGTCTCGAACTCCTGGCCTCCCACCTCAGCCTCCCAACCACAACTGGCC
R
AGGTCCTGTTTCTCATCACATTGTCACTCACTGATCTTGTCATGCTTTGGTGGAGCTTATCTACAATAATTATTACTGCCATGCTTTAATGGCAATTTTC
Celera SNP ID:            hCV27009664
SNP Position Genomic:     194102
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2648):
TAAAAAAAAAAATACCCTTTGGGTGTGTATTGATTCTGATGTTTTGCTCCTAGCTACATTTGCCGTTTTTTTTTGACTGCAGAATTAGGAACCAGCTTCA
T
TTTTTTTTTTTTTTTTGGATGGAATCTCGCTCTGTCGTCCAGGCTGGAGTGTGGTGGCGCAATCTTGGCTCACTGCAAGCTCCACCTCCCGGGTTCACGC
Celera SNP ID:            hCV27009738
SNP Position Genomic:     21426
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2649):
GTCAGAGTGCAGTAGCATGATCTCGGCTCACTGCAACCTCTACCTCCTGGGTTCAAGTGATTCTCATCCCTCAGTTTCCCAAGTAGCTGGGATTTCAGGC
R
CGTACCACCATGCCTGGCTATTATTTGCATTTTTAGTAAAGACAGGGTTTTACCATGTTGGCTAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCTTC
Celera SNP ID:            hCV27009665
SNP Position Genomic:     203596
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


Context             (SEQ ID NO:2650):
GACCCATCTCTCCCAGGACCCCGGGGATCTTAAGGTCATTGAGAAATACTGTTGGATCAGGGTTTTGTTCTTCCACACTGTAGGTGACCCCTTGGAATAA
Y
GGCCTCTCCTCTCGTGCACATACCTACCGGTTTCCACAACTGGATTTCTACAGATCATTCAGCTGGTTATAAGGGTTTTGTTTAAACTGTCCGAGTTACT
Celera SNP ID:            hCV1134378
SNP Position Genomic:     317704
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,11)      total(C,11|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:2651):
AAAAAAAAAAATACCCTTTGGGTGTGTATTGATTCTGATGTTTTGCTCCTAGCTACATTTGCCGTTTTTTTTTGACTGCAGAATTAGGAACCAGCTTCAT
T
TTTTTTTTTTTTTTTGGATGGAATCTCGCTCTGTCGTCCAGGCTGGAGTGTGGTGGCGCAATCTTGGCTCACTGCAAGCTCCACCTCCCGGGTTCACGCC
Celera SNP ID:            hCV27009739
SNP Position Genomic:     21427
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,2)   total(T,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2652):
AAAAAAAGTTGTGCTTAAGCTAAGTTTAATTTATTATTGAAGAAAGAAATTTTTAAATAAATTTAGTGAGGCCTAGGTATACAGTATTTATAAAGTCTAC
R
GTAGTGTACAGTAATGTCCTCAGCCTTCACATTCACTCACCACTCACTGACTCACCCGAGGGAGCAACTTCCAGTCCTGCAAGCTTTATTCGTGGTGGTA
Celera SNP ID:            hCV27009666
SNP Position Genomic:     36596
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2653):
AGCCTTCACATTCACTCACCACTCACTGACTCACCCGAGGGAGCAACTTCCAGTCCTGCAAGCTTTATTCGTGGTGGTACTCCCATATACGTATGTATAC
T
TTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAGTCTCGGCTCACTGCAACCTCCACCTCCCAAGTTCACGCCA
Celera SNP ID:            hCV27009667
SNP Position Genomic:     36718
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2654):
CTATTTTCCCACTGATGTCCCTTTTTTTGGTTCCAGATCCAAGAGACGATCCTACCTGGCATTTATTGTGTTCAGTTTTTCTAATTCTGGGACGTTTTCC
K
GGGTTTTCTTTAGTCATTCACGAAGTTCGCACTTTTGGAGAACATGGGGCCAGTTATTTTGTAGAATATCTTTCTGTTAGAGTTTGTGGATGTTTCCTCC
Celera SNP ID:            hCV27009668
SNP Position Genomic:     219563
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2655):
TATGGTCAAATTGGCAACGACCACACCACATGAGAAGGAAGATTATTCTTCCTGGAACCTGGCTCCCTTGAGATTCTTTTTTTTTTTTTTTTTTAGACGG
M
GTTTCGCCCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTCCGGCTCACCGCAACCTCCACCTCTCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCC
Celera SNP ID:            hCV27009669
SNP Position Genomic:     225942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2656):
AAAACCTTTTGCTGTGCACGCCTGCTCCTTCCTCCACTCCTACCCCATCTCCATGACCCTGTAAGTGGCCACAGTCATGTCACTGGGTAAAGTGCTTATT
R
AAACAAAATTGGCACAGGCTTCTGATCCTGCGTGTGGGTTGGTGTAGCAGAGGTTCAGTGCAACAGAAGAAGTTTTTCATCTTAAAATTTGGAAGTAACC
Celera SNP ID:            hCV29314560
SNP Position Genomic:     271018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2657):
TGGGGTCCTGTGGCGGTGAAGGGGCGAGTCTGCACCCAGGCGAGTGTTAAAGGCCTGGCCTAGAGAAGATGGGTGTTTTGATGGAAGGAGCTGCTGGGAA
S
CATGTGTACTCGGTGTCTTGGAGTTTAGAAACCTCAGTTGGCTCCATGTCTCGTCCTTAGTAAAGGAATATCGGGAGCTGAGACTGGATGTATTGACACA
Celera SNP ID:            hCV29314561
SNP Position Genomic:     43824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2658):
CTTGGCAGCAGGCTTTTTTTGTTGAGGGACTGGGGAGAAAGGAGGATCTTGTGGCATCTTGAGACGTGCAAGTTTTGTGGTTGGTGTATTCTGAACCCTC
Y
GCTGTGTGAGCAGCCCGCTCAGGGGCAGTGTACGTGGCTGATCTCCACTGTCCTGCCCGCGTGGATGGGGGGGTTATTCTCAGTGTACGTGGCTGATCTC
Celera SNP ID:            hCV29314562
SNP Position Genomic:     280163
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2659):
CATTCCCTTCCGACTAGGGTCATACGCTCGTGGCTCATTCACATTCCCCTTGGTAATAACTAATGAGGGCCATTCAGTTAAGTGGCTGGGAAGGTCTGAC
R
TGGAAGTTGGGTGATCCTCAATGGTTATTTCCTTTTTTGCTCTTTCTAGCATTTTTATATCCAGACCTTTTGAGTGAGTCGGATTAGGGTGAGGGGTTGG
Celera SNP ID:            hCV29314563
SNP Position Genomic:     287361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2660):
AACAAACTTATTGCCACCCAGGTCGACAGGTGGGAACAGTGTCACCTTATTTGAACTTAATTTATTCGGCCTTTGAGAAGCACTTATAGCCAGTTTCCTC
R
AGGGGCAACAAAATGACATTGCAGTTCAAAAGTGCTTTAAAAACTTCTTTTTCCCAAAGCTATAATCTGCATGTCACCATTCTCCAGAGTACATTGAAAA
Celera SNP ID:            hCV29314564
SNP Position Genomic:     288784
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2661):
CTGTGGAGACGCAGGCCCCCGGGCTCTAGAACGCTGAATTCTAGTGAATTCTGGATGGCTCTCCCTCACACCCAGGCCCACCCTCCCTCAAGGTTGCACC
W
TCTCCACCTGAAGGAAGCTGCCAGGTGGCCATAGGAGCCCTTCTCTTGGCAGGCCAGCTTCCAGGCCCAGTGGCTTCTCTTACATCAGGGGCCTCCCCTT
Celera SNP ID:            hCV228998
SNP Position Genomic:     312149
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:2662):
ACTTACTCTCCTCTGACAAGCACCCGCCTCTTCTTCAGGGGTGCAAGCCACCTATGCCAGCTGGAGGGCAGAGTTCCATTCGTGAAACCCTTGAAACATA
Y
GTACTATGAAATACAAAAATGTGTAGGAAAGAAAACAAGATTATTAATGAAGTTCATATTGGACACCCCTCAGAGGTCTAAAATGATGGTGCCCCTCCTG
Celera SNP ID:            hCV29314565
SNP Position Genomic:     289292
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2663):
CCTTGAAAAGAAGAAGGAAAAAGTAGATGGAGGGTGGTGAGTTAAAAGAATTGAAATTCGCGGATAGGCATTTCTATGCTTTTGTTCCTACCACTCGACT
S
TGCAACACGCAGTGCTTTGTAATACCTTCTTGGAGCTCAAAGGTCAGGCTGAAACATGGCCGCTTTTTCACATTTCCCTGGGACTTTTGGAAAATATACA
Celera SNP ID:            hCV371351
SNP Position Genomic:     259892
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:2664):
AACCCACGGTGCCCAGATTGAACAAAGATGATATGCAAACCTCGAAAGAAATTGGCATGGAAAAAAAAAATCCAAAATTCTCATGTGAATTTTTTTAAAT
S
TCCAACAGAATAATCCAGTCCTAGCACCTCCAAGCCTGAGCAAGATGATTCAGATGGCCGGAGAGATTGCAGACGGCATGGCATACCTCAACGCCAATAA
Celera SNP ID:            hCV29314566
SNP Position Genomic:     295679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2665):
GTGACCTAGCAATTCCGGGATCCACCCAAGAGAAATGAAAACATGCCCACACAAGACTTGTGTATGAATGCTGGTAGCAGTATTACTCATAATAGCCTCC
Y
GGGATTCCCCCGACCCCCAGCCCAAAAGAAAGACCCACTGGAAACCATTCAGATGTTCATCAGCAGATGAGTGGATAGAAAGATAAATGGATAAATGAAA
Celera SNP ID:            hCV371352
SNP Position Genomic:     260101
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:2666):
ACTGGGCACGGTCCCTGAGGCTGGCTCTCCAGACGTTTGAGGCATTTCTTGGTAGAACACCTCTTAGCATTGGTTACAGAAATAATTAAGACAATGTCTT
Y
AGGAGATTTTGACTTGGGAATAAAACTCACTGTCCAACCTTGCATTCATCCCTCCAATTTTCCTAGCTTTTAAGGAGCATTGCTCCCCTTCCAGGGACCC
Celera SNP ID:            hCV29314567
SNP Position Genomic:     296161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2667):
TCTCCAGACGTTTGAGGCATTTCTTGGTAGAACACCTCTTAGCATTGGTTACAGAAATAATTAAGACAATGTCTTCAGGAGATTTTGACTTGGGAATAAA
R
CTCACTGTCCAACCTTGCATTCATCCCTCCAATTTTCCTAGCTTTTAAGGAGCATTGCTCCCCTTCCAGGGACCCACATTGGTTTCTAAGAGGCAAGCTG
Celera SNP ID:            hCV29314568
SNP Position Genomic:     296186
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2668):
ATCAACAAGGAGATTTTGTCCTGTAACTAACTCAGGTACCTGGAAGCAGCCCGACATTTGGGGGTGCATCGCTGCAGTCTCCTTTGGAGCTGGAGAAACC
Y
ATGAGCAAGAATGGGCTTATGACACATCCATTTCCACTCCATCCCTCCTTCCGTTGTATGACTGCATGGAGCCCCTCTGACCTCCAGCAGTGTCACCTGC
Celera SNP ID:            hCV371354
SNP Position Genomic:     262942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2669):
ACGGGCATTGCAGGGGGACTCACAGCCGCCGGTCTTCCCCCTGGGGAAACAACGTCAAGGTTCCTAATTAGAAAGGGCTTTACACAGAGACATGTATCTA
M
TGTTTGAAGATTAAATCTGTCCATGAAATGGAAGACTTGATTTTATATGAAGTCATGAAGAGCCAACACCACATAGTAAAATACCGGCTTTGAAAAACAC
Celera SNP ID:            hCV29314569
SNP Position Genomic:     301986
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2670):
TCCTGTAACTAACTCAGGTACCTGGAAGCAGCCCGACATTTGGGGGTGCATCGCTGCAGTCTCCTTTGGAGCTGGAGAAACCTATGAGCAAGAATGGGCT
W
ATGACACATCCATTTCCACTCCATCCCTCCTTCCGTTGTATGACTGCATGGAGCCCCTCTGACCTCCAGCAGTGTCACCTGCAGCCTGGTAGTGAGAAAC
Celera SNP ID:            hCV371355
SNP Position Genomic:     262960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2671):
AGCCGTGTTTCCCGGCTAGGCGCGAGGACTCGGTAGGGAAGTTGGTGCCGGGGCGGGCTCCGCGGTTCCCGGGCCCCGCGACCCGCACCTCGCCCCTTCC
R
TGCGCACGAGCCTCTCCGCACACAGCGCTGATCCCCCTGCGGCGCGCAGGCAGCAGCGACAGCACCCTGGGCCGCACCGCGTCTCCGCTGCTGGGGCTGA
Celera SNP ID:            hCV29314498
SNP Position Genomic:     6506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:2672):
TTTCCCGGCTAGGCGCGAGGACTCGGTAGGGAAGTTGGTGCCGGGGCGGGCTCCGCGGTTCCCGGGCCCCGCGACCCGCACCTCGCCCCTTCCGTGCGCA
M
GAGCCTCTCCGCACACAGCGCTGATCCCCCTGCGGCGCGCAGGCAGCAGCGACAGCACCCTGGGCCGCACCGCGTCTCCGCTGCTGGGGCTGACCGGGCA
Celera SNP ID:            hCV29314499
SNP Position Genomic:     6513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:2673):
GGGAGCATCTCAGGGGGCACCTGCCGTTGAATTGTTCTCACTTGTGTTTGTAAGAATCCAAGTATGTCACCCTTACACCAAGTGAGCACACAGTGACACA
R
TCCCCTTTCAATGTAGATAACATTGCTTCAGAGCTGGAGAACTTCATGGGGCTCATCGAGGTGGTGACGGGCTACGTGAAGATCCGCCATTCTCATGCCT
Celera SNP ID:            hCV27493061
SNP Position Genomic:     255949
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,30|A,1467)   total(G,30|A,1467) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:2674):
GGATGCTGTACTCTACTACGCACAACTGCTCCATCTTTTAAGATATTGGAAGTGAGAGCACGGGAGGAGCATGGGCGGTTCGTTTTGTTAGAAAGAAACC
Y
GGATTCACGAGATGGTTTTTATTGATTAGTTTACAGGATTTGCACTATTGATAGAGTTTTTGCCTTGGCACAGGCCTGCTTTGTGATAGGGGTTTTAAAA
Celera SNP ID:            hCV27493062
SNP Position Genomic:     256591
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,206|C,1285)   total(C,1285|T,206) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:2675):
CGTCCTCAGTTTTGTGAAGCAACAGCCTCTGTGCCTCTTTCTCTGCATGCTCTGTTGACGGTCTAGTCTTGAGAGAGAACCTGCTGCTGTCCCGTCTGTC
R
TAGCCTTCCTAGCAACTCTTAGGCCTGCATGCTGTGTTTTCATGATCTCCCCCAAAGCGGCACTTTGATGTTTTTTCAGAGTCAAAGTATCACTGTGGAT
Celera SNP ID:            hCV27493063
SNP Position Genomic:     95789
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,563|G,898)   total(G,898|A,563) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2676):
TCCACTTGCACTTGTGTTAAAATGCGGCAGAACTTTCCCTCTATACTTAAATTGTGGTGAAATACGTATGACATAAAACTTACCATCTTAACTTTTTTTT
M
TTGAGACAGGATCTCATTCTGTCACCCAGGCTGGAGTGCGGTGGCGCGATCTCTGCTCACTGCAACCTCTGCCTCCTGGGTTCAGGCGATTCTCATGCCT
Celera SNP ID:            hCV27009740
SNP Position Genomic:     54201
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3|-,6)   total(A,3|C,3|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2677):
AAGAATGGAGCCAGGTGGCTATTTTTTTTTTTTAAATTTATGTAATAACAAACATTCGCATTTATTGAAAACTTAAAGTATAATAAAAAAATAAATAAAA
K
AAAAAAAGAAAAAAGAAAACTTATTCCTGTGTCAGGCACTTTTCTAAGTGCTTTGCAGTGTATTGTCTCATTTAATAGTTGTTTAAATTAACAGAGTAGG
Celera SNP ID:            hCV15979445
SNP Position Genomic:     136634
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2678):
TGTGCCTCTTTCTCTGCATGCTCTGTTGACGGTCTAGTCTTGAGAGAGAACCTGCTGCTGTCCCGTCTGTCGTAGCCTTCCTAGCAACTCTTAGGCCTGC
R
TGCTGTGTTTTCATGATCTCCCCCAAAGCGGCACTTTGATGTTTTTTCAGAGTCAAAGTATCACTGTGGATATTTATCCCAAACAAAATTGCAAACTGAT
Celera SNP ID:            hCV27493064
SNP Position Genomic:     95818
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,575|A,888)   total(G,575|A,888) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2679):
TCTATACTTAAATTGTGGTGAAATACGTATGACATAAAACTTACCATCTTAACTTTTTTTTATTGAGACAGGATCTCATTCTGTCACCCAGGCTGGAGTG
Y
GGTGGCGCGATCTCTGCTCACTGCAACCTCTGCCTCCTGGGTTCAGGCGATTCTCATGCCTCAGCCACCCGAGTAGCTGGAATTACACGCGCCCGCCACC
Celera SNP ID:            hCV27009741
SNP Position Genomic:     54240
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2680):
TGCCATATGAAACGTCATTAAGTGGAGAGTTGTTCACGAACTAGGTAGGTAGTTACTTTGGTCTTGCCATAGGTTTTTGGCTGTTTCTGATGAGCTACTG
W
TTGAAGACCCCTGGGGTAGGGGTGAGGCCTGCATTCTGGGTCCAAGTCTAAGAGTGGCGACTAGAAATGAGCAAGTTATTTAAATTGCCTGGGCCTTGGT
Celera SNP ID:            hCV15978572
SNP Position Genomic:     66382
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:2681):
GGCTGGAGTGCGGTGGCGCGATCTCTGCTCACTGCAACCTCTGCCTCCTGGGTTCAGGCGATTCTCATGCCTCAGCCACCCGAGTAGCTGGAATTACACG
Y
GCCCGCCACCATGCCTGGCTAACTTTTGTATTGTTAGAGATGGGGTTTCGCCATGTTGGCCAGGCCGGTCTTGAATTCCTGGCCTCAAGTGATCCCCCTG
Celera SNP ID:            hCV27009742
SNP Position Genomic:     54330
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:2682):
TGGCCAGGCCGGTCTTGAATTCCTGGCCTCAAGTGATCCCCCTGCTTCGGCCTCCCGAAGTGCTGAGATTACAGGCGTGAGCCGCCGCGCCTGGCCTTCC
T
TTTTTTTTTTTTTTTAAGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCCGTGGTGCGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTGAA
Celera SNP ID:            hCV27009743
SNP Position Genomic:     54487
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,5)   total(T,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2683):
TTGGTCAGGGTGGTCTCGAACTCCCATCCTCAGGTGATCCACGCGCCTCACCCTCCCAAAGTGCTGGGATTACAGGCATGAACCACCGCACTCCCTTGAG
R
TTCTTGTAAGCCAAGGCAGAAGAAGAGACATCTTAAAGTCTGTATGTGCACACCTGCCTCCCCCCATTTTATATACAATTCAAGGGCTTTGCTTTTGGAA
Celera SNP ID:            hCV27009670
SNP Position Genomic:     226221
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2684):
GAAAATAGTCTTGGGTATCTGCCAATAATGTTCACTGGAGTGTTGTTTATAATGTGCAAAACAGGAGCTAACCTAAATGTCCAACAATAAGGGATTGGTT
A
AAAAAAAAAAACAACCCTCATGGTGTGTATTAATACTCTGGAACTACTGTCCCCTTAAAATGGTGATGTAGAAGGACATGTATTGACCTAGTAAAATATT
Celera SNP ID:            hCV27009744
SNP Position Genomic:     63041
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2685):
CTTTTTAGTAACAGTAGGCTTTGTCATAATTGGCTTCATGTTCCAGCTTTCCTAAAACTGTAAGTGATGTTGGGTGGGCCAGCAGCAAAATAATTCACTT
W
ACAATTTGCATGATAGTCTGGAATGAACCGAATACCTAAAACCAGGAAATAATAGTAGATATTTAATGGTTTGGGGATCAAATAAGAATTTACTCCCAGA
Celera SNP ID:            hCV27009671
SNP Position Genomic:     232526
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2686):
CTTCTACTGTAGGCTTACCTTCAAATCAAAGATAATACATTCTTTTATAGTATTAGATGTAGAGCAACTTTCTCCCTCTTATAATCTGTATAACCATTAG
S
ATACTAACAACAAGAAGAAAATTACTCTGAATACTTTAAAATGATAAATAGGCCAAGGACTTCAATGAGCTGTAGAGGATACATATTACATCCAAAATCA
Celera SNP ID:            hCV9306905
SNP Position Genomic:     249835
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:2687):
TGATTTCACTTACCTTCATTTATAGAGAGTGGATAATTGGCATAGATAGTGTTAACATTGTTTATCGTGGAATGTTGAGATCGTTGATGATTTTTACTGG
T
TTTTTTTTTTTTGGTTATTACCTCTAAACTCTGTAGGAAGCATGCTTTCTTGATCAATAAAACTTAAAGTTGGAGTTTATGCTGCTTTTATTCATAAAAA
Celera SNP ID:            hCV27009745
SNP Position Genomic:     63279
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,5)   total(-,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2688):
ATTCACTCTTCAACTAGGATTTTACTCATGGGATGCCTGTGTTCTTCATTTGAACCCAATTTTACCTATCATCTACAAAAAAAGAAAACTATTAAGAGTT
A
AAAAAAAAAAAAGAGAGAGAGAGTCTTGAACTTTGAAATCCTTCATCCACGTTTTATAAAGTGTGGGGTCAGATTTTTTCCCTAGTTGAAATTGAGGAAA
Celera SNP ID:            hCV27009672
SNP Position Genomic:     232797
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,5)   total(A,3|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2689):
CTTTTTTTCTCCTCCTCATGGTGGGTGGCCCTGGTGGGCTCTCTCTGGGGCCTCCAGTCCTCCTTCCCCACAACACTGGGGAATTGCTGCCAGTTGAATA
R
GGCCCTTTTTTTTTTTTTTTTTTTTTGAGACAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCCGCTCACTGCAACCTCTGCCTTACT
Celera SNP ID:            hCV27009746
SNP Position Genomic:     18423
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2690):
AAAAAGATAATCCAGCCTCACCAACAGCCACAGAATTGAAATGAGATACCTGTTTCTGCTTCTGGCATTGGGAAAGAAAGAAAAATGGCACTAGCAGCCT
T
TTTTTTTTTTTTTTTTTTTTTTCCCCAAAAAATTTGCTACTCTTGAGGTTCTGTCAAAGAATGTGCTGTGGCCTCTAGAAGCATTTTTAAAAAGAGACTT
Celera SNP ID:            hCV27009673
SNP Position Genomic:     233973
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,9)   total(-,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2691):
AGAGATCATTTATATGGAAGAAGGAACCCCAAGTAGAAACCCAAAATCTAGACCATTCTGGGTTCTAATCTGTACCTGCCACTGGCTAACATATGGCTTT
A
AGCTGGATGTTACAATGAGAGCTGGAGTTTCGTCTGATTGCACATAGCCTTGCTTTTCTGTCTTTGGAAAAGTAGCTCACTGCAGAGCCCTGGTAAACGT
Celera SNP ID:            hCV27009747
SNP Position Genomic:     73002
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,12)   total(A,1|-,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2692):
ACAGCCACAGAATTGAAATGAGATACCTGTTTCTGCTTCTGGCATTGGGAAAGAAAGAAAAATGGCACTAGCAGCCTTTTTTTTTTTTTTTTTTTTTTTT
Y
CCCAAAAAATTTGCTACTCTTGAGGTTCTGTCAAAGAATGTGCTGTGGCCTCTAGAAGCATTTTTAAAAAGAGACTTTCACAAGTGATTGTGCAAAATTG
Celera SNP ID:            hCV27009674
SNP Position Genomic:     233996
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2693):
TCACCTTCCTTCAGTGAGACAGGAATAGGACAGTATTTGAAAAGCATCTAACATGTTTCCAAGCACATAGGTTTTTGGTAAATGGTGGCAGCTGCTGCTA
T
TTTTTTTTTAAATTAAACTATCTAAGAGTTGCATTCTGAGACCATCTAAAATTCTGAGTCTTAAGCTGTGTTGACTATATATGTTCACTACCATAACTAA
Celera SNP ID:            hCV27009748
SNP Position Genomic:     73791
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,5)   total(-,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2694):
GTTTCTTTAGATCTTGGACCTTGAGGTGACCTCTGTAATGGATATATTTGAAATTATTAACTGTCTTCAAGTGGGGGTTTGATGAGAGAGAGAGAGAGAG
W
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTACAGAAAATATGCTAGGTTTGTACATTCAAATTTGTGTTATCCTCTTCAAGAAAGTCACCTTGG
Celera SNP ID:            hCV27009675
SNP Position Genomic:     244921
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2695):
GGTAATCTTGTATTATTTTTGCACTGTTTGGAATTTTTTAACCATGTGCTTTTATTTCTTCTATTCTTTTCAAAGGTCAGTAGGTGTTATCTGGACAATA
G
GGTTCTGGTCTGTTTTCTGTTTTCTTCATTGTACTGTGCATTAAGAAAAACCCTAATGTGCTTTTTTTTTTTTTTAAGTGAACCTTTCCACATCTCATTG
Celera SNP ID:            hCV27009749
SNP Position Genomic:     85957
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2696):
TTTCTTTAGATCTTGGACCTTGAGGTGACCTCTGTAATGGATATATTTGAAATTATTAACTGTCTTCAAGTGGGGGTTTGATGAGAGAGAGAGAGAGAGA
K
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTACAGAAAATATGCTAGGTTTGTACATTCAAATTTGTGTTATCCTCTTCAAGAAAGTCACCTTGGT
Celera SNP ID:            hCV27009676
SNP Position Genomic:     244922
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:2697):
GACAACTTCTGCCTAAAAAATAAAAGCTTCTAAGACATAAATTCTGTGTTATGAACAACTTGCAATTTTCATAGTTTTCAGTTTTAGCTCTGGCAGCCTC
W
GATAGATCTTAAATATGTTTATCACAGCTGGAAAAATGTTTTATTGTCATCTTTGTTTATCATAATATGCCACCTACTCTGGTTGTGTCTTACAACTGTA
Celera SNP ID:            hCV27009677
SNP Position Genomic:     40710
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,1|-,9)   total(A,1|-,9|T,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2698):
GGCCAAGGTGGGCAGATCCCTTGAGGCCATGGGTTCAAGACCAGCCTGGGCAACATGCAAACCCCATCTGTACAAAAGATTAAAAAAAAATTAGTTTGGC
K
TGGTGGCACACACCTGTAGTCTCAGCTCCTTGGGAGTTGCAAGTGGGAGGATCACCTGAGCCCTTGAGGTCAAGGCCGAAATAAGCCAAAATCGCCTCAC
Celera SNP ID:            hCV27009678
SNP Position Genomic:     249367
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2699):
ACATTGGAGGAAGTTGGATGAAGGCTATGTGGGATCTCTCTGTAACTTTCTCGTAAATCTTTGCAGCTTTTTGTGACTCTATAATTATTTTAAAATAAAA
T
TTTTTTTTTTAAATGGAAAGTTTATAGGGTATGTAGATAAATTAGAAACAACAGAAGGCCAAGTAAAAAAGTGCTGAAGGAAGCCTCTACCCAGGCTGGA
Celera SNP ID:            hCV27009679
SNP Position Genomic:     251904
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,3)   total(T,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2700):
GACTCCGAGGAGGCCAAGGGCATGGGTGACAGCAGGCAGACTGCTCGGGTGGAATGGGCATCAGCTGCAGGGAAGCCGGGGGAAGAACAGGGCACAAATC
R
GAGTTCAGTGTGAGACGCAGTGAGTTTGTGGGTAGCCCAGTAACTGGGAACTTGGAATGGAGCAGTTGGGCCGGGAGGGCCAGGGTGGGAGCCGTGCCGT
Celera SNP ID:            hCV29314570
SNP Position Genomic:     303174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2701):
CACCACCGGGGCTGAATTTAGTTTACGGGGAACATTAGCAGCAACAGAGGGAGGATGATATCCCGCACTTAGCCCAGGGCCTGGCTCGCTGTCTGACAAG
Y
ACTGTCACCATAGTAAGGACAGTTTATCTGCTCGGGATGTAAGAAGTGCTGGAAAGGAGGGGGCAGCATTGTTCAGTCCATCCCTTTCCAAGCTCCTCAC
Celera SNP ID:            hCV29314571
SNP Position Genomic:     304941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2702):
TCCAAGAAAAGAGTAGAATGAAAGGAGGCAACTTGGTTTCATAGGGAGTGTCATGTTGTCCTTCTGAGTTTACTGATGAGCTTACCTGAGAAAGGAGGGT
Y
CTAGCATGGGAGTTCTGTTGCTACAAGACATGAAAGAATGGCCTCCGTTTATCCCGGAGAGGAGAGTCCCTGAGCCCTTGGGAGTTGCCTTGAAACCTCT
Celera SNP ID:            hCV29314572
SNP Position Genomic:     309496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2703):
TTAATATGTGAATGTATGTTTCTTATGGAAATTAGAACAATACACAGTTACAGAGTAGAAGGTGATAGGTGATATAGCTCACCCTCTCCTCTTCCTGCTA
Y
TCTCCCCAGTCTGCTTCACTCCCCGGAAGGAACTACTGGCCCATCAGCATGTCTCCTTCCAGGCATTTTTTCCATGTGGTTATGTCCACCTGCATAAGAA
Celera SNP ID:            hCV29314573
SNP Position Genomic:     47165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2704):
ACACGGGGCCTCTCGTTTGGTCCAGAACAGCCTGGCTCATCGGCTGGGGCTTGCTTGTGCAGGGCTGGAGCGAGCACGTGCTAGATGGAGACAGCAGACT
Y
GGAGTGTGCATTTCTTCGTGTTGCAAGCCTGGCCTCACAGTGCCTTCTTCCTTTGGTTGTCTGCCAGGGGTAGCCCTGCACCAGGAGGAAGCTTAGAAAT
Celera SNP ID:            hCV29314574
SNP Position Genomic:     312972
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2705):
AATCCAGAGTTAAAAATAATGTTCATAAGGAAGGGTAGCAAAATTTAGATTTTAATACTTATAGGAGGTGTGTTAATTGGCCCCAGGGCCGCAGGCTTTA
K
CGTTCAGAGGACTTTAGCCCCAAAGGTTTTGTGGAACTTTTCCAGAGTCCTCACCAGTACATTGGGAATAAATGGAATGCCTTTGGAAGTACTTTGAAGA
Celera SNP ID:            hCV16143590
SNP Position Genomic:     142014
SNP Source:               dbSNP
Population(Allele,Count): (G,-|T,-)   African American (pooled) - WICGR(G,100)   Asian (pooled) - WICGR(T,2|G,82)   Caucasian (pooled) - WICGR(T,1|G,95)   total(G,277|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2706):
TGGGGTTTTCTGCCTCCCTGGTGCACTGGGCACAGCGGCTTGCCTGCCTTTTGGGTCGTCTCCACCTCCCAGGGATGTTTTTGTTCCCTGATCGAATGAC
Y
TCCTGTTTTGTTTGTTTTTTGAGACGGAGTTTTGCTTTGTCACCCAGGCTGGAGTGCAATGGCATGATCTCGGCTAACTGCAACCTCTGCCTCCCGGGTT
Celera SNP ID:            hCV29314575
SNP Position Genomic:     50052
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2707):
ATGAGATAAATTTCACAGGTAAATGTGACGTAGCTAATGCATAATCATTCTTTGTGTTGCATGGCAATTCTGTACAAATAGAAGGTAGCATGTTTAACGT
Y
CCTGTTATTTCACATAAATACAGACTGAGAGTTTCAGTGGTCTGGTTTGAAAGGGAAGAAATAGAAGAAGGAAGGAGAGAAGTTGGCAGAGGAGCAATCT
Celera SNP ID:            hCV16143591
SNP Position Genomic:     148276
SNP Source:               dbSNP
Population(Allele,Count): WICGR7_african_american_pooled(C,4|T,96)   WICGR8_asian_pooled(C,11|T,72)   WICGR6_caucasian_pooled(C,4|T,91)   total(C,19|T,259) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2708):
TGTTGGCATTTCTCGTGGTATCATACATGTTGGGTGCTTCCCAAATTAATTACATCAGTCAGAAAACTTCACTCTATCTGAGAAGCTTTAATAGTGTACT
K
GGGATTATTAAATCCTAAAAAAGGTTATCACAAAGAGTTTTCTTGGTGTGTGTCTGTGCTTAGAATTTAGAAAATAAGTCATCCAGTATTGAGGCCATTT
Celera SNP ID:            hCV29314577
SNP Position Genomic:     62773
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2709):
AGTAATTTAGCTTACTGACAAAAAGAAAAGCAAAGGAAATTCCAGAGAAAGAACAGGATACCAAGTCTAAATAAATTTGGAAGACAAAGAGAATATCATA
R
TTTAGTTCAATCTTTTAAACAAATTGTCACAATTTATACGTTGGGATAAGAGAACCATGAGAAAAGGTATATTCTAAGTCCTGAACATCTTTCTATACCC
Celera SNP ID:            hCV16143592
SNP Position Genomic:     200774
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;hmCS


Context             (SEQ ID NO:2710):
CATTAAGATGGCCATTCGAAAACATTAAGCACAGAAGAATCCCATTCAGGTAATCTTCTGTTGGCTGGCTGTAGAACTACGGAGAACATCTGGAGAAACA
Y
GTCAAGGGTGTGTGTGAAATCGTTGAGCCTACTCGATTTTGTCGTGCTGTTGCGCGGTTTTCACTTGGCACTGTCCTTTAAACTCCTTCTGTGCCGTGAC
Celera SNP ID:            hCV29314578
SNP Position Genomic:     67780
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2711):
TTCTGTTGGCTGGCTGTAGAACTACGGAGAACATCTGGAGAAACACGTCAAGGGTGTGTGTGAAATCGTTGAGCCTACTCGATTTTGTCGTGCTGTTGCG
Y
GGTTTTCACTTGGCACTGTCCTTTAAACTCCTTCTGTGCCGTGACTCTGCAGTGTCTGGCAGCGTAGTAGACTCTACTCCCTCTATGGACGTGATCCCTC
Celera SNP ID:            hCV29314579
SNP Position Genomic:     67835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2712):
ATTCTTTTCAAAGGTCAGTAGGTGTTATCTGGACAATAGGGTTCTGGTCTGTTTTCTGTTTTCTTCATTGTACTGTGCATTAAGAAAAACCCTAATGTGC
T
TTTTTTTTTTTTTAAGTGAACCTTTCCACATCTCATTGTCCTTCAGTGAGAGCAGGCTGTGTGTGTGGTCTTGGTGAACTGTCCCGTTCCCTGGAGACAG
Celera SNP ID:            hCV27009750
SNP Position Genomic:     86019
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,6)   total(T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2713):
GCACATGTTTTCTCACCCTGAGTGGCTACACTTGTACAGTCATACCCTCCAAACTCTAAGATGTATACTCTTACATACCAAAACACAAAGAAACAACAGG
A
AGTAAGAACAAAACTCAAGAGGTCTGAGTGACATCTTGCCTTGCTTCACAACTTCAGAGTTTGCATTGCTTTAAAAACATTGGTTATAAGTGAGTGTGGA
Celera SNP ID:            hCV27009751
SNP Position Genomic:     95443
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2714):
TATTTTTAATTTTTTGAGGAACCACTGTACTGTTTTCCATGTAGACTGCATAAGAATTCCAATTTTTCCACATCTTGCCAACGTTTATTTTTATTTATTT
Y
TTTAAATTTTTTATAGTAGCTATCCATTCTAATGGATGTGAGGTGGTATCTCATTATGGTTTTGATGGGACTTTTGAGTTTTAGCAAATATCAATGAAGT
Celera SNP ID:            hCV15978582
SNP Position Genomic:     43012
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:2715):
CACATGTTTTCTCACCCTGAGTGGCTACACTTGTACAGTCATACCCTCCAAACTCTAAGATGTATACTCTTACATACCAAAACACAAAGAAACAACAGGA
A
GTAAGAACAAAACTCAAGAGGTCTGAGTGACATCTTGCCTTGCTTCACAACTTCAGAGTTTGCATTGCTTTAAAAACATTGGTTATAAGTGAGTGTGGAA
Celera SNP ID:            hCV27009752
SNP Position Genomic:     95444
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,7)   total(A,7|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2716):
CTTACTATATTTTTATTGTACCTTTTCTATGTTTAGGTATGTTTAAATACACACATACTTACCATGGTGTTACAACTGCCTGCAGTATTCAGTGCAGTAA
Y
GCACTACAGGTTTGCAGGTTGGTAGCCTAGGAGTAATAGGCTATACTGTATAGCCTAGGTGTGTAGTAGGCTATACCATTGAGGTGTAAGTATACTCTGA
Celera SNP ID:            hCV15978583
SNP Position Genomic:     37435
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:2717):
CTCCTGCTCTTTGTTTTCTAAACTTTCAGCGGACTCGATTGGGCGAAAGCCTTCCGGCTCCCTTTACTAAGTCGTTTAGGTGGTGGCTGGGGGGACAAAG
R
AGGGTTTTTATCTTTAAAAGATAAGTACGGTTTAGAAGACACGGGAGAAATAATCCATTTTGTTATGTTATGCAGTTGAACTGTATAGCTTCTCTAGTTT
Celera SNP ID:            hCV28021969
SNP Position Genomic:     7919
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2718):
ACATGTTTTCTCACCCTGAGTGGCTACACTTGTACAGTCATACCCTCCAAACTCTAAGATGTATACTCTTACATACCAAAACACAAAGAAACAACAGGAA
G
TAAGAACAAAACTCAAGAGGTCTGAGTGACATCTTGCCTTGCTTCACAACTTCAGAGTTTGCATTGCTTTAAAAACATTGGTTATAAGTGAGTGTGGAAA
Celera SNP ID:            hCV27009753
SNP Position Genomic:     95445
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,7)   total(G,7|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2719):
AAGAGCCAGGATTTTCAGGCTGGCCATTTCAGGATCAGCCATTTCCCACTTCCTGATTCATAGCTTCCAGGATTTGTAATGCCTGTAGACTTTTTTCTCT
Y
TTGCTTAAAAGTGGCCATTGAAAGAAAAAATAAATAGCAAAATCCCCATCCCAGAAGTTCTACTTCCTGTTGTTGTACTATTGAGCTCTGAAAAACAGCT
Celera SNP ID:            hCV15978584
SNP Position Genomic:     28222
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2720):
CAGAATGTTTGAAACTTTGTGAGGAGTCTGACCCCACACTGTAGGCTCCCTCCATGTATATATTTCTTCTTCCTTTTCCTTTTTTTTTTTTTTTTTTTTT
W
AATTTTTGAGATAGTGTCTCGCTCTGTAACCCCAGTTGGAATGCAGTGGCATGGTCATGGCTTACTGCAGCCTCAACGTCCCAGGCTCAAGGGATCCTCC
Celera SNP ID:            hCV27009680
SNP Position Genomic:     41401
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2721):
CATGTTTTCTCACCCTGAGTGGCTACACTTGTACAGTCATACCCTCCAAACTCTAAGATGTATACTCTTACATACCAAAACACAAAGAAACAACAGGAAG
T
AAGAACAAAACTCAAGAGGTCTGAGTGACATCTTGCCTTGCTTCACAACTTCAGAGTTTGCATTGCTTTAAAAACATTGGTTATAAGTGAGTGTGGAAAC
Celera SNP ID:            hCV27009754
SNP Position Genomic:     95446
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,7)   total(T,7|-,3) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2722):
ACTTGGTCAAGGTACTGATAGTTTTATAAGCTAGAATAAATATCGTAAAATGGCTTTGAAGTTGAAAGGAATTTTGGGGGGGGAATCCTTTTATGAAGAA
T
TTTTTTTTTTTTTTACAGTTTGAGAGGAAAAATAATGTATTTTGAGAATGTGTTTTCCTTAATATTTGTTAAATGAGTAGACTGTATTCTTAAGGTTTAG
Celera SNP ID:            hCV27009681
SNP Position Genomic:     254413
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,10)   total(-,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2723):
CCTAGGGTTGTAGAAATTCTCCCCCATGATTGCACAACCCACTCCTTCTCAGCCAGTGTGCACCTGGAGTCAGCTGTGTTTGGCCTTAAGGTGTCCATGG
K
CCAGCAGGGAGAGGGCAGATGGGTCAGTGTTGTCCTGCTAGTGATGAGTATCCCATGGTGGGCATGCTGATGCCACGCAAGGGAGAGGGTGTCTGGTTCT
Celera SNP ID:            hCV27957189
SNP Position Genomic:     122308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2724):
AAGACTAATTGATTAATTTATTAAGCACTTATTGTCCAGTTTGCCTTTAATTTTCATTTTTCTAAGTTTCCATTAGCTATCATGGCCTCACTTGTTATTT
M
ATAATGAATGGTTACAAATTGTTTGTGTGTTTTTGTAATTAGAATGTAATAGCAATCGTCTACCAGATGAGCTGACATTGTAATGACATGAAGTCAGTAA
Celera SNP ID:            hCV27009755
SNP Position Genomic:     106035
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:2725):
TTGAGAAATCCTGATGTCCAAGTTGCACCCCCACCCCAATTCAATAGGAGCGTTTGGGGTTAGGATCCAGGAATCAGTGCTTGTCTAAAGATCCCTAGGC
W
CTTCAGCAGGCAGCAAAGATTGGAAACCACTGCTTTATCCCTTCATTTCTTCCCATGTGCATATCACAAAGCACTTTGACGGTTTTTTTTCCTAAATATT
Celera SNP ID:            hCV27009682
SNP Position Genomic:     258729
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2726):
CCGCCTGAGCCCCCCAAATAGCTGGGACCACAAGTATGCACCACCATACCTGGCTTTTTTTTTTTTTTTTTTTTTTTTGTATTTTTTGTAGAGACGGGGT
M
ATTCTATGTTGCCCAGGCTTGTCTCGAACTCCTGGCCTCAAGCGATCCACCTGCCTTGGCTTCTCAAAGTGCTAGGATTACAGATGTGAGCCACTATGCC
Celera SNP ID:            hCV27009756
SNP Position Genomic:     109879
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,6)   total(A,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2727):
CTGTCACTCACGGATGTACTCTTTGCCCCAGGTGAAAGTGACGTCCTGCATTTCACCTCCACCACCACGTCGAAGAATCGCATCATCATAACCTGGCACC
R
GTACCGGCCCCCTGACTACAGGGATCTCATCAGCTTCACCGTTTACTACAAGGAAGCGTGAGTTTCTGCTTTGGGTGATGCCATTCTGTTGACAGGGCTA
Celera SNP ID:            hCV27009683
SNP Position Genomic:     267879
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:2728):
GCCTGAGCCCCCCAAATAGCTGGGACCACAAGTATGCACCACCATACCTGGCTTTTTTTTTTTTTTTTTTTTTTTTGTATTTTTTGTAGAGACGGGGTAA
Y
TCTATGTTGCCCAGGCTTGTCTCGAACTCCTGGCCTCAAGCGATCCACCTGCCTTGGCTTCTCAAAGTGCTAGGATTACAGATGTGAGCCACTATGCCTG
Celera SNP ID:            hCV27009757
SNP Position Genomic:     109881
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2729):
GTGCAGTGGCACGATCATGGCTCACTGCAATTTCTGCCTCCCAGGTTCAAGCATTTCTCATTCCCCAGCATTCCGAGTAGCTGGGATTACAGGCATGCAC
Y
ACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGCCCAGGCTGGTCTGAAACTCCTAACCTCAGGTGATTTGCCCGCCTC
Celera SNP ID:            hCV27009684
SNP Position Genomic:     272908
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:2730):
GTTTTCCCTTTCGTTTTTCTTTTCTGCTTTTAATGAGCCTTAATTAATCCAGGGAGCTAGGCTGCAGTATCTGTGGCTCTCCCTGATGTTTTCTTTCTGC
M
TTTCTGTCTTGGAGGGGAACCTGAGGATTTGGAAGTAGAGGGCTCTACTAGTGCTTCCTTTTTGTCCTTTTCTCATTGTCCAAAAGAGTCTTAAGCGATC
Celera SNP ID:            hCV27009758
SNP Position Genomic:     110726
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:2731):
TGGCAGGAAGGGAGAGGATCCGAGCCTCTCCTTTGAGGTTGTGTAACCACTGGAGAGCCAGAGGAGACAGTTGCTTTCAACCTGGCTTACATTCAAAGAC
T
TTTTTTTTTTTTTAAACAAAAGACATTTTATAAAGCATTGAATTGACCATTCCACCTCCTACTTGGTCAGTAAAGCTAGATAGGGCTCGGATTCAGGGCT
Celera SNP ID:            hCV27009685
SNP Position Genomic:     281491
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2732):
GAGCCACTGCCTTTGCTGCCACATTTTGCTTGGTTATTGTGTGAGAACACCATTTTTCTCTTTTTAAATGAATTGTGTTTCTCTTTTTAAATTGAGCATC
Y
GACTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCACGGTGAGTGGATCACCTGAGGTCAGGAATTTGAGACCATCCTGGCCAACAT
Celera SNP ID:            hCV27009759
SNP Position Genomic:     116508
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:2733):
GGCAGGAAGGGAGAGGATCCGAGCCTCTCCTTTGAGGTTGTGTAACCACTGGAGAGCCAGAGGAGACAGTTGCTTTCAACCTGGCTTACATTCAAAGACT
T
TTTTTTTTTTTTAAACAAAAGACATTTTATAAAGCATTGAATTGACCATTCCACCTCCTACTTGGTCAGTAAAGCTAGATAGGGCTCGGATTCAGGGCTT
Celera SNP ID:            hCV27009686
SNP Position Genomic:     281492
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,4)   total(T,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2734):
TCCCAACACTTTGGGAGGCCAAGGTGGGTGGATCTCTTGAGGTCAGGAGTTTGAGACTAGCCTGGCCAACATGGGTGAAACCCCGTCTCTACTAAAAATA
M
AAAAATTAGTTGGGGGTGGTGGTACACGCCTGTAATCCCAGCTACTTGGGAGGTTGAGGCAAGAGAATCTCTTGAACCTGGGAGGCAGAGGTTGCAGTGA
Celera SNP ID:            hCV27009687
SNP Position Genomic:     282244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2735):
AATAGTTTTTTAGTTCCAATAATACGTTTCGTGTAACCCAGTATATCCAAAATATCCATTTTAACATGGAGTCAGTATTAAAGTTACCTAAATATTTCAC
T
TTTTTTTTTTTTTTGTCTAATCTTTGAAATCCCATGTGCATGTCTCAAATTGGACTGGCCACATGGAATGCTCAGGAGTCCCATGTAGGGACCAGCTGCC
Celera SNP ID:            hCV27009688
SNP Position Genomic:     290603
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2736):
CCACCCTCTGTTCTGCCAAGCATTGGTCCCCAGCACCCCTGGGTGTTAGTGCCTCTTCCTGGTTCACTCACTCACTTTCTCTGGCCCTCTCTGTGTCTCT
S
TCACTCTCTTTCTTTCGAGATGGAGTTTTGCTCTGTTGCCCAGGCTGGGGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCACCACCTGGGTTCAAG
Celera SNP ID:            hCV27009689
SNP Position Genomic:     293374
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2737):
AAATATATGGAATGGGCAAATGTATGGTGACAGAAAGTAGATTTGAATTTACCAGGGGATGGGGATAGAGTGTGGAGGGGAATGGGAATTATTCCATAAT
Y
GATAGGTTTTCTATTTGGAGTGATGAAAATTTTTGGAAATAGATAATGATGATAGCTGTACCATTCTGTGAATGCAATTAATGCCACTGAATTGTACCCT
Celera SNP ID:            hCV156984
SNP Position Genomic:     274362
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;TFBS


Context             (SEQ ID NO:2738):
AGAATGCTTTCATGATACGTCTTGGTACTTCATTACAACAAAAACAAACTTATTGCCACCCAGGTCGACAGGTGGGAACAGTGTCACCTTATTTGAACTT
R
ATTTATTCGGCCTTTGAGAAGCACTTATAGCCAGTTTCCTCGAGGGGCAACAAAATGACATTGCAGTTCAAAAGTGCTTTAAAAACTTCTTTTTCCCAAA
Celera SNP ID:            hCV137535
SNP Position Genomic:     288742
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:2739):
GTATTTCATTTCAGGTGCAGATGCCTTCACTTTCCCACAAAAAAAACCCCAACAAAACCTAAGACCTTACTGCAACTAAGTCTCCAAGTACTTTTTAACC
Y
AATGGGATGAACAGCCTGTGGTCTGCTCAGATCACCCTGAGTGCGTGTGAGAAGGCCTGGGCTTTGCCAGGAAATCCAGGAAGGCAGGGCCGGGCTGTGT
Celera SNP ID:            hCV29314580
SNP Position Genomic:     70291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:2740):
TAAGCAATACAATTTAAATAATTTTTAAAGGAAACATTTCTAAAGGACGTTTTACATTGCTTGCATTAAAAAGAATATAATGAACATAATCCAACTTTTT
S
TCAATACTCAGGGTCATCACTGTGAAAGTAACTTCATTCTATGATAAGATAATGATGCTCCCAGGTGGGCAAGGCAGTTTTTCATCTAAGGTAATTGAGA
Celera SNP ID:            hCV25771058
SNP Position Genomic:     176927
SNP Source:               Applera
Population(Allele,Count): african american(C,22|G,2)   caucasian(C,36)   total(C,58|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:2741):
ATTGATAGAACAAGGCAAGACCACTTTCCCCCTCTGTGAGGGTGGACTGTGACTCTACGAGAGAAGCTATTCTGCTTTGAAATGCGGCACTAGAGGTTGG
Y
GTGTGTAGCTTTTGACTGTGAAGTGTCCAGGAAGAGAAAGCATCAATACAACAAATTCAGATTCTCAGGGCTCTCATGGTGACTTGAATTCACATTTTGT
Celera SNP ID:            hCV137536
SNP Position Genomic:     288533
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:2742):
ACATATGTCTATATCGGGGTGCCAGTGGAGTCACCCTAGTCATATGTAAACTCTATTTATTTGGTTCCGAAACTGAATTTATTTTGTTTGCAAGTTTGGT
R
TTTGGGAGCATTTAAGAAATATCCATAGATTCTTGTATGATACTGACATTAAATCATTAAATACCATATTTTTTAAATGCCTCTGTCTGTTTGCATGGAT
Celera SNP ID:            hCV29314581
SNP Position Genomic:     74148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2743):
GAACCCGGAGTACTTCAGCGCTGCTGATGGTAAGAGTCCGGGCCACCAGCACTGCCAGCGTGCAGGGCAGGTAGATCGGGAGCTTTCAGGAGGGTTGCTA
R
TTTGGGAAAGGAAGGAGGTTTGCATTATTTTGAGCTACCTTTGGCCTTGGATCTGTCTTCATTAATATTTCTTTCTTTCTTTTTTTTTTTAATCAAAGTT
Celera SNP ID:            hCV137537
SNP Position Genomic:     286872
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,29|G,3)   total(A,63|G,5)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2744):
GAACTTGAAATGATTGGATTATTTTGTAATACGTCGATACTACTTTTAGAAGCTTTTGAATAACTGTGTCAAAGAAGCTTTAGAAGAGGTTTTAAGCAGG
R
TTGCAGAGAATGTACTGAGTGTGTTTTTCCACTCACAAGGAAAGACAGCAGCTGAATGCAGAAGTGTGTGTCTGGTTCTAACTCTTTATCACTTCAGGGA
Celera SNP ID:            hCV29314582
SNP Position Genomic:     75646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2745):
CTGACACCATTTACCTTCAGGAATTCTTACTGTATGATGGGGAGTAAACGAATATACAGGTATTTTTTTCATACTTCCAACTGAATGTGAAGAAATGAAA
Y
GAGCAAATTGTTCACCTGGTGATATTTTATCATTTCCTCCTCTTTGCTGCAGCAGGATATGAAAACTTCATCCATCTGATCATCGCTCTGCCCGTCGCTG
Celera SNP ID:            hCV137538
SNP Position Genomic:     286000
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,26)   caucasian(C,16|T,22)   total(C,26|T,48)
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:2746):
ATGCAATGTAAAAGTGATTTACTGTCCTATAATTGTTTTCCTGAAAGCAAAATGATATTTAAGTGAACTGCAATGAAAAATGCAACGACTGTAATTTATC
R
TTGAAGGGCATTTTCAAAGTGTATAGAATGACTAAAGCTTAAGTGTATTAAATATTCTAGAGGAAGACATATTTAGGCTATAAATCTAGACTTCCTTTGG
Celera SNP ID:            hCV27829348
SNP Position Genomic:     182957
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(G,36)   total(A,2|G,68)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2747):
AAAGAAGCTTTAGAAGAGGTTTTAAGCAGGATTGCAGAGAATGTACTGAGTGTGTTTTTCCACTCACAAGGAAAGACAGCAGCTGAATGCAGAAGTGTGT
R
TCTGGTTCTAACTCTTTATCACTTCAGGGACTGTCCAGGCAGCACCATCCGTTGGGTCTCCTGCCCTTCCTCCTCCCACCCCTGCCTTACCCCTGGCCAT
Celera SNP ID:            hCV29314583
SNP Position Genomic:     75716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2748):
TTTGCGTTTTAATCTGTTGGTGAAGATGGGTAAAATCCTGCTTGACCATTTCATTCAGTTTCTCAATCCCCTGTGGTTAATTTGTTTTTTTCAAAAATGT
R
TTTTTATGTGATGAAAAGAAATTTTTAAAAACCAACTGCTTTCTTTCCTATACTAGACTTCCTTGCTTTGTTCTGGTCCTTCTATCTGTTAGTATCCTCA
Celera SNP ID:            hCV137539
SNP Position Genomic:     290979
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2749):
CAAGAACGAGCGGGCCTTGCCGCTGCCCCAGTCTTCGACCTGCTGATCCTTGGATCCTGAATCTGTGCAAACAGTAACGTGTGCGCACGCGCAGCGGGGT
S
GGGGGGGAGAGAGAGTTTTAACAATCCATTCACAAGCCTCCTGTACCTCAGTGGATCTTCAGAACTGCCCTTGCTGCCCGCGGGAGACAGCTTCTCTGCA
Celera SNP ID:            hCV27829349
SNP Position Genomic:     313996
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,30)   total(C,1|G,65)
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:2750):
TTTCCACTCACAAGGAAAGACAGCAGCTGAATGCAGAAGTGTGTGTCTGGTTCTAACTCTTTATCACTTCAGGGACTGTCCAGGCAGCACCATCCGTTGG
R
TCTCCTGCCCTTCCTCCTCCCACCCCTGCCTTACCCCTGGCCATTCTTTTGTGACCAGTAGTCCTTTATGAATGGAATTCTGAGAATGTATAATTTTCTC
Celera SNP ID:            hCV29314584
SNP Position Genomic:     75772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2751):
AGACAGCAGCTGAATGCAGAAGTGTGTGTCTGGTTCTAACTCTTTATCACTTCAGGGACTGTCCAGGCAGCACCATCCGTTGGGTCTCCTGCCCTTCCTC
Y
TCCCACCCCTGCCTTACCCCTGGCCATTCTTTTGTGACCAGTAGTCCTTTATGAATGGAATTCTGAGAATGTATAATTTTCTCAGAAGAATGCTTCTTTA
Celera SNP ID:            hCV29314585
SNP Position Genomic:     75789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2752):
AGAAGTGTGTGTCTGGTTCTAACTCTTTATCACTTCAGGGACTGTCCAGGCAGCACCATCCGTTGGGTCTCCTGCCCTTCCTCCTCCCACCCCTGCCTTA
Y
CCCTGGCCATTCTTTTGTGACCAGTAGTCCTTTATGAATGGAATTCTGAGAATGTATAATTTTCTCAGAAGAATGCTTCTTTAGCTCACCAAATATTTCT
Celera SNP ID:            hCV29314586
SNP Position Genomic:     75806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2753):
CACTTCAGGGACTGTCCAGGCAGCACCATCCGTTGGGTCTCCTGCCCTTCCTCCTCCCACCCCTGCCTTACCCCTGGCCATTCTTTTGTGACCAGTAGTC
S
TTTATGAATGGAATTCTGAGAATGTATAATTTTCTCAGAAGAATGCTTCTTTAGCTCACCAAATATTTCTTGTTTGCTGAGGGGGGAAAAAGATCCTCCT
Celera SNP ID:            hCV29314587
SNP Position Genomic:     75836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2754):
CTCAGAAGAATGCTTCTTTAGCTCACCAAATATTTCTTGTTTGCTGAGGGGGGAAAAAGATCCTCCTTGGAAAAGTCACTGGGTGCCAAAGGTGGGTGAT
K
AGGAGAGATGAACTTCTGGGTGTGCCTAGCAAAGCTGTTTCTGTTGATAGGCGATTAACAAAACAGCCAAACTTGACCTAACAGACTGCCATTTTGAGAG
Celera SNP ID:            hCV29314588
SNP Position Genomic:     75970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2755):
GTTTGAGGCAGACTCCAACCACATTTCCATCCAGTGGCTTAGTGGTCTTACCCGTGAGCTTGAACTGTTGTCCCTGCCAGGACAGTCTTTGCCTCTGTAA
R
TATCTCCATATTCCTCCATCCTTTCAGGTCCCATTCAGTCCCTAGGTCCTCCATGATGGAATATTGGTTGATGCACTTATTCCACAAACATTTGTTGGCC
Celera SNP ID:            hCV11940918
SNP Position Genomic:     118197
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,6)      total(G,6|A,1) ;(A,-|G,-)   African American (pooled) - WICGR(A,4|G,96)   Asian (pooled) - WICGR(A,6|G,78)   Caucasian (pooled) - WICGR(A,3|G,93)   total(G,267|A,13)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2756):
TATAGCTCAGTTGTATGTAGTATTTTCTGTGTGGTGTTATGCCCTCTGTATCTGTTTTCTCAGATGTTTTAGTTGCTTTTCTCTCTTAATCTTGATTAGA
Y
CTGCCAGAGCTGTGCTTATTTTGTGTCCCCATCCAAATCCAGAATTAATTGCCGTGCTCCACATGTTTTGGTCAATGGTGGACCTCATCTGTAACAGTAG
Celera SNP ID:            hCV28021970
SNP Position Genomic:     35813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2757):
AAAAAGATCCTCCTTGGAAAAGTCACTGGGTGCCAAAGGTGGGTGATGAGGAGAGATGAACTTCTGGGTGTGCCTAGCAAAGCTGTTTCTGTTGATAGGC
R
ATTAACAAAACAGCCAAACTTGACCTAACAGACTGCCATTTTGAGAGGAATTTGTTTTGCAGGATTAATTGGCTTCGAGGTGTACTGGTGGCTGTGCAGT
Celera SNP ID:            hCV29314589
SNP Position Genomic:     76023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2758):
CATCCTTTCAGGTCCCATTCAGTCCCTAGGTCCTCCATGATGGAATATTGGTTGATGCACTTATTCCACAAACATTTGTTGGCCACCTTTCAAGTGCCAG
W
CAACCCTTCTAGGTATGGAGGGGTACAGTGATGAGCAAGCCACTGTTTCTGGCTGCAGAGGGCTCACTGTTTAGTGGGAGAAACAGACAAATCATACATC
Celera SNP ID:            hCV11940919
SNP Position Genomic:     118314
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,8)      total(A,8|T,1) ;no_pop(A,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2759):
AAAAGGGGCTTCTACACTGTTGGCCTCTCGAGGAGAACGGTTTTTGTTTCTGTCTTCCTGGAAAAGAGGTGACTGCTGGCATCATCTTTCTAGATAAACT
S
CTTGCTATGATGCCATTAGAAGCAGTGTTCTTTTGTGTTTTGCTTTTGTTTTTCCCTGTAGACAGGAATAACATTTTGACTAGAAACTTCCCTGATGTAA
Celera SNP ID:            hCV25742854
SNP Position Genomic:     198464
SNP Source:               Applera
Population(Allele,Count): african american(C,26)   caucasian(C,31|G,1)   total(C,57|G,1)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:2760):
GCCTTTGTTTTTATTGTTGGTCACTGTAAGAATTCCAAGGAATAGAAGGATCTCATGGGCAAAATCAGTTTGCTTTTTTCTCTGTATATTTGTTAGTTTA
Y
AGCAGCTTCTATTTTCCTCCTATTTTTAAAAGCTGAAATGCCTTTAATCGCACTCAGTGTGTTTATTCATGGAAGCCAGAGAAGAGGGTCCCTTCCTTTC
Celera SNP ID:            hCV28021971
SNP Position Genomic:     242999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2761):
ATTTGGAAGTAACCCCTGGCCAGCAATTCACTGTAGTGTTTGGGAAACATAGGAATATCTGCTTATTGTGACAGATTCTCAAGAAACCTGTTTCCTTTCC
R
CAAAGATGGAAACCAGGCACTGTACCAATGAGTCAGTTCACTACGTTTTGTCCTCTGTCCTTACACGCAGCGGAGACAGACGAGAACTTGGTCCTCTGCC
Celera SNP ID:            hCV27957190
SNP Position Genomic:     271205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2762):
AAGGACCGTGTTTTCCTCAGGGGAATCCATGGGCTGAGAAGACTGGGGAGCCTCAGAGGCCCTTTCCCAAAGCCCTCTGCTCTCCCCTTCCAGGTTCTGA
S
CTAAGGACCAGCCAGAAGCCTGCCGAGCGTCAGCCGAACCTGCAAGTGGCTTCTGGGCTGTTCCGTTCCCTGCGTGAGCTTTCCCTCTCTGCTGCTGCTG
Celera SNP ID:            hCV28021972
SNP Position Genomic:     277401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2763):
TCGGTAGGACCCCCGTGTGCCACTACACAAAGAAGGACCGTGTTTTCCTCAGGGGAATCCATGGGCTGAGAAGACTGGGGAGCCTCAGAGGCCCTTTCCC
R
AAGCCCTCTGCTCTCCCCTTCCAGGTTCTGACCTAAGGACCAGCCAGAAGCCTGCCGAGCGTCAGCCGAACCTGCAAGTGGCTTCTGGGCTGTTCCGTTC
Celera SNP ID:            hCV27957191
SNP Position Genomic:     277369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2764):
GAGAACCACCTGGGTAGAGGTTTCCAAAATTGTCTGATTGTAAAAATCACCTGAGGAGCTTGGTAAAGCTTGACTGTCCCAGGCCTCATTTGAGGCTACT
R
AGTCAATGTCCAGGCTGGGGCTTGGACAAGAATGTCATTCTTTTTGGGTCAAAGCCAGGTTAGGTGATACCGCCTTGCCAGATAAATGGCCGGGACTAGG
Celera SNP ID:            hCV27957192
SNP Position Genomic:     304640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2765):
GAGCTGCGGTGAGAGAGACCATGAAAAGAAGGGCCAGAGCGGTGTCCTGCAGAGGGTGGTGTACCTTGGGAGGGAAGTGTGTAGGGTTGTTGAGGAACAG
Y
GTGCTGCACAGGGAGGAAAGACGTGGGGCAGCATTGTGGGAAGAGCAACCAAGATTCTCATAGGCTTGGGAGCGGAAGCCCTGAGGTCTGTTGCTGGACT
Celera SNP ID:            hCV27957193
SNP Position Genomic:     61236
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2766):
GTGCTTTAGGGTGGGGGGACTTGAGACCCTTGACTTGACTCGGTCCCACTGGAAAGCTTCTGTTGCTTATTTGGGTAACCCCAACTCTATCTTATTGGGC
R
GTAGTGTTATCCTAATTCTTGGAAATACTCAGTGTAGAATAAAGAGCTGATGAAAATGTGTAAGAAGGGAGTAAGTGGTCATTAGAGAGAAATGGTAATT
Celera SNP ID:            hCV27957194
SNP Position Genomic:     76318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2767):
CTGTAATCCCAGCACTTTGGGAGGCCACGGTGAGTGGATCACCTGAGGTCAGGAATTTGAGACCATCCTGGCCAACATGGTGAAACTCCTGTCTCTACTT
A
AAAAAAAAAAAAATGCAAAAACTAGCTGGGCATGGTGGTGCACATCTGTAATCCCAGCCACTTGGGAGGCTGAGGGCAGGAGAATGGCTTGAACCTGGGA
Celera SNP ID:            hCV27009760
SNP Position Genomic:     116631
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2768):
TTTTAAAAGGGTTCCATTTTCCCCTCATATGACTTTGGTTCATTCTCCTCCTTGTTTCTGTCTCTCAGTGAACTTTCCAAAAGATGGGTTATGATGAAAG
R
TGAATCGTCGTTGATAACTGCTCTTACTTATCTGTGTATCGAAACTGCAGGTAGTGCTCTTCAGCTCTGTGGCTGGATTTAGTGCCTCTTCTAGGGAGGG
Celera SNP ID:            hCV27957195
SNP Position Genomic:     87954
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2769):
TTGGGAGGCCACGGTGAGTGGATCACCTGAGGTCAGGAATTTGAGACCATCCTGGCCAACATGGTGAAACTCCTGTCTCTACTTAAAAAAAAAAAAAATG
S
AAAAACTAGCTGGGCATGGTGGTGCACATCTGTAATCCCAGCCACTTGGGAGGCTGAGGGCAGGAGAATGGCTTGAACCTGGGATGCGGAGGTCATAGTG
Celera SNP ID:            hCV27009761
SNP Position Genomic:     116647
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2770):
TCTCATTTTTATGCTGTTCAGAGTGTGGTTGAAGTTCAGCCATCACTAGTCCTTCACGGATAGTTCATACCCCAAGTTGATGGCCTTGTGGAATTGCTGA
Y
GCTATTTTCATATATATATATATATAATTCTAGCCTTTTTCTCTGGTCTTATAAGAGTCACATACGTAGGTAATTTCATATCCTACAAATATGTTCTAAA
Celera SNP ID:            hCV25769792
SNP Position Genomic:     176669
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,27)   caucasian(T,36)   total(C,1|T,63)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:2771):
TAAAAAAAAAAAAAATGCAAAAACTAGCTGGGCATGGTGGTGCACATCTGTAATCCCAGCCACTTGGGAGGCTGAGGGCAGGAGAATGGCTTGAACCTGG
S
ATGCGGAGGTCATAGTGAGCCAAGACTGTGTCATTGCACTCCAGCCTGAGCAACAGAGAGAGACTGCCTCAAAAAAAAAAAAATCCGTTTACATAGTGAT
Celera SNP ID:            hCV27009762
SNP Position Genomic:     116730
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,5)   total(G,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2772):
GTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCGCTGC
R
CCTGGCCCTTGGTTCACTTTAATACACAAAACAGCATGAAGGAGAAAAGCTTGATGAAATAGGTGACTGGAGATCTGGCAGAGTATTTCTTGCCAGCATC
Celera SNP ID:            hCV27009690
SNP Position Genomic:     293665
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:2773):
TGTTATTCAAATTCCTGACCTCAAGCCATCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGTCACTGTGCTCAGCCAGTTGCACTACA
T
TTTTTTTTTAGATGCCATTGTTGAGGATCCAGGGGTTTGTCATAGATTGATTAATCAGAAAGTATTAATCTAAAGTATTAGAATATATTGATTGCAGGCA
Celera SNP ID:            hCV27009691
SNP Position Genomic:     45988
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,9)   total(T,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2774):
AGCTTCATCCGCTGACCAATGTGGACCTGGAGCGTGTGTGAGCTGACATCCCTGCGGACAGAAGGATGCCAGTGCTGGTGAATTTGTCTTCTCACTGCAC
T
TTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCATTGGCGTGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAA
Celera SNP ID:            hCV27009692
SNP Position Genomic:     305867
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2775):
AGGTTACACCATGTGAGAGTCAATCACGTGGGGATGTGAGCTCCAGGACACAGGGGAGAGGACCACTGGGGATCCGGGAGCCTGGCTACCCCCCAGTACC
C
CACCAACACACACACACACACACACACACACACACACACACACTGCCCCTCACAGGTGACCATCTGCTCCACACTTTGAGCAGCGCAGCCACTGTTTTCT
Celera SNP ID:            hCV27009693
SNP Position Genomic:     308786
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,10)   total(C,10|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2776):
GGTTACACCATGTGAGAGTCAATCACGTGGGGATGTGAGCTCCAGGACACAGGGGAGAGGACCACTGGGGATCCGGGAGCCTGGCTACCCCCCAGTACCC
C
ACCAACACACACACACACACACACACACACACACACACACACTGCCCCTCACAGGTGACCATCTGCTCCACACTTTGAGCAGCGCAGCCACTGTTTTCTT
Celera SNP ID:            hCV27009694
SNP Position Genomic:     308787
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,10)   total(C,10|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2777):
GTTACACCATGTGAGAGTCAATCACGTGGGGATGTGAGCTCCAGGACACAGGGGAGAGGACCACTGGGGATCCGGGAGCCTGGCTACCCCCCAGTACCCC
A
CCAACACACACACACACACACACACACACACACACACACACTGCCCCTCACAGGTGACCATCTGCTCCACACTTTGAGCAGCGCAGCCACTGTTTTCTTG
Celera SNP ID:            hCV27009695
SNP Position Genomic:     308788
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,13)   total(A,13|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2778):
CACCATGTGAGAGTCAATCACGTGGGGATGTGAGCTCCAGGACACAGGGGAGAGGACCACTGGGGATCCGGGAGCCTGGCTACCCCCCAGTACCCCACCA
A
CACACACACACACACACACACACACACACACACACACTGCCCCTCACAGGTGACCATCTGCTCCACACTTTGAGCAGCGCAGCCACTGTTTTCTTGCCAG
Celera SNP ID:            hCV27009696
SNP Position Genomic:     308792
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,9)   total(A,9|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2779):
CCATGTGAGAGTCAATCACGTGGGGATGTGAGCTCCAGGACACAGGGGAGAGGACCACTGGGGATCCGGGAGCCTGGCTACCCCCCAGTACCCCACCAAC
A
CACACACACACACACACACACACACACACACACACTGCCCCTCACAGGTGACCATCTGCTCCACACTTTGAGCAGCGCAGCCACTGTTTTCTTGCCAGCC
Celera SNP ID:            hCV27009697
SNP Position Genomic:     308794
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,12)   total(A,12|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2780):
TGTGAGAGTCAATCACGTGGGGATGTGAGCTCCAGGACACAGGGGAGAGGACCACTGGGGATCCGGGAGCCTGGCTACCCCCCAGTACCCCACCAACACA
C
ACACACACACACACACACACACACACACACACTGCCCCTCACAGGTGACCATCTGCTCCACACTTTGAGCAGCGCAGCCACTGTTTTCTTGCCAGCCATT
Celera SNP ID:            hCV27009698
SNP Position Genomic:     308797
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,15)   total(C,15|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2781):
TCTTGTCCCTGTTCCAGGAGAAGGGCTGGGTATGTGTCCCCCAAAGGGGAGAGCATTCGAGAAGGATGGCGCCAGCCTCCCCAGAACTGACCTGTGGTTA
A
AAAAAAAAAAAAAAATTGTGCTTTTTAAAAGATGAGTTTTATCAGCTCACACATCCTTCTAGAGTCTAATGGAGATTTTTTGTGTGTGTGGAAATAGTAA
Celera SNP ID:            hCV27009699
SNP Position Genomic:     310896
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,15)   total(A,15|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2782):
TTGGGATGGTCTATGAAGGAGTTGCCAAGGGTGTGGTGAAAGATGAACCTGAAACCAGAGTGGCCATTAAAACAGTGAACGAGGCCGCAAGCATGCGTGA
R
AGGATTGAGTTTCTCAACGAAGCTTCTGTGATGAAGGAGTTCAATTGTCACCATGTGGTAAGAGAAAGTTCCTGAAAAGCCAAAATGCAGCACAGGGAGA
Celera SNP ID:            hCV137540
SNP Position Genomic:     291482
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,29)   caucasian(A,19|G,21)   total(A,28|G,50)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;JBIC-allele(A,415|G,1060)   total(G,1060|A,415)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:2783):
AGGCACTCTGTCAATAAATGTATGTTACAGTTCAAGGTTAAGCTGCCTGGATTCTTGCCCTTGCATCTGGGAAGTTGCTGGGTGATTTCCCACCCAGCTC
Y
GTGCGCAAGATGTGCACTCATTCATAAACCCCCTCCCCACACACAGTCCCCTTCCCCGGCATTGTTGGCGGTCCTTGTCTTTGCCACTGGGAATCTGGTT
Celera SNP ID:            hCV137541
SNP Position Genomic:     292529
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:2784):
AAGTCCCTGGGCAAGTAGCCAGCGTAACTGATTGACCTAAAACAAAGGATGGAGCCCTTGGGGCTCTGCATAGTGAAATGTATGATTTCTTAGTGGAAAA
Y
GAGAAAGCCACTGAGGAAGCCCAGAAGGGAACTTAGCATATACAGCCAGCTTTGGGGAAGGGGGAAGCAGTGCCAAGCAAGACAGGTGCTTTTCAGAGAC
Celera SNP ID:            hCV15970172
SNP Position Genomic:     267668
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,53|C,1446)   total(C,1446|T,53) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2785):
ATCCTCCTTGGAAAAGTCACTGGGTGCCAAAGGTGGGTGATGAGGAGAGATGAACTTCTGGGTGTGCCTAGCAAAGCTGTTTCTGTTGATAGGCGATTAA
Y
AAAACAGCCAAACTTGACCTAACAGACTGCCATTTTGAGAGGAATTTGTTTTGCAGGATTAATTGGCTTCGAGGTGTACTGGTGGCTGTGCAGTGATGAC
Celera SNP ID:            hCV29314590
SNP Position Genomic:     76029
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2786):
TTAGAGAGAAATGGTAATTGGGATGATGCTCTGACCCCTTCAGCAAAAAATAAAAGGTGAATGGTTTATTATGAGCTAGTTCAGATTCTGTTTTTGGAAA
Y
GAGCTTGGTTATACATAGTGCATTTGAAAAGCGTGAAGCATGGACTTTCAGATGCCAGCTCCTCAGCCTCCTGTAACTCCAGTCGCAAAATCCCTCCAGT
Celera SNP ID:            hCV29314591
SNP Position Genomic:     76500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2787):
GTGTGCTTGGTACGAAGTAGTAACATCAATTCAGTGTTCAGTACATCCACTTTGTTCCAGAACAATGTATTCAAGGTCGGTGTATTTTGGCTGTGCCACA
K
AGTTCTGGAAATTCCCAAGAGAATAAGTTTTCACCTGTTATATAATCCAGCACAAGTGACTGTGTAGCAGCAACCTCATGTTTCATGATGACTTTAAAAT
Celera SNP ID:            hCV11940922
SNP Position Genomic:     135654
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,7)      total(G,7|T,1) ;(G,-|T,-)   African American (pooled) - WICGR(T,4|G,96)   Asian (pooled) - WICGR(T,11|G,73)   Caucasian (pooled) - WICGR(T,2|G,94)   total(G,263|T,17)
SNP Type:                 INTRON


Context             (SEQ ID NO:2788):
TGTGAAGCGAGGACTTGGGGTCCCAAGTCTAGGTTTTAGGTTCCCTGCTGTAACCCGTGGCCACCGAGAGAGAGTTTTATGATAAAATGTCAGCAAAGTA
Y
CTGACAACGTCTCACGCTAGAATGAGTTTCGTACATGTTTAGTTCCCTCTCTTTTTATTCCACGCTCCCCCACCCCAACTTTAAATCAGAAACGTGAGGG
Celera SNP ID:            hCV29314592
SNP Position Genomic:     79566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2789):
CCCGTGGCCACCGAGAGAGAGTTTTATGATAAAATGTCAGCAAAGTACCTGACAACGTCTCACGCTAGAATGAGTTTCGTACATGTTTAGTTCCCTCTCT
Y
TTTATTCCACGCTCCCCCACCCCAACTTTAAATCAGAAACGTGAGGGTGCTGATTGAAGCTTTTTATAACTTTTCTTATTGAGAATTGTTCTCTGGAGTT
Celera SNP ID:            hCV29314593
SNP Position Genomic:     79619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2790):
AGAGAGAGTTTTATGATAAAATGTCAGCAAAGTACCTGACAACGTCTCACGCTAGAATGAGTTTCGTACATGTTTAGTTCCCTCTCTTTTTATTCCACGC
Y
CCCCCACCCCAACTTTAAATCAGAAACGTGAGGGTGCTGATTGAAGCTTTTTATAACTTTTCTTATTGAGAATTGTTCTCTGGAGTTGTCTCCAAGAACA
Celera SNP ID:            hCV29314594
SNP Position Genomic:     79632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2791):
CTCCTTCTCTCCTTGTCTCTTCTGTCCTCCAGTCAAAGAAAAACTCTGCATATGATCTTTGGCCTGGAGAAATATTAAATCTATGTTAAGTATGCAGACA
Y
GAATGGGCAAATGAAGGATTTGTGGCAAAGAAGATCTGCCGAAACAAATAAGTCATGTAAATGGGCAGAGGGAAATATTAAATTGATTGCATCTTTCAGC
Celera SNP ID:            hCV29314595
SNP Position Genomic:     79850
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2792):
TGCCTGGAAGATGCGGAGCGGAGTTTGCGTGGCCCGGAGCAGCTCCAGTGTCTGAGGCTTCTCTGTGTCACAGGCTCCAAGCAGGAAGCGCAGGCAAAAT
R
GCAAAATACAGCATGTGGCATTCAGTTCAAAAATGCCCTTTTTTAGAAGTCGGTATTCTAAATGACATCCAGTCTTGCTTAGTTTTTTAAGAGAAAGGAA
Celera SNP ID:            hCV27833235
SNP Position Genomic:     209932
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,3|G,35)   total(A,3|G,69)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2793):
CCTTGTCTCTTCTGTCCTCCAGTCAAAGAAAAACTCTGCATATGATCTTTGGCCTGGAGAAATATTAAATCTATGTTAAGTATGCAGACATGAATGGGCA
R
ATGAAGGATTTGTGGCAAAGAAGATCTGCCGAAACAAATAAGTCATGTAAATGGGCAGAGGGAAATATTAAATTGATTGCATCTTTCAGCTCCTGGTACT
Celera SNP ID:            hCV29314596
SNP Position Genomic:     79860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:2794):
ATTAAATCTATGTTAAGTATGCAGACATGAATGGGCAAATGAAGGATTTGTGGCAAAGAAGATCTGCCGAAACAAATAAGTCATGTAAATGGGCAGAGGG
M
AATATTAAATTGATTGCATCTTTCAGCTCCTGGTACTTAATGCAAAGATAAAGTAGTGGGAAAAGGTTGTCATTTGAAATAATGGAAAGATGAGGGAGTT
Celera SNP ID:            hCV29314597
SNP Position Genomic:     79923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2795):
GATACTGGATACTAGCTCATTAAACTCTTGTGAGAAGCCTTCATTAGCATTATGGGAAGACTTGCTGTATCTATATTATGAAGGCATTTAGATTTTTTTT
W
AAATGCATGTTCTTAACATTTTTTGTTTATTAAGTGGGGCAGTAGATTAGGACTGAATGGATTTGATTCTCTCATCCTACATAGTGTGCCCAGAAGCCAG
Celera SNP ID:            hCV29314598
SNP Position Genomic:     80288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:2796):
CAGTAGTGGTGGTTGGTGCTGCGTGTTGACTGGAGTTGCTTGCATTGGGAGAGCCTGACTTGGCCAAGTGTGTAGCTTGAGACCAGTTGGATTCCTCTCA
S
AGAGACAGTCTTCACCCCCAAGCTCTGGGTGTTGGGCGTGCAGCATTCGTATTCAGCAAACATTTGCTGATTTCCGCCTCTGCAACTACTGAGCTCAGCT
Celera SNP ID:            hCV29314599
SNP Position Genomic:     88415
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2797):
AAGGCAAAACTATAGAGACAGAAAGCAGACCAGGGATGGCTGCAAGGAAGAGGTGGAGATTGACCACCAATGGGAATGAGGGAACTCTTGGATGATGGAA
R
TGTTCTGGAACTGAGTAGTGGTGATGGTTGGACAGTTGTGTAAATTTACGGAAGCTCATGGAATGATGGGTGAATTTTTTTTTTTTTTTTTTTTGAGATG
Celera SNP ID:            hCV15979542
SNP Position Genomic:     260464
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


Gene Number:                 4
Celera Gene:                 hCG1644130 - 30000035058841
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W6W6(6039880..6067732)
Chromosome:                  Chr6
OMIM number:                 142858
OMIM Information:            MAJOR HISTOCOMPATIBILITY COMPLEX, CLASS II, DP BETA-1;HLA-DPB1


Genomic Sequence (SEQ ID NO:1665):
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCGCTCACCCTGCAGGCTTTTCTCACCTTTCTTGCTCCTCCTGTGCATGAAGATGC
CCACTCCACAGATGATGAGCCCCAGCACGAAGCCCCCAGCTCCCGTCAATGTCTTACTCCGGGCAGAATCAGACTGTGCCTCTGGGAAGGACAGACCCAG
GTTTAGTGTCACCTCCACCAGCTGCATCCCTACTCATGTCCTGTCTGAGATTCTGGAGCCTGATGCAGMATATCGGGATGAGGACAGTGCAGCGGAAAAA
GCTTGCTAAGAGGAAATTCAGAAAGAGCCACCCTCATATCTGGAACAGGGGTGTGACCTCAACAAGGTGGCAAATGCTGATTCTGGAAGTTGCCTCTCAA
AATGCCTGAGAAGAGGCTAAAATGCTGAAGGAAGAGAACTGTTCCTATGTGTGAGGTCAGTTCCTAAGTGTGAGGGTTTCGAGACCAGTCAGTGTCCCTA
GATTCTCTGACAAGGGGGAGAACTATGAATCTTCAGGAACCCCYAAGCCAAGGTCAGGAAGTCTCCATTKCCCTGGCTTCAAACTATGCTCAGGAGCTGG
TATAGAAGAAAGATGGGGTTTGGACATGGCCCCAGGGTATAGATGCAGAAGATAAGATGAGTGGACCCCAGAGCCAGAGAGTCCCCTGCTCTTCAGAGGT
GGGGTCTAGABGGTCATCAGAGACTCACTCCACTCCACGGTGACAGGACTYTCCAMGCTGGTGTGCTCCACTTGGCAGYTGTAGACYTCTCCCTGCTGGG
GGGTCATTTCCAGCATCWCCAGGATCTGGAAGGTCCAGTCTCCATTACGGATCAGGTTGGTGGACACGACCCCAGCTGTTTCCTCCTGTCCATTCAGGAA
SCATCGGACTTGAATGCTGYCTGGGTAGAAATCNGTCACGTGGYAGACAAGCAGGTTGTGGTGCTGCAYGGGCYCCTTCTTGGAGGGGGAAACRTTCACC
YTAGGCTGGACTAGGAGCGTGGAAGAAAAATAATGAAATAGAATTTGAGATTGTCCTTCTTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCC
TTCCTTCCTTTTTTTTGAGACATAATCTCGCTCTTTCTTTCTTTCATTCTTTCTTTTTGTTGAGATGGAGTGTCACTCTGTTGCCAAGTCTGGAATGCAG
TGGCGCAATATTGGCTCACTGCAACCTCCACCTCCGGGCTTCAACCAATTCTCCTTCCTCAGCCTCCCGAATAGCTGGGATTATAGGTGCCTGCCACTTC
ACCTGGCTAATTTTTGTATTATTAGTAGAGACAAGGTTTCTCCATGTTGGTCAGSCTGGTTCTCTAGGAGCACTTGACCAACGCCTGACCTCAAGTGATC
CACCCGCTCGGCCTCTCAAAGGGCTGGGATTACGGGCCTGAGCCACTGCATCTGCCCAGATTATTATTTCTTAGGCATGTTCACTATGTAATTGATTCCT
AGATGTTGAAAATAGGAATAATGTGATTAGGCTAGTGGGTAAGGGTAGCATTGAAAAGATAGAAATAGACCTTCAAGTAGAGCATGCATGATCTTGAATA
AAATAATAGTTAGTAAGTATATAGCGGAATGGCAGGGAGACAGAGTTTGCACTCTGTAGCACATTTAGGAGAAATTTTAACCAAAAGTAATTTGGGCAAA
GAATATTTGATCAACTGTGAAATTACCTACCTTTTCAAAGTTCTATCTTGATACAAAGGAAGCAAAATTTACTCAAATAATATCTTGAAATTAAGATATA
CAGACAATGGCATTATGGTGGCCTGTGAATCTAATAACTTCATGAAAATACAAAGAAAATGAAGAGAGCTTTACATGTCTTATTCTGTAAAAAACCTATG
TATTTTTTTACCTCACCTACAAAAACTCAAAATCTTCATATTTACAGAATATCCTGAGCTCCTACATGCTTGAGTAGTAGAAATCCCGTCCTTTTTCAAG
TTCCTCCTCTGTGCTGCGTCTTCAGGTCCCATGAAGGTCTCACAGATGACCAGGTGTTGCCTCCCTCTGCATCTTTGCATTTGTGCCCCAGCTTGTCCTG
TTGTTCTCAGGTGAATTTCCACACTGCCACTGGCAACTTTTCTTTTGGATCTCTGCCACCAGTACCTTTTTCCTCCTCAGAAAGCAGAAAAGGCCAGGCA
TGGTGGTCATGCCTATAATCTTAGCACTTTGGGAGGTTGAGGCATGAGGATCACTTGAGCCCAGGGTTTTGAGACCGGCCTGGGCAACATAGTGAGAACC
CATCTCTAAAAAGAAAAATAAATTAGCCAGACATGGTGGTACGTGTATCTGTAGTTCTAGCTACATGGGAGGCTGAGGCAGGAGGATCACTTGAGCCCAG
GAGGTTGAGGCTGCAGTGAGCCATGATGGTGCCACAGCACTCCAGCCTGGGAGACAAAGTGAGAACCTGTCTCAAAAACAAACACAAACACAAAACAAAA
AACAAACACAGAAAAGGGTCAAGTGCTCCTAGAGAACAGTTCATTCAGGGAGATCCACTAGAGAACAGCTCTTTCAGAGGACTACCCTAGAGAACAGCTC
ATCAAGAGGAATGTCTCAAATTAGTCTTCTAGGTCCCTAATCACTCAGTTCTTTCCTTTCTACTTCCTGGAGAACACAAATACCCTAACATGGCGCTGGG
CCAGGTAAAAGTACAGTCTTGAACTGACACACAACCCTTACTCCCTATTGTATTTTTGCCTTGTTTTCAGACTGATCCACATTGTCAGCCTCTTCCCTCA
ATGTGAGTTTATTTCAGGGGCACCTGTGTCTCACTACTTCATTACCTCGGTTAACTCAATGTCCATTACACTATTCAACTTATGTCTAAATCTCAGTTGT
GAATTACCTACAATTTCTTCCCCATAGAGCTTCTGGGAACCATGAAATCAGGGGGAATACTTGGGTATCTGTTTTAAGGTCCCAGAACATTCCAYGAGAG
GCATCTTGCTCAATATTCTTTGACAGGAGCAGGTCAGCCTGGAGCCACATCAGYGACCTCCAGGGKGCGCTGGAGTTAAGGCYTGATACCCAATGGCCTC
ATTTCTGACCCAGTTCAAATACATTTCACCAAGGCAAGGATTCCTGTTTGTTCTAGTTGCCTTCTCTAATGCCCAGAAAACATTTGCTCAATTACTTCTA
GATTTGGGTGGACATCCACCCTGGAATTGTCACTACTTCTTTCCTCCCCCTTCCACCTCTCCCTTGCCTCTGTGTTTTCCCTGTTCTAACTCATGCCTTG
ATTGCAATTTCCCTGACAAATAATAGCAGTTTCCTACCTCATCTCCCTGCCTCTGGTCCCTCCTCTAGCCAGCACCCTTAGTAGTCTTCTGAAGACACAT
CTCCAACCTTCTCTTTTTCATTTTTCAAAAATCTTCAGTGTTCTGACAATACTTATCTGGCTACATGGGAACCTCTAGGGAGCTGATTACAAGCAGAGAT
CCCCMGACCTCCCYACCCAGGGAATCTGAGTCTGGGGGCACTGAGTCTGGAGATCTGTGCATCACAGAGGATCTCCAGAAGAGTCTTCAGAGGAGTGAGG
TTGGGGACCTGCGGGCCTGGAGGAGAAACCCACACTCCTTAGGCTGGCATCAGGGCTGTCTGCAATCTGGCAGTTGATTACTGTGAAAGAAAATGCTGCC
ATGTCACTGATTGGTGCCTCTACAAAGTCTTAGTAACAGTTTTTGCCAATTGCGTTATTTTTATTTGAACACCTCTCTCAACCAATTACCTCAGCAACTT
TCCTAAGCTCATGTCACTCACCTCATCCCCACCCAGTGTGTCCACCTTCTCACTCATAGCAGGTGAACTTCCTTTCACTTTCCAGGAACAAGAAAATCAA
AGGTGTGATCTCCCCAGCTTCCTCCTCCTCCTCCCTTCATTTTTTTCCTCTTTCTAGAAAAAAGGTCCAGGGCTCAATCCCACATCCTGATACTACTCCC
TCARGTCCCWMAGGTTGGTGCACCAGGCTCCCCACCCCACAAGTTCACAGGAGGAAGCCAAAGCTCCAAGGCCTTCCTGTCCCATCCTTGAGAAATCCTC
TTACTGCACACACCTCACCTCTCTCCATCCCTTTACACCCAGACTTCCTGAAGGAAAAAGAYGAATGAACTSAGACACTGCCCTGTGMCAGCCGTGGGGA
ACCCAAGACAAGTAAAATCCATCTCAGCCCCGAGGAGGATGCGCCACACTCAGCCTCATGCACCCCCTCCCATTCCAGCTCCTGCCGCTGCGGCCAACCT
GCTCTCCCCAGGTCTCCCTGGTTTCCAAACCCACTTTCCATCTTCTGTTTTCTGACCTTCCCAAGTCACTGGCACCGCTGTCCACTGTGCTGCTGAGGTC
ACCTCCCCTCAGCTTCCAAGACTCTTCTCTGCGGGCCTCTCCTCACACTGCACTTGGGTTTTWTTGGTCTCTTTCACAGGCTTTTCTGTCTTGGCCAAAT
CACAACTGTCCAGTTCCCAGGATCCRGTCCTTTGCTCTTCCCCCTGGGTCCYCTCTCCCTGGATGGTCTCATGTATCYCAGTCTCCTCCCCGGCTGCAGA
CCCTTCTGTCTACCTGCCCATCAGACCACCCATCTGCCCCTCAAGCACCTCAAACCCAGCTACCTCCCTGTAGGTTTCTTCTCTGTGTGGCCTGCTGTGC
CATCTCCACCTCCATCTCCACACCATACCCTTGTGCGCTGTCCTGTGGCTTCCTTTTTTCACCCCACATGCAGTCAGCTGCCAGGCCTGATGAAGTCCCS
GGGGTCTCTCTGCTCYCGTCCTCCTCACTCCATGCTCAGCCCAGTCCAGGTCCCCGCGCTCGCTCCCCTGACAAGCTCCAGATGGGCTCCCCCCATGAAT
CCCCAACCCAAAGTCCCCTTTCCGCCCGGCACTAAGGTCCCTTAGGCCAACCCGGCTGCTCCTGCGCCCTGGGCACGGGCCCRCGGGGCTGCCCTGGGAC
CSCCGGCCCAAAGCCCTCACTCACCTCGGCGCTGCAGGGTCAYSGSCYCGHCCAGCTCGTAGTTGTGTCTGCAYAYCCTGTCCGGCACTGCCCGCYYCTC
CTCCAGGAKGTCCTTCTGGCTGTTCCAGTASTCCKCAKCAGGCCGCCCCAGCTCCGTCACCGCCCGGAACTCYCCCACGTCGCTGTCGAAGCGCRCGWRC
TCCTSCCGGTTGTAGATGTATCTCTCCAGGAAGCGCTGTGTCCCATTAAACGCGTAGCATTCCTGCCGTNNCTGGWAMASGTAATTCTCTGCGGGGAGGG
GGCGGACATGAGCGGAGGCGCCACTCTCATCTAATCCTCTTTCTCCCTCTCTCTCTYAATATTAASGATTCTTCCCAAATCTWCCCACYCAGGGCTRGAT
TTTAAAATAGGAGTTTTCCTAGTAYCGAGTTCTGTGGTCCTAAGCGGGTCGCAGAGCCTCTCCAGGCCTGTTTTCTCACCAYGCAGAGAGAGAATTTACT
GAAAAGAATGAGCTCAGGGGCACTGAGTGATCACTAGGGAGGGGCGAGCACTGAGGGGAAGGCAGTCCCTTCTGCTGGTGGCTGGAGGAGGCGGAGACGT
TTCACKTGGGGTCACTGGGAGAAAAAACAGGGGCGGGAGGAGCTGGGGACGTGGAGGGCGGAGCTGCTCCCCCTACTTAACTCCCTGACTGACATTTCCA
TCCTGATGTCAGTCCTGGTTCAAATGCCACCTCCTCCAGGAAGCCCTCCCTTCCTTCTYTCTCTTTTCCATAGCTAAGCGCTCTCTCTTCTCGACCAGTT
TCTTGAGAATTCCTCAACTTGCTCCTGTTGTTTTGCATKTAGGARATGTAGAAATATATTTCTTAAAACTTTCTTCAACTTTGGTATAAGAAAGACTCTG
TAGCCTGAAAGTTAATTTTCAAACATGGCTGCAGAAAGACTTGGTGTCAAAAGATGTGGRAAGTATTTTACACAATGAAAATCACCACAACAACCAGGGA
CCTGTGGGGGTAGAGTCCTTTGGGTTTAGAGGCATTSATGTAATTTTTTTTGGCAGTTTTTATGGTTTTATTTACACACAAAACGTGGACATGAACTTTC
TACTCATTTTCTTAGCTGTGCACCSTGGTACTGGGGTTGGTGACTCTGATGGCCGGCTGGGTGACTCTTTCCATGATGACTTTGCAGTTCTGGAGGAAAT
TTTGTGAGCGATCTCAGCACAGTAAGATTTGTTGCACATCAGCAGCACTTTCAGCTCCTTGAGGCTGTGGRCCAGAAACTTCTGGAAGCCACTGGGCAGC
ATGTKTTTTTTGTTGTTGTTGTTGCTCCCATAAGCAATGTTGGGCATCAAGATCTGGCCCTTGGACCTTCTACGAACCCTACTGTTAAGACCTCTGGGTT
TCCGCCAGTTATGCTTAATTTTGACATTTCAGTCTGATTGGTGCCTCATGAACTTGTTGGTCCTCTTTTTGAGGATCTTATCCTTCATGAGGAGTCTGAG
GGAGGCCATGATGTGGAGGAAGAGATGGCTGCCAGCTGCATAGRCAGCACCGAGGAAGACAGCATTGATGTAATTTTTACATGAACAATTTTGGCAGCCT
TTCCCACATGCTGTTCTTCCTAGGGAGTGCCATGAGCAGTGTCTGGCAGGTGTGTGTCTACACAGAATTATCAGTGACACGGCACATGTTTGTTTCTGTT
TGAGTRTCTTCAGGCCTGCTCTGTTCTTGGGCACACTGGGGAAATTAAGGTGCTGTGATTGTTCTGCTCATCTGTTTCATGCTCCACAAATTAACTTCTC
CAGTTTATTAACCTCACCCCTWGCAGAAGTTGCACAGCTGGTGGCAGAGGATAGTGGAGATGGGGTAGGGCTGGGCTCAAGGGCACCATGGAGTCCACCT
TTAGTCTCCAGTGTCATTGCTAAGGCAAGATCCCAGGTCTTGACTCAGATATCCTGACCTGCCTCTTCTCCTGGTGCSTTGGGCSCCAGACCCTRAAATT
CCAGGCCCAGRGCCCCCCAGCTCCTTGAGTCCAGATTCCTCCTCCTCTGCCATCCATCCGCCCCTGCCTGTTCARTTGCCCCACTCTGAGTGTGGATTCT
CCCATTTTCATTTGTTAGTCTTTGTTTCTCCTCCTCAATCACCAGTAAGAGAACGTTTTTCATTCAAGAATAAGAATTTTGAATTTTTTCTTTGCAACAT
TTAATTTTTTTAATTTACCCAGTCTTAGGTAATTTTTTAAGTACATTTAACTTTTGAAATGGAATTTTACCTGCCAAGTAGACATAAGCAATGAGGGGTT
TTATGGTGTAATTTGAAACCTTCATTTTTTTTTGTATATAAGAAACTTTATCCTGTTTGTGGAACCCTTAGCAATTGAGTTGCCCAGAGCACGGTTTGAA
ACCACTGATCTGAATGAATTCGTCTCTTATTCAGAATAGGATATATTAAAAACCTCTAGCTCCCTATGGGTTGTCTCAGCCAAGCTTTTCTCCCCCAGCC
TCTTTAAGCTATAGCCTGGCTCCTCAGCCCTTTGGTCTTGTGCCCTGTTTGAGGTTGGGGATGTGTGTGGAGTTGGGGGAGCATGCAGGGAATTGTGGAA
TCAGCCCTGCCCACTTTACCCACTCCCCTATGGCTCCAGCTCTCCCTCCAGCARRTTTTGATTGAACATTCATTCTACGCAGGGAGCTCCAGTAATCTAC
CCTCAGTCCCTGTCACATGGCTCCACTGCCTCATCTCATTCCCCCTACAAACCTCAACCCAGCCTTTGCCYGTCCTCCCTTTCACTGYCCAGCATCACAT
GCYCCCTTCTGCTCTCTGCTCCCCCACCTCTGGGTTTCCTTGGTGRCTCCCAACACTGTCCCTCATCCCACATGACAGCTCTGCCTATGGGATGGGGRYG
CYGCATCCGTCACYTCCTCCTGACACTGTTCAGTGTCACCAGTGCTGCTCCAGCCTCCTCTCTCCCCAGCCTCACCCCTCTGCAGTTCCCAGGGCTGAGC
CGTCCTGCTGGTTAGTTCTCAGCACCCTTCTGTGACTAYAAGTTCAAGTTCTCCTCCCCTTCCTGGACAATGAACCCRAGGTAATAGATAAGAGGTTTTA
GGGCTTGAGGGGCTGTATTCAGGAGATTCCAACCTTGCTACCCTGAAAGATGAGGAGGTGACATGATGTCAGTACCTTYTAGGTGTGTCCTAGGAGGGGT
GTGGAGAGGTCTAGGAGGAAGGGTGTAAGCAGGAAARGTGGAAGTCAGTGGAAAACTAAGGTACCTACTTTGCAGTCCTTCCTCTCAGAGTGTTGGTGTA
AATTTGGACTAGAAATGTCCTGAGAGTACAATGGTTGAACTAGTTTACAGTCCCACCAACAGAGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCA
CCTGTTGTTTCCTGACTTTTTAATGATCGCCATTTTAACTGGTGTGAGATGGTATCTCAAGACAGTGTGGCAATTCCTCAARGATCTAGAACTAGAAATA
CCATTTGACCCAGCCATCCCATTACTGGRTATATACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACATATGTTTATWGCGGCACTAT
TCACAATAGCAAAGACTTGGAACCAACCCAACTGTCCATCAGTGATAGACTGGATTAAGAAAATGCACACATATACACCATGGAATACTGTGCAGYCATA
AAAAAGGATGAGTTCATGTCCTTTGTAGGGACATGGAGGAAGCTGGAAAYCATCATTCACAGCAAACTATTGCAAGGACAAAAAACCAAAGACCACATGT
TCTCACTCATAGGTGGGAACTGAACAATGAGAACACATGGACACAGGAAGGGGAACATCATACACCGGGGCCTGTTGTGGGGTGGGGGGAGGGGGGAGGG
ATAGCATTAGGAAATATACCTAATGTAAATGACGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACATATGTAACAAACCTGCACGTTGTGCA
CATGTACCCTAGAACTTAAAGTATATATATATATAAAAAGAAATATCCTGAGAGTATCCTGAGAGAAAAACAATGGATCATAGATGCCATAATATTACAC
CAGCCACAGGGAGGCAGCAGGAAGAAGAGATTTTTCACTTGGTTACTGCTTCCTTGGCTGTCTGATAACCTACACTCAATCCCTGTCATGCACCCACACA
ACCTCATCTCATTCTTCCTACAAGTCGCAACCCACTCTAGTACCCTAACCAAGTTCTGGGGAGGCTGGGAGAAGTACCTTTAATGAGAATGCCTTCAGGG
GCTAAAACCTATCCCCCTCCCTCCCTTCTCTCCTTAATTGTCCAAGGGRTGTGGGCTCCTGCTCCACCCTGGGGAATAAGAGGCATTCTTCGTGAGCACT
GAATCCTCAGTGATCCTCAGAGCCTGGACACTCCAGCTTAGGGCTCTCTGCCTGAGTCCCCTCCAGGCTGGATGCAGAYRTGAACACGCCCAGGAGCCTG
CACTTGCCAACTTCTCTCTSTGCAAACCTTGTCTGTCCAAGGTTATCCWGGACCTCTTGGTCCCATTTTCCCCAAAGACAAGCACTGACCACTGGGCACC
TCTCTCTGTTTACTGTACCCATGTCCTTGGAGAGAGAATAGGCCAGTAGGGTAGCAAGCTATCCTATAGGGGATGAACCTCTTTCTCTAGCTGGGAAGAG
AGGACACTGCCTTAGGGCAGGAGCCCCCGCAGCCTGTCTCAGAATTTGATCCCTTAAAGATAACGTCCCCTAGGAATTGTTCCCTGAGCYAGACCCTCCA
AGAATGGCAGYTCGGCTCTTACCTGGAGTGGCCCTGCCCTGGACCACAGATGTGAGCAGCACCATCAGTAACGCCGTCAGAGCCACTGTCCGGGGGGCCG
CAGAAACCTGCAGAACCATCATGGAGCTGGAAAAGGATGGCAAAATGRAAAGAGCTGCAGTCAGGAAAAGAAGGACTCGCTAAAGGGAGCTCCTGTTTGA
AATATTAGAGACCATGAACCCAAGTAGTCTTCTGTGACCCTGGGATTGGACAGAGTCTGAGAAAAGAACCAATGGACACTGAGCTTTGTATGAGTCATTG
CTCACTAGGCAGAAAGTTAGTATGAAAGGTCTGAAAATATAAAGCCTGTGATGCACTTAAGATGACGGAGGAAAGACAGTGATACTCATTTTAACCAGTC
AGATAAGTCATGATRTTTGGSGAGATTATGCGTTTTCTTTGCTCTGAAGGTGATCTCAAATATTCTGCTGGCCCATCTACAGGGATTATCATTTCCCCAA
TTCTGCCACACCTCACACACCCACAGGACATGGTCTGTTGTGGAAAAAGTGCTATCTTAGTGTGTAAAAGGTCATTCAGTGGCATGACTTAGAGGGATTA
GAGTACCCATCTCAGAACTCAAATGAGGTCTGAGTCTGTCTGTCTTGCCTTTGTCCAAGGGTGTGTTTAAGATTAGCACCCATTCATATTTACTTTCTCC
CAGAGGTCTGTGAGTCCTGCGATGTGCAGGAGTTACCAGGTTCTTCCACAGGACTGTCATCAGGGTCAGGAGGGCTCAGTCTAGGGACCTTACACTGGGA
GCGTGGACACACCACCTACCCTACCATGTAAATATGCAGCTTTAACGACACTGCCTCTCTTGGACTTCGATTCCTTGTCTTCAATATGGGGATGATATAA
CCTGCCTTATAGCAAAGCTCTTAAGATCAAATGAGATCAATAGGTCTGAAATTGCTTTGGAAAAATAAAGTCCATAGAGAATATAAATTGACTGGTAAAT
AAGGAAGAAAGTGAAAAAAAATCATCAAAGACCCCACCTCCTTCAAAGCATCTGATTCTAYTTTGTTTAGAGTGAATATTTTTACAAACTTTCAAAGAAC
ATTACTTCTTACTTTAGACACTTATAAATGTGATCCTGTTGGACCACCAATTCTAATTTCAAAAAAAATCAAATTGGCATCATTTCTTTAAATCAATATT
AAAATGTAAATAGAAGGCTAGCATGTAAAATGCAAGAGAAGAAAATAATTATGTAGTAGAAGGTGTCTAGTAGGATTAAGGGGCCAGGAGAGGATTGTGG
AGAAAAACTCAGTTTTTTTAGTAACTGCCTGGGTGGGACTTTTCTCCTTGTCATTTACCTGCCATAGATAATTAGACAAATACTTCCTCGATGTCTCAGG
TAATTTATTTTTACAGTAGACATTAATAATACCTCCCTCAGGTTTAATATGAGGTTTAAATGAGGTAATGCATGCAAAGCACTAATAACAGAATCTCTCA
TGTCCTAATCTGTTAGTAATTATTATTTATGCAAGGTAAGGCTACCACAAATAAGATAAAATATTAACGTAATATATGTACTTCATCATTACATTAAATA
GTAAATGTTTTGTGACCTTCTCTATGAGTATCAAATAAATAGCTCAAAAYTGAAATATTTAAAATGAGACTAGAAAAGTATTTCTTAAATATGGTAAAGA
GAATATAAAATAAAAAATTAACATTACCTGTAACAGAAAAACATTAGAGAAACCCTTCTTAAAAACAAGATCAAAATATGGGCGCACATTGTTACCACAG
GTAATGCTGTCCTGGGTATTCTTATATGAAAATGAAATAACAAGACTAGTAATTTAAAGATAAAAATGTTATTACACTGTTTAAATACCAGGAAAAATCA
AATACTAAGAAATCTGAAAAATAAAAATTATCTAGAAATTTCACTAACAAAGGTAACCAGGAATAGATAAACAATTAAAGATCAACTTCATTCAAGTTAA
TTAAAACCTCTAAATAGAAATTATAACACTTCTGCAGAAATGATTAAATAAAAAGGAGGTATCTCAGGGAGGTGGACCTGAAAGAAAGATTAATTATATA
TTTTATTAGATAGCACATTCATTCTTAATTATCAGCAGAATATTTTTGTAAAATATTGACAACATAACATAAAACATGATTTAAAATATAGTGACCAAAA
AACATCRAAGATCATCTGACTGTCTGGGATGGGGGTGGGGCTCGGGAGAAGGAACATAATGGAAAACATTTGCCGTCAGAAGAAGGTGTRACTTATCTTT
TTACATCTCTTTCTCTAACTCTGAAAATGAACTGTGAACTGGAGCTCTCTTRACCACGCTGGTACCTAAAATTCTCCCATCTCTTCCCCAGCACCTTCCA
GCGTCCTCTTTACCCAGCAACAGAGAATGTCAGCTCTATGATTTCTCTGATAGGTGAATCCCAGCCATGCTGATTCCTCTCCACCCATTTSCAGTGCTAG
AGGCCCACAGTTTCAGTCTCATCTGCCTCCACTCGGCCTCAGTTCCTYATCRCTGYTCCTGTGCTCACAGTCATCAATTATAGACCCYACARCATGCGCC
CWGAAGACAGAATGTTCCATATCAGAGCTGTGATCTTGAGAGCCCTCTCCTTGGCTTTCCTGCTGAGTCTCCGAGGAGCTGGGGCCATCAAGGGTGAGTG
STCAGGAGGACGCARGAGCGTYGGGGTGAGTGATGGGGTGGTTCACATCAATTGYTGCTTCAGGRATCASAGATTTTAGGGGCTCATTGATCTATCTGGT
CCTCATAGTCTATGTTCCCTCTGGCCCTCATAATAATAACAGCAATAAYAGCCAGAATTTATGAGACKCCTGCATAKTTTCTTTCCCCATTTACATCTCA
CAGGAAYCTTCAATGAAGATAATATTCCATTCATTTAGAAATTATTCCTTTTATTTAGAAATTATTTTGAAAAAACTGAAGCTCAAAAAGATGAATAAGT
TTTCCAAGGTTACACAGCAGATCAACGAGCCAAGTTTGAAGTCCAGACCCAGCTCTGAGGGTCRTACACTGCCTTCCCCAGATTCCTGCACACAGTGACC
TACTAYCAGGGCCCTCCTATCTCTCTGGGATCCCCAGCCTCTATCTTTTGTGGCTGCTTTACAGGAACTCCGAGCTATGGACTCTGCATTAGGAGASGAA
GTGCAAAGAGTGTTTCTGTATCCTCYCTCTCTTCTAGGACCCTAGGGCTCTTCCTGGGTCTTTGTGGGTGGTCACAAGCTTTCCTCYCTCAAGACAGCAG
GGTTGCATGGTCTTGATAGCCTTGTGATTCGGGTTCTGAGAGATYCAGGACTGCAAGGGAGGCCTAGACTTTTGATAGCTGCAAGGACTCAGCCAGAGAT
GGACCGTAGTGAATGCTCCTTTTTCCTGTAGCTGAAATCAGGGAGAATGACATCAAGCCTGTGCATGATGCTGTCATTCCAAAATCTAGTGATGGGGAAG
GTTAGAATCCATAACGTACAAGATGCACACTGGCTTCAGACAGTTTTATTTAAGATGTGTAGAATAAAGAGGAGGTCAGGCTGGGTAGAACCAGAAGTAT
CTATTGCCCTGTTCGCGGTCACCTGAGTTATTTYTAATGTTATGTTATAATAAACACCACAATAGGCTTCTCTTCATAGATGCAAATACTTTTTAGTATT
CTTGGTAGAAATTCCTAATGAGCTCAGCTGTCTCTTCAGGGCTTCCCTGCCCAGTCTCTTAACATTTAAACATGTMATTTACCTTAAAAACATAAGTGCA
AAYCAACTGATAAAAAACAACCTTGCCTTCAGTCTGCATCCTRTCCCAGAGACACTTTCTTTGTGTCCTCACACGTGGAGCTAAGCTTCTGACTTGTCTC
TGGTACATCCCTGAGGATCCTCTCATCTTGGCCATCAGGAACCTCTACAGAAGGTCAAATTCAGTGGGTTCTTCTCAGTGCCTCTGACTTGAGTTACTAA
TAACATTTGCACTATAATCCACTTCTTTCTGATGAACTACCCTGTCCTTATTTTTCTCCTGTTTACCTGGATCCTCCTTATCATCTTTTAAACCACCTCT
TAACTATCATGTTCTCTCATTATACCCTGAGATCTCGGCAATTCTGATTTTTGGCACTCTTCCTGGAAAATCTTATTTAACCTGCACCTGCCACTAATGA
CTCTCAGTTCTATGGCCTAAATTCCTCTCCTGAGACCACCCATAATCCACAAATATCTATGTATTATTTCTCCTTAGATGACTTTCAGGTCTTCTAAGTG
CAATAGCCCCACAGTAAACTCAGTATCTTCTCCCGGTCAGGCTGTCTTCCCTGAGAGAAGTGGCTTTTGCCCTGTTTTCTGAATGCCTACATTGAAGCCA
TCTGTTCCCCAGGAAGCCTTCCCTGATGTGCTGTTTGGTCGCATCTTGTGTATACCTACGTATCTGCACTTATCCTTCTGAACCTGCTGTTGTCCTGTCA
CTTGTGTTTCCTTCTGTGACTTATACGYGTCTGCAGAACAGGACGTATGTATTATTTTTATTTGGGTATTTAGCATCTAACAGTGTTTGACATATAGTAG
TCTTTTAATACATATTTTTGTCTGAATGGAAATGATATTTTGAAGAAAAATAATCTGTTCCATAGCTGGCTGATCTTTGGACTGCAGAACTTGTGAAAGT
GTTTTTTAAAAAGCATTTTAAAAAGTACAAGGGACATTCATGTATTAAGAAGATGAGTTTCCAATAACTGCTAGAGGACTTTGTGTCTTTTTATTTTACC
CTCTTTTTCCTGATGAGTCCTTTGAGTCCTTTAAACTGAGGAGCAAGCTAAGTTTCCTAGTGAAATACCTATAGGATTTGTTTTGTTTAGTTTCAAATAC
CACTCTTTGCTTGGCCACTTACTGTGTCAGGGAGTCATTCTCAGTGAAAAATAAGACACAGGTCATACCCTCTAGACACTTACAATTACAGTGGCAAGGA
GTCATTCTCCTGTCACTGTAAGTGGCCAAGCACAGACTGGGTCCCCACATGTCAGGGCTGAAAACTCACAGGGAAATCTGTGAGTTGGGAGGTGAGAGCA
GAAGAGTCCCGTAGTTCCTTCTCACTCTGATGCATTTATCATTCTAAACCCAGACTTTCACATACACATTCATCRTTTTCTTTCATGATAATAGTTGCTT
TTATCCTCTTATCTTTGCTAATTCTTACAAACTAATAAAGACTAAGAAACAAAATAAATTAAATCCTACAGGTGTTCCAAACTCAGCAATAATTTCTAGT
TGGCCTCTAAAACAAAAATCAAAATATAAATGTAAGAAAAGTTYAGAATGCTTAGTACCTGTGTGATGAAATAATCTGTACACTAAACCCCCAAGTCATG
AGTTTACCTATACAACAAACCTGCACATGTACTCCTGAACATAAAATAAATGTTGAAATATTTTTAAAAAGGAAACAAAAGTTTGGAACAAATGCCAAAA
TAACTGTACTGTACTTTTGAATTTATATGCCCCAAATGAAAAATATTATCAACAAAGCTATACATTCTACAKTTTCATGTTCATAAACTAAGACAGAAAC
TTTAAAACTGTCAAGAGCCCTAAAATTTGAAGGATATTTTCTTCTTCCTCTCAATTTTGTATTTTTTTCTACCTTTTCTATAATAAGAAAAAGAAAATGT
CCATTCCCCCACCCCCATGACTCTAAAAACAATTTTACATCTGTGTCATAGAAAAATTAAGATCTTAATGGGAGAGAAAACCTCTCTACTAGTTCCGCCA
GTAGCCGTATGACCTTAGCAAGTTATTAATATGTAACTTCCCTGCATTTCCTTACCTGTAAAATGTATGATATGTATTTGCTTCATAGGGTTATTGTGAC
AATTCAGCGAGTGAAATATGTAAAGTATTTAGAAGGATGCCTGGCACAAGTAAGTGCTCAACAAATGTTAGCTGTCATTGTTACTATTACTATTGTGTAG
GGTCAGGATGCCCAGACTTTCAAAGACCAGGAAGCAGCTTGACTTATCAGTGATAAACTTTTCATTTTGTTCTTTGCTCCTTTCTTTTTATAACTGCTCA
TCTGCTCTGTATTATTTCCTTTATGGTGTTGCTCCTTCTTCTTCCCCATATGTCCTTCCTTTGACCYCTTACYTTCTTCCTTTTTATATTCATAAGTCTT
TATTCATTCTCTAGCTTTSACCACTTGCATATTCRAAYTGACATTTTGTCRTGTTTTTCTCTACTKTCTTTATGCAGCGGACCATGTGTCAACTTATGCC
RYGTTTGTACAGACSCATAGAMCAACAGGRGAGTTTAKGTTTGARTTTGATGAHGATGAGMWGTTCTATGTGGATCTGGAYAARAAGGAGACCGTCTGGC
ATCTGGAGGAGTTTGGCCRARCCTTTTCCTTTGAGGCTCAGGGCGGGCTGGCTAACATTGCTATATYGAACAACAACTTGAATACCTTGATCCAGCGTTC
CAACCACACTCAGGCCRCCAAYGGTACKSCCTATCTTTGCCTCTTCCTCTGTAGCCCAACTGGAAGGGATGAGAGGGCCTCTCTGCCACCCTCAGACTAG
GAAGCCTAAGTGCCCCCTGCTGTGTGATCCTCTTCCMCTAGTGGCCATGGGCTGATCCCACTACAGCAAGGGCTTGCATCCTCTCTTCTCAGGAGAGAGA
AAGGTGAGCAGAGTGAGGCTGGTCAGTGGTGTGATACCCCTSTCTGTGATTCASAGCTGCCATAAAATCTAAGGCTGAGGTAGAGGACCACCCTCCCCTA
AGAGGTGGAGCCTTTGTGATTCATCCCAGAAGAGGGGCCTAACCTGGTGCTGTCTCCTTCCAGATCCCCCTGAGGTGACCGTGTTTCCCAAGGAGCCTGT
GGAGCTGGGCCAGCCCAACACCCTCATCTGCCACATTGACARGTTCTTCCCACCAGTGCTCAAYGTCACRTGGCTGTGCAAYGGGRAGCYRGTCACTGAG
GGTGTCGCTGAGAGCYTCTTCCTGCCCAGAACAGATTACAGCTTCCACAAGTTCCATTACCTGACCTTTGTRCCCTCAGCAGAGGACKTCTATGACTGCA
GGGTGGAGCACTGGGGCTTGGACCAGCCGCTCCTCAAGCACTGGGGTATGCAACTGCTTTTCTCTCCATAATCTCCTGGCATCCTCTATTCCAAAGACCT
GGTGTCCTCTGCACCAGCTTTCCGCACTGGCTGGGTCTCAGTCCTCTCCTCRTCCTAACATCCAATTAACTGGTCCATAACCTTCAATTCCCACAACCAT
CCCAGGCCATCACCACCCTCACTGCACCTCCTGACCCTATCTCTTCATTCTTCCCCCAGAGGCCCAAGAGCCAATCCAGATGCCTGAGACAACGGAGACT
GTGCTCTGTGCCCTGGGCCTGGTGCTGGGCCTAGTSGGCATCATCGTGGGCACCGTCCTCATCATAAAGTCTCTGCGTTCTGGCCATGACCCCCGGGCCC
AGGGGACCCTGTGAAATACTGTAAAGGTGGGAATGTAAAGAGGAGGCCCTAGGATTTGTAGAATGTAAGGAAGGGAGGAAAAATTCAATCTGATAAGTGT
TCATTGATCTTCTAATGGGTTAAAAGCATTCAGCCRCATAACAACAACAAYACCGATAACTAACTGAGTAGTTAATATGGTCAGGCRCTATTCTGAGGAT
TTACATTTATTAACTCACTTTATTCTCACAMATAGTCTTTGAGGTAGGTACTATTATTTTCACYATTTCACATGAGAGATACTTACATCTTTTTACATAC
ACAGAGACTTTAAGCACTTTGATCMAGTTCCCACAGCTATGAAGTAGTAGGGCTAGCTTCCAATCCAGAAAGTCTGGATCCAAGACTGTTTATCCACTGT
CCTATTCACCCTATTTTGTGAAGGAAAAGACCAAGTTSAAATTCTCCAGAGTCCRTTGYCWAATAAYGGAGYCAGATCTATATTTCTATACATAATTACA
ACACAGTGTGGTGGGWGCCTGTAACTACTTACTGTCTCTACTTGGACTCATTCCATGGCAATGYTCACACAAAAAATGCCYCTCCAGAGATCTTACAGGT
TTCTATYTATCATAACACTCACCATGCTTTATATTTTTATATGTTTTGGGAATTCTCTTAGCATTAGACRGTGAACTTCCATGCAGATGACCACATCTAA
TTCATTATTATTATTGTTATTCATGCTGGACCTCAGGTACAAAAGGTTAAGAACTTCTCAGTTCATTATATGATCATCATTGGTGCCTCCGAGCTCTCTC
TCTCTCCCTTGATTTATTTGGTCCCTTTTATCTCCAGTCCTTACTCCCATATCTAACCTCTTACCCCTACCTCATAGGTAAACATTTTAATGAATTTGAT
GTTTCCTTTTATTTGCATAGATSCTCYSTAATATGTAGTAGTGTCCAGTGTACATGTATTTTTAATTAACCAAAATGGCATTAAATTATAGATCTAATTT
TGTACATCCAGTTTGTTTCTTCCAAATCTTCCATAGTATTTTACTTTATATGTCCATGCATTAGTCCATTTTGCATTGCTATAAAGGAATATCTGAAGTT
ACCTAATTTACGAAGAAAAGAGCTTTAAATGGCTCACAGATCTGCAGGCTGTACGCGAAACATGGCACTAGCATCTGCTTCTGTTGGGGGATTCTGGAAG
CTTTTACTCATGGTGGAAGGCAAGTGGAGCCAGTGCATCACATGGTCATAGAGGGAGAAAGAGACATAGAAAGAGGTGCCAGCCTCTTTTTAACAACCAG
GTTTCATGTGCACTAATAGAGTGAGAACTCACTCATTACCCGGAGAGGGGACAAAGCCATTCATGAGGGTCTCCTCCATGATTCAAATACCTCCCACCAG
GCCCCACCTGCAACACTGGGGATCAATTTTCAACATGAGACTTGGAAGTGACAAATATCCAAATCATATTAATCCACATATCTACATTGCTCCTGGGATA
CCTGGATCATTCCTGGTTCTCTACTATTGCAAGCAATGCTTGTATCTCACATGGAACTGCATATACATGTGGGCCTGACCTGCATCCCTGGAATGTATGT
ATCCTAGAAAGGGGTTGCAGGGTTGYTGGAGATGCAGCTCCTTAATTTGACTAAACACTGCTCATCTTCTCATCAGAATGGCTGTACTCATCTGAACTTC
CTTTGTCAGTACTCTAATTGTCCTGCAACTCCTAAATGGACTTCAACACTGGACATTATCCAGTTTTCTAACTTTTGCCAATTTCATGTGCATAAAGAAA
TATGCTGTTTTATTTTGCATTTCTTTAATTACTAATAATTGGGGYTATAATTAGGACTGATTAGCCACTTGGGGGTTCCTTTTCTATAAATTGCCTGTTC
ACATTCATTGTCCATTTTTGTACTATGTGCTTCCATCATTTTCTTATTGATTTGCAGGTGATCCTTATATAGTCCTGCTAGTAGTCCCTTGTCAGTTTTA
GGCATTGCAAATGTTTTCCTCTAATCTGACTTCTGGCAACTKTCTCCTTGGTTTCCTTTATTGAAGAGAAATCCTTAATATTTTGTAATGAAGTCCATCA
ACTGTATTTTTGTTTGTGTGTCTTTTTTAAAAGAAGTCTTCCCTATACTGAGATATCAAAGATACTCTTAAAACATCTCCTACAGTTTTAAATTTCACAY
TTACTACTTTAATTCATCTGGGATTCATCTTTGTGTTTGATGGGGATCATGTTTTATTTTTCTYTATATAATGGGCCAGTGTGTTCCCACAACTACTAAA
TAGTTCACCTTTTCCCCATAGGTTAGTRGTGTCTCCTTTGCTATACTGAAAGCTCCCATTATAGGTGGGCCTGTGTCTGAGTTCCATCTTGTTCCACTGT
TCTGTTTGTCTCTTCTTGTGCCAGTGTCCTAGTATTTTGATTACTATGACATTGTAGTGTGTGTTAGTATCCAGTAGGACAAATTCTTGTTTATTTTTCT
TAGTTCACACACATTTATAATTATATCTATAATGATTTGTAACAGAGTGAAGTGAATGTAGAATGTCAGATGTTAAGAGGAAGAATGGAAAAGAGGGCTG
GGACTAGGGTGATGTAGGGGATGCACYTGGCTTAGGTGCAAAATTTGGGGGATACCAAAAGAACTCAGTAATAAATCATATTTTAATGAAATATCTTGAA
AAGGCAAAATTAATGCAAAGATACATGATTAACAAAACATCCAAAGAGGAGTATTTAACAAAAATGGAGAAGCAGAGAAGCAGAAGAATTAGGAGAATAT
GCTGTCACATGAGCCAAGGAATTAAAGAATTCAGGAAGGAGGAAGTACTGCTGTCAGATGTTCAACAGAGGTCATTTTAGAAAATTTACCTTGGTTTTTG
AAATCCTTTCAAAGAGCAGTATACACAATGTGAGCAAGTATCCTTCGTTCATTGCCGTCATTGATATGGTTTGGATATTTGTCCCTTCCAATTCTCATTC
CAGSGTYAAGCTTCTTCTCTGCCCTCAGTAATGTGGCCCTTCCCCTTGTCTGTATATTTTGGAGACATGAAGCATGTGGGATGGCCTCAMAGTCAGCTGG
GGTTTGAGGGTGAAATTCAATGACTTTCGTGAACTCCTTGGCTCCTATGTGCTCTTCACCTGGAGGRCCAGGGCATGTGCAGGGATGACCACCTTCTCCC
TGGGACCTGAACAGGGCAGAGAAATGGGAAGCTCGGGTGCAAAGGGAGTGGGGAAGATGGGTCCGGGCTTACAGTACTGAACCCAGGAATGACAATAACT
GTGTGYGTTGCTGCAGGTGACAAAATATCTGAACAGAAGAGGACTTAGGAGAGATYTGAACTCCAGCTGCCCTACAAACTCCRTCWCAGCTTTTCTTCTC
ACTTCATGTGAAAACTACYCCAGTGGCTGACTGAATTGCTGACCCTTCAAGCTCTGTCCTTATCCRTTACCTHAAAGCAGTCATTCCTTAGTAAAGTTTC
CAACAAATAGAAATTAATGACACTTTGRTAGCACTRATAYGGAGATTATCCTTTCATTGAGCCTTTTATCCTCTGKTYTYCTTTGAARARCCCCTCACTG
TCACCTTCCYGAGAATACYCTAAGACCAATAAATACTTCAGTATTTCAGAGCRGGGAGACTCTGAGTCATTCTTACTGGAAGTCTAGGACCAGGTCACAT
GTGAATACTATTTCTTGAAGGTGTGGTTTCAACCTCTGTTGCCGATGTGGTTACTAAAGGTTCTGATCCCACTTGAACGGAAAGGTCTGAGGATATTGAT
TCAGTCCTGGGTTTTTCCCTAACTACAGGATAGGGTGGGGTAGAGAAAGGATATTTGGGGGAAATTTTACTTGGATGAAGATTTTCTTGGATGTAGTTTG
AAGACTGCAGTGTTTGAAGTCTCTGAGGGAAGAGATTTGGTCTGTCTGGATCAAGATTTCAGGCAGATTAGGATTCCATTCACAGCCCCTGAGCTTCCTT
CCCAAGGCTGTATTGTAATTATAGCAATATTTCATGGAGGATTTTTCTACATGATAAACTAAGAGCCAAGAAATAAAATTTTTAAAATGCCCTAATTCAT
TGCAATTTTTACCAGCCATAGTCACTCCATGTGGGAGAACTTAAATCATGATTACCAGAGCTTTCAAAGGTTTGAGAATAGTGATGATTATGAAGAAAAA
TATCTTATTTGAGCAAGGATTTTGTTTCTTTATGAGTGTTCATTAGATATTACGATGAAAAAAGCATGAAATGGTAAAAATTCAGATAAATATAAAAACA
TGTTCTCTAGTTTTTTTTAAGTTAAAAAAGGAATTGTTTAAAGTAAAAATTATTTGGGGGTTTATAACATACCCAGAAGTAAAATATGATGACAATGGCA
CAAAGAATAGAAGGGAGAAATGGAAGTATAATGTTGTAAGTTTCTTATACATGTTAAGTGGTGTGTTATTATTTGAAGGTAGAATGTATTAAGATGAATA
TTTTAAGCTCCTGATAACTATTGAAAAAAAAAGAGGTATAGCCAAGAGGCCAATGGAGAAGATAAAATAGAACACTAAGCATAATTAATTCAAAATAAAG
AAATAAAAAAGGGAAAGTCTGGTAAGACAAAAAGAAAACAAACTGTAAGATGGTAGAGTTTAAAACAACCATACTAATAATTGAATTAAATGCACATGGC
CTAAATATTCTAATGAAAAGGGAAAGATTGTCAGAATGCACAAAAAAATCTACAGGCCAACTTCATGCTCTCTACATAATGCCCTCTTTAAATATGAAGG
CAAAGACAGGTAAAAAGTAAAAGAATGGGAAAATACATGTATACCGTGGAATGCTATGCAGCCATAAAAAAATGAGTTCATGTTGTTTGTGGGGACATGG
ATGAAGCTGGAAGCCATCCTTCACAGCAAACTAACACAGGAACAGAAAACCAAACACCACACGTTCTCACTCGTAAGTGGGAGTTCAACAATTAGAACAC
ATGGACACAGGGAGGGGAACACCTCACACCAGGGTCTGTCAGGGCATGGGGAGCAAGGGGAGGGAGAGCATTAGGACACATACCGAATGTATGCATGGCT
TAAAACCTAGATGATGGGTTGATAGATGCAGCAAACCACATGGCACATGTATAACTATGTAACAAACCTGCACATTCTGCACATGTATCCCAGAACTTAA
AGTAAAAAAAAAAAAAACGAAAATAATGCCAACCATGGAAGTATTGGTGGCTGTGTTAATATCAGAAATATAAGACTCAGAAATATTACCAAGGAGAAAG
AAGGATAGTTCATAATGATAAAAGGATCATTTTATTATCAACATATAACAATCCTAAATGTGTTTGTTCTTAGAAAATATGTCTTAAATCACATTATACC
AAAAATGATAAAAATAAATCAGAAATAGACAAATTCACAATTATATTTTAGTATTCTAGCACTCAGTAAACAATAAAATATTTAGGAAAAAACTTCATGA
GGACATGATAGATTTAAATAACATTATCAATGAACCAACGTGATCTAATCAAGATCTGTAGAATATTCCACCCAATAGTGGCAGAATACACATTATTTTC
AAATGCTCAAGAATATTCCACAGGACAGACTATACACTGGGTCATAAACACATATAAATAAATGTCTAAATAAATAAATGTCTCTATTGAAATCATACAG
AATACATTCTCGGACCACAATAGCATTAAATTAGAAACCAATAACAGAAAAATACCTTGAAAGTCCCAAATACCTAGAAATTAAAAAGTATACTGCTAAA
CAGCACCTGGATTTAAAAAGAGTCAGAAGGAAAATTAGAAAATATTTTGAACTGAGTGAATATGAAAGCACACTATCAAAATTAGTATGATACACTAATT
AGAGAATAATTTATAACTTTACATAATTGGAAAGGAGGGAAACTCTAAAATCAACCATCTATGTTCCCATCTTAAGAAGCTAGAAAAAAAAAGTCAAATG
AATCCCAAGATTAATAAGATCAGAAATAAATGCAATAAAATGGACAAACAATAAAGAAAATAAACAAAGTCAATTGCTGGTTTTCAATAAGGCTCAATAC
ATTCATGAATCTCTAGGTAGATGGATCAAGAAAAAGAGATAAGACTCAAATCCCCAATATCAGAAATGGAAGTGGGTACGTCACAACAAATCATACAGAC
ATTAAAAGTATTATGACAGAATGCTATGAAAATGCCAATAAACAAAAATGACAATAAATTTGACAATTTACATTGTTAAATTAAATTAAATTTGGTGTAA
AGCTTTCTCCATATCTTAAATTCCTACATAGCAAACTAACCCAACTTAACATAACTGCGTTATGCAAACAAACTACAGCCTAACTTAAGAGTGTTGTAAT
AAATAGCTGAGTCTCAGCCAATCACAGGCTGCCAAGTGATCATATTATGTCCCCCATAAGGCAAATGCCTCATCACGCCATGCCCATATAAGGCAAACAC
TGAGCTGTAATAAATTGGCTGGTTTTGAGTATCACTTCCTGTTTTTATCTATAAACACTGCCTTCACATGTTGCTGGACAGAGCTTTCTGAATCTTTCTG
GGTTCTGAGGGCTCCCCAATTCATGAATTGTTCTTTGCTAAATAAACTCTGTTAAATTCAACTTCTCTAAAATTTTTATTTTAACAACATGAAATAGAAA
CATTTCTTGAACGATTCAAATTACCAAAACTAAATCAAGAAGAAATCTCTGTCAATGGAAGAAATTAAGTTTGTAATTTTAAAAATCCTTCTCACAGAGA
AGGCCAAATGGTTTCCAGGTCAGATGGCTTCATTGATTAATCCATAGTATTCTGTCATAATACTGTCATAATACTTTTAATGTCTGTATGATTAATTCTA
TTATACATTTAAGGAAGAAACAATACAAACTCAATACAAACTCTTTCAACAAAAGAGCAGAAGAAAACACATCCCAATAATTTACAAGTCCAATATACTA
ACATCAAACAATGACATTAAAAGAAAAGGAAACTAAAGACACACAAACATAGCCATGAAAATGTTTAACAAAATATTTTTTAAAATTGAATTCAATAATA
TATTAAAAAGGATGATATAACATGATCATAAAAGTTTATGCCAGGAATGGAAGGCATGTTTAACATGCAAAAAATCAATGTGATTCCACATCTTAACAGA
ATACAAAAGAAAAATTATGTAATTATGTAAATGGATGCAGAAAAAGGCATTTGCTCATTCATGATAAAAAGTCCTAGAAAACTAGGAATAAAAAGGAATT
ACCTGATAAGGTGTGTCCATGAAAACCAACAACTGAAATTTTCAATTTTGGGTGGGGGAGGGGGGCGGGCATTTTACTTTCTCCATAAAACTATTAAATT
ATCTAATGTGAAAGTGGAATTCAGTGAAGAAATGTTCCCTACTGCAAAAATACAAAATGCTGGACATTCTGTGAACAGTTTCTATGCATTCTATATAAAT
GAAACTATTAACTATATAATACATTTATTGAAAAAAGAAGATGGCCTTCTTTTTTTTTCCTAATGGCTGTTGAATTTATTTGCTTGATCAATAATGGTCC
TGGCAAAAATTGACCAATGCTGAGACATTTGTAATGAAATACTAATTTTAAAAGTCCATGACACCTTGATAGAAATTAGAGTTTACACAAACAAAAAAGG
AACCTTCGATATTTCCAGCAGCTACAAGGTGAATGTACTGAGACCGACAGGACAGCAAGAAGGCATTTGCACATTTATATCTGACACCAGACCACACTTT
CAGCCACCAGAATATCTTCTCTCCATATTTTAAAAAATAGTGTCTCTCCCTCTCCCTCTCCCCACGGTCTCCCTCTCCCTCTCCCTCTCCCTCTCCCCAC
GGTCTCCCTCTCCCTCTCTTTCCACAGTCTCCCTCTGATGCCGAGCCGAAGCTGGACGATACTGCTGCCATCACGGCTCACTGCAACCTCCCTGCCTGAT
TCTCCTGCCTCAGCTTGCCGAGTGCCTGCGATTGCAGGCGCGCGCCGCCACACCTGACTGGTTTTCGTATTTTTTTGGTGGAGATGGGGATTCGCTGTAT
TGGCTGGGCTGGTCTCCAGCTCCTAACCGAGAGTGATCCGCCAGCCTCGGCCTCCCGAGGTGCCGGGATTGCAGACAGAGTCTCGTTCACTCAGTGCTCA
ATGGTGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCGCTACAACCTCCACCTCCCAGCAGCCTGCCTTGGCCTCCCAAAGTGCCGAGACTGCAGCC
TCTGCCCGGCCGCCACCCCGTCTGGGAAGTGAAGAGCGTCTCCGCCTGGCCGCCCATCGTCTGGGATGTGAGGAGCCCCTCTGCCTGGCTGCCCAGTCTG
GAAAGTGAGGAGCGTCTCTGCCCGGCCGCCATCCCATCTAGGAAGTGAGGAGCGCCTCTTCCCGGCCGCCATCACATCTGGGAAGTGAGGAGCGTCTCTG
CCTGGCCGCCCATCGTCTGAGATGTGGGGAGCACCTCTGCCCTGCCGCCCCGTCCGGGATGTGAGGAGCGTCTCTGCCCGGCCGCCCCGTCTGAGAAGTG
AGGAGACCCTCTGCCTGGCAACCGCCCCGTCTGAGAAGTGAGGAACCCCTCCGCCCAGCAGCCACCCTGTCTGGGAATTGAGGAGCGTCTCCGCCCGGCA
GTCACCTCCTCCGGGAGGGAGGTGGGGGGGGTCAGCCCCCCGCCCGGCCAGCCGCCCCGTCCGGCAGGTGAGGGGCGCCTCTGCCCGGCCCGCCCCTACT
GGGAAGTGAGGAGCCCCTCTGCCCGGCCAGCCGCCCCATCCGGGAGGGAGGTGGGGGAGTCAGTCCCCCGCCCGGCCAGCCGCCCCATCCGGGAGGGAGG
TGGGGGGGTCAGCCCCCCGCCCGGCCAGCCACCCCATCCGGGAAGTGAGGGGCGCCTCTGCCCGGCCGCCCCTACTGGGAAGTGAAGAGCCCCTCTGCCC
AGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGGTCAGCCCCCTGCCCCGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCGCCCGGC
CAGCCACCCCATCCGGGAAGTGAGGGGCGCCTCTGCCCGGCCGCGCCTACTGGGAAGTGAGGAGCCCCTCTGCCCCGCCACCACCCCGTCTGGGAGGTGT
ACCCAACAGCTCATTGAGAACGGGCCGTGATGACAATGGCGGTTTTGTAGAATAGAAACGGGGGAAAGGTGGGGAAAAGATTGAGAAATCGGATGGTTGC
CGTGTCTGTGTAGAAAGAGGTAGACATGGGAGACTTTTCATTTTGTTCTGTACTAAGAAAAATTCTTCTGCCTTGGGATCCTGTTGATCGGTGACCTTAC
CCCCAACCCTGTGCTCTCTGAAACATGTGCTGTATCCACTCAGGGTTGAATGGATTAAGGGTGGTGCAAGATGTGCTTTGTTAAACAGATGCTTGAAGGC
AGCATGCTCCTTAAGAGTCATCACCACTCCCTAATCTCAAGTACCCAGGGACACAAACACTGCGGAAGGCCGCAGGGTCCTCTGCCTAGGAAAACCAGAG
ACCTTTGTTCACTTGTTTATCTGCTGACCTTCCCTCCACTATTGTCCTGTGA


SNP Information

Context             (SEQ ID NO:2798):
TTCTTAAAACTTTCTTCAACTTTGGTATAAGAAAGACTCTGTAGCCTGAAAGTTAATTTTCAAACATGGCTGCAGAAAGACTTGGTGTCAAAAGATGTGG
R
AAGTATTTTACACAATGAAAATCACCACAACAACCAGGGACCTGTGGGGGTAGAGTCCTTTGGGTTTAGAGGCATTGATGTAATTTTTTTTGGCAGTTTT
Celera SNP ID:            hCV16075870
SNP Position Genomic:     6860
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2799):
CCAAGCCTTTTCCTTTGAGGCTCAGGGCGGGCTGGCTAACATTGCTATATTGAACAACAACTTGAATACCTTGATCCAGCGTTCCAACCACACTCAGGCC
R
CCAACGGTACGCCCTATCTTTGCCTCTTCCTCTGTAGCCCAACTGGAAGGGATGAGAGGGCCTCTCTGCCACCCTCAGACTAGGAAGCCTAAGTGCCCCC
Celera SNP ID:            hCV8851046
SNP Position Genomic:     17217
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,16)   caucasian(A,32|G,4)   total(A,54|G,20)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:2800):
AGACCAACAGGGGAGTTTATGTTTGAATTTGATGAAGATGAGATGTTCTATGTGGATCTGGACAAGAAGGAGACCGTCTGGCATCTGGAGGAGTTTGGCC
R
AGCCTTTTCCTTTGAGGCTCAGGGCGGGCTGGCTAACATTGCTATATTGAACAACAACTTGAATACCTTGATCCAGCGTTCCAACCACACTCAGGCCACC
Celera SNP ID:            hCV8851047
SNP Position Genomic:     17119
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,15)   caucasian(A,33|G,5)   total(A,54|G,20)
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:2801):
ATGTGTCAACTTATGCCGCGTTTGTACAGACGCATAGACCAACAGGGGAGTTTATGTTTGAATTTGATGAAGATGAGATGTTCTATGTGGATCTGGACAA
R
AAGGAGACCGTCTGGCATCTGGAGGAGTTTGGCCAAGCCTTTTCCTTTGAGGCTCAGGGCGGGCTGGCTAACATTGCTATATTGAACAACAACTTGAATA
Celera SNP ID:            hCV8851048
SNP Position Genomic:     17084
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,26)   caucasian(A,2|G,34)   total(A,14|G,60)
SNP Type:                 SILENT MUTATION

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


Context             (SEQ ID NO:2802):
TACAAACTCCATCTCAGCTTTTCTTCTCACTTCATGTGAAAACTACTCCAGTGGCTGACTGAATTGCTGACCCTTCAAGCTCTGTCCTTATCCATTACCT
H
AAAGCAGTCATTCCTTAGTAAAGTTTCCAACAAATAGAAATTAATGACACTTTGGTAGCACTAATATGGAGATTATCCTTTCATTGAGCCTTTTATCCTC
Celera SNP ID:            hCV751744
SNP Position Genomic:     21673
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-|A,-)    ;no_pop(T,-|C,-)   )(T,42|C,114)   JF(C,22|T,72)   total(C,136|T,114)no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:2803):
TGGCCATGGGCTGATCCCACTACAGCAAGGGCTTGCATCCTCTCTTCTCAGGAGAGAGAAAGGTGAGCAGAGTGAGGCTGGTCAGTGGTGTGATACCCCT
S
TCTGTGATTCAGAGCTGCCATAAAATCTAAGGCTGAGGTAGAGGACCACCCTCCCCTAAGAGGTGGAGCCTTTGTGATTCATCCCAGAAGAGGGGCCTAA
Celera SNP ID:            hCV27495707
SNP Position Genomic:     17442
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2804):
TATCTGTTTTAAGGTCCCAGAACATTCCACGAGAGGCATCTTGCTCAATATTCTTTGACAGGAGCAGGTCAGCCTGGAGCCACATCAGTGACCTCCAGGG
K
GCGCTGGAGTTAAGGCCTGATACCCAATGGCCTCATTTCTGACCCAGTTCAAATACATTTCACCAAGGCAAGGATTCCTGTTTGTTCTAGTTGCCTTCTC
Celera SNP ID:            hCV27453460
SNP Position Genomic:     3966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2805):
GATCCCACTACAGCAAGGGCTTGCATCCTCTCTTCTCAGGAGAGAGAAAGGTGAGCAGAGTGAGGCTGGTCAGTGGTGTGATACCCCTCTCTGTGATTCA
S
AGCTGCCATAAAATCTAAGGCTGAGGTAGAGGACCACCCTCCCCTAAGAGGTGGAGCCTTTGTGATTCATCCCAGAAGAGGGGCCTAACCTGGTGCTGTC
Celera SNP ID:            hCV27495708
SNP Position Genomic:     17454
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2806):
TCCGAGGAGCTGGGGCCATCAAGGGTGAGTGCTCAGGAGGACGCAGGAGCGTCGGGGTGAGTGATGGGGTGGTTCACATCAATTGCTGCTTCAGGGATCA
S
AGATTTTAGGGGCTCATTGATCTATCTGGTCCTCATAGTCTATGTTCCCTCTGGCCCTCATAATAATAACAGCAATAACAGCCAGAATTTATGAGACTCC
Celera SNP ID:            hCV27856613
SNP Position Genomic:     13470
SNP Source:               Applera
Population(Allele,Count): african american(C,31|G,1)   caucasian(C,32)   total(C,63|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:2807):
GAATCCCAGCCATGCTGATTCCTCTCCACCCATTTCCAGTGCTAGAGGCCCACAGTTTCAGTCTCATCTGCCTCCACTCGGCCTCAGTTCCTCATCACTG
Y
TCCTGTGCTCACAGTCATCAATTATAGACCCCACAACATGCGCCCTGAAGACAGAATGTTCCATATCAGAGCTGTGATCTTGAGAGCCCTCTCCTTGGCT
Celera SNP ID:            hCV27856614
SNP Position Genomic:     13256
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,33)   caucasian(T,40)   total(C,1|T,73)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:2808):
GGCCCACAGTTTCAGTCTCATCTGCCTCCACTCGGCCTCAGTTCCTCATCACTGTTCCTGTGCTCACAGTCATCAATTATAGACCCCACAACATGCGCCC
W
GAAGACAGAATGTTCCATATCAGAGCTGTGATCTTGAGAGCCCTCTCCTTGGCTTTCCTGCTGAGTCTCCGAGGAGCTGGGGCCATCAAGGGTGAGTGCT
Celera SNP ID:            hCV27833241
SNP Position Genomic:     13302
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,33)   caucasian(T,40)   total(A,1|T,73)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:2809):
CAGTGCTAGAGGCCCACAGTTTCAGTCTCATCTGCCTCCACTCGGCCTCAGTTCCTCATCACTGTTCCTGTGCTCACAGTCATCAATTATAGACCCCACA
R
CATGCGCCCTGAAGACAGAATGTTCCATATCAGAGCTGTGATCTTGAGAGCCCTCTCCTTGGCTTTCCTGCTGAGTCTCCGAGGAGCTGGGGCCATCAAG
Celera SNP ID:            hCV27833242
SNP Position Genomic:     13292
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,40)   total(A,73|G,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:2810):
AAGGAGCCTGTGGAGCTGGGCCAGCCCAACACCCTCATCTGCCACATTGACAAGTTCTTCCCACCAGTGCTCAACGTCACGTGGCTGTGCAACGGGGAGC
Y
GGTCACTGAGGGTGTCGCTGAGAGCCTCTTCCTGCCCAGAACAGATTACAGCTTCCACAAGTTCCATTACCTGACCTTTGTGCCCTCAGCAGAGGACTTC
Celera SNP ID:            hCV15760117
SNP Position Genomic:     17690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:2811):
CTTTATGGTGTTGCTCCTTCTTCTTCCCCATATGTCCTTCCTTTGACCTCTTACCTTCTTCCTTTTTATATTCATAAGTCTTTATTCATTCTCTAGCTTT
S
ACCACTTGCATATTCAAACTGACATTTTGTCGTGTTTTTCTCTACTGTCTTTATGCAGCGGACCATGTGTCAACTTATGCCGCGTTTGTACAGACGCATA
Celera SNP ID:            hCV25925185
SNP Position Genomic:     16919
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:2812):
TGTCCTTCCTTTGACCTCTTACCTTCTTCCTTTTTATATTCATAAGTCTTTATTCATTCTCTAGCTTTGACCACTTGCATATTCAAACTGACATTTTGTC
R
TGTTTTTCTCTACTGTCTTTATGCAGCGGACCATGTGTCAACTTATGCCGCGTTTGTACAGACGCATAGACCAACAGGGGAGTTTATGTTTGAATTTGAT
Celera SNP ID:            hCV25927501
SNP Position Genomic:     16951
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,22)   caucasian(A,5|G,33)   total(A,19|G,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:2813):
AGGAGCCTGTGGAGCTGGGCCAGCCCAACACCCTCATCTGCCACATTGACAAGTTCTTCCCACCAGTGCTCAACGTCACGTGGCTGTGCAACGGGGAGCT
R
GTCACTGAGGGTGTCGCTGAGAGCCTCTTCCTGCCCAGAACAGATTACAGCTTCCACAAGTTCCATTACCTGACCTTTGTGCCCTCAGCAGAGGACTTCT
Celera SNP ID:            hCV15760118
SNP Position Genomic:     17691
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:2814):
GGCTGTGCAACGGGGAGCTGGTCACTGAGGGTGTCGCTGAGAGCCTCTTCCTGCCCAGAACAGATTACAGCTTCCACAAGTTCCATTACCTGACCTTTGT
R
CCCTCAGCAGAGGACTTCTATGACTGCAGGGTGGAGCACTGGGGCTTGGACCAGCCGCTCCTCAAGCACTGGGGTATGCAACTGCTTTTCTCTCCATAAT
Celera SNP ID:            hCV15760119
SNP Position Genomic:     17772
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:2815):
CACTTGCATATTCAAACTGACATTTTGTCGTGTTTTTCTCTACTGTCTTTATGCAGCGGACCATGTGTCAACTTATGCCGCGTTTGTACAGACGCATAGA
M
CAACAGGGGAGTTTATGTTTGAATTTGATGAAGATGAGATGTTCTATGTGGATCTGGACAAGAAGGAGACCGTCTGGCATCTGGAGGAGTTTGGCCAAGC
Celera SNP ID:            hCV15760049
SNP Position Genomic:     17022
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,38)   total(A,1|C,75)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:2816):
CCATGATGACTTTGCAGTTCTGGAGGAAATTTTGTGAGCGATCTCAGCACAGTAAGATTTGTTGCACATCAGCAGCACTTTCAGCTCCTTGAGGCTGTGG
R
CCAGAAACTTCTGGAAGCCACTGGGCAGCATGTTTTTTTTGTTGTTGTTGTTGCTCCCATAAGCAATGTTGGGCATCAAGATCTGGCCCTTGGACCTTCT
Celera SNP ID:            hCV29315400
SNP Position Genomic:     7171
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2817):
AGACTTGGTGTCAAAAGATGTGGAAAGTATTTTACACAATGAAAATCACCACAACAACCAGGGACCTGTGGGGGTAGAGTCCTTTGGGTTTAGAGGCATT
S
ATGTAATTTTTTTTGGCAGTTTTTATGGTTTTATTTACACACAAAACGTGGACATGAACTTTCTACTCATTTTCTTAGCTGTGCACCCTGGTACTGGGGT
Celera SNP ID:            hCV29315401
SNP Position Genomic:     6937
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2818):
CTCCACACCATACCCTTGTGCGCTGTCCTGTGGCTTCCTTTTTTCACCCCACATGCAGTCAGCTGCCAGGCCTGATGAAGTCCCGGGGGTCTCTCTGCTC
Y
CGTCCTCCTCACTCCATGCTCAGCCCAGTCCAGGTCCCCGCGCTCGCTCCCCTGACAAGCTCCAGATGGGCTCCCCCCATGAATCCCCAACCCAAAGTCC
Celera SNP ID:            hCV29315402
SNP Position Genomic:     5716
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2819):
GACAAAATATCTGAACAGAAGAGGACTTAGGAGAGATCTGAACTCCAGCTGCCCTACAAACTCCATCTCAGCTTTTCTTCTCACTTCATGTGAAAACTAC
Y
CCAGTGGCTGACTGAATTGCTGACCCTTCAAGCTCTGTCCTTATCCATTACCTCAAAGCAGTCATTCCTTAGTAAAGTTTCCAACAAATAGAAATTAATG
Celera SNP ID:            hCV11916951
SNP Position Genomic:     21619
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   )(C,42|T,114)   JF(T,22|C,72)   total(C,114|T,136) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:2820):
CCATCTCCACCTCCATCTCCACACCATACCCTTGTGCGCTGTCCTGTGGCTTCCTTTTTTCACCCCACATGCAGTCAGCTGCCAGGCCTGATGAAGTCCC
S
GGGGTCTCTCTGCTCTCGTCCTCCTCACTCCATGCTCAGCCCAGTCCAGGTCCCCGCGCTCGCTCCCCTGACAAGCTCCAGATGGGCTCCCCCCATGAAT
Celera SNP ID:            hCV29315403
SNP Position Genomic:     5700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2821):
CCACCTTTAGTCTCCAGTGTCATTGCTAAGGCAAGATCCCAGGTCTTGACTCAGATATCCTGACCTGCCTCTTCTCCTGGTGCCTTGGGCCCCAGACCCT
R
AAATTCCAGGCCCAGAGCCCCCCAGCTCCTTGAGTCCAGATTCCTCCTCCTCTGCCATCCATCCGCCCCTGCCTGTTCAATTGCCCCACTCTGAGTGTGG
Celera SNP ID:            hCV16075808
SNP Position Genomic:     7895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2822):
GCTGCCCTACAAACTCCATCTCAGCTTTTCTTCTCACTTCATGTGAAAACTACTCCAGTGGCTGACTGAATTGCTGACCCTTCAAGCTCTGTCCTTATCC
R
TTACCTCAAAGCAGTCATTCCTTAGTAAAGTTTCCAACAAATAGAAATTAATGACACTTTGGTAGCACTAATATGGAGATTATCCTTTCATTGAGCCTTT
Celera SNP ID:            hCV11916952
SNP Position Genomic:     21666
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   POOLE|_CEPH(A,47|G,141)   total(G,141|A,47) 
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:2823):
TCCCCAGCTTCCTCCTCCTCCTCCCTTCATTTTTTTCCTCTTTCTAGAAAAAAGGTCCAGGGCTCAATCCCACATCCTGATACTACTCCCTCAAGTCCCT
M
AGGTTGGTGCACCAGGCTCCCCACCCCACAAGTTCACAGGAGGAAGCCAAAGCTCCAAGGCCTTCCTGTCCCATCCTTGAGAAATCCTCTTACTGCACAC
Celera SNP ID:            hCV29315404
SNP Position Genomic:     4911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2824):
GTTGGGGATGTGTGTGGAGTTGGGGGAGCATGCAGGGAATTGTGGAATCAGCCCTGCCCACTTTACCCACTCCCCTATGGCTCCAGCTCTCCCTCCAGCA
R
GTTTTGATTGAACATTCATTCTACGCAGGGAGCTCCAGTAATCTACCCTCAGTCCCTGTCACATGGCTCCACTGCCTCATCTCATTCCCCCTACAAACCT
Celera SNP ID:            hCV16075809
SNP Position Genomic:     8554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2825):
CTCCCCAGCTTCCTCCTCCTCCTCCCTTCATTTTTTTCCTCTTTCTAGAAAAAAGGTCCAGGGCTCAATCCCACATCCTGATACTACTCCCTCAAGTCCC
W
CAGGTTGGTGCACCAGGCTCCCCACCCCACAAGTTCACAGGAGGAAGCCAAAGCTCCAAGGCCTTCCTGTCCCATCCTTGAGAAATCCTCTTACTGCACA
Celera SNP ID:            hCV29315405
SNP Position Genomic:     4910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2826):
TTTTTCATTTTTCAAAAATCTTCAGTGTTCTGACAATACTTATCTGGCTACATGGGAACCTCTAGGGAGCTGATTACAAGCAGAGATCCCCAGACCTCCC
Y
ACCCAGGGAATCTGAGTCTGGGGGCACTGAGTCTGGAGATCTGTGCATCACAGAGGATCTCCAGAAGAGTCTTCAGAGGAGTGAGGTTGGGGACCTGCGG
Celera SNP ID:            hCV29315406
SNP Position Genomic:     4414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2827):
CCTTTGAGGCTCAGGGCGGGCTGGCTAACATTGCTATATTGAACAACAACTTGAATACCTTGATCCAGCGTTCCAACCACACTCAGGCCACCAACGGTAC
K
CCCTATCTTTGCCTCTTCCTCTGTAGCCCAACTGGAAGGGATGAGAGGGCCTCTCTGCCACCCTCAGACTAGGAAGCCTAAGTGCCCCCTGCTGTGTGAT
Celera SNP ID:            hCV25929181
SNP Position Genomic:     17228
SNP Source:               Applera
Population(Allele,Count): african american(G,20|T,14)   caucasian(G,31|T,3)   total(G,51|T,17)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2828):
AGGGGGCGGACATGAGCGGAGGCGCCACTCTCATCTAATCCTCTTTCTCCCTCTCTCTCTCAATATTAACGATTCTTCCCAAATCTTCCCACCCAGGGCT
R
GATTTTAAAATAGGAGTTTTCCTAGTACCGAGTTCTGTGGTCCTAAGCGGGTCGCAGAGCCTCTCCAGGCCTGTTTTCTCACCACGCAGAGAGAGAATTT
Celera SNP ID:            hCV25651185
SNP Position Genomic:     6297
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,14)   total(A,1|G,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:2829):
TTTGCTCCTTTCTTTTTATAACTGCTCATCTGCTCTGTATTATTTCCTTTATGGTGTTGCTCCTTCTTCTTCCCCATATGTCCTTCCTTTGACCTCTTAC
Y
TTCTTCCTTTTTATATTCATAAGTCTTTATTCATTCTCTAGCTTTGACCACTTGCATATTCAAACTGACATTTTGTCGTGTTTTTCTCTACTGTCTTTAT
Celera SNP ID:            hCV25925111
SNP Position Genomic:     16873
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,11)   caucasian(C,20|T,4)   total(C,41|T,15)
SNP Type:                 INTRON


Context             (SEQ ID NO:2830):
AGCTCCAAGGCCTTCCTGTCCCATCCTTGAGAAATCCTCTTACTGCACACACCTCACCTCTCTCCATCCCTTTACACCCAGACTTCCTGAAGGAAAAAGA
Y
GAATGAACTGAGACACTGCCCTGTGACAGCCGTGGGGAACCCAAGACAAGTAAAATCCATCTCAGCCCCGAGGAGGATGCGCCACACTCAGCCTCATGCA
Celera SNP ID:            hCV15905339
SNP Position Genomic:     5062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2831):
AACCTTCTCTTTTTCATTTTTCAAAAATCTTCAGTGTTCTGACAATACTTATCTGGCTACATGGGAACCTCTAGGGAGCTGATTACAAGCAGAGATCCCC
M
GACCTCCCCACCCAGGGAATCTGAGTCTGGGGGCACTGAGTCTGGAGATCTGTGCATCACAGAGGATCTCCAGAAGAGTCTTCAGAGGAGTGAGGTTGGG
Celera SNP ID:            hCV29315407
SNP Position Genomic:     4405
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2832):
CTTTGAGGCTCAGGGCGGGCTGGCTAACATTGCTATATTGAACAACAACTTGAATACCTTGATCCAGCGTTCCAACCACACTCAGGCCACCAACGGTACG
S
CCTATCTTTGCCTCTTCCTCTGTAGCCCAACTGGAAGGGATGAGAGGGCCTCTCTGCCACCCTCAGACTAGGAAGCCTAAGTGCCCCCTGCTGTGTGATC
Celera SNP ID:            hCV25929183
SNP Position Genomic:     17229
SNP Source:               Applera
Population(Allele,Count): african american(C,14|G,8)   caucasian(C,31|G,3)   total(C,45|G,11)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2833):
CTGCGGGGAGGGGGCGGACATGAGCGGAGGCGCCACTCTCATCTAATCCTCTTTCTCCCTCTCTCTCTCAATATTAACGATTCTTCCCAAATCTTCCCAC
Y
CAGGGCTGGATTTTAAAATAGGAGTTTTCCTAGTACCGAGTTCTGTGGTCCTAAGCGGGTCGCAGAGCCTCTCCAGGCCTGTTTTCTCACCACGCAGAGA
Celera SNP ID:            hCV25651186
SNP Position Genomic:     6289
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,13)   caucasian(C,12|T,2)   total(C,31|T,15)
SNP Type:                 INTRON


Context             (SEQ ID NO:2834):
ACCATGTGTCAACTTATGCCGCGTTTGTACAGACGCATAGACCAACAGGGGAGTTTATGTTTGAATTTGATGAAGATGAGATGTTCTATGTGGATCTGGA
Y
AAGAAGGAGACCGTCTGGCATCTGGAGGAGTTTGGCCAAGCCTTTTCCTTTGAGGCTCAGGGCGGGCTGGCTAACATTGCTATATTGAACAACAACTTGA
Celera SNP ID:            hCV8851052
SNP Position Genomic:     17081
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,12)   caucasian(C,35|T,3)   total(C,61|T,15)
SNP Type:                 SILENT MUTATION

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


Context             (SEQ ID NO:2835):
AATTCTCTGCGGGGAGGGGGCGGACATGAGCGGAGGCGCCACTCTCATCTAATCCTCTTTCTCCCTCTCTCTCTCAATATTAACGATTCTTCCCAAATCT
W
CCCACCCAGGGCTGGATTTTAAAATAGGAGTTTTCCTAGTACCGAGTTCTGTGGTCCTAAGCGGGTCGCAGAGCCTCTCCAGGCCTGTTTTCTCACCACG
Celera SNP ID:            hCV25651187
SNP Position Genomic:     6283
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,26)   caucasian(A,1|T,13)   total(A,7|T,39)
SNP Type:                 INTRON


Context             (SEQ ID NO:2836):
TAAAGAGGAGGCCCTAGGATTTGTAGAATGTAAGGAAGGGAGGAAAAATTCAATCTGATAAGTGTTCATTGATCTTCTAATGGGTTAAAAGCATTCAGCC
R
CATAACAACAACAACACCGATAACTAACTGAGTAGTTAATATGGTCAGGCGCTATTCTGAGGATTTACATTTATTAACTCACTTTATTCTCACACATAGT
Celera SNP ID:            hCV27469262
SNP Position Genomic:     18336
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2837):
TGACTGAATTGCTGACCCTTCAAGCTCTGTCCTTATCCATTACCTCAAAGCAGTCATTCCTTAGTAAAGTTTCCAACAAATAGAAATTAATGACACTTTG
R
TAGCACTAATATGGAGATTATCCTTTCATTGAGCCTTTTATCCTCTGTTCTCCTTTGAAGAACCCCTCACTGTCACCTTCCCGAGAATACCCTAAGACCA
Celera SNP ID:            hCV11916958
SNP Position Genomic:     21728
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:2838):
CTGACATTTTGTCGTGTTTTTCTCTACTGTCTTTATGCAGCGGACCATGTGTCAACTTATGCCGCGTTTGTACAGACGCATAGACCAACAGGGGAGTTTA
K
GTTTGAATTTGATGAAGATGAGATGTTCTATGTGGATCTGGACAAGAAGGAGACCGTCTGGCATCTGGAGGAGTTTGGCCAAGCCTTTTCCTTTGAGGCT
Celera SNP ID:            hCV8851053
SNP Position Genomic:     17038
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:2839):
TCCAATCCAGAAAGTCTGGATCCAAGACTGTTTATCCACTGTCCTATTCACCCTATTTTGTGAAGGAAAAGACCAAGTTCAAATTCTCCAGAGTCCATTG
Y
CAAATAATGGAGTCAGATCTATATTTCTATACATAATTACAACACAGTGTGGTGGGTGCCTGTAACTACTTACTGTCTCTACTTGGACTCATTCCATGGC
Celera SNP ID:            hCV27469263
SNP Position Genomic:     18659
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2840):
TTGCTGACCCTTCAAGCTCTGTCCTTATCCATTACCTCAAAGCAGTCATTCCTTAGTAAAGTTTCCAACAAATAGAAATTAATGACACTTTGGTAGCACT
R
ATATGGAGATTATCCTTTCATTGAGCCTTTTATCCTCTGTTCTCCTTTGAAGAACCCCTCACTGTCACCTTCCCGAGAATACCCTAAGACCAATAAATAC
Celera SNP ID:            hCV11916959
SNP Position Genomic:     21736
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:2841):
TATTCAAACTGACATTTTGTCGTGTTTTTCTCTACTGTCTTTATGCAGCGGACCATGTGTCAACTTATGCCGCGTTTGTACAGACGCATAGACCAACAGG
R
GAGTTTATGTTTGAATTTGATGAAGATGAGATGTTCTATGTGGATCTGGACAAGAAGGAGACCGTCTGGCATCTGGAGGAGTTTGGCCAAGCCTTTTCCT
Celera SNP ID:            hCV8851054
SNP Position Genomic:     17030
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

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


Context             (SEQ ID NO:2842):
TAGATAGCACATTCATTCTTAATTATCAGCAGAATATTTTTGTAAAATATTGACAACATAACATAAAACATGATTTAAAATATAGTGACCAAAAAACATC
R
AAGATCATCTGACTGTCTGGGATGGGGGTGGGGCTCGGGAGAAGGAACATAATGGAAAACATTTGCCGTCAGAAGAAGGTGTAACTTATCTTTTTACATC
Celera SNP ID:            hCV16075880
SNP Position Genomic:     12907
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,34|G,4)   total(A,67|G,5)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:2843):
AGTCTATGTTCCCTCTGGCCCTCATAATAATAACAGCAATAACAGCCAGAATTTATGAGACTCCTGCATAGTTTCTTTCCCCATTTACATCTCACAGGAA
Y
CTTCAATGAAGATAATATTCCATTCATTTAGAAATTATTCCTTTTATTTAGAAATTATTTTGAAAAAACTGAAGCTCAAAAAGATGAATAAGTTTTCCAA
Celera SNP ID:            hCV8851057
SNP Position Genomic:     13607
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,18)   caucasian(C,3|T,35)   total(C,15|T,53)
SNP Type:                 INTRON

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:2844):
GAGTCTCCGAGGAGCTGGGGCCATCAAGGGTGAGTGCTCAGGAGGACGCAGGAGCGTCGGGGTGAGTGATGGGGTGGTTCACATCAATTGCTGCTTCAGG
R
ATCACAGATTTTAGGGGCTCATTGATCTATCTGGTCCTCATAGTCTATGTTCCCTCTGGCCCTCATAATAATAACAGCAATAACAGCCAGAATTTATGAG
Celera SNP ID:            hCV8851058
SNP Position Genomic:     13465
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,19)   caucasian(A,4|G,34)   total(A,17|G,53)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,14)   caucasian(A,2|G,26)   total(A,16|G,40)   
SNP Type:                 INTRON

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:2845):
CTTTCCTGCTGAGTCTCCGAGGAGCTGGGGCCATCAAGGGTGAGTGCTCAGGAGGACGCAGGAGCGTCGGGGTGAGTGATGGGGTGGTTCACATCAATTG
Y
TGCTTCAGGGATCACAGATTTTAGGGGCTCATTGATCTATCTGGTCCTCATAGTCTATGTTCCCTCTGGCCCTCATAATAATAACAGCAATAACAGCCAG
Celera SNP ID:            hCV8851059
SNP Position Genomic:     13455
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,13)   caucasian(C,22|T,2)   total(C,37|T,15)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,13)   caucasian(C,27|T,3)   total(C,46|T,16)
SNP Type:                 INTRON

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:2846):
CTTCAGACAGTTTTATTTAAGATGTGTAGAATAAAGAGGAGGTCAGGCTGGGTAGAACCAGAAGTATCTATTGCCCTGTTCGCGGTCACCTGAGTTATTT
Y
TAATGTTATGTTATAATAAACACCACAATAGGCTTCTCTTCATAGATGCAAATACTTTTTAGTATTCTTGGTAGAAATTCCTAATGAGCTCAGCTGTCTC
Celera SNP ID:            hCV27957215
SNP Position Genomic:     14334
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2847):
CAAGGGCACCATGGAGTCCACCTTTAGTCTCCAGTGTCATTGCTAAGGCAAGATCCCAGGTCTTGACTCAGATATCCTGACCTGCCTCTTCTCCTGGTGC
S
TTGGGCCCCAGACCCTAAAATTCCAGGCCCAGAGCCCCCCAGCTCCTTGAGTCCAGATTCCTCCTCCTCTGCCATCCATCCGCCCCTGCCTGTTCAATTG
Celera SNP ID:            hCV27957216
SNP Position Genomic:     7878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2848):
TTGGGGATGTGTGTGGAGTTGGGGGAGCATGCAGGGAATTGTGGAATCAGCCCTGCCCACTTTACCCACTCCCCTATGGCTCCAGCTCTCCCTCCAGCAG
R
TTTTGATTGAACATTCATTCTACGCAGGGAGCTCCAGTAATCTACCCTCAGTCCCTGTCACATGGCTCCACTGCCTCATCTCATTCCCCCTACAAACCTC
Celera SNP ID:            hCV16075810
SNP Position Genomic:     8555
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2849):
TTTGTCGTGTTTTTCTCTACTGTCTTTATGCAGCGGACCATGTGTCAACTTATGCCGCGTTTGTACAGACGCATAGACCAACAGGGGAGTTTATGTTTGA
R
TTTGATGAAGATGAGATGTTCTATGTGGATCTGGACAAGAAGGAGACCGTCTGGCATCTGGAGGAGTTTGGCCAAGCCTTTTCCTTTGAGGCTCAGGGCG
Celera SNP ID:            hCV15760058
SNP Position Genomic:     17045
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 SILENT MUTATION

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


Context             (SEQ ID NO:2850):
TTTTTCTCTACTGTCTTTATGCAGCGGACCATGTGTCAACTTATGCCGCGTTTGTACAGACGCATAGACCAACAGGGGAGTTTATGTTTGAATTTGATGA
H
GATGAGATGTTCTATGTGGATCTGGACAAGAAGGAGACCGTCTGGCATCTGGAGGAGTTTGGCCAAGCCTTTTCCTTTGAGGCTCAGGGCGGGCTGGCTA
Celera SNP ID:            hCV15760059
SNP Position Genomic:     17054
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,36)   total(A,73|T,1)
SNP Type:                 MISSENSE MUTATION

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


Context             (SEQ ID NO:2851):
CATTCTACGCAGGGAGCTCCAGTAATCTACCCTCAGTCCCTGTCACATGGCTCCACTGCCTCATCTCATTCCCCCTACAAACCTCAACCCAGCCTTTGCC
Y
GTCCTCCCTTTCACTGCCCAGCATCACATGCCCCCTTCTGCTCTCTGCTCCCCCACCTCTGGGTTTCCTTGGTGGCTCCCAACACTGTCCCTCATCCCAC
Celera SNP ID:            hCV11407960
SNP Position Genomic:     8671
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:2852):
CATGCCCCCTTCTGCTCTCTGCTCCCCCACCTCTGGGTTTCCTTGGTGGCTCCCAACACTGTCCCTCATCCCACATGACAGCTCTGCCTATGGGATGGGG
R
CGCTGCATCCGTCACTTCCTCCTGACACTGTTCAGTGTCACCAGTGCTGCTCCAGCCTCCTCTCTCCCCAGCCTCACCCCTCTGCAGTTCCCAGGGCTGA
Celera SNP ID:            hCV11407961
SNP Position Genomic:     8798
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:2853):
ATGCCCCCTTCTGCTCTCTGCTCCCCCACCTCTGGGTTTCCTTGGTGGCTCCCAACACTGTCCCTCATCCCACATGACAGCTCTGCCTATGGGATGGGGG
Y
GCTGCATCCGTCACTTCCTCCTGACACTGTTCAGTGTCACCAGTGCTGCTCCAGCCTCCTCTCTCCCCAGCCTCACCCCTCTGCAGTTCCCAGGGCTGAG
Celera SNP ID:            hCV11407962
SNP Position Genomic:     8799
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:2854):
CAGTCATTCCTTAGTAAAGTTTCCAACAAATAGAAATTAATGACACTTTGGTAGCACTAATATGGAGATTATCCTTTCATTGAGCCTTTTATCCTCTGTT
Y
TCCTTTGAAGAACCCCTCACTGTCACCTTCCCGAGAATACCCTAAGACCAATAAATACTTCAGTATTTCAGAGCGGGGAGACTCTGAGTCATTCTTACTG
Celera SNP ID:            hCV27466294
SNP Position Genomic:     21778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:2855):
AGCAGTCATTCCTTAGTAAAGTTTCCAACAAATAGAAATTAATGACACTTTGGTAGCACTAATATGGAGATTATCCTTTCATTGAGCCTTTTATCCTCTG
K
TCTCCTTTGAAGAACCCCTCACTGTCACCTTCCCGAGAATACCCTAAGACCAATAAATACTTCAGTATTTCAGAGCGGGGAGACTCTGAGTCATTCTTAC
Celera SNP ID:            hCV11916962
SNP Position Genomic:     21776
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:2856):
GTCATTCCTTAGTAAAGTTTCCAACAAATAGAAATTAATGACACTTTGGTAGCACTAATATGGAGATTATCCTTTCATTGAGCCTTTTATCCTCTGTTCT
Y
CTTTGAAGAACCCCTCACTGTCACCTTCCCGAGAATACCCTAAGACCAATAAATACTTCAGTATTTCAGAGCGGGGAGACTCTGAGTCATTCTTACTGGA
Celera SNP ID:            hCV11916963
SNP Position Genomic:     21780
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:2857):
CCCCCTTCTGCTCTCTGCTCCCCCACCTCTGGGTTTCCTTGGTGGCTCCCAACACTGTCCCTCATCCCACATGACAGCTCTGCCTATGGGATGGGGGCGC
Y
GCATCCGTCACTTCCTCCTGACACTGTTCAGTGTCACCAGTGCTGCTCCAGCCTCCTCTCTCCCCAGCCTCACCCCTCTGCAGTTCCCAGGGCTGAGCCG
Celera SNP ID:            hCV11407963
SNP Position Genomic:     8802
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:2858):
TTAGTAAAGTTTCCAACAAATAGAAATTAATGACACTTTGGTAGCACTAATATGGAGATTATCCTTTCATTGAGCCTTTTATCCTCTGTTCTCCTTTGAA
R
AACCCCTCACTGTCACCTTCCCGAGAATACCCTAAGACCAATAAATACTTCAGTATTTCAGAGCGGGGAGACTCTGAGTCATTCTTACTGGAAGTCTAGG
Celera SNP ID:            hCV11916964
SNP Position Genomic:     21788
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:2859):
CTCTGCTCCCCCACCTCTGGGTTTCCTTGGTGGCTCCCAACACTGTCCCTCATCCCACATGACAGCTCTGCCTATGGGATGGGGGCGCTGCATCCGTCAC
Y
TCCTCCTGACACTGTTCAGTGTCACCAGTGCTGCTCCAGCCTCCTCTCTCCCCAGCCTCACCCCTCTGCAGTTCCCAGGGCTGAGCCGTCCTGCTGGTTA
Celera SNP ID:            hCV11407964
SNP Position Genomic:     8814
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:2860):
CCTTCCTGTCCCATCCTTGAGAAATCCTCTTACTGCACACACCTCACCTCTCTCCATCCCTTTACACCCAGACTTCCTGAAGGAAAAAGACGAATGAACT
S
AGACACTGCCCTGTGACAGCCGTGGGGAACCCAAGACAAGTAAAATCCATCTCAGCCCCGAGGAGGATGCGCCACACTCAGCCTCATGCACCCCCTCCCA
Celera SNP ID:            hCV15905349
SNP Position Genomic:     5072
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2861):
AGAGGCATTCTTCGTGAGCACTGAATCCTCAGTGATCCTCAGAGCCTGGACACTCCAGCTTAGGGCTCTCTGCCTGAGTCCCCTCCAGGCTGGATGCAGA
Y
ATGAACACGCCCAGGAGCCTGCACTTGCCAACTTCTCTCTCTGCAAACCTTGTCTGTCCAAGGTTATCCAGGACCTCTTGGTCCCATTTTCCCCAAAGAC
Celera SNP ID:            hCV11407965
SNP Position Genomic:     10379
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2862):
TGTTCTTGGGCACACTGGGGAAATTAAGGTGCTGTGATTGTTCTGCTCATCTGTTTCATGCTCCACAAATTAACTTCTCCAGTTTATTAACCTCACCCCT
W
GCAGAAGTTGCACAGCTGGTGGCAGAGGATAGTGGAGATGGGGTAGGGCTGGGCTCAAGGGCACCATGGAGTCCACCTTTAGTCTCCAGTGTCATTGCTA
Celera SNP ID:            hCV8851061
SNP Position Genomic:     7722
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:2863):
GAGGCATTCTTCGTGAGCACTGAATCCTCAGTGATCCTCAGAGCCTGGACACTCCAGCTTAGGGCTCTCTGCCTGAGTCCCCTCCAGGCTGGATGCAGAC
R
TGAACACGCCCAGGAGCCTGCACTTGCCAACTTCTCTCTCTGCAAACCTTGTCTGTCCAAGGTTATCCAGGACCTCTTGGTCCCATTTTCCCCAAAGACA
Celera SNP ID:            hCV11407966
SNP Position Genomic:     10380
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:2864):
GATGAGTGGACCCCAGAGCCAGAGAGTCCCCTGCTCTTCAGAGGTGGGGTCTAGAGGGTCATCAGAGACTCACTCCACTCCACGGTGACAGGACTATCCA
M
GCTGGTGTGCTCCACTTGGCAGGTGTAGACATCTCCCTGCTGGGGGGTCATTTCCAGCATCACCAGGATCTGGAAGGTCCAGTCTCCATTACGGATCAGG
Celera SNP ID:            hCV11916894
SNP Position Genomic:     1656
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,33)   caucasian(A,8|C,32)   total(A,11|C,65)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:2865):
CCGTCCCTGGAAAAGGTAATTCTCTGCGGGGAGGGGGCGGACATGAGCGGAGGCGCCACTCTCATCTAATCCTCTTTCTCCCTCTCTCTCTCAATATTAA
S
GATTCTTCCCAAATCTTCCCACCCAGGGCTGGATTTTAAAATAGGAGTTTTCCTAGTACCGAGTTCTGTGGTCCTAAGCGGGTCGCAGAGCCTCTCCAGG
Celera SNP ID:            hCV25651197
SNP Position Genomic:     6266
SNP Source:               Applera
Population(Allele,Count): african american(C,28|G,4)   caucasian(C,14)   total(C,42|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:2866):
CAATTGCTGCTTCAGGGATCACAGATTTTAGGGGCTCATTGATCTATCTGGTCCTCATAGTCTATGTTCCCTCTGGCCCTCATAATAATAACAGCAATAA
Y
AGCCAGAATTTATGAGACTCCTGCATAGTTTCTTTCCCCATTTACATCTCACAGGAATCTTCAATGAAGATAATATTCCATTCATTTAGAAATTATTCCT
Celera SNP ID:            hCV27858595
SNP Position Genomic:     13549
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,1)   caucasian(C,32)   total(C,57|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:2867):
GAGCCTGGACACTCCAGCTTAGGGCTCTCTGCCTGAGTCCCCTCCAGGCTGGATGCAGACATGAACACGCCCAGGAGCCTGCACTTGCCAACTTCTCTCT
S
TGCAAACCTTGTCTGTCCAAGGTTATCCAGGACCTCTTGGTCCCATTTTCCCCAAAGACAAGCACTGACCACTGGGCACCTCTCTCTGTTTACTGTACCC
Celera SNP ID:            hCV11407967
SNP Position Genomic:     10420
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,12)   total(G,1|C,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2868):
AGATGTGAGCAGCACCATCAGTAACGCCGTCAGAGCCACTGTCCGGGGGGCCGCAGAAACCTGCAGAACCATCATGGAGCTGGAAAAGGATGGCAAAATG
R
AAAGAGCTGCAGTCAGGAAAAGAAGGACTCGCTAAAGGGAGCTCCTGTTTGAAATATTAGAGACCATGAACCCAAGTAGTCTTCTGTGACCCTGGGATTG
Celera SNP ID:            hCV25651198
SNP Position Genomic:     10848
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:2869):
CACAGATTTTAGGGGCTCATTGATCTATCTGGTCCTCATAGTCTATGTTCCCTCTGGCCCTCATAATAATAACAGCAATAACAGCCAGAATTTATGAGAC
K
CCTGCATAGTTTCTTTCCCCATTTACATCTCACAGGAATCTTCAATGAAGATAATATTCCATTCATTTAGAAATTATTCCTTTTATTTAGAAATTATTTT
Celera SNP ID:            hCV27837183
SNP Position Genomic:     13568
SNP Source:               Applera
Population(Allele,Count): african american(G,13|T,13)   caucasian(G,2|T,22)   total(G,15|T,35)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,27)   caucasian(G,3|T,37)   total(G,10|T,64)
SNP Type:                 INTRON


Context             (SEQ ID NO:2870):
ACATGCTGTTCTTCCTAGGGAGTGCCATGAGCAGTGTCTGGCAGGTGTGTGTCTACACAGAATTATCAGTGACACGGCACATGTTTGTTTCTGTTTGAGT
R
TCTTCAGGCCTGCTCTGTTCTTGGGCACACTGGGGAAATTAAGGTGCTGTGATTGTTCTGCTCATCTGTTTCATGCTCCACAAATTAACTTCTCCAGTTT
Celera SNP ID:            hCV8851064
SNP Position Genomic:     7606
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,13)      total(G,3|A,13) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2871):
ACCCCAGCTGTTTCCTCCTGTCCATTCAGGAACCATCGGACTTGAATGCTGCCTGGGTAGAAATCCGTCACGTGGCAGACAAGCAGGTTGTGGTGCTGCA
Y
GGGCCCCTTCTTGGAGGGGGAAACATTCACCCTAGGCTGGACTAGGAGCGTGGAAGAAAAATAATGAAATAGAATTTGAGATTGTCCTTCTTTCCTTCCT
Celera SNP ID:            hCV11916897
SNP Position Genomic:     1869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:2872):
TCGCTGTCGAAGCGCGCGAACTCCTCCCGGTTGTAGATGTATCTCTCCAGGAAGCGCTGTGTCCCATTAAACGCGTAGCATTCCTGCCGTCCCTGGAAAA
S
GTAATTCTCTGCGGGGAGGGGGCGGACATGAGCGGAGGCGCCACTCTCATCTAATCCTCTTTCTCCCTCTCTCTCTCAATATTAACGATTCTTCCCAAAT
Celera SNP ID:            hCV8851065
SNP Position Genomic:     6180
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,10)   caucasian(C,4|G,10)   total(C,12|G,20)
SNP Type:                 MISSENSE MUTATION;UTR 5;INTRON


Context             (SEQ ID NO:2873):
CGTCGCTGTCGAAGCGCGCGAACTCCTCCCGGTTGTAGATGTATCTCTCCAGGAAGCGCTGTGTCCCATTAAACGCGTAGCATTCCTGCCGTCCCTGGAA
M
AGGTAATTCTCTGCGGGGAGGGGGCGGACATGAGCGGAGGCGCCACTCTCATCTAATCCTCTTTCTCCCTCTCTCTCTCAATATTAACGATTCTTCCCAA
Celera SNP ID:            hCV8851066
SNP Position Genomic:     6178
SNP Source:               Applera
Population(Allele,Count): african american(A,13|C,11)   caucasian(A,9|C,3)   total(A,22|C,14)
SNP Type:                 SILENT MUTATION;UTR 5;INTRON


Context             (SEQ ID NO:2874):
CACGTCGCTGTCGAAGCGCGCGAACTCCTCCCGGTTGTAGATGTATCTCTCCAGGAAGCGCTGTGTCCCATTAAACGCGTAGCATTCCTGCCGTCCCTGG
W
AAAGGTAATTCTCTGCGGGGAGGGGGCGGACATGAGCGGAGGCGCCACTCTCATCTAATCCTCTTTCTCCCTCTCTCTCTCAATATTAACGATTCTTCCC
Celera SNP ID:            hCV8851068
SNP Position Genomic:     6176
SNP Source:               Applera
Population(Allele,Count): african american(A,10|T,8)   caucasian(A,9|T,3)   total(A,19|T,11)
SNP Type:                 MISSENSE MUTATION;UTR 5;INTRON


Context             (SEQ ID NO:2875):
TCCCCCACGTCGCTGTCGAAGCGCGCGAACTCCTCCCGGTTGTAGATGTATCTCTCCAGGAAGCGCTGTGTCCCATTAAACGCGTAGCATTCCTGCCGTC
N
CTGGAAAAGGTAATTCTCTGCGGGGAGGGGGCGGACATGAGCGGAGGCGCCACTCTCATCTAATCCTCTTTCTCCCTCTCTCTCTCAATATTAACGATTC
Celera SNP ID:            hCV8851069
SNP Position Genomic:     6171
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,24)   caucasian(C,10)   total(A,2|C,34)
SNP Type:                 NONSENSE MUTATION;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 NONSENSE MUTATION;UTR 5


Context             (SEQ ID NO:2876):
ACCATGGAGTCCACCTTTAGTCTCCAGTGTCATTGCTAAGGCAAGATCCCAGGTCTTGACTCAGATATCCTGACCTGCCTCTTCTCCTGGTGCCTTGGGC
S
CCAGACCCTAAAATTCCAGGCCCAGAGCCCCCCAGCTCCTTGAGTCCAGATTCCTCCTCCTCTGCCATCCATCCGCCCCTGCCTGTTCAATTGCCCCACT
Celera SNP ID:            hCV27453482
SNP Position Genomic:     7885
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2877):
GGGTCATTTCCAGCATCACCAGGATCTGGAAGGTCCAGTCTCCATTACGGATCAGGTTGGTGGACACGACCCCAGCTGTTTCCTCCTGTCCATTCAGGAA
S
CATCGGACTTGAATGCTGCCTGGGTAGAAATCCGTCACGTGGCAGACAAGCAGGTTGTGGTGCTGCAAGGGCCCCTTCTTGGAGGGGGAAACATTCACCC
Celera SNP ID:            hCV25651123
SNP Position Genomic:     1801
SNP Source:               Applera
Population(Allele,Count): african american(C,16|G,10)   caucasian(C,6|G,2)   total(C,22|G,12)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:2878):
CTACTGTCTTTATGCAGCGGACCATGTGTCAACTTATGCCGCGTTTGTACAGACGCATAGACCAACAGGGGAGTTTATGTTTGAATTTGATGAAGATGAG
M
TGTTCTATGTGGATCTGGACAAGAAGGAGACCGTCTGGCATCTGGAGGAGTTTGGCCAAGCCTTTTCCTTTGAGGCTCAGGGCGGGCTGGCTAACATTGC
Celera SNP ID:            hCV15760060
SNP Position Genomic:     17061
SNP Source:               Applera
Population(Allele,Count): african american(A,20|C,12)   caucasian(A,33|C,5)   total(A,53|C,17)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:2879):
CTTAGGGCAGGAGCCCCCGCAGCCTGTCTCAGAATTTGATCCCTTAAAGATAACGTCCCCTAGGAATTGTTCCCTGAGCCAGACCCTCCAAGAATGGCAG
Y
TCGGCTCTTACCTGGAGTGGCCCTGCCCTGGACCACAGATGTGAGCAGCACCATCAGTAACGCCGTCAGAGCCACTGTCCGGGGGGCCGCAGAAACCTGC
Celera SNP ID:            hCV22274829
SNP Position Genomic:     10711
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,20)   caucasian(C,5|T,33)   total(C,21|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:2880):
AGATGGGGTTTGGACATGGCCCCAGGGTATAGATGCAGAAGATAAGATGAGTGGACCCCAGAGCCAGAGAGTCCCCTGCTCTTCAGAGGTGGGGTCTAGA
B
GGTCATCAGAGACTCACTCCACTCCACGGTGACAGGACTATCCAGGCTGGTGTGCTCCACTTGGCAGGTGTAGACATCTCCCTGCTGGGGGGTCATTTCC
Celera SNP ID:            hCV22273955
SNP Position Genomic:     1611
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,24|T,4)   caucasian(C,2|G,38)   total(C,10|G,62|T,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:2881):
TCCAGTAATCTACCCTCAGTCCCTGTCACATGGCTCCACTGCCTCATCTCATTCCCCCTACAAACCTCAACCCAGCCTTTGCCTGTCCTCCCTTTCACTG
Y
CCAGCATCACATGCCCCCTTCTGCTCTCTGCTCCCCCACCTCTGGGTTTCCTTGGTGGCTCCCAACACTGTCCCTCATCCCACATGACAGCTCTGCCTAT
Celera SNP ID:            hCV16075820
SNP Position Genomic:     8688
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2882):
TCAGTCCCTGTCACATGGCTCCACTGCCTCATCTCATTCCCCCTACAAACCTCAACCCAGCCTTTGCCTGTCCTCCCTTTCACTGCCCAGCATCACATGC
Y
CCCTTCTGCTCTCTGCTCCCCCACCTCTGGGTTTCCTTGGTGGCTCCCAACACTGTCCCTCATCCCACATGACAGCTCTGCCTATGGGATGGGGGCGCTG
Celera SNP ID:            hCV16075821
SNP Position Genomic:     8703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2883):
ACTTGGGTTTTTTTGGTCTCTTTCACAGGCTTTTCTGTCTTGGCCAAATCACAACTGTCCAGTTCCCAGGATCCGGTCCTTTGCTCTTCCCCCTGGGTCC
Y
CTCTCCCTGGATGGTCTCATGTATCTCAGTCTCCTCCCCGGCTGCAGACCCTTCTGTCTACCTGCCCATCAGACCACCCATCTGCCCCTCAAGCACCTCA
Celera SNP ID:            hCV15905350
SNP Position Genomic:     5452
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2884):
GCTACCCTGAAAGATGAGGAGGTGACATGATGTCAGTACCTTCTAGGTGTGTCCTAGGAGGGGTGTGGAGAGGTCTAGGAGGAAGGGTGTAAGCAGGAAA
R
GTGGAAGTCAGTGGAAAACTAAGGTACCTACTTTGCAGTCCTTCCTCTCAGAGTGTTGGTGTAAATTTGGACTAGAAATGTCCTGAGAGTACAATGGTTG
Celera SNP ID:            hCV16075822
SNP Position Genomic:     9137
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2885):
GGTCATGGGCCCGCCCAGCTCGTAGTTGTGTCTGCACATCCTGTCCGGCACTGCCCGCTTCTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCCGCA
K
CAGGCCGCCCCAGCTCCGTCACCGCCCGGAACTCCCCCACGTCGCTGTCGAAGCGCGCGAACTCCTCCCGGTTGTAGATGTATCTCTCCAGGAAGCGCTG
Celera SNP ID:            hCV15905351
SNP Position Genomic:     6038
SNP Source:               Applera
Population(Allele,Count): african american(G,13|T,17)   caucasian(G,9|T,5)   total(G,22|T,22)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS


Context             (SEQ ID NO:2886):
TTCCTCAGCCTCCCGAATAGCTGGGATTATAGGTGCCTGCCACTTCACCTGGCTAATTTTTGTATTATTAGTAGAGACAAGGTTTCTCCATGTTGGTCAG
S
CTGGTTCTCTAGGAGCACTTGACCAACGCCTGACCTCAAGTGATCCACCCGCTCGGCCTCTCAAAGGGCTGGGATTACGGGCCTGAGCCACTGCATCTGC
Celera SNP ID:            hCV27462302
SNP Position Genomic:     2255
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2887):
TTCCATATCAGAGCTGTGATCTTGAGAGCCCTCTCCTTGGCTTTCCTGCTGAGTCTCCGAGGAGCTGGGGCCATCAAGGGTGAGTGCTCAGGAGGACGCA
R
GAGCGTCGGGGTGAGTGATGGGGTGGTTCACATCAATTGCTGCTTCAGGGATCACAGATTTTAGGGGCTCATTGATCTATCTGGTCCTCATAGTCTATGT
Celera SNP ID:            hCV27015421
SNP Position Genomic:     13415
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,13)   caucasian(A,2|G,24)   total(A,15|G,37)
SNP Type:                 INTRON;TFBS

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:2888):
AGTAAAGTTTCCAACAAATAGAAATTAATGACACTTTGGTAGCACTAATATGGAGATTATCCTTTCATTGAGCCTTTTATCCTCTGTTCTCCTTTGAAGA
R
CCCCTCACTGTCACCTTCCCGAGAATACCCTAAGACCAATAAATACTTCAGTATTTCAGAGCGGGGAGACTCTGAGTCATTCTTACTGGAAGTCTAGGAC
Celera SNP ID:            hCV11916970
SNP Position Genomic:     21790
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;(G,-|A,-)   POOLE|_CEPH(G,32|A,156)   total(G,32|A,156)   (A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:2889):
CTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATCGCCATTTTAACTGGTGTGAGATGGTATCTCAAGACAGTGTGGCAATTCCTCAA
R
GATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGATATATACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACATA
Celera SNP ID:            hCV16157830
SNP Position Genomic:     9382
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:2890):
AAAAATAAAGTCCATAGAGAATATAAATTGACTGGTAAATAAGGAAGAAAGTGAAAAAAAATCATCAAAGACCCCACCTCCTTCAAAGCATCTGATTCTA
Y
TTTGTTTAGAGTGAATATTTTTACAAACTTTCAAAGAACATTACTTCTTACTTTAGACACTTATAAATGTGATCCTGTTGGACCACCAATTCTAATTTCA
Celera SNP ID:            hCV27015422
SNP Position Genomic:     11761
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:2891):
GAAATTAATGACACTTTGGTAGCACTAATATGGAGATTATCCTTTCATTGAGCCTTTTATCCTCTGTTCTCCTTTGAAGAACCCCTCACTGTCACCTTCC
Y
GAGAATACCCTAAGACCAATAAATACTTCAGTATTTCAGAGCGGGGAGACTCTGAGTCATTCTTACTGGAAGTCTAGGACCAGGTCACATGTGAATACTA
Celera SNP ID:            hCV11916971
SNP Position Genomic:     21810
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:2892):
AGTTAGTATGAAAGGTCTGAAAATATAAAGCCTGTGATGCACTTAAGATGACGGAGGAAAGACAGTGATACTCATTTTAACCAGTCAGATAAGTCATGAT
R
TTTGGGGAGATTATGCGTTTTCTTTGCTCTGAAGGTGATCTCAAATATTCTGCTGGCCCATCTACAGGGATTATCATTTCCCCAATTCTGCCACACCTCA
Celera SNP ID:            hCV27015423
SNP Position Genomic:     11115
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2893):
GACACTTTGGTAGCACTAATATGGAGATTATCCTTTCATTGAGCCTTTTATCCTCTGTTCTCCTTTGAAGAACCCCTCACTGTCACCTTCCCGAGAATAC
Y
CTAAGACCAATAAATACTTCAGTATTTCAGAGCGGGGAGACTCTGAGTCATTCTTACTGGAAGTCTAGGACCAGGTCACATGTGAATACTATTTCTTGAA
Celera SNP ID:            hCV11916972
SNP Position Genomic:     21819
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:2894):
TGCCTGAGTCCCCTCCAGGCTGGATGCAGACATGAACACGCCCAGGAGCCTGCACTTGCCAACTTCTCTCTCTGCAAACCTTGTCTGTCCAAGGTTATCC
W
GGACCTCTTGGTCCCATTTTCCCCAAAGACAAGCACTGACCACTGGGCACCTCTCTCTGTTTACTGTACCCATGTCCTTGGAGAGAGAATAGGCCAGTAG
Celera SNP ID:            hCV27015425
SNP Position Genomic:     10449
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;JBIC-allele(T,206|A,1289)   total(A,1289|T,206)
SNP Type:                 INTRON


Context             (SEQ ID NO:2895):
CTGGATTAAGAAAATGCACACATATACACCATGGAATACTGTGCAGCCATAAAAAAGGATGAGTTCATGTCCTTTGTAGGGACATGGAGGAAGCTGGAAA
Y
CATCATTCACAGCAAACTATTGCAAGGACAAAAAACCAAAGACCACATGTTCTCACTCATAGGTGGGAACTGAACAATGAGAACACATGGACACAGGAAG
Celera SNP ID:            hCV27015426
SNP Position Genomic:     9650
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2896):
TTTTTTAAGTACATTTAACTTTTGAAATGGAATTTTACCTGCCAAGTAGACATAAGCAATGAGGGGTTTTATGGTGTAATTTGAAACCTTCATTTTTTTT
T
GTATATAAGAAACTTTATCCTGTTTGTGGAACCCTTAGCAATTGAGTTGCCCAGAGCACGGTTTGAAACCACTGATCTGAATGAATTCGTCTCTTATTCA
Celera SNP ID:            hCV27015427
SNP Position Genomic:     8233
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2897):
CTCCCCCACGTCGCTGTCGAAGCGCGCGAACTCCTCCCGGTTGTAGATGTATCTCTCCAGGAAGCGCTGTGTCCCATTAAACGCGTAGCATTCCTGCCGT
N
CCTGGAAAAGGTAATTCTCTGCGGGGAGGGGGCGGACATGAGCGGAGGCGCCACTCTCATCTAATCCTCTTTCTCCCTCTCTCTCTCAATATTAACGATT
Celera SNP ID:            hCV8851070
SNP Position Genomic:     6170
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,21)   caucasian(C,8)   total(A,3|C,29)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:2898):
GCACCTTCCAGCGTCCTCTTTACCCAGCAACAGAGAATGTCAGCTCTATGATTTCTCTGATAGGTGAATCCCAGCCATGCTGATTCCTCTCCACCCATTT
S
CAGTGCTAGAGGCCCACAGTTTCAGTCTCATCTGCCTCCACTCGGCCTCAGTTCCTCATCACTGTTCCTGTGCTCACAGTCATCAATTATAGACCCCACA
Celera SNP ID:            hCV27831232
SNP Position Genomic:     13191
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,1)   caucasian(C,40)   total(C,73|G,1)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:2899):
AGTGACCAAAAAACATCAAAGATCATCTGACTGTCTGGGATGGGGGTGGGGCTCGGGAGAAGGAACATAATGGAAAACATTTGCCGTCAGAAGAAGGTGT
R
ACTTATCTTTTTACATCTCTTTCTCTAACTCTGAAAATGAACTGTGAACTGGAGCTCTCTTGACCACGCTGGTACCTAAAATTCTCCCATCTCTTCCCCA
Celera SNP ID:            hCV27831233
SNP Position Genomic:     12990
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:2900):
CTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGCCGCCCCAGCTCCGTCACCGCCCGGAACTCCCCCACGTCGCTGTCGAAGCGCGCG
W
ACTCCTCCCGGTTGTAGATGTATCTCTCCAGGAAGCGCTGTGTCCCATTAAACGCGTAGCATTCCTGCCGTCCCTGGAAAAGGTAATTCTCTGCGGGGAG
Celera SNP ID:            hCV8851072
SNP Position Genomic:     6098
SNP Source:               Applera
Population(Allele,Count): african american(A,25|T,7)   caucasian(A,12|T,2)   total(A,37|T,9)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:2901):
TGGTAGAAATTCCTAATGAGCTCAGCTGTCTCTTCAGGGCTTCCCTGCCCAGTCTCTTAACATTTAAACATGTCATTTACCTTAAAAACATAAGTGCAAA
Y
CAACTGATAAAAAACAACCTTGCCTTCAGTCTGCATCCTGTCCCAGAGACACTTTCTTTGTGTCCTCACACGTGGAGCTAAGCTTCTGACTTGTCTCTGG
Celera SNP ID:            hCV27881280
SNP Position Genomic:     14503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2902):
CTTCTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGCCGCCCCAGCTCCGTCACCGCCCGGAACTCCCCCACGTCGCTGTCGAAGCGC
R
CGAACTCCTCCCGGTTGTAGATGTATCTCTCCAGGAAGCGCTGTGTCCCATTAAACGCGTAGCATTCCTGCCGTCCCTGGAAAAGGTAATTCTCTGCGGG
Celera SNP ID:            hCV8851073
SNP Position Genomic:     6095
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,15)   caucasian(A,5|G,9)   total(A,22|G,24)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:2903):
GGGCTCTTCCTGGGTCTTTGTGGGTGGTCACAAGCTTTCCTCTCTCAAGACAGCAGGGTTGCATGGTCTTGATAGCCTTGTGATTCGGGTTCTGAGAGAT
Y
CAGGACTGCAAGGGAGGCCTAGACTTTTGATAGCTGCAAGGACTCAGCCAGAGATGGACCGTAGTGAATGCTCCTTTTTCCTGTAGCTGAAATCAGGGAG
Celera SNP ID:            hCV27881281
SNP Position Genomic:     14045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2904):
CAGGGTCATGGGCCCGCCCAGCTCGTAGTTGTGTCTGCACATCCTGTCCGGCACTGCCCGCTTCTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCC
K
CAGCAGGCCGCCCCAGCTCCGTCACCGCCCGGAACTCCCCCACGTCGCTGTCGAAGCGCGCGAACTCCTCCCGGTTGTAGATGTATCTCTCCAGGAAGCG
Celera SNP ID:            hCV8851074
SNP Position Genomic:     6035
SNP Source:               Applera
Population(Allele,Count): african american(G,15|T,17)   caucasian(G,9|T,5)   total(G,24|T,22)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:2905):
GCTGGGAAGAGAGGACACTGCCTTAGGGCAGGAGCCCCCGCAGCCTGTCTCAGAATTTGATCCCTTAAAGATAACGTCCCCTAGGAATTGTTCCCTGAGC
Y
AGACCCTCCAAGAATGGCAGTTCGGCTCTTACCTGGAGTGGCCCTGCCCTGGACCACAGATGTGAGCAGCACCATCAGTAACGCCGTCAGAGCCACTGTC
Celera SNP ID:            hCV27881282
SNP Position Genomic:     10690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2906):
GCTGCAGGGTCATGGGCCCGCCCAGCTCGTAGTTGTGTCTGCACATCCTGTCCGGCACTGCCCGCTTCTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTA
S
TCCGCAGCAGGCCGCCCCAGCTCCGTCACCGCCCGGAACTCCCCCACGTCGCTGTCGAAGCGCGCGAACTCCTCCCGGTTGTAGATGTATCTCTCCAGGA
Celera SNP ID:            hCV8851078
SNP Position Genomic:     6031
SNP Source:               Applera
Population(Allele,Count): african american(C,25|G,7)   caucasian(C,12|G,2)   total(C,37|G,9)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:2907):
CAAAGCCCTCACTCACCTCGGCGCTGCAGGGTCATGGGCCCGCCCAGCTCGTAGTTGTGTCTGCACATCCTGTCCGGCACTGCCCGCTTCTCCTCCAGGA
K
GTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGCCGCCCCAGCTCCGTCACCGCCCGGAACTCCCCCACGTCGCTGTCGAAGCGCGCGAACTCCTCCCGG
Celera SNP ID:            hCV8851079
SNP Position Genomic:     6009
SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,26)   caucasian(G,2|T,10)   total(G,8|T,36)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:2908):
TCAGAGCTGTGATCTTGAGAGCCCTCTCCTTGGCTTTCCTGCTGAGTCTCCGAGGAGCTGGGGCCATCAAGGGTGAGTGCTCAGGAGGACGCAGGAGCGT
Y
GGGGTGAGTGATGGGGTGGTTCACATCAATTGCTGCTTCAGGGATCACAGATTTTAGGGGCTCATTGATCTATCTGGTCCTCATAGTCTATGTTCCCTCT
Celera SNP ID:            hCV27852793
SNP Position Genomic:     13422
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2909):
CCATCGGACTTGAATGCTGCCTGGGTAGAAATCCGTCACGTGGCAGACAAGCAGGTTGTGGTGCTGCAAGGGCCCCTTCTTGGAGGGGGAAACATTCACC
Y
TAGGCTGGACTAGGAGCGTGGAAGAAAAATAATGAAATAGAATTTGAGATTGTCCTTCTTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCT
Celera SNP ID:            hCV11916902
SNP Position Genomic:     1901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:2910):
CAGGATCTGGAAGGTCCAGTCTCCATTACGGATCAGGTTGGTGGACACGACCCCAGCTGTTTCCTCCTGTCCATTCAGGAACCATCGGACTTGAATGCTG
Y
CTGGGTAGAAATCCGTCACGTGGCAGACAAGCAGGTTGTGGTGCTGCAAGGGCCCCTTCTTGGAGGGGGAAACATTCACCCTAGGCTGGACTAGGAGCGT
Celera SNP ID:            hCV25651133
SNP Position Genomic:     1820
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,15)   caucasian(C,6|T,2)   total(C,19|T,17)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:2911):
AGGCCAACCCGGCTGCTCCTGCGCCCTGGGCACGGGCCCGCGGGGCTGCCCTGGGACCGCCGGCCCAAAGCCCTCACTCACCTCGGCGCTGCAGGGTCAT
S
GGCCCGCCCAGCTCGTAGTTGTGTCTGCACATCCTGTCCGGCACTGCCCGCTTCTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGCC
Celera SNP ID:            hCV11916903
SNP Position Genomic:     5944
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:2912):
ATTACGGATCAGGTTGGTGGACACGACCCCAGCTGTTTCCTCCTGTCCATTCAGGAACCATCGGACTTGAATGCTGCCTGGGTAGAAATCCGTCACGTGG
Y
AGACAAGCAGGTTGTGGTGCTGCAAGGGCCCCTTCTTGGAGGGGGAAACATTCACCCTAGGCTGGACTAGGAGCGTGGAAGAAAAATAATGAAATAGAAT
Celera SNP ID:            hCV25651134
SNP Position Genomic:     1844
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,14)   caucasian(C,6|T,2)   total(C,20|T,16)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:2913):
TACTGTCTTTATGCAGCGGACCATGTGTCAACTTATGCCGCGTTTGTACAGACGCATAGACCAACAGGGGAGTTTATGTTTGAATTTGATGAAGATGAGA
W
GTTCTATGTGGATCTGGACAAGAAGGAGACCGTCTGGCATCTGGAGGAGTTTGGCCAAGCCTTTTCCTTTGAGGCTCAGGGCGGGCTGGCTAACATTGCT
Celera SNP ID:            hCV15760070
SNP Position Genomic:     17062
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,14)   caucasian(T,28)   total(A,6|T,42)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:2914):
AGCTGTTTCCTCCTGTCCATTCAGGAACCATCGGACTTGAATGCTGCCTGGGTAGAAATCCGTCACGTGGCAGACAAGCAGGTTGTGGTGCTGCAAGGGC
Y
CCTTCTTGGAGGGGGAAACATTCACCCTAGGCTGGACTAGGAGCGTGGAAGAAAAATAATGAAATAGAATTTGAGATTGTCCTTCTTTCCTTCCTTCCTT
Celera SNP ID:            hCV25651135
SNP Position Genomic:     1874
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,1)   caucasian(C,4)   total(C,15|T,1)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:2915):
ACCAACAGGGGAGTTTATGTTTGAATTTGATGAAGATGAGATGTTCTATGTGGATCTGGACAAGAAGGAGACCGTCTGGCATCTGGAGGAGTTTGGCCAA
R
CCTTTTCCTTTGAGGCTCAGGGCGGGCTGGCTAACATTGCTATATTGAACAACAACTTGAATACCTTGATCCAGCGTTCCAACCACACTCAGGCCACCAA
Celera SNP ID:            hCV15760071
SNP Position Genomic:     17121
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:2916):
TATTCATTCTCTAGCTTTGACCACTTGCATATTCAAACTGACATTTTGTCGTGTTTTTCTCTACTGTCTTTATGCAGCGGACCATGTGTCAACTTATGCC
R
CGTTTGTACAGACGCATAGACCAACAGGGGAGTTTATGTTTGAATTTGATGAAGATGAGATGTTCTATGTGGATCTGGACAAGAAGGAGACCGTCTGGCA
Celera SNP ID:            hCV25927605
SNP Position Genomic:     17001
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,32)   caucasian(A,2|G,36)   total(A,8|G,68)
SNP Type:                 MISSENSE MUTATION;TFBS

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


Context             (SEQ ID NO:2917):
TCTCATCTAATCCTCTTTCTCCCTCTCTCTCTCAATATTAACGATTCTTCCCAAATCTTCCCACCCAGGGCTGGATTTTAAAATAGGAGTTTTCCTAGTA
Y
CGAGTTCTGTGGTCCTAAGCGGGTCGCAGAGCCTCTCCAGGCCTGTTTTCTCACCACGCAGAGAGAGAATTTACTGAAAAGAATGAGCTCAGGGGCACTG
Celera SNP ID:            hCV15905361
SNP Position Genomic:     6325
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,1)   caucasian(C,2)   total(C,11|T,1)
SNP Type:                 INTRON;TFBS

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


Context             (SEQ ID NO:2918):
TGATAGGTGAATCCCAGCCATGCTGATTCCTCTCCACCCATTTCCAGTGCTAGAGGCCCACAGTTTCAGTCTCATCTGCCTCCACTCGGCCTCAGTTCCT
Y
ATCACTGTTCCTGTGCTCACAGTCATCAATTATAGACCCCACAACATGCGCCCTGAAGACAGAATGTTCCATATCAGAGCTGTGATCTTGAGAGCCCTCT
Celera SNP ID:            hCV25928339
SNP Position Genomic:     13248
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,2)   caucasian(C,22)   total(C,42|T,2)   
SNP Type:                 UTR 5;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:2919):
CCTATGTGTGAGGTCAGTTCCTAAGTGTGAGGGTTTCGAGACCAGTCAGTGTCCCTAGATTCTCTGACAAGGGGGAGAACTATGAATCTTCAGGAACCCC
Y
AAGCCAAGGTCAGGAAGTCTCCATTTCCCTGGCTTCAAACTATGCTCAGGAGCTGGTATAGAAGAAAGATGGGGTTTGGACATGGCCCCAGGGTATAGAT
Celera SNP ID:            hCV27015430
SNP Position Genomic:     1444
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2920):
TTCCCACCCAGGGCTGGATTTTAAAATAGGAGTTTTCCTAGTACCGAGTTCTGTGGTCCTAAGCGGGTCGCAGAGCCTCTCCAGGCCTGTTTTCTCACCA
Y
GCAGAGAGAGAATTTACTGAAAAGAATGAGCTCAGGGGCACTGAGTGATCACTAGGGAGGGGCGAGCACTGAGGGGAAGGCAGTCCCTTCTGCTGGTGGC
Celera SNP ID:            hCV15905362
SNP Position Genomic:     6382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2921):
AATCTGATAAGTGTTCATTGATCTTCTAATGGGTTAAAAGCATTCAGCCACATAACAACAACAACACCGATAACTAACTGAGTAGTTAATATGGTCAGGC
R
CTATTCTGAGGATTTACATTTATTAACTCACTTTATTCTCACACATAGTCTTTGAGGTAGGTACTATTATTTTCACTATTTCACATGAGAGATACTTACA
Celera SNP ID:            hCV27467616
SNP Position Genomic:     18387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2922):
GCCATTTTAACTGGTGTGAGATGGTATCTCAAGACAGTGTGGCAATTCCTCAAAGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGG
R
TATATACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACATATGTTTATTGCGGCACTATTCACAATAGCAAAGACTTGGAACCAACCC
Celera SNP ID:            hCV16157840
SNP Position Genomic:     9429
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:2923):
AACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGATATATACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACATATGTTTAT
W
GCGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAACTGTCCATCAGTGATAGACTGGATTAAGAAAATGCACACATATACACCATGGAATACTG
Celera SNP ID:            hCV16157841
SNP Position Genomic:     9490
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:2924):
CTCACACATAGTCTTTGAGGTAGGTACTATTATTTTCACTATTTCACATGAGAGATACTTACATCTTTTTACATACACAGAGACTTTAAGCACTTTGATC
M
AGTTCCCACAGCTATGAAGTAGTAGGGCTAGCTTCCAATCCAGAAAGTCTGGATCCAAGACTGTTTATCCACTGTCCTATTCACCCTATTTTGTGAAGGA
Celera SNP ID:            hCV27467617
SNP Position Genomic:     18525
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2925):
TTTCCAGTGCTAGAGGCCCACAGTTTCAGTCTCATCTGCCTCCACTCGGCCTCAGTTCCTCATCACTGTTCCTGTGCTCACAGTCATCAATTATAGACCC
Y
ACAACATGCGCCCTGAAGACAGAATGTTCCATATCAGAGCTGTGATCTTGAGAGCCCTCTCCTTGGCTTTCCTGCTGAGTCTCCGAGGAGCTGGGGCCAT
Celera SNP ID:            hCV27839019
SNP Position Genomic:     13288
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,40)   total(C,73|T,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:2926):
CAATCCAGAAAGTCTGGATCCAAGACTGTTTATCCACTGTCCTATTCACCCTATTTTGTGAAGGAAAAGACCAAGTTCAAATTCTCCAGAGTCCATTGCC
W
AATAATGGAGTCAGATCTATATTTCTATACATAATTACAACACAGTGTGGTGGGTGCCTGTAACTACTTACTGTCTCTACTTGGACTCATTCCATGGCAA
Celera SNP ID:            hCV27467618
SNP Position Genomic:     18661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2927):
GGACCGCCGGCCCAAAGCCCTCACTCACCTCGGCGCTGCAGGGTCATGGGCCCGCCCAGCTCGTAGTTGTGTCTGCACATCCTGTCCGGCACTGCCCGCT
Y
CTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGCCGCCCCAGCTCCGTCACCGCCCGGAACTCCCCCACGTCGCTGTCGAAGCGCGCG
Celera SNP ID:            hCV8851080
SNP Position Genomic:     5997
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,20)   caucasian(T,10)   total(C,6|T,30)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:2928):
AATCTGTGAGTTGGGAGGTGAGAGCAGAAGAGTCCCGTAGTTCCTTCTCACTCTGATGCATTTATCATTCTAAACCCAGACTTTCACATACACATTCATC
R
TTTTCTTTCATGATAATAGTTGCTTTTATCCTCTTATCTTTGCTAATTCTTACAAACTAATAAAGACTAAGAAACAAAATAAATTAAATCCTACAGGTGT
Celera SNP ID:            hCV15756054
SNP Position Genomic:     15875
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,506|A,781)   total(G,506|A,781) 
SNP Type:                 INTRON


Context             (SEQ ID NO:2929):
AAGAAACAAAATAAATTAAATCCTACAGGTGTTCCAAACTCAGCAATAATTTCTAGTTGGCCTCTAAAACAAAAATCAAAATATAAATGTAAGAAAAGTT
Y
AGAATGCTTAGTACCTGTGTGATGAAATAATCTGTACACTAAACCCCCAAGTCATGAGTTTACCTATACAACAAACCTGCACATGTACTCCTGAACATAA
Celera SNP ID:            hCV15756055
SNP Position Genomic:     16044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2930):
CCAAGTTCTGGGGAGGCTGGGAGAAGTACCTTTAATGAGAATGCCTTCAGGGGCTAAAACCTATCCCCCTCCCTCCCTTCTCTCCTTAATTGTCCAAGGG
R
TGTGGGCTCCTGCTCCACCCTGGGGAATAAGAGGCATTCTTCGTGAGCACTGAATCCTCAGTGATCCTCAGAGCCTGGACACTCCAGCTTAGGGCTCTCT
Celera SNP ID:            hCV2951087
SNP Position Genomic:     10249
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,9)      total(G,1|A,9) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2931):
CGGGCCCGCGGGGCTGCCCTGGGACCGCCGGCCCAAAGCCCTCACTCACCTCGGCGCTGCAGGGTCATGGGCCCGCCCAGCTCGTAGTTGTGTCTGCACA
Y
CCTGTCCGGCACTGCCCGCTTCTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGCCGCCCCAGCTCCGTCACCGCCCGGAACTCCCCC
Celera SNP ID:            hCV8851084
SNP Position Genomic:     5976
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,21)   caucasian(C,2|T,10)   total(C,11|T,31)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:2932):
GAAACAAAAGTTTGGAACAAATGCCAAAATAACTGTACTGTACTTTTGAATTTATATGCCCCAAATGAAAAATATTATCAACAAAGCTATACATTCTACA
K
TTTCATGTTCATAAACTAAGACAGAAACTTTAAAACTGTCAAGAGCCCTAAAATTTGAAGGATATTTTCTTCTTCCTCTCAATTTTGTATTTTTTTCTAC
Celera SNP ID:            hCV15756057
SNP Position Genomic:     16272
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,576|T,873)   total(G,576|T,873) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2933):
CACGGGCCCGCGGGGCTGCCCTGGGACCGCCGGCCCAAAGCCCTCACTCACCTCGGCGCTGCAGGGTCATGGGCCCGCCCAGCTCGTAGTTGTGTCTGCA
Y
ATCCTGTCCGGCACTGCCCGCTTCTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGCCGCCCCAGCTCCGTCACCGCCCGGAACTCCC
Celera SNP ID:            hCV8851085
SNP Position Genomic:     5974
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,9)   caucasian(C,9|T,3)   total(C,32|T,12)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:2934):
TATTTCTATACATAATTACAACACAGTGTGGTGGGTGCCTGTAACTACTTACTGTCTCTACTTGGACTCATTCCATGGCAATGTTCACACAAAAAATGCC
Y
CTCCAGAGATCTTACAGGTTTCTATTTATCATAACACTCACCATGCTTTATATTTTTATATGTTTTGGGAATTCTCTTAGCATTAGACAGTGAACTTCCA
Celera SNP ID:            hCV15756058
SNP Position Genomic:     18781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2935):
AACACTGGACATTATCCAGTTTTCTAACTTTTGCCAATTTCATGTGCATAAAGAAATATGCTGTTTTATTTTGCATTTCTTTAATTACTAATAATTGGGG
Y
TATAATTAGGACTGATTAGCCACTTGGGGGTTCCTTTTCTATAAATTGCCTGTTCACATTCATTGTCCATTTTTGTACTATGTGCTTCCATCATTTTCTT
Celera SNP ID:            hCV15756059
SNP Position Genomic:     20045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2936):
ACTATTCACAATAGCAAAGACTTGGAACCAACCCAACTGTCCATCAGTGATAGACTGGATTAAGAAAATGCACACATATACACCATGGAATACTGTGCAG
Y
CATAAAAAAGGATGAGTTCATGTCCTTTGTAGGGACATGGAGGAAGCTGGAAATCATCATTCACAGCAAACTATTGCAAGGACAAAAAACCAAAGACCAC
Celera SNP ID:            hCV27465226
SNP Position Genomic:     9596
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2937):
TCTCTGCGGGCCTCTCCTCACACTGCACTTGGGTTTTTTTGGTCTCTTTCACAGGCTTTTCTGTCTTGGCCAAATCACAACTGTCCAGTTCCCAGGATCC
R
GTCCTTTGCTCTTCCCCCTGGGTCCCCTCTCCCTGGATGGTCTCATGTATCTCAGTCTCCTCCCCGGCTGCAGACCCTTCTGTCTACCTGCCCATCAGAC
Celera SNP ID:            hCV8851089
SNP Position Genomic:     5426
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;SC_12_A(G,3|A,14)   SC_12_C(G,9|A,12)   SC_12_AA(G,3|A,14)   total(G,15|A,40)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2938):
CAGAACATTCCACGAGAGGCATCTTGCTCAATATTCTTTGACAGGAGCAGGTCAGCCTGGAGCCACATCAGTGACCTCCAGGGTGCGCTGGAGTTAAGGC
Y
TGATACCCAATGGCCTCATTTCTGACCCAGTTCAAATACATTTCACCAAGGCAAGGATTCCTGTTTGTTCTAGTTGCCTTCTCTAATGCCCAGAAAACAT
Celera SNP ID:            hCV27465227
SNP Position Genomic:     3983
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2939):
TTCCCTGCCCAGTCTCTTAACATTTAAACATGTCATTTACCTTAAAAACATAAGTGCAAACCAACTGATAAAAAACAACCTTGCCTTCAGTCTGCATCCT
R
TCCCAGAGACACTTTCTTTGTGTCCTCACACGTGGAGCTAAGCTTCTGACTTGTCTCTGGTACATCCCTGAGGATCCTCTCATCTTGGCCATCAGGAACC
Celera SNP ID:            hCV27978729
SNP Position Genomic:     14543
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2940):
TAGGGGCTCATTGATCTATCTGGTCCTCATAGTCTATGTTCCCTCTGGCCCTCATAATAATAACAGCAATAACAGCCAGAATTTATGAGACTCCTGCATA
K
TTTCTTTCCCCATTTACATCTCACAGGAATCTTCAATGAAGATAATATTCCATTCATTTAGAAATTATTCCTTTTATTTAGAAATTATTTTGAAAAAACT
Celera SNP ID:            hCV27464069
SNP Position Genomic:     13577
SNP Source:               Applera
Population(Allele,Count): african american(G,24|T,2)   caucasian(G,18|T,4)   total(G,42|T,6)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,1)   caucasian(G,29|T,5)   total(G,60|T,6)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:2941):
AGGATTTGTAGAATGTAAGGAAGGGAGGAAAAATTCAATCTGATAAGTGTTCATTGATCTTCTAATGGGTTAAAAGCATTCAGCCACATAACAACAACAA
Y
ACCGATAACTAACTGAGTAGTTAATATGGTCAGGCGCTATTCTGAGGATTTACATTTATTAACTCACTTTATTCTCACACATAGTCTTTGAGGTAGGTAC
Celera SNP ID:            hCV25929863
SNP Position Genomic:     18351
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,5)   caucasian(C,28|T,6)   total(C,53|T,11)
SNP Type:                 INTRON


Context             (SEQ ID NO:2942):
TATGTGGATCTGGACAAGAAGGAGACCGTCTGGCATCTGGAGGAGTTTGGCCAAGCCTTTTCCTTTGAGGCTCAGGGCGGGCTGGCTAACATTGCTATAT
Y
GAACAACAACTTGAATACCTTGATCCAGCGTTCCAACCACACTCAGGCCACCAACGGTACGCCCTATCTTTGCCTCTTCCTCTGTAGCCCAACTGGAAGG
Celera SNP ID:            hCV15760081
SNP Position Genomic:     17167
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(T,38)   total(C,3|T,73)
SNP Type:                 MISSENSE MUTATION

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


Context             (SEQ ID NO:2943):
CAGAGACTCACTCCACTCCACGGTGACAGGACTATCCAGGCTGGTGTGCTCCACTTGGCAGGTGTAGACATCTCCCTGCTGGGGGGTCATTTCCAGCATC
W
CCAGGATCTGGAAGGTCCAGTCTCCATTACGGATCAGGTTGGTGGACACGACCCCAGCTGTTTCCTCCTGTCCATTCAGGAACCATCGGACTTGAATGCT
Celera SNP ID:            hCV25651147
SNP Position Genomic:     1718
SNP Source:               Applera
Population(Allele,Count): african american(A,6|T,20)   caucasian(A,3|T,1)   total(A,9|T,21)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:2944):
AGAAAGTCTGGATCCAAGACTGTTTATCCACTGTCCTATTCACCCTATTTTGTGAAGGAAAAGACCAAGTTCAAATTCTCCAGAGTCCATTGCCAAATAA
Y
GGAGTCAGATCTATATTTCTATACATAATTACAACACAGTGTGGTGGGTGCCTGTAACTACTTACTGTCTCTACTTGGACTCATTCCATGGCAATGTTCA
Celera SNP ID:            hCV27467262
SNP Position Genomic:     18667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2945):
GCATTCCTGCCGTCCCTGGAAAAGGTAATTCTCTGCGGGGAGGGGGCGGACATGAGCGGAGGCGCCACTCTCATCTAATCCTCTTTCTCCCTCTCTCTCT
Y
AATATTAACGATTCTTCCCAAATCTTCCCACCCAGGGCTGGATTTTAAAATAGGAGTTTTCCTAGTACCGAGTTCTGTGGTCCTAAGCGGGTCGCAGAGC
Celera SNP ID:            hCV25651148
SNP Position Genomic:     6257
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,12|T,2)   total(C,43|T,3)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:2946):
ATTCATTCTCTAGCTTTGACCACTTGCATATTCAAACTGACATTTTGTCGTGTTTTTCTCTACTGTCTTTATGCAGCGGACCATGTGTCAACTTATGCCG
Y
GTTTGTACAGACGCATAGACCAACAGGGGAGTTTATGTTTGAATTTGATGAAGATGAGATGTTCTATGTGGATCTGGACAAGAAGGAGACCGTCTGGCAT
Celera SNP ID:            hCV25927615
SNP Position Genomic:     17002
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,36|T,2)   total(C,68|T,8)
SNP Type:                 MISSENSE MUTATION;TFBS

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


Context             (SEQ ID NO:2947):
AGGATGTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGCCGCCCCAGCTCCGTCACCGCCCGGAACTCCCCCACGTCGCTGTCGAAGCGCGCGAACTCCT
S
CCGGTTGTAGATGTATCTCTCCAGGAAGCGCTGTGTCCCATTAAACGCGTAGCATTCCTGCCGTCCCTGGAAAAGGTAATTCTCTGCGGGGAGGGGGCGG
Celera SNP ID:            hCV25651149
SNP Position Genomic:     6105
SNP Source:               Applera
Population(Allele,Count): african american(C,30|G,2)   caucasian(C,14)   total(C,44|G,2)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:2948):
TCAGACTGTGCCTCTGGGAAGGACAGACCCAGGTTTAGTGTCACCTCCACCAGCTGCATCCCTACTCATGTCCTGTCTGAGATTCTGGAGCCTGATGCAG
M
ATATCGGGATGAGGACAGTGCAGCGGAAAAAGCTTGCTAAGAGGAAATTCAGAAAGAGCCACCCTCATATCTGGAACAGGGGTGTGACCTCAACAAGGTG
Celera SNP ID:            hCV22273250
SNP Position Genomic:     1169
SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,16)   caucasian(A,4|C,24)   total(A,8|C,40)
SNP Type:                 INTRON


Context             (SEQ ID NO:2949):
GTGTCATTGCTAAGGCAAGATCCCAGGTCTTGACTCAGATATCCTGACCTGCCTCTTCTCCTGGTGCCTTGGGCCCCAGACCCTAAAATTCCAGGCCCAG
R
GCCCCCCAGCTCCTTGAGTCCAGATTCCTCCTCCTCTGCCATCCATCCGCCCCTGCCTGTTCAATTGCCCCACTCTGAGTGTGGATTCTCCCATTTTCAT
Celera SNP ID:            hCV11916919
SNP Position Genomic:     7911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2950):
ATTGCAAGCAATGCTTGTATCTCACATGGAACTGCATATACATGTGGGCCTGACCTGCATCCCTGGAATGTATGTATCCTAGAAAGGGGTTGCAGGGTTG
Y
TGGAGATGCAGCTCCTTAATTTGACTAAACACTGCTCATCTTCTCATCAGAATGGCTGTACTCATCTGAACTTCCTTTGTCAGTACTCTAATTGTCCTGC
Celera SNP ID:            hCV8851015
SNP Position Genomic:     19826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2951):
GTGCTGTTTGGTCGCATCTTGTGTATACCTACGTATCTGCACTTATCCTTCTGAACCTGCTGTTGTCCTGTCACTTGTGTTTCCTTCTGTGACTTATACG
Y
GTCTGCAGAACAGGACGTATGTATTATTTTTATTTGGGTATTTAGCATCTAACAGTGTTTGACATATAGTAGTCTTTTAATACATATTTTTGTCTGAATG
Celera SNP ID:            hCV16222616
SNP Position Genomic:     15228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2952):
CTCTTACCTTCTTCCTTTTTATATTCATAAGTCTTTATTCATTCTCTAGCTTTGACCACTTGCATATTCAAACTGACATTTTGTCGTGTTTTTCTCTACT
K
TCTTTATGCAGCGGACCATGTGTCAACTTATGCCGCGTTTGTACAGACGCATAGACCAACAGGGGAGTTTATGTTTGAATTTGATGAAGATGAGATGTTC
Celera SNP ID:            hCV25927546
SNP Position Genomic:     16966
SNP Source:               Applera
Population(Allele,Count): african american(G,28|T,10)   caucasian(G,34|T,2)   total(G,62|T,12)
SNP Type:                 INTRON


Context             (SEQ ID NO:2953):
GGAATACTTGGGTATCTGTTTTAAGGTCCCAGAACATTCCACGAGAGGCATCTTGCTCAATATTCTTTGACAGGAGCAGGTCAGCCTGGAGCCACATCAG
Y
GACCTCCAGGGTGCGCTGGAGTTAAGGCCTGATACCCAATGGCCTCATTTCTGACCCAGTTCAAATACATTTCACCAAGGCAAGGATTCCTGTTTGTTCT
Celera SNP ID:            hCV27453501
SNP Position Genomic:     3954
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2954):
TGTGATCTCCCCAGCTTCCTCCTCCTCCTCCCTTCATTTTTTTCCTCTTTCTAGAAAAAAGGTCCAGGGCTCAATCCCACATCCTGATACTACTCCCTCA
R
GTCCCTCAGGTTGGTGCACCAGGCTCCCCACCCCACAAGTTCACAGGAGGAAGCCAAAGCTCCAAGGCCTTCCTGTCCCATCCTTGAGAAATCCTCTTAC
Celera SNP ID:            hCV16075846
SNP Position Genomic:     4904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2955):
CTATAATGATTTGTAACAGAGTGAAGTGAATGTAGAATGTCAGATGTTAAGAGGAAGAATGGAAAAGAGGGCTGGGACTAGGGTGATGTAGGGGATGCAC
Y
TGGCTTAGGTGCAAAATTTGGGGGATACCAAAAGAACTCAGTAATAAATCATATTTTAATGAAATATCTTGAAAAGGCAAAATTAATGCAAAGATACATG
Celera SNP ID:            hCV15756060
SNP Position Genomic:     20827
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:2956):
CTGAAGACAGAATGTTCCATATCAGAGCTGTGATCTTGAGAGCCCTCTCCTTGGCTTTCCTGCTGAGTCTCCGAGGAGCTGGGGCCATCAAGGGTGAGTG
S
TCAGGAGGACGCAGGAGCGTCGGGGTGAGTGATGGGGTGGTTCACATCAATTGCTGCTTCAGGGATCACAGATTTTAGGGGCTCATTGATCTATCTGGTC
Celera SNP ID:            hCV25931426
SNP Position Genomic:     13401
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,1)   caucasian(C,38)   total(C,71|G,1)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,30|G,2)   caucasian(C,38)   total(C,68|G,2)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2957):
CTTCTTCTTCCCCATATGTCCTTCCTTTGACCTCTTACCTTCTTCCTTTTTATATTCATAAGTCTTTATTCATTCTCTAGCTTTGACCACTTGCATATTC
R
AACTGACATTTTGTCGTGTTTTTCTCTACTGTCTTTATGCAGCGGACCATGTGTCAACTTATGCCGCGTTTGTACAGACGCATAGACCAACAGGGGAGTT
Celera SNP ID:            hCV25927479
SNP Position Genomic:     16935
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,3)   caucasian(A,38)   total(A,73|G,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2958):
TCCAGTCTCCATTACGGATCAGGTTGGTGGACACGACCCCAGCTGTTTCCTCCTGTCCATTCAGGAACCATCGGACTTGAATGCTGCCTGGGTAGAAATC
N
GTCACGTGGCAGACAAGCAGGTTGTGGTGCTGCAAGGGCCCCTTCTTGGAGGGGGAAACATTCACCCTAGGCTGGACTAGGAGCGTGGAAGAAAAATAAT
Celera SNP ID:            hCV8851090
SNP Position Genomic:     1834
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,11)   caucasian(C,6|T,2)   total(C,21|T,13)
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;UTR 5;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:2959):
TGCTCTTCAGAGGTGGGGTCTAGAGGGTCATCAGAGACTCACTCCACTCCACGGTGACAGGACTATCCAGGCTGGTGTGCTCCACTTGGCAGGTGTAGAC
Y
TCTCCCTGCTGGGGGGTCATTTCCAGCATCACCAGGATCTGGAAGGTCCAGTCTCCATTACGGATCAGGTTGGTGGACACGACCCCAGCTGTTTCCTCCT
Celera SNP ID:            hCV8851091
SNP Position Genomic:     1687
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,24)   caucasian(C,2|T,38)   total(C,14|T,62)
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;UTR 5;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:2960):
ATGAAGCATGTGGGATGGCCTCACAGTCAGCTGGGGTTTGAGGGTGAAATTCAATGACTTTCGTGAACTCCTTGGCTCCTATGTGCTCTTCACCTGGAGG
R
CCAGGGCATGTGCAGGGATGACCACCTTCTCCCTGGGACCTGAACAGGGCAGAGAAATGGGAAGCTCGGGTGCAAAGGGAGTGGGGAAGATGGGTCCGGG
Celera SNP ID:            hCV15868805
SNP Position Genomic:     21367
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2961):
GAGTCCCCTGCTCTTCAGAGGTGGGGTCTAGAGGGTCATCAGAGACTCACTCCACTCCACGGTGACAGGACTATCCAGGCTGGTGTGCTCCACTTGGCAG
Y
TGTAGACATCTCCCTGCTGGGGGGTCATTTCCAGCATCACCAGGATCTGGAAGGTCCAGTCTCCATTACGGATCAGGTTGGTGGACACGACCCCAGCTGT
Celera SNP ID:            hCV8851095
SNP Position Genomic:     1679
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,19)   caucasian(C,32|T,8)   total(C,49|T,27)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:2962):
GATAAGATGAGTGGACCCCAGAGCCAGAGAGTCCCCTGCTCTTCAGAGGTGGGGTCTAGAGGGTCATCAGAGACTCACTCCACTCCACGGTGACAGGACT
Y
TCCAGGCTGGTGTGCTCCACTTGGCAGGTGTAGACATCTCCCTGCTGGGGGGTCATTTCCAGCATCACCAGGATCTGGAAGGTCCAGTCTCCATTACGGA
Celera SNP ID:            hCV8851096
SNP Position Genomic:     1651
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,19)   caucasian(C,3|T,37)   total(C,20|T,56)
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;UTR 5;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:2963):
CCTGAACAGGGCAGAGAAATGGGAAGCTCGGGTGCAAAGGGAGTGGGGAAGATGGGTCCGGGCTTACAGTACTGAACCCAGGAATGACAATAACTGTGTG
Y
GTTGCTGCAGGTGACAAAATATCTGAACAGAAGAGGACTTAGGAGAGATCTGAACTCCAGCTGCCCTACAAACTCCATCTCAGCTTTTCTTCTCACTTCA
Celera SNP ID:            hCV15868809
SNP Position Genomic:     21506
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2964):
TCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGCCGCCCCAGCTCCGTCACCGCCCGGAACTCCCCCACGTCGCTGTCGAAGCGCGCGA
R
CTCCTCCCGGTTGTAGATGTATCTCTCCAGGAAGCGCTGTGTCCCATTAAACGCGTAGCATTCCTGCCGTCCCTGGAAAAGGTAATTCTCTGCGGGGAGG
Celera SNP ID:            hCV25651150
SNP Position Genomic:     6099
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,14)   total(A,43|G,1)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:2965):
GAACATAATGGAAAACATTTGCCGTCAGAAGAAGGTGTAACTTATCTTTTTACATCTCTTTCTCTAACTCTGAAAATGAACTGTGAACTGGAGCTCTCTT
R
ACCACGCTGGTACCTAAAATTCTCCCATCTCTTCCCCAGCACCTTCCAGCGTCCTCTTTACCCAGCAACAGAGAATGTCAGCTCTATGATTTCTCTGATA
Celera SNP ID:            hCV11916920
SNP Position Genomic:     13052
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(A,1|G,35)   total(A,1|G,69)
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:2966):
GAATGAGCTCAGGGGCACTGAGTGATCACTAGGGAGGGGCGAGCACTGAGGGGAAGGCAGTCCCTTCTGCTGGTGGCTGGAGGAGGCGGAGACGTTTCAC
K
TGGGGTCACTGGGAGAAAAAACAGGGGCGGGAGGAGCTGGGGACGTGGAGGGCGGAGCTGCTCCCCCTACTTAACTCCCTGACTGACATTTCCATCCTGA
Celera SNP ID:            hCV15905304
SNP Position Genomic:     6506
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2967):
GGAAGCCCTCCCTTCCTTCTTTCTCTTTTCCATAGCTAAGCGCTCTCTCTTCTCGACCAGTTTCTTGAGAATTCCTCAACTTGCTCCTGTTGTTTTGCAT
K
TAGGAGATGTAGAAATATATTTCTTAAAACTTTCTTCAACTTTGGTATAAGAAAGACTCTGTAGCCTGAAAGTTAATTTTCAAACATGGCTGCAGAAAGA
Celera SNP ID:            hCV15905305
SNP Position Genomic:     6739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2968):
CCTCCCTTCCTTCTTTCTCTTTTCCATAGCTAAGCGCTCTCTCTTCTCGACCAGTTTCTTGAGAATTCCTCAACTTGCTCCTGTTGTTTTGCATGTAGGA
R
ATGTAGAAATATATTTCTTAAAACTTTCTTCAACTTTGGTATAAGAAAGACTCTGTAGCCTGAAAGTTAATTTTCAAACATGGCTGCAGAAAGACTTGGT
Celera SNP ID:            hCV15905306
SNP Position Genomic:     6745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2969):
CTTTGACCACTTGCATATTCAAACTGACATTTTGTCGTGTTTTTCTCTACTGTCTTTATGCAGCGGACCATGTGTCAACTTATGCCGCGTTTGTACAGAC
S
CATAGACCAACAGGGGAGTTTATGTTTGAATTTGATGAAGATGAGATGTTCTATGTGGATCTGGACAAGAAGGAGACCGTCTGGCATCTGGAGGAGTTTG
Celera SNP ID:            hCV11916924
SNP Position Genomic:     17015
SNP Source:               Applera
Population(Allele,Count): african american(C,18|G,20)   caucasian(C,4|G,34)   total(C,22|G,54)
SNP Type:                 SILENT MUTATION;TFBS

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


Context             (SEQ ID NO:2970):
CAAAAAATGCCCCTCCAGAGATCTTACAGGTTTCTATTTATCATAACACTCACCATGCTTTATATTTTTATATGTTTTGGGAATTCTCTTAGCATTAGAC
R
GTGAACTTCCATGCAGATGACCACATCTAATTCATTATTATTATTGTTATTCATGCTGGACCTCAGGTACAAAAGGTTAAGAACTTCTCAGTTCATTATA
Celera SNP ID:            hCV8851020
SNP Position Genomic:     18870
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2971):
TTGTGAAGGAAAAGACCAAGTTCAAATTCTCCAGAGTCCATTGCCAAATAATGGAGTCAGATCTATATTTCTATACATAATTACAACACAGTGTGGTGGG
W
GCCTGTAACTACTTACTGTCTCTACTTGGACTCATTCCATGGCAATGTTCACACAAAAAATGCCCCTCCAGAGATCTTACAGGTTTCTATTTATCATAAC
Celera SNP ID:            hCV8851021
SNP Position Genomic:     18716
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2972):
CCTATCTCTTCATTCTTCCCCCAGAGGCCCAAGAGCCAATCCAGATGCCTGAGACAACGGAGACTGTGCTCTGTGCCCTGGGCCTGGTGCTGGGCCTAGT
S
GGCATCATCGTGGGCACCGTCCTCATCATAAAGTCTCTGCGTTCTGGCCATGACCCCCGGGCCCAGGGGACCCTGTGAAATACTGTAAAGGTGGGAATGT
Celera SNP ID:            hCV8851022
SNP Position Genomic:     18136
SNP Source:               Applera
Population(Allele,Count): african american(C,28|G,2)   caucasian(C,36)   total(C,64|G,2)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

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


Context             (SEQ ID NO:2973):
AAGGTTACACAGCAGATCAACGAGCCAAGTTTGAAGTCCAGACCCAGCTCTGAGGGTCATACACTGCCTTCCCCAGATTCCTGCACACAGTGACCTACTA
Y
CAGGGCCCTCCTATCTCTCTGGGATCCCCAGCCTCTATCTTTTGTGGCTGCTTTACAGGAACTCCGAGCTATGGACTCTGCATTAGGAGACGAAGTGCAA
Celera SNP ID:            hCV27835255
SNP Position Genomic:     13806
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,20)   caucasian(C,4|T,34)   total(C,18|T,54)
SNP Type:                 INTRON


Context             (SEQ ID NO:2974):
CTTCTTCCCCATATGTCCTTCCTTTGACCTCTTACCTTCTTCCTTTTTATATTCATAAGTCTTTATTCATTCTCTAGCTTTGACCACTTGCATATTCAAA
Y
TGACATTTTGTCGTGTTTTTCTCTACTGTCTTTATGCAGCGGACCATGTGTCAACTTATGCCGCGTTTGTACAGACGCATAGACCAACAGGGGAGTTTAT
Celera SNP ID:            hCV25927482
SNP Position Genomic:     16938
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:2975):
TCAGGAACCATCGGACTTGAATGCTGCCTGGGTAGAAATCCGTCACGTGGCAGACAAGCAGGTTGTGGTGCTGCAAGGGCCCCTTCTTGGAGGGGGAAAC
R
TTCACCCTAGGCTGGACTAGGAGCGTGGAAGAAAAATAATGAAATAGAATTTGAGATTGTCCTTCTTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTT
Celera SNP ID:            hCV27468362
SNP Position Genomic:     1894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:2976):
GCTGGTCACTGAGGGTGTCGCTGAGAGCCTCTTCCTGCCCAGAACAGATTACAGCTTCCACAAGTTCCATTACCTGACCTTTGTGCCCTCAGCAGAGGAC
K
TCTATGACTGCAGGGTGGAGCACTGGGGCTTGGACCAGCCGCTCCTCAAGCACTGGGGTATGCAACTGCTTTTCTCTCCATAATCTCCTGGCATCCTCTA
Celera SNP ID:            hCV8851029
SNP Position Genomic:     17788
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:2977):
TTGCCTCTTCCTCTGTAGCCCAACTGGAAGGGATGAGAGGGCCTCTCTGCCACCCTCAGACTAGGAAGCCTAAGTGCCCCCTGCTGTGTGATCCTCTTCC
M
CTAGTGGCCATGGGCTGATCCCACTACAGCAAGGGCTTGCATCCTCTCTTCTCAGGAGAGAGAAAGGTGAGCAGAGTGAGGCTGGTCAGTGGTGTGATAC
Celera SNP ID:            hCV25929801
SNP Position Genomic:     17337
SNP Source:               Applera
Population(Allele,Count): african american(A,8|C,16)   caucasian(C,26)   total(A,8|C,42)
SNP Type:                 INTRON


Context             (SEQ ID NO:2978):
TTGAGAAATCCTCTTACTGCACACACCTCACCTCTCTCCATCCCTTTACACCCAGACTTCCTGAAGGAAAAAGACGAATGAACTGAGACACTGCCCTGTG
M
CAGCCGTGGGGAACCCAAGACAAGTAAAATCCATCTCAGCCCCGAGGAGGATGCGCCACACTCAGCCTCATGCACCCCCTCCCATTCCAGCTCCTGCCGC
Celera SNP ID:            hCV16075856
SNP Position Genomic:     5088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2979):
AAGTCACTGGCACCGCTGTCCACTGTGCTGCTGAGGTCACCTCCCCTCAGCTTCCAAGACTCTTCTCTGCGGGCCTCTCCTCACACTGCACTTGGGTTTT
W
TTGGTCTCTTTCACAGGCTTTTCTGTCTTGGCCAAATCACAACTGTCCAGTTCCCAGGATCCGGTCCTTTGCTCTTCCCCCTGGGTCCCCTCTCCCTGGA
Celera SNP ID:            hCV16075857
SNP Position Genomic:     5363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2980):
AGGCTTTTCTGTCTTGGCCAAATCACAACTGTCCAGTTCCCAGGATCCGGTCCTTTGCTCTTCCCCCTGGGTCCCCTCTCCCTGGATGGTCTCATGTATC
Y
CAGTCTCCTCCCCGGCTGCAGACCCTTCTGTCTACCTGCCCATCAGACCACCCATCTGCCCCTCAAGCACCTCAAACCCAGCTACCTCCCTGTAGGTTTC
Celera SNP ID:            hCV16075858
SNP Position Genomic:     5478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2981):
TGACCCTTCAAGCTCTGTCCTTATCCATTACCTCAAAGCAGTCATTCCTTAGTAAAGTTTCCAACAAATAGAAATTAATGACACTTTGGTAGCACTAATA
Y
GGAGATTATCCTTTCATTGAGCCTTTTATCCTCTGTTCTCCTTTGAAGAACCCCTCACTGTCACCTTCCCGAGAATACCCTAAGACCAATAAATACTTCA
Celera SNP ID:            hCV15868810
SNP Position Genomic:     21740
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:2982):
GTGAGGGTTTCGAGACCAGTCAGTGTCCCTAGATTCTCTGACAAGGGGGAGAACTATGAATCTTCAGGAACCCCTAAGCCAAGGTCAGGAAGTCTCCATT
K
CCCTGGCTTCAAACTATGCTCAGGAGCTGGTATAGAAGAAAGATGGGGTTTGGACATGGCCCCAGGGTATAGATGCAGAAGATAAGATGAGTGGACCCCA
Celera SNP ID:            hCV22275158
SNP Position Genomic:     1470
SNP Source:               Applera
Population(Allele,Count): african american(G,15|T,15)   caucasian(G,10|T,30)   total(G,25|T,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:2983):
AATTCTCATTCCAGGGTTAAGCTTCTTCTCTGCCCTCAGTAATGTGGCCCTTCCCCTTGTCTGTATATTTTGGAGACATGAAGCATGTGGGATGGCCTCA
M
AGTCAGCTGGGGTTTGAGGGTGAAATTCAATGACTTTCGTGAACTCCTTGGCTCCTATGTGCTCTTCACCTGGAGGACCAGGGCATGTGCAGGGATGACC
Celera SNP ID:            hCV29315386
SNP Position Genomic:     21290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:2984):
TTTCAAAGAGCAGTATACACAATGTGAGCAAGTATCCTTCGTTCATTGCCGTCATTGATATGGTTTGGATATTTGTCCCTTCCAATTCTCATTCCAGGGT
Y
AAGCTTCTTCTCTGCCCTCAGTAATGTGGCCCTTCCCCTTGTCTGTATATTTTGGAGACATGAAGCATGTGGGATGGCCTCACAGTCAGCTGGGGTTTGA
Celera SNP ID:            hCV29315387
SNP Position Genomic:     21207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2985):
TCCTTTCAAAGAGCAGTATACACAATGTGAGCAAGTATCCTTCGTTCATTGCCGTCATTGATATGGTTTGGATATTTGTCCCTTCCAATTCTCATTCCAG
S
GTTAAGCTTCTTCTCTGCCCTCAGTAATGTGGCCCTTCCCCTTGTCTGTATATTTTGGAGACATGAAGCATGTGGGATGGCCTCACAGTCAGCTGGGGTT
Celera SNP ID:            hCV29315388
SNP Position Genomic:     21204
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2986):
TCTTTGTGTTTGATGGGGATCATGTTTTATTTTTCTTTATATAATGGGCCAGTGTGTTCCCACAACTACTAAATAGTTCACCTTTTCCCCATAGGTTAGT
R
GTGTCTCCTTTGCTATACTGAAAGCTCCCATTATAGGTGGGCCTGTGTCTGAGTTCCATCTTGTTCCACTGTTCTGTTTGTCTCTTCTTGTGCCAGTGTC
Celera SNP ID:            hCV29315389
SNP Position Genomic:     20528
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2987):
TTGTTCTTTGCTCCTTTCTTTTTATAACTGCTCATCTGCTCTGTATTATTTCCTTTATGGTGTTGCTCCTTCTTCTTCCCCATATGTCCTTCCTTTGACC
Y
CTTACCTTCTTCCTTTTTATATTCATAAGTCTTTATTCATTCTCTAGCTTTGACCACTTGCATATTCAAACTGACATTTTGTCGTGTTTTTCTCTACTGT
Celera SNP ID:            hCV25925095
SNP Position Genomic:     16867
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,27)   caucasian(T,22)   total(C,1|T,49)
SNP Type:                 INTRON


Context             (SEQ ID NO:2988):
CCCGGCTGCTCCTGCGCCCTGGGCACGGGCCCGCGGGGCTGCCCTGGGACCGCCGGCCCAAAGCCCTCACTCACCTCGGCGCTGCAGGGTCATGGGCCCG
H
CCAGCTCGTAGTTGTGTCTGCACATCCTGTCCGGCACTGCCCGCTTCTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGCCGCCCCAG
Celera SNP ID:            hCV11917374
SNP Position Genomic:     5951
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,13|T,13)   caucasian(C,9|T,3)   total(A,2|C,22|T,16)
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:2989):
ACATCCTGTCCGGCACTGCCCGCTTCTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGCCGCCCCAGCTCCGTCACCGCCCGGAACTC
Y
CCCACGTCGCTGTCGAAGCGCGCGAACTCCTCCCGGTTGTAGATGTATCTCTCCAGGAAGCGCTGTGTCCCATTAAACGCGTAGCATTCCTGCCGTCCCT
Celera SNP ID:            hCV25651160
SNP Position Genomic:     6073
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,3)   caucasian(C,14)   total(C,43|T,3)
SNP Type:                 SILENT MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:2990):
GGGACCGCCGGCCCAAAGCCCTCACTCACCTCGGCGCTGCAGGGTCATGGGCCCGCCCAGCTCGTAGTTGTGTCTGCACATCCTGTCCGGCACTGCCCGC
Y
TCTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGCCGCCCCAGCTCCGTCACCGCCCGGAACTCCCCCACGTCGCTGTCGAAGCGCGC
Celera SNP ID:            hCV25651161
SNP Position Genomic:     5996
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,26)   caucasian(T,12)   total(C,2|T,38)
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:2991):
CAACCCGGCTGCTCCTGCGCCCTGGGCACGGGCCCGCGGGGCTGCCCTGGGACCGCCGGCCCAAAGCCCTCACTCACCTCGGCGCTGCAGGGTCATGGGC
Y
CGCCCAGCTCGTAGTTGTGTCTGCACATCCTGTCCGGCACTGCCCGCTTCTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGCCGCCC
Celera SNP ID:            hCV25651162
SNP Position Genomic:     5948
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,12)   caucasian(C,9|T,3)   total(C,21|T,15)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:2992):
TGCCTTGGGCCCCAGACCCTAAAATTCCAGGCCCAGAGCCCCCCAGCTCCTTGAGTCCAGATTCCTCCTCCTCTGCCATCCATCCGCCCCTGCCTGTTCA
R
TTGCCCCACTCTGAGTGTGGATTCTCCCATTTTCATTTGTTAGTCTTTGTTTCTCCTCCTCAATCACCAGTAAGAGAACGTTTTTCATTCAAGAATAAGA
Celera SNP ID:            hCV15905316
SNP Position Genomic:     7975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2993):
TATGAAAGGTCTGAAAATATAAAGCCTGTGATGCACTTAAGATGACGGAGGAAAGACAGTGATACTCATTTTAACCAGTCAGATAAGTCATGATGTTTGG
S
GAGATTATGCGTTTTCTTTGCTCTGAAGGTGATCTCAAATATTCTGCTGGCCCATCTACAGGGATTATCATTTCCCCAATTCTGCCACACCTCACACACC
Celera SNP ID:            hCV15905317
SNP Position Genomic:     11121
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:2994):
CAACACCCTCATCTGCCACATTGACAAGTTCTTCCCACCAGTGCTCAACGTCACGTGGCTGTGCAACGGGGAGCTGGTCACTGAGGGTGTCGCTGAGAGC
Y
TCTTCCTGCCCAGAACAGATTACAGCTTCCACAAGTTCCATTACCTGACCTTTGTGCCCTCAGCAGAGGACTTCTATGACTGCAGGGTGGAGCACTGGGG
Celera SNP ID:            hCV8851030
SNP Position Genomic:     17716
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:2995):
ATAGATGCAAATACTTTTTAGTATTCTTGGTAGAAATTCCTAATGAGCTCAGCTGTCTCTTCAGGGCTTCCCTGCCCAGTCTCTTAACATTTAAACATGT
M
ATTTACCTTAAAAACATAAGTGCAAACCAACTGATAAAAAACAACCTTGCCTTCAGTCTGCATCCTGTCCCAGAGACACTTTCTTTGTGTCCTCACACGT
Celera SNP ID:            hCV28000493
SNP Position Genomic:     14476
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:2996):
TCCCAAGGAGCCTGTGGAGCTGGGCCAGCCCAACACCCTCATCTGCCACATTGACAAGTTCTTCCCACCAGTGCTCAACGTCACGTGGCTGTGCAACGGG
R
AGCTGGTCACTGAGGGTGTCGCTGAGAGCCTCTTCCTGCCCAGAACAGATTACAGCTTCCACAAGTTCCATTACCTGACCTTTGTGCCCTCAGCAGAGGA
Celera SNP ID:            hCV8851031
SNP Position Genomic:     17686
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:2997):
CCAGTGCTGCTCCAGCCTCCTCTCTCCCCAGCCTCACCCCTCTGCAGTTCCCAGGGCTGAGCCGTCCTGCTGGTTAGTTCTCAGCACCCTTCTGTGACTA
Y
AAGTTCAAGTTCTCCTCCCCTTCCTGGACAATGAACCCAAGGTAATAGATAAGAGGTTTTAGGGCTTGAGGGGCTGTATTCAGGAGATTCCAACCTTGCT
Celera SNP ID:            hCV3213552
SNP Position Genomic:     8939
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:2998):
AGGTAATAGATAAGAGGTTTTAGGGCTTGAGGGGCTGTATTCAGGAGATTCCAACCTTGCTACCCTGAAAGATGAGGAGGTGACATGATGTCAGTACCTT
Y
TAGGTGTGTCCTAGGAGGGGTGTGGAGAGGTCTAGGAGGAAGGGTGTAAGCAGGAAAAGTGGAAGTCAGTGGAAAACTAAGGTACCTACTTTGCAGTCCT
Celera SNP ID:            hCV3213553
SNP Position Genomic:     9079
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:2999):
CCAGGAATGACAATAACTGTGTGTGTTGCTGCAGGTGACAAAATATCTGAACAGAAGAGGACTTAGGAGAGATCTGAACTCCAGCTGCCCTACAAACTCC
R
TCTCAGCTTTTCTTCTCACTTCATGTGAAAACTACTCCAGTGGCTGACTGAATTGCTGACCCTTCAAGCTCTGTCCTTATCCATTACCTCAAAGCAGTCA
Celera SNP ID:            hCV27508787
SNP Position Genomic:     21583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3000):
TATGAAGTAGTAGGGCTAGCTTCCAATCCAGAAAGTCTGGATCCAAGACTGTTTATCCACTGTCCTATTCACCCTATTTTGTGAAGGAAAAGACCAAGTT
S
AAATTCTCCAGAGTCCATTGCCAAATAATGGAGTCAGATCTATATTTCTATACATAATTACAACACAGTGTGGTGGGTGCCTGTAACTACTTACTGTCTC
Celera SNP ID:            hCV27466629
SNP Position Genomic:     18638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3001):
AATAAGATAAAATATTAACGTAATATATGTACTTCATCATTACATTAAATAGTAAATGTTTTGTGACCTTCTCTATGAGTATCAAATAAATAGCTCAAAA
Y
TGAAATATTTAAAATGAGACTAGAAAAGTATTTCTTAAATATGGTAAAGAGAATATAAAATAAAAAATTAACATTACCTGTAACAGAAAAACATTAGAGA
Celera SNP ID:            hCV3213556
SNP Position Genomic:     12350
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,14)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3002):
CAGCCACATAACAACAACAACACCGATAACTAACTGAGTAGTTAATATGGTCAGGCGCTATTCTGAGGATTTACATTTATTAACTCACTTTATTCTCACA
M
ATAGTCTTTGAGGTAGGTACTATTATTTTCACTATTTCACATGAGAGATACTTACATCTTTTTACATACACAGAGACTTTAAGCACTTTGATCAAGTTCC
Celera SNP ID:            hCV3213557
SNP Position Genomic:     18431
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:3003):
ACCTGGTGCTGTCTCCTTCCAGATCCCCCTGAGGTGACCGTGTTTCCCAAGGAGCCTGTGGAGCTGGGCCAGCCCAACACCCTCATCTGCCACATTGACA
R
GTTCTTCCCACCAGTGCTCAACGTCACGTGGCTGTGCAACGGGGAGCTGGTCACTGAGGGTGTCGCTGAGAGCCTCTTCCTGCCCAGAACAGATTACAGC
Celera SNP ID:            hCV8851038
SNP Position Genomic:     17642
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:3004):
CTGAGTAGTTAATATGGTCAGGCGCTATTCTGAGGATTTACATTTATTAACTCACTTTATTCTCACACATAGTCTTTGAGGTAGGTACTATTATTTTCAC
Y
ATTTCACATGAGAGATACTTACATCTTTTTACATACACAGAGACTTTAAGCACTTTGATCAAGTTCCCACAGCTATGAAGTAGTAGGGCTAGCTTCCAAT
Celera SNP ID:            hCV3213558
SNP Position Genomic:     18464
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:3005):
GTCTGGATCCAAGACTGTTTATCCACTGTCCTATTCACCCTATTTTGTGAAGGAAAAGACCAAGTTCAAATTCTCCAGAGTCCATTGCCAAATAATGGAG
Y
CAGATCTATATTTCTATACATAATTACAACACAGTGTGGTGGGTGCCTGTAACTACTTACTGTCTCTACTTGGACTCATTCCATGGCAATGTTCACACAA
Celera SNP ID:            hCV3213559
SNP Position Genomic:     18672
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:3006):
AGTTGTGAATTACCTACAATTTCTTCCCCATAGAGCTTCTGGGAACCATGAAATCAGGGGGAATACTTGGGTATCTGTTTTAAGGTCCCAGAACATTCCA
Y
GAGAGGCATCTTGCTCAATATTCTTTGACAGGAGCAGGTCAGCCTGGAGCCACATCAGTGACCTCCAGGGTGCGCTGGAGTTAAGGCCTGATACCCAATG
Celera SNP ID:            hCV27462059
SNP Position Genomic:     3895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3007):
TGGGCTCCCCCCATGAATCCCCAACCCAAAGTCCCCTTTCCGCCCGGCACTAAGGTCCCTTAGGCCAACCCGGCTGCTCCTGCGCCCTGGGCACGGGCCC
R
CGGGGCTGCCCTGGGACCGCCGGCCCAAAGCCCTCACTCACCTCGGCGCTGCAGGGTCATGGGCCCGCCCAGCTCGTAGTTGTGTCTGCACATCCTGTCC
Celera SNP ID:            hCV16075868
SNP Position Genomic:     5883
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,14)   total(A,1|G,43)
SNP Type:                 INTRON;TFBS

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


Context             (SEQ ID NO:3008):
ACTCTTAAAACATCTCCTACAGTTTTAAATTTCACATTTACTACTTTAATTCATCTGGGATTCATCTTTGTGTTTGATGGGGATCATGTTTTATTTTTCT
Y
TATATAATGGGCCAGTGTGTTCCCACAACTACTAAATAGTTCACCTTTTCCCCATAGGTTAGTAGTGTCTCCTTTGCTATACTGAAAGCTCCCATTATAG
Celera SNP ID:            hCV29315390
SNP Position Genomic:     20464
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3009):
CGGAGCTGCTCCCCCTACTTAACTCCCTGACTGACATTTCCATCCTGATGTCAGTCCTGGTTCAAATGCCACCTCCTCCAGGAAGCCCTCCCTTCCTTCT
Y
TCTCTTTTCCATAGCTAAGCGCTCTCTCTTCTCGACCAGTTTCTTGAGAATTCCTCAACTTGCTCCTGTTGTTTTGCATGTAGGAGATGTAGAAATATAT
Celera SNP ID:            hCV16075869
SNP Position Genomic:     6659
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3010):
AACTGTATTTTTGTTTGTGTGTCTTTTTTAAAAGAAGTCTTCCCTATACTGAGATATCAAAGATACTCTTAAAACATCTCCTACAGTTTTAAATTTCACA
Y
TTACTACTTTAATTCATCTGGGATTCATCTTTGTGTTTGATGGGGATCATGTTTTATTTTTCTTTATATAATGGGCCAGTGTGTTCCCACAACTACTAAA
Celera SNP ID:            hCV29315391
SNP Position Genomic:     20400
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3011):
ATTTTGAAAAAACTGAAGCTCAAAAAGATGAATAAGTTTTCCAAGGTTACACAGCAGATCAACGAGCCAAGTTTGAAGTCCAGACCCAGCTCTGAGGGTC
R
TACACTGCCTTCCCCAGATTCCTGCACACAGTGACCTACTATCAGGGCCCTCCTATCTCTCTGGGATCCCCAGCCTCTATCTTTTGTGGCTGCTTTACAG
Celera SNP ID:            hCV27829355
SNP Position Genomic:     13764
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,14)   caucasian(A,34|G,4)   total(A,56|G,18)
SNP Type:                 INTRON


Context             (SEQ ID NO:3012):
TCTTATTGATTTGCAGGTGATCCTTATATAGTCCTGCTAGTAGTCCCTTGTCAGTTTTAGGCATTGCAAATGTTTTCCTCTAATCTGACTTCTGGCAACT
K
TCTCCTTGGTTTCCTTTATTGAAGAGAAATCCTTAATATTTTGTAATGAAGTCCATCAACTGTATTTTTGTTTGTGTGTCTTTTTTAAAAGAAGTCTTCC
Celera SNP ID:            hCV29315392
SNP Position Genomic:     20242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3013):
AGGTGAATCCCAGCCATGCTGATTCCTCTCCACCCATTTCCAGTGCTAGAGGCCCACAGTTTCAGTCTCATCTGCCTCCACTCGGCCTCAGTTCCTCATC
R
CTGTTCCTGTGCTCACAGTCATCAATTATAGACCCCACAACATGCGCCCTGAAGACAGAATGTTCCATATCAGAGCTGTGATCTTGAGAGCCCTCTCCTT
Celera SNP ID:            hCV27829356
SNP Position Genomic:     13252
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,39|G,1)   total(A,73|G,1)   
SNP Type:                 UTR 5;INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,39|G,1)   total(A,73|G,1)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:3014):
AACTGCTTTTCTCTCCATAATCTCCTGGCATCCTCTATTCCAAAGACCTGGTGTCCTCTGCACCAGCTTTCCGCACTGGCTGGGTCTCAGTCCTCTCCTC
R
TCCTAACATCCAATTAACTGGTCCATAACCTTCAATTCCCACAACCATCCCAGGCCATCACCACCCTCACTGCACCTCCTGACCCTATCTCTTCATTCTT
Celera SNP ID:            hCV29315393
SNP Position Genomic:     17952
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3015):
TGAGCGATCTCAGCACAGTAAGATTTGTTGCACATCAGCAGCACTTTCAGCTCCTTGAGGCTGTGGACCAGAAACTTCTGGAAGCCACTGGGCAGCATGT
K
TTTTTTGTTGTTGTTGTTGCTCCCATAAGCAATGTTGGGCATCAAGATCTGGCCCTTGGACCTTCTACGAACCCTACTGTTAAGACCTCTGGGTTTCCGC
Celera SNP ID:            hCV16075799
SNP Position Genomic:     7205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3016):
CATTAGGAGACGAAGTGCAAAGAGTGTTTCTGTATCCTCCCTCTCTTCTAGGACCCTAGGGCTCTTCCTGGGTCTTTGTGGGTGGTCACAAGCTTTCCTC
Y
CTCAAGACAGCAGGGTTGCATGGTCTTGATAGCCTTGTGATTCGGGTTCTGAGAGATTCAGGACTGCAAGGGAGGCCTAGACTTTTGATAGCTGCAAGGA
Celera SNP ID:            hCV29315394
SNP Position Genomic:     13987
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3017):
ATCCCCCTGAGGTGACCGTGTTTCCCAAGGAGCCTGTGGAGCTGGGCCAGCCCAACACCCTCATCTGCCACATTGACAAGTTCTTCCCACCAGTGCTCAA
Y
GTCACGTGGCTGTGCAACGGGGAGCTGGTCACTGAGGGTGTCGCTGAGAGCCTCTTCCTGCCCAGAACAGATTACAGCTTCCACAAGTTCCATTACCTGA
Celera SNP ID:            hCV15760105
SNP Position Genomic:     17664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:3018):
TGGGATCCCCAGCCTCTATCTTTTGTGGCTGCTTTACAGGAACTCCGAGCTATGGACTCTGCATTAGGAGACGAAGTGCAAAGAGTGTTTCTGTATCCTC
Y
CTCTCTTCTAGGACCCTAGGGCTCTTCCTGGGTCTTTGTGGGTGGTCACAAGCTTTCCTCTCTCAAGACAGCAGGGTTGCATGGTCTTGATAGCCTTGTG
Celera SNP ID:            hCV29315395
SNP Position Genomic:     13926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3019):
CTGAGGTGACCGTGTTTCCCAAGGAGCCTGTGGAGCTGGGCCAGCCCAACACCCTCATCTGCCACATTGACAAGTTCTTCCCACCAGTGCTCAACGTCAC
R
TGGCTGTGCAACGGGGAGCTGGTCACTGAGGGTGTCGCTGAGAGCCTCTTCCTGCCCAGAACAGATTACAGCTTCCACAAGTTCCATTACCTGACCTTTG
Celera SNP ID:            hCV15760106
SNP Position Genomic:     17670
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:3020):
GACCTACTATCAGGGCCCTCCTATCTCTCTGGGATCCCCAGCCTCTATCTTTTGTGGCTGCTTTACAGGAACTCCGAGCTATGGACTCTGCATTAGGAGA
S
GAAGTGCAAAGAGTGTTTCTGTATCCTCCCTCTCTTCTAGGACCCTAGGGCTCTTCCTGGGTCTTTGTGGGTGGTCACAAGCTTTCCTCTCTCAAGACAG
Celera SNP ID:            hCV29315396
SNP Position Genomic:     13897
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3021):
TGTTTCCCAAGGAGCCTGTGGAGCTGGGCCAGCCCAACACCCTCATCTGCCACATTGACAAGTTCTTCCCACCAGTGCTCAACGTCACGTGGCTGTGCAA
Y
GGGGAGCTGGTCACTGAGGGTGTCGCTGAGAGCCTCTTCCTGCCCAGAACAGATTACAGCTTCCACAAGTTCCATTACCTGACCTTTGTGCCCTCAGCAG
Celera SNP ID:            hCV15760107
SNP Position Genomic:     17682
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:3022):
CTCTGCAGTTCCCAGGGCTGAGCCGTCCTGCTGGTTAGTTCTCAGCACCCTTCTGTGACTACAAGTTCAAGTTCTCCTCCCCTTCCTGGACAATGAACCC
R
AGGTAATAGATAAGAGGTTTTAGGGCTTGAGGGGCTGTATTCAGGAGATTCCAACCTTGCTACCCTGAAAGATGAGGAGGTGACATGATGTCAGTACCTT
Celera SNP ID:            hCV29315397
SNP Position Genomic:     8978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3023):
TTTAGAGGCATTGATGTAATTTTTTTTGGCAGTTTTTATGGTTTTATTTACACACAAAACGTGGACATGAACTTTCTACTCATTTTCTTAGCTGTGCACC
S
TGGTACTGGGGTTGGTGACTCTGATGGCCGGCTGGGTGACTCTTTCCATGATGACTTTGCAGTTCTGGAGGAAATTTTGTGAGCGATCTCAGCACAGTAA
Celera SNP ID:            hCV27487467
SNP Position Genomic:     7025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3024):
TACAAACCTCAACCCAGCCTTTGCCTGTCCTCCCTTTCACTGCCCAGCATCACATGCCCCCTTCTGCTCTCTGCTCCCCCACCTCTGGGTTTCCTTGGTG
R
CTCCCAACACTGTCCCTCATCCCACATGACAGCTCTGCCTATGGGATGGGGGCGCTGCATCCGTCACTTCCTCCTGACACTGTTCAGTGTCACCAGTGCT
Celera SNP ID:            hCV29315398
SNP Position Genomic:     8746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3025):
TTCATTGAGCCTTTTATCCTCTGTTCTCCTTTGAAGAACCCCTCACTGTCACCTTCCCGAGAATACCCTAAGACCAATAAATACTTCAGTATTTCAGAGC
R
GGGAGACTCTGAGTCATTCTTACTGGAAGTCTAGGACCAGGTCACATGTGAATACTATTTCTTGAAGGTGTGGTTTCAACCTCTGTTGCCGATGTGGTTA
Celera SNP ID:            hCV15868828
SNP Position Genomic:     21853
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:3026):
CCTCATGAACTTGTTGGTCCTCTTTTTGAGGATCTTATCCTTCATGAGGAGTCTGAGGGAGGCCATGATGTGGAGGAAGAGATGGCTGCCAGCTGCATAG
R
CAGCACCGAGGAAGACAGCATTGATGTAATTTTTACATGAACAATTTTGGCAGCCTTTCCCACATGCTGTTCTTCCTAGGGAGTGCCATGAGCAGTGTCT
Celera SNP ID:            hCV29315399
SNP Position Genomic:     7444
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3027):
GCCAACCCGGCTGCTCCTGCGCCCTGGGCACGGGCCCGCGGGGCTGCCCTGGGACCGCCGGCCCAAAGCCCTCACTCACCTCGGCGCTGCAGGGTCATGG
S
CCCGCCCAGCTCGTAGTTGTGTCTGCACATCCTGTCCGGCACTGCCCGCTTCTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGCCGC
Celera SNP ID:            hCV25651173
SNP Position Genomic:     5946
SNP Source:               Applera
Population(Allele,Count): african american(C,12|G,10)   caucasian(C,2|G,8)   total(C,14|G,18)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:3028):
AGCTTCCAATCCAGAAAGTCTGGATCCAAGACTGTTTATCCACTGTCCTATTCACCCTATTTTGTGAAGGAAAAGACCAAGTTCAAATTCTCCAGAGTCC
R
TTGCCAAATAATGGAGTCAGATCTATATTTCTATACATAATTACAACACAGTGTGGTGGGTGCCTGTAACTACTTACTGTCTCTACTTGGACTCATTCCA
Celera SNP ID:            hCV27466631
SNP Position Genomic:     18655
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3029):
TAGGCCAACCCGGCTGCTCCTGCGCCCTGGGCACGGGCCCGCGGGGCTGCCCTGGGACCGCCGGCCCAAAGCCCTCACTCACCTCGGCGCTGCAGGGTCA
Y
GGGCCCGCCCAGCTCGTAGTTGTGTCTGCACATCCTGTCCGGCACTGCCCGCTTCTCCTCCAGGATGTCCTTCTGGCTGTTCCAGTACTCCGCAGCAGGC
Celera SNP ID:            hCV25651174
SNP Position Genomic:     5943
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,11)   caucasian(C,4|T,10)   total(C,19|T,21)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:3030):
CCCTTTTATCTCCAGTCCTTACTCCCATATCTAACCTCTTACCCCTACCTCATAGGTAAACATTTTAATGAATTTGATGTTTCCTTTTATTTGCATAGAT
S
CTCTGTAATATGTAGTAGTGTCCAGTGTACATGTATTTTTAATTAACCAAAATGGCATTAAATTATAGATCTAATTTTGTACATCCAGTTTGTTTCTTCC
Celera SNP ID:            hCV11916944
SNP Position Genomic:     19123
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3031):
CCCAACCCAAAGTCCCCTTTCCGCCCGGCACTAAGGTCCCTTAGGCCAACCCGGCTGCTCCTGCGCCCTGGGCACGGGCCCGCGGGGCTGCCCTGGGACC
S
CCGGCCCAAAGCCCTCACTCACCTCGGCGCTGCAGGGTCATGGGCCCGCCCAGCTCGTAGTTGTGTCTGCACATCCTGTCCGGCACTGCCCGCTTCTCCT
Celera SNP ID:            hCV25651175
SNP Position Genomic:     5902
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,29)   caucasian(G,14)   total(C,1|G,43)
SNP Type:                 INTRON


Context             (SEQ ID NO:3032):
CCTTTTCCTTTGAGGCTCAGGGCGGGCTGGCTAACATTGCTATATTGAACAACAACTTGAATACCTTGATCCAGCGTTCCAACCACACTCAGGCCACCAA
Y
GGTACGCCCTATCTTTGCCTCTTCCTCTGTAGCCCAACTGGAAGGGATGAGAGGGCCTCTCTGCCACCCTCAGACTAGGAAGCCTAAGTGCCCCCTGCTG
Celera SNP ID:            hCV8851040
SNP Position Genomic:     17222
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,12)   caucasian(C,32|T,4)   total(C,54|T,16)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:3033):
TAATGGAGTCAGATCTATATTTCTATACATAATTACAACACAGTGTGGTGGGTGCCTGTAACTACTTACTGTCTCTACTTGGACTCATTCCATGGCAATG
Y
TCACACAAAAAATGCCCCTCCAGAGATCTTACAGGTTTCTATTTATCATAACACTCACCATGCTTTATATTTTTATATGTTTTGGGAATTCTCTTAGCAT
Celera SNP ID:            hCV3213560
SNP Position Genomic:     18764
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:3034):
TTTATCTCCAGTCCTTACTCCCATATCTAACCTCTTACCCCTACCTCATAGGTAAACATTTTAATGAATTTGATGTTTCCTTTTATTTGCATAGATCCTC
Y
GTAATATGTAGTAGTGTCCAGTGTACATGTATTTTTAATTAACCAAAATGGCATTAAATTATAGATCTAATTTTGTACATCCAGTTTGTTTCTTCCAAAT
Celera SNP ID:            hCV11916945
SNP Position Genomic:     19127
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3035):
TGTGGTGGGTGCCTGTAACTACTTACTGTCTCTACTTGGACTCATTCCATGGCAATGTTCACACAAAAAATGCCCCTCCAGAGATCTTACAGGTTTCTAT
Y
TATCATAACACTCACCATGCTTTATATTTTTATATGTTTTGGGAATTCTCTTAGCATTAGACAGTGAACTTCCATGCAGATGACCACATCTAATTCATTA
Celera SNP ID:            hCV3213561
SNP Position Genomic:     18807
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:3036):
TTATCTCCAGTCCTTACTCCCATATCTAACCTCTTACCCCTACCTCATAGGTAAACATTTTAATGAATTTGATGTTTCCTTTTATTTGCATAGATCCTCT
S
TAATATGTAGTAGTGTCCAGTGTACATGTATTTTTAATTAACCAAAATGGCATTAAATTATAGATCTAATTTTGTACATCCAGTTTGTTTCTTCCAAATC
Celera SNP ID:            hCV11916946
SNP Position Genomic:     19128
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3037):
GATGGGTCCGGGCTTACAGTACTGAACCCAGGAATGACAATAACTGTGTGTGTTGCTGCAGGTGACAAAATATCTGAACAGAAGAGGACTTAGGAGAGAT
Y
TGAACTCCAGCTGCCCTACAAACTCCATCTCAGCTTTTCTTCTCACTTCATGTGAAAACTACTCCAGTGGCTGACTGAATTGCTGACCCTTCAAGCTCTG
Celera SNP ID:            hCV11916948
SNP Position Genomic:     21556
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:3038):
GGAATGACAATAACTGTGTGTGTTGCTGCAGGTGACAAAATATCTGAACAGAAGAGGACTTAGGAGAGATCTGAACTCCAGCTGCCCTACAAACTCCATC
W
CAGCTTTTCTTCTCACTTCATGTGAAAACTACTCCAGTGGCTGACTGAATTGCTGACCCTTCAAGCTCTGTCCTTATCCATTACCTCAAAGCAGTCATTC
Celera SNP ID:            hCV11916949
SNP Position Genomic:     21586
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Gene Number:                 5
Celera Gene:                 hCG17514 - 30000035401011
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W6W6(6050838..6079624)
Chromosome:                  Chr6
OMIM number:                 142858
OMIM Information:            MAJOR HISTOCOMPATIBILITY COMPLEX, CLASS II, DP BETA-1;HLA-DPB1


Genomic Sequence (SEQ ID NO:1666):
TATGAATATAAAAAGGAAGAAGGTAAGAGGTCAAAGGAAGGACATATGGGGAAGAAGAAGGAGCAACACCATAAAGGAAATAATACAGAGCAGATGAGCA
GTTATAAAAAGAAAGGAGCAAAGAACAAAATGAAAAGTTTATCACTGATAAGTCAAGCTGCTTCCTGGTCTTTGAAAGTCTGGGCATCCTGACCCTACAC
AATAGTAATAGTAACAATGACAGCTAACATTTGTTGAGCACTTACTTGTGCCAGGCATCCTTCTAAATACTTTACATATTTCACTCGCTGAATTGTCACA
ATAACCCTATGAAGCAAATACATATCATACATTTTACAGGTAAGGAAATGCAGGGAAGTTACATATTAATAACTTGCTAAGGTCATACGGCTACTGGCGG
AACTAGTAGAGAGGTTTTCTCTCCCATTAAGATCTTAATTTTTCTATGACACAGATGTAAAATTGTTTTTAGAGTCATGGGGGTGGGGGAATGGACATTT
TCTTTTTCTTATTATAGAAAAGGTAGAAAAAAATACAAAATTGAGAGGAAGAAGAAAATATCCTTCAAATTTTAGGGCTCTTGACAGTTTTAAAGTTTCT
GTCTTAGTTTATGAACATGAAAMTGTAGAATGTATAGCTTTGTTGATAATATTTTTCATTTGGGGCATATAAATTCAAAAGTACAGTACAGTTATTTTGG
CATTTGTTCCAAACTTTTGTTTCCTTTTTAAAAATATTTCAACATTTATTTTATGTTCAGGAGTACATGTGCAGGTTTGTTGTATAGGTAAACTCATGAC
TTGGGGGTTTAGTGTACAGATTATTTCATCACACAGGTACTAAGCATTCTAAACTTTTCTTACATTTATATTTTGATTTTTGTTTTAGAGGCCAACTAGA
AATTATTGCTGAGTTTGGAACACCTGTAGGATTTAATTTATTTTGTTTCTTAGTCTTTATTAGTTTGTAAGAATTAGCAAAGATAAGAGGATAAAAGCAA
CTATTATCATGAAAGAAAACGATGAATGTGTATGTGAAAGTCTGGGTTTAGAATGATAAATGCATCAGAGTGAGAAGGAACTACGGGACTCTTCTGCTCT
CACCTCCCAACTCACAGATTTCCCTGTGAGTTTTCAGCCCTGACATGTGGGGACCCAGTCTGTGCTTGGCCACTTACAGTGACAGGAGAATGACTCCTTG
CCACTGTAATTGTAAGTGTCTAGAGGGTATGACCTGTGTCTTATTTTTCACTGAGAATGACTCCCTGACACAGTAAGTGGCCAAGCAAAGAGTGGTATTT
GAAACTAAACAAAACAAATCCTATAGGTATTTCACTAGGAAACTTAGCTTGCTCCTCAGTTTAAAGGACTCAAAGGACTCATCAGGAAAAAGAGGGTAAA
ATAAAAAGACACAAAGTCCTCTAGCAGTTATTGGAAACTCATCTTCTTAATACATGAATGTCCCTTGTACTTTTTAAAATGCTTTTTAAAAAACACTTTC
ACAAGTTCTGCAGTCCAAAGATCAGCCAGCTATGGAACAGATTATTTTTCTTCAAAATATCATTTCCATTCAGACAAAAATATGTATTAAAAGACTACTA
TATGTCAAACACTGTTAGATGCTAAATACCCAAATAAAAATAATACATACGTCCTGTTCTGCAGACGCGTATAAGTCACAGAAGGAAACACAAGTGACAG
GACAACAGCAGGTTCAGAAGGATAAGTGCAGATACGTAGGTATACACAAGATGCGACCAAACAGCACATCAGGGAAGGCTTCCTGGGGAACAGATGGCTT
CAATGTAGGCATTCAGAAAACAGGGCAAAAGCCACTTCTCTCAGGGAAGACAGCCTGACCGGGAGAAGATACTGAGTTTACTGTGGGGCTATTGCACTTA
GAAGACCTGAAAGTCATCTAAGGAGAAATAATACATAGATATTTGTGGATTATGGGTGGTCTCAGGAGAGGAATTTAGGCCATAGAACTGAGAGTCATTA
GTGGCAGGTGCAGGTTAAATAAGATTTTCCAGGAAGAGTGCCAAAAATCAGAATTGCCGAGATCTCAGGGTATAATGAGAGAACATGATAGTTAAGAGGT
GGTTTAAAAGATGATAAGGAGGATCCAGGTAAACAGGAGAAAAATAAGGACAGGGTAGTTCATCAGAAAGAAGTGGATTATAGTGCAAATGTTATTAGTA
ACTCAAGTCAGAGGCACTGAGAAGAACCCACTGAATTTGACCTTCTGTAGAGGTTCCTGATGGCCAAGATGAGAGGATCCTCAGGGATGTACCAGAGACA
AGTCAGAAGCTTAGCTCCACGTGTGAGGACACAAAGAAAGTGTCTCTGGGACAGGATGCAGACTGAAGGCAAGGTTGTTTTTTATCAGTTGGTTTGCACT
TATGTTTTTAAGGTAAATGACATGTTTAAATGTTAAGAGACTGGGCAGGGAAGCCCTGAAGAGACAGCTGAGCTCATTAGGAATTTCTACCAAGAATACT
AAAAAGTATTTGCATCTATGAAGAGAAGCCTATTGTGGTGTTTATTATAACATAACATTAGAAATAACTCAGGTGACCGCGAACAGGGCAATAGATACTT
CTGGTTCTACCCAGCCTGACCTCCTCTTTATTCTACACATCTTAAATAAAACTGTCTGAAGCCAGTGTGCATCTTGTACGTTATGGATTCTAACCTTCCC
CATCACTAGATTTTGGAATGACAGCATCATGCACAGGCTTGATGTCATTCTCCCTGATTTCAGCTACAGGAAAAAGGAGCATTCACTACGGTCCATCTCT
GGCTGAGTCCTTGCAGCTATCAAAAGTCTAGGCCTCCCTTGCAGTCCTGAATCTCTCAGAACCCGAATCACAAGGCTATCAAGACCATGCAACCCTGCTG
TCTTGAGAGAGGAAAGCTTGTGACCACCCACAAAGACCCAGGAAGAGCCCTAGGGTCCTAGAAGAGAGGGAGGATACAGAAACACTCTTTGCACTTCGTC
TCCTAATGCAGAGTCCATAGCTCGGAGTTCCTGTAAAGCAGCCACAAAAGATAGAGGCTGGGGATCCCAGAGAGATAGGAGGGCCCTGATAGTAGGTCAC
TGTGTGCAGGAATCTGGGGAAGGCAGTGTATGACCCTCAGAGCTGGGTCTGGACTTCAAACTTGGCTCGTTGATCTGCTGTGTAACCTTGGAAAACTTAT
TCATCTTTTTGAGCTTCAGTTTTTTCAAAATAATTTCTAAATAAAAGGAATAATTTCTAAATGAATGGAATATTATCTTCATTGAAGATTCCTGTGAGAT
GTAAATGGGGAAAGAAACTATGCAGGAGTCTCATAAATTCTGGCTGTTATTGCTGTTATTATTATGAGGGCCAGAGGGAACATAGACTATGAGGACCAGA
TAGATCAATGAGCCCCTAAAATCTGTGATCCCTGAAGCAGCAATTGATGTGAACCACCCCATCACTCACCCCRACGCTCYTGCGTCCTCCTGASCACTCA
CCCTTGATGGCCCCAGCTCCTCGGAGACTCAGCAGGAAAGCCAAGGAGAGGGCTCTCAAGATCACAGCTCTGATATGGAACATTCTGTCTTCWGGGCGCA
TGTTGTGGGGTCTATAATTGATGACTGTGAGCACAGGAACAGTGATGAGGAACTGAGGCCGAGTGGAGGCAGATGAGACTGAAACTGTGGGCCTCTAGCA
CTGGAAATGGGTGGAGAGGAATCAGCATGGCTGGGATTCACCTATCAGAGAAATCATAGAGCTGACATTCTCTGTTGCTGGGTAAAGAGGACGCTGGAAG
GTGCTGGGGAAGAGATGGGAGAATTTTAGGTACCAGCGTGGTCAAGAGAGCTCCAGTTCACAGTTCATTTTCAGAGTTAGAGAAAGAGATGTAAAAAGAT
AAGTTACACCTTCTTCTGACGGCAAATGTTTTCCATTATGTTCCTTCTCCCGAGCCCCACCCCCATCCCAGACAGTCAGATGATCTTTGATGTTTTTTGG
TCACTATATTTTAAATCATGTTTTATGTTATGTTGTCAATATTTTACAAAAATATTCTGCTGATAATTAAGAATGAATGTGCTATCTAATAAAATATATA
ATTAATCTTTCTTTCAGGTCCACCTCCCTGAGATACCTCCTTTTTATTTAATCATTTCTGCAGAAGTGTTATAATTTCTATTTAGAGGTTTTAATTAACT
TGAATGAAGTTGATCTTTAATTGTTTATCTATTCCTGGTTACCTTTGTTAGTGAAATTTCTAGATAATTTTTATTTTTCAGATTTCTTAGTATTTGATTT
TTCCTGGTATTTAAACAGTGTAATAACATTTTTATCTTTAAATTACTAGTCTTGTTATTTCATTTTCATATAAGAATACCCAGGACAGCATTACCTGTGG
TAACAATGTGCGCCCATATTTTGATCTTGTTTTTAAGAAGGGTTTCTCTAATGTTTTTCTGTTACAGGTAATGTTAATTTTTTATTTTATATTCTCTTTA
CCATATTTAAGAAATACTTTTCTAGTCTCATTTTAAATATTTCAATTTTGAGCTATTTATTTGATACTCATAGAGAAGGTCACAAAACATTTACTATTTA
ATGTAATGATGAAGTACATATATTACGTTAATATTTTATCTTATTTGTGGTAGCCTTACCTTGCATAAATAATAATTACTAACAGATTAGGACATGAGAG
ATTCTGTTATTAGTGCTTTGCATGCATTACCTCATTTAAACCTCATATTAAACCTGAGGGAGGTATTATTAATGTCTACTGTAAAAATAAATTACCTGAG
ACATCGAGGAAGTATTTGTCTAATTATCTATGGCAGGTAAATGACAAGGAGAAAAGTCCCACCCAGGCAGTTACTAAAAAAACTGAGTTTTTCTCCACAA
TCCTCTCCTGGCCCCTTAATCCTACTAGACACCTTCTACTACATAATTATTTTCTTCTCTTGCATTTTACATGCTAGCCTTCTATTTACATTTTAATATT
GATTTAAAGAAATGATGCCAATTTGATTTTTTTTGAAATTAGAATTGGTGGTCCAACAGGATCACATTTATAAGTGTCTAAAGTAAGAAGTAATGTTCTT
TGAAAGTTTGTAAAAATATTCACTCTAAACAAAATAGAATCAGATGCTTTGAAGGAGGTGGGGTCTTTGATGATTTTTTTTCACTTTCTTCCTTATTTAC
CAGTCAATTTATATTCTCTATGGACTTTATTTTTCCAAAGCAATTTCAGACCTATTGATCTCATTTGATCTTAAGAGCTTTGCTATAAGGCAGGTTATAT
CATCCCCATATTGAAGACAAGGAATCGAAGTCCAAGAGAGGCAGTGTCGTTAAAGCTGCATATTTACATGGTAGGGTAGGTGGTGTGTCCACGCTCCCAG
TGTAAGGTCCCTAGACTGAGCCCTCCTGACCCTGATGACAGTCCTGTGGAAGAACCTGGTAACTCCTGCACATCGCAGGACTCACAGACCTCTGGGAGAA
AGTAAATATGAATGGGTGCTAATCTTAAACACACCCTTGGACAAAGGCAAGACAGACAGACTCAGACCTCATTTGAGTTCTGAGATGGGTACTCTAATCC
CTCTAAGTCATGCCACTGAATGACCTTTTACACACTAAGATAGCACTTTTTCCACAACAGACCATGTCCTGTGGGTGTGTGAGGTGTGGCAGAATTGGGG
AAATGATAATCCCTGTAGATGGGCCAGCAGAATATTTGAGATCACCTTCAGAGCAAAGAAAACGCATAATCTCCCCAAACATCATGACTTATCTGACTGG
TTAAAATGAGTATCACTGTCTTTCCTCCGTCATCTTAAGTGCATCACAGGCTTTATATTTTCAGACCTTTCATACTAACTTTCTGCCTAGTGAGCAATGA
CTCATACAAAGCTCAGTGTCCATTGGTTCTTTTCTCAGACTCTGTCCAATCCCAGGGTCACAGAAGACTACTTGGGTTCATGGTCTCTAATATTTCAAAC
AGGAGCTCCCTTTAGCGAGTCCTTCTTTTCCTGACTGCAGCTCTTTYCATTTTGCCATCCTTTTCCAGCTCCATGATGGTTCTGCAGGTTTCTGCGGCCC
CCCGGACAGTGGCTCTGACGGCGTTACTGATGGTGCTGCTCACATCTGTGGTCCAGGGCAGGGCCACTCCAGGTAAGAGCCGARCTGCCATTCTTGGAGG
GTCTRGCTCAGGGAACAATTCCTAGGGGACGTTATCTTTAAGGGATCAAATTCTGAGACAGGCTGCGGGGGCTCCTGCCCTAAGGCAGTGTCCTCTCTTC
CCAGCTAGAGAAAGAGGTTCATCCCCTATAGGATAGCTTGCTACCCTACTGGCCTATTCTCTCTCCAAGGACATGGGTACAGTAAACAGAGAGAGGTGCC
CAGTGGTCAGTGCTTGTCTTTGGGGAAAATGGGACCAAGAGGTCCWGGATAACCTTGGACAGACAAGGTTTGCASAGAGAGAAGTTGGCAAGTGCAGGCT
CCTGGGCGTGTTCAYRTCTGCATCCAGCCTGGAGGGGACTCAGGCAGAGAGCCCTAAGCTGGAGTGTCCAGGCTCTGAGGATCACTGAGGATTCAGTGCT
CACGAAGAATGCCTCTTATTCCCCAGGGTGGAGCAGGAGCCCACAYCCCTTGGACAATTAAGGAGAGAAGGGAGGGAGGGGGATAGGTTTTAGCCCCTGA
AGGCATTCTCATTAAAGGTACTTCTCCCAGCCTCCCCAGAACTTGGTTAGGGTACTAGAGTGGGTTGCGACTTGTAGGAAGAATGAGATGAGGTTGTGTG
GGTGCATGACAGGGATTGAGTGTAGGTTATCAGACAGCCAAGGAAGCAGTAACCAAGTGAAAAATCTCTTCTTCCTGCTGCCTCCCTGTGGCTGGTGTAA
TATTATGGCATCTATGATCCATTGTTTTTCTCTCAGGATACTCTCAGGATATTTCTTTTTATATATATATATACTTTAAGTTCTAGGGTACATGTGCACA
ACGTGCAGGTTTGTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCGTCATTTACATTAGGTATATTTCCTAATGCTATCCCTCC
CCCCTCCCCCCACCCCACAACAGGCCCCGGTGTATGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAGTTCCCACCTATGAGTGAGAACATGT
GGTCTTTGGTTTTTTGTCCTTGCAATAGTTTGCTGTGAATGATGRTTTCCAGCTTCCTCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTATGRC
TGCACAGTATTCCATGGTGTATATGTGTGCATTTTCTTAATCCAGTCTATCACTGATGGACAGTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTG
CCGCWATAAACATATGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATAYCCAGTAATGGGATGGCTGGGTCAAATGGTATTTC
TAGTTCTAGATCYTTGAGGAATTGCCACACTGTCTTGAGATACCATCTCACACCAGTTAAAATGGCGATCATTAAAAAGTCAGGAAACAACAGGTGCTGG
AGAGGATGTGGAGAAATAGGAACACTTTTACTCTGTTGGTGGGACTGTAAACTAGTTCAACCATTGTACTCTCAGGACATTTCTAGTCCAAATTTACACC
AACACTCTGAGAGGAAGGACTGCAAAGTAGGTACCTTAGTTTTCCACTGACTTCCACYTTTCCTGCTTACACCCTTCCTCCTAGACCTCTCCACACCCCT
CCTAGGACACACCTARAAGGTACTGACATCATGTCACCTCCTCATCTTTCAGGGTAGCAAGGTTGGAATCTCCTGAATACAGCCCCTCAAGCCCTAAAAC
CTCTTATCTATTACCTYGGGTTCATTGTCCAGGAAGGGGAGGAGAACTTGAACTTRTAGTCACAGAAGGGTGCTGAGAACTAACCAGCAGGACGGCTCAG
CCCTGGGAACTGCAGAGGGGTGAGGCTGGGGAGAGAGGAGGCTGGAGCAGCACTGGTGACACTGAACAGTGTCAGGAGGARGTGACGGATGCRGCRYCCC
CATCCCATAGGCAGAGCTGTCATGTGGGATGAGGGACAGTGTTGGGAGYCACCAAGGAAACCCAGAGGTGGGGGAGCAGAGAGCAGAAGGGRGCATGTGA
TGCTGGRCAGTGAAAGGGAGGACRGGCAAAGGCTGGGTTGAGGTTTGTAGGGGGAATGAGATGAGGCAGTGGAGCCATGTGACAGGGACTGAGGGTAGAT
TACTGGAGCTCCCTGCGTAGAATGAATGTTCAATCAAAAYYTGCTGGAGGGAGAGCTGGAGCCATAGGGGAGTGGGTAAAGTGGGCAGGGCTGATTCCAC
AATTCCCTGCATGCTCCCCCAACTCCACACACATCCCCAACCTCAAACAGGGCACAAGACCAAAGGGCTGAGGAGCCAGGCTATAGCTTAAAGAGGCTGG
GGGAGAAAAGCTTGGCTGAGACAACCCATAGGGAGCTAGAGGTTTTTAATATATCCTATTCTGAATAAGAGACGAATTCATTCAGATCAGTGGTTTCAAA
CCGTGCTCTGGGCAACTCAATTGCTAAGGGTTCCACAAACAGGATAAAGTTTCTTATATACAAAAAAAAATGAAGGTTTCAAATTACACCATAAAACCCC
TCATTGCTTATGTCTACTTGGCAGGTAAAATTCCATTTCAAAAGTTAAATGTACTTAAAAAATTACCTAAGACTGGGTAAATTAAAAAAATTAAATGTTG
CAAAGAAAAAATTCAAAATTCTTATTCTTGAATGAAAAACGTTCTCTTACTGGTGATTGAGGAGGAGAAACAAAGACTAACAAATGAAAATGGGAGAATC
CACACTCAGAGTGGGGCAAYTGAACAGGCAGGGGCGGATGGATGGCAGAGGAGGAGGAATCTGGACTCAAGGAGCTGGGGGGCYCTGGGCCTGGAATTTY
AGGGTCTGGSGCCCAASGCACCAGGAGAAGAGGCAGGTCAGGATATCTGAGTCAAGACCTGGGATCTTGCCTTAGCAATGACACTGGAGACTAAAGGTGG
ACTCCATGGTGCCCTTGAGCCCAGCCCTACCCCATCTCCACTATCCTCTGCCACCAGCTGTGCAACTTCTGCWAGGGGTGAGGTTAATAAACTGGAGAAG
TTAATTTGTGGAGCATGAAACAGATGAGCAGAACAATCACAGCACCTTAATTTCCCCAGTGTGCCCAAGAACAGAGCAGGCCTGAAGAYACTCAAACAGA
AACAAACATGTGCCGTGTCACTGATAATTCTGTGTAGACACACACCTGCCAGACACTGCTCATGGCACTCCCTAGGAAGAACAGCATGTGGGAAAGGCTG
CCAAAATTGTTCATGTAAAAATTACATCAATGCTGTCTTCCTCGGTGCTGYCTATGCAGCTGGCAGCCATCTCTTCCTCCACATCATGGCCTCCCTCAGA
CTCCTCATGAAGGATAAGATCCTCAAAAAGAGGACCAACAAGTTCATGAGGCACCAATCAGACTGAAATGTCAAAATTAAGCATAACTGGCGGAAACCCA
GAGGTCTTAACAGTAGGGTTCGTAGAAGGTCCAAGGGCCAGATCTTGATGCCCAACATTGCTTATGGGAGCAACAACAACAACAAAAAAMACATGCTGCC
CAGTGGCTTCCAGAAGTTTCTGGYCCACAGCCTCAAGGAGCTGAAAGTGCTGCTGATGTGCAACAAATCTTACTGTGCTGAGATCGCTCACAAAATTTCC
TCCAGAACTGCAAAGTCATCATGGAAAGAGTCACCCAGCCGGCCATCAGAGTCACCAACCCCAGTACCASGGTGCACAGCTAAGAAAATGAGTAGAAAGT
TCATGTCCACGTTTTGTGTGTAAATAAAACCATAAAAACTGCCAAAAAAAATTACATSAATGCCTCTAAACCCAAAGGACTCTACCCCCACAGGTCCCTG
GTTGTTGTGGTGATTTTCATTGTGTAAAATACTTYCCACATCTTTTGACACCAAGTCTTTCTGCAGCCATGTTTGAAAATTAACTTTCAGGCTACAGAGT
CTTTCTTATACCAAAGTTGAAGAAAGTTTTAAGAAATATATTTCTACATYTCCTAMATGCAAAACAACAGGAGCAAGTTGAGGAATTCTCAAGAAACTGG
TCGAGAAGAGAGAGCGCTTAGCTATGGAAAAGAGARAGAAGGAAGGGAGGGCTTCCTGGAGGAGGTGGCATTTGAACCAGGACTGACATCAGGATGGAAA
TGTCAGTCAGGGAGTTAAGTAGGGGGAGCAGCTCCGCCCTCCACGTCCCCAGCTCCTCCCGCCCCTGTTTTTTCTCCCAGTGACCCCAMGTGAAACGTCT
CCGCCTCCTCCAGCCACCAGCAGAAGGGACTGCCTTCCCCTCAGTGCTCGCCCCTCCCTAGTGATCACTCAGTGCCCCTGAGCTCATTCTTTTCAGTAAA
TTCTCTCTCTGCRTGGTGAGAAAACAGGCCTGGAGAGGCTCTGCGACCCGCTTAGGACCACAGAACTCGRTACTAGGAAAACTCCTATTTTAAAATCYAG
CCCTGRGTGGGWAGATTTGGGAAGAATCSTTAATATTRAGAGAGAGAGGGAGAAAGAGGATTAGATGAGAGTGGCGCCTCCGCTCATGTCCGCCCCCTCC
CCGCAGAGAATTACSTKTWCCAGNNACGGCAGGAATGCTACGCGTTTAATGGGACACAGCGCTTCCTGGAGAGATACATCTACAACCGGSAGGAGYWCGY
GCGCTTCGACAGCGACGTGGGRGAGTTCCGGGCGGTGACGGAGCTGGGGCGGCCTGMTGMGGASTACTGGAACAGCCAGAAGGACMTCCTGGAGGAGRRG
CGGGCAGTGCCGGACAGGRTRTGCAGACACAACTACGAGCTGGDCGRGSCSRTGACCCTGCAGCGCCGAGGTGAGTGAGGGCTTTGGGCCGGSGGTCCCA
GGGCAGCCCCGYGGGCCCGTGCCCAGGGCGCAGGAGCAGCCGGGTTGGCCTAAGGGACCTTAGTGCCGGGCGGAAAGGGGACTTTGGGTTGGGGATTCAT
GGGGGGAGCCCATCTGGAGCTTGTCAGGGGAGCGAGCGCGGGGACCTGGACTGGGCTGAGCATGGAGTGAGGAGGACGRGAGCAGAGAGACCCCSGGGAC
TTCATCAGGCCTGGCAGCTGACTGCATGTGGGGTGAAAAAAGGAAGCCACAGGACAGCGCACAAGGGTATGGTGTGGAGATGGAGGTGGAGATGGCACAG
CAGGCCACACAGAGAAGAAACCTACAGGGAGGTAGCTGGGTTTGAGGTGCTTGAGGGGCAGATGGGTGGTCTGATGGGCAGGTAGACAGAAGGGTCTGCA
GCCGGGGAGGAGACTGRGATACATGAGACCATCCAGGGAGAGRGGACCCAGGGGGAAGAGCAAAGGACYGGATCCTGGGAACTGGACAGTTGTGATTTGG
CCAAGACAGAAAAGCCTGTGAAAGAGACCAAWAAAACCCAAGTGCAGTGTGAGGAGAGGCCCGCAGAGAAGAGTCTTGGAAGCTGAGGGGAGGTGACCTC
AGCAGCACAGTGGACAGCGGTGCCAGTGACTTGGGAAGGTCAGAAAACAGAAGATGGAAAGTGGGTTTGGAAACCAGGGAGACCTGGGGAGAGCAGGTTG
GCCGCAGCGGCAGGAGCTGGAATGGGAGGGGGTGCATGAGGCTGAGTGTGGCGCATCCTCCTCGGGGCTGAGATGGATTTTACTTGTCTTGGGTTCCCCA
CGGCTGKCACAGGGCAGTGTCTSAGTTCATTCRTCTTTTTCCTTCAGGAAGTCTGGGTGTAAAGGGATGGAGAGAGGTGAGGTGTGTGCAGTAAGAGGAT
TTCTCAAGGATGGGACAGGAAGGCCTTGGAGCTTTGGCTTCCTCCTGTGAACTTGTGGGGTGGGGAGCCTGGTGCACCAACCTKWGGGACYTGAGGGAGT
AGTATCAGGATGTGGGATTGAGCCCTGGACCTTTTTTCTAGAAAGAGGAAAAAAATGAAGGGAGGAGGAGGAGGAAGCTGGGGAGATCACACCTTTGATT
TTCTTGTTCCTGGAAAGTGAAAGGAAGTTCACCTGCTATGAGTGAGAAGGTGGACACACTGGGTGGGGATGAGGTGAGTGACATGAGCTTAGGAAAGTTG
CTGAGGTAATTGGTTGAGAGAGGTGTTCAAATAAAAATAACGCAATTGGCAAAAACTGTTACTAAGACTTTGTAGAGGCACCAATCAGTGACATGGCAGC
ATTTTCTTTCACAGTAATCAACTGCCAGATTGCAGACAGCCCTGATGCCAGCCTAAGGAGTGTGGGTTTCTCCTCCAGGCCCGCAGGTCCCCAACCTCAC
TCCTCTGAAGACTCTTCTGGAGATCCTCTGTGATGCACAGATCTCCAGACTCAGTGCCCCCAGACTCAGATTCCCTGGGTRGGGAGGTCKGGGGATCTCT
GCTTGTAATCAGCTCCCTAGAGGTTCCCATGTAGCCAGATAAGTATTGTCAGAACACTGAAGATTTTTGAAAAATGAAAAAGAGAAGGTTGGAGATGTGT
CTTCAGAAGACTACTAAGGGTGCTGGCTAGAGGAGGGACCAGAGGCAGGGAGATGAGGTAGGAAACTGCTATTATTTGTCAGGGAAATTGCAATCAAGGC
ATGAGTTAGAACAGGGAAAACACAGAGGCAAGGGAGAGGTGGAAGGGGGAGGAAAGAAGTAGTGACAATTCCAGGGTGGATGTCCACCCAAATCTAGAAG
TAATTGAGCAAATGTTTTCTGGGCATTAGAGAAGGCAACTAGAACAAACAGGAATCCTTGCCTTGGTGAAATGTATTTGAACTGGGTCAGAAATGAGGCC
ATTGGGTATCARGCCTTAACTCCAGCGCMCCCTGGAGGTCRCTGATGTGGCTCCAGGCTGACCTGCTCCTGTCAAAGAATATTGAGCAAGATGCCTCTCR
TGGAATGTTCTGGGACCTTAAAACAGATACCCAAGTATTCCCCCTGATTTCATGGTTCCCAGAAGCTCTATGGGGAAGAAATTGTAGGTAATTCACAACT
GAGATTTAGACATAAGTTGAATAGTGTAATGGACATTGAGTTAACCGAGGTAATGAAGTAGTGAGACACAGGTGCCCCTGAAATAAACTCACATTGAGGG
AAGAGGCTGACAATGTGGATCAGTCTGAAAACAAGGCAAAAATACAATAGGGAGTAAGGGTTGTGTGTCAGTTCAAGACTGTACTTTTACCTGGCCCAGC
GCCATGTTAGGGTATTTGTGTTCTCCAGGAAGTAGAAAGGAAAGAACTGAGTGATTAGGGACCTAGAAGACTAATTTGAGACATTCCTCTTGATGAGCTG
TTCTCTAGGGTAGTCCTCTGAAAGAGCTGTTCTCTAGTGGATCTCCCTGAATGAACTGTTCTCTAGGAGCACTTGACCCTTTTCTGTGTTTGTTTTTTGT
TTTGTGTTTGTGTTTGTTTTTGAGACAGGTTCTCACTTTGTCTCCCAGGCTGGAGTGCTGTGGCACCATCATGGCTCACTGCAGCCTCAACCTCCTGGGC
TCAAGTGATCCTCCTGCCTCAGCCTCCCATGTAGCTAGAACTACAGATACACGTACCACCATGTCTGGCTAATTTATTTTTCTTTTTAGAGATGGGTTCT
CACTATGTTGCCCAGGCCGGTCTCAAAACCCTGGGCTCAAGTGATCCTCATGCCTCAACCTCCCAAAGTGCTAAGATTATAGGCATGACCACCATGCCTG
GCCTTTTCTGCTTTCTGAGGAGGAAAAAGGTACTGGTGGCAGAGATCCAAAAGAAAAGTTGCCAGTGGCAGTGTGGAAATTCACCTGAGAACAACAGGAC
AAGCTGGGGCACAAATGCAAAGATGCAGAGGGAGGCAACACCTGGTCATCTGTGAGACCTTCATGGGACCTGAAGACGCAGCACAGAGGAGGAACTTGAA
AAAGGACGGGATTTCTACTACTCAAGCATGTAGGAGCTCAGGATATTCTGTAAATATGAAGATTTTGAGTTTTTGTAGGTGAGGTAAAAAAATACATAGG
TTTTTTACAGAATAAGACATGTAAAGCTCTCTTCATTTTCTTTGTATTTTCATGAAGTTATTAGATTCACAGGCCACCATAATGCCATTGTCTGTATATC
TTAATTTCAAGATATTATTTGAGTAAATTTTGCTTCCTTTGTATCAAGATAGAACTTTGAAAAGGTAGGTAATTTCACAGTTGATCAAATATTCTTTGCC
CAAATTACTTTTGGTTAAAATTTCTCCTAAATGTGCTACAGAGTGCAAACTCTGTCTCCCTGCCATTCCGCTATATACTTACTAACTATTATTTTATTCA
AGATCATGCATGCTCTACTTGAAGGTCTATTTCTATCTTTTCAATGCTACCCTTACCCACTAGCCTAATCACATTATTCCTATTTTCAACATCTAGGAAT
CAATTACATAGTGAACATGCCTAAGAAATAATAATCTGGGCAGATGCAGTGGCTCAGGCCCGTAATCCCAGCCCTTTGAGAGGCCGAGCGGGTGGATCAC
TTGAGGTCAGGCGTTGGTCAAGTGCTCCTAGAGAACCAGSCTGACCAACATGGAGAAACCTTGTCTCTACTAATAATACAAAAATTAGCCAGGTGAAGTG
GCAGGCACCTATAATCCCAGCTATTCGGGAGGCTGAGGAAGGAGAATTGGTTGAAGCCCGGAGGTGGAGGTTGCAGTGAGCCAATATTGCGCCACTGCAT
TCCAGACTTGGCAACAGAGTGACACTCCATCTCAACAAAAAGAAAGAATGAAAGAAAGAAAGAGCGAGATTATGTCTCAAAAAAAAGGAAGGAAGGAAGG
AAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAAGAAGGACAATCTCAAATTCTATTTCATTATTTTTCTTCCACGCTCCTAGTCCAGCCTARGGTGAA
YGTTTCCCCCTCCAAGAAGGRGCCCYTGCAGCACCACAACCTGCTTGTCTRCCACGTGACRGATTTCTACCCAGRCAGCATTCAAGTCCGATGSTTCCTG
AATGGACAGGAGGAAACAGCTGGGGTCGTGTCCACCAACCTGATCCGTAATGGAGACTGGACCTTCCAGATCCTGGWGATGCTGGAAATGACCCCCCAGC
AGGGAGAYGTCTACAYCTGCCAAGTGGAGCACACCAGCMTGGAYAGTCCTGTCACCGTGGAGTGGAGTGAGTCTCTGATGACCVTCTAGACCCCACCTCT
GAAGAGCAGGGGACTCTCTGGCTCTGGGGTCCACTCATCTTATCTTCTGCATCTATACCCTGGGGCCATGTCCAAACCCCATCTTTCTTCTATACCAGCT
CCTGAGCATAGTTTGAAGCCAGGGMAATGGAGACTTCCTGACCTTGGCTTRGGGGTTCCTGAAGATTCATAGTTCTCCCCCTTGTCAGAGAATCTAGGGA
CACTGACTGGTCTCGAAACCCTCACACTTAGGAACTGACCTCACACATAGGAACAGTTCTCTTCCTTCAGCATTTTAGCCTCTTCTCAGGCATTTTGAGA
GGCAACTTCCAGAATCAGCATTTGCCACCTTGTTGAGGTCACACCCCTGTTCCAGATATGAGGGTGGCTCTTTCTGAATTTCCTCTTAGCAAGCTTTTTC
CGCTGCACTGTCCTCATCCCGATATKCTGCATCAGGCTCCAGAATCTCAGACAGGACATGAGTAGGGATGCAGCTGGTGGAGGTGACACTAAACCTGGGT
CTGTCCTTCCCAGAGGCACAGTCTGATTCTGCCCGGAGTAAGACATTGACGGGAGCTGGGGGCTTCGTGCTGGGGCTCATCATCTGTGGAGTGGGCATCT
TCATGCACAGGAGGAGCAAGAAAGGTGAGAAAAGCCTGCAGGGTGAGCGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNGAGGTCATGAGAATAGCAGAAAGTCTTCAAATCGAGATCATTATGAAATCCTCAGACCCAGAGCACATAAATCCTACC
CTCAGAGTCACTGAGCAGTTAACATTACAAATTACAAACCATATCCAGTCAGAGTCATTCTCTTTCCTGCTTGTCTCCTGTACTCATGTTACAGGTTAGG
GCAGTACCCCGAGTGGAGTGAACAATCTCTGGACTAACACTTGTCAGGATCAGAAGCTGAGGTATCTGCACCCACATTACAGGAACAGGATATGTGCTCC
TAGGGAACTGAGGGTGTCAGGAGATGAGGAAWGTCCCTGGAGTCACAGAAAGAAGGTATCAGATGTGTCTCACTCTGACATATGCAGGTGTTTATGAAAC
TCTGGGATTTCTAAGGAAGGATGCAGTGCAGAGACAGGTCCCAGAGGAGACARGAGCTGAGAGACCATCCAAACTGGGACCACYTTGTCACTAGACTTCA
AATTTTCAATATTKATAGAGTGTTTTCTAAGAGTCAGGCCCTTTGCTGAGTGCTATGTGCAGCAGGATCAAAGGCAGCCAGGAGGTAGAGGAGTCTTGAG
GTACATCAGTCATTGGAGTTGAAGAGCAGAGATTCAAAGGAAAGTTGGAACTGGAGCTTTAAAGGAGATGTGAAGTGGGTGACTCAACCTCTGACTCAGA
AAAATTGATACCTGCAGAAGAAAAAACCCGGCGGGCTTAGGACTCCCAGCTGAGTGTTGTATCCTCCATCCCTTTCCACCTGGTCCCTTCATTTTCTACC
CCTCACAGTTCCCTAACGAGAAGGTGGTCCACCCAACAGACAACRCTGCCTCAGATGGTTATCAAGGGGTACCCTAAGAAGAAATCATCTCACCCTCTCT
TTGTCCCCATTTGTCAAGTAGCAGTGAGGCCGAGCCAGGGGATGGTGAAAGTGGAAGGAGGTGGGAGTTGGGCATTGGGTGTGAAGATGCTCTTTAAAGG
GGTTTTAATAACCACTTGCTACCAGGCCAGTGAACACTTAYCATAGTTGATGCCTTTTGAGCATGTTGCATTGTAAACTGTCCCTGAAATTCCTGTGCAC
TTGGCTTATGGGATGAAACATCCTCCTAGTTCTCTTGTCTCTCAGCTTCTCTGAAGTCTCATTGAGCACCTTCTCTTCAATTTCTTTTACACAGTAAGAA
TAGGATCAGCTGTGCTAAACTAACAAATACCCAGATATCCAGGTTTGGCTCATGYTACACGTCCAAAGTAAGTCATSCAGGAAGCTCTGCTYATCATCGT
ACTCAGGAAGYCAGGCTGACAGKCTTTCTCCTGCACATCTGCTCCCAGAACCTCCCCAGCAGAATGAAGGGAACCTAAGAATTTATTCACTGGCTTTTAA
TGATCCCTCCTAGAAAGAACACACTTCTCGCATTTCATTTTCCAATGTAAATCATATGGCTGCAACTAACTTCAAATAAGTGGGAATACTTGAAGGTGGA
AAACATTTAAGAAGTACACACTAAATAAATAATAAAATACTTCTACAAGAGATATTTATGGAGGACCTACTGTGTACCAGGAGCAATGCTAGGCATTATG
GATATCAGCAGCCTTTGGCTCCTGAAAAGCTTACACACTACCTCCTGGCCTAAGGAGGGGCACAGGGATGCTGGCAACAGTCTATTTCTTCACCCGGGTA
CTAGTTACATGGGTGCTTGCGGTGATAACCATTCAACRTACATTCTATTGGTTTGTGTGTTTCTTCCAAATGTCCCCTAGTTCACAATARAAAGGGCTTA
AATAGAGAAGTAAAGGAGAATTTGGGAATTTGAAGCAAAAGCAAGAAGCCACTGAATCAAGCACAAATATTGAGCTTTGATAAAGATTGGAATAAGAAAC
ATAATAAATGAGAYAAGAAATAGGACTTTTGCAACTGAAGTGTAATTAATAAACAAAAAGCCAAACTGAGAAACTGTCCCAAGGACAATATGATCGAGTA
AACAATAGAAAATGTAAAGGACAAGTGAAGAGAAATGAAGGATAGAAACAGACATCTGACATCTTAATAATTAGACGTCTAGAAAGTCAGGGAAATAGTG
GAGGAAGAGGAAATAACTGAAAACATAATAGATGTTTAGTCTTTATAGAAAGATGAAATAAGTTCATTCAAAATGCTGCATAGAATGTCAGAYTGTTAAA
CAATTTTGTTAGAGTAAAATGACTGTAAACAAATGAGCTAATTATGTGAATTAAGAGGATGGAAAAGCAGAAAAACAGCAAAAAGAAAATACATGTAAAT
AATAAGGACAAAAGCTGAATTCAATGAAATATAAAAATAGAGAAGAYAAAATCAAATTTTGAGGCAATGAAAACTTTAATGAGACCTCTGGCAAGACTCC
TAAGGAAAATACAGGAGATTCAGAACGAAAAGGGTAAATGACATTTATACACATTTTAAAATGCAAAATCTTACGACCAACTCTATACATATAAATTTGA
AAATTTAGATAAAAMGGATACGTTTCTAGAAAGATATAAAGGTCAAAACTACAGGAAGAAATAGAAAACTAAAATAGAGTAGAGAATATCAAAGAAATTG
TCATGGGAAGCAAAGAATCGCCTTCCAAAGGGCCCTGTCCTGATCTTATTGCAGATGAGGGYGTCCTCCCACATTTCCAGGAGCAGATCATGCCTCTTAC
ACGTGTGATTCTAGAACATAGAATGGAACAGAATTTTTGAGATCATTTTATGAGGTTGGTTCATTTRTATTTCCAGAGCCAGCTAAGAATAGTACARGAG
AACAGGATTGTGGACTAATTTTAGCCATGTCACTGAATCCAACAGTACATTAYAAAAACAATACGTTTTGACCAATTTTAGATTTATTCTAGGAATGCAA
TGATTCTTCAGTGTCAGAAAATATATAATGTGGTTAACACATTAGTGGACTCYGCAAAATTCATATTAATTTAAACTGAATTCAGCTCAAGACATAGACA
GAATTTAATCAATTTCATGACATGTTAAAGGTAGTGAACCAAAAATCTATAGCATATATATTTCAAAGAAATGAGGTGGATTGCCTTTGAGATTGTGCAA
AAGATAGGATGTCCTTCGTTGCTGGAAATGTTTAACATAGCATTGGAAGTTCTGAACATCACTCTGCGGGCAGAAGAAAATTAAGGCTGTGTAAAATGTA
GGAAGACAGATAGTGACTGCAGATGAAATAATCTAAATACTGGACAAGACTGCAGCCACTGCAGGCCCAAAGCCTGGGTTTAAATCCAAGCTTTGCACTT
TGAAGCTGTGTGGTCTTCACCTCTCCCGGTGTCTGATTCCYGCTCTGTAACATGAAATAAATAAGAACCAACCTCCAGATGTAAATAAGTGAACACATGA
GAAGCACTTAGAATAGTGCCTAGAACATAGTAAGCAACTCAATGAATGTCATTTCTCATTACATTTGTTAATNNNNNNNNNNNNNNNNNNNNCCTTGGCT
TAGGGGTTCCTGAAGATTCATAGTTCTCCCCCTTGTCAGAGAATCTAGGGACACTGACTGGTCTCGAAACCCTCACACTTAGGAACTGACCTCACACATA
GGAACAGTTCTCTTCCTTCAGCATTTTAGCCTCTTCTCAGGCATTTTGAGAGGCAACTTCCAGAATCAGCATTTGCCACCTTGTTGAGGTCACACCCCTG
TTCCAGATATGAGGGTGGCTCTTTCTGAATTTCCTCTTAGCAAGCTTTTTCCGCTGCACTGTCCTCATCCCGATATGCTGCATCAGGCTCCAGAATCTCA
GACAGGACATGAGTAGGGATGCAGCTGGTGGAGGTGACACTAAACCTGGGTCTGTCCTTCCCAGAGGCACAGTCTGATTCTGCCCGGAGTAAGACATTGA
CGGGAGCTGGGGGCTTCGTGCTGGGGCTCATCATCTGTGGAGTGGGCATCTTCATGCACAGGAGGAGCAAGAAAGGTGAGAAAGCCTGCAGGGTGAGCGG
GACTTACCTTCCCCTGGCATATTCACACTTATTCCACGATGAGGGGTYWGACAGAAAAGAAATGTCAGAAAGCTCTAGAGGCCACTGAWATCAGATARTC
GGGGAACAAACATGACCTATRGCGAGAGDGGGATCCCAGGCTGGGATCTTAATGCAGCCAGATGCATGAGGTCCCAAGTACTCAGGCTCCTGCGGAGCGT
CCATTGAGTGATGGGCAATGGAATTTGGTGGGATGGAAATGTTTCTCTAATTATCTGAGGTGGTTTCAATGGCTGATTATATAACCTTTCGTCTTTCATT
TCAGTTCAACGAGGATCTGCATAAACAGGTAATATTCCTGCTTTGATTTCCTTGTGGGGTGGGTTGCAGGAGGATATGAGTCCTTTCTGTGCATTGTAAC
ACTGAGGCTCCTCCAGGAAGGGAATCTCAGGCATGAACCCCTCTTTCAATGTCAGCCTTCAGGCAAGTGGGGAAAGAGCATTGCTTGGCTCCATTGCTGA
AGGAAGCAGAGATCAACTCTGTTATTTATCAGCCTGAGACGCATCCTCTCACCATAATTTTTCTCTCCTGGACTTACAGGAAGGAGGCTGGCAACCTGGG
ATAACTTGTCTTTTACCCCCACAGGGTTCCTGASCTCACYGAAAAGACTAWTGTGCCTTAGGAAAAGCATTTGCTGTGTTTYGTTARCAYCTGGYTCCAG
GACAGACCYTCARCTTCCMAAKWGGATACTGCTGCCAAGAAGTTGCTCTGAAGTCAGTTTCTATCRTTCTGCTCTTTGATTCAAAGCACTGTTTCTCTCA
CTGGGCCTCCAACCATGTTCCCTTCTTCTTAGCACCACAAATAATCAAAACCCAACATRASTGTTTGYTTTCCTTTAAAAATATGCAYCAAATCRTCTCT
CATYACTTTTCTCTGAGGGTTTTAGTAGACAGTAGGAGTTAATAAAGAAGTTCATTTTGGTTTAAACATAGGAAAGAAGAGAACCATGAAAATGGGGATA
TGTTAACTATTGTATAATGGGGCCTGTTACACATGACACTCTTCTGAATTGACTGTATTTCAGTGAGCTGCCCCCAAATCAAGTTTAGTGCCCTCATCCA
TTTATGTCTCAGACCACTATTCTTAACTATTCAATGGTGAGCAGACTGCAAATCTGCCTGATAGGACCCATATTCCCACAGCACTAATTCAACATATACC
TTACTGAGAGCATGTTTTATCATTACCATTAAKAAGTTAAATGAACATCAGAATTTAAAATCATAAATATAATCTAATACACTTTAACCATTTTCTTTGT
GTGCCATCACAAATACTCCTTAACCAAATACGGCTTGGACTTTTGAATGCATCCAATAGACGTCATTTGTCGTCTAAGTCTGCATTCATCCACCAGCCTA
GGCCTCCTGTCTTAATTTTCATACAGACAGAAATGACTCCCCACTGGGGAAAGAGCAAAGCAATACATGTAGCACTCTTTTTCAAACACTGGTCTTTTTT
TTTTTCTTAACAATCCAACATTGTTATGTGTTTTGCGTCTCATATTGACACCTTTTGGTCAAGGTAGAGGACATGTTTGTTGTAAGCTTTCTTTTTCGTG
TAGAGGATGGATTCTTCACTCCTGATACACACAATCAGTGCACAGCAGCTCTCTTATACATCCAGTTGATGCCTTCAGTCTCCCTGGCTTCTTACAAGCA
TCTTCTGGGCCTTGTGTGTCCCTGGGCACCTGTCCCTGGTCAATTCCCGAAAGCTACTGTGCTCCTCTTGCCCATCTCCCCTTGCAAATAATATCTTCCA
TCGGGGGACCGGCTTCCTCCAATTTCAGGAGAGGTGGGGCTGAAGGCACAGACTTGGGCGTCACTGGCACAGATATAAGTAAATACAGCTGGAGTCTGCA
GAGAGGCTGGACTGAGTCAGGGAGTCAGGAAAGAGAAGCCACACACAAGGACAACCAATCATGTTTCTCATAATCTTCTTAACCTAGGGAATAGGACACA
ATCATTTTTTCTTTTTAAAACATCTTTATCCCTGATCAGCCTCATTTCCTCAAAAACTATAAAGGAAAATGCTGCTGACTTGTTTTTGCGTAGTAATTTC
AGCTGTCACATAATAAGCTAAGGAAGACAGTATATAGTAAATAAGGACCCTTTATCTGTCTTATTTTCCCTTTTGGCTTCACAGGAAACTTGTGAGAAAC
CTATGCAGCATAAAATTAATATGATTTCAATCCAGGGATTCAACGATGGAAGGAGGTCATGAGAATAGCAGAAAGTCTTCAAATCGAGATCATTATGAAA
TCCTCAGACCCAGAGCACATAAATCCTACCCTCAGAGTCACTGAGCAGTTAACATTACAAATTACAAACCATATCCAGTCAGAGTCATTCTCTTTCCTGC
TTGTCTCCTGTACTCATGTTACAGGTTAGGGCAGTACCCCGAGTGGAGTGAACAATCTCTGGACTAACACTTGTCAGGATCAGAAGCTGAGGTATCTGCA
CCCACATTACAGGAACAGGATATGTGCTCCTAGGGAACTGAGGGTGTCAGGAGATGAGGAATGTCCCTGGAGTCACAGAAAGAAGGTATCAGATGTGTCT
CACTCTGACATATGCAGGTGTTTATGAAACTCTGGGATTTCTAAGGAAGGATGCAGTGCAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAGTAATGCTCAAAGAG
CCCCTGGTGAAGTGTTTCTCTTTCCCACTCTTCACCCCTAACTTGTTACCTCGTCTTTTCCACTCTGTCCCTAATACACCTATAGGATGACTCATAGGAG
CCCCTGGACCCGGGGATGCTGTCAGATCGCTTGGTCTTTGAGACAATGGTGCCATTAAGGACCCCCGCCAGGCCCACCAGCAGGCCGAGGGCACAGACCA
GCATCTCCATGGTCTCAGGCACCTGGATTAGTTCATGGACCTCTGGGGCACCAAGGGAAGACAGAGTTATAAGGTACAGAGAGCAGGGGCTGGCCTTGGA
TGTGGGAGGTGTTGGGTATTCGAAACCATGAGATGGTGAAATTTGGATAAAGTGACCATAAAACATGGGATTGAGGAAGGCAGGTGCTGAGGGGCGATGG
GCCCAGGAAATAAAGGTGGTGCCAAGGCCGTGAGGGCAGAGGGAGGGCGCTCCATACCCCAGTGCCTGAGGAGAGGCTGGTGCAGGCCCCAGTGCTCCCC
CTGGAGGTCACAGGTGTCCTCGGCCATGGGAACGAGGGTCAGATAGTGGAACCTGTGTAATCTGAGTTTCTTGCTGGGCAGGAAGATGGTCTCTGCAATA
CCCTCAATGACTGGCTCCCCATTGCRCAGCCACGTGATGTTCAGCACTGGTGGGAAGAACTTGTCAACATGGCAGACGAGGGTGTTGGGCTGGCCCAGAT
CCACAGGCTCCTTGGGAAAGACGCTTACCTCGGTGGGGGCTCCAAAAGGGGATAGAACCCAAGGAGCCTACTGCCATTGGCTGATTCTTAAAGGTTCCAC
CACCCCAAGTCCTATATTCACCAGATTAGGGGCCACCTCTCCCAGGCCCATCCTCCTGCTCCCCTAGGGCTCCTGGACAGGGTCACAGCTTCTCGTGCTC
CTGACCTGGCCCCCTCAGCCCAGCCTTTCTCTTGAGTAAGAAGAAAATGCCTCCTCCTCTGCTGTCCTAAGAACCCAGCTGTGTGGACCCAAGATTTCTC
GCTCTCAGGGAAGGGGCTCATTCATGAGTGGGCATCATGGCCTCTAGTTCTATGTGTGGCAGAGAGGCCCTCCCATCCCTCCAGCTGGACTCTAGAGGAA
CAGGCAGCTATAGGCAGTGCCATTTGTGGCCCAAGTCTGTTTGGACCATTGATCCGGGTGTTCAAGTGCTTCCTTGCCATGACGATGCCAGCAATACCCC
TCTGAGAGGAACAGGCAGCTATAGGCAGTGCCATTTGTGGCCCAAGTCTGTTTGGACCATTGATCYGGGTGTTCAAGTGCTTCCTTGCCATGACGATGCC
AGCAATACCCCTCTGAGCACCAAAGTCAAAGGTGTGAATAAACTCTGGTAGAGGCCAGACCATCTCCTTCTCATCCAGGTTCACGTAGAACTGCTCCTCC
TCATCAAATTCAAACATATACTCCCCAGAGGKTCTGTGCGTCTGCACAAACTCCGCATATGTTGACACATGGTCTGCTGCATGAAGGAGAAGATGGAGAA
TGGGTGAATACGTAGGATGCTACACAGAATGCAGGAAGCAAACAGGTAACAGGAAGGTTATTGGGAACATGAAGGAATAACACAGAAAATGAGAAATGCA
AATGAAAGAAAAGAAAAGGAGTGAGAAGAAACAAAGACAGAAATGACCCATGGACGATATAGGTTGTTTCCCTTGTCCCTGAAGACTTAACATCCGTCTA
TGATAATGGTAATGCTGAATACAGTAAGATAATATTTATTGGGCACTTACTATGTGCTAAACTTACTCATTGAATCTTCACACCCCCATGTAGAAGAACT
TATTTTCCATAGTAGGGAACTGACCCCAGAGGTAAAGTAACTTGTCCAAGTCACACAACTCCTGGTAGAAACAATATTGAGTAGTCCTCCTACCTCATTC
CTGTAGGATCTCAGAAACCCTACAGGACAATACATTAAAAATTACTGATATAGCCATAAAGCAAGGCAGGGAAGTGGAAGGATGGAATAAATATTTCAGA
GTGGAACAAAATCGTGAAGGACATGAAAATACCTCCAGAGTCTTAGTGACATTTATAGACTTCAAGTTACATTCTTACTTTTAGAAGAAAAATGATACCT
TCTATAATTTTATCCACAACACTTACATTTTAGGCAGAGTAAATTTAAAAGTATTATCATTCACATAACATTCACAAAATTGTCTTGTGGAGTGTAGTTT
TCAAGTGTAGTTTCACCTGGAAATACAAGTTGTTGGCATTTGAAAGACCTATGGGATAGTATCTTAGCTTTACCTGATACATAAGAAGCAGCAACTGGTT
GATAACAAAAAGTGAATTATTATTACAGTGAATTACAGAGAGTTTAGGGTTCGGCCTGGAAGAGGAAGTGAAGCCAAATGACACTGCATGGTTGGTGGTC
CCTAAGTGAGGATTTCCCCTCCCAGCCCAGCATGGGGAGAACCAGTCCTCTACTTAGATGCATAGTGTGACAGCAGGTTCAGTGCCGCACACGGATGGTG
AGGGTCCCCCACTGAGTTTAGGGTCTAGAGGATTACTCACCTACAGAAATGAATCCCAAAGGAAAAAGAAAAATACATGGTGTATAGACTGGGCTACACA
GATGTAATTGGTTCAGCTTAGGTTACTTTGTATTTATTATATTTACAAAATCTGAAAACTAAAGGTTGGCACATTTTGAAGCAAATTCCACACTTCAAAT
GTTAATTTTCATTCAGTTAATAAATGCTTTTTGTGAACTTTCACTCTCTAGGTAATAAGGATGAAACTCTAAAGATGGGAACTTTGTCCTTAATCTACTT
GAAATTCAAGAATAAAACAGACAAAGAAAAGATGATTGCTACATGTGTGGTTTGATCACCACTGAGTATCACAAGGTATACACAAGAGCTACTCAGGAGC
AAAATTAAAATACGATTTAGGAAAGGTTCCTAGGGACAGTGTTCACCTGCAGATAGCAAAACAGAGAAAGGGGAAATGGCATTTCCAGCAGGAGAAGCAG
GCTCAGGAGCAGAGAGGCATGAAGTTGCAAGGAGAACTGCAGTTCTTCAGTGTGACTGAAGCCAGGGGAGATGTGGGCCAGGCAGCACTGTAACCTGCCT
TGTGTGCTGATGGCAAGTGTTTGCATTTTATCCCACAGGACATAGGAAGTTGTGAAGTATCTTAAGCAGGAGAGTAACACGGTCAGATTTGTGTTTGGAT
GGGGCACCTGTAGGAAGGATGGGCTGGAGGAGGCGGGACTCAAGGCAAGACCAGTAGCACTTTTAAGCCCTCTGGTGGGAAGTAATGAAGGCGTAGGCCA
GGGCAGGAACATGGGGTGAGGAGGACAGCAGATGGATTTGATGGCAGTAATGACATGAGAGGCCACAGGAATCACTAAATCACATGCCAGAAGTAGGGAT
ATGAAGAAGTCGAGAATAACCACGCAACGTGGAGAATTGTGGCATCCGTGCCTGCAAAGGTGATAATTAAGTGATTGAGAGAAGGT


SNP Information

Context             (SEQ ID NO:3039):
AAAACTGCCAAAAAAAATTACATCAATGCCTCTAAACCCAAAGGACTCTACCCCCACAGGTCCCTGGTTGTTGTGGTGATTTTCATTGTGTAAAATACTT
Y
CCACATCTTTTGACACCAAGTCTTTCTGCAGCCATGTTTGAAAATTAACTTTCAGGCTACAGAGTCTTTCTTATACCAAAGTTGAAGAAAGTTTTAAGAA
Celera SNP ID:            hCV16075870
SNP Position Genomic:     10035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3040):
GAGAAGGCAACTAGAACAAACAGGAATCCTTGCCTTGGTGAAATGTATTTGAACTGGGTCAGAAATGAGGCCATTGGGTATCAGGCCTTAACTCCAGCGC
M
CCCTGGAGGTCACTGATGTGGCTCCAGGCTGACCTGCTCCTGTCAAAGAATATTGAGCAAGATGCCTCTCGTGGAATGTTCTGGGACCTTAAAACAGATA
Celera SNP ID:            hCV27453460
SNP Position Genomic:     12929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3041):
ATCTTCATGCACAGGAGGAGCAAGAAAGGTGAGAAAGCCTGCAGGGTGAGCGGGACTTACCTTCCCCTGGCATATTCACACTTATTCCACGATGAGGGGT
Y
TGACAGAAAAGAAATGTCAGAAAGCTCTAGAGGCCACTGATATCAGATAATCGGGGAACAAACATGACCTATAGCGAGAGAGGGATCCCAGGCTGGGATC
Celera SNP ID:            hCV22274518
SNP Position Genomic:     21548
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,29)   caucasian(C,2|T,38)   total(C,9|T,67)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:3042):
AATGGTGAGCAGACTGCAAATCTGCCTGATAGGACCCATATTCCCACAGCACTAATTCAACATATACCTTACTGAGAGCATGTTTTATCATTACCATTAA
K
AAGTTAAATGAACATCAGAATTTAAAATCATAAATATAATCTAATACACTTTAACCATTTTCTTTGTGTGCCATCACAAATACTCCTTAACCAAATACGG
Celera SNP ID:            hCV27453462
SNP Position Genomic:     22733
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3043):
AGCACTCACCCTTGATGGCCCCAGCTCCTCGGAGACTCAGCAGGAAAGCCAAGGAGAGGGCTCTCAAGATCACAGCTCTGATATGGAACATTCTGTCTTC
W
GGGCGCATGTTGTGGGGTCTATAATTGATGACTGTGAGCACAGGAACAGTGATGAGGAACTGAGGCCGAGTGGAGGCAGATGAGACTGAAACTGTGGGCC
Celera SNP ID:            hCV27833241
SNP Position Genomic:     3593
SNP Source:               Applera
Population(Allele,Count): african american(A,33|T,1)   caucasian(A,40)   total(A,73|T,1)
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:3044):
TAGAAAACTAAAATAGAGTAGAGAATATCAAAGAAATTGTCATGGGAAGCAAAGAATCGCCTTCCAAAGGGCCCTGTCCTGATCTTATTGCAGATGAGGG
Y
GTCCTCCCACATTTCCAGGAGCAGATCATGCCTCTTACACGTGTGATTCTAGAACATAGAATGGAACAGAATTTTTGAGATCATTTTATGAGGTTGGTTC
Celera SNP ID:            hCV15861930
SNP Position Genomic:     20162
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3045):
AGAAGGTCCAAGGGCCAGATCTTGATGCCCAACATTGCTTATGGGAGCAACAACAACAACAAAAAAAACATGCTGCCCAGTGGCTTCCAGAAGTTTCTGG
Y
CCACAGCCTCAAGGAGCTGAAAGTGCTGCTGATGTGCAACAAATCTTACTGTGCTGAGATCGCTCACAAAATTTCCTCCAGAACTGCAAAGTCATCATGG
Celera SNP ID:            hCV29315400
SNP Position Genomic:     9724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3046):
TCACCCGGGTACTAGTTACATGGGTGCTTGCGGTGATAACCATTCAACGTACATTCTATTGGTTTGTGTGTTTCTTCCAAATGTCCCCTAGTTCACAATA
R
AAAGGGCTTAAATAGAGAAGTAAAGGAGAATTTGGGAATTTGAAGCAAAAGCAAGAAGCCACTGAATCAAGCACAAATATTGAGCTTTGATAAAGATTGG
Celera SNP ID:            hCV27459136
SNP Position Genomic:     19290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3047):
ACCCCAGTACCAGGGTGCACAGCTAAGAAAATGAGTAGAAAGTTCATGTCCACGTTTTGTGTGTAAATAAAACCATAAAAACTGCCAAAAAAAATTACAT
S
AATGCCTCTAAACCCAAAGGACTCTACCCCCACAGGTCCCTGGTTGTTGTGGTGATTTTCATTGTGTAAAATACTTTCCACATCTTTTGACACCAAGTCT
Celera SNP ID:            hCV29315401
SNP Position Genomic:     9958
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3048):
GGACTTTGGGTTGGGGATTCATGGGGGGAGCCCATCTGGAGCTTGTCAGGGGAGCGAGCGCGGGGACCTGGACTGGGCTGAGCATGGAGTGAGGAGGACG
R
GAGCAGAGAGACCCCCGGGACTTCATCAGGCCTGGCAGCTGACTGCATGTGGGGTGAAAAAAGGAAGCCACAGGACAGCGCACAAGGGTATGGTGTGGAG
Celera SNP ID:            hCV29315402
SNP Position Genomic:     11179
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3049):
ATTCATGGGGGGAGCCCATCTGGAGCTTGTCAGGGGAGCGAGCGCGGGGACCTGGACTGGGCTGAGCATGGAGTGAGGAGGACGAGAGCAGAGAGACCCC
S
GGGACTTCATCAGGCCTGGCAGCTGACTGCATGTGGGGTGAAAAAAGGAAGCCACAGGACAGCGCACAAGGGTATGGTGTGGAGATGGAGGTGGAGATGG
Celera SNP ID:            hCV29315403
SNP Position Genomic:     11195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3050):
GTGTGCAGTAAGAGGATTTCTCAAGGATGGGACAGGAAGGCCTTGGAGCTTTGGCTTCCTCCTGTGAACTTGTGGGGTGGGGAGCCTGGTGCACCAACCT
K
AGGGACTTGAGGGAGTAGTATCAGGATGTGGGATTGAGCCCTGGACCTTTTTTCTAGAAAGAGGAAAAAAATGAAGGGAGGAGGAGGAGGAAGCTGGGGA
Celera SNP ID:            hCV29315404
SNP Position Genomic:     11984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3051):
CCACACTCAGAGTGGGGCAATTGAACAGGCAGGGGCGGATGGATGGCAGAGGAGGAGGAATCTGGACTCAAGGAGCTGGGGGGCTCTGGGCCTGGAATTT
Y
AGGGTCTGGGGCCCAAGGCACCAGGAGAAGAGGCAGGTCAGGATATCTGAGTCAAGACCTGGGATCTTGCCTTAGCAATGACACTGGAGACTAAAGGTGG
Celera SNP ID:            hCV16075808
SNP Position Genomic:     9000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3052):
TGTGCAGTAAGAGGATTTCTCAAGGATGGGACAGGAAGGCCTTGGAGCTTTGGCTTCCTCCTGTGAACTTGTGGGGTGGGGAGCCTGGTGCACCAACCTG
W
GGGACTTGAGGGAGTAGTATCAGGATGTGGGATTGAGCCCTGGACCTTTTTTCTAGAAAGAGGAAAAAAATGAAGGGAGGAGGAGGAGGAAGCTGGGGAG
Celera SNP ID:            hCV29315405
SNP Position Genomic:     11985
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3053):
AGGTTTGTAGGGGGAATGAGATGAGGCAGTGGAGCCATGTGACAGGGACTGAGGGTAGATTACTGGAGCTCCCTGCGTAGAATGAATGTTCAATCAAAAC
Y
TGCTGGAGGGAGAGCTGGAGCCATAGGGGAGTGGGTAAAGTGGGCAGGGCTGATTCCACAATTCCCTGCATGCTCCCCCAACTCCACACACATCCCCAAC
Celera SNP ID:            hCV16075809
SNP Position Genomic:     8341
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3054):
CCGCAGGTCCCCAACCTCACTCCTCTGAAGACTCTTCTGGAGATCCTCTGTGATGCACAGATCTCCAGACTCAGTGCCCCCAGACTCAGATTCCCTGGGT
R
GGGAGGTCTGGGGATCTCTGCTTGTAATCAGCTCCCTAGAGGTTCCCATGTAGCCAGATAAGTATTGTCAGAACACTGAAGATTTTTGAAAAATGAAAAA
Celera SNP ID:            hCV29315406
SNP Position Genomic:     12481
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3055):
ATGGGAACGAGGGTCAGATAGTGGAACCTGTGTAATCTGAGTTTCTTGCTGGGCAGGAAGATGGTCTCTGCAATACCCTCAATGACTGGCTCCCCATTGC
R
CAGCCACGTGATGTTCAGCACTGGTGGGAAGAACTTGTCAACATGGCAGACGAGGGTGTTGGGCTGGCCCAGATCCACAGGCTCCTTGGGAAAGACGCTT
Celera SNP ID:            hCV27461056
SNP Position Genomic:     25926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS


Context             (SEQ ID NO:3056):
CTACCTCCTGGCCTAAGGAGGGGCACAGGGATGCTGGCAACAGTCTATTTCTTCACCCGGGTACTAGTTACATGGGTGCTTGCGGTGATAACCATTCAAC
R
TACATTCTATTGGTTTGTGTGTTTCTTCCAAATGTCCCCTAGTTCACAATAGAAAGGGCTTAAATAGAGAAGTAAAGGAGAATTTGGGAATTTGAAGCAA
Celera SNP ID:            hCV27461057
SNP Position Genomic:     19238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3057):
AAATTCTCTCTCTGCGTGGTGAGAAAACAGGCCTGGAGAGGCTCTGCGACCCGCTTAGGACCACAGAACTCGGTACTAGGAAAACTCCTATTTTAAAATC
Y
AGCCCTGGGTGGGAAGATTTGGGAAGAATCGTTAATATTGAGAGAGAGAGGGAGAAAGAGGATTAGATGAGAGTGGCGCCTCCGCTCATGTCCGCCCCCT
Celera SNP ID:            hCV25651185
SNP Position Genomic:     10598
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,14)   total(C,45|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:3058):
TGCATGAGGCTGAGTGTGGCGCATCCTCCTCGGGGCTGAGATGGATTTTACTTGTCTTGGGTTCCCCACGGCTGTCACAGGGCAGTGTCTCAGTTCATTC
R
TCTTTTTCCTTCAGGAAGTCTGGGTGTAAAGGGATGGAGAGAGGTGAGGTGTGTGCAGTAAGAGGATTTCTCAAGGATGGGACAGGAAGGCCTTGGAGCT
Celera SNP ID:            hCV15905339
SNP Position Genomic:     11833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3059):
TCAATTTCTTTTACACAGTAAGAATAGGATCAGCTGTGCTAAACTAACAAATACCCAGATATCCAGGTTTGGCTCATGCTACACGTCCAAAGTAAGTCAT
S
CAGGAAGCTCTGCTTATCATCGTACTCAGGAAGCCAGGCTGACAGTCTTTCTCCTGCACATCTGCTCCCAGAACCTCCCCAGCAGAATGAAGGGAACCTA
Celera SNP ID:            hCV27461058
SNP Position Genomic:     18777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3060):
TCTCTGCGTGGTGAGAAAACAGGCCTGGAGAGGCTCTGCGACCCGCTTAGGACCACAGAACTCGGTACTAGGAAAACTCCTATTTTAAAATCCAGCCCTG
R
GTGGGAAGATTTGGGAAGAATCGTTAATATTGAGAGAGAGAGGGAGAAAGAGGATTAGATGAGAGTGGCGCCTCCGCTCATGTCCGCCCCCTCCCCGCAG
Celera SNP ID:            hCV25651186
SNP Position Genomic:     10606
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,19)   caucasian(A,2|G,12)   total(A,15|G,31)
SNP Type:                 INTRON


Context             (SEQ ID NO:3061):
CCCAACCTCACTCCTCTGAAGACTCTTCTGGAGATCCTCTGTGATGCACAGATCTCCAGACTCAGTGCCCCCAGACTCAGATTCCCTGGGTGGGGAGGTC
K
GGGGATCTCTGCTTGTAATCAGCTCCCTAGAGGTTCCCATGTAGCCAGATAAGTATTGTCAGAACACTGAAGATTTTTGAAAAATGAAAAAGAGAAGGTT
Celera SNP ID:            hCV29315407
SNP Position Genomic:     12490
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3062):
AGGAAGGATGCAGTGCAGAGACAGGTCCCAGAGGAGACAAGAGCTGAGAGACCATCCAAACTGGGACCACCTTGTCACTAGACTTCAAATTTTCAATATT
K
ATAGAGTGTTTTCTAAGAGTCAGGCCCTTTGCTGAGTGCTATGTGCAGCAGGATCAAAGGCAGCCAGGAGGTAGAGGAGTCTTGAGGTACATCAGTCATT
Celera SNP ID:            hCV27461059
SNP Position Genomic:     18014
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3063):
CGTGGTGAGAAAACAGGCCTGGAGAGGCTCTGCGACCCGCTTAGGACCACAGAACTCGGTACTAGGAAAACTCCTATTTTAAAATCCAGCCCTGGGTGGG
W
AGATTTGGGAAGAATCGTTAATATTGAGAGAGAGAGGGAGAAAGAGGATTAGATGAGAGTGGCGCCTCCGCTCATGTCCGCCCCCTCCCCGCAGAGAATT
Celera SNP ID:            hCV25651187
SNP Position Genomic:     10612
SNP Source:               Applera
Population(Allele,Count): african american(A,26|T,6)   caucasian(A,13|T,1)   total(A,39|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:3064):
GTGTGAATAAACTCTGGTAGAGGCCAGACCATCTCCTTCTCATCCAGGTTCACGTAGAACTGCTCCTCCTCATCAAATTCAAACATATACTCCCCAGAGG
K
TCTGTGCGTCTGCACAAACTCCGCATATGTTGACACATGGTCTGCTGCATGAAGGAGAAGATGGAGAATGGGTGAATACGTAGGATGCTACACAGAATGC
Celera SNP ID:            hCV16189217
SNP Position Genomic:     26732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   JBIC-allele(T,403|G,1078)   total(G,1078|T,403) 
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:3065):
CAATTGAACAGGCAGGGGCGGATGGATGGCAGAGGAGGAGGAATCTGGACTCAAGGAGCTGGGGGGCTCTGGGCCTGGAATTTTAGGGTCTGGGGCCCAA
S
GCACCAGGAGAAGAGGCAGGTCAGGATATCTGAGTCAAGACCTGGGATCTTGCCTTAGCAATGACACTGGAGACTAAAGGTGGACTCCATGGTGCCCTTG
Celera SNP ID:            hCV27957216
SNP Position Genomic:     9017
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3066):
GAGGTTTGTAGGGGGAATGAGATGAGGCAGTGGAGCCATGTGACAGGGACTGAGGGTAGATTACTGGAGCTCCCTGCGTAGAATGAATGTTCAATCAAAA
Y
CTGCTGGAGGGAGAGCTGGAGCCATAGGGGAGTGGGTAAAGTGGGCAGGGCTGATTCCACAATTCCCTGCATGCTCCCCCAACTCCACACACATCCCCAA
Celera SNP ID:            hCV16075810
SNP Position Genomic:     8340
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3067):
GCAGGTGTTTATGAAACTCTGGGATTTCTAAGGAAGGATGCAGTGCAGAGACAGGTCCCAGAGGAGACAAGAGCTGAGAGACCATCCAAACTGGGACCAC
Y
TTGTCACTAGACTTCAAATTTTCAATATTGATAGAGTGTTTTCTAAGAGTCAGGCCCTTTGCTGAGTGCTATGTGCAGCAGGATCAAAGGCAGCCAGGAG
Celera SNP ID:            hCV28966209
SNP Position Genomic:     17984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3068):
GTGGGATGAGGGACAGTGTTGGGAGCCACCAAGGAAACCCAGAGGTGGGGGAGCAGAGAGCAGAAGGGGGCATGTGATGCTGGGCAGTGAAAGGGAGGAC
R
GGCAAAGGCTGGGTTGAGGTTTGTAGGGGGAATGAGATGAGGCAGTGGAGCCATGTGACAGGGACTGAGGGTAGATTACTGGAGCTCCCTGCGTAGAATG
Celera SNP ID:            hCV11407960
SNP Position Genomic:     8224
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:3069):
TCAGCCCTGGGAACTGCAGAGGGGTGAGGCTGGGGAGAGAGGAGGCTGGAGCAGCACTGGTGACACTGAACAGTGTCAGGAGGAAGTGACGGATGCAGCG
Y
CCCCATCCCATAGGCAGAGCTGTCATGTGGGATGAGGGACAGTGTTGGGAGCCACCAAGGAAACCCAGAGGTGGGGGAGCAGAGAGCAGAAGGGGGCATG
Celera SNP ID:            hCV11407961
SNP Position Genomic:     8097
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:3070):
CTCAGCCCTGGGAACTGCAGAGGGGTGAGGCTGGGGAGAGAGGAGGCTGGAGCAGCACTGGTGACACTGAACAGTGTCAGGAGGAAGTGACGGATGCAGC
R
CCCCCATCCCATAGGCAGAGCTGTCATGTGGGATGAGGGACAGTGTTGGGAGCCACCAAGGAAACCCAGAGGTGGGGGAGCAGAGAGCAGAAGGGGGCAT
Celera SNP ID:            hCV11407962
SNP Position Genomic:     8096
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:3071):
CGGCTCAGCCCTGGGAACTGCAGAGGGGTGAGGCTGGGGAGAGAGGAGGCTGGAGCAGCACTGGTGACACTGAACAGTGTCAGGAGGAAGTGACGGATGC
R
GCGCCCCCATCCCATAGGCAGAGCTGTCATGTGGGATGAGGGACAGTGTTGGGAGCCACCAAGGAAACCCAGAGGTGGGGGAGCAGAGAGCAGAAGGGGG
Celera SNP ID:            hCV11407963
SNP Position Genomic:     8093
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:3072):
TAACCAGCAGGACGGCTCAGCCCTGGGAACTGCAGAGGGGTGAGGCTGGGGAGAGAGGAGGCTGGAGCAGCACTGGTGACACTGAACAGTGTCAGGAGGA
R
GTGACGGATGCAGCGCCCCCATCCCATAGGCAGAGCTGTCATGTGGGATGAGGGACAGTGTTGGGAGCCACCAAGGAAACCCAGAGGTGGGGGAGCAGAG
Celera SNP ID:            hCV11407964
SNP Position Genomic:     8081
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:3073):
TGGGAGGGGGTGCATGAGGCTGAGTGTGGCGCATCCTCCTCGGGGCTGAGATGGATTTTACTTGTCTTGGGTTCCCCACGGCTGTCACAGGGCAGTGTCT
S
AGTTCATTCGTCTTTTTCCTTCAGGAAGTCTGGGTGTAAAGGGATGGAGAGAGGTGAGGTGTGTGCAGTAAGAGGATTTCTCAAGGATGGGACAGGAAGG
Celera SNP ID:            hCV15905349
SNP Position Genomic:     11823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3074):
TAGCAATGACACTGGAGACTAAAGGTGGACTCCATGGTGCCCTTGAGCCCAGCCCTACCCCATCTCCACTATCCTCTGCCACCAGCTGTGCAACTTCTGC
W
AGGGGTGAGGTTAATAAACTGGAGAAGTTAATTTGTGGAGCATGAAACAGATGAGCAGAACAATCACAGCACCTTAATTTCCCCAGTGTGCCCAAGAACA
Celera SNP ID:            hCV8851061
SNP Position Genomic:     9173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:3075):
GTCTTTGGGGAAAATGGGACCAAGAGGTCCTGGATAACCTTGGACAGACAAGGTTTGCAGAGAGAGAAGTTGGCAAGTGCAGGCTCCTGGGCGTGTTCAT
R
TCTGCATCCAGCCTGGAGGGGACTCAGGCAGAGAGCCCTAAGCTGGAGTGTCCAGGCTCTGAGGATCACTGAGGATTCAGTGCTCACGAAGAATGCCTCT
Celera SNP ID:            hCV11407965
SNP Position Genomic:     6516
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3076):
CCTGGAGAGGCTCTGCGACCCGCTTAGGACCACAGAACTCGGTACTAGGAAAACTCCTATTTTAAAATCCAGCCCTGGGTGGGAAGATTTGGGAAGAATC
S
TTAATATTGAGAGAGAGAGGGAGAAAGAGGATTAGATGAGAGTGGCGCCTCCGCTCATGTCCGCCCCCTCCCCGCAGAGAATTACCTTTTCCAGGGACGG
Celera SNP ID:            hCV25651197
SNP Position Genomic:     10629
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,28)   caucasian(G,14)   total(C,4|G,42)
SNP Type:                 INTRON


Context             (SEQ ID NO:3077):
CCTGATCCGTAATGGAGACTGGACCTTCCAGATCCTGGTGATGCTGGAAATGACCCCCCAGCAGGGAGATGTCTACACCTGCCAAGTGGAGCACACCAGC
M
TGGATAGTCCTGTCACCGTGGAGTGGAGTGAGTCTCTGATGACCCTCTAGACCCCACCTCTGAAGAGCAGGGGACTCTCTGGCTCTGGGGTCCACTCATC
Celera SNP ID:            hCV11916894
SNP Position Genomic:     15239
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,33)   caucasian(A,8|C,32)   total(A,11|C,65)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|C,4)      total(A,1|C,4) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:3078):
TGTCTTTGGGGAAAATGGGACCAAGAGGTCCTGGATAACCTTGGACAGACAAGGTTTGCAGAGAGAGAAGTTGGCAAGTGCAGGCTCCTGGGCGTGTTCA
Y
GTCTGCATCCAGCCTGGAGGGGACTCAGGCAGAGAGCCCTAAGCTGGAGTGTCCAGGCTCTGAGGATCACTGAGGATTCAGTGCTCACGAAGAATGCCTC
Celera SNP ID:            hCV11407966
SNP Position Genomic:     6515
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,12)      total(C,1|T,12) ;no_pop(C,-|T,-)   ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3079):
CAATCCCAGGGTCACAGAAGACTACTTGGGTTCATGGTCTCTAATATTTCAAACAGGAGCTCCCTTTAGCGAGTCCTTCTTTTCCTGACTGCAGCTCTTT
Y
CATTTTGCCATCCTTTTCCAGCTCCATGATGGTTCTGCAGGTTTCTGCGGCCCCCCGGACAGTGGCTCTGACGGCGTTACTGATGGTGCTGCTCACATCT
Celera SNP ID:            hCV25651198
SNP Position Genomic:     6047
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,40)   total(C,1|T,77)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:3080):
GGGTACAGTAAACAGAGAGAGGTGCCCAGTGGTCAGTGCTTGTCTTTGGGGAAAATGGGACCAAGAGGTCCTGGATAACCTTGGACAGACAAGGTTTGCA
S
AGAGAGAAGTTGGCAAGTGCAGGCTCCTGGGCGTGTTCATGTCTGCATCCAGCCTGGAGGGGACTCAGGCAGAGAGCCCTAAGCTGGAGTGTCCAGGCTC
Celera SNP ID:            hCV11407967
SNP Position Genomic:     6475
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,12)   total(G,12|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3081):
AAACTGGAGAAGTTAATTTGTGGAGCATGAAACAGATGAGCAGAACAATCACAGCACCTTAATTTCCCCAGTGTGCCCAAGAACAGAGCAGGCCTGAAGA
Y
ACTCAAACAGAAACAAACATGTGCCGTGTCACTGATAATTCTGTGTAGACACACACCTGCCAGACACTGCTCATGGCACTCCCTAGGAAGAACAGCATGT
Celera SNP ID:            hCV8851064
SNP Position Genomic:     9289
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:3082):
AGGAAGGAAAGAAGGACAATCTCAAATTCTATTTCATTATTTTTCTTCCACGCTCCTAGTCCAGCCTAGGGTGAATGTTTCCCCCTCCAAGAAGGGGCCC
Y
TGCAGCACCACAACCTGCTTGTCTGCCACGTGACGGATTTCTACCCAGGCAGCATTCAAGTCCGATGGTTCCTGAATGGACAGGAGGAAACAGCTGGGGT
Celera SNP ID:            hCV11916897
SNP Position Genomic:     15026
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:3083):
ATTTGGGAAGAATCGTTAATATTGAGAGAGAGAGGGAGAAAGAGGATTAGATGAGAGTGGCGCCTCCGCTCATGTCCGCCCCCTCCCCGCAGAGAATTAC
S
TTTTCCAGGGACGGCAGGAATGCTACGCGTTTAATGGGACACAGCGCTTCCTGGAGAGATACATCTACAACCGGGAGGAGTTCGCGCGCTTCGACAGCGA
Celera SNP ID:            hCV8851065
SNP Position Genomic:     10715
SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,8)   caucasian(C,10|G,4)   total(C,20|G,12)
SNP Type:                 MISSENSE MUTATION;UTR 5;INTRON


Context             (SEQ ID NO:3084):
TTGGGAAGAATCGTTAATATTGAGAGAGAGAGGGAGAAAGAGGATTAGATGAGAGTGGCGCCTCCGCTCATGTCCGCCCCCTCCCCGCAGAGAATTACCT
K
TTCCAGGGACGGCAGGAATGCTACGCGTTTAATGGGACACAGCGCTTCCTGGAGAGATACATCTACAACCGGGAGGAGTTCGCGCGCTTCGACAGCGACG
Celera SNP ID:            hCV8851066
SNP Position Genomic:     10717
SNP Source:               Applera
Population(Allele,Count): african american(G,11|T,13)   caucasian(G,3|T,9)   total(G,14|T,22)
SNP Type:                 SILENT MUTATION;UTR 5;INTRON


Context             (SEQ ID NO:3085):
GGGAAGAATCGTTAATATTGAGAGAGAGAGGGAGAAAGAGGATTAGATGAGAGTGGCGCCTCCGCTCATGTCCGCCCCCTCCCCGCAGAGAATTACCTTT
W
CCAGGGACGGCAGGAATGCTACGCGTTTAATGGGACACAGCGCTTCCTGGAGAGATACATCTACAACCGGGAGGAGTTCGCGCGCTTCGACAGCGACGTG
Celera SNP ID:            hCV8851068
SNP Position Genomic:     10719
SNP Source:               Applera
Population(Allele,Count): african american(A,8|T,10)   caucasian(A,3|T,9)   total(A,11|T,19)
SNP Type:                 MISSENSE MUTATION;UTR 5;INTRON


Context             (SEQ ID NO:3086):
GAATCGTTAATATTGAGAGAGAGAGGGAGAAAGAGGATTAGATGAGAGTGGCGCCTCCGCTCATGTCCGCCCCCTCCCCGCAGAGAATTACCTTTTCCAG
N
GACGGCAGGAATGCTACGCGTTTAATGGGACACAGCGCTTCCTGGAGAGATACATCTACAACCGGGAGGAGTTCGCGCGCTTCGACAGCGACGTGGGGGA
Celera SNP ID:            hCV8851069
SNP Position Genomic:     10724
SNP Source:               Applera
Population(Allele,Count): african american(G,24|T,2)   caucasian(G,10)   total(G,34|T,2)
SNP Type:                 NONSENSE MUTATION;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 NONSENSE MUTATION;UTR 5


Context             (SEQ ID NO:3087):
CTGAGACGCATCCTCTCACCATAATTTTTCTCTCCTGGACTTACAGGAAGGAGGCTGGCAACCTGGGATAACTTGTCTTTTACCCCCACAGGGTTCCTGA
S
CTCACTGAAAAGACTATTGTGCCTTAGGAAAAGCATTTGCTGTGTTTCGTTAGCATCTGGCTCCAGGACAGACCTTCAACTTCCAAATTGGATACTGCTG
Celera SNP ID:            hCV27464989
SNP Position Genomic:     22134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:3088):
AGTGGGGCAATTGAACAGGCAGGGGCGGATGGATGGCAGAGGAGGAGGAATCTGGACTCAAGGAGCTGGGGGGCTCTGGGCCTGGAATTTTAGGGTCTGG
S
GCCCAAGGCACCAGGAGAAGAGGCAGGTCAGGATATCTGAGTCAAGACCTGGGATCTTGCCTTAGCAATGACACTGGAGACTAAAGGTGGACTCCATGGT
Celera SNP ID:            hCV27453482
SNP Position Genomic:     9010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3089):
GGGTGAATGTTTCCCCCTCCAAGAAGGGGCCCTTGCAGCACCACAACCTGCTTGTCTGCCACGTGACGGATTTCTACCCAGGCAGCATTCAAGTCCGATG
S
TTCCTGAATGGACAGGAGGAAACAGCTGGGGTCGTGTCCACCAACCTGATCCGTAATGGAGACTGGACCTTCCAGATCCTGGTGATGCTGGAAATGACCC
Celera SNP ID:            hCV25651123
SNP Position Genomic:     15094
SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,16)   caucasian(C,2|G,6)   total(C,12|G,22)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:3090):
GCAGGTTTCTGCGGCCCCCCGGACAGTGGCTCTGACGGCGTTACTGATGGTGCTGCTCACATCTGTGGTCCAGGGCAGGGCCACTCCAGGTAAGAGCCGA
R
CTGCCATTCTTGGAGGGTCTGGCTCAGGGAACAATTCCTAGGGGACGTTATCTTTAAGGGATCAAATTCTGAGACAGGCTGCGGGGGCTCCTGCCCTAAG
Celera SNP ID:            hCV22274829
SNP Position Genomic:     6184
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,16)   caucasian(A,33|G,5)   total(A,53|G,21)
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:3091):
GGAAATGACCCCCCAGCAGGGAGATGTCTACACCTGCCAAGTGGAGCACACCAGCCTGGATAGTCCTGTCACCGTGGAGTGGAGTGAGTCTCTGATGACC
V
TCTAGACCCCACCTCTGAAGAGCAGGGGACTCTCTGGCTCTGGGGTCCACTCATCTTATCTTCTGCATCTATACCCTGGGGCCATGTCCAAACCCCATCT
Celera SNP ID:            hCV22273955
SNP Position Genomic:     15284
SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,24|G,8)   caucasian(C,38|G,2)   total(A,4|C,62|G,10)
SNP Type:                 INTRON


Context             (SEQ ID NO:3092):
ATAGGCAGAGCTGTCATGTGGGATGAGGGACAGTGTTGGGAGCCACCAAGGAAACCCAGAGGTGGGGGAGCAGAGAGCAGAAGGGGGCATGTGATGCTGG
R
CAGTGAAAGGGAGGACAGGCAAAGGCTGGGTTGAGGTTTGTAGGGGGAATGAGATGAGGCAGTGGAGCCATGTGACAGGGACTGAGGGTAGATTACTGGA
Celera SNP ID:            hCV16075820
SNP Position Genomic:     8207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3093):
CAGCGCCCCCATCCCATAGGCAGAGCTGTCATGTGGGATGAGGGACAGTGTTGGGAGCCACCAAGGAAACCCAGAGGTGGGGGAGCAGAGAGCAGAAGGG
R
GCATGTGATGCTGGGCAGTGAAAGGGAGGACAGGCAAAGGCTGGGTTGAGGTTTGTAGGGGGAATGAGATGAGGCAGTGGAGCCATGTGACAGGGACTGA
Celera SNP ID:            hCV16075821
SNP Position Genomic:     8192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3094):
TGAGGTGCTTGAGGGGCAGATGGGTGGTCTGATGGGCAGGTAGACAGAAGGGTCTGCAGCCGGGGAGGAGACTGAGATACATGAGACCATCCAGGGAGAG
R
GGACCCAGGGGGAAGAGCAAAGGACCGGATCCTGGGAACTGGACAGTTGTGATTTGGCCAAGACAGAAAAGCCTGTGAAAGAGACCAAAAAAACCCAAGT
Celera SNP ID:            hCV15905350
SNP Position Genomic:     11443
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3095):
CAACCATTGTACTCTCAGGACATTTCTAGTCCAAATTTACACCAACACTCTGAGAGGAAGGACTGCAAAGTAGGTACCTTAGTTTTCCACTGACTTCCAC
Y
TTTCCTGCTTACACCCTTCCTCCTAGACCTCTCCACACCCCTCCTAGGACACACCTAGAAGGTACTGACATCATGTCACCTCCTCATCTTTCAGGGTAGC
Celera SNP ID:            hCV16075822
SNP Position Genomic:     7758
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3096):
CAGCGCTTCCTGGAGAGATACATCTACAACCGGGAGGAGTTCGCGCGCTTCGACAGCGACGTGGGGGAGTTCCGGGCGGTGACGGAGCTGGGGCGGCCTG
M
TGCGGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGAGAAGCGGGCAGTGCCGGACAGGATGTGCAGACACAACTACGAGCTGGGCGGGCCCATGACC
Celera SNP ID:            hCV15905351
SNP Position Genomic:     10857
SNP Source:               Applera
Population(Allele,Count): african american(A,17|C,13)   caucasian(A,5|C,9)   total(A,22|C,22)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS


Context             (SEQ ID NO:3097):
GCAGATGCAGTGGCTCAGGCCCGTAATCCCAGCCCTTTGAGAGGCCGAGCGGGTGGATCACTTGAGGTCAGGCGTTGGTCAAGTGCTCCTAGAGAACCAG
S
CTGACCAACATGGAGAAACCTTGTCTCTACTAATAATACAAAAATTAGCCAGGTGAAGTGGCAGGCACCTATAATCCCAGCTATTCGGGAGGCTGAGGAA
Celera SNP ID:            hCV27462302
SNP Position Genomic:     14640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3098):
ACATAGACTATGAGGACCAGATAGATCAATGAGCCCCTAAAATCTGTGATCCCTGAAGCAGCAATTGATGTGAACCACCCCATCACTCACCCCGACGCTC
Y
TGCGTCCTCCTGAGCACTCACCCTTGATGGCCCCAGCTCCTCGGAGACTCAGCAGGAAAGCCAAGGAGAGGGCTCTCAAGATCACAGCTCTGATATGGAA
Celera SNP ID:            hCV27015421
SNP Position Genomic:     3480
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,13)   caucasian(C,24|T,2)   total(C,37|T,15)
SNP Type:                 INTRON;TFBS

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:3099):
TATGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATATCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATC
Y
TTGAGGAATTGCCACACTGTCTTGAGATACCATCTCACACCAGTTAAAATGGCGATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAG
Celera SNP ID:            hCV16157830
SNP Position Genomic:     7513
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:3100):
CTACTGGCCTATTCTCTCTCCAAGGACATGGGTACAGTAAACAGAGAGAGGTGCCCAGTGGTCAGTGCTTGTCTTTGGGGAAAATGGGACCAAGAGGTCC
W
GGATAACCTTGGACAGACAAGGTTTGCAGAGAGAGAAGTTGGCAAGTGCAGGCTCCTGGGCGTGTTCATGTCTGCATCCAGCCTGGAGGGGACTCAGGCA
Celera SNP ID:            hCV27015425
SNP Position Genomic:     6446
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;JBIC-allele(A,206|T,1289)   total(A,206|T,1289)
SNP Type:                 INTRON


Context             (SEQ ID NO:3101):
CTTCCTGTGTCCATGTGTTCTCATTGTTCAGTTCCCACCTATGAGTGAGAACATGTGGTCTTTGGTTTTTTGTCCTTGCAATAGTTTGCTGTGAATGATG
R
TTTCCAGCTTCCTCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTATGGCTGCACAGTATTCCATGGTGTATATGTGTGCATTTTCTTAATCCAG
Celera SNP ID:            hCV27015426
SNP Position Genomic:     7245
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3102):
AATCGTTAATATTGAGAGAGAGAGGGAGAAAGAGGATTAGATGAGAGTGGCGCCTCCGCTCATGTCCGCCCCCTCCCCGCAGAGAATTACCTTTTCCAGG
N
ACGGCAGGAATGCTACGCGTTTAATGGGACACAGCGCTTCCTGGAGAGATACATCTACAACCGGGAGGAGTTCGCGCGCTTCGACAGCGACGTGGGGGAG
Celera SNP ID:            hCV8851070
SNP Position Genomic:     10725
SNP Source:               Applera
Population(Allele,Count): african american(G,21|T,3)   caucasian(G,8)   total(G,29|T,3)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:3103):
TGAATAAGAGACGAATTCATTCAGATCAGTGGTTTCAAACCGTGCTCTGGGCAACTCAATTGCTAAGGGTTCCACAAACAGGATAAAGTTTCTTATATAC
A
AAAAAAAATGAAGGTTTCAAATTACACCATAAAACCCCTCATTGCTTATGTCTACTTGGCAGGTAAAATTCCATTTCAAAAGTTAAATGTACTTAAAAAA
Celera SNP ID:            hCV27015427
SNP Position Genomic:     8662
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3104):
CTCCCCGCAGAGAATTACCTTTTCCAGGGACGGCAGGAATGCTACGCGTTTAATGGGACACAGCGCTTCCTGGAGAGATACATCTACAACCGGGAGGAGT
W
CGCGCGCTTCGACAGCGACGTGGGGGAGTTCCGGGCGGTGACGGAGCTGGGGCGGCCTGCTGCGGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGAG
Celera SNP ID:            hCV8851072
SNP Position Genomic:     10797
SNP Source:               Applera
Population(Allele,Count): african american(A,7|T,25)   caucasian(A,2|T,12)   total(A,9|T,37)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:3105):
CCCGCAGAGAATTACCTTTTCCAGGGACGGCAGGAATGCTACGCGTTTAATGGGACACAGCGCTTCCTGGAGAGATACATCTACAACCGGGAGGAGTTCG
Y
GCGCTTCGACAGCGACGTGGGGGAGTTCCGGGCGGTGACGGAGCTGGGGCGGCCTGCTGCGGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGAGAAG
Celera SNP ID:            hCV8851073
SNP Position Genomic:     10800
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,17)   caucasian(C,9|T,5)   total(C,24|T,22)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS

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:3106):
CGCTTCCTGGAGAGATACATCTACAACCGGGAGGAGTTCGCGCGCTTCGACAGCGACGTGGGGGAGTTCCGGGCGGTGACGGAGCTGGGGCGGCCTGCTG
M
GGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGAGAAGCGGGCAGTGCCGGACAGGATGTGCAGACACAACTACGAGCTGGGCGGGCCCATGACCCTG
Celera SNP ID:            hCV8851074
SNP Position Genomic:     10860
SNP Source:               Applera
Population(Allele,Count): african american(A,17|C,15)   caucasian(A,5|C,9)   total(A,22|C,24)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:3107):
GACAGTGGCTCTGACGGCGTTACTGATGGTGCTGCTCACATCTGTGGTCCAGGGCAGGGCCACTCCAGGTAAGAGCCGAACTGCCATTCTTGGAGGGTCT
R
GCTCAGGGAACAATTCCTAGGGGACGTTATCTTTAAGGGATCAAATTCTGAGACAGGCTGCGGGGGCTCCTGCCCTAAGGCAGTGTCCTCTCTTCCCAGC
Celera SNP ID:            hCV27881282
SNP Position Genomic:     6205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3108):
TCCTGGAGAGATACATCTACAACCGGGAGGAGTTCGCGCGCTTCGACAGCGACGTGGGGGAGTTCCGGGCGGTGACGGAGCTGGGGCGGCCTGCTGCGGA
S
TACTGGAACAGCCAGAAGGACATCCTGGAGGAGAAGCGGGCAGTGCCGGACAGGATGTGCAGACACAACTACGAGCTGGGCGGGCCCATGACCCTGCAGC
Celera SNP ID:            hCV8851078
SNP Position Genomic:     10864
SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,25)   caucasian(C,2|G,12)   total(C,9|G,37)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:3109):
CCGGGAGGAGTTCGCGCGCTTCGACAGCGACGTGGGGGAGTTCCGGGCGGTGACGGAGCTGGGGCGGCCTGCTGCGGAGTACTGGAACAGCCAGAAGGAC
M
TCCTGGAGGAGAAGCGGGCAGTGCCGGACAGGATGTGCAGACACAACTACGAGCTGGGCGGGCCCATGACCCTGCAGCGCCGAGGTGAGTGAGGGCTTTG
Celera SNP ID:            hCV8851079
SNP Position Genomic:     10886
SNP Source:               Applera
Population(Allele,Count): african american(A,26|C,6)   caucasian(A,10|C,2)   total(A,36|C,8)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:3110):
AGAGGGAACATAGACTATGAGGACCAGATAGATCAATGAGCCCCTAAAATCTGTGATCCCTGAAGCAGCAATTGATGTGAACCACCCCATCACTCACCCC
R
ACGCTCCTGCGTCCTCCTGAGCACTCACCCTTGATGGCCCCAGCTCCTCGGAGACTCAGCAGGAAAGCCAAGGAGAGGGCTCTCAAGATCACAGCTCTGA
Celera SNP ID:            hCV27852793
SNP Position Genomic:     3473
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:3111):
AGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAAGAAGGACAATCTCAAATTCTATTTCATTATTTTTCTTCCACGCTCCTAGTCCAGCCTA
R
GGTGAATGTTTCCCCCTCCAAGAAGGGGCCCTTGCAGCACCACAACCTGCTTGTCTGCCACGTGACGGATTTCTACCCAGGCAGCATTCAAGTCCGATGG
Celera SNP ID:            hCV11916902
SNP Position Genomic:     14994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:3112):
GGCCTGCTGCGGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGAGAAGCGGGCAGTGCCGGACAGGATGTGCAGACACAACTACGAGCTGGGCGGGCC
S
ATGACCCTGCAGCGCCGAGGTGAGTGAGGGCTTTGGGCCGGCGGTCCCAGGGCAGCCCCGCGGGCCCGTGCCCAGGGCGCAGGAGCAGCCGGGTTGGCCT
Celera SNP ID:            hCV11916903
SNP Position Genomic:     10951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:3113):
ACGCTCCTAGTCCAGCCTAGGGTGAATGTTTCCCCCTCCAAGAAGGGGCCCTTGCAGCACCACAACCTGCTTGTCTGCCACGTGACGGATTTCTACCCAG
R
CAGCATTCAAGTCCGATGGTTCCTGAATGGACAGGAGGAAACAGCTGGGGTCGTGTCCACCAACCTGATCCGTAATGGAGACTGGACCTTCCAGATCCTG
Celera SNP ID:            hCV25651133
SNP Position Genomic:     15075
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,13)   caucasian(A,2|G,6)   total(A,17|G,19)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:3114):
ATTCTATTTCATTATTTTTCTTCCACGCTCCTAGTCCAGCCTAGGGTGAATGTTTCCCCCTCCAAGAAGGGGCCCTTGCAGCACCACAACCTGCTTGTCT
R
CCACGTGACGGATTTCTACCCAGGCAGCATTCAAGTCCGATGGTTCCTGAATGGACAGGAGGAAACAGCTGGGGTCGTGTCCACCAACCTGATCCGTAAT
Celera SNP ID:            hCV25651134
SNP Position Genomic:     15051
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,14)   caucasian(A,2|G,6)   total(A,16|G,20)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:3115):
AAGGAAGGAAGGAAAGAAGGACAATCTCAAATTCTATTTCATTATTTTTCTTCCACGCTCCTAGTCCAGCCTAGGGTGAATGTTTCCCCCTCCAAGAAGG
R
GCCCTTGCAGCACCACAACCTGCTTGTCTGCCACGTGACGGATTTCTACCCAGGCAGCATTCAAGTCCGATGGTTCCTGAATGGACAGGAGGAAACAGCT
Celera SNP ID:            hCV25651135
SNP Position Genomic:     15021
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,11)   caucasian(G,4)   total(A,1|G,15)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:3116):
CCCAGCTGAGTGTTGTATCCTCCATCCCTTTCCACCTGGTCCCTTCATTTTCTACCCCTCACAGTTCCCTAACGAGAAGGTGGTCCACCCAACAGACAAC
R
CTGCCTCAGATGGTTATCAAGGGGTACCCTAAGAAGAAATCATCTCACCCTCTCTTTGTCCCCATTTGTCAAGTAGCAGTGAGGCCGAGCCAGGGGATGG
Celera SNP ID:            hCV27458799
SNP Position Genomic:     18345
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3117):
TGGACAAGACTGCAGCCACTGCAGGCCCAAAGCCTGGGTTTAAATCCAAGCTTTGCACTTTGAAGCTGTGTGGTCTTCACCTCTCCCGGTGTCTGATTCC
Y
GCTCTGTAACATGAAATAAATAAGAACCAACCTCCAGATGTAAATAAGTGAACACATGAGAAGCACTTAGAATAGTGCCTAGAACATAGTAAGCAACTCA
Celera SNP ID:            hCV15840193
SNP Position Genomic:     20841
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:3118):
TAAAAACAATACGTTTTGACCAATTTTAGATTTATTCTAGGAATGCAATGATTCTTCAGTGTCAGAAAATATATAATGTGGTTAACACATTAGTGGACTC
Y
GCAAAATTCATATTAATTTAAACTGAATTCAGCTCAAGACATAGACAGAATTTAATCAATTTCATGACATGTTAAAGGTAGTGAACCAAAAATCTATAGC
Celera SNP ID:            hCV15840194
SNP Position Genomic:     20453
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:3119):
CAGTGCCCCTGAGCTCATTCTTTTCAGTAAATTCTCTCTCTGCGTGGTGAGAAAACAGGCCTGGAGAGGCTCTGCGACCCGCTTAGGACCACAGAACTCG
R
TACTAGGAAAACTCCTATTTTAAAATCCAGCCCTGGGTGGGAAGATTTGGGAAGAATCGTTAATATTGAGAGAGAGAGGGAGAAAGAGGATTAGATGAGA
Celera SNP ID:            hCV15905361
SNP Position Genomic:     10570
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,9)   caucasian(G,2)   total(A,1|G,11)
SNP Type:                 INTRON;TFBS

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


Context             (SEQ ID NO:3120):
ATCTATACCCTGGGGCCATGTCCAAACCCCATCTTTCTTCTATACCAGCTCCTGAGCATAGTTTGAAGCCAGGGAAATGGAGACTTCCTGACCTTGGCTT
R
GGGGTTCCTGAAGATTCATAGTTCTCCCCCTTGTCAGAGAATCTAGGGACACTGACTGGTCTCGAAACCCTCACACTTAGGAACTGACCTCACACATAGG
Celera SNP ID:            hCV27015430
SNP Position Genomic:     15451
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3121):
GCCACCAGCAGAAGGGACTGCCTTCCCCTCAGTGCTCGCCCCTCCCTAGTGATCACTCAGTGCCCCTGAGCTCATTCTTTTCAGTAAATTCTCTCTCTGC
R
TGGTGAGAAAACAGGCCTGGAGAGGCTCTGCGACCCGCTTAGGACCACAGAACTCGGTACTAGGAAAACTCCTATTTTAAAATCCAGCCCTGGGTGGGAA
Celera SNP ID:            hCV15905362
SNP Position Genomic:     10513
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3122):
GGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATATGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATA
Y
CCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCTTTGAGGAATTGCCACACTGTCTTGAGATACCATCTCACACCAGTTAAAATGGC
Celera SNP ID:            hCV16157840
SNP Position Genomic:     7466
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:3123):
CAGTATTCCATGGTGTATATGTGTGCATTTTCTTAATCCAGTCTATCACTGATGGACAGTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGC
W
ATAAACATATGTGTGCATGTGTCTTTATAGCAGCATGATTTATAATCCTTTGGGTATATATCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTT
Celera SNP ID:            hCV16157841
SNP Position Genomic:     7405
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:3124):
CGCGCGCTTCGACAGCGACGTGGGGGAGTTCCGGGCGGTGACGGAGCTGGGGCGGCCTGCTGCGGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGAG
R
AGCGGGCAGTGCCGGACAGGATGTGCAGACACAACTACGAGCTGGGCGGGCCCATGACCCTGCAGCGCCGAGGTGAGTGAGGGCTTTGGGCCGGCGGTCC
Celera SNP ID:            hCV8851080
SNP Position Genomic:     10898
SNP Source:               Applera
Population(Allele,Count): african american(A,20|G,6)   caucasian(A,10)   total(A,30|G,6)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:3125):
AGAGAGCCCTAAGCTGGAGTGTCCAGGCTCTGAGGATCACTGAGGATTCAGTGCTCACGAAGAATGCCTCTTATTCCCCAGGGTGGAGCAGGAGCCCACA
Y
CCCTTGGACAATTAAGGAGAGAAGGGAGGGAGGGGGATAGGTTTTAGCCCCTGAAGGCATTCTCATTAAAGGTACTTCTCCCAGCCTCCCCAGAACTTGG
Celera SNP ID:            hCV2951087
SNP Position Genomic:     6646
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:3126):
GGGGGAGTTCCGGGCGGTGACGGAGCTGGGGCGGCCTGCTGCGGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGAGAAGCGGGCAGTGCCGGACAGG
R
TGTGCAGACACAACTACGAGCTGGGCGGGCCCATGACCCTGCAGCGCCGAGGTGAGTGAGGGCTTTGGGCCGGCGGTCCCAGGGCAGCCCCGCGGGCCCG
Celera SNP ID:            hCV8851084
SNP Position Genomic:     10919
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,9)   caucasian(A,10|G,2)   total(A,31|G,11)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:3127):
GTAGAAAAAAATACAAAATTGAGAGGAAGAAGAAAATATCCTTCAAATTTTAGGGCTCTTGACAGTTTTAAAGTTTCTGTCTTAGTTTATGAACATGAAA
M
TGTAGAATGTATAGCTTTGTTGATAATATTTTTCATTTGGGGCATATAAATTCAAAAGTACAGTACAGTTATTTTGGCATTTGTTCCAAACTTTTGTTTC
Celera SNP ID:            hCV15756057
SNP Position Genomic:     623
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,576|A,873)   total(A,873|C,576) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3128):
GGGAGTTCCGGGCGGTGACGGAGCTGGGGCGGCCTGCTGCGGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGAGAAGCGGGCAGTGCCGGACAGGAT
R
TGCAGACACAACTACGAGCTGGGCGGGCCCATGACCCTGCAGCGCCGAGGTGAGTGAGGGCTTTGGGCCGGCGGTCCCAGGGCAGCCCCGCGGGCCCGTG
Celera SNP ID:            hCV8851085
SNP Position Genomic:     10921
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,23)   caucasian(A,3|G,9)   total(A,12|G,32)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:3129):
GTCTGATGGGCAGGTAGACAGAAGGGTCTGCAGCCGGGGAGGAGACTGAGATACATGAGACCATCCAGGGAGAGGGGACCCAGGGGGAAGAGCAAAGGAC
Y
GGATCCTGGGAACTGGACAGTTGTGATTTGGCCAAGACAGAAAAGCCTGTGAAAGAGACCAAAAAAACCCAAGTGCAGTGTGAGGAGAGGCCCGCAGAGA
Celera SNP ID:            hCV8851089
SNP Position Genomic:     11469
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,9)      total(C,9|T,3) ;SC_12_A(C,3|T,14)   SC_12_C(C,9|T,12)   SC_12_AA(C,3|T,14)   total(C,15|T,40)   (C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3130):
GTGGTCTTTGGTTTTTTGTCCTTGCAATAGTTTGCTGTGAATGATGATTTCCAGCTTCCTCCATGTCCCTACAAAGGACATGAACTCATCCTTTTTTATG
R
CTGCACAGTATTCCATGGTGTATATGTGTGCATTTTCTTAATCCAGTCTATCACTGATGGACAGTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGT
Celera SNP ID:            hCV27465226
SNP Position Genomic:     7299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3131):
ATGTTTTCTGGGCATTAGAGAAGGCAACTAGAACAAACAGGAATCCTTGCCTTGGTGAAATGTATTTGAACTGGGTCAGAAATGAGGCCATTGGGTATCA
R
GCCTTAACTCCAGCGCACCCTGGAGGTCACTGATGTGGCTCCAGGCTGACCTGCTCCTGTCAAAGAATATTGAGCAAGATGCCTCTCGTGGAATGTTCTG
Celera SNP ID:            hCV27465227
SNP Position Genomic:     12912
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3132):
TGTGCTAAACTAACAAATACCCAGATATCCAGGTTTGGCTCATGCTACACGTCCAAAGTAAGTCATCCAGGAAGCTCTGCTTATCATCGTACTCAGGAAG
Y
CAGGCTGACAGTCTTTCTCCTGCACATCTGCTCCCAGAACCTCCCCAGCAGAATGAAGGGAACCTAAGAATTTATTCACTGGCTTTTAATGATCCCTCCT
Celera SNP ID:            hCV27465229
SNP Position Genomic:     18811
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3133):
TTACACGTGTGATTCTAGAACATAGAATGGAACAGAATTTTTGAGATCATTTTATGAGGTTGGTTCATTTATATTTCCAGAGCCAGCTAAGAATAGTACA
R
GAGAACAGGATTGTGGACTAATTTTAGCCATGTCACTGAATCCAACAGTACATTATAAAAACAATACGTTTTGACCAATTTTAGATTTATTCTAGGAATG
Celera SNP ID:            hCV15861682
SNP Position Genomic:     20297
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3134):
AGCATTCAAGTCCGATGGTTCCTGAATGGACAGGAGGAAACAGCTGGGGTCGTGTCCACCAACCTGATCCGTAATGGAGACTGGACCTTCCAGATCCTGG
W
GATGCTGGAAATGACCCCCCAGCAGGGAGATGTCTACACCTGCCAAGTGGAGCACACCAGCCTGGATAGTCCTGTCACCGTGGAGTGGAGTGAGTCTCTG
Celera SNP ID:            hCV25651147
SNP Position Genomic:     15177
SNP Source:               Applera
Population(Allele,Count): african american(A,20|T,6)   caucasian(A,1|T,3)   total(A,21|T,9)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:3135):
GCTCTGCGACCCGCTTAGGACCACAGAACTCGGTACTAGGAAAACTCCTATTTTAAAATCCAGCCCTGGGTGGGAAGATTTGGGAAGAATCGTTAATATT
R
AGAGAGAGAGGGAGAAAGAGGATTAGATGAGAGTGGCGCCTCCGCTCATGTCCGCCCCCTCCCCGCAGAGAATTACCTTTTCCAGGGACGGCAGGAATGC
Celera SNP ID:            hCV25651148
SNP Position Genomic:     10638
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(A,2|G,12)   total(A,3|G,43)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:3136):
CCGCCCCCTCCCCGCAGAGAATTACCTTTTCCAGGGACGGCAGGAATGCTACGCGTTTAATGGGACACAGCGCTTCCTGGAGAGATACATCTACAACCGG
S
AGGAGTTCGCGCGCTTCGACAGCGACGTGGGGGAGTTCCGGGCGGTGACGGAGCTGGGGCGGCCTGCTGCGGAGTACTGGAACAGCCAGAAGGACATCCT
Celera SNP ID:            hCV25651149
SNP Position Genomic:     10790
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,30)   caucasian(G,14)   total(C,2|G,44)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:3137):
GAGATTCAGAACGAAAAGGGTAAATGACATTTATACACATTTTAAAATGCAAAATCTTACGACCAACTCTATACATATAAATTTGAAAATTTAGATAAAA
M
GGATACGTTTCTAGAAAGATATAAAGGTCAAAACTACAGGAAGAAATAGAAAACTAAAATAGAGTAGAGAATATCAAAGAAATTGTCATGGGAAGCAAAG
Celera SNP ID:            hCV16222615
SNP Position Genomic:     20015
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3138):
ATGAAAATGGGAGAATCCACACTCAGAGTGGGGCAATTGAACAGGCAGGGGCGGATGGATGGCAGAGGAGGAGGAATCTGGACTCAAGGAGCTGGGGGGC
Y
CTGGGCCTGGAATTTTAGGGTCTGGGGCCCAAGGCACCAGGAGAAGAGGCAGGTCAGGATATCTGAGTCAAGACCTGGGATCTTGCCTTAGCAATGACAC
Celera SNP ID:            hCV11916919
SNP Position Genomic:     8984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3139):
CACCTTGTTGAGGTCACACCCCTGTTCCAGATATGAGGGTGGCTCTTTCTGAATTTCCTCTTAGCAAGCTTTTTCCGCTGCACTGTCCTCATCCCGATAT
K
CTGCATCAGGCTCCAGAATCTCAGACAGGACATGAGTAGGGATGCAGCTGGTGGAGGTGACACTAAACCTGGGTCTGTCCTTCCCAGAGGCACAGTCTGA
Celera SNP ID:            hCV22273250
SNP Position Genomic:     15726
SNP Source:               Applera
Population(Allele,Count): african american(G,16|T,4)   caucasian(G,24|T,4)   total(G,40|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:3140):
GTGCTTCCTTGCCATGACGATGCCAGCAATACCCCTCTGAGAGGAACAGGCAGCTATAGGCAGTGCCATTTGTGGCCCAAGTCTGTTTGGACCATTGATC
Y
GGGTGTTCAAGTGCTTCCTTGCCATGACGATGCCAGCAATACCCCTCTGAGCACCAAAGTCAAAGGTGTGAATAAACTCTGGTAGAGGCCAGACCATCTC
Celera SNP ID:            hCV26007185
SNP Position Genomic:     26566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:3141):
AGAACAAACAGGAATCCTTGCCTTGGTGAAATGTATTTGAACTGGGTCAGAAATGAGGCCATTGGGTATCAGGCCTTAACTCCAGCGCACCCTGGAGGTC
R
CTGATGTGGCTCCAGGCTGACCTGCTCCTGTCAAAGAATATTGAGCAAGATGCCTCTCGTGGAATGTTCTGGGACCTTAAAACAGATACCCAAGTATTCC
Celera SNP ID:            hCV27453501
SNP Position Genomic:     12941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3142):
GTAAGAGGATTTCTCAAGGATGGGACAGGAAGGCCTTGGAGCTTTGGCTTCCTCCTGTGAACTTGTGGGGTGGGGAGCCTGGTGCACCAACCTGAGGGAC
Y
TGAGGGAGTAGTATCAGGATGTGGGATTGAGCCCTGGACCTTTTTTCTAGAAAGAGGAAAAAAATGAAGGGAGGAGGAGGAGGAAGCTGGGGAGATCACA
Celera SNP ID:            hCV16075846
SNP Position Genomic:     11991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3143):
GACCAGATAGATCAATGAGCCCCTAAAATCTGTGATCCCTGAAGCAGCAATTGATGTGAACCACCCCATCACTCACCCCGACGCTCCTGCGTCCTCCTGA
S
CACTCACCCTTGATGGCCCCAGCTCCTCGGAGACTCAGCAGGAAAGCCAAGGAGAGGGCTCTCAAGATCACAGCTCTGATATGGAACATTCTGTCTTCAG
Celera SNP ID:            hCV25931426
SNP Position Genomic:     3494
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,33)   caucasian(G,38)   total(C,1|G,71)
SNP Type:                 INTRON;TFBS

SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,30)   caucasian(G,38)   total(C,2|G,68)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3144):
CGCATCCTCTCACCATAATTTTTCTCTCCTGGACTTACAGGAAGGAGGCTGGCAACCTGGGATAACTTGTCTTTTACCCCCACAGGGTTCCTGAGCTCAC
Y
GAAAAGACTATTGTGCCTTAGGAAAAGCATTTGCTGTGTTTCGTTAGCATCTGGCTCCAGGACAGACCTTCAACTTCCAAATTGGATACTGCTGCCAAGA
Celera SNP ID:            hCV27466399
SNP Position Genomic:     22140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:3145):
ATTATTTTTCTTCCACGCTCCTAGTCCAGCCTAGGGTGAATGTTTCCCCCTCCAAGAAGGGGCCCTTGCAGCACCACAACCTGCTTGTCTGCCACGTGAC
R
GATTTCTACCCAGGCAGCATTCAAGTCCGATGGTTCCTGAATGGACAGGAGGAAACAGCTGGGGTCGTGTCCACCAACCTGATCCGTAATGGAGACTGGA
Celera SNP ID:            hCV8851090
SNP Position Genomic:     15061
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,15)   caucasian(A,2|G,6)   total(A,13|G,21)
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;UTR 5;TFBS;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:3146):
AGGAGGAAACAGCTGGGGTCGTGTCCACCAACCTGATCCGTAATGGAGACTGGACCTTCCAGATCCTGGTGATGCTGGAAATGACCCCCCAGCAGGGAGA
Y
GTCTACACCTGCCAAGTGGAGCACACCAGCCTGGATAGTCCTGTCACCGTGGAGTGGAGTGAGTCTCTGATGACCCTCTAGACCCCACCTCTGAAGAGCA
Celera SNP ID:            hCV8851091
SNP Position Genomic:     15208
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,24)   caucasian(C,2|T,38)   total(C,14|T,62)
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;UTR 5;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:3147):
TCCCACATTTCCAGGAGCAGATCATGCCTCTTACACGTGTGATTCTAGAACATAGAATGGAACAGAATTTTTGAGATCATTTTATGAGGTTGGTTCATTT
R
TATTTCCAGAGCCAGCTAAGAATAGTACAGGAGAACAGGATTGTGGACTAATTTTAGCCATGTCACTGAATCCAACAGTACATTATAAAAACAATACGTT
Celera SNP ID:            hCV27465230
SNP Position Genomic:     20267
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3148):
ACAGCTGGGGTCGTGTCCACCAACCTGATCCGTAATGGAGACTGGACCTTCCAGATCCTGGTGATGCTGGAAATGACCCCCCAGCAGGGAGATGTCTACA
Y
CTGCCAAGTGGAGCACACCAGCCTGGATAGTCCTGTCACCGTGGAGTGGAGTGAGTCTCTGATGACCCTCTAGACCCCACCTCTGAAGAGCAGGGGACTC
Celera SNP ID:            hCV8851095
SNP Position Genomic:     15216
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,19)   caucasian(C,32|T,8)   total(C,49|T,27)
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3;INTRON;MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:3149):
TCCGTAATGGAGACTGGACCTTCCAGATCCTGGTGATGCTGGAAATGACCCCCCAGCAGGGAGATGTCTACACCTGCCAAGTGGAGCACACCAGCCTGGA
Y
AGTCCTGTCACCGTGGAGTGGAGTGAGTCTCTGATGACCCTCTAGACCCCACCTCTGAAGAGCAGGGGACTCTCTGGCTCTGGGGTCCACTCATCTTATC
Celera SNP ID:            hCV8851096
SNP Position Genomic:     15244
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,19)   caucasian(C,3|T,37)   total(C,20|T,56)
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;UTR 5;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:3150):
TTATTCCACGATGAGGGGTTTGACAGAAAAGAAATGTCAGAAAGCTCTAGAGGCCACTGATATCAGATAATCGGGGAACAAACATGACCTATAGCGAGAG
D
GGGATCCCAGGCTGGGATCTTAATGCAGCCAGATGCATGAGGTCCCAAGTACTCAGGCTCCTGCGGAGCGTCCATTGAGTGATGGGCAATGGAATTTGGT
Celera SNP ID:            hCV22274494
SNP Position Genomic:     21629
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,7|T,3)   caucasian(A,38|G,2)   total(A,64|G,9|T,3)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:3151):
CCTCCCCGCAGAGAATTACCTTTTCCAGGGACGGCAGGAATGCTACGCGTTTAATGGGACACAGCGCTTCCTGGAGAGATACATCTACAACCGGGAGGAG
Y
TCGCGCGCTTCGACAGCGACGTGGGGGAGTTCCGGGCGGTGACGGAGCTGGGGCGGCCTGCTGCGGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGA
Celera SNP ID:            hCV25651150
SNP Position Genomic:     10796
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,29)   caucasian(T,14)   total(C,1|T,43)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:3152):
ATTCACACTTATTCCACGATGAGGGGTTTGACAGAAAAGAAATGTCAGAAAGCTCTAGAGGCCACTGATATCAGATAATCGGGGAACAAACATGACCTAT
R
GCGAGAGAGGGATCCCAGGCTGGGATCTTAATGCAGCCAGATGCATGAGGTCCCAAGTACTCAGGCTCCTGCGGAGCGTCCATTGAGTGATGGGCAATGG
Celera SNP ID:            hCV22274495
SNP Position Genomic:     21621
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,9)   caucasian(A,33|G,7)   total(A,62|G,16)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:3153):
TCAGGATGGAAATGTCAGTCAGGGAGTTAAGTAGGGGGAGCAGCTCCGCCCTCCACGTCCCCAGCTCCTCCCGCCCCTGTTTTTTCTCCCAGTGACCCCA
M
GTGAAACGTCTCCGCCTCCTCCAGCCACCAGCAGAAGGGACTGCCTTCCCCTCAGTGCTCGCCCCTCCCTAGTGATCACTCAGTGCCCCTGAGCTCATTC
Celera SNP ID:            hCV15905304
SNP Position Genomic:     10389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3154):
CGGGACTTACCTTCCCCTGGCATATTCACACTTATTCCACGATGAGGGGTTTGACAGAAAAGAAATGTCAGAAAGCTCTAGAGGCCACTGATATCAGATA
R
TCGGGGAACAAACATGACCTATAGCGAGAGAGGGATCCCAGGCTGGGATCTTAATGCAGCCAGATGCATGAGGTCCCAAGTACTCAGGCTCCTGCGGAGC
Celera SNP ID:            hCV22274496
SNP Position Genomic:     21598
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,17)   caucasian(A,30|G,10)   total(A,49|G,27)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:3155):
TCTTTCTGCAGCCATGTTTGAAAATTAACTTTCAGGCTACAGAGTCTTTCTTATACCAAAGTTGAAGAAAGTTTTAAGAAATATATTTCTACATCTCCTA
M
ATGCAAAACAACAGGAGCAAGTTGAGGAATTCTCAAGAAACTGGTCGAGAAGAGAGAGCGCTTAGCTATGGAAAAGAGAAAGAAGGAAGGGAGGGCTTCC
Celera SNP ID:            hCV15905305
SNP Position Genomic:     10156
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3156):
ACCAAGTCTTTCTGCAGCCATGTTTGAAAATTAACTTTCAGGCTACAGAGTCTTTCTTATACCAAAGTTGAAGAAAGTTTTAAGAAATATATTTCTACAT
Y
TCCTACATGCAAAACAACAGGAGCAAGTTGAGGAATTCTCAAGAAACTGGTCGAGAAGAGAGAGCGCTTAGCTATGGAAAAGAGAAAGAAGGAAGGGAGG
Celera SNP ID:            hCV15905306
SNP Position Genomic:     10150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3157):
GACTAACACTTGTCAGGATCAGAAGCTGAGGTATCTGCACCCACATTACAGGAACAGGATATGTGCTCCTAGGGAACTGAGGGTGTCAGGAGATGAGGAA
W
GTCCCTGGAGTCACAGAAAGAAGGTATCAGATGTGTCTCACTCTGACATATGCAGGTGTTTATGAAACTCTGGGATTTCTAAGGAAGGATGCAGTGCAGA
Celera SNP ID:            hCV27462695
SNP Position Genomic:     17832
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3158):
ACAAATACCCAGATATCCAGGTTTGGCTCATGCTACACGTCCAAAGTAAGTCATCCAGGAAGCTCTGCTTATCATCGTACTCAGGAAGCCAGGCTGACAG
K
CTTTCTCCTGCACATCTGCTCCCAGAACCTCCCCAGCAGAATGAAGGGAACCTAAGAATTTATTCACTGGCTTTTAATGATCCCTCCTAGAAAGAACACA
Celera SNP ID:            hCV27462696
SNP Position Genomic:     18823
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3159):
TGAATTAAGAGGATGGAAAAGCAGAAAAACAGCAAAAAGAAAATACATGTAAATAATAAGGACAAAAGCTGAATTCAATGAAATATAAAAATAGAGAAGA
Y
AAAATCAAATTTTGAGGCAATGAAAACTTTAATGAGACCTCTGGCAAGACTCCTAAGGAAAATACAGGAGATTCAGAACGAAAAGGGTAAATGACATTTA
Celera SNP ID:            hCV3213544
SNP Position Genomic:     19847
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:3160):
AAATAGTGGAGGAAGAGGAAATAACTGAAAACATAATAGATGTTTAGTCTTTATAGAAAGATGAAATAAGTTCATTCAAAATGCTGCATAGAATGTCAGA
Y
TGTTAAACAATTTTGTTAGAGTAAAATGACTGTAAACAAATGAGCTAATTATGTGAATTAAGAGGATGGAAAAGCAGAAAAACAGCAAAAAGAAAATACA
Celera SNP ID:            hCV3213545
SNP Position Genomic:     19693
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:3161):
AGGAGAATTTGGGAATTTGAAGCAAAAGCAAGAAGCCACTGAATCAAGCACAAATATTGAGCTTTGATAAAGATTGGAATAAGAAACATAATAAATGAGA
Y
AAGAAATAGGACTTTTGCAACTGAAGTGTAATTAATAAACAAAAAGCCAAACTGAGAAACTGTCCCAAGGACAATATGATCGAGTAAACAATAGAAAATG
Celera SNP ID:            hCV3213546
SNP Position Genomic:     19414
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:3162):
AAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAAGAAGGACAATCTCAAATTCTATTTCATTATTTTTCTTCCACGCTCCTAGTCCAGCCTAGGGTGAA
Y
GTTTCCCCCTCCAAGAAGGGGCCCTTGCAGCACCACAACCTGCTTGTCTGCCACGTGACGGATTTCTACCCAGGCAGCATTCAAGTCCGATGGTTCCTGA
Celera SNP ID:            hCV27468362
SNP Position Genomic:     15001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:3163):
GCGGCAGGAGCTGGAATGGGAGGGGGTGCATGAGGCTGAGTGTGGCGCATCCTCCTCGGGGCTGAGATGGATTTTACTTGTCTTGGGTTCCCCACGGCTG
K
CACAGGGCAGTGTCTCAGTTCATTCGTCTTTTTCCTTCAGGAAGTCTGGGTGTAAAGGGATGGAGAGAGGTGAGGTGTGTGCAGTAAGAGGATTTCTCAA
Celera SNP ID:            hCV16075856
SNP Position Genomic:     11807
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3164):
TCCAGGGAGAGGGGACCCAGGGGGAAGAGCAAAGGACCGGATCCTGGGAACTGGACAGTTGTGATTTGGCCAAGACAGAAAAGCCTGTGAAAGAGACCAA
W
AAAACCCAAGTGCAGTGTGAGGAGAGGCCCGCAGAGAAGAGTCTTGGAAGCTGAGGGGAGGTGACCTCAGCAGCACAGTGGACAGCGGTGCCAGTGACTT
Celera SNP ID:            hCV16075857
SNP Position Genomic:     11532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3165):
GAAACCTACAGGGAGGTAGCTGGGTTTGAGGTGCTTGAGGGGCAGATGGGTGGTCTGATGGGCAGGTAGACAGAAGGGTCTGCAGCCGGGGAGGAGACTG
R
GATACATGAGACCATCCAGGGAGAGGGGACCCAGGGGGAAGAGCAAAGGACCGGATCCTGGGAACTGGACAGTTGTGATTTGGCCAAGACAGAAAAGCCT
Celera SNP ID:            hCV16075858
SNP Position Genomic:     11417
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3166):
TGGGGTCCACTCATCTTATCTTCTGCATCTATACCCTGGGGCCATGTCCAAACCCCATCTTTCTTCTATACCAGCTCCTGAGCATAGTTTGAAGCCAGGG
M
AATGGAGACTTCCTGACCTTGGCTTAGGGGTTCCTGAAGATTCATAGTTCTCCCCCTTGTCAGAGAATCTAGGGACACTGACTGGTCTCGAAACCCTCAC
Celera SNP ID:            hCV22275158
SNP Position Genomic:     15425
SNP Source:               Applera
Population(Allele,Count): african american(A,15|C,15)   caucasian(A,30|C,10)   total(A,45|C,25)
SNP Type:                 INTRON


Context             (SEQ ID NO:3167):
ACCATAATTTTTCTCTCCTGGACTTACAGGAAGGAGGCTGGCAACCTGGGATAACTTGTCTTTTACCCCCACAGGGTTCCTGAGCTCACTGAAAAGACTA
W
TGTGCCTTAGGAAAAGCATTTGCTGTGTTTCGTTAGCATCTGGCTCCAGGACAGACCTTCAACTTCCAAATTGGATACTGCTGCCAAGAAGTTGCTCTGA
Celera SNP ID:            hCV27466400
SNP Position Genomic:     22151
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:3168):
CTGGGGCGGCCTGCTGCGGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGAGAAGCGGGCAGTGCCGGACAGGATGTGCAGACACAACTACGAGCTGG
D
CGGGCCCATGACCCTGCAGCGCCGAGGTGAGTGAGGGCTTTGGGCCGGCGGTCCCAGGGCAGCCCCGCGGGCCCGTGCCCAGGGCGCAGGAGCAGCCGGG
Celera SNP ID:            hCV11917374
SNP Position Genomic:     10944
SNP Source:               Applera
Population(Allele,Count): african american(A,13|G,13|T,2)   caucasian(A,3|G,9)   total(A,16|G,22|T,2)
SNP Type:                 MISSENSE MUTATION;INTRON

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


Context             (SEQ ID NO:3169):
AGGGACGGCAGGAATGCTACGCGTTTAATGGGACACAGCGCTTCCTGGAGAGATACATCTACAACCGGGAGGAGTTCGCGCGCTTCGACAGCGACGTGGG
R
GAGTTCCGGGCGGTGACGGAGCTGGGGCGGCCTGCTGCGGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGAGAAGCGGGCAGTGCCGGACAGGATGT
Celera SNP ID:            hCV25651160
SNP Position Genomic:     10822
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(G,14)   total(A,3|G,43)
SNP Type:                 SILENT MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:3170):
GCGCGCTTCGACAGCGACGTGGGGGAGTTCCGGGCGGTGACGGAGCTGGGGCGGCCTGCTGCGGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGAGA
R
GCGGGCAGTGCCGGACAGGATGTGCAGACACAACTACGAGCTGGGCGGGCCCATGACCCTGCAGCGCCGAGGTGAGTGAGGGCTTTGGGCCGGCGGTCCC
Celera SNP ID:            hCV25651161
SNP Position Genomic:     10899
SNP Source:               Applera
Population(Allele,Count): african american(A,26|G,2)   caucasian(A,12)   total(A,38|G,2)
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:3171):
GGGCGGCCTGCTGCGGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGAGAAGCGGGCAGTGCCGGACAGGATGTGCAGACACAACTACGAGCTGGGCG
R
GCCCATGACCCTGCAGCGCCGAGGTGAGTGAGGGCTTTGGGCCGGCGGTCCCAGGGCAGCCCCGCGGGCCCGTGCCCAGGGCGCAGGAGCAGCCGGGTTG
Celera SNP ID:            hCV25651162
SNP Position Genomic:     10947
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,12)   caucasian(A,3|G,9)   total(A,15|G,21)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:3172):
TCTTATTCTTGAATGAAAAACGTTCTCTTACTGGTGATTGAGGAGGAGAAACAAAGACTAACAAATGAAAATGGGAGAATCCACACTCAGAGTGGGGCAA
Y
TGAACAGGCAGGGGCGGATGGATGGCAGAGGAGGAGGAATCTGGACTCAAGGAGCTGGGGGGCTCTGGGCCTGGAATTTTAGGGTCTGGGGCCCAAGGCA
Celera SNP ID:            hCV15905316
SNP Position Genomic:     8920
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3173):
CAGGGTTCCTGAGCTCACTGAAAAGACTATTGTGCCTTAGGAAAAGCATTTGCTGTGTTTCGTTAGCATCTGGCTCCAGGACAGACCTTCAACTTCCAAA
K
TGGATACTGCTGCCAAGAAGTTGCTCTGAAGTCAGTTTCTATCATTCTGCTCTTTGATTCAAAGCACTGTTTCTCTCACTGGGCCTCCAACCATGTTCCC
Celera SNP ID:            hCV26042250
SNP Position Genomic:     22222
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:3174):
AGGGTTCCTGAGCTCACTGAAAAGACTATTGTGCCTTAGGAAAAGCATTTGCTGTGTTTCGTTAGCATCTGGCTCCAGGACAGACCTTCAACTTCCAAAT
W
GGATACTGCTGCCAAGAAGTTGCTCTGAAGTCAGTTTCTATCATTCTGCTCTTTGATTCAAAGCACTGTTTCTCTCACTGGGCCTCCAACCATGTTCCCT
Celera SNP ID:            hCV26042251
SNP Position Genomic:     22223
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:3175):
AGGAGGCTGGCAACCTGGGATAACTTGTCTTTTACCCCCACAGGGTTCCTGAGCTCACTGAAAAGACTATTGTGCCTTAGGAAAAGCATTTGCTGTGTTT
Y
GTTAGCATCTGGCTCCAGGACAGACCTTCAACTTCCAAATTGGATACTGCTGCCAAGAAGTTGCTCTGAAGTCAGTTTCTATCATTCTGCTCTTTGATTC
Celera SNP ID:            hCV8851101
SNP Position Genomic:     22182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON;UTR 5


Context             (SEQ ID NO:3176):
AGCATTTGCTGTGTTTCGTTAGCATCTGGCTCCAGGACAGACCTTCAACTTCCAAATTGGATACTGCTGCCAAGAAGTTGCTCTGAAGTCAGTTTCTATC
R
TTCTGCTCTTTGATTCAAAGCACTGTTTCTCTCACTGGGCCTCCAACCATGTTCCCTTCTTCTTAGCACCACAAATAATCAAAACCCAACATGACTGTTT
Celera SNP ID:            hCV26042252
SNP Position Genomic:     22266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:3177):
GCTGGCAACCTGGGATAACTTGTCTTTTACCCCCACAGGGTTCCTGAGCTCACTGAAAAGACTATTGTGCCTTAGGAAAAGCATTTGCTGTGTTTCGTTA
R
CATCTGGCTCCAGGACAGACCTTCAACTTCCAAATTGGATACTGCTGCCAAGAAGTTGCTCTGAAGTCAGTTTCTATCATTCTGCTCTTTGATTCAAAGC
Celera SNP ID:            hCV8851102
SNP Position Genomic:     22187
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;INTRON;UTR 5


Context             (SEQ ID NO:3178):
TTCTATCATTCTGCTCTTTGATTCAAAGCACTGTTTCTCTCACTGGGCCTCCAACCATGTTCCCTTCTTCTTAGCACCACAAATAATCAAAACCCAACAT
R
ACTGTTTGTTTTCCTTTAAAAATATGCACCAAATCATCTCTCATCACTTTTCTCTGAGGGTTTTAGTAGACAGTAGGAGTTAATAAAGAAGTTCATTTTG
Celera SNP ID:            hCV26042253
SNP Position Genomic:     22359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:3179):
CTATCATTCTGCTCTTTGATTCAAAGCACTGTTTCTCTCACTGGGCCTCCAACCATGTTCCCTTCTTCTTAGCACCACAAATAATCAAAACCCAACATGA
S
TGTTTGTTTTCCTTTAAAAATATGCACCAAATCATCTCTCATCACTTTTCTCTGAGGGTTTTAGTAGACAGTAGGAGTTAATAAAGAAGTTCATTTTGGT
Celera SNP ID:            hCV26042254
SNP Position Genomic:     22361
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;UTR 5


Context             (SEQ ID NO:3180):
AGCAAGGTTGGAATCTCCTGAATACAGCCCCTCAAGCCCTAAAACCTCTTATCTATTACCTTGGGTTCATTGTCCAGGAAGGGGAGGAGAACTTGAACTT
R
TAGTCACAGAAGGGTGCTGAGAACTAACCAGCAGGACGGCTCAGCCCTGGGAACTGCAGAGGGGTGAGGCTGGGGAGAGAGGAGGCTGGAGCAGCACTGG
Celera SNP ID:            hCV3213552
SNP Position Genomic:     7956
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;TFBS


Context             (SEQ ID NO:3181):
TCTGCTCTTTGATTCAAAGCACTGTTTCTCTCACTGGGCCTCCAACCATGTTCCCTTCTTCTTAGCACCACAAATAATCAAAACCCAACATGACTGTTTG
Y
TTTCCTTTAAAAATATGCACCAAATCATCTCTCATCACTTTTCTCTGAGGGTTTTAGTAGACAGTAGGAGTTAATAAAGAAGTTCATTTTGGTTTAAACA
Celera SNP ID:            hCV26042255
SNP Position Genomic:     22368
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3182):
GGCAACCTGGGATAACTTGTCTTTTACCCCCACAGGGTTCCTGAGCTCACTGAAAAGACTATTGTGCCTTAGGAAAAGCATTTGCTGTGTTTCGTTAGCA
Y
CTGGCTCCAGGACAGACCTTCAACTTCCAAATTGGATACTGCTGCCAAGAAGTTGCTCTGAAGTCAGTTTCTATCATTCTGCTCTTTGATTCAAAGCACT
Celera SNP ID:            hCV8851106
SNP Position Genomic:     22190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON;UTR 5


Context             (SEQ ID NO:3183):
AGGACTGCAAAGTAGGTACCTTAGTTTTCCACTGACTTCCACTTTTCCTGCTTACACCCTTCCTCCTAGACCTCTCCACACCCCTCCTAGGACACACCTA
R
AAGGTACTGACATCATGTCACCTCCTCATCTTTCAGGGTAGCAAGGTTGGAATCTCCTGAATACAGCCCCTCAAGCCCTAAAACCTCTTATCTATTACCT
Celera SNP ID:            hCV3213553
SNP Position Genomic:     7816
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:3184):
ACTGTTTCTCTCACTGGGCCTCCAACCATGTTCCCTTCTTCTTAGCACCACAAATAATCAAAACCCAACATGACTGTTTGTTTTCCTTTAAAAATATGCA
Y
CAAATCATCTCTCATCACTTTTCTCTGAGGGTTTTAGTAGACAGTAGGAGTTAATAAAGAAGTTCATTTTGGTTTAAACATAGGAAAGAAGAGAACCATG
Celera SNP ID:            hCV26042256
SNP Position Genomic:     22388
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3185):
CCTGGGATAACTTGTCTTTTACCCCCACAGGGTTCCTGAGCTCACTGAAAAGACTATTGTGCCTTAGGAAAAGCATTTGCTGTGTTTCGTTAGCATCTGG
Y
TCCAGGACAGACCTTCAACTTCCAAATTGGATACTGCTGCCAAGAAGTTGCTCTGAAGTCAGTTTCTATCATTCTGCTCTTTGATTCAAAGCACTGTTTC
Celera SNP ID:            hCV8851107
SNP Position Genomic:     22195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON;UTR 5


Context             (SEQ ID NO:3186):
CTCTCACTGGGCCTCCAACCATGTTCCCTTCTTCTTAGCACCACAAATAATCAAAACCCAACATGACTGTTTGTTTTCCTTTAAAAATATGCACCAAATC
R
TCTCTCATCACTTTTCTCTGAGGGTTTTAGTAGACAGTAGGAGTTAATAAAGAAGTTCATTTTGGTTTAAACATAGGAAAGAAGAGAACCATGAAAATGG
Celera SNP ID:            hCV26042257
SNP Position Genomic:     22395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3187):
TCTTTTACCCCCACAGGGTTCCTGAGCTCACTGAAAAGACTATTGTGCCTTAGGAAAAGCATTTGCTGTGTTTCGTTAGCATCTGGCTCCAGGACAGACC
Y
TCAACTTCCAAATTGGATACTGCTGCCAAGAAGTTGCTCTGAAGTCAGTTTCTATCATTCTGCTCTTTGATTCAAAGCACTGTTTCTCTCACTGGGCCTC
Celera SNP ID:            hCV8851108
SNP Position Genomic:     22209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3;INTRON;UTR 5


Context             (SEQ ID NO:3188):
GGCCTCCAACCATGTTCCCTTCTTCTTAGCACCACAAATAATCAAAACCCAACATGACTGTTTGTTTTCCTTTAAAAATATGCACCAAATCATCTCTCAT
Y
ACTTTTCTCTGAGGGTTTTAGTAGACAGTAGGAGTTAATAAAGAAGTTCATTTTGGTTTAAACATAGGAAAGAAGAGAACCATGAAAATGGGGATATGTT
Celera SNP ID:            hCV26042258
SNP Position Genomic:     22404
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3189):
CAGGGTGAGCGGGACTTACCTTCCCCTGGCATATTCACACTTATTCCACGATGAGGGGTTTGACAGAAAAGAAATGTCAGAAAGCTCTAGAGGCCACTGA
W
ATCAGATAATCGGGGAACAAACATGACCTATAGCGAGAGAGGGATCCCAGGCTGGGATCTTAATGCAGCCAGATGCATGAGGTCCCAAGTACTCAGGCTC
Celera SNP ID:            hCV22274507
SNP Position Genomic:     21589
SNP Source:               Applera
Population(Allele,Count): african american(A,8|T,30)   caucasian(A,2|T,38)   total(A,10|T,68)
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:3190):
CATTGGGTATCAGGCCTTAACTCCAGCGCACCCTGGAGGTCACTGATGTGGCTCCAGGCTGACCTGCTCCTGTCAAAGAATATTGAGCAAGATGCCTCTC
R
TGGAATGTTCTGGGACCTTAAAACAGATACCCAAGTATTCCCCCTGATTTCATGGTTCCCAGAAGCTCTATGGGGAAGAAATTGTAGGTAATTCACAACT
Celera SNP ID:            hCV27462059
SNP Position Genomic:     13000
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3191):
TCTTCATGCACAGGAGGAGCAAGAAAGGTGAGAAAGCCTGCAGGGTGAGCGGGACTTACCTTCCCCTGGCATATTCACACTTATTCCACGATGAGGGGTT
W
GACAGAAAAGAAATGTCAGAAAGCTCTAGAGGCCACTGATATCAGATAATCGGGGAACAAACATGACCTATAGCGAGAGAGGGATCCCAGGCTGGGATCT
Celera SNP ID:            hCV22274508
SNP Position Genomic:     21549
SNP Source:               Applera
Population(Allele,Count): african american(A,11|T,17)   caucasian(A,10|T,30)   total(A,21|T,47)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:3192):
GGACAGGATGTGCAGACACAACTACGAGCTGGGCGGGCCCATGACCCTGCAGCGCCGAGGTGAGTGAGGGCTTTGGGCCGGCGGTCCCAGGGCAGCCCCG
Y
GGGCCCGTGCCCAGGGCGCAGGAGCAGCCGGGTTGGCCTAAGGGACCTTAGTGCCGGGCGGAAAGGGGACTTTGGGTTGGGGATTCATGGGGGGAGCCCA
Celera SNP ID:            hCV16075868
SNP Position Genomic:     11012
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,14)   total(C,43|T,1)
SNP Type:                 INTRON;TFBS

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


Context             (SEQ ID NO:3193):
ATATATTTCTACATCTCCTACATGCAAAACAACAGGAGCAAGTTGAGGAATTCTCAAGAAACTGGTCGAGAAGAGAGAGCGCTTAGCTATGGAAAAGAGA
R
AGAAGGAAGGGAGGGCTTCCTGGAGGAGGTGGCATTTGAACCAGGACTGACATCAGGATGGAAATGTCAGTCAGGGAGTTAAGTAGGGGGAGCAGCTCCG
Celera SNP ID:            hCV16075869
SNP Position Genomic:     10236
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3194):
GCGGAAACCCAGAGGTCTTAACAGTAGGGTTCGTAGAAGGTCCAAGGGCCAGATCTTGATGCCCAACATTGCTTATGGGAGCAACAACAACAACAAAAAA
M
ACATGCTGCCCAGTGGCTTCCAGAAGTTTCTGGTCCACAGCCTCAAGGAGCTGAAAGTGCTGCTGATGTGCAACAAATCTTACTGTGCTGAGATCGCTCA
Celera SNP ID:            hCV16075799
SNP Position Genomic:     9690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3195):
GATGGTGAAAGTGGAAGGAGGTGGGAGTTGGGCATTGGGTGTGAAGATGCTCTTTAAAGGGGTTTTAATAACCACTTGCTACCAGGCCAGTGAACACTTA
Y
CATAGTTGATGCCTTTTGAGCATGTTGCATTGTAAACTGTCCCTGAAATTCCTGTGCACTTGGCTTATGGGATGAAACATCCTCCTAGTTCTCTTGTCTC
Celera SNP ID:            hCV27454615
SNP Position Genomic:     18541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3196):
TTACTGTGCTGAGATCGCTCACAAAATTTCCTCCAGAACTGCAAAGTCATCATGGAAAGAGTCACCCAGCCGGCCATCAGAGTCACCAACCCCAGTACCA
S
GGTGCACAGCTAAGAAAATGAGTAGAAAGTTCATGTCCACGTTTTGTGTGTAAATAAAACCATAAAAACTGCCAAAAAAAATTACATCAATGCCTCTAAA
Celera SNP ID:            hCV27487467
SNP Position Genomic:     9870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3197):
CAGTAAGAATAGGATCAGCTGTGCTAAACTAACAAATACCCAGATATCCAGGTTTGGCTCATGCTACACGTCCAAAGTAAGTCATCCAGGAAGCTCTGCT
Y
ATCATCGTACTCAGGAAGCCAGGCTGACAGTCTTTCTCCTGCACATCTGCTCCCAGAACCTCCCCAGCAGAATGAAGGGAACCTAAGAATTTATTCACTG
Celera SNP ID:            hCV27453458
SNP Position Genomic:     18792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3198):
AAGGTACTGACATCATGTCACCTCCTCATCTTTCAGGGTAGCAAGGTTGGAATCTCCTGAATACAGCCCCTCAAGCCCTAAAACCTCTTATCTATTACCT
Y
GGGTTCATTGTCCAGGAAGGGGAGGAGAACTTGAACTTGTAGTCACAGAAGGGTGCTGAGAACTAACCAGCAGGACGGCTCAGCCCTGGGAACTGCAGAG
Celera SNP ID:            hCV29315397
SNP Position Genomic:     7917
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3199):
AGCACTGGTGACACTGAACAGTGTCAGGAGGAAGTGACGGATGCAGCGCCCCCATCCCATAGGCAGAGCTGTCATGTGGGATGAGGGACAGTGTTGGGAG
Y
CACCAAGGAAACCCAGAGGTGGGGGAGCAGAGAGCAGAAGGGGGCATGTGATGCTGGGCAGTGAAAGGGAGGACAGGCAAAGGCTGGGTTGAGGTTTGTA
Celera SNP ID:            hCV29315398
SNP Position Genomic:     8149
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3200):
AGACACTGCTCATGGCACTCCCTAGGAAGAACAGCATGTGGGAAAGGCTGCCAAAATTGTTCATGTAAAAATTACATCAATGCTGTCTTCCTCGGTGCTG
Y
CTATGCAGCTGGCAGCCATCTCTTCCTCCACATCATGGCCTCCCTCAGACTCCTCATGAAGGATAAGATCCTCAAAAAGAGGACCAACAAGTTCATGAGG
Celera SNP ID:            hCV29315399
SNP Position Genomic:     9451
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3201):
AGTCTCATTGAGCACCTTCTCTTCAATTTCTTTTACACAGTAAGAATAGGATCAGCTGTGCTAAACTAACAAATACCCAGATATCCAGGTTTGGCTCATG
Y
TACACGTCCAAAGTAAGTCATCCAGGAAGCTCTGCTTATCATCGTACTCAGGAAGCCAGGCTGACAGTCTTTCTCCTGCACATCTGCTCCCAGAACCTCC
Celera SNP ID:            hCV27463003
SNP Position Genomic:     18755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3202):
GCGGCCTGCTGCGGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGAGAAGCGGGCAGTGCCGGACAGGATGTGCAGACACAACTACGAGCTGGGCGGG
S
CCATGACCCTGCAGCGCCGAGGTGAGTGAGGGCTTTGGGCCGGCGGTCCCAGGGCAGCCCCGCGGGCCCGTGCCCAGGGCGCAGGAGCAGCCGGGTTGGC
Celera SNP ID:            hCV25651173
SNP Position Genomic:     10949
SNP Source:               Applera
Population(Allele,Count): african american(C,10|G,12)   caucasian(C,8|G,2)   total(C,18|G,14)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:3203):
TTACCCCCACAGGGTTCCTGAGCTCACTGAAAAGACTATTGTGCCTTAGGAAAAGCATTTGCTGTGTTTCGTTAGCATCTGGCTCCAGGACAGACCTTCA
R
CTTCCAAATTGGATACTGCTGCCAAGAAGTTGCTCTGAAGTCAGTTTCTATCATTCTGCTCTTTGATTCAAAGCACTGTTTCTCTCACTGGGCCTCCAAC
Celera SNP ID:            hCV8851111
SNP Position Genomic:     22213
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;INTRON;UTR 5


Context             (SEQ ID NO:3204):
GCCTGCTGCGGAGTACTGGAACAGCCAGAAGGACATCCTGGAGGAGAAGCGGGCAGTGCCGGACAGGATGTGCAGACACAACTACGAGCTGGGCGGGCCC
R
TGACCCTGCAGCGCCGAGGTGAGTGAGGGCTTTGGGCCGGCGGTCCCAGGGCAGCCCCGCGGGCCCGTGCCCAGGGCGCAGGAGCAGCCGGGTTGGCCTA
Celera SNP ID:            hCV25651174
SNP Position Genomic:     10952
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,15)   caucasian(A,10|G,4)   total(A,21|G,19)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:3205):
CCACAGGGTTCCTGAGCTCACTGAAAAGACTATTGTGCCTTAGGAAAAGCATTTGCTGTGTTTCGTTAGCATCTGGCTCCAGGACAGACCTTCAACTTCC
M
AATTGGATACTGCTGCCAAGAAGTTGCTCTGAAGTCAGTTTCTATCATTCTGCTCTTTGATTCAAAGCACTGTTTCTCTCACTGGGCCTCCAACCATGTT
Celera SNP ID:            hCV8851112
SNP Position Genomic:     22219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3;INTRON;UTR 5


Context             (SEQ ID NO:3206):
AAGGTATCAGATGTGTCTCACTCTGACATATGCAGGTGTTTATGAAACTCTGGGATTTCTAAGGAAGGATGCAGTGCAGAGACAGGTCCCAGAGGAGACA
R
GAGCTGAGAGACCATCCAAACTGGGACCACCTTGTCACTAGACTTCAAATTTTCAATATTGATAGAGTGTTTTCTAAGAGTCAGGCCCTTTGCTGAGTGC
Celera SNP ID:            hCV27462060
SNP Position Genomic:     17953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3207):
AGGAGAAGCGGGCAGTGCCGGACAGGATGTGCAGACACAACTACGAGCTGGGCGGGCCCATGACCCTGCAGCGCCGAGGTGAGTGAGGGCTTTGGGCCGG
S
GGTCCCAGGGCAGCCCCGCGGGCCCGTGCCCAGGGCGCAGGAGCAGCCGGGTTGGCCTAAGGGACCTTAGTGCCGGGCGGAAAGGGGACTTTGGGTTGGG
Celera SNP ID:            hCV25651175
SNP Position Genomic:     10993
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,1)   caucasian(C,14)   total(C,43|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:3208):
AGGTTGGTTCATTTATATTTCCAGAGCCAGCTAAGAATAGTACAGGAGAACAGGATTGTGGACTAATTTTAGCCATGTCACTGAATCCAACAGTACATTA
Y
AAAAACAATACGTTTTGACCAATTTTAGATTTATTCTAGGAATGCAATGATTCTTCAGTGTCAGAAAATATATAATGTGGTTAACACATTAGTGGACTCC
Celera SNP ID:            hCV27462061
SNP Position Genomic:     20353
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 6
Celera Gene:                 hCG1811587 - 209000105656217
Gene Symbol:                 STK19
Protein Name:                serine/threonine kinase 19;D6S60;D6S60E;G11;HLA-RP1;RP1
Celera Genomic Axis:         GA_x5YUV32W6W6(4997729..5019308)
Chromosome:                  Chr6
OMIM number:                 604977
OMIM Information:            SERINE/THREONINE PROTEIN KINASE 19;STK19


Genomic Sequence (SEQ ID NO:1667):
TCCACCTTCCGGGACCTGCTCCCTGGGGAGTATGTGCAGATGGCAGGCCGGGCAGGGCGGAGGGGCCTGGACCCCACAGGCACCGTTATCCTGCTCTGCA
AGGGCCGAGTGCCCGAGATGGCAGACCTGCACCGCATGATGATGGTGAGCGGGCCAGCATGCTCGGCAGGGCCCCAGCTCCAGGACCTTGCTGGATTCTG
TCTTCGATTCTCCTCTCTTCTTTTTCTTCTTCCTTTTTTTTTTGGAGACAGGGTCTTGCTCTGTTACCTAGGCTGGAGTGCAGTGGCACAATCTCGGGTC
ACCGCAACCTCTGCCTTCCAGGCTCAAGGGATCCTCCCACCTCAGCCTCCCAAGTAGGTGGGATTCCAGGCACATGCCACACAGGCCTGGCTAATTTTTT
TTTTTTTTTTATGCTTTGTAGAGATGAGGTTTTGCTATGTTGCACAGGTTGGTCTTGAACTTCTGGGCTCAAGCAGTCTGTCTGCCTCAGCTTCCCAAAG
TACTGGGATTATAGGTGTGGGCCACAGCGCCCAACTTCCTCCGACTTTTTTGTTTTGCCTGGGAGAAGCTGAGGTAGGAGTGAGTGAATCCAAGGATGAG
ATTGGAGCCCATCTCTTCCAGTTTTCTCCCATGTGAATATGGAGCTAGATGGGGCCTTTGAGTCCATTTATTTCAGTTTGCTCCCTTATGTTACAGAAGA
GGTGAGCAAGTGGTTTGTCCAAGGCCCCATGGTTGCAGAGCTAGGACCGGATCTGACGGGAGTAGGCCCAGTCCAGAAGACTGGCTGGGGTTCAGTAGGT
CCCACCCTGATCTCAGTGACTTCTGTGACCTGACTCCAGGGGAAGCCGTCCCAGCTGCAGTCCCAGTTCCGCCTCACGTACACTATGATCCTCAACTTGC
TGCGAGTGGATGCCCTCAGGGTGGAGGACATGATGAAGAGGAGCTTCTCTGAGTTTCCCTCCCGCAAAGACAGCAAGGTAAGGAGCCTGGGGTAACCAGT
GTGTGGAGCAGGAGGTTGGCCAAAGACAGGCTGGGAATAGGTAGGCATCCAGAGGCCAGTGTGTTGAGGGTGGGGAGTGTGACAGATTGGGCCTGGAGAC
TCCCCTTTCACAGCTTCCCCTGCTCCCACCCAAGGCCCATGAACAGGCCCTGGCTGAACTGACCAAGAGGCTGGGAGCTTTGGAGGAGCCTGACATGACT
GGCCAACTGGTCGACCTGCCTGAATATTACAGCTGGGGGGAGGAACTGACAGAGACCCAGCACATGATCCAGGTGAGCAAGTGTGAGTGCTGAGGAGGTG
ATAGGAGAAGGGAAGAGAAGATCGTGTTACTCTAGGTGCTACTAAACTTAGTCCAAGTGTCTGTCCCTGTGATGCCTCCTCCCATCTGTCCTTTGCTCTT
CAGCGACGCATCATGGAGTCTGTGAACGGGCTGAAGTCTCTCTCAGCAGGAAGGGTGGTGGTTGTGAAGAATCAGGAGCATCACAACGCATTGGGAGTGA
TCCTACAGGTGAGGGTGATGGGAATTTGGACTCCAGAGGGTGGGAGGGAGCAAGCCCTCTCTCCATTTTCCCCACTTGGCCAGGGCAGGTTGCGTCATCA
TAGGGCCCTCATTTTCCCCTCTTGCCCTCCTTTTCACCCTCTCCCTTCCCATCACCACATCATGCTCACTCCTTCCTCCCACCACCCCAAGAAGTCTGCT
CTGATCGCTTGACTTGGTTGCCCCTCTCTACTGGTGAGCTCTGCATGGTTGCTTCCTGATTCCTGCCCAAGGGTGGGTATCTGGTCTCTGCCTTTGATGT
CTACTCATCACACCCCCCTCTCCTGGCCTCTCTGACCACCCCCAGGTCTCCTCGAACTCCACCAGCAGAGTATTCACAACCCTGGTCTTGTGTGATAAGC
CCTTGTCCCAGGACCCACAGGACAGGGGGCCAGCCACTGCAGAGGTGCCCTATCCAGATGACCTCGTGGGATTCAAGCTGTTCCTGCCTGAAGGTGAGAG
TGTGGCAGATGTCTGTTTTCTGCCAGCAGTATAAGCAGGATGCCTGGGTCCATGGCAATGTCTGCCCTGCTCTCCCCTTTTCACAGGGCCTTGTGACCAC
ACCGTGGTCAAGCTCCAGCCAGGAGATATGGCTGCCATCACCACCAAGGTGCTCCGGGTGAATGGGGAGAAGATCTTGGAGGACTTCAGCAAGAGGCAGC
AGCCAAAATTCAAGTCAGAGATGCTAGGGAGGCCCTTCTCCTCCAGAGGGGCACGTAGAGGCAGGGAGGGGCAGTGGTCTGGGAGTTTCCTCCAGCCTGA
GGGAGACCATGAAGTGGTGGGGTTGTAGTGAGGGGGCTCCCCCAGCCTAAGGGAGACTGTGAAGTGGAGGTTGTAGTAAGAGGGCTTCCACAGCCTGAGG
GAGGCTTCTGGGGGAGAGAAGATCTTACCCCAGATCTTAAGATCTGCTCCCTCTTCAGGAAGGATCCTCCCCTTGCAGCCGTGACCACTGCTGTCCAGGA
ACTGCTGCGTCTGGCTCAGGCCCACCCAGCCGGACCTCCCACCCTCGACCCTGTCAATGACCTGCAGCTCAAAGATATGTCAGTTGTAGAGGGTGGGCTC
CGGGCCCGGAAGCTGGAGGAGCTGATCCAGGGGGCTCAGTGTGTACACAGCCCCCGTTTTCCTGCCCAGGTAGGACCCTGGGTGGTAACTCCCAAGCTGG
GAGTAGGGGCTTTTCCTCTGTGGTCCCCTGTAGACTGACCGCCCCCATCTCAGCCCTTGTCCTCAGTGCACCCCTGCTAAGGGGCAAGGAGAAGGCTGAC
GGGTGGCTCTCTGCAGTACCTGAAGCTGCGGGAGCGAATGCAGATACAGAAGGAGATGGAGCGGCTGCGCTTCCTACTGTCGGATCAGTCATTGCTGCTG
CTTCCTGAGTACCATCAGCGAGTAGAGGTGGGTGGGGCAGTGGTTGGGGCAGGGGGGCTAGGGGACAGCAGTGTGTCCAATGCCCACCCTTTTTCTTGCA
GGTGCTCCGAACCCTGGGTTACGTGGACGAGGCGGGCACTGTGAAGCTGGCAGGGCGGGTGGCTTGTGCCATGAGCAGCCATGAGTTGCTCCTCACTGAG
CTCATGTTTGACAATGCACTGAGCACCCTGCGGCCTGAGGAGATTGCTGCCTTGCTCTCTGGCCTGGTCTGCCAGAGCCCTGGGGACGCTGGGGATCAGC
TCCCAAACACCCTCAAGCAGGTAGGGGACACCACCCCTTTCTCCCTGCCAGGGCTGTGGCATTCCTGACCTTCACCTTCAGGTAGTCCCCCAGGTGACCC
CCTCCAGCCCTGTAAGTGCCCCAAGGATGGAAAATGGCTGCCTTCTTGATCTGGTCCTTCCCTGTCCTGGAGCAGGAAGGCAGGCCTTAACCTCTCCTTC
TTTCCTGCAGGGAATAGAACGTGTCCGGGCTGTGGCCAAGCGGATTGGTGAGGTCCAGGTGGCTTGTGGCCTGAACCAGACGGTGGAGGAATTTGTGGGG
GAGCTGAATTTTGGGCTGGTTGAGGTTGTATATGAGTGGGCCCGGGGCATGGTGAGTACCTGAGGTTTGGGATTTTGCAGACGGCTGGCTGGGGAGAACC
TGCCCAGGCTGAGTGCATCCAGTCCTCACCCTACTTTCCCCACAGCCCTTCTCCGAGTTGGCAGGGCTCTCAGGGACCCCTGAGGGCCTGGTGGTCCGCT
GCATTCAGCGCCTGGCTGAGATGTGTCGCTCACTGCGGGGGGCAGCCCGCCTGGTAGGAGAGCCTGTGCTGGGTGCCAAGATGGAGACAGCGGCTACCTT
GCTACGGCGGGACATCGTATTTGCGGCCAGCCTCTACACCCAGTGAATGCCCCATGTAAAAACATGATGATAAAACAGCAAAGCACTGTTGTGTGCTTGA
GTTGCTGGACAGGGATGACTCAGCTAAGAAGACAGCGAGAGAACCTCTTAGAAATATGCTTTTATTATCTGCACACAGAGATATGACTGCCTCCCTCTAA
AGCATTACTATTTGGGAGAGGGAGTCTTGGGGGGTGATGGGAGGTCCTGAGTCATAGCTTCCACATACCATATGGGCAGGAAGGCGTAAGGTGCATCTTG
GTGTACAGACACGGTGACTGGGCCGCCAGGCTCCCAAGAGAAGAGATGAACGAGCCTGGGGGGCAGATGGAGGCATCAGTTGAGGGCCAGAGGCTGGATC
CTGGGATCCAGAGGGGAGGGACAGAGCTGAATGCCTCACCTGGGGTCATCCTGGACAACCGTGCTCTGGGCAAAGCTAAGGAAGGCGGCACAGAAGTTCA
TGCACACAGAGGGATTCCAGCCGTCACGGTCATTCTGGAGCAGGCAGAGGAGGAGGCAGAAGATGGGCAGTGGGGGTGGTGGGAGGAGAGAAGGCAGGCT
GTTGCCCTGGATGCTAGACCTGTGGTCTTGGTGTTTGGGGATACGGGTGGGAGCTGCAACATCGTTCCCTTACCCTGACATATTCAAACATCTTCATGGT
AGGAAAGGTCTTGAGGGAAGAGACAAAACCGTCTGGGTTACGGAAGCCAGCAACAACATTCGGGACCCCTGGGAGGAATGACTGAGCCCACCATTTCAGG
AGCTTGTGTCTGACAGGAAAAGCAAGGGATCAGTGGGACCCCTCGTGCACCCTCCATTCTGCCTTCACCCTCCTCCCCAAGTCCCTTTCCCAGCCTTCAA
GCCTAAGCTCTCGCCCTGCCCACCCCGATCCTGAACCTGTAGAAACTCCTCCATTGGCCAGGGCTGTGCATCTCCTTGGAGGTCTTGAGCTCCACATAGC
AGGTTGGGGGCTGTGTGGATGGGGCTTGGGGGTCTGTGCAGTCTACCTCCCCTGAGAAGAGCAGAGGGTGGCTTCCCAGGCGGCTGCGTAGCACAGAGCA
GAAGGCCACGTTGGTGTTAACCTCCCCAGAGGGGTCTGGGGAGCTTCCAGGTTTGTCTGCACAAGGAGAGAAGCAGCAGCAGGCGTGGGGGGCTCTCAAC
CTCTGGGAAGGGGAAGGGGGCTATGAAGCAGGGGCAACTCACCTGCACACATGTACTGCTCAAATTTGTATCCCATGTACATAAGCTCCCGGAGGAGCGG
TGGCCGAGCAAGCCTCTGGGCCCGAGCGTTCGGTGTCTCCACTTCACTCAGGTATAGTGTTCCCTGGAACCGGGAGGCTGCCAGCTGCCAGCCCTCCTGC
CGCTCATACGGTGTCGTCAGCAGTTTTGTCAGGTGCCCCCGCCACGTCACTATGGCCTCTGCCAGCCAGCCTGGACCCCTGAGAGGCAGGAGTTACAGGC
TGAAGGTCTGACACAAGCATTAGTGAGATGCTCCCCTCGAAGAATAGTCTTGTTTCTTCTAAGGACTGATTCTCACCCCGGCTTTGGCTCTCCTAATTTT
AGAGGGTAGGTACGGGTCTCCAGATATACTGCCTACCACGCTTTGCTCACCCCTCCAACCGGCCTCGGTGTTCCAGGAGCCAGCACAGCAGGTGGTCCAG
CCTTTCCTGGACCTCCTCGTCCCGGGGCTGGTATCGATCCGGGTATCCGTCTCTGAGGTCAAAGTTGGGGCCTGGACCGTTAGTGGGGGGTGGGCTATAG
TAGCGCAGGGCTCGGGCATCTCCATGGTACTGGCGTTGAGCATCCAGGGAGAAGCAGCCCAGTTCCGAAGGGCGCCGGTAGAAAGGAAAGGGCCCAGAGT
AGAGGGCAGGGTCTGTGGGCAGAGAAGGTGCTGGACGAGGTAGTTTGTTCCGAGGCTCAGCTACCTCTGTCTTCTCAGCTCCTCTCTTGGTCCCCCTGGG
ATCCATGAGGTCCTAAGACAAGCAGGGGTACAGAGTTTCCATTCTACAGAGGAGGCCTGGAGAAGGATGACTGGTTTAGGACTAAGCGAGCCACCTGATC
GCCAGGCTCTGGCCTTGAAACATTCAGGCCCCTCAGACGCCACCGCGGCCAAGCTCTCATCCTGCCTCTTTCCTTGCCCTTCACCCACCCTCCCTCCAGG
TCCTCCAAATGCAGTGAGGTTAGGAAGGACGTCTGCGCTCAGATCAAGAATCCAGTTACCTCAAAGCTCCCCAACTTCCACCTCCGCAGAGCTATGACGT
CATGGCAGGCACGCCAGAGGCCGAAGGATGCAAAAGTGGTTTTCTGCTTTCGATGATGCAATCATTCAGCGACAGTGGCGGGCAAACCCCTCCCGGGGCG
GGGGAGGTGTGAGCTTCACGAAGGAGGTTGACACCAACGTGGMCACCGGCGCCCCTCCACGCCGCCAACGAGTCCCCGGGCGTGCGTGCCCTTGGAGGGA
GCCAATCCGCGGCCGGCGTGGGGCCCGGCCTGGCGGAGGTGATGCTGGTATGTGCGTCGCCACCGCCCCTCCCAGCACTGACGGGCCTGAGGGACGACAA
GTTGACGCTCCTTTCGTCATCACCTGGTCTAGGAGGGACGCCCGGGGAGACCGTACGTCACTGCTCTGCGCCGGAAGACCCTATTTTCAGGTTCTCTTCC
CTCCATTCCTACCCCTTCCCCGGTACCATAAAATCCCGGGATATGAGCTGGAAGAGGCATCACCTGATCCCGGAGACCTTTGGAGTTAAGAGGCGGCGGA
AGCGAGGGCCTGTGGAGTCGGATCCTCTTCGGGGTGAGCCAGGTAACCATGGCAACCCCGGGGGTGGGKCCTCGCTTCCGGTAGCCGAGAGTTTTGTTAG
AACCGCGTCCCCGCCCCAGTTCCCTGTCCGTGAGCCGATTTATCTGCCCAGGGTCGGCGCGCGCGGCTGTCTCAGAACTCATGCAGCTGTTCCCGCGAGG
CCTGTTTGAGGACGCGCTGCCGCCCATCGTGCTGAGGAGCCAGGTGTACAGCCTTGTGCCTGACAGGACCGTGGCCGACCGGCAGCTGGTGAGGGGCGTC
GGTGCGACCGCCGGAAGCCCCTTTCCTAACTCCTGGAATTCCCTGTCACTCAGTCACTCCGCCAGCCGTTCAGCAAGCATTAGGCCTTTCAGGCGAGGGC
ACTGTGCCAGGCACTGGGGTGCCACAGAGACCCTGTTAAAAGTCCCGCAGGTAGTACAGGGCATTTCAAATCATGGAGGTAGAAGAACGAGGCTTTTGGG
GAAACCGAGTCATGGGGCATGGTTCGAACATACAGCGCTGGGAGTGCAGTCAGACGTCAGATCATGACAGGCCTTGTACATCAGTGTTGTTTCCATCTTA
CACTGAGGCGATGGGCTGGTAGAGAATATCATAGAGAGAGGGAATGGTGTRTTGGAGATAGTGGATGAGGCAGGGAGGTCAGCTAAGAAGATACTGCATC
TGAGAAGTGGTGAAGGCCTAAATTAGGTCAGTGCAGTAGGGAGGGAGAGGAGAGTGAGGAAGAGGGAGGAGTCCAGGACAACTCAGACTTTCCAGATGAC
TGCGTGGCTGGTGGTATTAGGAGCACATTTAGTTGTTGGACTACAGATAATGTGTTTAATTTTATACAAGTTGAGTTGATGGTGCATGTGGAGCATCCAA
AGACAAAGGTATTAGACAGTTGGATATGAGAGTTGGAGAGAATTCTGGGCCAGTGATAATAGAATTACAAGTCATGGAGGTGTGAATAGCAAGTGGTTAA
TTCTGTGATGTGGTGAGATCCAGTAGGAAGAGTGGGTAGAGGAGTGATTTCTAACCTTTTTGTAATCTTTAGAAGGTGATAAAAGCTATGGCTATCTCTC
TCCAGAAAAATGCACGTTTGCCACRTATACATAGGGTGTATGTRTAGTTAGGGGGGAAATATTTTACTAATCCTGCGAGGTCCGTGGTTAAGGACTCCAG
GTTTAGAGTGGAAGTTAATAGGGTCAAATCCACAATGCTGGGAAACACCATCATTTAAGGCAGTGTTACTGAATATATGAGCTGAGTTATTATGCCTGTG
TCAAAATTACRTGGGCTGCTTGTTAAAAAAAATACAGGTTCCTGGGACTCATCCAAGGTTAATGAATTACGCTCTCTTGGGGCGGGATTTGGGACTCTAC
ATTTTTGAACTGCCTCAAGTGCTTTTTAAGTGTGCCTTAAAATTTGAGATCCACTGACRTAAAGGGAAAGCAGAAGAAGAGGAATCTGTGACAGAGGCAG
AGAGGGACTTGCCTGAGTTAAGAGGAACCCAGAGGCCGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCTCTTGA
GCTCATGAGTTTGATACCAGCATGGGCAACATGACATAACCCMAKCTCTACAAAAAATACAAAAATTAGCCAGGCGTGGTGGTACGCGCCTATAGAGCTA
CTGGGGAGGCTGAGGTGGGAGGATTGCTTGAGCTGGGGAGGCGGAGGTTGCAGTGAGCTGAGATAGCACCGCTGCACCCCACCCTGGGTGATAGAGCTAG
ACTTTGTCTCAAAAAAAAAAAAAAAAAAAGTAACCCAGGAAGAGGCCTACTGTGAAAGTAAAGAGATTTTTGAGAAAGTGAAGTAGTTGGCAGTATTAGA
ACCTGTGATTCAAGACAGTGGTCTAAGAAGAGGGAAGAGGTAAAGTAAAATATAAACTGAAATCTAGGCTGAGTGTGGTGGCTCATGCCTGTACTCCCAC
CACTTTGGGAGACTGAGGCAGGAGWATAGCTTGAAACCAAAAGTTTGAGACCAGCCTGGGCAACAAAGTGAGACCCCATCTTTACTAAATAACTGAGATC
CCATCTCTACTAAATAAATAAATTAAAACACAAAAATTCTTAGCTGGGCATGGTGGTGTGCACCTATTGTTCTAGCTGTTTGGGAAGTTGAGGCAGAAGG
AGTGCTTGAGCCCAGGAATTTGAGGCTGCAGTGAGCTATGATTGCACGACTGCACTCCAGGCTGGGTRACAGAGGGAGACCCTGTCTCTAAAAAAATGAA
AACAACAACAAAAAAACCCAGAACTGAAATCTGTCCATTGGATTTAGCAGGTAGAAGGTTAATAGTGATCTTTCAAGAAAAGAGGAAAGAAAAGGAAGGC
AGTCTAGCACTCACTTGAGGTGAGCTAGTCTCCCTGACTAGGTCTCCCGTGAGGAAGCATGCCAGATGGAACCACTCCTTAAGGAGTATTTGTTGATTTT
AATGTATTGGTGTTAGCTTTTGTTTTTAAAAACCTTTAAAAGTTGCAGAATGAAAATATAAACATATATAATTTAAATGATGTTTATAAAGCAGATACCT
ATCTAGCCACTCCCTAGGTCAAACTATAGAATATGACCAGTATCCCACATATATCCCTCTCTGATCAAAATGTCTCTGATCAGAATGTCCCTGGGAGGTG
ACTGCTGTGGTCATTGTTGCCTTAGTTTTCCCTTTTTTTTTTTTTTTTTTGAGGTGGAGTGTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCT
CAACTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCACTGTCCTGATTAGCTGAGACTACAGGCACGCGCCACCATGCCCAGCTAAT
TTTGGTATTTTTAGTAGAGATGGGGGTTTCATCATGTTGGCCATAATGGTCTTGATCTCCTGACCTCGTGATCTGCCCTCCTCGGCCTCCCAAAGTGCTG
GGATTACAGGCATGATCCACCGCACCCGGCCTAATTTTGTATTTTTATAGGGATGGGGTTTCACCCTGTTGGCCAGGCTGGTCTCAAACTCCTGACTCAG
ATGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGTTTTTTTTTTTTTTAATTGTCTTTTTGATAATTCCACTATTTTTTTTTTTTTTTGAAAAGTCTCCCA
TGTCTACCTCTTTCCACACAGACACGGCAACCATCCGATTTCTCAATCTTTTCCCCACCTTTTCCCGCTTTCTAGTCCACAAAACCACCATTGTCATCGT
GGCCCGTTCTCAATGAGCTGTTGGGCACACCTCCCAGATGGGGTGGTGGCCGGGCAGAGGGGCTCCTCACTTCCCAGCAGGGGCGGCCGGGCAGAGGCGC
CCCTCACCTCCCGGACAGGGCGGCTGGCCGGGCGGGGGGCTGACCCCCCCACCTCCCTCCCGGACGGGGCGGCTGGCCGGGCAGAGGGGCTCCTCACTTC
CCAGTAGGGGCGGCCGGGCAGAGGCGCCCCTCACCTCCCGGACGAGGCGGCTGGCCGGGCGGGGGGGGCTGACCCCACCACCTCCCTCCCAGACGGGGCG
GCTGGCCGGGTGGGGGGCTGACCCCCCACCTCCCTCCCGGACGGGGCGGCTGGCTGCGTGGGGGGCTGACCCCCCCACCTCCCTCCCGGACAGGGCGGCT
GGCCGGGCAGAGGGGCTCCTCACTTCCCAGTAGGGGTGGCTGGGCAGGGGCGCCCCTCACCTCCCGGACGGGGTGGCTGGCCGGGCAGGGGGCTGACCCC
CCCACCTCCCTCCTGGAGGGGGCGGCTGCCGGGCGGAGATGCTCCTCACTTCTCAGACGGGGCGGCTGCCGGGCGGAGGGTCTCCTCCCTTCTCAGACGG
GGAGGCTGGGCAGAGACCCTCCTCACCTCCCAGACGGGGTCGCGGCCGGGCAGAGGCGCTCCTCACATCCCAGACGGGGCGGCGGGGCAAAGGCGCTCCC
CACATCTCAGACGATGAGCGGCCGGGCAGAGACGCTCCTCACTTCCTAGATGGGATGGCGGCCGGGCAGAGACGCTCCTCACTTTCCAGACTGGGCAGCC
AGGCAGAGGGGCTCCTCACATCCCAGACGATGGGCGGCCAGGCAGAGACGCCCCTCACTTCCCAGACGGGGTGGCGGCCGGGCAGAGGCTGCACTCTGGG
CACTTTGGGAGGCCAAGGCAGGCGGCTGGGAGGTGGAGGTTGTAGCAAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCACCATTGAGCACTGAGTGA
ACCAGACACCGTCTGCAATCGCGGCACCTCCGGAGGCCGAGGCTGGYGGATCACTCGCGGTTAGGAGCTGGAGACCAGCCCGGCCAACACAGCGAAACCC
CGTCTCCACTAACAAAATACGAAAACCAGTCAGGCGTGGCGGCGCGCGCCTGCAATCGCAGGCACTCGGCAGGCTGAGGCAGGAGAGTCAGGCAGGGAGG
TTGCAGTGAGCTGAGATGGCAGCAGTACAGTCCAGCTTCGGCTCGGCATCAGAGGGAGACCGTGGAAAGGATAATTCCACTATTACTTGTCTTTTGGGGT
TTGTTTTTATTCTCTCTTTGAGTTTTGTTTCCTTATGCGCCCAGTTACTTTTGAAAATGTTCTGGGCAGATTTGCCTAGATTAATAAATGCCCTCCATGT
TCCAATTACTTTTTTTTTTTTGAGACAGTGTCTTACCCTGTCACCAAGCTGGAGTGCAGTGGTATGATCTTGGCTCACTGCAACCTCTGCCTCCTGAGTT
CAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGCATTACAGGCACCTGACACCACGCCCAGCTAATTTTTTTTTTTTTTTTTTTTTTGAGACGGAG
TCTCGCTCTGTCACCCAGGCTGGAGTTCAGTGGCATGATCTTGGCTTACTGCAAGCTCTGCCTCCTGGGTTCACCCATTCTCCCGCCTCAGCCTCCCGAG
TAGCTGGGACTACAGGTGCCYGCCACTATGCCTGGCTAATTGTTTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCT
TGATCTCCGGACCTCGTGATCCACCCGTCTCAGCCTGCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCATCTGGCCTATTTTTGTATTTTTAATGGA
GACCGGGTTTCATCATGTTGGCCAGGCTGGTCTTGAACTTGAACTTCTGACCTCAAGTGATCCACCCTTAGCGTCCCAAAGTGCTGGGATTACAGGCATG
AGCCACCGTGCCCGGCCCCAGTTATTTTTATTTTTATTTTTTGAGTTAGAGTCTCACTCTGTCACCCAGGCTGGAGCGCAGTGGCATGATCTCGGCTCAC
AGCAACTTTCTGGGTTCAAGCAGTTCTCCTGTGTCAGCCTCCTGAGTAGCTGGGACTACAGGCACACATCACCACGCCCGGCTAATTTTTGTAGTTTTAG
TAGAGACGGGGTTTTACCATATTGGTCAGGCTGATATTGAACTCCTGACCTCAGGTGATCCACCCACGTCAGCCTCCCAAAGTGCCGGGATTACAGGCTT
GAGCCATCTCGCCCGGCCTACTTAGATGTTATATTAGTGGTAATTCCTGTTATCCTGTGAGCTCTTTAGTGTCTAAACAATTTTTTTTAAGAGATGGGGT
CTCACTGTGTTGCCCAGTTGCAATCATATCTTACTGCAGCCTCAAACTCCTGGGTCAAGTGATCCTCTTGCCTTAGTCTCCCAAGTAGCTAGGACCATAG
GTGTCTGCCCCCACGCCTGGCTGTTTTTACATTTTTTGTAGAGATGTGGCGGGTGGGGGGGTCTCACTGTGTTGCCCAGACTGGTCTCGAACTCCTGTCC
TCAATTGATCCTGCTACCTCAGCCTCCCAAAATGCTGAATTACAGGCATGAGCCACTGTACCTGGTCTTAAACAATTTTAAAATAACATTTTTATCCAGG
ATTTTAGTTAATTTTCAACAGGTGGATTAGTTCTTGCTGTATTCTCGTAAACAGAAGTCCTGGTTTATTTTTATTTGTTTTAAACATTGAATCCCATACT
CCTCCCCACCTTACCCTACCCAGAATTTAGACTGTTAATGTTTTGAAGCCACAGCCTGCATCTTAATCACTATTTTATCTTAGTGCCTGGTCTTAGAAAT
TATATTGACTCTTTGATAGACCATATATAAGGCAGGTGGATGAGAATGTGGGTAGCTAGTTGGAAAAGGCTGCTTGGTCATTTGCTTGATTATTTTCTCA
CACAGTTTTTCCTTTACTAAGAGAAAATGCCCCCATATTGGCAAACAAAATCTCCCTGCCTGAGAGCRCCCAGAGTATAGCAGAGCATCTTACCCTGATA
CGCCTCTTTTCACTCTCTTCTCTGTGGAGACAGAAGGAGCTTCAAGAGCAGGGGGAGATCAGAATCGTCCAGCTGGGCTTCGACTTGGATGCCCATGGAA
TTATCTTCACTGAGGACTACAGGACCAGAGTATGTGACTGTGTGCRTCAGGGGTGCTGGGGGGAGGGCACAGGTTGGGGGAGACAGGGAASTTGGGAAAC
AGAAATAAAAACAAAAGAAAGAATTTCCCTGCCCCCACATCCCATGGAGAGGGCACAGGGCCCTGGTAAATAGTAATATGAGGGAGAGAGACAGGAGGGA
AAGAGGGAGGAGTGAGAGGGTAAAGAGGGGGGGAGAGGAGGGGGAGGAGGAGGAAGGAAGGAGGGGGAGGAGGAGGGGGGGAGGAAGAGGGGGAGGAGGA
TGAAGAGGAGGAGGAAGAAGAAGGGTATGAGAGGTGGAARGATCTGAGCAAGAGGTAAGACAGGAAGAGAAATGCTKTCCTGGGGGTGGAGGTTGGTAGA
GAGTGAGGGTGGGGATGGACCATGTCTCTCATCTCTGCTTGTAGGTCCTCAAGGCCTGTGATGGCCGACCGTATGCTGGGGCAGTGCAGAAATTTCTAGC
TTCAGTACTTCCAGCCTGTGGGGACCTTAGTTTCCAGCAGGACCAAATGACACAGACCTTTGGCTTCAGGGACTCAGAAATCACGTGAGACTTGTGGAAC
CAACCAAAGTCAGGCATCTGGTGCTTCCCTGCCTCCCTCCAGTTCCATCCAGCCTGTCCTCCTGTTTTTTTGGTGAACCTGCCAGAAAAGCTGCCAAAAA
GCTGACTCTTCTTKTTAATAAAATGACCCAAGTTTGTATTCCTCCCCACAAGAGAGGAGGCCTATCTTACCTGGGCCTTAGAAAGAGCCCTGAAATAGAA
TTCAGTTCTTGGTGGCTTATCAAAAGCACACAGGGGCCTGGCAGGAASTGTAAAAGCTTGATGTTAATCATACTGGGACTAAGAGGATAGAGAATGGTAG
GAGCTGGGATACCCCTAAACATTCACATTAAAACAAAAAAAACCCAAAGCTAAAAAACAACTGGGCAGGAGCTAAATAAAAATCTAATTTTGAGAGGCTG
TATCTGGCTCAGGCCTCCTACTTTGTAACCCATGGAATATGTGAAAGCATTTGAAAAACTATAGCACTGATCTCACATGGGCAGACACACTCTCAGAGAG
ATGTGGTGGGAGCCATGGCGCAGTCTGCCTAGGCAGTGGCAGGAGCGCAGAAGACTCTGATTCCTCTCCTCGGTCCTAAGACCGAATGTGTGTCAGGACA
KGTGGTCAGGGAAGAGAAGCTATTTAACTGAACCAGTAATAGTAGCAGGAAAAGAAAAAGTGGAGGGAGGGCAGTCMAGGTARGGGGCCTGGAACAAGCA
ACTGCACCAACAGAGGCAGTTGGTGCGAGCACAGAACCACCCCAGGCTGGGATTTTGTTATCCAGTCTCTCTTGCATGGTTGCCCGTGTTTCTGGAGACT
TGTGTAAACATTAATGGATGAGGAGGAGAGATGGTTCTCAGAGCCCAGCCCTCATCTCTGCTGGCTTCCCACTGCCCTCAGGCATCTGGTGAATGCTGGA
GTCCTCACCGTCCGAGATGCTGGGAGCTGGTGGCTAGCTGTGCCTGGAGCTGGGAGATTCATCAAGTACTTTGTTAAAGGTATCCCATCTGCAGCTCAAG
CCTGCAGCCCCTCACCTTTTGGTGGCTCCTCAGGCCTCTAGGCCTTATTCACCKTTCCCCTYTCCTGTGCCACTTCTCCTCTAGGGCGCCAGGCTGTCCT
TRGCATGGTCCGGAAGGCAAAGTACCGGGARCTGCTCCTATCAGAGCTCCTGGGCCGGCGGGYGCCTGTCGTGGTGCGGCTTGGCCTCACCTACCATGTG
CACGACCTCATTGGGGCCCAGCTAGTGGACTGGTGAGTCTTTCCCTGGCCTCTGGCAGATTATGGAGCAATGACCCAAAGTGGGATTTCCTCCCAGCTCA
TGCTTAGTTTCCTAGTGAAGGCCAGTGGCTCTCATTCTTCTCTGGAACCCGGGAGCACCCCTTCCCAAGTTCTAAGTTCTCCTCACAGCTTGAGCCTAGG
CGTCTGGCTCCAGCCTTGTCTTTCTCCTGCACAGCATCTCTACCACTTCAGGAACCCTCCTCCGCCTGCCAGAGACATGAAGATTCTGCTCATCATTGCT
CAGCTCCTCAGAGTGGGCCGGGAGGGGACTAGAAGAGCTGCATGATGGTGGCTGAGACAGGGTCACCTTGGGAAGGCTTGGGAGCCAGGATGAGTGTCGG
GCTCTCGTGTGTGCAAAAGGTCAGATGTGACTGCTGCTGTTTGCCTGGTTTCTGACCCAGTGGTGGGGTTTGAGCAATGCTTCTCTGCCCTTCCATGGAA
AGTGGAACCAGAAATGGTGCCAAGGCTGTGGCTGTTCCCTTTCGTGTAAAATGGTRCTGTTATTACTCTGTCTTGAAATAGGAAGGTGGGATTTCTGGGG
AGGCTGGTGAAGGAGGGCAGGGTTCTTTTCTCTAYGTGTCATGTTAAAATTGCCAAATAAAGTACCTCTGCCTGTGATATTTTCTGGATGTCCTTTATTT
ACTGTGACGTGTGTTTGGGTGCCTTGTTTAGGGGTAGAGGTGAAGTCTRAGCTTTGCCTCATTCAGAGAGGAAAGGGGTCAGGGGTTCACTCTGACGTTC
AGGCCATTCTCCCTGTGGAGTGGTGAGGGTGTACCTAATCTCCTAAACCACGGAATTTCTGTTAGGGCCTAAAAAAGCAAAAGCCTAGTATAGTTCAATT
TGTGTTGGAATGAAAGTAAGAGACAAGTGTCTTAGAAGCCTGTCATTGTTTTGTGAGGGCCTTTAAATATCCTGTACTCGTGGGCCATGTTGGGCCCTTG
TACGCCCAGGTATACATGAGCTTGTGTGCACCTATACCCTGATACAGATATACCTGGTAGGGGGAGGTGCTCAGGCACTGGAATGAGAGGAGTTAACGGG
GAAGGACAGGGTTATTTCTGGGCCAAGATTCAGAGTTTCCCATGGACACCCAGGTGTCCGGGGTGCCCCCACAACTCTGGGCCTGAGGCCAGTTGCACTT
CTTGGCTGTCACGTGGTTTCCCAGCTTAGCTGGGCTGGGGGAGGAGCAAGGTCCAGAGTCAACTCTGCCCCGAGGCCTAGCTTGGCCAGAAGGTAGCAGA
CAGACAGACGGATCTAACCTCTCTTGGATCCTCCAGCCATGAGGCTGCTCTGGGGGCTGATCTGGGCATCCAGCTTCTTCACCTTATCTCTGCAGAAGCC
CAGGTCCTGGAGGCGGGATGCTGGGTGCTTGGATTGGGGCAGGGCTGGCATCGGGACCCGATTCAGGAGTGAGGGAGAGCAGGGGTGGAGGTGTCAGAGC
GAAGTCTGACTGCTGATCCTGTCTGTTCTCCCCAGGTTGCTCTTGTTCTCTCCTTCTGTGGTTCATCTGGGGGTCCCCCTATCGGTGGGGGTGCAGCTCC
AGGATGTGCCCCGAGGACAGGTAGTGAAAGGATCAGTGTTCCTGAGAAACCCATCTCGTAATAATGTCCCCTGCTCCCCAAAGGTGGACTTCACCCTTAG
CTCAGAAAGAGACTTCGCACTCCTCAGTCTCCAGGTAACCAGACCCCATGCCCTCCTGCTGCTTGTGGGGGCCTCCTGCCCTGTTCCCATCTGTCTTGTA
AGTGTCATCATCTTCCCACTGGCCTCCTCCCCTCCTGTCTTCCCACCCTGGCATTCTCCTTCCACGTTTCTCCCTTGGTCTCTGTCCTTTTTGGTCAGCT
GTCTCTTGCTCTGTGACCCGCTCCCTCTCCCTCTCCCTCTCCTGACAGGTGCCCTTGAAAGATGCGAAGAGCTGTGGCCTCCATCAACTCCTCAGAGGCC
CTGAGGTCCAGCTGGTGGCCCATTCGCCATGGCTAAAGGACTCTCTGTCCAGAACGACAAACATCCAGGGTATCAACCTGCTCTTCTCCTCTCGCCGGGG
GCACCTCTTTTTGCAGACGGACCAGCCCATTTACAACCCTGGCCAGCGGGGTGAGTCTCAGCCCCAGGGCCTCAACCTTTAACCCCCTCCGAGCCCTCTC
AGGATGAGTTTGGTGCCCCCTAAGTGAGATAACCTGAAAGAAAGTGCCACACAGAAGGGGTGCTTAGGAAACATTTGTCCCCTGCTCCCTCTGTGGAGTT
TGACCCACCCTCCCCTTGCACATGGACCCCTGCTCACCTCTCTCCTCCTCCACTCCCAGTTCGGTACCGGGTCTTTGCTCTGGATCAGAAGATGCGCCCG
AGCACTGACACCATCACAGTCATGGTGGAGGTGAGTCCCCGACCTCTGGMCTTCCTGATCCTGGCCACTGATGTGACCTCCTGCCTGTGAGCACTTCTCC
CCTTGCAGAACTCTCACGGCCTCCGCGTGCGGAAGAAGGAGGTGTACATGCCCTCGTCCATCTTCCAGGATGACTTTGTGATCCCAGACATCTCAGAGTG
AGCGCTCCCAATGTGGGGGCTGCCCCCAAGCTACACCACCCCAATTCCTGTTAGGCTCTCCACCTCCCACACAGAGGCACGTCCCCAGATGCCCTGACCC
TCAGCCTCCTGAGCCTCTGGTTAACCCCCACAGTCCTCTTCCCAGGGAAGCAGGCTGCTGGCTCTCCGTGCCCCACTGTACAGATGGGCTGAGCCCCTTC
CTTGTCCATTCTCAGGCCAGGGACCTGGAAGATCTCAGCCCGATTCTCAGATGGCCTGGAATCCAACAGCAGCACCCAGTTTGAGGTGAAGAAATATGGT
GAGAGCTGGAAACTGGAGGGACAGGCAGCTGCTTTCCTGAAGGAAATAAGGGTGGAAGGAGAGGTACTGGGAGCAGCTCAGGGCAGGGAGATATGGGTGC
CACAGCCCTGAGCAGAGGGGAGTCTTTGAGCTGGAGTCTGACCTGCCTATCCCTTCACCCTGGGTCAGTCCTTCCCAACTTTGAGGTGAAGATCACCCCT
GGAAAGCCCTACATCCTGACGGTGCCAGGCCATCTTGATGAAATGCAGTTAGACATCCAGGCCAGGTAATACCTCCCTCCCCACCTCTGCCCACCAGCAC
CGGGTCCTGCTCCCTACTCAGTATGAATGGGCTCCTGCTTCCCTGCCCTCGGGCCATTATTCCCCCCAGCCCTTGGCCCACCCTCTTCTCTCTGCCACGA
CAGGTACATCTATGGGAAGCCAGTGCAGGGGGTGGCATATGTGCGCTTTGGGCTCCTAGATGAGGATGGTAAGAAGACTTTCTTTCGGGGGCTGGAGAGT
CAGACCAAGGTAGGAAGGAGAATAGGGGCTGGGGAGGGGAAGGGGCAAGGGAGGTGAGGTGGGAGACTCAGTCTCACCCTATGTCCTGTTTCTTTCTATG
CCCCAGCTGGTGAATGGACAGAGCCACATTTCCCTCTCAAAGGCAGAGTTCCAGGACGCCCTGGAGAAGCTGAATATGGGCATTACTGACCTCCAGGGGC
TGCGCCTCTAYGTTGCTGCAGCCATCATTGAGTMTCCAGGTGGGTGACTTTCCCTTATTGTAACCCCAGACCCTTGCCTCTGACCTCTGAGCTAACCCTC
TGTCCTCCGGCACCAACACCACCCCACTTCTCACATCTCATCTCAGACTCAAAACCAGGAAACACCCAGGAGACCTGGTTTCTCTCCAACTCTGTCTCTG
TGACTCGGCCCTTTTCCCTGGCTGAGTTTATTTATTTCTTTGCTCGTTCTGCTCATTCCTTCACTCCTCCAGTGGACATGTGTTGTTCAATGCCCCGTGC
TAGGCCTCAGCATGCACAGACATGTTGGGGACCAGCCTCAACGCCACCCGTAGGGTTCCTGAAGTCCATTGGTGACACAGGAATGAGAAGAGACAGGTTA
AGAGTTCATAAAGAGTGGGGGCCAGGGGGCCAATTGCAAAATGGAGGCTGCAAAAGGCTCAGAGCTCTGGTCTCCACACTATTTTTTGAGTACAGTCACT
CAGATCTAAGAAGCAGATGTTCAGGGAGAAACAGTGAAAGGGAGGCAGTGGGTCATAGGCGTAATCTATAGCAATAGAGTTTTAAATGAATCTCCTTTGT
GCTCAAACAGCATGTCTTTAAATTATCGGAGAGTAGCTGGTGGAAGTGGGCTTAGCTAGAAGACTGCATGTCTGTCCAATGCTTCAAAGGAGGGTCTTTC
TCCTTGAACACAGTGTTTACAGATAAGACAGGGGGTCTCACTCTGAGCATGGGAACATGATGGCAATTAGGAGGCTTTTCTTCTCAGAGGCCTCTTGTGG
CTTTCCACAACTTATTGTCTCATATTTTTATGGACAGTTTATACAGGCACCCCACAAGTCCTTTTCCCAACATGCCCCCCTCCSTTTTTTTTTTTTTAAC
CGCTATTGCTATTATGGCTTATTTGTGGTGTTTGGTCTGTTTTCAGAAGTGTCTTTTGCATCTGTAGACTAAAAGTAAACAGCATAAACAGATACACATT
AAAGTAAAATTTGTAATAGTTGATCCTTTAATGGTCTTAATCTGTTTAAGAGGATTTATGTTTGAAAGTCCGTCAGTAGCTCCAATGAGAATGTCAGTCT
CAGGCAGGAGGGTTAAATGAGCCTGAGATGCTTTAAAAACCTGTTTTTTTAAAATTTGGTTATATTTAATGTTAAATTTTTATTTTTTTCTTTTAGATGA
TGTCTAACTTTTTAAAAATGATGTTTAGTAGTATTATACGAATGGGGAGTTATGTAGAAATTGGAAGTATTTCAATTACATTGTACTTCTAATTGATGTT
TTAAGTTTATTGTACGATCTTCCATTTAAATAACAGTCTGTCTAAGATCATTTGTTTGATTTGTCAATTGTTGGTCTATTTGGGTCTGAGAATTCCACAA
TTTTGAGGAATTTTTTGTTAACTATTTATATATTTTGTAGTTTGAACAGAGGAGTGTAAAGCAATTCCAGCAGCCGCAGCAGTAGCTGTGACTGCAATAA
GGCCCATAAGACTGTTATAAGGGTAAAAATAAATCTCTTTGTTTTGGTAAACACTTTTTTTTAAAACATTTTTGTGACAATATGAATGGAAGGAGAGGCT
TTCTAAGGTCTATTGAGGGAAACCAGTATCCAAACTCCTTTCTTAGTTTTTATCAGTAACACAGATGTTTTTACACCGAACGTGGAATTAATACAGGTGA
AAAGGTGACAGTTTTGACAAGTAATAGTTTGAGAATTAGGTCGAATGTCAATATTTTTGACCATTAACATAAAAGGAGGGTTGACACAACTCTGAATGGG
CACTGTTTTGTTGGAAGAAAACTGATACGCAAATTGAAGTTTTTAACCTTTTTTTTTTAAAGATAATATATTTTTTTCTAAACTTAAATATGAGATTGGG
CCATTATTAACTTTCATAATTTGGAGTGTTTAGGGCCTATTATTGGATTAATTATTTTGGGATGTGGGCCAGCTGTACTAAAATTGGTCCAAATTATGGG
AAAATGAGCACGTTTTTCAGTGTAAGTAGTGTTACCTTTTTGATAGTATAGTTTCTGTTTTAGTTTTGTCTTGTATTTATTATTTTGATGGGTACAATTA
ACTGTAAAGGTCCCCTCAGGGGACCAATTAATGACAATTTCATAGGAATTATTTTGTAGTACCATAGTGTGATCAGAGATGTAATTTTTTTTAATTAATA
TTTTTAAATTATTTGACCATTGTTAAGGTTGTTGGCACCTCTTTTTTGGGGGCTTAAACTGTTAATTGAATTGAACTCTGTGAATGATCCGGGCTCCATC
CAGAAAATAAATGATAGGATACTGGTCTTTGATTATGACCTGGAATTTTAACTAGTCAATGTTGTCGGTAGCCTTTTAGGCAACCGATAGTTGGCCTTAT
GTAAAGAGGGGGGAACTGATAACCTATGGACACATTTATTAACTTTTTTTTTTTTCCTTTGGGTGAGAGGGCCCATGAGTATTTGTAGGCTTAGGGATCC
AAACGCTATTATTAACATAAACTTCAACTGGGGGTTTTAACCATGTGACAGGCCTAATTAAAGGCAGGAATGGGACACATGCCCAATAGGTATAATTTTG
GGCTGTTGTAGCCACAGGTTTGTTAGGCGAGGAGGTCACTGTTTTTATTTTGGCTTTGTATTCTAGGATTAGTAAATAACAGAAGACAAACATGAGTATA
ATTAGTAACTTTTTTTTTTAGTAAAAGAGTGACCTGTAGTGTTACTTGGCATCTTAGTTTACTATATGTTATTAATGAGGAACCCCACTGGGGGTATGTT
AATTTATTCTAGCTAAGCAGTTATGTTATTAGAAGCTGAGAAGGGGGTGTTTGTTAAAGTAACAGGGCAGAAGAAAGGCGGATTTAAGATACGAGCTTAA
TACAGTGTAGCAGGTATAGGTAGTAGGCAAAGTGAGAGAATTAAAAATGAATAAATTATTTGGCTTAGACTTTTGTTTTTTTAGTATAATGTCTGAGGCC
TGTGTTGTTTGTGGAAGTCGCATTGTTGAGGCTGTAGTTCCTGTAGGGTCTTTTTTAGGCTGGTTCAAATGTTTTTTTA


SNP Information

Context             (SEQ ID NO:3209):
TTCCCTTTCGTGTAAAATGGTGCTGTTATTACTCTGTCTTGAAATAGGAAGGTGGGATTTCTGGGGAGGCTGGTGAAGGAGGGCAGGGTTCTTTTCTCTA
Y
GTGTCATGTTAAAATTGCCAAATAAAGTACCTCTGCCTGTGATATTTTCTGGATGTCCTTTATTTACTGTGACGTGTGTTTGGGTGCCTTGTTTAGGGGT
Celera SNP ID:            hCV7481458
SNP Position Genomic:     15535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3210):
TCAGAGGCCTCTTGTGGCTTTCCACAACTTATTGTCTCATATTTTTATGGACAGTTTATACAGGCACCCCACAAGTCCTTTTCCCAACATGCCCCCCTCC
S
TTTTTTTTTTTTTAACCGCTATTGCTATTATGGCTTATTTGTGGTGTTTGGTCTGTTTTCAGAAGTGTCTTTTGCATCTGTAGACTAAAAGTAAACAGCA
Celera SNP ID:            hCV11409040
SNP Position Genomic:     19384
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:3211):
GCCCATGGAATTATCTTCACTGAGGACTACAGGACCAGAGTATGTGACTGTGTGCGTCAGGGGTGCTGGGGGGAGGGCACAGGTTGGGGGAGACAGGGAA
S
TTGGGAAACAGAAATAAAAACAAAAGAAAGAATTTCCCTGCCCCCACATCCCATGGAGAGGGCACAGGGCCCTGGTAAATAGTAATATGAGGGAGAGAGA
Celera SNP ID:            hCV940369
SNP Position Genomic:     13191
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,3)   caucasian(C,8|G,6)   total(C,9|G,9)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:3212):
GGGGGAGGAGGAGGAAGGAAGGAGGGGGAGGAGGAGGGGGGGAGGAAGAGGGGGAGGAGGATGAAGAGGAGGAGGAAGAAGAAGGGTATGAGAGGTGGAA
R
GATCTGAGCAAGAGGTAAGACAGGAAGAGAAATGCTGTCCTGGGGGTGGAGGTTGGTAGAGAGTGAGGGTGGGGATGGACCATGTCTCTCATCTCTGCTT
Celera SNP ID:            hCV7515218
SNP Position Genomic:     13440
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:3213):
AAGAAGAGGGAAGAGGTAAAGTAAAATATAAACTGAAATCTAGGCTGAGTGTGGTGGCTCATGCCTGTACTCCCACCACTTTGGGAGACTGAGGCAGGAG
W
ATAGCTTGAAACCAAAAGTTTGAGACCAGCCTGGGCAACAAAGTGAGACCCCATCTTTACTAAATAACTGAGATCCCATCTCTACTAAATAAATAAATTA
Celera SNP ID:            hCV15826288
SNP Position Genomic:     8625
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3214):
ATGTGGTGGGAGCCATGGCGCAGTCTGCCTAGGCAGTGGCAGGAGCGCAGAAGACTCTGATTCCTCTCCTCGGTCCTAAGACCGAATGTGTGTCAGGACA
K
GTGGTCAGGGAAGAGAAGCTATTTAACTGAACCAGTAATAGTAGCAGGAAAAGAAAAAGTGGAGGGAGGGCAGTCCAGGTAGGGGGCCTGGAACAAGCAA
Celera SNP ID:            hCV15826289
SNP Position Genomic:     14301
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3215):
GGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCTCTTGAGCTCATGAGTTTGATACCAGCATGGGCAACATGACATAACCC
M
ATCTCTACAAAAAATACAAAAATTAGCCAGGCGTGGTGGTACGCGCCTATAGAGCTACTGGGGAGGCTGAGGTGGGAGGATTGCTTGAGCTGGGGAGGCG
Celera SNP ID:            hCV27301776
SNP Position Genomic:     8243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3216):
CCCAGTGGTGGGGTTTGAGCAATGCTTCTCTGCCCTTCCATGGAAAGTGGAACCAGAAATGGTGCCAAGGCTGTGGCTGTTCCCTTTCGTGTAAAATGGT
R
CTGTTATTACTCTGTCTTGAAATAGGAAGGTGGGATTTCTGGGGAGGCTGGTGAAGGAGGGCAGGGTTCTTTTCTCTACGTGTCATGTTAAAATTGCCAA
Celera SNP ID:            hCV27467208
SNP Position Genomic:     15456
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3217):
TGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCTCTTGAGCTCATGAGTTTGATACCAGCATGGGCAACATGACATAACCCCA
K
CTCTACAAAAAATACAAAAATTAGCCAGGCGTGGTGGTACGCGCCTATAGAGCTACTGGGGAGGCTGAGGTGGGAGGATTGCTTGAGCTGGGGAGGCGGA
Celera SNP ID:            hCV27301777
SNP Position Genomic:     8245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3218):
CAGACGTCAGATCATGACAGGCCTTGTACATCAGTGTTGTTTCCATCTTACACTGAGGCGATGGGCTGGTAGAGAATATCATAGAGAGAGGGAATGGTGT
R
TTGGAGATAGTGGATGAGGCAGGGAGGTCAGCTAAGAAGATACTGCATCTGAGAAGTGGTGAAGGCCTAAATTAGGTCAGTGCAGTAGGGAGGGAGAGGA
Celera SNP ID:            hCV940313
SNP Position Genomic:     7251
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3219):
AAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCACCATTGAGCACTGAGTGAACCAGACACCGTCTGCAATCGCGGCACCTCCGGAGGCCGAGGCTGG
Y
GGATCACTCGCGGTTAGGAGCTGGAGACCAGCCCGGCCAACACAGCGAAACCCCGTCTCCACTAACAAAATACGAAAACCAGTCAGGCGTGGCGGCGCGC
Celera SNP ID:            hCV27301778
SNP Position Genomic:     10947
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:3220):
TGGCTCACTGCAACCTCTGCCTCCTGAGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGCATTACAGGCACCTGACACCACGCCCAGCTAAT
T
TTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTTCAGTGGCATGATCTTGGCTTACTGCAAGCTCTGCCTCCTGGGTT
Celera SNP ID:            hCV27301779
SNP Position Genomic:     11471
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3221):
GAGCAGGGGGAGATCAGAATCGTCCAGCTGGGCTTCGACTTGGATGCCCATGGAATTATCTTCACTGAGGACTACAGGACCAGAGTATGTGACTGTGTGC
R
TCAGGGGTGCTGGGGGGAGGGCACAGGTTGGGGGAGACAGGGAAGTTGGGAAACAGAAATAAAAACAAAAGAAAGAATTTCCCTGCCCCCACATCCCATG
Celera SNP ID:            hCV15926817
SNP Position Genomic:     13146
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3222):
TCTGCTTTCGATGATGCAATCATTCAGCGACAGTGGCGGGCAAACCCCTCCCGGGGCGGGGGAGGTGTGAGCTTCACGAAGGAGGTTGACACCAACGTGG
M
CACCGGCGCCCCTCCACGCCGCCAACGAGTCCCCGGGCGTGCGTGCCCTTGGAGGGAGCCAATCCGCGGCCGGCGTGGGGCCCGGCCTGGCGGAGGTGAT
Celera SNP ID:            hCV25970292
SNP Position Genomic:     6243
SNP Source:               Applera
Population(Allele,Count): african american(A,6|C,28)   caucasian(A,2|C,38)   total(A,8|C,66)
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:3223):
GCATCTGGTGCTTCCCTGCCTCCCTCCAGTTCCATCCAGCCTGTCCTCCTGTTTTTTTGGTGAACCTGCCAGAAAAGCTGCCAAAAAGCTGACTCTTCTT
K
TTAATAAAATGACCCAAGTTTGTATTCCTCCCCACAAGAGAGGAGGCCTATCTTACCTGGGCCTTAGAAAGAGCCCTGAAATAGAATTCAGTTCTTGGTG
Celera SNP ID:            hCV940370
SNP Position Genomic:     13814
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,28)   caucasian(G,10|T,20)   total(G,14|T,48)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   SC_12_A(G,3|T,18)   SC_12_C(G,6|T,18)   SC_95_C(G,52|T,129)   total(G,61|T,165) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3224):
GAGATTCATCAAGTACTTTGTTAAAGGTATCCCATCTGCAGCTCAAGCCTGCAGCCCCTCACCTTTTGGTGGCTCCTCAGGCCTCTAGGCCTTATTCACC
K
TTCCCCTTTCCTGTGCCACTTCTCCTCTAGGGCGCCAGGCTGTCCTTAGCATGGTCCGGAAGGCAAAGTACCGGGAACTGCTCCTATCAGAGCTCCTGGG
Celera SNP ID:            hCV11409030
SNP Position Genomic:     14754
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,9)   total(G,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3225):
TCAAGTACTTTGTTAAAGGTATCCCATCTGCAGCTCAAGCCTGCAGCCCCTCACCTTTTGGTGGCTCCTCAGGCCTCTAGGCCTTATTCACCTTTCCCCT
Y
TCCTGTGCCACTTCTCCTCTAGGGCGCCAGGCTGTCCTTAGCATGGTCCGGAAGGCAAAGTACCGGGAACTGCTCCTATCAGAGCTCCTGGGCCGGCGGG
Celera SNP ID:            hCV11409031
SNP Position Genomic:     14762
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:3226):
CTGCAGCCCCTCACCTTTTGGTGGCTCCTCAGGCCTCTAGGCCTTATTCACCTTTCCCCTTTCCTGTGCCACTTCTCCTCTAGGGCGCCAGGCTGTCCTT
R
GCATGGTCCGGAAGGCAAAGTACCGGGAACTGCTCCTATCAGAGCTCCTGGGCCGGCGGGCGCCTGTCGTGGTGCGGCTTGGCCTCACCTACCATGTGCA
Celera SNP ID:            hCV11409032
SNP Position Genomic:     14802
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:3227):
CGAATGTGTGTCAGGACATGTGGTCAGGGAAGAGAAGCTATTTAACTGAACCAGTAATAGTAGCAGGAAAAGAAAAAGTGGAGGGAGGGCAGTCCAGGTA
R
GGGGCCTGGAACAAGCAACTGCACCAACAGAGGCAGTTGGTGCGAGCACAGAACCACCCCAGGCTGGGATTTTGTTATCCAGTCTCTCTTGCATGGTTGC
Celera SNP ID:            hCV29415996
SNP Position Genomic:     14383
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3228):
GTGATTTCTAACCTTTTTGTAATCTTTAGAAGGTGATAAAAGCTATGGCTATCTCTCTCCAGAAAAATGCACGTTTGCCACATATACATAGGGTGTATGT
R
TAGTTAGGGGGGAAATATTTTACTAATCCTGCGAGGTCCGTGGTTAAGGACTCCAGGTTTAGAGTGGAAGTTAATAGGGTCAAATCCACAATGCTGGGAA
Celera SNP ID:            hCV7515208
SNP Position Genomic:     7744
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3229):
CAGGCCTCTAGGCCTTATTCACCTTTCCCCTTTCCTGTGCCACTTCTCCTCTAGGGCGCCAGGCTGTCCTTAGCATGGTCCGGAAGGCAAAGTACCGGGA
R
CTGCTCCTATCAGAGCTCCTGGGCCGGCGGGCGCCTGTCGTGGTGCGGCTTGGCCTCACCTACCATGTGCACGACCTCATTGGGGCCCAGCTAGTGGACT
Celera SNP ID:            hCV11409034
SNP Position Genomic:     14831
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,6)      total(G,2|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:3230):
AGGAAGAGTGGGTAGAGGAGTGATTTCTAACCTTTTTGTAATCTTTAGAAGGTGATAAAAGCTATGGCTATCTCTCTCCAGAAAAATGCACGTTTGCCAC
R
TATACATAGGGTGTATGTATAGTTAGGGGGGAAATATTTTACTAATCCTGCGAGGTCCGTGGTTAAGGACTCCAGGTTTAGAGTGGAAGTTAATAGGGTC
Celera SNP ID:            hCV3125474
SNP Position Genomic:     7725
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3231):
TGTTCTAGCTGTTTGGGAAGTTGAGGCAGAAGGAGTGCTTGAGCCCAGGAATTTGAGGCTGCAGTGAGCTATGATTGCACGACTGCACTCCAGGCTGGGT
R
ACAGAGGGAGACCCTGTCTCTAAAAAAATGAAAACAACAACAAAAAAACCCAGAACTGAAATCTGTCCATTGGATTTAGCAGGTAGAAGGTTAATAGTGA
Celera SNP ID:            hCV7515209
SNP Position Genomic:     8868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3232):
TCCTGTGCCACTTCTCCTCTAGGGCGCCAGGCTGTCCTTAGCATGGTCCGGAAGGCAAAGTACCGGGAACTGCTCCTATCAGAGCTCCTGGGCCGGCGGG
Y
GCCTGTCGTGGTGCGGCTTGGCCTCACCTACCATGTGCACGACCTCATTGGGGCCCAGCTAGTGGACTGGTGAGTCTTTCCCTGGCCTCTGGCAGATTAT
Celera SNP ID:            hCV11409035
SNP Position Genomic:     14863
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,6)      total(C,6|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:3233):
GAAGTTAATAGGGTCAAATCCACAATGCTGGGAAACACCATCATTTAAGGCAGTGTTACTGAATATATGAGCTGAGTTATTATGCCTGTGTCAAAATTAC
R
TGGGCTGCTTGTTAAAAAAAATACAGGTTCCTGGGACTCATCCAAGGTTAATGAATTACGCTCTCTTGGGGCGGGATTTGGGACTCTACATTTTTGAACT
Celera SNP ID:            hCV3125475
SNP Position Genomic:     7911
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:3234):
TGGAGTTCAGTGGCATGATCTTGGCTTACTGCAAGCTCTGCCTCCTGGGTTCACCCATTCTCCCGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCC
Y
GCCACTATGCCTGGCTAATTGTTTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCGGACCTCGTGATC
Celera SNP ID:            hCV3125492
SNP Position Genomic:     11621
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3235):
GGCTGCTTGGTCATTTGCTTGATTATTTTCTCACACAGTTTTTCCTTTACTAAGAGAAAATGCCCCCATATTGGCAAACAAAATCTCCCTGCCTGAGAGC
R
CCCAGAGTATAGCAGAGCATCTTACCCTGATACGCCTCTTTTCACTCTCTTCTCTGTGGAGACAGAAGGAGCTTCAAGAGCAGGGGGAGATCAGAATCGT
Celera SNP ID:            hCV3125493
SNP Position Genomic:     12968
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(A,11|G,23)   total(A,15|G,51)
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:3236):
TTAATGAATTACGCTCTCTTGGGGCGGGATTTGGGACTCTACATTTTTGAACTGCCTCAAGTGCTTTTTAAGTGTGCCTTAAAATTTGAGATCCACTGAC
R
TAAAGGGAAAGCAGAAGAAGAGGAATCTGTGACAGAGGCAGAGAGGGACTTGCCTGAGTTAAGAGGAACCCAGAGGCCGGCGCGGTGGCTCACACCTGTA
Celera SNP ID:            hCV15826277
SNP Position Genomic:     8059
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3237):
ACAAGAGAGGAGGCCTATCTTACCTGGGCCTTAGAAAGAGCCCTGAAATAGAATTCAGTTCTTGGTGGCTTATCAAAAGCACACAGGGGCCTGGCAGGAA
S
TGTAAAAGCTTGATGTTAATCATACTGGGACTAAGAGGATAGAGAATGGTAGGAGCTGGGATACCCCTAAACATTCACATTAAAACAAAAAAAACCCAAA
Celera SNP ID:            hCV3125495
SNP Position Genomic:     13948
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,9)      total(G,9|C,3) ;no_pop(C,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3238):
CCACTCCCAGTTCGGTACCGGGTCTTTGCTCTGGATCAGAAGATGCGCCCGAGCACTGACACCATCACAGTCATGGTGGAGGTGAGTCCCCGACCTCTGG
M
CTTCCTGATCCTGGCCACTGATGTGACCTCCTGCCTGTGAGCACTTCTCCCCTTGCAGAACTCTCACGGCCTCCGCGTGCGGAAGAAGGAGGTGTACATG
Celera SNP ID:            hCV7515248
SNP Position Genomic:     17350
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:3239):
GGCTCACTGCAACCTCTGCCTCCTGAGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGCATTACAGGCACCTGACACCACGCCCAGCTAATT
T
TTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTTCAGTGGCATGATCTTGGCTTACTGCAAGCTCTGCCTCCTGGGTTC
Celera SNP ID:            hCV27301780
SNP Position Genomic:     11472
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3240):
CTCTCAAAGGCAGAGTTCCAGGACGCCCTGGAGAAGCTGAATATGGGCATTACTGACCTCCAGGGGCTGCGCCTCTACGTTGCTGCAGCCATCATTGAGT
M
TCCAGGTGGGTGACTTTCCCTTATTGTAACCCCAGACCCTTGCCTCTGACCTCTGAGCTAACCCTCTGTCCTCCGGCACCAACACCACCCCACTTCTCAC
Celera SNP ID:            hCV7515249
SNP Position Genomic:     18534
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,17)   caucasian(A,20|C,16)   total(A,29|C,33)
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)   SC_12_A(C,7|A,14)   SC_12_C(C,7|A,10)   SC_12_AA(A,5|C,12)   total(A,29|C,26) 
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:3241):
GCTCACTGCAACCTCTGCCTCCTGAGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGCATTACAGGCACCTGACACCACGCCCAGCTAATTT
T
TTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTTCAGTGGCATGATCTTGGCTTACTGCAAGCTCTGCCTCCTGGGTTCA
Celera SNP ID:            hCV27301781
SNP Position Genomic:     11473
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3242):
CTCACTGCAACCTCTGCCTCCTGAGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGCATTACAGGCACCTGACACCACGCCCAGCTAATTTT
T
TTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTTCAGTGGCATGATCTTGGCTTACTGCAAGCTCTGCCTCCTGGGTTCAC
Celera SNP ID:            hCV27301782
SNP Position Genomic:     11474
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3243):
CCCGGAGACCTTTGGAGTTAAGAGGCGGCGGAAGCGAGGGCCTGTGGAGTCGGATCCTCTTCGGGGTGAGCCAGGTAACCATGGCAACCCCGGGGGTGGG
K
CCTCGCTTCCGGTAGCCGAGAGTTTTGTTAGAACCGCGTCCCCGCCCCAGTTCCCTGTCCGTGAGCCGATTTATCTGCCCAGGGTCGGCGCGCGCGGCTG
Celera SNP ID:            hCV16069794
SNP Position Genomic:     6669
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3244):
ATTGCCAAATAAAGTACCTCTGCCTGTGATATTTTCTGGATGTCCTTTATTTACTGTGACGTGTGTTTGGGTGCCTTGTTTAGGGGTAGAGGTGAAGTCT
R
AGCTTTGCCTCATTCAGAGAGGAAAGGGGTCAGGGGTTCACTCTGACGTTCAGGCCATTCTCCCTGTGGAGTGGTGAGGGTGTACCTAATCTCCTAAACC
Celera SNP ID:            hCV27301783
SNP Position Genomic:     15649
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;JBIC-allele(A,158|G,1305)   total(G,1305|A,158)
SNP Type:                 TFBS


Context             (SEQ ID NO:3245):
GGGGGAGGAAGAGGGGGAGGAGGATGAAGAGGAGGAGGAAGAAGAAGGGTATGAGAGGTGGAAGGATCTGAGCAAGAGGTAAGACAGGAAGAGAAATGCT
K
TCCTGGGGGTGGAGGTTGGTAGAGAGTGAGGGTGGGGATGGACCATGTCTCTCATCTCTGCTTGTAGGTCCTCAAGGCCTGTGATGGCCGACCGTATGCT
Celera SNP ID:            hCV15926826
SNP Position Genomic:     13477
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3246):
TAAGACCGAATGTGTGTCAGGACATGTGGTCAGGGAAGAGAAGCTATTTAACTGAACCAGTAATAGTAGCAGGAAAAGAAAAAGTGGAGGGAGGGCAGTC
M
AGGTAGGGGGCCTGGAACAAGCAACTGCACCAACAGAGGCAGTTGGTGCGAGCACAGAACCACCCCAGGCTGGGATTTTGTTATCCAGTCTCTCTTGCAT
Celera SNP ID:            hCV15926827
SNP Position Genomic:     14377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3247):
TGAATGGACAGAGCCACATTTCCCTCTCAAAGGCAGAGTTCCAGGACGCCCTGGAGAAGCTGAATATGGGCATTACTGACCTCCAGGGGCTGCGCCTCTA
Y
GTTGCTGCAGCCATCATTGAGTCTCCAGGTGGGTGACTTTCCCTTATTGTAACCCCAGACCCTTGCCTCTGACCTCTGAGCTAACCCTCTGTCCTCCGGC
Celera SNP ID:            hCV25630826
SNP Position Genomic:     18511
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,3)   caucasian(C,38)   total(C,69|T,3)
SNP Type:                 SILENT MUTATION;UTR 5;hmCS


Gene Number:                 7
Celera Gene:                 hCG1820669 - 79000075733788
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W8B1(27410950..27469287)
Chromosome:                  Chr13
OMIM number:                 603101
OMIM Information:            CARBOXYPEPTIDASE B2, PLASMA;CPB2


Genomic Sequence (SEQ ID NO:1668):
GAGGGTAGAAACTGCCTCATAAGGGGAAGGAAAAAAAACACCATACTATATCCCGCTTTATACAAACTAAATATTAGTTGAAATCTTATCAATCATCAAA
AGTTACTAGAATGAACCACAGCAGCTAAAAAAGTTTCATTTAGTCTCTATAAAGATCACAAATCTTTAATGTGGTTTCAAAGTAAAGACATATCACTTTA
AAGGAAATTAAATCGTGGTAGTACCTAATTGAAACAGCAATAAAAAATTATAAACAGTGTTTGGTTCAATGAGGTACTTCAGGTCACACTTTTAAAAGAA
TCCAAAGACTAAGAACAACATTTGATAAATAAAAGATGGTGCATCAAGGAAGGAAAATATGAAATAATATATGGTGATTTTAAATTGGAAAATCTATATT
TTTATCAATATAAAATGTAATAATTCTTTTGATATAATAGCAATTAATTTTTAGTGATTTTAAAAACAGAATTACTTCACAGTAATTATAAATTTAAGAA
CCAGTGGAGAGCATCACATAAACAATAATTTGCTGCAACACAAAATCAATTAAATATTAATTGTTCTCCAAGTAAGGAACTACACACCAATTCTACATAC
TGGTGTTAGCATTATAAGATAATCTTTGATTTAATTTTTCTTAGACTCATTCTCAGCTGAAATGTGAACATACGGAGGAGAAGCTGGTAAAATTTCCTAT
GTCTATTTGATTTACTGAGCACGAAAAAACTGAAAGCTAAGTGGAGCTGAGAAAGATCTAGAAAATGTAGAGCTTTGAGAAAAACTTTTTTAACAATATA
TATCCAAGCATGATTCAATAATAAGTAAATGTATCACAATGTATAAGAAGTTTGAGAAAAACATAAAGTTTCATTATATATTGCTACATTAATATACAAA
TATAGAGTAATCCTCAACCAATAATTCAATTTTTAAAACATTTCTTAATAAACAAAATTGAATAGGTTCCAAAATTTCCTTATTTGCTAGTTATGTAGAA
CTTAGAAAACAGGCACACCCTCCCACCACACTGCCTCAAGTGGACTAACACTAATTTTTTATTTTTCCCTCCACTGTCACTGGAAATGAGTTAGTTCTGC
CCCCAACATCTCTACTACCCCCAACATGCCTCCACTCCCAGCTCAGTCTCCTTCAAAAAATTCAATGGTAATGGTTTCCAGTTAGGACGACAGGCTATTT
ATTATCGTACTTATTATACTTAAAACATTGGTCATCTATCATCTCCTTTCTTTTTACTTTTTGAGGGTTCCAGGTATTAACTCTACAGTTTCTTTTTCTG
GTCTGTCCTCTGTTGCCTGATTCGCACTACTCTCCTCCCTTGACCTATTGCTTTGCTGGTCTGAGAGCTTCTCTCCAATCCTAGACTCCCTAAGGCAAAC
TTTGAAGATTTCGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAAGTCAGGAGATCGAGACCATGCT
GGCTAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAACAAAATTAGCCGGGCGTGGTGGCAGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAG
GCGGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCGCCTCAAAA
AAAAAAAAAAAAAAAAAAAAAACTTTGAAGATTTCAAGGGTTGGACTTGCTATGAAAGACAATCAAGTGAAGACTAATGATCCACCTCCTCACCTCCCTC
ACCCTACGCCCATATTCTTTCCACAGAGACAAAATTGCTTTTACCAGTGACATCAAGAACTATTCAAGATTCACCTACATAGTAATTATCCCAGGAATTT
CACTTGCAGCTACTACTGTACTGAGTCTCCCAATTTAGCGAAGAAATGAAATTAAGTAAAAATGTGGCCAAGCGCAGTGACTCACGCCTGTAATCCCAGC
ACTTTGGGAGGCCAAGGCAGGCGGATCACGAGGTCAAGAGATTGAGACCATCCTGGCCAACAGATCGAGACCATCCTGGCCAACATGGTGAAACCCCGTC
TCTACTAAAAATACAAAAATTAGCTGGGTGTGGAGGTGCACGCCTGTAATCCCAGCTACTCGGGAAGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGT
GGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAACCTGGCAACAGAGGGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAGATGTACTCTACTTT
TTCTCAGACTCCAAGAGTACCATACTTTGTCCTAAAGTAATACAGCATCTGAGTATGCGGTCTGGGTTACAGCAAGGTCCTGGACTGAACATTTAAAACA
AGAATAATGACAACAATAATACACACACACACATATTCTTAATAAAATGTTCTTTAATGTGATATATATATGTGTGTGTGTAAAACGTCTGGTGAAAAAA
GAAAAAAGCAGAAACTGAAGATTTCTAACTGAAAAAATTCTTCTGATCATCCATGTAAAAACTTCCACAAGTAGTCAACAATAAAATGTTACTTAAATAT
TACTAATGAGACATTCATGAATTTGAATAAACAAAATGCTTCATGCTTGTAAAGAACACAATATATAACTTTAAAAATCCCATTTATCTAAAAATATACA
CACTATCTACAATACAGCAGAAAAACATTTCCTTTTTCATATATTAAAACTAAATGTTACCAACTAATGTGACAATTAGAATTTTCAATCCTATTTAAAA
CTTTGGGCCCGTAAAGGAAAATGAACACCACAACAGTTAAAATGTAGATTTTCGGGGCGGGAAACTTTTTCAAATTATGTATGAACAGGCTGAACATGAC
AAGTAAATGCTTCAAAGTATATGAGAAAAATTAGAAACCATAAGATAAAAATGTAAATACTAAAGTCTTTCCTATCATAGAGAATAGAAATCAAGGTCAT
ACCAATAACTTACTAATTTACTCTTCTATGAAGGTTTTCCTCCATTTTTGTTTTCAAATTATTATTTGGTTTAAGTTGCCATCACACTTCCACCCACATC
ATCAAGTCTTTCTCAAACACGAGCATTATCAAAGACAGAGTGGCACTAGTGAAAGCCTATTTCGTTATTTTCCTATTTCTCCTCTCCATTTGCAGAGCAA
ATGAATATCTGAAGTCTTTATAATCTCTTTTCAATTAAAAAAGAAAATGGAAAAAGAAAAAGAAAATCCGGGACACAAAGTTTGAGTCTATTAATAAAGA
CACAACAAAAGAGGGTCTTAAATGGGAACTGCTCCCTTGCCCCGAGAAACTTAGAATAACACTGTACTCAGAAGGTTCACATTATAATTATGGCTGAGAA
AGGAGAAGCATACAAAAGGGTCTCTTTTTGAATAATGACTCCAGAAGCTCAATTAATAAAATCTTGTCAATAAACACATATGCGTTCTAGTATCTTCACT
TCAATCCATAATTAATTATCTTTTCCAGGTCTCATCTACTGGAAGCATAAGTGAAAGCATAACACTTTAATCCGGATGAGTAGCGGCATAATATTAGGGA
AATTTCAAACAATCAGGCAATTAAAACTACATGAATGTACTAACTAGTAGGATAAATCCCTATACTCTGAATTTCTAAGATTAAAAAGGTGATACTAAAA
ATAAGGTATCTTCACATTTATACTTCATATTTTTAGAAAGAAAAATTAACTTTATTTGATGCATAGTTTGAGAGAATTTTTTAAAAAGAACTTTCTAAAA
CAAACTTTCAGATTGCTTCCGTAAATTTAATGCTAAAACAATTCCAAACTAAATTCCAAATACAACTGACAGAACTAAGCTGACTACATAGGAATTAGCA
AAGCAACACTGCAGTACTATGCAGAAAAAACAATTTGTTAAAAAGACTGCACAGAAAACATCCCATGCTGGTACCTACTCTAAAGTGAAGTAAAAAGAAC
TGCATCATACAAAAATACAAAAAAAAAAGAATAAAAGACTCTTTCTATATCAACAGCAGTTAATGCTTCAACTACTACTAACAGCTGGAGAAATAGCTCC
ACCTCTATATGAGATGGAGTTGGGAGAGATGAGGAGGTGAGGAAGACTATCATCCACTGAAAACCAACTCTCTAAGTAAATTTAAGTTAAACAATGTGTT
TCCTCTATGTAAATGCCAATGCATATTATAAATACTGATGATATTACAATTTTAATAATTTGTAAAGATGTTAAGATACCATCCACTTGCTGGATTTTTA
GTATGTTAAATTCATATTACAAATATGAAAATCACATAAGCTTGCAAATCTCAAAATATGCAATGTTCATTTAGAATGACCAGTAATCAGGAAGCCAGTA
AGAGGCATACATTTGATAAAACTGAATCCTACCAGATGCACAGAGTGAAAGCCTTAGTTTCAGAGTGCAACTATTTTTAAAGCCGCAATTGTTACAAGCT
TGCATCAACTTTGCTAGTCTCTAGTTGAAACTGTCATCTGTTATAATGTAAATAGTTCATTAAGAAATTAAAAATTATTTGAAAATCTATAGATTGTATT
CACAAAACGCTCCAATATATTGTACTAAAGCCAGTAATTTCAAATGTTACAGAACTAGACCCCGCTAACTGGCACCATATACCCATAGACTGAACTGCAT
AAGTATTTATTCTCCAACGGTATCGCGGACTTCGAAAACTTGAGGTGTAAAGATGTTTTCCAAATTTTTAAAACTACTTTAAAAATCCAAAAATCTTAAG
AGACTTCATACTCCCATAATTTTCAAAGTAGTTCGAATTACCTGAAAGCCCCATAGTATAACCAAATACCTTAAGACTACCCTTCACAAACAACATCTTA
CCAACATAATTCAAGTATTATCAACTCTAAATAATTTTCAAACCACATAAATTGCGTTAGCCTATTACAGAGAGATAATGCCGCCAAACAGACTCTCTTC
TTTCTATTCCACTTTCCCCCGTTTCTGACAGTTGCCAAAACTACCTACCTAAGGCTTGTGAAGATAAAGTAGCACTCAATTCCCAGGACCTAAATCGTTA
TCACTGCTGAGGGAAAAAAAAAAAAAAAAAAAACAAGACCAATCACAAGTAAGATGTTTTTCTCTAACAGATCTGGAATGAGTATAGAGGAAGATTCTAA
ATTTAAGCCCAAATTGCTGCACCCTTCCATCGCACACAAATACGAACACCATACAAGGGTTCCCGTGCTTACATCAAATGGTAACGAGGGGTACAGCCTA
TTGTCTGAGTCTACTTATCGCCCTTAGACAAATGCCAGAATCATAATCAGAGTGAGAAATTACGCCTGAGCACAGGGGGCTATTGCAGAGTTAAGGGTGG
GATGCTCAAGGAAAGCTCAAAATCCCAGTGACTCAAGCAAAGACGGGGGGGGGTAACCCGGGCCTCCGCATTACGGGTCCGCTCAATGCCTTCCCCAGAT
ACCCACACCAATTCACAGAACGCTTACTTCCTCCCCAAGCTCCCTTCGCAAGTGCAGTCCGGAGGCACCACCGCCGCCGCCGCTCCGAGGAGCGGGGGAG
GCGACTCTGTCCCCGCGCCTGGACCCAGGAGGACGACGACGAGGAGAAAGCGATGCGCGCGCGGCTCCCGGGAACCGGCTCTTGGCTAGCGAGGAGCCCC
CGGGATGGCTGAGAAGCAGAACCAACCCGCCCGCCGCCTCTCCAGGGTCAAGCGAAACTGGGTCGCAGGAAGAAAAATAACGAAGAGATTGTAGATTAAG
AAAAGGCAACAAAAACACTACCAGGCCGCTAGGAGGACCGCCTCAAAATGCCGCCGGAAGTCAGAGGTTTGCCCTGTTCCTCTGTAGACCCAGGCAGCTT
CCGGCCGTCAGATTAGTCGTCAGTGCGCAGACACCACCCTTCGTGGACACGCCCTCTAGGCGTAAGGTTCCATGCGAGCGGTAAGAGTGCGGCGGGACTT
GGAAATCGAATCTGTGCTCTGTGAGAGATCCTAGGAAAGGAAACTGGGAGCCCGGGAGAACTAAAATTCCCAATTAAAAGTGAATTTAAGTGAGTTTTCT
CTTTTTATTACATAATTCCTTACCATAAACAGCTGTTGTAAATGCGCAAAATGCGGCATTTGTTGACAGTACCTAGAGCCACTCATTCATTCGTTCAACA
GTGTTTATTGAGCAGCTGAGCTGGAATGAGAGGCTATGTTTGTCGTTTTTGACACCCCTCCCCTTTCTGGGCCATCGCCTAATTACCGTGGAGCAAACGG
AATGCATGGTTGTATTTYTAAAGGCASAAGMAGAAATTTATTGAAAATTTGGAGCAGAAATCTTTAATGTACTTCTGACCACCCTTCCTTTTGTTGAGTA
GGATCCAATGATCAGCGTGAGATGATCWTTGABTAAACTTGCTTGAGATGGCTAGTCAAACGTCGAAASTTGCTTGAGATGGCTAGTCAAACGTCGAAAA
TCAAAGAAAAAGTAGGTAACTAGACTTTTACAATTTTTTTTAAAGGGTAAAAAGACATGAACCCTAGTCTGCCTTAATGGCAAAGTAGCACTTATTAGGT
TCTCTGACAGAACCAAGGAATAGGAAAATCTTTTATCAAAACTACGGATAAAACTTAAAAATAATYTGATACAATGATTTGGTCTTGCTGGAATCAGTAA
ATTAAAATACGGAAGCAGAATGATAAAATCAGGGGCATTAAACATTCCTAATGACATGCCAAGCTATTTTAGAGACAGCGGCAAAAGCTTCTCTACAGGT
GGGTTTGATGTAACGCTCCGGCAGCAAGAATCCGTATGTGCCCGTATCTCGAAGTTCAATTGTAAACGAATATTTGATGCCCAAATCATAGATCCAATCG
TCCCCACCTCCAGGAGCTAGGTCTAAAAGAAGAAGAAAGAAATTGTTGAAATACAGACGTTTCAAATTAATTTACAAACTGGGAATTGTTTGATTTAAAT
GTTTATTTGTTTGTATACCTTTAGATTTTTTTCAGTTTTTAACTAATATAAACAACTTTACAATGAGTACCCTTGTTTATACATAATTGCTTCTTTGTCT
CTTTAGAATATTCTTCCCTAGAATAGATTTGCTAGTCTAAGGCTCTGTACTTTTTGCAATTACGGCATGTTCCCAAATGGACGTCAAAAGAACTGAATTC
ATTTATACTTCCACAAGCAGGGTATGAATTTGCCCATTTCCCCTTCCCATACCATCAATAGGAATTATGAATTCTGATAATTTTATGGGCGAAAAATAAT
ATCCAACTGTCTTAATTTATGTTTTTTGATTATCAGTGAGTTGCACATTTGTTTGGCATATTTATTGGCTATCTTTATATTTCCTATCAATTGTCCTTCC
TCATTTGTCTACTTGGTTCATTTTATCAATTGCTTATAAAAACGACATTAGTGTTATTAGCTTTGTTTGGCATGTAGACCTTTTTTTCTCCTTTCATTCA
TTTCTCCTTTCACAAGAATTTTTTCTCCTTACTGAGATTTCAACTTGGTTTATGCAGGGTTTTCATATGAAAATATATGCTGTACCTGGAATTTACTTTG
GTGAAAGACATGTTAATAATCCAATTAATTTTTTTCTAGGTAACTTGTTAGGTTTTCCAACCGCATTAATTGAATAATCTGACTTTTTTTGGGGGGGTGC
TAAATTGAGTCCAGGTTTATGGCAAAGTCTGACCCAAAATTTTAATTTATAATTTTAGCATCTATCTAATACAGTTTGGGAAGCATCTCATGAAAGCTAC
AATTGCCAGAAGACTTGTTACAGTTTAATGCATGTTAACTAAAATGTGTACATATTTTAGTGTTCATGATAAATACAGTTTCGACCTTTTTTGAGATGGA
GTCTCACTCTGTCACCCAGGCTAGAGTGCAGTTGCACAATCTCAGCTCATTGCCACCCCCACCTCCCAGGTTCAAGTAATTCTTATGCATTAGCCAACCA
AGTAGCTGGCATTACAGGCGCCTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGTCTGGTCTCGAACTC
CTGACCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGTATTACAGGCATGAGCCACAGCACCTGGCCTCTTTTTGTTTTTTTCTAATCATTAA
AAAAAAAAAAAATGGAAAAACCTGGATTTGGCCTTCAGGCTGTAGTTTTCTGATGCCTGGTTACAGGTTTATTTTATGCTCCTCTTTTCCCATCTCCCTT
CAAACTTCAAAAGGGCAAAATCAGTCTGTCCTCCCACTGTGTGTAGATAGGAGTTACTCACTAAATATCTTTCAGCAAAAATTAATCAAAACTTTTTGTT
AAGAGTTTGTCACAAGTTTTGTGTGTGTAATATATATTAAAGACAATCAACTGTAATGTGTTATGAGCTATACTCTTGGGAACAGGCTAACACTAAAAAA
CACTTGATGCAAATGGCATGCCCTAGATTAGTGTAGTGTACAACCTGCACAACCTTCCATGGTGGCCCTGGGAATCATGCAAAAGTTTTATGAACTTTTC
TGCTTCACTCAACTAGTATGATGCCAATTCTGTAATTCCTACTTGATTGTGATAAATATGATTTCTTAAATAGGATTTTGGCTTCTTTTTAGTAACTCAT
TTATTAATATAGCTTTGTTCAGCATTGTCATAGCTATTATGCTTCTGTTCCTAATTATTACAATTCAGTTGTATTACATGTGACCCTATTTAATTCAGAA
AAATTAAATACACAAAGAAAAACAGATCACACAGATTTCTTTAGTAGCTCAAAGTTCTCTAAGATCATAAGAAGAAATACTTACATAAGGTTTCTGAGCC
ATGGCCATGTGTATACCTGGTATTTTTACTARTTTTCTCAATAGCACGAACTGCTTCACTGGCTACTAGAGACTGGAAGCAAMAAGATATAGAATTTCAG
TTAATGTGCAGCTTTGAAACATGACAAGTAGAAGTTTCTAAAAAATAATCATACATTAATTGAATCAAAGTATACAGGTAGAAAATCTAGATTCATCTAA
AAGGCAAATAAATAAGGTAAACAAATTAATTTAAAATATGTGCACTTTATGGCAATCACAATTGGGTGGCTTTAAACATAAACTATTTCAATATATTGAA
ATAATTTATATAAATAAATATATTAATTTGCAGAAAAAAATTATCACATGCCTTTTTGGGAACTCATTTATTATGGAAAATGAAGTATAACTACATCTCA
AAGGCTTAGAGGTACTCCATTTCTGAACAAAATTATCACCAAACTTTAAATCCAACCTTTCTAAACACATACAAACACCTAATGCATGCATGACTCACTT
CTTATCCTTCTCACAACTTCTATTTTCTTCTTGTGTAAAATGTCTAATGACTTCCATAGATTCATCAAATCAAAAAAGATTATGCCTCTGGTATGGAGCA
GGATAATAACTAAGACCCCCATTTGACTTCATTTTGTCTGTTGATATTCATTTTGTCAAATCTATTCTGAAGTTCTCACTTATCTGGAACTTTTCGGAAA
TTGGAACTAGCATCATGGTATACACTGTYACCTTCTTGAAAAACTCAAGAGATTTATCAGCGGATATTATTTTATGCCATCTCATTGTTCAAAAAATAAG
TTTTAATGTAACCCCATTGTCTACATAATGAAATACAAATTTATCTGACAGTCACACCCCTTCAGAAGCCAACCTAATCTACTTTCTGATGCTATCACCC
TCCACTTTTGCATCCTCTTATGGTGAACACCAACTTCTTTGCTTGGAAGGTCCTTCCTTCCCTGTCTGCCTATAGAAATCCTCTTTCAATGCCTGTCTAA
AATGTAGCTGATCTTTGACATCAACAGCACTTTATTATTTGTAGTTTTTCCCCCCCTTAATAGATTGTAAATTCCTCAAGGACAGTAACTACTTTATCTC
CTCACTTATCTCAGCATTTCCCTCTGAATGCATTAGTGAAGCCATCCCTTGATATTCTAGTTAGAAGTGAGTTGTACTGTCTGTGCCACGTATTTAGTAG
TTACTCTATGTCGCCTTAGAGTACAACTATTTGTAACATTTGCTAATGGTTGAGCTCCCTAACCATAACACATTCTCTTAAAGGGCAGGATTTTACCTAA
TGCTTCTTTAAACATCCATTGACAAGGTATTTTACACGTAATGGCTCTCAACATATATGTGTGCTGGCAGTGATGCAAAAAAAAAAAAGCATAATTAGAC
TAATTCTACTTCCCAAATCATGATAAATTTCCTTTTATTTCTTCAAAGATAATATTTTTGAAAGGTGCTTTCCTTAACAGTTTTCCCTTGAGAAGAAAAA
AGCTCAAGTATCAAGTACATTTATGTTCTAAATGGGCTATTTTCAGAGAATGCAAATAATCTTATATTTGTCATCAGCAATTGCTAGCTCCTGTAATGTG
ACTATATTTTATTCTGTTAAGAGAGCCAGAAAAAAAAATGAGTCACTAAGAAACAAGCTACTACCTAAAAATTAGTCCCTTCCCAAGAATGGGGCTGTTG
ATGTAACACTTCCACTGTCTGGAGAGCATCTGGGATGAGGATTTGTCRAAGCCTAGCTACAATCCTTCAAGAATCCTTGCATCTTTTGCCATGAACCCAA
ACATACAGTATCTTGGACTAAAAAGTGCTAAGGGAGTATCAAATTGTGTGAGTCCTCTTTGAATTTCCTGTATTGTCTGTTATGTTCCAAAAAACAGACT
CTCTCCTCAATGCTAAAATTGGAGGTACTTTAATAGGACCAAAACCCTGAGGGTTARGGAAGTCAGGGCAGGAACAATTCCTGCTGCTAATACCAAAACA
ATGAGTGCTGTGTTGAGACTTAATCTGTGGTGTGCTGTTGTAGGAAGCTAGTGACCACAAAGCTGTCGCATGATTCCATACTCATCCTTGCTTATACCGC
TTCACATGCAGATCAGGTCAAGTGTAGTAGTAGTTCCTTCCTAACCTTCAAGGAATTTGTCTGACATTTTCTTAGGAAGCCCACGTGCTAGAATAAAGTG
TGTGTTGTTAGGGTAAGGCACGTTCTTTATATTCCCTTAGAGAACACTGACCCAGGGTGACTCTCAACAGGATCACACCATGATTTAAAACATCTATCAT
TTGCCTTCTAGAGGMCAAAATTTTTCCCAGTTTTTGATTCTTCAACTAAGTATTATTTTATTTCCAAAATGCTAATGAGAAAAATAATTAAGTAGCACTT
ACCAGTTCCTCATGGTCTTTGCTTTTACTTCGTGTATAGGAATATGGAAACACTATATGCTGGGAGTATGAATGCATGCTGATGTATGCTTTAATCTGGT
TGATATTTCTTCTCAAGAAACTAGCCACTGCCTTCACTTCTGGTTCTGACTCAGGATAAAGTCCACAGTAGGTTTCCGAGCATGAGGAACTGGATGCACC
TTCCTCTGTAACGAAATTGTTAAGGTGAAATTATGAGGGGATGCACATAGTACTGTAATTTGTGGTTTCCCAGACAACGTATTCTCCTACCTATGTTGCA
ACACTTTTAGATGAATGGATTAGGTAGGGCTCTGCAAAGAACATAGTTCCACTAAGTGTTATGTTTCTTTTGAAGTCAAATACTTATCTGCTCACATAGC
TGACCTTCTAACAGTCATTCCCAGCACCTGTCTCCCTTGCAACCTTGAGAAAGTGGCTAAGAGATCCTCAGAGATGCCAGCCCTGTCTCCAGACTTATGG
TTATGGGAGAAAAAATAAACCCCAYTTTCCTTAATCCACTGTAAATTTAGTTTTTCTGATATTTGTAGTTTTAAAGCTACCATCAATATAGCCCATAAAA
GAAAAGCCTCACTTCAGAGCTCAGAATATGTAAATCTGCCTTCAGTGCTACTTTTAACTTGCTAAAGTGGTTTAGTAAGTTTAGTAAATAAAATGGGATG
GTGATATTTGTTGCCAGACCAACGTTCATTCATTCCTTTGRTAGATTATAATTTGCATCACTTGAGATGGTAGGCTGCCTTCCAACACTTCTCCCCCTGT
CCCTAATTCACAAGGTGAAGCCCCAGCAAGCTGCATSTGACACAAGAGATTATTCCTTCCTGCAAACAGTTGAGGGCTCAGGATWGGGTCTGACTCTTGT
GCTTGCCAATCTGAATCCCTTCAAAGATAACTTGAAATCAATACTAAGAGTCTAGTCTCAGTCTAGCTGCTCTCTTGAACAGACAGTAAAAATAGTAATA
CTACCAGCTGACACCTGTGGAGCACATGCTGTACGTCAGGAACTCTGCTAAGATTTTTGCCACATCTCATGTAATTCTTACASCAGCCCTATGAAGTAAA
TACTGTCATTTTAGGAGATGCAATCTGGATATTCTTGGTGGTAACCAYTCTTCAGAATAAGAGGCTATACAGCATATTGTTAAGCACCCAATTACTTGAT
TCTAAATCTTGACTACCATTTATTAGCTATATGGCTTTGGGTAAATTTTTAAAAATCTATCTGTATCTCAATTTCCTTATCTGCAAAATTGAAAAATTAT
ACATTAAATGCTGATTGAATGAGAATTAAATGAGCTAGTTCATACAAAGTGCTTTGCACAGTGCCTGGCATGTAGTATGCATTTCATAACTGTTGCTGTT
TATCATCATCATCATCATCATCATCATCATCATCATCATCATCATGTGGACTGAGACCTGAAAGAAGCCAGTGTGCATCACAGAGATGAGAAGGGGAGAG
GAAGGATTCACTGAGCCTCTCTAGGGCTCCAGGCCCAGTTCCTTTCTGTTTCTGAGTCCAGCTGCATCTCTGCCTCAGGAGTCCATGGCTGAGGCTACTC
ACTATCCTTACAGAGCCTGCTTTTCTTAATTAAGCTCATTCTGCTTTATTCCTGTTATTATACAAACACAACATTAATGTTTGTTAAAAAATTGTTTCCC
TGAGAGGAAATGTGAACATCTAAGGTCTTCCCAAGTATTTCATTTTTAACCAATAAGGTGATTGGATAAACCATTTTTGATAGTTCGGTCACCTTTGAAT
ATTCCTGCCCTTTTATGTGATATATAATTCTTAGAGAATAGAGATTATATATTGGGTATGGAGGTCGGGGAAGACATAACCACTAAATAGAGAGGTGGTG
CCCTAATATGAATCCTCAGACCAGGGTTGTTTAATAGAAATATAATGCAAGTCACATATTTACTTTAAATTTTCAAGTTACCACTTTAAGAAAAATAAAA
AGAAGGCCAGGCACGGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACTTGAGATCAGGAGTTTGACACCAGCGAGGCCA
ACATGGTGAAACCCCGTCTCTACCAAAAATACAAAAATAGCCAGGCATAGTGGTGCACGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCACGAAACTT
GCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCATGACACTGCACTCCAGCCTGGATGACAGAACAAGACCCTGCCACACACACACACACAAA
AAGAAATATGTGAGATTAATTCAATATTGTAATTTATTTAACCAAATATGTACAAAGTATCATTTCAAGTGTAACCAATATAAAAATTATTCTTGAAATA
TTTTATGTTACTTTTTTCATACTAAGCCTTCAAATTCTGGTGTGTATTTAACACTCAGTGTATGTCTCAATTCAGACAAGCTACATTTTAAGCACTGGAT
AGCCACATGTGGTTAGTGGCTACTATGCTGGACAGTGAGCCTCAGATTCTCATTCTATGATTGTCATTCTAGAGATTTCAAGCATTTTAGTGGAAAGAGC
CCTGAAGAGGCAGGAAACTTGAGGTSGAGACTCTGCTTTACCATTAAGCAGTCATGTTAATTTGGGCAACTACTTCATCGTCTCAGCCTCAGGGGCMTCA
TCTGTACCAGGAAGGAACTTGGGCCACTGGATCCCTCCAAGCTCAAGCATTCTTTGATCTATAGACATGGAACCAAGCACACTGTGARATATCTATAATA
GGCAAATTCATAGAGACAGAAAGTAGATAAGAAATTACCAAGGGCTGGGGAGAAGGTAGGGATGAGGAGATATTGCCTACTGGTTACAATAAGTAAAAAT
CTCTCTTTGGGACAATTAAAAAATTTTAGTAATAGATAGTAGTAATTGTGAATGTACTTAATGCCACTGAACTGTACAATTAAAAATTGTTAAAATGGCA
AATTTTATATTGCATGTATTTTATCATAATAAAAAATAATTTTAAAAAACACTATAGTCTCCTAGAAAAAGAAATAAAGAATTTTCCATTCAAGCCAGTT
GCAAAAACTTTGTAGTTGAACTCAGTGTTTTAGAAAATGTGTGGTGCTATCTTAGGAAGTTTGAGACCAAAGGTTCTCATAATGTACTCCTGTTATGAAC
TGAATTGCATCCTCCCAAATTCCTATGTTGAAGCCCTAAGCCCCAATGTGACTGTATTTAAAGATAAGGCCTTTAAGGAGACAAAGTGAAATGAAGTCAT
AGGCATGGGGCTCTAATCCAATGTGACTGGTGCCCTTATAGGAATAAAGAGAGACACCAGGGAGGTTTGTGCAGAAAGAGAAGGCCATGTGAGGGCACAG
AGAGAAGGCAGCCATCTACAAGCCAATGAGAGAATCCTCAGGAAGACCTCACTCTGCTGGTACCTTGATTTTGGACTCCCAATCCTCAACTGTGAGAAAA
TAAATTTCTGTTGTTTAAGCCACCCAACCTATGGTATTTGGTTATAGCAGCCTGAGAAGACAAAGACACCCCTACAACCTACCCTCCACTCTCATCTCCA
ACACACACACACAMAAAATTTTAATACAGAGGAGCATAAAATGAGTAAGTAGGTTTGATATGTCACTTCCTGTTAATAAGTGAGGTGTTTTTGGATCCTT
TATATAAAGAATCATAGGGGCACATTCTAGTTGTAGGGATGAGAAAAGATTAAATTCTTCTTTCTCACTGTCTTGCTTACATAGTACAGAATAGATACTG
GAACAGTTGGTAATAAGGACAGTTCCTTACAATTACTTTTTATTTGGTTTTTTTTTTTTTTTTTTAGTTAAAAACCCATATGCTTGCTGCTTCTGTTTCT
GTTTTTCACTCTTATGATACRTAACAATATAGCACCATGCCCAAGAGGGGACTGAGACATTTCTTGATGACAATAACAGAATATATTTTGACTACTTGGC
TATCCAAATTAAATAACACTGACTTCACCAAGAAAAATATTAAGTAAAATCAAGCACCAAAAGAGCTTGAAGATAAAATAAAAACTTCCAAAAGGGAACT
GATAACTTGGGTTTATAGCCCAGCTCTGCCACGTACTTGCACATACTTGCTACGTGCCCTTGAGGAAGGGACTTAACTGTTTTCAGCCCGGGTTTCTCCA
TCTATGATTCATAGATAATGAAATCTGGAAGATGAACTATGTCAATGGCTCAGCGCTGAGTAACTGTCAGCTCTATTTACTTAGATTCTTTTTACATGGC
TGCTGTTCCTGTGAGCCCCTGGCATGTTATTAGTGCCRCAGCAAACTTTGGGCCTCTGGGAACACGAGTGGTTTTTTAGGGAGAAACCACTAAATGATTC
CCTGGAACCTAAGTCGGGATGAACTGCTTCTTCCTCTGAGTTCCTACCATATCTGTAGCTCTCAGAGCAACTAAATTCATTCATGGACTCATTTAGTTAA
TATTTTATGAGGACCCTCCTTGTGCCAGGCACTGCACTAGATAATGGGTATTGGTTTCTGTCTGCATGGAGTTTCTAACCTAGACAGGGAAAAAAATAAG
GAAATAAGGTAAGTGCTTTGTTGTGAGGTTTGGTTTTCTTTTGTTTTAGCAATCAGCTTTCCCAGGCTGAATGTTGTGAGGTTTTAATAGGTATTCTGGG
ATTTTGATAAAATGTTTAAAATCATGAAATTTTACCTTTTTTAAAGGAAATAGGCAAAATTATGTGCATAGGATTGTATAGGGTCCAGGTCTGGGAGGAA
GAAGATGTTTCTGTGGATACAATAGCTTCTCTCCCTTATGGGCCCCATGGAGCCCAAAAATATAGATGATGCATACTCCTTGTCAGGTTAGTTTATTTTC
GTAGCTGTTTCTGAAATGTAGTACTATGAAAAATAATGTTGAGTGGGTGGGAAGAAAGAGTGAACTAACACCTACCCCCCTAAAAGCAAACTTCTTTGTC
TTCGGGTTCAGGGGGTACATGTGCAGGTTTTTTCCATGGATATATTGTGTGATGCTGAGGTTTGGGATTCTATTGAACCCATCACCCAAATGGTGAACAC
AGTACCACTTAGGTACTTTTTCAACTCTTTCCCCTCTCTCTCCTTCCCTGCCCCTTTTTTGAGTCCCCAGTGTCTATTCCCATCTTTATGTCTGTGTATA
CTCAGTGTTTAGCTTTTACTTATAAGTGAGACCATACAGTATTTGATTTTCTGTTTCTGTGTTAATTTACTTAGGACAATGCCTTCCAGCTGCATCCATG
TTGCTGTAAAGGACATAATTTTGTTCTTTTTTATGGCTGTGTAGTATTCCATGATGTATATTTACCACATTTTCTTTATCCAATCCGCCATTGACAGACA
CCTAGATTGATTCCATGTCTTTGCTCTTGTGAATAGTGCTGCAATGAACATATGATTGCATGTGTCTTTTGGGTAGATCGATTCATTTTCCTATGAGTAT
ATACTCAGTGATGAGATTGCTGAGTCAAATAGTAATTCTACTTTTAGTTCTTTAAAAAATCTTCAAACTCCTGAAAGCAGACTGTTCTTGAATGCATAAC
TCAACATCATCGAATGCCTTAACTCATTCGAATTAAGAAATAATAAATTCCCACTGTGCTGCTTTTTATACTATTTTTAATATTTTTATATTTTCTTTAT
ATTATTTATTAAAGAAATTAAGAAAGTGAATAGTGAAAAAAATGTCTTCAAACACTATAGAAGTAAACATTTACTTGTGCAATTAAAAATGAGGGGTCCA
GGCCAGGCACAGTGGCTCACTCCTGTGAGCCACTTTGGGAGGCCGAGGTGGGCGGATCACTTAAGGCCAGGAGTTTGAGACCAGCCTGGCCAACATGGTG
AAATCCCATCTGTACTAAAAAAAATACAAAAATTAGCCAGGCACGGTGGCATATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCCTTG
AACCTAGGAGGCAGAGGCTGCAGTGAGCCAAGATTGTGCCAMTGCACTCCAGCCTGGTCAACACAGCAAGACTCTGTCTCAAAAAAAAAAGAGAGGTCCT
CCCCCCATCTCAGGTCTTTGATATTCTAATGATGAATGTTTTTGTTTATTAAAATAGGATCTTTAACTGTCACTTCTTTATTATTCCAAGATAATAGATT
TTAGAATTTTGAAGCTAGAAGGGATCTTAAAAAACTGATTCAACTTTCTTATTTTAAAGATAGGGAAACAGGAGAGAGGAGAGGCCAAAGTGATTTGCTG
ACTCTGGCCAACAGTCGCAGCATTACATTTACCTAAGCATTTATCATTTAAATTATTCCCTGATTCAGACAGGCCAGCTCTGTATTTAATTTGAATTCAT
GGGCCTTTCCCTGTGAACATCACCCTTTCAGTGAAGAGACATTGCAAGAAATAAAGCCAACAACCTACCACACCAGTGTTTGGAAGCAAAGTTCCTATTC
AGGTCTGTTCCRATGCAATGATTGTTCGCATAGAAAGAACGGTTCTTTCTCCACATTCGATTCTACATAAACAAAATACAAACAGACAACCTGGGTAGCC
ACGTTCAAGGCCTGAGGAAAGACATGCATTTGAAAGTCCATGAAGCCAGAATTGCCTTTCTCTCCTTCAATCCCATACCTTGCATGGCTTCATCACATCA
CTGTTGTTGCAATATTCCTTTGCACGGTCCCTATTGCTATCCGGGTTTCAATCACATCCACTCAGACTATTTTAGTTGAACCAAACATAATGGTAATATT
TGATCAATTTTGACTGATACAAATAAAGATTTCCTTTCATTCCACTAGGCTGCTTATTAGCCTTCTTGTTTAGTCTTGTTTCCTTTACATTAATTTTATG
CACAGGGTCATTCTGAGCTCCTTCGAAGAAAAGCAAAATAACTTTGTGTCTCAACTGAACGCTGAGTCATAAGTTAAAATGCTCTCTTTAGGTAGAATTC
ACCACTCCCCTTTCAAAGCTAGAAAAGGTGGAGATGTGAAGACACCTTTAATCTGATGACTTCTTCGATTGTGCTGATTTGACTCTGGTTTTTAAATATA
AAGCAAATTCCCTATTGGGTTCTTGGGGTAAACTGGGAAAGTTTGGTCATGTAAAGAGTTGCACAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGC
ACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATTCTGGCTAACACGGTGAAACCCCATCTCTACTAAAAATACGAAAAAATT
AGCCAGGCGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAAGAGAATGGCATGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGA
TCTTGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGAGTTGCACATACTTCATTTAAGTTCTGA
GTTTGGGATGATGTAGCACCCTTTTCTCCTACTCTCACCAACCCTCCGCCAAGCCTTCCAGCCTGTTACCACTCCCAGGCCTGTGGTTCCGTGGCAACAA
TAGGCCCTGGGGATATCAAGTTCTCAAACTGTGGGAATTAATAATAGGGTAATGATACAAAGAACAGTTGGGAAGCTGGAAATCTAAAGGGTGACTGAAT
TCCACTGTGATTCAGGTTAAGGTGTAAATATACTTTATTACCAGTTTACAGATATGACCATTCATTGGACACCAAATTTGTGTTAGGCATTATGCTAGGT
AATTCTCATTTACTTAGTTTGGCATTTGCCCACCTCCACCTACAAAATTTTCAGTTACAGTATTCCTCTCACCAGAGATGACTTTTTCCTCAATCTCCTG
TGCCATTTCCATATCTTCTGCATAAATTACCTCCTACATGAAATAATTCATGTGTAATTCCATGTTTCCAATCACACCAACTAATCTTATTCCTCTTAGT
ATTTATATGTGCTACTCAAGTAGGTTTTTCTAAATTTATATATACCTAGTTATGTTTCTATGTGCCCCTCTTTAAATTAGAAAGCAGAGTATTTCATATT
GCTTGAGTAATTTTACATGAATCACAATGTTGAGTAACCAGAAAATACAGACAGAAGAGCATGTTAAACTACAAGATGGTAATGCAATTAGCAAATCCTG
ATAATGGGAAACTCTTTTCTTTGACAAATAAATTGCAAGGAAAAAAAGAAGAGAGAGAAAGAGCAAAAGATGGAATGTGAGTTCATGSATTAAAATAGAA
TTAAAAGACATATAAACCAATCATAATGTAAGAGCCTTATTTGGATCCAGAATCAAAGAAACATACTTTTTAAAAAGTTAGGAGGCCGGGCGAGGTGGCT
CATGCCTGTAATCTCAGCACGTTGGGAGGCCGAGGCAGGTGCATCACAAGGGCAGGAGTTTGAGACCAGCCTGGCCAATATGGTGAAACCCTGTCTCTAC
TAAAAATACAAAAAGCTTAGCCRGGCATGGTGGCAGGCACCCGTAGTCCCAGTGGCTCAGGAGGCTGAGGCAGAAAAATCTCTTGAACCCGGGAGGTGGA
GGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGYGACAGAGCAAGACACCATCTCAAAAAAAAAAAAAAAAAAAAGTTATTATACAATTG
AAAATACTGGCAATATTTTATGGTATTCAGAAACAGCTAGTTTTTAAGGTATAATTATACTATAATTATTTTTTTCAGAGTTCTTTTTTTTTTAGAAATG
CATACTGAAATATTTATTGATGAAGTGATATGGTACCTAGGATTTACTTCAAAATAAAATGAGTAAGGTAGAAGTGGGTAGAGAGAATACAGATGAAACA
AGACTGGTCATGAGTTAATTATTGTTGAAGCTCTATGATGGGTAGATAGAAGTTTACTACACAATTATGTGCACTTATATATATATTTGACATTTTCCAC
AATAAAAGTTAAAAAAAAATTAATAATAAAGCCATTGTGCCTAGATCCAGAATTCTATGAATAATTCAACCTGTATATCCTATATCCCCAAGGAGAACAT
GATTTGTCTTCTTTGCCTTTTCTCCTACCTTTTTCCATGAGTAGTCATAACCRTCCACATTAACCACYGGCATAACATAGAAATCCACAAGCCTCAGGAG
ATTGGTATATTGCCCTATTATCCCATAGAATTGAGTTATCTGCAAATTAAACCAAGTATATTTAATTAGATGTTTTAAGTTCTTCTAAACTTAGTGTGTT
TCTTTTTCTTTTTTTTAATTTGTCATTTGGCATGTTTAGATTTGCAGATTTAACTTTCAGAAAGAGTGCTARTTCCTCAAAAGAACTGAACTTAGGGTGC
TACGAAGTGGTGATAAATGCCTTACACGTGGTCCAGTATTCCTAGTTAATGAAGGCAGACAATCGAACCATAAACTTTCTAAATTTTCCTTAAAAAATAA
AATTAATTCTTTATTAAAGCCATAGAGCCCACTAAGAAGATTTAAGGAAACAAAAACCTAGATTTAGTTTAGCTCCTTTTTCTGTAATTCATGTTCATCA
GAGCTTAAACTACCTACCATGTTTTATCCCCAGATGTGATTACATGATATTGGCTACATTGTCCTTAGAACTTGTGGAGCTCAAGTTTTGCTAGAATTGA
GTGTGTTTCCCAAGGCTTTGATCATCTAGCTGTAGAATTAGGGTAGCTTTTCCTAGGAACTGGCTATGAATTCCTAACGGACATCATCTCAAACTTGTTC
CTCTCTACTTTAGAGTCATCCAGCTTAGTGGCACATATTGCARTGTGATCCAATGGCATCCAAATTTGGTGACTGAGAAGTTTACCCCAAAATGACAAAA
TGTACAGGCAGGAGAACTATAAAGACAAATTTTAGCTGGTCAAATCGTTTCATCTAGGACAAAGCTTTTGGTTCAAAATCTTAATTTGTGGCAACATTGC
TATATTTTAATTTAATTCACATTTAATTACATTAAATATTTAATTTAGTTTATAATTGTTTGTTGCCTTAAAGCATACTCATGACATTGTTAAGAAATGT
CTTTTTCATTATTGACAAAATAAAAACAAGCCTTTTATAAACTTTACTATTTTCCCTTTAAACGTTTAAAATATTATATTCATATTTCCCTAGAACAATC
ACAAGAGTCACATTAAAAATCTTTGCCATGAATAAATACTTATGAAATCGGAGAGAAAGAAAAGAAAAAAGTTATTTTAAAATCTACTGTAGGTCAGAAA
TAAAAGGTTAATGAAAAGGAAGCAAAATTTGTAGAATGAAGGAAGCCATGTTTTGTTTTTTTGTTTGTTTGTTTTTTATTATACTTTAAGTTCTGGGATA
CATGTGCAGAACATGCAGGTTTGTTACATAGTTATACACGTGCCACGGTGGTTAGCTGCACCCATCAACCCGTCATCTACATTAGGTATTTCTCCTAATG
CTCTCCCTCCCCTAGCCCCCCACCCCCGACAGGCCCCGGTGTGTGATGTTCCCCTCCCTGTGTCCATGTGTTCTCATTGTTCAGCTCCCACTTATGAGTG
AGAACATGTGGTGTTTGGTTTTCTGCTCTTGTGTTAGTTTGCTGAGAATGATGGTTTCCAGGGAAGCCATGTTTTAAATAGTCGAGCAACCAGTTAAATA
CATTTTTATGTTACGAATTTATAAATTTATGTTAGCATCACTTTTCAGTAATAATGTAGCATTCATTATTAGAAAAATATTAGGAGAGCCTGTTCCTTTT
AAAATAATAAAGCAAATAATAAAGCATTTCTCATTTTCATTTCTACAACATGGGCCAAACTTTTAATAGATGCAGCATATGAATTTCTTTTTCTGCTTCA
CTTTTTAAATTTCCTTCCTACCTTTACCTCTGGTTGGATGGGAATCTTTCTACAAAAAGTTATGCTCTGAGAGATKACCGATGTTAGGCCCAGAACAATG
TTACCTATTTCTTTATCTAATAGGTAGGACTCCAGACAGAAGGAGTGAGTGAGGGCTGARATACAGTCTGTGCTGTGTGCCAAGCCACACCTTCAAGTGT
GGCTATAGCTACAATCCCGAAGGAAGGGGTGCCCATTTTTTCTTTAACAGCTTATTGAGATATAATTTACATTCCAGAAATTCACCATTTTAAAGTGTGA
AATTCAGCGGTTTTTGGTGTATTCATAGAGTTTTGCAACCATCACTARTATCTGATTTTTGGAACATTTCATCATAAAAAATCCCCATGCCTRTGCCCAT
TATAACTCACTCCCCTTTCCCTCCTGCCATTTCCCCAAGCCTCTGACAATCACTAATGAACTTTCTGTCTCTGTGGATTTGCCCATTCTGGACATTTCAT
ATAAATGGAATAATATATGTGGCATTTTGTATCTGGTTTCTTTTACTTAGCATAGTATTTTCAAGATTCATCTATGTTGTAGCATGAATCAGTAYTTCAT
TCCTTTTGATTGCTGATTGATGTTTCATTGCATGAATATGCTGCATTTTGTTTTTCTGCTCATAAGTTGATGGAAATTTGAGTTGTTTCCACTTTTTGAC
TATTATGAATAATATTGCTATAATCATTTGTCAACATATGTGTTCACTTGTCTTGGGTATACACCTAGGAGTAGAACTGCTGGGTCATATGGTAACTCTA
TACTTAATCTTTTGAGGAACTTCCACATTGTTTTTCAAAGTGRCTGAAGAAATTTTGCCTGACGACAAATAAATATTTGTTGAAGGTACGATTTACCAAC
ATGGCAAGTAACATAAYTGAAATCCTGTCCTACTAGAGWTGGTCTGCAATATACAATGAYTTCACTTATGATTTTTTGACTTTACAATAGCGCAAAAGCA
ATGCATATTCAGTAGAAACCATACCCATGCCACCATTCCATTTTTCAGTTTTAGTGCAGTATTTAATAAGTGATATGGATATTCAGCAATTTATTATAAA
TTAGGCTCTGTGTTAGAAGATTTTGCCCTACTGTAGGCTAACGTAAGTGTTCTGAGCACATTTAAGGAAGGTTAGGCTATGATATTCAGTAYTCGGTAGA
TTAGGTATATTAAATGCATTTTTTACTTAGAATATTTTCAGTTGTGATTGTTTATTGGGTATATTGAGACATAACCCCAYCATAAATTGAGAAGCCTCTG
TATAAAAGAAAAAGAAGATGAGAATAGAGGAGAATGGAGAAGAGTGTAAGACTGAGTGATGAGAGGGTGGGATTGATTCCCATCAGCTGGCCTGTGGTCA
ATGATTACTCAGCTCTTCCTCTCACTTTGCCTGGGGTGCACTCAAGCTTTGCCTTTAATGTGGCCCTAAACAACAACAACAACAACAACAATTCCTGCCT
AGGAATTAACCAATGACCATTTGAGAGATAATAAATTAGTACATAACGACATATAGGTCAGTTAATGGGGTTGCTAAAAAAAAATATAAGACACATGAAG
GGAAAATTTTAAAACAAAATGTCATTTTCATTACCATTACAAATATATCAGAGAGCTATCYGTCTCAGTTTTTACTCCAATCTCTATATATGTATGTATA
GTTTGAACTGTAGCCAATGACAATAAAGTATTTATCCCAACAGTAGGTACTGTTTAGATACTCTCTGCAACCCAAAATTGTATGTCAGCCTAAACCTGCA
ACATTAATTTAAATTTCAAATTCCACAAGGGGATATTGAGCACCAATTATGTTGACCAAACAATATACCAGGTTATGGGGAACAAAAAAATTACTTTAGA
CYTGGTCTCTGCCTTCAGAAAGCTAATAGAAGTGATAAGTTGGAAAGGGAAAAGCAGCAGTTCAATGCTATTAATATAAGTATGATAATAAACAATGGCA
AGATGTACAAGGTGGCTCAGAAAAAGGATGGTTAATTCTGTGGAGTGTTTGGGGTTGGAACTCCAGAAGAGCAGGTCAAGGGAGCAAGAAATTGAGGGTT
CGGATGAATTTGTGATGGGACCAATTAGTGAAGAAAGTGTTCCTGGAAAGGGACTGATAAATTAAAATGATATAGATCTGTGTAGGAACTAGAAATATGC
TAAGGTTGAAAAAAAAGCAGTCATAGTAGGGGTGAGAAATGAGAGAAGACAGGAAATTAAGAAGTTACATTGCTAGATGGCTTCTTCTAACATTCCTTGT
TGCTGTCCATGGCCACATTCTGGGTCTAAGGWTCAGCAAAACATTACTTCTGAGATCCAGAGGATGGCTACAGGAGAAATCTGCTAAAGAGGAGTTGAGA
TGAGGTTTAGTAGAACAGAGAACAAGGAACTGTGAAGATACATTGTTAGGTGACTCTCACACATGGACTTTGAATTCACTCAGAATGATGGCAAGAGTTG
GAGGGGAATAAAGAATCATGAACCGGRTACCAGGAAATTATCTGAAGGTCAGTGCACGATAGCAATAAAATAAGAGTGCAACCAGTTTGTGTAAGTTTCT
GAGAAGAGAAGGATCATTGGTAGTATCAGGAGAAGAGAATGCTGATCYACTCCACCAGGCCTCTCAGCACATGGTGATGTGAAAAAAAGAGCAGCCCCTC
TACTTGAAGGAGCCACCAGGGAGCAGTGTCCTTAGGTCATGTGTCAGCTGTGGTGAGGAGGGGCAGAGATAATTCTGTGAAGGCCCTGAGGTTGTAGAGC
TCTAACTTTGTGTGCAATTAGATGAGAGTTTTCTAGGGCAGAGGTTTGGCAGGAGGTTAGCAGTGAGAAAAGCCATTTGGCAGAAAAAGTACTTGGCAAG
TTGTGATGGTTAACATATATTCACTGGGTCCTATGATGTGCCAGCCCTGTGCCGGATTTTGGCTTGGTGATGCAGTCATGCACAAATTGGTCTCAGCTCT
GCCTTTGCGGAAAGAGAAGGATCTAAATTTGCCTCCCGAGAGTACATGAATGAGAAGCTTAGAAAGAAATGACTGGCTTCAAGCTTCTCAAAGTGTAGTG
TAGTGGATTTCCACTGAGACTAGATTATAAGATTTTTGAAATCCTTATTGAGTTGTAGAAAAGAGTGAGAGACTTAAAAGCTAAGATTTTAATTTGCCTT
TGGGTGGTTTAGTTTTTGAATATAAAACCTRCCTTCACAATTGTTGAAAGGTAAATATTTTATTTTACTTTCCCTCCTCCAGTGCTTTGAAGTACTAAGA
GAGTCAGATGATCTGAATTAGTTTTAGGCAGGCAAGAATGGAGTTTAAATGTCGATTTAAAAAGCCCTTATTGATTATGTTTCTTTGGGCTACACAAATC
AGGTTCACATTGTTGGAGCAAAATACTCAGCTATAAGATCCTTGGGCTATATTTTGTTCATCCTTGTATTTCCAGGATCTGAAACATCATAGGCAATYTA
TAAATATTTGTGGATTAAATAATTTAATCTTACAAAGATTCAGCAAGCAGTTTGGGTAGAGGGTAGGATGTCTAATAGGAGGGCAGAGGTGTCAGGGTGA
GAAGGGCAGTCATTAGGGACAACCTCACCGATATAAATTAGAGTCAATATGAATGGAGGTTTCTTCTTGGCCCTTCTCATGTTCAGTGATAGAATGGAAA
ATAAATGTTCTTACTCTCCTACTTTGGACCTTTCTCTATTAACTGCTGCTCCCTTCACTACCTAAAATAACCAAACTACTCAACTTGGGGAAGGTTCCAG
ATCATGATGTGACTGGGATATGTTAAGGGTCTGATCAGTTGGAATCATCCTCATTTGGCCAAGGTAGTACCAATGGTGTTTGGGAATTTCCAGTAGACTC
AGGGAGGTTGCAGCTCCCATCCATGGAGAATGGAGGATAGAAGATTCACAGTGAATGAAGGCAAATAGGGATGTTGCATTTGTCAAGGTCAAGCAAAGAC
AGAAACAGTTTTATCTTGATGTACTTAATAAGTGCCAATATCTTAATTTCCTAACTCATTTATTCTGTTACTATGTATCTGTGAATGCAAAGACTGCAAA
AATCATTATCAGAAAGACACATATTTTGAGTTATTTTTCCAGTGGCTATGATTCTTTGTAGAAATCAGTGTAGAGAACATATATGCCCATTTTATAGGAT
TTGAAGCATAATTTTTACTGTTTTCATTCATCAGGGAGGTTAATAGTCGTTATATCTTTTACTTTTCCAACATACAGTTTGTCTTATATATGGCTTTTTT
GATGCAAAACCCTTCTTCAGGAAGAAAATTCCCTATTATGACATATGAGAAAACATATTCTGTTTCACCTCTGTAATGTTGTGCTTTATGTTCAATTTCC
AAGGGCAAAGGTGGCAAAAGATGTCTGGATAATTAAAACCAAAAGAGAAATAAATTAATTGGGCCCCAACTTAGATAACTCCTTCAGTCCTTTCCTCTAC
TTAGTAAACATATTATAATCAATGTACTATTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCT
GGAGTGCTCACTGCAAGCTCCGCCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCT
AATTTTTTGTATTTTTAGTAGAGGCGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTG
CTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCCAATGTACTATTTCTTAATCATTTTCCACTGTTTAGCTCCAGGCAGAAATGTAGAAAAGACCAAAA
ATATTTTGGGTGATTTAAATGCTTGAAGTCATGTTCTTCAACTTACTAATGCATAAAAGTCACCTGGGAAACTTGTGAAAATTGTAGATTCCCAAGCTTC
ATGATGTGACCTAGGAAAATGCATTTTAATAAATAGCCCAGTTGAGTCTGACACAGGTGATCTTGGGCACCATTTTGAGAAATAGGGTTAAGAGAATGTG
AATACTTACATGGCCTATGAACCACAAGCAGAAAGCAGGAGAGATCCATTCTCTGGCATGGATTCCACAGTCAATCCATATGGCATTTTTGGCTGYTTGT
TCTTTTCCAGAAACCTGCTCAAAGAAACCCCAAAAGTAGCAAAAACAGTAACAATAAGCTTCAGGATAATAACTTTCATTTATATAGTGCTTATATTTAA
TAGTTTCAGCAAATCTCTGAGATATGCATTGTTCTGCATTTCTTTGAAAATTCTCAAGGGAAATTTAAACACTGGTGATACTAAGTGACATTAGTTAAGG
TAGCAAAGCTGGTGTGAATTGAAACTGAAGTTTGAAGCCAGGACTCTTTGATTTAAAACTGTTTTTATCCTCCACAATTATGCAGTCATGTCAGAGCTGC
ATGTGGAAGTTTCAAAGAAGAGACCAGAGAACTAATGATTTGGGCTGTATCTTCATGCTTCATTTAGAGGTAAATGGGTGTGAGTTGGATGGCAATCTTC
CCCGGGAGGTGTGGAGACACACCCRGAGCAAAAACTCCCTCAAGATTTTCCTGAGTGCATATTTTTTTATGTGGATTATTTCTTTATTTCACACAAAAAG
AAGCAYACATCTAACCTCTCACGAACTTACCAGCAAATCCAGGGACAGAGGCTTTTTTCCCAGTATGGTGGGCTAACACAAGCTGCTAACTCTGGAATAA
GAATCATCAACCTTTTCTCAATAATAGCCTTTGATGTCTTTAGAAGAATTATCAAGAACACCTCCAAAATTAATCATAATGTATTTGCCTTTAAAAGTCA
GCTACAACACAGTTTAGGGTATAGAGCAGTGGTCCCCAACCTTTTTGGCACYAGGGACCAGTTTCATGGAAGACAATTTTTCCATGGATGGGGCAGAGTT
GGGGTGGAATCAGTGGTGGGGATGGTTTGGGGATAAAACTGTTCCACCTCAGATCATCAGGCATTAGATTCTCMTAAGGAGCATGCAACCTAAATCCTTT
GCATGCGCGGTTCACAGTGGGGTTTGTGCTCCTATGAGAATCTAACGCTGCCACTGATCTGACAGGAAGCATTGCTCAGGCAGTAATGCTTGCTCGCTGG
CTATTCATCTCCAGTTGCGTGGCCKCGTTCCTAACAGGCCATGGACTGGTACCTGTCTGCAGCCCAGGGGTTGAGGACCACTGGTATAGAGGGAAGGGAG
AAGACTGTTGTAAAATCAAACAAATATGTAGACTTGCAATTCCAAAATAAGAAAAAGAAAGAGTTAGATATTTAGATTGTCATTTGAACCACTCCAGGAG
GTTTTTTCCTAACTTGGAGCTAGCAATATTTAACAGGATAGTAAGTRAGAAAGCCCAATGGCATTGGCCACTAATCGTCAAATTGTATAGTCAAAGAGAA
CTACCTAGCTTAATCTACTCAATGCAAAGAAAATCTTAAGTTGTCTGGATTMRTTACTTTACTTGACCTTTCTAAGTCCTGGGCCAATTTTCTTGGCACT
GGTTCTGACACCGAAAAGTTGGCAAAATCCCAGAGACTCACATTATCTGCACATCCTTGATCAAGTRAGAGTAGGACCAAACCATCCAGAATGCATGATT
TTTCAACGTGTACAGGTTCCAGATAAGTATGTTCCAAGGACTACACACAACATGGCTGAAAGCAAATGTCATGGGTGGATATGCCATGATACATGGATCC
AATCTGATTGACCAACTCARTRACCAAGGGGACCCAACATTTCATATGTCTGCCTTGAGTCTGCACTGTAAGTTCTTGTAAACGACAGATTAAAATTGAG
AAGTCCTAACCCAAAGTCTTATCTTTGAATGACTGAAGAGGCTCACCTATCACAATTTAGATAATATTGGGATACTGTGCATAAATTATATGTTACTAAA
TTAAATGTACATTTTTAGTGACTACATTATTTTCCAGAGCTTTAAAAAAAATTTTTTTTAAGAGAGAGAGGTAGAAAACAGAACTATAGAGTTGTTTCCT
AGTTCTGAAAACAATTGGCTGTGGCTATGTTCACTGACCTTTACTAAGGTCAATTTATTCAAGAGAGAAGACATCCAATCCAAGTTAGGTTAATCAATTT
CTCTTGCATAATATTTTGCRACTGAAAATAAATAACCAAATGGGTGGAAATTGGAGTAGAAACCATCATAAGAACCCTACTGCAAAGGACTTCAGCCTTG
TCCGGCTGTTTGTCCCTCGCTGGGATTTGTTGTCCTGGTCTTACTTTAGTTTCAAAAGCTGTACCAGGAAGTACTAACCAGAGCAAACAGGTAAGAGAAA
GAAATAAAAGGCATCTAAATTGGAAGGGAAAAATCAAATTATCCTTGGTTTTAGATGACACGATCTTATATTTAGAAAAACCTAGCCTCCACCAAAAAAC
TGTGTTAGAACTGATAAATTCAGTAAATTGCAGGTTATAAAATCAGCACACAAAATCAGTAGCATTTATATACAACAATAGCAGACAACCTAAAAGAAAA
ATCAAGAAAGAAATACCATTTACAATGACCAAAAAAAAAAACCTRTAATAAATCTAACCAAAGAAGTGAAAGACCTACAATTAAGACCATAGAACACTGA
TGAAAGAAACTGAAGAGAACACACAAAAAAATGAAAAGATACCTCATGCTCACGGGCTTAAGAATTAATATTGTTAAAATGTCCRTACTACCGAATGGAA
TCTACAGATTCAATGCAATCCCTGTCAATATCAATATACTCTTCATAGAAAGAGAAAAAAAATTCTAAAATTCATATGGAGCCATAAGAGATCTTGAAAA
TCCAAAGCAATGCTGAACAGAATGAGCAAAGCTGGAGTACTAAAACAGCATGGTACTGGCATAAAAACAGACACATGGACCAATGGATTAGAATAGAGAA
CCCAGAAATAAATCCACAGATCTACAGTTAACTCATTTTCAACAAAGGCACCAAGAACATACATTGGGAAAAGGACAGTCTTGTCAATAAATGGTATTGG
GAAAAATTTTATTCATAAAATTCAAACTAAATGCCTATCTCTCGCCTTATATATAAAATCAACTAAAAACAGATTAGAATTAAATGTAATACCTAAAACT
ATAAAACTACTAGAAGAAAACATTGGGAAAACAATTCAGGACTTTGGTCTCAGCAAAGATTTTTTGGGTAAGATCTCAAAAGCACAGTCAACAGAAGCAA
AAATAGATAAAGGGGATTACATCAAACTGAAAATTTGCTTCTGCACAGCAAAGGAAATAACAGCGTGAAAAGAAAAAAATGGGAGAAAATATGTGCAAGC
TATCCAKCCAACAGGGACTTAATAACCAGAATATATAAGGAAYGCAAACAATTCAAAAGGAAAAAAACAAATAATCCAATTTTAAAAATGAGAAAGGAAT
CTGAACAGACATTTCTCAAAAGAAGACACACAAATGGGCAACAGGTATATGAAAAAATCCTCAACATCACTAATCATCAGGGAAATGTGAATTAAAACCA
CAATGCAATGTCATCTCATTCCAGTTAAAATGGCTTTTATCCAAAAGACAGGCAATTACGAATGCTAGAGAGGATGTGGAGAAAGGGGAACCCTTGTACA
CTGTTGGTAGGAATGTAAATTAGTTCAGCCACTATGAAAAACCATGTGGAGGTTCCTCAAAAAACTAAAAATGGAACTACCATATAAGCCAGCAGTCCTA
TTATTGGGTATGTATCCAAAAGAAAGGAAATCAGTATATCAAAAAGATACCTGCACTCCCAYGTTTATTACAGCACCATTCACAATAGTCAAGATATAGA
ATCAACCTAAGTGTTCTTCAACAGATGAATGGATAAAGAAAATGTGGATGTGGATAAAGAAAATGTGGATATGCATGTGGAAAATGTGGATAACAAATGG
AATATTACTCAGGCATTAAAAGGAATAAAATCCTATCATTTGCAGCAACATGCCCTGAAATAAGCTATGTAGGGAAAGACAAATACTACATGTTCTCACT
GATATGGGGAGTGGAAAACGTTGATCTCATAGAGGTAGAGAGTAGAATGGTGATTACCAGAGGCTGGGAAAGGAGGATAAAGAGAGATTAATTAGTGGGT
ACAAAATAGATAGAAGGAATAAGTTCTAGTGTGTAGTAGCACAGTAGGGTGACGAGAATCAACAATATTTCAAAATAGCTAGAAGATGAACTTAAAATGT
TCCCAACACAAAGAAATGATAAATGTTTGAAGTGATGGATATCCCAAATACCCTGATTTACACATTGTATGCATGTATCAAAACATCACATGTGAGGAGG
GAGGGAGAAAAAAAATCACATGTACCCCAGAAACATGTACAATTATTATGTATCAATTTTTAAAAATTAACATCAAAAAGCTGCACCACTTTTTTTAATT
TTTAATTTTATTTTTTCAAGTCCCTGTTTTATTTTCTGTTAGTGTTTGTCCCCTAACAGAAATAGTGTTTGTCCACTAACGAAAATAAAACAAGGACTTG
AAAAAAATAAACACCACTTCCTTCATTTTATGGAAATGTTAAATGGCTTATCTAATGTCACATAAACAGAAACAGAGTTAATTCTAGAACTGGGATTCAT
CTAGAATTGAAGCCTTAACCCCCTAGAGACTGTATTTGGAGATAGGGCCTTTAAAGAGGTGATTAAGTTAACATGAGGCCCTTAGGGTGKGTACTAATCC
AGACTGACTGGTGTCCTTGTGGGAGGAGATTAGGACATACAGACCAGGACAAGACTATATTATTAATGGGAAAAATAACCAACCCCTAAATAGCCAGGTA
TTAAAGTTGAGGAACACTTGTAATGCAAATATTTTCAGAACTCAAAGGAAACAAACTCAAGTTTTAACAAACACGACTGGAGAATTAATCCCTCCCCTCA
CAGTGAAAGATCAACAACTTTCCCCACAACATACCTTTAAAACATASAGTGGGWACTTCTCAAATGAGGATCCAATGTGGATTTTTGTAAGCATRTCAGG
ATGCCTCTCAGTTATAAATTCTATCCAAGAATAGATCTAGCAAAATGGAAACCAGAGGTTAGTCACGAAGCCAAGTTCAAAGCATTTCCCTGACCAAAGC
AAGCAGACAACTTCTTCAGAGAAAGGAAAACCTCTGTATGTGGAATGCACGAGGACCTAAAGCACTTAGGGCAGGGTGTTTCTTCTGCTGTTTAGGGAAA
TTAATAAAATTAAAGTTTTGATAAGTGTCAAGGTTTTGAGAAAGAGTGAAAAAGTGCTAAGATACTTATAATGAGGTAGGAAAAGTTAATCTATAAACTA
TGGCCCCTGAAAGTTACTTTTAAAGTCATCACATTGAGTCACTGCCCCTGTGTATGAAATTCTTGTTCTCATTCATTCAAAAGTTCACTTTTATATGAGA
CTTTTTTAAAAATGCACTTTTCAAGATGAAGGGAGCCCTTAGCACTGTCTTCATGCAGGATAAATGGAAGCATCATTGTTTCCCACTAAAGACCTGTGCA
AGCACAGTGAGATTGGCACAATGATGAGAGGCAAAGGTGGGGACCATCTGGAGGAAAAACAAACAAACTCAATTATCCCCCCAAGAAGTAGTTCGATTCT
GGACCTCTCTCTTGGGTGGAAGTCCAGTTGTATTTGAGGTTCTGTCAAGATAATAGGGGAAGGAAAAAGCAAAAAAAAAAAAAAAAAAGAAAAGAAAAGA
AAAGAAAAGAAAAAAATTCTGACTTTAGGCTAGCACCCACTTCAAAGCAAACATTGAATTATTGTCTGGTTTGGGATTGCTGGGATTGAACTGGGTTATG
TTTTAATTTGGACCAACTTTCCAGGGTCCATTCTTAAACTCTGATGCCTTCTGAAACAGAAGCAATCAAACCCTGGCTTTATCTCTGGGAACTTTTCTAG
AGGTGATTTCAAATAGCAATCCTAGCTGGTAAAAACTGGAGCACCATTTATCCTTGGGTTCTCTGAGATCACATAACCAGCATGAGTGGTAGGTGTGAGT
GGTTGTCCCCATGCTGAGAATTAAGGGCTCCTGCCCACCTGCCACCAAGTACCGACCCTGTCAGTGTCTGGGGTGTCAGAAATGTAACTGTCAGCAATTT
CCTAATTGAATCTCCATTTCCTGTGTTACTCTTCTAGGCATAAATACATCTGAGAAAGCTACCACAAAAAAATAATTTATGCATTGATACTTCAGTAGAT
TTCCTCTAACAGGAGAGGCTGTATAATATGAAGGCAGTTTAACCGACAGACTTTATTCATTTCTCAAACTAAGCTGGGGTAATAATGTAACATCCTTTGA
AGAACTCTTTTCTCTCACCATTTCTTCTAAGAAGTAATTTTTGGCCATTTGTTTCTTTCTCCCTACACCGGATCATTTAAGATCTCCTGGTGTGAGTCAA
TGACAAAATAACCTCTGCTGCCCACCAGTCCATCTTGTAGGTAGGGCTGATCAAGAGACCACCGATCAAAGGGAAAGAAGCACTTAGAGGAATATTCTGA
GAGCAAAATGCTTATGGTTCCTATGAACCTGTTAGAAAATAATAGGGGCGGGGGTGCAAAGAGAAGCACAAGACATTTTCTATAATGTCATAGTTAAGGA
GTAGATGTTGTACCCCTTTCTCCAATTCATATGTTCAATCCCTAACTCCCAGTAGGTTAGAAAGTGACTGTATTTGGAGATAGGGCCTTTAAAGAGATGA
TCAAGTCAACATGAGGCCCTTAGAGTGGGCACGAATCCAATCTGACTGGTGTCCTTATATGAAGAGGAGATTAAGATATACAGAGAGAGACCAGGGATGC
ATGTGCACAAACAAAAGGTCATATGAGGCTGGGCATGGTGGCTCACGCCTGTAATCCTAGAATTTTGGGAGGCCAAGGCGAGCAGATCACTTGAGCTCAG
GAATTCAAGACCAGCCTGTCCAACATGGTGAAATCCCATCTCTACTAAAAATACAAAAAATTAGCTGAGCGTGGTGGTATGCGCCTCTAGTCCCAGCTAC
TCTGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAAGAGGCGCAGGTTGCAGTGAGCCAAAATCATGCTATCGCACTCCAGCCTGGGTGACAGAGAGAAA
CTCTGTCTCAAAAAAAAAAAAAAAAAAAAGGAAAGAAAAGGCATATGAGGAAGAACGCTGTGAGATGGCAACTACCTACAAGCTGAGGAAAGAGGCCTCA
GTAGAAACCAAACCTACTGACACCTTGATCTTCTAGCCTCTAGAATCATGAGAAAACAAATTTCTGTGATTTCAGCTACACAGTCTGTGGTATTTTATTA
CCACAGCCCTAGAAAACTAATAGAGCCATGTGCTTATTTTTTCCTCCTGTGTCATTCCAACTCTTTCCTGAACATATCGTAAGAAAACATAACTTTTTTG
AACAAAATAATTAAAATATGTTTTAACAAATATTTAAAAATACTTCTGTTTAYGGCATTCCCCTCTCCCCACCAAACTTATCACAGCAGTGACAGTTTCA
CCTTRTATGAAGGTGAAATCCCACCTATGAAGCCTCTCTGCATCAAGTTTGCTCATGCAGTCGTGCTGATGGATGCTGGAGAGAGGTGGTCTAAGTTGGA
TAGATGTAGGAGAGATTAAAAAAGGGGGGGTGCAATTTTAAGGCCCCCTCAATCAACCAGGCACACATTCTAGAAGCATACTGACTCTGGCTTAATTAAC
TGGGAAGGAACAGATGCTTTTAAAGATTATATACATAAAATTGATTCTCATTACCTAAGTCTTAGATGTCTTAAAAATATGGATATGGTCCCTAATAGTT
TCTGGGCACTTAGTCAAAGATGACAAAAATAGTTATATTAGGCAATATAGCTGCATACTCATAAAAAGGCATCAAGGTATTTTTACTACTTGGAGAATAT
CATATAAAAAAGAAAGTCCTCCTGCGMATTTATTCTTTCAACTAACAAATACAGGGAATGGCTTTTAGTGGATTATGTGAAAGCTTGCTGAGGTCTCACC
TGCACATCAACATCTTACTCAAGTTCTCTCTAGAAGGAGTGGAACCTGTAAGTACTGATAGAAAAAAAATCCAATTTCTTACAGATTAAAACAAAGGCAT
TATTATTATTATTAGTTTAAATAGCTTCCTTCTAAGGAATAAAATGCAATTAGTTATAGTGTATTAAATATAAGTGAATATATTCCTTTAATTCAGTGAG
CTAATCTGGTAATTAGTAAAATTAGGGTAATGGTCCAAAGAGACATGATTAATTGGACTGGTAATTTTTTGGTGGCAGTTTTAATTAAAAGCCCCAATTC
TTTAATTTCTGTTGTTCCATAGCATAAAGTGTTATTCCCAGCAGTTAGAGATATTCTTAGCTGTAGACAAACATCCTGCAGTTTACCAAATATGATGCAG
TCTTCTCAGGGAAGAKATCTACCAAAAAATGAATGACCACCATTTAATTAACCTARGTGTGTTTGTGTTTTATTTTTTACCATCTTCCACCAATTATGAT
TCTTGAATATTCCCCTGATTGAAATGGCAATACTGGTTAAATGAAAATAGTAGCTTTGAAGAGCTGTGTGATGGCTTACTTCATTTAGTGAGTGATACTG
TTCATAGTACGATGCGGAGGCTCGGGGGCTGACTGTGTCGTTGGAAATCTGCTGTTGAATAAGATCTTCCACRTCTGCCAGCAAGACACTAGGTGATGAA
ACAGAGAGTGAGCTAGTTTCCAAGCAGAGGGTGGATCTTCCCACATGGCCCATTGCAGGCACAGCAGGTGAGCATGAAGAAAAAAAATCACTAAGAAACT
TCATAAGCATTTCATCAAGGTAAAAGTAAGACATCTCGCATTGTGGTAAACTGGTTGACAAACCCTTTCAGTAGAGCCTACATGGGCACTAGAGAAAAAG
TAGCTCCTATTAGGTATAYTTTCAGGACCTCCATAAAAACCACCGTTTCCCACCATTACCAACATTACTCAATGGTGATTCTTCAGTGTCTTTTATATGA
ATATATGGATTAATGTACCTTTGTTCAATCCAGRCTAACACTGTATTATGCTGTTTTCAGTTAAAGAGGAAGAAGAAGCAGAAAAGCCTTTTCTTTCTTT
TTTTTTTTTTCTTATTTTTTCCCCCATTGACCTGCATCAGATGTTCTGCAGAGCCAAAGAAATAGAACAGGAAAAGGGAAGTACAGGAAAGGCATCTCAT
TCAAGTTCTCTTCAGAGCACCACATTTGTTAACCAGGCAAATATTTTAGCTGAATTCAGGCATTCTATCGCCTGAGATGGACAAGTTGAAAGTTAGCTAT
CATACTAATAAAGGGTTCTTTACTTTTATTTAGGCCAATAAATAAAAGCCGCAGTGTTGACATCAGAAAGGTCTAAGTTCGACTCCTAACTCTGCCATGT
TCTTTCTGATTTACCCTGAAAAATTCCTTTATAAGTAAGGATATTTTTTCATCTATATAATGGGGTTGCATCTACTTCACGGGGTTAAATAAAGATTAAT
AGACACAATGTCAATTAATAGAAAGGTTCAGCACAGTTCCTGGAAAACAGTACACACCTATAATATACTCTATAATATATTACTAATAATTAACATAGCA
TATTATCCAGGGGGCACCCATTGATACACAGAAGAGAGCATGGTCTCAAGGGGCCAGGCCACCAGGAAGGTACTGGCAGTTGGGCAGTGGATATGGAGGG
GAGATATTAGGAGACTCCATAAGAAGAAGGCTAGACTGTGAGCAGAAATTGTACCTGATACACTTTTTAAGAAAAGGAAATCATTTCTAATCCACAGGGT
AGGTGCTGTTTTTACCCTTAATATACAAAACTTGGGAGCAGAGAGGTGAATAATTCCCCCAGGGTCATATAGGTGGTAAGGGGCAGTGCCAGACTAACCC
GAGGTCTCTGCAGAGTCCAACCACCTGTTACACTTTTTAAAGCCAGACATTCAGAAATGGTCACTGTCTTTGTGAAGAAGAATTAGCAGAAGCTAAATCC
CCTCCCGAAGCTGCTTTTTCAGGAGATATCAAAAAGCCTACCAAGGCAAATGACAGTTTTGCTCCCTGAGTCTGGGTACAGAGTCAGAGAAAAAGGAACT
ATGAGAGCCTTTACCAATCACTGAGTCTAACCTGCATTTTAGATAAGGGACGGAGGTCATGARGGGTTGAACCATTTATCCAAGATCACAGAGCTGGACC
TTAGGCTTTATCACCAGTCCATTTGGTCCAGTCAGAGACTTCTATGCTGCCATGGTTAATACATTTTATTTTTCCAGGAAGCAATTATACCATACCCTAG
TCAAGTGCATAGTAAGTGTTTATAATAACTACTCAATACGTATTGAACGGTGCCTACCTGCATGGAATTCCGCTCACATTTAAATGGGCTTTCACATTGT
CGACATCAGATGCATTTACAAAAAAATGGACTTGTTTTTTCTTCACAATAAGGTCAGCTGTTACCGGCTGCCAGAGAACAATCTACAGTTTAAGGGGCAA
AATTGATAAAATTAAAAAAGAGTTGTTCACATCATTCTCATCTGTAGCTAGAGCCATGACAGTTTTATCTATAAGGAGTATGAAAAGGACACTCCCTGGT
GCTGGTCCCCATCCACACACATGGTAATATAAACATTTATTTTGCAGTGAGTTTTTTAAAATTCCTTTCTATAACTCTAGTTGCTAAAAAAAAATAAAAT
AAAAGGGCCTGGAATRTACAAGATAATCCATAAATATTTGATGAGACAATGATGAATGAATGACTATATTCATGGCTTAACTGTAAAATTGCATGTGTAC
ATCAGATATTTGAAAGGAAACAAAATTTTTTCTAGAAAGAAAGTTGATTAAACATTGATTTTATTTAATAAAAATTTCATGTTCTTGTAATTATCATCAT
GTCATTKTTCCTTTTTTTAAAAAGGCTTCCAATAAGATTTACATTTTTTCTCTCTTAATGTGCTTTTTATTTATTTATTTATTTATTTTTTATTTTTTAT
TTTTTTTTTGAGACGGAGTCTGGCTGTCTCCCAGGCTGGAGTGCAGTGGCGCGATCTTGGCTCACTGCAAGCTCTGCCTCCCGAGTTCTCGCCATTCTCC
TGCCTCAGCCTCCCGGGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCA
GGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCACCTCGGCCCTCCAAAGTGCTGGGATTACAGGCACGAGCCACTACACGTACTTTTTCAAAGCACT
TTCACACTCATTTCCTTTGATATTTATAACGCTTTGATATAGACTAGGCAGGTGTTATTATTTGCATTGTTCAGGTGAAGAAATTAAGGTTCATACCTGA
CATCTAAAATCATACACCTAGAAATGACAGAACAAGAACTAGAATTCTAAATCTCAGATGCTTCCTCTTGTAGTATTTCCTCTTTACCATGATGTGGTGG
TCGTGAATATGCACCATTTAGCTCTTCGGTTGAGAGAAATACAGTTGGCTGGTGTTTTCAGTGGCTGCCCTGGTGACCCACTAGAAGCTGAGGCCATGTG
GTCTCAGGGCTGCATCCAGCCAGTAACCGAGTCCTGTGGAAGTGTTAATGCAGGCCCATTCTTGCCAGACTGAGACTGACCTAGCCCAGCCTTCTTTGGA
CCTGCCCTATAGTCTGAGATTCTCCAAACAAAATTCCCCTTTCTGCAGAGGTGTCAGAGCTATGACATGGTCTGATGATGCTCTCTGCCTTCTCCAGCTC
CCGCCTCTATCCTCCAACAGCATTCCCCTCATCGCTTGCTCCTCCAGTCTAGTCTTRACCTCTGCTTCTTGGAAAACACTAACAAACAAGGAGCCATCAA
TTTTGTACCATGATATTGTTACAGGATCCCTGGGGTCGCTTCACCAGCAGAAACCTCTGTGGTCAGTGGCGCCTTTGCCTAAGCTTTGCTCAGGCCCGCT
GAGCCCACTCGGCCTGGCAGGCTGCACTCATCTCGTGCTACTGGCTTGGGTCTCATTCGTGCCAAGGGCGAGCTGAGCGGTGAGGGGTGTGTGAGTGAGC
AGGTGTGGGGTCCAGCTACTACACACAGCGAGGCATGCTGGCTGCGGCAGGGTGGGCATCTTTCGGCTCCCTGCAAGGCTGTGGCTGGACCAGGTGTCCC
TCAAGCAGCTTCAATGGCTGGCACCGGGGAAGGTGGTGGCACCCAGAAGTTTGGAGACGTCAGGAACCACAGAGCCCTAAAGAGGGTGTCATAGTCCTGC
CTCGGGGAGTTCTTAGGTCTGAGCTCCCCAAAAGGCTGCAGCTCTTCTCTCCTTCTTGTCACCCACAACGTGGCAAGCAAGGGGCGTGTTTCAGCYCTGT
TTGTGTTAGAGCTCTTTCACCTCCACCATTTGGCAGGTTCAGCGCCCGGGAACAATGACGTACGTGGACAAGCGGAGGGTGAGCAAGGTGAAGAGGAGCT
TTACTGAGTAATAGAACAGCTCAGAGGAGACTCGCGGTGGGTAGCTCCTCTCTGCAGCCAGGGTGTCCTGATGAGTGTTMGTTCTCAGCAGAGAGGAGAC
CCTGGAGTGGGTGGCTCCTCTCTACAGCTGGTCCTCCCCATGTCTCTCCAGAAGAGTCTGGCTGAATCCGGGGGATTTCTATGGGCTTCAGATGGGARGA
AGTGAGTGCTGATTGGTTCATGGGTGGCCATAGGCGGGTGCGGAAAAATCACCGTCAGTTCCCACTGCGGTCCACGGGACTGGCAGCCTTCCTGGGCTTG
AAGGTGGGGCTTCACCAGGGACCCGCCCTTTTCTGCCTAGGATCCTGTCTGCCTCCTACGGCTATTTATGGCACCCAGGATTTTCCAGCTGAGGGGGCCT
GCAGGCCAGTGCCGAGAAGCCCTCAGCCACCCCCTTGGCTTCCCTCCTGTGCTCGTCAGTACCCAAAGTCCAGAGGGGGCTGAGGCAGCAGGGGGCTAGC
ATGTCAGTACCGCTCTGATCATGCACACAGCCAGCCAGGTTGTGACAACACCTAGGCTCAGCCTCAATTTTGCTCCAAGATTGGAGTGAGCACCAGGAAC
TCGGAGAGACCAGACAGTGGGAGCAGGCACTTSCGAGCCTGTAGGGGAATGAGGGTCCTTCTCAGAACACTGAGAGTGCAGAAATGCCTGGGTCTGCAAC
CCCAGCTGGGCAGCTGCAGCTGCGCCCAGGAGGGCAGGGCTCCTGCCTGCYCCTGGCCCCCAAGAGCACAGGGATGTCCAGGTCTGTAGCTGCAGCGGGC
AGCTGCAGCTGCGCCTGGGGAGCATGAGGCTGCCGCCCTGCCATCACAGAAGGGGGCGGGACTTTTACCTCCTCCTGGCTTCTGCTGGCTCCGTGGAGCA
CACAGCCCCAGCCGTGCCTCCCGCATGGCAGCAGCCGCTCTAGATGGGCCGCCACTGCCATTAATATTCTGTAATTCTTGTCAATTTTCTACATCTTAGA
CATTATGTCGAGATGGGTGCCTGGGTGAGAATTTTAATAAATGTACTCTGTCTTTCTGGTGCATCCTTGGTTAAGAACCATTGTTTCATGAGTAAGGTTT
TATTTATAAATATTTTAATTTCTGTTACTGTAGCCTCTTTGTAAGTGCACACTTTATATCCCAAGGTACTATTATGAAATTGGCTGGAAAGCCAATAGCA
CAAGTGAAGAAGTGTTGATTTGGGGAACCAACAAAATCATGTGATTATGAGAAGGGAGAGAAGACTATGAGAAGAAGAGTTCATACCAGATACATGTAAG
CCAGACAACATACAGGAGGAAACTCAACACCCAGTGCTTATACAAAGTGAAACCAATATAAACATAAATTAGGGAGAAATTACCTCATATGTTGTAGTAA
GATTCTGTAGAACTTGAACTTGCCTAGAGGTTCTAGGAAGAGCAGCTAGAACTTGGCCACTGGGGAAAAAAATAAAAGAGGATTTTGATAYTAAATAAAG
AGTAAAGATGGAATATATTAYACTGTGAGGAGCTTTTAGGTAATTGCAAAAGGGAAACAAAATTTAAAATGTTATTAGGACAGAGRATCTTACTACAGAT
TCAGTGTAATAAGAGAACATATACTCTCAGTCTTTATGCTCCTAAGCAATTGCAAAATCAACAGCTCTCTTGACTGGGGGTCAGTTTACAGAGTATTTAC
TTCTTTCCTTTTTCTTGTGCGTGCATGTGTGTTTTAATTTTAAAAATTAAATATTTGATGCATAAGGGAATATTTATGCTGATCCTAGTTAATTATACAA
TAAAATGAATGCCTGTGAACCCATCACCCCACTTAAAAAGTCCAGCTTCCTTGACATCCTGAAGATCCTTGTGTGCTCCTCTCTGTCCTACCCCCTTGCC
ACATCACCAGAGGTATCCTCTACCTTAAATTTTGACTTTTGCTCATTCCCTTGTTTTTCTTTATAGCATGGATTTTTAAACACATGTATGTGTGAATTCT
GAAACAATACCCTTAGATTTGCCTGATTCAACTTTATAAAAATGGTATACTATATGTATTCTTCTGAATCTTGTTTTTCTTTTGTTCRGTATTGTATTCT
CAAGATTATCATCTGTGTTGAAGTAGCTAGCCACAGTTCACACATGAAAGCATTTTCTTACAAGTGGAATTGCCATTTCATGGGATATGCACAGTTTTAA
TTTCATAGGATAGTGTCATATCAGTCCTCAAGTTTTTTGTATCAATTTATATTGTCAGTAGCAGTGGAAAAGATTTCCTGTTGTTCTTCCTCCTTGCCAA
TACCTGATGCTCTCTGACTTTTCAACTTTTGCAATCAAATTTTTATGAAATGAAATTTTCTTGTGATTTTGATTTTCATTTTCTGACTTATTAATGAAGT
ACAGTTGTTTATATTTGATTATYGGCCATTCATATTTTTGCTTATATGTTATGTTTATTCAGATCAACTGCCCATTTTTTTCTAATTTACTTGTATTTTT
GTAGTAGTTAATTTGTATAATTTCTTTATATATTCTAAATACTAATTTCTTGTCAGTTATATGTATTGCAAATATCTTCTAGCAGTTTGTAATTTGTCTT
TTCTCTTTCTTGATGATGTGCTTTTTTTTTTTTAATCATTTCCTTCCAGGTTTGTGTGGTTTAAGATGTCTTTCTAGATATCTGGGATATAAAGATATTC
TCATATACTTCTTCTGTCCTTCTTATTTAAATTTTAAATTCAATTGAAAATTATTTGGTTGGGTGCAGTGTAAAGAAGAAATAGACTTCTTTTTTTTTCT
TCTTAGCATCGTTTATTATTATGATTTTTTACATCATCTATATTTTTCCCAGGGATCCACTATGTCAATTTTGTCATATATCAAGTTTCCATACTGTTTG
GCAGAGAAAATGTTGGTTCATCAACACCACTGCCTCTTCCTGCATAGACAGAAAAACTTCATTACCCAGCCTTCCGTGTGGTTGTGTTGAGAGCCAGTGC
CTGAGCTTTGCCAATGGGAATGCGTGGGAGTGTTATAGGTGCCTAAGAGTAGGTGTGTCTTCATGTGCACGTGCCCCCTCTCATCCTGCGGCCAGAAGCA
AAGAGCCTCAAATGTGGAGTTGCATAATGGAAGCAGCCAAGATCTCCAAGTTGAAGGAGAGCACCAGGGAGAGTTCTATGACCTTCATCAATTAGTATTA
TGAGTGAGAAATTGCTCTGATCTGAATGTTTGTGTCCCCCCAAAATTCCTATGTTGAAATCCTAACCTCCAAGGTATTAGGAGATGAGGGTTTTGGGAGG
TGATTAGGTCATAAGGGGAGAGGCTTCATGAATGGGATTAGTGACCTTAAAAAAGAGATCCCCTCCCCCTTCCACCATGTGAATATATAGCGGGAAGGTT
CTGTCTATGCGGAAGATAGTCCCTCCCCAAACACAAGAATTAGCTGGTGCTTTGTCATGAACTTCCCAGCCTCCAGAACCGTGAGAATAAATTTCTGTTG
TTTATAAGCTACACCACTTAAGGTATTTTTTGTTATAACTGCCCAAACGTACTAAGACAGAATTAACCCTATATTGTATTAAGTAAAGCTGTTTCAGGTT
TTATTAGTGATTATAGCATAATCAAGGATTACCCTTGCTAATATAATGTGCTCTATTTCTTAGTTCTCTATTATGTTCTATTGATATATTTGTCTACCCT
TGAGCCAATACTACTCATCTTAGTGATGGTAGCTTCATATTACATCCTAATATCTTAGAGAACAAACTCTTGCTTCCCCTCTGCCCTGCCCAATTCTTTT
TTTTTTACAAGCCTCTTGTCTTGATCCTTTGCTTTTTCACATAATTTTTAAAAATCAGCTTGTTATGTTTCATGAAAAAAATGAAATTTTCATTAGAATT
ATATTGGATCAATAGATTAATAATTTGGAAAGAACAGATATACTCATGATTCTGAGTGTCATTATTAATAAATACAGTGAATTTGTCTATTTGTCTATTC
TTTTTTTTTTTTTTTTTGGAGATGGAGTCTCACTCTGTCACCCAGGCAGGAGTGCAATGGAGCGATCTTGGCTCAGGGCAACCTCCGCCTCCCAGGTTCA
AGCAATTCTCCTGACTCGGCCTCCTGAGTAGCTGGGATTACAGGTGCACACCACCATGGCTGGCTAATTTTTGTATTTTTTAGTAGAGACGTGGTTTCAC
CATGTTAGTCAGGCTGGTCTCGAACTCCTGACCCCGTGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACACAGCCC
ATTTATCTATTCTTTAATGCCTTTCCAAAAGTTTTACAATTTTATCCATAAAGATGTTGCACTTTTTTTTTTTTCTTTTTGAGACGGAGTCTCGCTCTTT
TGCCCAGACTGGAGTGCAGTGGCGCCATCTCGGCTCACTGCAACCTCCACGTCCCTGGTTCAAGCGATTTTCCTGCCTCAAGCCTCCTGAGTAGCTGGGA
TTACAGGTGCACACCAACACACCTGGCTAATTTTTTGTATTTTTAGTAGAGACTGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCGT
GATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCTGCACATTTTTAAATTATGTTTTCTTCTAACAAATTTGC
CTTTTCGTTAGTAAATGGTAACTTTTAACATGCCACCTCTAAGCTCTTTTTTGCTAAGATATAGAAATAAAAATGATTTTTGGTGTTGATTTTCTATTTA
GCTCTCTTGGTAGTTTTGATAATTTTGGTATAGATATTTGGGGGGATATTTCTCTTTGCAAGTAATCATTACATCTGCACACACTATTAGGTTGGTGCAA
AAGTAATTGCGGTTTTTGCCGTTACTTTTAATGTACTTAATGTACTTTTAATACGTTCTGCTTCTTTAATTTCAATGCTTATAGAGCCCCTTTTCCCCTT
CCTTTTTGTCTTGCTGTGTTGCCTGGGACTTCAGTACAACATTGAATAGAAGTGGAGATAAAATGCATGATTCCTGATTTTTAAGAAAAACCTTAAAATA
TTTTACCATTAGAATGCTTGTTGTAGATTTTTGGTAGATGTCTTTTATCAGTTTTAAAAAACTCCTTGCTCTTTGTTAAGAGTTTTTATGATGAATAAGT
GTGGATTTTAAATGCTTTCTATAAGATGAGCATATGGGTTTTCTGGCTTAATATCTTAATGTGGTGAATTATATCAATAGATTGTTTAAAAAGCAGACAC
TTGGTTGGTTTTCTCACCTTTGCTTTGTTGTATTTCTATTTTGCAACTGTTGCTAAGGTTGTGAGAATTCTTGGTGATTCTTACACAGCCAAGGCAATAG
ATTAATGTGACTCAACATGAATTTACTTTATTTTCACATACCACTTAGAAAAGAAAGAATTTCTTAGCAAATGTCCTCATTTCTGCAGCTCTCCATCCAG
TTTTATAGGTAAGTGATAAGGAGAGAAAGGAAGCAGTGAGGTGAGGGATTGTGGACTCTGTTAACGGCAATGGCATTCTCAGGTTTCCAGTATACCACTG
AGTAACCTCACAAGAACTATTTTATTTAAATTAAAATTAAGCATGTTGGTGGCATTTGCCAGCTCTGAGCCCCCCCTTTTTTTTAACTGAACGAGATTTT
TCTTTTATTTTCAAACAAATATTGCCCTTGAAATATGACGATAGATATATTTTAAATTAGAAAAAATGCTTCCTCTTGCTTTATTTAAAACTAATCTTAG
ACTTTGCTTCCAGTTATACCCTCCTTTATGAAATAACTAAAAACCTGGACAAAATGTATGGAACAACAGCACTCAAGACATTAGACAACAGCAACATTAT
GACTAAATGCAACATGGTGTTCTGGATTAGATCTCGGAACAGAAAAAGAGCTTTAGTGGGAAAACTGGTGAAATCCAAAAAAGTCTGGAGTTTAGTTAAT
AGTAATATAACAATGTTGATTTCTCAGTTTTTACTAATACATCATGATAATATAAAATGTTAACATTAGGGTATATTGGGTGAGGGGTATACAGTTGTAT
TACAATTGGCAACTTTTCTGTAAATCTAAAAATATTCCAAATAAATCATCTTATTTAAGAAAACCATGTACCAAGAGCTCTCAAAGCACAAAAGAGGTTA
TGATAACTTCTGTTTGTCATTATTAGCAAAGGCTTCATAGAAGGGATGTCTGGGTGTGTAAGAATGTCTAAGAGTGGGTAAAGGCACAATAGCAAGAGAT
AAAGGGCATTTTTGGAAAAATGGCTCTTGTTCATTGTTGCCAAGTATAGGATACGGGTGTTTAAAGCAAGAGAAGAATGGGAGCTAAACAGAAATGAGTG
TGGGAAGTTATGTTCATCCTTCCCTAGAGAAGGTCTTGAATGCATGCTGAGAAATTTGGACTTTATCTTGTAGGCAATTAGAAGTTAGAAAGGTAACATT
TGAGCTGTGATTTATAGGGATAATTTTATTTGTTTTCCTTTGTTTGTTTTTGTTTGTTTGTTTGTTTTTGAGATGGAGTCTCGCTCTGTCACCCAGGCTG
GAGTGCAATGGCGTGATCTTGGCTCACTGCAACCTCCACCTTCTGGGTTCAAGCGATTCTCCTGCCTTAGCCTCCTGAGTAGCTGGGATTACAGGCGTGC
ACCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGACAATCCACCCGC
CTCAGCCTCCCAAAATGCTGGGATTACAGGCGTGAGCCACCGCGCCCACCAAGGATAACTTTAACAAGGGTGGAGGGTGGCTTTATTTTGGAAATCCTGA
GTAAAATATTCTGAATTCTGGAAATAAGTCTATGGAGAGACTTGCTTATTAGAAGAGGGGAAAAGTAGCTAGACTGAGAAATTTTATGTCAATCTCTGGT
ACAAGTTTAGCATAAACTATTAAACCACTGATTAAAGATACATGTTCAAGGATGTGTATTACGGCATTATTCATAGTAACAAAACCTAAAAACCATGTGA
ATGCTCAGCAGTAACAGAATTGTCGAATGTTGGTAGTGTCTCCACATTCTAGAATGCTTTTCAGTCATTATAAAAAATGAGTTTGATTTATAACAGTTAA
CTTGGGGGCTTTAAATGGCATATTAAGGGAGAAAAGCAAGATATGGAGAACTTTATGAAATATGATCCTATTTTTGGAAAAAAGTTAGAAAGATAAAGAA
AAATTATATGTGTTAAAATCAGGAGAAAATTATACATAAATAAACAACACATTGTTAGCTTTGATTTGGAGGGTGGGAAATGGCAATTGAAGCCTTGGGT
AAGTGGCAGGGGAAGAACAAATGAGATTCTTTTTAAAAGAAAGGTTTCTATAGTACCAATAGGAGATACAACATTGAACTAGTATACAATTATACCCAGG
GAGGTATAACTATGTGGAGAAATGTATGAAAGGATGATCACAAACATGTTCATATTTTCACCAGGATGGTGAAATTTTAGTATTTTCTCCCTAATTTTAT
GCTTTTCTGTATTRTTTACTTTTTAAACCCAAAAGAACTCCTATTCTTGTATTTATTCAAGAAAATTAAATTTAAAGAAAAATCTCCTTTGACTGTGAAA
AAGCCACTAACAAGCTTCTCAGTGATGCTGGTAACCCTCTCATCTCACCAGCACATTCCTTATTATTTTCATAAACAGAATGTTCTCTGGGCCCTTGGAG
TAGCRTAGTCACCCAGTGGGTTTTCTAGCCTTACATAGCATTTTTATTCTAGTGTGCTCTATCTCTTTTTTCACCATCTGCCACATTCGCTCTGACATTT
CTAGCTCAGATGGTGCAGGCCATGCTTTCTCCAAGCTTCCAAAAACTACCCTAACAGCATGTTTGTACCACCTCTCAAGGAACTAACTAGAATGTTAAAT
TCTGTAGCATGGGTGAGTGCACCTCCTTTGGGGTATAGTCCCTTTCCTTTGTTAACATGCCCAGCACTTCCACAGCCAGCTTATGTTGTGACTACCCTAG
GTTATTGGCTTGAAGGCCAGGAGGGGAGGTGGGAATAGATCCTGAGGGCTAACTACAGGACATGCCATTACAGAACTGAGCTCTCTGATACCAATGGAGA
TGTTAAGATCCCTGTATAGAGAAGCCAGGCGGGAGGGCTTAACCACCAGTAACAAGTTGGGCACAGTTATTACAATGAGCAGTAAGGTCGGAGTGGCAGC
CAGAGGACCATGACCCTTAGAAAATTGTGGAGTCGGTTAGGAGAACACAGAGTTCTTAGGGGCAAGATAGAGAAGCAGCCAACAAAAGGATTGCTCAATC
TTTACAATAAAAATAAATCAAAGCTGGATAATGAGAGAGGCTGAGGACAGCTATCCTAATCAAAAGTCATAATCCATTGCCCTTTTCCAGATCTGAGCTG
TTCTTAGACCCAGAATTTCTTGCCTGAAGGAGGARTCAGGTCCCCACAAGGAAAGACCCTGCAACTGTATAAAAAAAGAATCTAAAAAGATCATGACTCC
TTCAGTCCTTTCCCAAAGAGACCTATGGAAATTTCCTCAGGTAAGTCTGCACCCTGGGGAAAGGGTAATACTCAAATATTTTCAGGTGTGTTGGATGCAG
GGTCACTATCCAAGTTGATTTTGAAACTTGGGTATCTGGAGCCCTAGCCTAAGACTAGCTCATAGCGGGTGCACCATGTTAATGGATTCCCCCATCATTA
TTTCCCTGGTCACCAAATGTATAATTGACATGAACATACTAGGTAGTTGGCAGAACCTCCACATTGTTTCCTTGACTGTAAGACCAGAGCTATCATAGTG
GGAAAAGCCAAAAGGAAACCTCTGAAATTGCCCAACCTCCCAGCCAAGATATCAAAATTAAAAAAAAAAAATTCATCCTTGAGGGGAAATGACAAATATC
AGTACCACCCTTAAAGACCTAAAAGATGCAGGGATGATAGATCCCATCAAAWCCACATTTAATTTGCCATCTGGATCCCACAAAAACCAGATGGATCCTG
GAAAACGACAGCAAACAATCAAACTCAACCAAGCAACAATCTCAATTGCAGCCATAGTGCTTGATGTGGCATCTTTGCCGGGGTAGAGTCTCAGGCATAT
GGTATTCAGCTATTGCGCTGGATATGTCAGTCGGAAAAAGCATCAGAACAGTTAACATCCACTTGGGACAGACACCAGTGCATATTTACAGTCTTGCCTC
AGCTTTAATTAACTTTCTCACTCTCCAGCTGCAAGATGTGTACTTGATATAAGCCCCCAGCTACTGTGCTCTGAAATCTGTCCCTGTGTTAGTGCTAATA
CCACATTTCCCACTGGCTTCTTGCAGCTAATAACTGAGTATGGTGGGGATACTAAGGGAGGCTCTTTCTACAAAACTGGAAACTCTTCTGATGTGTGACT
CTGSCTATAGGACTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTTGTCACCCAGGCTGGAGTGCAATGGAGCAATCTTGGCTCACTACAA
TTCTGCCTCGTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCTCGAGTAACTGGGATTACAGGCACGCACCACCACACCTGGCTAATTTTTGTATTTTTAG
TAAAAACGGGGATTCACCATATTGGTAAGGCTGGTCTCGAACTCCTGACCTCAGGTAATCCACACACCTCGGCCTCTCAAAGTGCTGGGATTACAGGTGT
GAGCCACCGTGCCTGGCCAGGACTCTTGGTTGGTTTTGCCAAAACTTTCTTAGAACTGCACTAYGACCTGAAATGTTCCCTACCTGCTTCCTTCCTTTCC
TCTCTCCTCCACAGGGGTTAAGCTTGCATTGCAGTCTCATGGCTCTCCCAGCCTCCTCCAGCCCTCTCCCCATTTCTTGCACCCAAGCATTTTCCTCAAC
ACACCTCTTGCACAGCTAATCCCATCTTGGTGTCTGCTTCTCAGAGGATCATAACTGACACAAGTAGGAAGAGGAAGTCTGATACATGGACAGTCAAGTT
GATAGTGCATGGGTACAAGTAAAAAATGAAGTGGGCTGGGCACGGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTG
AGGTCAGGAGTTYGAGACGAGCCTGGCCAATATGGTGAAATCCCATCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGGCACCTGTAATGC
CAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGTAGTGAGCTAATATCGCACCACTGCACTCTAGCCTGGGCGACAG
AGGGAGACTCCATCTCAAAAAAGAAAAAAAAAAGTGAAGTGGTGCTGCATTATGGACTCACTCGGGTGACCGAAAGAGAGCAGAGAGGGAAATSGTCCCA
AATAGGCAGAGCTTCAGTGTTGCATCTCATCATACACCTTGGGTGGAAAAGGTGTTTCCAGTGTTAGAATATGCAGGAATTCATGGAGAGTGGCAAGTGA
CATGACTGGAAAACCCCTCAAGAACCTGGAAGAAGAAATCTTGACAGATTGGAGACAAAGAGATTGGAGAAAGGGGGATGTGAATGGAACTATGAGAGTG
GGCAGAAAGTGTGAAGATCTTTGTATCATTTATTAATGCCTAACCAGGAGCACCCACAACAGAATAGACATTAAACAGCTGCATAAACAAATGACTCAGC
CAGTTGATGTCAGTCAGCCTGTGTCAACAGCCACCCCAATGCTGGCACAAAAGGCACTAGAACAGAATAGCCTGATGGCAGAGATGAAGTGTGCATGGCT
CCAGCAGCACGGACTCCTCTCATTAAGGCTGATCTAGCTACTGTTGCTGCCCCATGTCTAACTTGCCAGCAACGGAGACCAAAGTTGAGCCCCGGAATCA
GCACCATTCCTCATAGAGACCAGCTAGTCACTGGGTGGTAAGTTGACTACATCTGTCCTCTTCCACTCTGGGTATGGGTTTATCTCGCCTGCCTGTAGGG
CCTCAGGCAAGCATCACCATACAAGGGCTTACGGAGTGTTTGACCACTGATAAAACATCTCACATAACATCCTATCAGATCATGGGCTCCACTTTACAAC
AAGGGAATTGCAGAAATGGGTCCATTACCATGGAATCCACTTAGCCTCTCACATACCAGAATACCTAGTTGCTGCTATCCTGTTACTGAAATAAAAATGG
TTTGTTGAAGGATCAATTGAGGTGCTAACTTGGAAGGCAACATCCTCCAGTGCACACTTTAAATCAATACTCATGTGGTGCTGTGTCCCTACTAGGTAGT
ATACATGGTTCCAGGAACCAAGTTGGAGTGTTTCCATATACCGTCACTCCAAGTAACCCACTCGGAGAATTAGTACTTTAAATCTACAAATATGGACTCT
GTACTTATAAAAATTCCGGTTTCCAGAGAGCATAGGAAGAGTTCCTTTAAACTGAAAGCTGTTGTTACTGTCCAGTCATTTCAGTTTCCTCATGCTGATT
GATTATCAGGAAGGCGAGGAGTTACCATGGGTTTTCTAGCCATGCAGGAAGGGTAATTGACTCCAATAATCAGAAGGACATTGAGGGCTGCACTTACATA
CTGAATGTGGCAGGGAAGAATATGTTTGGAATCCAGCTTAGGCGTTCTGTAATATTCCCTTGTCCAAATTTGATGTATACAGACAATTGCAGCAGCCATG
GCCCAAGAGGGCCCAGTGATTATGACTCAGATCCTTGAGGATTGAGGGTCTGGGTTGTCTCACCAGGTAAACCACCTAGATTAGAAGAGGTGCTAGCAAA
GGGCACCTCTTTGGGGAAAACAGAACGGGTAGGGGAGAAGAGGAATGACAAGTATTGGTTATGGCCTCGAGACTAGCTGTAGCTGTGAAGGTTGTAGTTT
ATTTCACTAACGTTCCTCTTGTATATTTCCTTTAGGAAGAGGGACCAAGCAAAACCCCAGAAGAGTTGATCTCAAAGCTTATTTTATGAAGAAAATTGAC
CTGAGTGACACAAAGGGTTGGACTGTAGTAGATGTCACGTTTTGCTGCCTAGATCTCCATCCAGGGATGAACTCTTATTTCCTCAGCTTCTTTGTCTCCT
CAGCTTCTGGGAGGGTTGGCAGCTGATATTCTCACCTGAGTCCCTTTCTAGGACTTGCCCTTGCCTGAAGAGAGCTGTGCTGCCCAACATGATGCCTCCT
CCAAGGTACAATCCACACCCAGTGACTAATAAACAGGGGTTACAAAGGCATGCCTGCTTGCCCCAGTTTGGGWCAAMTTTACCAGGCCAACCCAGCCTCA
AGGCTCTCCACAGGAACAGGTGASGCCATAGTTGTGATTACATCACAGGTCAGTTTCTCCTCTGCCCAAGCCTTCTTCCTTCATTCCTCCACAGATGCTG
ATCCTGAGATTCCTTTCCAGTAAACTTCCTCCATGCAATCTTCATCTCAGGAGTCTGTTTCCTGGGGAAACTAACCTGCAACTGATACAAATGCCTATTC
TGTGAGATAAAACACTAAAAGTACAATGCGAGTGGTATAAATATTCTGCTACAGGAATACAAAGTCAGGTATCATTTTTGACTTAGGTAGTCAGAGAATG
GAGATATTCTGAGTTGGACTTCTGAGATACTAGGATTCAATAGGTGAAGGGAAGATGAGATGGTATAAGACTAACATAGGCAGAATTTTGCTAAACGAAT
TGGAGATGAAACATCATAAGTGCAGGTGCACAAGTAGAAAAGTAAAATCAGAGCTCAAGGAAGGAGAAGTGATCCAGCTGGGCAGAAATATGGGGCCTAT
ATAGAGATATACCAGGAAATAAAGCCAGGACGAATGGCAGGGTAGGACCTGATTGTTAAGGGTCTTAAATGCTGGGGTCAAGATTGTGGCCCTTACTTAA
AAGTTGGTTGGGCATGATTTTGGGAGTTGTAGCAAAAGATGTGGCAAACTCAAAGCTTCCTTTTCATGTAAAGTATAGAGAAGTGGAGGTTCATATCATT
AAATCACTGTAATTTCAGTGTGAACTTCTAACAATTTGAGCTAACCATGAGATAGGACACCTTATCAAGCAATGAGCTCTTCATTATCTAAAGAGATGCT
GAATTTCAAGTCCATGTAGAGGAAGTCTTGTGTTGACTAGAGCATAATATGTCTGGGGGGACTTTTCTTCTTTTTTACTGATATTTAGTAACTTGGATAT
TGTGCTAAGTGCTTTACAGGTATTCTTATTTAATCCTCACAAGGCAGTATGGTAGATAATCTATTATATTGAAAATAATGGGCCAGGCACAGTGGCTCAC
GCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCTGTCTTTACT
AAAAATACAAAAATAAGCGTGGCATAGTAGCTCACACCTGTAGTCCCAGCTACTCAGAAGGCTGAAGCACGAGAATCACTTGAACCCACGAGGTGGAGGT
TACAGTGAGCCAAAATCACACCACTGGACTCCAGCCTGGGTAAGAGAGCATGACTAGGTCTCAAAAGAAAGAAAGAAAATAATGAACAAAAAATGTTGAG
TGGGCAGTATTAAATTAAAAAAAAACCTAATGTATTAAAGAAGGAGAAAAGTATAAAAATTAGTCAACAAGCAGAGAAAGAAAGAAAATATAAAGGTAAA
AATGTATGTTATCCAAATGAGACCTCTTAAGAAGAAAAAATAAAGGAAATTCAAAAAATAAGTTAGGAAATAGTGAGTAAAATTATGAAGTTAAAAATTC
ACCAAAAATTTATTGATATGTCCAAGTTCAGCTTGTAGTGAACAGACTCTTCTTATGCAGAATTTGAGCAAAGTGCTAACACAACAGAGTTAGGTAATGG
GATGAGGGTCAGTCAGATCACTCTATTTTTGGAAACTGGTTTCATGACTGCTTCCCCTTACTTAGTCATAAACAGGCTATATAAAAAGCTGTCAGAGTGG
AAAGAGGGAGAGGATTTGTGAATTTTTTTTTTTAGCATGTTTTTATGGTTCTGTAAGTCACCACCCTCCCAAAGGGATGAAGTTTCGGGGTGCACTCCCC
TTACCTCAGCCTAGTAGGGGGACTTCCAGGAGATAATGAGAGAGTTGGATGTTTCCTCAAATTTACAGACACAAAGACTGGTGCCTGGCTTCTCCTGATA
AAGCTAAACCTGCATGTGGCTGGTCTCTAGTTGGCTAGATAGTAGTAGTTAAAATGAAAAGAAACACTTAATGTTAGATGCCATCCAATAGGGCCACCTA
AAGGGATGGAAAGTTCTCAACAACAAGAGCCCAGAGGTAGAAGCAAGACTCTTAGCGGGGAAGGATGGAGTCGCAAGTGAAAACCTAGACAAAGAAGCAT
CTGTCCTGGTCCAGAGGCTTCCCCAATAAAGATGTCTCACACAACTCTAAGAAGTTAGAACTCGAGAAAAAGACTAACAAGAAAAAGAGTAAGGTGTGTT
TGTGGAAGAGGTGAGGCAGTTGTTTTCCTATAAATAATGTTAAATTAAACTAAATTTGGTCTGAGGATGCCTCGTAACTTGAGTCGCTACATAACAAACT
GCAACCTAACTTAGGAGTATTTTTTTTTTGTACTAACGAGGTGAGTCTCAGCCAATCACAGCAGCCAAGCTACAGCCAATCCCATGTGGCCAACTGATCA
GCCTATGCCCAGTAAGACAACTGCTCACCTGTAACTACTCAAGCTGCTTCTGGACCTCATTTCCATTTGCTGTTTATAAGTGCTGCCTGCCCACTTTGCT
GAGCAGAACTCTCTGAACTTCTTTCGTTTTTGAGGGTTACTTGATTAGAAAATTGTTCTTTGTTCAATTAAATTTTGCTAAATATAATTCTTTTAAAGAT
TTTCTTTTAACAACAAAGATGGGGATATTTGAACAATACCTTGGTTGGAGGTGACATTCTAATTTCTAAATTGAGGCTATTTGTATTTTTAGCAGGACCC
AAGGACTGTCACTTAAAAGCAGGCTAAAAAGCCTTGAAATTTTCTAACTTTCCATGCGAGAGCAGTGATAGATAACCCCACTACGCAAAATGTCATGGGG
CAATGGGAGACAAAAACTAAAGCTGTGTTTCAACTGCGTCTCTGAATGATACGATTATAGCACTTACACAATAACCACTTGAGAAAAAAGAACAGCCTTG
CACCAAAAATCGAATGAGAAGTACAAGCACAGTGAAGTAACAGGTCACTTTACAAAAAAAGTAAAGGCTGAAAGGGGACGAGCAAATTGCCCAAGTCTGC
ATGGGTGATAAGTAGCAGATCTGGGGCTCGAATCCAGATCCTGAGCTTTTAATACCTATGCAACACTTCCTCTGTTCCTTCCCTTCTGAGAATGTCATTA
TGTTCATTGGGGTGTATCCCCTGCTATGGTTTACAGGGGAGGGTTCACACTTTCACCATTCTGAAAGATTATTTTGAATTTAAAAAGCTGGCAAGATGTC
TCTGAACAATGGAACATAGCCCAAGGCTGCAATTTTGTTGCACACATTACAGTGTTTTAAGGCCACTGGTGGCCTGTTCTTTGAGATGAAAACAATACAT
CAGTAGGAACAAAGTGAAAGAGAGTAAACTGGTCTCCAGGTACCCAAACAGTATGTGAAGTCAACAGAGGAACACTTCCTGTGGTCTATTAATAATTCAG
AAGCCCTTTATCCTCAACCCTCCTCCACTCTCTAATTCCTAAGTCTTCTTCCTAGTGTCTCTTACTTCCTCTTTCCAAATAGTCTGGGCTGGCAGGCTGC
ATTTAGGTAATCACTGCACAATACAATTACTGATTCTGTTTACAAGATTCTTGCTAGTATTTTATTTTTACCCTTTATAGTGTTTGGCTTTTAAAAGCAA
ATGAATATGGAGTCATGATTTTTTGGCTGCCTTTCCCTTTGGCATATGATATTTATGCCTTTAAAACTTGTTGTTGTTCCAGGGCATTTCACTGATGAAA
TTTATCAAAATGAACCTACAAATCAGCCACTAAGAGACTGCATGAATAAAAACTGTTAGTAGGAAAATGATTATGACAAAAAAAAAAAAAAAAAAACAAA
GAACAGCTTTAAGAAAAAGCCAGACTGTTAGTTTTTTTTTTTTTTTTTAGAAGGGTTGATATTCTGAACCCCAGCAACAATTTATCAAAGTCTGTTGCCC
TGAATGAAATTAGATTTCCTTTTTAGCTTCAGGAATAGGCCATTCCTGGAAAAGTGGAGCACAGAAACATTTGGTAAAAAAATTTATTTTTACTCACAGA
AAGAGTAGTTTGCAATGTTATTTCCAGTGAAGGGATGGGAACCAGGATTCAGATATTCATCTGTCTACAATACTGAGGTCCTCCTACCTCCTCTCCTCTG
CAAAGGGACCCTCGCAGTATGCAAAAGTATTAAATATTTTTAATGTGATATTCTTTGGTTAAAATATAGTCACATTCTCATTCCTTTTTTCAAGCATAAG
TATCAGTCAGATTTCAGAGTATAAGCTGAAGCAACAAATAGTAACAAAGCCCATGCATGAAGATATGTTCTCACTCATTTTTTTACTATTTTATTGTTGG
CTACTTCTTCTATTTGCGTTATATTTAGTGTCACTAAGCTGCTATACACGTACTCATTTGAAGAGATGTGCTAAAGCTTTTAGTGTGTTTTGCTATTGAT
TATCCTATCCAAGAGTTTGGGTTACTCTACGATCAAGATGGCGGTCTGCAGTGAGCCCACCTGCCCGCCAACCTCTGCAACAACCAGCTGAGGATAATTG
CACTGGGCTGACGCCAAGGCCATGATTAGATCTGCTAGTGGGTGAGAACCATGAGACTGAACCTCTAATCCCGAACCTCTCTTCCAAGCTACTTTCCAAA
CCAACTGCTGCCTGCAACTCCCTTTGACTAAATCTGACCTTCCTTCAAACTGGCTCTCTTCCTAATTTCCAGATTTTATGGAGGCAATGCTGTCCAGTGC
ATGGAGTTGAAATGAGGCTAAAGTGGGTTTGAATCCAAGCTCTACATTTACTGTTTGATCTTGGGCCAATTATTTATTCTTCCTGAGGCTCAGTTTCCTC
CTTTGTAAAATGTCAGTAAAGATTCCTAGCATGTAGGATTTTATGCATTTAAAGAGATAACATTTCTAAGTGACTAGTTCAGTGCCTGGCACAAACACAG
GCACTAAATAAGCAGAGGTTTCCTCCCTTTCCCCTAACTGTCAATGGTACTGCCACTGTGTACAGTAGCCAAGTTGGACATGTTGATACCAATTTTTCTC
TTCTCCCCCTTTCCCTTAACTGAAGCCAATTATCAAGTTATGGAATATTAGAACTAGCAAGAACCTTAGAAATCCTGACCATATGATTCACCGATAAAAT
ACAGAGAAAGACATAAGTCACTGATCATTGCAGCAATCTTGACCCCCACGTCAATTAAATAACAAAAATAATATCATTTTATGATAGAATTTGTTGCTCG
ACATTCGACAATCATGTTGAACAAAAGAAGATCAATCAACTATAATCAGTTCAGTGATCATGTACAAACACAGCTTCAGGCTCACAAGTCAAGATCTATT
TTCCAAACCATTGTCCTATGGTTATTTATGACCGTGAACATTTTTTTGGTGGTAGAATGTTCCTTGTCACTGGTATATTCCTTTGCCCTATGTCTCTTCT
TTCTTTGTCATTTACTAACATGAGGAGAGGGATCTGTCTCAAAGATAATTGGAGGAGAAAGCGATCATAGAACCAAAACAAAGGGGAAAAAATAAGATAA
TTCCAAAGGAAACAATATCAATGTTTTAAAGCCTAAAAATTGACTACTTAATAAATTACATTACATATACCCTGGAACTATTTTCTCCATGCATTGCATG
TGCTATAGCATGAATTCATTTGTGTTCTTCTAGATAGTTTATCCTAAGGGAATCTACTAAGCAAAATAAGAATCAGATAATAGTTCTTTATCACACAACT
CTTCTTCCTTTCATATTCCATGCTAAATAATCATGCATGATCCAAACCTCCTATTTAACACTTCACCCTCTTCTTCCTCCTATGTTCCATGTACAAGGGG
AAAATAAATGATCCATAGTTAACTTTTTTTATGTGAAGACAGGAAGAATATGAATCATACATCAAGTTAGAGTATAAATAGTTACGTTTATAAAAGATTT
AATTTCTTGAATCTCCATAGTCACTGGATATGCGTATCATCCAAGGTTCTCCCAATAATAAAACCAGAGCCAGGAAAGAAAAAAGACCCTGTCTTTAGTG
ATAGCCCATTGTGCTAAAGTCTACTTATTTGTCAGGGCAACTTGGAAAGTTCTGAAAGACCTGGCCTTCAAAGTTTACCATTTTGTCCACCAGCTCAGTG
CACTGACTTGACACGACATGAGGCAAACAAGTGAGGA


SNP Information

Context             (SEQ ID NO:3248):
GAGAGGCTGAGGACAGCTATCCTAATCAAAAGTCATAATCCATTGCCCTTTTCCAGATCTGAGCTGTTCTTAGACCCAGAATTTCTTGCCTGAAGGAGGA
R
TCAGGTCCCCACAAGGAAAGACCCTGCAACTGTATAAAAAAAGAATCTAAAAAGATCATGACTCCTTCAGTCCTTTCCCAAAGAGACCTATGGAAATTTC
Celera SNP ID:            hCV1872243
SNP Position Genomic:     48335
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,26)   caucasian(A,15|G,19)   total(A,21|G,45)
SNP Type:                 UTR 5;INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:3249):
CACGGTGGCATATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCCTTGAACCTAGGAGGCAGAGGCTGCAGTGAGCCAAGATTGTGCCA
M
TGCACTCCAGCCTGGTCAACACAGCAAGACTCTGTCTCAAAAAAAAAAGAGAGGTCCTCCCCCCATCTCAGGTCTTTGATATTCTAATGATGAATGTTTT
Celera SNP ID:            hCV11697319
SNP Position Genomic:     17342
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3250):
CTTAGCTGTAGACAAACATCCTGCAGTTTACCAAATATGATGCAGTCTTCTCAGGGAAGATATCTACCAAAAAATGAATGACCACCATTTAATTAACCTA
R
GTGTGTTTGTGTTTTATTTTTTACCATCTTCCACCAATTATGATTCTTGAATATTCCCCTGATTGAAATGGCAATACTGGTTAAATGAAAATAGTAGCTT
Celera SNP ID:            hCV25607376
SNP Position Genomic:     35756
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,1)   caucasian(A,40)   total(A,65|G,1)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:3251):
CCCTCACAGTGAAAGATCAACAACTTTCCCCACAACATACCTTTAAAACATAGAGTGGGTACTTCTCAAATGAGGATCCAATGTGGATTTTTGTAAGCAT
R
TCAGGATGCCTCTCAGTTATAAATTCTATCCAAGAATAGATCTAGCAAAATGGAAACCAGAGGTTAGTCACGAAGCCAAGTTCAAAGCATTTCCCTGACC
Celera SNP ID:            hCV25607377
SNP Position Genomic:     32295
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,38)   total(A,75|G,1)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:3252):
CAACTTTTGCAATCAAATTTTTATGAAATGAAATTTTCTTGTGATTTTGATTTTCATTTTCTGACTTATTAATGAAGTACAGTTGTTTATATTTGATTAT
Y
GGCCATTCATATTTTTGCTTATATGTTATGTTTATTCAGATCAACTGCCCATTTTTTTCTAATTTACTTGTATTTTTGTAGTAGTTAATTTGTATAATTT
Celera SNP ID:            hCV1872245
SNP Position Genomic:     42223
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:3253):
AACTCAAGTTTTAACAAACACGACTGGAGAATTAATCCCTCCCCTCACAGTGAAAGATCAACAACTTTCCCCACAACATACCTTTAAAACATAGAGTGGG
W
ACTTCTCAAATGAGGATCCAATGTGGATTTTTGTAAGCATATCAGGATGCCTCTCAGTTATAAATTCTATCCAAGAATAGATCTAGCAAAATGGAAACCA
Celera SNP ID:            hCV25607378
SNP Position Genomic:     32254
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(T,38)   total(A,1|T,75)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:3254):
CACACATGGTAATATAAACATTTATTTTGCAGTGAGTTTTTTAAAATTCCTTTCTATAACTCTAGTTGCTAAAAAAAAATAAAATAAAAGGGCCTGGAAT
R
TACAAGATAATCCATAAATATTTGATGAGACAATGATGAATGAATGACTATATTCATGGCTTAACTGTAAAATTGCATGTGTACATCAGATATTTGAAAG
Celera SNP ID:            hCV1872246
SNP Position Genomic:     38016
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:3255):
GGAAACAAACTCAAGTTTTAACAAACACGACTGGAGAATTAATCCCTCCCCTCACAGTGAAAGATCAACAACTTTCCCCACAACATACCTTTAAAACATA
S
AGTGGGTACTTCTCAAATGAGGATCCAATGTGGATTTTTGTAAGCATATCAGGATGCCTCTCAGTTATAAATTCTATCCAAGAATAGATCTAGCAAAATG
Celera SNP ID:            hCV25607379
SNP Position Genomic:     32247
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,38)   total(C,1|G,75)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:3256):
TCCCTGAGTCTGGGTACAGAGTCAGAGAAAAAGGAACTATGAGAGCCTTTACCAATCACTGAGTCTAACCTGCATTTTAGATAAGGGACGGAGGTCATGA
R
GGGTTGAACCATTTATCCAAGATCACAGAGCTGGACCTTAGGCTTTATCACCAGTCCATTTGGTCCAGTCAGAGACTTCTATGCTGCCATGGTTAATACA
Celera SNP ID:            hCV1872247
SNP Position Genomic:     37463
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3257):
GAGCTGGAATGAGAGGCTATGTTTGTCGTTTTTGACACCCCTCCCCTTTCTGGGCCATCGCCTAATTACCGTGGAGCAAACGGAATGCATGGTTGTATTT
Y
TAAAGGCACAAGCAGAAATTTATTGAAAATTTGGAGCAGAAATCTTTAATGTACTTCTGACCACCCTTCCTTTTGTTGAGTAGGATCCAATGATCAGCGT
Celera SNP ID:            hCV7557247
SNP Position Genomic:     6318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:3258):
TAAAAACCACCGTTTCCCACCATTACCAACATTACTCAATGGTGATTCTTCAGTGTCTTTTATATGAATATATGGATTAATGTACCTTTGTTCAATCCAG
R
CTAACACTGTATTATGCTGTTTTCAGTTAAAGAGGAAGAAGAAGCAGAAAAGCCTTTTCTTTCTTTTTTTTTTTTTCTTATTTTTTCCCCCATTGACCTG
Celera SNP ID:            hCV1872249
SNP Position Genomic:     36334
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3259):
TGAGAGGCTATGTTTGTCGTTTTTGACACCCCTCCCCTTTCTGGGCCATCGCCTAATTACCGTGGAGCAAACGGAATGCATGGTTGTATTTCTAAAGGCA
S
AAGCAGAAATTTATTGAAAATTTGGAGCAGAAATCTTTAATGTACTTCTGACCACCCTTCCTTTTGTTGAGTAGGATCCAATGATCAGCGTGAGATGATC
Celera SNP ID:            hCV7557248
SNP Position Genomic:     6327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:3260):
TGGGAGGCCGAGGCAGGTGCATCACAAGGGCAGGAGTTTGAGACCAGCCTGGCCAATATGGTGAAACCCTGTCTCTACTAAAAATACAAAAAGCTTAGCC
R
GGCATGGTGGCAGGCACCCGTAGTCCCAGTGGCTCAGGAGGCTGAGGCAGAAAAATCTCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGTG
Celera SNP ID:            hCV11301156
SNP Position Genomic:     19823
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3261):
AGGCTATGTTTGTCGTTTTTGACACCCCTCCCCTTTCTGGGCCATCGCCTAATTACCGTGGAGCAAACGGAATGCATGGTTGTATTTCTAAAGGCACAAG
M
AGAAATTTATTGAAAATTTGGAGCAGAAATCTTTAATGTACTTCTGACCACCCTTCCTTTTGTTGAGTAGGATCCAATGATCAGCGTGAGATGATCATTG
Celera SNP ID:            hCV7557249
SNP Position Genomic:     6331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:3262):
GTGCTGCCCAACATGATGCCTCCTCCAAGGTACAATCCACACCCAGTGACTAATAAACAGGGGTTACAAAGGCATGCCTGCTTGCCCCAGTTTGGGACAA
M
TTTACCAGGCCAACCCAGCCTCAAGGCTCTCCACAGGAACAGGTGAGGCCATAGTTGTGATTACATCACAGGTCAGTTTCTCCTCTGCCCAAGCCTTCTT
Celera SNP ID:            hCV25935522
SNP Position Genomic:     52177
SNP Source:               Applera
Population(Allele,Count): african american(A,6|C,32)   caucasian(A,6|C,28)   total(A,12|C,60)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:3263):
TTTGATAGATTATAATTTGCATCACTTGAGATGGTAGGCTGCCTTCCAACACTTCTCCCCCTGTCCCTAATTCACAAGGTGAAGCCCCAGCAAGCTGCAT
S
TGACACAAGAGATTATTCCTTCCTGCAAACAGTTGAGGGCTCAGGATAGGGTCTGACTCTTGTGCTTGCCAATCTGAATCCCTTCAAAGATAACTTGAAA
Celera SNP ID:            hCV27334227
SNP Position Genomic:     12137
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3264):
ACACTTCTCCCCCTGTCCCTAATTCACAAGGTGAAGCCCCAGCAAGCTGCATGTGACACAAGAGATTATTCCTTCCTGCAAACAGTTGAGGGCTCAGGAT
W
GGGTCTGACTCTTGTGCTTGCCAATCTGAATCCCTTCAAAGATAACTTGAAATCAATACTAAGAGTCTAGTCTCAGTCTAGCTGCTCTCTTGAACAGACA
Celera SNP ID:            hCV27334228
SNP Position Genomic:     12185
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3265):
TGTGAACATCACCCTTTCAGTGAAGAGACATTGCAAGAAATAAAGCCAACAACCTACCACACCAGTGTTTGGAAGCAAAGTTCCTATTCAGGTCTGTTCC
R
ATGCAATGATTGTTCGCATAGAAAGAACGGTTCTTTCTCCACATTCGATTCTACATAAACAAAATACAAACAGACAACCTGGGTAGCCACGTTCAAGGCC
Celera SNP ID:            hCV9884933
SNP Position Genomic:     17812
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,33)   caucasian(A,2|G,38)   total(A,5|G,71)
SNP Type:                 INTRON;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,-)   
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:3266):
GACTAATAAACAGGGGTTACAAAGGCATGCCTGCTTGCCCCAGTTTGGGACAACTTTACCAGGCCAACCCAGCCTCAAGGCTCTCCACAGGAACAGGTGA
S
GCCATAGTTGTGATTACATCACAGGTCAGTTTCTCCTCTGCCCAAGCCTTCTTCCTTCATTCCTCCACAGATGCTGATCCTGAGATTCCTTTCCAGTAAA
Celera SNP ID:            hCV25935561
SNP Position Genomic:     52224
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,29)   caucasian(G,8)   total(C,3|G,37)
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:3267):
ACATAAGGTTTCTGAGCCATGGCCATGTGTATACCTGGTATTTTTACTAGTTTTCTCAATAGCACGAACTGCTTCACTGGCTACTAGAGACTGGAAGCAA
M
AAGATATAGAATTTCAGTTAATGTGCAGCTTTGAAACATGACAAGTAGAAGTTTCTAAAAAATAATCATACATTAATTGAATCAAAGTATACAGGTAGAA
Celera SNP ID:            hCV11697321
SNP Position Genomic:     8983
SNP Source:               Applera
Population(Allele,Count): african american(A,30|C,8)   caucasian(A,19|C,11)   total(A,49|C,19)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:3268):
TTAGCAAATCCTGATAATGGGAAACTCTTTTCTTTGACAAATAAATTGCAAGGAAAAAAAGAAGAGAGAGAAAGAGCAAAAGATGGAATGTGAGTTCATG
S
ATTAAAATAGAATTAAAAGACATATAAACCAATCATAATGTAAGAGCCTTATTTGGATCCAGAATCAAAGAAACATACTTTTTAAAAAGTTAGGAGGCCG
Celera SNP ID:            hCV9884934
SNP Position Genomic:     19588
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3269):
CAGATTTCTTTAGTAGCTCAAAGTTCTCTAAGATCATAAGAAGAAATACTTACATAAGGTTTCTGAGCCATGGCCATGTGTATACCTGGTATTTTTACTA
R
TTTTCTCAATAGCACGAACTGCTTCACTGGCTACTAGAGACTGGAAGCAAAAAGATATAGAATTTCAGTTAATGTGCAGCTTTGAAACATGACAAGTAGA
Celera SNP ID:            hCV11697322
SNP Position Genomic:     8932
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(A,14|G,22)   total(A,17|G,57)
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:3270):
GAAATTTATTGAAAATTTGGAGCAGAAATCTTTAATGTACTTCTGACCACCCTTCCTTTTGTTGAGTAGGATCCAATGATCAGCGTGAGATGATCATTGA
B
TAAACTTGCTTGAGATGGCTAGTCAAACGTCGAAAGTTGCTTGAGATGGCTAGTCAAACGTCGAAAATCAAAGAAAAAGTAGGTAACTAGACTTTTACAA
Celera SNP ID:            hCV11697325
SNP Position Genomic:     6433
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-|T,-)    ;no_pop(C,-|G,-|T,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:3271):
TTCTATGAATAATTCAACCTGTATATCCTATATCCCCAAGGAGAACATGATTTGTCTTCTTTGCCTTTTCTCCTACCTTTTTCCATGAGTAGTCATAACC
R
TCCACATTAACCACCGGCATAACATAGAAATCCACAAGCCTCAGGAGATTGGTATATTGCCCTATTATCCCATAGAATTGAGTTATCTGCAAATTAAACC
Celera SNP ID:            hCV25607383
SNP Position Genomic:     20453
SNP Source:               Applera
Population(Allele,Count): african american(A,22|G,16)   caucasian(A,27|G,13)   total(A,49|G,29)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:3272):
CATTCCAACTCTTTCCTGAACATATCGTAAGAAAACATAACTTTTTTGAACAAAATAATTAAAATATGTTTTAACAAATATTTAAAAATACTTCTGTTTA
Y
GGCATTCCCCTCTCCCCACCAAACTTATCACAGCAGTGACAGTTTCACCTTCTATGAAGGTGAAATCCCACCTATGAAGCCTCTCTGCATCAAGTTTGCT
Celera SNP ID:            hCV1872250
SNP Position Genomic:     34753
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,5)      total(C,5|T,5) ;TSC_42_C(C,35|T,47)   total(C,35|T,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:3273):
GTTTTAAGTTCTTCTAAACTTAGTGTGTTTCTTTTTCTTTTTTTTAATTTGTCATTTGGCATGTTTAGATTTGCAGATTTAACTTTCAGAAAGAGTGCTA
R
TTCCTCAAAAGAACTGAACTTAGGGTGCTACGAAGTGGTGATAAATGCCTTACACGTGGTCCAGTATTCCTAGTTAATGAAGGCAGACAATCGAACCATA
Celera SNP ID:            hCV25607384
SNP Position Genomic:     20672
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,15)   caucasian(A,25|G,9)   total(A,46|G,24)
SNP Type:                 INTRON


Context             (SEQ ID NO:3274):
CTGGGATTCATCTAGAATTGAAGCCTTAACCCCCTAGAGACTGTATTTGGAGATAGGGCCTTTAAAGAGGTGATTAAGTTAACATGAGGCCCTTAGGGTG
K
GTACTAATCCAGACTGACTGGTGTCCTTGTGGGAGGAGATTAGGACATACAGACCAGGACAAGACTATATTATTAATGGGAAAAATAACCAACCCCTAAA
Celera SNP ID:            hCV1872251
SNP Position Genomic:     31990
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:3275):
AAGGCACGTTCTTTATATTCCCTTAGAGAACACTGACCCAGGGTGACTCTCAACAGGATCACACCATGATTTAAAACATCTATCATTTGCCTTCTAGAGG
M
CAAAATTTTTCCCAGTTTTTGATTCTTCAACTAAGTATTATTTTATTTCCAAAATGCTAATGAGAAAAATAATTAAGTAGCACTTACCAGTTCCTCATGG
Celera SNP ID:            hCV16184565
SNP Position Genomic:     11215
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,33)   caucasian(A,16|C,24)   total(A,21|C,57)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   JBIG-allele(T,89|G,638)   total(T,89|G,638) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3276):
AAACTAAAAATGGAACTACCATATAAGCCAGCAGTCCTATTATTGGGTATGTATCCAAAAGAAAGGAAATCAGTATATCAAAAAGATACCTGCACTCCCA
Y
GTTTATTACAGCACCATTCACAATAGTCAAGATATAGAATCAACCTAAGTGTTCTTCAACAGATGAATGGATAAAGAAAATGTGGATGTGGATAAAGAAA
Celera SNP ID:            hCV1872252
SNP Position Genomic:     31062
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3277):
GTGAGAAATGAGAGAAGACAGGAAATTAAGAAGTTACATTGCTAGATGGCTTCTTCTAACATTCCTTGTTGCTGTCCATGGCCACATTCTGGGTCTAAGG
W
TCAGCAAAACATTACTTCTGAGATCCAGAGGATGGCTACAGGAGAAATCTGCTAAAGAGGAGTTGAGATGAGGTTTAGTAGAACAGAGAACAAGGAACTG
Celera SNP ID:            hCV9884973
SNP Position Genomic:     24532
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,10)   total(A,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3278):
GTACTTCTGACCACCCTTCCTTTTGTTGAGTAGGATCCAATGATCAGCGTGAGATGATCATTGATTAAACTTGCTTGAGATGGCTAGTCAAACGTCGAAA
S
TTGCTTGAGATGGCTAGTCAAACGTCGAAAATCAAAGAAAAAGTAGGTAACTAGACTTTTACAATTTTTTTTAAAGGGTAAAAAGACATGAACCCTAGTC
Celera SNP ID:            hCV7557250
SNP Position Genomic:     6469
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   POOLE|_CEPH(G,35|C,153)   total(G,35|C,153)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:3279):
TATTTGAAAGGAAACAAAATTTTTTCTAGAAAGAAAGTTGATTAAACATTGATTTTATTTAATAAAAATTTCATGTTCTTGTAATTATCATCATGTCATT
K
TTCCTTTTTTTAAAAAGGCTTCCAATAAGATTTACATTTTTTCTCTCTTAATGTGCTTTTTATTTATTTATTTATTTATTTTTTATTTTTTATTTTTTTT
Celera SNP ID:            hCV11301127
SNP Position Genomic:     38207
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:3280):
AGTCTGCCTTAATGGCAAAGTAGCACTTATTAGGTTCTCTGACAGAACCAAGGAATAGGAAAATCTTTTATCAAAACTACGGATAAAACTTAAAAATAAT
Y
TGATACAATGATTTGGTCTTGCTGGAATCAGTAAATTAAAATACGGAAGCAGAATGATAAAATCAGGGGCATTAAACATTCCTAATGACATGCCAAGCTA
Celera SNP ID:            hCV7557251
SNP Position Genomic:     6666
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,32|T,2)   total(C,70|T,2)
SNP Type:                 INTRON;UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:3281):
TGTGGCTATGTTCACTGACCTTTACTAAGGTCAATTTATTCAAGAGAGAAGACATCCAATCCAAGTTAGGTTAATCAATTTCTCTTGCATAATATTTTGC
R
ACTGAAAATAAATAACCAAATGGGTGGAAATTGGAGTAGAAACCATCATAAGAACCCTACTGCAAAGGACTTCAGCCTTGTCCGGCTGTTTGTCCCTCGC
Celera SNP ID:            hCV1872254
SNP Position Genomic:     29420
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3282):
AAGAAACAAGCTACTACCTAAAAATTAGTCCCTTCCCAAGAATGGGGCTGTTGATGTAACACTTCCACTGTCTGGAGAGCATCTGGGATGAGGATTTGTC
R
AAGCCTAGCTACAATCCTTCAAGAATCCTTGCATCTTTTGCCATGAACCCAAACATACAGTATCTTGGACTAAAAAGTGCTAAGGGAGTATCAAATTGTG
Celera SNP ID:            hCV7557252
SNP Position Genomic:     10648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3283):
TATGTCAATGGCTCAGCGCTGAGTAACTGTCAGCTCTATTTACTTAGATTCTTTTTACATGGCTGCTGTTCCTGTGAGCCCCTGGCATGTTATTAGTGCC
R
CAGCAAACTTTGGGCCTCTGGGAACACGAGTGGTTTTTTAGGGAGAAACCACTAAATGATTCCCTGGAACCTAAGTCGGGATGAACTGCTTCTTCCTCTG
Celera SNP ID:            hCV28003566
SNP Position Genomic:     15638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3284):
GATAAGTATGTTCCAAGGACTACACACAACATGGCTGAAAGCAAATGTCATGGGTGGATATGCCATGATACATGGATCCAATCTGATTGACCAACTCAGT
R
ACCAAGGGGACCCAACATTTCATATGTCTGCCTTGAGTCTGCACTGTAAGTTCTTGTAAACGACAGATTAAAATTGAGAAGTCCTAACCCAAAGTCTTAT
Celera SNP ID:            hCV1872255
SNP Position Genomic:     29022
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3285):
CTCAGGGGCCTCATCTGTACCAGGAAGGAACTTGGGCCACTGGATCCCTCCAAGCTCAAGCATTCTTTGATCTATAGACATGGAACCAAGCACACTGTGA
R
ATATCTATAATAGGCAAATTCATAGAGACAGAAAGTAGATAAGAAATTACCAAGGGCTGGGGAGAAGGTAGGGATGAGGAGATATTGCCTACTGGTTACA
Celera SNP ID:            hCV7557253
SNP Position Genomic:     14088
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:3286):
TGTGCTCCTATGAGAATCTAACGCTGCCACTGATCTGACAGGAAGCATTGCTCAGGCAGTAATGCTTGCTCGCTGGCTATTCATCTCCAGTTGCGTGGCC
K
CGTTCCTAACAGGCCATGGACTGGTACCTGTCTGCAGCCCAGGGGTTGAGGACCACTGGTATAGAGGGAAGGGAGAAGACTGTTGTAAAATCAAACAAAT
Celera SNP ID:            hCV7557254
SNP Position Genomic:     28425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3287):
CAGATAAGTATGTTCCAAGGACTACACACAACATGGCTGAAAGCAAATGTCATGGGTGGATATGCCATGATACATGGATCCAATCTGATTGACCAACTCA
R
TGACCAAGGGGACCCAACATTTCATATGTCTGCCTTGAGTCTGCACTGTAAGTTCTTGTAAACGACAGATTAAAATTGAGAAGTCCTAACCCAAAGTCTT
Celera SNP ID:            hCV1872256
SNP Position Genomic:     29020
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3288):
ATAAGAAAAAGAAAGAGTTAGATATTTAGATTGTCATTTGAACCACTCCAGGAGGTTTTTTCCTAACTTGGAGCTAGCAATATTTAACAGGATAGTAAGT
R
AGAAAGCCCAATGGCATTGGCCACTAATCGTCAAATTGTATAGTCAAAGAGAACTACCTAGCTTAATCTACTCAATGCAAAGAAAATCTTAAGTTGTCTG
Celera SNP ID:            hCV7557255
SNP Position Genomic:     28647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   (T,-|C,-)   Caucasian(T,25|C,55)   Tfrican-Tmerican(T,9|C,73)   total(C,128|T,34) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3289):
CCTTTCTAAGTCCTGGGCCAATTTTCTTGGCACTGGTTCTGACACCGAAAAGTTGGCAAAATCCCAGAGACTCACATTATCTGCACATCCTTGATCAAGT
R
AGAGTAGGACCAAACCATCCAGAATGCATGATTTTTCAACGTGTACAGGTTCCAGATAAGTATGTTCCAAGGACTACACACAACATGGCTGAAAGCAAAT
Celera SNP ID:            hCV1872257
SNP Position Genomic:     28867
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3290):
GTGGAGAAATGTATGAAAGGATGATCACAAACATGTTCATATTTTCACCAGGATGGTGAAATTTTAGTATTTTCTCCCTAATTTTATGCTTTTCTGTATT
R
TTTACTTTTTAAACCCAAAAGAACTCCTATTCTTGTATTTATTCAAGAAAATTAAATTTAAAGAAAAATCTCCTTTGACTGTGAAAAAGCCACTAACAAG
Celera SNP ID:            hCV16136444
SNP Position Genomic:     47414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3291):
GCCCAATGGCATTGGCCACTAATCGTCAAATTGTATAGTCAAAGAGAACTACCTAGCTTAATCTACTCAATGCAAAGAAAATCTTAAGTTGTCTGGATTC
R
TTACTTTACTTGACCTTTCTAAGTCCTGGGCCAATTTTCTTGGCACTGGTTCTGACACCGAAAAGTTGGCAAAATCCCAGAGACTCACATTATCTGCACA
Celera SNP ID:            hCV1872258
SNP Position Genomic:     28753
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;(T,-|C,-)   Caucasian(T,23|C,45)   Tfrican-Tmerican(T,33|C,45)   Tsians(C,25|T,37)   total(C,115|T,93)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3292):
AAATAATTAAAATATGTTTTAACAAATATTTAAAAATACTTCTGTTTATGGCATTCCCCTCTCCCCACCAAACTTATCACAGCAGTGACAGTTTCACCTT
R
TATGAAGGTGAAATCCCACCTATGAAGCCTCTCTGCATCAAGTTTGCTCATGCAGTCGTGCTGATGGATGCTGGAGAGAGGTGGTCTAAGTTGGATAGAT
Celera SNP ID:            hCV7557256
SNP Position Genomic:     34805
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(A,3|G,21)   SC_12_C(A,6|G,17)   SC_12_AA(A,4|G,16)   total(G,54|A,13)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3293):
AGCCCAATGGCATTGGCCACTAATCGTCAAATTGTATAGTCAAAGAGAACTACCTAGCTTAATCTACTCAATGCAAAGAAAATCTTAAGTTGTCTGGATT
M
ATTACTTTACTTGACCTTTCTAAGTCCTGGGCCAATTTTCTTGGCACTGGTTCTGACACCGAAAAGTTGGCAAAATCCCAGAGACTCACATTATCTGCAC
Celera SNP ID:            hCV1872259
SNP Position Genomic:     28752
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3294):
CACTAACAAGCTTCTCAGTGATGCTGGTAACCCTCTCATCTCACCAGCACATTCCTTATTATTTTCATAAACAGAATGTTCTCTGGGCCCTTGGAGTAGC
R
TAGTCACCCAGTGGGTTTTCTAGCCTTACATAGCATTTTTATTCTAGTGTGCTCTATCTCTTTTTTCACCATCTGCCACATTCGCTCTGACATTTCTAGC
Celera SNP ID:            hCV7557257
SNP Position Genomic:     47605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3295):
TCATTTTGTCTGTTGATATTCATTTTGTCAAATCTATTCTGAAGTTCTCACTTATCTGGAACTTTTCGGAAATTGGAACTAGCATCATGGTATACACTGT
Y
ACCTTCTTGAAAAACTCAAGAGATTTATCAGCGGATATTATTTTATGCCATCTCATTGTTCAAAAAATAAGTTTTAATGTAACCCCATTGTCTACATAAT
Celera SNP ID:            hCV29428774
SNP Position Genomic:     9629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3296):
CATATGAATTTCTTTTTCTGCTTCACTTTTTAAATTTCCTTCCTACCTTTACCTCTGGTTGGATGGGAATCTTTCTACAAAAAGTTATGCTCTGAGAGAT
K
ACCGATGTTAGGCCCAGAACAATGTTACCTATTTCTTTATCTAATAGGTAGGACTCCAGACAGAAGGAGTGAGTGAGGGCTGAAATACAGTCTGTGCTGT
Celera SNP ID:            hCV29428775
SNP Position Genomic:     22276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3297):
TTATGCTCTGAGAGATTACCGATGTTAGGCCCAGAACAATGTTACCTATTTCTTTATCTAATAGGTAGGACTCCAGACAGAAGGAGTGAGTGAGGGCTGA
R
ATACAGTCTGTGCTGTGTGCCAAGCCACACCTTCAAGTGTGGCTATAGCTACAATCCCGAAGGAAGGGGTGCCCATTTTTTCTTTAACAGCTTATTGAGA
Celera SNP ID:            hCV29428776
SNP Position Genomic:     22360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3298):
CAGCTTATTGAGATATAATTTACATTCCAGAAATTCACCATTTTAAAGTGTGAAATTCAGCGGTTTTTGGTGTATTCATAGAGTTTTGCAACCATCACTA
R
TATCTGATTTTTGGAACATTTCATCATAAAAAATCCCCATGCCTGTGCCCATTATAACTCACTCCCCTTTCCCTCCTGCCATTTCCCCAAGCCTCTGACA
Celera SNP ID:            hCV29428777
SNP Position Genomic:     22548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3299):
AAGTGTGAAATTCAGCGGTTTTTGGTGTATTCATAGAGTTTTGCAACCATCACTAATATCTGATTTTTGGAACATTTCATCATAAAAAATCCCCATGCCT
R
TGCCCATTATAACTCACTCCCCTTTCCCTCCTGCCATTTCCCCAAGCCTCTGACAATCACTAATGAACTTTCTGTCTCTGTGGATTTGCCCATTCTGGAC
Celera SNP ID:            hCV29428778
SNP Position Genomic:     22593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3300):
ACAGTAAAAATAGTAATACTACCAGCTGACACCTGTGGAGCACATGCTGTACGTCAGGAACTCTGCTAAGATTTTTGCCACATCTCATGTAATTCTTACA
S
CAGCCCTATGAAGTAAATACTGTCATTTTAGGAGATGCAATCTGGATATTCTTGGTGGTAACCATTCTTCAGAATAAGAGGCTATACAGCATATTGTTAA
Celera SNP ID:            hCV27334230
SNP Position Genomic:     12383
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3301):
TGACGACAAATAAATATTTGTTGAAGGTACGATTTACCAACATGGCAAGTAACATAACTGAAATCCTGTCCTACTAGAGATGGTCTGCAATATACAATGA
Y
TTCACTTATGATTTTTTGACTTTACAATAGCGCAAAAGCAATGCATATTCAGTAGAAACCATACCCATGCCACCATTCCATTTTTCAGTTTTAGTGCAGT
Celera SNP ID:            hCV29428779
SNP Position Genomic:     23160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3302):
CTAAGATTTTTGCCACATCTCATGTAATTCTTACAGCAGCCCTATGAAGTAAATACTGTCATTTTAGGAGATGCAATCTGGATATTCTTGGTGGTAACCA
Y
TCTTCAGAATAAGAGGCTATACAGCATATTGTTAAGCACCCAATTACTTGATTCTAAATCTTGACTACCATTTATTAGCTATATGGCTTTGGGTAAATTT
Celera SNP ID:            hCV27334231
SNP Position Genomic:     12448
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3303):
TTTAAGCCACCCAACCTATGGTATTTGGTTATAGCAGCCTGAGAAGACAAAGACACCCCTACAACCTACCCTCCACTCTCATCTCCAACACACACACACA
M
AAAATTTTAATACAGAGGAGCATAAAATGAGTAAGTAGGTTTGATATGTCACTTCCTGTTAATAAGTGAGGTGTTTTTGGATCCTTTATATAAAGAATCA
Celera SNP ID:            hCV27334232
SNP Position Genomic:     14914
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,5)   total(A,4|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3304):
GGTAAAAGTAAGACATCTCGCATTGTGGTAAACTGGTTGACAAACCCTTTCAGTAGAGCCTACATGGGCACTAGAGAAAAAGTAGCTCCTATTAGGTATA
Y
TTTCAGGACCTCCATAAAAACCACCGTTTCCCACCATTACCAACATTACTCAATGGTGATTCTTCAGTGTCTTTTATATGAATATATGGATTAATGTACC
Celera SNP ID:            hCV16153648
SNP Position Genomic:     36219
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3305):
TAGTCCCAGTGGCTCAGGAGGCTGAGGCAGAAAAATCTCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGG
Y
GACAGAGCAAGACACCATCTCAAAAAAAAAAAAAAAAAAAAGTTATTATACAATTGAAAATACTGGCAATATTTTATGGTATTCAGAAACAGCTAGTTTT
Celera SNP ID:            hCV27334233
SNP Position Genomic:     19944
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3306):
AGTTCCTTACAATTACTTTTTATTTGGTTTTTTTTTTTTTTTTTTAGTTAAAAACCCATATGCTTGCTGCTTCTGTTTCTGTTTTTCACTCTTATGATAC
R
TAACAATATAGCACCATGCCCAAGAGGGGACTGAGACATTTCTTGATGACAATAACAGAATATATTTTGACTACTTGGCTATCCAAATTAAATAACACTG
Celera SNP ID:            hCV16153649
SNP Position Genomic:     15221
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3307):
TGAGGCAGAAAAATCTCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACACCATCTC
A
AAAAAAAAAAAAAAAAAAAGTTATTATACAATTGAAAATACTGGCAATATTTTATGGTATTCAGAAACAGCTAGTTTTTAAGGTATAATTATACTATAAT
Celera SNP ID:            hCV27334234
SNP Position Genomic:     19966
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3308):
TGAGTTAATTATTGTTGAAGCTCTATGATGGGTAGATAGAAGTTTACTACACAATTATGTGCACTTATATATATATTTGACATTTTCCACAATAAAAGTT
A
AAAAAAAATTAATAATAAAGCCATTGTGCCTAGATCCAGAATTCTATGAATAATTCAACCTGTATATCCTATATCCCCAAGGAGAACATGATTTGTCTTC
Celera SNP ID:            hCV27334235
SNP Position Genomic:     20311
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,3)   total(A,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3309):
CTGGTGATACTAAGTGACATTAGTTAAGGTAGCAAAGCTGGTGTGAATTGAAACTGAAGTTTGAAGCCAGGACTCTTTGATTTAAAACTGTTTTTATCCT
C
CACAATTATGCAGTCATGTCAGAGCTGCATGTGGAAGTTTCAAAGAAGAGACCAGAGAACTAATGATTTGGGCTGTATCTTCATGCTTCATTTAGAGGTA
Celera SNP ID:            hCV27334236
SNP Position Genomic:     27672
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|-,7)   total(C,5|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3310):
ATTTAGAGGTAAATGGGTGTGAGTTGGATGGCAATCTTCCCCGGGAGGTGTGGAGACACACCCGGAGCAAAAACTCCCTCAAGATTTTCCTGAGTGCATA
T
TTTTTTATGTGGATTATTTCTTTATTTCACACAAAAAGAAGCATACATCTAACCTCTCACGAACTTACCAGCAAATCCAGGGACAGAGGCTTTTTTCCCA
Celera SNP ID:            hCV27334237
SNP Position Genomic:     27862
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,7)   total(-,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3311):
AACCTGTATATCCTATATCCCCAAGGAGAACATGATTTGTCTTCTTTGCCTTTTCTCCTACCTTTTTCCATGAGTAGTCATAACCATCCACATTAACCAC
Y
GGCATAACATAGAAATCCACAAGCCTCAGGAGATTGGTATATTGCCCTATTATCCCATAGAATTGAGTTATCTGCAAATTAAACCAAGTATATTTAATTA
Celera SNP ID:            hCV9884940
SNP Position Genomic:     20468
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,23|T,15)   total(C,54|T,22)
SNP Type:                 INTRON;SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:3312):
AGCACACAAAATCAGTAGCATTTATATACAACAATAGCAGACAACCTAAAAGAAAAATCAAGAAAGAAATACCATTTACAATGACCAAAAAAAAAAACCT
R
TAATAAATCTAACCAAAGAAGTGAAAGACCTACAATTAAGACCATAGAACACTGATGAAAGAAACTGAAGAGAACACACAAAAAAATGAAAAGATACCTC
Celera SNP ID:            hCV27334239
SNP Position Genomic:     29845
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,2)   total(G,1|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3313):
GAGCCCTGAAGAGGCAGGAAACTTGAGGTCGAGACTCTGCTTTACCATTAAGCAGTCATGTTAATTTGGGCAACTACTTCATCGTCTCAGCCTCAGGGGC
M
TCATCTGTACCAGGAAGGAACTTGGGCCACTGGATCCCTCCAAGCTCAAGCATTCTTTGATCTATAGACATGGAACCAAGCACACTGTGAGATATCTATA
Celera SNP ID:            hCV16085831
SNP Position Genomic:     13997
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3314):
GTAGCTTTTCCTAGGAACTGGCTATGAATTCCTAACGGACATCATCTCAAACTTGTTCCTCTCTACTTTAGAGTCATCCAGCTTAGTGGCACATATTGCA
R
TGTGATCCAATGGCATCCAAATTTGGTGACTGAGAAGTTTACCCCAAAATGACAAAATGTACAGGCAGGAGAACTATAAAGACAAATTTTAGCTGGTCAA
Celera SNP ID:            hCV9884947
SNP Position Genomic:     21143
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3315):
TTTCATATAAATGGAATAATATATGTGGCATTTTGTATCTGGTTTCTTTTACTTAGCATAGTATTTTCAAGATTCATCTATGTTGTAGCATGAATCAGTA
Y
TTCATTCCTTTTGATTGCTGATTGATGTTTCATTGCATGAATATGCTGCATTTTGTTTTTCTGCTCATAAGTTGATGGAAATTTGAGTTGTTTCCACTTT
Celera SNP ID:            hCV9884948
SNP Position Genomic:     22795
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:3316):
GGCTTACTTCATTTAGTGAGTGATACTGTTCATAGTACGATGCGGAGGCTCGGGGGCTGACTGTGTCGTTGGAAATCTGCTGTTGAATAAGATCTTCCAC
R
TCTGCCAGCAAGACACTAGGTGATGAAACAGAGAGTGAGCTAGTTTCCAAGCAGAGGGTGGATCTTCCCACATGGCCCATTGCAGGCACAGCAGGTGAGC
Celera SNP ID:            hCV11301133
SNP Position Genomic:     35973
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,27)   caucasian(A,15|G,23)   total(A,20|G,50)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS

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;TFBS;hmCS


Context             (SEQ ID NO:3317):
CAATTTTTCCATGGATGGGGCAGAGTTGGGGTGGAATCAGTGGTGGGGATGGTTTGGGGATAAAACTGTTCCACCTCAGATCATCAGGCATTAGATTCTC
M
TAAGGAGCATGCAACCTAAATCCTTTGCATGCGCGGTTCACAGTGGGGTTTGTGCTCCTATGAGAATCTAACGCTGCCACTGATCTGACAGGAAGCATTG
Celera SNP ID:            hCV1872260
SNP Position Genomic:     28274
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3318):
TTCACTTGTCTTGGGTATACACCTAGGAGTAGAACTGCTGGGTCATATGGTAACTCTATACTTAATCTTTTGAGGAACTTCCACATTGTTTTTCAAAGTG
R
CTGAAGAAATTTTGCCTGACGACAAATAAATATTTGTTGAAGGTACGATTTACCAACATGGCAAGTAACATAACTGAAATCCTGTCCTACTAGAGATGGT
Celera SNP ID:            hCV9884949
SNP Position Genomic:     23043
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3319):
TCCATAGCATAAAGTGTTATTCCCAGCAGTTAGAGATATTCTTAGCTGTAGACAAACATCCTGCAGTTTACCAAATATGATGCAGTCTTCTCAGGGAAGA
K
ATCTACCAAAAAATGAATGACCACCATTTAATTAACCTAAGTGTGTTTGTGTTTTATTTTTTACCATCTTCCACCAATTATGATTCTTGAATATTCCCCT
Celera SNP ID:            hCV11301134
SNP Position Genomic:     35716
SNP Source:               Applera
Population(Allele,Count): african american(G,7|T,15)   caucasian(G,8|T,28)   total(G,15|T,43)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|G,4)      total(G,4|T,2) ;JBIC-allele(T,508|G,955)   total(G,955|T,508)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:3320):
TCAAGAACACCTCCAAAATTAATCATAATGTATTTGCCTTTAAAAGTCAGCTACAACACAGTTTAGGGTATAGAGCAGTGGTCCCCAACCTTTTTGGCAC
Y
AGGGACCAGTTTCATGGAAGACAATTTTTCCATGGATGGGGCAGAGTTGGGGTGGAATCAGTGGTGGGGATGGTTTGGGGATAAAACTGTTCCACCTCAG
Celera SNP ID:            hCV1872261
SNP Position Genomic:     28152
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,4)   total(C,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3321):
GAGGTGTGGAGACACACCCGGAGCAAAAACTCCCTCAAGATTTTCCTGAGTGCATATTTTTTTATGTGGATTATTTCTTTATTTCACACAAAAAGAAGCA
Y
ACATCTAACCTCTCACGAACTTACCAGCAAATCCAGGGACAGAGGCTTTTTTCCCAGTATGGTGGGCTAACACAAGCTGCTAACTCTGGAATAAGAATCA
Celera SNP ID:            hCV1872262
SNP Position Genomic:     27906
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:3322):
ACACCTCGGCCTCTCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCAGGACTCTTGGTTGGTTTTGCCAAAACTTTCTTAGAACTGCACTA
Y
GACCTGAAATGTTCCCTACCTGCTTCCTTCCTTTCCTCTCTCCTCCACAGGGGTTAAGCTTGCATTGCAGTCTCATGGCTCTCCCAGCCTCCTCCAGCCC
Celera SNP ID:            hCV15830019
SNP Position Genomic:     49664
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:3323):
CAGAGAACTAATGATTTGGGCTGTATCTTCATGCTTCATTTAGAGGTAAATGGGTGTGAGTTGGATGGCAATCTTCCCCGGGAGGTGTGGAGACACACCC
R
GAGCAAAAACTCCCTCAAGATTTTCCTGAGTGCATATTTTTTTATGTGGATTATTTCTTTATTTCACACAAAAAGAAGCATACATCTAACCTCTCACGAA
Celera SNP ID:            hCV1872264
SNP Position Genomic:     27825
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:3324):
TGAGCAAGGTGAAGAGGAGCTTTACTGAGTAATAGAACAGCTCAGAGGAGACTCGCGGTGGGTAGCTCCTCTCTGCAGCCAGGGTGTCCTGATGAGTGTT
M
GTTCTCAGCAGAGAGGAGACCCTGGAGTGGGTGGCTCCTCTCTACAGCTGGTCCTCCCCATGTCTCTCCAGAAGAGTCTGGCTGAATCCGGGGGATTTCT
Celera SNP ID:            hCV16136452
SNP Position Genomic:     39880
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(T,5|G,2) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3325):
ATAAAGGGGATTACATCAAACTGAAAATTTGCTTCTGCACAGCAAAGGAAATAACAGCGTGAAAAGAAAAAAATGGGAGAAAATATGTGCAAGCTATCCA
K
CCAACAGGGACTTAATAACCAGAATATATAAGGAACGCAAACAATTCAAAAGGAAAAAAACAAATAATCCAATTTTAAAAATGAGAAAGGAATCTGAACA
Celera SNP ID:            hCV29428780
SNP Position Genomic:     30607
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3326):
ATGTGAATACTTACATGGCCTATGAACCACAAGCAGAAAGCAGGAGAGATCCATTCTCTGGCATGGATTCCACAGTCAATCCATATGGCATTTTTGGCTG
Y
TTGTTCTTTTCCAGAAACCTGCTCAAAGAAACCCCAAAAGTAGCAAAAACAGTAACAATAAGCTTCAGGATAATAACTTTCATTTATATAGTGCTTATAT
Celera SNP ID:            hCV1872266
SNP Position Genomic:     27396
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,4)   caucasian(C,16|T,8)   total(C,22|T,12)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(A,107|G,205)   Chinese(A,15|G,45)   Japanese(A,6|G,14)   African(A,44|G,56)   (A,5|G,6)      total(G,6|A,5) ;(G,-|A,-)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:3327):
CCTGCCTCGGGGAGTTCTTAGGTCTGAGCTCCCCAAAAGGCTGCAGCTCTTCTCTCCTTCTTGTCACCCACAACGTGGCAAGCAAGGGGCGTGTTTCAGC
Y
CTGTTTGTGTTAGAGCTCTTTCACCTCCACCATTTGGCAGGTTCAGCGCCCGGGAACAATGACGTACGTGGACAAGCGGAGGGTGAGCAAGGTGAAGAGG
Celera SNP ID:            hCV16136453
SNP Position Genomic:     39696
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;TFBS


Context             (SEQ ID NO:3328):
GACCCTGGAGTGGGTGGCTCCTCTCTACAGCTGGTCCTCCCCATGTCTCTCCAGAAGAGTCTGGCTGAATCCGGGGGATTTCTATGGGCTTCAGATGGGA
R
GAAGTGAGTGCTGATTGGTTCATGGGTGGCCATAGGCGGGTGCGGAAAAATCACCGTCAGTTCCCACTGCGGTCCACGGGACTGGCAGCCTTCCTGGGCT
Celera SNP ID:            hCV29428781
SNP Position Genomic:     39998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3329):
GATTTTTGAAATCCTTATTGAGTTGTAGAAAAGAGTGAGAGACTTAAAAGCTAAGATTTTAATTTGCCTTTGGGTGGTTTAGTTTTTGAATATAAAACCT
R
CCTTCACAATTGTTGAAAGGTAAATATTTTATTTTACTTTCCCTCCTCCAGTGCTTTGAAGTACTAAGAGAGTCAGATGATCTGAATTAGTTTTAGGCAG
Celera SNP ID:            hCV1872267
SNP Position Genomic:     25431
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3330):
GAGCTATGACATGGTCTGATGATGCTCTCTGCCTTCTCCAGCTCCCGCCTCTATCCTCCAACAGCATTCCCCTCATCGCTTGCTCCTCCAGTCTAGTCTT
R
ACCTCTGCTTCTTGGAAAACACTAACAAACAAGGAGCCATCAATTTTGTACCATGATATTGTTACAGGATCCCTGGGGTCGCTTCACCAGCAGAAACCTC
Celera SNP ID:            hCV16136454
SNP Position Genomic:     39157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3331):
GAGGGTCCTTCTCAGAACACTGAGAGTGCAGAAATGCCTGGGTCTGCAACCCCAGCTGGGCAGCTGCAGCTGCGCCCAGGAGGGCAGGGCTCCTGCCTGC
Y
CCTGGCCCCCAAGAGCACAGGGATGTCCAGGTCTGTAGCTGCAGCGGGCAGCTGCAGCTGCGCCTGGGGAGCATGAGGCTGCCGCCCTGCCATCACAGAA
Celera SNP ID:            hCV29428782
SNP Position Genomic:     40551
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3332):
GTCAGTGCACGATAGCAATAAAATAAGAGTGCAACCAGTTTGTGTAAGTTTCTGAGAAGAGAAGGATCATTGGTAGTATCAGGAGAAGAGAATGCTGATC
Y
ACTCCACCAGGCCTCTCAGCACATGGTGATGTGAAAAAAAGAGCAGCCCCTCTACTTGAAGGAGCCACCAGGGAGCAGTGTCCTTAGGTCATGTGTCAGC
Celera SNP ID:            hCV1872268
SNP Position Genomic:     24848
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3333):
ATGTGTGAATTCTGAAACAATACCCTTAGATTTGCCTGATTCAACTTTATAAAAATGGTATACTATATGTATTCTTCTGAATCTTGTTTTTCTTTTGTTC
R
GTATTGTATTCTCAAGATTATCATCTGTGTTGAAGTAGCTAGCCACAGTTCACACATGAAAGCATTTTCTTACAAGTGGAATTGCCATTTCATGGGATAT
Celera SNP ID:            hCV29428783
SNP Position Genomic:     41888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3334):
GAACTGTGAAGATACATTGTTAGGTGACTCTCACACATGGACTTTGAATTCACTCAGAATGATGGCAAGAGTTGGAGGGGAATAAAGAATCATGAACCGG
R
TACCAGGAAATTATCTGAAGGTCAGTGCACGATAGCAATAAAATAAGAGTGCAACCAGTTTGTGTAAGTTTCTGAGAAGAGAAGGATCATTGGTAGTATC
Celera SNP ID:            hCV1872269
SNP Position Genomic:     24727
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3335):
GACCATAGAACACTGATGAAAGAAACTGAAGAGAACACACAAAAAAATGAAAAGATACCTCATGCTCACGGGCTTAAGAATTAATATTGTTAAAATGTCC
R
TACTACCGAATGGAATCTACAGATTCAATGCAATCCCTGTCAATATCAATATACTCTTCATAGAAAGAGAAAAAAAATTCTAAAATTCATATGGAGCCAT
Celera SNP ID:            hCV27334240
SNP Position Genomic:     29985
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3336):
GCACAGCAAAGGAAATAACAGCGTGAAAAGAAAAAAATGGGAGAAAATATGTGCAAGCTATCCAGCCAACAGGGACTTAATAACCAGAATATATAAGGAA
Y
GCAAACAATTCAAAAGGAAAAAAACAAATAATCCAATTTTAAAAATGAGAAAGGAATCTGAACAGACATTTCTCAAAAGAAGACACACAAATGGGCAACA
Celera SNP ID:            hCV27334241
SNP Position Genomic:     30643
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:3337):
TAGTTCGATTCTGGACCTCTCTCTTGGGTGGAAGTCCAGTTGTATTTGAGGTTCTGTCAAGATAATAGGGGAAGGAAAAAGCAAAAAAAAAAAAAAAAAA
G
AAAAGAAAAGAAAAGAAAAGAAAAAAATTCTGACTTTAGGCTAGCACCCACTTCAAAGCAAACATTGAATTATTGTCTGGTTTGGGATTGCTGGGATTGA
Celera SNP ID:            hCV27334243
SNP Position Genomic:     32989
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,5)   total(G,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3338):
TAAAGATATTCTCATATACTTCTTCTGTCCTTCTTATTTAAATTTTAAATTCAATTGAAAATTATTTGGTTGGGTGCAGTGTAAAGAAGAAATAGACTTC
T
TTTTTTTTCTTCTTAGCATCGTTTATTATTATGATTTTTTACATCATCTATATTTTTCCCAGGGATCCACTATGTCAATTTTGTCATATATCAAGTTTCC
Celera SNP ID:            hCV27334244
SNP Position Genomic:     42590
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,4)   total(-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3339):
CACCTGTCTCCCTTGCAACCTTGAGAAAGTGGCTAAGAGATCCTCAGAGATGCCAGCCCTGTCTCCAGACTTATGGTTATGGGAGAAAAAATAAACCCCA
Y
TTTCCTTAATCCACTGTAAATTTAGTTTTTCTGATATTTGTAGTTTTAAAGCTACCATCAATATAGCCCATAAAAGAAAAGCCTCACTTCAGAGCTCAGA
Celera SNP ID:            hCV16229355
SNP Position Genomic:     11825
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3340):
TCAAAATTAAAAAAAAAAAATTCATCCTTGAGGGGAAATGACAAATATCAGTACCACCCTTAAAGACCTAAAAGATGCAGGGATGATAGATCCCATCAAA
W
CCACATTTAATTTGCCATCTGGATCCCACAAAAACCAGATGGATCCTGGAAAACGACAGCAAACAATCAAACTCAACCAAGCAACAATCTCAATTGCAGC
Celera SNP ID:            hCV27334245
SNP Position Genomic:     48852
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3341):
CATTTCCCACTGGCTTCTTGCAGCTAATAACTGAGTATGGTGGGGATACTAAGGGAGGCTCTTTCTACAAAACTGGAAACTCTTCTGATGTGTGACTCTG
S
CTATAGGACTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTTGTCACCCAGGCTGGAGTGCAATGGAGCAATCTTGGCTCACTACAATTCT
Celera SNP ID:            hCV27334246
SNP Position Genomic:     49304
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,10)   total(G,2|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3342):
TGGCTTCTTGCAGCTAATAACTGAGTATGGTGGGGATACTAAGGGAGGCTCTTTCTACAAAACTGGAAACTCTTCTGATGTGTGACTCTGCCTATAGGAC
T
TTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTTGTCACCCAGGCTGGAGTGCAATGGAGCAATCTTGGCTCACTACAATTCTGCCTCGTGGG
Celera SNP ID:            hCV27334247
SNP Position Genomic:     49314
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3343):
GGCTTCTTGCAGCTAATAACTGAGTATGGTGGGGATACTAAGGGAGGCTCTTTCTACAAAACTGGAAACTCTTCTGATGTGTGACTCTGCCTATAGGACT
T
TTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTTGTCACCCAGGCTGGAGTGCAATGGAGCAATCTTGGCTCACTACAATTCTGCCTCGTGGGT
Celera SNP ID:            hCV27334248
SNP Position Genomic:     49315
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,7)   total(-,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3344):
CATTAATTTAAATTTCAAATTCCACAAGGGGATATTGAGCACCAATTATGTTGACCAAACAATATACCAGGTTATGGGGAACAAAAAAATTACTTTAGAC
Y
TGGTCTCTGCCTTCAGAAAGCTAATAGAAGTGATAAGTTGGAAAGGGAAAAGCAGCAGTTCAATGCTATTAATATAAGTATGATAATAAACAATGGCAAG
Celera SNP ID:            hCV1872270
SNP Position Genomic:     24102
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3345):
GAACTTCCACATTGTTTTTCAAAGTGGCTGAAGAAATTTTGCCTGACGACAAATAAATATTTGTTGAAGGTACGATTTACCAACATGGCAAGTAACATAA
Y
TGAAATCCTGTCCTACTAGAGATGGTCTGCAATATACAATGATTTCACTTATGATTTTTTGACTTTACAATAGCGCAAAAGCAATGCATATTCAGTAGAA
Celera SNP ID:            hCV9884959
SNP Position Genomic:     23117
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3346):
GTTAATGGGGTTGCTAAAAAAAAATATAAGACACATGAAGGGAAAATTTTAAAACAAAATGTCATTTTCATTACCATTACAAATATATCAGAGAGCTATC
Y
GTCTCAGTTTTTACTCCAATCTCTATATATGTATGTATAGTTTGAACTGTAGCCAATGACAATAAAGTATTTATCCCAACAGTAGGTACTGTTTAGATAC
Celera SNP ID:            hCV1872271
SNP Position Genomic:     23861
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:3347):
ATCAGGTTCACATTGTTGGAGCAAAATACTCAGCTATAAGATCCTTGGGCTATATTTTGTTCATCCTTGTATTTCCAGGATCTGAAACATCATAGGCAAT
Y
TATAAATATTTGTGGATTAAATAATTTAATCTTACAAAGATTCAGCAAGCAGTTTGGGTAGAGGGTAGGATGTCTAATAGGAGGGCAGAGGTGTCAGGGT
Celera SNP ID:            hCV16136461
SNP Position Genomic:     25698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3348):
AGCTGTGCTGCCCAACATGATGCCTCCTCCAAGGTACAATCCACACCCAGTGACTAATAAACAGGGGTTACAAAGGCATGCCTGCTTGCCCCAGTTTGGG
W
CAACTTTACCAGGCCAACCCAGCCTCAAGGCTCTCCACAGGAACAGGTGAGGCCATAGTTGTGATTACATCACAGGTCAGTTTCTCCTCTGCCCAAGCCT
Celera SNP ID:            hCV25935513
SNP Position Genomic:     52173
SNP Source:               Applera
Population(Allele,Count): african american(A,33|T,3)   caucasian(A,28|T,6)   total(A,61|T,9)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:3349):
TGATATTCAGTATTCGGTAGATTAGGTATATTAAATGCATTTTTTACTTAGAATATTTTCAGTTGTGATTGTTTATTGGGTATATTGAGACATAACCCCA
Y
CATAAATTGAGAAGCCTCTGTATAAAAGAAAAAGAAGATGAGAATAGAGGAGAATGGAGAAGAGTGTAAGACTGAGTGATGAGAGGGTGGGATTGATTCC
Celera SNP ID:            hCV27890862
SNP Position Genomic:     23480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3350):
AAGCAGAAATTTATTGAAAATTTGGAGCAGAAATCTTTAATGTACTTCTGACCACCCTTCCTTTTGTTGAGTAGGATCCAATGATCAGCGTGAGATGATC
W
TTGATTAAACTTGCTTGAGATGGCTAGTCAAACGTCGAAAGTTGCTTGAGATGGCTAGTCAAACGTCGAAAATCAAAGAAAAAGTAGGTAACTAGACTTT
Celera SNP ID:            hCV9884923
SNP Position Genomic:     6428
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;UTR 3


Context             (SEQ ID NO:3351):
TTCAGTGCTACTTTTAACTTGCTAAAGTGGTTTAGTAAGTTTAGTAAATAAAATGGGATGGTGATATTTGTTGCCAGACCAACGTTCATTCATTCCTTTG
R
TAGATTATAATTTGCATCACTTGAGATGGTAGGCTGCCTTCCAACACTTCTCCCCCTGTCCCTAATTCACAAGGTGAAGCCCCAGCAAGCTGCATGTGAC
Celera SNP ID:            hCV9884924
SNP Position Genomic:     12041
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3352):
CTTTGAATTTCCTGTATTGTCTGTTATGTTCCAAAAAACAGACTCTCTCCTCAATGCTAAAATTGGAGGTACTTTAATAGGACCAAAACCCTGAGGGTTA
R
GGAAGTCAGGGCAGGAACAATTCCTGCTGCTAATACCAAAACAATGAGTGCTGTGTTGAGACTTAATCTGTGGTGTGCTGTTGTAGGAAGCTAGTGACCA
Celera SNP ID:            hCV27515798
SNP Position Genomic:     10857
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,211|A,1258)   total(G,211|A,1258) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3353):
TGCTGGACAGTGAGCCTCAGATTCTCATTCTATGATTGTCATTCTAGAGATTTCAAGCATTTTAGTGGAAAGAGCCCTGAAGAGGCAGGAAACTTGAGGT
S
GAGACTCTGCTTTACCATTAAGCAGTCATGTTAATTTGGGCAACTACTTCATCGTCTCAGCCTCAGGGGCCTCATCTGTACCAGGAAGGAACTTGGGCCA
Celera SNP ID:            hCV9884925
SNP Position Genomic:     13926
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,4)   total(G,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3354):
TGATATTAAATAAAGAGTAAAGATGGAATATATTATACTGTGAGGAGCTTTTAGGTAATTGCAAAAGGGAAACAAAATTTAAAATGTTATTAGGACAGAG
R
ATCTTACTACAGATTCAGTGTAATAAGAGAACATATACTCTCAGTCTTTATGCTCCTAAGCAATTGCAAAATCAACAGCTCTCTTGACTGGGGGTCAGTT
Celera SNP ID:            hCV25607370
SNP Position Genomic:     41386
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:3355):
AGCCAGGTTGTGACAACACCTAGGCTCAGCCTCAATTTTGCTCCAAGATTGGAGTGAGCACCAGGAACTCGGAGAGACCAGACAGTGGGAGCAGGCACTT
S
CGAGCCTGTAGGGGAATGAGGGTCCTTCTCAGAACACTGAGAGTGCAGAAATGCCTGGGTCTGCAACCCCAGCTGGGCAGCTGCAGCTGCGCCCAGGAGG
Celera SNP ID:            hCV11697313
SNP Position Genomic:     40433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3356):
AGTGGCTGAAGAAATTTTGCCTGACGACAAATAAATATTTGTTGAAGGTACGATTTACCAACATGGCAAGTAACATAACTGAAATCCTGTCCTACTAGAG
W
TGGTCTGCAATATACAATGATTTCACTTATGATTTTTTGACTTTACAATAGCGCAAAAGCAATGCATATTCAGTAGAAACCATACCCATGCCACCATTCC
Celera SNP ID:            hCV9884960
SNP Position Genomic:     23139
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|T,5)   total(A,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3357):
TGCCTAGAGGTTCTAGGAAGAGCAGCTAGAACTTGGCCACTGGGGAAAAAAATAAAAGAGGATTTTGATATTAAATAAAGAGTAAAGATGGAATATATTA
Y
ACTGTGAGGAGCTTTTAGGTAATTGCAAAAGGGAAACAAAATTTAAAATGTTATTAGGACAGAGGATCTTACTACAGATTCAGTGTAATAAGAGAACATA
Celera SNP ID:            hCV25607371
SNP Position Genomic:     41321
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,31)   caucasian(T,40)   total(C,3|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:3358):
TATTATAAATTAGGCTCTGTGTTAGAAGATTTTGCCCTACTGTAGGCTAACGTAAGTGTTCTGAGCACATTTAAGGAAGGTTAGGCTATGATATTCAGTA
Y
TCGGTAGATTAGGTATATTAAATGCATTTTTTACTTAGAATATTTTCAGTTGTGATTGTTTATTGGGTATATTGAGACATAACCCCACCATAAATTGAGA
Celera SNP ID:            hCV9884961
SNP Position Genomic:     23392
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3359):
GTTGTAGTAAGATTCTGTAGAACTTGAACTTGCCTAGAGGTTCTAGGAAGAGCAGCTAGAACTTGGCCACTGGGGAAAAAAATAAAAGAGGATTTTGATA
Y
TAAATAAAGAGTAAAGATGGAATATATTATACTGTGAGGAGCTTTTAGGTAATTGCAAAAGGGAAACAAAATTTAAAATGTTATTAGGACAGAGGATCTT
Celera SNP ID:            hCV25607372
SNP Position Genomic:     41291
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:3360):
GCGACAGAGGGAGACTCCATCTCAAAAAAGAAAAAAAAAAGTGAAGTGGTGCTGCATTATGGACTCACTCGGGTGACCGAAAGAGAGCAGAGAGGGAAAT
S
GTCCCAAATAGGCAGAGCTTCAGTGTTGCATCTCATCATACACCTTGGGTGGAAAAGGTGTTTCCAGTGTTAGAATATGCAGGAATTCATGGAGAGTGGC
Celera SNP ID:            hCV1872240
SNP Position Genomic:     50294
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:3361):
AAATAGTTATATTAGGCAATATAGCTGCATACTCATAAAAAGGCATCAAGGTATTTTTACTACTTGGAGAATATCATATAAAAAAGAAAGTCCTCCTGCG
M
ATTTATTCTTTCAACTAACAAATACAGGGAATGGCTTTTAGTGGATTATGTGAAAGCTTGCTGAGGTCTCACCTGCACATCAACATCTTACTCAAGTTCT
Celera SNP ID:            hCV11697317
SNP Position Genomic:     35227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3362):
GTACAAGTAAAAAATGAAGTGGGCTGGGCACGGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTT
Y
GAGACGAGCCTGGCCAATATGGTGAAATCCCATCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCGGGCACCTGTAATGCCAGCTACTTGGGA
Celera SNP ID:            hCV1872241
SNP Position Genomic:     50013
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Gene Number:                 8
Celera Gene:                 hCG22818 - 104000117480593
Gene Symbol:                 PCBD
Protein Name:                6-pyruvoyl-tetrahydropterin synthase/dimerization cofactor of hepatocyte nuclear factor 1 alpha (TCF1);DCOH;PCD
Celera Genomic Axis:         GA_x5YUV32VT2P(20112577..20130893)
Chromosome:                  Chr10
OMIM number:                 126090
OMIM Information:            PTERIN-4-ALPHA-CARBINOLAMINE DEHYDRATASE;PCBD


Genomic Sequence (SEQ ID NO:1669):
GACATGATGGGCAGCTGTAGGCTCCAGTGGCCTTTGGTGTTTTCAAGAGTGACCGGATTCCAAAAGCTGCAGCAGAGAATGATTTCAGTGAAGAATGTGC
TCCTGGGTTCTGGACATGGAAGAAAAAGATGTAGAGACACAGAGAAGGAGGCCATGTGAAGACAGAGGCAGAGATAGGAGTGATGCTGCCACAAGCCAAG
GAACTCCAGGAGCTACCGGCAGCTGGAAGAGGTGAGGAAGGACTTTTCCCTAGAGCCCTTGGGAGAAGCATGGCCCTGCTGACGCCTCCATTCAGACTTC
TGGCCTCCAGGATGGTGAGAGAATAAGCCACCAAGTTTGTGATAATTTGTTGTGGCAGCCCTAAGAAGCTAACACAGCAGACACTAGTCAAATAACCACA
AAATATATGTAAAATTTAACTGCACTAAAAAAAAAAAAAAAAGTGGCTGAAGCATTTTTCATGTCCACCAACAAAGCATGAGAGTTCCAGCGATGCCACC
TCCTCATCAGCACATGGTAGGGTCAGGTGGCCTTTTATCCAGTCATTCTGGAGGTGTACAGCGGTCTCTCGTTGTGATAGTAATTGCCATATCCCCAGTG
GCCCCACAGGAAGGAGGTGTCTTTCTTCATATTTTCCATACTCTTGCCCTTCTCCCGGTGGTGACTACCAGGCTGGCTGCCCACTACCAGGTTTGTGGTG
AGGAGGTAAGTGTAGGCTCTCTGCTKCCCGGGGCTGTGGAGCTTTCTCAGCCTTCCCACCCATCCGCTTCAGTGCAGTGGACCCTGCCTTATATCCGGGG
CAGGTCCTTCATGGGAGAGCTTCCCACTCTGCCCCAGAGGCAGCTGACCTGGAATGATATTAACATAGGATCTTGGTCCCAGTACGGTTTCCTGGACCTC
CCCCAAGGGTAGGGGGGTTCTCCTACCAGAAATGAGCCACCATGGGGCTGTGCGTGCCCTGGGAGTGACAGGGTTTGTTGGCCCTCAGCCTGTGGCTTAA
GGCTTTTGCTCCACTGAACAGGGGGCTTAGGACAGGGGGTTGGGCGCTTTTCCCACAGCAAAAACAGCCCCTTCAGCCCCCACACTACTGAGTGGGTCCC
TCTCCTTCCCTCATCCTTCCCCACTCCCTCACCGGATGAGCACTCTGAGAGCATGCACAGAGAGGAAGCAGTTAGTGTGTGCAAACTCTCACCTTGTCTG
GGCCCCCTGCTGTCTCAGACCGACACGCCAGCCCACACCTGGCTTCCAACAATTTGTTAAAACTGAACTGATTTCTTTCTTCTTACCCACTTTAATGGAG
GCTGCCCCTTCCTCCAAGCACTGCCCAAGTGAGCCAGACTGCACATCCTGCCTCTCCTTGGAGGGACCTGCCCCCTTGGAATTCAGGATACTTGGTTGCC
CTGTGAGCTCACCTCCCTGGTGAGCTCAAGAAAAGTGATGACTTTGTAGTGCATGCAGTCTTTTCTCATTGTTAAGTATGATAGCAAGGCTTTCTGCCTC
CTGGATGGAAGGTGAATACTTCTTGCTGTCCTTAAGTCTTTCCTTCCACCGTCTCTCACCACCCATTCTCAACCTAACGCTACACATTTTAGGTTGCTTT
TATAGCAACATTCCACTTTCAGGCACCAAATTTTGTTCCTGCCATTTGTTCCTATTGCTGCAGAACAAATCATCACGCTGAGTGGCTTAAAACAAAAATT
ATGATTTCTCATGCTTCCACGGGTTRACTGGTCTCACTTGGGGCCTCACGTGGGATTGAAGTCAGATGTCTCCTGGGGCTGAAGTCATCTGAAGGTTTGG
CAGGTCTGAGCATCCAAGAGTCTCACTCACGTGGCTGGAGAATGATGAACAGTTCCCAGAGTTTCTTTGGCTTAGTCTTAGAAGTTATAGCTGGATGTGG
TGGCTCACACCTGGAATCCCACACTTGGGAGGCCAAGGCCCAACATTTGAGCCCAAGAATTTGAGACCAGCCTGGCAACATAGAAATGTCCTGTCTCTGT
AAAAAATTTAAAACATTATCCAGGCATGGTGACTACCTGGGGGAGCTGAGGCAGGAGGATCACTTGAGCCCAGGAGGTCAAGGCTGCAATGAGCTATGAT
TGCACCACTGCACTCCAGCCTGGGCGACAGAGCAAGACACTGTATCAAAACAAAGTCACATGGTGACATTTCTGCCATATTTGACTGGTCATACTGGGCC
ATCCCAGATTCAACATGGGTGAGAACTATGCAGGGTGTGAATATTGGGAGTCATGGTTCATTGGGGGCTATCTTTGGAGACTAACATCCTGCCTAACACT
ACATACCAAAAGGGACCTTTCACATTTAGGTCTTAAATCTATCTAACTATAAAGTTAACAAAAGAAAAGGGAGTATATTTTTGTAGCAGGGTGGGGAGAG
GACTTATCAAATAAATTTTCAAATGCACAAAATTATAAGGCAGAGGGAAAAAAGATAAATCTTATTACACCAAAATATAAGATTTCTGCCCACAGACATC
ATGGATCTCATGCAAGAAGTCAGTATACAGATGGCAGAATGGGAGGAGATATTTGCAATATCAAAACTGACAAGCAATTAATGTCTAGATTTTATATAAA
CACCCACAAACCAACTAAAAAAAAGAGAGCACTAAAAATTCTCAAAAATTGGCAAAGGATATTAAAAAGCAGTTCACAAATAGTAACCCCCAAATGGTAA
CAAGCATATGAAGAGGTTCTCAAAATCATTAGTCATCAGAAAACAATGTAGAGTAAAACAATTGAAAGCGGCAGGAGGCAGACAATTTCCTAGGCAGATG
GGGGTGGGTCCCCAGTGAAACCCCACCTTCAAGCCAAAAACAGCCTGGACTGCTGGTTTGGGATGAAACCCCTCAACCCAGGGTGAGAACTTCTGTTCCT
GTTTGCCCACCCTTTCCTGATTGGTTCTTTCTGAATAATGCTTTTTAACCAATCAAATGTTGCCTTTTCTAATACTACCTACAGCCCGCCCCTCCCCAAT
CCTGTGCCTATAAAACCCCCTAGACTCAGCCACACTGAGATAGACAACCCCACCTTCTCAATCCCTCTCCACTGAGAGCTGTTTCATCGTCAATAAAATT
CTCCATCCTCATCACCCTTCAACTGTCAGCATGACCTCATTCTTCTTGGATGCAGAACAAGAGCTCAGGACCCACCAAATGTGGGCACCCACAAAGGCTG
TAACGCTGGCCCTCTACCCTCACTGGTGGAGGGCAGCTGCCCCACAGAACAGAAGCCGCAGCAGGGCCAAGCTGGTCCAGGAGCCACGGGCCAGAGTGGA
GAAAGGGGCCGCCTGAGCTGCCAACATGCCGCTGTCCATCAGGCTGCAGATGGTGGAGATAAAAGAGCTATTTAGCACACTGTAACACCCCTCTCTGGGG
CTTCAGGCACCCCTGCCTGGGTGCTGCCACAGTCTCCTTGGGGTGACACACCTGATCTGGCTGTGGGCCCCACACAGAGCCTGTTCCTGTGTCATGGCTC
AGTGCAGCTGGCTGGACCCTGCATTCACTCGGTCACATGCTCCCTCCCGCCAGGGGCTGAGCATACAGTCGCAGTGGCCTTGTGAGCCATGGGCTGTAAC
ACAAGCCAGATGGGGCCTGGCAAGCTGAGTAGATAAGGCACTCCCTGCTGCAACCTCAGCAAAGGGGTCAAGAAAAATCCTGCATCACAACAAGCTCTCA
TTTTATAGCTATTAGCCTGACAAAAAAATAAAAAGCTGGCTAATGGGAAGTGTGAGTATGTATGTGTAAGATGCATATGGAAATAGTACCCCCTCACACC
ATGCAGGAGAGAATGAGGACTGGTGTCCCCATCCTGGACATCATCTAGAACTATTTTGAGATACACACCCATGGGGGGAATTGCTGGATTTATAGGGTAT
GGATATACTTAAGTTGCCTAAGAAACTGCCCACAGCCCAGGGAGCAATTAGAGATGTTCACTGCAGCAGCATTGTTGTTTAACTCTGTGTACGTATGTGT
TTGTGTGCCCACATGCTCACGGGCTTGGGAGGTGGTGGTAGCAGCAGAAAGTTGAAGGGAACCTGAGTGTCCATCACTGATAGAACAAGAAACCCATGGC
AGATTCTCATTACAAAATACTAGGCTGCAGTTAAAAGCTACAGATTGAATATACATATAGCAACATGGGTAGATCTTAATTTTCCACTAAATACTCTGTT
TTGTAAGAAACAGACTGAGAAATGTAATATATTTACATAATACCATTTACATAAATTTAAAAATACACATAGACGAAACAACACCACACATTTTGCAAGA
ACCTGTGCAAACAAAAATACACATTAACACATTAGAGAGGCTGCTATGGGCGGTGGTGGGGGGCGGGGAATAAAAGTGGAGCACAAGAATAAAAGTTAAT
AGAAAAATGTGAAATGTGAGAGGACTTTTCTAATCTGACTCTAAGACTTATTATAAAGCTATAATAATCAAGACAAGGTAGTGTTCTGTCATGACAGACA
AACAGATCAATGGAACAGAAGAAAGGGCTCAGAAATAAACCCACATGTATACAGTCAATTGATATTTTACAAAGGTGCAAAGACAACTCAGTGGAGAAAG
GAATAACTGAGTCGCCATGTGCAAAAGTGCATCTGGATCTATAACTTGAAGCATATAAAAATATTTACTCAAAGTGGATCACAGACTAAATGTAAAACCA
AAAGCTATAAAACATAGGAGAAAACTTTTGATCTTGGGTTAGGCCAAGATTTCTATGTGTACAACATCAAAATAGAAATCCATAAAAGAAACATTTGATA
TATTGGATTTCATCAAAATTAAGAACGTTTGCTCTTTGAAAGGCACCATAAGATAATGCAAAGAAAATATTTGCAAATCACTGCCTGATCATGTCCTTAT
ATCCAGAATAAAACACCCTCAAAACTCGATAAGAAGACAACCCAATTTCTTTTTTAATGGGCAGGAAATTCAAACATGCTATTCAATAAAAAAAACTTAT
CCTTAGCAAATAAGTACATGAAAAGACATTCAATACAATTACTAATCAAGGAAACTCAAAACCACAATGAGATACTGCTACACACCAATTAAAATTTAAA
AGGCTGACTATATCAAGTGTTGGTGAGGACAGAGAACTGCAACCTTCATACACTGCTGCTAGGAATATAAAATGATACAACCATTTTGCAAAACAGTATG
GCAGTTTCCTAATAAGTTATAAAAGTCCACCTACCACATGACCCAGGCATTCCATTCCTAAGTGTTTACTCAAGGAAAATTAAAACATACGTACTTTCGA
AGATTTGTGCACCATATTCGCAGCAGCTTTATTTGTAATAGCCAAAAGGTAAACAACGCAAATGTCCAATAGTGAATCGCTAAACAAATTGTAGTCTATC
TGTACAATGCAATACTATAAAATAAATTTTACTTAGCCATAAAAGGAAGAAACCATTGATATAGGCAACAACATGGCTGAACCCCAAAACAGTTATCCTG
CCTAGTATATACTCTATGGTCCATTTACATAAAATTCTAGAAAATGCAAACTAATTTATAGTGACCTAAAGTACATCAGTGCTTGCCTGGCCAGGTGGTT
TCGGGAGGAAGGGGTTACCAAAGGGCAAGGGAAAACTTGCAGGGATGATGATATGTTCATAATGTTGATCTCGGTGATGGTCTCACGAGGGAAACATTAA
AATTTATCAAATTGTACACGTTGAATATGTGCAATTTATTGCATGTCAATTATATCCAAATAAGAGATTTTTATAAAGAAAAAAATAGGTATTCTGGCGC
CCAGGGCCACCCAGCTGTAAGCGGCGGGGTGGGATTCCAACCCAGAAGCGGGCATTTGGAGCCCTCATGCTTCACCCTAGCTCCCTGAAACAAGCACGGA
GGATGGCTCTGAGCAGCGAGGAAAGTGCTGGAAGCAAGCAGGCCGAGCGCGTCCCTGGCTGGGGACGTTAATCATTACCGGAGGGCGGCCCGAGCGCGGC
CCCGCCCCGGGACGGCAGCCTGCGCGCCCRGCCGCCGCCTGCCCTCTCCGCTGGCCACCTGCTGCCGCCCGCGCCATGGTGAGTCCAGGGGTGCGCGGCC
GCGATCGGGGCAGCGGGGCCGGGGCAGCCGCGGGCGAGGTGGGAGCGGGAAGGGGCGGGGGAAAGTCTTTTCGAGTCCCCTGCGGAGCCGCCGGGGTCCG
AAAGTGGGGTCTCTGCCCGGCTCTCTGTCGCYGGCGGCGGGGAGGGGAAGCTGAAGCCCTGAGAGGGGCGGTGGCGGGTYCRMATCCCACCCAGTTGGGA
GGCCAGGCCTGCCCTGACCCCGGCCAGTGCTTGTTCCGGGACCCTTCCGGGGGCGGGGCCTACGACCTTCCTGGGCCGGGGAAGACAGTCGTGGAGGAGT
CCACGGATCTCGTCCCCTTGGTGGCCCGATTCTGCTTTATACTGGGGTGGGAGCGAGAGGGAGGCTGAGTTTGCGCGCTCGTGTGCGTGCCTGTCCGCTG
CCCCTTCCCGCTGGCACTCTGGGTACGGGGTCTGCCTGGGACTCACGCTCTGCGCCGGTATGCTGGCCCCAGAGCCASTCCCCGCGCCGGCTTGAGGCCC
GTGCCAGGCCACGGGGGCTTGGTGGCGCTGGAGCAGCCCTCCTCCCGTGAGCTTCCCCCACCCACCCCCGGGGCGGGGGCGGGGGCGGGGCCCTTGCTCT
GCTGTAAGCTCGSGAGCTTCATCAGACCATTTCTGGTCCACAGGCCTTCGGAGCAGGCAAGACTGGGAGGGCCTTTTGATAGGAGAGGGACTTGGGGGAG
GGAGGATGAGTGGGGCTGTTTGTGAGGGGCGCTGAGGTCCCAGAGATGCAGGCTTGGGAAATCGGTAACCACTCCCCACACCTCGCCAGAGGAGGCAAAC
GGGGCAGCGTCCCCCTCTCTGTCTCCAGAGCCRGCACCTGGAAGGTTTGTCAGTTCAGCCGCAGGCTGTGCGACCTGGGGGGTTCCAGAAGGCTCTACCG
AGAAAGGGAAGCCTYCTAAGAGCTCACCTGGACTCACCCACCCCTTTAAGAGCCAAGGAAGTAAACAGTGGGCTCTGATGCTTTGGCTGACTTCTGGTTG
TCTAGATACACGGACCAGGCGGTCAGCCACGGGGAGAAGGCCAGCTCTGGAGTAGAGACCTACCTACTGGGCAGATGATGCAAATCGCTGCTGCCATTCA
ATCCCTATAGTCATCCAGAGCCGAGGGGAAGAGAGGGGCCAAGCTACATCAGTCCAGAGAGAGCTCACGTTTTCAGGAGGGAAAACAGCAGGGAAAAAAG
ACGGACTTAGGAAAGCACTGCGATGCTTCAGCTACCCCAAATGCTACCAGGCCCATCACAAGCCTGCTTGCCTTAGGAAGTTTTTTTTTTGTAATGCAGA
TGACATTTGCTTTATAGCAGTGGAGTTTCCTAAAGTGTCCCATTGGCACCTCATGATGATCTGTGGAGGTGGAGGTTCTGCCAAGAGAGGTACAGCCACC
TGGCTGGTAAATGGTGAAAGCGGGTCTCAAAACTCCTGCCAATCAACACATGGTGTCCAGTCTGCAGGCTGCCTCATAAAWGCTAAATCAACCTCCCTCA
CATTCCCTCCCCACCCCTAAGGGTATCTTTTCAATTCAGCACTCTATTTCTGCCCTGGGGTGGTGCTACTCTAGAAGCCTAGGTTCTGGGATCTGTTAAG
CTCCTAGACCTGGATCCTCCTAGGATGAAACTGACCCTTGCTTCCTTGCTTTCTCTGAGGTTCCACTCATGGCCTGARTTGTGCCAATTTGGGCTGCCTT
GAGGGCACTTCGCACATTAGGTAAATAGGATGGGGCACTAGGTTTGCCAGCTGCCTTTGGCCAAGTTCCTTCCACTTTGGCCTGAGCTTCCCAACCAGCC
AGAAAAGCAGACGGAAAACCAGAGAAACCTAGCCCTGGCGGCTCAGGACCAGAGGCTGCCTGGGAGCATGACTGAGGACCTACTAGAGGTAGTGCCAACG
GCRGTCAGCTGCAGTGTGGCTAAGAATGGGATGGACACTTATTTTAAATGTAGCTCCTTCGTCCAGCCCCAGCAATGCTGACACACAGACAACACTGCGC
CATCACTGGCTAGGGGTGGGCGGGAAAGAACAGCAGACAAGTCGTTTCCCCTCTCTAGGCCTGTTTCCTCTTCAATACACGTGAAAGTTACGGTAGGGAC
GTGGGGTGCATATGATGAAGTACATAATAGGAAAAGGAAGGGGGGAGAGTCATGGGTACTCTTCCTGAGAGGTTGTGGAGTAACATATTTGCATCTGGGA
TTTATTTTGCTTTTACGCCCTCACTGATGTAATAATCTCATGGAGGGAAGGTCCGTAAGGCTTTGAGGGCAGGGTGGGGGAAGAGTGCTTCTCTGTCCCC
GTCATATGAATTACATTGCTTTTGTGATTTCCCTTGTGTGTGTGTGGAGTGTTAAAACCCAAGACCTGAGGGCCTATCGGCAGACGAGCCTGGACCCCAC
CTCCTGGGCAGGGTGCCACCCTTGAGGCCTCCCAGCCTATTGCTCAAAGACCTGCTGCCCTTTGGTCACCCACGTCCAAAGCAGCCAGTGGAAGCTAAGT
TCCCCTAAAGGTTGGAGCCCCTCTGTTTTGACCTATAAAGAGAAATGCCCTTGGGCCTCTGTTTTTTTCCCTCTTCTAGGCTGGCAAAGCACACAGGCTG
AGCGCTGAGGAGAGGGACCAGCTGCTGCCAAACCTGAGGGCTGTGGGGTGGAATKAGCTGGAAGGCCGTGATGCCATCTTCAAGCAGTTTCATTTCAAAG
ACTTCAACAGGGTATGGCACCAGGGTGGGACAGAGTTTTCTGAGACGGGCTGATGGGGTCACCTTACAAAGCATGTTCTCTCCCTTCACGTCTTGTTAGC
CAAGACTCTCAGACACCACACTCATCCAGTTATTTGGGCACTGTGCCAGTGGGGAAATTAATTTTCCTGTCTAACTCAGAAAGTATCATCTTTGGGGATT
GGAGAGCCATAGGAGGATGTGTCTTGGGCTCTCCCTTCCTGGAACTTTTAGCAGCAGTCTTCTGAGGAGATAGTTCAAGTGGAAACCATGCACATCTGAA
GACATTTGAACAGACGGCCAAGACTGGCCAGGCCAAAAGCCTGTTGTGGTGTTTCCACCTTGTTGRCATCCTAAATAGCAAGACTTTCTTCCTACTGCAA
GGACAATCTCTAACTCAAGCCTGAGAACCAGTGACAGGATGTCAAGGGGGAAATGATTATAGAGGAGTCTCCTGGGGGGAAGCTAATTCATCCTCCTGCG
TCTAGGCCTTGAATTGGTGATGTCCAGAAGTCCTTTCTCTTAGAACACTAACCTGGCTCTCACTCCACTTAAATAGGCCTTTGGGTTCATGACAAGAGTG
GCCCTGCAGGCTGAGAAACTGGACCACCATCCTGAATGGTTTAACGTGTACAACAAGGTGAGTGATGCTGTGTGCCTCTGTTGTGCTCTGCCCCCATCCA
AATACTGCGAACTCTGACACATTCTGAAGGCTTTTGGACTTAACAATGAGCCTTCCTGACCCATAGGTCATCCACTCATCTCATTTCCAATCTCACTGAG
ATTGCACATGCCTAGAATCAACATAAATACCCCTGGGAAAAAAAAATCAGTCTTACTATAAAGAAATGCAAATTAAAAGATGCATGAGATAGTTGTGGTT
AAAGTAGACATTTAAGTAGACATTAAGAAGGCAAAACCCAAGAAAGGAAAGGCTGTGGGAATCAGGCATACTTATTCAGTGTTCATAGCTCTAAATGGCT
TTAATCTTGCTGGAGGTATGGAAGAATGAAAAAGTAATAAACTTGAACTAAGAATACACACATATTTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAGG
AGATCAAGACCCTCCTGGCTAACATGGTGAAACCCTGTCTCTACTAAAAACACAAAAAAATTAGGCGGGCGCGGTGGTGGACGCCTGTAGTCCCAGCTAC
TGGGGAGGCTGAGGCAGGAGAATGGTGGGAACCCGGGAGGCGGASSTTGCAGTGAGCAGAGATTGAGCCACTGCACTCCAGCCTGGGAGACAGAGCAAGA
CTCCGTCTCAAAAAAAAAAAAAAAAAAAAATACAGACACATAGCCAACCTATCAAATTATTTGCTTAATGAATAGAAACAGTCATTAAATGTCTACCATG
TGCCAAAAGCTCTGCTGGTCTCTGTTTATAAAAACAGTAAGGGTGGAAGAGGTCGTCTATGAATGGATAGTGTTTAGGAGTTGGCATTGGTTTTTGGTTT
TGTCTTTAGCTTTTAGGTTGCTCTTGACATTCAGATATTAAGCTTTTATTCTATAGCTGAAGTCATGATTATTTTTGAGAGACAGCAAAGGGGAGATGTA
GAAGATGTTGTTACAGACATGTCAGGAAGGAGTCCCCAGGAGAGATCGTACTGGCCAGCTGCTATTCTGGAGCTCCTAGCAGGGCTGAGCCCAGCAGCTA
GTGACTCCCTCCTGTTCTTAAGTGAAGTCAGTGGAAGCAGAATTTCTGGTTTCATTTCAGGTCCACATCACGCTGAGCAYCCATGAGTGTGCCGGCCTTT
CAKAACRGGACATAAACCTGGCCAGCTTCATCRAAYAAGTAGCAGTGTCCATGACATAGACCCTGCCCTTCCTCTTTGAATTCTTCCGGGGGAARGGGTG
ACTGAACTGGGAGTCCAGGGAGGGAGCTGAGGAGCCCTTACCCTCCCACCACTCCCCTCCCAAGACCCAGCCGCCGCCGTTGAGGGCTGAGTCCTTGCTG
TGGGATGTGCCAGTGTCCCCACCAACACCAGGAATTTAGACCTTTTCCCTGCACCACTCTCTTCATCCTGGGGGCTCTGTTACACTAATTTGAATAAACT
CTCCCCTTTCTTTGCAACTTCCCAGCAACAATAATGATTTTCTTGCCAGGCCGTCTCTTGCTCCCTAATTCATTTCCCAGGAAGCTGTGATACRGGGTGA
AATAAAGTCTTGTCTTAGAAACCAGGACCCTAAACCCCACACTATGTAATAGAAACACATGTGTTTTTATGTCTCAAATAAAACTATTATATCACTTGGT
CTCAGGCTCTAGAAACTTCTTTTCCACAGGTCAATCCAAATTGGAGTCAATAGGCATTTAAATGAAAGCACTTCCTCTGTGCTAGGCACTTCCTCTGTTC
AAGGTACTGGAAAATGACAGGGACCAGACCACCTTGCCTTCAGATTCATTATCATCTAGGGGATACCATTTGATTATCATCAAACAGGAACACAATTAAC
TATTACCAATTACCAATTAACTAGTACTAATTAACTATTACTAGAGTGAATTAATGCTAGGTGGCAGGATAAGAAATGAGCTAAAGGGAACGCAAGTGAT
TAATGGTGAAAAGGGCAAATCTGGAGGCTTTGAGTTATGCCTTGAAGACCTGGGTAGGATTCTTGGGAGGCAGAGATGGCTGAGAGAACACCATGAACAC
AGATAAGGGTGTGAAGGGCACAGGTATTATATGCATTGTGGAACCTATGTCTAGAAAGGCAGTCTGGGGCCATATTACAGGTTGAACATCCCTAATTTGA
AAATTGGAAATCCAAAATCTGAAACTTTTTGAATGCCAACATGATGCCCAAAGGAAATACTCAYTGGATCATTTTAGATTTCTGATTTTCAGATTAGAGA
TGCTCAACTTGTCAGTATAATGCAAATATTCCAAAATCCAAAATCTGAAACACTTCTGGTCTCACACCTTTCAGATAASGGATACTCAACCTATATTTTC
TTCCTGGCTGTGATGGCTAATGTTAGGTGTCAACTTGATTGGGCCATGGGGTGCCCAGGCATTTGGTCAAACATTCCGGGTGTGTCTGTGAGGGTGTTTC
TGAATGAGGATAACATTTGAATCAGTAGACTGAGTAAAGCCGACTGTCTTCCCTAACATGGGTGGCCTCATTCAACCAGGTGAAGGCCTGTACAGAAAAA
AAGGGCTAAAAAGGGCTGACCCTCTTCCAAATAAAAGGGAAGTCCTCCTGCCTGACTGCCTTGAGGTGGGACATTGGTCTTTTCCTGCTTTCGGACTTAA
ACTGAAACATCCACTCTCCTTAGGTCTCAAGGCTACAAGCCTCCGGTGTGCAACAATACCATCTGCTTTSCTGGTTCTCCAGCTTGCCAACTACAGATCT
TGGGACTTGTCAGCCTCCATAATCACATGAGCCAATTCCTTATAAGAAATCTCTTTGTGTGTATTGGTTCTGTTTCTCTGGAGAATCATAATACACAGGC
CTATCATATCAGATATGGCAGATCCCAAATCCTGATGGTCTCTTCAGTTTCTTAAAATCTTAGCAAAGTTCTTAGGGCTTGCCTGGTTTACTCCACAAGA
GAGAAGACACAGGCAGCTTAGGACCTGGCAGGCTATTTATTACTGGAGCAGTTAAGAGATGGTTTGCACAGTCAGTTCCCCAGCCAGGAACTCTCTAGGA
CAGAATATTCCCACGCTGTCATGAAGAAGGGGGCACTAAGAGCAGCCTCATCTCTACCCCCACGAGAATGCCACACAAATTTTACCTCACATATGTCACT
ATGCAGAGACTGGGAAGCCTTCTTCCTAATAGTTCTCACCTGTGTCTCCTAACTCAAGTACTAAGCTGACTTGTAAATGCCGGGGTCACTTGGAACAGGA
ATCTAGCCATGTCACAACTCAGTCTGAATGAGTTGGTCCCCCAGCAAAGGCCAGGAAAGGGGCAGAGGCTGGAGGTTGAGAAATAAGCGTATTGTTCACA
AGAGGGATTAGCAGGACCCCGTTCCTAGCATATATGCTAGTAAAGGATTATCAATACCTATATTGATGGCAAACGAGATTCAGACAGTGGTCTCCCATCT
GCTCCACTTCTGACTTAAAATTTTCCAAGTGTGCTTTGATCTGATGACTGGAGGACTGAAGGACAGAAGACGCCAGATGCGGAGGTATGGACTATGCTGT
TATGTTACATTCCTGCCTCTGCTTATTTTCATGGGTCAAGGGTTGAAAAATGTTCACCCGATGCAGGGACAGCTCATGCCTGTATTTCCAACACTTTGGG
AGGCCAAGGCGGGAGGATCATTTGAGCTCAGGAGTTAGAGACTAGGCTGGGCAATGTAGAGAAACTCTGTCTCTACAGAATATACAGAAAAATTAGCCAG
GCATGGTGGCACACACCTGTGGTCCCAGCTACTCGGGAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGAAGTCAAGGCTACAGTGAGTGATGATCATGC
CATTGCCCTCTAGCCTGGGTGACAGTGAAACCTTGTCTCCAAAAAATAAAGCCAACCTTGGCAGCACTACAGTTGTATGAAGCACATTCATGTGAGACAA
AGACACAGGTAACACTTTCTTTTCTTTTTTTTTTTAGAAATAAATAGGTTTATTCTAAAATTAATCCAAATAATTGAAATTATAGGGAAGGATATTAAGA
AGAGAAAAGATTACAAGACAGAGGAAAGCATAAAAGAAAATAAGGTAATTAAAACTTCAAATCAGGAAAAAGGTTCTCAAAAATCTGACTTTGCCTACCC
AGGTACAGTTGGTGGCTATCAAATTAGGACTCAGTAATTACTTGTGTCACTGAGTGAAAGCTGCTCATTGCTGCCAAGAACCTACAGAGAAGGCCAAGGG
GCTGACGTACAGCTGTATGGAGCAGCAATAAGCACCCCAGACACGACTTCCTAGATAAGCCAGGCCTCCTCATCCAAGTACATCCTGGATCCTCTTTCTC
TCTGGTTTCCAGGTACTCAGGAACTAGGCCATTTGGCAGAAAACTGTAGCAAAAAAGCAATCCTTGGCTTGACTCTGGCAAAGTCTGAATGGGCTAAAAG
CCAAAAGGAAAAGCTGGGTTATCTGAATGACAGCCTTCAGATCCTGACTAACACTTTGGAAAAACTTCTCGTTTCTTATTCATAATAGAATAAGATCTCC
AGCAGTTACATGTGTGTGAAGATTATCTGAGGAGCTCTGTTAGCCCCTAAACCAAATGCAGGGTTTGAGGCCAATGCCCTTTGGTTAGACAGAACCACAC
TGCCCAGATGGCTAGAGACCACCCAGATAACTCAATCCATCATTAAGTTATTGTAAGCAGCAAACTGTAAGCAGAAGTGGATGATGAAGATGGAAAAAAA
TATAAGATAGGGCCTGTCCCTGGCAAACTAAGAACCTGAATTTCAGACCTCTCTGAAATAGGTACGACTACCACTGCTGGTGCAAGGACCAATCAGCGAC
CTATTGAAGTGCCTGGAAATGAGATGGATTGCTGCTTAACTGTGTCTCTTTCATTGGTCTTGGTATCAGTGGGCACACACGATTGTTTCACCACCAGGGG
GCAATCTCTCACCAGGAGCCCATTCAAGCATGGCCACTGCCCCATTTGTCATCTCGTGTGTGCCCAAGTAATCAAATGAATGCAACCATCCACAGTAATT
ACAATTAGGGTCATTTAACTATTTAATTGCTTTTTGAGATTATTGCTGAAATTAGGAAGGGAGCATTGAAATGGGAAGGGGGAGGTTAGAGAAGACAGAG
ATTTAAAAGAAGCAAGTACCATTTTCCAAGTATAAAACTCGTAATATTAAAAGTGACATAGCAGTATATTCACATGACTACTTAAGTCTAATGCAGAAAC
AAGACAGTACAGTTTTTGCAGAGGCCGATGTGACATCTGCATGCRACATGATACTATTAAGTGTCTCTACCCACCTCTGCTACAGAGTAGCTGCTATATG
CACACATACACAAAAATACACAATGAAAAGCCTACAAAAGTGTTAAGTCAAACTAAGGCTCTTAATTGTAAATTAAAGTGGCTACAGTAGGTCCCTTTGA
AAAACACCATCTCCCCTGGCACCAATGTTGTCACAGCACAGAGGAAGCGAGTGGCTCGGGGTCTGGTTCTGGGGAGACGCTCTACAGGGGCACATGCTTC
TCCATCTTGGCAGCTGGCAAGCCACAGTGGTGTCTGCTGGGTGGCTCTGGGTTCCTGGACCTCATTCAACATAATGCACTGACCAAACAGCTCTGACCAC
AGCTACTCTCAAAGAGGTGCCTGCCAGGTCTCCCTCTGACACACACACATACACACACTACCCACTCTTGGAACCCACAATGCACTGCTGGGCAAACAGG
AAAAACACACACACACACACACACACATAAATGCCACACCAGCCCTGAATGGCGTGGCCAGCTAGTCACAGTTGTTGGGTCAGTAGTACAGTGCTCAAGA
ACAATTCAGACTAACATGCCAAGGAGCCTGAGGAAAAGTCTGGTAGTCATGGCTCTCCCAGCCAGCATTCCCAGTGGGGGAAACTAGAAGACACCAGCCT
GGAGAGGCTGAATATTCAGGAGTCCCTGAGATGGGGAATGGAACAGAGGAAAGTGTCTTTTGACTCATCTTAAGTACTCCCCTCCCCAAATAGAAACCTC
AAAGACTGATCCATTTCCCCTAGGGCCTGGGCCAGGAGTAGCTCACTGCTCACTGCTGAGGAGAAAGGCACAAGATATAATGTCATAAGAGCAGGACAGT
GGCTCAGCCTACAGAGTTCCCTATAGGGGAAAGAAGGCAGGAAATAGGCGCAGGGTCTGGTCCTGTCCCTGCACCACCCTGAGCAGCTAGTCTTGGGAAG
GGATTACAGGCCCTGGGCCATAGGCTGCTCGCCATTCTGCTTTCCTATCCTGTTTCTCTCCCTGTGCTGCTCCCTTTTAGCCAGGGCTGAGAAATGTTCA
GCACCTGAGGCAAAACTGCCATAGTACCTCTGAAAGCTGAATCAAGGGGGAAGAGGCAGAAGAACACACTAATAGAGAAAATTTTCCTTGCTACGGGTGC
TCTTTCACACCCACCTAGGGTAAGTCAAGGCAACTTGTGAAGGTGCTTTGAGCTGTTCCTTCAAGCAAACACATTTTCATTACATAATGGCTTAACGCAA
GGGTGCAGGGAAGGACCACCACCAACTTTGGTGACATATTTGAATCTGGGTGTTCATCCTACTCTGATATTCAAAAAAGCATAGAAAAAGGTCTGATTTC
TGCTCATCACCAGCCCAGGATAGGGTTCAGGTGTGCTCTGACCACTGCCAATTCAGGAAGGCGGCACCATGGCCAAAAGCTCCCAGATTATTTGGAAACC
ATGTTTTCTTCCTAGTCCATGGTAACAAGAAAAAGCCAATGGAAGCATCATTCCAAACAATAATCTCCAAAGATGGTGGCAACCAAGTGTCAAATGGGGA
CTGCAGGCACAGAAGAGACCACCCCAAACCCTGCCTGGGTGGACGAAGCAGGTATGCTAGAATAGTCCTGTCCTGCAGAATAGGGAACGGCAGCTTGGTC
GATCTGTGCCCTGGAAAAAGAAAATGAGTTGCAATAGAAGTGACTCTAAGACAGACAATGAACCTACTCTTAAGAGAGACAGGGCCAGGCACGGTGGCTC
ACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGGGGGCGGGTATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACACGGTGAACCCGTC
TCTACTGAAAAAGAAAATTGAAAAATTAGCCAGGCGTGGTGGTGGGTGCCGGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATCGCTTGAACCCA
GTGGGTGGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGACTGGGCAAAAGAGCAAAATTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAGA
GAGAGAAGGCTGAAAAAGCCTCCTGCTTAGAGTATACCTCACACCCAGCTGAGGAAACATCTGTTATGTAAACGCCTCCTGCCTGAGATAACAAAGAAGC
TCTAGCTATCTCATAAACTGTACCCCAGCTTCTCTAAAGAATCAGGACAGGTCAGAGCTACCACACAATGTTTAAGTAAAGTTGAAAGCTAGAGAGTTTA
GAAAAGGAAATGGTTAAAACAATTCCTAGGGTAACATTTATAACAAGGGCAAAATCATTATGTAATGGAATTCTCTGGGGTCTTCAAATTAAAAACCACA
AAAGGAAGATAAGAGGAAGAACAAGAATCCTGAGGCTCAAGCTGTCTCATGGTCTATCTTGAGTTGTGCTCTATGGAGCAAGACCAGATGTCAAAGTTGT
GCACGGCCTGTTCCATATCCCAAGAACCTTCTGAAGGCTGGAATCCCCTTGAGACTAGAAAGGGTCCAAGTTCAGTGGGGTTTTGGAGAACCATTCATCT
GGCTGCCCTGGGTGACAGTGTCGGTGCTGTACAAGCTGTCCAAGAAGACTGAGGACAATTCTGCAACCATATTCCTGTCAACAGTTGTCTGGGCCATGCC
ATAGATGGCACCCTACAAATCCAAAGAAAGAGACATTATTAGTGAGGCCAGGTCCAAAAGCAAGAATAAAACTGCAGCAATGAGCCCCTTCTCCCCGAGT
CCTAGCTTCGCATGTGCACTGCCCTACCCCATTTCCACCTAAGGCATCCCATCATTCTATCAGAAAAACAGCTGGCATAGTCAATTTTTCACAGGGACTT
TCCAGTCTGCCTTTCTGCATAAAGGGACTAGCCTAAGAAAATTCCAGAAAAAACATGTTTACTATCTTTCCTGTGACAAAATTTTCTTTTCAAATGGACA
CTACCACCAGCTGCTTTTATACAGAAGTCTCTAACTTACAAGGTACTTTATAGTGTATCTCATTTGAGACTTCAGCAACCCTAAGGGGTGGGTGATGCAG
AGATCATCAGCTCCAGTCAACAAATAAAAGATGTCTGTGGCAAAGGGGCAGAGGCAGGAACAGACTCCGGGTCATATGATTCCTTCAAACTCTCCACCAA
CACCTAAATTTCCAAGAGAAGAAAAAAAACTCCAAGTGTCCCTACCATTCCTGTGGTCTTCGCTTTAGGATTCTTCATGATTTGAGTGACAGATTCTCGA
ATGTCCTTTAGGAATTGTATAGCTACTCGTTTCCGGGCGTGTAGTAATGTGATGCAGAAATGAATACTAGGAAAGAAGAGACAGAGAGAGATGAACCTTG
AAGAAAGAAAAAATGTTCTAAAATGATGCAGCCCCAAATACGGGAATTTCCTGGTTGCCCTTTCACAATATTTCTGACAAGTGTAGTCATCCAAGTTGTT
CCTAGTCCTGGGAATCTCGGCTCTCTCATGCTTGGGGTGTCAGGCATGGGCTGGCCTCAGAGCTTCTCGGCATGACTGAGAACCATGCTAAGAGGATGAA
CAGTGTTGGCTGCTTT


SNP Information

Context             (SEQ ID NO:3363):
GACTCCCTCCTGTTCTTAAGTGAAGTCAGTGGAAGCAGAATTTCTGGTTTCATTTCAGGTCCACATCACGCTGAGCACCCATGAGTGTGCCGGCCTTTCA
K
AACGGGACATAAACCTGGCCAGCTTCATCGAACAAGTAGCAGTGTCCATGACATAGACCCTGCCCTTCCTCTTTGAATTCTTCCGGGGGAAGGGGTGACT
Celera SNP ID:            hCV27528595
SNP Position Genomic:     10603
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 NONSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:3364):
CAGGGCTGAGCCCAGCAGCTAGTGACTCCCTCCTGTTCTTAAGTGAAGTCAGTGGAAGCAGAATTTCTGGTTTCATTTCAGGTCCACATCACGCTGAGCA
Y
CCATGAGTGTGCCGGCCTTTCAGAACGGGACATAAACCTGGCCAGCTTCATCGAACAAGTAGCAGTGTCCATGACATAGACCCTGCCCTTCCTCTTTGAA
Celera SNP ID:            hCV27863442
SNP Position Genomic:     10580
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:3365):
TTTCTGATTTTCAGATTAGAGATGCTCAACTTGTCAGTATAATGCAAATATTCCAAAATCCAAAATCTGAAACACTTCTGGTCTCACACCTTTCAGATAA
S
GGATACTCAACCTATATTTTCTTCCTGGCTGTGATGGCTAATGTTAGGTGTCAACTTGATTGGGCCATGGGGTGCCCAGGCATTTGGTCAAACATTCCGG
Celera SNP ID:            hCV26554235
SNP Position Genomic:     11779
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3366):
TATTAAAAGTGACATAGCAGTATATTCACATGACTACTTAAGTCTAATGCAGAAACAAGACAGTACAGTTTTTGCAGAGGCCGATGTGACATCTGCATGC
R
ACATGATACTATTAAGTGTCTCTACCCACCTCTGCTACAGAGTAGCTGCTATATGCACACATACACAAAAATACACAATGAAAAGCCTACAAAAGTGTTA
Celera SNP ID:            hCV8863100
SNP Position Genomic:     14745
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   (G,-|A,-)   Caucasian(A,13|G,65)   African-American(A,22|G,60)   total(G,125|A,35)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:3367):
CTGGGGCCATATTACAGGTTGAACATCCCTAATTTGAAAATTGGAAATCCAAAATCTGAAACTTTTTGAATGCCAACATGATGCCCAAAGGAAATACTCA
Y
TGGATCATTTTAGATTTCTGATTTTCAGATTAGAGATGCTCAACTTGTCAGTATAATGCAAATATTCCAAAATCCAAAATCTGAAACACTTCTGGTCTCA
Celera SNP ID:            hCV26554236
SNP Position Genomic:     11664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3368):
CCCTCCTGTTCTTAAGTGAAGTCAGTGGAAGCAGAATTTCTGGTTTCATTTCAGGTCCACATCACGCTGAGCACCCATGAGTGTGCCGGCCTTTCAGAAC
R
GGACATAAACCTGGCCAGCTTCATCGAACAAGTAGCAGTGTCCATGACATAGACCCTGCCCTTCCTCTTTGAATTCTTCCGGGGGAAGGGGTGACTGAAC
Celera SNP ID:            hCV27541359
SNP Position Genomic:     10607
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:3369):
AACTATTACCAATTACCAATTAACTAGTACTAATTAACTATTACTAGAGTGAATTAATGCTAGGTGGCAGGATAAGAAATGAGCTAAAGGGAACGCAAGT
G
ATTAATGGTGAAAAGGGCAAATCTGGAGGCTTTGAGTTATGCCTTGAAGACCTGGGTAGGATTCTTGGGAGGCAGAGATGGCTGAGAGAACACCATGAAC
Celera SNP ID:            hCV26554237
SNP Position Genomic:     11398
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,10)   total(G,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3370):
AAAAACACAAAAAAATTAGGCGGGCGCGGTGGTGGACGCCTGTAGTCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATGGTGGGAACCCGGGAGGCGGAG
S
TTGCAGTGAGCAGAGATTGAGCCACTGCACTCCAGCCTGGGAGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAATACAGACACATAGCCA
Celera SNP ID:            hCV26554238
SNP Position Genomic:     10046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3371):
TTCATATTTTCCATACTCTTGCCCTTCTCCCGGTGGTGACTACCAGGCTGGCTGCCCACTACCAGGTTTGTGGTGAGGAGGTAAGTGTAGGCTCTCTGCT
K
CCCGGGGCTGTGGAGCTTTCTCAGCCTTCCCACCCATCCGCTTCAGTGCAGTGGACCCTGCCTTATATCCGGGGCAGGTCCTTCATGGGAGAGCTTCCCA
Celera SNP ID:            hCV11453018
SNP Position Genomic:     726
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,8)   total(G,8|T,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:3372):
TAAAAACACAAAAAAATTAGGCGGGCGCGGTGGTGGACGCCTGTAGTCCCAGCTACTGGGGAGGCTGAGGCAGGAGAATGGTGGGAACCCGGGAGGCGGA
S
CTTGCAGTGAGCAGAGATTGAGCCACTGCACTCCAGCCTGGGAGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAATACAGACACATAGCC
Celera SNP ID:            hCV26554239
SNP Position Genomic:     10045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3373):
GACATTGGTCTTTTCCTGCTTTCGGACTTAAACTGAAACATCCACTCTCCTTAGGTCTCAAGGCTACAAGCCTCCGGTGTGCAACAATACCATCTGCTTT
S
CTGGTTCTCCAGCTTGCCAACTACAGATCTTGGGACTTGTCAGCCTCCATAATCACATGAGCCAATTCCTTATAAGAAATCTCTTTGTGTGTATTGGTTC
Celera SNP ID:            hCV16042784
SNP Position Genomic:     12170
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:3374):
GCCTCTGTTTTTTTCCCTCTTCTAGGCTGGCAAAGCACACAGGCTGAGCGCTGAGGAGAGGGACCAGCTGCTGCCAAACCTGAGGGCTGTGGGGTGGAAT
K
AGCTGGAAGGCCGTGATGCCATCTTCAAGCAGTTTCATTTCAAAGACTTCAACAGGGTATGGCACCAGGGTGGGACAGAGTTTTCTGAGACGGGCTGATG
Celera SNP ID:            hCV27531884
SNP Position Genomic:     8755
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 NONSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:3375):
GGGCGAGGTGGGAGCGGGAAGGGGCGGGGGAAAGTCTTTTCGAGTCCCCTGCGGAGCCGCCGGGGTCCGAAAGTGGGGTCTCTGCCCGGCTCTCTGTCGC
Y
GGCGGCGGGGAGGGGAAGCTGAAGCCCTGAGAGGGGCGGTGGCGGGTCCGAATCCCACCCAGTTGGGAGGCCAGGCCTGCCCTGACCCCGGCCAGTGCTT
Celera SNP ID:            hCV8863090
SNP Position Genomic:     6232
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3376):
CTGCGGAGCCGCCGGGGTCCGAAAGTGGGGTCTCTGCCCGGCTCTCTGTCGCCGGCGGCGGGGAGGGGAAGCTGAAGCCCTGAGAGGGGCGGTGGCGGGT
Y
CGAATCCCACCCAGTTGGGAGGCCAGGCCTGCCCTGACCCCGGCCAGTGCTTGTTCCGGGACCCTTCCGGGGGCGGGGCCTACGACCTTCCTGGGCCGGG
Celera SNP ID:            hCV8863091
SNP Position Genomic:     6280
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3377):
CCAAATTTTGTTCCTGCCATTTGTTCCTATTGCTGCAGAACAAATCATCACGCTGAGTGGCTTAAAACAAAAATTATGATTTCTCATGCTTCCACGGGTT
R
ACTGGTCTCACTTGGGGCCTCACGTGGGATTGAAGTCAGATGTCTCCTGGGGCTGAAGTCATCTGAAGGTTTGGCAGGTCTGAGCATCCAAGAGTCTCAC
Celera SNP ID:            hCV8863084
SNP Position Genomic:     1726
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:3378):
CTCGTGTGCGTGCCTGTCCGCTGCCCCTTCCCGCTGGCACTCTGGGTACGGGGTCTGCCTGGGACTCACGCTCTGCGCCGGTATGCTGGCCCCAGAGCCA
S
TCCCCGCGCCGGCTTGAGGCCCGTGCCAGGCCACGGGGGCTTGGTGGCGCTGGAGCAGCCCTCCTCCCGTGAGCTTCCCCCACCCACCCCCGGGGCGGGG
Celera SNP ID:            hCV8863092
SNP Position Genomic:     6578
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3379):
GGGGGCTTGGTGGCGCTGGAGCAGCCCTCCTCCCGTGAGCTTCCCCCACCCACCCCCGGGGCGGGGGCGGGGGCGGGGCCCTTGCTCTGCTGTAAGCTCG
S
GAGCTTCATCAGACCATTTCTGGTCCACAGGCCTTCGGAGCAGGCAAGACTGGGAGGGCCTTTTGATAGGAGAGGGACTTGGGGGAGGGAGGATGAGTGG
Celera SNP ID:            hCV8863093
SNP Position Genomic:     6713
SNP Source:               Applera
Population(Allele,Count): african american(C,22)   caucasian(C,25|G,5)   total(C,47|G,5)
SNP Type:                 INTRON

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:3380):
CTCTCTGTCTCCAGAGCCGGCACCTGGAAGGTTTGTCAGTTCAGCCGCAGGCTGTGCGACCTGGGGGGTTCCAGAAGGCTCTACCGAGAAAGGGAAGCCT
Y
CTAAGAGCTCACCTGGACTCACCCACCCCTTTAAGAGCCAAGGAAGTAAACAGTGGGCTCTGATGCTTTGGCTGACTTCTGGTTGTCTAGATACACGGAC
Celera SNP ID:            hCV8863094
SNP Position Genomic:     7015
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3381):
GGAGATAGTTCAAGTGGAAACCATGCACATCTGAAGACATTTGAACAGACGGCCAAGACTGGCCAGGCCAAAAGCCTGTTGTGGTGTTTCCACCTTGTTG
R
CATCCTAAATAGCAAGACTTTCTTCCTACTGCAAGGACAATCTCTAACTCAAGCCTGAGAACCAGTGACAGGATGTCAAGGGGGAAATGATTATAGAGGA
Celera SNP ID:            hCV8863095
SNP Position Genomic:     9166
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): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3382):
GCCTTTCAGAACGGGACATAAACCTGGCCAGCTTCATCGAACAAGTAGCAGTGTCCATGACATAGACCCTGCCCTTCCTCTTTGAATTCTTCCGGGGGAA
R
GGGTGACTGAACTGGGAGTCCAGGGAGGGAGCTGAGGAGCCCTTACCCTCCCACCACTCCCCTCCCAAGACCCAGCCGCCGCCGTTGAGGGCTGAGTCCT
Celera SNP ID:            hCV8863096
SNP Position Genomic:     10695
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,11)   caucasian(A,27|G,13)   total(A,52|G,24)
SNP Type:                 UTR 3;INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:3383):
GGAAGCAAGCAGGCCGAGCGCGTCCCTGGCTGGGGACGTTAATCATTACCGGAGGGCGGCCCGAGCGCGGCCCCGCCCCGGGACGGCAGCCTGCGCGCCC
R
GCCGCCGCCTGCCCTCTCCGCTGGCCACCTGCTGCCGCCCGCGCCATGGTGAGTCCAGGGGTGCGCGGCCGCGATCGGGGCAGCGGGGCCGGGGCAGCCG
Celera SNP ID:            hCV8863089
SNP Position Genomic:     6030
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:3384):
CCAAGAGAGGTACAGCCACCTGGCTGGTAAATGGTGAAAGCGGGTCTCAAAACTCCTGCCAATCAACACATGGTGTCCAGTCTGCAGGCTGCCTCATAAA
W
GCTAAATCAACCTCCCTCACATTCCCTCCCCACCCCTAAGGGTATCTTTTCAATTCAGCACTCTATTTCTGCCCTGGGGTGGTGCTACTCTAGAAGCCTA
Celera SNP ID:            hCV1841806
SNP Position Genomic:     7581
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,8)   total(A,5|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3385):
GCGGAGCCGCCGGGGTCCGAAAGTGGGGTCTCTGCCCGGCTCTCTGTCGCCGGCGGCGGGGAGGGGAAGCTGAAGCCCTGAGAGGGGCGGTGGCGGGTCC
R
AATCCCACCCAGTTGGGAGGCCAGGCCTGCCCTGACCCCGGCCAGTGCTTGTTCCGGGACCCTTCCGGGGGCGGGGCCTACGACCTTCCTGGGCCGGGGA
Celera SNP ID:            hCV16071066
SNP Position Genomic:     6282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3386):
GGAAGCAGAATTTCTGGTTTCATTTCAGGTCCACATCACGCTGAGCACCCATGAGTGTGCCGGCCTTTCAGAACGGGACATAAACCTGGCCAGCTTCATC
R
AACAAGTAGCAGTGTCCATGACATAGACCCTGCCCTTCCTCTTTGAATTCTTCCGGGGGAAGGGGTGACTGAACTGGGAGTCCAGGGAGGGAGCTGAGGA
Celera SNP ID:            hCV27529449
SNP Position Genomic:     10633
SNP Source:               HGMD
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:3387):
CGGAGCCGCCGGGGTCCGAAAGTGGGGTCTCTGCCCGGCTCTCTGTCGCCGGCGGCGGGGAGGGGAAGCTGAAGCCCTGAGAGGGGCGGTGGCGGGTCCG
M
ATCCCACCCAGTTGGGAGGCCAGGCCTGCCCTGACCCCGGCCAGTGCTTGTTCCGGGACCCTTCCGGGGGCGGGGCCTACGACCTTCCTGGGCCGGGGAA
Celera SNP ID:            hCV16071067
SNP Position Genomic:     6283
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3388):
AGCAGAATTTCTGGTTTCATTTCAGGTCCACATCACGCTGAGCACCCATGAGTGTGCCGGCCTTTCAGAACGGGACATAAACCTGGCCAGCTTCATCGAA
Y
AAGTAGCAGTGTCCATGACATAGACCCTGCCCTTCCTCTTTGAATTCTTCCGGGGGAAGGGGTGACTGAACTGGGAGTCCAGGGAGGGAGCTGAGGAGCC
Celera SNP ID:            hCV27541360
SNP Position Genomic:     10636
SNP Source:               HGMD
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 NONSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:3389):
TGAGGTCCCAGAGATGCAGGCTTGGGAAATCGGTAACCACTCCCCACACCTCGCCAGAGGAGGCAAACGGGGCAGCGTCCCCCTCTCTGTCTCCAGAGCC
R
GCACCTGGAAGGTTTGTCAGTTCAGCCGCAGGCTGTGCGACCTGGGGGGTTCCAGAAGGCTCTACCGAGAAAGGGAAGCCTCCTAAGAGCTCACCTGGAC
Celera SNP ID:            hCV16071076
SNP Position Genomic:     6933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3390):
ATAAACTCTCCCCTTTCTTTGCAACTTCCCAGCAACAATAATGATTTTCTTGCCAGGCCGTCTCTTGCTCCCTAATTCATTTCCCAGGAAGCTGTGATAC
R
GGGTGAAATAAAGTCTTGTCTTAGAAACCAGGACCCTAAACCCCACACTATGTAATAGAAACACATGTGTTTTTATGTCTCAAATAAAACTATTATATCA
Celera SNP ID:            hCV11656962
SNP Position Genomic:     10994
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:3391):
AAAAGCAGACGGAAAACCAGAGAAACCTAGCCCTGGCGGCTCAGGACCAGAGGCTGCCTGGGAGCATGACTGAGGACCTACTAGAGGTAGTGCCAACGGC
R
GTCAGCTGCAGTGTGGCTAAGAATGGGATGGACACTTATTTTAAATGTAGCTCCTTCGTCCAGCCCCAGCAATGCTGACACACAGACAACACTGCGCCAT
Celera SNP ID:            hCV29163797
SNP Position Genomic:     8003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3392):
CCTAGGTTCTGGGATCTGTTAAGCTCCTAGACCTGGATCCTCCTAGGATGAAACTGACCCTTGCTTCCTTGCTTTCTCTGAGGTTCCACTCATGGCCTGA
R
TTGTGCCAATTTGGGCTGCCTTGAGGGCACTTCGCACATTAGGTAAATAGGATGGGGCACTAGGTTTGCCAGCTGCCTTTGGCCAAGTTCCTTCCACTTT
Celera SNP ID:            hCV29163798
SNP Position Genomic:     7778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 9
Celera Gene:                 hCG22931 - 206000045740791
Gene Symbol:                 KLK1
Protein Name:                kallikrein 1, renal/pancreas/salivary;KLKR
Celera Genomic Axis:         GA_x5YUV32VY4T(674788..691428)
Chromosome:                  Chr19
OMIM number:                 147910
OMIM Information:            KALLIKREIN 1;KLK1


Genomic Sequence (SEQ ID NO:1670):
GGAGTTCAGTGGTGCAACCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTGTCTCTGCCTCCCGAGTAGCTAGAATTACAGGCACGCAC
CACCACGCCCAGCTGATTTTTGTATTTTTATTTATTTATTTATTTATTTTTTAGTAGAGACGGGATTTCACGATGTTGGCCAGGCTGGTCTCAAACTCCT
GACCTCAGGTGATCCACCCACCTCGGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACACCTGGCCAACCTTGACTATTTATTATAGG
TAATTCTGTGCAGATGTCTGACTTATGTTGGCCATCTCCAGGATGGACCTGAACTTTCACACGTATGTCCCTATGACTAAATCCAGGTGTCATTTGCAAA
AAACAACTAATATTATTAAGTAGCTACCAGGGCTAGGTATCACTCACCATACATACACACATGCACACACACACATACACATTCCTACCTCATCCTTACA
ACAATCTTCATTTTACAGATGAGGAAACAGAGGCACAGACAGGTCGAATAACTTACTCAAAGTTTCACAGCTAGTACATTCGAACCCAGGCTTAAGGACC
CATCTTTGTCCAGACCCTGTATGCAAGTGTCTGTGACACTGGATGCCAAGACTCACACTAGAGATGTTGAATTTAGGTCTGAACAATATCCAATTCTGTG
TGTGTGTTTGTGTGTGCATGTGTGTGTGTGTTGTATTCATGTCTTAACCATCCATATTCATATACACATATGAACATCTGTGCTGTGATTCTTTTTTTTT
TTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTCACCCAGGCTGGAGTGCAATGGAGCAACCTCCGCTCACTGCAATCTCCGCCTCCCGGGTTCAAG
CGATTTTCCTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGGCACCCGCCACCATGCCCAGCTAATTTTTTGTATTTTTGTTAGAGACAGGGTTTCCCCA
TATTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCAGCCT
GTGCTGTGATTCTTGAAGCTGCAACCCATGTGCATGCAAGTGAATTTCAGCTTCCAGTCCTGTCCATAGCTGTACCTAAGTGTGGAAGCTGGATGTGCAT
GTATGCATGTCCATGACCTTGTATAGCCACATCTGGGACTCATACTGCACACTGAATTTGGCTGACATGTCCAGACTCTGGGGCCAAGGCTGGGTCACAC
ATACTGAGTGGCCACATGCGTTTGACGTCTGTGACAATTTGGTGACCGTGAATGACTGGTTTCAAGTGACCACCTGTCTGAACCTGTATCCAGTGCCCCT
GTCTCCACCCCCAACCACAGAGGACTTCTTGCCCTCTGGTCTGTTCCCCTTCCTCTCTCTCCCAGAGTCTTATAGCAAATGGGGTGGGGGCTAGAGTTCT
GGAGAAAACAGGCAGCGGTTGTAAATAAACAACAGGGCAGGCGGAGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGAG
CATTTGAAGTCAGAAGTTTGAGACTACCCTGGCTAACATGGTGAGACCTCGTCTCTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGCGGGCACCTCA
GCTACTCGGGAGGCTGAGGCAGGAGGATCACTTGAACCCAGGAGGCGGAAGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGCAAAAGAG
TGAGACTCCGTCTCAAAAACAACAACAACAACAAAACAAAAAACAGGGCAGGGTGTCTTGAGAAGTTAGGGGAAAGGCATAGGCATATAGTAGTTAGGGC
AGGGTGCAAGGAAGGTGTAGGAGGCAATGTAAACGTCCCTGTCCTCAGGCATCCTCTACCCCTTCTCTTAGCAGCCCAGGATGGTGACAAGTTGCTGGAA
GGTGACGAGTGTGCACCCCACTCCCAGCCATGGCAAGTGGCTCTCTACGAGCGTGGACGCTTTAACTGTGGCGCTTCCCTCATCTCCCCACACTGGGTGC
TGTCTGCGGCMCACTGCCAAAGCCGGTATGAAGGCAGGGGCTCAGGGTCCTGAGGGAGCCTGGTTCGGGGGGAAGAGCTCCTAGATTTGGGGGAAGACGG
AGGCAGACGCCAGAACTCCTGGGTTCTGAAAGACGAGGAGGCCGGATGTCAAGCCCCTGGGTTAGGAAGGAGTGTGTGTTTCAAAGCCTTCGATCTCTGA
AGGAGGAAGGAGAAGACTAGTTCCAGCTTTTGAGCCTCAGTTCTAGGGATGTGAGAATCCTGGATTCGGGGACAGACCAGGAGGGGGCTGGGAGTAGTTG
GAGGGGATCGAGTTCTAGGAGTGTGCCTGACTTCAGACTCGTTGGTCCTTGAGGAGCAGGGGCTGGAACCATTGGCTTCAGGGTCTTGGGAAAAGGTAAT
GGGATGTCGAGATTTCTAAAGGGTCGGGAGACCTCGGGTTGCCCACTCTTTGATCTTTCTGTCCTCTACTTGCGGGTAACCACTGGCCCGCACTCCACTG
GCGGGAAAACCACTCGCCCGCACAGCTTCATGAGAGTGCGCCTGGGAGAGCACAACCTGCGCAAGCGCGATGGCCCAGAGCAACTACGGACCACGTCTCG
GGTCATTCCACACCCGCGCTACGAAGCGCGCAGCCACCGCAACGACATCATGTTGCTGCGCCTAGTCCAGCCCGCACGCCTGAACCCCCAGGTGCGCCCC
GCGGTGCTAYCCACGCGTTGCCCCCACCCGGGGGAGGCCTGTGTGGTGTCTGGCTGGGGCCTGGTGTCCCACAACGAGCCTGGGACCGCTGGGAGCCCCC
GGTCACAAGGTGCGTGAAAGGATGGAGCTGGATGCGAGGCCTCAAGGAATCCTATGCTCCAGGGCTCTTGGGCGGAGGGGACAAGGGCCGGAATTTATGG
ATCTGCTCCAAGTCCACTGTCTTCCCCAGTGAGTCTCCCAGATACGTTGCATTGTGCCAACATCAGCATTATCTCGGACACATCTTGTGACAAGAGCTAC
CCAGGGCGCCTGACAAACACCATGGTGTGTGCAGGCGCGGAGGGCAGAGGCGCAGAATCCTGTGAGGTCAGAGCCTAGAGGGGCCATCAGGCGGAAGAAG
AGGGATGGGGACAGGTGTGGGAGTCCGGATGGGGTTGGATTTTCTTTGCTTTGGGCCAGAGAAGATGCTAGGGTTAGGCTTGGAGATGGAGTAGGAAGAG
AAGTTAGAATAGGGGTGAGGTTGGAGTTGGGGTTATAGGTGGGGATTGCGTTGTTTGAGGTGGATAATGTGATAGTTAGTTTGAGATGGCATGGGTTGGG
GTTGAGAATGGGAATGGTTTGGTTTGATTCTGGGTGGGAAATACGTCAGGGTTGAATTGGGATGAGGTAGATTTTGTTTGGAATGCAGAAGACATGAAGA
TTGAGATTGGATTTTGAGATGGGCATGGGTTTGATTTGATTTTGAATGGTGAGGATGTGGGCTGAGTTGGATTTAACTTAGTACAGTTGCACTGGAGTTG
CATGGGGGTGAGATTGGATATAGGTTGGGTGAGTTGTATTGAGCTGTGTTGAATTGGGGTTGGGGTTGGGGTTGGGTTGGCTCTGTTTGGGATAAACTGG
GCTGTATTGAGTTGAGTTGGGTTGGGGTTCCCTGGGATGGGGATGGATTGGGTTTGGGGTGAGATTGCAAATGGTGATTAGGATGAGGATGAATCCAGGA
GGTTTCACTCAACCTGAGACCCCCTCTTTTCCCCACAGGGTGACTCTGGGGGACCCCTGGTCTGTGGGGGCATCCTGCAGGGCATTGTGTCCTGGGGTGA
CGTCCCTTGTGACAACACCACCAAGCCTGGTGTCTATACCAAAGTCTGCCACTACTTGGAGTGGATCAGGGAAACCATGAAGAGGAACTGACTATTCTAG
CCTATCTCCTGTGCCCCTGACTGAGCAGAAGCCCCCACAGCTGGCCAGCAGCCCCGCCTGACATGGAACAGAACGGAGCCATCCCCCAAGACCCTGTCCA
AGGCCCAGATGTTAGCCAAGGACTTGTCCCACCTGAGGACAAAGCTGGCGCTCAAGGTCACCTGTTTAATGCCAAGATAACAAAGCGCTGATCCAAGTTG
CTCTGTAGGAATTTCTGTGACTTTTTTCTGGGGTCAAAGAGAAACCCCGAGACACTGTACACTGTTCCTTTTCACCCACCACCCCGATCCCTAGGTGAGG
AGAAGCGGCTTGAAGCAGGGCTCCATTCATTCAACACACATGACCACCCGTGTGATCTTGAACAAGAGGCCCAATCTCACTTCGCCTTGGTTTCCTTATC
TGTAAAATGAGACCATCTTATTGCTGACTTCAAAGGGCTGTTGTGAGGATTAAATGAGATGATTCGTCTGAACTGATTAAAATCGTGTCTGGCACTGAGT
AAATACCCTCTATCTCTGGATCCCAGTTAAAGGACCTAACAGACACTAGATTACCAAGAATGGCTTTTTCTTTAAGGTTTAGTTCTGGGCCGGGCATGGT
GGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGCTCACTTGAGGTCAGGAGTGCAAGACCAGCCTGGCCAACATGGTGAAACCCCAT
CTCTACTAAAAATACTAAAAAAATTTAGCCGGGCGTGGTGGCACACGACTGTAATCCTAGCTACTTGGGAGGGTGATGTGGGAGGATCGCTTGAACTTAG
GAGGCAGGAGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGTGACAGAGCAAGACTCCATCTCAGAAAAAAAAAAAAAAAAAAAAAGATTT
AGTTCTGGGCTTCCTGGTAGCCATGGCAAAAAGGCAAATACTGTCCTTTCCTTAGCCAGGTCCCTGATATACAGCAGAGGCTGGAACTCTGAGCTGCTTT
GATTTTACCAAAAAGCCAAGACAACCTGTTGGAAGCCTATGGGTTTACCATTGAGGCTGCAGGAATCTAGTTCCTAATTATCTTCAGAGACCACAAAATG
TGATGTTCAAGGTCGCTGAATGTTGAAGTACATGAACCTGGCTCGTGAGACCTAAATATTGTACTGGTGGTGGGGGGGAAGGGTCATTGGAATCTGTGGT
TAGCCTGATCTTGACCTGGGAGGGAAGGTTGTCCAGATCTCTGGGACTTTGGAGGACAGGACGTTGAGCACCCATAACTGGGAGCAAGAAGTGGGAGGCT
CATTGAGACCCCAGCATTGTTTGGGAGGGACACTGGATTTTGTAATGCTAAAGAACTTACCCTGGGAGACCCCTGAAACTTCACATTCCTGGATCTGGAG
GCACTAGGAATGTGGTGATGTGTACCCCAAAATTTTATTATGAAAGGAACAGTAGCTTTGGGGACCTAGGTCCTGGGTCTGGGAGTGCAAGAACCAGGGC
ATTCTGAAGGCCAAGGCTTATATTTCAGGGGGAACTGGCAGCTGAGATGCTAGTATCTTGGCTCCGAGTGGTGCAGGGAATCAGAGCCCTAACTGCTGGT
GTTTGAGGGCACCAGGTCTGGGGGTGCAGGGCCTTAATTGAGACTGAGGTATATGGGGCTTTGTACCAGGGGTCACTGATTCCTCCGTCTTCCTGTTTCT
GCTTCCCCTCAGTCCCCCCTTGCCTCACTGGCTGCTCCCCAGAGCAAAGCCCCAGAGCCACAGGCCCTGCCCCACCTGGCTTCAACCCCAGGAATGCGTC
CAGCGTGATCCAGGGCCTGCAGAACAGGTGCTGGTTCTCCCTCCCCGTCTACAGCTCTGGGGATCGGAGGSGGGGGGGCAATTGTCCAGCCCCCAGGCAA
CAGGGGAAGGGCCTTGGCCAACATCTGGGTGCCAGCAGGGCAGGGGTGGGGCTCTGAGGGGATAAGGGCTTTTAAAAGSCTCCCCAGGGAGGTTCCCCAG
TTCCTCCACCTGCTGGCCCCTGGACACCTCTGTCACCATGTGGTTCCTGGTTCTGTGCCTCGCCCTGTCCCTGGGGGGGACTGGTGAGACAGTGGGGGGA
TGTGGGAGGGGGAACGGGCCCTGATTCTCTTGCTGGCCTCACATCCCCCCCCGATAAGACCTTCCCCTCCAACACCCCACCCTCATCCCTCTGGCCCACA
GTCTATCCTAGTCCGGGGTGCCCCGGCTCTTATCTATCTTGCGCGGSCCCACCCTAAACTTCCACCCCCGCTCCTCCATGTTGTCATAGTGCTCACTCCC
ACACCAGATTCCTGCTCCTCCCAGGAAGCCTCAGTACTTTCTCCTCTTCCCTAGCCAACGCCCTGTCCCACCGCTTTACCAAAGGGGCAGATTCTGGGCC
ATCTCTGTCTCTCTCTGGAGGACCCCAACCCTCCCATGGGCTTCCCCCACCCCACAGGACTCTGATCATCCCCTCCTGCCCCCTAGTTCCCTGCGGCCAC
CTATTTGGCTCCTGAGTCTACAAATCCCACCACACTCCAGTGACTTTTTCCATCCAGCTGTCCGCTCTCAACTGTGTCCTCCAGACCCTGACATCTGGTC
TCCCCAGTCCTTCCAGGGTCCCCCAAATTTCACCAGAAAACCCTGCTTCCCAAACTGGCATGTGGGATCCCCCAYCTGGTATGMGGGGGGGTCTGCAAAT
GTCCCTTCCCACCCAGCACCCCCAGCTCTCCCAGGAAAAACACCAMACCCTCCCACCACATGCTCCTTTCCTTGGGGAAGTTCCATCCCGCCCCAGGCCC
CAGCCCTTCTCTGCCTGAATTGTTCCTACACAGCTCTGGTTTTCTGGAACCCCACSCCAAGGATCCTGAATGCCTTCTCAGCCAGCGCTTCTGCCCTGGC
CTCCCCCAAGTCAGTATGTGATTCTACAACCTCACRTCAAGTGGGTCCTGCATTGCATTCCCACAGCTGCTTGGCGCCTGTTCTCACCACTTCTCCAATC
CTCTTCCTAGGATTGCCTCCAAGAGGACCCCATATCCTTCCAGTACCCTCAGACCATGAACCCCATCCCCATGAGAAACGAAGATCCCATCCTTCACCCT
GTCCGAGAAGGACTGCCACTCACGCCTCCCTCCTCCTGAGCCCCGTCCCAGTCCTGACCGCAACTGTGTTCTCAGGGCCCCAACCTCCCCTCAKATTGCC
ATTCCTGGTTCACAGGAAGGACCCCAAAACCTCTCGGAAGCCCACCTCTAGCCTTAACCATAGCCCTTTCTTTTACCCTTTAACCAGGAAGCCCTGAAAT
CTAACTGTCCCAGCCAAGCTGGCCCCTTCCAACCCCAATGTAGGGACCCCAAGTCACCCCCAAACTCTTCAGTCSAGATGCTCTTCTTTACCTCTCAGAC
CTGGTTCCCTAAAGCTGCATCCTTTCCTGAACCTCAAAAGCCCAACCCAGGTCCTGTTTCCCTAGCCTAGGAGCCCCTTAGCCCTCCAGATTCTTCCTCA
GTGAGCCTCTGATCCTGTCCCACCCTTGGCGCCTTGATCCCTGGTTTCCAGAATCCYTTTCCACTCCCCTAACCCACCACCTCCCATCCCCCAGCCCCAG
ACCCCAAATGACCTGACGCCCAGATGCAGTGTCTGCTCCAGACACTGTCTCCTGTCTCCTACCCTGATCCCTGGAGGCTGCTCTACTGTCAGAGCACAAA
ATCTCCCCACCAGGTCCAGCCACCACTCCAAAAGCCCAGGGAACAGTCCAGAGTCCCACCCCTTCCCAACACCCCTTGCCCATGTCCCCAACCTCCAGCC
CTGGTCCTCTACCCGCAATGTCCCTTCAGACCCACAGCCCAGCTCCCTCTCCTAGCCTTGTCCCTGGCCTCTCCTGCCAACCCTGCCCTTCCTGACCCAG
CACCGCCTCTGCAGGTGCTGCGCCCCCGATTCAGTCCCGGATTGTGGGAGGCTGGGAGTGTGAGCAGCATTCCCAGCCCTGGCAGGCGGCTCTGTACCAT
TTCAGCACTTTCCAGTGTGGGGGCATCCTGGTGCACCGCCAGTGGGTGCTCACAGCTGCTCATTGCATCAGCGAGTGAGTAGGGGCCTGGGGTCTGGGAG
GAGGGCATCTATGCTGCCACAGGATTGACAGGCCAGTGGCATTCCCCTTGGATAACCTCAGGCAAGACTGGGGGGCTGAGSCAGAGAGGAAGGCTCTGGC
GCAGGTCGCCTGGCAGGGCAGAGCTGGGCTGGACACCCCTCTCCAAGGCTGCCTGGGTCTCTTGGGATCTGGTTCTGCTTGTGTCTCTGTGTGACTGTGT
TCTGGTCTCTGTCTTCCTCTCTCTCCTCTGTCTCCTTGTCTCTGCATCTCCCCTGTCTCTGTCTGTCTCTGAGTCTCTCTGCGGCATCTCTGTCACTGTG
TCTCACCCTCCATCTCTCTACCCATCTCTCTCTCTCTGGGTCTCTACCTCACCGCTCCCTCATCCCTACTAAACACACACCCAGATGGACCTAAGGGAGG
CCCCAGAGTAAAGGAAGGGCTTTATCCCCAACTTGTGTGCCTGGGAGGGGGCGCCTCTCCCTCTGTCCAGCTCCCCGCCCCACAGGATATCCCTCCACTC
TGGAGAGACACAGGGAAGGGCTGGTTTCAGCGGGAGCTGGGTGGGGCAACTGAGGGAGGAGGAAGGAGGAGGCGGGGCGAGAAACGCGCGGGAGGGTGCT
GGGAAGGGAAGGGGGCCTCGACCTTGGACTTCAGGCCAGGCCACCTGCCCCTGGGGAGCCCGCACCACAGCCCCAGCTGCAGCTGAGCCGCTCTCAGGCC
TCCCCTCCTCCCTACCTGCCCCCACCCTCCCCACCTGCCCCCACCCTCCCCCAGGGCCTCCCTCCCTTTTCTCTCCCACACTCGGTCACTCCTGCTTCCT
CTCTGCCTCTGTTTCTAGTTCTCACTCTGACGTCCCGCGTCCTTTTTCATTTGTCTGCTTCTCGCTCCCTTCCGTGTTCTGTTCCCTCTTCCTCCCTCTT
CCCTGGGCCTGTTTCTCGCTGTCCCTGTCTTTTATCCTTCTCATCTGCCTCTTTTTTGCTCACCCTGTTTCTCACTGCCCTCCCCTCCGCCTTTYTCACC
CCTCTGTCCTTTTGAGCTCTTTTTTGCTCTGTCTCTTCATTTGCCTTTTGCACTCTCAAAMTCTTTCATCTTCCCATTCGCTGTCTGTATTTCTCCATAA
CTATATCTTTCTTCCTCTGTCTCCGCCCACCCACATTTTTCTCTTTCCCTTTCTCTCTTTGGGGACCCTCCCCCATGCTCCCCTGCCCCATCCCCTTTTC
CCCTTCCCRTCTTCTCATCCCTCCATTCCCATCTTTCCCCAGCAATTACCAGCTCTGGCTGGGTCRCCACAACTTGTTTGACGACGAAAACACAGCCCAG
TTTGTTCATGTCAGTGAGAGCTTCCCACACCCTGGCTTCAACATGAGCCTCCTGGAGAACCACACCCGCCAAGCAGACGAGGACTACAGCCACGACCTCA
TGCTGCTCCGCCTGACAGAGCCTGCTGATACCATCACAGAYGCTGTGAAGGTCGTGGAGTTGCCCACCSAGGAACCCGAAGTGGGGAGCACCTGTTTGGC
TTCCGGCTGGGGCAGCATCGAACCAGAGAATTGTATGTGGGGGCAGACTGTGTAGCCCAAGGCGGGGATGGGGACTCCTGYGTCCAAGGGAGAAAGGGCC
AGGGAAGCAGGTGAGGTCGGGCTGCAGCCCTTTTTCTCCCGGGTTCGTAGTCTCATTTCCAGATGATCTCCAGTGTGTGGACCTCAAAATCCTGCCTAAT
GATGAGTGCRAAAAAGCCCACGTCCAGAAGGWGACAGACTTCATGCTGTGTGTCGGACACCTGGAAGGTGGCAAAGACACCTGTGTGGTGAGGCAGCCCT
GCCCCCAGGGTCTGGAAGGGCTGAGGGAGGGGACTCAGCCTCTGAACTGGCTTCTGAGAGCTAACCAGGCATCTGCTTCACTGCTTCCCAGCTAGCTGTA
GCCACTCGCCCCATCAGTGCCCCAGCTCCCCCTCCTTCCCCCGCCCATCCAGGGACAACTGCATCTCACCCCCCACACCAGAGTTCACCGTTCCTCGTGG
TAATGTGTTGTTACCGTCGAGTCAGAGAGTAGTCCTGGAGAGGTGGCCTCTGCGATGTGCCCRCAGGGGCAGCGTCCTGCAGATGGTCCTGCCCCTCCTC
CCCCTRACCTGTCTGCAGGCACTGTCCWCCTGGACCCTGCCCCATGTGCYGMAGCTGGACCCTGAGGTCCCTTCCCCCTTGGCCAGGACTGGAGACCCTG
TCCCCTCTGTGGGAATCCCTGCCCACCTTCCTCTGGGAGTGGGCACTGGAGGCCCTGTCTGCGAGCTGGGGCTCCCCAGGCAGAACTTGGGCCCCGTAGA
CCTTTCTCACTCTCCCCTCCCACCTTGTGCTCCCAGGGTGATTCAGGGGGCCCGCTGATGTGTGATGGTGTGCTCCAAGGTGTCACATCATGGGGCTACG
TCCCTTGTGGCACCCCCAATAAGCCTTCTGTCGCCGTCAGAGTGCTGTCTTATGTGAAGTGGATCGAGGACACCATAGCGGAGAACTCCTGAACGCCCAG
CCCTGTCCCCTACCCCCAGTAAAATCAAATGTGCATCCAATGTGTGTCACGTTCTGCCATCACCTATCTTTCCAGATGTGGTGCACCTGGACCCACTCGG
CTGAGGCTGGGGCCACCCCAGCTGTGTCAATCTCATGCCTGGAAGTCTGAGGTCACCAGCAGGTGGGGAAAGGAAGGGGCTGTGACAGGTGCAGACAAAC
AGGCAGGGAAAGGCTCAGATCCCAAAGGGCGAGTCAGGGACGCCAGAACAGTTCACTCACACTAGGATGGACCCTGCCCTGGTGGGGAGGTGGGGGGCAA
TGGAAGGTCTGAGGCTGAGAGGTTTTATTGTGGCGGGGAAGCCAGAAAAGGTACAGAGGGATGTTATTGCAAGCCATGCCTTCCCAGGGAGGGGCCCGTT
CTGCAGAAGGGTGGAGTTGCACCAAATGCTGGGCGGTGCTGTGTCCACCTGGGGACAAGGGTGGACATCGGAGCTGAGGCCGGAACTCCGGGACAAGGGT
GGACATCGGAGCACCCTGGCTGAGCGGGTGGAGAGTGGCTTCAGGGTGTGGCCTGCGAAGGCTGGGCACCAGGGGCAGGGCCACACAAACTAGCCACACT
GCCGAGCTCAGCGGGACGCTGGACAAGTGTCTGCAGAACGGGAGGGGATGCTGGGCCTCTGGGGTGGAGGCACTGTGAGGACCCAGTGGGCAGGGACAAA
GCCGCAAAGGGCGGGCCCTAGAGCGAGGGCTGGAGTTTGCCACCGGTCCCCTCGGAGGGCGTGGCCTGATATCAGGGGGTGGGGCCTCAGGGGAGGTCGA
ATATCCAGGGCGTGGCCACGCTGAAGGGGTTGGCCGGGCATCTGGCCATGGCTACCGGTCGGTGTCCTGAAGACCTCGGGTGCTATTCCTTGGAGGTGCT
TGGGTCTCATCCTCGAGGGTGTATGAAATGGGAAGGCCCGGGGTGCGCTCGGAGTCAGCGTCTGAGTTCCGCTGTTTGGATGTCCGCCTCGCTGCGCCCT
GCTGCACGGCCCACCCGCGGTAGCTCAGCCGCCGCGCATTCAAGGGCTGCCCTCTGCTTCACATGCCCACTGGGCTTAGGTAGGACACGGCTCCTGGGAG
ATGGCTAGGTGGGCCGCTGTACTCCGAGTCCCACCCTAGGCCCCACCCGCTTCCCGAGGCCCCGCCCTCCTCCCGAGGCCCCGCCCTCACCGGAGTGCAG
CATCAAGTCGCTGGCGTCCCAGCACAGGTAGGAGGTCACCAGGTAGGACACCACCGGACTTGGGTGCACCGCCTTGCCGTTAACTGAAAAGAGCGTCAGG
CTGAAGAGAAATCAGGAGCCCTGCAATGGGGTGGGGCCAGAGACAGAAGGCTGGACAGTGAGCCCTATGACCCCCAGTAAGAAAAGAGGGACTGAGACAT
CCTCTCCCACCCTCCGTGACAAGCAGACACACACACACACACACACACACACACACACACACGCCCTCACAACAGACAGAAAGATACCTGGAGAGAGGGG
ACAAAAAAAGAAAGGGAAACAGAGAGTGGGGGAGAGAGACATCCCACAGATAGAGTAGAACTGAGTCAGAGCTCCCCAGAGACATGCTAAGACAGAGGCC
CCGAGGGGAGCAGCACGGAAGTCTAGATACACCTCCAGAAAGCCAGAGAGCAGGGCTGGGGTTAGGGAGGGCCCCCRCCCCCCAAGCCAACACCTACCAA
TGCCGAGGCAGAGGAAACTGAAGACAAAGTCGGCCATGTTCAGGCGGAGGACCACTGGCCAGGAGGAGAGGGCCATGGGCGGGAGGAGGACTCAGCACAG
GGCCACGGCCAGTAACATGAAGCCCTTGCTCATATGGATGAGAACTGGGGAGAGGGGGACAGGGGCCCCAGAGTCAMCCCCAGATACCCCTCTTGGTCAC
CCTCCAAAGTCATCTCTGCTGATACCCACAAGCAGCCCAACAGACAACCCCAAAGTCTGGCACATCCTCAAAATCACCCCTACTCACCTCCCCAAAGTCA
CCTCCTAGAAACCCCAAAGAAACTCCAATCTCACTCACAAGGTCACCCCCAGGGACCCCTAAAGTCATCCCCCAGTCACACCCTTAGAGTTGTCCCAAAT
CACCCCTACTTAACCTAAAACTCAATTCTCAGACACTCTCATAATCCCACACACCCCCCAAGGTCACCCCACAGAGGACCCCCCAAAGGTCATCCCACTC
ATCCTCAAGGTTACCCCACAGAATCACCTCAATCATTTCTTTCTTTCTTCTTCTTTTTTTTTTTTTTTTTTTAAGATGGAGTCTTGCTCTGTTGCCCAGG
CTGGAGTGCAGTGGTGTGATCTCGGCTCACTCCAACCTCTGCCTTTGGGCTCAAGCAATTCTCCTGCCTCAGCCTCCCGATTAGCTGATACTACACGCAG
CTGCTGCCACGCCAGCCTAATTTTTGTATTTTTAGTAGAGACATGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCGGCTT
CCCAAAGTGCTGGGATTACAAGCGTSAGCCACTGAGCCCAGCCTCGATCATTTCTAGAACCACCCCCACAGACACCCCTGGTCACCCTACTTGAACTCCT
AAAAGGTGTCTCATAACAACTCATGTTAGTATCCTCAGTTTCACTCCCAGACACCCTCAACAGCACCCTCAAAGTTATCCAAGACACCACGGTCACCCCA
GTCCTCTCCAAAGTCACCCTACTTCTGCTCTAGTCTCTGCTAGTCACCCCCCAAGGTCCCCTAGTGGCCCCATTCACATGCCGAGAATCTCCTCAGACAT
CCTAATGTCATCTCTTGTTCACACCTGAGAGCCCCCACAAAACACATACAGATTTGCACACAAGAAAAACTTTCAAGTCAAATACTCTAAAACCAATGTG
CCCAAAAGCTTAGTTCCAGTTTACAGTGGATATTTATCCAACTTAGACTTCCAGCAGAAGAGAGGTTTACCTGTTTCCGAGATGCTACATCTCCTCCTTT
TAGCCCTTTTTCTACTTTGTCTACTTTTCAACAGTGCAAAATTGTTTTAGCCAAATAGGCCAAGACCTCATCTGCTTTGTTTCTGGCAAACTGCACATCT
CTAATACCCAACAAGAAAGATAAAGGATCATCATATATACAGAAGAGCAACAGCACTCTGGGAAGTGGGGGAAATATCAGACCCCTTGGTTTTTTGTTTT
TGTTTTGTTTTGTTCATAGAGATGGGGTCTCACTGTTACCCAGGCTGGTCTCAGATTACTGAGCTCAAGCAATCCTCCCTCCTTGGCCTCTCAAAGTGCT
GGGATTACACGTGTGAGCCACCATGCCCAGCCAGTTCCCTTAGTTCTTTCTGCTCATTGAAGAGTCAAGAAGCAGAGGTCAGGGAGAAGGCACCAAGCCA
GAAACCAAGACCTTGAATGGTGAATTTGGTCTGCCCAGAACAGCAGCCTGACATCTCTTGGGGACACCCTCCACCCAACTCACATAACCCTGGATGAGGG
ATTCTCCTGGCATATGCTGGCCTCTGGGCCACAGAGGTAATCATGTGATTCTGGCTGAGCCAATCACAGTACCCYAGCTGCAGACCCTGCAATTGGCCCA
AAGATGGACACATGACCAAAGCCCAACCAATCAAGCTCTGCCCCAAGACTTTTTATTAGGAAGCTGTCAAGGAAAAGCAGTCTCTCCTCAAGGATTACAA
GCCTGAAGCTGCCTAAGCCTTGGACCTAGCTTCATGGGGAGAGTAAAACTAAGAAGGAAAACAGACAAGCGAAAGAGCATTGAGCTGACACTGAAGTCCC
TGGCTCTCGTCATCCCAGAGAGCAGCCCACTCTGTGATTTGGTCAGAATGAGTGGATATTTGCAGCTTACCTCCCCACCATGCATTTCACCTCCTGCCCA
TTCCCCATTCTCAGCCCCAGTCTTAAGCCAATCAGCCAACTGTACTCCACTGGCCATATAATTGGCTCGGGGTGCTCATGTGCCCCAAGCCACACAGGAT
TCTTGCAAGAACTGTTGATAACTTTTTTCTACCGGACTCGGCAGTTATTACCAACTCTGCCAAGTTGCTAACAACTCTGCCAGTTTTTTGTCTGTCTGCT
CTCAGATCCATTTCCCGCCCTGTCCTGTTCTGCACTGCAAGGACCACATTTCCCAGCCTCCTTTGCTCACCATCTTATCACTGTGTTTGACTAATGGGAG
GCACTGGCAGAAGACTGGTTCTGGGAGGAGAGGGCAAGCCAGGGTATTTATTAGCCTCTCTATCTCTGCATGTGGTGGGTCTTCCGTAGTAGTTGTATCT
ATTCTCTGATTCTAGCCACTTCTGAGCAATCCAACCATGAACCTATGCGTTCCAGAGGGCTGCAGTTTCTGGACTGTAGTAATACCACCTCCTCCCTTTG
TCCTTCTGGCCAAGTAGCAGCATCCTGTAGTTCCTAACTCCTGGTTTGCCTCACTATTTCCTATTGGCTTCTCAGCTCCTCTGTTACTCACGAACAAATT
CCCTGTATTTACTTCCTTCTGAAGAATCTGGAATGATTTATTTTCCTTACTGGATTCTGACTTGCCACTACACAGAGCCTTGAGAATGAAGCCAATCCCA
TAGCCAAAAAACAGTAATATCTGATACTATCACTTGGGCCCCTGGATCCACCCATGCCTGAAGGCATTCCTACCATTACCATTTTTCACTCAGGTGATCC
CATAAAGGATCCCCTAGCTAGTTCAAGTTAGTTCACTCAAGCTAATACAACTAGTTCACTCAAGCTAGTTCAAGTTAGAGTTTGTGTCACTTGTGGCTGG
GCACGATGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAA
ACTCCGTCTCTACTAAAAAGATAAAAGTTAGCCGGGCATGGCAGCGGGCGCCTGTAATCCCAGCTACTCCGGAGGCTGAGGCAGGAGAATCGCTCAAACC
CGGGGGGTGAAGGTTGCAGTGAACCAAGATCACGCCACTGCACTCCAGCCTGGGTGAAAGAGTGAAACTCCATCTCAAATTTAAAAAAGTAAAAAATAAA
AAAAATTTAAAAAAAAAGAGTTTGTGTCACTTGTGACCCAAAAACTCCTGACTAATTCAAGTCCCTTCCTTAGGACAGCAGGGAGCACAGAATTCAATGT
TCCCTGCATACCAACTCCAAAATCACAATCAAAACCTAAAAATAAGTAATGAGAATTTAAAAAAACAGAACTGAATGTTCATCAAAAATCTGGAGGGAGA
ACCTCCCGAAGCCAAGAAGCAATTAATAAAGTCACAGAGACAAAGGTGAAGAAATTAAACTACCTAAAAATTCTAAGGCTGGGCACAGTGGCTCATGCCT
GTAATCCCAGCTCTTTGGGAGGCTGGGGTGGGCAGATTGCTTGAGCTTACAAGTTCGAGACCAGCCTGGGAAACATGGCAAAACTCTACCTCTACCAAAA
AATACAAAATTATAGCTAGGAATAGTAGCACTCCCCTGTAGTCCCAACTACGTGGGAGGCAGAGGTGAGAGGATGGCTTGAACCTGGGAGGCGGAGGTTG
CAGTGAGCCGAGATCTCATGCCACTGCACTCCAGCCTGGGTGATAGAGCCAGACTTTGTCTCAGAAAAAAAAAAAAAAATTCTAGATTTCTATACCTTAA
AAAATAATAATAAGGGCCAGGCGCAGTGGCTTATGCCTGTAATCCCAGAACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTTAAGAGTTCGAGACC
CGCCTGACCAACATGGTGAAACCCCATCTGTGCTAAAATTACAAAAAAATTAGCCAGGCACGGTGGTGCCAATTACCTACAATTCCCGGGTCAGTATCCA
AGACCCTCCACCAGCCAGGAACAGTCACGGGGTCAGTATCCAACAGCCTCCACCAGCCAGCAGCAATCGCCTGGTCAGTATCCAAGACCCCTTGCCAATT
ATTCACAATCACCAGGTCAGTATCCAAGACCCTACACCAG


SNP Information

Context             (SEQ ID NO:3393):
CCCACCTGGCTTCAACCCCAGGAATGCGTCCAGCGTGATCCAGGGCCTGCAGAACAGGTGCTGGTTCTCCCTCCCCGTCTACAGCTCTGGGGATCGGAGG
S
GGGGGGGCAATTGTCCAGCCCCCAGGCAACAGGGGAAGGGCCTTGGCCAACATCTGGGTGCCAGCAGGGCAGGGGTGGGGCTCTGAGGGGATAAGGGCTT
Celera SNP ID:            hCV26638591
SNP Position Genomic:     5871
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,24)   caucasian(C,12|G,10)   total(C,16|G,34)
SNP Type:                 TFBS

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


Context             (SEQ ID NO:3394):
CAATTGTCCAGCCCCCAGGCAACAGGGGAAGGGCCTTGGCCAACATCTGGGTGCCAGCAGGGCAGGGGTGGGGCTCTGAGGGGATAAGGGCTTTTAAAAG
S
CTCCCCAGGGAGGTTCCCCAGTTCCTCCACCTGCTGGCCCCTGGACACCTCTGTCACCATGTGGTTCCTGGTTCTGTGCCTCGCCCTGTCCCTGGGGGGG
Celera SNP ID:            hCV27836651
SNP Position Genomic:     5979
SNP Source:               Applera
Population(Allele,Count): african american(C,18|G,4)   caucasian(C,2)   total(C,20|G,4)
SNP Type:                 TFBS


Context             (SEQ ID NO:3395):
CCAACTCACATAACCCTGGATGAGGGATTCTCCTGGCATATGCTGGCCTCTGGGCCACAGAGGTAATCATGTGATTCTGGCTGAGCCAATCACAGTACCC
Y
AGCTGCAGACCCTGCAATTGGCCCAAAGATGGACACATGACCAAAGCCCAACCAATCAAGCTCTGCCCCAAGACTTTTTATTAGGAAGCTGTCAAGGAAA
Celera SNP ID:            hCV8705497
SNP Position Genomic:     14175
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:3396):
GTATTTTTAGTAGAGACATGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCGGCTTCCCAAAGTGCTGGGATTACAAGCGT
S
AGCCACTGAGCCCAGCCTCGATCATTTCTAGAACCACCCCCACAGACACCCCTGGTCACCCTACTTGAACTCCTAAAAGGTGTCTCATAACAACTCATGT
Celera SNP ID:            hCV26638797
SNP Position Genomic:     13126
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,9)      total(G,9|C,3) ;no_pop(G,-|C,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:3397):
GGGCGGGAGGAGGACTCAGCACAGGGCCACGGCCAGTAACATGAAGCCCTTGCTCATATGGATGAGAACTGGGGAGAGGGGGACAGGGGCCCCAGAGTCA
M
CCCCAGATACCCCTCTTGGTCACCCTCCAAAGTCATCTCTGCTGATACCCACAAGCAGCCCAACAGACAACCCCAAAGTCTGGCACATCCTCAAAATCAC
Celera SNP ID:            hCV2932120
SNP Position Genomic:     12477
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,6)      total(A,6|C,3) ;no_pop(C,-|A,-)   PCA-AFRICAN-PANEL(A,11|C,31)   PCA-EUR(EAN-PANEL(C,13|A,21)   total(C,44|A,32) 
SNP Type:                 TFBS


Context             (SEQ ID NO:3398):
AGGGGCCTGGGGTCTGGGAGGAGGGCATCTATGCTGCCACAGGATTGACAGGCCAGTGGCATTCCCCTTGGATAACCTCAGGCAAGACTGGGGGGCTGAG
S
CAGAGAGGAAGGCTCTGGCGCAGGTCGCCTGGCAGGGCAGAGCTGGGCTGGACACCCCTCTCCAAGGCTGCCTGGGTCTCTTGGGATCTGGTTCTGCTTG
Celera SNP ID:            hCV16061884
SNP Position Genomic:     8181
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3399):
TGTCCTCCAGACCCTGACATCTGGTCTCCCCAGTCCTTCCAGGGTCCCCCAAATTTCACCAGAAAACCCTGCTTCCCAAACTGGCATGTGGGATCCCCCA
Y
CTGGTATGGGGGGGGGTCTGCAAATGTCCCTTCCCACCCAGCACCCCCAGCTCTCCCAGGAAAAACACCACACCCTCCCACCACATGCTCCTTTCCTTGG
Celera SNP ID:            hCV2932107
SNP Position Genomic:     6675
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3400):
CTTCCCAAACTGGCATGTGGGATCCCCCATCTGGTATGGGGGGGGGTCTGCAAATGTCCCTTCCCACCCAGCACCCCCAGCTCTCCCAGGAAAAACACCA
M
ACCCTCCCACCACATGCTCCTTTCCTTGGGGAAGTTCCATCCCGCCCCAGGCCCCAGCCCTTCTCTGCCTGAATTGTTCCTACACAGCTCTGGTTTTCTG
Celera SNP ID:            hCV2932108
SNP Position Genomic:     6746
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:3401):
CCACATGCTCCTTTCCTTGGGGAAGTTCCATCCCGCCCCAGGCCCCAGCCCTTCTCTGCCTGAATTGTTCCTACACAGCTCTGGTTTTCTGGAACCCCAC
S
CCAAGGATCCTGAATGCCTTCTCAGCCAGCGCTTCTGCCCTGGCCTCCCCCAAGTCAGTATGTGATTCTACAACCTCACATCAAGTGGGTCCTGCATTGC
Celera SNP ID:            hCV2932109
SNP Position Genomic:     6856
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:3402):
GTGCACCCCACTCCCAGCCATGGCAAGTGGCTCTCTACGAGCGTGGACGCTTTAACTGTGGCGCTTCCCTCATCTCCCCACACTGGGTGCTGTCTGCGGC
M
CACTGCCAAAGCCGGTATGAAGGCAGGGGCTCAGGGTCCTGAGGGAGCCTGGTTCGGGGGGAAGAGCTCCTAGATTTGGGGGAAGACGGAGGCAGACGCC
Celera SNP ID:            hCV1531092
SNP Position Genomic:     2111
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;no_pop(C,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:3403):
AGTAGTCCTGGAGAGGTGGCCTCTGCGATGTGCCCGCAGGGGCAGCGTCCTGCAGATGGTCCTGCCCCTCCTCCCCCTAACCTGTCTGCAGGCACTGTCC
W
CCTGGACCCTGCCCCATGTGCAGGAGCTGGACCCTGAGGTCCCTTCCCCCTTGGCCAGGACTGGAGACCCTGTCCCCTCTGTGGGAATCCCTGCCCACCT
Celera SNP ID:            hCV27490035
SNP Position Genomic:     10228
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,745|T,746)   total(A,745|T,746) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3404):
ATCTCACCCCCCACACCAGAGTTCACCGTTCCTCGTGGTAATGTGTTGTTACCGTCGAGTCAGAGAGTAGTCCTGGAGAGGTGGCCTCTGCGATGTGCCC
R
CAGGGGCAGCGTCCTGCAGATGGTCCTGCCCCTCCTCCCCCTAACCTGTCTGCAGGCACTGTCCACCTGGACCCTGCCCCATGTGCAGGAGCTGGACCCT
Celera SNP ID:            hCV27505806
SNP Position Genomic:     10163
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,543|G,556)   total(G,556|A,543) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3405):
TGTTGTTACCGTCGAGTCAGAGAGTAGTCCTGGAGAGGTGGCCTCTGCGATGTGCCCGCAGGGGCAGCGTCCTGCAGATGGTCCTGCCCCTCCTCCCCCT
R
ACCTGTCTGCAGGCACTGTCCACCTGGACCCTGCCCCATGTGCAGGAGCTGGACCCTGAGGTCCCTTCCCCCTTGGCCAGGACTGGAGACCCTGTCCCCT
Celera SNP ID:            hCV27505807
SNP Position Genomic:     10206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3406):
CTGCGATGTGCCCGCAGGGGCAGCGTCCTGCAGATGGTCCTGCCCCTCCTCCCCCTAACCTGTCTGCAGGCACTGTCCACCTGGACCCTGCCCCATGTGC
Y
GGAGCTGGACCCTGAGGTCCCTTCCCCCTTGGCCAGGACTGGAGACCCTGTCCCCTCTGTGGGAATCCCTGCCCACCTTCCTCTGGGAGTGGGCACTGGA
Celera SNP ID:            hCV27505808
SNP Position Genomic:     10250
SNP Source:               dbSNP
Population(Allele,Count): PCT-TFRICTN-PTNEL(C,2|T,42)   PCT-EUR(ETN-PTNEL(C,13|T,33)   total(C,15|T,75)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3407):
CTGGTTTTCTGGAACCCCACGCCAAGGATCCTGAATGCCTTCTCAGCCAGCGCTTCTGCCCTGGCCTCCCCCAAGTCAGTATGTGATTCTACAACCTCAC
R
TCAAGTGGGTCCTGCATTGCATTCCCACAGCTGCTTGGCGCCTGTTCTCACCACTTCTCCAATCCTCTTCCTAGGATTGCCTCCAAGAGGACCCCATATC
Celera SNP ID:            hCV26638588
SNP Position Genomic:     6936
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:3408):
GCGATGTGCCCGCAGGGGCAGCGTCCTGCAGATGGTCCTGCCCCTCCTCCCCCTAACCTGTCTGCAGGCACTGTCCACCTGGACCCTGCCCCATGTGCAG
M
AGCTGGACCCTGAGGTCCCTTCCCCCTTGGCCAGGACTGGAGACCCTGTCCCCTCTGTGGGAATCCCTGCCCACCTTCCTCTGGGAGTGGGCACTGGAGG
Celera SNP ID:            hCV27505809
SNP Position Genomic:     10252
SNP Source:               dbSNP
Population(Allele,Count): PCA-AFRICAN-PANEL(A,2|C,42)   PCA-EUR(EAN-PANEL(A,13|C,33)   total(C,75|A,15)   (C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3409):
CCCCCCGATAAGACCTTCCCCTCCAACACCCCACCCTCATCCCTCTGGCCCACAGTCTATCCTAGTCCGGGGTGCCCCGGCTCTTATCTATCTTGCGCGG
S
CCCACCCTAAACTTCCACCCCCGCTCCTCCATGTTGTCATAGTGCTCACTCCCACACCAGATTCCTGCTCCTCCCAGGAAGCCTCAGTACTTTCTCCTCT
Celera SNP ID:            hCV26638589
SNP Position Genomic:     6247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3410):
TTTTCTCCCGGGTTCGTAGTCTCATTTCCAGATGATCTCCAGTGTGTGGACCTCAAAATCCTGCCTAATGATGAGTGCAAAAAAGCCCACGTCCAGAAGG
W
GACAGACTTCATGCTGTGTGTCGGACACCTGGAAGGTGGCAAAGACACCTGTGTGGTGAGGCAGCCCTGCCCCCAGGGTCTGGAAGGGCTGAGGGAGGGG
Celera SNP ID:            hCV11978314
SNP Position Genomic:     9832
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(A,4|T,76)      total(A,4|T,76) ;(T,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:3411):
CCCTCCCCCATGCTCCCCTGCCCCATCCCCTTTTCCCCTTCCCGTCTTCTCATCCCTCCATTCCCATCTTTCCCCAGCAATTACCAGCTCTGGCTGGGTC
R
CCACAACTTGTTTGACGACGAAAACACAGCCCAGTTTGTTCATGTCAGTGAGAGCTTCCCACACCCTGGCTTCAACATGAGCCTCCTGGAGAACCACACC
Celera SNP ID:            hCV11978315
SNP Position Genomic:     9366
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(A,3|G,64)      total(G,64|A,3) ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:3412):
GACCCTGACATCTGGTCTCCCCAGTCCTTCCAGGGTCCCCCAAATTTCACCAGAAAACCCTGCTTCCCAAACTGGCATGTGGGATCCCCCATCTGGTATG
M
GGGGGGGTCTGCAAATGTCCCTTCCCACCCAGCACCCCCAGCTCTCCCAGGAAAAACACCACACCCTCCCACCACATGCTCCTTTCCTTGGGGAAGTTCC
Celera SNP ID:            hCV29188580
SNP Position Genomic:     6684
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3413):
ACACCCGCGCTACGAAGCGCGCAGCCACCGCAACGACATCATGTTGCTGCGCCTAGTCCAGCCCGCACGCCTGAACCCCCAGGTGCGCCCCGCGGTGCTA
Y
CCACGCGTTGCCCCCACCCGGGGGAGGCCTGTGTGGTGTCTGGCTGGGGCCTGGTGTCCCACAACGAGCCTGGGACCGCTGGGAGCCCCCGGTCACAAGG
Celera SNP ID:            hCV29188581
SNP Position Genomic:     2810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:3414):
TTTCCCTAGCCTAGGAGCCCCTTAGCCCTCCAGATTCTTCCTCAGTGAGCCTCTGATCCTGTCCCACCCTTGGCGCCTTGATCCCTGGTTTCCAGAATCC
Y
TTTCCACTCCCCTAACCCACCACCTCCCATCCCCCAGCCCCAGACCCCAAATGACCTGACGCCCAGATGCAGTGTCTGCTCCAGACACTGTCTCCTGTCT
Celera SNP ID:            hCV2932111
SNP Position Genomic:     7557
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3415):
TTCTTCCTCTGTCTCCGCCCACCCACATTTTTCTCTTTCCCTTTCTCTCTTTGGGGACCCTCCCCCATGCTCCCCTGCCCCATCCCCTTTTCCCCTTCCC
R
TCTTCTCATCCCTCCATTCCCATCTTTCCCCAGCAATTACCAGCTCTGGCTGGGTCGCCACAACTTGTTTGACGACGAAAACACAGCCCAGTTTGTTCAT
Celera SNP ID:            hCV16061874
SNP Position Genomic:     9309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:3416):
CCTCTTCCCTGGGCCTGTTTCTCGCTGTCCCTGTCTTTTATCCTTCTCATCTGCCTCTTTTTTGCTCACCCTGTTTCTCACTGCCCTCCCCTCCGCCTTT
Y
TCACCCCTCTGTCCTTTTGAGCTCTTTTTTGCTCTGTCTCTTCATTTGCCTTTTGCACTCTCAAACTCTTTCATCTTCCCATTCGCTGTCTGTATTTCTC
Celera SNP ID:            hCV2932112
SNP Position Genomic:     9095
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,10)      total(C,10|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:3417):
CACCCTGTTTCTCACTGCCCTCCCCTCCGCCTTTCTCACCCCTCTGTCCTTTTGAGCTCTTTTTTGCTCTGTCTCTTCATTTGCCTTTTGCACTCTCAAA
M
TCTTTCATCTTCCCATTCGCTGTCTGTATTTCTCCATAACTATATCTTTCTTCCTCTGTCTCCGCCCACCCACATTTTTCTCTTTCCCTTTCTCTCTTTG
Celera SNP ID:            hCV2932113
SNP Position Genomic:     9161
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;UTR 5


Context             (SEQ ID NO:3418):
ACATGAGCCTCCTGGAGAACCACACCCGCCAAGCAGACGAGGACTACAGCCACGACCTCATGCTGCTCCGCCTGACAGAGCCTGCTGATACCATCACAGA
Y
GCTGTGAAGGTCGTGGAGTTGCCCACCGAGGAACCCGAAGTGGGGAGCACCTGTTTGGCTTCCGGCTGGGGCAGCATCGAACCAGAGAATTGTATGTGGG
Celera SNP ID:            hCV2932114
SNP Position Genomic:     9541
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,13)   caucasian(C,21|T,17)   total(C,44|T,30)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,13)   caucasian(C,23|T,17)   total(C,48|T,30)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,13)   caucasian(C,22|T,18)   total(C,45|T,31)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,7)      total(C,7|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:3419):
GGTGAGGTCGGGCTGCAGCCCTTTTTCTCCCGGGTTCGTAGTCTCATTTCCAGATGATCTCCAGTGTGTGGACCTCAAAATCCTGCCTAATGATGAGTGC
R
AAAAAGCCCACGTCCAGAAGGTGACAGACTTCATGCTGTGTGTCGGACACCTGGAAGGTGGCAAAGACACCTGTGTGGTGAGGCAGCCCTGCCCCCAGGG
Celera SNP ID:            hCV2932115
SNP Position Genomic:     9810
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,7)   caucasian(A,27|G,1)   total(A,50|G,8)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,12)      total(G,1|A,12) ;40 Africans; 32 white Americans; 2 CEPH individuals(G,37|A,111)      total(G,37|A,111);(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:3420):
TCACCCTGTCCGAGAAGGACTGCCACTCACGCCTCCCTCCTCCTGAGCCCCGTCCCAGTCCTGACCGCAACTGTGTTCTCAGGGCCCCAACCTCCCCTCA
K
ATTGCCATTCCTGGTTCACAGGAAGGACCCCAAAACCTCTCGGAAGCCCACCTCTAGCCTTAACCATAGCCCTTTCTTTTACCCTTTAACCAGGAAGCCC
Celera SNP ID:            hCV2421336
SNP Position Genomic:     7194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3421):
CAGAGACATGCTAAGACAGAGGCCCCGAGGGGAGCAGCACGGAAGTCTAGATACACCTCCAGAAAGCCAGAGAGCAGGGCTGGGGTTAGGGAGGGCCCCC
R
CCCCCCAAGCCAACACCTACCAATGCCGAGGCAGAGGAAACTGAAGACAAAGTCGGCCATGTTCAGGCGGAGGACCACTGGCCAGGAGGAGAGGGCCATG
Celera SNP ID:            hCV2932119
SNP Position Genomic:     12277
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,5)      total(G,5|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 TFBS


Context             (SEQ ID NO:3422):
ACCCTTTAACCAGGAAGCCCTGAAATCTAACTGTCCCAGCCAAGCTGGCCCCTTCCAACCCCAATGTAGGGACCCCAAGTCACCCCCAAACTCTTCAGTC
S
AGATGCTCTTCTTTACCTCTCAGACCTGGTTCCCTAAAGCTGCATCCTTTCCTGAACCTCAAAAGCCCAACCCAGGTCCTGTTTCCCTAGCCTAGGAGCC
Celera SNP ID:            hCV2421337
SNP Position Genomic:     7375
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3423):
CCAAGCAGACGAGGACTACAGCCACGACCTCATGCTGCTCCGCCTGACAGAGCCTGCTGATACCATCACAGACGCTGTGAAGGTCGTGGAGTTGCCCACC
S
AGGAACCCGAAGTGGGGAGCACCTGTTTGGCTTCCGGCTGGGGCAGCATCGAACCAGAGAATTGTATGTGGGGGCAGACTGTGTAGCCCAAGGCGGGGAT
Celera SNP ID:            hCV8705506
SNP Position Genomic:     9569
SNP Source:               Applera
Population(Allele,Count): african american(C,20|G,16)   caucasian(C,21|G,17)   total(C,41|G,33)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,21|G,13)   caucasian(C,21|G,17)   total(C,42|G,30)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,21|G,15)   caucasian(C,21|G,17)   total(C,42|G,32)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|G,7)      total(G,7|C,5) ;40 Africans; 32 white Americans; 2 CEPH individuals(G,51|C,96)      total(G,51|C,96);(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:3424):
GGCTTCAACCCCAGGAATGCGTCCAGCGTGATCCAGGGCCTGCAGAACAGGTGCTGGTTCTCCCTCCCCGTCTACAGCTCTGGGGATCGGAGGGGGGGGG
G
CAATTGTCCAGCCCCCAGGCAACAGGGGAAGGGCCTTGGCCAACATCTGGGTGCCAGCAGGGCAGGGGTGGGGCTCTGAGGGGATAAGGGCTTTTAAAAG
Celera SNP ID:            hCV26638590
SNP Position Genomic:     5878
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,6)   total(G,6|-,2) 
SNP Type:                 TFBS


Context             (SEQ ID NO:3425):
GTGGGGAGCACCTGTTTGGCTTCCGGCTGGGGCAGCATCGAACCAGAGAATTGTATGTGGGGGCAGACTGTGTAGCCCAAGGCGGGGATGGGGACTCCTG
Y
GTCCAAGGGAGAAAGGGCCAGGGAAGCAGGTGAGGTCGGGCTGCAGCCCTTTTTCTCCCGGGTTCGTAGTCTCATTTCCAGATGATCTCCAGTGTGTGGA
Celera SNP ID:            hCV16232357
SNP Position Genomic:     9681
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,4)   caucasian(C,40)   total(C,72|T,4)
SNP Type:                 INTRON

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


Gene Number:                 10
Celera Gene:                 hCG22935 - 106000122235804
Gene Symbol:                 KLK11
Protein Name:                kallikrein 11;MGC33060;PRSS20;TLSP
Celera Genomic Axis:         GA_x5YUV32VY4T(878830..896639)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1671):
GCTGCGGGGGTGTCCTTATTGACCACAGGTGGGTCCTCACAGCGGCTCACTGCAGCGGCAGGTAAGTCCCTTCCTGGGGTGGGCGAAGGGAGGACTATGG
GAAGGCAAGCGCTGGGGGTAGGATCACAAGGGAGGGTGGTGCCCACTGGGAAGAAGCTGATCCTGCAACAAGAGAGTCTGAGGTTAGACCAGGAGTGGAA
CTTCCTTAGCAGTGGGCCTGGGGTGGTGCTGGGCAGGGTGAGGTATGTTGGGTGGAGGGCCGGGGAGGGTCCTGGAACCTGCCCTCCTGCCTCTCCCATT
CCTGCATGTACCCTTTCTTTCCTATATGACATCTGCCACTCACCCCAGCCATTCCTTGACCCAGTCTGGGCCCGGGGCCCAGGTCTCACCCAAGCTCTTT
TTCTTTTTCTTTTTTTTATTTTTTTGAGACAGGGTCTCGCTCTGTCGCCCAGGCTGCTGTGCAATGGCGTGATCACAGCTCACTGCTGTCTCTGCCTCCC
AGGTTCAAGTGATTCTCCTGCCCCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCGCCACCATGCCCAGCTAATTTTTGTATTTTTTGTAGAGACAGGG
TTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGGCCTCAAATGACCTGCCCGTCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCA
CCCGGCCAACATGACCCAAACTCTTTGTGCAACTTCAGAATCTATGCCTGGCACCTCTCTGGGCCTCAGTAGACTGATGTTCTGGAATTTTTTTCTTTTT
CTTTCTTTTTTTTTTTTTTTGGAGACAGAGTCTTGCTCTTTCTGTCATCCAAGCTGGAGTGCAGTGATGCTATCTTGGCTCACTACAGCCTCAACCACCT
GGGCTCAAGTGATCCTCACACCTCAGCCTCCCAAGGAGCTAAGACTACAGGCCTGCGCCACCACACCTGGCTAATTTTTAAATTTTTTTTGTAGAGACAG
GGTTTTGCTATGTTACCCAGGCTGGTCTCAAACTCCTCAGCTCAAGCAATCTTCCTGCCTTGACCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTG
TGCCTGGCCTGGAACTTTTTTTGTGAAAGGGGAGATCAGATGCAAAGAAACAGAGACTCAGGGAGAGAGAGGGCCAGCAGCAGGATGCAGAGAGGCCATT
CATCAACCCACTCGTTCAATCATGAACCCACTCGTCCACGCATGAGCATGGAGGGCACATGCTCCGTGCCAGGCGGTGGGAATAAGGCAGTGAACAAGGT
CCACTGATGTCCCTGCCTTCATGGGCTTCACCAGCCGAGAGAATCAGAAAGAGAGGCCTGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGG
CCGAGGCGGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGACACACATGGTGAAACCTTATCTCTACTAAAAATACAAAAATTAGCTGGGCATG
GTGGCATGCTTCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGTGAATTGCTTGAACCTGGGAGGTGGAGGTTGTAGTGAGCCAAGATGGTGCCACTG
CACTCCAGCCTGGGCGACAGAGCGAGACTCGGTCTTGAAAAAAAAAAAAAAAAAAAAAAGGAGAGAGAGAGACACAGATGCAGGGACATGGTAGGAGAAA
CAGGGAACACCCAAGATGGAAAGAGGGTGATGGAGGTTGGGAATAAGAGCCTGTAAGAGAGACTCGGAGAATGAGAGTTGCGGGTGAGAGGACAGACAGT
GAGGGGCAGAACAGTGGGGAGCGGCAGGAGCGCCTGAGTGTCCGTGGAGGGGTGCAAGGTGGGGGACTGCRTGCCTGCCACCCGCTCAGCCGTCGCCACC
GGCAGCAGGTACTGGGTGCGCCTGGGGGAACACAGCCTCAGCCAGCTCGACTGGACCGAGCAGATCCGGCACAGCGGCTTCTCTGTGACCCATCCCGGCT
ACCTGGGAGCCTCGACGAGCCACGAGCACGACCTCCGGCTGCTGCGGCTGCGCCTGCCCGTCCGCGTAACCAGCAGCGTTCAACCCCTGCCCCTGCCCAA
TGACTGTGCAACCGCTGGCACCGAGTGCCACGTCTCAGGCTGGGGCATCACCAACCACCCACGGAGTAAGGGGCCCAGGGCCAGGGGTCAGGGGTCAGGA
TGGGTACAAGTCTGGGATGCAGGGCGAGAGGTCGAATCATGACACCTCAGAGGAAGGATGGGTAAAGGGTCAGGGTGTGGGATGGGACATCAGGATCATG
GTTTGGGGTCAGAGATTATGGTGGATTGGGGTCTTGGGAGCCAAAGGGGTTAAAGGACTGGGTATGAAGTCAGGGATCAGAGGTCAGAGGTCAGAGTGTG
TCAGAGGTCATCACACTGGAGCAAAAGGCATATATATATATATATGTATGTATAGGATATGGGCATTGTGGGTCATGGGTCTGGGGTTAGAGGTCACCGT
AGAATTAAGGTCATGGGATCCAGAGGTTGTACAATCTGGTCAAAATCTGAGGATGGAAATTGGGATTCTATCCAAAATCACATATCTGAGATTGGAGGTC
ATAGCGTTTGGGGTGTGGGGCCCGAAGTTTGGGGTCATGGAGGCTGGGGCCCAATAAACTAGGATCAGGGGACACTGGCGTTGGAAGCAGTGAGGTTTGG
AAGATGCAGAGCTGAGGTTGGAGGTTAAGGTAAAGACAGGGACATGGGGTCAGGAGACAGAAGATATGAGATCAAGCTGGGATCATAAGGTAATAAGACA
GAAGGTCAAAGATCACAGTAGCTGGCATTGAAGAGGGTCAGGTCTGGATTCGTTGTCTCTGACGCTGGAGAGACAAGAAAGTTCTTGAGTTATGCCACTC
AAAGTCAAATGTCAAAGATCAAAGAGACCGTCAATCATCTGGGGTCATGATTCATATGAAATTAAGTCATAAATATGTAACTTGGAGGTTTCGGGATTGT
AGTACAGGTCGGTGAGGGGCAGGGGTATTGACATGGATGGGCCACATCCAGGGAAGAGGGACGTGGCCTCAAAGTGGGGAGATTTAGGGGACCCTGCAGC
ACGCATGTTCTCTCTCCAGACCCATTCCCGGATCTGCTCCAGTGCCTCAACCTCTCCATCGTCTCCCATGCCACCTGCCATGGTGTGTATCCCGGGAGAA
TCACGAGCAACATGGTGTGTGCAGGCGGCGTCCCGGGGCAGGATGCCTGCCAGGTGAGCCAGTGCAGGCAGCGTGCGTGGTCACCAGGACAGGAAGTGAA
GGGGAGGGGCTGGAAGCAGGAGGGGAACTGATGGAGGATGAATCAGGGAAAGGGGATGCTGCAGAGAGACGGGGTCAAAAAGGAAGGGAGAGGCTGGTTA
CGGAGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACTTGAGGTCAGGAGTTCAAGACAAGCCTGGCCAACACGGTGAGACT
CTGAATCTACTAAAAATACCAGAATTAGCCGGGGGTGGTGGTGCAAGCCTGTGGCCCCAGCTACTTGGAAGGCTGAGGCAGGAGAATCGCTTGATCCCGG
GAGGCGGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGCCAGACTCTGTCTCAAAACAAAATAATTAATAATAATAATA
ATAATAATAATAATAATAATGGAGGAGAGGCCCAGGATAAGGGAGGGAGAGAGACAGGGAGTAAAAGGGAGGACCGGGGAATGGAGGAGGGGGAGGGGCA
GGGAGAGAGAGGGAGGAAGGGAACAGAGAAGGAAAGATGGGGCAGGGGTTACAGAGAGAGACAGCAAAACAGACGGAGAGGACTGGGAGCCCAGACAGGG
AACCAGCTGTTTCTGGGGCTCTAAGTCTTTCCCATACCATCCTCCAGTTGGTGCTGTCCCAGACTGAGAGAGATTTGAGGATGGCGGTCTCTCCCCTCAT
TGGTCAGGGCCCCAGCCATTGTCCTTGAGAGAACTCTGTGCTTTTGATGGAGTCCTGCCCACCTTCCCTGGGATTGGTCATTTTTGATGGCACTCTCTCC
CCTCATTGGTCAGAACCCCAGGCATTGTCCTTGAGAGAACCTCTATCCTTTATGGAGTCCCACCCTCCTCCCCTGGGATTGGTCATTGATAATAGTGTTC
TCTCTCCTCATTGGTCAGGGCCCCAGCCATTGTCCTTGAGAGAATGCTCGACTCTTTATGTTGTCTTGACAGCCTCCCCTGAGATTGGTCATTAATGACT
GTGCTCTCTCTCCTCATTGGTCAGGGCCCCAGCCATTGTCCTTGAGAGAACCTCTGTCCTTTATGGAGTTCCACCCTTCTTCCCTGGGATTGGCCCCTAG
AGACAGTGGTTCTTCTCTTTTGGTTAGCCATTGCCATTGTCCTCCGGGAAAGTGATTATACTCTTTTGTCTAATGACCAGACTTGGAGCCCTCCCCAAGG
CCCAGGACTGGGTTGAAGGGTTGGGGAGGAAAACAGAAATAAGATGTCTCCCTTGTTCAGACAGTACTTCTCTTCCCTTCCAGGGTGATTCTGGGGGCCC
CCTGGTGTGTGGGGGAGTCCTTCAAGGTCTGGTGTCCTGGGGGTCTGTGGGGCCCTGTGGACAAGATGGCATCCCTGGAGTCTACACCTATATTTGCAAG
TATGTGGACTGGATCCGGATGATCATGAGGAACAACTGACCTGTTTCCTCCACCTCCACCCCCACCCCTTAACTTGGGTACCCCTCTGGCCCTCAGAGCA
CCAATATCTCCTCCATCACTTCCCCTAGCTCCACTCTTGTTGGCCTGGGAACTTCTTGGAACTTTAACTCCTGCCAGCCCTTCTAAGACCCACGAGCGGG
GTGAGAGAAGTGTGCAATAGTCTGGAATAAATATAAATGAAGGAGGGGCCATGTCTGTCCATTTGAAGTCCTCATGCTGGTTGAGACTGGAAGAAGGACT
CAGCAGTTTCCCTATCTCATAGGAGTAGAAACAGAGCTCAAATAAGGCCAGGCACAGTGGCTCACACCTGTAATCCCATCACTTTGGGAAGCTGAGGCAG
GTGGATCACCTGAGGTCAGGAACTCGGGACCAGCCTGGTCAACATAGTGAAACCCCAACTCTACTAAAAATGCAAAAATTAGCCAGGCATGGTGGCGCAT
GCCTGTAATCCCAGCTACTCAGGAGGCTGAGACAGGAGAATAGCATGAACCCGTGAGGCAGAGGCTGCAGCGAGCCGAGATTGAACCATTACACTCCAGC
CTGGGCGACAGAGCGAGACTCCATCTCAAAAACAAGCAAACAAAAAACCCAGTGCTCAAATAGGATGAGGGTCTTCCCTGAGTAGTTACTCAGAAATGGA
GTAGAAAAAGTTACTTTTAATAATATAGGCTGGGTGCAGTGGCCCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGAGGATGGCTTGAGCTCA
GATTTCGAGATCAGCCTGGCAACATGGTGAAATCTTGTCACTACAAAAACACAAAAAATTAGCTGGGTGTGGTGGTGCGTGCCTGTAGTCCCAGCTACTT
GGGAAGCTGAGGTGGGAGGATCACCCGAGCCGGGGAGGTGGAGGCTGCAAAGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCAATAAAGTGAGACC
TTGTCTCAAAAACAAAAACCCAGCAATATAAATAAGACACATGTTTCTTCATCTGGCATAATAGAAATAGTGCCCAGAGCTTATAAGCTTTTCAAGAGTC
CACAAAAGACCCGAAAAAGAAAAAGAAAATTGTTAGCTCCAAAATACCAGATGAAAGCTGCAAAGTCAACATTTATGACCATTTAATCCAATGTCCATAA
AACGTAGCATTCTTTCCACTAGCCAACTGCAGTTTACTTTCTTGTAATGAAGCATACATTGTATCTTTAATGTGGGACGTGGCTTTGTTCTAATAAGACG
AAGGGTGGAGTGCAGGCTTGGAAAGCAGGAGAGCTCAGCCTACGTCTTTAATCCTCCTGCCCACCCCTTGGATTCTGTCTCCACTGGGACTCAAGAGGTG
AGGAGAGACCATCTCCCCAAATGCACTGAAGGGAAACTGGAGGAGGGAGGGAGTGAGGGGTGATCATACCAGCGGAGGCACATTTGCTGAGCCCCCCYGC
AGTCTGCTCTTTCCAAGTGGACCCTCCTGGAAGCCTGATCCCAACCTCCCCTGCAAGCAGGTCTGTCACCCCCATCTCTCAGATGAAGAAACTGAGCCTT
GCAGGGGTGGAGTCCCTTGTCCCCACGTCATAAGGGTAGTCATAGTAGTAGGAAGAGGAAGCACCTAGGTTTGAGGCCAGGGCTGGCTGCTGTCAGAACC
TAGGCCCTCCCCTGCCTTGCTCCACACCTGGTCAGGGGAGAGAGGGGAGGAAAGCCAAGGGAAGGGACCTAACTGAAAACAAACAAGCTGGGAGAAGCAG
GAATCTGCGCTCGGGTTCCGCAGATGCAGAGGTTGAGGTGGCTGCGGGACTGGAAGTCATCGGGCAGAGGTCTCACAGCAGCCAGTAAGTGAACAGCTGG
ACTYGGGCTGCCTGGGCGGCAGGGAGAAGCGGGCAGGGGAAGGGTCAGCAGAGGAGCGAGGCCCCAGAGGAGCCCTGGGGTGGAGCACAGCCAAGGGCTC
TGTTCCCTTTCCTGGACTCGGCTTCCACAGGCCCTGACCTGCCTCCCCCACCCTCCGGTCCTGCCCCTGTGCCTGGCAGCAGCCCCACCTGTGTGACATC
CCAGCACACCCCCCCTCTCCTTGCAAAGGAGAAGGGAGCGGCCTAGGGGAGGCCAGGGGCCCACCTGGGCTGGGGCTGTGGAGAGGGAGTGGCTGGGACG
GGAGGAAAAAGAGAGACGGAGATTAGATGGAAGAAGAGGGATTTCAAGACAAATTGCCAGAGATGCAGTCAGAGAGACTGACTGAGAGACACAAAGATAG
AAGGAATTAGAGAAAGGGCCACACAGAGCCAGACAGAGAGAGAAGAGTGGAGRTGGAGACAGGGACGAGGACAGAGAAAGGCAGACAGACACATAGGGAC
AGAAAGAGAAAAATCACACAAAGTCAGAATTACTGAATGACAGGGAATGACACATAGAACGAGACACAGATTCAGAGACTCAGGGCAGGGAAAGGAAGGC
TGCAGACAGACAGACAGACAGAGGGAGGCTGAGACACAGGGAGAAGAGGGGCTTGGAGAGGTGGCACAGGCAGGCAGCCAGTGCCTCAGAGGCCTCCGGG
GAGGGCCCTCACACACACCCCGCCCCGGGGCATTAAGGCAGGGCTTGGAGGCCAGTCATCCTGGGCCCGCCCAGGGCCGCCCCCCTGCCAGCCCGCCTGC
CTGGTGCCTGGCACCTGGCGCTCCAACCCAGCCTACCTGCTGTAGCTGCCGCCACTGCCGTCTCCGCCGCCACTGGGCCCCCAGAGCCCCAGCCCCAGAG
CCTGTGAGTCCAGGAGGAAAGGGAAGCTGCCCCTCCCCGTCCAGGTGTCAGCCCTCCCCAAGGACACCTGTCCCACTCGGGCACCCATTTCTCCCTCTGC
TCTGTCCTTCTCTGCTTGGGTGGGGGTTCCTGGCCTCTCTCTACACCTCTCACCTCCGATGGCTGTCCGCAGCCTCAGTTACCTCTAATCTCCATGGCTT
CAGCTGCTGAGCTGGCCCTCTGCTCCCACCCCCGCTGGCCAGGGCAGCGGAGGGCACTGGCCCTCCCCTCGACCAGCCCCGCCCAGCTTTGCTTGGCTGT
CCTTCAAAAGGGCAGGGGTTTGGCGGACAGGGCTTCAGCAAGCCGGGTGATGGGGGTCCCAGACATTGTCTGGGGCTGAGCCCCCTACTCCCCTCCAGCA
GACCTCAAAGGCTCCATATCGCTCTGCTGCGAAGACAATGAAAAAGGGGTGGCTACGGAACGGTGTCTGGTTCCCCTTGTCCTTCCACCCCAAGCTGCTG
GGGCCTGGCCAGCTCTCAAGGCAAGAAGGAAAACATCCTCTGACATGTGCCGGGGAGGTCCCATGGCTGACTTGAACAGGGCCGAACCATGGCTTGACAG
CTCAAAGCCCCTCCCAACGACTTCCACATGGTTCTTGGTATCTCGGAAGCTTCTAGCTGTGACCAGGCCCTCTCCAARGCCACCCTAGACACCTAAGATA
TATTTTAAGTGTTTGGAGATCTGAGTGCTGTGAGAAACAGGGGATTTCCCCAACCTTGTTTCTCCCAAGTGGGGAGCGGGAGCAGGTGAGGGAGAGAGGA
GARGGCATGAGCCAGCCCCCCYCTCCCGATTTCCCCGTAAAGTGATGCGGCCCCATGTCCCTCCTTGTTCCCAGAGGAACCTGGGGCCCGCTCCTCCCCC
CTCCAGRCCATGAGGATTCTGCAGTTAATCCTGCTTGCTCTGGCAACAGGTACGCAGGGGATGGRGGCAGGGCAGGATCCTCCCTCTTGAATCTCTGGGA
TCCCCTAACCCTCTGTGTCTGGACAGTGACAGGGCTGATTCCAAATTACAGAACAACCCATAAGGCACCTGAACTGGAGCAGTGGTCATGAGGGCCTGGA
TGCCCTTCTAGATAATCCCTTTAAATGCCAAAGGAGGAGAGGTCAAGGGGGTCGTAAAGGGTCCCGTGGAGGGGCTGAGGAAGCTGGAGTTGGGGGAGCA
GTCACTCAAAGCGCCCAGGACAGGGGCTACTGACCAACCAGTATGGAAGTATTTCCTTTTTTTTTTTTCCCAGAGACAAAGTCTTGCTCTATTGTCCAGG
CTGGAGTGCCGTGGTGCCAACACGGCTCACTGCAGTCTTGACTTCCCGGGCTTAAGTGATCCTTAAGCCATCTCAGCTTCCCCGGTAGCTGGGACCACAG
GCACCTGCCACCAAGCCAGGCTAATTGTTTAATTGTTTGTAGAGATGGGGGAGGAGGTCTCACTATGTTTGCCTAGGCTGATCTAGAACTCCTGGGCTCA
AGTAATCCTCCCACCTTAGCCTCTCAAAGTGCTGGGATTACAGGCATGAGCCACTGCATTTGACCTTATGGAAGTATTTTCATCCTTTAATACCCGACCC
CAGCATCCAGGGCAACCCAGAGGGACACCAGACCAGGGCCCAGACCACCCACTCTCTTTCTCTCCTCCCCACCCCCATTTCTGGGAGTCCTCCTGGTCTA
CCACCTCTCCTTCCTGAGCCCCTTCTTTTGCTCTCACCCCCTCCAGGGCTTGTAGRGGGAGAGACCAGGATCATCAAGGGGTTCGAGTGCAAGCCTCACT
CCCAGCCCTGGCAGGCAGCCCTGTTCGAGAAGACGCGGCTACTCTGTGGGGCGACGCTCATCGCCCCCAGATGGCTCCTGACAGCAGCCCACTGCCTCAA
GCCGTGGGTGCGGGGGCTGGGGCGGTGCCGGGGTGGGGGGCTGGGAATGGGGAGATGGATGGAGAGAAGCTCAGGGATAGGGGTGCTGGTAAGGGGATTA
GAGATGGGGATGGGTAGTGTCAGCAAGGTTGATGGGCTCGAGTTGGTATTGAAGGTGGGGGGATGAATGGGGTTGGGATGGGGCTATGGCTGGGAAGGGG
GCTTCGGTGGGAGACGTGGAAGAGGTTGGAAGCAGAGCGATGTTTCTTCATCCTCAAAGGTGTCACTCACCTCTCCCACCCATGTCTCCCCCGACCTTTC
CTCCTCCAACTACTGTCTCTCCCACCTCAGCCGCTACATAGTTCACCTGGGGCAGCACAACCTCCAGAAGGAGGAGGGCTGTGAGCAGACCCGGACAGCC
ACTGAGTCCTTCCCCCACCCCGGCTTCAACAACAGCCTCCCCAACAAAGACCACCGCAATGACATCATGCTGGTGAAGATGGCATCGCCAGTCTCCATCA
CCTGGGCTGTGCGACCCCTCACCCTCTCCTCAYGCTGTGTCACTGCTGGCACCAGCTGCCTCATTTCCGGCTGGGGCAGCACGTCCAGCCCCCAGTGTAG
GAGCACCAGAGGGGAACCTGGCAGGGGGTGGTGAGGAGGGAGTGGTCAGGATTGTGGAAGGGTTCAGGGCATCAGAGATSSGGTTCACAGTGACGATGTG
GGATAAGTTGAGAGGATGTGTGGAAAACGTCAGGATAGGGGGGTGGGGACAAAAGTTGGGGCCTTGGAGTCAGACGGACGGGATATGCAATCATACATCC
ATAACCTCCTGGTTGTAAGACCTTAGGCAAGCAGCTTCACCTCTCTGAATCTTGATTTTCTTCTCTATAAAATGAGAATGATTATACCCACCTGTCAGGA
TTGGATTAGAGATAATGTATATCAAGCAACTGACATAAATCATTTATTGGATAGCAGGCTGGGCACCGTGGCTCACGCCTGTAATCCCAGCACTTTGGGA
GGCCGAGGTGGGAAGATCACCTGAGGTCAGGACTTTGATACCAGCCTGGCCAACGTGGTGAAATCCCATCTCTACTAAAAATGTGAAAATTAGTTGGGCG
TGGTTGTGTGCGCCTGTAATCCCAGCTACTCGGGAGGTTGAGGCAGGAGAATCGCTTAAACTTGGGAGACGGAGGTTGCAGTGAGCCAAGATCACGCCAC
TGCACTCCAGCCTGGGCAACAGAGCAAGACTCTGTCTCGAAAAAAAAAAAAAAAAAGCTGGATAGCATTGCTGTTGCTATTGTTACAAGAAGAGAGGTGA
GTTGGCTGCGTCTAAGGACAGGGATTCCCCCAGGGGCGGGATCACAGCAAGCACTGCATTAGGGGAGGTGGCAGGGGGCTCATTCCCACAGCCCCTCACG
CTGTTTCCACAGTACGCCTGCCTCACACCTTGCGATGCGCCAACATCRCCATCATTGAGCACCAGAAGTGTGAGAACGCCTACCCCGGCAACATCACAGA
CACCATGGTGTGTGCCAGCGTGCAGGAAGGGGGCAAGGACTCCTGCCAGGTCAGTGTGGTCTCCAACCACAGCCCCATCCCCATCCCCAGCTTCAATGAC
ATCTTTACCGACATCCACAATTTCATCCCCAACCTCAACCCGCCGACCCCTGCAACTCCCAATCCATCTCTTCCCCTGTTCCCRTTTCTGACCTCAGCAC
AAACTTCAGCTCCATCCCCGTTTCCACACCATTTCCAGCTCCAACCATCCCCAAACTCGTTTTTGAGCCTAACCCCATCCTTTATCCCACCCATAATCCC
AGCTTTATYGCTAAACCTATCACCTTTCCCAGTGCCTACCCATCCTGTCTCGGCCCCACTCCTAAGCACCGTCCCCACCTCCTCCCTGGCTAACACCATG
CTCAACGCTTTCTCTGACCGACATTCTCTCTCCCYGTGCCCAGGGTGACTCCGGGGGCCCTCTGGTCTGTAACCAGTCTCTTCAAGGCATTATCTCCTGG
GGCCAGGATCCGTGTGCGATCACCCGAAAGCCTGGTGTCTACACGAAAGTCTGCAAATATGTGGACTGGATCCAGGAGACGATGAAGAACAATTAGACTG
GACCCACCCACCACAGCCCATCACCCTCCATTTCCACTTGGTGTTTGGTTCCTGTTCACTCTGTTAATAAGAAACCCTAAGCCAAGACCCTCTRCGAACA
TTCTTTGGGCCTCCTGGACTACAGGAGATGCTGTCACTTAATAATCAACCTGGGGTTCGAAATCAGTGAGACCTGGATTCAAATTCTGCCTTGAAATATT
GTGACTCTGGGAATGACAACACCTGGTTTGTTCTCTGTTGTATCCCCAGCCCCAAAGACAGCTCCTGGCCATATATCAAGGTTTCAATAAATATTTGCTA
AATGAGTGAATCTACTGAGTGCTTACTATGTGCTAGACCCTGATCCAATGGCTTTTATTTTATTTTATTTTTTGACAGAGTCTCGCTCTGTCACCCAGGC
TGGAGTACAGTGGTGCTATCTCTGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAATAGCTGGGATTACAGGTGC
CTACCACCACATCCGGCTAATTTTTGTATTTTTTAGTAGAGATGGGGCTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGATGATCTGCC
CTCCTTGGCCTCCCAAACTCCTGGGATTACAGACGTGAGCCACCGCGCCCGCCCGGCTTTCATTTATTAATTAAAAGAAATTAAATTAATTAATCTATTT
AGGAGACAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTAACAATCACAGCTCACGGCAATCTCAATTTCCTGGGGTCAAGTGATTGTCCTCCCTCAGC
CTCCAGAGTAGCTGGGACTACAGGCACATGCCACGAAGCCCAGCTAATTTTTGTATTTTTCGTAGAGACAGAGGTCTCAGTATGTTGCCCCGGCTAGTCT
CAAACTCCTGGGCTCAAGCAGTCTGTCCTCCTCAGCCTCCAAAAGTGGTGAGATTACAGGCATGAGTCGCTGTGCCTGGCCTCCAAGCACTTTCAAATGT
ATCAACTTAATCCTCACAAAACCCTGTGAGGTCGGTACTGTTTTCATACCTATTTTATAGTTGAAGAAACAGACACAGAGAAGCAAAGTCACTTGCTCAC
AGTCACGTGGCTAGGAGAGCAAGGATCTGAAGCAAGGCGATCTCTTAATTACCAAGTGATGTTCCTGGAGTAAGGCTCTGTTTGTTTCCTTTCCTGTAAA
ATGCTGCATGCAAAAGTATAACACAGTAAGTAAAGAAGTCAGTTAGCCTGCACATACTAAGACCTAACCAAAGGAGCTTATTGTTTTTCTCCAACTTCCA
TGATAGGTAATTAGATAGTGGAGACCTCTGCTGGCCAATATGGTAGCCACTAACCGCAGCTGGCTCTTCCAATTAAAATTACATAAAGCCAGAAATGTAA
CTCCTCTGTCTCACTTGTTATATCTCCAAGGCTGGATAGCCACATGTGACTGGTGGTGGCTGGATTAGCTAGTGCATATAAAACATCACTGCAGAAAGTT
CAGCTGAGCAGCACTGAGTTAGATGGCCTCTGAAGAGGATGTCCCACGGAGAGAATCCAGAACTCAGGATCTTTTTTTTTTTTTTTCTTTGCGACAGAGT
CTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACTTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCTAG
TAGCTGGGACTACAGGCCTGTGCCAACATCCCCAGCTAATTTTTGTGTCTTTTTAGTAGAGATGGGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTC
CTGACCTCGTGATCCGCCCCCCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCAGCTCAGGATCTTTTGGGATGGTCTGT
TCACCTCGCAGAAGTGGCTGGCATGAGCAATAGGAGCCCAGAGTGGAACCAGGGCCTTCTGGTTGTCAAGTGGACTTGCTGTGTGACCTCCTGTGAGTCT
CTGCCCTCTCTGAGCCTCTCACTCCTCACCTGAGATGAGGGAGTTGGCTGAGGTGATGCCGATGCCCCTCACAGCTTTGACCTCCTATGATTCAGGGGCC
TGTGTGTCACCTGGTGGCACACAGATGGCAGGGAGGGTGTGAGATGGCCACACATGGGTATGAGGCAGAGCCACAGCCCCCCCCAACACGCACATGGGCT
AGTCACTGGGACACACACAGAGCTCACTCACGGCCACAGAGTGGGCGTGGGTTTCCCTTTTTCCTTGTTTCTGTTTCTCTTAGCCTCGGCGCCTCCCTCC
CTCCCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTGGCTCTTTTAGCCTTGGTTTGTTACAATCTCCCTTTTCAAGCCAGCCTCTGTCCCTCC
TACTCAACCTGCTTTATCTCTAGGCCTTCCTCCTTCCTCTTCCACAGTCTGGCTTCTCACATTGTCACTCTAGGTATGCACTTCCCATTGATTTCCTCTT
GCTCAGTGGCCTCTCATCCTGCCACCCCTAGCCTTGCTGGGGACGTGAACCCTCTCCCCGCGCCTGGGAAGCCTTCTTGGCACCGGGACCCGGRGAATCC
CCACGGAAGCCAGTTCCAAAAGGGATGAAAAGGGGGCGTTTCGGGCACTGGGAGAAGCCTGTATTCCAGGGCCCCTCCCAGAGCAGGAATCTGGGACCCA
GGAGTGCCAGCCTCACCCACGGTACAATTAGACAGAGGGAAAGGGAGGGAGCCCGGGGGTGGGGGTAGGGGAGGGTGGAGAAGCTTCCGGACTCCTTGGG
GTTAAAAGGGAAGGTCCCGCCAGGGGTCCCTGGGCAGAGGATACCAGCGGCAGACCACAGGCAGGGCAGAGGCACGTCTGGGTCCCCTCCCTCCTTCCTA
TCGGCGACTCCCAGGTGAAGCTACCTGCACCCCACCCGGGTTGGGGTGGATTGCGAGAGGATGGGTGGGGACCCCCGGGCCACAGGCAGGAGCCGGCTTA
GAGCCTCGGTTTCTCCACCTGCGGGACGCGGAAGTCCCCCCGCTGTGAGGTTGAGAAAGAGGCTCCCACTGGCTCCGAGCCTCGGATCCCCACCCCGCGC
GTGAAGGAGGGGGAAACCTCGGGCGCGGCGTGGCTGCAGCCAGGGTAGCTGGGGCGCGGAGAGCGCTCCACTCGGGCACAGGGAGGACGGGAAGATGCCG
CGAGGGGCGTCATTAGGGTAATTGTGCCCATTACCGCTGTTCCAGCCCGAATCTCCCGTCTGCCAGCCCCTGGGGTTATCGGCTGCAGGTCAAAAGGGTG
CTTGCGGGCTGGGGTGGCCCAGGCTGGGCGGATGAGCGCGGCGAGGTGGGGGTCTCTAACGGAGCATCTGTTTTAACCCGCCCCTGCACACACCCCAGCA
GATCCTGGCCATGAGAGCTCCGCACCTCCACCTCTCCGCCGCCTCTGGCGCCCGGGCTCTGGCGAAGCTGCTGCCGCTGCTGATGGCGCAACTCTGGGGT
AAGGTCGGGGGCAGGGGGCGGGGAGAGGCGCCGGTGGGAGGCACGGGCGGGAGGAGAATGTGTTCCCGTCACCAAGCCCCGCGCACCTCTCCTCCCCCGA
GACCCCAGCACCCACCCAGCGCTCCGGAGCACGGCCCGCCCCCAAGTCAGCTGGGCCCTTCTTCTGGCTCGGCCCCTGGGTGACCCGCCCCACTCAGGCC
CTGTCCGATTTCTGCCACCCGGATCCTCGCTCTTCCGTGGACTCTTCGCCGCGTTCTTTCTCCTCCTCTTACGCCGCCCCATCCCGGCCCCGCTCCATTT
TACACTACCGTGTTTTGTTTTGTTTGTTTGTTTGTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAA
GCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCAAGCCCGGCTAGTTTTTTGTATTTTT
AGTAGAGATGGGATTTCACCGTGGTCTCGATCTCCTGGCCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCGCTC
CCGGCCACACCACCGTGTTTTATCCTGAGTCTTGCCTTACCGCTTTTTGCCCTCTCCCCTCACTTTTTTTCTTCCTCTTTCCCTTTCTCTCTCTTTTTTC
TTTTTCTTTCTTTCTTTTCTTTCTTTCGTTCTTCTTTTCCTTCCTTCCTTTCCTTCCTTCCTTTCGTTTGTTTCTTCTTTCTTGTTTTACTTTCTYTCTT
ATTTTTTCTTCTTTCTTTCTTGTTTTTTTCTTTCTCTCTCTTRTTCTTTCCTTCTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGCAGTGCTCTGTCTCC
GTGGCTGGAGTACAGTGGCCCAATCAGAGCTCACTGCAGCCTCGACCTCCTGGGCTCAAGCGATACTCAGCCTCCAGAGTAGCTGGTACCACAGGCATGC
ACCACCACATCCGGCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTGTCGCCCAGACTGGAGTGCAGTGGCCCAATCTCGGCTC
ATTGCAACCTCCACCTCCTGGGCTCAAGCGATCCTCCCACCTCAGCCTCCCAGGTAGCTGTGACTACAGGCGCATGCCTCCGCGACTACTTTTTTGTTGT
TGTTGTTGTTGTTTGTTTGTTTTTGTAGAGACTGGGTCTTGCTGTGTTGCCCGGGCTGGTCTTGAATTCCCGAGCTCAAGCGGTCCAACCGCCTCGGCTT
CCCAAAGTGCTGGGATTACAGGCGTAAACCACTGCGCCCCACCCCTCTCCTGGTTTTCAATCCCGTTTTGTTATTCACACCCCTTCCTCTCCCCGATCCC
CGAGTTCTATCCCCGCACCCTTACCTCCCCGCCGCGTTCAATCCCCGCCCCTCTATCGACCAGCGACGTTCTAGCCAGCTCTCCAGGCGCGCTGCGTTCA
GTCCCTGCCCTCCAGACCCACCCTATTCTGTCTCATTACTCCACGCTACCCTATCCCAGCTTCCTTCCACTTTCACGCGCTTCTTCTCCTCCCATTCCCT
TCGGTGCACGCGAAACCCCCAATATTTCCCTACCACCCTCGCGTTCTGGCTGCGTCCCCCGTCCCCGAACGCAGTCCAGTGCCACAGCCCAGCTCCAACC
CCAAACCCAGACCCTGCCCTCCGTGCTTTGATTCCGTCCCCTTTCTTTCTCCAGCCGCAGAGGCGGCGCTGCTCCCCCAAAACGACACGCGCTTGGACCC
CGAAGCCTATGGCKCCCCGTGCGCGCGCGGCTCGCAGCCCTGGCAGGTCTCGCTCTTCAACGGCCTCTCGTTCCACTGCGCGGGTGTCCTGGTGGACCAG
AGTTGGGTGCTGACGGCCGCGCACTGCGGAAACAAGTAGGAGGAGATCCATCCCCGAGGACGCCACGGGGGGCTGTGGAGGCGGCCTCCAGGGAGGAGCG
GGCAGGGCGGGGTCTCTCGGAACTCCCACAGCTGGAGGTGCGGTCCCCGGTGTCCTTCCAGCAGGAGGAGAGACCGGGCTTGCGCTGTGGCCGCCAGGGG
RCGGTGTGGTCCTTTTCCGCATTTCTGGGCCCGTCACTCCTCTCCCGCTGATTCTCCTTGAGCTCTAGGAGGAGGTGGTTGCCTGCAACGGATAGAAGCC
AGGGTCCGGTGTGGTCAGGAATTTAGAACTAAAGGAAAAGGTTCACTTCGTGAGTCCCCGTTGAAGGAGGAAGGGTTGGGTATTACCACAGAGAAAATGT
GGAGTTGGGCTGGGCTCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGG
CCAACATGGTGAAACCACTTCTCAACTAAAAATAAAATAAAATAAAAAATAAAAAATTTTAAAAAAATTAAAAAAAAAAAAAGGCTGGGTGTGGTGGTGG
GTGCCTGTAATCCCAGCTACTCAGGAAGGAGGCTGAGGCAGGAGAACTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCGCCATTGCAT
TCTAGCCTGGGTGACAAGAGCGAAACTCTGTTTCAACAAAGAAAAGAAAAAGAGAAAAGAAAATGTGGAAGGCTTACCTAGGTGTCCAGGCCCCCAGCCC
TCCTCAATTCCTGCAGATCCTCAGAGCTCAAACAACTGATTCCTCCTCCCCATGTCCACTGAGGTCCCCTTCTCCCACAAGGCCCTCTTCCCTCAGACTC
TTCCTATCT


SNP Information

Context             (SEQ ID NO:3426):
CCTACCCATCCTGTCTCGGCCCCACTCCTAAGCACCGTCCCCACCTCCTCCCTGGCTAACACCATGCTCAACGCTTTCTCTGACCGACATTCTCTCTCCC
Y
GTGCCCAGGGTGACTCCGGGGGCCCTCTGGTCTGTAACCAGTCTCTTCAAGGCATTATCTCCTGGGGCCAGGATCCGTGTGCGATCACCCGAAAGCCTGG
Celera SNP ID:            hCV25602521
SNP Position Genomic:     11335
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:3427):
CAAGCACTGCATTAGGGGAGGTGGCAGGGGGCTCATTCCCACAGCCCCTCACGCTGTTTCCACAGTACGCCTGCCTCACACCTTGCGATGCGCCAACATC
R
CCATCATTGAGCACCAGAAGTGTGAGAACGCCTACCCCGGCAACATCACAGACACCATGGTGTGTGCCAGCGTGCAGGAAGGGGGCAAGGACTCCTGCCA
Celera SNP ID:            hCV25602522
SNP Position Genomic:     10848
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:3428):
TAGACTGGACCCACCCACCACAGCCCATCACCCTCCATTTCCACTTGGTGTTTGGTTCCTGTTCACTCTGTTAATAAGAAACCCTAAGCCAAGACCCTCT
R
CGAACATTCTTTGGGCCTCCTGGACTACAGGAGATGCTGTCACTTAATAATCAACCTGGGGTTCGAAATCAGTGAGACCTGGATTCAAATTCTGCCTTGA
Celera SNP ID:            hCV8706278
SNP Position Genomic:     11594
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,19)   caucasian(A,34|G,6)   total(A,53|G,25)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3429):
ATTGCCAGAGATGCAGTCAGAGAGACTGACTGAGAGACACAAAGATAGAAGGAATTAGAGAAAGGGCCACACAGAGCCAGACAGAGAGAGAAGAGTGGAG
R
TGGAGACAGGGACGAGGACAGAGAAAGGCAGACAGACACATAGGGACAGAAAGAGAAAAATCACACAAAGTCAGAATTACTGAATGACAGGGAATGACAC
Celera SNP ID:            hCV26639575
SNP Position Genomic:     7053
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,10)   total(G,5|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3430):
TTGTTCCCAGAGGAACCTGGGGCCCGCTCCTCCCCCCTCCAGGCCATGAGGATTCTGCAGTTAATCCTGCTTGCTCTGGCAACAGGTACGCAGGGGATGG
R
GGCAGGGCAGGATCCTCCCTCTTGAATCTCTGGGATCCCCTAACCCTCTGTGTCTGGACAGTGACAGGGCTGATTCCAAATTACAGAACAACCCATAAGG
Celera SNP ID:            hCV25602530
SNP Position Genomic:     8465
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,35)   caucasian(A,4|G,34)   total(A,5|G,69)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3431):
TCTGCGCTCGGGTTCCGCAGATGCAGAGGTTGAGGTGGCTGCGGGACTGGAAGTCATCGGGCAGAGGTCTCACAGCAGCCAGTAAGTGAACAGCTGGACT
Y
GGGCTGCCTGGGCGGCAGGGAGAAGCGGGCAGGGGAAGGGTCAGCAGAGGAGCGAGGCCCCAGAGGAGCCCTGGGGTGGAGCACAGCCAAGGGCTCTGTT
Celera SNP ID:            hCV8706279
SNP Position Genomic:     6604
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3432):
TCCTCTTGCTCAGTGGCCTCTCATCCTGCCACCCCTAGCCTTGCTGGGGACGTGAACCCTCTCCCCGCGCCTGGGAAGCCTTCTTGGCACCGGGACCCGG
R
GAATCCCCACGGAAGCCAGTTCCAAAAGGGATGAAAAGGGGGCGTTTCGGGCACTGGGAGAAGCCTGTATTCCAGGGCCCCTCCCAGAGCAGGAATCTGG
Celera SNP ID:            hCV11715592
SNP Position Genomic:     14094
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,10)      total(G,5|A,10) ;no_pop(G,-|A,-)   
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:3433):
TTTTAAGTGTTTGGAGATCTGAGTGCTGTGAGAAACAGGGGATTTCCCCAACCTTGTTTCTCCCAAGTGGGGAGCGGGAGCAGGTGAGGGAGAGAGGAGA
R
GGCATGAGCCAGCCCCCCCCTCCCGATTTCCCCGTAAAGTGATGCGGCCCCATGTCCCTCCTTGTTCCCAGAGGAACCTGGGGCCCGCTCCTCCCCCCTC
Celera SNP ID:            hCV25474282
SNP Position Genomic:     8303
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(G,38)   total(A,5|G,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:3434):
CTTTCTCTCCTCCCCACCCCCATTTCTGGGAGTCCTCCTGGTCTACCACCTCTCCTTCCTGAGCCCCTTCTTTTGCTCTCACCCCCTCCAGGGCTTGTAG
R
GGGAGAGACCAGGATCATCAAGGGGTTCGAGTGCAAGCCTCACTCCCAGCCCTGGCAGGCAGCCCTGTTCGAGAAGACGCGGCTACTCTGTGGGGCGACG
Celera SNP ID:            hCV27493749
SNP Position Genomic:     9256
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,136|G,773)   total(G,773|A,136) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:3435):
TGAGTGCTGTGAGAAACAGGGGATTTCCCCAACCTTGTTTCTCCCAAGTGGGGAGCGGGAGCAGGTGAGGGAGAGAGGAGAGGGCATGAGCCAGCCCCCC
Y
CTCCCGATTTCCCCGTAAAGTGATGCGGCCCCATGTCCCTCCTTGTTCCCAGAGGAACCTGGGGCCCGCTCCTCCCCCCTCCAGGCCATGAGGATTCTGC
Celera SNP ID:            hCV25602529
SNP Position Genomic:     8322
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:3436):
GCTCCATCCCCGTTTCCACACCATTTCCAGCTCCAACCATCCCCAAACTCGTTTTTGAGCCTAACCCCATCCTTTATCCCACCCATAATCCCAGCTTTAT
Y
GCTAAACCTATCACCTTTCCCAGTGCCTACCCATCCTGTCTCGGCCCCACTCCTAAGCACCGTCCCCACCTCCTCCCTGGCTAACACCATGCTCAACGCT
Celera SNP ID:            hCV25473763
SNP Position Genomic:     11209
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,14)   caucasian(C,30|T,6)   total(C,50|T,20)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,292|C,1207)   total(C,1207|T,292)no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3437):
CACGTCCAGCCCCCAGTGTAGGAGCACCAGAGGGGAACCTGGCAGGGGGTGGTGAGGAGGGAGTGGTCAGGATTGTGGAAGGGTTCAGGGCATCAGAGAT
S
CGGTTCACAGTGACGATGTGGGATAAGTTGAGAGGATGTGTGGAAAACGTCAGGATAGGGGGGTGGGGACAAAAGTTGGGGCCTTGGAGTCAGACGGACG
Celera SNP ID:            hCV15915925
SNP Position Genomic:     10080
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3438):
CAGCCTCCCCAACAAAGACCACCGCAATGACATCATGCTGGTGAAGATGGCATCGCCAGTCTCCATCACCTGGGCTGTGCGACCCCTCACCCTCTCCTCA
Y
GCTGTGTCACTGCTGGCACCAGCTGCCTCATTTCCGGCTGGGGCAGCACGTCCAGCCCCCAGTGTAGGAGCACCAGAGGGGAACCTGGCAGGGGGTGGTG
Celera SNP ID:            hCV1844596
SNP Position Genomic:     9933
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;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(T,25|C,287)   Chinese(T,0|C,60)   Japanese(T,0|C,18)   Tfrican(T,1|C,95)   (T,1|C,7)      total(C,7|T,1) ;(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:3439):
AGGGCCGAACCATGGCTTGACAGCTCAAAGCCCCTCCCAACGACTTCCACATGGTTCTTGGTATCTCGGAAGCTTCTAGCTGTGACCAGGCCCTCTCCAA
R
GCCACCCTAGACACCTAAGATATATTTTAAGTGTTTGGAGATCTGAGTGCTGTGAGAAACAGGGGATTTCCCCAACCTTGTTTCTCCCAAGTGGGGAGCG
Celera SNP ID:            hCV15915926
SNP Position Genomic:     8178
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,3)   caucasian(G,6)   total(A,3|G,9)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   no_pop(G,-|A,-)   JBIC-allele(A,47|G,704)   total(G,704|A,47)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3440):
CGGTTGCACAGTCATTGGGCAGGGGCAGGGGTTGAACGCTGCTGGTTACGCGGACGGGCAGGCGCAGCCGCAGCAGCCGGAGGTCGTGCTCGTGGCTCGT
Y
GAGGCTCCCAGGTAGCCGGGATGGGTCACAGAGAAGCCGCTGTGCCGGATCTGCTCGGTCCAGTCGAGCTGGCTGAGGCTGTGTTCCCCCAGGCGCACCC
Celera SNP ID:            hCV25747601
SNP Position Genomic:     15796
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;hmCS


Context             (SEQ ID NO:3441):
ATGAGAGTTGCGGGTGAGAGGACAGACAGTGAGGGGCAGAACAGTGGGGAGCGGCAGGAGCGCCTGAGTGTCCGTGGAGGGGTGCAAGGTGGGGGACTGC
R
TGCCTGCCACCCGCTCAGCCGTCGCCACCGGCAGCAGGTACTGGGTGCGCCTGGGGGAACACAGCCTCAGCCAGCTCGACTGGACCGAGCAGATCCGGCA
Celera SNP ID:            hCV25742776
SNP Position Genomic:     1871
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:3442):
TCCCCAGCTTCAATGACATCTTTACCGACATCCACAATTTCATCCCCAACCTCAACCCGCCGACCCCTGCAACTCCCAATCCATCTCTTCCCCTGTTCCC
R
TTTCTGACCTCAGCACAAACTTCAGCTCCATCCCCGTTTCCACACCATTTCCAGCTCCAACCATCCCCAAACTCGTTTTTGAGCCTAACCCCATCCTTTA
Celera SNP ID:            hCV27510817
SNP Position Genomic:     11084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3443):
ATGAGCCAGCCCCCCCCTCCCGATTTCCCCGTAAAGTGATGCGGCCCCATGTCCCTCCTTGTTCCCAGAGGAACCTGGGGCCCGCTCCTCCCCCCTCCAG
R
CCATGAGGATTCTGCAGTTAATCCTGCTTGCTCTGGCAACAGGTACGCAGGGGATGGGGGCAGGGCAGGATCCTCCCTCTTGAATCTCTGGGATCCCCTA
Celera SNP ID:            hCV15880015
SNP Position Genomic:     8407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:3444):
CTGCCCTCCGTGCTTTGATTCCGTCCCCTTTCTTTCTCCAGCCGCAGAGGCGGCGCTGCTCCCCCAAAACGACACGCGCTTGGACCCCGAAGCCTATGGC
K
CCCCGTGCGCGCGCGGCTCGCAGCCCTGGCAGGTCTCGCTCTTCAACGGCCTCTCGTTCCACTGCGCGGGTGTCCTGGTGGACCAGAGTTGGGTGCTGAC
Celera SNP ID:            hCV1843175
SNP Position Genomic:     16814
SNP Source:               Applera
Population(Allele,Count): african american(G,23|T,1)   caucasian(G,20|T,18)   total(G,43|T,19)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,2)   caucasian(G,15|T,13)   total(G,21|T,15)
SNP Type:                 MISSENSE MUTATION;hmCS

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;hmCS


Context             (SEQ ID NO:3445):
ACGCGGACGGGCAGGCGCAGCCGCAGCAGCCGGAGGTCGTGCTCGTGGCTCGTCGAGGCTCCCAGGTAGCCGGGATGGGTCACAGAGAAGCCGCTGTGCC
R
GATCTGCTCGGTCCAGTCGAGCTGGCTGAGGCTGTGTTCCCCCAGGCGCACCCAGTACCTGCTGCCGGTGGCGACGGCTGAGCGGGTGGCAGGCACGCAG
Celera SNP ID:            hCV25747660
SNP Position Genomic:     15843
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,38)   total(A,2|G,74)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:3446):
GGCAGGGCGGGGTCTCTCGGAACTCCCACAGCTGGAGGTGCGGTCCCCGGTGTCCTTCCAGCAGGAGGAGAGACCGGGCTTGCGCTGTGGCCGCCAGGGG
R
CGGTGTGGTCCTTTTCCGCATTTCTGGGCCCGTCACTCCTCTCCCGCTGATTCTCCTTGAGCTCTAGGAGGAGGTGGTTGCCTGCAACGGATAGAAGCCA
Celera SNP ID:            hCV1843176
SNP Position Genomic:     17101
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:3447):
ACGTCCAGCCCCCAGTGTAGGAGCACCAGAGGGGAACCTGGCAGGGGGTGGTGAGGAGGGAGTGGTCAGGATTGTGGAAGGGTTCAGGGCATCAGAGATG
S
GGTTCACAGTGACGATGTGGGATAAGTTGAGAGGATGTGTGGAAAACGTCAGGATAGGGGGGTGGGGACAAAAGTTGGGGCCTTGGAGTCAGACGGACGG
Celera SNP ID:            hCV16044274
SNP Position Genomic:     10081
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3448):
GTGAGGAGAGACCATCTCCCCAAATGCACTGAAGGGAAACTGGAGGAGGGAGGGAGTGAGGGGTGATCATACCAGCGGAGGCACATTTGCTGAGCCCCCC
Y
GCAGTCTGCTCTTTCCAAGTGGACCCTCCTGGAAGCCTGATCCCAACCTCCCCTGCAAGCAGGTCTGTCACCCCCATCTCTCAGATGAAGAAACTGAGCC
Celera SNP ID:            hCV16044275
SNP Position Genomic:     6198
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,21)   caucasian(C,8|T,28)   total(C,25|T,49)
SNP Type:                 INTRON

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


Gene Number:                 11
Celera Gene:                 hCG23447 - 65000099285901
Gene Symbol:                 LGALS8
Protein Name:                lectin, galactoside-binding, soluble, 8 (galectin 8);PCTA-1;Po66-CBP
Celera Genomic Axis:         GA_x5YUV32VWMC(12504768..12549746)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1672):
TTCAGTTTCGATTCGATAAAATTTGACTAACTAAACTTAAGATAAGCATAGTTACGCATTAGAGTATTAACTCTCAAACTTTTAAAAAAGAATTCTTCCT
TTGCTTGTTAATTTTCTTTCTTTCTTTTTTTTTTTTTTGAGATAGGGTCTTGCTGTCGTCCAGGCCGAAGTGCAGTGACGTCATCATAGTTCACTGCAGC
CTCTACCTCCCCGGCTCAAGTAATCCTCCTGCCTCAGCCTTCTGAGTATCTGGGACTACAGGCATGAGCCACCATGCCCAGCCTTTTCTTTTCTTTTCTT
TCTTTTCTTTCTCTCTCTGTCTCTCTTTCTTTCTTTTTTCCTCCCTTTCTTCTTTTTTTTTGATGGAGTCTTGCACTATCGCCAGGCTGGAATGCAGTGG
TGCGATCTTGGCTCACTGCAACCTCCGCCTCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGACTACAGGTGTGTGCCACCACGCCA
GCTAATTTTTTTATTTTTCTAGAGACGGGGTTTTACCATGTTGGCCAGGATGGTCTTGATCTCCTGACCTCATTCTCCACCTGCCTAGGCCTCCCGAAGT
GCTGGGATTACAGGCATGAGCCACCGTACCTGGCCCTTTCTTTCTTTTTATCAAGACAACAACATGTCTTTATAGTGCTCCCAAGGCTAAAGTATACCTT
ACGTCTATGTAAACACTCAACCTGAGCTTTGCAATGGCCCATGTTGGCAGTAGTGCAAACAAAAACAATTATGAAACCCATTTTCCTTTGACAAAGAGAA
ATAAGTGGCAAGAATTGGTTCTTTCTCTTAGTATGGGTCTCTGAAAAGAACCAGATCAGTCAAAAGGGGAATATTTTTCTGAAGGGATAGGTTTGGCCTA
GTGGCTTCTACCTCTTTTAGATGACTGCTGTTTCTCGTTTTAATGTTAAATAGACACTAATAGGAGAAATCACATTAATTCAGTCAACAAACATTTACTG
AGCACTTCCTGTAGTCAGGCCCTCTGTTAACTTCTGGGAATACAATGACAACTCTGACAATCCCAACCCAAGGAGCCAACAAGTCCGGGAATAGAGACAG
ACAAGAAAACAGACAATTACAACTCTACCGTTAGAATAAAGGTACATTGAGAACTTGCAACAAATATTCCTCATCCCTTATCTTAATTATTCATAACATG
TTTACCACCAATAAGAATAGCAATAACAATAAATGCCCAACTCAGACAGCAATGTCCATTTACCCTGTGTTTACACAGCATAATACAAGCAAGCTGTGGA
CAGAGATTCTCTTGTTTAGTCCTCACAACTCTGCAAGGTGGGTTTTATTACTCTCCATTTCTAGATAAAGGATCTCACCTAATATTACATGGGCCAGTGG
TCTTCCAGTTGGGGTATGCACAACCCTAGGGGTAGGAGAGGACCCTGCCTGGGGTCTTCAGGTGGGGACCATCAACCTCCATTTGTACTCTTTTCTGAAC
ATTGGTCTGAGACAGAAAGTCCCTGCAATTAAGGCATTAAGCTGGCTCTTTTTCTATTTCTCATTTCATAATTGCCCTTCTCCTGCTTTACCAAAATCTT
TCACCCCCCATCATATATATATATCCCCATACATATTCTATATATACATACCCTACATATGCATGCACACACATCATATATATGTATGCATATATGATAT
ATACATATATGCTATGTAAACATATATAGTGTGTATATACATGTGTGTATGTGTATATGTGTGTATATGTGTATATATACACGTGTGTGTGTACATATAT
ACATCATATATGTGTGTCTATATATGTATATATGGGTGTGTCTATATATGTGTATATGTACGCAAATACGTATATGTGATGTATATATATAAGATGTGTG
TGTGTATATATATGTGTTTGCATGTGTGTGTGTATATATATATAGTATATACATATTTTTTGAGACAGCATCTCACTCTGTCGCCCAGGCTGAAGTTCGG
TGGCTGATGACAGCTCACTGCAGCCTCCCGGCTCAAGTGATTCTTCCACCTCAGCTTCCTGAATGGCTGGGACTAGAGGCGTGTGTCACCACACCCAGTT
AGTTATTTTATTTTTCGTAGAGATGGTGGTCTCACTGTATTGCCCAGGCTGGTCTCGAACTCCTGGGCTCAAGCGCTTTTCCACCTCGGCTTCCCAAATT
GCTGGGATTACAGGTGTGAGCCACTGCACCGGCCCATCCTTTATTTTAATATTATGCAGTGCCCTGAGACATATAAAAAACCCACCTTCCCAAGTAAAGG
AAATTCAAGCTGATGCCTGCAGAGCCTTCTTTAACAAAGGCTCTGAAATACCCTCTCTCATTAAAATGATACTTTCCAATAAAATTTTGTTTAACAATGA
TTTACAAAATGATAAAATTTATTTATTTTGATTGTGTATGGATCATGGTAACAATAAAAAGACTTGTAAAAATAACTAAATTGAAAGAATCTTGAACATT
TAGAGCCTTAAGACTGTAGGAATTGAAGACCACAGAATTATTAATTTATATTAATATTTTTGTTGCAGAGACATAATGAATGATCAACGAAAGGCTTTTA
AGCGTTAAAAATATATTACACTAGATAAAATTATTTGCGGGAATGGGATGGAAATACATTTTCAAGAGAGAAAGGAGCAATGTAAAATGAAGATGTAAAA
TCCTTCTGCTGGTTGTCCTTGGGGTTTTCTTTTAAAGAAAAGCTTGGCAGTGTTTTTCTTTTTTTCCATTGGATGATGGTGAATATCAAATCACTTTGGT
GCTAATATTTCATTTAATACATTAATTTTAAAATTTTCTGTAGAGGTGGGATCTCACTATGTTGTCCAGGCTGGTTTCAAACTCCTGGCCTCAAGCAATC
TCCCTGCCTCAGCCTCCCACAGTGCTGGGATTACAGGTGTGAGCCACTGCATCCGGCCCCATTTAATACATTTAAAAGAGTGGTGTAACAATTTTTATTT
AAAATGTCATATTTACAATATTCTAGAATGTATATCTTTTCAACTCATTAAACCTAAACATCCTTGTAAAAAGTGTGAAAAGTTATATAGTTTTTCAAAA
TTCGATTAGCAGTTACATAAGCATAAATGTTTAAAGTATGTATGGTACAGCCAGGCTTCAGTTCCCTGTCTTAAACACAAAGATCCATATCAATTCCAGA
TACTGCAATGGTTTGCTGTTTTTCCTGCTTCCCCCATCTCCAAATAAACTAAAGCATCAACATGCCTCACCTCACATAACCCTAAGTTTTCAGCAGTTGG
CAGTTACACCTGGAAACCATTTTTCTAAAATAAACAACAACTGTTTGCTTACGGATCAAAATGCAAAGGACCATAACATTTAGCCTCACCTTCCTACTAC
AGATCGAGTTTAAAAGTGCCATGGTATAGCTAAATTATGAAGAAAGATATGAATATAACTGCAAAAGTGGAAGGAGATTTGGGATAATTCTTGCCCATTT
TGTTAGGCCAAATGCATCTTTGTGCAAATTAGAAAAAGGTGGTCTTCATCCCTTCACTCCTATCCTTTTGGGGGTGGAGGGGCAGTGGCTAAAGTACAGA
CTAGGTTTCAGCTACCACATCCTCCTTCAGTTAGCTGCCCTCGGCGTGACAGAAACATGTGCAAACAGCCCTGTGCCTTTGTCTTATGTTCCAGCCAGCC
AAGAAAAATAGTTGTAAAAGAGCAGCTGCTGTTTGGGGTAATGACCTTGGACCCTCCCCAATTTGTTCCAAGCCTGTTTTTGTATTCATTTTTCCCACAT
TTATGTTCCTGGATGGAAGCTTCCATATCTGCTCTTGGCCCTATTTGAAATTCCCCAGATTTCCTTCCTGGCTCCTGGCCTTTGGTTTTTCATGTGGCTC
CTGATCCCACACGCTCCCTGAATTTGGATTCTCCTGTCATTTCAGGTGCGAGGTTTCCCACTACAGCCTCTTGGGCCTCACCTCCAATACCTCTTTCCCA
TCAGAACAGCCCGGACCTTCCCCTATGGTAGAGCAGAGACAGAATTTAAATGAATTCTCAAGAAGTGCTTGGACTCATATCTAGCAAAATTACATGGCAT
TTAACCTTTGACACAAAAAATGCAGCTTCTAGGAATCTATCTAAAGATACACTGTGGCAAATATACAAAAAGAAGCATTATTTATCAAGCACTATTTCCT
AATAAAATAATTCTTAGGTCAGGCGCAATGGCTCAGGCCTGTAATCCCAGCACCCTGGGAGGCTGAGGAAGGCAGATGGCTTGAGCTCTGGAGTTCAGGA
CCAGCGTGGGTAACATGACAAAACCCCATCTCTAACAAAAATACAAAAATTAGCCGGGCATGGTGGCATGCACCTGTAGTCCCAGCTACTCGAGAGGCTG
AGGTGGGAGGATCGCTTGAGCCTGGGAGGCACAGGTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCAAAG
AAAGAGAGAGAGAGAGAGAAAGGAAAGAAAGGAAGAAAGGAAGAAAGAGAAAGAGAAAGAAAGAGAAAAAGAAAGAAAGAAGGAAAGAAAGAAAGAAAAA
AGAAAGAAAAAGAAAGAGAAAGGAGAAAAAGAATTCTTACTAATAAATGCAGGAGAAATGATAGAATTGAAATATCACCATTTTCAATTCCTAATGAAAT
AACGTATCTAGGCAATGACCATCAATAGCTAGATGCTAAAATCATCTGATCAAACACTGATGGGAACTTCGTAACAGATGGATCAGGCTAACAACATCTG
AAACCACTAACTGGTTTTGATGTCATAAAAAGAAAAACAACCAGATATTTTCTGTCTCCTGATGAGTTGCAATTGGAGCTACATATCACCTGTAAAGTCT
TCTGGCCAAAAAATTAAGCCCAGCCGGACCTTATTAAACCTTTAAATCTAACAATTAGTTTTGAAGCTTTTACAGATTAAATGAAGTCTGAGATTTGCTT
CAAAATGAACCAGTGGTGGGGAGGAAGTGGGTGAGGTGTAGGTGAAACAAGATTGGCCASGTCGATAATTGCTGGAGCTGGGCGATGAAAGCACAGGTAT
TTATCACACCATCTCTCTACTTTTGTGTGTTTTTTTGTTTGTTTTTGGTTTTGGTTTTAAGGAGCAGAGAGTCTAATAGGCAAGAAAGAAAAGAGAAGGC
TGAAGGAAGACGCTCCCCCGTACAGAGACAGAGGGAGGGGGCTCCAAAGCCGAAAGAGGAGGTCCTCTTGTGTATGTTTTAAAATACTCCCAGATAAAAT
ATTTTTGGAAGAGTACTTGGTTGGATTCAACAGCTTTTTTTTAATTTAAAAAAATCACCTCAATTTTTTTGCTTGCTCTAACGTGCCATAGAAATTCCTG
AGGTTTTACTTGTTGCTTTACAATGAACTGTGTAAACACAAGCTGGAAGAGATCAGCTATGCGCTGGAAGGGTTGGTTAAATATTGAGACTGCCTTGCTG
AGGGAAGCCTTTTAATGAATCTCAGTAATTTTGCAAGAGAAAAGATAACAATGAACACTACATTAAACATCATTCTTTTGCACTTTGCTAAATATGTGTA
TGTAAATTACTGTCTGACTGTTACTGGATATATACAGCATATACATATGCACTTTTTTTACTGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTACAGAGC
TTGCTCTGTCACCTAGGCTGGAGGGCAGTGGCGCAGTCTCAGCTCACTGCAATCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGTCTCAGCCTCCAAAGT
AGCTGGGACTACAGGCGCCTGCCACCGCTCCTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACTATGTTGTCCAGGCTGGTCTCGAACTCCTG
ACCTCGTGATCCATCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCGCGCCCGGCCCATGTATACTATTTATACATTTTTAGTATCA
TTTTGBCTTTACATTTTACATAATTTCAGATACATTTTCCTCATATCAAATAATTCAGCATTTTTTAGTACTAACATCATAGTCTGTAAGCCATTCAAAA
AATGTATTTCACAAAATAGGCTATCTCATCCTTTGAGCTATTGAGATGAATTAATTTATACTCCTCCTAAGATCCCTCTCGTCACTAAGATTCTTTTATT
TTATGACAAAACCATAGTTCTAGAAGCTTGTTTCTCCCACCTGAAAAGACTGGATTTGGGACATGATCCTGTAGAACTTCGGAGGTAAGCCTGGTGAATC
AGATCATAGGGGGTCTGGAGGGTGAAAAAAAAGAGTTTGGTGCTCATGGATGGGGCTAGTATTGGGGTGTAGGGGAGATTAGGTCAAAGCAAGAGGATTC
AAAGGAGAAATGAATTCCYTTAGATTGGGGAAGATAATCGGAAGAGGTARAAGACACCGTCCATGACACTTCCTGGGGAAGCAGATGTATGTATAAGGAT
GTGAGTATTGTGGTTTTGTAAAGAATGCATTCCTGAAGATGTTGCATAATTTAAAACCTACATATTTTGATTAATTTTCTCATGAGAATAGCAGGGTATG
TGTTCTCGGCGCTCACAAATGTATAATCCATTGTGGCAAATTTTTGCTTTCACATATTTTTTTTTATCATTATTGTCACAGGTTCTGTGRCGGAGTTCTG
GTTTCTAAATTCACAGCATACCAAGGCAGTTCTTTAAAGTTCTTGATACTCTTTTATCATATCTAACTTGTATTCCAAAATTATTGAGTTGGAGCACATT
TTCCCAGCACTTAGCACCGCTATTTCATGGATGGTTGGAGAGGGGGTCCAAAAATTTTACAATYATGTTAACAAAAGTRACACAGCAACAAAACAATAAG
CAAAATCACTGCCAGAGTATTCCTTAGCTTGAAACAATACGGTTCACGTCGATAGAATATGGCATCTATTTCTGTTTAATCAGTTAACCCTGCTAAGTAG
CAAGAGCTTACAATTCATGTCTAAAATCATGATTTTTTTACTAGTTTTTTAAAAAATGTGGGCTCTATATATATAATTTAACATTTTGCTTGTAAGACTT
AATTTTGCCTGGGTATGGTGGCTCATGCCTGTAATCCTAGCACTTCAGGAGGTTGAGGCAGGAGGACTGCTTGARCCCAGGAGTTCAAGACCAGCCTGGG
CAACACAGTGGGACCCCATCACTACCAAAAAAAAAAAAAATTAGTCAGGCATGGTGGTGTGCACTTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAG
GATCACTTGAGCCCAGGAGGTCACTGCTGCAGTGAGCCATTATTGTACCACAACACTCCAGCCTGGGTAATAGAGTGAGACTCTGTCTCAAAAAAAAAAA
AAGACTATTTCTAAATGTGTGGCTATATTATACCATATAAATGTGGCTTCTTGGGCAAGGAAAGAGGACAATATAGATGAAAAAGAAATTGATCCTACCA
GAAGTGATCCTTTTATCTGCATAACTCTCAGGCAGTTGTGGCAAATAATTGSCARTATCTATTGTTCTGAAACTGGTTTTCGCAACTTTTATTGGGAACA
CCATCCCCTCTCCTGCATGATCAGTTTCTCCTCTCCACGGATCATTCACATGAGTAAAGTCAGTAGCGTGCTGGTAAATGTTTAAGATCTTGTTCTTTGG
GGGAAAAAGTTCCTAAGTTCTAGCAGTTGCCCTGGATAACTTCAAGGTATCAACATGGAAGTTATGTACAAAAATGGCTGTCACAAGCCAGTATGAGCTA
ACACCAACATACTACCCAGTGTTCTTCAAACTTCAGCTCACAGCCCATTAGTGGGGCTTGCAAACATTTTAGTGGACTATAAGCAGCATTTTTTTAAAAT
GAAAAAGTAGATTGTTTTACACATAACAGGAGTATTGTTTTGTACAATTTTTTTTTTTTTTTTTTTTTTTTTTTAGACACAGTTTCACTCTGTTGCCCAG
GCTGGAGTACAGTGGTACAATCTCAGCTCACTGCAACCTCGGCCTTCTGGGTTCAAGCGATTCTCATGCCTCAGCCTCCCGAGTAGCTGAAATTACAGGC
ATGCGCCACAAGGCCCAGCTAATTATTGTATTTTTAGTAGAAACAGGGTTTCACCATATTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCAC
CTGCCTCGGCTTCCCAAAGTGCTSGGATTACAGGAGTGAGCCAACGTGCCTGGTCAAAATTTTTGTTTTCGTAATTTTAAGTATGTGTGTAGTAAGTCTC
AATGGAAATGTAATTCTTATGGCAGGTCACTTGAAAAAAAAGAAGTCTAAAAGTCACCAATGTAGTATCTTCTCTTTAAAAAAAAAAAAAAACAACAGGA
GAAAACCTGAATCTGCCCTTTGCTCCACTCCTTCCTCAGCTATAATGCTGCTTCTCCATTCCTCCTCACAGCAAACCTTTCTGAAATCTTTATAGTCATG
GTTTCCACCAGTTCTTCACCTCCCATTTCTCAACACACTTCAGAGTCAGAGTCAGCAATGACATCCATGTTCCTAAGCCCATTGCTTACTTCCGTCCTCC
TTGGCCTCTCAGCACACTTGGCACACAGGCTGTTTCTCTTTCTTTGGCATCTGTGACACCACTCTCAGCAAATTCCCCTGGTTGTCCCTTCTCAGTCTCA
TTTATTGGCGTTGTCTTATCTCCCCAGGGCTGTCCGAGGTGATTTTCTCCCACTRCTCTCCTAGGTGGTGCCATCCAATCTCATGATGTCATATCATTCT
TCCCTCATGCTTCAGCCATACTGGTTGGTGGCCTTTGTTTCCTGAACACATTTAATGCATTCTCAAGACCCTCAGGGACTTTGCAGCAGCTGCTCGCTAA
GGCTGGAATGCTCTTCCCCACCATCTTCATATGGCTGTTTCCTTTCTTTCACTCACCAGCAGCTTAAACTTTGACTCCTCTGAGAGACTTTCCTTGTCAC
CCAACTAAGGTTGCCACTCAGGTGCTCCCAATTTAATCTTCTCTAAAACACATCACTGTATGTGTCCTCAACTAGAGTATAAGCTTCCTCGAAACAAGAA
CAATCAAAACTCCTTGCCCTCATGGAGTTTATAGTCTTATGATGGGTGAAGTAACATAAAATAAAAAGGCACCTTATATAGTATATTAGCATGACAAATG
TTAGCCAGAAATAAAGCAAGGAAGAGTTGCTAGGGAGTGTGTATGAGTGTGTTTTGGGAGAGTGTTTGCAATTTTAAATATTGGTGGTCAGGAAGGGCCC
CACTGAGAACTGACATTTGAGTAGACTTGAAAAGGGAAAAGGAAATATTGAGTAAAGATTTTAGGATGGGAGTGTGACAGGCCTGCTAGGAGAATAGCAA
AGTCGCTGTGGCTGCTGCAGAAAAAGTGAGAAGGAAAGTAGTAGGAGATGAAATCACAGTGTGTGAGGATTCGGGCAGATCAGGAAGTGCTCGTGTAAGA
ACTGGATCTTTACTCAAAGAATGAGCAAAAATTAGTAGACGGTTGGCCGGATGCAGTGGCTCACACCTGCAATCCCAGGTTACAGGAGGCCGAGGCGGGC
GGATCACTTGAGGTCAGGAGTTCAAGACTAGCCTGGGCAACATGGTGAAACCTCATCTCTACTAAAAATACAAAACTTAGCTGGGCATGGTGGCGCGCAC
CTGTAGTCCCAGCTACTCAGGAGGCTGAGGCACATGAATCACTTGAACACGGTAGGCAGAGGCTGCAGTGAGCTGAGAATGTAACACTGTACTCCACTCC
AACCTGGGCAACAGAGTGAGACTGCCTCAAAAAAAAAAAAAAGTAGGTTTTAGTAAGGGATTAACATGATCTGAATTATGTTTTGTCATGACTTCTCTGG
CTGTTGTGTTGAGACTACATTGCAGAGGGGCAAGGGCAAATATAGGGAGACCGATTAGGATACTGCAGTAATAATGTAAGAGATGTGGGACTCTATCTAG
AAGGGCCCATGAGGTCCTTTGCATGCTAGTATTCTTTACTGCTGTGCCTGGCCATGATAGGCATTCAGTGAATATTTGCTTATTTAAAATAACACACTGG
GCTAATTGAACAACAGTGCCAAATGAGGGAGATATTTCTAGGAATAAGTTCTTAGGATTTATGAACATTTTAATCCAGATTTTCTTTGTTAACTCTGCTC
TCTGGCCCTTTCACTCAGCCCCGTTTGCACCTAAATATGACTTACAAAAGAAACACAGCATTTATGTGTACTTATTTCAACTTAYTTTAGCTTTGTAAAG
AAGTRCAAGGTTGACTCAGGGCCCAGCTTGGTGTCTCATGCCTGTAATTTCAGCATTGTGGGAGGCCAAGGCAGGAAGATATTGTGAGCCCAGGAGTTTG
AGACCAGCCYGGGCAACACAGTGGACCCTGTCTCTACAAAAAAAAAWTTTTAAATTAGCTGGGCATAGTGGTGTGCGTCTATAGTCCCAGCTACTCCTGG
GGCTGAGGTGGGAGGATCACTTGAGGGAAACCCTGTCTCAAAGTGGCGGGGCTGGGGGGAGACTCAGGCAGAATTGTGAAGATATTCAATTGCTCCTGAC
TTTATCAATAATCTAACATTTCAACCTAACATTGATATCTATTTTATGCAAAGCATTACACTATGCACTGGAGACTGTATAAGACAAGTTCCTTTTCTCA
AACTACAGTCGAGTTGGATAGATAAAACACACAACACATACCAAAAGACARCTATAAATCCAAGGCAGTGTATGTCAAGGGTAAATTCACCTATTCAGAT
TGGATCTTGAGAAGTGCATCAGRCTTGGAAAATGGGTAAGGAGGAGAGAAAAGCAACAGTGAATCAGAACATGAGTTCCCAGTTATGGGACTTGTAATGA
ATTCCTCAATTAAAACAAAAAATAATGAAAACAAAAGCCAGGGAGGAGAAAGCCCACGTTAATGACACTAAAATATATCTTTCCAAACAAATGTGGATAA
AAGCCAAGTAGAGAAGATGAGAACTTTGAGGTCCCTAACASAAAATAAACAGTAAGCAGCCAGCCATTCCAAGTGGCTGACATGACTTTGTTTAACTTTA
TTTGTATTTCTGGCTGGTGTGTTTACAGCCAATAGGTCAAACTATCAGTCAGTGTAGGGCCCTGAGAAGTCGGGTATTTAAGAGCATCTAATAGGCACAG
AATTGTGCTCCATACTGCTTAAACTGTTCCCTAAGTGTCCAATTTGGAGAAAACACCCACACGCAGGATAACYGGCGAGTGACGCGGAGTGGCTGCGAGT
CCAAGTTATCACTAACGGATGGGGAGCTTGGGCTGGGCACAGTCCAGCGTACTGAACCCTTCCCCCACCGTTTCACCTGCATACAGAGGTGTGTACTGTC
AAAAAGCAGCGCCTCCAAGTCTCTTCTGGCACTGTCTGGACTTGGATCCGAGGCAGACGAGGAAGCTGAGAAAACCCTGGCGTTGACCCCGTGGACCTGG
GCGCCCCGGGAAGGCCRGCGCTTGGTCCAGGCAGGCGGGGCCTGTGCGGTGACCACCCTGGTCCTGAAAAGTCCCAGCCCCGAGCGCCCTCCCTCCTAGA
CCTGGAGGCCTGGAACAGCCAGGTGGACGTCGGCCCACCTTTCTTTTCTTTCCTTCCCATTTTCCTACCACCTCCCACCCCACTCCGCCTTCCGGGCAAA
GGCAGCCAGATCCACCCAGGACACATTCTTTGTCCTTATCCCTCTGTGCTCGTCCCACAGCAAGCCAGTCGCGGTCCAAGGCTCCAGAGGCTGTGCAGGA
GGCCGAGCTGGGTGGCGATCAGCGGCGGGTCCCTGTCCAAAAYCCAGCAGAGCCGCCAGGGACGCCCCAGACACAGAAGGCGGGGCGCGGGGAGGGTGGG
GAGACCACAGCAGTGAGGCGCGCGAGCYGGGAAGTGAACGAGGACTGACTCCTGTCGCTTCCCGTAGCCGCCCACGGACGCCAGAGCCGGGAACCCTGAC
GGCACTTAGCTGCTGACAAACAACCTGCTCCGTGGAGCGCCTGAAACACCAGTCTTTGGGTGAGTCGCGCGACCCCCGGCCTCGGGTGGCGGGGCAGTCG
CTAGAGGCGTGGCTGCTCTGAGGGTCTCGCCAGTGGAGGATGGCATTCGGATGTCACGGCTCCTAAATCACCATTTGATGGGTGGGACAGTGTCCAGTCC
ACCCCGACCCGCCGGTCCTCACCGCGGCAGAGCCGGGGCTGGGTGGCGGGGACGCTGCCTCTGCAGGCGAGGCRCTCCGGGGCATAAGGGATTATCAGGA
GTCGCGGCCTTTCTTGGACATCCCTGGCTGGGGTCAGGCTGTTTGCCCTGGGGTGTCTCCTCGCTGCAAACCCACCCCACCTGGGCTGCTTTCTCACCTG
TTCCCTCCTAGCCTGAGGCCGAGCGCCACCTCCAAGTGGAGGAATCTGGGGAAGTTTCCTTCCCGGAATTTGTAGTGACRGTGGAGTGACCTCCATTGCG
TTCCCTGCCTCTAACACGCTCTTTAGGATGCCGAGTCATTTGACTGCAGTGTTAAACATTGCAAAGCGCAAGTCATGTGACTTCCTTTGACCGTACGTGA
AACTTAAGTGATGGCTGCTTGTGATGCATACGAAGTGTTCATGCTGGCGGGACCTGTCCCTGGGGATACTTCGGGGGTTGCGTGATTTAATGCAAGCAGA
TGGCTTAAATTGGGTCACTGGCTTGTTATTATACATGTGTATGGCAACTCGGCATCCATTCTTTTTGCTCTTGTTCTTACTTCCTGAATTGAGTCACGGA
GCCAGAGTTTTGAGGTTTTGACTAACGAATTAAGTTAATGACATGGGGCTATATTTAGGTGGTAAACCAAGAGGKATACAGTTTTTTTTCTTAATAAAGA
AAAAGTGATAGATTTGATCGGTGTGTATTGTTGGTGTGCAGTATAATGACAGAATTGCTGGAAGTAAAATACAGGAAGCTCTGGTTTCATTTCCCCTTTA
GTTCTGCTTAAAGTCGAGTTTTTCCTGGAGCTATTAAATGTAGTGTAGTGTCCATGAGTGCTTTTATCTTAAAAAATGTGGCTGATGCTTTCCAACACTC
CCCTGCCCTGTGATTATTATTTTTTTAAGCAACAGAGAAAACYGTATCTTAATAGTATTAAAAGTATTGGATTTTTCCCTACTTTGATTTGTTTAAATTG
GAGGAGGAAGAGCAATTCTTTCTATTCACAATAATAATAGCTAACATAGCGCTTACTCTTTCGCTGTTTTATTAACTCAATCCTCAGAACAAACCAATGA
TGTGAATACTGTAATTCTCATTTTATGGAAATGAAAATYTAAATGAATACCTCTGRTAATTGTACGGGACTGTTTGATTAGTATTTACCATTAATTAATT
AAATTTTTTTTTTTTTTGAGATGGAGTCTCGTTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTTCAACCTCCGTCTCCCAGGTTCAA
GCAATTSTCCTGTCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCATGCCACTACGTCTGGCTAATTTTTGTATTTTTAGTAGGGATGGGATTTCACCA
TATTGSTCAGGCTGGTCTCYAACTCCTGAACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGRGCCACCATGCCTGGCC
TATTTTAGTATTTTTAATAATAAATTCCATGTTAGAAATTTTCTACTGATGTATTTTTTAAGTCAATATTTCCTACACTCACAATCCAAAATTATTTAGT
ATATGAGCACACTGGTAAGAATGGGAGGCAGATCGTTGATTGTAATAATATTCTATTATTTGGTAAATATCAGTAACATAATAYATAATTTAAATTTTAA
AATAGGATATGAAGAAAAATGCTACATGCTTACTTTTCTTTTCCTCTATTTTTACTTTACACAGGGCCAGTGCCTCAGTTTCAATCCAGGTAACCTTTAA
ATGAAACTTGCCTAAAATCTTAGGTCATACACAGAAGAKACTCCAATCGACAAGAAGCTGGAAAAGAATGATGTTGTCCTTAAACAACCTACAGAATATC
ATCTATAACCCGGTAACTGATTTCTATAAGATAACTTTTTACCTATGCCAGGACAGATCCAATAGAATATTAATTATCCATTGGGAGACAGGGCAAGAAT
AAAAGCCAGTGAACATATTTAAAGCACCTACTATGTAATAGAGATGGTGGTGGGTGCTGATTACRAAACAGCTCTTGTCCTCTAGTGGAGGAAGAAGTCA
CAATGATAATATGACGTGATGAAACAGTGTTATGAACAGGGAACGTCTGGGTAGAGTGGAGGGAATGCCAACTTTTGGTGATGGGAGGAGGCTCAGCTAA
TCATAAATTGTAGTTTTTAAAGGAAAATGGATTTCTTACTCTACAAGTTTTTCATTTTCTTTTTTAATTAGAGCTGTCCATGAGAAGTTAATGTCTCGAT
CTTTCCCTCAGCCTTTCAAATACTGCTTGGCCCTTGAGCAGGGAAAATGTCAAAAGCCAATGGGGAGATGGAGAGTGTGAAGTAGTAAGGGTCTCGTGCA
GTTCAGGCAGGTCCTAGAATCCCTGAATGACTGTAATTGCTGGAAATTGCCCTGTAATCCTGAGCAGTAAAGAGCTTGTTTTAGTTTTATGTGGTGGTGA
GAATCTTTAGGAATGTCTAGTTTCCACGTATCTGAAGCTGAATCCTGAATCGAGGTCTGAAAAAGGACAGCCACTTTTTTAGTAAACCGCCTAGAAGATT
CTTGGGCAAAAGGAAGGGTGAGAATCCTTAAAATGAGGCCCTAAACCAGTTTTGTTAGTGTGTGTGGGTTCAAGTTTTTGTCATTTACTTTATAGCTGTA
TTTCCTTTTTCCCTAAGTTTTAATGTCATTGTGTAAGAATGAGGTATCGCTGCTGTATCAAGCAAAGTCAGTTTTAGGAGAAATAGCCTTTCAGTGGTAG
TAAGTTTAAAAAAGATGACTTCCTGAAGCGGAAGCTTGTGAGACATTTAAGATGACTTTGCGCATGTTAGAGTTAAAAACATCCCAAGGTTGTAAACTGA
TTTCCTGCAAAGATCTTAACAACAACAACAACAACAAACTAGGCTGCCTGCCACGGGTGTCTGAAGTATCATCTTGGCTCAAGCTGGGAGAATGGATAAA
GGTTACACTGTTCATTTCTGCCCTTCACACAGAAAAGAAGATAATTTTATAGGTAAAATTCGTGCATATCTTGATTCTAGCATACTGCTGATTCCTGTAG
TTTCTGGGGTCAGTACTCTCAACTATTGAGGTGGAACAAAAATAAGTAGACTTCATTTCTTGAGGAAGGGGATCTGGAGAAGTAGTTCTGCGCTAGAGCA
GAAAATGCCTTCAGTCTTGTGGCATGGGCTGGATGCTGTTCTGAGGATAATGCATTTCCAAGGGAGATATTTTTGGCAAATAGCTTTTTTTTCTTTCTTT
TCAAAATTCTCTGTTTTATTATCAGTTCTCACAAAAGAGTCGGAAAGGTTAGAGGTAGACTGAACTGAATGGCAAAAACATTTTGCGCTCTCTTTACGTT
TCACTGCTGTAAAATATTTATAGTATAAAGGGCCTGTATTGCACTGAATTTCTCTCATTTGTAGCTAGTTGCCCTTTCAATGTTCCAAAAAAAAAGGCTG
TAAATAACTTATTTTATTTATTCAATTAATTTTTTTTTTTWAATTTTTTGAGATATAGTTTCCCTCTGGTCACCCAGGCTGGAGTGAAATGATGCAATCT
CGGCTTACTGCAATTTCTGCCTCCCGGGTTCAAGCAATTCTAGTGCCTCAGCCTCCTGAGTAGCTGGGACTGCAGGCACGTGCTACCATGCCCGGCTAAT
TTTTGTGTTTTTAGTAGATATGGGGTTTCACAGTGTTGGCCAGCCTAGTCTCAAACTCCTGACCTCAGGTGATGTGCCCACCTTGACCTCCAAAAGTGCT
GGGATTACAGGCGTGAGGCACCATGCCTGGCCAACTTAGTTATTTAAAGATAATCAATTAGTATATTTTATAAGCTAGACTTAGGAAAACKGTTTTCAGC
TGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAAGATGGCGA
AACTCCGTCTCTACTTAAAAATACAAAAATTAGCCAGGCGTGATGGCAGCCTCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAAGAGAATCACTTGAA
CCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATGGTGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCATCTCAAAAAAAAAAAMCCCCCCCACA
CACAAAACCTGTTTTCTTGAATCATGGTTGTTTTGTTACTGATAGGTTCAATAAGTAAATATATTTATTGTCTGTTGTATTCTTTATTAGGCATTATAAA
CACACCGCCACTTTTTAATTTTTATTTCATTAATGTTTCCAATTTTTTTTTTTTTTTTTTTTAAGACAGAGGCTCGCTCTGTCAYCCAGGCTGGAGTGGA
GTGGTGCAGTCTTACCCCACTGCAACCTCCACCTCCTGGGCTCAGCCTTGTAAATAGCTGGGACTACAGGCATGCACCACCATGCCTGGCTAATTTTTGT
ATTTTTTTTGGTAAAGACAGAGTTTTGCCATGTTTCTCAGTCTGGTCAAGCACTCCTCCCGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCC
ACCATGCCTGGCCTATTTCTAATATTTTGGTCCACATTGGTGTTAGACCAACTGTCCACATTAAGTTTTCTTGGAAAAGATGAAGTAAATATTGCAACTG
GCCTATGTATTTTTTTCCCTATTTAGTATATTTCTTTGACTAGTTCAACTGATAGAATTCCAAGACTTAAAAAAGTCAGGCTCTAAGGCTGGGTCCAGAG
GCTCATGCCTGTAATTCCAGCACTGTGGGAGGCCAAGGCTAGTGGATCACTTGAGCCCAGGAGTTCAAGACCAGCTTGAGCAACATAGTGAGACCTTGTC
TCTCTATAAAAATACAAAAATTAACTGGGGATTGTGGCGCATGTCTGTAGTCCCAGCTATGAGGAAGAGTGAGGTGGGAGGATTGCTTGAGCCCAGGAGG
TTGAGGCTGCAGTGAGCTGTGAGTTTGACACTGTGCTTCATTCTGGGTGACAGAGCAAGAACCATGTTCAAAAATAAAAATAAAAAGTCAGAGTCCGGGT
GCTGCGGCTCATGCCTGTAATCCCAGCACTTTGGGAAGCCGAGGCGAGAGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGACTAACACAGTGAAAC
CCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCGGTGGCCTGTAATCCCAGCTACATGGGAGGTTGAGGCAGGAGAATCACTTGAACCCG
GGAGGTGGAGGTTGTAATGAGCCAAGATTGCACAACTGCACTGCATCCTGGGCGACAGAGTGATACTTCATCTCAAAAAAAAAAAAAGAAAAAAAAAGTT
AGGCTTCCTTTTCTGTTTTTTTTTTTTTTTCTTTCTTCTCTTTTTTTTTTTTTTTTTAAGAGATGGAGGCTTGCTCTATTGCCCATGCTGGAGTGCAGTG
GTGCAATCTCGGCTCACTGCCACCTTTGCCTCCTGGGTTCTAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCACACCGCCACGC
CCCGCTAATTGTTCTTTTGTATTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGCCTGGTCTCGAACTCCTGAGCTCAGGCAATCCGCCCGCCTCGGC
CTCCCAAAGTGCTAGGATTATAGGCGTGAACCACCGTGGCTGGCCACTTACTTTTCTTTCTATTGAATTTGAATGAATAATTTGGAAGACAGTATCTTTA
CTTCATACCAGGAATGCTGCCAGTGAAATTTCTTGTTTGGCAGTTCATTATCTACCTATATATTTAATTTTGCTATTGTTTATAGAGTTCTTAAGATATG
ATTAAATGCTAGCTGGTTAAGAAATCATTTAGAAATGAAACAGAATTGGTTGTTACTCCAAGTTAATAAGTTGCTTGTCAACATAAATCCTACCTGGTAC
CCAGTTTTCTTAGGAACCTTGCTTCCATGTTTATCCTTTTCTGCTTAGTATTCTAAGTACTCCTTTTTTACCTTACAATTTAGTCTTAAAACACAACACA
GTCAAGTCTTTCTTTTGTAACYTGTGAGRTACCTTCTAGCCTTTGTGCTGTTTTTCTTCTYTTTTTGCTGCCTGCCTTCCTGACTGAGAGTGGATTTCCT
CACTAAGGCTCTGCCCTCTGATTTTTCACTCTCTTTTCTTTTTTGGTTTTACTAGTGAAATTTTGTCTTTAATGTCTCTTTCTTTTATGTCTTTACCGAT
CACTCATARATTTTTTTTTCCATATGTATCCAGTTCCAACCTTTCACCTAATGTGAACCCCCAACTCTCAGTTGCTCAGCCAGCCCTTCAAGACTAGGAG
TTCAAAACCAAACTTGCATCTTCCTTCCCAAACCAGCTTTCCTCTTGCAGTTTTCTGCAGCAGGATCCTTCTGCTGTTTAACTTTTGCCTCCTCCCTTGT
TTCCTAGCACCCAATAGTTGGAAGATAGTCTGTCTTCAAAATTTTAAACTACATTTATGTCCAAACCAGTGGCTTTTCCTTTTAAAAAAATTTAAAGATA
ATATGTGCAAATCATTTTTTTAAAATTCAAACAGTATTTAAGAGTTTCAGTGAAACATGMATTTTCCTTCTACCCTGGTACTTAGTTTTACTCCCCAAGG
GCAATCACTTTTTACTGGTTTTTARAAATATATCCTTCCTGAGATACTTATGAATATCCAAAAGTGTGTGTGTTGTGTATATCACCTTTTATATATCCTG
TCTCTTTACGTGCATGCATTTTACCGTATAAACTGTTTTCTACCCTGCTTTTTCTATTTGACCTATTTTGGAAATGTCATTTTATTTAGAACTTCCTCAT
TTATTTTAACAGCTGCATAATTAGCAGTAAAACTTATGTAAGCAGTCCCTTGTGAAGGGCTGTGTCTTTTTGCGATTATATCYGGTGCTATAGTGTACAT
CCTTGTGTGTGCATCTTGGTGTGCCTGTGCTACGTATTTCTGTAGGATAAATCTGTAAAAGTGGAATCACTAGGTCAGAGGGTATGRTCCATTTTCTTTA
CTTATTTATTTTATTTATTTATTCATTTATTTTTGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTTACTGCAAGCT
CCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCGGAGTAGCTGGGACTACAGGCGCCCGCCACCCACGCCTGGCTAATTTTTTTGTATTTTTA
GTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTYGTGATCCACCCATCTCAGCCTCCCAAAGTGCTGGGATTACAGGYGTG
AGCCACCGCGCCCGGCCCCATTTTATTAYCTTTATTTGCTTGGATCCTTCTTAGCTTCTTCAATGTTAAAGATATTGACAGTTTTCCTCTTACTGAAATT
TATAAATCCATTGACTCCCTTGATATTATTGCCCTGGCCTGACTGATTCTTCTCTCTCCTTTCTCTTCTCACCCCATGTTGAGGTCCCCAAGGTCACACC
CAGTTTTGATGACTCACCAGCATAGAGTTGTACTTGTGCCTATGATTTATTGCGGTGAAAGGATATAGAGCAAAATTGCAAACGGAAAGGCACCTGGGGT
GAATTCCAGGGGAAATCCAGTGCAAGTTCCAAGGTCGCCTCCCAGTGGAGTCACATAGGATGTGCTTACATCCTCCAGCAAGGAGTTGTGACAACACTTG
TGAAATGTGGACTGCCAGGGAAGCTCATCAGAGCCTCAGTGCCTAGGGTTTTTACTGGAGGCTGGTCACATAAGCACCCTCACACATATCAAAAAATTCT
GGTCCCCCAGAAGGAAAGCAGGTGTTTAGCATAACCATATTATTTGCATGAACAGTTCAGGTACAGGAAATCCCCGTTACCAGTTAGGTTGGTGGGTGCC
CTTCYCAAATCCCAAGTTCCCAGACACCAGCCAGGGGCCTGCCTCGTAAGGAGGCCTTTCCAGGACAGCAGTCAGGCCTGCCAATGTTAATTCTTTTCTG
CATACCTCCTAATTTTAGAAACCACCGAGCCTTTGCTGCCTGACCTGTCCTGCTTTTCGATTTCTTTATCTACTTTGATATCTTTACAAATGATCTTTAC
CCTGACTTTTAAATGTGTGCTCTGGCCATTCACCTAGCGTGTGGTTCTGAGTCTCCAAGTCTTAGCAGATTTGCTCTCAGATGCTCTGCCAACGCTTCAC
ACCAAGTATTACAAACTAAACTCGTCATCTTCCTCCTGAAACCTGTCTCCCAGGCCAGGCGCGGTGGCTCACACYTGTAATCCCAGTACTTTGGGAGGCC
GAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACTTGGTAAAACCCCATCTCTACGAAAAATACAAAAAAATTAGCCAGGCGTG
GTGGCAGGCACCTGTAATCCCAGCTATTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGATTGCAGTAAGCCGAGATCACGCCATTG
CACTCCAGCCTGGGCAACAAAAGTGAAACTCCATCTCAAGAAAAACAAAAAACAAAAAACCTGTTTTCTCCCCAGCTTTGTCATGTATTTAGTGGCCTTA
TGTAGACAGTTTCCTTTGAAACATCTCTTGGACTTCTCTGCTCTTCCAGGGCCATTGCCACYGACCTGGAATGTGTCCTTATCGTTTCACGCCAGGCTTA
TGGCAGCAGTCAGTCACCCAGATGACCTCCTGACCTCTGGCTTATTTCACCCCCACTGGACTGTTGTTCCTAAACACTTCTTTCGTATGTCACTCTAAAA
TCTGACCCTGGCTGTACCTTTCTTTAACTACTCCCTGACTGCGTGCTGAGAGAAGATGGGTCTTGTCTTTTCCTGCCTCTCTGCTTTTGTAAACTGCCAT
TTCTACCTGAAGTGGCAACTGAAATCATATCTTCTTCATAAACTGTCTTTGGCTACCTCAGTTAGAATTCCTTATCCCATTTTCCTGAAGCATTTCTTTG
ACTCTTCTTTACTGCTCCCCCACCCTTTTTTTTTTTTCTTTGAGACTGAATTTTGCTTGTTGCCCAGGCTGGAGTGCAATKGCCCGATCTCGGCTCATTG
CAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGTCATGTGCCACCATGCCCRGCTAATTTTGTATTTT
TAGTAGAGAYGGGGTTTCTCCACGTTGGTCAGGCTGGTCTTCAACTCCCAACCTCAAGTGATCTGCCCACCTTCGCCTCCCAAAATGCTGGGATTACAGG
TGTTAGCCACTGCGCCYGACCCCCATTTTTTTTTTTTAAAGATGTTGAATTGGTCAGGGTTTGTAGTTACAAGCAACAGAAGCCAACTCTTTAAGCAGAA
AAGGAATTTGCTAAATGATAGTGCAGAGTTCTCAGAATCTCTAGCAGGATGAAGAACCAGGCTTGGAGAATAGGTAGCCACAGATACACAAGCATACTGT
AGGACGGTTCCCATGAAGAGGCATCTGTTGTCACCACTGGACACAGATGGTACTGTGTCTCTGCTACTCTACCAATGCCACTGCTGTCTCTGACCCCAGA
TGYAGCTCCCTCTGACCCTGGATGCAGCTCCCTCTGACCCTCGATATAGCTGCCCCTGACCCCGGATGTAGCTGCCYYTGACCCCAGATGTAGCTTTCTC
CAAACCCAGATATAGCGGCTGCCCCCTTGCCAGAGTGAATACTGCGTCATTGTGGCTTCTTCTTGTCACTGGTTCTTACTTAAAAGCTGAGCTGGAAGTT
CTAATGGGCAGTTTTGTCACCTGCTCTTACCTTGTTGCAGTCTAGATGAGGTCTAATGTTCATAAGCTAGGGGATTTTCAGATATGGAAAGGGATACCAA
TTTTCARCAGCCAMATAGAGTATCACATTTTCACTCYATGTTTCCTGGGTGTCTGTTATGTTTCCTGGGTGTCTGACTCTTAGGCTTCTTTCAAGCTGCA
GTCTGCCTAATAGAGAGCCTTGCATTTAATCATCAAAAAGGCAAAGCAATATKAATCAGCAAGGGTGTTTTGGSAAATAACAGCAAACCTGACTGTGGCG
TAAGCTTGTGGTATTGTCTCCAGTGTGATCAGATCTGTATTTTAATTTTTTAAATGTAAATTAATAATGATCTGTGAATCACCAAAGTAGCTTGGAGTAG
CCTAGAAAACAATGTATGTCCTCCGTTTTCACAGAAGCCACATAGTCGTGGGTTAAATGAGTCAGCGGCAGGGCACTGTGTCTCATAGTTAAAAAAAAAA
AAAAGTATTACTGAAGYAATGCAGGATCTTTTCTGAAGTAGAAGGCATGATGAACCCAGAAAACTAAAGCAGCAAGTGGCCACCGTTCTTAGCATAGTTG
TTTCTCAAACTGGAACAACCTATAAACAGTTGTGAACAAGGTATTAGAAGTGATGGGGGCCGGGTGCGGTAGCTTCTCCCAAAGCTCATTACCTCCCAAA
GCAACCCCAGTACTTTGGGAGGATCACTTTGAGCCCAGGAGTTCCAGACCAGCCCGGCCAACATGGCAAAACCCCATCTCTCTAAAASTACAAAAAATTA
GCTGGGCATGGTGGCACATGCCTGTAGTCCCAGCTACTTGGATGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCTGAGAT
CACGCCACTGCACTCTAGCCTGGGGGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGTGATGGGAATAGATTGTTTTGTCTCAAAA
AGCTCTTTCCAACACTAAAATGAAACATATAATTAAAAATATTTTTCTGGCTATARAAATATCGATGCTTATTATAGACATCTGCAAAGTATGAAAATAT
ATGAAGAAAAAAATTAAAATSCCATCATCCCCCATGAAAACTATTGTTATCATTTTTGTCTGATTTCTTTAGTGTTTCTCTTTTTCTTTTTTTAATTTTT
AATTTTTTTGAGTATGTAGTAKGTATATCTATTTATGGGGTATATGGCATATTTTGATACAGGATACAGTGTGTATTAGCAAGGTTTTCTTTTTAATGTT
TATATTTATTTAGTTGAGATCATACTATATATGGCTCTATAGATTACTTTCTCACTTATATTACTAACWTGTGTTATTAAATATTCTGCATAAAGATAAT
TTTAAGATGAAATTTGATGTTATAAAAACTTCTCATTTTATTAAGAGATTAACGCTATGAAACCTGCTGCTATATATTCTTGGAACCAGCTGTGACCCAA
AAGATCAATGTAGGGATGTAGGTCCTTCCCCATTCTCTACACACAAAATCAGATACTCTGATGTGCAGCTGTAGCCCCAGTCTACACTGTCTGTTGTATT
TTTTGTTTTCTGGTGTCAYGTGCCTCCCACCCTGCTCCTAGCAATTGCCATGACAACAAATAGATAATTGGCTTCCGTAATTTCTCATCTTATTGCCTAA
GGCAACAGAGAGCTTGTGGGCTCAGCTTGCGGTTCAGCAGCTGCTTTGTTGCCTCTCCTCTGTATGTGTGAGGCCTGCCAGAGCCCACTTTCCAGACAGG
TGAGAGTTCATTCATTCACCATGCAGTTACCGATCGTCTCTTGACCTGTGTCCTGGGGAGGTAAAGGTGAYGAGCCAGTTCTGCCCCATGCAGCTCACAG
TCTAGGCAAAGCTACATGCAAACAAACAGAATCCAAAGTGCTATCATGAACCCTCTGAGAGGGGCTGACTCAGCAGCCCAGGGAGCTTGAAGAAGGCTCC
ACAGAGGAGGCTGTGCCTSAAGGCGATTTCGGTTTAGGAGCCACCAATTTATAACCACTTTTSTGTGGCCCGTCTTATTTTATTTCTTATTTCTTGACAA
TCAGAAGTACCTTGGGTAGGTTTTACCATGCACATCGTAATTTGAGTGAGCTTAGTGTGAGGCTTAACGGTGTGTGGGCTGTACATCCTGGTCAGATGCT
CYAGATGGAGGCAGATGGTTGTGATGCAGGAGAGGCAGCCACATAGCACAGGTCCCCAGCCAGTGGACTGGGAAGACAGTGTAGTCATCTCTGGGGAAGG
GGAATGACAAGATCTGGCAGTGTGGCAGGTCCCASAAAAAAAGGGCTGGGTTCTGGGCAGTGAGGGTGCAGGTTGAGACCTGAATACTGGGTGGAGCCAG
CTGTCAGAGTCCACGCCTGCAGACTGGACTGGTCCACGGCAGGTGGATGCCATGTCTTGAAGACCCACAGGCACCCACTCATCCTCATGATCATGCAGTT
CTCTGGTTTCTAACAGTGCAGTCTGGGTTGCAGTCTGGGAGTCCAGCAGAGAAGAGCAGGCCCTGGAATCCCAGGTGTGGGGGCGTGGCTTAACGTGGAG
TTTCCTTCAGAGGCAGTGAGTGCTTGTCATTGTCTCCGTCAGCATTGGCTTTGGGCCTAGTGTGGCCTCGAACCTTCTGTTGGGATCAGCAGTGGAACAG
TAGGAAAAGGAATGAGTAGACATGGCATTGCAACAAGTCTTTTTTTTTTTTTCYGKTAGAATTATCATATTAAGCAGAAGTTTTGCTTCACAAACTCTCA
GCCAAATACAAAATACTATGAATAGTATTTACCTTGTGTCTCTTTCCAAAGAACTCATAGTGGTTTGCAGCTATTGCAGATATCCTGGCCATGMGGTATG
CRGTTCCTTTTTTTTTTTTTGAGACGGAGCCTTGCTCTGTCGCCCAGGCTGGAGCATAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTT
CGTGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCA
CCGTGTTAGCCAGGATGGTCTCGATCTSCTGACCTCGTGATCCTCCRGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCC
GCAGTTCCTTTTTMTAGCTGTTTGAATAGGAAAGATGACTTGGAAAATGCTGGATTCTGAGATTTATGTGCAGCCTTAAAAAGTGTAGTTTTTCTCTATC
AATAATGAGTGTGGGTTGTAATTGCTTAGTAAGTAATTTTGTTTATGTAAACRTACATTTGTTAAATTTTTTTTCTTAGGTAATCCCGTWTGTTGGCACC
ATTCCYGATCAGCTGGATCCTGGAACTTTGATTGTGATAYGTGGGCATGTTCCTAGTGACGCAGACAGGTAAAATCACTGTGCTAAAGGAAGGAGCATGA
ATAGGCTGTCTTTTTGTGATTGTGGAATGATAACAGAGTAAGGCGGGAGAGACCATTTGATACTYTGAGGCCCAATTAGCTTTCATCAGCAGCCCTGGCC
AAGGTGCTGAGGAGATTGGAATGAATGACTAAATAAAGGTTATTGGGATTTATTTCATTGCTGTAAGTCTGATTTCAGTATAAAAAATTAGAACTATCAG
CTGGATGTGGTGACTTAMACATACTTTTCCAGCACTTTGGGAGGCCAAGGCRGGAGGATTGTTTGAGGCCAGGAGTTYGAGACCAGCCTGGGCAACATAG
TGAGACCCCCCATCTGTAAAAAAAAAAAAAAWTTAAAAATTAACTGGCTTGGTGGTGTGCGCCTGTAGTTGTAGCTACTCAGGGGGCTGAGGTAGGAGGA
TTCCTTGAGCCCAGGAGTTTGAGGTTGCAGTGAGCTGTGATSGAGCCACTGCACTATAGCCTGGGTGACAAAAAAAAAAAAGAAAAAGAAAAAGAATTAG
GTATGTCATTAAAGAAAGGAATTGTGGTCAGATGACAGGGACAGTCTAGTTTTAGTCTGACATTCCCACAGCATTACAGATCTAGTTCAGATGGTTTTAC
TGAATACCTGCTTTGGATACAAGCTGTGGTATCATTAGTGTTGGGCTCAGCTCTGTGTACCTAACACCTGAAGAGCAGTGGTTTAAGATGTGAAAATTAA
GTCTCAAGGAGACAGCCCAGGCCTTTTCAGTTAACTCCTTCAAGTCGTTAGAGAAGTAGACTCCTTCGAGCTCACCACTCTGTTATCTTGAGGGTGAGGT
AAGGTCCCCTTTCCCGTTTTCCTTGGCAGCCAGATTTCCAGCCCTCACTTCTGTGCTTTGGGTAGCTGGATGGGTGCATGTGGTGTTTGCGGGGAAACAG
AGCTGGACAAAAGGCAAGTGCTTGCTGACTTYTAAGGCAGTTTCYAGTAGCCTTCCCTGAGCACTTCACTTCCATCTTAYCAGCAGAGCTTTAGCTGCAC
AGGCAGGCCTAGCTGCGAGGGAGGCTGGGAAAGGTAGGTTTTTATTCTGGGCAGATTCAGACCCAGTTCAAACTCAGGGGCTATTTTACTGAGGAAGACA
GAAAAGATTAGACAGTCAGCTCTTTAGGCCTCATAGTGAATGAATGAGGAGGGATTGGTCAGTCCCTTGTCACTGGGCCTGGAGTGTAGTGCCTGCTGGK
CCTTTACTGGTGGCTTTCCTTTCTGAGCACTCATGRGGCCCCTGTGTCTTCCCTCATATAGATTCCAGGTGGATCTGCAGAATGGCAGCAGYRTGAAACC
TCGAGCCGATGTGGCCTTTCATTTCAATCCTCGTTTCAAAAGGGCCGGCTGCATTGTTTGCAATACTTTGATAAATGAAAAATGGGGACGGGAAGAGATC
ACCTATGACACGCCTTTCAAAAGAGAAAAGTCTTTTGAGATCGTGATTATGGTGCTRAAGGACAAATTCCAGGTAGGTTTTGGAGAGGGACAGGTTGAGT
CCTCATTAGTGAGCAGGAGTGCACAGGGGKGCYTTTCACATTTGTGAGCCCAGCCTTRTATTTCCTACACCTGAGATATAGTTTGTTTGGCTTTGTAGTY
TTTCTCCATAAAAGGACCAGGAAGGCACCTAAATGTGAGGTATGGCACCACTACTCTCCAGCCAGTTGTTGCCATGCAGAAATATGGTCCACTGTGACCA
GATCTTTTTATTAGATCCTATTTCTCCTAGCAGGGCTGAGTTCCGAATTGACACAGTATTATGTTCATGATGGGAGGGTAAGTTATAATATAACCGCCAC
CACCCGAAGAGCTAACAAGGGCAATCCCAGCGAAGAAATCAGAAGGGTTTTGTAAATTCAAGTCTTGCCACAAGACAGTTCCGTAGGATCATGAGATTTT
AGACCCAGAGGAGATCCTAGAAATCCTTGATGTCAGTTCCATCTCTGGCTTCATGGAGTGTCTTGTACCTAGCGTGTATGTGTACGGTTGAATTTGGTCC
CAGAAGCTTACACCTGCTGGCCCTCTGGCCTGTGGAGCTTGCCCACAGTAGAGGTATGTACCAACGCGAGAGAAGACTCGAATGCCTCTGGCRCAGATCC
TTTCTGATCTTCGGGATACTGCTCCTGCCCGAAAGTCTTTCTGAATCTCCCAAACTCCATTCACCTCTCCCTTCTCTGGCCTTTTGAGCCCGTGTCTGTA
TCATTYTTYTTCACAGTTTTTAACAGTTGTGCTTTGGCTTTAYGTGTTTATTTTGCCTCCACAATGGGATTTWAAGCTCCYTGAGTCAGAGACTATATTG
TATGCTGCTCGCGTTTTCTGCCTATAACCTAACGTGGTACCTGGCATTTGAGAGGGAGGGAGGAGGAGCCTCGTAGCGTGCCGAGGACCTGCAGAAGCTA
CTTTCTCGTCATCTTACTGTAGTCTGTTGAGGTAGAGAYTGTTCCTACTTCAGAATAAGAAAACCGAATTCAAATATGTTGGGTAACTTGTCCATATTAA
TTTATTTAGCAAATACAACAGATTTTGAGTGTCTGCCACATGGGTGGTCTCCAGGGACAGTGTTGTGGGGAGCTCGCAGGCAGATCTTTAACCTGGGTTC
ACAATCTCCAGGGCACCTGTGCCTGGGCTTCCAGGCGACCTTCGAACCCAGATGTCTCACATGTATGCAGAGGCGCACACAAGCACACGCACATATACTT
ATGACTGCCTGTTTGTCTGGGGAGAGACAGTTCCTGGTGCTTAATCAAATCAGGAACTCAAAAGAAGTTYGGAAGCACTGCTRGTGTTTTGGGTGCTTTC
GGTTACCATTTGGTCAYGTGTGTGGAGACCTGTGGGAACAGGTATAAAAYTGGACGCAAGGAAACATTTAAATTTGGATAATAAGTTAATTTATTAACTG
TTTTTTTTTGGTGGCGGGGGGGGCTCTGTCTTCTGTATCTCTCTAGGTGGCTGTAAATGGAAAACATACTCTGCTCTATGGCCACAGGATCGGCCCAGAG
AAAATAGACACTCTGGGCATTTATGGCAAAGTGAATATTCACTCAATTGGTTTTAGCTTCAGCTCGGTGAGTGACCTTCCACAGCTTGGGGTCTTTTATG
AGGATGGTTTCTGATGAGATGGTAGAAAAAATCTTCAAATAACACTTCTATTGACATAAAAAGGACGTATCTCCCTGACTGTAGTATTAATTTTTTGGAA
GTGAACTGTTCACACTAGCAGAAGGCTGTTTATCAGCCAGGGCTTCATTGTCTGTAGGATCTCAAACCTAGTGTGGTTTTAATAAAACACACACAGTTTT
TAGCTGGGTAGCAGCTATTTCCTTTGCATGGGCATAAAATGGAGTATTTCTGTAAGACAGGTTCCTAGGCTGGGAGTGYCTGAGTCAAAGAGCACAGTCA
TGTGTTGCATAAGGACAGTTCAGTCAAAGATGAACCRCATATACAACCGTGGTCCCATAAGATTGTCATATACTGTATTTTTACCATACCTTTTCTATGT
TTAGGTAAGTTTATATGCACAAATACTTACCATCCTGCTCTGGTTGCCTACAGTATTTGGTACAGTGCCTGCTGTACAGATTCACTGGCCAGGAGCTATA
GGCCACACCCTACAGCCTAGGTGTGTAGTTGGCAGTACCATCTAAGGTTGTTAAGTAATATTCTGTGATGTTTGCACGATGACAAAAGTCATGTAAGGAC
ACATTTCTCAGAACATACCCCCTTCGTTAAGCAACACATGACTGTCTTTGCATTGAAAATTTTGATAGATACTAACTCGCCCTTCACAAGGGTAAAAACA
GTTTGCACTCTCAACAGCCATGCTCCCACCTTCTTGYTGACATTACATCTTATTCTCTGTAATGTTTGCCAATCTGATGGGGGGCGGAAAGGACCMCAGT
GTCAAGTRTATTTTTGGATCATAGTTTTCAAGCATATTTTTAGTACCATTTATAATTTTTTTATATGTCAATATAAAATATWTAGAAAATATTTTCTACT
GGATGTTACAAATTAATCTTTATTATCTTTTCTCAGGACTTACAAAGTACCCAAGCATCTAGTCTGGAACTGACAGAGATAAGTAGAGAAAATGTAAATA
TTAAATCTTTTAATGAGCCACTGGTTTAAAAATGTTGTTTTAGCTGCCATGTTAATGAAATGGCAAGAAGGCTGGGTTTTTGAAAATTATGCTTTTAGAA
CGCAAGTAATCACTTGAAAATTGAGATACATACTTGTGGTGCCAGGCACGCAGTAAGTTTTTGCTGATGATTCACCTGTCAGTTTCTGTAACTGCCACTC
ACTGTTCTTATGTAAAAAGCACTCTCTCACTCTTAACTGCTGAATAGTACTGTTCTGGGGTATTTCCAAATATTGAACATCAGCCAGTGCACTGGCAAAT
GAACTTCCATGTGTATCTTCAACCCCTGGGAGAATAACTGCAATTTAAAAATGCGCTGTTATTAATGGAGAAAGTGAGGTCTTACCGACTGGCACGTTCA
CACCTCACAGACAGAAYAGAATCTTAGCATTCTGGGGGCACCCTGGAAAGGACAACTAAGACACGTTTGAAGTTCATGTAGTGCTGGGTGAAGGTGGTGG
CTCAGGCCTGTAGTCCCAGCGCTTTGGCTGAGGTGGGGGGATTGCTTGAGCCTAGGAGTTTGAGATCAGCCTGGGCCACATAGGGAGAACCCCATCTCTA
CAAAAAATTAAAAAATTATCTGGGCATGGTGGCGCATGGCTGTGATCCCAGCTTTGGGTGGCTGAAGTAGGCGGATGACTTGAGCCCAGGAGGTTGAGGC
TGCAGTGAGCCATGATTGAGCCACTGCATCCCAGTGTGGATGACAGAGTAAGACCCTGTCTCTTAAAAAAATTTCATATAGTTCTATGAAAAATTATTAA
TTTATGGTGGAGGATAAAGGACTCAGATGAACAGGGATATCAGACTCTCTTCTCAACCCGTGTAGCCCTTCACAACACCATACCATTCCGTCATAAAGCA
CCAGCTGCCTGGAGGTCACACCAGAGTGGAGCAGGAACATCCCAGGCTCCGGCCAGGCTCAGCTCAGCACAACCAAGACTTCAGATTATAAACTATAATT
CTTCCCCTTCTAACATTGTTGTGTTTTGTTTCTTTTCCAATAGGTTCCAAAGTCTGGCACGCCCCAGCTTGTGAGTATTTTTGCCTGGGTTATTTCATGT
GGAATATTTTATAAAGTTGCATAGAAAATGAACAGTTTAAACCGTGGAGGGCAGCTTCATTCATTCCATTCCTTACTGTAGAACTGTTTCCCTACAGCCT
AGTAATAGAGGAGGAGRCATTTCTAAAATCGCACCCAGAACTGTCTACACCAAGAGCAAAKATTCRACTGTCAATCACACTTWGACTTGCACCAAAATAC
CACCTATGAACTATGTGTCAAAGGTTTGAAGAGCMCCAAATTTTCTTAACTCTRTATAAAAATTAAGTTGTAATGAGCTGTTACGAGTAACCTGTATCCA
CAATAGARGCCCAAAGCAGCCCCCTCTGCATTTGTGTGCCGTCCCTGGAYGGATTCGAGAGTCAACCAGGCCTGCCTCTGAGCCATTCCTGTGTATTTCC
TCAGCACCTCCCTGCTTGGCTGCTTCCCCTTCAGGCAGAACACAGTACTGCCTCAGACCCCAGGCACAGGGGGCCTWCCTGGCGTGTTTCACTCATACAG
AGGGCATCGGGTCCCACCCTGTCACTCATTTCATCGTCTAAAATGTAATCATGWGTGTTTGCTTCGAGCCAGGGACAGTGCTGCTGCAGGGGACCCAGCT
GGGACCAAGGCAGACTGTCTCTCCCCTCSTGGGATTTACAGGGTCATGGCTCTGAAACATTCYGKAGTGTTSTTTGGACACGAGTTTTCCCTGGAGATCG
CTTTCTGCAGGCCTCTTGGTCCTGACTGTGSCTTCTTTTCAGAGSCTGCCATTCGCTGCAAGGTTGAACACCCCCATGGGCCCTGGACGAACTGTCGTCG
TTAAAGGAGAAGTGAATGCAAATGCCAAAAGGTCAGTATCCTTCGGTACCAGTCACAGTGCAGATACTTCCGTGCCTGTTACCGCCTTCYACCCGTGAAC
GGTCCTGTGAGCTGGAAGWAGGGCTAGYGTCAGAATCTTCATTTCCAAAGTGAGATGATTCAAGCAGGAGGWGGTTAGATTGTGAACAGCCAGTGGGCAG
CAGAGCCGACTAAGGCCGTGTTCTGACCTCGGCTTTTTCTGGCCAGACAAGAGAGTAGCATTTTTGTCCACGAGGCCTATCCTTGCCTTGTAGAACTCCA
GAGCAGCCCCGTAAGATCAGGCAACATCTTTTCTTTTTTTTTTTTGAGATGGAGCCTCACTGTGTCACCCAGGCTGGAGTGCAGTGTCACAATCCCAGCA
CACCACAACCTCCGCTTCCTGGGTGTTCAAGCCATTCTCCTACCTCAGCCTCTGGAGTAGCTGGGATTACAGGCGCACCACCACGCCCAGCTACTTTTTG
AATTTTTGTATTTTTAGTAGAGACAGGGGTTCACCATGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCAAGTGATCCGCCCACTTCGCCCTCCCAGTGC
TGGGATTACAGGTGTGAGTCRCCACGCCCAGCCCAGGCAACATTTTTTAGGGCCCCTCTTGTCATGTGATTTAGAAAATTTCTGCTTTAACAACTTTTTC
CACAGACGTCCAGCCTTCTGAAAGCTTGAAATTAGAGCTATTTCCTAGAAAGTGGCATACTTTCAAGAAGGAAGGAACACGGGTAGATGATGAAAAGAGA
ATACCTGCTTGAGAGGATCCCAGGCTCCTGCAGCCTGAAGTAGTCATTCAGTTTAGCGTTAAACCTTCCATTTCTGTCCAACCACATCTCAGCCTCAAYG
CTGATTTTAAAGGGTTTTTTTTTTCGTATTTTTATTTTGCAAGTAACGAATTAGTGGAATGCTGACTGGGTTTAAAATTTCAACTTCACCTGCATTCCCA
TGTCCATGTGGATACGTGTGTTTCATAGAGTTAGAATCATAGTTCAAGTCTGGTCACTAACATTGCTGAAATTGCCACTACTCTGTCCTACTTGGTTAAT
TAAGGTTTTTTTTTTTCTTYCTTTCTCAAAAGCTTTAATGTTGACCTACTAGCAGGAAAATCAAAGGATATTGCTCTACACTTGAACCCACGCCTGAATA
TTAAAGCATTTGTAAGAAATTCTTTTCTTCAGGAGTCCTGGGGAGAAGAAGAGAGAAATATTACCTCTTTCCCATTTAGTCCTGGGATGTACTTTGAGGT
GAGGTTMCAGTTTTTGAAAATGGGACAGCAATAAGAATCCTGGGAGCAGGGGTGGGATAAGTGGTCCATTTAAATCAAGTCCTAACTCAGTATGTGGARG
YTGTGTATGTTTTTTGTTTACTTGGAGATTGTAATTTGCCCCTTTTTATAACGTGGGCAATCAGTATAAATGGCAAAGCCAGTAGAGTGTCAAATTATGC
ACATTGGAATTGACATTTGTCATCATATTAAAATTCCTGTGTAGCCCCATATTGATAGGAATTTAACCAGGAAGCTTGTCTCAGGACTGGAGTCACACAT
TTAATCATATAAGCAGACTTGAGGACGTGGAGACCCTAAAACTGCTTGCTTGCACTGGCCATCATCTCCCATCAGGGTAGACGGTTTCAGGTGGCAGTCC
TTTCTCCTAAGGAGTTAGTCTTGTTTRTATGTATTCAAGGAAAAATACATCAGTCCCTTGGAACTAAAAGGCATGCAGTCCTGAGTCCCCAGATAGGTGA
ATATTGTAACACATACCTTTCCCGAAATATGTTTCTGGGATGCTGAGCAGAGAATAGTCTCCTTGTGATGYGGATGCCGGGTGTTTGGCCAGCCTCAATC
ACCAGCTCAGGTGCCACTGCCTCACACAGTCACTTAGGGTCATTGGTTTAGGTTATCATTCTACAGCATTTTAAACTGACACATTGTCTGGACCATGTGG
GTTCTTGAGGACTCATCAAAACYCGTTACTAAAAGCATGAATATCAGGCGRAATAGATAGCAATGTGACATTCRTATTTATCCCTAAGTTCCAGTCTAAT
GCAGTGCCCTGGTATGTGGAGTGTAGACAGATGTGGGCTAATCATGGAAGGTTCCCTGAAGTTGTGGATATTGGTTTSGAATTCAGAAAGCTGGGAAGGA
TGTGGAAGGCTGAAGGTTGGCTTTTCTAGATTTAGGGCATGATTTGAACAAGTCCTTAGAGGTGGGAAGGGCAGCACAGGGTTGTTRGCTTGGCAAGAGT
CAAGGYGCAAAGGGTGACTTGGGGTTCACTGGAGGGAAACAGAGRTGAGTGCTCTAGAAGGAAGTTGAGCCTTGTGGTGGGTGACAGGAAACCAATGATG
TAACTTGTTTTTGACCTATCTGGGCCCCAAGTTTGGATCTGCTATATTAATATAAAAAAGGATAATAATGATACATTCAAATAATGCTGAAAAATACTAA
GATGAAAATACCTCCAACTTCRTAATTCAAACCATACCATTAGGATTAGGTGAACCACATTCCAGGCRTTTTTTTGCAGAGACAGTGAAARGGATGGCTG
GCTGAAGGAATGAATAGATGAATGTTATATGCTTTTGAACAATCGTCTTTTCCATTTAATTTTCTAATTCAGGAGCAGTAATTRTCCTTGTGTTGATCAC
TGCTGACGATTTTCTATACTGATAGGTCCTTTCCGGGGGCTTCCATCTCTTGCCTTTTAAATATGCTTGCATTGAGATTATCTCAGGTCTTTCCATTATG
CCATTACTTTCATTTTAAATCTTCTTGCTCTTTCAAATACACTTTAGTTGTATCTACAGTKTTTTAAAAACAATCTCATTCAGTGTTGTAATTTCATCTG
TGGGCTCTTCCTCTGGATGAAATCCGTGTTCCAGCTGTTCGGCAGCATCAGATGGTTGTGAGGGATTCTGTTGTTCTGTTTTCTTCTAGGCAAAGGATGT
GCCTTCTTTTCATTTGCAGTAGTCTGCTCACCCGGAAGCATGTCATTTCTTTGCCACTTGCTTGTAATTCRCTGGCTTTGCACTTGCTCTGATACAGTAC
AGGTAACTAATTGACTCCCTCTGCTGCCAACTTGGTTTTCCTTCTGAGCTATAGCATCAGGCTGTGTGTTTTGTGTTTTCTTGAGATTTTGTTAARTATA
TCTGGGGTCCCTTCTACCTGGTTGGAACTGGGATTCCCACCATTCTTGTGGGGATAGAATCTCAGGTTACACCTATTTCCCCAATCCTCTGTAGCCACAG
AAGCTTCATCTTGGCCAGCTGTTATCAGAGTGCAGGACTTGGGCTGAAATTTCCTCCCCTTCCTGATTTTCCTTGACAGTCCTTTCCACTGCTCCTHTCA
AAAGAATGRAAACCCTCAACTTGCTGCTTTGCAGATTCAGGTTTTGTGCTTCWTTCTGGCCTCTCGGGKTGGGGCCGGGTKAGCAGCAAGGCTGAGCTGC
CCCTCTTTCTTCTGAAGCCTTCATGGGGGCGAGGAGCACAGGGAGAGCTCAGTGCAGGGCCTCCCAGTGGCCTTCTCAGAGTGGGTGGAAACCCAGCCTG
GCACTGGCAGCGTGGCACCAGAAGTATGAAGTGTAGGTGTAAAGGTGATGTAAAAGGCTAGTAGGTTTTTTGGTTTTTCRTTGTTTGAGTTTTGGGCATA
GATGACTGTGAAGGGCGAACACTGCCGATGGATCDATGAATTTGTAGTATGTGCACCACTTCCRACTTACGGGATACCCAGCTTTGACGGCTTTGGACAA
ACACACTGAGGCCAAGATGTGCTGAGCTTATCAGGATCAGGATCACCAAGCAGCTGTAAAAACCCTAGCAAGTGCCTTAAGCTGCTGAAATTTCATATTA
ATTGTCTGGTTTGTTCATGGTCCTAGAGTTTGAGGCAGAAAAGTCAGTCAGGATCCAAGTCCCTTGGTTCCAGGCTACAGCTGGAAACAGCATCTCGGTG
AACTAAAGCAACCATATTAGGAGTGAGTTTTCCTGCTTTAGGAGAGTCCCCAGCATCGGCGAGGAGGGGCAGCACTCTGGCTTTCCAGGAGCAAGGGGCA
GGATGCGGCCGAGGGAGAGGGGCTGTGTTGAGGAAAGGAGGGCCGCAGGCCCTGGGGATGGTGTGAGGCTCCAAACATGTCCGAGTCACTTCCCTGGGTG
GGATGAGGCAGACAGTGCCACCACCAGGGACACTTTAGTTAGATTAGGGTCTTGGAAGTCAGAAGGAAGTCAGCAGCAGCAGGCTGGAACTTTTCTATGT
ATWATCAAATGGTTTACTCTGACACCGTTAGCATGTAACAAACACAAAATTTTAAACTAAGGGGAACCACTAATGGCATGTWTCCTTTCCTTTCAGATGA
TAATTTAYTGTGATGTTAGAGAATTCAAGGTTGCAGTAAATGGCGTACACAGCCTGGAGTACAAACACAGATTTAAAGAGCTCAGCAGTATTGACACGCT
GGAAATTAATGGAGACATCCACTTACTGGAAGTAAGGAGCTGGTAGCCTACCTACACAGCTGCTACAAAAACCAAAATACAGAATGGCTTCTGTGATACT
GGCCTTGCTGAAACGCATCTCACTGTCATTCTATTGTTTATATTGTTAAAATGAGCTTGTGCACCATTAGRTCCTGCTGGGTGTTCTCAGTCCTTGCCAT
GAMGTATGGTGGTGTCTAGCACTGAATGGGGAAACTGGGGGCAGCAACACTTATAGCCAGTTAAAGCCACTCTGCCCTCTCTCCTACTTTGGCTGACTCT
TCAAGAATGCCATTCAACAAGTATTTATGGAGTACCTACTATAATACAGTAGCTAACATGTATTGAGCACAGATTTTTTTTGGTAAAACTGTGARGAGCT
AGGATATATACTTGGTGAAACAAACCAGTATGTTCCCTGTTCTCTTGAGCTTCGACTCTTCTGTGCKCTAYTGCTGCGCACTGCTTTTTCTACAGGCATT
ACATCAACTCCTAAGGGGTCCTCTGGGATTAGTTAWGCAGMTATTAAATCACCCGAAGACACTAAYTTACAGAAGACACAACTCCTTCCCCAGTGATCAC
TGTCATAACCAGTGCTCTACCGTATCCCATCACTGAGGACTGATGTTGACTGACATCATTTTCTTTATCGTAATAAACATGTGGCTCTATTAGCTGCAAG
CTTTACCAAGTAATTGGCATGACATYTGAGCACAGAAATTAAGGCAAAAAACCAAAGCAAAACAAATACATGGTGCTGAAATTAACTTGATGCCAAGCCC
AAGGCAGCTGATTTCTGTGTATTTGAACTTAGGGCAAATCAGAGTCTACACAGACGCCTACAGAAAGTTTCAGGAAGAGGCAAGATGCATTCAATTTGAA
AGATATTTATGGGCAACAAAGTAAGGTCAGGATTAGACTTCAGGCATTCATAAGGCAGGCACTATCAGAAAGTGTACGCCAACTAAGGGACCCACAAAGC
AGGCAGAGGTAATGCAGAAATCTGTTTTGTTCCCATGAAATCACCAATCAAGGCCTCCGTTCTTCTAAAGATTAGTCCATCATCATTAGCAACTGAGATC
AAAGCACTCTTCCACTTTACGTGATTAAAATCAAACCTGTATCAGCAAGTTAAATGGTTCCATTTCTGTGATTTTTCTATTATTTGAGGGGAGTTGGCAG
AAGTTCCATGTATATGGGATCTTTACAGGTCAGATCTTGTTACAGGAAATTTCAAAGGTTTGGGAGTGGGGAGGGAAAAAAGCTCAGTCAGTGAGGATCA
TTTTATCACATTAGACTGGGGCAGAACTCTGCCAGGATTTAGGAATATTTTCAGAACAGATTTTAGATATTATTTCTATCCATATATTGAAAAGAATACC
ATTGTCAATCTTATTTTTTTAAAAGTACTCAGTGTAGAAATYGCTAGCCCTTAATTCTTTTCCAGCTTTTCATATTAATGTATGCAGAGTCTCACCAAGC
TCAAAGACACTGGTTGGGGGTGGAGGGTGCCACAGGGAAAGCTGTAGAAGGCAAGAAGACTCGAGAATCCCCCAGAGTTATTTTTCTCCATAAAGACCAT
CAGAGTGCTTAACTGAGCTGTTGGAGACTGTGAGGCATTTAGGAAAAAAATAGCCCACTCACATCATTCCTTGTAAGTCTTAAGTTCATTTTCATTTTAC
GTGGAGGAAAAAAATTTAAAAAGCTATTAGTATTTATTAATGAATTTTACTGAGACATTTCTTAGAAATATGCACTTCTATACTAGCAAGCTCTGTCTCT
AAAATGCAAGTTGGCCTTTTGCTTGCCACATTTCTGCATTAAACTTCTATATTAGCTTCAAAGGCTTTTAAWCTCAATGCGAACATTCTACGGGATGTTC
TTAGATGCCTTTAAAAAGGGGGCAGATCTAATTTTATTTGAACCCTCACTTTCCAACTTCACCATGACCCAGTACTAGAGATTAGGGCACTTCAAAGCAT
TGAAAAAAATCTACTGATACTTACTTTCTTAGACAAGTAGTTCTTAGTTAACCACCAATGGAACTGGGTTCATTCTGAATCCTGGAGGAGCTTCCTCGTG
CCACCCAGTGTTTCTGGGCCCTCTGTGTGAGCAGCCAGGTRTGAGCTGTTTTAGAAGCAGCGTGTTGCCTTCATCTCTCCCGTTTCCCAAAAGAACAAAG
GATAAAGGTGACAGTCACACTCCTGGGTTAAAAAAAGCATTCMAGAACCACTTCTCTTTATGGGCACAACAAAGAAACGAAGGCTGAAGTTCGCCTACCC
AAAATGAAAAGTAGGCTTTACAGTCAAAAGTACTTCTGTTGATTGCTAAATAACTTCATTTTCTTGAAATAGAGCAACTTTGAGTGAAATCTGCAACATG
GATACCATGTATRTAAGATACTGCTGTACAGAAGAGTTAAGGCTTACAGTGCAAATGAGGCGTCAGCTTTGGGTGCTAAAATTAACAAGTCTAATATTAT
TACCATCAATCAGGAAGAGAATAATAAATGTTTAAACAAACACAGCAGTCTGTATAAAAATACCGTGTATCATTTACTCTTTCTGCAGCTCTATACGATA
GGCAGGAGAGGCTTATGTGGCAGCACAAGCCAGGTGGGGATTTTGTAAMGAAGTGATAAAACATTTGTAAGTAATCCAAGTAGGTGTATTAAGGCACCAA
AAGTAACATGGCACCCAACACCCAAAAATAAAAATATGAAATATGAGTGTGAACTCTGAGTAGAGTATGAAACACCACAGAAAGTCTTAGAAATAGCTCT
GGAGTGGCTCTCCCAGGACAGTTTSCAGTTGCTGAATAGTCTTTTGGCACTGATGTTCTACTTCTTCACATTCATCTAAAAAAAAAAAAAAAAAATCAAA
ATTAAAATCTGAGTCAGTCCGCCTGCCTCGGTTCTCATTAGTTTAATTCTTAATGCCTTGCACTTTCCGGCAATCATTCAATCAAAAGAGTGAAATGAAG
CACATTAACAAAGCAGGAGGCGCCACGGACCGCCTCCCTCCACACCGCTCCTTCCGCCTTCATTCCTTGCCCACAGGCTTGCACTGGAAGCTGAATAAGA
ATCCCCAAAACTCAAACTTCCTAGGGATGCCACCCCTTTAGTAGCTCACACCTCCCCCCTCCAAGAGCTAAGAAACAAAGGAGAATGTACTTTTGTAGCT
TAGATAAGCAATGAATCAGTAAAGGACTGATCTACTTGCTCCACCACCCCTCCCTTAATAATAACATTTACTGTTATTTCCTGGGCCTAAGACTCTATGT
TCCAGAACTGTCACAGCTCCCCATGTCACACTCACTAGCTTGTGATCTTTGTCAAATAACTGAAATCTTTTAAGCCTCTAGTTTCTTCCTTTGTAAAACA
GAGATAAAATGTTGTGGTTTTTAAGTGAGATAATCCAAGTAAAGCACCTAACATGGAGTAGTGAATGAACATCGGTTGCTACTAAAAGTGGACATCCTAC
TGCATCCTTAATGCCACTAGGCATTTCCATACAATCTGGGGACCAAAACTTCAATCATATAAATGTATGAGGTTAATTAAAAACACTACTGTAATCTGCT
TGTATGATCACAAACCACCACAAAAGAAAAGATCGTGAAGATTACACTGTAAACGGACTCTCAAATGATCAGGAGGTGGTCACTTCGCAACTTGCTCCCT
CCACCCAACTCAAAACAGGAGCTCGAGCCTGCCTGTATTTGAGACTGGAGCTGCCTGTATGAGGACTGGATCAACTGCTAGTCACGTTATATCCAAATCT
GCATTATCATTGGGCACATTTTCACAGAATTTTACTGAATTATTCCTTAATTGTTTAATGGTTGGGAATAGTTTGGGAATTACCTTCCATCAACTCTGCT
AAGAAAGGAATGGATTCTGGTAGCAAGACAATATAATTCTCCTTTAGTTTTTCAGCCAGTGCTAACACAGTAATCAAAGCAGCAAATCGAACCTGAAAGG
GATAAAAGAGCAAAGAAATAAAAAGTAGTGTTACTGTATTTATTATCTTAAGAGCTGTACTGACTTGAGACAAGCTCTAACTTTTTAAACATTAGTTCAC
ATGCGTTTATTCACTTCATTATGTTCATTAAGCTTTCATCTTAGAATACCAGTTTCACCATTTGGGAGCTGTTTGTAATATGTGCAACCTTATAAATAGT
GTTTTCCAAACTGTGTCCCAGGACTGCAAATCTTTAATGTGAAATGTCTTTTTATAATCTCTTCCTTTAAAAAAAACCAATAAAATAAAATGCCGCATGC
AAACTCAAGTGTGTCACCAGATTTTACTTCATTGGCGCTCGCCAGCCCGCCAGGCTGGCAATAAAGTGCCTCCAGCCACCTCTGGCAGGTCTCCTCACCC
ACAGCCCCTGACTGGTCACCACTATAATTGTATGAGGGGCCAGGACAGTCGCTTGGGATAAACTCCCATCTCAGCACTGAATAAAAAACATTCTGTGTCA
CAATATCCTAGTTTTGGGGCTTTAAAAACGTCTAGGTGTTCCTCACATGCCTTGTCTATAATAAGGAAAGCAAGCAGTAGTTGGGTATTGTTAGCTTTTG
AAACAAAAGCCCTACTGGTCTTCTAATTTTGGATATTTTAATTAAAGAATATCTGGACAGTACAAAGTGAATTATTAAAAAACCATTTGTAACTACCTAG
ATTCAATCAGGATTTCCTTGATTTGTGCAAAGTAAAATATTACAATAAATTTGATACTGCTACTTGTATAAAAACCTATGGTTTAAAATGTGGGGGTTCA
TCATAATAGTCTCATTGTTAGCATATCCTAATAAAGAATTTGAACTAATAAATCCTATTAATAAAATTCTGCTTTGGTCTGTTATAGCCAGTAAAGTTCT
AATACAATCATTAGTTTGAGAAATGGTGACTCATTGCTAAAACAGTTTGAAATTCGTAACACTTGGGTGTCAAATTTTGACTTCCACTCAACCTACCCAT
GTTTTATTTCCACTGCCACCACTTACTCAACAAGATCATAAGCCTAGTATCTATAAACAACAGAATGTATTGCTCTAACTCAAAAGACTATAGTGTGGAT
AAATTCAATGCATTTCTCTCTGGAGCACAATGACATTTCAATGGCACTTAAAAAAGAAGGAATTACTTCAAATCTTTGTTATTTAAAAGTATTTAGAAAG
TATTTTAGTACTTCTGCCCAACGCACCATTGGGGTGGGGATAGGGCATTGCTATTCTTTACAAATAGCCTGTAAGTAAAAAACAAAATTTTCTTAGGCAC
AAATTTCTGCCTAATACAAAAGACCGGACCTCTAGTACTGGATGACAAATAGCAATGTTCTTCCCTGCCAGTTTACTAGGGGGCCTACATCTGTGACCAC
CTGCAGGCTGTTTAGGCTATGCAGTGAAAAGATGCAGTTTCAGTACTTGTCACGCAGTTCCTAACCTTAGGCGAGGAGTCTCTCGTCTTTAGCAGAATCT
GGTAGTTCAGTGGTTTCCAAAGAGAGTCATCCGCCATGGCCACCGAAAACTGTGCGATGCATGGTATCAGGTGCTTTGTCACCCGTTCCTGGAATTTCTC
TTCTCCCCCAAGCCTGTTTTCCAGCTAGGAAGAGTAAGACAAAGACTTTGAACAACAAGTCTCATTTCTTTCTTCTGTTTGAAAAAATATCCAACATACA
AATATTTTACTATCTTTCATGATATTAGCAGGTTCAAAAACCAGGCATTATTCTAATACTCTCTAGGGCAAATGTATTGCCTTCTAGAACTCAAATGGAA
TCTCATACCCTTTATCATCGCCCCTTTCTCTCCAGCAGAACATCTCAGAGGAGCTCTTTGCTCCAGAGGACAGCCATGCTCTGACGCGTTCTCAGTGAGG
CCCAGTTAAAACAAATGAATACATTAACCATGACAGCTTATATCATGTCTGTCTTTTGAGCAGTTTAAAAAATAAAAAATAAAAAATAACTCAGGGCCAG
GCATGGTGGCTCACGCCTGTAATCCCAGCAGTTTGGGAGGCCAAGGTGGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGCAAA
ACCTCATCCCTACTAAAAATACAAAAATTAGCCAGGTGTGGAGGCGGGCGCCTGTGATCCCAGCTATTCGGGAGGCTGAGGCACAAGAATTGCTTGAAAC
CGGGAGGTGGAGGTTGCAGCGAGCCGAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGTCTCAAAACAACAAAACAAAACTCAAAT
TCCACAATGAAGTTATATCTTTGAAAAAACAATTTTCAAATAAAACATTTCATTAAAAAGACCAGAAAAAACAACCTTACAAAGAAAAATCCTAGCAAGC
TGTCATTTGAGCAGATCTAAAACCTGCCAAGCTCGAACAGTGATGGCTTCCTCAGCAACGAAAGATGATTCTGTTTGGTTACCTGATCCACCAGAGGCAT
CATCAAGGCTTCTGCTCTCTCTTTACTTATAAAATGCTGGGTATCAAAAAGGAAGATTTTGTATAAACAGTTCAAAATAAACTGCAACAGCAAGCAGCAC
TTTTCAGGGTCATTTTCAGAGTCAAAAAATGCTTCATCTGTAGACGTGGGAAGAGTAAAAATGAAAAAACACTGAACTTAACCATTTAATCTCCAATGTT
TACATTGAAATCACTATTAAAATAACTAAATCAGAAGAGTCTAAAATGATCTAGAAATCATAATCAGGACGAAGGCAGAACACAATGGATGGTCTCTCGA
AGAATGATTCCTTCTTTTAGAGTTAAGATTCTAACACTCACTCTGGCAAGTTAAATTCCCTCAACTGTCAAGTGGGTCACGTATTAGCATTAGAGAATAA
ACTAATCTTAATTTTTGCGTTTTAAAGTTACTTCCAGTAACTGACAGTAACGGCCATTTACTTTATTCTTTCTCCCAAGTGAGGTGACTTATAACATTCG
CTCATGATGCTAAAACAACACTTCACTGTCTGACAACAATGAAGTAAAAAATTCACCCTCCTTAGCTTAGGACTTAAGAACCTCTAAAATCTTGCTTCCA
AGCACTAGGTTGTGTCTTACTGGTACCTTGTATAAGGCACACAGGGCAAGGGTGACAGCTGAACTGAAGCGACCACCCACCTGTTTTGGAGATGTTCACC
TGGTTCAAGGTGTCAGCAAAAGGCTTCACTAAGTGGCCGGCAAACAGAGTAAAAAGCCCTTTCAGCTTTTCAGCAATGCAATCTGCCAAGTTGTAAAATG
TCAACAACCTGTCCTTTGGGGCATCTTCTGTTTTAGCCCAATCAAACAGCTGAAAGGATAAGACAGTATTAGTTTCTTCGACATCTTGTCACTTAAATCT
GAGCACAAAAGAGAGGAAGAGGAAGAAAGCGTCACCTTGAAGAACAGGGGCCTGAATGTGACCTCGGAAAGTTTGACAACCATGGCTACTAGACAGTCAA
TGATACAATTTTCCGTTTTTCCAACTTCCTCCAGATCGTTCTGAAAACAGAAGAGCCCATTTATTAGAGTGCTGATACCTGACTGTAAATTATTTTGGCA
AGTACCACTGTTACACGGCTAGATTGTTCTCGGACTCTTCAATAGGTGGATAACAGCTTTAGGATTTGGAGGAGTGAACCTGAGCTTACCTCAGAGTGCT
GGGCTCGGAAGTCCAGGGCTTCCAGGAAAAAGGCGGTTAGCTGAGACTGATGGGAGGTGAGCTCTTCCTTCTTCATCACCCCAATATGCTCTTGCAAGAT
GCTCATAAACGGACCCATGTGATTCTACCAATAACACAGGAAAGAGATGTGCCATTTTCAAATGATTCCTAGAGTTCAGCGGTGTGTATTTTTAAAAACT
AAATCTTCTTCTTTAAGTCAAAGTTTACACATTGCAGTACCACCTCTCCCTTCTCCAAAGTCTTAATACCCAATAAGATCTAACCTTCCAGTTCTTCTCA
ATCTGCTTGTAAGTTTTTTTGATGGCGGGCAACAGGACTCGGGGTGCAAGTGTGGTAGCCAGTGTCTTTTTAAGAGATGTGAGACGGATATTAGCCTGTG
ACGCAGAACCCATTTCACTAGTGATTTTCTCCAGATGAATCACCTACAGGAATATAAAAAAAGTGATCAGGGCCACTGCAGATCTTCGCTGACAAACACA
CACTTACAGAGAGGCTTCATGATGAGGTACTAGTGTTTGGAAAATGCTTAGCACTTTTTAACTACACACAGAATTCCTTTTAAAGTCAGCCCTAAACGTC
AGTGGATAAAACTGGGCAGACACCTCTTGCCCAACTTGCGATCAGGGACGAAGGCCGATGGTAGACGCAGACGCACACACAGCACCCAGACAGATGATTT
TCTTAGAGGACAGGAATGCAAGGGACCACGGCAAGAGTCAAGTTGCTAAAAAACTGAGAAAGCTCCTCAGAGCACAGGCCCCTTTCTCTGAGAAGGCTAC
TTTTAAACCCTGGCTGTGGTGTAAGTGAAGCGGTTTAATCATTTGCCCCATGGTAATGAAGGCTCCTAACCTTGTAAATGGCAAATGATCAACACAATGG
AACAGCCAGGTCTCAACATTCTTGAGCATCTTCAATCATAAATACCACTGGCCCCTAGCGTGTTGACAGGAAACCGCTGACGTGCAATACAAAAATTCTG
CTTTGCAAGATGCCTTAGGATTATACCTCTCACAGTAGAAACAGGGCCCATCAATTTCCACAAGTAATAAAAGGCGGCTCTACCAGCCCAACTCCAAAGA
TCTCACAGAAGAAAAAAAAGCCAGAATACATTCCGCACAATTAAAGAAGAGAAGCATCTCGCTAAAAAGTGACCCCCA


SNP Information

Context             (SEQ ID NO:3449):
TTTTCTCTATCAATAATGAGTGTGGGTTGTAATTGCTTAGTAAGTAATTTTGTTTATGTAAACGTACATTTGTTAAATTTTTTTTCTTAGGTAATCCCGT
W
TGTTGGCACCATTCCTGATCAGCTGGATCCTGGAACTTTGATTGTGATACGTGGGCATGTTCCTAGTGACGCAGACAGGTAAAATCACTGTGCTAAAGGA
Celera SNP ID:            hCV1653103
SNP Position Genomic:     25490
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,10)   caucasian(A,24|T,14)   total(A,26|T,24)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

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


Context             (SEQ ID NO:3450):
TGAGTGTGGGTTGTAATTGCTTAGTAAGTAATTTTGTTTATGTAAACGTACATTTGTTAAATTTTTTTTCTTAGGTAATCCCGTATGTTGGCACCATTCC
Y
GATCAGCTGGATCCTGGAACTTTGATTGTGATACGTGGGCATGTTCCTAGTGACGCAGACAGGTAAAATCACTGTGCTAAAGGAAGGAGCATGAATAGGC
Celera SNP ID:            hCV1653104
SNP Position Genomic:     25506
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,8)   caucasian(C,24|T,14)   total(C,26|T,22)
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:3451):
GCACTTCTATACTAGCAAGCTCTGTCTCTAAAATGCAAGTTGGCCTTTTGCTTGCCACATTTCTGCATTAAACTTCTATATTAGCTTCAAAGGCTTTTAA
W
CTCAATGCGAACATTCTACGGGATGTTCTTAGATGCCTTTAAAAAGGGGGCAGATCTAATTTTATTTGAACCCTCACTTTCCAACTTCACCATGACCCAG
Celera SNP ID:            hCV7540505
SNP Position Genomic:     37972
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:3452):
GAACTATGTGTCAAAGGTTTGAAGAGCACCAAATTTTCTTAACTCTATATAAAAATTAAGTTGTAATGAGCTGTTACGAGTAACCTGTATCCACAATAGA
R
GCCCAAAGCAGCCCCCTCTGCATTTGTGTGCCGTCCCTGGACGGATTCGAGAGTCAACCAGGCCTGCCTCTGAGCCATTCCTGTGTATTTCCTCAGCACC
Celera SNP ID:            hCV22273642
SNP Position Genomic:     31108
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,6)   caucasian(A,15|G,3)   total(A,19|G,9)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,10)   caucasian(A,27|G,3)   total(A,35|G,13)   
SNP Type:                 INTRON

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


Context             (SEQ ID NO:3453):
TGTTTATGTAAACGTACATTTGTTAAATTTTTTTTCTTAGGTAATCCCGTATGTTGGCACCATTCCTGATCAGCTGGATCCTGGAACTTTGATTGTGATA
Y
GTGGGCATGTTCCTAGTGACGCAGACAGGTAAAATCACTGTGCTAAAGGAAGGAGCATGAATAGGCTGTCTTTTTGTGATTGTGGAATGATAACAGAGTA
Celera SNP ID:            hCV1653105
SNP Position Genomic:     25540
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,2)   caucasian(C,14|T,22)   total(C,22|T,24)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): Caucasian(C,80|T,152)   African(T,47|C,53)      total(C,133|T,199) ;(C,-|T,-)   ;(T,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:3454):
GGAATATTTTCAGAACAGATTTTAGATATTATTTCTATCCATATATTGAAAAGAATACCATTGTCAATCTTATTTTTTTAAAAGTACTCAGTGTAGAAAT
Y
GCTAGCCCTTAATTCTTTTCCAGCTTTTCATATTAATGTATGCAGAGTCTCACCAAGCTCAAAGACACTGGTTGGGGGTGGAGGGTGCCACAGGGAAAGC
Celera SNP ID:            hCV7540506
SNP Position Genomic:     37542
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:3455):
CGCTACTGCTGCGCACTGCTTTTTCTACAGGCATTACATCAACTCCTAAGGGGTCCTCTGGGATTAGTTATGCAGATATTAAATCACCCGAAGACACTAA
Y
TTACAGAAGACACAACTCCTTCCCCAGTGATCACTGTCATAACCAGTGCTCTACCGTATCCCATCACTGAGGACTGATGTTGACTGACATCATTTTCTTT
Celera SNP ID:            hCV7540507
SNP Position Genomic:     36666
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3456):
ACAGGTAAAATCACTGTGCTAAAGGAAGGAGCATGAATAGGCTGTCTTTTTGTGATTGTGGAATGATAACAGAGTAAGGCGGGAGAGACCATTTGATACT
Y
TGAGGCCCAATTAGCTTTCATCAGCAGCCCTGGCCAAGGTGCTGAGGAGATTGGAATGAATGACTAAATAAAGGTTATTGGGATTTATTTCATTGCTGTA
Celera SNP ID:            hCV1653106
SNP Position Genomic:     25665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3457):
GTCTTTTGAGATCGTGATTATGGTGCTGAAGGACAAATTCCAGGTAGGTTTTGGAGAGGGACAGGTTGAGTCCTCATTAGTGAGCAGGAGTGCACAGGGG
K
GCTTTTCACATTTGTGAGCCCAGCCTTATATTTCCTACACCTGAGATATAGTTTGTTTGGCTTTGTAGTTTTTCTCCATAAAAGGACCAGGAAGGCACCT
Celera SNP ID:            hCV25981931
SNP Position Genomic:     27130
SNP Source:               Applera
Population(Allele,Count): african american(G,4|T,12)   caucasian(G,26|T,8)   total(G,30|T,20)
SNP Type:                 INTRON


Context             (SEQ ID NO:3458):
GGAATGAATGACTAAATAAAGGTTATTGGGATTTATTTCATTGCTGTAAGTCTGATTTCAGTATAAAAAATTAGAACTATCAGCTGGATGTGGTGACTTA
M
ACATACTTTTCCAGCACTTTGGGAGGCCAAGGCAGGAGGATTGTTTGAGGCCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAGACCCCCCATCTGTA
Celera SNP ID:            hCV1653108
SNP Position Genomic:     25818
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3459):
GGTTTTTTGGTTTTTCATTGTTTGAGTTTTGGGCATAGATGACTGTGAAGGGCGAACACTGCCGATGGATCAATGAATTTGTAGTATGTGCACCACTTCC
R
ACTTACGGGATACCCAGCTTTGACGGCTTTGGACAAACACACTGAGGCCAAGATGTGCTGAGCTTATCAGGATCAGGATCACCAAGCAGCTGTAAAAACC
Celera SNP ID:            hCV11405557
SNP Position Genomic:     35364
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3460):
GTGAATGAATGAGGAGGGATTGGTCAGTCCCTTGTCACTGGGCCTGGAGTGTAGTGCCTGCTGGTCCTTTACTGGTGGCTTTCCTTTCTGAGCACTCATG
R
GGCCCCTGTGTCTTCCCTCATATAGATTCCAGGTGGATCTGCAGAATGGCAGCAGCATGAAACCTCGAGCCGATGTGGCCTTTCATTTCAATCCTCGTTT
Celera SNP ID:            hCV15823971
SNP Position Genomic:     26836
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,5)   caucasian(A,27|G,7)   total(A,32|G,12)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:3461):
AGAAAAGATTAGACAGTCAGCTCTTTAGGCCTCATAGTGAATGAATGAGGAGGGATTGGTCAGTCCCTTGTCACTGGGCCTGGAGTGTAGTGCCTGCTGG
K
CCTTTACTGGTGGCTTTCCTTTCTGAGCACTCATGGGGCCCCTGTGTCTTCCCTCATATAGATTCCAGGTGGATCTGCAGAATGGCAGCAGCATGAAACC
Celera SNP ID:            hCV15823972
SNP Position Genomic:     26800
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3462):
TGTTTTCTCCCCAGCTTTGTCATGTATTTAGTGGCCTTATGTAGACAGTTTCCTTTGAAACATCTCTTGGACTTCTCTGCTCTTCCAGGGCCATTGCCAC
Y
GACCTGGAATGTGTCCTTATCGTTTCACGCCAGGCTTATGGCAGCAGTCAGTCACCCAGATGACCTCCTGACCTCTGGCTTATTTCACCCCCACTGGACT
Celera SNP ID:            hCV7540581
SNP Position Genomic:     20962
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3463):
CCTAGTGTGGCCTCGAACCTTCTGTTGGGATCAGCAGTGGAACAGTAGGAAAAGGAATGAGTAGACATGGCATTGCAACAAGTCTTTTTTTTTTTTTCTG
K
TAGAATTATCATATTAAGCAGAAGTTTTGCTTCACAAACTCTCAGCCAAATACAAAATACTATGAATAGTATTTACCTTGTGTCTCTTTCCAAAGAACTC
Celera SNP ID:            hCV15823977
SNP Position Genomic:     24856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3464):
CCCCAGAAGGAAAGCAGGTGTTTAGCATAACCATATTATTTGCATGAACAGTTCAGGTACAGGAAATCCCCGTTACCAGTTAGGTTGGTGGGTGCCCTTC
Y
CAAATCCCAAGTTCCCAGACACCAGCCAGGGGCCTGCCTCGTAAGGAGGCCTTTCCAGGACAGCAGTCAGGCCTGCCAATGTTAATTCTTTTCTGCATAC
Celera SNP ID:            hCV7540582
SNP Position Genomic:     20205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3465):
GGCCTAGTGTGGCCTCGAACCTTCTGTTGGGATCAGCAGTGGAACAGTAGGAAAAGGAATGAGTAGACATGGCATTGCAACAAGTCTTTTTTTTTTTTTC
Y
GTTAGAATTATCATATTAAGCAGAAGTTTTGCTTCACAAACTCTCAGCCAAATACAAAATACTATGAATAGTATTTACCTTGTGTCTCTTTCCAAAGAAC
Celera SNP ID:            hCV15823978
SNP Position Genomic:     24854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3466):
ATATGCTTGCATTGAGATTATCTCAGGTCTTTCCATTATGCCATTACTTTCATTTTAAATCTTCTTGCTCTTTCAAATACACTTTAGTTGTATCTACAGT
K
TTTTAAAAACAATCTCATTCAGTGTTGTAATTTCATCTGTGGGCTCTTCCTCTGGATGAAATCCGTGTTCCAGCTGTTCGGCAGCATCAGATGGTTGTGA
Celera SNP ID:            hCV16288634
SNP Position Genomic:     34461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3467):
CCCATCACTGAGGACTGATGTTGACTGACATCATTTTCTTTATCGTAATAAACATGTGGCTCTATTAGCTGCAAGCTTTACCAAGTAATTGGCATGACAT
Y
TGAGCACAGAAATTAAGGCAAAAAACCAAAGCAAAACAAATACATGGTGCTGAAATTAACTTGATGCCAAGCCCAAGGCAGCTGATTTCTGTGTATTTGA
Celera SNP ID:            hCV16288636
SNP Position Genomic:     36826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3468):
GGGATTTACAGGGTCATGGCTCTGAAACATTCCGTAGTGTTCTTTGGACACGAGTTTTCCCTGGAGATCGCTTTCTGCAGGCCTCTTGGTCCTGACTGTG
S
CTTCTTTTCAGAGGCTGCCATTCGCTGCAAGGTTGAACACCCCCATGGGCCCTGGACGAACTGTCGTCGTTAAAGGAGAAGTGAATGCAAATGCCAAAAG
Celera SNP ID:            hCV25601134
SNP Position Genomic:     31531
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,35)   caucasian(G,40)   total(C,3|G,75)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:3469):
CGAGCCAGGGACAGTGCTGCTGCAGGGGACCCAGCTGGGACCAAGGCAGACTGTCTCTCCCCTCCTGGGATTTACAGGGTCATGGCTCTGAAACATTCCG
K
AGTGTTCTTTGGACACGAGTTTTCCCTGGAGATCGCTTTCTGCAGGCCTCTTGGTCCTGACTGTGGCTTCTTTTCAGAGGCTGCCATTCGCTGCAAGGTT
Celera SNP ID:            hCV25601135
SNP Position Genomic:     31465
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,40)   total(G,1|T,77)
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:3470):
TTTGATACAGGATACAGTGTGTATTAGCAAGGTTTTCTTTTTAATGTTTATATTTATTTAGTTGAGATCATACTATATATGGCTCTATAGATTACTTTCT
C
ACTTATATTACTAACTTGTGTTATTAAATATTCTGCATAAAGATAATTTTAAGATGAAATTTGATGTTATAAAAACTTCTCATTTTATTAAGAGATTAAC
Celera SNP ID:            hCV15989820
SNP Position Genomic:     23453
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,10)   total(C,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3471):
TTTCATCGTCTAAAATGTAATCATGTGTGTTTGCTTCGAGCCAGGGACAGTGCTGCTGCAGGGGACCCAGCTGGGACCAAGGCAGACTGTCTCTCCCCTC
S
TGGGATTTACAGGGTCATGGCTCTGAAACATTCCGTAGTGTTCTTTGGACACGAGTTTTCCCTGGAGATCGCTTTCTGCAGGCCTCTTGGTCCTGACTGT
Celera SNP ID:            hCV25601136
SNP Position Genomic:     31429
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,3)   caucasian(C,20)   total(C,55|G,3)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:3472):
GAATCTCCCAAACTCCATTCACCTCTCCCTTCTCTGGCCTTTTGAGCCCGTGTCTGTATCATTCTTTTTCACAGTTTTTAACAGTTGTGCTTTGGCTTTA
Y
GTGTTTATTTTGCCTCCACAATGGGATTTTAAGCTCCCTGAGTCAGAGACTATATTGTATGCTGCTCGCGTTTTCTGCCTATAACCTAACGTGGTACCTG
Celera SNP ID:            hCV1347684
SNP Position Genomic:     27843
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3473):
TCTCTGGCCTTTTGAGCCCGTGTCTGTATCATTCTTTTTCACAGTTTTTAACAGTTGTGCTTTGGCTTTACGTGTTTATTTTGCCTCCACAATGGGATTT
W
AAGCTCCCTGAGTCAGAGACTATATTGTATGCTGCTCGCGTTTTCTGCCTATAACCTAACGTGGTACCTGGCATTTGAGAGGGAGGGAGGAGGAGCCTCG
Celera SNP ID:            hCV1347685
SNP Position Genomic:     27873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3474):
CTTTTGAGCCCGTGTCTGTATCATTCTTTTTCACAGTTTTTAACAGTTGTGCTTTGGCTTTACGTGTTTATTTTGCCTCCACAATGGGATTTTAAGCTCC
Y
TGAGTCAGAGACTATATTGTATGCTGCTCGCGTTTTCTGCCTATAACCTAACGTGGTACCTGGCATTTGAGAGGGAGGGAGGAGGAGCCTCGTAGCGTGC
Celera SNP ID:            hCV1347686
SNP Position Genomic:     27881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3475):
ACCTGGCATTTGAGAGGGAGGGAGGAGGAGCCTCGTAGCGTGCCGAGGACCTGCAGAAGCTACTTTCTCGTCATCTTACTGTAGTCTGTTGAGGTAGAGA
Y
TGTTCCTACTTCAGAATAAGAAAACCGAATTCAAATATGTTGGGTAACTTGTCCATATTAATTTATTTAGCAAATACAACAGATTTTGAGTGTCTGCCAC
Celera SNP ID:            hCV1347689
SNP Position Genomic:     28039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3476):
TTATCCCTAAGTTCCAGTCTAATGCAGTGCCCTGGTATGTGGAGTGTAGACAGATGTGGGCTAATCATGGAAGGTTCCCTGAAGTTGTGGATATTGGTTT
S
GAATTCAGAAAGCTGGGAAGGATGTGGAAGGCTGAAGGTTGGCTTTTCTAGATTTAGGGCATGATTTGAACAAGTCCTTAGAGGTGGGAAGGGCAGCACA
Celera SNP ID:            hCV16094681
SNP Position Genomic:     33778
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3477):
AATTTAACATTTTGCTTGTAAGACTTAATTTTGCCTGGGTATGGTGGCTCATGCCTGTAATCCTAGCACTTCAGGAGGTTGAGGCAGGAGGACTGCTTGA
R
CCCAGGAGTTCAAGACCAGCCTGGGCAACACAGTGGGACCCCATCACTACCAAAAAAAAAAAAAATTAGTCAGGCATGGTGGTGTGCACTTGTAGTCCCA
Celera SNP ID:            hCV27150253
SNP Position Genomic:     7175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3478):
CACACAGTCACTTAGGGTCATTGGTTTAGGTTATCATTCTACAGCATTTTAAACTGACACATTGTCTGGACCATGTGGGTTCTTGAGGACTCATCAAAAC
Y
CGTTACTAAAAGCATGAATATCAGGCGGAATAGATAGCAATGTGACATTCATATTTATCCCTAAGTTCCAGTCTAATGCAGTGCCCTGGTATGTGGAGTG
Celera SNP ID:            hCV16094682
SNP Position Genomic:     33623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3479):
GCACTTTGGGAGGCCAAGGCAGGAGGATTGTTTGAGGCCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAGACCCCCCATCTGTAAAAAAAAAAAAAA
W
TTAAAAATTAACTGGCTTGGTGGTGTGCGCCTGTAGTTGTAGCTACTCAGGGGGCTGAGGTAGGAGGATTCCTTGAGCCCAGGAGTTTGAGGTTGCAGTG
Celera SNP ID:            hCV1653111
SNP Position Genomic:     25932
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3480):
GAATACTGTAATTCTCATTTTATGGAAATGAAAATCTAAATGAATACCTCTGGTAATTGTACGGGACTGTTTGATTAGTATTTACCATTAATTAATTAAA
T
TTTTTTTTTTTTTGAGATGGAGTCTCGTTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTTCAACCTCCGTCTCCCAGGTTCAAGCAA
Celera SNP ID:            hCV27150254
SNP Position Genomic:     13404
SNP Source:               Celera
Population(Allele,Count): no_pop(T,6|-,9)   total(-,9|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3481):
TCTCTTGAGCTTCGACTCTTCTGTGCGCTACTGCTGCGCACTGCTTTTTCTACAGGCATTACATCAACTCCTAAGGGGTCCTCTGGGATTAGTTATGCAG
M
TATTAAATCACCCGAAGACACTAACTTACAGAAGACACAACTCCTTCCCCAGTGATCACTGTCATAACCAGTGCTCTACCGTATCCCATCACTGAGGACT
Celera SNP ID:            hCV7540512
SNP Position Genomic:     36641
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3482):
GCATGCAGTCCTGAGTCCCCAGATAGGTGAATATTGTAACACATACCTTTCCCGAAATATGTTTCTGGGATGCTGAGCAGAGAATAGTCTCCTTGTGATG
Y
GGATGCCGGGTGTTTGGCCAGCCTCAATCACCAGCTCAGGTGCCACTGCCTCACACAGTCACTTAGGGTCATTGGTTTAGGTTATCATTCTACAGCATTT
Celera SNP ID:            hCV16094683
SNP Position Genomic:     33471
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3483):
GAGCAAAGATTCGACTGTCAATCACACTTTGACTTGCACCAAAATACCACCTATGAACTATGTGTCAAAGGTTTGAAGAGCACCAAATTTTCTTAACTCT
R
TATAAAAATTAAGTTGTAATGAGCTGTTACGAGTAACCTGTATCCACAATAGAGGCCCAAAGCAGCCCCCTCTGCATTTGTGTGCCGTCCCTGGACGGAT
Celera SNP ID:            hCV22273650
SNP Position Genomic:     31054
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,11)   caucasian(A,8|G,28)   total(A,27|G,39)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,3)   caucasian(A,3|G,23)   total(A,14|G,26)   
SNP Type:                 INTRON

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


Context             (SEQ ID NO:3484):
TTTTTTTTTTTGAGATGGAGTCTCGTTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACTTCAACCTCCGTCTCCCAGGTTCAAGCAATT
S
TCCTGTCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCATGCCACTACGTCTGGCTAATTTTTGTATTTTTAGTAGGGATGGGATTTCACCATATTGGT
Celera SNP ID:            hCV27150255
SNP Position Genomic:     13507
SNP Source:               Applera
Population(Allele,Count): african american(C,30|G,6)   caucasian(C,9|G,27)   total(C,39|G,33)
SNP Type:                 INTRON;UTR 5

SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,10)   total(G,4|C,10) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:3485):
CCTGTTCTCTTGAGCTTCGACTCTTCTGTGCGCTACTGCTGCGCACTGCTTTTTCTACAGGCATTACATCAACTCCTAAGGGGTCCTCTGGGATTAGTTA
W
GCAGATATTAAATCACCCGAAGACACTAACTTACAGAAGACACAACTCCTTCCCCAGTGATCACTGTCATAACCAGTGCTCTACCGTATCCCATCACTGA
Celera SNP ID:            hCV7540513
SNP Position Genomic:     36636
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    ;no_pop(A,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:3486):
AGATTTTTTTTGGTAAAACTGTGAAGAGCTAGGATATATACTTGGTGAAACAAACCAGTATGTTCCCTGTTCTCTTGAGCTTCGACTCTTCTGTGCGCTA
Y
TGCTGCGCACTGCTTTTTCTACAGGCATTACATCAACTCCTAAGGGGTCCTCTGGGATTAGTTATGCAGATATTAAATCACCCGAAGACACTAACTTACA
Celera SNP ID:            hCV7540514
SNP Position Genomic:     36571
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:3487):
GCACTGAATTTCTCTCATTTGTAGCTAGTTGCCCTTTCAATGTTCCAAAAAAAAAGGCTGTAAATAACTTATTTTATTTATTCAATTAATTTTTTTTTTT
W
AATTTTTTGAGATATAGTTTCCCTCTGGTCACCCAGGCTGGAGTGAAATGATGCAATCTCGGCTTACTGCAATTTCTGCCTCCCGGGTTCAAGCAATTCT
Celera SNP ID:            hCV27150257
SNP Position Genomic:     15741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3488):
AATCACTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCCGAGATGGTGCCACTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCATCTCAAAAAAAAAAA
M
CCCCCCCACACACAAAACCTGTTTTCTTGAATCATGGTTGTTTTGTTACTGATAGGTTCAATAAGTAAATATATTTATTGTCTGTTGTATTCTTTATTAG
Celera SNP ID:            hCV27150258
SNP Position Genomic:     16390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3489):
TATTAGGCATTATAAACACACCGCCACTTTTTAATTTTTATTTCATTAATGTTTCCAATTTTTTTTTTTTTTTTTTTTAAGACAGAGGCTCGCTCTGTCA
Y
CCAGGCTGGAGTGGAGTGGTGCAGTCTTACCCCACTGCAACCTCCACCTCCTGGGCTCAGCCTTGTAAATAGCTGGGACTACAGGCATGCACCACCATGC
Celera SNP ID:            hCV27150259
SNP Position Genomic:     16585
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:3490):
CTCTATATAAAAATTAAGTTGTAATGAGCTGTTACGAGTAACCTGTATCCACAATAGAGGCCCAAAGCAGCCCCCTCTGCATTTGTGTGCCGTCCCTGGA
Y
GGATTCGAGAGTCAACCAGGCCTGCCTCTGAGCCATTCCTGTGTATTTCCTCAGCACCTCCCTGCTTGGCTGCTTCCCCTTCAGGCAGAACACAGTACTG
Celera SNP ID:            hCV16094688
SNP Position Genomic:     31150
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3491):
TTTTGAGATCGTGATTATGGTGCTGAAGGACAAATTCCAGGTAGGTTTTGGAGAGGGACAGGTTGAGTCCTCATTAGTGAGCAGGAGTGCACAGGGGTGC
Y
TTTCACATTTGTGAGCCCAGCCTTATATTTCCTACACCTGAGATATAGTTTGTTTGGCTTTGTAGTTTTTCTCCATAAAAGGACCAGGAAGGCACCTAAA
Celera SNP ID:            hCV25981941
SNP Position Genomic:     27133
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,12)   caucasian(C,27|T,7)   total(C,31|T,19)
SNP Type:                 INTRON


Context             (SEQ ID NO:3492):
GCACAGATTTTTTTTGGTAAAACTGTGAAGAGCTAGGATATATACTTGGTGAAACAAACCAGTATGTTCCCTGTTCTCTTGAGCTTCGACTCTTCTGTGC
K
CTACTGCTGCGCACTGCTTTTTCTACAGGCATTACATCAACTCCTAAGGGGTCCTCTGGGATTAGTTATGCAGATATTAAATCACCCGAAGACACTAACT
Celera SNP ID:            hCV7540519
SNP Position Genomic:     36567
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3493):
CTTCAACCCCTGGGAGAATAACTGCAATTTAAAAATGCGCTGTTATTAATGGAGAAAGTGAGGTCTTACCGACTGGCACGTTCACACCTCACAGACAGAA
Y
AGAATCTTAGCATTCTGGGGGCACCCTGGAAAGGACAACTAAGACACGTTTGAAGTTCATGTAGTGCTGGGTGAAGGTGGTGGCTCAGGCCTGTAGTCCC
Celera SNP ID:            hCV16094689
SNP Position Genomic:     30117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3494):
CCTGGGCTGCTTTCTCACCTGTTCCCTCCTAGCCTGAGGCCGAGCGCCACCTCCAAGTGGAGGAATCTGGGGAAGTTTCCTTCCCGGAATTTGTAGTGAC
R
GTGGAGTGACCTCCATTGCGTTCCCTGCCTCTAACACGCTCTTTAGGATGCCGAGTCATTTGACTGCAGTGTTAAACATTGCAAAGCGCAAGTCATGTGA
Celera SNP ID:            hCV27494771
SNP Position Genomic:     12480
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:3495):
CTGCTGGTCCTTTACTGGTGGCTTTCCTTTCTGAGCACTCATGGGGCCCCTGTGTCTTCCCTCATATAGATTCCAGGTGGATCTGCAGAATGGCAGCAGC
R
TGAAACCTCGAGCCGATGTGGCCTTTCATTTCAATCCTCGTTTCAAAAGGGCCGGCTGCATTGTTTGCAATACTTTGATAAATGAAAAATGGGGACGGGA
Celera SNP ID:            hCV11405566
SNP Position Genomic:     26893
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,7)   caucasian(A,6|G,30)   total(A,13|G,37)
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:3496):
GTGGTGTTTGCGGGGAAACAGAGCTGGACAAAAGGCAAGTGCTTGCTGACTTCTAAGGCAGTTTCCAGTAGCCTTCCCTGAGCACTTCACTTCCATCTTA
Y
CAGCAGAGCTTTAGCTGCACAGGCAGGCCTAGCTGCGAGGGAGGCTGGGAAAGGTAGGTTTTTATTCTGGGCAGATTCAGACCCAGTTCAAACTCAGGGG
Celera SNP ID:            hCV16234743
SNP Position Genomic:     26580
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3497):
ACTGTTTCCCTACAGCCTAGTAATAGAGGAGGAGACATTTCTAAAATCGCACCCAGAACTGTCTACACCAAGAGCAAAGATTCGACTGTCAATCACACTT
W
GACTTGCACCAAAATACCACCTATGAACTATGTGTCAAAGGTTTGAAGAGCACCAAATTTTCTTAACTCTATATAAAAATTAAGTTGTAATGAGCTGTTA
Celera SNP ID:            hCV22273658
SNP Position Genomic:     30983
SNP Source:               Applera
Population(Allele,Count): african american(A,4|T,20)   caucasian(A,2|T,34)   total(A,6|T,54)   
SNP Type:                 INTRON;NONSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,7|T,29)   caucasian(A,2|T,36)   total(A,9|T,65)
SNP Type:                 INTRON;NONSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;NONSENSE MUTATION


Context             (SEQ ID NO:3498):
TCACTTCTGTGCTTTGGGTAGCTGGATGGGTGCATGTGGTGTTTGCGGGGAAACAGAGCTGGACAAAAGGCAAGTGCTTGCTGACTTCTAAGGCAGTTTC
Y
AGTAGCCTTCCCTGAGCACTTCACTTCCATCTTACCAGCAGAGCTTTAGCTGCACAGGCAGGCCTAGCTGCGAGGGAGGCTGGGAAAGGTAGGTTTTTAT
Celera SNP ID:            hCV16234744
SNP Position Genomic:     26545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3499):
AGATTTCCAGCCCTCACTTCTGTGCTTTGGGTAGCTGGATGGGTGCATGTGGTGTTTGCGGGGAAACAGAGCTGGACAAAAGGCAAGTGCTTGCTGACTT
Y
TAAGGCAGTTTCCAGTAGCCTTCCCTGAGCACTTCACTTCCATCTTACCAGCAGAGCTTTAGCTGCACAGGCAGGCCTAGCTGCGAGGGAGGCTGGGAAA
Celera SNP ID:            hCV16234745
SNP Position Genomic:     26532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3500):
CTTCCATGTTTATCCTTTTCTGCTTAGTATTCTAAGTACTCCTTTTTTACCTTACAATTTAGTCTTAAAACACAACACAGTCAAGTCTTTCTTTTGTAAC
Y
TGTGAGATACCTTCTAGCCTTTGTGCTGTTTTTCTTCTCTTTTTGCTGCCTGCCTTCCTGACTGAGAGTGGATTTCCTCACTAAGGCTCTGCCCTCTGAT
Celera SNP ID:            hCV7540597
SNP Position Genomic:     18322
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3501):
CAAATGCCAAAAGGTCAGTATCCTTCGGTACCAGTCACAGTGCAGATACTTCCGTGCCTGTTACCGCCTTCCACCCGTGAACGGTCCTGTGAGCTGGAAG
W
AGGGCTAGCGTCAGAATCTTCATTTCCAAAGTGAGATGATTCAAGCAGGAGGTGGTTAGATTGTGAACAGCCAGTGGGCAGCAGAGCCGACTAAGGCCGT
Celera SNP ID:            hCV22273510
SNP Position Genomic:     31719
SNP Source:               Applera
Population(Allele,Count): african american(A,18|T,8)   caucasian(A,8|T,28)   total(A,26|T,36)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:3502):
GAGGCGCACACAAGCACACGCACATATACTTATGACTGCCTGTTTGTCTGGGGAGAGACAGTTCCTGGTGCTTAATCAAATCAGGAACTCAAAAGAAGTT
Y
GGAAGCACTGCTAGTGTTTTGGGTGCTTTCGGTTACCATTTGGTCATGTGTGTGGAGACCTGTGGGAACAGGTATAAAACTGGACGCAAGGAAACATTTA
Celera SNP ID:            hCV1347690
SNP Position Genomic:     28370
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,11)      total(C,5|T,11) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3503):
GCACACGCACATATACTTATGACTGCCTGTTTGTCTGGGGAGAGACAGTTCCTGGTGCTTAATCAAATCAGGAACTCAAAAGAAGTTTGGAAGCACTGCT
R
GTGTTTTGGGTGCTTTCGGTTACCATTTGGTCATGTGTGTGGAGACCTGTGGGAACAGGTATAAAACTGGACGCAAGGAAACATTTAAATTTGGATAATA
Celera SNP ID:            hCV1347691
SNP Position Genomic:     28383
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,11)      total(G,5|A,11) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3504):
CTGGGGAGAGACAGTTCCTGGTGCTTAATCAAATCAGGAACTCAAAAGAAGTTTGGAAGCACTGCTAGTGTTTTGGGTGCTTTCGGTTACCATTTGGTCA
Y
GTGTGTGGAGACCTGTGGGAACAGGTATAAAACTGGACGCAAGGAAACATTTAAATTTGGATAATAAGTTAATTTATTAACTGTTTTTTTTTGGTGGCGG
Celera SNP ID:            hCV1347692
SNP Position Genomic:     28417
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,12)      total(C,5|T,12) ;JBIC-allele(T,627|C,873)   total(C,873|T,627)   (C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3505):
GTGCCTGTTACCGCCTTCCACCCGTGAACGGTCCTGTGAGCTGGAAGAAGGGCTAGCGTCAGAATCTTCATTTCCAAAGTGAGATGATTCAAGCAGGAGG
W
GGTTAGATTGTGAACAGCCAGTGGGCAGCAGAGCCGACTAAGGCCGTGTTCTGACCTCGGCTTTTTCTGGCCAGACAAGAGAGTAGCATTTTTGTCCACG
Celera SNP ID:            hCV25601147
SNP Position Genomic:     31772
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,27)   caucasian(A,1|T,19)   total(A,4|T,46)
SNP Type:                 INTRON


Context             (SEQ ID NO:3506):
TTGCATAGAAAATGAACAGTTTAAACCGTGGAGGGCAGCTTCATTCATTCCATTCCTTACTGTAGAACTGTTTCCCTACAGCCTAGTAATAGAGGAGGAG
R
CATTTCTAAAATCGCACCCAGAACTGTCTACACCAAGAGCAAAGATTCGACTGTCAATCACACTTTGACTTGCACCAAAATACCACCTATGAACTATGTG
Celera SNP ID:            hCV25601148
SNP Position Genomic:     30917
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,38)   total(A,71|G,3)
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,36)   total(A,68|G,2)   
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:3507):
TCAGGAACTCAAAAGAAGTTTGGAAGCACTGCTAGTGTTTTGGGTGCTTTCGGTTACCATTTGGTCATGTGTGTGGAGACCTGTGGGAACAGGTATAAAA
Y
TGGACGCAAGGAAACATTTAAATTTGGATAATAAGTTAATTTATTAACTGTTTTTTTTTGGTGGCGGGGGGGGCTCTGTCTTCTGTATCTCTCTAGGTGG
Celera SNP ID:            hCV1347693
SNP Position Genomic:     28450
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,2)   caucasian(C,2|T,20)   total(C,4|T,22)
SNP Type:                 INTRON;TFBS

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;TFBS


Context             (SEQ ID NO:3508):
CATGGCTCTGAAACATTCCGTAGTGTTCTTTGGACACGAGTTTTCCCTGGAGATCGCTTTCTGCAGGCCTCTTGGTCCTGACTGTGGCTTCTTTTCAGAG
S
CTGCCATTCGCTGCAAGGTTGAACACCCCCATGGGCCCTGGACGAACTGTCGTCGTTAAAGGAGAAGTGAATGCAAATGCCAAAAGGTCAGTATCCTTCG
Celera SNP ID:            hCV22273515
SNP Position Genomic:     31545
SNP Source:               Applera
Population(Allele,Count): african american(C,20|G,14)   caucasian(C,33|G,7)   total(C,53|G,21)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   JBIC-allele(G,581|C,914)   total(G,581|C,914)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:3509):
GATTCTGAGATTTATGTGCAGCCTTAAAAAGTGTAGTTTTTCTCTATCAATAATGAGTGTGGGTTGTAATTGCTTAGTAAGTAATTTTGTTTATGTAAAC
R
TACATTTGTTAAATTTTTTTTCTTAGGTAATCCCGTATGTTGGCACCATTCCTGATCAGCTGGATCCTGGAACTTTGATTGTGATACGTGGGCATGTTCC
Celera SNP ID:            hCV25601149
SNP Position Genomic:     25453
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:3510):
TCCAAACCAGTGGCTTTTCCTTTTAAAAAAATTTAAAGATAATATGTGCAAATCATTTTTTTAAAATTCAAACAGTATTTAAGAGTTTCAGTGAAACATG
M
ATTTTCCTTCTACCCTGGTACTTAGTTTTACTCCCCAAGGGCAATCACTTTTTACTGGTTTTTAAAAATATATCCTTCCTGAGATACTTATGAATATCCA
Celera SNP ID:            hCV27150260
SNP Position Genomic:     18860
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,16)   total(A,1|C,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3511):
AGACAGGGGTTCACCATGTTGGCCAGGCTGGTCTGGAACTCCTGACCTCAAGTGATCCGCCCACTTCGCCCTCCCAGTGCTGGGATTACAGGTGTGAGTC
R
CCACGCCCAGCCCAGGCAACATTTTTTAGGGCCCCTCTTGTCATGTGATTTAGAAAATTTCTGCTTTAACAACTTTTTCCACAGACGTCCAGCCTTCTGA
Celera SNP ID:            hCV1347698
SNP Position Genomic:     32221
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;TFBS


Context             (SEQ ID NO:3512):
ACTACAGGCGCCCGCCACCCACGCCTGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCT
Y
GTGATCCACCCATCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCCCATTTTATTACCTTTATTTGCTTGGATCCTTCTTA
Celera SNP ID:            hCV27150261
SNP Position Genomic:     19553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3513):
GAATACCTGCTTGAGAGGATCCCAGGCTCCTGCAGCCTGAAGTAGTCATTCAGTTTAGCGTTAAACCTTCCATTTCTGTCCAACCACATCTCAGCCTCAA
Y
GCTGATTTTAAAGGGTTTTTTTTTTCGTATTTTTATTTTGCAAGTAACGAATTAGTGGAATGCTGACTGGGTTTAAAATTTCAACTTCACCTGCATTCCC
Celera SNP ID:            hCV1347699
SNP Position Genomic:     32499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,13)      total(C,13|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3514):
CATGACTGTCTTTGCATTGAAAATTTTGATAGATACTAACTCGCCCTTCACAAGGGTAAAAACAGTTTGCACTCTCAACAGCCATGCTCCCACCTTCTTG
Y
TGACATTACATCTTATTCTCTGTAATGTTTGCCAATCTGATGGGGGGCGGAAAGGACCACAGTGTCAAGTGTATTTTTGGATCATAGTTTTCAAGCATAT
Celera SNP ID:            hCV16094690
SNP Position Genomic:     29437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3515):
TTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCCATCTCAGCCTCCCAAAGTGCTGGGATTACAGG
Y
GTGAGCCACCGCGCCCGGCCCCATTTTATTACCTTTATTTGCTTGGATCCTTCTTAGCTTCTTCAATGTTAAAGATATTGACAGTTTTCCTCTTACTGAA
Celera SNP ID:            hCV27150262
SNP Position Genomic:     19597
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:3516):
CCTTGCTGAAACGCATCTCACTGTCATTCTATTGTTTATATTGTTAAAATGAGCTTGTGCACCATTAGGTCCTGCTGGGTGTTCTCAGTCCTTGCCATGA
M
GTATGGTGGTGTCTAGCACTGAATGGGGAAACTGGGGGCAGCAACACTTATAGCCAGTTAAAGCCACTCTGCCCTCTCTCCTACTTTGGCTGACTCTTCA
Celera SNP ID:            hCV7540520
SNP Position Genomic:     36303
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:3517):
AGGATGGTCTCGATCTCCTGACCTCGTGATCCACCCATCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCCCATTTTATTA
Y
CTTTATTTGCTTGGATCCTTCTTAGCTTCTTCAATGTTAAAGATATTGACAGTTTTCCTCTTACTGAAATTTATAAATCCATTGACTCCCTTGATATTAT
Celera SNP ID:            hCV27150263
SNP Position Genomic:     19629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3518):
TTTGCAATACTTTGATAAATGAAAAATGGGGACGGGAAGAGATCACCTATGACACGCCTTTCAAAAGAGAAAAGTCTTTTGAGATCGTGATTATGGTGCT
R
AAGGACAAATTCCAGGTAGGTTTTGGAGAGGGACAGGTTGAGTCCTCATTAGTGAGCAGGAGTGCACAGGGGTGCTTTTCACATTTGTGAGCCCAGCCTT
Celera SNP ID:            hCV16094691
SNP Position Genomic:     27057
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:3519):
ACCAAAATACAGAATGGCTTCTGTGATACTGGCCTTGCTGAAACGCATCTCACTGTCATTCTATTGTTTATATTGTTAAAATGAGCTTGTGCACCATTAG
R
TCCTGCTGGGTGTTCTCAGTCCTTGCCATGAAGTATGGTGGTGTCTAGCACTGAATGGGGAAACTGGGGGCAGCAACACTTATAGCCAGTTAAAGCCACT
Celera SNP ID:            hCV7540521
SNP Position Genomic:     36271
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;(A,-|G,-)   JBIC-allele(A,678|G,803)   total(G,803|A,678)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:3520):
TCTCAGATGCTCTGCCAACGCTTCACACCAAGTATTACAAACTAAACTCGTCATCTTCCTCCTGAAACCTGTCTCCCAGGCCAGGCGCGGTGGCTCACAC
Y
TGTAATCCCAGTACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACTTGGTAAAACCCCATCTCTACGAAA
Celera SNP ID:            hCV27150264
SNP Position Genomic:     20575
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3521):
TATCTTCTTCATAAACTGTCTTTGGCTACCTCAGTTAGAATTCCTTATCCCATTTTCCTGAAGCATTTCTTTGACTCTTCTTTACTGCTCCCCCACCCTT
T
TTTTTTTTTCTTTGAGACTGAATTTTGCTTGTTGCCCAGGCTGGAGTGCAATTGCCCGATCTCGGCTCATTGCAACCTCCGCCTCCTGGGTTCAAGTGAT
Celera SNP ID:            hCV27150265
SNP Position Genomic:     21328
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,8)   total(-,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3522):
GGTATTTAAGAGCATCTAATAGGCACAGAATTGTGCTCCATACTGCTTAAACTGTTCCCTAAGTGTCCAATTTGGAGAAAACACCCACACGCAGGATAAC
Y
GGCGAGTGACGCGGAGTGGCTGCGAGTCCAAGTTATCACTAACGGATGGGGAGCTTGGGCTGGGCACAGTCCAGCGTACTGAACCCTTCCCCCACCGTTT
Celera SNP ID:            hCV16094693
SNP Position Genomic:     11273
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3523):
TTTCCTGAAGCATTTCTTTGACTCTTCTTTACTGCTCCCCCACCCTTTTTTTTTTTTCTTTGAGACTGAATTTTGCTTGTTGCCCAGGCTGGAGTGCAAT
K
GCCCGATCTCGGCTCATTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGTCATGTGCCACCATGC
Celera SNP ID:            hCV27150266
SNP Position Genomic:     21381
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:3524):
CCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGTCATGTGCCACCATGCCCGGCTAATTTTGTATTTTTAGTAGAGA
Y
GGGGTTTCTCCACGTTGGTCAGGCTGGTCTTCAACTCCCAACCTCAAGTGATCTGCCCACCTTCGCCTCCCAAAATGCTGGGATTACAGGTGTTAGCCAC
Celera SNP ID:            hCV27150267
SNP Position Genomic:     21510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3525):
GTGAGGTTACAGTTTTTGAAAATGGGACAGCAATAAGAATCCTGGGAGCAGGGGTGGGATAAGTGGTCCATTTAAATCAAGTCCTAACTCAGTATGTGGA
R
GTTGTGTATGTTTTTTGTTTACTTGGAGATTGTAATTTGCCCCTTTTTATAACGTGGGCAATCAGTATAAATGGCAAAGCCAGTAGAGTGTCAAATTATG
Celera SNP ID:            hCV11682525
SNP Position Genomic:     32999
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,13)      total(G,4|A,13) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3526):
TCTCCACGTTGGTCAGGCTGGTCTTCAACTCCCAACCTCAAGTGATCTGCCCACCTTCGCCTCCCAAAATGCTGGGATTACAGGTGTTAGCCACTGCGCC
Y
GACCCCCATTTTTTTTTTTTAAAGATGTTGAATTGGTCAGGGTTTGTAGTTACAAGCAACAGAAGCCAACTCTTTAAGCAGAAAAGGAATTTGCTAAATG
Celera SNP ID:            hCV27150268
SNP Position Genomic:     21617
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3527):
CATTTGTAAGAAATTCTTTTCTTCAGGAGTCCTGGGGAGAAGAAGAGAGAAATATTACCTCTTTCCCATTTAGTCCTGGGATGTACTTTGAGGTGAGGTT
M
CAGTTTTTGAAAATGGGACAGCAATAAGAATCCTGGGAGCAGGGGTGGGATAAGTGGTCCATTTAAATCAAGTCCTAACTCAGTATGTGGAAGTTGTGTA
Celera SNP ID:            hCV11682526
SNP Position Genomic:     32907
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,7)   caucasian(A,2|C,24)   total(A,9|C,31)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|A,14)      total(A,14|C,6) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3528):
AAAGGTCAGTATCCTTCGGTACCAGTCACAGTGCAGATACTTCCGTGCCTGTTACCGCCTTCCACCCGTGAACGGTCCTGTGAGCTGGAAGAAGGGCTAG
Y
GTCAGAATCTTCATTTCCAAAGTGAGATGATTCAAGCAGGAGGTGGTTAGATTGTGAACAGCCAGTGGGCAGCAGAGCCGACTAAGGCCGTGTTCTGACC
Celera SNP ID:            hCV11682527
SNP Position Genomic:     31728
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,9)   caucasian(C,9|T,29)   total(C,36|T,38)
SNP Type:                 INTRON;TFBS

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;TFBS


Context             (SEQ ID NO:3529):
AACTGTCGTCGTTAAAGGAGAAGTGAATGCAAATGCCAAAAGGTCAGTATCCTTCGGTACCAGTCACAGTGCAGATACTTCCGTGCCTGTTACCGCCTTC
Y
ACCCGTGAACGGTCCTGTGAGCTGGAAGAAGGGCTAGCGTCAGAATCTTCATTTCCAAAGTGAGATGATTCAAGCAGGAGGTGGTTAGATTGTGAACAGC
Celera SNP ID:            hCV11682528
SNP Position Genomic:     31690
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,8)   caucasian(C,11|T,29)   total(C,39|T,37)
SNP Type:                 INTRON

SNP Source:               Celera;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:3530):
AACTGACACATTGTCTGGACCATGTGGGTTCTTGAGGACTCATCAAAACTCGTTACTAAAAGCATGAATATCAGGCGGAATAGATAGCAATGTGACATTC
R
TATTTATCCCTAAGTTCCAGTCTAATGCAGTGCCCTGGTATGTGGAGTGTAGACAGATGTGGGCTAATCATGGAAGGTTCCCTGAAGTTGTGGATATTGG
Celera SNP ID:            hCV16117111
SNP Position Genomic:     33674
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3531):
CAAACAAACAGAATCCAAAGTGCTATCATGAACCCTCTGAGAGGGGCTGACTCAGCAGCCCAGGGAGCTTGAAGAAGGCTCCACAGAGGAGGCTGTGCCT
S
AAGGCGATTTCGGTTTAGGAGCCACCAATTTATAACCACTTTTCTGTGGCCCGTCTTATTTTATTTCTTATTTCTTGACAATCAGAAGTACCTTGGGTAG
Celera SNP ID:            hCV11405578
SNP Position Genomic:     24119
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:3532):
CCATCATCCCCCATGAAAACTATTGTTATCATTTTTGTCTGATTTCTTTAGTGTTTCTCTTTTTCTTTTTTTAATTTTTAATTTTTTTGAGTATGTAGTA
K
GTATATCTATTTATGGGGTATATGGCATATTTTGATACAGGATACAGTGTGTATTAGCAAGGTTTTCTTTTTAATGTTTATATTTATTTAGTTGAGATCA
Celera SNP ID:            hCV11405579
SNP Position Genomic:     23322
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:3533):
GTGTAGTGTCCATGAGTGCTTTTATCTTAAAAAATGTGGCTGATGCTTTCCAACACTCCCCTGCCCTGTGATTATTATTTTTTTAAGCAACAGAGAAAAC
Y
GTATCTTAATAGTATTAAAAGTATTGGATTTTTCCCTACTTTGATTTGTTTAAATTGGAGGAGGAAGAGCAATTCTTTCTATTCACAATAATAATAGCTA
Celera SNP ID:            hCV15823995
SNP Position Genomic:     13143
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3534):
TTTGGTCCCAGAAGCTTACACCTGCTGGCCCTCTGGCCTGTGGAGCTTGCCCACAGTAGAGGTATGTACCAACGCGAGAGAAGACTCGAATGCCTCTGGC
R
CAGATCCTTTCTGATCTTCGGGATACTGCTCCTGCCCGAAAGTCTTTCTGAATCTCCCAAACTCCATTCACCTCTCCCTTCTCTGGCCTTTTGAGCCCGT
Celera SNP ID:            hCV16242128
SNP Position Genomic:     27693
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3535):
CCACTGCTGTCTCTGACCCCAGATGTAGCTCCCTCTGACCCTGGATGCAGCTCCCTCTGACCCTCGATATAGCTGCCCCTGACCCCGGATGTAGCTGCCT
Y
TGACCCCAGATGTAGCTTTCTCCAAACCCAGATATAGCGGCTGCCCCCTTGCCAGAGTGAATACTGCGTCATTGTGGCTTCTTCTTGTCACTGGTTCTTA
Celera SNP ID:            hCV16190852
SNP Position Genomic:     21978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3536):
GCCACTGCTGTCTCTGACCCCAGATGTAGCTCCCTCTGACCCTGGATGCAGCTCCCTCTGACCCTCGATATAGCTGCCCCTGACCCCGGATGTAGCTGCC
Y
TTGACCCCAGATGTAGCTTTCTCCAAACCCAGATATAGCGGCTGCCCCCTTGCCAGAGTGAATACTGCGTCATTGTGGCTTCTTCTTGTCACTGGTTCTT
Celera SNP ID:            hCV16190853
SNP Position Genomic:     21977
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3537):
TTTTCCTCTATTTTTACTTTACACAGGGCCAGTGCCTCAGTTTCAATCCAGGTAACCTTTAAATGAAACTTGCCTAAAATCTTAGGTCATACACAGAAGA
K
ACTCCAATCGACAAGAAGCTGGAAAAGAATGATGTTGTCCTTAAACAACCTACAGAATATCATCTATAACCCGGTAACTGATTTCTATAAGATAACTTTT
Celera SNP ID:            hCV25601159
SNP Position Genomic:     14039
SNP Source:               Applera
Population(Allele,Count): african american(G,37|T,1)   caucasian(G,40)   total(G,77|T,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:3538):
ATTACCTCCCAAAGCAACCCCAGTACTTTGGGAGGATCACTTTGAGCCCAGGAGTTCCAGACCAGCCCGGCCAACATGGCAAAACCCCATCTCTCTAAAA
S
TACAAAAAATTAGCTGGGCATGGTGGCACATGCCTGTAGTCCCAGCTACTTGGATGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCA
Celera SNP ID:            hCV27150270
SNP Position Genomic:     22888
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3539):
TTGATACAGGATACAGTGTGTATTAGCAAGGTTTTCTTTTTAATGTTTATATTTATTTAGTTGAGATCATACTATATATGGCTCTATAGATTACTTTCTC
A
CTTATATTACTAACTTGTGTTATTAAATATTCTGCATAAAGATAATTTTAAGATGAAATTTGATGTTATAAAAACTTCTCATTTTATTAAGAGATTAACG
Celera SNP ID:            hCV27150271
SNP Position Genomic:     23454
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3540):
AATGGTTTACTCTGACACCGTTAGCATGTAACAAACACAAAATTTTAAACTAAGGGGAACCACTAATGGCATGTATCCTTTCCTTTCAGATGATAATTTA
Y
TGTGATGTTAGAGAATTCAAGGTTGCAGTAAATGGCGTACACAGCCTGGAGTACAAACACAGATTTAAAGAGCTCAGCAGTATTGACACGCTGGAAATTA
Celera SNP ID:            hCV7540530
SNP Position Genomic:     36008
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,17)   caucasian(C,27|T,7)   total(C,38|T,24)
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:3541):
GTGTGTATTAGCAAGGTTTTCTTTTTAATGTTTATATTTATTTAGTTGAGATCATACTATATATGGCTCTATAGATTACTTTCTCACTTATATTACTAAC
W
TGTGTTATTAAATATTCTGCATAAAGATAATTTTAAGATGAAATTTGATGTTATAAAAACTTCTCATTTTATTAAGAGATTAACGCTATGAAACCTGCTG
Celera SNP ID:            hCV27150272
SNP Position Genomic:     23469
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:3542):
AGTGAAAGGGATGGCTGGCTGAAGGAATGAATAGATGAATGTTATATGCTTTTGAACAATCGTCTTTTCCATTTAATTTTCTAATTCAGGAGCAGTAATT
R
TCCTTGTGTTGATCACTGCTGACGATTTTCTATACTGATAGGTCCTTTCCGGGGGCTTCCATCTCTTGCCTTTTAAATATGCTTGCATTGAGATTATCTC
Celera SNP ID:            hCV16188360
SNP Position Genomic:     34284
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3543):
GCAGCCACATAGCACAGGTCCCCAGCCAGTGGACTGGGAAGACAGTGTAGTCATCTCTGGGGAAGGGGAATGACAAGATCTGGCAGTGTGGCAGGTCCCA
S
AAAAAAAGGGCTGGGTTCTGGGCAGTGAGGGTGCAGGTTGAGACCTGAATACTGGGTGGAGCCAGCTGTCAGAGTCCACGCCTGCAGACTGGACTGGTCC
Celera SNP ID:            hCV27150273
SNP Position Genomic:     24435
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3544):
AGTGGGTGGAAACCCAGCCTGGCACTGGCAGCGTGGCACCAGAAGTATGAAGTGTAGGTGTAAAGGTGATGTAAAAGGCTAGTAGGTTTTTTGGTTTTTC
R
TTGTTTGAGTTTTGGGCATAGATGACTGTGAAGGGCGAACACTGCCGATGGATCAATGAATTTGTAGTATGTGCACCACTTCCAACTTACGGGATACCCA
Celera SNP ID:            hCV7540531
SNP Position Genomic:     35280
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3545):
CCAAATACAAAATACTATGAATAGTATTTACCTTGTGTCTCTTTCCAAAGAACTCATAGTGGTTTGCAGCTATTGCAGATATCCTGGCCATGAGGTATGC
R
GTTCCTTTTTTTTTTTTTGAGACGGAGCCTTGCTCTGTCGCCCAGGCTGGAGCATAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCG
Celera SNP ID:            hCV27150274
SNP Position Genomic:     25002
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3546):
CCTCCCCTTCCTGATTTTCCTTGACAGTCCTTTCCACTGCTCCTATCAAAAGAATGGAAACCCTCAACTTGCTGCTTTGCAGATTCAGGTTTTGTGCTTC
W
TTCTGGCCTCTCGGGGTGGGGCCGGGTTAGCAGCAAGGCTGAGCTGCCCCTCTTTCTTCTGAAGCCTTCATGGGGGCGAGGAGCACAGGGAGAGCTCAGT
Celera SNP ID:            hCV7540532
SNP Position Genomic:     35053
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,7|A,12)      total(A,12|T,7) ;no_pop(A,-|T,-)   ;(A,-|T,-)   (A,-|T,-)   Caucasian(A,37|T,47)   African-American(T,24|A,58)   Asians(T,39|A,41)   total(A,136|T,110)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3547):
CTCTTTCGCTGTTTTATTAACTCAATCCTCAGAACAAACCAATGATGTGAATACTGTAATTCTCATTTTATGGAAATGAAAATCTAAATGAATACCTCTG
R
TAATTGTACGGGACTGTTTGATTAGTATTTACCATTAATTAATTAAATTTTTTTTTTTTTTGAGATGGAGTCTCGTTCTGTTGCCCAGGCTGGAGTGCAG
Celera SNP ID:            hCV7540606
SNP Position Genomic:     13356
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,13)      total(G,13|A,3) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3548):
GATGGTCTCGATCTCCTGACCTCGTGATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCGCAGTTCCTTTTT
M
TAGCTGTTTGAATAGGAAAGATGACTTGGAAAATGCTGGATTCTGAGATTTATGTGCAGCCTTAAAAAGTGTAGTTTTTCTCTATCAATAATGAGTGTGG
Celera SNP ID:            hCV27150275
SNP Position Genomic:     25314
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3549):
AGCTAACATAGCGCTTACTCTTTCGCTGTTTTATTAACTCAATCCTCAGAACAAACCAATGATGTGAATACTGTAATTCTCATTTTATGGAAATGAAAAT
Y
TAAATGAATACCTCTGGTAATTGTACGGGACTGTTTGATTAGTATTTACCATTAATTAATTAAATTTTTTTTTTTTTTGAGATGGAGTCTCGTTCTGTTG
Celera SNP ID:            hCV7540607
SNP Position Genomic:     13339
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:3550):
ATTTCATTGCTGTAAGTCTGATTTCAGTATAAAAAATTAGAACTATCAGCTGGATGTGGTGACTTAAACATACTTTTCCAGCACTTTGGGAGGCCAAGGC
R
GGAGGATTGTTTGAGGCCAGGAGTTTGAGACCAGCCTGGGCAACATAGTGAGACCCCCCATCTGTAAAAAAAAAAAAAATTTAAAAATTAACTGGCTTGG
Celera SNP ID:            hCV27150276
SNP Position Genomic:     25852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3551):
GTATAAAAAATTAGAACTATCAGCTGGATGTGGTGACTTAAACATACTTTTCCAGCACTTTGGGAGGCCAAGGCAGGAGGATTGTTTGAGGCCAGGAGTT
Y
GAGACCAGCCTGGGCAACATAGTGAGACCCCCCATCTGTAAAAAAAAAAAAAATTTAAAAATTAACTGGCTTGGTGGTGTGCGCCTGTAGTTGTAGCTAC
Celera SNP ID:            hCV27150277
SNP Position Genomic:     25878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3552):
AACTGGCTTGGTGGTGTGCGCCTGTAGTTGTAGCTACTCAGGGGGCTGAGGTAGGAGGATTCCTTGAGCCCAGGAGTTTGAGGTTGCAGTGAGCTGTGAT
S
GAGCCACTGCACTATAGCCTGGGTGACAAAAAAAAAAAAGAAAAAGAAAAAGAATTAGGTATGTCATTAAAGAAAGGAATTGTGGTCAGATGACAGGGAC
Celera SNP ID:            hCV27150278
SNP Position Genomic:     26042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3553):
TGAAACATATAATTAAAAATATTTTTCTGGCTATAGAAATATCGATGCTTATTATAGACATCTGCAAAGTATGAAAATATATGAAGAAAAAAATTAAAAT
S
CCATCATCCCCCATGAAAACTATTGTTATCATTTTTGTCTGATTTCTTTAGTGTTTCTCTTTTTCTTTTTTTAATTTTTAATTTTTTTGAGTATGTAGTA
Celera SNP ID:            hCV11405584
SNP Position Genomic:     23221
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:3554):
ATGTGTGTGGAGACCTGTGGGAACAGGTATAAAACTGGACGCAAGGAAACATTTAAATTTGGATAATAAGTTAATTTATTAACTGTTTTTTTTTGGTGGC
G
GGGGGGGCTCTGTCTTCTGTATCTCTCTAGGTGGCTGTAAATGGAAAACATACTCTGCTCTATGGCCACAGGATCGGCCCAGAGAAAATAGACACTCTGG
Celera SNP ID:            hCV27150279
SNP Position Genomic:     28516
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,12)   total(G,12|-,5) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3555):
CCTGCTGGTCCTTTACTGGTGGCTTTCCTTTCTGAGCACTCATGGGGCCCCTGTGTCTTCCCTCATATAGATTCCAGGTGGATCTGCAGAATGGCAGCAG
Y
ATGAAACCTCGAGCCGATGTGGCCTTTCATTTCAATCCTCGTTTCAAAAGGGCCGGCTGCATTGTTTGCAATACTTTGATAAATGAAAAATGGGGACGGG
Celera SNP ID:            hCV7540539
SNP Position Genomic:     26892
SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,2)   caucasian(C,9|T,27)   total(C,21|T,29)
SNP Type:                 MISSENSE MUTATION;hmCS

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


Context             (SEQ ID NO:3556):
AAAAAAAAAAAAAAAGTGATGGGAATAGATTGTTTTGTCTCAAAAAGCTCTTTCCAACACTAAAATGAAACATATAATTAAAAATATTTTTCTGGCTATA
R
AAATATCGATGCTTATTATAGACATCTGCAAAGTATGAAAATATATGAAGAAAAAAATTAAAATCCCATCATCCCCCATGAAAACTATTGTTATCATTTT
Celera SNP ID:            hCV11405585
SNP Position Genomic:     23156
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:3557):
AAAGCTGGGAAGGATGTGGAAGGCTGAAGGTTGGCTTTTCTAGATTTAGGGCATGATTTGAACAAGTCCTTAGAGGTGGGAAGGGCAGCACAGGGTTGTT
R
GCTTGGCAAGAGTCAAGGCGCAAAGGGTGACTTGGGGTTCACTGGAGGGAAACAGAGGTGAGTGCTCTAGAAGGAAGTTGAGCCTTGTGGTGGGTGACAG
Celera SNP ID:            hCV1347703
SNP Position Genomic:     33887
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:3558):
AAGGCTGAAGGTTGGCTTTTCTAGATTTAGGGCATGATTTGAACAAGTCCTTAGAGGTGGGAAGGGCAGCACAGGGTTGTTAGCTTGGCAAGAGTCAAGG
Y
GCAAAGGGTGACTTGGGGTTCACTGGAGGGAAACAGAGGTGAGTGCTCTAGAAGGAAGTTGAGCCTTGTGGTGGGTGACAGGAAACCAATGATGTAACTT
Celera SNP ID:            hCV1347704
SNP Position Genomic:     33906
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:3559):
TGAACAAGTCCTTAGAGGTGGGAAGGGCAGCACAGGGTTGTTAGCTTGGCAAGAGTCAAGGCGCAAAGGGTGACTTGGGGTTCACTGGAGGGAAACAGAG
R
TGAGTGCTCTAGAAGGAAGTTGAGCCTTGTGGTGGGTGACAGGAAACCAATGATGTAACTTGTTTTTGACCTATCTGGGCCCCAAGTTTGGATCTGCTAT
Celera SNP ID:            hCV1347705
SNP Position Genomic:     33945
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:3560):
GGGCCCCAAGTTTGGATCTGCTATATTAATATAAAAAAGGATAATAATGATACATTCAAATAATGCTGAAAAATACTAAGATGAAAATACCTCCAACTTC
R
TAATTCAAACCATACCATTAGGATTAGGTGAACCACATTCCAGGCATTTTTTTGCAGAGACAGTGAAAGGGATGGCTGGCTGAAGGAATGAATAGATGAA
Celera SNP ID:            hCV1347706
SNP Position Genomic:     34122
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:3561):
ATGATACATTCAAATAATGCTGAAAAATACTAAGATGAAAATACCTCCAACTTCATAATTCAAACCATACCATTAGGATTAGGTGAACCACATTCCAGGC
R
TTTTTTTGCAGAGACAGTGAAAGGGATGGCTGGCTGAAGGAATGAATAGATGAATGTTATATGCTTTTGAACAATCGTCTTTTCCATTTAATTTTCTAAT
Celera SNP ID:            hCV1347707
SNP Position Genomic:     34168
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,12)      total(G,3|A,12) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3562):
AAAATACTAAGATGAAAATACCTCCAACTTCATAATTCAAACCATACCATTAGGATTAGGTGAACCACATTCCAGGCATTTTTTTGCAGAGACAGTGAAA
R
GGATGGCTGGCTGAAGGAATGAATAGATGAATGTTATATGCTTTTGAACAATCGTCTTTTCCATTTAATTTTCTAATTCAGGAGCAGTAATTATCCTTGT
Celera SNP ID:            hCV1347708
SNP Position Genomic:     34191
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:3563):
TTGTTCTGTTTTCTTCTAGGCAAAGGATGTGCCTTCTTTTCATTTGCAGTAGTCTGCTCACCCGGAAGCATGTCATTTCTTTGCCACTTGCTTGTAATTC
R
CTGGCTTTGCACTTGCTCTGATACAGTACAGGTAACTAATTGACTCCCTCTGCTGCCAACTTGGTTTTCCTTCTGAGCTATAGCATCAGGCTGTGTGTTT
Celera SNP ID:            hCV1347709
SNP Position Genomic:     34671
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,14)      total(G,1|A,14) ;(A,-|G,-)   JBIC-allele(G,492|A,969)   total(G,492|A,969)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3564):
GACGGTTCCCATGAAGAGGCATCTGTTGTCACCACTGGACACAGATGGTACTGTGTCTCTGCTACTCTACCAATGCCACTGCTGTCTCTGACCCCAGATG
Y
AGCTCCCTCTGACCCTGGATGCAGCTCCCTCTGACCCTCGATATAGCTGCCCCTGACCCCGGATGTAGCTGCCTTTGACCCCAGATGTAGCTTTCTCCAA
Celera SNP ID:            hCV16094702
SNP Position Genomic:     21903
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3565):
GACTCTTCAAGAATGCCATTCAACAAGTATTTATGGAGTACCTACTATAATACAGTAGCTAACATGTATTGAGCACAGATTTTTTTTGGTAAAACTGTGA
R
GAGCTAGGATATATACTTGGTGAAACAAACCAGTATGTTCCCTGTTCTCTTGAGCTTCGACTCTTCTGTGCGCTACTGCTGCGCACTGCTTTTTCTACAG
Celera SNP ID:            hCV16289820
SNP Position Genomic:     36495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3566):
GGGACAGTGCTGCTGCAGGGGACCCAGCTGGGACCAAGGCAGACTGTCTCTCCCCTCCTGGGATTTACAGGGTCATGGCTCTGAAACATTCCGTAGTGTT
S
TTTGGACACGAGTTTTCCCTGGAGATCGCTTTCTGCAGGCCTCTTGGTCCTGACTGTGGCTTCTTTTCAGAGGCTGCCATTCGCTGCAAGGTTGAACACC
Celera SNP ID:            hCV16289821
SNP Position Genomic:     31472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:3567):
TTAATAAAACACACACAGTTTTTAGCTGGGTAGCAGCTATTTCCTTTGCATGGGCATAAAATGGAGTATTTCTGTAAGACAGGTTCCTAGGCTGGGAGTG
Y
CTGAGTCAAAGAGCACAGTCATGTGTTGCATAAGGACAGTTCAGTCAAAGATGAACCACATATACAACCGTGGTCCCATAAGATTGTCATATACTGTATT
Celera SNP ID:            hCV16289822
SNP Position Genomic:     28979
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3568):
ATCCAAAATTATTTAGTATATGAGCACACTGGTAAGAATGGGAGGCAGATCGTTGATTGTAATAATATTCTATTATTTGGTAAATATCAGTAACATAATA
Y
ATAATTTAAATTTTAAAATAGGATATGAAGAAAAATGCTACATGCTTACTTTTCTTTTCCTCTATTTTTACTTTACACAGGGCCAGTGCCTCAGTTTCAA
Celera SNP ID:            hCV25601160
SNP Position Genomic:     13884
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:3569):
GCCCTTTCACTCAGCCCCGTTTGCACCTAAATATGACTTACAAAAGAAACACAGCATTTATGTGTACTTATTTCAACTTATTTTAGCTTTGTAAAGAAGT
R
CAAGGTTGACTCAGGGCCCAGCTTGGTGTCTCATGCCTGTAATTTCAGCATTGTGGGAGGCCAAGGCAGGAAGATATTGTGAGCCCAGGAGTTTGAGACC
Celera SNP ID:            hCV29366283
SNP Position Genomic:     10305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3570):
GAGTAGCTGGGACTACAGGCGCCCACCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCT
S
CTGACCTCGTGATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCGCAGTTCCTTTTTATAGCTGTTTGAATA
Celera SNP ID:            hCV29366284
SNP Position Genomic:     25228
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3571):
CGCCCACCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCTCC
R
GCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCGCAGTTCCTTTTTATAGCTGTTTGAATAGGAAAGATGACTTGGAAAA
Celera SNP ID:            hCV29366285
SNP Position Genomic:     25247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3572):
GGCTGGAACTTTTCTATGTATAATCAAATGGTTTACTCTGACACCGTTAGCATGTAACAAACACAAAATTTTAAACTAAGGGGAACCACTAATGGCATGT
W
TCCTTTCCTTTCAGATGATAATTTATTGTGATGTTAGAGAATTCAAGGTTGCAGTAAATGGCGTACACAGCCTGGAGTACAAACACAGATTTAAAGAGCT
Celera SNP ID:            hCV15876385
SNP Position Genomic:     35982
SNP Source:               Applera
Population(Allele,Count): african american(A,14|T,8)   caucasian(A,7|T,25)   total(A,21|T,33)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,681|A,810)   total(A,810|T,681)   (A,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:3573):
GTTTCATAGAGTTAGAATCATAGTTCAAGTCTGGTCACTAACATTGCTGAAATTGCCACTACTCTGTCCTACTTGGTTAATTAAGGTTTTTTTTTTTCTT
Y
CTTTCTCAAAAGCTTTAATGTTGACCTACTAGCAGGAAAATCAAAGGATATTGCTCTACACTTGAACCCACGCCTGAATATTAAAGCATTTGTAAGAAAT
Celera SNP ID:            hCV25981751
SNP Position Genomic:     32720
SNP Source:               Applera
Population(Allele,Count): african american(T,16)   caucasian(C,1|T,23)   total(C,1|T,39)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:3574):
TTTTTCTGGCCAGACAAGAGAGTAGCATTTTTGTCCACGAGGCCTATCCTTGCCTTGTAGAACTCCAGAGCAGCCCCGTAAGATCAGGCAACATCTTTTC
T
TTTTTTTTTTTGAGATGGAGCCTCACTGTGTCACCCAGGCTGGAGTGCAGTGTCACAATCCCAGCACACCACAACCTCCGCTTCCTGGGTGTTCAAGCCA
Celera SNP ID:            hCV27150280
SNP Position Genomic:     31934
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,14)   total(T,14|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3575):
AGAGGATCCCAGGCTCCTGCAGCCTGAAGTAGTCATTCAGTTTAGCGTTAAACCTTCCATTTCTGTCCAACCACATCTCAGCCTCAACGCTGATTTTAAA
G
GGTTTTTTTTTTCGTATTTTTATTTTGCAAGTAACGAATTAGTGGAATGCTGACTGGGTTTAAAATTTCAACTTCACCTGCATTCCCATGTCCATGTGGA
Celera SNP ID:            hCV27150281
SNP Position Genomic:     32512
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|-,13)   total(G,5|-,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3576):
ATGTGGATACGTGTGTTTCATAGAGTTAGAATCATAGTTCAAGTCTGGTCACTAACATTGCTGAAATTGCCACTACTCTGTCCTACTTGGTTAATTAAGG
T
TTTTTTTTTTCTTTCTTTCTCAAAAGCTTTAATGTTGACCTACTAGCAGGAAAATCAAAGGATATTGCTCTACACTTGAACCCACGCCTGAATATTAAAG
Celera SNP ID:            hCV27150282
SNP Position Genomic:     32706
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,15)   total(T,15|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3577):
ACAGAAGCTTCATCTTGGCCAGCTGTTATCAGAGTGCAGGACTTGGGCTGAAATTTCCTCCCCTTCCTGATTTTCCTTGACAGTCCTTTCCACTGCTCCT
H
TCAAAAGAATGGAAACCCTCAACTTGCTGCTTTGCAGATTCAGGTTTTGTGCTTCATTCTGGCCTCTCGGGGTGGGGCCGGGTTAGCAGCAAGGCTGAGC
Celera SNP ID:            hCV27150283
SNP Position Genomic:     34997
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,5|T,5|-,14)   total(A,5|C,5|-,14|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3578):
ATTTCAGCATTGTGGGAGGCCAAGGCAGGAAGATATTGTGAGCCCAGGAGTTTGAGACCAGCCCGGGCAACACAGTGGACCCTGTCTCTACAAAAAAAAA
W
TTTTAAATTAGCTGGGCATAGTGGTGTGCGTCTATAGTCCCAGCTACTCCTGGGGCTGAGGTGGGAGGATCACTTGAGGGAAACCCTGTCTCAAAGTGGC
Celera SNP ID:            hCV7540614
SNP Position Genomic:     10447
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3579):
AATTATTGAGTTGGAGCACATTTTCCCAGCACTTAGCACCGCTATTTCATGGATGGTTGGAGAGGGGGTCCAAAAATTTTACAATCATGTTAACAAAAGT
R
ACACAGCAACAAAACAATAAGCAAAATCACTGCCAGAGTATTCCTTAGCTTGAAACAATACGGTTCACGTCGATAGAATATGGCATCTATTTCTGTTTAA
Celera SNP ID:            hCV7540615
SNP Position Genomic:     6879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3580):
AGGTGTAAAGGTGATGTAAAAGGCTAGTAGGTTTTTTGGTTTTTCATTGTTTGAGTTTTGGGCATAGATGACTGTGAAGGGCGAACACTGCCGATGGATC
D
ATGAATTTGTAGTATGTGCACCACTTCCAACTTACGGGATACCCAGCTTTGACGGCTTTGGACAAACACACTGAGGCCAAGATGTGCTGAGCTTATCAGG
Celera SNP ID:            hCV27150284
SNP Position Genomic:     35335
SNP Source:               Celera
Population(Allele,Count): no_pop(A,9|G,9|T,9|-,14)   total(G,9|A,9|-,14|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3581):
TCTCCTGTCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCATGCCACTACGTCTGGCTAATTTTTGTATTTTTAGTAGGGATGGGATTTCACCATATTG
S
TCAGGCTGGTCTCTAACTCCTGAACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCTGGCCTATTTT
Celera SNP ID:            hCV27848997
SNP Position Genomic:     13606
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(C,2|G,36)   total(C,3|G,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:3582):
CAGAAGTACCTTGGGTAGGTTTTACCATGCACATCGTAATTTGAGTGAGCTTAGTGTGAGGCTTAACGGTGTGTGGGCTGTACATCCTGGTCAGATGCTC
Y
AGATGGAGGCAGATGGTTGTGATGCAGGAGAGGCAGCCACATAGCACAGGTCCCCAGCCAGTGGACTGGGAAGACAGTGTAGTCATCTCTGGGGAAGGGG
Celera SNP ID:            hCV11682541
SNP Position Genomic:     24302
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(C,-|T,-)   JBIC-allele(C,683|T,814)   total(C,683|T,814) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3583):
TAACTTGTATTCCAAAATTATTGAGTTGGAGCACATTTTCCCAGCACTTAGCACCGCTATTTCATGGATGGTTGGAGAGGGGGTCCAAAAATTTTACAAT
Y
ATGTTAACAAAAGTAACACAGCAACAAAACAATAAGCAAAATCACTGCCAGAGTATTCCTTAGCTTGAAACAATACGGTTCACGTCGATAGAATATGGCA
Celera SNP ID:            hCV7540616
SNP Position Genomic:     6864
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3584):
GGTGTAAAGGTGATGTAAAAGGCTAGTAGGTTTTTTGGTTTTTCATTGTTTGAGTTTTGGGCATAGATGACTGTGAAGGGCGAACACTGCCGATGGATCA
A
TGAATTTGTAGTATGTGCACCACTTCCAACTTACGGGATACCCAGCTTTGACGGCTTTGGACAAACACACTGAGGCCAAGATGTGCTGAGCTTATCAGGA
Celera SNP ID:            hCV27150285
SNP Position Genomic:     35336
SNP Source:               Celera
Population(Allele,Count): no_pop(A,9|-,14)   total(A,9|-,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3585):
GGGATGGGATTTCACCATATTGGTCAGGCTGGTCTCTAACTCCTGAACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTG
R
GCCACCATGCCTGGCCTATTTTAGTATTTTTAATAATAAATTCCATGTTAGAAATTTTCTACTGATGTATTTTTTAAGTCAATATTTCCTACACTCACAA
Celera SNP ID:            hCV27841154
SNP Position Genomic:     13684
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,38)   total(A,73|G,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3586):
TTCGAGCCAGGGACAGTGCTGCTGCAGGGGACCCAGCTGGGACCAAGGCAGACTGTCTCTCCCCTCCTGGGATTTACAGGGTCATGGCTCTGAAACATTC
Y
GTAGTGTTCTTTGGACACGAGTTTTCCCTGGAGATCGCTTTCTGCAGGCCTCTTGGTCCTGACTGTGGCTTCTTTTCAGAGGCTGCCATTCGCTGCAAGG
Celera SNP ID:            hCV22274482
SNP Position Genomic:     31463
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,22)   caucasian(C,6|T,34)   total(C,22|T,56)
SNP Type:                 INTRON;SILENT MUTATION

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


Context             (SEQ ID NO:3587):
GACTGGGGCAGAACTCTGCCAGGATTTAGGAATATTTTCAGAACAGATTTTAGATATTATTTCTATCCATATATTGAAAAGAATACCATTGTCAATCTTA
T
TTTTTTAAAAGTACTCAGTGTAGAAATCGCTAGCCCTTAATTCTTTTCCAGCTTTTCATATTAATGTATGCAGAGTCTCACCAAGCTCAAAGACACTGGT
Celera SNP ID:            hCV27150286
SNP Position Genomic:     37514
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,13)   total(-,13|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:3588):
GGCTGACTCAGCAGCCCAGGGAGCTTGAAGAAGGCTCCACAGAGGAGGCTGTGCCTCAAGGCGATTTCGGTTTAGGAGCCACCAATTTATAACCACTTTT
S
TGTGGCCCGTCTTATTTTATTTCTTATTTCTTGACAATCAGAAGTACCTTGGGTAGGTTTTACCATGCACATCGTAATTTGAGTGAGCTTAGTGTGAGGC
Celera SNP ID:            hCV7540546
SNP Position Genomic:     24163
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3589):
TCTTGGCCAGCTGTTATCAGAGTGCAGGACTTGGGCTGAAATTTCCTCCCCTTCCTGATTTTCCTTGACAGTCCTTTCCACTGCTCCTATCAAAAGAATG
R
AAACCCTCAACTTGCTGCTTTGCAGATTCAGGTTTTGTGCTTCATTCTGGCCTCTCGGGGTGGGGCCGGGTTAGCAGCAAGGCTGAGCTGCCCCTCTTTC
Celera SNP ID:            hCV1347710
SNP Position Genomic:     35009
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,7|G,12)      total(G,12|A,7) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3590):
TTTGAAGCTTTTACAGATTAAATGAAGTCTGAGATTTGCTTCAAAATGAACCAGTGGTGGGGAGGAAGTGGGTGAGGTGTAGGTGAAACAAGATTGGCCA
S
GTCGATAATTGCTGGAGCTGGGCGATGAAAGCACAGGTATTTATCACACCATCTCTCTACTTTTGTGTGTTTTTTTGTTTGTTTTTGGTTTTGGTTTTAA
Celera SNP ID:            hCV1653072
SNP Position Genomic:     5060
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,5)   total(G,2|C,5) 
SNP Type:                 TFBS


Context             (SEQ ID NO:3591):
AGGCCTGCCAGAGCCCACTTTCCAGACAGGTGAGAGTTCATTCATTCACCATGCAGTTACCGATCGTCTCTTGACCTGTGTCCTGGGGAGGTAAAGGTGA
Y
GAGCCAGTTCTGCCCCATGCAGCTCACAGTCTAGGCAAAGCTACATGCAAACAAACAGAATCCAAAGTGCTATCATGAACCCTCTGAGAGGGGCTGACTC
Celera SNP ID:            hCV7540547
SNP Position Genomic:     23971
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3592):
GTGATCCATCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCGCGCCCGGCCCATGTATACTATTTATACATTTTTAGTATCATTTTG
B
CTTTACATTTTACATAATTTCAGATACATTTTCCTCATATCAAATAATTCAGCATTTTTTAGTACTAACATCATAGTCTGTAAGCCATTCAAAAAATGTA
Celera SNP ID:            hCV1653073
SNP Position Genomic:     6006
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,7)      total(C,1|T,7) ;no_pop(G,-|T,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:3593):
TGGGCAAGGAAAGAGGACAATATAGATGAAAAAGAAATTGATCCTACCAGAAGTGATCCTTTTATCTGCATAACTCTCAGGCAGTTGTGGCAAATAATTG
S
CAGTATCTATTGTTCTGAAACTGGTTTTCGCAACTTTTATTGGGAACACCATCCCCTCTCCTGCATGATCAGTTTCTCCTCTCCACGGATCATTCACATG
Celera SNP ID:            hCV1653074
SNP Position Genomic:     7552
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:3594):
TCCTCATTAGTGAGCAGGAGTGCACAGGGGTGCTTTTCACATTTGTGAGCCCAGCCTTATATTTCCTACACCTGAGATATAGTTTGTTTGGCTTTGTAGT
Y
TTTCTCCATAAAAGGACCAGGAAGGCACCTAAATGTGAGGTATGGCACCACTACTCTCCAGCCAGTTGTTGCCATGCAGAAATATGGTCCACTGTGACCA
Celera SNP ID:            hCV25981688
SNP Position Genomic:     27200
SNP Source:               Applera
Population(Allele,Count): african american(T,6)   caucasian(C,15|T,3)   total(C,15|T,9)
SNP Type:                 INTRON


Context             (SEQ ID NO:3595):
TCCTTTTTTACCTTACAATTTAGTCTTAAAACACAACACAGTCAAGTCTTTCTTTTGTAACCTGTGAGATACCTTCTAGCCTTTGTGCTGTTTTTCTTCT
Y
TTTTTGCTGCCTGCCTTCCTGACTGAGAGTGGATTTCCTCACTAAGGCTCTGCCCTCTGATTTTTCACTCTCTTTTCTTTTTTGGTTTTACTAGTGAAAT
Celera SNP ID:            hCV11682546
SNP Position Genomic:     18361
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,14)      total(C,14|T,3) ;JBIC-allele(T,670|C,821)   total(C,821|T,670)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3596):
TTCTTAGTTAACCACCAATGGAACTGGGTTCATTCTGAATCCTGGAGGAGCTTCCTCGTGCCACCCAGTGTTTCTGGGCCCTCTGTGTGAGCAGCCAGGT
R
TGAGCTGTTTTAGAAGCAGCGTGTTGCCTTCATCTCTCCCGTTTCCCAAAAGAACAAAGGATAAAGGTGACAGTCACACTCCTGGGTTAAAAAAAGCATT
Celera SNP ID:            hCV1347713
SNP Position Genomic:     38241
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|G,14)      total(G,14|A,5) ;no_pop(A,-|G,-)   ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:3597):
GTTTATCCTTTTCTGCTTAGTATTCTAAGTACTCCTTTTTTACCTTACAATTTAGTCTTAAAACACAACACAGTCAAGTCTTTCTTTTGTAACCTGTGAG
R
TACCTTCTAGCCTTTGTGCTGTTTTTCTTCTCTTTTTGCTGCCTGCCTTCCTGACTGAGAGTGGATTTCCTCACTAAGGCTCTGCCCTCTGATTTTTCAC
Celera SNP ID:            hCV11682547
SNP Position Genomic:     18329
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,13)      total(G,2|A,13) ;JBIC-allele(G,500|A,607)   total(G,500|A,607)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3598):
GACACCACTCTCAGCAAATTCCCCTGGTTGTCCCTTCTCAGTCTCATTTATTGGCGTTGTCTTATCTCCCCAGGGCTGTCCGAGGTGATTTTCTCCCACT
R
CTCTCCTAGGTGGTGCCATCCAATCTCATGATGTCATATCATTCTTCCCTCATGCTTCAGCCATACTGGTTGGTGGCCTTTGTTTCCTGAACACATTTAA
Celera SNP ID:            hCV1653076
SNP Position Genomic:     8755
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:3599):
AGGCTTTACAGTCAAAAGTACTTCTGTTGATTGCTAAATAACTTCATTTTCTTGAAATAGAGCAACTTTGAGTGAAATCTGCAACATGGATACCATGTAT
R
TAAGATACTGCTGTACAGAAGAGTTAAGGCTTACAGTGCAAATGAGGCGTCAGCTTTGGGTGCTAAAATTAACAAGTCTAATATTATTACCATCAATCAG
Celera SNP ID:            hCV1347714
SNP Position Genomic:     38513
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,12)      total(G,12|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:3600):
TTTGTTAACTCTGCTCTCTGGCCCTTTCACTCAGCCCCGTTTGCACCTAAATATGACTTACAAAAGAAACACAGCATTTATGTGTACTTATTTCAACTTA
Y
TTTAGCTTTGTAAAGAAGTACAAGGTTGACTCAGGGCCCAGCTTGGTGTCTCATGCCTGTAATTTCAGCATTGTGGGAGGCCAAGGCAGGAAGATATTGT
Celera SNP ID:            hCV1653077
SNP Position Genomic:     10285
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:3601):
TCTGTATAAAAATACCGTGTATCATTTACTCTTTCTGCAGCTCTATACGATAGGCAGGAGAGGCTTATGTGGCAGCACAAGCCAGGTGGGGATTTTGTAA
M
GAAGTGATAAAACATTTGTAAGTAATCCAAGTAGGTGTATTAAGGCACCAAAAGTAACATGGCACCCAACACCCAAAAATAAAAATATGAAATATGAGTG
Celera SNP ID:            hCV1347715
SNP Position Genomic:     38749
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|A,12)      total(A,12|C,3) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:3602):
AAGGACAAATTCCAGGTAGGTTTTGGAGAGGGACAGGTTGAGTCCTCATTAGTGAGCAGGAGTGCACAGGGGTGCTTTTCACATTTGTGAGCCCAGCCTT
R
TATTTCCTACACCTGAGATATAGTTTGTTTGGCTTTGTAGTTTTTCTCCATAAAAGGACCAGGAAGGCACCTAAATGTGAGGTATGGCACCACTACTCTC
Celera SNP ID:            hCV25981974
SNP Position Genomic:     27158
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,4)   caucasian(A,6|G,22)   total(A,18|G,26)
SNP Type:                 INTRON


Context             (SEQ ID NO:3603):
GTTGACTCAGGGCCCAGCTTGGTGTCTCATGCCTGTAATTTCAGCATTGTGGGAGGCCAAGGCAGGAAGATATTGTGAGCCCAGGAGTTTGAGACCAGCC
Y
GGGCAACACAGTGGACCCTGTCTCTACAAAAAAAAATTTTTAAATTAGCTGGGCATAGTGGTGTGCGTCTATAGTCCCAGCTACTCCTGGGGCTGAGGTG
Celera SNP ID:            hCV1653078
SNP Position Genomic:     10410
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:3604):
AAGCATTACACTATGCACTGGAGACTGTATAAGACAAGTTCCTTTTCTCAAACTACAGTCGAGTTGGATAGATAAAACACACAACACATACCAAAAGACA
R
CTATAAATCCAAGGCAGTGTATGTCAAGGGTAAATTCACCTATTCAGATTGGATCTTGAGAAGTGCATCAGGCTTGGAAAATGGGTAAGGAGGAGAGAAA
Celera SNP ID:            hCV1653079
SNP Position Genomic:     10751
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,11)   total(G,11|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3605):
CAAAAGTGCTGGGATTACAGGCGTGAGGCACCATGCCTGGCCAACTTAGTTATTTAAAGATAATCAATTAGTATATTTTATAAGCTAGACTTAGGAAAAC
K
GTTTTCAGCTGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCA
Celera SNP ID:            hCV16289619
SNP Position Genomic:     16091
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:3606):
ATGAGGCAGACAGTGCCACCACCAGGGACACTTTAGTTAGATTAGGGTCTTGGAAGTCAGAAGGAAGTCAGCAGCAGCAGGCTGGAACTTTTCTATGTAT
W
ATCAAATGGTTTACTCTGACACCGTTAGCATGTAACAAACACAAAATTTTAAACTAAGGGGAACCACTAATGGCATGTATCCTTTCCTTTCAGATGATAA
Celera SNP ID:            hCV25763020
SNP Position Genomic:     35903
SNP Source:               Applera
Population(Allele,Count): african american(A,28)   caucasian(A,31|T,1)   total(A,59|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:3607):
CTTCGGGATACTGCTCCTGCCCGAAAGTCTTTCTGAATCTCCCAAACTCCATTCACCTCTCCCTTCTCTGGCCTTTTGAGCCCGTGTCTGTATCATTCTT
Y
TTCACAGTTTTTAACAGTTGTGCTTTGGCTTTACGTGTTTATTTTGCCTCCACAATGGGATTTTAAGCTCCCTGAGTCAGAGACTATATTGTATGCTGCT
Celera SNP ID:            hCV15878208
SNP Position Genomic:     27809
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3608):
GATCTTCGGGATACTGCTCCTGCCCGAAAGTCTTTCTGAATCTCCCAAACTCCATTCACCTCTCCCTTCTCTGGCCTTTTGAGCCCGTGTCTGTATCATT
Y
TTTTTCACAGTTTTTAACAGTTGTGCTTTGGCTTTACGTGTTTATTTTGCCTCCACAATGGGATTTTAAGCTCCCTGAGTCAGAGACTATATTGTATGCT
Celera SNP ID:            hCV15878209
SNP Position Genomic:     27806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3609):
AAACAGTTTGCACTCTCAACAGCCATGCTCCCACCTTCTTGCTGACATTACATCTTATTCTCTGTAATGTTTGCCAATCTGATGGGGGGCGGAAAGGACC
M
CAGTGTCAAGTGTATTTTTGGATCATAGTTTTCAAGCATATTTTTAGTACCATTTATAATTTTTTTATATGTCAATATAAAATATTTAGAAAATATTTTC
Celera SNP ID:            hCV16288600
SNP Position Genomic:     29496
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3610):
AGCAGGGTATGTGTTCTCGGCGCTCACAAATGTATAATCCATTGTGGCAAATTTTTGCTTTCACATATTTTTTTTTATCATTATTGTCACAGGTTCTGTG
R
CGGAGTTCTGGTTTCTAAATTCACAGCATACCAAGGCAGTTCTTTAAAGTTCTTGATACTCTTTTATCATATCTAACTTGTATTCCAAAATTATTGAGTT
Celera SNP ID:            hCV7540623
SNP Position Genomic:     6690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3611):
AAATGGAGTATTTCTGTAAGACAGGTTCCTAGGCTGGGAGTGCCTGAGTCAAAGAGCACAGTCATGTGTTGCATAAGGACAGTTCAGTCAAAGATGAACC
R
CATATACAACCGTGGTCCCATAAGATTGTCATATACTGTATTTTTACCATACCTTTTCTATGTTTAGGTAAGTTTATATGCACAAATACTTACCATCCTG
Celera SNP ID:            hCV16288601
SNP Position Genomic:     29037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3612):
ATGGGGCTAGTATTGGGGTGTAGGGGAGATTAGGTCAAAGCAAGAGGATTCAAAGGAGAAATGAATTCCTTTAGATTGGGGAAGATAATCGGAAGAGGTA
R
AAGACACCGTCCATGACACTTCCTGGGGAAGCAGATGTATGTATAAGGATGTGAGTATTGTGGTTTTGTAAAGAATGCATTCCTGAAGATGTTGCATAAT
Celera SNP ID:            hCV7540624
SNP Position Genomic:     6450
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3613):
TCTGAGCCATTCCTGTGTATTTCCTCAGCACCTCCCTGCTTGGCTGCTTCCCCTTCAGGCAGAACACAGTACTGCCTCAGACCCCAGGCACAGGGGGCCT
W
CCTGGCGTGTTTCACTCATACAGAGGGCATCGGGTCCCACCCTGTCACTCATTTCATCGTCTAAAATGTAATCATGTGTGTTTGCTTCGAGCCAGGGACA
Celera SNP ID:            hCV16288602
SNP Position Genomic:     31277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3614):
AGGGTGAAAAAAAAGAGTTTGGTGCTCATGGATGGGGCTAGTATTGGGGTGTAGGGGAGATTAGGTCAAAGCAAGAGGATTCAAAGGAGAAATGAATTCC
Y
TTAGATTGGGGAAGATAATCGGAAGAGGTAGAAGACACCGTCCATGACACTTCCTGGGGAAGCAGATGTATGTATAAGGATGTGAGTATTGTGGTTTTGT
Celera SNP ID:            hCV7540625
SNP Position Genomic:     6419
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3615):
TAAAACACACAACACATACCAAAAGACAGCTATAAATCCAAGGCAGTGTATGTCAAGGGTAAATTCACCTATTCAGATTGGATCTTGAGAAGTGCATCAG
R
CTTGGAAAATGGGTAAGGAGGAGAGAAAAGCAACAGTGAATCAGAACATGAGTTCCCAGTTATGGGACTTGTAATGAATTCCTCAATTAAAACAAAAAAT
Celera SNP ID:            hCV1653080
SNP Position Genomic:     10823
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,14)   total(G,14|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3616):
TGACTCTTAGGCTTCTTTCAAGCTGCAGTCTGCCTAATAGAGAGCCTTGCATTTAATCATCAAAAAGGCAAAGCAATATTAATCAGCAAGGGTGTTTTGG
S
AAATAACAGCAAACCTGACTGTGGCGTAAGCTTGTGGTATTGTCTCCAGTGTGATCAGATCTGTATTTTAATTTTTTAAATGTAAATTAATAATGATCTG
Celera SNP ID:            hCV7540555
SNP Position Genomic:     22374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3617):
AAGTCTCTTCTGGCACTGTCTGGACTTGGATCCGAGGCAGACGAGGAAGCTGAGAAAACCCTGGCGTTGACCCCGTGGACCTGGGCGCCCCGGGAAGGCC
R
GCGCTTGGTCCAGGCAGGCGGGGCCTGTGCGGTGACCACCCTGGTCCTGAAAAGTCCCAGCCCCGAGCGCCCTCCCTCCTAGACCTGGAGGCCTGGAACA
Celera SNP ID:            hCV1653081
SNP Position Genomic:     11517
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,14)   total(G,1|A,14) 
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:3618):
CTGTTATGTTTCCTGGGTGTCTGACTCTTAGGCTTCTTTCAAGCTGCAGTCTGCCTAATAGAGAGCCTTGCATTTAATCATCAAAAAGGCAAAGCAATAT
K
AATCAGCAAGGGTGTTTTGGCAAATAACAGCAAACCTGACTGTGGCGTAAGCTTGTGGTATTGTCTCCAGTGTGATCAGATCTGTATTTTAATTTTTTAA
Celera SNP ID:            hCV7540556
SNP Position Genomic:     22353
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|T,8)      total(G,3|T,8) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3619):
TCTGTGCTCGTCCCACAGCAAGCCAGTCGCGGTCCAAGGCTCCAGAGGCTGTGCAGGAGGCCGAGCTGGGTGGCGATCAGCGGCGGGTCCCTGTCCAAAA
Y
CCAGCAGAGCCGCCAGGGACGCCCCAGACACAGAAGGCGGGGCGCGGGGAGGGTGGGGAGACCACAGCAGTGAGGCGCGCGAGCCGGGAAGTGAACGAGG
Celera SNP ID:            hCV1653082
SNP Position Genomic:     11843
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,11)      total(C,11|T,3) ;(C,-|T,-)   JBIC-allele(C,610|T,867)   total(C,610|T,867)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3620):
GGTCCCTGTCCAAAACCCAGCAGAGCCGCCAGGGACGCCCCAGACACAGAAGGCGGGGCGCGGGGAGGGTGGGGAGACCACAGCAGTGAGGCGCGCGAGC
Y
GGGAAGTGAACGAGGACTGACTCCTGTCGCTTCCCGTAGCCGCCCACGGACGCCAGAGCCGGGAACCCTGACGGCACTTAGCTGCTGACAAACAACCTGC
Celera SNP ID:            hCV1653083
SNP Position Genomic:     11928
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:3621):
TTTGATGGGTGGGACAGTGTCCAGTCCACCCCGACCCGCCGGTCCTCACCGCGGCAGAGCCGGGGCTGGGTGGCGGGGACGCTGCCTCTGCAGGCGAGGC
R
CTCCGGGGCATAAGGGATTATCAGGAGTCGCGGCCTTTCTTGGACATCCCTGGCTGGGGTCAGGCTGTTTGCCCTGGGGTGTCTCCTCGCTGCAAACCCA
Celera SNP ID:            hCV1653084
SNP Position Genomic:     12274
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON;MISSENSE MUTATION


Context             (SEQ ID NO:3622):
TCTTACTTCCTGAATTGAGTCACGGAGCCAGAGTTTTGAGGTTTTGACTAACGAATTAAGTTAATGACATGGGGCTATATTTAGGTGGTAAACCAAGAGG
K
ATACAGTTTTTTTTCTTAATAAAGAAAAAGTGATAGATTTGATCGGTGTGTATTGTTGGTGTGCAGTATAATGACAGAATTGCTGGAAGTAAAATACAGG
Celera SNP ID:            hCV1653085
SNP Position Genomic:     12875
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:3623):
GCAAGGAAAGAGGACAATATAGATGAAAAAGAAATTGATCCTACCAGAAGTGATCCTTTTATCTGCATAACTCTCAGGCAGTTGTGGCAAATAATTGGCA
R
TATCTATTGTTCTGAAACTGGTTTTCGCAACTTTTATTGGGAACACCATCCCCTCTCCTGCATGATCAGTTTCTCCTCTCCACGGATCATTCACATGAGT
Celera SNP ID:            hCV11682558
SNP Position Genomic:     7555
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:3624):
CTCCTGAGTAGCTGGGACTACAGGTGCATGCCACTACGTCTGGCTAATTTTTGTATTTTTAGTAGGGATGGGATTTCACCATATTGGTCAGGCTGGTCTC
Y
AACTCCTGAACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCTGGCCTATTTTAGTATTTTTAATAA
Celera SNP ID:            hCV1653088
SNP Position Genomic:     13620
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,31)   caucasian(C,27|T,11)   total(C,32|T,42)
SNP Type:                 INTRON

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:3625):
GAATATTAATTATCCATTGGGAGACAGGGCAAGAATAAAAGCCAGTGAACATATTTAAAGCACCTACTATGTAATAGAGATGGTGGTGGGTGCTGATTAC
R
AAACAGCTCTTGTCCTCTAGTGGAGGAAGAAGTCACAATGATAATATGACGTGATGAAACAGTGTTATGAACAGGGAACGTCTGGGTAGAGTGGAGGGAA
Celera SNP ID:            hCV1653089
SNP Position Genomic:     14265
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,10)      total(G,3|A,10) ;JBIC-allele(G,521|A,594)   total(G,521|A,594)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3626):
GGGAGGAGAAAGCCCACGTTAATGACACTAAAATATATCTTTCCAAACAAATGTGGATAAAAGCCAAGTAGAGAAGATGAGAACTTTGAGGTCCCTAACA
S
AAAATAAACAGTAAGCAGCCAGCCATTCCAAGTGGCTGACATGACTTTGTTTAACTTTATTTGTATTTCTGGCTGGTGTGTTTACAGCCAATAGGTCAAA
Celera SNP ID:            hCV15754109
SNP Position Genomic:     11041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3627):
GAGGTTACAGTTTTTGAAAATGGGACAGCAATAAGAATCCTGGGAGCAGGGGTGGGATAAGTGGTCCATTTAAATCAAGTCCTAACTCAGTATGTGGAAG
Y
TGTGTATGTTTTTTGTTTACTTGGAGATTGTAATTTGCCCCTTTTTATAACGTGGGCAATCAGTATAAATGGCAAAGCCAGTAGAGTGTCAAATTATGCA
Celera SNP ID:            hCV25981847
SNP Position Genomic:     33001
SNP Source:               Applera
Population(Allele,Count): african american(T,6)   caucasian(C,1|T,19)   total(C,1|T,25)
SNP Type:                 INTRON


Context             (SEQ ID NO:3628):
GCAGTCTAGATGAGGTCTAATGTTCATAAGCTAGGGGATTTTCAGATATGGAAAGGGATACCAATTTTCAACAGCCACATAGAGTATCACATTTTCACTC
Y
ATGTTTCCTGGGTGTCTGTTATGTTTCCTGGGTGTCTGACTCTTAGGCTTCTTTCAAGCTGCAGTCTGCCTAATAGAGAGCCTTGCATTTAATCATCAAA
Celera SNP ID:            hCV7540563
SNP Position Genomic:     22237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3629):
TTGTCACCTGCTCTTACCTTGTTGCAGTCTAGATGAGGTCTAATGTTCATAAGCTAGGGGATTTTCAGATATGGAAAGGGATACCAATTTTCAACAGCCA
M
ATAGAGTATCACATTTTCACTCTATGTTTCCTGGGTGTCTGTTATGTTTCCTGGGTGTCTGACTCTTAGGCTTCTTTCAAGCTGCAGTCTGCCTAATAGA
Celera SNP ID:            hCV7540564
SNP Position Genomic:     22214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3630):
GGTTATCATTCTACAGCATTTTAAACTGACACATTGTCTGGACCATGTGGGTTCTTGAGGACTCATCAAAACTCGTTACTAAAAGCATGAATATCAGGCG
R
AATAGATAGCAATGTGACATTCATATTTATCCCTAAGTTCCAGTCTAATGCAGTGCCCTGGTATGTGGAGTGTAGACAGATGTGGGCTAATCATGGAAGG
Celera SNP ID:            hCV15823959
SNP Position Genomic:     33651
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3631):
GGCAGTTTTGTCACCTGCTCTTACCTTGTTGCAGTCTAGATGAGGTCTAATGTTCATAAGCTAGGGGATTTTCAGATATGGAAAGGGATACCAATTTTCA
R
CAGCCACATAGAGTATCACATTTTCACTCTATGTTTCCTGGGTGTCTGTTATGTTTCCTGGGTGTCTGACTCTTAGGCTTCTTTCAAGCTGCAGTCTGCC
Celera SNP ID:            hCV7540565
SNP Position Genomic:     22207
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3632):
CTCTGCCCTCTGATTTTTCACTCTCTTTTCTTTTTTGGTTTTACTAGTGAAATTTTGTCTTTAATGTCTCTTTCTTTTATGTCTTTACCGATCACTCATA
R
ATTTTTTTTTCCATATGTATCCAGTTCCAACCTTTCACCTAATGTGAACCCCCAACTCTCAGTTGCTCAGCCAGCCCTTCAAGACTAGGAGTTCAAAACC
Celera SNP ID:            hCV1653092
SNP Position Genomic:     18509
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:3633):
ATTCAAACAGTATTTAAGAGTTTCAGTGAAACATGCATTTTCCTTCTACCCTGGTACTTAGTTTTACTCCCCAAGGGCAATCACTTTTTACTGGTTTTTA
R
AAATATATCCTTCCTGAGATACTTATGAATATCCAAAAGTGTGTGTGTTGTGTATATCACCTTTTATATATCCTGTCTCTTTACGTGCATGCATTTTACC
Celera SNP ID:            hCV1653093
SNP Position Genomic:     18925
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,14)      total(G,3|A,14) ;no_pop(A,-|G,-)   (G,-|A,-)   SC_12_C(A,3|G,14)   SC_12_AA(A,5|G,8)   total(G,22|A,8)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3634):
TATTTAGAACTTCCTCATTTATTTTAACAGCTGCATAATTAGCAGTAAAACTTATGTAAGCAGTCCCTTGTGAAGGGCTGTGTCTTTTTGCGATTATATC
Y
GGTGCTATAGTGTACATCCTTGTGTGTGCATCTTGGTGTGCCTGTGCTACGTATTTCTGTAGGATAAATCTGTAAAAGTGGAATCACTAGGTCAGAGGGT
Celera SNP ID:            hCV1653094
SNP Position Genomic:     19183
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,11)      total(C,5|T,11) ;(C,-|T,-)   Caucasian(T,8|C,76)   African-American(T,17|C,67)   Asians(T,25|C,59)   total(C,202|T,50)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3635):
GCTATAGTGTACATCCTTGTGTGTGCATCTTGGTGTGCCTGTGCTACGTATTTCTGTAGGATAAATCTGTAAAAGTGGAATCACTAGGTCAGAGGGTATG
R
TCCATTTTCTTTACTTATTTATTTTATTTATTTATTCATTTATTTTTGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTTGG
Celera SNP ID:            hCV1653095
SNP Position Genomic:     19287
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,13)      total(G,2|A,13) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3636):
CCATTCCTTACTGTAGAACTGTTTCCCTACAGCCTAGTAATAGAGGAGGAGACATTTCTAAAATCGCACCCAGAACTGTCTACACCAAGAGCAAAGATTC
R
ACTGTCAATCACACTTTGACTTGCACCAAAATACCACCTATGAACTATGTGTCAAAGGTTTGAAGAGCACCAAATTTTCTTAACTCTATATAAAAATTAA
Celera SNP ID:            hCV16180110
SNP Position Genomic:     30966
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;SILENT MUTATION


Context             (SEQ ID NO:3637):
CCGATCTCGGCTCATTGCAACCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGTCATGTGCCACCATGCCC
R
GCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCCACGTTGGTCAGGCTGGTCTTCAACTCCCAACCTCAAGTGATCTGCCCACCTTCGCCTCCCAAA
Celera SNP ID:            hCV1653096
SNP Position Genomic:     21484
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3638):
ACTCTCAGCCAAATACAAAATACTATGAATAGTATTTACCTTGTGTCTCTTTCCAAAGAACTCATAGTGGTTTGCAGCTATTGCAGATATCCTGGCCATG
M
GGTATGCAGTTCCTTTTTTTTTTTTTGAGACGGAGCCTTGCTCTGTCGCCCAGGCTGGAGCATAGTGGCGCGATCTCGGCTCACTGCAAGCTCCGCCTCC
Celera SNP ID:            hCV16289707
SNP Position Genomic:     24994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3639):
TGTCCTCCGTTTTCACAGAAGCCACATAGTCGTGGGTTAAATGAGTCAGCGGCAGGGCACTGTGTCTCATAGTTAAAAAAAAAAAAAAGTATTACTGAAG
Y
AATGCAGGATCTTTTCTGAAGTAGAAGGCATGATGAACCCAGAAAACTAAAGCAGCAAGTGGCCACCGTTCTTAGCATAGTTGTTTCTCAAACTGGAACA
Celera SNP ID:            hCV1653097
SNP Position Genomic:     22617
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3640):
GAGCTGTTTTAGAAGCAGCGTGTTGCCTTCATCTCTCCCGTTTCCCAAAAGAACAAAGGATAAAGGTGACAGTCACACTCCTGGGTTAAAAAAAGCATTC
M
AGAACCACTTCTCTTTATGGGCACAACAAAGAAACGAAGGCTGAAGTTCGCCTACCCAAAATGAAAAGTAGGCTTTACAGTCAAAAGTACTTCTGTTGAT
Celera SNP ID:            hCV7540498
SNP Position Genomic:     38343
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:3641):
TAGGTCCTTCCCCATTCTCTACACACAAAATCAGATACTCTGATGTGCAGCTGTAGCCCCAGTCTACACTGTCTGTTGTATTTTTTGTTTTCTGGTGTCA
Y
GTGCCTCCCACCCTGCTCCTAGCAATTGCCATGACAACAAATAGATAATTGGCTTCCGTAATTTCTCATCTTATTGCCTAAGGCAACAGAGAGCTTGTGG
Celera SNP ID:            hCV1653098
SNP Position Genomic:     23719
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:3642):
TCATTCCATTCCTTACTGTAGAACTGTTTCCCTACAGCCTAGTAATAGAGGAGGAGACATTTCTAAAATCGCACCCAGAACTGTCTACACCAAGAGCAAA
K
ATTCGACTGTCAATCACACTTTGACTTGCACCAAAATACCACCTATGAACTATGTGTCAAAGGTTTGAAGAGCACCAAATTTTCTTAACTCTATATAAAA
Celera SNP ID:            hCV16180048
SNP Position Genomic:     30961
SNP Source:               Applera
Population(Allele,Count): african american(G,25|T,7)   caucasian(G,34|T,2)   total(G,59|T,9)   
SNP Type:                 INTRON;MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,7)   caucasian(G,36|T,2)   total(G,65|T,9)
SNP Type:                 INTRON;MISSENSE MUTATION

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


Context             (SEQ ID NO:3643):
TATTGTATTTTTAGTAGAAACAGGGTTTCACCATATTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCTGCCTCGGCTTCCCAAAGTGCT
S
GGATTACAGGAGTGAGCCAACGTGCCTGGTCAAAATTTTTGTTTTCGTAATTTTAAGTATGTGTGTAGTAAGTCTCAATGGAAATGTAATTCTTATGGCA
Celera SNP ID:            hCV11405611
SNP Position Genomic:     8224
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3644):
AAAATAAAAATATGAAATATGAGTGTGAACTCTGAGTAGAGTATGAAACACCACAGAAAGTCTTAGAAATAGCTCTGGAGTGGCTCTCCCAGGACAGTTT
S
CAGTTGCTGAATAGTCTTTTGGCACTGATGTTCTACTTCTTCACATTCATCTAAAAAAAAAAAAAAAAAATCAAAATTAAAATCTGAGTCAGTCCGCCTG
Celera SNP ID:            hCV11405540
SNP Position Genomic:     38925
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    ;no_pop(C,-|G,-)   
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:3645):
AGTACAGGTAACTAATTGACTCCCTCTGCTGCCAACTTGGTTTTCCTTCTGAGCTATAGCATCAGGCTGTGTGTTTTGTGTTTTCTTGAGATTTTGTTAA
R
TATATCTGGGGTCCCTTCTACCTGGTTGGAACTGGGATTCCCACCATTCTTGTGGGGATAGAATCTCAGGTTACACCTATTTCCCCAATCCTCTGTAGCC
Celera SNP ID:            hCV624400
SNP Position Genomic:     34796
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3646):
GTGGAGACCCTAAAACTGCTTGCTTGCACTGGCCATCATCTCCCATCAGGGTAGACGGTTTCAGGTGGCAGTCCTTTCTCCTAAGGAGTTAGTCTTGTTT
R
TATGTATTCAAGGAAAAATACATCAGTCCCTTGGAACTAAAAGGCATGCAGTCCTGAGTCCCCAGATAGGTGAATATTGTAACACATACCTTTCCCGAAA
Celera SNP ID:            hCV15823960
SNP Position Genomic:     33327
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3647):
CAGACCCCAGGCACAGGGGGCCTTCCTGGCGTGTTTCACTCATACAGAGGGCATCGGGTCCCACCCTGTCACTCATTTCATCGTCTAAAATGTAATCATG
W
GTGTTTGCTTCGAGCCAGGGACAGTGCTGCTGCAGGGGACCCAGCTGGGACCAAGGCAGACTGTCTCTCCCCTCCTGGGATTTACAGGGTCATGGCTCTG
Celera SNP ID:            hCV15823961
SNP Position Genomic:     31354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3648):
GGGCGGAAAGGACCACAGTGTCAAGTGTATTTTTGGATCATAGTTTTCAAGCATATTTTTAGTACCATTTATAATTTTTTTATATGTCAATATAAAATAT
W
TAGAAAATATTTTCTACTGGATGTTACAAATTAATCTTTATTATCTTTTCTCAGGACTTACAAAGTACCCAAGCATCTAGTCTGGAACTGACAGAGATAA
Celera SNP ID:            hCV15823966
SNP Position Genomic:     29582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3649):
CTCTCAACAGCCATGCTCCCACCTTCTTGCTGACATTACATCTTATTCTCTGTAATGTTTGCCAATCTGATGGGGGGCGGAAAGGACCACAGTGTCAAGT
R
TATTTTTGGATCATAGTTTTCAAGCATATTTTTAGTACCATTTATAATTTTTTTATATGTCAATATAAAATATTTAGAAAATATTTTCTACTGGATGTTA
Celera SNP ID:            hCV15823967
SNP Position Genomic:     29508
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3650):
CCAGAACTGTCTACACCAAGAGCAAAGATTCGACTGTCAATCACACTTTGACTTGCACCAAAATACCACCTATGAACTATGTGTCAAAGGTTTGAAGAGC
M
CCAAATTTTCTTAACTCTATATAAAAATTAAGTTGTAATGAGCTGTTACGAGTAACCTGTATCCACAATAGAGGCCCAAAGCAGCCCCCTCTGCATTTGT
Celera SNP ID:            hCV16288628
SNP Position Genomic:     31035
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,17)   caucasian(A,7|C,29)   total(A,16|C,46)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,4)   caucasian(A,2|C,30)   total(A,4|C,34)   
SNP Type:                 INTRON

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


Context             (SEQ ID NO:3651):
CCTTTCCACTGCTCCTATCAAAAGAATGGAAACCCTCAACTTGCTGCTTTGCAGATTCAGGTTTTGTGCTTCATTCTGGCCTCTCGGGGTGGGGCCGGGT
K
AGCAGCAAGGCTGAGCTGCCCCTCTTTCTTCTGAAGCCTTCATGGGGGCGAGGAGCACAGGGAGAGCTCAGTGCAGGGCCTCCCAGTGGCCTTCTCAGAG
Celera SNP ID:            hCV15842337
SNP Position Genomic:     35081
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,18)      total(G,1|T,18) ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3652):
TTCCTTGACAGTCCTTTCCACTGCTCCTATCAAAAGAATGGAAACCCTCAACTTGCTGCTTTGCAGATTCAGGTTTTGTGCTTCATTCTGGCCTCTCGGG
K
TGGGGCCGGGTTAGCAGCAAGGCTGAGCTGCCCCTCTTTCTTCTGAAGCCTTCATGGGGGCGAGGAGCACAGGGAGAGCTCAGTGCAGGGCCTCCCAGTG
Celera SNP ID:            hCV15842338
SNP Position Genomic:     35069
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;TFBS


Gene Number:                 12
Celera Gene:                 hCG23475 - 104000117157514
Gene Symbol:                 PRKCQ
Protein Name:                protein kinase C, theta
Celera Genomic Axis:         GA_x5YUV32W1ET(31878599..32043755)
Chromosome:                  Chr10
OMIM number:                 600448
OMIM Information:            PROTEIN KINASE C, THETA FORM;PRKCQ


Genomic Sequence (SEQ ID NO:1673):
GACAATTAGTACTTTCTTTAATTTGATATTTAGTCTCAGAATTTTATAGCTGGAAGAAACCTGATAGAATATCCTGTGTAGCCCAGCATACTTTCTGTAA
AATGAGAAATCCTCTTCCCAATTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTAATGGCAGAATAAAGCCAGGCTATGGACAAAGGAGAAGGGA
GTGATGAGGATCAGGTGTGGCATTTGCCTTTCCAAAAAAGAGATTGAGTGACTTACTCTAAAGTAAGTTCCCCTTCAAATCTAAAGCAATTGCACTATGT
CAAACTATAAAATTGCAACAATCAAATTTATAAATATGATAGTTTTCATCTTGATTTCTTCCTCCTGGATTTACAGATAATAAATCTTCCTCCTGAGATT
TATTAATCCTTCCTGGGGAGGACTTACCATTAAAATGTATGGTCTTTTGCATTTTCAGGCTGCTGTTGCTTTTACCCTGGTGGAAGATAATCACTAAAAA
GTAGTCTCTGTGGATTATCTAATCAATATCTCTTCGATTTCAGATAAAATTTTATACTCACTTGGGCCTTAATTATTGTGCTAATATCTCTAGGCTTCCC
AAATCCAGGAGAACTGTGTCTGTGGATCTTTAGAAATACTTGGACTGACTAGTTTTATGCTGGTTCTACCCTTAGAATCCAGAAACAGGCCAGAAGCATA
TCCTGTTAACTTGTATCTATGTTAAGAAAACATTGAAAATGTAATTATTCACTATCTGATTTAGAAACTGATGTTACAATTAGCATCTCTGTATTGGTAG
TGGTAACAACAATGACAACAAATTGTACCCATAGAATTTCCACAGCCATAACTAAAACCAGATGGCAAATACTGTTTTTATAACTCCCACCTTTAAAAAA
AAAAACCAAAGGAACCGTTTCTTGTTTAATTTCATTCTTTGATAGTTGTAATAGTAATTGACACCGAGGAAAAAACAATCTACTCTAAATATTCTACACA
GTAAGGATTAAATTTCATTTTCTATGGTTTTACTATTTAGTGGGCATTGTGATACATTCTAATCTACACATTGCCCCTCTACCCATGCCTTGTCTTTTGT
CCTCAGAATATCTTATTAATCAGAACTTTCATAAACATACACAATTCTTTGACTGTTTCAAGAGTCAGGCTATATTTTCAGCTCTTGTCTTGTTTCTGTG
AATATGGTGGCAGAAATCATGGATTTGAGGGTCAACTGGACTGGTGTCAAGCAGTCCCCTACCGTTTATTAGCTGAATGAGCTTAGGAAATCATTTGTTT
AACCTTTAAGTCTCAATTGTCTCATCTGTAAAATGAAGAGGATATTATCCATCTCAGGGGATTCATTGTTAGAATCAAATTAAATAATTGAAATTAAGTG
TGTAACACTACGCTTCGACACAGGTAGTAAATGTACGATAAATATTAACTAATATTCACACATTATCTTTCTCTTAAATGAAGGAATAATACATACTTCC
CTTCCCTTGTGTAAGATTTTTTGAAGTAACTTAACATTACAAAGCATGTCTAATGAATATTTTAAATAATGGAACTTTCAAATATATATTATGAACATTT
TTTAAACCTTAACCTAGGGTAAGGTTTCCATTCACCTTTCACTGGTTTCGAAGAGTTGATATCAGTTTTACTATCAACAGTAATTGAGGTTTATCACTCC
CCAAGAGGAGGGTCAGTTTTTTTTTTTTTTTTTTTTTTCAGGGTTTAGAGCTATTTTCTGGCAATAACAATTTCTAACTTCTAATTACCCTTTTTCCGGC
TTGAAAATCTAAAGTTGGATTGAAGAAGAGAAATGACAACATCTCCCTTTTACTTATCCAAGCTGTGAATTTAAAATACCTTTCGTTTTTGTTTGTTTGT
GCCTATCAACTTTGACCCATAGCTCCCAGAATAATTTTGATATTTTCTGAATAAATTGACACTAGACTTTATACATCACTCATGTCTTTATTTAGGGTAG
GCCACTGTCCTCTAATTCCATACTGATTCTTCTGGGTACTCTGGTGAGCCACTCAAAAAACAATTTCTGCCAAACCTTTGGGAAAGTATCAGTGGTTTGG
TGGCCAAATTCCTCATCAAATAGTGCAAACTGGTTTCCTCCAAGCTGTGACTTCTGCAGAGACAGAAATGTCCTTGTTAAGTAACACTGTCCTCAAATTT
TCTATGTGTATCATAGCCTACTTCCTCCTGAATACTACCTTTCTCCAAATCAAGACTCAAAATAATATGTTTTCTTTTTAATTTCTATCCTAAATCCCAT
ATAGAAGGAAGGATGCAAGACGTGGTCTCCATGGGAGACAGAGTATAATCACCAACTAGGTCCAAAAGAAAAGCAAAGTCGTGTCCTGGGTTCCTTTTTC
CAAGTTCCGAGTTGTGGGAAGATGGGTTGTGGCAGCTCCGGGAGCAGACACATAGGATTTCCTCCTTCCTCAGCTCTCAGGAGGGCCGCTGGATCCAAGG
CAGGGGTCAGGTATTTCCGAGATGAAGTGAACTGAATAGGGCGGCTACCCGAAAGGCAGTCCTCAGCATTATTCCAGGAAACATCAGGGCAGAACCTGAA
AGAGGAAAAGAAGTACACAGCTGAAAGTTAGGGTGTGTTTAACGTAGTGAGTGGAACCTCACCGCCCACGTGTCATCCCCTCCAGGAAATGCCATTTCCT
CTTCCAGGAAACAAAGGTGTGGAGAACTTCTGAGAGCAGCCACGTTTATATAACTAAGAGACAGTGTCTAATAGAAAACAGAAACACCCCATGGCCTGGG
AAAGGAGATGGCGGGTCTACAGGATGCTGGCATCAAGAATATCTAGAGGTGTCCACTACACCTAATGGATACCAAGAACAGATGTGAATTTTTTGTTTTA
GATGAAATTTTACGATAAAAAAATCCCAATTTTGTAGATATATGATGGATGTTGTTTTAAAAGATCTGATCTTCAGGTTAACGGGTTTCCTGTTGTAGGA
CTATACGATTATAGGACAATTGAGTAGCCAAGAGTCCTCAAAGATCAGTTGTCCAAAAGAGAAAGAAAGAGAAAACTGAGTGTACGATGTAAGAATGGAG
AATTGGCTGGGCGCAGTGGCTTATGCCTGTAATCCCAGCACTTTCGGAGGCTGAGGTGGGCGGATCACCTGATGTCAGGAGTTCGAGACCACCCTGGCCA
ACATGGTGAAACCCGTCTCTACTAACAATACAAAAATTAACTGAGCATGGTGGCAGGCACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAA
GAATCACTTGAATCCAGAAGGCAGAGGTTGCAGTGAGCCAAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAACAAGACTCCATCTCAAAAAAAAAA
AAAAAAAAGGAGAATTAATTATTCAGCAGCTCTTGAGATGGTGGCTCCAGCCTGACCTGGGTTTGAATCTTGGTTCTGGTACTTTAGTAATTGTGGGATC
TTGAGCGAGGTACATAACCTTTCTAAGCCTTGTTAGTCTCTTCTGTTAAAGAGAGATGATAATGATGATGATACATATCACATCAGATTATGAATATTAT
ATGAGTAGTGCGTCTAAAGTCATCACAGGCTGGGCATGGTGGCTCACCCCGATAATCCCAGCATTTTGGGAAGCTGAGGTAGGAGCATCACTTGAGCCCA
GGAGTTTTAAACCAGCCTGGGCAACATAGTGAGACCCCGTCTCTACAAAAAAATCTTTTTAAATATTAGCTTGGTCATGGTGATGTGTGCCTGTAGTCCC
AGCTATTTGGGAGGCTGAGGTGAGAGGATAACTTGAGTCCTGGGGGATCAAAACTGCAGTGAGCTATGATCACGCCGCTGCACTCCATCCTGGGCAACAC
AGCAAGACTCTGTCTCAAAAAGAAAAAAAAAAGTCCTTATCATACCTGGTGTATATATGAAACTTTTTCTAAAGCCACTAACTACTGATTAAATTAACAG
GACATATGAGCTTCCTTTCAGTGCCTAATTGTCAATGAGAAACCCAGATATGGAGCGTGAGGAATCTACCATCTTCTAGGCACAGTAGCTGTTATCCGTT
TGCCATTTCTTCTTTGCACTGTAACAGGATCCGCTGAAAAACAATTGGAGAAAGAGCCAGATGGATGGCAGTCTGAACTAGGGAAGCTTCTGTTTTGTAG
TTTGCAGAAAGAATCTGCATGGGGATCACTGCTTAAGCTTTGCCTCTTTGTTTCCAGACACAGACGCACTTTCCTGCCTAATTTCCATAGCAAATACCCA
ATGAGCGCCTACTGTATGCCAGGTTCTGATGATGTCAGAGTGAGCCAGCACTTCCGAGGTACTGGCCACTCTCAAACCTCCTGGCTAGGATCTTCCAAGA
GCTACAGCCTCTGGCCTGAGGGTCAGTCCAATGCTGTTAGATATTGACAAATGCGGGGCTAATTTTAATGGAATATAGTTTTATCCTTAAAAGGTGTGTG
TGTTTTGGCTTTATTTGGGTTCATATAGATTAGGGGCATCATCATAACTCGCTTCCTAGTGCAGACCTGAGTGATTTAATCAAGTCTTGAAACACTTCGG
GGCCTCAGTTTTTCATCTGCCTTCCCAACCTCTGAGGTTCTTTTTAGTTGACATCCTACATTCCCATGATCAGAAGGCTGCTAATTCAACTTTTGGCTTT
TGTTAAACCTTTTTTTTTTTTTTTTTTTTTTGAGGCAGAGTTTTGCTGTCACCCAGACTGCAGTGCAGTGGTGAGATCTCAGCTCACTGCAACCTCCTCC
TCCCAGGTTCAAACGATTCTCCTGCCTCAGCCTTCTGAGTAGCTGGGATTACTGGCACGTGCCACAACACCCAGCTAATTTTTGTATTTTTAGGAGAGAC
ACGATTTTGCCATGTTGGCCAGGCTGGTCTCAAACTCCCAGCCTCAAGCGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGCATTACAGGCATGAGCCAC
CGCACCTGGCCTGTTTTGTTTTGTTTTAATCGTTTTTAATGTCTCTCTCAAAACAAGAAAAGAAAAAAGGACAAAAAATTACTATTTTACTTCTCAGATT
AATCTGATCTTAGTACACTACAGCAACAAAAGTCTTAATCAAGTACGTTTTAATTATTTGGTGTCATCATTGCAAGGAAACCATTCAGTAAGAATATTAG
TAACCAGACATATAATTTTCTAACCTGAATGAGAAATTAGTTACATGGAGTATAGAAAAAGAAACCACCCCGTTTATCCTCCCTGTGACCATCATTAGTA
TTACCCGCAAGGCATAAAAAGTCCTAAAATGACACGCACGGCGGCAACATTACCTTTGCAGCTTCAAGCACAGTAAAGTTGAAAGCAGTCCCACCTTGGC
AATTGTGTATAAAACGACAATGTGCAGATACAGGAAAAGTCCCAGGTCCGAAGCCACCTAGGAACGATGACCCCAGGACAGAAGTGTGCCCAAACAAATG
CCTGGGGTAGGTCATTTTAAAAGGAACAATGTTTACAAGCCCTTTCTAGCGTGAAAAACAGAGAAAAGAGACCCAGCTCTTTCCACCCAATCTGCTGGAG
CGCCGTTTCGTTTTCAGTTGGGCGAGAGGGAGACATGTGGCCTCTCGCCCCTTTTCCTGACTCTGAGAATGTGGCCGGAGCCGGGGCGCTCCTGCTCCGC
CTCGCCGCCCTCCCGGGGCTGTCCTGGGCCCTCCGGCCGCCGCCTCCCGCTCCAGTTCGCAGCTGGGCGACAAGTGGCTGGTAAGGAGGCCAGGGGCGGG
AGCCTGGGCGCGGGACCGGGGGCGCACGGCGGGGGACCGAGCGCGCGTCCCTGGCTAGAGGTGCCGGGTCCCGGGAGGCCGGGCTGGCGGGGAGGCTGGC
GAGCGCCCCCTGGCGGGCACCGCCTTCTAGGCGCACCCGCAGTGCGCCGGGCCCGCCAGCCCCGCCAGCCCCGCCAGCCCCGACCGCCAGTCCCCGCGCA
GTCCCCGCGCAGTCCCCGCGCAGTCCCAGCGCCACCGGGCAGCAGCGGCGCCGTGCTCGCTCCAGGTAGGGCCCCGCGCCCCGCGCCGCCGCCGGGAGGG
AGCGGGCTGGAGGGGCCGAGACCCGTGGCGAGAAGGGCTACCCAGGCCCCTCGGAGAGCCTCCGGGAAGGGGTGAGGGCTGCCGGGTGAGCAGGCGGAGT
AGGAAATGGAACCAAGCGGGCGCAAGAGCGCACCGGGAAGAATTTCCCCGCTGGGTTTCTGGGACGCAGGTCGCACGGGATGCGGGATGCTGGCGACCTT
AGCCGGGTGGGGGCCGCCGGCCTGGGGGCGCTTCCTCCTTTCTTCTCCCTTTTCCTTCTCACCTGAACGAAAGGGGGCCTGCGGGGAGGGAAGAAGGTGG
AAAGTTTTTGTATTCTTGGTAAAAAAAAAAAAAAAAATGCGTGAGGAAACATGTTTTCTGGAGRTGGTATCCTGTCCACAGGGGAGCATAACCCCTTTTC
TGGGAATGTATTGGAGCACGGACGGGGGTGCCATTGCTCAGGCTTCTAAACAAGCCAAGTTTCTGGTCAAGGGCCTGGGGGAGGGGGAGGCAGGTCTTTG
AAAGATACCAAAAAAAAAAAAAAAGAAAAATCTGCGTGCTCATTCCTGTAGCCTCAAGTGAGGTTATTCCCCAGCTTTGAGGGCCAGGTTAACCAAGCAA
AGTTTGTGCAATAAAGTATCTTTGTGGTATTGGATTTTCGAGAGCCACCGTTATCAATGGGAGAGTGACTGTTGAATGCTACAGGCGTGTGCACTCYCCC
GTGGGCATGAAGAGAGGTCCACGGGCTGGCTGGATTGGGAGACTCCGGTCATTTCTGCAAGGAGAGCGCCACAGGACTGCCTTGTTCCCTGGGCTGTCCT
GCCCCTGTGCGGGCTGGAYGTGGTGCTATAAAAGATGATTCAGGAGTGGCACAGGCTGAGGGGGACTAGGCTGGAGAAGGTGGAGGGAAGAGGGAGCACT
CCGTGCCCTCTTCYTGTCCATGGGAAATGAACCATCTGTGCCTGGTGTCCAAGTCCTTGACGTTCCAGTTGCCCTTTGAGAGCACACCTYAAGCCTGCTG
AATTCTTTTAAGAACCACCTACAAGATCTGAGAAGTCCGCCCATGCTTTCTGTCAACTCCGGCCTCTTTGACCTTTTCTTTTGCCAAAGAAAATTCTAAA
CCACTGGGATTCGTGAGGCTCCGTGAGAGAGGCAAGAAGCCTGGAGGGTCCACTCCGTTGCTCTTTTCCCTTGGTTTGCTCCCTAGAAGCCATGGTCCCC
ACTGGGCCCTTCTTGCCCGAGGCTGTGTGATAGACAAGCCCTATTCCTAAGGTCCTGGGTCCCCCACCCCACCCCACACCCCGACCTTGTGAATCATCAT
CTTCATATTTTCCCTAACTTATCTTTGGTAACCCTTGTAAAATGGCAGGCTTACTGCGGATGCTTAATCTCTTTTAAAAGTGCTGTGTCTAGCGGGAAGA
AGAGTGACATTTACTAATATGGTTGCAAATTACTKTTGAAGTTTATGCACAGCTGTTTAAAATCCCTCTGAGATCAGTGCCATTGTTTGATGCAGGTGCT
TACCGCAGAAGGCTCTTGTTAGTCCCTTCCTCCTGCTGATTGAACATACATATATTTAAAGACGTGGCGTAGGGAGAGCTTCTAAAACCTGCAAAGCCAA
AGCTGCACAGCTCCTGCAAGTTAGCGATCCACTCTAAGTTTTTCWGTTGTTGTTTCTGTCTTCTTGCCTCTCATGAACTTCTGTTTCTGATTTCAAGAGT
AACCTGCTGGGCACCATCAGCCTTTGTTTCAGTGACCTGCGATTTTCTTCTACACTTTAAAAATGTCAATATCCAGGCAAGACTCTTGTCACCCACCATC
CGCGTTGTCATGTTCATTTCCGCTACTGTCTTGTGCTGTGGTGCCTCGGGATGGCAACTGTTACTTGAGGAGCTAACTTCTACCTCTGTTCTCCTACAGA
CATGTCCTCATTGCGTCTTCGCTCACCATACACGGTGCAGCTCCTGGAAATTTGATTTGTTTTGCTGTCTCACTTCTCCTTCAGGCAACAAGGGGATGGT
GTTCGATTATTCACACCTCAGCTCCTTCTGTAATCTCAAAGATCCCTTTCAACAATAATACTCTCTGTCTCTTGTTAACGCCAGGCATCAGAAGCCCCCT
TACATAGCCGGCTTGTCACTGGTCATTTCTATAAAGTATTCTCATTCTAACACATGCTGTCTCTTCCGTGGAAAAGACTAAATTCTTCTCTGCAATGAAT
TAGATGTTTTAACCAAAATTCCATGTGGACTGGGTCCAGAATTTTCTTTCAAGAGTATGGGCTTGTGGTACAAGTATGTAACTTCGGGGATTCAGAAGTA
GACCTACACAGACAAATCTCCTTATAACGTGTTATTTAATTATGGTATATTTGCCTTTCTGGAAATTAGGAATTAGAGTTAGTACTTCCTGTTTTTAATG
CATTTGATTGATGTCTTAGAGTTGCTGATTATGTTGTTGCCCCTAAAAATGTTGCTAATGTGCTGGTTTGTTAACAAGGTTATATTTGATTTCAGGTGAT
TTCCTTTTTATGGAGTTCAGTCTTTAATTTTTTTCAATAATTTGCCTCAAATCATTTAAAATGATATATTGTTATATAATGAAAATCCCAGCAATATAGA
CGTGATTCCGTGTGTGTGTGTATGTGTGTGTGTAATCTGTAATTTAAAATAGAGAAATTAGTATTGTGACGGCATACATAGCATTAAACTCATGCTTGCT
GTTTCTGTTGTTTTAACACTTTAAGCAGCTCATTTCTAAGCAGCTATGTGTTCAGCTCAGCTTTTTCATACCTATTCCAATTGTTAAGGAAGAAGTCATG
AGAAACTATAGAAAAATGTGATGTTGAACCAGAGAGATGGATTAAAAGCTGTTTCCTTACAATGGTGAAAATATCTTTCATTATTTTAACATGCCAAGCA
TTTATACATGTCAAATTCTGATTGCTCTGTCATCTAAACACATTCTTGGGGACAAAATGAGCATCAGAGTTTTAAAATTAGGAAAGCTCACTCAAGCCCA
GAATCATAGATTTTTGCTCCTGGATTAAATTAGCAAGTATTTGGCAGGACATCTTTCTGCAGGTTGCTGTAGGTTGATGTTAGCTTTTGAATTAAGCTAA
TAGTATTAATTATAATAATAATAATCAGCATCAACAAAACCAATGAAATATGGTTTTGAGTCTTTATTATTTAGAATTTATGTGCTGTATATCATACTCA
GAATTTTATTTATATGTAAGAGGCATTACTGCTTCATTTAACCTCCAAAAGCCTTTATAAATTAGATATTATTATTATTCCAGTTTTTCAGATGAGGAAA
CTGAGGCTCAAGGRGTAGAGCCCCTTGTCCAGGTCTTATAACCAGTCAGTGGTAGAGTCAGGTTAGTTGGACCATCCAGATTAGTCTAACCATCAAGCAT
TTGCTTTAAACCGCAGTCCCAGGTGACCTACCAGTTAACTTTTTTATTGTGGTTAAAATACACATAACTTAAAATTTAACTTCTTAACTATTTTCTAGCG
TACAGTTCAGTGACATTAAGTATATTCACATTGTTTTGCAACCATTGCCATCATCCATCCACAGGATTCTTCTCATCTCCTAAAACTGAAACTCTGTCCT
CGTGGAACATTCGTTCCTCATCCGTCTTTCCTCTCAGCCCCTGGCAGCCACCCTTCTACTTCCTGTCTCTAAGATTCTGACTGCTCTAGGGACCTCACAG
AAGCAGAATACAGTATCCATCCTTTTGTAACTGTCTTATTTCACTTAGCATAGTGTTCTCAAGCTGTATCCATGTGACAGCATTGGACAGGACTTCCTTC
CTTTTTAAGTCTGAATACTATTCCATTTATGGATATACCACATTTTGCTTATCCTTGTATCTGTTGATGGTTGCTTCTATCTTTTGATTATTGTGAATAA
TGCTGCCGTGAAGAGGAACACGCAGATATCTGTTTGAGGTCCTGCTTTCAATTCTTTGGGGTATGTACCCAGCAGTAGAATTGTGGGGTCGTAGGGTAAT
TCTATGTTTAATTTTTTGAGGAAMTGCCATATTGTTTTCCACAGTGGCTGGACCGTTTTACATTCCCACCAGTGGTAGAAAGGGTCCCAATTATTCCACA
TTCTCAGCAACGCTGTCTTTTGTTTTGTGTTTTTTGAGATGGAGTCTCGCTGTGTCGCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCT
CTACCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTATAGGCACGCGCTGCCACACCCAGCTAACTTTTGTATTTTTAGTA
GAGATGGGGTTTCACCATGTTGGCCAAGATGGTCTCRATCTCTTGACCTCATGATCCACCCACCTTGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGC
CACCGCACCTGGGCTTTTTTAAAAATCTTCTTTATAGTAGCCTTTCTAATTGGTGTAAGGTGCTGATAGTTAACTTTTTACCCAATCATTGAATGCCCAA
TGGCAGGGATCTCTGGGCTGATGCTACTCCTGAGTTCATTGTTTATTTCCTATCCCAGCTTGAGCATATACACCTTTTTCTAGTGTAGAATTAATGGAGG
AAATACAACTCACACAGCACCTGAGGGACTAGGGAAGCCATGGAAAGGACAGTCCCTAAAACATAAACAGAATGTCCCGGTAGGTAGGGTTATCTCCACC
TCCATGAGGAACCTTATGATTCAGAAATGAGTAGTTGTTGAGAATAAAGTGAACATGGCATCAGTGTTAATAACCCTGAATGTGTGGGACAGATGCTTTT
TAGAAGATTAGTTACAGATATAATTATCTTTTGTATGTTATCAGAGCAGGACAAGTTCCCAGGACAATGGAGAGAATGGAAAGGGAAACTGCTATTGAAT
TCACCAGGCCTTTGTTGCAAGCCTCAGATCACACACCGTGCTGCAAAACCCACAGGGAGATGTGGTCAGGCAAATAGGAAATTATAATGAATTGTGATGA
ATTCATGAGATATTTGTACTATTTTGTATCAGTTTATAATGTCATGCAACTCTGTTTTATATTTGCTAGTTTCCTTTCTGTCTCTTTTTTCCTCTAGCAT
GAAACTCCATGAGGGCTGGCATTTTGTCCCTACATGTGTCCCCAGCCACTCTAACAGGGCCTGACACATACCAAGTTGTGAACAAATATGTGCAGAATGA
TTGTGTWAGTGTTTCAGTAGGGGACACACTTGGTATTATGTGCACAGCTAGATTTGGGGTGTCGCAGAGCTGTCAGTGACGGCTCAACTGAGACCTGAAG
GGGAAGTGGCAGTGAGCCAGATGGGGGTTCTGGGAGGTAGGAACAGTGTTTGTAGAATGTCCCTGCAGCATGTGAGTCTGGAATCCCAGTGCAGTCCAGT
CTAAGCCTTGCAGATGAGTGGAAATGAGCAGAGTAAGCATCACAGCTTCCATTTAAACCTCTGCTCCCCATCCTAATTTGCCATATGACCTTAACCAGTG
AACTTCTTGGAGTGTCATTCTCTCCATTTGCAAAGTGAAGAAAATTGTGATCTCTGATAGCAGTGATGCTGCGAGAAAGGAGCATGTGCCAGTGTGTGGG
STATTGCTGRGTGGAGCTGGAGGAGTCAGCTGTGCCAGATCACATAGGACCTGTAAGCAGGTGAACCATATACGTTATCCTCCAGATGGGGACTGTTTAT
AGAGTGAAAGAGCACGTTATTAATCACTAAGCTTGGGTAACAGGTACAAACCCAGATTGTCCTGGGCAGACTGTCCYGTAGAGTTGTCCTGCGTTAAGTC
ATAYGAAGGAGTTTGATCCTTTTCTAAGAACAGGAGGAACCCTTTAAATGCTTTATCTACCAATGTATACAAGTGCCATTCAGGTTCTCTCCAGCGTTTC
AGAGAGTTTTACCTGCCCATGAACTCACAGCACTCGGCTTGCACTGCAAACTCACCTATACGTTGGCAGCTGTCTCCTCACTGGGCACTTAATTCATGAA
CAACTAGGAGGGAAAGACARCAAGACAGCCAGGGGTCTGCTCTTTGGCTCTTTGCATTTTTTTTTACGGGGTCTTGCTCTGTCGCCCAGGCTGGAGTGCA
GTGGCACGATCTCAGCTCACAGCAGCCTCCGCCTCTGAGGCTCAAGGGATCCTCCGGCCTCAGCCTCCTGAGTAGCTGGGACTACAGTTGCATGCCACCA
TGGCCTGGCTAGTTTGTGCACTTTGTAGAGATGGTGTTTTGTCATGTTGCCCAGGCTAGTCTCTAACTCCTGGGCTCAAGTGATCTGCCCGCCTTGGCCT
CCCAGAGTGCTGAGATTAAAGACATGAGCCACCACACCTGGCCTAGCTCTTTTCGCCTTTAACTGGAGTGTTAGCTGATATCAAGAACACATCTTTTGGG
TTTTTCTTTTTTTAACCTTGTAACACCTAAAGGACTGCGGCTAAGTGTTAAAAGAAAAAAATTTCTATCTGGTGGTTTAAATATCTGCAGAAGCAGAATC
CTTGTCATCCTGAAATTTTTTCCCTGTGGGCAAGAATTCCTAATAAGCGTACAATCTATTGGAAAAATCAAAAAGTAAACAAACTATGGCAATATATTCT
AACATGTATTGACTTGTCACTATCGGCCGTTTGCTGTGCTAAGCACTATATGTAGATGATTGCTTGGGTGCTTTGAGAACATGTARAAGGGAACCAAGTC
CTGATTCGGAGGTTCAGGAAAGGCTTTCAGAGGACAAGGTATCGCGGGTGGGRATGGAAGATGTATGGGAATTAGCCAAAAGGACAGGGGTTCAGAGGTG
AGCCAAGTCTGTCCTGAAAGTAAGCAGAAATGTTGTTGTTCTTGTCGTTTTGAGAGAAGTTCATCTCAGCTGTGTTCAGCATTTTTAGGGCATAAGCTTC
AACATTTTCCGTTCTGTTTTCACTGATATGTTTTAGCTATACAAAAGCAGGCCTTCTACACAGTTTTTCAAACTCCAAGACACAGTCTACTAGTGGGCAA
TGACATTAATTTTGGGGGTGATAACAAGCATGAAATAGAATAAAACAGAAAATATTAAGATGCATTTCATGTAGGAAGGGTAATTATTTCATGAAACTGT
ATCATTTGGTTTGGGACACATTAAATCTGTTCGTACCTAAAAGAAGACATTCATGCAGCCAACAAACATGGAAAAAAAACCCTCAATATCACTGATCATT
AGAGAAATGCAAATCAAAACCACAATCAGTTACCATCTCCTGCAAGTCAGAATGGTGATTATTAAAAAATCAAGAAACAACAGGTGCTGGCAAAGTTGCA
GAGAAATAGGAACGCTTTTACACTCTTGGTGGTGGGAATGTAAATTAGTCCAACCATTGTGGAAGATGGTGTGGCAATTCCTCAAAGATCTAGAACCAGA
AATACCGTTTGACTCAGCACTCCTGTTACTGGGCATATATCCAAAGGAATATAAACCATTCTGTTATAAAGATACATGCACACCTATGTTCATTACAGCA
CTATTCACAATAGCAAAGACATGGCATCAACCCAAATGCCCACCAATGGTAGTCTGGATTAAGAAAATGTACATACACACCATAGAATACTATGTAGCCA
TAAAAAGGAATGAGATCCCTGTCCTTTGCAGGGACATGGATAGAGCTGGAAGCCATCATCCTCAGCAAACTAACACAGGAKCAGAAAACTGGACACCTTA
TGTTCTCACTTATAAGTGGGAGCTGAATAATGAGAACATGTGGACACAGGGAGGGGAACAACACACACTGGGGCCTGTCGGGAGGTGGGATTGGAGGGAG
GGAGAGCRTTAGGAAAAGTAGCTAATGCATGTGGGGCTTAATACCTAGGTGATGGGATGATRGGTGCAGCAAACCACCATGGCACATGTTTACCCATGTA
ACAAACCTGCACGTCCTGCACCTGTATCCCAGAACTTAAAATAAAAATAAAAATTAAAGAAAATTACATACCTATGGCATTTAGTTTTCTATACCATTCC
TTTAAGTCATAGAATCAGATGAGCTYAGGGGCTAGAAGGAAGAGGGAGCGATGGGAAGGCAGTCGTTGGTCATGCCCTGGGCCTRGATCGCGGGAATCAG
TCATTCAGAAAGCCCCATATGTTGGGTGGGTCTCACAGCTTACAGAGAAGCCAGCTGAGGTGTGCAGGTTAAGAAACTTGATCTAGGGTCACAGATTAAA
TTACTAGCGCTGACCCCTGATCTCTTGGCTTCTGATGTGGTGGTATTCTTTCCATACCTCCAGGGACTGTGTTCCCAAAGTTTGTTAGTTAGGTGGCTGT
TTAGGGAAGGACCACACCTGGTTCCTGTTTGTTTGTTTCTTGGTTTGTTTGTTGGTTTGTTWGTTTGTTTGTTTTTGAGGCAGGGTCTTGTTCTGTTGCT
CAGGTTGGAGTGCTGTGACTCARTCTCGGCTCACTGCAACATCTGCCTCCCARGCTCAAGCAATTATTGTGTCAGCCTCGAGAGTAGCTAGGACTACAGG
CATGCACCACCACACCTGGTTAATTTTTATGTTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTAGACTTGAAATCCTGGCCTCAAGTGATCCT
CCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCCCACCTATCAAGGGAAGATATTTTCTTAAGGGGAGTATGTAATAACAACCATGT
CCCTGGTTTGTTARGAAGGTTATAAACTTTGAAATATACCCATCAGTTTCATAAAGAGCAAGACAGGTTAGGAAGAAATAGTGTTCATTATACAGACTAG
AGAGCTTTCAGCTTGACATTGACAAATATAAACTTGGCCACTGTCCCTCCACTAAAGCGTTTCCCTTGCTGCTGGGGAAGGACCGCCTGGTGATGTTGTG
TGAGATGATGCACTTTCTTTGCCCCCTCTGTGGTCACTGGGATCACAGCTAAATCCAACTGTCTGCTTTTTCCAGTGTCTACACATAGGCTGATGAGTTC
TCCCGGAAAACACGCCGCTCTGCAAATTCAGGATGCCGTAGCTCTGTGACTTCCCACTCCATCTAGGATCTCTGTCTTCCCCAGCTCCCAGACGTTTCCC
TGGCCAATGATCTTCCTTCCCACGGCAGCTTCTCCACAGCTGCTCCTGCCTCCGCCGTCCCCTCGCACTCAGCAGCTGTCTTGCCTCCTGCTTCCCTGAG
AAAGTACAAGTTTCCCGATTCAGAACTGCCCCCACCTGGGGATCACAGGGCTGCACGCCTCACTTTATCTGAATCCATCCTCTCATCCTTCTTTTCTTTC
ACAACGAAAGAAACCCCTCAGTTCCAGCCAGGCACAGTGGCTCACATCTGTAATCCAAGCACTTTGGGAGGCCAAGGTGGGTGAATCACTTGAGGCCAGG
AGTTTTAGACCATCCTGGCCAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCGTGCTGGCGCATACCTGTAATCCCAGCTACTC
GGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGACAGAGGTTGCAGTGAGCCGAGATTGCCCCATTGCACTCCAGCCTGGGTGACAGAGCAAGAGT
CTGTCTTAGAAAAAAAAAAAAAAAAAGAAGCCCCTYAGTTCCTGTCTGAGGCTCACCTCCCCTGGGGCCCTGGAATCCATTTCTTTCTTGTTCTTGGGAA
TCTCAATCTCTTATCTTCCCTGTCACCTGCATTTTCCTTCTCTCCCTCATTTCTGGCCCCATTCTCTCTGTATTAAGTGCGCTTAAATCCCTTCCTTCTG
TGAAAAAAAGAATATATATCCTTTTATACCTTCCTCCAGCTACTTCCTTGTCTTGCTTCTCTTCACAATCAAACTCCTCAAATTGTTGTCTACACTTGCT
GCCTTTGCTTCCTCACCCCACATGTCTTGAACGACAGATGCCTGGCCTTGCCTCTTGCACCCCTCAGAAATGATCACCCGCACTCTCCTCATGGCCGATT
CCCGTGGAGTTCTACCCGCCTCTTACCTGACTTCCTGCAACCAGATGTGCCGTGAGCACACATGCATCCTGGGACATTGTCCCTCTGTGTCTCCCATGAC
CCCCCTGCCCATGTTTCCTTCCTTCCTTCCTCTCTTCTCCTTTGCAAGCTCCTCTTCTTTTATCAACCTGGATGACTGATGTTCCTCAATTTTCCCGCCC
TGTGAGCATCCTCTTCCCTCATCAGCCTCCATACCTATCTCCTCGCTGACTGTGACCCAGTCATGACTGCCCCAGATCCTTGCCATTCTTCCCCAGAAAG
TTCCTGGGCACGTCTAATGCCTCATGCCCCAAACTGGATGCACCACCTTCCCCTTTCTCTTTCAACACGTTTTCTCCTCCTGCTCTTTTCTGCAACTGGC
ATAGACATCACCTGCTGCACGACCTGAAATCTGTGTGTCTTTCCTTGATTCTGTCTCCCCTATCTCCATAGCTTGCCCCAAACCAATTTTATTCACTCAC
CCCAATTCCTCTGTGTTCCCTCCAGCCTGTCACACTCCCACCACCTCTGCTCTAATTACAGGCAGCACCGTTTCTCTTCTGGGTTGGTGTGGAACCTCCT
CCCTAGCCGTGGTTACCATGGGCTGCCTTCTGGAACCCAGTGTGCCACTCCCTGCTCTTAAGTTCTCCAAAGGCTACCCAGTGCCCCCGGGATAAAGCCC
AGCCTCCCTGATGTGGATTCGAAGGTTCTACTCCTTTCCTCTCCAGCCCTCACATCGGGTTCCTCCAAGTCTGAGCCTCTTTAAGCTCCTAGGAGGTCCC
AGCATCCCCTCATCTYGTGGACGTCTGCTCAATCTCTGAGCTACTTCCTGTACATCTTCAGCTCCCAAGATGTCTCTTGTCCTCTGGAAAGCTCTTCCTG
ATCCTCCACATCAGGACTTGGCTTTCTTCCACATTGTACACTCCCTGAGGACTGGATCCACACTCTCTCTTACTCTTTTTGTTGCACTTCTAGCAGTCAG
CATTGTGTCTGACACGTAGTAGGTGCTCAGTAAATATTAGTGGGATAAATAAATGAGTCATATATTTTAGAATCTGTAATGCCCAAGGTACTGTGTGCTA
AGTGTTAGAGGAAAAGAATCCCAATCTAGTGACTTAAATGTCTGCACAACAGAATTACTATTGTCTTGGAAGATTTTGCCTGTGGACCTCTGGAGTTATC
TAGATAAATTCTACCAGAAATCAGAGCTGAAGGGGGTGGGAAATGTTTAGAATTCCGGGAGGTGACTTGCTGCAAAGACTCCATCTCCCCTTGTCTATGG
TGTGATTTTTCCCCTTATCATCCCCTTGGCATCCTGCTTTGTGGACCACTGTAATGTCAATAATTAAAAAAAAGATTAAACTGGCCGGGCGCGGTGGCTC
ACGCCTGTTATCTCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAATGCAGTGAAACCCCGTCTCTACT
AAAAATACAAAAAAATTAGCCAGGAATGGTGATGTGTGCCTGTAGTCCCAACTACTCGGGAGGCTGAGGCAGGAGAACTGCGTGAACCTGGGAGGTGGAG
CTTGCAGTGAACCAAGATCACGCCACTGCAGTCCAGCCTGGGAGACAGAGCAAGGCTCCATCTCAAAAAAAAAAAAAAAGGTTAAGCTAAGAGTGATCAG
GAAATAAAAGATAATATTAAAATATTCAAAAATATTCTATAAGCAAAAGAATGAGGCAACAGGTAAACATAAAATGTAGACATAGCAAAAATTCATAAGT
GATTTTAATAAAGAAAAAATAGTAAAGGATAAAAGATAAAATTTTGTTTAAATTAAATGAAAAGATATTTTAAGTCTTCTTCAAAACAAAATCATAATTT
TTTTTGTTAGTTTTGGGGGGATTTTTGTTTTTGTTTTTGTTTTGTTTTGTTTTTTTCTTTTTTGGAGACAAGAGTCTCGCTCTGTCACCCAGGCTGGAAT
GCAGTGGCGTGGTCACAGCTCACTGCAACCTCCGCCCTTCGCCTCACCTGAGTAGCTGAGACTACAGGCTCACAGCACCATGCCTGGATAACTTTTGTAT
TTTTAGCAGAGACATGTTTTCATCATGTTGGCCAGGCTGGTCTCCAACTCCTGACCTCAAATGATCTCCCAACCCCCTGCGCCACCACCAAAGTGCTGGG
ATTACAGGCGAGAGCCACCACGCCCAGCCTATAATCACTTTTAAATGTACTAAAATAGATACGAGTAAGAAAGGTAAAAGACTAAATTCAAGAATTAGGA
TGATAGAGGTATGCCCAAAACAAAATAAATGAAAGCATTCACAAAAAAAAGAATGTTTATCTTAAAAGGAAAGAGTAGTAAACTATTTAAGGGACTCACT
TAAAAGTAGAATAAACCAACATTATGAAACCAAAGAAAAACATAATCTTTCAAAGAAGATTAGAAATAAATCCCAGCAGCAATAAAATAAAATGGGCACT
CACATGTATGGGTTTCTAACAACAGCTAAACCCCAGCTAAAACAATGTTAAAGCCAGTGCTGAGGTTTCCAGCTTGTACCCCAGAAGGCCTTGGTGACCT
CAGGGATGTCATAGAGGGAAAACACTGGGACATTTCCCTCCTGAGGAATGTAAGCACAGGGTCAGATAAGGGTAGAGAAGAGAGCTACACTCATCTTTGT
CTGCAGAATTCGGGTGACGCGTCTTACTGTGCAAGACTTGGCACCTTGTGCATTCTGGCCCCAAATTGCATCTCCATCCGTGTGTTCTGCTATCCTTTCA
GAAATGGGAAGATATGGTGGGCCCTTTAGGGCCAAGCATATCCCTGTCTTTGTTCATGGAGGCCTCTTCTCAAACAGAATCCCTATGTCCTGTTCATGAA
ACACTATTTGCCCCTACTATATAATTGGCATTTTTTTAAGTGTCCTATTGTGTTAGAGCTTTTCCAAGTCGCCTCTGATGTGTGGACTGACTTTCTGCTT
CCTGTGTCTCTGGGAGCTTGAGGCTTCTATCCTTCTCATTAGTGGAGCTCCCTAATGACATTTTAATGCAATTATTGTCTCTTGAGTAAGCCTGAGAGCA
TGTACCGAGTCTTCTCTTTCTCTTTCTCTCTTTAACTCTCAGCACAGAGCTCAGACGGAACCTTGGATTGAGGAGGTTCATGAGGCCTCCTGTAGCCAGG
GAATATATTTTATTTCCCTCCAGTTACCAATATGAAGGTTTCCAAACGTTCATATCATATTTTAGGCCCTAATCATTAATATTGAGAGCCCTAAGCACTC
CGATTTGGGTCCATATCTAAAGGTGAGTTTTAGGGGATCTGACTGAGAAGTGTTCCGGGCCAGCTCCCTAGAAACCCTTGGGTGCACTGACTTCTTCCTG
GCCAGTGTYGTCTGCTTGGTCATCAGTGTGTTCCTCCCCTCCTGAGTTCTCTCCATCTTTCTGTTCTTCTGTTTTCTTGCAGTAATCGAGGACAGGTGGT
CGCTGGCACACAAGGATATTAGGAACCCATGAGGTTGTCCCTTGTAGGAGAAAAGACTGGAGAGAGGCCACTGAATCTCGTTGTGTCATTCACCCTACCT
AGTCCTGCTCTGCCAGGGTCATGCTCACCTTCCAGACCCMCCCAACAGTGAAGTCGGACTGAAAAATCCCAGAAGTGGGAATTGGGAGACAAGGTTGAGT
GCATTAGGGGGATGTCTAGGATTCCCCCTGATTCGAATATTTTGTAGCTGTTTTGAGGGGTCCTTTTCGCATCCAGACCAGGATTTCACCTGGACAGCTG
GAGTGGGAAAGAAGTGGATACATTTCAARCTCCTAGGGCTGTAGTTAATGTGTCCTGTCATAACCACTGCAGAACAGTGTAGGTCAGAGAATGCAACCAC
TGGTGGCATGTATAACCCTTCACCAATAAACCGAAGTGCAGTCCCACAAACATGGGAGTCATTCAGCTACAATTAGCTTTGCTATGGACAGGAGGAATTA
AAATTTAATACCGTAGCAACAGCAAAACATGATTCGTTCTACAGTGTTAGTGGGGATGGTAACACAAGGAAGGTTATGATAACCAAGTTTCTCTGAAAAG
GTCAAGTGGATTTCCTCAGTGGGCTATGTTTCTGGAATATAAGGTAATGGTGAATAATAGAGGAAATCTCCCTCTAAGAATGGGAACTCTTTAATTCATC
TGCATTAGTCATTCAATAAAAATAAATTAGCATACATTTTACTGGGGACCTATTTAGAGGGGTACTATGAACAGTAGCCATAAATAACTCTTGCATAGGA
AGAACGTGAATTACTCTACTTTGTAAATATTAGTTTGCAAAAGTAATTGTGGTTTTGCAATTACTTTTGAGGAACGTAATTCAGTGGGAAGTAACTTGCA
TAATTCCAAGTTCTGAAGCAGAGGCAGCTGAAATATTTGCCATTGCAATGAAAAGGACTTTCCTCCCGGGATTCTTCCCTAGTTCCTGGACAAGGAGATT
TGTTAATATTTGTAGTACACTTGAGATCTGCGACTAAAAGTGCTTTAGGAGAGAAAAGCATCACAAGAAGAAAGGGCTTTTTGTTTCTTTTTAAAATAAA
ATAAATGCAATTTCTTTCACCAAAAAAAAGGCGAACATTGCTAAGCATAAATGAGCACTTCCTTTTAGAAATGAATAAAGTAAAACTCAACCATTAKCAA
CTTCCCATAGCTAGAGCTCGCAGAGGAAAATGTTAACACATAGCATCATGTTTGAATTTTATTATTTTCATAGAGAAGAAAACCAGCAAGCAAACCCCTT
CTCTTGAGAGAACAGCCTTGAAGTACTCAGAACAGAGAGCATATGTATCTATTGAAATAAAATAAAGTCACTTTTCTCCAGGAAAATACTATAGATATTT
TCTCATGGAAAAAATAGACTAGACCTATGGGTCTAAATATGTAAACATAAAGAGAGATCACACTATTTATTCAAGTACTGTGCTATCTCAAGACACCCAG
CCATGCTGCTAAGAAGGCGCATTATAAAGAAGCATCAAACATTCTGCAGTTTCAAAAAGTGAAACGTATATTTGCTTGARTGTTCATCTAAACACTACCC
ATAGGAAAATTCAAACGAAACTCCAGGGAATTTTAATCCACATGCCACATTTTCTTAGTCTTTTGCAAGATAGAGTCAGAGGATTACATTTTCTGAAAAC
CGCTTTTTAAAAAGCTTAAGCCCTAATCAGTTAAGTGTGACAAAGGCTTGAAATGGGATTTGGTAGCAAGTAATTAAGGATGAAGTACAAGTGGGTATAT
ATTGACAGTGGACCCATGCTATTGTCCTGAAATTGTCAGCGGGGAGTTTATTCTTTATTTGACATTGTTTATTTGACCCAGAGCATTGCTTTGAAGATAT
CAATTGCTATGGAACAAACTGCTCCCAAACTTAGTGGCTTAAAAAAACAGCACCATTGTATTTGTTCTTGATTCTGTGGGCTAGGGATTTGGGTCAGCCT
TGGCTTGGCGGTTTTGGTCTTCAGAGCATCCCTAGGGCCCTCTCATAAGGTTGCAGTCAGACCTGAGATGAGGTCACTCCCTTATATGGCCCCTGGRTGG
ATGCAGCTAGGAGGTTGAGATTCCCCCACCCCGTCTTCCTCCATATGTGGCCCCAAAGTAGGAAGTTCCTGCTGCTTTGGTCTTTGGGTGAAAAACAGGT
CAYGGGCCAGGCAAGATCAAGGAGGGGCAGCAGAGGGCACTTCTGGGCGAGCAGTACAGTGGCATCGCAGAAGGACAGGTGGGAGGGRAAGGGATAGGCT
GCAKCAGCTGCCTTTGAAAACGCCATCGAGCAATAGTATTGCAGCCATTTAYACCATAATATTTCCTACAGAGGACCTCGTTTAGTTTCCGAGATTGAGC
CTCTAGTCTCGCTCTTCACACCGCTGAAGATGTGCGGTAGAGGATCTTGCTGAAACGAAAATGATTGCTGCACTCCCCTGCAAAGCTCTTTGGTTACTCC
ATATCACCTGCAAAATAGAATCCCGAATCTTTGCGGGGCCCGTGAGTTCTTCCCAGCCTGTGCCCTGCCTGCCAGACTCAGGTTTCCCTTGGGTCCTTGA
GCACCTCGTAGCTCCCCAGAAGCCTCTTGCATTTTACAGCTCTGCACCTGATCCCAGGCCTGAGTGCACTTCCTCACGCTCACATCGTTACTTTGCTAAC
CCCTGAGACCTCACCTCCTCTGCAAAGGCCCCCACGGGCTGTGTCAAGGTGTCCCTCCTCTGCGTGCCCTGGCATGCTGTGCACATGGACAGCTCAGCAG
CACTAACACACCCTTCCTCCCTCCCCAACTGCACTGTGAGCTCCCAAGGGCAGGCTCTGCATCTCTTTGTCTGTCTAGCCCCTAGCCCTCGGCTTGAGCA
GAGAGTCCCACACATAGCAAGTGCTCAGTAAATTTTGGTGGAATGTCAGCTCAGTATAGGTAAATGACAGAGTGGAGGAGTGTCGGAGGGAAAAGACCAG
AAAACCCTGTACAGGAAGAAGGCGGTGTGATCCCATGGAGAGTTGGAGCCTGGGGAGGCAGGAAGAGGAGGAACAAAGCGGTGGGCTTAGACTGCAATTG
GAGGCTGAGAGCACTCTAGGTAGTCAAGAGACGCGAACAAGCATAGAAAGTAAAGCAGAAAATCTGATTCGATGTAAGAGAAATCGAGGCATGTGTCATG
GTGAGGGGCTTATAGGGAAGAGGCAGTGACAAGGTAGGAGAGATGGCCCAACATCAGGACGGGCCATGGAGACCTGTCCCCATGGGGAGAGCCCTGACCT
GGACTCAGAAGGCAGGGCACCCAGAATCCCACCCACGCACCTCCAGACATGCAGTAGAGCTCAGTCATAGTAGGCATGCAGTAGACCTCCCTGTCACCGA
GAAGAGGAGGAGAGGCACTGGGCAAAGTGAGGTTGCTGCTTCCGGGACTCTTGGAACTGTGAGACTTACGCTCTGAAATCCTAGCTGTCACTTACTTCAC
TTTCGACTGAATATCTTCACTCTTGAGCCAAAGTGATTGCATGCCTTTAAAGTGAAACTGTGCGCTGGGATCTAGTTGACAAGGGACAGGGGCTATTGTT
TTGTTGGGGGAGGGGAGGTGGCAGCTGAGAGCCAACCAAGGAAGCCCACCTTGAAAGAATCCATAGCCTTTTTTCAACAAAAAAACTAAAAAGTAATCAC
TACAGAAAATATTTTAGTGCTAAATCTTGGAAGAAAACATGATGAGTGTTCTTTTGACTCTGAGTATATAATAATTATAGCTAACATAGACTGAGCTTTT
TCTGTCTACTAGTAACTGTTCTAATCACTTTGCATCCATTAACCCATTTAATCCTATTATGATCCTCATTTTTCAGATAAGAAAAGTGAGGTTAAATAGC
TTGTTTAAAGCCACAGAGCTACCATACAGCAGAACTGGAATTTGAACTCAAGCAGTTTGATGCCATGATCTGTGTTCTTAATACTCCATGTAGCAAAGCC
TGATTTTGGGACTATACCTTATCTACTGACTTATGTTTAAAAATACTACCTGACATTGGAGTTAATTCTGAGAAGTGGGTTTTGAGACTTCCTTCTCCCT
TTATATCTCAATTACTGTTTGGGGCTATTTCCTTGTTTTGCTGTCCAATGTATTACTTATGTTAGTAATGGAGAGAACACTCACTCTGGTTGAGCATAAT
CATCAAGCCGGGAGCTCTGCTAAGATCCAGTCGGCTTGGCTGGGTTCTTCTCCAGGCATTCTCTGCTGGGCCCTGAAGCGTGCGTCTCTCTGCTGAAGCA
TGTGAACATTCCTCCTGGTGTTTAGAGAGATTTGGAAAAGGCTGAAAAACCGCATGGAACTCCGGAAGTTGTTGTCTTTTCAGGGAAAACTTGTGAGGGA
GACAGGAGATGGCCACAGTGGTTTTCTTTGGGGTCCAGCACTGACCGGGGCATTTATGAGGCTGCCCTGCAGGAGAACCACACAGATGAGTTCATAGACA
AGCCTGAGTGGGCTTCTCCTTCGTTCTTCCTTACCCACGAGCGTCCACCTCAATCCCTCTCTCTTTCCTTTCCGGTATCTCCAGATGCCAGGTCCGTGGC
TCAATGTATTTCCTTCCTACCAGCATTATTTTGAACTGACAATGTTGTAAATTTTAAACTATATTTTAAGTAAACCTTAAAAGCTTATTTTAGAATCCTA
ATCTGCTTTTTCAGACTTTTGTTCACCTCAGATCTCCAACTCCCTTTACTTTTTGCTTGAACTCTCCTCCCTTCTTCCTGCTTTCCTCAACTCTTTCATG
CTGTGTTTAATAACATGCTAAACACATTAAAAACAGCAAGTTCTATCATATCAACATACATGCCCACACCCACACACATACGTACTGACGACTGTCACTT
GCAAAGAGCTGTTAAGAAGAAAGTTTGTTTAATTAAAAACCAGCGAGAATGGTGGCCAGATTAACATTCTTGAGTCATAACTTGGAGGTTTGAACTTCAA
CTTTATGGAGCCGTTCTGAGAATTTAAAAAAGTAATCTATTCTGTCATACTGTGAGATCTACATAAATTATTTTTTGGCATAGGCCTTTGTAACTTTTTA
ATTGACTTTTGAGTCAGTGTGTTTCTGTGTATGTAAATCAATTGTAGGTTCACGTCAAATTTCTGATTGTCTCAGATATGTATTGTTTAGTAATATTTGA
CAGGGTCCTGAAGCACAAGATTCCAAAAAGTTCAAAAAGATACCCTTATTCAAGGAAACATTTCTTTTTTTCTTGTTTCTTTTTTTTTTTTTTTTTTTTT
TTTTTTGAGACAGGGTCTCACTCTGGTTGTCCAGGCTGGAGTACAGCACAATCTCAGCTCAATGTAGGCTGCACCTCCCAGGCTCAGGTGATCCTCCCAC
CTCAGCCTCCTGAGTAGCTAGGATTACAGGTGCACACCACCACACCCAGCTAACTTTTTGTATTTTTAGTAGAGACACAGTTTCGCTGTGTTGCCCAGGC
TAGCCTCAAACCCTTGGACTCAAGCAATCTGCCTGTCTTGGCCTCCCAGAGTGCTGGGATTACAGGTATGAGCACCCAGCCTCAAGGAAGAATTTTTTAG
TCAGCAATTTGAAAAGAATAAATTTTTTTTTTTTTTTTGAAATGGAGTCTCCCTCTGTCGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCA
AACTCCACCTCCCAGGCTTATGCCGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGTCTACAGGTGCCCACCACCACGCCTGGCTAATTTTTTGTATTTT
TAGTGAAGATGGGGTTTCACTGTGTTAGCCAGGATGGTCTTGATGTCCTGACCTCGTGATCCACCCGCCTCGGCCTCCCAAAGCGCTGTGATTACAGACA
TGAGACACCGCGCCTGGCCTCAAAAGAATAATTTTTAAAATTTCAAGAAACCTATACTTTGTTTTGGCTTGGTTTCTAAAATAGAAAATAAAATGGATTA
TTTATATTTGACCAAATAGACACATTTTCAGAGGCTGAACAATTCACTGAGTATGTAAGCATTAGGCCTGAAAATGAATACGGAGAAAAATTAGAATAGC
CACGAAGTGCAGCATATCCGTGAAACACTATCTCAGGGGCGGAGACAAAGTCGCCACACTTTCTACGGGTTCATTTTGTCCTGATGGTTCCATGATGCGC
TGCCTCCCAGCCAGTGTTTGCAGAAGGTTTTTAGATTCAGTCATGGAGGGGAAGAAGAAGCTGTGAAAACCAAAAACAGCACAGAGGGGTTTCTTTCTCC
TTCCAGTAGGCTTCCCAGCAAATCAAGGATGACTGCCTGTAGCACGCCGCTCCTCACCTAGTCTCAAAATASTCCAGAAAGTTCTCCCTACACCTTATTC
TATCCAGCACCTGAAATGCTGYCAGCTAGGATCTTAGGGGACACAGATCCTCTTAAAAATGCAAGCACTGCTGAGATTCCCTTCACCCATTAGGGTGGCT
TAGGCAGTAACAAAGAGAAAATGGATATTTTCAAGGAGAAGGGGAAAGCTGGGTTTTATTCAGTCACTAAATGTTGACTGATCAAACACCTAACATGTCA
GGGCTTTTTCTGGGCGTTTAAAATACAGGGGAGAAGAGAAGGAGAAAGGTACTGACCCTCGTCAAGCCTATGCCTACTTTTTTTTGGAGTMGAAAGACAA
TAGCTAAGTAAATAACACACAAATAAGGTAAAGTCAGGCACCTCAAATACAGTGACTTGACCACTACACATTCTGTGTACGTAACRAAATACCACATGTG
CCCCATAAATATGCAAAATATGATGTATCAATAAAAACAAAMACACACAAAACTCAAAGAACAATAAAACAAAGACGGTGAAGAGGTAAAGAGAATTTCT
AGAACCTGGCCTGTTTTTAGATTATTAAATGTTTCCTTTTTTGATGGAGAGTGAAGAAAAATATCTGATATTGTACTTGCTGCCACAAAATCATGGTTAA
CAGAAAAAGATACAGGCCAGGCACGGTGGCTCACACCTGTAATCTCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCGAGACC
ATCCTGGCCAACTTGGCGAAATCCCATCTCTACTAAAAATATAAAAATTAGCTGGGTGTGGTGGTGGATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAG
GCAGGAGAATCTCTTGAACCCAGGAGGTGGAAATTGCAGTGAGCCGAAACTGCCACTGCACTCCAGCCTGGGTGGCAGAGCGAGACTATCTCAAAAGAAA
AAAAATTACAAAGGAGTCACTAGATGATCTAGAAAAAGGCATGTCCCTCCTTCCCTGGCCCAAACAATGCACAGCTCTTATCTGCCCCAGTCCTCAAGGG
CTGGGACCAGGGCTCTTTTATTACCCAGAAGTTCCTTTGCCAGTTCTTTTCCTGGCACCTAGTTGGTGACTAATGAATATTTCTTCCTAGTGAGCGTAGT
ATAAGGTATCTGACTGTGGTCATTTATGTTCCTAATGAGGATACGTAACTTTTCTTTTTAAACCTTAACTTTTTATTGCCTATTGCTGAAATGTTAGCAG
ATAGGCCAATGAGTAGAAAGAACCCCAAGAATTGCCTGATTAATTCCCACTCATGCAGCCCAGGCCCAAGCTCTCACCTTCTGCCCTGCTTTTAACGGCA
GCACATGTCACCGCTGACGGGACGTGCCTCTCTGCGCGTGACCATGCACTTGGGACTCTCTAAATGTCTCACCGGAGAATCAATAGCCCTAGTTCAGCTC
TAAATGAAGTTTCTCGTCGCCCCCTTCTCTTACACCCTAAGGATAAAGACTGTCTCTGAGAATTTTCCCCAAATCTTCCTAACATAGAGATAAAAATAGT
AAAATAAGAAATTAGACCCCTCAACTTCAACTTTAAAATCTTATTTCTCTTCCTGCATCACGGTGACCACCTCCTCACAAGTGCAAGAATAGATGACGAT
ATTCCAGCATGYTGTGATTCTCCTAAAAACCTGCTGCTCCTAGGGACTCTGTGGAGTGAGTTTCCTGGACCGAAGTCACTTCTCAGATCTTCATGTTACA
CCCATGATGTTTGCTTGCTAAACCATCAGCTTAAGTTATTTATCCTGTATCTTTTATCTCAGTTTTCTGGTTGCATTTTATCTGTGTCATCTTTACTTTA
GTCAAGCTAACGCTGTGGTTTTGCAAATTAAATCAGCTGTGGGTTTCAGTATGTAACTCCTCTTTGTGTTTACTAAGCCTTTTTTAAAAAAAACAAAATA
GTACTGTATGTCTGTTTACATCTTTAGTAGTGTGTAAGGGAAGATTGTTTTCTTTAGAGTTCTTTTRAACAATTTCAAGGCTATTCAGAAGGATCCATTT
TAAGAAACCAAAACATCTTTTTAAAATGCCTTGTTTAATATATATCTTTAGCCATAATGGAATCCCCTTAAAATTTTGAAGTTGATCTGTAATAAAGAGG
TTGTGTGGGTCATGAGTCTGGACTTTATAGTTCAGACAAAGAGAATCTGCTTCATGTTTCAAAGCAAGGAAGAGATTTTTTTAAAAGACAGCTCACATGG
CCCGTGTAGGGGTGGAAAAGGCAGCGTGAAAGAGCAAGGGGATAAGTAATTAAACATCTATTGGAATCATGAAATTATTAAGAGAAAATGTCTGAAGTTC
CAGAGCTAAAAGACTGAAGAGCAGTGATGAAATGCAACAAAAATAACCAGAAAAATCCATGGGACTTGTTGCGTAGATGGTTGGAGGAGATGAAGATGAA
GGAGAACTCAGCTGGTTCCAATATTTCTAGCTTGGAAGACTCAGTAAGTGGTAATTCCATTGATCAAGACAGGACAGAGAGGAGAGGTACAGACACTGGA
AAAAGTAGAATTCATGTTTGTTTCAGTTGTGTTTGAGGGGCTGGTGGAACATCACCTGGAAAGGTCCAATATGGAGTTGAATACAGGGGACCGAAGAAAG
TGAATGTATAGTTCAAGAAAGATATTCTTTTTGAGGCTACTACTAGGTAGAGGGTCATAGGAGCCATCAAAATAGATGAGATTGACCAGAAATGTTGGTT
TAAAAAAAAGGGGGAGGAAAGTCAAAATGTATTCCAAAATAGTTAGGTAAAGAAGTGAAACCAACAGAATAAGCTGAAGAGTGAGCTGAGAGGGAAGGAG
AGCAGGAGAGAAGAAGGGAGTCGACAGTGTCCTGTGCAGTGTCAAGGAGGAAGACCAAGAAATTGAATTAAAATACAATTGATAGTACAGAGTTACATTT
GGTATAGAGAAAGGTCTCTGGAACAAAAGGAAGAAGGTCTCTGGTTGAGGAGGAAGACCATTTCCAGCCGCAGGGTCTGGAAATGACCAAGTCATCAGCG
CTCTTGCAGGGAGCAAGATAGATCCACAGAGTGCTGGCTGGAGGAATCCATATGGCAGAGGGCAGAGAAGCGAATGGAAGGGGAGGAAGCAAAGATGGTT
CAGGAAGCTGGTTGGYGAAGGAAGGGAGGTAAGGCCATARCAGCGGGAGAAGCCACGGCAGAAGTTGTTAGAGGTTGCAAAACCGGAGGGTGTTTATAAG
CGGGAGTGGGAGACAGGCAGAAATCACAAGAATGGCAAGGGGTTAAAGAAAAGAACAATTCCAAGAGTGTGTACAGGGTTAGGATCATGTATGCATGAGG
CATTCAGGGAAGAACTAGATGGAGACTGGGATAAGTTGAACCAGAGCGAAGGAAGTTGAGCCATTTATGTCTTGCGGCTTCCAGTTTTTCCTTAAAATTA
ACAAGCTCATCTGCCGAGGTGGAGAAGGCAGAGTCATGGTTTTGGAGACATAAGGGGAACAAGTGTGGGACAGCCCGTTTAGGAAATTGGAAAATAAACA
GGCCAGGAATAAGATCAAAAATAAAGCCAAGATTGTTGGCAAATTCAGCAATAAATCAAATGCTTACATAATTCATTGTTTTTTATTGTAGTGAAAATAA
ACAACATAAAATTTACAATTTTAACCACTTTAAGTGTAAAGTGCAGTGGCATTAATTAGATTCATGACTGTTTCCAGAAYGTTTTCATGACCCAAGCAGA
AGCTCTGTACCCAGTAAGCAGTAACTCTCCATTTCCCTCTCCTTTCAGTCCCAGGCCACCCCCTTCTACTCTTTGTCTCTATGAATTTGCCTCTTCCAGG
TAGCTCATATTAAGTGTTGCTTTTTTTTTTTTTTTTTTTTTCCAAGACAGGGTCTTGCTTTGTTGCTCAGGCTGGAGTGCAGTGGTGCAATTACAGCTCA
CTGTAGCCTCTAACTCCTGGGCTCAAACATTCCTCCCACCTTACCCTCTTGAGTAGCTAGGACTACAAGCGTATGCCACTGCACCCAGCTGGTTTCTTAA
ATTTTTTGTAGAGATGTGAGTTTTGCTATGTTGCCCAGGCTGGTCTCTAACCCCTGGCCTCAAGTGATCCTCCTATCTCAGCCTCCCAAAGTGCTGGGAT
TACAGGCATGAGCCCTCATGCTAACCTATTTGTTGCTTTTAAAGCATTAATCATGGRATAAGAAAAAGGAATAAGTTATTCTTCTGCTGTATAACACTCT
GTAAATGAAGAGGTCATTCCTAAACCATATCCTGGTTTTGTTGTTGTTGTTGTTTGTTGGTTTTTTGAGGCAGAGTCTCGCTCTGTTACCCAGGCTTCAG
TGCAGTGGCACGATCTCAGCTCACTGCAACCTCTGCCTCCCGGTTTCAAGCGATTCTCCTGCATCAGCTTCCCCAGTAGTTGAGATTACAGGCATCCACC
ACCACCCCAGCTAATTTTTGTTTTTTTAGTAGAGACGTGGTTTTGCCATGTTAGTTAGGCTAGACTTGAACTCCTGATCTCAAGTGATCTGCCCACCTTT
GCCTCCCAAAGTTCTGGGATTACAGATGTGAGCTACCGTGCCCACCTGGCCCATACCCTGTTTTTTTTTAAATCCACCATGTGGTATCCATTTATAAAAC
CTTATTATTAATACAATGCTATGAAATTGATATAATGCTTTACCCTTAAAGTGATTCAAATCAGCTGAAGCTTTGAACCTCTCTAAATCCTACTTTGAAT
TAAATATTTTCTTTATCATACGCATACACAACAATGAATGTCTTTTTTCCCCCATCCAAATGATAGCACAGAATTGTGAATCTGTTTCTGTTTAGTGTTC
TCTTCCAGAGGATTGCATTATTCACTGAATGTCTGTTGTCTGAAATAGAAGTTCCCACAGTAGTTTGTRTACGCATCATTTAGGAAGATAAGTGGTTTTT
CCTGTTATGTATACAAATAACCAGTCTGTGTTAATGTCTATTATGGGTGACATGAACAGATCCTTCTCGAGGAGGTTTACATGTGTCACTATAGCATTAG
ATCTTTTTTTTTTTTAACTTTTATTTTAGATACAGGGAGTATATTACATGATACTGAGGTTTAGGGTGCGATTGATCCCATCACCCAGGAACTGAGCATA
GTACCCAATAGTTAGTTTTTCAACCCTAGACCCCCYCCCTCCCACCTTTACTTGTCCCCGGTATCTATCGTTGCCATCTTTATGTCCATGAGTACCCAAT
ATTTAGCTCCCACTTCTAAGTGAGAATATGCATTATTTGATTATCTGTTCCTGCATTCACCACTTAGGATCATAGCCTCTAGCTGCAATCATGTTGCTGC
AAAGGACATGATTCCATTCTTTTTTGTGGCTGTATAGTGTTCCATGGTGTCTATGTACTACATTTTCCTTATGAGCATCTAGGTTGACTCCATGTCTTTG
CTGTTGTTAATGGTGTTGCCACGAACATAGATATGCGTGTGTCTTTTTGGTAGGGTGATTTATTTTCTTTTGGATATATACCCAGTGATGGAATTGCAGG
TTCAAATGGTAGTTCTGTTTTAGATTCTTTGTAGACTTAGTAATTTTTAATGGAAATGAATTATCTTCCCAATGAAAGTAAATTCTAATAAAAGACTTAT
TGAAAGAAATGTCTGATATTGGGATCATTTTCCTAACACAATTTCCATTTTCATTTTCTGTAAAGCCCCCACAAGAGTTGACAGAGTTCCTGAGGTGGSG
ATGAGTGAGCCGTGCCTCTTTCTACAGTGGATGTAGTGGATGTGGCTTACAGATGCCTTTTACATTTCCAGCTGTAGACAGAAAATGCCAGAGGCCACAG
CATTTCCCCAGGCCCTGAAACTAAGCTAACACCCTCTAAATATTGCCAAATCAAAGTAATAGAAAGGAAAACTGTTCTCATATTGTCTCACTTCCCCAAA
CATATCTCCCCTAATTCAGTTCCAACCACACTTTAATTCCCAGTTTGGACCCCCATTTTTCTCCTGAAACTACTGCTGGAGAGTTCTCTCTCTTYGGAGT
TGCAGTTCCTTCTGCAACGTTGCATGGACTTTGGTACCAACTGGCCTTGGTTGCTTTGTATATGAGTCCTGTATCCCAAGGAGACTATAATCTTCCTGAC
GGTCGTGGGTTTCAATTCCTAGAATCACGAAATAGCAGCACTTTACAGATGAGAACATTAGACCCAGAGAGGTAAAGTAACTTGCCTAAGGTCACACAGC
TGAATTCAGCAAACAGGTGAATTAGTCTTTCTTCCCTACTTGAACTACTACTTGAATGAGTGCTCCGAGACTTGATGTCTGCGACACTCTGTTTTTTTTT
TTACTGTTTCCACTGCACTTTTTTGTTCTAGAGACCTTTCTCCATACCAAATATAATTCTGTACTATCAATTATATTTTAATGTATAAAATTATAGTCAC
ATTTCAGGTCCTGCCTCCCAGGGATAACCTTGACTAAAGTTTTAGGTGCTCAGAAATAATTTAGTGACACATTTATAGATTTTAAAGTTTGGTAAGAAAT
TTGGAAGTAACTGCCAAAGTTGAAGATATGTGCATACCGCAACTTTGTAGGTCTATTGCTTTGCATGTATTCTATCGAAACTCTCAAATATGTTCCCAAG
GAGGTATCTACAAGGATGTTCACAGCAGCATGAGTTATAAGAAAGTGGAGGAGAAGGAGGAGGAAGGAAGAAGAAGGAAAAAAAGGAAAAGATGAAACAT
CAATAGAAGAAAAGATGGATAGCATATTTCTTTCTTCTTCTTCTTCTTTTGTTTGTTTTTTTTTATTTTTTTTTTTTATTTTTTTATTTTTTGAGACAGG
GTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACTATCTCGGCTCTCTGCAACCTCCACCTCCAGGGCTCAGGTGATCCTCCCACCTCAGCCTCCTG
AGTACCTGGGGCCACAGGAACACACTACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGGCAGGATTTTGCTATGTTGCCCAGGCTGGTCTCAAAGTC
CTGAGCTCAAGCGATCTGCCTGCCTCGTATGTCTATTCCGATGGAATCTGCAGCAGTGGTTCTCAAAGTGTGGTCCAGGAGATCATTAAAACCTTTTCAG
GGAGTTTGCAAAGTCAAAACTGATTTCACAGTATTACTGAGGTCTATTTTTCCTTTTCACTCTCATTCTGTACCTTGAAGTTTTCCAGAGACTGCATGTT
CTGATAGCCACAGGCTAAACGCAGAAACTGTCTTCTATTAAACCAGACATTAAAGAGATCACAAAAGTGTCAAACAGTGCCACTTTTTTTCAATGTTTTT
TGCTTTGAAAAACATAATTATTTATCATAAAATATGTTGTCTTCACGTATTACATGATAGGTTTTCATTATTTTTAATTAAAAAAAATATTTTAATTTTT
CTCCTTCTTATTTTCTGATGTGGTAAATATTGACAGATATAATCCCTATAAACCAAAGCTCTTTGTTTTTCTCACAATTTTTAAGAGAATAAAATAATTC
TTAGAGTAAAAAGTTTGGTTGGGTGCAGCGACTCACACCTGTGATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGATCACTTGAGGTCAGGARTTTGAGA
CTGGCCTGAGCAACCTAGTGAGACCCTGTGTCTACAAAAAATAAAAAAGAAACTAGCTGGGTGTGGTGGTGCATGCCTGCAGTGTAACTAGTTGGGACAC
TGAAGGGGAGGATCACTTGAACCCAAGAGGTGGAGGCCGCAGTGAGCTGTGATTACACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCTGTCTAG
AAAGACAAAAAAAAAAAAAAAAGACTAACAGGTTTGAGCCCTGCTGTTGCAGACAGTGAGAATGAATGAATGGAGACTGCACGCACTGAGCCTGAATCTT
GGAGGCACGATCACTGGAGTTGCAGGAGAATATAAACAGTGATTTATATTGTGTTTTATAACTAGTAAAACATGCTGTATGCAGAATACATGTTTTTAGG
AATATACAGGTATATAAAACATGTATAAAAAGTTATTTTTATATTTGTGTATATCTGAAACACTTTATAATACACTTGAAAAACTATAAATAGCTATATA
AGCTCAACAACCACAAAAAAAATTAGAAAATGAACAAAAGACTTGAGTAGACATTTCCTCAAAGAAGATATACAGATAGCCAACAAGCATATGAAAAAAA
GTTCACTATCAGTGATCATTAGAGAAATGCAAATCAAAACCACAATGAGATACAGTCTCACACCAGTCCGAATGGCTATTACTGAAAAGCCAAAGAATAA
CAGATGCTGGCAAGGTTGTGGAGAAAATGGAATGCTTATACACTGTTGGTAGGAGTGTAAACCAGTTCAACCATTGTGGAAAGCAGTATGGTGATTCCTC
AAAGAGCTAAAAACAGAGCTACCATTCGACCCAGGAATCCCATTACTGGGTACATAACCGAAGGAATAGAAATCGTTCTATCATAAAGACACACGCACGT
GTGTGTTCACTGCAGCACTATTTGCAATAGCAAAGACATGGAATCAACCTAAATGTCCATCAGTGGTAGATAGATAAAGAAAATGTGGGCTGGGCGTGGT
GGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACAAGGTCAGGAGATCGAGACCATCCTGGTTAACATGGTGAAACCCCGTCT
CTACTAAAAATACAAAATATTAGCCGGGTGTGGTGGCAGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAACCCAGGAGGC
GGAGCTTGCAGTGAGCTGAGATGGTGCACTCCAGGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAAGAAAAAAAAAAGAAAA
TGTGGTACATATGCACCATGGAATACTATGCAGACACAAAAATGCATGAGACCAGGACTTTTGCAGAAACGTGGATGGAGCTGGAGGCCATTATCCTTAG
CAAACTAACACAGAAACAGAAAACCAAATGTGGCATGTTCTCACTTATAAGTGGGAGCTAAATTATGAGAACACATGGACACAAAGAGGGGAACAACACA
CACTGGGGCCTGTCAGAGGGTGGAGGGTGACAGTAGAGAGAAGATCAGAAAAAAATAACTATTAGGTACCAGGCTTAGTACCTGGGTGATGAAATAATCT
GTACAACAAACCCCCGTGGCACAAGTTTACCTGTATAACAAACCTGCAGGCGTACCCCTGAACCTAAAATAAACATTTAAAAAAAAGAGAAGATGCTCAA
CATTACTTACCATTAGCAAATACAAATTATAATCCCATTAGAGAAGTGCAAATCAAAGGAGATATTGCCTTGAACCCATTAGGATGGCTAGATCAAAAAA
CAAAAAATAACAAGTGTTGGTGAAGACGTGGAGAGTTGGAGCCTTTTTGCACTTTTGCTGGGAATGTAAAATGGTATAGCTGCTATGGGAATCAGTACGG
TGGTTCCTCAAAAACTTAGAATGACTGCATGATCCAGCAATTCTACCCTGAGTATATATTCAAAGGAATTGAAAGCAGGGTCTTGAAGAGATATTTACAC
ACCCACATCGATTAGCAGCAGGATTCTCAATAGCCAAGAGGTGGAGACGACCCACATATCCATCAACAGATGAATGGATGAACAAAATATGCTACAAACA
TGCAATGGAGGCTGGGCACAGTGGTTCATGCCCATAATCCCAGCACTTTGGGAGGCTGAGGCAGGCTGATCACTTGAGGCCAGGAGTTTGAGACCAGCCT
GGCCAACATGGCAAAATCCCATCTTTACTAAACATATAAAAATTAGCCGGGCATGGTGGCATGTGCCTGTAATCCCAGCTACTCAGGTGGCGGAGGCATG
AGAATAGTTTGAATCTGGGAGGTGGAGGCTGCAGTGAGCCAAGGTCATACCGCTGCACTCCAGGCTGGGCGGCAGAGTGAGACTCCATCTCAGAAAAAAA
AGTGCAATGGGATATTAGACTATTAGCCTTAAAAAGGAAATAAATTCCTTCACATGCTGTCATGTGGATGAACTTTGAGGAAATTATGTTAGGTGAAATA
AGCCAGATACAAAAGAACAGATATTGCCCGTTCTACCTATGAGAAGTATCTCAAGTAGTCAAATTCACAGAAACGGGAAGTAGAACGGAGATTGCAGGGC
TTGTGGAAAGGGAGAATGGGGAGTTATTGTTTAATGGGTGCAGAATTTCAGACTTGCAAGATGTAAAAGTTCTGGAGATGAATGCCCAACAATRTGAATA
TACAGAACACTGCTGAACTATACATTGAAAATGATTAAGATGGTGAATTTCAGCCGGGCGCRGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCG
AGGTGGCCAGATTACCAGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGGGAGAGCGCTGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGT
GGCAAACACCTGTAATCTCAGCTACTCGGGAGGCTGAGGCGGGAGAATTTCTTGAGCCTGGGAGGTGGAGATTGCAGTGAGCCAAGATCATGCCATTGCA
CTCCAGCCTAGCCTGGCAGACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAGATGAATTTTATGTTATGTGCTTTTTACCATGATAAGAAAAG
CTACATAATTGCAGTTTTTGTCATTACTTTTAATGGCAAAAATTGCAATTACTTTTGTACCAACCTAGTAATCGCTATGACAAACCTTTGTATGATGGGG
GAATTTTCTGATTCCCTGCCCTCACTCCAGTTATCATAAAAATAAGTCGACTGTTTCTGAATTTCCCAAGTGAGTATCTTGCCCAGACTTCTTGCTTTAG
TCCAGTCTTTGATGTTGGCTCATATGAAGCATTCTGCCCTTCCAGAATATCCCGTACTTCCTCCCTATCTACATAAATTCTACCCAAGGGAACTCTAATG
AATCCCATTGCAGCATGCCCAACTCCATACTGCTTTCTCCATGATACAGTCAGAAGCCAACCCAGGGCACTTGGATTCCTCTTGCCTTAAGGACCCAGGA
CACTTATTTTGTGTACAACTAGATGTTCATTACTTATATGGCCCCATGTACTGCTTCTTAAGTTTTCAGAGCTGTTCCATCGCTCCCATTAGAATGTAAG
CCCTTGGAAAACAGAGGTCCTAATAACACAACATGGCTTATACGTGCCTGCCTCAGAGCTTTGGCATATGGCTGTCACACAATAAGACTGGTGAATGAAT
GGATAAATGGATCATGGATGGATCAATGTGGTCTTTCACTGTAGCTGAGCTGGATGCATTAAGAATTAAGTATAACATCTTCTTTTTTTATTTTATTATT
ATTATACTTTAAGTTTTAGGGTACATGTGCACCATGTGCAGTTTGTTACATATGTATACGTGTGCCATGTTGGTGTGCTGCACCCATTAACTGGTCATTT
AGCATTAGTTATATCTCCTAAAGCTATCCCTCCCCCCTCCCCCCACCCCACAACAGTCCCCAGAGTGTGATGTTCCCCTTCCTATGTCCATGTGTTCTCA
TTGTTCAATTCCCACCTATGAGTGAGAACATGCAGTGTTTGGTTTTTTGTTCTTGCGATAGTTTACTGAGAATGATGATTTCCAATTTCATCCATGTCCC
TACAAAGGACATGAACTCATCATTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCAGTCTATCATTGTTGGACATTTG
GGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCACAATAAACATATGTGTGCATGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATAC
CCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGAAATYGCCACACTGACTTCCACAATGGTTGAACTAGTTGACAGTCCCA
CCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACCTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTAT
CTCATTGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTC
TGCTCATATCCTTCACCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGA
TGAGTAGGTTGCGAAAATTTTCTCCCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTGAATTAGATCC
CATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGGYAATGCCTAGGTTTTCTT
CTAGGGTTTTTATGGTTTTAGGTCTAACGTTGAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCT
ACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCTCATTGCTTGTTTTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAG
ATATGCGGCCTTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTGTAGTA
TAGTTTGAAGTCAGGTAGTGTGATGCCTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGCGATGCGGGCTCTTTTTTGGTTCCATATGAACTTTAAA
GTAGTTTTTTCCAATTCTGTGAAGAAAGTCATTGGTAGCTTGATGGGGATGGCATTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTCACGATAT
TGATTCTTCCTACCCATGAGCATGGAATGTTCGTCCATTTGTTTGTATCCTCTTTTATTTCATTGAGCAGTGGTTTGTAGTCCTCCTTGAAGAGGTCCTT
CACGTCCCTTGTAAGTTGGATTCCCACAAAAATCCTCAATAAAATACTGGCAAACCGAATCCAGCAGCACATCAAAAAGCTTATCCACCATGATCAAGTG
GGCTTCATCCCTGGGATGCAAGGCTGGTTCAATATACGCAAATCAATAAATGTAATCCAGCGTATAAACAGAACCAAAGACAAAAACCACATGATTATCT
CAATAGATTCAGAAAAGGCCTTTGACAAAATTCAACAACGCTTCATGCTAAAAACTCTCAATAAATTAGGTATTGATGGGACGTATCTCAAAATAATAAG
AGCTATCTATGACAGACCCACAGCCAATATCATACAGAATGGGCAAAAACTGGAAGCATTCCCTTTGAAAACTGGCACAAGACAGGGATGCCCTCTCTCA
CCACTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATTAGGCAGGAGAAGGAAATAAAGGGTATTCAATTAGGAAAAGAGGAAGTYAAATTGT
CCCTGTTTGCAGACGACATGACTGTATATCTAGAAAACTCCATCGTCTCAGCCCAAAATCTCCTTAAGCTGGTAAGCAACTTCAGCAAAGTCTCAGGATA
CGAAATCAATGTACAAAAATCACAAGCATTCTTATACACCAATACCAGACAGAGAGCCAAATCATGAGTGAACTCCCATTCACAATTGCTTCAAAGAGAG
TAAAATACCTAAGTATAACACCTTCTTTGAACTAATGTAGCTTCCACATGGCTAAGCTTTGTGTATATTCCTTGCACCACGCTGAAATTTCCTTTCCTCT
GCAACCTCATCTTGCTCTACCCCAAGGGGCACTTCTACTGTAAACCTGGATGGTGTGTGGAGTGAGGCAGTCCTGACTCCCCTACCCTAATCCCACTGGC
ACCCCATTTTACTGCCCTTTTTGTTTTAAGACGCTTACTATTAATTGATACACAAAAACAGGAGGCAGGTAACAAAAATAATAAACATCAGGGCCTGTAC
ACCATCATGAGTAACACCTAACATTTGCAGTTAGATATCTCTGAGCTCAGTTCCCCACCATCCCACTTACTAGCTGTAGGTCCTCGGACAATTCACTTGA
ACTCTTTCTTTTGTTGTTGTGCTAGAACACGCGTAACACAAAATTTACCATGTGAACCTTTTTTTTTTCTCGTTTTCCTGAGATGGAGTTTTGCTATGTC
CCCCAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCGATTCTCCCCGCCTCAGCCTCCCGAATAGCTGGGAT
TACAGGCACACACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGTTTCACCATGTTTGCCAGGCTGGTCTCGAACTCCTCACCTTGTGATCTGCCTG
CCTCAGCCTCCCAAAGTGCTGGGATTGCAGGCATGAGCCACCGTGCCTGGCCTGAACCAATTTGAAGTGTACAGTTCAGGGACATGAGAACATTCACAGT
ATTATGCAACCATCGCCACCACGCATCTCCAGAACCTTTTCATCATCCCAAACTGAGACTCTGTCCCCATCAAGCATGAATTCCCCATTTCCCCCCTTCC
AAGTTCCCGGGAGCCACAATTCTACCCTCAGTGTCTGTGAATGTGACTCCTCTAGGGACTCATTTCAGTGGAACTGTTTAACATTTGTCCCTTGGTGTCT
GGCTTCTTTCACCGAGCATAATGTCCCCAAGTTTCCTCCATGTTGTAGCAGGTGTCACCACGTCCTTCCTTTTTCAGCCTCAAGAATATTCCAGTTTAAC
CTTTGAAAGCCTCCATTGCCTCTTCTGTAAAATCGGATCAGTAGGCCATTTTTCAAAGGTTGTTGTGAGGATTTAATAAAATCAGGTAAAGCAACAGACA
GCGCCCAGCGCAGTGCTTTGAGCCATGATAAAAATTAATTTAGCCTCCTTCTCTTCCCTTTCTAAATGATAAGTTACATGAAGACCAGGTGCAAGAAAAA
TGCCTTTCTCATGTCCGTGGTTCCTGAAGTCACACATTTGTGAGTGCTCAGTAATTAATATTATTTTTAACTGAATTGGATAATCTTCTTATTTAGCAAG
TTAGAGATTAACTCCCAGAGTCCCAGTATTGTAAAAATAAAAATGTTACATTCACATTTTCCCGCTATTTTTCCCCTATAGATTAAAAAAAAAAAAACAG
AAAGGAAATAATAGCAGACTTTGTCACTCAGGAAAAGAAAGAGTTGACTTAAGACAATGTGGGTCTGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACT
TTGGGAGGCCGAGGCAGGCGGATCATGAGGTCAGGAGTTCGAGAGCAGCCTGGCCAATATGGTGAAACACTGTCTCTACTAAAAATATAAAAATTTAGCC
AGGTGCGGTGGTACGTGCCTGTTGTCCCAGTTACTTGGGAGGCTGAGGCAGGAGAATCTCTTAAACCCAGGAGGTGGAGGTTGCAGTGAGCCTGGATCAT
GCCACTGCACTCCAGCCTATGCGATAGAAAGAGACTCCTCAAAAAAAAAAAAAAAGAGTGTGGGGTAGGATCTCCAACTGCTTAGGCGAGAGAGGAGGTT
AAACAGTCATCACACAAATTCAGATTCTAAGGGCAGGTGAATGAATAGAACCAATAAGTGAAGACCCAGTTTCCAGTTATCTCCATTTATCAATGTCCTT
GGCCTAAGTCAATTAGAGTTAATCACTGTGGAGTTAATTACAGTGTCTCTCCTTGCCGTTAACAATATATTCTGTGGTCATCGCATTATTAGAATGGGCA
AATTGGTTCTTCAGTTGACAGTGTGACCAGGTCATTAAACAGACAAATCTCCCCGATGAAAAACCTTGAGCGATGTTGATTTTGGTGGAAACATAAAGCC
ATCCACAAACCATCCTTTCCAGGATGGATGTCAGGTAGTGGGAATTAAGCTCAAAACTGTGACTCACAAACAGTTTAACTTCCTTCAGGTTGATTTTCCC
CGTTGGTAAAATTCCCATGAATATTCTACATAACCCTTTGATTCTTCCAACATCGTTTTTCCCAAACATCTTTCCTGAGAGCTCTTCAAAAGATGGTAAA
GGTACCATAGTAAGATACATGATGTAATGAACTTGACCTCGCTGAGGGGAAAATGGCCATGGTAGCCTGCTTGGAAGAAATATGCAAACCATCTGAGAAA
GAGACAGCTCTCTCAGTGTCGTGGGGTTGGAGGTCATGTCTTTCCTTTTCACAACAGGAAGGGCTGGCACCTTCTGCTCTTTCGGTCCTGACAACTGTCT
GCTCAGAGCATCAGCCAAACAAGGCCYTGTCATCCCAGCCAGGAAGGATGCGCGGTGCATGGGAGTGGCAGGACATTTGTGGAAGGAGTACAGCCGACCC
CCCAGTTTCCTCCAGTCCTTGTCCCCAGGCTGGGGTTCCTTCCAGCACTTGCAGTTCAGCCCTGCTCAGCGTGTTTCTCTGGAAAACAGAACCGTGGGCC
TTGTCAGCAACCTGCTGTGTGAGTTGGGTTGTGTGTTTGATCATCGAGGACAGTGTTTCAGCATCTGGAGGTGTGTGTTTGCTTTCCTTAGGTAACCACA
AAGTAGTGGTTAGCGTCTCTCTAATTGATAAGGGTGACAGAAGCTGCTGCTGGCTTTAGAATGATGCCTGAACTCTTCTTCTGAAAATGAATGTGGTTAA
TTTAGTCATGACAGACACATTTCTGACTTCTTCCTCCCTCCTTTTTTCCCCAACGCCACCTTTCCCCATGGTGTTGTGTTTTTGCTTTTGTTTTTGTTTT
TGTTTTCCTCTGTCTGGAGACTGAAAGAGACCAGACTGCGCTCAGCTGAAAGCTAAGGGAAGCCTGTGCTGCTCCGCCAGGGCTGAGTATTTTGTTTTCA
GCTCCGCGAACTCCACCTGTGTGACTTTTTCTTCCTTTCTTTTTAAAAGTAAACATGGCAGGATGTGTGCTCACCAATTACTGAGCGCACAGAAATACAG
GAACTGCTGGGCTAACGAACACGACTTCAAAGGACAGTGGTGAGGAGCCCTTGCCTCCCTGCCAGGCTTGAAAGGGCTGAGCTCTCCAGGGAGGGCAGGG
CCCACCCTCAGGGCTCCACCAAAATAGTGACTTCCCAGCCTGTGACTTTCTTAGAGCCCTGAGGAAGGACTCAACGCAGGGAAAGGACGTGATGGCAGTG
GGGATTCCCTCTTGCTTTGAGCCCTTCTGAATGCAAGCAGAAAAAGAAACCCTTTTATATTACTTTTTAATTGAMTATAATAACAGAAACAATGAAAAGA
ATGTGACCTTGACTTTGCAACTCTATTTCCCAGGCATATTCCTAACAACACCTAAGAAAGCTAGGATGTAGGTAGCTTTTATCACCTTCGTTCTTTTTAG
GTAATGAGTTAGAAGCACAAAGCAGGCAAGAGACCTCGTAACGTCAAATTTAATATTAAGCTGATCTTCTGATGGCCCAGGACATACCCCTGGGTGCTAG
AATCTAACACGGAGACATGGATGGTGACGGGTACCTAGTGATCCAGCTGTTGAACTACACACAATTCTGCTGTTGTCCCCGAGGGAGAACTGTTCACTCT
GAAGCTGCAGATGCTGTGTTATAGGGTGTTAAAGTCTCTACAGTTTCTATCAATGCTGTTGCATTCATGTTTTATTGCTTCTGCCAAAATACRAGTATTT
CAAGGATGAAGTTCATGTTCTCCCACCAGCTCTTGTCTAAAATCCATGCTCAATGAGTATTTACTGTATGCAGGTTATTACTGAAGAGAGGACTTATGTG
TTCTTCCCATGACATCAGAATGCAAGGATATTTCTCCAAGAGAGCAGGCTTCTATCTGCAAATGCATTCACCTGAGGATAGTGGTGAGACAGCCACTGAG
CCTGGCAAGTCAGCACCACTCCAGGTTGTTGGGCTGAAAATAGACTAGAGAGAGTAATCTCTAGGCCCTCATTTTATAGGCAAAGAAGCTGAAACCCACA
GAGGGTAAGCAGTTTCCCCATGTTTACTCTGTCCTTCATTGAGCTTTGTATTGGCTTCGTTGCTCTTAGTGAAAACACAAGGACTGGCCACAGTTAGAGC
CGGGGTCCATGTGTGCATCCCAGGCTTCTGCCTCTGACAGAGTTGAGGAACGTGTTGAGAAGGTGTGGTTGCTTTCCTTGACCTTAAACTTAAATAGCGC
AGAATTGCTTTGGGCTCAGCGTTTTAATCATGTCACATAAAAATCAGATGCTATCCACAGAGAAGAAAAAAAATCATTTGAAATGTGCATATGAATATTT
ATTAGAGAAAGAGTAAAGAGTAGATATTACTTCATATGGAAACGAGGAGGCTTGGAGGTGGCTTTAATATGCAGCATCAGTAAGAATCAATGCAAAGAGA
ATGCTATCTAGCAATTTTAAATGTTCACTCAAAGAGAAATGGGCTTGAATTATAGCAGGAGGATTCCTGTTTAGTTGTTAAAAAAAAGATAAAAAGTAAT
CAGTAGGTCTCAACATGGACTTACTAAATTCATGCCAGATTCACCTAGTTTCCATTTTTGTAGAGTCCCCAGACTAATGAATTATTAGACCAGTGAGAGA
ACATGATTTCAATGAGATATCTAACAAAATGGCTCATAACACTCCTATTAGAAACGTGAAAAGTACCTAGTGGGCACCTAGGGGGCAACAATTCCTTCAG
ATCCAGGAAAAGGGGGTCTTTAGGGGCAGGTCATAGAATTCGGTACTGGATTCTGCCCTAGTCATCAGCATTTCTAGAAATAAATGTCCTTAAGATTTAG
AAGTTAGGCCAGATTTATAGCAGACCACACAAAACTCAAAGGGTCAGTAGAATGCAGAATCAAAATGATCATGTAGACTGAAAAACTAGGCCAACGCCAA
ATTCAGATCTGACTTTGGCAAAAGCCTTTACGCAGAGTCAACAGCTTAACTGGTCCAGGGCCAGGTGGGGAAATCATGAGAACATTATGATGAACAGGAC
WCCGGGGTTTTAGTTAGTTGACATTTCTATCTGAGTTGGCAGTAGAATGTAACGTCTGCAAAAGTCAGTTCATTCATGGTCTGCATTTATGGACCTTCAG
TGCATCTAGAACTTTTACCTTCTGCTTATCAAATAGTATCTGGAAATACTGATTATTCTGGATMTGCATTGTAATGATATTGACACTCATGAAAAGATGC
TCAACACCCTTCCTYAGTAGGGAAATACAACACAAATCAATAAGCTCTGCTTCACACCCATTAGGATGGCTATTACCAAAAAAAGGGAAGGTGGTGTTGG
TGAGGCTGTGAAGATGTGGGACCTTCTTGAATTGCTGGTGGACATGTGAAGTGGTACAGACTCTGAGGAAAACAGTGCAGTGATTCCTCAAAAAGTTAAA
CAGAGTTACCACATGATCTAGCAATTCCATTCCTGGGTATTCTCAAAATAGTTGAAAATGAGGACTGAGATACTTGTACACTAAACTCCGTGGCAGCATT
ATTCACCATGGCCAAAAACTAGAAACAGCCCAAATGTTCATCAGCAGARGAACAAACAAACAAAATGGGGCATATTCATACAATGGAATATCACTCATCC
TTAAAAAGGCATGAAACTTTCTGACACCTGCTACGACACAGATGAACCTTAAAAACATGATGCTAAGTGAGATGATCCAGAAACAAAGGACAAATACGCT
AAGACTCCACTTATACGAGGTTCCTAGAGTAGTCAAATTTATAGGCATAGAAAGTAGACGAGCAGTTATCAGGGGCTGGTGAGTGGGAGGAATGGGGCGT
TAGTGTTGAATGGGGACAGAGTTTGAGTTTGGGAAGATAAAATAGTTCTGGAGATGGATGGTGGTGATGGTTGCACAACAATGTGAATGTATGAATGTCA
CTGAACTATACAATTAAAAATGGCTAGCATGATACATTTTATATTGTATATATTTTACCACAATAAAAAGGTTATTAAACATAGACTGAGTATCCTGGCA
GCAAGAACTAGTACAAAAAGCAAACTGACAAACTTTGTGTGTCTGGGCAAAGATGATCAAGACCATAGGTCTAGAAACTCTGACAAAGAAAGATAACTAA
AGGAATTTAGTTATCATTTACTGTCAAGAAGAACAGGCAGAAGAGGGTGCTGGCCACCCTTAATTAGTTGAAGGGATTTCCTGTGGCAGAGGCATTACAT
GAATTCCACTTATTCAGAGTAACCAGAGGGCAGAATCAGGACCAATGGAAGAAATTATATCCAAGGAGGTAAATTTCAGTGCAGGAAAGAACTTTCAGCC
AATTAGAACTATATTTTGAAAAGAAGCAGGGGCACTGCTAAATGCACAACTGAGTGTTCACAGTATACTCAAGAAAGACATTTTATGCAATTTGTGATGC
AGAGTGCTGCGCTGATGAGTTCTCTAAAGCAGCGGTCCCTAACCTTTTTGGCACCAGGGACCAGTTTTGTAGAAGCCTATTTTTCCACAGACTGGGGTGG
GGAATGGTTTCAGGATGATTCAAGCACATTACATTAATTGTCCACTCTATTTCTATTATTATTACATTGTAACATATAATGAAATAATTACAACTCACCA
TCATGTAGAATGAGTGGGAGCCCTGAGCTTGTTTTCCTGCAACTAGATGGTCCCATCTGGGGGTAATGGGAGACAGTGACAGGTCCTCAGGCATTAGATT
CTCATAAGGAGTGTGCAACCTAGATCTCTCACTTGCGCAGTTCATGATAGGGTTTCTGCTCCTGTGAAACTCTAATGCTGTGGCTGATCTGACAGGAGGC
GGGGCTCAGGCAGGAACGGTCACTCACCGCCTGCTGTGCACCCCAGTTCCTAACAGGCCACGGACCACCACTGGTCCATGGCCTGGGGGCTGGAGGACCC
CTGCTCTAAAGGGTCAACATAGGTGAATTTAGAAAAGTCAGCATCCTCCAAGTTCTCAGAAACATTCTCCGATTCACTGATGAGTCGTGAAAATATAGTG
AGGCAGAATGTTAGGGCCAACAGAAAGGAAAGTAGGGCTCTAGGGATTACAGTCACCAAGGTTTCTACCCTTGTGCAAGAGAACCATCRCTTAATACTTA
GTCATGTCATTTTCAATTATTAAAAATAAATTCATCACGCCTGTAATCCCAGTACTTTGGGAGGCTGAGATGGGCAGATTGCCTGAGCKCAGGAATTCAA
GACCAGCMTGGGCAACATGGTAAAACCCCATCTCTACTAAAATACAAAAAATTAGCTGGGCGTGGTGGGGCGCACCTGTAGTCCCAGCTACTCCGGAGGG
TGAGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAACTGGGTGACAGAGCGAGACTCCATCTACAAAATAAATAAATGAATAAATAAAT
TCAAAGTCCTTCATTTCTAGAGAGTATGGAAATAGGTAAAAGTCAACAGCTTAAAATCTGAACTAGGAAAATCAGTCTTATTCCAACTCCGACTTTCCAG
AGTCCATGACCAGCTGGCACTAGGACAACTCTGGCAGACTTATGTCACTTTGGTGACGTCAATGTGACATCACAGCCAAGCAAGGAAAGGCCCCCATTAT
CTTAGTGCCGACTAGATGTTCTAAAGGCAGGAGGAGCCAGGGAGGGGGCATCTTGGTTTGAAAAAGCTTTTCCCCATGTCCTTCAAACTGAGCCATGCCT
ATGATAGATTTGAAATGCAGCTTTTGTCGTGACATTTCCCAATGGAACAGCTTCTGTAAAACGTTTCCTCTCTCTCTGCTAAGAGGTCATTCCTGTCTGG
AATGCCTCCAGTACAAAACTAGCCTTGCTTCTTTAGCTTCCCCGAGGTCCAGCAAGGAAAGACCTGAAATTGGTTATGAACAGGTTGGCCCAGGCTGGCA
TACCCGTCTTCTGACAATGCCGCCTCCAAGCTCACCCACCTCCAGGCTCCAGTCCTGGCAGCAATGGGAGTTGGACCACTGGAACTAGCACAGTGGGCCT
CACCTTAGAGCAGGTACTCCTGTTTCTGAGCCCACAGAGTGAGGCACAATGAAGGGTGTTTCAGCTGGAACAGAAGGCACATCCTTGGGGAAGCCAGCAG
GAGCCTTGGTCCCGCTTTCCCTGCTCCTGGAGGCAGTAAGCCCCAAGAGAGCAATTCCCTTCCCTCCTTCTTTTCCTTCCTGTTTTGCAGGAGGCCAGAT
GTTCTTTTCATGCCACTTAGCTTTTATTTCCAAACCATCCCCGGTGAGGAAGCGCTAAACTGCAGAGGCCTCGGAGGAGGAAGTGCAGGGAAGGGGGGCG
CTGTGGAAGAGGAACCAGAAAAGGGGAAAGTTAGCTTGCCCTCCCTAGCCCTGAGTTTGCAAGTATCAAAGTCAAAATGTGTGGCTTCTTTTCTTGGAGC
AACTGAGATGAAAGTGTCTTTGAGAGCCCCAGAGAAGTGTCAGATGAATAAGATCGGTCAGTCATCATATCTCTGCAGCAAGGACCAGCGAAGAGAGCTC
AGTGGGAGCCAAAGGTCTCCTGACGAAGATCTCACCATAACCAACTCAGCCAGTTGCCATTAAAAATCCTCACAGAACAGCACTTAGTTTACAGGAGCTC
AAAGACCTGTGAATGCTTTCAGAATAGATCCCGAGAAAGGAAGAGGTTCTGGGCAGTGCAATGTCCTCAGGTTAGCTTCTGTGGCACCTGAGTTCCCGTT
CCCGCAGGGCTGGAACAAGCTGTGCAGCCTTGAGCAAAGGTCTTCACCTCTCTGAGCCCATTTCCACATCTGTAAAGTAAGGACAAGAGACCGACTTGGA
TATGTCACAAGATGGTGGCATTAAAATGGAGAGATGGAACTTGAAAACACTTTGAAAAAACATCGGATTTTGTTAGTCCTCCTCATTTATTTCCTTAAGA
GGTAAACTGAGGTATAGATTAACAAAATGGCTTATTGGTTTCAGTCCTTTTAGAACAAGATGAAATTTTATTTTAGAAAACAAAGCGAGAAATAAAAAAA
AGAATCACCAACTTCCCTGCAAGCATTCAACAAATGCCCATAGTATAAAACCAACAAGAGGAGTCAAACCGCCTCTTCTGCWTCCCCACCAGCCACACTC
CGACACCCCCACTGCGCCCCATCTTTCTGTCCCTGATGCTTGTCAAATTGTTCCATCGTCAGCCCCACCAGAGCTCATGCTACTCTGAGCCCCTGGCTTG
GGAGAGCGAGAACTGGGATGGGGAAGGGTATTCTTCCAAAGGCACCGTAGGTATTGTTTTGTTTCTGGGAGGGAAGGTGGTGCCTCCAGCCTCTCCTTCC
TCTTGCAGCTCGCAAGCAAACACAGATGGAGGAGATGCTCTGGCTGTTTTTAATTCTGCTTTCTCTCCCAGGGTTCTTACCCAGAAAACCTATTGGAATT
TCAAATTTTCAAACCTCAGGAAAGTGTTGTGTCGGGAAGATGATTTGGGGTTGTTTTGTGCTATCAGCTGTGGGGCTGGGACAGGACACTGAAGCCCAGT
ACCCCATTTGGATACTGCTCTTCATCCTATTTTTGCCTGGGAGAAGAACAGGGAGAACTGGCTGGAGGAAGAGGAGAAGGGGAGCGGAAGAAGAAGAGAT
TTTTAGAGCATAATAATAAAATCGTATTTTACTATTAGAATAATTTTTTATCTTCCAGAACATGTTTTCAGTTATAGCCTTGTCTGCTTCTTACTAAAGT
CTTATGAGGTGTGCTATTCATTAGTCTACAAGTCTGCTGCTGTCATAGGGCTCCCAAGTAACAGTGACTGAAAGAAGACAGTGGACATCCCTCCCATGTC
AGAGCCCGGGCTCAGGCAGTCAAGGGCATAGCCAAGGTCATCGCCAAGGTCACTGCCAAGGTGATTTGACACCATCACATCCATGTTCCAGCCAGTGGCA
AGTGGCTGGGCCCACCCTGGGGGTTATACCCCTCAGCAAAGGGACATTGAAGGAATCTGTGTCTGGGACCACCCAGGCTCAGTGCAGGTGGGGGATTAGA
GCCATGGGCTGCCCGGACCTTCAAATGCCCTCACAGGTGATCATGTTTCACACATTCCATTCTCCTCATCCTCCTCATTCCACGGACACACACAAACCTC
CCCAYGCACATCTGCTTCCCCAGGGTCCCCCTTACTTCCTACTGTCCCCAAGGGTGACCTAGAACCAGGGGTAGGGCCTGACTCCACTGCTCAGTAGGAA
GGAAGAGGGCTTGTGATCCACTGCCATGGCTGCCCTAGGGTGGTGCTCCTAGAACTCCATGTGGGAGGCTGGGGGCATTTCCTCATAGATCGATGGCAAA
TCCACAGCAGTTGGTTTCGTCAGCTTAAAATGAGTGACAGACAGACTGACTTTCCAAAGCATAGAGCTTATTTGGGAAGAGCAGGGGACTGTAATCGGGA
TCTGTCCGCTTTGATGGATCTCAGGTGCGTCTAAAGAGGCGCGGCGAGGGGAGACTTCAAAAGACCAAGAGGGGAGGTGGACACGGGCTGTTTTGAAACA
GCGCTCAGTGCAGGAGGTGGCCTTGGCGCATGGCTGGAGACAGGCGTGTCAGGCCGGCAGCTTGTCTGGAATACTTTGGTTTTGGGGAATTCCTTGCCTA
CTTCCTTCGTAACCTCCCAGGTCTTTTTACTTGGGGTTTGACATAAGTGACTCCATTTTGATACTGGTAACTTTCACATTTTCATAGCACCATTTGGTAC
TGAAAAAAAAATGTATTAATACATATGTGGATTTAACATCATGGGTAACATTTCTATGGAAAAAATGTATATTCCCTCACCTAAACAAATAACTTATTAG
TAAAGTTATAAATTTTTGCTGTTTCTTAAATTGGGAATCTCCCATTATGAGGATTGGAGGATTCTTGGAAACAGGAACTATGGCTTAGATACCCACAATA
CTTTCCACATATGGAACTCCTGATAAGTTGGTATTAGGTGAAAGAGAGACTTGTTAAATTACCAAATGTTATCAAAACTGGGCATCCGAATGGTGCCAGG
TGATACCTGGGACCAGGTGAACAGAGAGGTCTTGTAGTGGAAAGAAACTAGTGTCAGAGTCAGCAGAAGTGAGCCAGGTTACTTACAAGCTCGGCAGCCT
TGGAGAAAGTGTTAATTTCTGTACACATCCATTTTTCCCTTCTTTATAATGGGAACAATTCATCCTACTTCACAAAATTGTTAGGACTTCAAACCGAATA
AATATATGAAAAACATTTTCCCTTTTTGTTACACAGAATTATTTTTTAAAATTTGAATTGCACATTCCAAAAAGAACTAGTTAAAATCAACTAATATCCA
GTATACTGAAAGATAGCATTTTACTCCAAATTTTTTCCCACTGACAGATTTTTATCTTTGTAATGAGTTTATATATATATATATATATCTATATATATAK
ATAGATATATGTTTCTATTTAACTTTTAAGTATATTCTGTAAATATCTTTGTTTCAATAAGTAATAAGCCACTGGTTATAAAATATTCCATTATAGTTAC
ATGCCATTATATATTTAAACAATATCTTATTTTTGAATCTTCAGGCTGTTTCTAGTTTTATTATTATTAAACTGTGCTGCAATGAACAGTCTTGTAAGTA
TATTTTCTTACACTTTCCTTATCACTTTAAAGTCATTTAATACACAYTTCCTTCTATAAAGCTTGTAGAGGTCTCTTATCCAAATTGCTATGGCGAGATC
TGCTTCATAATTCATATTTTATAAAGGTAATAAAGTTACATGCTGTATATTACAAAATTTTCCCAAAAAGCTATGTACTGGGGAAGGATATTAAGAGTCA
TGTTCAGTAGAATAAATAGACTGTAAAGAGCTTCATGTCAGACTTTGGATTTTGCTACAAAATTAGTTTATATCACAGAATAATTATTTTCTATTTTTAG
AGCTTTTTGGCATTTGGAATCACAGAGAAGGGATTAAAGACCTGGATGATTTACCTATCTTTTATTTCTAGTAAAATGGAACTTGTTTTATTGGCCCTTG
ATAACTTTACTTTTGTAAATTGCCTGTTGTTAGCCTTTGCCCATTTTTTCATTAGGGGATTTGCCCTTTTTAATGATATTTAAATAATTAAATATTTTGC
CACATATTTTGCAATTATGTCTCCCAGCTTTACGTGTATTAATAACACACAAGTTTTATGTAAAATAGTTTGGAAATGTTTACCTTTKTGGGGCTTGTCT
GTGGGATCATATCTAAGAAGTCATTCCTAATTCCAAGAGGGCATAATTATTGATCTATGTTACCTAGTACTTTTAGTGGTTTAGCAGTTTTATTTCTGGA
TGAATATCTTCAATCTGTCTGAATTTAGTATTATATTAGCTTTAATGTAGGTTTTAGCTGGTAGACACAGTCTCATTCATTAAGCAATCTTTCCCTTTCC
CGTTGAGTTTAAATACCATCTTCTTTAAACACAAAACTTTTATATGTAATTGGATCTGTTTCTGGACATTCTGTTTTGTTCCGGTAACCTGTCCATCTCT
TTTGCTGCCAGAACCACATTATTCCCATTATAATATCTTTATTTTAATACCTATTAGGGCTGGGAGAAGGAAGGATGAAGAGACAGAGGGCATTTTTAGG
GCAGTGAAACTTCTGTGTGATCCACTGTAATGGTGGATCCATCTCATTATCCATAGAATGTACAGCKTCAGGAGTGAACCCAGGCCAGGCACAGTGGCTC
GTGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACTAGCYTGGCCAACGTGGTGAAACCCCGTCTCCA
CTAAAATACAAAAATTAGCCAGGCATGATGGTGGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAACTCGGGAGATGGTGG
TTGCAGTGAGCCGAGATCRTGCCACTGCACTCCAGCCTGGGCAGCTGAGCAAGACTCCATCTCAAAAAAATAGAAGAGTGAACCTGAGGTTCACTTATGG
ACTTTGGGTGATAATAACATGCAAATGTAGACTCATCCCCAGCTCTGGTGGGGGATGTTGATAATGGGAGGAGCTCTGCATCTGTAGGCACAGGGGTTAA
GTGGGAATTCTCTGTACCTTCTTATTTTACTGTGAACCTAAAACTGCTCTAAAAAATAAAACCTATTTTTTAAAAAAACAAAATCTAAACATTACTTTTG
AAGTCATAGAGCTTAGATTCAGGGGGGAATATGAAAAAAATAGAAAATTAGAATAGATTGCAATTTAGCAAGTATTGCAGTAAAACAGGATCCACAGAAT
AGTGCTTCTTTAACTCTGTGGTAAAGGGCCAGTGAAGAAATAAATTACCAATATCTCTTAGATTTAGCAGCCTCTTAGTTATTCTCATCTTTGAAAAGCT
ATTTGTAAACTGTAAAGTGCTCTTGCCTATTAGTTATTTGCCACTAATCTATAATGGACTCCTTTTAAAAATGAAGGTATTCACTCCATCTACCTTCTGC
TCTGGAGAATAATGAAATTGCAGTTAAAAAATGCTGTCATGTTCTCTTGAGAGATTGGTGTCTTGTAAGAACAGGCTGAAGTACGTTTCAGACAAGATTG
GGTGCAGTCGGGGTGGGATGACTGTAGACTGAAGCACATGTCAAGATTGGGTGCATTCGGGGTGGGATGACTGTAGACTGAAGCACATGTCAAGATTGGG
TGCAGTCGGGGTGGGATGACTGTAGACCGAAGCACATTTCAAGCAATGTCTCTTGTCACAAAATAATCTGAATGGCTCAGGACAAATTCACCAAGTAAAG
TAGAAGCTTGACATTTGCCAACTATGTATCCCATAACCAAGTACTGTTTTTAAACCATGTTTTTCTTAAAGAAGCTAAGCTTTTAATCTCTTCATATTAT
ATGCATATGATGAATATAGAAAAGCCCCTTTTAAAGTATGAAGAATGAGCATTTCACCCGGCCACTGGCTGATTGAATGCCAGCTACTGCACTGGATGCT
GCTACACTGCTCAGAAATCAGTACAAGTCACAAGCATTAAGTCTGATAGGGTCCGACATCTGGCCGATTAAACAATCCTTCGGCATATGTAATATTAATA
CTCTGTGCATGAGCAAATCCAATCACCTATTCAAATCAGATCCTCACTGAGTGATGCCTGGAAGAGTCAAACACTGGCCCGGCCAAAAGAGGACCGAGGG
AGGCGCTGGGAGAACTGGCTCCTAATCCCTTCCTGCTGCTAATTAGGTAGATAGCTTTGATCACTCACCTTAATTTTCTGAGCCTCAGTTCTCTCTTCTG
TTACATGAGAGGGCAGACCACGAGATCAATAAGGGCACTTTCAGCTTTCAAAATGAAAAAAACAAAAAAACAAAAAACAGATCCACTAACTGATTTATTT
CCTGTCTTATTATAATGGATTCATCCATTTACTTATTCCAAAGATGCTTATTATGAACATCTTACATGGTCAATTCCTGTGCCACGTGTGGTCCCTAAAT
GAGAAGGGAATATGGGAAAGAGAGAGAGACAGAGTCCCTCAATCTACCTTCTTCCATTCTCTGGGTGGGGCCAGAATTCACTGAACATGAGGAAGTGATG
AGAAGTGGTGAGGAATGGGTTGGGGAGATATTCTCGGCATTGCCATTTATTTAGAACAGGGTTTCTCAGCCTCMGCACTATTGGTTTTGGGGGGGTGCTT
GGGGGACTAGCCTGTCATCGTAGGTTGTTGAGCTGTATCTCTGACCTCACCCTACTAGATACCAGAAGCACACCCTCCCGCCATTTGTGACAACCAAAAA
TATCTGTCTCCAGACATTGCCAAATGTTGCTCAGAGGAGCAACATCACCCTCTGAGAACCACTGATTTAGAACCACCAGGCACTGTGCTGGATTCTGAGC
AAATAGAAACGAGAAAGCTGCTGGCCTGGCCTGGTGGAGCTGACTCCAGGGCAGCTTTGCGAACTTCAATATGCATCCGTTCCCTGGCGGCCTTGCTAAA
GCTCCATCCTCACCCCAGAGCTTCTCACCCAGCAGCTCTGGGTGGGGCTGCAGGATTTGCATTTTTAAAGAGGTCTCAGGGATGCTGATGTTGCTGTTTC
TCCAGGACCATCTCTGAGAACCATGTGGGCTCCACCCTGCTGACAGGTGAGAGTACAGATGTCCTTTTCTCACATCATAAAACAACTTAATAGTTTTCTG
AATTCAGAAATTAGGCCTCCAGTGGATACTCAGCCTACAGTAACTCTGAAACGTCACAGTGAGGAGGAAAAATAGAGAGTCCCGTAAGCTAGAACAATGC
CAATGGGTGGTCAGTTTCATATATTCCTTTTGGCTCCTTTCTGAATTAGCAGATGAACGGTCAGTGAAGGGGCTGGCCTAGGAACCTAAGTATTACCTAA
TTTTAGAGTTTCTGTGGATTCTAAACCCCAAACAACTGCAGCCAAGTTTTTACGACACTTGCATTTGTAAGCTGGCGACGTTTCTGACTGCAACTGGATG
TGAGCAATTCACATTGCCCTAAACGCATGCATCTGCCCAGATAGACCCAGCTCTTTCTTTCTGCACTTTCTTTCTCTTCCCCCGGTGCCCTTCCCTAGTC
CACCCTGTCCCTCTATTTGCAACAACCCCCCCTGTGACTGTGATAGCCCAGTCCCCCGTTGCCGGGCAGAGCCGGCACATGCGGGCTTCCGTAGAGTATT
CTCTATAAAACTGTTAGCTCACTGCGGACTGAGCACTGCTGCTTCCGCTTGCTGTATTGATACTACCAAATACYGTATTTTCTTTGAAAAGTGTCACACG
CCCGCGGGAGGAAGTGGGGTGTGGTGTCACAGCAGCATAGGAGGACAGGAGTGTTTTTGCTACTGGTGTACCCAAGGGCGACAGCTCACTTTGCCATTTC
TTGCTCTGACTCTGACACCAAGTTCATGGGAACCAGCCATGTCTCTATTCATGGGATCAAAGGTTAAGAAAGTGGAGCCCAGGCTCTCGAAGGCTCCTTC
TCTGACCGCGCCCTAGGAAGGAGAGGTTTGCCCCATACCTACCCCATGATGTGTTGAGAACATGACCCTGTCCCATATGCATATCCAGTGCAGTGCTTTG
CAATATAGTAGGCAGATATTCCAAATGCTTCGTGACTAACAGCAAAAAACAAATGTGTGTGTCACTTCATCCCCTTGGCAAGTGGTTCAGAGGTGTTCTG
GGCCATGTCTGATGACCCATGAAACAAGTTCCTATGGTATTTTCATGAGGGAGAATTTCTAAGGATGTTTTAGAAAAGTGTGGTGTGATCATCGTAGCCA
TCTTTTCCACCAAACACTGTCATACGCATTTTCCATGGATTAATTCATTAAATCATCACAACACAGACATAGACCCAATCCTTCATAGACCCTGATGAAG
TGGGTCCATTATATACCTTGTTTTGCAGATATGATAATGTAGTCACAGAAAGATTAAGTCACTTGTCCAAGACTGTACAGCTTGGAAACTGATAGAGCTG
GCCTATACTCCATGACACCAACATTTACAAACTGCAAGCTCCTTCACATGTTAACTCCTTCCTGGGTCTCTGTGCCTTTTTGAACTCGGCCATGCAAAGG
TTCGAGAATGGCAAAGCCTCATGCCCAGGGGCTTCAGATCCCCTTCTCAGTCTAGGTACCCTTTGACCAGAGCACCTGAGTCCCTGGCCCCAACTTGACG
CCCCTGTTTTGGGTGGTGTGCTCTTCCTCACTGAGCACCTACATGACAGGAAGAAATGTCAGGAGGACTGCAAGGGATCCAGCATCTCAGTTAGAGCTGC
TGGGTCACAAGATGGTAGAGTCAGAGAGAAGGTTGTCTTTTCAGAGTAAATTTTGACACAAGAAGCAGAGTCCTACATTTCCATTTACTCCTACAGAAGG
CAGCATCTTTGTGTCTAGTAAGTGATTATCCTAACCATGGTTAGAAAATGATGCCAGGGAGGCTGAGTTCCTCCCAACTTTATCTGATGAAGTTAGCTTC
TTTCTAGACTTTGTCCATAGAAATCCTCATTGATCCCAATCAGCCACTTCTAAAGGCATGAATGGCAGAAGCTTGGAGGGAATTGCACAGGCTTATGACA
TGCTGAGAAAATTACCCAGATAGGCACAGGCGCCCTGACATCCAGAAGAGAACTTAGGGTATTCCGAGAAACTCCATCTCTGTTTATATCACCCAATTCT
TCATTCTTCAAACCACAGCCATGGAGTAGAAAGAAAGATCATTAAGCCCCAGGTACAAGGAGAAACATCCTAATAGTGCTTAAGATAATTAAGCAAGTTG
CCAGGAAAGCCTGTCCCTACAGTCATAACATGTCCTTTGCAAGTAGGGACAGGTGGGAGCAGACAGAAACAGTCTACAGCGAAAACTCTATGCATTCATG
TCCTCCCTGACCTAACCTTCAAAGACATTTGCTAACAAGAAATAACGTATTAGTTTGGGTGGAGACACTTAGCCACCAAAGCTGGGTTCAGGTGCTGTTG
CTTACTCACTGTGAGTCCTTTGCACAGTTTTGTGGGTTGTGGGAGATCCAACACATAAGCCCTCTTGGCTATGCTTGTGCTTAGAACAAACGGAGAGGCA
GATCAGGAGACAGGGAGATGGAGAAGCATGTCCACCAGTTATAACAAAGGCCAGATCGATGGAGATGGCTAAAACGTTCAGGCAAATAAGTTGGTCGTCT
GTTCACAGCGTCCCAGGCGATGCTGGACTGTGTCAGGGACCCTCTCACCCCTGCCAACCGAGGAGGATGCGCCCCCACCCCACCCCAGCCTATGACATGG
CCAAGGATAGTGCAGAAATGGTTCTGCAGATCAGCAGATCCTGCAACATGAGAAGAGGAGGGTGGAGATGGGTGGGAACGGTTTATTCATGTAGAACATG
TTAACCAAAAAATGAGTGACTGAGGCAAGTTTCTCTATCAGTTGAGGTTTATTGAGCTAAAGTTTGAGGACACACCCGGGAAAAACACCAGCCCCAGAAG
CACCTGTGACCTGTGCTTTCCAAAGAGGGTTTTAGGAACTCAGTGCTTAAGGAGAGGGGGCAAGCAGGAGGGAAGAGGGAGGAGGGAGGCAGTGAGGCTC
TAATTAGCGCTTACCAAATCCATGTCTTACATAAGATAAGGTAAATGTGTGAGAACAGGGAGCAGAGGAACAAATCCATTATGCACCTGCCTCAGAGTCA
GGAGAAGAGTGACTGATCTCAGCTGGCCCTTCTTCTGTACCTGGGAAGATGAGCTTGAAATCAACATTGTCAGTTGAGTTCCTAAAACAGAACTCAGTTT
TAGAAGTTAAGCTTAGGTTGCAGTCCTAGGGTTGCAATCGGCATAGGCTTGTTTTGTAGGGGAATGTGGATCCTGAAGGATTTAGGGGCCAGAAAGGAAT
TTCCTCGTAAGCAGTGTGTGACGGTGGCCATCTGGGAGAAGCTCGGGGCCTTTTGTCATTGTGGGAGCCTGGCTTACGTAGAATGCTGTGACACAGGGTT
GTGAAGTGACCGCTGTCTCCTGGGGAAAAAGAATGGCACGGTGGCAGGACTTGGCTTCCAGGCTTACCTCTCCCCTTGGCATAACTGGTTTGGGGGGCCT
GAGATTTTATTTTCTTTTACAAACGTATCCATCAGATCAATCACTCTTCTTCCTGGGGTACAGGGATGAGGAGTGAGGATAGGTTAGAGGGATGCAAGCC
TCTCTGTTTGAAAACACAGGGAGGGAAAATATGAGCCTTCTCATAATGACCATGATTAGCAACTGCTCGGTAAGTGATGGGTGCTGTTGTCCTCATAACC
AACATCATCATCATTACAGTTTTTATATCTTTTACTGACTGCTGTTTTCTAGATATGGAAATTATATGACATAGACCTCAAATATCTAGTCCCATGATTC
CCAATAAGTACCCACTTGCCCAAGAAGTTTCAGTACCTGGCTGCTGAAAATACAACTTTTACATCCTTAGTTCATGTGTCTTAATTCTTGATTCAGAAAA
GCTATCAACTGTATTCTCCATATCTCAAAGTTAACGTGTCCAAAATAAAATGTCTCATCTTCTCATGCCATCTAGTTCTTCCCGCAGTGCTCCCATCTTG
TGAATGGGGATGGCCTCCTACCATGGGTTGGGGCCCCAAACCTTGAGGCCGCCCTGCTCCTCCTTTTCCCTCCCCTCATCTTCAGTGGCTTGGTACATCC
CATCAAGAGATATCGGAATCCCTGCACGCTGCCAGGGTCCTTCTGCTGGTGCCCTCCGACCATCAACTGGAAGAGTGAAGTCGCCCCCAGTAGTCTCTCT
TCTTCTGCACTTGCTCCTTACAGTCCTCTCAACACAGGGACCAGGGTACCCCCTTTCTAGGTGTAAATAAGTCTGCTCTGCACTCAAAGCTGAAGACAGC
ACGTAGACCCCTCGGGCGGTGTCCTACCTGAACTCCAAGTTCTCACCATGGCCTGTGGACAGCCCCATGGGCACACCCACCTCGTCTGTCTTCTCTACCC
CTTGCTCAACTCCACGCAGCCCATCCSCCTTCCCAGAACGTGCTTGGCAGCTCCGACCTCACACCCATGTTTCGGCCGGGAACGTTCACCTGCCATTGTC
TGTGTGACTCAGTCCTCTCCTCGTGCAGGTCTTTACTCAACGTCATTTCACAGAGACCCTTCAGGACCAGCAAAGCCCTCCCTGCCGCCCCACCCAGCAC
TCCCCACCTCCCTCCTCTGCTTAGTTTGTTTCATGGGAGTCACCTGGTGTATTTCATATTATATTCTTCTGCTTTCTTGTCTGTCTCGTGCATCTGGACC
TCTGCACAAAGGATGGGTTTTGTCTCTTTGGCTGACTGCAGTGTCCTAAGACACTTAGTGCCTAGTAGCTCTAGTAACTGTTTGTTGAATGAATGAATGA
GTGAATGGATGCATAGTCACTAAATCAGAAATCGTGGATAYTGTAATCATAGAACATTAGGTCATAAATACCAAGGATCCTGAGGAAGAARAAGAAAGAA
TATCTATGATTTGGACAGCCATTTTTCCAATTGTGGAACATTGTTTAGCATTTCAAATAATGAAAATAAACACATATAGAAGGCTTACTATGTGCTGGGC
ATTGTTCTGTTTTATACATATTAACTCGTTTAATCTGTGCAATGCACGTAGGAGTTTATGGAGTTTCCTCATACCTTATCTCATTCAGTTCCCAAAATAA
TACCAGCAGATTGTGGGTGATTACAACATTTTCAAGGATTCTTCCCCAGGGCAGCTGCTTGTGGGAGAGCTGAGGTCTAGAAAGGAGGAGTTGAGAGCAG
GAAAGGAACCAAGSCTGACCCCACCCCCATGCCAGCATTTTGATTTATGGAACCCTGGGAGAAGAGTTTCTCCAAAATGATACTTCATGGCCTCCAGCAG
ATCCCCCTCAAAGAAACCAACCTGGGAATGACCCTCTGTGTGGAGATCAAGGAGGAAAGAGGCAAGTGAGCCTTTCTTTTCTCCTGCTCGTGGACTTAGA
GTAAGAGTGTCTGGGACATCCAGGTATATACTATTTCCATTTTTCCTTTTGACATCTTCGATGATCAAGATACCTGCTAAGGATTTGTTCAGAAATCAGA
ATTAGTTGTAAGGCAGTTGCCTGAACAACTGAAAGYGTAATGACCCCACAGAGAGCACTAAGGCAACAGAAAGTACGGCGAGGTGGGATTATTAGGTTGG
TGCAAAAGTAATTGTGGTTTTTGCCAATACTTTTAATGGCAAAGTTTTTTTAAAAAGTATTTTTAGTAGAGGCAGGGTTTAGCCATGTTGATCAGGCTGG
TCTTGAACTCCTGACCTCAGGTGATCCGCCTGTCTTGGCCTCCCAAAATTCTGGGATTACAGGCATGAGCCACCATGCCCAGCYTTTTTTTAAATTTCCA
TTACTTTTAATGGCAAAAACTGCAAATTACTTTCACACCAAATTAATAGGATATTTGATGAGTTTTAATATAATTATCGTTTTTACCACAATTGACCTTC
CCCTACTCTTACCCTCAAAAAAAAAAAAAAAGAACTTAAAATAAATCCATAGTCATTTCAAAAGTGACTTCAATAATTTTAAAGTCATTAGTTGTTGGGA
CTCTGAAAATGTAGGAATCCTGTTATGCATGACAGATTTCCACGGTGGGCAACAGTCACCTAGCACRTGCCTGGTAGTTCAGCTGTAATGTGGGCTAAAA
GCTGATGGAAAGCCTAACCCCTTTTTAAACAGTATTTCTATGACTGGCTGAACTCCGTGGTGGATGGCAAGGCTGTGTCCTACATCAGTGAGAGCCTGCC
CGCTGCAGCCAGGAGGCACCTCACAGAGACTGGAAGCACAGAGGGAGGTGGGCCAGCTGGGGCCCGAGGATCCAGACTTGGTGAGACTCACAGACCTTGG
CCCACTRCCCTCCTCCCTCCTCCCTCCTCACCCACTTTTCTCCCTTCTTCACATCAGTACTGGTGGCAGCACCCTGAGCTGAAGGAGAAAAGTTCATATT
CAACATCAGAAGTTATTTTATTTGTATGTCGCTTTGGTGAGAGCTCTGTCCTGTAAGAGGGGACCTTTCTCATCTAGGAGAAAGTCTACCCGTACCTGTC
CCCATCTGAGCTATTAATTCTATAGATTCTGGAAGGAGAAAAATGAAAGTGAAAAGTAGGTAAGAAGAAAGCATGGCAGACATGCGCTTGGAATACGGCT
GAAGACGGTAGATGTGGCAGGTGGTAGGATGCTGTGGAAAGGGACTGAAATCTGAGGCCTGAGTTTGAATTCAGGCCCTCCAAGCACTTTGTAACCATAG
GCAAGTCACCTAAACTTGCTGAGCCCCAGCCATAAAATCTATAAATTAATAAGATGGAGATAACTACCATAGTTGTCCTGTCCACCTGACAGCTACTGGA
AGGGTTTATGGAGATAACATAAGTCAAAGTGTCTATGAGAGTTCATTACAATAATTAATGTGATGACTATTTTTAATATTATTAGGTGAGTAACTAGTAA
CACCCACTCTTTCTCATAGGATTTTTTAAGGACCTCATGAAGCATGAGAAAGATTTTGAAAGATGGTAATTGTGCTTGGGTGGAGATGGCAGAGCTCAGA
AACAGAAGGAATGGCGTGAACAGAGCCATAGAGACAGATATTCAGGGAACCTTCAGCAAATCRAGAGAAGTCCAGGCAGGCTGGGACTCCGCTGAGAGTC
GTGCTGTGTGAAGGAGGCAACTTGAACCCAATAAACGGAGGCTTTTTAATAACAGGTTAAGAAGCTGGGACTCCACTGAGAGTCGTGCTGTGTGAAGGGG
GCAACTTGAACTCAATACACGGAGGCTTTTAAATAACAGGTTAAGAATTAGGCTTTAACTCAACAAACACTGGGACAGCTTTCTTAAGTAACAGTGTAAC
TTGACCAGGGCTATGCCTTAGTGGGACTATCTATTCATGTAACCTATTAAAATTTGTGTCAGAAGATTAATAATGTCATCCCAGGTGTTTTATTTTCTAT
ATTTCAAGGTTTAACTTCAACACTATTGTTGGTTTTTTGGGGGAAAGTGCAGAGTGTTGTTAATGTTGGCAGGCAGGAGGGCAACACTTGGTCTGTCCAC
GAAGCCTCCTTCATCTCTAGTTCTGACTGAGGGTTGACTGTTAGCCTTCGGTTTCCTTTGTCACTGTATTGTAGGGGTTATTTTAAAATATTATCTTCAA
TTTATACTTTATTATTATTATCATTATTTTGAAAAGGGTCTTGCTTTGTCGCCCAGGCTGGAGTACAGTGGTGCAATCACAGCTCACTGCAGCCTCGACA
TCCTGGGCTCAAGTGATCCTTCCACTTTGGCCTCCCGAGTAGCCGGAACTATAGGTGTGTGCCACCATGCCCAGCTAATTAAAAAAAGAAAAAATAGAGA
CAGGGTCTTGCATTGTTCCTGAGGCTGGTCTCAAACTCCTAGGCTCAAGTGATCCTCCCACCTCAACCTCCCAAAGTGCTGGGATTACAGGCATAAGCTA
CTGCACCTGGCCCATACTTACTATTTTAATTCACTTTTGAGAYCATTTTTGTTGGTGAAAGCTAATATTTAATCTCTTTATTATACTACTTAGTAGAAGT
CTTAGCAACAAAGCAAAACGCTACCCAACTATGTGATTTTTTTTTTACTAGTTATCATCTTTCTTCTGTGCACATTGTGAAAAAGTTTTTTTTTATGTTT
CTTTTAACAGCAGTCACTTTTACCTAAGAAAYCTTTCTATCTCATAAAGAAATGCAAAAGCTATTGGTGTAGCTTAATTTGCCAAAATTTTTCTGAATTG
ATGTTTACCAAATTTGGCTGAGCAGATGTAATTGGAAACCATTGAATGCTTTGTTTCTCATTCCCARATTTACTATTGATTAATCTGTGTTCTTTCTTCC
ACATGTGAGAGGTTTTGATACAAGTGATGACTATTGTTATTTTAATTCTGTGAGACTCTCCCCCAACACTGAGCCATCTCCCACTAAATTATAGTAATAC
AAATGCTGTCCAAACATTTTATTAAATGAAGAAGTTTGCTATTTCTTATTTCATTTGCTACTGARGAAGAGAATGCTTGATATTTTTTTCAATTGATGAG
AGTATATTATACTTCTATTGCTTTCTATTTATATGGAATTTGTCCCCATCAGGTTCAGTTATGTGGACATCCTCAGCATCTCTATAAACGCATTCTGGGA
GTTTGAATTGTGGAGGGTGAATCAGCCTAGCTAAATAGGTGAGTCAGTGTCCAGAGAATCAAAAGACCAGAATTCTCAGTTCAGTACATAATAGCGTGTG
ACCTAAAGCACTGAGCAATTATACTTGATCATGTACCTGCATCGAAGCTACACACAAAAGACAAATGAGATCACACTTAAAGCTGAAAATAGTGAGCCTC
TAAGAGTAAAGATCCTTTGTAATTTTAAAGTACATAGGGGCCGGGCGCGATGGCTCACTCYTGTAATCCCGGCACTTTGGGAGGCCAAGGCGGATGGATC
ACCTGAGGTCAGGAGTTCAAGACCAGCCTAGCCAGCATGGTGAAACCCAGTCTCTACTAAAAATACAAAACTTAGCCGGGCGTGGTGGCACGCACCTGTA
ATCCCGCTACTCGGGAGGTTGAGGCAGAAGAATCGCTTGAACCCAGGAGGCAAAGGTTGCAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGGGCAA
CAGGGCGAGACTCCGTCTCAAAAAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAACATAACATAACATCACATAACATAACATAGTACAT
ATCATGATGGTGTTTTGCAGCTGGGGTAGCAAAAGCTTGGAAGATTGGATGGACATACCTGATATCCATCATGATAATGACTGCATCCAGATGAGGACAT
CAGAGGGTAGTAAGTGCTCTGCAAGAGATAGATGGAGGGTTTTGTGGGAGCTCCGTAGCAGAGTGCAGAGGAAGGTCACATAATTTAACCCAGATATGCT
CCTGAAAGACTATTTCTACTTTCCTCCTGCTCTTTTTGGTACACACCAATGAAGTTGAGAAGGCCCATTAGAAAATATATCAGAGTTGTAATAATAATAA
CTAACATTTATTGAGCATTTACTTTGAGCCAGCCCCATTCTAAGCACCTTGTGTGTATTTGCCCATTTAATCCTCATGGCTCTTTGGGATGAGTAATAGT
ATTATCAGTGATTTCCAAATGAGAAAGCAGGCTTAGAGAGTTTAAATAACTCCAGCAGTTCAGTGTATGAGGGCATCGATCTTTTGTTTACAACAAGTGC
TGGGCTGAATCCTTTGCTCTTGACTCCCTCTGTAATTGTCTGTCACTTAATTTGACCATTGTATTCTCTTGCAAGTAAAACAAATGCATGAGATGAAGAG
ATTTGGTAAAATGTTGCTTTTGAAAATGAACTCCCTAAGCAAAAATGCAGAGTCTCTAGCATATATCAGACAGGGGGATCAGCTCTGGAGGCACATAGAT
GATGAAGTCATGGCCCCTTCTCTCGGAATTGTTGAGGAAGACAGACGTGAACCCATAAATCCAACTGCACATTGTAGGGAAATACAGCAGCATGGGCGCT
GGCACTCTGTCTCTTCCCCTATCCCACAAGCTGACCACATCTCCAAAGGAATGTGATCACAAAGGGAAATTGTTTATCTTCACTGGGGATGAGGGAAGTA
AGGCACCCAAATGCACTCGTTCTGAGGAGTTTTTGCTGAATGTATTGCAGATGAGACCAGAGAGAMTTGTGTAGTTGGAGTCAAACCCCTCTTCTGAGTG
TATGTAGCATCTCAAGAATCAAGTAGGCGACATCCTGGTGGGGCTCTATAAGTCCCCACATTAGAGGGCTGAGAGCTGGGAGCCACAGGATCAACCCCAC
TCGGACTGTAGAAATGGCAGGTGTGACGCAAATCAATATGACAGGTGCTGTCTAGCAGTGCACTCAGAGAACTGCAGGAGCCAGGGCTGAGAACTTCCCA
TGGAGATGTGTTGATGGGAGGGCTCTAGAGGAGGGGAAGGAAGGCTTCCAAGAGGAGCTAGAGACTGAACAGGAACTTGAAAGATGAGGAAGGGGGCAGG
GAGGATGGAGTGAAACAGGGAGGCGTTCCAGGGAGAGGTTGCAGCTTTCCTAGAAGGCTGAAGCTGTGAAACACATGGCACATTGGAGAAACAGCAGCAG
TTTTGCAAGATCCTAAGATCATTCAGGCTGGAGCATGGAGATTGGATGGAGACTGAGAGGTGACCAAGGCTGGACAGAGGAGGCAGGGTAAGAAGCTGCT
GTGAGTCACAAGAGAGGTGGTGCAGAATCGGTGGAGCAGGAGATGAAGCAAGTGGGTCGTGAGGCACAAGGGGAAGGGTAAAGTTGAAGCAGCGGGTGAG
GGCYGGGCGTCGCGGCACCCAGCACCGAGCTGGCAAAATGAAGGAARAGGCAAGTTTGAAAGGGAAGGCAGGGAGTTCTGTATGGGACCTGGTGAGTTTG
GGGTCCCCTTGGAGATTTCCAGGAGAGAGTCGAATGCGTGACTTTATTGCTCAGACAAGGGGTCTATGGGGGGACCTAGCCCCTGCCTTGTTCGGAACAG
CCTGGCCAGTCAGTCTTCTTGTGCATAGATTGTTGTCATAAAGTATGAGACTACCATGTGTTACACAATAGACCACCAGGATGGCTGAACAGTAGAAAAG
AACTTTATTGGCAATATCAGTTTGCACACCGGGAAGAGACAGTCTTTGGCGTGTATGGAAGGTGCTCTCTCTTCAAAGAGGGAAAGTGCAGGCTGGTTTT
ATGCCTCCCAGGTTCCATATTACACAATAGAGTCAGATATATTCAGAAAGCTTTGGGGAAAAATCTATACATATTTATGAGGGGAGTTAAGTGCAGGTGC
CAGGGGTAAACATATGTCCAACATACATCCCATGTTCACTTTGGRGCACAGTTGTAGCATTAAAATTAGATCCTAAATTTGGCTCTTTACATCAAAAGGC
AAATGATAGGACACAATGACATTTAGTGTGCAGCACCTGTAAGCTGCTGAAACTGGCTTGGGGTCTGCATTTGCTTATCRRGAAAGAATGCCTGGAAGCC
TGGTTCCCTGTCCAATCAGAGTTGCAGGGGTCTGGGTTGTAAATCAGAGTTAGGAAGAGTCTCAAACTTCGCCTGATTATTCTTGTTATTAGGGAGACTA
ACAAGGGTGTGGCTTTTCCTGTAGCTGTAGGAATTTAGGAGGTTGTGATGCCAGCCAAGCCCTGAATCCTCGACCCCTGGGTAACTTTTGTTTCTTTAAC
CTTAGAATCCATCTTAGCTGATGAAGGGGCAACTGTCTTGGTCTCTCAGATCACACGTGAATGGAGAGTGAAGATGAGACCGACTGAAATTTAGAGTKCA
CAGAGGACAGATCACACAGCTTAGTCCTGAGGCAGGCTATTCCAGCACATATTTTTGTCTACAGAAACTCTCATTTCTGGTTAAACACCCAGGGAAATCC
CCTTCCCCCTACTATCTGCTCCGAACACCAAAAGGCAACCCATGAAAATCTTTTATGTTAATTTCTTTCTTGTGTATTCATTACACATCTTCTTGGCTCT
TAATATAGATGGATAGATACGCATATTTTTACATCCACACATATACATACATAAACACACACATATATACTTACATATACACAGGTGTGTATATCTGTTA
AATGTGGTAATTTACATACCCAGCAGCATTGTATGAAAGTGTATGATTCATTTTGTCCTTACCAACATTAAGTAATAGCATTTCAAAAATATTTGATAAT
TGCATGGGCAAAAACATATTATTGTTTTTATTATATATTTTTCTTTTCTTTTCTTTTCTTTTTTTAAGACAGAGTCTTGCTCTGTTGCCTAGGCTGGAGT
GCAATGACATGATCTTGGCTCTCTGCAACCTCTGCAGGGAGCMAAGCGATTCCCCTGCCTCAGCCTCCAGAGTCGCTGGGATTACAGGTGCCCCCCACCA
TGCCTGGCTAATTGCTGTATTTTTGTAGAGAGGGGGTTTCACCATGTTGGCCAGGATGGTCTGGAACTCCTGACCTCAAGTGATCTCCTCGCCTTGGCTT
CCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCCAGACTATTTTATTATATATTTTAAATATTATAATTCTTTTTACAGCTTAAATTAGGACTTA
AAATGTTAATTTTTCCTCAAATAAAATGCATTATTAATTTCTAATGTTATTTTATTCTCAGCTGTGTTTGCCTAACTGCAAATGTTCAAAAGAGCTTAAA
TACCACAGAACCAAAGCTATTTTAATTTTTTAAAAGATCTGATCATTTCCCTTTAGTAATTTGATTACTTTAAGATTTTAATTTAATATGCAGCTTTTTC
ATATATATTCTTTTTACTTTACCTCTATAATCTCTGTATTTATAACACATGCCTTAAAATACCAATTGCATATATTTCTTTTCTTTTGGTTTTTGAATTA
TCATACAGTAAAATTGACTTTTGSCTTGGTGTAGTTCTGTGAATTTAAGTCTAGACTTCTGTGACCACTAGAACAATCAAGCCGGAGAACAGTTCTGTCT
TTCCCCAAAATTTGCTCATGCTGCTCCTCCCTGCTGCAACTCCTGGCAACCACTGATGTTTTTCTTCATATAGTTTTGTCTTTTCAGGAATGGTACATGC
AATTACATAGTATCTTATTCTGCATGTCTTAAATTGCTCACCTGGCTAAACATTTTTCCACAATTAGTTGGAACTATGATTTTTGTATCCTGTATAGCTT
GTGCCTTTGCAATTTATTTTCTTGGGTCATAAACAGTGCCTTTCTTACAAATTTRTATACCCATATTATGTAAGAATGGCGTTTACTTACTTCTGTTACA
CTAACCATAGCTATTTCCCTGGGTAGGTCTTTACTGTTAAGTTTGGTTATTTTCTTTAAATGTATAAGACCTTACCAATAGGAATAACACTTGATAAATA
ATATTGTAATACTCTGGTGATCCAGTCTGATGCAGTATCCCTAAATCTGGGAAAGGTTGTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGATGCT
ATCTTAAAGATGCATTTTTTTCTGGCATGTARAAGTTGGAAACAGACTAAATATGTAGCTACAGACTTTAGTAACGCAGATCGTAGAGCTACTGTCAATA
GGATGTCATGCAAGAATGACAAGGAAGCCTGAGAAAATGTCAGAGAAACTTGAAAAAAATTTTATAGTAAAATGTTAACTTAAAAAGCCAAATATAATTC
CATACCCACAGGATGATCATAGCATGTAAGAAAAAAAAAACACAAAACTTGCTAATTTAAAAAGACTAGGGAAAATAGATCAGAATAGTAACTGATTTCT
TTTATTGGTGGAAATCTGGAGAGACTTTTTACTAACTTTGTGTGTCTTCTTTATTTTTCATCATGATCACCTAAAAAGTGCTCTGAACTACACAGAGAAA
AGCACTCTGTGTAGTTCGGGTGTAAAACGCTGCCATCTGCCTGAAAAACTCACACCTGAGCTTGCGGTTCTATTGAATGATGTGTGAAGATTACCACACA
AATACCTATTCTGTCTTCTAGATGTCAGGTGTATGTCAGGTCATGTCTGACATACATTTCTAAAGGTCTGTGAGCAGACCTTTACAGAATAGTGCAAGTG
AATCTGGTGAAACGGCCGTTTAATCTGCATTGCTTATTAAGTAAGAAATCATTGTCTAGGAAGACCTTCAGGGGGACAGAGGGTTTTGCCCCAACTCTCT
TCCTTGCTGTAATGGAAGCCCTGGTCACCCTGGAGGTTTCCATCTTCTCTTCCTGGGGCAGCATTTCCCAGACGCCTGCTGGGCTACTGTTGCCTGATTA
GAAACCCACCCTGGGAATAGCAGGGTGACACCAGAAAAGGTCAGGGTGCTTTAACTCTGGCTTTGTGAGTTAGTGATCCCTCTAGACTCAAACAGAATTA
AGGAAATCTTCAGAAAGTCCCRACAGGGCAAAAACTCCCGTAACTGAAGATGATTCTTAGTGATTTTTCCTGATTTGTGGAGAAATGAAGTTTTGTCTAA
AAGACCCAATTGGCCCAGGAAAGAAGGGATTCTCAAAGAAACTCTCTCCAGAGAACTCACAGCTGTTAGCCCCGCTCCTGCCTGGGAATTCTAAACTCAC
AGGGCAAAGGGCGCCTCCTAAAGACAAATTTGTAAGTCATCTACCTGCTAATTCAGCAACGTGACAGATACGGAACCCAGCAAATCATGATGTTTACCCA
ACCRTCTCCTTTAGATAAAACTTCCAAACTCTGCAGGAAATTAGGACTTCATTAATATCTGTGAAATTAATGCCYGTCAAAAGCTCCTAATTTGTCTCTC
TTGTGGAGTCAAAGAACACTGGTATTTAGCATACTGGAGATCCCTTTTGTCTTAGMTAGATGAGGTATTACAGGCCCAAGATCTCCAGGTATGTTACTGA
TTCTCCTTCCAGGTCTTTATTATTTCAAATAGTTTTCTTTCTTTATACAAAGGCAGAAAAGACAATCAATGCTTTGTTTCTTATCTTTGGCTTACTTATG
AAAGCTTAGAAAAAATTATAAGTATAAATCATCAAAAAGAGAGACGGAGCAAGGAAGTAACTTTTTTGCTGAATATCAGATGATAGTTTCAGATTAATGG
GACCTCGGAAAAGTAGGTAAAAAAGAAGAGGTATCTAGTTCACATAAGTGGCCAGAACACTCAATAATGGAACAATAGATGAAGAATTAGACTAGATTCC
TGGATTTGTAGCTAACACTTTGATAACTATCATCTAAACCTCTTGGAAAGCATAATTACTGATTTTTGGGCTTTTATGAAGTATTTTGTTCATCCTTATA
TGAGAAAGCCCTATTTTATAGTAGTCAATTAGTTTGGAGTTTTCTACGTGGTTTGTGATGTTCAAAGGCTTAGAGTGTGTGTGTGTGTAACTGTGAAGAA
AGCAGACCTTTTTGAAAATGTCCAGAGTAAATAAGGATCAGCTGCCGAATGCCTTGGGCCAATCCCATTACACACATAAATAGACCATGTAAGAATTTTG
CGGTGTCATATTTAACTAGTGTGACTAAAATAGACTCGCTCTATATAAACTCATTTTCTGATTACTGTGTGCTGTTTCCTGGGCACCTACTTGAATAACA
GAAGACATAAAATATTGGAAAACTTTTGCCTCACTCTCCAACCATTGGGCCTAACTCCATTAGGTTGAATGGAACTAACTCTTGAGTTACTTCTCAAAAG
CAAGGTTGAGTGCAGACTTCCAGAAAGCCTCTCCCCTCAGCAAGTCAGTGTGTGGTTTTGGGTGAGTCCAGCAGTGTCCTCTGCAGAAGGGGAAGTGAAA
ACATTTGTTCACATGGATAGTGGACCTATGTGAGGTTCTGGCTRTCCATGATAAAGCACTGGTTAAGTAGACATGGGGCACCAAAAATAATATCTTTTAT
AGCCCCCAAACAGCGTTTGTCTTTTGTCTTTTTCCAGGGCGCAACCATGTCGCCATTTCTTCGGATTGGCTTGTCCAACTTTGACTGCGGGTCCTGCCAG
TCTTGTCAGGGCGAGGCTGTTAACCCTTACTGTGCTGTGCTCGTCAAAGAGTATGTCGAATCAGGTAAGCTTGAGGGGATTTTCAAAGCGGGGGAGGAGG
AGGAGAATCCTGCTATGAACTGTGTATGAAGCAAGGTCTTCCAGGACATTTGACATCATCTGGTGGAACCAAATCCTGCCATTTAGGACRCTGATGCCCA
GCAAAGCCAAGGACTTCCTCATGGACACACATTTCGTGATGGACTCTAAACCAGGACCCGATGGCCCACCGGTGCTCTATTGCACTGTATCATTTTTCCC
ACATATACAAAGGGAAAGAGAAAGCTGGGTTGAGGAAATTACATAAGGAGTTAATGGGAAGGAACTCTAATGAGCTGAAGTAGAACATAGCCCTATGTGG
TTAAGCCTGGTTACTTTAAATAAGTCTAGGTAGATTAAGACTGCATAATCTTCCAACCAACTCTAAAGACTGCTTACTGCTGCTTTGGCRAATCTTCAGT
GGATATTACAAAGCATCTATAATTAGCCATTAGAATCCAAATTTCAGAAAACGTACTTTTGCACTCACTAAGGTCTTGGCTGAATGAAAGAATAGTGATG
TTTCATCAAGTTCAAATACAGGCAGCTCAAGGTGAGGGGGAAAGTGGGACAGCCACCCAACGTCCTGTTTGTGGGTTCAGAATGTTCCATTCCAACAGTC
TTATGTGTAGGGAATGTCTCTGTGGTCACGTCGGCCGGCTTCCACTCTCCAAGATCTTCACCTCTGCATTGGAAGTTTGCCACGGATTTCCAAAGGAAAA
GTAGGAGGGAGTTTAGATCCCACAACTCTCCTGACTGCACACCTTTTCTTGTTTCCCTACGTGCATTTTGATTTTAGCAGACACTTTGTAGGGAATGATA
ATGATGATGGATGCAGGCTTGCAGTAACTATGGAAGCCATCACAGTTCACTTACACAAAAGTGTTTACGGAGAGACCACTGCAAGAGTGCTGGGACCAGA
GCRTAGAGGGAAAAAAAGTCAAACAAGTAAGCTGAAGGAACTCAGGAAGACTGCCTTCCCTTTAGAGCATCTATTCTTGCAGAAGAAAGTGGCAATAAAC
AAAAATACAAACAGCAGGTAATGAAGGAACAAAAAGCAGTGTAAAGAAGAGAGGGACTGGGGGCAGGGATGTGTGTTATTTTATATAGGGTTGTCCTGCA
AAGGCCTGTGAGYGAGGGACATTTGCAGATACAAGAAGAAACTGACTCAGACTTTGAGAACCTCCTGCCAGATGCTCAGAGTTCAGATTCTGGGGTTCCC
AAACCTACTATTTTGCATCCCCCACCAAAAGCCTTTTTGCTTCACAGCTGACTTTGTCCTTCCAGCCACTCTGAACACATCAAAGCCAGAGAGACTGTCT
GAATCATCTTGATTTCCTTTCTGCCCAGAGTTCTCTCCTGTTTAGTTAAAAGTGTGAATGCCACTTGCTCCCAACCTAAAACCTTTCAGATGTCACAGAC
ATCTTTGAAGTGTAAAACGTCTGAGTTTTTCAAAGCCGCCTTTGACTTAATGGGTCTCCTGGATCCAGTTCTCTTTACCATCTCAGGTCTCCCTGACATT
TGCTTCCTGAGGGCTTTTTTTTTTTTTTTTTTGCATTTGGCCTTGCCTTTGAACTTGGTCTAATGAGCCATGTGGATCGAGAGTCCTTGTCAGAAAAGAA
GGAAACTGGTTTTCCTAAATATTAGCCTGTGGAGTTGGAGGGAGTTTAGAGATTTTTGCTTTTGATTTTATTTTGGGCTTGTTCTGAAAAGAAATCACTC
TGAATATTATCATTCAATATTTACTTCTACAGGATTTAAACACATTTCAGTTCTTGGGGTGTAAGGCTGCATTTTCCACAATGAGCCAACAGAACAAGGA
CAAACAGGCTACGGGGCTGCGGGGTTGTGAGTCGTTAAAACGGTAACACTCTACATAGATAGGGCCCTCTGTTTAGGTGATTACAAACGTGGCGAATGAA
AATGTAAAAAGTGCCTTGCTTTGGGGACTTTTGCCCCTTCTCAGGGTATTTTTGGCCCTTTTCTCCAGGCACAGAGAATGGTTACCATCAAAAGGAAGTA
TCGGAAAGGGAAGCTTCAGGTCTGTGGAAGTAAAATGTTACCGTGATCATTAATATTGCCGTTGGTTTCTAAAAAGCCCAATCTCCAGTCCAATTTTTTT
TTTACCAACCCACAAAAAATGTCCCCTTTCTATTCCACGTTTAGTAGTCTCATGGTTTATGTCTTTCCTAGCCAAGTTTATCTAACATTTGAGTTTCAAG
CTTATTCAACTCCTTGTATACCCCCGAAATAAATATTAATTTAACAAATGCTAAATGTCTGCTCTGTTTAGCTTTGTGTGTTGGACAGAAGGGGCCCTCG
AAAGTTAGAAGGGCTTTATTTCCTGGCTTTAAGCAGATTTTTCCCCTTTTGCTTAATCGACATCTCTGAATTGCTAAATCTGCCACTTAATGTGCTTATG
TCACAAGAAACAAACACTCAAATGCAGGTTTCTGCTTCTGAAATGATTAAAGAATAAATACCAGAGAAAATCCAATGTGCGTGAAAGACAAGAAAAAACT
TCTTAATTAGTAAACTCTTTGCCAATCACAGAGCGGCTTTAGGGAGGTTTCCCCTAGACTGACCTTCCTGTCTACAGATTTGTTACTATTTCCAGGGCTC
CTGCCTACCTGCCTTTACTCACTTGCAGGCTGGCAGTCGGCTTCAGCCTTGCTGGCTCCATGGGTAAAGATCAGCACCACCTCTCTGACTTGCTCATCAG
CTTTTGCTGAGGGTGCATGGTACATGTAAAATGTATCTTCACCCAAGAATTAGAGAAGGAAATAATGGCTCATTATGTTTTAAAGATCATTGTCTCTTAC
TGTATTTATGTCAAATGGAAAAAAATGTAAATATTTCTTAAAGGAGCATTCATTATGCGCTGAAATTACGCCACTATGTCTTTCAGATGAACACACAGTA
GTTTTGTATTGACTATGTTTAAGCTGGGGCCAGTGAGGTTAATCAGTCATAGGATCAACACTACAGATTAATAAAGGAGAATCTCAAAGGCATAAAAGAT
TTTTTAAAAAGTTTGTTGCTCAGGTGTTTAAACCCAGAGTGAAGCAACTAACTGTTGAATAGGAAAATAACATTTTGAAACCAACCCAATAGTCCCATAG
ACAGTTGTTTTTGGCTGATTATAGAAATGGACCCTTCTGATCTTAAAGCTTGGAATTTACATTTGTTTTATCTGAGTTTCTTCCTCAAGAAAGGATCCCC
ACACCTCTCAAAAAAAATATTAAAGAACTGAAACTCACCAGATCATGGCATCCAGAGACTGAAGCGCCAGGCCCCTGGTTCATCATGATTGCTTACTTAC
CCCTCCCRAGTTCCTGTTTTCTCATACAAAGTTACATTTCTTCCCTGCTATATAAATCCCTAGTTTTAGTTGGTCATGGAGATGGACTTCAGACTGAGCT
CTCATCTCCTCGGCTGCAGCACCCAACTAAAGCCTTCTTCCTTGGCAATTCTCGTCATCTCAGTCATTGGCTTTCTGTGCGGTGAGCAGCAGAACTTAGA
ATGCCTGGTGTTTTGGTAACAATTTCCAGTCCAAGGCATTAGCAGATTGTTGTCTGAATTATCAACGCTGGACTTATAAGGTTCAATGCATCACCTTGCA
TCTGGACCCGGGGACTGTCTCATTCTGTCCCATATTGTCTCTGATTGTTTATGTGCTACTTTTGTCTTCCCAACAGAATTCTATATCCCAGAGAACAGAG
GGAGCAGGTGCTACTGTTGAGYTGRACTGAATTATTTTCCAGGCCTGGCTGAAGGAATAATGAGACCTTACGTTTCTGTTCCTAGAGAACGGGCAGATGT
ATATCCAGAAAAAGCCTACCATGTACCCACCCTGGGACAGCACTTTTGATGCCCATATCAACAAGGGAAGRGTCATGCAGATCATTGTGAAAGGCAAAAA
CGTGGACCTCATCTCTGAAACCACCGTGGAGCTCTACTCGCTGGCTGAGAGGTGCAGGAAGAACAACGGGAAGACAGAAATATGGGTAACRTTGCATAAA
GTGTATGCACATAAGGGATAAGCATGATGGTAGCCGATGACTGGCTCAGAACTCCCATGTCAATCTGAGGGTGTGATTACACTGGCCTCRGGTCACCAGG
CTCCCTACCACTTCCTACTGGTGATTTGATAATGGCGATGGTTATTCTTTATGGGCTGTAGAACACATTGACATCTTCAGATCTCTTTGATGCCTACATC
AAAGAGATGTAGAAAGTCTCTTAGACTATGATAAATTATTTAAAACTGTTAAAGCAGGCTTGGAATATCTCAAATTCCCCTTAAGTGGGGGATGAGTTTT
TGTCTATCAATCCAGTTGTCAGTTTCATTCACTTTTTCAGTTTTGGGAAGAATATTTGTATATAAAACTTAATCAAGATTTATGAAACAACAACTCTAAT
GCTTTTTAACTTAGAAATTACTTGTTTAACCCAGTAGACTCAGAACACGTTAAGATATCAAAATCTTAATTTTATTAAACTTCATCAATACACTTTTAAA
GTAAGTAAAAAGCTATCAGAATGCGAGAGGATAGAACAAAGATCCATTTAATGTTTGGTCTTCTCTCTCTATACTTTGACAATTCCTACAATTTTTTTCA
GCTGTAATGAACTTAGCTTACTTTGACTAAGAAGTGCATCATACACAATTCATCTTAGCACACCAAGTTGTCAAAAACCTGGATTATGGTAGTAAATATT
TAGAAATGTTAAAAGGAGGAGTAAAATAATCAAAGCGTTAAAAAAATTCCAATGAAAATTTCTGGGGCACAAAATAAAAGAAAATATATCAGTAAGAAAC
TGCTTTTACATGATCTGAAATCCAGAAAATGTTTTCAAATGTTTATATCATCTGTGCCAAAGGAGAGAATCCTGACTTTCTGCTTCTTACTTTCTATAAC
TCAGATTTTTAAACATCCACCCAAAAGATTTTAAACTCAGATTTTAAGAAATCCACCCAAAAGATTTTCAAGAACTCAGATTTTAAGAAATCCTCCCAGA
AGATTTTCAAGTCACAGGTTTCAAATGGGAATGATACAAGCCTAAAAACTAGGTTTTTGTGTCAGTTTTGTATTTTTGACCTAAAAAAATGGATGCTTTT
TAAGAAAGTATAAAAATCTTTGCTCGTATCACTAAAGTAATCTTTAGAGACAAATATATGCCAAGATTTTTTTTAAAAGGTGCTCAGGCCCATGCTTAGA
TATGTCCAGRTAATTTAGTTGGGCAGTATCTACTCAGCACTTGTGTGTTGGCTTGGGAAAAGGGTTCCTGGGGCCGGGTGTGGTGGCTCATGCCTGTAAT
CCCAGCACTTTGGGAGGCCAAGGTGAGCAGTTCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGCGATACCCTGTCTCTACTAAAAATACA
AAAATTAGCCAGGCGTGGTGGCAGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAAGCGGAGGTTGCAGTGAG
CCTAATTATTTTATTAGGTAGAAGCAGGAATGGGAGAAACTGAGGAAGACCAGTTTATTTGGTCTACCTAATTTTTTTTTTAAAGAGTCGTCAATTCCCC
AATTTTAAAAATACGATTCTATTCATGTTTCCTTCTCAATTAATGAAAGGATAAGTCGGAGGGTGAGTATCTTTTTGTTAAGTAGTCTTCACTGATAGGC
AGGTTGCTGTTCTATTTGTATCTCTTCAAGTTGCATATGATTTCTTGCCTAGGATTTTGCTGATTTCATCCTTAACAGACTTTTCTTTGCATTCTAGGAT
TATTTAGACATAAGCACATGGTGGCATTCAGATGCTCATTTAACCAACTAGCACATTTTTTGCACTTTTAAGCTTTGGTGGGTTTTTTTGTTTTCTTTTT
TATTTTTTTGCCAAGGTTATTTCTTAATTTACTTTTATTTTAAGAGCCAACAGGTTGTTGGGACTTATATTTTCCCTTGCTTCTATTGGAATCTGCTTTT
CCAACACTAATTTCTCTAAAGAAAATGATTCTCTCAAATTTGCCTTTCATGTTTCTCAACGCCGTATTGAGAGACACCTTTTGTTTTCCCAAGGTTGTGA
CTGTTTTCATGGTTGTCTCCCATTCACTCCCCAAAATGTGCTGGAATGTGGCTTTCTATGGGTGCTGTTTTTCCAGTAGCTAATTGGTTTAATTTCTTCC
ATCACTACTAAGTACTGAATACTGCCAACCTTGTGGTCACCTGGTGCCAATTTTCATTATTCCATTTGGAAGCAGGCCCCTTACCATAGCTCTTCCATCT
CCATTTTTGCCTCCATCTTTACTCCTTATTCACAAGCCAGAGAACAATGGTRCATACATGCCATGTCAAAAGCACTTTTCTTTTCATTAATCTGTTGAAA
CTCATATGAAAATTTATAGTTGTTGCAGCAATGCAAGCTTATTTTATCATAAAATTCTCATGGCAGTAATGCTGTGACATAGGCATTGCTATTATGTCTG
TTTTTCAGAGATTTCCCAAGACTTAGTGACTTGCACAAGGTCACATAACCAGAAAATTATTTAGCCACGATTCAGATTCAATCCTGAGTTCCACAGGACA
TTACTTGCTATTTCTTAGTTACTCCGGCTCACGTGGATAACCCATGGACATAATGACCAATAATGACCTTCAAGTCATTCTTTCTTATTCTTTTTGGTCT
GTTAATGGCATAGTGGGATGGTTTAATAGATTAACAACAGYGCTCAGCTTGTCTTGAACTTGGATTTGTCCTTTCTTCTCCTTATGTCACTTTATGGGAG
ATCCTACATCATCCCTTAAAATGACACTTTGTTCCGCCCTCTTCTACATAATAATACAGTACTGAAGTATGTATTTATATACATTTATAAATTCCTTCCC
AGATCAGTGTAATTAGAATTTTCTTTAGTGGACCATCCAAGACTTTCCTAAAAATACAATCTCTCTTTGTGAAAGAGAAAAGCCATCCCCATTGAATGCC
CTGATTAACCTAGACATGCATCCCAGGTAGAAAAGAAGACAGGGGCCTGGAGGCGGCCTCAAAGAGGCAGGATTTATCTTTCCCTCCAAAAGAAGAGCTT
TTTCCCCAAGGAAGCCAGTCCCAGTGCCTGTGATTCTTTTGTCATGATGAAGATCTGGGTCTGCCCTGTGACAGTCCTTCAGATACGCAGCATTACAGGG
CAAGAAAACCAAATAGAATCTGTTTTAGGATTTTATTTCTTCCTTATGTAAGTTTTTCTCTCCAAATAAAATTAATGAATTGCTGGGATGTTTTAAGAAA
AGAAAGGCGATTGTCACGGTTGCTACAGTCGTCTGATGACAATGAGTTTGAGTACAGTGGAGAGTAACAATGATTGTATTCTGTGGTGGAAATCTCCTGC
CATCGTCAGTAGCCAGTGATGTCATTGAACTCAGGGCTTGTTTCACATTCTGACTGATGTTTCTCTCCTTCTCCCAACCAGTTAGAGCTGAAACCTCAAG
GCCGAATGCTAATGAATGCAAGATACTTTCTGGAAATGAGTGGCAAGTGACATTTCTTCTTCCTGTTTGGGGGTGAGGAGGGCATGGCCTTCTCCTCAAA
TGCAGCTTATTTTACCTTTGCAATTATTGTAGAAGAGAATCAGGAGAAAAGAGAGGCACAAAATTGTTTTAAAATTCTCAGAGGTGCTCAGGCATGACTT
TAAAAGACACTATCTGGGCCGGAAAAACGTAGAAATATAAAACATTTATAGCACTTGTTTTAAGTGATGTGAATCCATATGCCCAAAGCTCTTATACTCT
GTCTTTAGTTTAGTTTGGGAATTCAGTCTAAATACAAAAGACTGTTGATGTGTGGTTATGTGTGTACACATTGTCTATGGTTAAATGATGTGCTCTAAGA
AGCTACCATATTATCAGTAGAATACAAAATAAGTAAGAAGTCAATCAATATATTCCATAAAATTAGTAACAAAATGCTAACACTTGAAGTTAGTCACCTC
AAGTCCTTTTAGGAACAAGAAAAGGTGAGAAAACACATTGCTAAAGGGTTTTGATTCCATGTTACATGTGGACTTTGGCCACAGAAGTGAAATTTCCCGG
TACGATGTGCTGAGACAGGCTGTCAGGGCTGTGTATGTGAATCAAATCCCCCTACTTAGAAAATCCTAAGTCACAGCATGGACATGTAAACTTACTGATG
GTAAATTCACTTCATTTTTTCCTAAATTAATTTTACTACCAAGAAGAAGCAAGTTTAACTTTATACATTTATGGTGCTTTCTGAGTTTCGGCTTACCATA
TATAATTCCTCCGTGTCTAAATTCAAACAAATACATCAGAGAAAACAATATTATGAAATAATCATAGAAAACTTGAACACTCACTAGATATTTGATGATA
TTGAGGCATGGTGAATTCATCTTTTAGGTGTGATAATAATATTGCGGTTATGTTTCTTTAAAAGGCACACTGATCTTTTACATATATATGCTGAAATATT
TTAGTAAAAGGCGAAAGATTTATTCGATCTGAAGAAAAACCAGTGAATAGCTGAAATATTTTAGATAAAATAATATGATACCATAGTTTTGCTTCAAAAT
AATCCAATGGTATGGGGTGTAGGATGGACAGGGTGTATTGAAAGAGAGTGGCCATCAGTTAATAATTGCTGAAACTGAATGATTGATATATGAAAATTGA
TTATAGTATTTGCTCAACTTTTAGGTATATTTGAAATTTTCCATAATAAAATTTTTTTAAAAGAAAGAAAGAATTACTGAGATGGGAAAAATGTACTCTG
AAATTTTATTTATTTTTCCTCTTGGAAGGTGTAGATATACAGTACACATAGTACAACTTTTGAGTTGGCTGAAATAGAGTGATTGCAGGATATCCGAATA
ACCAGATTTGCATAAAATGTGAAAGTGCTGACCTAAATAATAGTATCAATGATGTTTAATTCCTTGAATAAGAGAAATACATTCCTCCCATTAGTTTAAA
TCATGACCCAATGTAAATTGAAAAAGGGTCYTGTCTGGGCATGGTGGCTCATGCCTGTAATTCCAGTACTTTGGGAGGCCGAGGTGGGCAGATCACTTGA
GCTCAGGAGTTCCAGACCAGGCTAGGCAACATGGCAAAACCCATTCTCTACCAAAAATACAAAAATTAGCCAGAGTTGGTGGTGCGTGCCTGTAGTCCCA
GCTACTTGTGAGGCTGAGGTGGGAGGATCGCTTAAGCCCAGGTTATTGAGGTTGCAGTGAGCAGTGATTTCACCAGTGCACTGCAGTGTGGATGATACAG
TGAAAGAAAGAAAGGAAAGAAAGGAAAGGAAAGGAAGGAAGGGAGGGAAGGAAGGAAGGAAGGGAGAGAGAGAGAGGGTGAGAGAGAGGAAGGAAGGAAG
GAAGGGGAAGGGAAGGAGAAAGAAAGAAAGAAGAAAAGAAAGAAAAAGAAAGAAAGAAAAGGAAGGAAGGAAGGAGGAGGGAGGGAGGGAAGGAAGGAAG
GAAGGAGAAAAAGGGTCCTTCAAAAGAAAGAAAGAAGGAAGGAAGAAAGGAAGGAAGGAAAGAAAGAAAGAAAGGAGAAAAAGTGTCCTTCATCAGAATG
CAAGTATTTTTGGTAAATGATTTTAAGATCCCTGCTTTGAAAAACAATTCCATGGATGGTCCTTCTATTCCTGTGGAACTTAAATATTTTATTAGAATGA
GAGAGCAAATTCAATCGGGCAAAAACAATGATATTCCGTAAACAATAATGACATAAGCCTAGGAAATGTTTTAAGAATAAAGCTTTGGCCGGGCRCGGTG
GCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCCGAGGTCAGGAGACCGAGACCATCCTGGCTAACATGGTGGAACCCCGTCTCT
ACTAAAAATACAAAAAATTAGCCGGGTATGGCAGTGTGTGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCGG
AGCTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGGAGACAGAGTGAGACACCATCTCAAAAAAAAAAAAAGAATAAATCTTTGTAATATTT
AAAACTTTTTATATCTAGATCCAAATTGACACTCCATCTCTAAATTTTTATRTGTCAAAAAAATCTAATTTTAAAAACCAAAGTTATGGAATAACCTAAC
TAGAAAATTCCTTGTTGATGACAAGGAGGAGAGCATTCTTTTAAGAAAGCTCATTATTAGTATAAGAAATCGTCTTCTGAAGGATTCAGAAAAGCAAAAC
GTGTTCTTCTCCTCAGGGAACATATACCCAGAGGTGGTACAGATTAGACAATTAGATAAAATTATAACCTAAACCACACAAATACTGATTAACCAAGAGA
TCAGTGTGTGTTGCTTTCATTTCAGTAAGTTCCACAGTGTGGGCATTAAAGGTTAGCAAGAGTTGAGTTTTCTAAAGAAGAGGGATGGCCTTACAAGGAG
GAAAAAGTGAAGGCTTGAGCAAGAATATGCCTTGTGTGAGGGCTGTGGGGAGAACAGCCTAGGTAGACCAGCAGGCTCCTGCTGAAACCAGAATGAAGAG
TCAGAGACAGATGTTGGAGGGCAAGAGGAGTGCATAGTCTTGGGTCATGCTTTGAACTAATGGGAAGAATATACTTTCTCTTACTCAAGGAATTACACAG
TATTGGTCTACAAAATTTCACTTATGTTATGGAGAGGTGATAAAAATCTGTTCTAAGGGTGTAGCTACAGGAATAAAATAAAAGGAACARTCTAAAAGAA
AATACTGTTGCAGAGAGATTTCATGGTAGAGTAGATGAAATATCTACAGAATGCCTGTTAAGTGTACATAGTTGAAATGCTTTATAATTCTTTAAAAATT
AGGCTGGGAGCAATGGCTAATGCCTATAATCCCAGCACTTTGGGGGCCAAGGCAGGAGGATCACTTGAATCCAGGAGTTTGAGACCAGCCTGGGCAATGT
AGAGTGACCCCATCTCTACAAGAAAATTTAAAAATTACCTGGGTATGGTGGCACATGCCTGTAGTCCCACCTACTTGAGAGGCTGAGGCAGGAGGATCAC
TTGAGCCCATGACTTCAAAGATAAAGTGAGCCAAGATAGTGCCACTGCACTCTAGCCTGGGCAACAGAACAAGACCCTGTCTCCAAATAATAATAATAAT
AATTAATCCTTAAAAATGTAAGTTGAATGAAGGGAAAAAATGTTGAGAATATCTCTTAAAATAGCTAGACTGGGAAAATGGTAGTCACAGAAGTGGGAGA
TATGGAAAGAGGAGGAAAATGATTGGGGGATAAGGAATTCAAATTTGGATAACACTTGAGATAATACCATGTCTCCCATGTTTCTCTTCCATGGAAGCCT
CACCTCCTCTACCTCACCAGGAAGTAAATGGCTCAGCTCTCCATAACAGACTACTTTGTTCTTTCTCTTTGAAATCCCCTTCTGTTGGGTTTTTGAGCAG
GAATCATTTTTTCTCTTCTTCCTCTGTTCTCCTATTATTACTCTTGTAACTTCAGAATTCCCCAATGTCATCTCATGCCCCCCTGCCAACTTTCTATTTC
ACACCTTCCTGTGCTTCTCTATCCATTCAGTAACCAACCTTCAACCCACATATCATCACTCAGAATTCTCCACCTCCAGGGACTCACACTCAGAACTTGC
TTTTTCAGAGCTCATCTTCCTCCCCTGGCAATTCTGCCCTTATTCTCAGACAATAAGTACTAGCCTTTAGTCCAGTTTCTCTTTTACCCTATTTATTAGC
CCACTTTCTGGCATTAACTCTACCTAGCCTGGYTCCCATGATAAGCCTTTGTCAGCACTCTGCTCTCATTAGTTCCCCTTTGCCATGGATAGTCTGATCT
CCAAACCTTGCATTCTCCCCTCTCATTCTCCCCGGCTTTGCTAGAAAAAGTCATACAGCTAAGTGTGTTACAAACAGATGGTATTAGATGACATTCCTAT
GGTTCAGACTCTATGTTTGGCTTCTTAGCAGACCTCTCTGACCAGATTTCCTGTACTTACACATTTTAAGGGGTCAAATTAAACTAAGTATCCAAAATTA
CATTTGCCACATTCACGAGTAACCTATTTCTTTTGTAACTTACTATCGTACTTAATTATATAATAACTCACTCCACAAAACCTGGAAGTAATTTTTATAG
CCTCCTTTTCTTTCAACTTCCACATGAATGCATCAGTCAATCATTTGTGTTCGTGTTGTCTAGTCAATATTTTTTCCATTTCATCATCTAATTACATCAT
TACTACCTCCTGCCATATCCCATCCATTCTCCTATGGTGGTCCTAGAAGTAACGATGCCAAGCTCAAATCTGACCATATCAAGCCTCTGCCCCTACTGCA
GTGTTCCAGCATCTGCAAATTGTCTGCAGGAAAGTGTTCAAACTGATCTGACACCTACACATCTTCTGGAAGTGACTGCTGATCGTTTCTGCTTCACCCT
CTGCACTCTGGCAATGCCCAGCTAGTGCTGGACCCCCACCCACACCCTGAGGAACCTTAGCTCTGTAGCTTTGCTTGTTCCCTTCCACCCAGAGAGAGCA
CCTTTGGCTTTTCCCCACCATACCTTCTCCCACACATTAGTAGGAGTTACCTGTCCAGAATTCAGCACAGAAACATTTCTGCCAGGACGTTTCTTTTCCA
ACTTCCCTCTTTCTCTCCTTCACCTACCTCCACCTGCCTTAGCTGGTATAGTTTCCTCATTTCCGTGGTCCCACAGCATCCTGTGAATACCTCTGTTCTG
ACACATCGATTTTCTTTCCCTCTGGACTCTTAACTCCTTGCAGAACAGCCACTGTCAAAACACGTCTCATTAATTCCTTTAACTGTGGTGCCAAGTTTCT
GGTGAGGCATGCAGGAAGTACACAATGAATGCCTGCTGAACTGTTCAGCTGGACTCACCTTGGCACTTAGAAATCTCCTTCATTTCTTTTTGATTCCCAC
ACAATGGCTATTCCTACCATTCCCATCCTCCTTGGTTTCTGGGGATGCCTCAATCTCCTCTGATTCTGGGAGGTTGACCTTGCCTCCAATATAAGTGGTA
GAGACCCCATCTTCTTTTTATTTAATTTTTTTATGTATTTTTTTTTTCTTGAGACAGAGTTTCGCTCATGTCGCCCAGGCTGGAGTGCAATGGTGCTATG
TTGGCTCGCCGCAACCTCCGCCTCCCGAGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTATCTGGGATTACAAGCATGTTCCACCATGCCCAGCTAA
TTTTGTATTTTTTTTAGTAGAGACGGGGTTTCACCATATTGGTCAGGCTGGTCTCAAACTCCCGACTTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGT
GCTGGGATTACAGTTGTAAGCTACCACGCCCAGCCGAGACCCTGTCTTCTGTTTGTCTCTACACTTTAGGATGCAGTTGCTTCCTCCCGCCTTCTCCTCC
TGCTCCTCTGCCTCAGAGACAGCTGCTCCCTTTCTTGGTTGCACACCTCTCATCCCAGCAGTCCTGCTCTATCAATAAACTTTACCTCTGACATCCTCAA
CTCTTCCTTCTCTCTGCAGTTTCTTCCTTATTCCCAAGACATACTGCATTATGCATCTTCCCCAATCTTGAACAYCATCTCTTCTTTTTTTTCACCTTTT
TACCTCCTTGAGTTTTTTTTTCTTTCCCTAACACATTCCTTTAAAAAGTAGTTTATATTTATCAGTTTCTTTTTCTTCCCTTCTACTTCTATTCTTAGAC
CCTAAGACTCTGGGTCTCCAAGATTATGAGTTCTCACAAGTGGTTCCTGCTTCTTAGCCTTCAATTTCCTTGAYATCTCTCTATCATACAATGCTGAAAA
CTTCATTTCTTTTCAGCTTGCCTGATGTGATATTGTCCAGGTTTTCCTCTTAATTTTTCAGCTGCCTCTTCTTGGTCTCTTTTGCCATTTCTTTTCCTAC
CTCCTAAAAAATATGGGTACACATATCTCGGAGCCTATTCCACACCATCATATATTGCCTCTTAAGGTTGGCTGTTCTGTGCCTGTGCCACGTCTCCCTG
ACTTGACTGTTAGCCATGCAAGGGTGAGGAATAATGTGTTTCTTCAGCACACTCAGCAAGGCAGTTTACTCACAGCTGCTCAGGAAACTTGTAATTTGAT
TGACTACAAACAAGTGATAGGTTAGACCACATAAATAGATTAGAATCCATTAGTATAAAAGAAAAAAAAYTGCAAAAACCAATGAGCTCATTCAAACCAG
TAAATAGAGAAATAAATATAGTCAATACAAAAAAAATTAAAGAATTCTATGTTTTTACATTTATTCTTTTGTAATGATTGAAATAGAGAATAATGAAAAT
CACAGAAAATAACAGGGTATTAATTCATTTCTAGAAATTCCTGATATTTTAAAAAAATTATAGTACTATAGTCTAATGTAGAAATTGTGTATATAACTAT
ATATTTATAGTTTATAAAAATATAAACTATATGTAGACATATATGTATATAAACATATATGTATAGATATATGTAYAAAATATGTTTAATATACATATAA
ACATATATGATTTTTACAGTAAAAACCTGTATAGGGTCCCCATAATAATTCACTTTCATTCCCTGCATTTAAAAGTGTATTTATACTTATTTTTATTTTA
TTTTATTTCATCTGGACCAAAATAGAAACAAGTCACATGTTATAAACAAATGACCTACTATACTAGTCACAAGTTGTAAATAGATTTGGACATTTAGACC
AGAACTTGTGGAAGAAGGTGATTAACTCAGTGATCCTTAATTTAACCCCTCATTTACCAAGCCAAATCTATTATTTCCAGCCTAGTTCCAGGTAAAAAGA
CCAAAATTACCTACTCTTAAAGTATTAGGCAAAGTATTATGTCCCATCTGTGGAACTGTTAGAGGGTTACTGGAAATGCTTTTTGTCTGGAAGTTGGGGT
TGCCATAAAACAARTCTGCGGACACTACAGAAAAGACTTCAGTCCTACAATGTGTCCTGGGATGTGGCTGGATTCCTGGGGGAGGTTTCTACCCACACAG
CTCCTCCTTTGTCTACCTAGAGTGTTTCTAATCTAGCCACTGTTAGGGATTGGACAATAAGGTATCTTGGAAGATAATTTGCCCCAAACGCATTGTCAGG
CTACTGCCACTGCTTAGCCACAATAGAAGAAATTTAGTTTGAATATTATTAACTCATTGTGAAATATGATGAACCTGCTTTTTAAATGAAACCTCAATGT
TTTGTATTTGTAACAAAATAGAAGAAGTAATCCAAGAGTCTTCAAGCTATTACAAAATTATAACTCTGGGATTTAAATTCATTATCCTTATTTATTTATT
CACATATTTATTTGTGTATCATTTTTGTTACAGCAGTGGATATTTTTATTTCTTTACTGTTCCTTGTGTTATTCTCTCTCACCTGCTGTGTCCACTGTGC
TGTTTAACCATGACTGCCTTACAATTTGGTGTTTCATGAGGACCTGGGCTTCAGCAAGGGCATCCTGAGCATTCTCATAATTTGACTATCTTAGTTTTTC
AACCCTTTGGAAAGATGTCATTCAGGTATAGGGCACTGTAAACAGTGACTATCCAAAGCACTTTCACCAATATTTATGAGCCCAGAGTAAAATGAATAGA
TTGAATCTGATGGTTTGATGCTGATGACTAGGTAATGCACAGGATTACCTAGACACCAAAAAAATGCAGTGAGCTATTAATTTTCTGGCCTTTTTCACAT
TGGTAAATATGGTTGGCAGCTGGTGTGTCTGATCACTGTGGACATCAGGAACCAGGACACAATGTCCCAAAGTTCCTTTCTCCTCACACAAAATCCTGGT
CAGCTCCCCCTAGTCTACTCCAGCATGTCTCCAACAACCTGCTATAAAGCATCCTGGCACCTCTGAAATGCTGTTCCCAAGAGGCTGTCAGTAACCATGT
GATTCTCTAGAATTACAGACAGGAAAGCCTTTGCCACTTCCTGCCTTTTCTGACTGAGTCATCATTGATGGTGACAAAGAGAGGTTGATAGATCCCTTCA
AAGTTCTAATCTCTGGTTTTGAAACTTGAAGAGGATATATCGCTCAGCCCAGTCAAAGAGGAGCGAAGGATTGAGCCAGCAATCCAACATTGTTTTCACC
CTCTAACAATATGYCCTATGATGAATCTGTGTTGTAGAATTTGAGGAAAGATGCTTAGTGTGGTACCCACCATAATGAGTACCTGGAATGTTACAGCAGG
TACTCAGAGCTGGTCCTCCTCCATCCCTTGCCCATCTCCCTCCCCTCCTGACCCAGCTTAGAATAGGAGTCGTCCTTTTGCAGAACTTCACTTTCTTCCC
CTCTCTCTTCCTGTAGACACAAAGGACATGAATGAATTTGAGACGGAAGGCTTCTTTGCTTTGCATCAGCGCCGGGGTGCCATCAAGCAGGCAAAGGTCC
ACCACGTCAAGTGCCACGAGTTCACTGCCACCTTCTTCCCACAGCCCACATTTTGCTCTGTCTGCCACGAGTTTGTCTGGTACAGTAACTTGGCATCTCC
CTCCAAGCTTCGGGTTATGCATTTTGTTGCGTCTTCTTAATCCTCTACGCTGGCATGCTCCACTGTGGGGGGTGTGCTGGAGTAAATGCTACCTCAGCGT
TGTCAGGGACCTTGCCTGAACTGAGAAGGTTCAAATGGTGTGATCCAATAAAAGAGGTGCATGAGGAAGCCAGGTCTAGTCAGGAAAAATGCCCATGGGA
TTTTAGTTTCTGCCTCAATGGGGGGGCTATTGGGGGTAAGTGGGAAGRAACAGAAGTGAAAGGTATCTTTATTACAAACAGTTTTCCAGTTTTATAGTCA
AAACTTCCCCCACCTAATGGCCCAACCCTGCTGGTGCTACTTTTTCCAGCAGGCAGCACTCTGCCATTGTAGCTAATGGTTTAAATGCTTATGAGGCTCT
TGGGTATCTTAATAGCCATCAAACAGATCAGTTTAAACCTCAGTAACCACATAGCAAAGGCTATGACAGAGTGGAGACTTGAAATAACTCCTGTTTCTGG
CTCTCAGCATCCTAGCCTATTAAGGGATACTCTTCCCTTTAGGCTACTGCAGAAACTGTTAAAGCACAGCTCCTGTGTAACCAGGGTATCCACATGCCAG
ATCGACTTGGCGGGTTTTCATCAGCCTGCTTTCGTCTAATCACTTGAACCTCCTTTCTCTCTAATCATGGATGTCACTCAGGAATCGGTCCTGCATGTGA
GACTTTGTTGGTTGCAAATATTCTCAGATGCTCAGAAAGAGGAAATAAAATGTTACAGATGTCTTTGTTCGTCTGTAGTGAGCTCAGCGAGGCCATGAAT
TTTTAAATCTAGCACAGGGAAACGTRCTACGAAGAGTCTGTGATGCATGCATTTTCATTCATGCATTTTAATCTCTATATGTTTGGAAAATACAAGGATG
ATAAATCAGCCAGTTCTCATTTATTTAATTATCAAACTTTTTAAAAMGCAGCTTCAAATGAAAAACACTCTGTTAATACTCTTGGCAAATGATACAACAG
GGCTGCTGATCAGAAACTGCTCTGTGATCTTAGGGGGTTATGAGATCTCATCCATCTCTTAAATGCTGTTGGTGCTGATGTTGATGCCAACATTGAAATA
AATCAGCGTGTGCTTTATTACAGGGGCCTGAACAAACAGGGCTACCAGTGCCGACGTAAGTAAGAGGGKTTTGGTTGCATTACCATCATTCTTTTTATTT
AGTTATTCCTTAGGCTATGAAAATCTTAAGCTGTGATTTTTTTCTTCTTTTCAGAATGCAATGCAGCAATTCACAAGAAGTGTATTGATAAAGTTATAGC
AAAGTGCACAGGATCAGCTATCAATAGCCGAGAAACCATGGTGAGTATTTACACTCCTCTTTGACGTGCAGTGATTTTTATCAGAACGTTAAATGTTACA
GCCCACGAATTCTTCAGAATAATGCCAGAACTTGCATCCTCCCATTTATCAGTGAACATCCATCTCCCCAAAACTCTTTCCTCTTCAATAATGATTCTTA
CTGAATTACCCAAACCAGAGGATGAATTAGAAATTAGCCAGGCCTGGTGGCATAAGCCTGTAATCCCAGCTACTCAGGAGGTTGAGGCAGGAGAATCTCT
TGAATTCGGGAGGCGGAGGTTGCAGTGAACCAGGACCATGCCACCGCACTCCAGTCTGGGCAACAGAGTGAGACTCCATCTCAAAAAGAAAAGAAAAAAA
AAAAAGAAATCTGCACTTGTACCTCCTAAATATACACAAATTATATACAGGAAGAATTTTCATTGCTCTACTTTTCCAGAAAAATGGCATAGAAAGTGGC
CAGAAAGCATAGTTTAGATTAATTATATGAGAATAATCCTTGTGGCACCCCCAGCTAGAAGTGACAGTAAAAGAGTAAATAAAGGCAAATGATGATAAGA
TACAGCAACATGGCATTTACAAGGTTAGAGATAATAACAGAGGCATAATTTTATGTTGAGAAGCAAATATTTCTTTTAGAGTAAACGTTGAGGTATAATC
GGAAGACAAATTACATTTTACCTAATGGAGGGGKGAAACTGGGCTAGCACATGGGCAGTGTATCATTATGAATTTTAAATTTTTAAAAATTTATATGTAT
TTAGGAGGTACAAGTGCAGATTTCTTTTTTCAATTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAATCTTACTCTGTTTACCCAGGCTGGAGTGCAGTG
GTGTCATCTTGGTTCACTGCAACTTCCACCTTCCAGGATCAAGAGATTCTCCTGYCTCAGCCTCCTGAGTAGCTGGGATTACGGGCATATGCCACCACGC
CTGGCTAATTTTCGTATTTTTAGTAGAGATGCGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATTCACCTGTCTTGGCCTTC
CAAAGTGCTGGGATTATAGGCATGAGCCACCACACCTGGCCTACAAGTACAGATTTCTTCTATGCCTATATTACCTGGTGGGGAAGTCTGGGCTTCTAGT
GAACCCACCATCCGAAGAGTGAATATTACACCCAATAGGTAATTTTCAATCCTCCCTCCCTCCCATCCTGCCATCTGTAGTCTCCAATGTCTATTACTCC
ACTCTGTCACTCATTATGAAATCTTTTGACTTCCTTCTCCCACCGTTTCCTTTTTCATTCCACAAATCCTCACTGGGTATCTGATTCATGGAAGATACCG
CATTCTTCCAATGACAGCATAACACAAAACAGACGTGGTCCTGCGAAGTTGGAGAAACAGATAATAAACAGCTATGTATGGCTTCGATTTATATTAAGTG
CTACAAAGATAGTGAACAAGGTGCAAGGTGGAGAGTAAGCATGTGGCCTACTGAGACTCTGTGGTCCGGGARTCTCCCCARCGGAGGGAACATTGAAACT
GACAGCTGAAGAGTGACAGAGCTGGTTAGGTGAAGAGCAGGAGGAAGGAAGCTCCTTACAGGCTGGAAGACCCTGCTGAGGGAGAGTCCAAYGTGTTCCA
GGAACTGAAATGGGACCAGTGTGGTGACAGCTGCAAGGGCTGYGCAGACTGGAAGCCCACACTGGGGAAKGCACCAAGGCCTGGGTCATGCGGGGTTTCT
TTGGAGCCTGGAAAAATGATTGTATTTTGTGCAACTTGTAGTAGAAAGCCCACTTTGGGATGCTGTAGTAGAAATAGTGCGTTGAGATGTGAAAGTGAAA
CCAGAGGAGATGGAAGGAATCCTCCAAGCGGGGAGGTTGGTGGTTTATACCAGTGAGACGTCAGCAGAGGTGGAGCAAAGGGGCAGGTTCTCAGGTGATT
TTGATGTTAGAAATGACTGGATTTGCCAAAAGATTAGATGAAAGAGGTGGATATAAGGATGATGCCGCAGGTTCTGGCTTCTGCCCGAGGCCGAGCAGTG
TGGTAGATAACAGAGCCACGACGGAGTGAAGAAGACTGGAAGGAGAGATGAATTTTTCCAGTTTGGACATGTTGAGTCGGAGAGGTGGACATCCAAGTTG
AAGCATCAAATAGACAATTTCACATGAGCTTGGAATTCCTCTGGGACAAGGGCCCAACCCTATAAATTTGACAGTGACCATCATATAGGTAGATTTTAAA
GTTGCTGAAGAGATTGCCTAGTGAGGAAATAGAGAAAGTTCAGGACTGACTACAAAGGAATCTAAAATGAGATGTTAGGTAGAAGATAAAGGACAGAGAT
AGACATTGAGAAACTGGGCTCAGAGACCRCTCCTCCTACACCCAGAGTCTATGAAGTTACAGAAACCAGAAGAAGAAGAGGTGGRTTGTGTTCTGTGCAG
TTGAGGTGTTGAAATTGAGGCCCACGTGCAGATCTTCACAGGCTTAAATCAGAGAAATGTCAGGGGCATCTTGGAGGCATTAGTCTGATTGACCTGCATG
AAGGGTGACTGAGGTGATGACATGAAAACAACCTGTAAGTTGATATTATGAAGAAGGTGAACCATGAAGGAGATGATGGACAGAGAACAGTGGCTGGGAA
ATGAGACCCCAAGGATGGCAAGTGCTCCCRTGGCCAGGGAGAGATGGATAAAGCTGGAGAGACAGATAAACAAAACAGTCAAGTCTGTTGGCAGGAAGCG
AAGAGGGCCTGAGCTCTGGTGGAGACTGGTCCCTGGAGCTTCCACAGTTTAACCGGAAGGGAGTAGGGCAAGACAGTTGCTGATGGGGATRGGTGTGGAG
CTTTGGTGATGGGCACACAAAGGCGCTTCCCTTAGACTGCATGTGTCCCCCATGGAGTTTGATGGCTGGAGGAAGGAAAAGAGAAAGCAACAAGTGCCTT
CGAGGAAAAAGGAAGATCTATGAGATAATTATCTTAGAGAAAGCAAGGTGACTCGTGAAAAGCAGTCAGACTGTGGAGCAGAGCTGAAAGTCCATTTGAA
TTTGACGGAGTCAGCCTGCTCAGGAGTATGATTTTCTCCAACAAAGGGGCAGGTTCAGAGAAGGCGAAGTGGCTGGGTTTTTCCAGAGTAGAATTTCTCC
TAACATTTAGAASCAGAAGGAGATAAACTTGTGCTAACCGGTGATTCTGCTAAGACTCAAAGAGGTTAAAGTAGTTTGTTCATGTTTGATCACCTGTACG
TGGCAGAGCTGGTACTAAAATTAAGATCACAATCTCTCAGACCATGTTTTTGCTTGCTTAGATCAAATTTTCACCTCCCAGACTTCTTCCTTTACTTGAT
GCCTTCAGCTTTTCTAGAAAAAAACGCAAATCTCTGAATCACTGTTAACCTCAATGACTAACAAAGTTCCTGGTACAAAGTCTTGAGAAACTGTCAGCTA
CATAAATAAATGTCTGTGATATTATCTTCTCCCAGGATATTTTGATTTCTTGTTCACTCAAGGGGACATCATCTTTGGGATTCTTTTGTTCCTCTACCCC
TGGAGYAGTATTGTCCGATAGAAATAAATAGAATGAGGGCTACATGTGTAATTTTACATTTCCAAGTAGCCCACATTAAATAAAGGAAAAAGCAATGGGT
GAAATTAATTTTAATAATACATTTTATTTAATCCAATCTGTTCAAATATCATTTCAACAAAAAATCGACATTTGAAAAATTCAGATATCTTAAGTAATTT
TATACAAAAGTCTTCAAACTCCAGGATGTATTATTTTACACGTCCAGCACATCTCAACTCTAACTCACCACCTTTCAAGTGTTCGCCAGCCCCATGTAGC
TCATTGGTTTTCATACTGGAAAGCGTGTACATAGCGTCTTCATCAGCCATGGTGTCTTGAGCTGTTTGCCCCTGCATTCAAGATTCGAAGTGGTCCCCTT
CCAGCCTGGACCTTGACCTATTAATTGTCCATATTTAAACTGTGGAATATAAGTGAGTCCCGAAAATTATTTTTTTCTTGGTTGAAAATGGCTGTAGTAA
GTGCTGAGCAATTTTTAATCGATTCTACACAGGCTTTCTAAAGAACCAACGCTGACCAGTACCCCTGGCGGGAACGTTAGATCTATTGCTGTGCTGATGA
ATAAGGCATCTTTGCTATGCACCTTCCCAAAGGAACTGTTGAATTAGAAACTTCTGCAGAGATTATAAACCTTTAGAAAATAAAGCATTTTATCCTGCAC
AAGAATATTSACATTCTTACCAGGAATCCAACTATCCAAGTGYTTTGTTGTTCCTGCAATAAGTTTGATTTAAACTCTGGAAAACTGTTTTTTAAAAAAA
TTCCATGTCGATCACTARCATCCCTCTCCCACTCCCCTCTCCCTAYCCCGATAAGCCTTCACATTTATTTTGAGACAGAAAAGAGAATGGCTGGGCTCTG
ATTCTGACTGCCAAGCTTATAGATATCCCAGCTCTAGAGCTGCGTGTCCTGGGCAAGTTTCTTACCTTCTCTGTGCTTCATTTCCTCGTCTGTCAAAGGA
GGATACTAATAGAAGCGACTTCAAAAGGGGTATTCTGAGGATTACGTGAGATAYCACCTATGTAATAGATGATGCGTGTGACATATTTGTTAACCGCACC
TGGCAGGAACTGCTCCCTCCTCTTGCCACCTCAGTTCATGAATAATAGGTGTGAAAATGCTTCTCACATTAGGCAGTAATACTGATAAACCCATAGAAAT
GTTTCCTTTAAAGAAGGCATTTTTTTTTTTTTTTTTTACATCTTCCAAAGGTTAAAAGCACTAGTTCTGGACTGAAAGAGAAAAGGAAATATTTATAGTA
AAACAGGAAGGGAATCTTCATCTATTTAAATGGGAGCACTGTTTCCTTAGCACTTTTTAAAATAACCCTCATGCAGTCTTCCTGAGCTTTTAGCCTGTCT
GTGTGAATGCCTCAGATTTCAGCTGTCTGCAAGGTTCTTGCTACATGCAGAAGGCAAGCATGCCCCGTCACGTACAGTTGCTGAGGCTGCCTGCCTTCTT
CAGGCATGACTGTAGGGCTTGACAAGTGACAATGATGRTTTAAAATGCACACAATGCCAGYGTTTTCATTATGATCTCTGTTAGTTATGCTAAGGTATCT
GCAAGAACATCCAAAGTCGGGGCCCCAGGAATACACAGATTTCACCTTCTGCCTTTCTTTCAGTTCCACAAGGAGAGATTCAAAATTGACATGCCACACA
GATTTAAAGTCTACAATTACAAGAGCCCGACCTTCTGTGAACACTGTGGGACCCTGCTGTGGGGACTGGCACGGCAAGGACTCAAGTGTGATGGTGAGTC
CAGTGGGGGATGWGCATGGCCCGACGTGGACCCCCTAGGGGATGGAGCAAGGCTTTCTGGGGAACTGGAGGGAGGATGTAGGGGGTACCACTTCCACAYC
CAGCCCAGACAAGTCATGATCATAAGTATGGTCTTCTGGGGCAATAAGCCACTATGTTCCTTTCCTTGCACCCTGCAACACCCCCACCCACACATCCCAG
AAAAGAGCACAACAGTTCAGGTTSAAGGTCAAACTCCTAGCTCCATCACCTTCTGCCGTACCATAGCCCTGGGGGAAATGAAGACAGTGTTTCTCCTCTC
ACTGGTCTTTCTACTACTAGTTTCCTCAGTGGGCTCTGGGCTGCCCCTTCCTAATCCCAACAGGTCTAGCTGTGTGGTACCCTAACCCTTCTCCTTTGCA
CCAGCCAGTAAGATTCTTTCTGTCATCTCATCAAGGAGCAAGCCCAGCACATTCATTTGGCTGACACATGGTCCTGCACAGAAATTCTGTAACATTAGCT
TGAGCATCCATCCCTAAACCATTGCTGTGAACTCCAAGTGCCCAGTAAGAGGCTGGCCCRGTTGTGACCGTCATTGCCTGTTTTCTGGTCTTTCCTCCAA
GGCCAGGATCGCAGCAGAGCCTAACCTGCCATTCATTATTGATGGAGTTTCTCAGACCTACCATCAAAAAAGGAAACAAGGCAAGGCTTTCTTGCTGTAC
AACTCCAAGTTGCTAAGGCGATAACGTTTAGAAGCTGAGATGCTGTTACACTAGGATTAAGGACTAGGGAAGAAAAAAAAAAACCCTCAAGAACTGACAA
GGCACTCTGCTTTCTGGTTGGGGAGAGACGTGGGCAGAGCCCAGAGAATAGAGCCACAAAAGGAGAACCACCTGTTGCATACAGACAGCTTCTGATTTTT
TTCTTCTTCTTTTACTTTTTTTCTGAGACAGGGTCTCACTTTGTTGCCCAGACTGGAGACTGGTGTGCAGTGGCTCGATCACAGCTCACTGCAGACTTGA
CTTCTTGGACTCAAGCAATCCTCCCACCTCAGCCTCTCAAGTAGCTGGGACCATGGGCATGTGCTACCATGCCTGTTTTTGTTTTTTTTGTTTTTCTTTG
TTTTTTTTTTTTTTTAGAGATATGGTCTTGCTATGTTGCCCAGGCTGGTCTCAAACTCCTGGGTTCAAGCGATCTTGTCTCCTCAGCCTCCAAAAGTGCT
AGGATTACAGGAGTGAGTCACCATGCCTGGTGAGCACAGACCTTTTCTTATGATGAAGTATTAAATATATAAGCCACTTTATTTTTTCTTGGCAGCCCTA
TTTTGATCAGTGCTACTGACTAATGTATGTCCTCTCTTTTGAGCAATGAGGTACGTGATGGAAGGCGGCACAGCATCTTCCGCATTCTCCCCTTCTTCAT
CCCAATCCTGTTCACATGTCTGGTGGAACCCAGAGCGACCTCTCAGTGGAGGCAGGAGGRGTTAGGTTTTCAAATCATTACCTAAAGCAGACATCACAGG
AGGCCAACATTAGCCTCAAGAATCCGTTCCTGGCCCCAAAGGACACTGACACGCTTTTCTCTACACCCCTGTTCAAGAAGACATGGATAGGCAGGGTATT
AAGAGTTCATTAGGAGGTCAGAGACAAAACGTAGTGTCCCGGCATCCTGCATCCTGACGGTATCCACAGAAACAGGAGAAATTCTCGCCTCTTGGTTCTC
CTGTGATGGTCTCAGGTCGGGTTCTCTGTCCTGGGAGCCCGAGAATCCACTTGCAAGAAGAGCTGGTCCCAGCAGCGCCGCGGCACAGCTTAGAACTTCC
CAGGGGTTCCTGGGCGTTATTTCATGGCTCTTCTGCCTGCTTCGTTTCATTTCTTTCCTYGAATACTCTTTCCTTTCCGCTCCATTCYGTTCCCCGCTCT
CTCCTACCACCTACATTTCAAGTGCTCCCCTCCCCTTTTTCTTTTGTCCCCTCTCCTCTCCCTCCCCTGCCCTGGTTTGTTTTCCATTCTTGCTTCTGAC
ACTCCCGGGTCCCTGCCCCTCCACTGTGCTCACCCCGCCTGCTCCGCTCACCCCGCATGCCCCCGCGTCCTCCTTTCTCGACTCTTCTCGCCCTCTTCTC
CAGCTCTCTTCCCTCCCTCTCTGCCTCCCTTTCATCCTGCCTCCTTGCAGGCCGTCGTCTTAAGTAGGGCCTCCTTAGCCTTTTACCCTGCCTTCTCTTT
CTCCCCACAATAATTCCCAAGAAAATAGTCATCCAAAGGGACTCTTTGCCCTCCAAGAAACTGAGTTACGGCCTGATAGGTTAGTAACAAAGACTTAGGA
CCTTCTCGTGGAGATGGTGGTGGCCTTTCTTCGCGGCCATGCAAGTCACAGAGAAGCCTAGATGTGGCTACAGTTTTAAGGAGCAAAGTAAAACTCCATC
CCTCTATGTTCAATCCTAGCTGACAACCTCACTTGGTGTCACGGTGATGCATAAGAAAATGGAGCTGGGGCTACCGAAGTTGAAACCTRACACCTTCTAA
ATAGGGCGAATGTGAGTTATGCGAGTTTTGCCGACAATGTGGAATTTGGAGCACAATCATGAAAAAAAAAAATCCTTTCTATAGTAAAGATTTTAGGCCG
GGCACGGTAACAGACCTGTAATCCCAGCACTTTGGGAGGGCAATGCGGAAGGATGGCTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACAAAGTGAGA
CCCCCATCTCTACGAAAAATAAAAAAATTAGTCGGGTGTAGTGGTGTGCACGCCTGTGGTCTCAGCTACACAAGAGGCTGAGGCAAGAGGATGGCTTGAA
CCCAGGGGTTTGAGGCTGCAGTGAGCTATGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACCCTGTCTCAAGAACAACAACACAACAACAA
AGATTTTAAATATGCAGAAAAGATTTTGCTTCAGGTGAATTTTTCTGGCTATATCTATGCCTATATACTCGGTCTAGTAATGGTTAATAGTTGACCGGGC
GCGGTGGCTCACACCTGTAATCTCAGCACTTTAGGAGACCGAGGTGGGCAGATCACTTGAGGTCAGAAGTTGGAGACCAGCCTGGCCAACATGGCGAAAC
CCTGTCTCTACTAAAAACAAAAATTAGCTGGGCGTGGTGATGGGCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCTCTTGAATCCGGG
AGGCCGAGGTTGCAGTGAGCCAAAATCGTGCCACTGCACTCCAGCCTGGGTGACACAGCGAGACTCCATGTCAAAAAAAAAAAAAAAAGTAATAGTTATT
TACATAGAAAATTCTGCTTTATTTTATTATTGAGCTATTTGAAGAAGAGTGGACCAGTGAAAACTACAGGTGAGGGTTGCCCAAATTTCACCTAAATATT
TTAATATCTACATCTATGCAATAAATGATGAAGATGAAAAGGAAGTTGTATTTGTTGAGCGCCTGCTCGATGCCAGTCATTGTGCTAAGCTTCTTTGCAC
ACACATGTGCAAATCAGCAGATAAGATTAAGACTGCATGATGTCATAGCACCTGGTGCCTGCTTCTATTACAACACTCTCTACTCRCAGACTCTGTCAGC
TGGAGTTTGGAAATCTTTATATCTGATTTTTCTGTAYTTTAATGGTGATGTTTCTTTTTTTTTTTTTTTTTGAGACACAGTCTCGCTCTGTCTCCCAGGC
TGGAGTACAGTGGCACRATCTCAGCTCACTGCAACCTCCGCCTCCCAAGTTGAAGTGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGATGT
GCACCACCACACCTGGCTAATTTTTATTGTTATTATTTTTAGTAGAGATGAGGTTTCACCATGTTGGCCAGGCTGCTCTCAAACTCCTGACCTCAGGTGA
TCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACGCCTGGCCTTTAATGGTGATGTTTCATTAGCAAAATTTGAATTTCTAA
AACTAATAATTGTCTTTACACAGTCACATGGGCACACGCTCTCCAGTCCAAGAGGGATCTCTTGGTCACTGGCAATGGAAGTTAGATTCTATGCTACTGT
TTTCAAGATTCATGAATCAGAATACTCACCCTGAATTGTAGGATCCCCAAGCTAGAATCCTGTATAGATCATGAGTCCAGTGCTGGAGATCCTTAATCGG
GAGCCCCCAGAGCGTTCATGACTTGCCCAAGGTCACACAGTGTCCACGCTGTGCAAGCTGCCACCAGCACCCCGTTCTCCACCCACCTGACAGGTGCTCG
AGTATTTCCCTCTCCTCTTTCTTTTTCTTTAACATCTTATGTGACTTATAAAGATGACAGAAAACTTTGGTTCTTTTTCTTCGAGTTACCTTTCATAACA
GGTTGTAGATGTCAATTTACGCCATCAGTTCATGCGTGCAAGAAATATCACTTTCTTTATGACTGTGAGATCCACTTAGTTAACATTCTCATCTAGTAAT
CCTTGGGGCCCTCTACCCTTCCCATAATCACACGAGGTTTTCAGGAGGCATGGGTACAGGGGCCTGGAAACTGGGGAATGTGCTCAAACACCCGGTTGCT
GTTGGCCTCCTCATCTAAGCCCACACTGGTGAAGCCTGTGGCTTTATGTTTCCACACCGTGTGTAGAGTTTGTGATTTTTTTTTCAAAGCTGAGGTCCTC
ATGCCTGGTCCAGTCTTGCTAGGTGTGTTCTGCCGTGACCTCTCCTGGCATTGCTAGCCTCCTCCTACTCCATCCCTTCCCACATATACACTCCGGCTCC
ACCGTCTGATATCCATCTGCAGGCTGAGGCTGCCTCCTGGGCTTCAACCTAAAGGCTGGGGGAAGCTCTTCATGGCCCAGGTGGGAAAGGGGATGTTTTG
GACCCAGACTGGAGTGGGCAGGAATATTCTTCTGATGCAGGGCAGGTGAGCCCCAAAGTGGGGCTTAGCCCAGGAGAGTTCTTGGCTTCGCCCAGGAAGA
ATTCAAGGGTCGGCTGTTGGTAGAAGAAAACAGCTTCATTGGCCAACGGTATTACAGTTCTGTTGGTGTTACAGCTCCATGACTGCTCCTGCAGAGCAGG
GCTACCCCAGAGGCAGAGAGTAGCAGCTCAGGGCAGTGCTGCAATCCTATTTATACCACTTTTAACTACATGCAAATTAAGTTCCTGGAAAAAGGGTGGT
AACGTCTGGGTGTTGCCATGGCAACACTAAACTGACATGGCACGCAGGTGGGCATCTTCTGGAAAGCTGCTTCTGCCCTGTCCCTGTTTTAGCTAGTCTT
CAATTTGGTCTGGCGTCTGAACCCCACCTCCAGAGTTGAGTCCCACCTCCTACCTCACTTCCCTTCCAGCACGAGGATCACTACCAGGGAGAGCCAGGGT
CAACTTCCTCCCAGCCRTGGCACTTTAGGCTTTCCTCCCTATCYGCAAGGCTSTGTCTTACCTCCAGAGAGAGTTGTTTAGCACCAGGGGGTTCTTCCAC
TCTTGCTCACTATCTGCCTTCTTCCTTCCAGCATGTGGCATGAATGTGCATCATAGATGCCAGACAAAGGTGGCCAACCTTTGTGGCATAAACCAGAAGC
TAATGGCTGAAGCGCTGGCCATGATWGAGAGCACTCAACAGGTAGGAGCATGTGCCGTGGACACGTTCCCGCCATGGCCKCTCAGCAAGGATGTCCATGC
ACTTCTGCTGCTTCACCTGTGGCAGCCCTATGGGAAATGCCSGGATGTATTTCTGAGCACCGGCCTTGCCCTTGGCTTTCATATCCATGCCCACACCCCC
TATCTTTGAGATATTTATTTAATGCATTTGTATTATGCAGATCTTTATAAAATCTTAAATTCTTCATGGCATGAGCATTGCAGAAACAAATAAATTCATT
AAAGTTATTGAAGATTCATTGACAGCTTTATGTGAATATATTCGGGTTATAGAATAGCCTGGGGGAAAACACTTATGTGCTAGCATCATCCTCATGGAAC
ACCGAGTCCAGGGCAAATTTGGCCTGCTGTTTACTGTTTTGGCATTAGCTGAATTCCTAGATCCAAGGATAAACCCTCTTTAAGACTTGGCATTGCCTGT
ATCAGCTGTTTTCCCATCCATTAACTACCTGTCCTTATTTGTGATGGAATGATGTAGACAGCATGAGAGAATCCTGTCAGCCCCAGAAAAGTGTGAAGGA
GGCAAACGTGTTCGGCTAATGCATAAAATACAGTAGATAGACTCTCCCAGAATATGGGGTTCCAAAAGAACGTTGAGGATAAGGAGATCTTTGKTGACCC
TATGCATTTAAACATTTTAAATGGCCTTTGTCCCCATCGTTAGCAGGCTGAGCTGTTCCATCAATGGTGGGTGGGTGGGTGGTCTGACTCTCTGTTTGTC
ATCCAGGCTCGCTGCTTAAGAGATACTGAACAGATCTTCAGAGAAGGTCCGGTTGAAATTGGTCTCCCATGCTCCATCAAAAATGAAGCAAGGCYGCCAT
GTTTACCGACACCGGGAAAAAGAGGTAGCTGTCCTGATCAGCAGTCTAATCACTGTCAGTCATTAATCTCAATTAACCCTAACCTAATGCCCTTGGATTT
AAGTTATCAGCTTACCTGGTCTGATAGGTGATCCACCTCCAGCTACCAACTAAGAGGCTCCCACTTCTTAGAAAAGAAACTAAAACCTTTTACCTTTGTA
AAAGGCAGGAGGTGGGGGTTAGAAAATGGGATAGGTCTGGAGGGAACAACCACAAATGTTTTCTTAGAGTTTCAGCATGTTACATTCTGTCAGTGTCAAA
TGGTTTCACAGAAATAAATCTGTCTTAAAATTTGATGGTGGGAAGGCCACAGAAGACATTCTTACTCTGCACCTTTGAGACTTAAATTTAAGGGTAGGAA
AGAGAAGGACTCAAAGCCACTTTCATGACATTATGGCAGTTTTTCCAGCCTACTGTTTGAAAGCAGTTCATGAGTGGATATGACCCATGTTTCTGAGACC
TGAGTCGTTTCAGCATACATTCTAAAATACTTAGTGTCCTTGGAAGAGTATGAAAGATAAACCTAGGGATTTAAAAATATAGAGACTATTGTAGGCAGGG
GGAAATTCCTAAAAATTTCTCTTATGTTTTCTCTGACTTCMAATCAACTTAAAAATGTAAATGAAAGGTTTGGGTTACATTTAGGAGGGGTTGCCAGGCA
GTCAAGGAGACTATGTCTTAGCAATGATCAACATAGGCAGCATCTTTTTTTTTTCTTTTTTGAAGACAGAGTCTTGCTCTGTGGCCCAGGCTACAATGCA
GTGGCACAATCTCAGCTCACTGTAACCTCTGCCCTGTGGGTTCAAGGGATTCTCCTGCCTCAGCTTCCCGAGTACCTGGGACTACTTGCGCACACAACCG
CACCCAGCKAATTCTTTGTATTTTAGTAGAGATGGGGCTTCACCATGTCGCCCAGGCTGGCCTCAAATGCCTGAGCTCAGGCAATCCGCCCACCTCGGCC
TCCCGAAGTTGTCAGATTACATGTGTGAGCCACCATACCCGGCCAACGTAGGCAGCATCTTGACTTGAATTCTGGGATGAATGATGCAGTTCAGATCTTT
AAAAATCTGCTAGATTTCATTTCCTGTCTCTCTCACGCTGTAAATTGTAGAAATTGATGCCACTGTGTTTGTGAGCCATGCAAASAATTGAAAATCATTT
TTTTCCTAAAATTTGGTTAAAATCCCTAGATGTCCTTGATGTGGCATTATTAACAGTGCTTGTGTATTTTGCATATATGGTCTTTTACTGATTGGAATTT
GTTTCTTAAGTTGAACTATTTCCCAGTCTATTGAAGAAAGAGACATAGTCCACACTCCAAAATCCAAATGCCAGGCTCACAGACAGGGGGTGCTGCCCTC
ACAGACAGATGGAAAGGTATTAAAGCTGCCTGAACTGTAGGAAACCCTCTAAACACCCCCAATTACTATGATGGAGCCTCAGCATGGGAAGTAGAAGAGA
AAGCATGTGCTCTCAGTAACTAGAATGACCTCCATTACTCCATGTTCATTTTTAACCACCAGCTTGCATTTTCAGAGCCTCAGGGCATTTCCTGGGAGTC
TCCGTTGGATGAGGTGGATAAAATGTGCCATCTTCCAGAACCTGAACTGAACAAAGAAAGACCATCTCTGCAGATTAAACTAAAAATTGAGGATTTTATC
TTGCACAAAATGTTGGGGAAAGGAAGTTTTGGCAAGGTAAGCTAATGCACGGGAGAATGCTATGGCCCAACTCCAGGAACTGATGAGCCAAGTTCCTGGT
CAAAGAAATTAAACTCATAGGGCCACTAGGATTGCATGTGAGTGTCAGAGACAGCTTTCCTGAGGGAGCGCTGAATAAATAGGGACCCCGAGGGCTCTAG
GCCCATAGTAGCCTCAGCTTTCTGGAAACCTGTGTCTCCAAAGCTACTTTGCTTGGAGAGTGTACATCTCACACGCCTATGAGTTTGATGTCTTTGGGCA
CCAAAGAAATAGGAAGGTGCCTCAGCCACTTCCTGTTTCACACGGTGTTTGTGTTTGTTTCATTTTGTTTTCTCTTCTTTTGCTTCATTCTCAAGCCTGG
AGTGTTGTTTTAGTTTGCATGTGATTTTTTTCTCTCTCTATTAAATATCTTCCAGCTTGTATAAGTTTCCTTGGGGTGTGATAGGGCTCGGCTCTGTGTC
CCCACCCAAATCTCACGTTGAATTGTAATAATCCCCAGGTGTCATGGGAGGGACCCAGTGGAAGGTGATTGAATCATGGGGATGGGTTTTTCTGTGCTGT
TCCCATGATAGTGAGTAAGTCTCATGAGATCTGATGATTTTATAAAGAGGAGTTTCCCTACACATGCCCTCTCACCTGCCACCACGTAAGACGTCCCTTT
GCTCTTCCTTTGTCTTCCACCATGATTGCGAGGCCTCCCCAGCTGTGTGGAACCGAGTCCATTAAACCTCTTTCCTTTATAAATTATCCAGTCTCGGGCA
TGTCTTTATTAGCAGTGTGATAACAGACTAATACAGGCTGCTATAACAAAATCTCACATACTGGCTGGCTTAAACAGCAGAAATTCATGTTCTCGCAGGT
CTGGAGGATGGAAGTTCACCATCAAGGTGTTGTCTGGSTTGTTTCTTCCCAGGCCCCTCTCCATGCTTTGCAATGGTCGCCCTCTCTCCATGCCTTCATA
TCATCTTCCTCCTGTGCATGTCTGCATCCAAGTGTTCTCCTTTTTTGAGATGACGTCTCACTGTGTTGCCCAGGCTGGTCTTGACCTCCCGAACCCAAGT
GATCCTCCTGTCTCAGCTCCCTAGTAGCTGGGATTACAGTTGTGCCACCACACTCTGCTTAAATTTTCTCTTCTTGTGAAAACACCAGTCATATTGGATT
AGGACCTGCCTTAATAACCTCATCTAACCTTAATTACCTCTTTGAAGGTCCTGTCTCCAAATACAGTCACTTTCCAAGGTCCTGGGGATTGGAACTTCAG
TATAGACACAATTCAGCCCATAAGAAAACTGTAGCTTGAGAGTCCTGGAAAAAAATTGTGGAGAAAGTCCCTCCTCTAAATTCTTCCTGCCATACATGCA
GGTGGGGGGTTGTCTCCATCACTCACAGATGACAAGGAGAGGAAGGAAAGAGGGAGAGGAGGAGCAAAAAAAAAAAAAAGGGGAGGTGAGAAGAAGGAAG
AAGAGATAATTTAAGAAATTATAACCAACTACCGGTGACTGCAGAAAATTTTCAAGCTGGTGATTTAAGGAGGGATGATATGGAATATAGGCTTTTAGGT
AATTTTTGATATTAAGGGTATCTCATGTATTAACGGGGCTCCTATTTGTTTTACATTCTTGGATGGGACTCCCAGGAAAATTTTAATCAGAGATGACTGT
TCTATGAATCTGTGCAGCCAAAGGCAGCATTATACACCACAACTGCTCACCAGACTTTGGCAGGATGTCTTACCCAGTTTATTTAATATTAAACAAACTA
AAATGCAACTGAGCGGTCACCACAGCTGAATAATATTGAGCTCCATTTGGGGTTTGGATTTAAACACTGATGCCTTGCCTTTCAGCAGAATCGACTCTGT
CCAGCACATGGTAGCTGATATTCAKGAATTCTTTTTGTTCAGTTCCACAATAATATGAACCACAGTAGGCTCATTTGGTGCTAATCTGAGCATAATAGGC
AATGTTACAGCCAGTCTTCATTGTAATTTAGCAGCAATTAATGTGCAATTATAACCTGTTACCAAAAATTGAAAGCACATTATATAGATGGAAATTGTCT
TTTTGGCTTCTTAGTTTATGGCTGGTTTTAGGGTGTTTTACTGAAAGAAGCAATTACTAAAAGAGGACTTTTAATTGTTAATGAAATGTTTATCTTTCTT
TGTTCCCATGTGGATTTCCACATTTGAATAAGGTTAATAAGGAAGACATTAAGTTAAACCTACAAGCCTTAGTCGGTATCCCAAGGTGCAGCTGGGAGCC
CCAGGTTTCCCCYACTCCATGTCCAAAGCTGTCTACTTCTTTTCATCAGGACCCTGGGTCCCTATACACGGAGAGGAGAGGAGGGGGAGATATCAAAGCA
AGACAGGATGGCTGTTTCTCTTTCTCACAACACTGAGAATACTCCAAAACTTGTCTTTTCTCTCTCTTCTGGCTTTATGTGGAAAGTATGTTTCCTCACC
AAGACCTCTATACCCTTGTTCTCAAACAAMTTTTAAGCCTAAGAAAACAAATTGTGTGTTCTCTGGGGATGTGAGCATCATTCATTTGCCTGAATTCCCA
TCTAAGTTTCATCCCTTCCCTTCTATCAAGTCAGCTACCATCAAGCTACGAACCTGCTCCGTCGCTTTTAAACCTAGACACTTACATGTTCAGGGCTGTT
GTCACATCATTGACTTCGGCCTTTCCCAAAAGTCAATAASAGAAACAAATGACAAATGACTGAATTTTAGCAACTGTGATTCAGAGATCATTTTAGAGTC
TACTTTCCCAGGTCTCATCTTACCTGACTTTCACAACAGTCCTGTAAGTTAGAGAATGCAGTAGTAATTGGAAACTGAAGCCCAGAGGGGCTAATTCATC
TGCCCACATTTCCACAGCTAATAAATGTCTGYGAAATAAAACTAGAGCTAGAATTTTCTGTATCCAAATGCCATGCCCTTACCATTGCCAACAGTGTGTT
GCTGCATCATTTGCAAAAACTAAAATTGTTGAAACCCTCCATCATATGCCATCTGGTGTCCTTTGATATAAGAGCCACAAAATCAAGTGGGAAAAGTAGA
TTTTGGAGTTAAATCTTCCCTCATAGCTCCAAGAATCTGAGCAAGTTATTCTTTGAACTCAGTGTTTGTTGTTGATGTTGTTAACTTCTGTCTTGCAGAG
TGTGATGAGCTAAGAATTAAATTAGATAATACAATTAGGTCGTAAGTGTAAAGTAGGTAGCAGAGTGTATGACACACAGTAGGTCCTAAAATGTTTCATT
CCCATTTTGGTGTCCTTTGATACGAGAGCCACGAAATCAAGTGGGAAAGTAAACTTCGGAGTTAAATCTTTCCCTAGTAGCTCGAAGAATCTGAGCAAGT
TATCCTTTGAACCCAGTGTCAGTCACATTTTAGGACCTACTACATGCCATACATTCTGCTATGAATAATTCATTGCTGTGTTGTCAGAGAAAATGGTGTT
TACTTATTTATTTTTTTTTATTTTGAGACACAGTCTCACTCTGACGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGTTCACCACARCCTCCGCCTCCCA
GGTTCAAGCAATTCCCCACCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCACCACCATGCCCGGCTAATTTTTGTATTTTTTTTTTTTTTTTTTTT
TTTTTTTTAGTCGAGAYGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTAACCTCAGATGATCTGCCTGCCTTGACCTCCCAAAGTGCTGGGA
TTATAGGCTTGAGCCACCGCACCTGGCCRGTGTTTATTTTTTAAGTACACAAGGAGAACTATATCCCTCCATTCTTCTTTTGGCCTGGAAAAACTGGGTA
AAACGTAAAGCTAGGATTTATGTGCACTTGCAGTGATGTTTCGAGTACAGTTTCTCCTCTCCACACTCAACTCTTCTTTCTTCACTGTGCACTTTATCTC
TCTGGATTTTTATTGTACCTTCACTCAGATCCCTGAGCAGGCAGGGCACACTTTTAAAAATCCATTCAATTGCTTAATAATTTTGTGAACCCTTGGAAAG
AGTACAAAGATAGTATGAAATAGTGATGTCATGTCCGAAACCAGAGAAGTGCTCCATTTTGTCTCAGGAATGGCCTATGCAGGATGGATGGGGGTTGGAG
AAGGAACCCCTTTTCCCACCCAACACAGGTGTCTCTCAGGACTCTGTCTCTTTTTTAAGAAATGGGAATCCAAATTCTAAAATAAAGTTAYTTCTTCCCT
CTCCTTCTAGGTCTTCCTGGCAGAATTCAAGAAAACCAATCAATTTTTCGCAATAAAGGCCTTAAAGAAAGATGTGGTCTTGATGGACGATGATGTTGAG
TGCACGATGGTAGAGAAGAGAGTTCTTTCCTTGGCCTGGGAGCATCCGTTTCTGACRCACATGTTTTGTACATTYCAGACCAAGGTATGGCTTCTGCTCC
GACAACCCTACCTCCCCTCTAACCTGTCTCAGCATGATACCTTCAATGGCGCCCTCATTAGGAGACACGAGTCATTGCCTCCATATTTATCTTACATTTC
GGTGTACCTGCCATCCATCCAAACATCCCTTCTACACACCATGGAAGTATTACTTAGAATGTTTTAGTGTCATCAATTGGGAAAGATCTTTACTTCTAGA
TTTGTTTGTCTGTTTTCCTGTTTTTTAGAATTTGGTTTCATTTAGCATAACAACCAGGCTTCTCAGCAGTCCGTGACTTAGGGGAAAATGTAACAAGTGT
TTGTTCATCTACCCTGCATGTACTGGAAGAGATAAAAGTTGGAAAATAGATCARAACGCACGTACACTATTATTTTTCTCTTCAAGGCYGGCAGAAAAAG
CAGCCTTGGAGTGGGCTCATCAGTGAGCAAGCCCCTGAGCTGGGAGGTGGAGGTTGGATGCGTCTGCATTCCCACTCGGTGTTGGGACCCTTTCCTTATG
CTGAATTTGCCAGAAGGCTGTGCCGTTCTGGGAGGACTTGCATCCTGGTCTCCTTTTTCCTTAAAAAAACAAAAATTATCCTTTTCTTTCCTGACTCAAA
ATTATTCAGGATCATTGTAGAAAATTTTTATAAACTCAAAGAAGAAAATCACTTATAATCCCACCACTTAAGATATACTCGCCATTAATACTTTGAAGTT
TCTCCTTCTATAGATTCTCTCTGCAGTGGACTTCTAAAAACAAAAATAGCAACCCACTGTAAATACCTACTGCACTGTACTCTGCATTTGTTACACTCTA
TTTTGAACATTTTCTTACGTCTTTGGATATTCTACAACGTGATTTAACTAGAACATCTCTAATTTTTTGTTCTGATTTAAATAACACTAAAATGAACATC
CTCGAAGATTAGTTTTCATGCACATGCATTATGATTCTTCTTACTGGTTTGTCTCCTCTCTGCCACCCCATCCCGGCTGTCCACCACCCGCACTAATTAG
CAGCCTCAAGTGGGACCATATGACTAAGGGCCAAAGAACACAAGGGGCGGAGGCTTTTCCATTTTCTGTTTTCTTTCTTTTTGTTTGTTTGTTTTGTTTG
TTTGTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAATGGTGTGATCTCAGCTCACTGCAACCTYCGCCTCCCGGGTTCAWGTGATTCTC
CTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGCACCACCACACTCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCA
GGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCCCCTCAGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCAACGCACCCAGCCCTTTTCCCAT
TTTCTATCTCAAGCCATGACGACTGGAGAGTGAATGAGGGAAAACTTCTAAGGAGACTTGAGCCATGGGAAGAATTAATGAGGGAACCAGGGAATGAATG
AGGAAAGTGGATGGCAACTGGGGCATCCATCMCCACCTCTGCAGTTCCCAGTAGATTCTCAGCATATGTGCAATAACCAAATCAATGAATAAATGCACTT
ACCTAAGATAAAGAGAAGCCAGACCATGGCAAAGCACTTACTGAGCATATGCTGTGCTCAAAGCACTGTGGAGGATACAGAAGTATATAATACAGCTCCC
GACCTTGAGAACTTCACACTCTAATAAGAGTCAAGGCTGCATTTCTAACAGTATGAGTAATATTAGATCAGAAGGCAGACACAAAGTACCAGAGCTGAGA
GAAACTAGAAAGAGGAATTTGAATGGGCAGAAAGGGCCTTGGGCATGAAAGGTGTGGCTGCAGGAGAGGAAGTAGAAAAGAGTGAGGTGTCCTGGTCAAC
TATTTAGGAGAATGCAGGCCCGCTTCCTGCTGCAGGGAGCAGGCTGGAACTTCCCATGATGAAGGCTAGAAGAGATTTTGTACTAGAAACTCCCTCCTGG
AGATGATAAATACCCATTGGCCTGGGAGGGTGAAGGTATGTCACCTGCAGGCAAAGGGACAAACTCTGCCACCCTCTCCATGCTGTTGGGAGGGTGAAGG
TATGTCACCTGCAGGCAAGGAGACAAACTCTGCCACCCTCTCCGTACTGTTGTCTAGATTTTCTGCACATGCTGGGGCTCCCTGTAATCTTTTCCCTTTG
CAGTATTTTGAGGCTTGTAGCAAACTGCTAAACACATTTTTTCTTTTTTGCCATAAATAAAGATTTTTACTGTAAAGCTTTCATAGTAGCGAAAAATTGG
AAACAACACAAATACCCAATGACAGATTTATTGAATAAATTATTATATGGTCAGAGAAAATAATACTATATAACCATTTTAAATGAWGATGTAAATGCTT
AAACATCAATACAGAATGTTGTTTATGAAATCRTAAGTGAGAATATATAGTATTTCCTTTTAAGCAAGAACATTTGCATGTATAAGCATGAAAAATAATG
AAAAACTAACAGTTGTTAATTGGGAGGTAGGATTATAACTGATTTTATTTTTATTATATCTTTCTGTGTATGTTACTATAAACACAYTTTAGACTGGGCT
TCTGGGCACTTAGGCAGTTGTGCTTCTCTTGGTGCCTTTTCCCCATTTTTTTTTTTTTTTTTGATTTGCATGTATGACAGTTTTCATGTCTTACGGGGAA
GGCTATTGGGAATCCCACTTTGTAGAAGATAGGTATGCTCCTTTCTCTTGCCTGTCCATCACAGCTTCAGGCAGCATTTGTTTCTGTCCCTCTTATGAGA
GATCTCCTTAACCCATTTATGCCTGAGGTTGCAACTTTTTGAATTTTGAAATCAGACCTTGGTGATGACCTTGAGCAGTARGATATAAATAACTCCCACA
TGCTTAGCGTTCCAATAATGGAACACTAGGCATAAATGAGTTCCGTGCAGCTGGGATGCTTTACCAAGACCTGAGCCACAAGTGCATCCACAGCATTGGT
GCTGGGAGAGAAAAAAAAACTTCAGCAGAGAATGTTTACATGAAATGTAAATCTGACTGGCTCAAGACTCAGATCTCAAGGAACTGAGTCCTTTTAGAAA
GAGGAAAGAAACAAAGGAAGAAGCTTGAATCACCTTTTCCAACACCCCGAGTTGTTGTTTTTGAGATGTCTTAATTATTCAAACCTTGCTTGTCAAAGTA
ASTGATTAAATACCACAAGTGAATGCAAAAGGCAACGATTGATACGTGATATGGATAATGCTTTGTTCTGGGAACATGTTGGGAATGACCTTTCTTGGGA
GGACAGTTACCTGTGTATGCTAGTGTAGACATCAGATAAGATAAATTAACTATGTACTTCTCCAGGGCATTGTTATTTTTTAAAGGAAGTTATTCATCTG
CTCTCTGCCTCCAAAGAGCGCACCTGTTGAATACCAGATTATTCAGGAGATTCTGAGGACAGGTATTCACTTGTTATTAATTAGGGTCATTTGGATTAAA
TTGTTAAAGTTTTTAAAGTTCCTAGATGAGGGATATATCACCTATGGAAGGGTGAAAATATGATAAAKCCATTTAGGAAGCTACAAAATGTGAAAATTCC
TGTGGACTTGGATTCCGAAGTTCAAGCCCAGCTCTGCCGTTTATCAACAGGGCTCTGAGGCACCCACTTTACCCCTGCCCAGGACAGAGAGTAAGAGTTA
CAGGCAGAGGGGCTGGGAGCTGTAAAACCAGGGGCCCTAATGGGACGGCACCGTCTGGGGACATAGATGTRCAGGATAATTCATGAAATCTGAACCTGAA
TCTGAATGAGGCTCAAATCAAAAGAATCTTCACAATGAATTTTCTGTGTGCTAGATCAAAATGACTTTGTACATCATCCAGGCTCTGGCATAAATTACTG
GCTCAGGGTCTAACGTAGATCAGCATTCTGAGAGGCTGCTGTCTTGGCAAGAGGAAAGAAGGGCTAGCTCTTCTTTCTTTTACTTTTTTTCTAACATTTC
TTTGTTGTTAATATTTACATTTTCTGTCTTACAAAGTCTGCAGGGCTTGAAATTGCACGATCCCTTCTCAGTACCCCCTTCAGTGCGGATGCCAGCCAAC
TTTTGCACTACTAGATTTCCAACTTAGATTTTTAACAGTTTCCATTACTTACATTTTAAAAAGTAAAAAAATAGGAAAATCCACAATAAAATTTGTCTAC
AAGAAGAGTTGTCATAAATCTTTTAACTATCCACTTACAAGTAGATTTAAAACAATTAGAAAAAAATAATTAACCATAAAACTTTGAAACACAGGGAAAA
ATAAACACTGAAACAGTTTCCCTCTTTTTAGTTATGCTGCAGTAAAAGAAAGATTAATAACTCAAGTATCCAAAGTTTCTGTGTTCTATCTCTGATAAAA
CTGTGGAAAAATAAGAGGATTTATTTCTAAAATTTGTTTGGAAAGGAAAGATGCATCTAACACAGTAAGGATGCTATTTCTTTTTAATTTCAAGGAAATA
ATTTTCCCTTAAAAATTAAAAGTGAACTAAAGTCTACCTTCCTCTGTGTCTCCTTTGAATTCTGAAAGGCCGATCTGTATTCTGACATTTAAGTAGTGTT
ACTATTTCACRCCTAAGTAGCTCTAGATCCTATAGGAACAGCTCTGTCTCTGGGTCGTTCCCTCAGGTTGGATTTGAGGGCAGGCCGCCGTGGTTTTGCA
GGCCTCTGAAGAGAGGCCTCCCAGGGTGATGCCAAGAGGCAGAACGCTAGTGTTCCTGGATTCACATCACTGCCCTTGACTCCCACACTCCCAATATGCA
CCAGTTGAACATTCTTGGTCAATATCACTTTGAAATTTTTCTTTTAKGAAAAAGAAAACTGAGTTTCACTTTCTATTCATAGAACACACAAAGCTCTACT
TCCGGTTATGGCTTCAGGGCATGAGTGTGTGAGTTACTTTGAACAAGTCACCTAACATTTCTTTGTGACACTGGTTCTCCTTTTTTGCTTCCTAAGGATA
ACGTGAAAAATAATAATAATAACAATAATAGCACTTGCAGAGAAGTTTGGATCTTTTTTGGAGAAAGTACCATACTAACTACAAGATATTATTATCATTT
AAAATTAAAAAGAAAAACTCCTTGAACTTGATACTTTTTAAAAAGTATGTCATCCTGGTATTTCCATAGTTTTAAGGCAAAATCCATCTAAGAAAGTTTT
TAATTTCAAGCATTTTATTCAGAAACTGCTTCATCTGAAGCTCTCAAAAATGCTGCAATCCATGAACCTTTCAGTTGAGCTAGGAGCCCTGGAAATTACC
ACAATTGTAGCAAAGAAAAGAAAACCCACGGAAACCACATCCTTCCAAAGACGTGTCCCTGCACTAAGACAAGAATTAACTTTTCATGCTGCCCCCATCT
GTAGTGACAGATAAGCCTCTTTTCTTTAACGTCCTCTGGCGGCGTTCTGATCCTGAGAACGCTTACACGTTGTTATTTCAGAAACTGGGGATCACTCAGA
CATTCTGCAGGTTCCCCTGCTATGTAACCAAACTGTGATTTGGCAAATGTTAGATTTTATAGCAAATTTACAAAAATGAGTCGATTTACAGCTGTCAACC
TGAAATAATCAAAAAGGCCAGAATCTAATTTAAAGAGCATTTATTCAAACTCAAAGTTTGAGGATGGCCCACCTGGAAACACCCCAAAAGAATGAAGTCA
GAGTTGTAAAGGAGGGAACTTTAGGGTTTCCATAGGGAGAGACASAGGCATTTTTAGCAGGATTACATTTTTTCATACAAGGCTGGTGCATAGTTCCAGG
AACTTGGTTACAGGCAGTGTTTCTTTTTGGGAAAGGGACATTTAACATCTTTTACAGAGTGTGCTATAGTCATGGGTTTTCTGTCATCTGGTCTAAGGAA
AATAGGACAAAAAAAGGAAAAGGTAATCTTTAACAAGATTCATTAATTAAAAAGGCAGGAGGCGGCCAGGCACGGTGGCTCACACCTGTAATCCCAGCAC
TTTGGAGGCTGAAGCGGGTGGATCACCTTGGGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACTCTGTCTCCACTAAAAATACAAAAATTAG
CCAGGCRGGGTGGTGGGCACCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGATAATCACTTGAACCCATGGGGCGGAGGTTGCAGTGAGCTGAGACC
ACACCACTGCACTCCAGCATGGGCGAAACAGTGAAACTCCGTCTCAAAAAGAAAAAAAGAATAAAAGAAGTCAGGAAGTGTTTGTCCCTGACAATTGTTT
AATTCTCTCTAGTCATTGTACAGAACAAGAGAAAAAAGGAAGCAAGTTAATCTATAATCTGAGAAACAGAAGTTGTAACCATATGTGACTCAGATCACAG
TCGCATCTCTCTCAAGGCGTAAAACGCATTTTAGGAATTCTAACACCTTTTAAATGTTATTTATTTTCACACAGTAATTTATGGGAAATTAATGTTGCAC
TCACAATGTTTCCTTACAGTTTTCTCGTCCAAATACACAGGAAATAACGGGCAATGAGTGAATACATATTCAGGAATTCTTGGACTAAAAGAACAAGACA
CTCACTCAGTGCATCTGAAATGCCGCATCTTTCCTACATGCCTGCTTTTTTTTTGTTTGTTTTTTTCTGAGATGGAGTCTCGCTCTGTCGCCCAGCCTGG
AGTGCAGTGGTGCGATCTCGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGACTACAGGCGCCCA
CCACCATGCCTGGCTAATTTTTTGTATATTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATAGTCTCAATCTCCTGACCTTGTGATACACCCACCT
CGGCCTCCCAGAGTGCTRGGATTACGGGCGTGAGCCACCGCGCCCGGCCCCTACACGCCCACTTTTTAAGCTCACAGATCTGTTCTCATCTTGATGTGAC
TCTGTAATATTCTTCCAGGCTCATGGCCCATATTATCTGCCCATTCCTTTGTCAGCCATTCTCACAAAGTCCCAAAAGTATTGTCACCAGCTTCCCAGAA
GACATGAGCATTTGACATCTCCTTCAAGAGAGTGCCTCAGGAAAGTGCATGCCTTCTGTGAATCTACTATCCCTCTTTTGTTTTTTGTTGTTGTTGTTGT
CATTGTTGTGTTTGTTTSTTTGTTTTGARAAGGAGTCTCACTCTGTCGCCCAGATTGGAGTACAGTGGAACGATCTCGGCTCACTGCAACCTCCATCTCC
TGGGTTCAAGTGATCCTCCTACCTCAGCCTCCCAAGTAGCTGGAATTACAAGCGTGCGCCACTGCGCCCAGCTAATTTTTTTTTCTTGGTATTTTAGTAG
AGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATCACAGGYATGAG
YCACCATGCCCAGCCTACTCTCCCTCCTTTGAAACCTTGCTGACAAACTACCTACTCTATAAATCACGCTCAGATACACTAAATCCTACTTGTCATTCAG
ACGCTCAGGCTTCTCAGCTTACGTGACCCAGAAAGATGATTTTGCTCCTGTACTGCTGGGTGTCTTCTGTGACTTCTTTCATATGTTCTGTTTAAATAAT
ACCTTGTCTATGTAAATAATACATTCCTTGATACCAAGATGCATGTTTCGCTCTTTTCTTTTGTTTCATTTGCCCGTAGAGTGCTAGATAATGTTCAGGG
GCTGGGCACAGGGGGGAGCGGAAGAGAAAAAGAAAGATAAATGGTCTGACTGTAGATCATACTGGCTAACTCAGGTGCCAGGAAGGCTGGTCCCGAATAG
AACTGCAGAGGAGAAGTCTATCTTTGACAAACCCTCTTCCCACCCCTCTCTGACCTCCTGTTTCATTATTTTCCCCTTCATCCCAGAGTTCACATGATCT
TGTACCCACTGTAGCTATCAGGTCTCTGCCTTGATTTTTTTTTTTTTTGCGACAGTCTCACTCTGTTGCCCAGGCGGCTCAATACAACCTCCACCTCCTG
GGTTCAAGTGATTCTCCTGCCTCAGCCTCCCARGTAGCTGGGGTTACAGGTGTGTGCCACCATGCCTGGCTAATTTTTGTATTTTTGGTAGAGATGGGAT
TTCACCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTCTAGTGATCCACCCACCTCAGGCTCCCAAAATGCTGGGATTATAGGCATGAGCCACCGCGC
TTGGCCTCTGCCTTGATCCTTGATGGCAAAATCGTTCTTCTCCATCTCCTTGTCTYTCCCCCTTAAAACTTCTGTCACTTCAGGAACCTCTTCTCCACCA
CCAGTCTTAGAGAAATATCTGATAAATAGCATAGAGCAGTTTAATATGTGTTGTTCCTAGCAACGATTTCTTCCTAAAGTGGAGCAGAGTGGAGTTTCCT
TATTAGACCCAACATTACGTTGTATTTGAGGTGATTACAGTTCCCATCCTGAGGAGGTGACACGCATGGGACTCTTCAGGGGAAACTGTGGGAATATATG
AGCGTCAGAATCAACGTACTGCAGAAATTCAAGTGCTAAACCACAGAAAAGCCCTCTTTTACAAAGTAGGAGGAAGAGCAGGGGGGAAAGGTGATAGGGA
GGATCCCTTGGGGTGGTAAGAAGAGGAACAGAGGAGTTAGGAGTATCGGAGGACAGGAGAGGAAAGAATTTCAAGAGAGAAAGGATCATATATTTAATGT
GGTGAAGAGTTGACAATCAAAAACTGAGTGTGGAATGTGTCATGGAGGAGGAACAGACAATACAGTGTGAAGGAGTGAGTGGTGGATAGGCAGATTCAGT
GGTGATACAGAAATCTTCCAGAAAGAGTTTTCAGAAGATGGAAGCTCATTATGACTGCAGAGTGTAAGGGATGAGAATCATGGGAAATGCTTGAGCCAGA
GATGGAGAAACCAGACAAGAGGGAGACTATTCAGGTTGTAGCCTTTTCAGATAGGCTTCTTTCACTTAAGAATATGCATTTAAGGGTTCTTCTTTTCTTT
CTGTGGCTTGAGAACTCATTTTTCATTGCTCAGTAATATTCCATTGACAACTAATGATTTGTTATGTTCTTTTGTTTTCCTTAWAATGACAGACTCCATG
GATCAAGAATTTTAGAGTAGGGAGGGGTGGTAGAGGTTATCAAGTCAGATCCCCTCATTTTGCAGCAAAGGAAATGGAGCTCCAGAGAAGATAAGCCTAG
CTGGTCACAGGAGAGTGCTCTTTTCTGTGGTCAATCCAAAATTATTAGTAAAGTTGAGACTTCAAGATACCTAAACACAAATCCAACTCACAACTTATTT
AATTGGAAAATTGTTCATTCCATGTCCTAAACCTTAGACCCAAGCAAGAGGGGTTCYGCCCAGCCCCTCACTTAGAATCCTCCCTTTGGCCTTTCTCAAA
CCACACTCCTTCCTGTGAAGCCAAGAGGTCGTCTCTGTTCCTAAACTACTYCCCAGGACCTCGGAATTCCATACCTAAACAGCCTCAAGCCTGTGTAGAC
ATCTCCCTAGGTTCTGTCCTTGAAAGGGGCAGGAGGAGACTTTCCCGATATGGCCAATTAACTGGTGCAGAATTTTGAGGGATCCTGAATTTGTCACGAT
CCTTCTTGGTCATTATGAAGTTATATTTCCCAAGAGACAGAACATATAGGAATGTAGAGCATATTTAATTGAATTGTTGGTGAGCTTGATTAATAACACT
TAAACCTGGGGACCCACAGTGTGGGGCCTCCCTCTGCACACTCGCTCCAAATCTTGCAAAGGTTGGGGCTGTCCTTTTTCTGATTATAATGCAACTTAAT
GCTTTTCTTCCCTGTGTGATAAATAATAACAATGTATGTGATAAAGTTAATACATAAGGAGTTCTTGCTATATGCCAGGCACAGGGYTAAATACTTTATA
TGAATTCTTTCATTTAATTTTAAATATGAACGATAGCTCCCCTTTCTTCTTCAGAGCAGAATTCCCAACTCTTTCCATCGGCTGTCCTATGAGATGTCCC
AAAGAAGAGTTGAATTCTATCTCTGGTTTTCATCTTGTTGTACTACAGTCTTCGCTGTTGTAACATTTGTTACGTGTCCTTAACATATGATACTTTGAAA
GGTGTGATGGTAAATTTAGATGTTTTGTCATAAATATTTTGATCTTAATTTTATTTATTTTGCAGAGATTGCAAATATTCTCTTGTGTAAAATTTATTAC
GTTGGTTTACTAGCCTTCGGAGAAAAAAGATACCTCGAAAAAAATGACTATAATTATTCTTTTCCTTCTTTTCCCATCTTGTTTTTCTGGAGAGGGAGTC
TAYAAATCTGATCTTATTTGCATGATATTTGCCAAGTTCTCAGTGCATTTACAAAATTAACTGTTATTAGTCTGATAAAAATMATGAGTTTATTTCTTTA
ATGCTATAAACCTGTCATTCATCCTATAATATATGCACATTTGCCAGCCATTTCCTTGTTTACTCAATATTTGATTAGCTGTGTTGAATAGTCATCACAA
CTAAACACTTTTCCATTCTCTTTATTCTCATTCTCTCCTTTGAAAAGTGTAATCACTGTAAGAAGAAAGCAGTGTAGAAGCTAGGTTGTATTAAATAACT
TTTGAGGCCACTTTTACAATTCACCCTTTACTAATTCTAGAATATTCACAAAATGTCCTATTCCTCCCTTTAAAGAACTATCTTGTGTTTTAAATAATGA
TATATTTTGACAGCTCTAGGACCTTTATCTGCTCCAAATGATATTTGTGTATGCAAACGCAGTCCTATGAGAATTATACAACTGATTTTGTTAAATCTAT
CACTTTGATCTTGTATTTAATCATCATTTTTTTTAAGACAGGGTCTCACTCTGTTGCCCAGGCTGGCTTTGKACTCCTAGGCTCAAGTGAACCTCCAGCC
TCAGCTTCATGAATAGCTGAGATTACAGGCATGCACCTCTGCACCCAACTTAAATACCATTTCTTTAAAACATCAATAACACAAACATAAGAGTCATACA
GCTTTGATTACCCACCTATCTACAGAATGTCAACATTGTTTATTGCCTTCAGTTGTCTGGAAATCACAACAAAGCTGTAGGTAATGGTGACTCTCTCATT
TTCATGGACAGGGTTCATTTTTCAGAGGAGGAAACCAAGGCCCTGTGATGGTGGGATTTACCTGATCACACAGCTGATTAGCGACAGTCTCATTTCTCAC
AGACTAGAATTTCCATTCGACAGATGCTTTGCCAGGAGTTGTTGACAGTCGGCAAGACTGGGACGCGTTTGGCATGTCCCATCCCCCAATGCCATCACAG
CTTCAATTCTCACCCACCGGAAAGAATCATTTGCCTCGGTTAATGTATTACCCGCCATAAAGACGTGAGGTCTAGACTAGTAAGTGACATTTACAATTAA
CCCAACACAGGCCACATTCTCTCCCTCCCTCCCTCCCCACCATCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTGTCTGTCTCTCTCTGTCTCTC
TCTCTCTCTCTGTCTCTCTCTCTCTCTCTCTCTGTCTGTCTCTCTCTGTCTCTCTCTCTCTCTCTCTCTCAGCCTGCTTGGTATCCTCTCTCAGCAGGTG
GCCAGAACCTAAACGGCAGCCCAGGAGGGAATCTAATTCTGTTTTCTTCTTTCTTTCGAGAGCCATCGGCCAGAGAACTGTTCATTTGCTTCTTCTGGGA
AGTATTTGCTGGTTTTTGGATTGGTTTTGGTTTTGTCTTTCCTGGCTTTTAAATTGCTTCCTAGAAGGACAGCTGCCATCAGTTATCAATTGCCCACTGA
GGACCAATGCAGAGATTCATTTCCACACACACTATTTTGTTTAATACCCACAGCAACCCTAGGAGGTAGGAGTATTACTACCCCATTTCACAAACTAAAT
GAAGCTCAGGAGAGGTTAAGTCACGTCTCCAGAGTTATAAATAGAGGGGCTTTGAACCCAGGGCTGAGTAAGGATGAAGCCCACATTCTTTGCAATTACT
CTGAGTCTCATTCTTCTTGGTTTGTTTCTATCTATGCCAGCCCAGAGTCTTTCCAGCAGGCAGACACTTCTTTTTGCTTGCGGTTCTGCAGAGGTTCTAG
TCAGCTGTGGGTTGCCTTCAACTCTGAGCTCTCCTTCCCCAGCTGTTTATGAAAGTTTGAGCCTATTATATTTGTATTTACCTTTTATGATGGGATTTTG
GATTCAGCTTTTAAAAGGCTTATCCATCCCTCAAAATGTGCTCCTCAAAATCCAAACCTCTGGACYGTGTAGTTTGTATGTGCATACATTTGTGCTAATT
TTATCACAGAGCAGAACAGATATTTGACAGATTTATTGTGGAGCCTGCAGTTCTCTTGGGAGGGTTAAATGTGGGGCATCCAACATACTATAAATCTCCA
TTGCTGTTAATTAATAATCACTAGTAACGTAGTCTTCTTCTCACCCTCATGKTAGTAAACACTGACTGTGCCCTGTGATCTCTTAGACTTTAATGGCCAA
TTCAACCCCCCCAATGCTCACCACTAGTGTGGCGTCTGATTCAGACCTGAGAATAGGTGGGAAGGTGTGTGGAATGCATGGGAGTGGGGCTGAACTGTTG
CCTCCAGTCCCCTCCCACCACTTTCTCCACATCTAAATTGACWGTGTTAAATTCTGAAATGTCAGCCTTTCTAGGAATTTGTAAGCATCCAAACACTTAG
AAGAAACCGTTCACTCAAGCACTGTTGGAAATGGTTTCGCTCTACACTTTCATACGCTTTGCTCTCGTGACTACTTAAAAGAAGATTCCACCTTTGTGGC
TTGTATAGGGCCATTATAGTTTGAGTAAAAAGCTGAGGTTAGAACAGAAGCTCTTTCTGTGGTGCTGATGAGAGCAAGAGGTAGCATGAGAAAGCAGGTG
TGTGCAGGCAAAGCCAATGACGACTCTCAAATTGGGTTTGAAATCTGTGTTAAGTCATGATTTATGTCAGCTGAGAATTTGGGCCTGTCCAGAAGAGAAA
AGGGTGGGCTTCACTTAAAGATATATGGAATTAGTAAATCAGATCGGAAACTAACATTGAAAAAAGACGGATGCTTACCTTGACCTGGATTATTGAGATA
ATTGCCACAATACTTGGTTTCCCCATTCTGTGGTGACCAGGCAAGGAGTCTCACTGTCAGACCAGAACAATGTTTCTACTATTACCTCCTATGCCCCACG
GCCTCGGTTGGGTTCACATCAAAACRTAAAGGTTAATTCTGTTAAGAAACCACCCAGGTGAGACTTTCAGATGCAAATTCATGCCCAGACGCACCGAAGG
TCCTCACACTTTATGGATTACTGATTCTGTGATGCATTACAACCCTTTAAAAAATCAGGTTTCTCTAAAGTGTTATAAATACATTTATTGGAAAAAAAAA
TTGTCTCACATCATTGAGTTGCTGAGGCTGGTTACAATCCTGGCTGATATGCCCACCACAGCCTGAAGACCACCCAGCCCTACTTCTGACTGTGGCCACT
CGAGGGCCCCAGCTCTACTGACATACATCATGTCCTCTGCCAGAAGAACTCCGTCATAAACTGTGGCTTGCCTCTGCCATGAGTTAAGTCAGGACTGGAG
AAAAATAAGGTTAAACTTGATTGCAAGCTTCAGGGAGGAATGACTGACATGACCCGCCCACTCCCCCCACGCCACGCCCACAGAATATGCTCAGTAGCTA
ATTACTGAGTGTTGAGTGAATGAATGTTTTCAAGCTCCGCCCTTGGAGTCAGAGACCAAAACACATTCTCCTTATCACCCTGCACCCTGTCACTTTCAAT
AAGTATACAATCGGCACATGCTAAGTGCCCTAAGTGCCTGGCACCATCCCATTGTCTGGCCAGCAGGTCAACTGGACTCTCSCTTGTGCCCCCCGCTCAT
CTGCTGGGTTGTAACACGCAAGCATCTAGATGCCACAGGGCATCCCACCTAGATTCCCCAGGCTTCCTGGGGCTCAAAAACATAGATTGTTTAAATGATT
TTGACAGTCTTCTGATAAGTGATTTCACAACAGAATTAGTTCCCCTGAAATGATCTAATCCATTTAAAAAGTAGTCCTCCTTGTTGTATTTTCTCTAAAG
AGCTAAAAATTGGAACTGTGACTGGGTATGGYGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCACCTGAGGTCAAGAGTTGG
AGACCAGCCTGGCTAACATGGCGAAACCCCATCTCTGCTAAAAATACAAAAATTAGCTGGGCCTGGTGGTGCATGCCTGTAGTCCCAGCTACTAGGGAGG
CTGACGGGAGAATCTCTTGAAGCCAGGAGGCGGAGGTTGCAGTGACCCGAGATCACGCCACTGCACTCCAGCCTGGGAGACAGAGTGAGACCCTGTCTTG
GACAAAATAAATAAATAAAAATGAAATGAAATAAAAGTTGGAATTGTTTTGTTTTTCCACAGGAAAACCTCTTTTTTGTGATGGAGTACCTCAACGGAGG
GGACTTAATGTACCACATCCAAAGCTGCCACAAGTTCGACCTTTCCAGAGCGACGTAAGAGGCTTTAAAGGGTTTGGGAGTTTTCCACTGTTCTTGTCAG
TTCTTGCTGGTTTTTTTTTCCTTTTTTCCCACTTGGCATGCCTGAATCCCAGGGCCAGGTGAACCCTTGGGAATACATCGAGCAAGGCGACAGTTTTCCC
AGGTTGTGAAACTGAAATTCGTGTCAGTTTGGTTTCATTTCTCTGTGATTTAAAACTAACTACTTAGTTTCTTAAGGAACCATCCCGATTCATCAGGCTT
CTAACTAACCTGAGCACAGAAGCAAATATGTAMCCTTTGGAAAGGAAGCAGTGAAATGGACTGCAGACCTCAAGGGTGGTCCCCAGGGATGGAGCTTRTA
GCTGAGGCATCTTATGGAAAGCCTGATGTGGAGGCATAAAGCTTTAGGGAGCAGGAAGAGGCACTTAGTCCATCTGAGAACAAAGCTTCTCCTTCCTAGT
GCCGGCAGCCTGAGACACCTGGAGACGGGGCAGSCTGTGTGTACCTGGTGGGACTGCACCTGCATCCACAGTTCTCACCACCACTCCTGCCCATGCTGTT
CCCTTTGGGTCCCACTTCCTGCTCCCCATGACATGCAAGTAAAAGAAAGCTCTGCCACTGGGCTCCTTGGAAAATGATGAGTACATGCTAGCTTCCTTTG
CTCAGCGCTCAATAATCCCTCCCTCCCATCTGCATGAACACTTTGAGTGGTTTAGGTTGAAGTGGGTTGAGAAATGGATTTGGTCCGCCAGCTTCTTAAA
ATCCCTGGCTGGAATGGCTGTTTATCACATCTAGTGGGTAGCACTCTGCTGAGATCATTGCTCTGGGAAACCTCAGCAATGCACCCAGAGGTAATTTTAC
TGGATTTCTGCAGCAGAGAAATCATCGGGCATTTTTCATGCCGGAAAGAATTCACTTAGTCCACTGTCGTCTCCAGCCAGCCCGGACCCACGCTATCCAT
CCTGTCCTAAATGCCTTCCAGGAAGGAGAATTTTGCATTCTTCCACAAGATCCAGCAAGCTTCCCTTCCAGGAAGCTATCTCTTATATCCGACCTTAATC
CCACCAGTGATGGGGTAAACTCATTTCCTTTAACCTTGTCACCATTGAAGATGAAGTGTAACTTATCTTGCATCTGCTAATATCCTCTTTTCCACCTCAT
GGGCTGTAAGTGTTGCCCAGGCTAAAGGTTCTCAGTACGAAAATAAACCAGCTAGTTCTATTCAGAATGGTGCATACAGGTCTATGGGTGCCAACCAGAG
TTTAAAACAAAGGGAGAAATTATTTGCCTATTATCTATACTATTACTTTTTTTTTTTTTTTTGAGTCAGAGTCTTGCTCTGTCGTCCATGCTGGAGTGCA
GTGGTGTGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTATCAAGCCTCAGCTTCCTGAGTAGATGGGGCTACAGGCGCCCAACACCA
TGCCCTGCTAATTTTTGTATTTTTACTAGAGATGGTGTTTCACCATGTTGCCCATGCTGGTCTTGAACTCCTGACTTCAAGTGATCCACCTGCTTGGGCC
TCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGTACCTGGCCTATACTATRACTTTTAATGTCTGTGTATGTTTTATTAGCAATAGCAAAAACAACAA
AAAAAATGACAATGTGAGCATTATTGTTTAAAATATAAGAACAAGTACTAGATACAGGCAGGACTCACTTAAGATGCCAGCTCTGTTTTATGCTGTTAGG
ACTGAGGCTGGAGGTGTCTGAGCCTCTACTTTCTTATGTGTAGAATGAATGGACAACATCTTCCTTGTTAGGATTAAACAGAGTTATGTGTGTATGCCAT
TTAGCCATACACAGCATGTCAGAAAAAGGTCAGTCTGGGTTTGGGATTTTATTTCGTTCCATGACAACATTCATGTTGAACCTTGGTTCTCCTTCCCCCA
GGTTTTATGCTGCTGAAATCATTCTTGGTCTGCAGTTCCTTCATTCCAAAGGAATAGTCTACAGGTAAATTTTGCKTTGTGGAAACAAATGCTAAGATAT
CGGCTTTCCTGGCTCAGTTAATTTAATCATTGCACCGAGTGCTGTGAGACAGCCCATGTGATTTCCTGGGAGTAAGCTCCACACATAGGTCTSCTGCCCA
CARTGATTACATGGATGATGACTTACAACCAAGGAAGACATTCCAGTCTCAACAGCAGGAAAGTGCTGAGCTCATTCTGTCCTTTATGCTGGTTCTCACT
TGAATTCCTTCTTTCACCTTCCTTTTCCCATTTTCACTGTCCTGTTTTCTCTTTCTTATCATACCTTACGGTTTCTTTCTCTTTTGTCCCCTTCATACCT
CTTATTTTTGCTTGTCTTTGCTTTGAGCCACCTAGAAATGCTTATGGAATTTTCTTCTTCTCTGCTGTATGACATCATTTCACGTTCTTCTGTCCAAGCT
CTTAGATTGACACTATTGTATCTCAATCTCCTCACTTCTTTTCTCAAAATGTAGTTGGCACTTATTTAACATACAAACCTTTACAAGCTTACTGTCAGAT
TTCCAACTCACTGCAGATTAGGAGGAAAAATAGAAAGGAAAAAAAAGAAAGGATCTAGTGAGGAGGATGGCTGAGCTGCTGGAGAGCAGATAATTAGTAT
TGAAGCTTTGGTGCTTACAGAGTGTAGAATTCACTTAACAAGGAAGGATCTCTCCATTTTCTGAGGGTGCAGTCAAGTGAGGGTTGCCCTATTTGGAGTC
ACACAACTAAAGGCTTAGAGGAGGTTTGAGAAGTAAGTATTCTTAAGCAGCCTCTTTGAATGTAATTTTTTTTGGTCTWTCTACAAAATCATAGATTAAG
AATCTGTTTTATAATTTTTTAATCTTCAGGAAATTGAGAAATACTCACCAGAATATTATTTWAAAACTCTTAGCAGAATTTTTTTAAATTTTTCTTTATA
TGTGTAAGGCCTGCAATGTATCTAAAATATTTTTGTACCTAGGCACTGACTAAATTGTGTGGGGTGGATGGATAGATGGATGGATGGATGATGGATGAGT
GAACAGATGGTTGGATGAATGGATGAACAGATATTTGGATGGATGGATGGGTGTGGATGGTTGAATGGATGGACAAATGATGGATGAATGATGAATGGAT
GAACAGATGGTTGAATGGATGGATGAATGGATGGATGTGGATGGATGGATGGATGGATGGATGGATAAATGATGGATAAATGATGGATGAATGATGAGTA
GATGAACAGATGGTTGGATGGATGGATGAATGGATGTACCTGGATGGATGGATGGATAAATGATGGATGGATGAGGAATGGATGAACAGATGGGTGGATG
GATGATGTATGGATGATGGATGGATGGACAACGGATGGATGAACAGATGGTTGGACGGATGGATGGATGGGTATGGATGGATGGGTGATGGGTAAATTGA
ACAGATGGTTGGATGGATGGATGGGATGGATGGATGGATGGTGATGGATTGGAGATATGGATGGATGGATGGGATGATGGATGGATGGTGATGGATGGGT
GGGGAGATAAATAAATGAAAGGGGCTGGGCACAGTGGCTCACACCTGTAAATCCCAGCACTTTGGGAGGCCAAGGCAGATGGATCACCTGGGGTTAGGAG
TTGGAAACCAGCCTGGCCGACATGACAAATCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTAGTGGCCCTTGCCTGTAATCCCAGCTACTTTAG
AAGCTGAGGCACAAGAATCACTTGAACCTGTTAGGCGGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGCCTGGGCAACAGAGCAACAGTCCA
TCTCAAAAAATTTAAAAAGTTAAAAAAAAAAARGGGGAAGTAGGAATAAAAATTAGGAGGGACTGGAGAGAGAGAGAGACAGAGATCTTAGACTGGAAGG
GACCCCGTGAAACCTAAACCCACATGCCTCGGGGCATTTTATTTCCCTGTGTCACAAAGCTTCTTTCTATCATGTCACCATGTAAATTATTAACACTCAG
AACAAAAAAAAAAAAGCAATAGATGTCCATAAGTAGCTTTACTATCACAACAAATTGTACCCATTTTCGAGTCTTACCCTGCCCATGCATGGAAGTTATG
TTCTTTAAGCCTTCTTAGGCACCAACAAGAAAAAAAAATGAGTTTATTTTTTGTGCTCATTAGGTTGCAGGAGACCCTWGAAAGTCATCATCAAATAGTT
ATAACTGAGGATAGGTCACCAGACAAGTATGCTGGCTTTAAAACTGGCCTGCTGCATAATAAGAAATAAGTTGCCTTATAATAAGTTGAATAGTAAGAAA
TTATTCAACTGTCTGTGTGTAATTTGACTCACCTAAACTTTTAATTTGGCAACTGAATTAACAAAAGGATTCAATTCATTTCTTTCTTTTGACCTCATAG
GATAATAATTTTCTGAATTTGTTCACAAAACTGATACATTAGTTTTGAAGGGCTGCCATAAGAAATTACCCCAAATTTGGTGGCTTATTCTGGAAGCTAG
ACATTTGGAAGCAAGATGTGGGCAGGGCCATGCCCCCACCAAGCCCTCGATTTACCAGCCTCTGGTGGCTGCAGGCATTCCTTGGCTTGTGGCTGCATCA
CCCAGTCTCTGCCTCTGTCTTCCCATGGCCTTCTCTTGCCCCCATCTGTCTTTTCTAAGAACACTTGATGGATTTAGGGCCCACCTCGATAATCAAGGAT
AATCTCACCTTGATATCTTTAACTTAATTACATCTTTAACTTAATTACATTTGGAAAAAAAGACCCTTTTTCCAAATAAGGTCACATCTACAAGGTTCTG
GGGGTTCTGACATGAACATACCTGGACATAWCTTCTGGGGGCCACCATTCCACCCATACAGCTGATATCACAGACCATGTGTGCTCTGGATGTGCAGGTC
TTTGTCAAGCATGGCAGTGGGTACTAAACATAGAGAAGTCCCAACCCCCAGAAACCTGATGAGCCACTTTCTGGGGTTTCTTCAGAGGTAGAATGGATTG
ATGATGAATGGATGAACAGATGAAAAGACACAAGCTGTACATTCAAAAAATGTCCAAGTGAATGTTATTCCAATTAAAAGTGCAAGARCTGAAAGGAAAA
AATATATCACCAGACTTAAGTAGGGGAGATGGCAAACAAAAATTCTTCTGTGAAGGTAGACTTTTTAGAGTGGAAGAGGCTTTGCAGATGGAAGAAGTGA
CTCCAGGAAAGGCACAGCAATAGGAAAATGGAGGAATATTCAACAGGTGCATCCAGCTTCAGGGGCAAGGCTGCTGTTGGTCGATGAAAAGCATGAGATG
TGGAGAAGCAGGTGTGGTGGCGTCACTCACCATCTGCCAGAGGAACCACAAAATCGACGGCATCTTCAAAGATGATGTAAGCCCTGGTTTGGGTCAAATG
TAAAACCACAGAGCCGGRAAGTATGCAGATGTGGAAAGAAGAATCTAGAACTTCCAATCTTAGAGTATTAGAACTAAGAAGAACCTTAAGWTTATATTTT
ATTGACAATAAAACTGGGCCCAACCCATGTGTTTGAAGCCACTTTCAATGCTTTCACRTGATTCTCATTGGACGTTACAGGACCCCATGAGACAAGCAAG
GCAAGTGTCATGGTCCCTGTTCCTTGGATGAGTCTTGGAGGCTGCCAGAGGGGAAATGGTGAGGCGGAGCCAGCCGGCCGTAATGCTGGGATTGGGAAGC
CAACTGTGATGCCCACTCCACCTCTTCCAAATAGAAAAGCTTTGCCTCCGTTAACCTCATGATGGAATGAAAGGGTGCCCCTGGATGTTCTCTTCTGCTT
GATGCCATGATGGCCTGCTTCTCCTCTGACAGATGAAAGCTTGCAGAGACATGCACAGGCTGTGGACTCTGAAGTTCTCCCCTGGGTCCTGATGCCCCAT
AGGGTGTAAGCATGACATGCCTCAGAATACCCTGGGCCTCTGGGTTCTCTGCCCTCTCCAGCTGGCTCCAGGGGTCCTCACTGGTCTTCCTTGGCACTCC
TTCCTCACCCCCATGGGGGGCTGGCTTCACATGGCAGCCTTTCAGAACCTTTCCCATATTGACCTAGATCCCTCAGAGCTGGCCAGKCGCAGTGGCTCAC
GCCTATAATCCCAGCATTTTGAGTCTGAGGCAGAAGGATTGCTTAATGTCAGGAGTTCATGACCAGCCTTGGCAACRTAGTGAGACCTTGYCTCTAMAAA
AAATTTTAAAAATTAGCCAGGCATGGCGATGGCACACATGTGGTCAAGAGTCTGAGGTGGGAGGACTGCTTGCTCAAGAGGTTGAGGCTGCAGTGAACTG
ACATCATGCCACTGCACTCCAGCCTGGATGACAGGGAAAGACCTCGTCTCAGGGGAAAAAAAAAAACCTGATATCAAGGGAAGCACCTGAATTATCTTTA
AAAAATCAATTTCACAAGTACAGAATGAGAAGAAACTGGGATAATGGCACTTCATAAAGGAAAGCAGAAAAACACCTGAAGGTTTTAGTTTACAATAAAC
TCAATATTGGGCATTACTGTGATGAAACTATGAAAAATATGGTGCAGGATCTTAGTCCACCRTGGCAAAAGGCAAGAGGATGGTAATGGAGCTCTGGGTG
CCGCTGTAACCTGCACCAATCAGATTGTCTCTCTGGAGGATTCTGGCTTCATTCTGAGCCAAGTCAGTCRAGAAGAAAACGGACAAATTCAAGATATTTG
GAAGGTAGAGGCCAGAATGTTTGCCCTTCATCCAGTTTCCCCCAGTGGCCACATCTCATGCAGCTGTGGTACAAGGTCAAAAGGGTCTGAAAACCACATC
ATGAGGAGCGAAGTCCCTGATCTTGGTGAGAGAAGAGAAAACTTGATGTCATTTTTTTCAAATATTTGGGGTGTCACATATGGTAACAATAGAAAGCCCC
CTTGGACCAATAGGTGACATCACATGGAAGCAAAGTTCGGTTAATTGTTTTTTAAAAAATATTATCAGTTACATTTCCCTAAGAATGGAATGGGTTCTTT
TAAGAGGATACTAGTTCTCCAAGGAAACAGAAGTTTGTTGGCATGACATTCTGGCGTTGGATGGATTCCGGTTCTCAAGGGGTTCAGTATTAGTTAGGAA
CAAACTTCATCAACTGGACTTGGAATTAGGTGCAGTATAATTCATTCACAAATATGTAGAAAATGGCATACAGTAAGTATATTTTTTAGGTTTTCCTCCT
TCGTCATTACCCTCAGGAAAGTCCTGGGATCAAGGGTCTCCAATGGGTATGGGTGCTCTGTCCTCCTTATACTGAGCTGCACCCCTTGGTAAATCAGAGA
AAGAATCCATAGCAGCCAGCGTGCCCTTGCAGAATCTGCTTTGTCTACACCCCACTTGGTGTGCAAGTGGATAGATACATAAGCGCCTCTCGTGAGCCCC
TCTCAGGCTGCAATGAGACAAACTCCCTCGCCTCCTATGGAATTTTATGTTAACCAAATTATATTGATTAATGTGASATTTGCTTCACTTTTGTTTTTCA
GGGACCTGAAGCTAGATAACATCCTGTTAGACAAAGATGGACATATCAAGATYGCGGATTTTGGAATGTGCAAGGAGAACATGTTAGGAGATGCCAAGAC
GAATACCTTCTGTGGGACACCTGACTACATCGCCCCAGAGGTAGGAATGCAGTGACAGGCTGCTCCCACCTCACCATGCCCTGGCCACATGCCATTGCTT
CTTTAGCCCCTGAAAAKCAGAAGGTTTTAAATATCTTCATTCAAGATTTGTACCTGTTTTCTTAAGTATCTCATAAACGCCACCATGCATGTGGGTTTCT
ATTATTATTTTGTGGGGAGCGCTACTTTTACAAATCACATCTCTCCAAGGCTTGCAGAGTTTGGCATTTCCTTTCCCCCAGCCTTAAAACATATTCACTC
TGCTCAGACCTACCAGAAGGAACAGCTAGTGAAGAGCCAGGTGGAGCAAGYGTCCACCCAAGTCAAGTGGTGAAACTGTGGGGTCAGAAGACCTGGACTG
AGTTTCTAAGCCACCACTGATGTAAGCACAGAGTGATTGCCAAAGTCTCACTGACTTCCATTTCCTCTTCTGTAAAATGGGTATAATGCTGATGTCATTG
TGTTATTGTGAGCATTAGATGAGAAAGAGTGTGAAAGTTAAAACTCACCCCTGCCCCCATTAAAAAATAAGAAGAAGACACTGCTGTCACATTCTGGACA
CACAAAGAAGTGACATTTGCACAGAAGGCATCCATCAATTCAACTAAACCCACCTCCCCCCTTTTCACAGAATCCTCCCCAGCTGCCCACCCAGGGAGAT
TAGTGACACCCCTCCCACTTGGTCTTTCCCATGGCACAGCACTTGTTCTGGTTGCTTTTTCATCTTCAAATCTCCCTGCATGACTGGATATTTGCTCTGC
AGTCATGGACAGATTCATATTCACTTTTTAAAAATTTTCATTTCGAAATAATTGTAGATTCACAGGAATTTGCAAAACATAGTCCAGAAATATCTCCCAA
CTGTGCCCTTCATCCAGTTTCCCCCAGTGGTCACATCTCATGTAGCTGCAGTACAATGTCAAAGCCAGGAAACTGATGTCCATCCAAAGTGTACATGGTG
CTATGCCATCTTCTCTCATGGGTAGATTTGTGTGATCTTGTTCACTTTTACATCTAAGGACCTAGTGCAGGTGTTGGCATATTAAGGTGCTAATAGATAC
CTTCTAGAAGAGTAAATGGATGAACTAACTAATAAACGTGTGATTGGAGATGGTTGTTTGATAAAGACTCTGGCAGACCTCTGATTTCCTGGGTAAAATT
ATTCAGCAGCAAGTTCCTGTCATTGCCAAAGGAGTTGTGGCCATCTGAGTCCTRGAACTATGTAGCTTTGCCCTGTGGTTGGGTGATATGTAATTTGAAT
TTAGCCTTGGCTTCTATTCCATGAGGAATGATGTCTTTTAGCTTACATGGCATTGTTGAACTCACAGARCGAGGCTTATTGATTAAATAACTTTCTGATC
GTAGAAATCTATGTTTCATTCAGTTTGGCACAGATACAGGTTTTGATGCTATAAACCATTTTCATTTGAAGTGAAACCAAAGCTCATCAAAGCAYGAGTG
ATGGGGACTTAAGAGGACGGACTCAACTCAATTACTGAATTCCCCTTTGTAACAATTCTGAAATATGCCCAAATGCACTCTGCTCAGACCACCCTCACTG
CCATCCCCAGCAGCAGTCTCCTTTGTCACTCCCTCAGCCTCACCTGAGCCATCTCAATTTCTTTCCTCTTCACCTTGCAACACCTTGGTGTGGCTGCCTT
ACTCTGATGTATTCCTGTCTACAGATTTTGGGTGCCGGGTCTTTTCCMCGGCAWACCTTCCTTCCCGATTTCCATCTGCTTCTTGCAGAATCCGGCTTCC
ACAGCTTGCTTCTCTCTGCAGCTTCACTCCCTTCTTTTCTTTTACGTGTGCTTGTCTCCACGTGATTCAGTGCTTGGTCCTCTTCTCTTCTTACTCTACA
TCCTCCACGAGCAACTTCATTGATGACTGTGGTCTTCGCTGTAGAGTCAATATGGCCCACCTGCACTTCTTCCTGCTGCAGACACTACGTCCACTTTCCT
GCTTGAGACCTCCAAGTAAATGCATGAGTCCTTCAAAGACAGCAGGTCCAAAACTCTCTCTGTTGAACTTGCTCCCTACTTCACTCTTTCCTTTTCTTTC
TTGGTGAATTACATGTCATCCATCCAGTCTTCTAGAGAGAAAACTAGGAATTATACAAATTTCCCCTTTCTTTCTTACCCTTCAAATCCACCCAAACACC
AACACCTTCTATAATTGGACCCTCTCATGTCCATTCACTSCCCTAAACTTGTGACTGAATTCAGACTCTCCCTTGATTCCTTCTCCAAGCTCAAACAAAT
CCCCTTGATCCAGCTCCGCCCAGATCTCCAGGTCCTCTCGCCCTTACTGCTGTTACCCTAGTGCAGAACATGAGCATCTCTTGCCTGGCTCTTGGTGACA
CCCTTCCATCTGCTTTCCTCCCTTATCATCCATCACCAGGGCATGCTCTTTACATATCTTCATGCCTTTTGATCTGTTAGAAAAGCATCCCCAAGATCTG
TCTATTTATATATGAATCATATACATTGTCACCAGCTAAGATAGACTGTGTGTTATCAATGCCTAAAAAGGAATATGATCAGGTTATACTAACAATAATA
TATAGTTTAAAATAACTAAATTGCATTAATTTATTTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCATAATGTGCAGGTTAGTTACATATCTAT
ACATGTGCCATGCTGGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGGTATATCTCCTAATGCTATCCCTCCCCGCTCCCCCCACCCCACAACAGT
CCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCATCTATGAGTGAGAACATGCRGTGTTTGGTTTTTTGTCCTTGCG
ATAGTTTACTGAGAATGATGATTTCCAGTTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTTATGGCTGCATAGTATTCCATGGTGTATA
TGTGCCACATTTTCTTAATCCARTCTATCATTTTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCACAACAAACAGATGTGTGCA
TGTGTCTTTATAGCAGCATGATTTMTARTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAAT
CGCCACACTGACTTCCACAATGGTTGAACTAGTTGGCAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCATCTGTTGTTTC
CTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGAAWTGCATTTCTCTGATGGCCAGTSATGATGAGCATTTTTT
CATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTCGCCCACTTTTTGATGGGGTTGTTTTTTTCTTGTAAATTTGTT
TGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAATTTTCTCTCATTTTGTAGGTTGCCTGTTCACTCTGATGGTAGT
TTCTTTTGCTGTGCAGAAGCTCTTTAGTTGAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTATTTTAGACATGAAGTCCTTG
CCCATGCCTATGTCCTGAATGGTAATGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACATTTAAGTCTTTAATCCATCTTGAATTAATTT
TTGTATAAGGTGTAAGGAAGGGATCCAGTTTCAGCTTTCTACATATGGCTAGCCAGTTTTCCCAGCACCATTTATTAAATAGGGAATCCTTTCCCCATTG
CTTGTTTTTCTCAGGTTTGTCAAAGATCAGATAGTTGTAGATAAGTGGCATTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGG
TACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGARGTCAGGTAGCGTGATGCTTCCAGCTTTGTTCTTTTGGCTTAGGATTGACT
TGGTGATGCGGGTTCTTTTTTGGTTCCATATGAACTTTRAAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATCGATAGCTTGATGGGGATGGCATTGAA
TCTATAAATTACCTTGGGCAGTATGGCCATTTTCACGATATTGATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTGGTTTGTATCCTCTTTTATA
TCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCAYGTCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATCGTGAATG
GGAGTTCACTCAAGATTTGGCTCTCTGTCTGTTATTGGTGTCTAAGAATGCTTGTGATTTTTGTACATTGATTTTGTATGCTGAGACTTTGCTGAAGTTG
CTTATCAGCTTAAGGAGATTTTGGGCTGAGACAATGGGGTTTTCTAGATATACAATCATGTCATCTGCAAACAGGACAATTTGACTTCCTCTTTTCCTAA
TTGAATACCCTTTATTTCCTTCTCCTGCCTAATTGCCCTGGCCAGAACTTCCAACACTATGTTGAATAGGAGTGGTGAGAGAGGGCATCCCTGTCTTGTG
CCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCCGTATGATATTGGCTGTGGGTTTGTCATAGMTAGCTCTTATGATTTTGAGATACATCCCAT
CAATACTTAATTTATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGTAATCATGTGGTTTTTGTCTTTG
GCTCTGTTTATATGCTGGATTACRTTTATTGATTTGCATATATTGAACCAGCCTTGCATCCCAGGGATGAAGCCCATTTGATCATGGTGGATAAGCTTTT
TRATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTGGTTGTGTC
TCTGCCTGGCTTTGGTATCAGGATGATGCTGGCCTCATCAAATGAGTTAAGGAGGATTCCCTTTTTTTCTATTTAGTGGAATAGTTTCAGAAGGAATGGT
ACCAGTTCCTCCTTGTACCTCTGGTAGAATTCGGCTGTGGATCCATCTGGTCCTAGACTCTTTTTGGTTGGTAAGCTATTGATTATTGCCACAATTTCAG
ATCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGAGTGTATATGTCRAGGAATTTATCCGTTTCTTCTAGATTTTCTAG
TTTATTTGTGTAGAGGTGTTTGTAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCRGTGGTGATATCCCCTTTATCATTTTTTATTGCGTCTATT
TGATTCTTCTCTCTTTTTTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTGTTGATCCTTTCAAAAAACCAGCTCCTGGATTCATTAATTTTTTGAA
GGGTTTTTTGTGTCTCTATTTCCTTCAGTTCTGCTCTGATTTTAGTTATTTCTTGCCTTCTGCTAGCTTTTGAATGTGTTTGCTCTTGCTTTTCTAGTTC
TTTTAATTGTGATGTTAGGGTGTCAGTTTTGGATTTTTCCTGCTTTCTCTTGTGGGCATTTAGTGCTATAAATTTCCCTCTACACACTGCTTTGAATGTG
TCCCAGAGATTCTGGTATGTTGTGTCTTTGTTCTCATTGATTTCAAAGAACATCTTTATTTCTGCCTTCATTTCGTTATGTACCCAGTAGTCATTCAGGA
GCAGATTGTTCAGTTTCCACACAGTTGAGCAGTTTTGAGTGAGTTTCTTAATCCTGAGTTCTAGTTTGATTGCACTGTGGTCTGAGAGACAGTTTGTTAT
AATTTCTGTTCTTTTACATTTGCTGAGGAGAGCTTTACTTCCAACTATGTGGTCAATTTTGGAATAGGTGTGGTGCTGAAAAAAATGTATATTCTGTTGM
TTTGGGGTGGAGAATTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTGAGTTCAATTCCTGGGTATCCTTGTTAACTTTCTGTCTCATTGATCTG
TCTAATGTTGACAGTGGGGTGTTAAAAGTCTCCCATTATTATTGTGTGGGAGTCTAAGTCTCTTTATAGGTCACTCAGGACTTGCTTTATGAATCTGGGT
GCTCCYGTATTGGATGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTGTCTCTTTTGATCTTTGT
TGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCCTGCCTTTTTTTGTTTTCCATTTGCTTGGTAGATCTTCCTCCATCCTTTTATTTTGAGC
CTATGTGTGTCTCTGCACATGAGATGGGTTTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAG
CATTTAGTCCATTTACRTTTAAAGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGATGCAGTT
TCTTCCTAGTCTYGATGGTCTTTACATTTTGGCATGATTTTGCAGCAGCTGGTACCAGTTGTGCCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTCTTTT
AGGGCAGGCCTGGTGGTGACAAAATCCCTCAGCATTTTCTTGTCTGTAAAGTATTTTATTTCTCCTTCACTTATGAAGCTTAGTTTGGCTGGATATGAAA
TTGTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGTCCCCACTGTCTTCTGGCTTGTAGAGTTTCTGCYGAGAGWTCAGCTGTTAGTCTGAC
GGGCTTCCCTTTGTGGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGA
GTYGCTCTTCTCGAGGAGTATCTTTGTGGCGTTCTCTGTATTTCCTGAATCTGAATGTTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATAT
CCTGCAGAGTGTTTTCCAACTTGGTTCCATTCTCCCTGTCACTTTCAGGTACACCAATCAGACACAGATTTGGTCTTTTCACATAGTCCCATATTTCTTG
GAGGCTTTGTTCGTTTCTTTTTATTCTTTTTTCTCTAAACTTCCCTTCTCACTTCATTTCATTCATTTCATCTTCCATCACTGATACTCTTTCTTCCAGT
TGATCGCATCAGCTCCTGAGGCTTCTGCATTCTTCAYGTAGTTCTCGAGCCTTGGCTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCTSTATTGSTTA
TTCTAGTTATACATTCGTCTAAATTTTTTTCAAAGTTTTCAACTTCTTTGCCTTTGGTTTGAATTTCCTCCTGTAGCTCGGAGTAGTTTGATCATCTGAA
GMCTTCTTCTCTCAACTCGTCAAAGTCATTCTCCATCCAGCTTTGTTCCGTTGCTGGTGAGGAACTGCGTTCCTTTGGAGGAGGAGAGGCACTCTGCTTT
TTAGAGTTTCCAGTTTTTCTGCTCTGTTTTTTCCCCATCTTTGTGGTTTTATCTACTTTTGGTCTTTGATGATGGTGATGTACAGATGGGTTTTTGGTGT
GGATGTCCTTTCTGTTTGTTAGTTTTCCTTCTAACAAACAGGACCCTCAGCTGCAGGTCTGTTGGAGTTTGCTAGAGGTCCACTCCAGACCCTGTTTGCC
TGGGTATCAGCAGCGGTRTCTGCAGAACTATATTTATTAATACTACAAAAATATCTATGCTTCATCAAAATAATGAGATTAAATGACTTTTTAAAAATCT
TGGTTTTGGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGTAGGCTGAGGCGGGTGGATCATGAGGTCAGGAGATCAAGMCCRTAGTGGCT
AACACGGTGAAACCCCGTCTCTACTAAAATATAAAAAATTAGCTGGGTGTGGTGGCACGTACCTGTAATCCCAGCTGCTCAGGAGGCTGAGGCAGGGCAA
TTGCCTGAACCCGGGAGGCGGAGGTTKCAGTGAGCCGAGATCGTGCCACTGCACTCCAGCTTGGTGACAGAGTGAGACTCTGACTCAAAAAAAAAAAAAT
TAAGTGCTACCTTCCCTGGCCAGGCCACACTGTGCCTCTCTGCCATTGCACATCCTTGGTCTGTGACCCTCCCCTCAAACAGTCACCTTCTCCCTAAAGT
TGCCACCGGCTTTAGGAATCACCTGCTGTTCCCTTCCCTGTGCAACCACAGCACCYCTACATCCACCTGACCAATCCATTGAGCTTCTCCCCATCAGGGA
CCATGGCTTATCCACTCACAGGCTGGAGCAGCAGCCCTCAGCTCCTTCCTGAATAAACGACCACACAAAGTCAAACACCCTAAAAGTTCATCTCTAAGTG
TATACTGAATTCCCCACCTCTGGGCGTCTTTTGTTAAATAACCCTCCCCAGCTTCCCCCTACTCCACCTGGAAAAATCCCACCCCTGGTCGGAGGCTGCC
CTCCCACCATCCACTTGGTGAAGTTTTCTTTCACCTCACTCAGTTCCCCATTGCCCCTTTTGCCCTCAAAAACCAAACAAAACTGGAGCTGTGTTCTCCC
TCCTCAGTGCCTTAGAGAAATGTTAGCCTCTCTTGTGTGATTCTAAGTCRATGCTGCCCTGCAGGGTCTTTATGAGTGTTCCGCTGCTGTCTCWCCTACA
AACRTGTCTGTAAGCACCTTCAGGGAGGGGACTCTGTGGCCTGGGGAAGGCCGACTAGGTGAGGCAGAGAATTAAAACACAGGAACACACAACTGCTGGG
ACAGAGGCCATCTGGCAGGCACCCRTCRTTCCTGTGAGGAGAACTCAAATCTCAGAAGCTCATGCATTTCGTAGCAGAGTCAGGAGCTACACATGAAAAA
CACACCTGTGCTCCCTCAACTGGGGATCGTCTCACTAGGCTGCACCTCCTGAGAGCTAAAGTGCGTCTCAAAAGCCCCACTGTTCCCCCTGTGTTCCTAT
AATAGGAGCAAAGAGAGGCTGATGTCTCTTTGGAGGTGCAAACTCATTTTGACAAAGAATAGCAAGGCAGTTAAACAGGGAAATATCGTACTTTTTTTTT
TTTTTTTTGAGGTGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCATGGCTCGCTGCAACCTCCGCCTCCCAGGTTCAGGCAATTCTC
CTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCGTGCCACCATGCCCGGCTAATTTATGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCA
GGATGGTCTCGATCTCTTAACCTCATGATCCGCCCRCCTTGGCCTCCCAAAGTGCTGGGATTACAGGYGTGAGCCACTGCGCCCAGCCGGAAACATCATA
CTTTCTATGGCACACTAGACACTCAGTAAATCCAGATGGGATTGCAATGCATGGAAGCAGCTCCCTGGAGAAAGTCGGATTTCCCTGGAAACCACACTGG
TATTGGCCCCAGGAGGTCACTGACTGCTGGGGCAGCACTCACCCAGTTGCACATCATGGTGGCAGAGCCCCGCCTGTCCAGACCTGACTTCCCAGCTTCT
GAGGCTGAAGGAGAACAGATGAGGCTTGCTCTGGCGTCGTTCGGTGAAACCACTGTTCCTCTCTCGCTGCTTTCCCGGGTTTCCTTRTGCATTTTGAGCT
GTGCATCTGATTCTTTGGGTCAAAGCAAGGACTGAAAAAGAGCAGAACACAAGAAGAGATCACAATGAGGCAAGGTCCCGGGGCTGAGAGAGAAAGGGGC
CACCCTTGCTGGTGTTTCTCCACCACAGTCTCTTTAAAAATTGGGCATGGGCCGGGCATGGTGGCTCATGCCTATAATCCCAGGACTTTGGGAGGCGGAG
GTAGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGATGTGGTGGC
ACACACCTGTAATCCCAGCTCCCCAGGAGGCTAAAGTAGGAGAATCGCTTGAACTTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGCGCCACTGCACTC
CAGCCTGGCCAACATAAGCGAGACTCTGTCTCCAAAAAAAAAAAAAAAAAAAAAAAACTGAGCATAGTGTGACCATGACAGCTTGAGGTTTAAAACCAAG
AGGCACATTATGCTATGGAAGGAACATCACGTGGTAAAATCCTGAAAGACCAGATTCAGAACATTGCTCTCAGCTCACTAACTAGGAGACTTTAAGTAAG
ACCTTTGGCCTTTCTAAGCCCAATCATCACCCCCTATAGGAGAGGGATAACTGTGCCTAGCTCAGGGGGGTTCTTATCAATAAAAGACATAACGTCTGCA
AAACTCCTAACACATATCAGTATTCCTGAGGCGAACACTCTGCTGCACGTGTGAGTTTGCGTTTTACTTCTTCCTCCTAAGGTAAAACTGAAATTTTTTA
CCAACATCGCCAAGCTTTGAAGCCTTAATTTGCACCACAGCTGTCTCCTGTCCTTCCAAATTTTCTTTTTGTTTGTCCTGCCAAAACGAAGTTGTTTACA
AAGATATGTGGTTCAGAGACGTTTCTGGTTGCTTTGACGCCGCCTTGTGGGCAAGTCTCGGAAATTGCATGTGTCCCTGGCCCAGCAAATTGAGCAAAGA
TTKTATTAGGTGCATCTTATATTTCCTTATCATTCTCCCTGGGTCTACCTTCAGATGATTCCTTAAGGCAAAGCCTATTTTTTCTAAATTATAAAGTAAA
CTTTAGCATGTAAATATCGAGGTAAGAGTAGTGGGTAGCATTTTTATATTGGAAATCAGTAACATTGCAAAATTCTGTTTGCAACWTTATTTTCAGAAAC
GGGGACAAGTGCATCATCAAAGCAGATATTTATCATAACATTTATAGTTGTCCCATAAGACAAATCATCTTGACTTTGCTACTTTTCACTGGATCTCACA
AGAAGCTTATAAGAAGCGGGCCAGATATGATTCCCGTTTTTCACAAACRAGAAGGGTGAAAGGGTCCTCCCAAAACTACACAATAAGGGATTAAGCCAGA
AGTAGAGCCTGTGACGTTTTACATGGCCAGAAAAACTCTTGTGCTGCTGTTGATATTGTTCTTCTGTTTGTTTAGCAAGTCTGCCTTAGAGARACTTCAC
AGCACCCCTGGGCCTCACTTAGCACTGATCTGTCTCCCAGGAGTGGGCCCCGGGGTGGTGGAGGGTCAGGGATGGGGTTGCCGTGCACATCAGTCTGCTC
CATCTAAAAAAGCTCACCGACATCAAAACATGTGGCTTTCCTAGAAAATACTGGAATGTCTGGAATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGACA
GAGTCTTGCTCTGTCACCTAGGCTGGAGTGCAGAGGCGCGATCTTGGCTCACTACAGCCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCC
CGAGTAGCTGGGATTACAGGCGTGCGCCACCACACCCAGCTAATTTCTGTGTTTTTAGTAGAGACGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCAAAC
TCCTGACCTCGGGTGATCCACCCGCCTCAGCCTCCCAAAGGGCTGGGAGAATGGCTGGAATTGTGGTGTCATTTTCTTTTCAAGGCCATCAGTGCTGCAA
TTCTGCCATTCATTCCAAAGGCCCATTAGAGAAGGAAGAGAAAAATTCCATGTCATACGAGTAGCGCCAACAAAAAAATACCTTCTGCGTGCGTGTGTGT
GTGTGTGTATTTATGTGTGTCTGTTCACAGATGCACCCAGCTAAGCCCAAACACATTACAAGGTAGWACAGATGTTCATCCCCAAGAGAGTCTGACTGTC
TTGCTTTTAAGTTTAGTGCCTCAATCCTATTATTCCTTCTCCATTTTGTTTTGGCTAATAAAGCAACTTGCCCGCAACTCATCCTTGGAGCAGCAGTCAT
GAATTAACGAAGATTTTTTTTCCCTCTTTTCCATTAAAAAAAATTTTATGTGCCACTAYTATGTCCTAGGGTTTTGTTTTTAATTGTGGGAAAATACACG
TAACATGAAATTTACCATCTGAACTATTTTTGTGTACAGTTCAGTAATGTTAAAAATAGTGCCAGGTGCGGTTAATCCCAGCACTTTGGAGGCCGAGGTG
GGTGGATCACTTGAGGTCAGGAGATCAAGACCAGCCTGATCAACATGTGAAACCCTGTCTCTACCAAAAATACAAAAATTATCTGGGCATGGTGGTATGC
ACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGC
CTGGGTGACAGAGCGAGACTCCATTTCAAAAATAAATAGATAAATAAAATAAAGTGTATTGTATAGTTGTGCAATCAATCTCCAGAAGGTTTTCATCTTG
AAAAACCAAAACTCTGTCCCCATTAAATACCAGCTCCCTATTCCCCCTCCCCACAGCTCCTGGCAGCCACTATTCCACTTCCTKTCTCTAGAATTTAACT
ATTAGGYTGGTGCAGAAGTAGTTACGGTTTTTGTCACTGAAAGTAAGGGCAAAAACTTCTGTTAATACTTAAGGTACCTTATGTAAGTGGAATCATTCAG
TATTTGTCTTTCCCTGCCTGGCTTACTTCACTTAGCATAATGTTATCAAGGTTCACTCACGTAGCATGTGACAGGTTTCCCTTCACCTTGAAGGCTGAAT
AATATTCCTCTGTGTGGAKGTACCACATTTTCTTCAACGCCTTCCCTATCCCTCCTCCCTACCCTCTGCCCAGACCCTGGCGACTGCCACTCTCAGCTTC
TATGAGTTCAACGTGTTTACGTTTCACATATAAATGAGATCTTGCAGCATTTGTTTTTCTGTGCCTGGCTTGCTTCACTCAACATCATGTTTTCCAGGTT
CATCCATGTTGTTGCAAGTAGAGATTTTCTCCTTTTTCAGGGCTGATACTCCCCTGTGTATATATAGCACAGTTTCTGTATCCATTTATCCACTGATGGA
CACTTRGAGTCCATATCTTGGCTATTGTGAATGAAGCTGCAATGAGCAAGCAAGTGCAGCTGTCTCCTCTACATACTGGTTTTATTTCCGTTGGTAATTT
ACCCACCGGCACATTTTCCTTATTTCTTTCATCCATGGATGGGTCCTACCATGTACCATCTCAGAGAAGCTTAGGCACAGTTTGTTGGGATGTCAGACGC
TGAGCAGAATGGCGCGTGCCCTCTACCTTCCAATGTCCAAAAAGGAATTCATTGAAAGATCAACATACAAAGCCTTTTTTGCCAGAAGAGTGGGTTGGTG
AAAGGATAGGAATCTTTCAAAATGTTAGGTAGGCTTCCAGACTTTAAATCCTCCTCCCTAACAGATAGACTCAGACCCCGCTATCGAGCTGTAGGTAGCT
CTTAGAGATCTTTCATTTCTAGATTTGAGTGCTTTGGGGTTTTTTTTGTTTTTGAGWTGGAGTTTCTCTCTTGTTGCCCAAGCTGGAGTGCATTGGCATG
ATCTTGGCTCACTGCAACCACTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCTTCCRGAGTAGCTAGGATTACAAGCACCCACCACCACACCTGGT
TAATTTTTGTAGTTTTAGTAGAGATAGGGTTTCACCACGTTGGCCAGGCTGGTCTCAAACTCCCGACCTCAGGTGATCCACTAGCCTCGGCCTCCCAAAG
TGCTGGAATTACAGGAGTGAGCCACTGCACCCGGCCTAGATTTGAGCACTTTGCTATCCTAGGTTCTCTTTCCTGGCACAGGACACAATTTGATTCTGCA
TGTCAGTGATTAGAGTTGTGCCCCCTGAACTGAACAGCCATAGATAGCAAGGCTTTAAGGAAGGGAACTGTCCAGATGACCTCTTTGGATGCCTGATTAC
TACAGAGTTTATGCAAAGACTCAGGACAGTACAAGTCAGCAAAGCACGTAGGCTTGGTTTCCAGGCTCACACCAGAGCCACTGAAGAACTTAGACACATA
CCAGCTTTCTTAGGTCCAATATCTGCCACCTAAGTTCCCATGTCACTGATGGGAAAATAAAAACTAATGGCATAGTTTCATTGTTTCTTTATAAGCAGAG
GAAAAGTACAAATTGAAACTGAAAAGTGTTTACTCAGACTCAAACTCAAAAATTTCAGCATTGTTTAGACACTGCTCTCCAGTCATTGGCTTCCCAAGAG
ATGGGTTTCAGGGTGATCTTTCTTGCACACCATCATCCTCGACCATTTACTGAGTGGCCTTGAGACGCTCAGGAAGAGTTGTCACTCCTCAGCCTCATTC
CTGTTAATTTCCTGTCTGCCTTTTGGTTGTGCAGATCTTGCTGGGTCAGAAATACAACCACTCTGTGGACTGGTGGTCCTTYGGGGTTCTCCTTTATGAA
ATGCTGATTGGTCAGTCGCCTTTCCACGGGCAGGATGAGGAGGAGCTCTTCCACTCCATCCGCATGGACAATCCCTTTTACCCACGGTGGCTGGAGAAGG
AAGCAAAGGACCTTCTGGTGAAGGTAAGAAGCGAAGCCAAGAGCGTCTTCATAAGACGAGCATTAGGTCTTCTGGTCAGTTTTCTGTTCCTCTTAGTTTC
CAACTTGCATGTGGCAAACAATGATTATTATTGAACTGGGTTTAAATGGGATGTGCACCGTCTGTGTTTTAATAGAGGCACCAATATTATGAGCATTAAA
TGTCAAAATGAGTGTAAGAGAAACCCTCATGTGCATCAGTTATAACATAACGGCCCAGGAACCAGTTCCATGACCTTGAATACGCTCACCTGGAGATGTA
GTTGGTTCATTAAACAAGCACAGTGTGTGGCTTAAAAATCAATCTTCTAGCTACTTGGGAGGTTGAGGCAGGAGGATTGAAGTTGGAAGTGTGAGGTCAG
CCTGGGCAATGTATCGAGACCCCTGTCTCCAAAACAATAAAGGGAAAAAAAAAAGAAACAAAATGGGCATTTAGGCTGGGYGCAGTAGCTCACACCTGTA
ATCCCAGCACTTTGGGAGGCCAAGGTGAGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGAGAAACACGGTCTCTACTGAAAATA
CAAAATTAGCCAGGCATAGTGGCACACGCCTGTGATCCCAGCTACTCAGAAGGCTGAGGCAGGAGAAAATGGGCATTTATGTTATATAGAGGGTTTTTTT
TTATTTTACTCAGTCTTTTGTTTCCCATAGTTTTTTATTAGAAATATTCAGTCCAGTTCATCTTCCCCTGCCTCTGGTTGAAATCTTGGACAGGATGTAT
GACTTTTTGGCCTGCTCTTAGATAAAAGACAACCTATTGTCACTCTTATGTTATGAAACACTGTCTCAGTGGGGAAATTAAAACCATCCAGTCTGGGATA
TTATTCATCACATAACTTTTTTCTTTTTTGAGACAGTCTCACTCCCTCACCCAGGCTGCAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCCACCTC
CCAGGTTAAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATCACAGGTGCAYGACCACACTCASCTAAATTTTTGTATTTTTAGTAGAGGTGGA
GTTTCACCATGTTGGCCAAGCTGGTCTTGAACTCCTGACCTCAAGGGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGACTACAGATGTGAGCCACCAT
GCCCAGCCTCATCACATAAATTTTAATTTTAAAGCTGGGACTCCTGCTTCCTTTCCTCTGCTCAGAGCTCGTGATTGGCAGCTGCTCACTACTGGAGGAG
ACAGTGTTGTCATGCTCTTGCTGGCTGTGTTCTTGTTCTCTTCCATTCTAACTCCTGAGTTTCTGCTTCAGACCTTACCAGGTAGAAGCTGAGAGAGGAA
AGAGGATGAGCAGAAAAAAACAGTTCTTATTCGGCTGGCAGCCTCCTACCCCTGAACTGGAGGATGGCTAAAGCTGAGACTTCAATGAGGCACTCTACTA
GGTTCTGCAGAAATACTTATCCTTGCAGATGTGTTTGGCTGAAACCCTTGAGATACAGGCATTCAGTCCAGTCCCTGGCCTATATACTGTACCAACGSTG
ATTCTGCAAGACTCTCTCACTGTTGGTTTCCTGCCCAGCAGATTGTCYTGGGCAGTGTACTAGTCTGTTCTCATGCTGCTGTAAGGACATACCTAATACT
GGGTAATTTATAAAGGAAAGAGGTTTAACTGACTCACAGTTCTGCATGGCTGGGGAGGCCTCAGGAAACTTGCAATCATGGCAGAAGGCACCTCTTCACA
GGGCAGCAGGAGAGAGAATGAGAGCCAAGCGGGAAGGGGGAAGCCCCTTATGAAACTATACTCTCACTATCATAAGAACAGCATGGGGGGAAACCGCCCC
CATGATTCAATCACCTCCCATCRAGTCCCTCCCGTGACACATGGGGATTATAGGATTATAATTCAAGATGAGATTCTGGGTGGGGACACAAAGCCAAACC
ATATCAGCCAGTACAGTTGACCTTTGAACAGCTCAGCAGTTAGAGGAGCCAACCTCCTATGCAATGACAAATCTGCATATAGCTTTTGAGTCCCCCAAAA
CGACCACCAATAACCTACTGTTGACCAGAAGCCTTACCAATAACACAAAGTCAATTAACACATGTGTTATATGTTATATGTATGATATACTGTATTCTTA
CAATCTAAGAAGCTACAGAAGAAAATTCTATTAAGAAAATTATAGGAAAATGTGTTTACTGTTCATTAAGTGGAAGTAGATCATCATAAAGATCTTCATC
CTTGTCTTCATGTTGAGAGGGCTGAGGAAGAGGGGGAGTTGGTCTTGCTGTCTTAGGAGTGGCAGAGGCAAAAGAGGTGGAGGAGGTGGAAGGGAGGCAG
GAGAGGCAGGCACACTTGGTGTAAATTTGATTGAAAAAATCTACATATTAGTGGACTGGTGCAGTTCAAATCYAGGTTCATCAAGGGTCAATTGCACTTA
AAATACCTACAGACCAGCTCTCCCCAACCTGCCCTACCCACTGTCCACCAGAAATATTGTTGACTTCTTCACTCTAACAAACTCTGAGAGTACAGGCTAT
TACCATCTTAGCAGCAATCTCCAGAATTCACCATCAAAACGGAATTCAGCGCCCTATCCGTGGTAGCCCAGGATCCATCGAGAATACAGGCACAGTATTA
CAGGTGGAAACTGGGCTCTGAGAATCACAAGGTGTGAGCCAGGAGCTCCCAAGGCAAACCCACGTGGAGACAGAGGAACACCTGAGAGCCATCAAGAAAG
ATCTGGACTCTAGACAGACTCAGAGTTGGCCTTTTTTGAGGATGCGAAATATTCTCCACAGTGTATGGGCGTAGCAAGTTGTAGAATGAAATGAATCATG
TCAATACAACATGCTAAATACATAGAAGAATAATAAGGACCTACATATACTGAGCTGTCCCAGCAAATATTTGGGTCAAAGAGACCCATCACTGTAATCA
AGAGCCTAGCACATCTAGGCTGGGTGTGGTGGCTCATGCCTGGAACCCTCGCCCTTTGAAAGGCTAAGGTGGGAGGATTGCTTGAGCAGCCCGAAATTCA
AGACCAGCCTGGGCAACATAGCAAGACCCCATCTCTACAAAAAATCTAAAAATTAGCCAGGTAGGGTGGCTGGCGCCTATGGTCTCAGCTACTCAGGAGG
CTGAGATGGGAGGATCACTTGAGCCCACAAGGTGGAGGTTACAATGAGCCATGATCACACCACTGCACTCCAGCCTAGGTGACAGAGCAAGACCCTGTCC
CCCCCGCAAAAAAAAAAGAGTCTAGCACATCTAAAGGAAGTGGACCAAGAATGCAGGTGTTTTGGAAGAAACATTGTTTTGATTTCTGGCATTTCATATG
TCAGCTGGTTAAAAAATAATCATCATTTAGAGAAATAATTTTTAGCCTTGTTCGTGCTATATTGAAAATGGGAATAGGATAAGATCCTTCAACATTGGAA
GCTATCCATGGGTTCTAAATTAAAAACTAGAAAAATATTAGCAGGCTCATCTTTTTTCACTAATCTACTTTTTTGCTTTTGAAGAAGTACTTAGAATTAA
ATGTAAAGGGAATACACTTCCACCTCTCTAATAAAAGTGACAACTTGTCTTGGGCATTAGAAACTTGGAGGCAACTCCAGGGCTCTCCCTGGAAAATCAA
GATCTTGAATMTGAGAAGTGCTGACAAAGCCCTCACAGGATCCCCAGCCCAGGGGTAAAGGAACAAGATGTTTAAAAATTTGAGCCACTTCCATTCAGCT
TTCACTTTCTGACTATGATCCAAACAAGCAATARCTTAGAAAACTCCCTCAACAATCAATTAAAGGCACTTTTAATGACCAAACACAGATAAAATGAAAA
CTAATCTCAAAATTAACCAATTTTTTTAAAAAGGCTGACAACAGTAAAAATAAGTTAGTGGGAGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACT
TTGGGAGGCCGAGATGGGCGRGTCATGAGGTCAGGAGATCCAGACCATCCTGGCTTACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAATTAG
CCAGGTGTTGTGGCGGGCGCCTGTGGTCCCAGCTACTTGGGAGGCTGAGGCAGGAAAATGGTGTGAACCCGGGAGGCGGAGCTTGTAGTGAACCGAGATC
ACACCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTCAAAAAAATAAAAAATAAAAAAAATAATAAGTTAGTGGGATCTGGATATAAAGTTT
TTTATTTTATATAAAGGCAGGTTCAAACACTATTACAATTGCTACATTTGTAGCAATAAATGTAGCAATCGTAATAATGAACTCAGTGTGAAATGTGTCA
GCTTGGGCTCCATAACAAGATATCACAGACTGAGTGGGTTAAACAACAGACATTTCTTTCTCACAGTTTTAGAGGCAGAAAGTCCAAGATTAAGGTCCAG
CAGTGTCAGTTCCTGATGAGGACTCTCTTCCTGGCTKGTAGACAGCTGCCTTCTTGTTGTGTCCTTACAGCAGAGAGAGAGAGAGATAAACTCTGGTCTC
TCTTTCATGTGAGACTTCTAGCCCTATTGGATCAAGACCTTACCCCATGACCTCATTTAACCCGAATTATCTCCATAAAGCCCTTACCTACAGTTACATT
GTGGGTTAGGGCATCAACATRTGTATTTTGAGAGGACGCCATTCAGTCCAAAGCATGAGGCTGCACTGCAAAGCCTGGGCCAGCAAAACCCACTGGAAAA
AAGTGAGCACAAGGCTTAGTCTGTACAACCTGAGGCGTGAGAGCACCTCCAGACTCAGGGGCTGTCTCCAAGTGAGTCCCAAGGTGGAGGCTCTGGAGGG
AGAGTCACAATCCCCCAACACCCCTCATGGCCCATAAATGCCAGCTTCCCCCTGTGCTTCACAAACCCAGCCTACCTTGAGGATATGCAATACTTCAGGC
CAGGACGGAGAGTGAAGGAGGGACAGAGGTAACCAGAAGTAATTCCGTGGAGAGAAGTTGGAAGTGATGATTTCCAAGGAGAGAAAGATTGGATGGGAAG
AAAGGGTTCCTTCCAGTTGGAGGAGAAAAGGTGAAAAGCCGTGTGCTGGAATCCTACTCAGCAATGAAAAGGAACAAACTATTGATCTATAAAACAACCC
AAGGCATTATGCTGAGTGCAAAAAGCCAATCTCAAAAGATCACATACTCTCTGAGTCCATTGATATAACTTCATTAAAGTGGCAACACCATAGAAATGGA
AGTCAGATTAGTGGTTGCCTGGGGTTGGGGTGCTGGGGACAGGAGGGTGGGCGTGACTCTCAGGATGCAGCACAGGTAGATCTTTGCAGTTATGGAACAG
TTTGTATCTTGCTTGGCGTGGAGGTTGCCCATATCTGCACATGTGATAAAATGGCATAAGTAGTATATACACACACGGTACCAGGCCAGCTCCTAATCTT
ATGCTATCATTACGTGGGATGGAACCGTTGGGAGAAATAGGGTGAAGAGCACCCAGGACATCTCTGTACTGTCTTATCAACATCCTGTGAATCTATAATT
ATTTAAAAACAAAACTAAATCTAAGGCTAAATGCCTTGCAAACACCCAAATAAAAAGTCATCTGCAGAGTTTCAGTGGCAAGAGAAAGAGTTGCCACAAG
AGAAGAAAATAAATTTGGTTGAATAGAGCAGAAACTAAGATAATAAAGTTTAAAGAAGCAAACAAGAGGACTGGTGGGTGAAAGAGGTTCTTTTCTTTTT
TAAGACAGAGTGTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAGTCTCAGCTCACTGCAGCCTATGCTTCCCAGGCTCAAGCAATTCTCCAGCCTC
AGTCTTCCATGAAGCTGGGACTACAGGTGCATGCCACCAATGCCCAGCTGATTTTTGTATTTTTTGTAGAGACRGGTTTTGCCATGTTCCCCAGGCAGGT
CTCAAATTCTGGAGCTCAAAGCAATCTGCCCGCCTCAGCCTCCCAATGTGCTGGGATTACAGGCATGAGCCACCATTCTCAGTAAAAAGAAGTTCTAAAT
GAAGCTTGCCCAACCCACGCCCTGCATACAGCCCAGGATGGCTTTGAATGCAGCCCAACACAAATTCCTAAACTTTATGACATTACGACATTTTTTGTGA
TTTTTGTTTTAGTTCATCAGCTATTGTTAGTGTTAGTGTATTTTAGGTGTGGCCCAAGACAATCCTTCTTCCAATGCGGCCCAAGGAAGCCAAAAGATTG
GACACTGCTGTTCAAAGTTGACATAGAAGAGTTTGGACTTGTTATTTCCCATGTGAGTTAGTAAAACTTCCATGAACTTTCTCTTACACATATTCTTGCA
GTTGGGCTGATAAAATTAATTTCCATTATGCAATCTGCTGCCCATAAACTGGCTTGCAGCTTTATCTCTATTCCTCCTTTGCTTTGATCCAACAGCCCCC
ACATTCTTGAGCCCCATTTGTTGCAAAAATAAAAGGTAATGCCCTTTCTCAGAAACGTCTTCTAGGGAATTTGACAAAATGTTATGAAACCCAGAAGTCA
TAGGTCCTCYGGAAAAGCTGAGGATAGCAGCATTTCATGGCATCTGTGACAGCAGCAGTGCCAGACCCGTTGCCATTGGCCCACCTAGGGCATGGATGCA
TGTCGTGCACTGAACAATTGCCCACTGGGAGAGGCTGTGCTCTGGCAAGAATTCCAGTGGGGACACTGCTGTCCAGTTGATGATTGCCAAAGAAACACCC
TTTACTCCCCGTCTCTACTAAAAGTACAAAAAATTAGCCAGGTGTGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAAGAGAATGGCA
TGAACGCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCATCTCAAAAAAAAGAAAAAAAAC
ACTCTTTACTTCCTCATTTATCCATCCAGGATGTCCTGTCTATTTGTTTGAAAATGATGGGAAACTAATGATATAGAACATAAATATCTCTTCCTTTCAT
AGAAAGACATATCTGAGGAGGGACTGAAGAGGGAAGGCAGGYTCCAGGTACAATCTGTCAGCACTACTGCTGGCTGTCCTCTGCAGCCTGGAGCTGCTTT
CTTGCACAGACTGTCCAATAAACTTAAACAAACTTCAACTACATCCTGGCTATTTTTTCCCATCAATGTAAACCTCCGTCCTGACAGCTTTTACAGACAA
AATCAAGTCTTCAGGTATTTTATTTCCTCAGTGCAGCTTTCCAGGGGCGGAGCTTCCAGCCTGGCCCCACTCCCATGAGGTCACCTGTCATCCTCAGGAC
CTCAGTGGGTTGAGTCGCTGCAAGGCAGAACATATACTAATTTACCGTTCTGTGCAAAACTGGAAAGAATATTGACGCTCAGAGCTGGAGACCATATGCT
CTTCTCATTACACATTTWATTTTTTAAAATATATTTTTAAATTTTGCAGGTACACATCCAAGCTAAGAAAGCCCATTGACATGATCCTCTTGGTACAAAT
ACCACATGTTCACTGGAAGAAATAGAATAGAAAACCCAGCCTGCAGCACACACGGCCCAGGGCAGTTACTTCCAGCCTACTTTGCTGAAGCATCTCATTA
GAACAACATGAGCGAGGTTTTGGCCCCTTCCTGAGACACTTACGCCATCTATCTAATCTCGTTTCATCCAAATGTCCTTAAGAAGCAGAGACCAATCATT
TATCATTTAGTATCATTGTTTCAGGAGAAGGGATATAGGGCAAGTCACTTATTCCTTTTGCTTCCTTTTTTTTTTTTTTTTTTTTAAGGAGTCTTGCTCT
GTTGCCCAGGCTGGAGTGCAGTGGTGGTGCRATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAATGATTCTCCTGCCTCAGCCTCCCGCATAGCT
GGGGTTACAGGYGTCCACCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCTAGGCTGGTCTCAAACTCCTGACCT
CAGGTGATCCACCCACCTCAGCCTCCCAAAGTGACGGGATTACAGGCATGAGCCACCGTGCCCAGCCCCTCTTTGCTTCKAAAACATCAATCAGCTCCAT
GTGATGACTCCTGCTGTTTTATGGTTTGTATAAATGTATGGGGTGCAGGTGTCATTTCGTTACCTATGTGGATTGCACAGTGGTGATGAAGGGCTTTTAG
TACCCACTCCATTTTCTGAGTCTACAGAAAAATATATCTTACCGTGAACTTGGTGCTTCTTTTCTATGCTGAAAACAGGCAACCGAGATAAAATGAGGAT
AGAAGATGCGTGATCTGCAGATAAACAAAATGGAAAGACAGCTTATTCACTTACTCTGCAGGCATCTACTGAGCATCTATGTTGTGCACGGCACTATGCT
AGCTTCTGTAAGGAATAGATATGTCAATGGTGCCCGGCCTCCAGAGCTTACAGTGTGGTAGGAAAGAAGACAACCTTGGAARAAAGATACAATGTGCTAA
TTCTCCAGTGGAGCGAAGATGTTGTGTGGTACACAGATGAGAGATTATCCATCAGGATGAGGGGGAAGGAGGCCRCTTGTCATCAAAGTGCTAGATCCTC
TGAAGCTCGGCTTCCTCAGCYGACAACTGGGATGATGAATTTGTTTCTCTTAGAATTTGTTTGAAAATCACTGAGGCATCTAGCACAGTGCCTGCCTCTC
AAAGAACATTGGTTGGAGTGGATGWTGTATCAGTCGTAAGAATCATGAGTGATGTGAATGATGTATGATAGGGTGATCAATCCTGAATATGACTTGAACA
GAAGAGAGAGAGCTCCCTGTCAGGGGAGGTAATCAAAGAAAGTTTCACAAGGAAAAGGGGGTGAAAGCTGAGCCCTGAAAGATAAGGCAGAATTTAAAGA
TGAGGGGAGGGAAGCAGGAGTCGACTAGGGGAGGGTRTCTCATGGCAAGATGGAAATGTCATTAGTGAGGGACAGAGACAGGAAGGCAGGTGGTGTTTTC
GGTGAGCAGAAATGTCTGGACTGGAGAGGGTCCTAATGGGAAATGGWAGGTCCTGTGAGTCAGCGTCAGACTCCAGAGAGCCTTGAATGCCAGCCGAGGR
CCCGAGGATGTCAGAACTCTCCAAGCCCTAGAGATCACCTTGTCTAGCCCTTCCTTTACACACGAGGAAACTGAGACTCAGAAAACTTATCCAAGGCGAC
GTGGGTAGTCAGTCTCTCGGATAGCTGTCGTGTTATTTCCACCGYGCAGTGGCTTTCTAATTGGGTACTTTGGAACCCCAAGTTTCCCTAGAGAGTCCTC
AGCAGTCCCCATATGGTAAGGGGGAGAGAGGAAGTTGAGACTGCTAAGAATTTGCCAATCAGATACACCGGGTGATTGCACAAACATTTCACCYGGAACT
TTAAAAGATTCTCCTACTTTTTTTWAAAAAAGCGAAAAAACTTCACTTTACAATAGCATGTTGTTTGGTCTTTATATTTTTTTGGTAGAACGGAGCCTTT
GAAGATTTTCAAGTACTCAGATAACACAAGTGAAGCACTATTTCAGAACATGCAGGCTGGCTATGTTTATGAGCAGTAAAAACAAGAGACTCGCAATTTA
GGTGTGAATGGAGGTCAAGTCCCTGGGAAAGCCTCCTGGAAAATCACGCGTTCCACCATGTTTTCTGTTTTAAAGAACCTTAGGCTCCTTAAAATGCCCT
ATAACTCATGGTTACTTCATAAATAAACATCTAGCTGATGTAAGAATAACYGGTAACTACTCCAGACACCCAGGGGACCTGTTACTTTTCTAAGTTAATG
TTTAGACTCTCCTGTTTCTTAATGCCCTTGACAGGTTTTATTTAAGTTTGAAAAATATCCAAGTTTCTTTCCTGTCTTGCCAGTGTTCATTTTAACTTCT
TAGGCAGAAAGAACAGGAGAAGGAACAGTGCAGAGAGGAATGTACATATGTATGTATGTGCCAGCTCAGAAATTATTAGATGGACCTTGAATTAAATATT
GCTCCTCCAGCAGGTTTGCAGGAGCTGAGGGTAATTCTCTTCACTCAGATGCCTTGTAGAGTCCAAAGCTGACTGTCTGGGACTAGTTTCTATTATACCT
GAGTCCCCACAATGCTGGAATCATTCTAAGAATGCAGCTTTGTAAGAAATCAGACTGGAGTGATGGATAATTGATCAAATGACAAATTATCACTGACTCT
ATGCTGTTGGGTGTAACAGACCAGGAGTTATACTGCACAAATGCGTGCGTGTGTGTGCATGTGTTCCTGTACGTGTGTGTATGCGTGTGTATGCCTGTCC
GTGTGCGTGTGCTCACATTTGTGTTTTAGTGGGTGTGCAGGTGTATGTGTTCATGTCCATGTGCATGTGTATGCATGTGTTCATGTGTATGTATGTCTGC
ACGTGCTCACATTTATGTGCATGTGTGCCAGTGTGTGTTTATGTCCATGTGTGTATGCCGTCACATGTGCCTGTCTGTGTGCACGTGTGTGCCTGTCTAT
GTGCGTGTTTGTGTGTGTATTGCTGTCTTATAAATCGTCACATCAGCCCTGTTAGGAGGGCMCTTGGCTTACTTTACAGGTGAGGAAACTGACTCAGGTT
TGTCAGTTGCCTAAGGTCCAATTAATAACACAGGGCAAAGCCGGTTTCAAATCAGGTCTATGCACCTCAGAAGATAACGYGTCAGACTCCAGCAAATTTA
GAAAGGCTTCTTCAAGGGAGAGTGCCAGGACAGGTTGACTTTAGTCAGTCCTGATGAAGGTGAGTAGAAAAATGAGGTTAGAAAAGAAGGGGCTGGTGCA
CCAGGAAGCACCACGMCCTCCTGATGCAAAAGGGTCATCCCTGGAGACCTCAGGGCTCCTGCTCTGCTCCCTTTCAGCTCTTCGTGMGAGAACCTGAGAA
GAGGCTGGGCGTGAGGGGAGACATCCGCCAGCACCCTTTGTTTCGGGAGATCAACTGGGAGGAACTTGAACGGAAGGAGATTGACCCACCGTTCCGGCCG
AAAGTGGTAAGGACTCGCTCATGGGCCGCTTGGTGTCAGCCACTCTCCCTCCGCTCAGGGCCGTCTGCCTGTCCAAGTCACCGCAGCTGCTCACCCCTGC
CGGTGCCCCAACTCCCCACCAGCCCCACTCTCCAGGAGGAATGCACGTCTCTAACACATGTTACTGGGCTGGTGGGGCAGGGAGGGGAGGTCACTCTTGT
TTGCAAAATTTAATCTCTGTCGTCAAGATGCGCCTGCATGAAGAATGGATTGCTGTGTGTCCACGCCTTAGGTTGAATATGAATTTGTGAGGGTGACTAT
TAAACAAGATGGGGGTTGTGCACATGACACATACGTACTTAATGGTCCAGTCTGGGTAACCCAAACTTGGACATAAACCCTGCATCCTACGTCAGGAATT
TTGGAGCTGTTTTTTCCATGATGTTTATTAAAGTATCTGTAAAGTGCTCATATAACGACATTTCCTAAGGGTAATTGTTAGGTGTTCTTTGGTTTAAGGG
AGAAACTAACTAAATCCGTGCTTTAAAAAAKATAGGTCTGTACATTTCCATTTATGTCCTCACTGGCAAAAGTCATTAAGCTACATCAGCAAAGGCAGAA
TGACCTGGCTCACCTGCGAGACGGGCCACCATAAAGTGAAGTCAAAAATAAAGCAAGGTTGGGCTGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTT
TGGAAAGCCGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCGAGRTCAGCCTGGCCAACATGGTGAAACCTTGTCTCTACTAAAAATACAAAAATTAGCT
GGGCATGGTTGCGGGCRCCTATAATCCTGGCTACTCGGGAGGCTGAGGTGGGAGGATTGCCTGAGCCCAGAAGTTTGAGACTAGCCTAGGCAACATAGTG
AAACCCCATCTCTACAAAATTAAGTGGGCTTGGTGGTGCATGCCTGTAGTTCAAACTCCTCGGTAGGCCAAGACAGGAGGATTACTTGAGCCCAAGAGGA
TGCAGTGAGCTGGGTTCACACCACTGCACTCCAGCCTGGTGACAGAGCGAGAGACTGTCTCCAAAAATAAAACTTTTTAGAAAAACAACAAAAAAAAGTC
ATTAAGAAAGTAAATTTTAAGTTATGTATATCACAATTTCTAAAAATAATGATTTTTAAAAGAGTAGAGCAAAGTTGTGGGTTTGCCAGCCTTAACCATT
CCCTGTGATTGCCTGGATAGACATGGGCCATATCCGYGCTGAAGGGGGCCAGGCTCATGGACTTCCCAACAGATTCCACCCCAGAGAACGCACAGGCTAT
TAGTCATGATAGCGAATGGCCAGAAGAAGCAGGTGCATCTCATTCCCAGGGCAAGAATAGTTGTTCTCAACATCTGTCCCAAGCTCCAGTGATGTTCCAA
GGACCCAACAGGCCAGCCTCAAGCACTCTAATTAYTTGTGACAGAACCACATCTAATACRTGGGTTAGTCATTTGTGATAAAATAAAAATTTTACCTTGT
TTTTAGCTATCAGAACTATTAAACCATGTCTCACCTTCCACTGCAGATTAAAATTGACTTAATATTTTGCACATAAAAATCAAAACTTTGATCTAAGCTT
ACCCTAAAGGACATTCCCAGTTCTGCCAGTAGGAAACTTTCCCTGACCTGTGGTCTGAGCTGCCATTGACCTCACAGCCCCAGGGCCCCTTGGAGGGTGG
GAGGGGCCTGGTTCTTCATTTCGCTTCTCTGTGTTCATAGCACTTTCTGTTGATAATGGTTGTTCTCAATCTTGGGACACTGAATTGAACACCATACTGA
ACAGCATGTATGAAATAGATGTTTGCTTTCCCTTTCTCTGTTGTTTGGTTTGGTTTTGGTTTTTTTGCCATGAAAACCAATGGACCAAGTGGTCTGAAAG
GAGTCTGTCCCAGTCTGTGCTGTCTAAAAAAGCCCAAGATACTTACTAATAAAATTAACAAGGGCAGGGGACTGACAACAGCCAAGAACGTTGATAAAAG
AACAGGAATATGTAATTGTGAAATTCCTTCTCTCTTCCCATCCCTCCGCTCACACCCCCTCACTCCCTCTCCCCACCACCCTCCCTTATCCCCACCTTGT
GTTCCATGAAAACTGAAGAGGCAGAGGTCAAATTCAGGTGGATCACTTTTTCAAAGGTTGCCAACCCTGCTTCATGTAAACCATTAGAAACATTAGATCC
CATTTGAATGTCTACAGTCGTAGTCTTTCTGTGAATTTATGAATTTATATTATTATTAAGCTGAGGACACAGGATCACAGCCATGTTCAATGAGAGCTGG
GCATGGTCATCTGTAGGCATTGCCTCCATTTAGTGTCTCTGCAAACACCAACTTTGCCATACGCAGATCACGGCCTAGATAACAAAAGTGAAGATCATGA
ACTTAATGGCTRATTTTTCTTCTCTTTCTTTCTTCCCTTAAACTCTGACTAAGAAATCACCATTTGACTGCAGCAATTTCGACAAAGAATTCTTAAACGA
GAAGCCCCGGCTGTCATTTGCCGACAGAGCACTGATCAACAGCATGGACCAGAATATGTTCAGGAACTTTTCCTTCATGAACCCCGGGATGGAGCGGCTG
ATATCCTGAATCTTGCCCCTCCAGAGACAGGAAAGAATTTGCCTTCTCCCTGGGAACTGGTTCAAGAGACACWGCTTGGGTTCCTTTTTCAACTTGGAAA
AAGAAAGAAACACTCAACAATAAAKACTGAGACCCGTTCGCCCCCRTGTGACTTTTATCTGTAGCAGAAACCAAGTCTACTTCACTAATGACGATGCCGT
GTGTCTCGTCTCCTGACATGTCTCACAGACGCTCCTGAAGTTAGGTCATTACTAACCATAGTTATTTACTTGAAAGATGGGTCTCCGCACTTGGAAAGGT
TTCAAGACTTGATACTGCAATAAATTATGGCTCTTCACCTGGGCGCCAACTGCTGATCAAYGAAATGCTTGTTGAATCAGGGGCAAACGGAGTACAGACG
TCTCAAGACTGAAACGGCCCCRTTGCCTGGTCTAGTAGCGGATCTCACTCAGCCGCAGACAAGTAATCACTAACCCGTTTTATTCTATTCCTATCTGTGG
ATGTRTAAATGGCTGGGGGGCCAGCCCTGGATAGGTTTTTATGGGAATTCTTTACAATAAACATAGCTTGTAACTTGAGATCTACAAATCCATTCATCCT
GATTGGGCATGAAATCCATGGTCAAGAGGACAAGTGGAAAGTGAGAGGGAAGGTTTGCTAGACACCTTCGCTTGTTATCTTGTCAAGATAGAAAAGATAG
TATCATTTCACCCTTGCCAGTAAAAACCTTTCCATCCACCCATTCTCAGCAGACTCCAGTATTGGCACAGTCACTCACTGCCATTCTCACACTATAACAA
GAAAAGAAATGAAGTGCATAAGTCTCCTGGGAAAAGAACCTTAACCCCTTCTCRTGCCATGACTGGTGATTTCATGACTCATAAGCCCCTCCGTAGGCAT
CATTCAAGATCAATGGCCCATGCATGCTGTTTGCAGCAGTCAATTGAGTTGAATTAGAATTCCAACCATACATTTTAAAGGTATTTGTGCTGTGTGTATA
TTTTGATAAAATGTTGTGACTTMATGGCAAACAGGTGGATGTGTAAAAATGGAATAAAAAAAAAAAAAGAGTCCTCTTAATCGTTTACTTCCCCGCTTGC
CCCCCACAAGAACTTGCTTCTGCTGTGTCAGTCCTCAAAATGTAGCTAGCATTGAGATGATGTTTTACAGTTGGGGGATTGGCTGGGCACGATGGCTCAC
GCCTGTAATCCCAGCACTTTGGGAGGCCAATGTGGGCAGATCACCTAAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGTGAAACCCTGTCTCTACT
AAAAATACAAAAATTAGCCAGGCGTGGTGGCGGGGGCCTATAATCCCAGCTACCTGGGAGGCTGAGGCAGGAGTAGAGTAAGACAAAGGGTGAGGAAGTC
AGATGACATTAAGGCAATTGTAAGAAAAGCAAGTCTGCATAATATTYGGAGTCACTAGCCTACCTCATCACATGGCTGGAAATAACTTTAGATATTATAT
TTAAAATAGAATAATTAATATAAGCAGACTGTTGACAGTCTGCAGGTGTGCTGGAACATTTTCCTGACTATACGGAGCTCTTGTGATTTTTTTTAAATAG
ACACTCCCCTAAAATGAACACGAGTAACCTCATTTAAGGATGGGCATCTATCTTCAGATGTGTCCATTCAGGTGTCCGGGCCCTTTGTTCTGAAAATAGC
ACCATGACTACAAACCTCTAGTTATGTGAGAAGGCGACACTTGTCCTCCCCTTGCTCCAAATGAAAATGCTCACACATGTTTACCAAATTCACCTGCTTG
AAGGAGGGAGAGGGTCCTTTAAGGCCCTGGATGGGCCAGTGGAGGGCAGGGAGCCGCCCGTTCTGTTCTGATCTCTGCTCTGCTTTGCATTTGCTGTGAA
GCCCTGAACAAGTCATTTCATCTTTTGGGGCCTCCAAGTAATGGAGGTGAAGATGCTGTCTAAAGTCCCGTCTCACTAGAGTGATGGGGTCGGTGAAGAC
GCTATCTAAAGTCCCTTCTCACTAGAGCAATGGGGTTGGTGAAGACGCTATCTAAAGTCCTCACTAGAGCGCTTTCTGGTTCTAAATCTGAATCAAAATC
CTGCAAAGTTAAAAGGTCAGTGAGCAACACTTTCCAAAACACAGACACTCGTGGATTCCACTCGCTGCAGGCCTGGGGGCAGCTCTACCCCATTTTCCTT
CCAGTCGTCCTCTCCTCACTCTGGGTTCCCACATACCCCTGCCCCAGCACCCAGCATCCTCCTGACACCCAGAGACCCCAACAGGACCCCTACCAGGAGA
CAAATAAGTGAAGACTGTTGGCTCTTAGAAACAGGAACCAACGCAACTTTTATCCCCTCCACTAGACCAAAATAAGGTCTATTCATCATTTGGTTTTGTT
TGTTTTATTTTTTATTTTTTTGAATTAGAGACAGAGTCTCCCTATGTTTCCTAGGCTGGTCTTGAACTCCTGGACTCAAATGATCCCCCTGCCTCACTCT
ACCAAAGTGCTGGGATTACAGGCCTCATCATTTGTTTTTAATAAATGTCATCTGTATGAATATGTCAGGTGACTAACAAGCTTACTATTTGCTTCGTATT
TCTGAGTGTGCGAAGTACTTGTTACTTCCTTCTATTCTTTCAGGTGTCCTCTGAAATTGCTTATTAATATCCCTATTTAATAGGTGAGAGACCTGGCCAG
GTGCGGTGGTTCACGCCTGTAATCCCAGCACTTTGGGAGACCCAGGCAGGCAGATCATGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAAC
CCCGTCTACTAAAAATACAAAAAATTAGCTGAGCATGGTGGCACGCGTCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACTCGG
GAGGCGGAGGTCGCAGTGAGCTGAGATCGCGCTACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCTGTTTCAAAAAAAAAAAAAAAAATAGAGGAGAG
ACCTGAGGCCCAGGGAGACCATAAAGCTTACACTAGAGGGTTGACCAGTGGAGACTTGAACCCAGAACTCTTAGCATCAGATCTTGCTTCATTCCAGAGT
GCAGGGTTTCAGCGACATCCACCAATCAGCATCTGATGATTGTTCACTAAAGTTTTAAGTGGACTTCCTAATTCAGGGCCACACCTGGCTTACCTGTCCC
CCTTCTAGGGGACGCAGTGCGGGGGCCAGTCTCTTCGATGCCGGTCCTCTCATCACCACTCCCAGTTCCCCTCCACTTTGCACTTTAGCCTAGACTCAAC
CTTGCCAATAGAAATGAGAACTTTACCTCAGGGTATAGTTAAAGGTTTTGGAAAAAGAGAGATCAGTGCTTCTTTTTGGAAGATACAGACTGAGAGTTTG
GCTGAGAGCTCCCTGTGCACGAGAGGCTGGCCACAGAGAGAGCATTGACCAGGATTTTCTCAGATCCCGTCCAGCAAGACCATGCTTAGGAGAGAGGAAG
AAGTCGTAAATCAGCCAGAGAAGAAGAAATGCCTTTGTTACATCATAAAACTGCAGGCAGGGGTCTGAGCTCTCAGAGCCTCTGTCTCCAATGGACCCAT
CAATGATGGCCAACAGAGGAAGCATCAGCCTTAAACACCCACAGACCGGGAACATCCCAGAACCCACTCACAACAATGCAAACCAAGGAAGACTTCTCCT
GCCACCTCTCTCCTTTCTCTGTCCTTTCCCAACTTCGGGGAAGAAGGAGCAGAAACCATGGTCATCGGACTGCGGAAGGAGAGGACTGAGCATGGGCGGG
TGAGAAGTATGAAGACGCTGACCACGTGCCTTCCCCACCACAAGCCACCAGCACTGCCCTCTCGAGCTAGATGAGAGGACAGGGTCAACTTTAAATCGGT
TTTCAATTATTCATGGCATTGCACATGTAAGTTACAGAAATGAATCTTGAGGGAGCAACTGAAGGACATGTCTAATGTCACCGGAAAGGTCATGGGACCT
CTGAGATTTCAGCCAAAGTTTGGAAGAATGAGCCCCACAGAGCAGGTCTGAATGGATGGTGGGCGCAAATAATAAAGGTGTTGGTTTGGTTTGGTTTTGC
CCCGAGAATTTTGCTTGTTTACACACAGACAAGCCCTAGAGTGACAGTGATGTTGCTCTTGGTGCCACAGCTACACAGGAGATTTCTTGCACGTAGGGAC
CACGCTCTTTACCACCGAGCCTACCACCCTGGCAGACACTCCTCCATCACGTGCATTTGTTGAGTGAGTGGGTGAATAGGATGTGGGTGAGCACGTCTCT
ACAATCCTCTGTCTGTGTGGGGCCTGGCACACGAGAATGCCTGGTGGAAATTACTTCGTCCTACAGGCACTACAGGATTAACTGGACTTAGGTATCAGGT
CCTCTCTCCTGAAGAATTTTAGACAGAGGCAAAAACCAGATGGCCAAGAGAAGAGGCATTTGGTAAAGACCACAAGGCAGCCAAAGGGATGGGCAGCAGA
AGCCAGGAGGTAGGGTCGGTCACAGTAGCAGAGACACAGGGTCGTCCTGCCACCGCAGTGTGGGTGACTCAAGGAGGGCTAAGACTAGCAACTTCCAGTA
AGTTGCTCTCACTTCCCGGAGTTACTGAGGGGTCCCCAAGGTGCTGGGAGTCTTGCAGGCAGCCCTCCAGTCAGTCCTGTGTTATTCCTCTCTCTGACTC
AGGGAACCATCCTGATGGGCAGCAGCCCCCAGCCGACGGCAGGCCGGGGAATGAAGCCACTGGCTGCTCTCCTTCCCTCAATGCCGTCTGCTCAGTCTCC
TGGAGGGTCAGTGATGAGGGAAGGAGCCCCAACTTCCTTGTTTCTCCCTGCGTCCTAAATAAGTCCGGAACCCAAAGAGACTGAGTGTGTCCCTGGGGCA
TGCGTGTGCCTGTGTGTGTATATCAGAGCAAGACACCACACTGCCGTGAGCACCAGGCTGGCTGACTCATTGTTCCCTACATGCCTGATGTCTGCTCCTG
CTCTAGGGCTTTTACTCATTCTCTCCTACCAGGCTGAAAGGGCCAACACATCTCATAAACAACCCCAAAGCCAACCCACCCCAGGCCTGGCTGCAGCATC
AGCCTCCTGCCTTTGCTGACCACACCAGCTGTTGCTGTCCAGAGATGCCTCCCACCTCTATTTGTCCTCTGAAATAAGCATAGTGAAGAGCTGGGCCAAA
CTCCCAGAGCCCAGAGATATTTGGAAATGGAGTAGGCGCCACCCAAGTTTGTTTCTGTACAGCACCCAACTCACTGTCTGAGAAGGACCCTCAGAGGTTG
GCAGCAACTCCCACCAGGGGGTCATCTGAGAGGCACAGTGACCACAGTGATCAATGATGTCTCACCATGAGGACAGGAAGGAAATGCCCAGCCAGGGAAC
ATGTTTTCTGCCCCCAGCTTCTGCCTTCCATGTCGTTTCTTCACTCTACTGCGGATGAAGCTTTGACTATAAAATATGCTGTTGGAATGCACCAACTGCC
CTACTCCCAGGTGGCAGAAGGAGAGCTCAGTTTTCCTTCTGGAAAATTCTTGCAATTACCAGGTACTGGGTGAAGTGCTTTGTGTATATTACCTCATTTA
ACCCCTGACGACAATCTCTGAGGACAGCATCATTGTCTCCATTTTATCAACAAGGACACTGAGGTTTGGAAAGATTACACATCTTTCCCAGAATCATAGA
AGAAGAGCTGGAACTAGATCCCAAGCCTGTTTGATGACAAAGCTTGTCCCTCTATCACCATAAGGGGAGGGACAGCAAGTGGGTTATGGAGTCAGGATGC
CCGGGTCACACCCAGCCTCACCCCCGATGTGGTGTATAACCTTGGACAAGTCACTTAAACACTCAGCCTCAGTCTCCTCCTTTCTAAAATGAGGACCAAA
AAATAAAGACAAAAAATAAAATAAAATAAGGACAATAATAGTGCTAGCCTCACAAGCCATATGAGAAGTGAATAACGCCATCTATGCAAAGCACTTGGAA
GAGTACCTAATGTGGAATAGGCACCCACTAACATAGTATTATTATTTTATTGCTGCATCCCAACATAAATCATTTAGAGACCTCTTTCATAGGAAAAATA
ATTCTATCTGATTGATCACAAAGAAAGGGGGTATCAAACCTAAATATGAAGAAGTAAAAAATAAAAACTTCTGCTTTATTTTTCTTATACAGCTATAAAA
GCAAGATACAATTTGTAAAAGTTAATACAAAGAAAACTACAAAAGTAATAACACTGACAGAACAAGACTGATTTTATGGTGATGATGACATTACGAGGCT
AAAACTAAACGACTACCCTCCATGTCAATGTGTCTTAACTACCATGGTGTGGTTTCTTCTGAGTTCAGCACGGTTAGATGAGCACACATGGTGCAGTGAC
TCGATCTATGCACCACCTTTCTCTACTGGAACTATCAAGGAAGAGCCAGCTGTGCAGTGTGTCTTGATGTCATTCAACCTTCATTTGTCAAAAATGCTTA
AGTGCATCTAGGCTTTTTCTTATAGCACATGACAAATTAATACCATTGGTGGAAATGAAGTCATGAACAAAATGCACCACAAACTCTGAATTCTGACACC
GTCTAACAGAACTTTCTGCTGTGATGGAAATGTACCACATCTGCACTGCACAGTATGGTAGCCACTAGCCACATGGAGCTATTGTTGGCTTGAAATGTAG
CTGAGATGAAGAAACTGAATTTTTCTTTCTTTGAGACAGGCCTCACTGTGTCACCCAGGATGGAGTGTATTGGCACAAATACAGCTCACTGCAGCCTCCA
CGTCCTGGGCTCAGGTGATCCTCCAATCTCAGCCTCCCAAGTAGCTGGGACCACAGATGTGCACCACCATGCCTGATTAATTTTTTGAGTTTTTGTAGAG
ACAGGGTCTCACTTTGTTACCCAGGCTGGTCTCAAATTCTTGGGCTCAAGGGATCCTTCCCCCTTAGCCTTCCAAAGTGCTGGGATTACAGGCATGAGCT
ACCATGCCCAGGCTACAACAATTATTATCTTCAGAAACACTAAGGATGTATTACAT


SNP Information

Context             (SEQ ID NO:3653):
TGTTGACCAGAAGCCTTACCAATAACACAAAGTCAATTAACACATGTGTTATATGTTATATGTATGATATACTGTATTCTTACAATCTAAGAAGCTACAG
A
AGAAAATTCTATTAAGAAAATTATAGGAAAATGTGTTTACTGTTCATTAAGTGGAAGTAGATCATCATAAAGATCTTCATCCTTGTCTTCATGTTGAGAG
Celera SNP ID:            hCV27219550
SNP Position Genomic:     146619
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3654):
AATACACTTCCACCTCTCTAATAAAAGTGACAACTTGTCTTGGGCATTAGAAACTTGGAGGCAACTCCAGGGCTCTCCCTGGAAAATCAAGATCTTGAAT
M
TGAGAAGTGCTGACAAAGCCCTCACAGGATCCCCAGCCCAGGGGTAAAGGAACAAGATGTTTAAAAATTTGAGCCACTTCCATTCAGCTTTCACTTTCTG
Celera SNP ID:            hCV27219552
SNP Position Genomic:     148111
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;hmCS


Context             (SEQ ID NO:3655):
GAATGAGAGAGCAAATTCAATCGGGCAAAAACAATGATATTCCGTAAACAATAATGACATAAGCCTAGGAAATGTTTTAAGAATAAAGCTTTGGCCGGGC
R
CGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCCGAGGTCAGGAGACCGAGACCATCCTGGCTAACATGGTGGAACCCCG
Celera SNP ID:            hCV27219480
SNP Position Genomic:     81095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3656):
TTTTTTTAAAAAGGCTGACAACAGTAAAAATAAGTTAGTGGGAGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGATGGGCG
R
GTCATGAGGTCAGGAGATCCAGACCATCCTGGCTTACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAATTAGCCAGGTGTTGTGGCGGGCGCC
Celera SNP ID:            hCV27219553
SNP Position Genomic:     148421
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3657):
GGAAAATGGTGTGAACCCGGGAGGCGGAGCTTGTAGTGAACCGAGATCACACCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTCAAAAAAA
T
AAAAAATAAAAAAAATAATAAGTTAGTGGGATCTGGATATAAAGTTTTTTATTTTATATAAAGGCAGGTTCAAACACTATTACAATTGCTACATTTGTAG
Celera SNP ID:            hCV27219554
SNP Position Genomic:     148653
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,12)   total(T,12|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3658):
TTTTGAGATGGAATCTTACTCTGTTTACCCAGGCTGGAGTGCAGTGGTGTCATCTTGGTTCACTGCAACTTCCACCTTCCAGGATCAAGAGATTCTCCTG
Y
CTCAGCCTCCTGAGTAGCTGGGATTACGGGCATATGCCACCACGCCTGGCTAATTTTCGTATTTTTAGTAGAGATGCGGTTTCACCATGTTGGCCAGGCT
Celera SNP ID:            hCV27219482
SNP Position Genomic:     90155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3659):
TCTTTGCAGTTATGGAACAGTTTGTATCTTGCTTGGCGTGGAGGTTGCCCATATCTGCACATGTGATAAAATGGCATAAGTAGTATATACACACACGGTA
C
CAGGCCAGCTCCTAATCTTATGCTATCATTACGTGGGATGGAACCGTTGGGAGAAATAGGGTGAAGAGCACCCAGGACATCTCTGTACTGTCTTATCAAC
Celera SNP ID:            hCV27219555
SNP Position Genomic:     149881
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,3)   total(C,1|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3660):
GATGGCAAGTGCTCCCGTGGCCAGGGAGAGATGGATAAAGCTGGAGAGACAGATAAACAAAACAGTCAAGTCTGTTGGCAGGAAGCGAAGAGGGCCTGAG
C
TCTGGTGGAGACTGGTCCCTGGAGCTTCCACAGTTTAACCGGAAGGGAGTAGGGCAAGACAGTTGCTGATGGGGATAGGTGTGGAGCTTTGGTGATGGGC
Celera SNP ID:            hCV27219483
SNP Position Genomic:     92014
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,15)   total(C,1|-,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3661):
AAAATAAAGCAAGGTTGGGCTGGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTGGAAAGCCGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCGAG
R
TCAGCCTGGCCAACATGGTGAAACCTTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTTGCGGGCGCCTATAATCCTGGCTACTCGGGAGGCTG
Celera SNP ID:            hCV27219556
SNP Position Genomic:     156245
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3662):
AAGACTGAAACGGCCCCATTGCCTGGTCTAGTAGCGGATCTCACTCAGCCGCAGACAAGTAATCACTAACCCGTTTTATTCTATTCCTATCTGTGGATGT
R
TAAATGGCTGGGGGGCCAGCCCTGGATAGGTTTTTATGGGAATTCTTTACAATAAACATAGCTTGTAACTTGAGATCTACAAATCCATTCATCCTGATTG
Celera SNP ID:            hCV27219557
SNP Position Genomic:     158605
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:3663):
ATTAAATAAAGGAAAAAGCAATGGGTGAAATTAATTTTAATAATACATTTTATTTAATCCAATCTGTTCAAATATCATTTCAACAAAAAATCGACATTTG
A
AAAATTCAGATATCTTAAGTAATTTTATACAAAAGTCTTCAAACTCCAGGATGTATTATTTTACACGTCCAGCACATCTCAACTCTAACTCACCACCTTT
Celera SNP ID:            hCV27219484
SNP Position Genomic:     92975
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3664):
CTCTTGCCACCTCAGTTCATGAATAATAGGTGTGAAAATGCTTCTCACATTAGGCAGTAATACTGATAAACCCATAGAAATGTTTCCTTTAAAGAAGGCA
T
TTTTTTTTTTTTTTTTTACATCTTCCAAAGGTTAAAAGCACTAGTTCTGGACTGAAAGAGAAAAGGAAATATTTATAGTAAAACAGGAAGGGAATCTTCA
Celera SNP ID:            hCV27219485
SNP Position Genomic:     94020
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3665):
TCTTGCCACCTCAGTTCATGAATAATAGGTGTGAAAATGCTTCTCACATTAGGCAGTAATACTGATAAACCCATAGAAATGTTTCCTTTAAAGAAGGCAT
T
TTTTTTTTTTTTTTTTACATCTTCCAAAGGTTAAAAGCACTAGTTCTGGACTGAAAGAGAAAAGGAAATATTTATAGTAAAACAGGAAGGGAATCTTCAT
Celera SNP ID:            hCV27219486
SNP Position Genomic:     94021
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3666):
GTGCCTGCTTCTATTACAACACTCTCTACTCGCAGACTCTGTCAGCTGGAGTTTGGAAATCTTTATATCTGATTTTTCTGTATTTTAATGGTGATGTTTC
T
TTTTTTTTTTTTTTTTGAGACACAGTCTCGCTCTGTCTCCCAGGCTGGAGTACAGTGGCACGATCTCAGCTCACTGCAACCTCCGCCTCCCAAGTTGAAG
Celera SNP ID:            hCV27219489
SNP Position Genomic:     98255
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3667):
GGCACATGCGGGCTTCCGTAGAGTATTCTCTATAAAACTGTTAGCTCACTGCGGACTGAGCACTGCTGCTTCCGCTTGCTGTATTGATACTACCAAATAC
Y
GTATTTTCTTTGAAAAGTGTCACACGCCCGCGGGAGGAAGTGGGGTGTGGTGTCACAGCAGCATAGGAGGACAGGAGTGTTTTTGCTACTGGTGTACCCA
Celera SNP ID:            hCV29391320
SNP Position Genomic:     55874
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:3668):
ATGGTAATTGTGCTTGGGTGGAGATGGCAGAGCTCAGAAACAGAAGGAATGGCGTGAACAGAGCCATAGAGACAGATATTCAGGGAACCTTCAGCAAATC
R
AGAGAAGTCCAGGCAGGCTGGGACTCCGCTGAGAGTCGTGCTGTGTGAAGGAGGCAACTTGAACCCAATAAACGGAGGCTTTTTAATAACAGGTTAAGAA
Celera SNP ID:            hCV29391321
SNP Position Genomic:     62263
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3669):
ATTAGAAACTTCTGCAGAGATTATAAACCTTTAGAAAATAAAGCATTTTATCCTGCACAAGAATATTGACATTCTTACCAGGAATCCAACTATCCAAGTG
Y
TTTGTTGTTCCTGCAATAAGTTTGATTTAAACTCTGGAAAACTGTTTTTTAAAAAAATTCCATGTCGATCACTAGCATCCCTCTCCCACTCCCCTCTCCC
Celera SNP ID:            hCV12011753
SNP Position Genomic:     93543
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:3670):
AGAAAGCTTTGGGGAAAAATCTATACATATTTATGAGGGGAGTTAAGTGCAGGTGCCAGGGGTAAACATATGTCCAACATACATCCCATGTTCACTTTGG
R
GCACAGTTGTAGCATTAAAATTAGATCCTAAATTTGGCTCTTTACATCAAAAGGCAAATGATAGGACACAATGACATTTAGTGTGCAGCACCTGTAAGCT
Celera SNP ID:            hCV29391322
SNP Position Genomic:     66545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3671):
ATAAAAATCTTTGCTCGTATCACTAAAGTAATCTTTAGAGACAAATATATGCCAAGATTTTTTTTAAAAGGTGCTCAGGCCCATGCTTAGATATGTCCAG
R
TAATTTAGTTGGGCAGTATCTACTCAGCACTTGTGTGTTGGCTTGGGAAAAGGGTTCCTGGGGCCGGGTGTGGTGGCTCATGCCTGTAATCCCAGCACTT
Celera SNP ID:            hCV29391324
SNP Position Genomic:     76510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3672):
GCTTCGATTTATATTAAGTGCTACAAAGATAGTGAACAAGGTGCAAGGTGGAGAGTAAGCATGTGGCCTACTGAGACTCTGTGGTCCGGGAATCTCCCCA
R
CGGAGGGAACATTGAAACTGACAGCTGAAGAGTGACAGAGCTGGTTAGGTGAAGAGCAGGAGGAAGGAAGCTCCTTACAGGCTGGAAGACCCTGCTGAGG
Celera SNP ID:            hCV29391325
SNP Position Genomic:     90781
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3673):
GGAAGGAAGCTCCTTACAGGCTGGAAGACCCTGCTGAGGGAGAGTCCAACGTGTTCCAGGAACTGAAATGGGACCAGTGTGGTGACAGCTGCAAGGGCTG
Y
GCAGACTGGAAGCCCACACTGGGGAAGGCACCAAGGCCTGGGTCATGCGGGGTTTCTTTGGAGCCTGGAAAAATGATTGTATTTTGTGCAACTTGTAGTA
Celera SNP ID:            hCV29391326
SNP Position Genomic:     90943
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3674):
AGCCCCATTTGTTGCAAAAATAAAAGGTAATGCCCTTTCTCAGAAACGTCTTCTAGGGAATTTGACAAAATGTTATGAAACCCAGAAGTCATAGGTCCTC
Y
GGAAAAGCTGAGGATAGCAGCATTTCATGGCATCTGTGACAGCAGCAGTGCCAGACCCGTTGCCATTGGCCCACCTAGGGCATGGATGCATGTCGTGCAC
Celera SNP ID:            hCV915401
SNP Position Genomic:     151010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   SC_12_A(C,5|T,16)   SC_12_C(C,7|T,16)   SC_12_AA(C,9|T,15)   SC_95_C(C,48|T,125)   total(C,69|T,172) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3675):
ATAGAGAAAGTTCAGGACTGACTACAAAGGAATCTAAAATGAGATGTTAGGTAGAAGATAAAGGACAGAGATAGACATTGAGAAACTGGGCTCAGAGACC
R
CTCCTCCTACACCCAGAGTCTATGAAGTTACAGAAACCAGAAGAAGAAGAGGTGGGTTGTGTTCTGTGCAGTTGAGGTGTTGAAATTGAGGCCCACGTGC
Celera SNP ID:            hCV29391327
SNP Position Genomic:     91629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3676):
CTGCAAGGCAGAACATATACTAATTTACCGTTCTGTGCAAAACTGGAAAGAATATTGACGCTCAGAGCTGGAGACCATATGCTCTTCTCATTACACATTT
W
ATTTTTTAAAATATATTTTTAAATTTTGCAGGTACACATCCAAGCTAAGAAAGCCCATTGACATGATCCTCTTGGTACAAATACCACATGTTCACTGGAA
Celera SNP ID:            hCV915402
SNP Position Genomic:     151918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3677):
GATAAAGGACAGAGATAGACATTGAGAAACTGGGCTCAGAGACCGCTCCTCCTACACCCAGAGTCTATGAAGTTACAGAAACCAGAAGAAGAAGAGGTGG
R
TTGTGTTCTGTGCAGTTGAGGTGTTGAAATTGAGGCCCACGTGCAGATCTTCACAGGCTTAAATCAGAGAAATGTCAGGGGCATCTTGGAGGCATTAGTC
Celera SNP ID:            hCV29391328
SNP Position Genomic:     91685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3678):
TTGTGCACGGCACTATGCTAGCTTCTGTAAGGAATAGATATGTCAATGGTGCCCGGCCTCCAGAGCTTACAGTGTGGTAGGAAAGAAGACAACCTTGGAA
R
AAAGATACAATGTGCTAATTCTCCAGTGGAGCGAAGATGTTGTGTGGTACACAGATGAGAGATTATCCATCAGGATGAGGGGGAAGGAGGCCGCTTGTCA
Celera SNP ID:            hCV915403
SNP Position Genomic:     152982
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:3679):
TTTGTGGCATAAACCAGAAGCTAATGGCTGAAGCGCTGGCCATGATTGAGAGCACTCAACAGGTAGGAGCATGTGCCGTGGACACGTTCCCGCCATGGCC
K
CTCAGCAAGGATGTCCATGCACTTCTGCTGCTTCACCTGTGGCAGCCCTATGGGAAATGCCGGGATGTATTTCTGAGCACCGGCCTTGCCCTTGGCTTTC
Celera SNP ID:            hCV29391329
SNP Position Genomic:     100280
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3680):
CACATGTGCCTGTCTGTGTGCACGTGTGTGCCTGTCTATGTGCGTGTTTGTGTGTGTATTGCTGTCTTATAAATCGTCACATCAGCCCTGTTAGGAGGGC
M
CTTGGCTTACTTTACAGGTGAGGAAACTGACTCAGGTTTGTCAGTTGCCTAAGGTCCAATTAATAACACAGGGCAAAGCCGGTTTCAAATCAGGTCTATG
Celera SNP ID:            hCV915404
SNP Position Genomic:     155062
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3681):
GTGAGGAAACTGACTCAGGTTTGTCAGTTGCCTAAGGTCCAATTAATAACACAGGGCAAAGCCGGTTTCAAATCAGGTCTATGCACCTCAGAAGATAACG
Y
GTCAGACTCCAGCAAATTTAGAAAGGCTTCTTCAAGGGAGAGTGCCAGGACAGGTTGACTTTAGTCAGTCCTGATGAAGGTGAGTAGAAAAATGAGGTTA
Celera SNP ID:            hCV915405
SNP Position Genomic:     155180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3682):
GGGAGAGTGCCAGGACAGGTTGACTTTAGTCAGTCCTGATGAAGGTGAGTAGAAAAATGAGGTTAGAAAAGAAGGGGCTGGTGCACCAGGAAGCACCACG
M
CCTCCTGATGCAAAAGGGTCATCCCTGGAGACCTCAGGGCTCCTGCTCTGCTCCCTTTCAGCTCTTCGTGCGAGAACCTGAGAAGAGGCTGGGCGTGAGG
Celera SNP ID:            hCV915406
SNP Position Genomic:     155316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3683):
GTTGTTCTCAACATCTGTCCCAAGCTCCAGTGATGTTCCAAGGACCCAACAGGCCAGCCTCAAGCACTCTAATTACTTGTGACAGAACCACATCTAATAC
R
TGGGTTAGTCATTTGTGATAAAATAAAAATTTTACCTTGTTTTTAGCTATCAGAACTATTAAACCATGTCTCACCTTCCACTGCAGATTAAAATTGACTT
Celera SNP ID:            hCV915409
SNP Position Genomic:     156960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3684):
TTATATCTGATTTTTCTGTATTTTAATGGTGATGTTTCTTTTTTTTTTTTTTTTTGAGACACAGTCTCGCTCTGTCTCCCAGGCTGGAGTACAGTGGCAC
R
ATCTCAGCTCACTGCAACCTCCGCCTCCCAAGTTGAAGTGATTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGATGTGCACCACCACACCTGGC
Celera SNP ID:            hCV27219490
SNP Position Genomic:     98317
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3685):
ATCTCAGCTCACTGTAACCTCTGCCCTGTGGGTTCAAGGGATTCTCCTGCCTCAGCTTCCCGAGTACCTGGGACTACTTGCGCACACAACCGCACCCAGC
K
AATTCTTTGTATTTTAGTAGAGATGGGGCTTCACCATGTCGCCCAGGCTGGCCTCAAATGCCTGAGCTCAGGCAATCCGCCCACCTCGGCCTCCCGAAGT
Celera SNP ID:            hCV27219492
SNP Position Genomic:     102009
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3686):
TTCTTTTTGTTTGTTTGTTTTGTTTGTTTGTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAATGGTGTGATCTCAGCTCACTGCAACCT
Y
CGCCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGCACCACCACACTCAGCTAATTTTTGTATTTTTAGTAG
Celera SNP ID:            hCV27219493
SNP Position Genomic:     108475
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3687):
GTTTTGTTTGTTTGTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAATGGTGTGATCTCAGCTCACTGCAACCTCCGCCTCCCGGGTTCA
W
GTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGCACCACCACACTCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCA
Celera SNP ID:            hCV27219494
SNP Position Genomic:     108491
SNP Source:               HGBASE
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3688):
TATTTTTATTATATCTTTCTGTGTATGTTACTATAAACACACTTTAGACTGGGCTTCTGGGCACTTAGGCAGTTGTGCTTCTCTTGGTGCCTTTTCCCCA
T
TTTTTTTTTTTTTTTTGATTTGCATGTATGACAGTTTTCATGTCTTACGGGGAAGGCTATTGGGAATCCCACTTTGTAGAAGATAGGTATGCTCCTTTCT
Celera SNP ID:            hCV27219495
SNP Position Genomic:     109946
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,5)   total(T,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3689):
AAAAACAGCACAGAGGGGTTTCTTTCTCCTTCCAGTAGGCTTCCCAGCAAATCAAGGATGACTGCCTGTAGCACGCCGCTCCTCACCTAGTCTCAAAATA
S
TCCAGAAAGTTCTCCCTACACCTTATTCTATCCAGCACCTGAAATGCTGCCAGCTAGGATCTTAGGGGACACAGATCCTCTTAAAAATGCAAGCACTGCT
Celera SNP ID:            hCV8901301
SNP Position Genomic:     25972
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3690):
TTTCTGTCCCTCTTATGAGAGATCTCCTTAACCCATTTATGCCTGAGGTTGCAACTTTTTGAATTTTGAAATCAGACCTTGGTGATGACCTTGAGCAGTA
R
GATATAAATAACTCCCACATGCTTAGCGTTCCAATAATGGAACACTAGGCATAAATGAGTTCCGTGCAGCTGGGATGCTTTACCAAGACCTGAGCCACAA
Celera SNP ID:            hCV27219496
SNP Position Genomic:     110181
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;TFBS


Context             (SEQ ID NO:3691):
ATCAAGGATGACTGCCTGTAGCACGCCGCTCCTCACCTAGTCTCAAAATAGTCCAGAAAGTTCTCCCTACACCTTATTCTATCCAGCACCTGAAATGCTG
Y
CAGCTAGGATCTTAGGGGACACAGATCCTCTTAAAAATGCAAGCACTGCTGAGATTCCCTTCACCCATTAGGGTGGCTTAGGCAGTAACAAAGAGAAAAT
Celera SNP ID:            hCV8901302
SNP Position Genomic:     26022
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3692):
GGCTGAAGCGGGTGGATCACCTTGGGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGCGAAACTCTGTCTCCACTAAAAATACAAAAATTAGCCAGGC
R
GGGTGGTGGGCACCTATAATCCCAGCTACTCAGGAGGCTGAGGCAGGATAATCACTTGAACCCATGGGGCGGAGGTTGCAGTGAGCTGAGACCACACCAC
Celera SNP ID:            hCV27219497
SNP Position Genomic:     113407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3693):
TTTTTATTGTAGTGAAAATAAACAACATAAAATTTACAATTTTAACCACTTTAAGTGTAAAGTGCAGTGGCATTAATTAGATTCATGACTGTTTCCAGAA
Y
GTTTTCATGACCCAAGCAGAAGCTCTGTACCCAGTAAGCAGTAACTCTCCATTTCCCTCTCCTTTCAGTCCCAGGCCACCCCCTTCTACTCTTTGTCTCT
Celera SNP ID:            hCV8901303
SNP Position Genomic:     29680
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3694):
TTTTTTGTATATTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATAGTCTCAATCTCCTGACCTTGTGATACACCCACCTCGGCCTCCCAGAGTGCT
R
GGATTACGGGCGTGAGCCACCGCGCCCGGCCCCTACACGCCCACTTTTTAAGCTCACAGATCTGTTCTCATCTTGATGTGACTCTGTAATATTCTTCCAG
Celera SNP ID:            hCV27219498
SNP Position Genomic:     114218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3695):
AGAGTGCCTCAGGAAAGTGCATGCCTTCTGTGAATCTACTATCCCTCTTTTGTTTTTTGTTGTTGTTGTTGTCATTGTTGTGTTTGTTTGTTTGTTTTGA
R
AAGGAGTCTCACTCTGTCGCCCAGATTGGAGTACAGTGGAACGATCTCGGCTCACTGCAACCTCCATCTCCTGGGTTCAAGTGATCCTCCTACCTCAGCC
Celera SNP ID:            hCV27219499
SNP Position Genomic:     114529
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:3696):
AGTTGGAAGTGTGAGGTCAGCCTGGGCAATGTATCGAGACCCCTGTCTCCAAAACAATAAAGGGAAAAAAAAAAGAAACAAAATGGGCATTTAGGCTGGG
Y
GCAGTAGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGAGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGAGAAAC
Celera SNP ID:            hCV16136483
SNP Position Genomic:     144881
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3697):
CCAGGCTTCTCAGCAGTCCGTGACTTAGGGGAAAATGTAACAAGTGTTTGTTCATCTACCCTGCATGTACTGGAAGAGATAAAAGTTGGAAAATAGATCA
R
AACGCACGTACACTATTATTTTTCTCTTCAAGGCTGGCAGAAAAAGCAGCCTTGGAGTGGGCTCATCAGTGAGCAAGCCCCTGAGCTGGGAGGTGGAGGT
Celera SNP ID:            hCV29391330
SNP Position Genomic:     107654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3698):
AAAAATTAAAAGTGAACTAAAGTCTACCTTCCTCTGTGTCTCCTTTGAATTCTGAAAGGCCGATCTGTATTCTGACATTTAAGTAGTGTTACTATTTCAC
R
CCTAAGTAGCTCTAGATCCTATAGGAACAGCTCTGTCTCTGGGTCGTTCCCTCAGGTTGGATTTGAGGGCAGGCCGCCGTGGTTTTGCAGGCCTCTGAAG
Celera SNP ID:            hCV29391331
SNP Position Genomic:     111911
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3699):
AGACTTCAAGATACCTAAACACAAATCCAACTCACAACTTATTTAATTGGAAAATTGTTCATTCCATGTCCTAAACCTTAGACCCAAGCAAGAGGGGTTC
Y
GCCCAGCCCCTCACTTAGAATCCTCCCTTTGGCCTTTCTCAAACCACACTCCTTCCTGTGAAGCCAAGAGGTCGTCTCTGTTCCTAAACTACTCCCCAGG
Celera SNP ID:            hCV29391332
SNP Position Genomic:     116757
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3700):
TGGTTTACTAGCCTTCGGAGAAAAAAGATACCTCGAAAAAAATGACTATAATTATTCTTTTCCTTCTTTTCCCATCTTGTTTTTCTGGAGAGGGAGTCTA
Y
AAATCTGATCTTATTTGCATGATATTTGCCAAGTTCTCAGTGCATTTACAAAATTAACTGTTATTAGTCTGATAAAAATCATGAGTTTATTTCTTTAATG
Celera SNP ID:            hCV29391333
SNP Position Genomic:     117703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3701):
AGACCTGAGAATAGGTGGGAAGGTGTGTGGAATGCATGGGAGTGGGGCTGAACTGTTGCCTCCAGTCCCCTCCCACCACTTTCTCCACATCTAAATTGAC
W
GTGTTAAATTCTGAAATGTCAGCCTTTCTAGGAATTTGTAAGCATCCAAACACTTAGAAGAAACCGTTCACTCAAGCACTGTTGGAAATGGTTTCGCTCT
Celera SNP ID:            hCV29391334
SNP Position Genomic:     120043
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3702):
CATCTTTAACTTAATTACATTTGGAAAAAAAGACCCTTTTTCCAAATAAGGTCACATCTACAAGGTTCTGGGGGTTCTGACATGAACATACCTGGACATA
W
CTTCTGGGGGCCACCATTCCACCCATACAGCTGATATCACAGACCATGTGTGCTCTGGATGTGCAGGTCTTTGTCAAGCATGGCAGTGGGTACTAAACAT
Celera SNP ID:            hCV29391336
SNP Position Genomic:     126831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3703):
GTAGAATGGATTGATGATGAATGGATGAACAGATGAAAAGACACAAGCTGTACATTCAAAAAATGTCCAAGTGAATGTTATTCCAATTAAAAGTGCAAGA
R
CTGAAAGGAAAAAATATATCACCAGACTTAAGTAGGGGAGATGGCAAACAAAAATTCTTCTGTGAAGGTAGACTTTTTAGAGTGGAAGAGGCTTTGCAGA
Celera SNP ID:            hCV29391337
SNP Position Genomic:     127088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3704):
CAGCTACCTGGGAGGCTGAGGCAGGAGTAGAGTAAGACAAAGGGTGAGGAAGTCAGATGACATTAAGGCAATTGTAAGAAAAGCAAGTCTGCATAATATT
Y
GGAGTCACTAGCCTACCTCATCACATGGCTGGAAATAACTTTAGATATTATATTTAAAATAGAATAATTAATATAAGCAGACTGTTGACAGTCTGCAGGT
Celera SNP ID:            hCV915411
SNP Position Genomic:     159547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:3705):
TCTTAGAGTATTAGAACTAAGAAGAACCTTAAGATTATATTTTATTGACAATAAAACTGGGCCCAACCCATGTGTTTGAAGCCACTTTCAATGCTTTCAC
R
TGATTCTCATTGGACGTTACAGGACCCCATGAGACAAGCAAGGCAAGTGTCATGGTCCCTGTTCCTTGGATGAGTCTTGGAGGCTGCCAGAGGGGAAATG
Celera SNP ID:            hCV29391338
SNP Position Genomic:     127558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3706):
TTGGAGGTCATGTCTTTCCTTTTCACAACAGGAAGGGCTGGCACCTTCTGCTCTTTCGGTCCTGACAACTGTCTGCTCAGAGCATCAGCCAAACAAGGCC
Y
TGTCATCCCAGCCAGGAAGGATGCGCGGTGCATGGGAGTGGCAGGACATTTGTGGAAGGAGTACAGCCGACCCCCCAGTTTCCTCCAGTCCTTGTCCCCA
Celera SNP ID:            hCV2004500
SNP Position Genomic:     42427
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:3707):
CGCAGGGAAAGGACGTGATGGCAGTGGGGATTCCCTCTTGCTTTGAGCCCTTCTGAATGCAAGCAGAAAAAGAAACCCTTTTATATTACTTTTTAATTGA
M
TATAATAACAGAAACAATGAAAAGAATGTGACCTTGACTTTGCAACTCTATTTCCCAGGCATATTCCTAACAACACCTAAGAAAGCTAGGATGTAGGTAG
Celera SNP ID:            hCV2004501
SNP Position Genomic:     43375
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:3708):
TAGTTGAAAATGAGGACTGAGATACTTGTACACTAAACTCCGTGGCAGCATTATTCACCATGGCCAAAAACTAGAAACAGCCCAAATGTTCATCAGCAGA
R
GAACAAACAAACAAAATGGGGCATATTCATACAATGGAATATCACTCATCCTTAAAAAGGCATGAAACTTTCTGACACCTGCTACGACACAGATGAACCT
Celera SNP ID:            hCV2004502
SNP Position Genomic:     45649
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3709):
AAAGCGAGAAATAAAAAAAAGAATCACCAACTTCCCTGCAAGCATTCAACAAATGCCCATAGTATAAAACCAACAAGAGGAGTCAAACCGCCTCTTCTGC
W
TCCCCACCAGCCACACTCCGACACCCCCACTGCGCCCCATCTTTCTGTCCCTGATGCTTGTCAAATTGTTCCATCGTCAGCCCCACCAGAGCTCATGCTA
Celera SNP ID:            hCV2004503
SNP Position Genomic:     49182
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:3710):
AAGGAAGGATGAAGAGACAGAGGGCATTTTTAGGGCAGTGAAACTTCTGTGTGATCCACTGTAATGGTGGATCCATCTCATTATCCATAGAATGTACAGC
K
TCAGGAGTGAACCCAGGCCAGGCACAGTGGCTCGTGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGAC
Celera SNP ID:            hCV2004504
SNP Position Genomic:     52767
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,11)   total(G,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3711):
GAGTGAACCCAGGCCAGGCACAGTGGCTCGTGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACTAGC
Y
TGGCCAACGTGGTGAAACCCCGTCTCCACTAAAATACAAAAATTAGCCAGGCATGATGGTGGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGG
Celera SNP ID:            hCV2004505
SNP Position Genomic:     52872
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3712):
CGTTTCTGTTCCTAGAGAACGGGCAGATGTATATCCAGAAAAAGCCTACCATGTACCCACCCTGGGACAGCACTTTTGATGCCCATATCAACAAGGGAAG
R
GTCATGCAGATCATTGTGAAAGGCAAAAACGTGGACCTCATCTCTGAAACCACCGTGGAGCTCTACTCGCTGGCTGAGAGGTGCAGGAAGAACAACGGGA
Celera SNP ID:            hCV25601506
SNP Position Genomic:     75171
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,34|G,2)   total(A,69|G,3)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:3713):
GTCAGTGTGTGGTTTTGGGTGAGTCCAGCAGTGTCCTCTGCAGAAGGGGAAGTGAAAACATTTGTTCACATGGATAGTGGACCTATGTGAGGTTCTGGCT
R
TCCATGATAAAGCACTGGTTAAGTAGACATGGGGCACCAAAAATAATATCTTTTATAGCCCCCAAACAGCGTTTGTCTTTTGTCTTTTTCCAGGGCGCAA
Celera SNP ID:            hCV25601507
SNP Position Genomic:     71044
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:3714):
CCAGGCATGATGGTGGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGACAGGAGAATCGCTTGAACTCGGGAGATGGTGGTTGCAGTGAGCCGAGATC
R
TGCCACTGCACTCCAGCCTGGGCAGCTGAGCAAGACTCCATCTCAAAAAAATAGAAGAGTGAACCTGAGGTTCACTTATGGACTTTGGGTGATAATAACA
Celera SNP ID:            hCV2004506
SNP Position Genomic:     53019
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3715):
CTCCCTGGGAACTGGTTCAAGAGACACTGCTTGGGTTCCTTTTTCAACTTGGAAAAAGAAAGAAACACTCAACAATAAAGACTGAGACCCGTTCGCCCCC
R
TGTGACTTTTATCTGTAGCAGAAACCAAGTCTACTTCACTAATGACGATGCCGTGTGTCTCGTCTCCTGACATGTCTCACAGACGCTCCTGAAGTTAGGT
Celera SNP ID:            hCV25601508
SNP Position Genomic:     158246
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,40)   total(A,76|G,2)
SNP Type:                 UTR 3


Context             (SEQ ID NO:3716):
AGCCAGGAGGCACCTCACAGAGACTGGAAGCACAGAGGGAGGTGGGCCAGCTGGGGCCCGAGGATCCAGACTTGGTGAGACTCACAGACCTTGGCCCACT
R
CCCTCCTCCCTCCTCCCTCCTCACCCACTTTTCTCCCTTCTTCACATCAGTACTGGTGGCAGCACCCTGAGCTGAAGGAGAAAAGTTCATATTCAACATC
Celera SNP ID:            hCV2004508
SNP Position Genomic:     61507
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:3717):
TCTATAATCTCTGTATTTATAACACATGCCTTAAAATACCAATTGCATATATTTCTTTTCTTTTGGTTTTTGAATTATCATACAGTAAAATTGACTTTTG
S
CTTGGTGTAGTTCTGTGAATTTAAGTCTAGACTTCTGTGACCACTAGAACAATCAAGCCGGAGAACAGTTCTGTCTTTCCCCAAAATTTGCTCATGCTGC
Celera SNP ID:            hCV2004509
SNP Position Genomic:     68124
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3718):
GCAAAGTTTGTGCAATAAAGTATCTTTGTGGTATTGGATTTTCGAGAGCCACCGTTATCAATGGGAGAGTGACTGTTGAATGCTACAGGCGTGTGCACTC
Y
CCCGTGGGCATGAAGAGAGGTCCACGGGCTGGCTGGATTGGGAGACTCCGGTCATTTCTGCAAGGAGAGCGCCACAGGACTGCCTTGTTCCCTGGGCTGT
Celera SNP ID:            hCV27847168
SNP Position Genomic:     6797
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;TFBS


Context             (SEQ ID NO:3719):
CAGAATTGTGAATCTGTTTCTGTTTAGTGTTCTCTTCCAGAGGATTGCATTATTCACTGAATGTCTGTTGTCTGAAATAGAAGTTCCCACAGTAGTTTGT
R
TACGCATCATTTAGGAAGATAAGTGGTTTTTCCTGTTATGTATACAAATAACCAGTCTGTGTTAATGTCTATTATGGGTGACATGAACAGATCCTTCTCG
Celera SNP ID:            hCV8901310
SNP Position Genomic:     30869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3720):
ATTGAAAGAAATGTCTGATATTGGGATCATTTTCCTAACACAATTTCCATTTTCATTTTCTGTAAAGCCCCCACAAGAGTTGACAGAGTTCCTGAGGTGG
S
GATGAGTGAGCCGTGCCTCTTTCTACAGTGGATGTAGTGGATGTGGCTTACAGATGCCTTTTACATTTCCAGCTGTAGACAGAAAATGCCAGAGGCCACA
Celera SNP ID:            hCV8901316
SNP Position Genomic:     31699
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3721):
GAATGAATGAGTGAATGGATGCATAGTCACTAAATCAGAAATCGTGGATACTGTAATCATAGAACATTAGGTCATAAATACCAAGGATCCTGAGGAAGAA
R
AAGAAAGAATATCTATGATTTGGACAGCCATTTTTCCAATTGTGGAACATTGTTTAGCATTTCAAATAATGAAAATAAACACATATAGAAGGCTTACTAT
Celera SNP ID:            hCV8901317
SNP Position Genomic:     60091
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3722):
CTGATCGTAGAAATCTATGTTTCATTCAGTTTGGCACAGATACAGGTTTTGATGCTATAAACCATTTTCATTTGAAGTGAAACCAAAGCTCATCAAAGCA
Y
GAGTGATGGGGACTTAAGAGGACGGACTCAACTCAATTACTGAATTCCCCTTTGTAACAATTCTGAAATATGCCCAAATGCACTCTGCTCAGACCACCCT
Celera SNP ID:            hCV29391340
SNP Position Genomic:     131095
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3723):
CCGCTCCCCCCACCCCACAACAGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCATCTATGAGTGAGAACATGC
R
GTGTTTGGTTTTTTGTCCTTGCGATAGTTTACTGAGAATGATGATTTCCAGTTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTTATGGC
Celera SNP ID:            hCV29391341
SNP Position Genomic:     132477
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3724):
GATGATGGATGCAGGCTTGCAGTAACTATGGAAGCCATCACAGTTCACTTACACAAAAGTGTTTACGGAGAGACCACTGCAAGAGTGCTGGGACCAGAGC
R
TAGAGGGAAAAAAAGTCAAACAAGTAAGCTGAAGGAACTCAGGAAGACTGCCTTCCCTTTAGAGCATCTATTCTTGCAGAAGAAAGTGGCAATAAACAAA
Celera SNP ID:            hCV12011774
SNP Position Genomic:     72203
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3725):
TTCCAGTTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACATTTTCTTAATCCA
R
TCTATCATTTTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCACAACAAACAGATGTGTGCATGTGTCTTTATAGCAGCATGATT
Celera SNP ID:            hCV29391342
SNP Position Genomic:     132623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3726):
CTCTGTTTATATGCTGGATTACATTTATTGATTTGCATATATTGAACCAGCCTTGCATCCCAGGGATGAAGCCCATTTGATCATGGTGGATAAGCTTTTT
R
ATGTGCTGCTGGATTCGGTTTGCCAGTATTTTATTGAGGATTTTTGCATCAATGTTCATCAAGGATATTGGTCTAAAATTCTCTTTTTTGGTTGTGTCTC
Celera SNP ID:            hCV29391343
SNP Position Genomic:     134602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3727):
GCAGTATCCCTAAATCTGGGAAAGGTTGTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGATGCTATCTTAAAGATGCATTTTTTTCTGGCATGTA
R
AAGTTGGAAACAGACTAAATATGTAGCTACAGACTTTAGTAACGCAGATCGTAGAGCTACTGTCAATAGGATGTCATGCAAGAATGACAAGGAAGCCTGA
Celera SNP ID:            hCV2004510
SNP Position Genomic:     68732
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,6)   total(G,6|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3728):
TGGTTTTGAAACTTGAAGAGGATATATCGCTCAGCCCAGTCAAAGAGGAGCGAAGGATTGAGCCAGCAATCCAACATTGTTTTCACCCTCTAACAATATG
Y
CCTATGATGAATCTGTGTTGTAGAATTTGAGGAAAGATGCTTAGTGTGGTACCCACCATAATGAGTACCTGGAATGTTACAGCAGGTACTCAGAGCTGGT
Celera SNP ID:            hCV2004512
SNP Position Genomic:     87514
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,5)      total(C,5|T,5) ;JBIC-allele(T,600|C,889)   total(C,889|T,600)   no_pop(T,-|C,-)   SC_12_C(T,2|C,14)   total(C,14|T,2)SC_12_T(T,6|C,10)   SC_12_C(T,5|C,18)   SC_12_TT(T,3|C,18)   SC_95_C(T,61|C,124)   total(C,170|T,75)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3729):
ATAACAGAGGCATAATTTTATGTTGAGAAGCAAATATTTCTTTTAGAGTAAACGTTGAGGTATAATCGGAAGACAAATTACATTTTACCTAATGGAGGGG
K
GAAACTGGGCTAGCACATGGGCAGTGTATCATTATGAATTTTAAATTTTTAAAAATTTATATGTATTTAGGAGGTACAAGTGCAGATTTCTTTTTTCAAT
Celera SNP ID:            hCV2004513
SNP Position Genomic:     89934
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:3730):
CTATGTATGGCTTCGATTTATATTAAGTGCTACAAAGATAGTGAACAAGGTGCAAGGTGGAGAGTAAGCATGTGGCCTACTGAGACTCTGTGGTCCGGGA
R
TCTCCCCAACGGAGGGAACATTGAAACTGACAGCTGAAGAGTGACAGAGCTGGTTAGGTGAAGAGCAGGAGGAAGGAAGCTCCTTACAGGCTGGAAGACC
Celera SNP ID:            hCV2004514
SNP Position Genomic:     90772
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:3731):
ACCCTGCTGAGGGAGAGTCCAACGTGTTCCAGGAACTGAAATGGGACCAGTGTGGTGACAGCTGCAAGGGCTGCGCAGACTGGAAGCCCACACTGGGGAA
K
GCACCAAGGCCTGGGTCATGCGGGGTTTCTTTGGAGCCTGGAAAAATGATTGTATTTTGTGCAACTTGTAGTAGAAAGCCCACTTTGGGATGCTGTAGTA
Celera SNP ID:            hCV2004515
SNP Position Genomic:     90970
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:3732):
TGTAGGCATTGCCTCCATTTAGTGTCTCTGCAAACACCAACTTTGCCATACGCAGATCACGGCCTAGATAACAAAAGTGAAGATCATGAACTTAATGGCT
R
ATTTTTCTTCTCTTTCTTTCTTCCCTTAAACTCTGACTAAGAAATCACCATTTGACTGCAGCAATTTCGACAAAGAATTCTTAAACGAGAAGCCCCGGCT
Celera SNP ID:            hCV25601516
SNP Position Genomic:     157912
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:3733):
AACCTGTAAGTTGATATTATGAAGAAGGTGAACCATGAAGGAGATGATGGACAGAGAACAGTGGCTGGGAAATGAGACCCCAAGGATGGCAAGTGCTCCC
R
TGGCCAGGGAGAGATGGATAAAGCTGGAGAGACAGATAAACAAAACAGTCAAGTCTGTTGGCAGGAAGCGAAGAGGGCCTGAGCTCTGGTGGAGACTGGT
Celera SNP ID:            hCV2004516
SNP Position Genomic:     91930
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|A,8)      total(G,7|A,8) ;SG_12_A(A,8|G,12)   SG_12_G(A,5|G,18)   SG_12_AA(A,3|G,18)   SG_95_G(A,63|G,124)   total(G,172|A,79)no_pop(A,-|G,-)   SC_12_C(A,3|G,18)   total(G,18|A,3)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3734):
AAGGGGCTGGTGCACCAGGAAGCACCACGCCCTCCTGATGCAAAAGGGTCATCCCTGGAGACCTCAGGGCTCCTGCTCTGCTCCCTTTCAGCTCTTCGTG
M
GAGAACCTGAGAAGAGGCTGGGCGTGAGGGGAGACATCCGCCAGCACCCTTTGTTTCGGGAGATCAACTGGGAGGAACTTGAACGGAAGGAGATTGACCC
Celera SNP ID:            hCV25601517
SNP Position Genomic:     155387
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,36)   caucasian(A,5|C,35)   total(A,7|C,71)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:3735):
ATAAATGTCTGTGATATTATCTTCTCCCAGGATATTTTGATTTCTTGTTCACTCAAGGGGACATCATCTTTGGGATTCTTTTGTTCCTCTACCCCTGGAG
Y
AGTATTGTCCGATAGAAATAAATAGAATGAGGGCTACATGTGTAATTTTACATTTCCAAGTAGCCCACATTAAATAAAGGAAAAAGCAATGGGTGAAATT
Celera SNP ID:            hCV2004517
SNP Position Genomic:     92806
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:3736):
TCACTCCTCAGCCTCATTCCTGTTAATTTCCTGTCTGCCTTTTGGTTGTGCAGATCTTGCTGGGTCAGAAATACAACCACTCTGTGGACTGGTGGTCCTT
Y
GGGGTTCTCCTTTATGAAATGCTGATTGGTCAGTCGCCTTTCCACGGGCAGGATGAGGAGGAGCTCTTCCACTCCATCCGCATGGACAATCCCTTTTACC
Celera SNP ID:            hCV25601518
SNP Position Genomic:     144282
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:3737):
GTGAAAAACAGGTCATGGGCCAGGCAAGATCAAGGAGGGGCAGCAGAGGGCACTTCTGGGCGAGCAGTACAGTGGCATCGCAGAAGGACAGGTGGGAGGG
R
AAGGGATAGGCTGCATCAGCTGCCTTTGAAAACGCCATCGAGCAATAGTATTGCAGCCATTTATACCATAATATTTCCTACAGAGGACCTCGTTTAGTTT
Celera SNP ID:            hCV16011801
SNP Position Genomic:     21888
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3738):
TACCAGGAATCCAACTATCCAAGTGTTTTGTTGTTCCTGCAATAAGTTTGATTTAAACTCTGGAAAACTGTTTTTTAAAAAAATTCCATGTCGATCACTA
R
CATCCCTCTCCCACTCCCCTCTCCCTACCCCGATAAGCCTTCACATTTATTTTGAGACAGAAAAGAGAATGGCTGGGCTCTGATTCTGACTGCCAAGCTT
Celera SNP ID:            hCV2004519
SNP Position Genomic:     93618
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3739):
TGCAGTTCAGATCTTTAAAAATCTGCTAGATTTCATTTCCTGTCTCTCTCACGCTGTAAATTGTAGAAATTGATGCCACTGTGTTTGTGAGCCATGCAAA
S
AATTGAAAATCATTTTTTTCCTAAAATTTGGTTAAAATCCCTAGATGTCCTTGATGTGGCATTATTAACAGTGCTTGTGTATTTTGCATATATGGTCTTT
Celera SNP ID:            hCV3095819
SNP Position Genomic:     102285
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;no_pop(G,-|C,-)   JBIC-allele(G,203|C,518)   total(G,203|C,518)   SC_12_A(G,3|C,21)   SC_12_C(G,9|C,11)   SC_12_AA(G,5|C,18)   SC_95_C(G,55|C,118)   total(G,72|C,168)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3740):
TTTTCTATACCATTCCTTTAAGTCATAGAATCAGATGAGCTTAGGGGCTAGAAGGAAGAGGGAGCGATGGGAAGGCAGTCGTTGGTCATGCCCTGGGCCT
R
GATCGCGGGAATCAGTCATTCAGAAAGCCCCATATGTTGGGTGGGTCTCACAGCTTACAGAGAAGCCAGCTGAGGTGTGCAGGTTAAGAAACTTGATCTA
Celera SNP ID:            hCV16011808
SNP Position Genomic:     14185
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3741):
AGATATCTGTTTGAGGTCCTGCTTTCAATTCTTTGGGGTATGTACCCAGCAGTAGAATTGTGGGGTCGTAGGGTAATTCTATGTTTAATTTTTTGAGGAA
M
TGCCATATTGTTTTCCACAGTGGCTGGACCGTTTTACATTCCCACCAGTGGTAGAAAGGGTCCCAATTATTCCACATTCTCAGCAACGCTGTCTTTTGTT
Celera SNP ID:            hCV16011809
SNP Position Genomic:     10124
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:                 INTRON


Context             (SEQ ID NO:3742):
TGTTGTTCCTGCAATAAGTTTGATTTAAACTCTGGAAAACTGTTTTTTAAAAAAATTCCATGTCGATCACTAGCATCCCTCTCCCACTCCCCTCTCCCTA
Y
CCCGATAAGCCTTCACATTTATTTTGAGACAGAAAAGAGAATGGCTGGGCTCTGATTCTGACTGCCAAGCTTATAGATATCCCAGCTCTAGAGCTGCGTG
Celera SNP ID:            hCV2004520
SNP Position Genomic:     93646
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;TFBS


Context             (SEQ ID NO:3743):
CAAGTTTCTTACCTTCTCTGTGCTTCATTTCCTCGTCTGTCAAAGGAGGATACTAATAGAAGCGACTTCAAAAGGGGTATTCTGAGGATTACGTGAGATA
Y
CACCTATGTAATAGATGATGCGTGTGACATATTTGTTAACCGCACCTGGCAGGAACTGCTCCCTCCTCTTGCCACCTCAGTTCATGAATAATAGGTGTGA
Celera SNP ID:            hCV2004521
SNP Position Genomic:     93854
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:3744):
TTGCTACATGCAGAAGGCAAGCATGCCCCGTCACGTACAGTTGCTGAGGCTGCCTGCCTTCTTCAGGCATGACTGTAGGGCTTGACAAGTGACAATGATG
R
TTTAAAATGCACACAATGCCAGTGTTTTCATTATGATCTCTGTTAGTTATGCTAAGGTATCTGCAAGAACATCCAAAGTCGGGGCCCCAGGAATACACAG
Celera SNP ID:            hCV2004522
SNP Position Genomic:     94338
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,4)   caucasian(A,9|G,19)   total(A,21|G,23)
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:3745):
TGCCCCGTCACGTACAGTTGCTGAGGCTGCCTGCCTTCTTCAGGCATGACTGTAGGGCTTGACAAGTGACAATGATGGTTTAAAATGCACACAATGCCAG
Y
GTTTTCATTATGATCTCTGTTAGTTATGCTAAGGTATCTGCAAGAACATCCAAAGTCGGGGCCCCAGGAATACACAGATTTCACCTTCTGCCTTTCTTTC
Celera SNP ID:            hCV2004523
SNP Position Genomic:     94361
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,4)   caucasian(C,9|T,19)   total(C,15|T,23)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,4)      total(C,4|T,4) ;JBIC-allele(C,679|T,820)   total(C,679|T,820)
SNP Type:                 INTRON


Context             (SEQ ID NO:3746):
TGTAACAAGTGTTTGTTCATCTACCCTGCATGTACTGGAAGAGATAAAAGTTGGAAAATAGATCAAAACGCACGTACACTATTATTTTTCTCTTCAAGGC
Y
GGCAGAAAAAGCAGCCTTGGAGTGGGCTCATCAGTGAGCAAGCCCCTGAGCTGGGAGGTGGAGGTTGGATGCGTCTGCATTCCCACTCGGTGTTGGGACC
Celera SNP ID:            hCV1872600
SNP Position Genomic:     107689
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,4)      total(C,4|T,3) ;no_pop(C,-|T,-)   SC_12_A(C,3|T,21)   SC_12_C(C,3|T,17)   SC_12_AA(C,3|T,21)   total(C,9|T,59)   JBIC-allele(C,399|T,1074)   total(C,399|T,1074)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3747):
ACACCTGACTACATCGCCCCAGAGGTAGGAATGCAGTGACAGGCTGCTCCCACCTCACCATGCCCTGGCCACATGCCATTGCTTCTTTAGCCCCTGAAAA
K
CAGAAGGTTTTAAATATCTTCATTCAAGATTTGTACCTGTTTTCTTAAGTATCTCATAAACGCCACCATGCATGTGGGTTTCTATTATTATTTTGTGGGG
Celera SNP ID:            hCV25601525
SNP Position Genomic:     129717
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:3748):
GTGGATCACCTGAGGTCAGGAGTTCGAGATCAGCCTGGCCAACATGGTGAAACCTTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTTGCGGGC
R
CCTATAATCCTGGCTACTCGGGAGGCTGAGGTGGGAGGATTGCCTGAGCCCAGAAGTTTGAGACTAGCCTAGGCAACATAGTGAAACCCCATCTCTACAA
Celera SNP ID:            hCV11318320
SNP Position Genomic:     156317
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3749):
ACAATTACAAGAGCCCGACCTTCTGTGAACACTGTGGGACCCTGCTGTGGGGACTGGCACGGCAAGGACTCAAGTGTGATGGTGAGTCCAGTGGGGGATG
W
GCATGGCCCGACGTGGACCCCCTAGGGGATGGAGCAAGGCTTTCTGGGGAACTGGAGGGAGGATGTAGGGGGTACCACTTCCACACCCAGCCCAGACAAG
Celera SNP ID:            hCV2004524
SNP Position Genomic:     94613
SNP Source:               Applera
Population(Allele,Count): african american(A,29|T,3)   caucasian(A,24|T,16)   total(A,53|T,19)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,3)      total(A,3|T,3) ;(T,-|A,-)   JBIC-allele(A,604|T,895)   total(A,604|T,895)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3750):
GAATGAGGGAAAACTTCTAAGGAGACTTGAGCCATGGGAAGAATTAATGAGGGAACCAGGGAATGAATGAGGAAAGTGGATGGCAACTGGGGCATCCATC
M
CCACCTCTGCAGTTCCCAGTAGATTCTCAGCATATGTGCAATAACCAAATCAATGAATAAATGCACTTACCTAAGATAAAGAGAAGCCAGACCATGGCAA
Celera SNP ID:            hCV1872601
SNP Position Genomic:     108832
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,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3751):
TGGTCTTGATGGACGATGATGTTGAGTGCACGATGGTAGAGAAGAGAGTTCTTTCCTTGGCCTGGGAGCATCCGTTTCTGACGCACATGTTTTGTACATT
Y
CAGACCAAGGTATGGCTTCTGCTCCGACAACCCTACCTCCCCTCTAACCTGTCTCAGCATGATACCTTCAATGGCGCCCTCATTAGGAGACACGAGTCAT
Celera SNP ID:            hCV25601526
SNP Position Genomic:     107275
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:3752):
GGAAGGCGGCACAGCATCTTCCGCATTCTCCCCTTCTTCATCCCAATCCTGTTCACATGTCTGGTGGAACCCAGAGCGACCTCTCAGTGGAGGCAGGAGG
R
GTTAGGTTTTCAAATCATTACCTAAAGCAGACATCACAGGAGGCCAACATTAGCCTCAAGAATCCGTTCCTGGCCCCAAAGGACACTGACACGCTTTTCT
Celera SNP ID:            hCV2004525
SNP Position Genomic:     96060
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,3)      total(G,3|A,3) ;no_pop(G,-|A,-)   ;SG_12_A(A,9|G,9)   SG_12_G(A,6|G,14)   SG_12_AA(A,1|G,20)   total(G,43|A,16)   SC_12_C(A,7|G,16)   SC_12_AA(A,3|G,17)   SC_95_C(A,77|G,102)   total(G,135|A,87) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3753):
TAGCGAAAAATTGGAAACAACACAAATACCCAATGACAGATTTATTGAATAAATTATTATATGGTCAGAGAAAATAATACTATATAACCATTTTAAATGA
W
GATGTAAATGCTTAAACATCAATACAGAATGTTGTTTATGAAATCATAAGTGAGAATATATAGTATTTCCTTTTAAGCAAGAACATTTGCATGTATAAGC
Celera SNP ID:            hCV1872602
SNP Position Genomic:     109687
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:3754):
AGAGAGGAAGTTGAGACTGCTAAGAATTTGCCAATCAGATACACCGGGTGATTGCACAAACATTTCACCCGGAACTTTAAAAGATTCTCCTACTTTTTTT
W
AAAAAAGCGAAAAAACTTCACTTTACAATAGCATGTTGTTTGGTCTTTATATTTTTTTGGTAGAACGGAGCCTTTGAAGATTTTCAAGTACTCAGATAAC
Celera SNP ID:            hCV11318322
SNP Position Genomic:     153925
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:3755):
AGGCCTTAAAGAAAGATGTGGTCTTGATGGACGATGATGTTGAGTGCACGATGGTAGAGAAGAGAGTTCTTTCCTTGGCCTGGGAGCATCCGTTTCTGAC
R
CACATGTTTTGTACATTCCAGACCAAGGTATGGCTTCTGCTCCGACAACCCTACCTCCCCTCTAACCTGTCTCAGCATGATACCTTCAATGGCGCCCTCA
Celera SNP ID:            hCV25601527
SNP Position Genomic:     107257
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:3756):
GCTTAGAACTTCCCAGGGGTTCCTGGGCGTTATTTCATGGCTCTTCTGCCTGCTTCGTTTCATTTCTTTCCTCGAATACTCTTTCCTTTCCGCTCCATTC
Y
GTTCCCCGCTCTCTCCTACCACCTACATTTCAAGTGCTCCCCTCCCCTTTTTCTTTTGTCCCCTCTCCTCTCCCTCCCCTGCCCTGGTTTGTTTTCCATT
Celera SNP ID:            hCV2004526
SNP Position Genomic:     96488
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,5)      total(C,5|T,2) ;(T,-|C,-)   JBIC-allele(C,203|T,1298)   total(C,203|T,1298)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3757):
GAATAAATTATTATATGGTCAGAGAAAATAATACTATATAACCATTTTAAATGATGATGTAAATGCTTAAACATCAATACAGAATGTTGTTTATGAAATC
R
TAAGTGAGAATATATAGTATTTCCTTTTAAGCAAGAACATTTGCATGTATAAGCATGAAAAATAATGAAAAACTAACAGTTGTTAATTGGGAGGTAGGAT
Celera SNP ID:            hCV1872603
SNP Position Genomic:     109733
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:3758):
TAAGCTTCTTTGCACACACATGTGCAAATCAGCAGATAAGATTAAGACTGCATGATGTCATAGCACCTGGTGCCTGCTTCTATTACAACACTCTCTACTC
R
CAGACTCTGTCAGCTGGAGTTTGGAAATCTTTATATCTGATTTTTCTGTATTTTAATGGTGATGTTTCTTTTTTTTTTTTTTTTTGAGACACAGTCTCGC
Celera SNP ID:            hCV2004527
SNP Position Genomic:     98186
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:3759):
ATGATGTCATAGCACCTGGTGCCTGCTTCTATTACAACACTCTCTACTCGCAGACTCTGTCAGCTGGAGTTTGGAAATCTTTATATCTGATTTTTCTGTA
Y
TTTAATGGTGATGTTTCTTTTTTTTTTTTTTTTTGAGACACAGTCTCGCTCTGTCTCCCAGGCTGGAGTACAGTGGCACGATCTCAGCTCACTGCAACCT
Celera SNP ID:            hCV2004528
SNP Position Genomic:     98237
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:3760):
AGGAAAGAAACAAAGGAAGAAGCTTGAATCACCTTTTCCAACACCCCGAGTTGTTGTTTTTGAGATGTCTTAATTATTCAAACCTTGCTTGTCAAAGTAA
S
TGATTAAATACCACAAGTGAATGCAAAAGGCAACGATTGATACGTGATATGGATAATGCTTTGTTCTGGGAACATGTTGGGAATGACCTTTCTTGGGAGG
Celera SNP ID:            hCV1872605
SNP Position Genomic:     110502
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,6)   total(G,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3761):
CACTTGTTATTAATTAGGGTCATTTGGATTAAATTGTTAAAGTTTTTAAAGTTCCTAGATGAGGGATATATCACCTATGGAAGGGTGAAAATATGATAAA
K
CCATTTAGGAAGCTACAAAATGTGAAAATTCCTGTGGACTTGGATTCCGAAGTTCAAGCCCAGCTCTGCCGTTTATCAACAGGGCTCTGAGGCACCCACT
Celera SNP ID:            hCV1872606
SNP Position Genomic:     110868
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3762):
CTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGACGGGATTACAGGCATGAGCCACCGTGCCCAGCCCCTCTTTGCTTC
K
AAAACATCAATCAGCTCCATGTGATGACTCCTGCTGTTTTATGGTTTGTATAAATGTATGGGGTGCAGGTGTCATTTCGTTACCTATGTGGATTGCACAG
Celera SNP ID:            hCV11318326
SNP Position Genomic:     152580
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,3)   total(G,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3763):
CTGCTATAACAAAATCTCACATACTGGCTGGCTTAAACAGCAGAAATTCATGTTCTCGCAGGTCTGGAGGATGGAAGTTCACCATCAAGGTGTTGTCTGG
S
TTGTTTCTTCCCAGGCCCCTCTCCATGCTTTGCAATGGTCGCCCTCTCTCCATGCCTTCATATCATCTTCCTCCTGTGCATGTCTGCATCCAAGTGTTCT
Celera SNP ID:            hCV915369
SNP Position Genomic:     103738
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:3764):
ACCCCTGCCCAGGACAGAGAGTAAGAGTTACAGGCAGAGGGGCTGGGAGCTGTAAAACCAGGGGCCCTAATGGGACGGCACCGTCTGGGGACATAGATGT
R
CAGGATAATTCATGAAATCTGAACCTGAATCTGAATGAGGCTCAAATCAAAAGAATCTTCACAATGAATTTTCTGTGTGCTAGATCAAAATGACTTTGTA
Celera SNP ID:            hCV1872607
SNP Position Genomic:     111071
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:3765):
TGGAGTGCAGTGGTGGTGCGATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAATGATTCTCCTGCCTCAGCCTCCCGCATAGCTGGGGTTACAGG
Y
GTCCACCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACTATGTTGGCTAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCAC
Celera SNP ID:            hCV11318327
SNP Position Genomic:     152412
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:3766):
CTAGTGTTCCTGGATTCACATCACTGCCCTTGACTCCCACACTCCCAATATGCACCAGTTGAACATTCTTGGTCAATATCACTTTGAAATTTTTCTTTTA
K
GAAAAAGAAAACTGAGTTTCACTTTCTATTCATAGAACACACAAAGCTCTACTTCCGGTTATGGCTTCAGGGCATGAGTGTGTGAGTTACTTTGAACAAG
Celera SNP ID:            hCV1872608
SNP Position Genomic:     112147
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|G,4)      total(G,4|T,3) ;(G,-|T,-)   SC_12_A(G,1|T,20)   SC_12_C(G,1|T,16)   SC_12_AA(G,4|T,16)   total(G,6|T,52)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3767):
TCTCCTTCAAGAGAGTGCCTCAGGAAAGTGCATGCCTTCTGTGAATCTACTATCCCTCTTTTGTTTTTTGTTGTTGTTGTTGTCATTGTTGTGTTTGTTT
S
TTTGTTTTGAGAAGGAGTCTCACTCTGTCGCCCAGATTGGAGTACAGTGGAACGATCTCGGCTCACTGCAACCTCCATCTCCTGGGTTCAAGTGATCCTC
Celera SNP ID:            hCV1872609
SNP Position Genomic:     114518
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;TFBS


Context             (SEQ ID NO:3768):
TTTCTAAAAATAATGATTTTTAAAAGAGTAGAGCAAAGTTGTGGGTTTGCCAGCCTTAACCATTCCCTGTGATTGCCTGGATAGACATGGGCCATATCCG
Y
GCTGAAGGGGGCCAGGCTCATGGACTTCCCAACAGATTCCACCCCAGAGAACGCACAGGCTATTAGTCATGATAGCGAATGGCCAGAAGAAGCAGGTGCA
Celera SNP ID:            hCV6423
SNP Position Genomic:     156737
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3769):
GTAGGAGCATGTGCCGTGGACACGTTCCCGCCATGGCCGCTCAGCAAGGATGTCCATGCACTTCTGCTGCTTCACCTGTGGCAGCCCTATGGGAAATGCC
S
GGATGTATTTCTGAGCACCGGCCTTGCCCTTGGCTTTCATATCCATGCCCACACCCCCTATCTTTGAGATATTTATTTAATGCATTTGTATTATGCAGAT
Celera SNP ID:            hCV27994266
SNP Position Genomic:     100342
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3770):
GGGCCAGGCAAGATCAAGGAGGGGCAGCAGAGGGCACTTCTGGGCGAGCAGTACAGTGGCATCGCAGAAGGACAGGTGGGAGGGGAAGGGATAGGCTGCA
K
CAGCTGCCTTTGAAAACGCCATCGAGCAATAGTATTGCAGCCATTTATACCATAATATTTCCTACAGAGGACCTCGTTTAGTTTCCGAGATTGAGCCTCT
Celera SNP ID:            hCV28025881
SNP Position Genomic:     21904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3771):
CCACGGGCTGGCTGGATTGGGAGACTCCGGTCATTTCTGCAAGGAGAGCGCCACAGGACTGCCTTGTTCCCTGGGCTGTCCTGCCCCTGTGCGGGCTGGA
Y
GTGGTGCTATAAAAGATGATTCAGGAGTGGCACAGGCTGAGGGGGACTAGGCTGGAGAAGGTGGAGGGAAGAGGGAGCACTCCGTGCCCTCTTCCTGTCC
Celera SNP ID:            hCV27839311
SNP Position Genomic:     6919
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,38)   total(C,73|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:3772):
GAGAAAATGGTGTTTACTTATTTATTTTTTTTTATTTTGAGACACAGTCTCACTCTGACGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGTTCACCACA
R
CCTCCGCCTCCCAGGTTCAAGCAATTCCCCACCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCACCACCATGCCCGGCTAATTTTTGTATTTTTTT
Celera SNP ID:            hCV915370
SNP Position Genomic:     106387
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:3773):
CTGAACCCCACCTCCAGAGTTGAGTCCCACCTCCTACCTCACTTCCCTTCCAGCACGAGGATCACTACCAGGGAGAGCCAGGGTCAACTTCCTCCCAGCC
R
TGGCACTTTAGGCTTTCCTCCCTATCCGCAAGGCTCTGTCTTACCTCCAGAGAGAGTTGTTTAGCACCAGGGGGTTCTTCCACTCTTGCTCACTATCTGC
Celera SNP ID:            hCV2004531
SNP Position Genomic:     100017
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3774):
CATGAAAAATAATGAAAAACTAACAGTTGTTAATTGGGAGGTAGGATTATAACTGATTTTATTTTTATTATATCTTTCTGTGTATGTTACTATAAACACA
Y
TTTAGACTGGGCTTCTGGGCACTTAGGCAGTTGTGCTTCTCTTGGTGCCTTTTCCCCATTTTTTTTTTTTTTTTTGATTTGCATGTATGACAGTTTTCAT
Celera SNP ID:            hCV915372
SNP Position Genomic:     109887
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3775):
GCCTCAAGTGATCCTCCTATCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCCTCATGCTAACCTATTTGTTGCTTTTAAAGCATTAATCATGG
R
ATAAGAAAAAGGAATAAGTTATTCTTCTGCTGTATAACACTCTGTAAATGAAGAGGTCATTCCTAAACCATATCCTGGTTTTGTTGTTGTTGTTGTTTGT
Celera SNP ID:            hCV11318402
SNP Position Genomic:     30157
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3776):
TCAAACTCAAAGTTTGAGGATGGCCCACCTGGAAACACCCCAAAAGAATGAAGTCAGAGTTGTAAAGGAGGGAACTTTAGGGTTTCCATAGGGAGAGACA
S
AGGCATTTTTAGCAGGATTACATTTTTTCATACAAGGCTGGTGCATAGTTCCAGGAACTTGGTTACAGGCAGTGTTTCTTTTTGGGAAAGGGACATTTAA
Celera SNP ID:            hCV915373
SNP Position Genomic:     113045
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3777):
AGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATCACAGGCATGAG
Y
CACCATGCCCAGCCTACTCTCCCTCCTTTGAAACCTTGCTGACAAACTACCTACTCTATAAATCACGCTCAGATACACTAAATCCTACTTGTCATTCAGA
Celera SNP ID:            hCV1872612
SNP Position Genomic:     114801
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3778):
TTGGTCTGTGACCCTCCCCTCAAACAGTCACCTTCTCCCTAAAGTTGCCACCGGCTTTAGGAATCACCTGCTGTTCCCTTCCCTGTGCAACCACAGCACC
Y
CTACATCCACCTGACCAATCCATTGAGCTTCTCCCCATCAGGGACCATGGCTTATCCACTCACAGGCTGGAGCAGCAGCCCTCAGCTCCTTCCTGAATAA
Celera SNP ID:            hCV11318332
SNP Position Genomic:     138056
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,4)      total(C,2|T,4) ;SC_12_A(C,1|T,20)   SC_12_C(C,9|T,12)   SC_12_AA(C,1|T,16)   SC_95_C(C,56|T,131)   total(C,67|T,179)   SC_12_A(C,0|T,23)   SC_12_C(C,9|T,12)   SC_12_AA(C,3|T,21)   SC_95_C(C,57|T,128)   total(C,69|T,184) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3779):
GATTTTTTTTTTTTTTGCGACAGTCTCACTCTGTTGCCCAGGCGGCTCAATACAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCA
R
GTAGCTGGGGTTACAGGTGTGTGCCACCATGCCTGGCTAATTTTTGTATTTTTGGTAGAGATGGGATTTCACCATATTGGCCAGGCTGGTCTTGAACTCC
Celera SNP ID:            hCV1872613
SNP Position Genomic:     115433
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3780):
CTCAGGCTCCCAAAATGCTGGGATTATAGGCATGAGCCACCGCGCTTGGCCTCTGCCTTGATCCTTGATGGCAAAATCGTTCTTCTCCATCTCCTTGTCT
Y
TCCCCCTTAAAACTTCTGTCACTTCAGGAACCTCTTCTCCACCACCAGTCTTAGAGAAATATCTGATAAATAGCATAGAGCAGTTTAATATGTGTTGTTC
Celera SNP ID:            hCV1872614
SNP Position Genomic:     115656
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3781):
TTATATTTGTATTTACCTTTTATGATGGGATTTTGGATTCAGCTTTTAAAAGGCTTATCCATCCCTCAAAATGTGCTCCTCAAAATCCAAACCTCTGGAC
Y
GTGTAGTTTGTATGTGCATACATTTGTGCTAATTTTATCACAGAGCAGAACAGATATTTGACAGATTTATTGTGGAGCCTGCAGTTCTCTTGGGAGGGTT
Celera SNP ID:            hCV915376
SNP Position Genomic:     119666
SNP Source:               dbSNP
Population(Allele,Count): SC_12_T(C,9|T,12)   SC_12_C(T,6|C,7)   SC_12_TT(C,11|T,12)   total(C,27|T,30)   (T,-|C,-)   no_pop(T,-|C,-)   JBIC-allele(T,725|C,774)   total(C,774|T,725)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3782):
GGGTTCCGCCCAGCCCCTCACTTAGAATCCTCCCTTTGGCCTTTCTCAAACCACACTCCTTCCTGTGAAGCCAAGAGGTCGTCTCTGTTCCTAAACTACT
Y
CCCAGGACCTCGGAATTCCATACCTAAACAGCCTCAAGCCTGTGTAGACATCTCCCTAGGTTCTGTCCTTGAAAGGGGCAGGAGGAGACTTTCCCGATAT
Celera SNP ID:            hCV1872616
SNP Position Genomic:     116851
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,17)      total(C,17|T,5) ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3783):
TTTCATTTCTCTGTGATTTAAAACTAACTACTTAGTTTCTTAAGGAACCATCCCGATTCATCAGGCTTCTAACTAACCTGAGCACAGAAGCAAATATGTA
M
CCTTTGGAAAGGAAGCAGTGAAATGGACTGCAGACCTCAAGGGTGGTCCCCAGGGATGGAGCTTGTAGCTGAGGCATCTTATGGAAAGCCTGATGTGGAG
Celera SNP ID:            hCV915378
SNP Position Genomic:     122233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:3784):
TTTTCTGGAGAGGGAGTCTACAAATCTGATCTTATTTGCATGATATTTGCCAAGTTCTCAGTGCATTTACAAAATTAACTGTTATTAGTCTGATAAAAAT
M
ATGAGTTTATTTCTTTAATGCTATAAACCTGTCATTCATCCTATAATATATGCACATTTGCCAGCCATTTCCTTGTTTACTCAATATTTGATTAGCTGTG
Celera SNP ID:            hCV1872617
SNP Position Genomic:     117783
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,11)      total(A,5|C,11) ;no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3785):
TGCCCTGTGGTTGGGTGATATGTAATTTGAATTTAGCCTTGGCTTCTATTCCATGAGGAATGATGTCTTTTAGCTTACATGGCATTGTTGAACTCACAGA
R
CGAGGCTTATTGATTAAATAACTTTCTGATCGTAGAAATCTATGTTTCATTCAGTTTGGCACAGATACAGGTTTTGATGCTATAAACCATTTTCATTTGA
Celera SNP ID:            hCV11318337
SNP Position Genomic:     130969
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,4)   total(G,2|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3786):
AATTATACAACTGATTTTGTTAAATCTATCACTTTGATCTTGTATTTAATCATCATTTTTTTTAAGACAGGGTCTCACTCTGTTGCCCAGGCTGGCTTTG
K
ACTCCTAGGCTCAAGTGAACCTCCAGCCTCAGCTTCATGAATAGCTGAGATTACAGGCATGCACCTCTGCACCCAACTTAAATACCATTTCTTTAAAACA
Celera SNP ID:            hCV1872618
SNP Position Genomic:     118272
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,8)      total(G,8|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3787):
TTCTGTGGTGACCAGGCAAGGAGTCTCACTGTCAGACCAGAACAATGTTTCTACTATTACCTCCTATGCCCCACGGCCTCGGTTGGGTTCACATCAAAAC
R
TAAAGGTTAATTCTGTTAAGAAACCACCCAGGTGAGACTTTCAGATGCAAATTCATGCCCAGACGCACCGAAGGTCCTCACACTTTATGGATTACTGATT
Celera SNP ID:            hCV1872619
SNP Position Genomic:     120626
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:3788):
TCAAAAAAAATATTAAAGAACTGAAACTCACCAGATCATGGCATCCAGAGACTGAAGCGCCAGGCCCCTGGTTCATCATGATTGCTTACTTACCCCTCCC
R
AGTTCCTGTTTTCTCATACAAAGTTACATTTCTTCCCTGCTATATAAATCCCTAGTTTTAGTTGGTCATGGAGATGGACTTCAGACTGAGCTCTCATCTC
Celera SNP ID:            hCV8901341
SNP Position Genomic:     74608
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3789):
TGAACGAAAGGGGGCCTGCGGGGAGGGAAGAAGGTGGAAAGTTTTTGTATTCTTGGTAAAAAAAAAAAAAAAAATGCGTGAGGAAACATGTTTTCTGGAG
R
TGGTATCCTGTCCACAGGGGAGCATAACCCCTTTTCTGGGAATGTATTGGAGCACGGACGGGGGTGCCATTGCTCAGGCTTCTAAACAAGCCAAGTTTCT
Celera SNP ID:            hCV8901276
SNP Position Genomic:     6464
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3790):
CATTTTCAATTATTAAAAATAAATTCATCACGCCTGTAATCCCAGTACTTTGGGAGGCTGAGATGGGCAGATTGCCTGAGCTCAGGAATTCAAGACCAGC
M
TGGGCAACATGGTAAAACCCCATCTCTACTAAAATACAAAAAATTAGCTGGGCGTGGTGGGGCGCACCTGTAGTCCCAGCTACTCCGGAGGGTGAGGCAG
Celera SNP ID:            hCV12011875
SNP Position Genomic:     47308
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3791):
ATGGCAATATATTCTAACATGTATTGACTTGTCACTATCGGCCGTTTGCTGTGCTAAGCACTATATGTAGATGATTGCTTGGGTGCTTTGAGAACATGTA
R
AAGGGAACCAAGTCCTGATTCGGAGGTTCAGGAAAGGCTTTCAGAGGACAAGGTATCGCGGGTGGGAATGGAAGATGTATGGGAATTAGCCAAAAGGACA
Celera SNP ID:            hCV8901277
SNP Position Genomic:     12786
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:3792):
TTCACTCTGAAGCTGCAGATGCTGTGTTATAGGGTGTTAAAGTCTCTACAGTTTCTATCAATGCTGTTGCATTCATGTTTTATTGCTTCTGCCAAAATAC
R
AGTATTTCAAGGATGAAGTTCATGTTCTCCCACCAGCTCTTGTCTAAAATCCATGCTCAATGAGTATTTACTGTATGCAGGTTATTACTGAAGAGAGGAC
Celera SNP ID:            hCV12011876
SNP Position Genomic:     43793
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3793):
TTGAACCTTGGTTCTCCTTCCCCCAGGTTTTATGCTGCTGAAATCATTCTTGGTCTGCAGTTCCTTCATTCCAAAGGAATAGTCTACAGGTAAATTTTGC
K
TTGTGGAAACAAATGCTAAGATATCGGCTTTCCTGGCTCAGTTAATTTAATCATTGCACCGAGTGCTGTGAGACAGCCCATGTGATTTCCTGGGAGTAAG
Celera SNP ID:            hCV915382
SNP Position Genomic:     123976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   JBIC-allele(G,167|T,1118)   total(G,167|T,1118)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3794):
GTAATTTTTTTTGGTCTATCTACAAAATCATAGATTAAGAATCTGTTTTATAATTTTTTAATCTTCAGGAAATTGAGAAATACTCACCAGAATATTATTT
W
AAAACTCTTAGCAGAATTTTTTTAAATTTTTCTTTATATGTGTAAGGCCTGCAATGTATCTAAAATATTTTTGTACCTAGGCACTGACTAAATTGTGTGG
Celera SNP ID:            hCV915383
SNP Position Genomic:     124862
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3795):
GCACCCTGTCACTTTCAATAAGTATACAATCGGCACATGCTAAGTGCCCTAAGTGCCTGGCACCATCCCATTGTCTGGCCAGCAGGTCAACTGGACTCTC
S
CTTGTGCCCCCCGCTCATCTGCTGGGTTGTAACACGCAAGCATCTAGATGCCACAGGGCATCCCACCTAGATTCCCCAGGCTTCCTGGGGCTCAAAAACA
Celera SNP ID:            hCV1872620
SNP Position Genomic:     121282
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,3)      total(G,3|C,1) ;no_pop(G,-|C,-)   SC_12_A(C,7|G,13)   SC_12_C(G,9|C,12)   SC_12_AA(G,9|C,15)   SC_95_C(G,79|C,104)   total(G,110|C,138) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3796):
CTTGCAGAGTTTGGCATTTCCTTTCCCCCAGCCTTAAAACATATTCACTCTGCTCAGACCTACCAGAAGGAACAGCTAGTGAAGAGCCAGGTGGAGCAAG
Y
GTCCACCCAAGTCAAGTGGTGAAACTGTGGGGTCAGAAGACCTGGACTGAGTTTCTAAGCCACCACTGATGTAAGCACAGAGTGATTGCCAAAGTCTCAC
Celera SNP ID:            hCV15751851
SNP Position Genomic:     129951
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(T,14|C,1481)   total(C,1481|T,14)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3797):
AGGCGGAGGTTGCAGTGAGCTGAGATCACACCATTGCACTCCAGCCTGGGCAACAGAGCAACAGTCCATCTCAAAAAATTTAAAAAGTTAAAAAAAAAAA
R
GGGGAAGTAGGAATAAAAATTAGGAGGGACTGGAGAGAGAGAGAGACAGAGATCTTAGACTGGAAGGGACCCCGTGAAACCTAAACCCACATGCCTCGGG
Celera SNP ID:            hCV915384
SNP Position Genomic:     125833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3798):
TAAGATATCGGCTTTCCTGGCTCAGTTAATTTAATCATTGCACCGAGTGCTGTGAGACAGCCCATGTGATTTCCTGGGAGTAAGCTCCACACATAGGTCT
S
CTGCCCACAATGATTACATGGATGATGACTTACAACCAAGGAAGACATTCCAGTCTCAACAGCAGGAAAGTGCTGAGCTCATTCTGTCCTTTATGCTGGT
Celera SNP ID:            hCV1872621
SNP Position Genomic:     124093
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:3799):
GCTTTCCTGGCTCAGTTAATTTAATCATTGCACCGAGTGCTGTGAGACAGCCCATGTGATTTCCTGGGAGTAAGCTCCACACATAGGTCTGCTGCCCACA
R
TGATTACATGGATGATGACTTACAACCAAGGAAGACATTCCAGTCTCAACAGCAGGAAAGTGCTGAGCTCATTCTGTCCTTTATGCTGGTTCTCACTTGA
Celera SNP ID:            hCV1872622
SNP Position Genomic:     124103
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:3800):
GAGGGTTGCCCTATTTGGAGTCACACAACTAAAGGCTTAGAGGAGGTTTGAGAAGTAAGTATTCTTAAGCAGCCTCTTTGAATGTAATTTTTTTTGGTCT
W
TCTACAAAATCATAGATTAAGAATCTGTTTTATAATTTTTTAATCTTCAGGAAATTGAGAAATACTCACCAGAATATTATTTAAAAACTCTTAGCAGAAT
Celera SNP ID:            hCV1872623
SNP Position Genomic:     124779
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|A,5)      total(A,5|T,4) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3801):
AAGCAGAAAAACACCTGAAGGTTTTAGTTTACAATAAACTCAATATTGGGCATTACTGTGATGAAACTATGAAAAATATGGTGCAGGATCTTAGTCCACC
R
TGGCAAAAGGCAAGAGGATGGTAATGGAGCTCTGGGTGCCGCTGTAACCTGCACCAATCAGATTGTCTCTCTGGAGGATTCTGGCTTCATTCTGAGCCAA
Celera SNP ID:            hCV915385
SNP Position Genomic:     128562
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(A,1|G,20)   SC_12_C(A,0|G,23)   SC_12_AA(A,2|G,14)   SC_95_C(A,3|G,166)   total(G,223|A,6)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3802):
AGGCAAGAGGATGGTAATGGAGCTCTGGGTGCCGCTGTAACCTGCACCAATCAGATTGTCTCTCTGGAGGATTCTGGCTTCATTCTGAGCCAAGTCAGTC
R
AGAAGAAAACGGACAAATTCAAGATATTTGGAAGGTAGAGGCCAGAATGTTTGCCCTTCATCCAGTTTCCCCCAGTGGCCACATCTCATGCAGCTGTGGT
Celera SNP ID:            hCV915386
SNP Position Genomic:     128670
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3803):
TTGTTTGATAAAGACTCTGGCAGACCTCTGATTTCCTGGGTAAAATTATTCAGCAGCAAGTTCCTGTCATTGCCAAAGGAGTTGTGGCCATCTGAGTCCT
R
GAACTATGTAGCTTTGCCCTGTGGTTGGGTGATATGTAATTTGAATTTAGCCTTGGCTTCTATTCCATGAGGAATGATGTCTTTTAGCTTACATGGCATT
Celera SNP ID:            hCV915387
SNP Position Genomic:     130854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3804):
TCAATTTCTTTCCTCTTCACCTTGCAACACCTTGGTGTGGCTGCCTTACTCTGATGTATTCCTGTCTACAGATTTTGGGTGCCGGGTCTTTTCCACGGCA
W
ACCTTCCTTCCCGATTTCCATCTGCTTCTTGCAGAATCCGGCTTCCACAGCTTGCTTCTCTCTGCAGCTTCACTCCCTTCTTTTCTTTTACGTGTGCTTG
Celera SNP ID:            hCV915388
SNP Position Genomic:     131354
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3805):
CTGCCCATGCATGGAAGTTATGTTCTTTAAGCCTTCTTAGGCACCAACAAGAAAAAAAAATGAGTTTATTTTTTGTGCTCATTAGGTTGCAGGAGACCCT
W
GAAAGTCATCATCAAATAGTTATAACTGAGGATAGGTCACCAGACAAGTATGCTGGCTTTAAAACTGGCCTGCTGCATAATAAGAAATAAGTTGCCTTAT
Celera SNP ID:            hCV1872627
SNP Position Genomic:     126179
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3806):
AAAACTAGGAATTATACAAATTTCCCCTTTCTTTCTTACCCTTCAAATCCACCCAAACACCAACACCTTCTATAATTGGACCCTCTCATGTCCATTCACT
S
CCCTAAACTTGTGACTGAATTCAGACTCTCCCTTGATTCCTTCTCCAAGCTCAAACAAATCCCCTTGATCCAGCTCCGCCCAGATCTCCAGGTCCTCTCG
Celera SNP ID:            hCV915389
SNP Position Genomic:     131840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3807):
TGGCGTCACTCACCATCTGCCAGAGGAACCACAAAATCGACGGCATCTTCAAAGATGATGTAAGCCCTGGTTTGGGTCAAATGTAAAACCACAGAGCCGG
R
AAGTATGCAGATGTGGAAAGAAGAATCTAGAACTTCCAATCTTAGAGTATTAGAACTAAGAAGAACCTTAAGATTATATTTTATTGACAATAAAACTGGG
Celera SNP ID:            hCV1872628
SNP Position Genomic:     127418
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3808):
CTCCTGAGTAGCTGGGACTATAGGCACGCGCTGCCACACCCAGCTAACTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAAGATGGTCTC
R
ATCTCTTGACCTCATGATCCACCCACCTTGGCCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCGCACCTGGGCTTTTTTAAAAATCTTCTTTATAG
Celera SNP ID:            hCV2004478
SNP Position Genomic:     10437
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:3809):
TTCCAGCATGTGGCATGAATGTGCATCATAGATGCCAGACAAAGGTGGCCAACCTTTGTGGCATAAACCAGAAGCTAATGGCTGAAGCGCTGGCCATGAT
W
GAGAGCACTCAACAGGTAGGAGCATGTGCCGTGGACACGTTCCCGCCATGGCCGCTCAGCAAGGATGTCCATGCACTTCTGCTGCTTCACCTGTGGCAGC
Celera SNP ID:            hCV25601479
SNP Position Genomic:     100226
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,35)   caucasian(T,32)   total(A,1|T,67)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:3810):
GGGTCAAATGTAAAACCACAGAGCCGGAAAGTATGCAGATGTGGAAAGAAGAATCTAGAACTTCCAATCTTAGAGTATTAGAACTAAGAAGAACCTTAAG
W
TTATATTTTATTGACAATAAAACTGGGCCCAACCCATGTGTTTGAAGCCACTTTCAATGCTTTCACGTGATTCTCATTGGACGTTACAGGACCCCATGAG
Celera SNP ID:            hCV1872629
SNP Position Genomic:     127491
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,3)   total(A,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3811):
CCATGAGGGCTGGCATTTTGTCCCTACATGTGTCCCCAGCCACTCTAACAGGGCCTGACACATACCAAGTTGTGAACAAATATGTGCAGAATGATTGTGT
W
AGTGTTTCAGTAGGGGACACACTTGGTATTATGTGCACAGCTAGATTTGGGGTGTCGCAGAGCTGTCAGTGACGGCTCAACTGAGACCTGAAGGGGAAGT
Celera SNP ID:            hCV2004479
SNP Position Genomic:     11307
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,8)   total(A,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3812):
GGGTTCTTCTTTTCTTTCTGTGGCTTGAGAACTCATTTTTCATTGCTCAGTAATATTCCATTGACAACTAATGATTTGTTATGTTCTTTTGTTTTCCTTA
W
AATGACAGACTCCATGGATCAAGAATTTTAGAGTAGGGAGGGGTGGTAGAGGTTATCAAGTCAGATCCCCTCATTTTGCAGCAAAGGAAATGGAGCTCCA
Celera SNP ID:            hCV8901424
SNP Position Genomic:     116484
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:3813):
TAATGCAACTTAATGCTTTTCTTCCCTGTGTGATAAATAATAACAATGTATGTGATAAAGTTAATACATAAGGAGTTCTTGCTATATGCCAGGCACAGGG
Y
TAAATACTTTATATGAATTCTTTCATTTAATTTTAAATATGAACGATAGCTCCCCTTTCTTCTTCAGAGCAGAATTCCCAACTCTTTCCATCGGCTGTCC
Celera SNP ID:            hCV8901425
SNP Position Genomic:     117287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3814):
AAGTATGGTCTTCTGGGGCAATAAGCCACTATGTTCCTTTCCTTGCACCCTGCAACACCCCCACCCACACATCCCAGAAAAGAGCACAACAGTTCAGGTT
S
AAGGTCAAACTCCTAGCTCCATCACCTTCTGCCGTACCATAGCCCTGGGGGAAATGAAGACAGTGTTTCTCCTCTCACTGGTCTTTCTACTACTAGTTTC
Celera SNP ID:            hCV27488835
SNP Position Genomic:     94824
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,44|C,1455)   total(G,44|C,1455) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3815):
CATAGAATACTATGTAGCCATAAAAAGGAATGAGATCCCTGTCCTTTGCAGGGACATGGATAGAGCTGGAAGCCATCATCCTCAGCAAACTAACACAGGA
K
CAGAAAACTGGACACCTTATGTTCTCACTTATAAGTGGGAGCTGAATAATGAGAACATGTGGACACAGGGAGGGGAACAACACACACTGGGGCCTGTCGG
Celera SNP ID:            hCV8901284
SNP Position Genomic:     13781
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,8)      total(G,4|T,8) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3816):
GGAGTCGAAAGACAATAGCTAAGTAAATAACACACAAATAAGGTAAAGTCAGGCACCTCAAATACAGTGACTTGACCACTACACATTCTGTGTACGTAAC
R
AAATACCACATGTGCCCCATAAATATGCAAAATATGATGTATCAATAAAAACAAACACACACAAAACTCAAAGAACAATAAAACAAAGACGGTGAAGAGG
Celera SNP ID:            hCV12011883
SNP Position Genomic:     26386
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3817):
CCCAAAGTGCTGGGATTACAGGTGTGAGCCACCCCACCTATCAAGGGAAGATATTTTCTTAAGGGGAGTATGTAATAACAACCATGTCCCTGGTTTGTTA
R
GAAGGTTATAAACTTTGAAATATACCCATCAGTTTCATAAAGAGCAAGACAGGTTAGGAAGAAATAGTGTTCATTATACAGACTAGAGAGCTTTCAGCTT
Celera SNP ID:            hCV8901285
SNP Position Genomic:     14814
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3818):
TAACATGTCAGGGCTTTTTCTGGGCGTTTAAAATACAGGGGAGAAGAGAAGGAGAAAGGTACTGACCCTCGTCAAGCCTATGCCTACTTTTTTTTGGAGT
M
GAAAGACAATAGCTAAGTAAATAACACACAAATAAGGTAAAGTCAGGCACCTCAAATACAGTGACTTGACCACTACACATTCTGTGTACGTAACAAAATA
Celera SNP ID:            hCV12011884
SNP Position Genomic:     26291
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3819):
CCTTGTAGGAGAAAAGACTGGAGAGAGGCCACTGAATCTCGTTGTGTCATTCACCCTACCTAGTCCTGCTCTGCCAGGGTCATGCTCACCTTCCAGACCC
M
CCCAACAGTGAAGTCGGACTGAAAAATCCCAGAAGTGGGAATTGGGAGACAAGGTTGAGTGCATTAGGGGGATGTCTAGGATTCCCCCTGATTCGAATAT
Celera SNP ID:            hCV12011889
SNP Position Genomic:     19740
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;TFBS


Context             (SEQ ID NO:3820):
TTCTCCCTCCTCAGTGCCTTAGAGAAATGTTAGCCTCTCTTGTGTGATTCTAAGTCGATGCTGCCCTGCAGGGTCTTTATGAGTGTTCCGCTGCTGTCTC
W
CCTACAAACGTGTCTGTAAGCACCTTCAGGGAGGGGACTCTGTGGCCTGGGGAAGGCCGACTAGGTGAGGCAGAGAATTAAAACACAGGAACACACAACT
Celera SNP ID:            hCV915390
SNP Position Genomic:     138494
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3821):
ACTTCCCAGCTTCTGAGGCTGAAGGAGAACAGATGAGGCTTGCTCTGGCGTCGTTCGGTGAAACCACTGTTCCTCTCTCGCTGCTTTCCCGGGTTTCCTT
R
TGCATTTTGAGCTGTGCATCTGATTCTTTGGGTCAAAGCAAGGACTGAAAAAGAGCAGAACACAAGAAGAGATCACAATGAGGCAAGGTCCCGGGGCTGA
Celera SNP ID:            hCV915392
SNP Position Genomic:     139487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3822):
GAGGGAGCACTCCGTGCCCTCTTCCTGTCCATGGGAAATGAACCATCTGTGCCTGGTGTCCAAGTCCTTGACGTTCCAGTTGCCCTTTGAGAGCACACCT
Y
AAGCCTGCTGAATTCTTTTAAGAACCACCTACAAGATCTGAGAAGTCCGCCCATGCTTTCTGTCAACTCCGGCCTCTTTGACCTTTTCTTTTGCCAAAGA
Celera SNP ID:            hCV27835559
SNP Position Genomic:     7090
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,1)   caucasian(C,38)   total(C,55|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:3823):
AGCTGGCCAGGCGCAGTGGCTCACGCCTATAATCCCAGCATTTTGAGTCTGAGGCAGAAGGATTGCTTAATGTCAGGAGTTCATGACCAGCCTTGGCAAC
R
TAGTGAGACCTTGTCTCTACAAAAAATTTTAAAAATTAGCCAGGCATGGCGATGGCACACATGTGGTCAAGAGTCTGAGGTGGGAGGACTGCTTGCTCAA
Celera SNP ID:            hCV1872630
SNP Position Genomic:     128177
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:3824):
AAGCCAGAAGTAGAGCCTGTGACGTTTTACATGGCCAGAAAAACTCTTGTGCTGCTGTTGATATTGTTCTTCTGTTTGTTTAGCAAGTCTGCCTTAGAGA
R
ACTTCACAGCACCCCTGGGCCTCACTTAGCACTGATCTGTCTCCCAGGAGTGGGCCCCGGGGTGGTGGAGGGTCAGGGATGGGGTTGCCGTGCACATCAG
Celera SNP ID:            hCV915393
SNP Position Genomic:     140993
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3825):
AGTGGCTCACGCCTATAATCCCAGCATTTTGAGTCTGAGGCAGAAGGATTGCTTAATGTCAGGAGTTCATGACCAGCCTTGGCAACATAGTGAGACCTTG
Y
CTCTACAAAAAATTTTAAAAATTAGCCAGGCATGGCGATGGCACACATGTGGTCAAGAGTCTGAGGTGGGAGGACTGCTTGCTCAAGAGGTTGAGGCTGC
Celera SNP ID:            hCV1872631
SNP Position Genomic:     128191
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,3)   total(C,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3826):
AACTTCTTGGAGTGTCATTCTCTCCATTTGCAAAGTGAAGAAAATTGTGATCTCTGATAGCAGTGATGCTGCGAGAAAGGAGCATGTGCCAGTGTGTGGG
S
TATTGCTGGGTGGAGCTGGAGGAGTCAGCTGTGCCAGATCACATAGGACCTGTAAGCAGGTGAACCATATACGTTATCCTCCAGATGGGGACTGTTTATA
Celera SNP ID:            hCV2004481
SNP Position Genomic:     11701
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,6)   total(G,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3827):
CCAACAAAAAAATACCTTCTGCGTGCGTGTGTGTGTGTGTGTATTTATGTGTGTCTGTTCACAGATGCACCCAGCTAAGCCCAAACACATTACAAGGTAG
W
ACAGATGTTCATCCCCAAGAGAGTCTGACTGTCTTGCTTTTAAGTTTAGTGCCTCAATCCTATTATTCCTTCTCCATTTTGTTTTGGCTAATAAAGCAAC
Celera SNP ID:            hCV915394
SNP Position Genomic:     141667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3828):
GAGTGTCATTCTCTCCATTTGCAAAGTGAAGAAAATTGTGATCTCTGATAGCAGTGATGCTGCGAGAAAGGAGCATGTGCCAGTGTGTGGGCTATTGCTG
R
GTGGAGCTGGAGGAGTCAGCTGTGCCAGATCACATAGGACCTGTAAGCAGGTGAACCATATACGTTATCCTCCAGATGGGGACTGTTTATAGAGTGAAAG
Celera SNP ID:            hCV2004482
SNP Position Genomic:     11710
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3829):
ACATAAGCGCCTCTCGTGAGCCCCTCTCAGGCTGCAATGAGACAAACTCCCTCGCCTCCTATGGAATTTTATGTTAACCAAATTATATTGATTAATGTGA
S
ATTTGCTTCACTTTTGTTTTTCAGGGACCTGAAGCTAGATAACATCCTGTTAGACAAAGATGGACATATCAAGATCGCGGATTTTGGAATGTGCAAGGAG
Celera SNP ID:            hCV1872633
SNP Position Genomic:     129477
SNP Source:               Applera
Population(Allele,Count): african american(C,14|G,24)   caucasian(C,17|G,23)   total(C,31|G,47)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|G,5)      total(G,5|C,3) ;no_pop(G,-|C,-)   ;JBIC-allele(G,623|C,864)   total(G,623|C,864)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:3830):
TAAAGCAACTTGCCCGCAACTCATCCTTGGAGCAGCAGTCATGAATTAACGAAGATTTTTTTTCCCTCTTTTCCATTAAAAAAAATTTTATGTGCCACTA
Y
TATGTCCTAGGGTTTTGTTTTTAATTGTGGGAAAATACACGTAACATGAAATTTACCATCTGAACTATTTTTGTGTACAGTTCAGTAATGTTAAAAATAG
Celera SNP ID:            hCV915395
SNP Position Genomic:     141859
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3831):
ATCCTCCAGATGGGGACTGTTTATAGAGTGAAAGAGCACGTTATTAATCACTAAGCTTGGGTAACAGGTACAAACCCAGATTGTCCTGGGCAGACTGTCC
Y
GTAGAGTTGTCCTGCGTTAAGTCATATGAAGGAGTTTGATCCTTTTCTAAGAACAGGAGGAACCCTTTAAATGCTTTATCTACCAATGTATACAAGTGCC
Celera SNP ID:            hCV2004483
SNP Position Genomic:     11877
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:3832):
AGAAGGTTTTCATCTTGAAAAACCAAAACTCTGTCCCCATTAAATACCAGCTCCCTATTCCCCCTCCCCACAGCTCCTGGCAGCCACTATTCCACTTCCT
K
TCTCTAGAATTTAACTATTAGGTTGGTGCAGAAGTAGTTACGGTTTTTGTCACTGAAAGTAAGGGCAAAAACTTCTGTTAATACTTAAGGTACCTTATGT
Celera SNP ID:            hCV915396
SNP Position Genomic:     142384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3833):
GTGAAAGAGCACGTTATTAATCACTAAGCTTGGGTAACAGGTACAAACCCAGATTGTCCTGGGCAGACTGTCCCGTAGAGTTGTCCTGCGTTAAGTCATA
Y
GAAGGAGTTTGATCCTTTTCTAAGAACAGGAGGAACCCTTTAAATGCTTTATCTACCAATGTATACAAGTGCCATTCAGGTTCTCTCCAGCGTTTCAGAG
Celera SNP ID:            hCV2004484
SNP Position Genomic:     11904
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:3834):
GCCATCTCAATTTCTTTCCTCTTCACCTTGCAACACCTTGGTGTGGCTGCCTTACTCTGATGTATTCCTGTCTACAGATTTTGGGTGCCGGGTCTTTTCC
M
CGGCAAACCTTCCTTCCCGATTTCCATCTGCTTCTTGCAGAATCCGGCTTCCACAGCTTGCTTCTCTCTGCAGCTTCACTCCCTTCTTTTCTTTTACGTG
Celera SNP ID:            hCV1872635
SNP Position Genomic:     131348
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:3835):
CAAAACTCTGTCCCCATTAAATACCAGCTCCCTATTCCCCCTCCCCACAGCTCCTGGCAGCCACTATTCCACTTCCTGTCTCTAGAATTTAACTATTAGG
Y
TGGTGCAGAAGTAGTTACGGTTTTTGTCACTGAAAGTAAGGGCAAAAACTTCTGTTAATACTTAAGGTACCTTATGTAAGTGGAATCATTCAGTATTTGT
Celera SNP ID:            hCV915397
SNP Position Genomic:     142407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3836):
TGAACTCACAGCACTCGGCTTGCACTGCAAACTCACCTATACGTTGGCAGCTGTCTCCTCACTGGGCACTTAATTCATGAACAACTAGGAGGGAAAGACA
R
CAAGACAGCCAGGGGTCTGCTCTTTGGCTCTTTGCATTTTTTTTTACGGGGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCACGATCTCAGCTCAC
Celera SNP ID:            hCV2004485
SNP Position Genomic:     12120
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3837):
TGGCTTACTTCACTTAGCATAATGTTATCAAGGTTCACTCACGTAGCATGTGACAGGTTTCCCTTCACCTTGAAGGCTGAATAATATTCCTCTGTGTGGA
K
GTACCACATTTTCTTCAACGCCTTCCCTATCCCTCCTCCCTACCCTCTGCCCAGACCCTGGCGACTGCCACTCTCAGCTTCTATGAGTTCAACGTGTTTA
Celera SNP ID:            hCV915398
SNP Position Genomic:     142619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3838):
CCTCACTTCCCTTCCAGCACGAGGATCACTACCAGGGAGAGCCAGGGTCAACTTCCTCCCAGCCGTGGCACTTTAGGCTTTCCTCCCTATCCGCAAGGCT
S
TGTCTTACCTCCAGAGAGAGTTGTTTAGCACCAGGGGGTTCTTCCACTCTTGCTCACTATCTGCCTTCTTCCTTCCAGCATGTGGCATGAATGTGCATCA
Celera SNP ID:            hCV25601486
SNP Position Genomic:     100053
SNP Source:               Applera
Population(Allele,Count): african american(C,30|G,4)   caucasian(C,30)   total(C,60|G,4)
SNP Type:                 INTRON


Context             (SEQ ID NO:3839):
ACTTATAAGTGGGAGCTGAATAATGAGAACATGTGGACACAGGGAGGGGAACAACACACACTGGGGCCTGTCGGGAGGTGGGATTGGAGGGAGGGAGAGC
R
TTAGGAAAAGTAGCTAATGCATGTGGGGCTTAATACCTAGGTGATGGGATGATGGGTGCAGCAAACCACCATGGCACATGTTTACCCATGTAACAAACCT
Celera SNP ID:            hCV2004486
SNP Position Genomic:     13908
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,12)   total(G,12|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3840):
CACCTCCTACCTCACTTCCCTTCCAGCACGAGGATCACTACCAGGGAGAGCCAGGGTCAACTTCCTCCCAGCCGTGGCACTTTAGGCTTTCCTCCCTATC
Y
GCAAGGCTCTGTCTTACCTCCAGAGAGAGTTGTTTAGCACCAGGGGGTTCTTCCACTCTTGCTCACTATCTGCCTTCTTCCTTCCAGCATGTGGCATGAA
Celera SNP ID:            hCV25601487
SNP Position Genomic:     100044
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,32)   total(C,65|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3841):
CACACACTGGGGCCTGTCGGGAGGTGGGATTGGAGGGAGGGAGAGCGTTAGGAAAAGTAGCTAATGCATGTGGGGCTTAATACCTAGGTGATGGGATGAT
R
GGTGCAGCAAACCACCATGGCACATGTTTACCCATGTAACAAACCTGCACGTCCTGCACCTGTATCCCAGAACTTAAAATAAAAATAAAAATTAAAGAAA
Celera SNP ID:            hCV2004487
SNP Position Genomic:     13962
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,12)   total(G,12|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3842):
TCCAGTGGGGGATGAGCATGGCCCGACGTGGACCCCCTAGGGGATGGAGCAAGGCTTTCTGGGGAACTGGAGGGAGGATGTAGGGGGTACCACTTCCACA
Y
CCAGCCCAGACAAGTCATGATCATAAGTATGGTCTTCTGGGGCAATAAGCCACTATGTTCCTTTCCTTGCACCCTGCAACACCCCCACCCACACATCCCA
Celera SNP ID:            hCV25601488
SNP Position Genomic:     94699
SNP Source:               Applera
Population(Allele,Count): african american(C,24)   caucasian(C,31|T,1)   total(C,55|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:3843):
AAATATAAAAAATTAGCTGGGTGTGGTGGCACGTACCTGTAATCCCAGCTGCTCAGGAGGCTGAGGCAGGGCAATTGCCTGAACCCGGGAGGCGGAGGTT
K
CAGTGAGCCGAGATCGTGCCACTGCACTCCAGCTTGGTGACAGAGTGAGACTCTGACTCAAAAAAAAAAAAATTAAGTGCTACCTTCCCTGGCCAGGCCA
Celera SNP ID:            hCV1872639
SNP Position Genomic:     137827
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,5)   total(G,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3844):
TTGGTGCTGATGTTGATGCCAACATTGAAATAAATCAGCGTGTGCTTTATTACAGGGGCCTGAACAAACAGGGCTACCAGTGCCGACGTAAGTAAGAGGG
K
TTTGGTTGCATTACCATCATTCTTTTTATTTAGTTATTCCTTAGGCTATGAAAATCTTAAGCTGTGATTTTTTTCTTCTTTTCAGAATGCAATGCAGCAA
Celera SNP ID:            hCV25601489
SNP Position Genomic:     89069
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,36)   caucasian(G,1|T,35)   total(G,1|T,71)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3845):
TGGTTTGTTAGTTTGTTTGTTTTTGAGGCAGGGTCTTGTTCTGTTGCTCAGGTTGGAGTGCTGTGACTCAATCTCGGCTCACTGCAACATCTGCCTCCCA
R
GCTCAAGCAATTATTGTGTCAGCCTCGAGAGTAGCTAGGACTACAGGCATGCACCACCACACCTGGTTAATTTTTATGTTTTTAGTAGAGACAGGGTTTC
Celera SNP ID:            hCV2004489
SNP Position Genomic:     14553
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3846):
GTCCATATCTAAAGGTGAGTTTTAGGGGATCTGACTGAGAAGTGTTCCGGGCCAGCTCCCTAGAAACCCTTGGGTGCACTGACTTCTTCCTGGCCAGTGT
Y
GTCTGCTTGGTCATCAGTGTGTTCCTCCCCTCCTGAGTTCTCTCCATCTTTCTGTTCTTCTGTTTTCTTGCAGTAATCGAGGACAGGTGGTCGCTGGCAC
Celera SNP ID:            hCV12011891
SNP Position Genomic:     19509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3847):
TAAAATAAATGCAATTTCTTTCACCAAAAAAAAGGCGAACATTGCTAAGCATAAATGAGCACTTCCTTTTAGAAATGAATAAAGTAAAACTCAACCATTA
K
CAACTTCCCATAGCTAGAGCTCGCAGAGGAAAATGTTAACACATAGCATCATGTTTGAATTTTATTATTTTCATAGAGAAGAAAACCAGCAAGCAAACCC
Celera SNP ID:            hCV8901292
SNP Position Genomic:     20797
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,10)      total(G,10|T,1) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:3848):
AGACAGAGGTTGCAGTGAGCCGAGATTGCCCCATTGCACTCCAGCCTGGGTGACAGAGCAAGAGTCTGTCTTAGAAAAAAAAAAAAAAAAAGAAGCCCCT
Y
AGTTCCTGTCTGAGGCTCACCTCCCCTGGGGCCCTGGAATCCATTTCTTTCTTGTTCTTGGGAATCTCAATCTCTTATCTTCCCTGTCACCTGCATTTTC
Celera SNP ID:            hCV12011892
SNP Position Genomic:     15736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3849):
GCAGCTAGGAGGTTGAGATTCCCCCACCCCGTCTTCCTCCATATGTGGCCCCAAAGTAGGAAGTTCCTGCTGCTTTGGTCTTTGGGTGAAAAACAGGTCA
Y
GGGCCAGGCAAGATCAAGGAGGGGCAGCAGAGGGCACTTCTGGGCGAGCAGTACAGTGGCATCGCAGAAGGACAGGTGGGAGGGGAAGGGATAGGCTGCA
Celera SNP ID:            hCV8901293
SNP Position Genomic:     21803
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3850):
GATTCGAAGGTTCTACTCCTTTCCTCTCCAGCCCTCACATCGGGTTCCTCCAAGTCTGAGCCTCTTTAAGCTCCTAGGAGGTCCCAGCATCCCCTCATCT
Y
GTGGACGTCTGCTCAATCTCTGAGCTACTTCCTGTACATCTTCAGCTCCCAAGATGTCTCTTGTCCTCTGGAAAGCTCTTCCTGATCCTCCACATCAGGA
Celera SNP ID:            hCV2004490
SNP Position Genomic:     16916
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3851):
ATTGCCCCTTTTGCCCTCAAAAACCAAACAAAACTGGAGCTGTGTTCTCCCTCCTCAGTGCCTTAGAGAAATGTTAGCCTCTCTTGTGTGATTCTAAGTC
R
ATGCTGCCCTGCAGGGTCTTTATGAGTGTTCCGCTGCTGTCTCTCCTACAAACGTGTCTGTAAGCACCTTCAGGGAGGGGACTCTGTGGCCTGGGGAAGG
Celera SNP ID:            hCV1872641
SNP Position Genomic:     138450
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3852):
TCAGTGCCTTAGAGAAATGTTAGCCTCTCTTGTGTGATTCTAAGTCGATGCTGCCCTGCAGGGTCTTTATGAGTGTTCCGCTGCTGTCTCTCCTACAAAC
R
TGTCTGTAAGCACCTTCAGGGAGGGGACTCTGTGGCCTGGGGAAGGCCGACTAGGTGAGGCAGAGAATTAAAACACAGGAACACACAACTGCTGGGACAG
Celera SNP ID:            hCV1872642
SNP Position Genomic:     138504
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:3853):
GAGGGGACTCTGTGGCCTGGGGAAGGCCGACTAGGTGAGGCAGAGAATTAAAACACAGGAACACACAACTGCTGGGACAGAGGCCATCTGGCAGGCACCC
R
TCGTTCCTGTGAGGAGAACTCAAATCTCAGAAGCTCATGCATTTCGTAGCAGAGTCAGGAGCTACACATGAAAAACACACCTGTGCTCCCTCAACTGGGG
Celera SNP ID:            hCV1872643
SNP Position Genomic:     138625
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:3854):
GGAGGAATCCATATGGCAGAGGGCAGAGAAGCGAATGGAAGGGGAGGAAGCAAAGATGGTTCAGGAAGCTGGTTGGCGAAGGAAGGGAGGTAAGGCCATA
R
CAGCGGGAGAAGCCACGGCAGAAGTTGTTAGAGGTTGCAAAACCGGAGGGTGTTTATAAGCGGGAGTGGGAGACAGGCAGAAATCACAAGAATGGCAAGG
Celera SNP ID:            hCV2004494
SNP Position Genomic:     29140
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3855):
GGGACTCTGTGGCCTGGGGAAGGCCGACTAGGTGAGGCAGAGAATTAAAACACAGGAACACACAACTGCTGGGACAGAGGCCATCTGGCAGGCACCCATC
R
TTCCTGTGAGGAGAACTCAAATCTCAGAAGCTCATGCATTTCGTAGCAGAGTCAGGAGCTACACATGAAAAACACACCTGTGCTCCCTCAACTGGGGATC
Celera SNP ID:            hCV1872644
SNP Position Genomic:     138628
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3856):
GCGTGCCACCATGCCCGGCTAATTTATGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTAACCTCATGATCCGCCC
R
CCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCAGCCGGAAACATCATACTTTCTATGGCACACTAGACACTCAGTAAATCCAGA
Celera SNP ID:            hCV1872645
SNP Position Genomic:     139136
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1)   total(G,1|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3857):
AATAATTCTTAGAGTAAAAAGTTTGGTTGGGTGCAGCGACTCACACCTGTGATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGATCACTTGAGGTCAGGA
R
TTTGAGACTGGCCTGAGCAACCTAGTGAGACCCTGTGTCTACAAAAAATAAAAAAGAAACTAGCTGGGTGTGGTGGTGCATGCCTGCAGTGTAACTAGTT
Celera SNP ID:            hCV2004496
SNP Position Genomic:     33593
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,3)   total(G,1|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3858):
GCAGGGCTTGTGGAAAGGGAGAATGGGGAGTTATTGTTTAATGGGTGCAGAATTTCAGACTTGCAAGATGTAAAAGTTCTGGAGATGAATGCCCAACAAT
R
TGAATATACAGAACACTGCTGAACTATACATTGAAAATGATTAAGATGGTGAATTTCAGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGG
Celera SNP ID:            hCV2004497
SNP Position Genomic:     36294
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3859):
GATATGTGGTTCAGAGACGTTTCTGGTTGCTTTGACGCCGCCTTGTGGGCAAGTCTCGGAAATTGCATGTGTCCCTGGCCCAGCAAATTGAGCAAAGATT
K
TATTAGGTGCATCTTATATTTCCTTATCATTCTCCCTGGGTCTACCTTCAGATGATTCCTTAAGGCAAAGCCTATTTTTTCTAAATTATAAAGTAAACTT
Celera SNP ID:            hCV1872647
SNP Position Genomic:     140503
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,7)   total(G,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3860):
AGATGCTCAGAAAGAGGAAATAAAATGTTACAGATGTCTTTGTTCGTCTGTAGTGAGCTCAGCGAGGCCATGAATTTTTAAATCTAGCACAGGGAAACGT
R
CTACGAAGAGTCTGTGATGCATGCATTTTCATTCATGCATTTTAATCTCTATATGTTTGGAAAATACAAGGATGATAAATCAGCCAGTTCTCATTTATTT
Celera SNP ID:            hCV25601497
SNP Position Genomic:     88726
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(A,2|G,38)   total(A,4|G,70)
SNP Type:                 INTRON


Context             (SEQ ID NO:3861):
TGTAAAAGTTCTGGAGATGAATGCCCAACAATGTGAATATACAGAACACTGCTGAACTATACATTGAAAATGATTAAGATGGTGAATTTCAGCCGGGCGC
R
GTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGCCAGATTACCAGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGGGAGAGCGC
Celera SNP ID:            hCV2004498
SNP Position Genomic:     36362
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3862):
AAATTATAAAGTAAACTTTAGCATGTAAATATCGAGGTAAGAGTAGTGGGTAGCATTTTTATATTGGAAATCAGTAACATTGCAAAATTCTGTTTGCAAC
W
TTATTTTCAGAAACGGGGACAAGTGCATCATCAAAGCAGATATTTATCATAACATTTATAGTTGTCCCATAAGACAAATCATCTTGACTTTGCTACTTTT
Celera SNP ID:            hCV1872648
SNP Position Genomic:     140686
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|T,11)      total(A,1|T,11) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3863):
CTGTCCCATATTGTCTCTGATTGTTTATGTGCTACTTTTGTCTTCCCAACAGAATTCTATATCCCAGAGAACAGAGGGAGCAGGTGCTACTGTTGAGTTG
R
ACTGAATTATTTTCCAGGCCTGGCTGAAGGAATAATGAGACCTTACGTTTCTGTTCCTAGAGAACGGGCAGATGTATATCCAGAAAAAGCCTACCATGTA
Celera SNP ID:            hCV25601498
SNP Position Genomic:     75025
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:3864):
TGTCCCATAAGACAAATCATCTTGACTTTGCTACTTTTCACTGGATCTCACAAGAAGCTTATAAGAAGCGGGCCAGATATGATTCCCGTTTTTCACAAAC
R
AGAAGGGTGAAAGGGTCCTCCCAAAACTACACAATAAGGGATTAAGCCAGAAGTAGAGCCTGTGACGTTTTACATGGCCAGAAAAACTCTTGTGCTGCTG
Celera SNP ID:            hCV1872649
SNP Position Genomic:     140849
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:3865):
AAGGCAAAAACGTGGACCTCATCTCTGAAACCACCGTGGAGCTCTACTCGCTGGCTGAGAGGTGCAGGAAGAACAACGGGAAGACAGAAATATGGGTAAC
R
TTGCATAAAGTGTATGCACATAAGGGATAAGCATGATGGTAGCCGATGACTGGCTCAGAACTCCCATGTCAATCTGAGGGTGTGATTACACTGGCCTCGG
Celera SNP ID:            hCV25601499
SNP Position Genomic:     75291
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:3866):
TTCCTTGGCACTCCTTCCTCACCCCCATGGGGGGCTGGCTTCACATGGCAGCCTTTCAGAACCTTTCCCATATTGACCTAGATCCCTCAGAGCTGGCCAG
K
CGCAGTGGCTCACGCCTATAATCCCAGCATTTTGAGTCTGAGGCAGAAGGATTGCTTAATGTCAGGAGTTCATGACCAGCCTTGGCAACATAGTGAGACC
Celera SNP ID:            hCV8901443
SNP Position Genomic:     128087
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3867):
GCATAAAGCTTTAGGGAGCAGGAAGAGGCACTTAGTCCATCTGAGAACAAAGCTTCTCCTTCCTAGTGCCGGCAGCCTGAGACACCTGGAGACGGGGCAG
S
CTGTGTGTACCTGGTGGGACTGCACCTGCATCCACAGTTCTCACCACCACTCCTGCCCATGCTGTTCCCTTTGGGTCCCACTTCCTGCTCCCCATGACAT
Celera SNP ID:            hCV27517405
SNP Position Genomic:     122434
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,454|G,1035)   total(G,1035|C,454) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3868):
ATCAAGCTACGAACCTGCTCCGTCGCTTTTAAACCTAGACACTTACATGTTCAGGGCTGTTGTCACATCATTGACTTCGGCCTTTCCCAAAAGTCAATAA
S
AGAAACAAATGACAAATGACTGAATTTTAGCAACTGTGATTCAGAGATCATTTTAGAGTCTACTTTCCCAGGTCTCATCTTACCTGACTTTCACAACAGT
Celera SNP ID:            hCV27517406
SNP Position Genomic:     105540
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,226|C,1267)   total(G,226|C,1267) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3869):
GTTAGTTTTCCTTCTAACAAACAGGACCCTCAGCTGCAGGTCTGTTGGAGTTTGCTAGAGGTCCACTCCAGACCCTGTTTGCCTGGGTATCAGCAGCGGT
R
TCTGCAGAACTATATTTATTAATACTACAAAAATATCTATGCTTCATCAAAATAATGAGATTAAATGACTTTTTAAAAATCTTGGTTTTGGCCAGGTGCA
Celera SNP ID:            hCV28037790
SNP Position Genomic:     137518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3870):
CTCCAGTATTGGCACAGTCACTCACTGCCATTCTCACACTATAACAAGAAAAGAAATGAAGTGCATAAGTCTCCTGGGAAAAGAACCTTAACCCCTTCTC
R
TGCCATGACTGGTGATTTCATGACTCATAAGCCCCTCCGTAGGCATCATTCAAGATCAATGGCCCATGCATGCTGTTTGCAGCAGTCAATTGAGTTGAAT
Celera SNP ID:            hCV28037791
SNP Position Genomic:     158954
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:3871):
ACCAAATTATATTGATTAATGTGAGATTTGCTTCACTTTTGTTTTTCAGGGACCTGAAGCTAGATAACATCCTGTTAGACAAAGATGGACATATCAAGAT
Y
GCGGATTTTGGAATGTGCAAGGAGAACATGTTAGGAGATGCCAAGACGAATACCTTCTGTGGGACACCTGACTACATCGCCCCAGAGGTAGGAATGCAGT
Celera SNP ID:            hCV22272202
SNP Position Genomic:     129553
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,35|T,5)   total(C,66|T,12)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:3872):
GCAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTAAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATCACAGGTGCA
Y
GACCACACTCACCTAAATTTTTGTATTTTTAGTAGAGGTGGAGTTTCACCATGTTGGCCAAGCTGGTCTTGAACTCCTGACCTCAAGGGATCTGCCCGCC
Celera SNP ID:            hCV1872652
SNP Position Genomic:     145458
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:3873):
CATGATCTTGGCTCACTGCAACCTCCACCTCCCAGGTTAAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATCACAGGTGCACGACCACACTCA
S
CTAAATTTTTGTATTTTTAGTAGAGGTGGAGTTTCACCATGTTGGCCAAGCTGGTCTTGAACTCCTGACCTCAAGGGATCTGCCCGCCTCGGCCTCCCAA
Celera SNP ID:            hCV1872653
SNP Position Genomic:     145470
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:3874):
CTAGGTTCTGCAGAAATACTTATCCTTGCAGATGTGTTTGGCTGAAACCCTTGAGATACAGGCATTCAGTCCAGTCCCTGGCCTATATACTGTACCAACG
S
TGATTCTGCAAGACTCTCTCACTGTTGGTTTCCTGCCCAGCAGATTGTCCTGGGCAGTGTACTAGTCTGTTCTCATGCTGCTGTAAGGACATACCTAATA
Celera SNP ID:            hCV1872654
SNP Position Genomic:     145998
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,10)   total(G,1|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3875):
TTGAGATACAGGCATTCAGTCCAGTCCCTGGCCTATATACTGTACCAACGCTGATTCTGCAAGACTCTCTCACTGTTGGTTTCCTGCCCAGCAGATTGTC
Y
TGGGCAGTGTACTAGTCTGTTCTCATGCTGCTGTAAGGACATACCTAATACTGGGTAATTTATAAAGGAAAGAGGTTTAACTGACTCACAGTTCTGCATG
Celera SNP ID:            hCV1872655
SNP Position Genomic:     146048
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:3876):
AGAGGTGGAGGAGGTGGAAGGGAGGCAGGAGAGGCAGGCACACTTGGTGTAAATTTGATTGAAAAAATCTACATATTAGTGGACTGGTGCAGTTCAAATC
Y
AGGTTCATCAAGGGTCAATTGCACTTAAAATACCTACAGACCAGCTCTCCCCAACCTGCCCTACCCACTGTCCACCAGAAATATTGTTGACTTCTTCACT
Celera SNP ID:            hCV1872656
SNP Position Genomic:     146873
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:3877):
CACAGGATCCCCAGCCCAGGGGTAAAGGAACAAGATGTTTAAAAATTTGAGCCACTTCCATTCAGCTTTCACTTTCTGACTATGATCCAAACAAGCAATA
R
CTTAGAAAACTCCCTCAACAATCAATTAAAGGCACTTTTAATGACCAAACACAGATAAAATGAAAACTAATCTCAAAATTAACCAATTTTTTTAAAAAGG
Celera SNP ID:            hCV1872657
SNP Position Genomic:     148234
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:3878):
TCCTGTTTGTTTGTTTCTTGGTTTGTTTGTTGGTTTGTTAGTTTGTTTGTTTTTGAGGCAGGGTCTTGTTCTGTTGCTCAGGTTGGAGTGCTGTGACTCA
R
TCTCGGCTCACTGCAACATCTGCCTCCCAGGCTCAAGCAATTATTGTGTCAGCCTCGAGAGTAGCTAGGACTACAGGCATGCACCACCACACCTGGTTAA
Celera SNP ID:            hCV992209
SNP Position Genomic:     14523
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:3879):
TCTTCCCTTCTACTTCTATTCTTAGACCCTAAGACTCTGGGTCTCCAAGATTATGAGTTCTCACAAGTGGTTCCTGCTTCTTAGCCTTCAATTTCCTTGA
Y
ATCTCTCTATCATACAATGCTGAAAACTTCATTTCTTTTCAGCTTGCCTGATGTGATATTGTCCAGGTTTTCCTCTTAATTTTTCAGCTGCCTCTTCTTG
Celera SNP ID:            hCV8901384
SNP Position Genomic:     85174
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:3880):
CCTGAACTCCAAGTTCTCACCATGGCCTGTGGACAGCCCCATGGGCACACCCACCTCGTCTGTCTTCTCTACCCCTTGCTCAACTCCACGCAGCCCATCC
S
CCTTCCCAGAACGTGCTTGGCAGCTCCGACCTCACACCCATGTTTCGGCCGGGAACGTTCACCTGCCATTGTCTGTGTGACTCAGTCCTCTCCTCGTGCA
Celera SNP ID:            hCV992210
SNP Position Genomic:     59627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3881):
GGTTAAACAACAGACATTTCTTTCTCACAGTTTTAGAGGCAGAAAGTCCAAGATTAAGGTCCAGCAGTGTCAGTTCCTGATGAGGACTCTCTTCCTGGCT
K
GTAGACAGCTGCCTTCTTGTTGTGTCCTTACAGCAGAGAGAGAGAGAGATAAACTCTGGTCTCTCTTTCATGTGAGACTTCTAGCCCTATTGGATCAAGA
Celera SNP ID:            hCV1872660
SNP Position Genomic:     148937
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,7)   total(G,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3882):
TGGGTGATTACAACATTTTCAAGGATTCTTCCCCAGGGCAGCTGCTTGTGGGAGAGCTGAGGTCTAGAAAGGAGGAGTTGAGAGCAGGAAAGGAACCAAG
S
CTGACCCCACCCCCATGCCAGCATTTTGATTTATGGAACCCTGGGAGAAGAGTTTCTCCAAAATGATACTTCATGGCCTCCAGCAGATCCCCCTCAAAGA
Celera SNP ID:            hCV992211
SNP Position Genomic:     60414
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:3883):
TCCATTTTTCCTTTTGACATCTTCGATGATCAAGATACCTGCTAAGGATTTGTTCAGAAATCAGAATTAGTTGTAAGGCAGTTGCCTGAACAACTGAAAG
Y
GTAATGACCCCACAGAGAGCACTAAGGCAACAGAAAGTACGGCGAGGTGGGATTATTAGGTTGGTGCAAAAGTAATTGTGGTTTTTGCCAATACTTTTAA
Celera SNP ID:            hCV992212
SNP Position Genomic:     60736
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:3884):
CCCAGGCTCAAGCAATTCTCCAGCCTCAGTCTTCCATGAAGCTGGGACTACAGGTGCATGCCACCAATGCCCAGCTGATTTTTGTATTTTTTGTAGAGAC
R
GGTTTTGCCATGTTCCCCAGGCAGGTCTCAAATTCTGGAGCTCAAAGCAATCTGCCCGCCTCAGCCTCCCAATGTGCTGGGATTACAGGCATGAGCCACC
Celera SNP ID:            hCV1872662
SNP Position Genomic:     150374
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,6)   total(G,4|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3885):
CATGTTGATCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCTGTCTTGGCCTCCCAAAATTCTGGGATTACAGGCATGAGCCACCATGCCCAGC
Y
TTTTTTTAAATTTCCATTACTTTTAATGGCAAAAACTGCAAATTACTTTCACACCAAATTAATAGGATATTTGATGAGTTTTAATATAATTATCGTTTTT
Celera SNP ID:            hCV992213
SNP Position Genomic:     60984
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,10)      total(C,2|T,10) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:3886):
ATTTGTTTGAAAATGATGGGAAACTAATGATATAGAACATAAATATCTCTTCCTTTCATAGAAAGACATATCTGAGGAGGGACTGAAGAGGGAAGGCAGG
Y
TCCAGGTACAATCTGTCAGCACTACTGCTGGCTGTCCTCTGCAGCCTGGAGCTGCTTTCTTGCACAGACTGTCCAATAAACTTAAACAAACTTCAACTAC
Celera SNP ID:            hCV1872663
SNP Position Genomic:     151542
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:3887):
GCTCAAGTGATCCTCCCACCTCAACCTCCCAAAGTGCTGGGATTACAGGCATAAGCTACTGCACCTGGCCCATACTTACTATTTTAATTCACTTTTGAGA
Y
CATTTTTGTTGGTGAAAGCTAATATTTAATCTCTTTATTATACTACTTAGTAGAAGTCTTAGCAACAAAGCAAAACGCTACCCAACTATGTGATTTTTTT
Celera SNP ID:            hCV992214
SNP Position Genomic:     63143
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3888):
TGAAGGAGGCAAACGTGTTCGGCTAATGCATAAAATACAGTAGATAGACTCTCCCAGAATATGGGGTTCCAAAAGAACGTTGAGGATAAGGAGATCTTTG
K
TGACCCTATGCATTTAAACATTTTAAATGGCCTTTGTCCCCATCGTTAGCAGGCTGAGCTGTTCCATCAATGGTGGGTGGGTGGGTGGTCTGACTCTCTG
Celera SNP ID:            hCV1872591
SNP Position Genomic:     100894
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,5)      total(G,5|T,5) ;JBIC-allele(T,344|G,381)   total(G,381|T,344)   no_pop(G,-|T,-)   (T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3889):
GGATATAGGGCAAGTCACTTATTCCTTTTGCTTCCTTTTTTTTTTTTTTTTTTTTAAGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGGTGC
R
ATCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAATGATTCTCCTGCCTCAGCCTCCCGCATAGCTGGGGTTACAGGCGTCCACCACCACACCCGGC
Celera SNP ID:            hCV1872664
SNP Position Genomic:     152331
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,2)   total(G,2|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3890):
TGTGATTTTTTTTTTACTAGTTATCATCTTTCTTCTGTGCACATTGTGAAAAAGTTTTTTTTTATGTTTCTTTTAACAGCAGTCACTTTTACCTAAGAAA
Y
CTTTCTATCTCATAAAGAAATGCAAAAGCTATTGGTGTAGCTTAATTTGCCAAAATTTTTCTGAATTGATGTTTACCAAATTTGGCTGAGCAGATGTAAT
Celera SNP ID:            hCV992215
SNP Position Genomic:     63332
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3891):
TGGAAGAGTATGAAAGATAAACCTAGGGATTTAAAAATATAGAGACTATTGTAGGCAGGGGGAAATTCCTAAAAATTTCTCTTATGTTTTCTCTGACTTC
M
AATCAACTTAAAAATGTAAATGAAAGGTTTGGGTTACATTTAGGAGGGGTTGCCAGGCAGTCAAGGAGACTATGTCTTAGCAATGATCAACATAGGCAGC
Celera SNP ID:            hCV1872592
SNP Position Genomic:     101741
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,6)      total(A,5|C,6) ;no_pop(A,-|C,-)   JBIC-allele(C,422|A,1061)   total(A,1061|C,422)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3892):
GTGTAGCTTAATTTGCCAAAATTTTTCTGAATTGATGTTTACCAAATTTGGCTGAGCAGATGTAATTGGAAACCATTGAATGCTTTGTTTCTCATTCCCA
R
ATTTACTATTGATTAATCTGTGTTCTTTCTTCCACATGTGAGAGGTTTTGATACAAGTGATGACTATTGTTATTTTAATTCTGTGAGACTCTCCCCCAAC
Celera SNP ID:            hCV992216
SNP Position Genomic:     63467
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3893):
GCTGAATAATATTGAGCTCCATTTGGGGTTTGGATTTAAACACTGATGCCTTGCCTTTCAGCAGAATCGACTCTGTCCAGCACATGGTAGCTGATATTCA
K
GAATTCTTTTTGTTCAGTTCCACAATAATATGAACCACAGTAGGCTCATTTGGTGCTAATCTGAGCATAATAGGCAATGTTACAGCCAGTCTTCATTGTA
Celera SNP ID:            hCV1872593
SNP Position Genomic:     104725
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:3894):
GATTTCCACATTTGAATAAGGTTAATAAGGAAGACATTAAGTTAAACCTACAAGCCTTAGTCGGTATCCCAAGGTGCAGCTGGGAGCCCCAGGTTTCCCC
Y
ACTCCATGTCCAAAGCTGTCTACTTCTTTTCATCAGGACCCTGGGTCCCTATACACGGAGAGGAGAGGAGGGGGAGATATCAAAGCAAGACAGGATGGCT
Celera SNP ID:            hCV1872594
SNP Position Genomic:     105113
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:3895):
TAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATCACAGG
Y
ATGAGCCACCATGCCCAGCCTACTCTCCCTCCTTTGAAACCTTGCTGACAAACTACCTACTCTATAAATCACGCTCAGATACACTAAATCCTACTTGTCA
Celera SNP ID:            hCV27219500
SNP Position Genomic:     114795
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:3896):
CTTGGAAAAAAGATACAATGTGCTAATTCTCCAGTGGAGCGAAGATGTTGTGTGGTACACAGATGAGAGATTATCCATCAGGATGAGGGGGAAGGAGGCC
R
CTTGTCATCAAAGTGCTAGATCCTCTGAAGCTCGGCTTCCTCAGCTGACAACTGGGATGATGAATTTGTTTCTCTTAGAATTTGTTTGAAAATCACTGAG
Celera SNP ID:            hCV1872667
SNP Position Genomic:     153075
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3897):
ACACTGAGAATACTCCAAAACTTGTCTTTTCTCTCTCTTCTGGCTTTATGTGGAAAGTATGTTTCCTCACCAAGACCTCTATACCCTTGTTCTCAAACAA
M
TTTTAAGCCTAAGAAAACAAATTGTGTGTTCTCTGGGGATGTGAGCATCATTCATTTGCCTGAATTCCCATCTAAGTTTCATCCCTTCCCTTCTATCAAG
Celera SNP ID:            hCV1872595
SNP Position Genomic:     105330
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|C,9)      total(A,2|C,9) ;no_pop(C,-|A,-)   ;no_pop(C,-|A,-)   no_pop(A,-|C,-)   SC_12_C(A,6|C,18)   SC_12_AA(A,8|C,12)   total(A,14|C,30) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3898):
TCTTCCCACCCCTCTCTGACCTCCTGTTTCATTATTTTCCCCTTCATCCCAGAGTTCACATGATCTTGTACCCACTGTAGCTATCAGGTCTCTGCCTTGA
T
TTTTTTTTTTTTTGCGACAGTCTCACTCTGTTGCCCAGGCGGCTCAATACAACCTCCACCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGT
Celera SNP ID:            hCV27219501
SNP Position Genomic:     115335
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,6)   total(-,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3899):
AAGATGGAAATGTCATTAGTGAGGGACAGAGACAGGAAGGCAGGTGGTGTTTTCGGTGAGCAGAAATGTCTGGACTGGAGAGGGTCCTAATGGGAAATGG
W
AGGTCCTGTGAGTCAGCGTCAGACTCCAGAGAGCCTTGAATGCCAGCCGAGGACCCGAGGATGTCAGAACTCTCCAAGCCCTAGAGATCACCTTGTCTAG
Celera SNP ID:            hCV1872668
SNP Position Genomic:     153547
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,3)   total(A,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3900):
GAAATTGTTTATCTTCACTGGGGATGAGGGAAGTAAGGCACCCAAATGCACTCGTTCTGAGGAGTTTTTGCTGAATGTATTGCAGATGAGACCAGAGAGA
M
TTGTGTAGTTGGAGTCAAACCCCTCTTCTGAGTGTATGTAGCATCTCAAGAATCAAGTAGGCGACATCCTGGTGGGGCTCTATAAGTCCCCACATTAGAG
Celera SNP ID:            hCV992218
SNP Position Genomic:     65366
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3901):
CTCTTAAAGTATTAGGCAAAGTATTATGTCCCATCTGTGGAACTGTTAGAGGGTTACTGGAAATGCTTTTTGTCTGGAAGTTGGGGTTGCCATAAAACAA
R
TCTGCGGACACTACAGAAAAGACTTCAGTCCTACAATGTGTCCTGGGATGTGGCTGGATTCCTGGGGGAGGTTTCTACCCACACAGCTCCTCCTTTGTCT
Celera SNP ID:            hCV11318387
SNP Position Genomic:     86314
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3902):
CACCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCACCACCATGCCCGGCTAATTTTTGTATTTTTTTTTTTTTTTTTTTTTTTTTTTTAGTCGAGA
Y
GGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTAACCTCAGATGATCTGCCTGCCTTGACCTCCCAAAGTGCTGGGATTATAGGCTTGAGCCAC
Celera SNP ID:            hCV1872596
SNP Position Genomic:     106517
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3903):
GGAAACTGTGGGAATATATGAGCGTCAGAATCAACGTACTGCAGAAATTCAAGTGCTAAACCACAGAAAAGCCCTCTTTTACAAAGTAGGAGGAAGAGCA
G
GGGGGAAAGGTGATAGGGAGGATCCCTTGGGGTGGTAAGAAGAGGAACAGAGGAGTTAGGAGTATCGGAGGACAGGAGAGGAAAGAATTTCAAGAGAGAA
Celera SNP ID:            hCV27219502
SNP Position Genomic:     115981
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,9)   total(G,9|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3904):
CGGTGAGCAGAAATGTCTGGACTGGAGAGGGTCCTAATGGGAAATGGAAGGTCCTGTGAGTCAGCGTCAGACTCCAGAGAGCCTTGAATGCCAGCCGAGG
R
CCCGAGGATGTCAGAACTCTCCAAGCCCTAGAGATCACCTTGTCTAGCCCTTCCTTTACACACGAGGAAACTGAGACTCAGAAAACTTATCCAAGGCGAC
Celera SNP ID:            hCV1872669
SNP Position Genomic:     153600
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:3905):
AGTCACAAGAGAGGTGGTGCAGAATCGGTGGAGCAGGAGATGAAGCAAGTGGGTCGTGAGGCACAAGGGGAAGGGTAAAGTTGAAGCAGCGGGTGAGGGC
Y
GGGCGTCGCGGCACCCAGCACCGAGCTGGCAAAATGAAGGAAGAGGCAAGTTTGAAAGGGAAGGCAGGGAGTTCTGTATGGGACCTGGTGAGTTTGGGGT
Celera SNP ID:            hCV992219
SNP Position Genomic:     66004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3906):
ATGTTGGCCAGGCTGGTCTCGAACTCCTAACCTCAGATGATCTGCCTGCCTTGACCTCCCAAAGTGCTGGGATTATAGGCTTGAGCCACCGCACCTGGCC
R
GTGTTTATTTTTTAAGTACACAAGGAGAACTATATCCCTCCATTCTTCTTTTGGCCTGGAAAAACTGGGTAAAACGTAAAGCTAGGATTTATGTGCACTT
Celera SNP ID:            hCV1872597
SNP Position Genomic:     106629
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3907):
AGAATTAGTTCCCCTGAAATGATCTAATCCATTTAAAAAGTAGTCCTCCTTGTTGTATTTTCTCTAAAGAGCTAAAAATTGGAACTGTGACTGGGTATGG
Y
GGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCACCTGAGGTCAAGAGTTGGAGACCAGCCTGGCTAACATGGCGAAACCCCAT
Celera SNP ID:            hCV27219503
SNP Position Genomic:     121532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3908):
ACCAGCTAGTTCTATTCAGAATGGTGCATACAGGTCTATGGGTGCCAACCAGAGTTTAAAACAAAGGGAGAAATTATTTGCCTATTATCTATACTATTAC
T
TTTTTTTTTTTTTTTGAGTCAGAGTCTTGCTCTGTCGTCCATGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGT
Celera SNP ID:            hCV27219504
SNP Position Genomic:     123247
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3909):
GGGGTTGGAGAAGGAACCCCTTTTCCCACCCAACACAGGTGTCTCTCAGGACTCTGTCTCTTTTTTAAGAAATGGGAATCCAAATTCTAAAATAAAGTTA
Y
TTCTTCCCTCTCCTTCTAGGTCTTCCTGGCAGAATTCAAGAAAACCAATCAATTTTTCGCAATAAAGGCCTTAAAGAAAGATGTGGTCTTGATGGACGAT
Celera SNP ID:            hCV1872598
SNP Position Genomic:     107091
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,27|T,13)   total(C,59|T,19)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,6)      total(C,3|T,6) ;(C,-|T,-)   (T,-|C,-)   no_pop(C,-|T,-)   JBIC-allele(T,409|C,1076)   total(C,1076|T,409)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:3910):
GCCCTATTGGATCAAGACCTTACCCCATGACCTCATTTAACCCGAATTATCTCCATAAAGCCCTTACCTACAGTTACATTGTGGGTTAGGGCATCAACAT
R
TGTATTTTGAGAGGACGCCATTCAGTCCAAAGCATGAGGCTGCACTGCAAAGCCTGGGCCAGCAAAACCCACTGGAAAAAAGTGAGCACAAGGCTTAGTC
Celera SNP ID:            hCV8901465
SNP Position Genomic:     149121
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,3)      total(G,3|A,1) ;SC_12_A(A,0|G,23)   SC_12_C(A,7|G,10)   SC_12_AA(A,1|G,22)   SC_95_C(A,46|G,119)   total(G,174|A,54)
SNP Type:                 INTRON


Context             (SEQ ID NO:3911):
CATGCTGGTCTTGAACTCCTGACTTCAAGTGATCCACCTGCTTGGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGTACCTGGCCTATACTAT
R
ACTTTTAATGTCTGTGTATGTTTTATTAGCAATAGCAAAAACAACAAAAAAAATGACAATGTGAGCATTATTGTTTAAAATATAAGAACAAGTACTAGAT
Celera SNP ID:            hCV27219507
SNP Position Genomic:     123553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3912):
GGATGGATGGATGGGTGTGGATGGTTGAATGGATGGACAAATGATGGATGAATGATGAATGGATGAACAGATGGTTGAATGGATGGATGAATGGATGGAT
G
TGGATGGATGGATGGATGGATGGATGGATAAATGATGGATAAATGATGGATGAATGATGAGTAGATGAACAGATGGTTGGATGGATGGATGAATGGATGT
Celera SNP ID:            hCV27219508
SNP Position Genomic:     125137
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,8)   total(G,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3913):
GATGGATGGATGGGTGTGGATGGTTGAATGGATGGACAAATGATGGATGAATGATGAATGGATGAACAGATGGTTGAATGGATGGATGAATGGATGGATG
T
GGATGGATGGATGGATGGATGGATGGATAAATGATGGATAAATGATGGATGAATGATGAGTAGATGAACAGATGGTTGGATGGATGGATGAATGGATGTA
Celera SNP ID:            hCV27219509
SNP Position Genomic:     125138
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3914):
TAGCCCTTCCTTTACACACGAGGAAACTGAGACTCAGAAAACTTATCCAAGGCGACGTGGGTAGTCAGTCTCTCGGATAGCTGTCGTGTTATTTCCACCG
Y
GCAGTGGCTTTCTAATTGGGTACTTTGGAACCCCAAGTTTCCCTAGAGAGTCCTCAGCAGTCCCCATATGGTAAGGGGGAGAGAGGAAGTTGAGACTGCT
Celera SNP ID:            hCV1872670
SNP Position Genomic:     153745
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3915):
AGCAAGTGGGTCGTGAGGCACAAGGGGAAGGGTAAAGTTGAAGCAGCGGGTGAGGGCCGGGCGTCGCGGCACCCAGCACCGAGCTGGCAAAATGAAGGAA
R
AGGCAAGTTTGAAAGGGAAGGCAGGGAGTTCTGTATGGGACCTGGTGAGTTTGGGGTCCCCTTGGAGATTTCCAGGAGAGAGTCGAATGCGTGACTTTAT
Celera SNP ID:            hCV992220
SNP Position Genomic:     66047
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3916):
AGTCCTCAGCAGTCCCCATATGGTAAGGGGGAGAGAGGAAGTTGAGACTGCTAAGAATTTGCCAATCAGATACACCGGGTGATTGCACAAACATTTCACC
Y
GGAACTTTAAAAGATTCTCCTACTTTTTTTTAAAAAAGCGAAAAAACTTCACTTTACAATAGCATGTTGTTTGGTCTTTATATTTTTTTGGTAGAACGGA
Celera SNP ID:            hCV1872671
SNP Position Genomic:     153894
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:3917):
TGGCTCTTTACATCAAAAGGCAAATGATAGGACACAATGACATTTAGTGTGCAGCACCTGTAAGCTGCTGAAACTGGCTTGGGGTCTGCATTTGCTTATC
R
AGAAAGAATGCCTGGAAGCCTGGTTCCCTGTCCAATCAGAGTTGCAGGGGTCTGGGTTGTAAATCAGAGTTAGGAAGAGTCTCAAACTTCGCCTGATTAT
Celera SNP ID:            hCV992221
SNP Position Genomic:     66680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3918):
ATTCAGATCTGACTTTGGCAAAAGCCTTTACGCAGAGTCAACAGCTTAACTGGTCCAGGGCCAGGTGGGGAAATCATGAGAACATTATGATGAACAGGAC
W
CCGGGGTTTTAGTTAGTTGACATTTCTATCTGAGTTGGCAGTAGAATGTAACGTCTGCAAAAGTCAGTTCATTCATGGTCTGCATTTATGGACCTTCAGT
Celera SNP ID:            hCV27972547
SNP Position Genomic:     45101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3919):
GGCTCTTTACATCAAAAGGCAAATGATAGGACACAATGACATTTAGTGTGCAGCACCTGTAAGCTGCTGAAACTGGCTTGGGGTCTGCATTTGCTTATCA
R
GAAAGAATGCCTGGAAGCCTGGTTCCCTGTCCAATCAGAGTTGCAGGGGTCTGGGTTGTAAATCAGAGTTAGGAAGAGTCTCAAACTTCGCCTGATTATT
Celera SNP ID:            hCV992222
SNP Position Genomic:     66681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3920):
GTGTCCTAAGACACTTAGTGCCTAGTAGCTCTAGTAACTGTTTGTTGAATGAATGAATGAGTGAATGGATGCATAGTCACTAAATCAGAAATCGTGGATA
Y
TGTAATCATAGAACATTAGGTCATAAATACCAAGGATCCTGAGGAAGAAGAAGAAAGAATATCTATGATTTGGACAGCCATTTTTCCAATTGTGGAACAT
Celera SNP ID:            hCV27972548
SNP Position Genomic:     60041
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3921):
ATGTTGTTGCAAGTAGAGATTTTCTCCTTTTTCAGGGCTGATACTCCCCTGTGTATATATAGCACAGTTTCTGTATCCATTTATCCACTGATGGACACTT
R
GAGTCCATATCTTGGCTATTGTGAATGAAGCTGCAATGAGCAAGCAAGTGCAGCTGTCTCCTCTACATACTGGTTTTATTTCCGTTGGTAATTTACCCAC
Celera SNP ID:            hCV27972549
SNP Position Genomic:     142906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3922):
TTCCACCATGTTTTCTGTTTTAAAGAACCTTAGGCTCCTTAAAATGCCCTATAACTCATGGTTACTTCATAAATAAACATCTAGCTGATGTAAGAATAAC
Y
GGTAACTACTCCAGACACCCAGGGGACCTGTTACTTTTCTAAGTTAATGTTTAGACTCTCCTGTTTCTTAATGCCCTTGACAGGTTTTATTTAAGTTTGA
Celera SNP ID:            hCV1872673
SNP Position Genomic:     154251
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3923):
AACCTTAGAATCCATCTTAGCTGATGAAGGGGCAACTGTCTTGGTCTCTCAGATCACACGTGAATGGAGAGTGAAGATGAGACCGACTGAAATTTAGAGT
K
CACAGAGGACAGATCACACAGCTTAGTCCTGAGGCAGGCTATTCCAGCACATATTTTTGTCTACAGAAACTCTCATTTCTGGTTAAACACCCAGGGAAAT
Celera SNP ID:            hCV992223
SNP Position Genomic:     66998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3924):
AAGTATCTGTAAAGTGCTCATATAACGACATTTCCTAAGGGTAATTGTTAGGTGTTCTTTGGTTTAAGGGAGAAACTAACTAAATCCGTGCTTTAAAAAA
K
ATAGGTCTGTACATTTCCATTTATGTCCTCACTGGCAAAAGTCATTAAGCTACATCAGCAAAGGCAGAATGACCTGGCTCACCTGCGAGACGGGCCACCA
Celera SNP ID:            hCV1872674
SNP Position Genomic:     156031
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:3925):
GCATCTCATTCCCAGGGCAAGAATAGTTGTTCTCAACATCTGTCCCAAGCTCCAGTGATGTTCCAAGGACCCAACAGGCCAGCCTCAAGCACTCTAATTA
Y
TTGTGACAGAACCACATCTAATACATGGGTTAGTCATTTGTGATAAAATAAAAATTTTACCTTGTTTTTAGCTATCAGAACTATTAAACCATGTCTCACC
Celera SNP ID:            hCV1872676
SNP Position Genomic:     156935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3926):
TTTCCACAATTAGTTGGAACTATGATTTTTGTATCCTGTATAGCTTGTGCCTTTGCAATTTATTTTCTTGGGTCATAAACAGTGCCTTTCTTACAAATTT
R
TATACCCATATTATGTAAGAATGGCGTTTACTTACTTCTGTTACACTAACCATAGCTATTTCCCTGGGTAGGTCTTTACTGTTAAGTTTGGTTATTTTCT
Celera SNP ID:            hCV992226
SNP Position Genomic:     68455
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3927):
ATGGATGGATGGGTGTGGATGGTTGAATGGATGGACAAATGATGGATGAATGATGAATGGATGAACAGATGGTTGAATGGATGGATGAATGGATGGATGT
G
GATGGATGGATGGATGGATGGATGGATAAATGATGGATAAATGATGGATGAATGATGAGTAGATGAACAGATGGTTGGATGGATGGATGAATGGATGTAC
Celera SNP ID:            hCV27219510
SNP Position Genomic:     125139
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,8)   total(G,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3928):
AGACAGGAAAGAATTTGCCTTCTCCCTGGGAACTGGTTCAAGAGACACTGCTTGGGTTCCTTTTTCAACTTGGAAAAAGAAAGAAACACTCAACAATAAA
K
ACTGAGACCCGTTCGCCCCCATGTGACTTTTATCTGTAGCAGAAACCAAGTCTACTTCACTAATGACGATGCCGTGTGTCTCGTCTCCTGACATGTCTCA
Celera SNP ID:            hCV1872677
SNP Position Genomic:     158225
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,3)   caucasian(G,40)   total(G,75|T,3)
SNP Type:                 UTR 3

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:3929):
GGATGGATGGGTGTGGATGGTTGAATGGATGGACAAATGATGGATGAATGATGAATGGATGAACAGATGGTTGAATGGATGGATGAATGGATGGATGTGG
A
TGGATGGATGGATGGATGGATGGATAAATGATGGATAAATGATGGATGAATGATGAGTAGATGAACAGATGGTTGGATGGATGGATGAATGGATGTACCT
Celera SNP ID:            hCV27219511
SNP Position Genomic:     125141
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,8)   total(A,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3930):
GTTATTTACTTGAAAGATGGGTCTCCGCACTTGGAAAGGTTTCAAGACTTGATACTGCAATAAATTATGGCTCTTCACCTGGGCGCCAACTGCTGATCAA
Y
GAAATGCTTGTTGAATCAGGGGCAAACGGAGTACAGACGTCTCAAGACTGAAACGGCCCCATTGCCTGGTCTAGTAGCGGATCTCACTCAGCCGCAGACA
Celera SNP ID:            hCV1872678
SNP Position Genomic:     158461
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,2|C,2)      total(C,2|T,2) ;no_pop(T,-|C,-)   ;JBIC-allele(T,172|C,1325)   total(C,1325|T,172)
SNP Type:                 UTR 3


Context             (SEQ ID NO:3931):
AGGGTGACACCAGAAAAGGTCAGGGTGCTTTAACTCTGGCTTTGTGAGTTAGTGATCCCTCTAGACTCAAACAGAATTAAGGAAATCTTCAGAAAGTCCC
R
ACAGGGCAAAAACTCCCGTAACTGAAGATGATTCTTAGTGATTTTTCCTGATTTGTGGAGAAATGAAGTTTTGTCTAAAAGACCCAATTGGCCCAGGAAA
Celera SNP ID:            hCV992227
SNP Position Genomic:     69622
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3932):
TCACGCCTATAATCCCAGCATTTTGAGTCTGAGGCAGAAGGATTGCTTAATGTCAGGAGTTCATGACCAGCCTTGGCAACATAGTGAGACCTTGTCTCTA
M
AAAAAATTTTAAAAATTAGCCAGGCATGGCGATGGCACACATGTGGTCAAGAGTCTGAGGTGGGAGGACTGCTTGCTCAAGAGGTTGAGGCTGCAGTGAA
Celera SNP ID:            hCV27219512
SNP Position Genomic:     128197
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,3)   total(A,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3933):
AAATTATGGCTCTTCACCTGGGCGCCAACTGCTGATCAATGAAATGCTTGTTGAATCAGGGGCAAACGGAGTACAGACGTCTCAAGACTGAAACGGCCCC
R
TTGCCTGGTCTAGTAGCGGATCTCACTCAGCCGCAGACAAGTAATCACTAACCCGTTTTATTCTATTCCTATCTGTGGATGTGTAAATGGCTGGGGGGCC
Celera SNP ID:            hCV1872679
SNP Position Genomic:     158522
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;no_pop(G,-|A,-)   SC_12_C(G,0|A,23)   SC_12_AA(G,0|A,23)   SC_95_C(G,3|A,186)   total(G,3|A,232) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:3934):
GCAAAGGGCGCCTCCTAAAGACAAATTTGTAAGTCATCTACCTGCTAATTCAGCAACGTGACAGATACGGAACCCAGCAAATCATGATGTTTACCCAACC
R
TCTCCTTTAGATAAAACTTCCAAACTCTGCAGGAAATTAGGACTTCATTAATATCTGTGAAATTAATGCCTGTCAAAAGCTCCTAATTTGTCTCTCTTGT
Celera SNP ID:            hCV992228
SNP Position Genomic:     69904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3935):
ACCCAGCAAATCATGATGTTTACCCAACCGTCTCCTTTAGATAAAACTTCCAAACTCTGCAGGAAATTAGGACTTCATTAATATCTGTGAAATTAATGCC
Y
GTCAAAAGCTCCTAATTTGTCTCTCTTGTGGAGTCAAAGAACACTGGTATTTAGCATACTGGAGATCCCTTTTGTCTTAGCTAGATGAGGTATTACAGGC
Celera SNP ID:            hCV992229
SNP Position Genomic:     69975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3936):
CATACATATATTTAAAGACGTGGCGTAGGGAGAGCTTCTAAAACCTGCAAAGCCAAAGCTGCACAGCTCCTGCAAGTTAGCGATCCACTCTAAGTTTTTC
W
GTTGTTGTTTCTGTCTTCTTGCCTCTCATGAACTTCTGTTTCTGATTTCAAGAGTAACCTGCTGGGCACCATCAGCCTTTGTTTCAGTGACCTGCGATTT
Celera SNP ID:            hCV27833564
SNP Position Genomic:     7745
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,34)   total(A,71|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:3937):
GTTGTGTGGTACACAGATGAGAGATTATCCATCAGGATGAGGGGGAAGGAGGCCGCTTGTCATCAAAGTGCTAGATCCTCTGAAGCTCGGCTTCCTCAGC
Y
GACAACTGGGATGATGAATTTGTTTCTCTTAGAATTTGTTTGAAAATCACTGAGGCATCTAGCACAGTGCCTGCCTCTCAAAGAACATTGGTTGGAGTGG
Celera SNP ID:            hCV8901473
SNP Position Genomic:     153121
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:3938):
CTATCATTTTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCACAACAAACAGATGTGTGCATGTGTCTTTATAGCAGCATGATTT
M
TAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTT
Celera SNP ID:            hCV27219515
SNP Position Genomic:     132725
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,2)   total(A,1|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3939):
AACTGGGATGATGAATTTGTTTCTCTTAGAATTTGTTTGAAAATCACTGAGGCATCTAGCACAGTGCCTGCCTCTCAAAGAACATTGGTTGGAGTGGATG
W
TGTATCAGTCGTAAGAATCATGAGTGATGTGAATGATGTATGATAGGGTGATCAATCCTGAATATGACTTGAACAGAAGAGAGAGAGCTCCCTGTCAGGG
Celera SNP ID:            hCV8901474
SNP Position Genomic:     153225
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:3940):
TCATTTTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCACAACAAACAGATGTGTGCATGTGTCTTTATAGCAGCATGATTTCTA
R
TCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATGGTTGAA
Celera SNP ID:            hCV27219516
SNP Position Genomic:     132728
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3941):
AGAAAGTTTCACAAGGAAAAGGGGGTGAAAGCTGAGCCCTGAAAGATAAGGCAGAATTTAAAGATGAGGGGAGGGAAGCAGGAGTCGACTAGGGGAGGGT
R
TCTCATGGCAAGATGGAAATGTCATTAGTGAGGGACAGAGACAGGAAGGCAGGTGGTGTTTTCGGTGAGCAGAAATGTCTGGACTGGAGAGGGTCCTAAT
Celera SNP ID:            hCV8901475
SNP Position Genomic:     153437
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,4)      total(G,1|A,4) ;(G,-|A,-)   Caucasian(A,84)   African-American(A,84)   Asians(A,84)   total(A,252)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3942):
TTCCTATTTCTCCACATCCTCTCCAGCATCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGAA
W
TGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTCGCCC
Celera SNP ID:            hCV27219518
SNP Position Genomic:     132962
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,4)   total(A,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3943):
CCAGCATCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGAATTGCATTTCTCTGATGGCCAGT
S
ATGATGAGCATTTTTTCATGTGTCTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATATCCTTCGCCCACTTTTTGATGGGGTTGTTTTT
Celera SNP ID:            hCV27219519
SNP Position Genomic:     132984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3944):
CTGGACGTGGTGCTATAAAAGATGATTCAGGAGTGGCACAGGCTGAGGGGGACTAGGCTGGAGAAGGTGGAGGGAAGAGGGAGCACTCCGTGCCCTCTTC
Y
TGTCCATGGGAAATGAACCATCTGTGCCTGGTGTCCAAGTCCTTGACGTTCCAGTTGCCCTTTGAGAGCACACCTCAAGCCTGCTGAATTCTTTTAAGAA
Celera SNP ID:            hCV27831535
SNP Position Genomic:     7014
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,1)   caucasian(C,33|T,1)   total(C,50|T,2)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3945):
CATGCTGTTTGCAGCAGTCAATTGAGTTGAATTAGAATTCCAACCATACATTTTAAAGGTATTTGTGCTGTGTGTATATTTTGATAAAATGTTGTGACTT
M
ATGGCAAACAGGTGGATGTGTAAAAATGGAATAAAAAAAAAAAAAGAGTCCTCTTAATCGTTTACTTCCCCGCTTGCCCCCCACAAGAACTTGCTTCTGC
Celera SNP ID:            hCV1872680
SNP Position Genomic:     159123
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,2)      total(A,1|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:3946):
TATCTGTGAAATTAATGCCTGTCAAAAGCTCCTAATTTGTCTCTCTTGTGGAGTCAAAGAACACTGGTATTTAGCATACTGGAGATCCCTTTTGTCTTAG
M
TAGATGAGGTATTACAGGCCCAAGATCTCCAGGTATGTTACTGATTCTCCTTCCAGGTCTTTATTATTTCAAATAGTTTTCTTTCTTTATACAAAGGCAG
Celera SNP ID:            hCV992230
SNP Position Genomic:     70056
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3947):
GGGGGAGGAGGAGGAGAATCCTGCTATGAACTGTGTATGAAGCAAGGTCTTCCAGGACATTTGACATCATCTGGTGGAACCAAATCCTGCCATTTAGGAC
R
CTGATGCCCAGCAAAGCCAAGGACTTCCTCATGGACACACATTTCGTGATGGACTCTAAACCAGGACCCGATGGCCCACCGGTGCTCTATTGCACTGTAT
Celera SNP ID:            hCV992231
SNP Position Genomic:     71390
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,17)   caucasian(A,22|G,12)   total(A,39|G,29)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   JBIG-allele(G,428|A,1047)   total(G,428|A,1047)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3948):
GCCCTATGTGGTTAAGCCTGGTTACTTTAAATAAGTCTAGGTAGATTAAGACTGCATAATCTTCCAACCAACTCTAAAGACTGCTTACTGCTGCTTTGGC
R
AATCTTCAGTGGATATTACAAAGCATCTATAATTAGCCATTAGAATCCAAATTTCAGAAAACGTACTTTTGCACTCACTAAGGTCTTGGCTGAATGAAAG
Celera SNP ID:            hCV992232
SNP Position Genomic:     71690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   SC_12_A(G,7|A,8)   SC_12_C(G,3|A,21)   SC_12_AA(G,3|A,14)   total(G,13|A,43)SG_12_A(G,6|A,10)   SG_12_G(G,3|A,21)   SG_12_AA(G,5|A,15)   SG_95_G(G,39|A,140)   total(G,53|A,186)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3949):
AGCAGGTAATGAAGGAACAAAAAGCAGTGTAAAGAAGAGAGGGACTGGGGGCAGGGATGTGTGTTATTTTATATAGGGTTGTCCTGCAAAGGCCTGTGAG
Y
GAGGGACATTTGCAGATACAAGAAGAAACTGACTCAGACTTTGAGAACCTCCTGCCAGATGCTCAGAGTTCAGATTCTGGGGTTCCCAAACCTACTATTT
Celera SNP ID:            hCV992233
SNP Position Genomic:     72413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3950):
CGTTGCATAAAGTGTATGCACATAAGGGATAAGCATGATGGTAGCCGATGACTGGCTCAGAACTCCCATGTCAATCTGAGGGTGTGATTACACTGGCCTC
R
GGTCACCAGGCTCCCTACCACTTCCTACTGGTGATTTGATAATGGCGATGGTTATTCTTTATGGGCTGTAGAACACATTGACATCTTCAGATCTCTTTGA
Celera SNP ID:            hCV992234
SNP Position Genomic:     75390
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3951):
TTTCATTATTCCATTTGGAAGCAGGCCCCTTACCATAGCTCTTCCATCTCCATTTTTGCCTCCATCTTTACTCCTTATTCACAAGCCAGAGAACAATGGT
R
CATACATGCCATGTCAAAAGCACTTTTCTTTTCATTAATCTGTTGAAACTCATATGAAAATTTATAGTTGTTGCAGCAATGCAAGCTTATTTTATCATAA
Celera SNP ID:            hCV992235
SNP Position Genomic:     77652
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(A,-|G,-)   SC_12_A(A,1|G,22)   SC_12_C(A,10|G,13)   SC_12_AA(A,11|G,12)   SC_95_C(A,47|G,141)   total(G,188|A,69) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3952):
ATTATTTCTGAGGGCTCTGTTCTGTTCCATTGATCTATATCTCTGTTTTGGTACCAGTACCATGCTGTTTTGGTTACTGTAGCCTTGTAGTATAGTTTGA
R
GTCAGGTAGCGTGATGCTTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGTGATGCGGGTTCTTTTTTGGTTCCATATGAACTTTAAAGTAGTTTTT
Celera SNP ID:            hCV27219520
SNP Position Genomic:     133650
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3953):
CCCATGGACATAATGACCAATAATGACCTTCAAGTCATTCTTTCTTATTCTTTTTGGTCTGTTAATGGCATAGTGGGATGGTTTAATAGATTAACAACAG
Y
GCTCAGCTTGTCTTGAACTTGGATTTGTCCTTTCTTCTCCTTATGTCACTTTATGGGAGATCCTACATCATCCCTTAAAATGACACTTTGTTCCGCCCTC
Celera SNP ID:            hCV992236
SNP Position Genomic:     78041
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(C,5|T,12)   SC_12_C(C,3|T,21)   SC_12_AA(C,5|T,16)   total(C,13|T,49)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3954):
GTATAGTTTGAAGTCAGGTAGCGTGATGCTTCCAGCTTTGTTCTTTTGGCTTAGGATTGACTTGGTGATGCGGGTTCTTTTTTGGTTCCATATGAACTTT
R
AAGTAGTTTTTTCCAATTCTGTGAAGAAAGTCATCGATAGCTTGATGGGGATGGCATTGAATCTATAAATTACCTTGGGCAGTATGGCCATTTTCACGAT
Celera SNP ID:            hCV27219521
SNP Position Genomic:     133739
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3955):
TTGTAAAATGGCAGGCTTACTGCGGATGCTTAATCTCTTTTAAAAGTGCTGTGTCTAGCGGGAAGAAGAGTGACATTTACTAATATGGTTGCAAATTACT
K
TTGAAGTTTATGCACAGCTGTTTAAAATCCCTCTGAGATCAGTGCCATTGTTTGATGCAGGTGCTTACCGCAGAAGGCTCTTGTTAGTCCCTTCCTCCTG
Celera SNP ID:            hCV27856944
SNP Position Genomic:     7535
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,34)   total(G,1|T,71)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:3956):
ATTCTTCCTACCCATGAGCATGGAATGTTCTTCCATTGGTTTGTATCCTCTTTTATATCATTGAGCAGTGGTTTGTAGTTCTCCTTGAAGAGGTCCTTCA
Y
GTCCCTTGTAAGTTGGATTCCTAGGTATTTTATTCTCTTTGAAGCAATCGTGAATGGGAGTTCACTCAAGATTTGGCTCTCTGTCTGTTATTGGTGTCTA
Celera SNP ID:            hCV27219522
SNP Position Genomic:     133944
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3957):
GTGAGACACCATCTCAAAAAAAAAAAAAGAATAAATCTTTGTAATATTTAAAACTTTTTATATCTAGATCCAAATTGACACTCCATCTCTAAATTTTTAT
R
TGTCAAAAAAATCTAATTTTAAAAACCAAAGTTATGGAATAACCTAACTAGAAAATTCCTTGTTGATGACAAGGAGGAGAGCATTCTTTTAAGAAAGCTC
Celera SNP ID:            hCV992238
SNP Position Genomic:     81452
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3958):
GAATTACACAGTATTGGTCTACAAAATTTCACTTATGTTATGGAGAGGTGATAAAAATCTGTTCTAAGGGTGTAGCTACAGGAATAAAATAAAAGGAACA
R
TCTAAAAGAAAATACTGTTGCAGAGAGATTTCATGGTAGAGTAGATGAAATATCTACAGAATGCCTGTTAAGTGTACATAGTTGAAATGCTTTATAATTC
Celera SNP ID:            hCV992239
SNP Position Genomic:     82090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3959):
GAGTGGTGAGAGAGGGCATCCCTGTCTTGTGCCAGTTTTCAAAGGGAATGCTTCCAGTTTTTGCCCATTCCGTATGATATTGGCTGTGGGTTTGTCATAG
M
TAGCTCTTATGATTTTGAGATACATCCCATCAATACTTAATTTATTGAGAGTTTTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATC
Celera SNP ID:            hCV27219523
SNP Position Genomic:     134370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3960):
TTTAGCATGAAGGGTTGTTGAATTTTGTCAAAGGCCTTTTCTGCATCTATTGAGTAATCATGTGGTTTTTGTCTTTGGCTCTGTTTATATGCTGGATTAC
R
TTTATTGATTTGCATATATTGAACCAGCCTTGCATCCCAGGGATGAAGCCCATTTGATCATGGTGGATAAGCTTTTTAATGTGCTGCTGGATTCGGTTTG
Celera SNP ID:            hCV27219524
SNP Position Genomic:     134524
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3961):
TTGGTAAGCTATTGATTATTGCCACAATTTCAGATCCTGTTATTGGTCTATTCAGAGATTCAACTTCTTCCTGGTTTAGTCTTGGGAGAGTGTATATGTC
R
AGGAATTTATCCGTTTCTTCTAGATTTTCTAGTTTATTTGTGTAGAGGTGTTTGTAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATCAGTGGTGA
Celera SNP ID:            hCV27219525
SNP Position Genomic:     134968
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:3962):
ATATGTCGAGGAATTTATCCGTTTCTTCTAGATTTTCTAGTTTATTTGTGTAGAGGTGTTTGTAGTATTCTCTGATGGTAGTTTGTATTTCTGTGGGATC
R
GTGGTGATATCCCCTTTATCATTTTTTATTGCGTCTATTTGATTCTTCTCTCTTTTTTTCTTTATTAGTCTTGCTAGCGGTCTATCAATTTTGTTGATCC
Celera SNP ID:            hCV27219526
SNP Position Genomic:     135061
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,3)   total(G,3|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3963):
TAATTTCTGTTCTTTTACATTTGCTGAGGAGAGCTTTACTTCCAACTATGTGGTCAATTTTGGAATAGGTGTGGTGCTGAAAAAAATGTATATTCTGTTG
M
TTTGGGGTGGAGAATTCTGTAGATGTCTATTAGGTCTGCTTGGTGCAGAGCTGAGTTCAATTCCTGGGTATCCTTGTTAACTTTCTGTCTCATTGATCTG
Celera SNP ID:            hCV27219527
SNP Position Genomic:     135700
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3964):
TGTTGACAGTGGGGTGTTAAAAGTCTCCCATTATTATTGTGTGGGAGTCTAAGTCTCTTTATAGGTCACTCAGGACTTGCTTTATGAATCTGGGTGCTCC
Y
GTATTGGATGCATATATATTTAGGATAGTTAGCTCTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTGTCTCTTTTGATCTTTGTTGGTTT
Celera SNP ID:            hCV27219528
SNP Position Genomic:     135906
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,4)   total(C,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3965):
TAGATGATTGCTTGGGTGCTTTGAGAACATGTAGAAGGGAACCAAGTCCTGATTCGGAGGTTCAGGAAAGGCTTTCAGAGGACAAGGTATCGCGGGTGGG
R
ATGGAAGATGTATGGGAATTAGCCAAAAGGACAGGGGTTCAGAGGTGAGCCAAGTCTGTCCTGAAAGTAAGCAGAAATGTTGTTGTTCTTGTCGTTTTGA
Celera SNP ID:            hCV27219455
SNP Position Genomic:     12853
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3966):
TATTGTGTGGGAGTCTAAGTCTCTTTATAGGTCACTCAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGATGCATATATATTTAGGATAGTTAGC
T
CTTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACC
Celera SNP ID:            hCV27219529
SNP Position Genomic:     135940
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3967):
TGGGATTGGAGGGAGGGAGAGCGTTAGGAAAAGTAGCTAATGCATGTGGGGCTTAATACCTAGGTGATGGGATGATGGGTGCAGCAAACCACCATGGCAC
A
TGTTTACCCATGTAACAAACCTGCACGTCCTGCACCTGTATCCCAGAACTTAAAATAAAAATAAAAATTAAAGAAAATTACATACCTATGGCATTTAGTT
Celera SNP ID:            hCV27219456
SNP Position Genomic:     13986
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,13)   total(A,13|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3968):
GGGATTGGAGGGAGGGAGAGCGTTAGGAAAAGTAGCTAATGCATGTGGGGCTTAATACCTAGGTGATGGGATGATGGGTGCAGCAAACCACCATGGCACA
T
GTTTACCCATGTAACAAACCTGCACGTCCTGCACCTGTATCCCAGAACTTAAAATAAAAATAAAAATTAAAGAAAATTACATACCTATGGCATTTAGTTT
Celera SNP ID:            hCV27219457
SNP Position Genomic:     13987
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,14)   total(T,14|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3969):
ATCCCAGAACTTAAAATAAAAATAAAAATTAAAGAAAATTACATACCTATGGCATTTAGTTTTCTATACCATTCCTTTAAGTCATAGAATCAGATGAGCT
Y
AGGGGCTAGAAGGAAGAGGGAGCGATGGGAAGGCAGTCGTTGGTCATGCCCTGGGCCTAGATCGCGGGAATCAGTCATTCAGAAAGCCCCATATGTTGGG
Celera SNP ID:            hCV27219458
SNP Position Genomic:     14126
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3970):
CTTCTAACTAACCTGAGCACAGAAGCAAATATGTACCCTTTGGAAAGGAAGCAGTGAAATGGACTGCAGACCTCAAGGGTGGTCCCCAGGGATGGAGCTT
R
TAGCTGAGGCATCTTATGGAAAGCCTGATGTGGAGGCATAAAGCTTTAGGGAGCAGGAAGAGGCACTTAGTCCATCTGAGAACAAAGCTTCTCCTTCCTA
Celera SNP ID:            hCV27483953
SNP Position Genomic:     122298
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,447|G,1026)   total(G,1026|A,447) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3971):
AGGGACTGTGTTCCCAAAGTTTGTTAGTTAGGTGGCTGTTTAGGGAAGGACCACACCTGGTTCCTGTTTGTTTGTTTCTTGGTTTGTTTGTTGGTTTGTT
W
GTTTGTTTGTTTTTGAGGCAGGGTCTTGTTCTGTTGCTCAGGTTGGAGTGCTGTGACTCAATCTCGGCTCACTGCAACATCTGCCTCCCAGGCTCAAGCA
Celera SNP ID:            hCV27219459
SNP Position Genomic:     14462
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,7)   total(A,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3972):
TCTCTTGGGAGGGTTAAATGTGGGGCATCCAACATACTATAAATCTCCATTGCTGTTAATTAATAATCACTAGTAACGTAGTCTTCTTCTCACCCTCATG
K
TAGTAAACACTGACTGTGCCCTGTGATCTCTTAGACTTTAATGGCCAATTCAACCCCCCCAATGCTCACCACTAGTGTGGCGTCTGATTCAGACCTGAGA
Celera SNP ID:            hCV27483954
SNP Position Genomic:     119852
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,376|T,1123)   total(G,376|T,1123)no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3973):
CACAACAGTCCTGTAAGTTAGAGAATGCAGTAGTAATTGGAAACTGAAGCCCAGAGGGGCTAATTCATCTGCCCACATTTCCACAGCTAATAAATGTCTG
Y
GAAATAAAACTAGAGCTAGAATTTTCTGTATCCAAATGCCATGCCCTTACCATTGCCAACAGTGTGTTGCTGCATCATTTGCAAAAACTAAAATTGTTGA
Celera SNP ID:            hCV27483955
SNP Position Genomic:     105732
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3974):
TCTGCCCTTATTCTCAGACAATAAGTACTAGCCTTTAGTCCAGTTTCTCTTTTACCCTATTTATTAGCCCACTTTCTGGCATTAACTCTACCTAGCCTGG
Y
TCCCATGATAAGCCTTTGTCAGCACTCTGCTCTCATTAGTTCCCCTTTGCCATGGATAGTCTGATCTCCAAACCTTGCATTCTCCCCTCTCATTCTCCCC
Celera SNP ID:            hCV992240
SNP Position Genomic:     83133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   SC_12_C(T,9|C,15)   SC_95_C(T,27|C,158)   total(C,173|T,36)SC_12_C(T,7|C,8)   total(C,8|T,7)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3975):
ATAAACTTTACCTCTGACATCCTCAACTCTTCCTTCTCTCTGCAGTTTCTTCCTTATTCCCAAGACATACTGCATTATGCATCTTCCCCAATCTTGAACA
Y
CATCTCTTCTTTTTTTTCACCTTTTTACCTCCTTGAGTTTTTTTTTCTTTCCCTAACACATTCCTTTAAAAAGTAGTTTATATTTATCAGTTTCTTTTTC
Celera SNP ID:            hCV992241
SNP Position Genomic:     84975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3976):
TCACAGCTGCTCAGGAAACTTGTAATTTGATTGACTACAAACAAGTGATAGGTTAGACCACATAAATAGATTAGAATCCATTAGTATAAAAGAAAAAAAA
Y
TGCAAAAACCAATGAGCTCATTCAAACCAGTAAATAGAGAAATAAATATAGTCAATACAAAAAAAATTAAAGAATTCTATGTTTTTACATTTATTCTTTT
Celera SNP ID:            hCV992242
SNP Position Genomic:     85570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3977):
ATGTAGAAATTGTGTATATAACTATATATTTATAGTTTATAAAAATATAAACTATATGTAGACATATATGTATATAAACATATATGTATAGATATATGTA
Y
AAAATATGTTTAATATACATATAAACATATATGATTTTTACAGTAAAAACCTGTATAGGGTCCCCATAATAATTCACTTTCATTCCCTGCATTTAAAAGT
Celera SNP ID:            hCV992243
SNP Position Genomic:     85876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3978):
ATAAAAGAGGTGCATGAGGAAGCCAGGTCTAGTCAGGAAAAATGCCCATGGGATTTTAGTTTCTGCCTCAATGGGGGGGCTATTGGGGGTAAGTGGGAAG
R
AACAGAAGTGAAAGGTATCTTTATTACAAACAGTTTTCCAGTTTTATAGTCAAAACTTCCCCCACCTAATGGCCCAACCCTGCTGGTGCTACTTTTTCCA
Celera SNP ID:            hCV992244
SNP Position Genomic:     88148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3979):
ATGCATTTTCATTCATGCATTTTAATCTCTATATGTTTGGAAAATACAAGGATGATAAATCAGCCAGTTCTCATTTATTTAATTATCAAACTTTTTAAAA
M
GCAGCTTCAAATGAAAAACACTCTGTTAATACTCTTGGCAAATGATACAACAGGGCTGCTGATCAGAAACTGCTCTGTGATCTTAGGGGGTTATGAGATC
Celera SNP ID:            hCV992245
SNP Position Genomic:     88847
SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,31)   caucasian(A,17|C,23)   total(A,24|C,54)
SNP Type:                 INTRON;TFBS

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,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:3980):
ATTGTGTGGGAGTCTAAGTCTCTTTATAGGTCACTCAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGATGCATATATATTTAGGATAGTTAGCT
C
TTCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCC
Celera SNP ID:            hCV27219530
SNP Position Genomic:     135941
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,4)   total(C,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3981):
ATTGAAACTGACAGCTGAAGAGTGACAGAGCTGGTTAGGTGAAGAGCAGGAGGAAGGAAGCTCCTTACAGGCTGGAAGACCCTGCTGAGGGAGAGTCCAA
Y
GTGTTCCAGGAACTGAAATGGGACCAGTGTGGTGACAGCTGCAAGGGCTGCGCAGACTGGAAGCCCACACTGGGGAAGGCACCAAGGCCTGGGTCATGCG
Celera SNP ID:            hCV992246
SNP Position Genomic:     90892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3982):
TTGTGTGGGAGTCTAAGTCTCTTTATAGGTCACTCAGGACTTGCTTTATGAATCTGGGTGCTCCTGTATTGGATGCATATATATTTAGGATAGTTAGCTC
T
TCTTGTTGAATTGATCCCTTTACCATTATGTAATGGCCTTGTCTCTTTTGATCTTTGTTGGTTTAAAGTCTGTTTTATCAGAGACTAGGATTGCAACCCC
Celera SNP ID:            hCV27219531
SNP Position Genomic:     135942
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,4)   total(T,4|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3983):
GCAGGAAGCGAAGAGGGCCTGAGCTCTGGTGGAGACTGGTCCCTGGAGCTTCCACAGTTTAACCGGAAGGGAGTAGGGCAAGACAGTTGCTGATGGGGAT
R
GGTGTGGAGCTTTGGTGATGGGCACACAAAGGCGCTTCCCTTAGACTGCATGTGTCCCCCATGGAGTTTGATGGCTGGAGGAAGGAAAAGAGAAAGCAAC
Celera SNP ID:            hCV992247
SNP Position Genomic:     92091
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3984):
AGCCTGCTCAGGAGTATGATTTTCTCCAACAAAGGGGCAGGTTCAGAGAAGGCGAAGTGGCTGGGTTTTTCCAGAGTAGAATTTCTCCTAACATTTAGAA
S
CAGAAGGAGATAAACTTGTGCTAACCGGTGATTCTGCTAAGACTCAAAGAGGTTAAAGTAGTTTGTTCATGTTTGATCACCTGTACGTGGCAGAGCTGGT
Celera SNP ID:            hCV992248
SNP Position Genomic:     92413
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3985):
ACATGAGATGGGTTTCCTGAATACAGCACACTGATGGGTCTTGACTCTTTATCCAATTTGCCAGTCTGTGTCTTTTAATTGGAGCATTTAGTCCATTTAC
R
TTTAAAGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGATGCAGTTTCTTCCTAGTCTCGATG
Celera SNP ID:            hCV27219532
SNP Position Genomic:     136217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3986):
CTTTGCTATGCACCTTCCCAAAGGAACTGTTGAATTAGAAACTTCTGCAGAGATTATAAACCTTTAGAAAATAAAGCATTTTATCCTGCACAAGAATATT
S
ACATTCTTACCAGGAATCCAACTATCCAAGTGTTTTGTTGTTCCTGCAATAAGTTTGATTTAAACTCTGGAAAACTGTTTTTTAAAAAAATTCCATGTCG
Celera SNP ID:            hCV992249
SNP Position Genomic:     93510
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3987):
TTACGTTTAAAGTTAATATTGTTATGTGTGAATTTGATCCTGTCATTATGATGTTAGCTGGTTATTTTGCTCGTTAGTTGATGCAGTTTCTTCCTAGTCT
Y
GATGGTCTTTACATTTTGGCATGATTTTGCAGCAGCTGGTACCAGTTGTGCCTTTCCATGTTTAGTGCTTCCTTCAGGAGCTCTTTTAGGGCAGGCCTGG
Celera SNP ID:            hCV27219533
SNP Position Genomic:     136313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3988):
AGCTTAGTTTGGCTGGATATGAAATTGTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGTCCCCACTGTCTTCTGGCTTGTAGAGTTTCTGC
Y
GAGAGATCAGCTGTTAGTCTGACGGGCTTCCCTTTGTGGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGA
Celera SNP ID:            hCV27219534
SNP Position Genomic:     136577
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,2)   total(C,2|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3989):
CTCAAATACAGTGACTTGACCACTACACATTCTGTGTACGTAACAAAATACCACATGTGCCCCATAAATATGCAAAATATGATGTATCAATAAAAACAAA
M
ACACACAAAACTCAAAGAACAATAAAACAAAGACGGTGAAGAGGTAAAGAGAATTTCTAGAACCTGGCCTGTTTTTAGATTATTAAATGTTTCCTTTTTT
Celera SNP ID:            hCV27219461
SNP Position Genomic:     26442
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,1|-,5)   total(A,1|C,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3990):
GTTTGGCTGGATATGAAATTGTGGGTTGAAAATTCTTTTCTTTAAGAATGTTGAATATTGGTCCCCACTGTCTTCTGGCTTGTAGAGTTTCTGCCGAGAG
W
TCAGCTGTTAGTCTGACGGGCTTCCCTTTGTGGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGA
Celera SNP ID:            hCV27219535
SNP Position Genomic:     136583
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,2)   total(A,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3991):
CTTCATGAACCCCGGGATGGAGCGGCTGATATCCTGAATCTTGCCCCTCCAGAGACAGGAAAGAATTTGCCTTCTCCCTGGGAACTGGTTCAAGAGACAC
W
GCTTGGGTTCCTTTTTCAACTTGGAAAAAGAAAGAAACACTCAACAATAAAGACTGAGACCCGTTCGCCCCCATGTGACTTTTATCTGTAGCAGAAACCA
Celera SNP ID:            hCV8901494
SNP Position Genomic:     158173
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:3992):
CGGGAGAATTTCTTGAGCCTGGGAGGTGGAGATTGCAGTGAGCCAAGATCATGCCATTGCACTCCAGCCTAGCCTGGCAGACAGAGTGAGACTCTGTCTC
A
AAAAAAAAAAAAAAAAAAGATGAATTTTATGTTATGTGCTTTTTACCATGATAAGAAAAGCTACATAATTGCAGTTTTTGTCATTACTTTTAATGGCAAA
Celera SNP ID:            hCV27219463
SNP Position Genomic:     36640
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3993):
GCTTCCCTTTGTGGGTAACCCGACCTTTCTCTCTGGCTGCCCTTAACATTTTTTCCTTCATTTCAACTTTGGTGAATCTGACAATTATGTGTCTTGGAGT
Y
GCTCTTCTCGAGGAGTATCTTTGTGGCGTTCTCTGTATTTCCTGAATCTGAATGTTGGCCTGCCTTGCTAGATTGGGGAAGTTCTCCTGGATAATATCCT
Celera SNP ID:            hCV27219537
SNP Position Genomic:     136703
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,3)   total(C,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3994):
TGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGAAAT
Y
GCCACACTGACTTCCACAATGGTTGAACTAGTTGACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCC
Celera SNP ID:            hCV27219464
SNP Position Genomic:     37957
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3995):
AAACTTCCCTTCTCACTTCATTTCATTCATTTCATCTTCCATCACTGATACTCTTTCTTCCAGTTGATCGCATCAGCTCCTGAGGCTTCTGCATTCTTCA
Y
GTAGTTCTCGAGCCTTGGCTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCTCTATTGCTTATTCTAGTTATACATTCGTCTAAATTTTTTTCAAAGTT
Celera SNP ID:            hCV27219538
SNP Position Genomic:     137037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:3996):
TTTAGTTGAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCCATTGCTTTTGGTGTTTTAGACATGAAGTCCTTGCCCATGCCTATGTCCTGAATGG
Y
AATGCCTAGGTTTTCTTCTAGGGTTTTTATGGTTTTAGGTCTAACGTTGAAGTCTTTAATCCATCTTGAATTAATTTTTGTATAAGGTGTAAGGAAGGGA
Celera SNP ID:            hCV27219465
SNP Position Genomic:     38483
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3997):
TTCTTCCAGTTGATCGCATCAGCTCCTGAGGCTTCTGCATTCTTCACGTAGTTCTCGAGCCTTGGCTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCT
S
TATTGCTTATTCTAGTTATACATTCGTCTAAATTTTTTTCAAAGTTTTCAACTTCTTTGCCTTTGGTTTGAATTTCCTCCTGTAGCTCGGAGTAGTTTGA
Celera SNP ID:            hCV27219539
SNP Position Genomic:     137091
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,4)   total(G,4|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:3998):
ACTTAATACTTAGTCATGTCATTTTCAATTATTAAAAATAAATTCATCACGCCTGTAATCCCAGTACTTTGGGAGGCTGAGATGGGCAGATTGCCTGAGC
K
CAGGAATTCAAGACCAGCCTGGGCAACATGGTAAAACCCCATCTCTACTAAAATACAAAAAATTAGCTGGGCGTGGTGGGGCGCACCTGTAGTCCCAGCT
Celera SNP ID:            hCV27219466
SNP Position Genomic:     47289
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:3999):
AGTATACTGAAAGATAGCATTTTACTCCAAATTTTTTCCCACTGACAGATTTTTATCTTTGTAATGAGTTTATATATATATATATATATCTATATATATA
K
ATAGATATATGTTTCTATTTAACTTTTAAGTATATTCTGTAAATATCTTTGTTTCAATAAGTAATAAGCCACTGGTTATAAAATATTCCATTATAGTTAC
Celera SNP ID:            hCV27219468
SNP Position Genomic:     51500
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4000):
AACACTGAGCCATCTCCCACTAAATTATAGTAATACAAATGCTGTCCAAACATTTTATTAAATGAAGAAGTTTGCTATTTCTTATTTCATTTGCTACTGA
R
GAAGAGAATGCTTGATATTTTTTTCAATTGATGAGAGTATATTATACTTCTATTGCTTTCTATTTATATGGAATTTGTCCCCATCAGGTTCAGTTATGTG
Celera SNP ID:            hCV12011803
SNP Position Genomic:     63665
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4001):
ATGTAAGAGGCATTACTGCTTCATTTAACCTCCAAAAGCCTTTATAAATTAGATATTATTATTATTCCAGTTTTTCAGATGAGGAAACTGAGGCTCAAGG
R
GTAGAGCCCCTTGTCCAGGTCTTATAACCAGTCAGTGGTAGAGTCAGGTTAGTTGGACCATCCAGATTAGTCTAACCATCAAGCATTTGCTTTAAACCGC
Celera SNP ID:            hCV29391305
SNP Position Genomic:     9414
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4002):
TGATTCGAATATTTTGTAGCTGTTTTGAGGGGTCCTTTTCGCATCCAGACCAGGATTTCACCTGGACAGCTGGAGTGGGAAAGAAGTGGATACATTTCAA
R
CTCCTAGGGCTGTAGTTAATGTGTCCTGTCATAACCACTGCAGAACAGTGTAGGTCAGAGAATGCAACCACTGGTGGCATGTATAACCCTTCACCAATAA
Celera SNP ID:            hCV29391306
SNP Position Genomic:     19929
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4003):
GTGCTATCTCAAGACACCCAGCCATGCTGCTAAGAAGGCGCATTATAAAGAAGCATCAAACATTCTGCAGTTTCAAAAAGTGAAACGTATATTTGCTTGA
R
TGTTCATCTAAACACTACCCATAGGAAAATTCAAACGAAACTCCAGGGAATTTTAATCCACATGCCACATTTTCTTAGTCTTTTGCAAGATAGAGTCAGA
Celera SNP ID:            hCV29391307
SNP Position Genomic:     21180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4004):
GCCTTGGCTTGGCGGTTTTGGTCTTCAGAGCATCCCTAGGGCCCTCTCATAAGGTTGCAGTCAGACCTGAGATGAGGTCACTCCCTTATATGGCCCCTGG
R
TGGATGCAGCTAGGAGGTTGAGATTCCCCCACCCCGTCTTCCTCCATATGTGGCCCCAAAGTAGGAAGTTCCTGCTGCTTTGGTCTTTGGGTGAAAAACA
Celera SNP ID:            hCV29391308
SNP Position Genomic:     21697
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4005):
TTAGACCCCTCAACTTCAACTTTAAAATCTTATTTCTCTTCCTGCATCACGGTGACCACCTCCTCACAAGTGCAAGAATAGATGACGATATTCCAGCATG
Y
TGTGATTCTCCTAAAAACCTGCTGCTCCTAGGGACTCTGTGGAGTGAGTTTCCTGGACCGAAGTCACTTCTCAGATCTTCATGTTACACCCATGATGTTT
Celera SNP ID:            hCV29391309
SNP Position Genomic:     27612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4006):
GCTGACACATGGTCCTGCACAGAAATTCTGTAACATTAGCTTGAGCATCCATCCCTAAACCATTGCTGTGAACTCCAAGTGCCCAGTAAGAGGCTGGCCC
R
GTTGTGACCGTCATTGCCTGTTTTCTGGTCTTTCCTCCAAGGCCAGGATCGCAGCAGAGCCTAACCTGCCATTCATTATTGATGGAGTTTCTCAGACCTA
Celera SNP ID:            hCV992250
SNP Position Genomic:     95160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4007):
GAGCTGGTCCCAGCAGCGCCGCGGCACAGCTTAGAACTTCCCAGGGGTTCCTGGGCGTTATTTCATGGCTCTTCTGCCTGCTTCGTTTCATTTCTTTCCT
Y
GAATACTCTTTCCTTTCCGCTCCATTCTGTTCCCCGCTCTCTCCTACCACCTACATTTCAAGTGCTCCCCTCCCCTTTTTCTTTTGTCCCCTCTCCTCTC
Celera SNP ID:            hCV992252
SNP Position Genomic:     96460
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4008):
TAAAACTCCATCCCTCTATGTTCAATCCTAGCTGACAACCTCACTTGGTGTCACGGTGATGCATAAGAAAATGGAGCTGGGGCTACCGAAGTTGAAACCT
R
ACACCTTCTAAATAGGGCGAATGTGAGTTATGCGAGTTTTGCCGACAATGTGGAATTTGGAGCACAATCATGAAAAAAAAAAATCCTTTCTATAGTAAAG
Celera SNP ID:            hCV992253
SNP Position Genomic:     97089
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4009):
CAGTACAGTGGCATCGCAGAAGGACAGGTGGGAGGGGAAGGGATAGGCTGCATCAGCTGCCTTTGAAAACGCCATCGAGCAATAGTATTGCAGCCATTTA
Y
ACCATAATATTTCCTACAGAGGACCTCGTTTAGTTTCCGAGATTGAGCCTCTAGTCTCGCTCTTCACACCGCTGAAGATGTGCGGTAGAGGATCTTGCTG
Celera SNP ID:            hCV28004057
SNP Position Genomic:     21952
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4010):
CAGTTGATCGCATCAGCTCCTGAGGCTTCTGCATTCTTCACGTAGTTCTCGAGCCTTGGCTTTCAGCTCCATCAGCTCCTTTAAGCACTTCTCTCTATTG
S
TTATTCTAGTTATACATTCGTCTAAATTTTTTTCAAAGTTTTCAACTTCTTTGCCTTTGGTTTGAATTTCCTCCTGTAGCTCGGAGTAGTTTGATCATCT
Celera SNP ID:            hCV27219540
SNP Position Genomic:     137097
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4011):
ATTCTGTCCCATATTGTCTCTGATTGTTTATGTGCTACTTTTGTCTTCCCAACAGAATTCTATATCCCAGAGAACAGAGGGAGCAGGTGCTACTGTTGAG
Y
TGAACTGAATTATTTTCCAGGCCTGGCTGAAGGAATAATGAGACCTTACGTTTCTGTTCCTAGAGAACGGGCAGATGTATATCCAGAAAAAGCCTACCAT
Celera SNP ID:            hCV15972922
SNP Position Genomic:     75022
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(C,25|T,1476)   total(C,25|T,1476)
SNP Type:                 INTRON


Context             (SEQ ID NO:4012):
TCTAGTTATACATTCGTCTAAATTTTTTTCAAAGTTTTCAACTTCTTTGCCTTTGGTTTGAATTTCCTCCTGTAGCTCGGAGTAGTTTGATCATCTGAAG
M
CTTCTTCTCTCAACTCGTCAAAGTCATTCTCCATCCAGCTTTGTTCCGTTGCTGGTGAGGAACTGCGTTCCTTTGGAGGAGGAGAGGCACTCTGCTTTTT
Celera SNP ID:            hCV27219541
SNP Position Genomic:     137202
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4013):
TTTTAAAAATCTTGGTTTTGGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGTAGGCTGAGGCGGGTGGATCATGAGGTCAGGAGATCAAG
M
CCATAGTGGCTAACACGGTGAAACCCCGTCTCTACTAAAATATAAAAAATTAGCTGGGTGTGGTGGCACGTACCTGTAATCCCAGCTGCTCAGGAGGCTG
Celera SNP ID:            hCV27219542
SNP Position Genomic:     137689
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:4014):
TTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTAACCTCATGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGG
Y
GTGAGCCACTGCGCCCAGCCGGAAACATCATACTTTCTATGGCACACTAGACACTCAGTAAATCCAGATGGGATTGCAATGCATGGAAGCAGCTCCCTGG
Celera SNP ID:            hCV27219543
SNP Position Genomic:     139168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4015):
TCAGGAGAAGAGTGACTGATCTCAGCTGGCCCTTCTTCTGTACCTGGGAAGATGAGCTTGAAATCAACATTGTCAGTTGAGTTCCTAAAACAGAACTCAG
T
TTTAGAAGTTAAGCTTAGGTTGCAGTCCTAGGGTTGCAATCGGCATAGGCTTGTTTTGTAGGGGAATGTGGATCCTGAAGGATTTAGGGGCCAGAAAGGA
Celera SNP ID:            hCV27219470
SNP Position Genomic:     58398
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4016):
AAGTAGGAGAATCGCTTGAACTTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGCCAACATAAGCGAGACTCTGTCTCC
A
AAAAAAAAAAAAAAAAAAAAAAACTGAGCATAGTGTGACCATGACAGCTTGAGGTTTAAAACCAAGAGGCACATTATGCTATGGAAGGAACATCACGTGG
Celera SNP ID:            hCV27219544
SNP Position Genomic:     139934
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,2)   total(A,2|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4017):
ACTTCAATAATTTTAAAGTCATTAGTTGTTGGGACTCTGAAAATGTAGGAATCCTGTTATGCATGACAGATTTCCACGGTGGGCAACAGTCACCTAGCAC
R
TGCCTGGTAGTTCAGCTGTAATGTGGGCTAAAAGCTGATGGAAAGCCTAACCCCTTTTTAAACAGTATTTCTATGACTGGCTGAACTCCGTGGTGGATGG
Celera SNP ID:            hCV27219471
SNP Position Genomic:     61267
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4018):
AGTAGGAGAATCGCTTGAACTTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCGCGCCACTGCACTCCAGCCTGGCCAACATAAGCGAGACTCTGTCTCCA
A
AAAAAAAAAAAAAAAAAAAAAACTGAGCATAGTGTGACCATGACAGCTTGAGGTTTAAAACCAAGAGGCACATTATGCTATGGAAGGAACATCACGTGGT
Celera SNP ID:            hCV27219545
SNP Position Genomic:     139935
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4019):
ACAAATGAGATCACACTTAAAGCTGAAAATAGTGAGCCTCTAAGAGTAAAGATCCTTTGTAATTTTAAAGTACATAGGGGCCGGGCGCGATGGCTCACTC
Y
TGTAATCCCGGCACTTTGGGAGGCCAAGGCGGATGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTAGCCAGCATGGTGAAACCCAGTCTCTACTAAA
Celera SNP ID:            hCV27219472
SNP Position Genomic:     64061
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4020):
AATCGCTTGAACCCAGGAGGCAAAGGTTGCAGTGAGCCAAGATCGTGCCATTGCACTCCAGCCTGGGCAACAGGGCGAGACTCCGTCTCAAAAAAATAAA
T
AAATAAATAAATAAATAAATAAATAAATAAATAACATAACATAACATCACATAACATAACATAGTACATATCATGATGGTGTTTTGCAGCTGGGGTAGCA
Celera SNP ID:            hCV27219473
SNP Position Genomic:     64331
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4021):
CCTAACAGATAGACTCAGACCCCGCTATCGAGCTGTAGGTAGCTCTTAGAGATCTTTCATTTCTAGATTTGAGTGCTTTGGGGTTTTTTTTGTTTTTGAG
W
TGGAGTTTCTCTCTTGTTGCCCAAGCTGGAGTGCATTGGCATGATCTTGGCTCACTGCAACCACTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCT
Celera SNP ID:            hCV27219547
SNP Position Genomic:     143357
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4022):
CTTTTCTTTTCTTTTCTTTTTTTAAGACAGAGTCTTGCTCTGTTGCCTAGGCTGGAGTGCAATGACATGATCTTGGCTCTCTGCAACCTCTGCAGGGAGC
M
AAGCGATTCCCCTGCCTCAGCCTCCAGAGTCGCTGGGATTACAGGTGCCCCCCACCATGCCTGGCTAATTGCTGTATTTTTGTAGAGAGGGGGTTTCACC
Celera SNP ID:            hCV27219474
SNP Position Genomic:     67543
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4023):
AGTTTCTCTCTTGTTGCCCAAGCTGGAGTGCATTGGCATGATCTTGGCTCACTGCAACCACTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCTTCC
R
GAGTAGCTAGGATTACAAGCACCCACCACCACACCTGGTTAATTTTTGTAGTTTTAGTAGAGATAGGGTTTCACCACGTTGGCCAGGCTGGTCTCAAACT
Celera SNP ID:            hCV27219548
SNP Position Genomic:     143461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4024):
TGTATAAGACCTTACCAATAGGAATAACACTTGATAAATAATATTGTAATACTCTGGTGATCCAGTCTGATGCAGTATCCCTAAATCTGGGAAAGGTTGT
A
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGATGCTATCTTAAAGATGCATTTTTTTCTGGCATGTAGAAGTTGGAAACAGACTAAATATGTAGCTA
Celera SNP ID:            hCV27219475
SNP Position Genomic:     68661
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,5)   total(A,1|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4025):
TAAAAATCTTGGTTTTGGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGTAGGCTGAGGCGGGTGGATCATGAGGTCAGGAGATCAAGCCC
R
TAGTGGCTAACACGGTGAAACCCCGTCTCTACTAAAATATAAAAAATTAGCTGGGTGTGGTGGCACGTACCTGTAATCCCAGCTGCTCAGGAGGCTGAGG
Celera SNP ID:            hCV28015998
SNP Position Genomic:     137692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4026):
AGCCAAGCGGGAAGGGGGAAGCCCCTTATGAAACTATACTCTCACTATCATAAGAACAGCATGGGGGGAAACCGCCCCCATGATTCAATCACCTCCCATC
R
AGTCCCTCCCGTGACACATGGGGATTATAGGATTATAATTCAAGATGAGATTCTGGGTGGGGACACAAAGCCAAACCATATCAGCCAGTACAGTTGACCT
Celera SNP ID:            hCV27219549
SNP Position Genomic:     146323
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4027):
AAACGTCTGAGTTTTTCAAAGCCGCCTTTGACTTAATGGGTCTCCTGGATCCAGTTCTCTTTACCATCTCAGGTCTCCCTGACATTTGCTTCCTGAGGGC
T
TTTTTTTTTTTTTTTTTGCATTTGGCCTTGCCTTTGAACTTGGTCTAATGAGCCATGTGGATCGAGAGTCCTTGTCAGAAAAGAAGGAAACTGGTTTTCC
Celera SNP ID:            hCV27219477
SNP Position Genomic:     72815
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|-,7)   total(-,7|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4028):
AACGTCTGAGTTTTTCAAAGCCGCCTTTGACTTAATGGGTCTCCTGGATCCAGTTCTCTTTACCATCTCAGGTCTCCCTGACATTTGCTTCCTGAGGGCT
T
TTTTTTTTTTTTTTTTGCATTTGGCCTTGCCTTTGAACTTGGTCTAATGAGCCATGTGGATCGAGAGTCCTTGTCAGAAAAGAAGGAAACTGGTTTTCCT
Celera SNP ID:            hCV27219478
SNP Position Genomic:     72816
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,11)   total(-,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4029):
ACCTAAATAATAGTATCAATGATGTTTAATTCCTTGAATAAGAGAAATACATTCCTCCCATTAGTTTAAATCATGACCCAATGTAAATTGAAAAAGGGTC
Y
TGTCTGGGCATGGTGGCTCATGCCTGTAATTCCAGTACTTTGGGAGGCCGAGGTGGGCAGATCACTTGAGCTCAGGAGTTCCAGACCAGGCTAGGCAACA
Celera SNP ID:            hCV27219479
SNP Position Genomic:     80331
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4030):
GAATTCACTGAACATGAGGAAGTGATGAGAAGTGGTGAGGAATGGGTTGGGGAGATATTCTCGGCATTGCCATTTATTTAGAACAGGGTTTCTCAGCCTC
M
GCACTATTGGTTTTGGGGGGGTGCTTGGGGGACTAGCCTGTCATCGTAGGTTGTTGAGCTGTATCTCTGACCTCACCCTACTAGATACCAGAAGCACACC
Celera SNP ID:            hCV12011813
SNP Position Genomic:     54774
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:4031):
TGTTTCTAGTTTTATTATTATTAAACTGTGCTGCAATGAACAGTCTTGTAAGTATATTTTCTTACACTTTCCTTATCACTTTAAAGTCATTTAATACACA
Y
TTCCTTCTATAAAGCTTGTAGAGGTCTCTTATCCAAATTGCTATGGCGAGATCTGCTTCATAATTCATATTTTATAAAGGTAATAAAGTTACATGCTGTA
Celera SNP ID:            hCV12011814
SNP Position Genomic:     51747
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4032):
TGTTTACTAAGCCTTTTTTAAAAAAAACAAAATAGTACTGTATGTCTGTTTACATCTTTAGTAGTGTGTAAGGGAAGATTGTTTTCTTTAGAGTTCTTTT
R
AACAATTTCAAGGCTATTCAGAAGGATCCATTTTAAGAAACCAAAACATCTTTTTAAAATGCCTTGTTTAATATATATCTTTAGCCATAATGGAATCCCC
Celera SNP ID:            hCV29391310
SNP Position Genomic:     27967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4033):
AGATAGATCCACAGAGTGCTGGCTGGAGGAATCCATATGGCAGAGGGCAGAGAAGCGAATGGAAGGGGAGGAAGCAAAGATGGTTCAGGAAGCTGGTTGG
Y
GAAGGAAGGGAGGTAAGGCCATAGCAGCGGGAGAAGCCACGGCAGAAGTTGTTAGAGGTTGCAAAACCGGAGGGTGTTTATAAGCGGGAGTGGGAGACAG
Celera SNP ID:            hCV29391311
SNP Position Genomic:     29116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4034):
GGAGTATATTACATGATACTGAGGTTTAGGGTGCGATTGATCCCATCACCCAGGAACTGAGCATAGTACCCAATAGTTAGTTTTTCAACCCTAGACCCCC
Y
CCCTCCCACCTTTACTTGTCCCCGGTATCTATCGTTGCCATCTTTATGTCCATGAGTACCCAATATTTAGCTCCCACTTCTAAGTGAGAATATGCATTAT
Celera SNP ID:            hCV29391312
SNP Position Genomic:     31136
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4035):
CCCAAACATATCTCCCCTAATTCAGTTCCAACCACACTTTAATTCCCAGTTTGGACCCCCATTTTTCTCCTGAAACTACTGCTGGAGAGTTCTCTCTCTT
Y
GGAGTTGCAGTTCCTTCTGCAACGTTGCATGGACTTTGGTACCAACTGGCCTTGGTTGCTTTGTATATGAGTCCTGTATCCCAAGGAGACTATAATCTTC
Celera SNP ID:            hCV29391313
SNP Position Genomic:     31995
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4036):
CTCTCTCACCACTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATTAGGCAGGAGAAGGAAATAAAGGGTATTCAATTAGGAAAAGAGGAAGT
Y
AAATTGTCCCTGTTTGCAGACGACATGACTGTATATCTAGAAAACTCCATCGTCTCAGCCCAAAATCTCCTTAAGCTGGTAAGCAACTTCAGCAAAGTCT
Celera SNP ID:            hCV29391314
SNP Position Genomic:     39593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4037):
GTCAGTTCATTCATGGTCTGCATTTATGGACCTTCAGTGCATCTAGAACTTTTACCTTCTGCTTATCAAATAGTATCTGGAAATACTGATTATTCTGGAT
M
TGCATTGTAATGATATTGACACTCATGAAAAGATGCTCAACACCCTTCCTCAGTAGGGAAATACAACACAAATCAATAAGCTCTGCTTCACACCCATTAG
Celera SNP ID:            hCV29391315
SNP Position Genomic:     45264
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4038):
TTACCTTCTGCTTATCAAATAGTATCTGGAAATACTGATTATTCTGGATATGCATTGTAATGATATTGACACTCATGAAAAGATGCTCAACACCCTTCCT
Y
AGTAGGGAAATACAACACAAATCAATAAGCTCTGCTTCACACCCATTAGGATGGCTATTACCAAAAAAAGGGAAGGTGGTGTTGGTGAGGCTGTGAAGAT
Celera SNP ID:            hCV29391316
SNP Position Genomic:     45315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4039):
GAAAATATAGTGAGGCAGAATGTTAGGGCCAACAGAAAGGAAAGTAGGGCTCTAGGGATTACAGTCACCAAGGTTTCTACCCTTGTGCAAGAGAACCATC
R
CTTAATACTTAGTCATGTCATTTTCAATTATTAAAAATAAATTCATCACGCCTGTAATCCCAGTACTTTGGGAGGCTGAGATGGGCAGATTGCCTGAGCT
Celera SNP ID:            hCV29391317
SNP Position Genomic:     47189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4040):
TGGGCTGCCCGGACCTTCAAATGCCCTCACAGGTGATCATGTTTCACACATTCCATTCTCCTCATCCTCCTCATTCCACGGACACACACAAACCTCCCCA
Y
GCACATCTGCTTCCCCAGGGTCCCCCTTACTTCCTACTGTCCCCAAGGGTGACCTAGAACCAGGGGTAGGGCCTGACTCCACTGCTCAGTAGGAAGGAAG
Celera SNP ID:            hCV29391318
SNP Position Genomic:     50205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4041):
TTAAATATTTTGCCACATATTTTGCAATTATGTCTCCCAGCTTTACGTGTATTAATAACACACAAGTTTTATGTAAAATAGTTTGGAAATGTTTACCTTT
K
TGGGGCTTGTCTGTGGGATCATATCTAAGAAGTCATTCCTAATTCCAAGAGGGCATAATTATTGATCTATGTTACCTAGTACTTTTAGTGGTTTAGCAGT
Celera SNP ID:            hCV29391319
SNP Position Genomic:     52288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4042):
TTTGTCATCCAGGCTCGCTGCTTAAGAGATACTGAACAGATCTTCAGAGAAGGTCCGGTTGAAATTGGTCTCCCATGCTCCATCAAAAATGAAGCAAGGC
Y
GCCATGTTTACCGACACCGGGAAAAAGAGGTAGCTGTCCTGATCAGCAGTCTAATCACTGTCAGTCATTAATCTCAATTAACCCTAACCTAATGCCCTTG
Celera SNP ID:            hCV22272408
SNP Position Genomic:     101095
SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,12)   caucasian(C,25|T,11)   total(C,47|T,23)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;JBIC-allele(T,706|C,771)   total(C,771|T,706)
SNP Type:                 MISSENSE MUTATION;hmCS


Gene Number:                 13
Celera Gene:                 hCG25461 - 65000099286525
Gene Symbol:                 FLJ10359
Protein Name:                hypothetical protein FLJ10359
Celera Genomic Axis:         GA_x5YUV32VWMC(12535868..12603271)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1674):
TTTCCTATATTCCATACTGATTCCAGCTGTTTATAGAATGGAATCCTTGGCTTTTCTAGGTATATAATCATGTAACTAGGAAATACTGATATCTTTGTCT
CTTTCTTCCAATAACCCACATAAAACTAGACTGGCTTACTGGGTCTCGAAACCAGCCACAACATAGAATTTCACTATAAAAAATACTAGTGGCTGGGCAC
GGTGGCTCACACCTGTAATCCTAGCACTTTGGGAGTTTGAGGCAGGCAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACTC
CTTCTTTACTAAAAATACAAAAATTATCCTGGGGTGGTGGTGGGCACCTGTAATCCCAGCTTCTTGGGAGGCTGAGGCAGGACAATCTCTTGAACCTGGG
AGGTGGAGGTTGCAGTGAGCTGAGATCATACCACTGGTGGACAAGAGTGAAACTCCATCTCAAAAGAAAAAAAGAAATACTAGTCACTCTCAAATAGAAC
TAAAAATAAATTGAAATTTTCACATAAGTCTTTTAAGAATACCTAAGGAAGAATCCAAACATAAAACAAAAATCTTTTTTTCTCTCTATTTCCTATCCAT
CTAGTATGTAATATTATCTCACACAGGGAGTTGCCCTTCTCTCCAACTTCCTCCCAAAACTCTTTCTGTCCCAAATTTCCCTTCAAAACCATCTCACATA
GAACCAAGTCCTTTGTCCCTCATCTCCTCCCCAAAACTGTCCTGGATAATTCTTTGCTACCATATTTATATGATAAATATGCTGGTTTCACCTGCTGGCT
TTCCCAGTTCTCTACTTCACCATTGCCCTCATCAATAAGAAGTGTCCCCAGTGGCAAATAGTCAATAGAAGCTAACTTAGAATGTGGTGAGGATGAGAGA
AGAAAGGGATTCAGGCTACCCACATCTAAATTTAATGTATTTATTAAACAATGACTTTGAATGATTCTCATTAGCCAAGAATATCTAAATATTGTTAAGT
CCTGTAGTTCTCTAAACAACCTTCGAAGGCATTATTTTTATGGCATTTTTATGACACATGGAAGCTTTCATGAACCAATTTTTAGATAATTGTATATAAT
TTTCCATTTTAAAAAGTGTGAAAACTGATACTTCCATGAGGCAACTGGGGATACCCTGAATGCCCTCTGGGGTCAGGAAAATGCTTTGGTGCCACCTGCC
GGTTTCCAAAGATGTTTCAGGAACTTGCTCCTGTTGATTTCCAAATCTTTTTTTTTTTTTTTAATTCCTAGCTCCCTCCCAGTACATTTCAAAATAACCA
AAAAAAAAAAAAAAAAAAAAATTATAAATTTTTTGGTAGCAAGAGCACAAGTGCTCAAGCTTATAAAAATGCAAATAAATTTGTTTGGGATGCAATATGA
TGAAACACATACTTCTCAATCATTTAACTAGTCAATTTTTTTTAGCATATTGCCAAAATGTAGATTTCATATGTTGACTTTACATTGCTAATTACACACA
TCCTATTTCTTTTCTCGTTATTTTTCTTTCTTTCTTTATTTTTACTTTTTGCGACTCCCTCTGGTACCCAGGCTGGAGTTCAGTGGTGCAATTTCAGCTC
ACTTCAACCTCTGCCTCCCAGGCTCAATTGATCCTCCCAGGCTCAACTGATCCTCCCATTTTCAGCCTCCCAGGGCGTGCTACCATGCCCGGCTAATTTT
TGTGCTCATTGCAGAGGTGGAGTTTCCCCATGTTGCTCAGACTGGTCTTGAATTCCTGGGCTCAAGCGATATGCCAGCCTTGGCCTCTCAACCTGCTGGG
TTTACAAGCGTGAGCCACTGAGCCCAGCAACAGATATATTTTCAAGTGGATGGTATCCCATCAGTTGTGATATATGATGTAAACACTCTACTAATAATTA
AACTTTGAAGTTTGTGAAAATTTTACTTTTATTATAGTTAGAATAATTCTAAGTTATTCCTATAATAATGCTACACTTATTCACTTGAATTCTGATACAC
ATTTCTTGAACAGGAAGGAGATACAGATACAGCTTATGCACATTTATATTCATTCATTCATTCGATAAATAAATATGTATTGTTAACCACGTTCCAGGTA
CTTTATTTGGTAGTTAGGATTTAGTAGTAAACACGAGAAAGTCTTCAACATCATCCTTAGATCGTGATCTCTGCATATCACAAATCATACAAAATAAATT
TGCTTAAAAATGTGGGAACCTGCCTTTCAAAACCTGCCATTTAGCACTACTGTGGCATAACCTATAAACCTAAACATAGACCCTCATGATTTATGCATTT
AAGTTTGTGGGAAATAGGTCTCTTGTCCCTTGTCCTGAAAGTAAAAGACAACCCTGTCTGAATACACTGAATATCCGTGGATTGTACTGTTTCCGGACCC
TGCCTAAGAGCATAGGGAGAATTTGTTTTTTTGTTTGTTTTTTGTTTCGTTTTATTTTTGAGACGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAAA
CGGCGCGATGTCGGCTCACTGCAACCTCCACCTCCCGGTTCAAGAGATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGATTACAGGCGTGCGCCACCACG
CCCGGCCAATTTTTTTTTAGTAGAGTCAGGATTAGTATTATTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGT
GAGCCGCCCGCCTCAGCCTCCAAAGTGCTGGGTTACAGGCATGAGCCACCGCACCTGGCCGGGACCCGACCAGGATGCTGAATACAGAAATGCTTAGGTA
AGAGAAAAGAAAAGTTAATTTGTCACACTTTTCCTTTCAAACTACATGAACATATTTTTGCATTATAAAGTATTATATCTAAGTAGTTCCAAACATGGAA
TTTCTTATTTCCTTTTTTTCCCCCCAATTTATGGTTCTGGATATACTCAGGAATTAGTGTAGAATTCTCAACAATCAGATATGGTTGCTGAGGAACATTT
AACAATATTAAACAATTCACATGACTCTGAAATTTGAAAATAGGTAGATACAGACATAACATGAACAAAGGGTGATACCAATTCTTTACACTGGCAACTA
GGTGGACATTGAATGATACGCTTGTGAGTAATTTACTTTAATGAACAATTTCATTAAGTAATATTTACCAAAAAAACAAATACAACTTTAGATTTATTTA
AATTATTTTACTTAAAATTTTGTCACTAATTAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCAGGCACCTGTAATCCCAGCTAC
TTGAGAAGCTGAGGCAGAGGATTGCTTGAACCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCACGCCACCACACTCGAGCCTGGGCGACAGAGCAAGAC
TCCATCTCAAAACAAAAAAAAAATATTGTCACTAATTATACTTTACATCTTATAAGAAAGGTAAATCTTTTGAAAAAAGTGAAAAAGATTTAATGTATTG
CTTTTTAATTTAATTTATATTTTTATTGAAACATTCAAACTATATGTTTGGAATATAATTAAATTTTATTTTTAATCCTTTTTGATCATTATTTCTGATA
GAACACAATTACATGAAAATCTTGATCAAACAGCATACATGGTAATTTTGCTGAAATGAAGGTAAATTTTCATGGGCTAAATATATAGGAAATGTATTAA
CTATAGATGTCTTTATCACTCATCCAAAATAATCAGCCAATCAATAGGACACCCGGACAGGAATGATATAATTAAATGCAATCAGATTTTGCTGATTTTC
ATCTATGTAAAAACATTTTTATTTTGCCATTATAAATGTTTACTCACCAATATTGAGAGTTATAGCATATCCTAGTTAATAATGTGTTAAGTTAATTTAT
AACTTTTAAATATTTACACCTACAGCAGTGAGTCCATCTGTACTCTTTCTCAGGCTCCATAAGTCTTAGGGATGGGCTTTATGCCAACGTGCTGAAGCCA
ATATTATAGTGAGGGAATACAAGAAATAAACAGGTAAACAAACAGACAAATCAGGTCATTTCAAGTAGTGATAATGGCTATGAAGAAAATACCAGCTTGG
TACATCTGTCCGTCAGATAAAAATATATAATTCAAGATTATTACATTTTTTTTAAAACCAAAGCTTTTTTTTAAAAAAAAATTACATTTATGAACATCTG
ACTTGTTTTCCTTTTTACTTTCCAAAGTAAAATTCGGCATGGCACTATACACCATCACAGCTGACATAGGAAGGACTGAGTCAAATCTTTGTAGCACTTT
TTCAAGTTTCACTTAAATAAAGCTTTTAAAAAATATATAGGGTATTTTTTAAGCAAAAAAAGCAAATTATCTTATCAATGAAACAGACCTGGTGTTCATT
TCTTTTAAAGTACCGAAAGCTGATTGCTTCTGTAAAGGTAAAACTCCTGTGACATGTTAGAAAGAAAAAAAAAATTCCTTTGAGAGATATGTTTGTAAGA
ATGAAATAGGTACTACTAGAATTTTCATGTTATTCTCTGCAAGGCACTCAACACCACATGAAAAGAAGATTATTAACAGTCAGTAGAAATACTAATAACT
GAAGAAAATATTTGGTTGTTTTAAATGCTTTTAAAGCAAACCAACAACAAAAGATTCTGTTTGTAAATGGGAGAGAATCTGCATGAGGTATAGACAACCA
GGGCCTCCAAATTTGTAGCTGTGTTTCTGACATTCTCCAGGGAAGACGGTTACAGAAAGACTTGACCCCCTGGCCCCGCAGAGCTCTTCAGAGAAATTAA
TGCATCCAGAAAAGACAGAGCATCAGATCTCACTCCTTCGTCTGGAAGACGTCAGTTCATCCTAGTTCTAGCGCATACCGGTGTTTTGGAAACAGATTAG
CTATATTCATACATAAGGATACTCTTCCGCAACACTATCTGTAGTGAGGCCAAGACCAGTGGTTGCGGGAATCTTCGCAAACAGGCAAGAGACAATTTTT
AGGGGCGATGGAAACTGTCATTTTGACTGGGGAGGTCATTACACCTATACATGCATTTGCTAAAAGTCATCAAACTCTTCCACTGACGTGGGTGTAACCA
TTGTTTGTAAATTATACCTCAACAGGATTCGATTAATTTATTTATTGAGACAGTCTCGCTCTGTGGAGTGCAGTGGTGCAATCTTGGCCCACTGCAACCT
CCGACTCCCGGGTTCCAGCGATTCTTCTGTCTCAGCTTTCCTAGTAGCTGGGATTACAGGCGCCCGCCACCACGTCCGGCTAATTCTTTTATTTTTAGTA
GAGACGGGGTTTCGCTATGTTGGCCAGGCTGGTCCCGAACTCCTGACCTCAGGTGATCAGCTCGCCTGAGCTTCCCAAAGTGCTCGGATTACAGGCCGCG
CCTGACTATGATTCGTTTTGAAAGAAAAAAATATATGCCATTTACCCCTCGGGAATGGAAACATAGAGGAGTGACAAGATCTCCCCCAAGCTCTGGGGCG
GTGGAGTCCAGCATTTATAGATCGGTTTGCACTAGGAGCAGAAGCTCCTTTCACGACAATCTCGGCCTCTTCCCACTTTGTAGAGTGAGTAACAAGCTCG
GAGAGATGAAATAATTTGGTGGCGTTAACCCGGCCGACAGGCGCCAGCGCCAGGATTTGAACCCAAACCACGTGACTTCACAACCCATAGCTTTCAACAC
TACGCGGTGCTGCTGGCACCTAGTAAAGGCTGGATCACTACTGAATGAATGATTCTGGCTACGGATCCTTAAAGCCCACAGAAGGCCCATCCAGAGACCG
AAAGCTTCAGACACAAGCCGCAGAGCAGACCGCTAAACCGGAGCTACAGAGGCGAAGCTCAGACTTGAGCCTGAGTCCGGCGGGCTGAGGGGCGGGCTTT
CGTCTCGGGAGGCGGAGCTGTCTCGTCGCATTCCCGGCAAGCTTGAACCTCTTCACTTGCCGTAGCGCCTGCAGCAGGAAGTTGCTCTACAGCATGCCTT
AGGTTTCCGGGTGAGGGTTGGGCTCCTTGGTACCATGTGGGAAGCGCTGTGAAGAGTTGTTGCCTTCCAAGATATACCCAAATTCCCAGTTCCAGGTAAG
CGGCACAGAGCCGCTTGATGTGGCTGCGGATGGGGGCRGCATATCGAGGGAGGGTAAGAGTTTTCCGGATATCTGCGGAATCAGGGTTGAAGGAAAGCCT
TGGCGCGGTCGCCGCTACTGKAATTAGTTGTTAACGCTGCTGCCATCGTCTTTGCATCTCCGGGGTCCACAAATCTCAGGACACCCGCGTTGTGTGTCCA
TGACGGTGCTGAGTGCAGAAGAGAATTGTTTGTTTACGAGGCGCCTTATAATTTCGTAGAAACTTATCAAAGTGCTTACGTTTTTTTAGCCCGTGTCATT
AAAACTCCGCTGGCGTGAAAGATGACGTCCTTAGCCCAGCAGCTGCAACGACTCGCCCTCCCTCAAAGTGATGCCAGCCTCTTATCYAGAGATGAAGTTG
CTTCTTTGTTATTTGACCCTAAGGAAGCRGCCACAATCGACAGGGACACCGCCTTCGCCATTGGTGAGCCATCTTTTAACTTAGAAAAGCTCTTGGAAGC
GTTTGTTTTCTGGATGTTACTGTTTTTTTTTTTTCCCCTTSTTTTCTCTTCTGTCCCGTCCTCTTCCTTAGCAGTTTCTAGCATGTTGATGTATATTTTT
AAGGGAAAGAGAACATAACAGTCAGGTGCTTGGTGCTTGAAATGYTTATGAGTAGAGGTATCTGGATTTCACAGATGAAGAAACAAAATTAGAGAGGTCA
ACTAATATGTCAAAGAGAAGAACAGCTAAAAGGGGGATGGAGGCAGTGACTGGGGTGACGGAGAAGTCCTCTCAGAGGACTGGCCTAGTTATTGTAGGGG
ATATCCAAAAAAAAAAAAAAAAAAGTGTTCCCTGCCACGAAGTACTTTCTGTTCTAGTAGATGAGATAGGATTTACTCTAAAAGTTGAAAACTAGAAATC
AGTGTTTGGGACTGTATTATAAATTATATGTACTTAAAGAATTCAGAAACTTCTTAGGGGTAAGTAAAACTGTAAAAGAGGGGTGGGATGAATTTGCTTA
CGAAGAATTGTTAAATAAACTGGCCTTTTTTGAAATTTAGGATGTACTGGCCTGGAAGAGTTGCTTGGAATTGATCCTTCCTTTGAGCAGTTTGAAGCAC
CGTTGTTCAGTCAGCTAGCAAAAACCTTGGAGCGAAGTGTTCAGACCAAAGCAGTAAACAAACAGTTGGATGAAAACATTTCATTATTCCTTATTCACTT
GTCGCCTTACTTCCTGCTTAAGCCAGCACAGAAGTGTCTGGAGTGGTTGATTCACAGGTAGCTAATAGAATTACAGAAATAACTATGGGTTAATCACTTT
GGTCTTGTAAAAAATTAAGTAGTTGAGAACTTATCAAATTAAAGCTGAAAAATTAGGTATATTAAGAGATTGATACAATGTCCATTGTGTGAGATAAGCA
TGCTCTTCTGCCTTTAAATTCTTTTTTGTTGATAGTGAAAAGTAGAACTACTGGTGATTTTGAGTAAATGGTCTAACCTCATTAGTTTTTTTTTGAGATA
GAGTCTTGCTGGGCACTCAGGCTGGAGTGCAATATTGAAATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCCACCTCAGCCTCCC
AAGTAGCTGGGATTACAGGCACCTGCCATAATGCCTGGATGAGTTTTGTGTTTTTGTAGAGATGGAGTTTCACCGTGTTAGCCAGGCTGGTCTTTAACCC
CTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAAATACTGGGATTACAGGTGTGAGCCACCTCGCCCAGCCTAACCTCGTTAGTTCTGAAGAGCCCA
TGCTACTTTGCCATTACAGCTTGTTCCTGCACACTTGAGGCAGTGAGTACTAAGCTGCTTTCTTGGCAAAATAACAAGATGGTTGGGGAAGCAGGCAATG
TTATCCTCTGAAATACCATTRCTTGAGAAAAACAATGATAGCTAATGTGTTTTTGAGCATTTATACACTAGGCCCTGGTAAGCACTTTATCTGCATTATC
TCATTTAATTCTCACAGCATTCCTCTGGTGAGATTATTTGYATTATCCTTGTTTTACAGTTGAGAAAACTGAGGCTTAGAGGGATTAAGTTTCTTGAGTC
ACACAGCTAGTAAGTGGCAGAGCTAGGATACAGCTGAAGTTTATTTCCAAGGTCTGATCTTTTATCTGCTTTGGGAATTGTCTCAGTAAGCTTAGTTTAT
TTTCTCACATATTGGTGTCACATCACAGCATACACATTTTTGTTTTATTTATTCTCCCAATATGTATGTCTTTTTTTTTTGAGACAGTCTCGCACTGTCG
CCCAGGCTGGAGTGCAGTGGCACGATCTCATCTCACTGCAACCTCCACCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTA
CAGGCACATACCACTACGCCCAGTTAATTTTTTGTATTTTTTTTTTTTTAGTAAAGATGGGGTTTCATCACGTTGGCCAGGCTGGTCTCAAACTCCTGAC
CTCGTGATCCACTCGTCTTAGCCTCCCAAAGTGCTGGTGTGAGCCACCACAGCCACTGCACACGGCTGTCTTTTTATTTTTATTTTATTGAGTGTCAGGA
TTTCACTCACCCAGGCTGGAGTGCAGTGGTGTGATCGTGGCCCACTCGATCTCCAGGGCTCAAATGATCCTCCGATCTCAGCCACCCAAGTAGCTGGGAT
TACAGGCATGCACCACCATGCCCACCTAGTTTTTTKTTTGTTTGTTTGTTTTTGTTTTTGTTTTTCCATTTTTTGTAGAGACAGTGTCTCACTTTGTTGC
CCAGGCTGGTCTGGAACTCCTGGCCTCAAGCGATCCTCCTGCCGAGTCGGCCTCCCAAAGTGCTGGGGTTACAGGCATGAGCCACCACATCCAGTCCAAC
TTACATGTTTTAAAAGTAGATTTCTATTCCATTAATTGGAGACATGGCTTCAAGGCCAGCCTGGCCAGCATGGTAAWACCTGTCTGTGTGAAAAATACAA
AAATTAGCTGGGYGCAGTGGCGAGCACTTGTAATTCTAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAATCCAGGAGACAGATTTTGCAGTGAGC
TGAGATCACGCCACTGCACTCCAGCCTGGGTAACAGGGAGACGCCGTATCAAAAAAAAAAAACAAAAAATGGAGACGTGGGGATAAACTAATTTTTTTTC
AAGAAGCAAGTGAGTCATCAAGAAAACATGATTTTAACTTGGGTCTTCTGATTGTCAGAACATTAGGGCAATCAGACAAAGAATATTTAAAAGTCTGTAA
TATTTCCATCTGTTTTCTAGCACCTAACTTTACCCCCAAATAGATCATTAATGTAAGGAATACTTTTTGCATTTGATTTTTCATTTTATGTCTTCAGATA
ACTTATTTATTCAGCAAATACTAAGTTCAGTACWTAGATAAGTAGGTTGCCGYTGATTACTGTTTTGAAATAAATGCCATAATAAAGGATTAAGCAGAGT
TTTGTGGATATAGTTCTGCCTGGAATAGTTGAAGAAAGCTTCATGGAAAAAGTAACCGCTAAAACCGTATGTCAAACTAAGAGGCTGGGTTCAGTGGCTC
ACGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGCAGGCCAGTCACTTGAGATCAGGAGTTTGAGACGAGCCTGACCAACATGGTGAATCCCTGTCTCTA
CTAGAAATACAAAAAAAAATTAGCTGGKTGTGGTGCTGTGCACCTGTAATTCCAGCTACTTGGGAGGCTAGGGCATGAGAATCGCTTGAACTTGGGAGGC
GAAGGTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGTGACCAAGTAGACTCTGGAAAAAAAAAAAAATCTAATAAAAGGCAATGTATGGT
ACTGTTTAAAAAAAGTACMCGATGTAAAAGGATAGGAGAGTTTTCACAGAAGAGGGATCAGTTGGCAGAATTAGAAAAAACATCTTAGCCAGGCATGGTG
GCTCACACCTGTAGTCCTAGCACTTTGGGAGGCTGAGGCAGGTAGATTGCCTGAGCTCAGGAGTTGGAGACCAGCCTGGGCAACATGGTGAAACCCCATC
TCTACTAAAGTAAAAAAAAAAAATTAGCTGGGCATGGTGGTATGMGTTTGTAGTCCCAGCTACTTGGGAGGCGGAGGCAGGAGAATCTTTTAAACTTGGA
GGTGGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAGCAAGACTCCCTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAATGT
TGACAGACCAGCCTGGGCAACACAGGGAGACCTAGTCTCTACACAGAAATAAAAAATTAGCCAGCTGTGATGGTGCTCCCCTGTGGTCCCAGCTACTCAG
GAGACCTAGGTGGGAGGATCATTTGAGCCTGGGAGGTTGAGGCTGCAGTGACCCGTGATCGTGCCACTGCACTCCAGCCTGAGTGGCAGAGCAAGACTCT
ATTCAAAAAATTAAATAAAAATTGTAAAGCTGAGAGAAAGTTAATGGGATGTATATTTTGATGTAGAATATTCAAAGATATTGCATAGGAATTGGCTGGA
CCATGTTGAGGGATATGTGAATGCAAAATTGGGGACTTTTTAAATGCTCTGTATCTTATAATTTTGTGATTTTTACTGCTACTCRTTCTAGGTTGTTTTA
GCTTATTAATAATACAGTTTGGGCATGTGAGGAAATAGGTGCTTATTATTAAGTTTTGTGTTCAGTTGGACTGTTTGCTTTTTTTCCCCAGGTTCCATAT
ACATCTCTATAATCAAGATAGCCTCATTGCTTGTGTTCTGCCATACCACGAGACAAGAATATTTGTGCGAGTCATACAGCTTCTAAAAATTAATAATTCA
AARCACAGATGGTTCTGGTTGTTGCCAGTTAAGGTATAATTGCTGAATGACATATGTCTGTAATCATTACAGATCTTGATTAAGGGATTTAATTAGGAAA
AAATAAGTCATTGCTCCTGGGGATAGTCCAGATAACTACCTCCATCATTTTTATTTCCTGACTTCCAATTGAAACTATTATTAATGTTAATAATATTTAG
CTTTTATTTAGTATCTGACATCAGGCTAGGCAATGTACATTATATTATCTTGGATTATCACAAAACTTCATTTTTACAGATGAGGACAGGCTACTTGCCA
AAGTTCACATAACTATAAAGTGGCAGAGTTGAGATTTGAACCCAAATCTGATTCCAGAGTCTGTGCCTTTGTATCGTACCATGCCGTTTGGCATTTTAAA
TTTGGAACTGAGAACTTAAAAAAAAGTTGAAGGTGAAGAAAGGCAGAAAATACTTACAAAAATTAAAAGGATAAGGATAACTTCAGGGGTTTCAAGAATT
TACTAAAGTTGTGAGGAAGATGCTAGGAGTTAATTTACAGACTAAGAAAAGGATGCTTGTRTAAMAGGAAGGGTCTGGGTAAGAAAAGACAGCATGCTAT
TGTAGGAAAACCAACTGACTAACCGTTAGCACTTTGTTTGCAACATATGGTGGAGGAAAGTAGATGTATGTTGTTAGCAGGAACTTGACTGCATGTTGGG
CATGGTGATCCAGGGTAGGGGGGGAGGCAAATGGGGATGAAGGTAAGCTAACAGATCACGAGGCTGTGCACATTAGGCTGATGATGGTAGTGGGGTCAGT
GTTCAGAATTAGTAAGATAGGAGTAATGAGGACTTTTTAATTAGAAGGAGAATTTAAGAATCTGAACGTAAAGCACTTGAACTAAAGAAYGTTGGAGAAG
GCCAGCCTTTGATAAAGCTCATTAACTGCTCTTCCCAACATTCACTCTGCCCATAGCATCAAAATTATTCTTCCTCTAATCTACCYTGGATCTTGCTGCT
CCCTAGGCACTCTTATTSCAGGTAGCCAAACTCCACTYACCTACTAAAGTTCACTTAAAATTCTCCTTTCATTTATTTAATCAGTATTTATGGAGCATCT
ATTACATACCATGTACAACGCTAGATGGTGGGAATAGTGGTATAAGTTGTGCAGTTTCCTAGTCTATTTCTGTTCTTAGTGTTATTGTAAAGCAATGACA
GAAGCGTATCATAGTGGCTCAGAAACCAAATCGAACCAGTAAAGTTACTAAGAATCTAGAGAATCCAGATTTTGATAAATACCTTTCAAAATGTGACATA
CGATAAGCAAACATCTTTCACTAAATACCTCTGCCCTCATTGCTGACCTTCTCTTTTGAATTTCTAAGTTTACATGATTTTATGTGTTAATTTCATCACC
ACCACCAGTTATAAGGAGAGATTATATTTTTTATTTATGAATTGTAGCAGTATGAAGACATTACTAGGGTAAATGCTTTAAAATAAGGATCAGTTGATGA
ATGTTGCTAGTAGTTTGTTCTTTCCATCAATAACAGCAATCTGGAGTGCCGTTAGCTAAAGGAACTTTGATTACCCACTGCTACAAAGATCTTGGATTCA
TGGATTTCATTTGCAGTTTGGTGACAAAATCTGTGAAGGTGAGCAGTCTGTTTCATGAGTATATAATTTTATGAAAAGATTGCTTGCTTTGAATGAAGAA
AACATACTAAAACATTCCCTAATAACAATGATACTTTGGATAAATTTATTTTGTTAAATGGTCTGGTGTTTTGAAGCAGGAGCAGTTTGAGAGTCCGTAT
CTTTTTTTTTTTTTTAAGAATCAGTCTTTTATCACCAAAGGTGTTTTTCTACAAAAATAAATGTCTATTCCTTGCCAGATTCTAGTTACAGTGACTATTC
AAAGAGAGTGTCTAGAAATGTCRGGAATATTCAACCTGGGAAAGCTGTTTAAAAAATTTTAAGGCCAGGTGCGGTGGCTCACGCCTGTAATCCCAACACT
TTGGGAGGCCAAGGCAGGCGGATCACTTGAAGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACACCGTCTCTACTAAAAATACGAAAATAAAC
TGGGCATGGTGGGGCATGCCTGTAATTCCAGCTGCTCGGGAGGCTGAGGCAGGAAAATCGCTTGAACCTGGGAGGCGGAGGTTGCAGTGACCCAAGATCA
TGCCACTGTACTGCAACCTGGGCGACAGAGACTCCATCTCAAAAAAAAAAAAAAAAAATTTTTTTTTAAATAAAAATGTTAGGAATATCATTAGGCAGTT
AATTGTTGTCACATTGTGTATTCATTGTTGCATATGGTAATTCAGGAGAGCTGTAAATATTTATTTGGCCTTTCACTTTTTTTTTTTTTGGAGACATGGA
CTTGCTTTGTCGCCCAGGCTAGAGTACAGTGGTGCCATCATAGTTCRTTGAAATCTCAGCCTTGAACTCCTGGCCTCAAGCAATCCTTCTACCTCCCTTT
CACTGTTAAATGTGTTTTGTTTGTGTTCCTTGTTTCAGGTTTTTGCTGAGTACCCGGGCAGCTCAGCTCAGTTGAGGGTGCTCTTGGCTTTCTATGCTTC
TACCATAGTGTCGGCGCTGGTAGCTGCAGAGGAYGTATCAGACAATATCATCGCCAAACTATTTCCCTATATCCAAAAGGTTGGCACTGCTGATGTGTTA
AGTAGATTATTTTGTACTTAAAGGAATTTTCTTGCTTTCGAAAGTTTTTTTAGATTTAAGTGTTTTTAAATTGACAGTTTATTTCAGATGATAGCTGAGA
TTTAGCCTTTAGGTTGAAAATATGACACTTTTTTATTAGAAACTCACTGGMCTGGGACCTTAATTAGGACTCTTAAGAATAAATATTGGCTGTCTGGTCC
TGCGGCCATCTCCTAGATTGATTTCCATAGCAGTCTTTGTACCTCACTGGAAGGAGGACGGAGCAGACAGTCTCTTTGAGGCGTAAGCARCCTCTCAGTA
TTCTTTGTGCACTGGCTCCTGCCTCTCAGCGTTTCTCCTTCCCAAGTGCCTTCTTGCCTGCTGCCTTCCCAGGTGCCCTGTGGAGGTACTGCTTTCACTT
CCCACCAGTGTCCCAACTTGTGACCTTTCATCAGACTTGTTTCTTCCATTAGTGATCTGATTGAGGTCTCCCTACYATAAGTAGGATTTTATGTATAAAA
GAAGAGCTTACTGGCTCCTGTCAGGACATGTGGTAGATGTTTGAGTTGGGAAATTTTCTGAGATCCTTTGTCTCGTTCAACAGACTTGTCTCATCTCTGT
ATCCACTCTGAAAAAGGGGTCAGCTCCTTTATTGTTTATGTCTGAAGAGTGATTGACTATGCATTAGGTTGTATTAATCTCTATGACATTTCTAATTTGT
CAGATTAACATTTAAAGTAGCAGAAAATAATATGGTTTATCATTTTTCCTTATATTTAAAAAATATTTAGGGATTGAAATCATCTTTACCAGATTACAGA
GCTGCAACATACATGATAATATGTCAGATTTCTGTGAAAGTGACCATGGAAAATACCTTTGTGAATTCATTGGCATCACAGATCATCAAAACATTGACCA
AGATTCCCTCTTTGATCAAGGATGGGTTAAGTTGCTTGATAGTGCTCCTGCAGAGACAGAAGCCAGAGAGCCTTGGGAAAAAGTATGTACAATTGAATTG
AGAAATGGTGCTAGTCAGAGGTGAATAAAATTATTTTGAATAATTTTTTTTTGTRAGATAAGTGATTATATATTTTCTTATATTGTTACTCATTGTCTAA
CTTGTAAAGTCAACACGATATGTACTTTTGCTTCTTCAAAGGCCATTCCCTCACTTATGTAATGTTCCTGATCTTATTACAATACTTCATGGGATTTCTG
AAACTTACGATGTCAGTCCTCTTCTGCRTTACATGCTTCCCCATCTGGTCGTCTCCATCATTCATCATGTTACAGGTGTGTGGTTTTATATTTTTTGTCC
AGAAATTTTCTAAGATTTGATCTTAAAATAGTAACCATATCCTGGTTAACAGCTTCAAAATATTTAAAATTTCTGTTTTCCAGTTGTTCTTGTGTAACTT
GTCTATTTCTTAAGTGAGAAACATCTGGGGTGGGGAGCAGGTTGGTTGAAGAAAGATCATTGTTAATTGAGTAATTTCTTAGAATTTTACTTTTTTTAAG
ATCTGTGTTCTTAAATACTTAAATAGTCTCTACATGAAAAAGACTGGAATACTTTTAAAATTTATTACTGAGTAAACCTTTGCCTTCTCATTTAGGTATT
TAATGAACTTTAGTGATTCATTTAYAATGAATATCTCATCCAGTTGCCAAAAAAGTTTTTTCCCTAGAGTAATTAAAAATATAAGACCAAGAAAATTTTT
ATACATAAAAATCCAAATTATGAAACAAAGCAAAAAGCAAAAAGTAATAATTAGAGGGCCAGGTGGCTCAAACCTATAATTCTAGCACTTTGAGAAACTG
AGATGGGCAGATCATGGCAAAACCCCGTCTCTACAAAAATATACAAAAATTAACCGGGCATGGTGACATGCAACTGTGGTCCCAGCTGCTCGGGAGACTG
AGGTGGGAGGATCACCTGAGTCCAGGGAGTTCGAGGCTACAGGGAACTGTGTTTGTGCCACTGCAGTTCAGCCTGGGCGACAGAGTGAGACCCTATCTCA
AAAATAATAATAATAATTAGAAAGTGATTATTTGCATTATGTCTTTTAATAAATACAGAAAGGCTAGGAAGAAACATTTGGTTCTGTTGCTACTTGGAGA
ATACTAAGAAAGACTTCTCTAAACTTATGTCAGTCTACTGAAAAATGAGGTTTTTGTAACCAAATCTTGGTTTGAACATGCATTTTAGAAAAGTGACTAG
CAAAATGAAAATGTATTCTTCCTATTCTGAAGGTAATGAGTAATGTCCCAGTCTTTGAAAGCAAGGGCTAAGATCAGATTCATATGTTTATTATAAATCT
GAAATAGATRACAGCTTTTGGTTCAGTAAGGGGGTGGGTACTGAGATAAAAGTTTAACCTCTTTTCAGAGATAGTTGATTGGCACCATCACAACTAATTT
GTAATGTGACCTGGGGAAAGACTAATTTTGGACTTTTGTTTTGTTATTGTTATAAGCATGATAGTACTTGTTAAAAATAGAGAATTTTAGATAAAAGAAA
AATGAAGGTGATCTATACAAAAGAGCTTTAAAAAATATAAATGACTAAATAAGTGGAATGCACTTGTGCAAATAGATAAAAAGCTGGATATCAGTGTGTG
TGTTTTAYTCTGAGAACGATTTTCTGCTATAAGTGAATTTAATAATGTTAGCTTGCAAAATAAATTTTTCCCAACACAATTTTAATTTTTACATATTAAG
GAGAAGAAACTGAAGGAATGGATGGTCAAATCTACAAGAGACACTTAGAAGCTATACTTACAAAAATATCACTGAAGAACAACTTAGACCATTTGTTGGC
TAGGTAAGCTATTATTTTTGACATGCTTTTGATTTACATTTTTGTGACTCAGTATAATTTTCAAGATTGGTTAGAAATTTCCCAGYATTCCTTTTTAATG
TATATCTTGTTTTGYCTGTATCATTTCATTAACTATAAGTACTTAATCCAGTAACTGGCAGCATTAAAAGCAAAAGTAATTTTTCTTGCATGTSTTTAGT
GCTTATAGATGAAAATGGAAAGTTAGTGGTTAAGACAAATTTGGGTAATAACTAAATGCAGTTTGTGGCCGTTTGAAGTTTTCTCTTAGTAAATGGACCA
TAATATCTGAAATAACACATCACAATTAAAACGCAGTAAATGTCATTTAGAAACAATATTGAAGGTAAGCATAGAGTAAGGATTATTTCTTTAAAGATAA
TTCAGTCTTTTTTTTTTTTTTTTTTTTTTTCTCTTAATGGGCAACTCGATACAGTGAAAAGATGTAGGCGTTGTGGTCAGACATAGGTGTAAATTCTGCG
CCTACCACTTCCAGGGCTATAGTAAGTTTTGGAGGTTAGTCTGGATGTAGCTTTGCCATTTTGTAGGATCAAGAGAGTGCCTGTGTGTTGGTGTGCATCA
TTCATGCCCCTTTGCTCAGAGGGTTGGTTTGTGAATTAAAGGAGAGTATACACGTGTAGTAATGTTGAGAACATAGGCTCTAGAATCAGACTGGGGCTTA
AAATGTGAAACCCCACTCTGTGGCACAGAAGGGCTTACTGAATGTTGCCTTTTATTGCTGTTCTCATGAGCAAATTGGAAGACTTACACTCTAGTTTCTT
TTCCTTTTTTTTTTTTCTTTAAGATGGAGTTTCGCTCTTATTGCCCAGGCTGGAGTGCARTGGCACAATCTCGGCTCACTGCAACCTCCGCCTCCCAGGT
TCAAGCGATTCTCCTGCCTCAGCCTCCCTGGTAGCTGGGATTACAGGCATGTGCCACCATGCCCAGCTAATTTTGTATATTTAGTAGAGACAAGGTTTCA
CCATGTTGGTCAGGCTGATCTCGAACTCCTGTCCTCAKGTGATCCGCCCACCTYGGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCAGCACCATTTA
ARATAGCAATGTAGTCTTACTATGTTGTTCAGACAGGTCTCGAACTCCTGACCTTAAGCAGTYCTCCTGCCCCGGCCTCCGAAAGTGCTGGGATTATAAT
GCCAGTGRTGTGAACCACTACACCAGGCCTCTAGTTTCTTTATCTGTAAAATAAGTATTAAACTATACCTTGTATAAGTATGACAATTAGAGATAATATT
TCTAAAGCACTTAGAATATAGTAGGTACTCAATAAATAGTAACTCTTATGTATGCTGATATTTCTGTTTTTTTTTTTACAGCCTTCTATTTGAAGAGTAT
ATTTCATATAGTTCACAGGAAGAAATGGATTCTAATAAAGTGTCTTTGCTTAATGAACAATTTCTTCCACTCATTAGRCTTTTAGAAAGCAAGTAAGTTA
YGTGTGTATGTTTATGCTCTTCTAAAGTACTTCCTGTTCTATAAAGATATGATTCACAAGTCACATCTTAATATACTGAATTGTACAGAGACTGTCCTTT
TTAAATTTGTTCTTCAAGAAGGGGYGAGTATCGGAATCAAAAATATTTGAAATATAAGAGGAAATAGTGGTTGTGTGGGGGCTATGGAGAGTATAATTTT
TTATAGAGAGACTATTTTGTTATTGGAGTAGTCATAGTAACACACTTGACCAATGTCATTTGGTTTTACCTACAACATTTGTTAAAATTTAAGTCACAGT
CTCAGTAATTTTTAAGATTTTATGTCTTTCCTTTATATGTGTATGGTGTATGAGATTAATAAATTTATTAAGAATAATGAATTCACTYTTTAATTGCTTC
CCAGATACCCCAGAACATTAGATGTTGTATTAGAGGAACACTTAAAGGAAATTGCAGATCTGAAAAAACAAGAGCTTTTCCATCAGTTTGTTTCTCTTTC
TACAAGTGGAGGAAAGTATCAGGTATGTTGTTCTCCAAAGGAATTATGACAATTTGGGGTACATTTGTATGGGTATGTGAAGAGCTCCAGAAGGAAATTT
GCCACTTTTTTCCCTTGTGTGGAAAATTTTACAGAGATAACCTTMTACAGTTTGCCTAGTTGCCTGAAGTACGGCTCTGAGGCAGGAATAGAATAATTGG
AGAAAGGTACAATAATTTGTACATAACTATGAACGTGATACTTATTTCAGGAAAAGTATTGTTTGAGAATTTTGTATGGGATATTCATTAAGAATCATCA
GAGGACGGCCTCATGTAGGTTTCTAGCATTCTCTGTCTTTCATCTAGGTCTATGCTTTCCAGTGTACCAGCCACAGATGGCTATTTATATTATTGATTAG
CAAGGGGGAGATGGGTTCTATTTCATGATCACATTAAAACTTGAGAAATTTTCTGGTGATTCAAGCCTAAAGCTTTATACTAGAGGTTAGACATTTAAGC
AGGAGTTCTTATATTTAGCCTTAAAAACAGATAATTATGAAGAGAAATATGATTGTTTTAGTATTTCTCTTCCATAATTAGACTTTCATTTTTAATGGTG
TTGCATTTCCAAATCTTAGGTTGATGGATAAGACTTTCTTTTTAGTCTAATTGCGTAAGTGAACTAAGTTGTCACGAATTTGAGTGTCACTATTTGTTAT
ATCATGTAGATGAGTTGCATTCTGTCTTCTGGAAGGTGCTAAAACAGGGATTTATCTTAGGTGATTTATCAGATACGCATACAAAATACAAAATTACTTT
GTAGAATTACTTGACTAAATTAAACCTACACATAGACACAAGTATACATGAAATCATACCATTAACAATACAAATTTTTTCATCAACTCATGTGATGTTC
TAGAAACAAAGATTTTGCATTTTTTTGTTTGTTTTCTGTAGTTAGATGGTTGTTACTGAAAATGTTGGGCAATTTGGGGTGGTTTTCTCTGGGTTTTATT
CTTGATCATAGACTGTTCAGATTAAGTGAAATCATTTGATAACTATGTTGAACCCTGTAGTTTTTAGCAGATTCTGATACTTCTTTGATGCTCAGCCTGA
ATCATCCACTTGCTCCTGTGAGAATTCTGGCCATGAATCATTTGAAAAAGATCATGAAAACATCAAAGGTTTGTTTCAGATCGCTTTTTTATATGGTTTT
TTTTTCTTATGATGAGCAGTGTAATTCTGAATAAGAAATTGAAGTTACCACCTAAGTGGGTAATGATACAGATGAGTTGAATAAACCTCATGAGAGTACC
TTAGACTAATATTTAGGACTGTGTATGCCAGTYGTCCCCATTTTAACAATAACCTAATAACAACTACTTTTATGTTTCCACATTGACAGTTGTTTATCTT
TAGTGTTTTTCAAACTGGAATTTGTAGATTAATTCACGTAGGTTCATTAATTATCTGAGAATTTTTTTAGTTTTGAAATTTGATTTTGGGCCGGTCACAG
CAGCTCATGCCTATAATCCCAGCACTCTGTGAGAAGGATCACTTGAGCCCAAACGTTTGAGACCAACCTGGGCAACATAGGGAGACCCCCTTCTCTRTAA
AAAAGTTCAAAAAATAAAAAATTAGCCAAGTTTGGTGGCACACGCTTTGGTCCCAGCTACTTGAGAGGCTGAGGTAGGAGGATCTCTTGGGTGTGAGAGG
TTGAGGCTGCAGCGAGCCATGATCACGCCACTGCTCTCCAGCCTGGGTGACAGGGCAAGACTCTTTCAAAAAAAAACCGAGAAATTTGATTTTGATAGTC
TTAATTTTAGATGAAGACATATTTTGGGACATTTGAATGATAACTTTTGAACACTGTTCCATGATTTTGGTGCCTGCAGTTTCGTTTGTCTTTAAAATGT
TAGTGGTTTCAAATATGTATTGAGGCTGACTTTATTTGTAAATAATTTGGTCTAATTTGCATTTATACCAAAAGGCATTGGTATGAAGACTTGGTAATGA
TGCACATAGAATAGTAGTTTCCAAACTTTAGTCATTCAAGCAGTCCCTGTACAATTTTTGCTAAATTACAAATTACCACTGATAGTAGTATTATTTTCTC
ACAATTTTTCTTTATTTCAGATGGACTCATTATTTTTTTACATAGCCTTCAAATTGTGGGTGTGAGGTGCTAATTGTATATGCATTTTACTATAGTTACT
ATAATTAAAATAGGAATGCTCCATCTGTGTCATATCTAAAATTATGCACCGTGATTTGCATATTTGAGAAATTTCTGGAACAGAGTAAAGCGGTTAACAG
AGTTTAGTTTCCTTGTAGCACATGGCAGTGTAAACGTGCCGAACTCTAGAACTTGTGTCATAGCAATTAGAAGCAGATTCTTACTACAAGTAAAATCATA
TGATCAGTAAAATTTAATTTCAGCTAATTACARCTAATCACACTAAGTTCATCTTCATTTGAATTTTATTGGTTTTATAGAGTTTTTAGTATTTCCCTTG
TAGATTTAAAAAAAAATTTTTGTTTTATGTCATCTATATTTTAAGAAGGAGTTATACTTAATTTTAAGTTGATATATAAACAACAAACAACATTTAGATC
TTTGAGAATGTTTCTTTGAAAGTGACTGATGTAATATTCAGGTTTGAGAAATGTTGCTTTATTTGATCTGACATGAATTCTGCTTTTGTAAACTGCCAAT
AGGTTTATTTTGTCGATATGTTAAATAAATTCATTGAATAATAGTCTTTGTTGTGATAGGAGGATTTCAGTGATAAGAAATTCTTCTAGAATAAAGGGGA
GTCCTGGAATCTTCTGTTTCTGAAGTTATTCTCATCCTTCCTTCTTTTACTGCCTTTCTCTCCTGTTCTCTGGGTTTGGTTCGTTTTTCGGTGAAGGGCC
GGCCCTGCATACATTCAACTTACAGGCTTGAGGATTGTAATTGCAGTTGATGTCCTCCTTTGCATACCATGTTTCATTTTCTTTTCTCCATTGATGACAG
GACATAGGTTTTATTCTAAACTCCAGGTTCAGATATATGGCTGCTTATTAGCTCTTGAGGATTTGTTTAAATGATGGGGTCTTGCTATGTTATCCAGGCT
GGCCTCAAACTCCTGGGCTTAAGCARTCCTCCCACCTCAGCCTCCAGAGTAGCTGGGATTATAGACATGCACCACTGTGCCTGACTAACTTAATTTTTGT
GAATTCTGTGAATTTTCATTTTTCTCCCAACAGAGTGACCTATGTTTTTTATATTATTTAGTTGCCTGCCACATATAGATAGGGATATATTCAGGTTGAT
TAGCAGTCCTAGTTTTCTTTCTCTGTGAATGAATATACATTGTTTTCTTTTATTTGTTATATTTAAAAAATGATCTCTATTTTTGGCAGACTGGCTTTGT
AGTACATGTCCTTATCCTTGTAAAAATTTAGATAATACTAGCTAGCTTTTAACAGTACTATGTGTAAAGCACTGTGCTACAGACTGACATGWATTTTTTA
ATCTTCTAACAACCCTTGCAGGTAGGTATTATTTATTAGCAAACCTGTTTTATAGGTGAGAATAGTGAGATCCAGAAAGGTTAAGTGACTTGACTAAAGT
TACACAACTAGTAAGTGGTAGAGCTAGGATTTAAATTAGACATTCTTATTCTTTAGTCTATATCCCGTCAATATCTGGGCTCTCACTTTAATAAGATGAA
CTCCTTAACTACAAAAACTATATTTGGAGTATACCATATTTACTATATTTTCACTGAAAACTTGAAAAGGATTTGTACCAAACAATTATTAATCTCAAAA
GGCCCTTTAGCGATTATCTAGTTCTAGTGTGTTTCAGTCCTCATCCAGAGCAGAGCCTGTGTTAGACTGTCATTCTGGAGTGTTTTTCACAAAACCATAC
TTCCTTTCTAGTGCAAAGCCTTAAGAGATTTTTGGCAACAGCTAAATTAATGTTTTTCTTTTATTGCTCAGGAGGGTGTTGATGAATCTTTCATAAAAGA
AGCTGTTTTAGCCCGATTAGGTGATGATAATATAGATGTTGTTTTGTCGGCTATAAGTGCTTTTGAGGTGAGTGAATTTGTCATTTGTTGAGGTATACAA
TTTTGTAAATTTCCTTGCCCTTCTCACTTGATTCTCTGCTTGAGACTAGAATATTTTTGGAAATTATTTTTCCATGGGAAATTTGTTCTCTGGAGAGCAC
AGACTTAAGTCTGGTTAGGAGAAACTCACAGAAATTCACAATTTGATATATTAAATATATATGGAAGTTGTTCAAACAGGAAAAATGTTTTGTGAATTTT
TATATTGCTTTTAACATATTTTTATCAATAGCAAATACCTTGGGACCTGTGGAAATTGTCTTATGAATGCCACTTTTGAGAAATAGATCTTAAAACTTTT
AATTTGTACTAGGATTCCTGGGAGAAATTCCTTATAATTCATTCTTTTTAAAATTCGCATTTAAAAAGCGCCATACATGTTTGAAGCAAGTACAAATCTA
CTCTGGATATTTTTTTCCCTTTAGATTTTCAAAGAACACTTCAGTTCAGAAGTGACGATTTCAAATCTTCTGAATCTCTTTCAAAGAGCAGAACTTTCAA
AGAATGGAGAATGGTATGTATTCATTTCTCCTCATACTATTTTGAATTGATGAAGTTCTTATATCAAGTTCTTTCTATTTCTTCTTCTTTTTTTTTTTAA
GGCTTTGATTACATGACCCTTTTGTCGTGGTAGTAGAACAGATCTTACTGTAATACTCTCTTTCATTATACAGTTAATTAATTTGTGTTTGTGTGTGTTC
ATTATACTGTTCTCTATGTTTGGAATTTCTCTTAATAAAATGCAAAAGGAAGTATATAATGTATGATATTGCATTCTGGGAAGTAAGATGGGTAGGACTT
TCTAATTTGCTGCTTTATGTAATTTTTACTTTATAATTAAAAACAAATACCAATGTGTTAAACAAATTAAAAAATAAGTTCAGAGACACATGATACCATC
TGTGGTAAGTTTTTAATGAGCTCTGTTTATTTCATTTTTGGCACCAAAGCTTTTTGCAAGAAAAAGTAAGCAAGCTCCATAGRGGATGAGAGTGTGTCTT
ACGTGTTTTTGTATCTATCGTATGGGTAGATATCTATCATGTAGGATGTGCTTGGTTCATTTTTTTTGAGTGCCTGAGTGAACCTGATTTCCGGTAGAGT
TGAGACATCTAGTGTGATATGTCTTATGTTATAGTTAACCTCTAGTGATTTCTCTAAGAAAAATTATTATTTTTTTTTTAAGATTAGACAGGATGAGCAG
ATTAAAAGTATTGTTGGCCAGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTGTACAAAAAATAAATAAATAAAAATATTGTCACAGATAACTCTGTT
ATTGGCATGGATTTTAAGTGGTGTCTTAGTGTATCTGAATAATAGTTTTGGTCAGGAGACCAGGATATTGTCAGTTAAGCTGGAGTAATGTAATGATRAA
TTTTTGCCCAATTGAAGCCTTCCAATGTGTCTTTCAACCAAGTGTGCTTGCATGTCTTTTAGGTACGAGGTACTTAAGATAGCCGCTGACATATTAATTA
AAGAAGAGATACTGAGTGAAAATGATCAGTTGTCAAATCAGGTGGTTGTATGTTTGCTGCCATTTRTGGTTATCAATAATGATGATACRGAATCTGCTGA
GATGAAAATTGCTATATATTTATCAAAATCAGGAATCTGCTCCCTGCACCCTCTATTAAGAGGCTGGGAAGAAGGTAAAAAATTCAGTTGTTTTTTTAGA
AAAAGTGAACAGATAACACAAAAGAAAACAAGGAAAATTTAAAATTTATTGTTGGTCATGCTTATATGCCAGTAAGGTCTTKTAAAATTTTTGCCAAGAT
AAAAAGTATACAGTGAAAAGGAAGCCAATTCATAGACAAATTCAGAATCGGATACAAGGAAAAATARAAAGCAAACCTTCATAAACAATAGTAAAATGTT
TGCCTGAATTCTTCATGTGATTCTTTGAGTGTTGGTGACATAAGAGCTCTCTGCATTCGATTTTACTTTACAGCTCTTGAAAATGTAATTAAAAGCACAA
AGCCAGGAAAACTAATCGGTGTAGCAAATCAGAAGATGATTGAGTTGTTGGCTGATAATATAAATTTAGGAGATCCTTCTTCAATGTTAAAGATGGTAAG
TATGCTTTGAAAGTCCACCCCCTGGATTTCTTTCTCATACTCTTATTAAATTCTCAGCTTTTGCTTTACTAGATTTTTCTTAAAAAAAWTTTYTTTTATT
CTTGAGTACTTGGTTTTACTTTAAACGTTGCAGTGTTGTTTAATATATTCTGTGCAATGTTTGAAATCTTTTAACATTTTATATATTTTTTCAATGTGGA
TCCATATCACACCCATAAGAATAATATATCCTTTTTACCACCATTTTTTCTCATTCCCATTTAAAATATTAGTCTTTTTGTTGTTGTTGTTGTTAAAATA
GCAAAATATAATCCCAAAGAGGAGAAAATTATCTTTGCCTTATTAAATAAACCTTTGTAAAGGATTAGATGTGTGATTTAAATACATTAACCAGTTGGCA
AGTGCAATTATGTTCATTACAGTTTCTGAAATTATTMTTATAATTACTTAGAAATCAGTGCTTAGTACTTTATAAAGGYTTTCTRTTTGTCATCTCACTT
TAAATGTAAAACACATAATACCTAGATAGACCTGAGTTGAAAAARTTGTTTTATGAAAATCAAGAGCAACTGGTAATAGAGTGTGTTTATTTTTCAAGGT
GGAGGATTTRATAAGCGTGGGTGAGGAGGAGTCCTTTAACCTGAAGCAGAAAGTAACGTTTCATGTGATCCTGTCTGTGCTYGTCTCTTGTTGTTCATCT
TTAAAAGAAACCCACTTTCCATTTGCGATAAGAGTCTTCAGTTTGTTGCAGAAAAAAATAAAGAAGCTTGAAAGTGTCATTACTGCAGTGGTAAGGAAAG
CAGAATCTCCAGAAAGTGGGATGTTGAATAAAACAACAGCCTGGCCTATTAGTCACAGCAAAACTGAAAATCAGAGGCGAGATGTTGAGTCTGTGGATAG
TAGCTGGATGAAATGTGAAGCAGTCTTGGGTAGCAGTGAGATAGTCAACTAGGCACTCCCTTGCTTTTGCGGAAAGTTTAGTTGAATTATAAAATTTTAG
GGTTGCAATATTTTGTATCTGATGCCTGACTCTCCTCTCTTTTATTGTCTTTATTGGATAATTACCCAAGCTACACCTAACTACCTCTAGCGATGAAGAA
TTCACTTGGYGTGTTAGTGCTTGAACAAAATACTATTTCATTCAATTGTTTACTAAAAATAGATCTTTTAGGCTTTAAATAATKTTAATATTACATAGAT
GTGTATCCCTCCAGCCTACTACTRTCTTTCATAGTATTACTAARGGACATGTTTCAGCTGTTTACATTTGACATGTTTTGAGGTAGCAAGACTTTTTTTT
TAATATCTGCTATATGTAAGGATTTTGTTTTTATTTGTCCTCCAAATTTTAGAGGGCTTCTCATTATAGGATTTACTAAATGAATTATATCTTTTTCACA
TTTACGTATACCCGCAGGATTTTATAAGTTCTGATCRTGGCCATTGTTAGCTAAAATGTGTAAACTTTAAAAAGAGTAAARTCTTCATATTTTGAAAAAT
AGTCCAGATAGGCCCTTCTTAACTTTTAGTTTCTTGGTGTCTTTTGTGAAGTATGATGACCTGAACTATACTGGTTCTCAGTGTTAAAAGTATGGACAAA
TAGAGTGTTTTATTATACATATGTAGATAACAGGTTATTTTATATTGCTTTACTTTTAATACCTTTCTCGAGGTCATGAGCATGTTTTCGCCTGTAGCAG
CAYGTTGASTTAATCAAATCCCTCACTGGAGACGTTACATTGTAAATCTGGCTTTGGATTATTTTCCTTCTAAGTTATTACTCTGTACTGCTTGTACAGA
GTCAYATTTGTCATTTTCTTACACCTGTTCTGCATTCTTTTGGCACTTACAGTATAATTTCTAAACACCTAACATTTTGCTGCTTGTTTAAAATCATCTG
CAGGTTTGGAGATTTTTGCCATGTACCTTATTCAGATTAGTGGTAAAACAGTGAAATSAAAGAATTCCCTTTAACTATGTCTTGGCAATCCAACTGTTTA
TCTTCCTGTTTTGAAATATACCTATTTTGGCCAGGCACGGTAGCTCACGCCTATAATCCCAGCATTTTGGGAGGCCGAGGCGGGTGGATCATCTGAGGAC
AGGAGTTCGAGACCAACCTGGCCAAAATGGTGAAACCTAATCTCTACTAAAGATACAAAAATTAGCCAGGCATGATGGCGGGCACCTGTAATCCTTCCTA
CTCSGGAGGCTGAAGCAGTAGAATTGCTTGAACCTGGGAAGCGGAGGTTGCAGTGAGCTGAGATTGTGCCGCTGCACTCCAGCCTGGGTGACAGAGCAAG
ACTCCGTCTCAAAAAAAAAAAAAAAAAAAGAAATATGCCTATTTATTCCTACCCTTTATTGGATAAACAGTTCATATGAATAAAGTTTGTTTTTAGAGAT
AATGTTTCAAGGTAAGACATAGATAAAATTTAACTTTGTCTTTCCTTGTGAATAGTGATAAACCTCTTTAAAAATCCGACCAAAGCAGTTCTGTTAATCC
TTTCCCCACCAAAATGCACACATAAACAAAACTTTTGCATATTATGCAGAGGAATTCATATAACCCATGTTCAGAACCCTTAGTTTGTACTAGTTTTTGT
TTCCTTTAACATTTCAGGAAATCCCCTCAGAATGGCACATTGAACTGATGTTAGACAGAGGGATCCCAGTRGAGCTGTGGGCACATTATGTAGAAGAGCT
CAACAGCACTCAGAGGGTGGCCGTGGAGGACTCGGTTTTTCTTGTATTTTCCTTGAAAAAATTTATTTATGCACTGAAAGCTCCTAAATCTTTTCCTAAA
GGTAAGATACAAGCTGTGAATCTTTTAAATGTGATACTSTGCAAAACTGAATGATTGACTCCACAATGACTGTCTTGAATAAAAAGCTCCCAGCATGTTC
ATGTAGGATCTAGCATCATTTCTCTTTCCATGTCCTTGTAGGTGATATATGGTGGAATCCTGAACAACTGAAAGAAGACAGCAGGGACTATCTGCACTTG
CTCATTGGGCTGTTTGAGATGATGCTCAATGGTGCCGATGCTGTTCATTTCAGAGTTCTGATGAAACTTTTCATAAAGGTACAAGCCTCCTCCTTTTCAG
GCGTACTCTACCCTTAAAGAAGATATGGCTGGCCTGCAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACTTGAGGTCAGGAGTTCAATACCAGC
CTGGCCAACATAGTGAAACTCCATTTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGATGGGGCCTGTAATCCCAGCCACTTGGGAGGCAGAGGCAG
GAGAATTCGCTTGAACCYGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACACCACCGTACTCCAGCCTGGGTGACAAGAGTGAGACTCTGTCTCAAAAAA
AAAAGATRGGCTGGGCGCAGTAGCTCACGCCTATAATCCGAGCACTTTGGGAGGCCRAGGTGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGC
TAACATGGTGAAACGCCGTCTCTACGAAAAATACAAAAAAAATTAGCCGGGTGTGGTGGCGGGCTCCTGAAGTCCCAGCTACTCGGGAGGCTGAGGCAGG
AGAATGGCATGAACCTGGGAGGTGGAGCTTGCAGTGAGCGGAGATCGCTCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAAAT
AATAAATAAATAAAAAGATACTGTGGGTTATTTGGGTWATGACAGTTTATAATGTAAACAAAAGTAGACTTGTAAACAGTGAAGAGTATATAATADCACR
GGCCCTGTAAAAGAGTACAATCACAATACTAATCGGTAGGTTGAATAGAAACTAACATTGCTACACTCCTACTAATATGTTAGGCCCATTACTATATTTA
AAAATAACAACAGCCCAGTCTTTTTGATTGGTTAATACCATTTAAAAATGTGAATACTGGTGTTCAGAGAGGTTATTTAGCACACGTGAAGTTACTCAGG
AAATTTCATCCCCAGCACCAGTGACCTCCATGTTGCCAGGCCCAGTGGTCAGTTCCTGTTCTTGCCTGACTTGTTCTCTCTACAGCATTTGACATGGAGT
TGGCATTGCTCAGCACATTGTTGAAGTATTTTCTTAATTAGGCGTCCCAGATACTGCTCTTGTCTTGGTTCTGTGTTTTCAAGTGCAAGGTTATAGTGAG
GCTTCTGAATATCACTCTTCATTGACATCTTCCCAGTTCATTAAAACATGGAATATGGAATAATTTGAAATGATTAGACAAAGCAAAACTTTGCCTTAAA
TTATTTGTTTCTTTATAATTGTACACTAGTGAGAAGAGGATTTGGAACCAGCTTATTTGAGTAAGAATTAAAAGTTTGCTTTTTTTTTTTTTTAATTAGG
TKCATCTAGAAGATGTTTTTCAGTTATTCAAGTTCTGTTCTGTTTTATGGACCTATGGTTCTAGCCTTTCAAATCCACTAAACTGCAGTGTGAAAACAGT
GCTGCAGACTCAAGCTCTTTATGTGGGCTGTGCAATGCTTTCTTCTCAGAAGACACAGTGTAAACACCAACTGGCATCCATATCTTCTCCAGGTATTAAA
AGTAGCATTGTTATGTTTTGTCATGACCAACTGTTCATGCTTTCTCTATATGGTTTATGTAGTTTGGAAAATTATAACTTAAAAAAAAATAGCAGAGGGC
AGGCGCGGTATCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAAGCAGGCAGATCATGAGGTCAGGAGATCAAGACCATCCTGGGCAACATGGTGAA
ACCCYGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCRTGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCTGGAGAATTGCTTGAACC
AGGGAGTTGGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGTGACACAGCGAGACTCCATCTCAAAAAAAAAAAAAATCGATAAAGGC
CAGGCGAGGTGGCTTACACCTATAGTCTCAGCACTTTGGGAGGCTAAGGCAGGAGGATCACTTGAGGCCAAGAGTWCAAGACCAGCTTGGACAACGTGAT
GAGATCCTGCCTCTACAAAAAATACAAAAATTAGCTGGGCGTGATGGTRCGTGCCTGTAGTCCCAGCTACTCAGTTGCCTGAGGTAGGCAGATGGCTTGT
GCCTGGGAGGTCAAGGCTGCAGTGAGCTGTGATTGCACCACTGCACTCCAAACTGGGCAACAGAGCAAGACCCTGKCTCAAAAAAAAAAAAAAAAGGGCT
GTACATCTRTACATATTTCTGGTCACTTCTAAGTATTGCTTTTAAGTTACTGGCACTAGCAAAATCTCACCAAACACAAAAGTTTAATAATAGAAATGGC
AGGTGATTATATGAGTTCTTAATAATCAGCTATTCATTTTCTGAGCTGTAGCAGCAATGGGTTAGATATGGAAGTCAGATCATCATAATACAATTTAATA
ATGAGCTAACAAAAACAAAACCCTCCTGCATTTATCTCTTTTATCGGGCATAAATCATATTCAGGTTCGGCATTCTCTAATGAAATAACTGAAAGTTAAG
TTTTTTTATAATGTAGAATTGCAAATTTTGCAAAAGATGCAGAATTTCATGAAACAATGAATGCGATATTGAAAAGTGGGTTGACTTACAGAGCTATTGA
CATGAGGGGATGTGGCAGAATTAGATCAGAGAAGAATGGTTGAAGATGAAAAAATTGATTAGAATAATGGACATGATTAATGCTTCAAACTGTAATGTTA
TTAATATCAGAGGCATAGGAGTGGCCCTGGGGAAATTTGAAGATGTCCTTGGTTTTTTTTTGTTTTGTTTCTTGTTGTTTTTTTTTTAATTCCAAAATTA
CTCTTTGTAAATRTTCTGTGAAAGCAAGTTAGATGATCRTATACTTTTCCCTGAACAATTCCTCAGTGTTTATTTTTTGTTAGTTCTTTGAAAGAGCACA
TAATTACATTTGTAACCAAATTTTGTTACATTTAAAGTAGWTATGTAATTTCAAGTTTTATTTCTAAAATAAAATTCCACAAAAGTAATTTTTTATTCGC
TTACAAAATTTCGGTCTTTATTTTAGGTGAGTTTACTGTTAAGGTTTTTCTAGTTATATTTGGATAAGRACAACTCTATACATTTTTTAACTTTAATTTT
TCAATTAATATGGACATCTTTCCATATTAATAAATGGAAAAATTTATCTTTTTACAACTGCCTGCAGAGTATTCCATTGTATGGAGATAGCAATTTATTA
AAATAGTTATTTTCTGCTAAACTTGTGGGTTTTCAAAAAGGTACATATATTTTATTTAGAGATAACTATTTCTGTTTTCCAATTTGGTRTTAAATGTTTA
CTGTCCTTTGACAGTGGCCTCTGAGTCATATATGTCATTTTGACTGTAAATAGCAAGATGGAAGAACTTCAGTTTTCCATTGGTATTGCCCTTTGTGGGC
ATGCTTGTGTGGAAGAATTTGGGCTTTGTGAAAAAGATACATTGCAGCTGCAGGGGGCTGGGAGGGTCTTTTTTTCTGTGGGGACACTGAATAAACAGTT
GTATGCCTGCATTTTCACTGCAGCCCGTCACATGAGGTCAGGTGTGGAATTTTCCACTTGTGTCATATTGGTGCTCCGAAAATTTGAGATTTTGGAATTT
TTGGATCAAGGTTGCTCAACCTGTATGAACTTCTTAGGCAGGTTTGAAACCTTGTCAAGCTTTATCTTAGTATTTCAGAAATGGAAAGTATAATGGAAAA
TTTCTAGCAAAATATAAATGACCGTAGTTTGCTGCAGTAGATATGAAATAAAGCTTAAATAACTAATTACTGTAAAAGGAATTTAGATATCTCTTTGTTC
CAAAGACATCTTTTTAAAAACCCTAGCGCAGTTGGTCTCACAGATGCATTCCTACTAGATCTTTGAAGCAGATTTTTTCAATGTTGTTGAACTGGGCAGG
GCATAGAGAAGGGAAGCTTCCAGATTCTTTATTTAAAACTGGCATAACATTGAAAATTGAGAAAGCCTACAGACAAAAACTATAGGTCATGTTGCTTTGA
ATAATATTATGTAAAAATCCTAAAGAAAATATTCGCAAATAGGCTCTAGCAGCATATTTATAAAAATCATTTACCTAGCTAGAGTTCATGCCCAGAATAT
AAAATTGGTTCAGTAAAGGGAACTATGTTAATATAATTGACTGTATCAGTGAAGGACAAAACCCATAAAGTGTCCAAAGATTTGAAAAGGCATTAGCCAA
AAATCAGTAATCCTGATTGACAGCAGAATAGGAGTAACATGATCAAAAATTCCTCAAATCAAAAGCTAGCGTTTTCACTTCATAATTGGGAAAACAAAGG
CATTCCTGCTGAAATCATCACTCTCATTGAACATGATTCTAGAAGTACTAGCCGGCAGAAATAGACAAGTTTCAAATACTTATGGAATGTATGAATATAR
TAAAGGCAAAATCAAAGATCTGTGAGATGGTTATGTGGATTGTTAAATGGGACATCTGGCTATCCATTTGGAAACATTAGGAAGTTTGACTCCAACCTCA
TTCCTTAGATAGAAATTTCATGTGAACTAAAGATTTAACATAAACTTAGCTCTGGCATTAGAAGAAAGCATGAGGTACATATGATCTCTCCCTCTAAATA
TAGAGAGAGGTACTTTCTAAATTCACTTAGAGTGAGGAGGGCCTTTCTAAGCACCAGAAAAAAAGTAGAAGAAAAACTTGACTCTAACATTTCTCTATCA
AAAAGTAAAATCAAAACACACCAGTCTGGGACCAAATATTTGTAGAGTACGATGCACAGGTGGGTAATTTCCCGTGCACGCTTGTACAAGGCTGTATGTG
CAGCGGTGTTTGTTGCAGCATTGTTTTGATGACAAAAGAATAGAAACAACCTAAACTTTACCAGTAAGGTACCGGTTTTTAAAATATGGAAAATACATTG
GAGTATACAATTAAAAAATAATGATTTGGCCGGGTTTGATGGCTCACACCTATAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACCTGAGGTTG
GGAGTTCGAGACCAGCCTGACCAACATGAAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCGGATGTGGTGGCGCGTGCCTGTAATCCCAGCTACT
TGGGAGGCTGAGGCAGGAGAATCGCTTGAATCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGGAAAA
CTCCATCTGAAAAAAAAAAAAAAAAGAATGATGTAATTTGGATATGTATGTACTTATGGAAAACATTCGCAAGAGTTTAGATGTGTCTGTAATCCCAGCA
CTTTGGGAGGCCAAGGTGGGTGGCTCACTTGAGGTCAGGAGTTCGAAACCAGCCTGGCCAACATGGTGAAACCCAGTCTCTACTAACAATACCAAAATTA
GCCAGGCGTGTGGCGTGCACCTGTAATCCCAGCTGCTCAAGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATT
GCACCATTGMGCAATGTCCAGCTCATATGTGATAGCAGTTGGTGTAGAACAGAGTTTATAGTAYGCTCTTGTGTATTTTCAAAAGAATGCACCAGGTAAC
ATATGCCTAACCTTTCTCTGGAATATTAAATATTCAAACAGTGAACAGAGAAGGAGTTTGAATTCGAAGGGAAACTTTTTATCAAGTACCTTTGGTACTA
TGTAAATTTTGTACTGTTTCAGTTTTTAAAATTGTTTCTTAAATTTTTTTTTCCTTTGATTTTAGTGGTGACATCTTTACTCATTAACCTGGGAAGCCCC
GTAAAAGAAGTTCGTAGGGCTGCCATTCAGTGTCTCCAGGCCCTCAGTGGAGTGGCATCCCCGTTTTATCTGATAATAGATCATTTGATTTCTAAAGCAG
AGGAGATCACTTCAGATGCTGCCTATGTTATTCAGGTAAGCTCGTTAGCAAAGAAGATTGAGTGTGTTCATGCCTSTGTGTACTGGAGCAATTTTCTCCA
TTCTCGACATTTCACTGTGTAGGGATTTTGATGGACTAAGTCATTGGATTTAGGAACTGATAGGTCAATATCTGTACATCTGTGTCCCCCTACTTTTGAA
AAGATAGCAATGTCATATTTCAATTTWGTTCTTTTCATTGGATAAAGGWTTAGTGTGTAGCTTTTCATAGTAAGCCAGCTGTGTGTTTTTAATAACGTTT
CTTATTAAGGTTTTAAGGAGAAATGGAAAATTATAAACAATGTCACATCATTTGGGTAAGAGTCTTCCGTAATTAATATATTTAGCCTTTGTAGTTTCTT
AACCCTTTTTTATCCAATTTTCTTTTTGGTATCTTAGGATTTGGCTACTTTATTTGAGGAACTACAGAGAGAAAAGAAACTGAAATCTCATCAGAAGTTG
TCTGAAACTTTGAAAAACTTACTTAGTTGTGTGTATAGTTGCCCATCTTATATAGCAAAAGATTTGATGAAAGTACTTCAGGGAGTCAACGGTGAGGTAT
GTGCCATTTAAGTGGATTGTACATTCCTGTGATGTTACTAAAGAATTGTTGTAACTGCTTGTGGGTGAAGAAGACAATTGTAAGAGTTGCATGTGTGCRC
TCAGAAGAGATAAATGTAATATTAATTTGAGAGGGGGATGAGTTGAGGTAGAGAAAAMCAGATACAAGATACAAAGACAAGTACTGGTGAGTTTCTTTTT
ATTTTAAAATTAARTGTGTTGTCCCTGTCTAATCATTAAGTTTATTTTAAATGAACTTAACAGTCTCGTGTCTCATGGGGCTGCACTGCTGAAAGAAGCT
GTTGSTTCATCTCTGTTTTTCAAGTGAAAATTCTATACAAAGGAATATATTTGGACACGAGTCTATGAAAATTCCAAAATCATTTGCTCGTTTATTATAT
ATATTTAGAGCTTTCATTGTGTTTTCGAAGAAGCTTGTGTTACAAAAGAAAGCAGTTGTGAAACACTTGTTGATGTGATGGCATGTGCTGACCAACATAA
AAAAGGTTCTTTCATCCCAGTGTTACAGAAATGCCTGTGTGCTTCATCAGTCCTAGACTGACTGTGGGCTTAGAGAACTAAAATGAGCCAAATGGATTGA
AGACCATTTGATTACACTTTCTTGGTAGGAACAAACAGGTTGCATTCAGCCCTTAGTTGTCCCTGGTATAGTTTAAATTAATAATTGACAAATTTCTTGG
GTAAAGGACCAGATAGGAAATATTTTATGCTTTYGGGGCCACACAGTCTCTGTTGCAGCTACTCATCTCTGCAGTTGTATCAGGAAAGCAGCCACAGACA
GGGTGTAAACAAATGAGCATGGCTGTGTTTCAGTAAATAAAATTTACAAAAACAGGTGGTCTGTTGAATTTGACCTGCAAGCCATAATTTGCTGGCCCCT
AGTTTAGCAGTTAAAGATTTACATACATAATTTGAATTAATATTAATTATACCAAGTTGGAAACATTGAAGGACACATACAGTGTTTTAGGGAATCTTAA
ACTTTATTTTTATTCTCTAAAGTTTTAGTTTGTGTTTTCTGTTCTCAAGTCTTGAGGAATGCTCACAGATTATCTTTCTGCTCATCTCTGAAGGGTTTAG
CACTTTTGAGCATTACACATGAACTGTCAGAAAGGACCTGAGTGCCTTAGTGTGAATTAATAGCTGTCTCCATGTCTAAGAAGTTACCATCATTGGGTTT
TTTCCTCCAGGCTAAACTCCCATCTTCCAGCAGGCTTTGAGTGTCTCTGTAGAGTGAGCAAAAACATATCAGTATACATAACTATTTACTACTAAGTCTT
TGGATCTTTAGATGGTGCTTTCTCAGCTATTGCCTATGGCTGAACAACTGCTAGAAAAGATCCAGAAGGAGCCCACAGCTGTGCTGAAAGATGAGGCCAT
GGTTCTGCATCTCACTCTGGGAAAGTATAATGAATTTTCAGTTTCCCTTTTAAATGAGGATCCGAAGAGTCTAGATATATTTATAAAAGCTGTGCACACA
ACAAAGGAACTTTACGCGGGAATGCCAACCATTCAGATCACAGCCCTTGAAAAGGTCAGTGATTTCTTTCAGAAACTAAGGCATAGCATGTTCAAGCATT
TAAAGGTAGAAGGCAACAGGAACAGCGTTAAAAAAAAAAAGATTAATATTTTATTTGGAGAAGATAGTTACAGGTGGACTAGACGTTTTAAAGGAAAATG
ATGTATTTGACCCATTTTTGAAAACTGAACGTTGTACATGGGTCATTAAAAAGAATTGCATTTTAACTGACAAAATTAAGTGGGAAACAATTTTGTATTT
TGAGAGAGGTTGATATAAAAATTATTTCTGGAATTTAAACTTGTTCACTGAACTCAGTTGCCTTTTTTCTACCCCCTYTAGATTACAAAACCATTTTTTG
CAGCCATATCAGATGAAAAAGTTCAGCAGAAGCTTTTAAGAATGTTGTTTGATTTATTGGTGAACTGTAAAAACTCACATTGTGCTCAGACTGTCAGCAG
TGTTTTTAAAGGGGTAAGCTGCAAACTTCTTGTAATTTTTTTTATTAATGTTTATAGTCTCTTCCAAGGGACACCATGTTTAAGAGTCCTGTATTTTATA
GTGCTTGTAAGAGGTCAGATGTTACCATTAACAAAAATCATGGAAAAGTAAGTCAGAGAGAGGCATAAAATAAAAATTTTAAATCTTTACCATTATTTTA
TTTTATGAAGTATTTGTTGATAATTTTAACCAGATAGGATGTGTAGGAATATGTGTGTGTGTGATCTTTCTCATATTAGACGGAATCTACCTATTCCTTT
ATGCAAGGAATAGGAATGAGTCAATGGCTCAGTATTGAACTGGGTAACATTATTCTACTTAATTTAAATAGTTGTTTAATGACATATAATGGAATTGAAA
TTCTGCTTGTTGGTTTTATACGTATATTGAAACCTTGTTATTATCAGAATAGCCACCTGGTTATTCTCTTTTTTGAATATAGAATAATACAAAGTTCTAG
TATCTAGATTCAGCAGTTCTCAGAATTTTAACATATTAATCTTTTTTCCTTCTTTTTCTTTGCTGAAATATTTTAAAGTAAATCTCATAATGTCATGCAC
TTTCATCCCTCTGTACTTCAGTGTGCATCTTTTGAAAAGTGGATATGACTACAATGCCATTAGAAGTAAAAAAAAAAATAATTCCTTGGTATTATCTAAT
ACCTAGTTCATAATCATATTTCCATGGTTATCACAAAAGTATTTTTTATAGTTGTTTTCTTTGWATCAGAATCCAAAGATTTAGTTGTGATGTTAGAACC
TTATAAAAAGAGATATCTGGATCCCACCCCATATCTAAAGAATCTCTGGGGCAGTAAATCTGTTTTTGTGCAWGTGTGTATATGTCTTATTCCTTCCTAG
CTGATTAGAATATACATATCTGATCCGGCACTTGGAAACAATCGGTATGGWTGATTCTGTATTGCATTACTAGTTGTCCACTCTAAGGGATGAGCGTGAA
ATTGAGTGACTCTGGACTGGAGAAGTGATACTGTATCATAATCAAGWMAAGTGCAGGGCTGTAACTTGAGACTCCCAAGACAAATTGTATAGAAAGCAAG
TGCATGGTAGTAGGAGAGCTTGGTTAAAATGAAAATCTGAAGTTGAATTTATGTTGGCTAGAGCTTTTAGTGTATACTCTTCCCTACTTTGCTTTCTTCT
CATTCTGGTTTTTCAAGAAGTCTGTAACAAGGTAGTAGCATCCAATGCTGGGGGGGGTTCAGATGCATATCCAGTAAGTCATTCTTCCCTCTTAATTGAA
TAAATCCTTCCTAGGGGTTAACATTTATTGCTCTAATTTTATCCCAATGGATTATATCATCAACTCTTCTTCCTTCAATATTTCAGATTTCCGTTAATGC
TGAACAAGTCCGAATAGAACTGGAGCCACCAGATAAAGCTAAACCCTTGGGCACAGTTCAGCAAAAAAGAAGGCAAAAAATGCAGCAGAAGTAAGAGCTA
CAAATGCATTGAGCACATGCTGTTGTTCCCTGACTCTGAATGTTATGAAACCATTGGAACTTTTTGATACTCATCRATTTGCTATAATCAGGCACAATGG
TTTTTACTTAGCACATGATAGAGTTTGCTTTTCCAACGTTTTGTCTTCTCCATTTTCCAGAAAATCACAAGATCTAGAATCTGTTCAGGAAGTTGGAGGT
TCTTACTGGCAAAGAGTAACTCTCATCCTGGAATTACTGCAGCACAAAAAGAAGCTCAGAAGTCCTCAGATATTGGTGCCAACTCTTTTTAACTTGCTAT
CAAGGTAATGACACTTGGCTTTGATCTGTGAGAGAATAGGACTCTAATTCTTGCCCATCTTATCTAACATTCTCTTTTCAACATACTCTTCTCTTGTTTA
GATAGTCTGTAAAATAAAGCAAGTACTATAGGTGAAATTAAAAGATTGGTTTTAGGTATCCATTGCTGGTGCCCCAAACTGACCTTAGTGTCCTGTGTCA
TGTAGTAAATGGCCACTCACTGTACAGCCTACTTTCCTCTGAACTTTTCAGTAGCGTGCCTGGGACGTCATTACTTGCATTTCAAGATATAGTGTTGAAT
TTATATAGATATAGATATGTGTGTATATAGTGTTTGCTATCTAAATATATTTTCATATATATAGATGTATATATTCTATATACGTAGATTTGTGTRTGTG
TGTGTGTAAATTGAGTATGAATTGTAGCGTGTGCTTTCATGTGAAAGGCAAAGTAATTCTGAAGGTTGTCCTGTAAGATTCCAGATAGGCTAATGGAAAG
TGCAATAGAGAGGACGTGGAATTTGACATAGCGCCTGTCTATATGAGAGAAAATTAGAGTTAGAAATCTTATATCTTATTTCTAGACTTGATGTTTAATG
ATAGTATTTTAGTTATTCCTTATTGAATGAGTTCCTTATTGAATGAGTTCTGGACAATGGCCRTTAATGTAACAATGAATTGTACAACTTTTACATTTCC
CATCATTTCTCTTTTGGGTGTCCTGAAGATGTTTAGAACCCTTGCCACAAGAGCAGGGAAATATGGAATACACCAAACAATTAATTCTTAGTTGTCTGCT
CAACATCTGCCAAAAACTRTCTCCAGATGGTGGCAAAATACCCAAAGGTAGGTACTTTTTGGAAGGAAARGTTAGAAAAATTATCTACTTTGRGCGTGAG
TGTACCTGCCACTTAGGGTTTTTGTCTTTCTCACCATTGTAGATATTTTAGATGAGGAGAAGTTCAACGTGGAGTTGAYAGTTCAGTGCATCCGCCTTTC
GGAGATGCCGCAGACCCATCACCATGCCCTTTTACTTTTGGGCACTGTTGCTGGAATATTTCCGGTAAGCGTTAATGATATAAGATTTTAGCAGATATTT
CAGATATTTTTCTTCCACAGAAATGCACTGGCACCTGTTGATTTTAAATTTAATCAATTAGGCTTTGGAATCTTCCAGCACTGGTGAGACTCTCAGCCCT
GCCTCTTCATAGCTGGGACTGTATAAGCCAGTTGATCTTGCTAAGCTTTGGTTTCCCTTTTTATCAAGTGGGAATAATAACCTTCTTCACTGGATTGTTG
GGGGAATTCAGTTGGATAATTTGTGGTTAGTACTTAGCATAATACCTGGCACACTATCTATCTAATAAAACAGTAGGTATTGGTGTTAATTGGGAAAAGT
TAATATCTCATTTATCCTCAAGTAATCCTCAAAGTAACCTTTAACCAGTGACTTCAGAAAATTAATTTGATCATAAACTATGTCATTTAAAGAAATCAYG
TCCCTTTTATGAAAAATATCATTTAAACATTTGTAAAGAGATTGAAGCTATTTTCATATTGAGGATTTGAGTCARAGCTCCTTAACCTGGGGTTCTCCAT
GAGCTTTAGGGGATCTTAATCTACTGAAATCATATGCAAAGTTTTATCTGTATGGGATTTYTTTTTTTCTTGTAAGAGAGTCTGTGCTTCTCAAAGGGGT
TGATAATCCAGAAACAGTTAAGAATCATTAATATTTTTTCTGTTTTTATTGAAATATAGTTCAGATGCCATAAAATTCACCCATTTAARGTATACAATTA
AGTGATTTTAGTATATTCACGAAGTTTCTGTAATCACCACCACGATCTACTTGAAGAGTATTTTCATCACCCCAGAAAAGAAACCCTACACCCATTAACT
GTCACTCTTCCTCTCCCTCCTCCCTGCCGCTGCCACCGTCACCACCAGCACCACCACCACCACCATGACCACCACCCTGCTCCTGGCCACTAGTAATCCA
TTTTCTGTCTCTCTCAATCTGCCTATGCTGGACATGTCATATAAATTGAGTCATACAATATGTGGCCCTCTGTGTCTGGTTTCTTTTGCTTAGCATAATG
TTTTTGTTTGTTTGTTTGTTTGTTTTGAGACGGAGTCTCGCTCTGTTGCCGAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAAGCTCTGCCTCT
TGGGTTCAYGCCATTCTCCTGCCTCCGCCTCCCGAGTAGCTRGGACTACAGGCACCCGCCACCACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACG
GGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGATGTCATGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGAACTACAGGCGTGAGCCACYGT
GCCCGGCTGCTTAGCATAATGTTTTTGAGGTTCATTCTTGTTGAAGCTTGAATCCGTATTCCTTTTATRACTGAATAATATTGTTGTATGTGTATGCCAC
ATTTTGTTTATCTGTTCATCGGTTGATGGACATTTGGGTTGTTTCAACTGTGGGGCTATTATAAATTATGTTGCTATGAATATTGTAGACATGGTTTTGT
GTGGACATGTTTTCATATCTCCTGGGTATATATACCTAGGAGTGGAATTGTTGGGTCACACGGAATTTTATGTTTAGCTTTGGAGTAACTTGCAAGACTA
TTTTCCATAGTGGCCACACCATTTTGCTTCCACCAGCAGCCTGTAAAGTTCCCAATTTCTTCACATCCTTGCCAGTACTTGTTACTGTCTTTTTTATCGC
CATTCTAGTGGGTGTGAAGTAGTATTTGTGCTTATATTCTTTTCGTATGAATTTTTTCTTTGAAGAAATGTCTTTTCAAATCCTTTGCCTGTTTTTTAAT
CAGGTTATTTCTCTTTTTATTGGTGAGTTGTAATGAATYGTTGAAATGGAAAATGTTAGCCTGAGCAGGAATATCACTTGTGGCCAGGAGTTCAAGACCA
GCCTGGGAGTTCAAGACCAGCCTGGGTAACATAGTGAGACCCCACCCTTACAAAACAGAAAAGGAAAAAAAATTAGCTGGGCAGGGTAGCATGCACCTGT
AGTCCTAGCTACTCAGGAGGCTGAGGTGGAAGGATTGCTTGAGCTTAGGAGTCCARGGTTTCAGTGAACTGTGATCACACAACTGCACTGCATCCCAGCC
TGAATGACGGAGCGAGACGCTATCTCTTGAAAAAAAAATTAGTAGAAATTAACAGAAATAAAAAATGTTGATAGTTGTGTTTTCTTTYAGGATAAAGTTT
TACACAATATCATGTCTATTTTTACATTTATGGGAGCCAATGTCATGCGCCTAGATGATACTTACAGTTTTCAAGTTATTAACAAGACAGTGAAAATGGT
TATTCCCGCACTTATTCAGGTAAGGTCTCTTTATACCATCGTGGGGTTTCTTTTTTTAATTTAAAAATTTTGCATATAAATGACATTAAAAGCCTTTTTT
TTAGTTTTTTTTTTTTGTTTTTTTTTTTTAATATCCTCAACAGTTGTATAAAAGCCTTTCTGAAATGCTSAAGTACATTGCCCTTAAGTTTTAGAACATT
GAAGCTAAGAAGCAGTCTTGGCAATGTCTTTCTCAATAATATAAACAAACGTGTTATAGCYGGTTCTGCTGTGCTGTGAGTGTGTAACTGTAAGTGTCTT
AACATCATTCGGGTGGGGTAAATTGACATCCACCATCTATTTCAGGACATTGCATCAGTTTGATAATACCTTCTTACATGTTGATGAGGCTAGGAACTTT
TAGAGCTACAGTGACAAATTTGTTAACATGCAGTTTAGCAAATGTTTACCAAGCATTCTCTAAGAGCTAAACTCAGAGAGAGAGGTGAGATGTTCTCTCT
CCCAGTAAGGAATGAACAATTCAAAAGTTAAAAGTAGCCTCAAGAGTAAAAGAGCTTGTTCATCTACTTGAGTTGTCTATGTACCCTTCACTTGTTAATT
AATGTCTTTTCTCATGCTATTGACCCTCTGAGGGATGACCATATTCAGCACCTTCTTTTAACCTTAGTATTAGATTGGTGTTCTCAGTGTCCACCAAGTT
GGCAAGTATAGGATATATACCTAAAAAGAAAAATAATAATATGCATTCATATGATCAGTGCCAGTCGAATAAGTAAATGCTAAAGAGTTCAGAATAGGGG
AAAGTCTATATGGGCCAGGATGACCAGAAAGTTCTATAAGAAATAGAATTTGTACCGGTGTGAAAGAAGGATGGGATTTGTTCAGTGATGGCAGAGCCAA
TAGTATGAGAAAAGGCATGATCTAGGAATGTGCACAGCATGTTTGAAGAATGTAATGGTGATTGATTGATGGAGAGCAGAGGGTTGAGACAGGTAGACRT
TGGTTTATTCATTCATTCAAGTGTTTTCTGTCATTCTTTCTGTCATTTATTCAACAACTATATTTTGATCACCAATACCTGGAGTAAAATGGTTCAAACT
TTATTCTGAAAGCAGCAGGAAGTTGTTGGCCTTTTCTGTGCTCTGCTTATCTTCATTCTTCTTGAGGCACAACCCAAATCCTGTGTGATTTGTGCAGCCT
TCCCAGGCAGTCTAAGCAGACTTGCTATCAGTGTCACATATTTGGCATSTGCCATTACTGCCTCCTGTTATCTTTTCACACATGTATTGTTTCTTTTGTT
TGTTTGAGACAGAGTTTTGCTCTTGTTGCCCAGGCTAGAGTGCAATGGCATGATCTTGGGTCACTGCYACCTCTGCCTCCTGGTTTCAAGTGATTCTCCT
GCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACGCACCACCACGCCCGGCTAATTTTGTATTTTTAGTAGAGATGGGTTTAACCATGTTGGCCTGGCT
GGTCTTGAACTCCTGACCTTAGGTGATCTGCCCAGCTTGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACTGCGCCCAGCCATGTATCCTGTTTC
ATACAGAAAATAAATCTCCTTTGGGGCAGGGCTCATATCGTACACTTTGTATTCCCCTTGGGGCTAAGTAGCGCTTGGGACATGACAGGTACTTACTGAA
TATTTATTGTTAGGCCTTTGATTATTAAAACTCTTGTGGCTGAGTGTGGTGGCATGCACCTGTAACACCAGCACTTTGGGAGGCTGAGGTGGGATTATTT
GAGGCCAGGAGTTTGAGAACAGCCYGGTCAACATAGCAAAACCCCRTCTCTACAAAAATTTTTAAAAAGTGGTGGTGGGGTCCTGGGATGTCCCAGCTTC
TTCGGAGGCTGGGGCAGGAGGATCTCTTTGAGCTCAGGAGATCCAGGCTGCRGTGAGATATGATCACATCACTGCACTTCAGCCTGGGCCAYGGAGAAAG
ACCCTGTCTCTAAAAAAATAAATAAAATTCTTCTGGCAATTTCTTGGGGCCCATCTAAAAGCCTTATCTTGTTCACCTAAACTTGTTTTGTGGAAGATTA
CTTGCACCTACTCATTGTCTCTGCTTGCTGTTTTGCAGTCTGATAGTGGAGATTCTATAGAAGTTTCAAGAAACGTTGAAGAGATTGTGGTAAAAATCAT
TAGTGTATTTGTGGATGCGCTGCCACACGTCCCGGAGCACAGGCGCCTGCCCATCCTTGTTCAACTTGTTGATACACTGGGTGCAGAGAAATTCCTCTGG
ATTCTCCTCATCTTGCTTTTTGAACAGTATGTCACAAAAACAGTGCTGGYGGCTGCCTRTGGCGAAAAGGTCAGAACCTAGGGTGGGAAGATAAGGAAAA
TGGTGATTTCTCACACAGATTTTATGATATTGTCCAGTTTAAACATGRGGCTGATGATGCCTAATGTGTGTTATTTAGAAYCTTTTTGCTCAGAACCTTT
TTCAAAAAGGTTTTTGGCATTTTAAAAAATTGCATTCAGAGCCCATAGCACTCTGAATATCCTCAGTTGCAGCAAAACATCTGAAGGCGAATTAACTTTT
CTGAGAAACAGTTCTGSTGCCACGCAAGTGGTTCTCTTTTAAGCCCAGCAGAGTATGGCTGAAGAGTAATGAAACAGTGTCTCTTCAAAGCGGTTTTGAA
GGCAGTTTGTGGGGAAATAGAGGAGCGTCCGTGTCCCTGAAGTCAGTAAGACACAAACACAGGTGATTGTTTGGATAAAGCCCTGTTTGGATAAGTCGAG
GACCATTTTTAAATGACTTCTTAGACATGGGATCTGGGAGTAGATCTCGACCCACTSTAAATAAAGTAGTATACTCTGTTCTGCTAGAAATCCTAACGCA
CATTATCCTGAAATTATGCCTTCACAATTCCTAAGTACAGATTTGTTACCTTTTTCTTTTTCTACACAGGATGCTATTTTAGAAGCAGACACTGAATTTT
GGTTTTCAGTCTGTTGTGAGTTTAGTGTCCAGCATCAGATACAAAGCTTGATGAATATCCTCCAGTACTTACTAAAGCTGCCAGAGGAAAAAGAAGGTAA
GCGTAGATCGGGTGTCACTTACTGTTCAATCTGAAAGCTAAAGAGAAACAGAAGAGAATGCAGGTTATCCTTAGTACATCTTCAGAAGGATTTTTAAAGT
AAGTTAATCATTTTAATTTGATTGTGTAGTTTCTTGAATCCTTATGGAAAATAGTCGGAATTCCATTTGCCATTCCTCACACATTGTCTTTTATACCTCT
GTGCTCTGCGCTGACGTCTTGGCTGTGGAATGTTGCTGGTATCCAGGATGAGTTAGGTTCAAATGACAGTAAATGATCAGGACCTCATTAGCTGTCTCTC
AGCTTCTCATTAAAATATCTGAAGACATTTACATGAAAAGAAAAAAAGTAGGTACCACAGGAGTGGCAGCAAAATATTAAAATTGTACCATGCAGCAGAG
CCTTGAAGAAAATCCCACGAACYGCAGCACCACTGAGGCTGGCTTAGGAAAGGGTTGATGAAGCCAGGTGTGATGGTGTTAGCCTGTGGTCCCAGCTACC
CAGGAGAATGAGACAGGAGGATCACTTTAGCGCAGTTCAAGACCAGCCTGAGCAACATAGTAAGACGCCATCTCTAAAAAAAACTTTTTTTCATTAAGAA
AGGGTTGACGTGTTGATAGTTCTTAGTTCTCTACAATTCGAAGCAGAACGACAAGGCACGTTAGAAGGAAGGTACTCTAAGAGCTCCGCAGAGACTGTTT
TCTGCGTGGCCAGCCATTGGCCCTGTCATCMCTGTTTGGCGAGGCAGTAACTTGTCCCATCCTGCAGTCAGCTCAGGTTTGGCAGGGACAGACGAGGGAG
GTCCCTGGACAGTATGTGGTGTATGTGGTATATGTGGTGATGTGGGTAAGGAAGTGTCTTAGCAGTAAGTCATTCTATAGGMTAGTGGTTTTTAACACTG
CACTGCCAACCCCATTTACATTAGACACATTGAATAAAGAAATCTACACCTGCAGTTGGAAGTTCAGAGACTCCTTCCGTGATGTGGTTTCTTCCATTTG
ATTGTCCAGTTTCCCTGTTTTGTTTTTTGTCTTAAACACTCGCTTCTCAGGGCCACTGGGTACTYTCTTGGCAAATACACTCACGTTTTTCACTAATTTA
GAAGAGGAGAAACTGGATGTAATAGATGAACACATTTCTCTGGGAAAATGTTATCCCGTTAATTGTCCTTTACTTGAAAGGTTATATCTGTTAATTCTGT
ATGAAGGATTCAGGTGAAAATGAGTAAGGTCACTTGTTTTATTGCTGTTTCAGAAACCATTCCCAAAGCAGTGTCATTTAATAAGAGTGAATCACAAGAA
GAAATGCTACAGGTTTTTAATGTAGAGACTCACACTAGCAAGCAACTGCGGCATTTTAAATTTTTGTCAGTGTCCTTCATGTCTCAGCTCCTGTCTTCCA
ATAATTTTCTGAAAAAGGTAATGTGTTCTTTAAATGTGTTTATAAAAAGGTATTCTGCTGTCTCCAAGGAACTGTTCTCAACCAGTAGAAGTAGCTTGGT
AAATGGCTCATGAAAATGGGAGGCACGCCTTTAAAGATAATAGAACAAGAAAGTACGTTTCACCATGAAAAGCCGTTCGTCATGATCTACTGAGATGGAA
CATAATGTAAACTCTGTGACTCAGTGGTTTCATTCTTAAGTGTTGTGTACCCATCAGAAGTTTATGAACCTGTACACCAAAAAAACTACAAGAATCTTTA
TAATATTCATAACATTCTTCATGGTAGCACAAAACTGGTAACAACTCCAGTGTCTACCAGCAGAGTAGATAAATTGCCTGTATTTTATTTTATTTTTTGA
GACAGGTCTCACTCCATGTCCCAGGCTGAAGTGCAGTAGAGCAATCATGGCTCACTGCAACCTGAAACTCCTGGGCTCAAGCAATCCTCTTGCCTCAGCC
TCCCAAGTAGCTGGGACTACAGGCGTGTGCCACCTACATCTGGCTAATTTTAAAACTTTTTTTATAGAGACAGGGTCTCGCTCTATTACCCAGGCTGATG
TCAAATTCCTGGCCTCAAGCGATCCTCCCAACTCGAGTTCCCATAGTGCTGGGATTACAGGCATGAGCCAYCATGCCCAGCCTTTCTTTACCTGGATATA
GTGAGTTCTGCATGTATGATTTGTATACATCTCTGTTTGTGTATTAAACTTGTTTAAACAATGAGAGAAAAGGAAGGAAAGAAAGGAATACGACCAGGAA
TACAAAAATGGTTTGACATTAGAGTACTGTAAAGTCCATTAGGTCCTATAATGCGTTAACAGATGAAGAAGGGAAACCATATGATCATTTTACATTTCAC
AGTGAAATAATTCAGCAGACTCAATGCTTATTCACAACTTAAGAGAGAAAAATCCTCGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGC
GGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTCTCTACTAAAAAATACAAAAAATTAGCCGGGCGTGGTGGYGGGCGCCTGTAGTCCC
AGCTACTCGGGAGGCTGAGGAAGGAGAATGGCGTGAACCCGGGAGGCATAGCTTGCAGTGAGCCAAGATCGAGCCAATGCATTCCACCAACCTGGGTGAC
AGAGCGAGATTCTGTCTGAAAAAATAAAAAAAATAAAAAAAAGGAAAAAACTCCTCTCAGCAGTGCAGGATAGATGGGAATTACTTTGGCCTAATAAAGG
TGACAATCTGAAGCTTGTGGTTTATATCATACCTAATGATGAAATATTAATGGTGTGCCTGCTACAGTCAGGGACAAGAATCTCCTCTGTCATTGTTTCT
ATTCAGGAAAAGAAATGAAGTGTAAGAATCAGGAAAGAAGAGAATCAGCAATTAGAACTAATAATGAGTTCAGTAAGCTTGCTTAAGAGAGATCAGTGTA
GACACTATCTAGAGATCAGTGTAGGTTGTGATCTGTATCAAGCAGGCTGGCTGAACTAATTAGTCTCACCACTGTTATATAATATTGTTATTCCTCAAAT
TAGAAAACAGAGTAGAAAAAAAGATTTCCTGTATAATACAAACATAAACTTAYAAGGTACCAAGAATAAGCCTGACAAAAATATGTGCACAAATATTACA
GGGGAAATGTGCAAGATATGAAGGGACACAGAAGAAAACTTGGAAGAAATAGAAAGAGAGACACTGTGTTTACGCATGAAGAAGCCTCACTATTTAAAGG
TGGCAGATCTGCCCAGATTGGTCTAGAAACTCAGTGTGCTTTTTCAATTATATCATTTTAAGAAATGATATTGATACATTGATACCAAACTGTAAGGGGC
CAAGGACAGTGGTATGGTGCAGGAGTAATCAGATGGATCAATGTGACTGAACAGTAGGCCCAGAAACACATGCAGGCATAGGTAAGAGGTGCAGCAGGTG
ATTTTACAAAGCAGTTGGGGGAGAGAATGGTCCAAGTGCTGGCCCTGGCATGATTTGTTTCCCATTTGGGGAAAAGTCTGATGTCACACCTTGTAGAAAA
GACAACTTTAGTCAGAGTAAAAACTTCATTGTAAAAAACAACAGTTCAAATGTTTAGAAGAAAATCAAGGAGAACATGATTGTGACTGGAGGATAGGAAA
GAATTCCTTTAAAATTTTGATTCAATAGAAAGCCACAGGCTGAGAGAAGATTATTGCTCTGCATAAATCAAAAAGCCTCAGTTTCCATTAGAACAACTGG
CAAAGAATATGAATTCACTGAAGAGGAATTACAGATGGCCAGTTAATGTACAATGTCATTTAGCCTCCAGTAAGCAGGAAATGTGATTAAATGTGATACC
CATCAAATTGGCAAAACTGTTGAAGTCGTTAGTACCAGGGATKGGGTACGTAGTGGCAGACAGTGTGATTGTTCCAACCACTTTAGAAAGCAATTGGCAG
GATCCCATGAGGTTGAAAGTTCCAGTAATTCCTGTGATCTGGTCATTCCCTTCCTTAGGTATATATGCTGTAAAAACTTCCCAAGATGATCAAAGGGACA
TAAAAATGTTCTTCTCTAGCATTATTAGTAAAAGGGGAAAAAATGGACATAAACTAAACATCTAACAACAGAGGCAAATGGATAGATAAGTGGTATTTAT
AGAGGAATATCATATGCAGTTAAAATGAAGGAACTAGAACATAAGTCMCCATGCATAGATCTCAAAAATAYGTTTCCAGAAAAACATGTTGTTCCGTGAT
ATGTAGTGTTTGAAACATTTGGAAGCAGATTTGGGATGATGGTTKTGTTTGTGGGGCTTGGGGTAGAGGGAGAATAGGACCAAGGAGCAGTACTTGGGGG
ATTCCAGCTGAATCTGTAATGTTTAACTTCTCAACAAAGGATATGTGAGCTCACCAGMTCAGCATGTCATAGAATTCGGTAGTGCTAATTGAGTGTTGAT
TGCTGTATTTTTCTGAACCATTGTAGTACTTTTTAGATACTACCAGTAGAATRTAATTAAAATAAATTAAGAGAAATAGAGTTACTACAGTATAATGAAG
ATGMTATGAACCTGATTAAATTGTAATGTCAGAAAACAGTTGCTGTGGAAGGTTTCAGTGAATGGTCCGAGTTTCATTGAACTGACTTGAAATGACTTTT
ATTATTGACTTCCMTACCGTTCTAATGACGTCTTCTTTAAAAATTAGGTAGTTGAGAGTGGTGGTCCTGAGATTTTAAAAGGCCTTGAAGAGAGGTATGT
TTCCTTTTCTTTTTYTACTTTTTATTTGGAAATGACTTCAAACTTATAGAAAACCTGGAAAAACAGTACAGAAAATTCATATACTCTTTACAACCAGGTT
CACCATTTGATAATACTTTCTGCCACATTTGCCTTAGCGTTCTCCCTATGTAGGGTTTTTTCTCTGAGCCATTTGAAAGTAAATCATATACATTATGTCT
CTAAGAATAAGAGATGTTCTTATAAAACCACAGTACATTGATCAAATTCAGAAAATTTAACATTGATCCAATCCAGTGATGTAATCTACAGTTCATACTC
CAGTCTCCCTAATTATCCCAACACTSTCCTTTACACCGCATGTGTTTCTGCATCATGATCCATGTCAAGTCTGTGTATTGTATTGAGTTGCAGTATCTGT
TTAGTGTCTYAATCTGGCCCTGATTTCTATGGGCTCATGAATTCTTTATTCYGTGGATTCTAATCCATATGCTGCCATTATATATTTGGGTGCAGGAATT
TTCCTTTCTCTCCCWTGTCCTCGGGGTTTGCCTCCTGGCCTTGCTGTGTACCTCCTTTTCAGATGCATGGCATTCCCAGGGCCACTGTCCTGCCCCTTCC
ACTGGAAAGTGCCTGCCCTGCAGCCAGGAATGTGAGCTGCTGAGTTCCAGTCCTGTGGGCTGACTTGTAGCGCTAYGCGTAGGACTTTCGTTTTTGGAGC
TGATTTTGTCTGCGCCCCCTTCTCCCCTCCTCTGCTGTGCGGTGTCAACTTCTGTCTCCACTCTTCCCTCTAGCTCCCCCCTCAGGCTGGCAGCAGTGGG
GGGATCTCCAGTGGCAGCTGTGTTGGAATTTGGTGTGTGCTTTTCTAATTACAAGTTATTTGAAGTTTGTAGTCTTTTTTTTTTGTCTCCTAATAATGTG
AAAGAAGTGGGTTATATGTTCATTTCTATTAATATTTCTCTTTATATAAATGGTGTATGGTGTGTGTGCATGTGTATGTGTGCGTGTGTGTGCCTGTGTG
TGTGTGCRCGCACACACCTGCCATTAACCTAGGGCCATAACTCCCTGAACACCCCACTTGGACAGCCCAGTGAGATCCACTGAGCATGAGCTAGATATGA
GTGAGTTCCTTAAACGCTTTCAGCATCTGTTGCTTATTCAGCACCTCACAGAGTCTGAGCGAGGTCGATGCTTCTGCACAGAAGCGCCTAGTTACTTCTT
GATGATCTCTGTCTATGGCAATAATCCCTCATTTCCTTTCTTTCCGAGTAGTTTTTGAAAYAATTTAGTACAGAATTATTTAACTCGTCTTTCTACTTGA
AACATTTAGCATAAGGTAGACATGAACAAGTTCTCTGAGTKYCTTCAGCTGCCGTTTGCTGAGCGAGCCTCTGTGTTTCAGGTTGCTGGAGACCGTTCTC
GGCTATATCARTGCAGTTGCACAGTCCATGGAAAGGAACGCAGACAAACTCACCGTGAAGTTCTGGCGCGCGCTCCTTAGTAAAGCTTACGACCTGTTAG
ATAAGGTAGGTGTTCATTTCTCCCTGGAATTACTGTTYTGTTGCTGTTTTTTAAATTATTGTGAAATTATGTAAAGTTTTTAAGAATAAACTTAGCAATT
CCTTTTATGAATATAATGAAGCTCAGATTTTTCTTAGAAAACAATCTCTTGATGACTAGAAATAGATTTGTCTGGAAAAAATTGTTTCCTTACCAGTTAT
GAGAACATGTACCTCGTATATTTTAATAATTAAGTCATATAATATATACTGTTCTACTTTATTCAAGTGGAATAAAATAAAAGTATGAAGTATATTACAT
ACATATCACTGGCCTCGAAGTTAGGATTGCTGATTCAAATCTAGCTCAGTCATTTAGCTGCATGCCTTTGGCACTTCCTCCTGACATCAGGCTTTTGTTT
TGTTCGATAATGTGTGGTTGGTAATGCCTACCTGAAAGGTTATTTTAAGAATTAAATAAGAAAATGTGTGTGGAAGTGCCTGGTGCCTGGAGGTGTGCAG
TGGACAGCAGTCTGTCTTAATTGAAGTTGRTTTTTTTTTTAATTTGTTTTTCTTTTCATGTTAAATATAAAATTTCTCTTTAGGTCAATGCCTTGCTGCC
CACAGAGACATTCATTCCTGTGATCAGAGGGCTGGTGGGCAATCCCCTGCCATCTGTTCGCCGCAAAGCGCTGGACCTTTTGAATAACAAGCTGCAGCAA
AATATATCCTGGAAGAAGACAATAGTGAGTGAAGACCCAGGACACACCCATTTACTGTACTTYGCTTTATCAAAGAGCTGCATTTAACTCCCTTCAATTT
CTCTAGTGGTACAATTTCAAATTGAAGTATATTATTWTCTGAATATAATACCATGACATGTTTTAAAATGTGACGTTAATTCTAACGGGAATATATGTGT
GTTGTAAGAGCTCTTAGAATGGAATTTCAGCCTAGTGGAATTCTTGCTTACTACAGAGCTTACGTGGCCTTAGCCTTAGCATAGTTCTAAGTCCCTTTTA
CTCCAGATCAGTGGGTGCTTTGTATAAGTGAAACASTGGCTAGAACATGCACATCGCTTAGCATGACTGTGTGACTCAGGACCCCCGAGTCTGATTTCCA
TTTAGACAATCTCAAGCTGTGACAATGGGAAAATGGACAAACATTTTTTGCARCTTTAATGATTTGGGGATTCTGGCTGTCCCCTTCAGGTTACCCGTTT
CCTAAAACTGGTTCCAGACCTTTTGGCCATTGTGCAGCGTAAGAAAAAGGAAGGGGAAGAAGAACAAGCAATCAACAGACAGACAGCRTTGTATACCTTA
AAGCTTTTATGCAAGAATTTTGGTGCAGAAAATCCAGATSCTTTTGTCCCAGTGCTGARCACTGCTGTGAAACTGATTGCTCCAGAGAGAAAGGAGGAGA
AGAATGTCYTGGGAAGCGCGCTGCTGTGCATAGCAGAGGTGACCTCCACCCTGGAGGCGCTGGCCATCCCCCAGCTTCCCAGGTATGCGGCCGGAGACTT
GGAACAGGAGCTGTTACCGCCTGGCACACATTGAAAAATAACACTTTGGTGACTTTTTTTTTTTTTCCTCTGAGTAGACGTTGCATAAAATTGGAATTTG
TTAAAGAATTGATCTTGCAGGGTGTGGTGGCTCACGGCTGTGATCCCASCACTTTGGGAGGCCAAGGCAGGGAGATCRTTTGAGCCCAGGAGTTTGAGGC
TGCAGTGAGCTATGACTGCACCACTGCACTGTAGCCTGGGCAACAGAGTGAGACCCTGTCTCTTAAAGAAATAATAATAAAAATAATTAATCTTCAAACA
GAAAGATGCAGCCTTCCCGTTTATCTTCAGATGCACTRCTTTGCAGTGTTAATCGTCCTCCATTCTTCCTTCCTTTTGTCTAGTATAGTCAAAAAGCAGT
GGGTGAAGGTTCTTGGCAGAGGGGCCCACCCAGTTAGGCAAGGCCAAAGCTGCCTTCTGCTGCCAAATTTGGAAGTTAGAAGCTCCTGGCTGTGGTAGTT
CCTTACTGTACAGCCAGTATGTTCCTTAACCTGTTAGAGCTTTGCTGTCTATAAAACAGAGACAGTATCTACCTCATAGGATTTCTGTAGGGCAGTGCTT
GCAAGGAGTTTTGCATAGTGCCTGACACATAGTAAGTGTTCAGTTAATGAAAGACATTGTTATTTTTTAAATTACTGTTGTGTCCRTACTGTTAGCACTG
GGAGATTTCTTGTGCTTAGCCACATAAAATGTATAGACACTGCTTTTTAGGCTATGARGCAGATAGCGATGTAATAGGCACAGTTTGCTGGTTTTTTTCA
TAATGCCCTCTACTCCATTCCCTAGCCTCTGTTTCTGCTTCAAGTTCTTCTAAAGCTCTTACTTTGTTTCTAGCCTGATGCCATCGTTGCTGACAACAAT
GAAGAACACCAGCGAGCTGGTCTCCAGCGAGGTCTACCTGCTCAGTGCCTTGGCTGCTCTGCAGAAGGTTGTGGAGACTCTCCCGCACTTCATCAGCCCC
TATCTGGAAGGCATTCTCTCCCAGGTGAGCCACGATAGCCACGACATGCTAYGCAGGGTGGCTGGGGAAGGTAAAAGATCACAAATGTAGTGATTTTGTT
TTTTCTTTAAGGGTTAGTTTCCGTTTGACAGAAAGGAGTCTTATTTCTGAAGAGATGTGCTTGCTTTTATTAAATGTGTACTTTTTCTCTTCCATCATCC
TTGCCACTTAATCTTGAAATTGATATGGGGGTCACTTTTTAGCGAGATGCTTCTCTTCTTTAATTGTGCGGAATGTATTCTGGCTTTTTTTTCTTCTGTG
AGATCTTTGGAGTTGGGCTGGTAGAGCCGCCTTTTATTACTTGTGGAAATTGATGGGCCCTGTTTCTACTGTGAGAGGTWTAATCCTAAGGCATCTTGCA
AAGCAGAATTTTTGTATTGCACGTCAGCGGTTTCCTGTCAACACGCTAGGGGCCAGTGGTATTTATGATTGAAGATGCTCAAGARTGTTGAGACCTGGCT
GTTCCATTGTGTTGATCATTTGCCATTTACAAGGTTAGGAGCCTTCATTACCATGGGGCAAATGATTAAACCGCTTCACTTACACCACAGCCAGGGTTTA
AAAGTAGCCTTCTCAGAGAAAGGGGCCTGTGCTCTGAGGAGCTTTCTCAGTTTTTTAGCAACTTGACTCTTGCCGTGGTCCCTTGCATTCCTGTCCTCTA
AGAAAATCATCTGTCTGGGTGCTGTGTGTGCGTCTGCGTCTACCATCGGCCTTCGTCCCTGATCGCAAGTTGGGCAAGAGGTGTCTGCCCAGTTTTATCC
ACTGACGTTTAGGGCTGACTTTAAAAGGAAYTCTGTGTGTAGTTAAAAAGTGCTAAGCATTTTCCAAACACTAGTACCTCATCATGAAGCCTCTCTGTAA
GTGTGTGTTTGTCAGCGAAGATCTGCAGTGGCCCTGATCACTTTTTTTATATTCCTGTAGGTGATTCATCTGGAGAAAATCACTAGTGAAATGGGTTCTG
CGTCACAGGCTAATATCCGTCTCACATCTCTTAAAAAGACACTGGCTACCACACTTGCACCCCGAGTCCTGTTGCCCGCCATCAAAAAAACTTACAAGCA
GATTGAGAAGAACTGGAAGGTTAGATCTTATTGGGTATTAAGACTTTGGAGAAGGGAGAGGTGGTACTGCAATGTGTAAACTTTGACTTAAAGAAGAAGA
TTTAGTTTTTAAAAATACACACCGCTGAACTCTAGGAATCATTTGAAAATGGCACATCTYTTTCCTGTGTTATTGGTAGAATCACATGGGTCCGTTTATG
AGCATCTTGCAAGAGCATATTGGGGYGATGAAGAAGGAAGAGCTCACCTCCCATCAGTCTCAGCTAACCGCCTTTTTCCTGGARGCCCTGGACTTCCGAG
CCCAGCACTCTGAGGTAAGCTCAGGTTCACTCCTCCAAATCCTAAAGCTGTTATCCACCTATTGAAGAGTCCGAGAACAATCTAGCCGTGTAACAGTGGT
ACTTGCCAAAATAATTTACAGTCAGGTATCAGCACTCTAATAAATGGGCTCTTCTGTTTTCAGAACGATCTGGAGGAAGTTGGAAAAACGGAAAATTGTA
TCATTGACTGTCTAGTAGCCATGGTTGTCAAACTTTCCGAGGTCACATTCAGGCCCCTGTTCTTCAAGGTGACGCTTTCTTCCTCTTCCTCTCTTTTGTG
CTCAGATTTAAGTGACAAGATGTCGAAGAAACTAATACTGTCTTATCCTTTCAGCTGTTTGATTGGGCTAAAACAGAAGATGCCCCAAAGGACAGGTTGT
TGACATTTTACAACTTGGCAGATTGCATTGCTGAAAAGCTGAAAGGGCTTTTTACTCTGTTTGCCGGCCACTTAGTGAAGCCTTTTGCTGACACCTTGRA
CCAGGTGAACATCTCCAAAACAGGTGGGTGGTCGCTTCAGTTCAGCTGTCACCCTTGYCCTGTGTGCCTTATACAAGGTACCAGTAAGACACAASCTAGT
GCTTGGAAGCAAGATTTTAGAGGTTCTTAAGTCCTAAGCTAAGGAGGGTGAATTTTTTACTTCATTGTTGTCAGACAGTGAAGTGTTGTTTTAGCATSAT
GAGCGAATGTTATAAGTCACCTCACTTGGGAGAAAGAATAAAGTAAATGGCCGTTACTGTCAGTTACTGGAAGTAACTTTAAAACGCAAAAATTAAGATT
AGTTTATTCTCTAATGCTAATACGTGACCCACTTGACAGTTGAGGGAATTTAACTTGCCAGAGTGAGTGTTAGAATCTTAACTCTAAAAGAAGGAATCAT
TCTTCGAGAGACCATCCATTGTGTTCTGCCTTCGTCCTGATTATGATTTCTAGATCATTTTAGACTCTTCTGATTTAGTTATTTTAATAGTGATTTCAAT
GTAAACATTGGAGATTAAATGGTTAAGTTCAGTGTTTTTTCATTTTTACTCTTCCCACRTCTACAGATGAAGCATTTTTTGACTCTGAAAATGACCCTGA
AAAGTGCTGCTTGCTGTTGCAGTTTATTTTGAACTGTTTATACAAAATCTTCCTTTTTGATACCCAGCATTTTATAAGTAAAGAGAGAGCAGRAGCCTTG
ATGATGCCTCTGGTGGATCAGGTAACCAAACAGAATCATCTTTCGTTGCTGAGGAAGCCATCACTGTTCGAGCTTGGCAGGTTTTAGATCTGCTCAAATG
ACAGCTTGCTAGGATTTTTCTTTGTAAGGTTGTTTTTTCTGGTCTTTTTAATGAAATGTTTTATTTGAAAATTGTTTTTTCAAAGATATAACTTCATTGT
GGAATTTGAGTTTTGTTTTGTTGTTTTGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCGCTGCAACCTCCACCTC
CCGGKTTCAAGCAATTCTTGTGCCTCAGCCTCCCGAATAGCTGGGATCACAGGCGCCCGCCTCCACACCTGGCTAATTTTTGTATTTTTAGTAGGGATGA
GGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCACCCACCTTGGCCTCCCAAACTGCTGGGATTACAGGCGTGAGCCACCA
TGCCTGGCCCTGAGTTATTTTTTATTTTTTATTTTTTAAACTGCTCAAAAGACAGACATGATATAAGCTGTCATGGTTAATGTATTCATTTGTTTTAACT
GGGCCTCACTGAGAACGYGTCAGAGCATGGCTGTCCTCTGGAGCAAAGAGCTCCTCTGAGATGTTCTGCTGGAGAGAAAGGGGCGATGATAAAGGGTATG
AGATTCCATTTGAGTTCTAGAAGGCAATACATTTGCCCTAGAGAGTATTAGAATAATGCCTGGTTTTTGAACCTGCTAATATCATGAAAGATAGTAAAAT
ATTTGTATGTTGGAYATTTTTTCAAACAGAAGAAAGAAATGAGACTTGTTGTTCAAAGTCTTTGTCTTACTCTTCCTAGCTGGAAAACAGGCTTGGGGGA
GAAGAGAAATTCCAGGAACGGGTGACAAAGCACCTGATACCATGCATCGCACAGTTTTCRGTGGCCATGGCGGATGACTCTCTTTGGAAACCACTGAACT
ACCAGATTCTGCTAAAGACGAGAGACTCCTYGCCTAAGGTTAGGAACTGCGTGACAAGTACTGAAACTGCATCTTTTCACTGCATAGCCTAAACAGCCTG
CAGGTGGTCACAGATGTAGGCCCCCTAGTAAACTGGCAGGGAAGAACATTGCTATTTGTCATCCAGTACTAGAGGTCYGGTCTTTTGTATTAGGCAGAAA
TTTGTGCCTAAGAAAATTTTGTTTTTTACTTAYAGGCTATTTGTAAAGAATAGCAATGCCCTATCCCCACCCCAATGGTGCGTTGGGCAGAAGTACTAAA
ATACTTTCTAAATACTTTTAAATAACAAAGATTTGAAGTAATTCCTTCTTTTTTAAGTGCYATTGAAATGTCATTGTGCTCCAGAGAGAAATGCATTGAA
TTTATCCACACTATAGTCTTTTGAGTTAGAGCAATACATTCTGTTGTTTATAGATACTAGGCTTATGATCTTGYTGAGYAAGTGGTGGCAGTGGAAATAA
AACATGGGTAGGTTGAGTGGAAGTCAAAATTTGACACCCAAGTGTTACRAATTTCAAACTGTTTTAGCAATGAGTCACCATTTCTCAAACTAATGATTGT
ATTAGAACTTTACTGGCTATAACAGACCAAAGCAGAATTTTATTAATAGGATTTATTAGTTCAAATTCTTTATTAGGATATGCTAACAATGAGACTATTA
TGATGAMCCCCCACATTTTAAACCATAGGTTTTTATACAAGTAGCAGTATCAAATTTATTGTAATATTTTACTTTGCACAAATCAAGGAAATCCTGATTG
AATCTAGGTAGTTACAAATGGTTTTTTAATAATTCACTTTGTACTGTCCAGATATTCTTTAATTAAAATATCCAAAATTAGAAGACCAGTAGGGCTTTTG
TTTCAAAAGCTAACAATACCCAACTACTGCTTGCTTTCCTTATTATAGACAAGGCATGTGAGGAACACCTAGACGTTTTTAAAGCCCCAAAACTAGGATA
TTGTGACACAGAATGTTTTTTATTCAGTGCTGAGATGGGAGTTTATCCCAAGCGAYTGTCCTGGCCCCTCATACAAYTATAGTGGTGACCAGTCAGGGGC
TGTGGGTGAGGAGACCTGCCAGAGGTGGCTGGAGGCACTTTATTGCCAGCCTGGCGGGCTGGCGAGCGCCAATGAAGTAAAATCTGGTGACACACTTGAG
TTTGCATGYGGCATTTTATTTTATTGGTTTTTTTTAAAGGAAGAGATTATAAAAAGACATTTCACATTAAAGATTTGCAGTCCTGGGACACAGTTTGGAA
AACACTATTTATAAGGTTGCACATATTACAAACAGCTCCCAAATGGTGAAACTGGTATTCTAAGATGAAAGCTTAATGAACATAATGAAGTGAATAAACG
CRTGTGAACTAATGTTTAAAAAGTTAGAGCYTGTCTCAAGTCAGTACAGCTCTTAAGATAATAAATACAGTAACACTACTTTTTATTTCTTTGCTCTTTT
ATYCCTTTCAGGTTCGATTTGCTGCTTTGATTACTGTGTTAGCACTGGCTGAAAAACTAAAGGAGAATTATATTGTCTTGCTACCAGAATCCATTCCYTT
CTTAGCAGAGTTGATGGAAGGTAATTCCCAAACTATTCCCAACCATTAAACAATTAAGGAATAATTCAGTAAAATTCTGTGAAAATGTGCCCAATGATAA
TGCAGATTTKGATATAACGTGACTAGCAGTTGATCCAGTCCTCATACAGGCAGCTCCAGTCTCAAATACAGGCAGGCTCGAGCTCCTGTTTTGAGTTGGG
TGGAGGGAGCAAGTTGCGAAGTGACCACCTCCTGATCATTTGAGAGTCCGTTTACAGTGTAATCTTCACGATCTTTTCTTTTGTGGTGGTTTGTGATCAT
ACAAGCAGATTACAGTAGTGTTTTTAATTAACCTCATACATTTATATGATTGAAGTTTTGGTCCCCAGATTGTATGGAAATGCCTAGTGGCATTAAGGAT
GCRGTAGGATGTCCACTTTTAGTAGCAACCGATGTTCATTCACTACTCCATGTTAGGTGCTTTACTTGGATTATCTCACTTAAAAACCACAACATTTTAT
CTCTGTTTTACAAAGGAAGAAACTAGAGGCTTAAAAGATTTCAGTTATTTGACAAAGATCACAAGCTAGTGRGTGTGACATGGGGAGCTGTGACAGTTCT
GGAACATAGAGTCTTAGGCCCAGGAAATAACAGTAAATGTTATTATTAAGGGAGGGGTGGTGGAGCAAGTAGATCAGTCCTTTACTGATTCATTGCTTAT
CTAAGCTACAAAAGTACATTCTCCTTTGTTTCTTAGCTCTTGGAGGGGGGAGGTGTGAGCTACTAAAGGGGTGGCATCCCTAGGAAGTTTGAGTTTTGGG
GATTCTTATTCAGCTTCCAGTGCAAGCCTGTGGGCAAGGAATGAAGGCGGAAGGAGCGGTGTGGAGGGAGGCGGTCCGTGGCGCCTCCTGCTTTGTTAAT
GTGCTTCATTTCACTCTTTTGATTGAATGATTGCYGGAAAGTGCAAGGCATTAAGAATTAAACTAATGAGAACCGAGGCAGGCRGACTGACTCAGATTTT
AATTTTGATTTTTTTTTTTTTTTTTTAGATGAATGTGAAGAAGTAGAACATCAGTGCCAAAAGACTATTCAGCAACTGSAAACTGTCCTGGGAGAGCCAC
TCCAGAGCTATTTCTAAGACTTTCTGTGGTGTTTCATACTCTACTCAGAGTTCACACTCATATTTCATATTTTTATTTTTGGGTGTTGGGTGCCATGTTA
CTTTTGGTGCCTTAATACACCTACTTGGATTACTTACAAATGTTTTATCACTTCKTTACAAAATCCCCACCTGGCTTGTGCTGCCACATAAGCCTCTCCT
GCCTATCGTATAGAGCTGCAGAAAGAGTAAATGATACACGGTATTTTTATACAGACTGCTGTGTTTGTTTAAACATTTATTATTCTCTTCCTGATTGATG
GTAATAATATTAGACTTGTTAATTTTAGCACCCAAAGCTGACGCCTCATTTGCACTGTAAGCCTTAACTCTTCTGTACAGCAGTATCTTAYATACATGGT
ATCCATGTTGCAGATTTCACTCAAAGTTGCTCTATTTCAAGAAAATGAAGTTATTTAGCAATCAACAGAAGTACTTTTGACTGTAAAGCCTACTTTTCAT
TTTGGGTAGGCGAACTTCAGCCTTCGTTTCTTTGTTGTGCCCATAAAGAGAAGTGGTTCTKGAATGCTTTTTTTAACCCAGGAGTGTGACTGTCACCTTT
ATCCTTTGTTCTTTTGGGAAACGGGAGAGATGAAGGCAACACGCTGCTTCTAAAACAGCTCAYACCTGGCTGCTCACACAGAGGGCCCAGAAACACTGGG
TGGCACGAGGAAGCTCCTCCAGGATTCAGAATGAACCCAGTTCCATTGGTGGTTAACTAAGAACTACTTGTCTAAGAAAGTAAGTATCAGTAGATTTTTT
TCAATGCTTTGAAGTGCCCTAATCTCTAGTACTGGGTCATGGTGAAGTTGGAAAGTGAGGGTTCAAATAAAATTAGATCTGCCCCCTTTTTAAAGGCATC
TAAGAACATCCCGTAGAATGTTCGCATTGAGWTTAAAAGCCTTTGAAGCTAATATAGAAGTTTAATGCAGAAATGTGGCAAGCAAAAGGCCAACTTGCAT
TTTAGAGACAGAGCTTGCTAGTATAGAAGTGCATATTTCTAAGAAATGTCTCAGTAAAATTCATTAATAAATACTAATAGCTTTTTAAATTTTTTTCCTC
CACGTAAAATGAAAATGAACTTAAGACTTACAAGGAATGATGTGAGTGGGCTATTTTTTTCCTAAATGCCTCACAGTCTCCAACAGCTCAGTTAAGCACT
CTGATGGTCTTTATGGAGAAAAATAACTCTGGGGGATTCTCGAGTCTTCTTGCCTTCTACAGCTTTCCCTGTGGCACCCTCCACCCCCAACCAGTGTCTT
TGAGCTTGGTGAGACTCTGCATACATTAATATGAAAAGCTGGAAAAGAATTAAGGGCTAGCRATTTCTACACTGAGTACTTTTAAAAAAATAAGATTGAC
AATGGTATTCTTTTCAATATATGGATAGAAATAATATCTAAAATCTGTTCTGAAAATATTCCTAAATCCTGGCAGAGTTCTGCCCCAGTCTAATGTGATA
AAATGATCCTCACTGACTGAGCTTTTTTCCCTCCCCACTCCCAAACCTTTGAAATTTCCTGTAACAAGATCTGACCTGTAAAGATCCCATATACATGGAA
CTTCTGCCAACTCCCCTCAAATAATAGAAAAATCACAGAAATGGAACCATTTAACTTGCTGATACAGGTTTGATTTTAATCACGTAAAGTGGAAGAGTGC
TTTGATCTCAGTTGCTAATGATGATGGACTAATCTTTAGAAGAACGGAGGCCTTGATTGGTGATTTCATGGGAACAAAACAGATTTCTGCATTACCTCTG
CCTGCTTTGTGGGTCCCTTAGTTGGCGTACACTTTCTGATAGTGCCTGCCTTATGAATGCCTGAAGTCTAATCCTGACCTTACTTTGTTGCCCATAAATA
TCTTTCAAATTGAATGCATCTTGCCTCTTCCTGAAACTTTCTGTAGGCGTCTGTGTAGACTCTGATTTGCCCTAAGTTCAAATACACAGAAATCAGCTGC
CTTGGGCTTGGCATCAAGTTAATTTCAGCACCATGTATTTGTTTTGCTTTGGTTTTTTGCCTTAATTTCTGTGCTCAGATGTCATGCCAATTACTTGGTA
AAGCTTGCAGCTAATAGAGCCACATGTTTATTACGATAAAGAAAATGATGTCAGTCAACATCAGTCCTCAGTGATGGGATACGGTAGAGCACTGGTTATG
ACAGTGATCACTGGGGAAGGAGTTGTGTCTTCTGTAAGTTAGTGTCTTCGGGTGATTTAATATCTGCATAACTAATCCCAGAGGACCCCTTAGGAGTTGA
TGTAATGCCTGTAGAAAAAGCAGTGCGCAGCAGTAGCGCACAGAAGAGTCGAAGCTCAAGAGAACAGGGAACATACTGGTTTGTTTCACCAAGTATATAT
CCTAGCTCTTCACAGTTTTACCAAAAAAAATCTGTGCTCAATACATGTTAGCTACTGTATTATAGTAGGTACTCCATAAATACTTGTTGAATGGCATTCT
TGAAGAGTCAGCCAAAGTAGGAGAGAGGGCAGAGTGGCTTTAACTGGCTATAAGTGTTGCTGCCCCCAGTTTCCCCATTCAGTGCTAGACACCACCATAC
TTCATGGCAAGGACTGAGAACACCCAGCAGGAYCTAATGGTGCACAAGCTCATTTTAACAATATAAACAATAGAATGACAGTGAGATGCGTTTCAGCAAG
GCCAGTATCACAGAAGCCATTCTGTATTTTGGTTTTTGTAGCAGCTGTGTAGGTAGGCTACCAGCTCCTTACTTCCAGTAAGTGGATGTCTCCATTAATT
TCCAGCGTGTCAATACTGCTGAGCTCTTTAAATCTGTGTTTGTACTCCAGGCTGTGTACGCCATTTACTGCAACCTTGAATTCTCTAACATCACARTAAA
TTATCATCTGAAAGGAAAGGAWACATGCCATTAGTGGTTCCCCTTAGTTTAAAATTTTGTGTTTGTTACATGCTAACGGTGTCAGAGTAAACCATTTGAT
TATACATAGAAAAGTTCCAGCCTGCTGCTGCTGACTTCCTTCTGACTTCCAAGACCCTAATCTAACTAAAGTGTCCCTGGTGGTGGCACTGTCTGCCTCA
TCCCACCCAGGGAAGTGACTCGGACATGTTTGGAGCCTCACACCATCCCCAGGGCCTGCGGCCCTCCTTTCCTCAACACAGCCCCTCTCCCTCGGCCGCA
TCCTGCCCCTTGCTCCTGGAAAGCCAGAGTGCTGCCCCTCCTCGCCGATGCTGGGGACTCTCCTAAAGCAGGAAAACTCACTCCTAATATGGTTGCTTTA
GTTCACCGAGATGCTGTTTCCAGCTGTAGCCTGGAACCAAGGGACTTGGATCCTGACTGACTTTTCTGCCTCAAACTCTAGGACCATGAACAAACCAGAC
AATTAATATGAAATTTCAGCAGCTTAAGGCACTTGCTAGGGTTTTTACAGCTGCTTGGTGATCCTGATCCTGATAAGCTCAGCACATCTTGGCCTCAGTG
TGTTTGTCCAAAGCCGTCAAAGCTGGGTATCCCGTAAGTTGGAAGTGGTGCACATACTACAAATTCATTGATCCATCGGCAGTGTTCGCCCTTCACAGTC
ATCTATGCCCAAAACTCAAACAATGAAAAACCAAAAAACCTACTAGCCTTTTACATCACCTTTACACCTACACTTCATACTTCTGGTGCCACGCTGCCAG
TGCCAGGCTGGGTTTCCACCCACTCTGAGAAGGCCACTGGGAGGCCCTGCACTGAGCTCTCCCTGTGCTCCTCGCCCCCATGAAGGCTTCAGAAGAAAGA
GGGGCAGCTCAGCCTTGCTGCTAACCCGGCCCCAMCCCGAGAGGCCAGAATGAAGCACAAAACCTGAATCTGCAAAGCAGCAAGTTGAGGGTTTCCATTC
TTTTGATAGGAGCAGTGGAAAGGACTGTCAAGGAAAATCAGGAAGGGGAGGAAATTTCAGCCCAAGTCCTGCACTCTGATAACAGCTGGCCAAGATGAAG
CTTCTGTGGCTACAGAGGATTGGGGAAATAGGTGTAACCTGAGATTCTATCCCCACAAGAATGGTGGGAATCCCAGTTCCAACCAGGTAGAAGGGACCCC
AGATATATTTAACAAAATCTCAAGAAAACACAAAACACACAGCCTGATGCTATAGCTCAGAAGGAAAACCAAGTTGGCAGCAGAGGGAGTCAATTAGTTA
CCTGTACTGTATCAGAGCAAGTGCAAAGCCAGTGAATTACAAGCAAGTGGCAAAGAAATGACATGCTTCCGGGTGAGCAGACTACTGCAAATGAAAAGAA
GGCACATCCTTTGCCTAGAAGAAAACAGAACAACAGAATCCCTCACAACCATCTGATGCTGCCGAACAGCTGGAACACGGATTTCATCCAGAGGAAGAGC
CCACAGATGAAATTACAACACTGAATGAGATTGTTTTTAAAAAACTGTAGATACAACTAAAGTGTATTTGAAAGAGCAAGAAGATTTAAAATGAAAGTAA
TGGCATAATGGAAAGACCTGAGATAATCTCAATGCAAGCATATTTAAAAGGCAAGAGATGGAAGCCCCCGGAAAGGACCTATCAGTATAGAAAATCGTCA
GCAGTGATCAACACAAGGATAATTACTGCTCCTGAATTAGAAAATTAAATGGAAAAGACGATTGTTCAAAAGCATATAACATTCATCTATTCATTCCTTC
AGCCAGCCATCCCTTTCACTGTCTCTGCAAAAAAATGCCTGGAATGTGGTTCACCTAATCCTAATGGTATGGTTTGAATTATGAAGTTGGAGGTATTTTC
ATCTTAGTATTTTTCAGCATTATTTGAATGTATCATTATTATCCTTTTTTATATTAATATAGCAGATCCAAACTTGGGGCCCAGATAGGTCAAAAACAAG
TTACATCATTGGTTTCCTGTCACCCACCACAAGGCTCAACTTCCTTCTAGAGCACTCACCTCTGTTTCCCTCCAGTGAACCCCAAGTCACCCTTTGCGCC
TTGACTCTTGCCAAGCTAACAACCCTGTGCTGCCCTTCCCACCTCTAAGGACTTGTTCAAATCATGCCCTAAATCTAGAAAAGCCAACCTTCAGCCTTCC
ACATCCTTCCCAGCTTTCTGAATTCCAAACCAATATCCACAACTTCAGGGAACCTTCCATGATTAGCCCACATCTGTCTACACTCCACATACCAGGGCAC
TGCATTAGACTGGAACTTAGGGATAAATATGAATGTCACATTGCTATCTATTCCGCCTGATATTCATGCTTTTAGTAACGAGTTTTGATGAGTCCTCAAG
AACCCACATGGTCCAGACAATGTGTCAGTTTAAAATGCTGTAGAATGATAACCTAAACCAATGACCCTAAGTGACTGTGTGAGGCAGTGGCACCTGAGCT
GGTGATTGAGGCTGGCCAAACACCCGGCATCCGCATCACAAGGAGACTATTCTCTGCTCAGCATCCCAGAAACATATTTCGGGAAAGGTATGTGTTACAA
TATTCACCTATCTGGGGACTCAGGACTGCATGCCTTTTAGTTCCAAGGGACTGATGTATTTTTCCTTGAATACATACAAACAAGACTAACTCCTTAGGAG
AAAGGACTGCCACCTGAAACCGTCTACCCTGATGGGAGATGATGGCCAGTGCAAGCAAGCAGTTTTAGGGTCTCCACGTCCTCAAGTCTGCTTATATGAT
TAAATGTGTGACTCCAGTCCTGAGACAAGCTTCCTGGTTAAATTCCTATCAATATGGGGCTACACAGGAATTTTAATATGATGACAAATGTCAATTCCAA
TGTGCATAATTTGACACTCTACTGGCTTTGCCATTTATACTGATTGCCCACGTTATAAAAAGGGGCAAATTACAATCTCCAAGTAAACAAAAAACATACA
CAACTTCCACATACTGAGTTAGGACTTGATTTAAATGGACCACTTATCCCACCCCTGCTCCCAGGATTCTTATTGCTGTCCCATTTTCAAAAACTGTAAC
CTCACCTCAAAGTACATCCCAGGACTAAATGGGAAAGAGGTAATATTTCTCTCTTCTTCTCCCCAGGACTCCTGAAGAAAAGAATTTCTTACAAATGCTT
TAATATTCAGGCGTGGGTTCAAGTGTAGAGCAATATCCTTTGATTTTCCTGCTAGTAGGTCAACATTAAAGCTTTTGAGAAAGRAAGAAAAAAAAAAACC
TTAATTAACCAAGTAGGACAGAGTAGTGGCAATTTCAGCAATGTTAGTGACCAGACTTGAACTATGATTCTAACTCTATGAAACACACGTATCCACATGG
ACATGGGAATGCAGGTGAAGTTGAAATTTTAAACCCAGTCAGCATTCCACTAATTCGTTACTTGCAAAATAAAAATACGAAAAAAAAAACCCTTTAAAAT
CAGCGTTGAGGCTGAGATGTGGTTGGACAGAAATGGAAGGTTTAACGCTAAACTGAATGACTACTTCAGGCTGCAGGAGCCTGGGATCCTCTCAAGCAGG
TATTCTCTTTTCATCATCTACCCGTGTTCCTTCCTTCTTGAAAGTATGCCACTTTCTAGGAAATAGCTCTAATTTCAAGCTTTCAGAAGGCTGGACGTCT
GTGGAAAAAGTTGTTAAAGCAGAAATTTTCTAAATCACATGACAAGAGGGGCCCTAAAAAATGTTGCCTGGGCTGGGCGTGGYGACTCACACCTGTAATC
CCAGCACTGGGAGGGCGAAGTGGGCGGATCACTTGAGGTCAGGAGTTCCAGACCAGCCTGGCCAACATGGTGAACCCCTGTCTCTACTAAAAATACAAAA
ATTCAAAAAGTAGCTGGGCGTGGTGGTGCGCCTGTAATCCCAGCTACTCCAGAGGCTGAGGTAGGAGAATGGCTTGAACACCCAGGAAGCGGAGGTTGTG
GTGTGCTGGGATTGTGACACTGCACTCCAGCCTGGGTGACACAGTGAGGCTCCATCTCAAAAAAAAAAAAGAAAAGATGTTGCCTGATCTTACGGGGCTG
CTCTGGAGTTCTACAAGGCAAGGATAGGCCTCGTGGACAAAAATGCTACTCTCTTGTCTGGCCAGAAAAAGCCGAGGTCAGAACACGGCCTTAGTCGGCT
CTGCTGCCCACTGGCTGTTCACAATCTAACCACCTCCTGCTTGAATCATCTCACTTTGGAAATGAAGATTCTGACRCTAGCCCTTCTTCCAGCTCACAGG
ACCGTTCACGGGTGGAAGGCGGTAACAGGCACGGAAGTATCTGCACTGTGACTGGTACCGAAGGATACTGACCTTTTGGCATTTGCATTCACTTCTCCTT
TAACGACGACAGTTCGTCCAGGGCCCATGGGGGTGTTCAACCTTGCAGCGAATGGCAGSCTCTGAAAAGAAGSCACAGTCAGGACCAAGAGGCCTGCAGA
AAGCGATCTCCAGGGAAAACTCGTGTCCAAAGAACACTACGGAATGTTTCAGAGCCATGACCCTGTAAATCCCASGAGGGGAGAGACAGTCTGCCTTGGT
CCCAGCTGGGTCCCCTGCAGCAGCACTGTCCCTGGCTCGAAGCAAACACACATGATTACATTTTAGACGATGAAATGAGTGACAGGGTGGGACCCGATGC
CCTCTGTATGAGTGAAACACGCCAGGAAGGCCCCCTGTGCCTGGGGTCTGAGGCAGTACTGTGTTCTGCCTGAAGGGGAAGCAGCCAAGCAGGGAGGTGC
TGAGGAAATACACAGGAATGGCTCAGAGGCAGGCCTGGTTGACTCTCGAATCCGTCCAGGGACGGCACACAAATGCAGAGGGGGCTGCTTTGGGCCTCTA
TTG


SNP Information

Context             (SEQ ID NO:4043):
TATGACAATTTGGGGTACATTTGTATGGGTATGTGAAGAGCTCCAGAAGGAAATTTGCCACTTTTTTCCCTTGTGTGGAAAATTTTACAGAGATAACCTT
M
TACAGTTTGCCTAGTTGCCTGAAGTACGGCTCTGAGGCAGGAATAGAATAATTGGAGAAAGGTACAATAATTTGTACATAACTATGAACGTGATACTTAT
Celera SNP ID:            hCV27150315
SNP Position Genomic:     18645
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4044):
TTTAAGTCACAGTCTCAGTAATTTTTAAGATTTTATGTCTTTCCTTTATATGTGTATGGTGTATGAGATTAATAAATTTATTAAGAATAATGAATTCACT
Y
TTTAATTGCTTCCCAGATACCCCAGAACATTAGATGTTGTATTAGAGGAACACTTAAAGGAAATTGCAGATCTGAAAAAACAAGAGCTTTTCCATCAGTT
Celera SNP ID:            hCV27150316
SNP Position Genomic:     18388
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4045):
AAGTACTTCCTGTTCTATAAAGATATGATTCACAAGTCACATCTTAATATACTGAATTGTACAGAGACTGTCCTTTTTAAATTTGTTCTTCAAGAAGGGG
Y
GAGTATCGGAATCAAAAATATTTGAAATATAAGAGGAAATAGTGGTTGTGTGGGGGCTATGGAGAGTATAATTTTTTATAGAGAGACTATTTTGTTATTG
Celera SNP ID:            hCV27150317
SNP Position Genomic:     18125
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4046):
ATTTCATATAGTTCACAGGAAGAAATGGATTCTAATAAAGTGTCTTTGCTTAATGAACAATTTCTTCCACTCATTAGGCTTTTAGAAAGCAAGTAAGTTA
Y
GTGTGTATGTTTATGCTCTTCTAAAGTACTTCCTGTTCTATAAAGATATGATTCACAAGTCACATCTTAATATACTGAATTGTACAGAGACTGTCCTTTT
Celera SNP ID:            hCV27150318
SNP Position Genomic:     18001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4047):
ACATTCACTCTGCCCATAGCATCAAAATTATTCTTCCTCTAATCTACCTTGGATCTTGCTGCTCCCTAGGCACTCTTATTGCAGGTAGCCAAACTCCACT
Y
ACCTACTAAAGTTCACTTAAAATTCTCCTTTCATTTATTTAATCAGTATTTATGGAGCATCTATTACATACCATGTACAACGCTAGATGGTGGGAATAGT
Celera SNP ID:            hCV16188406
SNP Position Genomic:     12038
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4048):
ATCTTCATTCTTCTTGAGGCACAACCCAAATCCTGTGTGATTTGTGCAGCCTTCCCAGGCAGTCTAAGCAGACTTGCTATCAGTGTCACATATTTGGCAT
S
TGCCATTACTGCCTCCTGTTATCTTTTCACACATGTATTGTTTCTTTTGTTTGTTTGAGACAGAGTTTTGCTCTTGTTGCCCAGGCTAGAGTGCAATGGC
Celera SNP ID:            hCV16117098
SNP Position Genomic:     42749
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4049):
AAAGTACTGGGATTACAGGCGTGAGCCAGCACCATTTAAAATAGCAATGTAGTCTTACTATGTTGTTCAGACAGGTCTCGAACTCCTGACCTTAAGCAGT
Y
CTCCTGCCCCGGCCTCCGAAAGTGCTGGGATTATAATGCCAGTGGTGTGAACCACTACACCAGGCCTCTAGTTTCTTTATCTGTAAAATAAGTATTAAAC
Celera SNP ID:            hCV27150319
SNP Position Genomic:     17663
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4050):
CTGGGTCATGGTGAAGTTGGAAAGTGAGGGTTCAAATAAAATTAGATCTGCCCCCTTTTTAAAGGCATCTAAGAACATCCCGTAGAATGTTCGCATTGAG
W
TTAAAAGCCTTTGAAGCTAATATAGAAGTTTAATGCAGAAATGTGGCAAGCAAAAGGCCAACTTGCATTTTAGAGACAGAGCTTGCTAGTATAGAAGTGC
Celera SNP ID:            hCV7540505
SNP Position Genomic:     60532
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:4051):
GGGCAACAGAGTGAGACCCTGTCTCTTAAAGAAATAATAATAAAAATAATTAATCTTCAAACAGAAAGATGCAGCCTTCCCGTTTATCTTCAGATGCACT
R
CTTTGCAGTGTTAATCGTCCTCCATTCTTCCTTCCTTTTGTCTAGTATAGTCAAAAAGCAGTGGGTGAAGGTTCTTGGCAGAGGGGCCCACCCAGTTAGG
Celera SNP ID:            hCV16117099
SNP Position Genomic:     52638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4052):
GCTTTCCCTGTGGCACCCTCCACCCCCAACCAGTGTCTTTGAGCTTGGTGAGACTCTGCATACATTAATATGAAAAGCTGGAAAAGAATTAAGGGCTAGC
R
ATTTCTACACTGAGTACTTTTAAAAAAATAAGATTGACAATGGTATTCTTTTCAATATATGGATAGAAATAATATCTAAAATCTGTTCTGAAAATATTCC
Celera SNP ID:            hCV7540506
SNP Position Genomic:     60962
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:4053):
GTGGTGGCATGCACCTGTAACACCAGCACTTTGGGAGGCTGAGGTGGGATTATTTGAGGCCAGGAGTTTGAGAACAGCCCGGTCAACATAGCAAAACCCC
R
TCTCTACAAAAATTTTTAAAAAGTGGTGGTGGGGTCCTGGGATGTCCCAGCTTCTTCGGAGGCTGGGGCAGGAGGATCTCTTTGAGCTCAGGAGATCCAG
Celera SNP ID:            hCV11682504
SNP Position Genomic:     43346
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,17)      total(G,17|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4054):
TACCGTTCTAATGACGTCTTCTTTAAAAATTAGGTAGTTGAGAGTGGTGGTCCTGAGATTTTAAAAGGCCTTGAAGAGAGGTATGTTTCCTTTTCTTTTT
Y
TACTTTTTATTTGGAAATGACTTCAAACTTATAGAAAACCTGGAAAAACAGTACAGAAAATTCATATACTCTTTACAACCAGGTTCACCATTTGATAATA
Celera SNP ID:            hCV624411
SNP Position Genomic:     49315
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,11)   caucasian(C,3|T,25)   total(C,20|T,36)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:4055):
AAAAAAAAAAAAAATCGATAAAGGCCAGGCGAGGTGGCTTACACCTATAGTCTCAGCACTTTGGGAGGCTAAGGCAGGAGGATCACTTGAGGCCAAGAGT
W
CAAGACCAGCTTGGACAACGTGATGAGATCCTGCCTCTACAAAAAATACAAAAATTAGCTGGGCGTGATGGTGCGTGCCTGTAGTCCCAGCTACTCAGTT
Celera SNP ID:            hCV7540435
SNP Position Genomic:     29776
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;TFBS


Context             (SEQ ID NO:4056):
GATTAAATTGTAATGTCAGAAAACAGTTGCTGTGGAAGGTTTCAGTGAATGGTCCGAGTTTCATTGAACTGACTTGAAATGACTTTTATTATTGACTTCC
M
TACCGTTCTAATGACGTCTTCTTTAAAAATTAGGTAGTTGAGAGTGGTGGTCCTGAGATTTTAAAAGGCCTTGAAGAGAGGTATGTTTCCTTTTCTTTTT
Celera SNP ID:            hCV624412
SNP Position Genomic:     49214
SNP Source:               Applera
Population(Allele,Count): african american(A,13|C,17)   caucasian(A,26|C,6)   total(A,39|C,23)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:4057):
ACAAAAATTTTTAAAAAGTGGTGGTGGGGTCCTGGGATGTCCCAGCTTCTTCGGAGGCTGGGGCAGGAGGATCTCTTTGAGCTCAGGAGATCCAGGCTGC
R
GTGAGATATGATCACATCACTGCACTTCAGCCTGGGCCATGGAGAAAGACCCTGTCTCTAAAAAAATAAATAAAATTCTTCTGGCAATTTCTTGGGGCCC
Celera SNP ID:            hCV11682507
SNP Position Genomic:     43452
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:4058):
TGTATTTTTCTGAACCATTGTAGTACTTTTTAGATACTACCAGTAGAATGTAATTAAAATAAATTAAGAGAAATAGAGTTACTACAGTATAATGAAGATG
M
TATGAACCTGATTAAATTGTAATGTCAGAAAACAGTTGCTGTGGAAGGTTTCAGTGAATGGTCCGAGTTTCATTGAACTGACTTGAAATGACTTTTATTA
Celera SNP ID:            hCV624413
SNP Position Genomic:     49104
SNP Source:               dbSNP
Population(Allele,Count): (C,-|A,-)   Caucasian(A,25|C,53)   total(A,25|C,53)no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4059):
ACCAGCTCAGCATGTCATAGAATTCGGTAGTGCTAATTGAGTGTTGATTGCTGTATTTTTCTGAACCATTGTAGTACTTTTTAGATACTACCAGTAGAAT
R
TAATTAAAATAAATTAAGAGAAATAGAGTTACTACAGTATAATGAAGATGATATGAACCTGATTAAATTGTAATGTCAGAAAACAGTTGCTGTGGAAGGT
Celera SNP ID:            hCV624414
SNP Position Genomic:     49053
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,16)      total(G,16|A,6) ;no_pop(G,-|A,-)   (G,-|A,-)   Caucasian(G,20|A,56)   African-American(G,35|A,35)   Asians(G,32|A,46)   total(G,87|A,137) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4060):
CCCAGCTTCTTCGGAGGCTGGGGCAGGAGGATCTCTTTGAGCTCAGGAGATCCAGGCTGCGGTGAGATATGATCACATCACTGCACTTCAGCCTGGGCCA
Y
GGAGAAAGACCCTGTCTCTAAAAAAATAAATAAAATTCTTCTGGCAATTTCTTGGGGCCCATCTAAAAGCCTTATCTTGTTCACCTAAACTTGTTTTGTG
Celera SNP ID:            hCV11682508
SNP Position Genomic:     43492
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:4061):
TTAATGTACAATGTCATTTAGCCTCCAGTAAGCAGGAAATGTGATTAAATGTGATACCCATCAAATTGGCAAAACTGTTGAAGTCGTTAGTACCAGGGAT
K
GGGTACGTAGTGGCAGACAGTGTGATTGTTCCAACCACTTTAGAAAGCAATTGGCAGGATCCCATGAGGTTGAAAGTTCCAGTAATTCCTGTGATCTGGT
Celera SNP ID:            hCV624415
SNP Position Genomic:     48443
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|T,12)      total(G,1|T,12) ;no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4062):
CAGGGTCTCGCTCTATTACCCAGGCTGATGTCAAATTCCTGGCCTCAAGCGATCCTCCCAACTCGAGTTCCCATAGTGCTGGGATTACAGGCATGAGCCA
Y
CATGCCCAGCCTTTCTTTACCTGGATATAGTGAGTTCTGCATGTATGATTTGTATACATCTCTGTTTGTGTATTAAACTTGTTTAAACAATGAGAGAAAA
Celera SNP ID:            hCV11682509
SNP Position Genomic:     46671
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,13)      total(C,1|T,13) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4063):
GGTTCAGATATATGGCTGCTTATTAGCTCTTGAGGATTTGTTTAAATGATGGGGTCTTGCTATGTTATCCAGGCTGGCCTCAAACTCCTGGGCTTAAGCA
R
TCCTCCCACCTCAGCCTCCAGAGTAGCTGGGATTATAGACATGCACCACTGTGCCTGACTAACTTAATTTTTGTGAATTCTGTGAATTTTCATTTTTCTC
Celera SNP ID:            hCV624416
SNP Position Genomic:     21626
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:4064):
GAAGATGTCCTTGGTTTTTTTTTGTTTTGTTTCTTGTTGTTTTTTTTTTAATTCCAAAATTACTCTTTGTAAATGTTCTGTGAAAGCAAGTTAGATGATC
R
TATACTTTTCCCTGAACAATTCCTCAGTGTTTATTTTTTGTTAGTTCTTTGAAAGAGCACATAATTACATTTGTAACCAAATTTTGTTACATTTAAAGTA
Celera SNP ID:            hCV624418
SNP Position Genomic:     30639
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4065):
GGTCAAGGCTGCAGTGAGCTGTGATTGCACCACTGCACTCCAAACTGGGCAACAGAGCAAGACCCTGTCTCAAAAAAAAAAAAAAAAGGGCTGTACATCT
R
TACATATTTCTGGTCACTTCTAAGTATTGCTTTTAAGTTACTGGCACTAGCAAAATCTCACCAAACACAAAAGTTTAATAATAGAAATGGCAGGTGATTA
Celera SNP ID:            hCV16288630
SNP Position Genomic:     30009
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4066):
TTCAGGTTTTTGCTGAGTACCCGGGCAGCTCAGCTCAGTTGAGGGTGCTCTTGGCTTTCTATGCTTCTACCATAGTGTCGGCGCTGGTAGCTGCAGAGGA
Y
GTATCAGACAATATCATCGCCAAACTATTTCCCTATATCCAAAAGGTTGGCACTGCTGATGTGTTAAGTAGATTATTTTGTACTTAAAGGAATTTTCTTG
Celera SNP ID:            hCV2043541
SNP Position Genomic:     13634
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:4067):
AAACTATGTCATTTAAAGAAATCATGTCCCTTTTATGAAAAATATCATTTAAACATTTGTAAAGAGATTGAAGCTATTTTCATATTGAGGATTTGAGTCA
R
AGCTCCTTAACCTGGGGTTCTCCATGAGCTTTAGGGGATCTTAATCTACTGAAATCATATGCAAAGTTTTATCTGTATGGGATTTCTTTTTTTCTTGTAA
Celera SNP ID:            hCV16288635
SNP Position Genomic:     39675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4068):
TGGCTGCGGATGGGGGCGGCATATCGAGGGAGGGTAAGAGTTTTCCGGATATCTGCGGAATCAGGGTTGAAGGAAAGCCTTGGCGCGGTCGCCGCTACTG
K
AATTAGTTGTTAACGCTGCTGCCATCGTCTTTGCATCTCCGGGGTCCACAAATCTCAGGACACCCGCGTTGTGTGTCCATGACGGTGCTGAGTGCAGAAG
Celera SNP ID:            hCV27843082
SNP Position Genomic:     6221
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:4069):
CCAAAGATTTAGTTGTGATGTTAGAACCTTATAAAAAGAGATATCTGGATCCCACCCCATATCTAAAGAATCTCTGGGGCAGTAAATCTGTTTTTGTGCA
W
GTGTGTATATGTCTTATTCCTTCCTAGCTGATTAGAATATACATATCTGATCCGGCACTTGGAAACAATCGGTATGGATGATTCTGTATTGCATTACTAG
Celera SNP ID:            hCV1347750
SNP Position Genomic:     37173
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,13)   total(A,2|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4070):
CCTTAGCCCAGCAGCTGCAACGACTCGCCCTCCCTCAAAGTGATGCCAGCCTCTTATCTAGAGATGAAGTTGCTTCTTTGTTATTTGACCCTAAGGAAGC
R
GCCACAATCGACAGGGACACCGCCTTCGCCATTGGTGAGCCATCTTTTAACTTAGAAAAGCTCTTGGAAGCGTTTGTTTTCTGGATGTTACTGTTTTTTT
Celera SNP ID:            hCV27852989
SNP Position Genomic:     6529
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,38)   total(A,2|G,76)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:4071):
AAGTAAAAAAAAAAATAATTCCTTGGTATTATCTAATACCTAGTTCATAATCATATTTCCATGGTTATCACAAAAGTATTTTTTATAGTTGTTTTCTTTG
W
ATCAGAATCCAAAGATTTAGTTGTGATGTTAGAACCTTATAAAAAGAGATATCTGGATCCCACCCCATATCTAAAGAATCTCTGGGGCAGTAAATCTGTT
Celera SNP ID:            hCV1347751
SNP Position Genomic:     37064
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:4072):
CTTTTGGCATTTGCATTCACTTCTCCTTTAACGACGACAGTTCGTCCAGGGCCCATGGGGGTGTTCAACCTTGCAGCGAATGGCAGCCTCTGAAAAGAAG
S
CACAGTCAGGACCAAGAGGCCTGCAGAAAGCGATCTCCAGGGAAAACTCGTGTCCAAAGAACACTACGGAATGTTTCAGAGCCATGACCCTGTAAATCCC
Celera SNP ID:            hCV25601134
SNP Position Genomic:     66973
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,3)   caucasian(C,40)   total(C,75|G,3)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:4073):
TAATAAATAAATAAAAAGATACTGTGGGTTATTTGGGTTATGACAGTTTATAATGTAAACAAAAGTAGACTTGTAAACAGTGAAGAGTATATAATAGCAC
R
GGCCCTGTAAAAGAGTACAATCACAATACTAATCGGTAGGTTGAATAGAAACTAACATTGCTACACTCCTACTAATATGTTAGGCCCATTACTATATTTA
Celera SNP ID:            hCV1347753
SNP Position Genomic:     28500
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:4074):
GCGGAGATCGCTCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAAATAATAAATAAATAAAAAGATACTGTGGGTTATTTGGGT
W
ATGACAGTTTATAATGTAAACAAAAGTAGACTTGTAAACAGTGAAGAGTATATAATAGCACGGGCCCTGTAAAAGAGTACAATCACAATACTAATCGGTA
Celera SNP ID:            hCV1347754
SNP Position Genomic:     28438
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:4075):
ACAGTCAGGACCAAGAGGCCTGCAGAAAGCGATCTCCAGGGAAAACTCGTGTCCAAAGAACACTACGGAATGTTTCAGAGCCATGACCCTGTAAATCCCA
S
GAGGGGAGAGACAGTCTGCCTTGGTCCCAGCTGGGTCCCCTGCAGCAGCACTGTCCCTGGCTCGAAGCAAACACACATGATTACATTTTAGACGATGAAA
Celera SNP ID:            hCV25601136
SNP Position Genomic:     67075
SNP Source:               Applera
Population(Allele,Count): african american(C,3|G,35)   caucasian(G,20)   total(C,3|G,55)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:4076):
TTCTTGTATTTTCCTTGAAAAAATTTATTTATGCACTGAAAGCTCCTAAATCTTTTCCTAAAGGTAAGATACAAGCTGTGAATCTTTTAAATGTGATACT
S
TGCAAAACTGAATGATTGACTCCACAATGACTGTCTTGAATAAAAAGCTCCCAGCATGTTCATGTAGGATCTAGCATCATTTCTCTTTCCATGTCCTTGT
Celera SNP ID:            hCV1347755
SNP Position Genomic:     27539
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:4077):
TCAGAACCCTTAGTTTGTACTAGTTTTTGTTTCCTTTAACATTTCAGGAAATCCCCTCAGAATGGCACATTGAACTGATGTTAGACAGAGGGATCCCAGT
R
GAGCTGTGGGCACATTATGTAGAAGAGCTCAACAGCACTCAGAGGGTGGCCGTGGAGGACTCGGTTTTTCTTGTATTTTCCTTGAAAAAATTTATTTATG
Celera SNP ID:            hCV1347756
SNP Position Genomic:     27371
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4078):
AACACATAATACCTAGATAGACCTGAGTTGAAAAAATTGTTTTATGAAAATCAAGAGCAACTGGTAATAGAGTGTGTTTATTTTTCAAGGTGGAGGATTT
R
ATAAGCGTGGGTGAGGAGGAGTCCTTTAACCTGAAGCAGAAAGTAACGTTTCATGTGATCCTGTCTGTGCTCGTCTCTTGTTGTTCATCTTTAAAAGAAA
Celera SNP ID:            hCV1347757
SNP Position Genomic:     25310
SNP Source:               Celera;HGBASE;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;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:4079):
CCACCATGCCCAGCTAATTTTGTATATTTAGTAGAGACAAGGTTTCACCATGTTGGTCAGGCTGATCTCGAACTCCTGTCCTCAGGTGATCCGCCCACCT
Y
GGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCAGCACCATTTAAAATAGCAATGTAGTCTTACTATGTTGTTCAGACAGGTCTCGAACTCCTGACCT
Celera SNP ID:            hCV27150320
SNP Position Genomic:     17554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4080):
TACTTAGAAATCAGTGCTTAGTACTTTATAAAGGCTTTCTGTTTGTCATCTCACTTTAAATGTAAAACACATAATACCTAGATAGACCTGAGTTGAAAAA
R
TTGTTTTATGAAAATCAAGAGCAACTGGTAATAGAGTGTGTTTATTTTTCAAGGTGGAGGATTTAATAAGCGTGGGTGAGGAGGAGTCCTTTAACCTGAA
Celera SNP ID:            hCV1347758
SNP Position Genomic:     25245
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:4081):
GGATTACAGGCATGTGCCACCATGCCCAGCTAATTTTGTATATTTAGTAGAGACAAGGTTTCACCATGTTGGTCAGGCTGATCTCGAACTCCTGTCCTCA
K
GTGATCCGCCCACCTTGGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCAGCACCATTTAAAATAGCAATGTAGTCTTACTATGTTGTTCAGACAGGT
Celera SNP ID:            hCV27150321
SNP Position Genomic:     17538
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4082):
TGTGTTTATTTTTCAAGGTGGAGGATTTAATAAGCGTGGGTGAGGAGGAGTCCTTTAACCTGAAGCAGAAAGTAACGTTTCATGTGATCCTGTCTGTGCT
Y
GTCTCTTGTTGTTCATCTTTAAAAGAAACCCACTTTCCATTTGCGATAAGAGTCTTCAGTTTGTTGCAGAAAAAAATAAAGAAGCTTGAAAGTGTCATTA
Celera SNP ID:            hCV27509964
SNP Position Genomic:     25382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:4083):
CATTAACCAGTTGGCAAGTGCAATTATGTTCATTACAGTTTCTGAAATTATTCTTATAATTACTTAGAAATCAGTGCTTAGTACTTTATAAAGGCTTTCT
R
TTTGTCATCTCACTTTAAATGTAAAACACATAATACCTAGATAGACCTGAGTTGAAAAAATTGTTTTATGAAAATCAAGAGCAACTGGTAATAGAGTGTG
Celera SNP ID:            hCV1347759
SNP Position Genomic:     25185
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,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4084):
TTTAATGTATATCTTGTTTTGTCTGTATCATTTCATTAACTATAAGTACTTAATCCAGTAACTGGCAGCATTAAAAGCAAAAGTAATTTTTCTTGCATGT
S
TTTAGTGCTTATAGATGAAAATGGAAAGTTAGTGGTTAAGACAAATTTGGGTAATAACTAAATGCAGTTTGTGGCCGTTTGAAGTTTTCTCTTAGTAAAT
Celera SNP ID:            hCV27150322
SNP Position Genomic:     16694
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4085):
AGACCATTTGTTGGCTAGGTAAGCTATTATTTTTGACATGCTTTTGATTTACATTTTTGTGACTCAGTATAATTTTCAAGATTGGTTAGAAATTTCCCAG
Y
ATTCCTTTTTAATGTATATCTTGTTTTGTCTGTATCATTTCATTAACTATAAGTACTTAATCCAGTAACTGGCAGCATTAAAAGCAAAAGTAATTTTTCT
Celera SNP ID:            hCV27150323
SNP Position Genomic:     16586
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4086):
GTGATCTATACAAAAGAGCTTTAAAAAATATAAATGACTAAATAAGTGGAATGCACTTGTGCAAATAGATAAAAAGCTGGATATCAGTGTGTGTGTTTTA
Y
TCTGAGAACGATTTTCTGCTATAAGTGAATTTAATAATGTTAGCTTGCAAAATAAATTTTTCCCAACACAATTTTAATTTTTACATATTAAGGAGAAGAA
Celera SNP ID:            hCV27150324
SNP Position Genomic:     16308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4087):
AGTCTCTACATGAAAAAGACTGGAATACTTTTAAAATTTATTACTGAGTAAACCTTTGCCTTCTCATTTAGGTATTTAATGAACTTTAGTGATTCATTTA
Y
AATGAATATCTCATCCAGTTGCCAAAAAAGTTTTTTCCCTAGAGTAATTAAAAATATAAGACCAAGAAAATTTTTATACATAAAAATCCAAATTATGAAA
Celera SNP ID:            hCV27150325
SNP Position Genomic:     15325
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4088):
TTGCTTCTTCAAAGGCCATTCCCTCACTTATGTAATGTTCCTGATCTTATTACAATACTTCATGGGATTTCTGAAACTTACGATGTCAGTCCTCTTCTGC
R
TTACATGCTTCCCCATCTGGTCGTCTCCATCATTCATCATGTTACAGGTGTGTGGTTTTATATTTTTTGTCCAGAAATTTTCTAAGATTTGATCTTAAAA
Celera SNP ID:            hCV27150326
SNP Position Genomic:     14928
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:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:4089):
AAAAGGATAAGGATAACTTCAGGGGTTTCAAGAATTTACTAAAGTTGTGAGGAAGATGCTAGGAGTTAATTTACAGACTAAGAAAAGGATGCTTGTATAA
M
AGGAAGGGTCTGGGTAAGAAAAGACAGCATGCTATTGTAGGAAAACCAACTGACTAACCGTTAGCACTTTGTTTGCAACATATGGTGGAGGAAAGTAGAT
Celera SNP ID:            hCV15879404
SNP Position Genomic:     11565
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4090):
GACAGAAGCCAGAGAGCCTTGGGAAAAAGTATGTACAATTGAATTGAGAAATGGTGCTAGTCAGAGGTGAATAAAATTATTTTGAATAATTTTTTTTTGT
R
AGATAAGTGATTATATATTTTCTTATATTGTTACTCATTGTCTAACTTGTAAAGTCAACACGATATGTACTTTTGCTTCTTCAAAGGCCATTCCCTCACT
Celera SNP ID:            hCV27150327
SNP Position Genomic:     14755
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:4091):
CATTAGGCAGTTAATTGTTGTCACATTGTGTATTCATTGTTGCATATGGTAATTCAGGAGAGCTGTAAATATTTATTTGGCCTTTCACTTTTTTTTTTTT
T
GGAGACATGGACTTGCTTTGTCGCCCAGGCTAGAGTACAGTGGTGCCATCATAGTTCATTGAAATCTCAGCCTTGAACTCCTGGCCTCAAGCAATCCTTC
Celera SNP ID:            hCV27150328
SNP Position Genomic:     13389
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4092):
GATTGCCTGAGCTCAGGAGTTGGAGACCAGCCTGGGCAACATGGTGAAACCCCATCTCTACTAAAGTAAAAAAAAAAAATTAGCTGGGCATGGTGGTATG
M
GTTTGTAGTCCCAGCTACTTGGGAGGCGGAGGCAGGAGAATCTTTTAAACTTGGAGGTGGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCACTCCAGCC
Celera SNP ID:            hCV27150329
SNP Position Genomic:     10245
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4093):
TGGCTTTGTAGTACATGTCCTTATCCTTGTAAAAATTTAGATAATACTAGCTAGCTTTTAACAGTACTATGTGTAAAGCACTGTGCTACAGACTGACATG
W
ATTTTTTAATCTTCTAACAACCCTTGCAGGTAGGTATTATTTATTAGCAAACCTGTTTTATAGGTGAGAATAGTGAGATCCAGAAAGGTTAAGTGACTTG
Celera SNP ID:            hCV16094685
SNP Position Genomic:     21992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4094):
TTGAGTTAATCAAATCCCTCACTGGAGACGTTACATTGTAAATCTGGCTTTGGATTATTTTCCTTCTAAGTTATTACTCTGTACTGCTTGTACAGAGTCA
Y
ATTTGTCATTTTCTTACACCTGTTCTGCATTCTTTTGGCACTTACAGTATAATTTCTAAACACCTAACATTTTGCTGCTTGTTTAAAATCATCTGCAGGT
Celera SNP ID:            hCV16094686
SNP Position Genomic:     26505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4095):
CAAGGAATGAAGGCGGAAGGAGCGGTGTGGAGGGAGGCGGTCCGTGGCGCCTCCTGCTTTGTTAATGTGCTTCATTTCACTCTTTTGATTGAATGATTGC
Y
GGAAAGTGCAAGGCATTAAGAATTAAACTAATGAGAACCGAGGCAGGCGGACTGACTCAGATTTTAATTTTGATTTTTTTTTTTTTTTTTTAGATGAATG
Celera SNP ID:            hCV16117100
SNP Position Genomic:     59435
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,1)   caucasian(C,4|T,4)   total(C,5|T,5)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:4096):
AATTAAAAGGATAAGGATAACTTCAGGGGTTTCAAGAATTTACTAAAGTTGTGAGGAAGATGCTAGGAGTTAATTTACAGACTAAGAAAAGGATGCTTGT
R
TAACAGGAAGGGTCTGGGTAAGAAAAGACAGCATGCTATTGTAGGAAAACCAACTGACTAACCGTTAGCACTTTGTTTGCAACATATGGTGGAGGAAAGT
Celera SNP ID:            hCV15901273
SNP Position Genomic:     11561
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4097):
CTCATTAACTGCTCTTCCCAACATTCACTCTGCCCATAGCATCAAAATTATTCTTCCTCTAATCTACCTTGGATCTTGCTGCTCCCTAGGCACTCTTATT
S
CAGGTAGCCAAACTCCACTCACCTACTAAAGTTCACTTAAAATTCTCCTTTCATTTATTTAATCAGTATTTATGGAGCATCTATTACATACCATGTACAA
Celera SNP ID:            hCV15901274
SNP Position Genomic:     12018
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:4098):
AGAGCTGTAAATATTTATTTGGCCTTTCACTTTTTTTTTTTTTGGAGACATGGACTTGCTTTGTCGCCCAGGCTAGAGTACAGTGGTGCCATCATAGTTC
R
TTGAAATCTCAGCCTTGAACTCCTGGCCTCAAGCAATCCTTCTACCTCCCTTTCACTGTTAAATGTGTTTTGTTTGTGTTCCTTGTTTCAGGTTTTTGCT
Celera SNP ID:            hCV15901275
SNP Position Genomic:     13447
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4099):
GTCCTCCAAATTTTAGAGGGCTTCTCATTATAGGATTTACTAAATGAATTATATCTTTTTCACATTTACGTATACCCGCAGGATTTTATAAGTTCTGATC
R
TGGCCATTGTTAGCTAAAATGTGTAAACTTTAAAAAGAGTAAAATCTTCATATTTTGAAAAATAGTCCAGATAGGCCCTTCTTAACTTTTAGTTTCTTGG
Celera SNP ID:            hCV11405496
SNP Position Genomic:     26137
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;hmCS


Context             (SEQ ID NO:4100):
TGAATTATATCTTTTTCACATTTACGTATACCCGCAGGATTTTATAAGTTCTGATCATGGCCATTGTTAGCTAAAATGTGTAAACTTTAAAAAGAGTAAA
R
TCTTCATATTTTGAAAAATAGTCCAGATAGGCCCTTCTTAACTTTTAGTTTCTTGGTGTCTTTTGTGAAGTATGATGACCTGAACTATACTGGTTCTCAG
Celera SNP ID:            hCV11405497
SNP Position Genomic:     26181
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:4101):
GAGTGTTTTATTATACATATGTAGATAACAGGTTATTTTATATTGCTTTACTTTTAATACCTTTCTCGAGGTCATGAGCATGTTTTCGCCTGTAGCAGCA
Y
GTTGAGTTAATCAAATCCCTCACTGGAGACGTTACATTGTAAATCTGGCTTTGGATTATTTTCCTTCTAAGTTATTACTCTGTACTGCTTGTACAGAGTC
Celera SNP ID:            hCV11405498
SNP Position Genomic:     26403
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:4102):
TAAATACATTAACCAGTTGGCAAGTGCAATTATGTTCATTACAGTTTCTGAAATTATTCTTATAATTACTTAGAAATCAGTGCTTAGTACTTTATAAAGG
Y
TTTCTGTTTGTCATCTCACTTTAAATGTAAAACACATAATACCTAGATAGACCTGAGTTGAAAAAATTGTTTTATGAAAATCAAGAGCAACTGGTAATAG
Celera SNP ID:            hCV1347760
SNP Position Genomic:     25179
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4103):
AAAGATGGTAAGTATGCTTTGAAAGTCCACCCCCTGGATTTCTTTCTCATACTCTTATTAAATTCTCAGCTTTTGCTTTACTAGATTTTTCTTAAAAAAA
W
TTTCTTTTATTCTTGAGTACTTGGTTTTACTTTAAACGTTGCAGTGTTGTTTAATATATTCTGTGCAATGTTTGAAATCTTTTAACATTTTATATATTTT
Celera SNP ID:            hCV1347762
SNP Position Genomic:     24789
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,7)   total(A,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4104):
TGCCAGTAAGGTCTTTTAAAATTTTTGCCAAGATAAAAAGTATACAGTGAAAAGGAAGCCAATTCATAGACAAATTCAGAATCGGATACAAGGAAAAATA
R
AAAGCAAACCTTCATAAACAATAGTAAAATGTTTGCCTGAATTCTTCATGTGATTCTTTGAGTGTTGGTGACATAAGAGCTCTCTGCATTCGATTTTACT
Celera SNP ID:            hCV1347763
SNP Position Genomic:     24467
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,7)      total(G,7|A,1) ;no_pop(G,-|A,-)   JBIG-allele(G,620|A,873)   total(G,620|A,873) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4105):
ATTCAGTTGTTTTTTTAGAAAAAGTGAACAGATAACACAAAAGAAAACAAGGAAAATTTAAAATTTATTGTTGGTCATGCTTATATGCCAGTAAGGTCTT
K
TAAAATTTTTGCCAAGATAAAAAGTATACAGTGAAAAGGAAGCCAATTCATAGACAAATTCAGAATCGGATACAAGGAAAAATAGAAAGCAAACCTTCAT
Celera SNP ID:            hCV1347764
SNP Position Genomic:     24382
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:4106):
GTTATTGGCATGGATTTTAAGTGGTGTCTTAGTGTATCTGAATAATAGTTTTGGTCAGGAGACCAGGATATTGTCAGTTAAGCTGGAGTAATGTAATGAT
R
AATTTTTGCCCAATTGAAGCCTTCCAATGTGTCTTTCAACCAAGTGTGCTTGCATGTCTTTTAGGTACGAGGTACTTAAGATAGCCGCTGACATATTAAT
Celera SNP ID:            hCV1347765
SNP Position Genomic:     23998
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:4107):
GAGACACATGATACCATCTGTGGTAAGTTTTTAATGAGCTCTGTTTATTTCATTTTTGGCACCAAAGCTTTTTGCAAGAAAAAGTAAGCAAGCTCCATAG
R
GGATGAGAGTGTGTCTTACGTGTTTTTGTATCTATCGTATGGGTAGATATCTATCATGTAGGATGTGCTTGGTTCATTTTTTTTGAGTGCCTGAGTGAAC
Celera SNP ID:            hCV1347766
SNP Position Genomic:     23583
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:4108):
GTTCTCATGAGCAAATTGGAAGACTTACACTCTAGTTTCTTTTCCTTTTTTTTTTTTCTTTAAGATGGAGTTTCGCTCTTATTGCCCAGGCTGGAGTGCA
R
TGGCACAATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCTGGTAGCTGGGATTACAGGCATGTGCCACCAT
Celera SNP ID:            hCV1347767
SNP Position Genomic:     17360
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:4109):
GCTGAGGCAGGCCAGTCACTTGAGATCAGGAGTTTGAGACGAGCCTGACCAACATGGTGAATCCCTGTCTCTACTAGAAATACAAAAAAAAATTAGCTGG
K
TGTGGTGCTGTGCACCTGTAATTCCAGCTACTTGGGAGGCTAGGGCATGAGAATCGCTTGAACTTGGGAGGCGAAGGTTGCAGTGAGCTGAGATCACACC
Celera SNP ID:            hCV27150330
SNP Position Genomic:     9828
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4110):
CGAAGGATACTGACCTTTTGGCATTTGCATTCACTTCTCCTTTAACGACGACAGTTCGTCCAGGGCCCATGGGGGTGTTCAACCTTGCAGCGAATGGCAG
S
CTCTGAAAAGAAGCCACAGTCAGGACCAAGAGGCCTGCAGAAAGCGATCTCCAGGGAAAACTCGTGTCCAAAGAACACTACGGAATGTTTCAGAGCCATG
Celera SNP ID:            hCV22273515
SNP Position Genomic:     66959
SNP Source:               Applera
Population(Allele,Count): african american(C,14|G,20)   caucasian(C,7|G,33)   total(C,21|G,53)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): (G,-|C,-)   JBIC-allele(C,581|G,914)   total(G,914|C,581)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4111):
CCCTGTGGAGGTACTGCTTTCACTTCCCACCAGTGTCCCAACTTGTGACCTTTCATCAGACTTGTTTCTTCCATTAGTGATCTGATTGAGGTCTCCCTAC
Y
ATAAGTAGGATTTTATGTATAAAAGAAGAGCTTACTGGCTCCTGTCAGGACATGTGGTAGATGTTTGAGTTGGGAAATTTTCTGAGATCCTTTGTCTCGT
Celera SNP ID:            hCV1347768
SNP Position Genomic:     14176
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:4112):
AGAATTGCTTGAATCCAGGAGACAGATTTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGTAACAGGGAGACGCCGTATCAAAAAAAAAAA
A
CAAAAAATGGAGACGTGGGGATAAACTAATTTTTTTTCAAGAAGCAAGTGAGTCATCAAGAAAACATGATTTTAACTTGGGTCTTCTGATTGTCAGAACA
Celera SNP ID:            hCV27150331
SNP Position Genomic:     9262
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,6)   total(A,2|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4113):
TAGATTTAAGTGTTTTTAAATTGACAGTTTATTTCAGATGATAGCTGAGATTTAGCCTTTAGGTTGAAAATATGACACTTTTTTATTAGAAACTCACTGG
M
CTGGGACCTTAATTAGGACTCTTAAGAATAAATATTGGCTGTCTGGTCCTGCGGCCATCTCCTAGATTGATTTCCATAGCAGTCTTTGTACCTCACTGGA
Celera SNP ID:            hCV1347769
SNP Position Genomic:     13851
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|C,7)   total(A,6|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4114):
AAAGTAGATTTCTATTCCATTAATTGGAGACATGGCTTCAAGGCCAGCCTGGCCAGCATGGTAAAACCTGTCTGTGTGAAAAATACAAAAATTAGCTGGG
Y
GCAGTGGCGAGCACTTGTAATTCTAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAATCCAGGAGACAGATTTTGCAGTGAGCTGAGATCACGCCA
Celera SNP ID:            hCV27150332
SNP Position Genomic:     9113
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4115):
ATGAGCCACCACATCCAGTCCAACTTACATGTTTTAAAAGTAGATTTCTATTCCATTAATTGGAGACATGGCTTCAAGGCCAGCCTGGCCAGCATGGTAA
W
ACCTGTCTGTGTGAAAAATACAAAAATTAGCTGGGCGCAGTGGCGAGCACTTGTAATTCTAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAATCC
Celera SNP ID:            hCV27150333
SNP Position Genomic:     9077
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4116):
AGCTAAAAGGGGGATGGAGGCAGTGACTGGGGTGACGGAGAAGTCCTCTCAGAGGACTGGCCTAGTTATTGTAGGGGATATCCAAAAAAAAAAAAAAAAA
A
GTGTTCCCTGCCACGAAGTACTTTCTGTTCTAGTAGATGAGATAGGATTTACTCTAAAAGTTGAAAACTAGAAATCAGTGTTTGGGACTGTATTATAAAT
Celera SNP ID:            hCV27150334
SNP Position Genomic:     6924
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4117):
TCAGAAGGCTGGACGTCTGTGGAAAAAGTTGTTAAAGCAGAAATTTTCTAAATCACATGACAAGAGGGGCCCTAAAAAATGTTGCCTGGGCTGGGCGTGG
Y
GACTCACACCTGTAATCCCAGCACTGGGAGGGCGAAGTGGGCGGATCACTTGAGGTCAGGAGTTCCAGACCAGCCTGGCCAACATGGTGAACCCCTGTCT
Celera SNP ID:            hCV1347698
SNP Position Genomic:     66283
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,13)      total(C,3|T,13) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4118):
CTGTCTGGTCCTGCGGCCATCTCCTAGATTGATTTCCATAGCAGTCTTTGTACCTCACTGGAAGGAGGACGGAGCAGACAGTCTCTTTGAGGCGTAAGCA
R
CCTCTCAGTATTCTTTGTGCACTGGCTCCTGCCTCTCAGCGTTTCTCCTTCCCAAGTGCCTTCTTGCCTGCTGCCTTCCCAGGTGCCCTGTGGAGGTACT
Celera SNP ID:            hCV15823916
SNP Position Genomic:     13990
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,10)      total(G,10|A,3) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4119):
AGTGGCTTTAACTGGCTATAAGTGTTGCTGCCCCCAGTTTCCCCATTCAGTGCTAGACACCACCATACTTCATGGCAAGGACTGAGAACACCCAGCAGGA
Y
CTAATGGTGCACAAGCTCATTTTAACAATATAAACAATAGAATGACAGTGAGATGCGTTTCAGCAAGGCCAGTATCACAGAAGCCATTCTGTATTTTGGT
Celera SNP ID:            hCV7540521
SNP Position Genomic:     62233
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;(T,-|C,-)   JBIC-allele(T,678|C,803)   total(C,803|T,678)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:4120):
ATGCAAGAATTTTGGTGCAGAAAATCCAGATCCTTTTGTCCCAGTGCTGAACACTGCTGTGAAACTGATTGCTCCAGAGAGAAAGGAGGAGAAGAATGTC
Y
TGGGAAGCGCGCTGCTGTGCATAGCAGAGGTGACCTCCACCCTGGAGGCGCTGGCCATCCCCCAGCTTCCCAGGTATGCGGCCGGAGACTTGGAACAGGA
Celera SNP ID:            hCV15879415
SNP Position Genomic:     52209
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,21)   caucasian(C,7|T,33)   total(C,22|T,54)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,616|T,873)   total(C,616|T,873) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4121):
AAGTGGGAAACAATTTTGTATTTTGAGAGAGGTTGATATAAAAATTATTTCTGGAATTTAAACTTGTTCACTGAACTCAGTTGCCTTTTTTCTACCCCCT
Y
TAGATTACAAAACCATTTTTTGCAGCCATATCAGATGAAAAAGTTCAGCAGAAGCTTTTAAGAATGTTGTTTGATTTATTGGTGAACTGTAAAAACTCAC
Celera SNP ID:            hCV16094694
SNP Position Genomic:     36178
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4122):
CATAAACTAAACATCTAACAACAGAGGCAAATGGATAGATAAGTGGTATTTATAGAGGAATATCATATGCAGTTAAAATGAAGGAACTAGAACATAAGTC
M
CCATGCATAGATCTCAAAAATATGTTTCCAGAAAAACATGTTGTTCCGTGATATGTAGTGTTTGAAACATTTGGAAGCAGATTTGGGATGATGGTTTTGT
Celera SNP ID:            hCV7540452
SNP Position Genomic:     48748
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4123):
GAGGATTTGAGTCAGAGCTCCTTAACCTGGGGTTCTCCATGAGCTTTAGGGGATCTTAATCTACTGAAATCATATGCAAAGTTTTATCTGTATGGGATTT
Y
TTTTTTTCTTGTAAGAGAGTCTGTGCTTCTCAAAGGGGTTGATAATCCAGAAACAGTTAAGAATCATTAATATTTTTTCTGTTTTTATTGAAATATAGTT
Celera SNP ID:            hCV16094695
SNP Position Genomic:     39761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4124):
TGGAATTCTTGCTTACTACAGAGCTTACGTGGCCTTAGCCTTAGCATAGTTCTAAGTCCCTTTTACTCCAGATCAGTGGGTGCTTTGTATAAGTGAAACA
S
TGGCTAGAACATGCACATCGCTTAGCATGACTGTGTGACTCAGGACCCCCGAGTCTGATTTCCATTTAGACAATCTCAAGCTGTGACAATGGGAAAATGG
Celera SNP ID:            hCV27503877
SNP Position Genomic:     51836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4125):
CCCATCCTTGTTCAACTTGTTGATACACTGGGTGCAGAGAAATTCCTCTGGATTCTCCTCATCTTGCTTTTTGAACAGTATGTCACAAAAACAGTGCTGG
Y
GGCTGCCTGTGGCGAAAAGGTCAGAACCTAGGGTGGGAAGATAAGGAAAATGGTGATTTCTCACACAGATTTTATGATATTGTCCAGTTTAAACATGGGG
Celera SNP ID:            hCV25762999
SNP Position Genomic:     43850
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,32|T,2)   total(C,68|T,2)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:4126):
GAGGCAAATGGATAGATAAGTGGTATTTATAGAGGAATATCATATGCAGTTAAAATGAAGGAACTAGAACATAAGTCACCATGCATAGATCTCAAAAATA
Y
GTTTCCAGAAAAACATGTTGTTCCGTGATATGTAGTGTTTGAAACATTTGGAAGCAGATTTGGGATGATGGTTTTGTTTGTGGGGCTTGGGGTAGAGGGA
Celera SNP ID:            hCV7540453
SNP Position Genomic:     48771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4127):
TGAAATGCTGAAGTACATTGCCCTTAAGTTTTAGAACATTGAAGCTAAGAAGCAGTCTTGGCAATGTCTTTCTCAATAATATAAACAAACGTGTTATAGC
Y
GGTTCTGCTGTGCTGTGAGTGTGTAACTGTAAGTGTCTTAACATCATTCGGGTGGGGTAAATTGACATCCACCATCTATTTCAGGACATTGCATCAGTTT
Celera SNP ID:            hCV16094696
SNP Position Genomic:     41761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4128):
GTCACCATGCATAGATCTCAAAAATATGTTTCCAGAAAAACATGTTGTTCCGTGATATGTAGTGTTTGAAACATTTGGAAGCAGATTTGGGATGATGGTT
K
TGTTTGTGGGGCTTGGGGTAGAGGGAGAATAGGACCAAGGAGCAGTACTTGGGGGATTCCAGCTGAATCTGTAATGTTTAACTTCTCAACAAAGGATATG
Celera SNP ID:            hCV7540454
SNP Position Genomic:     48845
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4129):
TTAAAACTCTTGTGGCTGAGTGTGGTGGCATGCACCTGTAACACCAGCACTTTGGGAGGCTGAGGTGGGATTATTTGAGGCCAGGAGTTTGAGAACAGCC
Y
GGTCAACATAGCAAAACCCCGTCTCTACAAAAATTTTTAAAAAGTGGTGGTGGGGTCCTGGGATGTCCCAGCTTCTTCGGAGGCTGGGGCAGGAGGATCT
Celera SNP ID:            hCV16094697
SNP Position Genomic:     43325
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4130):
CTACAATTCGAAGCAGAACGACAAGGCACGTTAGAAGGAAGGTACTCTAAGAGCTCCGCAGAGACTGTTTTCTGCGTGGCCAGCCATTGGCCCTGTCATC
M
CTGTTTGGCGAGGCAGTAACTTGTCCCATCCTGCAGTCAGCTCAGGTTTGGCAGGGACAGACGAGGGAGGTCCCTGGACAGTATGTGGTGTATGTGGTAT
Celera SNP ID:            hCV16094698
SNP Position Genomic:     45331
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4131):
CAGAGACTCCTTCCGTGATGTGGTTTCTTCCATTTGATTGTCCAGTTTCCCTGTTTTGTTTTTTGTCTTAAACACTCGCTTCTCAGGGCCACTGGGTACT
Y
TCTTGGCAAATACACTCACGTTTTTCACTAATTTAGAAGAGGAGAAACTGGATGTAATAGATGAACACATTTCTCTGGGAAAATGTTATCCCGTTAATTG
Celera SNP ID:            hCV16094699
SNP Position Genomic:     45665
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,24)   caucasian(C,20|T,2)   total(C,22|T,26)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:4132):
CCTCCTGCTTTGTTAATGTGCTTCATTTCACTCTTTTGATTGAATGATTGCCGGAAAGTGCAAGGCATTAAGAATTAAACTAATGAGAACCGAGGCAGGC
R
GACTGACTCAGATTTTAATTTTGATTTTTTTTTTTTTTTTTTAGATGAATGTGAAGAAGTAGAACATCAGTGCCAAAAGACTATTCAGCAACTGGAAACT
Celera SNP ID:            hCV16117110
SNP Position Genomic:     59484
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,3)   caucasian(A,16|G,8)   total(A,21|G,11)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:4133):
CCTCTAGCGATGAAGAATTCACTTGGTGTGTTAGTGCTTGAACAAAATACTATTTCATTCAATTGTTTACTAAAAATAGATCTTTTAGGCTTTAAATAAT
K
TTAATATTACATAGATGTGTATCCCTCCAGCCTACTACTGTCTTTCATAGTATTACTAAAGGACATGTTTCAGCTGTTTACATTTGACATGTTTTGAGGT
Celera SNP ID:            hCV11682454
SNP Position Genomic:     25884
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:4134):
GGTCAGAACACGGCCTTAGTCGGCTCTGCTGCCCACTGGCTGTTCACAATCTAACCACCTCCTGCTTGAATCATCTCACTTTGGAAATGAAGATTCTGAC
R
CTAGCCCTTCTTCCAGCTCACAGGACCGTTCACGGGTGGAAGGCGGTAACAGGCACGGAAGTATCTGCACTGTGACTGGTACCGAAGGATACTGACCTTT
Celera SNP ID:            hCV11682527
SNP Position Genomic:     66776
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,27)   caucasian(A,29|G,9)   total(A,38|G,36)
SNP Type:                 INTRON;TFBS

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;TFBS


Context             (SEQ ID NO:4135):
AACAAAATACTATTTCATTCAATTGTTTACTAAAAATAGATCTTTTAGGCTTTAAATAATTTTAATATTACATAGATGTGTATCCCTCCAGCCTACTACT
R
TCTTTCATAGTATTACTAAAGGACATGTTTCAGCTGTTTACATTTGACATGTTTTGAGGTAGCAAGACTTTTTTTTTAATATCTGCTATATGTAAGGATT
Celera SNP ID:            hCV11682455
SNP Position Genomic:     25924
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:4136):
TTTTTGACATGCTTTTGATTTACATTTTTGTGACTCAGTATAATTTTCAAGATTGGTTAGAAATTTCCCAGCATTCCTTTTTAATGTATATCTTGTTTTG
Y
CTGTATCATTTCATTAACTATAAGTACTTAATCCAGTAACTGGCAGCATTAAAAGCAAAAGTAATTTTTCTTGCATGTCTTTAGTGCTTATAGATGAAAA
Celera SNP ID:            hCV15901284
SNP Position Genomic:     16615
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4137):
AGATCACACCACTGCACTCCAGCCTGGGTGACCAAGTAGACTCTGGAAAAAAAAAAAAATCTAATAAAAGGCAATGTATGGTACTGTTTAAAAAAAGTAC
M
CGATGTAAAAGGATAGGAGAGTTTTCACAGAAGAGGGATCAGTTGGCAGAATTAGAAAAAACATCTTAGCCAGGCATGGTGGCTCACACCTGTAGTCCTA
Celera SNP ID:            hCV15823990
SNP Position Genomic:     10019
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4138):
TTATCTTTTCACACATGTATTGTTTCTTTTGTTTGTTTGAGACAGAGTTTTGCTCTTGTTGCCCAGGCTAGAGTGCAATGGCATGATCTTGGGTCACTGC
Y
ACCTCTGCCTCCTGGTTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCACGCACCACCACGCCCGGCTAATTTTGTATTTTTA
Celera SNP ID:            hCV27936396
SNP Position Genomic:     42868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4139):
ACAGCCTTCTATTTGAAGAGTATATTTCATATAGTTCACAGGAAGAAATGGATTCTAATAAAGTGTCTTTGCTTAATGAACAATTTCTTCCACTCATTAG
R
CTTTTAGAAAGCAAGTAAGTTACGTGTGTATGTTTATGCTCTTCTAAAGTACTTCCTGTTCTATAAAGATATGATTCACAAGTCACATCTTAATATACTG
Celera SNP ID:            hCV15901285
SNP Position Genomic:     17978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:4140):
AATTGTTTACTAAAAATAGATCTTTTAGGCTTTAAATAATTTTAATATTACATAGATGTGTATCCCTCCAGCCTACTACTGTCTTTCATAGTATTACTAA
R
GGACATGTTTCAGCTGTTTACATTTGACATGTTTTGAGGTAGCAAGACTTTTTTTTTAATATCTGCTATATGTAAGGATTTTGTTTTTATTTGTCCTCCA
Celera SNP ID:            hCV11682459
SNP Position Genomic:     25944
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:4141):
CGTGGCCCACTCGATCTCCAGGGCTCAAATGATCCTCCGATCTCAGCCACCCAAGTAGCTGGGATTACAGGCATGCACCACCATGCCCACCTAGTTTTTT
K
TTTGTTTGTTTGTTTTTGTTTTTGTTTTTCCATTTTTTGTAGAGACAGTGTCTCACTTTGTTGCCCAGGCTGGTCTGGAACTCCTGGCCTCAAGCGATCC
Celera SNP ID:            hCV624438
SNP Position Genomic:     8836
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4142):
TGGGAAGCGCTGTGAAGAGTTGTTGCCTTCCAAGATATACCCAAATTCCCAGTTCCAGGTAAGCGGCACAGAGCCGCTTGATGTGGCTGCGGATGGGGGC
R
GCATATCGAGGGAGGGTAAGAGTTTTCCGGATATCTGCGGAATCAGGGTTGAAGGAAAGCCTTGGCGCGGTCGCCGCTACTGTAATTAGTTGTTAACGCT
Celera SNP ID:            hCV27845063
SNP Position Genomic:     6138
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:4143):
ATAGGAATTGGCTGGACCATGTTGAGGGATATGTGAATGCAAAATTGGGGACTTTTTAAATGCTCTGTATCTTATAATTTTGTGATTTTTACTGCTACTC
R
TTCTAGGTTGTTTTAGCTTATTAATAATACAGTTTGGGCATGTGAGGAAATAGGTGCTTATTATTAAGTTTTGTGTTCAGTTGGACTGTTTGCTTTTTTT
Celera SNP ID:            hCV1347771
SNP Position Genomic:     10785
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:4144):
TCTCTTCTGTCCCGTCCTCTTCCTTAGCAGTTTCTAGCATGTTGATGTATATTTTTAAGGGAAAGAGAACATAACAGTCAGGTGCTTGGTGCTTGAAATG
Y
TTATGAGTAGAGGTATCTGGATTTCACAGATGAAGAAACAAAATTAGAGAGGTCAACTAATATGTCAAAGAGAAGAACAGCTAAAAGGGGGATGGAGGCA
Celera SNP ID:            hCV1347844
SNP Position Genomic:     6745
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:4145):
CCCCAAATAGATCATTAATGTAAGGAATACTTTTTGCATTTGATTTTTCATTTTATGTCTTCAGATAACTTATTTATTCAGCAAATACTAAGTTCAGTAC
W
TAGATAAGTAGGTTGCCGTTGATTACTGTTTTGAAATAAATGCCATAATAAAGGATTAAGCAGAGTTTTGTGGATATAGTTCTGCCTGGAATAGTTGAAG
Celera SNP ID:            hCV1347846
SNP Position Genomic:     9534
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4146):
GCATAGGAGTGGCCCTGGGGAAATTTGAAGATGTCCTTGGTTTTTTTTTGTTTTGTTTCTTGTTGTTTTTTTTTTAATTCCAAAATTACTCTTTGTAAAT
R
TTCTGTGAAAGCAAGTTAGATGATCATATACTTTTCCCTGAACAATTCCTCAGTGTTTATTTTTTGTTAGTTCTTTGAAAGAGCACATAATTACATTTGT
Celera SNP ID:            hCV1347774
SNP Position Genomic:     30613
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4147):
GTGGGGTCAGTGTTCAGAATTAGTAAGATAGGAGTAATGAGGACTTTTTAATTAGAAGGAGAATTTAAGAATCTGAACGTAAAGCACTTGAACTAAAGAA
Y
GTTGGAGAAGGCCAGCCTTTGATAAAGCTCATTAACTGCTCTTCCCAACATTCACTCTGCCCATAGCATCAAAATTATTCTTCCTCTAATCTACCTTGGA
Celera SNP ID:            hCV16288588
SNP Position Genomic:     11890
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:4148):
TGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATTGCACCATTGCGCAATGTCCAGCTCATATGTGATAGCAGTTGGTGTAGAACAGAGTTTATAGTA
Y
GCTCTTGTGTATTTTCAAAAGAATGCACCAGGTAACATATGCCTAACCTTTCTCTGGAATATTAAATATTCAAACAGTGAACAGAGAAGGAGTTTGAATT
Celera SNP ID:            hCV1347775
SNP Position Genomic:     33364
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4149):
AGAATGTTGGAGAAGGCCAGCCTTTGATAAAGCTCATTAACTGCTCTTCCCAACATTCACTCTGCCCATAGCATCAAAATTATTCTTCCTCTAATCTACC
Y
TGGATCTTGCTGCTCCCTAGGCACTCTTATTGCAGGTAGCCAAACTCCACTCACCTACTAAAGTTCACTTAAAATTCTCCTTTCATTTATTTAATCAGTA
Celera SNP ID:            hCV16288589
SNP Position Genomic:     11986
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:4150):
ATAGATCATTTGATTTCTAAAGCAGAGGAGATCACTTCAGATGCTGCCTATGTTATTCAGGTAAGCTCGTTAGCAAAGAAGATTGAGTGTGTTCATGCCT
S
TGTGTACTGGAGCAATTTTCTCCATTCTCGACATTTCACTGTGTAGGGATTTTGATGGACTAAGTCATTGGATTTAGGAACTGATAGGTCAATATCTGTA
Celera SNP ID:            hCV1347776
SNP Position Genomic:     33776
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:4151):
TTTGATGGACTAAGTCATTGGATTTAGGAACTGATAGGTCAATATCTGTACATCTGTGTCCCCCTACTTTTGAAAAGATAGCAATGTCATATTTCAATTT
W
GTTCTTTTCATTGGATAAAGGTTTAGTGTGTAGCTTTTCATAGTAAGCCAGCTGTGTGTTTTTAATAACGTTTCTTATTAAGGTTTTAAGGAGAAATGGA
Celera SNP ID:            hCV1347777
SNP Position Genomic:     33927
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:4152):
TTTAGGAACTGATAGGTCAATATCTGTACATCTGTGTCCCCCTACTTTTGAAAAGATAGCAATGTCATATTTCAATTTAGTTCTTTTCATTGGATAAAGG
W
TTAGTGTGTAGCTTTTCATAGTAAGCCAGCTGTGTGTTTTTAATAACGTTTCTTATTAAGGTTTTAAGGAGAAATGGAAAATTATAAACAATGTCACATC
Celera SNP ID:            hCV1347778
SNP Position Genomic:     33949
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:4153):
CATGTTGGTCAGGCTGATCTCGAACTCCTGTCCTCAGGTGATCCGCCCACCTTGGCCTCCCAAAGTACTGGGATTACAGGCGTGAGCCAGCACCATTTAA
R
ATAGCAATGTAGTCTTACTATGTTGTTCAGACAGGTCTCGAACTCCTGACCTTAAGCAGTTCTCCTGCCCCGGCCTCCGAAAGTGCTGGGATTATAATGC
Celera SNP ID:            hCV15823923
SNP Position Genomic:     17602
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4154):
AATGTAGTCTTACTATGTTGTTCAGACAGGTCTCGAACTCCTGACCTTAAGCAGTTCTCCTGCCCCGGCCTCCGAAAGTGCTGGGATTATAATGCCAGTG
R
TGTGAACCACTACACCAGGCCTCTAGTTTCTTTATCTGTAAAATAAGTATTAAACTATACCTTGTATAAGTATGACAATTAGAGATAATATTTCTAAAGC
Celera SNP ID:            hCV15823924
SNP Position Genomic:     17708
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4155):
ATTTTGTATCTGATGCCTGACTCTCCTCTCTTTTATTGTCTTTATTGGATAATTACCCAAGCTACACCTAACTACCTCTAGCGATGAAGAATTCACTTGG
Y
GTGTTAGTGCTTGAACAAAATACTATTTCATTCAATTGTTTACTAAAAATAGATCTTTTAGGCTTTAAATAATTTTAATATTACATAGATGTGTATCCCT
Celera SNP ID:            hCV15823925
SNP Position Genomic:     25810
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4156):
TAATTTCCAGCGTGTCAATACTGCTGAGCTCTTTAAATCTGTGTTTGTACTCCAGGCTGTGTACGCCATTTACTGCAACCTTGAATTCTCTAACATCACA
R
TAAATTATCATCTGAAAGGAAAGGATACATGCCATTAGTGGTTCCCCTTAGTTTAAAATTTTGTGTTTGTTACATGCTAACGGTGTCAGAGTAAACCATT
Celera SNP ID:            hCV7540530
SNP Position Genomic:     62496
SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,11)   caucasian(A,7|G,27)   total(A,24|G,38)
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:4157):
TTGGGGTAGAGGGAGAATAGGACCAAGGAGCAGTACTTGGGGGATTCCAGCTGAATCTGTAATGTTTAACTTCTCAACAAAGGATATGTGAGCTCACCAG
M
TCAGCATGTCATAGAATTCGGTAGTGCTAATTGAGTGTTGATTGCTGTATTTTTCTGAACCATTGTAGTACTTTTTAGATACTACCAGTAGAATGTAATT
Celera SNP ID:            hCV7540460
SNP Position Genomic:     48958
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,16)      total(A,5|C,16) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4158):
TGTGAACTAATGTTTAAAAAGTTAGAGCTTGTCTCAAGTCAGTACAGCTCTTAAGATAATAAATACAGTAACACTACTTTTTATTTCTTTGCTCTTTTAT
Y
CCTTTCAGGTTCGATTTGCTGCTTTGATTACTGTGTTAGCACTGGCTGAAAAACTAAAGGAGAATTATATTGTCTTGCTACCAGAATCCATTCCTTTCTT
Celera SNP ID:            hCV25761628
SNP Position Genomic:     58403
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,34)   total(C,67|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:4159):
TATTTGTTTCTTTATAATTGTACACTAGTGAGAAGAGGATTTGGAACCAGCTTATTTGAGTAAGAATTAAAAGTTTGCTTTTTTTTTTTTTTAATTAGGT
K
CATCTAGAAGATGTTTTTCAGTTATTCAAGTTCTGTTCTGTTTTATGGACCTATGGTTCTAGCCTTTCAAATCCACTAAACTGCAGTGTGAAAACAGTGC
Celera SNP ID:            hCV11682466
SNP Position Genomic:     29102
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:4160):
AAGAAATTGAAGTTACCACCTAAGTGGGTAATGATACAGATGAGTTGAATAAACCTCATGAGAGTACCTTAGACTAATATTTAGGACTGTGTATGCCAGT
Y
GTCCCCATTTTAACAATAACCTAATAACAACTACTTTTATGTTTCCACATTGACAGTTGTTTATCTTTAGTGTTTTTCAAACTGGAATTTGTAGATTAAT
Celera SNP ID:            hCV15901295
SNP Position Genomic:     19833
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4161):
GGCTGCTCTGCAGAAGGTTGTGGAGACTCTCCCGCACTTCATCAGCCCCTATCTGGAAGGCATTCTCTCCCAGGTGAGCCACGATAGCCACGACATGCTA
Y
GCAGGGTGGCTGGGGAAGGTAAAAGATCACAAATGTAGTGATTTTGTTTTTTCTTTAAGGGTTAGTTTCCGTTTGACAGAAAGGAGTCTTATTTCTGAAG
Celera SNP ID:            hCV25981893
SNP Position Genomic:     53352
SNP Source:               Applera
Population(Allele,Count): african american(C,6)   caucasian(C,31|T,1)   total(C,37|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:4162):
ACACAGGTGATTGTTTGGATAAAGCCCTGTTTGGATAAGTCGAGGACCATTTTTAAATGACTTCTTAGACATGGGATCTGGGAGTAGATCTCGACCCACT
S
TAAATAAAGTAGTATACTCTGTTCTGCTAGAAATCCTAACGCACATTATCCTGAAATTATGCCTTCACAATTCCTAAGTACAGATTTGTTACCTTTTTCT
Celera SNP ID:            hCV15901297
SNP Position Genomic:     44357
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,1|G,3)   total(C,9|G,3)
SNP Type:                 INTRON;TFBS

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


Context             (SEQ ID NO:4163):
AGTCTTTTATCACCAAAGGTGTTTTTCTACAAAAATAAATGTCTATTCCTTGCCAGATTCTAGTTACAGTGACTATTCAAAGAGAGTGTCTAGAAATGTC
R
GGAATATTCAACCTGGGAAAGCTGTTTAAAAAATTTTAAGGCCAGGTGCGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCAAGGCAGGCGGAT
Celera SNP ID:            hCV16288590
SNP Position Genomic:     12923
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4164):
GGCGGCTGCCTGTGGCGAAAAGGTCAGAACCTAGGGTGGGAAGATAAGGAAAATGGTGATTTCTCACACAGATTTTATGATATTGTCCAGTTTAAACATG
R
GGCTGATGATGCCTAATGTGTGTTATTTAGAACCTTTTTGCTCAGAACCTTTTTCAAAAAGGTTTTTGGCATTTTAAAAAATTGCATTCAGAGCCCATAG
Celera SNP ID:            hCV16288594
SNP Position Genomic:     43948
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(A,14|G,18)   total(A,18|G,48)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:4165):
GAACTAATTAGTCTCACCACTGTTATATAATATTGTTATTCCTCAAATTAGAAAACAGAGTAGAAAAAAAGATTTCCTGTATAATACAAACATAAACTTA
Y
AAGGTACCAAGAATAAGCCTGACAAAAATATGTGCACAAATATTACAGGGGAAATGTGCAAGATATGAAGGGACACAGAAGAAAACTTGGAAGAAATAGA
Celera SNP ID:            hCV16094708
SNP Position Genomic:     47653
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4166):
GCATTTTAAAAAATTGCATTCAGAGCCCATAGCACTCTGAATATCCTCAGTTGCAGCAAAACATCTGAAGGCGAATTAACTTTTCTGAGAAACAGTTCTG
S
TGCCACGCAAGTGGTTCTCTTTTAAGCCCAGCAGAGTATGGCTGAAGAGTAATGAAACAGTGTCTCTTCAAAGCGGTTTTGAAGGCAGTTTGTGGGGAAA
Celera SNP ID:            hCV16288595
SNP Position Genomic:     44117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4167):
TGGGTTATATGTTCATTTCTATTAATATTTCTCTTTATATAAATGGTGTATGGTGTGTGTGCATGTGTATGTGTGCGTGTGTGTGCCTGTGTGTGTGTGC
R
CGCACACACCTGCCATTAACCTAGGGCCATAACTCCCTGAACACCCCACTTGGACAGCCCAGTGAGATCCACTGAGCATGAGCTAGATATGAGTGAGTTC
Celera SNP ID:            hCV16288596
SNP Position Genomic:     50308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4168):
AGCAATTTATTAAAATAGTTATTTTCTGCTAAACTTGTGGGTTTTCAAAAAGGTACATATATTTTATTTAGAGATAACTATTTCTGTTTTCCAATTTGGT
R
TTAAATGTTTACTGTCCTTTGACAGTGGCCTCTGAGTCATATATGTCATTTTGACTGTAAATAGCAAGATGGAAGAACTTCAGTTTTCCATTGGTATTGC
Celera SNP ID:            hCV11405512
SNP Position Genomic:     31089
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:4169):
ACTTTACTGGCTATAACAGACCAAAGCAGAATTTTATTAATAGGATTTATTAGTTCAAATTCTTTATTAGGATATGCTAACAATGAGACTATTATGATGA
M
CCCCCACATTTTAAACCATAGGTTTTTATACAAGTAGCAGTATCAAATTTATTGTAATATTTTACTTTGCACAAATCAAGGAAATCCTGATTGAATCTAG
Celera SNP ID:            hCV16289828
SNP Position Genomic:     57607
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4170):
TTTGAGTTTTGTTTTGTTGTTTTGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCGCTGCAACCTCCACCTCCCGG
K
TTCAAGCAATTCTTGTGCCTCAGCCTCCCGAATAGCTGGGATCACAGGCGCCCGCCTCCACACCTGGCTAATTTTTGTATTTTTAGTAGGGATGAGGTTT
Celera SNP ID:            hCV27481042
SNP Position Genomic:     56205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4171):
CTCCAGAGAGAAATGCATTGAATTTATCCACACTATAGTCTTTTGAGTTAGAGCAATACATTCTGTTGTTTATAGATACTAGGCTTATGATCTTGTTGAG
Y
AAGTGGTGGCAGTGGAAATAAAACATGGGTAGGTTGAGTGGAAGTCAAAATTTGACACCCAAGTGTTACGAATTTCAAACTGTTTTAGCAATGAGTCACC
Celera SNP ID:            hCV29366286
SNP Position Genomic:     57379
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4172):
AGCTCTTTAAATCTGTGTTTGTACTCCAGGCTGTGTACGCCATTTACTGCAACCTTGAATTCTCTAACATCACAATAAATTATCATCTGAAAGGAAAGGA
W
ACATGCCATTAGTGGTTCCCCTTAGTTTAAAATTTTGTGTTTGTTACATGCTAACGGTGTCAGAGTAAACCATTTGATTATACATAGAAAAGTTCCAGCC
Celera SNP ID:            hCV15876385
SNP Position Genomic:     62522
SNP Source:               Applera
Population(Allele,Count): african american(A,8|T,14)   caucasian(A,25|T,7)   total(A,33|T,21)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,681|T,810)   total(A,681|T,810)   (T,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4173):
TTGTGCTCCAGAGAGAAATGCATTGAATTTATCCACACTATAGTCTTTTGAGTTAGAGCAATACATTCTGTTGTTTATAGATACTAGGCTTATGATCTTG
Y
TGAGTAAGTGGTGGCAGTGGAAATAAAACATGGGTAGGTTGAGTGGAAGTCAAAATTTGACACCCAAGTGTTACGAATTTCAAACTGTTTTAGCAATGAG
Celera SNP ID:            hCV29366287
SNP Position Genomic:     57374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4174):
ATTTCTTACAAATGCTTTAATATTCAGGCGTGGGTTCAAGTGTAGAGCAATATCCTTTGATTTTCCTGCTAGTAGGTCAACATTAAAGCTTTTGAGAAAG
R
AAGAAAAAAAAAAACCTTAATTAACCAAGTAGGACAGAGTAGTGGCAATTTCAGCAATGTTAGTGACCAGACTTGAACTATGATTCTAACTCTATGAAAC
Celera SNP ID:            hCV25981751
SNP Position Genomic:     65784
SNP Source:               Applera
Population(Allele,Count): african american(A,16)   caucasian(A,23|G,1)   total(A,39|G,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4175):
CTTGAACCAGGTGAACATCTCCAAAACAGGTGGGTGGTCGCTTCAGTTCAGCTGTCACCCTTGCCCTGTGTGCCTTATACAAGGTACCAGTAAGACACAA
S
CTAGTGCTTGGAAGCAAGATTTTAGAGGTTCTTAAGTCCTAAGCTAAGGAGGGTGAATTTTTTACTTCATTGTTGTCAGACAGTGAAGTGTTGTTTTAGC
Celera SNP ID:            hCV29366288
SNP Position Genomic:     55295
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4176):
ATGTGCCATTTAAGTGGATTGTACATTCCTGTGATGTTACTAAAGAATTGTTGTAACTGCTTGTGGGTGAAGAAGACAATTGTAAGAGTTGCATGTGTGC
R
CTCAGAAGAGATAAATGTAATATTAATTTGAGAGGGGGATGAGTTGAGGTAGAGAAAAACAGATACAAGATACAAAGACAAGTACTGGTGAGTTTCTTTT
Celera SNP ID:            hCV15823934
SNP Position Genomic:     34399
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:4177):
ACGCAGACAAACTCACCGTGAAGTTCTGGCGCGCGCTCCTTAGTAAAGCTTACGACCTGTTAGATAAGGTAGGTGTTCATTTCTCCCTGGAATTACTGTT
Y
TGTTGCTGTTTTTTAAATTATTGTGAAATTATGTAAAGTTTTTAAGAATAAACTTAGCAATTCCTTTTATGAATATAATGAAGCTCAGATTTTTCTTAGA
Celera SNP ID:            hCV29366289
SNP Position Genomic:     50838
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4178):
TAGCCCGTGTCATTAAAACTCCGCTGGCGTGAAAGATGACGTCCTTAGCCCAGCAGCTGCAACGACTCGCCCTCCCTCAAAGTGATGCCAGCCTCTTATC
Y
AGAGATGAAGTTGCTTCTTTGTTATTTGACCCTAAGGAAGCGGCCACAATCGACAGGGACACCGCCTTCGCCATTGGTGAGCCATCTTTTAACTTAGAAA
Celera SNP ID:            hCV27848998
SNP Position Genomic:     6487
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,25)   caucasian(C,34|T,6)   total(C,47|T,31)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4179):
ACCAGTGTCTTTGAGCTTGGTGAGACTCTGCATACATTAATATGAAAAGCTGGAAAAGAATTAAGGGCTAGCGATTTCTACACTGAGTACTTTTAAAAAA
A
TAAGATTGACAATGGTATTCTTTTCAATATATGGATAGAAATAATATCTAAAATCTGTTCTGAAAATATTCCTAAATCCTGGCAGAGTTCTGCCCCAGTC
Celera SNP ID:            hCV27150286
SNP Position Genomic:     60990
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,13)   total(A,1|-,13) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:4180):
GCAGGAGGATCACTTGAGGCCAAGAGTTCAAGACCAGCTTGGACAACGTGATGAGATCCTGCCTCTACAAAAAATACAAAAATTAGCTGGGCGTGATGGT
R
CGTGCCTGTAGTCCCAGCTACTCAGTTGCCTGAGGTAGGCAGATGGCTTGTGCCTGGGAGGTCAAGGCTGCAGTGAGCTGTGATTGCACCACTGCACTCC
Celera SNP ID:            hCV11682470
SNP Position Genomic:     29849
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:4181):
AGCTACAAAAGTACATTCTCCTTTGTTTCTTAGCTCTTGGAGGGGGGAGGTGTGAGCTACTAAAGGGGTGGCATCCCTAGGAAGTTTGAGTTTTGGGGAT
T
CTTATTCAGCTTCCAGTGCAAGCCTGTGGGCAAGGAATGAAGGCGGAAGGAGCGGTGTGGAGGGAGGCGGTCCGTGGCGCCTCCTGCTTTGTTAATGTGC
Celera SNP ID:            hCV27150287
SNP Position Genomic:     59304
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,15)   total(-,15|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4182):
ACGTTGCATAAAATTGGAATTTGTTAAAGAATTGATCTTGCAGGGTGTGGTGGCTCACGGCTGTGATCCCACCACTTTGGGAGGCCAAGGCAGGGAGATC
R
TTTGAGCCCAGGAGTTTGAGGCTGCAGTGAGCTATGACTGCACCACTGCACTGTAGCCTGGGCAACAGAGTGAGACCCTGTCTCTTAAAGAAATAATAAT
Celera SNP ID:            hCV27150289
SNP Position Genomic:     52478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4183):
AACAGCTCCCAAATGGTGAAACTGGTATTCTAAGATGAAAGCTTAATGAACATAATGAAGTGAATAAACGCATGTGAACTAATGTTTAAAAAGTTAGAGC
Y
TGTCTCAAGTCAGTACAGCTCTTAAGATAATAAATACAGTAACACTACTTTTTATTTCTTTGCTCTTTTATCCCTTTCAGGTTCGATTTGCTGCTTTGAT
Celera SNP ID:            hCV25761565
SNP Position Genomic:     58331
SNP Source:               Applera
Population(Allele,Count): african american(T,30)   caucasian(C,1|T,15)   total(C,1|T,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:4184):
AATGCTTTTTTTAACCCAGGAGTGTGACTGTCACCTTTATCCTTTGTTCTTTTGGGAAACGGGAGAGATGAAGGCAACACGCTGCTTCTAAAACAGCTCA
Y
ACCTGGCTGCTCACACAGAGGGCCCAGAAACACTGGGTGGCACGAGGAAGCTCCTCCAGGATTCAGAATGAACCCAGTTCCATTGGTGGTTAACTAAGAA
Celera SNP ID:            hCV1347713
SNP Position Genomic:     60263
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,5|C,14)      total(C,14|T,5) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:4185):
TGCCTGAGGTAGGCAGATGGCTTGTGCCTGGGAGGTCAAGGCTGCAGTGAGCTGTGATTGCACCACTGCACTCCAAACTGGGCAACAGAGCAAGACCCTG
K
CTCAAAAAAAAAAAAAAAAGGGCTGTACATCTATACATATTTCTGGTCACTTCTAAGTATTGCTTTTAAGTTACTGGCACTAGCAAAATCTCACCAAACA
Celera SNP ID:            hCV11682473
SNP Position Genomic:     29976
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:4186):
CTGATTGATGGTAATAATATTAGACTTGTTAATTTTAGCACCCAAAGCTGACGCCTCATTTGCACTGTAAGCCTTAACTCTTCTGTACAGCAGTATCTTA
Y
ATACATGGTATCCATGTTGCAGATTTCACTCAAAGTTGCTCTATTTCAAGAAAATGAAGTTATTTAGCAATCAACAGAAGTACTTTTGACTGTAAAGCCT
Celera SNP ID:            hCV1347714
SNP Position Genomic:     59991
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,12)      total(C,12|T,4) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:4187):
TGGCCCTGATTTCTATGGGCTCATGAATTCTTTATTCTGTGGATTCTAATCCATATGCTGCCATTATATATTTGGGTGCAGGAATTTTCCTTTCTCTCCC
W
TGTCCTCGGGGTTTGCCTCCTGGCCTTGCTGTGTACCTCCTTTTCAGATGCATGGCATTCCCAGGGCCACTGTCCTGCCCCTTCCACTGGAAAGTGCCTG
Celera SNP ID:            hCV7540478
SNP Position Genomic:     49815
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4188):
CACTCATATTTCATATTTTTATTTTTGGGTGTTGGGTGCCATGTTACTTTTGGTGCCTTAATACACCTACTTGGATTACTTACAAATGTTTTATCACTTC
K
TTACAAAATCCCCACCTGGCTTGTGCTGCCACATAAGCCTCTCCTGCCTATCGTATAGAGCTGCAGAAAGAGTAAATGATACACGGTATTTTTATACAGA
Celera SNP ID:            hCV1347715
SNP Position Genomic:     59755
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|T,12)      total(G,3|T,12) ;no_pop(T,-|G,-)   ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:4189):
CCAGGACACACCCATTTACTGTACTTTGCTTTATCAAAGAGCTGCATTTAACTCCCTTCAATTTCTCTAGTGGTACAATTTCAAATTGAAGTATATTATT
W
TCTGAATATAATACCATGACATGTTTTAAAATGTGACGTTAATTCTAACGGGAATATATGTGTGTTGTAAGAGCTCTTAGAATGGAATTTCAGCCTAGTG
Celera SNP ID:            hCV7540479
SNP Position Genomic:     51637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4190):
ACACTATTTATAAGGTTGCACATATTACAAACAGCTCCCAAATGGTGAAACTGGTATTCTAAGATGAAAGCTTAATGAACATAATGAAGTGAATAAACGC
R
TGTGAACTAATGTTTAAAAAGTTAGAGCTTGTCTCAAGTCAGTACAGCTCTTAAGATAATAAATACAGTAACACTACTTTTTATTTCTTTGCTCTTTTAT
Celera SNP ID:            hCV1347717
SNP Position Genomic:     58302
SNP Source:               Applera
Population(Allele,Count): african american(A,19|G,13)   caucasian(A,5|G,13)   total(A,24|G,26)
SNP Type:                 INTRON

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(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4191):
AGGAGACCTGCCAGAGGTGGCTGGAGGCACTTTATTGCCAGCCTGGCGGGCTGGCGAGCGCCAATGAAGTAAAATCTGGTGACACACTTGAGTTTGCATG
Y
GGCATTTTATTTTATTGGTTTTTTTTAAAGGAAGAGATTATAAAAAGACATTTCACATTAAAGATTTGCAGTCCTGGGACACAGTTTGGAAAACACTATT
Celera SNP ID:            hCV1347718
SNP Position Genomic:     58109
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:4192):
TTTTAAAGCCCCAAAACTAGGATATTGTGACACAGAATGTTTTTTATTCAGTGCTGAGATGGGAGTTTATCCCAAGCGACTGTCCTGGCCCCTCATACAA
Y
TATAGTGGTGACCAGTCAGGGGCTGTGGGTGAGGAGACCTGCCAGAGGTGGCTGGAGGCACTTTATTGCCAGCCTGGCGGGCTGGCGAGCGCCAATGAAG
Celera SNP ID:            hCV1347719
SNP Position Genomic:     57977
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|T,13)      total(C,5|T,13) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   JBIC-allele(C,686|T,805)   total(C,686|T,805) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4193):
GCCTTATTAAATAAACCTTTGTAAAGGATTAGATGTGTGATTTAAATACATTAACCAGTTGGCAAGTGCAATTATGTTCATTACAGTTTCTGAAATTATT
M
TTATAATTACTTAGAAATCAGTGCTTAGTACTTTATAAAGGCTTTCTGTTTGTCATCTCACTTTAAATGTAAAACACATAATACCTAGATAGACCTGAGT
Celera SNP ID:            hCV16117062
SNP Position Genomic:     25137
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4194):
TTTCTAAACACCTAACATTTTGCTGCTTGTTTAAAATCATCTGCAGGTTTGGAGATTTTTGCCATGTACCTTATTCAGATTAGTGGTAAAACAGTGAAAT
S
AAAGAATTCCCTTTAACTATGTCTTGGCAATCCAACTGTTTATCTTCCTGTTTTGAAATATACCTATTTTGGCCAGGCACGGTAGCTCACGCCTATAATC
Celera SNP ID:            hCV16117063
SNP Position Genomic:     26658
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4195):
ATACTTTTCCCTGAACAATTCCTCAGTGTTTATTTTTTGTTAGTTCTTTGAAAGAGCACATAATTACATTTGTAACCAAATTTTGTTACATTTAAAGTAG
W
TATGTAATTTCAAGTTTTATTTCTAAAATAAAATTCCACAAAAGTAATTTTTTATTCGCTTACAAAATTTCGGTCTTTATTTTAGGTGAGTTTACTGTTA
Celera SNP ID:            hCV16117064
SNP Position Genomic:     30741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4196):
ATAAAATTCCACAAAAGTAATTTTTTATTCGCTTACAAAATTTCGGTCTTTATTTTAGGTGAGTTTACTGTTAAGGTTTTTCTAGTTATATTTGGATAAG
R
ACAACTCTATACATTTTTTAACTTTAATTTTTCAATTAATATGGACATCTTTCCATATTAATAAATGGAAAAATTTATCTTTTTACAACTGCCTGCAGAG
Celera SNP ID:            hCV29366290
SNP Position Genomic:     30869
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4197):
ACATATTAATTAAAGAAGAGATACTGAGTGAAAATGATCAGTTGTCAAATCAGGTGGTTGTATGTTTGCTGCCATTTATGGTTATCAATAATGATGATAC
R
GAATCTGCTGAGATGAAAATTGCTATATATTTATCAAAATCAGGAATCTGCTCCCTGCACCCTCTATTAAGAGGCTGGGAAGAAGGTAAAAAATTCAGTT
Celera SNP ID:            hCV27490599
SNP Position Genomic:     24189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:4198):
AATGTATTCTTCCTATTCTGAAGGTAATGAGTAATGTCCCAGTCTTTGAAAGCAAGGGCTAAGATCAGATTCATATGTTTATTATAAATCTGAAATAGAT
R
ACAGCTTTTGGTTCAGTAAGGGGGTGGGTACTGAGATAAAAGTTTAACCTCTTTTCAGAGATAGTTGATTGGCACCATCACAACTAATTTGTAATGTGAC
Celera SNP ID:            hCV29366292
SNP Position Genomic:     16010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4199):
ATCTCTATAATCAAGATAGCCTCATTGCTTGTGTTCTGCCATACCACGAGACAAGAATATTTGTGCGAGTCATACAGCTTCTAAAAATTAATAATTCAAA
R
CACAGATGGTTCTGGTTGTTGCCAGTTAAGGTATAATTGCTGAATGACATATGTCTGTAATCATTACAGATCTTGATTAAGGGATTTAATTAGGAAAAAA
Celera SNP ID:            hCV29366293
SNP Position Genomic:     11003
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:4200):
AGACATTTACATGAAAAGAAAAAAAGTAGGTACCACAGGAGTGGCAGCAAAATATTAAAATTGTACCATGCAGCAGAGCCTTGAAGAAAATCCCACGAAC
Y
GCAGCACCACTGAGGCTGGCTTAGGAAAGGGTTGATGAAGCCAGGTGTGATGGTGTTAGCCTGTGGTCCCAGCTACCCAGGAGAATGAGACAGGAGGATC
Celera SNP ID:            hCV15901306
SNP Position Genomic:     45023
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4201):
GCAGGGACAGACGAGGGAGGTCCCTGGACAGTATGTGGTGTATGTGGTATATGTGGTGATGTGGGTAAGGAAGTGTCTTAGCAGTAAGTCATTCTATAGG
M
TAGTGGTTTTTAACACTGCACTGCCAACCCCATTTACATTAGACACATTGAATAAAGAAATCTACACCTGCAGTTGGAAGTTCAGAGACTCCTTCCGTGA
Celera SNP ID:            hCV15901307
SNP Position Genomic:     45482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4202):
CAGGGACACCGCCTTCGCCATTGGTGAGCCATCTTTTAACTTAGAAAAGCTCTTGGAAGCGTTTGTTTTCTGGATGTTACTGTTTTTTTTTTTTCCCCTT
S
TTTTCTCTTCTGTCCCGTCCTCTTCCTTAGCAGTTTCTAGCATGTTGATGTATATTTTTAAGGGAAAGAGAACATAACAGTCAGGTGCTTGGTGCTTGAA
Celera SNP ID:            hCV7540408
SNP Position Genomic:     6641
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4203):
CTTGTGGGTGAAGAAGACAATTGTAAGAGTTGCATGTGTGCGCTCAGAAGAGATAAATGTAATATTAATTTGAGAGGGGGATGAGTTGAGGTAGAGAAAA
M
CAGATACAAGATACAAAGACAAGTACTGGTGAGTTTCTTTTTATTTTAAAATTAAATGTGTTGTCCCTGTCTAATCATTAAGTTTATTTTAAATGAACTT
Celera SNP ID:            hCV15823941
SNP Position Genomic:     34458
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4204):
TTGTTCCTGCACACTTGAGGCAGTGAGTACTAAGCTGCTTTCTTGGCAAAATAACAAGATGGTTGGGGAAGCAGGCAATGTTATCCTCTGAAATACCATT
R
CTTGAGAAAAACAATGATAGCTAATGTGTTTTTGAGCATTTATACACTAGGCCCTGGTAAGCACTTTATCTGCATTATCTCATTTAATTCTCACAGCATT
Celera SNP ID:            hCV7540409
SNP Position Genomic:     8021
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4205):
ATGTAATATTAATTTGAGAGGGGGATGAGTTGAGGTAGAGAAAAACAGATACAAGATACAAAGACAAGTACTGGTGAGTTTCTTTTTATTTTAAAATTAA
R
TGTGTTGTCCCTGTCTAATCATTAAGTTTATTTTAAATGAACTTAACAGTCTCGTGTCTCATGGGGCTGCACTGCTGAAAGAAGCTGTTGGTTCATCTCT
Celera SNP ID:            hCV15823942
SNP Position Genomic:     34514
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4206):
ATGGATGATTCTGTATTGCATTACTAGTTGTCCACTCTAAGGGATGAGCGTGAAATTGAGTGACTCTGGACTGGAGAAGTGATACTGTATCATAATCAAG
W
CAAGTGCAGGGCTGTAACTTGAGACTCCCAAGACAAATTGTATAGAAAGCAAGTGCATGGTAGTAGGAGAGCTTGGTTAAAATGAAAATCTGAAGTTGAA
Celera SNP ID:            hCV15823943
SNP Position Genomic:     37347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4207):
GTGACTTTTTTTTTTTTTCCTCTGAGTAGACGTTGCATAAAATTGGAATTTGTTAAAGAATTGATCTTGCAGGGTGTGGTGGCTCACGGCTGTGATCCCA
S
CACTTTGGGAGGCCAAGGCAGGGAGATCGTTTGAGCCCAGGAGTTTGAGGCTGCAGTGAGCTATGACTGCACCACTGCACTGTAGCCTGGGCAACAGAGT
Celera SNP ID:            hCV27150290
SNP Position Genomic:     52449
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4208):
GGGAGGCCGAGGCGGGCGGATCATGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTCTCTACTAAAAAATACAAAAAATTAGCCGGGCGTGGTGG
Y
GGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGAAGGAGAATGGCGTGAACCCGGGAGGCATAGCTTGCAGTGAGCCAAGATCGAGCCAATGCATTC
Celera SNP ID:            hCV27150291
SNP Position Genomic:     47084
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4209):
TCTGTTGCCGAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAAGCTCTGCCTCTTGGGTTCATGCCATTCTCCTGCCTCCGCCTCCCGAGTAGCT
R
GGACTACAGGCACCCGCCACCACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGATG
Celera SNP ID:            hCV27150292
SNP Position Genomic:     40342
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:4210):
TGTTTGTTTGTTTGTTTTGAGACGGAGTCTCGCTCTGTTGCCGAGGCTGGAGTGCAGTGGCGCGATCTCAGCTCACTGCAAGCTCTGCCTCTTGGGTTCA
Y
GCCATTCTCCTGCCTCCGCCTCCCGAGTAGCTAGGACTACAGGCACCCGCCACCACGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCAC
Celera SNP ID:            hCV27150293
SNP Position Genomic:     40309
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4211):
GTAAATCTCATAATGTCATGCACTTTCATCCCTCTGTACTTCAGTGTGCATCTTTTGAAAAGTGGATATGACTACAATGCCATTAGAAGTAAAAAAAAAA
A
TAATTCCTTGGTATTATCTAATACCTAGTTCATAATCATATTTCCATGGTTATCACAAAAGTATTTTTTATAGTTGTTTTCTTTGAATCAGAATCCAAAG
Celera SNP ID:            hCV27150294
SNP Position Genomic:     36978
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,13)   total(A,13|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4212):
TGGATGATTCTGTATTGCATTACTAGTTGTCCACTCTAAGGGATGAGCGTGAAATTGAGTGACTCTGGACTGGAGAAGTGATACTGTATCATAATCAAGA
M
AAGTGCAGGGCTGTAACTTGAGACTCCCAAGACAAATTGTATAGAAAGCAAGTGCATGGTAGTAGGAGAGCTTGGTTAAAATGAAAATCTGAAGTTGAAT
Celera SNP ID:            hCV15823947
SNP Position Genomic:     37348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4213):
AAAAATGCAGCAGAAGTAAGAGCTACAAATGCATTGAGCACATGCTGTTGTTCCCTGACTCTGAATGTTATGAAACCATTGGAACTTTTTGATACTCATC
R
ATTTGCTATAATCAGGCACAATGGTTTTTACTTAGCACATGATAGAGTTTGCTTTTCCAACGTTTTGTCTTCTCCATTTTCCAGAAAATCACAAGATCTA
Celera SNP ID:            hCV15823948
SNP Position Genomic:     37876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4214):
AGGTTACCCGTTTCCTAAAACTGGTTCCAGACCTTTTGGCCATTGTGCAGCGTAAGAAAAAGGAAGGGGAAGAAGAACAAGCAATCAACAGACAGACAGC
R
TTGTATACCTTAAAGCTTTTATGCAAGAATTTTGGTGCAGAAAATCCAGATCCTTTTGTCCCAGTGCTGAACACTGCTGTGAAACTGATTGCTCCAGAGA
Celera SNP ID:            hCV7540480
SNP Position Genomic:     52088
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4215):
TGAATTTATATAGATATAGATATGTGTGTATATAGTGTTTGCTATCTAAATATATTTTCATATATATAGATGTATATATTCTATATACGTAGATTTGTGT
R
TGTGTGTGTGTAAATTGAGTATGAATTGTAGCGTGTGCTTTCATGTGAAAGGCAAAGTAATTCTGAAGGTTGTCCTGTAAGATTCCAGATAGGCTAATGG
Celera SNP ID:            hCV15823949
SNP Position Genomic:     38496
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:4216):
GTGGCGTGCACCTGTAATCCCAGCTGCTCAAGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATTGCACCATTG
M
GCAATGTCCAGCTCATATGTGATAGCAGTTGGTGTAGAACAGAGTTTATAGTATGCTCTTGTGTATTTTCAAAAGAATGCACCAGGTAACATATGCCTAA
Celera SNP ID:            hCV27150295
SNP Position Genomic:     33310
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4217):
GCATTCCTGCTGAAATCATCACTCTCATTGAACATGATTCTAGAAGTACTAGCCGGCAGAAATAGACAAGTTTCAAATACTTATGGAATGTATGAATATA
R
TAAAGGCAAAATCAAAGATCTGTGAGATGGTTATGTGGATTGTTAAATGGGACATCTGGCTATCCATTTGGAAACATTAGGAAGTTTGACTCCAACCTCA
Celera SNP ID:            hCV27150296
SNP Position Genomic:     32200
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:4218):
ATGTGAGGAACACCTAGACGTTTTTAAAGCCCCAAAACTAGGATATTGTGACACAGAATGTTTTTTATTCAGTGCTGAGATGGGAGTTTATCCCAAGCGA
Y
TGTCCTGGCCCCTCATACAATTATAGTGGTGACCAGTCAGGGGCTGTGGGTGAGGAGACCTGCCAGAGGTGGCTGGAGGCACTTTATTGCCAGCCTGGCG
Celera SNP ID:            hCV1347720
SNP Position Genomic:     57956
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,12)      total(C,12|T,5) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4219):
GCTTGTGCCTGGGAGGTCAAGGCTGCAGTGAGCTGTGATTGCACCACTGCACTCCAAACTGGGCAACAGAGCAAGACCCTGTCTCAAAAAAAAAAAAAAA
A
GGGCTGTACATCTATACATATTTCTGGTCACTTCTAAGTATTGCTTTTAAGTTACTGGCACTAGCAAAATCTCACCAAACACAAAAGTTTAATAATAGAA
Celera SNP ID:            hCV27150297
SNP Position Genomic:     29995
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,5)   total(A,5|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4220):
TATAGATACTAGGCTTATGATCTTGTTGAGTAAGTGGTGGCAGTGGAAATAAAACATGGGTAGGTTGAGTGGAAGTCAAAATTTGACACCCAAGTGTTAC
R
AATTTCAAACTGTTTTAGCAATGAGTCACCATTTCTCAAACTAATGATTGTATTAGAACTTTACTGGCTATAACAGACCAAAGCAGAATTTTATTAATAG
Celera SNP ID:            hCV1347721
SNP Position Genomic:     57449
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,14)      total(G,14|A,3) ;JBIC-allele(A,684|G,811)   total(G,811|A,684)no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4221):
AAGCAGGCAGATCATGAGGTCAGGAGATCAAGACCATCCTGGGCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGC
R
TGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCTGGAGAATTGCTTGAACCAGGGAGTTGGAGGTTGCAGTGAGCCGAGATTGTGCCACTGCACTCC
Celera SNP ID:            hCV27150298
SNP Position Genomic:     29546
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:4222):
CTATCCCCACCCCAATGGTGCGTTGGGCAGAAGTACTAAAATACTTTCTAAATACTTTTAAATAACAAAGATTTGAAGTAATTCCTTCTTTTTTAAGTGC
Y
ATTGAAATGTCATTGTGCTCCAGAGAGAAATGCATTGAATTTATCCACACTATAGTCTTTTGAGTTAGAGCAATACATTCTGTTGTTTATAGATACTAGG
Celera SNP ID:            hCV1347722
SNP Position Genomic:     57261
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,12)      total(C,12|T,2) ;(C,-|T,-)   (T,-|C,-)   Caucasian(C,36|T,48)   African-American(T,42|C,42)   Asians(C,38|T,46)   total(C,116|T,136)   JBIC-allele(T,681|C,816)   total(C,816|T,681)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4223):
GCGGTATCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAAGCAGGCAGATCATGAGGTCAGGAGATCAAGACCATCCTGGGCAACATGGTGAAACCC
Y
GTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCATGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCTGGAGAATTGCTTGAACCAGGGA
Celera SNP ID:            hCV27150299
SNP Position Genomic:     29505
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4224):
CTTTGTCTTACTCTTCCTAGCTGGAAAACAGGCTTGGGGGAGAAGAGAAATTCCAGGAACGGGTGACAAAGCACCTGATACCATGCATCGCACAGTTTTC
R
GTGGCCATGGCGGATGACTCTCTTTGGAAACCACTGAACTACCAGATTCTGCTAAAGACGAGAGACTCCTCGCCTAAGGTTAGGAACTGCGTGACAAGTA
Celera SNP ID:            hCV1347723
SNP Position Genomic:     56860
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,23)   caucasian(A,23|G,5)   total(A,34|G,28)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,14)      total(G,14|A,3) ;(G,-|A,-)   JBIC-allele(A,689|G,812)   total(G,812|A,689)   no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4225):
CGTCTGCGTCTACCATCGGCCTTCGTCCCTGATCGCAAGTTGGGCAAGAGGTGTCTGCCCAGTTTTATCCACTGACGTTTAGGGCTGACTTTAAAAGGAA
Y
TCTGTGTGTAGTTAAAAAGTGCTAAGCATTTTCCAAACACTAGTACCTCATCATGAAGCCTCTCTGTAAGTGTGTGTTTGTCAGCGAAGATCTGCAGTGG
Celera SNP ID:            hCV7540487
SNP Position Genomic:     54131
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,11)   caucasian(C,9|T,1)   total(C,18|T,12)
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:4226):
TTCTAGAAGGCAATACATTTGCCCTAGAGAGTATTAGAATAATGCCTGGTTTTTGAACCTGCTAATATCATGAAAGATAGTAAAATATTTGTATGTTGGA
Y
ATTTTTTCAAACAGAAGAAAGAAATGAGACTTGTTGTTCAAAGTCTTTGTCTTACTCTTCCTAGCTGGAAAACAGGCTTGGGGGAGAAGAGAAATTCCAG
Celera SNP ID:            hCV1347724
SNP Position Genomic:     56715
SNP Source:               Applera
Population(Allele,Count): african american(C,13|T,25)   caucasian(C,26|T,6)   total(C,39|T,31)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,14)      total(C,4|T,14) ;(T,-|C,-)   no_pop(T,-|C,-)   JBIC-allele(C,688|T,805)   total(C,688|T,805)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4227):
ATCGCTTAGCATGACTGTGTGACTCAGGACCCCCGAGTCTGATTTCCATTTAGACAATCTCAAGCTGTGACAATGGGAAAATGGACAAACATTTTTTGCA
R
CTTTAATGATTTGGGGATTCTGGCTGTCCCCTTCAGGTTACCCGTTTCCTAAAACTGGTTCCAGACCTTTTGGCCATTGTGCAGCGTAAGAAAAAGGAAG
Celera SNP ID:            hCV25609025
SNP Position Genomic:     51953
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:4228):
TTTTTTATTTTTTATTTTTTAAACTGCTCAAAAGACAGACATGATATAAGCTGTCATGGTTAATGTATTCATTTGTTTTAACTGGGCCTCACTGAGAACG
Y
GTCAGAGCATGGCTGTCCTCTGGAGCAAAGAGCTCCTCTGAGATGTTCTGCTGGAGAGAAAGGGGCGATGATAAAGGGTATGAGATTCCATTTGAGTTCT
Celera SNP ID:            hCV1347725
SNP Position Genomic:     56518
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,14)      total(C,14|T,4) ;no_pop(T,-|C,-)   JBIC-allele(T,693|C,802)   total(C,802|T,693) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4229):
CACTGCATAGCCTAAACAGCCTGCAGGTGGTCACAGATGTAGGCCCCCTAGTAAACTGGCAGGGAAGAACATTGCTATTTGTCATCCAGTACTAGAGGTC
Y
GGTCTTTTGTATTAGGCAGAAATTTGTGCCTAAGAAAATTTTGTTTTTTACTTACAGGCTATTTGTAAAGAATAGCAATGCCCTATCCCCACCCCAATGG
Celera SNP ID:            hCV7540488
SNP Position Genomic:     57078
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,13)      total(C,13|T,2) ;(C,-|T,-)   no_pop(C,-|T,-)   JBIC-allele(T,682|C,811)   total(C,811|T,682)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4230):
TAAGAAAAAGGAAGGGGAAGAAGAACAAGCAATCAACAGACAGACAGCGTTGTATACCTTAAAGCTTTTATGCAAGAATTTTGGTGCAGAAAATCCAGAT
S
CTTTTGTCCCAGTGCTGAACACTGCTGTGAAACTGATTGCTCCAGAGAGAAAGGAGGAGAAGAATGTCCTGGGAAGCGCGCTGCTGTGCATAGCAGAGGT
Celera SNP ID:            hCV25609026
SNP Position Genomic:     52140
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:4231):
CTGGCAGGGAAGAACATTGCTATTTGTCATCCAGTACTAGAGGTCCGGTCTTTTGTATTAGGCAGAAATTTGTGCCTAAGAAAATTTTGTTTTTTACTTA
Y
AGGCTATTTGTAAAGAATAGCAATGCCCTATCCCCACCCCAATGGTGCGTTGGGCAGAAGTACTAAAATACTTTCTAAATACTTTTAAATAACAAAGATT
Celera SNP ID:            hCV7540489
SNP Position Genomic:     57133
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,13)      total(C,13|T,2) ;(C,-|T,-)   no_pop(T,-|C,-)   no_pop(C,-|T,-)   JBIC-allele(C,590|T,893)   total(C,590|T,893)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4232):
GACCCTGAAAAGTGCTGCTTGCTGTTGCAGTTTATTTTGAACTGTTTATACAAAATCTTCCTTTTTGATACCCAGCATTTTATAAGTAAAGAGAGAGCAG
R
AGCCTTGATGATGCCTCTGGTGGATCAGGTAACCAAACAGAATCATCTTTCGTTGCTGAGGAAGCCATCACTGTTCGAGCTTGGCAGGTTTTAGATCTGC
Celera SNP ID:            hCV1347726
SNP Position Genomic:     55893
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,13)   caucasian(A,9|G,29)   total(A,32|G,42)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(A,107|G,205)   Chinese(A,23|G,37)   Japanese(G,8|A,12)   African(G,42|A,56)      total(G,292|A,198)no_pop(G,1|A,12)    ;(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:4233):
AGTGCTTGGAAGCAAGATTTTAGAGGTTCTTAAGTCCTAAGCTAAGGAGGGTGAATTTTTTACTTCATTGTTGTCAGACAGTGAAGTGTTGTTTTAGCAT
S
ATGAGCGAATGTTATAAGTCACCTCACTTGGGAGAAAGAATAAAGTAAATGGCCGTTACTGTCAGTTACTGGAAGTAACTTTAAAACGCAAAAATTAAGA
Celera SNP ID:            hCV1347727
SNP Position Genomic:     55398
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,15)      total(G,3|C,15) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4234):
TTTAGACTCTTCTGATTTAGTTATTTTAATAGTGATTTCAATGTAAACATTGGAGATTAAATGGTTAAGTTCAGTGTTTTTTCATTTTTACTCTTCCCAC
R
TCTACAGATGAAGCATTTTTTGACTCTGAAAATGACCCTGAAAAGTGCTGCTTGCTGTTGCAGTTTATTTTGAACTGTTTATACAAAATCTTCCTTTTTG
Celera SNP ID:            hCV25609027
SNP Position Genomic:     55759
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,29)   caucasian(G,40)   total(A,7|G,69)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4235):
TGTTTGCCGGCCACTTAGTGAAGCCTTTTGCTGACACCTTGAACCAGGTGAACATCTCCAAAACAGGTGGGTGGTCGCTTCAGTTCAGCTGTCACCCTTG
Y
CCTGTGTGCCTTATACAAGGTACCAGTAAGACACAACCTAGTGCTTGGAAGCAAGATTTTAGAGGTTCTTAAGTCCTAAGCTAAGGAGGGTGAATTTTTT
Celera SNP ID:            hCV1347728
SNP Position Genomic:     55258
SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,7)   caucasian(C,6|T,18)   total(C,31|T,25)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,16)      total(C,16|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4236):
CACCTGATACCATGCATCGCACAGTTTTCGGTGGCCATGGCGGATGACTCTCTTTGGAAACCACTGAACTACCAGATTCTGCTAAAGACGAGAGACTCCT
Y
GCCTAAGGTTAGGAACTGCGTGACAAGTACTGAAACTGCATCTTTTCACTGCATAGCCTAAACAGCCTGCAGGTGGTCACAGATGTAGGCCCCCTAGTAA
Celera SNP ID:            hCV25609028
SNP Position Genomic:     56931
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,24)   total(C,53|T,5)
SNP Type:                 MISSENSE MUTATION;hmCS

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


Context             (SEQ ID NO:4237):
GTTGACATTTTACAACTTGGCAGATTGCATTGCTGAAAAGCTGAAAGGGCTTTTTACTCTGTTTGCCGGCCACTTAGTGAAGCCTTTTGCTGACACCTTG
R
ACCAGGTGAACATCTCCAAAACAGGTGGGTGGTCGCTTCAGTTCAGCTGTCACCCTTGCCCTGTGTGCCTTATACAAGGTACCAGTAAGACACAACCTAG
Celera SNP ID:            hCV1347729
SNP Position Genomic:     55199
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,11)   caucasian(A,8|G,28)   total(A,33|G,39)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,16)   Caucasian(A,107|G,205)   Chinese(A,21|G,39)   Japanese(G,8|A,12)   African(G,43|A,57)      total(G,295|A,197) ;(G,-|A,-)   JBIC-allele(G,682|A,805)   total(G,682|A,805)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4238):
TGTCTGCTCAACATCTGCCAAAAACTATCTCCAGATGGTGGCAAAATACCCAAAGGTAGGTACTTTTTGGAAGGAAAGGTTAGAAAAATTATCTACTTTG
R
GCGTGAGTGTACCTGCCACTTAGGGTTTTTGTCTTTCTCACCATTGTAGATATTTTAGATGAGGAGAAGTTCAACGTGGAGTTGATAGTTCAGTGCATCC
Celera SNP ID:            hCV25609029
SNP Position Genomic:     38993
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,1)   caucasian(A,28)   total(A,57|G,1)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,32)   total(A,67|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:4239):
TAAAATTAAATGTGTTGTCCCTGTCTAATCATTAAGTTTATTTTAAATGAACTTAACAGTCTCGTGTCTCATGGGGCTGCACTGCTGAAAGAAGCTGTTG
S
TTCATCTCTGTTTTTCAAGTGAAAATTCTATACAAAGGAATATATTTGGACACGAGTCTATGAAAATTCCAAAATCATTTGCTCGTTTATTATATATATT
Celera SNP ID:            hCV16117074
SNP Position Genomic:     34605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4240):
AACAGGTTGCATTCAGCCCTTAGTTGTCCCTGGTATAGTTTAAATTAATAATTGACAAATTTCTTGGGTAAAGGACCAGATAGGAAATATTTTATGCTTT
Y
GGGGCCACACAGTCTCTGTTGCAGCTACTCATCTCTGCAGTTGTATCAGGAAAGCAGCCACAGACAGGGTGTAAACAAATGAGCATGGCTGTGTTTCAGT
Celera SNP ID:            hCV16117075
SNP Position Genomic:     35034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4241):
GTTAATATCTCATTTATCCTCAAGTAATCCTCAAAGTAACCTTTAACCAGTGACTTCAGAAAATTAATTTGATCATAAACTATGTCATTTAAAGAAATCA
Y
GTCCCTTTTATGAAAAATATCATTTAAACATTTGTAAAGAGATTGAAGCTATTTTCATATTGAGGATTTGAGTCAGAGCTCCTTAACCTGGGGTTCTCCA
Celera SNP ID:            hCV16117076
SNP Position Genomic:     39599
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4242):
TATCTCACTTAAAAACCACAACATTTTATCTCTGTTTTACAAAGGAAGAAACTAGAGGCTTAAAAGATTTCAGTTATTTGACAAAGATCACAAGCTAGTG
R
GTGTGACATGGGGAGCTGTGACAGTTCTGGAACATAGAGTCTTAGGCCCAGGAAATAACAGTAAATGTTATTATTAAGGGAGGGGTGGTGGAGCAAGTAG
Celera SNP ID:            hCV16087509
SNP Position Genomic:     59072
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,16)      total(G,3|A,16) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4243):
GGTGGTACTGCAATGTGTAAACTTTGACTTAAAGAAGAAGATTTAGTTTTTAAAAATACACACCGCTGAACTCTAGGAATCATTTGAAAATGGCACATCT
Y
TTTCCTGTGTTATTGGTAGAATCACATGGGTCCGTTTATGAGCATCTTGCAAGAGCATATTGGGGTGATGAAGAAGGAAGAGCTCACCTCCCATCAGTCT
Celera SNP ID:            hCV11405532
SNP Position Genomic:     54560
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,7|T,25)   total(C,42|T,28)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,12)      total(C,12|T,1) ;no_pop(T,-|C,-)   JBIC-allele(T,588|C,909)   total(C,909|T,588) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4244):
GTTGATGGAAGGTAATTCCCAAACTATTCCCAACCATTAAACAATTAAGGAATAATTCAGTAAAATTCTGTGAAAATGTGCCCAATGATAATGCAGATTT
K
GATATAACGTGACTAGCAGTTGATCCAGTCCTCATACAGGCAGCTCCAGTCTCAAATACAGGCAGGCTCGAGCTCCTGTTTTGAGTTGGGTGGAGGGAGC
Celera SNP ID:            hCV11405534
SNP Position Genomic:     58610
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4245):
GTAAGGAATACTTTTTGCATTTGATTTTTCATTTTATGTCTTCAGATAACTTATTTATTCAGCAAATACTAAGTTCAGTACATAGATAAGTAGGTTGCCG
Y
TGATTACTGTTTTGAAATAAATGCCATAATAAAGGATTAAGCAGAGTTTTGTGGATATAGTTCTGCCTGGAATAGTTGAAGAAAGCTTCATGGAAAAAGT
Celera SNP ID:            hCV7540416
SNP Position Genomic:     9553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4246):
TCTCAAAGGGGTTGATAATCCAGAAACAGTTAAGAATCATTAATATTTTTTCTGTTTTTATTGAAATATAGTTCAGATGCCATAAAATTCACCCATTTAA
R
GTATACAATTAAGTGATTTTAGTATATTCACGAAGTTTCTGTAATCACCACCACGATCTACTTGAAGAGTATTTTCATCACCCCAGAAAAGAAACCCTAC
Celera SNP ID:            hCV15823953
SNP Position Genomic:     39889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4247):
GCTAATGTGTTTTTGAGCATTTATACACTAGGCCCTGGTAAGCACTTTATCTGCATTATCTCATTTAATTCTCACAGCATTCCTCTGGTGAGATTATTTG
Y
ATTATCCTTGTTTTACAGTTGAGAAAACTGAGGCTTAGAGGGATTAAGTTTCTTGAGTCACACAGCTAGTAAGTGGCAGAGCTAGGATACAGCTGAAGTT
Celera SNP ID:            hCV15823955
SNP Position Genomic:     8141
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4248):
ACACCAAACAATTAATTCTTAGTTGTCTGCTCAACATCTGCCAAAAACTATCTCCAGATGGTGGCAAAATACCCAAAGGTAGGTACTTTTTGGAAGGAAA
R
GTTAGAAAAATTATCTACTTTGAGCGTGAGTGTACCTGCCACTTAGGGTTTTTGTCTTTCTCACCATTGTAGATATTTTAGATGAGGAGAAGTTCAACGT
Celera SNP ID:            hCV25609030
SNP Position Genomic:     38970
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,31)   total(A,1|G,67)   
SNP Type:                 INTRON

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:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,31)   total(A,1|G,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:4249):
TGTCCTGAAGATGTTTAGAACCCTTGCCACAAGAGCAGGGAAATATGGAATACACCAAACAATTAATTCTTAGTTGTCTGCTCAACATCTGCCAAAAACT
R
TCTCCAGATGGTGGCAAAATACCCAAAGGTAGGTACTTTTTGGAAGGAAAGGTTAGAAAAATTATCTACTTTGAGCGTGAGTGTACCTGCCACTTAGGGT
Celera SNP ID:            hCV25609031
SNP Position Genomic:     38919
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,36)   total(A,69|G,3)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,34)   total(A,68|G,2)   
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,28)   total(A,61|G,3)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:4250):
ACATGGGTCCGTTTATGAGCATCTTGCAAGAGCATATTGGGGTGATGAAGAAGGAAGAGCTCACCTCCCATCAGTCTCAGCTAACCGCCTTTTTCCTGGA
R
GCCCTGGACTTCCGAGCCCAGCACTCTGAGGTAAGCTCAGGTTCACTCCTCCAAATCCTAAAGCTGTTATCCACCTATTGAAGAGTCCGAGAACAATCTA
Celera SNP ID:            hCV1347730
SNP Position Genomic:     54684
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(A,4|G,22)   total(A,8|G,52)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,10)      total(G,3|A,10) ;JBIC-allele(A,70|G,1403)   total(G,1403|A,70)   (G,-|A,-)   no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4251):
ATCATGATCCATGTCAAGTCTGTGTATTGTATTGAGTTGCAGTATCTGTTTAGTGTCTTAATCTGGCCCTGATTTCTATGGGCTCATGAATTCTTTATTC
Y
GTGGATTCTAATCCATATGCTGCCATTATATATTTGGGTGCAGGAATTTTCCTTTCTCTCCCATGTCCTCGGGGTTTGCCTCCTGGCCTTGCTGTGTACC
Celera SNP ID:            hCV793611
SNP Position Genomic:     49752
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4252):
TGAACTCTAGGAATCATTTGAAAATGGCACATCTCTTTCCTGTGTTATTGGTAGAATCACATGGGTCCGTTTATGAGCATCTTGCAAGAGCATATTGGGG
Y
GATGAAGAAGGAAGAGCTCACCTCCCATCAGTCTCAGCTAACCGCCTTTTTCCTGGAAGCCCTGGACTTCCGAGCCCAGCACTCTGAGGTAAGCTCAGGT
Celera SNP ID:            hCV1347731
SNP Position Genomic:     54626
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,22)   caucasian(C,26|T,8)   total(C,40|T,30)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(T,107|C,205)   Chinese(T,23|C,37)   Japanese(C,8|T,12)   African(C,43|T,57)      total(C,293|T,199)no_pop(C,2|T,12)    ;JBIC-allele(C,675|T,786)   total(C,675|T,786)   (T,-|C,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4253):
GAAATCTTATATCTTATTTCTAGACTTGATGTTTAATGATAGTATTTTAGTTATTCCTTATTGAATGAGTTCCTTATTGAATGAGTTCTGGACAATGGCC
R
TTAATGTAACAATGAATTGTACAACTTTTACATTTCCCATCATTTCTCTTTTGGGTGTCCTGAAGATGTTTAGAACCCTTGCCACAAGAGCAGGGAAATA
Celera SNP ID:            hCV25609032
SNP Position Genomic:     38763
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,3)   caucasian(A,32)   total(A,65|G,3)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4254):
TAATTATCCCAACACTCTCCTTTACACCGCATGTGTTTCTGCATCATGATCCATGTCAAGTCTGTGTATTGTATTGAGTTGCAGTATCTGTTTAGTGTCT
Y
AATCTGGCCCTGATTTCTATGGGCTCATGAATTCTTTATTCTGTGGATTCTAATCCATATGCTGCCATTATATATTTGGGTGCAGGAATTTTCCTTTCTC
Celera SNP ID:            hCV793612
SNP Position Genomic:     49710
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4255):
AATTATCTACTTTGAGCGTGAGTGTACCTGCCACTTAGGGTTTTTGTCTTTCTCACCATTGTAGATATTTTAGATGAGGAGAAGTTCAACGTGGAGTTGA
Y
AGTTCAGTGCATCCGCCTTTCGGAGATGCCGCAGACCCATCACCATGCCCTTTTACTTTTGGGCACTGTTGCTGGAATATTTCCGGTAAGCGTTAATGAT
Celera SNP ID:            hCV25609033
SNP Position Genomic:     39079
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,31)   total(C,1|T,67)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:4256):
CCTAAGGCATCTTGCAAAGCAGAATTTTTGTATTGCACGTCAGCGGTTTCCTGTCAACACGCTAGGGGCCAGTGGTATTTATGATTGAAGATGCTCAAGA
R
TGTTGAGACCTGGCTGTTCCATTGTGTTGATCATTTGCCATTTACAAGGTTAGGAGCCTTCATTACCATGGGGCAAATGATTAAACCGCTTCACTTACAC
Celera SNP ID:            hCV1347732
SNP Position Genomic:     53785
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,13)      total(G,2|A,13) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4257):
AACCACAGTACATTGATCAAATTCAGAAAATTTAACATTGATCCAATCCAGTGATGTAATCTACAGTTCATACTCCAGTCTCCCTAATTATCCCAACACT
S
TCCTTTACACCGCATGTGTTTCTGCATCATGATCCATGTCAAGTCTGTGTATTGTATTGAGTTGCAGTATCTGTTTAGTGTCTTAATCTGGCCCTGATTT
Celera SNP ID:            hCV793613
SNP Position Genomic:     49626
SNP Source:               Applera
Population(Allele,Count): african american(C,12|G,8)   caucasian(C,5|G,23)   total(C,17|G,31)
SNP Type:                 INTRON;TFBS

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


Context             (SEQ ID NO:4258):
TTTATCCCTTTCAGGTTCGATTTGCTGCTTTGATTACTGTGTTAGCACTGGCTGAAAAACTAAAGGAGAATTATATTGTCTTGCTACCAGAATCCATTCC
Y
TTCTTAGCAGAGTTGATGGAAGGTAATTCCCAAACTATTCCCAACCATTAAACAATTAAGGAATAATTCAGTAAAATTCTGTGAAAATGTGCCCAATGAT
Celera SNP ID:            hCV7540496
SNP Position Genomic:     58498
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:4259):
CTGGCTTTTTTTTCTTCTGTGAGATCTTTGGAGTTGGGCTGGTAGAGCCGCCTTTTATTACTTGTGGAAATTGATGGGCCCTGTTTCTACTGTGAGAGGT
W
TAATCCTAAGGCATCTTGCAAAGCAGAATTTTTGTATTGCACGTCAGCGGTTTCCTGTCAACACGCTAGGGGCCAGTGGTATTTATGATTGAAGATGCTC
Celera SNP ID:            hCV1347733
SNP Position Genomic:     53680
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|A,11)      total(A,11|T,2) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4260):
CTGCATCCCAGCCTGAATGACGGAGCGAGACGCTATCTCTTGAAAAAAAAATTAGTAGAAATTAACAGAAATAAAAAATGTTGATAGTTGTGTTTTCTTT
Y
AGGATAAAGTTTTACACAATATCATGTCTATTTTTACATTTATGGGAGCCAATGTCATGCGCCTAGATGATACTTACAGTTTTCAAGTTATTAACAAGAC
Celera SNP ID:            hCV25609034
SNP Position Genomic:     41388
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,34)   total(C,69|T,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4261):
AAGCAGATTACAGTAGTGTTTTTAATTAACCTCATACATTTATATGATTGAAGTTTTGGTCCCCAGATTGTATGGAAATGCCTAGTGGCATTAAGGATGC
R
GTAGGATGTCCACTTTTAGTAGCAACCGATGTTCATTCACTACTCCATGTTAGGTGCTTTACTTGGATTATCTCACTTAAAAACCACAACATTTTATCTC
Celera SNP ID:            hCV7540497
SNP Position Genomic:     58903
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,17)      total(G,3|A,17) ;no_pop(G,-|A,-)   ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4262):
TGTTATTTTTTAAATTACTGTTGTGTCCGTACTGTTAGCACTGGGAGATTTCTTGTGCTTAGCCACATAAAATGTATAGACACTGCTTTTTAGGCTATGA
R
GCAGATAGCGATGTAATAGGCACAGTTTGCTGGTTTTTTTCATAATGCCCTCTACTCCATTCCCTAGCCTCTGTTTCTGCTTCAAGTTCTTCTAAAGCTC
Celera SNP ID:            hCV1347734
SNP Position Genomic:     53058
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:4263):
CAGAAAAGGAAAAAAAATTAGCTGGGCAGGGTAGCATGCACCTGTAGTCCTAGCTACTCAGGAGGCTGAGGTGGAAGGATTGCTTGAGCTTAGGAGTCCA
R
GGTTTCAGTGAACTGTGATCACACAACTGCACTGCATCCCAGCCTGAATGACGGAGCGAGACGCTATCTCTTGAAAAAAAAATTAGTAGAAATTAACAGA
Celera SNP ID:            hCV25609035
SNP Position Genomic:     41256
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:4264):
ATCAACAGAAGTACTTTTGACTGTAAAGCCTACTTTTCATTTTGGGTAGGCGAACTTCAGCCTTCGTTTCTTTGTTGTGCCCATAAAGAGAAGTGGTTCT
K
GAATGCTTTTTTTAACCCAGGAGTGTGACTGTCACCTTTATCCTTTGTTCTTTTGGGAAACGGGAGAGATGAAGGCAACACGCTGCTTCTAAAACAGCTC
Celera SNP ID:            hCV7540498
SNP Position Genomic:     60161
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:4265):
TGTAGGGCAGTGCTTGCAAGGAGTTTTGCATAGTGCCTGACACATAGTAAGTGTTCAGTTAATGAAAGACATTGTTATTTTTTAAATTACTGTTGTGTCC
R
TACTGTTAGCACTGGGAGATTTCTTGTGCTTAGCCACATAAAATGTATAGACACTGCTTTTTAGGCTATGAAGCAGATAGCGATGTAATAGGCACAGTTT
Celera SNP ID:            hCV1347735
SNP Position Genomic:     52986
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:4266):
ACCTGAAAGGTTATTTTAAGAATTAAATAAGAAAATGTGTGTGGAAGTGCCTGGTGCCTGGAGGTGTGCAGTGGACAGCAGTCTGTCTTAATTGAAGTTG
R
TTTTTTTTTTAATTTGTTTTTCTTTTCATGTTAAATATAAAATTTCTCTTTAGGTCAATGCCTTGCTGCCCACAGAGACATTCATTCCTGTGATCAGAGG
Celera SNP ID:            hCV1347736
SNP Position Genomic:     51330
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:4267):
GGGTGGGAAGATAAGGAAAATGGTGATTTCTCACACAGATTTTATGATATTGTCCAGTTTAAACATGGGGCTGATGATGCCTAATGTGTGTTATTTAGAA
Y
CTTTTTGCTCAGAACCTTTTTCAAAAAGGTTTTTGGCATTTTAAAAAATTGCATTCAGAGCCCATAGCACTCTGAATATCCTCAGTTGCAGCAAAACATC
Celera SNP ID:            hCV25609036
SNP Position Genomic:     43981
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,11)   caucasian(C,26|T,2)   total(C,45|T,13)
SNP Type:                 INTRON


Context             (SEQ ID NO:4268):
TTCCGAGTAGTTTTTGAAATAATTTAGTACAGAATTATTTAACTCGTCTTTCTACTTGAAACATTTAGCATAAGGTAGACATGAACAAGTTCTCTGAGTG
Y
CTTCAGCTGCCGTTTGCTGAGCGAGCCTCTGTGTTTCAGGTTGCTGGAGACCGTTCTCGGCTATATCAGTGCAGTTGCACAGTCCATGGAAAGGAACGCA
Celera SNP ID:            hCV1347737
SNP Position Genomic:     50642
SNP Source:               Applera
Population(Allele,Count): african american(C,20|T,8)   caucasian(C,3|T,17)   total(C,23|T,25)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,14)   total(C,14|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4269):
GCCTTAAATTATTTGTTTCTTTATAATTGTACACTAGTGAGAAGAGGATTTGGAACCAGCTTATTTGAGTAAGAATTAAAAGTTTGCTTTTTTTTTTTTT
T
AATTAGGTGCATCTAGAAGATGTTTTTCAGTTATTCAAGTTCTGTTCTGTTTTATGGACCTATGGTTCTAGCCTTTCAAATCCACTAAACTGCAGTGTGA
Celera SNP ID:            hCV27150300
SNP Position Genomic:     29093
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4270):
GAGGTCGATGCTTCTGCACAGAAGCGCCTAGTTACTTCTTGATGATCTCTGTCTATGGCAATAATCCCTCATTTCCTTTCTTTCCGAGTAGTTTTTGAAA
Y
AATTTAGTACAGAATTATTTAACTCGTCTTTCTACTTGAAACATTTAGCATAAGGTAGACATGAACAAGTTCTCTGAGTGCCTTCAGCTGCCGTTTGCTG
Celera SNP ID:            hCV25609037
SNP Position Genomic:     50561
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,21)   caucasian(T,2)   total(C,1|T,23)
SNP Type:                 INTRON


Context             (SEQ ID NO:4271):
TTTCCGAGTAGTTTTTGAAATAATTTAGTACAGAATTATTTAACTCGTCTTTCTACTTGAAACATTTAGCATAAGGTAGACATGAACAAGTTCTCTGAGT
K
CCTTCAGCTGCCGTTTGCTGAGCGAGCCTCTGTGTTTCAGGTTGCTGGAGACCGTTCTCGGCTATATCAGTGCAGTTGCACAGTCCATGGAAAGGAACGC
Celera SNP ID:            hCV1347738
SNP Position Genomic:     50641
SNP Source:               Applera
Population(Allele,Count): african american(G,20|T,8)   caucasian(G,2|T,18)   total(G,22|T,26)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,14)   total(G,14|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4272):
ATAAGGTAGACATGAACAAGTTCTCTGAGTGCCTTCAGCTGCCGTTTGCTGAGCGAGCCTCTGTGTTTCAGGTTGCTGGAGACCGTTCTCGGCTATATCA
R
TGCAGTTGCACAGTCCATGGAAAGGAACGCAGACAAACTCACCGTGAAGTTCTGGCGCGCGCTCCTTAGTAAAGCTTACGACCTGTTAGATAAGGTAGGT
Celera SNP ID:            hCV25609038
SNP Position Genomic:     50711
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:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:4273):
AAAATAATAAATAAATAAAAAGATACTGTGGGTTATTTGGGTTATGACAGTTTATAATGTAAACAAAAGTAGACTTGTAAACAGTGAAGAGTATATAATA
D
CACGGGCCCTGTAAAAGAGTACAATCACAATACTAATCGGTAGGTTGAATAGAAACTAACATTGCTACACTCCTACTAATATGTTAGGCCCATTACTATA
Celera SNP ID:            hCV27150301
SNP Position Genomic:     28496
SNP Source:               Celera
Population(Allele,Count): no_pop(-,6|T,6|G,6|A,6)   total(G,6|A,6|T,6|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4274):
CCAGGGCCACTGTCCTGCCCCTTCCACTGGAAAGTGCCTGCCCTGCAGCCAGGAATGTGAGCTGCTGAGTTCCAGTCCTGTGGGCTGACTTGTAGCGCTA
Y
GCGTAGGACTTTCGTTTTTGGAGCTGATTTTGTCTGCGCCCCCTTCTCCCCTCCTCTGCTGTGCGGTGTCAACTTCTGTCTCCACTCTTCCCTCTAGCTC
Celera SNP ID:            hCV1347739
SNP Position Genomic:     49976
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4275):
GTACTCCAGCCTGGGTGACAAGAGTGAGACTCTGTCTCAAAAAAAAAAGATGGGCTGGGCGCAGTAGCTCACGCCTATAATCCGAGCACTTTGGGAGGCC
R
AGGTGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACGCCGTCTCTACGAAAAATACAAAAAAAATTAGCCGGGTGTGGT
Celera SNP ID:            hCV27150302
SNP Position Genomic:     28157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4276):
GCAAAGCGCTGGACCTTTTGAATAACAAGCTGCAGCAAAATATATCCTGGAAGAAGACAATAGTGAGTGAAGACCCAGGACACACCCATTTACTGTACTT
Y
GCTTTATCAAAGAGCTGCATTTAACTCCCTTCAATTTCTCTAGTGGTACAATTTCAAATTGAAGTATATTATTATCTGAATATAATACCATGACATGTTT
Celera SNP ID:            hCV25609039
SNP Position Genomic:     51563
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,31)   total(C,1|T,67)
SNP Type:                 INTRON


Context             (SEQ ID NO:4277):
CGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACACCACCGTACTCCAGCCTGGGTGACAAGAGTGAGACTCTGTCTCAAAAAAAAAAGAT
R
GGCTGGGCGCAGTAGCTCACGCCTATAATCCGAGCACTTTGGGAGGCCAAGGTGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGG
Celera SNP ID:            hCV27150303
SNP Position Genomic:     28108
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4278):
ACTCCATTTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGATGGGGCCTGTAATCCCAGCCACTTGGGAGGCAGAGGCAGGAGAATTCGCTTGAACC
Y
GGGAGGCAGAGGTTGCAGTGAGCCGAGATCACACCACCGTACTCCAGCCTGGGTGACAAGAGTGAGACTCTGTCTCAAAAAAAAAAGATGGGCTGGGCGC
Celera SNP ID:            hCV27150304
SNP Position Genomic:     28018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4279):
TTGAACCTGGGAAGCGGAGGTTGCAGTGAGCTGAGATTGTGCCGCTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAA
A
AGAAATATGCCTATTTATTCCTACCCTTTATTGGATAAACAGTTCATATGAATAAAGTTTGTTTTTAGAGATAATGTTTCAAGGTAAGACATAGATAAAA
Celera SNP ID:            hCV27150305
SNP Position Genomic:     27028
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,5)   total(A,5|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4280):
AGTTCGAGACCAACCTGGCCAAAATGGTGAAACCTAATCTCTACTAAAGATACAAAAATTAGCCAGGCATGATGGCGGGCACCTGTAATCCTTCCTACTC
S
GGAGGCTGAAGCAGTAGAATTGCTTGAACCTGGGAAGCGGAGGTTGCAGTGAGCTGAGATTGTGCCGCTGCACTCCAGCCTGGGTGACAGAGCAAGACTC
Celera SNP ID:            hCV27150306
SNP Position Genomic:     26904
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4281):
CTTTTCGTATGAATTTTTTCTTTGAAGAAATGTCTTTTCAAATCCTTTGCCTGTTTTTTAATCAGGTTATTTCTCTTTTTATTGGTGAGTTGTAATGAAT
Y
GTTGAAATGGAAAATGTTAGCCTGAGCAGGAATATCACTTGTGGCCAGGAGTTCAAGACCAGCCTGGGAGTTCAAGACCAGCCTGGGTAACATAGTGAGA
Celera SNP ID:            hCV16117087
SNP Position Genomic:     41039
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4282):
TTTATTATACATATGTAGATAACAGGTTATTTTATATTGCTTTACTTTTAATACCTTTCTCGAGGTCATGAGCATGTTTTCGCCTGTAGCAGCACGTTGA
S
TTAATCAAATCCCTCACTGGAGACGTTACATTGTAAATCTGGCTTTGGATTATTTTCCTTCTAAGTTATTACTCTGTACTGCTTGTACAGAGTCATATTT
Celera SNP ID:            hCV27150308
SNP Position Genomic:     26409
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:4283):
TTGCATATAAATGACATTAAAAGCCTTTTTTTTAGTTTTTTTTTTTTGTTTTTTTTTTTTAATATCCTCAACAGTTGTATAAAAGCCTTTCTGAAATGCT
S
AAGTACATTGCCCTTAAGTTTTAGAACATTGAAGCTAAGAAGCAGTCTTGGCAATGTCTTTCTCAATAATATAAACAAACGTGTTATAGCTGGTTCTGCT
Celera SNP ID:            hCV16117088
SNP Position Genomic:     41670
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4284):
CAGGCGGACTGACTCAGATTTTAATTTTGATTTTTTTTTTTTTTTTTTAGATGAATGTGAAGAAGTAGAACATCAGTGCCAAAAGACTATTCAGCAACTG
S
AAACTGTCCTGGGAGAGCCACTCCAGAGCTATTTCTAAGACTTTCTGTGGTGTTTCATACTCTACTCAGAGTTCACACTCATATTTCATATTTTTATTTT
Celera SNP ID:            hCV11405540
SNP Position Genomic:     59579
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   
SNP Type:                 UTR 3;MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4285):
ATGGTAAGTATGCTTTGAAAGTCCACCCCCTGGATTTCTTTCTCATACTCTTATTAAATTCTCAGCTTTTGCTTTACTAGATTTTTCTTAAAAAAAATTT
Y
TTTTATTCTTGAGTACTTGGTTTTACTTTAAACGTTGCAGTGTTGTTTAATATATTCTGTGCAATGTTTGAAATCTTTTAACATTTTATATATTTTTTCA
Celera SNP ID:            hCV27150309
SNP Position Genomic:     24793
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4286):
AACGTGCCGAACTCTAGAACTTGTGTCATAGCAATTAGAAGCAGATTCTTACTACAAGTAAAATCATATGATCAGTAAAATTTAATTTCAGCTAATTACA
R
CTAATCACACTAAGTTCATCTTCATTTGAATTTTATTGGTTTTATAGAGTTTTTAGTATTTCCCTTGTAGATTTAAAAAAAAATTTTTGTTTTATGTCAT
Celera SNP ID:            hCV7540424
SNP Position Genomic:     20933
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:4287):
GAAGAACAAGCAATCAACAGACAGACAGCGTTGTATACCTTAAAGCTTTTATGCAAGAATTTTGGTGCAGAAAATCCAGATCCTTTTGTCCCAGTGCTGA
R
CACTGCTGTGAAACTGATTGCTCCAGAGAGAAAGGAGGAGAAGAATGTCCTGGGAAGCGCGCTGCTGTGCATAGCAGAGGTGACCTCCACCCTGGAGGCG
Celera SNP ID:            hCV15879463
SNP Position Genomic:     52159
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,23)   caucasian(A,6|G,34)   total(A,21|G,57)
SNP Type:                 MISSENSE MUTATION;hmCS

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


Context             (SEQ ID NO:4288):
GTTCAACTTGTTGATACACTGGGTGCAGAGAAATTCCTCTGGATTCTCCTCATCTTGCTTTTTGAACAGTATGTCACAAAAACAGTGCTGGCGGCTGCCT
R
TGGCGAAAAGGTCAGAACCTAGGGTGGGAAGATAAGGAAAATGGTGATTTCTCACACAGATTTTATGATATTGTCCAGTTTAAACATGGGGCTGATGATG
Celera SNP ID:            hCV1347741
SNP Position Genomic:     43859
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;hmCS


Context             (SEQ ID NO:4289):
AATAGTATGAGAAAAGGCATGATCTAGGAATGTGCACAGCATGTTTGAAGAATGTAATGGTGATTGATTGATGGAGAGCAGAGGGTTGAGACAGGTAGAC
R
TTGGTTTATTCATTCATTCAAGTGTTTTCTGTCATTCTTTCTGTCATTTATTCAACAACTATATTTTGATCACCAATACCTGGAGTAAAATGGTTCAAAC
Celera SNP ID:            hCV1347745
SNP Position Genomic:     42499
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,13)      total(G,1|A,13) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4290):
AAAGTGCTGGAACTACAGGCGTGAGCCACCGTGCCCGGCTGCTTAGCATAATGTTTTTGAGGTTCATTCTTGTTGAAGCTTGAATCCGTATTCCTTTTAT
R
ACTGAATAATATTGTTGTATGTGTATGCCACATTTTGTTTATCTGTTCATCGGTTGATGGACATTTGGGTTGTTTCAACTGTGGGGCTATTATAAATTAT
Celera SNP ID:            hCV1347746
SNP Position Genomic:     40569
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:4291):
ACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGATGTCATGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGAACTACAGGCGTGAGCCAC
Y
GTGCCCGGCTGCTTAGCATAATGTTTTTGAGGTTCATTCTTGTTGAAGCTTGAATCCGTATTCCTTTTATGACTGAATAATATTGTTGTATGTGTATGCC
Celera SNP ID:            hCV1347747
SNP Position Genomic:     40498
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4292):
CGAGGTACTTAAGATAGCCGCTGACATATTAATTAAAGAAGAGATACTGAGTGAAAATGATCAGTTGTCAAATCAGGTGGTTGTATGTTTGCTGCCATTT
R
TGGTTATCAATAATGATGATACGGAATCTGCTGAGATGAAAATTGCTATATATTTATCAAAATCAGGAATCTGCTCCCTGCACCCTCTATTAAGAGGCTG
Celera SNP ID:            hCV27150310
SNP Position Genomic:     24166
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4293):
CAGCTAATTACAACTAATCACACTAAGTTCATCTTCATTTGAATTTTATTGGTTTTATAGAGTTTTTAGTATTTCCCTTGTAGATTTAAAAAAAAATTTT
T
GTTTTATGTCATCTATATTTTAAGAAGGAGTTATACTTAATTTTAAGTTGATATATAAACAACAAACAACATTTAGATCTTTGAGAATGTTTCTTTGAAA
Celera SNP ID:            hCV27150311
SNP Position Genomic:     21021
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4294):
GCAGTAAATCTGTTTTTGTGCATGTGTGTATATGTCTTATTCCTTCCTAGCTGATTAGAATATACATATCTGATCCGGCACTTGGAAACAATCGGTATGG
W
TGATTCTGTATTGCATTACTAGTTGTCCACTCTAAGGGATGAGCGTGAAATTGAGTGACTCTGGACTGGAGAAGTGATACTGTATCATAATCAAGACAAG
Celera SNP ID:            hCV1347749
SNP Position Genomic:     37251
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,13)      total(A,13|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4295):
ACAGCAGCTCATGCCTATAATCCCAGCACTCTGTGAGAAGGATCACTTGAGCCCAAACGTTTGAGACCAACCTGGGCAACATAGGGAGACCCCCTTCTCT
R
TAAAAAAGTTCAAAAAATAAAAAATTAGCCAAGTTTGGTGGCACACGCTTTGGTCCCAGCTACTTGAGAGGCTGAGGTAGGAGGATCTCTTGGGTGTGAG
Celera SNP ID:            hCV27150312
SNP Position Genomic:     20097
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4296):
AAATTACTTTGTAGAATTACTTGACTAAATTAAACCTACACATAGACACAAGTATACATGAAATCATACCATTAACAATACAAATTTTTTCATCAACTCA
T
GTGATGTTCTAGAAACAAAGATTTTGCATTTTTTTGTTTGTTTTCTGTAGTTAGATGGTTGTTACTGAAAATGTTGGGCAATTTGGGGTGGTTTTCTCTG
Celera SNP ID:            hCV27150313
SNP Position Genomic:     19391
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,7)   total(T,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4297):
AAAATTACTTTGTAGAATTACTTGACTAAATTAAACCTACACATAGACACAAGTATACATGAAATCATACCATTAACAATACAAATTTTTTCATCAACTC
A
TGTGATGTTCTAGAAACAAAGATTTTGCATTTTTTTGTTTGTTTTCTGTAGTTAGATGGTTGTTACTGAAAATGTTGGGCAATTTGGGGTGGTTTTCTCT
Celera SNP ID:            hCV27150314
SNP Position Genomic:     19390
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4298):
CACTGGGAGGCCCTGCACTGAGCTCTCCCTGTGCTCCTCGCCCCCATGAAGGCTTCAGAAGAAAGAGGGGCAGCTCAGCCTTGCTGCTAACCCGGCCCCA
M
CCCGAGAGGCCAGAATGAAGCACAAAACCTGAATCTGCAAAGCAGCAAGTTGAGGGTTTCCATTCTTTTGATAGGAGCAGTGGAAAGGACTGTCAAGGAA
Celera SNP ID:            hCV15842338
SNP Position Genomic:     63435
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;TFBS


Gene Number:                 14
Celera Gene:                 hCG26772 - 146000219649620
Gene Symbol:                 PPARG
Protein Name:                peroxisome proliferative activated receptor, gamma;HUMPPARG;NR1C3;PPARG1;PPARG2
Celera Genomic Axis:         GA_x5YUV32VV34(12260803..12419220)
Chromosome:                  Chr3
OMIM number:                 601487
OMIM Information:            PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR-GAMMA;PPARG


Genomic Sequence (SEQ ID NO:1675):
ACTCAATCGGCTTCCTACCTCTTGATACTTAGAGGATAAACTGATACCCAAAGTAGGTCCATTTTTAGGGGGAAAAGTGGAGAAAAAATGAGAAAGCAGG
ACAAATGGCTCTTTTTTTATTCCCTGAAAACCAAAAGCACTTTTGAACCTTTCAAATGTGTCTTAAACCATTAAAATCTTAAAATGTAAATAGTCTAACT
CAAAACTGTTGAAATTACCAAGTGAAATCTCTCTGAAATTAAATGTCATTATTAATTTCATAGGCGTTTCCAAACTATAAAAAATAAAATAAAATGTTTT
CAAAAATAGATGAGTAAAAAAAAAAGGAGTTATTTCATTCAGTGCTTTTAAAAGGGTGTTATTATATTTCTTTCCATTTTAAAAAATTACCTAGAGGAAA
GCTCCACGTTGGTGTATCAAGAGAAAAATTACTAATTTGGCTATATTCTCCATGGTTTTTTTTCTTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTTTTT
TTTTGGTGCTATCGCACCTCTGTCCCCCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACAGCAACTTCCCAGGTTCAAGTGATTCTCCTGCTTCAGCC
TCCCAAATAGCTGGGATTACAGGCACACACCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGAGATGGGGTTTCACCATGTTGGCCAGACTGTTCA
CAAACTCCTGACCTCAAGTGATCCGGCCACCTTGGCCTAGTGCTGGGATTATAGGCGTGAGCCACTGCGCCTGGCCTCTCAGTGGGTTTTTCGAACCAAT
ACATAGCTATATTATATTCTTGACTTGAATATAATCAAGATTAATATTTCCATTAAAATGTCCCAGAAATTTTTATTTATTTATAGGCAACCATTCAAAA
TAGAAATAGAATGCTGAGTGAAGCAGAGGGATACAGTATATGAGAAGATCAAGCAATTTTAAGTTAGAAGAAAAGGCTGTAAATCTGGCTTTGGTCCTTA
AGACCTTGTAAGAGATGAGCAAGTTATTTTGTGAAGGGCAACATCGGAGGAGGCAGAATAAACAGAGGAGGAGAAAAGGACCTTAATGAAATTCAAAGTA
AAATTGGGAGGTTGTGGGTAAAATTTCATAACTAGACATAAAAATCACAAGTGGGAACATGTCAGAGTCATTCAAAAAGTAGATACATTTGTGGAAGTGT
GTGTGTGTGCATATGTGTATGTTTAACCTGCCTGGCATGTTCAACTGGTTATGATTTTTGAAATTTTAAATTAAGATCTTCTAAACCTCCTGGGAATTTA
TAAGGCTTAGAGATTGATAAATGGTGTCTCAGATAAAGAGAAGGAGCAAATGTCAGCGCTATGATGATACACAGCTGCTATAAATGAGTGGCTTGATTGC
TTGACTTCAAATACAGCACACTAACTTTCCTAAACTCAGTCTGCAAAATGGTTTACATGTCACTATTCTCAATGCCCAGTTTTGCCGAACACTCGGATGA
TAATGAAAAAGTTTTGCTACAATTTTAAATTTTTCCTTTAAGAAGTAGCATAACACTACTATAAAATATCTGAGGTCTGTCCAGTGAGACCAGTTTAAAT
ATAGCTGGAGTAAAATGGAAAACAATTCAGTTATGGTAAACTTCTATTTCTAGACTTGCACTCTCTTCTTAATATAATAAACATAGTATGTAATTATAAA
CCTGGGAACAAAGTCCTCTTTATTGAAAGAAAAGCAAATATGTATGCAAATCTCAAATGAGATAATCAACTAAGCATTAATTGCAAAAAAAAAAAAAAAA
AAGAAGTCCCATGGGACCATGGGACCATGGGACCAAACACCAATATTTGGAAGGAGTCCTTGTGGTTTGGAAAAATTGAAACGGGCATAGTCTTTCGTCT
CTAGGAACCCCATATGGATGGCACTGCCTATGTGCAAAGTTGCAGGGTGGGGACCATGTGCTGTTTATCATTTTATTCCCCGCACTTAGCAGAGGGCCTG
GCACAAAATAAGCACTCAATAAAATGTTTGTGGAAAGAAAGAATTCTACAGCTATAGTTTATACAGTGTTTTTCCAACTTTAAAAGATATGGCCCACAGT
AAAAACCACATTTTATACCAACTCCTGGTACACTCAGATACACACACACATGCATTACACAAAAGTTACGAAGCAGCACTTTCTTTAATACAGTAGGCAT
GTTCTGATTATTTCTGTCCTTTTTGCTTGACTAAAAAATACTGATTATGACTGAATAAATTGATTTCATAACCTACTAAATCAAGCCTTGCAATTTGAAA
AACAGACATATTATTTCAGTTTACATTACTTAACCTCTTACATTTATACACTTCACTACCCATAAGTCTCCTTAAAAAAAAAAATCACAAAATTTTTGAT
CCAGAGGGAATTTAGAAAATATTCAGCTCAACTCTAAAGTTTTGCACCACTTACGAATTCACTGTTGTGGGGTTCCCCTTAGTCACTGTTGTTGAATTAT
GGGAATTTTCCGACCAAAAAAACAGATTGGCCCCCATCTCACATCATATACAAAATTTAACTCAACATGAATTTAAAACCTAAAGGTAAGAACTAAACCT
ATAAAACTCTTAAAATAAACATTAGGAGCAAATTTCATGACTTTGGGTTAGTCACTGACACGACACCAAAAGAAAAAACAGGTAAACTGGACTTCATCAA
AATTAAAAACTCAAATGACAACATCAAGAAAGTAAAAAGAACCAAGCATGGTGGCATCTGCCTGTAATTCCAGCTATTCAGAAGGCTGAGGCAGGAGGAT
CACTTGAGCCCTAAAGTTCAAGACCAGCCTAGGCAACATAGCAAGACCTCGTCTTTAAATAAATAAATAAATAATAAATAAATAAATAAATAAATAATTA
TTTTAAAATGTAAAAAGACAACTTACAGCCTGGAATAATATATTGGCAAATCATGTATCTGATAAGAGACTCGGATATAGACTATATAAATAAATAACTC
TCACAACTCAACAATAGAAAGAAAAATAATCCAATTTAAAAACAGGGAAAGGATTTAAGCAGACTTTCTTCAAAAAAGATAAATGGCCAATGAACACATG
AAAAGATGCTCAACGGGATAGTCACCAAGGCAATGCAAATCAAAACCATGAGACACCGGCTCGGGCAACATAGTGAGATCCCATCTCTACAAAAGAATAC
AAAAATTAGCTGGTGTGGTGGCATGCACCTGTTGTCCCAGCCACTTGGGAGGCTGAGGTGGGAGGATTGCTTTAGCCCAGGAATTCGAGGCTGCAGTGAA
CTATGATTGCACCACTGCACTCCAGCCTGGGTGAGAGAGCAATACCTTGTCTCAAAACAAACAAACAAACAAAACCCCATGAGATATCACTTCATACCCT
TTAGGTTGGCTAAAATAAAAAAGACTATAACAAGTGTTGACAAGGATGTGGAAAAACTGGAACCCTGACACATTGCTGGTGGGATTGTAAAATGGTGTGC
CCACTTTGGAAAACAGACTGGCAGTTCCTCAAAAACACCGAGTTACCTTATGATCCTGCAGTTCTGTCCCTAGGTATATACTCAAGAGAAATAAAAATAT
ATGTCCACAAGTAACCTTGTACATGAATGCTCACAGCAGCATTATTCATAATAGCCCATAAAAGTAGAAACAACCTAAATATTCATCAATTCATGGGATG
AATAAACAAAATGTGGTATATGTGTATAATGGAATATTGACCATAAAAAGGAATGAAATATTAATATAAGCTATAACATGGATGAGCCTCACAAATACTA
TGCTAAGTGAAAGAAGAAAGTCACAAAGGACTTCATATTCTATGATTCTATTTATATGAATTGTCCAGAATAGGTAAATCTATAGAGAAAGAATATCTCT
ATCTAGAGTTGGTGGAATGACTGTTAATGGAGAGGGGGTTCCTTTTTGGAGTGATGAAAATGTTCTAAGGGTAGATTTGGTGATGATGGCACAACTCTGT
CAATAAACTAAAACTCATTGAACTGTACATTTTATTTATTTATTTTTGAGATGGAGTCTTGCTCTGGGGCTGAAGTGCAGTGGCGCAATCTCGGCTTGTA
ACCTCTGCCTCCCAGGGTCAAGCGATTCTACTGCCTCAGCCCCCCGAGTAGCTGAGATTACAGGCACGTGCCACCACGCCCAGCTAATTTTTGTATTTCT
TAGTAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCCGGCCTCAAGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGG
CGTGAGCTGCCATACCCGGCCTGAATTGTACATTTTACTTCTATGGTATTTACATTTTAGATTATATTAATTATTCCTCAATAAAGCTGTGATTTTAAAA
AGCAGGCTAGGCGCAGTGGCTGGTGCCTATAATCCCAGCACTTTGGAAAGCTGAGGCAGGAGGATCACTTGAGCCCAGGAGTTTCAGACTAGTCTAGGCA
ACATGTCAAGACACAGTCTCTACTAAACAATTAAAATTAAAAAAAAAAATTAGCCAGGCATGGTGGTGTGCACCTGTAGTCCCAGCTACTTGGGAGCCTG
GGGTGGGAGGATTCCTTGAGCCCGGGAAGTCGAGGCTGAAGTGAGCCGTGATTGCGCCACAGCACTCCAGCCTGGGCGACACAGCAACACCCTGTCTCAT
GGAAGAAAGAAAGAAAAGAAAGGAAGAAAGAAAAAAAAAAAGCAGATTGGAACTCTGGAATTAACAAGAAGTAGGACGCACGGAGCACTTCCGCCTGAGT
GGAGACTGTGGATCCGGGTCAACCTGACTACCTAAATCACAGGCCAATAAATGGTCTTTCAGTGGTCAGTCCCTGTAAGATCCGTGGCTCTCAGCTTCTT
ATCTTAGGGGCTGTGGAGGAAGGACATGATTATGTTGATTTAAGCGCTGAATATTTTCCCTTGTGATACCCATCCTCGCAAAACTTTGCTTCAACCACAA
ACGAGGACCTTCTGTACCAGAGGGGCAATAACCACAATGAAGCTAGGAAGAAATGCAGAGCACCCCAGCATACAGTCCATAAGCTTCCTGAAGTGGGGGG
CCTCAGGCATCGCTGCCTCCCCAAAGAGGATCAGGCCCAGAACAGTATGCTCCAGAAATAAGACTGGAAAAAGGGAAAGAGGGGCCTCAAGTCCAGGAGA
CCAGCGGCTTTCTGAACGCGCACCTGCCAACCCACTTTGGACAGGTCACGATGGACAGCGTGGCAGGAAAAGAAAAGGTCACTGTCTACCCAACACATGA
GAAACTGTTTCTCGTGCCTCACGTCCCCACTCCGTCCCCACCCATGTTGTCTGAGTCCCTCGGTGTCAGAAACACTGCTAAGAAATTTAAGAAATTCTGT
TAATGAGTTTAAGAAATGTTTTTAATGATTAAAAGTCAGTGACTTGTGAATAACCATGTAACTTACAAACGCAAGGAACTCTGAAAGTGTGCAGCACCAC
CGATCAGAAGAGAAAACCAAGGGACCCGAAATATGCTTTAATTAAATTTTCTTTTAAAATGTCACTGGAAAGAACATCTTGGGAAGACGGCCTGGCCGAT
CGCCGTGTGAAGGGCAAGCCACTCTGGCCGAGAGGGAGCCCCACACCTCGGTCTCCCCAGACCGGCCCTGGCCGGGGGCATCCCCCTAAACTTCGGATCC
CTCCTCGGAAATGGGACCCTCTCTGGGCCGCCTCCCAGCGGTGGTGGCGAGGAGCAAACGACACCAGGTAGCTGCCGCGGGGCAGACAGTGGACGCGGGA
AAGCCGGTGGCTCCCGCCGTGGGCCCTACTGTGCGCGGGCGGCGGCCGAGCCCGGGCCGCTCCCTCCCAGTCGCGCGCCGCCGCCCCCGCCCCCGCCCCC
GCCCCCGCCCCCACCCCCACCCCCACCCCCACCCCCAGCCGGCGCCCGCGCCCGCCCCCGCGCCGGGCCCGGCTCGGCCCGACCCGGCTCCGCCGCGGGC
AGGCGGGGCCCAGCGCACTCGGAGCCCGAGCCCGAGCCGCAGCCGCCGCCTGGGGCGCTTGGGTCGGCCTCGAGGACACCGGAGAGGGGCGCCACGCCGC
CGTGGCCGCAGGTCAGAGTACGGGTGCCCGCGGCGCTCGGGAACCGGCTGCTGGCTGGGCGGGGAGTGCTCAGGGAGGGGGCGCGGAGGGCTGGGGCCGA
GGGTCTGGGGGCTAGGGCCGAGGAAACGGGAACTGACGGGGTCCCAGACGGATGAGAGCTGGGGAGAAGGGGGTCTCGGCTGAGGGGTCCGGGGCTGAGG
CAGGGTCATGGTCCGGCAGGACCCGGACTGACGGGTCGCGGGCGGGCGGCTCACGGGTGACCGGGTGAAGGGGTYTTGGGCTGAGGGCACCCGGGCTGAG
GGTCGCGTCTACCGGAGCGCGCACTAGGGGCGGAGGGCGCGGGCACAGAGAGCCGCGGCCGGTGCCGACTCGAGTGGACGCGAGCCGGTGCGTCCCGGCT
TCCAGGACAGCCCCCCTCGGGAGAGCGCCGGGTGGGCGCGGAGCCGGGGACACGGGGACCTCCGCGTCCCCGGCGGAGGTGCGCAAGCGTCGGGAGCCGC
TCCGGGGGAACTTTGGAGCAGGGTGTCTGGACCCGGGGAAGCGAAGATCCGCGTGCGTCCGTCCTGAGGCCGCGCGGCACCCCTGCTGAGGAGGAGGTCC
CGTTCGCTGTCCAGAGCCCAGGGGCGACCGCCGCKTGGGGACCGGGGGACCGTTCAGCGAGGGGCGCGCTTGTAGCTGGCCAGGCCCTGTGCCCTGACGC
GTTGTGCTGGCCCTACGCCCGGCGGAGGGGCTGGGGACGGGGACTGGGTGCCTCCGTGCCTCCGCGGATGGAGCGCGCAGCCAGGACCCCCAGCCGCACC
CCGGGGGGCTGGAAAGGCGAAGTCGCTGCTTTGTGGGCTCCTGCAAGTGCCAGGCGCTGACCACTCCTCCTGGGAGCCTAACTGAGGGGGGTAGAGGCAG
CARAGGTTAACAGAAATCTCAGGTCCCTTGGTGGAAGGTGGGTGTGTAGTCGTGGTACTTTACGCCTCGGTGTTTAGGGAGGAGCCTAAGGTAAGGAGTC
AGAAACGGGGAGTAACCGAGCTGCGGCTTTTATATAAGGTCAGTGGTAGGTAAGGAAGGGGCCTTWACCTCTGCTGGTGACCAGAAGCCTGCATTTCTGC
ATTCTGCTTAATTCCCTTTCCTTAGGTGAGTTGGCTCACTCTCATTGCATTTTGTTGGAATGTGTTGGTGATAGGTCCGAAATTTGCAAAATTATTGTAT
TATCCTTATATCATTTTTTTTTGCAGTGCTCTTGTTTTATAAGAAGAATCCAATTCACTTGGGTCATAGGCTAACGGTTGTAAAAATAGTGTCATTGTTA
TAAAAGAAATCAAGTCAAAAATAGTCGTCTGCCATGAAGAAACTAAAATTTTTCTTCTTTTCCTTGCAAGATTAGGGACAAAATGTAAAGTTTATTTGTG
TAAATTATCATTTGGATATAAAACCAGACAATGATAAACTGAGTTGTATAATACCTATTCCTGGAAAACCTCTGATTTTGAAGTACATTATTTTAACCCC
AACTGTTTCTGTCATTCGTGAGACAAATTGTTAACTGGATTTATTAAGAGAACAATGAATAACTTAACTCTTTAAAAGGACCTGGGCAAATCTTCGACAG
GTTTCAGGTATTTTATGGCAGTCTTTCTGTCTATTGCTAAGTGATCGATTGCTGACTGAGAACAGAACCAACTGATGGTGCTAGATGATTTAGAAAACCT
TTCTGGTATAGGGACTGGCATGGACATTCACTGTGGCTTTTCTCTTAAAGAAATACCTTTCACTCCTAGGGGAGTTTGACAGAAGACACTCATAGATGCT
ACCAGTTAGCATTTGGAGTAATATATCAAAACATTCTGTTCAAGTTTTAAAGTAAGTTTTGTGTAGTATATTTTCAATCAGATTCACTTTGGAATCAAAT
ACACTTTATTTGATTCCAAATAAAGTGTATTTGAATATTCACTTTAATATACGAAACTTTAAAGGTAATGTCTCAGCCAAAAAGTGAAGTGTATTACAAA
ACTGTCCATTTTTGTCTTCTTGTGTACTTCACATAATTTTTCTCCCTGATTTAAATTATATGATATTTGATAGTTAACTTGCTAATAATTATGTCTTAAG
AGATCTTTGAATCAACTGGTGGCCATCTCAGTCTTTTAAAACTCACTTGAAGGAAAAGAGAAACACTAATGATGGTTTTTTTTAAAATCAAAAACTTTTT
TCATATTTACAAGTTTGTTTCTAGTTCTTAAACAATAACTGCTGTAAAACCATGGCATCAGTGAGGTATAAAGTTTTGTAGAATCCCAGGCTGAAGACTT
TTTGGATGTCGTTTTCTCATTTCTTTAYATTAAAAAGAATATAATTTCTTTTTAAAATTAAAACTAAAATGTCCACCGGCCTCATATTCTTTATTGAACT
TAAGTGCTTTGAAAATATTTTTGCGATTGATATTTTTAATGATAAAATATAATATTTTCTTTGAAGGACTAGTTTCCTAAATGTTCATTTTTTTGTATGT
TTCAGAACTACTTTTAAAAAAATTCTAGATTATGCTTTAAATTGCAATATTTCTAAATTCCTATGACATTTAAAATGTGTACAAGAGAAAAGGTGTGACA
TGAGGAATATGAATTAGAAGTGGATTACTAATGGTCGTAGTGAATTGTTTTTAATCAGTGTTATATAAATATAAACAAATACTTTTTTCTTCTGTAATTT
TCTGACAATAAGGATGTTAGCCACTAACCTTAATTATCAAGATAATTATGTGCATGAAAGCTGTGTAAAAGGCACAACCGTGGAACATATACAAGTATTA
RTAATACATTTCATTTAGTTTTCAGGTTATAAAATCGTTATTAATAACAAGAGGCTTTCATGAAGTAGGAAAATATGTTAAAATGACATTTTCTGAATGT
TTCACACATTCTGGCCCACACTTTCACTTCTTTCCTAGCATCTATATATTCCCAATGCATAGGACAGAGTTGGTCATTCTAATTGTGGGTGTCTTTCTGC
TGGATTCGTTGTCACTTGGACTTGGAAATACAGTATGTCATTAGGTGTGGCAAATGTACTGGAAGAAGTTTTTGGTCTCATAGGATTCCACTAAATAAAT
ATTAGCTGTAGAGGATTTTTAAAAACTCACTAATAGAGAAAACTTGGTGAAGTCACTAGTGTGTAAGCGTAAACATATGCACCCCCCACAACTGAATTTC
TAATTTGCTTATTTTTCCTGGTAGATCTCCACTTTGCTTACTCTCTCTTAATATCCCAAAGCAACAAAAAGCGCAGTGATTTTAATTGCTTACAAAGGTC
CTTTGAAACGGATCTAATTTGACTCCACAAAAGAATAGTAAGAGTTGTGAACAACCATCTTGCAAGTGTAGATATCCCCAGCGTATCAACTTCAGTTAGT
TTCATAGCGTTCTAAATCAAAAATTTAGATTTAAGATTATTTGAAATCTTCTTGGAAGTTCTTACTTACTGTTTGCGTTTTCTCAAAATACAGAGGTAGA
TTGGGGGAGTAATATAGTATATGTTTTAAAGCTGTTATTTAACTAAAATGTCATGTTTTAAATTTTATTTAATGCACTTAAAGTAGGTTCTTGGGATAAA
ATCTATTCAGATGCAATAGGCCATGTTTTGGGGAAAACTTTTGTAGATGTTTAGATAATATCTGTCATCAATAATAGTATATGTTTAAATTATTTTGTAA
AAACAGATTTACATATTTTTAAAATTTCTCTTCAACAATAAGTACACATCAATATTTTAATGCCGAGAATTTCATTCAGAGTATGACTGTTTACATTTTC
AACTGTTTCAATTATTATGGCTTAGGCAAGTACCTTATCCTTTCTCTCAATTTTGTCATCTTTGAAACGGAGAAAGTGTTGCAGTTATTATTGCTTGCTC
TTTTGCTATGATTTTAAGGCTTTATGAGCAAACCCATGTACTTTAAATGATGTGACCATGACCCTGAATTTAATTGAGCTGATATTCTGAAAAGAACCTT
CATGAATATCTATGTCATAGCTAACTCTTTTACCAATGTTAATAGTTCACTGTAGTTCAAACCTCAATAACTTTGAGATTGTTAAGATTGAAGATGATGC
TTCTCATGTGGTGATCAATTTATAAACTGTTTCTGGGAATATTTTATTATCATTCAATTTAAAATTGTATTTTCCATTCCCTGATGACTTTGGACAAAAA
TCAGCATAGTAATTATTTTTATTCCAGCTTTGCGAGTCCTGTGTAGCCCCTCTTATGTTAATATTATACATCCGATGCATCTAGAAGGCACAGATTGTGC
GCTTTGATTTGATAAAGCTCTAGTCTTTGCATATCTTTATGGCACACCTTGTGAATTCTTAACGTATATTCCCCAGGAGCAAGTTCGTTTTATAATGAGG
CCTAGGATCCATCAGATCAGAAGACAGTTTAGTGTCACAACTTAAAAGACTAAATAGTGACTTGTGCTTGTCATTAAAAATGGGTCTCTTTCAACAAGCA
CTCACCAAAAAATAGTGTTTTAGTGGCTTGAAAGGTTCAGATATCTCCTAATAACCCACCTATTTGCTAGTAGGGAGTAAGTGGAAAAACATATAATTAA
CTGTGCACCATCCAAATAATAAATTTTAAATTCTTCGCGTGAATTGTTGATACATATTGTTGTGAAGTGTCTCCTGCTTAAGAAAGTAAGGGACTTGGAC
TGAATATGCCAAAGAGGAGGCCTCTGCAAGCGGTGTCTTGGTGATGGGAAGTTACTGGTAACAGCACACGGGGTGATGGGGTGAAGAGGCTTGTGTGCGT
GGGCCCCGGGGGCTGAGGATTGTYGGAGAGGACTTCTCCCACCYTCTCTGGGCCCCAAACTGCACACTGGACTGGCAAGCCACTCTGCCCACTGCAGTGT
GGAGCTAYAAAGCCCAAGTAGGGACTTCACTAAAAGGATGCAGAGGCGAAGGCAAAGAAAGGCTCATGCTGGTGCGTGTAGGTGGGCTGAGTGTCCCTGT
CCGGGAGTGGGGAGCCGTGTTATCTTCCACTGCCTTAATCCTACAGYGTAGGCTTTCTCAGAGTCATTGCCATACCTTCAACTGTTCCAGTGGCCAGGCT
GTTCTCAACTTGAAAATCTTTTGTGGGACAGTGCCATGAATTTTTTTTCCTACTGCGATTTTTTAGATATAAAGGAATTGAATCCATTAAGTGGAGATTT
TAAACCCTCCAGTCAGGATTTAAACTAGATTGTGTAAGTTCAGTTCAGTTGGATTCAATATCTGTTTAGGAAGCATTTTTATTCCACTTCATTGATTTTA
GAAAATAAATTCATTGCTTGGTTTTAACTATGTCACTATTAAAAAAAAACCACTTTAATTTGTGGACTCATCTGGGAGGATTATGTGTGGATATGACATA
TTGAGTCAGATTATCTGACCTTCTGAGAAGAGTTCAGATTAGCAAAAACGTGGGGTGAGAAGTCCTTCGCAGTTTGCCACAGRTAAGGAGAAGGTAGATA
TGAGGGAGGTAGAGAAATAGGGAAATACCCTGAGTAGGAATGTACCAGGTCTGTATATGCTCAACTCCCACARTCAGCAGGTTGCATGATTACTGTGTAT
AGTCTTAAAATATAAGGTTGATTTCTAAGAATTTACCCTGCTTCTTGGTGACATTGTAGGACATCTCAGTTTGCCACTTAGCACTGTTAYTCTTTCTGGC
TCTRTACTAAAGGAGATAATTTGGGCAAGGGAATGGAAAGAGGTTACTTTTTCATCCTGTATGTTTAAGGAATAAATTTTCCTTCATATCGAGGGCAGTG
GAGAAATATAACTGTCAAACTGTTCGAGTGCAATGATGAAGTTCCGGAAGGAACTTCCTAACCTTGACCACACCCCTCTGGCTGTCATACACCTCTTAAA
ATGTCTTTGAATTTGAATGTCTTTGAATTGAAATTTAAAATGTCTTTGAATTTGAAAGCTTTGGGTCTACTTTTAAAATGCCAAAGTTCCTGGCAGGGTT
AGTTCACTAAACCACTATCAGCAAAAATGTGAAAGGCTAGTTGCTTGTTTCCTTGCTACCTGAAAACAAGGCCTTTAAGGAGTAGAAAACAGATTTGGAG
TTTGAAAGAGGGGGTTAGGAGAGGGAAAAATAAAGTTAWTGCATGTCCCAGTTTCCTCATAAGCCAGAAACTTTGAAACAAAATAGGAAAATAACCATTT
GGAATAGCAGTGATAGGAAAAGATATATTTACCCATCATTTTTTTTCTCTTAGTCAAGACAAGTCGCAGATCTTCCTTGAACCATTTTTGACCTCAAAAC
AGTTATTMTGAAACATCAATTAAACTAAGAAATGTAATCACAGTTCAAGTTATGAGCTAGTATTATCTTAATGTAATTAAATATCTGAATATTATCACTT
CATTATATCTTGTATTTCCTCTGTGATGTTAGACAAATTATGTGGTCTCTTCATGAGTCAACTCTTCCAGGCTTTAAAAGTAGCTTCCTAATAGATTGAA
ATGAGAGGAACTTTTCAATCACTTCAGAAAATGATGTGCCAAGGTAGTATAAATAATGCTTAATCCTTTGGCAGATCCACAGATCATAAAATATCATACA
TGCGGCCAGTCGCAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGACAGAGGCAGAAGGATCACCTGAGGTCAGGAGTTTGAGACCAACCTAACCAA
CATGGAGAAACCCCACCTCTACTAAAAATACAAATTAGCTCGGCATGGTGGCACGTGCCTTTAATCCCAGCTACTCAGGTGGCTGAGGCAGGAGAATCGG
TTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCTATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCTGTCTCGAAATARTAATAATTA
TTATTATACATACTTAATTTTATTTTTGCTGAAAATAGTATGGCAAGCCAGTGCATCTCTGTTAGAAATAGAAACTTAGTAGCCACCTCAAAAGCAAGRT
CATAATTCTGTGAATCAGCTAATAGGTGGTATTTAGCAGTTAGGTATGGGCTACCCTCGTGCCTCATGACTAATCACATTGCTTACTCGTCATGCATTTT
TTACAAAGTCTTGCTAAAGTCTGTGAATCTAAAACAGAGAATCTCAAAGTGTTCCTTACTGAATGTTATCCTTTCCGTCAGTTGATAATTACCTGTGTAA
ACAAGCTTTTGACTGCATCTAGAAAAGCACCTATATAAATTCTTCTGTTTTATATGGTGGATAAAGTTTATAAAGGAGAACAAACATAAGAATGATGTCA
ATATAAATGAAGTAGAAACTTCAAAAATCATTTGCATATGTCAAGTATAATCCAGAAGAGTGAAGAAAATACCCAGGCATTTGGCAATATAGGATTACTA
CATGTTTTCCTAAAGAATTTGGAACTGATTAGAAACATCCTGATTTTATTTAAAAGCAATATAATGTATTTTTACAGTTTGTTTTCAAGAAGGTTCAAAA
AAAAATTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGTTGGAGTGCAATGGCGCCATCTTGGCTCACTGCAACCTCCGCCTCCCAGGT
TCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCCCASCACCACACCTGGCTAATTTTTTGCATTTTTATTAGAGACGGGGTTT
CACCATGTTGGCCAGTCTGGTCTCGAACTCCTGACCTCAGGAGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCGTGCCT
GGCAAAGAAGGCTCAAATTTRGTGACTTTTAGGACTAGAGCAGTTTGATGTCTGCAAAAATCTAGACACCAATTTCTTGAAGGCAGGTACTGACTGAATT
CTATTCCAGCATATAGCACAATTCTTAGTAGGCACTTAAATGTTTTAGAAAGAAGAAAGAGCTGGTCATGGTGGCACACACCTGTAATCCCAGCACTTTG
GGCAGCTGAGGTAGGCAGATCACTTGAGGCCAGGAGTTTGAGACCAGCCTGGCCAACGTGGCAGAACCCCGTCTCTACAATAAATACAAAAATTAACTGG
GCGTGGTGGCACACACCTGTAATCCCAGCTACTCGGGTGACTGAGACAGGAGAATCACTTGAACCCGGTAGGTGGAGGTTGCAGTGAGCCGAGAAGATTG
TGCCACTGCACTCTAGCCTGGGCAACAGAGCAACACTTTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAGAATAAAGAATTAGTCTAAGGCAGTGGTTCT
TAAAATGTGGTCCTGGGATCGTGAGCATCCTCTGGCAGCTTGTTAGAAATGCAGTTTCTTGGACCYCATCCCAGACCTGTGGTGGGCCTAGCAATCTGTG
TTTTAGGGACTCTGCTTTATACGCTGTTTGGGAACTCTTGGTCCAAGATGATTCTTGCACCCCACCTGATAGAGTGGGGCCCATTTGTCAGTGTGCTTTG
GATGATTTCTAGTAAGCCTTACCCTTGCTTATGGTTAAGTTCTTTGCCCTATCTCTCTCCACTCATAGGATCTCTTGGAACCATCCTATAAAACTACCCC
CATTGRCCTATCATTTATTACTTAGAAAAGCTCAGTAGTGGTGTCAATAAGCTTTTGTCAAGAGGCTAGCCGGCTCACTAATTAGACCTTGCAACACTGG
TTCKTTTTAGCTTAGCATGGCTGCTTAGGAATCCCTAGTCTCCGCGTCAAAGACTACAACTTCAAAGACTGGATTTTATAAAATCACAGAAGATGATCGG
CCCTAGAGGACTGGTTCATGTTAAACAGATTTACAAGATATGGATTTGTAAACCTCAATTCCAGTTTAATAATAGTAGAAAATATTCCCTTCCTAGTGAT
TGTTGATAATAGTTTTTTTTATTTTAAAATTMTATAATTTMAAGGATTGAAGAGATTTACACTCATATATATCTGATGTCACTAAGATTTAGTTCAGGTT
ACTTAGAAAGCATTGGGCAATGTTTTGTAACTTTTGGGACTTTTTCCAAAGGGCTGGAGAATATAGGAAAAGCCGTATACACGAAGAGTTTCATAAAAGC
ATTGTTATAAGAACCCATATTTGGAAGTAACTTAAATATCCAACAGTAGGGAGATGTTTAAATAAATTATGGTATAATCAATAGTTAAAATATTGTACAG
TTATAATGACAATTTAGAAACTACTCRCAACTCTGAAGAATATTTAAAAAGTAGGATAAAAAATGTGTGTGAACTATTGATTGGAACCTTACAAAAATGT
ATGTATATGAAAAAGTCTGGAAGAGAATATACAAAAGTGRTAATAGTTATGTTACAGTAGTGAGATATGGAGGGCTTTTTGTTTGTTTTTATATTTTTCT
CTCTTTCCCAAAGTTTATTCAGTAGTATAAAATTACTTCTATAATCAAAAGCATACATTTATAGCTTTTTTTTCTTTTTGGTGTGTCTGTGCTTCTGATA
GTAAAGATCAAGGCAATATATGATTTTTTTCCTATTATACCCAAAATTTATTTTATACTAAATTTTATTTCACATATTGGACTTCCCTGTACATTTTACT
TGCCTAGTCTCTATTTGGCATGGGGAAAGAAACCCATCTCTGTTATGGCCTCTTAATGTTCTCAGCCATACGTAAGGTTTAATTTTGTTGATTTGTTTGG
GTCCGTGATCTACTTGATCTTTAGCATATGCTGGCAAATAGAGCTTTTAAAAAATAGTTTCCAGAGTTACTTTCTTTTAAAGCCCTTCTCTCTTTATTTT
TTTCTAATTTTTTTCTATTATGTTCCTTTTTTTCTAAAATTGAATGACCTCATGATAGAGTTACCCAGTTTTCCTGCTGCTGACAGAATGTTGCACTTAT
AAATAGCAGCTGATGCAGATGCACAGAAAGGTAAATTTCTGTTACAAATGTTCATTATGAGCCCTTCATATAATTTGTGATAATAATTTTAAAAATAAAA
AGAAATGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCCGGCT
AAAACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGA
ATGGCGTGAACCCGGGAGGCAGAGCTTGCAGTGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCTGTCTCAAAAAAAAAAAA
AAAAAAAAAAAAAAAAAGAAATGTAAAATAGCAAGCGAGTAGAGGTTTCCCAAAATCAGTGTGAACATTGTGAAAGTTATATATATGTATAGACACACAC
ACACACACACACACAGTAATAGCCTTTGAATGAATTCTTTTTTCATCTTTTCTGTTGCATTGTCCTAGAAATCCCAAAGGAGAAAGTTAAGTGGTTTTGC
CTTTGACAGCGGTTACAGATTACATTTTTCTTGTCACTTTCTTTGGGACTTCTTTTGTGAAACTTGTGGCATGTCCTAGAATAATCTTTATCTTAAAGTT
TTAAAAACTTTTTAGAAATTTCATATCAGTGTTATAAATATTTATTCTGTATGCCTCCCCAGTTTGGGATGATTTCATCCTTAATGATAAGCCAAGACAA
ACTTCAGCTAACAATATTTAGTTTATAGATCTTAGAATGTGTTTATGGGTAAAAGAACCTCGATGTGATGATACCTTAGAGAATAGATCTACTGAGACTG
ATGCGTTTTATTTTCATTTTTGTATTTTATTTATTTATTTATTGAGACAGGGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGTGCCATCATGGCTCA
CTGCAGCCTCAACTTCTTGGGTTTAAGTGATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGTGAGCCACTACACCCAGCTAATTTTTATA
TTTTTTGTAGAAACAGGGGTTCRCCGTATTGCCAGGCTGGTCTTGAACTCGTAGGCCCAAGCAGTCCTCTGGCCTCTGCCTCCCAAAGTGCTGGGATTAT
AGGTGTGAGCCACGCGCCCAGCCTGAAGCTTTTTTTAAATGAAGATTTATTCAACAAATGTCTATTGAGCCMCTTATTTGTGCCACAAGCTGTTTCAGAT
AAGGAGGATAAAGCAATGAACAGACAAATTCCATTCCTCCTTGAGTTTACAATTATTGTTATCTAGATTTAACGAGAACATTTTTCAATGGGAATGACGG
TGACTAAGAGGGGGTGAATGGGCCTGTGTCTTGTAACTAGATGGCATTGCTAGGCACCGTGGACTCAGGGGGCTCTCTCTGAGATTGGTATAGTGTATGG
GAAAGAAAATCTGTATCCTTGAATATTTTTTCCCAGCTCTCTTACTATCCTATTATCTTAGGTTATGTTGCATGTATTCTATATTGTATATTATGCATAA
TATATTTATAATTTCTGTCTCAGTAATGAAGTGATTTCAGAGGAGGTAAGAATGAATCCTTTGCTAATAAGTTATTACTTTCCTTGAAAATCCAAATGAC
AAGAGGATTATTCACTTTGCAAAAGGATTATTTATTTTTATAATGTTTTCACAGTAGATTTAAGTGGTTAACTATTCAAGTGAATTTAATTTATAAATAA
ATCAATTAATTTAAAAAAATTATTTAACCCTAAGAAAATGTAAAACAAAGTTCATGGAGACTGTCCCATTAACATCAAAAAAACTTTTTTTCTTGGGAGA
TAAAGTTGGCTACTTTCTCTTTAAAAGGCCATTACAAACTTTTACAAGCTTAGAATATAATATTTGCGTAAAAGGAGACCCAGATCCTATTTTAAAYGAC
CAAATTATTTTGATCAAATTACTTACTATAGCTATTTTCAATGTCTGTATTCACAAACTGTTTACTATTTCAGTTCTGTTTTCAAGTTGACAGAAAATAT
CATATTGACCACTTAGAAATAAATTCTGAACCACATGAATTTTTTGGGAAAAAATGATAAGGAAAATCAATTTTGATGGACTTTATATAAAGTTAAATAG
AATTAATTCTTTCATATATACAGGGCCGTGAAATGTTACAGTGTAACTCAATACAGATGTAACCAAAACCTTCAAATTTTGCAAATTTCACCAGAGTTAA
TTTGTTTGGTTCTACAAACATTTACCAAATGACCACTCATTAAACCTGCCCACCTATGAACATGACCTTATAAAATGGTGAGACATAGCAGTATCTGGCA
CTGGGCACACAGATTACCACRGCTCAATAAAAGCTGAGAAAATGACTCAGTGATTGAACACAGCGCATTGCCATGGTTGTGTCTTTAAGCCATTCATGTA
ATTCATGCTGTGTATTCGACTTAGCCTGCTGTATGATCTTTGATCCTAACCAAGCACAATACAGCCACAGTTAATTTCTTTTTATCGTGAACATTAAATT
TTTAAATGTCAGGTTGACTTTCTTTGTCCTATAACTTGTGTATGAAATATTTATCCTGGTCCCAGCTTTTTTTTTTTTCATTCTCAAAGGAGGTGAAACC
AGCTTTTGAATTCAGAAAATGCAGACTAATATTAATATCAGCCAAAGTAAAACATAATTAGAAGGCAGATCTACTCTGAAATGGAATCTGATATATTCCA
TGTTCTGTGTTACACATATTTGCTGATTATTTGATGTCATGTCTGATAATTTTCATGGGAAAATTCCATGTACCAAGCAAAATTGTTAGTTCCTAGAGGG
TAAGAATGTGTATAGTAGTTCTCATTCTCTTTACCTTGCTGTGCACTGTATACCTTCCCTAATTCCCAGCCAAACTGGGTGCACTATATACACTTTTTAA
TACTTTTCAACTTGATTTTATTTTGAGGACAAGTGTGTGCTTTTTCAGTATCACTTGTATAGGATTCTCCACAATCTTAGGGAATTTCCTAAACTACTCT
TTAAAATATTAATTCCTATTTTATGTATTGTTTTTGTGATACATAATGATATGAAACTAATGCCAGGAGAAATTTCCATKTTGTTATTCTAAAGCAGACA
AAATGGGATATGAAAGGGAAAAATGTTAATTATAGACTTCAACATTCTATGTTGGACCTCGTAGTTGTTCTGGTCAGAAGAACAGGTTTTTTAATGGCCT
AAGGGCCAGAGCATTGTTTTGCATTCTTGTTTGGAGACTTTCAATGGCAACTGTAACAAACTCTGCTTAGTACCACAGTTGGAGAAAGGTTTACAATAAT
GCCCAGTACAAAATGTTATTCAGACTTACTACTCATGCATAAAATAAAACTKGTTCTCTTCTTAAACTTCGTTACATATTAGATAAAACACTATCAAGTT
TTGGCCTCATTTGTTCATAATATGTAATTTAATTCAGTTGCTCAGCTAGTTCATATATGAATCACAAGTATTATCATCACAATTATTTAACAGTTAATCT
CCTTTTATAGGGTAGATATGTGTTAATAAGCAACTTCAAAATACCAAAGAAACTGCTTTACATATACAAGCAAAGCAAATAGATGGACCTTGTGACATCT
CTGGACAACCAGTCTTCTTGGTAGGCCTTCATCTGTGGGTGTAGAACGAAGGTAGGAGTCTGCTCACTAAAGATCAATGCAAGGAACTTCCATGCTCTCC
ACTGCTGGGCAACCTGCCATTCTCCTCCTGCCACCACACCTGTTCAGCTACTAGGGCAAAGAAGTGCCCTGCTAGACACAAGCAGATGCTTCTCTTACCA
AGAGAAGATAATATAAGGAAGGATAAAGAACTGAAACAGGTTTGAGGCTTTCTCTTATTCATCATCTAGACTTCAGTTTTCTTGATTTATTATTCCTTCA
TGTCTTGCCAGACACAACAGTTGCACATGTGTTCAAGTTGGTTCTAGGCACAAAGGGAGATACCAGAGCTTCTGTAGCTACGAGATTATCATCTGCGTGA
GCCAAGAAGGGGTAGTGTTGAAACAGGTAACTAACAATTCACAGCAGTATGTGATTAAGGGCTAAAATAAGTAAAGGGAGAGAACAAATGCTACAGAAAT
TCAGAGAAGGCTAAGATCAGTGTGGAGTGGAGGGTACAGCCAGGTAAAGCCTTGTAGAGAAAGTGGGAATTGAACTAAACTTTGGAAGCTCAGGGATTGA
CAGGATAGCCTCACGAAAAATACTAAAAACAATACAGAAGAAGAAACAAGAAGGGAATTAAAGGATGATTCCATTTGTACAAAATATCCCGAGTAGGTAC
ATCCATAGAGATAGGAAGCAGATGAGTTGCCAGGGGCTGAAGAGAAAGGAAAGGGGGAGTGACTGCTTAATGGGTACAGGATTTCCTTTGGAGGTGATGA
ACATGTTTTGGAACTACACAGAAGTGATGATTGCACAGCTTTAAGAATTACTAAATACCATTGGATTGTACACACTTCATAAATACATTTTAAATTGTGA
ATTTTACCTCAAATTAAGAAAAAAAAAGTTCCTGGTTTGAGGTAACCAAAAGAGAAAATAATTTCCAGTATAAGAAAACAAAGCCTGGAATAGCAAATAA
GCATAGAGTTAAGGGAAGGTTTGCAGAGATTAACCAGTTTGAAGTGGAGAGTGCGTGGATGTGAGTAGTGAGAAACATGGTTGGAAGTGTAGATTTTAGG
CCAGATGATAAAAGGTCTGGAATGCAGGAGAAGGAGTGTGGGTTTTATCTCAGGAGCGGGGAGATTCCATATCGTAAGAAGAGGGGTGAGATGATTGAAT
CAGAAGATTAATTTGGCAGTAGCATGCAGGGAAAGCAGTCAGGAGGCTGCTGCAAAATCCGGACATACCATGAGGAGGGCCTGTAAGAGTGAAGTGGAAG
GGCAGATGTGGACGATGCTCTGAAGCAGAGARTGATGCTCAAAGTGTGGTCCGTGGCTTGATGCTGCCCCACAAGTGTTAGTTACAGACCTGGCACACAG
TAAGGGTAGATTTGAGGGTAAGTCTTTAAAACTTTAATATTATTATGATATTCAAGCGCATGATTTTGCATTTCATAGCAATATCCACAGTAGGTGTAAG
AGACAAGAAAACTTCCTTCATGCCAGRGTTAGAAGACCGCTGCCCTAAAGGATGAATGAGTGGAGTTGATGACTGACTCCTGTAGGGCAGTCTTTTTTTT
TTTGGAGATGGAGTCTCACTSTGTCACCCAGGCTAGAGTGCAGTGGCACGATCTTGACTCACTGAAACCTCCGCTTCCTGGGTTCAAGCGATTCTCCTGC
CTTACCCTCCTGAGTAGCTGGGATTACAGGCATGCACCACCACACCCRGCTAGTTTTTAAAAGTATTTTTAGTAGAGATGGGGTTTCGCCATATTAGCTA
GGCTGGTTTCGAACTCCTGACCTCAAGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCTGGCCAGGCAGTCAT
GTTTTATGGCTCCTTTACAGTGTTCCACCCCTTGTGCTAGACACTGGGACCAGAGCAGTAGGCAAGATGGACTGGCACTTTCCCTTGTGGAGCTCGCTGT
CACATAAATAGTCCTTCTTTGTCAAAGGATTGCTAGGAATTAAAGGGAGGTCTGGTTCAGCTCAGCATAAGGAAAGCATTCTAATAACTACAGCTGTCCC
ATAGTGGGAAAGGATGATTTGTGAGAAAGTGAGTGCTTCGTCATTGGACATATTCATGCAGAGTCTGAATCATCTCTCAAGAAGTCTTGCTTTGGTGGGA
GAAATGGAGTGGGTGACTTATCAGGTCTTGTGTAACTAAGGTGCCATGATTCCCTATTCTCTAATGTGAACTTAGTAGAACATATTTTCTTCATAACTGG
CTGTATTGGAACACCAGTACATATACTAAGTTTCTGTCTGTTTCTATTAGCACTTGGAATTACAGTTACCTAAATTTACATGTAGATTCAATTTTGAACT
TATCTGTACAGTTAGTTCCACAATTCTTTTTAAAGCAAGTACTATTCTCTAATGCCTTCTCAGACATTCACTTATTTCCAACTTTAATATTTATAGTAAG
TTCCTCTTTCACGTGATGTGTGTCACAAGTCACGCAAATTTCTGCAGAAGTGAGTTACATAAATTGCAGTCAAGCTGCTGACCTGTAAATCATTCATTCT
TGCCCCCGTGATGTCATATTGGGGTTGAATAAGACCAGGCGTGACTACCCACTTGAGGATGTCTTTGGGATGCCATTTTAATTGGGTGAAATAACTTTTA
TTATTCAACTTATGTGACCAGTTACTGCAAACGTCAAACTGTTACGTTTAACAGCTAGAATGATCATAGGTTAATTGCACTTTAGAGGATGTGGAGGACG
TAGACTCCTATAGGAGTGATAGCCTTACTATATTTTGGGGGAAATTCTAGAATGTTTTTAACTCAAAGGACATTATTTTCATGAGGATGATTTTAATGCT
TATGGTATCAGGTGAAGAAAAATGTTAGCTGCAGAAGAAAAAAATTTGTTTCACTTCAAGTCTAGTAGAATATTTTGTTAAAATAGCCAATTTTCATTAT
GTATTATTAAAACAGGTTATACTTTTCATTAAGATGTATGTAAAAATTTCACATGTGCCTGGTATTACACAGTATTTACCCAATAAATATTTATTGAATA
TTGTTGAATGAATGTGAGGTGAGGGCGGAGAAAATATTTCAAATGGAAAAATAGTATGAGCAAAGGAAAACGTGAATACAGAAAGAAGCAAAGATAGTTT
CTTTAAAGTCGCATTTATATGTAATAACAATGGGAAAACTTTTTGGCTGAGTAATTTTGGTGGCTCCTTAATTTCTTAATATTTAACAACTAATGACGAC
TCTCTCTGATACTGATATCCAAAGCAAATAGCTGACCTTGAACATGGAAAAGTTACTGCCTCTGACTAATTGGAATGTCTGAGCCTTTCTTGTCTTCTAT
CTTCTTTCCTTCCTTTCTTCCTCTCTTTCCTCCTCTTTTCCCCTCAATTGTAGCACTAGCTCTTGTTCTTGTTCCCTCTACCCTTCTCCCCTTTTTCGTT
CCTGGTGTTCCCTATGTTTTCTTCTTTCCTTCTTTTCTGTCTCTGTTTCTCTCCCTCTGAATTTCTGCTTCCTTTCCTCTCTTTCCCARTTGCTACTGTC
TCTGCCTTTGGTTGTCTCTGAGTGTAATMTGGAAGTGAAGTATATTTTTATCTACTAAACACATGATCAAATAGGGATTTTTTATTCTGAATTTAACATT
AACAGAAATGTTATGTTGCTCTTTATGAGACGAAATAAARTTGGATGTCACTTATAAATGGATTTTGATTGATTTTTTTAAAGTATTGACTCACTAATCT
TYAAATTGGTAGAAGGAGGTCAGTAGACTTTGACTCATAAATTTTTGTAAGCRTAATGGCTTGTTGAATAACTCCTAATTGTCTTTAACAACCTTGGTTT
CTGTCCTCTTTTTTCCAAATGCAGATATAGCAGATGTCTTCAGCATCTAATTTTTTATTACACTTTCATATGTGCAGTCATACAAGAGCTGGAGTATTTG
TTTTGTTAATTCTGTATCTTTATTGTCTAGAACACTGCTAACAAATAGCAGATGCTCAACAAATAATTGTTGCTTAATATTTCAAATCTGTAGTGTCATT
CTACCTCCTAATCCCAAATAGCCATCATAACTTTTTAGACTAACATTACTCATTAAGGTAACTTAGTATACAATGAATTTATAAATGTAACCATACAATT
TCATGCTTAGAGAACGTTTTCTCTCCATTCTCTCTACCTTTAGACCATTCTGCAGTTTAAATCTTGAACCAAAATGTCATTTAACCATCCTTCTGAACGA
TAACTCCATAATTAACTCAAGCACCAAATAAGTCATCTAGCTCTTGATGGTAATAATTAATATTTGTTGAATGCTTATTCTATATCAGGCTCTGTTTTAA
GCACATTATATACATTATCTCATTTTATTCTTTCAGCAGCTATGTACACCAGCAGTCCCCCACCTTTTTGGCACCAGGGACTGGTTTCATGGAAGACAGT
TTTTCAACAGACTGGTGGCAGGTGGAAATGGTTTCAGGATGAAACTGTTCCACCTTAGATCATCAGGCATTAGTTAGATTCTCATAAGAAGCATGCAACA
TAGATCCCTCACATGCACAGTTCACAATAGGGTTTGCACTCCTTTGAGAATCTAAGGCTGCTACTGATCTGACAGGAGGCGGAGCTCAGGCAATAATGTT
CGCTCGCCCACCACTCATCTCCTGCCACGTGGCCCAGTTCCTAACAGGCCATGGACTGCTACTGCTTCACGGCCTTGGGGTGGGGGACTCCTAATATACA
GTATTAAAGTCAGATGAAGAAACAGGAACAGAGAGGTAAAATAACCTGCCAGGTGATAAAAACTAGGATTTGAACCCAGACAATCTGAACCCAGCCACCC
TGTCATGCACAGGAGCCTACTTTGCAAGTATTTGGCCTTCCAGGGAATGAGATGTCCACATCCCATCACCACCGCCACCACTATTCCACATTTAACAATT
AGACCTATACAGGTGTAACCATATTCACATGTAACAGTGGATTAAATTTAAACTTTTAGTTGTGTTAATTCACTGCAAATCAGCTTATGTGTCTTGTAAG
TAGTAAGCAACTTGAAAGTACCTGTTGTTGCTTATGACAAGATAAATTAGATCACCAAATCTTTATATTTAGTAACTTCATCATCACTTAGAAATCAACC
GCTGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCCCAGCACTTTGGGAGGCCGAGGCTGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTA
ACACGGTGTAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGTGGGCGCCTGTAGTCCCAGCCATTAGGGAGGCTGAGGCAGGAGAA
TGGCGTGAACCCGGGAGGCAGAGATTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGWGCAAGACTCCGTCTCAAAAAAAAAAAAA
AAAAAAATCAACCGCTGTTAGGAAATTCTTTTTTTTTTTTTGTCTCTCTTAAATTCCTCTTAATCTAAATAAAGACATTTTATTTTGTCTCAGGATACAG
AGGTCAATTGAATATAGCAAATTTTGTCAGTGTTGTAAAAAATCTGGAGAGGAATGTAAACGGCTCATCTTGTGTCTGGCCTCTAATTGAATCAGTCAGC
TATGGTGGGGTTAGGGGACAGATCCGTGTATTTACTTGCATAGGACAAAAATTAGTCATTTGTGAGTGTTCACATACTTCCACCTCTCCCAACCCACCAA
AGAGAATTGTAATTTGACAGTACAATAATCCCTTCCCCTACTCTTAAAAAAGTTGATCTTACAAGGTCAGTCCTATGTTTTTATGAAAAAGAATTAGAGA
ATGAGTAGAAAGGAACTAGTCAAGAAAAGCAGAAGATTTGGGTTGATAGACATAAAGTGCTGGGAATGAGAGGAAGAGAGAGAGATCGTGAAATTCCTGG
GCTGGGAATAAAGACTGTGTGTAGGTAGGACAGCCTTTGGTGAAGGAGACACTTTGGAGAGCATGGTGTGTGAAAACACTTAAAGGAAAATTAAAGGGAA
TTAAGAGGAAATTGAAGGGAAGGAGTATATGAGAAGGGTTGCTTTGTGGTTATAAGCTGAATTTTCTTTAATGTATTTTGAAAGACCCCGGTAAAGAAAG
GAATTTCTTTTAATTTTGCAGAGAATGAGGAGTTGTCCAATTAGGTGTTGAATTGTTCTTCCTTGGAACTCTCAAGAGAGGAGTTGTGTTTAGAGATAGA
TTTGGGAGCTGTAAGCAAGTAGATGTGTTATGAGTCACAGTGCTGAGGGCAAGAATATAAAGAAGAGATGAAGGCCAAGAGGAAACTTAGAGAACACAAA
ATAGAAAAGCTCAGAAAGCAGGGGTACCAGGAAAAGGGACTAAAATAGTCATCATAAGGTAGGATAATAGGAGGCCGTGCACAGTGACTCACACCTGTAA
TCCCAGCACTTTGGGAGGCCAAGGCGGGTTAGAGATCAGCATGGACAACATAAGGAGATCTCGCCTCTACAAAAAAATGAAAAATTAGCCAGGTGTGATG
GCGCACACATGTAGTCCCAGCTACTTGGGAGGCCGAGGTGAGAGCATCACTTGAGCCTGGGTGGTTGAGGCTACAGTGAACCATGATCACACCACTGTAC
TCTAACCTGGATGACAGAGCAAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGGGAGAAACTGATTTCAAGGAGCCAAGAAAAGAGACAGAT
TCAATAGTGGAGGAYGGGCAAAATATCAAATGCTGCAGAGGCAGAGACCGTGGTGTGCTGGAGCCACATTGTTAAATTTTCACAATTTTATTGAGCCAAT
CGTTATGCATGCTATTATTAAAACTTAAATTGAATACAGTTAAACAAATTATATTAAAAATAAAAGTAATAAATACACAAAGCATACCACTTCCTTATTA
CTTTACATTGCTGAGATGATTCATGCCCATGGTATCTGAGTAGTGGAAATACACTGTAATATTTGTGCTGCTTTTAAATCAGTCATGGTGGGAGTATTTA
CACCACAAAAATTGGCAAACACTACCAATCAGGGCATTTTTCTCTGCAAAGAGAGCCAGTTAAATATTTACCAGCATGCCACTGAGAAAATAGAATTGAA
GTCAAGAAAAGTCTAATGGATTTAGCAAGAAGGAGATGACATATACTTAAGTTTCAGTAGAAAGGTAGGTGACAAAAACCACAGTAAAGTGGGTTGAGGA
GTGAAATAATAAAAAATTAAAAACATGTGTTCAAGTAAGTTTGAGAACCATTGAATTAAACCGAGAAGCAGATTGTTATTGTTGATGATGGTTTTGTTTT
TTAAATTACAAGGTTTGCAGAGTACATACTATGCTAATGTACTTTATTAATCTCCAAAAATGAAGACCATATGCAAATTTATTTTATGGTAGAACCTTTT
CTGTTGGAAAATCTTAGGGAACAAGTTATCTATAGAATACATTTTGGGAAATGCTGCTCTTGTATTTCACAATTAAGATGATACTGATTGTAAAGTTTGA
GATTAATATTCTTGTTTTTAAAGTTTCATGCTTTTTAAAAGAAATTTTGTCAAGAATGGATGTTGAATTTTACTGAGTACTGTTTTTGTCGTTTTTGTAG
TAATCATACGGTTTTTTGACCTAGTGCTGTGACACATTTTAATAGATTTTCAAATATTAAATCCTCTTTGCCTTTCTGAGATAAATGTAACTTGATTATG
GTGGTTCATTATTTTAATAGAGGATTTAATTTGTTAATTARCATTTTATTTATTATTTAAAATCAATATTGATAAGTGGGACTGATATTTTTCTCTGTTG
TCAGGTTTTAATATCAGTGTTATGACACTCCAGAAAAGTTAATTATGTCACTATATTTTTTCCTACTGAGAAACAGCTTATGTAGTAAGAAAATCATCTC
TTCCTTGAAAGCTTTAAAAAATCAACTATAAAACTAATAGCTTTTGGAGGAAGTAATTCTTTGATAAGTTTTCAATTATTTCCATYGTTAATTATTTTTC
TGTATCTTAAGTCRACTTCACCATTTATTTCATTTCAGACAAGTTAGTCTGAGTAAACTGCCCTTGGCCTGCCTTATTATTTACTTAGGTTCTGGTAAAA
ATCCCATCCCAGATGTAAAATCATTGTGTGAGTAGAGATGAACAGCCCCTGTCTAACGTGGGCTGTGTTTAAGTGTGAGGCAATTGTCTGCTGTCTTCAC
AGCCCAGTTCTCTGGCTTCTAGGGATGATGGGTAGGGTGTTTATAATCGAATGAATATAAACTAATCTTGAGTTAAATGACCAGATGGCAGAGGTGAAAG
AACGGCAATCCKTGGTGTCTACTCCCCCCAGAATGGATCTTGTCTCTGCCCTACTGTGTTTCACRTCTGGGGAYGATTCCTTCTAAGATACAGTGCAGTT
CTGAATGGGTTCAGAAGGAAGAGGACTGGTAGCAGGAGGGGGTCTGGGGGAAAGGTTACCTAAATCTGCCTGACTCTGACAGTAGTAAGAACCAGCCAAG
TGTTCTGTTTGATCCGACACTTGGGGCTACACACTAAGAATAGATACCAGTTTCTAGAAATCTTTACTTTTTGCCCATCTACTTCTGAAGAAATACCTAT
GTATTTCAAAGGAAAATTGGCACAAGTATCAAGGAAAGCTGGTACAACTTAATCTTAACCTGGAATCAACTCCTTTAATTTTTACATACAGATTTGGTTC
CGTTTTTTAGATTAAAATTTTTACCTTTGTTTTCACGTATTTGAGCCCTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCGCCCAGGC
TGGAGTGCAGTGGCGGGATCTCGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGC
CCGCCACTACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATTTTAGCCGGGATGGTCTCGATCTCCAGACCTCGTGATCCGCCCG
CCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCGAGCCCTTTTTAATAGTTGCCTTAAATGTAAAAAAAAAAAAAAAAAAA
AAAAAAAAAAAAAACCCAAGTGGTAATCTGTCATAGATAAAGTGTTTCTCATCTCTCATGTGTTTTGCCTGTTGTGTGTAATGAGCGGTTTCGCTGTGGG
TGCTCCTTTCATTTCTGGCTAACACATTAGAGTGTGTTTATGTAAATTGCTGTGATACYGGTCAGCAGTCACAGCCAGAAAACATAAAACATGTGGGCAT
TACACACTGACACATTAGCTCTTTCTAAAGAAGAACATGTCCCATTCTGAAAAGAAAATTATTGCTTTGTTTTTGATATTGAGTCTGTATTAAAAWWTTT
TTTTTATTTTTGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCATAGCTCACTGCAGCCTTSAACTCTGGGACTCAAGAGTTC
CTCCTGCCTCAGCCTCTTGAGTAGCTGGGACTACAGGCACATGCCACCATGCCCAGCTAATTTTTCTGTTTTTTGTAGAGACAGGATTTCGCTGTGGTGC
TCAGGCTGGTCTCCAACTCCTGGGCTCAAGCAATCCGCCTGCCTCAGCCTTCCAAAGTGAAAAGGTTTTCTCTCATTTTTCAAATAGAAGTACTAAACAA
TGCCAGAGAAATAAATAAACAGGCAAAATACGTTGGCTATAGTTTATATTATTTCCTGCTASAGTTAACAAAATGGGAAAACATTTTATCTTCATGGTCT
ACTACATTTATGCCATGTGTTAAGTAATAAAATAGCTTTTGTAAATTATAAATTAAAAGGTACAGATTTAAAAGAGAAAATACTGTAGAGTTTCATGTAG
GTAAGACTGTGTAGAATGTCGGGTCTCGATGTTGGCGCTATTCAAGCCCTGATGATAAGGCTTTTGGCATTAGATGCTGTTTTGTCTTSATGGAAAATAC
AGCTATTCTAGGATCCTTGAGCCTTTCATAAGAGATAAGGTTGTGAATCCTAAGACCCTAGGACCATTTACTTAGATGATCTGCTCTCTGGTTYGTCCTC
TGAAAAGTCTGCTTCGYGAGGGGTGTGCTGCATTTGCCTTGCCTAAGTGGTGTGGCACACAACTGTACTGTCACCTTAGGCTTAATAACCATGTGTCATC
TAGAATGAAGTTATATTTTACTAAGGATCGTTTTTGCCATGTATAACTTCTCAAACATTAACTTTCAGGGTTATTAATCCTTTTAAGGTCTAGTTTTTCT
TAAGTCTGTGCAGTAATAGAGGTATCGTCATTCATGTGACATAAAAGATGGAAAGGGGCTTCATTCATGTTAGTGATGGAAATAGGAAAGTAGGTGAAGT
GAWTCTAATAGATGTTTCTTTTATGAAATAATTTTTAAAAGATTCTCCAGCCCTGCATGATTTATGATGAATCATTTTGTGGTCTGTTAGTTACTTCTAG
AGAATAGAAAGCATTGTAGGCTCAGGGAAAGCAAACATTCAGAATGAAATCCAATAGAGAAGGTAAATTTATTTGGGCATGTACATTTTGGCAGCCTAGG
CTGTGTACATGTGTACACATTCTGAACATGTGTGTATATTGAAAATCTTGTCTCTTTTTTATTGTTAAGATTTGAAAGAAGCCAACACTAAACCACAAAT
ATACAACAAGGCCATTTTCTCAAACGAGAGTCAGCCTTTAACGGTAAGTAAAATCAGAATTTATACTGCATTTGTATTGAAAARTATCCCTTTTAAAGAA
TATGTAAATTATACATTGTATTTTATTGTAAAATTTCCTAGAGAGTGATTTTTGACTATTATAATACTTTCTGCTATATAATTTTCCAGTCAGTTGGACT
ATGCAGTGTAACATATTTGTCTAACACAAAACAAAGGTAAGATAGGAAAATGACCTAGAAGTTGAGAAATAACTCAAATCCTTAAAAATGAATCTCTAAT
TAAAGTCTTTTATATTCATGTTATTTTTCTACTTAAGTAATAATTACATTATTTTAGATTCTTATGATACTTTTAATTAAATTGAGATAAAAATTAAGAT
TTCTTTCATGGTTCCCTATTGGCCATGCAGTCATAATCTGTGGTCACAAAGGAGAAAGTAGCTTCGTATAAGCCAAATGTGCTCCATTCTAGGAGGAAGA
ATTGCTAAGTTATACCCGGCATTAAAACTACTTCCTTCCTGGAACTGACTAGATGGGGGTAGGATTTCAGAGGCTCCAGGGGCTCCCAAAGTTTCGGGAT
ATCCACCATGGATAATTTATCCTTCCGAGGCCTAACTATAGGGTTCCAAGACAGTTCTTAGTCCCCAACTTTTTTGGGAAGGAAAAGGAGACCTGTCACT
TTAAGGTTTTATGTAGTTTTAGGACTATTGATTTTGGTAAATCATGAGCTATCACAGAATAGCTCATTTTCCTGAAATCTGCAAATAAATGAAATCCACA
ACATTGAATAAAGAATCATCAGATAGATAGATACAGAAATTAATATAGAGATGTGTATATATGTGGGTTATTATACATATATATGTTTGCTAACTCTGTC
TGCTTCTAGAGGACCTAGAAGCAGTGACTCCCCAGTAGCAAACTAGATCGTGGTTTCCAAATACAGGCTGAGCATCCCAAATCTGAAAATCTGAACTTCA
AAATGCTTTCAGATTCCAAACTTTTTGGGCATATAGGTGATGCTCAAATAAAATACTCTTGGAGCATTTTGGATTTTGGATTTTTGGATTTGGGATGCTC
AACAAGTAAGTGTTAAGCAAATATTCCAAAATCCAAAAAAATTCAAAATCCGAGATATTTCTGGTCCCAAACATTTTGGATAAGAGATACTCAATCTATA
CCATTTTTCCTTAAAGGAAACCAGAGCTCTTTGGAGAAGTGGTTAATTCTAAGGCTGGGGCAGGGAAAATACAGGCTGAGCCTGGAGGATGTTGTGGTCA
GCCTGAAAGAGCTCCCAGTGGCCAAAGCTGGAACAATTTCATCAATAAAATAACTACGTATAATATTGAATTATAATCTGATTTATAAATAAAATGTATA
CACATGAGTCCAAATTGATATACATAAATGACTGAATAAGTAAATAAATGGGGGGAGAAGAACTCTTTCTTGTAGAAGACTTTAATAAATGTAAAAGGAA
TGAGGGAAATAGAAAATTGTTGTCACAAAGCCACAGCAGTAATTGCTGCATGCAACTTCCACTAATACTAAAATTAGTGAGGTGGGCCAGGCATGGTGGC
TCACGCCTGTAATCCCAGAACTTTGGGATGCTGAGGTGGGCGGATCATTTGAGGTCAGGAGTTCGAGACCAGACTGGCCAACATGGTGAAACCCCATCTC
TACTAAAAATATAAAAATTAGCTGGGTGTGATGGCGGATGCCCATAATCCCAGCTACTTGGGAGGCTGAGGCATGAGAATCAGTTGAACCCAAGAGGTGG
AGGTTGCAGTGAGCTGAGATCGCACCACTGTACTACAGCCTGAGCAACAGCAAGACTCCCTCTCAAAAAATTAATTAATTAATTAATTAATTAATTGAGT
GAAAGTTTAAGGTGAAACAGAATATTTGCATAACCTCAAAGTATCTGCCCCCACTTACTCAGTAATTACAAAAGGAAAAATAGTAACTTTACAGTGGAGA
ATCCTGATGGACACCACCTTAACCACATGATCAAGGTCAATATCAAGGATAGTAAGACATAGTGAGCTCATAYGCCCCTGATAGAATGTCCTGAAAAGGA
CAGATCATGCCTTTCGAATTCTTCCCAAACATCCTTAATCTCATTTGACTATGAGAAAGCTTTAACCTAAATACAAACACATTCTTCAAAATATCTGACC
CTCGCCGTTCAACAGTGTCAGAGGCATAAAAGACACATCTTTGCTAAGRAATCACTACAGATTAGGAGGAGAATATTGCATGACAAYTAAATGCAATGTG
GGATCCTGGATTGGATCCTAGAGCTGAAAAGGGACGTTAGTAGGAAAACTGGTGAAATCCAAATAGTTATAGTATTGTGCCATTCTCAATTTATTAGGTC
TTTTTTTGCTTTTATTATTATTTTTAATTAACATATAATTGTACATATTTATGTGGTACAGTGTGACATTTCAATACSTGCATACAATGTGTAATGATCA
AATCAGGGTAAGTAGCATATCCATCACCTCAGACACTTATCATTTTTTTGTATTGGGAGCATTCAAAATCTGCTCTTCTAGCTATTGGAAAATATACGAT
AGGTTGCTGTTAATTATATTTACCCCACAGTGCTATAGATCATTAGAACTATTCCTTGTATCTAACTGTAGTTTTGTGTCTGGTAACCAATCTCTYGCTA
TCCCCAGCCCTTCCCAGCCTCTAGTAGCAACTATTCTACTGTCCACTTTTATGAGATCAACTTTTTAAACTTCGCATATGAGTGAGAACATGTGGTATCT
GTCTGCTTATTTCACTTAACATAATCACCACCAAGCTCATCCATGTTGTCATGAATGACAGGATTTCATTCTGTTTTATGGCTGAATGGTATTCCATCGT
GTATGTGAGCCACATTTTCTTTATCCATTCATCTGTTGCTGGAACTCAGGTGGATGCTGTATGTTGGCTTCAGTGTATCAACACTGATAATTGTGCTGGG
ACTGCACTGTGGTAACTGGGGGGAAGCTGGCTGAAAGGTATGTAGGAACTCCCTCCACTATCTTTGCAACCTTTCTGTAAGCCTCAGATTATTTCAAGTT
AAGTAGTTTTTTAAGGTCACAATGGAGTCACTAAATAATCATTCTCATTAGATTTTCGCTAATTTATAGAGGAAGATTCTGCATTTGCAAATCTTAGAAC
AGAGTAATGCAGGGGCATTCTTTTCATCAAGACTATTTCTTGAGCTATTTTCTAATCCTTCTCATACACACTCCCATCCCTACCTCTACAAGTCTGGTCT
CTATTTAGTGTACTTAATACTTTAGCCAGTTGCTTACAGCCCTCTAGAAACCTGTGAGTGGGAATAACTCCACAAAGCTCTGCCTCCTCGGGAACCACAT
CTTAGCAGTGTTTTTTGTTGGTGACAGTGAGGGTCTAATTTGAATGTTCACACCAGAACTGTCAAAGTATTTCATGCAATACTTTGAAAAAAATCTCTTG
ATCCACCAATCATCATTACCCAAGACAGGATTTGAACAAGAATTTAGAACTCGTAGTCTTATATTTGTTTGAATGGGAAGAGGAGAGAAGCAGACCGTAT
TGTTTCTAGGCAAAATGTCTGGGAATTCAGTGAATACAAGTAGTACTACGGGAACTTTCATTCTTAAAGGAAATCAATGACAGCATTAAGTTGTCTAGAA
AATCAGTTTAACTTTAGAAAAGCATAAAGCCGTTTAAAATCAAAAGAGCAAACTCTTAAAAGACAAAGTTAGGAGCAGGTACGTACTTTGGCGTCTGAAA
ATGAGCGGTCTAAATTCAAGCATTTTGACATGAAAAATGAAATGTGAAGTATTTGGAATTCAACCCTGAATTTTTTTGCCGGTAACTCTTGTGTATGTTC
AACTAATTTAGCAAACTGCACTRGTTCACATTTTTTAGGTGAAACAAGAAATAACAGAAGTTGCACCTAAAGTAGTCAAATTTCGTAGAGACAGAAAGTG
GAATGGTGCTTACCAGGGGCTGSGGCACTGGAAAGGAACGGGGAGTTRGTGTTTAATGGGGACAGTTTCAGTTTTGCAAGATGAAAGCATCCTGGAGAAT
GGTTACACAACATTGTGAGTGTACTTAATGCCATTGAATGCACACTTAAAATGGTTAAAATGGTAAATTTTATATTGTGTATATTTTATACAGTTTTAAA
AACTAAAAAAAAAAAGTAACAAGTCTTCAGCAGTTATATTCCACTTCATTGCCAGGGTGTCTGGCTCTAAGGGGAATCTCTGCTTAGAGGACCATTAATC
CTTAGGAACCTTTTTTTTTWWAAAAAATCTAAAGATGGTTCCTGGACATCATTTACCAACTGGCAGTTTAAATGGCCTGTGTACCATAAATTGTGAGGTT
AAAAAAAATCTGGTACACAGGAAACAGTAGAGCTGGGTGGCTGGGAGAGTTGCTTTTGGGGTTAATTTATAACTAAGACAAATGAATCTATGAAAAGAAG
AAAAGCCCCGTAAGAAATATGCTAACTGATGGTGAGGGAGAAAAGGGTTTAGATAAAAGATATCTGAACTTGTTTGGTCTCARTGATTTTATGACTGAGG
AATTCAATTATAGATGTACTGGATGGAGCAAATCACAATTCTGTAAATTACTAATAGGACACAACGATCTTTATCATTTTCTGTATGTGCTCACATGCAA
AGTTCAGTCCTGCCCTCTGTAAATAAACTCTCTGCCTAGCTATACCCATGCTATGAATTCAGGGCTTGAGTGTTGAAACATAGGCAATGCTTACTGCCCC
AACCTTAAAGGCAGGTGGAACTGAGATTAGGAACGAAGACAAATTACTTTTGCTTTTGAATTTTGGCCTTCGGGTTTGTTTCATTTTTGTTCATTTCTTT
TCATTTTTATTACTAAAAAGCTGATTTTTTAAAATAAAAAGATCACAACCACACAAAAAAACTATTCTTCTGTAGTTTCTTCCAGTTTTGTTCACATGTG
TATGCTTTTTATTTACTGACAGTTACCGTATATACATCACTTGGCCCTCAGCCTCTTTCACTGTTAGGTCCTATAAATTTTTCATTTCTACCTGGCTTTC
AGAGTTTTCATAATGGCAACATAATCTTAGTGATAGCACRTAATTTRCTAAGCCAGTTTTTAGGTGGCTTCTGGTGTTTTTATTATTGTATAATTATGTT
TTATTCTTATACCATTACATACCATGAATATCTTTATGTAAATATTTCACTCAATTAAAAAAATATTTTCTTCAGATAAATTGCCAAGAGAGGAATTTCT
TTGTTAAAGTGTTTGAGCAATTAATTACCTTACTCTTGCATTATTAATTTTATGACATTTCAAATTGCTTGGAGGATATATTAATAGCAAATGAACAAAA
CATACAAAGCATAAATATATTTTGGAAATACATTTAAATGATTTCTGTTAATTTAAATGAATTATCATTTACTTAAGGCTTTGGGTGTATGATAGTGGTG
GGAGGCTGGAGAGTGAAGCGCTTCAATAGTTGTTTAGAGATTAGAACGATGTGAGTGGTTTATTTTTATTTTTATTCTTTAGAGGCAGGGCCTTCCTCTG
TTGCTCAGGCTGGAGTGCAGTGGTGCAATCATAGCTCACTGCAACTTCAAATTCCTGGACTCAAGTGACCCTCTTGCCTCAGCCACCGGAGTAGCTGGGA
CTACAGGCACACACCACCGCACCTGGCTAATTGCTAAATTATTTTCAGAGATGAGGCCTTGCTATGTTGCTCAGACTGGTCTCAAACGTCTGGCCTCAAG
CAATCCTCCTGCCTTGGCCTCCCAAATGGTGTTTTTTTAAAAAACCCAGCTTAATAGCAAAGAAGTTACAGATTATTTCCTGAGGCTATGTCAAATTTAA
ATAAAATGTAAAGACTGTGCTGTGGGTCCCTTACCACCTTTAAGTCTAAGTTGCTAGTTATTAGGAAGAAATGATTGCTTTTGAAAATGCAGATTTAACA
AAGTAGGACTTTCATAGAGATAAGTTCAAATCAGTTTTTAAAAAATATTCATTTAAAACCAAATATTTTTAAATTTGTGGTTTGAATATTTGAGAAACAA
ATTTAAGAATAAAGATACAATAAGAATTTTAAGATACAAAACTATATGTTTACAATATATTAAAATGAATAGGAAAAAGATTATGGGTGAAACTCTCTCC
TTTTTATTCTCAACTTTCTGTTTGGGGGTTCAGTGTCTCCTTCCACAGTTTTCTTTGCCTCAAATAAATAAAGCCAATTATGAGCTCTACAGTCTGAGTT
ATAGYATTCTTGGTTCTTTGGGTACCGCCAATAACTTATATATCACAAATAATACATATACAGTGTTACATAGTAAGTGCTCAATAATTGGAAGCTAGTT
CCATGGGGCAAAAGGAAAGCAACTGTGTTCTCTTTCATACTGTTCTAGTTTTTTTTTTCCTTTAAGCTTGTGACTTCTTGTTCTTCAGTCCAGATCCTGT
GATCTGAAATAATTTAAATTATTAAAAGTTAGATATTTTTAACCTTTTATACTCCCACTAGACAGGACATAGGAAATTTAGTGAYGTAAGCATCTTTAAT
AATCCTTAAAAGTCATAAGACTTGGTGGCTGGGACAAGAAACAATTAGGTATAAATTTCAGGGAAATACCATAATGGCATGACTTTTGTTTTCTTTTGTT
AACAAGCCACATGGCTTTCCTCTCAAGCCCAAGGAATACATAGTGTGCTCTCCTTTTAAGATTTCAGTTTTGTCTGCATCACAGAGATGTATGTTTCCCT
AAGTTTGCTCACTATAATTTGTGATTGCTATTTTTCTTATCTGCGAAGGAAGTACAGCARCTCCCACTGGGGAAATACCATGTTAAGTTGATCCTAAAAT
AAGAAATCTAAGGGAAAGGTCACATCCTAATAACTTGTGCAAATCTAAATTCCCATGGAGCTTTGCAATCATTTTGTAGGAGTATAAAAAATCTATTATT
GAACTTCTTCCAGATAGCGTCGTAAAATTGAAGTACTTTTATATACAGAAGTAACCACTAAATTATAAATACAATTGACAAGACCTAATTTTTTAAGCAA
TCTATTATGAATACGTAGAGAAATCTGGCATGACTAATAAACCACAAAATCTTTCTTGTCACTTTCACTGGAAATATAAAGTATATTACTCATGAAGTAT
TGTGATAATTACATACAATAGTAATTTCCTATTACTATAGAGATATTTAATACTCAATTTTTACTTTTTTTTTTTTTAACTGATGCTGACCTTTTAGTTA
TACTTTGGAAGAACCTTAACCATGTTGTTCCAGGGAAATTCACTGCTTTGGGAGCCAGGTCACTGAGTTACTACTGTCTTTCCTCYTCTGTTCTTTGGCC
ATCGTTTAAGTTTCCTTACCTGTTAAGTAAGAAAGGTTTATGTTAAGGATCAAGTAAGATCAAATATATAAAGGGYTTAGAAATAATTTACGGCGTATAT
TTATGGTATTACTGTAATAATTGCCTTGACTTTTTTATCTTTTCCAAATGAATAAATCAAAATAGAAAGAGGTTGAGTAACTTACTCGAGCTAACAGTCA
CCGGTACACGCTAATCAGTGCCCCACTCACTGGTCAAATCTAAGTAATTCTTCAAGGGATGGAATGTAAATGGAAACTGCTCCCTTATGCTGCATACAGA
GGTATTACATTTTGCAGTAAGGATTGATTGTTTCCTAGCACGTAGTAACTAACCTGTTTTGAGGATGCGTTGTTAGAAATGCATCTTGGACATTTATGTA
TATATACGTGCATATATATATGTATGTATGTATGCATGTATGTATCGCTAGAGGAATGTGCGTCCTTGCTTTCTTACTACAAATTAAAGCTGAACAGAAT
GTGGTGTTTGTCTTTTGGTATTGTCTGAATAAATACCAATATCTACTAGTATTTATTTCCTTGCTGGTAATAATGTGTTTTCATTAATTTAAGATTTATA
GGAACATACTTGGGTGCTCYGCCTGCTAGAAACTGATCTGTAGCATGAGCCATTTGTTGAAAGTACTTAGATATTTCTGCATTTATTTATTTCTGTTTCA
GACCCCACAATAACTATATTACTATAAGAAATATAGGCCAGACACAGTGGGTGGGTCACACCTGTAATCCCAGGAGTTTGGGAGGCCAGGTGGGTGGGTT
ACACCTGTAATCCCAGCAGTTTGGGAGGCCCAGGTGGGAGGATGGCTTGAGGCCAAGAGTTGGAGACCAGCGTAAGCAACATAGTGAGACCCTGTCTCTG
CAAAAATTAAAATAAAAAAATTAGCCAAGCATGGTGGCGCCCGCCAGTAATCCCAACTACTCAGGTGGCTGAAGCAGGAGGATCACTTGAGCAGGGAGGT
CAAGGCTGCAGTGAGCCATAATTGCACCACTGCACTCCAGCCTGAGGGACAGAGTGAGACCCTGTCAAAGAAAAAGAAAAGAGAAGAGAAGACTAAATTG
TTTTTTACATGCTTATCTATGTGATGTGAGTTCAAAGAATCTCTGCAATGATTCAATATCTTTTTAATATTTTTGTTTGGGAAAAGCATTAAGCTCCTTC
ATTGTGTTAATTAATTCAGTTTTCTCTTTTATGTTATACACCAGCATGAAAAGTGTGAGATGTTAGAGGCCCACATCAGTACCCTACCACATATTTACCA
GGAAAAGCTGACTTTATGCTTAATGGCAGCAGTCACCCCTTTAAAATGTGTGGCCTCTGTGTCCGATGGCGTGGACTCACTTCCTTTAAGTTCATGGCCT
TCTGAAGATCAGCTGGGCTGGGATGAGTGGTGGCTGGCATGTGGTGGAGTGTCTTGCTTCCCTCTGATACATGGAAGTTATAAAAAGTCTCACTAATGAA
TGTTCTTAATATATATGGGGTAACTAATTTATGCATCAGACTTTGGAATAAAAGTAATAGCAACAGCAAATGAGAGTCTAAGAATAATTCATTTTTTTGA
TACACTTCTGCCCCCAGGTGCCAAATGCTACAGGGTGGAGGCGGAGGGAGACAGAAAATCTTTCTGTATAGGAACCTACTGATCGCTGCTACTATAAATT
TTTCTAACCATTTTATTTCCATTGATTATTGTTTTAGTTCAGGTTTTCCTTATTCCTCATTTGGGTTATTGCAGATTAACTCTCTGACCAAGCAATCCAT
CGTTTCCATCATCCTCCAGTCCATAGTTATATTTCATCCCCTTTCAGAGAGCATTACAGACTCTGTGGTCGGCCCAGCCTACCTCTTCGATGTCATCACC
TCCACCTGCTCCCACAAATCTTATGGGTCAGACACACCAGGCTGCTCAGTGTCCTCTCACAGTGCTGAGTTTATGACTGGGRTGGATTGATTTTCATACT
ATTGTTGATTCAACATTTTTTATAGTATACTTCTTGAGAACAGAGACCRTGTTCAGGGATCCCTAGTGCTTAATACAATTCCTACCAAATATTATGCAAG
TAATAAAATTGCAGTGTCATTGAACATTTTCAGATATGCATTTATTTCTACTAATTAATCTTAGTAGTATTAGCAGCCTTGACTAAATATTATTTCTAAA
TTGATCAACATGCGATGCAAAGCATGCTACAGAATTGAATTAAGAAAAGAATTTCCATGAGAGATATGCATTTACAATTTTGTAGATTTAATCTTTGCAT
AGACTTTTTTGTTGCAGATACTGAAAAKGAATCCATAAAAATACATAGATCCCTTTACTAGCCACTTTTAATTTACGGATGAGGAATATTCAGTTCACAG
ACTGGCTAGCGCTTTTTAGCTTTCTTTAGCGTTTGAAGCAGGGCTTCTAAGTCACATGAAAGACTAGACTAGTTATTGGCATTTAAATTTTTTGGCTCCT
ACTTGTATGTATTATTTATTAAACAAGTAGTTATTGCACTACCTTTATGTATGCAGCACTGTTTTAGACAAAATAGAATTGTGACATATTCCTTGCTCAT
GGTCTTGTTTCAAAGACAATACCTACAACTGAAAGAATTAAATAATAGAGCCAGGCAATATCTGATTGAGGAAAAGCATGCAGTAAAAGTTCAGAGAAGA
AGATACACGTGCAGAACTGGAATGGTCAGTAGTTGCTTCATGAGATGGTTGCACTGAGCTGAACCCTTAAGTAAGGATGTGGATACATGAGAAGGAAGAA
GCTGGAAATTTTAAACATGAGGAGCTTCATGGGGAAAGAATTTCAAGCTATCAAAAGATATCAAAGATTGAGGAATTTGGACTTGGTCTGGGAGGTATTG
GGGATCTTGAAGATTTGGGGGTAGGGAAGTGATATGACAAAAGCTGTGTTTGGAAGGCACAAGTGAAACAGAGTTGGGTTTTTTTGTTTGTTTGTTTGTT
TGTTTTTTTCAGACAGGGTCTCACTCTGTTGCTCAGGCTGGAGTGCAGTGGTACCATCTTGGCTCACTGCAACCTCAACCTCCCAGGCTGGAGTGATCCT
CCCACCTCAGCCTCCCAATTAGCTGGGACTATAGGCATACAACACCATGCCTAGCTAATTTTTGTATTTTTTTTTAATAGAGGTGGAATCTCGCTATGTT
GGCCAGCCTGGTCTTGAACTCCTGAGCTCAAGCCATCCTCCCACCTCAGCCTCCCAAAGTGTTGAGATTATGGGCGTGAGCCACTGTGCCCAGCTAAAAG
AGAGATTTTGATAGCTTATATGATTTGATGACTGAATAAAAAATAAAGAGGATGAAAAAAGTGAAAAATGAATTTTTGGCTGATAAATAGAGAAATGGAG
GTATTAAAAGAAATTGGGAAGAGAGACTCTGTTTCAGGAGGAAGAGGGATTAGCTTGATTTTTGGATTTGATGAAGATGTGAAGTTAGGTGACCAGACCT
CGATTCAGATTTTAGAATCAGACTCTTTGATTTGGTGTCATTAACATTGATTGAAGAATGTTTTGAAAGCTGAGGTATTAAGAAACAACACAAAGGTGGA
GTTTAAAAGAGGAAGTTGAGCGTTTGGAGAGAGTGCCATGCCAAAGGAGGGGACTTTTAAGAAAAGGAAGACAACACTTAGTACTTCTGTGTACCCAGCC
TTGTAGGAATAACTTTACCTGTGTAATCTTATTTTATTCTCACAGTACCATGTAAAGTATGAATTATCATTGTCCCTATTTGACAGGTGAATTAAGTGAA
GTTTATTGTGGTTAAATAACTTGCCTGAATGTCGTGCTGCTGGTGCAAGGTTAATCTGGATTTAAACTGAGATCTGTCTGTCTAACCCCCAAGCCCACAT
ATTTTTTTAATTGAAATGCTGCAAAATGGTAATGAAAGGTCAAGAAGAATAAAAAAAAAAAGAGTAAGGCCATTAGAATGTTCAAGGAGAAGATCATTGT
TTAAGATTATAAAAGCGTAGTGGTAGGAATATTTCAGCATTTAGAAGGTAATAGTAAATTAATGGAGGAAGTGACCCTAGACCATTGCTAATTTGGGCAG
CGAGTAGGACAGTTCTCTTCTGAGGCAGCTGAGTCAAGTACAGCAGAGAAGAGTGCTCATCAGTGGAGAAGGTGGGAATAGTGTTGGAGAGGTCTCAGAA
TAAACATTAAGTAATCCCAGCACTTTGAGAGGCTAAAGCGTGTGAATCACCTGAAGTCAGGAGTTCAAGAGCAGCCTGGCCAACATGGTGAAATCCCGTT
TCCACTAAAAATACAAAAATTAGCCACGTGTGTTGGCACTCACCTGTAATCCCCGTTACTTGGGAGGCTGAGGCAGGAAAATCTCTTGAACCCAGGAGGT
GGAGGTTGTAGTGAACCGAGATCGTGCCACTGCACTCCAGGCTGGGCAACAGAGCAAGACTCTGTCTCAAAAGAAAAAAAAAAGAATAGACATTAAAAAG
ACACAGACGATGTGAGAAAAAAGACTGTTCCCACCAAGTTTAGAAGAAAGGATAATGAGGTTGATGTGCCTGCTGTGCCGGGGGGATAAGAGAAAGGTGT
CAGGCAAGAATAGATGTATAAAAGCACTAGTTACAACTATACTTTGAAAGTCATATTTTACCTGGAAGAAATCTCAAAAAACAAAGACTACATGGCAGTT
AAGTGACCCAAATCAAGTCACTTTCCCTCTTCAGGCCTCAGTTTTCCCATATGTTAGACAGGTTAAATTAGGTGAGACAAACTGATCTTTTAGGACCATT
CTATAATACTGTGCTTAACTTTCTAAGCATTCTGGAATGGAGCAGCCTTGATCTTTTCACAGATACGTCAACCATATAGCTTTATTTATAAAACGAACAT
GTTGAGATAACTAAAATTAGAGTTAATATCTTCATAGGTACAAAGAAACTTTTAGAACTTAAGTCCACAAGTCAGAATTTCTGGATGAATTCCTTTTTCC
TCTTATTAAAAATTGTTAAGATGTCTGATTAGACTAGTTGTAAATTCCCTTGAAAGCAAGGATGATATCCTGCTCTCTACTGTGTCCTCAGCATCAAGGA
CAGTGCCTAACACAGAACAACTACCAATGAATATTTATGAAATGAATGAAAGTTTGAATTGCAAAATTAAATGCCACCAATAAAGAGGCTTTGTGAGCGA
GCGTGGTGGCTCAAGCCTGTAATTCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACTTGAGCTCAGGAGGTCAAGACCAGCCTGGCCAATATGGTGAG
ACCCCGTCTCTACTAAAAATACAAAACATTGTCTGGGCGCAGTGGCTCACACCTGTAATCCCAACACTGGGAGGCTGAGGTGGGCAGATCGCCTGAGGTC
AGGAGTTCAAGACCAGCCTGGCCAACATGGTAAAACCCCGTCTCTACTAAAGATACAAAAATTAGCCAGGTGTGGTGGCAGGCACCTATAATCCTAGCTA
CTTGGGAGGCTGAGGCAGGAGAATCACTTCAACCCAAGAGGCGGAGGTTGCAGTGAGCCAAGATCACGCCGTTGCACTCTAGCCTGGGCGACAAGAGCGA
GACTTTGTCTCTAAATAAATAAATAAATAAAAGTATAAAAAACGAGCCAGTGTCGTGGTGTGCACCTGTAGTCCCAGATACTCGGGAGGCTGAGGCAGGA
GAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACTRCACTCCAGCCTGGGGGACAGAGCAAGACTCTGTCTCAAAAAWAAAT
AAATAAATAAATAAAGGCTTAGTATAGAACTCTTCCCAGTCTTTTTTCTCCACTTTGATTTTTTTTTTTTTTCTCAATCTCTTCCATGACAATTCAGGGA
CACATTAATTGTGCAAAAGGCAGTCACTTGTCTGTATTGTCTATTTTTATATCACTTAAATTGGTTTTTCATTTGGTTGCTATGTTGACATTTTATGAAA
AGGGAACTAAACTTGTGAATTGACTGACAGTGGAAATCATAGGATTTTCAAAAATAAGTTTTGTAGTTACTTAAAAATTAGTATTCCAGTTTTCGGTCGT
TCATTAGTTTAAATGTTACCAATAATATTTTCTTTATAAAAAGAAATTATGTTTTATATTGTAGAGGAAAAATGATTTAGAAAAACAGAAATCTATTTCT
GAACAAATTTAGTGATGCTGATGTAAGAAAAAGAAAACCACAAGAAGTCATCCCAAATTTAGTAATGCTTCCTATCTTAAACACATGATTTCACTTGTCT
TCTGGCTAGCTAAAGGTTACAAAATGTCACCATAATACCTTTTACTTCCTTATGAGTTCTTGCTACTCCACCCCCTACCCCCAAATATGGTAGATCGAGT
TGTAAAAACCCTGAAGTATGACAATATAGTTTATTGCACTTATAGTTAGAATTATTCTGCCAAGATGAGCTGAGAAATGGAGGAAATGGATTTAAATTTA
CAGCAGTCCAGTGATACACAATATGCGTTTTCCAGACCACTGAAACAGCAAGCCAACTTTTAACTTTAATACTTCATACAGTGGAAAAGTTACAGCTGTA
ATAAAATCAACAGATACATCTCTGGTTAATGTTCTCAAATGAGAAAATTGACTGCAAGAACATTTGTCCAAATACATGTTTTTATATATTTTATGCTACT
TTCCAGAATATTAACAGTTTTACATAGCRCTGTTTTGGAAGTCACTCATTGTTTTCATCTTTCTGATTAAGAAATAGGGCCAAAGTTGTACATTGCACTA
GTAGTAGACTTTTAAAGATGTCTTTGTCTCTTTTTCAGTACTAAGCTTCAAGTTCATAGATTATCCTTGATCTTTCCTTTCCCTAGGTAGAGATTTAGAG
TATTTGTTTATGTGAGATATATATAAAAAAAAAGGAGATTTTAACAAATGACTGTTTGATTCTTGGGTAGAAACTAATACTGATCAAGACCAACCAAGTA
TTCAGACAAGATCGGGCGTGTTCAGGGTGGTACGGCCATAGACGACAACCAAGTATTCAAACATTGAGTGTTCAGTGGAGGCTGTACAGATATCCTGGGT
TTTGATTCAAGATAGTGAGATAGCCATCCTATGAGAATGTGAACTTGAAATAAGATTTTGATTACTTTTTTTTCCTCCTTTAAAGGTTTGTTCAATTTTA
ACTATTTTTTTTCAAAATCTGCATTATCACAGTATATTTTAAAAGAATGACTAATTTACTGTGATATATTTGGGAGTTACCTTGAAAGAGATTATCTTGT
AATTTAAAATACCAGAGGTAGAGTGAAGAGTCAGGTGGTAAAAGAGAAGGAGACTGGATGTTTGTACCCGGTTTGCTTCTTCCCCTTTGTTCTGCTGCTG
GTTTTATTTTAGCTGTTCTGTTTGCCTCACCGCAGGCAGCGTCACCACTCCGGTTCCAATCTTCTGGACGTAGAGTTTTCAAACCATCTATAAATTAGCA
GTCTAAGTGGAACTTTGGCAAATGAGGTTGCCAACAAGCATTTTCTTTATATTTAGATAATTTGAGCTCATGGCCTCYGGGCATTTGGTAAGAAGTCCAG
TAAAGAGAAGCCTAAAGAACAGAATCTTTATTATGAGTAGTCGCCTTTTTCCACTCAGCAGTTTGATTCCAAGCACCCTGAGAAAAACTAGAGACATAGT
CTAGTTGGCAGGTTTTTTGAAGAGAATGAGAAGCCCAAACCAAAAGATAATGAAGACCACAGCAGAGAACTACCGAGGCAGCTGGCGCAGATGCTTTTTT
GGCACTGTTGAGAAAGGCTTCAGACCCACAGTCTGAAGAGATGGAGAACCCCTCCTCCAGGAGCAAGGAATAAGAATGACAATTGTTCTGTAGGACAGTT
GACTTAGATTCAGGAAAGTTCTTCAGAAAATATATTCAGATCACAAAAAAGGTGTTAAAATCCCAGGATTTTTCAGCCAAGGATGGCACTTGCTTCTTTC
AGCATCACTCATCAAGTTGAAATTTATGAGTGTCCTTTGTTATCACAAACAAAGCAAGCAAACTGAACAAATGAGAATGCTTCTTTAGTATYTACATAGC
ACTTTAAAAGCTCTGTTTTCTTTACAAAATGTGTGTATGGAAAGGTAAAATGGGAATAAATAGTATTAAATTCTGTTCTTAGAACCTACTGTATAGTGAT
TGAACAGCTAAACAGAACGAAAAAGCATGCACATCTTACAGATACAGAGATCATGACTTTGGTAGATGAGACTAACATGTATGAAGGTGTAGGAAGAAKG
TTTATTTTTCAGTCCAAGGAAGCAATTCACAATCAACTGTTAGAGAAGCAGCAAATAGCGAAGAAAAAATTAAAGAACTAGAACAGAAAAAGTCCTACCT
GGAGCGGRGCGTTAAGGAAGCTGAGAACAACATCCGGGAGATGCTGATGGCACGAAGGGCCCAGTAGGGAGCCTCTCTGGGAAGCTCTTCCTCCTGCCCC
TCTCATTCCTGGTGGGGGCAGAGGAGTCTCTGCAGGGAAACAGCTTCTCCTCTGCCCTGATGGATGCTTTATTTGGATGGCCTGGCAACGTCACATTTTC
TGCATCACCCTGAGCCCCATTTGCTTCCCAGCCCTGGAGTTTTTACCCTGGCTTTGCCTGCCACCTCTGCCCAGGACACTCTTCCCTCTTGGGGTGTGTG
ATGAACTCCCAGGAGAGGAAAGATGGGAGCCAGGGCAAGATAGGAAGCTCTGCCTGAGCTTTCCACTAGGCACRCCAGCCAGACCAATAAAAAGCATCTG
TCCCACTCTGCTAAGCCTGCTTTTCTTGAGCAGAGGGTGAGAGAGGCAGTGGCCATCTCCACCTCAGCTCCTGCTCCCTCTGCATCAGAGCCCTTCCTTT
CTTGGGGGATGGGCTCTTGCCCTCTTCTCTTTTCCCTTCCTGTATCTTTGACTAACGCCTCAGCTTTCAGGCCTACATGTAGCAGACAGAAGAGGAAGAA
AGAACAGACGTTCACAGCTGAATCTCAGTGAACAGAATAGCAGTCCCTGGATGGCAGTCTGCCTAAAGATTCCTTTCCCTGCCTTCTCCCATACATTCCA
AAAGGAAGTTCAACAGTCAGCAGCACCTCCAAGACTGTCTCCTTTTGGCCAATATCATAAGATGGACGCCGTAATCCTGAGGCCTCCTAGAGGCTGAGGG
GGCAATGGTGTGCTCCAGCTGGCTCATCCCAGCCCAGGTGGGCCAATTATTCAATTTTCAAGAATTTTGTTGCAAGCCAGTTGTTAAACACAGCCATTAT
AATTATGTAAATTTGCAAATTATGTTAAAAACAAGGACAATAAATACTCAAAATGCAAAAAAAAAAAAAAAAACCTACTGCATAGTGTAATAGTGCTCTC
ACTTTTCTCTCCTTGATTCTGATGTCAATCACTCATTGTCACCTCCACTAGAGGGGGATAAAAAGGATAATAGGAAATCAGAATATTTTGATTTGTAGTT
CAACTGTTGATCAATTATCTTTGAGACTTTTAACATTCATGACTAAGGAGGATTAATAATTAACATGAGCTGTAGAATTAAGGTTTGTRTGGCATGATAA
GTATAAACCAGTTTTGGGACCGCTATAATTCTAAAAAAGCAGGTAGACTAGATGATTAGTTGTACACTTATTACTGCTAATTCTTGATTGTAGAACAAAT
TTTCCTATGAAAACCATGTTGTGTATTTTATATCTCTATTAGTTCGTTAAAAGTTTAGCAGTTTTAGATGTCSAACCAGTAAAAAACAAGTTGCCCATTC
TATCATTTTTTTTTATTGTGGTAAAATATATTTAAGATAAAATTTACGATTTTAACCATCTTAAGTGTACATTGGTACAGTGGCATTGGTTACGTTCACA
ATGTTGTACAACTGTCATCCCTATCTATTTCCAAAGCTTTTTCATCACCCAAACAGCTCTATACCCACTAAACAACAACTCCACATCACCCACTCCCCAG
CCCTGGTTATCTCTGTTCTACTTTCTGTCTCTATGAATTCGGATATTCCAGTTGTTTCATATAAGTGGACTCATATAATATTTGTCCTTTTTGTATGGCT
TATTTCATTTAGCACAGTGTCTTCAAGGTGCATCCATGTTGTAGCATGTATCAGAATGCCATTCCTTTTTATGGCTGAGTAATATTCCCTTGCATGGATA
TATACCACATTGTGTTTCTCCATTCATCTACTGATGGATACTTGGGTTGTTTTTGCCTTTTGCTATTGCAGATAATGCTTCAGTAAACATTGGTGTTCAA
GTATCTGTTTTAGTCCCCRCTTTTAGTTCTTTTGGGTATATACCCAGGAGTGAAATGCTGGGTCACATGGTAATTCTGTTTTGCTTTTTAAGCAACTGCC
AAACTGCTTTTCACAGCTGCTATACCATTCTGCATTCCCACTGCAATATATATGGGTTCTAATATCTCTACATTGCTACAACACCTTTTTTWAAAAAAAA
AAAAAAAAAAAAAGCTGTCCTATTAGGTGTCAAGTGTTATCTCATTGTGGTTTTGATTTGCATTTTCCTAATGGCTGCTGATGTTAAGCATCTTTTCATG
TGCTTATTGGTCATTTGTATGGGTTCTTTGGAGAAATGTGTATTCAAGACTTTTGTCCATTTTTAAATTGGGTTGTTTGCCTTTTGCCTTTCTATTCTTC
TCTCACTTTTAAATTGATTTTCTCCCATATTTCTCCACAAAGTCAAAAAGATGATTTCATTTGAACACAGATAAATGCTGTCAGCCTTCCATTGCCATAT
ACATTGAATTAAGGTCAAATGCTTTTTGTGCTGTTGCTAAAATCACTTGAGAATCTGTCTCTCTTCAACTGAAAGAATTGTTCTGGATGCGTTGATGCTG
TGGAATTCCTTGTACTCTCTCCCAAATCTCATTTAACAAGCTCACATTTAGGGTGTGATTCACTGTGAAGTATTCCAGAAAATAAAATCCATTTTCTCAG
AATGATGAGAAATTTTACACCTTGAAGAGACCATCTCTTTTCCAAACTGAGATCCACAGATTCTTGGAGATCCACARATATATTCTTGGGCTCTGAGAGT
TTTAGAATTTTAAAATAATCTGTTTTTATATCAATAATCTAAAAGGTCATTAGAAAGCCCACATTTCACAATACAAGGACATTTTCCTGGAATGAGACTG
TTTTCTTACATTAGTAAGATGGAAGTGACTTGCCTAAGATAACACAGCAAGTTAAAACCAACACTAAAACTCATCTTTGGAAGCTTTTCTCAGTGTTCTT
TGTTACTAGTGTGGAGATCTTGCAATGATTCTGTCTTCATTAAGTCTACAGGTAGTGGGGAAAGCAGAAAAAGAACAAGTATTAACTAAAATGATGAGTG
CTGTAAGGGAGAGAAATGGCAGTATGAGTTGTGTAGAATGAGAGCAGTTGCATAGGATGAGTTAAGTTACTGTGAGAGTTTGAGGAGGTGGTTTTTATGC
CGATAGTTGAAGAGTGAATTGGAGTTACCTTAAGGGGGTTGTGAGAAGAACCATGTTACAGATGGAGGAAATRAGATGTGAAGGCTGTGATGTGGGAAAC
AGCTTAGTTTACTCCCTGATTTAAATGGAGAAAAGGAATCCAGTGAGGCTTCAGAGAGAAGCAAGAACTAGGTTATTCAGGGTTTAAGACAATCAAAAGT
CAAAATAGAGTTTAAACAGGGGAGTGACATAACCTGATTTGCATCATGCTGGCTGTAGTATGCAGAATTGATTGGAGAGGCAAGRATGGCAGACAGGACG
CCAGGTGGGAAGCTATGGAAAGGTGCATATGGAAGAAGAGAGTGTCTTTGGATTCCAGTTGGTAAGTGGAAGAGACTGAAGCATGTGGCTGAATGTAAAT
GTTTAATAAGTAGAATTAAAAGGACATGGCGATTGGTTTGATGGGGATGTCTGGGCCTTCAATTATGACTCCCTGTTTTTGGCAATGATCAGCTGGGAGA
TTGGTGGCAGCATTTACTAAGACAGGGCTCATTGAAGGAGGACCAGTTTTAGGGAATAGAGGATGAATGGAGTTTTTAACCTGTTGAGTTTCAGTTGCCT
GTGAGATATTTCAATGGAGTTACCAAATAGATATTTCTATGTAGTGTCAAGGTTCAGACTAGAGGACTGAGGCAGAGATATAAATTTGGTCTTAATATAT
CCATAGTGCTTGAAACTATATGTGTGGAGATAGTTATATACTAATGGTTGTCAAATTAAGCATTTTTTCCAATTCCTTTCCCAGAATCTAGTCATGTGAA
ATGATGAGGAACTGGAATGTACAGTGTATACATTGTTCTTGGCAAAACTAAATTTAAATTTCTGCTTAACCTAATCAACCAAAAAGCCCTTTTTATTTCT
GCCTGTGTAAAATCTTTCTTCAACATATTAAGCCATTTTTCTGTCTTGGTAAATATGATAGGGTGAAATAAAATTTAAATTGAATTTAGATAGCCCTGAA
TTGATGATTCAAGAACTTTTAGAATCTTAGTTTTATTTTTGAGTAGCAAATAACATTATACTGTAGATATAAAAAATGTTGAAGATTATCCCAGGRAGTG
CTCTGGAAGCTGCTTTTAAAAATAAATAACTTTTAAACTGCCTTTTCTCCCTTAGCATTTGCCCATTTGTTCTAAAGGTAGAAGAACAACTTTCAGTGTG
TTAAGGGTTTTTAATAGTTAATCACAGTTATATGGCATTTGTTTTTGTTTAATATGTGGATTTTTATGTAATGCCACCCAGAGGCCTAGGTATATCAGTA
CATTCCTCAGCATTATTAATGTCATCCAAATAGATTGTCTTTGATTACTGATCACTGACTCCATATATAGGGCAGTGATTTCAAAATTATTCTACTACCA
TTGCAAGTAGACATGTATACAGTAAAGAACCATCCAAAGGCCAGGAGCAGTGACTCAGGCCTATAGTCCCAGCACTTTGGGAGACCAAGGTGGGAGGATC
GTTTGAGCCCAGGAGTTCAAGACTAGCCTGGGAAACATAGTGAGACCCCATCTCTACAAAAAATTTTAAAAATTGGCTGGGCATGGTGGGATGCATACTT
GTAGTCCCAGCTACTTGGGAGGCTGAGGGAGGATCGCTTGAGCCCGGGAGGTCCAGGCTCCAGTGAGCCATGTTCACACCACTGCACTCCAACCTAGGCA
ACAGAGTGAGATCCTGTCTCTAAAAATAAAAATTCTGAAAAGTTACATCTAAATTAGGTTTGAGTAAATGAAGTCATGAGCCAACTGCATAGGTGATCTT
TCTAGTGGTAGCAATACCAAAGTGGGCCTTGTAAAAACAAACAAACAAACAAACAAAAACACCCTTTTAAATGTAGTTCAGGGAGAAGGAAGCTAGTATT
TCAACTTACTGTATGCCAAGCACTTCTAAGTGCTTTACATTATTCTCTTTAATATTATTTCTTATATTCATCACCACAATCCTCATTTACAACTGAGGAA
ACAGAAGGAGGTTAAATAGCTTTGCCCAAAGTTACACCACTGGCATGTGGTAATGTAGGGCTTCCAGCTTGAGTATATCTAATTTTATAGCCATCATTCT
TTCTCTTTCCATCTCTGTATCTCTCTGGGAGTCAGGAGACCTATATTCCTGTGTTTTTGTTGTTGTCGTTTTGAGACAGAGTCTCACTCTGTTGCTCAGG
CTGGAGTGCAGTGGTGCCATCGTGGCTCACTGCAACCTCAACCTACCGGGCTCGAGTGATCCTCAGCTGTGCCATCTCGCTATGGAACCTTGGCTAAGCC
ACGTTCTGAGCTATGGTAAAGCACAGTAATAGGTTCACATTCACTCTCCCCCATCATGCTTATGCCCCCTACCTCGTCTAGAAGGCTCCACACTTCCTTT
CTGTGTGCTCGTTCATTCAGTCGTCAGTCATTTCGTCAGTTAGTCAGACAACAGACTTTGTTCATACGACATTAGTGACTGAGGTTCTGTTGAGTGACGC
AGATAGGAAATAACCTAGCTGCATGGTTGCTGTCTTTCAAAAGGCCGTACTCTTAGGATCCACATACAGGCCCCCATCTTCYGTGAAGCCATTGTCCCCA
GCCATCCCATTTTGACGAGTTTTTTTGAGTCCCTGTGAAACTTTGGCTTTTTTACATTTATCTGGCAGTTAACTAGGTGCTGCTTTGTGACAGTTCTTCT
ATTATTGGATGCAATTCTTAATTCAAATCATGTATCATTACTTAACTTTTCACCTCTTTGCAGCTTCTTTCTCCCAGAAGATTACAAGTTCCTTAAGAGC
AGGCTTATACTTCTTTGTATAATATTTCCCACAGTGTCTCTTAAATAGCAAAGTTTTTTGACCTGATTTACTAAAAAAAAGTTTGTTGACTTGGCTTAAA
TTTTATTTTCTTTTCTTTTTTTCTTTTTTTTTTTYTTTGAGACAGAGTCTTGCTCTGTGACCCTGGCTGGAGTGCAGTGGTACGATTTTGGCTCACTGCA
ACCTCTGCCTCCCGGGTTCAAACAATTCTCGTGCCTCAGTCTCCCAAGTAGCCAGGATTACAGGTGCCCACCACCATGCCCAACCAATTTTTATATTTTT
AGTAGAGATGGGTTTTCGCCATGTTGTCCAGGCTGGTCTCGAACTCYTGACCTCAAGTGGTCCACCCTCCTCGGCCTCCCAAAGTGTTGGGATTACAGGT
GTGGAAGCCACCGTGCCTGGCTGACTTGGGTTAAATTTTTAAGTTTAGAGTTTACTCCCTGGTTGAATGATTTGGGCCAAGTTACATAGCTTCTGTGAAC
CTCCTCAGTTTTCAACAAAATGGGAATAATTCCTACTTCTCAAGATGAAATATATAATATATGCAAAAGTGCTCTGTGAACTCTAAAAGACTATACAAAT
ATTACTGATTATTTTATACTTTTTAGTCAAAGCCCCCCTGTCCTGCATTGTTCCAGTAGACACTTTATGTACCAACATGTACTTCAGCTGTTCACATTAT
ATACTTTTATCTCTGTTATCCTACCATCTAGGTCAATACATTTTAACATCTTTATTTGCTGTAAGTTTATTTCTAATTTTTTATTCTTTATTTTGTTTAT
TCCCRTACTTAACTTTTACTTACGACTACGGATTTAAGTAGCATGAACTGTCTTCAGACTGGCCTCCTGTGATGAGTCACAAGGCCCATCATAATGGATC
CAGATTGCAAAATTGGGAGTAATAGAAATTACTGTTAATTTTCTTGTAAGGTAGTTTAATGCATTTACTTGCAGTTTCAGATGGGTAGAAATGGTACGTT
GTTAGGAATTCACTATTGAGATGATTTTTAGTCTGTATTAGAGCTCTGAATACTCTGCAAATAATATGTGAGCACTGGTACCATCAAAGCATGTGTTGCC
TTAGGTGGTGTTTACAGACCTTGTCAGAGTTGGTASTAATTCCAGAATATAATCATTTCAATAGCTAAGGCTTATGGTTAAGACTTCCAAAGTGTTCAGA
ATTTACTAAATTGAATTATTTGAGGTTTTGTTACTGTGTTACTTGTAGTCATCAAATCAAGCTTTATTTTACTGCCTTCATTGAAATAAGCAGTTTTGAC
CATTTAAAAATATTTTTAATAGGATACTTATTTTCTCTAGCATTTTTAGAGTGTGGTTCCTGTGTGGTGAATGTCTGTCACCTCTTGGAAGCCTTGAAAT
ACACAAATTGACTATTGTTGTTTATGTTGAAAGATATTAAAATGAGATTTGTAATTGAAACGGGCATTACTTATTTCACATCTGGTTGCTTGAAAAGTGG
CCAGATGCAACAATTCTTAATGCAAGAGAGCCTACGGCAAAAACTTTGCAATTCTCACCCTCTACAAAACAGCTGCCCTGTGTGAACCTTCAGTGGAAAA
AGAAGAAGAAAAGCAAAGCAAAGAAAATTCACCCCACCACGTTCTAATTACAGATTTCCAATAAAAGTATTAATATGATTCCTACATCAATGAGCTAATC
ATTAGAAGTAGAAGGCAATGTGGGGAAAAAAAAAMAAAACAAGAATGGCAGCACTGACCTAGTTTCTAGTTGCCAGGACCAAAGACGTCGTGACACCACT
GTCCTTTCTAAATCTCCTTACCTTGCTTAATCTTAAAGTGATGGTATGTCCTGGTTTGCCTGACAGTCCTGGTTTATGCCTGTTGTCCTAGTGTGATTTT
TTGATAGTGCCCTCTTTCACTCTTAAAAGTGTCCCAGTTTGGGTAAGGAGGTATATGCCCATCTTAATTTAATCTCTTTATCTCAGAGACATTAATTAGG
AAGGGTAAGAAGTGGGAGTTATGAGAATGTATCAAAGGGAAAATGATACTCCAGTTGAGACAGTGCTGGAACCAAAATGCTGCTGATCTGAATTCTCCGT
AATAAGATGAGAATTGGTTTGCGAACACATTCTAAACATCACAAGATACATCAGATTAATGCTGGTTGCTCTTGGGGAGTTGTGGGGAGGAGGATAACCA
GGTCAGGAGTTTGTGGTATCTTTTATGCAACACTAACGTTAAGCTTCCTGTCTGAGGTTTTCCATGTTGTGAGTTTTCACCTCTTGATACTCTTTGAGGA
CTAGTGATGCTGACATCTACTAGAAACACTTCAGAGAAAAAAAAAGATGGAAGATAATAGTTCTTTAGAAAAATGGAAACATTTACATTATTCTTGATAA
CTTTGTTCTTCTTTGAAAAAGATTAGCTGAACATCCCTGCTGATTACCTTAATAATCTACTCTGAAATTAATTTTATCTACTCTAGAAGGTTTGCTGTGG
ATAGATTCTCCTTTAGAGTCCTCCAGATTTGATAGCTATTATTTTTTAATAATAGTTAAGTGCCTTTATTTTGTTTAAAGTACTGAAAACTGAATCAGGT
CTCAGGAACTAGTTATGAGCAACTGATTATTTAGCTGGGAAAAGAAGGTAAGGAAGAAGAATATTTGAACAAAGGCCTTTAGGTTTTTATAAAGACATTA
TGCAAAGAGTGATAACCATCTTTCTTACAACCTCTTCTCAAAGTAAAGCAAGGGGGCTGAGCTTCTTGTGGACATTTAAGTTTGAATAGGGTACTCTCCT
GAAGGCCTTTAAAAATACAGTAGCTTGTCTGTTTGGAGTTTAGCAATCAATCAATCAAGTCTTGAACACCTAATGCTGCGCTAAGAATTATAAATGAACT
AGAAGGCATACTCTTTTCATGTCTTCAAATGACTTAATAATATACTTGGGGAAATAAAACAAATATACGTGAAACAGATCAGGTCTAAATTATGTGGTAT
TGACTCTATGAGTTACTAGGATGAATTGGCATTCAAAGAGCATTTAATTTGTGCCAACCAATAGAAATATCTCATTGTGTTACAGCATAAGAAAGATCAG
GAAGCCAGAAACAAGTCTTAGTGGATGGCAGAAAATAAGAATATATACATTCATTTCTACACTAATGCATCTATTCAGTATTTCTTGAGGACTTACTGTA
TACTATAGGCACATAGGAGTGAGTAGGTACATTGTTCTGAGTAGAACTTATGTGTTAGGAAATAGGGAACAAAAAAGTGGGAGGACAGGTGGGTGTGTGG
GCAGAGTATAGCAATAATATTGTTAACCTATGCAAAGGTTAGGCTGATTCTGAATAGAGCAAGAGTTTATAATGGAAGATTCCTTTTAACACTTAAAATT
CATGAAACGAAGAGCTCAAAGAAAATCTTAGAAGCCATCTAATCTACTCTCCTTTCCCTATCTCCACTTGAAAAATGGGGACTTAAGAGCAGAGCTGTTG
CGACTTGCCTGAATTCATAAACCGAGTTAGTGGCGGAGCTGAAAGTCGAGCCTGGCTCTTCTGTTTTTACCATTTGCAGTTGCTCCCACCCCTGCCCCCA
TTCATGGGTTCCACATCCATGGATTCAACCAACTATGGATCAAAAGTATTTTTTAAAAATAAATAAAAATAGCAATACAATAATTAAAAATAGAAAATGT
AAAATACGGTATAAACAACTATTTACATAGCATTACATTGTRTTAGTTATTATACATAATCTAGAGATGATTTAAAGTATATGGGAGAATGTGCATAGGT
TATGTTCAAATACTATGCTATTTTAGATTAGGGACTTGAGCATCTTGGATTTTTGTATCCACAACGTCCTGGAACCAATCCTTCATGAATAMGGAAGGAC
AAATAAATATATCCTTCTGCCTCTTCAGTCTTAAAGTTAGCTAAAACATTTCACTTCCCCATGCCAACTCTGTGAATACCAGATCTTAGATCCTAAACTA
AAGGTTTGGAAGGCAATCATTATTCAGGCATAGGTAGGAAAGTATGACTTAGAAAATGAATCTGTTTCGTGTCTCAATTTTAATAAAAGTCTTGTTTATA
AAATGATGAAAGGCTCAATGAGATTAACAACATACAACTTGTAATAAATGTTTTGTAACCATGACACTGATGAGCTGTGTTTTAGACCTAGCTGTCACTA
ATTGGCTGTGTGATTTTTGCACAAATTATGTCTCCTCTTTTGTCTTTATTTATATTATGACAGAATTTAAATTGTTTCAGTTATTTTATTACTATATAGA
TATCTCTCTCTTAAAATTGCTTGAGTACAGCACAGACTTCAAGGAAAAAATTTCTTATGATTCTCAGTGTTCACATAATTTGTATTAAATGTAACTTAAA
TATGTGTAAAACAAGTTGTAAACTATGTTTATAGCTCTTATATATTTACACAACCAAAATAAATTTTAAAATAAGTTGTAAAGCCCTTAACATTAAAGGT
ACAAATATGGAAATTACTGCTATAGCATATACTTTTGGGGATTCAACACCTTTTGCTGCTTAATGCCATATCTGATTAAATTTTTCCAAGACTTTTTTCT
TTTTCAACTCTTCTGTGAAACATTCCTTTCTACAGTATTACTGGATCTAGTTTGAACTTCAGTTAACTCAGATGAATCATTTACATATTAAAAGTTTACC
TTTGTTCTTCTTTCACTAACCTTAGACAACTAAAGTTGTGATATTGGGCACCAGTGAAATCACAGGTAGAAACTGTGGCACTGAAACTGCTTGTCTGTAT
TCAGTTATAAAATCATACATATAATCTAAAATATGAATTCTTATACATTTTATGTCATTAAAATTAAGGTAAAATTGAAAACAGAGTTAAAAACTTTTCC
TCAGAAATCGGAAACAATCTAAATGTCCATCAGCTGAATGGATAGACAAAATGTGCTGTATCAATACACAGCCTAATCTAGGCAGTTCAGCAGTAAACAG
GCATGAACTGCTGACACATGCCACAACCTGAACCTCCAGACTCAACCTCGGAACCTCCAAAACATTATGCTAAGTGAAAAAAAACCAAACACATGAGACC
ATATATCATATGATTCCATTTATCTGAAATGTCTAATAAAAGAAGCAAATCTATAGAGGCAGAAAAGTATAATAGATTAACAGTTGTCTGGGATTGGGGG
TAGTAATTGGCGTTTGATTGTAAATCAGCATGACAGATCTTACTAGGTGATGAAAATGTTCTAAAACTGATTTATGGTGATGGTTGCAAAGCTTGGTAAA
TTTACTAAAATTCGTTGAATTGCACATTCAAAATGGTGAACTTTATGCTATGTAAAATATGCATCAATAACGCTGTTTTAAAAGCTTTTTATGAAGACTT
CTAGATCTCCTAAGAATATTTAGGTATCAGATATTTTCGCCCTTGACCCTTCCAAGGTCAGAAGACACAGCTGAAAAAATACTTTTAGTGGAACCAAAGA
ATGGATCCAGTAACTACAGTATCGTGGATTCTAGCTTTGACTTTGTCACTGACTGYACTTGGGCAAGGCCTGGGCAAGTCACTTAACCTCTTTTTGCTTT
GGTTTCCCCATCTGTAAAGAGGGTGTTAGTTTAAATGTTCTCCAGGATTTCTTGCACACATGAGAGTCGCATCCTCACATTTCTGTTATCTGTGAATCTC
TACCTCCTAATGATTCCCCCTCCCTCAAATACTCTAACAAAGCCCCTTTATTCAGCATGGCATATGTGGCATATTGCTTGTCTGACTAATTCTTGCTCAC
RCAAGCTTCCTGACCTTACTGCATAGGTCTTTCAGGTACACAGTTCTCAAAGTGTTGATCTGAAAGTTCCGTACAAGACTGGCTCCCCATCACTCATTAA
TCTCCCAGAGGCTACCTTCTCATCCTATGTAACTCTCTTATGGAAGCTCTCCCATAGATAACAATATACTTCCCCTTCAGGCAGTACATGGAAGAAACAA
TGGGCTATACAATGGAACCATCCTATGAGATTACACAGAATGAGAACCTGGCCCATTGTTTTCTCCTGCTGCCTAAGGAAGGAGTTGTGCTCTTTGGATC
CCTGTACAGATTTTGGCTTGTCCACCTCCCTGAATTCCCAAGTAACAATTAAGCAATCTGCCTCCTTCCGTCTTCTCATTTCAATGTGTAGGATATTTGT
CAACTTGCCCAGAGTTGCTGTAGGCATTTTGAGCTATTCATCTGACTGTGTGCAATAGATAACAAAAATATAATTAGGAGGAGGACTGAATTAAGTCTGA
ATTTTATTTTTATTTTTATTGCGGGGGAGAGGTGCTTACTTTAGAGTGGTAAAAGTTACTTCTTGTCCAAGTTTTCATCATCCCCTCCTTCCCTCTGTGT
TTCAATAAAATGTTTCCAAAGTTTCAAATAAAAAGTTTATTAAAATAGAGGCCGTGTTTTTAAAAATAAAAATGTAACATCTTACTTCCTAGAGGTATCT
GAAGAAAAGCACTCCAGGAGTATAAAGAATAAACTAGATGGTTGGAATGTGGTTTATTAGTCCACAAACCTGTCAGGAATCTTGGACTCTTTTCCTAAAG
CTATGCAGACATACAACATAACTTTGGAAGAACCAGTTAAGTTTGTATTCTAACTATGCCCTGTAATTTAGGAATAACTACCTGCTAAACACTGAAAATC
TGTTGGTGGAAATCATCGGGTAAAACCAAAGCATAAGTTATATTATTAGGGGTTGGTAAGTGGTTTTGTATATGCAATAAAAAGGATTAGATGGCTGGGC
GTGGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGATCACAAGGTCAGGAGTTCAAGACCAGTCTGGCCAATATGGTGAAACCT
AGTGTCTACTAAAAATGCAAAAATTAGCCAGGCATGGTGGCACATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGAAGAATCGCTTGAACCTGGG
AGGTGGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAGATTAGATATTTGAA
GAACCATGGGATGGGTGTCCCGTTAACTGTCCATAGGGCCAAGGAAAATGGAGAAAGATGAATTTGAAATAAAATTCTCTAAAAATAGCTGAAAAAGAAA
AACTTAGATATGTAAGTGTTTTATGATGTGAACATTCAATGAACAGAGGAAAGAGATGTGCCTAGGAATGTTTGGTGTTGAAGATATTTACCTTTTTAAT
AAAAGAGAACAAATTAAACAAGCAGTCTTCCTTTCTTGTAGGAACTGTATTTCAGGGTAATTACATGGCTTTAGTTGCTGAAGGAAAGATCTTCCTTATA
GAAAAATGCCTGCTGTCTGGGTACAGTGGCTCATGCCTGTAATCCCAGAACTTTGGGAGGCCAAGGTGGACAGATCACTTGATCCCAGAAATTCAACACC
AGCCTTGGCAACATGGTGAAACCCCATCTCTACAAAAACATACAAAAGTTAGTTGGGCATTGTGGCACGCGCCTGTGGTCTCAGCTACTCAGGAGGCTGA
GGTAGGAGGATCGCTTGAGCCTGGGAGTCAGAGGTTGCGGTGAGCTATGATCGCRCTGCTGCACTCCAGCCTGGGTAACAGAGCAAGACCCTGTCTCAAA
AAAAGAAAAAAAATTTCCTACTAATAAATGTGGAAAGAGTGGTGGAATTAGAAAAACATTTCATAAACTCCAAGTATTGATTCAGGAAAAGATGATAAAG
TTTGTTACACCTTTAGGTGAATGATTAATGAAACTGAACATCCTTGTAATACCAAAGTAACATTGCACTGATGACTGTCTAATTGAAGGAGAAAAAGTAA
CTGTACAATGGAGAGATGAGACATATCACCATTCTAACTTAGTGGTAGATTTTACCATGGCTGATGGTCAGTCATATATTTTGCCTTCTGATGTGATGGA
ATAGGAAGTACACATCCCCTATGGTATATTCAAGCCTAAAATGTTTAACTTGAATCCAGAAATCCTTGGATATAGTGTCCAGTTTATAAGAAACACAGGG
GATRGAGAATCAAGCTAAATGATACAACAAGAAAACAACCAGACAAATTCAGAGGTTGAGACATTCTATCTGATAACTGGCCTGACCTCTTCAATTAGTC
AGTGGCCTTAAAATTAAGGGGAAGGAGTAGTCATGCTAGATTTAAAACAGCTTAGGAACATACAGCCAAATGCATTTCATCATACTGGATTAGATTAGGG
TTGGAGCAAACCAACTATAAAGAACATTTGGGGTCAGCTGGGGAAATGTGACTATGGGCTGGGTATTGTTTGAAATGAAAATGTAATTAAATGAAAAGAT
GGAGATTATTGACTTGAAAAAGCAGAGGACTACCAGGAAGTACCATATCTCATTTTGATTAAAAAATACACATGCTGTATGTATGTGTATATGTGTATGT
GCTTATGTATCTGTATATACATATGATCATACATATGCCCAGAAAAAGACCCAGATGCATAAACTTTAAGAGTTCAACATTGGTTATATCTGGTAGTGGA
AGTATAATCATTTTGTTTTTACCAGTCTGTATTTTCTAATTTTTAACAATGAACGCGGATTGGTTCTATAATAATGAAAGGTGGTTTTTTTTTTTTAAAC
AAAAAAACCCCTACCTTTTCAGATAGAAAAGCAGCAGTGTATTCTTTCCTTCAAGGAAAATGAAAATGTTTCCTTGGAGGAAAGAAGATATAAAGACTAG
AAAACACTCTAGTATCTTTAAAAACCACCAAGCTTTCAAATACAAAGATTTAACATATGTAAACTGTATTGTACTTCATTTGAAATTCAGTATCTTTACT
AAAGAGATTTCTTTTATCCTATCCTACACACRTACAGTATTATTTAATGATGTGCACACAGAACTCTGCCAGCCTGAAACAGTAGGTCTAAGACACGTTT
GTTGTTTTTGGCTCCCCTGTGTTGATCTAAATCACTGCCTAGTAGCCCTTGGAAATTTCTATCCCAAAACGTCCCACAGGTGCCCAATACCATGGATTCT
CATTCCCCAAGTTCATTCTCACTCTTCTCTCTTGGTTGAGTCTTGCCTTTCTTCACTCTGTTCCCTTTCCTTGTTCCTGCCATCCAAAGCTTCTCTGTCT
TTCAGGCTCATCTCAGATTTCCTCTCTTTCCTGAAGGCTTTTTGGATTCCTTCCATCTCCATGCACAGTCAGAAGGGCTCTGTTCATCTCTGAATATCTT
TCGCACTCCATTGCATCTGGTTTAAATCCCTTCTCTGCCTCTTATTAGCTATGTGATCTCAAAACTCAATTTCTTTATCTGTAAAATGGTGATAATAAAT
GACTTCGCAGGGTTGAGGGCCTCAAGTCAGTGGCGAGTACTGCAGTAGAGGCAGAATACATAGCTCAACAGAAATTACTCTAGTAATGGTCATGATTGTT
TGCACTTCTCTCAAACCACCTACTCGTATATTAGAGTGCATTGTGCTTGTCTTATCCTCTTTACTAAAAGTAGGAAAATGGCTTGAGAATTGATGCTCAG
TCTTATTTATATTATTCTATCCCTAGTTATGTGATACTTAACTGTATTGCTCGGTATTTAGCAGCCCATTATCTAATCATWACATCACCCTCATTCTTTC
TGAGCTTGTTTCCTTTTTGTGAAATGGGGCTACCATTCAATCTCACMGAATTTTTTTTTTTTTTTTTTGAGACAGAATCTTGCTCTATCACCCAGGCTGG
AGTGCAGTGGGGCAAACTCGGCTCACTACAACCTCTGCCTCCCAAGTTCAAGTACTTATCGTGCCTCAGCCTCCTGAGTACCTGGGAATACAAGCATGTG
CCATCACACCCAGCTCATTTTTGTATTTTTGGTAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACC
TCGGCTTCCCAAAGTCCTGGGATTACAGGTGTGAGCCACCACGCCCAGCCAATCTCACAGAATTTTTATAAAGTCTAGACAAATTTTTATTTTAAAAGAC
TTAGCACAGCCCCTGACAGCGTAGGCACTCAATAAATGTGGAATCTGAATCTTACTTAAAGCTAGTTTATATTTTCAAGTCTTCTTACTTTTACTAATGC
TGCTTTAAGATATATTCTRTAAGTTCAAATGTAAAGTTCTAGATTGGGAAAGAATTTATAATGTGTCTAATAAAGATTGTTAGAGACAAACTTTTAGACT
GAACCAATCTACTATTAATGGACTGATGAATCTTACCGGAAAATAAACATAAAATATACTCTGTGTTGCCTGTGGTTTAATTGCCATCAAAATTAAGTTT
ATTATGTACTGATTTCACAGTTACATTTTATTTTCAGTCAAATATCTATTTGTTGGTGTGAAGAAAATATGTCTACTTCCGCTAAGTGAACTTTAAAAAT
TTGTACTTGCTTTTGAAGATTCCATACTCTATATACCGTCTCTTCCTGAAGCGTATTTATGTAGCTCCTGTTAACATAAGAGCGATAAGAGTGTTGCTTG
ATGACTGCTCTTATTGCTTTATTAAAGTGTCATGTAAGATTTAAATATTTGATTATAAGAATTCATAATATAATTTTGAAAGCCTACTCTGTTCCAGACG
CTGATTTATTTAAATCATCTCTAATTCTYACAACTCCGAAAAGATAAGAAAACAGAGATGTGACAAGGCTTGAATGCAAACCCAGGTCTGTTTGACTCTT
TGTTCATTTTGAATAAAGACAAATTACTCAAAGCTTTACTGCCAAAAACTATTATCTGGTTCCACATTGAAACCCTATTCAATAGTTGTTATTATTTTCT
TCTTTTGCTTTGAATAACCTCCCAGCATTGTTGTGAGTTTCAAACGAAATAAAAACACTATACAGATCCAAGGTGTTTTTTTTTAGAGTATTGTTACCTC
AAAGTAGAAATTTTCAAATAGTAATGTTATCATTTTCTTAAGAGCAAGGAACTTTGTCAATAGAAACAAAAACATCATACCAGAAGAACCCCAGAATGCT
GGGATGACTCATGAAGAATCTGTGAATGAGGCAAGAGAACATTCGTCAGCAAAATGACTCCGTGAACTGATGTTCAAATATTATCAAATTTTAATTACCG
AGTCATAATTGAGTACTTACTTTGTAGAGAGCACCATATCTAAACCCTGTGGTGAATGATGACATTTTCATAGGTAATTCCTCCACATTAAGTGATTCAT
CATAGAAAAATGCTTTCATGCTGATGACTTCCACCATGACTGTTGGCATTAAGGATCATTGACCTGAAGAACTGATTTGAACGTCTTACTGCATCATTTT
AATGAGATAGAGCATCGTTTGGAGCTTTGGACTGGGAATCAAGAAACCTGGTTTCTAGCTCAAACTCTGCTGCTAATTTATCTAGGTCATGCTTTGGGCA
AATCATTTCATTCCTCTGGAACCCATTTTCCTTATATCAAAAATTAAGAGTTGGAATATGCTAATCTCCCTCCTATTAAGTTTCGTGAGCCCGTGATTTC
AACAGTACGTAAATTTCCTTTAGTACAGTCACAGAACTGGTAAGTGACACCAGCTGAAACTGAGTGCAGCTCYGCGGCTCTACGCTTGCTGTAGAACCTT
TGTGAATTCCCACTGTGCTTCACCAGTGACAGGATGTGCTACCCAATAAATCTCCATATAACTGATCTTGAAAAATTCATTGATAAAATCTGAAAACTGA
AAAAGATACATGTTTTAGAGGTTTAGGTTTCCCACAACATGAAAATGTGTCAGTTGATAATATAGTTCATGGTATTTTACTATGCTAGAAAACAGCTTAC
TAGAGAATTTCAGATATTACATGCAACGACAAGTTAACATAGTTTAGGTGGGACGTCTTTGGTTCAAAGTTACAGTAATTTCAAAAGTGTTTAGTTGATC
CCTAGAAAGTGGTTAAACAGGTTAGTCTCTTTTTCAGGTATTAGAGGGAAGTTAACTTTTGAAGCTGGGCAGAAAAGGAAGTTTTCAGTTGGTTTTTTCC
TTTTGAGACTTTTAATTTATCATCAGACACTATTTTTTCAGATGAAAGTGCCTTTTATACTGTCACCTAGGTATGAGTCAAGTATGAAAAGGAAATAGTA
ACTCAGGATCAGAACATGAATAAGTATGCAATATGGAGAATTTCCATTAAATTTTAAATAAATGAATTACAGTCATATTATTCAGTATCTCAACATTAAA
ACTCAAAAAGACCTTAAGGATTATTCTGTTTTGTGGAAAGGGCTTTTTCTGATTCTAGAGATGAGAAATGTGGACCCAAAGAGTTGACACAGTAGGTTTG
TGGCTGAGCCAAGACAAAAACGTAAAACCTAGGCTTTCTGGCTCCAATGTCAGTGTTCTTTTCTACTGCTTCTGAGTTAAGAAGACCTTTTTTTTTTTGA
TACCAAAGATACATTTACTGGAGTTATTGGCTTCTTTTTTTTTAAGACAGGGTCTCACTCTGTCACCCAGGCTAGAGTGCAGTGATGCGATTACAGCTCA
CTGCAGCCTCGGTCTCCTGGGCTCAAGCATCCCTCCTGCCTCAGCCTCTCAAGTAGCTGACACTACAGGTACATGCCACCATGCCTGGCCAATTATTTTA
TTTTTTTATAGAGGCAGGGTCTCACTCTGTTGCCCAGGCTGGTCTCCAACTCCTGGGCTCAAGGGATCCTCTTGCCTTAGCCACCCAAAGTGCTGGGATT
RCAGGTGTGAGCCATTGCACCTAGCAGCATTATTTTCCTTTAAATCAAAATAATATAATTGTTTAATATAATTATGTCCATAAAATATATTACTTTTGAA
AATCTGAACAAAATTACAGTTTTTGGTTAAAGAAGAATGGATTTGCCTTTCAAAAAAATGATACACGAGAGACTGAGGCAGGAGAATTTCTTGAATCTGG
GAGGTGGAGGTAGGTTGCAATGAGCCTAGATTGTGCCACTGCACTCCAGCCTGAGGGACAGAGTGAGACCCTGTCTCAAAAAAAAAAAGACACAGCTGAG
TGTGGTGGCGAGCAACTGAAATCCTAGCTGCTCTGGAGGCTGAGGCAGGGGGGTCACTTGAGCCCAGGAGTTGGAGACTAGCCTGGGCAACATAGCAAGA
CCCCGGTCAAAAATTTTTTTAATTTAAAAAATTTTCCAAAAGGGGCACAGATACATTGAACATTGACCTTCCTTTGTCTGCTTTTATGGGACTATCCGGC
TTGTTGTGATGGTTGTGGTGAAATTTACATCCAGGATACAGGATTATTTGTTCTTCTCAAAGGAGTGTCCCATTGGCCCAGCATTTCTCTCATGTTGTCT
CTCCCCTGGGACTATGAAGAAACCCTGAACTGATGCAACCACCACTTGAAAATAAAGTTCCAAGCCAATCTGAATTGCACTAGGAAAAGGCAGCCATTCT
TTTGGGTAGGGGGAGAAGTGAGCTTGGCTGGTCATTCTGGTTGTTAGCAATTATCTGGCTTCCGTGGGAGCATCATCCAGAAATTTACATCTTATTGAAA
CAAGAAGAAAATGGATGCTATTATCAGTTCGTTAGGTCTCTAAACTCCTTCTTGAATGATACATGTGATATGGATGTGCTGTTCTTTCATTACTCTCATC
ATCARCAAAAACAATATGTGTGTTTTAATGCCAACCAGGGACTCTGCTAGGTTCTAGGGATGCAATGAGATCTAAATGCTTAACCTTTTAGAAGCTAGCA
TAAATGTTAGTAGCACTTACAGCATTAAATGAAGCAGATTTTTAAATGAGGTTATAGCAAAAGAAAAAAATACTGTACATACAATTTTATACCAATACTA
ACATAGCTTATTTCACACAAAAGAAAAAGCTATTTAAGCAATTTTAAAAATTCATATTCATTCTAGAGAATAAATTCCAAATTTATAGCAAAAAAAGAGT
GAAGTTTTCATTAGCTTTCAAGAATAATGCAGGCTCCAAAGTATTTAATATTCTATATTATGGGAATATTTTATGTAAGTCATCCCAACACCAAGTAATG
CTAAAAATAACTTTATATAGGTTCAATACCATGATTTTATTAACTATAGATTTTTAGACCTTTTCTTACTTTTTGTTATTGAATCATTCACAGCTTTTAT
TGGTTGAATTGCCTTCTCCTAAAAGTACCAAAGTGTGAAGAGTTTTTATGGCTGAGTAATATTCAGATTCTTGTAGCCAAAGACAGGTTCTGTGAAGTAA
TATTGAAGACTAAATGTTGAAGAGTAGCTTTCTCTAATACCAAGCGGTCAATTTTTTCAAATATCATGAACTGGGGTAGAGTTAAGTTTTCATCCTCCTC
ATTATAGAATCATTCCTCATTATCCCCATTCTTTCTCCTGCTGAGGATGTGGTGGTGTACTCAAAGTCACATCCATACCCTTCTGTCTCCAAAGTCCTAG
GAGAGATGGCCCTCTTCTCAACCTCTRCATTGCACAGAACCTTACATCCCTCAACAGAAGGAGTACATAGTGCATAAGGAAAGTGGTCTTTTACCACTCC
TCCTCACTCTGTAACATTACCAAGGACTATCCTGCAAGGGGACCATCCATAGGATGAATAGCAATAGACTGCTGCATTGACGTGCAAAGTGCTGACAACC
CATTGGTGTACAAAGCACCCTAAGCAAGATCTAAAGTTCTAAGATCTTATCATGTAAATCACCAGCATGCTGTTTTATGTATCTTATTGTAATATCCTTC
CAATCAGTATTATAAAGGGCAGGACACTGGGGGAATCTTAAGGCTTTGAAGATAGGGATAGTCACGTGCATGTCTTATAAATTCTCTGATGATCATATAC
TGTTTACTGGTAGTAATGACTGTACTTAAACAAATATATTGTTTCTCATATCATTGCATGCCAATTGACCTTCAAGTTTAAGCCAATGAAAAGATCACTC
TTTTAAGTATATTTGGATAATTTTGATATAGTTACATGTGAACTCATTAAGTATAGAAACCTTGGCTTATTATTTACCACCTAAGCCTAGGTCAGTACCT
GGTGCTTAGTAGGTATTTGATGAATGATGGGATGAATAAATGTGGAAATAAGTCTTTTCAGTATCTAAAGACAAAACAGATACATAATAAGATACAAATG
AGATTGGCTCATCTATCTTTATTTTCATTCATTTGAATGTCCATGTAAGCAAGTTATTTCTTAAGTGACCCAGCACTGCAGTGCAACTATCATTAACATA
AAATATGATTAAATAATCCACATTGTATAACTGTTTTGTTAGTAATGTAGGGATGCTTTGCGTGTTGCTTGGTTTGTGTATGCTGCCAAAAGTGTAAGCA
ACATTTACTGAGCTGCTATGTGGCAGGCCCTGTGTTTATTAAAATTGTAGTTTTTGCTAATTGACTGTTTTTTGACACATCCGTCTTGTTCATCATTGTC
TACCTAGCACCTAGCTTTAGGCTTGCCACATATTATATTGGCAATGAATATTTGTTGAACAAACAAATGCATGAAATGTAATGAGTAAGACAGGTTTTYG
CTTTCAAGTAAAACATAGTCTGGGGGAAGACGGAATGTCAGAATGTGGTGGGTGCTATAGGAGTAGGTGTTATCAGATTCTGATGCTATGGAATAATAAA
TTGTTAAAATATGTAATCTTATGTTTCAGAAGCTAAAGCACAGTATGGGAACTATTAGAGGCTTAGAAGGCCTCACTACCCACTAGACTCAGAAGTTGAA
TAGTGTCTGAGAAAAAAGAGAATAGAAGTAACAGTAGATGAAGAGTCCAGAAGTGAGACCCTTTGAGGACATGAGGACAGGTGGAAGGACTGCATCTGTG
TGTTGCCAAAGAGTAACAGAGACTGGTATAGGACTTGAGTTCAATTCAGTCATATCCTTAAGTATTGTGCCATCRTGTCTGGATTACTTTGTAGTATAAG
TAAATTTCCAAGCATGGGGAGGAAAGGAGAAGCTCCTTTATTGAGAATTCAACTGAATATAGAGAAAACTAATTTTACACAACTGTAATCACTGTAGTCA
TTTGGACAAATTAGCAAACCCAAGTTTTGCTTTAACTTGGATTGCCTTAATAAAGATGTTTTGGGGCTTAATGGCACAGTTGCTCAACTCCCCCACTTTA
KTCCRTGATGTTCAGACCCAGCCAGCATTTCCCCATCAGGCTCTTGCACCATGATTGACAGGGACACTTTTACTAGTCCCCTTGAAGAATGAATAGTTAC
TCAATGGAGATTAACCAGATATATATTTATTTTACTCAGAATATCACGATAAGTATAATTCAGAGAATTATTGCCTTCTAATATACTGCCCTGTGTGGGG
GCGTCTTTGAAAGTCCGCAAAGTCACTGCAATTCTAATAGGCCACTCATGTGACAAGACCTGCTCCCACATCGGTAATTTGGCACAGCTAGTATTTCTCC
TTGCCAAAAAGGGCAAAGGCCTTGAGCAAGAAGCCAGCTTTTTCCTGATTACAAAACTGACCACAATTCCTCGCCAACCTAACAGCGTAAGTCTATTTTT
TTCTGGTGGTGTGTTATTCTTCTCATAGAGAACTCCATTTTTTCATTATGACATAGCACTTATYGTTTAAACATCAATTGATGTTCARACATCAGCTGGT
GTAACATTGCTGCAGTTGCTATTGATGGATAAGCTGAAGTTTTTAAGAAAGCAAACCCGATGTATAAAATTGAAACCATATCAAACCCTTCTTCATTCTC
TCAGCTATTTAATTTTACAGAATTTAGATAGCAGTCAGTATCATTTTGGGCTTCACAAATCAGTAGAGTAAGTACCTTAGGAATATAACATTTCAGTAGC
ATGCTGATACCAACGTTTAAACTATGGATACATATTTGAATTCCAAATTTTTCTTCAAATAATGTGATTAGAGATTCAACCAGGAATAGACACCGAAAGA
AAACTTTGCCCAAATAAGCTTTCTGGTATTTCATAAGCAAGAGATTTAAGTTTTCCATTTAAGAAGCAATTGTGAATTTTACAACAATAAAAAATGCAAG
TGGATATTGAACAGTCTCTGCTCTGATAATTCTAAATACAGTACAGTTCACGCCCCTCACAAGACACTGAACATGTGGGTCACCGGCGAGACAGTGTGGC
AATATTTTCCCTGTAATGTACCAAGTCTTGCCAAAGCAGTGAACATTATGACACAACTTTTTGTCACAGCTGGCTCCTAATAGGACAGTGCCAGCCAATT
CAAGCCCAGTCCTTTCTGTGTTTATTCCCATCTCTCCCAAATATTTGGAAACTGATGTCTTGACTCATGGGTGTATTCACAAATTCTGTTACTTCAAGTC
TTTTTCTTTTAACGGATTGATCTTTTGCTAGATAGAGACAAAATATCAGTGTGAATTACAGCAAACCCCTATTCCATGCTGTTATGGGTGAAACTCTGGG
AGATTCTCCTATTGACSCAGAAAGCGATTCCTTCACTGATACACTGTCTGCAAACATATCACAAGGTAAAGTTCCTTCCAGATACGGCTATTGGGGACGT
GGGGGCATTTATGTAAGGGTAAAATTGCTCTTGTAGTTTGTCTTCCAGGTTGTGTTTGTTTTAATACTATCATGTGTACACTCCAGTATTTTAATGCTTA
GCTCGTTGCTATCGCGTTCATTTAAAAACATGTTCAGAACCTTAAAAAAGGAAACCTAACCTAATCTATTTTATCTCTGTGCATGGCTCCCATTTCCTGA
ATTTTAAGCATTAAAGGTATAGTTATATCCAAAAACAATCCTGTTCATTTTTATTTCCTGAGTTTGCATAGATTTCCCAAGAATACATAAGGGCTTTTTA
GACTTGAAGGGTCACTTTTTCCTCTTTTCATCTCATATGTTAGAGATCTCTCATAACTGTTTTTATCCCTCTTGCAGCACTTTTATTCCTCTTGAAGTAC
TCTCAGCTCTTTTCTGTTCTATTTTGAAATCTAGGTATTGTGTGTGCACTTCAGCTCTCCCAAAGAATTGTAAATTCCCAGAGTGTAGGACCAAGTGGTG
CTCTTTATTAGATTTCTTAGGATACTTCCTAGCATAGTGCCTAATGCATTGCAGAATAGATTGTCGGAACCTTGAAAAATATCTGTTCCAAGCATCACAT
TTTATGCATAAAGAAAATGAGGTCCCTAAAACAGTAAATGCCTATTGCAAGTGACTACCTATTAACTTCTCTTCAGATGTGTCAGAATCAGATACCTCCT
TTTCAATATTTCTTTCTTGGCCATTGCAAAATATAAGTTCTCCATTTCTATAGCTCCTTCTACTGGAGTTTCTTAGCACAGCCTTTTCTGTTTTGTATTG
TCTCGTATTGATGTCTATATTTCTATTCATTTTATTTTTCTCTTCTCAGATTCTGTGTAAAAATAGATTGTTAGCTAGTGTGATTCATGTTTTATAATAT
AAGTGCTAAAGCATTAAAATTAAGTCACTTAATTGCTGAAATGGATGGCTTTACATTTTAACCTTTTAATTTTCCTGGAAGCCTGAAGTTTGAACATATT
AGTCACCGTTTTTAAAATATAAAGCTTTTTAAAAATGAGTAAGAAAATGTTTCCTGAAGTACTGTTTTATTTTATTACAGTAATTTGATTCAACATGTAT
TTCTATCATCTAAGCCTCTTAACTAGGAGTTTTGTTTTATTCCATAAATTGTTGTTATTCTGTTTTTCTGCAAGCCATAAAAATTGTTGCTATCTTTCTT
CAGTTATTAATTTAGCCTGCCTCAGGGCAGAATGTCCTGGCTATACTGTGAAATAGTTCTTGAGTCAAAATTTGATAGTTTTGTCTATTTTGAAAGAACA
TGTCTAGAATGCAGTGCAACAAATATCAACAAATAGGTTAACTGAGAGGCAAGTACTGTTTGTGGTAAGGGATGGTTATGTGATTCAAGTTARTTTTCAT
TCTGTGCTAATCTCTAATTTTATGCTTTGAATTTACTCTGAGTTTAATTTTTTTGAGTCTCAATTTCCTCTAAAAGAATGATCCAGTACTTTTCTTCCTA
ATTAACATAGTGCAGAATGAAATTATTAGCAATTAAAACATTATATTTTGTACCAATAATTTAACCCTTGTCTTATAGGGTCTCTGGCTACTACTTCTTC
ATAAGCACTGTTTCTCTGTTAAAAATGTGAGYTCCTAAAGGCCCAAGACCTATGATTGTTACTCCTATTGCATTTTGTAAATGACCTTTAAATAATTACT
CCACCTCTTCCAAAACAGACAGACTTAAAAATAAATTAGCTATATGATCATCATTAGCCGAGGCCAGCAGAGTTGAACACTGTGGAGTTGAGGTATTTGG
CATGGGTACAGTAGTCCTCTTAGGTGCTCCTTCTTCCTCATCATAGGCAAAGTGAAATTGGGGGTGTTGCAAATGGTTGGGTACTGCTATTTAAGAAAAA
GTGGCACATTTAGTGTGAATGACTCAGATATCCAGGTAGATTGGTCATATTCATGAGATTAAAAATCTCGACTACACTTAGCCACTATGCCCAAAGAGGA
CTTCCATACTTTTTCCAAGGCTCCATCATTGCTGTGACCCCTTTATATTATTCCCCTTTCTCTTTTTATCAAGAGCTCCTCAAGCAACCCCAAGTAACCT
CATGCTGGCTCTGAAACCATTTCCACTAGTAAAAATTGGCAAGATTGAAGGGAAGCTTCCACAAGCTCAAGCTGAATATGCCTCCTGCTTTTAGTGCCAG
ACTTAGTCCTGTGTGAATTCTACAATTTTAAGTCGTTGCACCAGAGCCTTGAAAGATGATGACACACTTGTCCTTTGGAGCTGATTGAGCAATGGAAATA
TGCCTTAGAGACATGATAAATGCTGCAATAGACAATCCTTCAAAACGAGTCTCTCCTGAGATAGGAGTGAGTGATTGATTGCATGCCATTTTTATTGAGG
GATACTTAATCTGTGGTTACATATCTCCAGGCAACTRTATATTCAGAAACATTTAGATAACTGACCAAAGTTTTCACCTTTCCAGAAGTTTAAAGGGACC
CATGTAGTACCAGGGAATATAAGGACCAGTCCTTTGTTGGCCACATATTTGCTGTGTGAATTTAAGCACGCCATTTTTCTTCTCTGGCCTTCTGTTTCCA
CATATATTAACAGAATACACAGGATTAATGGGAGGATTAAATGACACAATACTTGTGCAAGTAGATCTAAAGCCCTATATGGAATTTATTGCTTTAGCCT
TGTAGCGTTAATCACTTGTGGCTAGAATAGAAGGCTCCGTTTAAAAAAARAAAAGGCTGGGTACAGTGGCTCACATCTGTAATCCCACAACTTTGGGAGG
CCGAGGCGGGCAGATCACGAGGTCAGGAGGTCAAGAGGTCAAGACCATCCTGGCTAACACGATGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCC
AGGCGTGGTGGTGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTAGGAGAATGGCGTGAACCCAGGAGGCAGAGGTTGCAGTGAGGCTGAGATTG
CGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAAAAAGAAAAGAAACCTACATTTTAAACACTTTATGGATATGGA
AAAACAAAAACCGCAGAACTCTTTATTGCACAAGAGTAAGTGGCAGTTATATGAATGAAGCGGGGCATCCGCATGATCTCCTGTGAGTGTTTTGAGAAGA
TGATCAAACTTAGAGAAAGCATCTTTGTGTCTAATTTTTTTAAATGATGAAATTATTTCCCACTTTCATTAATATTTTCCTGTGAAGAAATTGAAGTTAT
TCTTTGGGCCTAAATAAAAGTGACAATTACATGTTTTCTTCTCAGAGGCATTGAGAAACTTGGATTATAATGTTTTTCGTACACTGAAGTAGAAGTCCAG
AAAAGATTTGAGTTATTGACACAGATCTTCTTTTTTTTTTGAGACAGAGCCTCACTCTGTCACCCAGGCTAGAGTGCAGAGGCCTGATATCATATTTCAC
CACAGCCTCAACCTCCCTGGGCTTCGGTGATCCTCCCACCTCAGCCTCACTAGTAGCTGGGACTACAGGCGTACCTTACCACACCCAGCAAATTTTTGTA
ATTTTTATAGAGACAGGATTTCACCATGTTGTCCARGCTGGTCTTGAACTCCTGGGCTCAAGGAATTCTCCCGCCTCGACCTCCCAAAGTGCTGGGATTA
CAGRCGTGAGCCATCGCAGCCTGCCCCTGAATTCCATAATTTCACRTGTAATTAGAATTCAAGACCTTTTTCTTGAATATTACTCTTGTCCATATTAATT
TTTTTCTGAGTATGGCTCTAGCTTTATCATTTTTTTCTGACTTAACTCTGATTAACCTCTTTTTTCATCACCAGTACTTGGCAGATTTTGTAGATTTCTA
AACTCTGAAAATCACTGTTTTTCTGAAAACTGTCATTTGTCTCATACTTTCCTCCAAAATTATGAATTATAGGAAACACCCCAAAGAAGTATCATTTACA
TTAGCTGTTTACAAGAAAATACAGGGTTTCATTTTTAATTTTATTTTCCCCTACTATCTCTAAGGAATACAACTTGTCTTGAAAGCTCCCTGACAGCAGC
TATCCATTTAATCTGCCAATTGCAGTATAAAAATTGGTTATTAAATGAAAAACAATTGTATACCTCTCACAGAGGTTGTCATRTATTACTATTTTTGTCA
GCATTCTCACTTATAACTCTGTTAGGATAATCCTGGGAAAATTTCTAAAATCTTCATAGCTCTTTCGTTAGGTACATATTCCTTGAGACAGAGGAAATCT
GAGCAAAGTAAATTTCTTCATTATCTTAGATCAACAAAAGTGATACAGAGCTTCTGTCCTGTTAGCTCCCTTTGGACGCTTAAAATAGGCACTAGAGGTT
GTCCAGTAAATGCTTCATATCCATCTACTAGTGCTGAATATTTGTGAAAATATAGGTGATAATGAATTAGACTCGTTTGAATGGAATTAAGTTTCTGTAA
AGTTTTACCAGATTGTCTTTTTTTTGTTTTTTGTTTTTTGTTTTGGTAAAAGCAGTTTTGCACCTGTAACTAATTTAAAGACGAAGAAATTGCACATGTA
ACTGATAGCAACTGCCATCCAACTCTTATAACCTCAGAATCAAGATCACGTGGCTATTTGAGTACACAGTGTTTTAAACCGTGTAATTTTTATTTGAGCA
AGGGATTGCCAACACAAGATCGAGGTTCCCACAAGTGGTGAATGGCACTTGTGGTTAACACTGTAAAGCAGATTTAAAACAGTCAACTGTCAATTGCCTA
CAAGGGAATTATTCCTCATCACCTCATGCCAGGTTTTTATATGGCCTTTTAGCTGACCTTCTAAATGAGAAACTTTGCCATCCAGTGCAAACTGCCAATA
GTCCTAAAATGCCTATCTTTATTATCAGTCTAATAATATTTATTGAGTGCCGATTTTCAAGGCACCATAGTGAATGCTGTGAAATCTAGACACTTTTTCC
CTGGCTTTCAAAGCTCTTTATAATCCAGGCATATTTTATATATTTTACCTTATTTCTCACCACATTCCAGGCATTGGCCTGTCTTGCTCTGTTCACACTA
ATCTCTTTGTCCCAAGAGTAAGGCCGACCCACCCTTGCTCCAAGCCTAGTATGTCTTGAAATGCCTTTCCTAATTCTTCCATCTTTTCAAATCGTCCCTG
TCCTTCAAGGTCAGCTTCAAGTAACCTCTACTCCGTGAAGCATTCTCTGAATTCATTGCTGTTCATTGCTCCCTCTCTCCTCTAAACTGAAAATGTGTTC
AGAATATCTCTCTTCTGCCGCTTCCACTGCCTTCAGCCCAGTCCAGGACACCGTCTGTGCCTGGCTGCTAGTCTCTTGATGGGGTTTTCAGCTTCCATCC
TAACCTCACAACAGCCTAGTCTCAACYGGTCACCCACAGAGATGATGCTCAAATGTGAGTCAGATCCGTCACTCCACCCATAGCCCTGCAGTGGTTCCCC
ATTTCACTTGTAACAAAAGTCCAAGTCTGGCCCCTACCTCCTGCCCTACCCCAGCTGACCCCTCTGGTCTTCTCTCTCTCTTCCACCCACTCTGCTCCAA
GCACGCCGGCCTCCTTGCTGTTCCTTCCACATTCCAGATGCTCTCCTGCCTTCGTGCACCTGCCCCAGCTCTTGTTCCTGTCCAGGACCCTCTTCCTCTG
GCATTCTCTGGGCCACCTCTGTCAATTCCCTATAATCTTGGCTCAAATCTTACCTTAGAGTGAGGGTGACCTTGGCCTTCCCTATCCTAGGACAGGGGAA
TTACATATCCTCCCCATTGCCCTTCCTCCTCTACTCTACAATTTCCTATTTAAAAAGCATTTATCGTCTTCTAACATGCCATGTAATTTATTGGTGGATT
CTATGTATTGCTTACTGTCTGCTTCACCTCCCTGGAATGTTAACCGCATGAAGGCAGAGATCTTTGTCTAGTTTGTTCACCCACTGATGTATTCCAAATA
CCTGAATAGTATTGCTCATTAATACTTGCTAAATGAAAGAATAGAATCCTCTAACACTTAYGGCTTCTATCACACAATTTAGCCCTGAGTTCAAACTGTC
TGGTATTATTTCCTGTTTTATGTATTCCCTAAGCCAAATCATATAGTCACTGAAGAAAAGATCCATGTTTTATTCTATATTCCACAAATGCCAAACAYAT
AATAAGTATAATCAGGTCTTGTTGACTTATTAATACCAAGCTGATCTCCTAAGGTCAGAGACTGGAATATATTTAGCAAATAAATACAAAATTTTAGTGT
ATGTTAAATATTATTCTAAAACCAATGCTAATATAAACAAACCAAGTACTGGATATGCTACAAACCAGGCACAAATATGTTTTGAATTATCTGTTAGTTA
ATTTGCACCGTGTCCCTCCATTAGTTTGAGTAGCATTCATTGAATATCATTTGAATATTAATTTAAACATCATTTGTTTGTGAGTTACCCAAATCCCTGG
CTTCTTCTGCAAATCTACCCACCTTTTGATACTTCCATTATTTATTTGAACATCCAAAACACTTATTTGCTAGCAATGTTTAAAAAAGAGTAGCTTATTT
AATTAGCTAATATCTAATATATGAAGCACTTAAAGTATTAATTGCCTGATATGTAATAGGTGCCAAACACGTCAGTTCTGTCTTCTTCTCATCTTTAAAA
TGGAAGTTAATACAGACATAATGTCTCCCCTTGGGTCTTTTAAGTCAGATCTTTAGGAAAAAGTAAAATATTCTCATTATTCTTATTATTTTGCTTGCAT
TAGCAATAAAGTATGCCTGATTTAAGTTCACTGGACATTATCTTACTATTATCTATACTTTACCTAAAGCCCTGCCTTTAGTTTTGTAAATAAAATTATA
GACCTATTAGATAGATTGAGCAAGTTTGCTTAGTGGATTAAAATATGATGCTAATAAGAGCCAAAGTGAGTTTGATAATGGGTTGGCCAGATTTACACAG
AAGTCTTTGCCATTTACAAAGAGTTCTGTTTGCCATTGATACAGTCACATTTCTAGCCACAATTACCCAAGATATGTAAACAGTTAACTCAGGAGAAACC
AACTCAATTTTCAGGTATATGCCATATACAAAATCTCATCACCTTTGCTATTATATACACTTAGTATTATTTCTTAAGCAATATCATGTAATATAAGGGG
CACGTTGATGACAGGGACATGTACCTTTTTCTTGGGATTTCAATATGAATGACCATCCAAATCTTGATCATCCCAATGGCTCCACATAATTTGGACACCA
TGTCTACCAGAAAGCTATCCCTGATTATTTCAGGACATGTTAGTATCTTTCTTTTCCACATTTCTAAAGTACTTACTATCTCTATCACGAGTCTGGTCTC
TGTACTTCCTTCTGCTACTAAACATCTCTCACCTTGGTAAGCTTCTCAAGAACCACAATACTATGTGTTTCTTGTAAGGCCTGAAAAACACCTTGCACGT
AGTATTAGGTGATTAGCTATCTTGATTTAAGGTTTTAGATTACTGATTGAACATTTACTGAGCTGAAGATATAGAGAAAGAAAAATGCCAAAGAAAATAA
AATGAGGAAGTTTGGAAAAGAGAAACACACTAGTAAAATATGATGGTAACTTCTAAGAAGCAAGGTTTATAAAATAGATTGTTGATACAAAGAAAACATT
ATAAAAAAATGGGTAGCTTGAATGGATTTAACCCCCAACTTTATTTAATTTAAATGGAATGCCTCAAAAGACTACTCAGCTGATCCAAACATAGTAACTT
CCCAAACACAAGACTCTTGACGTAGGCCTCAGAATTTGGGGAAAAAAATTCCTGCATTGTTTAAAAATACAGTGTCCTTGTAAAGCAGAATAGGCCTTAT
ATACAAGCCAAATATATCAGTTCTAAAGCAAAAACAAAACTTTTCCTACTTACTCTTTTATTTCTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCT
GTCACCCAGGCTGAAGTGCAGTGGCGCCGTCTCAGCTCACTGCAACCTCTGCCCCCTGGGTTCACACAATCCTCCTGCCTCAGCCTCCCGAGTAACTGGG
ATTASAGGCACCCACCACCACGCCTGGCTAATTTTGTATTTTTAGTAGAGAYGGGGTTTCACCATGTTGGCAGGGTGGTCTCAAACTCCTGATCTCAAGT
GATCCGACTGCCTGCACTTTTCAAAGTGCTGGATTGCAGATGTGAGCCACTATGCCCAGCCTGCTTCACTCTTTTAGATAAAATGTACACCCTTTGAATT
TTTACTTCCGCCATTTACACTGATTTGAAGTCCTTGGTTGAATATGTATTTAGCCTTCACTGTGCAAGGAAGCTGGTTACAAAAACAGATAGTTTATTAA
AATACTTGTGTTGGTTTTTAAAAAAGAATAATTTTAATACAGTTTTTCTCTTCTTTCTTTTTGCTCTTTTTGTTATTTTTTAATAGAGACACGGTCTGGC
TATGTTGTTCAGACTGGTTTCGAACTCTGGCCTCAAGTGGTCCTCCCATCTTGGCTTCCCAAAGTGCTGGGATTACAGATGTGAGCCACCATGGCTGGCC
TTAATACTGTTTTATGAGTTCTGAATTGAATAATTTTTAAGTGAATGTCCTAAAATTCTATGACAATCCTTTTAACACAACTGGAAGAGTTTTTGTTGGC
TTACTTGGTTTGTCTGCATGTTTCCTTCTGTCATCCCCCACTCCTAGGACCCATATGGAACATTCTCTCTTAATTAACTCTTTTATTGAAGTATAATRTA
CTTAGAGGAAAAATGTCCAAATCATTTTCACAAGTGAACATACTTGCGAAATTAGCACCCAGACAAAAAAAAAAAAAAACAGAACAATACCAGCACTCCA
GAAGCCCTCTGACTATTCTAATTTCTAACTCATTGTTAAGTTTTGCCCAGTTTTGAATTTTATATAAATAAAATTACACATTGTTTACTCTTTTGTGTCT
GGATTCTTTTGCTTAGCATTTATTCGTGAGATTAATCACACTATTGAATGTAATTGTACTTCATTCTCATTACTGTATAGTGTTTCATTGTATAAATATA
TCACAACATATTTATCCTACTGTTGATGGGCATTCAGATGGTTTTCAGTATTGCAAATAGTACTGCTATGAACATTGTCCTGTAGGTCTCTTAGTGAAGG
AGCGTATGCATTTCTGGTAGCTATATGCTTCAGCCAATAATAGAGTATGTTGAGCTTCAGGAGAYGTTGCCAACAGTTCTGAACAGGACTCTAGAAATCT
ATACTTCTACTAGAAGTGCATGAGTGTTCTAGCTCTTCTACACCATCACTGGTACTTGGCATTCTCTGTCTTTTTCACGTTAGCCATTCTGRTGGGTGTG
TTGGTATCATATTCTAATTTTAATCTCCCCTTTTCTGATGTCTAAAAAGTTAAACACTTTAAAAAGCGTTTGTTGTCCATTTGGCTATCCTTTCTTGTAA
AGTACCTGTTCAAGTCTTTCACCCATTTTTATATTGAGTACTTTAGGTAAACGTTCTAAAGCATACCTTGTCAGATACATGTATTGTAAATATCTCCTCT
TACTCTGTGTGCTTTTTCGTTTACTTAATAAACAGATATTTCTAATCAATATAGTCTGATATACTAGATTTTTCTTTTACAGTAAGTGCTTTTTATATCC
TTTGGAAGAAAGCTTTGCCTACTCCAAGGTTGATAAAGTGTGTTTTTATTTTAAAAGTTTTCTGGTTTTATATTTCACATTTAGATCCATAATCCACACA
GAATTGACTTTTGTGTATGTTGTAAGGCAAGGGTTTATCTCTTTCATGGGGATATCCAGTTGACCTGCTTCGTTTATTGAAAAGATCATCCTTTGCCCAC
TCCCCAGCAKTGACATTTCTGTCATAAACCAGGTGACCATATAGGTCTGGGATTTATTCTGGACTTACTCTTCTATTGCATTGTATTTTTGCACCAATTA
AGATTGCCTTAAGTACTGTAACTTTATAAATAGTTTGATATCTGGTAGTATAAATCCTCCAGCGTTGCTCTTCCCCTTCAAGATTTCCTTGCCACTTGGC
CTCTTGAATTTCCTTATAAATTTTAGACTCAGCATATCAATTACCACACAAAAGTGCCGAGATTTTGATTGGAATTGTTCTGAATCTATAGATAAATTGG
GAGATAATTGAAAGCTTTACAATATTGAGTCCTTCAATCCATGAACATGAACTATCCTTTCACTTATTTATTCTTTAATTTTTTTAAATAGTATATTTGA
GTTTTCATTATGGAGATCTTACACATATTTTGTTAGATTTTTTCCCCTGGGTATTTGATTGTTTTAATGCTGTTGCAAAAATAATTTTTAAATTTCATTT
TCTACTTGTTGCTGGCTTATAGAAATATAATTGGTTTTTGAATATTGACCTTGTACCCAGCAACTTTGCTAAATTATTTTATTAACTATAATGAGTTTTT
TTGTGGATTTTTAAAAACACAGTCTGCCTAACATGGTGGCTCATGCCTGTAATCCCAGAACTTTGGGAGGCTGAGGTGGGTGGATCACTTTGAGCTCAGG
AGTTCGAGACCAGCCTGGCCARCATAGTGAAACCCTGTCTCTACTAAAAATACGAAAAATTAGCCAGGCATGGTGGCATGCCCCTGTAATCCCAGCTACT
TGGGAGGCTGAGGCAGGAGAATTGCCCTAATGCCAGAGGTGGACGTTGGAGTGAGCTAAGATAATGCCACTGTACTCCAGCCTGGGCAACAGAGTGAGAC
TTCGTCTCAAAAATAAATAAATAAATAAATAAATAAATAAATAAAACGAACAACAACAACAAAATACAGTCATGTCATCTGTAAGTAATGTTAGTTTTAG
TTTTATTTCTTCTTTTCCAATTATTCTTTGTCTTTTTCCTTTGTTGCATTGGATGGATTTCCAGTACAGTGGTGAGTAGAAGTAATGATAGTATCATTAC
CTTGTTGCTGATCTCAAGAGGAAGGCTTTAAATATTTCACCATCAGGTATGATGGCTACTCTAGGATTTTTGTTTGTTTATTTGTTTGTTTTTTATAGAT
TTTCTTTAGCAGACTAATGAAGTTCCCTTTCCTTCCTAAGAGGTTTTTTATTTAAAAAAAAAATTATGAGTGAATGTTGAATTATATCAAATGCTTTCAT
AGTTTGTTGTGGTGGTGGTTGTTTTTGAGACAGGGTCTCACTTTGTCTCCAAGCTGGATCATGGYGCATTGCAGCCTCAACCTCCTGGGCTCAAGTGATC
CTCCCACCTCAGCCTCTTCCAGTAGCTGGGACCACAGCACATCACCACACCCAGCTAATTTTTAAAAAATTGTTATAGAGACAGGGTCTCACTGTGTTGT
CTAGGCTGGTCTTGAACTCTTARGCTCAAGTAATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTATCTAGCCTAGAATA
TTTTTTATAGTGCTCAGGAGAAAGATTAAAAGTATGAAAAGTGTCTACTATGTATACTTTAATATCATATTGTAATACATTTGAAGATACTATATGGTAT
AACTAATGAAAATCTTCAAATCAGCTCATAACCACTAGAGATCTGGCTGTATCTGTTTTGACACTTTTGTTCTCAGTATCTGTTTAGCTTAAGACCCTTG
TCTTCTCATTAAGAGTGCTTGACACAGTAAGTTGAAAACATAATTTCAAAAGAGCATAGAGTGTCACATGGTTTTGCCAGACTAAACAACTCTGAGTAAG
AAAGTGGCTTTCCCCCTATGGTAATGCCAAGCTACTAGAGGACCTTCAGTGGTAAAGTATGATTTAAAACCCTGACCCCATCTGTCTTTTCCCATTTGCA
GTAAGTCCTTTATAGTGTTTGAAGGTGGGCACAGCAGGGAAACAGTACTCTGGCAGATCTGCGGTGGCTCCCTCCTTTCTGAGTCATTACACACTCTTCT
GGATCATTCCTTTCATTTTTCCTTTTCCTCTCCTCTCCCCTATTTTCATTCCCCTATCACTGCAAAGCCAAAACCAAAACGTGGAAGGGGACCTAGCCGA
GGAAAACATTCCAGCTTCTTTTTTCTGATCTAAACACCGTTCTTCTTCTTTTTTATTTTTTAATTAATAACTTTATTTTTAGGGCAGTTTTAGTTTCAGA
GCAGAATTGAGTAGGAAGTACAAAGAGTTCCCATATACTTCCTGTCCCCCACCACGCACAATCTCCCCCACTATCAACATCCTGCACCCAAGTGGTACAC
TTGTTACAGTCAATAAACCCCCACTGACACATCATTATCACTCAAAGTCCATAGTCTACATTAAGATTCACTCTTCGTGTTATATTCTCTGGGTTTGTAC
AAATGTATAAGGACACATATCCACCATTGTAGTGTCATACAGAATATTTTCACTGACCTAAAAATCCTCTGGGATCCACCTGTTCATTCCGTTCTCCCCC
AAACTTCTGACTACCACTGATCTTTTTCCTGTTTTGATAGTTTTGCGCTTCCCAGAATATCATATAGTTGGAACCATACAGTATGTGGCCTTTTCAGTTT
GACTTCTTTCACTTACCAATATGCACTTAAGGTTCTTCCATGTCTTTCCATGGCTTGATAGCTCATTTCTTTGCAGAACTGAGTAATATTTCATTGTTTG
GATGAGCCATAGTTTATCCACTCAGCTACTGAAGGGTGTCTTGGTGCTTCCAAGTTTTGGCAATTATGAATAGAGATGCTATAAACACCTGTGTGTGGGT
TTTTTGTGGACTTAAGTTTTCAATTGATTTGTGTACCTACCAAGGAGTGTGATTACTGGATTGTATGGTAAGAATATGTTTAGTTTTATAAGAAATGGCC
ACACTGTCTTCCAAAGTGGCTGTACCATTCATCAGCAACGAATGAGAGTTTCTGTTGCTCCACATCCTCATCAGCATTTGGTGGTGTTAGTGTTTTAGAT
TTTAGCCATTCTATTTGTAGTGGTATCTTCTTGTTTTAGTTTGCAGTGCTCTCGTGACATATGATGTTGAAGATCTTTTCACATGTTCACATGCCATCTA
TATATCTTCTTGGATGAAGTGTCTATTCAGATATTTTGCTCATTTTTAAAACAGGGTTATTCACTTTCTTATTATTGAGTTTTAAGCGTTCTTTGTATAT
TTTGGATAACAGTCCTTTATCACAGTAGTCCCTGACCTTTTTGGCACCAGGGACCAGTTTCATGGAAGACAGTTTTTCCATGGACTGGGGTGGGCAGGAA
TGGTTTCAGGTGAAACTGGTCCACCTCAGATCATCAGGTATTAGATTCTCATACGGAGTGTGCAACCTAGATCCCTTGCGTGCACAGTTCACAATAGGGT
TTGTGGTCCTATGAGAATCTAATGCAGCCACTGATCTGACAGGAGGTGGAGCTCAGGCTATAATGCTTGCCCATCAGCAGTTCACCTGCTGTGCAGCCTG
ATTCCTCCCAGGCCATGGACTGGTACTGGTCTGGACCTGGAGGTTGGGAACCCCTGCTTTATCAGATGTGTTTTGTACAGATACATTCTCCCCATCTGTG
GCTTGTTTACTCATTCTCTTGACACTGTTTTGCACAGAGCAGACTTTTTTTATTTTAATGAAGTCCAGATAATCAGTTATTTCATGGTTCATGTCTCTGG
TGGTGTATCTAAAAAGTCCTATCCGTGCTCAAGGTCATCTAGGTTTTCTCCTATATTGTCTTCAGGGAGTTTTATAGTTTTGTACTTTACATTTAGATCT
ATGTTCCATTTTGAGTTAATTTTTATGAAGAGAATAAGCTCTGTGTCTAAATTATTATTATTATTATTGTTATTATTATATTTTTTTGCATGTGGATGTC
CAGTTGCTCCAGTCCCAGTTGTTGAAAAGACTGTCTTTGCTCCAGTGTATTACCCTGGTTTCTTCATCAAAGATCAGCTGACTACATTTATGTGGTCCTA
TTTCTGGGCTCTGTATTCTGTTCCTTTGATCTATTTGTCTATTCTTTTGCCAGTACCGTACTATCTTAATTACTTTAACTTTCTAGTAAGGCTTGAAGTC
AGGTAATGTCAGTCCTTCGACTTTATTCTTCTTCTTTAATATTGAGTTGGCTATTACGGGTCTTTTGCTTCTCCATATAAACTGCAGAACCAGTTTGCCA
ATATCCACAAAATAACTTGCTGGGATTGTTATTGTGATTGCATTGAATCTATAGATCAAGTTGGGATGAATGACATCTTGACAATACTGAGTCTTCCTAT
CCATGAGCATGCAGTGTCTCTCCATTTATTTCATTCTTTGATATCTTTCATCAGAGTTTTGTAGTTTTCCTATATAGGTTTCATATATATTTTATTAAAT
TTATACTTAAGTATTTTACTTTTCGGGGTGCTAATGTAAAACAAAACAGACATTATGAGGAAAATGTAATGTCTGTTTGGGGGTAATGTGTTTTTAATAT
TAAATTTCGCTTGTTCATTGCTGGTATATAGGAAAGCATTATGACTTTTGTATATTAACCTTGTATCCTGCAACCTTGCTATAATCACTTACTAGGTCCA
GGAGATTTTTTTTTTTTCTGTTCTTTTGGATTTTTTTATGTAGAAGTCATGTCATTTGCAAACAAAGACAGTTTTATTTTTACCTTCCCAATCTGTATCC
CTTTTATTTCCTTTTCTTGTCTTGTTACGTTAGCTAAGACTTCTAGTATGATGTTGAAAAGCAGTAGTGAGAGAAGATATCCTTGCCTTATTCCTAATCT
TAGTGGGAAAGCTTGAGTTTCTCACCATTACTTAYGATGTTAACTATATGTTTTGTTTGTAGATGTTCCTAAGTTTAGGAAGTTTTCTTATTTTGTCAAA
TTCTTTTTCTGCATTTATTGATATGATCATGTGATTTTTCTTCTTTAGGCTATGGGTGTGATGGATTACATTAATTTGTTTTCTAATGTTGAACCAACCC
CACATACCTTAGCTAAATCTCACTTGGCCATGGTGTATAATTCTTTTCATACRTTATCGGATTCAATTTGCTGATATTTTGTTAAAGATTTCTGCATGTC
TGTCCATGAGAGATTGGTCTATAGGGTTTATTTTCCTTGTAATGTCTGTTTTGTTTTAGTATTAGGGTAATTCTAGCCTCATTGAATGAGTTAGGAAGTA
TTCCCTCTGCTTTTATATTCTGAAAGAGATTTCAGAGAATTGGTATAATTTCTTCCTTAAATGTTTGGTAGAATTCACCAGTGAACCCAGTCCGGTGCCT
TCTGTTTCAGAAGGTTATTAGTTATTGATTCAATTTCATTAATAAATGTAGGCCTATTCCATTTCTCTATTTCATCTTGTATGAGTTTTGGAAAATTATG
TCTTTCAAGGAATGAGTTCATTTCACCTAGATTATCAAATTTGTGAGCATAGAGCCTATTATCCTTTAATGTCAATGAGATCTGTAATGATACCCCTCTT
TCATTTCTGAATAACTTTCATTCATTCTTCACGTACTAGACAAAGTAGAATTTCAACTAAACCAAAGCAACTGTTCAACAGATTTAGCCTTAGTCCTAAT
CAGATTATTAGTAATATCTCCCTTTAGAAATATATGAAGGTACTTTTAGCAGAGGAACCAAGCTTGAGCTAGTTTGACCATAATGAATTTTTGCTGAGGA
AGCAGAAGAAATGTTTATATTGGTGAGGGCATAATCCTGTAATCTTTTCTGTGTCCTGATACCTCAGGACCAGCGTAAGCAAACTCCCTAGACAAGATGT
GGCTCATGCAAGAGGAAATATGCTTTTGAAAATGAACATGGGCCAAGCATAGTGACTCATGCCTGTAATCCCAACACTTTGGGAGGCTGAGGCGGGAGGA
TTGCTTGAGTCCGGGAGTTTGAGAATAGCCTGGGCAACATAATGATACCTTGCCTCTACAAAAAAAAAAATAAAAATAAAAAAATAAAAATAAAAAAATT
AGATGAATGTGGTGGTGAATGCCTGTGGTCCCAGCTACTTGGAAGGCTGAAGTGGAAGGATCACTTCAGCACAGGGAGGTCGAGGCTTCAGTGAACCATA
ATTGTGCCACTGCACTCCAGCCTGCATGACAGAGTGAGACCCTGCCTCAAAAAATAATAGTAAAATTAAATAAAATATAATAAAAAACATGGTCTTTCTA
ATACCCTTTGTTGATCTGAATTTGAAAATTTCCTGTGAGACCTTCTGGCTTATTATAAAGAAATTTGCATCTAAAGATACATATTGGAATGTTTCAATCT
CAAAGCTATCAATGGGAAATCAAACTTCAGAAACATTGAATTTGGTTTTGAATATAGTCTAAGTAGACAATAAAATGAAAATACATTTGTTTATATTGAA
GAAGCAAATGACACACCAAATAGTTAATTTCTAATAGTTTTCATTTTTTTCTTTTTCTTTTTTTTTTTTTTTTTGAGACAGTGTCTTGTTCTGTTGCCCA
GGCTGGAGTGCACTGGCATGAACTCGGCTCACTGCAACCTCCATCTCCCGAGTTCAAGTGATTCTCCTGCCTCAGTCTCCCAAGTAGCTGGGACTACAGG
CCTGCGCCACCACGCCCGGCTAATTTTTGTATTTTTGGTAGAGACAGGGTTTCACCATGTAGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCT
CCCACCTTGTCTTCCCAAAGTGCTGGGATTACAAACGTGAGCCACCACGCCCAGCCTCTAATCATTTTCTTAATTCATGGTGCCCAAAATAAAAGATTCT
ATATTCAGAGAAACCATGACAGAATTTAAACTCTAGCCCCAATACCTATTTAACATTGGGCAAGTCACTTAACCTTTTTATGTCTAATATTTTTAATCTG
TTAGGTGGTAATAATACTTGTGTATAACAACATAGGACTGTTTACAACAAGCACTTAATAATTGTTAGCTATTGTTACTAAATTGTATTTCTGCTGATGG
GTTCCAGAGTCTTTTCCTCCTTCACTAAACAAAACTCAGGATACTATGTGAAGGAAAAGAAGTGAGTTGGTAGAATTTATTTTTTAAATGCTTGAGTCAA
AAGGAGAGCCATTTGTGGCTGAAGCATCAAAACCATTTTCTGATTTTCTTTCATTCTACTTGAAACTACATTAAAATTTTCTCCAATTTTCCAGATGATT
GCATGATAATTCCTTTTAAGAGGACTTTAACACATGTAAGAAATAGAGTTACTCCCTCTGTTAGGAGAAATCATGGAAAGATATTRTAATTAAAAGATAG
TGAATTTTAGCTTAATTTTTACCTTTATCTAAATAACACTCGTACACAGCTACAGCTTTCAGTGAAGAAGAGATACTCATTCCCACAGCTAAATCCCGCT
CCTCATAGGCAGTGATTTTACCTCTTTCACATATTTCTTCTGGCATTTACCTTCCTATCTCTAGAATAACATACTTAMATTAATGGCCAGGCATAGTGAC
TCACGCCTGTAATCCCAACACTTTGGTAGGTCAAGATGGGCACATCGCTTGAGCCCAGGAGTTTGAGATCAGCCTGGGCAACATGGTGAAACCTCATCAG
TACAGAAAATACAAAAATTAGCCAGCAGTGGTGGTGCATGCCTGTGGTCCCAGCTACTTGGGAGGCTKAAGTTGGAGGATTTCTCGAGCCCGGGAGTTTG
AGGCTACAGTGAGCTGTGATTGCRTTACAGCACGACAGCCTGGGCCACAGAGAGAGACCTTGTCTCAAAAATAATTATAATAATAATAACTTATACTATT
ATTTTTAAAATTGTATTCTTATCCATTGACTTCTTACTGTGGGAGATAATAATTTAGTCCTTTTACTACCATATTCCCTTTTCCAAAACACATACTTCTC
CCTCCCCTCCATCTTCACAATGTAGTTACTTGTAATTTGGGGTTAAATCAGTTGTCTGTGCTTACATTGTAGTAACTGAAAGTGCTGCTTAAGGTTGAGC
CAAGCAGTGTGCTMTGATTCTGTTTCCTCTCCTGCTTAGCTATTTACTTTTCTGGAGTTAATTTTTGTCACTTAGTCATTGCTCATTTTGTTGTCATTTC
TTGCTATGTACTCATCACTAATTCATCCTCAAACTCTCTGACAGAGTAATAAAAACTCCTCTGAAAGTGGTCAGACATATCGGGCATTCTGGTTTCTCAG
GTGATCCCACCTGGCCTTCTTCCTCCTGCATTTTCTCTAGGCTGCTCTGTATCTGTAGCCTGGGACTACCTTCCACCTCTCTCCTGTCTTTCAGATCCTT
TGTTTCCTGGTCCCATCTTTTCTCTTCTTGGTTCTGGTGGAGAACTCTGGGAAAGAGTACGTGGGAGGTAACTTTTCTGGATGCCTTATCATTCTGAAAA
TGTCTTTACTCTCATACTTGATGGACGATTTGGATGAGTCTAAAATTCTAGGTTGGAAATTTTTTTTTCTCTTGAATTTTGGCAACATTGTTCTATTGAT
TTTCTAGCTTCCAGTGTTACTGTTGAGAAGTTCAGTGTCATTCTGATTCCTGATCCTTTCTATGGTACTTTTTTTTTTTCCTGTCAGGAAGTACTTATGA
TCATCTCTATAGAAGGGGTATTAATCTTGACAGTGTTCCTTTCTGTGTGGTTTAAGAAATCCTTTCTCTCTTGGGTTTTGTTACTGTTTTATAAATCCTT
GATCTTAGTCATTCTAAGGTTAAAGAAAAACTGAGGAACAACTCAGGAATACGTTTCAAGTACATGTGATAAAAGGCAAATATGCAGAGGATGATAACTA
TATGTTTAAAAAATGGGAAAAAAGAGATAGTCGCAAACTTCAACATAGGTTAGATCATCATTTCTCAAACCATATTCCATCACATATTAARCTCCTCAAA
TATTGCACACTGTGCTTTTTTCTCTCTTTTGTGTATTCTCGTGAACATTAGCCTGTTAGTTTAAGAAGTCTCACAGTAAACCTATTTAACCTTGCTTAAC
CTAGCATTGCCTAAATTTACTTGATCACCAGATTTTTTTTGTTTTGTTTTTAATTATTTTTAAAGGAACATTATTAACATATGTATAACACAGTTGGGGA
AATGCCAGATAAGACATAGACTTTCCTGGCTGCTAAAGAGCAATTAAGCATTGGAATGAGTAACCAAGAGGAGCTGTGGACTCTCCTTTTCCAGAGGCCT
TTAAAACAGGACATCTGTTTTAGGCGTAGTCCTGTTTAAACAATAGGGCTTTGCTGGCGGTTCTTCCTCTTCCTGTCCCCTAGTGGTAGTGTTGGAGGCT
TTTAGCCCACCTTTTATATGACTGTAGTACTCTGGTGACTAATGTGTACACAAATTACTGTTATACTATTAATATTAATTATATTTATTGAGAACTTATT
AAGTATCCAGCCCTATGGTAAGTGCTCTACATACATTATCTAATTTAATCCTCACAACAACTCTAGGAGGGAGACAATATTAATATTCTACAGATGGAGA
TTAGATATGAAGAGATACGAACTTCCAGCAATAGGGTTGGATTGGAACCTCGGGCATCTGACATGGAGCTGTGCCCATCCTTCTTCACCGTTAATGTTCA
AAACAGCAAACGGCACAAAGCAAGCAAACAACATTTGTATATCTGTACTTACTATGTAAAAACAAACCAAGATAATGCTTACTTTATTAGACTATTCAAG
ACTATTCCCTACGCCTTTTGATTAATTCAGRGTTCATGACTTTTGTTAGAAACAAATTCTGTTACAGATTTAGTTCTTCGCATTTTATTCTGTGATAATT
TGCCATCCAGGAAATGGTTCCTTACATGAGACTTTTTCCCTCATAAATTTGATGACATTCATATACATTCACTAAAGACCCCCAAAAAATAAATCTGGAT
CTGTGAAAAGTGGCAAAGGTTAAAAGTCCCATTTTCAGCATATTTACATGTAGTAACAACTTGATAACACAGCGCTGAGAATGCCAGGCTCAGAGGAGCC
AAGCTGGGCTCCYGTCCAGTCAGCCTCTAGCTCACCAGGAAACCCTGAGCAGGTCACTTTGCCTCATTTTCTTTATCTGTCAAATGAGAACTCAGATGAT
CTCAAAACAGCCTTKTCTGCTGTAGTGTTTCAGGATGATTCTTGTCTCTGGATGTCGCTGTCATGATGGGAGAGGAATTAGTAAATTCCCAGGTCAGTTT
ACACTGCAGAGTGATCTTGATCTGCATGAATCAGTAAGGATGGGCTGGATAAACAAGTTGGAACCACAGTTATGAGTACCATGACATTAACTGAAACAAA
TGAGAAGGGATKGAAAAATCGGCGGTTAAGTGTCTTTTAAGGTCATTTCCAACAAAACTACAAAGGACCTATGAAAGGCTTTTCAGGCACGTACTCTTGT
TGCCTAGCTGAACACATTTCTCCAATAAAGCTTTCATTTGAGAGTTACTCTTCATAGTACATCCCCTGCCCCCCTGCCTGCCTGGCACATTATAGGTATT
CATGAAGATTTGTTGGAACTGTTAAATAATTGTTTAATATAGAACTGGAAGATCAGGAAGAAATAATGTTTTTCTAACCAGTATCCAGTGTAAAGTCACA
AGTGTGGGCTATGGAGCTTCAGACCATCTGGATTCAATGCCAGTTCTACTGCTTAGTTACTGCGTACTTTTAGGCAAGTTACTTACTTCCAGGTCCATGC
CTCAGTTTTCCCATCTTTAAAGTAAATTATAAATGCACCTACTTCCTCGGGCTGGTTGTGAGGATTAAATGACACAATCCGGGCACAATATTTGGCGTAG
TACTTTGCACAGATTTAGTGTCCTGTTAGTATTAGCTAATGTAAATATGAAGAAGATGTAACATTTTACCAGCTATTCTAATCATAGCTTTTCTTTTCTT
TTCGTAAGGGACAACATAAAACCCCAAAGGTAAAGCATATATTTCTGGTGTTCAATTTTACAATTTAGCATCTTTTCCAACCCACTTCCATACTCCCAAA
TAATAATGCCTATCAGATTAAAGAAGTTACTTTATTTTTGCATGAAATTGGTTGTATTTTTGTTGCACTACTTCATCCTTTGAGTATTGTGAAAAGTCTG
YGCATTGACTATAATAGCATTTAAAGCCAAGTTTGAAGGTCTAAGATAATGGCACACATCCATGTCCTTTGCTCACAAGTTCTGCCTAAAGACTTYAGCC
TGCTTGAAACACTCTAAAGGTTGTGAAATTAATGGATATACCACTGATGCAACACAACTCAGTGTCACCAGCTAGGGAGTTAAGACATGTTCTTGTTACT
GAGAAGGGCTGTTGTTCATGCAAATATTTTGTTCATTTGTTCTTTCATGGGTAATTGCACGGAGTAACAAAAAACACCTCCTCAACTTACAGCTTGGCAG
AAACAGTAGCTTATGTTTTCTAGAGACAAAATTAGAAGCAGGCTTTCTGGACCCATCTCTAAGTCAAAATAAAATAAAATGTCTAGGGAACCACTGTGCC
TCCCAGTAACTATGGTCCATGGAATAATATTGTTTAGGTCAAGGTGTCCCAGAGTAAAAGGGAAGGGAGAAGGGCAGGGGGGAAGGGGAAAAGTGTGTTT
GGGCAATGTTTTCATAGAGATGAAGAGGCAAGCTGTTTTTCTTTCTTACTTTGTCCTTTCAACTTAGAAAAATAAGAAAACCATCTAGGACCACAACCTT
CCTCTTGTAATCAGCAAAAGAGAAAAAACTGAATATACATCGTTAAGGGGAATGGTTATGGCTTAAGTTGTATTTTATTGATAATGTTGAAGATTAACAT
TTTTTGGAGAGAACTTAAGTCTTAACAAAACTAAACTATTGAGAAAGTATTGTTATTTTTCCATCTTTAGTAGCAAAATGAAAATTTACTCTACTCTTCT
GCATAAAATATGATCATCAATTGGCAAGAATTTGGTTAAAAAAAAAAACTGTGCATAGAATATGCACATGGGAAGATAGAATAATAAGATGCTGTCCTTT
TACTCCAGACTGGAAGTCTAATGGTGGAGATAGTTATCCAGATAATTATATCTGAGTTAAAGGAGGAGGTACAAAGTGCTGTGGGAACACAGAGAATGGA
GTGTTTTTAAGTTGGAGGATTCATAGATGGTTTTACAGAGAAAGTAGCATTTGGACTGGGTTTTGAAAGACAAACAGGCTTGTGGCATGAAGAGGTGAGG
AGTAGGAAGAAGATACAGCAGCCTCAGTAACCTGTATGACTAAAAGAGGCAGGGCATGTTTAACCTGGGCAGATAGTATGATATGCCCAGCCACCAGATA
TGCCAAGAATGGGAGCGAGGTCTGGGATAACCAGTGGAAATAAGACTGAAAAAGTAAGTTAGGGCTGAGACATAGAGGGCCTTGAATGCCAAGCTAAAAG
GCCAGTGTTTCTCCTGCTTTTCCACCAGTATGCCCTTACTAGTAGAGGACAGCAAAACCATACCATTCTTGGGTGGAGGAAGGGAGGAATGAATAGGTGG
AGTATGGGGTATGTTTGGGGCAGTGAAACTATTCTGTGTGATCCTCTAATGAATGCATGATATTATGTCTTTGTCAAAACCCATAGAACTTGGCTGGGCA
TGGTGGCTCACACCRGTAATCCCAGCACTTTGGGAGGCAGAGGCAGGTAGATCCATTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATAGTGAAACC
CCTTCTCTACTAAAAATACAAAAATTAGCAGGGCATGGTGGCACACGCCTGTAATCCCAGCTACTCAGGAGGCTGGGGCAGGAGAATCATATGAACCTGG
GAGGTGGAGGTTGCAGTGAGCCAAGATCGTGCCACTGCATTCCAGCCTGGGTGACAGAGCGAGACTCCACCAAAAACAAAAACAAAACAAAACAAAAATG
TAGAACTATGCAACAGAAAGAGCAAACCTTGATGTAAATCATGGACTTTAGGTGGTAATAATGTGTCAATATTGGTTCATCAGTTATAGCAGGTATACTA
CACTGTGCAAGGTGTTAGTAATAGGGGAAAACCATGCTTTGTAGAGAGGGGACAGGAGGCTGGGGAAGGGCTATTTTAAGAGCTCTGTACTTTCTGCTCA
ATTTTTATGTAACCCTAAAACTGCTCTCACAAAAGTAAAGGCTACTATGAAAAGCAAAACAAAACGAAAACAGAAAACAGCATCCTTTTAGCCATGAGAT
GTACTACAAGTACAGAGTTTTCTAGGAATTTCATATAATATTTTTAAAAATTACATGAACTTTTCCTTCTTTCCTTAACACATAGATGGCTATTTTCACA
TTAAAAATTTTCCCAAAATTTCCACAATGTAATACACGACCCCTAGGGATATGACTTTTGTAATAAGAAGCATGACTTTGGCTGGGCACAGTGGCTCACG
CCTATATTCCCGGAAGTTTGGGAGGCTGAGCCAGGAGGACCACTTGAACGCAGGAGTTTGAGACCAGCCTGGGCAACACAGTGAGATGCTGTCTCTTTAA
AAGTGAGGTTGGGGAGGTGGGAGAGAGAGAGAGAGAGAGAGAGAGGAAAGAAAGCAGCATGGCTGTGATTGATAGGAAGTCACTGAAATTGTATGTTAAA
AATGAAACAAAGCAAAATTAAACCAGTAAAATCATGAGCAACCAATTTCTCTCCCACCCCAGATATTTGTGCATCCTTATTTTCATTTCCCAGTATTCAT
ACAAAAGCATATCCACTACCTTTAACTCACTTTGTCAGCCTTTATTCTGTATGCAGAAAACTTTGCAATAGCATAGTGAGAAATAGGTGATAAACCCACC
TTTGTGGATATTACAGTGTAGACAAGGGAAATATACTTTAATATGAAAATAAGTTATACTAAGAAAAGTAGATACAGAAATGAAAATTAAGCCTGCCAAG
GAGACAGACAAAGTAAATGGAATGACCTGGGTTAGACAGGTTTGGACGAATTTTGAAACAAAGGACACAGTTGGATGGGTGCCCTGTCCTTARGAGCACA
GACTTTTTTCTGGATGTCATTGAGACCTAGAATGACCTTTAACTATCACCAGTACACATTCCCCTTTTTGGTGTGCAGTGTTGACACTGAAACACAGATA
ACTTAAGGTTGTTTGGGTACTTATTTATGTAGATAGACATGTGAACCCATACGGTACCTAATTAGTCCTCTTGAAACCACAAACGCGCATTCACAGGACC
AGTCTTGTTTATATTTTCAAGGCTTTTTTTTTTTTTCTTTTGAGTTGGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCAC
CGCAACCTCTCTCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCTTCCCGAGTAGCTGGGATCACAGGCATGCACCACCATGACCAGCTAATTTTGTATT
TTTAGCAGAGATGGGGTTTCTCCATGTTGATCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCTCTTTGGCCTCCCAAAGTGCTGGAATTACA
GGTGTGAGCCACCGCACCCGGCCTCAGGGCATTTTTTCTTATGAAGATGACAGCCGAAATCTTCAATCTTCAACTCATGCAAAAGTTTGCCTTTGGAGTG
AATTTCTTGGCAATCTGCTTGGTAAGAAAAAGCAAGTGGTGTTAAAGTGAGAGCATTAAAATAAAATTGCTCCAAAAAAATGATAAATAAATAAAAGAAA
AGAAAAAGGAAAAGCAAGAGGCCCATGCACAGATACACAGAGGAGAGTGGCCCCTCCTCCATAAGCCTGTTTCATCAATGAGAGAATCAAGAGAGTATGT
ATATACAGAAGAGAGTTTCAGGGTCAGTCTTGAGTTTGCATCTTCTACTTCCTAGCTAGAGGACCTTGAACAATTCACTTTACTTCTTTGGTCCTAGCTT
GCTTATCTATAAAGTGGGAATAATATTTCAGATTATGCAGAAGAAAAGGTAGGATGTACCGGGCACATGGGAAGTGCTTGATCAATACCAATTTGCTTCC
CTCCTTCCCTGCCCCTTCTGCTGAAACTTCACAGCTATCTCATTAAGTCATCAATGTATTTAGTATTTAATAAATAAATATTTAACGAGCACCTACTATG
AGACAAGCCCTTTGTTAGCCAGTGGGGATATGACTGCAAACAAGAAAGATACGCCTATGATTTGATGAATCCTGGAGTTTATGAGCAGCTCATCTCTGTC
TCCCGTGTGAGCAGTCCTAAATTTACACAGCTCTCCACTGGTGTTTTTGACCACAGAGTTAACATTTAAAATACCTATGACTGCTTTTTTGGCACCACTT
TGAATAATGAACTGGTGTCAGGTAAACAGAGTCCAGGTACCTATTGCAGAAAGTTTTCCAGTCTGCACCCTCGGTGGCTCACAAGTTYACATGAAGTGAA
CCAAAAGAGTTTTGTTGCACTTACTGTGACAATAAATCATGTTTAGAAAAATGCATGTGGCATACATGATATTGGGCAAATGATTCATGAAACTTGCTAT
TCTGTGGCCTTAGAATCCATGTAAGCATTTTTCCTTTGTCTTTTATGTGTTTTCTTGTTTCTATCTCTGTTTTGTTTTGTTTTTGTTTTGGGGATGGTTT
AAAATTAATGCTGGGCTAGAGTCTGATTTTGACACTCTCGGGTGTGATCAAATGTTTCCACATATCTCTCTAACCTTTCTATTCTCAATGTGGGGAAAAC
TTTCTCCGCTTTAAGAAAAGGTGTATCCACAGAAAAGATTATTGAGTAATTTTTCATAGTACAGAAGTAATAATTGAGTGATTTTTCCCTTTAAAATTTT
TTTATTTTTGTATTATTTTAAGAACAAAATTATTTTAGGATGCAATTAAAGAAGAAGTTCATTTACCTAAATTTAATTTGCCAACTTTTCTATTACACAA
AAGCATTATAAATACAAGTAGAATAGCAAAAATTTCATCCTAAAGAGAAAAATATTTTGGGCTTCTAATTTCAAGAGAGTAAAATTGTCCTGGAACCCTG
TGCACACTTTAAAAACAATCATTAACAGATTGCATCAAACTAGAAACTTCTTCACCACAAAGGAAATAATCAATAAAGTGAAAAGCCAGCCTACAGAATA
GGGGAATCTGTACATCTGATATGAAGTTATGGATTGCAAATCGTACATCTGATATGGAATTAATATTCCAAAATATGTAAGAAACTCAACAAACTCAATT
GCAAGAAAACAAATAACCCAGTTAAAAAATGATAAAGGAATATCCATTTCYAGAAAGAAGACATACAAGTGGCCAACAGATATATGAAAAGGTACTCACC
ATCACTAATCATCAGGGAAATGCAAATCAAAACCACGGTGAGATATCATCTCACACCCATTAGAATGGCTGTTATCAAAAACACAGAAGATAAGAAGTGT
TGGCAAGGATGTGGATAAGAGGGAACCCTTGTACACTGTTGGCAGGAATGTAAATTGGTATAGTCATTATGGAAAACAGAATGGACTGCCTCAAAAAATT
AAAAATAGAACTAGCATATGATCTAGCAATCCTACTTCTGGGTATATATCCAAGGGAAATGGAATCAGTATGTTGAAGAGCTATCTGCTCTCCCATGTTC
ACTGCAGCATTATTCGCAATAGCCAAGATATGAAATCAACCTAAGTGTCAATGGATGAATGGATTTTTGAAAACACAGTATATATCTGTATATATATACA
CACATACATATATACACATACAGATGTATATGTACACACCCAATAGAATATTATTCAGCCTTAAAAAGAGAAGGAAATCCTGTCATTTGCGACAACAGAG
ATGAACCTAGAGGACGTTATGCTAAGAGAATTAAACTGGGTGGTATTTGACACAGAAAGACAAATACCACATGATCCACGTGGAATCTAAAAAAGTCGAA
CTCATAAAAGCAGTGAGTAAAATGGTGGTTGCCAGGAGCTGGAGGGTGAGAGCAATGGGGAGATATCAGCCAGAGTTTCAGTTATGCAGGATAAGCTCTG
GTCACCTTCTAAGGTGATCATCTGCTAAGTATAGGTCACCTTCAGCATGGTGACTATAGTTAGTGATACTGTATGGTATATTTGAAATTTGCTAAGACAG
TAGATGTTAAGTGTTCTCACTACACATATTCATACTCAAAAAGGTAACTGTGAAGTGATGAATATGTTCATTACCTTGATTATGATAATCATTTCATAGT
AAATACGTATATTAAAACATCACATTGAATACCTTAAGTGTTTTGTTTGTTTTTTGGTTTTTTGGGTTTTTTTGTTTTGTTTTGGTTTAGGTTTTTTTTG
AGGTGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGTGATCTCGCCTTACTGCTACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGTCTCAG
TCTCCCAAGTAGCTGGGATTACAGGCGTGCTACCACACCCGGCCAATTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATGTTGGCCAGGCTGGTCTCG
AACTCCTGACCTCAGGTGATCCTCCTGCCTCCGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTGCCTGGCCTGTATACCTTAAGTTTAAAAA
TTTTTGTCTATTATACTCAATAAAGCTGGACAAAATTTTAAATAAATAACAGCAGTCATTAACAGACTCAATTGATGACCTAATGTAGAAGTTAATGAGA
GCAGGCCTGTTGGCAAAAAGGCATTTATATGGATACACTGTATGTATCTGCACTGTTTCAGGATCCTCTATTATGATACCTGGGTAAAGGGTGACTTCCT
TTCTATCATAAAACAGCCTAGACAGCACTAAGAAGGTGGTTATGTTCTTTTCTGTTGTTGTGAGYGCCCAGATGAGATTACTTTGCCAAAGACTCTTTTC
ATTTCTCTTTCTGAAACTCTGTGAGATTGCTGTGTTCTCTAGGACTTAACTTCACAGCTAGTCTATTTTTCCTTTCAGAAATGACCATGGTTGACACAGA
GATGCCATTCTGGSCCACCAACTTTGGGATCAGCTCCGTGGATCTCTCCGTAATGGAAGACCACTCCCACTCCTTTGATATCAAGCCCTTCACTACTGTT
GACTTCTCCAGCATTTCTACTCCACATTACGAAGACATTCCATTCACAAGAACAGATCCAGTGGTTGCAGATTACAAGTATGACCTGAAACTTCAAGAGT
ACCAAAGTATGATGTTTATTTTCACTTTTCAGACTACTAGGACTAGAATTGGACTCATCTCTCAGTAACCCTGTAATAAATAATGCTCCAGAGACTAGAA
ATCTAATAGAGAAGGCATTCACCATTCATTTATTCACCCATTTATCCATGAAATATTAGGTATCTATGAAATGCCAGGAAGGGAGCTGGCACGAGGTCAA
TCTTGCCTTCCCCGCCCCCTCCTTCCTTCCTCTCTTCTTTCCTTTCTTGCTTACTTCCTTCTTAGGGACATTTTCTACCTTGATTACACTGTCAGTTGTA
TCTCAGGCTAAGAGTCCATCATCCAAACTTTGAATTATTTTGGCCCCTTATAAGTTAATAAGTAACAATTCCAAGTCACTTTGTATTATATAACTTATCT
TCACTATATTACTGCTACTACAGTACATTTTTTCTAGTATGTCCTTTCAGGAGTTTATACTGAAACCTACTTTTAAGCACAAATTTGTTTTAACATTGTA
GCCTATTGATAAATTTTCATGCCATTAACTAAATCAACATCAAAACATCAGACTCAAGAAAAACTAGAACTGCACTTTTTGAGATAAAATGTATTTCTGT
GATGCTATTTCCTTGATTTTTATCATGTGTGGGCTGACATGCTGGTTTTCCAAAGCCACCACTATGTAATTGGCAATCATTACTTGACAAGTAAGAACTT
CCTGTATTTCTAGTGGCTTTTAAAGATAAATAATATGCTTAGTTATATTTATCTATGCGGTTTTCAGTTAGAGCCTAATATGGAAATTTAGTAGCCCTGA
GCCCAACTAGTAAAAGGTAGGGCTTACTTCCATAAGTTCCGCCACGCTCTGTCAAAGATTATTTCACAAACCACCTCCTTTGACTGAACACTAATGGTAA
CCTGGGCTCATATTTTTCATGCACCTCAAGCTAGGCATACCATGACCTTTTCACAGTGGTGTTCCTTCTGTGGTTCTTTTGCAAGTTGTTTCAAAGTACT
TATAAAATGGAATATTTAAATAAAATGTATAATTTAATATTGTGATGAATACCAAAGACAGAACATTTCCTAGCAAAATAAGCTTCCTTGTCTCAAATCC
TCTATGTTGTCTGTTACAGCTGTAGTATTGCAGGCTACTGGGGGTCATAGAACCACAGACTTAATTCTCATTCCCATTTTATATTTACAGGTGAGGCTTA
GAGATGTTATAACTTGCCTGTGATTACAAACCTTTCTTTTTCTTGCCTTAACTCCAGTGTTTTTTCATGTTCCACTGTGCTTTTACACTGAAACAATACA
AATACAGCATGAAGGTGTACTATGGTGGCTTGCCCTGTTGCCTTTTTAGGACTGTTTTCATGGGATAATTATCCTCTCACATGTCTCCATACACAGGTGC
AATCAAAGTGGAGCCTGCATCTCMACCTTATTATTCTGAGAAGACTCAGCTCTACAATAAGCCTCATGAAGAGCCTTCCAACTCCCTCATGGCAATTGAA
TGTCGTGTCTGTGGAGATAAAGCTTCTGGATTTCACTATGGAGTTCATGCTTGTGAAGGATGCAAGGTAATTAAAAAAAAAGTCTTCAAAGAAATTGTTG
AAACTTTATTATTTCATTTCAGCAGAACCCCTTTTTTAGGTGATACAATATATGAATTTTTTTTCTTCATGGAAGAGTATCTTGCTCTGTCACCCAGACC
AGAGTGCAGTGGTGCTATCCTAGCACACTGCAGCCTTGAGCTTCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCCAAAGGATGATATAAGATTTGAAA
GCCTAAGAAAGTGGATAAAAGTTGGGCTGCTTTGCCCCACATTTGTTTCTCCAAATTGATTCTTTGAGACACTGATCTAATTTAATCCTTGCATCTTGCA
GATTTTTACAAAAAGGTGACTTCTCCAAGGTGTCATGGCAAGACAGTGATGACCTGGAACCAGGATGCAGATTTCCTGCATTCTCTAGTTGTTTATTTAT
TTATTTATTTATTTATTTTGCTATACCGTGTAATATTGTATAGACAGAAGATTTTACAGATTATTTATATATGCATATCTTTGGATCCCTAGAGCAATCC
TATAAGATTGGACTTCTTTATGGCCACATTGCAGATGTAGAAATTACAGGTTAGTAAAACTTGCCAAGGTCATCCCTTAGTAAGTGGCAGACCGCAGTCT
AGACCCTGACTCCTTAGGTGGTGTTGGCTCTCAAAGCAGTGCCTCATGTTTCCTTATTCCAGCATCAATGTGAGCCACATACACGGACAGGTAAGGAGGT
ATAACAGTGTGGGAAAGGAGATACTATTTATCCTCATCTCTTTCCTTTGTGAAAAGGGTATTTTGGAAAATTCAGACGTTTAGTAATTTATTGCTTAATT
ATTAAGAAAATATGTGAATCCACTCATATTTTGATATGCAGTCTTTTAAGATAATTTTAATATACACAATGCAAAAATAGTACTAATTTATTATATACGC
ATTGCACAGAATAAACTGTTCATAAATATTCACTTTATAAAATAAATACCTGCTTATTGGGCTTTTTATTCAACGTAAAGATACAGAACAACAGTTAGGA
AAGTTTTAGGACATCTTGGTTCCTAAATGGATGGTGGGCCAAAAAAGGAAACTGATTTTTATTGAATTCTTACTACATGCCAAATACTGTATGAGGTAAC
GTTTTCATACATCAGTATTTAACCACATCCTACCCAGGTTTTCTCATCTATAAAATGATTGTGGCTGAGTGTGGTGGCTCACGCCTCTAATCCCAACACT
TTGGGAGGCCAAGGCAGGAGGATCACTTGAGCCCAGGGGTTCAAGACCAGTCTGGGCAGCATAGTGAGACCCCATCCCTACAAAATTTTTAAAAAATTAA
CCAGGCATGGTGGCACATGCCTGTAGTCCTAGCTTCTTGGGAGGTTTAGGTAAGAGGATCCCTTGATCCCAGAAGTTCAAGGCTGCAGTGAGCTATGATC
ATACCACTGCACTCCAGCCTGGGTCACAAAAGCAAGACCCTAACTCCAAAAATAAATAAATAAATAAGTAAATAAATAAAATGACACTGAATTACATGAT
CTCTAAAGTCCCTTCAATTGAAACAGTTTTTACTCTAAAGGCAACCTAATACAGTGAAAAGGGACAAACCAGAGGTCAGCTCTGCCACTTTCCAAAGTCA
TTAGCCAGTCACATACACATTGTATCCTTCATCAGGCCCCCCATATGTAAAATGACTTGGTTAGATTGGCTACACAAGGTCTTATTCATCTCTAAGTTCT
GTAATTTCAAAATGACACTTTGAAACACTCTGGCAAGAGATGCTTTCATTTAAAACACTAAAACCCGTYCGTTCTGTAATTTAAACCAAGTTAAAATATT
TATGACCTTATATGAAATCATTGTATTAAGTCAGTTATCTAAGATCTTGATGAGTAGTAAGAACATGTCATTTTATTGACTTAGATTTTTTATTGAATGT
TTTGTGGTTTTATTGAGTTTTATTTTAGATTTAATGAGTTAGAGTTTATTTTTACTGAGTTGGATACCATTTTTGAGTGAGTAAACTGTTGCTAAATTCT
GAGCCATATTTATCTGAAGAAACCATTCTGTTTTGGTCATGTTGATAATTTACAACTATAAATAAATAAAAACAGCATGGTTGGTTTAAGGTTCCACAAT
AAGTTATTGTTTTTTATGGGCTAGTAAAGCACTTAGAAAACTAAAACTTTTAAGCAAATAGTTCCACCATAATCCTATTAGTCACAAATTTGTGGAAAGC
TAACATTACTGAAAACAGCTGAAAATGGAAAGACAAGAACATTGTCAGTAGTTGGTTATAGTGATAAATCTGAGTTCTGAGGGCACTAAAACTTAAAAGC
AAGCAGGGAAGAAGAGTAGCAAAAAGAGAAGAGAGAGGAGGAAATCCAAGTGCCTTCAACTTAGGATTAGAAAGGGTAGAAAGCAGGGAGGGAGAAAAAA
TACTTAATAAAACCTGAAGACTCTAGGGGAGTCCTTAACCTATCATAGATTAAAAAGCAAACATAGAAGAAAACTAAGCGTATTGTATACTAACCTGCAG
TAATTTGCAAACCATCCAAAATGTGGATTCCAGAATTCCTAGACTAAAATGTAAGGAAGGTTTTACTCCCTTGGAAAGGGAAAATAGACATCTACACGTT
TTAAAGGTAAGAATAAGAAAAATATTATTCTTGGAAAATTTAAACATTTAGTAATATACTACTTAATATAAAGAAAATATGTGAATCCACTTATATTTTG
ATATGCAGTCTTTCAAAATAATTTTAATATACTCAATGAATAAAATAGCATTTATTGTATACTGATTGCACAGAATAAATTTTTCATAAATATTTACCTT
ATAAAATAAACCCTGCTTCGGCTGGGGTTTTTATTCGGCGTAAAGATATAGAACAGCAGTTAGGAAAGAATTAGGACATCTTGATTCCTAAATGGATGAT
GGGTCGAAAAAGGAAACTTTTTTTGAATTCTTATTCTGATTTTTATTGAATTCTTAGTATGTACCAGATACTATGTGAGGTACATTTGCATATATCATTA
TTTAACCACATCCTACTCAGGTTTTCTCATCTAGAAAATGATTCAGATGATATTGGTAGGATGTGGTTACATAATGAAACATTATCATTTGGCTTCTTCA
AGTATACATCAGCAGTTCCCAAAGTGTGGTCTGGGGCTTGGACCCTTTCAAGGCATCCATGAAGTTGAAACTATATTCATAATAATGATTTTTATTACTT
TTTTCACTTTCATTCTCTCAGGAGTGTATGTGGAGTGTTCTGGAAGCTACATGATGTAGGATGATGACATAGCTCTGGTAGCTAATGGAATGTTTGCTTA
TGTGTTCTTGTATATAATAATTTCTCAGTTGTAATTTCTAGTGTGATAAATGTCAGTAAAGATAGCCCACATAAACAAAATCTCTTTGGGGTCTTCTATA
ATTTTAAAAAGAGTAAAGGGATCTTGCAACCATAAAGCCTTCAGTCTCATTCTGAAGAAATGCAGTTACTCATTCTTTGCTACTTTGAAACTAGACAAAA
TTGCTGCCACATTCTGAATACTGCTGCATTAGACCAGTGGCTGTCAGTAAAGACATCTCCTTAGCTTATAACCAATACGCAATAAAAAGCCAGGAAAATG
GAATTAGCAAATGTGTTTAACTCATCTGCATGTATTTTCTGAGAGGTGTTTTGGAAGCTTCACATTTGCTGTTGTAGTAAAATGTGGGTTATATTCATAA
TTAAAATACAGTTGACCACAAAGCTGCAGGCTTATCTATGGATTGAAAAGAATAAACACAGCATAAAACAACTTTTGGTAGATCTTCCTAAACAATTTTA
CAATGTAAATGGAACAGGTTTATATTAGTGATTCTTGCCAAAAATTCAGTCAGACAGATGAGAATGAGTAGATTGGGTTTGAATTAAGGTGAAATAGTTA
CAGATTCTTGGGTATGTTAATATTGCAAACTTATGTAAAATAAAACCTTTAGCAACTGAAAGATATATATAATTTAGAGCTTGGAAAGCTATCATTTATT
TGTTGTTTACATGTTGGAGATATATTTTTTTCTTTGGTAAGTTCCATCCTATTTTTTATCTTTAGTGAAAGATCATTTTGGAACCATAGCCGTACCTAAA
GATATAAGTAAATACAGTCTACCATACAATACAATGTAATCTAAGTTTGTATTTCTGTATACAAAAGAATGCCGTATGCTTGTTAGCCACTTGTATGTCT
ATTCATCCCTACTTCAGAAAGAGTTTTAATTCTTCTCACCTGCCAGTCGTAGCTTATTAATCCAACTTCCAGGGGCCAGACTGCTTCATGGGAAAGCCAA
CTGCAAGCCCAGCACAGGGCTGTTAATTTCATTGTAAAATCAACAACACCATTCTGAGGTCTCATTGTCCCTGATGTTTTGTTAAAATTAAAGCAATTAA
GGAGAGATCAAAGAAAATTTTTCAAATGATATGAAAAATTTGTCTGTTACTTTCTAGCAGACAAATGTGCAGACATTAGAATAAATATATACACAAAACA
ATTTTCTCAGATGGTGACTGATGCATCTCTAACACACCACATCACAGACTTCCTGATCATCAGAAGAGTAAGTTGTTGAAAATACATTGTTCTATGGACT
CTAAAATAATAAAAAAGTGTTATTAGAGTGTTTCTTCATCAGTAATATGAAGAAAATTTGGAGAAGCCAGCCTTGTTCTGTAAATCGATAAATAATTTTA
CAGAAAAGCACTCGATAATATCCTTACATCTTCCTCTCTAGATTCCTTGAGTCACATAACAAGAAAACACTTGGTTATCGGTGTAAAAAAAGTAAAAGCA
AGTTCCAAGATGCATGCTAGGATCTGTGTATTCAGTTCAAGATTTTATTTACATATACAGTGTATAATGTTCAGAATGATTATTCATTGAAAGACCTTGG
ATCATCACAAAAAATGTGATACACTTTTGAAAGTCATCAGCTGAGTCATGTCAGAAATTTCCATTATAAGAGTTAAACTTAATTCTCTTTTTTTTTTTTT
GAACATGTGTCAAAGATTTATTTAAAACCCATTAACGAGGGAAAAGCAGGATGGTAAATCTAGTTCAAAGAAGAACTTGAAGGACCAAGAATATATAGTC
ACTGAAAGAAAGAATCCTGAGATAAGATTCAGAATGGTTAATGTTCTACAGGGCAATAAAACCATAACCTTGAGGTTATCTTTTCTTTTTTTTATTATTC
TTATACTTTAAGTTCTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATAGTTACACATGTGTCATGTTGATTTGCTGAACCCATCAACTTGTCATTT
ACATTAGGTATTTCTCCTAATGCTATCCCTCCCCCAACCCTCCACCCCCTGATAGGCCCCACTGTGTGATGTTCCCCGCCCTGTGTCCATGCATTCTCAT
TGTTCCACTCCCACCTGTGAGTGAGAACGTGCAGTGTTTGGTTTTCTGTCCTTGTGATAGTTTGCTTAGGATGATGGTTTCCAGCTCCATCCATGCCCCT
GCAAAGGATATGGACTCATCCTTTTTTATGGCTGCATAGTATTCTATGATGTATATGTGCCACATTTTCTTAATCCAGTCAATCATTGATGGACATTTGG
GTCAGTTCCAAGTCTCTGCTGTTGTGAATAGTGCCATAATAAACATATGTGTGCATGTGTCTTTATAGTAGCATGACTTATAATCCTTTGGATATATACC
CAGTAATGGGATTGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCTTGAGGAATTGCCACACTGTCTTCCACAATGGTTGAACTAATTTACACTTCCAC
CAACAGTGTAAAAGCATTCCTATTTCTCCACATCCTCTCCAGCGTCTGTTTTTTTCCTGACTTTTTAATGATCATCATTCTAAGTGGCGTGAGATGGTAT
CTCATTATGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTTTTCATATGTCTGTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTC
TGTTCATATCCCTTACCCACTTTTTGATGGGGTTGTTTTTTTCTTGTAAATTTGTTTAAGTTCTTTGTAGATTCTGGATATTAGCCCTTTGTCAGATGGG
TAGATTGCAAAAATTTTCTCCCATTCTGTAGGYTGCCTGTTCACTCTGATGATAGTTTCTTTTGCTGTGCAGAAACTCTTTAGTTTAATTAGATCCCATT
TGTCAATTTTGGCTTTTGTTGCTATTGCTTTTGGTGTTTTAGACATGAAGTCTTTGCCCATGCCTATATCCTGAATGGTATTGCCTAGGTTTTCTTCTAG
GGTTTTTGTGGTGTTAGGTCTTACATTTAAGTCTTTAATCCATCTTGAGTTAATTTTTGTATATGGTGTAAGGAAGGGATCAATAATTCTCTTATCAAAA
AAACCTTCCTCTCCTAGCCATGCCAAATAACTGAGCRCTCTGTGAGCCATCCAGCTGTCAGCTAGCCAAGTAGCATTTTCACCCACTAATATTAGTCTTT
AAAAAGCAAGAATCAAAAGAGAAGTCAAGGAATATCATAAAATATCTATGATCACAATGGCAAACATCAGGATTTTCACCAACATTTATCAATGAGAACA
GTTCTATACATTAGCATTCTGTTCATCTGTGAAAAAAAAACTTTTTGATATCTGAAGGTCCTCAGAACCCTTTGAGAATTAAAGAGACTTCAACTGCCAG
CAAATTCTACATCGGGCATATTCTTTAAGACATTGCTGATCTCACAAGAGGTAGTGAAAACTCTCCAAAACAACATCAATGAAACAAAATGAAACAAACA
TACCCTCAGTTCCAAGCTGTGAGCTGCAGGCACACTTAGCAGGTCAGGGTTTTCCCCATGATAGATGCCCAGAGAGGTACAGTGGTGAGCATTGCCCCAA
AGGCAGATGGCTGTAGCAGTTTTCTGAGCAATAAGTGAGAAGGAGCTAAGTGTAGGGCTTCTGAATTAAGCCAGGATTCTCAATAGTGTCTGAAATAGTC
ATAAGTCAGTAACACCCCTGGCTACTGAATTCCTAATTCAGACYTTGTAGGAGTCCCCCAGTTTAAGGTCAAGAAACTAGTTCCAAATAATATCAGCAAG
CATGTGAGAAGCTAACCATCTTGAATGACATTCATCATCAACAAGAAAACTGATACAGACTCCCTGCTCTTCCCCTACCTGGGGAAAGCAGAAATTGGGA
TTGCCTGATACAGAATATAAAAAAGCTATTATGAATTATTTAAAGGAAGAGGGCATAGGCTTGCAACAATAAACTATTAGGAATAACCAGGATGATTTGA
AAACCAAGTGAAAAAAAGGTGAAGCTTCTAAAAGTTAAAAGTATAATTATTGAAATAAAAATTCAGTGGAAGGGTTAGATAGCTTACTGGACACAGCAGA
AGAAAAACCTGAAACTGAAAGAGATATGCAAAGAAATTACCAGAATGAAAGCAACAGTGTCTTAAAGAATATGCCCTATCCAGGATCTGCTGGAATTTGA
AGGCTTTTAGTTCTTGAAGGATTCATAGGATCTTTGAATATTAAAGAGGTATGTCTTCTTCACTGATCAATGGAAGAGTAAAGTGCAGAACTGTTCTCAC
TAATGAACTTTAGTGAGAAATGTTTGTTTTTACTTTTGCCAGTGTAATTATATATTTTCATGTTATTTTGCTTCTGTTCTGATTTTTACTTTGGCAATCA
ATATTAGTGAGTAAGTAGTGAGAAGAAGATGGAAAATAAAAAAGAGGCATTCAGAAATGTGAAGGCTAGAATAAGAAAGTCTAGTACTTATCTAACTGGA
GTCCAGTACTGATGAACATGTGAAGCCGTAATGCATAAACAACATATCCAAGAAGGTAAATGAAAAGAAATTCATGCCCAAACACACTGCGGTTAAACTG
CCGAATACTAAAGACAAATAGAGAGTATAAAAGCAACCAAAGAGAAAAGGTAGATCACCTTAGAAGTAAATTGACAAGAGACTTCTCAACAGCAAAATGG
AAGCAGAAGGATAATGGAATTCAAAGTGTTAAGAGAAAATGACTGAGTACTTGGTAATCTCTCAAGAATGAGAGTGAGCCAGGCGTAGTGGCACATGTGT
GTAATCTCAGGCCTTTGGGAGGCCAAGGTGGGTGGATCACTTGAGGCTGGGAGTTCAAGACCAGCCTGGCCAACTTGGTGAAAACCCATCTCTACCAAAA
ATACAACAAAAAAAAAGAGCCAGGTATGGTGGTGCATGCCTATAATCCCAGCTACCCAGAAGGCTGAGGCCCAAGAATCGCTTGAACCTGAGAGGTGAAG
GTTGCAGTGAGCCGAGATAGCACCACTGCACTCCAGCCTGAGCAAGAGAGCGAGACTCTGTCTCAAAACAAAAAACAAACAAAACAAAAAGAGTGAAATG
AAATATCTATTGGTTGAATAAACAAAAATACTGAAAAAGTACATTTCAAGGATAGTAAGCCAGAGAAGATATTTGAACATCTGTAACAGACAACAGATTA
ATATCTAGCATATTTTTTAAAAAAGTCTAAAATTCARTTTTAAGGAAAAGACAGTTAGAAACTGGGAAGTGAAAAGCCAGGGACATACAAATCAAGATTT
AAATTCAATTTTATACATTTCAGATTGTCAAAATTAAGAAGTCTGACAGCACCAAATGTGGAAGAGACTACAATTTTCATAAAGCGCTTGTGGGGAGTGT
ACATTGGTAGCCACTTTGGAAAACAATTTGGCATTATCTTGTAAAATTTTAATACTCACACATTGTACAACCCAGAAATGCCACTTAAACATATTTACAG
GAATATTTAGAGAAACTCTTCTCATAATAGCAAAAAATTGATATTTCAAACGTCCATCTGCATACAAATAGGTTAATAAATTATAGTATAGTCATACAAT
GGAATACTATATAATTATGAAAATGAGTAAATCATAGTCTTTCACTAACAAGAACTTAAATGTTAGAAACCTCATACCAAATTTTAATAGTGTCCCAGAA
AACTACATATAGTATAATACCATTTAATAAAGCCTCMAAACAAGCAAAATTAAATAGTATATTATTTTGTTTTACATAGTATGTGATAAAGCTGTATTTT
CTTCCTTTTTTTTTTTTTTTTTTTTTTTTGAGACAATGTCTCACTCTGTCACCCAGACTGGAGTGCAGTGGTGCAATCATAACTTGGCTTACTGCAGTTA
GACCTCCTGGGCTCATGTGATCCTTCCATCTCAGCCGCCAGAGTAGTAGCTGTGACTACAGGCGCATGCCACCACACCTGCCTAAATTTTTTGTATTTTT
TTATAGAGACAAGGTTTCACCTTGTTGCCCAGGCTAGTCTCGAACTCCTGGACTCAAGCGATCAATCCGCCTCAGTCTGTCAAAGTGTTGGGATTACAGG
TGTGAGCCACCACACCCAGCCTATATTTTCTTAAAGATCAAGGAAATGACAAACCCAAAATTGAGAATAATGATTACTTTGTCAAACCTATCGCCTTTGT
AACATCTCAGTCACAATTGGGAATCACAAACTACCAGAGATGGAAGTGCTTTCTCATTTTATAGTTGAAAAAGGTGAGGCCCAGAAAGGAAGTTACGTGA
CATCTGTATTAATTCCACAAATTTTAATTTAGCACTATCATAGGCATTTGGATTCCATCCAGGGGTATAAGAGACTATTCCTGCCGCTGAGGAACTTATA
ATTTTAATTGAGCAGTGAGGGAGGGGCAGAAAATAAACACTAAAACAATAATAAGTAAATTCTGTGGTGTGTTAGAAAGTCATAAGTGCTATTGGAAAGG
AGAAAAACTGGAGCAGAGTAAAGAAGATCAAGAGTTCCAGAAGAGAGGTGGGGCAGGGACAGGCCACAGTATTAAATAGGTTGGCTTAGCCCCATTGAGA
AGGTGAGATGCAAAACTTGAAGGCGATGAAGGAAATAGGCAAGTGTGTATTTAGAGAAAGCTTTCTTCTTGAGGAAAGAAAGAAGTCAAGAGTGATTTCA
AGGATTTTGGCTTGAGAAACTGGAAGGATGGCGTTGCGTCTGCTGAGATGGAGAAAGCCGCAAGTGAAGTGAGTTTGTAGGGGAGGGTCAGGACTTCAAT
TTGGACAGGCTGGCTTAGAGATGGCTATTAATTATTTAAATGAAGCTGTCAAGTAATCAGAACATACTCATCCAGAGTTCTAAATGGACGTTTGGAGAAA
GTCAAAATGCATGTCAATGACCAAAGCAATACTAATGCAGTGCTTTTTGCACCAAACAGGGCCAGATACMTTTGAAAGAATTAGCAATTAAGTTTTATGA
AGATGAACACAATAGAAATGAATAGGAATATGATGAACCCAAAAAATGGAGTCAGAAAACACGTCCAGTTCGATTTTTTTCAGCTCTTTCCAAAGATGTA
AATATAGCAGAATATTCAGTTGGCCTCAAATTGACATATTTGCCATTTTGAGATAGCAGTCGATTTTGTGAGGATTTATCTGATTACTTCTCATGTTATT
CCCATAGTCTCTTTCTGTCTGTAAGCCACAACAATGATGGGGCACACTTTAAACAACATAAATAAGTGAAACAAATTCTGCAGGAAATTATGCAACATAG
AGAATTCCAAAAAAATTATCCACATGTGGATTTTTATTGGCCCTGATCATGTTTTAGAATGAAATGATTATAACTTTGCCAGGCTGCTTAGCACAATTAC
AAAGGCTGGGGCATGCTGTTGGAATGATTTGCAGAGAGACTTAACTGATTACACGGTGTTTTATTTGCATTACATTAAATCCAGAGCACTTCTTAGAGCA
TGCCGAAAACCAAATGTAGAGCCAAGATCCAATGAAAGCCGCAGCTGGATGTGGTCAGTGTCTAAGAGCTAAAAAAGGGACCTGGAGATCCTCTGGTTCT
TTATTTTATAGCAGAGAACATTTAGTTCCAGAGAGGTTAAGTGACTTGTCTAAAGTCACCAGTGACAGAATCGTGTCAAGAACCTGCCTTTTCTGATTCC
CAGGCCAGTATACCTTTCGCTGTAGGTTGCTGCTTCCATGTGTCATAAAGACTTAAAATTTGMTTCTTTTTTATCCCTTTGCAGGGTTTCTTCCGGAGAA
CAATCAGATTGAAGCTTATCTATGACAGATGTGATCTTAACTGTCGGATCCACAAAAAAAGTAGAAATAAATGTCAGTACTGTCGGTTTCAGAAATGCCT
TGCAGTGGGGATGTCTCATAATGGTAAGTAAACAGTCATCACCWTATACTTTATTATTCTCATTATAGCTGCCAGACCAGTGGACACTAAAGCCATTGCC
AAAAATGTGTACAGTTTTTCCACCAAATGCCAGAATTTAGAATATTGCATGGCGATAAAACATTTCTCTTTTAGGTCAGTGTTTTTAAAGTTTTATTATA
GAACCTTTCTCTCTGTGGTTGGGCATCTGCCATGAGGAGAAAAGAGACTTGAAAAATCTGGGGGATTATGGGAAAAACTTTAGTGTTAGAACAAATATAA
TGATCATCATGATTAATTTTTATATTGCCTCATGCATTAAAAACAGAATTAAAATTTACTTTTGTGTATCAGTAGTGTCRTTCTGCTTTAAATGTAAGAA
AATCCTGAAGATGTCTGGGTCTGAAACTTTAAATGGCATATGAGAATTTAGATTCATTTAATTTTTTTTTTTTTTTTTTTTTTGCTGTTTATTAYGCAAA
GACGAGTATTSGTTTCCTTCACTTCAAGGAACGTCCATGAGTTGTGGAAAGGGTAAAACAAATTATTTTTATAGTTCTGCAAAACTTCAAAGCCATAGAA
ACATAAGAGAATAAAACTTTCTACTTTTGAAACCTGTGTCTAAAGTCAAGCTTATGACTTTGGGTGTCAAYTTAAGGGAAATGATGTAGAAGACCTGAGA
AAAGACCCATGTTTTCATGATCTGTGGAACTAACTCAGTAAGGTCCTGGAAGACAAACGTGTTTGAAAAAATAATTCTTGGTCACTATTTGGTTCTGATT
GGTTGCCTGGCTGACAAAATAAATTTTAGGTGTAACTTGATAGTATTATATGTGTCTAGTATTAATCAGTTATTTTCAATGCACTCAAGGAATAAAAAAT
GCCAACATGATCAAATTAAATTTGAAGTTTCATTTCATCAGCTATCCTATTTTTTCTTTCTTTTGTTTTCATCTCTCTCAAAACTGATCTAGTAAGAAGG
CAGTCTTCATCTATATGTACTCTAAAGCATCTGAGAAAATTAAATTTTTGCTCTATCATGCAGATACTTGGTTTTCACAGTGGAAACCATCAAGATATTT
GAGAGTCACTCATTGATTAATAACCTACCCTTTAAAAATAGTTCACAAAATTCTATCTGTATGATTACTAATGGGTCAGTTCCTCTAAAGGCAAGAATGT
ATTTTGAATAGAGCTATCAGCAGTACTGAACAGGATGGAAATTTGGTCCAACTTTCCTCAACAATTGACTACATCTGCTGTATACAACTGTAGTCATGGA
TTGCAAAATAATTTGCTGGTTCAGTTCCATCAGTTTCCTTTTTATTTCAGACCTCATAAAACATAAGGGCAAGCTTCCAAGTCAAGGGTTGTATTTTAGG
TGATGCAATCAAGTTGCAATAAACTTATTTCATCTTCATGAAGAAATCATTGACTTTGAGGTCATTATCACTGAGACAGCCTAGGAAAGCATGCCAGTTC
CGCTTTTAACACTAATTTTTGCCTATTAAAAAATTATCACTTCACACATTCATGTAAAATATAATTCCTGTTACTTACAGGCAGTGCATACATTGATGTA
AAATATATTTCCTGTTGCTTACAGGCATTGCATACGTTTACTTAAAATCAATCTGCAATTGCTTATTGTTTATAGGCAAATATTATTTAAACCCCAACCT
ATGTAGTATGGATGGTATAATTTTCTCCTCCCATAAATGTCAAAGAAAGCTATCATAAACTTGATAGGTCATATTTTGACTTCATATGACAATTTATTTT
ATTTCTAGAGAGGGTCAATCTTGATAGGGAGTGTTTGTTCAGTTCTAGCAAAAGCAAGAAAATATATGAATTAAGTGTCATGACATCAGAGACTTAGGCA
GTTCAACACTTAAAAAATTGCAAACAKAACTAAGAAAACCTCAGAGGTTTTTATGGGAGTTTGTTTGCTGCACAGAAAATAAACATCAGACTAACAACAA
GGTTTTGATTAGTTTTGCCTGTTAGCTGTATGAAGAAAACATTTCTAAATACAAAGTTTTCTAGGAAGTTGAGTCACTATTTAAAATCCATTGCTTTGAC
CAATGTGAAGCCAACAGGGTTTTCATTCATATAGAATGCCTTTTTATCAAAAGAGGCTCTGAGTGTTATACCAAAATCAGCACCCAGCTGTTTTCAGTAT
GCGCAAGAAAACATGAACGTCCCCCAAAGCAAATGTACTCCATTCCGTGTTAACCTTATTTCTGCTCCCTGGTCTCTGATTAGTCTGGTTGATGAATGTA
GCTTCCCCTTTGGCCATGCACTCACAGCTTTGAAGGAGGCTTCTGAAGGAACTGGTAGGGAACCCTAGGGGCTCTTGCTAATGTTGTTGGATAGTCACTG
AAATCAGTGATCACCATGTCCTTTCACTTTGAAAATTCTATGATTCTGTATAATCAAACAACCTAACTCACTGGATTTTTCACTTTTCAACCAGCTATTC
CGTGTCTTACAGTGCTCTGGTCTTCACAGATAGGTAGGCACCTGGCATGTCAGTTGCCTGAATTTGAAAGTTTTCACCTGTATGTTTTGGTACGATAAAA
ATAAAAATGTAATTTATATATCTGAATCAGGTCTGTATGTTATGATCAATTGCTCAGCAATTTCGGGCAGTTGGTTTGATGGTTATGTAGTAATGTAGCC
TGAGAGCAGAAATACAGAGCCTCTGGGCTAGAGAAAGTATAAATGGCATCCTAGGCTATGTAGGGTTACAGCTCTTCAGAAGGAACTTTCATTTTCATTG
TGACACATCGTCTACATGTTGTAGAAGAACATAGTTTCAGAATTCTTCCAGTTAGAAACATAGTTTCTCAAATATTCACTTTCAGCATTGGGTAGAAAAA
GTACCCAGGTGATGGACTGATTGATATGCTTCAGAAATATGTTTTTTCCTGCAAGTAATGAAAATAAACACACGTTCTTAATTATTTTGGTCATTTAACA
ACCCATSATTTCTGGACCATGGGTTAATTCCACCGATTGCTCAGAAGCCTTCCTGAGTCATCTCAAGCACAATCAATTCACTACTGTGTCTAGACACTGC
CCTTAGAGGAAAGCTCAAAATGAAAATGAAGCAGAAATACAGACCCACTTCCTAGGCCACTCAGCGGTGTATGTAACTTACCAAGTGATCATTGCATCAA
CTACTCTTTGTTAGTGAAGCTGGTGTCTGCAGAATCTTGATAAAAAGACTCATGGATAATGTTGCTTCTTTAGTCAAATGGGCTCTTGCATGCATTTTTA
TAGATTTTCAAAGTAGTCATTTTTGTTTTAAAATCCTGCTGCCAAGTCCTTTATAGTAATTGCATTTTAAAAATATGTCTTCTTTATTTTTTATTATTAT
TTTTTTTTGAGATGGAGTCTCGCTCTGTCRCCCAGTCTGGAGTTMAATGGTACAATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTC
CTGCCTTAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCGAAACCATACCCAGCTGATTTTTGTATTTTTAGTAAAGATGGGGCTTCACCATGTTGGCCA
AGATGGTCTCGAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCTACCACACTGGCCTTGTCCTCTTT
ATTTTTAATAAAATTATTTAGTCATTAAGAATTTTGGCTTGTGGGCCRGGCATGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCRAGGTCAGA
GGACCACTTGAGCTGAGGAGTTCGAGACCAGCCTGGGAAACATGACAAGACTCCATATCTACTAAAACTACAAAAAATTAGTCGGGCGTGATGGCTTGTG
CCTGTRGTTTCAGCTACTCGGGAGTCTGGAGTGGGAAGATCGCTTTAGCCCAGGGGGTGGAAGTTGCAGTGAGCCATGATTGCACCACTGCACTCCAGTC
TGGGTAACAGAGCAAGACCCAGTCTCAAAAAAAAAAAAAAAAAAAGAATTGTGACTAGTGAATAATTCATATTCAGAGCTCTTTTTAATGTATGAACTAA
ATAATAAAATAGTAAGTTTAGGCTAAGTGCCCTTTTTATTTTTAAAATTTTCTGTATTTATTATTACTATTTTTAGAGATGGAGTCTCCCTGTGTTGCTT
AGGCTGGGCTCACCTCAKCATCTGGAGTTGCTGAAACTATAGGCATGTGCCACTGCACCTGACCTATTTAAGAAAATAATCTAGAGAAGAATTGACATGT
TATTTATGAATCATTCAGTTAGGTTTTCTCTATAACATTGAGATTTGGTTAAAAATATGTTTTTCATAAATTTAAAAACTATTGAAATCTTAGCTTTGCT
GACTAGGATGTCTTATTATATAAATGAGAGAGAGTTTGTAATTTTTTAAAAAAAACTGACAACTTTCAAAATAGTTTCTCAGTGGCTTCATAAAAATCCA
GAAAAAAAGATTTCACAAATTTTTGTGACACTCAACATTTTTAAGGTAGTTCTCTCAGTGCCTTGCAAACAGCAGCTCTAGTGTATATTGAGAAAAGGAA
AAATTCTGAATGGCAAATACTAGATTTCAACTTTAACCTATTCCTTTTTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTGAGACA
AAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTAGGCTCACTGCAAGCTCCACCTCCCGGATTCACACCATTCTCCTGCCTCACCCTCC
TGAGTAGCTGGGACTACAGGCGCCTGCCACCATGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCGCGAT
CTCCTGACCTCATGATCTGCCCACCTCAGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGTCTGGCTAACCTATTCCTTTTTTTTCTTTAGT
CTTCTTGGTTGTGTAAAGAAAAATTACCCAAATCTTAACTTTCAGAAAAGGTAACAAACTCCTAATGCATGTGGCAGTACATGTTTGCTCCAGCTGCCCT
GTCCCTCTACCCTGCGTGGACTCCAGAACCGCCCATGTTGGAGCCCACCTCCTYTCCCCACCCCTGCCCACTTTCCACTCACACCTCAGGCAAACCCTGC
ATTTTGCTGTTCCTGGAAAATGGCTTATGCTTGGATACCTCTGGGCCTCTGTTGATGCGTCTGTCTGTTCCTTGTGGAAATTCTTCCTGACATTCAAGGC
TGCATTCAAATGCCTTCCTTCCCATGAGACTTTTCTGATTCCCTGCTCTTCCTTTTCTATGTGTTTCATACCTTCCTGTGATATCACATTCTGCCTTAAA
AAGCAAGAGAGTGATCAGATACATATTACCAAAAAAAAAAAAATACCGATAGCAGTAAAAATGATAGAGAAAAGACTGGAATTGGGAAATCCATCTGAAG
ACCAATGCAATATTAGGAAATAAGACATTGAGAAGGGTGAGAAGAAAGGAAATTGAGAGAAATATCAGAGCAGTGACCAATGAATAAAAGCGCCTGAAGG
GAGAGAAGTTGTCAAAGATTATTTAGGATATCTAATTTGGGTGATAGAATGAATTAACCAAGAGAGGAACACAGGAATAAGAGCCAGTTTGGAGGAGAAA
ATTTTAAATTCAGTTTTATATTGTGTTAGAGATGCCTATAGAGTATCCAGCAACTACGTATAGAGGAATATAGGAGGATGTGAAAAATAAGGCTCCAAAT
TTCAGTGAAGAGAGAGCAGGAATCATCAGCACCCATTGTAGGTTAGAGAGGTCACACTAGGGACCACAGAATACAAGCTAAGGGAGAGGCACCATCAGAG
AGATCTGGAGAGCAGCTGGCAGAATGTTAGAGGACCCAGAACAGCAGGAACCAGGACAAGAAATTTTGGAARTAAGAGGGCGGAGATGGTCACCAGAATT
AAAGGCTGGGAGAATACTGAAGAGCTCAAGTCTATTGAGAACTTAGAAGAGGCCATTAGTTCTGGCCGAGAGAAAAGCATTCAGGATTTTTACAAAGTTT
TGGTAAATCCCAGTGAGCGCAAAGCTAGACTGCAGTAGATCGAGAAGTGAATAGAAAGTGACAAACACAGACGGAGTGAAAACAACTCTTTCAGTAAGTT
CAGTGGTGGAGGAAAGATAGCTTAAAGAGGAGGTAATAGTAGAGTCAGAACCTTCAACCTGGGCAGAAAGGCCAGAGCCAGTACAGAGAGGCACACTAGA
GAAAGACTCATCTGTGTAATATACCCAGTCTCCCCTACCAGACATGTCCTTTCCATCCTTTCCCCCAGCCCCATCTGTGCAGCACAGTGTTGCATCAACG
AAGTGTTCAGTGAATGAATTAAAGGTTGTCAGGAAGACTTCAGGGAATCAGAGATTGAGTTAGAAGGTGAGCTGGTGGTGTTTTGCTCATCTTCATTTTT
GAAAGAAACCTAAGAAAATGTTTAAATGTCCTCTACAAATAGTGTGAAAAATGGTACCTCTGCATAAAAATAATTTAATATTAGTGCTAAAGTTGCTCCT
TGTTTTCCTTTAGAGGAACTACAAAAGGATAGTTATTAGATTGCCAAATCCTGCAGAACCTCCAGCAGGCACAAGTTGGTTTTTCTCCCTCAAGAAAGAG
AAGTGAGCCAAGCGTGGTGGTGCATGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGTAGGAGCTTCCCTTGAACCCAGGTGTTCAAGGCTGCAGTGAGC
CAAGATCACACTACTGTGCTCCAGCCCAGGCAAGAGAATGAGACCCTGTCTCTTTAAAAAAAAAAGAAAGAAAGAAAGAAAAGAAAGAGAAAGGATGGAA
GGGAGGAAGGAAGGAAGGAAGGGAGGGAGGGAGGGAAAAAGGAAAAAGGAAGGGAGGAAAAGAAGGAAGGAAAGAAAGAGAGGTGAGCCAGGTGTAGTGG
CTCATACCTGCAATTCCAGCACTTTGGGAGACTGAGGCAGGAGGATCACTTGGGCCAGGAGTTTTGGCGAGATCCCATGTCTACCAAAAAAAAAAAAAAA
AAAAAAATTAGCTGGGCATGGTCATGTGTGCCTGTGGGCCCAGCCACTTGGGAGGCTGAGGCAGAATGATTGCTTGAGCCCAGAAGGTTGCAGTGAGCTA
CGATCATGCCACTACACTCCCACCTGCGTGATCGAGAAAGACCCTGTCTCTAAAAAAAAAAAAAAAATTTTAAARAGAGATGGGAAAACAACTTATTGGC
AATAGCACATGTTCTTGTTTGTATGCAACAAACATATAAAAAGTAGAAAAATTGACCATAAGACATAGCCTTACTATTTTTCAAAAGCCTGATAATGATT
GCAAATTCATCCCTTAGATGTGGAAAGACAAAAATAAGACTTGTCTTATTTCATTCTGTTATTTTCTATTGATTTATTATTTTGAAAACCTGCTTTAATT
AACCTTAGTAATTAAGTAGCATTTGTCTTTAATGCTTCTACAATTAGGTAGATGTTTTAAAAACATGCCGATTAATTGTTTCTTAGCGTTATACCCAGAT
CCAAAAAGCAGGACATCTAACTATTCCATGTGCTTGGTGTTTGTGTGTTCAGCAATATCAGTACTAAATACACAATACAAATCTATAACATGCTAGTAGT
AGCTACATTCAGCTCAATAGAAGTGTGTTGTATAAAGGAATGCCAATATGCTTTCCCAGAAGTTAATGAGTCTCTATCAAACCCAGTCTTCCTGAAGGGA
GCCTACCAGCTCTGATATGGATAATTTTTTTTACCAAGATACCAGATTTCTCTGTAGGTGATGAATTATTCCAAATAGGAAACTGCGTGCCAGTGTTCTG
GAAGTTGCTCTGTGTGACAGGTGCCAGATCTGTAGAACAGACAGAATGTAATTTTTTTTGAGCCTCAAAAACTAGACAAATACTGCTTTTAAAAAGAGAG
CAGAGCATTTTCTTGAGTACTATGTAGACATTTGTAGAACTTTAGAGCTAAATTTAGAGCTAGAGGAAGGAAACTTTAGAATCTTCTTTTCTAAGTTCCT
CATTCAGTAAATAAATCAGTTGAAGACCAGAGAAGTTCAGTAATTTTCTTAAAGCCACATAGCTAGTTTGTCACTGAGCTGAAACTAGAAATTAAGCTTC
CTGACTGCATTCAGTGCAGTATTCATTCCCTTGCTTTCCAGAGAGGCCAAAAGTTCTTGCTCAGTGACTCACAGTAAGACATGAAGCATTTTCCTTTTAA
GATTAATCAGCAGTGGTAGAAGATTTGGAAAAATACACTTGTATATGAGTACACTCAGCCTTTATAGTTCTGACCCCCAATGCAGAATGTTCATCTTCTA
TTTCTAAGGTCTGACTTCAGTCTTTCAGGAAACACCTCCCAACCTCCTTCGCTTTCCTCCTCTTGGTTGTCAGATTCTCCACATGAAGGGTAGAACCTRA
GGCTCAAGAATTACTTAACTAAAAAACACCATCTCACAAACAATTTAAAGATGGAAAGATAGAAATAGAGATAGGCAGACAGATGGACACATAGATTAGG
KTTTCAGATTCTGTTCTTTCTCTGTGGGAGAGGTCAGCGTGCCATGACTACCAGCCTGGTCTAGAACCCACAGCAGCCATAGTTACCAAGACCACAGCAA
TAAAAGCTGTGTTTGTTAAGCATTGCCATGCACCTAGCACTGTGTTAAACACTTCCTGTGCCTCCTCTCATCACCTCACGTGAGGTAGATAGGTACAATT
ATGTGGGACTCAAAAGCAACGAAATAATAAAACTGGCTTTTTTCCCCCTTAAAAAAGGTATGCGTGCCTCAGCTGAAAGACAGAAAAAAAAAAAAAAGTA
GGCAAATAAAAATCCTTGTTTTCTGTACAATTTCAGATTTGTGTATGTTTTATGGGAATTTAGTCTCACCAAATGGGATCGATTTTTCATTCCTTTTATG
AACTTCTGGTGTATAAAAATGTTAAAATCACCTATATAATTGGTTGCACTGGTAGTTAAATGGAACCTAATTTGTAGCATGGGCATTTAACAATACAGAT
AATTTATTCATTAGAGTTAGCCTTTGGGGGGAACTTCAACTTACAAAAATACGTTTTAGTGAGATTATAGCAGAGGGATCTCACTTTAATATATCCTAAT
TCTAAAATGGTTTTTCGGGGTATTTTTTGGTTATATTTGTTAGGTGATAGAAAAGCAAGACTAGTAAATGTAGTAAGTGGCTATCTTTGGCTGTTTGTCC
ATTTAAATTAACTTTTTTGATTACCCATTAGGAAAAAATTGCTTTTCTAGGTGTGTAAAGTTTTGCATATGATTATAGCCTCTTACCTGTAAAAACTGAA
TCAGAGCTTAGAACCATGCCTGGYKCACAATAGTCATTCAACAATTATTCCTTGAATAAAGAGACAGTATTGTGTGGTCTGTGAAATAACAAAAGTTCAG
GAGCAACAGACACTTGGTGATTCTAGTCACCTCTATTTTGTTATAGGATAACTGGTTTTCTCTGAGTTTTACACCAGAATGCCTTCTTCTTTTAATACGC
CTTCTTACTTRGTGCTTTTCTCATGATCATTTTCCCAAACTTCCTAATGGACATAGTGTCTCATTTTCTGTCTGTTTTTAAACCTGATACTTTGGAGTTT
AATCCATCAAACATTTATTGTTAACCTACTATGTGTATTTTGTTACACCTAGGAACAAAGATGAGAAAACATGTTACTCATATAATTTATATTCGAGTAG
AATAACTGATATAAACCAACATCATAGTATAGTAACAGTTTAATACATGAGCTAATGTATGCATACAACAGGAGCCCAGCATTTAGGAAGCTTTTTATAA
ACTGTCCCAAACCCCAGGTTTTTTATATACTCCTAATTGAGTGGATGGATGGCCCATCAAAATGTCCCGTGGAAGACATATAATGTCAGAAGTTACCGAG
TGACTCTGATAGGCTCTGCCTCCCCTACCCTCCGCACTCCTCAATTAGGAACTACTGGTGAACAAGAAATGAATGTAGTACAGCCATCCCTCCTTATTCC
CTGGGATTGGCTCCAGGACCCACTCAGATACCAAAATTCCTAAATGTGCAAGTCTCTGATATAAAATGGCATAGTATTTGCATGTAACCTACACATACCC
TCCTGTATACTTTAGATCATCTCTAGATGRCTTATAATATCTAATACAGTATAAATACTGTATAAATAGTTCCTATGGCCAGGTGTCATGGCTCATGCCT
GTAATCCCATCTCTTTGGGAGGTGGAGGCAGGAGGATCCCTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCAACATGGTGAAACCCTGTCTCTACAAAAA
AATTAAAAATTAGCCAGGCGTGGTGGCACACACCTGTAGTCCTAGCTACTCAGGAGGCTGAGGTGGGAGAATCGATTGAGTCTAGGAGGTCGAGGCTGCA
GTGAGCCATGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAACGAGACCCTGTCTCAAAAAAAAAAAAAAAAGTTGTTATACTGTATTTTTTTATTTG
TCTTATTTTTTATCATTGTTTTATTTATTTATTTTAGAGACAGAGTCTTGCTGTCACCCAGGCTAAAGTGTAGTGGCTCTATCACGACTCACTGCAGCCT
CAAACTCCTGGGCTCAAGGGATCCTTCCACCTCAGCCTCCTGAGTAGCTGGGATTAGAGGCGCACACCACCACGCCCAGCTATTTATTTTTATTTTTATT
TTTGTACAGACAGGGTCTCTCTATGTTGCCCAGGCTGCTCTCAAATTCCTGGCCTCAGGCAATCCTTTCACTTTGGCCTCCCAAAGTTCTGGGATTACAG
GTGTGAGCTACCACACCCAGCCCATATTATTTTTTATTGGTTCTTTTTTCCAAATATTTTCAATCCACAGTTGGTTGAATCTGCAGATGTGGAACCTGCG
GGTATGGAGGGCCAACTGCATAAGGAATTCTATCTGAGCAAAGTGGTCAGGAGGTCACAGAGGATTTTGAAGGAATATGCTATCTGGGGTTTTCTTTCCA
TTGTATTTCAAAATACAGTAGACAAGGACTTAATATGTGCCAGAAATTGTACTAAGTGCTGAGGATMCAATAATGAACAAGATTCCTGCCTTTGTGGAGA
TTATATGGCAAGGGAGGAAAGAAAACATTATAGATTAATTCCTGTGATCAGTGCTGTGAGATAAGGTCATATCCTGAGGGACCCAGACAAGCCTAGCACC
AGGGGCTGGGGTCACCAGTAGATAAAAATATGAACAACCATACCCCAGCCCCATGGAACAACACAGAAAGAAAATGGGGAAGAGTGAGTAGGGAACAGGA
TTTTTGACCAAAACCTCCTAGTTTAAAGGTTTCTATATGAAGAGGCCATGTACCAAGGATATATTCACTAAAAGTATCTAAATATAGGCTAATTCAATTT
AAAGGAATCCCAACTGAGAGGTAAGATTTTCTTCCCCTCTAACACCCAAGTCTGGTCTCTAAGGAGGCCCCTACMAAACAATAGTTGTATTAGTCAGYGA
TAAAATTTATTTASGGTCAATGGAAATGAATTTATGAATTTGAGACTCAAGGGTACATGTCAGTTTCTTCTTGGGAAAATCCAAGGTAATATTCACAGAG
TACTCAGATGGGAAAGTTGTCGTGTGCTGTCATGTCTCATGGTAGAAATGCTACCCTTAGCATAATAACATRTAAAATAACTATCTCTGGCTGGGCACAG
TGGCTCATGCCTGTAACCCCAACACTTTGGGAGGCTGAGGTGGGTGAATCACTTGAGGTCAGGAGTTTGAGACCCACCTGGACAACGTGGTAAAACCCTG
TCTCTACTAAAAATACAAAACTGAGCCAGGCATGGTGGCCCACCCCTTGTAATCCCAGCTACTCAGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAG
GTGGAGGTTGCAGTGAGCTGGGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTCAAAATATAAAATAAAATAAAATAAAAATCT
CTTTGTTCTGGGATTCAGCAGAGACAGAGTCTTGCTAGAGACATAAACAAATATGACAGTCTCTGCGCTCGAGGAGCATATAGTCTAGTGAAGCCGATCA
CCATAAAAACGCATGGCTGTGATACCACATCGTGAGTGTAAGAACAGAGCTATGTATGCRTGGGGAACAGTGGACATGATGGCCAGGTACCCTTATTATG
GGAAACATAGAACCCAAAGTGTGTTCCCAAAGGAACATGATTCAAAATAATATTTTGCTGAACATATTGGTAAGAAGGAAAGAAAACATATCTGAGTTGA
AAAGTTACAGTTTATTTTTTCCCCAAACTAGTCCCCACTAACCCCTCTTACATTTTCCTTGTTGCTTTTCTTTCTTTCATTATCTTCTTTGACACTTCCT
CACCCTACAGGCAGCCAGTTTGTCTTTCTGACAAACATCATTAAGTGGTAACTCTGGAGAGTCGGGAGATAACTATGGCTTCTCTCCGCTACATGTAAAA
GTGCTCTCTGGACTAGTAAAATGTGATAAAGCACCATCCATATTTCTTTTTAACAGAGACAAACAAATCTTATAAACTCCCTGAGAACAAAGCCTATGTC
TGTACAACTTTGAATTCTGCACAGTTTCGTATTTTAATTCGTGAAACGTGTTGATCCTTCTAGTGCCTGACCTTAGGTCAAGTGCTGGGGATACAAAGAA
GGTGACCTTTGAATTGGGTCTTGAGGGATGAGTAGGAGTTGGTTCTCAATTATTTCACGTTTAAGTCGACATACTTCCCTCCCTTTGCTAAACTCGAATT
CTTTCACTTTCTCAGCAGGAKTATGCATTAACTTTTAAAAATGAAAGTTAACGGTTTAATTTTTACTGATGGTCTGTGCTACTTTTGTGAAATAAAAACA
TGAGCAAAGTGGTAGACAGAAACCAGGACTCAAGAGCAGTGGAGGAGGAGGGCTTCTACTGTGTGGGAACGAGGGCTGGGAGAGCACAGTGTGTGTTCAG
AGCAGTAGTAATCCAATGATTCATCCTGTCATTCCTCTTCCTCTATAGCCATCAGGTTTGGGCGGATGCCACAGGCCGAGAAGGAGAAGCTGTTGGCGGA
GATCTCCAGTGATATCGACCAGCTGAATCCAGAGTCCGCTGACCTCCGGGCCCTGGCAAAACATTTGTATGACTCATACATAAAGTCCTTCCCGCTGACC
AAAGCAAAGGCGAGGGCGATCTTGACAGGAAAGACAACAGACAAATCAGTTAGTTCTCTTCTGCTGTCTTCATTGGGGGAGGCGGGAAGTTGTTTTGGGT
TTTTGTTTCTTTGAGTAAATGGTTTACTGCGCTACAAATGCACACACAGAATATTGTTCAACTGTTGGCTGTTAACATATTGCAGGCTGAGTCTGAAACG
CAGGAAGTGTTTTCAGATAGCACAAGTCAACATTATTTTGAAAAGGGAGAAAAGTCCATAAAGTTTTTGAGAATAGTGTAASAATGTATTGGTCATCCTA
ACTTTAATGAATGAACTTAAGCCCCCTGAGCCTATCACCCTCTTTTAGGATCCATCTCCTTTYTCGGCATCAAAATAACTGGCCACAGCAATATTCATTC
AAGCAGCCTTGCTTTCCYCTGGGAAGAACCCGACCTAGGTTTAGAAAAGGTATTGAATCCCACTATTTCACCTTTCAGGAGAACTACCAGAGTTACCTCT
TTTTTTTTTTTTTTTTTTTTTTTTGAGATGTCGTCTCACTTTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACCGCAACCTCCGCCTCCCA
GGTTAAAGCGATTATCATGCCTCAGCATCCCGAGTAGCTGGGATTACAGGTGTGCACGACCATGCCTGGCTAATCTTTGTATTTTTAGTAGAGACGGGGT
TTCACCTTGTTGATCAGGCTGGTCTAGAGTTACCTCTTAAGAAGTTCAACATGAGGCATAAAAATAGATTCTAGATATTATGTTACCTTTCTTTCCTTGT
AGCATTCTTGATTATTCCGGGGCAACTAGAAGCTCTATCCTTTTATTACATATGTGAATTTTATCTTCTGCAAGGCTCTGAGCTGCCTGGACTACTTCAG
TGGACTCTCCAACATCTGTTCACTCATTGAGCAGCACTGTTTAGAAAACCCAGAATGGGTTGTAATTGTTACTGAGTTAGGTTTTCCAAGCAGCAGAGCT
CTTCTCTGACTGGAAACTGAGAAAACAACATGGAATTATAGAATAAAATTGTACCTGAATTCTAGTCCCAATTCTGCCATCAGCTTGGATGACCTGGATC
ATGTCTCTGTACCTCAGTTTGTTGTTGTTGTTGTTGTTGTTGTTTTGAGACAGAGTCTTGCTCTGTTGCCAGGCTGGAATGCAGTGGCGTGATCTCGGCT
CACTGCAACCTCCACCTCCCTGGTTCAAGCAATTCTCCTGCGTCAGCCTCCCGAGTAGCTGGGATTGCAGGCGCATGCCACCATGCCCAGCTAATTTTTT
TGTATTTTTAGTAGAGATGGGTTTTCACCATGTTGGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCTGCCCGCCTCTGCCTCCCAAAGTGCTGGGAT
TACAGGCRTGAGCCACCGCGCCCGGCTTTGTAGCTCAGTTTTTAATGACAGGGTTTGGCTTYGATTCTGATGTCTGCACARCGCTCCCAGGGCTGTAAGA
ACTGCAGAACACACTGAGAAGACACCGTCCCAGCCATGGAAAGCCCTTCTATGCAGTCATTTATTTTCACATGAACACCTCCCAGAGAGCTATGCAATGA
CTTGATAGATATGTGTAACTTTTCCCCTATTCAGATATATTGTTAGGAAAATCTCATTAACCTTTCATGTATTTTGATGACTATCTCAAGATGGTAGTTC
TTCTGTTTAGCTAAACTAGTAAGAGTAGAATCAGTTAATAGAAAAAGGAAACTTATGGCATAAAGCCATATGGTAATAAGGACAATGAGTTTTCTGATTT
GAAAATAGGTCTTTGATACCTCAACAATAATATACCTGGATTCAATTCTTTACAGTATAAAAAAAACCTTGCACATTTGTTAGGTTCGAGCCACATGCAC
CTGACTACTGCTATTATTATCCTCTTTATTTTAGAGATGAGGAAAATAAAGTCCAGAGAGGTTAAACATTTTGCCCTAAGACCCCACAGCAAGTGKGTAG
AAGACCTGGGACTATAATGCAGGTTTTCTGGCCTCTAGTTCAGAGCATTCGTAGCATGCTAGCCCCTCAGTAGCATAGTACTTTAGGAAGCTAGTCTTTC
CCACTTGCTGGTAGTAAGMCAGGGAGACATAATACACTAAGAAAGCTTCGSTCTGAGAAAACTTTCCATGATTGTTTTTTCTCAATTTTTAGAACAGTAG
GAATTCTTCACCTCATCTGCTATCCCAACATATTCACAATTGGAAAATTTTTGTGCTGTTMTGTTCTTTTCAAATTACAAAAGTCCTTGACTAGGACTGC
TGGCTTTTACATGCACAGGACTGCACAACACTGGTGTTTATAAAGCTCATTCGTTCAATGATAAAATTGGCCATAGCAAATCAAAAATAAATGAAGACCT
CTGCGTAGCTGATTGGACTACAGAAAATAARCCATTCATATCCAGGAAGAAAAAATTAAAAGGATTGCTGAAAAGGAAAGAGCCCTAAAGCAAACTATCT
ACAGTTTTGGTTAGTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTTTGAGGTGGRGTCTTGCTTTGTTGCCCAGGTGGGAGTGTCTTCTTATAT
TGGTCAGGCTGGCCTTGAACTCGGGGCTCAAGCMGTCCTCCCACCTCAGCCTCCCAAAGAGCTGGTATTACAGGTGTGAGCCACCAGCCATGGTTAGTTT
TCATCAACTGCTTTCTCACCTTCTTTTCATCCTCTAATTCATACCTGCAATCCTTATTAGAAATCCTGTCAACTTAATAGTACCAGAAAGTCAGGCAAAA
GACTGATAAAAAAAAAGCCTCRGTGGTCAAGAACTTAAAATTACACTACTGGTGTGCAACGTGCTCTTATCTGTGTTACTGGAGGACACCCTCAAGATAC
CTCACTCCAGTTGACTCCTTGGCTCTAAATCTTTGAGTTAAAAAATAAGGAGGTTCTTTATGGAATAAACAGGTATTAAGCTATTTAAAGGAGAGGGCTG
CGAAATGCTTGATTATGGGCTTTTCAAGTTCAGAGGCCAAGCGTTTGTCATTTTCTTCCAGTAACTAGGACTGTGTCTTGCCCCTAATAGTTACTCAGAC
TATATTTGCTTAATTGAATTAAACACAGTTGCCTATGCCCTTTGAAATTCTGGACTTTCAACAGAGGGCCTCTAGCCCAATATTTGCTTACCAAACTGGA
CATCATTGATGATCTGGATTCAGGCAGGGTCTGGAAAAAGAGAGACTGGGCCAAATTAAAATAATCCATTCACTGATGACACAAAACTAAACTACAATTG
TTTGGCACCCTCTCTTCTCCTTATCTTGCAAAATCAAATTAAGCACTAGTGGAAAGAAACAGTTCAGAGAGGAATATGGGAAAGRRAAAAAAAAAACCAA
AATGTGATTTCCAACGAGACTAGAGATTTGTTCTTTATCTACATGGTCATGTTACTCATTTGATAGCATCTATCTCAGGGGTATTATGTTATCTCTTGGC
CAGGACTCATGAAAGTTAAGATTTGCATTGATAGGAAAAGTTTTGCAGAAATATGGACTCTTGAGAGGGTGGGAGGTATATAAAAGTGGCTATGGCTGTG
CAGCAGAGCAATTTGCATTTCTTATACACCCTGCTTGAGACTGATGTCATTAGTGTTGGTTAGGCCAAGGCTGGGGGAGGCTACTCAGAATAGTGGGTGA
CCAATTACCCAGAACCTTTGGAAAAGGAAATGACTTGATTGAAGAGGCCATTCTTTAAATGTATCTTACTGCTCAATTTCACCATTGCCTATTGTAGAAT
GCGCSCTGCCCGCTCAGCATTTGCCTCTAGGCAGACCAGGACTCCTTCCCCTCCCCAACTAATCTTCCTTCTCCTGTATCTTATTCCCTAGGGCCACTTG
CACCTTTCAAAATGGATAAATTAAATTCCCCTGCTCCCCTTCTACCAACTYTAACATCATATCCTTGGTGTATGATGCCCTACTTTTCATTGTTTTGCCT
AAATAAGAGTATGCTTGGGAATTTTAGGCTTAGGGCTGGGAAAAGATGGGATATGGAATCGTCAGCTATAGATTGCCGGACAAGAAATTTTAGGAGCAGT
AGACCTTTCAACCGCCCTCAATAGGATGGAACTGACTGTCCCCACAACCTATTTCCCTTTCAGTGGCTTGCTCCAGCCAAGGCCCCTTATTTAAGAGATC
TTTGTGCGCTCTGAAAACCATGCATATGCCAGAACTAGGTGCTCTGTTTCATGAAGGCAGTTTGATAACTGAATGGACTTTGGAAGTGCCCAGTGTTTGA
CTATTACCCTGGTGCGATGATCACACTGGGCGTATCATTGTCACATGATCCCATGTTTGTTGATGAAAATAAACAGTGGTTTTCAAAAACCATTTTCAGT
GCCATGGTTTGTCATAAAACAATAAATAGAAAAGCGCTTGATGTACCTGCCAACTTTTCACCCCTATCTAAGAGATGGCGAAGCTCCGGCTGCACTCTGT
CTGCAAATAAGGAATAAAACTTTTTATTTGTGCTATATTGGACTTTGGGTTCCAAAGCATCACATTGTTTATGGTAGGTACATGTGGAGTCACTGTATTT
ATAATTATAAGAGCAAACTGGTGCCATTGGAAAAAATGGTCTTTCTAAATAGTGTGTGAAATATGAAACTAGTGAAGAATAAAATCAATATGGAAATGTA
AACTTCTATGAAAACATTTCCTTACCCATTTAAGTTTGTGCATTCTGAAATTTACAATGGCCATCAAACCCAGTGACTCAAAGCTATTGGAAAGATATCT
GTCCTTTTAAATCCTACACTTACAGCTAAACAACGTATGGGTTCTTTTCCCTTTATCTCTGGAAAAGCCCGACTGAGCTGGAATTTGCTCCCCAAAGGAA
AGACATCAGGCAGAATCCTCAGAGAAAGGGGCTTAGGGACCCCAGTAGAAATAAAATCAGGATAGTAGTGCCAATTCATTTCTGGGGCTGCTGGAGAAGT
TAGGCTTCTGGGATCATTCATCCATGTATCAATATTAATAAAATAAATTCTTCTATTGCCAGGACTGTCAGGAATAGCTAAAGATGTAAAAGATCTAAAC
CAGTGTGTTCTTTCAGAGAATAAGTTAAAAATAATATTTTATAGAGTTAAAAAGAAAAGCACTTGGATTTTTTTTTTCCAATGGCTGGACTCAGTTGGCC
AATACCCTTGTTTGCCTGCTGAGTAACTCTTTGGCTGGCAATTGATTTTTTTAAGAGCTGTGGTTATGTGCTAGTTCATTAGCATGTGAATAATTCTTCA
TATTAAGTTTTCATTTGTTTGTCGTAAATCTCTAAACCCTGCAGGAAAGCAGAATATCTTTGACAGCTTTCAAACTTCACTTCTATCACACACAGCACTC
CACCAGCACCTCTAGGAAACAGTGGTTCAAAAGGCCCTGCCCCAAGACCCCAGCATGTTAAGAGCGTTAGTTTAAAATCTCCAGTTCATCCTAGAACAAT
CATTTTAAAAGGAAAAAAAGAAGTGGGGAAGTCCTATAGAAAGCAATGGAAAGGGAAAAGTTCTCAACCCAGAATCGGGGCTTAGGTTCTAGTTCCTGGT
TTGCTATAAATGGCACTTTGACTTTGGAATGTCTCTGGCTTCCGTTTATCCATTAGTCAGAGAATGATGGGACAGATTACTTCTGAAGACCCCTTATGTC
CTATAAATCTCATAGTTCTCAACAAGAGGGAAACGGGAACAACAGGGGCAGAAACCAACGAGABGCTGAGGAAACCAAACCAATGAGTTTTGGATTGTAG
CTAACCGAGGAGAACCAGGTGTGTCAAAGGTGATGAAAGTCAGATGTGTAAAAAGCAAGAAGGAAACAAAATGAAGAACATGAGCCCTAAGAATTCAGTG
TCTTTCCCTGGTAAAACTAAGAACATCAGGAAAGCCACACTCGATGAGGCACACATTTTTCCAAGCCAGTTTTCACTCTGACAGGGTTACCTCAAGTGAT
TGTTTGAGAGAGGGTAGAGGGGTTGACTACACTCATTCAATCTGCCAAATTAGAAAAGTCACCCAGAATACCCTGTGCTTTTTGAGTGATTTTCATGTTT
ATCTCCCGTAGCTTGCTATTTTGTTATTCAAAAGGAGTGTAAACTTAGGGCATTCATGTATAATACCTTTCATAACTCATGTTAAAATGCTGATGTTATT
GGATTTCTCAGGAACACTACTGTTCTATTTCTCCATTCAAAAAGGTAAAAAAAAAATTAATTACTCTATTTTCATCATTAATCCCATTTCCCCCATTGTC
TTTGTATTCTACATAGGAAGCATGCCATAGATCTATAATTGAATTTACTCATCTATATAAAACAGTACTTTTAATCCCATCCTGAAAATCAAAATATATT
TTTGAAAATCAAAATATGTCAAAATTGAAAATCAAAATGTCAAAATATTGAAAATTGAAATATATCAAAATTAATTATATTTGATGTATCCCTCAAAAAA
TTGATTTCTCCTTACAGAAATCATTTTGCTTTCCTGGAAAAACACTGGGTTCAAGTGCAGCTTTCTTCATTCCGTTCTGGTCTGTCCAGTATATGAAAAG
CACAAGCACACAATGACCAGTGACAGATTCACCATGAAGCTAATGAAGCTTCATGGGGCCCTTCCCTTGTGCAGAAGTCCTTCCAGTGCTTGGGGAAGGG
CCGAAGCAATTTTATTCTCATAATTTGTAATATTTTCCTTAGAGAGACTCCACTACTGTGTATATTTTATGCCCCACAAAACCTGAATTCACCCCATCAT
GTCCCATTTGTAATTAAGCTTTCTTTCCTGTTAAGGAGGGACGCTTACCCAGCCCTTTGATGTACGGTCTGAAGATAAATACACTGTTAGCCCCCAACTA
GAAGTGTAAAATCATTAAGACAAAATTTGAGAATGATACGGCTCCTATAATGGCAATCTTTGGATGATACTGKCCAAGCTGATGGAAAGTGTAAGGACTC
CACTTTGCTTTGTAAAAAATACAAAAAAACAGCCATGGAAGTGCAGTACATTTTGTATGGAACATTGTACCACATTGTACCAAATGTCATGTTAAATTAA
TGATTCAAGATAAAATGCAGACCAAATTTGACCAGGGTTTTAAGAGGTTCTCTCTCCATAAAGCAGGCTGGCCACGATCTTCTCACTAGGTTTGAGGGTA
AGGAGGTCCCCTGTGAAATATGAAAGTGAACTCTCTGCTATCTAAGAATTGGTGAATTGGTTGCAAAGAAAGGCAGACCAGGCCCACCCAGGGATCACTC
TTGCAGTTTGACAGATCTACCTGGAGGCTGAAAGAATCTATGCAGCCTTCGGAAATGCAGTGAAAACAGTATAATCAGATATGACTAGGGAAAAAATAAA
ACAACTGGTGTTCATTTGCATGTCAACACCCAGAATTCTCTGCTAGTTCACCTCTTCTTCAGAATGYAGAAAGGATTGAAAAAGCTGGAATGGGGCCGGG
CRTGGTGGCTCATGCCTGTAATCCCATCACTTTGTGAGGCAGAGGTGGGTGGATCACCTGAGGCCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAA
CCCCGTCTATACTAAAAAATAAAAAAATTTAAAAAAAATTGCCGGGCRTGGTGGTGGGTGCCTGTAATCCCAGCTACTCTGGAGGCTGAGGAGAATCACT
TGAACCCAGGAGGTGGAGGTTGCAGTGAGCCTAGATTGCGCCATTGCACTCCAGCCTGGGCAACAGGAGCAAAACTCCATCTCAAAAAAAAAAAAAAAAA
AAAATGAAATGGTTTGGCATGATGGTGGGGTGCTGATTCCTCTCTCTGTCCTTGAGTATTTACTGCCAGGAAATCCTGACCAACATCAATTGCCAAGGGG
TTAAAGTCACATTGTTGTTAAATTGGGAGAGAAAATTAGCAGGATTTTGTGCCCTATGTTCAACTATTACAGAGTTTCAAAAACAGGAACCTGGAGCTTT
ATATGAGGGGACAGGGGAAGTAAAGGGGAAGAGTGACAAGGGTGATTTATCAGGGCATAGTTCCAGATAAATCACTTACATGGAGGTGAAAGAATTTCAT
GCATATGTTCTGTGCCAAGAAGCCAAATGGTTGAGCAGAAGCTCTGAAAGTTGAAGTGGGCAGTTCTGGGTACAGTCTTTCCACATGTGAAAAGGTGATG
ATTTTATATTCATGTTATTTGTACTCCTGCATGTGCAGTTGGTCTTTTCAGGTGTCCAGATCATCATTTTCTCATGACATGAAAGAAAGCCAATAAAGGC
TAGTTGTGGTGGCTCACACCTGTAATCCTAGCACGCACTTAGGGAGGCCAAAGCAGGACGATCACTTGAGCCCAGGAGTTCAAGACCAGCCCAGGCAACA
TACATAGCAAGACCTCATCTCAAAAAATGAAATAATTTTTTTTTAGAAAAAGAAAGTAAATATTTCATTAATATAAATTATAATACACTGTAAAATGCCT
GGAGGACAAGAAACACGTTTTCTCTAGGTTCTGTGAAAGCATCATTATCCATTCACATTTTTCTCATAATTAGAACCTGACGTTCTGGAAAAATACAGTA
AATTTTCATCGATGTTACTTGCTCTGCCCCCCTTGTATTCCTCCCATTAATAATATTAATCCTGAAAAGAAAAAAAGAAAAAGGAAAGAAACCACCCAAG
CAAAATGTTTAAGAAATACGGTAAGGACAGTTTGGTCCCAATTTCCTTAAAAATTAGAGCCACCAAGTAAACCTGTTTGGGGGTCCTCACATCTGTCCTC
TTTTGGAGTTTGCTAAGTAGTACAGTTGAAGTGAATTTTTTGGTAACAAAAGTAAAAACTTCCAGAATAACTCCAGTAAAGGGTGTTGATGTGACGTACA
AGTTTGGAAATATATTTAATATCTGAGACTCCTCAATGTTGGTGTTATTTCCTCCAGTTTAGAACAAACTTAATCTTTTGATGAAAATCATAGAGTTCCA
TAGATATGAATAGAATCTCCAACCAGTGCATCTTGAAGCCGGCTGCCACGGCCACTCATGCACCTTCTCTCCTTTCAGGAGAGAATTGTCAGCATCTCTG
CTCAAAACAATCTTTACTTTTAGTCCATCAGAGACTTCATGTTTGTCGTGCATGCACACTCACACCTCTCCACACATATGCCCACTCCCCACACACATCC
TGCTTCTGAGAAATGCAACTAGAATTTCCTCCGGAGAAGAGATGGAAACCCCTGATTGAGAAATTTAAGGCCTAGGAAAGGTAAATGACTTTTCTTAAGT
CWCATGGCTCACCACAGAACCAAAGCTGGAACACACATACCCTCAGCTCTTCTTCCAGTGCTTTCAGGTATACAAGTATTTGAACAGGATTCAAGGTTTA
ACTCCTTATGTGTCATTCAGTGTATCCAGTGTAAGTAAAATGTTACCCCTTAGTCAGAACAGCCTTGAGAATTTCTCAATGACTACAAACCTTGCTTAGT
TCTATACAAGGGAAGTAAAAGAGAGAGAATGTCATGACCAAATGACTTAACTTTTGAAGGCAGCCTATTGCAAACTTGAATAATTGGGGCATGTATTTTA
TTGATTGTTTGACCTATAAGGACAGATATTTTAAAATATAAATTCAAAATTGCTTTTTTGCAGCATTCACCTGTAGGCCTTCTATATCTGCTCTTTGTGA
AATAGATGGCTTCCAGAGCATTAAAAAAAGAAATAGACATTTTCTTGGTTCAAGAGCTGTAATCTGCTTTCCGAGTGATTTTTCATAGTTAAGCATATTT
TATGTGCACATAGTTTCATTTGAGATCTGAGAGGATTTCATCTAAAACGGAAAAGTTATTACCTGTGAAGGAGAACAAAGGAAAAGGAAAAAGAAATTTT
AAGAAAAAAAWATTTTTTTAAACCTGTAGTTACTTTATGTTCAAGTGGGTATTTTCAACGCTGAGTTGCTGAAATGGTTTTTTATTGAAAGAAGGTTAAA
AGTGTATTTCATTGAAAGCCAAGATAAACAGTAGATTTTGTATCATTTTAAAAATCAACAATCGGCCGGGTGTGGTGGCTCATGCCTGTAATCCCAGCCC
TTTGGGAGGCCAAGGCAGGCAGATCACTTGAGGCCAGGAGTTCAAGMCCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATCAG
CTGGGTGTGGCAGTGCATGCCAGTAATCCCAGCTACCCAGGAGGCTGAGGCACAAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCCTGATT
GTGCCACTGTAATTCAGTCTGGGCGCAGAGTGAGACTCTGTCTCAAAAACAAACAAACAAATAATATAAAAATCAACAATGAAGACTCCCCAAACAAAAG
AAATCAGGATTCTTAGCCAGTCATAGGTAAAGTGTTACAGTGTAAATTGAAGGGAAAGAAGACCAAAATTGGTGAAATATGTTTGGTCCCAGAAGATAAT
TAAGATGAATAAAAGAACTTGAGAGTATTTTCTCATTATTAAGCATCTTCAGCTTTAAAGATTTTAGTTAGCAAAGCAAGTTTACATAAACAGTTTTCTG
AACCTGGGATGGCATTCACTGTGAGTTAGAAATCTCCAAGTCATCCACGTTTTCCCTGTTTTATTTGCAGCCATTCGTTATCTATGACATGAATTCCTTA
ATGATGGGAGAAGATAAAATCAAGTTCAAACACATCACCCCCCTGCAGGAGCAGAGCAAAGAGGTGGCCATCCGCATCTTTCAGGGCTGCCAGTTTCGCT
CCRTGGAGGCTGTGCAGGAGATCACAGAGTATGCCAAAAGCATTCCTGGTTTTGTAAATCTTGACTTGAACGACCAAGTAACTCTCCTCAAATATGGAGT
CCACGAGATCATTTACACAATGCTGGCCTCCTTGATGAATAAAGATGGGGTTCTCATATCCGAGGGCCAAGGCTTCATGACAAGGGAGTTTCTAAAGAGC
CTGCGAAAGCCTTTWGGTGACTTTATGGAGCCCAAGTTTGAGTTTGCTGTGAAGTTCAATGCACTGGAATTAGATGACAGCGACTTGGCAATATTTATTG
CTGTCATTATTCTCAGTGGAGGTAAGATTTGTCTTTTGATCTTCTATGAAAGAGGGTGGGATGATGGTGGGGTGGCCAAAAGAATTTTGGATTTCCTTAG
TGTTAGTCTGCATTGTCACTTTAAGTGCCAGTGGCATGATGCCATGAATCATCACTACACGTGCAAAACACTGTACCAAGAAAGAGTGTCATAGGTTTGC
GGTGTGAAGGTTATAAGTAACCCAGGATCTTCTCTTTCATCCCTCAACAATATATTTTTTCCAGTCAAATGCCCTCTTCTCCTTTTTCTTTTTCTTTTCT
TTTCTTTGTCTCTTTCTTTTCCTTCCAGAAAGGAAGATTAGAGGCCAGTCTAATCTTTGGTTCCTGTAAGTAATGGCATGTATAACTTTGCTTAAGACAA
TGCTCACTTGATGTAGAGAAGGGACCACTAAGTATTTCTGGTCAAATCATGCTCCTGCCCCACCATCAGTAAGATACTACTTTGAATTGCTTTTGTGATA
TCAGGAATTAAGGAATACCTACTGACCTCCACCCACTCTCTTGTGTGGATTCCTCTGATGGCTTCCCTTAAAGTACCTTTGTGAGGTAGTTGGTTGTGAT
TAAGAATGCAATGTGAACCGAACACACAACATAGAAATAAATTTAGTTATTTAGCAATTTGTTGTATTTTTGGCCCTGCAAGTAGTACATGATCTGACTA
ACCAATTCCAAAAGCCAGATTTTYTTYTGAGTGTGACTTTTTTCTTTTTTTTTTCTTTTTTTTTTTTCCTTTTTTTTTTTTTTTTTTTTTTTGTGAGACA
GGGCCTCACTCTGTCACCCAGACTGAAGTGCAGTTGCACAGTCATAGCTCACTGCAGCTTCTAACTGCAGTTAGTAAGCTATGATCATGCTACTTCATAA
AAGTAATACGTGGCCATTTTACAGTTGGGCTCAAGTGATTCTCCCACCTCAGCCTCCCAAGTAGACAGGACAACAGCTGCACACCAACATGCCCTGCTAA
TTTTAAAAATTTTTTTGTAGAGATGAGGTCTCATTATGTTGCCCAGGCTGATCTCAGATTCCTGACCTCAAGCAATCTTCTCACCTTGGTCTCCCAAAGC
GCTGGGATTATAGGCATAAGCCACCACGCACAATCTAAACATTACTTTCATTAGCCTCTCATGAGTAGAAGAAAGTTTTACTTTCATCTCTCTGTATAAA
AATTGTTTTTAAGTGGCAAGTTTTCCTATTGAAGTGGACTTTAGGTGAGCTTTTTGTATGTACTCTACAGTGTATCCTCTGTGAAAAACCCGTCGGGGGA
TAGTGGTAAACTGTATATAACTGCACAATGTATTATAAAGAGCACGATCCCTTTGTCATCTTTTGTTGTCCAGTTGAAAGGAGAATGTTTCTGAAATCAG
GTGCATAGTGCAGTAGTCATAAGAATAGCAAACATTTATTTAATACTTGCTGTGTGCCAGGCAGTGTTCTAAGCACTTCATGCATATTTATTCAATCCTC
ACAACAATTCAGGGAAGTAAGGACCATTTTACAAATGAGGAAACCAAAGCACTGAGAGGTTTTCTCATTTGCGCAAGGTTACGTGGCTAGCAAAAGATGG
AGACAGGATTGTGAGCCAGGCATGCTGGCTCAGACTCTACACTCTCTACCATCACATCATGCGGAATACCGGCCTTTAAATGCCTAGGGTGCAAATAGAT
CACAGTATGGCATAGTTTACCTTTGGAGCTGTGAAGTCCAGGGTCAAGTCGTGATTCACTTTAAAATAACTACTTGATATTGTGGGTTTTTGTTGTTGTT
GTTGTTTGTTTTTTGTTTTTTTGTTTTTGAGGCGAAGTCTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCACAATCTCGGCTCACTGCAATCTCCACC
TCCCGGGTTCAAGGGATTCTCCTGTCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACATGCCACCACACTCGGCTAATTTTTGTATTTTTAGTAGAGAC
GGGGTTTCATCATATTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTATAAGCATGAGCCAC
CATGCCCGGCCGACGTTATGTTTAATAGAACAAAAATATACTACCTGGCATGGTTTAATATCTTGACCAAATTTACTTCCTAAATTAATCCCTGGCTGTC
TGGTATCTTTGATTAATTCAGCAAAAAAGGATGAGATTCCAGTATATAAGAGGTTTGCCAGAAGAAAAATATTAAATTTTGAAAAACCAGATTAGAAAAA
CAGTTGATATTATTTATCTAGTATTTTATTTTACTTCATTTTATTTTATTTTATTTTTTGAGATGGAGTCTCGTTCTGTCTTGCAGTGGTGCGATCTCGG
CTCACTACAACCGGGTTTTCCGCCTCCCGGGTTCAAGTGACTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGATTACAGGAATGTACCACTACACCCAGCT
AATTTTTGCATTTTTACTAGAGACAGGGTTTCACAATGTTGGCCAGTCTGGTCTCAAACTCCTGACCTCATGATCCACCTGCCTCAGCCTCACAAAGTGC
TGGGATTACAGGCATGAGCCACTGCACCCAGACTATTTATCTACTATTTTAAGGCACATTTTATTTTTAATAAAATTTGAAAATATATTAATATTTAATT
TATTTCAAATATTTTTCCTAAGCATACTATATATCYCATGTCTATTCTTTTCACTTAGTCAATTTCCCATGTCATTACATACTCTTTGTTAATAGTTTTT
GTTAACTTTTTAAATAAAAGTATTACATGGTCATTTTATAATTGAGAGTACAGAAAGGTATAAGTGAAAAGTAAAGGGCTTTGCCCTCAGGATAAAATAG
AATTAACAAAGTCCTATTTTTCCTATCAAGAAGTTTACATGCACACTCATGTAGATAGATACATACATACACATATGTGTACRTTCATAGCAGTTTGTAT
TCCTACCCACATATACGAAGGGAAGCATTTGAAATGAGCCATTCAAAGGTACTTAGTTTCTACTAGGCAAGGTCTAGACAAGAAACAGTCATGAGAATTC
TGGGCTTTATGAAGTGAGATCTGAATCTCAGGCATCTATCGAGGATGAGATCCACCTCCCCGATTGTGCTTCCTTAGAGTAAGACAAAATTTCTCAATTA
GTTTTTCCTCCTATTCCAGATTTTCCATTCAGCTAAGCAGGAGGCTTTCATCCACTAAACAAATTTCTGATCCTACCCAGTCTTAACAAGAGTGATTGTK
TTCTCCTCTGCAATTTATTCGAAAGTCTATCAGTTACTTTGGTGGTTTCAGAAAGAAGTGCTTTTGTTGGGGATCCAGTTGGCCTCATTCTRAGCTGGCT
GTGGATTCACAGAAGAACTTCACTTCAGCAAAGGCTCTTAGGGCCCCAGACTAAAAGAAAGATGAGCAAGATGTGCGTCATCTAAGAGTGGGCGGGGGTA
AGGAATTGGGGATTAATGGGGGTGTCCCTAGAGGACCCAAAGAGGAGATTTTTAGATGAAAGTAACTGATTTGACCCAACTCAGTATTTGCTGGGGAAAC
TGGAGTTGCTACCTAAGATTGCTGCCATTGAACTTCAGCCTTAAAAACTGCTGATACCATTTGATTGGTACTTAGATTTGCCTGGGCTTAGCGTCTCTGC
TGTTCACTCAGCTCTCAAACCAAGCTGCTGAGAAAGATGACCTAGTTCTTCTCGAGTCTTTCTCCTCTCTCTCTTTCTCCCCTGAGCTTGGGGGCAAGAA
TTAGACTAAATGAAAGGAACAGCAACCTATTCTAGAACCAAAGTTCAGGACTTGGTACCTTTTTAAGGGCATTTCATGTTCATTCTCTCATTCCATCCTG
ACAGCGCTCCTGGGCTTTTAATTCTCATTTCACAGAAAGAAAAGTGAGGGTCGTAAACTTAAGTGATTTGTCTGAGATCTGACAAACTAGTGCCACCGTG
GAACTAACACTGAAACCTGGGTGTCCTAACTGTCCCCTCTGGCCCTGGCCAGTGGACTGTGGTCAGCACACTCACTCTTGTGTTGGTGGCTGCAACCTGT
TCTCTATTCACTATATCCCTAAGGTAGGCCCATACCTAGAAGCCAGGAACAGCGCTTCCTTGGTCATCATGGTAAACAATAACTTCCCTTGCACTCCCTA
GTCTTACTGACAGGCTGGGCGGTGTCAAGAGTAATAAAACTGCCTCCAGCAAAGCCATGTTTGCAACTGGCGCCGCAGCATCATGCCAGCCACCCTAGCA
AACTCCCAAAACCTACCCAGCAGCCAAAGCCAAGCGTAAAGCTCAGTGAAGCTGACAAGCCCCAGGACACTCTGGTGGATGTTTTGCCCCCTTGAGTGTT
TGCTGTTTTGTGAAGAAAAAGTGTAGGAGAGTTCCAGCTGGAACTCTGCAGCAGGCAAAAGCTCTTTTTGTTAATTCAAAACAGTTTGGAATCCATTTCA
GTTCTTCCTAAACCTCCAAGATACGGGGGAGGAAATTCACTGGRTTTTACAATATATTTTTCAAGGCAAATTGCCATCGCCGTCCTAATGACAGAGAAGC
TGCCGATATCACTACAACGGCTGCAGATGGCAAGTCATCCAGCCTCCTCCTGTGCCCTCCTGAGTCTGGCTTGGTGACGCAAACCACCTCAAGGGCAGCT
CCTTCTTTTTCCAGCAGTCCCAGCACTGTTCCTTCTCTGTGAAGCCACTTTGGATGGCTATTCTTGGCATGATCATAGACTTTTCTGCTGTTGAGTGGGC
AAGGAGAATAGGGTAGAAGCAGGGGAATTGTTCTCATTGCTATGCATTTATAGATCAAAGAGGAGCAGATATTTTATGTTAATTGGATAACACCTAGTTC
TATCAGGTCAGTAACCTGGGGTCCCTGGGGCTCCCCCATGGGTCATACCAGATAGATAGATTTTTTAAAAATTTGTTGGAATTAAAGTAGAATCAAAGCC
TAGTGCTAGCCCAGAATAAGTTATTCAATAAATGCTTGTTGAGTGAATAATCATCCGAAATGATTATAATACTGCCTACCATTCRTTGAAAGCTTCAGTA
TGTGGGAGAATCTGTCCTGGGCACTTTATATACACCCATAATCTGTTTGGATTTCTTGGTAGGAAGACTACATGGCTGCATACATGGTCTTTCWTTACCT
CCATTTTATAGATGGAGAAAATGGAAATTTAAAGAGGTTAAGCAGTTTGCCGAAGGTCACAGAGCTACTAATCGGTGAGGTCAAGGTTCAGACCCAGGTC
TCTCAGACTTTAAAACTGGTGCACTTAACCATTAGACTCTACTTTTTGCGTATTGAGATGTGGAAGCATCTCAATTAATTGCTTCAGTCTTGGAGTTCTT
TGGCGGTTATCAAAAACTGCCTATTTCCATATTGCCTCCAGATATTGTAATTAAGAATTTCCAAGGCCAGGCACAGTGGCTTATATCTGTAATCCCAACA
TTTTGGGAAACCAAAGTTGGAAGATCCCTTGAGCCCAGAAGTTTGAGACCAGCCTGGGCAACATAGGGAGGCTTCGTCTCTACAAAAAATACAAAAATTA
GCCAGGTGTGGTGGCGCATGCATGTGTAGTCCAAGCTACTCTGGAGGCTGAGGCAGGAGGATTGCTTAAGCCCAGGAATTTGAGGCTCCAGTGAGCTGTG
ATTGTGCCACTGCACTCCAGCCTGGGCAAYAGAGTGAGATCCTGTCTCAAAAAAAAAAAAGAAAAGAAAAAGAAAAAAGAATCTCCAGATTATAGTTCAG
ATATTACGTATTAATATCCAAAGCCCTCCTTAAGACACCATTTTAATCTGTCTAACAAAATTAACACCCTAGGTTTTGACAATTGCTTGAGGAGGGAGTA
GGGCCTGGTGATAGAGCTAAAGACTAGTGTTCTGGTTCTTTAATTTGTTCAGCCAGCAGGTACCTGGAAATAATGATACTGTTTGCAGAACTCCCCACAA
AAATGGACAGTCAACTTTAAATAACTAAGTAAACACATCTCTGCTTAATCAGATACCATCTTATACTAGGTTCTAATATAGATAAGTGGTTGCAGAAACA
TTTATGAGAGGAATGTTAAATTGTCGAAATACCATCCAGTCCCTTCATTTCTTCCTGCCCTTCAGAAACAAACAGAATAACCCTGATGCAGCTGTCACGG
CAGAACACTCATTCCAGCTCACAGAACACCAGTGTTCAATCAGCACTGAGTTTGAGGAGCACCGGGTTTGGGAGTATTCATCTCTCTTCCCTGTCCCATA
GCTGCCCTTCAAACTCTTGAGACTGTTYCCAGCTCTAAAATGGAAAGGGTCGTCTTCTCTCTGGAACAAAAGACAGGATGTACTTGCTTGAATAGGCCAG
TGCTTTCCTGGAGGAAACTCCGGCTTATGGAGCCTCTGCTTCTGCACAGCCCAGTGCCTTCCACCCCCTSTTCATCTGCTAGCATCTACATTACTAGTTA
ACTGGAGAGGAGACCAAACCCAAAATATTACAAAACATAGATATTAAAAATACTGTGAACAACAATCAGCCCGCTTTCTCCCACCTCTCCTRTACCAGCT
AAATATTTACMTCCCTCATCCGTAGAGGGTTTTTGGACAAGACAGGCTGGTGCCTACATGGTGAAAGTTGTTTTTCTCTCTTTTCTTGTAATATTGCAAA
TAAACAAGGATATCTGCTTTCTCTTGAGCAGGACAACAGCCAAAGAGTATTATTGCATAGTTCCTGTCCCCTATCTGGGCTACGATTGTGTCTGAGAGTA
ATAGCACTTATTTATTAACTGGAAGAAATTTTACAGGCACCTATGTTGTTTCTGCMTAGCTTCTGAGGCTCCTCTCTTAGGCCACTCCTCTCACCATGCC
CCCACAGCTAGTTGGTAAAATGGCTTTGAATAATGACTCGCTTTGAGTTATCTAGAAATGTCCCATTAGTTCACTATTTTCATAACCCCATAGACTTGGT
TTGACAAGGGTGAGGTTTATTTATGAGTTCTCAACTGGCACCCAATTTTTAAAAACCACAGAGCTGGGGGCGGGGATAGAATGATGGGGAGGAGATGAAA
CATCCTAGAATCATCTGATATACTTTAAACATATACATATACAGGCTTTTGTTGTTTGTAAAATATAGAAGCATCTTTATCTGTGACTGGTTGAGAAATA
AAATCCCTTCCCCAGCCCAGGCATGGTAGGTTGGGATCATCCCAGTGAGCGAGCAAGCAATTGGATTTGCCCTCAGAGACTGACTATGGGGTCGAATGCT
GAGTCATTCCTGTCCCCACACCAGCAGTCCTGGAAGAGGCTCAGTCGATCAGTCAGTGGGCTGCTTTCTGGAGCACTTTATCATTTTGGGCTCTCACAAT
GTGTGTTTAAACTCTGAGTGACCCCAGGCAGCCTTCCAGACTGGCACAGTTCACCAAGACGTTCAGACAGATCATCTGCAAGTGAGGAAGAATGAAAACC
CAGCACTGGTTCAAATCACTCCTAGCAGAGGTAGTGAAGGCATCACTCAGTCCTGGAGAAATCTTCGGAGGGCTCACCAGCRTCACAAGTAGGTAGACCA
GAAGAGGCAGGCTGGCCCATTGCAAAGCCCTGGAATCAGAGGGACAGGAGTTCCAAATCCCCACTCTCTCTCTTCCTAGATGTGTGCTTGCGGCAATTAT
TTATCTCTCTGAGCCTTAATTTCCTTATCAGGACCCTGAGCAAACCAAATAACATGATGTGAAGCCTCTGGCACAATGCCTGGGACATGTTCAGCACACA
RTAAATGCTAATTTTCCCTTTTGCCCTATATGATATGATTTGAAGCAGCGCCACTCARTCCTGCCAGTCACATTGCTGGAAATGCCACCAACAGTCATTC
TTAAGATCGCTTATTACAATATAAATACCCCTAGGGGATATCAGCTAATCGCTTTATCAACTATCGCTTTAAGGGGATTAGGTGTGGATTGAGAACAAAA
CCCAGAAGGAAAGAGATCCTGGAGGAAGGGGAGGGCTTGGAAGTGGGGAGGATTCGGACGTCCTGTGGCCCCCGAAGGAGACGGGGAATGGCAGGTCTGC
TGGATTCCCAGCCTTCAGGAATTCCCATGAACTTCTTGGGGACTTCATGTGTTTAGACCATATTTAGAGAGCGTGCATGTGTTTTGAGATCACAGGTTTT
TCTGAGAGACATTGGGAAGGAGGACAGCGGGGGAGTGGAGTGGAGAGAAGTCATACCTGGCAGCTTTTAACTTCACTTACTGCCCTTCATGTGCTGTTGC
CATTTCCAGAAGTTGAGGGAGTAAGGAAGGGTAGGAGTTCTTGGTATTCCCTTATCTCTTCCTTTCCCTCCCCTTATCCTGCCCAGAGCATCGCAGGGTA
GAGCCACCAGAYGGATTCAGGGCATGGAGATGGCAGGTTAGTGGTAGACTTGGAAGGGATCGTTCTTCCTATTTCAGCACCACCCTTCTTCCTCTACCTC
CCACCCTGCATTTCCAGCCCCAGTCAGATTCCTTCTTGGACAGAGAAGGAGCAGAAATGTACGTACATCACTAGGCTTAAGGGGGGACTGCAGATGGCTC
CCCTGGTCCTGACAAAAAGGTGGGGAGCAAACCGCATGGCTGGACGTAAATTGAGTGACCTGGAATGACTAGAACGACAGGGGGCCTCTAACCCCAGGGT
GCACAGAGGTAGGGACCCAAGGGCTTTCCGGGGTCGGACAGAAATCTCGGGTTCCATTTTCACTCTGAGAGACCCAGAAATGACAGAGCCCATGCTCAGT
TTCCACTGGTGGTGCTGTTGAGTGGAGGGGCTTTGAACATGGCACACAGGAAAGGGTTGCCCACCCTGTCACCAGATGGGCTTGCACTGTTTTGTGGTTT
GGGAGTTGCAYATTGGAGGTGGGAGTGGAGTGTTGAGATGAGGCAAGTTGAGATGTAATCGCTATTTAATGGGCAGATCARAGAAAACATTGGCTGGTTT
GATTTTTATTATGGTTATCCCGCTCCACCATCCTGGCCCAGTCATATATATTATTGTTATCAGGCATAGATAGGGGAAGCAATTAAATGTGAAACTGTTA
TTTAAACCGGCAAGTGTCAGAATGTTAACCCACTTCAGAGCGAAGGCTCTACCAGCAACATGTGTGTTCASTGCAGAATGTGCTGGTTACAGATRATCTT
TATCTGTTTGTCAAAGCATTTGCAAGATCTCTATTTTATGTCATCCCCTTTCCCTGAAAGCAGCAGCAGTAAACGACATTGCTCCTCAAATCATCCATGG
CTCAGACCTCTGATTAATTTAAGCTGGCCCTGCTAGCGTTCTTATAAATCCCCAGCAAGATGCAGGCCCAGGAGTGGAAAGGGGAAAACATCCGGAAAGC
AGCGGGGGGCAGGGAGGGGGAAGGCTGAAGGGAAAAGAAAAAGGCTGAAGGGAGCAATAATTGAGGAAGAAAGAATAGGAAAAATRTAGAAAGGACCCAA
GAAAATCAGAGAAATGAGAGGAAAAGAAAGGTAAGAAGAAAATGAGGCAAGTTTACAGAGCAGTAATGAAAATAGTAATAGCTAATTTACTGTACAACAG
ACACTGTGCTAAGCACTTTCCGTATGTCCCTCAGTCCTCTGACCAACACTATGAGTTAAATTACCGCTACAGCTCCAATTGTTAAAGTGAGGAAACTGAA
GTATAGAAAGGTTAAGGAACTTGCCCAAGGTTACCTAGCTTGCAAAGTTGTAATTCCAACTGCGTCTCACTCAGCTGGCAGTGTGCACCCTTGGCCACAC
ATTAGAATCACCCAAGAGCTATTAAAAATCYTGAAGGTCATACCCCAGGCAAGTGAATCAGAATCTCTAGGGATGGGTCCCAGGCATTCGTTTGCTTTTT
TAGTCTCCCCAGATAATTTTAATATGTAGCCAAAATTGATAATCCCTGCACTAGACSAAGCTCCGATTCAAATTTAAATATTAAGAGGACACATGTATAA
CTTTGCTGAATAATTTTTTCCTATCGGTAGGATGGTGGGAAGGAATTGCTATAGGCCRCACCATGATACTTTGCTGAATTGGATCAGAAAAGTACCCTCA
AATTCCCAGCATCATTTCTTCAAGGAAGTAGTGAATTGGGGCACYGTGGGTTTTTTGTTTTGTTATTGKTCTTAAACCACCTTGCCTATGTGCACTCAAC
TACAGGAACGAGAACTTGCCTGAAACCCCAAACGTGTCTGCATCAGGCATTATTTTTCTTGAGCTCCTGAATTTCTGCTCTAACCAAGAACAACTCAAAA
ACCTTCAATTTCATAACTGTTGATATGCCACCCACTCCTACTTACACTCCTGACCCCAACCCCATGGAAACTGCCTTTATTCGAACAAACACAAGAATTA
TAATATGTTCTAAAGTTCCTCTACCTATTTCATTCTCACCATACGCTTATGAAAGAAATGTCATTGTCTTGAAAACTAAGCCTAAACCCAGAAAGATTAG
ATGATTTGTCCACAGGCACACAGAAACTAAGTGGAAGAGAAACAGGACTCAAGTCTTCAGTTTCCCAATCCACTGCCTCCTAGAACATGCCTGTGAACTG
AGGGAGCAGTGCAATAAAGGAAACTTGAGAGGAAGCGCAAAAGGAACTTAAATTGCAAAGTACTGGGTTCCCTAAGTAGCCCTGCCTCCCCTCCAGTTTT
CAGCCCACACCTGAACTAAGGTCTTTCATTGTCTGTGGATCAATTTACAGCTGCCCTGCAATCACATTTGTTTTGTTTGTTTGTTTGTTTTGGTTTTGAA
CGCCCTAGGGACAGTCGGTTTCAGATTAGTCTCTATCAGAGAGCCAATAGGGAAAGATGCAGAAAGCCAGGAGAGCAGCTCCTAGAATAGAGACAAAACC
ACCTGCATTTTTTCTGCCTCTTCTTCAGGAGACTCCACTGTGGTCATCTGGTTCCCTAATTGAGACACCTCCTGAGAAAATCTGTGCTAGGGAAACACCC
AGCCCAGGTGGGCAGATCTCAAGAGGACCAGAACRTTTGAATCTGCTTCAGATAAACCCTCCACTTAACAGTACCAGATCTGGACRAGATGGAAGCTTTG
TAGATTTGCCCATAATCCACAGTGCTCTGTAATCAATTCCAGGACCGTGTGGATGGAGACCGGAAAGGTTTCTTTCCCAATTCTTCACAGCCTGGGGAGT
AGGGAACTAGTAATTGACTCCAGCCTCCTCGAGTGCTAAGTCCTGGAGTCTGAGTCACACACACTTCCCAAAAGGGCCTTCTAAGCAGCCTACCCCAGCA
GAGAGGACCCTTGGCCCTGGCCCTACTCCAGACTCAACTGTAACCTCAGCAAGGTGCAGGGAGAGGATCTCAGGTGGGCCTCCTGGSAACAGTGCCTTTT
CAGGCACTAGGCTGTTGGGAATGGAGAGAGAAGAGAAAGGCCCTGGCACTGTCTGGGTATTTGGATGGATTTCTGTGGCACAACTGTGGCACCTGGCTTA
GCTCAGTAAAGGACTGAGTGTGCGTGGAGCAGAAAGGGGAAAGAGACTAGTGGGGAGCTGGTGACCAGTTGGAGGGTGGAGGGTAGGGAACAACCCTGGC
AGATCCMKTTTGCCCTTGACTAGAGCTTAAAGACCAAAGGAAGCGTTCTTGTTTTTAAGTAAGTCAGGTGTTCTAAGTTTARTGTTAATATGCTTTTTCA
ATTAGATGTTTGAGTATATTTCCCCAGTTGAATTATGTAGAGGGAATTACAAATGAGAATACATCTTACAATTTTTGAATTAGAATCTTTGAGATTATCT
ATTTAGTCCGGTCTGTTTTGTTTAGACAAGAAAATTGAGCCCATTGATCTTAATCAGTTTGCCCAAGGTCACAGAGCTGGTGAGTGAAAGCTTTAGATGT
AGAATATGCAACTTTTCTCTGCTGCCCTCCTTCCCTAAACCATCTTGCCTTAACGGAGGCTCAGTCAGGGGGACAATGGGACTGATCTGTAAATGATCTA
ACTTGTCATTGCAGAAAATATACTTACTCCRTGGCCACAAAATTTCAGCCCTTCAGCCAAGCTTCATCCATCACATCATAAAGAATAACTTGCCAAAGAG
GGGTTTGAAAATCCAAACCAGATCCCTCTCCACTCCTAGAGAGGCCAGTTCCATGACACTGCACCGGAGCCAAGTGTTTCCAGCAAGCCCTGATCAGTTG
CATGTTAGTCCTTGTTTGTATGATAAACGGGACCTAGTAGATTAACATCATCTCCTCAGCCCAAGGGCTGACCCCAGTGGTGCTGCTCAAGAGGAAGGAG
GAGGCTGGGAGCGGTGGCTYCCGCTTGTCATCCCAGCACTTTGAGGGGCTGAGGAGGGCAAATCTCTTGAGCCCAGCATTCAAGAGCAGCCTGGAAAATG
TAGAGATTCTGTCTCTACCAAAAAAAAAAAAAAAAAARAAGAAGCAGGTGGAGGAAGGAGGAGCTGCAGAAAGGCTCCGGGAGCCAGTGTCTAGTAAGCA
GAGGCCTAGCCCAGGCTGAGTGGTCCCAGCCCAGGAGGGCCTCTCTCGGCACCTGTCTTTAGATGCACGTCTGCCTCTGGCCTTTGAGATGCACACATTC
ATCAAGCAGGAGGATCTGTAGTCATTAAACCAAGGTGCCAGTCTGGGGCCCAGCCTTCAATGAAGCATCAGTGGCTTTTTCATTCCCATAGAGCAACKGC
GAGGAAGACCCCATGCTCCCAGGGGCCCARTTCTCCAGGCCAGGACCAGATCATTTGTTCCTTCTCAGAATCTGAGATCTTTTGCTGATGGTTCCAAAAT
TGAATGCTGAAATCTAAAAAGAAAATTATACTTACTCTGGTCAATGGGATATGTTGGAGACCTGAGAGTGAAAAAATCAAACTGAAGACCAGTTTCCTTC
TTTAATGGAAGAAAAGTAAGAAAGTTAACTTAGAAGAATATTTAGAGTTCTGAAAATCCCACTCTGAGACCACTCTGCCATCTCACATTGTTCTCTTGAG
CCTTATCTCAATGGATAAAGGTCACTAGAGTTTATTAGACACAGGAAAACATCGTTTACRGACTTCTTCATTGTGTAGGGATTCTGCCTTCAGGCCTGTT
CACCAGCCAGGAGAATTGTGCTTTTTGATCCAGGGCTCTTGGCCAGAACAGCCTTCTCGCTCATTAACTCAGTCAACCAAATGCTTCCTGTGTTTCCACT
GGTGGTTCAGAACGTAGTCTCTGCCCTCTRATACCTCAYGGTCTAACGGGGGAGAAACAAGAAAGTCAGAACTTACAATACAAGATAATAAGGAATAAGA
GCAGAGCCTTTGGAACCAGACAGACTTAGATCCAAATGTCAGCTCTGCATTTACTAGCAAGTGGTCTATCTTGGTAAGATGCAACTYTTTTCTCTAAGTC
TTAATTTCTCCCTCTGTAAAGTATGACCTCATGGGGTTATTGTGAAGATTAAATGGCATATCGTATATAAGGCCCTTGGCACGATCTTTGGAAAATAATA
ACCATTCAGTGAATGTAATCTACTAGTATAGTAGCGATTGAGGTGTTTATAGGGTGCTATGAGGGCCCAGAGAAAGGAGATGAGATGAACAGGAGAGAGG
AAGGGATACTGTTGAGGAAGGATTTCAGGATGGAATCCCACCACAGGCTGTATTTTGAAGAAATGGTTGAAGTCAATAAGAAGAGTGAAGGGAAGGTGAG
AATGTTTCAGGCAGGAAGAATAAAATCTGAATAAGTGCAGAGTCCTGACAGAACATAGGGTGTTTGAGGAACTTGGTATGGAAATAGATTAATATGGCTT
AACATGGAGCAAAATGAAACAGAACTGAGACTAGAGGATGACCAGGACCAGGTCATGAAGGACATTAAAGGTGGGTAAAACTCATACCATGAAGGAGAGA
AGAGTTACAGTTTTTAAAAGAAAATAAATAGCCTTCAGGAGCTCAAATTTGAAATCAATACGAGATAGATGATCAAGTGAATGTTCTGTCTTCTTGATGA
GCCTGACTGAGAAAACCTTATAATCTAACCCAAGGCAACAAACTGAGAAATTAGAAAATAAAACTTAGAGATTAGAAAACAAAAACTGAAACCCAAACTT
TTTACTTGGAAATTTAAAAACATGCTTCTATATAACTCTTAGGTTAAAAATGAAATCAAAATTGTAAGACAAGCTGTTTAGAAAAGAACTATGAGAGTAC
CGTTTATCAAAGCCCATGGGATGAAACCAAAGTGGCACTAAGAAGAAAATGTGGAGGCTTCAATGCATTTATTAGAATACAAAGAATACCAAATCAAATG
AATTAAGCATTCAACTCAAGAAAACTAGAAAAAGAGAAGAAAGTAAACCTAAAGAAAGTTTTAAAAAGGAATTCAATAAATTAAAAACAAAACACACAAT
TTTTAAAAACAGACTTGATTAATAAAACCAAAAGCTATGTCTTTTTTAAAAAAGCAAAAAATAGATAAACCTTTGACAAATCAGATTTTTTTAATGAGAG
AATGCACAAATAAAGAGCTCTAAGAGCTGGGCAYGGTGACTCATGCCTATATTCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATTGGTTGAGGCCAGGA
GTTTAAGACCAGCCTGGGCTACGTAGCAAGACCCCACCTCTACAAAAAATTTCGAAATTAGTTGGGTGTGGCGGCTCATGCCTATAGTCCCAGCTACTTG
GGAGGCTAAAGCAGGAGGATCACCTGAACCCAGGAGTTGGARGCTGCAGTGAGCCATGATCATGCCACTGCACTGGGCAACAGATTAAGACTCTGTCACA
AAAAAAAAAGCRTTAAGTTAAGGAGCGTGAATAAAAATAATACATTTCATATTCTAAGACAATATCATCTACAACTTTATTCCAATATAAATTACTAAAA
CTTTACCATATAAGTAGTAGAAAGCCTGAATAGATAAAAGCTATGGAAGAAAAATTAAAGATAGTGATAGATTTATCACCAAGCTCAGATGGTTCTGCAA
ACAAATTCTAAGAAACCGTCAGGGAACAGATCATTACTGCGTTGACACAGAAGGCAAACCTCTCAACTTGGTGTATAAGGCTAGTTAACATTGTTACTAA
AACAGGCAAAGAATGGCCCCCAAAATAACTCTAAACCAGTATCACCTACAAATACAAAAACTCTATATAAAATATTAGCAAGTGAGTACAAGAGTATAAG
GAACTCTATTAATGTAATTCACTGTGCTAGGTTAAGATAAAACCATAACTCTTCAGATATCATAGCTCTTTAGATAGAAAAATGTAAAAGTATTTGATAA
AAATTCAACAACATTCCTGACTAAAACAAATTAAAATTKTAAAACCCCTGGAAAGCCAGGAGTAAAACATGTTCTCCATAATCTATAGCAAACATCATAG
TTGCTGATAAACCATTAGAAGCATTTCCTTCAAAGTTAGGAATAAAACAAGAATTGCTACTATTGCTACTATTATTTAATCCCATATTGGAGGTTTTAGC
CAACACACTATGGCAAGAAGAGGAAATGAGAAAGGTTAATGCTGCAAAAGAAGAAATAAATAAAGCTACCATTGCTGATATAATTATCTATCCAAAAAAA
GTAGAAATCCATGATTAAAAGCTATTTGAACTGATAAAAGTTCAGAAAATTGGAATTGTTTCAATATACTAAAATCAATTAGTTTTCTGCACATCAGTGG
GGATATATTAGATGTAATGAAAATGAAGGGTCCATTCACAATAGAAGCTATAAAGTATTTGAGAATAAATCTAACAAGATCTACATAAAGAAAAAAGTAA
ACTGCTTAAAAGTAATTTAAGTTCACCATTTGCAAATTGAACTAAAGAAAAATCTAAAGAAGAACTAGTGAAAATTGCTTGCAATCTTACCACTGAAAAG
AAACCTCTGTTAAAATGTATCAGTATTTTAAAACTGTGTTTTGTCCTTTGGAAATATGCCATATTAAGCAAACATAGCATAAGCAAATTAAGCAAAAAGA
CAAACCTTTTTTTAAAAGCATATTTGTGAAAAAAGCATATTTGAAGCTATGATAAGAAACTGAGTAGAAGCTATAAAACGTAGATTCATCAGGAAGGAGC
AGAAGTTGAAAAGGAGATTTCTGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACTTGAGGTCAGGAGT
TTGAGACAAGCCTGGCCAACATGGTGAAACCCTATCTCTACTAAAAATACAAAAATTAGAAAGGCGTGGTGGTGAGCACCTATSATCCCAGCTACTCAGG
AGGCTGAGGCAGGAGAATAGCTTGATCCCGGGAGGCATAGGTTGTAGTGAGCCRACGTCATGCCACTGCACTCCAGCCTGGATGACAGAGCAAGACTCCA
TCTCAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGGAGATTTCTGAGTAGAAACAYGTTAGCAGAGGAAACTTCATTTGGGGAACAGGATTGTTTTGATG
CCATGCTCCCTCAGCTGACCACACAGATTMCATCCTGGCCAKAAAAAGGCCCTGCAAAGAGCTCTGATCATTTTGGTTCTGATTCCRTCCTTAGTTCTTA
CCCATTATCTGCTTACCCTTCCTCCCCACCTATTTAAGATACAAAGCAAAACAAACCAAAAATACAGATGAGTTGCTTGGTAGAGCTGCCTAGGCCTCCA
AGGCGGGGCCCAGAGGATTTTTTGACTGAACCCCCTGTTGTGTTTTCCATATGTGCTTCCCCAGACCGCCCAGGTTTGCTGAATGTGAAGCCCATTGAAG
ACATTCAAGACAACCTGCTACAAGCCCTGGAGCTCCAGCTGAAGCTGAACCACCCTGAGTCCTCACAGCTGTTTGCCAAGCTGCTCCAGAAAATGACAGA
CCTCAGACAGATTGTCACGGAACAYGTGCAGCTANTGCAGGTGATCAAGAAGACGGAGACAGACATGAGTCTTCACCYGCTCCTGCAGGAGATCTACAAG
GACTTGTACTAGCAGAGAGTCCTGAGCCACTGCCAACATTTCCCTTCTTCCAGTTGCACTATTCTGAGGGAAAATCTGACACCTAAGAAATTTACTGTGA
AAAAGCATTTTAAAAAGAAAAGGTTTTAGAATATGATCTATTTTATGCATATTGTTTATAAAGACACATTTACAATTTACTTTTAATATTAAAAATTACC
ATATTATGAAATTGCTGATAGTATTTGAAGACTGAGTCTTGTGTGTTTCCCACCCTAGCCCCCAGGCTTTCTTTTTTACCCCTTTTCCTTCTCCCCTCCC
TCCCTCCATCCCTCTCACTCTTCCTCCCTCCCTTCCCTCCTTTCCTTCTTCCTTTATTTTTCTTTTCTTTCTTAGACATTTTAAAATATGTGAGTGGAAC
TGCTGATACACTTTCATTCTCAGTAAATTAATTTTTTACTCAATTTACAACTTTTCGGAACTCTGCATCTGCTTTAACAATCAGAACTAAGAAGGGAAGG
GGAACTTCAGAATCAGAAACTGCTCAGAGCATGTGTTTTGTAGCCTGGATGTGCTGATATGCAGCATATCCCTGGGATTACCCAGAATTCAGTCTTCTTC
CACAATCCTAACCGAGATTTTCACGCACCACCAGCAGCCTACTCGTATACTACCTACTAATCAATGCCACTGCGCACCCACAGAGCCAGTGGCCAGCAAC
TGAGCACTGCTAGAAACTCTGGGGAACACAGAACTTTTTTAAGATTTGGTATCTGCGCCAGGCATGGTGTCTCAAGCCTTTAATCCACGCACGTTAGGAG
GCCAAGGTGGATGGATCGATTGAGCTGGTCTCTTGTTCGAGACCCTGTCTCCACAACAGTTTTAAATATTAGCCATGTGTGGTGGCACACACCTGTAGTC
CCAGCTACTCGCAGGCTGAGGCGGGAGGATTGCTTGAGCCTGGGAGTTGAGGCTGCAGTGAGCTGTGATGATGCCACTGTATTCCAGCCTGGGCCACAGA
GTGAGACCCTGTCTCTAAAAAAAGATAAAAAAGATTTGACACCTGCCAAAAAGAATTTACCGATTATAAACTGAGGAGAAAAGATTAATCTTTTTTCATA
CAGATTCAAATACGCAGATGAAATCACATGCCAGGTGAATGGTAAGAGTTTGTAGGAAGTAAGATGAGTGAAGATTGGAATCCCAGAGACTGAATCTGTG
GATTTGCTGAAGAGGGCCTCAGGGAAGTGTTAGACTGGAATAGGTAGAGAGGAGGAGAAAAGACATTCCAGAGAAGCAAAATAACAGGAACACAATGAAA
GAAAAAAAAAACTGAGGGAGAAGAGCTACTTTCTGTTTTCTCCTTCTGCAAGGCAGTTTTGCTGTGATTATTCCTGTCCTCCTCCTTGGGACCACTCTGT
CCAGAGATCTCTTTTCTGAACTGAGAGGCTAACTATCCGCATCATTAATGGAATGCTTGCCTCCCAAGCAGATAGATTCTAAGTTCCCTGAAGGCGTGAC
AATCTATTCATTCTTGGCACAGTGAATAGATTCGTTGATTCAATCCACCAAATTCACTTGCATTGGCTACTCATGAACTCATCATACTATGTCTTTGAAG
AATGCCTTACGGGGTGTCTAAGGGAGAGAATAGAGTCATGGGTTCTCCATTTCTGTTTCTGACTGGGCCAATAAAGCCCCTTCCTCATCCCTCTTTTCCA
CTTACCACTAGGGACAGAAATTAAAAACCATGGCTTCAGGCTACTAAAAGCCTAAACCAAACCAAATCAAACCAAACAACAACAACAAAATAAGGCAGGT
TGGACAAGCTTACGAGTGTAACCAAACTATCTGGAGGTGTCTGTTGTGCGGGACGCTTATTTCCACTGACCTAAATTTCCCTGCCACTTCTCCCTTAATT
TATCTTGCCTTAGGATATTTACACTCAGGAGACATAACTGCAGACTTGAGGTTTTCAAGCCAAAATATCAAGAAAGACCTGTTCATCTTTTGCTTAAAAA
TAACTATATCTCCAAAGAATCAGGTTATAGAAGTGAGTACTGACCCCAGCCCTAAAAATGTAGGATTCCTAACCCTTCAGGAGAGACCTTTCTGAGCTCA
AACCTTTAGGATGACAGATAGACAAAGACTGAAGCCATTGTCTAAGTAACACCAAAACATTTGGAAGGAAAGTGACAAATTCAGTCAGTCATATGGCTCT
TTTTTTTTCTTCCTTGATGCCAAACATCAGGATATTTTGAAACTTATTTTCAAACACCCAGATGACTGGCTAGAGTCTTCTGTGTAGAGAGCTGATGGTC
AGGGATCTCTTGGAAGAGAGAATGTACAGGCAGTAGACAAGATAGAGTCCACTTCTGAGGCGCTCCCTTATTTACAAGCTTTCTTGAACAAAAAGTCTTT
CAGCCCCGCTGCCTGGTCTCAGTTCCCACCAGCGCTCCGCAGCCCATCCAAGCCTTTCCACATTATCGGAGCTGTTGCTGCCAATGGAAGGAGGAAGAGA
AACGCTCTCAGCTCTCTGGCACTGATGGTTAGCATTAAATGGCTTTTAAATCCTGGCAGCTTTCAAATTCCCATCTCTGACTTTTTCCCTGTGGCTTGGA
AGATCATTTGCTAAATATTTGACAACACTTTATATTCAGCCTCCAAAGCTCCTGCTCCTTTCTCCCTCTTTCTCTCCCCCAGGATGAATCATAAGTTAAC
GAATCTGTCATCAGTTATTCATAGTACTTTCTCTGGACACAAACACAYGTAGGGATGTGTGTTAATAAAAATAGGAAGAAAAGTAACTTTGGTCAAGAGT
CAAGAAAGGGTTTCCAGGCTCCCACAAGAGCCCTCCCCCAGCACCTCCCTGGAACGGGCTCCCTTTTCCTTCCTCCCGCTGTGTGTGGAGCCCAGGAACG
AAGAGGGGACACACAGAAGAAACAAAGCTGCACACCCTGTTTCTCCAGCCGCCATAAGAAATTAGGCTGGCCTGAGTTTCTGGCTCCTTTTTTACAATGT
GGGTGCAGAGCAAGGAGCCTAGGAGGCTCAGGGTCGGAAGAGGTGGCAGCACTAGCTGATGTCACATAGCGAATTTCCAACTAGAGGAAGCCAGAGGGGC
AGCTTCACCACCTCCACTGAGGGGCAAAGAGGGAAGGGGACAGAGGCATCTGTGGCGGGCTTTCTTGGTGGCTTCTGGACTCCAGTGACTTTTTCTTGGC
TCCCTCGAGGCTAAAAAGCAGGTATTTTCCTGGACAGGTCCTCCTTGCTTGACATCACCCGCTGACCGTGTGGTGCTGATGGAAAGAGCTGGGTGAGAGA
GGGGCTGGATGTTGGCCTCTGGATACCCATTCCCTTGGAAATACCTAGTGGAGATGGGCGGGTGCGGGGCTCCTAATTCTACATCCTGAGAGAAAGAACC
AAAGCTCATTTCCACCATGCCCATCCCCATTGCTTTCTGGTCCCCCTTTTCCTACTCATTCACTCCAAGAGTTTGGGTTATGAGACAGGAGGACCAAGAT
GCCTGATGGTCACTAGGTGGCCCCCTCCCTACCTTCTGCTCACCCCCTCATCCTGGTTCTTGACCTCAGCCCCTGGCTGTCTCTGCATCATGAATGTTGT
TATTTGCACGTCTCCACCCTGACCGTGGGATTGCACCTGGTACATCCTCCATTTAACACCAACTGAAAAGAAATAGCAGGGTTTTAAGAATTCAAAAGAT
CATACAATGTCCCAGAGCCCCACCGCATTCATTAAACACATAATCCATACTCCAGTCATGTCTAGCAGGTTATGATGGTGACCGCGACTAGGCCCTGCTC
TCAAGGGGGGCACAGTCTGTGGATGAGTAGTCACAGCTCAGCAGACGCAACAAGTGCCTAGAGAGGTGAAAGGATTTGCAGAGCGTGTGCATAGGCCCAA
GAGTGTGAAATTCTCCAAGCGTTCAGAAAACGGCCAGGTGAGGGGCGTGGCCCACAGCTCCCAGGCTAAAATGTGGATGTGGCCAGTCAGCGGCAAATTG
TGGGAGCCTTGTCCTCCCTGACGAGGAGCTCTCTCGGGCTGTGTTGGTAGCAACTGGGATCCGGGGATGCTGCCAGGCAGAAGAGAGACATGGTCAAATT
TGCAATTTGGAAAGTCAGCGCCCCGAAAGTCAACACTCCCCAAAGTAGAAATTCTCTCTACAATGCTCCTGATGGTTGCCCAACCCACAGACAACTACTG
AAGAGACAAGAAGCTCTCTCCCCTCTAAGGCCCTGGGTGATTTCCACCCCGCAGGCCTGGCTCTGCCCCTGGGCTCACACTTACCACATGCTTGCTCCTG
CACCCTGGGGGCTCCAGCTCACCTCCTTCCCTTTCATCTGGTCGCAATATCTTGCCTCAATCATAAACAGCTTAAGGACACTGGCCCTATCCCCTGTTGA
TATCCATTCCCTACCGTTGCTCATATTGCCCCAAGCTACAAAGGCCCTCTGCTTCCAGGAGCTTCGTTTCACCTTCTTAATCTAATTCATGGAGATCTCA
TGGTCATTTTTATCCACATATGTCAAAGCCTGCCTGTCCCATATCTCATGTCCAGAAAAGGCCTGCATTGGTCATAGACCTCAAGAAAATTAGAGGCTGG
GCACGGCGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGATCACCTGAGGTCAGAAGTTCAAGACTAGCCTGGCTAATATGGTGAA
ACCTCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGTGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGAAGAATTGCTTGAACC
CAGGAGGCAGAGTTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGCAAAAGAGTGAGACTCTGTCTCCAAAAATAAAAATTAAAAAAAAGC
ATATTAAAAACAAAAGAGATTATTATATAAGACACTTAGAACTGTGTGTAGCACACAGTATGTGTTCAATAAATAGCAACTATTATTGGAGACGGCACCC
TGGGGTGGAATGCAGAGTTACGCTGATTTGGGTTAAAAGTCTAACTTCACAGCTATGGTTCTAGGTCCATATGGCTTTGGCCAATCTCTTAATCTTTCTA
GGCCTTAATTGCCCTCATATGTAAAATGAGATAATATCCACCTTAGAGGGCTGTTATGAGGCTTAAATGTAATAATGGTTGTAAAACACTTCACACAGGT
TCCCGGTACATCCAAACCAGTCGGTAGTGTTGGCTGCGGGTAACGTTATTGCCGCGGCTGTTAAAGTGCCCCACCTTTAAGGAGGCATTCTGGGCCCACG
GGACAGGTCTTCCTGTGCAAGTGTTCTGGACCTCACCTGAGGAGCCTGGAAACTCAAAGCCGGGATTGAATTTGGCACTTGGCAGTAGAGTAAAAATACA
TTCTCTCAAAAGATTTTGCCTCCAATCTATAAGGATTAGGAGAAAAAAACAGTATTTGAAAGACAACTGCTGTGTTCTGATTTAGAACACATGCTCAGGA
TGAGGCTACAAAAACATTCTCTCCCCAAGTAGTGGGACTTTTCTCTTGTGACTTACACTCCTAATTTTAGMCTAATATTACATAGTTGGAATTTCCAGAG
GGGTTATAAAGAATAAGAAAATTGCTAATTTGAGTCTGTAGGGAGTGGGTTGGGATATTTTCATCCCCTCCGGAGCTGTGTAAATATGTTCCAGGCCAAA
AGTTCCCAGGAGAGTGTCATTCCTGGGGTCTATTTAGTGCCAYGGGCTTGACTCAAGGAGGATCCTAGTGGCTTCCCGCAAGAGTTGGAAAATTGTGATC
CCCTGGCCATTTTTCCACAATACTGGAAGCCGGAAAGTGTAGGTTAGAGCCCCCATTGTCCGTTTGAGACTTAGCACTGCCATTTTCTATGTATGTGGCC
TTGGGTAGGTCACTTTCCTCTCTGGGGACATCATACCTGGCCTGTAGAACTATCTCAGCAAATTACATCTAATTCCTTCATGATGAATGGGCCTCAGTTT
CCCTAGCCATAAAATGGGAATAGCAGCACCTACCCTGCATGTTTTATAGAGTAAATGAAAAAAAGCAGGGCAAGCCTGATCACTACTCTTTACAGATAAG
AAAGGCCCATAGAGGTGAAGGAGCTAGGCCAGAAAAATGGAGAGGCAGGGCTGAGGCTGGACCTCAGGCTTCCAGAGGCCCACCCCTGCTAGGGCTCTTT
CTTGGTATGCTGTGCTG


SNP Information

Context             (SEQ ID NO:4299):
TTTCTAGTAAGCCTTACCCTTGCTTATGGTTAAGTTCTTTGCCCTATCTCTCTCCACTCATAGGATCTCTTGGAACCATCCTATAAAACTACCCCCATTG
R
CCTATCATTTATTACTTAGAAAAGCTCAGTAGTGGTGTCAATAAGCTTTTGTCAAGAGGCTAGCCGGCTCACTAATTAGACCTTGCAACACTGGTTCTTT
Celera SNP ID:            hCV29259526
SNP Position Genomic:     14706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4300):
TGACCTATCATTTATTACTTAGAAAAGCTCAGTAGTGGTGTCAATAAGCTTTTGTCAAGAGGCTAGCCGGCTCACTAATTAGACCTTGCAACACTGGTTC
K
TTTTAGCTTAGCATGGCTGCTTAGGAATCCCTAGTCTCCGCGTCAAAGACTACAACTTCAAAGACTGGATTTTATAAAATCACAGAAGATGATCGGCCCT
Celera SNP ID:            hCV29259527
SNP Position Genomic:     14804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4301):
TTCTCTCAGTGCCTTGCAAACAGCAGCTCTAGTGTATATTGAGAAAAGGAAAAATTCTGAATGGCAAATACTAGATTTCAACTTTAACCTATTCCTTTTT
A
TTATTATTATTATTATTATTATTATTATTATTATTATTATTATTGAGACAAAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTAGGCTC
Celera SNP ID:            hCV26856800
SNP Position Genomic:     115450
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4302):
GGGAATTTCCTAAACTACTCTTTAAAATATTAATTCCTATTTTATGTATTGTTTTTGTGATACATAATGATATGAAACTAATGCCAGGAGAAATTTCCAT
K
TTGTTATTCTAAAGCAGACAAAATGGGATATGAAAGGGAAAAATGTTAATTATAGACTTCAACATTCTATGTTGGACCTCGTAGTTGTTCTGGTCAGAAG
Celera SNP ID:            hCV29259528
SNP Position Genomic:     19180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4303):
TGAGGTGGGAGAATCGATTGAGTCTAGGAGGTCGAGGCTGCAGTGAGCCATGATTGTGCCACTGCACTCCAGCCTGGGTGACAGAACGAGACCCTGTCTC
A
AAAAAAAAAAAAAAAGTTGTTATACTGTATTTTTTTATTTGTCTTATTTTTTATCATTGTTTTATTTATTTATTTTAGAGACAGAGTCTTGCTGTCACCC
Celera SNP ID:            hCV26856801
SNP Position Genomic:     121359
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,3)   total(A,2|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4304):
AAAGCAGTCAGGAGGCTGCTGCAAAATCCGGACATACCATGAGGAGGGCCTGTAAGAGTGAAGTGGAAGGGCAGATGTGGACGATGCTCTGAAGCAGAGA
R
TGATGCTCAAAGTGTGGTCCGTGGCTTGATGCTGCCCCACAAGTGTTAGTTACAGACCTGGCACACAGTAAGGGTAGATTTGAGGGTAAGTCTTTAAAAC
Celera SNP ID:            hCV29259529
SNP Position Genomic:     21032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4305):
TTAGTAGAGATGGGTTTTCACCATGTTGGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCTGCCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGC
R
TGAGCCACCGCGCCCGGCTTTGTAGCTCAGTTTTTAATGACAGGGTTTGGCTTTGATTCTGATGTCTGCACAACGCTCCCAGGGCTGTAAGAACTGCAGA
Celera SNP ID:            hCV26856802
SNP Position Genomic:     125508
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,4)      total(G,2|A,4) ;no_pop(A,-|G,-)   PGA-AFRIGAN-PANEL(G,7|A,41)   PGA-EUR(EAN-PANEL(G,17|A,29)   total(G,24|A,70)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4306):
CTGCTTTCTCACCTTCTTTTCATCCTCTAATTCATACCTGCAATCCTTATTAGAAATCCTGTCAACTTAATAGTACCAGAAAGTCAGGCAAAAGACTGAT
A
AAAAAAAAGCCTCGGTGGTCAAGAACTTAAAATTACACTACTGGTGTGCAACGTGCTCTTATCTGTGTTACTGGAGGACACCCTCAAGATACCTCACTCC
Celera SNP ID:            hCV26856803
SNP Position Genomic:     126908
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4307):
ATGATGGGACAGATTACTTCTGAAGACCCCTTATGTCCTATAAATCTCATAGTTCTCAACAAGAGGGAAACGGGAACAACAGGGGCAGAAACCAACGAGA
B
GCTGAGGAAACCAAACCAATGAGTTTTGGATTGTAGCTAACCGAGGAGAACCAGGTGTGTCAAAGGTGATGAAAGTCAGATGTGTAAAAAGCAAGAAGGA
Celera SNP ID:            hCV26856804
SNP Position Genomic:     129864
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,1|T,1|-,4)   total(G,1|C,1|-,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4308):
GGTGGATCACCTGAGGCCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTATACTAAAAAATAAAAAAATTTAAAAAAAATTGCCGGGC
R
TGGTGGTGGGTGCCTGTAATCCCAGCTACTCTGGAGGCTGAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCTAGATTGCGCCATTGCA
Celera SNP ID:            hCV26856805
SNP Position Genomic:     131748
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:4309):
GGCTGAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCTAGATTGCGCCATTGCACTCCAGCCTGGGCAACAGGAGCAAAACTCCATCTC
A
AAAAAAAAAAAAAAAAAAAATGAAATGGTTTGGCATGATGGTGGGGTGCTGATTCCTCTCTCTGTCCTTGAGTATTTACTGCCAGGAAATCCTGACCAAC
Celera SNP ID:            hCV26856806
SNP Position Genomic:     131884
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4310):
GCTGAGGAGAATCACTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCTAGATTGCGCCATTGCACTCCAGCCTGGGCAACAGGAGCAAAACTCCATCTCA
A
AAAAAAAAAAAAAAAAAAATGAAATGGTTTGGCATGATGGTGGGGTGCTGATTCCTCTCTCTGTCCTTGAGTATTTACTGCCAGGAAATCCTGACCAACA
Celera SNP ID:            hCV26856807
SNP Position Genomic:     131885
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4311):
TTACCTAGCTTGCAAAGTTGTAATTCCAACTGCGTCTCACTCAGCTGGCAGTGTGCACCCTTGGCCACACATTAGAATCACCCAAGAGCTATTAAAAATC
Y
TGAAGGTCATACCCCAGGCAAGTGAATCAGAATCTCTAGGGATGGGTCCCAGGCATTCGTTTGCTTTTTTAGTCTCCCCAGATAATTTTAATATGTAGCC
Celera SNP ID:            hCV26856808
SNP Position Genomic:     145031
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:4312):
ATCAGAATCTCTAGGGATGGGTCCCAGGCATTCGTTTGCTTTTTTAGTCTCCCCAGATAATTTTAATATGTAGCCAAAATTGATAATCCCTGCACTAGAC
S
AAGCTCCGATTCAAATTTAAATATTAAGAGGACACATGTATAACTTTGCTGAATAATTTTTTCCTATCGGTAGGATGGTGGGAAGGAATTGCTATAGGCC
Celera SNP ID:            hCV26856809
SNP Position Genomic:     145157
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,11)   total(G,2|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4313):
TAAGACAATCAAAAGTCAAAATAGAGTTTAAACAGGGGAGTGACATAACCTGATTTGCATCATGCTGGCTGTAGTATGCAGAATTGATTGGAGAGGCAAG
R
ATGGCAGACAGGACGCCAGGTGGGAAGCTATGGAAAGGTGCATATGGAAGAAGAGAGTGTCTTTGGATTCCAGTTGGTAAGTGGAAGAGACTGAAGCATG
Celera SNP ID:            hCV27458115
SNP Position Genomic:     49685
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4314):
AAAAGTATTTTTTAAAAATAAATAAAAATAGCAATACAATAATTAAAAATAGAAAATGTAAAATACGGTATAAACAACTATTTACATAGCATTACATTGT
R
TTAGTTATTATACATAATCTAGAGATGATTTAAAGTATATGGGAGAATGTGCATAGGTTATGTTCAAATACTATGCTATTTTAGATTAGGGACTTGAGCA
Celera SNP ID:            hCV1129880
SNP Position Genomic:     55942
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4315):
TATTAGAGCTCTGAATACTCTGCAAATAATATGTGAGCACTGGTACCATCAAAGCATGTGTTGCCTTAGGTGGTGTTTACAGACCTTGTCAGAGTTGGTA
S
TAATTCCAGAATATAATCATTTCAATAGCTAAGGCTTATGGTTAAGACTTCCAAAGTGTTCAGAATTTACTAAATTGAATTATTTGAGGTTTTGTTACTG
Celera SNP ID:            hCV1129882
SNP Position Genomic:     53336
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,10)   total(G,10|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4316):
TTTTATCTCTGTTATCCTACCATCTAGGTCAATACATTTTAACATCTTTATTTGCTGTAAGTTTATTTCTAATTTTTTATTCTTTATTTTGTTTATTCCC
R
TACTTAACTTTTACTTACGACTACGGATTTAAGTAGCATGAACTGTCTTCAGACTGGCCTCCTGTGATGAGTCACAAGGCCCATCATAATGGATCCAGAT
Celera SNP ID:            hCV1129883
SNP Position Genomic:     53005
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,10)   total(G,6|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4317):
CTGAATTGATGATTCAAGAACTTTTAGAATCTTAGTTTTATTTTTGAGTAGCAAATAACATTATACTGTAGATATAAAAAATGTTGAAGATTATCCCAGG
R
AGTGCTCTGGAAGCTGCTTTTAAAAATAAATAACTTTTAAACTGCCTTTTCTCCCTTAGCATTTGCCCATTTGTTCTAAAGGTAGAAGAACAACTTTCAG
Celera SNP ID:            hCV1129886
SNP Position Genomic:     50496
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:4318):
AGAAAATAAAATCCATTTTCTCAGAATGATGAGAAATTTTACACCTTGAAGAGACCATCTCTTTTCCAAACTGAGATCCACAGATTCTTGGAGATCCACA
R
ATATATTCTTGGGCTCTGAGAGTTTTAGAATTTTAAAATAATCTGTTTTTATATCAATAATCTAAAAGGTCATTAGAAAGCCCACATTTCACAATACAAG
Celera SNP ID:            hCV1129887
SNP Position Genomic:     48977
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:4319):
CTGCCAAGGAGACAGACAAAGTAAATGGAATGACCTGGGTTAGACAGGTTTGGACGAATTTTGAAACAAAGGACACAGTTGGATGGGTGCCCTGTCCTTA
R
GAGCACAGACTTTTTTCTGGATGTCATTGAGACCTAGAATGACCTTTAACTATCACCAGTACACATTCCCCTTTTTGGTGTGCAGTGTTGACACTGAAAC
Celera SNP ID:            hCV15938614
SNP Position Genomic:     93793
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;hmCS


Context             (SEQ ID NO:4320):
ACTTTCCATGATTGTTTTTTCTCAATTTTTAGAACAGTAGGAATTCTTCACCTCATCTGCTATCCCAACATATTCACAATTGGAAAATTTTTGTGCTGTT
M
TGTTCTTTTCAAATTACAAAAGTCCTTGACTAGGACTGCTGGCTTTTACATGCACAGGACTGCACAACACTGGTGTTTATAAAGCTCATTCGTTCAATGA
Celera SNP ID:            hCV27535838
SNP Position Genomic:     126361
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(A,2|C,42)   total(A,2|C,42) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4321):
TTTATCTACTATTTTAAGGCACATTTTATTTTTAATAAAATTTGAAAATATATTAATATTTAATTTATTTCAAATATTTTTCCTAAGCATACTATATATC
Y
CATGTCTATTCTTTTCACTTAGTCAATTTCCCATGTCATTACATACTCTTTGTTAATAGTTTTTGTTAACTTTTTAAATAAAAGTATTACATGGTCATTT
Celera SNP ID:            hCV8756562
SNP Position Genomic:     137936
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4322):
ACAGAAATGTTATGTTGCTCTTTATGAGACGAAATAAAGTTGGATGTCACTTATAAATGGATTTTGATTGATTTTTTTAAAGTATTGACTCACTAATCTT
Y
AAATTGGTAGAAGGAGGTCAGTAGACTTTGACTCATAAATTTTTGTAAGCGTAATGGCTTGTTGAATAACTCCTAATTGTCTTTAACAACCTTGGTTTCT
Celera SNP ID:            hCV29259530
SNP Position Genomic:     23502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4323):
ACACAACATAGAAATAAATTTAGTTATTTAGCAATTTGTTGTATTTTTGGCCCTGCAAGTAGTACATGATCTGACTAACCAATTCCAAAAGCCAGATTTT
Y
TTCTGAGTGTGACTTTTTTCTTTTTTTTTTCTTTTTTTTTTTTCCTTTTTTTTTTTTTTTTTTTTTTTGTGAGACAGGGCCTCACTCTGTCACCCAGACT
Celera SNP ID:            hCV8756563
SNP Position Genomic:     135924
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4324):
TTTTGACATGAAAAATGAAATGTGAAGTATTTGGAATTCAACCCTGAATTTTTTTGCCGGTAACTCTTGTGTATGTTCAACTAATTTAGCAAACTGCACT
R
GTTCACATTTTTTAGGTGAAACAAGAAATAACAGAAGTTGCACCTAAAGTAGTCAAATTTCGTAGAGACAGAAAGTGGAATGGTGCTTACCAGGGGCTGC
Celera SNP ID:            hCV29259531
SNP Position Genomic:     34423
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4325):
AGTTCACATTTTTTAGGTGAAACAAGAAATAACAGAAGTTGCACCTAAAGTAGTCAAATTTCGTAGAGACAGAAAGTGGAATGGTGCTTACCAGGGGCTG
S
GGCACTGGAAAGGAACGGGGAGTTAGTGTTTAATGGGGACAGTTTCAGTTTTGCAAGATGAAAGCATCCTGGAGAATGGTTACACAACATTGTGAGTGTA
Celera SNP ID:            hCV29259532
SNP Position Genomic:     34523
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4326):
TAGTTTCATTTGAGATCTGAGAGGATTTCATCTAAAACGGAAAAGTTATTACCTGTGAAGGAGAACAAAGGAAAAGGAAAAAGAAATTTTAAGAAAAAAA
W
ATTTTTTTAAACCTGTAGTTACTTTATGTTCAAGTGGGTATTTTCAACGCTGAGTTGCTGAAATGGTTTTTTATTGAAAGAAGGTTAAAAGTGTATTTCA
Celera SNP ID:            hCV8756564
SNP Position Genomic:     134011
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4327):
GAAATAACAGAAGTTGCACCTAAAGTAGTCAAATTTCGTAGAGACAGAAAGTGGAATGGTGCTTACCAGGGGCTGCGGCACTGGAAAGGAACGGGGAGTT
R
GTGTTTAATGGGGACAGTTTCAGTTTTGCAAGATGAAAGCATCCTGGAGAATGGTTACACAACATTGTGAGTGTACTTAATGCCATTGAATGCACACTTA
Celera SNP ID:            hCV29259533
SNP Position Genomic:     34548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4328):
CTATTAAGTTTCGTGAGCCCGTGATTTCAACAGTACGTAAATTTCCTTTAGTACAGTCACAGAACTGGTAAGTGACACCAGCTGAAACTGAGTGCAGCTC
Y
GCGGCTCTACGCTTGCTGTAGAACCTTTGTGAATTCCCACTGTGCTTCACCAGTGACAGGATGTGCTACCCAATAAATCTCCATATAACTGATCTTGAAA
Celera SNP ID:            hCV11909016
SNP Position Genomic:     63873
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4329):
CAAGTCTTCAGCAGTTATATTCCACTTCATTGCCAGGGTGTCTGGCTCTAAGGGGAATCTCTGCTTAGAGGACCATTAATCCTTAGGAACCTTTTTTTTT
W
TAAAAAATCTAAAGATGGTTCCTGGACATCATTTACCAACTGGCAGTTTAAATGGCCTGTGTACCATAAATTGTGAGGTTAAAAAAAATCTGGTACACAG
Celera SNP ID:            hCV29259534
SNP Position Genomic:     34820
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4330):
CCTCTTCGATGTCATCACCTCCACCTGCTCCCACAAATCTTATGGGTCAGACACACCAGGCTGCTCAGTGTCCTCTCACAGTGCTGAGTTTATGACTGGG
R
TGGATTGATTTTCATACTATTGTTGATTCAACATTTTTTATAGTATACTTCTTGAGAACAGAGACCATGTTCAGGGATCCCTAGTGCTTAATACAATTCC
Celera SNP ID:            hCV29259536
SNP Position Genomic:     39882
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4331):
AGGATTGCTGAAAAGGAAAGAGCCCTAAAGCAAACTATCTACAGTTTTGGTTAGTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTTTGAGGTGG
R
GTCTTGCTTTGTTGCCCAGGTGGGAGTGTCTTCTTATATTGGTCAGGCTGGCCTTGAACTCGGGGCTCAAGCCGTCCTCCCACCTCAGCCTCCCAAAGAG
Celera SNP ID:            hCV8756568
SNP Position Genomic:     126661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4332):
GTGTCCTCTCACAGTGCTGAGTTTATGACTGGGATGGATTGATTTTCATACTATTGTTGATTCAACATTTTTTATAGTATACTTCTTGAGAACAGAGACC
R
TGTTCAGGGATCCCTAGTGCTTAATACAATTCCTACCAAATATTATGCAAGTAATAAAATTGCAGTGTCATTGAACATTTTCAGATATGCATTTATTTCT
Celera SNP ID:            hCV29259537
SNP Position Genomic:     39949
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4333):
GCAGGTTTTCTGGCCTCTAGTTCAGAGCATTCGTAGCATGCTAGCCCCTCAGTAGCATAGTACTTTAGGAAGCTAGTCTTTCCCACTTGCTGGTAGTAAG
M
CAGGGAGACATAATACACTAAGAAAGCTTCGGTCTGAGAAAACTTTCCATGATTGTTTTTTCTCAATTTTTAGAACAGTAGGAATTCTTCACCTCATCTG
Celera SNP ID:            hCV8756569
SNP Position Genomic:     126219
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|C,10)      total(A,1|C,10) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   PCA-AFRICAN-PANEL(A,17|C,31)   total(C,31|A,17) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4334):
AGGTGATGGACTGATTGATATGCTTCAGAAATATGTTTTTTCCTGCAAGTAATGAAAATAAACACACGTTCTTAATTATTTTGGTCATTTAACAACCCAT
S
ATTTCTGGACCATGGGTTAATTCCACCGATTGCTCAGAAGCCTTCCTGAGTCATCTCAAGCACAATCAATTCACTACTGTGTCTAGACACTGCCCTTAGA
Celera SNP ID:            hCV27530758
SNP Position Genomic:     113807
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,1|C,45)   PGA-EUR(EAN-PANEL(G,5|C,41)   total(G,6|C,86) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4335):
CTTTGCTGAATTGGATCAGAAAAGTACCCTCAAATTCCCAGCATCATTTCTTCAAGGAAGTAGTGAATTGGGGCACCGTGGGTTTTTTGTTTTGTTATTG
K
TCTTAAACCACCTTGCCTATGTGCACTCAACTACAGGAACGAGAACTTGCCTGAAACCCCAAACGTGTCTGCATCAGGCATTATTTTTCTTGAGCTCCTG
Celera SNP ID:            hCV26856810
SNP Position Genomic:     145369
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,16)   total(G,1|T,16) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4336):
TTTGGACAAATTAGCAAACCCAAGTTTTGCTTTAACTTGGATTGCCTTAATAAAGATGTTTTGGGGCTTAATGGCACAGTTGCTCAACTCCCCCACTTTA
K
TCCGTGATGTTCAGACCCAGCCAGCATTTCCCCATCAGGCTCTTGCACCATGATTGACAGGGACACTTTTACTAGTCCCCTTGAAGAATGAATAGTTACT
Celera SNP ID:            hCV29259539
SNP Position Genomic:     68401
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4337):
CCATTAGGAAAAAATTGCTTTTCTAGGTGTGTAAAGTTTTGCATATGATTATAGCCTCTTACCTGTAAAAACTGAATCAGAGCTTAGAACCATGCCTGGT
K
CACAATAGTCATTCAACAATTATTCCTTGAATAAAGAGACAGTATTGTGTGGTCTGTGAAATAACAAAAGTTCAGGAGCAACAGACACTTGGTGATTCTA
Celera SNP ID:            hCV27530759
SNP Position Genomic:     120225
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,2|G,42)   total(G,42|T,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4338):
ACTTTGAGGGGCTGAGGAGGGCAAATCTCTTGAGCCCAGCATTCAAGAGCAGCCTGGAAAATGTAGAGATTCTGTCTCTACCAAAAAAAAAAAAAAAAAA
R
AAGAAGCAGGTGGAGGAAGGAGGAGCTGCAGAAAGGCTCCGGGAGCCAGTGTCTAGTAAGCAGAGGCCTAGCCCAGGCTGAGTGGTCCCAGCCCAGGAGG
Celera SNP ID:            hCV26856811
SNP Position Genomic:     147638
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4339):
CACTCTGAGACCACTCTGCCATCTCACATTGTTCTCTTGAGCCTTATCTCAATGGATAAAGGTCACTAGAGTTTATTAGACACAGGAAAACATCGTTTAC
R
GACTTCTTCATTGTGTAGGGATTCTGCCTTCAGGCCTGTTCACCAGCCAGGAGAATTGTGCTTTTTGATCCAGGGCTCTTGGCCAGAACAGCCTTCTCGC
Celera SNP ID:            hCV26856812
SNP Position Genomic:     148260
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3|-,7)   total(G,3|A,3|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4340):
CTATAAAGTATTTGAGAATAAATCTAACAAGATCTACATAAAGAAAAAAGTAAACTGCTTAAAAGTAATTTAAGTTCACCATTTGCAAATTGAACTAAAG
A
AAAATCTAAAGAAGAACTAGTGAAAATTGCTTGCAATCTTACCACTGAAAAGAAACCTCTGTTAAAATGTATCAGTATTTTAAAACTGTGTTTTGTCCTT
Celera SNP ID:            hCV26856816
SNP Position Genomic:     151048
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,7)   total(A,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4341):
TGAGGCAGGAGAATAGCTTGATCCCGGGAGGCATAGGTTGTAGTGAGCCGACGTCATGCCACTGCACTCCAGCCTGGATGACAGAGCAAGACTCCATCTC
A
AAAAAAAAAAAAAAGAAAAGAAAAGAAAAGGAGATTTCTGAGTAGAAACACGTTAGCAGAGGAAACTTCATTTGGGGAACAGGATTGTTTTGATGCCATG
Celera SNP ID:            hCV26856817
SNP Position Genomic:     151605
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,11)   total(A,2|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4342):
CCAGCTGAAGCTGAACCACCCTGAGTCCTCACAGCTGTTTGCCAAGCTGCTCCAGAAAATGACAGACCTCAGACAGATTGTCACGGAACACGTGCAGCTA
N
TGCAGGTGATCAAGAAGACGGAGACAGACATGAGTCTTCACCCGCTCCTGCAGGAGATCTACAAGGACTTGTACTAGCAGAGAGTCCTGAGCCACTGCCA
Celera SNP ID:            hCV26856819
SNP Position Genomic:     152135
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Japanese, healthy postmenopausal women(A,120|G,687)      total(G,687|A,120) ;(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:4343):
GCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCTTTGTAGCTCAGTTTTTAATGACAGGGTTTGGCTTTGATTCTGATGTCTGCACA
R
CGCTCCCAGGGCTGTAAGAACTGCAGAACACACTGAGAAGACACCGTCCCAGCCATGGAAAGCCCTTCTATGCAGTCATTTATTTTCACATGAACACCTC
Celera SNP ID:            hCV27461569
SNP Position Genomic:     125581
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4344):
GGACAGGTGGAAGGACTGCATCTGTGTGTTGCCAAAGAGTAACAGAGACTGGTATAGGACTTGAGTTCAATTCAGTCATATCCTTAAGTATTGTGCCATC
R
TGTCTGGATTACTTTGTAGTATAAGTAAATTTCCAAGCATGGGGAGGAAAGGAGAAGCTCCTTTATTGAGAATTCAACTGAATATAGAGAAAACTAATTT
Celera SNP ID:            hCV15938621
SNP Position Genomic:     68175
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;TFBS


Context             (SEQ ID NO:4345):
TAAGCCCCCTGAGCCTATCACCCTCTTTTAGGATCCATCTCCTTTCTCGGCATCAAAATAACTGGCCACAGCAATATTCATTCAAGCAGCCTTGCTTTCC
Y
CTGGGAAGAACCCGACCTAGGTTTAGAAAAGGTATTGAATCCCACTATTTCACCTTTCAGGAGAACTACCAGAGTTACCTCTTTTTTTTTTTTTTTTTTT
Celera SNP ID:            hCV8756570
SNP Position Genomic:     124518
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4346):
AAGCTCCGATTCAAATTTAAATATTAAGAGGACACATGTATAACTTTGCTGAATAATTTTTTCCTATCGGTAGGATGGTGGGAAGGAATTGCTATAGGCC
R
CACCATGATACTTTGCTGAATTGGATCAGAAAAGTACCCTCAAATTCCCAGCATCATTTCTTCAAGGAAGTAGTGAATTGGGGCACCGTGGGTTTTTTGT
Celera SNP ID:            hCV27455588
SNP Position Genomic:     145258
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4347):
AAAGAACATGTCTAGAATGCAGTGCAACAAATATCAACAAATAGGTTAACTGAGAGGCAAGTACTGTTTGTGGTAAGGGATGGTTATGTGATTCAAGTTA
R
TTTTCATTCTGTGCTAATCTCTAATTTTATGCTTTGAATTTACTCTGAGTTTAATTTTTTTGAGTCTCAATTTCCTCTAAAAGAATGATCCAGTACTTTT
Celera SNP ID:            hCV29259540
SNP Position Genomic:     71193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4348):
CTGCCTTCAGCCCAGTCCAGGACACCGTCTGTGCCTGGCTGCTAGTCTCTTGATGGGGTTTTCAGCTTCCATCCTAACCTCACAACAGCCTAGTCTCAAC
Y
GGTCACCCACAGAGATGATGCTCAAATGTGAGTCAGATCCGTCACTCCACCCATAGCCCTGCAGTGGTTCCCCATTTCACTTGTAACAAAAGTCCAAGTC
Celera SNP ID:            hCV29259541
SNP Position Genomic:     75227
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4349):
GTTTTTGAGAATAGTGTAAGAATGTATTGGTCATCCTAACTTTAATGAATGAACTTAAGCCCCCTGAGCCTATCACCCTCTTTTAGGATCCATCTCCTTT
Y
TCGGCATCAAAATAACTGGCCACAGCAATATTCATTCAAGCAGCCTTGCTTTCCTCTGGGAAGAACCCGACCTAGGTTTAGAAAAGGTATTGAATCCCAC
Celera SNP ID:            hCV8756573
SNP Position Genomic:     124463
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4350):
TCTTTGTCTAGTTTGTTCACCCACTGATGTATTCCAAATACCTGAATAGTATTGCTCATTAATACTTGCTAAATGAAAGAATAGAATCCTCTAACACTTA
Y
GGCTTCTATCACACAATTTAGCCCTGAGTTCAAACTGTCTGGTATTATTTCCTGTTTTATGTATTCCCTAAGCCAAATCATATAGTCACTGAAGAAAAGA
Celera SNP ID:            hCV29259542
SNP Position Genomic:     75861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4351):
TTGAGGGATGAGTAGGAGTTGGTTCTCAATTATTTCACGTTTAAGTCGACATACTTCCCTCCCTTTGCTAAACTCGAATTCTTTCACTTTCTCAGCAGGA
K
TATGCATTAACTTTTAAAAATGAAAGTTAACGGTTTAATTTTTACTGATGGTCTGTGCTACTTTTGTGAAATAAAAACATGAGCAAAGTGGTAGACAGAA
Celera SNP ID:            hCV8756574
SNP Position Genomic:     123721
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;PGT-TFRIGTN-PTNEL(G,9|T,39)   PGT-EUR(ETN-PTNEL(T,22|G,22)   total(T,61|G,31)no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4352):
CATTCCCACAGCTAAATCCCGCTCCTCATAGGCAGTGATTTTACCTCTTTCACATATTTCTTCTGGCATTTACCTTCCTATCTCTAGAATAACATACTTA
M
ATTAATGGCCAGGCATAGTGACTCACGCCTGTAATCCCAACACTTTGGTAGGTCAAGATGGGCACATCGCTTGAGCCCAGGAGTTTGAGATCAGCCTGGG
Celera SNP ID:            hCV29259543
SNP Position Genomic:     87278
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4353):
TATCTAAATATAGGCTAATTCAATTTAAAGGAATCCCAACTGAGAGGTAAGATTTTCTTCCCCTCTAACACCCAAGTCTGGTCTCTAAGGAGGCCCCTAC
M
AAACAATAGTTGTATTAGTCAGCGATAAAATTTATTTAGGGTCAATGGAAATGAATTTATGAATTTGAGACTCAAGGGTACATGTCAGTTTCTTCTTGGG
Celera SNP ID:            hCV8756575
SNP Position Genomic:     122375
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;PCA-AFRICAN-PANEL(C,6|A,42)   PCA-EUR(EAN-PANEL(C,16|A,28)   total(C,22|A,70)no_pop(C,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4354):
CTATGAGAAAGCTTTAACCTAAATACAAACACATTCTTCAAAATATCTGACCCTCGCCGTTCAACAGTGTCAGAGGCATAAAAGACACATCTTTGCTAAG
R
AATCACTACAGATTAGGAGGAGAATATTGCATGACAATTAAATGCAATGTGGGATCCTGGATTGGATCCTAGAGCTGAAAAGGGACGTTAGTAGGAAAAC
Celera SNP ID:            hCV9384400
SNP Position Genomic:     32749
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,8)   total(G,8|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4355):
ATCAGCCTGGGCAACATGGTGAAACCTCATCAGTACAGAAAATACAAAAATTAGCCAGCAGTGGTGGTGCATGCCTGTGGTCCCAGCTACTTGGGAGGCT
K
AAGTTGGAGGATTTCTCGAGCCCGGGAGTTTGAGGCTACAGTGAGCTGTGATTGCGTTACAGCACGACAGCCTGGGCCACAGAGAGAGACCTTGTCTCAA
Celera SNP ID:            hCV29259544
SNP Position Genomic:     87468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4356):
AGGAAAAATAGTAACTTTACAGTGGAGAATCCTGATGGACACCACCTTAACCACATGATCAAGGTCAATATCAAGGATAGTAAGACATAGTGAGCTCATA
Y
GCCCCTGATAGAATGTCCTGAAAAGGACAGATCATGCCTTTCGAATTCTTCCCAAACATCCTTAATCTCATTTGACTATGAGAAAGCTTTAACCTAAATA
Celera SNP ID:            hCV9384401
SNP Position Genomic:     32573
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,12)   total(C,2|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4357):
ACATTTGTATATCTGTACTTACTATGTAAAAACAAACCAAGATAATGCTTACTTTATTAGACTATTCAAGACTATTCCCTACGCCTTTTGATTAATTCAG
R
GTTCATGACTTTTGTTAGAAACAAATTCTGTTACAGATTTAGTTCTTCGCATTTTATTCTGTGATAATTTGCCATCCAGGAAATGGTTCCTTACATGAGA
Celera SNP ID:            hCV29259545
SNP Position Genomic:     89531
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4358):
GGTAAGATAGGAAAATGACCTAGAAGTTGAGAAATAACTCAAATCCTTAAAAATGAATCTCTAATTAAAGTCTTTTATATTCATGTTATTTTTCTACTTA
A
GTAATAATTACATTATTTTAGATTCTTATGATACTTTTAATTAAATTGAGATAAAAATTAAGATTTCTTTCATGGTTCCCTATTGGCCATGCAGTCATAA
Celera SNP ID:            hCV9384402
SNP Position Genomic:     30836
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,9)   total(A,9|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4359):
TGATCTTGATCTGCATGAATCAGTAAGGATGGGCTGGATAAACAAGTTGGAACCACAGTTATGAGTACCATGACATTAACTGAAACAAATGAGAAGGGAT
K
GAAAAATCGGCGGTTAAGTGTCTTTTAAGGTCATTTCCAACAAAACTACAAAGGACCTATGAAAGGCTTTTCAGGCACGTACTCTTGTTGCCTAGCTGAA
Celera SNP ID:            hCV29259546
SNP Position Genomic:     90112
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4360):
TAATAATGCCTATCAGATTAAAGAAGTTACTTTATTTTTGCATGAAATTGGTTGTATTTTTGTTGCACTACTTCATCCTTTGAGTATTGTGAAAAGTCTG
Y
GCATTGACTATAATAGCATTTAAAGCCAAGTTTGAAGGTCTAAGATAATGGCACACATCCATGTCCTTTGCTCACAAGTTCTGCCTAAAGACTTTAGCCT
Celera SNP ID:            hCV29259547
SNP Position Genomic:     90901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4361):
GAGTGGGTTGGGATATTTTCATCCCCTCCGGAGCTGTGTAAATATGTTCCAGGCCAAAAGTTCCCAGGAGAGTGTCATTCCTGGGGTCTATTTAGTGCCA
Y
GGGCTTGACTCAAGGAGGATCCTAGTGGCTTCCCGCAAGAGTTGGAAAATTGTGATCCCCTGGCCATTTTTCCACAATACTGGAAGCCGGAAAGTGTAGG
Celera SNP ID:            hCV26856820
SNP Position Genomic:     157943
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,14)      total(C,14|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:4362):
GTCTGCGCATTGACTATAATAGCATTTAAAGCCAAGTTTGAAGGTCTAAGATAATGGCACACATCCATGTCCTTTGCTCACAAGTTCTGCCTAAAGACTT
Y
AGCCTGCTTGAAACACTCTAAAGGTTGTGAAATTAATGGATATACCACTGATGCAACACAACTCAGTGTCACCAGCTAGGGAGTTAAGACATGTTCTTGT
Celera SNP ID:            hCV29259548
SNP Position Genomic:     90996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4363):
TTGGGGCAGTGAAACTATTCTGTGTGATCCTCTAATGAATGCATGATATTATGTCTTTGTCAAAACCCATAGAACTTGGCTGGGCATGGTGGCTCACACC
R
GTAATCCCAGCACTTTGGGAGGCAGAGGCAGGTAGATCCATTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATAGTGAAACCCCTTCTCTACTAAAA
Celera SNP ID:            hCV29259549
SNP Position Genomic:     92415
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,10|A,36)   PGA-EUR(EAN-PANEL(G,16|A,28)   total(G,26|A,64) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4364):
TTAAACAATAACTGCTGTAAAACCATGGCATCAGTGAGGTATAAAGTTTTGTAGAATCCCAGGCTGAAGACTTTTTGGATGTCGTTTTCTCATTTCTTTA
Y
ATTAAAAAGAATATAATTTCTTTTTAAAATTAAAACTAAAATGTCCACCGGCCTCATATTCTTTATTGAACTTAAGTGCTTTGAAAATATTTTTGCGATT
Celera SNP ID:            hCV26856754
SNP Position Genomic:     8428
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4365):
TATTATTATACATACTTAATTTTATTTTTGCTGAAAATAGTATGGCAAGCCAGTGCATCTCTGTTAGAAATAGAAACTTAGTAGCCACCTCAAAAGCAAG
R
TCATAATTCTGTGAATCAGCTAATAGGTGGTATTTAGCAGTTAGGTATGGGCTACCCTCGTGCCTCATGACTAATCACATTGCTTACTCGTCATGCATTT
Celera SNP ID:            hCV26856756
SNP Position Genomic:     13099
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4366):
ACTACATGTTTTCCTAAAGAATTTGGAACTGATTAGAAACATCCTGATTTTATTTAAAAGCAATATAATGTATTTTTACAGTTTGTTTTCAAGAAGGTTC
A
AAAAAAAATTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGTTGGAGTGCAATGGCGCCATCTTGGCTCACTGCAACCTCCGCCTCCCA
Celera SNP ID:            hCV26856757
SNP Position Genomic:     13597
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,15)   total(A,15|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4367):
TTTCCTAAAGAATTTGGAACTGATTAGAAACATCCTGATTTTATTTAAAAGCAATATAATGTATTTTTACAGTTTGTTTTCAAGAAGGTTCAAAAAAAAA
T
TTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGTTGGAGTGCAATGGCGCCATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGT
Celera SNP ID:            hCV26856758
SNP Position Genomic:     13606
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,6)   total(T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4368):
AGTGCAATGGCGCCATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCCCA
S
CACCACACCTGGCTAATTTTTTGCATTTTTATTAGAGACGGGGTTTCACCATGTTGGCCAGTCTGGTCTCGAACTCCTGACCTCAGGAGATCCACCTGCC
Celera SNP ID:            hCV26856759
SNP Position Genomic:     13754
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,10)   total(G,4|C,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4369):
GGTGGCTTGCCCTGTTGCCTTTTTAGGACTGTTTTCATGGGATAATTATCCTCTCACATGTCTCCATACACAGGTGCAATCAAAGTGGAGCCTGCATCTC
M
ACCTTATTATTCTGAGAAGACTCAGCTCTACAATAAGCCTCATGAAGAGCCTTCCAACTCCCTCATGGCAATTGAATGTCGTGTCTGTGGAGATAAAGCT
Celera SNP ID:            hCV8756581
SNP Position Genomic:     99424
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4370):
GCAAAGGTTAAAAGTCCCATTTTCAGCATATTTACATGTAGTAACAACTTGATAACACAGCGCTGAGAATGCCAGGCTCAGAGGAGCCAAGCTGGGCTCC
Y
GTCCAGTCAGCCTCTAGCTCACCAGGAAACCCTGAGCAGGTCACTTTGCCTCATTTTCTTTATCTGTCAAATGAGAACTCAGATGATCTCAAAACAGCCT
Celera SNP ID:            hCV8756585
SNP Position Genomic:     89813
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4371):
AAGTAGAATCAAAGCCTAGTGCTAGCCCAGAATAAGTTATTCAATAAATGCTTGTTGAGTGAATAATCATCCGAAATGATTATAATACTGCCTACCATTC
R
TTGAAAGCTTCAGTATGTGGGAGAATCTGTCCTGGGCACTTTATATACACCCATAATCTGTTTGGATTTCTTGGTAGGAAGACTACATGGCTGCATACAT
Celera SNP ID:            hCV29259553
SNP Position Genomic:     140285
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4372):
TAGCTGGGACCACAGCACATCACCACACCCAGCTAATTTTTAAAAAATTGTTATAGAGACAGGGTCTCACTGTGTTGTCTAGGCTGGTCTTGAACTCTTA
R
GCTCAAGTAATCCTCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGTATCTAGCCTAGAATATTTTTTATAGTGCTCAGGAGAAA
Celera SNP ID:            hCV8756586
SNP Position Genomic:     81223
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:4373):
TACTAGTTAACTGGAGAGGAGACCAAACCCAAAATATTACAAAACATAGATATTAAAAATACTGTGAACAACAATCAGCCCGCTTTCTCCCACCTCTCCT
R
TACCAGCTAAATATTTACCTCCCTCATCCGTAGAGGGTTTTTGGACAAGACAGGCTGGTGCCTACATGGTGAAAGTTGTTTTTCTCTCTTTTCTTGTAAT
Celera SNP ID:            hCV29259554
SNP Position Genomic:     141792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4374):
AACACTAAACCACAAATATACAACAAGGCCATTTTCTCAAACGAGAGTCAGCCTTTAACGGTAAGTAAAATCAGAATTTATACTGCATTTGTATTGAAAA
R
TATCCCTTTTAAAGAATATGTAAATTATACATTGTATTTTATTGTAAAATTTCCTAGAGAGTGATTTTTGACTATTATAATACTTTCTGCTATATAATTT
Celera SNP ID:            hCV9384412
SNP Position Genomic:     30584
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4375):
TTTGTGTATGTTGTAAGGCAAGGGTTTATCTCTTTCATGGGGATATCCAGTTGACCTGCTTCGTTTATTGAAAAGATCATCCTTTGCCCACTCCCCAGCA
K
TGACATTTCTGTCATAAACCAGGTGACCATATAGGTCTGGGATTTATTCTGGACTTACTCTTCTATTGCATTGTATTTTTGCACCAATTAAGATTGCCTT
Celera SNP ID:            hCV8756587
SNP Position Genomic:     79710
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:4376):
TAGGGGAAGCAATTAAATGTGAAACTGTTATTTAAACCGGCAAGTGTCAGAATGTTAACCCACTTCAGAGCGAAGGCTCTACCAGCAACATGTGTGTTCA
S
TGCAGAATGTGCTGGTTACAGATGATCTTTATCTGTTTGTCAAAGCATTTGCAAGATCTCTATTTTATGTCATCCCCTTTCCCTGAAAGCAGCAGCAGTA
Celera SNP ID:            hCV29259555
SNP Position Genomic:     144371
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4377):
AGTCTGTGCAGTAATAGAGGTATCGTCATTCATGTGACATAAAAGATGGAAAGGGGCTTCATTCATGTTAGTGATGGAAATAGGAAAGTAGGTGAAGTGA
W
TCTAATAGATGTTTCTTTTATGAAATAATTTTTAAAAGATTCTCCAGCCCTGCATGATTTATGATGAATCATTTTGTGGTCTGTTAGTTACTTCTAGAGA
Celera SNP ID:            hCV9384413
SNP Position Genomic:     30203
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|T,7)   total(A,5|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4378):
CTGTTATTTAAACCGGCAAGTGTCAGAATGTTAACCCACTTCAGAGCGAAGGCTCTACCAGCAACATGTGTGTTCACTGCAGAATGTGCTGGTTACAGAT
R
ATCTTTATCTGTTTGTCAAAGCATTTGCAAGATCTCTATTTTATGTCATCCCCTTTCCCTGAAAGCAGCAGCAGTAAACGACATTGCTCCTCAAATCATC
Celera SNP ID:            hCV29259556
SNP Position Genomic:     144395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4379):
TTGAGCCTTTCATAAGAGATAAGGTTGTGAATCCTAAGACCCTAGGACCATTTACTTAGATGATCTGCTCTCTGGTTCGTCCTCTGAAAAGTCTGCTTCG
Y
GAGGGGTGTGCTGCATTTGCCTTGCCTAAGTGGTGTGGCACACAACTGTACTGTCACCTTAGGCTTAATAACCATGTGTCATCTAGAATGAAGTTATATT
Celera SNP ID:            hCV9384414
SNP Position Genomic:     29917
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,6)   total(C,6|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4380):
AAACATCCGGAAAGCAGCGGGGGGCAGGGAGGGGGAAGGCTGAAGGGAAAAGAAAAAGGCTGAAGGGAGCAATAATTGAGGAAGAAAGAATAGGAAAAAT
R
TAGAAAGGACCCAAGAAAATCAGAGAAATGAGAGGAAAAGAAAGGTAAGAAGAAAATGAGGCAAGTTTACAGAGCAGTAATGAAAATAGTAATAGCTAAT
Celera SNP ID:            hCV29259557
SNP Position Genomic:     144686
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4381):
ATTGCTATAGGCCACACCATGATACTTTGCTGAATTGGATCAGAAAAGTACCCTCAAATTCCCAGCATCATTTCTTCAAGGAAGTAGTGAATTGGGGCAC
Y
GTGGGTTTTTTGTTTTGTTATTGTTCTTAAACCACCTTGCCTATGTGCACTCAACTACAGGAACGAGAACTTGCCTGAAACCCCAAACGTGTCTGCATCA
Celera SNP ID:            hCV29259558
SNP Position Genomic:     145345
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4382):
CCACTGTGGTCATCTGGTTCCCTAATTGAGACACCTCCTGAGAAAATCTGTGCTAGGGAAACACCCAGCCCAGGTGGGCAGATCTCAAGAGGACCAGAAC
R
TTTGAATCTGCTTCAGATAAACCCTCCACTTAACAGTACCAGATCTGGACGAGATGGAAGCTTTGTAGATTTGCCCATAATCCACAGTGCTCTGTAATCA
Celera SNP ID:            hCV29259559
SNP Position Genomic:     146235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4383):
AGTTTCATGTAGGTAAGACTGTGTAGAATGTCGGGTCTCGATGTTGGCGCTATTCAAGCCCTGATGATAAGGCTTTTGGCATTAGATGCTGTTTTGTCTT
S
ATGGAAAATACAGCTATTCTAGGATCCTTGAGCCTTTCATAAGAGATAAGGTTGTGAATCCTAAGACCCTAGGACCATTTACTTAGATGATCTGCTCTCT
Celera SNP ID:            hCV9384417
SNP Position Genomic:     29789
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|G,6)   total(G,6|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4384):
AAGGTTTTCTCTCATTTTTCAAATAGAAGTACTAAACAATGCCAGAGAAATAAATAAACAGGCAAAATACGTTGGCTATAGTTTATATTATTTCCTGCTA
S
AGTTAACAAAATGGGAAAACATTTTATCTTCATGGTCTACTACATTTATGCCATGTGTTAAGTAATAAAATAGCTTTTGTAAATTATAAATTAAAAGGTA
Celera SNP ID:            hCV9384418
SNP Position Genomic:     29562
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|G,7)   total(G,7|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4385):
TCTCGAACTCCTGACCTCAGGAGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCGTGCCTGGCAAAGAAGGCTCAAATTT
R
GTGACTTTTAGGACTAGAGCAGTTTGATGTCTGCAAAAATCTAGACACCAATTTCTTGAAGGCAGGTACTGACTGAATTCTATTCCAGCATATAGCACAA
Celera SNP ID:            hCV26856760
SNP Position Genomic:     13921
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:4386):
TAAATGACCAGATGGCAGAGGTGAAAGAACGGCAATCCTTGGTGTCTACTCCCCCCAGAATGGATCTTGTCTCTGCCCTACTGTGTTTCACATCTGGGGA
Y
GATTCCTTCTAAGATACAGTGCAGTTCTGAATGGGTTCAGAAGGAAGAGGACTGGTAGCAGGAGGGGGTCTGGGGGAAAGGTTACCTAAATCTGCCTGAC
Celera SNP ID:            hCV9384419
SNP Position Genomic:     28174
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4387):
CAGCCATTAGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGATTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAG
W
GCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAATCAACCGCTGTTAGGAAATTCTTTTTTTTTTTTTGTCTCTCTTAAATTCCTCTTAATCTAAATAA
Celera SNP ID:            hCV26856763
SNP Position Genomic:     25172
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,10)   total(A,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4388):
TGAGGCAGGAGAATGGCGTGAACCCGGGAGGCAGAGATTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGTGCAAGACTCCGTCTC
A
AAAAAAAAAAAAAAAAAAATCAACCGCTGTTAGGAAATTCTTTTTTTTTTTTTGTCTCTCTTAAATTCCTCTTAATCTAAATAAAGACATTTTATTTTGT
Celera SNP ID:            hCV26856764
SNP Position Genomic:     25188
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,8)   total(A,8|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4389):
AATAGATTTTCAAATATTAAATCCTCTTTGCCTTTCTGAGATAAATGTAACTTGATTATGGTGGTTCATTATTTTAATAGAGGATTTAATTTGTTAATTA
R
CATTTTATTTATTATTTAAAATCAATATTGATAAGTGGGACTGATATTTTTCTCTGTTGTCAGGTTTTAATATCAGTGTTATGACACTCCAGAAAAGTTA
Celera SNP ID:            hCV26856765
SNP Position Genomic:     27541
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4390):
AAGGTAAGATAGGAAAATGACCTAGAAGTTGAGAAATAACTCAAATCCTTAAAAATGAATCTCTAATTAAAGTCTTTTATATTCATGTTATTTTTCTACT
T
AAGTAATAATTACATTATTTTAGATTCTTATGATACTTTTAATTAAATTGAGATAAAAATTAAGATTTCTTTCATGGTTCCCTATTGGCCATGCAGTCAT
Celera SNP ID:            hCV26856766
SNP Position Genomic:     30834
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,9)   total(T,9|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4391):
AGGTAAGATAGGAAAATGACCTAGAAGTTGAGAAATAACTCAAATCCTTAAAAATGAATCTCTAATTAAAGTCTTTTATATTCATGTTATTTTTCTACTT
A
AGTAATAATTACATTATTTTAGATTCTTATGATACTTTTAATTAAATTGAGATAAAAATTAAGATTTCTTTCATGGTTCCCTATTGGCCATGCAGTCATA
Celera SNP ID:            hCV26856767
SNP Position Genomic:     30835
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,9)   total(A,9|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4392):
GTAAGATAGGAAAATGACCTAGAAGTTGAGAAATAACTCAAATCCTTAAAAATGAATCTCTAATTAAAGTCTTTTATATTCATGTTATTTTTCTACTTAA
G
TAATAATTACATTATTTTAGATTCTTATGATACTTTTAATTAAATTGAGATAAAAATTAAGATTTCTTTCATGGTTCCCTATTGGCCATGCAGTCATAAT
Celera SNP ID:            hCV26856768
SNP Position Genomic:     30837
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|G,9)   total(G,9|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4393):
TTGAGTCTGTATTAAAATTTTTTTTTTATTTTTGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCATAGCTCACTGCAGCCTT
S
AACTCTGGGACTCAAGAGTTCCTCCTGCCTCAGCCTCTTGAGTAGCTGGGACTACAGGCACATGCCACCATGCCCAGCTAATTTTTCTGTTTTTTGTAGA
Celera SNP ID:            hCV339417
SNP Position Genomic:     29279
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,6)   total(G,6|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4394):
GCATTACACACTGACACATTAGCTCTTTCTAAAGAAGAACATGTCCCATTCTGAAAAGAAAATTATTGCTTTGTTTTTGATATTGAGTCTGTATTAAAAT
W
TTTTTTTTATTTTTGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCATAGCTCACTGCAGCCTTGAACTCTGGGACTCAAGAG
Celera SNP ID:            hCV339418
SNP Position Genomic:     29197
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4395):
AAGTCTTCAGCAGTTATATTCCACTTCATTGCCAGGGTGTCTGGCTCTAAGGGGAATCTCTGCTTAGAGGACCATTAATCCTTAGGAACCTTTTTTTTTT
W
AAAAAATCTAAAGATGGTTCCTGGACATCATTTACCAACTGGCAGTTTAAATGGCCTGTGTACCATAAATTGTGAGGTTAAAAAAAATCTGGTACACAGG
Celera SNP ID:            hCV26856769
SNP Position Genomic:     34821
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:4396):
GGCATTACACACTGACACATTAGCTCTTTCTAAAGAAGAACATGTCCCATTCTGAAAAGAAAATTATTGCTTTGTTTTTGATATTGAGTCTGTATTAAAA
W
TTTTTTTTTATTTTTGAGACAGGGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCATAGCTCACTGCAGCCTTGAACTCTGGGACTCAAGA
Celera SNP ID:            hCV339419
SNP Position Genomic:     29196
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4397):
GGCTTACTTGGTTTGTCTGCATGTTTCCTTCTGTCATCCCCCACTCCTAGGACCCATATGGAACATTCTCTCTTAATTAACTCTTTTATTGAAGTATAAT
R
TACTTAGAGGAAAAATGTCCAAATCATTTTCACAAGTGAACATACTTGCGAAATTAGCACCCAGACAAAAAAAAAAAAAAACAGAACAATACCAGCACTC
Celera SNP ID:            hCV8756591
SNP Position Genomic:     78598
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4398):
AGCCTACCCCAGCAGAGAGGACCCTTGGCCCTGGCCCTACTCCAGACTCAACTGTAACCTCAGCAAGGTGCAGGGAGAGGATCTCAGGTGGGCCTCCTGG
S
AACAGTGCCTTTTCAGGCACTAGGCTGTTGGGAATGGAGAGAGAAGAGAAAGGCCCTGGCACTGTCTGGGTATTTGGATGGATTTCTGTGGCACAACTGT
Celera SNP ID:            hCV29259560
SNP Position Genomic:     146587
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4399):
AAAGGACTGAGTGTGCGTGGAGCAGAAAGGGGAAAGAGACTAGTGGGGAGCTGGTGACCAGTTGGAGGGTGGAGGGTAGGGAACAACCCTGGCAGATCCA
K
TTTGCCCTTGACTAGAGCTTAAAGACCAAAGGAAGCGTTCTTGTTTTTAAGTAAGTCAGGTGTTCTAAGTTTAATGTTAATATGCTTTTTCAATTAGATG
Celera SNP ID:            hCV29259561
SNP Position Genomic:     146808
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4400):
GGTAGGGAACAACCCTGGCAGATCCATTTTGCCCTTGACTAGAGCTTAAAGACCAAAGGAAGCGTTCTTGTTTTTAAGTAAGTCAGGTGTTCTAAGTTTA
R
TGTTAATATGCTTTTTCAATTAGATGTTTGAGTATATTTCCCCAGTTGAATTATGTAGAGGGAATTACAAATGAGAATACATCTTACAATTTTTGAATTA
Celera SNP ID:            hCV29259562
SNP Position Genomic:     146882
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4401):
TTCCCTAAACCATCTTGCCTTAACGGAGGCTCAGTCAGGGGGACAATGGGACTGATCTGTAAATGATCTAACTTGTCATTGCAGAAAATATACTTACTCC
R
TGGCCACAAAATTTCAGCCCTTCAGCCAAGCTTCATCCATCACATCATAAAGAATAACTTGCCAAAGAGGGGTTTGAAAATCCAAACCAGATCCCTCTCC
Celera SNP ID:            hCV29259563
SNP Position Genomic:     147231
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4402):
TTCATCAAGCAGGAGGATCTGTAGTCATTAAACCAAGGTGCCAGTCTGGGGCCCAGCCTTCAATGAAGCATCAGTGGCTTTTTCATTCCCATAGAGCAAC
K
GCGAGGAAGACCCCATGCTCCCAGGGGCCCAATTCTCCAGGCCAGGACCAGATCATTTGTTCCTTCTCAGAATCTGAGATCTTTTGCTGATGGTTCCAAA
Celera SNP ID:            hCV29259564
SNP Position Genomic:     147898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4403):
CCAAGGTGCCAGTCTGGGGCCCAGCCTTCAATGAAGCATCAGTGGCTTTTTCATTCCCATAGAGCAACTGCGAGGAAGACCCCATGCTCCCAGGGGCCCA
R
TTCTCCAGGCCAGGACCAGATCATTTGTTCCTTCTCAGAATCTGAGATCTTTTGCTGATGGTTCCAAAATTGAATGCTGAAATCTAAAAAGAAAATTATA
Celera SNP ID:            hCV29259565
SNP Position Genomic:     147930
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4404):
ATCTTGAGTTAAATGACCAGATGGCAGAGGTGAAAGAACGGCAATCCTTGGTGTCTACTCCCCCCAGAATGGATCTTGTCTCTGCCCTACTGTGTTTCAC
R
TCTGGGGACGATTCCTTCTAAGATACAGTGCAGTTCTGAATGGGTTCAGAAGGAAGAGGACTGGTAGCAGGAGGGGGTCTGGGGGAAAGGTTACCTAAAT
Celera SNP ID:            hCV9384423
SNP Position Genomic:     28165
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4405):
CTGGCTTCTAGGGATGATGGGTAGGGTGTTTATAATCGAATGAATATAAACTAATCTTGAGTTAAATGACCAGATGGCAGAGGTGAAAGAACGGCAATCC
K
TGGTGTCTACTCCCCCCAGAATGGATCTTGTCTCTGCCCTACTGTGTTTCACATCTGGGGACGATTCCTTCTAAGATACAGTGCAGTTCTGAATGGGTTC
Celera SNP ID:            hCV9384424
SNP Position Genomic:     28112
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,10)   total(G,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4406):
ATGTTCTCAAATGAGAAAATTGACTGCAAGAACATTTGTCCAAATACATGTTTTTATATATTTTATGCTACTTTCCAGAATATTAACAGTTTTACATAGC
R
CTGTTTTGGAAGTCACTCATTGTTTTCATCTTTCTGATTAAGAAATAGGGCCAAAGTTGTACATTGCACTAGTAGTAGACTTTTAAAGATGTCTTTGTCT
Celera SNP ID:            hCV8756599
SNP Position Genomic:     44629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4407):
GGGGAAGCGAAGATCCGCGTGCGTCCGTCCTGAGGCCGCGCGGCACCCCTGCTGAGGAGGAGGTCCCGTTCGCTGTCCAGAGCCCAGGGGCGACCGCCGC
K
TGGGGACCGGGGGACCGTTCAGCGAGGGGCGCGCTTGTAGCTGGCCAGGCCCTGTGCCCTGACGCGTTGTGCTGGCCCTACGCCCGGCGGAGGGGCTGGG
Celera SNP ID:            hCV25768826
SNP Position Genomic:     6735
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,13)   caucasian(T,8)   total(G,1|T,21)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:4408):
CAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCCTGGGGGACAGAGCAAGACTCTGTCTCAAAAA
W
AAATAAATAAATAAATAAAGGCTTAGTATAGAACTCTTCCCAGTCTTTTTTCTCCACTTTGATTTTTTTTTTTTTTCTCAATCTCTTCCATGACAATTCA
Celera SNP ID:            hCV26856770
SNP Position Genomic:     43696
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,7)   total(A,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4409):
TAAGAAAATCATCTCTTCCTTGAAAGCTTTAAAAAATCAACTATAAAACTAATAGCTTTTGGAGGAAGTAATTCTTTGATAAGTTTTCAATTATTTCCAT
Y
GTTAATTATTTTTCTGTATCTTAAGTCAACTTCACCATTTATTTCATTTCAGACAAGTTAGTCTGAGTAAACTGCCCTTGGCCTGCCTTATTATTTACTT
Celera SNP ID:            hCV9384429
SNP Position Genomic:     27786
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4410):
TGTGTTTTGCCTGTTGTGTGTAATGAGCGGTTTCGCTGTGGGTGCTCCTTTCATTTCTGGCTAACACATTAGAGTGTGTTTATGTAAATTGCTGTGATAC
Y
GGTCAGCAGTCACAGCCAGAAAACATAAAACATGTGGGCATTACACACTGACACATTAGCTCTTTCTAAAGAAGAACATGTCCCATTCTGAAAAGAAAAT
Celera SNP ID:            hCV339420
SNP Position Genomic:     29059
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,3)   total(C,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4411):
GCTTCTTTCAGCATCACTCATCAAGTTGAAATTTATGAGTGTCCTTTGTTATCACAAACAAAGCAAGCAAACTGAACAAATGAGAATGCTTCTTTAGTAT
Y
TACATAGCACTTTAAAAGCTCTGTTTTCTTTACAAAATGTGTGTATGGAAAGGTAAAATGGGAATAAATAGTATTAAATTCTGTTCTTAGAACCTACTGT
Celera SNP ID:            hCV26856771
SNP Position Genomic:     45992
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,9)   total(C,9|T,4) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:4412):
TTCAAGAATTTTGTTGCAAGCCAGTTGTTAAACACAGCCATTATAATTATGTAAATTTGCAAATTATGTTAAAAACAAGGACAATAAATACTCAAAATGC
A
AAAAAAAAAAAAAAAACCTACTGCATAGTGTAATAGTGCTCTCACTTTTCTCTCCTTGATTCTGATGTCAATCACTCATTGTCACCTCCACTAGAGGGGG
Celera SNP ID:            hCV26856773
SNP Position Genomic:     47257
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:4413):
ATCACTCATTGTCACCTCCACTAGAGGGGGATAAAAAGGATAATAGGAAATCAGAATATTTTGATTTGTAGTTCAACTGTTGATCAATTATCTTTGAGAC
T
TTTAACATTCATGACTAAGGAGGATTAATAATTAACATGAGCTGTAGAATTAAGGTTTGTATGGCATGATAAGTATAAACCAGTTTTGGGACCGCTATAA
Celera SNP ID:            hCV26856774
SNP Position Genomic:     47428
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4414):
AGGTTCTGTTGAGTGACGCAGATAGGAAATAACCTAGCTGCATGGTTGCTGTCTTTCAAAAGGCCGTACTCTTAGGATCCACATACAGGCCCCCATCTTC
Y
GTGAAGCCATTGTCCCCAGCCATCCCATTTTGACGAGTTTTTTTGAGTCCCTGTGAAACTTTGGCTTTTTTACATTTATCTGGCAGTTAACTAGGTGCTG
Celera SNP ID:            hCV26856775
SNP Position Genomic:     51982
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:4415):
CACTTGGTGATTCTAGTCACCTCTATTTTGTTATAGGATAACTGGTTTTCTCTGAGTTTTACACCAGAATGCCTTCTTCTTTTAATACGCCTTCTTACTT
R
GTGCTTTTCTCATGATCATTTTCCCAAACTTCCTAATGGACATAGTGTCTCATTTTCTGTCTGTTTTTAAACCTGATACTTTGGAGTTTAATCCATCAAA
Celera SNP ID:            hCV27527920
SNP Position Genomic:     120411
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,3|A,41)   PGA-EUR(EAN-PANEL(G,9|A,35)   total(G,12|A,76)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4416):
TGTCTCTTAAATAGCAAAGTTTTTTGACCTGATTTACTAAAAAAAAGTTTGTTGACTTGGCTTAAATTTTATTTTCTTTTCTTTTTTTCTTTTTTTTTTT
Y
TTTGAGACAGAGTCTTGCTCTGTGACCCTGGCTGGAGTGCAGTGGTACGATTTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAACAATTCTCGTGCC
Celera SNP ID:            hCV26856776
SNP Position Genomic:     52335
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4417):
TTTAAAGGAATCCCAACTGAGAGGTAAGATTTTCTTCCCCTCTAACACCCAAGTCTGGTCTCTAAGGAGGCCCCTACAAAACAATAGTTGTATTAGTCAG
Y
GATAAAATTTATTTAGGGTCAATGGAAATGAATTTATGAATTTGAGACTCAAGGGTACATGTCAGTTTCTTCTTGGGAAAATCCAAGGTAATATTCACAG
Celera SNP ID:            hCV27527921
SNP Position Genomic:     122398
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,4|C,44)   PGA-EUR(EAN-PANEL(T,1|C,43)   total(C,87|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4418):
AGTAGCCAGGATTACAGGTGCCCACCACCATGCCCAACCAATTTTTATATTTTTAGTAGAGATGGGTTTTCGCCATGTTGTCCAGGCTGGTCTCGAACTC
Y
TGACCTCAAGTGGTCCACCCTCCTCGGCCTCCCAAAGTGTTGGGATTACAGGTGTGGAAGCCACCGTGCCTGGCTGACTTGGGTTAAATTTTTAAGTTTA
Celera SNP ID:            hCV26856777
SNP Position Genomic:     52547
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,12)   total(C,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4419):
CTGAGAGGTAAGATTTTCTTCCCCTCTAACACCCAAGTCTGGTCTCTAAGGAGGCCCCTACAAAACAATAGTTGTATTAGTCAGCGATAAAATTTATTTA
S
GGTCAATGGAAATGAATTTATGAATTTGAGACTCAAGGGTACATGTCAGTTTCTTCTTGGGAAAATCCAAGGTAATATTCACAGAGTACTCAGATGGGAA
Celera SNP ID:            hCV27527922
SNP Position Genomic:     122414
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(C,1|G,43)   total(G,43|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4420):
CACCACGTTCTAATTACAGATTTCCAATAAAAGTATTAATATGATTCCTACATCAATGAGCTAATCATTAGAAGTAGAAGGCAATGTGGGGAAAAAAAAA
M
AAAACAAGAATGGCAGCACTGACCTAGTTTCTAGTTGCCAGGACCAAAGACGTCGTGACACCACTGTCCTTTCTAAATCTCCTTACCTTGCTTAATCTTA
Celera SNP ID:            hCV26856778
SNP Position Genomic:     53935
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:4421):
GCTTGAGAATTGATGCTCAGTCTTATTTATATTATTCTATCCCTAGTTATGTGATACTTAACTGTATTGCTCGGTATTTAGCAGCCCATTATCTAATCAT
W
ACATCACCCTCATTCTTTCTGAGCTTGTTTCCTTTTTGTGAAATGGGGCTACCATTCAATCTCACCGAATTTTTTTTTTTTTTTTTTGAGACAGAATCTT
Celera SNP ID:            hCV26856779
SNP Position Genomic:     61881
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4422):
TTTGCCACAGGTAAGGAGAAGGTAGATATGAGGGAGGTAGAGAAATAGGGAAATACCCTGAGTAGGAATGTACCAGGTCTGTATATGCTCAACTCCCACA
R
TCAGCAGGTTGCATGATTACTGTGTATAGTCTTAAAATATAAGGTTGATTTCTAAGAATTTACCCTGCTTCTTGGTGACATTGTAGGACATCTCAGTTTG
Celera SNP ID:            hCV9384500
SNP Position Genomic:     11673
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

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:4423):
ATGTGTGGATATGACATATTGAGTCAGATTATCTGACCTTCTGAGAAGAGTTCAGATTAGCAAAAACGTGGGGTGAGAAGTCCTTCGCAGTTTGCCACAG
R
TAAGGAGAAGGTAGATATGAGGGAGGTAGAGAAATAGGGAAATACCCTGAGTAGGAATGTACCAGGTCTGTATATGCTCAACTCCCACAGTCAGCAGGTT
Celera SNP ID:            hCV9384501
SNP Position Genomic:     11583
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;TFBS;hmCS

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;hmCS


Context             (SEQ ID NO:4424):
CTCGGCTGAGGGGTCCGGGGCTGAGGCAGGGTCATGGTCCGGCAGGACCCGGACTGACGGGTCGCGGGCGGGCGGCTCACGGGTGACCGGGTGAAGGGGT
Y
TTGGGCTGAGGGCACCCGGGCTGAGGGTCGCGTCTACCGGAGCGCGCACTAGGGGCGGAGGGCGCGGGCACAGAGAGCCGCGGCCGGTGCCGACTCGAGT
Celera SNP ID:            hCV25771407
SNP Position Genomic:     6375
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,13|T,1)   total(C,21|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:4425):
GGGAGTGTTTGTTCAGTTCTAGCAAAAGCAAGAAAATATATGAATTAAGTGTCATGACATCAGAGACTTAGGCAGTTCAACACTTAAAAAATTGCAAACA
K
AACTAAGAAAACCTCAGAGGTTTTTATGGGAGTTTGTTTGCTGCACAGAAAATAAACATCAGACTAACAACAAGGTTTTGATTAGTTTTGCCTGTTAGCT
Celera SNP ID:            hCV27949953
SNP Position Genomic:     112727
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4426):
CGAAGGCAAAGAAAGGCTCATGCTGGTGCGTGTAGGTGGGCTGAGTGTCCCTGTCCGGGAGTGGGGAGCCGTGTTATCTTCCACTGCCTTAATCCTACAG
Y
GTAGGCTTTCTCAGAGTCATTGCCATACCTTCAACTGTTCCAGTGGCCAGGCTGTTCTCAACTTGAAAATCTTTTGTGGGACAGTGCCATGAATTTTTTT
Celera SNP ID:            hCV9384507
SNP Position Genomic:     11147
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:4427):
GGGGGCTGAGGATTGTTGGAGAGGACTTCTCCCACCTTCTCTGGGCCCCAAACTGCACACTGGACTGGCAAGCCACTCTGCCCACTGCAGTGTGGAGCTA
Y
AAAGCCCAAGTAGGGACTTCACTAAAAGGATGCAGAGGCGAAGGCAAAGAAAGGCTCATGCTGGTGCGTGTAGGTGGGCTGAGTGTCCCTGTCCGGGAGT
Celera SNP ID:            hCV9384508
SNP Position Genomic:     11008
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:4428):
ATGGGAAGTTACTGGTAACAGCACACGGGGTGATGGGGTGAAGAGGCTTGTGTGCGTGGGCCCCGGGGGCTGAGGATTGTTGGAGAGGACTTCTCCCACC
Y
TCTCTGGGCCCCAAACTGCACACTGGACTGGCAAGCCACTCTGCCCACTGCAGTGTGGAGCTACAAAGCCCAAGTAGGGACTTCACTAAAAGGATGCAGA
Celera SNP ID:            hCV9384509
SNP Position Genomic:     10944
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4429):
GCAACTGCCAAACTGCTTTTCACAGCTGCTATACCATTCTGCATTCCCACTGCAATATATATGGGTTCTAATATCTCTACATTGCTACAACACCTTTTTT
W
AAAAAAAAAAAAAAAAAAAAAGCTGTCCTATTAGGTGTCAAGTGTTATCTCATTGTGGTTTTGATTTGCATTTTCCTAATGGCTGCTGATGTTAAGCATC
Celera SNP ID:            hCV9384364
SNP Position Genomic:     48392
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,6)   total(A,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4430):
CAGAGCAAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAGGGAGAAACTGATTTCAAGGAGCCAAGAAAAGAGACAGATTCAATAGTGGAGGA
Y
GGGCAAAATATCAAATGCTGCAGAGGCAGAGACCGTGGTGTGCTGGAGCCACATTGTTAAATTTTCACAATTTTATTGAGCCAATCGTTATGCATGCTAT
Celera SNP ID:            hCV9384437
SNP Position Genomic:     26515
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4431):
TTGCTCGGTATTTAGCAGCCCATTATCTAATCATAACATCACCCTCATTCTTTCTGAGCTTGTTTCCTTTTTGTGAAATGGGGCTACCATTCAATCTCAC
M
GAATTTTTTTTTTTTTTTTTTGAGACAGAATCTTGCTCTATCACCCAGGCTGGAGTGCAGTGGGGCAAACTCGGCTCACTACAACCTCTGCCTCCCAAGT
Celera SNP ID:            hCV26856780
SNP Position Genomic:     61947
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4432):
TCCATTCATCTACTGATGGATACTTGGGTTGTTTTTGCCTTTTGCTATTGCAGATAATGCTTCAGTAAACATTGGTGTTCAAGTATCTGTTTTAGTCCCC
R
CTTTTAGTTCTTTTGGGTATATACCCAGGAGTGAAATGCTGGGTCACATGGTAATTCTGTTTTGCTTTTTAAGCAACTGCCAAACTGCTTTTCACAGCTG
Celera SNP ID:            hCV9384365
SNP Position Genomic:     48219
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4433):
TCGGTATTTAGCAGCCCATTATCTAATCATAACATCACCCTCATTCTTTCTGAGCTTGTTTCCTTTTTGTGAAATGGGGCTACCATTCAATCTCACCGAA
T
TTTTTTTTTTTTTTTTTGAGACAGAATCTTGCTCTATCACCCAGGCTGGAGTGCAGTGGGGCAAACTCGGCTCACTACAACCTCTGCCTCCCAAGTTCAA
Celera SNP ID:            hCV26856781
SNP Position Genomic:     61951
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,4)   total(-,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4434):
ACTGCTAATTCTTGATTGTAGAACAAATTTTCCTATGAAAACCATGTTGTGTATTTTATATCTCTATTAGTTCGTTAAAAGTTTAGCAGTTTTAGATGTC
S
AACCAGTAAAAAACAAGTTGCCCATTCTATCATTTTTTTTTATTGTGGTAAAATATATTTAAGATAAAATTTACGATTTTAACCATCTTAAGTGTACATT
Celera SNP ID:            hCV9384366
SNP Position Genomic:     47673
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,9)   total(G,9|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4435):
TATAAATGGATTTTGATTGATTTTTTTAAAGTATTGACTCACTAATCTTCAAATTGGTAGAAGGAGGTCAGTAGACTTTGACTCATAAATTTTTGTAAGC
R
TAATGGCTTGTTGAATAACTCCTAATTGTCTTTAACAACCTTGGTTTCTGTCCTCTTTTTTCCAAATGCAGATATAGCAGATGTCTTCAGCATCTAATTT
Celera SNP ID:            hCV9384439
SNP Position Genomic:     23553
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4436):
GCGTAGGCACTCAATAAATGTGGAATCTGAATCTTACTTAAAGCTAGTTTATATTTTCAAGTCTTCTTACTTTTACTAATGCTGCTTTAAGATATATTCT
R
TAAGTTCAAATGTAAAGTTCTAGATTGGGAAAGAATTTATAATGTGTCTAATAAAGATTGTTAGAGACAAACTTTTAGACTGAACCAATCTACTATTAAT
Celera SNP ID:            hCV26856782
SNP Position Genomic:     62419
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4437):
TTTTTTTATAGAGGCAGGGTCTCACTCTGTTGCCCAGGCTGGTCTCCAACTCCTGGGCTCAAGGGATCCTCTTGCCTTAGCCACCCAAAGTGCTGGGATT
R
CAGGTGTGAGCCATTGCACCTAGCAGCATTATTTTCCTTTAAATCAAAATAATATAATTGTTTAATATAATTATGTCCATAAAATATATTACTTTTGAAA
Celera SNP ID:            hCV26856783
SNP Position Genomic:     65001
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:4438):
CCCCGGTCAAAAATTTTTTTAATTTAAAAAATTTTCCAAAAGGGGCACAGATACATTGAACATTGACCTTCCTTTGTCTGCTTTTATGGGACTATCCGGC
T
TGTTGTGATGGTTGTGGTGAAATTTACATCCAGGATACAGGATTATTTGTTCTTCTCAAAGGAGTGTCCCATTGGCCCAGCATTTCTCTCATGTTGTCTC
Celera SNP ID:            hCV26856784
SNP Position Genomic:     65501
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,9)   total(T,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4439):
CCCGGTCAAAAATTTTTTTAATTTAAAAAATTTTCCAAAAGGGGCACAGATACATTGAACATTGACCTTCCTTTGTCTGCTTTTATGGGACTATCCGGCT
T
GTTGTGATGGTTGTGGTGAAATTTACATCCAGGATACAGGATTATTTGTTCTTCTCAAAGGAGTGTCCCATTGGCCCAGCATTTCTCTCATGTTGTCTCT
Celera SNP ID:            hCV26856785
SNP Position Genomic:     65502
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,9)   total(T,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4440):
CCGGTCAAAAATTTTTTTAATTTAAAAAATTTTCCAAAAGGGGCACAGATACATTGAACATTGACCTTCCTTTGTCTGCTTTTATGGGACTATCCGGCTT
G
TTGTGATGGTTGTGGTGAAATTTACATCCAGGATACAGGATTATTTGTTCTTCTCAAAGGAGTGTCCCATTGGCCCAGCATTTCTCTCATGTTGTCTCTC
Celera SNP ID:            hCV26856786
SNP Position Genomic:     65503
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,9)   total(G,9|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4441):
CACTGTAGTCATTTGGACAAATTAGCAAACCCAAGTTTTGCTTTAACTTGGATTGCCTTAATAAAGATGTTTTGGGGCTTAATGGCACAGTTGCTCAACT
C
CCCCACTTTATTCCGTGATGTTCAGACCCAGCCAGCATTTCCCCATCAGGCTCTTGCACCATGATTGACAGGGACACTTTTACTAGTCCCCTTGAAGAAT
Celera SNP ID:            hCV26856787
SNP Position Genomic:     68390
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,11)   total(C,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4442):
TACTTGTGCAAGTAGATCTAAAGCCCTATATGGAATTTATTGCTTTAGCCTTGTAGCGTTAATCACTTGTGGCTAGAATAGAAGGCTCCGTTTAAAAAAA
R
AAAAGGCTGGGTACAGTGGCTCACATCTGTAATCCCACAACTTTGGGAGGCCGAGGCGGGCAGATCACGAGGTCAGGAGGTCAAGAGGTCAAGACCATCC
Celera SNP ID:            hCV26856788
SNP Position Genomic:     72550
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4443):
GAGGTAGGAGAATGGCGTGAACCCAGGAGGCAGAGGTTGCAGTGAGGCTGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTC
A
AAAAAAAAAAAAAAAAGAAAAGAAACCTACATTTTAAACACTTTATGGATATGGAAAAACAAAAACCGCAGAACTCTTTATTGCACAAGAGTAAGTGGCA
Celera SNP ID:            hCV26856789
SNP Position Genomic:     72845
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|A,6)   total(A,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4444):
TCGTGATCTGCCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCTTTGTAGCTCAGTTTTTAATGACAGGGTTTGGCTT
Y
GATTCTGATGTCTGCACAACGCTCCCAGGGCTGTAAGAACTGCAGAACACACTGAGAAGACACCGTCCCAGCCATGGAAAGCCCTTCTATGCAGTCATTT
Celera SNP ID:            hCV11908909
SNP Position Genomic:     125562
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,6)   total(C,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4445):
CTTAAAATATAAGGTTGATTTCTAAGAATTTACCCTGCTTCTTGGTGACATTGTAGGACATCTCAGTTTGCCACTTAGCACTGTTATTCTTTCTGGCTCT
R
TACTAAAGGAGATAATTTGGGCAAGGGAATGGAAAGAGGTTACTTTTTCATCCTGTATGTTTAAGGAATAAATTTTCCTTCATATCGAGGGCAGTGGAGA
Celera SNP ID:            hCV16156120
SNP Position Genomic:     11804
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,21)   caucasian(A,10|G,10)   total(A,25|G,31)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:4446):
TCAGTCCAGATCCTGTGATCTGAAATAATTTAAATTATTAAAAGTTAGATATTTTTAACCTTTTATACTCCCACTAGACAGGACATAGGAAATTTAGTGA
Y
GTAAGCATCTTTAATAATCCTTAAAAGTCATAAGACTTGGTGGCTGGGACAAGAAACAATTAGGTATAAATTTCAGGGAAATACCATAATGGCATGACTT
Celera SNP ID:            hCV11909062
SNP Position Genomic:     37085
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:4447):
TATTCTCAACTTTCTGTTTGGGGGTTCAGTGTCTCCTTCCACAGTTTTCTTTGCCTCAAATAAATAAAGCCAATTATGAGCTCTACAGTCTGAGTTATAG
Y
ATTCTTGGTTCTTTGGGTACCGCCAATAACTTATATATCACAAATAATACATATACAGTGTTACATAGTAAGTGCTCAATAATTGGAAGCTAGTTCCATG
Celera SNP ID:            hCV11909063
SNP Position Genomic:     36805
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4448):
TGATTTGTAGTTCAACTGTTGATCAATTATCTTTGAGACTTTTAACATTCATGACTAAGGAGGATTAATAATTAACATGAGCTGTAGAATTAAGGTTTGT
R
TGGCATGATAAGTATAAACCAGTTTTGGGACCGCTATAATTCTAAAAAAGCAGGTAGACTAGATGATTAGTTGTACACTTATTACTGCTAATTCTTGATT
Celera SNP ID:            hCV9384370
SNP Position Genomic:     47489
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4449):
CTCCCCAACTAATCTTCCTTCTCCTGTATCTTATTCCCTAGGGCCACTTGCACCTTTCAAAATGGATAAATTAAATTCCCCTGCTCCCCTTCTACCAACT
Y
TAACATCATATCCTTGGTGTATGATGCCCTACTTTTCATTGTTTTGCCTAAATAAGAGTATGCTTGGGAATTTTAGGCTTAGGGCTGGGAAAAGATGGGA
Celera SNP ID:            hCV27484983
SNP Position Genomic:     128051
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4450):
GTATATTTTTATCTACTAAACACATGATCAAATAGGGATTTTTTATTCTGAATTTAACATTAACAGAAATGTTATGTTGCTCTTTATGAGACGAAATAAA
R
TTGGATGTCACTTATAAATGGATTTTGATTGATTTTTTTAAAGTATTGACTCACTAATCTTCAAATTGGTAGAAGGAGGTCAGTAGACTTTGACTCATAA
Celera SNP ID:            hCV9384446
SNP Position Genomic:     23440
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,9)   total(G,9|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4451):
ACTAAACTACAATTGTTTGGCACCCTCTCTTCTCCTTATCTTGCAAAATCAAATTAAGCACTAGTGGAAAGAAACAGTTCAGAGAGGAATATGGGAAAGG
R
AAAAAAAAAACCAAAATGTGATTTCCAACGAGACTAGAGATTTGTTCTTTATCTACATGGTCATGTTACTCATTTGATAGCATCTATCTCAGGGGTATTA
Celera SNP ID:            hCV15968753
SNP Position Genomic:     127486
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|-,7)      total(A,2|-,7) ;JBIC-allele(G,696|A,803)   total(G,696|A,803)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4452):
CCCTTTTTCGTTCCTGGTGTTCCCTATGTTTTCTTCTTTCCTTCTTTTCTGTCTCTGTTTCTCTCCCTCTGAATTTCTGCTTCCTTTCCTCTCTTTCCCA
R
TTGCTACTGTCTCTGCCTTTGGTTGTCTCTGAGTGTAATATGGAAGTGAAGTATATTTTTATCTACTAAACACATGATCAAATAGGGATTTTTTATTCTG
Celera SNP ID:            hCV9384448
SNP Position Genomic:     23289
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,10)   total(G,3|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4453):
CGTGGTGTGCACCTGTAGTCCCAGATACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACT
R
CACTCCAGCCTGGGGGACAGAGCAAGACTCTGTCTCAAAAAAAAATAAATAAATAAATAAAGGCTTAGTATAGAACTCTTCCCAGTCTTTTTTCTCCACT
Celera SNP ID:            hCV9384376
SNP Position Genomic:     43654
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:4454):
AAACTCTGTGAGATTGCTGTGTTCTCTAGGACTTAACTTCACAGCTAGTCTATTTTTCCTTTCAGAAATGACCATGGTTGACACAGAGATGCCATTCTGG
S
CCACCAACTTTGGGATCAGCTCCGTGGATCTCTCCGTAATGGAAGACCACTCCCACTCCTTTGATATCAAGCCCTTCACTACTGTTGACTTCTCCAGCAT
Celera SNP ID:            hCV26856791
SNP Position Genomic:     97814
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Japanes American(G,7|C,100)   German controls(G,14|C,105)   German(G,93|C,527)   Japanese, age >60, non-diabetic(G,46|C,1035)   Japanese, Type 2 diabetes(G,14|C,815)   Finnish(G,152|C,1017)   US controls(G,12|C,148)      total(G,338|C,3747) ;(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4455):
TACAGAATTGAATTAAGAAAAGAATTTCCATGAGAGATATGCATTTACAATTTTGTAGATTTAATCTTTGCATAGACTTTTTTGTTGCAGATACTGAAAA
K
GAATCCATAAAAATACATAGATCCCTTTACTAGCCACTTTTAATTTACGGATGAGGAATATTCAGTTCACAGACTGGCTAGCGCTTTTTAGCTTTCTTTA
Celera SNP ID:            hCV9384377
SNP Position Genomic:     40228
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,6)   total(G,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4456):
ATTGTCTGAATAAATACCAATATCTACTAGTATTTATTTCCTTGCTGGTAATAATGTGTTTTCATTAATTTAAGATTTATAGGAACATACTTGGGTGCTC
Y
GCCTGCTAGAAACTGATCTGTAGCATGAGCCATTTGTTGAAAGTACTTAGATATTTCTGCATTTATTTATTTCTGTTTCAGACCCCACAATAACTATATT
Celera SNP ID:            hCV9384378
SNP Position Genomic:     38520
SNP Source:               Celera
Population(Allele,Count): no_pop(C,7|T,9)   total(C,7|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4457):
ATATAGTATAATACCATTTAATAAAGCCTCAAAACAAGCAAAATTAAATAGTATATTATTTTGTTTTACATAGTATGTGATAAAGCTGTATTTTCTTCCT
T
TTTTTTTTTTTTTTTTTTTTTTGAGACAATGTCTCACTCTGTCACCCAGACTGGAGTGCAGTGGTGCAATCATAACTTGGCTTACTGCAGTTAGACCTCC
Celera SNP ID:            hCV26856793
SNP Position Genomic:     108707
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,7)   total(T,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4458):
TATAGTATAATACCATTTAATAAAGCCTCAAAACAAGCAAAATTAAATAGTATATTATTTTGTTTTACATAGTATGTGATAAAGCTGTATTTTCTTCCTT
T
TTTTTTTTTTTTTTTTTTTTTGAGACAATGTCTCACTCTGTCACCCAGACTGGAGTGCAGTGGTGCAATCATAACTTGGCTTACTGCAGTTAGACCTCCT
Celera SNP ID:            hCV26856794
SNP Position Genomic:     108708
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,7)   total(T,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4459):
TTGTGTATCAGTAGTGTCATTCTGCTTTAAATGTAAGAAAATCCTGAAGATGTCTGGGTCTGAAACTTTAAATGGCATATGAGAATTTAGATTCATTTAA
T
TTTTTTTTTTTTTTTTTTTTTGCTGTTTATTATGCAAAGACGAGTATTCGTTTCCTTCACTTCAAGGAACGTCCATGAGTTGTGGAAAGGGTAAAACAAA
Celera SNP ID:            hCV26856795
SNP Position Genomic:     111262
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4460):
AGTCCTTTATAGTAATTGCATTTTAAAAATATGTCTTCTTTATTTTTTATTATTATTTTTTTTTGAGATGGAGTCTCGCTCTGTCACCCAGTCTGGAGTT
M
AATGGTACAATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTTAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCGAAACC
Celera SNP ID:            hCV26856796
SNP Position Genomic:     114245
SNP Source:               HGBASE
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4461):
CCCAAAGTGCTAGGATTACAGGCGTGAGCTACCACACTGGCCTTGTCCTCTTTATTTTTAATAAAATTATTTAGTCATTAAGAATTTTGGCTTGTGGGCC
R
GGCATGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCAAGGTCAGAGGACCACTTGAGCTGAGGAGTTCGAGACCAGCCTGGGAAACATGACAA
Celera SNP ID:            hCV26856797
SNP Position Genomic:     114548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   PGA-AFRIGAN-PANEL(A,4|G,42)   PGA-EUR(EAN-PANEL(A,14|G,32)   total(G,74|A,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4462):
GGTAGTTCTCTCAGTGCCTTGCAAACAGCAGCTCTAGTGTATATTGAGAAAAGGAAAAATTCTGAATGGCAAATACTAGATTTCAACTTTAACCTATTCC
T
TTTTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTGAGACAAAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTA
Celera SNP ID:            hCV26856798
SNP Position Genomic:     115445
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,6)   total(T,6|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4463):
GTAGTTCTCTCAGTGCCTTGCAAACAGCAGCTCTAGTGTATATTGAGAAAAGGAAAAATTCTGAATGGCAAATACTAGATTTCAACTTTAACCTATTCCT
T
TTTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTGAGACAAAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTAG
Celera SNP ID:            hCV26856799
SNP Position Genomic:     115446
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4464):
CAACATAGAAATAAATTTAGTTATTTAGCAATTTGTTGTATTTTTGGCCCTGCAAGTAGTACATGATCTGACTAACCAATTCCAAAAGCCAGATTTTCTT
Y
TGAGTGTGACTTTTTTCTTTTTTTTTTCTTTTTTTTTTTTCCTTTTTTTTTTTTTTTTTTTTTTTGTGAGACAGGGCCTCACTCTGTCACCCAGACTGAA
Celera SNP ID:            hCV11922926
SNP Position Genomic:     135927
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4465):
GTCTTTCCTCTTCTGTTCTTTGGCCATCGTTTAAGTTTCCTTACCTGTTAAGTAAGAAAGGTTTATGTTAAGGATCAAGTAAGATCAAATATATAAAGGG
Y
TTAGAAATAATTTACGGCGTATATTTATGGTATTACTGTAATAATTGCCTTGACTTTTTTATCTTTTCCAAATGAATAAATCAAAATAGAAAGAGGTTGA
Celera SNP ID:            hCV9384382
SNP Position Genomic:     37976
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,7)   total(C,4|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4466):
ACGATCTTGACTCACTGAAACCTCCGCTTCCTGGGTTCAAGCGATTCTCCTGCCTTACCCTCCTGAGTAGCTGGGATTACAGGCATGCACCACCACACCC
R
GCTAGTTTTTAAAAGTATTTTTAGTAGAGATGGGGTTTCGCCATATTAGCTAGGCTGGTTTCGAACTCCTGACCTCAAGTGATCTGCCCGCCTCAGCCTC
Celera SNP ID:            hCV9384455
SNP Position Genomic:     21448
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:4467):
CTGACCTTTTAGTTATACTTTGGAAGAACCTTAACCATGTTGTTCCAGGGAAATTCACTGCTTTGGGAGCCAGGTCACTGAGTTACTACTGTCTTTCCTC
Y
TCTGTTCTTTGGCCATCGTTTAAGTTTCCTTACCTGTTAAGTAAGAAAGGTTTATGTTAAGGATCAAGTAAGATCAAATATATAAAGGGTTTAGAAATAA
Celera SNP ID:            hCV9384383
SNP Position Genomic:     37886
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4468):
TGCCAGAGTTAGAAGACCGCTGCCCTAAAGGATGAATGAGTGGAGTTGATGACTGACTCCTGTAGGGCAGTCTTTTTTTTTTTGGAGATGGAGTCTCACT
S
TGTCACCCAGGCTAGAGTGCAGTGGCACGATCTTGACTCACTGAAACCTCCGCTTCCTGGGTTCAAGCGATTCTCCTGCCTTACCCTCCTGAGTAGCTGG
Celera SNP ID:            hCV9384456
SNP Position Genomic:     21321
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,9)   total(G,4|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4469):
TACCATGTTAAGTTGATCCTAAAATAAGAAATCTAAGGGAAAGGTCACATCCTAATAACTTGTGCAAATCTAAATTCCCATGGAGCTTTGCAATCATTTT
G
TAGGAGTATAAAAAATCTATTATTGAACTTCTTCCAGATAGCGTCGTAAAATTGAAGTACTTTTATATACAGAAGTAACCACTAAATTATAAATACAATT
Celera SNP ID:            hCV9384384
SNP Position Genomic:     37476
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4470):
TAAAACTTTAATATTATTATGATATTCAAGCGCATGATTTTGCATTTCATAGCAATATCCACAGTAGGTGTAAGAGACAAGAAAACTTCCTTCATGCCAG
R
GTTAGAAGACCGCTGCCCTAAAGGATGAATGAGTGGAGTTGATGACTGACTCCTGTAGGGCAGTCTTTTTTTTTTTGGAGATGGAGTCTCACTCTGTCAC
Celera SNP ID:            hCV9384457
SNP Position Genomic:     21227
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4471):
GCTAGGGAAACACCCAGCCCAGGTGGGCAGATCTCAAGAGGACCAGAACGTTTGAATCTGCTTCAGATAAACCCTCCACTTAACAGTACCAGATCTGGAC
R
AGATGGAAGCTTTGTAGATTTGCCCATAATCCACAGTGCTCTGTAATCAATTCCAGGACCGTGTGGATGGAGACCGGAAAGGTTTCTTTCCCAATTCTTC
Celera SNP ID:            hCV27482529
SNP Position Genomic:     146286
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,8|G,1485)   total(G,1485|A,8) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4472):
GATTTCAGTTTTGTCTGCATCACAGAGATGTATGTTTCCCTAAGTTTGCTCACTATAATTTGTGATTGCTATTTTTCTTATCTGCGAAGGAAGTACAGCA
R
CTCCCACTGGGGAAATACCATGTTAAGTTGATCCTAAAATAAGAAATCTAAGGGAAAGGTCACATCCTAATAACTTGTGCAAATCTAAATTCCCATGGAG
Celera SNP ID:            hCV9384388
SNP Position Genomic:     37360
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:4473):
GGGGGGCTGGAAAGGCGAAGTCGCTGCTTTGTGGGCTCCTGCAAGTGCCAGGCGCTGACCACTCCTCCTGGGAGCCTAACTGAGGGGGGTAGAGGCAGCA
R
AGGTTAACAGAAATCTCAGGTCCCTTGGTGGAAGGTGGGTGTGTAGTCGTGGTACTTTACGCCTCGGTGTTTAGGGAGGAGCCTAAGGTAAGGAGTCAGA
Celera SNP ID:            hCV27840745
SNP Position Genomic:     7003
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,1|G,35)   total(A,1|G,71)
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:4474):
TACAAGCTAAGGGAGAGGCACCATCAGAGAGATCTGGAGAGCAGCTGGCAGAATGTTAGAGGACCCAGAACAGCAGGAACCAGGACAAGAAATTTTGGAA
R
TAAGAGGGCGGAGATGGTCACCAGAATTAAAGGCTGGGAGAATACTGAAGAGCTCAAGTCTATTGAGAACTTAGAAGAGGCCATTAGTTCTGGCCGAGAG
Celera SNP ID:            hCV11908924
SNP Position Genomic:     116772
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,13)   total(G,6|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4475):
TCTGACAATAAGGATGTTAGCCACTAACCTTAATTATCAAGATAATTATGTGCATGAAAGCTGTGTAAAAGGCACAACCGTGGAACATATACAAGTATTA
R
TAATACATTTCATTTAGTTTTCAGGTTATAAAATCGTTATTAATAACAAGAGGCTTTCATGAAGTAGGAAAATATGTTAAAATGACATTTTCTGAATGTT
Celera SNP ID:            hCV27840746
SNP Position Genomic:     8901
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:4476):
CTCGGTGTTTAGGGAGGAGCCTAAGGTAAGGAGTCAGAAACGGGGAGTAACCGAGCTGCGGCTTTTATATAAGGTCAGTGGTAGGTAAGGAAGGGGCCTT
W
ACCTCTGCTGGTGACCAGAAGCCTGCATTTCTGCATTCTGCTTAATTCCCTTTCCTTAGGTGAGTTGGCTCACTCTCATTGCATTTTGTTGGAATGTGTT
Celera SNP ID:            hCV27829142
SNP Position Genomic:     7166
SNP Source:               Applera
Population(Allele,Count): african american(A,34|T,2)   caucasian(A,36)   total(A,70|T,2)
SNP Type:                 UTR 5;INTRON;hmCS


Context             (SEQ ID NO:4477):
ATGATAAACGGGACCTAGTAGATTAACATCATCTCCTCAGCCCAAGGGCTGACCCCAGTGGTGCTGCTCAAGAGGAAGGAGGAGGCTGGGAGCGGTGGCT
Y
CCGCTTGTCATCCCAGCACTTTGAGGGGCTGAGGAGGGCAAATCTCTTGAGCCCAGCATTCAAGAGCAGCCTGGAAAATGTAGAGATTCTGTCTCTACCA
Celera SNP ID:            hCV27521637
SNP Position Genomic:     147520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4478):
TTACTGTGTATAGTCTTAAAATATAAGGTTGATTTCTAAGAATTTACCCTGCTTCTTGGTGACATTGTAGGACATCTCAGTTTGCCACTTAGCACTGTTA
Y
TCTTTCTGGCTCTATACTAAAGGAGATAATTTGGGCAAGGGAATGGAAAGAGGTTACTTTTTCATCCTGTATGTTTAAGGAATAAATTTTCCTTCATATC
Celera SNP ID:            hCV27829143
SNP Position Genomic:     11790
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(C,2|T,34)   total(C,6|T,68)
SNP Type:                 INTRON


Context             (SEQ ID NO:4479):
CCTCTATTATGATACCTGGGTAAAGGGTGACTTCCTTTCTATCATAAAACAGCCTAGACAGCACTAAGAAGGTGGTTATGTTCTTTTCTGTTGTTGTGAG
Y
GCCCAGATGAGATTACTTTGCCAAAGACTCTTTTCATTTCTCTTTCTGAAACTCTGTGAGATTGCTGTGTTCTCTAGGACTTAACTTCACAGCTAGTCTA
Celera SNP ID:            hCV25607373
SNP Position Genomic:     97665
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,26|T,4)   total(C,58|T,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:4480):
TAAGTCTATTTTTTTCTGGTGGTGTGTTATTCTTCTCATAGAGAACTCCATTTTTTCATTATGACATAGCACTTATCGTTTAAACATCAATTGATGTTCA
R
ACATCAGCTGGTGTAACATTGCTGCAGTTGCTATTGATGGATAAGCTGAAGTTTTTAAGAAAGCAAACCCGATGTATAAAATTGAAACCATATCAAACCC
Celera SNP ID:            hCV27829144
SNP Position Genomic:     68888
SNP Source:               Applera
Population(Allele,Count): african american(A,28)   caucasian(A,20|G,6)   total(A,48|G,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:4481):
GGATTGTTTTGATGCCATGCTCCCTCAGCTGACCACACAGATTACATCCTGGCCAGAAAAAGGCCCTGCAAAGAGCTCTGATCATTTTGGTTCTGATTCC
R
TCCTTAGTTCTTACCCATTATCTGCTTACCCTTCCTCCCCACCTATTTAAGATACAAAGCAAAACAAACCAAAAATACAGATGAGTTGCTTGGTAGAGCT
Celera SNP ID:            hCV25607374
SNP Position Genomic:     151787
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:4482):
TCTGAGTAGAAACACGTTAGCAGAGGAAACTTCATTTGGGGAACAGGATTGTTTTGATGCCATGCTCCCTCAGCTGACCACACAGATTACATCCTGGCCA
K
AAAAAGGCCCTGCAAAGAGCTCTGATCATTTTGGTTCTGATTCCATCCTTAGTTCTTACCCATTATCTGCTTACCCTTCCTCCCCACCTATTTAAGATAC
Celera SNP ID:            hCV25607375
SNP Position Genomic:     151742
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(G,37|T,1)   total(G,73|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:4483):
TTGGCCAGAACAGCCTTCTCGCTCATTAACTCAGTCAACCAAATGCTTCCTGTGTTTCCACTGGTGGTTCAGAACGTAGTCTCTGCCCTCTGATACCTCA
Y
GGTCTAACGGGGGAGAAACAAGAAAGTCAGAACTTACAATACAAGATAATAAGGAATAAGAGCAGAGCCTTTGGAACCAGACAGACTTAGATCCAAATGT
Celera SNP ID:            hCV1129800
SNP Position Genomic:     148439
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,-)   PCT-TFRICTN-PTNEL(T,20|C,20)   PCT-EUR(ETN-PTNEL(T,15|C,21)   total(C,41|T,35) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4484):
CCAGGGCTCTTGGCCAGAACAGCCTTCTCGCTCATTAACTCAGTCAACCAAATGCTTCCTGTGTTTCCACTGGTGGTTCAGAACGTAGTCTCTGCCCTCT
R
ATACCTCACGGTCTAACGGGGGAGAAACAAGAAAGTCAGAACTTACAATACAAGATAATAAGGAATAAGAGCAGAGCCTTTGGAACCAGACAGACTTAGA
Celera SNP ID:            hCV1129801
SNP Position Genomic:     148430
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,5|A,7)      total(G,5|A,7) ;no_pop(A,-|G,-)   ;no_pop(G,-|A,-)   PGA-AFRIGAN-PANEL(G,5|A,35)   PGA-EUR(EAN-PANEL(G,8|A,28)   total(G,13|A,63) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4485):
AGATAAATACACTGTTAGCCCCCAACTAGAAGTGTAAAATCATTAAGACAAAATTTGAGAATGATACGGCTCCTATAATGGCAATCTTTGGATGATACTG
K
CCAAGCTGATGGAAAGTGTAAGGACTCCACTTTGCTTTGTAAAAAATACAAAAAAACAGCCATGGAAGTGCAGTACATTTTGTATGGAACATTGTACCAC
Celera SNP ID:            hCV11922930
SNP Position Genomic:     131073
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4486):
AACTAAACTACAATTGTTTGGCACCCTCTCTTCTCCTTATCTTGCAAAATCAAATTAAGCACTAGTGGAAAGAAACAGTTCAGAGAGGAATATGGGAAAG
R
AAAAAAAAAAACCAAAATGTGATTTCCAACGAGACTAGAGATTTGTTCTTTATCTACATGGTCATGTTACTCATTTGATAGCATCTATCTCAGGGGTATT
Celera SNP ID:            hCV11922933
SNP Position Genomic:     127485
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4487):
AAGCTGCTCCAGAAAATGACAGACCTCAGACAGATTGTCACGGAACACGTGCAGCTACTGCAGGTGATCAAGAAGACGGAGACAGACATGAGTCTTCACC
Y
GCTCCTGCAGGAGATCTACAAGGACTTGTACTAGCAGAGAGTCCTGAGCCACTGCCAACATTTCCCTTCTTCCAGTTGCACTATTCTGAGGGAAAATCTG
Celera SNP ID:            hCV27532200
SNP Position Genomic:     152178
SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:4488):
GCAGGCTGAGTCTGAAACGCAGGAAGTGTTTTCAGATAGCACAAGTCAACATTATTTTGAAAAGGGAGAAAAGTCCATAAAGTTTTTGAGAATAGTGTAA
S
AATGTATTGGTCATCCTAACTTTAATGAATGAACTTAAGCCCCCTGAGCCTATCACCCTCTTTTAGGATCCATCTCCTTTCTCGGCATCAAAATAACTGG
Celera SNP ID:            hCV11922938
SNP Position Genomic:     124382
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4489):
TGAATCTATGAAAAGAAGAAAAGCCCCGTAAGAAATATGCTAACTGATGGTGAGGGAGAAAAGGGTTTAGATAAAAGATATCTGAACTTGTTTGGTCTCA
R
TGATTTTATGACTGAGGAATTCAATTATAGATGTACTGGATGGAGCAAATCACAATTCTGTAAATTACTAATAGGACACAACGATCTTTATCATTTTCTG
Celera SNP ID:            hCV9384390
SNP Position Genomic:     35083
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:4490):
TGTAACAAACTCTGCTTAGTACCACAGTTGGAGAAAGGTTTACAATAATGCCCAGTACAAAATGTTATTCAGACTTACTACTCATGCATAAAATAAAACT
K
GTTCTCTTCTTAAACTTCGTTACATATTAGATAAAACACTATCAAGTTTTGGCCTCATTTGTTCATAATATGTAATTTAATTCAGTTGCTCAGCTAGTTC
Celera SNP ID:            hCV9384464
SNP Position Genomic:     19452
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,10)   total(G,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4491):
TTTACCAAATGACCACTCATTAAACCTGCCCACCTATGAACATGACCTTATAAAATGGTGAGACATAGCAGTATCTGGCACTGGGCACACAGATTACCAC
R
GCTCAATAAAAGCTGAGAAAATGACTCAGTGATTGAACACAGCGCATTGCCATGGTTGTGTCTTTAAGCCATTCATGTAATTCATGCTGTGTATTCGACT
Celera SNP ID:            hCV9384465
SNP Position Genomic:     18421
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,9)   total(G,3|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4492):
GAGATAAAGTTGGCTACTTTCTCTTTAAAAGGCCATTACAAACTTTTACAAGCTTAGAATATAATATTTGCGTAAAAGGAGACCCAGATCCTATTTTAAA
Y
GACCAAATTATTTTGATCAAATTACTTACTATAGCTATTTTCAATGTCTGTATTCACAAACTGTTTACTATTTCAGTTCTGTTTTCAAGTTGACAGAAAA
Celera SNP ID:            hCV9384466
SNP Position Genomic:     17997
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,7)   total(C,7|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4493):
ACGATAGGTTGCTGTTAATTATATTTACCCCACAGTGCTATAGATCATTAGAACTATTCCTTGTATCTAACTGTAGTTTTGTGTCTGGTAACCAATCTCT
Y
GCTATCCCCAGCCCTTCCCAGCCTCTAGTAGCAACTATTCTACTGTCCACTTTTATGAGATCAACTTTTTAAACTTCGCATATGAGTGAGAACATGTGGT
Celera SNP ID:            hCV9384394
SNP Position Genomic:     33196
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4494):
TGCCATTCTCAATTTATTAGGTCTTTTTTTGCTTTTATTATTATTTTTAATTAACATATAATTGTACATATTTATGTGGTACAGTGTGACATTTCAATAC
S
TGCATACAATGTGTAATGATCAAATCAGGGTAAGTAGCATATCCATCACCTCAGACACTTATCATTTTTTTGTATTGGGAGCATTCAAAATCTGCTCTTC
Celera SNP ID:            hCV9384395
SNP Position Genomic:     32978
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4495):
CAAAATATCTGACCCTCGCCGTTCAACAGTGTCAGAGGCATAAAAGACACATCTTTGCTAAGGAATCACTACAGATTAGGAGGAGAATATTGCATGACAA
Y
TAAATGCAATGTGGGATCCTGGATTGGATCCTAGAGCTGAAAAGGGACGTTAGTAGGAAAACTGGTGAAATCCAAATAGTTATAGTATTGTGCCATTCTC
Celera SNP ID:            hCV9384396
SNP Position Genomic:     32787
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,8)   total(C,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4496):
ACTTGAGCTGAGGAGTTCGAGACCAGCCTGGGAAACATGACAAGACTCCATATCTACTAAAACTACAAAAAATTAGTCGGGCGTGATGGCTTGTGCCTGT
R
GTTTCAGCTACTCGGGAGTCTGGAGTGGGAAGATCGCTTTAGCCCAGGGGGTGGAAGTTGCAGTGAGCCATGATTGCACCACTGCACTCCAGTCTGGGTA
Celera SNP ID:            hCV11908933
SNP Position Genomic:     114706
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4497):
TGCACCTGACTACTGCTATTATTATCCTCTTTATTTTAGAGATGAGGAAAATAAAGTCCAGAGAGGTTAAACATTTTGCCCTAAGACCCCACAGCAAGTG
K
GTAGAAGACCTGGGACTATAATGCAGGTTTTCTGGCCTCTAGTTCAGAGCATTCGTAGCATGCTAGCCCCTCAGTAGCATAGTACTTTAGGAAGCTAGTC
Celera SNP ID:            hCV3158640
SNP Position Genomic:     126096
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,-)   PGT-TFRIGTN-PTNEL(T,11|G,37)   PGT-EUR(ETN-PTNEL(T,21|G,25)   total(T,32|G,62)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4498):
GTAGCATGCTAGCCCCTCAGTAGCATAGTACTTTAGGAAGCTAGTCTTTCCCACTTGCTGGTAGTAAGCCAGGGAGACATAATACACTAAGAAAGCTTCG
S
TCTGAGAAAACTTTCCATGATTGTTTTTTCTCAATTTTTAGAACAGTAGGAATTCTTCACCTCATCTGCTATCCCAACATATTCACAATTGGAAAATTTT
Celera SNP ID:            hCV3158641
SNP Position Genomic:     126251
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,7)      total(G,7|C,4) ;(C,-|G,-)   no_pop(C,-|G,-)   PGA-AFRICAN-PANEL(G,11|C,37)   PGA-EUR(EAN-PANEL(G,20|C,24)   total(G,31|C,61)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4499):
GAAAAGGAGATTTCTGAGTAGAAACACGTTAGCAGAGGAAACTTCATTTGGGGAACAGGATTGTTTTGATGCCATGCTCCCTCAGCTGACCACACAGATT
M
CATCCTGGCCAGAAAAAGGCCCTGCAAAGAGCTCTGATCATTTTGGTTCTGATTCCATCCTTAGTTCTTACCCATTATCTGCTTACCCTTCCTCCCCACC
Celera SNP ID:            hCV25607380
SNP Position Genomic:     151730
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,3)   caucasian(A,21|C,1)   total(A,30|C,4)
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:4500):
TCGGATCCACAAAAAAAGTAGAAATAAATGTCAGTACTGTCGGTTTCAGAAATGCCTTGCAGTGGGGATGTCTCATAATGGTAAGTAAACAGTCATCACC
W
TATACTTTATTATTCTCATTATAGCTGCCAGACCAGTGGACACTAAAGCCATTGCCAAAAATGTGTACAGTTTTTCCACCAAATGCCAGAATTTAGAATA
Celera SNP ID:            hCV25607381
SNP Position Genomic:     110844
SNP Source:               Applera
Population(Allele,Count): african american(A,36|T,2)   caucasian(A,40)   total(A,76|T,2)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:4501):
GTCCTCTTTATTTTTAATAAAATTATTTAGTCATTAAGAATTTTGGCTTGTGGGCCGGGCATGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCC
R
AGGTCAGAGGACCACTTGAGCTGAGGAGTTCGAGACCAGCCTGGGAAACATGACAAGACTCCATATCTACTAAAACTACAAAAAATTAGTCGGGCGTGAT
Celera SNP ID:            hCV11908937
SNP Position Genomic:     114592
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,7)      total(G,4|A,7) ;(A,-|G,-)   PGA-AFRICAN-PANEL(A,7|G,39)   PGA-EUR(EAN-PANEL(A,19|G,21)   total(G,60|A,26)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4502):
CTTTTTTTTTTTTTTTTTTTGAGGTGGGGTCTTGCTTTGTTGCCCAGGTGGGAGTGTCTTCTTATATTGGTCAGGCTGGCCTTGAACTCGGGGCTCAAGC
M
GTCCTCCCACCTCAGCCTCCCAAAGAGCTGGTATTACAGGTGTGAGCCACCAGCCATGGTTAGTTTTCATCAACTGCTTTCTCACCTTCTTTTCATCCTC
Celera SNP ID:            hCV3158642
SNP Position Genomic:     126734
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,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4503):
TGACAGAATCGTGTCAAGAACCTGCCTTTTCTGATTCCCAGGCCAGTATACCTTTCGCTGTAGGTTGCTGCTTCCATGTGTCATAAAGACTTAAAATTTG
M
TTCTTTTTTATCCCTTTGCAGGGTTTCTTCCGGAGAACAATCAGATTGAAGCTTATCTATGACAGATGTGATCTTAACTGTCGGATCCACAAAAAAAGTA
Celera SNP ID:            hCV25607382
SNP Position Genomic:     110663
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:4504):
TCTTTTCATCCTCTAATTCATACCTGCAATCCTTATTAGAAATCCTGTCAACTTAATAGTACCAGAAAGTCAGGCAAAAGACTGATAAAAAAAAAGCCTC
R
GTGGTCAAGAACTTAAAATTACACTACTGGTGTGCAACGTGCTCTTATCTGTGTTACTGGAGGACACCCTCAAGATACCTCACTCCAGTTGACTCCTTGG
Celera SNP ID:            hCV3158643
SNP Position Genomic:     126922
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:4505):
TTACCCAGAACCTTTGGAAAAGGAAATGACTTGATTGAAGAGGCCATTCTTTAAATGTATCTTACTGCTCAATTTCACCATTGCCTATTGTAGAATGCGC
S
CTGCCCGCTCAGCATTTGCCTCTAGGCAGACCAGGACTCCTTCCCCTCCCCAACTAATCTTCCTTCTCCTGTATCTTATTCCCTAGGGCCACTTGCACCT
Celera SNP ID:            hCV3158644
SNP Position Genomic:     127905
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,5|G,7)      total(G,7|C,5) ;no_pop(C,-|G,-)   ;SC_12_A(C,9|G,15)   SC_12_C(G,6|C,17)   SC_12_AA(G,4|C,16)   total(G,25|C,42)PGA-AFRICAN-PANEL(G,9|C,35)   PGA-EUR(EAN-PANEL(C,20|G,22)   total(G,31|C,55)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4506):
TTCAGTATGTGGGAGAATCTGTCCTGGGCACTTTATATACACCCATAATCTGTTTGGATTTCTTGGTAGGAAGACTACATGGCTGCATACATGGTCTTTC
W
TTACCTCCATTTTATAGATGGAGAAAATGGAAATTTAAAGAGGTTAAGCAGTTTGCCGAAGGTCACAGAGCTACTAATCGGTGAGGTCAAGGTTCAGACC
Celera SNP ID:            hCV3158645
SNP Position Genomic:     140394
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,9)   total(A,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4507):
AAGACAGGATGTACTTGCTTGAATAGGCCAGTGCTTTCCTGGAGGAAACTCCGGCTTATGGAGCCTCTGCTTCTGCACAGCCCAGTGCCTTCCACCCCCT
S
TTCATCTGCTAGCATCTACATTACTAGTTAACTGGAGAGGAGACCAAACCCAAAATATTACAAAACATAGATATTAAAAATACTGTGAACAACAATCAGC
Celera SNP ID:            hCV1129811
SNP Position Genomic:     141670
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,9)   total(G,2|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4508):
TCCAAGCTACTCTGGAGGCTGAGGCAGGAGGATTGCTTAAGCCCAGGAATTTGAGGCTCCAGTGAGCTGTGATTGTGCCACTGCACTCCAGCCTGGGCAA
Y
AGAGTGAGATCCTGTCTCAAAAAAAAAAAAGAAAAGAAAAAGAAAAAAGAATCTCCAGATTATAGTTCAGATATTACGTATTAATATCCAAAGCCCTCCT
Celera SNP ID:            hCV1129812
SNP Position Genomic:     140930
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,9)   total(C,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4509):
GCTATGTCTTTTTTAAAAAAGCAAAAAATAGATAAACCTTTGACAAATCAGATTTTTTTAATGAGAGAATGCACAAATAAAGAGCTCTAAGAGCTGGGCA
Y
GGTGACTCATGCCTATATTCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATTGGTTGAGGCCAGGAGTTTAAGACCAGCCTGGGCTACGTAGCAAGACCC
Celera SNP ID:            hCV3158649
SNP Position Genomic:     149734
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:4510):
CAACTGGTGTTCATTTGCATGTCAACACCCAGAATTCTCTGCTAGTTCACCTCTTCTTCAGAATGCAGAAAGGATTGAAAAAGCTGGAATGGGGCCGGGC
R
TGGTGGCTCATGCCTGTAATCCCATCACTTTGTGAGGCAGAGGTGGGTGGATCACCTGAGGCCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACC
Celera SNP ID:            hCV1129814
SNP Position Genomic:     131602
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:4511):
CAGTATAATCAGATATGACTAGGGAAAAAATAAAACAACTGGTGTTCATTTGCATGTCAACACCCAGAATTCTCTGCTAGTTCACCTCTTCTTCAGAATG
Y
AGAAAGGATTGAAAAAGCTGGAATGGGGCCGGGCATGGTGGCTCATGCCTGTAATCCCATCACTTTGTGAGGCAGAGGTGGGTGGATCACCTGAGGCCAG
Celera SNP ID:            hCV1129815
SNP Position Genomic:     131567
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:4512):
CTGGTGTTTATAAAGCTCATTCGTTCAATGATAAAATTGGCCATAGCAAATCAAAAATAAATGAAGACCTCTGCGTAGCTGATTGGACTACAGAAAATAA
R
CCATTCATATCCAGGAAGAAAAAATTAAAAGGATTGCTGAAAAGGAAAGAGCCCTAAAGCAAACTATCTACAGTTTTGGTTAGTTTTCTTTTCTTTTCTT
Celera SNP ID:            hCV1129818
SNP Position Genomic:     126531
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:4513):
ACCAAAATTCCTAAATGTGCAAGTCTCTGATATAAAATGGCATAGTATTTGCATGTAACCTACACATACCCTCCTGTATACTTTAGATCATCTCTAGATG
R
CTTATAATATCTAATACAGTATAAATACTGTATAAATAGTTCCTATGGCCAGGTGTCATGGCTCATGCCTGTAATCCCATCTCTTTGGGAGGTGGAGGCA
Celera SNP ID:            hCV1129819
SNP Position Genomic:     121030
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,8|G,9)      total(G,9|A,8) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4514):
TTCAAACCATCTATAAATTAGCAGTCTAAGTGGAACTTTGGCAAATGAGGTTGCCAACAAGCATTTTCTTTATATTTAGATAATTTGAGCTCATGGCCTC
Y
GGGCATTTGGTAAGAAGTCCAGTAAAGAGAAGCCTAAAGAACAGAATCTTTATTATGAGTAGTCGCCTTTTTCCACTCAGCAGTTTGATTCCAAGCACCC
Celera SNP ID:            hCV16156156
SNP Position Genomic:     45478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:4515):
TTTAAAAATCAACAATCGGCCGGGTGTGGTGGCTCATGCCTGTAATCCCAGCCCTTTGGGAGGCCAAGGCAGGCAGATCACTTGAGGCCAGGAGTTCAAG
M
CCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATCAGCTGGGTGTGGCAGTGCATGCCAGTAATCCCAGCTACCCAGGAGGCTG
Celera SNP ID:            hCV27971581
SNP Position Genomic:     134247
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4516):
GCCTCTGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACGCGCCCAGCCTGAAGCTTTTTTTAAATGAAGATTTATTCAACAAATGTCTATTGAGCC
M
CTTATTTGTGCCACAAGCTGTTTCAGATAAGGAGGATAAAGCAATGAACAGACAAATTCCATTCCTCCTTGAGTTTACAATTATTGTTATCTAGATTTAA
Celera SNP ID:            hCV9384472
SNP Position Genomic:     17272
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,8)   total(A,8|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4517):
TTAAGTGATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGACTACAGGTGTGAGCCACTACACCCAGCTAATTTTTATATTTTTTGTAGAAACAGGGGTTC
R
CCGTATTGCCAGGCTGGTCTTGAACTCGTAGGCCCAAGCAGTCCTCTGGCCTCTGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACGCGCCCAGCC
Celera SNP ID:            hCV9384473
SNP Position Genomic:     17123
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,11)   total(G,11|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4518):
ATAGTTCTGCAAAACTTCAAAGCCATAGAAACATAAGAGAATAAAACTTTCTACTTTTGAAACCTGTGTCTAAAGTCAAGCTTATGACTTTGGGTGTCAA
Y
TTAAGGGAAATGATGTAGAAGACCTGAGAAAAGACCCATGTTTTCATGATCTGTGGAACTAACTCAGTAAGGTCCTGGAAGACAAACGTGTTTGAAAAAA
Celera SNP ID:            hCV15967117
SNP Position Genomic:     111471
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(T,359|C,1110)   total(C,1110|T,359)
SNP Type:                 INTRON


Context             (SEQ ID NO:4519):
CTGCAAGCGGTGTCTTGGTGATGGGAAGTTACTGGTAACAGCACACGGGGTGATGGGGTGAAGAGGCTTGTGTGCGTGGGCCCCGGGGGCTGAGGATTGT
Y
GGAGAGGACTTCTCCCACCTTCTCTGGGCCCCAAACTGCACACTGGACTGGCAAGCCACTCTGCCCACTGCAGTGTGGAGCTACAAAGCCCAAGTAGGGA
Celera SNP ID:            hCV11561820
SNP Position Genomic:     10924
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,8)   total(C,2|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4520):
AAAATCCTGCTGCCAAGTCCTTTATAGTAATTGCATTTTAAAAATATGTCTTCTTTATTTTTTATTATTATTTTTTTTTGAGATGGAGTCTCGCTCTGTC
R
CCCAGTCTGGAGTTAAATGGTACAATCTTGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTTAGCCTCCTGAGTAGCTGGGATTA
Celera SNP ID:            hCV11908942
SNP Position Genomic:     114230
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4521):
CAATTCCTCGCCAACCTAACAGCGTAAGTCTATTTTTTTCTGGTGGTGTGTTATTCTTCTCATAGAGAACTCCATTTTTTCATTATGACATAGCACTTAT
Y
GTTTAAACATCAATTGATGTTCAAACATCAGCTGGTGTAACATTGCTGCAGTTGCTATTGATGGATAAGCTGAAGTTTTTAAGAAAGCAAACCCGATGTA
Celera SNP ID:            hCV27831008
SNP Position Genomic:     68864
SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(C,35|T,3)   total(C,63|T,3)
SNP Type:                 INTRON;TFBS;hmCS

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


Context             (SEQ ID NO:4522):
ACAAAAAATTTCGAAATTAGTTGGGTGTGGCGGCTCATGCCTATAGTCCCAGCTACTTGGGAGGCTAAAGCAGGAGGATCACCTGAACCCAGGAGTTGGA
R
GCTGCAGTGAGCCATGATCATGCCACTGCACTGGGCAACAGATTAAGACTCTGTCACAAAAAAAAAAGCGTTAAGTTAAGGAGCGTGAATAAAAATAATA
Celera SNP ID:            hCV3158650
SNP Position Genomic:     149942
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,7)   total(G,7|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4523):
CAGGAGGATCACCTGAACCCAGGAGTTGGAGGCTGCAGTGAGCCATGATCATGCCACTGCACTGGGCAACAGATTAAGACTCTGTCACAAAAAAAAAAGC
R
TTAAGTTAAGGAGCGTGAATAAAAATAATACATTTCATATTCTAAGACAATATCATCTACAACTTTATTCCAATATAAATTACTAAAACTTTACCATATA
Celera SNP ID:            hCV3158651
SNP Position Genomic:     150012
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4524):
AAAACCATAACTCTTCAGATATCATAGCTCTTTAGATAGAAAAATGTAAAAGTATTTGATAAAAATTCAACAACATTCCTGACTAAAACAAATTAAAATT
K
TAAAACCCCTGGAAAGCCAGGAGTAAAACATGTTCTCCATAATCTATAGCAAACATCATAGTTGCTGATAAACCATTAGAAGCATTTCCTTCAAAGTTAG
Celera SNP ID:            hCV3158652
SNP Position Genomic:     150539
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|G,7)   total(G,7|T,5) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4525):
CCCATTAGGAAAAAATTGCTTTTCTAGGTGTGTAAAGTTTTGCATATGATTATAGCCTCTTACCTGTAAAAACTGAATCAGAGCTTAGAACCATGCCTGG
Y
GCACAATAGTCATTCAACAATTATTCCTTGAATAAAGAGACAGTATTGTGTGGTCTGTGAAATAACAAAAGTTCAGGAGCAACAGACACTTGGTGATTCT
Celera SNP ID:            hCV1129821
SNP Position Genomic:     120224
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,7|T,10)      total(C,7|T,10) ;no_pop(C,-|T,-)   PGA-AFRICAN-PANEL(T,9|C,37)   PGA-EUR(EAN-PANEL(C,22|T,22)   total(C,59|T,31) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4526):
TTGTTTTTTTCTTGTAAATTTGTTTAAGTTCTTTGTAGATTCTGGATATTAGCCCTTTGTCAGATGGGTAGATTGCAAAAATTTTCTCCCATTCTGTAGG
Y
TGCCTGTTCACTCTGATGATAGTTTCTTTTGCTGTGCAGAAACTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCTTTTGTTGCTATTGCTTTTG
Celera SNP ID:            hCV8780993
SNP Position Genomic:     105733
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,6)   total(C,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4527):
GGCTCAAGAATTACTTAACTAAAAAACACCATCTCACAAACAATTTAAAGATGGAAAGATAGAAATAGAGATAGGCAGACAGATGGACACATAGATTAGG
K
TTTCAGATTCTGTTCTTTCTCTGTGGGAGAGGTCAGCGTGCCATGACTACCAGCCTGGTCTAGAACCCACAGCAGCCATAGTTACCAAGACCACAGCAAT
Celera SNP ID:            hCV1129823
SNP Position Genomic:     119401
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,9)      total(G,9|T,4) ;JBIG-allele(T,684|G,807)   total(T,684|G,807)   PGT-TFRIGTN-PTNEL(T,19|G,25)   PGT-EUR(ETN-PTNEL(G,20|T,22)   total(T,41|G,45)no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4528):
TATTTCTAAGGTCTGACTTCAGTCTTTCAGGAAACACCTCCCAACCTCCTTCGCTTTCCTCCTCTTGGTTGTCAGATTCTCCACATGAAGGGTAGAACCT
R
AGGCTCAAGAATTACTTAACTAAAAAACACCATCTCACAAACAATTTAAAGATGGAAAGATAGAAATAGAGATAGGCAGACAGATGGACACATAGATTAG
Celera SNP ID:            hCV1129824
SNP Position Genomic:     119299
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,9)      total(G,9|A,4) ;(G,-|A,-)   PGA-AFRIGAN-PANEL(A,10|G,34)   PGA-EUR(EAN-PANEL(A,17|G,25)   total(G,59|A,27)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4529):
TGAGCCCAGAAGGTTGCAGTGAGCTACGATCATGCCACTACACTCCCACCTGCGTGATCGAGAAAGACCCTGTCTCTAAAAAAAAAAAAAAAATTTTAAA
R
AGAGATGGGAAAACAACTTATTGGCAATAGCACATGTTCTTGTTTGTATGCAACAAACATATAAAAAGTAGAAAAATTGACCATAAGACATAGCCTTACT
Celera SNP ID:            hCV1129825
SNP Position Genomic:     118075
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:4530):
ACAAACTCCTAATGCATGTGGCAGTACATGTTTGCTCCAGCTGCCCTGTCCCTCTACCCTGCGTGGACTCCAGAACCGCCCATGTTGGAGCCCACCTCCT
Y
TCCCCACCCCTGCCCACTTTCCACTCACACCTCAGGCAAACCCTGCATTTTGCTGTTCCTGGAAAATGGCTTATGCTTGGATACCTCTGGGCCTCTGTTG
Celera SNP ID:            hCV1129827
SNP Position Genomic:     115954
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,8)      total(C,3|T,8) ;(T,-|C,-)   PCT-TFRICTN-PTNEL(C,6|T,42)   PCT-EUR(ETN-PTNEL(C,16|T,28)   total(C,22|T,70)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4531):
TGAGAGTTTGAGGAGGTGGTTTTTATGCCGATAGTTGAAGAGTGAATTGGAGTTACCTTAAGGGGGTTGTGAGAAGAACCATGTTACAGATGGAGGAAAT
R
AGATGTGAAGGCTGTGATGTGGGAAACAGCTTAGTTTACTCCCTGATTTAAATGGAGAAAAGGAATCCAGTGAGGCTTCAGAGAGAAGCAAGAACTAGGT
Celera SNP ID:            hCV11922955
SNP Position Genomic:     49473
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:4532):
GGACACTCTTCCCTCTTGGGGTGTGTGATGAACTCCCAGGAGAGGAAAGATGGGAGCCAGGGCAAGATAGGAAGCTCTGCCTGAGCTTTCCACTAGGCAC
R
CCAGCCAGACCAATAAAAAGCATCTGTCCCACTCTGCTAAGCCTGCTTTTCTTGAGCAGAGGGTGAGAGAGGCAGTGGCCATCTCCACCTCAGCTCCTGC
Celera SNP ID:            hCV11922956
SNP Position Genomic:     46674
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:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:4533):
ATATTTAAAAAGTAGGATAAAAAATGTGTGTGAACTATTGATTGGAACCTTACAAAAATGTATGTATATGAAAAAGTCTGGAAGAGAATATACAAAAGTG
R
TAATAGTTATGTTACAGTAGTGAGATATGGAGGGCTTTTTGTTTGTTTTTATATTTTTCTCTCTTTCCCAAAGTTTATTCAGTAGTATAAAATTACTTCT
Celera SNP ID:            hCV9384481
SNP Position Genomic:     15440
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4534):
GTAACTTAAATATCCAACAGTAGGGAGATGTTTAAATAAATTATGGTATAATCAATAGTTAAAATATTGTACAGTTATAATGACAATTTAGAAACTACTC
R
CAACTCTGAAGAATATTTAAAAAGTAGGATAAAAAATGTGTGTGAACTATTGATTGGAACCTTACAAAAATGTATGTATATGAAAAAGTCTGGAAGAGAA
Celera SNP ID:            hCV9384482
SNP Position Genomic:     15327
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4535):
TGGATTTGTAAACCTCAATTCCAGTTTAATAATAGTAGAAAATATTCCCTTCCTAGTGATTGTTGATAATAGTTTTTTTTATTTTAAAATTCTATAATTT
M
AAGGATTGAAGAGATTTACACTCATATATATCTGATGTCACTAAGATTTAGTTCAGGTTACTTAGAAAGCATTGGGCAATGTTTTGTAACTTTTGGGACT
Celera SNP ID:            hCV9384483
SNP Position Genomic:     15041
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|C,9)   total(A,4|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4536):
TTAGTGTTAGAACAAATATAATGATCATCATGATTAATTTTTATATTGCCTCATGCATTAAAAACAGAATTAAAATTTACTTTTGTGTATCAGTAGTGTC
R
TTCTGCTTTAAATGTAAGAAAATCCTGAAGATGTCTGGGTCTGAAACTTTAAATGGCATATGAGAATTTAGATTCATTTAATTTTTTTTTTTTTTTTTTT
Celera SNP ID:            hCV11908952
SNP Position Genomic:     111180
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:4537):
CTTGCACTGTTTTGTGGTTTGGGAGTTGCATATTGGAGGTGGGAGTGGAGTGTTGAGATGAGGCAAGTTGAGATGTAATCGCTATTTAATGGGCAGATCA
R
AGAAAACATTGGCTGGTTTGATTTTTATTATGGTTATCCCGCTCCACCATCCTGGCCCAGTCATATATATTATTGTTATCAGGCATAGATAGGGGAAGCA
Celera SNP ID:            hCV3158665
SNP Position Genomic:     144181
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4538):
GTGAGGAAGAATGAAAACCCAGCACTGGTTCAAATCACTCCTAGCAGAGGTAGTGAAGGCATCACTCAGTCCTGGAGAAATCTTCGGAGGGCTCACCAGC
R
TCACAAGTAGGTAGACCAGAAGAGGCAGGCTGGCCCATTGCAAAGCCCTGGAATCAGAGGGACAGGAGTTCCAAATCCCCACTCTCTCTCTTCCTAGATG
Celera SNP ID:            hCV3158666
SNP Position Genomic:     142782
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,-)   PGA-AFRICAN-PANEL(G,9|A,39)   PGA-EUR(EAN-PANEL(A,20|G,26)   total(G,35|A,59)SC_12_A(A,7|G,14)   SC_12_C(G,6|A,17)   SC_12_AA(G,5|A,18)   SC_95_C(G,72|A,105)   total(G,97|A,147)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4539):
GCTTCTGAGAAATGCAACTAGAATTTCCTCCGGAGAAGAGATGGAAACCCCTGATTGAGAAATTTAAGGCCTAGGAAAGGTAAATGACTTTTCTTAAGTC
W
CATGGCTCACCACAGAACCAAAGCTGGAACACACATACCCTCAGCTCTTCTTCCAGTGCTTTCAGGTATACAAGTATTTGAACAGGATTCAAGGTTTAAC
Celera SNP ID:            hCV3158667
SNP Position Genomic:     133402
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,-)   PGA-AFRICAN-PANEL(A,5|T,37)   PGA-EUR(EAN-PANEL(A,13|T,31)   total(A,18|T,68) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4540):
TCAGTTCCTCTAAAGGCAAGAATGTATTTTGAATAGAGCTATCAGCAGTACTGAACAGGATGGAAATTTGGTCCAACTTTCCTCAACAATTGACTACATC
T
GCTGTATACAACTGTAGTCATGGATTGCAAAATAATTTGCTGGTTCAGTTCCATCAGTTTCCTTTTTATTTCAGACCTCATAAAACATAAGGGCAAGCTT
Celera SNP ID:            hCV1129834
SNP Position Genomic:     112076
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,18)   total(-,18|T,1) 
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:4541):
ATCCAGAGTTCTAAATGGACGTTTGGAGAAAGTCAAAATGCATGTCAATGACCAAAGCAATACTAATGCAGTGCTTTTTGCACCAAACAGGGCCAGATAC
M
TTTGAAAGAATTAGCAATTAAGTTTTATGAAGATGAACACAATAGAAATGAATAGGAATATGATGAACCCAAAAAATGGAGTCAGAAAACACGTCCAGTT
Celera SNP ID:            hCV1129836
SNP Position Genomic:     109870
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,13)   total(A,13|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4542):
AAGTACATTTCAAGGATAGTAAGCCAGAGAAGATATTTGAACATCTGTAACAGACAACAGATTAATATCTAGCATATTTTTTAAAAAAGTCTAAAATTCA
R
TTTTAAGGAAAAGACAGTTAGAAACTGGGAAGTGAAAAGCCAGGGACATACAAATCAAGATTTAAATTCAATTTTATACATTTCAGATTGTCAAAATTAA
Celera SNP ID:            hCV1129837
SNP Position Genomic:     108137
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:4543):
AGCTAAGTGTAGGGCTTCTGAATTAAGCCAGGATTCTCAATAGTGTCTGAAATAGTCATAAGTCAGTAACACCCCTGGCTACTGAATTCCTAATTCAGAC
Y
TTGTAGGAGTCCCCCAGTTTAAGGTCAAGAAACTAGTTCCAAATAATATCAGCAAGCATGTGAGAAGCTAACCATCTTGAATGACATTCATCATCAACAA
Celera SNP ID:            hCV1129838
SNP Position Genomic:     106644
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,8)      total(C,8|T,2) ;no_pop(C,-|T,-)   PCT-TFRICTN-PTNEL(T,7|C,39)   PCT-EUR(ETN-PTNEL(T,16|C,30)   total(C,69|T,23) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4544):
CCCTGGAGCTCCAGCTGAAGCTGAACCACCCTGAGTCCTCACAGCTGTTTGCCAAGCTGCTCCAGAAAATGACAGACCTCAGACAGATTGTCACGGAACA
Y
GTGCAGCTACTGCAGGTGATCAAGAAGACGGAGACAGACATGAGTCTTCACCCGCTCCTGCAGGAGATCTACAAGGACTTGTACTAGCAGAGAGTCCTGA
Celera SNP ID:            hCV11922961
SNP Position Genomic:     152125
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,36|T,4)   total(C,72|T,6)
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,34|T,4)   total(C,68|T,6)   
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS

SNP Source:               HGMD
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:4545):
AATCCATCTTGAGTTAATTTTTGTATATGGTGTAAGGAAGGGATCAATAATTCTCTTATCAAAAAAACCTTCCTCTCCTAGCCATGCCAAATAACTGAGC
R
CTCTGTGAGCCATCCAGCTGTCAGCTAGCCAAGTAGCATTTTCACCCACTAATATTAGTCTTTAAAAAGCAAGAATCAAAAGAGAAGTCAAGGAATATCA
Celera SNP ID:            hCV1129839
SNP Position Genomic:     106037
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,8)      total(G,3|A,8) ;PGA-AFRIGAN-PANEL(G,10|A,34)   PGA-EUR(EAN-PANEL(G,16|A,26)   total(G,26|A,60)no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4546):
ATTGAACAGCTAAACAGAACGAAAAAGCATGCACATCTTACAGATACAGAGATCATGACTTTGGTAGATGAGACTAACATGTATGAAGGTGTAGGAAGAA
K
GTTTATTTTTCAGTCCAAGGAAGCAATTCACAATCAACTGTTAGAGAAGCAGCAAATAGCGAAGAAAAAATTAAAGAACTAGAACAGAAAAAGTCCTACC
Celera SNP ID:            hCV11922962
SNP Position Genomic:     46199
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:4547):
TACAAGATATGGATTTGTAAACCTCAATTCCAGTTTAATAATAGTAGAAAATATTCCCTTCCTAGTGATTGTTGATAATAGTTTTTTTTATTTTAAAATT
M
TATAATTTCAAGGATTGAAGAGATTTACACTCATATATATCTGATGTCACTAAGATTTAGTTCAGGTTACTTAGAAAGCATTGGGCAATGTTTTGTAACT
Celera SNP ID:            hCV9384490
SNP Position Genomic:     15032
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


Context             (SEQ ID NO:4548):
GGAGAATCGGTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCACGCTATTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCTGTCTCGAAATA
R
TAATAATTATTATTATACATACTTAATTTTATTTTTGCTGAAAATAGTATGGCAAGCCAGTGCATCTCTGTTAGAAATAGAAACTTAGTAGCCACCTCAA
Celera SNP ID:            hCV9384491
SNP Position Genomic:     12991
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,7)   total(G,2|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4549):
CAGTGATAGGAAAAGATATATTTACCCATCATTTTTTTTCTCTTAGTCAAGACAAGTCGCAGATCTTCCTTGAACCATTTTTGACCTCAAAACAGTTATT
M
TGAAACATCAATTAAACTAAGAAATGTAATCACAGTTCAAGTTATGAGCTAGTATTATCTTAATGTAATTAAATATCTGAATATTATCACTTCATTATAT
Celera SNP ID:            hCV9384492
SNP Position Genomic:     12408
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:4550):
AGTTGCTTGTTTCCTTGCTACCTGAAAACAAGGCCTTTAAGGAGTAGAAAACAGATTTGGAGTTTGAAAGAGGGGGTTAGGAGAGGGAAAAATAAAGTTA
W
TGCATGTCCCAGTTTCCTCATAAGCCAGAAACTTTGAAACAAAATAGGAAAATAACCATTTGGAATAGCAGTGATAGGAAAAGATATATTTACCCATCAT
Celera SNP ID:            hCV9384499
SNP Position Genomic:     12239
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:4551):
CTTCTTTTCTGTCTCTGTTTCTCTCCCTCTGAATTTCTGCTTCCTTTCCTCTCTTTCCCAATTGCTACTGTCTCTGCCTTTGGTTGTCTCTGAGTGTAAT
M
TGGAAGTGAAGTATATTTTTATCTACTAAACACATGATCAAATAGGGATTTTTTATTCTGAATTTAACATTAACAGAAATGTTATGTTGCTCTTTATGAG
Celera SNP ID:            hCV11561843
SNP Position Genomic:     23329
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,10)   total(A,10|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4552):
TCTCTGCGCTCGAGGAGCATATAGTCTAGTGAAGCCGATCACCATAAAAACGCATGGCTGTGATACCACATCGTGAGTGTAAGAACAGAGCTATGTATGC
R
TGGGGAACAGTGGACATGATGGCCAGGTACCCTTATTATGGGAAACATAGAACCCAAAGTGTGTTCCCAAAGGAACATGATTCAAAATAATATTTTGCTG
Celera SNP ID:            hCV3158670
SNP Position Genomic:     123060
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:4553):
TGGGAAAATCCAAGGTAATATTCACAGAGTACTCAGATGGGAAAGTTGTCGTGTGCTGTCATGTCTCATGGTAGAAATGCTACCCTTAGCATAATAACAT
R
TAAAATAACTATCTCTGGCTGGGCACAGTGGCTCATGCCTGTAACCCCAACACTTTGGGAGGCTGAGGTGGGTGAATCACTTGAGGTCAGGAGTTTGAGA
Celera SNP ID:            hCV3158671
SNP Position Genomic:     122572
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,-)   PGA-AFRIGAN-PANEL(G,9|A,39)   PGA-EUR(EAN-PANEL(A,22|G,24)   total(G,33|A,61) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4554):
CTCAGCCTCTTTCACTGTTAGGTCCTATAAATTTTTCATTTCTACCTGGCTTTCAGAGTTTTCATAATGGCAACATAATCTTAGTGATAGCACGTAATTT
R
CTAAGCCAGTTTTTAGGTGGCTTCTGGTGTTTTTATTATTGTATAATTATGTTTTATTCTTATACCATTACATACCATGAATATCTTTATGTAAATATTT
Celera SNP ID:            hCV15860373
SNP Position Genomic:     35647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4555):
TTGAAGGAATATGCTATCTGGGGTTTTCTTTCCATTGTATTTCAAAATACAGTAGACAAGGACTTAATATGTGCCAGAAATTGTACTAAGTGCTGAGGAT
M
CAATAATGAACAAGATTCCTGCCTTTGTGGAGATTATATGGCAAGGGAGGAAAGAAAACATTATAGATTAATTCCTGTGATCAGTGCTGTGAGATAAGGT
Celera SNP ID:            hCV3158672
SNP Position Genomic:     121967
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,11)   total(A,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4556):
CTTGGCCCTCAGCCTCTTTCACTGTTAGGTCCTATAAATTTTTCATTTCTACCTGGCTTTCAGAGTTTTCATAATGGCAACATAATCTTAGTGATAGCAC
R
TAATTTACTAAGCCAGTTTTTAGGTGGCTTCTGGTGTTTTTATTATTGTATAATTATGTTTTATTCTTATACCATTACATACCATGAATATCTTTATGTA
Celera SNP ID:            hCV15860374
SNP Position Genomic:     35640
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4557):
TTAGGCTAAGTGCCCTTTTTATTTTTAAAATTTTCTGTATTTATTATTACTATTTTTAGAGATGGAGTCTCCCTGTGTTGCTTAGGCTGGGCTCACCTCA
K
CATCTGGAGTTGCTGAAACTATAGGCATGTGCCACTGCACCTGACCTATTTAAGAAAATAATCTAGAGAAGAATTGACATGTTATTTATGAATCATTCAG
Celera SNP ID:            hCV16157121
SNP Position Genomic:     115018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4558):
TTAAAAAATCAACTATAAAACTAATAGCTTTTGGAGGAAGTAATTCTTTGATAAGTTTTCAATTATTTCCATTGTTAATTATTTTTCTGTATCTTAAGTC
R
ACTTCACCATTTATTTCATTTCAGACAAGTTAGTCTGAGTAAACTGCCCTTGGCCTGCCTTATTATTTACTTAGGTTCTGGTAAAAATCCCATCCCAGAT
Celera SNP ID:            hCV11561848
SNP Position Genomic:     27814
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4559):
GATATGGAATTAATATTCCAAAATATGTAAGAAACTCAACAAACTCAATTGCAAGAAAACAAATAACCCAGTTAAAAAATGATAAAGGAATATCCATTTC
Y
AGAAAGAAGACATACAAGTGGCCAACAGATATATGAAAAGGTACTCACCATCACTAATCATCAGGGAAATGCAAATCAAAACCACGGTGAGATATCATCT
Celera SNP ID:            hCV1129841
SNP Position Genomic:     96051
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:4560):
TTTGGCACCACTTTGAATAATGAACTGGTGTCAGGTAAACAGAGTCCAGGTACCTATTGCAGAAAGTTTTCCAGTCTGCACCCTCGGTGGCTCACAAGTT
Y
ACATGAAGTGAACCAAAAGAGTTTTGTTGCACTTACTGTGACAATAAATCATGTTTAGAAAAATGCATGTGGCATACATGATATTGGGCAAATGATTCAT
Celera SNP ID:            hCV1129842
SNP Position Genomic:     95188
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4561):
TCCAGTCAGCCTCTAGCTCACCAGGAAACCCTGAGCAGGTCACTTTGCCTCATTTTCTTTATCTGTCAAATGAGAACTCAGATGATCTCAAAACAGCCTT
K
TCTGCTGTAGTGTTTCAGGATGATTCTTGTCTCTGGATGTCGCTGTCATGATGGGAGAGGAATTAGTAAATTCCCAGGTCAGTTTACACTGCAGAGTGAT
Celera SNP ID:            hCV1129843
SNP Position Genomic:     89915
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;hmCS


Context             (SEQ ID NO:4562):
ATGATAACTATATGTTTAAAAAATGGGAAAAAAGAGATAGTCGCAAACTTCAACATAGGTTAGATCATCATTTCTCAAACCATATTCCATCACATATTAA
R
CTCCTCAAATATTGCACACTGTGCTTTTTTCTCTCTTTTGTGTATTCTCGTGAACATTAGCCTGTTAGTTTAAGAAGTCTCACAGTAAACCTATTTAACC
Celera SNP ID:            hCV1129844
SNP Position Genomic:     88691
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:4563):
TTCACAATGTAGTTACTTGTAATTTGGGGTTAAATCAGTTGTCTGTGCTTACATTGTAGTAACTGAAAGTGCTGCTTAAGGTTGAGCCAAGCAGTGTGCT
M
TGATTCTGTTTCCTCTCCTGCTTAGCTATTTACTTTTCTGGAGTTAATTTTTGTCACTTAGTCATTGCTCATTTTGTTGTCATTTCTTGCTATGTACTCA
Celera SNP ID:            hCV1129845
SNP Position Genomic:     87814
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,9)   total(A,9|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4564):
ATTTTCCAGATGATTGCATGATAATTCCTTTTAAGAGGACTTTAACACATGTAAGAAATAGAGTTACTCCCTCTGTTAGGAGAAATCATGGAAAGATATT
R
TAATTAAAAGATAGTGAATTTTAGCTTAATTTTTACCTTTATCTAAATAACACTCGTACACAGCTACAGCTTTCAGTGAAGAAGAGATACTCATTCCCAC
Celera SNP ID:            hCV1129846
SNP Position Genomic:     87086
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,8)   total(G,4|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4565):
TGGGTGTGATGGATTACATTAATTTGTTTTCTAATGTTGAACCAACCCCACATACCTTAGCTAAATCTCACTTGGCCATGGTGTATAATTCTTTTCATAC
R
TTATCGGATTCAATTTGCTGATATTTTGTTAAAGATTTCTGCATGTCTGTCCATGAGAGATTGGTCTATAGGGTTTATTTTCCTTGTAATGTCTGTTTTG
Celera SNP ID:            hCV1129847
SNP Position Genomic:     84853
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,6)      total(G,6|A,5) ;PGA-AFRIGAN-PANEL(A,18|G,30)   PGA-EUR(EAN-PANEL(A,17|G,29)   total(G,59|A,35)no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4566):
TAAGACTTCTAGTATGATGTTGAAAAGCAGTAGTGAGAGAAGATATCCTTGCCTTATTCCTAATCTTAGTGGGAAAGCTTGAGTTTCTCACCATTACTTA
Y
GATGTTAACTATATGTTTTGTTTGTAGATGTTCCTAAGTTTAGGAAGTTTTCTTATTTTGTCAAATTCTTTTTCTGCATTTATTGATATGATCATGTGAT
Celera SNP ID:            hCV1129848
SNP Position Genomic:     84635
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4567):
ATTGAGTAGGAAGTACAAAGAGTTCCCATATACTTCCTGTCCCCCACCACGCACAATCTCCCCCACTATCAACATCCTGCACCCAAGTGGTACACTTGTT
A
CAGTCAATAAACCCCCACTGACACATCATTATCACTCAAAGTCCATAGTCTACATTAAGATTCACTCTTCGTGTTATATTCTCTGGGTTTGTACAAATGT
Celera SNP ID:            hCV1129849
SNP Position Genomic:     82106
SNP Source:               Celera
Population(Allele,Count): no_pop(A,6|-,7)   total(A,6|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4568):
ACACAATGCTGGCCTCCTTGATGAATAAAGATGGGGTTCTCATATCCGAGGGCCAAGGCTTCATGACAAGGGAGTTTCTAAAGAGCCTGCGAAAGCCTTT
W
GGTGACTTTATGGAGCCCAAGTTTGAGTTTGCTGTGAAGTTCAATGCACTGGAATTAGATGACAGCGACTTGGCAATATTTATTGCTGTCATTATTCTCA
Celera SNP ID:            hCV27859270
SNP Position Genomic:     135115
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:4569):
AAAATACAGCTATTCTAGGATCCTTGAGCCTTTCATAAGAGATAAGGTTGTGAATCCTAAGACCCTAGGACCATTTACTTAGATGATCTGCTCTCTGGTT
Y
GTCCTCTGAAAAGTCTGCTTCGTGAGGGGTGTGCTGCATTTGCCTTGCCTAAGTGGTGTGGCACACAACTGTACTGTCACCTTAGGCTTAATAACCATGT
Celera SNP ID:            hCV27457719
SNP Position Genomic:     29894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4570):
AGCAGTGGTGGTGCATGCCTGTGGTCCCAGCTACTTGGGAGGCTGAAGTTGGAGGATTTCTCGAGCCCGGGAGTTTGAGGCTACAGTGAGCTGTGATTGC
R
TTACAGCACGACAGCCTGGGCCACAGAGAGAGACCTTGTCTCAAAAATAATTATAATAATAATAACTTATACTATTATTTTTAAAATTGTATTCTTATCC
Celera SNP ID:            hCV11908970
SNP Position Genomic:     87524
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4571):
GTCTGGTATTATTTCCTGTTTTATGTATTCCCTAAGCCAAATCATATAGTCACTGAAGAAAAGATCCATGTTTTATTCTATATTCCACAAATGCCAAACA
Y
ATAATAAGTATAATCAGGTCTTGTTGACTTATTAATACCAAGCTGATCTCCTAAGGTCAGAGACTGGAATATATTTAGCAAATAAATACAAAATTTTAGT
Celera SNP ID:            hCV11908979
SNP Position Genomic:     75998
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4572):
TATGAGTGAATGTTGAATTATATCAAATGCTTTCATAGTTTGTTGTGGTGGTGGTTGTTTTTGAGACAGGGTCTCACTTTGTCTCCAAGCTGGATCATGG
Y
GCATTGCAGCCTCAACCTCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCTTCCAGTAGCTGGGACCACAGCACATCACCACACCCAGCTAATTTTTAA
Celera SNP ID:            hCV1129850
SNP Position Genomic:     81065
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:4573):
GTCTGCCTAACATGGTGGCTCATGCCTGTAATCCCAGAACTTTGGGAGGCTGAGGTGGGTGGATCACTTTGAGCTCAGGAGTTCGAGACCAGCCTGGCCA
R
CATAGTGAAACCCTGTCTCTACTAAAAATACGAAAAATTAGCCAGGCATGGTGGCATGCCCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAAT
Celera SNP ID:            hCV1129852
SNP Position Genomic:     80422
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4574):
TAGAAATCTATACTTCTACTAGAAGTGCATGAGTGTTCTAGCTCTTCTACACCATCACTGGTACTTGGCATTCTCTGTCTTTTTCACGTTAGCCATTCTG
R
TGGGTGTGTTGGTATCATATTCTAATTTTAATCTCCCCTTTTCTGATGTCTAAAAAGTTAAACACTTTAAAAAGCGTTTGTTGTCCATTTGGCTATCCTT
Celera SNP ID:            hCV1129853
SNP Position Genomic:     79192
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:4575):
GCTATGAACATTGTCCTGTAGGTCTCTTAGTGAAGGAGCGTATGCATTTCTGGTAGCTATATGCTTCAGCCAATAATAGAGTATGTTGAGCTTCAGGAGA
Y
GTTGCCAACAGTTCTGAACAGGACTCTAGAAATCTATACTTCTACTAGAAGTGCATGAGTGTTCTAGCTCTTCTACACCATCACTGGTACTTGGCATTCT
Celera SNP ID:            hCV1129854
SNP Position Genomic:     79065
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:4576):
CCCCCTGGGTTCACACAATCCTCCTGCCTCAGCCTCCCGAGTAACTGGGATTAGAGGCACCCACCACCACGCCTGGCTAATTTTGTATTTTTAGTAGAGA
Y
GGGGTTTCACCATGTTGGCAGGGTGGTCTCAAACTCCTGATCTCAAGTGATCCGACTGCCTGCACTTTTCAAAGTGCTGGATTGCAGATGTGAGCCACTA
Celera SNP ID:            hCV1129855
SNP Position Genomic:     77952
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4577):
CCCAGGCTGAAGTGCAGTGGCGCCGTCTCAGCTCACTGCAACCTCTGCCCCCTGGGTTCACACAATCCTCCTGCCTCAGCCTCCCGAGTAACTGGGATTA
S
AGGCACCCACCACCACGCCTGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCAGGGTGGTCTCAAACTCCTGATCTCAAGTGATCC
Celera SNP ID:            hCV1129856
SNP Position Genomic:     77905
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:4578):
ACCAGTGTTCAATCAGCACTGAGTTTGAGGAGCACCGGGTTTGGGAGTATTCATCTCTCTTCCCTGTCCCATAGCTGCCCTTCAAACTCTTGAGACTGTT
Y
CCAGCTCTAAAATGGAAAGGGTCGTCTTCTCTCTGGAACAAAAGACAGGATGTACTTGCTTGAATAGGCCAGTGCTTTCCTGGAGGAAACTCCGGCTTAT
Celera SNP ID:            hCV27479573
SNP Position Genomic:     141528
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4579):
AAGCTCCCTGACAGCAGCTATCCATTTAATCTGCCAATTGCAGTATAAAAATTGGTTATTAAATGAAAAACAATTGTATACCTCTCACAGAGGTTGTCAT
R
TATTACTATTTTTGTCAGCATTCTCACTTATAACTCTGTTAGGATAATCCTGGGAAAATTTCTAAAATCTTCATAGCTCTTTCGTTAGGTACATATTCCT
Celera SNP ID:            hCV1129857
SNP Position Genomic:     73983
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,9)   total(G,4|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4580):
AAAAGAATAAAGAATTAGTCTAAGGCAGTGGTTCTTAAAATGTGGTCCTGGGATCGTGAGCATCCTCTGGCAGCTTGTTAGAAATGCAGTTTCTTGGACC
Y
CATCCCAGACCTGTGGTGGGCCTAGCAATCTGTGTTTTAGGGACTCTGCTTTATACGCTGTTTGGGAACTCTTGGTCCAAGATGATTCTTGCACCCCACC
Celera SNP ID:            hCV15957027
SNP Position Genomic:     14466
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4581):
GAACTCCTGGGCTCAAGGAATTCTCCCGCCTCGACCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATCGCAGCCTGCCCCTGAATTCCATAATTTCAC
R
TGTAATTAGAATTCAAGACCTTTTTCTTGAATATTACTCTTGTCCATATTAATTTTTTTCTGAGTATGGCTCTAGCTTTATCATTTTTTTCTGACTTAAC
Celera SNP ID:            hCV1129858
SNP Position Genomic:     73546
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:4582):
TTTATAGAGACAGGATTTCACCATGTTGTCCAAGCTGGTCTTGAACTCCTGGGCTCAAGGAATTCTCCCGCCTCGACCTCCCAAAGTGCTGGGATTACAG
R
CGTGAGCCATCGCAGCCTGCCCCTGAATTCCATAATTTCACGTGTAATTAGAATTCAAGACCTTTTTCTTGAATATTACTCTTGTCCATATTAATTTTTT
Celera SNP ID:            hCV1129859
SNP Position Genomic:     73504
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4583):
GATGGGAGAAGATAAAATCAAGTTCAAACACATCACCCCCCTGCAGGAGCAGAGCAAAGAGGTGGCCATCCGCATCTTTCAGGGCTGCCAGTTTCGCTCC
R
TGGAGGCTGTGCAGGAGATCACAGAGTATGCCAAAAGCATTCCTGGTTTTGTAAATCTTGACTTGAACGACCAAGTAACTCTCCTCAAATATGGAGTCCA
Celera SNP ID:            hCV27541581
SNP Position Genomic:     134903
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4584):
GGTGCTGTTGAGTGGAGGGGCTTTGAACATGGCACACAGGAAAGGGTTGCCCACCCTGTCACCAGATGGGCTTGCACTGTTTTGTGGTTTGGGAGTTGCA
Y
ATTGGAGGTGGGAGTGGAGTGTTGAGATGAGGCAAGTTGAGATGTAATCGCTATTTAATGGGCAGATCAAAGAAAACATTGGCTGGTTTGATTTTTATTA
Celera SNP ID:            hCV15914927
SNP Position Genomic:     144111
SNP Source:               dbSNP
Population(Allele,Count): PCT-EUR(ETN-PTNEL(C,1|T,45)   total(C,1|T,45)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4585):
CCACCTCAGCCTCACTAGTAGCTGGGACTACAGGCGTACCTTACCACACCCAGCAAATTTTTGTAATTTTTATAGAGACAGGATTTCACCATGTTGTCCA
R
GCTGGTCTTGAACTCCTGGGCTCAAGGAATTCTCCCGCCTCGACCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATCGCAGCCTGCCCCTGAATTCCA
Celera SNP ID:            hCV1129860
SNP Position Genomic:     73436
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4586):
CCTTCAAAACGAGTCTCTCCTGAGATAGGAGTGAGTGATTGATTGCATGCCATTTTTATTGAGGGATACTTAATCTGTGGTTACATATCTCCAGGCAACT
R
TATATTCAGAAACATTTAGATAACTGACCAAAGTTTTCACCTTTCCAGAAGTTTAAAGGGACCCATGTAGTACCAGGGAATATAAGGACCAGTCCTTTGT
Celera SNP ID:            hCV1129862
SNP Position Genomic:     72237
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:4587):
ATTAAAACATTATATTTTGTACCAATAATTTAACCCTTGTCTTATAGGGTCTCTGGCTACTACTTCTTCATAAGCACTGTTTCTCTGTTAAAAATGTGAG
Y
TCCTAAAGGCCCAAGACCTATGATTGTTACTCCTATTGCATTTTGTAAATGACCTTTAAATAATTACTCCACCTCTTCCAAAACAGACAGACTTAAAAAT
Celera SNP ID:            hCV1129863
SNP Position Genomic:     71432
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;PCT-TFRICTN-PTNEL(C,17|T,31)   PCT-EUR(ETN-PTNEL(T,3|C,43)   total(C,60|T,34)no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4588):
TTGATCTTTTGCTAGATAGAGACAAAATATCAGTGTGAATTACAGCAAACCCCTATTCCATGCTGTTATGGGTGAAACTCTGGGAGATTCTCCTATTGAC
S
CAGAAAGCGATTCCTTCACTGATACACTGTCTGCAAACATATCACAAGGTAAAGTTCCTTCCAGATACGGCTATTGGGGACGTGGGGGCATTTATGTAAG
Celera SNP ID:            hCV1129864
SNP Position Genomic:     69717
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,36|G,4)   total(C,73|G,5)
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS

SNP Source:               Celera;HGBASE;HGMD;dbSNP
Population(Allele,Count): no_pop(G,5|C,6)      total(G,5|C,6) ;Samoans(G,1|C,22)   Lille controls(G,184|C,1493)   Caucasian Americans(G,6|C,45)   African Americans(G,3|C,102)   Chinese(G,1|C,99)   Mexican Americans(G,7|C,64)   Nauruans(C,45|G,-)   Lille (NI||M)(G,34|C,306)      total(G,236|C,2176);(C,-|G,-)   ;;(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION;INTRON;hmCS


Context             (SEQ ID NO:4589):
GACAAATTAGCAAACCCAAGTTTTGCTTTAACTTGGATTGCCTTAATAAAGATGTTTTGGGGCTTAATGGCACAGTTGCTCAACTCCCCCACTTTATTCC
R
TGATGTTCAGACCCAGCCAGCATTTCCCCATCAGGCTCTTGCACCATGATTGACAGGGACACTTTTACTAGTCCCCTTGAAGAATGAATAGTTACTCAAT
Celera SNP ID:            hCV1129865
SNP Position Genomic:     68405
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;hmCS


Context             (SEQ ID NO:4590):
GCTACACAAGGTCTTATTCATCTCTAAGTTCTGTAATTTCAAAATGACACTTTGAAACACTCTGGCAAGAGATGCTTTCATTTAAAACACTAAAACCCGT
Y
CGTTCTGTAATTTAAACCAAGTTAAAATATTTATGACCTTATATGAAATCATTGTATTAAGTCAGTTATCTAAGATCTTGATGAGTAGTAAGAACATGTC
Celera SNP ID:            hCV15957036
SNP Position Genomic:     101369
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4591):
GCTCCTGCTCCTTTCTCCCTCTTTCTCTCCCCCAGGATGAATCATAAGTTAACGAATCTGTCATCAGTTATTCATAGTACTTTCTCTGGACACAAACACA
Y
GTAGGGATGTGTGTTAATAAAAATAGGAAGAAAAGTAACTTTGGTCAAGAGTCAAGAAAGGGTTTCCAGGCTCCCACAAGAGCCCTCCCCCAGCACCTCC
Celera SNP ID:            hCV1129793
SNP Position Genomic:     154948
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 hmCS


Context             (SEQ ID NO:4592):
CGTCATGCCACTGCACTCCAGCCTGGATGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGGAGATTTCTGAGTAGAAACA
Y
GTTAGCAGAGGAAACTTCATTTGGGGAACAGGATTGTTTTGATGCCATGCTCCCTCAGCTGACCACACAGATTACATCCTGGCCAGAAAAAGGCCCTGCA
Celera SNP ID:            hCV1129794
SNP Position Genomic:     151656
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,11)   total(C,11|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4593):
TCTACCTAGCACCTAGCTTTAGGCTTGCCACATATTATATTGGCAATGAATATTTGTTGAACAAACAAATGCATGAAATGTAATGAGTAAGACAGGTTTT
Y
GCTTTCAAGTAAAACATAGTCTGGGGGAAGACGGAATGTCAGAATGTGGTGGGTGCTATAGGAGTAGGTGTTATCAGATTCTGATGCTATGGAATAATAA
Celera SNP ID:            hCV1129867
SNP Position Genomic:     67799
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:4594):
CATTCTTTCTCCTGCTGAGGATGTGGTGGTGTACTCAAAGTCACATCCATACCCTTCTGTCTCCAAAGTCCTAGGAGAGATGGCCCTCTTCTCAACCTCT
R
CATTGCACAGAACCTTACATCCCTCAACAGAAGGAGTACATAGTGCATAAGGAAAGTGGTCTTTTACCACTCCTCCTCACTCTGTAACATTACCAAGGAC
Celera SNP ID:            hCV1129868
SNP Position Genomic:     66727
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4595):
AATTAGAAAGGCGTGGTGGTGAGCACCTATCATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATAGCTTGATCCCGGGAGGCATAGGTTGTAGTGAGCC
R
ACGTCATGCCACTGCACTCCAGCCTGGATGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAGAAAAGAAAAGAAAAGGAGATTTCTGAGTAGAAAC
Celera SNP ID:            hCV1129796
SNP Position Genomic:     151554
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:4596):
AAGAAAATGGATGCTATTATCAGTTCGTTAGGTCTCTAAACTCCTTCTTGAATGATACATGTGATATGGATGTGCTGTTCTTTCATTACTCTCATCATCA
R
CAAAAACAATATGTGTGTTTTAATGCCAACCAGGGACTCTGCTAGGTTCTAGGGATGCAATGAGATCTAAATGCTTAACCTTTTAGAAGCTAGCATAAAT
Celera SNP ID:            hCV1129869
SNP Position Genomic:     65905
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,9)   total(G,4|A,9) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4597):
CACTTGAGGTCAGGAGTTTGAGACAAGCCTGGCCAACATGGTGAAACCCTATCTCTACTAAAAATACAAAAATTAGAAAGGCGTGGTGGTGAGCACCTAT
S
ATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATAGCTTGATCCCGGGAGGCATAGGTTGTAGTGAGCCGACGTCATGCCACTGCACTCCAGCCTGGATG
Celera SNP ID:            hCV1129797
SNP Position Genomic:     151484
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,11)   total(G,3|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4598):
TTCAGTCCAAGGAAGCAATTCACAATCAACTGTTAGAGAAGCAGCAAATAGCGAAGAAAAAATTAAAGAACTAGAACAGAAAAAGTCCTACCTGGAGCGG
R
GCGTTAAGGAAGCTGAGAACAACATCCGGGAGATGCTGATGGCACGAAGGGCCCAGTAGGGAGCCTCTCTGGGAAGCTCTTCCTCCTGCCCCTCTCATTC
Celera SNP ID:            hCV27469964
SNP Position Genomic:     46308
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:4599):
AATAAGGAATAAGAGCAGAGCCTTTGGAACCAGACAGACTTAGATCCAAATGTCAGCTCTGCATTTACTAGCAAGTGGTCTATCTTGGTAAGATGCAACT
Y
TTTTCTCTAAGTCTTAATTTCTCCCTCTGTAAAGTATGACCTCATGGGGTTATTGTGAAGATTAAATGGCATATCGTATATAAGGCCCTTGGCACGATCT
Celera SNP ID:            hCV1129799
SNP Position Genomic:     148587
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4600):
TGTGTTCTGATTTAGAACACATGCTCAGGATGAGGCTACAAAAACATTCTCTCCCCAAGTAGTGGGACTTTTCTCTTGTGACTTACACTCCTAATTTTAG
M
CTAATATTACATAGTTGGAATTTCCAGAGGGGTTATAAAGAATAAGAAAATTGCTAATTTGAGTCTGTAGGGAGTGGGTTGGGATATTTTCATCCCCTCC
Celera SNP ID:            hCV8756541
SNP Position Genomic:     157771
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:4601):
TAAAGGACTGAGTGTGCGTGGAGCAGAAAGGGGAAAGAGACTAGTGGGGAGCTGGTGACCAGTTGGAGGGTGGAGGGTAGGGAACAACCCTGGCAGATCC
M
TTTTGCCCTTGACTAGAGCTTAAAGACCAAAGGAAGCGTTCTTGTTTTTAAGTAAGTCAGGTGTTCTAAGTTTAATGTTAATATGCTTTTTCAATTAGAT
Celera SNP ID:            hCV8756544
SNP Position Genomic:     146807
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,653|A,844)   total(A,844|C,653)SC_12_A(C,7|A,16)   SC_12_C(A,11|C,12)   SC_12_AA(C,4|A,19)   SC_95_C(C,75|A,88)   total(A,134|C,98)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4602):
GTTGAGGGAGTAAGGAAGGGTAGGAGTTCTTGGTATTCCCTTATCTCTTCCTTTCCCTCCCCTTATCCTGCCCAGAGCATCGCAGGGTAGAGCCACCAGA
Y
GGATTCAGGGCATGGAGATGGCAGGTTAGTGGTAGACTTGGAAGGGATCGTTCTTCCTATTTCAGCACCACCCTTCTTCCTCTACCTCCCACCCTGCATT
Celera SNP ID:            hCV8756545
SNP Position Genomic:     143612
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   JBIC-allele(T,595|C,900)   total(C,900|T,595) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4603):
TGTGAAGCCTCTGGCACAATGCCTGGGACATGTTCAGCACACAATAAATGCTAATTTTCCCTTTTGCCCTATATGATATGATTTGAAGCAGCGCCACTCA
R
TCCTGCCAGTCACATTGCTGGAAATGCCACCAACAGTCATTCTTAAGATCGCTTATTACAATATAAATACCCCTAGGGGATATCAGCTAATCGCTTTATC
Celera SNP ID:            hCV8756546
SNP Position Genomic:     143058
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4604):
TTATCTCTCTGAGCCTTAATTTCCTTATCAGGACCCTGAGCAAACCAAATAACATGATGTGAAGCCTCTGGCACAATGCCTGGGACATGTTCAGCACACA
R
TAAATGCTAATTTTCCCTTTTGCCCTATATGATATGATTTGAAGCAGCGCCACTCAATCCTGCCAGTCACATTGCTGGAAATGCCACCAACAGTCATTCT
Celera SNP ID:            hCV8756547
SNP Position Genomic:     143001
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:4605):
CATAGTTCCTGTCCCCTATCTGGGCTACGATTGTGTCTGAGAGTAATAGCACTTATTTATTAACTGGAAGAAATTTTACAGGCACCTATGTTGTTTCTGC
M
TAGCTTCTGAGGCTCCTCTCTTAGGCCACTCCTCTCACCATGCCCCCACAGCTAGTTGGTAAAATGGCTTTGAATAATGACTCGCTTTGAGTTATCTAGA
Celera SNP ID:            hCV8756548
SNP Position Genomic:     142056
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:4606):
AGACCAAACCCAAAATATTACAAAACATAGATATTAAAAATACTGTGAACAACAATCAGCCCGCTTTCTCCCACCTCTCCTGTACCAGCTAAATATTTAC
M
TCCCTCATCCGTAGAGGGTTTTTGGACAAGACAGGCTGGTGCCTACATGGTGAAAGTTGTTTTTCTCTCTTTTCTTGTAATATTGCAAATAAACAAGGAT
Celera SNP ID:            hCV8756549
SNP Position Genomic:     141811
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4607):
TATGAAGAAACCCTGAACTGATGCAACCACCACTTGAAAATAAAGTTCCAAGCCAATCTGAATTGCACTAGGAAAAGGCAGCCATTCTTTTGGGTAGGGG
G
AGAAGTGAGCTTGGCTGGTCATTCTGGTTGTTAGCAATTATCTGGCTTCCGTGGGAGCATCATCCAGAAATTTACATCTTATTGAAACAAGAAGAAAATG
Celera SNP ID:            hCV1129870
SNP Position Genomic:     65713
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,14)   total(G,14|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4608):
GTCATGTAAGATTTAAATATTTGATTATAAGAATTCATAATATAATTTTGAAAGCCTACTCTGTTCCAGACGCTGATTTATTTAAATCATCTCTAATTCT
Y
ACAACTCCGAAAAGATAAGAAAACAGAGATGTGACAAGGCTTGAATGCAAACCCAGGTCTGTTTGACTCTTTGTTCATTTTGAATAAAGACAAATTACTC
Celera SNP ID:            hCV1129873
SNP Position Genomic:     62929
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:4609):
GCTTTCAAATACAAAGATTTAACATATGTAAACTGTATTGTACTTCATTTGAAATTCAGTATCTTTACTAAAGAGATTTCTTTTATCCTATCCTACACAC
R
TACAGTATTATTTAATGATGTGCACACAGAACTCTGCCAGCCTGAAACAGTAGGTCTAAGACACGTTTGTTGTTTTTGGCTCCCCTGTGTTGATCTAAAT
Celera SNP ID:            hCV1129874
SNP Position Genomic:     61132
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,10)   total(G,10|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4610):
GGAAGTACACATCCCCTATGGTATATTCAAGCCTAAAATGTTTAACTTGAATCCAGAAATCCTTGGATATAGTGTCCAGTTTATAAGAAACACAGGGGAT
R
GAGAATCAAGCTAAATGATACAACAAGAAAACAACCAGACAAATTCAGAGGTTGAGACATTCTATCTGATAACTGGCCTGACCTCTTCAATTAGTCAGTG
Celera SNP ID:            hCV1129875
SNP Position Genomic:     60304
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,8)   total(G,8|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4611):
ATGTCTGGGTCTGAAACTTTAAATGGCATATGAGAATTTAGATTCATTTAATTTTTTTTTTTTTTTTTTTTTTGCTGTTTATTATGCAAAGACGAGTATT
S
GTTTCCTTCACTTCAAGGAACGTCCATGAGTTGTGGAAAGGGTAAAACAAATTATTTTTATAGTTCTGCAAAACTTCAAAGCCATAGAAACATAAGAGAA
Celera SNP ID:            hCV15864900
SNP Position Genomic:     111311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4612):
GGGCATTGTGGCACGCGCCTGTGGTCTCAGCTACTCAGGAGGCTGAGGTAGGAGGATCGCTTGAGCCTGGGAGTCAGAGGTTGCGGTGAGCTATGATCGC
R
CTGCTGCACTCCAGCCTGGGTAACAGAGCAAGACCCTGTCTCAAAAAAAGAAAAAAAATTTCCTACTAATAAATGTGGAAAGAGTGGTGGAATTAGAAAA
Celera SNP ID:            hCV1129876
SNP Position Genomic:     59855
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,7)   total(G,7|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4613):
TAAGAAAATCCTGAAGATGTCTGGGTCTGAAACTTTAAATGGCATATGAGAATTTAGATTCATTTAATTTTTTTTTTTTTTTTTTTTTTGCTGTTTATTA
Y
GCAAAGACGAGTATTCGTTTCCTTCACTTCAAGGAACGTCCATGAGTTGTGGAAAGGGTAAAACAAATTATTTTTATAGTTCTGCAAAACTTCAAAGCCA
Celera SNP ID:            hCV15864901
SNP Position Genomic:     111295
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4614):
TACCTCCTAATGATTCCCCCTCCCTCAAATACTCTAACAAAGCCCCTTTATTCAGCATGGCATATGTGGCATATTGCTTGTCTGACTAATTCTTGCTCAC
R
CAAGCTTCCTGACCTTACTGCATAGGTCTTTCAGGTACACAGTTCTCAAAGTGTTGATCTGAAAGTTCCGTACAAGACTGGCTCCCCATCACTCATTAAT
Celera SNP ID:            hCV1129877
SNP Position Genomic:     58001
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4615):
GTCTTTCACTAACAAGAACTTAAATGTTAGAAACCTCATACCAAATTTTAATAGTGTCCCAGAAAACTACATATAGTATAATACCATTTAATAAAGCCTC
M
AAACAAGCAAAATTAAATAGTATATTATTTTGTTTTACATAGTATGTGATAAAGCTGTATTTTCTTCCTTTTTTTTTTTTTTTTTTTTTTTTGAGACAAT
Celera SNP ID:            hCV15864902
SNP Position Genomic:     108637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4616):
GGTCAGAAGACACAGCTGAAAAAATACTTTTAGTGGAACCAAAGAATGGATCCAGTAACTACAGTATCGTGGATTCTAGCTTTGACTTTGTCACTGACTG
Y
ACTTGGGCAAGGCCTGGGCAAGTCACTTAACCTCTTTTTGCTTTGGTTTCCCCATCTGTAAAGAGGGTGTTAGTTTAAATGTTCTCCAGGATTTCTTGCA
Celera SNP ID:            hCV1129878
SNP Position Genomic:     57756
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,5)   total(C,3|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4617):
TGCATAGGTTATGTTCAAATACTATGCTATTTTAGATTAGGGACTTGAGCATCTTGGATTTTTGTATCCACAACGTCCTGGAACCAATCCTTCATGAATA
M
GGAAGGACAAATAAATATATCCTTCTGCCTCTTCAGTCTTAAAGTTAGCTAAAACATTTCACTTCCCCATGCCAACTCTGTGAATACCAGATCTTAGATC
Celera SNP ID:            hCV1129879
SNP Position Genomic:     56092
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,8)   total(A,8|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4618):
CTCTGCAGCAGGCAAAAGCTCTTTTTGTTAATTCAAAACAGTTTGGAATCCATTTCAGTTCTTCCTAAACCTCCAAGATACGGGGGAGGAAATTCACTGG
R
TTTTACAATATATTTTTCAAGGCAAATTGCCATCGCCGTCCTAATGACAGAGAAGCTGCCGATATCACTACAACGGCTGCAGATGGCAAGTCATCCAGCC
Celera SNP ID:            hCV8756550
SNP Position Genomic:     139744
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;(A,-|G,-)   JBIC-allele(G,569|A,712)   total(G,569|A,712)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4619):
GTGATTGTTTTCTCCTCTGCAATTTATTCGAAAGTCTATCAGTTACTTTGGTGGTTTCAGAAAGAAGTGCTTTTGTTGGGGATCCAGTTGGCCTCATTCT
R
AGCTGGCTGTGGATTCACAGAAGAACTTCACTTCAGCAAAGGCTCTTAGGGCCCCAGACTAAAAGAAAGATGAGCAAGATGTGCGTCATCTAAGAGTGGG
Celera SNP ID:            hCV8756552
SNP Position Genomic:     138592
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;SC_12_C(A,10|G,13)   SC_95_C(A,58|G,117)   total(G,130|A,68)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4620):
AGTTTTTCCTCCTATTCCAGATTTTCCATTCAGCTAAGCAGGAGGCTTTCATCCACTAAACAAATTTCTGATCCTACCCAGTCTTAACAAGAGTGATTGT
K
TTCTCCTCTGCAATTTATTCGAAAGTCTATCAGTTACTTTGGTGGTTTCAGAAAGAAGTGCTTTTGTTGGGGATCCAGTTGGCCTCATTCTGAGCTGGCT
Celera SNP ID:            hCV8756553
SNP Position Genomic:     138500
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4621):
GCCCTCAGGATAAAATAGAATTAACAAAGTCCTATTTTTCCTATCAAGAAGTTTACATGCACACTCATGTAGATAGATACATACATACACATATGTGTAC
R
TTCATAGCAGTTTGTATTCCTACCCACATATACGAAGGGAAGCATTTGAAATGAGCCATTCAAAGGTACTTAGTTTCTACTAGGCAAGGTCTAGACAAGA
Celera SNP ID:            hCV8756554
SNP Position Genomic:     138183
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   PGA-AFRICAN-PANEL(A,6|G,42)   PGA-EUR(EAN-PANEL(A,11|G,35)   total(G,77|A,17)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 15
Celera Gene:                 hCG27468 - 79000075743512
Gene Symbol:                 CPB2
Protein Name:                carboxypeptidase B2 (plasma, carboxypeptidase U);CPU;PCPB;TAFI
Celera Genomic Axis:         GA_x5YUV32W8B1(27411041..27475464)
Chromosome:                  Chr13
OMIM number:                 603101
OMIM Information:            CARBOXYPEPTIDASE B2, PLASMA;CPB2


Genomic Sequence (SEQ ID NO:1676):
TCAAAGAGATTATGGTTTAATGAGACTTTCTGCACCTCTCCCCAGTCACACAAAATTGGAGGAAAAGATATAAAAGGACAAAACCCCAAAGACAGCAAAT
GAGAGACAATCTCAGATACAAGAAATGGAACGTAAATGCAGAGTGGTGGCAGGTGTTGATGGCATGAGACAGGCAGTGGTGGCCACTGTACGTCATGGAG
ACATACTAGGGTGCTACGGGTAAGCTGACTGCTCAGGGCCAGGGACCAAGCACATTCTTCCCAGCTTGTGGAATCAAAGATCAATAGGCTGGGCGCAGTG
GCTCATGCCTGTAATCCCAGCAATTTGGGATTACTCACCTGAGGTCGGGAGTTCGATACCAGCCTGACCAACATGGAGAAATCCTGTCTCTACTAAAAAC
ACAAAATTAGGCAGGCAGGGTGGCACATGCTTGTAATCCCAGCTATTAGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGAGGAGGTTGTGGTG
AGCCGAGATCGTGCCATTGTACTCCAGCCTGCGCAACAAGAGCGAAACTCCGTCTCAAAAAACAAAACAAAACAAAAAAGCAATAAAAGTTGTGCCAGAC
TTTTGCTTCCATTAGGATACAGAAAGTTGCAGACAAATGTGGTTCCTACCTTAGTAAGAACAAGCTGGACAACCTCCAAAATCATAATTTTTGCAGCTCA
TCAGAGAGCTGATGCTGCAAAGGAAACTAATGAACCAAAATTGAGGGAGGGACAGGAGAGCAGAAAAGGTCCTGTCTGAGGCACAGACATGCTGGTCTGC
CAAAGTCTGAGAGCAGAGCAGGAAAATTGGAAGCAATTCTGTATTAGTCTAGGTTATCCAGAGAAAGAGAACCAATAGGAGATATATGTATGTATAAATA
TATGTGTGTTTGTGTGTGTGTGTGTATATATATGTATATAAAGAGATTTATTATAAGTAGTTTGCTCACATGGTTATGAAGCTGAGAATGCCCAGAAACA
GCAGGTGACAAGTTGGAGACCCAGAAAAGCAGATGGTCTAAGTTCCAGTTTGAGTATAAGTCTGAAGGCATAAGACTGATATCCCAGCTCAAAGTCAGCC
AGGCAGAGAGAAAGAAATCTTTCTTACTCAGCCCATTTTCCTATTCAGGCTTTCAGTGGATTAGATGAAGTCTACCTTCTTTGGGCCTGTTTTATAATCA
ACTGATTCAAATGCTAATATCATCTAGAAACACTCTCACAGACACATTCAGAAATAATGCTTAACCAATATCTGGGCATCCCATGGCCCAGTCAAATTGA
TGCATACAATTAACCATCACAAATCTCAAAGGACTCTGAGCCCCAGGCTGAGAACAAGACAGTGGTCATCTGTACTGGGGAAGAGTCAAGAGATCAGAGA
GAGATGAACTCTTTGAAGCTCAGAGCCTGCTGACCCTCTTTGAAGCTCAGAGCCTGCTGACGTTTGAGGTCAGGGCAGGAAAACAGAGAGAAAACCCACA
ATGAACCCAGCCTTACGCTGAACAGGAGACAGTAGCTGCCTGTGGCTACTGGTAGGGAAGAGGAGAGCAGGAGAGCTGAGACCCCTCCTATGGCGCAGGA
GCACTGGGCCTGACGATGGGTGCAGGCAGGGCAGGAGAACTAAGACAAACCCTCCAGGCACTCAGATCTCAATCCTGGCTAGAGGAAATAATTTGATCTT
GCTATAATAATATAACAAATAAAATTTAACAAAAATAACAGCAAAGCCTAGACCCAGCTCAACTGCAGCCTAGATTGGCTCAATCCTTCACACTGGTGGC
ATGAGAGAAGAAGATATGGGACCTATTCTGGGCTTATCTGCTAGTTACTTTAGTCTATCCTATCCTTTTGTACATAACATCTGTGATTCAATAAAAAATT
ACAAGTATATGAAAAAGCATAAAAAGTGACCCATCTTCAAAAGAGAAAATGGTCAAAAGAACCAGATGCAGAGATTGCTCAAAGACAATCTTTGTTCATA
CATGTATGAAAAAATGGGAAATGCAGCAGTGAAAAGTAAACTCTAAAAAAAAATTCAAATAGAAGTGTCAGAAATGAAAAATATATCAGAAATAAAGACT
TCTTTCAATGGACTTATCAGCAAACTGGAACTGCTGGGAAAAGAATAAGTGAACTTGAAGCCAGATCAATAGAAAATATCCAAATTGAAGCATAAGGAGA
AAAAAGAGATAAGAAATAAAACAGACACACTCTAGTTATTATTGTGGTGAGGAAAGAAATTACTGCAAACTTATGGATGTAGACTCATACGTACAGAGCC
AATGGATTTTTCCCAAAGATGGCAAAGCAATCCCATGGGAGAAAGAAAAGTGTTTTCAGGAAATGATGCTAAAACAATTGAATACTTATATGGAAAATTA
AAGAACGTCAATCCCTCCCTCAAAACATACATAAAAATTAATTTGAGATGGATCATAAACCTAAAAGTCAAAACTATAAAGCTTCAAGAATATCTGCATG
ATCTTGAGTTAGACAAAGCTCCTTAGACAAGACCCAGAAGGCACTAACCACTAAAGAAAAATTGATAAATTGAACTCAGCAAAATTAAAAACTTTTGCTC
TGCAAAAGACATCAATAAAAAATGGGAGAGCCACAAAGTGTCAGAAAATATTGACAATGTATATGTCTGACAAAGGAGTTGTATCCTGAATATATAAATA
ACTCTCACAAGTTAATAATAAAATGACAACTAAATTTTCCAAAATGGTCAAAAGAATTTGATAGACACTTCTCAAAGGAAGATATATTTACAATACATAT
ATCTGACAAAGGACTGATGTCTAGAAAATGTGAATAACTCCTACAAATCAGTAATAAGACAAACTATCCCAACTAACAACCAGGCAAATGATCTGAACAA
ACACTTCTATATATATATATAAAATCTAACTGTACACTTACGATCTGTGCATTTCACTGCATGTACCTTAATACAAAGGAAAAAAATGCTGCTCACTTTT
ACCTAGGACTGGTTTATAAGTAGCTGCTAGTCAGTATGAGACAGAATAACTACACCAGGAGTAACTAAGCCAATAATTAAGTCAAGTCATTGCTGTTTGC
TGACTGGATCTTTGAAATGTGCTCCAAAAACCAGTGTAAGACAGGGCTCTGGAATGGAAGCGCAGGGACTTCTTGGAGGCATGTGCCAAGCAGAGAGAAG
TGAGCATAGGGGAAGAGAGAAAGAAATGAAAGACTTCCTACTTGAAGGAAGACTTCCTACTCAAAATGAGCCTGCAGACCAGAGTTCCAAATCACAGAAG
AATTCAAATACCAATAAAGGCAGCTAACAAAATCAATACTCAGAACATGAATTCACCCAAACATAATTAACCTCATAAAGCAGTGCAACACTGACTTTAA
AATAAGTATCCTGAGGATTCTCAATGAGAGATCTAAAGGAATCATATCGACTAAAAAATTGAAAAAAATCTTAAATGATATTTTAAAATACTGGTATAAA
AACAAAATCAGTAAACACGCAAAAGAACCAGCTGTAAATGATTTATATAGTCATCGAGGTAATTATTTAAAACACCTCAACTGGACTATGTAGTCTAAAT
TAGACTCAAAGAATAAATTAGTGGATTTGAAGATAGTGCTGAGAAACTCACCCAGAATACAGCATACAGAGACAAAGATGATGAGTTTTTAAAACATGAA
AGGACAGTTACAAGACATGAAAGATAGATCAAGAAGCTCCAACAGGAGCCCCTACAGGGCACTAGCAGAGATACGATAGCTGAAGAAATAATAAAATGAT
TTTCCAAGACTGAAGAAATGTCTAAATCCTCAGATCAAAAGTACATCCTGTGTATTGAGTAAGATAATAAAAACTAAATCCACATCTAGACCAGAGTAAT
GGATCTGAGAAGCACCAAGGATAAAGATAATCCCTTAAAAGTTATCAAGGAGAAAGGACAGCTAAACTGCAAGGGAACAACAATTACCTGGGCAGCAGAT
TCCTACCATGCAACAGGAAATGTCAAACAACAATGACGCATCCGTCACACTCGAATATTACATTCAGCTAAACTAGTACTTGAAAGTGAAGGCAAAAGAA
AGTTATTGTTAAAGATACAGAGCATAAAAGATTTTATCACCTGTAGACTTTTGCTATAGGAACTTTTAAAAGATTGCTTCAGCAATAAGAAATGTAATTT
AAAATTTATTGTTTTTTATGCACTCTGTTTCTTTTGTATCCTGTTTCTGTTTCCCCAGAGAGGAAACAGGACATAAAATAAAGAAGAAACACAGATACAA
AATAAGTAGCACAAAAATTGATAGAATTTATTAGCATATTTTAACTATTTTGACTGTTTATTTTAAAGTTAACTTTTATGTTAAAAAGATAAGGTAAAAG
TTACTTGGGTTAGTTTTTCTTTCTCTCCTTCAGTGTGATTATGTTATTCATTTGAAACACAGGTTCGTTTTTGTTTGTATTATTTTTTAAAATTTATTTG
TTTGCTTGTTTTAAGTACATATGTGAAAAGAACATGGTTCTAAAATTCAGAGTAGTTCTAAAGTTCAGAACTATTCAAAACACTTCACCCAAAGAAGCGT
CCCTCCCTGTCTCTTCTACCCTGTCTTTTCCAGTGTGTTTCCACTCACCTCCCGTGGATAACCAGTCTCATTGATTTCTAATCTATCCTTCTTATGTTTC
TTTCTCCACATATGAGCAGACACACACATATTTTCTTATTTCTTCTTCTTTCTTATACAACAAGTGGTTACAGTGGAGGTCACTTTAATTCATTAAATAT
CATTCAATAGTTTTAAATCTCAAAAGGAAAAGTTTGAAATCTCAATCATTTTCTTCTGGCCAGGCACGATGGCTCACGCCTGTATTCCCAGCACTTTGGA
AGGCAGAGGCAGGTGGATCTCCTGAGCTCAGGAGTTTGAGACCATCCAGGGCAACATGGTGCAACCCTGTCTCTACTAAAAATACAAAAAAAATTAACCG
GGTGTGGTGGGGCACACCTCTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAGCCCCAGAGGTGAAGGTTGCAGTGAGCCAAGATCACG
CCTCTGCACTCCAGCTTGGGCTACAGAGTGAGACTCTGTCTCAAAAAAAAAAAAAAAAGAAAAGAAAAAAGAAAAAAAATCATTTTCTTCTCAGAAGTTA
ATTGTGGGCAGGCTGATTTATTTTGCAAATTTGCCAATTCTGACTTCAAGAACATTCAAGTGCATTAACCAATGGGAATGTAGGGGAAGAGGGCTCCACT
CACTTACAGAGGGTAGGATATGGCCTCATACTAGACAAAATGTTATTTGATGCTACTTTCAAGATGATAGGGGATGGGCCTGGATTTAATTGATGGCTAT
TATGGTGACCTTTAAATAAATGAGATTCAAAGTAACCTGATGTCTTTACTGCTTGAACCAGCTTCCATGAAATAGTATTCCTATTGGGGGTGGGCCTATC
ATTCCATATGGTCAAGGAAACATCTTTTTGAACAGAGATCCTGTAATCATCCTTACAAACTGCACTTCAACATTGGATTGGATTAGCCAGATTTGAGGAA
CTCACTTTTTACGTCTTCATAAATTTAAAATGTTGAAAAAGTCAGAGGCAAGGGAAGACATTTATAGTACTTCACGGTAGATCTCCCTCAACATGGGCTA
TATATCCATTAGTCAATATTCTATAGCTATTGTTCTGCAATAAACCAGACAAGATCCTACTGTATTACTACCCTTTTATTCTTGGCCCTACCTTCCCCAA
GGAGTTACACATTTTCTAGATAGTCTAAATTAAGAGCAACTCTCATCATACTCTTTTTGAGTGTTTAATTATCAAGCAACAGCCTAACTAAGCCAATAAT
ATTTCTCTTTTTGGGAGTGGAAATGGAAGCTAAGTTGATTGACCCACAGGAACAAGAGGGAACATGCCGTTATATTTTAACCRGTGTGTAAAGAAGGCTG
TTATGCAATCAATGATCTGGGTTTTTCTCTTCAGAGAAATTTGTTGTACAGAAAATTGCTGTTGGGATGAAGCTTTGCAGCCTTGCAGTCCTTGTACCCA
TTGTTCTCTTCTGTGAGCAGCATGTCTTCGCGTTTCAGAGGTAACCCAATAGAATCTTAGACTGTGGTGGGYCACTCTCCTCACTTGTTTGCCTCATGTC
GTGTCAAGTCAGTGCACTGAGCTGGTGGACAAAATGGTAAACTTTGAAGRYCAGGTCTTTCAGAACTTTCCAAGTTGCCCTGACAAATAAGTAGACTTTA
GCACAATGGGCTATCACTAAAGACAGGGTCTTTTTTCTTTCCTGGCTCTGGTTTTATTATTGGGAGAACCTTGGATGATACGCATATCCAGTGACTATGG
AGATTCAAGAAATTAAATCTTTTATAAACGTAACTATTTATACTCTAACTTGATGTATGATTCATATTCTTCCTGTCTTCACATAAAAAAAGTTAACTAT
GGATCATTTATTTTCCCCTTGTACATGGAACATAGGAGGAAGAAGAGGGTGAAGTGTTAAATAGGAGGTTTGGATCATGCATGATTATTTAGCATGGAAT
ATGAAAGGAAGAAGAGTTGTGTGATAAAGAACTATTATCTGATTCTTATTTTGCTTAGTAGATTCCCTTAGGATAAACTATCTAGAAGAACACAAATGAA
TTCATGCTATAGCACATGCAATGCATGGAGAAAATAGTTCCAGGGTATATGTAATGTAATTTATTAAGTAGTCAATTTTTAGGCTTTAAAACATTGATAT
TGTTTCCTTTGGAATTATCTTATTTTTTCCCCTTTGTTTTGGTTCTATGATCGCTTTCTCCTCCAATTATCTTTGAGACAGATCCCTCTCCTCATGTTAG
TAAATGACAAAGAAAGAAGAGACATAGGGCAAAGGAATATACCAGTGACAAGGAACATTCTACCACCAAAAAAATGTTCACGGTCATAAATAACCATAGG
ACAATGGTTTGGAAAATAGATCTTGACTTGTGAGCCTGAAGCTGTGTTTGTACATGATCACTGAACTGATTATAGTTGATTGATCTTCTTTTGTTCAACA
TGATTGTCGAATGTCGAGCAACAAATTCTATCATAAAATGATATTATTTTTGTTATTTAATTGACGTGGGGGTCAAGATTGCTGCAATGATCAGTGACTT
ATGTCTTTCTCTGTATTTTATCGGTGAATCATATGGTCAGGATTTCTAAGGTTCTTGCTAGTTCTAATATTCCATAACTTGATAATTGGCTTCAGTTAAG
GGAAAGGGGGAGAAGAGAAAAATTGGTATCAACATGTCCAACTTGGCTACTGTACACAGTGGCAGTACCATTGACAGTTAGGGGAAAGGGAGGAAACCTC
TGCTTATTTAGTGCCTGTGTTTGTGCCAGGCACTGAACTAGTCACTTAGAAATGTTATCTCTTTAAATGCATAAAATCCTACATGCTAGGAATCTTTACT
GACATTTTACAAAGGAGGAAACTGAGCCTCAGGAAGAATAAATAATTGGCCCAAGATCAAACAGTAAATGTAGAGCTTGGATTCAAACCCACTTTAGCCT
CATTTCAACTCCATGCACTGGACAGCATTGCCTCCATAAAATCTGGAAATTAGGAAGAGAGCCAGTTTGAAGGAAGGTCAGATTTAGTCAAAGGGAGTTG
CAGGCAGCAGTTGGTTTGGAAAGTAGCTTGGAAGAGAGGTTCGGGATTAGAGGTTCAGTCTCATGGTTCTCACCCACTRGCAGATCTAATCATGGCCTTG
GCGTCAGCCCAGTGCAATTATCCTCAGCTGGTTGTTGCAGAGGTTGGCGGGCAGGTGGGCTCACTGCAGACCGCCATCTTGATCGTAGAGTAACCCAAAC
TCTTGGATAGGATAATCAATAGCAAAACACACTAAAAGCTTTAGCACATCTCTTCAAATGAGTACGTGTATAGCAGCTTAGTGACACTAAATATAACGCA
AATAGAAGAAGTAGCCAACAATAAAATAGTAAAAAAATGAGTGAGAACATATCTTCATGCATGGGCTTTGTTACTATTTGTTGCTTCAGCTTATACTCTG
AAATCTGACTGATACTTATGCTTGAAAAAAGGAATGARAATGTGACTATATTTTAACCAAAGAATATCACATTAAAAATATTTAATACTTTTGCATACTG
CGAGGGTCCCTTTGCAGAGGAGAGGAGGTAGGAGGACCTCAGTATTGTAGACAGATGAATATCTGAATCCTGGTTCCCATCCCTTCACTRGAAATAACAT
TGCAAACTACTCTTTCTGTGAGTAAAAATAAATTTTTTTACCAAATGTTTCTGTGCTCCACTTTTCCAGGAATGGCCTATTCCTGAAGCTAAAAAGGAAA
TCTAATTTCATTCAGGGCAACAGACTTTGATAAATTGTTGCTGGGGTTCAGAATATCAACCCTTCTAAAAAAAAAAAMAAARACTAACAGTCTGGCTTTT
TCTTAAAGCTGTTCTTTGTTTTTTTTTTTTTTTTTTTGTCATAATCATTTTCCTACTAACAGTTTTTATTCATGCAGTCTCTTAGTGGCTGATTTGTAGG
TTCATTTTGATAAATTTCATCAGTGAAATGCCCTGGAACAACAACAAGTTTTAAAGGCATAAATATCATATGCCAAAGGGAAAGGCAGCCAAAAAATCAT
GACTCCATATTCATTTGCTTTTAAAAGCCAAACACTATAAAGGGTAAAAATAAAATACTAGCAAGAATCTTGTAAACAGAATCAGTAATTGTATTGTGCA
GTGATTACCTAAATGCAGCCTGCCAGCCCAGACTATTTGGAAAGAGGAAGTAAGAGACACTAGGAAGAAGACTTAGGAATTAGAGAGTGGAGGAGGGTTG
AGGATAAAGGGCTTCTGAATTATTAATAGACCACAGGAAGTGTTCCTCTGTTGACTTCACATACTGTTTGGGTACCTGGAGACCAGTTTACTCTCTTTCA
CTTTGTTCCTACTGATGYATTGTTTTCATCTCAAAGAACAGGCCACCAGTGGCCTTAAAACACTGTAATGTGTGCAACAAAATTGCAGCCTTGGGCTATG
TTCCATTGTTCAGAGACATCTTGCCAGCTTTTTAAATTCAAAATAATCTTTCAGAATGGTGAAAGTGTGAACCCTCCCCTGTAAACCATAGCAGGGGATA
CACCCCAATGAACATAATGACATTCTCAGAAGGGAAGGAACAGAGGAAGTGTTGCATAGGTATTAAAAGCTCAGGATCTGGATTCGAGCCCCAGATCTGC
TACTTATCACCCATGCAGACTTGGGCAATTTGCTCGTCCCCTTTCAGCCTTTACTTTTTTTGTAAAGTGACCTGTTACTTCACTGTGCTTGTACTTCTCA
TTCGATTTTTGGTGCAAGGCTGTTCTTTTTTCTCAAGTGGTTATTGTGTAAGTGCTATAATCGTATCATTCAGAGACGCAGTTGAAACACAGCTTTAGTT
TTTGTCTCCCATTGCCCCATGACATTTTGCGTAGTGGGGTTATCTATCACTGCTCTCGCATGGAAAGTTAGAAAATTTCAAGGCTTTTTAGCCTGCTTTT
AAGTGACAGTCCTTGGGTCCTGCTAAAAATACAAATAGCCTCAATTTAGAAATTAGAATGTCACCTCCAACCAAGGTATTGTTCAAATATCCCCATCTTT
GTTGTTAAAAGAAAATCTTTAAAAGAATTATATTTAGCAAAATTTAATTGAACAAAGAACAATTTTCTAATCAAGTAACCCTCAAAAACGAAAGAAGTTC
AGAGAGTTCTGCTCAGCAAAGTGGGCAGGCAGCACTTATAAACAGCAAATGGAAATGAGGTCCAGAAGCAGCTTGAGTAGTTACAGGTGAGCAGTTGTCT
TACTGGGCATAGGCTGMTCAGTTGGCCACATGGGATTGGCTGTAGCTTGGCTGCTGTGATTGGCTGAGACTCACCTCGTTAGTACAAAAAAAAAATACTC
CTAAGTTAGGTTGCAGTTTGTTATGTAGCGACTCAAGTTACGAGGCATCCTCAGACCAAATTTAGTTTAATTTAACATTATTTATAGGAAAACAACTGCC
TCACCTCTTCCACAAACACACCTTACTCTTTTTCTTGTTAGTCTTTTTCTCGAGTTCTAACTTCTTAGAGTTGTGTGAGACATCTTTATTGGGGAAGCCT
CTGGACCAGGACAGATGCTTCTTTGTCTAGGTTTTCACTTGCGACTCCATCCTTCCCCGCTAAGAGTCTTGCTTCTACCTCTGGGCTCTTGTTGTTGAGA
ACYTTCCATCCCTTTAGGKGGCCCTATTGGATGGCATCTAACATTAAGTGTTTCTTTTCATTTTAACTACTACTATCTAGCCAACTAGAGACCAGCCACA
TGCAGGTTTAGCTTTATCAGGAGAAGCCAGGCACCAGTCTTTGTGTCTGTAAATTTGAGGAAACATCCAACTCTCTCATTATCTCCTGGAAGTCCCCCTA
CTAGGCTGAGGTAAGGGGAGTGCACCCCGAAACTTCATCCCTTTGGGAGGGTGGTGACTTACAGAACCATAAAAACATGCTAAAAAAAAAAATTCACAAA
TCCTCTCCCTCTTTCCACTCTGACAGCTTTTTATATAGCCTGTTTATGACTAAGTAAGGGGAAGCAGTCATGAAACCAGTTTCCAAAAATAGAGTGATCT
GACTGACCCTCATCCCATTACCTAACTCTGTTGTGTTAGCACTTTGCTCAAATTCTGCATAAGAAGAGTCTGTTCACTACAAGCTGAACTTGGACATATC
AATAAATTTTTGGTGAATTTTTAACTTCATAATTTTACTCACTATTTCCTAACTTATTTTTTGAATTTCCTTTATTTTTTCTTCTTAAGAGGTCTCATTT
GGATAACATACATTTTTACCTTTATATTTTCTTTCTTTCTCTGCTTGTTGACTAATTTTTATACTTTTCTCCTTCTTTAATACATTAGGTTTTTTTTTAA
TTTAATACTGCCCACTCAACATTTTTTGTTCATTATTTTCTTTCTTTCTTTTGAGACCTAGTCATGCTCTCTTACCCAGGCTGGAGTCCAGTGGTGTGAT
TTTGGCTCACTGTAACCTCCACCTCGTGGGTTCAAGTGATTCTCGTGCTTCAGCCTTCTGAGTAGCTGGGACTACAGGTGTGAGCTACTATGCCACGCTT
ATTTTTGTATTTTTAGTAAAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTG
CTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCCATTATTTTCAATATAATAGATTATCTACCATACTGCCTTGTGAGGATTAAATAAGAATACCTGTA
AAGCACTTAGCACAATATCCAAGTTACTAAATATCAGTAAAAAAGAAGAAAAGTCCCCCCAGACATATTATGCTCTAGTCAACACAAGACTTCCTCTACA
TGGACTTGAAATTCAGCATCTCTTTAGATAATGAAGAGCTCATTGCTTGATAAGGTGTCCTATCTCATGGTTAGCTCAAATTGTTAGAAGTTCACACTGA
AATTACAGTGATTTAATGATATGAACCTCCACTTCTCTATACTTTACATGAAAAGGAAGCTTTGAGTTTGCCACATCTTTTGCTACAACTCCCAAAATCA
TGCCCAACCAACTTTTAAGTAAGGGCCACAATCTTGACCCCAGCATTTAAGACCCTTAACAATCAGGTCCTACCCTGCCATTCGTCCTGGCTTTATTTCC
TGGTATATCTCTATATAGGCCCCATATTTCTGCCCAGCTGGATCACTTCTCCTTCCTTGAGCTCTGATTTTACTTTTCTACTTGTGCACCTGCAYTTATG
ATGTTTCATCTCCAATTCGTTTAGCAAAATTCTGCCTATGTTAGTCTTATACCATCTCATCTTCCCTTCACCTATTGAATCCTAGTATCTCAGAAGTCCA
ACTCAGAATATCTCCATTCTCTGACTACCTAAGTCAAAAATGATACCTGACTTTGTATTCCTGTAGCAGAATATTTATACCACTCGCATTGTACTTTTAG
TGTTTTATCTCACAGAATAGGCATTTGTATCAGTTGCAGGTTAGTTTCCCCAGGAAACAGACTCCTGAGATGAAGATTGCATGGAGGAAGTTTACTGGAA
AGGAATCTCAGGATCAGCATCTGTGGAGGAATGAAGGAAGAAGGCTTGGGCAGAGGAGAAACTGACCTGTGATGTAATCACAACTATGGCSTCACCTGTT
CCTGTGGAGAGCCTTGAGGCTGGGTTGGCCTGGTAAAKTTGWCCCAAACTGGGGCAAGCAGGCATGCCTTTGTAACCCCTGTTTATTAGTCACTGGGTGT
GGATTGTACCTTGGAGGAGGCATCATGTTGGGCAGCACAGCTCTCTTCAGGCAAGGGCAAGTCCTAGAAAGGGACTCAGGTGAGAATATCAGCTGCCAAC
CCTCCCAGAAGCTGAGGAGACAAAGAAGCTGAGGAAATAAGAGTTCATCCCTGGATGGAGATCTAGGCAGCAAAACGTGACATCTACTACAGTCCAACCC
TTTGTGTCACTCAGGTCAATTTTCTTCATAAAATAAGCTTTGAGATCAACTCTTCTGGGGTTTTGCTTGGTCCCTCTTCCTAAAGGAAATATACAAGAGG
AACGTTAGTGAAATAAACTACAACCTTCACAGCTACAGCTAGTCTCGAGGCCATAACCAATACTTGTCATTCCTCTTCTCCCCTACCCGTTCTGTTTTCC
CCAAAGAGGTGCCCTTTGCTAGCACCTCTTCTAATCTAGGTGGTTTACCTGGTGAGACAACCCAGACCCTCAATCCTCAAGGATCTGAGTCATAATCACT
GGGCCCTCTTGGGCCATGGCTGCTGCAATTGTCTGTATACATCAAATTTGGACAAGGGAATATTACAGAACGCCTAAGCTGGATTCCAAACATATTCTTC
CCTGCCACATTCAGTATGTAAGTGCAGCCCTCAATGTCCTTCTGATTATTGGAGTCAATTACCCTTCCTGCATGGCTAGAAAACCCATGGTAACTCCTCG
CCTTCCTGATAATCAATCAGCATGAGGAAACTGAAATGACTGGACAGTAACAACAGCTTTCAGTTTAAAGGAACTCTTCCTATGCTCTCTGGAAACCGGA
ATTTTTATAAGTACAGAGTCCATATTTGTAGATTTAAAGTACTAATTCTCCGAGTGGGTTACTTGGAGTGACGGTATATGGAAACACTCCAACTTGGTTC
CTGGAACCATGTATACTACCTAGTAGGGACACAGCACCACATGAGTATTGATTTAAAGTGTGCACTGGAGGATGTTGCCTTCCAAGTTAGCACCTCAATT
GATCCTTCAACAAACCATTTTTATTTCAGTAACAGGATAGCAGCAACTAGGTATTCTGGTATGTGAGAGGCTAAGTGGATTCCATGGTAATGGACCCATT
TCTGCAATTCCCTTGTTGTAAAGTGGAGCCCATGATCTGATAGGATGTTATGTGAGATGTTTTATCAGTGGTCAAACACTCCGTAAGCCCTTGTATGGTG
ATGCTTGCCTGAGGCCCTACAGGCAGGCGAGATAAACCCATACCCAGAGTGGAAGAGGACAGATGTAGTCAACTTACCACCCAGTGACTAGCTGGTCTCT
ATGAGGAATGGTGCTGATTCCGGGGCTCAACTTTGGTCTCCGTTGCTGGCAAGTTAGACATGGGGCAGCAACAGTAGCTAGATCAGCCTTAATGAGAGGA
GTCCGTGCTGCTGGAGCCATGCACACTTCATCTCTGCCATCAGGCTATTCTGTTCTAGTGCCTTTTGTGCCAGCATTGGGGTGGCTGTTGACACAGGCTG
ACTGACATCAACTGGCTGAGTCATTTGTTTATGCAGCTGTTTAATGTCTATTCTGTTGTGGGTGCTCCTGGTTAGGCATTAATAAATGATACAAAGATCT
TCACACTTTCTGCCCACTCTCATAGTTCCATTCACATCCCCCTTTCTCCAATCTCTTTGTCTCCAATCTGTCAAGATTTCTTCTTCCAGGTTCTTGAGGG
GTTTTCCAGTCATGTCACTTGCCACTCTCCATGAATTCCTGCATATTCTAACACTGGAAACACCTTTTCCACCCAAGGTGTATGATGAGATGCAACACTG
AAGCTCTGCCTATTTGGGACSATTTCCCTCTCTGCTCTCTTTCGGTCACCCGAGTGAGTCCATAATGCAGCACCACTTCACTTTTTTTTTTCTTTTTTGA
GATGGAGTCTCCCTCTGTCGCCCAGGCTAGAGTGCAGTGGTGCGATATTAGCTCACTACAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGC
CTCCCAAGTAGCTGGCATTACAGGTGCCCGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGATTTCACCATATTGGCCAGGCTCGTCT
CRAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCGTGCCCAGCCCACTTCATTTTTTACTTGT
ACCCATGCACTATCAACTTGACTGTCCATGTATCAGACTTCCTCTTCCTACTTGTGTCAGTTATGATCCTCTGAGAAGCAGACACCAAGATGGGATTAGC
TGTGCAAGAGGTGTGTTGAGGAAAATGCTTGGGTGCAAGAAATGGGGAGAGGGCTGGAGGAGGCTGGGAGAGCCATGAGACTGCAATGCAAGCTTAACCC
CTGTGGAGGAGAGAGGAAAGGAAGGAAGCAGGTAGGGAACATTTCAGGTCRTAGTGCAGTTCTAAGAAAGTTTTGGCAAAACCAACCAAGAGTCCTGGCC
AGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGAGAGGCCGAGGTGTGTGGATTACCTGAGGTCAGGAGTTCGAGACCAGCCTTACCAATATGGTG
AATCCCCGTTTTTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGTGCGTGCCTGTAATCCCAGTTACTCGAGAGGCTGAGGCAGGAGAATCACTTGAA
CCCACGAGGCAGAATTGTAGTGAGCCAAGATTGCTCCATTGCACTCCAGCCTGGGTGACAAGAGCAAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAA
AGTCCTATAGSCAGAGTCACACATCAGAAGAGTTTCCAGTTTTGTAGAAAGAGCCTCCCTTAGTATCCCCACCATACTCAGTTATTAGCTGCAAGAAGCC
AGTGGGAAATGTGGTATTAGCACTAACACAGGGACAGATTTCAGAGCACAGTAGCTGGGGGCTTATATCAAGTACACATCTTGCAGCTGGAGAGTGAGAA
AGTTAATTAAAGCTGAGGCAAGACTGTAAATATGCACTGGTGTCTGTCCCAAGTGGATGTTAACTGTTCTGATGCTTTTTCCGACTGACATATCCAGCGC
AATAGCTGAATACCATATGCCTGAGACTCTACCCCGGCAAAGATGCCACATCAAGCACTATGGCTGCAATTGAGATTGTTGCTTGGTTGAGTTTGATTGT
TTGCTGTCGTTTTCCAGGATCCATCTGGTTTTTGTGGGATCCAGATGGCAAATTAAATGTGGWTTTGATGGGATCTATCATCCCTGCATCTTTTAGGTCT
TTAAGGGTGGTACTGATATTTGTCATTTCCCCTCAAGGATGAATTTTTTTTTTTTAATTTTGATATCTTGGCTGGGAGGTTGGGCAATTTCAGAGGTTTC
CTTTTGGCTTTTCCCACTATGATAGCTCTGGTCTTACAGTCAAGGAAACAATGTGGAGGTTCTGCCAACTACCTAGTATGTTCATGTCAATTATACATTT
GGTGACCAGGGAAATAATGATGGGGGAATCCATTAACATGGTGCACCCGCTATGAGCTAGTCTTAGGCTAGGGCTCCAGATACCCAAGTTTCAAAATCAA
CTTGGATAGTGACCCTGCATCCAACACACCTGAAAATATTTGAGTATTACCCTTTCCCCAGGGTGCAGACTTACCTGAGGAAATTTCCATAGGTCTCTTT
GGGAAAGGACTGAAGGAGTCATGATCTTTTTAGATTCTTTTTTTATACAGTTGCAGGGTCTTTCCTTGTGGGGACCTGAYTCCTCCTTCAGGCAAGAAAT
TCTGGGTCTAAGAACAGCTCAGATCTGGAAAAGGGCAATGGATTATGACTTTTGATTAGGATAGCTGTCCTCAGCCTCTCTCATTATCCAGCTTTGATTT
ATTTTTATTGTAAAGATTGAGCAATCCTTTTGTTGGCTGCTTCTCTATCTTGCCCCTAAGAACTCTGTGTTCTCCTAACCGACTCCACAATTTTCTAAGG
GTCATGGTCCTCTGGCTGCCACTCCGACCTTACTGCTCATTGTAATAACTGTGCCCAACTTGTTACTGGTGGTTAAGCCCTCCCGCCTGGCTTCTCTATA
CAGGGATCTTAACATCTCCATTGGTATCAGAGAGCTCAGTTCTGTAATGGCATGTCCTGTAGTTAGCCCTCAGGATCTATTCCCACCTCCCCTCCTGGCC
TTCAAGCCAATAACCTAGGGTAGTCACAACATAAGCTGGCTGTGGAAGTGCTGGGCATGTTAACAAAGGAAAGGGACTATACCCCAAAGGAGGTGCACTC
ACCCATGCTACAGAATTTAACATTCTAGTTAGTTCCTTGAGAGGTGGTACAAACATGCTGTTAGGGTAGTTTTTGGAAGCTTGGAGAAAGCATGGCCTGC
ACCATCTGAGCTAGAAATGTCAGAGCGAATGTGGCAGATGGTGAAAAAAGAGATAGAGCACACTAGAATAAAAATGCTATGTAAGGCTAGAAAACCCACT
GGGTGACTAYGCTACTCCAAGGGCCCAGAGAACATTCTGTTTATGAAAATAATAAGGAATGTGCTGGTGAGATGAGAGGGTTACCAGCATCACTGAGAAG
CTTGTTAGTGGCTTTTTCACAGTCAAAGGAGATTTTTCTTTAAATTTAATTTTCTTGAATAAATACAAGAATAGGAGTTCTTTTGGGTTTAAAAAGTAAA
YAATACAGAAAAGCATAAAATTAGGGAGAAAATACTAAAATTTCACCATCCTGGTGAAAATATGAACATGTTTGTGATCATCCTTTCATACATTTCTCCA
CATAGTTATACCTCCCTGGGTATAATTGTATACTAGTTCAATGTTGTATCTCCTATTGGTACTATAGAAACCTTTCTTTTAAAAAGAATCTCATTTGTTC
TTCCCCTGCCACTTACCCAAGGCTTCAATTGCCATTTCCCACCCTCCAAATCAAAGCTAACAATGTGTTGTTTATTTATGTATAATTTTCTCCTGATTTT
AACACATATAATTTTTCTTTATCTTTCTAACTTTTTTCCAAAAATAGGATCATATTTCATAAAGTTCTCCATATCTTGCTTTTCTCCCTTAATATGCCAT
TTAAAGCCCCCAAGTTAACTGTTATAAATCAAACTCATTTTTTATAATGACTGAAAAGCATTCTAGAATGTGGAGACACTACCAACATTCGACAATTCTG
TTACTGCTGAGCATTCACATGGTTTTTAGGTTTTGTTACTATGAATAATGCCGTAATACACATCCTTGAACATGTATCTTTAATCAGTGGTTTAATAGTT
TATGCTAAACTTGTACCAGAGATTGACATAAAATTTCTCAGTCTAGCTACTTTTCCCCTCTTCTAATAAGCAAGTCTCTCCATAGACTTATTTCCAGAAT
TCAGAATATTTTACTCAGGATTTCCAAAATAAAGCCACCCTCCACCCTTGTTAAAGTTATCCTTGGTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCAT
TTTGGGAGGCTGAGGCGGGTGGATTGTCTGAGGTCAGGAGTTCAAGACCAGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAG
CCGGGCATGGTGGTGCACGCCTGTAATCCCAGCTACTCAGGAGGCTAAGGCAGGAGAATCGCTTGAACCCAGAAGGTGGAGGTTGCAGTGAGCCAAGATC
ACGCCATTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCATCTCAAAAACAAACAAACAAACAAAAACAAACAAAGGAAAACAAATAAAATTATCCCTA
TAAATCACAGCTCAAATGTTACCTTTCTAACTTCTAATTGCCTACAAGATAAAGTCCAAATTTCTCAGCATGCATTCAAGACCTTCTCTAGGGAAGGATG
AACATAACTTCCCACACTCATTTCTGTTTAGCTCCCATTCTTCTCTTGCTTTAAACACCCGTATCCTATACTTGGCAACAATGAACAAGAGCCATTTTTC
CAAAAATGCCCTTTATCTCTTGCTATTGTGCCTTTACCCACTCTTAGACATTCTTACACACCCAGACATCCCTTCTATGAAGCCTTTGCTAATAATGACA
AACAGAAGTTATCATAACCTCTTTTGTGCTTTGAGAGCTCTTGGTACATGGTTTTCTTAAATAAGATGATTTATTTGGAATATTTTTAGATTTACAGAAA
AGTTGCCAATTGTAATACAACTGTATACCCCTCACCCAATATACCCTAATGTTAACATTTTATATTATCATGATGTATTAGTAAAAACTGAGAAATCAAC
ATTGTTATATTACTATTAACTAAACTCCAGACTTTTTTGGATTTCACCAGTTTTCCCACTAAAGCTCTTTTTCTGTTCCGAGATCTAATCCAGAACACCA
TGTTGCATTTAGTCATAATGTTGCTGTTGTCTAATGTCTTGAGTGCTGTTGTTCCATACATTTTGTCCAGGTTTTTAGTTATTTCATAAAGGAGGGTATA
ACTGGAAGCAAAGTCTAAGATTAGTTTTAAATAAAGCAAGAGGAAGCATTTTTTCTAATTTAAAATATATCTATCGTCATATTTCAAGGGCAATATTTGT
TTGAAAATAAAAGAAAAATCTCGTTCAGTTAAAAAAAAGGGGGGGCTCAGAGCTGGCAAATGCCACCAACATGCTTAATTTTAATTTAAATAAAATAGTT
CTTGTGAGGTTACTCAGTGGTATACTGGAAACCTGAGAATGCCATTGCCGTTAACAGAGTCCACAATCCCTCACCTCACTGCTTCCTTTCTCTCCTTATC
ACTTACCTATAAAACTGGATGGAGAGCTGCAGAAATGAGGACATTTGCTAAGAAATTCTTTCTTTTCTAAGTGGTATGTGAAAATAAAGTAAATTCATGT
TGAGTCACATTAATCTATTGCCTTGGCTGTGTAAGAATCACCAAGAATTCTCACAACCTTAGCAACAGTTGCAAAATAGAAATACAACAAAGCAAAGGTG
AGAAAACCAACCAAGTGTCTGCTTTTTAAACAATCTATTGATATAATTCACCACATTAAGATATTAAGCCAGAAAACCCATATGCTCATCTTATAGAAAG
CATTTAAAATCCACACTTATTCATCATAAAAACTCTTAACAAAGAGCAAGGAGTTTTTTAAAACTGATAAAAGACATCTACCAAAAATCTACAACAAGCA
TTCTAATGGTAAAATATTTTAAGGTTTTTCTTAAAAATCAGGAATCATGCATTTTATCTCCACTTCTATTCAATGTTGTACTGAAGTCCCAGGCAACACA
GCAAGACAAAAAGGAAGGGGAAAAGGGGCTCTATAAGCATTGAAATTAAAGAAGCAGAACGTATTAAAAGTACATTAAGTACATTAAAAGTAACGGCAAA
AACCGCAATTACTTTTGCACCAACCTAATAGTGTGTGCAGATGTAATGATTACTTGCAAAGAGAAATATCCCCCCAAATATCTATACCAAAATTATCAAA
ACTACCAAGAGAGCTAAATAGAAAATCAACACCAAAAATCATTTTTATTTCTATATCTTAGCAAAAAAGAGCTTAGAGGTGGCATGTTAAAAGTTACCAT
TTACTAACGAAAAGGCAAATTTGTTAGAAGAAAACATAATTTAAAAATGTGCAGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCT
GAGGCAGGAGGATCACGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGTGAAACCCAGTCTCTACTAAAAATACAAAAAATTAGCCAGGTGTGTTG
GTGTGCACCTGTAATCCCAGCTACTCAGGAGGCTTGAGGCAGGAAAATCGCTTGAACCAGGGACGTGGAGGTTGCAGTGAGCCGAGATGGCGCCACTGCA
CTCCAGTCTGGGCAAAAGAGCGAGACTCCGTCTCAAAAAGAAAAAAAAAAAAGTGCAACATCTTTATGGATAAAATTGTAAAACTTTTGGAAAGGCATTA
AAGAATAGATAAATGGGCTGTGTGCAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACGGGGTCAGGAGTTCGAGACCA
GCCTGACTAACATGGTGAAACCACGTCTCTACTAAAAAATACAAAAATTAGCCAGCCATGGTGGTGTGCACCTGTAATCCCAGCTACTCAGGAGGCCGAG
TCAGGAGAATTGCTTGAACCTGGGAGGCGGAGGTTGCCCTGAGCCAAGATCGCTCCATTGCACTCCTGCCTGGGTGACAGAGTGAGACTCCATCTCCAAA
AAAAAAAAAAAAAAGAATAGACAAATAGACAAATTCACTGTATTTATTAATAATGACACTCAGAATCATGAGTATATCTGTTCTTTCCAAATTATTAATC
TATTGATCCAATATAATTCTAATGAAAATTTCATTTTTTTCATGAAACATAACAAGCTGATTTTTAAAAATTATGTGAAAAAGCAAAGGATCAAGACAAG
AGGCTTGTAAAAAAAAAAGAATTGGGCAGGGCAGAGGGGAAGCAAGAGTTTGTTCTCTAAGATATTAGGATGTAATATGAAGCTACCATCACTAAGATGA
GTAGTATTGGCTCAAGGGTAGACAAATATATCAATAGAACATAATAGAGAACTAAGAAATAGAGCACATTATATTAGCAAGGGTAATCCTTGATTATGCT
ATAATCACTAATAAAACCTGAAACAGCTTTACTTAATACAATATAGGGTTAATTCTGTCTTAGTACGTTTGGGCAGTTATAACAAAAAATACCTTAAGTG
GTGTAGCTTATAAACAACAGAAATTTATTCTCACGGTTCTGGAGGCTGGGAAGTTCATGACAAAGCACCAGCTAATTCTTGTGTTTGGGGAGGGACTATC
TTCCGCATAGACAGAACCTTCCCGCTATATATTCACATGGTGGAAGGGGGAGGGGATCTCTTTTTTAAGGTCACTAATCCCATTCATGAAGCCTCTCCCC
TTATGACCTAATCACCTCCCAAAACCCTCATCTCCTAATACCTTGGAGGTTAGGATTTCAACATAGGAATTTTGGGGGGACACAAACATTCAGATCAGAG
CAATTTCTCACTCATAATACTAATTGATGAAGGTCATAGAACTCTCCCTGGTGCTCTCCTTCAACTTGGAGATCTTGGCTGCTTCCATTATGCAACTCCA
CATTTGAGGCTCTTTGCTTCTGGCCGCAGGATGAGAGGGGGCACGTGCACATGAAGACACACCTACTCTTAGGCACCTATAACACTCCCACGCATTCCCA
TTGGCAAAGCTCAGGCACTGGCTCTCAACACAACCACACGGAAGGCTGGGTAATGAAGTTTTTCTGTCTATGCAGGAAGAGGCAGTGGTGTTGATGAACC
AACATTTTCTCTGCCAAACAGTATGGAAACTTGATATATGACAAAATTGACATAGTGGATCCCTGGGAAAAATATAGATGATGTAAAAAATCATAATAAT
AAACGATGCTAAGAAGAAAAAAAAAGAAGTCTATTTCTTCTTTACACTGCACCCAACCAAATAATTTTCAATTGAATTTAAAATTTAAATAAGAAGGACA
GAAGAAGTATATGAGAATATCTTTATATCCCAGATATCTAGAAAGACATCTTAAACCACACAAACCTGGAAGGAAATGATTAAAAAAAAAAAAGCACATC
ATCAAGAAAGAGAAAAGACAAATTACAAACTGCTAGAAGATATTTGCAATACATATAACTGACAAGAAATTAGTATTTAGAATATATAAAGAAATTATAC
AAATTAACTACTACAAAAATACAAGTAAATTAGAAAAAAATGGGCAGTTGATCTGAATAAACATAACATATAAGCAAAAATATGAATGGCCRATAATCAA
ATATAAACAACTGTACTTCATTAATAAGTCAGAAAATGAAAATCAAAATCACAAGAAAATTTCATTTCATAAAAATTTGATTGCAAAAGTTGAAAAGTCA
GAGAGCATCAGGTATTGGCAAGGAGGAAGAACAACAGGAAATCTTTTCCACTGCTACTGACAATATAAATTGATACAAAAAACTTGAGGACTGATATGAC
ACTATCCTATGAAATTAAAACTGTGCATATCCCATGAAATGGCAATTCCACTTGTAAGAAAATGCTTTCATGTGTGAACTGTGGCTAGCTACTTCAACAC
AGATGATAATCTTGAGAATACAATACYGAACAAAAGAAAAACAAGATTCAGAAGAATACATATAGTATACCATTTTTATAAAGTTGAATCAGGCAAATCT
AAGGGTATTGTTTCAGAATTCACACATACATGTGTTTAAAAATCCATGCTATAAAGAAAAACAAGGGAATGAGCAAAAGTCAAAATTTAAGGTAGAGGAT
ACCTCTGGTGATGTGGCAAGGGGGTAGGACAGAGAGGAGCACACAAGGATCTTCAGGATGTCAAGGAAGCTGGACTTTTTAAGTGGGGTGATGGGTTCAC
AGGCATTCATTTTATTGTATAATTAACTAGGATCAGCATAAATATTCCCTTATGCATCAAATATTTAATTTTTAAAATTAAAACACACATGCACGCACAA
GAAAAAGGAAAGAAGTAAATACTCTGTAAACTGACCCCCAGTCAAGAGAGCTGTTGATTTTGCAATTGCTTAGGAGCATAAAGACTGAGAGTATATGTTC
TCTTATTACACTGAATCTGTAGTAAGATYCTCTGTCCTAATAACATTTTAAATTTTGTTTCCCTTTTGCAATTACCTAAAAGCTCCTCACAGTRTAATAT
ATTCCATCTTTACTCTTTATTTARTATCAAAATCCTCTTTTATTTTTTTCCCCAGTGGCCAAGTTCTAGCTGCTCTTCCTAGAACCTCTAGGCAAGTTCA
AGTTCTACAGAATCTTACTACAACATATGAGGTAATTTCTCCCTAATTTATGTTTATATTGGTTTCACTTTGTATAAGCACTGGGTGTTGAGTTTCCTCC
TGTATGTTGTCTGGCTTACATGTATCTGGTATGAACTCTTCTTCTCATAGTCTTCTCTCCCTTCTCATAATCACATGATTTTGTTGGTTCCCCAAATCAA
CACTTCTTCACTTGTGCTATTGGCTTTCCAGCCAATTTCATAATAGTACCTTGGGATATAAAGTGTGCACTTACAAAGAGGCTACAGTAACAGAAATTAA
AATATTTATAAATAAAACCTTACTCATGAAACAATGGTTCTTAACCAAGGATGCACCAGAAAGACAGAGTACATTTATTAAAATTCTCACCCAGGCACCC
ATCTCGACATAATGTCTAAGATGTAGAAAATTGACAAGAATTACAGAATATTAATGGCAGTGGCGGCCCATCTAGAGCGGCTGCTGCCATGCGGGAGGCA
CGGCTGGGGCTGTGTGCTCCACGGAGCCAGCAGAAGCCAGGAGGAGGTAAAAGTCCCGCCCCCTTCTGTGATGGCAGGGCGGCAGCCTCATGCTCCCCAG
GCGCAGCTGCAGCTGCCCGCTGCAGCTACAGACCTGGACATCCCTGTGCTCTTGGGGGCCAGGRGCAGGCAGGAGCCCTGCCCTCCTGGGCGCAGCTGCA
GCTGCCCAGCTGGGGTTGCAGACCCAGGCATTTCTGCACTCTCAGTGTTCTGAGAAGGACCCTCATTCCCCTACAGGCTCGSAAGTGCCTGCTCCCACTG
TCTGGTCTCTCCGAGTTCCTGGTGCTCACTCCAATCTTGGAGCAAAATTGAGGCTGAGCCTAGGTGTTGTCACAACCTGGCTGGCTGTGTGCATGATCAG
AGCGGTACTGACATGCTAGCCCCCTGCTGCCTCAGCCCCCTCTGGACTTTGGGTACTGACGAGCACAGGAGGGAAGCCAAGGGGGTGGCTGAGGGCTTCT
CGGCACTGGCCTGCAGGCCCCCTCAGCTGGAAAATCCTGGGTGCCATAAATAGCCGTAGGAGGCAGACAGGATCCTAGGCAGAAAAGGGCGGGTCCCTGG
TGAAGCCCCACCTTCAAGCCCAGGAAGGCTGCCAGTCCCGTGGACCGCAGTGGGAACTGACGGTGATTTTTCCGCACCCGCCTATGGCCACCCATGAACC
AATCAGCACTCACTTCYTCCCATCTGAAGCCCATAGAAATCCCCCGGATTCAGCCAGACTCTTCTGGAGAGACATGGGGAGGACCAGCTGTAGAGAGGAG
CCACCCACTCCAGGGTCTCCTCTCTGCTGAGAACKAACACTCATCAGGACACCCTGGCTGCAGAGAGGAGCTACCCACCGCGAGTCTCCTCTGAGCTGTT
CTATTACTCAGTAAAGCTCCTCTTCACCTTGCTCACCCTCCGCTTGTCCACGTACGTCATTGTTCCCGGGCGCTGAACCTGCCAAATGGTGGAGGTGAAA
GAGCTCTAACACAAACAGRGCTGAAACACGCCCCTTGCTTGCCACGTTGTGGGTGACAAGAAGGAGAGAAGAGCTGCAGCCTTTTGGGGAGCTCAGACCT
AAGAACTCCCCGAGGCAGGACTATGACACCCTCTTTAGGGCTCTGTGGTTCCTGACGTCTCCAAACTTCTGGGTGCCACCACCTTCCCCGGTGCCAGCCA
TTGAAGCTGCTTGAGGGACACCTGGTCCAGCCACAGCCTTGCAGGGAGCCGAAAGATGCCCACCCTGCCGCAGCCAGCATGCCTCGCTGTGTGTAGTAGC
TGGACCCCACACCTGCTCACTCACACACCCCTCACCGCTCAGCTCGCCCTTGGCACGAATGAGACCCAAGCCAGTAGCACGAGATGAGTGCAGCCTGCCA
GGCCGAGTGGGCTCAGCGGGCCTGAGCAAAGCTTAGGCAAAGGCGCCACTGACCACAGAGGTTTCTGCTGGTGAAGCGACCCCAGGGATCCTGTAACAAT
ATCATGGTACAAAATTGATGGCTCCTTGTTTGTTAGTGTTTTCCAAGAAGCAGAGGTYAAGACTAGACTGGAGGAGCAAGCGATGAGGGGAATGCTGTTG
GAGGATAGAGGCGGGAGCTGGAGAAGGCAGAGAGCATCATCAGACCATGTCATAGCTCTGACACCTCTGCAGAAAGGGGAATTTTGTTTGGAGAATCTCA
GACTATAGGGCAGGTCCAAAGAAGGCTGGGCTAGGTCAGTCTCAGTCTGGCAAGAATGGGCCTGCATTAACACTTCCACAGGACTCGGTTACTGGCTGGA
TGCAGCCCTGAGACCACATGGCCTCAGCTTCTAGTGGGTCACCAGGGCAGCCACTGAAAACACCAGCCAACTGTATTTCTCTCAACCGAAGAGCTAAATG
GTGCATATTCACGACCACCACATCATGGTAAAGAGGAAATACTACAAGAGGAAGCATCTGAGATTTAGAATTCTAGTTCTTGTTCTGTCATTTCTAGGTG
TATGATTTTAGATGTCAGGTATGAACCTTAATTTCTTCACCTGAACAATGCAAATAATAACACCTGCCTAGTCTATATCAAAGCGTTATAAATATCAAAG
GAAATGAGTGTGAAAGTGCTTTGAAAAAGTACGTGTAGTGGCTCGTGCCTGTAATCCCAGCACTTTGGAGGGCCGAGGTGGGCGGATCACGAGGTCAGGA
GATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACCC
GGGAGGCTGAGGCAGGAGAATGGCGAGAACTCGGGAGGCAGAGCTTGCAGTGAGCCAAGATCGCGCCACTGCACTCCAGCCTGGGAGACAGCCAGACTCC
GTCTCAAAAAAAAAATAAAAAATAAAAAATAAATAAATAAATAAATAAAAAGCACATTAAGAGAGAAAAAATGTAAATCTTATTGGAAGCCTTTTTAAAA
AAAGGAAMAATGACATGATGATAATTACAAGAACATGAAATTTTTATTAAATAAAATCAATGTTTAATCAACTTTCTTTCTAGAAAAAATTTTGTTTCCT
TTCAAATATCTGATGTACACATGCAATTTTACAGTTAAGCCATGAATATAGTCATTCATTCATCATTGTCTCATCAAATATTTATGGATTATCTTGTAYA
TTCCAGGCCCTTTTATTTTATTTTTTTTTAGCAACTAGAGTTATAGAAAGGAATTTTAAAAAACTCACTGCAAAATAAATGTTTATATTACCATGTGTGT
GGATGGGGACCAGCACCAGGGAGTGTCCTTTTCATACTCCTTATAGATAAAACTGTCATGGCTCTAGCTACAGATGAGAATGATGTGAACAACTCTTTTT
TAATTTTATCAATTTTGCCCCTTAAACTGTAGATTGTTCTCTGGCAGCCGGTAACAGCTGACCTTATTGTGAAGAAAAAACAAGTCCATTTTTTTGTAAA
TGCATCTGATGTCGACAATGTGAAAGCCCATTTAAATGTGAGCGGAATTCCATGCAGGTAGGCACCGTTCAATACGTATTGAGTAGTTATTATAAACACT
TACTATGCACTTGACTAGGGTATGGTATAATTGCTTCCTGGAAAAATAAAATGTATTAACCATGGCAGCATAGAAGTCTCTGACTGGACCAAATGGACTG
GTGATAAAGCCTAAGGTCCAGCTCTGTGATCTTGGATAAATGGTTCAACCCYTCATGACCTCCGTCCCTTATCTAAAATGCAGGTTAGACTCAGTGATTG
GTAAAGGCTCTCATAGTTCCTTTTTCTCTGACTCTGTACCCAGACTCAGGGAGCAAAACTGTCATTTGCCTTGGTAGGCTTTTTGATATCTCCTGAAAAA
GCAGCTTCGGGAGGGGATTTAGCTTCTGCTAATTCTTCTTCACAAAGACAGTGACCATTTCTGAATGTCTGGCTTTAAAAAGTGTAACAGGTGGTTGGAC
TCTGCAGAGACCTCGGGTTAGTCTGGCACTGCCCCTTACCACCTATATGACCCTGGGGGAATTATTCACCTCTCTGCTCCCAAGTTTTGTATATTAAGGG
TAAAAACAGCACCTACCCTGTGGATTAGAAATGATTTCCTTTTCTTAAAAAGTGTATCAGGTACAATTTCTGCTCACAGTCTAGCCTTCTTCTTATGGAG
TCTCCTAATATCTCCCCTCCATATCCACTGCCCAACTGCCAGTACCTTCCTGGTGGCCTGGCCCCTTGAGACCATGCTCTCTTCTGTGTATCAATGGGTG
CCCCCTGGATAATATGCTATGTTAATTATTAGTAATATATTATAGAGTATATTATAGGTGTGTACTGTTTTCCAGGAACTGTGCTGAACCTTTCTATTAA
TTGACATTGTGTCTATTAATCTTTATTTAACCCCGTGAAGTAGATGCAACCCCATTATATAGATGAAAAAATATCCTTACTTATAAAGGAATTTTTCAGG
GTAAATCAGAAAGAACATGGCAGAGTTAGGAGTCGAACTTAGACCTTTCTGATGTCAACACTGCGGCTTTTATTTATTGGCCTAAATAAAAGTAAAGAAC
CCTTTATTAGTATGATAGCTAACTTTCAACTTGTCCATCTCAGGCGATAGAATGCCTGAATTCAGCTAAAATATTTGCCTGGTTAACAAATGTGGTGCTC
TGAAGAGAACTTGAATGAGATGCCTTTCCTGTACTTCCCTTTTCCTGTTCTATTTCTTTGGCTCTGCAGAACATCTGATGCAGGTCAATGGGGGAAAAAA
TAAGAAAAAAAAAAAAAGAAAGAAAAGGCTTTTCTGCTTCTTCTTCCTCTTTAACTGAAAACAGCATAATACAGTGTTAGYCTGGATTGAACAAAGGTAC
ATTAATCCATATATTCATATAAAAGACACTGAAGAATCACCATTGAGTAATGTTGGTAATGGTGGGAAACGGTGGTTTTTATGGAGGTCCTGAAARTATA
CCTAATAGGAGCTACTTTTTCTCTAGTGCCCATGTAGGCTCTACTGAAAGGGTTTGTCAACCAGTTTACCACAATGCGAGATGTCTTACTTTTACCTTGA
TGAAATGCTTATGAAGTTTCTTAGTGATTTTTTTTCTTCATGCTCACCTGCTGTGCCTGCAATGGGCCATGTGGGAAGATCCACCCTCTGCTTGGAAACT
AGCTCACTCTCTGTTTCATCACCTAGTGTCTTGCTGGCAGAYGTGGAAGATCTTATTCAACAGCAGATTTCCAACGACACAGTCAGCCCCCGAGCCTCCG
CATCGTACTATGAACAGTATCACTCACTAAATGAAGTAAGCCATCACACAGCTCTTCAAAGCTACTATTTTCATTTAACCAGTATTGCCATTTCAATCAG
GGGAATATTCAAGAATCATAATTGGTGGAAGATGGTAAAAAATAAAACACAAACACACYTAGGTTAATTAAATGGTGGTCATTCATTTTTTGGTAGATMT
CTTCCCTGAGAAGACTGCATCATATTTGGTAAACTGCAGGATGTTTGTCTACAGCTAAGAATATCTCTAACTGCTGGGAATAACACTTTATGCTATGGAA
CAACAGAAATTAAAGAATTGGGGCTTTTAATTAAAACTGCCACCAAAAAATTACCAGTCCAATTAATCATGTCTCTTTGGACCATTACCCTAATTTTACT
AATTACCAGATTAGCTCACTGAATTAAAGGAATATATTCACTTATATTTAATACACTATAACTAATTGCATTTTATTCCTTAGAAGGAAGCTATTTAAAC
TAATAATAATAATAATGCCTTTGTTTTAATCTGTAAGAAATTGGATTTTTTTTCTATCAGTACTTACAGGTTCCACTCCTTCTAGAGAGAACTTGAGTAA
GATGTTGATGTGCAGGTGAGACCTCAGCAAGCTTTCACATAATCCACTAAAAGCCATTCCCTGTATTTGTTAGTTGAAAGAATAAATKCGCAGGAGGACT
TTCTTTTTTATATGATATTCTCCAAGTAGTAAAAATACCTTGATGCCTTTTTATGAGTATGCAGCTATATTGCCTAATATAACTATTTTTGTCATCTTTG
ACTAAGTGCCCAGAAACTATTAGGGACCATATCCATATTTTTAAGACATCTAAGACTTAGGTAATGAGAATCAATTTTATGTATATAATCTTTAAAAGCA
TCTGTTCCTTCCCAGTTAATTAAGCCAGAGTCAGTATGCTTCTAGAATGTGTGCCTGGTTGATTGAGGGGGCCTTAAAATTGCACCCCCCCTTTTTTAAT
CTCTCCTACATCTATCCAACTTAGACCACCTCTCTCCAGCATCCATCAGCACGACTGCATGAGCAAACTTGATGCAGAGAGGCTTCATAGGTGGGATTTC
ACCTTCATAYAAGGTGAAACTGTCACTGCTGTGATAAGTTTGGTGGGGAGAGGGGAATGCCRTAAACAGAAGTATTTTTAAATATTTGTTAAAACATATT
TTAATTATTTTGTTCAAAAAAGTTATGTTTTCTTACGATATGTTCAGGAAAGAGTTGGAATGACACAGGAGGAAAAAATAAGCACATGGCTCTATTAGTT
TTCTAGGGCTGTGGTAATAAAATACCACAGACTGTGTAGCTGAAATCACAGAAATTTGTTTTCTCATGATTCTAGAGGCTAGAAGATCAAGGTGTCAGTA
GGTTTGGTTTCTACTGAGGCCTCTTTCCTCAGCTTGTAGGTAGTTGCCATCTCACAGCGTTCTTCCTCATATGCCTTTTCTTTCCTTTTTTTTTTTTTTT
TTTTTGAGACAGAGTTTCTCTCTGTCACCCAGGCTGGAGTGCGATAGCATGATTTTGGCTCACTGCAACCTGCGCCTCTTGGGTTCAAGCAATTCTCCTG
CCTCAGCCTCCAGAGTAGCTGGGACTAGAGGCGCATACCACCACGCTCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGATTTCACCATGTTGGACAGG
CTGGTCTTGAATTCCTGAGCTCAAGTGATCTGCTCGCCTTGGCCTCCCAAAATTCTAGGATTACAGGCGTGAGCCACCATGCCCAGCCTCATATGACCTT
TTGTTTGTGCACATGCATCCCTGGTCTCTCTCTGTATATCTTAATCTCCTCTTCATATAAGGACACCAGTCAGATTGGATTCGTGCCCACTCTAAGGGCC
TCATGTTGACTTGATCATCTCTTTAAAGGCCCTATCTCCAAATACAGTCACTTTCTAACCTACTGGGAGTTAGGGATTGAACATATGAATTGGAGAAAGG
GGTACAACATCTACTCCTTAACTATGACATTATAGAAAATGTCTTGTGCTTCTCTTTGCACCCCCGCCCCTATTATTTTCTAACAGGTTCATAGGAACCA
TAAGCATTTTGCTCTCAGAATATTCCTCTAAGTGCTTCTTTCCCTTTGATCGGTGGTCTCTTGATCAGCCCTACCTACAAGATGGACTGGTGGGCAGCAG
AGGTTATTTTGTCATTGACTCACACCAGGAGATCTTAAATGATCCGGTGTAGGGAGAAAGAAACAAATGGCCAAAAATTACTTCTTAGAAGAAATGGTGA
GAGAAAAGAGTTCTTCAAAGGATGTTACATTATTACCCCAGCTTAGTTTGAGAAATGAATAAAGTCTGTCGGTTAAACTGCCTTCATATTATACAGCCTC
TCCTGTTAGAGGAAATCTACTGAAGTATCAATGCATAAATTATTTTTTTGTGGTAGCTTTCTCAGATGTATTTATGCCTAGAAGAGTAACACAGGAAATG
GAGATTCAATTAGGAAATTGCTGACAGTTACATTTCTGACACCCCAGACACTGACAGGGTCGGTACTTGGTGGCAGGTGGGCAGGAGCCCTTAATTCTCA
GCATGGGGACAACCACTCACACCTACCACTCATGCTGGTTATGTGATCTCAGAGAACCCAAGGATAAATGGTGCTCCAGTTTTTACCAGCTAGGATTGCT
ATTTGAAATCACCTCTAGAAAAGTTCCCAGAGATAAAGCCAGGGTTTGATTGCTTCTGTTTCAGAAGGCATCAGAGTTTAAGAATGGACCCTGGAAAGTT
GGTCCAAATTAAAACATAACCCAGTTCAATCCCAGCAATCCCAAACCAGACAATAATTCAATGTTTGCTTTGAAGTGGGTGCTAGCCTAAAGTCAGAATT
TTTTTCTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTTGCTTTTTCCTTCCCCTATTATCTTGACAGAACCTCAAATACAACTGGACTTCCACC
CAAGAGAGAGGTCCAGAATCGAACTACTTCTTGGGGGGATAATTGAGTTTGTTTGTTTTTCCTCCAGATGGTCCCCACCTTTGCCTCTCATCATTGTGCC
AATCTCACTGTGCTTGCACAGGTCTTTAGTGGGAAACAATGATGCTTCCATTTATCCTGCATGAAGACAGTGCTAAGGGCTCCCTTCATCTTGAAAAGTG
CATTTTTAAAAAAGTCTCATATAAAAGTGAACTTTTGAATGAATGAGAACAAGAATTTCATACACAGGGGCAGTGACTCAATGTGATGACTTTAAAAGTA
ACTTTCAGGGGCCATAGTTTATAGATTAACTTTTCCTACCTCATTATAAGTATCTTAGCACTTTTTCACTCTTTCTCAAAACCTTGACACTTATCAAAAC
TTTAATTTTATTAATTTCCCTAAACAGCAGAAGAAACACCCTGCCCTAAGTGCTTTAGGTCCTCGTGCATTCCACATACAGAGGTTTTCCTTTCTCTGAA
GAAGTTGTCTGCTTGCTTTGGTCAGGGAAATGCTTTGAACTTGGCTTCGTGACTAACCTCTGGTTTCCATTTTGCTAGATCTATTCTTGGATAGAATTTA
TAACTGAGAGGCATCCTGAYATGCTTACAAAAATCCACATTGGATCCTCATTTGAGAAGTWCCCACTSTATGTTTTAAAGGTATGTTGTGGGGAAAGTTG
TTGATCTTTCACTGTGAGGGGAGGGATTAATTCTCCAGTCGTGTTTGTTAAAACTTGAGTTTGTTTCCTTTGAGTTCTGAAAATATTTGCATTACAAGTG
TTCCTCAACTTTAATACCTGGCTATTTAGGGGTTGGTTATTTTTCCCATTAATAATATAGTCTTGTCCTGGTCTGTATGTCCTAATCTCCTCCCACAAGG
ACACCAGTCAGTCTGGATTAGTACMCACCCTAAGGGCCTCATGTTAACTTAATCACCTCTTTAAAGGCCCTATCTCCAAATACAGTCTCTAGGGGGTTAA
GGCTTCAATTCTAGATGAATCCCAGTTCTAGAATTAACTCTGTTTCTGTTTATGTGACATTAGATAAGCCATTTAACATTTCCATAAAATGAAGGAAGTG
GTGTTTATTTTTTTCAAGTCCTTGTTTTATTTTCGTTAGTGGACAAACACTATTTCTGTTAGGGGACAAACACTAACAGAAAATAAAACAGGGACTTGAA
AAAATAAAATTAAAAATTAAAAAAAGTGGTGCAGCTTTTTGATGTTAATTTTTAAAAATTGATACATAATAATTGTACATGTTTCTGGGGTACATGTGAT
TTTTTTTCTCCCTCCCTCCTCACATGTGATGTTTTGATACATGCATACAATGTGTAAATCAGGGTATTTGGGATATCCATCACTTCAAACATTTATCATT
TCTTTGTGTTGGGAACATTTTAAGTTCATCTTCTAGCTATTTTGAAATATTGTTGATTCTCGTCACCCTACTGTGCTACTACACACTAGAACTTATTCCT
TCTATCTATTTTGTACCCACTAATTAATCTCTCTTTATCCTCCTTTCCCAGCCTCTGGTAATCACCATTCTACTCTCTACCTCTATGAGATCAACGTTTT
CCACTCCCCATATCAGTGAGAACATGTAGTATTTGTCTTTCCCTACATAGCTTATTTCAGGGCATGTTGCTGCAAATGATAGGATTTTATTCCTTTTAAT
GCCTGAGTAATATTCCATTTGTTATCCACATTTTCCACATGCATATCCACATTTTCTTTATCCACATCCACATTTTCTTTATCCATTCATCTGTTGAAGA
ACACTTAGGTTGATTCTATATCTTGACTATTGTGAATGGTGCTGTAATAAACRTGGGAGTGCAGGTATCTTTTTGATATACTGATTTCCTTTCTTTTGGA
TACATACCCAATAATAGGACTGCTGGCTTATATGGTAGTTCCATTTTTAGTTTTTTGAGGAACCTCCACATGGTTTTTCATAGTGGCTGAACTAATTTAC
ATTCCTACCAACAGTGTACAAGGGTTCCCCTTTCTCCACATCCTCTCTAGCATTCGTAATTGCCTGTCTTTTGGATAAAAGCCATTTTAACTGGAATGAG
ATGACATTGCATTGTGGTTTTAATTCACATTTCCCTGATGATTAGTGATGTTGAGGATTTTTTCATATACCTGTTGCCCATTTGTGTGTCTTCTTTTGAG
AAATGTCTGTTCAGATTCCTTTCTCATTTTTAAAATTGGATTATTTGTTTTTTTCCTTTTGAATTGTTTGCRTTCCTTATATATTCTGGTTATTAAGTCC
CTGTTGGMTGGATAGCTTGCACATATTTTCTCCCATTTTTTTCTTTTCACGCTGTTATTTCCTTTGCTGTGCAGAAGCAAATTTTCAGTTTGATGTAATC
CCCTTTATCTATTTTTGCTTCTGTTGACTGTGCTTTTGAGATCTTACCCAAAAAATCTTTGCTGAGACCAAAGTCCTGAATTGTTTTCCCAATGTTTTCT
TCTAGTAGTTTTATAGTTTTAGGTATTACATTTAATTCTAATCTGTTTTTAGTTGATTTTATATATAAGGCGAGAGATAGGCATTTAGTTTGAATTTTAT
GAATAAAATTTTTCCCAATACCATTTATTGACAAGACTGTCCTTTTCCCAATGTATGTTCTTGGTGCCTTTGTTGAAAATGAGTTAACTGTAGATCTGTG
GATTTATTTCTGGGTTCTCTATTCTAATCCATTGGTCCATGTGTCTGTTTTTATGCCAGTACCATGCTGTTTTAGTACTCCAGCTTTGCTCATTCTGTTC
AGCATTGCTTTGGATTTTCAAGATCTCTTATGGCTCCATATGAATTTTAGAATTTTTTTTCTCTTTCTATGAAGAGTATATTGATATTGACAGGGATTGC
ATTGAATCTGTAGATTCCATTCGGTAGTAYGGACATTTTAACAATATTAATTCTTAAGCCCGTGAGCATGAGGTATCTTTTCATTTTTTTGTGTGTTCTC
TTCAGTTTCTTTCATCAGTGTTCTATGGTCTTAATTGTAGGTCTTTCACTTCTTTGGTTAGATTTATTAYAGGTTTTTTTTTTTGGTCATTGTAAATGGT
ATTTCTTTCTTGATTTTTCTTTTAGGTTGTCTGCTATTGTTGTATATAAATGCTACTGATTTTGTGTGCTGATTTTATAACCTGCAATTTACTGAATTTA
TCAGTTCTAACACAGTTTTTTGGTGGAGGCTAGGTTTTTCTAAATATAAGATCGTGTCATCTAAAACCAAGGATAATTTGATTTTTCCCTTCCAATTTAG
ATGCCTTTTATTTCTTTCTCTTACCTGTTTGCTCTGGTTAGTACTTCCTGGTACAGCTTTTGAAACTAAAGTAAGACCAGGACAACAAATCCCAGCGAGG
GACAAACAGCCGGACAAGGCTGAAGTCCTTTGCAGTAGGGTTCTTATGATGGTTTCTACTCCAATTTCCACCCATTTGGTTATTTATTTTCAGTYGCAAA
ATATTATGCAAGAGAAATTGATTAACCTAACTTGGATTGGATGTCTTCTCTCTTGAATAAATTGACCTTAGTAAAGGTCAGTGAACATAGCCACAGCCAA
TTGTTTTCAGAACTAGGAAACAACTCTATAGTTCTGTTTTCTACCTCTCTCTCTTAAAAAAAATTTTTTTTAAAGCTCTGGAAAATAATGTAGTCACTAA
AAATGTACATTTAATTTAGTAACATATAATTTATGCACAGTATCCCAATATTATCTAAATTGTGATAGGTGAGCCTCTTCAGTCATTCAAAGATAAGACT
TTGGGTTAGGACTTCTCAATTTTAATCTGTCGTTTACAAGAACTTACAGTGCAGACTCAAGGCAGACATATGAAATGTTGGGTCCCCTTGGTYAYTGAGT
TGGTCAATCAGATTGGATCCATGTATCATGGCATATCCACCCATGACATTTGCTTTCAGCCATGTTGTGTGTAGTCCTTGGAACATACTTATCTGGAACC
TGTACACGTTGAAAAATCATGCATTCTGGATGGTTTGGTCCTACTCTYACTTGATCAAGGATGTGCAGATAATGTGAGTCTCTGGGATTTTGCCAACTTT
TCGGTGTCAGAACCAGTGCCAAGAAAATTGGCCCAGGACTTAGAAAGGTCAAGTAAAGTAAYKAATCCAGACAACTTAAGATTTTCTTTGCATTGAGTAG
ATTAAGCTAGGTAGTTCTCTTTGACTATACAATTTGACGATTAGTGGCCAATGCCATTGGGCTTTCTYACTTACTATCCTGTTAAATATTGCTAGCTCCA
AGTTAGGAAAAAACCTCCTGGAGTGGTTCAAATGACAATCTAAATATCTAACTCTTTCTTTTTCTTATTTTGGAATTGCAAGTCTACATATTTGTTTGAT
TTTACAACAGTCTTCTCCCTTCCCTCTATACCAGTGGTCCTCAACCCCTGGGCTGCAGACAGGTACCAGTCCATGGCCTGTTAGGAACGMGGCCACGCAA
CTGGAGATGAATAGCCAGCGAGCAAGCATTACTGCCTGAGCAATGCTTCCTGTCAGATCAGTGGCAGCGTTAGATTCTCATAGGAGCACAAACCCCACTG
TGAACCGCGCATGCAAAGGATTTAGGTTGCATGCTCCTTAKGAGAATCTAATGCCTGATGATCTGAGGTGGAACAGTTTTATCCCCAAACCATCCCCACC
ACTGATTCCACCCCAACTCTGCCCCATCCATGGAAAAATTGTCTTCCATGAAACTGGTCCCTRGTGCCAAAAAGGTTGGGGACCACTGCTCTATACCCTA
AACTGTGTTGTAGCTGACTTTTAAAGGCAAATACATTATGATTAATTTTGGAGGTGTTCTTGATAATTCTTCTAAAGACATCAAAGGCTATTATTGAGAA
AAGGTTGATGATTCTTATTCCAGAGTTAGCAGCTTGTGTTAGCCCACCATACTGGGAAAAAAGCCTCTGTCCCTGGATTTGCTGGTAAGTTCGTGAGAGG
TTAGATGTRTGCTTCTTTTTGTGTGAAATAAAGAAATAATCCACATAAAAAAATATGCACTCAGGAAAATCTTGAGGGAGTTTTTGCTCYGGGTGTGTCT
CCACACCTCCCGGGGAAGATTGCCATCCAACTCACACCCATTTACCTCTAAATGAAGCATGAAGATACAGCCCAAATCATTAGTTCTCTGGTCTCTTCTT
TGAAACTTCCACATGCAGCTCTGACATGACTGCATAATTGTGGAGGATAAAAACAGTTTTAAATCAAAGAGTCCTGGCTTCAAACTTCAGTTTCAATTCA
CACCAGCTTTGCTACCTTAACTAATGTCACTTAGTATCACCAGTGTTTAAATTTCCCTTGAGAATTTTCAAAGAAATGCAGAACAATGCATATCTCAGAG
ATTTGCTGAAACTATTAAATATAAGCACTATATAAATGAAAGTTATTATCCTGAAGCTTATTGTTACTGTTTTTGCTACTTTTGGGGTTTCTTTGAGCAG
GTTTCTGGAAAAGAACAARCAGCCAAAAATGCCATATGGATTGACTGTGGAATCCATGCCAGAGAATGGATCTCTCCTGCTTTCTGCTTGTGGTTCATAG
GCCATGTAAGTATTCACATTCTCTTAACCCTATTTCTCAAAATGGTGCCCAAGATCACCTGTGTCAGACTCAACTGGGCTATTTATTAAAATGCATTTTC
CTAGGTCACATCATGAAGCTTGGGAATCTACAATTTTCACAAGTTTCCCAGGTGACTTTTATGCATTAGTAAGTTGAAGAACATGACTTCAAGCATTTAA
ATCACCCAAAATATTTTTGGTCTTTTCTACATTTCTGCCTGGAGCTAAACAGTGGAAAATGATTAAGAAATAGTACATTGGGCCGGGCGCGGTGGCTCAC
GCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGCCTCTACTAA
AAATACAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCGGAGCTT
GCAGTGAGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAATAGTACATTGATTAT
AATATGTTTACTAAGTAGAGGAAAGGACTGAAGGAGTTATCTAAGTTGGGGCCCAATTAATTTATTTCTCTTTTGGTTTTAATTATCCAGACATCTTTTG
CCACCTTTGCCCTTGGAAATTGAACATAAAGCACAACATTACAGAGGTGAAACAGAATATGTTTTCTCATATGTCATAATAGGGAATTTTCTTCCTGAAG
AAGGGTTTTGCATCAAAAAAGCCATATATAAGACAAACTGTATGTTGGAAAAGTAAAAGATATAACGACTATTAACCTCCCTGATGAATGAAAACAGTAA
AAATTATGCTTCAAATCCTATAAAATGGGCATATATGTTCTCTACACTGATTTCTACAAAGAATCATAGCCACTGGAAAAATAACTCAAAATATGTGTCT
TTCTGATAATGATTTTTGCAGTCTTTGCATTCACAGATACATAGTAACAGAATAAATGAGTTAGGAAATTAAGATATTGGCACTTATTAAGTACATCAAG
ATAAAACTGTTTCTGTCTTTGCTTGACCTTGACAAATGCAACATCCCTATTTGCCTTCATTCACTGTGAATCTTCTATCCTCCATTCTCCATGGATGGGA
GCTGCAACCTCCCTGAGTCTACTGGAAATTCCCAAACACCATTGGTACTACCTTGGCCAAATGAGGATGATTCCAACTGATCAGACCCTTAACATATCCC
AGTCACATCATGATCTGGAACCTTCCCCAAGTTGAGTAGTTTGGTTATTTTAGGTAGTGAAGGGAGCAGCAGTTAATAGAGAAAGGTCCAAAGTAGGAGA
GTAAGAACATTTATTTTCCATTCTATCACTGAACATGAGAAGGGCCAAGAAGAAACCTCCATTCATATTGACTCTAATTTATATCGGTGAGGTTGTCCCT
AATGACTGCCCTTCTCACCCTGACACCTCTGCCCTCCTATTAGACATCCTACCCTCTACCCAAACTGCTTGCTGAATCTTTGTAAGATTAAATTATTTAA
TCCACAAATATTTATARATTGCCTATGATGTTTCAGATCCTGGAAATACAAGGATGAACAAAATATAGCCCAAGGATCTTATAGCTGAGTATTTTGCTCC
AACAATGTGAACCTGATTTGTGTAGCCCAAAGAAACATAATCAATAAGGGCTTTTTAAATCGACATTTAAACTCCATTCTTGCCTGCCTAAAACTAATTC
AGATCATCTGACTCTCTTAGTACTTCAAAGCACTGGAGGAGGGAAAGTAAAATAAAATATTTACCTTTCAACAATTGTGAAGGYAGGTTTTATATTCAAA
AACTAAACCACCCAAAGGCAAATTAAAATCTTAGCTTTTAAGTCTCTCACTCTTTTCTACAACTCAATAAGGATTTCAAAAATCTTATAATCTAGTCTCA
GTGGAAATCCACTACACTACACTTTGAGAAGCTTGAAGCCAGTCATTTCTTTCTAAGCTTCTCATTCATGTACTCTCGGGAGGCAAATTTAGATCCTTCT
CTTTCCGCAAAGGCAGAGCTGAGACCAATTTGTGCATGACTGCATCACCAAGCCAAAATCCGGCACAGGGCTGGCACATCATAGGACCCAGTGAATATAT
GTTAACCATCACAACTTGCCAAGTACTTTTTCTGCCAAATGGCTTTTCTCACTGCTAACCTCCTGCCAAACCTCTGCCCTAGAAAACTCTCATCTAATTG
CACACAAAGTTAGAGCTCTACAACCTCAGGGCCTTCACAGAATTATCTCTGCCCCTCCTCACCACAGCTGACACATGACCTAAGGACACTGCTCCCTGGT
GGCTCCTTCAAGTAGAGGGGCTGCTCTTTTTTTCACATCACCATGTGCTGAGAGGCCTGGTGGAGTRGATCAGCATTCTCTTCTCCTGATACTACCAATG
ATCCTTCTCTTCTCAGAAACTTACACAAACTGGTTGCACTCTTATTTTATTGCTATCGTGCACTGACCTTCAGATAATTTCCTGGTAYCCGGTTCATGAT
TCTTTATTCCCCTCCAACTCTTGCCATCATTCTGAGTGAATTCAAAGTCCATGTGTGAGAGTCACCTAACAATGTATCTTCACAGTTCCTTGTTCTCTGT
TCTACTAAACCTCATCTCAACTCCTCTTTAGCAGATTTCTCCTGTAGCCATCCTCTGGATCTCAGAAGTAATGTTTTGCTGAWCCTTAGACCCAGAATGT
GGCCATGGACAGCAACAAGGAATGTTAGAAGAAGCCATCTAGCAATGTAACTTCTTAATTTCCTGTCTTCTCTCATTTCTCACCCCTACTATGACTGCTT
TTTTTTCAACCTTAGCATATTTCTAGTTCCTACACAGATCTATATCATTTTAATTTATCAGTCCCTTTCCAGGAACACTTTCTTCACTAATTGGTCCCAT
CACAAATTCATCCGAACCCTCAATTTCTTGCTCCCTTGACCTGCTCTTCTGGAGTTCCAACCCCAAACACTCCACAGAATTAACCATCCTTTTTCTGAGC
CACCTTGTACATCTTGCCATTGTTTATTATCATACTTATATTAATAGCATTGAACTGCTGCTTTTCCCTTTCCAACTTATCACTTCTATTAGCTTTCTGA
AGGCAGAGACCARGTCTAAAGTAATTTTTTTGTTCCCCATAACCTGGTATATTGTTTGGTCAACATAATTGGTGCTCAATATCCCCTTGTGGAATTTGAA
ATTTAAATTAATGTTGCAGGTTTAGGCTGACATACAATTTTGGGTTGCAGAGAGTATCTAAACAGTACCTACTGTTGGGATAAATACTTTATTGTCATTG
GCTACAGTTCAAACTATACATACATATATAGAGATTGGAGTAAAAACTGAGACRGATAGCTCTCTGATATATTTGTAATGGTAATGAAAATGACATTTTG
TTTTAAAATTTTCCCTTCATGTGTCTTATATTTTTTTTTAGCAACCCCATTAACTGACCTATATGTCGTTATGTACTAATTTATTATCTCTCAAATGGTC
ATTGGTTAATTCCTAGGCAGGAATTGTTGTTGTTGTTGTTGTTGTTTAGGGCCACATTAAAGGCAAAGCTTGAGTGCACCCCAGGCAAAGTGAGAGGAAG
AGCTGAGTAATCATTGACCACAGGCCAGCTGATGGGAATCAATCCCACCCTCTCATCACTCAGTCTTACACTCTTCTCCATTCTCCTCTATTCTCATCTT
CTTTTTCTTTTATACAGAGGCTTCTCAATTTATGRTGGGGTTATGTCTCAATATACCCAATAAACAATCACAACTGAAAATATTCTAAGTAAAAAATGCA
TTTAATATACCTAATCTACCGARTACTGAATATCATAGCCTAACCTTCCTTAAATGTGCTCAGAACACTTACGTTAGCCTACAGTAGGGCAAAATCTTCT
AACACAGAGCCTAATTTATAATAAATTGCTGAATATCCATATCACTTATTAAATACTGCACTAAAACTGAAAAATGGAATGGTGGCATGGGTATGGTTTC
TACTGAATATGCATTGCTTTTGCGCTATTGTAAAGTCAAAAAATCATAAGTGAARTCATTGTATATTGCAGACCAWCTCTAGTAGGACAGGATTTCARTT
ATGTTACTTGCCATGTTGGTAAATCGTACCTTCAACAAATATTTATTTGTCGTCAGGCAAAATTTCTTCAGYCACTTTGAAAAACAATGTGGAAGTTCCT
CAAAAGATTAAGTATAGAGTTACCATATGACCCAGCAGTTCTACTCCTAGGTGTATACCCAAGACAAGTGAACACATATGTTGACAAATGATTATAGCAA
TATTATTCATAATAGTCAAAAAGTGGAAACAACTCAAATTTCCATCAACTTATGAGCAGAAAAACAAAATGCAGCATATTCATGCAATGAAACATCAATC
AGCAATCAAAAGGAATGAARTACTGATTCATGCTACAACATAGATGAATCTTGAAAATACTATGCTAAGTAAAAGAAACCAGATACAAAATGCCACATAT
ATTATTCCATTTATATGAAATGTCCAGAATGGGCAAATCCACAGAGACAGAAAGTTCATTAGTGATTGTCAGAGGCTTGGGGAAATGGCAGGAGGGAAAG
GGGAGTGAGTTATAATGGGCAYAGGCATGGGGATTTTTTATGATGAAATGTTCCAAAAATCAGATAYTAGTGATGGTTGCAAAACTCTATGAATACACCA
AAAACCGCTGAATTTCACACTTTAAAATGGTGAATTTCTGGAATGTAAATTATATCTCAATAAGCTGTTAAAGAAAAAATGGGCACCCCTTCCTTCGGGA
TTGTAGCTATAGCCACACTTGAAGGTGTGGCTTGGCACACAGCACAGACTGTATYTCAGCCCTCACTCACTCCTTCTGTCTGGAGTCCTACCTATTAGAT
AAAGAAATAGGTAACATTGTTCTGGGCCTAACATCGGTMATCTCTCAGAGCATAACTTTTTGTAGAAAGATTCCCATCCAACCAGAGGTAAAGGTAGGAA
GGAAATTTAAAAAGTGAAGCAGAAAAAGAAATTCATATGCTGCATCTATTAAAAGTTTGGCCCATGTTGTAGAAATGAAAATGAGAAATGCTTTATTATT
TGCTTTATTATTTTAAAAGGAACAGGCTCTCCTAATATTTTTCTAATAATGAATGCTACATTATTACTGAAAAGTGATGCTAACATAAATTTATAAATTC
GTAACATAAAAATGTATTTAACTGGTTGCTCGACTATTTAAAACATGGCTTCCCTGGAAACCATCATTCTCAGCAAACTAACACAAGAGCAGAAAACCAA
ACACCACATGTTCTCACTCATAAGTGGGAGCTGAACAATGAGAACACATGGACACAGGGAGGGGAACATCACACACCGGGGCCTGTCGGGGGTGGGGGGC
TAGGGGAGGGAGAGCATTAGGAGAAATACCTAATGTAGATGACGGGTTGATGGGTGCAGCTAACCACCGTGGCACGTGTATAACTATGTAACAAACCTGC
ATGTTCTGCACATGTATCCCAGAACTTAAAGTATAATAAAAAACAAACAAACAAAAAAACAAAACATGGCTTCCTTCATTCTACAAATTTTGCTTCCTTT
TCATTAACCTTTTATTTCTGACCTACAGTAGATTTTAAAATAACTTTTTTCTTTTCTTTCTCTCCGATTTCATAAGTATTTATTCATGGCAAAGATTTTT
AATGTGACTCTTGTGATTGTTCTAGGGAAATATGAATATAATATTTTAAACGTTTAAAGGGAAAATAGTAAAGTTTATAAAAGGCTTGTTTTTATTTTGT
CAATAATGAAAAAGACATTTCTTAACAATGTCATGAGTATGCTTTAAGGCAACAAACAATTATAAACTAAATTAAATATTTAATGTAATTAAATGTGAAT
TAAATTAAAATATAGCAATGTTGCCACAAATTAAGATTTTGAACCAAAAGCTTTGTCCTAGATGAAACGATTTGACCAGCTAAAATTTGTCTTTATAGTT
CTCCTGCCTGTACATTTTGTCATTTTGGGGTAAACTTCTCAGTCACCAAATTTGGATGCCATTGGATCACAYTGCAATATGTGCCACTAAGCTGGATGAC
TCTAAAGTAGAGAGGAACAAGTTTGAGATGATGTCCGTTAGGAATTCATAGCCAGTTCCTAGGAAAAGCTACCCTAATTCTACAGCTAGATGATCAAAGC
CTTGGGAAACACACTCAATTCTAGCAAAACTTGAGCTCCACAAGTTCTAAGGACAATGTAGCCAATATCATGTAATCACATCTGGGGATAAAACATGGTA
GGTAGTTTAAGCTCTGATGAACATGAATTACAGAAAAAGGAGCTAAACTAAATCTAGGTTTTTGTTTCCTTAAATCTTCTTAGTGGGCTCTATGGCTTTA
ATAAAGAATTAATTTTATTTTTTAAGGAAAATTTAGAAAGTTTATGGTTCGATTGTCTGCCTTCATTAACTAGGAATACTGGACCACGTGTAAGGCATTT
ATCACCACTTCGTAGCACCCTAAGTTCAGTTCTTTTGAGGAAYTAGCACTCTTTCTGAAAGTTAAATCTGCAAATCTAAACATGCCAAATGACAAATTAA
AAAAAAGAAAAAGAAACACACTAAGTTTAGAAGAACTTAAAACATCTAATTAAATATACTTGGTTTAATTTGCAGATAACTCAATTCTATGGGATAATAG
GGCAATATACCAATCTCCTGAGGCTTGTGGATTTCTATGTTATGCCRGTGGTTAATGTGGAYGGTTATGACTACTCATGGAAAAAGGTAGGAGAAAAGGC
AAAGAAGACAAATCATGTTCTCCTTGGGGATATAGGATATACAGGTTGAATTATTCATAGAATTCTGGATCTAGGCACAATGGCTTTATTATTAATTTTT
TTTTAACTTTTATTGTGGAAAATGTCAAATATATATATAAGTGCACATAATTGTGTAGTAAACTTCTATCTACCCATCATAGAGCTTCAACAATAATTAA
CTCATGACCAGTCTTGTTTCATCTGTATTCTCTCTACCCACTTCTACCTTACTCATTTTATTTTGAAGTAAATCCTAGGTACCATATCACTTCATCAATA
AATATTTCAGTATGCATTTCTAAAAAAAAAAGAACTCTGAAAAAAATAATTATAGTATAATTATACCTTAAAAACTAGCTGTTTCTGAATACCATAAAAT
ATTGCCAGTATTTTCAATTGTATAATAACTTTTTTTTTTTTTTTTTTTTGAGATGGTGTCTTGCTCTGTCRCCCAGGCTGGAGTGCAGTGGCACGATCTC
GGCTCACTGCAACCTCCACCTCCCGGGTTCAAGAGATTTTTCTGCCTCAGCCTCCTGAGCCACTGGGACTACGGGTGCCTGCCACCATGCCYGGCTAAGC
TTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATATTGGCCAGGCTGGTCTCAAACTCCTGCCCTTGTGATGCACCTGCCTCGGCCTCCCAACGTGCTG
AGATTACAGGCATGAGCCACCTCGCCCGGCCTCCTAACTTTTTAAAAAGTATGTTTCTTTGATTCTGGATCCAAATAAGGCTCTTACATTATGATTGGTT
TATATGTCTTTTAATTCTATTTTAATSCATGAACTCACATTCCATCTTTTGCTCTTTCTCTCTCTTCTTTTTTTCCTTGCAATTTATTTGTCAAAGAAAA
GAGTTTCCCATTATCAGGATTTGCTAATTGCATTACCATCTTGTAGTTTAACATGCTCTTCTGTCTGTATTTTCTGGTTACTCAACATTGTGATTCATGT
AAAATTACTCAAGCAATATGAAATACTCTGCTTTCTAATTTAAAGAGGGGCACATAGAAACATAACTAGGTATATATAAATTTAGAAAAACCTACTTGAG
TAGCACATATAAATACTAAGAGGAATAAGATTAGTTGGTGTGATTGGAAACATGGAATTACACATGAATTATTTCATGTAGGAGGTAATTTATGCAGAAG
ATATGGAAATGGCACAGGAGATTGAGGAAAAAGTCATCTCTGGTGAGAGGAATACTGTAACTGAAAATTTTGTAGGTGGAGGTGGGCAAATGCCAAACTA
AGTAAATGAGAATTACCTAGCATAATGCCTAACACAAATTTGGTGTCCAATGAATGGTCATATCTGTAAACTGGTAATAAAGTATATTTACACCTTAACC
TGAATCACAGTGGAATTCAGTCACCCTTTAGATTTCCAGCTTCCCAACTGTTCTTTGTATCATTACCCTATTATTAATTCCCACAGTTTGAGAACTTGAT
ATCCCCAGGGCCTATTGTTGCCACGGAACCACAGGCCTGGGAGTGGTAACAGGCTGGAAGGCTTGGCGGAGGGTTGGTGAGAGTAGGAGAAAAGGGTGCT
ACATCATCCCAAACTCAGAACTTAAATGAAGTATGTGCAACTCTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGA
GTGCAGTGGCAAGATCTCGGCTCACTGCAAGCTCCGCCTCCCAGGTTCATGCCATTCTCTTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGC
CACCACGCCTGGCTAATTTTTTCGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGAATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCT
CGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCTGTGCAACTCTTTACATGACCAAACTTTCCCAGTTTACCCCAAGAACCCAA
TAGGGAATTTGCTTTATATTTAAAAACCAGAGTCAAATCAGCACAATCGAAGAAGTCATCAGATTAAAGGTGTCTTCACATCTCCACCTTTTCTAGCTTT
GAAAGGGGAGTGGTGAATTCTACCTAAAGAGAGCATTTTAACTTATGACTCAGCGTTCAGTTGAGACACAAAGTTATTTTGCTTTTCTTCGAAGGAGCTC
AGAATGACCCTGTGCATAAAATTAATGTAAAGGAAACAAGACTAAACAAGAAGGCTAATAAGCAGCCTAGTGGAATGAAAGGAAATCTTTATTTGTATCA
GTCAAAATTGATCAAATATTACCATTATGTTTGGTTCAACTAAAATAGTCTGAGTGGATGTGATTGAAACCCGGATAGCAATAGGGACCGTGCAAAGGAA
TATTGCAACAACAGTGATGTGATGAAGCCATGCAAGGTATGGGATTGAAGGAGAGAAAGGCAATTCTGGCTTCATGGACTTTCAAATGCATGTCTTTCCT
CAGGCCTTGAACGTGGCTACCCAGGTTGTCTGTTTGTATTTTGTTTATGTAGAATCGAATGTGGAGAAAGAACCGTTCTTTCTATGCGAACAATCATTGC
ATYGGAACAGACCTGAATAGGAACTTTGCTTCCAAACACTGGTGTGGTAGGTTGTTGGCTTTATTTCTTGCAATGTCTCTTCACTGAAAGGGTGATGTTC
ACAGGGAAAGGCCCATGAATTCAAATTAAATACAGAGCTGGCCTGTCTGAATCAGGGAATAATTTAAATGATAAATGCTTAGGTAAATGTAATGCTGCGA
CTGTTGGCCAGAGTCAGCAAATCACTTTGGCCTCTCCTCTCTCCTGTTTCCCTATCTTTAAAATAAGAAAGTTGAATCAGTTTTTTAAGATCCCTTCTAG
CTTCAAAATTCTAAAATCTATTATCTTGGAATAATAAAGAAGTGACAGTTAAAGATCCTATTTTAATAAACAAAAACATTCATCATTAGAATATCAAAGA
CCTGAGATGGGGGGAGGACCTCTCTTTTTTTTTTGAGACAGAGTCTTGCTGTGTTGACCAGGCTGGAGTGCAKTGGCACAATCTTGGCTCACTGCAGCCT
CTGCCTCCTAGGTTCAAGGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCATATGCCACCGTGCCTGGCTAATTTTTGTATTTTTTTTAG
TACAGATGGGATTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGGCCTTAAGTGATCCGCCCACCTCGGCCTCCCAAAGTGGCTCACAGGAGTGAGC
CACTGTGCCTGGCCTGGACCCCTCATTTTTAATTGCACAAGTAAATGTTTACTTCTATAGTGTTTGAAGACATTTTTTTCACTATTCACTTTCTTAATTT
CTTTAATAAATAATATAAAGAAAATATAAAAATATTAAAAATAGTATAAAAAGCAGCACAGTGGGAATTTATTATTTCTTAATTCGAATGAGTTAAGGCA
TTCGATGATGTTGAGTTATGCATTCAAGAACAGTCTGCTTTCAGGAGTTTGAAGATTTTTTAAAGAACTAAAAGTAGAATTACTATTTGACTCAGCAATC
TCATCACTGAGTATATACTCATAGGAAAATGAATCGATCTACCCAAAAGACACATGCAATCATATGTTCATTGCAGCACTATTCACAAGAGCAAAGACAT
GGAATCAATCTAGGTGTCTGTCAATGGCGGATTGGATAAAGAAAATGTGGTAAATATACATCATGGAATACTACACAGCCATAAAAAAGAACAAAATTAT
GTCCTTTACAGCAACATGGATGCAGCTGGAAGGCATTGTCCTAAGTAAATTAACACAGAAACAGAAAATCAAATACTGTATGGTCTCACTTATAAGTAAA
AGCTAAACACTGAGTATACACAGACATAAAGATGGGAATAGACACTGGGGACTCAAAAAAGGGGCAGGGAAGGAGAGAGAGGGGAAAGAGTTGAAAAAGT
ACCTAAGTGGTACTGTGTTCACCATTTGGGTGATGGGTTCAATAGAATCCCAAACCTCAGCATCACACAATATATCCATGGAAAAAACCTGCACATGTAC
CCCCTGAACCCGAAGACAAAGAAGTTTGCTTTTAGGGGGGTAGGTGTTAGTTCACTCTTTCTTCCCACCCACTCAACATTATTTTTCATAGTACTACATT
TCAGAAACAGCTACGAAAATAAACTAACCTGACAAGGAGTATGCATCATCTATATTTTTGGGCTCCATGGGGCCCATAAGGGAGAGAAGCTATTGTATCC
ACAGAAACATCTTCTTCCTCCCAGACCTGGACCCTATACAATCCTATGCACATAATTTTGCCTATTTCCTTTAAAAAAGGTAAAATTTCATGATTTTAAA
CATTTTATCAAAATCCCAGAATACCTATTAAAACCTCACAACATTCAGCCTGGGAAAGCTGATTGCTAAAACAAAAGAAAACCAAACCTCACAACAAAGC
ACTTACCTTATTTCCTTATTTTTTTCCCTGTCTAGGTTAGAAACTCCATGCAGACAGAAACCAATACCCATTATCTAGTGCAGTGCCTGGCACAAGGAGG
GTCCTCATAAAATATTAACTAAATGAGTCCATGAATGAATTTAGTTGCTCTGAGAGCTACAGATATGGTAGGAACTCAGAGGAAGAAGCAGTTCATCCCG
ACTTAGGTTCCAGGGAATCATTTAGTGGTTTCTCCCTAAAAAACCACTCGTGTTCCCAGAGGCCCAAAGTTTGCTGYGGCACTAATAACATGCCAGGGGC
TCACAGGAACAGCAGCCATGTAAAAAGAATCTAAGTAAATAGAGCTGACAGTTACTCAGCGCTGAGCCATTGACATAGTTCATCTTCCAGATTTCATTAT
CTATGAATCATAGATGGAGAAACCCGGGCTGAAAACAGTTAAGTCCCTTCCTCAAGGGCACGTAGCAAGTATGTGCAAGTACGTGGCAGAGCTGGGCTAT
AAACCCAAGTTATCAGTTCCCTTTTGGAAGTTTTTATTTTATCTTCAAGCTCTTTTGGTGCTTGATTTTACTTAATATTTTTCTTGGTGAAGTCAGTGTT
ATTTAATTTGGATAGCCAAGTAGTCAAAATATATTCTGTTATTGTCATCAAGAAATGTCTCAGTCCCCTCTTGGGCATGGTGCTATATTGTTAYGTATCA
TAAGAGTGAAAAACAGAAACAGAAGCAGCAAGCATATGGGTTTTTAACTAAAAAAAAAAAAAAAAAACCAAATAAAAAGTAATTGTAAGGAACTGTCCTT
ATTACCAACTGTTCCAGTATCTATTCTGTACTATGTAAGCAAGACAGTGAGAAAGAAGAATTTAATCTTTTCTCATCCCTACAACTAGAATGTGCCCCTA
TGATTCTTTATATAAAGGATCCAAAAACACCTCACTTATTAACAGGAAGTGACATATCAAACCTACTTACTCATTTTATGCTCCTCTGTATTAAAATTTT
KTGTGTGTGTGTGTTGGAGATGAGAGTGGAGGGTAGGTTGTAGGGGTGTCTTTGTCTTCTCAGGCTGCTATAACCAAATACCATAGGTTGGGTGGCTTAA
ACAACAGAAATTTATTTTCTCACAGTTGAGGATTGGGAGTCCAAAATCAAGGTACCAGCAGAGTGAGGTCTTCCTGAGGATTCTCTCATTGGCTTGTAGA
TGGCTGCCTTCTCTCTGTGCCCTCACATGGCCTTCTCTTTCTGCACAAACCTCCCTGGTGTCTCTCTTTATTCCTATAAGGGCACCAGTCACATTGGATT
AGAGCCCCATGCCTATGACTTCATTTCACTTTGTCTCCTTAAAGGCCTTATCTTTAAATACAGTCACATTGGGGCTTAGGGCTTCAACATAGGAATTTGG
GAGGATGCAATTCAGTTCATAACAGGAGTACATTATGAGAACCTTTGGTCTCAAACTTCCTAAGATAGCACCACACATTTTCTAAAACACTGAGTTCAAC
TACAAAGTTTTTGCAACTGGCTTGAATGGAAAATTCTTTATTTCTTTTTCTAGGAGACTATAGTGTTTTTTAAAATTATTTTTTATTATGATAAAATACA
TGCAATATAAAATTTGCCATTTTAACAATTTTTAATTGTACAGTTCAGTGGCATTAAGTACATTCACAATTACTACTATCTATTACTAAAATTTTTTAAT
TGTCCCAAAGAGAGATTTTTACTTATTGTAACCAGTAGGCAATATCTCCTCATCCCTACCTTCTCCCCAGCCCTTGGTAATTTCTTATCTACTTTCTGTC
TCTATGAATTTGCCTATTATAGATATYTCACAGTGTGCTTGGTTCCATGTCTATAGATCAAAGAATGCTTGAGCTTGGAGGGATCCAGTGGCCCAAGTTC
CTTCCTGGTACAGATGAKGCCCCTGAGGCTGAGACGATGAAGTAGTTGCCCAAATTAACATGACTGCTTAATGGTAAAGCAGAGTCTCSACCTCAAGTTT
CCTGCCTCTTCAGGGCTCTTTCCACTAAAATGCTTGAAATCTCTAGAATGACAATCATAGAATGAGAATCTGAGGCTCACTGTCCAGCATAGTAGCCACT
AACCACATGTGGCTATCCAGTGCTTAAAATGTAGCTTGTCTGAATTGAGACATACACTGAGTGTTAAATACACACCAGAATTTGAAGGCTTAGTATGAAA
AAAGTAACATAAAATATTTCAAGAATAATTTTTATATTGGTTACACTTGAAATGATACTTTGTACATATTTGGTTAAATAAATTACAATATTGAATTAAT
CTCACATATTTCTTTTTGTGTGTGTGTGTGTGGCAGGGTCTTGTTCTGTCATCCAGGCTGGAGTGCAGTGTCATGATCTCAGCTCACTGCAACCTCTGCC
TCCTGGGTTCAAGCAAGTTTCGTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGTGCACCACTATGCCTGGCTATTTTTGTATTTTTGGTAGAGACG
GGGTTTCACCATGTTGGCCTCGCTGGTGTCAAACTCCTGATCTCAAGTGATCCGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACC
GTGCCTGGCCTTCTTTTTATTTTTCTTAAAGTGGTAACTTGAAAATTTAAAGTAAATATGTGACTTGCATTATATTTCTATTAAACAACCCTGGTCTGAG
GATTCATATTAGGGCACCACCTCTCTATTTAGTGGTTATGTCTTCCCCGACCTCCATACCCAATATATAATCTCTATTCTCTAAGAATTATATATCACAT
AAAAGGGCAGGAATATTCAAAGGTGACCGAACTATCAAAAATGGTTTATCCAATCACCTTATTGGTTAAAAATGAAATACTTGGGAAGACCTTAGATGTT
CACATTTCCTCTCAGGGAAACAATTTTTTAACAAACATTAATGTTGTGTTTGTATAATAACAGGAATAAAGCAGAATGAGCTTAATTAAGAAAAGCAGGC
TCTGTAAGGATAGTGAGTAGCCTCAGCCATGGACTCCTGAGGCAGAGATGCAGCTGGACTCAGAAACAGAAAGGAACTGGGCCTGGAGCCCTAGAGAGGC
TCAGTGAATCCTTCCTCTCCCCTTCTCATCTCTGTGATGCACACTGGCTTCTTTCAGGTCTCAGTCCACATGATGATGATGATGATGATGATGATGATGA
TGATGATGATGATAAACAGCAACAGTTATGAAATGCATACTACATGCCAGGCACTGTGCAAAGCACTTTGTATGAACTAGCTCATTTAATTCTCATTCAA
TCAGCATTTAATGTATAATTTTTCAATTTTGCAGATAAGGAAATTGAGATACAGATAGATTTTTAAAAATTTACCCAAAGCCATATAGCTAATAAATGGT
AGTCAAGATTTAGAATCAAGTAATTGGGTGCTTAACAATATGCTGTATAGCCTCTTATTCTGAAGARTGGTTACCACCAAGAATATCCAGATTGCATCTC
CTAAAATGACAGTATTTACTTCATAGGGCTGSTGTAAGAATTACATGAGATGTGGCAAAAATCTTAGCAGAGTTCCTGACGTACAGCATGTGCTCCACAG
GTGTCAGCTGGTAGTATTACTATTTTTACTGTCTGTTCAAGAGAGCAGCTAGACTGAGACTAGACTCTTAGTATTGATTTCAAGTTATCTTTGAAGGGAT
TCAGATTGGCAAGCACAAGAGTCAGACCCWATCCTGAGCCCTCAACTGTTTGCAGGAAGGAATAATCTCTTGTGTCASATGCAGCTTGCTGGGGCTTCAC
CTTGTGAATTAGGGACAGGGGGAGAAGTGTTGGAAGGCAGCCTACCATCTCAAGTGATGCAAATTATAATCTAYCAAAGGAATGAATGAACGTTGGTCTG
GCAACAAATATCACCATCCCATTTTATTTACTAAACTTACTAAACCACTTTAGCAAGTTAAAAGTAGCACTGAAGGCAGATTTACATATTCTGAGCTCTG
AAGTGAGGCTTTTCTTTTATGGGCTATATTGATGGTAGCTTTAAAACTACAAATATCAGAAAAACTAAATTTACAGTGGATTAAGGAAARTGGGGTTTAT
TTTTTCTCCCATAACCATAAGTCTGGAGACAGGGCTGGCATCTCTGAGGATCTCTTAGCCACTTTCTCAAGGTTGCAAGGGAGACAGGTGCTGGGAATGA
CTGTTAGAAGGTCAGCTATGTGAGCAGATAAGTATTTGACTTCAAAAGAAACATAACACTTAGTGGAACTATGTTCTTTGCAGAGCCCTACCTAATCCAT
TCATCTAAAAGTGTTGCAACATAGGTAGGAGAATACGTTGTCTGGGAAACCACAAATTACAGTACTATGTGCATCCCCTCATAATTTCACCTTAACAATT
TCGTTACAGAGGAAGGTGCATCCAGTTCCTCATGCTCGGAAACCTACTGTGGACTTTATCCTGAGTCAGAACCAGAAGTGAAGGCAGTGGCTAGTTTCTT
GAGAAGAAATATCAACCAGATTAAAGCATACATCAGCATGCATTCATACTCCCAGCATATAGTGTTTCCATATTCCTATACACGAAGTAAAAGCAAAGAC
CATGAGGAACTGGTAAGTGCTACTTAATTATTTTTCTCATTAGCATTTTGGAAATAAAATAATACTTAGTTGAAGAATCAAAAACTGGGAAAAATTTTGK
CCTCTAGAAGGCAAATGATAGATGTTTTAAATCATGGTGTGATCCTGTTGAGAGTCACCCTGGGTCAGTGTTCTCTAAGGGAATATAAAGAACGTGCCTT
ACCCTAACAACACACACTTTATTCTAGCACGTGGGCTTCCTAAGAAAATGTCAGACAAATTCCTTGAAGGTTAGGAAGGAACTACTACTACACTTGACCT
GATCTGCATGTGAAGCGGTATAAGCAAGGATGAGTATGGAATCATGCGACAGCTTTGTGGTCACTAGCTTCCTACAACAGCACACCACAGATTAAGTCTC
AACACAGCACTCATTGTTTTGGTATTAGCAGCAGGAATTGTTCCTGCCCTGACTTCCYTAACCCTCAGGGTTTTGGTCCTATTAAAGTACCTCCAATTTT
AGCATTGAGGAGAGAGTCTGTTTTTTGGAACATAACAGACAATACAGGAAATTCAAAGAGGACTCACACAATTTGATACTCCCTTAGCACTTTTTAGTCC
AAGATACTGTATGTTTGGGTTCATGGCAAAAGATGCAAGGATTCTTGAAGGATTGTAGCTAGGCTTYGACAAATCCTCATCCCAGATGCTCTCCAGACAG
TGGAAGTGTTACATCAACAGCCCCATTCTTGGGAAGGGACTAATTTTTAGGTAGTAGCTTGTTTCTTAGTGACTCATTTTTTTTTCTGGCTCTCTTAACA
GAATAAAATATAGTCACATTACAGGAGCTAGCAATTGCTGATGACAAATATAAGATTATTTGCATTCTCTGAAAATAGCCCATTTAGAACATAAATGTAC
TTGATACTTGAGCTTTTTTCTTCTCAAGGGAAAACTGTTAAGGAAAGCACCTTTCAAAAATATTATCTTTGAAGAAATAAAAGGAAATTTATCATGATTT
GGGAAGTAGAATTAGTCTAATTATGCTTTTTTTTTTTTGCATCACTGCCAGCACACATATATGTTGAGAGCCATTACGTGTAAAATACCTTGTCAATGGA
TGTTTAAAGAAGCATTAGGTAAAATCCTGCCCTTTAAGAGAATGTGTTATGGTTAGGGAGCTCAACCATTAGCAAATGTTACAAATAGTTGTACTCTAAG
GCGACATAGAGTAACTACTAAATACGTGGCACAGACAGTACAACTCACTTCTAACTAGAATATCAAGGGATGGCTTCACTAATGCATTCAGAGGGAAATG
CTGAGATAAGTGAGGAGATAAAGTAGTTACTGTCCTTGAGGAATTTACAATCTATTAAGGGGGGGAAAAACTACAAATAATAAAGTGCTGTTGATGTCAA
AGATCAGCTACATTTTAGACAGGCATTGAAAGAGGATTTCTATAGGCAGACAGGGAAGGAAGGACCTTCCAAGCAAAGAAGTTGGTGTTCACCATAAGAG
GATGCAAAAGTGGAGGGTGATAGCATCAGAAAGTAGATTAGGTTGGCTTCTGAAGGGGTGTGACTGTCAGATAAATTTGTATTTCATTATGTAGACAATG
GGGTTACATTAAAACTTATTTTTTGAACAATGAGATGGCATAAAATAATATCCGCTGATAAATCTCTTGAGTTTTTCAAGAAGGTRACAGTGTATACCAT
GATGCTAGTTCCAATTTCCGAAAAGTTCCAGATAAGTGAGAACTTCAGAATAGATTTGACAAAATGAATATCAACAGACAAAATGAAGTCAAATGGGGGT
CTTAGTTATTATCCTGCTCCATACCAGAGGCATAATCTTTTTTGATTTGATGAATCTATGGAAGTCATTAGACATTTTACACAAGAAGAAAATAGAAGTT
GTGAGAAGGATAAGAAGTGAGTCATGCATGCATTAGGTGTTTGTATGTGTTTAGAAAGGTTGGATTTAAAGTTTGGTGATAATTTTGTTCAGAAATGGAG
TACCTCTAAGCCTTTGAGATGTAGTTATACTTCATTTTCCATAATAAATGAGTTCCCAAAAAGGCATGTGATAATTTTTTTCTGCAAATTAATATATTTA
TTTATATAAATTATTTCAATATATTGAAATAGTTTATGTTTAAAGCCACCCAATTGTGATTGCCATAAAGTGCACATATTTTAAATTAATTTGTTTACCT
TATTTATTTGCCTTTTAGATGAATCTAGATTTTCTACCTGTATACTTTGATTCAATTAATGTATGATTATTTTTTAGAAACTTCTACTTGTCATGTTTCA
AAGCTGCACATTAACTGAAATTCTATATCTTKTTGCTTCCAGTCTCTAGTAGCCAGTGAAGCAGTTCGTGCTATTGAGAAAAYTAGTAAAAATACCAGGT
ATACACATGGCCATGGCTCAGAAACCTTATGTAAGTATTTCTTCTTATGATCTTAGAGAACTTTGAGCTACTAAAGAAATCTGTGTGATCTGTTTTTCTT
TGTGTATTTAATTTTTCTGAATTAAATAGGGTCACATGTAATACAACTGAATTGTAATAATTAGGAACAGAAGCATAATAGCTATGACAATGCTGAACAA
AGCTATATTAATAAATGAGTTACTAAAAAGAAGCCAAAATCCTATTTAAGAAATCATATTTATCACAATCAAGTAGGAATTACAGAATTGGCATCATACT
AGTTGAGTGAAGCAGAAAAGTTCATAAAACTTTTGCATGATTCCCAGGGCCACCATGGAAGGTTGTGCAGGTTGTACACTACACTAATCTAGGGCATGCC
ATTTGCATCAAGTGTTTTTTAGTGTTAGCCTGTTCCCAAGAGTATAGCTCATAACACATTACAGTTGATTGTCTTTAATATATATTACACACACAAAACT
TGTGACAAACTCTTAACAAAAAGTTTTGATTAATTTTTGCTGAAAGATATTTAGTGAGTAACTCCTATCTACACACAGTGGGAGGACAGACTGATTTTGC
CCTTTTGAAGTTTGAAGGGAGATGGGAAAAGAGGAGCATAAAATAAACCTGTAACCAGGCATCAGAAAACTACAGCCTGAAGGCCAAATCCAGGTTTTTC
CATTTTTTTTTTTTTTAATGATTAGAAAAAAACAAAAAGAGGCCAGGTGCTGTGGCTCATGCCTGTAATACCAGCACTTTGGGAGGCTGAGGCAGGAGGA
TCACTTGAGGTCAGGAGTTCGAGACCAGACTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCAGGCGCCTG
TAATGCCAGCTACTTGGTTGGCTAATGCATAAGAATTACTTGAACCTGGGAGGTGGGGGTGGCAATGAGCTGAGATTGTGCAACTGCACTCTAGCCTGGG
TGACAGAGTGAGACTCCATCTCAAAAAAGGTCGAAACTGTATTTATCATGAACACTAAAATATGTACACATTTTAGTTAACATGCATTAAACTGTAACAA
GTCTTCTGGCAATTGTAGCTTTCATGAGATGCTTCCCAAACTGTATTAGATAGATGCTAAAATTATAAATTAAAATTTTGGGTCAGACTTTGCCATAAAC
CTGGACTCAATTTAGCACCCCCCCAAAAAAAGTCAGATTATTCAATTAATGCGGTTGGAAAACCTAACAAGTTACCTAGAAAAAAATTAATTGGATTATT
AACATGTCTTTCACCAAAGTAAATTCCAGGTACAGCATATATTTTCATATGAAAACCCTGCATAAACCAAGTTGAAATCTCAGTAAGGAGAAAAAATTCT
TGTGAAAGGAGAAATGAATGAAAGGAGAAAAAAAGGTCTACATGCCAAACAAAGCTAATAACACTAATGTCGTTTTTATAAGCAATTGATAAAATGAACC
AAGTAGACAAATGAGGAAGGACAATTGATAGGAAATATAAAGATAGCCAATAAATATGCCAAACAAATGTGCAACTCACTGATAATCAAAAAACATAAAT
TAAGACAGTTGGATATTATTTTTCGCCCATAAAATTATCAGAATTCATAATTCCTATTGATGGTATGGGAAGGGGAAATGGGCAAATTCATACCCTGCTT
GTGGAAGTATAAATGAATTCAGTTCTTTTGACGTCCATTTGGGAACATGCCGTAATTGCAAAAAGTACAGAGCCTTAGACTAGCAAATCTATTCTAGGGA
AGAATATTCTAAAGAGACAAAGAAGCAATTATGTATAAACAAGGGTACTCATTGTAAAGTTGTTTATATTAGTTAAAAACTGAAAAAAATCTAAAGGTAT
ACAAACAAATAAACATTTAAATCAAACAATTCCCAGTTTGTAAATTAATTTGAAACGTCTGTATTTCAACAATTTCTTTCTTCTTCTTTTAGACCTAGCT
CCTGGAGGTGGGGACGATTGGATCTATGATTTGGGCATCAAATATTCGTTTACAATTGAACTTCGAGATACGGGCACATACGGATTCTTGCTGCCGGAGC
GTTACATCAAACCCACCTGTAGAGAAGCTTTTGCCGCTGTCTCTAAAATAGCTTGGCATGTCATTAGGAATGTTTAATGCCCCTGATTTTATCATTCTGC
TTCCGTATTTTAATTTACTGATTCCAGCAAGACCAAATCATTGTATCARATTATTTTTAAGTTTTATCCGTAGTTTTGATAAAAGATTTTCCTATTCCTT
GGTTCTGTCAGAGAACCTAATAAGTGCTACTTTGCCATTAAGGCAGACTAGGGTTCATGTCTTTTTACCCTTTAAAAAAAATTGTAAAAGTCTAGTTACC
TACTTTTTCTTTGATTTTCGACGTTTGACTAGCCATCTCAAGCAASTTTCGACGTTTGACTAGCCATCTCAAGCAAGTTTAVTCAAWGATCATCTCACGC
TGATCATTGGATCCTACTCAACAAAAGGAAGGGTGGTCAGAAGTACATTAAAGATTTCTGCTCCAAATTTTCAATAAATTTCTKCTTSTGCCTTTARAAA
TACAACCATGCATTCCGTTTGCTCCACGGTAATTAGGCGATGGCCCAGAAAGGGGAGGGGTGTCAAAAACGACAAACATAGCCTCTCATTCCAGCTCAGC
TGCTCAATAAACACTGTTGAACGAATGAATGAGTGGCTCTAGGTACTGTCAACAAATGCCGCATTTTGCGCATTTACAACAGCTGTTTATGGTAAGGAAT
TATGTAATAAAAAGAGAAAACTCACTTAAATTCACTTTTAATTGGGAATTTTAGTTCTCCCGGGCTCCCAGTTTCCTTTCCTAGGATCTCTCACAGAGCA
CAGATTCGATTTCCAAGTCCCGCCGCACTCTTACCGCTCGCATGGAACCTTACGCCTAGAGGGCGTGTCCACGAAGGGTGGTGTCTGCGCACTGACGACT
AATCTGACGGCCGGAAGCTGCCTGGGTCTACAGAGGAACAGGGCAAACCTCTGACTTCCGGCGGCATTTTGAGGCGGTCCTCCTAGCGGCCTGGTAGTGT
TTTTGTTGCCTTTTCTTAATCTACAATCTCTTCGTTATTTTTCTTCCTGCGACCCAGTTTCGCTTGACCCTGGAGAGGCGGCGGGCGGGTTGGTTCTGCT
TCTCAGCCATCCCGGGGGCTCCTCGCTAGCCAAGAGCCGGTTCCCGGGAGCCGCGCGCGCATCGCTTTCTCCTCGTCGTCGTCCTCCTGGGTCCAGGCGC
GGGGACAGAGTCGCCTCCCCCGCTCCTCGGAGCGGCGGCGGCGGTGGTGCCTCCGGACTGCACTTGCGAAGGGAGCTTGGGGAGGAAGTAAGCGTTCTGT
GAATTGGTGTGGGTATCTGGGGAAGGCATTGAGCGGACCCGTAATGCGGAGGCCCGGGTTACCYMCCCCCGTCTTTGCTTGAGTCACTGGGATTTTGAGC
TTTCCTTGAGCATCCCACCCTTAACTCTGCAATAGCCCCCTGTGCTCAGGCGTAATTTCTCACTCTGATTATGATTCTGGCATTTGTCTAAGGGCGATAA
GTAGACTCAGACAATAGGCTGTACCCCTCGTTACCATTTGATGTAAGCACGGGAACCCTTGTATGGTGTTCGTATTTGTGTGCGATGGAAGGGTGCAGCA
ATTTGGGCTTAAATTTAGAATCTTCCTCTATACTCATTCCAGATCTGTTAGAGAAAAACATCTTACTTGTGATTGGTCTTGTTTTTTTTTTTTTTTTTTT
TCCCTCAGCAGTGATAACGATTTAGGTCCTGGGAATTGAGTGCTACTTTATCTTCACAAGCCTTAGGTAGGTAGTTTTGGCAACTGTCAGAAACGGGGGA
AAGTGGAATAGAAAGAAGAGAGTCTGTTTGGCGGCATTATCTCTCTGTAATAGGCTAACGCAATTTATGTGGTTTGAAAATTATTTAGAGTTGATAATAC
TTGAATTATGTTGGTAAGATGTTGTTTGTGAAGGGTAGTCTTAAGGTATTTGGTTATACTATGGGGCTTTCAGGTAATTCGAACTACTTTGAAAATTATG
GGAGTATGAAGTCTCTTAAGATTTTTGGATTTTTAAAGTAGTTTTAAAAATTTGGAAAACATCTTTACACCTCAAGTTTTCGAAGTCCGCGATACCGTTG
GAGAATAAATACTTATGCAGTTCAGTCTATGGGTATATGGTGCCAGTTAGCGGGGTCTAGTTCTGTAACATTTGAAATTACTGGCTTTAGTACAATATAT
TGGAGCGTTTTGTGAATACAATCTATAGATTTTCAAATAATTTTTAATTTCTTAATGAACTATTTACATTATAACAGATGACAGTTTCAACTAGAGACTA
GCAAAGTTGATGCAAGCTTGTAACAATTGCGGCTTTAAAAATAGTTGCACTCTGAAACTAAGGCTTTCACTCTGTGCATCTGGTAGGATTCAGTTTTATC
AAATGTATGCCTCTTACTGGCTTCCTGATTACTGGTCATTCTAAATGAACATTGCATATTTTGAGATTTGCAAGCTTATGTGATTTTCATATTTGTAATA
TGAATTTAACATACTAAAAATCCAGCAAGTGGATGGTATCTTAACATCTTTACAAATTATTAAAATTGTAATATCATCAGTATTTATAATATGCATTGGC
ATTTACATAGAGGAAACACATTGTTTAACTTAAATTTACTTAGAGAGTTGGTTTTCAGTGGATGATAGTCTTCCTCACCTCCTCATCTCTCCCAACTCCA
TCTCATATAGAGGTGGAGCTATTTCTCCAGCTGTTAGTAGTAGTTGAAGCATTAACTGCTGTTGATATAGAAAGAGTCTTTTATTCTTTTTTTTTTGTAT
TTTTGTATGATGCAGTTCTTTTTACTTCACTTTAGAGTAGGTACCAGCATGGGATGTTTTCTGTGCAGTCTTTTTAACAAATTGTTTTTTCTGCATAGTA
CTGCAGTGTTGCTTTGCTAATTCCTATGTAGTCAGCTTAGTTCTGTCAGTTGTATTTGGAATTTAGTTTGGAATTGTTTTAGCATTAAATTTACGGAAGC
AATCTGAAAGTTTGTTTTAGAAAGTTCTTTTTAAAAAATTCTCTCAAACTATGCATCAAATAAAGTTAATTTTTCTTTCTAAAAATATGAAGTATAAATG
TGAAGATACCTTATTTTTAGTATCACCTTTTTAATCTTAGAAATTCAGAGTATAGGGATTTATCCTACTAGTTAGTACATTCATGTAGTTTTAATTGCCT
GATTGTTTGAAATTTCCCTAATATTATGCCGCTACTCATCCGGATTAAAGTGTTATGCTTTCACTTATGCTTCCAGTAGATGAGACCTGGAAAAGATAAT
TAATTATGGATTGAAGTGAAGATACTAGAACGCATATGTGTTTATTGACAAGATTTTATTAATTGAGCTTCTGGAGTCATTATTCAAAAAGAGACCCTTT
TGTATGCTTCTCCTTTCTCAGCCATAATTATAATGTGAACCTTCTGAGTACAGTGTTATTCTAAGTTTCTCGGGGCAAGGGAGCAGTTCCCATTTAAGAC
CCTCTTTTGTTGTGTCTTTATTAATAGACTCAAACTTTGTGTCCCGGATTTTCTTTTTCTTTTTCCATTTTCTTTTTTAATTGAAAAGAGATTATAAAGA
CTTCAGATATTCATTTGCTCTGCAAATGGAGAGGAGAAATAGGAAAATAACGAAATAGGCTTTCACTAGTGCCACTCTGTCTTTGATAATGCTCGTGTTT
GAGAAAGACTTGATGATGTGGGTGGAAGTGTGATGGCAACTTAAACCAAATAATAATTTGAAAACAAAAATGGAGGAAAACCTTCATAGAAGAGTAAATT
AGTAAGTTATTGGTATGACCTTGATTTCTATTCTCTATGATAGGAAAGACTTTAGTATTTACATTTTTATCTTATGGTTTCTAATTTTTCTCATATACTT
TGAAGCATTTACTTGTCATGTTCAGCCTGTTCATACATAATTTGAAAAAGTTTCCCGCCCCGAAAATCTACATTTTAACTGTTGTGGTGTTCATTTTCCT
TTACGGGCCCAAAGTTTTAAATAGGATTGAAAATTCTAATTGTCACATTAGTTGGTAACATTTAGTTTTAATATATGAAAAAGGAAATGTTTTTCTGCTG
TATTGTAGATAGTGTGTATATTTTTAGATAAATGGGATTTTTAAAGTTATATATTGTGTTCTTTACAAGCATGAAGCATTTTGTTTATTCAAATTCATGA
ATGTCTCATTAGTAATATTTAAGTAACATTTTATTGTTGACTACTTGTGGAAGTTTTTACATGGATGATCAGAAGAATTTTTTCAGTTAGAAATCTTCAG
TTTCTGCTTTTTTCTTTTTTCACCAGACGTTTTACACACACACATATATATATCACATTAAAGAACATTTTATTAAGAATATGTGTGTGTGTGTATTATT
GTTGTCATTATTCTTGTTTTAAATGTTCAGTCCAGGACCTTGCTGTAACCCAGACCGCATACTCAGATGCTGTATTACTTTAGGACAAAGTATGGTACTC
TTGGAGTCTGAGAAAAAGTAGAGTACATCTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCCCTCTGTTGCCAGGTTGGAGTGCAGTGGCGCGATCTCGGC
TCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCTTCCCGAGTAGCTGGGATTACAGGCGTGCACCTCCACACCCAGCTAATTTTT
GTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTGTTGGCCAGGATGGTCTCAATCTCTTGACCTCGTGATCCGCCTGCCT
TGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGTCACTGCGCTTGGCCACATTTTTACTTAATTTCATTTCTTCGCTAAATTGGGAGACTCAGTACAGT
AGTAGCTGCAAGTGAAATTCCTGGGATAATTACTATGTAGGTGAATCTTGAATAGTTCTTGATGTCACTGGTAAAAGCAATTTTGTCTCTGTGGAAAGAA
TATGGGCGTAGGGTGAGGGAGGTGAGGAGGTGGATCATTAGTCTTCACTTGATTGTCTTTCATAGCAAGTCCAACCCTTGAAATCTTCAAAGTTTTTTTT
TTTTTTTTTTTTTTTTTTGAGGCGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCA
CGCCATTCTCCCGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACCACGCCCGGCTAATTTTGTTTTTGTATTTTTAGTAGAGACAGGGTT
TCACCATGTTAGCCAGCATGGTCTCGATCTCCTGACTTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCG
GCGAAATCTTCAAAGTTTGCCTTAGGGAGTCTAGGATTGGAGAGAAGCTCTCAGACCAGCAAAGCAATAGGTCAAGGGAGGAGAGTAGTGCGAATCAGGC
AACAGAGGACAGACCAGAAAAAGAAACTGTAGAGTTAATACCTGGAACCCTCAAAAAGTAAAAAGAAAGGAGATGATAGATGACCAATGTTTTAAGTATA
ATAAGTACGATAATAAATAGCCTGTCGTCCTAACTGGAAACCATTACCATTGAATTTTTTGAAGGAGACTGAGCTGGGAGTGGAGGCATGTTGGGGGTAG
TAGAGATGTTGGGGGCAGAACTAACTCATTTCCAGTGACAGTGGAGGGAAAAATAAAAAATTAGTGTTAGTCCACTTGAGGCAGTGTGGTGGGAGGGTGT
GCCTGTTTTCTAAGTTCTACATAACTAGCAAATAAGGAAATTTTGGAACCTATTCAATTTTGTTTATTAAGAAATGTTTTAAAAATTGAATTATTGGTTG
AGGATTACTCTATATTTGTATATTAATGTAGCAATATATAATGAAACTTTATGTTTTTCTCAAACTTCTTATACATTGTGATACATTTACTTATTATTGA
ATCATGCTTGGATATATATTGTTAAAAAAGTTTTTCTCAAAGCTCTACATTTTCTAGATCTTTCTCAGCTCCACTTAGCTTTCAGTTTTTTCGTGCTCAG
TAAATCAAATAGACATAGGAAATTTTACCAGCTTCTCCTCCGTATGTTCACATTTCAGCTGAGAATGAGTCTAAGAAAAATTAAATCAAAGATTATCTTA
TAATGCTAACACCAGTATGTAGAATTGGTGTGTAGTTCCTTACTTGGAGAACAATTAATATTTAATTGATTTTGTGTTGCAGCAAATTATTGTTTATGTG
ATGCTCTCCACTGGTTCTTAAATTTATAATTACTGTGAAGTAATTCTGTTTTTAAAATCACTAAAAATTAATTGCTATTATATCAAAAGAATTATTACAT
TTTATATTGATAAAAATATAGATTTTCCAATTTAAAATCACCATATATTATTTCATATTTTCCTTCCTTGATGCACCATCTTTTATTTATCAAATGTTGT
TCTTAGTCTTTGGATTCTTTTAAAAGTGTGACCTGAAGTACCTCATTGAACCAAACACTGTTTATAATTTTTTATTGCTGTTTCAATTAGGTACTACCAC
GATTTAATTTCCTTTAAAGTGATATGTCTTTACTTTGAAACCACATTAAAGATTTGTGATCTTTATAGAGACTAAATGAAACTTTTTTAGCTGCTGTGGT
TCATTCTAGTAACTTTTGATGAT


SNP Information

Context             (SEQ ID NO:4622):
AAGCTACTATTTTCATTTAACCAGTATTGCCATTTCAATCAGGGGAATATTCAAGAATCATAATTGGTGGAAGATGGTAAAAAATAAAACACAAACACAC
Y
TAGGTTAATTAAATGGTGGTCATTCATTTTTTGGTAGATATCTTCCCTGAGAAGACTGCATCATATTTGGTAAACTGCAGGATGTTTGTCTACAGCTAAG
Celera SNP ID:            hCV25607376
SNP Position Genomic:     28759
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,25)   caucasian(T,40)   total(C,1|T,65)
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:4623):
GGTCAGGGAAATGCTTTGAACTTGGCTTCGTGACTAACCTCTGGTTTCCATTTTGCTAGATCTATTCTTGGATAGAATTTATAACTGAGAGGCATCCTGA
Y
ATGCTTACAAAAATCCACATTGGATCCTCATTTGAGAAGTACCCACTCTATGTTTTAAAGGTATGTTGTGGGGAAAGTTGTTGATCTTTCACTGTGAGGG
Celera SNP ID:            hCV25607377
SNP Position Genomic:     32220
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;TFBS;hmCS


Context             (SEQ ID NO:4624):
TGGTTTCCATTTTGCTAGATCTATTCTTGGATAGAATTTATAACTGAGAGGCATCCTGATATGCTTACAAAAATCCACATTGGATCCTCATTTGAGAAGT
W
CCCACTCTATGTTTTAAAGGTATGTTGTGGGGAAAGTTGTTGATCTTTCACTGTGAGGGGAGGGATTAATTCTCCAGTCGTGTTTGTTAAAACTTGAGTT
Celera SNP ID:            hCV25607378
SNP Position Genomic:     32261
SNP Source:               Applera
Population(Allele,Count): african american(A,37|T,1)   caucasian(A,38)   total(A,75|T,1)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:4625):
CATTTTGCTAGATCTATTCTTGGATAGAATTTATAACTGAGAGGCATCCTGATATGCTTACAAAAATCCACATTGGATCCTCATTTGAGAAGTACCCACT
S
TATGTTTTAAAGGTATGTTGTGGGGAAAGTTGTTGATCTTTCACTGTGAGGGGAGGGATTAATTCTCCAGTCGTGTTTGTTAAAACTTGAGTTTGTTTCC
Celera SNP ID:            hCV25607379
SNP Position Genomic:     32268
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,38)   total(C,75|G,1)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:4626):
ACGCTGATCATTGGATCCTACTCAACAAAAGGAAGGGTGGTCAGAAGTACATTAAAGATTTCTGCTCCAAATTTTCAATAAATTTCTGCTTGTGCCTTTA
R
AAATACAACCATGCATTCCGTTTGCTCCACGGTAATTAGGCGATGGCCCAGAAAGGGGAGGGGTGTCAAAAACGACAAACATAGCCTCTCATTCCAGCTC
Celera SNP ID:            hCV7557247
SNP Position Genomic:     58197
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:4627):
GATCATCTCACGCTGATCATTGGATCCTACTCAACAAAAGGAAGGGTGGTCAGAAGTACATTAAAGATTTCTGCTCCAAATTTTCAATAAATTTCTGCTT
S
TGCCTTTAGAAATACAACCATGCATTCCGTTTGCTCCACGGTAATTAGGCGATGGCCCAGAAAGGGGAGGGGTGTCAAAAACGACAAACATAGCCTCTCA
Celera SNP ID:            hCV7557248
SNP Position Genomic:     58188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:4628):
CAATGATCATCTCACGCTGATCATTGGATCCTACTCAACAAAAGGAAGGGTGGTCAGAAGTACATTAAAGATTTCTGCTCCAAATTTTCAATAAATTTCT
K
CTTGTGCCTTTAGAAATACAACCATGCATTCCGTTTGCTCCACGGTAATTAGGCGATGGCCCAGAAAGGGGAGGGGTGTCAAAAACGACAAACATAGCCT
Celera SNP ID:            hCV7557249
SNP Position Genomic:     58184
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:4629):
AAGAAGGCTTGGGCAGAGGAGAAACTGACCTGTGATGTAATCACAACTATGGCCTCACCTGTTCCTGTGGAGAGCCTTGAGGCTGGGTTGGCCTGGTAAA
K
TTGTCCCAAACTGGGGCAAGCAGGCATGCCTTTGTAACCCCTGTTTATTAGTCACTGGGTGTGGATTGTACCTTGGAGGAGGCATCATGTTGGGCAGCAC
Celera SNP ID:            hCV25935522
SNP Position Genomic:     12338
SNP Source:               Applera
Population(Allele,Count): african american(G,32|T,6)   caucasian(G,28|T,6)   total(G,60|T,12)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:4630):
TTTCAAGTTATCTTTGAAGGGATTCAGATTGGCAAGCACAAGAGTCAGACCCTATCCTGAGCCCTCAACTGTTTGCAGGAAGGAATAATCTCTTGTGTCA
S
ATGCAGCTTGCTGGGGCTTCACCTTGTGAATTAGGGACAGGGGGAGAAGTGTTGGAAGGCAGCCTACCATCTCAAGTGATGCAAATTATAATCTATCAAA
Celera SNP ID:            hCV27334227
SNP Position Genomic:     52378
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4631):
TGTCTGTTCAAGAGAGCAGCTAGACTGAGACTAGACTCTTAGTATTGATTTCAAGTTATCTTTGAAGGGATTCAGATTGGCAAGCACAAGAGTCAGACCC
W
ATCCTGAGCCCTCAACTGTTTGCAGGAAGGAATAATCTCTTGTGTCACATGCAGCTTGCTGGGGCTTCACCTTGTGAATTAGGGACAGGGGGAGAAGTGT
Celera SNP ID:            hCV27334228
SNP Position Genomic:     52330
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4632):
GGCCTTGAACGTGGCTACCCAGGTTGTCTGTTTGTATTTTGTTTATGTAGAATCGAATGTGGAGAAAGAACCGTTCTTTCTATGCGAACAATCATTGCAT
Y
GGAACAGACCTGAATAGGAACTTTGCTTCCAAACACTGGTGTGGTAGGTTGTTGGCTTTATTTCTTGCAATGTCTCTTCACTGAAAGGGTGATGTTCACA
Celera SNP ID:            hCV9884933
SNP Position Genomic:     46703
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,38|T,2)   total(C,71|T,5)
SNP Type:                 INTRON;SILENT MUTATION;hmCS

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;SILENT MUTATION;hmCS


Context             (SEQ ID NO:4633):
CGGCCTCCTAACTTTTTAAAAAGTATGTTTCTTTGATTCTGGATCCAAATAAGGCTCTTACATTATGATTGGTTTATATGTCTTTTAATTCTATTTTAAT
S
CATGAACTCACATTCCATCTTTTGCTCTTTCTCTCTCTTCTTTTTTTCCTTGCAATTTATTTGTCAAAGAAAAGAGTTTCCCATTATCAGGATTTGCTAA
Celera SNP ID:            hCV9884934
SNP Position Genomic:     44927
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4634):
CAAAGTGGGCAGGCAGCACTTATAAACAGCAAATGGAAATGAGGTCCAGAAGCAGCTTGAGTAGTTACAGGTGAGCAGTTGTCTTACTGGGCATAGGCTG
M
TCAGTTGGCCACATGGGATTGGCTGTAGCTTGGCTGCTGTGATTGGCTGAGACTCACCTCGTTAGTACAAAAAAAAAATACTCCTAAGTTAGGTTGCAGT
Celera SNP ID:            hCV11301120
SNP Position Genomic:     9917
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|A,6)      total(A,6|C,2) ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:4635):
GGTTTAATTTGCAGATAACTCAATTCTATGGGATAATAGGGCAATATACCAATCTCCTGAGGCTTGTGGATTTCTATGTTATGCCGGTGGTTAATGTGGA
Y
GGTTATGACTACTCATGGAAAAAGGTAGGAGAAAAGGCAAAGAAGACAAATCATGTTCTCCTTGGGGATATAGGATATACAGGTTGAATTATTCATAGAA
Celera SNP ID:            hCV25607383
SNP Position Genomic:     44062
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,22)   caucasian(C,13|T,27)   total(C,29|T,49)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:4636):
TATGGTTCGATTGTCTGCCTTCATTAACTAGGAATACTGGACCACGTGTAAGGCATTTATCACCACTTCGTAGCACCCTAAGTTCAGTTCTTTTGAGGAA
Y
TAGCACTCTTTCTGAAAGTTAAATCTGCAAATCTAAACATGCCAAATGACAAATTAAAAAAAAGAAAAAGAAACACACTAAGTTTAGAAGAACTTAAAAC
Celera SNP ID:            hCV25607384
SNP Position Genomic:     43843
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,21)   caucasian(C,9|T,25)   total(C,24|T,46)
SNP Type:                 INTRON


Context             (SEQ ID NO:4637):
CCATGAGGAACTGGTAAGTGCTACTTAATTATTTTTCTCATTAGCATTTTGGAAATAAAATAATACTTAGTTGAAGAATCAAAAACTGGGAAAAATTTTG
K
CCTCTAGAAGGCAAATGATAGATGTTTTAAATCATGGTGTGATCCTGTTGAGAGTCACCCTGGGTCAGTGTTCTCTAAGGGAATATAAAGAACGTGCCTT
Celera SNP ID:            hCV16184565
SNP Position Genomic:     53300
SNP Source:               Applera
Population(Allele,Count): african american(G,33|T,5)   caucasian(G,24|T,16)   total(G,57|T,21)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   JBIC-allele(T,89|G,638)   total(G,638|T,89) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4638):
GACTAGGGTTCATGTCTTTTTACCCTTTAAAAAAAATTGTAAAAGTCTAGTTACCTACTTTTTCTTTGATTTTCGACGTTTGACTAGCCATCTCAAGCAA
S
TTTCGACGTTTGACTAGCCATCTCAAGCAAGTTTAATCAATGATCATCTCACGCTGATCATTGGATCCTACTCAACAAAAGGAAGGGTGGTCAGAAGTAC
Celera SNP ID:            hCV7557250
SNP Position Genomic:     58046
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    ;no_pop(G,-|C,-)   POOLE|_CEPH(C,35|G,153)   total(G,153|C,35)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:4639):
AAAAAAAATAAAAAATAAAAAATAAATAAATAAATAAATAAAAAGCACATTAAGAGAGAAAAAATGTAAATCTTATTGGAAGCCTTTTTAAAAAAAGGAA
M
AATGACATGATGATAATTACAAGAACATGAAATTTTTATTAAATAAAATCAATGTTTAATCAACTTTCTTTCTAGAAAAAATTTTGTTTCCTTTCAAATA
Celera SNP ID:            hCV11301127
SNP Position Genomic:     26308
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:4640):
TAGCTTGGCATGTCATTAGGAATGTTTAATGCCCCTGATTTTATCATTCTGCTTCCGTATTTTAATTTACTGATTCCAGCAAGACCAAATCATTGTATCA
R
ATTATTTTTAAGTTTTATCCGTAGTTTTGATAAAAGATTTTCCTATTCCTTGGTTCTGTCAGAGAACCTAATAAGTGCTACTTTGCCATTAAGGCAGACT
Celera SNP ID:            hCV7557251
SNP Position Genomic:     57849
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,32)   total(A,2|G,70)
SNP Type:                 INTRON;UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:4641):
CACAATTTGATACTCCCTTAGCACTTTTTAGTCCAAGATACTGTATGTTTGGGTTCATGGCAAAAGATGCAAGGATTCTTGAAGGATTGTAGCTAGGCTT
Y
GACAAATCCTCATCCCAGATGCTCTCCAGACAGTGGAAGTGTTACATCAACAGCCCCATTCTTGGGAAGGGACTAATTTTTAGGTAGTAGCTTGTTTCTT
Celera SNP ID:            hCV7557252
SNP Position Genomic:     53867
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4642):
CAGAGGAAGAAGCAGTTCATCCCGACTTAGGTTCCAGGGAATCATTTAGTGGTTTCTCCCTAAAAAACCACTCGTGTTCCCAGAGGCCCAAAGTTTGCTG
Y
GGCACTAATAACATGCCAGGGGCTCACAGGAACAGCAGCCATGTAAAAAGAATCTAAGTAAATAGAGCTGACAGTTACTCAGCGCTGAGCCATTGACATA
Celera SNP ID:            hCV28003566
SNP Position Genomic:     48877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4643):
TGTAACCAGTAGGCAATATCTCCTCATCCCTACCTTCTCCCCAGCCCTTGGTAATTTCTTATCTACTTTCTGTCTCTATGAATTTGCCTATTATAGATAT
Y
TCACAGTGTGCTTGGTTCCATGTCTATAGATCAAAGAATGCTTGAGCTTGGAGGGATCCAGTGGCCCAAGTTCCTTCCTGGTACAGATGAGGCCCCTGAG
Celera SNP ID:            hCV7557253
SNP Position Genomic:     50427
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:4644):
ATTTGTTTGATTTTACAACAGTCTTCTCCCTTCCCTCTATACCAGTGGTCCTCAACCCCTGGGCTGCAGACAGGTACCAGTCCATGGCCTGTTAGGAACG
M
GGCCACGCAACTGGAGATGAATAGCCAGCGAGCAAGCATTACTGCCTGAGCAATGCTTCCTGTCAGATCAGTGGCAGCGTTAGATTCTCATAGGAGCACA
Celera SNP ID:            hCV7557254
SNP Position Genomic:     36090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4645):
CAGACAACTTAAGATTTTCTTTGCATTGAGTAGATTAAGCTAGGTAGTTCTCTTTGACTATACAATTTGACGATTAGTGGCCAATGCCATTGGGCTTTCT
Y
ACTTACTATCCTGTTAAATATTGCTAGCTCCAAGTTAGGAAAAAACCTCCTGGAGTGGTTCAAATGACAATCTAAATATCTAACTCTTTCTTTTTCTTAT
Celera SNP ID:            hCV7557255
SNP Position Genomic:     35868
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   (T,-|C,-)   Caucasian(T,25|C,55)   African-American(T,9|C,73)   total(C,128|T,34) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4646):
ATCTATCCAACTTAGACCACCTCTCTCCAGCATCCATCAGCACGACTGCATGAGCAAACTTGATGCAGAGAGGCTTCATAGGTGGGATTTCACCTTCATA
Y
AAGGTGAAACTGTCACTGCTGTGATAAGTTTGGTGGGGAGAGGGGAATGCCATAAACAGAAGTATTTTTAAATATTTGTTAAAACATATTTTAATTATTT
Celera SNP ID:            hCV7557256
SNP Position Genomic:     29710
SNP Source:               dbSNP
Population(Allele,Count): SC_12_A(T,3|C,21)   SC_12_C(T,6|C,17)   SC_12_AA(T,4|C,16)   total(C,54|T,13)   (T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4647):
GCTAGAAATGTCAGAGCGAATGTGGCAGATGGTGAAAAAAGAGATAGAGCACACTAGAATAAAAATGCTATGTAAGGCTAGAAAACCCACTGGGTGACTA
Y
GCTACTCCAAGGGCCCAGAGAACATTCTGTTTATGAAAATAATAAGGAATGTGCTGGTGAGATGAGAGGGTTACCAGCATCACTGAGAAGCTTGTTAGTG
Celera SNP ID:            hCV7557257
SNP Position Genomic:     16910
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4648):
TTAACAATATGCTGTATAGCCTCTTATTCTGAAGAATGGTTACCACCAAGAATATCCAGATTGCATCTCCTAAAATGACAGTATTTACTTCATAGGGCTG
S
TGTAAGAATTACATGAGATGTGGCAAAAATCTTAGCAGAGTTCCTGACGTACAGCATGTGCTCCACAGGTGTCAGCTGGTAGTATTACTATTTTTACTGT
Celera SNP ID:            hCV27334230
SNP Position Genomic:     52132
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4649):
TTGCGAAGGGAGCTTGGGGAGGAAGTAAGCGTTCTGTGAATTGGTGTGGGTATCTGGGGAAGGCATTGAGCGGACCCGTAATGCGGAGGCCCGGGTTACC
Y
CCCCCCGTCTTTGCTTGAGTCACTGGGATTTTGAGCTTTCCTTGAGCATCCCACCCTTAACTCTGCAATAGCCCCCTGTGCTCAGGCGTAATTTCTCACT
Celera SNP ID:            hCV16181730
SNP Position Genomic:     59064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4650):
AAATTTACCCAAAGCCATATAGCTAATAAATGGTAGTCAAGATTTAGAATCAAGTAATTGGGTGCTTAACAATATGCTGTATAGCCTCTTATTCTGAAGA
R
TGGTTACCACCAAGAATATCCAGATTGCATCTCCTAAAATGACAGTATTTACTTCATAGGGCTGCTGTAAGAATTACATGAGATGTGGCAAAAATCTTAG
Celera SNP ID:            hCV27334231
SNP Position Genomic:     52067
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4651):
TGATTCTTTATATAAAGGATCCAAAAACACCTCACTTATTAACAGGAAGTGACATATCAAACCTACTTACTCATTTTATGCTCCTCTGTATTAAAATTTT
K
TGTGTGTGTGTGTTGGAGATGAGAGTGGAGGGTAGGTTGTAGGGGTGTCTTTGTCTTCTCAGGCTGCTATAACCAAATACCATAGGTTGGGTGGCTTAAA
Celera SNP ID:            hCV27334232
SNP Position Genomic:     49601
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,5)   total(G,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4652):
AAAACTAGCTGTTTCTGAATACCATAAAATATTGCCAGTATTTTCAATTGTATAATAACTTTTTTTTTTTTTTTTTTTTGAGATGGTGTCTTGCTCTGTC
R
CCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGAGATTTTTCTGCCTCAGCCTCCTGAGCCACTGGGACTA
Celera SNP ID:            hCV27334233
SNP Position Genomic:     44571
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4653):
ATTATAGTATAATTATACCTTAAAAACTAGCTGTTTCTGAATACCATAAAATATTGCCAGTATTTTCAATTGTATAATAACTTTTTTTTTTTTTTTTTTT
T
GAGATGGTGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGAGATTTTTCTGCCTCA
Celera SNP ID:            hCV27334234
SNP Position Genomic:     44549
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,6)   total(-,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4654):
GAAGACAAATCATGTTCTCCTTGGGGATATAGGATATACAGGTTGAATTATTCATAGAATTCTGGATCTAGGCACAATGGCTTTATTATTAATTTTTTTT
T
AACTTTTATTGTGGAAAATGTCAAATATATATATAAGTGCACATAATTGTGTAGTAAACTTCTATCTACCCATCATAGAGCTTCAACAATAATTAACTCA
Celera SNP ID:            hCV27334235
SNP Position Genomic:     44204
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4655):
TACCTCTAAATGAAGCATGAAGATACAGCCCAAATCATTAGTTCTCTGGTCTCTTCTTTGAAACTTCCACATGCAGCTCTGACATGACTGCATAATTGTG
G
AGGATAAAAACAGTTTTAAATCAAAGAGTCCTGGCTTCAAACTTCAGTTTCAATTCACACCAGCTTTGCTACCTTAACTAATGTCACTTAGTATCACCAG
Celera SNP ID:            hCV27334236
SNP Position Genomic:     36843
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|-,7)   total(G,5|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4656):
TGGGAAAAAAGCCTCTGTCCCTGGATTTGCTGGTAAGTTCGTGAGAGGTTAGATGTATGCTTCTTTTTGTGTGAAATAAAGAAATAATCCACATAAAAAA
A
TATGCACTCAGGAAAATCTTGAGGGAGTTTTTGCTCCGGGTGTGTCTCCACACCTCCCGGGGAAGATTGCCATCCAACTCACACCCATTTACCTCTAAAT
Celera SNP ID:            hCV27334237
SNP Position Genomic:     36653
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,7)   total(A,2|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4657):
TGCGAAGGGAGCTTGGGGAGGAAGTAAGCGTTCTGTGAATTGGTGTGGGTATCTGGGGAAGGCATTGAGCGGACCCGTAATGCGGAGGCCCGGGTTACCC
M
CCCCCGTCTTTGCTTGAGTCACTGGGATTTTGAGCTTTCCTTGAGCATCCCACCCTTAACTCTGCAATAGCCCCCTGTGCTCAGGCGTAATTTCTCACTC
Celera SNP ID:            hCV16181737
SNP Position Genomic:     59065
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4658):
TAATTAAATATACTTGGTTTAATTTGCAGATAACTCAATTCTATGGGATAATAGGGCAATATACCAATCTCCTGAGGCTTGTGGATTTCTATGTTATGCC
R
GTGGTTAATGTGGATGGTTATGACTACTCATGGAAAAAGGTAGGAGAAAAGGCAAAGAAGACAAATCATGTTCTCCTTGGGGATATAGGATATACAGGTT
Celera SNP ID:            hCV9884940
SNP Position Genomic:     44047
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,15|G,23)   total(A,22|G,54)
SNP Type:                 INTRON;SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:4659):
GAGGTATCTTTTCATTTTTTTGTGTGTTCTCTTCAGTTTCTTTCATCAGTGTTCTATGGTCTTAATTGTAGGTCTTTCACTTCTTTGGTTAGATTTATTA
Y
AGGTTTTTTTTTTTGGTCATTGTAAATGGTATTTCTTTCTTGATTTTTCTTTTAGGTTGTCTGCTATTGTTGTATATAAATGCTACTGATTTTGTGTGCT
Celera SNP ID:            hCV27334239
SNP Position Genomic:     34670
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4660):
TTGACCAGCTAAAATTTGTCTTTATAGTTCTCCTGCCTGTACATTTTGTCATTTTGGGGTAAACTTCTCAGTCACCAAATTTGGATGCCATTGGATCACA
Y
TGCAATATGTGCCACTAAGCTGGATGACTCTAAAGTAGAGAGGAACAAGTTTGAGATGATGTCCGTTAGGAATTCATAGCCAGTTCCTAGGAAAAGCTAC
Celera SNP ID:            hCV9884947
SNP Position Genomic:     43372
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4661):
GCTCACCTGCTGTGCCTGCAATGGGCCATGTGGGAAGATCCACCCTCTGCTTGGAAACTAGCTCACTCTCTGTTTCATCACCTAGTGTCTTGCTGGCAGA
Y
GTGGAAGATCTTATTCAACAGCAGATTTCCAACGACACAGTCAGCCCCCGAGCCTCCGCATCGTACTATGAACAGTATCACTCACTAAATGAAGTAAGCC
Celera SNP ID:            hCV11301133
SNP Position Genomic:     28542
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,5)   caucasian(C,23|T,15)   total(C,50|T,20)
SNP Type:                 INTRON;SILENT MUTATION;TFBS;hmCS

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;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4662):
AAAGTGGAAACAACTCAAATTTCCATCAACTTATGAGCAGAAAAACAAAATGCAGCATATTCATGCAATGAAACATCAATCAGCAATCAAAAGGAATGAA
R
TACTGATTCATGCTACAACATAGATGAATCTTGAAAATACTATGCTAAGTAAAAGAAACCAGATACAAAATGCCACATATATTATTCCATTTATATGAAA
Celera SNP ID:            hCV9884948
SNP Position Genomic:     41720
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:4663):
AGGGGAATATTCAAGAATCATAATTGGTGGAAGATGGTAAAAAATAAAACACAAACACACTTAGGTTAATTAAATGGTGGTCATTCATTTTTTGGTAGAT
M
TCTTCCCTGAGAAGACTGCATCATATTTGGTAAACTGCAGGATGTTTGTCTACAGCTAAGAATATCTCTAACTGCTGGGAATAACACTTTATGCTATGGA
Celera SNP ID:            hCV11301134
SNP Position Genomic:     28799
SNP Source:               Applera
Population(Allele,Count): african american(A,15|C,7)   caucasian(A,28|C,8)   total(A,43|C,15)
SNP Type:                 INTRON;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;JBIC-allele(A,508|C,955)   total(A,508|C,955)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4664):
ACCATCTCTAGTAGGACAGGATTTCAGTTATGTTACTTGCCATGTTGGTAAATCGTACCTTCAACAAATATTTATTTGTCGTCAGGCAAAATTTCTTCAG
Y
CACTTTGAAAAACAATGTGGAAGTTCCTCAAAAGATTAAGTATAGAGTTACCATATGACCCAGCAGTTCTACTCCTAGGTGTATACCCAAGACAAGTGAA
Celera SNP ID:            hCV9884949
SNP Position Genomic:     41472
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4665):
ATTTCCTGGTATATCTCTATATAGGCCCCATATTTCTGCCCAGCTGGATCACTTCTCCTTCCTTGAGCTCTGATTTTACTTTTCTACTTGTGCACCTGCA
Y
TTATGATGTTTCATCTCCAATTCGTTTAGCAAAATTCTGCCTATGTTAGTCTTATACCATCTCATCTTCCCTTCACCTATTGAATCCTAGTATCTCAGAA
Celera SNP ID:            hCV15843088
SNP Position Genomic:     11895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4666):
ATGGCTCCATATGAATTTTAGAATTTTTTTTCTCTTTCTATGAAGAGTATATTGATATTGACAGGGATTGCATTGAATCTGTAGATTCCATTCGGTAGTA
Y
GGACATTTTAACAATATTAATTCTTAAGCCCGTGAGCATGAGGTATCTTTTCATTTTTTTGTGTGTTCTCTTCAGTTTCTTTCATCAGTGTTCTATGGTC
Celera SNP ID:            hCV27334240
SNP Position Genomic:     34530
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4667):
TGTTGCCCATTTGTGTGTCTTCTTTTGAGAAATGTCTGTTCAGATTCCTTTCTCATTTTTAAAATTGGATTATTTGTTTTTTTCCTTTTGAATTGTTTGC
R
TTCCTTATATATTCTGGTTATTAAGTCCCTGTTGGCTGGATAGCTTGCACATATTTTCTCCCATTTTTTTCTTTTCACGCTGTTATTTCCTTTGCTGTGC
Celera SNP ID:            hCV27334241
SNP Position Genomic:     33872
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:4668):
TCAATCCCAGCAATCCCAAACCAGACAATAATTCAATGTTTGCTTTGAAGTGGGTGCTAGCCTAAAGTCAGAATTTTTTTCTTTTCTTTTCTTTTCTTTT
C
TTTTTTTTTTTTTTTTTTGCTTTTTCCTTCCCCTATTATCTTGACAGAACCTCAAATACAACTGGACTTCCACCCAAGAGAGAGGTCCAGAATCGAACTA
Celera SNP ID:            hCV27334243
SNP Position Genomic:     31526
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4669):
GGAAACTTGATATATGACAAAATTGACATAGTGGATCCCTGGGAAAAATATAGATGATGTAAAAAATCATAATAATAAACGATGCTAAGAAGAAAAAAAA
A
GAAGTCTATTTCTTCTTTACACTGCACCCAACCAAATAATTTTCAATTGAATTTAAAATTTAAATAAGAAGGACAGAAGAAGTATATGAGAATATCTTTA
Celera SNP ID:            hCV27334244
SNP Position Genomic:     21925
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,4)   total(A,1|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4670):
GCTGCAATTGAGATTGTTGCTTGGTTGAGTTTGATTGTTTGCTGTCGTTTTCCAGGATCCATCTGGTTTTTGTGGGATCCAGATGGCAAATTAAATGTGG
W
TTTGATGGGATCTATCATCCCTGCATCTTTTAGGTCTTTAAGGGTGGTACTGATATTTGTCATTTCCCCTCAAGGATGAATTTTTTTTTTTTAATTTTGA
Celera SNP ID:            hCV27334245
SNP Position Genomic:     15663
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,9)   total(A,1|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4671):
TCTGAGCTCTGAAGTGAGGCTTTTCTTTTATGGGCTATATTGATGGTAGCTTTAAAACTACAAATATCAGAAAAACTAAATTTACAGTGGATTAAGGAAA
R
TGGGGTTTATTTTTTCTCCCATAACCATAAGTCTGGAGACAGGGCTGGCATCTCTGAGGATCTCTTAGCCACTTTCTCAAGGTTGCAAGGGAGACAGGTG
Celera SNP ID:            hCV16229355
SNP Position Genomic:     52690
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4672):
AGAATTGTAGTGAGCCAAGATTGCTCCATTGCACTCCAGCCTGGGTGACAAGAGCAAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAGTCCTATAG
S
CAGAGTCACACATCAGAAGAGTTTCCAGTTTTGTAGAAAGAGCCTCCCTTAGTATCCCCACCATACTCAGTTATTAGCTGCAAGAAGCCAGTGGGAAATG
Celera SNP ID:            hCV27334246
SNP Position Genomic:     15211
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,10)   total(G,10|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4673):
CCCACGAGGCAGAATTGTAGTGAGCCAAGATTGCTCCATTGCACTCCAGCCTGGGTGACAAGAGCAAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAA
A
GTCCTATAGGCAGAGTCACACATCAGAAGAGTTTCCAGTTTTGTAGAAAGAGCCTCCCTTAGTATCCCCACCATACTCAGTTATTAGCTGCAAGAAGCCA
Celera SNP ID:            hCV27334247
SNP Position Genomic:     15201
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4674):
ACCCACGAGGCAGAATTGTAGTGAGCCAAGATTGCTCCATTGCACTCCAGCCTGGGTGACAAGAGCAAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAA
A
AGTCCTATAGGCAGAGTCACACATCAGAAGAGTTTCCAGTTTTGTAGAAAGAGCCTCCCTTAGTATCCCCACCATACTCAGTTATTAGCTGCAAGAAGCC
Celera SNP ID:            hCV27334248
SNP Position Genomic:     15200
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|-,7)   total(A,3|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4675):
GCTTTGCAGCCTTGCAGTCCTTGTACCCATTGTTCTCTTCTGTGAGCAGCATGTCTTCGCGTTTCAGAGGTAACCCAATAGAATCTTAGACTGTGGTGGG
Y
CACTCTCCTCACTTGTTTGCCTCATGTCGTGTCAAGTCAGTGCACTGAGCTGGTGGACAAAATGGTAAACTTTGAAGGCCAGGTCTTTCAGAACTTTCCA
Celera SNP ID:            hCV1872231
SNP Position Genomic:     6172
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,37|T,3)   total(C,68|T,10)
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,-)   JBIC-allele(C,526|T,975)   total(C,526|T,975) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4676):
TGAGTGAGAACATATCTTCATGCATGGGCTTTGTTACTATTTGTTGCTTCAGCTTATACTCTGAAATCTGACTGATACTTATGCTTGAAAAAAGGAATGA
R
AATGTGACTATATTTTAACCAAAGAATATCACATTAAAAATATTTAATACTTTTGCATACTGCGAGGGTCCCTTTGCAGAGGAGAGGAGGTAGGAGGACC
Celera SNP ID:            hCV1872232
SNP Position Genomic:     8138
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4677):
TTTGCATACTGCGAGGGTCCCTTTGCAGAGGAGAGGAGGTAGGAGGACCTCAGTATTGTAGACAGATGAATATCTGAATCCTGGTTCCCATCCCTTCACT
R
GAAATAACATTGCAAACTACTCTTTCTGTGAGTAAAAATAAATTTTTTTACCAAATGTTTCTGTGCTCCACTTTTCCAGGAATGGCCTATTCCTGAAGCT
Celera SNP ID:            hCV1872233
SNP Position Genomic:     8290
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4678):
AATTATTAATAGACCACAGGAAGTGTTCCTCTGTTGACTTCACATACTGTTTGGGTACCTGGAGACCAGTTTACTCTCTTTCACTTTGTTCCTACTGATG
Y
ATTGTTTTCATCTCAAAGAACAGGCCACCAGTGGCCTTAAAACACTGTAATGTGTGCAACAAAATTGCAGCCTTGGGCTATGTTCCATTGTTCAGAGACA
Celera SNP ID:            hCV1872237
SNP Position Genomic:     9018
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:4679):
TTCTACTGAATATGCATTGCTTTTGCGCTATTGTAAAGTCAAAAAATCATAAGTGAAATCATTGTATATTGCAGACCATCTCTAGTAGGACAGGATTTCA
R
TTATGTTACTTGCCATGTTGGTAAATCGTACCTTCAACAAATATTTATTTGTCGTCAGGCAAAATTTCTTCAGCCACTTTGAAAAACAATGTGGAAGTTC
Celera SNP ID:            hCV9884959
SNP Position Genomic:     41398
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,5)   total(G,5|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4680):
GGACCAGGACAGATGCTTCTTTGTCTAGGTTTTCACTTGCGACTCCATCCTTCCCCGCTAAGAGTCTTGCTTCTACCTCTGGGCTCTTGTTGTTGAGAAC
Y
TTCCATCCCTTTAGGTGGCCCTATTGGATGGCATCTAACATTAAGTGTTTCTTTTCATTTTAACTACTACTATCTAGCCAACTAGAGACCAGCCACATGC
Celera SNP ID:            hCV1872239
SNP Position Genomic:     10303
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,11)   caucasian(C,13|T,5)   total(C,34|T,16)
SNP Type:                 UTR 3;INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   JBIC-allele(A,339|G,1154)   total(G,1154|A,339) 
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:4681):
CTGAAGCTAAAAAGGAAATCTAATTTCATTCAGGGCAACAGACTTTGATAAATTGTTGCTGGGGTTCAGAATATCAACCCTTCTAAAAAAAAAAAAAAAA
A
CTAACAGTCTGGCTTTTTCTTAAAGCTGTTCTTTGTTTTTTTTTTTTTTTTTTTGTCATAATCATTTTCCTACTAACAGTTTTTATTCATGCAGTCTCTT
Celera SNP ID:            hCV27334250
SNP Position Genomic:     8483
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,4)   total(A,4|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4682):
CCTGAAGCTAAAAAGGAAATCTAATTTCATTCAGGGCAACAGACTTTGATAAATTGTTGCTGGGGTTCAGAATATCAACCCTTCTAAAAAAAAAAAAAAA
R
ACTAACAGTCTGGCTTTTTCTTAAAGCTGTTCTTTGTTTTTTTTTTTTTTTTTTTGTCATAATCATTTTCCTACTAACAGTTTTTATTCATGCAGTCTCT
Celera SNP ID:            hCV27334251
SNP Position Genomic:     8482
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4683):
TATTCCTGAAGCTAAAAAGGAAATCTAATTTCATTCAGGGCAACAGACTTTGATAAATTGTTGCTGGGGTTCAGAATATCAACCCTTCTAAAAAAAAAAA
M
AAAAACTAACAGTCTGGCTTTTTCTTAAAGCTGTTCTTTGTTTTTTTTTTTTTTTTTTTGTCATAATCATTTTCCTACTAACAGTTTTTATTCATGCAGT
Celera SNP ID:            hCV27334252
SNP Position Genomic:     8478
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3|A,3)   total(A,3|C,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4684):
CCTCCTGGGCGCAGCTGCAGCTGCCCAGCTGGGGTTGCAGACCCAGGCATTTCTGCACTCTCAGTGTTCTGAGAAGGACCCTCATTCCCCTACAGGCTCG
S
AAGTGCCTGCTCCCACTGTCTGGTCTCTCCGAGTTCCTGGTGCTCACTCCAATCTTGGAGCAAAATTGAGGCTGAGCCTAGGTGTTGTCACAACCTGGCT
Celera SNP ID:            hCV11697313
SNP Position Genomic:     24082
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4685):
GGAATGGTGGCATGGGTATGGTTTCTACTGAATATGCATTGCTTTTGCGCTATTGTAAAGTCAAAAAATCATAAGTGAAATCATTGTATATTGCAGACCA
W
CTCTAGTAGGACAGGATTTCAGTTATGTTACTTGCCATGTTGGTAAATCGTACCTTCAACAAATATTTATTTGTCGTCAGGCAAAATTTCTTCAGCCACT
Celera SNP ID:            hCV9884960
SNP Position Genomic:     41376
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|A,5)   total(A,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4686):
TCTCAATTTATGGTGGGGTTATGTCTCAATATACCCAATAAACAATCACAACTGAAAATATTCTAAGTAAAAAATGCATTTAATATACCTAATCTACCGA
R
TACTGAATATCATAGCCTAACCTTCCTTAAATGTGCTCAGAACACTTACGTTAGCCTACAGTAGGGCAAAATCTTCTAACACAGAGCCTAATTTATAATA
Celera SNP ID:            hCV9884961
SNP Position Genomic:     41123
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4687):
GCCACTCTCCATGAATTCCTGCATATTCTAACACTGGAAACACCTTTTCCACCCAAGGTGTATGATGAGATGCAACACTGAAGCTCTGCCTATTTGGGAC
S
ATTTCCCTCTCTGCTCTCTTTCGGTCACCCGAGTGAGTCCATAATGCAGCACCACTTCACTTTTTTTTTTCTTTTTTGAGATGGAGTCTCCCTCTGTCGC
Celera SNP ID:            hCV1872240
SNP Position Genomic:     14221
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:4688):
AGAACTTGAGTAAGATGTTGATGTGCAGGTGAGACCTCAGCAAGCTTTCACATAATCCACTAAAAGCCATTCCCTGTATTTGTTAGTTGAAAGAATAAAT
K
CGCAGGAGGACTTTCTTTTTTATATGATATTCTCCAAGTAGTAAAAATACCTTGATGCCTTTTTATGAGTATGCAGCTATATTGCCTAATATAACTATTT
Celera SNP ID:            hCV11697317
SNP Position Genomic:     29288
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4689):
TCCCAAGTAGCTGGCATTACAGGTGCCCGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGATTTCACCATATTGGCCAGGCTCGTCTC
R
AACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCGTGCCCAGCCCACTTCATTTTTTACTTGTAC
Celera SNP ID:            hCV1872241
SNP Position Genomic:     14502
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4690):
AAAACATTCATCATTAGAATATCAAAGACCTGAGATGGGGGGAGGACCTCTCTTTTTTTTTTGAGACAGAGTCTTGCTGTGTTGACCAGGCTGGAGTGCA
K
TGGCACAATCTTGGCTCACTGCAGCCTCTGCCTCCTAGGTTCAAGGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCATATGCCACCGTG
Celera SNP ID:            hCV11697319
SNP Position Genomic:     47173
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,4)   total(G,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4691):
GAAATTTCCATAGGTCTCTTTGGGAAAGGACTGAAGGAGTCATGATCTTTTTAGATTCTTTTTTTATACAGTTGCAGGGTCTTTCCTTGTGGGGACCTGA
Y
TCCTCCTTCAGGCAAGAAATTCTGGGTCTAAGAACAGCTCAGATCTGGAAAAGGGCAATGGATTATGACTTTTGATTAGGATAGCTGTCCTCAGCCTCTC
Celera SNP ID:            hCV1872243
SNP Position Genomic:     16180
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,6)   caucasian(C,19|T,15)   total(C,45|T,21)
SNP Type:                 UTR 5;INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:4692):
AAATTATACAAATTAACTACTACAAAAATACAAGTAAATTAGAAAAAAATGGGCAGTTGATCTGAATAAACATAACATATAAGCAAAAATATGAATGGCC
R
ATAATCAAATATAAACAACTGTACTTCATTAATAAGTCAGAAAATGAAAATCAAAATCACAAGAAAATTTCATTTCATAAAAATTTGATTGCAAAAGTTG
Celera SNP ID:            hCV1872245
SNP Position Genomic:     22292
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:4693):
CTTTCAAATATCTGATGTACACATGCAATTTTACAGTTAAGCCATGAATATAGTCATTCATTCATCATTGTCTCATCAAATATTTATGGATTATCTTGTA
Y
ATTCCAGGCCCTTTTATTTTATTTTTTTTTAGCAACTAGAGTTATAGAAAGGAATTTTAAAAAACTCACTGCAAAATAAATGTTTATATTACCATGTGTG
Celera SNP ID:            hCV1872246
SNP Position Genomic:     26499
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:4694):
TGTATTAACCATGGCAGCATAGAAGTCTCTGACTGGACCAAATGGACTGGTGATAAAGCCTAAGGTCCAGCTCTGTGATCTTGGATAAATGGTTCAACCC
Y
TCATGACCTCCGTCCCTTATCTAAAATGCAGGTTAGACTCAGTGATTGGTAAAGGCTCTCATAGTTCCTTTTTCTCTGACTCTGTACCCAGACTCAGGGA
Celera SNP ID:            hCV1872247
SNP Position Genomic:     27052
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,1)   total(C,1|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4695):
CAGGTCAATGGGGGAAAAAATAAGAAAAAAAAAAAAAGAAAGAAAAGGCTTTTCTGCTTCTTCTTCCTCTTTAACTGAAAACAGCATAATACAGTGTTAG
Y
CTGGATTGAACAAAGGTACATTAATCCATATATTCATATAAAAGACACTGAAGAATCACCATTGAGTAATGTTGGTAATGGTGGGAAACGGTGGTTTTTA
Celera SNP ID:            hCV1872249
SNP Position Genomic:     28181
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4696):
CACGATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGAGATTTTTCTGCCTCAGCCTCCTGAGCCACTGGGACTACGGGTGCCTGCCACCATGCC
Y
GGCTAAGCTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATATTGGCCAGGCTGGTCTCAAACTCCTGCCCTTGTGATGCACCTGCCTCGGCCTCCCA
Celera SNP ID:            hCV11301156
SNP Position Genomic:     44692
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4697):
TTTACTGGAAAGGAATCTCAGGATCAGCATCTGTGGAGGAATGAAGGAAGAAGGCTTGGGCAGAGGAGAAACTGACCTGTGATGTAATCACAACTATGGC
S
TCACCTGTTCCTGTGGAGAGCCTTGAGGCTGGGTTGGCCTGGTAAAGTTGTCCCAAACTGGGGCAAGCAGGCATGCCTTTGTAACCCCTGTTTATTAGTC
Celera SNP ID:            hCV25935561
SNP Position Genomic:     12291
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,3)   caucasian(C,8)   total(C,37|G,3)
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:4698):
TTCTACCTGTATACTTTGATTCAATTAATGTATGATTATTTTTTAGAAACTTCTACTTGTCATGTTTCAAAGCTGCACATTAACTGAAATTCTATATCTT
K
TTGCTTCCAGTCTCTAGTAGCCAGTGAAGCAGTTCGTGCTATTGAGAAAACTAGTAAAAATACCAGGTATACACATGGCCATGGCTCAGAAACCTTATGT
Celera SNP ID:            hCV11697321
SNP Position Genomic:     55532
SNP Source:               Applera
Population(Allele,Count): african american(G,8|T,30)   caucasian(G,11|T,19)   total(G,19|T,49)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:4699):
TCTACTTGTCATGTTTCAAAGCTGCACATTAACTGAAATTCTATATCTTTTTGCTTCCAGTCTCTAGTAGCCAGTGAAGCAGTTCGTGCTATTGAGAAAA
Y
TAGTAAAAATACCAGGTATACACATGGCCATGGCTCAGAAACCTTATGTAAGTATTTCTTCTTATGATCTTAGAGAACTTTGAGCTACTAAAGAAATCTG
Celera SNP ID:            hCV11697322
SNP Position Genomic:     55583
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,22|T,14)   total(C,57|T,17)
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:4700):
TTGTAAAAGTCTAGTTACCTACTTTTTCTTTGATTTTCGACGTTTGACTAGCCATCTCAAGCAACTTTCGACGTTTGACTAGCCATCTCAAGCAAGTTTA
V
TCAATGATCATCTCACGCTGATCATTGGATCCTACTCAACAAAAGGAAGGGTGGTCAGAAGTACATTAAAGATTTCTGCTCCAAATTTTCAATAAATTTC
Celera SNP ID:            hCV11697325
SNP Position Genomic:     58082
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|C,-|A,-)    ;no_pop(G,-|C,-|A,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:4701):
AGCAAACTTGATGCAGAGAGGCTTCATAGGTGGGATTTCACCTTCATAGAAGGTGAAACTGTCACTGCTGTGATAAGTTTGGTGGGGAGAGGGGAATGCC
R
TAAACAGAAGTATTTTTAAATATTTGTTAAAACATATTTTAATTATTTTGTTCAAAAAAGTTATGTTTTCTTACGATATGTTCAGGAAAGAGTTGGAATG
Celera SNP ID:            hCV1872250
SNP Position Genomic:     29762
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,5)      total(G,5|A,5) ;TSC_42_C(G,35|A,47)   total(G,35|A,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:4702):
TTTAGGGGTTGGTTATTTTTCCCATTAATAATATAGTCTTGTCCTGGTCTGTATGTCCTAATCTCCTCCCACAAGGACACCAGTCAGTCTGGATTAGTAC
M
CACCCTAAGGGCCTCATGTTAACTTAATCACCTCTTTAAAGGCCCTATCTCCAAATACAGTCTCTAGGGGGTTAAGGCTTCAATTCTAGATGAATCCCAG
Celera SNP ID:            hCV1872251
SNP Position Genomic:     32525
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:4703):
CAGTTCCTTGTTCTCTGTTCTACTAAACCTCATCTCAACTCCTCTTTAGCAGATTTCTCCTGTAGCCATCCTCTGGATCTCAGAAGTAATGTTTTGCTGA
W
CCTTAGACCCAGAATGTGGCCATGGACAGCAACAAGGAATGTTAGAAGAAGCCATCTAGCAATGTAACTTCTTAATTTCCTGTCTTCTCTCATTTCTCAC
Celera SNP ID:            hCV9884973
SNP Position Genomic:     39983
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,10)   total(A,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4704):
TTTCTTTATCCACATCCACATTTTCTTTATCCATTCATCTGTTGAAGAACACTTAGGTTGATTCTATATCTTGACTATTGTGAATGGTGCTGTAATAAAC
R
TGGGAGTGCAGGTATCTTTTTGATATACTGATTTCCTTTCTTTTGGATACATACCCAATAATAGGACTGCTGGCTTATATGGTAGTTCCATTTTTAGTTT
Celera SNP ID:            hCV1872252
SNP Position Genomic:     33453
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4705):
GCGAGGGACAAACAGCCGGACAAGGCTGAAGTCCTTTGCAGTAGGGTTCTTATGATGGTTTCTACTCCAATTTCCACCCATTTGGTTATTTATTTTCAGT
Y
GCAAAATATTATGCAAGAGAAATTGATTAACCTAACTTGGATTGGATGTCTTCTCTCTTGAATAAATTGACCTTAGTAAAGGTCAGTGAACATAGCCACA
Celera SNP ID:            hCV1872254
SNP Position Genomic:     35095
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4706):
ATAAGACTTTGGGTTAGGACTTCTCAATTTTAATCTGTCGTTTACAAGAACTTACAGTGCAGACTCAAGGCAGACATATGAAATGTTGGGTCCCCTTGGT
Y
ACTGAGTTGGTCAATCAGATTGGATCCATGTATCATGGCATATCCACCCATGACATTTGCTTTCAGCCATGTTGTGTGTAGTCCTTGGAACATACTTATC
Celera SNP ID:            hCV1872255
SNP Position Genomic:     35493
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4707):
AAGACTTTGGGTTAGGACTTCTCAATTTTAATCTGTCGTTTACAAGAACTTACAGTGCAGACTCAAGGCAGACATATGAAATGTTGGGTCCCCTTGGTCA
Y
TGAGTTGGTCAATCAGATTGGATCCATGTATCATGGCATATCCACCCATGACATTTGCTTTCAGCCATGTTGTGTGTAGTCCTTGGAACATACTTATCTG
Celera SNP ID:            hCV1872256
SNP Position Genomic:     35495
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4708):
ATTTGCTTTCAGCCATGTTGTGTGTAGTCCTTGGAACATACTTATCTGGAACCTGTACACGTTGAAAAATCATGCATTCTGGATGGTTTGGTCCTACTCT
Y
ACTTGATCAAGGATGTGCAGATAATGTGAGTCTCTGGGATTTTGCCAACTTTTCGGTGTCAGAACCAGTGCCAAGAAAATTGGCCCAGGACTTAGAAAGG
Celera SNP ID:            hCV1872257
SNP Position Genomic:     35648
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4709):
CTTGTTAGTGGCTTTTTCACAGTCAAAGGAGATTTTTCTTTAAATTTAATTTTCTTGAATAAATACAAGAATAGGAGTTCTTTTGGGTTTAAAAAGTAAA
Y
AATACAGAAAAGCATAAAATTAGGGAGAAAATACTAAAATTTCACCATCCTGGTGAAAATATGAACATGTTTGTGATCATCCTTTCATACATTTCTCCAC
Celera SNP ID:            hCV16136444
SNP Position Genomic:     17101
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4710):
TGTGCAGATAATGTGAGTCTCTGGGATTTTGCCAACTTTTCGGTGTCAGAACCAGTGCCAAGAAAATTGGCCCAGGACTTAGAAAGGTCAAGTAAAGTAA
Y
GAATCCAGACAACTTAAGATTTTCTTTGCATTGAGTAGATTAAGCTAGGTAGTTCTCTTTGACTATACAATTTGACGATTAGTGGCCAATGCCATTGGGC
Celera SNP ID:            hCV1872258
SNP Position Genomic:     35762
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,3)      total(C,1|T,3) ;(T,-|C,-)   Caucasian(T,23|C,45)   African-American(T,33|C,45)   Asians(C,25|T,37)   total(C,115|T,93)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4711):
GTGCAGATAATGTGAGTCTCTGGGATTTTGCCAACTTTTCGGTGTCAGAACCAGTGCCAAGAAAATTGGCCCAGGACTTAGAAAGGTCAAGTAAAGTAAT
K
AATCCAGACAACTTAAGATTTTCTTTGCATTGAGTAGATTAAGCTAGGTAGTTCTCTTTGACTATACAATTTGACGATTAGTGGCCAATGCCATTGGGCT
Celera SNP ID:            hCV1872259
SNP Position Genomic:     35763
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,3)   total(G,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4712):
ATTATGTAGACAATGGGGTTACATTAAAACTTATTTTTTGAACAATGAGATGGCATAAAATAATATCCGCTGATAAATCTCTTGAGTTTTTCAAGAAGGT
R
ACAGTGTATACCATGATGCTAGTTCCAATTTCCGAAAAGTTCCAGATAAGTGAGAACTTCAGAATAGATTTGACAAAATGAATATCAACAGACAAAATGA
Celera SNP ID:            hCV29428774
SNP Position Genomic:     54886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4713):
ACAGCACAGACTGTATTTCAGCCCTCACTCACTCCTTCTGTCTGGAGTCCTACCTATTAGATAAAGAAATAGGTAACATTGTTCTGGGCCTAACATCGGT
M
ATCTCTCAGAGCATAACTTTTTGTAGAAAGATTCCCATCCAACCAGAGGTAAAGGTAGGAAGGAAATTTAAAAAGTGAAGCAGAAAAAGAAATTCATATG
Celera SNP ID:            hCV29428775
SNP Position Genomic:     42239
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4714):
TCTCAATAAGCTGTTAAAGAAAAAATGGGCACCCCTTCCTTCGGGATTGTAGCTATAGCCACACTTGAAGGTGTGGCTTGGCACACAGCACAGACTGTAT
Y
TCAGCCCTCACTCACTCCTTCTGTCTGGAGTCCTACCTATTAGATAAAGAAATAGGTAACATTGTTCTGGGCCTAACATCGGTAATCTCTCAGAGCATAA
Celera SNP ID:            hCV29428776
SNP Position Genomic:     42155
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4715):
TGTCAGAGGCTTGGGGAAATGGCAGGAGGGAAAGGGGAGTGAGTTATAATGGGCACAGGCATGGGGATTTTTTATGATGAAATGTTCCAAAAATCAGATA
Y
TAGTGATGGTTGCAAAACTCTATGAATACACCAAAAACCGCTGAATTTCACACTTTAAAATGGTGAATTTCTGGAATGTAAATTATATCTCAATAAGCTG
Celera SNP ID:            hCV29428777
SNP Position Genomic:     41967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4716):
GTCCAGAATGGGCAAATCCACAGAGACAGAAAGTTCATTAGTGATTGTCAGAGGCTTGGGGAAATGGCAGGAGGGAAAGGGGAGTGAGTTATAATGGGCA
Y
AGGCATGGGGATTTTTTATGATGAAATGTTCCAAAAATCAGATATTAGTGATGGTTGCAAAACTCTATGAATACACCAAAAACCGCTGAATTTCACACTT
Celera SNP ID:            hCV29428778
SNP Position Genomic:     41922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4717):
ACTGCACTAAAACTGAAAAATGGAATGGTGGCATGGGTATGGTTTCTACTGAATATGCATTGCTTTTGCGCTATTGTAAAGTCAAAAAATCATAAGTGAA
R
TCATTGTATATTGCAGACCATCTCTAGTAGGACAGGATTTCAGTTATGTTACTTGCCATGTTGGTAAATCGTACCTTCAACAAATATTTATTTGTCGTCA
Celera SNP ID:            hCV29428779
SNP Position Genomic:     41355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4718):
GGTACATTAATCCATATATTCATATAAAAGACACTGAAGAATCACCATTGAGTAATGTTGGTAATGGTGGGAAACGGTGGTTTTTATGGAGGTCCTGAAA
R
TATACCTAATAGGAGCTACTTTTTCTCTAGTGCCCATGTAGGCTCTACTGAAAGGGTTTGTCAACCAGTTTACCACAATGCGAGATGTCTTACTTTTACC
Celera SNP ID:            hCV16153648
SNP Position Genomic:     28296
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4719):
CAGTGTTATTTAATTTGGATAGCCAAGTAGTCAAAATATATTCTGTTATTGTCATCAAGAAATGTCTCAGTCCCCTCTTGGGCATGGTGCTATATTGTTA
Y
GTATCATAAGAGTGAAAAACAGAAACAGAAGCAGCAAGCATATGGGTTTTTAACTAAAAAAAAAAAAAAAAAACCAAATAAAAAGTAATTGTAAGGAACT
Celera SNP ID:            hCV16153649
SNP Position Genomic:     49294
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4720):
TATAGATATCTCACAGTGTGCTTGGTTCCATGTCTATAGATCAAAGAATGCTTGAGCTTGGAGGGATCCAGTGGCCCAAGTTCCTTCCTGGTACAGATGA
K
GCCCCTGAGGCTGAGACGATGAAGTAGTTGCCCAAATTAACATGACTGCTTAATGGTAAAGCAGAGTCTCGACCTCAAGTTTCCTGCCTCTTCAGGGCTC
Celera SNP ID:            hCV16085831
SNP Position Genomic:     50518
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4721):
CAATGCTTCCTGTCAGATCAGTGGCAGCGTTAGATTCTCATAGGAGCACAAACCCCACTGTGAACCGCGCATGCAAAGGATTTAGGTTGCATGCTCCTTA
K
GAGAATCTAATGCCTGATGATCTGAGGTGGAACAGTTTTATCCCCAAACCATCCCCACCACTGATTCCACCCCAACTCTGCCCCATCCATGGAAAAATTG
Celera SNP ID:            hCV1872260
SNP Position Genomic:     36241
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4722):
CTGAGGTGGAACAGTTTTATCCCCAAACCATCCCCACCACTGATTCCACCCCAACTCTGCCCCATCCATGGAAAAATTGTCTTCCATGAAACTGGTCCCT
R
GTGCCAAAAAGGTTGGGGACCACTGCTCTATACCCTAAACTGTGTTGTAGCTGACTTTTAAAGGCAAATACATTATGATTAATTTTGGAGGTGTTCTTGA
Celera SNP ID:            hCV1872261
SNP Position Genomic:     36363
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4723):
TGATTCTTATTCCAGAGTTAGCAGCTTGTGTTAGCCCACCATACTGGGAAAAAAGCCTCTGTCCCTGGATTTGCTGGTAAGTTCGTGAGAGGTTAGATGT
R
TGCTTCTTTTTGTGTGAAATAAAGAAATAATCCACATAAAAAAATATGCACTCAGGAAAATCTTGAGGGAGTTTTTGCTCCGGGTGTGTCTCCACACCTC
Celera SNP ID:            hCV1872262
SNP Position Genomic:     36609
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:4724):
GGGCTGGAGGAGGCTGGGAGAGCCATGAGACTGCAATGCAAGCTTAACCCCTGTGGAGGAGAGAGGAAAGGAAGGAAGCAGGTAGGGAACATTTCAGGTC
R
TAGTGCAGTTCTAAGAAAGTTTTGGCAAAACCAACCAAGAGTCCTGGCCAGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGAGAGGCCGAGGTGT
Celera SNP ID:            hCV15830019
SNP Position Genomic:     14851
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:4725):
TTCGTGAGAGGTTAGATGTATGCTTCTTTTTGTGTGAAATAAAGAAATAATCCACATAAAAAAATATGCACTCAGGAAAATCTTGAGGGAGTTTTTGCTC
Y
GGGTGTGTCTCCACACCTCCCGGGGAAGATTGCCATCCAACTCACACCCATTTACCTCTAAATGAAGCATGAAGATACAGCCCAAATCATTAGTTCTCTG
Celera SNP ID:            hCV1872264
SNP Position Genomic:     36690
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:4726):
AGAAATCCCCCGGATTCAGCCAGACTCTTCTGGAGAGACATGGGGAGGACCAGCTGTAGAGAGGAGCCACCCACTCCAGGGTCTCCTCTCTGCTGAGAAC
K
AACACTCATCAGGACACCCTGGCTGCAGAGAGGAGCTACCCACCGCGAGTCTCCTCTGAGCTGTTCTATTACTCAGTAAAGCTCCTCTTCACCTTGCTCA
Celera SNP ID:            hCV16136452
SNP Position Genomic:     24635
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:4727):
TGTTCAGATTCCTTTCTCATTTTTAAAATTGGATTATTTGTTTTTTTCCTTTTGAATTGTTTGCGTTCCTTATATATTCTGGTTATTAAGTCCCTGTTGG
M
TGGATAGCTTGCACATATTTTCTCCCATTTTTTTCTTTTCACGCTGTTATTTCCTTTGCTGTGCAGAAGCAAATTTTCAGTTTGATGTAATCCCCTTTAT
Celera SNP ID:            hCV29428780
SNP Position Genomic:     33908
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4728):
ATATAAGCACTATATAAATGAAAGTTATTATCCTGAAGCTTATTGTTACTGTTTTTGCTACTTTTGGGGTTTCTTTGAGCAGGTTTCTGGAAAAGAACAA
R
CAGCCAAAAATGCCATATGGATTGACTGTGGAATCCATGCCAGAGAATGGATCTCTCCTGCTTTCTGCTTGTGGTTCATAGGCCATGTAAGTATTCACAT
Celera SNP ID:            hCV1872266
SNP Position Genomic:     37119
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,6)   caucasian(A,8|G,16)   total(A,12|G,22)
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): Gaucasian(A,107|G,205)   Ghinese(A,15|G,45)   Japanese(A,6|G,14)   African(A,44|G,56)   (A,5|G,6)      total(G,6|A,5) ;(G,-|A,-)   
SNP Type:                 INTRON;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:4729):
CCTCTTCACCTTGCTCACCCTCCGCTTGTCCACGTACGTCATTGTTCCCGGGCGCTGAACCTGCCAAATGGTGGAGGTGAAAGAGCTCTAACACAAACAG
R
GCTGAAACACGCCCCTTGCTTGCCACGTTGTGGGTGACAAGAAGGAGAGAAGAGCTGCAGCCTTTTGGGGAGCTCAGACCTAAGAACTCCCCGAGGCAGG
Celera SNP ID:            hCV16136453
SNP Position Genomic:     24819
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;TFBS


Context             (SEQ ID NO:4730):
AGCCCAGGAAGGCTGCCAGTCCCGTGGACCGCAGTGGGAACTGACGGTGATTTTTCCGCACCCGCCTATGGCCACCCATGAACCAATCAGCACTCACTTC
Y
TCCCATCTGAAGCCCATAGAAATCCCCCGGATTCAGCCAGACTCTTCTGGAGAGACATGGGGAGGACCAGCTGTAGAGAGGAGCCACCCACTCCAGGGTC
Celera SNP ID:            hCV29428781
SNP Position Genomic:     24517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4731):
CTGCCTAAAACTAATTCAGATCATCTGACTCTCTTAGTACTTCAAAGCACTGGAGGAGGGAAAGTAAAATAAAATATTTACCTTTCAACAATTGTGAAGG
Y
AGGTTTTATATTCAAAAACTAAACCACCCAAAGGCAAATTAAAATCTTAGCTTTTAAGTCTCTCACTCTTTTCTACAACTCAATAAGGATTTCAAAAATC
Celera SNP ID:            hCV1872267
SNP Position Genomic:     39084
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,8)   total(C,8|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4732):
GAGGTTTCTGCTGGTGAAGCGACCCCAGGGATCCTGTAACAATATCATGGTACAAAATTGATGGCTCCTTGTTTGTTAGTGTTTTCCAAGAAGCAGAGGT
Y
AAGACTAGACTGGAGGAGCAAGCGATGAGGGGAATGCTGTTGGAGGATAGAGGCGGGAGCTGGAGAAGGCAGAGAGCATCATCAGACCATGTCATAGCTC
Celera SNP ID:            hCV16136454
SNP Position Genomic:     25358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4733):
TTCTGTGATGGCAGGGCGGCAGCCTCATGCTCCCCAGGCGCAGCTGCAGCTGCCCGCTGCAGCTACAGACCTGGACATCCCTGTGCTCTTGGGGGCCAGG
R
GCAGGCAGGAGCCCTGCCCTCCTGGGCGCAGCTGCAGCTGCCCAGCTGGGGTTGCAGACCCAGGCATTTCTGCACTCTCAGTGTTCTGAGAAGGACCCTC
Celera SNP ID:            hCV29428782
SNP Position Genomic:     23964
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4734):
GCTGACACATGACCTAAGGACACTGCTCCCTGGTGGCTCCTTCAAGTAGAGGGGCTGCTCTTTTTTTCACATCACCATGTGCTGAGAGGCCTGGTGGAGT
R
GATCAGCATTCTCTTCTCCTGATACTACCAATGATCCTTCTCTTCTCAGAAACTTACACAAACTGGTTGCACTCTTATTTTATTGCTATCGTGCACTGAC
Celera SNP ID:            hCV1872268
SNP Position Genomic:     39667
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4735):
ATATCCCATGAAATGGCAATTCCACTTGTAAGAAAATGCTTTCATGTGTGAACTGTGGCTAGCTACTTCAACACAGATGATAATCTTGAGAATACAATAC
Y
GAACAAAAGAAAAACAAGATTCAGAAGAATACATATAGTATACCATTTTTATAAAGTTGAATCAGGCAAATCTAAGGGTATTGTTTCAGAATTCACACAT
Celera SNP ID:            hCV29428783
SNP Position Genomic:     22627
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4736):
GATACTACCAATGATCCTTCTCTTCTCAGAAACTTACACAAACTGGTTGCACTCTTATTTTATTGCTATCGTGCACTGACCTTCAGATAATTTCCTGGTA
Y
CCGGTTCATGATTCTTTATTCCCCTCCAACTCTTGCCATCATTCTGAGTGAATTCAAAGTCCATGTGTGAGAGTCACCTAACAATGTATCTTCACAGTTC
Celera SNP ID:            hCV1872269
SNP Position Genomic:     39788
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4737):
TAGAATCTTAGACTGTGGTGGGCCACTCTCCTCACTTGTTTGCCTCATGTCGTGTCAAGTCAGTGCACTGAGCTGGTGGACAAAATGGTAAACTTTGAAG
R
CCAGGTCTTTCAGAACTTTCCAAGTTGCCCTGACAAATAAGTAGACTTTAGCACAATGGGCTATCACTAAAGACAGGGTCTTTTTTCTTTCCTGGCTCTG
Celera SNP ID:            hCV25607364
SNP Position Genomic:     6250
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:4738):
AGAATCTTAGACTGTGGTGGGCCACTCTCCTCACTTGTTTGCCTCATGTCGTGTCAAGTCAGTGCACTGAGCTGGTGGACAAAATGGTAAACTTTGAAGG
Y
CAGGTCTTTCAGAACTTTCCAAGTTGCCCTGACAAATAAGTAGACTTTAGCACAATGGGCTATCACTAAAGACAGGGTCTTTTTTCTTTCCTGGCTCTGG
Celera SNP ID:            hCV25607365
SNP Position Genomic:     6251
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:4739):
CCTAACTAAGCCAATAATATTTCTCTTTTTGGGAGTGGAAATGGAAGCTAAGTTGATTGACCCACAGGAACAAGAGGGAACATGCCGTTATATTTTAACC
R
GTGTGTAAAGAAGGCTGTTATGCAATCAATGATCTGGGTTTTTCTCTTCAGAGAAATTTGTTGTACAGAAAATTGCTGTTGGGATGAAGCTTTGCAGCCT
Celera SNP ID:            hCV25607366
SNP Position Genomic:     5983
SNP Source:               Applera
Population(Allele,Count): african american(A,35|G,1)   caucasian(A,38)   total(A,73|G,1)   
SNP Type:                 hmCS

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:4740):
CTTGCCATTGTTTATTATCATACTTATATTAATAGCATTGAACTGCTGCTTTTCCCTTTCCAACTTATCACTTCTATTAGCTTTCTGAAGGCAGAGACCA
R
GTCTAAAGTAATTTTTTTGTTCCCCATAACCTGGTATATTGTTTGGTCAACATAATTGGTGCTCAATATCCCCTTGTGGAATTTGAAATTTAAATTAATG
Celera SNP ID:            hCV1872270
SNP Position Genomic:     40413
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,7)   total(G,7|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4741):
GTATCTAAACAGTACCTACTGTTGGGATAAATACTTTATTGTCATTGGCTACAGTTCAAACTATACATACATATATAGAGATTGGAGTAAAAACTGAGAC
R
GATAGCTCTCTGATATATTTGTAATGGTAATGAAAATGACATTTTGTTTTAAAATTTTCCCTTCATGTGTCTTATATTTTTTTTTAGCAACCCCATTAAC
Celera SNP ID:            hCV1872271
SNP Position Genomic:     40654
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:4742):
ACCCTGACACCTCTGCCCTCCTATTAGACATCCTACCCTCTACCCAAACTGCTTGCTGAATCTTTGTAAGATTAAATTATTTAATCCACAAATATTTATA
R
ATTGCCTATGATGTTTCAGATCCTGGAAATACAAGGATGAACAAAATATAGCCCAAGGATCTTATAGCTGAGTATTTTGCTCCAACAATGTGAACCTGAT
Celera SNP ID:            hCV16136461
SNP Position Genomic:     38817
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4743):
AGGCTTGGGCAGAGGAGAAACTGACCTGTGATGTAATCACAACTATGGCCTCACCTGTTCCTGTGGAGAGCCTTGAGGCTGGGTTGGCCTGGTAAAGTTG
W
CCCAAACTGGGGCAAGCAGGCATGCCTTTGTAACCCCTGTTTATTAGTCACTGGGTGTGGATTGTACCTTGGAGGAGGCATCATGTTGGGCAGCACAGCT
Celera SNP ID:            hCV25935513
SNP Position Genomic:     12342
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,33)   caucasian(A,6|T,28)   total(A,9|T,61)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:4744):
TTCTTTGTCTAGGTTTTCACTTGCGACTCCATCCTTCCCCGCTAAGAGTCTTGCTTCTACCTCTGGGCTCTTGTTGTTGAGAACTTTCCATCCCTTTAGG
K
GGCCCTATTGGATGGCATCTAACATTAAGTGTTTCTTTTCATTTTAACTACTACTATCTAGCCAACTAGAGACCAGCCACATGCAGGTTTAGCTTTATCA
Celera SNP ID:            hCV25936246
SNP Position Genomic:     10319
SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,24)   caucasian(G,5|T,3)   total(G,11|T,27)
SNP Type:                 UTR 3;INTRON


Context             (SEQ ID NO:4745):
GGAATCAATCCCACCCTCTCATCACTCAGTCTTACACTCTTCTCCATTCTCCTCTATTCTCATCTTCTTTTTCTTTTATACAGAGGCTTCTCAATTTATG
R
TGGGGTTATGTCTCAATATACCCAATAAACAATCACAACTGAAAATATTCTAAGTAAAAAATGCATTTAATATACCTAATCTACCGAATACTGAATATCA
Celera SNP ID:            hCV27890862
SNP Position Genomic:     41035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4746):
AAAGTCTAGTTACCTACTTTTTCTTTGATTTTCGACGTTTGACTAGCCATCTCAAGCAACTTTCGACGTTTGACTAGCCATCTCAAGCAAGTTTAATCAA
W
GATCATCTCACGCTGATCATTGGATCCTACTCAACAAAAGGAAGGGTGGTCAGAAGTACATTAAAGATTTCTGCTCCAAATTTTCAATAAATTTCTGCTT
Celera SNP ID:            hCV9884923
SNP Position Genomic:     58087
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|T,6)      total(A,3|T,6) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:4747):
GTCACATGCAGCTTGCTGGGGCTTCACCTTGTGAATTAGGGACAGGGGGAGAAGTGTTGGAAGGCAGCCTACCATCTCAAGTGATGCAAATTATAATCTA
Y
CAAAGGAATGAATGAACGTTGGTCTGGCAACAAATATCACCATCCCATTTTATTTACTAAACTTACTAAACCACTTTAGCAAGTTAAAAGTAGCACTGAA
Celera SNP ID:            hCV9884924
SNP Position Genomic:     52474
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4748):
TGGTCACTAGCTTCCTACAACAGCACACCACAGATTAAGTCTCAACACAGCACTCATTGTTTTGGTATTAGCAGCAGGAATTGTTCCTGCCCTGACTTCC
Y
TAACCCTCAGGGTTTTGGTCCTATTAAAGTACCTCCAATTTTAGCATTGAGGAGAGAGTCTGTTTTTTGGAACATAACAGACAATACAGGAAATTCAAAG
Celera SNP ID:            hCV27515798
SNP Position Genomic:     53658
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,211|T,1258)   total(C,211|T,1258) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4749):
CAGATTTAGTCAAAGGGAGTTGCAGGCAGCAGTTGGTTTGGAAAGTAGCTTGGAAGAGAGGTTCGGGATTAGAGGTTCAGTCTCATGGTTCTCACCCACT
R
GCAGATCTAATCATGGCCTTGGCGTCAGCCCAGTGCAATTATCCTCAGCTGGTTGTTGCAGAGGTTGGCGGGCAGGTGGGCTCACTGCAGACCGCCATCT
Celera SNP ID:            hCV27515799
SNP Position Genomic:     7779
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,46|A,1447)   total(G,46|A,1447) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4750):
TGGCCCAAGTTCCTTCCTGGTACAGATGAGGCCCCTGAGGCTGAGACGATGAAGTAGTTGCCCAAATTAACATGACTGCTTAATGGTAAAGCAGAGTCTC
S
ACCTCAAGTTTCCTGCCTCTTCAGGGCTCTTTCCACTAAAATGCTTGAAATCTCTAGAATGACAATCATAGAATGAGAATCTGAGGCTCACTGTCCAGCA
Celera SNP ID:            hCV9884925
SNP Position Genomic:     50589
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,4)   total(G,4|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4751):
AACTGACCCCCAGTCAAGAGAGCTGTTGATTTTGCAATTGCTTAGGAGCATAAAGACTGAGAGTATATGTTCTCTTATTACACTGAATCTGTAGTAAGAT
Y
CTCTGTCCTAATAACATTTTAAATTTTGTTTCCCTTTTGCAATTACCTAAAAGCTCCTCACAGTATAATATATTCCATCTTTACTCTTTATTTAATATCA
Celera SNP ID:            hCV25607370
SNP Position Genomic:     23129
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,3)   caucasian(C,40)   total(C,73|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:4752):
TATGTTCTCTTATTACACTGAATCTGTAGTAAGATCCTCTGTCCTAATAACATTTTAAATTTTGTTTCCCTTTTGCAATTACCTAAAAGCTCCTCACAGT
R
TAATATATTCCATCTTTACTCTTTATTTAATATCAAAATCCTCTTTTATTTTTTTCCCCAGTGGCCAAGTTCTAGCTGCTCTTCCTAGAACCTCTAGGCA
Celera SNP ID:            hCV25607371
SNP Position Genomic:     23194
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,3)   caucasian(A,40)   total(A,71|G,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:4753):
AAGATCCTCTGTCCTAATAACATTTTAAATTTTGTTTCCCTTTTGCAATTACCTAAAAGCTCCTCACAGTATAATATATTCCATCTTTACTCTTTATTTA
R
TATCAAAATCCTCTTTTATTTTTTTCCCCAGTGGCCAAGTTCTAGCTGCTCTTCCTAGAACCTCTAGGCAAGTTCAAGTTCTACAGAATCTTACTACAAC
Celera SNP ID:            hCV25607372
SNP Position Genomic:     23224
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:                 16
Celera Gene:                 hCG27692 - 145000147004046
Gene Symbol:                 CDKN1B
Protein Name:                cyclin-dependent kinase inhibitor 1B (p27, Kip1);CDKN4;KIP1;P27KIP1
Celera Genomic Axis:         GA_x5YUV32W45C(3125202..3144513)
Chromosome:                  Chr12
OMIM number:                 600778
OMIM Information:            CYCLIN-DEPENDENT KINASE INHIBITOR 1B;CDKN1B


Genomic Sequence (SEQ ID NO:1677):
AAAATTAAAGTATTATGTTAATTAGGGATGACTTGGGTTCAACCAACAGAAACTCATAACAAGCTAGCTTGGAGCAAAGGGGGGGAAATTACTTTATAAA
CACAGTGCTATAGAACGTAAATGTAGGGAGTAGTACCTCATGAACTAATAGAACGTAAATGTAGGGAGTAGCACCTCATGAGCTAATAGAACGTAAATAT
AGGGAGTAGTACCTCATGAGCTTCAGGATCCGGAAACTGAAGAGTCTTTGGTTGCTCGGGGCTGTCTGTCTTCCTAAAACTATGTGRTCTCTCTTCTCTG
CCCCCTTTGCACATTTTTTTCTTTCTTCTGACACTCTGCAGACAGACATTATCTGCATCTTCATCACACATGGGCTGAAGATAGTGTCCTTTTGTTTTTG
AGACAGGGTCTCACTCTGTTGCCCAAGCTGGAGTGCAGTGGCATGAACAGGGCTCACTGCAGCTTCGATCTCCTGGGCTCAAGGGATCCTCCACCTCCAC
CTGTCGTGTAGCTGGGATCACAGGCACATGCCACCACACCTGGTTAACTTTTTAAATTTTTTGTAGAGACGGATCTTACTTTGTTGCCCAGGCTGGTCTT
GAACTCTAGGATCAAGCAGTCCTCCCACCTCAACCTCCCAAAGTGTTGGGATTATGGGCATGAGCCACCGTACCCCACTGAAGACAGTGTTCTTAAAAGG
GTACTTTCAATCTCAAGTCTACATTACCTCATTAGTCTCTGCCTTACAATTTACTAATTGAAGTTTCTCAGACTTGATTCCAAATTTTCGGGAGAAAAAA
TTTGGCTAGCCAAGTTTAGGTCAAACAACCACCTCCTCTCCCCTTGTCTGATCAACTTCGGTAAGGGAATGGGAACAGGGTTTCATAATCTGCTGTCCCC
CCAGCAGAGGTTATGGGAACAGAGTCTGAGAAGGGAGTACAGGACAACAGAGAAACAATGAGTGTTGCACACCTCAAGTGTGATGTGAAAGAATTAAGAA
TACCACATGCAGCCAGGTGCGGTGGCTCACACCTGTAATCCCAGCAACTGGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCC
TGGCTAACATGGTGAAACCTCGTTTCTACTAAAAATACAAAAAATTAGCTGGGCCTGGTGGCGCGCACCTCTAATCCCAGCTACTTGGGAGGCTGAGGCA
GGAGAATCGTTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCAAGATCGTGCCATTACACTCCAGCTTGGGCAACAAGAATGGAGCTCCATCTCCAAAAA
AAAAAAAAAAAATACCACATGCATCCTTATTCCTGTACCCGTGTAACTGTTAATCTACTCAGGATCCAACCTGGCCATATGATTAATGGCACATTTGTAA
ATATGGATAGGTGTCAGAGAGCCCCACCAATCATAACATCCCTTCACATTTTGTGTCAGATGCTTGTCTCCAGTATTGTCTCTTTTGCCCTCTTTTTATT
TTCGTTACAGACAGAGTCTCCCTCTGTTGCCCAGGCTGGAGTGCAGTGGTACACTATAACATTGAACTCCTGGGCTCAAATGGTCCTTCTGTCTCAGCCC
CCCAAGTAGCTGGGACTACAAGTGCACAACACTGTGCCCAGCTGTTTTTTAAAAAATTTTTTTGTAGAGACAGGGTCTTGCTATGTAGGCCAGGCTGGTC
TTGAATTCCTGGCCTCAAGTAATCCTCCTGACTCAACCTACCAAAGTGAGGGGATTACAAACATGAGCCACTGTGCCTGGCCTTCTGTAGCCCTCTTAAG
GGACATACCTTTTCATTCTTTCTTTTCCCTGGGGATTAAGTTAATTTCAATGCTCATACTGACCATTGAGTGATAAACCAAATTCTTCACCTTCCCTATT
CCCTATCTCCCAAACTGTTCCATATGCATTAGTTAGGAGTGACTGTAAAATGCTATAAAAAGTGGGCCGGTGTGGTAGCTCATGCCTGTAATCCCAGCAC
TTTGGGAGGCTGAGGCAGGCAGATCAGGATATTGAGACCATCCTGGCCAACATGGTGAAACCTCGTCTCTACTGAAAATACAAACATTAGCTGGGTGTGG
TGGCACGTGCCTGCAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATCACGCCATTGC
ACTCCAGCCTGGCGACAGAATGAGACTCCATCAAAAAAAAAAAAAAAAAAGACCCCAAAATGAAAACTTATTTCTTCTCCCAAATCAGGTCAGGGACCCA
AGTTGAAGGTGGCTCTGTCATCTTCAACATGTGGCTTCCAAGGTTGCTCTAGTATTCACCTTTCCAGCCCATGAGAAAGGGGAAAGAGAGTGGCGGRTTC
TGAGGGGGTCACATGACAGGTTCTATGCACTAGGCCTGGAAGACACATACCACCTTTGCTTACATTCTATTGGAAAATACTTCATCATAAAGCCACACCT
AATTGCAAAGGAGACAGGGGAATTTCATGTTGCTGGGCAGTTGTATGCTCAGTTATAATTCTGCTACTGGGAAAGAAGGCAACAATGGATTTTGATGGAC
TGGATCCATCAGTCGCTTGAGAGACTGAGGCAGGAGGATAACTTGAGCCCAAGAGTTCAAGGTTATAGTCTCTCCTACATTCTCCTTTTCTGTTACCTCT
CTTAGTTAATGGCATTATTCTCTCAAATACCCAAGCTTGAGTCCTTAAATTCGTCCTCCCTTTCTCCATCTCTCTCAATCCTCTTATATGTTCCAGCTAC
CTAAGTAACCACCCTGCATTTGTTCCTTGCTTTCCATTTCCTCTATAGCATGACTTAAATCCATTGTATCTGTTGATTGAATAACTCATCATCCTCCAAA
ATTACCTCCGTGTCAGTCTCTCCAGGCTCATCACACCCATCCTTTACTCTGCCGTCAGACACTACTTCCAAACACAAAGATCTGCTTGTCCAAGACAGCC
TGGGCCCATTAACAGGCACCTCCCCACTCACAGTCAAGGCTGGAAGCACCATATAAAAAGCATCTGCAGCTACACCTTTGCGGCTCAGGAGATTATGGCA
GACTGCCTCCTTTCTCTGCCAAGCCCTGTCCTCCTGGGCTCAGGGTTCTCTGTCTCACACTTGAACTCTGCCCATCTCCCCACATCCCACTGGATGAACA
CCACAGTGGGACTGTCTGCCCAGCTTTTCATTTAGCCCTGTCCCTAGACACTGTCTGTCATATCACCCTCAGCCCCATCTCACAAATCCAAACTCCAGAG
CTCCAACCCAGGCCCAGGGCCCAGGCTTGCTTTTGTTCAGGAGACAAGTTTGGACGCTGATCATTCTCTTCACTTAAAGCTCCATCAGTTCGCAGTACTT
ACGGAGCAACAGATTTTTTAGCATGCCATCCATGGCCAACCACTGTCTGATCCCATCCCCACTTACCACCCCTACCAATTCATCCTCATAATCATCTTGA
CATTTTCTTATTCTTCAAGATCTGACTCATATATCACTTCTTCCATGAGGCCTTCCTCTTTCTCCTTGCTTTGTACTTCATAGCATCATGTTTTTCTATG
TATTGCTTTCTACCTCTAGTTTATTTATTTGAGACAATGTCTTGCTCTATCACCCAGGCTGGAGTGCAATGGCATGATCATAGCTCACTGCAGCCTCGAC
CTGGGCTCAAGTGATCCTCCCACCTCTGCTTTCTGAGTTGCTGGGGCTACAGGTGCAGGCCACCAGGCCTGGTTCCAACCTCTAGTTTTTGTGCACATGG
TATATACTCCCCACAGGCAAGGACTCTGACAAATATTTCTTCACTTCCCACATTGCTGAGAATAATGCCTTGGACAATACCTTACACATGGTATTGATCA
CTGCTTAAAACCTCCTAATGCCCCAATGGCTTTCCATATCGCCAGGCCAATAATAAAAGCCCTACCTATGCCTACCTGGTCCTATCTGATCTGATGCGCT
TTTTTTTTTTTTTTTTTTTTTTAAGACAGAGTCTCACTCTGTCTCTCCCGGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTATAACCTCCGCCTCCCA
GGTTCAAGCAATTCTCCTGCCTCAGCCTTCCGACTAGCTGGGATCACAGGCGTGTGCCACCATGTCCAGCTAATTTTTGTATTATTAGTAGAGACAGGGT
TTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCCACCTTGGCCTTCCAAAGTGCTAGGATTATAGGCGTGAGCACCGTGCC
CAGCCCTGATGCTCCTGTTACCACTCCCCACTTGCTCCGCCCTATCCACCATGGGCCCCCCTGCTGTTCCTTGAACACATTAGGCAAGATCCCACCTCAG
AGACACTTCATTTGCTCTTTCCCCAGATAGCTGTATGGCTGCTCTCTCATGTCTTCAGGGCTTCTCTCAAAGGCCACCTTTTTTGTGTGTGTGAGATGGA
GTCTCACTCTGTCTTCCAGGCTGGTGTGCAGTGGCAAGATCTTGGCTCACTGCAACCTCCGCCTCCTGTGTTCAAGTCATTATCCTGCCTCAGCCTCCTG
AGTAGCTGGGATTACAGGCCTGCACTACCATGCCCAGCTAATGTTTGTATTTGTAGTAGAGATGAGTTTCATCATGTTGGCCAGGCTGGTCTTGAACTCC
TGACATCAAGTGATCCACCTGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCTGGCCTCAAAGGCCACTTTCTCCATGAGGCCT
TCCCTGACCACTTATTCACATTGTGATCCTTGAAACACTCCCTTTTCCCTCTCCGCTTATTGTTTCTCCATAGCATTTTTCACCTCCTTACATAGTATGT
ACTTCTTTAATGTGCTGTGTTCATTTTCTGTCTCCTCTCCCCTTTTTGGAATGTCAGCATCATTCTAGTTTAAATCTGTTTGTTTACTTCTGTGTTCCCA
GAGCCTAAGGATAATGTCTGGCATAGAGGAGGCACTCAATAAATATTTGTTGAAAGAAAGAAGGAATAAGCAAATTAATAGAAGGTGCTCCGTAAATATT
TGTGAAATTGAATTAAAAGTGTCAGAAGGAGATGACTGTGAAATTCCCAAAGTCTAAAAATATGTGAGCTTAGAAGAATGGTGGAGTTGAGTGCTGCCTC
ATTATAAACATCCTCGAGGAAGGACTGAAACTGTGTGCTTGCGGTGGGAGGGGCAGCTGGGCAAGGAACCGTGAACCTTCGCAGAAACATTTGGGGCTGC
AGAACTTGGGTGAGAGCGCTGCATCTGGGAGCTGGCGACGCTGGCGGCTTGCTCATTCACCCCATCTGAACACTTGTCTATGACACAGGTGTTTTCTCTT
AAGTTATTTTGGTCTTTGCCTCTCTCCTCAGGTTGTGAAGATTACAGAAATCTGGGATGGCTTATGGGACGCTTCTCAGCCCTAAGTACGAAAACAGCAG
TGAAAATGGCAACCAAAACATCACGCAGGACTGGGGGTTTTGGGGAAACAGCTCACTTTAGAGCAGTGCAGTGTAGAGCTTTCCGTCTTCTACCAGGGTC
CACCTTTAACACTGTTTATCTGAAAATTTTCCCCCTGGCTTACTCGCTTGCAGCTGCCCACTTTGCAGAAGGATGGCGCTCTGATCTCTACGCTCCCTGT
TCCTTCAGGGACTCCATAGTATTTTTTTTCACGCGTCGTCGCTACTACAGCAGACGCCTGCGTTCTCATTATTTGCTGTACAGATCTCCGGTGCCTTGAC
TGTAAACAAAACACTTTAGATCATTGTGAGGTCGATGTAAGCACAGCCTTTCTGCTGGCAGCCAGACTTCTTAAGGTGGTGTGACTGTGACTTGCTTACT
TTTCGAGATCAACAACAACAAAGCGACAAAATGGTGCTCCTACATATTAGTTGAAAGATTCAGCATGTGAAGGGGATCGAAGTGTTTATTTTCCACTTCC
ATATAAGACATGAATTCCATGAGTAAAATCAAACTTCTGTGGCAAGGTGAACTACTCTAGAATGTCTCCATTTACATACATGTGGTAGTTTGGRTGTTTA
TGCATATGGATAGATGCACATATATAGAGTTCCTGTGTTGTCTAGCAATTGTTTTAAAATTTGGACAATTATCTAATTTCTAGGGTAAGGTATAAATTAT
GGTAGGGAGGCCTACCCTAATTTTCCTGTTCCTTTTCCCCCAGTCTGCAGTCCAATAAATTGACAGCCTTAAAAGTAGAAAAACTAAAGAGGATGAGACC
TCTTGCTTGATCCTAGGTGAATTCTTTTCTGTCAGTTAGGTAGGAAGTCCTGACTTGAAAACTAGTTCTGGGCACTGCCCCCTTTACTGTTCTCTGGGTA
TCAACCCCTGTCCTTCAATTTTAGTTGAACTAGTGGATGGTGATACCACAGGCTCAAGAYAGCTGCATTTAAATATCAGTGACCACAGGCCACATCAAGG
AAACATCTGCAGGCAACCCAGGGCCTGGGAAGGAGCCATTTTCAGTCACTTGTAAGACAGCAGGACCTGCAGACTACAGCACAATCAAACTCAGACAAAA
CCCTGAACCAGTGAGAACCATTAGGAAGGAAAGGAACAGAAAATGAACCAACCTGAGTGTTAGGAGACTTGCATCTAGTCCTGACTCCGGTACCAACCGA
ATGCATGTCCCTGGACAGGAAACCTCTCTGAGTCTCGATTTCCTCCGTGGTAAAAAGGAGAGGGTTAAACCACAGGGTCCCGAGGGTCCCTTCCAGCTGT
CACATTCTGGAGCGTATGAGATGAGGTAGGCACACAAAGTGGACAAGATGTGGCTAAGAAAACAAGCTACACATCAAGCTCATCTGTAGCATAGGTGCTT
AAGAAAACTTTGCTGCTGTGTAATATTAGAACGGAAGGTTGGTTTCCAGTAAAATGCATTAACTTTGGCTCAAACCAAGATGATGGGTACCGGGCATGGG
GGTGGGGAGGCAGTTGAAGATCCACTGAGCTTTGTCTCAGGGCAGCCCTGCTCATCGTCCTACTTTACCTTCCACCACGGTGCTCAAGCCCACACTGAGA
GAGAAATTTCCAGCTGCAAAAGGGAGAAGAGAAACGCTGGAATACTAGTATCGGACGTTAGGACATGGTTGTGGTGTTTTAAAAATCATTTCATCATCTG
GAGTTTGACCCCGAGGGGAGTATTTTCACCCTTCAGCCCTCTGAAAGCATTCACTAGCATCTGAATATTGTTCTGAGTTTGTTGGAGCAGTGAAATCTGG
TGAGAGAGAAGGGTGGAGGAAGGAAGGAGCTGTTGTATTTGGCGGCTGGACTCAGGTAGAGGAAACTGCTACAATCCCGGGAAAGAACAGAAAAGTAGAA
AGGGACGAGTTCCCACACGCAGCCAATGTCCATGGCCTTAACTGTGCTTGGGAAGGAAGATCCTGGGCCAGGGGTGTACCCTCGTTTTTCAAAACTAAAC
GTGTCTGAGACAGCTACAAAGTTTATTAAGGGACTTGAGAGACTAGAGTTTTTTGTTTTTTTTTTTTTAATCTTGAGTTCCTTTCTTATTTTCATTGAGG
GAGAGCTTGAGTTCATGATAAGTGCCGCGTCTACTCCTGGCTAATTTCTAAAAGAAAGACGTTCGCTTTGGCTTCTTCCCTAGGCCCCCAGCCTCCCCAG
GGATGGCAGAAACTTCTGGGTTAAGGCTGAGCGAACCATTGCCCACTGCCTCCACCAGCCCCCAGCAAAGGCACGCCGGCGGGGGGGCGCCCAGYCCCCC
AGCAAACGCTCCGCGGCCTCCCCCGCAGACCACGAGGTGGGGGCCGCTGGGGAGGGCCGAGCTGGGGGCAGCTCGCCACCCCGGCTCCTAGCGAGCTGCC
GGCGACCTTCGCGGTCCTCTGGTCCAGGTCCCGGCTTCCCGGGCGAGGAGCGGGAGGGAGGTCGGGGCTTAGGCGCCGCGGCGAACCCGCCAACGCAGCG
CCGGGCCCCGAACCTCAGGCCCCGCCCCAGGTTCCCGGCCGTTTGGCTAGTTTGTTTGTCTTAATTTTAATTTCTCCGAGGCCAGCCAGAGCAGGTTTGT
TGGCAGCAGTACCCCTCCAGCAGTCACGCGACCAGCCAATCTCCCGGCGGCGCTCGGGGAGGCGGCGCGCTCGGGAACGAGGGGAGGTGGCGGAACCGCG
CCGGGGCCACCTTAAGGCCGCGCTCGCCAGCCTCGGCGGGGCGGCTCCCGCCGCCGCAACCAATGGATCTCCTCCTCTGTTTAAATAGACTCGCCGTGTC
AATCATTTTCTTCTTCGTCAGCCTCCCTTCCACCGCCATATTGGGCCACTAAAAAAAGGGGGCTCGTCTTTTCGGGGTGTTTTTCTCCCCCTCCCCTGTC
CCCGCTTGCTCACGGCTCTGCGACTCCGACGCCGGCAAGGTTTGGAGAGCGGCTGGGTTCGCGGGACCCGCGGGCTTGCACCCGCCCAGACTCGGACGGG
CTTTGCCACCCTCTCCGCTTGCCTGGTCCCCTCTCCTCTCCGCCCTCCCGCTCGCCAGTCCATTTGATCAGCGGAGACTCGGCGGCCGGGCCGGGGCTTC
CCCGCAGCCCCTGCGCGCTCCTAGAGCTCGGGCCGTGGCTCGTCGGGGTCTGTGTCTTTTGGCTCCGAGGGCAGTCGCTGGGCTTCCGAGAGGGGTTCGG
GCYGCGTAGGGGCGCTTTGTTTTGTTCGGTTTTGTTTTTTTGAGAGTGCGAGAGAGGCGGTCGTGCAGACCCGGGAGAAAGATGTCAAACGTGCGAGTGT
CTAACGGGAGCCCTAGCCTGGAGYGGATGGACGCCAGGCAGGCGGAGCACCCCAAGCCCTCGGCCTGCAGGAACCTCTTCGGCCCGGTGGACCACGAAGA
GTTAACCCGGGACTTGGAGAAGCACTGCAGAGACATGGAAGAGGCGAGCCAGCGCAAGTGGAATTTCGATTTTCAGAATCACAAACCCCTAGAGGGCAAG
TACGAGTGGCAAGAGGTGGAGAAGGGCAGCTTGCCCGAGTTCTACTACAGACCCCCGCGGCCCCCCAAAGGTGCCTGCAAGGTGCCGGCGCAGGAGAGCC
AGGATGKCAGCGGGAGCCGCCCGGCGGCGCCTTTAATTGGGGCTCCGGCTAACTCTGAGGACACGCATTTGGTGGACCCAAAGACTGATCCGTCGGACAG
CCAGACGGGGTTAGCGGAGCAATGCGCAGGAATAAGGAAGCGACCTGCAACCGACGGTAATGACCCTTTCCCAACCATAGAATGTGTTTGGGGCCCCGCT
TTGCCTGCTGGAGGGTGTTAACCTTAGCTTGCTTTTCGGCGTATTCTGATTTAGCTTTGGGAGAGCTAACTTTATTGGTCTTAGGTGTTCAGTGCTACCT
GGCCCACTGCTTGTCTGTTTGTGACTTTTAAGTCAGAAACTGGAGATGGTAAGATCCGATAATTTCCCTAACTTAATACATCGCGGTCCCTCTCACTAGC
AACTCCTAGGTATGTGACAAAGTTGGGATGTTTATCAACGGTCCGCCTCCTGGCTAGGGAAAGAGCTCTGGGGCGGAGAATGCACTTTCTGTTTTTTGAA
AACAACCTCATTTTGTGCCCTTAAAAGCCACTGGGGATGACGGATCCAGGATTGTGGGTGGAGGTAGTGGGTTTTTCATCCCCTGACTATGGGGCCAACT
TCTGCCAGCCATTGTTTTTTCTAATAAAGATTGTGTGTTCTTTTTAAAAATTTCCCCTGCGCTTAGATTCTTCTACTCAAAACAAAAGAGCCAACAGAAC
AGAAGAAAATGTTTCAGACGGTTCCCCAAATGCCGGTTCTGTGGAGCAGACGCCCAAGAAGCCTGGCCTCAGAAGACGTCAAACGTAAACAGCTCGGTGG
GTTGATCACTAAAGGAGCACGCACTGGAACCCGGGGCCTTCAGACCTCACGATACCTGATCTTACTGGTTGCTGGCAAATTAAAAGCTTATGGGGTTTTG
TTTTGTTTATACTTCGTGAGGTCAAAAAAGTAGCAATGGGGAAGGCTGGGGATACGGTAATTCCTCAGAGTTTCTATGCCCAGAGATACTTTCTCTTCAA
ACTGTTGACCAGAGCAGCTACTTGTAACCCAGGCCCCATCGGGTAGGAAGGTCGTTTCCCTGTGAGTCCCACTAAAACGTGTTGGGAGCAATAGGTTCTT
TGCCCATCCGAACAAGAACTAGGGTACTCCCTCAGTCCGAATTAATGAGAATTAATTTCCTAGAGGTTCAGCTTGAGTCGGTAACAGATTTTGAGCCATA
CATGGAAAAATGGCAAATACATGATTAAGTTTCAATTTTGAGGGGGAATGTTTGGTAGAAATTGCTCATCTTTGGTTATGCAAGGGATTAGAGATGTGAA
TAGGATGGTATGTTGTGTTCTTTGACATTTTAATAAACTGTCACTTTCCCTGTTGTCTCCTAAGTTTGGAGAGAGAAGGAACCAGTATTTGCAAAAACCA
AATGGAAAGATAAAAAAGTTACTAAAGTTTCTACAGAATTTCTGGTAACACTGAAGTTGCAAAGCAGAAGTTAAATTAACTCTTGTCAGTAAGCAATCCA
GGAACACGTCAGCCAGTGTATGCTAATTGTGCCGTAACAGGGYGATTTGGATATTTGTAGGGGAAATGGGTAGTAAATATCAAGACTGGTGACCGTAGGT
CAGCCCAGCACAAAGGAAGTGGAGATTTTTCCATGCACAAGAATCTGATCACTGTAAATAGCTAATTTGAATAATTCAGTCCCCAGATAACCAACATGGG
TTGGTTATTCATAATAAACTACATATTTTAATAGTTTATTAGCTTCCTTTAGACCAAGACTGTGACCTCTTTATTTTCTAAAGCACACACGTAGTTTAGC
ATATGAGGCGATAAAATAYTGATGTTAACTTTTTAAATCCCCAGTTATAAAAATTTTAAAATAACAGGGATTAAGGTGAGATTCAGGTTTGTTGTGTCTT
TAAATTGTATATGTGACTTCACATATCTTTTTCAGCGCTTATACAAAACGGCACTATAGAACCTCCATTTTACAGCACCATATGAAGTGGGAAAATTAGG
TGAAAATTTTCCTGAAGCAACCTTAACATGCGVAGCCCTTGTTGGTTTGTGACTTGTGGCCTAGCTCATCAGATGAGCCACGAGAATCAGACCTGGATTT
TGATCTGGCCCTGTTCTGACATGCAATGAGGCATTTGTAGSATTTAGTAATATTGCTAGTTCAAAGAATACTAGAAATATTAGTAAGAACCTATTCAAAA
GTATTCATGAGTATTTTCTGCATATGAATCAGGAATTAGAATATTTTGAAAATGATGTTAATAAAATTTTCCTCTGGAAGGCCTTTATAATTTTTATTCC
CAATCATTTTTCAAATTTAGAAAGTTTAATCTGTCACAGGAGAAAAAAAATTAAAAATTTTCAAAAATTTAGAAAATTTTTACCCGTAAGTATTACAGTT
TCCTAATTATCCTATTTATTTCCCACTTGCCTTTGACCTAGATTATTTAGAGTAGGGTTTCTCAGCCTCTGCACTAATGACATTTTGGGCCGAATAATTC
TGTTGTAGGAGGCTGTCCTGTGTGTTTTAGATTGTTTGGAATTATCCCTGGCCTCTCACAYTAGATGCCAGCAGTATCCTCCTCCCCCAGTGTGACAACC
TAAAATGTCTCCAGACATTGCCAAATGTTCCCTGTGGGGCGGGGGCAACATTGCCYACTGTTAAGAACTACTGCTCTAGACCAAAGAACACAGCACAGAG
GAAAGGAAAAAAAAATCCAGTTAAGAGAATGTTAGGTGGAGATGACTATAGTCATCAAACTTTTTTCCCCATCAAGTATTTCCAAGCTAACATAGTGACA
AAATAATTCCTGTACTCTACTGGTAACGTTAATCTAGTGCTCTTCCTTTAATTCTTCCGTTTTGTTTTCTTTTGCAGAATTAAGAATATGTTTCCTTGTT
TATCAGATACATCACTGCTTGATGAAGCAAGGAAGATATACATGAAAATTTTAAAAATACATATCGCTGACTTCATGGAATGGACATCCTGTATAAGCAC
TGAAAAACAACAACACAATAACACTAAAATTTTAGGCACTCTTAAATGATCTGCCTCTAAAAGCGTTGGATGTAGCATTATGCAATTAGGTTTTTCCTTA
TTTGCTTCATTGTACTACCTGTGTATATAGTTTTTACCTTTTATGTAGCACATAAACTTTGGGGAAGGGAGGGCAGGGTGGGGCTGAGGAACTGACGTGG
AGCGGGGTATGAAGAGCTTGCTTTGATTTACAGCARGTAGATAAATATTTGACTTGCATGAAGAGAAGCAATTTTGGGGAAGGGTTTGAATTGTTTTCTT
TAAAGATGTAATGTCCCTTTCAGAGACAGCTGATACTTCATTTAAAAAAATCACAAAAATTTGAACACTGGCTAAAGATAATTGCTATTTATTTTTACAA
GAAGTTTATTCTCATTTGGGAGATCTGGTGATCTCCCAAGCTATCTAAAGTTTGTTAGATAGCTGCATGTGGCTTTTTTAAAAAAGCAACAGAAACCTAT
CCTCACTGCCCTCCCCAGTCTCTCTTAAAGTTGGAATTTACCAGTTAATTACTCAGCAGAATGGTGATCACTCCAGGTAGTTTGGGGCAAAAATCCGAGG
TGCTTGGGAGTTTTGAATGTTAAGAATTGACCATCTGCTTTTATTAAATTTGTTGACAAAATTTTCTCATTTTYTTTTCACTTCGGGCTGTGTAAACACA
GTCAAAATAATTCTAAATCCCTCGATATTTTTAAAGATCTGTAAGTAACTTCACATTAAAAAATGAAATATTTTTTAATTTAAAGCTTACTCTGTCCATT
TATCCACAGGAAAGTGTTATTTTTMAAGGAAGGTTCATGTAGAGAAAAGCACACTTGTAGGATAAGTGAAATGGATACTACATCTTTAAACAGTATTTCA
TTGCCTGTGTATKGAAAAACCATTTGAAGTGTACCTGTGTACATAACTCTGTAAAAACACTGAAAAATTATACTAACTTATTTATGTTAAAAGATTTTTT
TTAATCTAGACAATATACAAGCCAAAGTGGCATGTTTTGTGCATTTGTAAATGCTGTGTTGGGTAGAATAGGTTTTCCCCTCTTTTGTTAAATAATATGG
CTATGCTTAAAAGGTTGCATACTGAGCCAAGTATAATTTTTTGTAATGTGTGAAAAAGATGCCAATTATTGTTACACATTAAGTAATCAATAAAGAAAAC
TTCCATAGCTATTCATTGAGTCAAATTGTAATGTGCTTTACCAAACAAGGTATTTGACCTGGCATTCTAGTCATATTTACACAAATGTAAATGTGAAGTG
GCAAATACCTAGGTAATTCAGGCCCACAACTCAGATGATGTTTTATGTAGTCCGAATGTAGTTAGCAGTTACTATTTTCCACTTAGCTCTGTGTGGGAGG
ACAAAACTTTAGAAGGTGAAAATGGAAAAGCTACATTTTCATATGAATAAGGTTGTCAAAAGTCTGCATTAGTAAAAATATTTATGTCTTCTAGGATATG
AATGTGTCAAAACCAAAGAATCCTTACATAAGTGTACACTGACACATTTGCAGGATTGAAAATGAAAGTAACATGGTGACTTCTCTAAATTCTGTATTTA
CACATGAGAAGTGTGAGGAATTAAAGCAATTGTTTGGACCATCTAATGTATAAATCTTGTTTAAAATATTCAAACATATGGGCCCTTAAGAAATTGGTGT
GCACTCTACGTAGCTATTTTTGAAATTTAACTGGTCATACAAAAATTCTTTCAATTTCTATATTTAGAAACGGGGTATTTCCTTGTTATAATCTACACAA
CCAAAAACTGGCTAATGTAAGTAACCAAATCTGAGGATTTTGAGTCTCCATAGCCATACAGCAGATATACAGTTTTTACCTAAGGAAAAAAGTATAAGAC
AAGACATTTTAAAGTCAGATTACTAAAATGATTCCTGTAATTCCACATTCTCAAGAAAAAATGTGTTTAAGGTGTAATAGTAAATTCTTATAGGACTTAT
TCTAGTAAGTGGGTAAATSGTAAAAATCTAAATTTGGGTTAAATTTTTTCGCTCAAATACCTACATTTCCTTTATCGTACCCCAAAAGGAGCTCTCAAAG
AGTAGTTTGAACAGTTTTTGACCCGAAGATTTTTTTTTTTTTTTTTTTTGAGCAGGTTGGACTCTTCGGCTTCCTGGAAGGGAAAAATAGGTCCTTTAGT
GGCTGGGCTACATCTTTCAAGKAGGTATTATTTTAATGAAAGACTAGAGGTGTTTTGTGATTTTGTTTGAAACTCGCATCCAAGAGTGTTTTTCGAAAAC
AGACTGAAGGAGCAAGAAAAACAATTCGAAATAGGAAGGAGAGGAGGGTCAGAAAATAATGAAATTAAAGTTCCTCTGAGTAAAAAAAGATAATTCAGAA
AGTGTCTCTAACAGAATAAAAAATATCGCCTGGATTGCTGCAGGCACCCCAGTCTCCTTTCCTAAAGAGGTCTCTTTAAACAGAATTTTGAGAGATTGCG
TTTTAGTTATGCGGGCCAGGGAGAAGTGGATGCTCGCCGCGCCAGGCACGTCCACAGGAACGCAGCCCCGAGTCACCGTGTCCTTCGTCCTTTACCCGCC
TGTGTCAAGCCTCCCAAAATGACCCGCAGTTCAGCTCGTCCTTCGCCGTGAACGTCCSTTTGCGGGGTTGCGGCCGCCGTCGCCCGCCACCCCTTGCCCC
ACTACCCAAGCCACTGCGCCGTCGTCTCCYCAAACTGCCCCGCAGTTCCGCGCCCGCCCGCCGCGGCAGTTGCGGGGTCGGGCTGGCTGGTGCCTCGGGA
CGAGAAGGCCATCAAGTGTTGCTCCCTCATCTGTAACGTGCAGCCCCCCGCACTGTCGCCGTCGTCGCGCGCAGTTCCCGCGCCCGGGCGGCCGCGCCTC
CGCCGCGCAGCCGGGCTGGGCGGTTTCTCAGAAACTTTCCTCCCTCCTCCTCTCCTCTGCGCTGAGAAAGCAGCGAAAGCTCCCACTCCTCTCCGCAAAC
GGACTCTCCACCTGAGTAACCGGCCGCCTCCCCGGCCGTGGGGATATCGGAGCTAAGGGGAGAGCCTTCCCGAGTTCGCCGACCCTCCGGCGCTGCAGCC
CGCTCCCACCCCTACCCTGGGCTCCAATGATCCGCAGCCCCGCGCATTTCGAAAGCCCGCCCGGCTCGCCGGCGCCTGGGGAGGGCCACGGCGGCGCGCA
GCCCGGGCCCCGCACCACGGCCGCCCGCGTGGGTCCCCTCTGCCCTCACCCCCGCTCGGCAACGTGCCCCCATCGCAACCCCGGCCGCCCGGCGCGGGGG
CCTGGGACGGGGAAGAACTGGGGAAATGTGGGTTTGGGGGCGTGTTTGGGGGACTCCGGGAGCGTGGGCTTCACAGGCGAGGAGCGGGGCGAGAGGCCTC
TCAGGCCGGGGTGCGCCCACCGCCCCGGCCTCAGGGAGCGACTTTCCCGGAGGCCGGGGGACGCTGCCTTCGCCATTTCATCTTCATCATCACAGCGCCC
ACACTTGCTCTTCTCTCAAGCTCTTTGCACAGAAAAAGTGATTCTAAATCTCCTCTAGGATCTCCTGTCTGGTGTTCAGAGTATGAATTTCTTTTCAAAA
CTTGCTGTGTCTTTCACCTGGGCCACACCCTACGCCCACCCACCCCCTCTCAGCCAAAAGGGAGGTAAAAAATCCTGCGGGCCCAGCTGGGGGTGGGGAA
GGGGCCCACAGTCCCGCTGGAAAACCTCAGCGGCCACCTCCCGGATCCGGGCTGGCCTGGGGACTGGGGTGGGATGGGGTGGGGTCCGCCTCAGGCCGAC
CCCGCAGAACCGAAAGTGCCGAGTTGACACGTAAGGCCCAGCCCCTCTGCGGCCGCCCGCGCGCCCGGCCTGTCACGCGTGGGGACACTGAGCAGCAGGC
ATCGGAGCGAGCAGTACAAAAAGAAATCAAGGCGTTGGGCGCGAAACCTCGACGCGCCTCTAAAGGAACGTTGAGAAAAGGCAGGGAGCAGGGCGCGCGG
CCGGGGGATTGCATCATTGCGGCTCCCCCTCCAGAAAACGGGCCCCGAACCGCGGCGACCATCATGGCGCTCGCGCCGGGCTGCGCTCCCCGCGCGCCTG
CCCCGCGCTCCGGCCGCGGCCCCGGAGCCTCGGACGCGCATTTCACAAACATTCTCGCCCTCTCCCGAGCGCCCGCCCCCACCCCCTCCTTCTTTCTGTG
TGTGTGTGCGTACGTGTGTGCGTGTGTGCGCGCGCGTATTTGTGTGTAGGGAGAACTTGCAGATGATTTTTTTTTTCCCTCCCGTGCTGCTGGTTGTAAA
CTTGATTGGCATTGGCTGCGCCCACTGACCCCGACGCTGAGTCCGCTGAAGATTTAAGGTGGATCCGAGAAGCTGCAGCTTCAGGCGGAGTCTCGCGCTC
TAGTCGGTTTTGGGAAGAGAAAAAAAAAAAAAAAAGCCCCGAACCGGGCGCCCGCCGCGTTTGCCGAATCTCCCGCGGCCCCAGCCCCCGCGCCCGCCCG
GGGCCCCTCCCCGCCTCGCGCGCCGCGCGCGGCCTCCGCCCACCTCCCACTTCTTCCCCATTGGCCGGCGCGTGCAGTTTGAATTTTTTTTTTTTTTTGA
TGCTTGTTTTCTTGTAAAAAATACAGTCCCCCAGATCGTGTGACGAAACCTGCTTCGGCGGCCCGAGGTGGGGGTTTTGAGTCGGTTAGTGGAGGCAGTG
GGAGCAGGATGGGCGGAGCTTCTGTTCCAAAAATTTCCCCTAAGTGCGGTTGACAGTGTGCAGGCAGGCGGGGGTGCGCGGGGCGGTCAGCGATCTGCAG
CTTCGCGGGGACAGAGATGTAACCCAACTCGTTCACGGATGTTCCGCGCGCCGTGTCACCGGCTGCGGGCCAGGGGTACTCGGAAGGCGCGGGCAGGAGC
CTGGCGAGGATGCACCTTCCCCTGCCTTGGAAAGGTAGAACTGGGGAGTGCGGGAGGGTGAAGGTGGCCCGGAAAAGAACACCTCTTCGCAACCAAAAAA
AAAAAAAAAAAAAAAAAAAGAGGAAATAGAGGAAAAATGTGTTATTTCAACCGCCACTCAGAACCCATCATAATTCAGCCAGTCGGTGTCATTTTTATTG
AATTAAATTTTAAAAAAGTTTTCTTTGATTTCCAGAGCGTTTTTGCGGGAGGAATATGTTAAAACAAACTCAAGATACGAAATGAGACTTTTGAAGTGCC
TTTGATTTCTGGGTACGGAAATTCTTTTGATAAAGCGTGTGTACGTTAAGATTTAGGATGACTTTTTTTTTCTTTTTTGTAATACAGGTCTAATGGAAAT
GACATTCTTTATGAATTAGAACCCAATTATGTTTTAAAGTTTATAATAAGTCAAATGATTCTCTCAGTCCCTATGTCCGTATTAGTGAAATTCTATCTCC
ATATTAGCGAAATTTGCATAGATACACACCTTTTTCTTTTTGTCTTTTAGTCTTGCTGCAGTGTATCGGACGAGTTTAACCAGATATCCAGCACTAGCCT
TCTAACAGTTTCTAACTCAGTGGTGACATTTTTTAGTTCTTAACTCCCCCAATCCTTCTTAGCCTAACAAACCTCTTAATTAAGGTCCATGAAAGACCAT
AAACCAACCTGATTATGCCTTTAGCAAGGCTGTGTTCACTTAATCTCTAATCCCATATCATAAAAGTCCGCTAGTCACTCCTGACCTCCAGGAACCCACC
TAACCAGGGTGGACACTATAAGAAAACATGTGTTTTAATGGAATGAGAACTTTTTTGAGTTGAAGACACGCTAGCCTCAGGAAGCAGTGAGCTCACCATC
CCTGGAGTGTGAGTCAAGCACTAGTCTTGGATGACCCCTTGATAGGAACGTTGTAGACAAGATTCAAATATCAAATAGTATTTGGACTAGTGATTTCAAA
GTCTATTCCAGACCCCTGTGAAACTGTATTTCCAACCTTGGCATTTCTGGATTTCCACTAAATTAAGCCACTTTCCTTGCTCATTAGCATCTTGTAGAGC
TGTGTGGCTATTTGAGCGCTTGAATGTGGCTAGTCCAAATTGAGATGTGCTATATGAGATAAACACCACGTTTCCAAGAATTAGTATGAAGAGAAAATGT
TAAATATTTCATTAATAATTTTAATATTGATTACCTATTGAAATAATATTTTGTCATATTGGGCTAAATAAAATATATTATTAAAATGAATTTCATCTAT
TCCATTTTACTTTTTTAGTGGAGTTACTAGACAATTTACAGATGTGTCTCAAATTATATTTCTATTGGACATTACTGTTCAAGACTATCACCTGTGGTAA
CTTGAGGCCCCATCTTTAAAAGTGGTGACTATTAATACTGAGGAGTAGGTGGTAACTTCTAGCTGCCATCCTAACTTCTCAAATTAAAGTGAGACCCAAA
CTCAGCCTCTGAAAGCTTTATTATTTATTTATTTATTTATTCTTCTTCTTATTTTTTTTAAAAGATAGAGTCTCCCTGTCATCCAGGCTGGAGTGCAGTG
GTGTGGTCATGTCTCACTGCAACCTCCAACTCCTGGGCTCATGCAATCCTCCCAACTCAGCCTCCAGAATCACTGCAATTACATGTGTGCTCTGAAACCT
TTTTTTTTTTTTTTTTTAACTTTGTAGAGAGTCTTGCTGCGTTGCCCAGGCTGGTCTTGAACTTCTGGCCTCAAATGATTCTCCTGCCTTGGCCTCCCAA
AGTGCTGAGATGACAGGCATGAGCCACCATACCTAGCATCTCTGAAACCTTTAAATAGAATTCTGCCAACATCTAACACCTACTGTTTAATCTTTAATTA
ATTAATTAATTAATTTTTCTTTTAAAGACAGGTCTCACTCTGTCACACAGGCTGGAGTGCAGTGGGCATGAGCATGGCTCACTGCAGCCTCAAGCTCCTG
GGCTCAGGAGATCCTCTACTTCAGCCTCCCATGTAGCTGGACTACAGATGTGTGCCACCACATCCAGCAGTTTTTTTTTTACTTTTGTAGAGATGGGGTC
TTGCTATGTTGACCAGGCTGGTATTGAATGCCTGACTTCAAGGAATCCTCACACCTTGGCCTCCCAAAGTGGTGGGATTACAGGTGTGAGCCACTGAGCC
CAGCCTGTTTAATACTTAATGTAGGGTTCAAGCCCAGACTATGGGAATATAGTATAGATATGTCTGATGAACTCAGACTTGGTCACCACAGCTTTTCACA
TTATGGCAATA


SNP Information

Context             (SEQ ID NO:4754):
CCCCAGGGATGGCAGAAACTTCTGGGTTAAGGCTGAGCGAACCATTGCCCACTGCCTCCACCAGCCCCCAGCAAAGGCACGCCGGCGGGGGGGCGCCCAG
Y
CCCCCAGCAAACGCTCCGCGGCCTCCCCCGCAGACCACGAGGTGGGGGCCGCTGGGGAGGGCCGAGCTGGGGGCAGCTCGCCACCCCGGCTCCTAGCGAG
Celera SNP ID:            hCV11916242
SNP Position Genomic:     7795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4755):
GTTGGTTTGTGACTTGTGGCCTAGCTCATCAGATGAGCCACGAGAATCAGACCTGGATTTTGATCTGGCCCTGTTCTGACATGCAATGAGGCATTTGTAG
S
ATTTAGTAATATTGCTAGTTCAAAGAATACTAGAAATATTAGTAAGAACCTATTCAAAAGTATTCATGAGTATTTTCTGCATATGAATCAGGAATTAGAA
Celera SNP ID:            hCV3288697
SNP Position Genomic:     11241
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:4756):
GTTCGGTTTTGTTTTTTTGAGAGTGCGAGAGAGGCGGTCGTGCAGACCCGGGAGAAAGATGTCAAACGTGCGAGTGTCTAACGGGAGCCCTAGCCTGGAG
Y
GGATGGACGCCAGGCAGGCGGAGCACCCCAAGCCCTCGGCCTGCAGGAACCTCTTCGGCCCGGTGGACCACGAAGAGTTAACCCGGGACTTGGAGAAGCA
Celera SNP ID:            hCV11916244
SNP Position Genomic:     8824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:4757):
CCCAAGTTGAAGGTGGCTCTGTCATCTTCAACATGTGGCTTCCAAGGTTGCTCTAGTATTCACCTTTCCAGCCCATGAGAAAGGGGAAAGAGAGTGGCGG
R
TTCTGAGGGGGTCACATGACAGGTTCTATGCACTAGGCCTGGAAGACACATACCACCTTTGCTTACATTCTATTGGAAAATACTTCATCATAAAGCCACA
Celera SNP ID:            hCV26984689
SNP Position Genomic:     2397
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:4758):
TGGCAAGAGGTGGAGAAGGGCAGCTTGCCCGAGTTCTACTACAGACCCCCGCGGCCCCCCAAAGGTGCCTGCAAGGTGCCGGCGCAGGAGAGCCAGGATG
K
CAGCGGGAGCCGCCCGGCGGCGCCTTTAATTGGGGCTCCGGCTAACTCTGAGGACACGCATTTGGTGGACCCAAAGACTGATCCGTCGGACAGCCAGACG
Celera SNP ID:            hCV11916245
SNP Position Genomic:     9107
SNP Source:               Applera
Population(Allele,Count): african american(G,30|T,8)   caucasian(G,10|T,30)   total(G,40|T,38)
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(G,26|T,12)   caucasian(G,2|T,38)   total(G,28|T,50)   
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:4759):
AGTGTTATTTTTCAAGGAAGGTTCATGTAGAGAAAAGCACACTTGTAGGATAAGTGAAATGGATACTACATCTTTAAACAGTATTTCATTGCCTGTGTAT
K
GAAAAACCATTTGAAGTGTACCTGTGTACATAACTCTGTAAAAACACTGAAAAATTATACTAACTTATTTATGTTAAAAGATTTTTTTTAATCTAGACAA
Celera SNP ID:            hCV11916248
SNP Position Genomic:     13013
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:4760):
TGGTAACACTGAAGTTGCAAAGCAGAAGTTAAATTAACTCTTGTCAGTAAGCAATCCAGGAACACGTCAGCCAGTGTATGCTAATTGTGCCGTAACAGGG
Y
GATTTGGATATTTGTAGGGGAAATGGGTAGTAAATATCAAGACTGGTGACCGTAGGTCAGCCCAGCACAAAGGAAGTGGAGATTTTTCCATGCACAAGAA
Celera SNP ID:            hCV27522132
SNP Position Genomic:     10643
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,36|T,1451)   total(C,36|T,1451) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4761):
ATTACTAAAATGATTCCTGTAATTCCACATTCTCAAGAAAAAATGTGTTTAAGGTGTAATAGTAAATTCTTATAGGACTTATTCTAGTAAGTGGGTAAAT
S
GTAAAAATCTAAATTTGGGTTAAATTTTTTCGCTCAAATACCTACATTTCCTTTATCGTACCCCAAAAGGAGCTCTCAAAGAGTAGTTTGAACAGTTTTT
Celera SNP ID:            hCV8714032
SNP Position Genomic:     14119
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|C,4)      total(G,2|C,4) ;JBIC-allele(C,150|G,969)   total(G,969|C,150)no_pop(C,-|G,-)    
SNP Type:                 hmCS


Context             (SEQ ID NO:4762):
ACCTTTTATGTAGCACATAAACTTTGGGGAAGGGAGGGCAGGGTGGGGCTGAGGAACTGACGTGGAGCGGGGTATGAAGAGCTTGCTTTGATTTACAGCA
R
GTAGATAAATATTTGACTTGCATGAAGAGAAGCAATTTTGGGGAAGGGTTTGAATTGTTTTCTTTAAAGATGTAATGTCCCTTTCAGAGACAGCTGATAC
Celera SNP ID:            hCV8714026
SNP Position Genomic:     12336
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:4763):
GAACGCAGCCCCGAGTCACCGTGTCCTTCGTCCTTTACCCGCCTGTGTCAAGCCTCCCAAAATGACCCGCAGTTCAGCTCGTCCTTCGCCGTGAACGTCC
S
TTTGCGGGGTTGCGGCCGCCGTCGCCCGCCACCCCTTGCCCCACTACCCAAGCCACTGCGCCGTCGTCTCCCCAAACTGCCCCGCAGTTCCGCGCCCGCC
Celera SNP ID:            hCV25940744
SNP Position Genomic:     14758
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,1)   caucasian(C,2)   total(C,31|G,1)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:4764):
CAGGTAGTTTGGGGCAAAAATCCGAGGTGCTTGGGAGTTTTGAATGTTAAGAATTGACCATCTGCTTTTATTAAATTTGTTGACAAAATTTTCTCATTTT
Y
TTTTCACTTCGGGCTGTGTAAACACAGTCAAAATAATTCTAAATCCCTCGATATTTTTAAAGATCTGTAAGTAACTTCACATTAAAAAATGAAATATTTT
Celera SNP ID:            hCV8714027
SNP Position Genomic:     12774
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:4765):
TTCAGCTCGTCCTTCGCCGTGAACGTCCCTTTGCGGGGTTGCGGCCGCCGTCGCCCGCCACCCCTTGCCCCACTACCCAAGCCACTGCGCCGTCGTCTCC
Y
CAAACTGCCCCGCAGTTCCGCGCCCGCCCGCCGCGGCAGTTGCGGGGTCGGGCTGGCTGGTGCCTCGGGACGAGAAGGCCATCAAGTGTTGCTCCCTCAT
Celera SNP ID:            hCV25940666
SNP Position Genomic:     14830
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,2)   total(C,31|T,1)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:4766):
CTACATATTTTAATAGTTTATTAGCTTCCTTTAGACCAAGACTGTGACCTCTTTATTTTCTAAAGCACACACGTAGTTTAGCATATGAGGCGATAAAATA
Y
TGATGTTAACTTTTTAAATCCCCAGTTATAAAAATTTTAAAATAACAGGGATTAAGGTGAGATTCAGGTTTGTTGTGTCTTTAAATTGTATATGTGACTT
Celera SNP ID:            hCV15884232
SNP Position Genomic:     10919
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,14|T,1465)   total(C,14|T,1465) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4767):
CCCGAAGATTTTTTTTTTTTTTTTTTTTGAGCAGGTTGGACTCTTCGGCTTCCTGGAAGGGAAAAATAGGTCCTTTAGTGGCTGGGCTACATCTTTCAAG
K
AGGTATTATTTTAATGAAAGACTAGAGGTGTTTTGTGATTTTGTTTGAAACTCGCATCCAAGAGTGTTTTTCGAAAACAGACTGAAGGAGCAAGAAAAAC
Celera SNP ID:            hCV25932020
SNP Position Genomic:     14322
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,40)   total(G,1|T,77)
SNP Type:                 hmCS


Context             (SEQ ID NO:4768):
CGCAGCCCCTGCGCGCTCCTAGAGCTCGGGCCGTGGCTCGTCGGGGTCTGTGTCTTTTGGCTCCGAGGGCAGTCGCTGGGCTTCCGAGAGGGGTTCGGGC
Y
GCGTAGGGGCGCTTTGTTTTGTTCGGTTTTGTTTTTTTGAGAGTGCGAGAGAGGCGGTCGTGCAGACCCGGGAGAAAGATGTCAAACGTGCGAGTGTCTA
Celera SNP ID:            hCV2402292
SNP Position Genomic:     8703
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,5)   caucasian(C,22)   total(C,39|T,5)
SNP Type:                 UTR 5;INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:4769):
CTCAGCCTCTGCACTAATGACATTTTGGGCCGAATAATTCTGTTGTAGGAGGCTGTCCTGTGTGTTTTAGATTGTTTGGAATTATCCCTGGCCTCTCACA
Y
TAGATGCCAGCAGTATCCTCCTCCCCCAGTGTGACAACCTAAAATGTCTCCAGACATTGCCAAATGTTCCCTGTGGGGCGGGGGCAACATTGCCCACTGT
Celera SNP ID:            hCV2402293
SNP Position Genomic:     11661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4770):
AACTAGTTCTGGGCACTGCCCCCTTTACTGTTCTCTGGGTATCAACCCCTGTCCTTCAATTTTAGTTGAACTAGTGGATGGTGATACCACAGGCTCAAGA
Y
AGCTGCATTTAAATATCAGTGACCACAGGCCACATCAAGGAAACATCTGCAGGCAACCCAGGGCCTGGGAAGGAGCCATTTTCAGTCACTTGTAAGACAG
Celera SNP ID:            hCV27496970
SNP Position Genomic:     6460
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,94|C,1391)   total(C,1391|T,94) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4771):
TCACACTAGATGCCAGCAGTATCCTCCTCCCCCAGTGTGACAACCTAAAATGTCTCCAGACATTGCCAAATGTTCCCTGTGGGGCGGGGGCAACATTGCC
Y
ACTGTTAAGAACTACTGCTCTAGACCAAAGAACACAGCACAGAGGAAAGGAAAAAAAAATCCAGTTAAGAGAATGTTAGGTGGAGATGACTATAGTCATC
Celera SNP ID:            hCV2402294
SNP Position Genomic:     11756
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:4772):
ATATTTTTAAAGATCTGTAAGTAACTTCACATTAAAAAATGAAATATTTTTTAATTTAAAGCTTACTCTGTCCATTTATCCACAGGAAAGTGTTATTTTT
M
AAGGAAGGTTCATGTAGAGAAAAGCACACTTGTAGGATAAGTGAAATGGATACTACATCTTTAAACAGTATTTCATTGCCTGTGTATGGAAAAACCATTT
Celera SNP ID:            hCV2402295
SNP Position Genomic:     12925
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:4773):
TAGAACGTAAATATAGGGAGTAGTACCTCATGAGCTTCAGGATCCGGAAACTGAAGAGTCTTTGGTTGCTCGGGGCTGTCTGTCTTCCTAAAACTATGTG
R
TCTCTCTTCTCTGCCCCCTTTGCACATTTTTTTCTTTCTTCTGACACTCTGCAGACAGACATTATCTGCATCTTCATCACACATGGGCTGAAGATAGTGT
Celera SNP ID:            hCV29302673
SNP Position Genomic:     287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:4774):
CAGCGCTTATACAAAACGGCACTATAGAACCTCCATTTTACAGCACCATATGAAGTGGGAAAATTAGGTGAAAATTTTCCTGAAGCAACCTTAACATGCG
V
AGCCCTTGTTGGTTTGTGACTTGTGGCCTAGCTCATCAGATGAGCCACGAGAATCAGACCTGGATTTTGATCTGGCCCTGTTCTGACATGCAATGAGGCA
Celera SNP ID:            hCV26984691
SNP Position Genomic:     11133
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,3|G,3|-,6)   total(G,3|A,3|C,3|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4775):
CACTTCCATATAAGACATGAATTCCATGAGTAAAATCAAACTTCTGTGGCAAGGTGAACTACTCTAGAATGTCTCCATTTACATACATGTGGTAGTTTGG
R
TGTTTATGCATATGGATAGATGCACATATATAGAGTTCCTGTGTTGTCTAGCAATTGTTTTAAAATTTGGACAATTATCTAATTTCTAGGGTAAGGTATA
Celera SNP ID:            hCV2772885
SNP Position Genomic:     6094
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,1)      total(G,1|A,1) ;JBIC-allele(A,324|G,411)   total(G,411|A,324)no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Gene Number:                 17
Celera Gene:                 hCG28476 - 67000129466007
Gene Symbol:                 ICAM1
Protein Name:                intercellular adhesion molecule 1 (CD54), human rhinovirus receptor;BB2;CD54
Celera Genomic Axis:         GA_x5YUV32W1A1(1487425..1514934)
Chromosome:                  Chr19
OMIM number:                 147840
OMIM Information:            INTERCELLULAR ADHESION MOLECULE 1;ICAM1


Genomic Sequence (SEQ ID NO:1678):
CCAGCACTTTGGGAGGCCGAGGCAGGTGGAACACGAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAAATACAAA
AAATTAGCCGGGCGCGGTGGTGGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAAGCAGGAGAATGGCAGGAACCGGGGAGGCAGAGGTTGTAGTGAGC
TGAGATCGCGCCATTGCACTCCAGCCTGGGCGACAGAGCGAGAATCCGTCTCGAAAAAAAAAAAAAAATACACACACACACACAAAAACTGTGTTAATGC
TTAACTACACAAAAATGATAATCAGATAAATATGCATTTATTTAGAGAACTGCATGTTGGTCAGTCCAGTCCCTGCAGAGGGAATTCCCAGCATGACCTC
ATTCACTTGTGAAGACAGAGCAATCCTTGTGTTTTATTTTTTTAAGATGGATCTCACTCTGTTGCCCAGACTGGAGTGCAGTGGCATGATCTCAGCCCTC
TGCCACCTCCACCTTCCGGGTTCAAGAGATTCTCATGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGCTTGTGCCTCCATGCCCAGCTAATTTTTTTAT
TTTTACTAGAGATGAGGTTTCACCAGTTTGGGCAGGCCGGTCTCAAACTCCTGACCTCAAGTGATCCACCCACCTCGGCCTCCCGAAGTGCTGGGATGAC
AGGTGCCTGGTCAGCAACTGTTGTTTAGACATACACATTTTATCTGCTCGTCCAGCATGGTCAGCCCTCCACTTTTTAAATTTTATTTTATTTATTTTTT
TGAGACAGAGTCTCACTCTGTTGTCCAGGTTGGAGTCCAGTGGCGTGATTTCGGCTCACTGCAACCTCTACTTCCCAGGTTCGAGCAATTCTCCTGCCTC
AGCTTCCCGAGTAGCTGGGATTACAGGCCCGCGTCCCCACACCTAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGT
CTCGAACTCCTGACCTCAGGTGATTCTCCTGCCTTGGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACTGCACACGGCCTTAAATTTTATTTATTA
TTTATTTATTTATTTATTTAGAGACTTAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGGTCTCGGCTCACTGCACTCCACCTCCTGGGTTCA
CGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCACTCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACT
GTGTTAGCCAGGATAGTCTCGATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACTTATTTTGTTTTTTGTAGAGACAGGT
TCTCACTGTGTTGCCCAGGCTGGTCTTGAACTCCTGATCTCAAGTGATCTTCCCACCTCAGTCTCTCAAAGGGCTGGGATTACAGGGGTGAGCCACTGCA
CCCCACCTTCCCTCTACTTTTTGACGGTTTCCTTCTGCTATGAATGTGCATGTCCAGTTGTCTGCTTCTTAGAACTGATATTTACCTTCCTCATCCATCA
GCCATTGGAGGAGGACTGGGACCGCTCAGATTATTGATCTGACCCATTCTTTCGGCAGGGTTTCCTGGTGGCTGTCTTCCATCACCAAAACTGGAATCAG
AAGAGTTTCCATAGCCCTTTTTTTTTCCCCACATCTTTGCTGAAGCAGAGTTTTGAAAAACAAAACCACAAACTAAGCTATTCCCCAGAAGAAATCTGTA
ATCAAAGATAAGCTCTGCCGGGCACAGTGGCTCACGCCTTTTGGAGGCCAAGGCGGGCGGATCACCTGAGGTCAGGAGTTCTAGACCTGCCAGGCCAACA
TGGTAAAACCTCATCTCTACTAAAAATACAAAAATTAGCTAGATGTGGTGGTGGGTACCTGTAGTCTCAGCTACCTGGGAGGCTGAGGCAAGAGAATCGC
TTGAACCTGGGAAGTAGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCCTGGGCGACGGAGTGAGACGACCTCACAAAAATTTACATAAATA
AAATAAAAAGTAAAATAAAAATACAAAAGTTGGCCGGGTGCGTTTGCTCACGCCTGTAATCCCAGCACTTTGGGAGGGTGAGGCAGGCAGATAATGAGGT
AAGAAGATCGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCTGTGCGTGGTGACACGCACCTGTAGTCCCAGC
TATTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGCCACAGAGTG
AGACTCCATCTTGAAAAAAAAAAAAAATACAAAAGTTAGCCAGGGGTGTTGGTGGGTGCCTGTAATCCCAGCTATTTGGGAGGCTAAGGCAGAAGAATTT
CTTGAACCTAGGAAACGGAGGTTGCAGTGAGCCGAGATCACACCTCTGTACTCCAGCCTGGACAACAGAGCGAGACTTTGTCTCAAAAAAAAAAAAAAAA
AAAAAAACTAAATAGGCCGGGAGCAGTGGCTCATGCCTATAATCCCAGCCCTTTGGGAGGCCAAGGCAGGTGGATCACTTGAGGTCAGGAGTTTGAGACC
AGGCTGGCCAACATGGTGTAACCCCGTCTCTACTAAAAACACAAAAATTAGCCGGGTCTGGTGGCGTATGTCTGTAATCCCAGCTACTCGGGAGGCTGAG
GCAGGAGAATCACTTAAACCTGGGAGGCAGGGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCTAGCCAGGGTGACAGAGTGAAACTCTGTCTCAAAA
AATTAAAAAAGAAATTCAGCAAGTAATGAGTTAAGGAATTCGAATATTAAGGCGAGTGACAAGGAACGCCCAGGATGTGGCCCAGGATGGAGTAGGGGGG
ACACTCATTTAGGAGAAAGCTCAGGCCACAAGACAGGAGGAGCCAGCCTTGTTGGGGTTGAAGGGAAGAGCATTCCAGGCTGAGGGAACTGCAAGGCGTT
TGCATGGGACACTATGGGATGGCTTCTGCCCTTGGTGGGCAGCCTCTGGTCTGAGGCCATTCTTTGGCCTGCCTGACTGTCTGGCAACCGGGAGGAAGCC
CTGCCCTTCCTGGAGACAGAAACAAAGGTCTAGGAAATATCTGCTTCCCTTTTCCTTGAAAAACGCTTAAGGGAACGGAGGACTGGGAGGTGCCGTCTCT
CTCTGCCAGCCTGCCCCCTACCATAGCCATCCCACTCCCATCTCAGAAAGTGACCCGCCATCCTCCAAAAGGCTCGGACCCTGATCAAGGAGTCATCCCC
CTTGTCCCAGCACCTCCAGTTGGCCCAGCCTCCAAAACGGATGTCAAATTCAGCCCTTTCTCCAAGGACACTGCCCAGTCCAGGCCCCACTATCATTCAT
CTGGACTAGAACAGTCACCTCCTCTCCCATCTCCTGGCTGCAGCTCTTGAAGCCTCAACTGGGCCCCTGTGAACACTTGAGTTAGGGCAAGGTCCTTCCT
CTGCTCAGAACCCTCTATACCTCCCACCTCGCTGGGCATAAAAGCCAAAGTCCTGGCCAGGCACGGTGGCTCACATCTGTTATCCCAGCACTTTGGGAGG
CCAAGGGGGGCGGATCACTAGAGGTCAGGAGTTAGAGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCTAGGCGTGGTGACGCAC
CCCTGTAGTACCAGCTACTCGGTAGGCTGAGGTGGGAGAATCGCTTGAACCTGGGAGGCAGAGTTTGCAGTGAGCCGAGATCACACCACTGTGCTCCAGC
CTGGGTGACAGAACGAGACTGGGGTTCAGAAACAAACAAACAAAACAACAAAGTCCTCCTCAGGTGACAGGAACTTGCACCTATCTGCCCTGTCATCTCC
CTGCCCGCTCCTCTCCTCGAATCTCTCCTTTGCTAAGCCTGCTCCAGCCACACTGTTCTCCTGGCTGTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTGA
GTCTCACTCTCACCCAGGCTGGAGTGCAGTGCCTCTATCTTGGCTCACTGCAACCTCCGCCTGCCGGGTTCAAGAGATTCTCCTGCATCAGCCTCCCAAG
TAGGTGGAATTACAGGTGTGCACCACCACACCCGGCTAATTTTTGTATTTTGCATAGAGATGGGGGTCTCCCTATGTTGCCCAGGCTGGTCTTGAACTCC
TGGGCTCAAGTGATCCTCCCATCTCGGCCTCCCAAAATGCTGGGATTACAGGTGGGAGCCGCGCCCAGGTGGATTTTTGTCTGACTCTGTTCATTCCTGT
GTCCCCAGTACCTGGAAGGACGCCAAGCACACAGTAGGCGCTTAAAAAACATTGAGCCACATGTTGAGAAAAGAACGGCACCATTGTGGCTGCAAGTGGG
ACTTGGGCCGCGCGGGGGAGCTCGCGCACCTCGGGCCGGGGCAAGAGCTCAGTGGAACCCGCCCGAGGAAGAACCCGTGGCGCAGGATTTTCCCAGGCCT
TCTGAGGACCAGGGGCGTCCCCCGTCCCACCCTGTGACTTTGCTCAGGCCGTTCCGGGGCGGGAATTCAGAACTCCTCAGCCCCCCAAGAAAAAAATATC
CCCGTGGAAATTCCTTGGGAATGACCGAGGCGGGGGAAATATGCGTCTCTGGATGGCCAGTGACTCGCAGCCCCCTTCCCCGATAGGAAGGGCCTGCGCG
TCCGGGGACCCTTCGCTTCCCCTTCTGCTGCGCGACCTCCCTGGCCCCTCGGAGATCTCCATGGCGACGCCGCGCGCGCCCCACAACAGGAAAGCCTTAG
GCGGCGCGGCTTGGTGCTCGGAGACTTAAGAGTACCCAGCCTCGACGTGGTGGATGTCGAGTCTTGGGGTCACACGCACAGGCGGTGGCCAAGCAAACAC
CCGCTCATATTTAGTGCATGAGCCTGGGTTCGAGTTGCCGGAGCCTCGCGCGTAGGGCAGGGGTTCGAGCGCCCCTTCTCCCTGCCTCGCCTCTGCGCCT
GGGGGCTGCTGCCTCAGTTTCCCAGCGACAGGCAGGGATTTCGAGCGTCCCCCTCCCCTCCCTCGTCAAGATCCAAGCTAGCTGCCTCAGTTTCCCCGCG
GAGCCTGGGACGCCAGCGGAGGGGCTCGGCGCGTAGGGATCACGCAGCTTCCTTCCTTTTTCTGGGAGCTGTAAAGACGCCTCCGCGGCCAAGGCCGAAA
GGGGAAGCGAGGAGGCCGCCGGGGTGAGTGCCCTCGGGTGTAGAGAGAGGACGCCGATTTCCCCGGACGTGGTGAGACCGCGCTTCGTCACTCCCACGGT
TAGCGGTCGCCGGGAGGTGCCTGGCTCTGCTCTGGCCGCTTCTCGAGAAATGCCCGTGTCAGCTAGGTGTGGACGTGACCTAGGGGGAGGGGCATCCCTC
AGTGGAGGGAGCCCGGGGAGGATTCCTGGGCCCCCACCCAGGCAGGGGGCTCATCCACTCGATTAAAGAGGCCTGCGTAAGCTGGAGAGGGAGGACTTGA
GTTCGGACCCCCTCGCAGCCTGGAGTCTCAGTTTACCGCTTTGTGAAATGGACACAATAACAGTCTCCACTCTCCGGGGAAGTTGGCAGTATTTAAAAGT
ACTTAATAAACCGCTTAGCGCGGTGTAGACCGTGATTCAAGCTTAGCCTGGCCGGGAAACGGGAGGCGTGGAGGCCGGGAGCAGCCCCCGGGGTCATCGC
CCTGCCACCGCCGCCCGATTGCTTTAGCTTGGAAATTCCGGAGCTGAAGCGGCCAGCGAGGGAGGATGACCCTCTCGGCCCSGGCACCCTGTCAGTCCGG
AAATAACTGCAGCATTTGTTCCGGAGGGGAAGGCGCGAGGTTTCCGGGAAAGCAGCACCGCCCCTTGGCCCCCAGGTGGCTAGCGCTATAAAGGATCACG
CGCCCCAGTCGACGCTGAGCTCCTCTGCTACTCAGAGTTGCAACCTCMGCCTMGCTATGGCTCCCAGCAGCCCCCGGCCCGCGCTGCCCGCACTCCTGGT
CCTGCTCGGGGCTCTGTTCCCAGGTGAGTCGGGGTGGGGATTGCCGTCGGGCCAGTTCTCCGAAGCCCCGGGAGGACCGGCTCCCGGGTCAGGTCATGCA
TGCTTAGGTAGCTGTTTATGGGAAGGAGGGGCTAGAGACAGCGATTGAAAGGCAACAGCCAGTAGGTTCGAATCCAGACCCTGCATACCTCCACGTGTGG
CCTTGGGCTATAGATTGCAGCTTTAAAAAAGGGTAGGGGGTTGGAGATGGAGGGGAGGGGCGGGCCTCGTTTTGTTGCCCAGGCCGGTCTTGAACTCCGG
GGGTCTAGCCTTACCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATGAGAGGTGTGAACCACCGCCTTGCTTGGCTAGATTGCGTCTCTTACAGTTTCTCA
GCTGTAAAACGGGAAACGTTATAGCGGCCACCTGGCAGGGTATCTTGGCCCAGCGCAGCACCTGGCCCCAGGACTCGATCATGATGGTTTGGGAACTTGG
CTCTGTGCCAACCCAACAAGGCTTAAGGGACCCCCACCCCCCTCAAGATGTATATTCTGTTCCTCATCCTCTCTGCCCCTGGGGAAGTCCAGGGCTGCTT
CTACTTGGGGGAATTCCAGAGCTGACTTATCCGTGGCCCAAAGCTGAGAAGTGGGACGCCCCAGCACACCCTCCCCCAGCTCCAGCCCAGCTAGGGAAGA
GGGAAGGGGTCAGAGGGTCTTTCATGGTGGTGTAAGTTTGGGGAACCAGGAGGGTGGGAGATTGACAGCTTGGTTAACAGCTCAACAAAGCCTGAGATCC
AGGCCAGCACGGTAGTTCATGCCAGTAATCCCAACACTTTAGGAGCCCCAGGCGGGCGAATCACTTAAGGTCAGGAGTTTGAGACCAGCCTGGCCAACAT
GGCAACATCCCGTCTCTACTAAAAATACAAAAATTAGCTGGCATGGTGGTGGGCGCCTGTGATCCCAGCTGCTCGGGAGGCTGAGGGAGGAAAATCCCTT
AAGCCCACGAGGCTGAGGTTGCAGTGAACCAAGATTGTGCCACTGCACTCCAGCCTGGGAGACATAGCGAGATTCTGTCTCAAAAAACAAAGCRTTCTGA
TCCGGACTCAGACCCAGATCGCACTGCTTTCTAGCTGAGTAACCATTTCTCTCTATGAAATGGGAATGGTCCCAGAATCTCCCTTGGAGAATGTATGGAG
CCAGTGTCCTCACACCCCCATCCAAGATAGAACAAATCTGAGACAGGAATCTTTGAGTGAGGCAGTGCTGGGCTCAGACATTTTTTCCCACCTTCGGAGG
CAGCAGAATCTGAGGGACCTGATCCAAATAAGCCCCTTCTTTCTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTC
GCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAACGATTCTCCTGCCTCAGCCTCCCTGAGTAGCTGGGAC
TACAGGCATGTGCCATCACACCCGGCTAATCACTGTGTTAGCCAGGATGGTCTCGATTTCCTGACCTCATGATCTGCCCACCCTGCCTCCCAAAGTGCTG
GGATTACATGCGTGAGCCACAGTGCCCACCCCGTAAGCCCCTTCTTTCTTACCTGCAAGGTAGCCAGTTGCTACCCATCCTGTGCTGAGTTACTTGTATT
AGCAAGGGATGGGGTGGCTATACTCACCCACCTTACAGATGGGGAAATTGAGGCCCAAAGAGGGGGAAACTACGTGTCTCAGGGAGTGAGGAGCCAGTCT
GATTCCTGGAGGGCTGACTGTCTCCACCTGACTTCTTAGGAGGGAGGAGGGCACCAACTTCACATTAAAATCTGGTTGGACACAGTGGCTCACACCTGTA
ATCCTGGCATTTTGGGAGGCTTAGGCGGGAGGATCACTTGAGGCCAGGAGTTTGAGACCAGCCTTAGCAACATAGTGAGACCCCATCTCTACAAAAATGT
TTTTCAGGGCCAGGCGCGGTGGCTCACACCTATAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATTACCTGAGGTCAGGAGTTTGAGACCAGCCTGA
CCAACATGGAGAAACCCCGTCTCTACTAAAAGTACAAAATTACCCGGGCGTGGTGGCGCATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGA
ATCGCTTGAACCTGGGAGGCGGAGGTTGCGGTGAACTGAGATCGTGCCATTGCACTCCAGCCTGGGCAACAAGAGCTAAACTCCGTCTCAAAAAAAAAAA
AATGTTTTTCAAATATTAGCCGGGTATGGTGGTGTCCTGTAGTCCCAGCTACTTGGGAGGCTGAGATGGGAGGATCACTTGAGCCCAGGAGTTCAAGGTT
ACAGTGAGCTATGATTGTGCCACTGTATTCCAGCCTGGGTAACAGAGGGAGACCCGTTTAAAAAAAAAAAAGTGATGGCTAAAGTCCTTCCATGGCTCCC
TATTGCCCTCAGTATAAAGAACACATGTGGCTGGGCGTGGTGGTTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCGGATCACTTGAGGCC
AGGAGTTTGAGAGCAGGCTGGCCGACGTGGCGAAACCCCGTCTCTATTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGCTTGCCTGTAATCCCAGATA
CTCTGGAGGCTGAGGCAGGAGAATMACTTGAACCCGGGAGGCARAGGTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGTCTGAGTGACAAAGCGAG
ACTCCATCTCAAAAAAAAAAAAAATAAAAGAACACATCTTTAGCATGGCCTTCAGTGCTCACGGGATCTTCCTGAATTAATCTCCCCCTCTTCATCCTTG
CTCACTCAGCTCCAGCCACCCTGCCCCGGGACATCTGTACTTGCCTGGAACTTATTTCCCTTTTCTCCGGACAGCCAGCCCTTTCTCGTCATTTAGATCT
CTGCTGAAACATTACCCTGTCACCAAAGCACTGTCTATTCTATCACCCTGTTTTGTTTTTGTCAAAGCTCATATTAACATCAGTTATTAATTATCTTGTT
TGCTCATAATTTTTTTTTTTTTTTTTTTGGAGACAGAGTCTCGTTCTGTTGCTCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGTAACCTCCACC
TCCCAGGTTCAAGTGATTCTTGTGCCTCAGCCTCCCAAATAGCTAGGACTACAGGCACGTCCCACCATGCCCAGCTAATTTTTGTATTTTTAGTGGAGAC
GGGGCTTTGTCATGTTGGCCAGGCTGATCTCAAATTCCTGACCTCAAGTGATCTGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
CACACCCGGCCTGCTCATGAATTTTCTCTTTAACTTCCACATCGAAGGCAAAGTATTGTCTTGTTAAGGCTGTGCCTCCAGCACCCAGCACAGGCTGGGC
GCACATTCCCTTGATGAACCTGATTTGTAATGCCTGTCGCCTCTTCCCTCGTTTCTTCTAGGACCTGGCAATGCCCAGACATCTGTGTCCCCCTCAAAAG
TCATCCTGCCCCGGGGAGGCTCCGTGCTGGTGACATGCAGCACCTCCTGTGACCAGCCCAWGTTGTTGGGCATAGAGACCCCGTTGCCTAAAAAGGAGTT
GCTCCTGCCTGGGAACAACCGGAAGGTGTATGAACTGAGCAATGTGCAAGAAGATAGCCAACCAATGTGCTATTCAAACTGCCCTGATGGGCAGTCAACA
GCTAAAACCTTCCTCACCGTGTACTGTGAGTAACTGAGCCCGGAGGGCTGGACTAGGCAGACCSGGTGGGAGAGACGTGCAGGGGCACCTGCAGAGGCCT
GGGGGAATCTTTGCCACTTGCTCGTAGGGTCAAGGAGGGGCTCCTTGCAGGGCAGGTGGGGACATCCTTGGAAAGTCCCTTTGTGAATTTCTTTGGGTAC
AATTAAAGTATTTACAGGCTGGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGAGAGGCTGAGGCTGGCGGATCACCTGAGATCAGGAGTTTAAGT
TTCGCCAACATGGCGAAACCCTGTCTCTGCTGAAAATACAAAAATCAGCCGGGCATGGTGTCAAGCGCCTGTAATCCCAGCTACTTGGAAGGCTGAGGCA
GGAGAACGCTTGAACCTGAGAGGCAGAGATTGCAGTGAGCCGCGATCGTGCCAGTGCACTCCAGTCTGGATAACAGAGCAAGATTCCATCTCAAGAAAAA
AAAAATGCCATCTCTCTATGCCTCACTCTTTGAACATATGACACGGTCCTGCTTCAGACACTTTAATAAAAGATGCAAATTAAGCCAAGTGTGGTGGCTT
GTACCTATAATCCCAACTACTCCAGAGGCTGAGGCAGAAGGATGGTTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACAGAGTGAGACCCTGTTTCTT
TCTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAGTGGTGTGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGG
TTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACCATGCCCGGCTCATTTTTTTGTATTTTTAGTAGAGACGGGGT
TTCACTGTGTTAGCCAGGATGGTCTCAATCTCCTGACCTAGTGGTCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTAAGCCACTGTGCCC
ATCCAAGACCCTGTTTCTACCGGAAAAAAAAAGTAAATAATTTAGCTGGGCATCGTGGTGTGCACCTGTAATCCCAGCTGCTCCTGAGGCTGTGATGGGA
GGATTGCTTTAACCCAGGGGTTCGAATCCTAGGAGTTCGAATCCATCCTAGGCAACATAGCAAAACCCCATTTTTATTTAAAAAAAAAAAAAAAGATATG
AGTTAAAACTAGCCCTGGGATGGCATTTTTCACATATTGGTAACAAACAAAAGAATTGATGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAGCACTTT
GGGAGGCCGAGGCGGGCGGATCACAAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAACTACAAAAAATTAGCCGG
GCATGGTGGCAGGCGCCTGTGGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGCAGAGCTTGCAGTGAGCCAAGATCGTGC
CACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCATCTCAAAAAAAAAAAAAAAAAAAAGAATTGATAACAGCTGTGCTGCCAAGGCTATTGGAACGT
AGGAGGTCCTAGGACAGTGCTGTTGGGAGCATAAATAAGCCCAACCCTGTGGCGGGAAATTGGGCATCAGTTCTCAAAATGTCATGGGCTGGGCACGGTG
GCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGGAGGCGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGACCACCATGGAGAAACCCCGTC
TCTATTAAAAATACAAAAAAAACTAGCCAGGCATAGTGGCACATACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCTCTTGAAACTGGGA
GGCAGAGGTTGCGGTGAGCTGAGATTGCGCCACTGCACTCCAGCTTGGGCAACAAGAGCAAAACTCCATCTCAAAAAAAAAAAAAAAAGAAATAAAAGAA
GGTATGTTGAATATGAGTGGTATGCCACCCTCACATTAGGGAAGGGCAGTTTCGGGGAGGCTGTATTTATGTATAAAATAGCCCTAAAAGGAAGTGGGAG
AAATGACAATATTAGCTGGCTATGAGAAGAGAGGCTGGGAGGCTGTGGGAGAGGGCTTGGGTGTGGAGAATTCTTTTTGTTTTTTCCTTTTTTTGAGACA
GAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATGGCACGATCTCAGCTCACCGCAACCTTCACCTCCTGAGTTTAAGTGATTCTCCGGCCTCAGCCTC
CCGACTAGCTGGGATTACAGGCATGGGCCACTACGCCTGGCAAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAAC
TCTGACCTCAGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAACGTGAGCCACTTTGCCTGGCTGAGAATTCTTTTTTTGTTGTTGTCTT
TTTGAGATGGAGTTTTGCTGTGTCCCCAGCCTGGAGTGCAATGGTGTAATCTCAGCTCACTGCAACCTCTCCCTCCCGGGTTCAAGCAATTCTCCTGCCT
CAGCCTCCCAAGTAGCTGGAATTACAGGCGCCCAGCACCACGCCYGGCTAATTTTTGTATTTTTAGTAGAGACGGGATTTCATCATGTTGGCCAGGCTGG
TCTTGATCTCCTGACCTTGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCCCCCAGCCGAGAATTTCTCTTTGCGT
CCTTCCTACTTTGGGGACTTCGAATGGTGGGAAAGAGTTATCAAGGCCAAAATAAGGAATTCAAATGAAAACAAAACAAAATCAAAGAAGAAAAAACAGA
AGAGCACTGGGCAGGCTAGGCACGTGGCTCATGCCTATAATCCCAGTGATTTAGAAGGCCGAAGTAGAAGGATCGCTTGGAGGCCAGGAGTTGGACACCA
GCCTGGGCAACATAGCAAGACCCCATATCTACAAAAAATAAAAAACCTAACCAAGCGTGCTGGCATACTAGTAGTCCCAGCTACTCAGGAGGCTGAGGTG
GGAGGATCACCTGAGCCTGGGAGGTCCAGGCTGTAGTGAGCCGTGATGACACCACTGCACTCCAGCCTGGGTGACAGAGAAAGACCCTGTCTCTAAAAAA
TAAAAACTGGCCAAGTAGCTTTGGGATTAGCCTTGGGTTCCAGTCCCAGCAAGGCCTTTAATAGCTTGGGACATGACTTCTGCATTTACTTTGCAATCAG
GTGAGACCTCCTCTGATGGGGAAAATGACACGGTGAGTGACAAAGGATGTTCTCCTATCATTGTGTCAGGGCAAGGAAGCCTCTGGGTAAATGATCAAAT
GATCAGCTTTGCTTCTGATTTGGAGGGTGGGTGAGCAGATGCTGACCTTCCCAGGTGAGGGAAGTCCCCGAACATTCCCAGCAGCTTCTGGAAACCCCAG
GGAAACCTCTTTGAAGGTCTTTTCTGCATCTCTGCCTGATAGGTCTTTTTTTTTTTTTTTTTTTTTTTYTTTTTTTGACACACAGTCTTGCTCTGTCGCC
CAGGCTGGATCACTGCAACCTCCATCTCCCGGGTTCAAGCAGTTCTCCTGCCTCATCCTCTCCAGTAGCTGGGATTACAGGCACCTGGCACCACGCCTGG
CTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCGCCAAGTTGGCCAGGCTGGTCTCGAACTCTAGACCTCTGGTGATCCACCCGCCTCAGCCTCCCGAA
GTGCTGGGATTACAGGCTTGAGCCACCACGCGCGGCTCTGCCTGATAGCTGAGAGCATAGAACTCCAGGTTTGAGACCTGGCTCTGCCACATTTCTCCCT
CTATGACTGTGGGTGCCCCACTTTGCCTTAGTTTTTACCTCTGTGAAATGGAGCAGATGGCTGGCACAGGTAGCAAAGGAGTAAAAGTTATGTGGGAGGG
TGGTACCTGAGAGAGACTCTAGCTTGGTCTTGCCCCACCCCTGGTGTAAACATAAAGAAGCCTCCCTGGATGGCTCAATCTTCTCCAAAAAGGTTAGAGG
TGTAATTCCTAGAGGAGGCGACCACTAGCTGGGCTTTGAAGGATGTGTAGGAGTTCATAAGGACAGGCATTCTGGGCAGGAGGAACAGCCTGGGCAAAAG
TTGGGAGCAGGGAGAAATCTTGATGGAGGCAGGAGGAGGAGGAGGTAGGTTGGTGTRGGCCAGGYGCAGTGGCTCACACCTGTAATCCCAGTGCTTTGGG
AGGCCAAAGCAAGAGGATTGTTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCAACATAGCGAGACCCTGTCTCTAAGAAAAAATAAAAAAATTAGGGTAC
AGTGGCATATGCTTGTATTCTCAACTACTCTGGAGGCTCAAGTGGGAGGATCAYTTGAACCCAGGAATTTTTTTGTTTTTGTTTTTGTTTTTTTGAGATG
GAGTCTCACTCTGTGGCCCAGGCTGGAGTGCAGTGGTGCCATCTTGGCTCACTGCAGCCTCCTCCACCTCCTGGGTTCAACCGATTCTGCTGCCTGAGCC
TCCCGAGTTGCTGGGATTAAGGTGCCCACCATCATGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATAGGGTTTACCATGTTAGCCAGGCTGGTCTTG
AACGCCTGACCGCAAGAGATCCTCCTGCCTCAGTTTCCCAAAGTGCTGGGATTATAGGTGTGAGCCACTGAGCCTGGTCAAGCCCAGGAATTTGAGGTTA
CAGTCAGCTATGATTGCACCACTGCATTCCAGCCCAGGTGACAGAGAGAGACACTGCCCCTAAAAAAAAAAAAAAATTGATTGATGGGAGGAAGGGTGAG
GTTGGCAGAGCCTTGAATGCCAGGTGGAGGAGCTGGGACTTTCCTTCTTGGGGTGATAGGGAGTCATGGAGGGTTTSTGAGCAGGCCAGGGATTAGATAG
CTGAAGGCTGGATTTACTGGAAGCCAATGAGCAGTTGGCTATGGTCCTTGTCCACGCGGCCCATGTTGTGGGCAGTGACCGTATTCAAGAAGGGAAGGAC
AGACAAGTATTTGAATACTTCAGTGACCAGGATTTGGTAAAGGACTGCAGGTCAGGGTCAAGAAGAGGTGAGAGCAGGACAGACTTCCTCCCCGCTGCAC
CAGGCAGCTGAGCTGGGTTTCCTCTAGGGGCTGAGGTTTGAGGGTACCTCAAGTTCTGCAAGAGTCTATAGGAGGTGGTAAGAGAGAAGAGCTGGAGGTC
AGAGTTTTCTTGACTATATATATATATATTTTTTTGTTTTTGTTTTTAACAGCTTAACAGCTTTCTGTTTTATTTTTAGAGACAGGGTCTCAGGGTCTCA
CTTTGTCACCCAGGCTGGAGTGCAGTGGTACAATCGTAGCTGACTGCAGCCTCAAACTCCCAGGCTCAAGAAATCCTCCTCCCACCCTTAGCCTCCTGAG
TAGCAGGGACTACAGGTGTGAGCCAGCAGGAAGCCCAGCTGGTTTTTTTTTTTTCTTTGGTGTTTTTTGTTTGTTTGTTTGAGACCGGAGTTTCGCTCTT
ATTGCCCAGGCTGAAGTGCAATGGCAGGATCTTAGCTCACCACAACCTCCGACCCCCAGGATCAAGCTATTCTCTTGCCTCAGCCACCTGAGTAGCTGGG
ATTACAGGCATGCGACACCACACAAGGCTAATTTTGTATTTTTAGTAAAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACTCCCAACCTCAGA
TGATCCACCTGCCTCGGCCTCCCAAAGTGCTGAGATTACAGGCATGAGCCACCGTGCCCGGCCTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACT
CTGTCGCCCAGGCAGGAGTGCAGTGGTKCGATCTGGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACTCCATCCTCCTGCCTTAGCCTCCTGAGTAGCTG
GGACTACAGGCGCCCACCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTYGATCTCCTGACCT
CGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGTCTGGCCTGGCCAGGCTGGTCTTGAACTCCTGACTTCCGGTG
ATCCATCTGTTCTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCACGCCATGCCGAAGCCCAGCTTGTTTTTAATTTTTTTTTTTTTTTTTGG
AGAAATGAGGTCTTGCAATGTTGCCCAAGCTAGCCTTGAACTCCTGGCCTCAAATGACCCCGCCTTGGCATCCCAAAGTACTGGGATTACAGATGTGAGC
CACCATGCCCCAGCCTTGCTTTCTTGAGATACGATTTAGAATACCATAAGATTCATCCCTTTTAAGCACATAATTCAATGACTTCTGTACAAACAACCAT
GACTACAATCTAATTTTAAAATATTTCAATCACTCTAAAMAAGAAACCTCCTGCTTATGTACAGCGACTCTGTCTACCTCTTAAGTGAATTCTCCTACCT
TTAATAGCCCTATTTTACAGTTCAGGAAACTGAGGTTCAGAGAGACAAAGTCACTTACCCACAGCAAAGAAGCAAGGCTGGGTATCAAATGCAGGACCCC
CCCGGTCCTGATGCTTTTTTTTTTTTTTTTTTTTCCTCTGAGAGAGACTCTCACTCTGTCACTCAGTCTAGAGTACAGTGGCGCGATCTCAGTTCACTGC
AATCTCTGCCTCCTGGGCTGAAGTAATCCTTTCCTCACAAGTAAACCTCAGCCTCTCAAGTAGCTGGGACTACAGGCACACAACACCACGCCTGGCTAAT
TTTTGTATTTTTAGGTAGAGACGGGGTTTCACTATRTTGGCCAGGCTGGTCTTSAACTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCCCCCAAAGTGT
TGGGATTACAGGCGTGAGCCACCACACGCAGCCTTTTTGTTATTAGACTCTGTCATTACTGACTTTTTTTTTTTTTTTAATAGAAACAGGGTCTTTCTTT
CCCAGGSTAAAGTACAGTGGCATGATCACAGTTCACTATAGCCTTAAACTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAGTAGCAGGGACTA
CAGGTGTGCACCACCACACCCAGTTAACCATTCATTCATTCATTCATTCATTTATTTTGAGATGGAGTCTCGCTCTGTCACCTAGGCTGGAGTGCAGTGG
CACGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGAGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGCGTGCACCACCATGCC
AGACTAATTTTTGTATTTTTAATAGAGACGGGGTTTCACTCTGTTGGTCAGGCTTATCTCGAACTCCTGACTTCGTGGATCCACCCTCCTTGGCCTCCCA
AAGTGCTGGGATTAAAGGCGTGAGCCACCGCGCCCTGCCAACCTTTTTTTRATTTTTCTTAGAGATGGGGGTCTCCCTATGTTGCCCAGGCTTGTCTTGA
ACTCCTGGCCTCAAGTGACCCTCTTGCCTTGGCCTCACAAAGTGCTAGGATTACAGCCTGAGCCATCACACCTGGCCAACAGGTTTTTTTTTTTGTTTTG
TTTTGTTTTTTAAAGAATGTCTAGGCCAGGCTCATTTACTTTCACCTGTAATCCCAGCACTTTGGGAGGCCGGGGTGGGCAGATCACTTGAGGTCAGGAA
TTCGAGACCAGCCTGGGCAACATGCTGAAACCCCGTTTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGACACGTGCCTGTAATCCCAGCTACTCAG
GAGGTTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCATGCCATCACCCTCCAGCCTGGGCGACAGAAGGAGACTCA
GTCTAAAAACTTAATTAATTAATTAATTAAAAATAAAAATACAAAAATTAACCTGGTGTGGTGGTGTGTGCCTGTAATCTAAGCTACTCAGGAGGCTGAG
GCAGGAGAATCCCCTGAATCCCAGAGGCAGAGGTTGCAGTGAGCCAAGATCGAGCCACTGTTTGCCCAGTCTAGTGCACTGGGCTGCTGAATTTATTTGA
CCAGACACCTAGCAATAGACTTTGAAGTTCTTTTCCACTTTTCACTCTAAGATGCTGCTGTCATGAATAAGGAATATTTTGATCCCCTTCACAAACACTC
GGGGCCCTCTTACCAGTTTTCACTGAAGATCTTGACATTCCTATCTGCTTAGGTGTCTGGGCGTGTTTGGGGGAGATACTGAAGAGGTAGGGCTCCCAGG
CAGGTGCAGTTCGTCTGTTAGGCAGGCAGCAAGGTCCACTTCACCAGACACCCCCACCTCTGTTTTCCTGCAGGGACTCCAGAACGGGTGGAACTGGCAC
CCCTCCCCTCTTGGCAGCCAGTGGGCAAGAACCTTACCCTACGCTGCCAGGTGGAGGGTGGGGCACCCCGGGCCAACCTCACCGTGGTGCTGCTCCGTGG
GGAGAASGAGCTGAAACGGGAGCCAGCTGTGGGGGAGCCCGCTGAGGTCACGACCACGGTGCTGGTGAGGAGAGATCACCATGGAGCCAATTTCTCGTGC
CGCACTGAACTGGACCTGCGSSCCCAAGGGCTGGAGCTGTTTGAGAACACCTCGGCCCCCTACCAGCTCCAGACCTTTGGTGAGGATTGAAGAAGCCAGC
AGGGAGAAGGTGGGGGTGGGGTATCCTGCAATGCGGTGCCTGTGGCCACAGGATCTTTTGAGATGGGTGTGGCCCCGGCTAAGGGGTGCATGTGTTCTAG
GCGTATGTGACCTAGGCTGCTGAGTGGCCCTGGAAGAGGATCTCGCAGGAGGGGGAATGAAATGCCCCAGAGAAGGGCTTCGGGACGTCCATCCCTGTCT
GCTCACACCTTTCTTCTCTCCCTAGTCCTGCCAGCGACTCCCCCACAACTTGTCAGCCCCCGGGTCCTAGAGGTGGACACGCAGGGGACMGTGGTCTGTT
CCCTGGACRGKCTGTTCCCAGTCTCGGAGGCCCAGGTCCACCTGGCACTGGGGGACCAGAGGTTGAACCCCACAGTCACCTATGGCAACGACTCCTTCTC
GGCCAAGGCCTCAGTCAGTGTGACCGCAGAGGAYGAGGGCACCCAGCGGCTGACGTGTGCAGTAATACTGGGGAACCAGAGCCAGGAGACACTGCAGACA
GTGACCATCTACAGTAAGAAGGGGCAGGGGCGGAGTGGGGCTTCTTGRGGGTGTGACCTGAACCCGGGGCGGGGCTCACTGTGTGCCTATTCCAGGCTTT
CCGGCGCCCAACRTGATTCTGACGAAGCCAGAGGTCTCAGAAGGGACCGAGGTGACAGTGAAGTGTGAGGCCCACCCTAGAGCCAAGGTGACGCTGAATG
GGGTTCCAGCCCAGCCACTGGGCCYGAGGGCCCAGCTCCTGCTGAAGGCCACCCCAGAGGACAACGGGCGCAGCTTCTCCTGCTCTGCAACCCTGGAGGT
GGCCGGCCAGCTTATACACAAGAAYCAGACCCGGGAGCTTCGTGTCCTGTGTGAGTGGGGCTGCTGGTCAATGGCCCCTATCCCCCAAGGCCCAATCTCC
CTGAAGGTCCCATAAGGTCTTGCCTCCAAGTCCTGCCCCCACCCACCTCCATGTCATCTCATCRTGTTTTTCCAGATGGCCCCCRACTGGACGAGAGGGA
TTGTCCGGGAAACTGGACGTGGCCAGAAAATTCCCAGCAGACTCCAATGTGCCAGGCTTGGGGGAACCCATTGCCCGAGCTCAAGTGTCTAAAGGATGGC
ACTTTCCCACTGCCCATCGGGGAATCAGTGACTGTCACTCGAGATCTTGAGGGCACCTACCTCTGTCGGGCCAGGAGCACTCAAGGGGAGGTCACCCGCR
AGGTGACCGTGAATGTGCTCTGTGAGTGAGCCGGCGGGCAGARCTGGGTGGGGGCAGGGGCCATGGACCTAATGCAATCCTCACCGCCTGTTGTATCCTC
CCCACAGCCCCCCGGTATGAGATTGTCATCATCACTGTGGTAGCAGCCGCAGTCATAATGGGCACTGCAGGCCTCAGCACGTACCTCTATAACCGCCAGC
GGAAGATCAAGAAATACAGACTACAACAGGCCCAAAAAGGGACCCCCATGAAACCGAACACACAAGCCACGCCTCCCTGAACCTATCCCRGGACAGGGCC
TCTTCCTCGGCCTTCCCATATTGGTGGCAGTGGTGCCACACTGAACAGAGTGGAAGACATATGCCATGCAGCTACACCTACYGGCCCTGGGACGCCGGAG
GACAGGGCATTGTCCTCAGTCAGATACAACAGCATTTGGGGCCATGGTACCTGCACACCTAAAACACTAGGCCACGCATCTGATCTGTAGTCACATGACT
AAGCCAAGAGGAAGGAGCAAGACTCAAGACATGATTGATGGATGTTAAAGTCTAGCCTGATGAGAGGGGAAGTGGTGGGGGAGACATAGCCCCACCATGA
GGACATACAACTGGGAAATACTGAAACTTGCTGCCTATTGGGTATGCTGAGGYCCCACAGACTTACAGAAGAAGTGGCCCTCCATAGACATGTGTAGCAT
CAAAACACAAAGGCCCACACTTCCTGACGGATGCCAGCTTGGGCACTGCTGTCTACTGACCCCAACCCTTGATGATATGTATTTATTCATTTGTTATTTT
ACCAGCTATTTATTGAGTGTCTTTTATGTAGGCTAAATGAACATAGGTCTCTGGCCTCACGGAGCTCCCAGTCCTRATCACATTCAAGGTCACCAGGTAC
AGTTGTACAGGTTGTACACTGCAGGAGAGTGCCTGGCAAAAAGATCARATGGGGCTGGGACTTCTCATTGGCCAACCTGCCTTTCCCCAGAAGGAGTGAT
TTTTCTAYCGGCACAAAAGCACTATATGGACTGGTAATGGTTACAGGTTCAGAGATTACCCAGTGAGGCCTTATTCCTCCCTTCCCCCCAAAACTGACAC
CTTTGTTAGCCACCTCCCCACCCACATACATTTCTGCCAGTGTTCACAATGACACTCAGCGGTCATGTCTGGACATGAGTGCCCAGGGAATATGCCCAAG
CTATGCCTTGTCCTCTTGTCCTGTTTGCATTTCACTGGGAGCTTGCACTATGCAGCTCCAGTTTCCTGCAGTGATCAGGGTCCTGCAAGCAGTGGGGAAG
GGGGCCAAGGTATTGGAGGACTCCCTCCCAGCTTTGGAAGCCTCATCCGCKTGTGTGTGTGTGTGTATGTGTAGACAAGCTCTCKCTCTGTCACCCAGGC
TGGAGTGCAGTGGTGCAATCATGGTTCACTGCAGTCTTGACCTTTTGRGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACCATAGGCTC
ACAACACCACACCTGGCAAATTTGATTTTTTTTTTTTTTYYAGAGAYGGGGTCTYGCAACATTGCCCAGACTTCCTTTGTGTTAGTTAATAAAGCTTTCT
CAACTGCCTCAGCCTTGTGTGAGTTGAGGGGAGGTGTCACATCCAGCTGGAGTCCTTTCTAAGCAGCCACAGCCTGATCCTCCCACTTCCTCCCCCAAGA
AAACATTGTGGGTTGATGGCCATACCCTGAGGTTCTGGTCCAAATCGGACTTTCTATGACCTTCTGGGTCTCTAGTGAAAACTAAAGACTCCTCTCCAGA
AAAAAACATTTGGTTTCTAATGAGGCCTGGAATCTTATTCTTGACCTGGGGAGCGGAATCCCTTTTTGCAGTACTCCCGGGCCCTCTGTTGGGGCCTCCC
CTTCCTCTCCAGGGTGGAGTCGAGGAGGCGGGGCTGCGGGCCTCCTTATCTCTAGAGCCGGCCCTGGCTCTCTGGCGCGGGGCCCCTTAGTCCGGGCTTT
TTGCCATGGGGTCTCTGTTCCCTCTGTCGCTGCTGTTTTTTTTGGCGGCCGCCTACCCGGGAGTTGGGAGCGCGCTGGGACGCCGGACTAAGCGGGCGCA
AAGCCCCAAGGGTAGCCCTCTCGCGCCCTCCGGGACCTCAGTGCCCTTCTGGGTGCGCATGAGCCCGGAGTTCGTGGCTGTGCAGCCGGGGAAGTCAGTG
CAGCTCAATTGCAGCAACAGCTGTCCCCAGCCGCAGAATTCCAGCCTCCGCACCCCGCTGCGGCAAGGCAAGACGCTCAGAGGGCCGGGTTGGGTGTCTT
ACCAGCTGCTCGACGTGAGGGCCTGGAGCTCCCTCGCGCACTGCCTCGTGACCTGCGCAGGAAAAACACGCTGGGCCACCTCCAGGATCACCGCCTACAG
TGAGGGACAGGGGCTCGGTCCCGGCTGGGGTGAGGGGAGGGGGCTGGAAGAGGTGGGGGAAGGGTAGTTGACAGTCGCTCTATAGGGAGCGCCCGCGGAC
CTCACTCAGAGGCTCCCCCTTGCCTTAGAACCGCCCCACAGCGTGATTTTGGAGCCTCCGGTCTTAAAGGGCAGGAAATACACTTTGCGCTGCCACGTGA
CGCAGGTGTTCCCGGTGGGCTACTTGGTGGTGACCCTGAGGCATGGAAGCCGGGTCATCTATTCCGAAAGCCTGGAGCGCTTCACCGGCCTGGATCTGGC
CAACGTGACCTTGACCTACGAGTTTGCTGCTGGACCCCGCGACTTCTGGCAGCCCGTGATCTGCCACGCGCGCCTCAATCTCGACGGCCTGGTGGTCCGC
AACAGCTCGGCACCCATTACACTGATGCTCGGTGAGGCACCCCTGTAACCCTGGGGACTAGGAGGAAGGGGGCAGAGAGAGTTATGACCCCGAGAGGGCG
CACAGACCAAGCGTGAGCTCCACGCGGGTCGACAGACCTCCCTGTGTTCCGTTCCTAATTCTCGCCTTCTGCTCCCAGCTTGGAGCCCCGCGCCCACAGC
TTTGGCCTCCGGTTCCATCGCTGCCCTTGTAGGGATCCTCCTCACTGTGGGCGCTGCGTACCTATGCAAGTGCCTAGCTATGAAGTCCCAGGCGTAAAGG
GGGATGTTCTATGCCGGCTGAGCGAGAAAAAGAGGAATATGAAACAATCTGGGGAAATGGCCATACATGGTGGCTGACGCCTGTAATCCCAGCACTTTGG
GAGGCCGAGGCAGGAGAATCGCTTGAGCCCAGGAGTTCGAGACCAGCCTGGACAACATAGTGAGACCCCGTCTATGCAAAAAATACACAAATTAGCCTGG
TGTGGTGGCCCGCACCTGTGGTCCCAGCTACCCGGGAGGCTGAGTTGGGAGGATCCTTTGAGCCCTGAAAGTCGAGGTTGCAGTGAGCCTTGATCGTGCC
ACTGCACTCCAGCCTGGGGGACAGAGCACGACCCTGTCTCCAAAAATAAAATAAAAATAAAAATAAATATTGGCGGGGGAACCCTCTGGAATCAATAAAG
GCTTCCTTAACCAGCCTCTGTCCTGTGACCTAAGGGTCCGCATTACTGCCCTTCTTCGGAGGAACTGGTTTGTTTTTGTTGTTGTTGTTGTTTTTGCGAT
CACTTTCTCCAAGTTCCTTGTCTCCCTGAGGGCACCTGAGGTTTCCTCACTCAGGGCCCACCTGGGGTCCCGAAGCCCCAGACTCTGTGTATCCCCAGCG
GGTGTCACAGAAACCTCTCCTTCTGCTGGCCTTATCGAGTGGGATCAGCGCGGGCCGGGGAGAGCCACGGGCAGGGGCGGGGTGGGGTTCATGGTATGGC
TTTCCTGATTGGCGCCGCCGCCACCACGCGGCAGCTCTGATTGGATGTTAAGTTTCCTATCCCAGCCCCACCTTCAGACCCTGTGCTTTCCTGGAGGCCA
AACAACTGTGGAGCGAGAACTCATCTCCAAAATAACTTACCACGCTGGAGTGAGACCACGAATGGTGGGGAGGGGAGGGTCCCACGGACATATTGAGGGA
CGTGGATACGCAGAAGAGGTATCCATGTGGTGGCAGCCGGGAAGGGGTGATCAGATGGTCCACAGGGAATATCACAAACTCGAATTCTGACGATGTTCTG
GTAGTCACCCAGCCAGATGAGCGCATGGAGTTGGSGGTGGGGGGTGTCAAAGCTTGGGGCCCGGAAGCGGAGTCAAAAGCATCACCCTCGGTCCCTTGTT
CTCGCGTGGATGTCAGGGCCCCCACCCACCGAGCAGAAGGCGGACTCAGGGGCGCTCCAGGGTGGCTCGAGCTCACACACGCTGAGTAGACACGTGCCCG
CTGCMCCCTGGGTAAATACAGACCCGGAGCCGAGCGGATTCTAATTTAGACGCCCGCGAACGCTGCGCGCACGCACACGTGTCCTCGGCTCGCTGGCACT
TTCGTCCCGCCCCCTCCGTCGCGTGCCGGAGCTGACCCGGAGGGGTGCTTAGAGGTATGGCTCCGCGGGGTCAAAAGGAGAAGGATCAGTGAGAGAGGCA
TCCCCACACCCTCCCCTAGAACTGTCCTTTCCCCATCCAGTGCCTCCCAAATCTCTCTTAGTCCCCAAATGTATCCCCGCCCTAAGGGGCGCTGGTGGGA
GGAGCTAAATGTGGGGGCGGRGCTCGGAGTCCAGCTTATTATCATGGCATCTCAGCCAGGGCTGGGGTAGGGGTTTGGGAAGGGCAACCCAGCATCCCCC
GATCCCAGAGTCGCGGCCGGGGATGACGCGAGAGAGCGTGGTCGCCCCCAGAAGGCCCTGGGCCATCATGCCGGCCTCCACGTAGACCCCAGGGGTCGCT
CACTCCTGCCAGCTCGCCTTCACCAAGGCCAGGAGCTTAGCGCACGCTCGCCTCCCGCCCCCCCGCCGCCTCTGCCGCCGCCCCCTCCTTGGAAACCAAG
TTACCAACGTTAAACCAATCCCCAAGCGCAACTCTGYCTCCCCCACACCCCACCCGCCGCGCCGCGCGGAGCCGTCCTCTAGCCCAGCTCCTCGGCTCGC
GCTCTCCTCGCCTCCTGTGCTTTCCCCGCCGCGGCGATGCCAGGGCCTTCGCCAGGGCTGCGCCGGGCGCTACTCGGCCTCTGGGCTGCTCTGGGCCTGG
GGCTCTTCGGCCTCTCAGGTAAGAGCCCCGCTCTGGTTCGGGGTGGACAGGGCGGGGGCGGAGTCCCTGGACCTGAGAAACGGCCTCCTGTCCCTCCCAG
CTCTGCCCTCGCCTCGCTCCCACGCCTCTGCCCCCACCTCGAGCCTGAGTCTTCTCCCCTTCCCCCTCCTCCCCAACACACACCCGAGCCCCAGCTTCCT
GACTCCTCGATAGCCCCTACCCGCTTCGAGATCCTAGGTGTTCTTCCGCACCCAACCCTTCGCCCTGGAGACCCAGTGTCTCTCCTGTCCGCTCCCCGGG
TACCTCCTTACGCTGTGCTGTGCACCATGGTCCACGGACTGGCATCTTCCCCACTCGCGGTCCGCGAAGACTCCATCTCTCCAACTACCCTGACTCAGAG
GCGCTGTTCCCGCTCCACCCAGARCCCTGGCAACCGGGTCCCTCAGCTGTTCCCGCGGTTCCTTCCATGAGCCCAGCCTTGCGTCCCGGCKCCGTGTTCT
TCACCGGGTGTAGGGTCCTTCCTGATCCTTGACCCAGCCTCGTCTCTCCTTTGCCCTTGCCGCAAACGCACTCTCCTCGTATCCCGGCATTCTGCCAGGA
CCCTGAGAACTGGTTCATCCCCCATCCCCCATCCCGGGTCCCCTTCTCTCAGCCTTGCTGTGTTCATCCAAGAACCCACCTTTCCTCTCCTCTACGCCCT
CCCCCCATGCTTTCCCGCCGCTCCATCGGCGCTTTGGAGACCATGGCTCTCTGCTACCACGTCCCAGAGACACCCTCGAGGTTTAGACTCTGGGAGTGCG
CCTTTAAACCGGAGGCCTGGGCACGACGCGGGACGCCTGGGTTCTTTCCCTGGCTGCAGCCTCTCCTCCTCCTCCCCGCCCTCTGAGAACCCTTGACTCG
ACATAGGGGCGCTAAGATGTCAGGGAGTTGGCTCCCCAGGCTCAGCCCGCGTTTCCCTGGGCAGCGGTCTCGCAGGAGCCCTTCTGGGCGGACCTGCAGC
CTCGCGTGGCGTTCGTGGAGCGCGGGGGCTCGCTGTGGCTGAATTGCAGCACCAACTGCCCTYGGCCGGAGCGCGGTGGCCTGGAGACCTCGCTGCGCCG
AAACGGGACCCAGAGGGGTTTGCGTTGGTTGGCGCGGCAGCTGGTGGACATTCGCGAGCCGGAGACTCAGCCCGTCTGCTTCTTCCGCTGCGCGCGGCGC
ACACTACAGGCGCGTGGGCTCATTCGCACTTTCCGTGAGTTCTGGGTGGCCACGCGCGTACTCCACTACTCTCCCTCCCTCCCAGGCCCCGCCCCCTGGG
TCCCAGGGTCCTCCCCTTCAGGCCCCACCTTCTGTTCCAAGTCCCGGCGTTCAAAGAGCTGCGGACTCTTCCCCCTTGCAGAGCGACCAGATCGCGTAGA
GCTGATGCCGCTGCCTCCCTGGCAGCCGGTGGGCGAGAACTTCACCCTGAGCTGTAGGGTCCCCGGCGCCGGGCCCCGTGCGAGCCTCACGCTGACCCTG
CTGCGGGGCGCCCAGGAGCTGATCCGCCGCAGCTTCGCCGGTGAACCACCCCGAGCGCGGGGCGCGGTGCTCACAGCCACGGTACTGGCTCGGAGGGAGG
ACCATGGAGCCAATTTCTCGTGTCGCGCCGAGCTGGACCTGCGGCCGCACGGACTGGGACTGTTTGAAAACAGCTCGGCCCCCAGAGAGCTCCGAACCTT
CTGTGAGTGGGTGTGGGGAGGAGATGGGGACCCAGTGGGGTCGGTCGGTGTTTAGGAGGTTTAGAGGTAGATACATCTGAATGCTGACCCCGACTTCAAC
CCTCGCCGGCTGAGCTGTTTCCCCCTCCGTGCCTTGAGGATGATAATACGATAAGATAGTGCATGTCAAGTGCTTAGGACATATTGAGCGCTCGGAGTTA
GTTCAAACTTGGTTCTTCGACCCCTAGCCCTGTCTCCGGATGCCCCGCGCCTCGCTGCTCCCCGGCTCTTGGAAGTTGGCTCGGAAAGGCCCGTGAGCTG
CACTCTGGACGGACTGTTTCCAGCCTCAGAGGCCAGGGTCTACCTCGCACTGGGGGACCAGAATCTGAGTCCTGATGTCACCCTCGAAGGGGACGCATTC
GTGGCCACTGCCACAGCCACAGCTAGCGCAGAGCAGGAGGGTGCCAGGCAGCTGRTCTGCAACGTCACCCTGGGGGGCGAAAACCGGGAGACCCGGGAGA
ACGTGACCATCTACAGTAAGGAAGGAGGCGGGGTCTCCGCGGCTCCGAGGTGGGACCAGAGGAATGCGAAGGCGGGGCGAAGAGTGGGCGGGACCTCAGT
ACCGGAACAGGCGTGKCCCGAGGGGGCGGGGCAGGTGGGGGCGGAGACGTAATCGCTGGGGAGGAGGAGCCTGTACAGCCTGAGAGGCGGGGCGCCGTAC
CCTAGTTCGTTCTCAGCACCCCGAGGATTCGGGCAGATAAGGGGCGGGCCTTGACCGGAGGGAGGGGTATGGTCAGTATACTACGACCAAATGCTCCGCC
CCCAGGCTT


SNP Information

Context             (SEQ ID NO:4776):
AGCCAGCTGTGGGGGAGCCCGCTGAGGTCACGACCACGGTGCTGGTGAGGAGAGATCACCATGGAGCCAATTTCTCGTGCCGCACTGAACTGGACCTGCG
S
CCCCAAGGGCTGGAGCTGTTTGAGAACACCTCGGCCCCCTACCAGCTCCAGACCTTTGGTGAGGATTGAAGAAGCCAGCAGGGAGAAGGTGGGGGTGGGG
Celera SNP ID:            hCV944688
SNP Position Genomic:     18621
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4777):
GCCAGCTGTGGGGGAGCCCGCTGAGGTCACGACCACGGTGCTGGTGAGGAGAGATCACCATGGAGCCAATTTCTCGTGCCGCACTGAACTGGACCTGCGG
S
CCCAAGGGCTGGAGCTGTTTGAGAACACCTCGGCCCCCTACCAGCTCCAGACCTTTGGTGAGGATTGAAGAAGCCAGCAGGGAGAAGGTGGGGGTGGGGT
Celera SNP ID:            hCV944689
SNP Position Genomic:     18622
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4778):
GGCTGACGTGTGCAGTAATACTGGGGAACCAGAGCCAGGAGACACTGCAGACAGTGACCATCTACAGTAAGAAGGGGCAGGGGCGGAGTGGGGCTTCTTG
R
GGGTGTGACCTGAACCCGGGGCGGGGCTCACTGTGTGCCTATTCCAGGCTTTCCGGCGCCCAACGTGATTCTGACGAAGCCAGAGGTCTCAGAAGGGACC
Celera SNP ID:            hCV27452248
SNP Position Genomic:     19248
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4779):
ACATAGCGAGACCCTGTCTCTAAGAAAAAATAAAAAAATTAGGGTACAGTGGCATATGCTTGTATTCTCAACTACTCTGGAGGCTCAAGTGGGAGGATCA
Y
TTGAACCCAGGAATTTTTTTGTTTTTGTTTTTGTTTTTTTGAGATGGAGTCTCACTCTGTGGCCCAGGCTGGAGTGCAGTGGTGCCATCTTGGCTCACTG
Celera SNP ID:            hCV1931004
SNP Position Genomic:     14354
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4780):
ATCCCTTAAGCCCACGAGGCTGAGGTTGCAGTGAACCAAGATTGTGCCACTGCACTCCAGCCTGGGAGACATAGCGAGATTCTGTCTCAAAAAACAAAGC
R
TTCTGATCCGGACTCAGACCCAGATCGCACTGCTTTCTAGCTGAGTAACCATTTCTCTCTATGAAATGGGAATGGTCCCAGAATCTCCCTTGGAGAATGT
Celera SNP ID:            hCV27452249
SNP Position Genomic:     7194
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4781):
CTCCTGAGTAGCTGGGACTACAGGCGCCCACCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCT
Y
GATCTCCTGACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGTCTGGCCTGGCCAGGCTGGTCTTGAACTC
Celera SNP ID:            hCV1931005
SNP Position Genomic:     15987
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,4)   total(C,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4782):
GATCTTGAGGGCACCTACCTCTGTCGGGCCAGGAGCACTCAAGGGGAGGTCACCCGCAAGGTGACCGTGAATGTGCTCTGTGAGTGAGCCGGCGGGCAGA
R
CTGGGTGGGGGCAGGGGCCATGGACCTAATGCAATCCTCACCGCCTGTTGTATCCTCCCCACAGCCCCCCGGTATGAGATTGTCATCATCACTGTGGTAG
Celera SNP ID:            hCV25612160
SNP Position Genomic:     19943
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:4783):
CAGCACCGCCCCTTGGCCCCCAGGTGGCTAGCGCTATAAAGGATCACGCGCCCCAGTCGACGCTGAGCTCCTCTGCTACTCAGAGTTGCAACCTCAGCCT
M
GCTATGGCTCCCAGCAGCCCCCGGCCCGCGCTGCCCGCACTCCTGGTCCTGCTCGGGGCTCTGTTCCCAGGTGAGTCGGGGTGGGGATTGCCGTCGGGCC
Celera SNP ID:            hCV25612161
SNP Position Genomic:     6053
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,37)   caucasian(C,40)   total(A,1|C,77)
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,35)   caucasian(C,40)   total(A,1|C,75)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:4784):
CAGCCCCCGGGGTCATCGCCCTGCCACCGCCGCCCGATTGCTTTAGCTTGGAAATTCCGGAGCTGAAGCGGCCAGCGAGGGAGGATGACCCTCTCGGCCC
S
GGCACCCTGTCAGTCCGGAAATAACTGCAGCATTTGTTCCGGAGGGGAAGGCGCGAGGTTTCCGGGAAAGCAGCACCGCCCCTTGGCCCCCAGGTGGCTA
Celera SNP ID:            hCV27831136
SNP Position Genomic:     5882
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 hmCS


Context             (SEQ ID NO:4785):
TCTCAAGTAGCTGGGACTACAGGCACACAACACCACGCCTGGCTAATTTTTGTATTTTTAGGTAGAGACGGGGTTTCACTATATTGGCCAGGCTGGTCTT
S
AACTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCCCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCACACGCAGCCTTTTTGTTATTAGACTCTGTC
Celera SNP ID:            hCV1931007
SNP Position Genomic:     16854
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,6)   total(G,6|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4786):
TACAGGCGTGAGCCACCACACGCAGCCTTTTTGTTATTAGACTCTGTCATTACTGACTTTTTTTTTTTTTTTAATAGAAACAGGGTCTTTCTTTCCCAGG
S
TAAAGTACAGTGGCATGATCACAGTTCACTATAGCCTTAAACTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAGTAGCAGGGACTACAGGTGT
Celera SNP ID:            hCV1931008
SNP Position Genomic:     17007
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4787):
TGTAATCTCAGCTCACTGCAACCTCTCCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAATTACAGGCGCCCAGCACCACGCC
Y
GGCTAATTTTTGTATTTTTAGTAGAGACGGGATTTCATCATGTTGGCCAGGCTGGTCTTGATCTCCTGACCTTGTGATCTGCCCGCCTCGGCCTCCCAAA
Celera SNP ID:            hCV26941600
SNP Position Genomic:     12545
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4788):
ACTGTCCTTTCCCCATCCAGTGCCTCCCAAATCTCTCTTAGTCCCCAAATGTATCCCCGCCCTAAGGGGCGCTGGTGGGAGGAGCTAAATGTGGGGGCGG
R
GCTCGGAGTCCAGCTTATTATCATGGCATCTCAGCCAGGGCTGGGGTAGGGGTTTGGGAAGGGCAACCCAGCATCCCCCGATCCCAGAGTCGCGGCCGGG
Celera SNP ID:            hCV944700
SNP Position Genomic:     24521
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,8)   caucasian(A,28|G,4)   total(A,40|G,12)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIG-allele(G,631|A,636)   total(G,631|A,636)SC_12_A(A,10|G,10)   SC_12_C(G,3|A,12)   SC_12_AA(G,2|A,11)   total(G,15|A,33)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4789):
CGAACATTCCCAGCAGCTTCTGGAAACCCCAGGGAAACCTCTTTGAAGGTCTTTTCTGCATCTCTGCCTGATAGGTCTTTTTTTTTTTTTTTTTTTTTTT
Y
TTTTTTTGACACACAGTCTTGCTCTGTCGCCCAGGCTGGATCACTGCAACCTCCATCTCCCGGGTTCAAGCAGTTCTCCTGCCTCATCCTCTCCAGTAGC
Celera SNP ID:            hCV26941601
SNP Position Genomic:     13469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4790):
AGGCATTCTGGGCAGGAGGAACAGCCTGGGCAAAAGTTGGGAGCAGGGAGAAATCTTGATGGAGGCAGGAGGAGGAGGAGGTAGGTTGGTGTAGGCCAGG
Y
GCAGTGGCTCACACCTGTAATCCCAGTGCTTTGGGAGGCCAAAGCAAGAGGATTGTTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCAACATAGCGAGAC
Celera SNP ID:            hCV26941602
SNP Position Genomic:     14165
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4791):
GGACCAGAATCTGAGTCCTGATGTCACCCTCGAAGGGGACGCATTCGTGGCCACTGCCACAGCCACAGCTAGCGCAGAGCAGGAGGGTGCCAGGCAGCTG
R
TCTGCAACGTCACCCTGGGGGGCGAAAACCGGGAGACCCGGGAGAACGTGACCATCTACAGTAAGGAAGGAGGCGGGGTCTCCGCGGCTCCGAGGTGGGA
Celera SNP ID:            hCV8726349
SNP Position Genomic:     27155
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,14|G,22)   total(A,19|G,55)
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:4792):
CACAAGTAAACCTCAGCCTCTCAAGTAGCTGGGACTACAGGCACACAACACCACGCCTGGCTAATTTTTGTATTTTTAGGTAGAGACGGGGTTTCACTAT
R
TTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCCCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCACACGCAGCCTTT
Celera SNP ID:            hCV26941603
SNP Position Genomic:     16836
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:4793):
CCTCAGGTGATCCGCCTGCCTCGGCCCCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCACACGCAGCCTTTTTGTTATTAGACTCTGTCATTACTGAC
T
TTTTTTTTTTTTTTAATAGAAACAGGGTCTTTCTTTCCCAGGCTAAAGTACAGTGGCATGATCACAGTTCACTATAGCCTTAAACTCCTGGGCTCAAGTG
Celera SNP ID:            hCV26941604
SNP Position Genomic:     16964
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,6)   total(T,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4794):
CTCAGGTGATCCGCCTGCCTCGGCCCCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCACACGCAGCCTTTTTGTTATTAGACTCTGTCATTACTGACT
T
TTTTTTTTTTTTTAATAGAAACAGGGTCTTTCTTTCCCAGGCTAAAGTACAGTGGCATGATCACAGTTCACTATAGCCTTAAACTCCTGGGCTCAAGTGA
Celera SNP ID:            hCV26941605
SNP Position Genomic:     16965
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4795):
TAACCGCCAGCGGAAGATCAAGAAATACAGACTACAACAGGCCCAAAAAGGGACCCCCATGAAACCGAACACACAAGCCACGCCTCCCTGAACCTATCCC
R
GGACAGGGCCTCTTCCTCGGCCTTCCCATATTGGTGGCAGTGGTGCCACACTGAACAGAGTGGAAGACATATGCCATGCAGCTACACCTACCGGCCCTGG
Celera SNP ID:            hCV15868928
SNP Position Genomic:     20190
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,51|G,1410)   total(G,1410|A,51) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:4796):
GGCTTATCTCGAACTCCTGACTTCGTGGATCCACCCTCCTTGGCCTCCCAAAGTGCTGGGATTAAAGGCGTGAGCCACCGCGCCCTGCCAACCTTTTTTT
R
ATTTTTCTTAGAGATGGGGGTCTCCCTATGTTGCCCAGGCTTGTCTTGAACTCCTGGCCTCAAGTGACCCTCTTGCCTTGGCCTCACAAAGTGCTAGGAT
Celera SNP ID:            hCV26941606
SNP Position Genomic:     17451
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,4)   total(G,4|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4797):
TGCAGCTCCAGTTTCCTGCAGTGATCAGGGTCCTGCAAGCAGTGGGGAAGGGGGCCAAGGTATTGGAGGACTCCCTCCCAGCTTTGGAAGCCTCATCCGC
K
TGTGTGTGTGTGTGTATGTGTAGACAAGCTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCATGGTTCACTGCAGTCTTGACCTTTTGGGCT
Celera SNP ID:            hCV26941607
SNP Position Genomic:     21251
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,2|-,12)   total(G,2|-,12|T,2) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:4798):
CAGGTTGTACACTGCAGGAGAGTGCCTGGCAAAAAGATCAAATGGGGCTGGGACTTCTCATTGGCCAACCTGCCTTTCCCCAGAAGGAGTGATTTTTCTA
Y
CGGCACAAAAGCACTATATGGACTGGTAATGGTTACAGGTTCAGAGATTACCCAGTGAGGCCTTATTCCTCCCTTCCCCCCAAAACTGACACCTTTGTTA
Celera SNP ID:            hCV11970357
SNP Position Genomic:     20908
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(C,4|T,76)      total(C,4|T,76) ;HYP1(C,4|T,76)   total(C,4|T,76)
SNP Type:                 UTR 3


Context             (SEQ ID NO:4799):
CGCGTGTGTGTGTGTGTGTATGTGTAGACAAGCTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCATGGTTCACTGCAGTCTTGACCTTTTG
R
GCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACCATAGGCTCACAACACCACACCTGGCAAATTTGATTTTTTTTTTTTTTTCAGAGACG
Celera SNP ID:            hCV26941608
SNP Position Genomic:     21348
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,13)   caucasian(A,8|G,12)   total(A,15|G,25)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:4800):
TCTCTGGCCTCACGGAGCTCCCAGTCCTAATCACATTCAAGGTCACCAGGTACAGTTGTACAGGTTGTACACTGCAGGAGAGTGCCTGGCAAAAAGATCA
R
ATGGGGCTGGGACTTCTCATTGGCCAACCTGCCTTTCCCCAGAAGGAGTGATTTTTCTATCGGCACAAAAGCACTATATGGACTGGTAATGGTTACAGGT
Celera SNP ID:            hCV11970358
SNP Position Genomic:     20848
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(G,3|A,64)      total(G,3|A,64) ;HYP2(G,3|A,65)   total(G,3|A,65)
SNP Type:                 UTR 3


Context             (SEQ ID NO:4801):
ACCTTTTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACCATAGGCTCACAACACCACACCTGGCAAATTTGATTTTTTTTTTTTTT
Y
CAGAGACGGGGTCTCGCAACATTGCCCAGACTTCCTTTGTGTTAGTTAATAAAGCTTTCTCAACTGCCTCAGCCTTGTGTGAGTTGAGGGGAGGTGTCAC
Celera SNP ID:            hCV26941609
SNP Position Genomic:     21440
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,2)   caucasian(C,5|T,1)   total(C,9|T,3)
SNP Type:                 UTR 3

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


Context             (SEQ ID NO:4802):
GGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACCATAGGCTCACAACACCACACCTGGCAAATTTGATTTTTTTTTTTTTTTCAGAGA
Y
GGGGTCTCGCAACATTGCCCAGACTTCCTTTGTGTTAGTTAATAAAGCTTTCTCAACTGCCTCAGCCTTGTGTGAGTTGAGGGGAGGTGTCACATCCAGC
Celera SNP ID:            hCV27850712
SNP Position Genomic:     21447
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,34|T,2)   total(C,70|T,2)
SNP Type:                 UTR 3


Context             (SEQ ID NO:4803):
CTATTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGCTTGCCTGTAATCCCAGATACTCTGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCA
R
AGGTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGTCTGAGTGACAAAGCGAGACTCCATCTCAAAAAAAAAAAAAATAAAAGAACACATCTTTAGC
Celera SNP ID:            hCV9322568
SNP Position Genomic:     8844
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:4804):
CCTATCCCGGGACAGGGCCTCTTCCTCGGCCTTCCCATATTGGTGGCAGTGGTGCCACACTGAACAGAGTGGAAGACATATGCCATGCAGCTACACCTAC
Y
GGCCCTGGGACGCCGGAGGACAGGGCATTGTCCTCAGTCAGATACAACAGCATTTGGGGCCATGGTACCTGCACACCTAAAACACTAGGCCACGCATCTG
Celera SNP ID:            hCV11970359
SNP Position Genomic:     20282
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): 32 white Americans; 2 CEPH individuals(T,3|C,64)      total(C,64|T,3) ;HYP2(T,3|C,65)   total(C,65|T,3)
SNP Type:                 UTR 3


Context             (SEQ ID NO:4805):
GCAAGCAGTGGGGAAGGGGGCCAAGGTATTGGAGGACTCCCTCCCAGCTTTGGAAGCCTCATCCGCGTGTGTGTGTGTGTGTATGTGTAGACAAGCTCTC
K
CTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCATGGTTCACTGCAGTCTTGACCTTTTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAGC
Celera SNP ID:            hCV27848727
SNP Position Genomic:     21285
SNP Source:               Applera
Population(Allele,Count): african american(G,23|T,3)   caucasian(G,14|T,4)   total(G,37|T,7)
SNP Type:                 UTR 3


Context             (SEQ ID NO:4806):
GGACCTGGCAATGCCCAGACATCTGTGTCCCCCTCAAAAGTCATCCTGCCCCGGGGAGGCTCCGTGCTGGTGACATGCAGCACCTCCTGTGACCAGCCCA
W
GTTGTTGGGCATAGAGACCCCGTTGCCTAAAAAGGAGTTGCTCCTGCCTGGGAACAACCGGAAGGTGTATGAACTGAGCAATGTGCAAGAAGATAGCCAA
Celera SNP ID:            hCV14939
SNP Position Genomic:     9761
SNP Source:               Applera
Population(Allele,Count): african american(A,26|T,8)   caucasian(A,40)   total(A,66|T,8)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,22|T,8)   caucasian(A,38)   total(A,60|T,8)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;HGMD;dbSNP
Population(Allele,Count): Kenyan children(T,138|A,175)   Africans from Harare, Zimbabwe(T,28|A,52)   Caucasians(A,198|T,-)      total(A,425|T,166) ;(A,-|T,-)   ;(A,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:4807):
AGGTCCACCTGGCACTGGGGGACCAGAGGTTGAACCCCACAGTCACCTATGGCAACGACTCCTTCTCGGCCAAGGCCTCAGTCAGTGTGACCGCAGAGGA
Y
GAGGGCACCCAGCGGCTGACGTGTGCAGTAATACTGGGGAACCAGAGCCAGGAGACACTGCAGACAGTGACCATCTACAGTAAGAAGGGGCAGGGGCGGA
Celera SNP ID:            hCV944691
SNP Position Genomic:     19134
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(T,4|C,76)      total(C,76|T,4) ;(C,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:4808):
AGCCGGGAAGGGGTGATCAGATGGTCCACAGGGAATATCACAAACTCGAATTCTGACGATGTTCTGGTAGTCACCCAGCCAGATGAGCGCATGGAGTTGG
S
GGTGGGGGGTGTCAAAGCTTGGGGCCCGGAAGCGGAGTCAAAAGCATCACCCTCGGTCCCTTGTTCTCGCGTGGATGTCAGGGCCCCCACCCACCGAGCA
Celera SNP ID:            hCV16285406
SNP Position Genomic:     24035
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:4809):
GTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACCATAGGCTCACAACACCACACCTGGCAAATTTGATTTTTTTTTTTTTTTCAGAGACGGGGTCT
Y
GCAACATTGCCCAGACTTCCTTTGTGTTAGTTAATAAAGCTTTCTCAACTGCCTCAGCCTTGTGTGAGTTGAGGGGAGGTGTCACATCCAGCTGGAGTCC
Celera SNP ID:            hCV1931011
SNP Position Genomic:     21455
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,17)   caucasian(C,28|T,10)   total(C,47|T,27)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,8)      total(C,8|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:4810):
CATCCCTGTCTGCTCACACCTTTCTTCTCTCCCTAGTCCTGCCAGCGACTCCCCCACAACTTGTCAGCCCCCGGGTCCTAGAGGTGGACACGCAGGGGAC
M
GTGGTCTGTTCCCTGGACGGGCTGTTCCCAGTCTCGGAGGCCCAGGTCCACCTGGCACTGGGGGACCAGAGGTTGAACCCCACAGTCACCTATGGCAACG
Celera SNP ID:            hCV8726330
SNP Position Genomic:     18990
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS


Context             (SEQ ID NO:4811):
TGAGGCAGGAGAATCACTTGAACCCGGGAGGCAAAGGTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGTCTGAGTGACAAAGCGAGACTCCATCTC
A
AAAAAAAAAAAAATAAAAGAACACATCTTTAGCATGGCCTTCAGTGCTCACGGGATCTTCCTGAATTAATCTCCCCCTCTTCATCCTTGCTCACTCAGCT
Celera SNP ID:            hCV26941598
SNP Position Genomic:     8911
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4812):
CTTTCTTCTCTCCCTAGTCCTGCCAGCGACTCCCCCACAACTTGTCAGCCCCCGGGTCCTAGAGGTGGACACGCAGGGGACCGTGGTCTGTTCCCTGGAC
R
GGCTGTTCCCAGTCTCGGAGGCCCAGGTCCACCTGGCACTGGGGGACCAGAGGTTGAACCCCACAGTCACCTATGGCAACGACTCCTTCTCGGCCAAGGC
Celera SNP ID:            hCV8726331
SNP Position Genomic:     19009
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,1|G,8)      total(G,8|A,1) ;Multigenerational families from CEPH(A,-|G,-)   Northern Ireland, France, Scotland(A,200|G,1800)   Caucasians(A,24|G,177)      total(G,1977|A,224);(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:4813):
CATTACCCTGTCACCAAAGCACTGTCTATTCTATCACCCTGTTTTGTTTTTGTCAAAGCTCATATTAACATCAGTTATTAATTATCTTGTTTGCTCATAA
T
TTTTTTTTTTTTTTTTTTGGAGACAGAGTCTCGTTCTGTTGCTCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCACTGTAACCTCCACCTCCCAGGTTC
Celera SNP ID:            hCV26941599
SNP Position Genomic:     9210
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,1)   total(T,1|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4814):
TGACTCAGAGGCGCTGTTCCCGCTCCACCCAGAGCCCTGGCAACCGGGTCCCTCAGCTGTTCCCGCGGTTCCTTCCATGAGCCCAGCCTTGCGTCCCGGC
K
CCGTGTTCTTCACCGGGTGTAGGGTCCTTCCTGATCCTTGACCCAGCCTCGTCTCTCCTTTGCCCTTGCCGCAAACGCACTCTCCTCGTATCCCGGCATT
Celera SNP ID:            hCV16285371
SNP Position Genomic:     25491
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4815):
ACCATGGTCCACGGACTGGCATCTTCCCCACTCGCGGTCCGCGAAGACTCCATCTCTCCAACTACCCTGACTCAGAGGCGCTGTTCCCGCTCCACCCAGA
R
CCCTGGCAACCGGGTCCCTCAGCTGTTCCCGCGGTTCCTTCCATGAGCCCAGCCTTGCGTCCCGGCTCCGTGTTCTTCACCGGGTGTAGGGTCCTTCCTG
Celera SNP ID:            hCV16044654
SNP Position Genomic:     25424
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:4816):
AAGCCAGAGGTCTCAGAAGGGACCGAGGTGACAGTGAAGTGTGAGGCCCACCCTAGAGCCAAGGTGACGCTGAATGGGGTTCCAGCCCAGCCACTGGGCC
Y
GAGGGCCCAGCTCCTGCTGAAGGCCACCCCAGAGGACAACGGGCGCAGCTTCTCCTGCTCTGCAACCCTGGAGGTGGCCGGCCAGCTTATACACAAGAAC
Celera SNP ID:            hCV8726336
SNP Position Genomic:     19425
SNP Source:               Applera
Population(Allele,Count): african american(C,14)   caucasian(C,23|T,3)   total(C,37|T,3)
SNP Type:                 MISSENSE MUTATION

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Northern Ireland, France, Scotland(T,92|C,1908)      total(C,1908|T,92) ;(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:4817):
GTAAGGAAGGAGGCGGGGTCTCCGCGGCTCCGAGGTGGGACCAGAGGAATGCGAAGGCGGGGCGAAGAGTGGGCGGGACCTCAGTACCGGAACAGGCGTG
K
CCCGAGGGGGCGGGGCAGGTGGGGGCGGAGACGTAATCGCTGGGGAGGAGGAGCCTGTACAGCCTGAGAGGCGGGGCGCCGTACCCTAGTTCGTTCTCAG
Celera SNP ID:            hCV16044638
SNP Position Genomic:     27316
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4818):
CACTTTCCCACTGCCCATCGGGGAATCAGTGACTGTCACTCGAGATCTTGAGGGCACCTACCTCTGTCGGGCCAGGAGCACTCAAGGGGAGGTCACCCGC
R
AGGTGACCGTGAATGTGCTCTGTGAGTGAGCCGGCGGGCAGAGCTGGGTGGGGGCAGGGGCCATGGACCTAATGCAATCCTCACCGCCTGTTGTATCCTC
Celera SNP ID:            hCV8726337
SNP Position Genomic:     19900
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,7)   caucasian(A,20|G,16)   total(A,51|G,23)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,24|G,6)   caucasian(A,23|G,17)   total(A,47|G,23)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,1|A,3)      total(G,1|A,3) ;Multigenerational families from CEPH(A,-|G,-)   40 Africans; 32 white Americans; 2 CEPH individuals(G,54|A,93)   Northern Ireland, France, Scotland(G,878|A,1122)      total(G,878|A,1122) ;(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:4819):
TATGTATTTATTCATTTGTTATTTTACCAGCTATTTATTGAGTGTCTTTTATGTAGGCTAAATGAACATAGGTCTCTGGCCTCACGGAGCTCCCAGTCCT
R
ATCACATTCAAGGTCACCAGGTACAGTTGTACAGGTTGTACACTGCAGGAGAGTGCCTGGCAAAAAGATCAAATGGGGCTGGGACTTCTCATTGGCCAAC
Celera SNP ID:            hCV8726338
SNP Position Genomic:     20776
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:4820):
CGTGGATGTCAGGGCCCCCACCCACCGAGCAGAAGGCGGACTCAGGGGCGCTCCAGGGTGGCTCGAGCTCACACACGCTGAGTAGACACGTGCCCGCTGC
M
CCCTGGGTAAATACAGACCCGGAGCCGAGCGGATTCTAATTTAGACGCCCGCGAACGCTGCGCGCACGCACACGTGTCCTCGGCTCGCTGGCACTTTCGT
Celera SNP ID:            hCV27852684
SNP Position Genomic:     24205
SNP Source:               Applera
Population(Allele,Count): african american(A,21|C,1)   caucasian(A,34)   total(A,55|C,1)
SNP Type:                 TFBS;hmCS


Context             (SEQ ID NO:4821):
ACGTGGCGAAACCCCGTCTCTATTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGCTTGCCTGTAATCCCAGATACTCTGGAGGCTGAGGCAGGAGAAT
M
ACTTGAACCCGGGAGGCAAAGGTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGTCTGAGTGACAAAGCGAGACTCCATCTCAAAAAAAAAAAAAAT
Celera SNP ID:            hCV11518782
SNP Position Genomic:     8825
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,4)   total(A,1|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4822):
AGCGGTCTCGCAGGAGCCCTTCTGGGCGGACCTGCAGCCTCGCGTGGCGTTCGTGGAGCGCGGGGGCTCGCTGTGGCTGAATTGCAGCACCAACTGCCCT
Y
GGCCGGAGCGCGGTGGCCTGGAGACCTCGCTGCGCCGAAACGGGACCCAGAGGGGTTTGCGTTGGTTGGCGCGGCAGCTGGTGGACATTCGCGAGCCGGA
Celera SNP ID:            hCV3129415
SNP Position Genomic:     26063
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4823):
TTAGCGCACGCTCGCCTCCCGCCCCCCCGCCGCCTCTGCCGCCGCCCCCTCCTTGGAAACCAAGTTACCAACGTTAAACCAATCCCCAAGCGCAACTCTG
Y
CTCCCCCACACCCCACCCGCCGCGCCGCGCGGAGCCGTCCTCTAGCCCAGCTCCTCGGCTCGCGCTCTCCTCGCCTCCTGTGCTTTCCCCGCCGCGGCGA
Celera SNP ID:            hCV16044674
SNP Position Genomic:     24837
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:4824):
CCTTTTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACCATAGGCTCACAACACCACACCTGGCAAATTTGATTTTTTTTTTTTTTT
Y
AGAGACGGGGTCTCGCAACATTGCCCAGACTTCCTTTGTGTTAGTTAATAAAGCTTTCTCAACTGCCTCAGCCTTGTGTGAGTTGAGGGGAGGTGTCACA
Celera SNP ID:            hCV26941610
SNP Position Genomic:     21441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:4825):
CCAAGGCCCAATCTCCCTGAAGGTCCCATAAGGTCTTGCCTCCAAGTCCTGCCCCCACCCACCTCCATGTCATCTCATCGTGTTTTTCCAGATGGCCCCC
R
ACTGGACGAGAGGGATTGTCCGGGAAACTGGACGTGGCCAGAAAATTCCCAGCAGACTCCAATGTGCCAGGCTTGGGGGAACCCATTGCCCGAGCTCAAG
Celera SNP ID:            hCV11970360
SNP Position Genomic:     19685
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,35)   caucasian(G,38)   total(A,3|G,73)
SNP Type:                 MISSENSE MUTATION;UTR 5;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;UTR 5;hmCS


Context             (SEQ ID NO:4826):
CTGGTCAATGGCCCCTATCCCCCAAGGCCCAATCTCCCTGAAGGTCCCATAAGGTCTTGCCTCCAAGTCCTGCCCCCACCCACCTCCATGTCATCTCATC
R
TGTTTTTCCAGATGGCCCCCGACTGGACGAGAGGGATTGTCCGGGAAACTGGACGTGGCCAGAAAATTCCCAGCAGACTCCAATGTGCCAGGCTTGGGGG
Celera SNP ID:            hCV11970361
SNP Position Genomic:     19664
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 INTRON;UTR 5

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;UTR 5


Context             (SEQ ID NO:4827):
AGTAAGAAGGGGCAGGGGCGGAGTGGGGCTTCTTGGGGGTGTGACCTGAACCCGGGGCGGGGCTCACTGTGTGCCTATTCCAGGCTTTCCGGCGCCCAAC
R
TGATTCTGACGAAGCCAGAGGTCTCAGAAGGGACCGAGGTGACAGTGAAGTGTGAGGCCCACCCTAGAGCCAAGGTGACGCTGAATGGGGTTCCAGCCCA
Celera SNP ID:            hCV11970362
SNP Position Genomic:     19313
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(A,4|G,76)      total(G,76|A,4) ;(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:4828):
TTCTTCTCTCCCTAGTCCTGCCAGCGACTCCCCCACAACTTGTCAGCCCCCGGGTCCTAGAGGTGGACACGCAGGGGACCGTGGTCTGTTCCCTGGACGG
K
CTGTTCCCAGTCTCGGAGGCCCAGGTCCACCTGGCACTGGGGGACCAGAGGTTGAACCCCACAGTCACCTATGGCAACGACTCCTTCTCGGCCAAGGCCT
Celera SNP ID:            hCV11970364
SNP Position Genomic:     19011
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(T,12|G,68)      total(G,68|T,12) ;(G,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:4829):
CGAGGGCCCAGCTCCTGCTGAAGGCCACCCCAGAGGACAACGGGCGCAGCTTCTCCTGCTCTGCAACCCTGGAGGTGGCCGGCCAGCTTATACACAAGAA
Y
CAGACCCGGGAGCTTCGTGTCCTGTGTGAGTGGGGCTGCTGGTCAATGGCCCCTATCCCCCAAGGCCCAATCTCCCTGAAGGTCCCATAAGGTCTTGCCT
Celera SNP ID:            hCV15868938
SNP Position Genomic:     19525
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,6|C,1481)   total(C,1481|T,6) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:4830):
CCTCTTGGCAGCCAGTGGGCAAGAACCTTACCCTACGCTGCCAGGTGGAGGGTGGGGCACCCCGGGCCAACCTCACCGTGGTGCTGCTCCGTGGGGAGAA
S
GAGCTGAAACGGGAGCCAGCTGTGGGGGAGCCCGCTGAGGTCACGACCACGGTGCTGGTGAGGAGAGATCACCATGGAGCCAATTTCTCGTGCCGCACTG
Celera SNP ID:            hCV11970365
SNP Position Genomic:     18507
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(C,4|G,76)      total(G,76|C,4) ;(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:4831):
TGCTGAGATTACAGGCATGAGCCACCGTGCCCGGCCTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCACTCTGTCGCCCAGGCAGGAGTGCAGTGGT
K
CGATCTGGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACTCCATCCTCCTGCCTTAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCACCACCACGCCTG
Celera SNP ID:            hCV9322576
SNP Position Genomic:     15828
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|G,6)   total(G,6|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4832):
GAAAGCAGCACCGCCCCTTGGCCCCCAGGTGGCTAGCGCTATAAAGGATCACGCGCCCCAGTCGACGCTGAGCTCCTCTGCTACTCAGAGTTGCAACCTC
M
GCCTCGCTATGGCTCCCAGCAGCCCCCGGCCCGCGCTGCCCGCACTCCTGGTCCTGCTCGGGGCTCTGTTCCCAGGTGAGTCGGGGTGGGGATTGCCGTC
Celera SNP ID:            hCV11970367
SNP Position Genomic:     6048
SNP Source:               Applera
Population(Allele,Count): african american(A,29|C,7)   caucasian(A,40)   total(A,69|C,7)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,31|C,7)   caucasian(A,40)   total(A,71|C,7)
SNP Type:                 UTR 5

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): Africans from Harare, Zimbabwe(C,32|A,48)      total(A,48|C,32) ;HYP1(C,32|A,48)   total(A,48|C,32)(A,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:4833):
ATAAGGACAGGCATTCTGGGCAGGAGGAACAGCCTGGGCAAAAGTTGGGAGCAGGGAGAAATCTTGATGGAGGCAGGAGGAGGAGGAGGTAGGTTGGTGT
R
GGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGTGCTTTGGGAGGCCAAAGCAAGAGGATTGTTTGAGCCCAGGAGTTCGAGACCAGCCTGGGCAACAT
Celera SNP ID:            hCV944683
SNP Position Genomic:     14157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4834):
TAGCCTGATGAGAGGGGAAGTGGTGGGGGAGACATAGCCCCACCATGAGGACATACAACTGGGAAATACTGAAACTTGCTGCCTATTGGGTATGCTGAGG
Y
CCCACAGACTTACAGAAGAAGTGGCCCTCCATAGACATGTGTAGCATCAAAACACAAAGGCCCACACTTCCTGACGGATGCCAGCTTGGGCACTGCTGTC
Celera SNP ID:            hCV27452244
SNP Position Genomic:     20553
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:4835):
TTGATTGATGGGAGGAAGGGTGAGGTTGGCAGAGCCTTGAATGCCAGGTGGAGGAGCTGGGACTTTCCTTCTTGGGGTGATAGGGAGTCATGGAGGGTTT
S
TGAGCAGGCCAGGGATTAGATAGCTGAAGGCTGGATTTACTGGAAGCCAATGAGCAGTTGGCTATGGTCCTTGTCCACGCGGCCCATGTTGTGGGCAGTG
Celera SNP ID:            hCV944685
SNP Position Genomic:     14877
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4836):
AATACCATAAGATTCATCCCTTTTAAGCACATAATTCAATGACTTCTGTACAAACAACCATGACTACAATCTAATTTTAAAATATTTCAATCACTCTAAA
M
AAGAAACCTCCTGCTTATGTACAGCGACTCTGTCTACCTCTTAAGTGAATTCTCCTACCTTTAATAGCCCTATTTTACAGTTCAGGAAACTGAGGTTCAG
Celera SNP ID:            hCV944686
SNP Position Genomic:     16440
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4837):
AATGTGCTATTCAAACTGCCCTGATGGGCAGTCAACAGCTAAAACCTTCCTCACCGTGTACTGTGAGTAACTGAGCCCGGAGGGCTGGACTAGGCAGACC
S
GGTGGGAGAGACGTGCAGGGGCACCTGCAGAGGCCTGGGGGAATCTTTGCCACTTGCTCGTAGGGTCAAGGAGGGGCTCCTTGCAGGGCAGGTGGGGACA
Celera SNP ID:            hCV22274332
SNP Position Genomic:     9964
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,21)   caucasian(C,22|G,16)   total(C,23|G,37)
SNP Type:                 INTRON


Gene Number:                 18
Celera Gene:                 hCG28718 - 103000085265194
Gene Symbol:                 SERPINF2
Protein Name:                serine (or cysteine) proteinase inhibitor, clade F (alpha-2 antiplasmin, pigment epithelium derived factor), member 2;A2AP;AAP;ALPHA-2-PI;API;PLI
Celera Genomic Axis:         GA_x5YUV32W2JD(13770341..13795663)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1679):
GCTGTCGCTGGCTCCCTCCAGAGCCCCAGGGAACCCTCAGCTCAAGGTGCCCCCAAATTCTAACTTTCCAAGAAAGTGTCAGGAGGGCTCTGGGGTCAGC
CTGGGTGTTAATCCCAGCTCTGCTGCTTGCTGGCCCCATGACCTTGGTATGGTTACTTCACTTCTCTGAGCCTCGCTTTTCCTGTTTGTGAAATGGGGAC
AATGGCAGCATCCACCGCATAGGGTTGTTACGAAGGTCAAGGTCGTCACGTGCACGCCTGGCACCATGCCTGTGCGTAGTTCTCAAGTTAGAGTGACGAC
TGGGTTACGGATGCTGAGCGTATTAAAATGAACCAACGTGAATATGGTGTGTGTGGGAGGGTGGCGGCTTGTCACCCACCCAGGACGGCCTGTCTCCCTG
GAGAGAAACTGCGGAGGGAACTGGGAAGGCCTTGGGGCCCAAGGGTATGCAGAAGGACCCAGGCTCCTGCTGAGGCTCTCCTCTCCCGGGACAGGCGGTG
GAGGGCAGCGTCCTGGTCAGCTCCTCCTCTGACCATTCCTTGACYGTCTGGAAGGAGCTGGAGCAGAAGCCCACCCATCACTACAAGTCAGCATCCGACC
CCATCCACACCTTTGACCTGTACGGCAGYGAGGTGGTCACTGGCACCGTGTCCAACAAGATTGGCGTCTGCTCCCTGCTTGAGCCACCCTCGCAGGCCAC
CACGAAGCTCAGCTCTGAGAACTTCCGCGGCACGCTCACCAGCCTGGCCTTGCTGCCCACTAAACGCCACCTCCTGCTGGGCTCAGACAACGGGGTTATC
CGCCTCCTGGCATAGACTGAGGCAGGAGCTGGCCGGGCAAGGGTGGGAAGACATCTGCGGGCGCGTGTCCACTCACCCTGTTCCCTGAGCAGCAGCTCCC
TCCAGGGAGGCCCTGGGTCCCACGCCCTGGGTGCCCACATGGCCTGCCAACTAGGGCCTGCAAATGGAGTGGGGGAGTCCTGGCCCCTGAATCACCAGAG
CCACCAAGCCTGCCAGAGGGGTCTCATTCATGGCTTGGGGACACAGGGCTCCTAGCAAGCAGGAAGTTAAGAGCAGGAGGAAGCGTTGCTACCTTCACTT
CTCCCCAGCTCTGCCCTCTGGGTCCACATGAGGACAGGGAAGCTCGGGAAGGGGAAGGGAGACTGGCCCTGCCCAGCCGGTCTCTAGCCCCTCAGCCCCC
GCTGGGCACTCTCTGTCCCATCCCTCTAGGACAGGGAAGCTGGCCTGGTCCAGGGCACTGATGGTGCTTGGATTCCAGCCTAAGGAAGGCTGGCCGTGGT
CCAGGAGTTAAGGGCTTGGGTCTGGGGTTTAAGTGGCCACCCATCCAGGCCCTGGCCAGTGTGGGACCGGGACGGGAAGGAAGAAGGAGGCTAGGAGCAG
GGGGAAAAGGTGCACTTGGCCAGTGGCGCCTGCCAGGAGTGAGTCCATGCGTTGTCTGCCCACCCCTACCACAGTGTTTGTGCCTTCAGCTGAGGGGGCA
GCCTCTGGGCCCTGAACCCCTGCTGGGGCTCCACGACCCTGAGAGAAGGGGTGAGAAGAATCATCTCTGCACCTCGGGTCTCTGCCAGAGGAAGACTTAA
GCATCCCTGCGACCTCACATTCTAGACAGAGATGAGGTCCAGGGGTTGGCCCCTGCTGCCTTCTCACAATTTGCAATAGATGTAAATAGGACCAATAAAT
CCTTTGGAAGAGCCATGGGGTGAACTGAGGCTTGTCTTTTTTTTTTTTTTTCAATAGAGATGGAGTCTGACTATGTTGCCCAAGCTGGTCTCCAACTCCT
GGGGCTCAAGCGATCCTCCTGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCATGAGCCACCACGCCCAGCCTGAGGCTTATCTTGCTGGTGGTGTCAG
GGTGGGGAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCAGGGAGTGAGGAGCAGCACAGTGAGGGTGGGAGGCGGCCTGATGCAGGGAGTGAGGA
GCCGGACAGTGAGGGTGGGAGGCGGCCTGATGCAGGGAGTGAGGAGCAGGACAGTGAGGGTGGGAAGTGGCCCGATGCAGGGAGTGAGGCGCAGGACAGT
GAGGGTGGGAAGGAGCCTGATGCAGGGAGTGAGGAGCCGGACAGTGAGGGTGGGAAGGAGCCTGATGCAGGGAGTGAGGAGCCGGACAGTGAGGGTGGGA
AGGAGCCTGATGCAGGGAGTGAGGAGCAGGTGTGAGGGCGGGAAGCGGCCTGATGCAGGGAGTGAGGAGCAGGACAGTGAGGGTGGGAAGGAGCCTGATG
CAGGGAGTGAGGAGCAGGTGTGAGGGTGGGAAGGAGCCTGATGCAGGGAGTGAGGAGCAGGATAGTGAGGGTGGGAGGCGGCCTGATGCAGGGAGTGAGG
AGCAGGTGTGAGGGTGGGAAGCGGCCTGATGCAGGGAGTGAGGAGCCGGACAGTGAGGGTGGGAAGGAGCCCGATGTAGGGAGTGAGGAGCAAGTGTGAG
GGCGGGAAGCGGCCTGATGCAGGGAGTGAGGAGCAGGACAGTGAGGGTGGGAAGGAGCCTGATGCAGGGAGTGAGGAGCCGGACAGTGAGGGTGGGAAGC
AGCCTGATCTTTGCACGGGCTGCCAGGCTTCTGGTTCATACAGCCCCAGGTCAGTTTCCAGAACCCTCGCTCTTGGGTAGGGGAAAGAGACATTGCTCTG
GAGTGGCAGGACGGTGGGAGAAGTTGAGTCCCTCTCATTTCTCCTCCCTCACCCCCTGCCTTCCATCCCAGTCTGAAGGCAGCCAACCTGATCCTGGGCT
TGGAAGGTTGGGGGTGGGCTTCCTATCCTGGGCTCTCTGCATAGGCTCTTGTGGCTTCCCCTTTCCTCCCCTCAGGAGCGGGAGGCAGCTCTCTGGGAGA
AGAAAGGACATTGGGAGTGAGAATCTGGATGTGCCTCAGCCCAGCTCTGTGTCCTTGGGCAGGTCACATGGCCTCTCTGAGCCTGGCTGAACCAGGGATA
ATCCACACCTCGTGGGGTCTCTGGAAGGCTTAACACAGTGCTAGGTTCCTGTGCTTTCTGGATCCGCCCTCTTGGCTAGCCAGATCCAGTCTCTTCAACT
CTCTCCTCCTGAACTTTCTCTTTCCAGGCTCGGGGGGGGGGACCCAAATATAGGGGGTTCTGCGTGGCTGCCTCAGGGTTAGATGCCCTGGTGGGAAAGG
GGCTTCTGGCTTCAAGATCAATGTTTAACTGGATGTGCAAGTCAATATTTACCAGAAGAGAAAGCAATCTGAACAGGGGTTGGCTGAGAGTAAAGGTCCT
GGTGGGAGGGGAGGGGTGGGCTGGGCCAGCTGGAGCCTGGGCAGAGAGTGAGGAGCACCCAAGTGGGGCCAGAGGAACGTTGTGTGTGGCAGCAAGGAGC
CCGCAGAGGTATGAGGGGAGGGGCTGCTCGGCCTGCTCCTTGGGTAGGAGAGGAGGAGGGAGCTGCCTCCCTGGCTGAGGGGTCTGGGATTTATTCAGGA
GGCCTGTCACTCCCCAGCCTCTYCTGGGACTTGAAAAACTGGAGCCTGTTCTTGGCAAGAAGATTCTAATGCCCAGGTCGGAGTCGGGGCCCTGGCCAAG
GGCTCTTGTGTGGGATGGGGGTGGGGCCGGGGGGACCAAAGGATCCTCCAGAAGGGTTGGCCCCAAGATGGGGGTGGGCTGGAGGTAGCTGAGACCTGCT
CTGACTTATCCTCCTGAGACCAACACCTGCCCTTCCCAGAGCCAGCCTGGAGCAGAGGCCTGTGATGCTCCTAAGTGCAGAGGTGGCTCTGGCCAGAGTC
ATTCACTGGGCTCTGCTGCTGGGTCAAAAGGCAGCTCTCTGGCTGCCTTGCCACCCATGGTGAGACCTCAGGGCCTCACAGGTATGTCCAGCCTTGTGGG
CAAGACCTGACCAGCCTGAGAAAGACGGGTTGGGGCCAGGCGTGGTGGCTCATGCCTGTCATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTG
AGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCTGTCTCTACTAAAAATACAAAATTAGCCAGGCATGGTGGCACATGCCTGTAATCCCA
GCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTTAACCCAGGAGGTGGAGGTTGCAGTGAGCCGAGATCGTGCCATTGCACTCCAGCCTGCATGATAAGA
ATGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAGACAGGCTAAATGGATGCAGCAGGCTGGGTAGGAGCTCTGTGTTGGAGCTCTGCGGTGGAG
GCTTCAGGGCAGGCTTCCCAGAAGAGGTGGCCTTGAGCCAAGCTGACCCCAGCCATCGGGGGAGTGCCAAGCATTGTACTCAGGGTTTACAAAGATGGTC
TTATTTATTTTTTTGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCA
GTTCTCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGGGCCCACCACCACGCCTGGCTAATTTTGTATTTTCAGTAGAGATGGGGTTTTACCATGTTG
GCCAGGCTGGTCTTGAACTCCCGACCTCAGGTGATCCACCTGCCCCTGGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCACCGTGCCTGGTCACAAA
GATGGGTTTTTGCGACGCGCAAAGGCTCCCGACCGGAGCACACGCCGGCTGACCTGACTCGAGGAAGAGGAGCCTTCACGTGCGTCCTGCACCCTTGGCC
CTGCGAGACTACCGTGAACCCCGAGAAGGGATCAGGCGCCGATCTGACCAACCGGAGGCGGGATAAGCCACTCCCTAATANNNNNNNNNNNNNNNNNNNN
ACTGCTGACTCTGGGGCAAGGGCAGAGAATGGGGCCTCCCAAGGGAGGAGACAGCCACAAAGACTGTGATGGGGAACGTGATGGGGCAGTACCCAACAGG
CAGGAGAAGGGCACGTAGCCACAAAGATGGTCTTTTGCCGGGTGCAGTGGCTCATGCCTGTAATCCCAGTACTTTGGGAGGCCGAGGCAGGAGGATCACC
TGAGGTCGGGAGTTTAAGACCAGCCTGACTAACACAGAGAAACCCCGTTTCTACTAAGAAATACAGAATTAGCCAGGCGTGGTGGTGCATGCCTGTAATC
CCAGCTATTCGGGAGGCTGAAGCAGGAGAATCGCTTGAACCTGGGAGGTGGAGGTTGCGGTGAGCCGAGATCCTGCCACTGCACTCCAGCCTGGTCAACG
AGAGCGAAACTCCGTCTCAAAAAATAAACAACAAAAAATCCCAAAAAGACGGTCTTATTTTGGTCCTCACCATGCATGTGAGAAGAGTGAGGGACTTGTG
CCACCGTTTKACAAGGTAAGGCCAAGCCTGGTGGAGTTACGGGAAATGCCGAGGTCCTTTGGCAAGAGGTAGCCTGGATTCAGACACAGATCTGATTCAC
AGCGCAGGGCCTTGTAGAATGAGAACGTTTTTGATTTGGTATCTCCCTCCTATTCACCAAAACACCCTCAGTGCATGAAATGCATGAAATATGAAACACC
AGAAACTAAAAAGGGGGAGAAGCCAGGGCGGATGTCCCAGCTGCAGGAGTGGGAGCCGCTGCTCGTGTGTTTGGGGTCTGTTCTGATTCTGGAGCCTGCT
TCTTCCCCTTGGCAATCATGACCCAGGACTTGGCGTTATCTGTGATCGCGTGGGTAGGATTCCCTGGCGGGCGTGGGGATGTGAGATGGGAACAGAGCTT
TCTGTCCCTGCCACAGGAACATGGYGCTGCTCTGGGGGCTCCTGGTGCTCAGCTGGTCCTGCCTGCAAGGCCCCTGCTCCGTGGTGAGGCTGGGCTGAAG
TCAAGGTGGGGTGGGGTGGAGGGGGAAGAAGAGGGGCGTTGGCATGGAGGGAGGGCTTGGCTCCGAGGGGACCTCCTATCCTCATCCCTTTCTCCACAGT
TCTCCCCTGTGAGCGCCATGGAGCCCTTGGGCYGGCAGGTACTGGGGAGTGAGGAGCCTGTGATGGGGGGAAGGTCCCGGGGGTCTCACTGGTGGCTTGG
GCAGGGTGGGGGGCCTGTGGGAAGGGTCGGTCTCCATCTGCTTGCTCCTTTCCGCAGCTAACTAGCGGGCCGAACCAGGAGCAGGTGTCCCCACTTACCC
TCCTCAAGTTGGGCAACCAGGTACAACCAGGTGGGGCTGGGGAAGAGTGGGCGGGGCTAGAGGGAGGAGGGCCCATCGGCAGGGGTCGGGGGGTGGGGGC
GCGTGCTGAGGCTGAGGCTCTGGAGTCCAGAGGCCAGAAGGGAGAGAGGGTGGGGAGGACCGAAGGTGGGCGCCAGGCCCCAGAATGCCAGTGCCCTCCG
TCTGACGCTCCCTCTTCCCTGGGGCTGGGACAAGGCCCTGCTGTCCTCAGGCACAGGGGCTGTGACAAGGCCTTCAACACAGAACCTGGAGCTGACCCCT
TGACCTCCCTGACCCCTGATCTGTCCYTGCAGGAGCCTGGTGGCCAGACTGCYCTGAAGAGTCCCCCAGGAGTCTGCAGCAGAGACCCCACCCCAGAGCA
GACCCACAGGCTGGCCCGGGCCATGATGGCCTTCACTGCCGACCTGTTCTCCCTGGTGGSTCAAACGTCCACCTGCCCCAACCTCATCCTGTCACCCCTG
AGTGTGGCCCTGGCGCTGTCTCACCTGGCACTAGGTACCCTGGCACCACTTGTCCAGACCAAGAGAGCTGGAGGCCAGTAGGAACTCASTACTCCARTGG
TTCTCCGCGGGCGGTTCCTCCACCAGGGTCACGTGGCTGTTTGGTAAAAATGCAGATTCCTAGGCCGGGGCGGTGGCTCACGCCTGTAATCCCARCACTT
TGGGAGGCTGAGGCGGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACTCTCTCTACTAAAAATACAAAAAATTTAGCTGT
GCGTGGTGGTGCGCASCTGTAATTCCAGCTACTCAGGAGGCTGAGGCAGAGAACTGTTTGAACCTGGGAGTTGGAGGTTACAGTGAGCCGAGATGGCGCC
ACTGCACTCCAGCCTGGGTGACAGAGCAAGATTCCGTCTCAAACAACAACAACAACAAATGCAGATTCCTGGGCCCCCACCCATCTGTCTATGTGAATCA
GATCTCAGGGACTGGGCCGGGGAATCTGCTTATTTACAAGTCCTCCTGGTGATTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTAG
AGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCTGTCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAATAGCTGGGATCACAGGCACCAG
CCACCATGCACAGCTGATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGGTGGTCTCGAACTCTCGACCTAAGGTGATCAACCTGCC
TCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCCCTCCTGGTGATTCTTATGCAAGAGTTTGCTAGCTACACTCTTTCCCACT
GTGCTGGAGGGTCTCACTGTGGGAAACGGAAGCCCAGAGAGGGAAGGTAACTTGYGGGGGGTGAGGTCACCCAGCCTGTCAGCCACAGGGGTGAGAGYCA
CGCAGAACAGATCCGTGGCTGTGGAAGGATGGCGTGTGGTCCCGTGGACGTCCTCGTCACGGGTATCCAGGAGGGACTGGAGTGGGCAGTGGGGGTGAGA
AAGGACCCGCAGCCGGGCCTCAGCCTGTGCGGTGCCCTCCAGGTGCTCAGAACCACACGTTGCAGAGGCTGCAACAGGTGCTGCACGCAGGCTCAGGGCC
CTGCCTCCCCCATCTGCTGAGCCGCCTCTGCCAGGACCTGGGCCCCGGCGCGTTCCGACTGGCTGCCAGGATGTACCTGCAGAAAGGTAGGCGCTGATGG
CAGGGAGCTCCCTCAGTCCTGCCCTGGGTGGAGGAGGGTGAGAGCAAGGGGCTGGGCCTCTGGTAKCGAGTAGGGGCGTGTCTGGCTGTGGAGCCTGGAG
CCCTGGGAACAGCTTGTGCTGCCTCCGTGCAGGATTTCCCATCAAAGAAGATTTCCTGGAACAATCCGAACAGCTATTTGGGGCAAAGCCCGTGAGCCTG
ACGGGAAAGCAGGAAGATGACCTGGCAAACATCAACCAATGGGTGAAGGAGGCCACGGAGGGGAAGATTCAGGAATTCCTCTCTGGGCTGCCGGAAGACA
CCGTGTTGCTTCTCCTCAACGCCATCCACTTCCAGGGTGCGCTCCTCCTCCTCTCAGATCCCCCACCCTGTAGGCTGAGCTGGGACGTGCAGGCCTTTTT
GTTTTTTGAGACAAGTCTCGCTCTGTCACCCAGGGTGGAGCGCAGTGGCGCGATCTCGGCTCCCTGCAACCTCCGCCTCCCGGATTGAAGCGATTCTCCT
GGCTCAGCCTCCCCAGTAGCTGGGATTACAGGCATCTGCCACCACACCCAGCTAATTTTTGTATTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGC
TGGCCTTGAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCATGCAGGCTTTGT
TCTGAGGGTCTCCTTTCTTCCTCAGTCTGGGCCATGAGGCAGGAGGCTGTCTGGGTGTGGTGGGGATGGGTGCCCAGGAGCCAGATGAGTTGTTCTAGAG
TGAATACCCTGGGAACAAATGGTCTGAAAAGATGCAGGAGGGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCGAGGCGGGCAG
ATCATGAGGTCAGGAGATGGAGACCATCCTGGCTAACACGGTGAAACCCCCGTCTCTGCTAAAAATACAAAAAAATTAGCTGGGCGTAGTGGCGGGCACC
TGTAGTCCCAGCTACTCGGGAGGCTGASGCAGGAGAATGGCGTGARCCCGGGAGGCGGTGGAGCTTGCAGTGAGCGGAGGTCGTGCCACTGCACTCCAGC
CTGGGCGACAGAGCGAGACTCCGTCTAAAAAAAAAAAAAGATCCAGGAGGAGGTTCCTAGGAGAATTGCAGGGGTTGGGGAAAACACAAGCCCAGATTTC
AAAAATGCTACGGGAAAGAGACCTYAGATCAATTGGATGCCAGCTAGCATTCCCTGGGGTCTTGGCCTCCACCGCTGTCTCATCCTTGAATGGATTCTGG
GTGGGACRGGCAACGGGCTGGGGGTGCAGAGCCCAAGCTGGTCCCCATCGACGTGACCCCTGCCCTCTGCCCCAAGCTGGTCCCCGTCGACGTGACCCCT
GCCCTCTGCTGGGTTTCAGGTTTCTGGAGGAACAAGTTTGACCCGAGCCTTACCCAGAGAGACTCCTTCCACCTGGACGAGCAGTTCACGGTGCCCGTGG
AAATGATGCAGGCCCGCACGTACCCGCTGCGCTGGTTCTTGCTGGAGCAGCCTGAGATCCAGGTCACCCTTGGTTGTCCAGCAGGCTGGGCCTGAGGCTG
GGAGGTGGGGAAGGGAGTGGACAGGCTGTGGAGCAGGCACAGGGATGGGTGGAGGCTGTCTCGCCTTCCTTGCCTCCACGTCCCCTAGGCAGGCAACTGC
AAAAGGTCCCATGATCCCCCATCCTACCTGGCAGGAGGACTGAGGCTCCAGGCTCTTTGAGGTTTAGTAATTCAGTGAAAATATACTGGGCATTTGCTGT
GTTCCAGATACTGTTCTAAGCACTAGGGTTTTTGTGGAGCATGAGGGAGGCCAGGTCTCTGCTCTTAGGAAGGAGGATACACAGTGCAACAGTGAATGGA
CATCAACACAGGAATTCCAGACGCTGGGAAGCGCTGTGGAGGGAAAGCTGAAAAAGAAGGTGATTTTGGCCGGGAGCGGTGGCTCACGCCTGTAATCCCA
GCACTTTGGGWGGCCCAGGCAGGTGGATCATAAGGTCAGGAGTTTGAGACCAGCCTGGCCAAGATTTGAAACCCCGTTTCTACTAAAAATACAAAAATTA
GCCAGGCGTGGTGGCAGGTGCCTGTAATCCCAGCTACTCCAGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGGAAAGGTTGCAGTGAGCTGTGAT
TTTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATAGCAAAGCCCCGTCTCTACTAAAAATACAAAAATTAGCCAGCCATGGTGGCGGGYGCCTGTAA
TCCCAGATACTCTGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGACGGAGGCTGCAGTGGGCTGAGATCGCACCACTGCACTCCAGCCTGGGAGA
CAGATTGAGACTCCGACTCAGAAAAAACAAAGGCTGGCCTTGAACTCCTGACCTCAGGTCATCTGCCCACCTCGGCCTCCCTAAGTGCTGGGATTACGGG
CATGAGCCACCAGGCCTGGCCTTATTTAGGCATTTTAGAGTGGTAAGGGAGAATTCTGTGAGGAGGGGGCATTGAATTGAGACTCAGGTGACCGTTGTTG
ATAAGGGTTTATTACAAGGGCCCATGGACTTTGGGGCAGCACAGGGACCACCCCACGGCCATGTAGCCACTCAGGGTCTCTGCAGCCCCCAGCCTGGGAG
ATTCCACGGGGCGCTCACACAGTGCTCCTTAGAAAGGAGGATCTGATTGGATTGGATTTCTCAGCATCTTGCGTGGAACATTCTGATTGGATAAACTTCT
TTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAGCCTCTGCCTCCTGGGTTCAAGCCA
CTCTCCTGCCTCAACCTCTCGAGTAGCTGGAACTACAGGCATGCACCACCACGCCTGGCTAATTTTGTTCGTTTGTTTGTTTGTTTTTGAGACGGAGTTT
CTCTCTATCGCCCAGACTGGAGTGCAGTGGTRCAATCTCGGTTCACTGCAATCTCTACCTCCCGGGTTCAAGGGATTCTCCTGCCTCAGCCTCCCGAGTA
GCTTGGAMTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATATTGGCCAGGATGGTCTCAATCTCCTGA
CCTCGTGATCCGCCTGCCTCAGCCTCCCAACGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCGGCCAATTTTTGTATTTTTTTTTTTTAGTAGAGACA
GGTTTCACCATGTTGGCCAGGCTGATCTCAAACTCCTGACCTCAAGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTATAGGCAGGAGCCACTG
CGCCCAGCTCTGATTGGATAAAATTCCGTGCCAGGCTGTCTCAGGTGTGGCCTCTCTTGCTTCTAGCCTAAATGTGGTCCCCTTGGCCTGGGTATTGATC
CCCGGGCCAGACAGCTGTGGCTGAGATGGCTGTATTTGTTAGCTTCCCAAGGCAAGTGTGACACAGAGCACAGCCRCTTCTGCAGGGAGGAGCCAGAAGC
CACTTGGGCAGCCCTCCTGGGAGGGGGCTGTGGGTGAGGCTGGCCCGGGAACGCGTCCTGGCTTCCCTGCAGCTCATTCTGAAAGGCCAGTCTGATCCAC
CTCCCCGAGGCTCCCCTTTCCTGCTTCCCCTTTCCTCCAGGCTGTGTCCTGCGTACTCTTCCTTCATCCTTCGTCTCCTTTCCTTAGGCCCCGTCAGCCT
TTCTTGTCCTCAGGCCCTCTGCAGACAGGCCCAAACAGCCAGAACCCGGGGCTTATCCTCCCACGGGCAGGGGTTCTCCACACGGGTACTCTGCCTGGAA
CCCAAGGAGTCACAGCTGCAGGAGGCCCTCGAGCCCTGTGGTGTCCACACTGCTTTTGCTGCAGAATCCCTTCAAATCAAATCTTAATGGCTGGGCACGG
TGGCTCACGCCTGTAATCCCAGCACTGTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCTGGAGTTTGAGACCAGCCTGGCCCACATGGTGAAACCCCG
TCTCTACTAAAAATACATCAATTGGCCAGGTGAGATGGTGAGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGTG
GCAGAGGTTGCAGTGAGCCAAGATCATGCCACTGCACTCCAGCCTGGACAATAAGAGTGAAACTCTGTCTTGAAAAAAAAAAAAAAAGAGGCTGGGTGTG
GTTTACAGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACGAGGTCAGGAGATTGAGACCATCCTGGCTAACACGGTGAAAC
CCCATCTCTTCTAAAAATACAAAAAATTAGCCGGGCGTAGTGGCGGGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATGGCGTGAATCC
ACGAGGCGGAGGTTGCGGTGAGCCGAGATTGCGCCACTGCACTCCAGCCTGGGCGACAGTGCGAGACTCCAACTCAAAAGAAAAGAAAAAAAAAGAAATC
TTAAGCCAAATCACAATATATTTACACAGCTGGCAAAGTCACAAGAGGGAGGTGWGGGAGGGTGGGGCGGGCAGCACTCGGCAGTGGCTCACCCACAGAA
CCCAGCTGTGGTATGACAGCCAGTGACCCTGTCTGTGGTACATCTGGAGAAGCTGAGACAAAGACAGGCGATTCCTTACGCCGGGTCACACGGCCAGCTG
GTAGCCGGTGAAGAGAGAAAACCACCAGGTATTATTGAGCACCGTCTGTGACAGCGGACACTGCTACAATGTTGTTTTTTTTCTTTTTTTGAGACGGATT
TTTACTCCTGTCCCCCAGGCTGGAGTGCAGTGGCTTGATCTTGGCTCATGGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGA
GTTGCTGCGATTACAAGCKCCCGTCACCACAGAAGCCCAGCTCATTTTTGTATTTTTAGTAGAGATGAGGTTTTGCCATGTTGGTCAGGCTGGTCTTGAA
CTCCTGACCTCAGGTGATCTGCCTGCCTCGGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCCCCATGCCCGGCCACACTGCTAGAAACTTTAAAAGC
ATCTCATTCGGTTACGTGTCCGCCTGCAGTGGGACAGGTAGTATGACTCCACCCCACTGTGAGGAAGTGGAGGAGCAGTGGGGTCAGTCACACGCCTGGC
AGGATGGCCAGGAGCCCCATTGTCTGCCTTAGGAGCACCTGCTGGCCCCACCCCCACTTAGCTTCGGGGCTTTCTGTCCTCATGCTCTTCCCTTCCCTTT
TCTGTAGGTGGCTCATTTCCCCTTTAAGAACAACATGAGCTTTGTGGTCCTTGTACCCACCCACTTTGAATGGAACGTGTCCCAGGTACTGGCCAACCTG
AGTTGGGACACCCTGCACCCACCTCTGGTGTGGGAGAGGCCCACCAAGGTCCGGCTGCCTAAGCTGTATCTGAAACACCAAATGGACCTGGTGGCCACCC
TCAGCCAGCTGGGTAAGGAGGAGGGTGCGGGCGAGCCCCCGAGGTCAGGCTGGGCAGGGCGGGTAAGGAGGAAGCGTCTGGCTGGCAGTGGAGCTGAGTC
AGAGCTGTCCTGTGTCCTGCTCTTTTCCAGGGCTTCGGGAGCRGGGAGAGGGTTGAATATGAGCCCCCAGACCCTCTGTCCTAGAGGAAGTTGGGGTGGC
CCGGGGAATGGGGCTCTGCTTTGCTGCCCAAGACCTCGCATTGCAAGGAGAGTCTGGGTAGAGAGCCTGGGATGGCATGTGAGCCTCGCTGGCTTCCCTG
GAAGGGGAAGGAGGAGAAGCTGGGGTGTCACACTGTTAAAGAAATGCTGGGTGGAGTGGCTCATGCCTGTAATCCCAGCACGTTGGGAAGCTGAAGTGGG
TGGATTGCTTGAGCCCGGGAGTCCGACACCAGCCTGTGCAACACATTGAAACTCCGTCCCTACAAAAAATACAAAAATTAGCCAGGTGTGGTGCATGCTA
CTGGGGAGGTTGAGGTGGGAGGCCCTCTTGACCCCAGGTGGCTGAGGCTGCAGTGAGCCATAATTGTGCCACTGCACTCCAGCCTCAGCAAAAGAACTAA
GACCTTGTCTCAAAAATAAAAATAAAGGCCGGGCATGGTGGCTCACGTCTGTAATCCTAGCACTTTGGGAGGCCAAAGAGGGTGGATCACCTGAGGTCAT
GAGTTTGAGACCAGCCTGGCCAACATGGCCAAACCCRTCTCCACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCATGCCCATAATCCCAGCTACTT
GGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGAGGAGGTTGCAGTGAGCCGAGATCACGCCACTGTACTCCAGCCTGGATGACAGAGTGAGACT
CCATCTCAAAAAAAAATTATAATAACTAAAATAAATAAATAAAGCATCTATCCTTCAGCCATTTGCTAAGCAGCTGCTGTATTCCAGGCACTGTACCAGG
YACCGGGAGCCCACCATGTACAAACAGCTGAGTCTAATGGGGTGGGCAGACGAGCAATCACATACTTACTACAGCATAAGCGATAAGACAGAGAGGGCTT
CTCTCCAGCTCACCTGGGAGAACACTGAAAATGTACCTTGGTTGGACTTTAGAGCTGGGGATCAGGGAAGGCTTCCTGGAGGAGGTGGTGTTTAAGCTGA
GTCTTGGAAACCGGATAGGAATGAAGCAGGTATCTGTGAGTTCAAGCTGTTCCCTGGCCAGGATCTCAGACACCCTCCCAAGCAGCTCCAGGAGCCTGTG
AGGCCAAGGGCAGCTCTGACCAGCCATCTCTGGCCCTGGGCAGGCCTGCAGGAGTTGTTCCAGGCCCCAGACCTGCGTGGGATCTCCGAGCAGAGCCTGG
TGGTGTCCGGCGTGCAGCATCAGTCCACCCTGGAGCTCAGCGAGGTCGGCGTGGAGGCGGCGGCGGCCACCAGCATTGCCATGTCCCGCATGTCCCTGTC
CTCCTTCAGCRTGAACCGCCCCTTCCTCTTCTTCATCTTCGAGGACACCACAGGCCTTCCCCTCTTCGTGGGCAGCGTGARGAACCCCAACCCCAGTGCA
CCGCGGGAGCTCAAGGAACAGCAGGATTCCCCGGGCAACAAGGACTTCCTCCAGAGCCTGAAAGGCTTCCCCCGCGGAGACAAGCTTTTCGGCCCTGACT
TAAAACTTGTGCCCCCCATGGAGGAGGATTACCCCCAGTTTGGCAGCCCCAAGTGAGGGGCCGTGGCTGTGGCATCCAGAGTCCCTGCCTGGACCAGCCT
CTCCACTCATGTGACTCTTTCCAACCKGCTTTGTGGCACTGGGGCAGGGGCCGGGGGCAGTCTGAGAGAGGCCATTCTTTCCCAACACCTCTTGGGGAGT
TTAGGGTGGSGGGGGGCGCGGCTGGGAGGAGGGCAGGCATCGGGGAGCCGGGAGCCTGACCCTCATCTTTCTTCCAAACAGGCTCAGAGGGTGTCCTGCA
CCGGGGCCTGGGCAGGAGGGAGGTGCTTCTAGTTCTGCCAGGAGACAGGTTAGCTGCTCCCCACGTCAGCTGGGACACCCCGACTTTTGTTTACCAGAGA
AAAAGGGAGGGGGAGAGGGCTGCCTTTGGACTTGTCCCGGGACACCTAGGCTAGGGTGGGGAGAGACGGGCCCTGGTGGTGGCTCGGGAGGCGAAGCGTT
GTCCTCAGCCCCGCGTGGAACTCGTGTCTGGCACAGCCTGGCTGTGGCCTAACCTGCCGAGAGTCCATCAGCCTCCATCCTACCCCCTGTGCCTTGTCAC
GCCAGACTTCCCACGGCTCCTCGAGATCCCAACACTGCCAGCATTTCCCTTCCTTCCTCTCCTGTCTCCCTCCTCTGCCCGGGAGCTCAGGAACCGAGGC
AGGGAAGGATCCCATGAGCTCCTTAAGGCTCTTTTGTAAGGTTTTTGTAGTGATTTTTATGCCACCTGAATAAAGAATGAATGGGCCTGGCTGGTTTGAT
GTCACCGTTCTGGGCATGGGTGGGGACAAGTGAGGATGGTGGGGAAGGCAGGGAGGCGGCCGCAGGGTGGACTGTGCTGAGGAACCCTGGGCCCAGCAGG
GGTGGCAGCCCGCGCAGTGCCACGTTTGGCCTCTGGCCGCTCGCCAGGCATCCTCCACCCCGTGGTCCCCTCTGACCTCGCCAGCCCTCCCCCGGGACAC
CTCCACGCCAGCCTGGCTCTGCTCCTGGCTTCTTCTTCTCTCTATGCCTCAGGCAGCCGGCAACAGGGCGGCTCAGAACAGCGCCAGCCTCCTGGTTTGG
GAGAAGAACTGGCAATTAGGGAGTTTGTGGAGCTTCTAATTACACACCAGCCCCTCTGCCAGGAGCTGGTGCCCGCCAGCCGGGGGCAGGCTGCYGGGAG
TACCCAGCTCCAGCTGGAGACAGTCAGTGCCTGAGGATTTGGGGGAAGCAGGTGGGGAAACCTTGGCACAGGGCTGACACCTTCCTCTGTGCCAGAGCCC
AGGAGCTGGGGCAGCGTGGGTGACCATGTGGGTGGGCACGCTTCCCTGCTGGGGGTGCAGGGGGTCCACGTGGCAGCGGCCACCTGGAGCCCTAATGTGC
AGCGGTTAAGAGCAAGCCCCTGGAAGTCAGAGAGGCCTGGCATGGAGTCTTGCTTCTTGCAAACGAGCCGTGTGGAGAGAGAGATAGTAAATCAACAAAG
GGAAATACATGGTCTGTCCGAGGATGAGCTGCCGGAGAGCAATGGTGAAAGTGAAGTGGGGGAGGGGGCGGGGCTGGGAGGAAAAGCCTTGTGAGAAGGT
GACACGAGAGCACGGCCTTGAAGGGGAAGAAGGAGGGCACTATGGAGGTCCCGGCGAAGCGTGGCCTGGCCGAGGAACGGCATGTGCAGAGGTCCTGCCG
AGGAGCTCAAGACAAGTAGGGGACGGTGGGGCTGGAGTGGAGAGAGTGAGTGGGAGGAGGAGTAGGAGTCAGAGAGGAGCTCAGGACAGATCCTTTAGGC
TCTAGGGACACGATAAACACAGTGTTTTTTGTCTTGTCAAGTGTGTCCTTTTTATTTTTTTGAAAGAGTCTCGCTCTGTAGCCCAGGCTGGAGTGCAGCG
GTGCGACCTCGGCTCACTGCAACCTCTGCCTCCCGGGTCCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCGCCACCACGC
ACTGCTAATTTTTGTATTTTAGTAGAGACCGGGTTTTGCCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGCCCGCCTCGGCCTCCC
AGAGTGGTGTGAGCCACTATGCCCTGCAGCACTTGTCAAGTCTTTCTCAGCGTTCCCCTCCTCTCCACTGCAGCTCCCAGTGCCCCAGTCTGGGCCTCGT
CTTCACTTCCTGGGATCCCTGACATTGCCTGCTAGGCTCTCCCTGTCTCTGGTCTGGCTGCCTTCACTGTAACCTCCACCCAGCAGGTACCTCTTCAGCA
CCTCCCATGAACCCAGCAGAATACCAAGCCCTGGGGATGCAGCAACGAACAGGTAGACGCTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCGCCTGAA
GAAAAAAAAAAGGACCAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCATGAGGTCAGGAGTTCAAGAC
CAGCCTGGCCAAAATGGTGAAACCCCGTCTCTACTGAAAAATACAAAAATTAGCTGGGTGCAGTGGCGGGCGCCTGTAGTCTCAGCTACTCAGGAGGCTG
AGGCAGGATAATTGCTTGACCCCAGGAGGCAGAGGTTGCAGTGAACCGAGATCACGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCTGCCTCAA
AAAAAAGAATAAAAATAAAAAAAAGGACCAGATACAGAAAACAGAAGGAGACGTACTATGAAGGAAATTGGAGAGCTTTTGGGATACTGAGTAACTCAGG
GTGGCCTTTCCCAGGGGACATTTAGCTGAGAGATAGACGGTATGAAGACCTGACCGTTCAGAAACAGGGGAAGAGGCAGCAGCCCGGGCAAAGGCCTTTG
GGGCAGGAAAGGGCTTGGATCACTGGAGAAGCAGAAAGATGGCCAGTGTGACCAGAGTGTGACAAAGTCAGAGAAAACCAGGAAGATGGAGCTGGAGACA
CAGGCGGGGCCAGATCACGAGGGTCCTYGCAGACCAGAGCAAGGGTTTGGATTTTATTCCAAGTATGAAGGGAAGCTGCTGAAGTGTGTTTTCCTTTACA
ATTTGTAGTTGAAATATAATATGCAAAGTACACAAGTCTTAACTATATGTAAGCTTAATGAATGTTTCCATGAACCAAATACCGCTGTGCAACCATCACC
AGCTCAAGAGACGAACCCTTCTCCCTCCTCCTGACTGCCAGTAACATAGTGGTTCAGCTCAAGAAACAGAACTCTTCTGACTTCCCCTAACATAGCGGGT
TTTCTTTTTTGTTTTGTTTTTTGTTGTTTTTTAAGAGACAATGTCTTTATTATTTTTATTTTTTTTTATTTTTGAGACGGAGTCTTGCTGTCGCCCAGGC
TGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAGGCTCTGCCCCCCGGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCTAGCAGCTGGGACTACAGGTG
CCCGCCACCTCGCCCGGCTATTTTTTTGTATTTTTAGTGGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCC
ACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCCAAGAGACACGGTCTTGCTCTGTCGCCCAGGCTGGATGGAGTGCCGTG
GTGCGATCACAGCTCGCGGCAGCCTTGACATCCTGGGCTCAAGCAACCTTCCTGCCTTGGCCTCCCAAATGTTGGGATTATAGGCATGAGCCACTGTGCT
TGGCATCTATTCATCTTTAATGTCAAGCAGGCAATTGAATATTTGATCAGGGATAGAATTGTCTATTTGGGGGTATGCAGNNNNNNNNNNNNNNNNNNNN
CTGGAGTGCAGTGGTGCGATCTCGGCTCACTGCAGGCTCTGGCCCCCGGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCTAGCAGCTGGGACTACAGGT
GCCCGCCACCTCGCCCGGCTATTTTTTTGTATTTTTAGTGGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCC
CACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCAGCCAAGAGACACGGTCTTGCTCTGTCGCCCAGGCTGGATGGAGTGCCGT
GGTGCGATCACAGCTCGCGGCAGCCTTGACATCCTGGGCTCAAGCAACCTTCCTGCCTTGGCCTCCATTGGATTAAGATACCCTGCTTGGATATTCATCA
AGGGATATAGAGATGTGCTTCATGTCATGGAACTGGGCCGGGCGCGGTGGCTCATGCCTATAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCATA
AGGTCAGGAGATCGAGACCATCCGGGCCAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGGCAGGTGTGGTGGTGCGTGCCTGTAGTCCC
AGCTACTCAGGGAGGCTGAGACAGGAGAATTGATTGAACCTGGGAGGCAGAGGTTGTAGTGAGCCAAGATCGCGCCACTGCACTCCAGCCTGGGCGACAT
GAGCGAGACTCCGTCTCAAAAATAAACAAAAAAAAGTCATGGAATTGATGGAAATTGCCTAAGGGGAGATGTAGAAGAAAAGGGGTCTCAGGATCAAGCC
AGCAGAGAAGGCAGAAAAGGTAAGGTGTGTGAGGTGGCAGAAAAAGGGAAGAGTGTGGACAGTGAGGGTTTCAAGGAGGAGGAACTGTCTACTGCCTCCT
GCCAAGGACGGAGGTGTCCACTGCCAGTTGACATAAGGTCACCCATGAACTTGGTGACAGGAATTTCAGTGGAGAAGTGGCCACAGACACAAGTCTAGAA
TTGAAATGGGAGCCGAGGCAGCGTAGACAAAAGAGGAAACTGCTCCTTCCAGAGCGGCTCTGAGCGAGCACCGAGAAATGGGCAGTGGCTTTAGGGGATG
TAGCGTCAAGGAAGTGTCTTTTAAAGAAGTCGGGGGCCGGGCACGGTGGCTCACGCCTGTAGTCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACTT
GAGGTCAGGAGTTCGAGACCAGCCTGGCTAACACGATGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCACGGTGGCTCGTGCCTGTAATC
CCAGCACTTTGGGAGGCAGAGGTGGGCAGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTAGCCAACATGGTGAAACCCCATCTCTACTAAAACTACAA
AAATTAGCCGGGAGTGGTGGCACGTGCCTGTAATCCCAGCCAGTCAGGAGGCTGAGGCAGGAGAATCACTGGAATCCTGGAGGTGGAGGTGGCAGTGAGC
CGAGATGGTACCTCTGTACTCCAGCCTGGGGGACAGAGTGAGACTCCGTCTCAAAAAAAAAAGAAGGTGGGGAAGGATCTTTGAGGGCCGGACACGCTGA
CCCTGCAGGAGAGGACACATTCTTCTAACAGGGGTCGGACAAAAGAGAACTCTTCTGTATAATTTATGATTTTAAGATTTTTATTTATTATTATTTTTTA
TAGAGGCAAGCATTTTTCACCACGTCACCCAGGCTGGTCTCCAACTCCTGGGCTCAAGTGTGCTGGGATTATAGCCATGAGTCACCACACCTGGCCCAGA
AACTTTACTAAGGACTTATTTAAATGATTTGCTTATTTGTGAATAGGTATTTTGTTCACGTGGTTCACAACTCAAAAGCAACAAAAAGCACCCAGTGAAA
AGCCTTCCTCTCATTCTGATTTCCAGTCACTGGATTCTACTCTTGGGATGCAGTGTTTTTCATCTCTTTTTTGTATCCTTTTGGAAATAGTATTCTGCTT
TAAAAAGCAAATACAGGCCAGGTATGGTGGCTCACTCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGATCACCTAAGGTCAGGAGTTCAAGACC
AGCCTGGCCAATATGGTGAAACCCTGTCTGTACCAAAACACAAAAACAAAAACAAAAACAAAAATTAGCCGGGCGTGGTGGCGTGCTCCTGTAATCCCAG
CTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCACTGTACTCCAGCCTGGGCCACAGAGC
AAGGTTCCATCTCAAACAAAACAAAACAAAACAAACAAAAAAACAAAACAAAAGCTAATACAAACACATATACAATAGACAAAACTGTAAATATTTTATT
ATTTTTATTTTTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCAGCCTCCCGATAG
TTAGGATTACAGGCATGAGCCACCACACCCGGCCTAAAATTGTAAACGTTTTAGAAGAAAGTATAGATGAATCCCTTCGTGATCTCGGGGAAGAAGAGAT
TTTTTAAAAAAGATACCAAAAGAAGCACAAATTATAAAAGAAAAGATTGAAAATGTTGGTGTTAAAATTAAAAACTTGTTTTAAAACAAGCTTGTGTAAC
CCATGACCCACAGGCTGCATGTGGCCCAGAAAAGCTTTGACTGCAGCCCAACACAAATTCGTAAACTTTCCTAAAACATTATGAGATTTTTTTTGAGATT
TTGTTTTGTTTTGTTTTTTGTTTTTTTAGCTCATTCGGTATCATTAATGTTAGCATATTTTACGTGGGGCCCAAGACAATTCTTCTTCCAATGTGTCTCA
GGGGAGCCAAAAGATTGGACACCCCTGCCATAAACATGAAAAGACAATGGCCGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGG
GGGGCGGGATCACCTGAGGTCAGGAGTTTGAGACAAGCGTGACCAATGTGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGCTCGT
GCACACCTATAGTCCCAACTACTCAGCAGGGTGAGGCAGGAGAACCTCTTGAACCCGGGAAGCGGAGGTTGCAGTGAGCCGACATTGCACCCCTGCACTC
CAGCCTGGGTGACAGAGTGAGTCTCCACTGGAAAAAAAAAAAAAAGAACAGTGTGATACATTGACCTAAGGTTTAAGAACATGCAAACTGATACTATATA
TCACTTAGGGACAAAAACTTACATGGTAAAAGTAAAAAGAAATGTACGAAAATAATAAAAATCAAATTCAAGATGGTGGTTATGGTGACGGGAAAGAACT
GAGGCGGAAATATAAGGTTGTC


SNP Information

Context             (SEQ ID NO:4838):
AGCTGTGATTTTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATAGCAAAGCCCCGTCTCTACTAAAAATACAAAAATTAGCCAGCCATGGTGGCGGG
Y
GCCTGTAATCCCAGATACTCTGGAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGACGGAGGCTGCAGTGGGCTGAGATCGCACCACTGCACTCCAGC
Celera SNP ID:            hCV27998213
SNP Position Genomic:     12992
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4839):
GTTTGGGAGAAGAACTGGCAATTAGGGAGTTTGTGGAGCTTCTAATTACACACCAGCCCCTCTGCCAGGAGCTGGTGCCCGCCAGCCGGGGGCAGGCTGC
Y
GGGAGTACCCAGCTCCAGCTGGAGACAGTCAGTGCCTGAGGATTTGGGGGAAGCAGGTGGGGAAACCTTGGCACAGGGCTGACACCTTCCTCTGTGCCAG
Celera SNP ID:            hCV1387522
SNP Position Genomic:     19195
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,10)      total(C,10|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:4840):
ATGTCCCGCATGTCCCTGTCCTCCTTCAGCGTGAACCGCCCCTTCCTCTTCTTCATCTTCGAGGACACCACAGGCCTTCCCCTCTTCGTGGGCAGCGTGA
R
GAACCCCAACCCCAGTGCACCGCGGGAGCTCAAGGAACAGCAGGATTCCCCGGGCAACAAGGACTTCCTCCAGAGCCTGAAAGGCTTCCCCCGCGGAGAC
Celera SNP ID:            hCV1387523
SNP Position Genomic:     17881
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,4)      total(G,4|A,1) ;JBIC-allele(A,233|G,1252)   total(G,1252|A,233)no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:4841):
AGTCCCCCAGGAGTCTGCAGCAGAGACCCCACCCCAGAGCAGACCCACAGGCTGGCCCGGGCCATGATGGCCTTCACTGCCGACCTGTTCTCCCTGGTGG
S
TCAAACGTCCACCTGCCCCAACCTCATCCTGTCACCCCTGAGTGTGGCCCTGGCGCTGTCTCACCTGGCACTAGGTACCCTGGCACCACTTGTCCAGACC
Celera SNP ID:            hCV25613686
SNP Position Genomic:     9360
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


Context             (SEQ ID NO:4842):
CCATCTCAAAAAAAAATTATAATAACTAAAATAAATAAATAAAGCATCTATCCTTCAGCCATTTGCTAAGCAGCTGCTGTATTCCAGGCACTGTACCAGG
Y
ACCGGGAGCCCACCATGTACAAACAGCTGAGTCTAATGGGGTGGGCAGACGAGCAATCACATACTTACTACAGCATAAGCGATAAGACAGAGAGGGCTTC
Celera SNP ID:            hCV1387524
SNP Position Genomic:     17301
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:4843):
GATTACCCCCAGTTTGGCAGCCCCAAGTGAGGGGCCGTGGCTGTGGCATCCAGAGTCCCTGCCTGGACCAGCCTCTCCACTCATGTGACTCTTTCCAACC
K
GCTTTGTGGCACTGGGGCAGGGGCCGGGGGCAGTCTGAGAGAGGCCATTCTTTCCCAACACCTCTTGGGGAGTTTAGGGTGGGGGGGGGCGCGGCTGGGA
Celera SNP ID:            hCV7459886
SNP Position Genomic:     18127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;INTRON;hmCS


Context             (SEQ ID NO:4844):
GGTGGCTCACGTCTGTAATCCTAGCACTTTGGGAGGCCAAAGAGGGTGGATCACCTGAGGTCATGAGTTTGAGACCAGCCTGGCCAACATGGCCAAACCC
R
TCTCCACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCATGCCCATAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAG
Celera SNP ID:            hCV1387525
SNP Position Genomic:     17037
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:4845):
CCAGGATGTACCTGCAGAAAGGTAGGCGCTGATGGCAGGGAGCTCCCTCAGTCCTGCCCTGGGTGGAGGAGGGTGAGAGCAAGGGGCTGGGCCTCTGGTA
K
CGAGTAGGGGCGTGTCTGGCTGTGGAGCCTGGAGCCCTGGGAACAGCTTGTGCTGCCTCCGTGCAGGATTTCCCATCAAAGAAGATTTCCTGGAACAATC
Celera SNP ID:            hCV25761327
SNP Position Genomic:     10766
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(G,23|T,1)   total(G,55|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:4846):
GACAGTGCGAGACTCCAACTCAAAAGAAAAGAAAAAAAAAGAAATCTTAAGCCAAATCACAATATATTTACACAGCTGGCAAAGTCACAAGAGGGAGGTG
W
GGGAGGGTGGGGCGGGCAGCACTCGGCAGTGGCTCACCCACAGAACCCAGCTGTGGTATGACAGCCAGTGACCCTGTCTGTGGTACATCTGGAGAAGCTG
Celera SNP ID:            hCV1387527
SNP Position Genomic:     15355
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:4847):
CTGACCATTCCTTGACCGTCTGGAAGGAGCTGGAGCAGAAGCCCACCCATCACTACAAGTCAGCATCCGACCCCATCCACACCTTTGACCTGTACGGCAG
Y
GAGGTGGTCACTGGCACCGTGTCCAACAAGATTGGCGTCTGCTCCCTGCTTGAGCCACCCTCGCAGGCCACCACGAAGCTCAGCTCTGAGAACTTCCGCG
Celera SNP ID:            hCV1387549
SNP Position Genomic:     629
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:4848):
GGGGCGTTGGCATGGAGGGAGGGCTTGGCTCCGAGGGGACCTCCTATCCTCATCCCTTTCTCCACAGTTCTCCCCTGTGAGCGCCATGGAGCCCTTGGGC
Y
GGCAGGTACTGGGGAGTGAGGAGCCTGTGATGGGGGGAAGGTCCCGGGGGTCTCACTGGTGGCTTGGGCAGGGTGGGGGGCCTGTGGGAAGGGTCGGTCT
Celera SNP ID:            hCV15867944
SNP Position Genomic:     8733
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,5)      total(C,3|T,5) ;JBIC-allele(T,250|C,1213)   total(C,1213|T,250)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:4849):
GGTCCCCTTGGCCTGGGTATTGATCCCCGGGCCAGACAGCTGTGGCTGAGATGGCTGTATTTGTTAGCTTCCCAAGGCAAGTGTGACACAGAGCACAGCC
R
CTTCTGCAGGGAGGAGCCAGAAGCCACTTGGGCAGCCCTCCTGGGAGGGGGCTGTGGGTGAGGCTGGCCCGGGAACGCGTCCTGGCTTCCCTGCAGCTCA
Celera SNP ID:            hCV27976515
SNP Position Genomic:     14276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4850):
GCTGGAGTGCAGTGGCTTGATCTTGGCTCATGGCAACCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTTGCTGCGATTACAAGC
K
CCCGTCACCACAGAAGCCCAGCTCATTTTTGTATTTTTAGTAGAGATGAGGTTTTGCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATC
Celera SNP ID:            hCV12117884
SNP Position Genomic:     15719
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,3)   total(G,1|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4851):
GTATGCAGAAGGACCCAGGCTCCTGCTGAGGCTCTCCTCTCCCGGGACAGGCGGTGGAGGGCAGCGTCCTGGTCAGCTCCTCCTCTGACCATTCCTTGAC
Y
GTCTGGAAGGAGCTGGAGCAGAAGCCCACCCATCACTACAAGTCAGCATCCGACCCCATCCACACCTTTGACCTGTACGGCAGCGAGGTGGTCACTGGCA
Celera SNP ID:            hCV7459945
SNP Position Genomic:     545
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,228|C,1247)   total(C,1247|T,228)no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:4852):
GGTCAGGCTGGGCAGGGCGGGTAAGGAGGAAGCGTCTGGCTGGCAGTGGAGCTGAGTCAGAGCTGTCCTGTGTCCTGCTCTTTTCCAGGGCTTCGGGAGC
R
GGGAGAGGGTTGAATATGAGCCCCCAGACCCTCTGTCCTAGAGGAAGTTGGGGTGGCCCGGGGAATGGGGCTCTGCTTTGCTGCCCAAGACCTCGCATTG
Celera SNP ID:            hCV640203
SNP Position Genomic:     16443
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,14)   Caucasian(A,15|G,45)   Chinese(A,10|G,10)   Japanese(G,19|A,21)   African(A,7|G,53)      total(G,127|A,53) ;(A,-|G,-)   Caucasian(A,15|A,19|G,45|G,65)   Caucasian, from CEPH families(A,87|G,235)   African-American(A,7|A,8|G,53|G,74)   Asians(G,29|A,31|G,35|A,37)   total(G,536|A,204)
SNP Type:                 INTRON


Context             (SEQ ID NO:4853):
TGTGACTCTTTCCAACCGGCTTTGTGGCACTGGGGCAGGGGCCGGGGGCAGTCTGAGAGAGGCCATTCTTTCCCAACACCTCTTGGGGAGTTTAGGGTGG
S
GGGGGGCGCGGCTGGGAGGAGGGCAGGCATCGGGGAGCCGGGAGCCTGACCCTCATCTTTCTTCCAAACAGGCTCAGAGGGTGTCCTGCACCGGGGCCTG
Celera SNP ID:            hCV27874588
SNP Position Genomic:     18210
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3;INTRON;TFBS


Context             (SEQ ID NO:4854):
CGTGCAGCATCAGTCCACCCTGGAGCTCAGCGAGGTCGGCGTGGAGGCGGCGGCGGCCACCAGCATTGCCATGTCCCGCATGTCCCTGTCCTCCTTCAGC
R
TGAACCGCCCCTTCCTCTTCTTCATCTTCGAGGACACCACAGGCCTTCCCCTCTTCGTGGGCAGCGTGAGGAACCCCAACCCCAGTGCACCGCGGGAGCT
Celera SNP ID:            hCV27529725
SNP Position Genomic:     17811
SNP Source:               HGMD
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;INTRON;TFBS;hmCS


Context             (SEQ ID NO:4855):
CTGTCACCCCTGAGTGTGGCCCTGGCGCTGTCTCACCTGGCACTAGGTACCCTGGCACCACTTGTCCAGACCAAGAGAGCTGGAGGCCAGTAGGAACTCA
S
TACTCCAGTGGTTCTCCGCGGGCGGTTCCTCCACCAGGGTCACGTGGCTGTTTGGTAAAAATGCAGATTCCTAGGCCGGGGCGGTGGCTCACGCCTGTAA
Celera SNP ID:            hCV12115544
SNP Position Genomic:     9489
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,7)   total(G,3|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4856):
ACCTGCCCCAACCTCATCCTGTCACCCCTGAGTGTGGCCCTGGCGCTGTCTCACCTGGCACTAGGTACCCTGGCACCACTTGTCCAGACCAAGAGAGCTG
G
AGGCCAGTAGGAACTCACTACTCCAGTGGTTCTCCGCGGGCGGTTCCTCCACCAGGGTCACGTGGCTGTTTGGTAAAAATGCAGATTCCTAGGCCGGGGC
Celera SNP ID:            hCV12115545
SNP Position Genomic:     9471
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|-,7)   total(G,3|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4857):
GGGACAAGGCCCTGCTGTCCTCAGGCACAGGGGCTGTGACAAGGCCTTCAACACAGAACCTGGAGCTGACCCCTTGACCTCCCTGACCCCTGATCTGTCC
Y
TGCAGGAGCCTGGTGGCCAGACTGCCCTGAAGAGTCCCCCAGGAGTCTGCAGCAGAGACCCCACCCCAGAGCAGACCCACAGGCTGGCCCGGGCCATGAT
Celera SNP ID:            hCV25613678
SNP Position Genomic:     9227
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,35|T,1)   total(C,43|T,1)   
SNP Type:                 INTRON;SILENT MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,35|T,1)   total(C,71|T,1)
SNP Type:                 INTRON;SILENT MUTATION;hmCS


Context             (SEQ ID NO:4858):
ACAGGGGCTGTGACAAGGCCTTCAACACAGAACCTGGAGCTGACCCCTTGACCTCCCTGACCCCTGATCTGTCCCTGCAGGAGCCTGGTGGCCAGACTGC
Y
CTGAAGAGTCCCCCAGGAGTCTGCAGCAGAGACCCCACCCCAGAGCAGACCCACAGGCTGGCCCGGGCCATGATGGCCTTCACTGCCGACCTGTTCTCCC
Celera SNP ID:            hCV25613679
SNP Position Genomic:     9253
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,1)   caucasian(C,34|T,2)   total(C,41|T,3)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,34|T,2)   total(C,68|T,4)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4859):
GGAATTCCAGACGCTGGGAAGCGCTGTGGAGGGAAAGCTGAAAAAGAAGGTGATTTTGGCCGGGAGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGG
W
GGCCCAGGCAGGTGGATCATAAGGTCAGGAGTTTGAGACCAGCCTGGCCAAGATTTGAAACCCCGTTTCTACTAAAAATACAAAAATTAGCCAGGCGTGG
Celera SNP ID:            hCV1387532
SNP Position Genomic:     12711
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:4860):
CTACGGGAAAGAGACCTTAGATCAATTGGATGCCAGCTAGCATTCCCTGGGGTCTTGGCCTCCACCGCTGTCTCATCCTTGAATGGATTCTGGGTGGGAC
R
GGCAACGGGCTGGGGGTGCAGAGCCCAAGCTGGTCCCCATCGACGTGACCCCTGCCCTCTGCCCCAAGCTGGTCCCCGTCGACGTGACCCCTGCCCTCTG
Celera SNP ID:            hCV1387533
SNP Position Genomic:     12008
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,6)      total(G,5|A,6) ;JBIC-allele(A,104|G,641)   total(G,641|A,104)
SNP Type:                 INTRON


Context             (SEQ ID NO:4861):
CTAAAAAAAAAAAAAGATCCAGGAGGAGGTTCCTAGGAGAATTGCAGGGGTTGGGGAAAACACAAGCCCAGATTTCAAAAATGCTACGGGAAAGAGACCT
Y
AGATCAATTGGATGCCAGCTAGCATTCCCTGGGGTCTTGGCCTCCACCGCTGTCTCATCCTTGAATGGATTCTGGGTGGGACAGGCAACGGGCTGGGGGT
Celera SNP ID:            hCV1387534
SNP Position Genomic:     11925
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,5)   total(C,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4862):
GAAGCAGAAAGATGGCCAGTGTGACCAGAGTGTGACAAAGTCAGAGAAAACCAGGAAGATGGAGCTGGAGACACAGGCGGGGCCAGATCACGAGGGTCCT
Y
GCAGACCAGAGCAAGGGTTTGGATTTTATTCCAAGTATGAAGGGAAGCTGCTGAAGTGTGTTTTCCTTTACAATTTGTAGTTGAAATATAATATGCAAAG
Celera SNP ID:            hCV1387518
SNP Position Genomic:     21028
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,8)   total(C,3|T,8) 
SNP Type:                 TFBS


Context             (SEQ ID NO:4863):
CTGGTGATTCTTATGCAAGAGTTTGCTAGCTACACTCTTTCCCACTGTGCTGGAGGGTCTCACTGTGGGAAACGGAAGCCCAGAGAGGGAAGGTAACTTG
Y
GGGGGGTGAGGTCACCCAGCCTGTCAGCCACAGGGGTGAGAGCCACGCAGAACAGATCCGTGGCTGTGGAAGGATGGCGTGTGGTCCCGTGGACGTCCTC
Celera SNP ID:            hCV1387519
SNP Position Genomic:     10355
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;hmCS


Context             (SEQ ID NO:4864):
CTCCGTCTCAAAAAATAAACAACAAAAAATCCCAAAAAGACGGTCTTATTTTGGTCCTCACCATGCATGTGAGAAGAGTGAGGGACTTGTGCCACCGTTT
K
ACAAGGTAAGGCCAAGCCTGGTGGAGTTACGGGAAATGCCGAGGTCCTTTGGCAAGAGGTAGCCTGGATTCAGACACAGATCTGATTCACAGCGCAGGGC
Celera SNP ID:            hCV27844483
SNP Position Genomic:     8110
SNP Source:               Applera
Population(Allele,Count): african american(T,24)   caucasian(G,1|T,35)   total(G,1|T,59)
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:4865):
ACCCCCGTCTCTGCTAAAAATACAAAAAAATTAGCTGGGCGTAGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGACGCAGGAGAATGGCGTGA
R
CCCGGGAGGCGGTGGAGCTTGCAGTGAGCGGAGGTCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTAAAAAAAAAAAAAGATCCAG
Celera SNP ID:            hCV1387536
SNP Position Genomic:     11746
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:4866):
GAGGGTTGAATATGAGCCCCCAGACCCTCTGTCCTAGAGGAAGTTGGGGTGGCCCGGGGAATGGGGCTCTGCTTTGCTGCCCAAGACCTCGCATTGCAAG
G
AGAGTCTGGGTAGAGAGCCTGGGATGGCATGTGAGCCTCGCTGGCTTCCCTGGAAGGGGAAGGAGGAGAAGCTGGGGTGTCACACTGTTAAAGAAATGCT
Celera SNP ID:            hCV26749801
SNP Position Genomic:     16548
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,15)   total(G,1|-,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4867):
CCTGGCTAACACGGTGAAACCCCCGTCTCTGCTAAAAATACAAAAAAATTAGCTGGGCGTAGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGA
S
GCAGGAGAATGGCGTGAACCCGGGAGGCGGTGGAGCTTGCAGTGAGCGGAGGTCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTAA
Celera SNP ID:            hCV1387537
SNP Position Genomic:     11728
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:4868):
TCGCCCAGACTGGAGTGCAGTGGTGCAATCTCGGTTCACTGCAATCTCTACCTCCCGGGTTCAAGGGATTCTCCTGCCTCAGCCTCCCGAGTAGCTTGGA
M
TACAGGCGCCCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATATTGGCCAGGATGGTCTCAATCTCCTGACCTCGTGA
Celera SNP ID:            hCV26749802
SNP Position Genomic:     13808
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:4869):
ACTACAGGCATGCACCACCACGCCTGGCTAATTTTGTTCGTTTGTTTGTTTGTTTTTGAGACGGAGTTTCTCTCTATCGCCCAGACTGGAGTGCAGTGGT
R
CAATCTCGGTTCACTGCAATCTCTACCTCCCGGGTTCAAGGGATTCTCCTGCCTCAGCCTCCCGAGTAGCTTGGAATACAGGCGCCCGCCACCATGCCCA
Celera SNP ID:            hCV26749803
SNP Position Genomic:     13732
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4870):
CCTGAGTGTGGCCCTGGCGCTGTCTCACCTGGCACTAGGTACCCTGGCACCACTTGTCCAGACCAAGAGAGCTGGAGGCCAGTAGGAACTCACTACTCCA
R
TGGTTCTCCGCGGGCGGTTCCTCCACCAGGGTCACGTGGCTGTTTGGTAAAAATGCAGATTCCTAGGCCGGGGCGGTGGCTCACGCCTGTAATCCCAGCA
Celera SNP ID:            hCV1387539
SNP Position Genomic:     9497
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4871):
ACTGTGCTGGAGGGTCTCACTGTGGGAAACGGAAGCCCAGAGAGGGAAGGTAACTTGTGGGGGGTGAGGTCACCCAGCCTGTCAGCCACAGGGGTGAGAG
Y
CACGCAGAACAGATCCGTGGCTGTGGAAGGATGGCGTGTGGTCCCGTGGACGTCCTCGTCACGGGTATCCAGGAGGGACTGGAGTGGGCAGTGGGGGTGA
Celera SNP ID:            hCV7965843
SNP Position Genomic:     10398
SNP Source:               Celera
Population(Allele,Count): no_pop(T,5|C,8)   total(C,8|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4872):
GCTGCTCGGCCTGCTCCTTGGGTAGGAGAGGAGGAGGGAGCTGCCTCCCTGGCTGAGGGGTCTGGGATTTATTCAGGAGGCCTGTCACTCCCCAGCCTCT
Y
CTGGGACTTGAAAAACTGGAGCCTGTTCTTGGCAAGAAGATTCTAATGCCCAGGTCGGAGTCGGGGCCCTGGCCAAGGGCTCTTGTGTGGGATGGGGGTG
Celera SNP ID:            hCV26960237
SNP Position Genomic:     6223
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:4873):
GGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACTCTCTCTACTAAAAATACAAAAAATTTAGCTGTGCGTGGTGGTGCGCA
S
CTGTAATTCCAGCTACTCAGGAGGCTGAGGCAGAGAACTGTTTGAACCTGGGAGTTGGAGGTTACAGTGAGCCGAGATGGCGCCACTGCACTCCAGCCTG
Celera SNP ID:            hCV26749794
SNP Position Genomic:     9716
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,3)   total(G,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4874):
CAGTGGTTCTCCGCGGGCGGTTCCTCCACCAGGGTCACGTGGCTGTTTGGTAAAAATGCAGATTCCTAGGCCGGGGCGGTGGCTCACGCCTGTAATCCCA
R
CACTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACTCTCTCTACTAAAAATACAAAAAATTTA
Celera SNP ID:            hCV26749795
SNP Position Genomic:     9595
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,7)   total(G,7|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4875):
AGGACTTGGCGTTATCTGTGATCGCGTGGGTAGGATTCCCTGGCGGGCGTGGGGATGTGAGATGGGAACAGAGCTTTCTGTCCCTGCCACAGGAACATGG
Y
GCTGCTCTGGGGGCTCCTGGTGCTCAGCTGGTCCTGCCTGCAAGGCCCCTGCTCCGTGGTGAGGCTGGGCTGAAGTCAAGGTGGGGTGGGGTGGAGGGGG
Celera SNP ID:            hCV26749796
SNP Position Genomic:     8525
SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,3)   caucasian(C,23|T,5)   total(C,32|T,8)
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,231|C,1254)   total(C,1254|T,231) 
SNP Type:                 SILENT MUTATION;MISSENSE MUTATION;INTRON;TFBS;hmCS


Gene Number:                 19
Celera Gene:                 hCG31810 - 66000115875227
Gene Symbol:                 VTN
Protein Name:                vitronectin (serum spreading factor, somatomedin B, complement S-protein);V75;VNT
Celera Genomic Axis:         GA_x5YUV32VS61(1416525..1431946)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1680):
AGGAGTTTGAGACCAGCCTGGGCAACATAGAAAGACCCTGTCTCTACCAAAAACAAAAACAAAAACAAAAGATAAGAAGGAAATTATCTAATCCAACACC
CTTACTTTTTCTTTTCTTTTTTTTCTTGACAGGATCTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCGCTGCAACCTCCACCTCCT
GGGTTCAACTGATTCTCATGTCTCAGCCTCCCAAGTAGCTGGGATTACAGACATGTACAACCACACCTGGCTCTTTTTTTTTTTTTTTTTTTTTGTATTT
TTAGTAGAGACAGAGTTTTACCATGTTGGCCAGGCGGTCTTGAACTCCTGACCTCAAACGATTCGCCTGCCTTGGCCTCCCAAAGTGCTGAGATTACAGG
CGTGAGCCACCGCCCCTGGCCAGCCAACACTCTCATTTTCAGAGGACTTACCTGAGGCCCAGCGAAGGGAAGGACTTGCTCAGGAACATATCAATTCAGA
CCTAGGACTTTATTTTGAGTCTCCTGATGCCCCAGCCCTCACTTTTCCCTATGCACCTGGCACCTTTACAGAGTGGAACTGTGCTGCACTCTTGTGATAA
CTACTCACCCAGCTCCCAGTTCTTCTGTGGTCTGAGAGGCTGTGGGTCTGGTGAAATGGGCAGATATTTTAGAATTACACAGGTCTGGATTCAAATCCCA
GCTCCAAAGGAGGGGAAGATTGTATATATATTGCAAACATGTCTATATAATATACATGCAAATGCCTGTATATGCAGAGACTCTCTCTGGAAGGATATAC
AAGAAACTTGTTATAGTGGTTTATCTCCAGAGAGGGGGTCTGGTTGAGAAGAACTTTTAAAAAATTTTTAATTTAATTTTAAAAAATTGAGACAGGGCTC
TCACTATGCTGCCCAGGCTGGTCTCAATCAAACTCCTGGGCTCAAGTAATCCTTCTGTCTCAGCCTCCTAAAGTTCTGAGATTACAGGCATGAGCCACCA
TGCCTGGCTGAGAATAACTTTTAACTGTATACCTTTTGTGTGCTTTTCCACTTTTTTGAATTTATGTGCAATGGCTTTCGTGATTTTTTTTTTTTTTTTT
TTTAGATGGAGTCTCACTCTTGCCCAGGCTGGAGTGCAGCGGCACGATCTCGGCTCACTGCAACCTCCACCTCCCTGGTTCAAACAATTCCCCTGCCTCA
GCCTCCAGAGTAGCTGGGATTACAGGCACACGTCATCAAGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGAGTGGT
CTCGAACTCCTGACCTCAGGCAATCTGCCCGCCTGGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGACACTGCTCCTGGCCGCCTTTCTGTGATTTCA
AAAACCTGTCTCCTCCATTTATTCATTGAATATTCCTGGGAAAGCCATTTAACTACTCTGAGGATAGCTTCATTAAGATCCCCTGAAGGGGGTGGACTGT
GAATATAGAGGGCTAGCAGTCATATGGGGACCTCACTGGGTGTTGTGGGGCCAGATTTGAAGAGCCATATTCTGTTGGACTTCTGGTAGTTGGAAGTCAG
GAAAACTGTGACCTAGGCTCCTTGACAATGGGTGCAATAGCATCCTGAGAAGAAGAAAGCAAGAGGGAAGTGGCAAAAAGGGGTAGGCACACTGATGGAA
TTGTTTTTTTTTTTTTTTTTTTTTTTTTGACAAGGTCTGGCTCTGTCACTGAGGCTGGAAAGCAGTGGCATGATCTCAGCTCATTGTGACCTCCGCCTCC
TGGGCTCAAGCCATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACTGTGCATGCCATCACGCCCGGCTAATCTGTATATTTTTTGTAGAGATGGGTTTT
TGCCATGTTGCCCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCCACCCACCTCAGCTTCCCAAAGTGCTGGAATTACAGGCATGAACCACCATGCTT
GCCCAGAAGAGCCTTCTTTGAGATGAGGCAGTGGGGGCTTGGTTGGTGAAGGAGAAAAACATTTCATAAATTCGCAGTGTGTCACTCCCCTTCTCTTCTT
TCCAGCCCCATTCTCATGCAGCCTACAAGGGGTGCAGGGACCCTCCCCTTCTTTTTTCTTTTGAGATGGAGTCTCACTCTGTTGCCAAGGCTGGAGTGCA
GTGGCGCGCTCTCAGCTCACTGCAGCCTCTGCCTGCCGAGTTCCAGCAATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGGTTACAGGCACACACCACGC
ACCACCACCATGCCTGGCTAATTTTTGTGTTTCACTTGACCTCAGGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTAGGATTATAGACAGTGCCTTTTT
TTTTTTTTTTTTTTTTGAGACGAGTCTTGCTCTGTCATCCAGCGTGGGGTGGAGTGCAATGGCACAATCTCGGCTCCCTGCAACCTCCACCTCCCGGGTT
CTGTGCGATTCTTCCACCTCAGTCTCCCCAGTAGCTGGGATTACAGATGCCCGCCACCATGCCCAGCTAATTTTTGTATTTTTTTTTTTTTTTTAGTAGA
GACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACCCCTGACCTCAGGTGATCCACCCGCCTGGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGC
CACGGCGCCTGGCGGGGATCCTGCCTTTCTTTGGAAGTATTGTGATAGCAACCACGCACGTTGTGCTCTGTCCTTGGTCCTGAAGAGACCAGCGTGCGTT
TCTTGAGACCAGGGACACTGGTTAGTGACTCTTCTCTCGGTAACTCTGAACCAGGTGAGAATTGCCATTTTTAACCTTGAGATATAGCAGTACTGTTTGC
ATCTTGCAACCCTCCTCTCCTTGGGCTGCTGGCTGTACTCACTCTCCAGGGATTGTAGTTATAGCTCCTGACTCCACATAGCAAGCCTGCAGGGCACACC
TACCAGCCTTGACCCCACCACACCCAGTGAGCACATATTTTATTTGCTACCCCCTCCAAATTCATGGCCTATCCCCATCATGGCAACGGATGTCAGATGG
GAGGTTAATGGCTTGCCAAATAAGCAGAACCCTATCTTGGTCTCCCAACCTAAATTGCTTCATTCATGCATTTTTGACAGTTGTATCTTTCCACCAATCA
CCAGGTAATTTTTTTCTTTTCGAAAATGGCAAGGAAAACACCCCCAACCCACTCCCTTCACACTTGTGAGAGCTGCATGAGCTGAAAGTGACTCTTCCAA
AAACTCTTCTAAGCTTGAGAAGCTGGAGACTTCAGCATGAGACTGGAGTGTGACAGCTTGGTCTGCTCTGGCATCAGAAGGGAGGGAAAGTGAGTCCTTG
GAGGTCTTCATACTCCAGGAGAGATCCCAAGAGACATGCAAGAGTGGCAACCAGGCCTCTGTTTGACCCTCTTGCGGCATCTTGGTGCTAAGTGGGGTGA
AGGGAGAGAACACACACTCTGCCTGGTCCCCGCCGGGCTCTGCACCCCGGTGTCCTCTTCCCCCACCCATGCCTCCCAGCAGAAAACTGTTTCCCATCAG
CAGCTGCAGAATGAGATCATGTCTGGCCTGTTGCAAGAACCAGAATGAAGGATGGAGCAGAAGTTGGATTGGGGCGGCAAGAAGGGAGTAAGCAGCCTCA
GGCCAGCACGCCTTACAGCCTGGGGAGGAGGGAAAGGAGAGGTCTCCCTCCCTCTTTTCTGAGCGTTGTGTTTCCCTTCTTCTCTCATTGGGAGAGGGAT
GGGATGATGGCGAGAGAAGGTGTCATAGACGGGAACCCAAGCCGGTGGGAAGGAGAGCTGTGGGCTTGGGGGGCGGGGGAGAGGGAGAATTGGCAATAGG
ATGCCATCTCCATCCATAGAGCCAGGGACGGACTCCTGTCCTGTAACTCCATTCCTCACCCCACTAGCCCTGGGAGCAAATCTTAGTTCACTGTGATCCA
CTGAGCAAGTCACTAAACTTTCCCAAGGCTCAGTTTCCTTATCTGTGAAACAGACAGGCTGACCCCTAACAGAGATGTAGTGCAGGCAGTCAGAGAGGTG
AGGGAGGCAAAGGCACGGCGCAAGGCACACGGGAACGCAGGCGCTTAACTGTCCACACCACGCGGCGCTCTCCCAACCCCGGCCTGGCGCGCTCACCGGT
TCTCAGCCACCAGGATCTGCTCCAGCAGGCGCGCGGCCTGCACACGCGTCTCCAACTCCGGCGCCTGCAGCAGCCGCAACAGCAGGTCGAGGCCGCCATC
GAGGCGGATGGCGTCGCACAGACCCTGGGCTACCTCGCGGCCCACGGCCGCAGCAGCCAGGCCTCCTCCACCAGTTGGAAGACCTCGGCCAGGCCGGCGC
CCACGGCCCGCGCGCCGCCCGCCTGCTTCAGCGCGGACAAGGCCTGCTGCAGCTCCGGCAGCGCGCGCTCCAGGGCGTCCTGCACCTCGGTGCCTGCCCC
CGGCGACACTTTCGCGGGCCCGGGCCACCCGCAGCCCACCATGGGCCCGTGCCACCGCCCCCATCTGGCCCAGGCACCGCCAGCCGCTCGGCGCCCSGCC
GTGGGCCCGACATGGCGAAGAAGCGACACAGCTTGTAGGCGGAGAGAAGCAGCGTCAGGACCATGGGCGCGGGGCCGCGGGGGACATCCCCGGCCTGGAG
GCGGGGCCACGCGGAGAGACCCGGGTTTTGGGAAAAGAGGGACCCGAGAGGGGTCGGGGAAAGAAGATGGAGGGGGAGGAATGGAGAGAAGGGTACCAGG
CAAGGGTGCCGGTCAGAAGTTTGGGGGAGGAGTGTCGGCAGGATCGGGGGAGCGGTTGGCAAAGGTGATGCAGGCCCAGATGCAGGGAGTGGGCGAAAGG
AGAGAGCGAGCAGGCGAGGGATGGCTCCGGACGCCGTAGGGTAGAGGAGGCGGCGGCTGGAACAAAGCGTGGCCTGGGCACGGGCTCGGCTGAGCTGGGA
GATGCTCGGCAGCAGCCACGCCCCGGAGGAGCAGCGGTCCCCGGGCCGACGCCCCGCCTCTGGGTCCCGCGGGGCTCCTCCAGCCTCCTGCAGCCACGCC
CCGGAGGAGCAGYGGTCCCCGGGCCGACGCCCCGCCTCTGGGTCCCGCGGGGCTCCTCCAGCCTCCTGCGCAGCCCCACCCCCAAGCCGTCCCCAGCCAC
GCCCACGCCCCTGGCCAGCCTTCCCTAGCCCCTCAGTCAGTCGCAGCCACCTCCCCCTGCGCTGGACTTGGAGGAAGGGGGTGGAGAATGAGAGGACGCT
CTCCGTTCTCCGCCCCGCCTCCCCGCCCCACGTGACATCGGTACGTGGGAGCAACACCGCTGGATGCCCCCTCCCTACTAAATGGTTAAAACAATCATCA
TAACTCTTAAGGCCCTTTTATGGCTGTTTCTTAGCGAAACCTCACAACATGCCTATGGGGTGGGAATTGATGTTCCATTCCACAGCTGACTCCACTGAAG
CCCATGAGGAAGAAATTGGCCCAAATCACAGTCCCCTCTGATTACAGAACAGAAAAAGTCAGCTAAAATCTCAGGATCACTTTTTTCAGGTGATGGGAGG
ATTTCAGAAGTTCTGTGGACACCTGAAATTGGGCACAAAATCAGGTGTTTCATGCCAGTGGGCATTTTCCAGGTAGAGGGATCATATTTCTCTCGAGAGT
CTAAAAGTGTGTTGAACAAGCCCACTCTTTACAGATGGGGAGACTGAGCCTGGGGACAGGGAGTGGCCTGCTCAGAAAAGACTCAGAAATTAAATCCAGT
CCAGTGGGTTGATATTTACCCAAATTTCCAGCCTGGGGAGATTGATGCACCCAAGAGAAGAACCCAGAAATGAAACTTTGTTCTTTTATGCTAAAAAATA
AAATTCCCCAGAGTGCTTACAATCTCTCCTCCCACTCCCTTTTTCCTGCCCTAAATAAATAATGGCGAATGAGCACCCAGCCAGGGATGTGTCTGATCAA
ACAATCATGGATCAATAGCTATGTTTGGAGAAGGAATTTGTGGCTGCTCCAGCTACTGGGCATTTTGTCTGGTCCAGTTCATGTAATCTCCCAACACCCC
ATGAAGCAAGGCTTTGTTAATCCTATTTTACTGAAAATGAACTAAGACTCAGAGASATAAAGCTGTTGCCCAATGAGCCTTCTTTCTGCCCTCCAGAYCC
ACGGTGCTAATTCCCCTTCCGATGACCTAATGATTCTGAGCTTGGCAAAGGTCTTATCTCCCAGCTCKCCCAGGCCCAGTGTTCCAGGAATGTGACCTTT
GCTGCAGCAGCCGCTGGAGGGGGCAGAGGGGATGGGCTGGAGGTTGAGCAAACAGAGCAGCAGAAAAGGCAGTTCCTCTTCTCCAGTGCCCTCCTTCCCT
GTCTCTGCCTCTCCCTCCCTTCCTCAGGCATCAGAGCGGAGACTTCAGGGAGACCAGAGCCCAGCTTGCCAGGCACTGAGCTAGAAGCCCTGCCATGGCA
CCCCTGAGACCCCTTCTCATACTGGCCCTGCTGGCATGGGTTGCTCTGGCTGACCAAGGTACAGGGGAGTGTTGGTGGCCATCTGGGTCAATGTAGGGAG
GGCGAGGGTGGTCTGGGCTTGGTGGCACCGACTGACACTCCTTCCTCATAGAGTCATGCAAGGGCCGCTGCACTGAGGGCTTCAACGTGGACAAGAAGTG
CCAGTGTGACGAGCTCTGCTCTTACTACCAGAGCTGCTGCACAGACTATACGGCTGAGTGCAAGCCCCAAGGTGTGTTCAGAGCCCAGGTGGGTGGGCTG
GGGTGCCCCCTGCTGCTGGAGACTCACTACCATCCACTCTCTGCAGTGACTCGCGGGGATGTGTTCACTATGCCGGAGGATGAGTACACGGTCTATGACG
ATGGCGAGGAGAAAAACAATGCCACTGTCCATGAACAGGTGGGGGGCCCCTCCCTGACCTCTGACCTCCAGGCCCAGTCCAAAGGGAATCCTGAGCAGAC
ACCTGTTCTGAAACCTGAGGAAGAGKCCCCTGCGCCTGAGGTGGGCGCCTCTAAGCCTGAGGGGATAGACTCAAGGCCTGAGACCCTTCATCCAGGGAGA
CCTCAGCCCCCAGCAGAGGAGGAGCTGTGCAGTGGGAAGCCCTTCGACGCCTTCACCGACCTCAAGAAYGGTTCCCTCTTTGCCTTCCGAGGTGAATCCA
GGGCAGGTACTGGGGATGCGGGTCTGCCCCAGGAGCRTCCCYGCTCTCACACCATCTCCTCCACTCTAGGGCAGTACTGCTATGAACTGGACGAAAAGGC
AGTGAGGCCTGGGTACCCCAAGCTCATCCGAGATGTCTGGGGCATCGAGGGCCCCATCGATGCCGCCTTCACCCGCATCAACTGTCAGGGGAAGACCTAC
CTCTTCAAGGTGCCAGGGGCTGTGGGCCAGGGTAGAAAGCATCTAGGGAGGGTTTGAGAGCTATTGCTCCCAGGGACAGGGTGGACAGGGAAGCTGGACC
CAGGGCCCTGCAGGACCTGGTGGGAGCTCTGTGAGCACAGGGCAGCCCCAAGACTCCAGGTCCTGGGCAGTGAACCTGGACCTGGGAACGGCTGCCTTAG
GGCAAGGGACTCTGCCTCTGTGCCCAGCCAGCGGCCTCCATAYCCCTTTTCACTTTCCCCACCTCTTAGGGTAGTCAGTACTGGCGCTTTGAGGATGGTG
TCCTGGACCCTGATTACCCCCGAAATATCTCTGACGGCTTCGATGGCATCCCGGACAACGTGGATGCAGCCTTGGCCCTCCCTGCCCATAGCTACAGTGG
CCRGGAGCGGGTCTACTTCTTCAAGGGTACTCAGGGGGYGGTGGGAGACTGAGCAGGCAGTGGAGCAGTCTTGGATTCCTTTCACAYTTCACTGGGGACA
GGCCTCAGCATGTGCCCACCCCTGACCCCCACCTCATGCTGGGAGATCCTAACTTCAACAGCCTCTGGGATCTCCAGTCTTGCCCTGGCCCAGCCCTCCT
AATGCCCACCACCCYGCTCCTCAGGGAAACAGTACTGGGAGTACCAGTTCCAGCACCAGCCCAGTCAGGAGGAGTGTGAAGGCAGCTCYCTGTCGGCTGT
GTTTGAACACTTTGCCATGATGCAGCGGGACAGCTGGGAGGACATCTTCGAGCTTCTCTTCTGGGGCAGAACCTCTGGTATGGAGAGAGGGCAAGTCTTG
CTTCTCCCTCAAAAGGGCTGAAACCCCTTGGTATTGGTAGAGCCAGGCCGGCTGGAGGGGGCTGTGGTTGTGGAGCTATCGATCAAAGTCTGTTTGCTCA
GGCCAGACTTTGCTTCTGTTGACCTTTTGGGGAAAGCTCAGCTCTACCTGGACCCCACACCTTGGACTTTGCCTAGCACAGCTGAGAGCACAGCCAGCAG
AGGGAGGGGCTGTGGCTGAGGAGTTTAGGGGGCCTGGGGGGGTGGGGTCGAGACACCAGTGATATGGTGGAGGGAAAGCACAGGGGGAAGGGAATTGGAC
TGAGAGTCAAAGGCCTGGCTCTGCCATTCGCTGCTGTGTGTCTTTGGGCAAGGTGCAGCAGATGAACTCTAATGGCCCCGCTGGAAGGGGCAAGATTCGG
ACCCCCAAGACCTCTCATTCACCCCTTCCCTGCCACAGCTGGTACCAGACAGCCCCAGTTCATTAGCCGGGACTGGCACGGTGTGCCAGGGCAAGTGGAC
GCAGCCATGGCTGGCCGCATCTACATCTCAGGCATGGCACCCCGCCCCTCCTTGGCCAAGAAACAAAGGTTTAGGCATCGCAACCGCAAAGGCTACCGTT
CACAACGAGGCCACAGCCGTGGCCGCAAYCAGAACTCCCGCCGGCCATCCCGCGCCAYGTGGCTGTCCTTGTTCTCCAGTGAGGAGAGCAACTTGGGAGC
CAACAACTATGATGACTACAGGATGGACTGGCTTGTGCCTGCCACCTGTGAACCCATCCAGAGTGTCTTCTTCTTCTCTGGAGGTAGGAGCCGCTGCCAC
CCCTGAAGCTGGTCTAGCTTGGGTTTTCCTTGCTGTCCCTGGTGCACAAGGGCTGAAYGCAGCCTGCAAGTAGTGACCACAGAAAGCCAGGCCAGAAGTC
CTTAGCTGCATCATGGATGTTCACTTTCCCTTCTGGGAGAGACCCTAGACTTCTCAAGGGAAGAGTGGGCAGGGCCAGGCTGGGCCTCACRCATCCTCTG
CTTTCCTCTCTTCCAGACAAGTACTACCGAGTCAAYCTTCGCACACGGCGAGTGGACACTGTGGACCCTCCCTACCCACGCTCCATCGCTCAGTACTGGC
TGGGCTGCCCAGCTCCTGGCCATCTGTAGGAGTCAGAGCCCACATGGCCGGGCCCTCTGTAGCTCCCTCCTCCCATCTCCTTCCCCCAGYCCAATAAAGG
TCCCTTAGCCCCGAGTTTAAAATTATTGTTCTGACTGGGGTAGACACATCCCTGTCTGGGTAAAGGAGAGGAAGCTGGACTGTCAGAATGGGTTGGTGAG
GGGGACAGAGAAGGGACAGAGAAGGGCCTCGCCGTGTCCAACCCATGTTGGGCTCAGGACCTCTCTGTGCTCAGGACCTCTCTGTGAACCGGTTTGGGGC
TGGGGAAGGCCTCCTGAGAGCTACCCTTCCTCTTGAGCTAAGCAGCCCCCAGCAACCCACCAGCAGCTAAGCAGACACTTGAACTCCTCTGATGATGACA
AAGTTACCAGGCCAGCCTCCGTGGGTGAGGCTTGCTTTGCCCCTTGGAGTTGACTAGGGTCTYGGAGGAGAGAGAAGGGGCAAGAGTTGGTGGGGTTCTG
GCTCAGCTTTTTTGTCCATCCTGATCTGAAATCCTAGTAGCTCTGACTCCTGAGCACTTGGGGAACCAGTCACTGTGCTTCCCCAAACCCACCCCTAGGG
TGAGCCTTTCTTGAGGTCTCTGTCTAGGGTCTAGGATGGGGAGCAGCAAGACCAGGAGAGATAGTGAAGGGCAGAAACTGAAAGGAAATTCAAAAGCACA
CACTTCTTGTGGAAAAGTGGCCCAGGAGCCCAGGAGTTTGAAGCTGCAGTGAGCTATTATTGTACCACTGCACTCCAACCTGGGGAATAGAGTGAGACTC
TRTCTCTAAAAACAGAACAAAATAAAAAAGGGGGGGAATTTTTGTCTGGGCATGGTGGCTCATGCCTGTAATTCCAGCACTTTGGGAAGCCAAGGTGGGA
GGATTGCTGGAATCCCGAAGTTTGAGACCAGCCTAGGCAATATAGCAAGACACCATCTCTACAAAAATAAATAAGTTAGCTGGGCAACTTATGGGTGGTG
TGTGCCTGTAGTCCCAGCTATTTAGGAGGCTGAGGTGGGAGGATTGCTTGAGCTTGGGAGGTTGAGGCTGCAGTGAGCAGAAATCACACCACTGTACTCC
AGCCTGGGCAACAGAGTGAGAAAAAGAAAATTTAGGCCAGGCACGGTGGTTCATGCCTGTAGTCCCAGCACTTTGGGAAACCAAGGCGCGTGGATCATGA
GGTTAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGTGTGGTGGCAGGCGCCTGTAACCCC
AGCTACTCCGGAGGAAGAGGCAGGAGGTGGAGTTGCTTGAACTCGGGAGGTGGAGGTTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGGTGA
CAAAGCAAGACTCCATCTTGAAAAAAAAAGAAAAAAGAAAAAAATTTTCAAAATTTAAGAAAAAGTGGCTCAGAATATATCCAAGGAAGAGAATACTGTA
CACATAAACATCTTTATCATCTTTCTTAGAACCCCTCAACTGCACCTGTGGAACCTCCTCTGGTTCCAGGTTCCGAACCCCAGGAAGTCCATCTGGCTCT
TGAGGGGCCAGAGAGAGAAAGGGTTAGATGAGGCAAAGCTCTAAAGCAGACCTGAGGGCAATCTGGTGGTGACATCTGTTCCCCAGTCCTGCTGACAGCG
GCTGGCTCCCATTCATCCCGTTGACACCCTACCATCCTTCTCATCCTGTCCCACTTCACCAGCCCAGTCCCCAGTTGTGGGAGAGGACTCCACTCCCTCT
CCCCTGAAGGTAGCCAGGTTCAGAGCACTAAGGGCTCCAGAAGGGGCAGCCAGTGCCTGGGAGCACTGGAGAGATGGTTTTCTTTGGCTGCCTGGAAGGA
CCCCTGGGAGGATTTTCATGAAGTATAGGATTTCAGGCACAGACTGCCAGTTTGAGGTTTGAGAAGGGATGCTGGGTCCAGCTTCCTTTGCGAGGCCTTG
GAGGGGCAGGGGGTATACAATTTGCCCCACCCATACCCTCATAAGCCCAACCCGGCCTCCAGCCTCCCTTCTTCCCCACCGAGACTTCTCTGCCTTGCTT
GAGCTGGACTCTAAACCTCTCCACTCCTGAAGGCGGGGCCAGCCACCCTGAGCATGATAAAACCCAAATGGGGGGGTCTGGTGTGGGCACAGCCCTGGCA
TGGCCCTCTGGCACGGCCCTCTGGCACCTTACCCTTTGCCAGCTCCATGCCCAGCCCTGTGGATGCATCCTCAGCAGGTGATCTGATGGGGGAAGTGTGG
GCAGGGTGAGAACGCAGGCCATGGTAGGATGAGGACGGTTGGAGAGGGGTGGGAGTAGGGACTTCGGGGTTGATTGAGGGCTTTGAGGCTGGGTGGAGGC
TCTTGCAGGGAGTCCCAGCTTGACCCCCACCATGGCCTGCAGACGGTGGCAGCGGGTTGGGTTCCCACCGGAGAAAGCGGACCACCTTCAGCAAAGGGCA
GCTRCTGGAGCTGGAGAGGGCGTTTGCAGCATGGCCCTACCCCAACATCAGCACCCATGAGCACCTGGCCTGGGTCACTTGCCTTCCTGAGGCCAAGGTA
CAGGTGAGCTGTGACCCCTTCTCACACAGCCAACATCTAGGCTTGGCCCACAGCCCCTTCGCTGGGTAGCCTGCCTTCAGGTTGTTTCCCCTGTCCCTGG
GTGGAGGGGATGCTGGGGCCAGAACAGACCCCTTCTTCTTTCCTAGCAGGTGTGGTTCCAGAAGCGCTGGGCCAAAATAATCAAGAACAGGAAGTCAGGA
ATTCTAAGCCCTGGGTCTGAGTGCCCCCAGAGCTCCTGTTCTCTTCCAGACACCCTCCAGCAGCCCTGGGATCCCCAAATGCCAGGCCAACCTCCACCCT
CCAGCGGCACACCTCAGCGCACCTCAGTGTGTCGACATAGCTCCTGTCCAGCTCCTGGCTTGAGTCCACGGCAGGGCTGGGAAGGGGCTAAAGCTGTAGC
CCCATGGGGATCAGCTGGGGCTTCAGAGGTCCACCCTTCTTTAGAGCGAGCTACTCCCCAGACTTCACTAGGCAGCCTGTCTGACCTCATCTATGCCTYG
GCCATTGTCGTCAATGTGGACCACTCCTAGTCTTTGTCCAGAACTTGCAAGGCCCCTCCTCTGACTCCTGTGGCCCACCCTGCCCCTCCTGGGATTGAAC
ACATCAGAAGTGGATTCCCTGGCCCCACTTTTTATGCAAAGGGATTCCCTACGGGAAAGGAGTTTAGCTCAGGCATCCCTCCCTTCCACTGGCCTCCAGG
CCAGCCTAGATGCAGGTCCTAAGCAGACTGGGGCCTGGCTCCTGCCACCCCACACCCTGACCCCTTTGGGGCATATGCTCATTGTTGTGGCAGGTGGTAC
CTTCAGAAGGATGAGATGAGGGTCATGTTTTCCTCCACTCTTGCCAGGCCTGGTCCCCAGTTCTCACCAGCTGATGGCCTCCTCCTTCTGAAGGGGCAGG
CTCCTGTCTCCTGAGGTCTCTCCAGGCCATTACCTTGCTAACTGCTAAGTGAGGTAGGAGAGGAGAGTGCTGCTCCTCATCTAGACTGCTGGAGAGCCAA
CTTCTTTATGGGTCAGGGCCCCCTCTCTTGACCATCGACCACCTGGACAAATTAATCAGAACTACGGATGTGAAGAGGGAGTGGCATTAAAGTAATGAAG
CAAAGATAGGAAGCTGGGGCTTATGTTGATTTAATTTTCACAAAGATCAGATTGGATGCCCTCTGATGTGGGGCTGTGGAGACAACCTGACAGATCTGGG
ATGGAGGCAGGTATAGCAGCATTGGGTTTTGGTATCACCATCACCTGTAATACCAACTAATCTCCAAATAAAACCCAAACTCTGTACCTTAATCTGGATT
GTTGTGCTCTGCAAACGAACGGGGACGAGGGCCGTTTGCCATGGAAATTTATCTCCATCACCTAATCCCTAAATAGGGCCAGGTTCCACACAGATACCTC
TTGGTGGGAGGTATTACCCAGGCTTCAGCTGGGATTAGAGGGATAGTTAATTGAAGGGTTTAGGACTCTGACTGACAAGACCCTGGGGAGATGAGAGCCT
CTGCTAGCACCCCCAGCTCCTGGTCCCACTGAATCTAGGACATTCCAGTCACCTCCACCTCTGGAGCTGCTCTGCTTTGGAGAGAAAACCATGGTGTTTG
CGGTCTGCACTGGATTCAAATCCTGACTTTGCGATGTAACTGTGGCAACTCTGGAACTCTATGTGACTAAAAAATGGGGATACTTATTTGCTCTCTGTTT
GGGGTATAAGAAATAATGTAGGTAAAGGGCTTTACATGGTGTGTAACACATCGTAAAAACTCAGTAAACGCTAGTTCCCTCTCCAGACAGGCCCTAAGAA
ACTGGGAAGGCCCTAAACTTCTTGTTCTTCCCACCTCCTGCCAAGCAGTCCCTGGACCCAGAGTGCATTACAGAAAGCATGGCACAGTGAGGCAGGAGTG
GCTAGCAGATGAGAGAGCTCCCTTCTATATGCTGAGAACTGGAGGATAGGGCATTTGGTTCTCCCCTCCCAGTGCCCCCTGCTTTTTCATTGAGACAAGG
TCTCACTCTGTCATCCAGGCTAGAGTGCAATAGCATGATCTTGGCTTACTCAGCTTACTGCAACCTCTGCCTCCCAGGCTCAAGTGATCCTCCCACCTTA
GCCTCCTGAGTAGCTGGGACTACAGGCGTGCGCTACCATGTCAGCTAATTTCTGCGTTTTTTTGTAGAGATGGGCTTTCGCCATGTTGCCCAGGCTGGTC
TCAAACTCCTGAACTCAAGCATCCTCCCACCTTGGTCTCCCAAAGTGCTGGGATTACAGGCATGTACCACCACGCCTGGCTAKTTTTTTTGTATTTTTAG
TAAAGATGGGGTTTCGCTATATTGGCCATGCTGGTCTTAAACTCCCAACCTCAAGTGATCCGCCTGCCTCAGCCTCCCAAAATGCTACGATTACAGGTGT
GAGCCACCTCACCTGGCCCAGTGTAGCTTTTTAACACAAATTTTATATAGCTCAGGTTACTGGAAACACTGTAAAATGCCACCTACTTTTTCTTTTCACA
GCTGACACTTCTCCCAACTAACAGAAACTGGCAAACATTGTAGAGGAAGTGTCCACTGAGTGAATGAGTATATAATTTATGAAAACAGAAAAGTGCTTTG
GAAAAAAAAAAAAAGACAACAGGAGTACATACAGTGAACCAAAAAGAGTGTACCAGGAGGAGCAGACCCTGAACAGTTAGAACTATGGAAATCGCTATGC
TTTGTGTTGTCACAGGAGTTAAAATAGGAATACCCTGCATACAATAAATATTTATTGGATAAATAACTAAGCCTGATACCCTTTTCAATGCGTTATACAG
ACTCTATCATCACACCACTAATCTAAGTTCTCAGAAGTTAAACATTACAAGACTTCAGAACAACATAGGCGTCTTTGGCTCCATTTAACAGAAGAAGGAC
CATAGTGATCATTTAATCTCTATGAGTCTGTCTTATCTTCTGGAAAAGGGGCCTAACACCATTTCCTTTTGCAAAAAGGTAGCTGCCTTGCTTCCAGTTC
TACCATCCTCTAGCAACCCATCTTTCTCTTATTTGATGTCTCTGATCAGCTCCTCTTCCAGCACAAACTGGAGAAAGGGGATCCTTTCTGTTTTCTTGGA
GGCTTCTGAACTCAATTACAGGTCTGCATTAAAAATGTATGGAGAAAGCTGGTGATTAGTTTGTACATATGGACAAGTTCAAGGCAGTATGGTCTACTTC
TGGGAAGGCCTGGATTCCATTTGCTCCTGATGGAAAAACCCTAGTCCCAGCAGTGTTTAGAATGAACTGGAGAAGGCAGATGGGTACCAGATTCAGGAAG
AGGTACTGATAGACCAAGACCAGTTCTTTCTGTTTTAAAGATGTGTTATCTCAATCTCCTCCAATGCTCCCTTTGGAAATTCACAGAAGATTAGGGCTCC
CCACAGAAACAGCAGCTGGCCTGGGCTGGTCTTCTGACTAACTGGAGCTGAATACAAAAAGTCTGATGGGTTGACTGAGTCGGTGACTGCCAATTGGAGC
CTGAAGCCCCCAAAGTCTTCT


SNP Information

Context             (SEQ ID NO:4876):
GGCCCAGGCGGGCAGATTGCCTGAGGTCAGGAGTTCGAGACCACTCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGC
K
TGATGACGTGTGCCTGTAATCCCAGCTACTCTGGAGGCTGAGGCAGGGGAATTGTTTGAACCAGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGTGCCGC
Celera SNP ID:            hCV2536590
SNP Position Genomic:     14183
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4877):
CTGGGCATTTTGTCTGGTCCAGTTCATGTAATCTCCCAACACCCCATGAAGCAAGGCTTTGTTAATCCTATTTTACTGAAAATGAACTAAGACTCAGAGA
S
ATAAAGCTGTTGCCCAATGAGCCTTCTTTCTGCCCTCCAGATCCACGGTGCTAATTCCCCTTCCGATGACCTAATGATTCTGAGCTTGGCAAAGGTCTTA
Celera SNP ID:            hCV15956388
SNP Position Genomic:     6156
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,26)   caucasian(G,38)   total(C,6|G,64)
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,3|G,45)   total(G,45|C,3) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:4878):
CCCATGAAGCAAGGCTTTGTTAATCCTATTTTACTGAAAATGAACTAAGACTCAGAGAGATAAAGCTGTTGCCCAATGAGCCTTCTTTCTGCCCTCCAGA
Y
CCACGGTGCTAATTCCCCTTCCGATGACCTAATGATTCTGAGCTTGGCAAAGGTCTTATCTCCCAGCTCGCCCAGGCCCAGTGTTCCAGGAATGTGACCT
Celera SNP ID:            hCV15956389
SNP Position Genomic:     6198
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,27)   caucasian(C,1|T,37)   total(C,4|T,64)
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   PGA-AFRICAN-PANEL(C,13|T,35)   PGA-EUR(EAN-PANEL(C,2|T,44)   total(C,15|T,79) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:4879):
GCCCCATGGGGATCAGCTGGGGCTTCAGAGGTCCACCCTTCTTTAGAGCGAGCTACTCCCCAGACTTCACTAGGCAGCCTGTCTGACCTCATCTATGCCT
Y
GGCCATTGTCGTCAATGTGGACCACTCCTAGTCTTTGTCCAGAACTTGCAAGGCCCCTCCTCTGACTCCTGTGGCCCACCCTGCCCCTCCTGGGATTGAA
Celera SNP ID:            hCV326998
SNP Position Genomic:     12399
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:4880):
CATAGCTACAGTGGCCGGGAGCGGGTCTACTTCTTCAAGGGTACTCAGGGGGTGGTGGGAGACTGAGCAGGCAGTGGAGCAGTCTTGGATTCCTTTCACA
Y
TTCACTGGGGACAGGCCTCAGCATGTGCCCACCCCTGACCCCCACCTCATGCTGGGAGATCCTAACTTCAACAGCCTCTGGGATCTCCAGTCTTGCCCTG
Celera SNP ID:            hCV2536594
SNP Position Genomic:     7887
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,4)   caucasian(C,10|T,10)   total(C,36|T,14)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,25|T,5)   caucasian(C,10|T,4)   total(C,35|T,9)   
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,3)      total(C,3|T,1) ;JBIC-allele(T,70|C,1209)   total(C,1209|T,70)   (C,-|T,-)   PGA-AFRICAN-PANEL(T,6|C,40)   PGA-EUR(EAN-PANEL(T,22|C,24)   total(C,64|T,28)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4881):
AAGAAACAAAGGTTTAGGCATCGCAACCGCAAAGGCTACCGTTCACAACGAGGCCACAGCCGTGGCCGCAACCAGAACTCCCGCCGGCCATCCCGCGCCA
Y
GTGGCTGTCCTTGTTCTCCAGTGAGGAGAGCAACTTGGGAGCCAACAACTATGATGACTACAGGATGGACTGGCTTGTGCCTGCCACCTGTGAACCCATC
Celera SNP ID:            hCV2536595
SNP Position Genomic:     8858
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,23)   caucasian(C,22|T,18)   total(C,37|T,41)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,22)   caucasian(C,22|T,18)   total(C,36|T,40)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,4|T,9)      total(C,4|T,9) ;no_pop(T,-|C,-)   ;(T,-|C,-)   (T,-|C,-)   African American (pooled) - WICGR(C,46|T,54)   Asian (pooled) - WICGR(C,16|T,68)   Caucasian (pooled) - WICGR(T,43|C,53)   total(C,115|T,165)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:4882):
CCAGAGTGTCTTCTTCTTCTCTGGAGGTAGGAGCCGCTGCCACCCCTGAAGCTGGTCTAGCTTGGGTTTTCCTTGCTGTCCCTGGTGCACAAGGGCTGAA
Y
GCAGCCTGCAAGTAGTGACCACAGAAAGCCAGGCCAGAAGTCCTTAGCTGCATCATGGATGTTCACTTTCCCTTCTGGGAGAGACCCTAGACTTCTCAAG
Celera SNP ID:            hCV2536596
SNP Position Genomic:     9058
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;PGA-AFRICAN-PANEL(T,10|C,38)   PGA-EUR(EAN-PANEL(T,2|C,44)   total(C,82|T,12)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4883):
CAGGCATGGCACCCCGCCCCTCCTTGGCCAAGAAACAAAGGTTTAGGCATCGCAACCGCAAAGGCTACCGTTCACAACGAGGCCACAGCCGTGGCCGCAA
Y
CAGAACTCCCGCCGGCCATCCCGCGCCATGTGGCTGTCCTTGTTCTCCAGTGAGGAGAGCAACTTGGGAGCCAACAACTATGATGACTACAGGATGGACT
Celera SNP ID:            hCV7442518
SNP Position Genomic:     8829
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,11)      total(C,11|T,1) ;TSC_42_C(T,0|C,84)   total(C,84)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:4884):
ACTCAAGGCCTGAGACCCTTCATCCAGGGAGACCTCAGCCCCCAGCAGAGGAGGAGCTGTGCAGTGGGAAGCCCTTCGACGCCTTCACCGACCTCAAGAA
Y
GGTTCCCTCTTTGCCTTCCGAGGTGAATCCAGGGCAGGTACTGGGGATGCGGGTCTGCCCCAGGAGCGTCCCTGCTCTCACACCATCTCCTCCACTCTAG
Celera SNP ID:            hCV25613270
SNP Position Genomic:     7169
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:4885):
CCCAGCCCTCCTAATGCCCACCACCCCGCTCCTCAGGGAAACAGTACTGGGAGTACCAGTTCCAGCACCAGCCCAGTCAGGAGGAGTGTGAAGGCAGCTC
Y
CTGTCGGCTGTGTTTGAACACTTTGCCATGATGCAGCGGGACAGCTGGGAGGACATCTTCGAGCTTCTCTTCTGGGGCAGAACCTCTGGTATGGAGAGAG
Celera SNP ID:            hCV25613271
SNP Position Genomic:     8089
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:4886):
AAGCCCTTCGACGCCTTCACCGACCTCAAGAACGGTTCCCTCTTTGCCTTCCGAGGTGAATCCAGGGCAGGTACTGGGGATGCGGGTCTGCCCCAGGAGC
R
TCCCTGCTCTCACACCATCTCCTCCACTCTAGGGCAGTACTGCTATGAACTGGACGAAAAGGCAGTGAGGCCTGGGTACCCCAAGCTCATCCGAGATGTC
Celera SNP ID:            hCV15868836
SNP Position Genomic:     7237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   PGA-AFRICAN-PANEL(A,12|G,36)   PGA-EUR(EAN-PANEL(A,2|G,44)   total(G,80|A,14) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4887):
CAGCCCCAAGACTCCAGGTCCTGGGCAGTGAACCTGGACCTGGGAACGGCTGCCTTAGGGCAAGGGACTCTGCCTCTGTGCCCAGCCAGCGGCCTCCATA
Y
CCCTTTTCACTTTCCCCACCTCTTAGGGTAGTCAGTACTGGCGCTTTGAGGATGGTGTCCTGGACCCTGATTACCCCCGAAATATCTCTGACGGCTTCGA
Celera SNP ID:            hCV15956400
SNP Position Genomic:     7643
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:4888):
CTTCGACGCCTTCACCGACCTCAAGAACGGTTCCCTCTTTGCCTTCCGAGGTGAATCCAGGGCAGGTACTGGGGATGCGGGTCTGCCCCAGGAGCGTCCC
Y
GCTCTCACACCATCTCCTCCACTCTAGGGCAGTACTGCTATGAACTGGACGAAAAGGCAGTGAGGCCTGGGTACCCCAAGCTCATCCGAGATGTCTGGGG
Celera SNP ID:            hCV15868837
SNP Position Genomic:     7242
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(T,40)   total(C,2|T,74)
SNP Type:                 INTRON;TFBS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   PGA-AFRICAN-PANEL(C,13|T,35)   PGA-EUR(EAN-PANEL(C,2|T,44)   total(C,15|T,79) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4889):
TCAGTACTGGCTGGGCTGCCCAGCTCCTGGCCATCTGTAGGAGTCAGAGCCCACATGGCCGGGCCCTCTGTAGCTCCCTCCTCCCATCTCCTTCCCCCAG
Y
CCAATAAAGGTCCCTTAGCCCCGAGTTTAAAATTATTGTTCTGACTGGGGTAGACACATCCCTGTCTGGGTAAAGGAGAGGAAGCTGGACTGTCAGAATG
Celera SNP ID:            hCV25613281
SNP Position Genomic:     9390
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,30)   total(C,67|T,1)   
SNP Type:                 UTR 3

SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,40)   total(C,77|T,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:4890):
CTGGACCCTGATTACCCCCGAAATATCTCTGACGGCTTCGATGGCATCCCGGACAACGTGGATGCAGCCTTGGCCCTCCCTGCCCATAGCTACAGTGGCC
R
GGAGCGGGTCTACTTCTTCAAGGGTACTCAGGGGGTGGTGGGAGACTGAGCAGGCAGTGGAGCAGTCTTGGATTCCTTTCACACTTCACTGGGGACAGGC
Celera SNP ID:            hCV15956401
SNP Position Genomic:     7803
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
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:4891):
TTCGATGGCATCCCGGACAACGTGGATGCAGCCTTGGCCCTCCCTGCCCATAGCTACAGTGGCCGGGAGCGGGTCTACTTCTTCAAGGGTACTCAGGGGG
Y
GGTGGGAGACTGAGCAGGCAGTGGAGCAGTCTTGGATTCCTTTCACACTTCACTGGGGACAGGCCTCAGCATGTGCCCACCCCTGACCCCCACCTCATGC
Celera SNP ID:            hCV15956402
SNP Position Genomic:     7839
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:4892):
CCCACCCCTGACCCCCACCTCATGCTGGGAGATCCTAACTTCAACAGCCTCTGGGATCTCCAGTCTTGCCCTGGCCCAGCCCTCCTAATGCCCACCACCC
Y
GCTCCTCAGGGAAACAGTACTGGGAGTACCAGTTCCAGCACCAGCCCAGTCAGGAGGAGTGTGAAGGCAGCTCCCTGTCGGCTGTGTTTGAACACTTTGC
Celera SNP ID:            hCV15956411
SNP Position Genomic:     8015
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

SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   PGA-AFRICAN-PANEL(T,1|C,43)   PGA-EUR(EAN-PANEL(T,2|C,44)   total(C,87|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4893):
TGCAGGGAGTCCCAGCTTGACCCCCACCATGGCCTGCAGACGGTGGCAGCGGGTTGGGTTCCCACCGGAGAAAGCGGACCACCTTCAGCAAAGGGCAGCT
R
CTGGAGCTGGAGAGGGCGTTTGCAGCATGGCCCTACCCCAACATCAGCACCCATGAGCACCTGGCCTGGGTCACTTGCCTTCCTGAGGCCAAGGTACAGG
Celera SNP ID:            hCV15885133
SNP Position Genomic:     11804
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,225|A,1266)   total(G,225|A,1266) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:4894):
TGTCCATGAACAGGTGGGGGGCCCCTCCCTGACCTCTGACCTCCAGGCCCAGTCCAAAGGGAATCCTGAGCAGACACCTGTTCTGAAACCTGAGGAAGAG
K
CCCCTGCGCCTGAGGTGGGCGCCTCTAAGCCTGAGGGGATAGACTCAAGGCCTGAGACCCTTCATCCAGGGAGACCTCAGCCCCCAGCAGAGGAGGAGCT
Celera SNP ID:            hCV15956413
SNP Position Genomic:     7026
SNP Source:               dbSNP
Population(Allele,Count): PGA-EUR(EAN-PANEL(T,1|G,45)   total(G,45|T,1) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:4895):
CAGCCACGCCCCGGAGGAGCAGCGGTCCCCGGGCCGACGCCCCGCCTCTGGGTCCCGCGGGGCTCCTCCAGCCTCCTGCAGCCACGCCCCGGAGGAGCAG
Y
GGTCCCCGGGCCGACGCCCCGCCTCTGGGTCCCGCGGGGCTCCTCCAGCCTCCTGCGCAGCCCCACCCCCAAGCCGTCCCCAGCCACGCCCACGCCCCTG
Celera SNP ID:            hCV29193094
SNP Position Genomic:     5113
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:4896):
CCCCCGGCGACACTTTCGCGGGCCCGGGCCACCCGCAGCCCACCATGGGCCCGTGCCACCGCCCCCATCTGGCCCAGGCACCGCCAGCCGCTCGGCGCCC
S
GCCGTGGGCCCGACATGGCGAAGAAGCGACACAGCTTGTAGGCGGAGAGAAGCAGCGTCAGGACCATGGGCGCGGGGCCGCGGGGGACATCCCCGGCCTG
Celera SNP ID:            hCV29193095
SNP Position Genomic:     4597
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS;hmCS


Context             (SEQ ID NO:4897):
GCCAGAAGTCCTTAGCTGCATCATGGATGTTCACTTTCCCTTCTGGGAGAGACCCTAGACTTCTCAAGGGAAGAGTGGGCAGGGCCAGGCTGGGCCTCAC
R
CATCCTCTGCTTTCCTCTCTTCCAGACAAGTACTACCGAGTCAATCTTCGCACACGGCGAGTGGACACTGTGGACCCTCCCTACCCACGCTCCATCGCTC
Celera SNP ID:            hCV15956423
SNP Position Genomic:     9191
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

SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,1|G,27)   total(A,3|G,63)   
SNP Type:                 INTRON

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:4898):
GGAGAGACCCTAGACTTCTCAAGGGAAGAGTGGGCAGGGCCAGGCTGGGCCTCACGCATCCTCTGCTTTCCTCTCTTCCAGACAAGTACTACCGAGTCAA
Y
CTTCGCACACGGCGAGTGGACACTGTGGACCCTCCCTACCCACGCTCCATCGCTCAGTACTGGCTGGGCTGCCCAGCTCCTGGCCATCTGTAGGAGTCAG
Celera SNP ID:            hCV15956424
SNP Position Genomic:     9236
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,30)   caucasian(T,26)   total(C,2|T,56)   
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,34)   caucasian(C,1|T,39)   total(C,5|T,73)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,10|T,38)   PGA-EUR(EAN-PANEL(C,2|T,44)   total(C,12|T,82)no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:4899):
GCAGCTAAGCAGACACTTGAACTCCTCTGATGATGACAAAGTTACCAGGCCAGCCTCCGTGGGTGAGGCTTGCTTTGCCCCTTGGAGTTGACTAGGGTCT
Y
GGAGGAGAGAGAAGGGGCAAGAGTTGGTGGGGTTCTGGCTCAGCTTTTTTGTCCATCCTGATCTGAAATCCTAGTAGCTCTGACTCCTGAGCACTTGGGG
Celera SNP ID:            hCV15956436
SNP Position Genomic:     9763
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(C,2|T,38)   total(C,2|T,38) 
SNP Type:                 TFBS


Context             (SEQ ID NO:4900):
GCCCAATGAGCCTTCTTTCTGCCCTCCAGATCCACGGTGCTAATTCCCCTTCCGATGACCTAATGATTCTGAGCTTGGCAAAGGTCTTATCTCCCAGCTC
K
CCCAGGCCCAGTGTTCCAGGAATGTGACCTTTGCTGCAGCAGCCGCTGGAGGGGGCAGAGGGGATGGGCTGGAGGTTGAGCAAACAGAGCAGCAGAAAAG
Celera SNP ID:            hCV15956390
SNP Position Genomic:     6268
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,5)   caucasian(G,37|T,1)   total(G,68|T,6)
SNP Type:                 UTR 5;hmCS

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(T,13|G,35)   PGA-EUR(EAN-PANEL(T,2|G,44)   total(G,79|T,15)no_pop(G,-|T,-)    
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:4901):
ACTTCTTGTGGAAAAGTGGCCCAGGAGCCCAGGAGTTTGAAGCTGCAGTGAGCTATTATTGTACCACTGCACTCCAACCTGGGGAATAGAGTGAGACTCT
R
TCTCTAAAAACAGAACAAAATAAAAAAGGGGGGGAATTTTTGTCTGGGCATGGTGGCTCATGCCTGTAATTCCAGCACTTTGGGAAGCCAAGGTGGGAGG
Celera SNP ID:            hCV15956447
SNP Position Genomic:     10102
SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRICAN-PANEL(G,3|A,43)   total(G,3|A,43) 
SNP Type:                 TFBS


Gene Number:                 20
Celera Gene:                 hCG34285 - 104000116471179
Gene Symbol:                 PIGN
Protein Name:                phosphatidylinositol glycan, class N;MCD4;MDC4;MGC26427;PIG-N
Celera Genomic Axis:         GA_x5YUV32VUQQ(15018287..15173086)
Chromosome:                  Chr18
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1681):
GGAAATAGAGAGAACACAATAAATGGATGCTCATGGATAAGAAGAATCAATATCATGAAAATGGCTATACTGCCCAAAGTAATTTATAGATTCAATGCTA
TTCCCATTTAACTACCATTGACATTCTTCATAGAATTAGAAAAAACTTTTAAAATTCATATGGAACCAAAAAAGAGCCCGTATAGCCAAGACAATCCTCA
GCAAAAAGAACAAAGCTGGAGACATCATGCTACCTCACTTCAGACTATACTACAAGGTTACAGTAACCAAAACAGCATGGTACTGGTACAAAAACAGACA
CGGACCAACAGAACAGAAGAGAGCATTCAGAAATAAGACTGGATACTTACAACCATCTGATCTTTGACATACATGACAAAAACAAGCAAAGGGGAAAGAA
TTCCTTATTTAATAAAATGCTGGGAGAACTGGCTAGCCATATGCAGAAAATCGACACTGGACTCCTTCCTTACAACTTATACAAAAATTAACTCAAGGTG
GATTAAAGACTTAAATGTAGAACCCAAAACTATGAAAACCCTTGAAGAAAATCTAGGCAATACCATTCAGGACATAGGCACGGGCAAATATTTCATGCCA
AAAATGCCAAAAGCAATTGCAACAAAAGCAAAAATTGGCAAATGGGATCTAATTAAACTTAAGAGCTTCTGCACAGCAAAATAAACTATCAGAGTGAACA
GACAACCTACAGAATGGGAGAAAATGTTTGCAACCTATACATCTGATAAAGGTCTAACATCCAGAGTCTACAAGGAATTTAAACAAATTTACAAGAAAAA
ACAATCCCATTAAAAAGTGGGCAAAGGACACGAATGGACATTTCTCAAAAGAAGACATTCATGCGGCAACAAGCATATGAAAAAAGGCTCAACATCACTG
ATCATTAGAGAAATGCAAATCAAAACCACAATGAAATACCATCTTAGGCCAGTCAGAATGGTGATTATTAAAAAGTCAAGAAACAACAGATGCTGGAGAG
GTTGCAGAGAAATAGGAACACTTTTACACTGTTGCTGGGACTGTAAATTAGTTAAACCATTGTGGAAGACAGCGTGGTGATTCCTCTAAGATCTAGAACC
AGAAATACCATTTGACCCAGCAATCCCATTACTGGGTATATGCCCAAAGGAATGTAAATCATTCTATTATAAAGATACAGGCATGTGTATCTTCATTGCA
GCACTATTCACAATAGGAAAGACATGGGAATCAACCCAAATGCCCATCAATGAAAGACTGGATAAAGAAAATGTGATACATGCACACCATGGAATACTAT
GCAGCCAGCCATAAAAAGCAACAGGATCATGTCCTTTGCAGGCACATAGATGGAGCTGGAAGCCATTATCCTCAGCAAACTAACACAGAAACAGAAAACC
AAACACCGTATGTTCTCATATATAAGTAGGAGCTGAACAGTGAGAACACATGGACATGGTGGGTGAGGGGGAGAGTATCAGGAAAAATAGCTAATGCGTG
CTGGGCATAATACCTAGGTGATGGGTTAATCTGTGCAGAAAACCACCATGACACATGTCTACCTATGTCACCAATCTGCACACCCTGCACATGTACCCTG
GAAGTTGAAGGTGAAAAAAACGGTGCAAAAGATTGAATAGGCATTTCATAAAAAATATACTAAGCAAAAGGCACAGGAAAAGGACCTCAGAATCATTAGT
CATCAGGGAAATAGAAATTAAAGCCACAATGAGACACTGCTACATTCTCACTAAAATGACAGATTAAAAAGCCCAAAAATACCAAATGTTTAGGAGATGT
ACAGAAACTGGAACTCTTGTACATTGGTGGTGGAAATTTTAAATGGTCCATTTTGGAAAACAGTTTGGCAGTTTCTCATAAAGACGTAAATGGGAGCTTT
CTTTACAATAACACAAAACTGGAAAAAACACAAATGTCTTAAAAGACACAAATTTTTTATCCCCCCCTTTTGGGGATAAAACCAAAAAGGAATGATCTAG
AAATACACACAAAGACATAGATGACTTTTAAAAACATGCTGAAGGCAGATACACAAAAAAATACGTTCTATGATTCTATTTATATCGAATTTTAGAACAG
GCAAAACTTATCTAAAGACGTAGTTCTCAACTGGGGCAATTATGCCCTCCCCTTCCCTGGGCAATGCTGGAGACATTTTTGGTGGTCATAACTGGGGTGG
CATAGGTATGGGGGTGGTTGCTAAAGGCATCTGGTGGGTAGAGGTCAGGGATGCTGTTAAACATTTTATAATACACAGGCCAGCAGCCACGGCAAAGCAT
TACCAGGCCCAAAATGTTGAAAGTACCCAGGCCCAGGTTGAGAAATTCTGTTCTAAGTGATCAGTGGTGGTCTAGATGGAAGTAAGGATATTGAATGAAG
GAATTCTGGGGATAATAAAAATGTTCTGTATTTTATTTTATTTACTTTTATTTATTTATTTATTTTTGAGATGGAGTCTTGCTCTGTCGCCCAGGCTGGA
CTGCAGTGGTGGGATCTCGGCTCACTGTAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGTCTCCCGTGTAGCTGGGATTACAGGTGCCCAC
CACCACGCCTAGCTAATTTTTGTATTTTTAGTAGAGAAGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAAATCCTGACCTCGTGATCTGGCTGCCTCA
TCCTCCCAAAGTGTTGGGATTACGGGCGTGAGCCACTGCACCCTGCCGATGTTCTGTATTTTAATTGTGGTAGTGACTGATTTGTCAAAACTCACCAAAC
TGCACACACTTAAAACGTGTAAATTTTACTGTATGCAAATTTTACATCCAAGTTGATGCTAAAAAGTATAGTGCCTGTATAAGACTATGTTAAACAGTTT
AATCCATTTTTTGTTTTTTAAAACACATGCACAGAAAAGACAGGTAAGGCAACTACCATTAAAGACAGGAAAAGCAAATACCATTGGTGGGATTATGGAT
AATTTTGAATTTTTTGTCCTGTTGTTCATTTGCTTAGTATTAAGTAAAAATTTAATAAACTTGATGTGTACACACACACATAGAGACAAACACAAACACT
TATATATCCAGTACCTAAAACAGGTACAAATAAATGAGGATAATAGAAAAGCACAGGTGCACATGAATATTTAATTGTGATATTTGATCATAAGACTCTA
GTTATTTCAAGAAAGTATAAAAATGTATAATGCAAAGGCACTTAGAAGTAAGGTTTTACTCTAAAACACTGCTAAACTATTTAATGAGCTCAATTATAAT
TCTTTCAATACAAAAAGTTTGCAAGGAGGAATTTTCACTAGAAACAATGCTATGATAGCCCTAATAAGACAGGGTGAAAAGGTCAAGAAATTCTTTAAAA
TTAAATGAATAAAGTTACCAACTAAGGAATAATCCATTTCACTGTATTAATACGGTTGAAAACACAGCAGATACAATTCAGTTATGTTCATCAACAGCCA
GGGACTGAGCAAAGTGTGAGAAATTTATTATAAAAATGTCTCTGAAGAACTGACCAATGGAGAAAAATGGTATTGTCAACAATCACATACAAACGGGCTA
AAGGCTATGATGGAGGTTTGAAAGTGTTAACAATGAAAGAAACCAAGCAACTACCTAAGCCTGGAGGAAGCATGTACAAAGGTGACATCTTAGCTAGACC
TTGTCTGGTGAAAAATCATGAGATAATTTAGAAATCTTAGAAATAACACAAAAACCAAAAAAAAAAAACAACAAAAAAAAAAAACAAAAAAAGACCCACC
ACCACACATAACAATTTTGTTACACTACTGTCTCATTTTATAGTCTTAAAGGTCAGCAATGAGAAAATCTTTTCCCGAAAAAGAAGATTATCCTACATAT
TGGGTAAGGAAATTATAACTACTGAGAAAATCCCATATCCAAGGGGGAAATATATTTAAGATTCACCTTGATAGAAAATGCACTCCCTAAGCTTCCACCA
CGTCTACGTTTGGCAATTTAAGTCTCTGGCACTATTCAAAAGCATAGTGATTAAAAAAAAATCAATTAGGCTGCAGTTTAAAAATTCTATATGAATACTT
GTTAATATAGAATTAATATATGGCCTCATACTAAAACATCTCCATACATTAGTAAGGGAATATTTAAGATACCTCCCAAAAGGGAGACACTGGGAATCCT
ACATACAGTACACTACATCTTTGACAGTAAGTTTTCAAGCCATAAGAGATGCTTACGAATATATGGGGTAAACGATTACTCTATGCTGCTAAAAATCATT
CCAAGGTAAAAAGGTCAATTCCTATCTAATGCAAAGAGAAAAGCCTGCAAGGTGGTGGGATGGTGAGACAGACTGCTGGTAGAACCTGTCTGCCTTGCTC
CTTGGATTTCCTGTAATTTTGGACATTACTTAAATTAAGGCATTGAAACTGAATTACATCAACTTTATCTCAACAGAACAAATTTTGTGCAGCAGAAAAC
CCAATTTTGGCGGTGAAAAAGTCGTCCCAAAGACAAAGGGTCTTAAGTACATCTGACTTTTCGGAGACAGCAGCAGTGTGTCCTATTCTTTCTCTCCTGG
CTCAGACTCAAAGAACTACTGCAGGCAATTCAGGTAACACTATTTCCTGGTAGTGTGATTCAGGTAACTGGAGAAAAAGGAAAATGCTTAAAGCAATAAA
CTAGTATAAAAGGGAACCTTCTGGAGTCCCGTAATAGCCAGTGAACTAGAAACTCTTGATATTTTATAGATACTGACACCAGTAGGGGAGCCAGGAGCCA
AGTGCAACACCAGCCAAGGGTTGGAAGCAGGCAGAGAGAACAGTCATTGCCTGATCCTCTTGCTTCCACCGCAAAAGAGCGCCCCCACCCCAATACTCTC
GTTCCTTAAAATGTCCCTATCGGGACCCACGCAGAAATACCCCCTCTCCCCTACAGTAACTCCGTACAATCCCAAATACCCTGCCGGAGTGTGACAGGCT
GCGTCCACTTACTGAGCTGTCCCCCGCCCGACGCTGTACTCGGTTCCCGACCTCCAGCGCCCCCAACGCCGGCTGCTCCAGGGACCCCTGGCGCCCCCAT
CCCCGGCGGGGTTCCACTTTGCCTCTCGAAGTTGCCTGGATTGGAGAAGTAGTCGCGCAGCCGAGGCAGCTCCCGGCCACTCTCTAACAGCTCGGTATGC
AGCTCCAGGGCGGTCAGCAAGTATTGATCGCGCAACAGCTGAGCAGCGATCGCATCAATTGATAATCGGGCCGGGGTCTCCCCGGTGCCCCCCAGGGCCA
CTGCAGCCGCCGACGCCTCCCCAGGGAGCCCTGGCCGCGCACTGCTTCCTAAGGCCACGGGATCCTGTGGCGACAGCGAGCCCGCAGAGCCAGGATCTAG
GCCACTTCCGGCGCCCAGCCGAAGTACTGCCCGCCGTTCCTCTGTTGCAGCTACCTCGTCATCGTCCTCATCCGAATCACTGAGAAATGGATTCACGCCG
CCACCACTGCCACTACCTCCAGGCGCCATCGCCGCCATCTTATCCTGTCAGGAGTGTGGGCGCCTCCCTGACTGGTTCCGACGGGCCGCAGCCCGAATCC
TCTAGGCCTCAGGGGACACAGCGCACCTCCACAGCCCCGGCCTGACCACGTCCTGCCTCCCGACTTAGAGACAAGGAGTACGCTCCAAGGCAGGAGATCC
GGATGCAGCTGCACCTGATGCCTCAGCCTCTGCTGCACCAGCAGCCCGGCTCTGCAGGCGTCTTCCTGGTCTCCAGTCTCGCGAGAACTGGAGCGTGCCC
TGCCCCTCTCCCCGATCTAGCCCCGCCCCAGCCCCGCCCCAGCCCACTTCAGCTCCGCCCATTCCCAGCGCCAGATAGCAAAGATTGAAGGCCCCGCTCT
CCGCTCAAAAGCAAAACTCCACCCACGACTCCTCCATGATTGGTCAGAGAAGGAAGGCGTGGAGCGGACTGACGGGAGACTGGCCCGAGAATTATCGCGA
TAGCAGCAGCGGCCGGGCAGGTRTTGGGGGCGTTCCGGAATTGAGGGGTGGTTGTAGTGGTGGCTTAGGAATACCCTCCCGGCTATCGCTTCAGTGGGTA
GAGGGGACCACTGCCCGAGAGCTTTAATGGAGCTGGGTCCTGCCTTCGCGCTGAGGAGCCCYCGTTTTCGAGATCAGGCCTGACCGGGATAAGCTCCAGG
TAAAGTTCAGGGACCAGTGCGCGGAGGGTGTCGGCGCCCAAACTGTGGTGTCGCGCCCGCGGACGCGCTGTTTCCCTACTGCGCTGCACTTTTTCTCGCT
ATTTGCTGCCAGTGGTGACATTTTGTCCCCATGGATAGCAAGTGCCCAGGCCTGTAGTCGGAATGTGACTTCCTTTCTTTTCCCTTCTCTGCCACATGCT
TGCACACTCGGGAGGCCTAGCGACAGCACGACTTCTCAGCCCCGGAGGTGGTCCTGCCTGTGGGTGGGGACGGGGGCTGGAGAGACTAAACGGAAAAGGG
AACGCTGAGGTTGGCATTTGCCTGGATCTGGGAACATCGTCGAGTTGGAAAACAAATTGTTAGGTACTCAATAAACGCTTAGGATTTAATACACGATTTA
CACAACAGGGACCCTTCAGAATATCTAATGCTGTCTCACCAGTAGACAGATAAGTAAACTTAAGCCAAGAGTGGTTGTTATAAAATCAGCTCCACGCCGG
GCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGCCGGGCGGATCACGAGGTCGGGAGTTCGAGACCAGCCTGACCAACATGGTGAAAC
CCCTTCTCTACTAAAAACACAAAAATTAGTTGGGCGTGGTGGCGCAAGCCTGCAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCC
GGAGGCGAAGATTGCAGTGAGCCGAGGTCGCGCCACTGCACTCCAGCCTGGGCGACAGAACGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAA
ATCAATTCCGCTAATAAGGAGTCAAAGGAATTAACATCATTTCTCTTATGTCCCAAACGATTCTTTATCCACTGTCTCCTGCAACATTTCTGACTCGTTC
ATGCAGGCTAGAATCAAGGTTTTGGAACTTAGAACTATTTTAAAAGTTGAATGCTTCAGAGAGTTTTGATTTTTTTGATGAAATGTTAGCATATAAAGTA
CATATCCTAAGTTTAGAAGATCAACGTTTATCTTTTATGTCATTCCTTGATTATGATCTGAAAAGGTAAAGGAATTTCCAGTCAATACAATTAGACTGCT
ATTTCTTATGGCTCCTATTTTTTTCACACACAAATGACCACTTTTCCAGGCTTTAGATTTCCTTTCTTAGTGTACAGGTAAGTGACATATTACATTCAGT
GTGTAGTAAACATTCCACAGTAAAGTATCTCCCGTTAGCTCCATGGAAAAATTAAAATAGACGATTCTTACATAACCTTAGGTCAGGTTATTGGTTTACA
TGTAAAAGTATGCCAACAGTTAAGAGTAGGCTTTAATTTCAATATACCCAGGCTCAATAAACTAAAATTTTCATTTGAATGGGGATTTGGGTTTTTAAAA
TTTTATTTTTGCTAGAAGTTTAAAAAAAAAGTACCAAGAATTTAAACTATTTTTTTATAGGACATTAGTTCCCAATGTTTTAATGATAAATAGTTTTCTG
TGCCATATATTAAAAGTAAAACATGGGGAAAAAAATCCCCCCAAATAGAATTGAAATGGCAAATACTGTATCCTGTTAGAGATTTCTTAGCAAAAGGGAT
TGCTGATCCGTATTTTAGTTGGATTTTCCAGAGAGATTAAAATGGAACCAATTTCTGGAATCCAGGAATGGAGGATTAGTGAATGGCATGGGAAGGGCAT
GATTAGAAATGGATTGTTTATATACAATATTTCCATCTCCATGATTGGGAAATTGAGAAATCTCCTGCATTTAGGATTCCTGAAGAGGATTATGCTTATA
AGATAGAAAAGCTTAAGTTCAGATCCCAATTCTACTCATTATTTATTGTGAGACCTTGAAAAAGTTACCTAACTTCTCAGCCTCACTTGCATTCGTCTAT
CAAAGGGGATAAGGAAAGTACACAGAATTGAGAATGTTCTTGTCCCAGTGCCTGGTACCTGCTACACAATAACTRTTACTGTGGTCACTTATTAATTATT
GAAATATTAGTATGTGTTGAGAACATTTGACAAGTGTTTAAAAATAAAACTAATATCAATCGTTTTGGCAGTGCAAGCCTGAAAAAGCAATTAAGTCAGT
AGGGCTGAAGGGAGTATCTTTAATTTGGGGTCTCAGTTCTAAAACACAAGTTGAAAATAGATTTAAAATGTTTCCTCAGAGTTGTAAGAACTTGCATGTA
GAGGAATTCTTCCCATACAAATCTGTGGTTTTCTGCTTCTATTTCTGCCTCCTATCCTATAACCATGAACTTGTGTGTTTGATCTTGTAAGCCCATTAGA
AATCAACTGCCCAGTCTTCCCAGTATGTACTTTTCTTTTCCACAATACACAGAGGTTTGGTTATTCGTGAATAATGTATAAGTAACACACACTGGAATAT
TAAAAATTACCGATCACTACTTATAATAATKTATTATTAATAGTGTTGGGAAATTTCCTTTCTACTTAGTAAGATTTTCATTAATCTAGGCCCTTACAAC
TAATGTTTCATCTGACTAATGATAGTTATTAAAGCTTGTGCCTTAGCAATGAAGATGTAAAAGATGCCTTTTTTCAAAGCACGTCAATCATTTTAGTATT
TAAAAAATTATTTTAGGTTTTAATAGTCTTAAAAGAACCACAAGTAATATTCTGAATGCAAGTTTTGGTTGACTTGAGGTTTTAGTAATACCTCATGTTT
TATTGTTTTTCAGTGTGTGGTAAACATCCACAGATAAACTAGATAACTTGTATTGGTACATGCATATATCTTTTTAAAATTTTAATAGTTATGTGTTTGT
TTTGGAGGTATTTCTTTTTCAATAAATCTGAATAAATTGTGATTTTCTTTAAAGAGAAGTATTAAGTAATATTTAGTATTAAGCAATTAAACTAATTAAA
ATAAGTAGTTAGTGAATGCTGATATTTTGTAATAACTGCAATTTTATTTACATTAATAGTAAATTACTTTATCATAAAAGGTTTAGTTTTTTTTTTTTTA
AAGTATTTTCAGTCTTCACATCTTGTTCTGGAGGAACAAAAACAGAAGCAGGGCATCCTCTAGTGGCTGTAGTGCATATTGCATTTACCCTTGAAATGAT
AATTCTAAATAATTTATTCAGCAAACATTTGAGTCCTTACTAAGTGCATAAGACTCTGATGGGTGTTGGAGATGCCCCGTCCTGCTGTCATGGAATTGTG
GTGAAGTGACAGAGACAGACATTAATTCAAATAGTCGTAGACAAAGCTATGTAATTACAAACTGAAGTAAAAGTTTTCGTTTCTGACTTCACCTGCATAG
TCCCTGAGGAAGTGATGCTTGAAATGGAATGTTAGGAGAGAGTGGAAGATAGGTTGCAAGTACATTCTGCAGAGAGGAATTGAGCCTACAAAGGTCTTAT
AGCAGTGGGATACTTGAATAAAAGAAGGGGCCAGTGATGTGAGATGTTACMAAGTAAAGGGGAGTGCTATGAGACAGGTTTAGAAAAGAAGGCAGAGGCT
AGTCTATAAAAGACCTTGTTAGTCACATTAAGGATTTTAGTCTAGATTAGTAGGTGAAAAGGCACTGGAGAGTTTTTTTTTTCCAGCTGTGACTTCATTT
TTAAATTTATTTTTTAATATACGATTTTATGTATTCATTGTGTACATGATGTTCTTCAGTTTATATACATTGTGAAATGCTCAAATCTAGCTAAGTAACA
AATGCATTACCTTACACATAGTTATCATTTTTGTGATGAGAAATTTGAACATCTACCCTTTTAGCAGTTTTCAAGAATACAATATATCATCATTAACTAG
AGTCACCATGCTGTACAACAGAGCTCTTGAACTTATTCCTTCTATCTAACTCTAATATGAATGCTTTGATCAGTATCTCTACAATTGCCCCCCGCTGTGG
AACTACCCCAGCCTCTGGTTACCACCATTCTGCTTCTAATTCAGTGGGGTCAACTTTCTTAAGTTCCACATAGGAGTGAAATCATGCAGTATTTGTGTTT
CTGCACCTGGCTTATTTCACTTAGCATACCAGGCTTCAGGAACATCCGTGTTGTTGCAAACGTGTCTTTTGACTTTAAAGACAGTGAATGCTTCACAGAA
GGCACTGGAGAGTTTTATACAAGGGGTAAGATGTTCAGATTTTCTTTTGAAAAAAGAAAAGCAAGTAATACTCTGGCTACATGGCAAGAAATGGATCAGA
GAAGGGTTAGAGTATATAGGGGTGACCTATTCCTGCATTGCAGTAGTTCGCATAAGAGATGGTATACATCTTAAATTATAGAGGTGTCAATGGAGATTAA
GACAAATGAACAGATTCAAGAAACACAAAGTGGACAATTGTTAGATTAAATAAAGGGGAAGAATAGGGTGTAAAGAACAATGCCTATTTCTCAGACTTAC
ATACTTGGTGGGAAGGTGGTGCCACCTACTGAGATTGTGAACACTAAGGATTTAGTAGGTAGTAGACAAGGCTCATGGGAAATGTTATGAATTTGGTTTT
AAACCTACTTAGTTGAGTGTCTTTGAAACGTCCAYKTAGATTTATAAAGGTTCGAGTTACATATGTGGATTTGGAGCTATAATTTGTTGAGGCTTTTGCA
TATTAGGTAATAACTGAAGCCACAGATATGATGAAACTTGCCAGGATAGAAAGTATAGAGTGAGAAGAAAAGACAGCTGAGGACCAAGTTTTGAGTAACT
CCAAAATTTAGTGATCAGATAGAGACTGTTCAACATTGRTCAGAGGTGTAGGTGAAAAATGAAAGCAGTAATGTTCATAGAAGCCAAGTGATAACAGCCT
ATTAAAAAGGAGAAGGCAGCCGGGCATGGTGGCTCATGCCTGTAATCCCACCACTTTGGGAGGATGAGGTAGGTGGATCACCTGAGGTCAGGAGTTTGAG
ACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAATTACCTGGGCATGATGCTGTGTGCCTGTAATCCCAGCTACTTGGGAGGCTG
AGGCAGGAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATCKCGCCACTGCACTCCAGCCTGGGCGATAGATAGGGCGAGACTCTGTC
TAAAAAGAAATAAAAATAAAAAGGAGAAGGCGACTGGGCCCAGCAACTCACACCTGTAATCCCAGCACTTTAGGAGGCCGAGGTGAGTAGATGACTTGAG
CCCAGGAGTTCAAGACCAGCCTGGGCAACATGGCAAGACCCCCGCTCTACAAAAAATACAAAAATTAGCTGAATGTGGTAAACATGCACCTGTGGTCCCC
GCTACTTGGGAAGCTGAGGTGGGAGGATGACTTAGCCCAGGAAGCTTAGGTTGCTTAGAAAATGAAGACTAAAAAATAGCTATTAGATTTTGCACTGTTA
ACTGTCTTTACTTTCTTATGAAGTAATGACAATAAGGTTTAAGTTGTTTGAGATTTAGGTGGTCAGGAAAAAAAAGAGGTCACATTCAGCCTTTTCAAGA
AGTTTGACTGTGTTGGGGAGAAAAGGGCAATAGATGTTTAAAATTTTTTTTATTAATACTGATATTTATGAGATGTATCCTTTTCAGAAATATGGTATTT
CATTATGAATAAACAATTTATCTGTTCCCTATGGTTAGATATTGTTTCCAATTTTTTATTATTACAAATAGCAAAAGCCAAGATTTGAATGTAAAGGTTT
AAAACCTTTTWCTTTCTGATGTGTAATTTTATCATAGTAAATTCTACACTAGTAGCAGTACTAATWCTTGTGAGCTGGTTAAAAACATAAGCTGATGTCT
ACCTCACACCATATACAAATAATTATTTTTGTTTCAGAGGACACAAACCAACACAAATAAATTTTAAATAATGAAAGGTAAAAAACAAAAATCTAAAACT
ATTAGAAGAATATATGTGACATAAGAACCAGGAAAGTTTTCTTCTATAGTACAAGACACAAAAAACTCACACCAGAAAGGATAAATGTTTGACAAATTTT
ACTGTATTAAAGTTGAAAAATTTATTTTAACAAAAGGCCCTATGAACAACATTTATATATAAATGTGTATATCTAGCTATGTATAAACATACACACACTA
TATAAACATACACACACATATAATTGTAATGTACAAGTCAAATAAAAGGTCAATAACCCTAATCCTATCTGATCAAARGATATGAATAGGCAGTTGAAAG
GAAGAGAGACCCAATTGGCCAATAAAAACATGAAAAAATTTTCATACTCACTAGTAATCAGGCAAATACATATTCAAATAACAGGATGCCAATTTGGCCT
GTTCAAATTGTCTTAAGGTAAATATGACAGTATCAAGCAATTAGGGGGATTTAGAGATATAGAAGCTTTCGTACATTGCTGGAGAGTATGTAAATTAGTA
TGGACAMTTTGCCAGTCACTTGTAAAGTTGAAAATTTTGTTTATTAGAGCAATTCCACTTATAGAGGTGGCTTTCAATCTTATTGGTCCATAGAATAATT
TAAAATAAAACTTTCAGTACAGGTTATGTACATGCAAGAATATTGATGCGTGGATACACAGGAAAAAAACACACTTTTTCAAAATAATCATGTACTACTT
CTGAAGTACTTTGTGATGTGATATATTCTATATTTTATCCRATCCTATTGTACTGTATTCTATTTCATTTTTTAAAAAAAGGAAAGAAGGCTAATTGCAG
TCCATGAAATTATTTTGTTATGGGTCACTACTCTACAGTTTGTAAAAATTCTAAAAATCTCCACCTTTACCATAAGAGAGCAGCTTAATTGCCATATTAT
TTGTAATCATGACAACTGCGAGTGATGTTGATCAGCAGGATAGTGTTCAATTAAATTGTAATAGAGTCATATAATAGAATATAGGTCTTGAATGTTTGAG
ATCATTTATAAGGCTTTTTTGGTAGTACTGATTAGAATAAGCTTATAAAAGAAATAATGGCTTTGCATCTATACTGGTAAAAATTAATTTCAAGTAAGGT
GGGGAAAGCAGGAGTGGAAATGATGATGATTATAATATTAATGTAATCTTGTAGAATGACAGATGGCTTTTATTTATGTATGTATTTATTTATTTTGAGA
CAGGGTCTCACTTTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGGCAGCCTCGATCTCCGGGGTTCAAGCAATCCTCCTGCCTCAGCC
CCACAAGTAGCTGGGACTACAGGCATGTGCCACCATGCCTGACTAATTTTTTTGCATTTTTTGTAGAGATGGGGTTTCACCACATTGCCCAGGCTGGTCT
CAAACTCCTGAGCTCAAGTGATCCACCTGCCTTGGCCTCATAAAGTGCTAGGATTACAGGTGTGAGCCATCAGGCCTGACCGACAGATGGCTTTTAATTA
CACAATTGACTGGGTTTAACATATATACTCTTCATACAGAAGAACATCAATTTATGTAGGTGCCTCGTCATCTCAGGAGGTGGAGTGTAACTCCTCACTC
TTTAAGTGTTGGCTGCACGTAGTGACTTCCTACCAAAAACTATAGTATGAAATGGGGGAACATTTACATGGAGAAACTTTACAGTGAACTTTACAGAGGA
CAAACTGAACAAACCGCCTCAGCCAAGTGGTCAAGTTTTATATTAACAGTTTAGTAAGTCATGTTGACAGTACCCTTAATRTGATGTGAAGAAAATGGTA
CTTTATGTATGTATGTTTCCTCTCCTGAACCCATAACCCCAGACTTACCATGAGAAAAACATCAGATAAATCCCAATAGCAAGACATTATACAAAATCTC
TGACCAGTACTCCTCAAAACTCACAAGGTCATCAAAACAAGCAAAGTCTGAGAAATTATCACAGCCAAGAGAAGCCTAAGGAGATATGGTGACTAGCTGC
CCTGTGGTATCCTGGTAGAGTTTCTGGAACAGAAAAAGGATGTGAGATACAGATAAAAGATTTTGAACTCAAGTGGGCAGGAATCATCTAAAGAACTAAT
AACCTCTAGTCTACTTGCCATGAGAAAATTTGAAAATTAGTTCTCATATGGGATTTTGTAAAGTCACATAGAGTTTACAATTAAAAATGACATAAATCTT
GATGAAAAAATATATACCCCAGAATAATAAGCAAATGAACTAGTGCTAATTATATGGCTTAATAGTTTATCTGATAATCTTGTGTGCAGGCTCCMAGTAC
TATCTTACAGTTTTTCTTTCCTCTTCTTCTTTTTTTTTTTTTAAGTGGGTCTTGCTATGTTCCCAGGCTAGCCTTGAATTCCTAGGCTCAAGCAATCCTC
TCGCCTCACCCTCCTAAGTAGCTGGGACTACCAGCTCTGTCTTACAGTTTTGGCTGGTTTTACTTCACATCGTAGGTTTGTGTATTTTTAGTAAATGTTG
AAGTGGTTAAGAACACAATCTCTAGGTGACATTACCGAAAATGGCAGAGTACGGTGGTTTATTATAAGGGTTAGTTCCTCCACTGAAACAAGCATAAGGG
GGCAGAGTGACAGGATCAACTGTTTTGGGATTCTAAAATCTGGTCTGACATTTACAGCAACCAGGAGACTGCATAATGAAGAAGAGGGCAGCTGAATTTC
AGAGTGCTGTGGCATTTAATCCACTGGATTACCATCCTCATTCACCATTGTGGCAATGGCAGCAGCTGTGGGGACTATGGCCCACATTTCTGGTGTGACT
TGCTTGTATTTAGTATGGACTTTGTTCTTAAAATACTGTGGTTGTGCATTTTGATCTGTCTAGTGGTTTCCTGAGTGACCAATGTAGAGGCTGAATTTTG
TCCCATCTTTATCCCCCGCAAAAATTACATGTAATGCATTCCCAGAAAGATCCTGAGAGGTGCCTACGCTTCTACCTTTGGAAGATCTGTGAGCACTAGA
CAAGCAGAAGGTGAAGGCTAAGGCAGAAGTGTAGGTGGCCAAGCTTAGTGTGAGAGTACTTCAGCTGAGAGCCAGACTACAAAAACTTGGGAGAGTACTA
TTTGTTTTTGTTTTAGGCATTTAAGGAAATCTAAATCTGCCATTGGCTGATCAGTAAGATAACAAAACAGAGACTTTAATGACCATAAACAAAAGGAATA
AAGTCTTTGCAAAAATAGTTTGGAAAAGTTACTAAACAAAAGGCTGAACCCTTCAAAAATCAAAAGAAAATGCCAGAATTCTGGAATCTGATTTCTAGAA
TTACTGCATTATAATATTCGAAATATAAATTTCAACAGAAAGTTACAAAAAAGCATATAAAGACTCAGGAAAGGATGGCATATTCACAGAAAAAAATAAA
CAAATTGGTGGAAGCCACCCTTGAGGAAGTCCTGACATTGGACTTAGTAGACAAAGACGTTAATCATCTGTCTTAAATATGTCAAAATGCTATGGGAAAC
CATAGACAAAGAACTAAAGGAAGTCAGGAAAGTGATGTATGAACGAGATAAGAGCATCAAAAGAGATATAAATTATTAGAATGAACCAAATAGAAATACT
GGAGCTTAGCAGTACAATAATTGAAACAAACTGTTCACAAGAGGGATTCAGCAGCAAATTTGAACAGGTGGAAGAAAGAGTCAATGAACCTGAAAATGGG
GCAATTGCAATTATAGAAGCAGAAAGAAAAAGAAATGAAGAAAAGTGAACAAAACCATAGGGACCTATGGGACACCATCTTTAATTCATAAGCTTTTTAA
TATGGTTTATGCCAATGTGAACATTAAATCACTGATAGTCTGTAAGTTTAGCAAATCATGTTTGACAAGAACAAAGGTTACCTGAAATCAGAGCTATCCA
TAAAACTTGCGGTGGTTTATAATTACAACAGTGTATCTTTTGAGTATAGATTCAGACTCCAATTTTTTTTTTTTTACTTTTTATTTAAAAATAATGTTTA
GATCTGTGGAAAAGTTGCAAAAACAGTACAGAGTTCCAGTACACCCTTTACTCAACTTCACCTAATGTAAACATCTTATGTAAACATCATATAATTATCA
AAACCAGTACATTAGTATTTGTATAATACTATTAACTACAGATCTTAGTTGAAGTTAACTAGTTTTTCCACTATTTTCTCATCCGGTTTCCCTTGTTGTG
TTTAGGTAAGTCTCTTTAACCTCCTCCATTCTTTTACAGAGTACTTGTCCATTATTTTGTAGGCTGTCTCAATTTGGGTCTATCTGATATATTACCATTA
TTAGATTGAGATTATACATTTTTAACAAGAATACCACATGTTCTTTTGCCAAGACTACCATGTTTTGCCTTTCTCGGTGCATCTGGTCAGGGTTACATGA
TGTTAGTATGTCTTACTATTGGTTGTGTTAACCATGACCACTTGGTTAAATGGTGTCTGACTATTTTCTCCATTGTTAGTATTTTTCCCTTTGTAAGGAA
TAAATATTTGGAGACGTTTCTTTAAGACTGCAAATATCCTGTTTCCCTGAAACTTTGATCCATTGATTTTAGCATTTATCAATGGATCTTGGTGGCAATA
ATTACTGTGATGTTTGCCTAGTTGTAATTTTATATCTCCCTCATTCCTGCTACCTGAATTAATTGAAATTATTCTGTAAAAAAGAGATATGGGATTCTAA
ACTCATTAATATCTCATTGTATTCTGGTAGAGATAAGGATAATAAGTCATTACTTGTTAAAGCAATTCTCTCTAACATAATGTTAGAGAAAATTATCAAT
TATATTCTCACTTGATTTTCCTTTCTGGAATTTTAGATACTCTTTTATAGCCTAGTTATATATCTCATTAAATAAGTTATTTAAAAATAAAAATTGCCTG
AAACTTCTTGTTCATTTCTTACCTTTTCTTTATCTGAAATTTGAGACAATAGAGCCTGTACTTCCTAATTGGAAAGATTAATTAGCTAATGATGGTTCCT
AAGATACCTAGGGGGAATTTTAGAAGCTTTCAAGGACTTTTTATTAGCTCTCTTCCTGCCATATTCCCCAAAATAAGTAAAATTTCTCTTTGACTTGATG
CTRCATTAACTGTACTTTTTAGTGAACTRGGGGAAAATAAATAAAGTTCAAATATATACTCATTCCACCAATGAATCATAAAGTGACTGCACTATGCCGT
TAGGTGGTGAGCATGAGTGAACAGAAACACAGTCATTGCCTTCATTCTAGCTTATATTCTAGTCTGAGGATACATATTAGAAACATGCATTTGGCCGGGT
GTGGTGGCTTACACCTGTAATCCCAGCACTTTGGGAGCCCAAGGTGGGATGCCATAATGAGGTGAGAGAGGTATGCAGGGCCACGGAGGTAGTGGAAGAA
CACAGGATATTACTCTTGGAACAATGGAAAGCTACTCACAGACTTTAAGAAGGGAAAAGATGTAATCTAATTTACATTGAAAGGGAAGAAAATGGAAATT
TTATGGGGAATGGGTTAAAGAGTTTTAACCTTTAATCTGAGTTTTGGGGTCAGTACCTGTGTATAAAATTCCTGAAGAACAATTAGAATGAAGTATAGTG
AACAAGTGAAATGTWCTACAATTTGTAGAGTAAAATATGTAATTACTTTAGATGAAGGGAGAAACTTACATTGTGTAGTTTTCTGCAGTTTGGTAGGGAA
ACCATTTGGAAGTTGTTGAAGAGGTCCAGGTGAAAAATAATGGACTTAGGTGATGGCAGTGAATGTGGAGAAGTGAAAACACGAGTTCCTTTGAAAACAA
AACTCAACTGGACACTGAGTTTTATATATATAATGACATAAACATTATATATATTAGATATATWAAATATATATATTTATTATATATAAAAATATATATT
TATAATATATATCTAATATATATAATGTTTATGTCATTCATGTTTAGTAGTGAACACTGTGAGTCTGTAATCAAGAAATTTTATTAATTTGATTAGGGGA
GTTGTTTTCAGATCCTCTTAAAAGCTTTTTTGAGGGGGAGGGGATTGAATTGCATGACAGTTTAAAAATGGTCTCATTGTCTCRTAGCCATGATTTTTAT
AGGAACTAAGTAATTGTATAGGACATTCATTTTTCTGTTCAGCTAGTTGCTATGTATGTTTTTAAAAATATTGTGCTTACCTAAACCACTTTTAAAAATA
ATGCATTAKCATTAATTTAACCGATTTAATTAATTAATAATATTGGGAATTTAATAGGATCAGAGAAAATATGAATAATATAAGCTTCTATTGGATAATG
CAATGGTTAAAAGTAAATGTGTCTATGATGGTAGTTAAGTCTTTATAATTGTTTACTCATTCATCTCGCCTAATTAGATTTTTACTGCTGCATATTAAAT
AACAGTATGAGCTGAGACCTCACTTCATGTCTCTGGCCTTCAGCTTGTTCTTTTGTGAACTCAAAGTTTGACTCAATTGCCTTTGCTTTATAATATGCCA
TTTCTTCATATAGGCAATAAACATTTACTAAGGAGCTATTAATGGGTCAGTCACARGTGGAAGAATGTTGTGAATATAGAAGTGAMTGGGAGTGTGTCTA
AAAGATCATATAATTTGGTATGTAAAACTGAAAAAGTAAGTAATTACAGCAGTGAACTAGGAGCTACCATGGAAGTGTTTCTAAGGCAGACAATGAGAAG
ATGAGAAATGATCAGTTTTTTTTTTTTTTTGAGTTGGAGTCTCGCTTTGTCGCCCAGGCTGGAGTGCAGTGGCATGATCTTGGTTCACTGTAAACTCCGC
CTCCCAGATTCAAGTGATTTTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGA
TGGGGTTTCACCACATTGGTCAGGCTGGTCTCGAACTCYTGACTTCGTGATCTGCCCTCCTTGGCCTCCCAAAGTGCTGAGATTACAGGCGTAAGCCACC
GCACCCGGCCGAGAAATGATCAGTTTTAATAGTGAAATTATGGAAGGCTTTTTAGCTTTTGCCMCCTATTTGTTGCTCTTCCTTGTGTTCCAATTGGAAA
GGATGAAGGGAGAGAATTAATTAGGTGGTTGAATTGGCAGAATTTAGTGACCATATGACTATTCTTATTTCATAATGTTTAATTTATCTTTGTGAAGCAA
AACTGAAGTGTTATCATTTACTGAGTGCCAAGTGTTGGGCTAGGTACTTGACATACGTTTATTCTAATCCTCACAACCATTTTTATAGTTCATCAGTATT
ATCTGCATTTTACAGGTAAGAAATACAAAGTTTGGGTAATTTTAGTAATGTACCTAATGCCAGAATCCGCTAAGGACATGATCTCCAAGTGCATCCAAAA
TAGACACCAAGGCTGGGTGCAATGGCTTACACATGTAATCCCAGCACTTTTTGGGAGGCTGAGGTGAGAGGATTGCTTCAGCCCAGGAGTTCAAGACCAG
CCTGGGTGACACAGTGAGACCCAGTCTCTAGAAAAAGTAAAATAAAATTAGCCAGGTGTAGTGGCACACCTTGTGGTCCCGGCTACTAGGGAGGCTGAGG
TGGGAGGATTGTCTGAGGCTCGGAAATTGTGCTGTTGCACTCCAGCCTGGGTGGCAGAGTGAGGCTACTGTCTCAAAAATAAATAAACAGAATAGACACC
AAGTTGCGTTTTAAAATTTTGTAGACCGTAACCTAATAAATGGCTGAATAGAGTTATTGTCAAAATGCTTGTTATTTACAGAGTTTATTTGCATGATTTG
GATCACCAATAAGAAGTCCCAATCTTAATTACCAATTTGGCAGGAAAATATATCTTTGTCTCTTCTATTGCTTTCTTCAGCATAATGTAAAGTCAACTAT
TTACAGGTTGATTTTAAAAATATGAGTTGGGTTGCTTCACAATCTAGTTATTTTTAGTATTGCTAATATTTTGTGTTCGTATGGTGTCATTGGGGAGTCT
ACTTATTTCCCATAATACTTCTGTAATGGAGTAGGGCTGACAGTGTCTTTTTTTATGGATAAGGAAACAGTAACAGTGGCTTTACTAGAATCCACTCTTA
TTATGTAACAGAACTAGATTTTTGTGTTGGCTATTATAACTTTAAGATGGTCAAAGTTCTGAAATAAAATGTTTTGTTACTTCAGTAAACCTTGGAAAAT
TTATATTATCTTTTAACACATAAACTTTGATACTTAACTTAGCAAAGCAGTGCAGTGGCAAATGGGACAAGAAAGAACATGAGCCCAGGGAGTTATTTGT
AAATGCAAATATACATTTGCATTTACATTTACAATTTACAAATATACATTTGCATTTACAAATGCACATTTGCATTTACAAATACATCTTAATGTACTTA
TAAGTTAAGTACATTATTAGAGTACTAAGTTAAGTACATATGTGTAAGTACATATTAGAGTACTAAGATTTATTTCCATGATAAAGAGGAGGTGTTTAAA
TCAAAGTGAACATCTGTAAATCTAAATATGCCATATGTACTTTAGCTCTGGATAGAATTTAAGATCTAACTGAAAGGAATTAAGTACTTGAAAAATGACT
TATTTTGAATAACTAATGTGATACTTGCCCTTAGACTGGATCCTGGACTGCAGGACAGGAAAAAGGGATAATAGGTAAATATTATGGACAATTTTAGTCA
ATAAATTTGACAGTTAGGATGAAATGGACAAATGGATAAATTCCTTAAAAACTACGAAAGCTTACTTAAGAAGTAATAGATAACCTGAATATCTATATGT
GTTTATCTGTATCTATATATGTGAAGACATTGGATATATGGTTGAAAACCTTGTCACAAAGAAAACCCCAAGCCAGTGGTTTCATTGGTGAATTTTGTTA
TTCGATAAAGGAAGAAATAATACAAATTTTACACAAACTCTTCCAAAAAGTACAAGAAGGAACAGCATTTCCCAACTCATTGTCTGATACCAAAACCACA
GAAAGATATAAGAAAAGAAAATTATAGTCTTATATCTTTCATAAACTTTGCTGCAAAAAATGGTAAAATTTTAACTAAGACCAACAATATGTAGAAAGGA
TAATACTTAATGACTAAGTGGGGTTTATTCTGGGAATGTAAGATGCGTTTAACATTTGAAATTTAATCAATATTAATTCACCACATTAACAGGCCAAAAT
ATTAATTCACCACATTAACAGGCCAGAAAAATCAGATGATCATAATTATCTCAGTAGATACAACAAAAAGTATTTGACAAAATCCAACATCCATTCATGA
TTTAAAGCTGTCAGCATATTAGGAGTAAAAGGAAACTTCCTCAGCCTACTAGAGGGAATCTACAAAAACCTGGAAAACTGACAGCATTCATCCTAATATT
GGAAACAAGGCAAGGATTTCTGCTGTAATCACTTCTATTCCACATCATACTGGAGGTTCTAGATAATATAAAAAGCATAAGATGTAAATAAAATACATAA
AGATTGACAAGAAGTACAATTGTCTTTATTCATAGATAACCTAATTATCTCCAGAAAGTTAAAAAGCATATACACAAAAGCCACCGTAACAGTTGATCAG
TGTTGCAGGGTACAGGGTCAATATATAAAGATCAATGTTGATTTAAGAATTAACAAGGAGAAATTGAAATAAAAAATAACATTACAATAGTACCAAAAAT
ATGAAATTTGTAAAGATGGTATTTAAAAATGATGTACAAGACCTATTAATTTGAAACTACAGAACATTGCTGAGGGAAATTAAAGAAGACCTAAATAAAT
GGAGAGTTATACTGTATTCCTGGACAGAGAGACTAAATATTGTTATCAGTTCTTCCCCAGTTGGTCTGTGGATTTAACTCCATTCCAAACAGAATGTCAT
CATGCTTTTTTATAGATACTGACTTCGCTTCTGCAGCTTCCTTACCTCTCTCAGCCTTCATAGATTGAAAAGAGTTAGGGTCTTAAACTCTGGATTAGGC
TTTGGCTTGAGGAAATGTTGTGGCTGGTTTGATCTTCTATCCAGACCACTCAAATTTTCTTCATATCAGCAATAAGACTGTTTAACTTTATTATCATTCA
TGTATTCACTGGAGTAACACTTTTAATTTTCTTCAAGAACTTTTCCTTTGCATTTACAAACTGGATAACTGTTTAAAACAAGAGGCCTAGCTTTCAGCCT
GTCTTGGCTTTCAAAATGCCTTCTTCACTAAGCTTAATCATCTCTAACTTTTGAGTTAAAATGAGAGACACATGAGTCTTTCTTTCACTTGAACACTTAG
GATGCCATTGTAGGGTTATTAATTGTCCTAATTTCAATTTAGTTGTGTTTTGGAATAGCAAGGCCCAAGGAGAGGGAGAGAGATGGGGGATGGCCAGTTG
GTGGAACCGTCAGAACACACACATTTATTAAGTTTGCTGTCTTATATGGAATTGTCTCAAAACAATTACAATCATAACATCAAAGATCACTGATCGTAGA
TCAACATAACTGACAATAGTAATGAAAAAGTTTGAAATAATTGCAAGAATTACAAAATATGACACAGRCATGAAGTGAGCACATATTGTTGGAAAAATAG
CACCAATATACTTGCTCAATGCTGGGTTGCTTCAAACTGTCACCTTGCAAAAATAAATCTGCGAAGAGCAATCAAGTAAAGCACAATAAGATGTGGTATG
CCTGCATCTAGAATATATTAAGAACCATTATGGTTCTGTGACAAGAACACAATCTAATTAAAAAATTAAATCCRTACAAATGGTAGATCAGTAAGCCTAT
GGAAAGATACTCAATAATATTAGTCATTAGGGAAATTATATTAAAATCACAACAAGCTACCAGTACACACCCACTTCAGATGAAGTTTGAAAGATTGACA
ATGCCAGGTGTTGCTGAGAATTAGAGCCACTGAAACTCTCATATATTGCTGGTGGGAATGTAAAGTTGTACAACAATTTTGGAAAACAACTAGTTTGTCA
GTTTCTGAAAAAGTTAAACATGGCTGGGCACAGTGGCTTACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGAGAATCACTTGAACCCAGGAGTT
CGAGACCAGCCTGGGCAACATACTGAGATCCCCCCATCTCTACGAAAAATTTAAAACTTAGCTGGCATGCTGGCTCTCACCTGTGGTCCCAGCTGCTCAG
GAGGCTGAGGTGGGAGGATCACTTGAGCCCAGGAGGTCAAGGCTGCAGTAAGCCGTGATCGTACGACTGCACTGCAGCCTGGGCAACAGAGCAAGACTTT
GTCTCAAGGGAAAAAAAAAAGTTAAACATATATTTACAATTTGACCTAGCCATTTTATTCCCAAGTGTTTACTGAAGAGAAATGAAAGCAGTGACTCACG
CCTGTCATCTCAGCACTTTGGGAGTCCAAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTCAAAAAAAAAATAATAAAAAAAWWAKAAGAAGAAATGAAAG
CACACGCCCATACATAAGCTGTTACGTGATTCTTCATAGCAGCTTTATTTGAAATAGCCAAAAACTTTTAGAAACAACACAAGTGTCTGTTAACATGAGA
GTGAWTAAACAAATTRTGCTATATCTGTGCAATGGAATAATGCTCAATAATAAAAAGGAACAAACATATATGATTCTAAAAGTATTTATGCTCAGTGGAA
GAATTCAGATGGAAGAGAGTACATGATGCAGAAATAGATTTTTATAAAATTCAAAAATGCAAACAAATCTAYAGTGGTAGAAAATACATTAGTGGGCTGG
GCATGGTACACCTATAATTCCAGCACTTGGGAGGCCAAGGTGGGCAGATCACTTGAAGCCAGGAGTTCCAAGACCAGCCTGGCCAACATGGCAAAACCCT
CTCTCTACTAAAAATACAAAAATAGCTGAGCATGGTGGTACACGTCTGTAGTCCCAGCTACTCAGGTGGCTAAGGCATGAGAATTGCTTGAACCTGGGAG
GCGGAGGTTGCGGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGGTAACAAAAAGTGAGACCGTCTCAAAAAAAAAAAAAAAAAAAATTAGTGGTTG
TCTAGGAAATGGGGTAATGTTGGATTACAAAGACTCATAAGAAAACTTTTAGGTTGATGGGTTTGTTCATTATGACTGTGATTATTACACTTTATGTACA
GTTTTTTGGTCAATTATGCCTCAGTAAAGCTATAAAAATGCTATAAAGAACATTATTGGATCACTTCACAAAATTGGAATATGGATGGTAGATTAAATAT
TACATTGATGTTGAATTTACTGAATTGATACCTATACTGTAGGTGTATAAGAGAGTATCATTATTCCTAGGAAGTAAACACTGAAGTATTTAGGAATAAA
GAGTCATGGTGTATATAACTTATCCTCAAATGGTTCAGAAACAATGTTATGTGATCAGATATATACAGAGAAAAAGGACAAAGCACAGAGGCAAGGCTGG
GATGGAGCAAAGCAGAGAAAGAGTGGGAAAAAAGAACAAATAGGGGAAATGTTAACATTTAGGTGAATATGCTAAGGGGTATACAGGTGTCTGTACCATT
CTCGTAACTTTGTTTGAAATTATTTTCAAATAAAAGATATTAAAAATGTGTAATAAAGAAAGCATGGTTACTTACAATGATTCCATAGTTGGGACATAAA
ATATAATAACCAGAAAGAAAAGTTGGTAAATTGAACTTAATCAGAATTTTTTTTTTTTTGAGACAGAGTTTCACTTTTGTTGTCCAGGCTAGAGTGCAAT
GGCGCAATCTTGGCTCACCACAACCTCTGCCTCCGGGGTTCAAGCAATTCTCCTGCCTCAGCGTCCCAAGTGGTTGGGTGCGCCACCACGCCTAGCTAAT
TTTGTATTTTTGGTAGAGATAGGGTTTCTCCATTTTTGGTCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCAGCCTTGGCCTCCCAAAGTGCT
GGGATTGCAAGCGTGAGCCACCGCACCTGGCTGAACTTAATCAGAATTTAAAAGTACTGTTTTTTTATATACACCGTTAAAAAAATGAGAAGGGATAAAA
AGATGAGACTAAAAAATGTCCATTAAACATGTGAAAAGTTGCTCATGATCATTGATCATCAGGAAAATGTAAATTTCATAATATATTATCTACAATAAGT
TATCACTACACTTCTATTGTGTGTGTGTGTATATATATATATATGTAGAGAGAGAGAGAGAGAGTGTGTTATGGAGACATATAACTTTGTTTTTTTTTTG
TTTTTTTTTTTTGAGACGGAGTTTCACTCTGTTGCTCAGGCTGGAGTGCAGTGGTGCGATCTTGGCTCACTGCAGCCTCTGCCTCGCAGGTTCAAGCGAT
TCTCCTGCCTCAGCCTCCCGAGTAGCTGAGACCACAGGTGTGCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCAGGTTG
GCTAGGCTGGTTTTGAACTCCTGACCTCAAGAGATCCACCCACCTCGGCCTCCCAAAATGCTGGGATTACAGGCATGAGCCACCATGCCTGGCCAACTTT
GAATACACACACACACACACACACACACACACACACACACACACACACACACACACATATATATCTCTATATATCTCTATCTATATATATGTGTGTGTAT
ATATATATAGAGAGAGATTTTATATATATACATAGAGAGAGAGAGAGAGAGAGAGCGCTCCTGCTCTCTGTCAATAGACAAGGCATACGGGAGAGAACGA
GGTGTCAGTCTGTGTTCTTAAGGAGCTTACATTCTAGTGGAAGAGATACACTAAATAAATATTTATTTTATTTTTTATTTTACTTTAGGTTCTGGGATAC
ATGTGCAGAATGCACAGGTTTGTTACGTAGGTATACATGTGCCATGGTGGTTTACTGCACCTATCAACCTGTCATCTAGGTTTTAAAACCTGCATGCATT
AGGTATTTGCCCTAATGCTCTCCCTTCTTTTGTCCTCCACCCCTGCTACAGGCCCTGGTGTTTGTTGTTCCCTTCTCTGTGTCCATGTGTTCTCATTGTT
TAACTCTCACGAGTGAGAACATGTGGTATTTGTTTTTGTGTTCCTGTGTTAGTTTGCTGAGAATGATGGCTTCTGGTTTCATCTATGTCCCTGCAAAGGA
CATGATCTCATTCTTTTTTATGGCTGCATAATATTCCATGGTGTATATATGCCACATTTTCTTTATCCAGTCTATCATTAATGGGCATTTGGGTTGGTTC
AAGTCTTTGCTGTTGTAAATAGTGCTGCAATAAACATATGTCTGCATGTGTCTTTATATAGAATGATTTATAATCCTTTGGGTATATACCCAGTAATGGG
ATTGCTGGGTCAAATGGTATTTCTTGTTCTAGATCCTTGAGAAATTGCCACACTGTCTTCCACAATAGTTGAACTAATTTACACTCCCACCAACAGTGTA
AAAACATTCCTATTTCTCCACAGCCTCGCCACTAAATAAATATTAACAATAGCTACAGAATGTATGTTTGTTTGGATCAAGGAAGATGGAGGAGGGGCCT
ACTTCAGAGTGATCAGAAGAACCTTTAGTTGGTGACGTTTGAGAAGGGGCATGAAAGATGAGAAGAAGCCTGCTGCAGGGTAGAGCCAACCAGAGCGCAA
TACCAGTTTGCCTGCAACCAATATGTTTCTCTGGCTGCTAGACTTTCAGTGCTAAAAGCAAGAAGGTCCTGCGCAAACTCAGAGTAGCCCAGCTCCTCCA
CTTGTGCTCTCCATTCCATCCCCTCTTGCTATCCTGAGAATTTAACTCCAGCTTTCTGCTGCATCATTCATATCCTTCTATATTCTAAATTATTCCTCAG
CACACAAATCTTCTAGTCTCTAATAGCTTAGGAAAACCCTTTACTGACCCTACATCAATTTTTATTTTTCTTCTTTTCTTCAAAGTTAGTATTCTCCCAA
AGAGTTGTGCTCATTCCACTCTCACTCCCTCACCTCCCATTTACTTTTCAAACAACCACTTTAATGGGACTCAGCTCACACGACTGTTTAAACTTCTCAA
TAAAGTTAACAAGAACTCCAAGCTCCTAGATTACTCATTACTGTCCTTACTCCAGCCTTTAAGCAGATCTGACAGTTAACCACACCCTTCACGCTTGAAT
CACTGTTCTTTTAATTTCAAGGGCCCCTCATCTGGTTTTCCTTCTACTTCACTGGCTAATTTTTTTCTGTCTCTAGTAGTGGCTCTCTCTAGGTCATTCT
TGTAGTTAAGATATCCTCTCTTGAGTTTCACAGCAACTGTCTGCCTTATTATGGCATCTCGAGCTTAAATTTAATGTATCAAAAAGAAAATGCTCAATAC
TTTCTCCCTCAGCTTTACGTCCCCCCATATCCTGTAAGGAAATCTTTTCCTTCTCTAAGTTAAAGACCATTCACATGCTCAAACCAGAAATCTGGAAGTC
ATTTTTTACCTCTTTACCCATATCCTTTTATTGAAGCCCCAGGTCTTAGTTTATTTTGTGTTGCTATAACAGAATACCTGAAACTGGGTAATGTATAAAG
AAAAGAGGTTTATTTAGTTCACAGTTCTACAGGCTAGGCAGTTAAAGGACACGGACCTGGCTTCTGGTGAGGGCTTCTGTGCTTTGTTATAACATGGCAG
AGAAGAACAAAGGGGATGTGAGCATGTGTGAAGAGGGACCGAACAGGAGGAGGAACCTCACTTTACAACAACCCATTCCTGAGAAGGGGAGTTAATCCAT
TCCCAGAGAGCTAATTCCTCTGCTCCAGAGTGAGAACTCAGTGCTGTGAGAATAGCACCAAGCCATTCATGTGGGATCCAACCGTGTGACCTAAACACCT
CTCACTAGGCTCCACCTCCCATCACAGCCACAATGGGGTCAAATTTCAACATGCCTTTTCGTGGGGAAAAGCACAAACCATAGCAACCTTCCTTATCTCC
CTCCAAAGTATAACTCGATTATCAACTTCCTTCTGTTAACTTCCACTGCACTAATTTATACTAATCAACAATAATCTCTTTCTTGGCCTATTTTACATAC
TAACTAGCTTTCTAATAGTCTCCTTGATTCATTTCTTTACCCACTACAATCTGCTCTCTACATTCAGCCAGTGTAATTAACATATGTATTAACATATACA
TAATAATGATTATGTGTGATAATAATCAACATAATGTATGTATTACTGTGTGATATGGTTTGGCTCTGCGTCCCCACCCAAATCCCATCTCRAATTGTAA
TCCCCATGTGTTGAGGGAGGGACCTGGTGGGAGGCGATTGAATCATGGGGTGGATTTCCCCCTTGCTGTTCTCCTGATAGTGAGTGGGTTCTCGTGAGAT
CTGGGTGTTTGAAAGTCTGTGGCATTTCCCACTTTGCTCACTCTCTCTTTTGCTCTGCCATGGTAAGGCGTGCTTGCTTCTCCTTTGTCTTCTACCATGA
TTTAAGTTTTCTGAGGCCTCGCAGTCATGCTTCCTGTTAAGCCTGTGGAACTGTGAAACCACTTTTCTTCATAAATTGCCCAGTTTCAGATGGTTCTTCG
TAGCAATGTGAAAATGGACTAATACATTATGTTATATATTATAGTATGAAATATGTGTAAAAATATGTCTGCAGCAGAGACAGTGATATTTACCAAATAT
TTCCTCAGTTTTCCATATTTTCCAGCTTCTTGTAATTAAGTGGATCTACATGACTGCCTTTGGTCAATACCCAATGTTTATTTTAAAACAAAACTGATTG
TGTACCCATGTTCATAATATCACTCACAGTCACCAAAAGGTGCAGGCAACTCAAATGTCTATGAATAAGTGACTGGATAACCAAAACATGGTATATACAT
GCAATGTTCTGATTTCAGTCTTAAAAAGGAAGGAAATTCTGATATGCTACAACATGGATGAAACTTGAGGACATTATGCTAAGTAAAATAAGCTAATCAA
AAAAGAATAAATACTGTATAATTTCACTTGTATGAAGTAGCAAGAATAGTTATACCCATGGAAATAGAAAGTAGAACAGTGGTTCCCCAGGGTTAGGACA
GGGGCGAATGGAGAGTTGTTTAATGCGTATATATAGAATTGCAGTTTTGTAAGATGAAAAGTTCTGGAGATTGGTTGTACAACACTGTGAATATATTTAA
CACTACAGAACTCTGTGCTTTAAAATGTCTAAAATGGTAAATGTTATGTGAATTTTTTAACAATTTTTTTAATGTTTTATGTTCTAGAAACAGTATTATG
TCTCAGTCCTGTGCAAAGTGAGATGAGCTGTAGCCTTTGGAGACCTATAATTTTGAACATAGATGTTCCTTAAAAGCTAAATCTTTTTGAACAGATGATG
ATAAACCTGGAAGGTAAATTTAGATATAGATACTTTTGCATTTCTTCTTCGTATTCTCTGAGGGTATTTTAAGTAGTTGACCCAACAAAATGCTCTTGAA
ACAAAATTGAAAACAAAAAATACCATGTGCCACAAAGGTAACTAATCTAGGTTTCTTCGGGGACCAGAACACCATGCAAATATGAGCTTTGAAAATAACG
TAATAAAGGTTATCTCCAACAGGAAAATACAACTGGGTCAGGTTTATTATTAGGTGTACCRTAGTCCTTTTTTCGTTGGGACCTCTGTGTTGTTTCTAGA
GTAGAAAAGGTCTAATGTCTAAAATCTACTATAATAATCAAAACAAAAGAGCAAGTCATGAAGAACTGTAAGTAGGAAATCAGTATACACCCTTACTGGC
TAGCAGGCAAGCAAATAAAAATGGATATAAATTTAAAGTACTGTAATATGACTGATGCACTAAAAAGATTACTGTCAATTTTCAGAACTTTCAGATTTGG
GTAAACAGTTATTTACATGTTTCTAATGGAATCTTAAATTGGTTTGGTAATTTGAAGAATTTTTCACAATATTTGAATCTTTAATTCTACATTGAGAATT
ATATTTAAGAAAATAACACAAATATATTCAGAATTATTTTACATTCAYATTGATAATTTAGCATTTAATGTTCATTAGGTTGTTTAGTAAAAAAACATAA
AATTTACTTTTTAAAAAAATTAAGGACAGTGATTATTATTCTAAACTGCCTCAGAAAATGGAAAGTTGATTTGTAGTAGCACAGAAGAGGGGAGGGAATA
TGCTATATGACACATAAAGATTCTCTTTGTCAGTTAGCTATGAGATGCAAAATAGCATCTACTTACTAAGGAACTTTTGTACTTTGTAGAATATCTTTGA
TATTTAGTTGACCCTTGGTTCTCARAAAATAAGTGGCTTGTAATTTGACCTTTTGCTCTATCATGTTTTCTTTTTTATAATCTGCTTGACTTTGATGAGT
GTTTTTCCAATGTTTCATTTGTTTTTGCAAGGTTATTTTGCCATCCTTTCCTTCCATGATGTGATTCTTCAGGCCAAGAAGAAAAAGATGTGTCTGTAGY
TAAAATTACCTCATCCTTGGTGTTTTTCAGCCTAGGATCACTATATGTAGCTAATGCCGTTACATTACAACTAAGACAAGTTCCAATACTTTTTTTTTTC
TCCTCGATCTGCAGAGATTCACCAACAATAGCAAATTACASACTGGCTTGGAAAGYACTCCCATGTTCCGTTTGATCTTGGCARTTTAATGGTATCTTCT
TTTACAGTTTTATTTAAATGTTTCATATTGCTTCRTTTTTCTTCCTTAAGTATTTGTAAGTTCATCAGCTCTGTGATGAACTTACAGAGAACTCGATATT
CTTTATAGTACCCCAGCACCCAGTTATGCATGTGATGTGTGCACAAAACATTTTTATTGAGTGGATAAAACATAACCTTTTTGATTGATTCAGGGAACTA
AAATAAAATGTTTCTTTAATAAGTACAAATTTTCTGAAGCACAGATGAAATTTAACTTCATATGATTCTGCCAAATGTGATAGAATACATGTTTCCTGCT
CAATRTGGTAATAGTCAAGAGAGCCAGAATACCAAAGTAAGAAGAAAAAAAAAATCACAAATATTTGAATAATTTAAATCAATTCAGCAACATCTAAATA
ATTATAACTGATTTAAATAATTAAAAATCCGTTATTGGCAATGATTGTCATATGTACAACCAAGAGTTGCACGACTTATATTTTCTTTTTGTAGGATTTG
ACTTGGCTGAACGCTAACTCTTTTTAGGACTGATTTAATTATTTATTTGTTCTTTGGTCCTGTGCTAATTTTTATGAGCTTATTATGCAGTTAAATTCAT
TATAGTTTATTTGTCCCAATTACTTATTATACTTGAACTTTTTCTTTTTGCTTAGATGTACTTTATTACATATTTGATTTCAGTATTATGTCACATTATT
AAATAGTRCTTATTGTTACCACCACAAATGAAAGTAAAGTTGTGAGTTATATAATAATTAAAAATATATGTTTCATCTACTTGTGATCATCAAARTATGT
GAAAATACATATGAATGCATTAAGATTTACCCCAATTTAATTTTGTTCTCTCTTTCAGCTGTTCTTGAAGACTAATTAGTTACACTGGATATGCTGCTGT
TCTTTACTTTGGGATTGCTTATACATTTTGTGTTCTTCGCCTCCATCTTTGACATTTATTTTACATCTCCTTTGGTTCATGGAATGACTCCTCAGTTTAC
ACCATTGCCTCCTCYAGCGAGAAGATTAGTGTTGTTTGTTGCTGATGGCCTTCGAGCAGATGCACTTTACGAATTAGATGAAAATGGAAACTCTAGAGCA
CCGTTTATTAGGTAAGCATGTAAACTGATACAGAGACATCTCTTAAAATGTTATTCTGAGTTAAGTAAACTGCAAAATATCTTACTATTTATCATGCACT
GGGCACAGGGGTGATGATGAGAAAGAGAATAGGGCACTTGTACATTTGCCTTTGTCTTATGGGTCAGCACTAGATGCTACTTTATTTCCTCCTAGGTGTT
ATTTCTGGTATTGTTGAAGCTGATAACCGGTGAATTGAAATGGATAGGCTTAGCTGCTTAAGCTAAATTGTCCTAATTTCCCAAACTTGGCTCAAGACTC
ACTATATTATTTTTTTCTTAAAAAATAAGTCTGCTGGCTGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCACAGGGATCACC
TGAGGTCAGGAGTTTGAGACCAGCCTGACCAACATGGAGAAACCCCGTTTCTACTAAAAATACAAAAAATTAGCTGGGGGTGGTGGCACATGCCTGTAAT
CCTAGCTACCTGGGAGGCTGAGGCAGGAGAACCTGCGAGGCAGAGGTTGCAGTGAGCCGAGATGGTGCCATTGCACTCCAGCTTGGGCAACAAGAGCAAA
ACTCCGTCTCAAAAAAAAAAACAAAAAAAAAGTCTGCTAATTTTACAAAATAAAGACAAGCATAAATATTAATGAATTACTAATTTCAATGATGTTTAAG
TACAAAATATAGACTTCAAATTAAAACACAACCTTCTGTAAAAGAATATAGAGCCCTTTCACTTCTATATCACTGTTTAACATAACTTTGGCTTCTGTTA
AGTTGCTTTAAAAAGAAATATTTAATTTCTTGGACTTACAAAGGGCCTACAAACAATTGCTCTTTTTCTGATTAGTGGCAACTCCTGAAAGGCCTTGTAA
TGCTGTTATGGAGAGATTAAAATAGAATTCAAGAGGAAATTTATCTAAAATGTTGTGTCTTCCCCCATCTCCATCTGTCATCATTACCTCCTATCATTTT
ACTCTGTTTTCTTTTTCTTTTTCTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCCAGCTCAG
CCTCCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCACACCCGGCTAATTTTTTGTATTTTTGGTAGA
GACGGGATTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCATGATCCACCTGCCTTAGCCTCCCAAGTGCTGGGATTACAGGCGTGAGCCAC
CGTGCCTGGCCTGTTTTATTTTTCTTTATAGTACTTCCATCATGAAAGTTCCATGAGACTGGGGACTTATCCACCACTTTATCTCCAGTTCCTATAACAT
AATGGGCAATTAACAAATATTTGTTGACAGCTAGAAGAATGGATGAACTCTAATGCTGTGTTGAATTTTCAGAACTAAATTTACGATAGCTCAGAGAGAT
GCATAACATATTGAAGGATAAAAATAAAGAAAAGAGAGACTCAAGTCAATAGACGAACATTGTGGGAAAATAAGATCAAACCAAGGTTAAGTACAGTACA
CAAAAATCTGTAACAAATTTCTAGAAATAATTAAAGTATTTGGGTGAATTTCTTAGTTGCCAAAGGAAAGAGAGAAATATACTTCATTTCAAAATTAAGA
GGATAAAAATATACTGGTAAAATAAAGTCAAGCTTTTCTGGTGGCACTTGTTTCTCCTTTGGATCTTACTAACGGAAGCTCTGTGGGCTCAAACAGTTGA
TGTTTTGTGTTGTGTGCCATTGTATATTTACAATGTCAGGAATCTTCTAGCTTCTTCTAAGCCTGTTTTTGAAAGGTTTTTTGTTGTTGTTATTTGTTTT
GAGAGGGAGTCTCACTCTGTCGCCCAGGCTGGAGTGCAATGGTGCAATCTTGGCTCACTGCAACATCTGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCA
GCCTCCTGAGTAGCTGGGATTACAGGCACGTGCCACCACGCCCGGCTAATTTTTGTACCTTTGGTAGAGACKGGGTTTCACCATGTTGACCAGGCTGGTT
TCGAACTCCTGACCTCCACCTGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCATCTGGCCCAAAATTTGTTTTATAAAAACGTGAT
CTAAACTAATGTTTTTAAATACAGTATCTAAACTAATGCTTTTAAATAGAGTATCCACATTTCTTTATACCTCCCCTTTCTGTTTAAGTCCAGTTTTCAT
TATATAACTCAAGAAGTTAAAGAATATTTCTCGTTAATATTTGGTCCAGTGGTTTTGAAACTGTTTACTTATTATGAATGTATTTCACCAAAACTGCTTT
TATTATTAGGTAAGTCAATAGTAAAAGAACTGACACCAGTAGTTATAAATATTTTTCTTTAGAATGTATTGAGAGGCAGATATTTATCTTGAAAAATGTT
ATTGTTGAGTTTACTATTTTATAACTTATTGCTCTGCTGGCCTTTCACCTRTAATAGCACCACTTGTAGTTTTGCTTTCTTCCCCAAATTTTGCAAATCA
CTGTGGATACAACTTAAATAATGTTGACATCTTTTAGCAAAATAATCTTTTTGCCTGTTTTAATCTCAAATTTGGGGATATAATTTAACTCCTAATTAGG
AGTGTAGCCATTTTCCCTCCCCTTAGTTTTTTAAGAATTTTTCAACTAAACAAATTTGAAAGGATTATTTGATGAACATCTGTATACCCTTTACCTAGTA
TGACAATTTTAACCTTTTTTCATAATTGYGTTCACCCTCTCCTGGCCCCTCTGCCACCYGCACCACAGGGGTRCCCATGTATGTCCATCTAGTTATAATT
ATTTTTTCCTTAACAATTCGAAAGCAAGAAACTTTACCCCAAACACTTCAGCCTATATCTCTTAAATAACCACAATACTATTATCACACCTAATGCAATT
TAACATTGATATAATAATATATGTTTTATCTCTGGATAACAAACCATCTCTGTTTTGTGGCTTAAAACAACAATCATGTATTTTGTTTCATGATTCTGTG
CAGTGGTTGAATGGTTCTTTGTTTGGTCTTACATCAGCAAATTCATGCTGCTGCATTCAGCTGGTAGATGCTAGGAATSGGCTCACCTGGAATTTGAAAA
ATTCCTTTCCTTCTTAAGTTTTGACTTAAGTTTTTTGCTTTTGATTCCTTCTGTAATAATCTTATGTKTCTAAAGCTTTATRTGAGAGTATCTAATCATA
GTCTRTGTTAACTATTTGTCTTTAATATCTTTTAGGAATATCATAATGCATGAAGGCAGCTGGGGCATATCTCATACACGTGTGCCAACAGAATCTCGGC
CAGGTCATGTAGCTCTGATAGCTGGGTTTTATGAAGATGTCAGTGCAGTTGCCAAAGGTATTGTCTATTTGGACAATCTTATGAAATGAAAAATTTGTCA
AGTAAATATTAGTCCTTTACCACTTAATCATGTCACAAAGTGAAGGTATGTTTTGAGATATTTTGGACAAATGTTTTAGCATGCTTTGCTGACATGAATA
CCCACTGGTACTGACTCCAGAATTGAARCTTTAGTATTTCATTATCCTGTGTTATTGAAAGAATTTGGGTTGGATGGAAGCATAATTTTCCTAGATATTA
CTCTTGAAAGTTCAAAAATAATTTTATATTTCATTAAGAAGTAAATTATCTATTGTTAGTTTTTTTTTAAATAGTGGTATAATATGCATAATATAAAATC
TATTAGTTTTGCATTTATTCACTGACTAATGTAATTGTTATTATTTGAAGAATAGTTCTTTAGGGGCTTATTGTACCATGTGTATAWAACTATTACTGCT
TGCTTGCTTTCTGAAGGATGGAAGGAAAATCCTGTAGAGTTTGATTCTCTTTTTAATGAAAGTAAATACACATGGAGCTGGGGAAGCCCAGATATCCTGC
CTATGTTTGCCAAAGGTAAGAGTCACTGATTATGTTTCCTCAGATAGTAAATAGGGAGTAAGTCAATATGGTAGTTTTCTATTTTTATGTATGTAATGTA
TGTGTTGATTTTTACACATATTTTTACATTTTTAACATTTCTGAAATAGGGATGTTTAATTACAGTAWTTTTTTTTCCTTCTTAGTTATACTTGAGATAT
TGGCACATCATACAGTTAGATAGTATTTTGGATTCAATTAAGTGGTATATAGCACTATCKSTTAACAGCTATATAATCTTGAGCAATTTATATAACCTCT
CTGAGCTTCAATTTCCTTTTCATAAAATGTGATAATATTAGTTTCTGTCTCATAGATTTATTTTTATAATTAAATTATGTAATTCATGTGAAATATTTAG
CATAGCACTTTTCACATAACTTGATTATAAATGATGATGTTGAGGTGTGGTTCATTATACTTTGGTAAATTATTTTAAAAGTTAGTAGCTAYTCATATAA
AGATTTAAACATTGGCTGGGCACAGTGGCTCACACCTGTAATCTCAGCATTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGCTCAGGAGTTGGAGACCA
GTCTGGGCAACAAGGTGAGACCCACATCTCTACAACAAACARAAAATTAGCTGAGTGTGGTGGCATGTGCCTGTAGTCCCAACTACTCAGGTGGCTGAGG
TGGGAAGAGTGCTTGAGAGCCTGGGATGTTGAGGCTGCAGTGAGCCATGATTATGCCACTGCACTCCAGCCTGGGCAACAGAGCAACACCCTATCTCAAA
AAAAATATTTAAGTGTTAAAATATATAGTTATAATTCCTRTTTTAATACATCGAAGATGCCATATATTCTGGCATTTGATATATATGGCATTTAACATAT
AATTTATTTAAATTGATATTTAATATACTGAATGTAGCATTTAGATTTATTGTTTATATGCATGATTCTGCAAATATTGGGACATCTCTTAATTAGAAAA
TTCATTTATATTATTTTCTAAAATCAGTTGGATGAATTTCATGTCATTAAATGCTTTTAAGTGGGAGCAGAAAGATTGATCATTTCACTTATCAGAAAGG
ATTTGTAACATACTTAGTCATGAGTGTAATTAAAATAATGGGAACTATTGAAGATTATTATGTGTCCAGGAAGCAAAATATATATTGAGAATTTTACAGA
TGATAGTCATAGAACATTATTATACTGGGCGGACCAAAAAGCCCCAAACTGTTTGCCATTTATATATTGCCTTCTTTGGAAAGCAGTTTCGTTTTTTTGG
GAGCTGGTGGTGGTAAGGGTGGATTCAGTTGCTATGGCTTATCAAACTAACATTCCTATTTCTGGCTACAATGGATGGGAGAGGACAAATAATTGAATTA
GAGATAGTCTAATGTTCCATATCTTGTAGTAAACAGCAAACCCAGTCAGACCTTTTTATTTGGGATGTGGGAAGAGGAATGGCTGAGCTGTGGAATAGGG
TCATTAGAGCTGAACTGGTGCTATAAAGATTGTATTACTTTATTATATATCTCTCTTTTTGTTTTTGTTTTTTTGAGACGGAGTTTTGCCCTTGTTGCCC
AGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCCACCTCTGCCTCCTTGGTTCAAGCGATTCTTCTGCCTCAGCCCCCTGAGTAGCTGGGATTACAA
GCGCACACCACCACACCCAGCTAATTTTTTTCTCTTTTTAGTAGAGACGGGGTTTCATCATGTTGGCCAGGGGGGTCTCGATCTCCCGACCTCCGGTGAT
CCACCTGCCTCGGCCTCCCAAAATACAGGGATTACAGGTGTGAGCCACCACACTGGCCATATCTCTTTCTTATTACCTGCAAGAGCCTATCAAACTCAGA
AATTCACTAAACTGTTTAGATTCTTAATACACTCTTGCAAATATATGAGATTGTCATATCTGTTGACCCCTTCAAACTCTTTGGCAATAAGCAATATTTA
TTCTCTTAGAAGTTGAGAAAAATACTCATAGTTTATGAATAAGAGAAGTGAAATATCKGAATTTTCTTCTTATGTTAAGAAGGTTTGTACAACACACATC
ATCTATTTTAGATTGTAGCATTCTAAGGGGCACACATGTTTTGAATAGTTTAATCCTTAAAGGGAGACAAATATTGTGCTTATTTTTGTTATATTGCTTA
TTAGAGTTGTGATTTTGGTGTGTTAATTAACATATAATGAATCTGCGAAATTAAAATATGTTATTTTTGAGGACAAAAAGCAATAGAATACATTAAAGTA
TGTAGCATGGTCCATAGCACATAACATAAATAAATGTTAATTATTCCTCCCATTTTTCTCTTCCCCATCATAATGAACAATGCTTTGTGAAAATTCTGGT
TACTCACAAAAATCTGTGAATGACTAGYTCATATTTTATGATAGTTTAAAAGATTTTGTAAAAAGATTATTTTTTCCAAATTTTCTTTTCAGGTGCTAGT
GGAGACCACGTTTATACATATAGTTATGATGCTRAAAGAGAGGATTTTGGTGCTCAAGATGCAACAAAACTGGATACGTGGGTTTTTGATAATGTTAAGG
TTTGTGCTATTGAGTGGTTAATATACAAAAAGCATATTTTTACCTGAAGTATTGGAGACTGTATCCCACGTTTTTTCTGTTTTCATGAGCTTTGAAAGTT
CTATGTTGTAGCACACTGTTCTGAATTCTAAGATTTAATTCTAAAAAATTACACATTCTAAATAAATAAGAGAAGTTTTAAACTCCTTTGTTTCTATTAG
TAAAATGAGCCCTAGATTAGGATTTAGGAAACCTGTTTTTCGTTTCTAGTTTGTGATTCATCCTGGGTAAATTTTGATCTTTCATTGACCATGGAATCAG
ACTCYTGTAGTAATGGACCATATGAGATGTAGGAAAGCCTTTGGGAAAATGCTGTTCAAATGTAATACATTTATAATAACAAAGTGGATGATTTTTTAAA
AAATACTTTAAAGAAAAATTAGATAAGCAGATTATATAGGCAAAAACAAATTAGCAAATTGATCATAATAAAAATCTATGGTTCCTTTAAGTACTAGTTT
TTTGAACATTTTATAATGACAATTATCATAGTTTCATGAGGAATACGATATAATTTATATTCTCAAAAAGTGTGTGAAAATCTCAATTGTGGACATTGGC
TCTCTTCTTTTACCAGTGCATTATTCCTCATCTCCAAATAACAACTCATAATTCATCCATTATAAGAAGCTTTGATTGATACTTCTTTTTTCTAGTAATG
TCTTTTGAACTGACTTTGTGGACTTCTCCATGATATAGCCATTTTTGTTTGTTTGTAAATGTACTCCTTAGTATATATCTGCCTTTTTCTTTGTATTTGC
TTAGCAGAAATTAAGTGCTCTAAAATTCATTGCTAAACCCTATTTTTTTCCAAGGGTTTTTCCCTTGAAATTTTCTTTTTACTTTTAATATATACTTTTG
TCAACAGGGAAAACTTTCAACTTAAATAAAATCTGTGTAAGAAAATGATTAGCAAAYTATTTTGCTAATCATCACTTCTTAACTTAATGTGCTAATATTA
ATATCTGCATGAAAKCYTTTGGCTTCTAATTTCATATGTGTAGCTAAAATCCCTCCAAAATCATGGAATTGATTCCTTGTGAATGTACATACATAGCTGG
TAGCTGGCCTGATTTTCATGTCTTTCTTCCTTTCTTTATTTCAACACTACTAGTCTTGACACGGTAGTGAACAGAAAAAAAGATTTGCACATGACTTCAT
AAAATATGGTAGATATATATTAACCAAGTTATAATGAAAATATGAAGTCATCAGCATTGGTAAGTGATGTGAAGGAAAAATACAGACCAAGAATATATCT
TCAGAAAATTCTAATCTGTGCTGGGTAGTTAGGGGAAGGCTAAGAGGTTTGAGATAATCTCTGAGCAGGTACAGGAGACAAAGAAATGGATAGGGATGGA
TTGGTATGGAAAGGTATTGCAGGCCAACAGCATTATGTAAATCTTGGTCAAGAGCCAGCATAATGGATYTGAGGAAGTGAGAAAGAAGGGAGGTTAGTGT
GGCAGGAGGACTGCCTGGGAGCCAGGTCTCAGAAGAGGCTAGAGAGTGAGGTAAGGGTTTTACTCGAACTTCATGTCCTGGCTAGAGACTCATGTTTAAT
TCAAGCCAAACAGTTTCCAGATCCATGCAGTTTTCTACTCACCTGTTTTTTTGTAACTGTGGTTAAAAAAAAWAATATATATRTATATATATGCAAAATA
CAGAATTTACTGTCTTAAGCATTTTAAGTGTTTGCAGACAGTCCCCAGCTTAACAATGGTTTAACTTAYGATTCTTTTGACTTTCCACCAGTGCAAAAGC
AATACATATTTAGTATAAACCGGACATTGAGTATCCATACAACCATTTTGTTTTTTACTTTCAGTATAGTATTCAAAAATTACATGAGATTGTAATTATT
ATCTCACTTATTTCACATTATCAACACTTTATTAAAAAATAGGCTTTATGTTAGATGATTTTGCCCAACTGTAGACTAATGTAAATGTTCTGAGCATGTT
GAAGGTAGTGTAAACCAAAAATAAAATTCTAAGCACCTCTCCCCCAACCCCCCAACTATCTCAATGGACTTTCTCAGCCAGGGCGCTTTTAAAATGTAAC
CTGAGAGACTGATTCAGGCCATAAGGGGAAGTGGGTGTTGGACATGCCTCATWATACCTCTCTGGCATTAACGTCAACACAGACCTTAAAGTCTAATAAG
AAACATGTACCCTAAAACTTAAAGTATAATAATAATAAAATTAAAAAAAAAAGAAACATTTTACAACCTATTCTCTCTGAAGCCTACTATCTGAAGGGTT
CCTCTGCAAATAAGAACTTTGGATTCCACAATCTCTTATCTTAACCCAGACATTCCTTTCTTTTGATCCCAAGTCTTTAGAGAAACTCAACCAATTGCCA
ACCGGAAAATTTTTAAATTTCCCCCCAATCCCCACTTTGAGTTGTCCTGCCTTTCTGGACCAAACCAATGTATTCCTTAAATATATTTGGTTGAAGTCTC
ATGTCTCCCCAAAATGTATAAAACCAGGCTGCACCCCGACCACCTTGAGCAAATATTCTCAAGATCTCCTGAGCACTGTGTCATGGGCCATGGCCACTCA
TATTTGGCTCAGAATAAATCTCTTCAAATATTTTATAGAGTGTGACTCTTCGTTGACAGTAGGCCAGGCTAAGCTATGATGTTTGGTAGGTTAGGTATGT
TACTGGCACAAGGTATCTGAATTACCGGCAACAAATCTGTAAGGATCTGCAGCAACCTCAATTCTTACCTTCCCAGAAGAAAAACTTCGACTGGGGGTCA
TAAGGCAGAAGAAGAGACCAAGGCAGCAATGGAAGTTTATTTACAAAAACTTTAGAACGGGAAAGAAAGGAAAGTATGCCTAGAAGAGTCCCAAGTGAGC
AGCGAGGTCAAGTGCAGTGTTTAATCTTGATCCTAGGACTTTATAGGCTGGCCGCTTTCCATGATTCTTCCCTTAGGGTGGGGCGCCCGCATGCACAGTG
CCCTCCTTAACCTTGGGAGGTGAGCATGCATAGTGTGTTTAGAAAGTTGTACACATACCTATCCGAGGCTTTCTTTCCTTTTCTGGTGGAGTGCCCCCTG
ACAGGCATACTATGCCATTTGGTCTATTAATGCACATACCTGAGAAGTTGCATCTCTCTGGTGCTTGCATTCAGTTAACACTTTAGTGCAGCAAGTGTAG
ACCATCAGGAAATGGCCTCTCCCTGGTGCCAGCTGCCAATCTACCACTTTTAGAGAGGCAGTGTGATAATTGCTGAATCATCACCCGACATTCCTAGTGG
TCGGGGAAGACCCCTCCCTTGCCCCACTCATGCCTGTCTAACTACCTGTAACAGGTATATTACATGCATTTTTGACCTACAATAGTTTCAATTTAGGATG
GGTTTATTGGGATATAACCCCATTGCAAGTGAGGAGCATCTGTAATTTAGTAGTGTTAAGTATGTTCATGTTGTTATGCAGCTAATAATCTCTAGAATAT
TTCATCTTGCAAAACAAACTCTGTACCCATTAAACAATAACTCCGGCCAGGCGCTGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGG
TGGATCACGTTCTCAAGAGATTGAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCGGGCATGGTGGCACGTGCC
TGTAGTCCCAGCTACTCAGGAGGCTGAGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCGCCATTGCACTCCAGCC
TGGCGACAGAGTGAGACTCCGTCTCAAAAACAAACAAACAAACAAAAAAAATAACTCTTCATTTCCCCCTCCCCCAACGCCTGGCAACCACCATTCTACT
TTCTATTTCTATGCATTTGACTACTCTAGGCACCTTATATCATAACTGGAATCATACAGTCTATGTCTTTTTGTGATTGGCTTATTTCACTTAGTATAAT
GGCCTCAAAGGTTCGCCTGGGTTGAATCTATTTACTTTAAAAAACTCAGTTCATGCATCTTCTTCTCTATTAGGTCTTCTGTGACTTCTCTTTGCTTTGC
CCTATTTCCAGTTCGACTTAGATAACCCTCCTCTATATTCCCTTAATACTTTATTGTGCTATACTATAACTGTTCATACATTGACATATTCCCCTTCAAT
ATACGTCTTGTTGGCACAGATACTGACTTTTTCACACTGTTAACTTTAAACCCTATCAGAGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTT
GGGAGGCCGAGGTGGGTGAATCACTTGAGGCCAGGAGTTTGAGACCAGCCTAGCCAACATGGTGATATCCTCTCTCTACTAAAAATACAAAAAAATTAGC
CGAGCATGGTGGTGCATGTCTGAAATCCCAGCTACTTGGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGACAGAGGTTGCAGTGAGCCAAGATTG
TGCTGCTGCACTCCAGCCTGGGCGATAGAGACTGTCTCAACAACAACAACAGCAACAAACTCTTATCAGGGAATTGTTTGGTACATGAATAAGTATATTA
ACTTAGATTAGATCATACCTGTGTAATATGGAAAAAAATAACTTAAAAGTTTACTTCTATCTTAGTAAAGATAATGCTGGCAGTAGGCAGCTGAGCATTG
ATGCAGTCCAGGATGCTATAGTGGTTCTACAGTATCACTGACACTTAGTCTCCTAAAGTTTTCCTCTAACTTCAGGGCATGAGTTTTATCTTCAAAGTTA
TGTCATGACCCAAGATAATCCTGGAGTTCCCGCCCTTATGTTAGTGTTATAGGTCAAAAATATGAAGAATAAAAAAGGACCTTCTTTCCTACTGAATTAT
ATTTATTTCAAAAAGCCTTAGATCCACATAGCTTTATGACTGAAATGTTTGACTTAAATCTCATTGGCCAAAACCACAAAGGCACATCTAGCTGCAAGAA
AGGATAGGATAGGCACATCTAGCTGCCAGAAAGGATTACATAGCTGAATATATTGTACCAGCCATAGAACAAATTATAGATGTAATTCAAGTCATTTGCT
CAGTTTTTTTGTTTTCAGCTCTCAATTATGTGTTTAACTTTTAATTCTTTTCTCTTAAAGAGCTTATTGTTTTTATCTAGATTTAAATTTTCTTAGGGGT
TAAGTAGAATGTATATGAAAGTTAGGGGGCAATTTTATACTTTTGAGAAGGATGATAGGTTATATATTGTATTAATTTATTTCTRTTCTTGAATAGTTTC
TCTAATTGCACCATTTGTGTTTTTTAACATAGTAGTGAAGAGTTATTTGAAAAAAATACTTAAATACTTCAGACTTTTGTTGAAAAGTTAAACATATCTT
GTTAAAAGTTAACATCTTCTACAGTTAAAGGCATTTATGTGAACAACAAAGATGTATCTTGGATAGCCTGTTAACTTATTTAAAATAATTTAAAAGTAGT
CTTCATAGTTTTGCACCCATGTTCATGCATATGTGAATACAGGGTGAATCATTTGCCTTAGAAGGGTTTATGAATCTAGTTTATCATTATTTAATTAGCA
TAATAATCTTCAAATTTTATTTTAATTAATTATTCCCAGCCTCACCCTGCCAAGTARTATTTTATTAATTGGTTGCTTTTCTGTTACATGATTTGAAGAA
CACATTCTAGCTGGGGCAAAGGAAGTAATTAGGAGGCTATTTGCAATGTTCTACATTAGAGATTAYGGTTGGACTAGGTTGATAGTACACAGGACAATGA
AAAGTGGTCCAGTTCTGAAATATTTAAAAAAATAAATTATTCTTAAACTGGTAACAGTATTACTATATTATTTTTGACTCTTGCCAAAATATGTSTTCAA
TCTGCTGTATTTTATTAAGTTAGATGTGGGATTAACAACATTATGAGATCTCTATGAAATTATGATCCCCTTTCTAACATCTTTTTTTGGCCTTATTATA
ACAGAGAAAACAGCTAACTCATTATTTGAACATAGATGTCTGAACTGATAGCAAAGACGTTGTGTTGGTAGGTCTTGAGCACAGATTTAAACAACGTGAG
ATAATTTAATTTTGTACTTATGCATAAATTTAAATGTTTTCATCAGTATTATTTTTAAAATAAAACAAATGAACTAAATATTTTTAACTCATTTGTTATA
TGTAGGACTTCTTTCATCATGCCAGAAACAACCAGTCTTTGTTTTCTAAAATAAATGAAGAGAAAATAGTTTTTTTYTTACATTTATTAGGAATAGATAC
AAACGGACATGCTCATCGACCATCCTCGAGGTAATTTAATATTGTGTTTAATTGTATTTTTTAGGGCAACAGCTATTCTATTGAACTTTTTATTATAAAG
TTTTCTTTGGAATTATAACAACAGAGCTAATATTTTAAACAACTACTGTAATGTTTATTAAGTTCTCAATTATATGAGATTTCCAATATAGTSGTTTAAA
TCATATGTGCTGTATCCAGATGGCACATTAATATAAGTAAAATATATCCTGTACATATTACATAATCTTCATTTACTGAAGCAGAGAAAAAAATTATCTA
AAATATCTATATATTTTAGAAATATTTTCAGTGAATCTTGAAAATATAAAGCATTTTATGGTATTAACTTTTATATCACCAAAAGATGTAATTATTTATT
CCTTGTGTATTCCCTTTAATTAGTATTGTATCTAGCAAATAAATTGTATACATTTTTGTATACCATAATTCAATAACACTCCTTATATATRACAGCAAGT
ATTTTTCTCACTTTTGARGACCATAAGTAAAAGGAAGATACCATGTTATACTCTTATTTCTGACTTTGCATTTGGTTTAAATTAGCCTAACAGTGGCTGT
AAAGCCTATTGGGTTAGCTGCCAGTGATGAATACCTCACAATCCCCTTCTTAAACGTGATGCACTGCTGTAATTGATGGAATATTCATATCGAATGAACC
TTGTTSAGTTGTGTGGCAGTCTTAAATATAATGTGTTCAAAACRTGATATTATATTTTATATCAAAAGCACTTTAGGGAATGAAAATATTCTATACTTGA
AATGATACTTKTAATGTGGCCAAACAGTTTAGTTTATGTAGTAAGAGTGAGAGACATGAACGTCATCTATCTCATTTAGGACCTAAAAAGGGTTTATTAA
AATATATTTGTTAATCATTCCCCTCCTTTTAAGCCATCTTTGAAAACTATTTCAGGTTATTTAGCTTCATTAAAAGGAGAAAAAATTATTTTAACAATCT
AGAGTACTCTGATTTTAAAATATTAAAGATGAAATCTAAAAGCATTTCAGAAGTTACTGATTTTGAATGTAATGAATCCACGTTGAATAAATTTGATTTC
TCCAAATTAATTTAATTTGTTCCTCTGTTTCTTTACAAATAGAGACTACAAGSACAATATTAAAAAAGTTGATGATGGAGTTAAAGAAATCGTGTCTATG
TTTAACCAYTTCTATGGAAATGATGGGAAAACAACATTTATCTTTACCTCTGACCATGGAATGACAGACTGGGGTTAGTGTGTCTTTAATTGATATGTAC
CTTACAATTAAAGTAGTGATAAATGTAGCTGGTAAATATTTTATGATGTTGAGAGGATTAGATGTCTTGCTGTATACAAAATGTCTAGCACATAATTCTG
TGCTTAAAATGTTAGCCTAAAAAACAACTGATCTTATAAAAAAATATTTTCTCTAACTAAAAAACGAATATATTCTCATTTACAAATGACAAACTAGAGA
AAAGTGGAGAAGAAAATAAAAAGTAGCTATTATTTATCTACAGAGAATTAACTGTATATGATGGCAAAGGGAGTGACGTTAAGATGGTGTTACTGAGGGA
CCGAGGGCTGCTGAAATTCTGTCCCGGGTAAGCCTGTGCGCCCTGTGAGATTCCCAAGGCAAATGCAATGTGTGCACAGAGAACAAAATAAAGCAAAGAT
GAGATTTGTCCCCAAATCACAATATGGATTTCTAGTGATTTGAGTTCCACTTTATAAAGGACTTCTTTTGGCTCTACCTGCCAGAGTGGCCTGGAAGAAA
AGGACCCAGAGACCTTGCCATCTTCTCCAGAAAGACTTAGTCTCTACTGCTTGCCCCAAGCTTGGGTGGTTACTGCCCAAGGGAGCTCTCTGTTCTTTCT
GTCTGCAGTGCTGCTCTGGCAGCAGCAACATTTCTTCCATGTCTTATTGTTATTATTTCTATTCTTTCAACCATAGTTACTCAGCAGGCAGTCTGGTTTT
TTGTTTTACTTTATGCCTGTTTGTTGTTGTTTCTCTAACTTGCTTTATAGGAATATTGTCAAACTAATTGCCATAAAAGGTTGTAACCATTTGGTAATGT
AGTCACTAGAATTAACTATATATGGATCAACTCTTTAAAACAAACTATTTTAAAAAATATTTAGTTGTAAGTTAGTTCTTCTATATTTGTCTTATTATTC
TTTATATCTTAWTTGTAGGTTCCCATGGGGCTGGTCATCCTTCAGAGACTTTAACTCCTTTAGTCACTTGGGGAGCTGGAATCAAGTATCCCCAAAGAGT
ATCAGCTCAGCAATTTGATGATGCATTTTTGAAAGGTACAAGCATTTCTTTACTGGTTTAYAAATACAACCTCTTAAAATAAGAACAAAGTTTAAATTTT
TAAGAAATCACTCTTCAAATTTTAGTTGTAAATCCCTCATTTTGACATTTGTGCCATTACTATTTCTATACAAACACTACAAGGGGTTGTTGGCTTCTCT
CTTCTCACAGAGCCATTTGTTGAACCCTTCCCAGCACACCACTGCTAATAACTAGACTTTCTGAATGTCTAAACTGATAAACTGAACTTTTGATGTTCTT
TTATTAATTTATTAATTTGAATGTGAGGTAGAGTAAATAAAAATTAAAAAAGAGGAAATTTAAGGTTTCATAGAGGTAAATAATCAGTTTTTGAGATTTT
TCAACCCAAACAAAGTACATGCTGTCAGTTATAAAATCACCCTACCTACAAGATATTTCTATTAGATAAAAAGCAAGAGGTAGTACTGAGCTATTTCAAC
CCCAGGCCCTAATGAAGACAGAAGAGCACAGTGAATAATGCACTCAACAGCATGTCTTCAGTAAGTAATGGTGCATTTTTCAGAGGGCGATTTCTTATAT
ATTTGTAAGTGCTAATGGAGAGCATCATGCCACATCAYAGGTCCACAGGGGAGACATTGACAAAAGGCCAGAACAGTGTAACCAGTACACTGCCATGATT
ATTTCCAGATTTATTTAAGCATGAAAGAAAAAGAAGCTAGTGGACTCTTTTTTTCATCTACTACATATCTTTGAGATAGCCCCTGCTTTCTCAGAACTTA
ACATTCTAGTAGGAGAATTAAAGCAACTATAAACAAAACTTACACATTATGATAATTTTATGAAGAAAATTAGGGTGATATGATAAAAGAGGAGGTAGGA
CYGGGCTCCTTTCTCCACCCTGCCCCCCCCGCCAGTTTCCTTAGAGACAGGTTCTTGCCGTGTCTCTAAAGGAATGGAATGGGCTGGAATGTAGTAGCTG
TTCACAGGTTCACAGGCCAGTCGTAGCTCACTACAGCCTGGAACTCCTGGGCTCAAGCAATCTTCCTGCCCCAGCCTCCCAAGTCGCTGGAACCACAGGT
GTGTACCATGCCTGACTCAGTCTGCCACATTTTTATTAAGATATTTGGCAAAGGAGGCAAAATGCATTGGTTTTAAATGTATAGCTTTATGAATTTTACC
TGCATATATATACCATGTAGTCTCCATCCAGATTCACCATACATTTATACCCTAGAAGTTTCCCTTATGGAGCAGGATACATTTTATAGAGTGGGCTAAT
AGAACATCTTTTCACAGTTAGGATAAGAGGGAGCCATTCATATGAAGGTTAGGGCAGGAGTGTTCCAGGCAGAGGGAATAGCAAATGAAGAGGCTAAAAA
TAGAAAGAGCGTAGCTTGTTTGAGGAACAGAATTGGAAGGCTGATGTGGCTGAGCACTGTCAGCTGGGAGCAGAGTACAATGAGTTGAGAGTTGGAGAGG
TAAACAAGAGGTAGATCATTTGAGGCACCAAATCCTGGGTAAGGAGAGCATGAAGTATGTTCCGAGTGCAGTGCTCTATCATTAAAGCCTGTTAGAGCAT
TGCCAACATTCCAGTTTGCCATAGGAGCTACCTTTCTGACTGCTCTGTGGTAAATGGATTAGATTGGATCAAAATAGAAAGTAGGGTAAATAGTATGTTT
GTATTTATGAGATTTAACTTTATTTTGGCATTTGATTTCATGTTGAATTGACGTTTTAGAATCACATGATTTCAAGAATCATCAGAAATGTATTTTTTCT
CATATGAATATTAAATATCATACATTTTAGAGAAAAGGAATGGRCATTTTTTCATCAACTGATTAGTGTGAATTTTTGGTAGAGTCAGAAACGTATTTTT
AAACTTTAATTAGCTTATTGAATGAAATTTTATTATACAAATATCTTATAACTCTTTTGGCAGTGTATCCTAAAGCCATTAAATCAAGACGGTCTCTCAT
AATCACTTGTTTAGATTTCCGTTTAATGCAATTTCTGAATTTATGTGTAGAAAAATGGAAGAATGAGCCTATCTTTGAAGACAATTTTAATAATAACTCA
ATATACTATGTTAACATTTGTGATTAGTGACTACAGGAACATCACAACTACAGTTTTAGGTGTTTTGGGAGGAACTGCCATCACAGAGAAAAAGAGAAGC
TTGAATTAATTAACTTCCTATGAATTGCCTTAATAACTCTCTAGAACAGGATTGTAATGAGTTGTCAATGCTGACAGTTGTTACCATTGTGCTTTTTCAC
TTCCATCTTTCCTTCCTCAGCCTCTGATGTTTTGAAACAATTATCTCCCAGTAAACATTTAAGAAGCTTAATAAATCATCACAGGAAACACCAAATATTT
ACTTTTTGTTTTTTTTAAATTCTTTAAAAAAATACACCTTTGCCTTTAAGCATGATTTTTATTCATACTTGGCTTAAAATAGACATTTCTAACACCTATG
TTTTCCATAAGTATTGGCCACTCCTAAAAATCAAATGATTTATTCTTTTTTAAATCTTAACATCAGATCTTGTGTCTGATTGTATCTTTCAGAGTGGAGA
TTGGAGAAYTGGAAGAGGCTAGATGTCAATCAGGTATCCAGTTCGATTTTATTACATTCAAATTTAATTTTATCTTCTRTAAGAAGGTTAGACAAAAACT
ATGAAAAAGAGATAATATTAATATTGACAAAGTCTTTTTCAAAACATTTCAGTTACTAAGGGGAATTCTTTTAGTGCAAATATTTTAGCCCAGCTAATCT
CTCTTGTGGCAAAACAAACAAAACTTGAAGTGAAAATAAAAGACTTCTTCCAAATAACATTGGATAATTATTTGTTATGTAAATTGAAATTTGCATGCCT
CTTAAATTTCTGTGATTGCTTTTCATGGTTGTATTGCTTAATTTAAGCACAGATCTATTAAAATTCCTGTTATGGGTTTGTTTCCTATAGTATGTCAGTT
ACCTTTTCTTTTTGTTAACACATATTTTACCTTTACTTCTAACCAGCAACCTTACAAATGCAATGGGGAAAAAAATGATGAGATTATAAATTACTCAGCT
AGAAACCTTCTGTTAGAGGAAAATGTATAGCCAATCTGATAAAGTTAGATCAGTAGCATTGTCTGTAAATATGAAGCACAGAATTTTCATTGTTAAAAAC
ATGCTACCTTAATAGCCATCTTCACTATTTGTAGAAGGTATAGCATCATTGGGATATGGCTTCCAAAGTGGCAGGAGTATCTTGCCTTCCAGGTCACCAC
ACAAGCTGAGATTACTTACTGTGGTGGACAAACCAAGGTCTAGGGTCTCATTTTCAGGCCTGTGGTTGTAGAAACTTGTTTCTTCCCAGCAAAATAAGAA
TAGTCTTCTCCTGGGATAGATGCATACTACCCAAGTAAATGAACATGAACATATAAAGTCAGAATAGCAGTTTATTAATTTGCCATTAAAAATCACTGTC
AAAAAGACGGGAATGACTTGAAGATCACAAAACAAGAACATCCCTTATTCATAGCCAGACCAGATCATAATCAGCAATTGAACATAGATTCAGTTATTGC
TCTCTGAATTGTCAGTCTGTTGGCAAACACTCCTGCTTCAAATCTCCATCAAATGAGAATCTCTTTKTCTATTCATTCCTTCTACTAACACTGTGATGTG
TCTGTGGTGTGTTTCAACTTTGTGCTAAGTCTAAGTATTTAGTGGTGAGTTAAGGCAGACATAATCCCTGTCCTGGGAAATGTATACCTTAGGGGTAAGA
ACAGATACTCATCAGTCTGTTGTACAAATACATGTAAACTTATAGCTGTGGTAAGTACTGCAACAGAGATTTGTGCAGCTGTGAGACTGTAGAGTGGATG
TATATGATAGACTGTAGTCAGCAAAGGCTTCCTGAGAAGTCGAGGAATGAGCTGAGATTGATGAATAAGCAGGAATTAGCAGGCCAAGGCAGTAGGAGGA
GGGCTTTTCAGGCAGAGGAAATGTGTACACTAAGTTCTGGTGAGAGGGTACATGGTGTATTAAAGGGTCTTGAAGAAAGCTGTTATATAGCAATAGAAAC
CATGGGGTGGTGTGAGGCAGAAGAAGGGAGGCGCAGCCCCTTCAGGGTCTCATGGGCCTTGTGAACTTAATTCTGAAAGTTCAAAGAATCCTTGAAGAGT
TTGAAGCCTAGAGAGTGACACGATGTGGTTTTTTGTGTGTGAAAGAATACCCCTGGCTGCAGCATGGAGAAGAGATTAGAGGTGGCCGACAGTGGATTCT
GAGGGAAAAGGAAAAGGTGACTAGGAAGACTTTGGAGATTTCCAGTTTTCTGGAGGATGGTACCTGGTAATGACAATCTAAATAGTAGAAAGTGAGAAAG
ACTGAGAGCCTGGGAACAAACTTGATGAATTCCAACTTTAAATGAGGGACTAGCGAACGTATCTGAAAAGGAGGAGCCAGTGAGATAGAAGAAACTCAGC
TGTGTGGTGTTGAGGCCAAGAAAGGAGTGGCCTATGCCATACTGCTGAAAGGCCTAGTAATGCCAGCAACAATTGTAGCTACCATTATCACAGGCTTATT
ATGTGCCAGGTACTTTATAAGTTTTATCTCATTTAATCCTGTCACACCTCTGTAAGGGAAAAACTTGCATTTATTTTTTTAACTGATAAAGGAATCAAGC
AACTGGAGGGTTAAAAAACCTACCTGAGAATTTGAAACTGGGCATTCTCAATTCCGAGTACTTTATTGCCTGAAAAATTATAAGGACTTACATAAACATA
GTCAATTAGATTTAGAAAATGGGGTTGTTAGCTCTCTTAGAGAGAGCAGTCTTTGGAATGATAAAGGGTCATAGTGAGTCACAGTGGGCAGAAGAGTGAT
GGGAAGGTGAGGAAGCGAAGATAGAAAAAGCATGAACAACTCTTCCGAGAAATTGAACTTAAAGAGGAGATATCCAAAATGGTATTTGGGATCTTTTGAC
TAAAGAGCCTCTTCTCTGGTTTATGTCTTTTCTGGACATCACTGGCTGGTCAAACCTCCTTCTGATACTTTGTTTTTCTACTTAATATATACATTTCTCC
AGTTAAAGTCTACTCTTGATATTCATTTTATGTCTAAATAAGGCATCCTTTGTATAATACTGAAAAACTGTTACATAAAATGGTCAAATTCTTAGCTAAT
AGGATAAGTAATTTTTTGTTTTAGTATGTTTTACATTTAGGGCCTTTAGTGGTTTCTTTTCAAAATTTTTTTTATAGGTTCATATACATCTAGCAAATGA
CACTTTTAGAGATTAATATCTTTTTTATTAAATACATGTTTGAAGGTAACTGATTATAACAAATATCATGGTTATTTTCCAAAATATGGTTGCATTACAT
TATTTAATTTCTTTGTTGATGTCCATAGACTTCTTAGAATTGAGCTTTTTTATTTGTAGGCTGATATTGCACCATTGATGACTTCCCTTATTGGAGTTCC
CTTTCCTCTTAACTCAGTGGTAAGGAATAAAATTTTRTTATCAACTCTCAGTATAAAAAAAAACTATCGCACAGTAAAATGTACTCTTTTTTATGTGTTT
CTGAATAATCTGGGTTTTTTTTTTAGATGGGGTCTTGCTATGTTGCCCAGGCTGGTCTTGAACTTCTGGGCTCAAGCAGTCCTCCCATCTCAGCCTCCCA
AGTGTCTGGGATTACAGGCATGCACCACTGCTTCCAGCTTATATAATCTTTGATTACATTTAAAACTATATATTCCTGTATATTTATTTCTAAATATGCA
ATACCTCATGATTGCTTGTGTATTATATTCTATAACATGGAACATGAGCCAAATAGCTTTTCTTTAAATATTTTAATTTTCTAAAATGTGTATGATTTAT
ATCTTTGTATTCTGGTTATAATTGATAGAAATGTATAAGTAATTTTTTTATTACAAGCAGCAAAAACTGACTTCGTTTAAAGGGAAATTATTGAAAAGAT
ATTGGTGATTTGCTGAAACAAAGTGGTGCTTGAAAACCAGCCTTGTAATAACCTGGAACCAGGATATCTGGAGACTTGGAAGAAGGAACCACAGCCATGA
TCCCATGGCAGAGCTGTTCTCAGGGCACTGACATGAGGGTAGAGTAGCATTATACCTTAGTTTCTATCCCTTGACTATCAGGAGTCAAATTCCAGATGGT
CTAGCCTGGGTTGTAATCAGCAGGTCCCTGGATTATAAACCTAACATGCTGTATATAATGGGCAAGATTTCTCAACAGAAAATAGTAATGCTGTTAAGAA
TGGGCCCTGGATACTGAAATGCCAAAAAATAACTATTTCAACCAGCCACTCTTATTAGCTCTTCGAAATCAAATGTACTCTTAAAAAATAATGTTATTTA
ACCCAGAATGCTAAGTAATATGACCCCGACAGTCATAGTGTTTGTGTATATGTATAATGAAACAAAAGTTTAACAGAATAGTCCTTACTCTTATTATGTA
CAGTACACTCTGATATGTCTGAAGTCTTTTATTTTAAGTATGCTGGCTGTGGCCTACCATTGTAATTGTTTTTTGTGCGTGAAGCACTCAGTTCACTACC
TAGCACGTAGTTATCTCTCAGCCAATGCCAGGTGTTACTGAATTTAATTCATCTCTTGCTTTGCTTACCTTAATACATCTACTTTGTGAGAAAAATAATA
GAACATCTTTCAGTTATAGTTTTAAAWAGATTTTTCATTTAACTATTTCAATTATTTATTTGTCCATATGCCTTATCTTTATTGCTTTTAAGTCTGTTTT
GTTTTATAAGGATAGCCTGAGCTGTCTGAWTACTATCAATAAGCTGGTGTTTGTTATTTTCAGGGAATCCTTCCTGTGGATTATCTTAACAACACTGATC
TCTTCAAAGCAGAGAGCATGTTTACAAATGCAGTACAGATTCTTGAACAGTTCAAGGTAAAAAAAAAATTCAAAAAGGCACRCACAAAAATGGACAATAC
TACAATTTAAATATTGAATATATTTAGGGAAAATATTTGATTTTGTTTTTAACTATTTCCCTGTAATTTACCTTTAAATTTTATGTATTTGACTTGTGTT
TCACATTTCTGAAGGGTAGGTTCTATGGCTCAGTCTGAGGACATAAAATTGTGTTTGAGGAGTATGACTGCATGTAAGATTACCACATATGCTTACAAAG
ACTACAAGTCAATTCTTTAACTATTAGAATTTGCCCCATAGAAATCATATTAGAGATTGCAACATTTCTTGTCATTCCATGTATGTTATGAGATTCCTTA
AGAATTTAAAGAGGTGACCCTTTGACTAAAACCTTCTGTTATTCTTAATGCTTTTAAGAATAAGCGGTTTGGCTTGTTTTATTTTCAGAGTTAAGGAAGT
ACAGTTTTAATTACAGTATGTTACTTTGCAAGATTGATATGTTTAATTCTCAGCTTATTGAGATARTAAGAAAATGTTAAATTTTTCTTTAAATATTTAT
GAAACAATATAGTAACATAAAATTCCATTTATTTTCAAAGTGGTTAACCATCCCTAAAGAATCATTTTAATGGATGTTTATATTTCAAAATGGAATTCAT
TATTTTTCTCATTTGTAATATTTTCATACTTGGTTCCCAGGTGAAAATGACTCAGAAGAAAGAAGTTACTTTACCATTTTTGTTTACACCATTTAAGTAA
GTCCCTTACATTTTTTTATTAACTTGAAGGAAAGAATTTTCCACTGAGTTTGCAATTTTTCACTGAGTGATAGGATTAGTTTACTTATACAGTTTGCCAT
TTTATRTACATTAGTGTAAACTCCAAATTGAAATCCTCTTCTATTGCTGTTGTTAAATAATGAGCCAGGTGCTAGATAACTTTGAATGGCTGGAAGAGGG
ATGAGGGAATGGAGAGATACATGAGAAATATTAAGCAGGTGAACTCCACAGGGCTTGACTGGTTGGCTAGGAAGGTGTGGGGGCAGGAACGAGTGTGACT
TCCTGGCACTTGGCTTGGTTGATTAGGAAGATGCTGGTACCATATGGCTTTTTGAAAGAAGAACTAGTTCAGGAGACAAAGATGAATGTTACTAAGTTCA
ACTTACATTTGAAGATATCAGTTAATTAATTAGAAAGAGGGGCTTGGGTCTCAGAAGATGTATGTTGCTTGTGAAGATTTTGAAGCCGTGAGAATAAAGA
TAGGCTGGGCGCAGTGGCTCATTCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCAGATCTCTTGAGCTCAGGAGTTCGAGACCAGCCTGGGCAAC
ATGGTGAAACCCCGTCTCTAGTAAAAATGCAAAAATTAGCCGGGCATAGTGGTGCATGCCTATAGTCCCAGCTACTCGGGTGGCTGAGGCAGGAGAATTG
CTACACATGTAGGAGGCTCTAGAATTCTGGGAGACATCAGCTTCTACTGGGTGGGTGTATTAGGGTTCTCTAGAGGGACAGAACTAATAGGATAGATGTA
TATGTGAAGGGGAGTTTATTAAGGAGTATTGACTCACATAATCACAAGGTGACGTCCCAGAATAGACCGTCTGCAATATGAGGAGTAAAGAAGCCAGTCT
GAGTCCCAAAACCTCAAAAGTAGGGAAGCTGACAGTATAGCCTTCAGTCTGTGGCCAAAGGCCCGAGAGCCCCTAGCAAACCACTGRTGTAAGTCCAAGA
GTCTAAAAGCTGAAGAATTCGGAGTCTGATGTTCAAGTGCAAGCAGCATCCAGCGCAGGAGAAATATGAGGCTGGAAAACTCAGCAAGTCTGCTCATTCC
ACATTCTTCTGCCTGCTTTATTCTAGCTGTGCTGGCAGCTGATTAGATGATGCCCACTTGAGGGTGGGTCTGCTTCTCCCACTCCACTGACTCAAAGGTT
AATCTCCTTTGGCAACAATGTCACAGACATACCCAGRAACAATACTTTACATCCTTCAATCAAGTTGACACTCAATATTAACCATCACAGTAGGCAAAGA
AGAGAGCTGACTTTGGTGAGCAGCAGATTTTGCTGTCCCAGGTCCAGGAAGATGTGTTTTCCTTGCATCAGGAAAGGGAAGATCTAGATCACAGACCTGG
CTCTGCACTACTGACTGCATATGTGGGCTTGCATCTTTGAGGTTCACATTCAATTAGCAAGGATTTTGCTATTGACCAATTAAATAGAAATTGTTTTATC
TATGAATCTTAAGGATGTGATTGAATGACTTCATTGGAGTTATTTTTGACAACTTCTGTTGCACTAGTGTGATATTCATAAATTAGAAAGGCGGCCGGGC
ACGGTGGCTCACTCCTATAATCCCAGCACTTTGGGAGGCCGAGGCAGGYGGATCACAAGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGGTGAAACCC
CGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGGGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGG
AGGCAGAGGTTGCAGTGAGCTGAGATCGCACTACTGCACTCCAGCCTGGGCAACAGAGCGAGACTCCATCTCAAAAATAAAAGAAAGGCATAAATATTAC
ATTACCCTCTGAATACTGTGGTTGTATACTTGAGTTTTTATGTGTGTATATATATGTGTATAGGAGAGTAAAAATAAAATGAAATTAGGATTTTGCAAGT
TATAATCATATAAAATTGATTACCCTAAATATATCATTAGGATATTATGTTATTTACATCTCTTATGCTAATTCTAATTTTCTTTTATTGTAGTATAGTA
GAATTGAGATTTGTTAATGGAATTGGTTCTGAGGAATATATAAATGTTCATATGTTTTTCAAGAAATATTGATTGACTAGTATGTGTTTTGCGGATATAG
CAGTGAACARGATAGACAAAGGCTTTGCATTCATAGAGTTTATTTGTACAGTAGTGTCACAGGCAAACTATAACCAAATGAAGAAGTGAATAAGGAATAC
ATTATCAATTCCTTTTATGAAGAAAATACACCGGCTGTTGAGAGTGAGAATAAGTGAGGGTTACTTTAGACCAGCCACTTTAGAAAGGCTGGTTAGGAGC
CTGGCCAGTGTGGTGAAACCCTGTCTCTACCAAAAAATATAAAAATGAGCCAGGCATGGTGGCACCTGCTTGTAATCCCAGCTACTCGGGAGGCTGAGGC
ATGAGAATCACTTGAACCAGAGAGGCAGAGGTTGCAGCAGTGAGCCAAGATCCCACCACTGCACTCCAGCCTGAGCAACAGAGTGAGACCCTGTCTGAAA
AAAAAAAAAAAAAAAAAAGACAAAGAAAAAACAAAAGAAAAGAAAGAAAGGCTAGTTAGGGAAGGACTCTTCGTCAAGGGTTCAGGTGCACACTGCTACC
CCTTTTTCCACGTGGCATGGTAACTGATCATAGACTTCCCCTATTTTGATGTTCAGTGTCTGCCTGCACATACATATTCAAAGCCACTGTGTCCTCTGGG
GGTCTGGCGGGATGGCTGATTCCCATGTACTGGTTCACCCACTCTAGAGCATAGTGACCAGCCCTGCCTGTAGACCTGTCTGGCTAAAAATCACCACTTG
CTAAAAGCCTGCAATATGGTCAAAAAAATCTAAGATAACATGAGAAATGGACTCTTGAGGTCATATGAAATTCAAGGAACAGAACCAAACCTAAAAACAT
TAAAATTCTCAGAAATATTTAAGAAACTATTGCATCCATAAAACAAAAGCAGCATTAACTTTGCAAAATGTAGAAAGGTACTAGATGCATTAAAAATAAC
TTCTACATTTAATAAGAAAATAAATATTTCATAAGAATGCAACAAAAAACTTAAAGATAAGTTGTATAAGAATGGTCCAAATGAGAGGCAGATCCTCCAA
ATTAGAATAGGAAGTGAGTGGACCTCAAACTAAATGAAATGAATTTTAAGTAGTAGATGGATTGAGTAAGAAGCTGGAGGAAATTAAGGACATGATGTAT
ACATAGAAAGCATACATTTCTTCATCCGCCCGCCCATCAAAAAAAACAATGACAATCAGAAACTTAAGGGAGAAAGAAACATTTCAAACTTTACAAGAAA
GCATGCTTCAAATATAAAGCACCCTCAGATGTGGCATGATTTTGAACAGTTGCTAGGAGTGTGAGAAAGGGAATTCATTTGAACATTGTCATGTGGATCA
AGGCTTTAAAGAAATAGATGAGAAAATCTAATTGTAGCATAAAACTTTGTTTTTCAGTGGACAGTATTTAAATAGTCATGTGATATAAGTATTGGTTTTC
AGCTTTTAGAGTCAATCCTTGGACAAAGCAGGGAAGAATGAATTATGATTACAGAATAGAATGCAAATGTTAGCAGCCTTGAAAATGTACAAGTGCAGTT
AACAGGTTGGAAGGCAGAGAGGGAAGGAAATGTACATGGAATAGTAGYGGTGCTATTGTCTTCATGAAATAGAATATGGAGAATTTTATCTTTAGTTGAA
TTCGTCAGAGGTTTAGGTATTAGTTTTTGTTTTGTTTTGTTTTGTTTGAGACTGACTCTCGTTCTGTTGCTCAGGCTGGAGTGCAGTGGCGCAATCTTGG
CTCACTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGTCTCCTGAGTAGCTGGGCTTACAAGCACGCCACCACGCCCAGCTAATTTTTG
TGTTTTTAGTAGAGATGGGGTTTCACCATGTTGGCTAGGCTGGTCTCGAACTCCTGACCTCGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTA
CAGGCATGAGCCACCACGCCCAGCCTTAGGTATTAGATTATGAAAGTAACCAAGGTCACCAAAAGAGGAGGTAAAAATGTGATATAGCCAAATTGAGTGG
GGAGGAAAGCCAGAGACAACAAGGGGTCAACAAAAAGTACCCCCAGTCATCAAGTCAAGAAAAAGTAAGAAGAACATGTTTTTTAAAAATGTAGGCAAGT
ACCGGAATAACTAAAAACAAACACATGTAAAAGTTTTTGGTCTGGGTTGGTGAACTGAGAAATGAAAAAGAGTTATTATGCCCTTGTGTAGTGTTTGATT
TTTAAAAAATATGTGCATATATTGCTTTGATAAAACTTATTTTTAAAAGTATGTTTATCAAAATAAATAGATATTCTAATCATTGGCACAAATTCAGTAG
AATATKTAATTGGAAAAGGATACTATTCATAATAGAAATAAAATACCCAGCAATAAAATAATGAGAAATGTATATTGTAAAGAAAACTGTCAAATTTTAT
TAAGGACATAACAGGCAATATAAACAAACAAATGTTGGATAATACTGTTCAATACTGTAAAAATGTCGGTCCTCTCCAAATTACTTACTGAATATGGTAT
TATAACAAAAGGATTTTTGTATAACTCAAAAACATAATTTTAAAATTTATATCAAAAATAAATTCTCAAGAATAGCTTAATTAGTTTTGAGAAAGAAGAA
CAAGATAAGAGATTTGCTCTGCTAGATAACAGAACACATTCTAAAGCTATTATAACTCTAAAAAATGTAGTATTGATGCAGGCCAAACATATAGATTTAG
TGGAACTGATTCGTGAGTACATAAAGAGATAAGATTCACTTGTCTACAACRTGCACCTTGACTTATGATGGGGTTACATCCCTAAGTTGCAAATAATGTA
AGTGCAAAATGGATTTAATACACCTAACCTACTGAACATCATAGCTTAGTCTAGCCTACCTTTAATGTGCTGAGAACACTTAACATTAGCCTACAGTTGG
TCAGAATCATCTAACATAAAGCCGACTGTRTAATAAAGTATTGAATATCTCATGTAATTTATTGAATACTGCATTGAAAGTGAAGAACAAAATGATTGTG
TGGGTACTCAAAGTATGCTTTCTACTGAATGCATATCACTTCCATGTTAGCTGAAAAATCCTAAGTCAAACTCTCATAAGTTTGGGACAATCTGTATATG
GGATTTGGTTTTGACTGAAGGTAGTGTTTCAAATCAGTAGGAGAAAGATTTGTACTAAGAAAATTGACCATTTGGAAAAAATAAGGCTAGCTCTTGTAAC
CTCATTTCATTCACAAAACTAAATTCTACATTGATTAAAGAACTGAATATTTAAAAATAAGTAAAAGTGTGAGGTCTATAAAATATAAAATTTAACAGTC
ATATGGAAAAGATATTAGCTAGCATCATAATCAGAATTTTATTTTATCATTTTTTTTTAATAGAGATGGGATCTCCCTATGTTGCCCAAGCTTATCTTGA
ACTCCTGGGCTCAAGCGGTCTGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTGCAGGTGTGAGCTACTGTGCCTGACTGTAATCAGAATTTATTAATTAT
ATCAGTTACATAAAATTGGAAAATATACCAGAACCAGGTGGAATACTAAATTGAAAATTATTTTTTAATCATTTAGGGAGATGTGAACCACAGAAATTAT
TTGTTAAATTATTTTTAAGAGTATTTAGTTTCACTCATTAAAAATTTCATTCCCCCTTGAGGTATTTTGAAATAGAATATTTAAGGGCATTGACTAAATG
TTAGCTCTGCATTACAAGTCTTTAATGTTTGGTGTTATCAGAAAAAACAGTTATCACCATTTACTGAGTACCATCGACCCTTTATTTCTTTAGTCCAGTG
GGTTTTTTTCACATTAACATCATATATTTCTTTTTAATCACTTTTATATATGCACATAATGTCAGCATGTCTTCTTAGAAACTATATCAAGTAAATGTGG
GCCTATAAACATAAAAGATCAAAGAGTACTGTTGTCACACATGCTTTTAGCAAAAAAGATAACCCAGGTTCTTTTCACAAACTATTGTGTAATAAAGTCT
TTCCTTTTGTATAAGCATCATTTTTTTTTGTTCTTAGAAATATATTGTTCACTTGTCTGTTCTTAACTTGAGAAAATTCATCTAGGACATTGGCATCTGA
AAATTCATAGTATCAAAATTTTCGTGACATGATTAATTTCACCAGCATTATTAGATTTTAGTTTAATGGTATCTTCACCATTTTTCCATTATCTTGTTCA
GTCTTTTCTAGCATAGTTATGAGTAATTGGTGAATAATAAAATAATTCCTAGGGTAATGAAATAGCAAATGTTTCAGGACGTAGGAAAAATAAAATTGCC
AAGATTCTTTATCTTAGGCTTGTAAAAGGGTCTAACAGGGCCATGTGGTAATTGCATATCCTATTTTTTTGCAAAAATAAATAAATTTTCTCTTTGATAT
TTTAAAGACCTCTAAAAAGAATAAAAGTCATAAAACATCCATTCTGATAAAGAGAACTGCTAAAAAACAAACACCTGAAGCTAAAATTGGGTCTGGCAGA
CCCTGGTGATGGTATGCTGAAGGATGACCAGCAGGTGGAGCTACATGACCAGGAGAGGCATAAAAGGATCACCCATCTGTAAAAGGAGGAAAAACACTTT
ATGTTTAAAATTGTATACTTTAGAGGCTGGAGTAAGACAAGAAATAATTTAAAAGAAAAAATGCCACAGAATAAGAAGAAAGCAAAAAAGATCTCTTCAG
AGATATCTTAGGGGGAARAATACGGAATTGGGAAGGRGATATATACCTTGCCAATAGAAGCAAAAATATTTGTTACTTTTTTATTTGAAAATTATTATAT
AAATTTGATAAACAAAGAAATTTTAACAAAAAACTGTATTTTCTACTAAAATGGCAACAGTATTTGGTTTCTCTTATAAAATTTGTTTCTTTTAGCTGAT
AAAGGCCCTTCCCTTAGACCCAACTTAAATACTAGCTTGTATGTGAACCTTTCTACCAGTTTACCTATCTGATTTACTAATTATTTGTAAGAAACATAAT
TTTCTGCTTCAAAACTGAAATTTATCTTTAAAAAAAACTTCTGTGCATCACATACCTACATAGAAAAATATTATTCATTTATTCACTTATGACATGAAGG
GTGATAYGATTCTATATCATTGGTCATGCTAAAGGAATGAAAATTATTCTAGAAATAACTTTTTATCCTGCTTTCTCTGTCTTTATACTCTTAAAATATT
TTTCCCTTTAAATAGACATTCTAAAAAGGAATAGACAAGTATTACTAAAATATTAGGTCATGTGTAGATGAAAGCAAAAAAAATTTGTAACAAAAATCAG
AGTAAGAAAGGGCAGCATTTTAGGAGATCTTGTCCTCTAAACACTAGCTGACCCTGAATAATTGATAAAATTCTTGGTAATCCTAAAATGTGGTTTACCT
TATTCTATAGTATTAAGTAACCATTAAAAAAATGAATAGTAACAATTACAGCAAAGTAATGTGCACAGATTAAGACAACTCATTTCTCTCTTTTTTTTTA
ACTTAAACATGACATGTTTATAGATTCTTTAAAACTTGATATTTTCAATAAAAACAATTTAGTCAATAAAGGAAATTTTTCCTCACAAATTACTATGTAG
AATGTTGTATTTCAAACATGTTGCTTTTTAAGTTAATACTTCATTAGTTTATCCATATCTGTAACTATGCATAGATTAAAGGGAAAATGAAMAACAAATA
GTAAAACCATCACTTTTCCTTGTGGGCAATCTGAATTTGGGCAGTTGATAGGAAGATATATTAGTTTTCTAGGGTTGCCATAACAAACTACCACAACCTA
CATGGCTTAGCATAACAGAAATACATTCTTTCACAGTTCTAGAGACTAAAGTCCAAAATTAAGGCTAGGAGTCCAAAAGCAAGGTGTCACCAGAACCATG
CTCCCTCCAAAGGCTTAGAGTAGAATCTTCCCTTGCCTCTACCTAGCTTCTGGGGGCTGCAAGCAATCCTCGGTTTCCTTGGCTTGTAGCTTTATCATTC
TACTCTCTATCTCTGTCATCAGTGGTCTTCTTCCTTGTGTCTCTGTCTCCAGATCTCCCTCTCAAGGACACCAGTCACTAGATTTAAGGTTCACCCTAAT
TTAGTATTAATGTGCTTTAGCTTGATGATGTCTACAAAGACACTATTTCAAAATCAGGTCACATTCCCAGATACCAGGGGTTAGGACCTTTTTGGGGGAC
ACAATTTAACTCTCAACAGAAATTAATAGTTTACATTTGTCATCATTTCAGCCATTGCAGAGTAATTATCTTACAATGCTTCATTGATTTACTTAACCAG
TATTTATTGTTTTCCTACTGTGTCCCAGGCACTATACTGGATGTTGGAAAAGATAGACGTAGTGCCTGCCCTTGTTGGACACAAAGTCTAATGGGAACAT
ATAGACAGTATAGCAAATGATACAGCATGATAAGGGATAATTCAATGTATTATGAGTGACTGTTTTTGTAAGAACAGTTGAGGAGCACCAAACCCACAGA
TGAGGGATGCAAATTTATAGGAAGTTAAATAAGACAACTTCAGTGAAGGCAGTGTTGGAAAGAGAACTTTTGATTTGTTGATACCTCAGAGAGCAGCTGA
GATGGAGACGCAAGAAGTCTTCAGCTCAACGCACTTCTGAGGTAGTAACAGCCAATATACTAGCTTTCATTAACTTGACACTAATTGCTATGGGCTGCAG
TGGGTCTGAGACAGCTAAGAATGTGGACTTAAGGTGGGAAAGTATGGCAGTGATGTGCTAACAAGAGACTCAGCTCTCTGAGAGAGGGAAAGACTCCCAT
TAATAGCCTTTGCCAATTTCATTGGTATAAATACGCTCACTATGATCAATCTCAAGCTACCAAGGATGATGCGACTAGAGAAAGGGAAGAGTTGTACACC
ATCTGCTCTCGGGAGCTGGTGTGAGCAGCCCTCAGCACGCCACTGAGGGAGGGAGAGAAGGGAGTAAGGAATTGAGGCAAGGGGAGAGAAAGCCAGGTGT
TGAGAGCTAATAGAAAGTGCTTTCCAATATTGGCTTTGCATTGTCCTTGGAAGGGAATTTTGCAGGGAGTGAGTGGGGAGATCTGCATTTCCAATGAAAC
ATCGTTGTATACTTATATTTTAATATTTCTTTATGATGACTTCTTATTTTGAAGCCAAATAGAAGAAACTTAATAGTTTATTTTTGCCTTACATTTTTCA
TGTTAAATATATTAAAGAAAATGTATTTTAGCTAAGGGACAGTAGATGCAAATGTAATAATAAAATATTATAGCCCTCTAGAAATAATGGGCTTATAGAA
TTTAATGAATATTTTAAACATTTTATTAAAATATTTTAATGACTCAAAACCCACTTTTGTAATGTGAAAACAAAGGATAATTTTTTCCTCATATCAACCT
AAATGAACTCTTCTACCTTTTTTTCTTTTCTTTTTTTTCTTGATCTCTGTGGCTGCATGTGAGTATCCAGCTGTGCCCTGAGCTAACACTGTTACCTATG
CAGTGATTCTGGAGTTGGGTAGCTTTTCCCCCTGATCTCTTATGGACCCCATCTGTTCTAAAGTTCCTTGTTTAAATGTAAAATACCTTCCGTGGCCTAG
TGGTTTTAATTATGTTACTAGCTCTGTGGTCTGATCATTTAGGAGTTTCTTTGGCATTCCTCCTGGCTGGCTTCCAGCCATTTCTTTGTTTATACTTTTT
ACCACAAGCAAATCTCATCATCTCCAAAGATGATATCTCTGAAAGTCCTCAGTTTGTCACACCAGTCACAAGTATCTGAAAAGAGGGGAAGAAAATAATC
AAATCCTTTTCCCCAAGTTTGAAATTCAGGAATTTTATATATTTTTTTGGTAATGTCATGAATAGTATAGTGATTTTTAAATGTATAGTTGTTTTATATA
TGATATTTTTAAATTCAGGAATAATTCTTGTGGGAATTATAAGATGTTTTTGACATTATAAAAGTGGGAATAAAAAATATTTTAGAAGATAAATATCCTA
AACCAAGAGTTAGAAAATTTCATAAGGATTTTTCATAAGTTTGTTGGTATGTTTTCCATGTGTAGTTTCCCATGCATTTTCTTGTTGGGAAAATAGCACC
ATGTATTTTTAATTGCCATTTCCATCATCAGTCCTATCTTCTCCTTCCGCYATTATGTATGTTTATTATGGCCTGGATAATTGGAGTAAGAAAAATGCCA
CAGGATATAGGTCCCAGCTACTCAGGAGGCTGATATGGGAGGATCACTTGAGCCAAGGAGATCAAGGCTCCAGCGAACCTCAGTCACACCACTGCGTTCC
AGTCTGGGTGAAGAAGCAATACCTTGTCTCAAAAAACAAAACAAAAAAAAACACACAAAAAAACCAGACTGTTGCAGTTGTTCAAGCAAATGATAAGGTC
TTGCACCATTGCTTTCCTCATGACTACCCGCTCACAGTTATTATGTACTTAGTGTATGCAAGGCACTGTTTTAAATAATTTATCAGTGTTCGCTCATTTA
ATTCTTAAAACAGCCTGATATGGCGGGTACTGTTATTACAGATACTTCGGCTGCAGTGGTTTGACTTAGGATTTTTCGACTTTATGATGGTGTGAAAGCT
ATACGCATTCAATAGAAACCATACTTCAGCAACAGTATTCAATAAATTACATGAGATATTCAGCACTTTAGTATAAAACAAGCTTTGTGTTAGATAATTT
TGTCAAACTGTAGCCTGATGTAAATATTCTGAGTACATTTAAGATAGGCTAGGTTAAGCTATGATGTTTGGTTGGTTAGATGTAAATGGAAATTGACTTA
AGATATTTTCAACTTATGGTGGGTTTATTGGGATGTAGCATTATCTTAAGTTGAGGAGCACCTGTATCTCATTTTCACATGAGGAAACTGAATCAGAATG
ATACTTCCCCCAAGTAACAGAATTAGTAAACATTGAAGCTAGGATGGAACCCAGGCAGTCTGGCACAGAATCTATCACTAACCAGGGTAAGATTTATCCT
TCCCAGTGTCCTCCTTGAGAAATACTGCTTTAAGATTGACAAGATAGGAATGGAAGGAAGTTAGGGGTTTAAGGTACAATGGAAGTTGAATCATTAAGGT
ACAATGGAAGTTGAATCATTCAACAATTAAGTTGAACGGATGTTGGACATATATTATGATTTACTAAACTGCTGCTCATAGGATGAGGGTCAAGTTCAGT
TGTGGATCTGCTGAGTTTGAGCTGTCTGTAGAACAGCATCATGGTGTGACTGTATAGACAATCGGAAATCTGAATCTAAAGCTCAGGAGCAGGAATCAAG
CTCTAAATATAGATTTTGGAAATTATCCATACCCTAGTATTAATTGATGCTGTGAGGCTGGGTGAAATCCCTCAGTTAAGGATACTAGAGGCTGGAATAT
TGGGCAAGGACAGAGGGAAAGCGTAGGAAGTGCTAATATTGTTTTTCCCTATTTTTACATTTTGTAAAATAGATTTTCAATACATGATGAAACTGGGATG
CAGAGACTTTAAAAAGTTCACATGAAGCTTTTAAGCACATATAAGCATTTCATTACAGTGATTTTTATGTTCCTTGATCATAGTTTACACTAGTTCTTTT
GCTCCAGCSTAATAAATCACTCAGCACCTGTAATATAAAATGATATTTTCTGTGGTAAAATTTTAGAAAAATGACATAAACTTGTCAGTTTGCRAACACT
ATAGTGTTTACCATGAATTCATGACATCAATATTTAGTTTATCTGGCAGAATGTAGAAAAATGTATTAATCACTAGAAAGTATGATAATTATTATTTAAA
TGTTATATATGTTGAAAGAATCTTAGGACAAACAGGTGAAGTCTTATGGTATTTTGTGATATATATAATAATATTTTTGAAACTGCTTTTGTTTGTTAAT
AAAAATAGAAATTGCATGGAGAAATTGCTTGGCCAAAAATAGATACAATGACTGATCCAGATACTCTTGTTTTCAGATTTTTTTCTCATGCTGTTTTAAT
TGTAAACTGTTATACAATTGGGTTACTAAAACCCTTGATGGGTTCTAGYAATCACCAACTAGTAAGTCATAAAACTTTTGTAACTTACTGTATTTCAGAA
TTGTTATTCAGATTTTCCAAATTATTCTTTGTGAGTTATGTATGATGTCATGAAAACACTGATTTTTGTGTTTTTCATTCGTATTTTAAAATATTTAGTT
ATTCTAGTTTTATAACTTTAACATCCCATTTTAAAGCAAGACTTAAAAAAGTTTTTTCGTAATAGAATATACACCAAACACAACCTTAGTATTTATCAAA
GAAAAACAAATTCAAGTTAGACATACTTTTTTCCATTTTTGAAATTAGCAAAAAAGATTTTTATATGATTATGTTGCTAAATGGACACAAAATGCTGTTG
TAGTATACACGTATATAATCACTCTTTTGGAGAGTAAATTCCACACTGTAAAGAACCTTAAAGTATTTAAAATCTTTAACCAAGCAGTTCCATCGTGTGA
TACAGAACTTCAGGAAGTGAATGTGAAAAAGTCTTTGCCCCAAGGTATTCATCCTAGGATTGCTTATAATCAAAAAAATGGAAAGCCACATAATTGAACA
ATAATAACATGTCTACTAGAAAGACTATGCAACCATTAAATGTTCTGTTTTCAGATTCTAATATGTCTTAGAATAATGTTTATAATATAATCATCAACAA
AATGCAACTTACAAAGTTACACATTTGGTATGATTACAACTACATTAAAAATTCGTGTGTGTGTGTGTGTTTATACACATATATACAAACGTGTATATTT
ATATACACATATRTACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACATGTATATACACATATGTAC
AAACGTGTATATTTATATACACATATGTACAAACGTGTATATATACATGTATGTACAAACATGTATATTTATATACATGTATGTACAAATTGTATATTTA
TATATAAAGGGAATTTAATGAAAAATGCTAACATTAGTAAGATATGTGCTCTGGCAGTGATTTTTATTTTTTACTCATGCTTTTTTTGTATTTAACTATT
AAAAATAATTACATGTTTTTTGACGAGAAAAATATTTTTAAAAGAGAAGTATTTCTATAGTTTATAGTTTTCTGAAATAGGTTTACATAAAGGCACATAA
TGAGACATAAAGTTTTTTAGCAAAGAAAAATAGGCAAAATGTAAAATAAATTTTGCCTGTTTTCCCATGCACACACATTGAAAGGAAACACAACAAAAAT
TTCAAAGCATGTTGGAGAARGCCCTAAGGCATATGATGTCTGGTATTTGAAGAAGTGCAGGAAAGAGCAAAAGAGAGGAATGGGCAGGGGCCATATCTCT
CCTCATAGGCAGGTTTAGCATTTTTACTTTGTCCTCAAAGTAGTGGATTTTAAGGCATGGTTAGATTTGCATTTTACGCATATCATTCACAGGTACCTGT
GAGTTGTGGGAAGCAGGTTTTCCTCCACTTTAGAGATAATAAACCTGAAACTCCCAAGTCCTTAGTTACCTTGCTAGTGAGATTTACAGCTAAAACTTGA
ATCTAGACAGTCTCTCTCCTAATCTGGTATCTTTTTTTGCCATTCCTTCTGCCTCAAATGATATGTAATTTAGTACCTTTATGTTTTTAAAGGGAATACC
ATCAGATCTTTTGGTAAATTAGTAAATTTAGTGAAATTTGGTAAGTATTCYTTTAAGCAGATTTAGATCACATGTATAGTTCAGTAATATAGTAAATAAT
GGTATTTCTGTGGAATGCTTGGTCTACTAATGTTGCTGTGGTTTATTTAATCATTTTTCTCAAAATCTGATCTTAATGGCAGCTCATTATATAGACATAG
TCAGTTTTTATTGTTAAGAAGTTATTCCATTTCTGAATAAGGAGTTGTCAGGGAGGTAAGCCAACAAGTTTAGTGTCATAACACCTTTGTGAAAATTTGA
GTGTTTCAGTCTCTCTATATGATGCTTCATGCATTAGGGCTCATAATTAGTTCATAAAAGTAGAATTTTGAGAAACCTTTTCTATACAGTTTTGTCTCAC
TTTTTTTTTTTCATTTTTATAGTCACARAAGATATAATGAGTTATAATATGTGATAAAATTAGTGGATCTTCTTCTTCTCTGGCCTTCCAAGTTTCCTAT
TGTCTGCATTCCAGTATCCTTTCCTATTCYTCATTATGCTAACTAGTTTTCCTAACATAGGAACCAAACATTCAGTTAATATTTTAGATGCCCCTTACTA
TTCAAACTCTCCCTTAATATCTAAAATTCAAAAACTGAATAGATGTGGATAATACCATATTTTCTTGTTAAACTAACTTGGTATCAGACTCTTATTATCT
TAATTCAAAAGGTGAAATGAATTGGATATTCATTGTACAACTGCTTTCTAATATCTTTCAGTTTCCTCACTCTTATTTTCATCCTGATTTTAGGAAGAAA
AATCATCCTGATTTGGTCTATGGAATAAATGGTAATATTCTTTGAAAGTTCTTATCAGCAAATTAATATCATGATAGCTTTTTTTCAGCCATTTAGTTCT
TAATGTGCCTTCTTTTTCACTCAAGACATGGTTTGTTTTTTCTCATCAGTAGACAGTATGTTTTTATTATCCTCATTTTCCATCATCTTGTAGGCATTTA
AGTGCAGATTTGATCACTTATGTAACTTTTCAGCAATTATTAAGGCTTTAAGAATTTTTTTCTATTATAGTCTTTCATTTTTTTAAATTTCATTTTTAGA
AAGAGGGTCTTACGCTGTTGCCCAGGCTGCAGTATAGTGGCCCAGTCATGGCTCACTGGAGCCTTGACTTCCTGGGCTCAAGCTGTCCTCCTGCCTCAGC
CTTCTGAGTAGCTAGGACAACAGGTGAGCAACACCATGCTTGGCTAATGTTGCCAAGGCTAGTCTCGAGCTCCTGGCCTCAAGCAATCCTCCTGTCTTGG
CCTCCCAAAGTACTAAGTGCCTGAGTCACTGCACCCAGCCTCTATTATGGTCATTTTTGTTAATCAAAAATTTACATTCCATTGCTGGCTTATTCTTTAT
AAGGGCATGAGAGTTAATTAACGCTGCAAATATCCCAGAGACTTTATAGATGAATAATTTATCATTATTATACTATATTATATCTAAAACTTGTATTATT
TTGGAAAAAGARGAAAGATAGGTCTAGAGGGAACTGGAAGGAATCTAAACTCTTTGGTGTCAATGTTTAAACTGCTTTCTTGAAAAGAAAACATATTCTC
TGAACAAAGATTCTTGTACCAAGTAAATCAATTTACTTTTCACAAGTAAGAGTAACTAATCAGGGTCTTTTTTATTAGCATCTGAGAACATATTTTCATT
CCAGAAGTCTTCTCTTCACCATATTAAATTATGTAGTTCCTTCATCCTTTCCTTAGGGAAAGTTAATTTTCAACCCTGTATTTGATCTTGCTGCTATTCT
GAATCCACTCCAGATGTCCTTGTCGCTGTTTGTGCTATCAACCTAGAAGCAAGGAAGTGCTAGGCATTTGCATTCATTAAGAGGGAACTGATAAAAATTT
GCTATTGGATTCTGAATATTATAAAARAAATATTAATTGAAATAAAAATAATATAAGGAAGTTAAGTAGAAATTTAGCTTATATGAGTAATCTAGGAATT
TTAGTTTGAAAATTTTCTTTGTAAAATTGATACATTACATACATATTTTAGGGGTACATGATACATTCATATAATCAAATCAGGGAAATTTGGATGTCCA
TTACCTTAAATAGTTATCTTTTCTGTACACCAGGATCTTTTTAATTATTCTGTTCCAGCTATTTTGAAATGTATAATATATTAATGTTAACCATRGTCAT
CCTACTGCTCTATTGAACACCAGCTCTTATTTCTTCTATCAAACTGTGTTATTTATACCCATTAATCCACCTCTCTTCATTGCCTTCTCCCCTCTACTTT
TCTAACCTCTGGTAACCACCAGTCTACTCTCTACTCCCTGTGTACTGTTGGTGGGAATGTAAATTAGTACAACCACCATGGAAGACAGTTTGGAGGTTCC
TCAAAAAACTAAATATAGAACTACCATATGATCCAACAATTCCACTACTAGGTATATATATCTAAAAGAAAGGAAATCAATATATTGAAGAGATAATCTG
CACTCCCGTGTTTATTGCAGTACTACTTACAGTAGCTAAAATATGGAATCAATCTAAGTGCCCATCAGTAGATTAAGGGATAAAGAAAATATGGTATATA
TACATGATGCAATGTTATTCATTCATAAAAAAGGAATGAAATCCTGTCACTGGCAGCAACATGAGTGGAACTGGAGATCATTATGTTAAGTGAAATAAGA
GCGACACGGAAAGACAAATTTTACATGTTCTCACTCATATGTGGGAGCTAAAAAAAATAGATAGGAAATGTTCTTACCATCCATTCAGATAAATAGAATT
CCCTGCAAAAGGTTGTGCCCTTAAGAAGTAGAAACTTTTCTGCATCATGGAATAATTTATGTGTTAATTCATGTATAACAATAAAATATTCAATATTTAT
TGAATAATATTCAATAGATTATCAGCTTTTAGTGATAAAAATGTGTAAAGTGCTTGGATTTATTGCCTGAATAAGGTTTAGAATGGGAATTTTTTTACCT
CTGTGGTTTGATGGGTGAATTCTGAGGTCTGGGCACAGGAATTGTGGTGCCAACTCTTTATGTGACTTACTAGAACAACTTTTCCTAAGACTAAAATGAC
ACTGCTGGCTGCTATTGTAGCCTTTTCTTCTTCAGAAATATCCCTGGCTTTCTATTGTGCCTTACATCATCTCTCAGCATTACCTTAGTCTTTGCATTCT
AGTGTGTCATTGGCAAATGCCCTTGCCAATGCCCTCACCCTATCTTAAGACTTTTGCCTTAAAGTCAATGCCTGGACTTATATTAGTRTAATGACAGCAG
CATTGTTTATATTTGTGTGTTATGTCTTTTCTCATRTCCTTTCACTTTTAACATTTTGATGTTYTTATATTTAAGGTATGTCTTCTGTAAGTAGCACATA
ATTGACTTTGTTGTTTGTTTTTTTATCCAGTATTCTACTTTTTTTCTTTTAGTTGGTGTTTTCGSACCATTTATACTTACTATAATAACTGATATATTTA
GGTTTGTTTTCAATTTATCCCATCTGTTTTATGTTCCTTTTTCTGTTTTATTTTGTTTTTTTGTAGGATTAATTAAGTATTTTAAATTATTTTAATTTTC
CAGCCCTCCCCTGCCCACATATTGGCTTGTTATTTATACATCCTTTTCATGGTCATGTTAAAGATTATGACAAGCATTTTGGGCACATTATTAGTTTAAT
ATAAATTAAATTAATGTAAATTAACTTTAAATAACTTTCATACCTTTGATGTTATTGTTATATATTTTAATTATAAGTATATTGCTACATTTCAACTTTT
TGCCTTGTATTATCAACATTTATTTAGATTTACTCATATATTCACTGTGCCTTTTGCTCTTCATTCCTTTCCACATTTCTGTATTTCTTGTCTATGATAT
GACATTTCTTTTCAAGGGTATTTGCCAGTGAAAGACATTTTTCTGTTGTTATTTGTTTGAAAATTCATTATTTTACCTTAACTTTTCAAACATCTTTTCA
AGTGAAATTCTAGATTGTCAGTTATTTTCTTTCAGAAACTTAAGGATGTCATTCCATCATTCCTGTTCAGTGACCAACTGTTTTAATGTCATTTGTTTGA
AGGCAATTTGTCCCCTTCCCCTTCCCCTTCCCCCAGCTGCTTTTAAGATTTTCTCTTTGACTGGTTTTCAGCAGTTTTACTGCCTGTCCATATACATGGT
TTTCTTTGTACTTATTTTGCTTGGGGTTTGTAGATGTTCTTAAATCTGTGGATTAGTATCTTTCATTAGTTTTGTAAAGTTCTTGGCCTTTATCTTATCA
GATATTGCTTCTGCCATATTCCATCTCTCCCTCTCTGGTATTCCAATTACATTCATATTAGACCTGTTTCATCATGACTCGCATTCTATTTCTATAATCT
TTTTAGTATTTTTCTGTCTTTTTGCTCTTCAAGCTTCAGGCAAGGTATTTTCTTTTCTTTTTTCTTTTTCTTTCTTTCTTTCTTTTTTTTTTTTGAGACA
GAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGTCACGATCTTGGCTCACTGCAACCTCTGCCTCTCAGGTTCAAGCAATTCTCCTGCCTCAACCTCC
TGAGTAGCTGGGTTTAAAGGCATGCATCACCACACCCGGCTAAGTTTTGTACTTTTAGTAGAGACTGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAAC
TCCTGACCTCAAGTGATCTGCCCACCTTGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCATCGCACCCAGCCCAGGCAAGGTATTTTCTACTGATT
CTGTCATGAGTTACACCAGATTTATCTTCTGTTGTGTCTAGATTGCTGTTATTGAGTTCTTAATTTCACTTGTTAAATGTTTTTAAATTCTAGAACTTCC
ATTTTGATTTTTAAAAAAATAGATTCTGTTCTTTGTTACAACTTTCTGTCTTGTCTTCTTGACATATTAACCATAATTATTTTAGCATCTGTACCTGATA
ATACCAATAACCAAACCATTTGTGAGTTTGTTTCGATTCTTTTTTTTTCAATTGGTCTTGTTTGTTAAGTCTGGTAGTTTTAAAATGAATCCTTATCTTT
ATATATTAAAAGTTTTAGAATCTCTGGATTATCTCATTTTTCTCCAGAGAGGTTTTGCCTTGTCCTCTGATGGCCACAAAGAGTAGTGGCTGACTCAAGG
CCGTGCTGCGATTTTAAGCCTCCTTTGATCTCTGGTTTGTCTCTGTTCTTAGAGTGTAGTATCTCAGGGATCCCTATACAGACCTTGTAGTATCTAGAAC
CTTTCTTCTCTGGTGGTCACTGAATACCAATTTTTGTCTCTTGTACATCTTGAGACTACCAAAACTTCTGTCTGCTTTTCAGGGACATTCTTCTTAGCTT
CTTGTCCTCTTGTTCTATACAAATGAGTGTCAGACTTACCTTTTTTTTTTTTCACCTCTTTTCTCATCAAGACTTGGCCTTTCTTTCTTTACCTGAGTTC
TCTGAATAATATAGTATAATATAATATTTCTTTCTTATAAAAGCTCTTTCTCTCACTCTTCTTAAGATTTCACCTCAGAATATGTGTTAGTTTAAAATTC
CAGATGCACTTTTAAAATGTCTTTCTTAAAAAATCCACAATGAAAATGTATATTATTTTCTTATTTTTCTTCCTTTTTAGGTCCTCAAGTTCTGGCTGCA
TTGGCAGCTAAAAACTTTAATTTTTATCTCTCCAGTCTTCCAAGATTGCCAAAGACTCTTGGATTCTCTACTTCCTGGCAGCAGCTATATCCCCAAATTC
TCAGCCTCTTGCTTTGTGCCAAGAATAACAATGGTAGATTCCCTCAGAGTTACAGTTTGTAGAATTTTGGATTACTTCCCTGTGGTTTCCTTCTCTCTAG
GATCTTAGCCTTTCATTACTTGATTGTTTTGGTACCTTCAAATTTATTTTATTGGGCTTTCTAGTTGTTCTTGGTGGGAGCATTGCTATGCCCAAAGCTT
CTCTGGCATAACCAGAAGTTATGGTTAAATCTTAGTGTTTTAGTCATTTTATTTAAAAGTGTTAATGAACAAGTAATGCATGCACACAATAAAATTTATA
CAAACAATAATAAAAAGTCACTTTTCCTCCTGTATTCCAGTCTTATAGTCTTTTTCTTTGGAGGCAAAGTTGCAGTTTATTATGTATCTATCTATCTATA
TCATGTATACATATATACAGGAATATAATCTAAATAATATCCAATAATATCCAAAAGAAAGGAAATCAATATATTGAAGAGATAATCTGCACTCCTATGT
TTATTGCAGTACTACTTGCAGTAGCTAAAATATGGAATCAATCCAAGTGCCCATCAGTGGATTAAGGGATAAAGAAAATATGGTATATATACATGATGCG
TCTTGTATATTGCAATATTATTCATTCATAAAAAAGAATGAAATCCTGTCAYTTGCAGCAACATGGGTGGAACTGGAGATCATTATGTTAAGTGAAATAA
GGCCGCCACAGAAAGACGAATTTTACATGTTCTCACTCATATGTGGGAGCTAAAAAAAATAGCTTTGATRACGTAGACAAGAATTGACAGAATAGAATTG
ATGAAGTAGACAAGAATACATATGTATACATGATATATGTATATCCTTCTTGTTATATTTCAAGTTCTATTTATAAAATATTTCAAACATGCTGAAAAGA
ATAGAGGATATAATAAAAATTGTTGTACCCACAACTCAGGTTTAAGAAAATGTTAACATTTTACCATATTTAGATTCTTTTTAGAGGGGGGGGCTGAGGA
ATAAAATGGTGTAATACACTTCAATCCCTATTTTAAAAATCTATTTTATTTAACAGTTCTTTTTTCTATTTAGTTTGGTTTTCAGGATTTATCCATGTTT
ATATGTATAGATCTCCCTTGTTCATTTTAGTTCACATATGGCATTCCTTTAATTACTCCTCTGCCAACCCCCATTTATTTTGTTGTTATTTGGTTTTGTT
TACATAAATCTGAACATATTTTACTCTATATTCTAGACTTTATATTTCTTACAAAACCTCTTTATGTTTAAAGTATGTGATACCAAGAAAATTTACTTTA
TATCCCCTCTCAATTTGATGGAAAACTAAAAATAAAACGTATATTTGGGGACAAGTGTATGAGAGTCTTTAATGTCATGGTGATACATTGAGGCTTGTAT
AGAACATTTGGTGAATTCCAGATATATTGCAAATCTTTGATATGTCTACCTTTGGCATGTCCCAAGTTTTATAAATAGTGCATTTAGGAAAAATTACAAA
TTACCCTGACTCCTGTTTCTTTACCTTAATACTTCCAATATAATATAACATAACATAATATATAATGTAAATATTTCTCCTTAAGAATTTTTTTCTCTTA
TTCTYCATAAGACTTCACTTAACAGAATGTCTGTTAAATTAGCTTAAGTAATTTAGCTTCAGACAAGCTTTTTTTCCTTTCTTTTTATTTTAAATTTTAG
GTACATTACAAATGGCAACGTATGGTAGTCTCTTATTTTTCTTCCTTTTTTAGGTCTGCAATATTTTGATAGCATTGTATTCAARATTTATTGATTCATT
TTATGTGCTTTAGCACTTTGCTAAGTATTATTGTGGATATTAATGGAATATAAGACATTATCTTGGCCCACATGGAGGCTAAAATTTAATTGAAGAGAAA
TAAACTGATCATTAGACCACTAACTGAAGTGCTAATGATGTGAAGTGAGATTTGGAGTAGACCATAAAGGATGATGAATATTTGATTTTAGAAAGCAAAG
AGGGGAACATCTTTATGATACCAGCTAGGTGAAGCTTGAAGAGTTTCACCATTATGCAGCTGAGGGTACACATTTGCGATAATGGGAAATTAAGTGAAGT
AGCAGCAGAGGGTCATCAATAGTCCAGGAAGATTAGAATTGATGAAGTAGACAGTGAGATGCCCATATCAATTGTAAGTGAGAGGATGCAATCAGTATTT
TAGGAAGCTGAGTGGATCAGAGCAAGAGGAAGGAGGTCAACTAGAAAGCTTTTATGGAAATTTGGGAAATTCAACTTAGATATAGCCTTCCAAAAAATGC
CTATGCACTTTGGCACAGTAATTGCTATACTAAGGCTTCTGGGAAAACACTTCAAAATGTGTGGTATCTGAAGGTACAGAGAACTGGATCAAAGCAACAT
TTTAAAGTAACTTGTTTTTCTTTCATGTGTTTTTGCCTTGTGGCACCTTTTCCCTCCAAATCCCAGTGAATCCAGTGGTGGGGAATTTTCCTGCAGTCTG
CAACATGAGAACCCAGTGTGGTTGGGTTCCCCTGAGTTGGAATATCTGGGAGCTCTTAGAGTAGGCACAGATTCTTTTTTTATTTTTTGTAGAAATGAGG
TCTTGCTTTGTTGCCCAAGCTGGTCTCGAATGCCTGACCTCTAGTGATCCTCCTACCTCGGTCCCCCAAAGTGCTGGGACTACAAGCATGAACCACTGTC
CCAAGCCAAAGCACAGATCCTTAATCAGAGTATCCCATAGAACTCTGAGAGAGTTCATAGATAAGCTTCTGGGTTTATGAATTTTCTGAAATTATATTTT
AAATTTTGGATTATGTACATTTTCTAGACAAGAGTTTCAGATTCTGAAAGAAGTCTCTGACCCTCCCCCCTCCCAAATTAATAATTACTGCTTAAAAGAT
TTACTTTGTACAAGTCTCAGTCCTATCTCTTCAGAGACTGCTTGAGCCAAGTAGAAAGAAGATAAGTGATTATATTATGTCGACCCATGTGCAGTTGCCA
ATATTTAATTTAGTAGTTTTTGGCCTATGAAACATCAATTTCATGTGATCCAACCTAATATAGCCTTAAATAACTTTGCATGCATTTTTAAAATGTAAAG
CCATTCATTTTAGACATGTAGGTTTTAGTTAAGCAGCATATATTCAAATTTGAATTTAAATATATAGATTTATTTCATTAAGACAATTAAATTCTGGTTA
TATTTCCTCAATTTCTACATTCCATAAATTTAATGACTTTAGTTTTATGTAGTTTCGGGTTATGCAGTATTTTTTGGGAGTATTTCTCTTGTGTATTTAG
TGTTTCTACTCTGGTAAAACAGGATAGGGAAATGGTGGAAAGAGAAATGAAAGAGGAACGAAGAAGGTATATGATATAGTATAAAAATAGCAAATACGTT
CAAATTATTCATTAACTTCCAATGGTGGTTAGTCTCTGCCTGGAGCTCTTTGATAATAAGAATTCTCAGGCCCTGTTTGGCTCAGGGATAAAAAGAACAT
TGATGGATCTGTCCTCAATCACGTGAAGTCTGCCATGAGCACAGGACAACTGAGTGGCAGAGCTCATGCCATACGTTTGGTGTTCTGCTAATTACTTCAA
TTTAATCAGAATTTCTTTGTTAGCCAGAGTATTACATTTCTTCAGAATGATGGATTATATGACTTTCATAAGTGTAGTTYGGCATTTGAAACTTCGAGTC
AAGAAAACCAAATTTAACTATAAGCTATTTCTTGGAAGACTTCAGAGAACMAACAGCAATTCAGGTTTTTTTCTTTGATTTTTGTTTTGTTTGCTGTTTT
GTAATTTTCACTATCWTTGTTTTTTAATTAAGGGGAAAAAAGAAACATATACTTGGAATGAGGAAACCCTTTAAACCTATTCTTTTTTTTATATATAGAC
TGCTTTCTGATTCCAAACAGTTCAACATTTTAAGAAAAGCAAGATCTTATATAAAACACAGAAAGTTTGAYGAAGTGGTAAGTATACCGGCCTTATAGAC
ATAAATAGCTGATTATCATTTTGGGGATGGAGAGGAGAAAAATAGAGCAAAGTAGGCAGGCCAGGGAGCTTTCTTGAGCCCTCAAGGAAGGATTGCATTT
CCTGAGTAGCTGCTTTAGCAGTGGACAGATCTCTCTTATTTCAACTAATATTATGGGTAAATTTTTTTTTTTTTTTTTGAGACAGAGTGTCGCTGTTGCC
CAGGCTGGAGTGCAGTGGCACAATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACA
GGCATGCGCCACAACACCCAGCTAGTTTTTGTATTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGGTCTTGAACTTCTGACATCAGGTGATC
CACCCGCCTTGGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACCCGGCCCACATTTTTTTAGGTTAGCATTAGAAATAAACTATTACCATT
TTTTAAAATGAGAAAATAGATGCCAAGTTTGTGTCACCCTTCTTAATGTATAATATTTTAGAATACTATATGTTTGCCACTTGGAATTATCTATACATTA
TTAAAAGTCTAATGATTCATGTTGAAATTTTGACTCTTCCAAACTCCTATCTCACTGTTTTTCATTAATTTTTCTTTGTTAAATGGTCATTTAATTTTAA
AGTAGAAAAGAATTCTGTTTTCATTTCTAAAATTGCCTAAATAATTGCCAATCCGTGCATTTCTAATGCTTTTTTTGATGATTTTAAAATGATAAGCTAT
TCTTCTCCTGTAAAATATTAAGCTACTTAATGATGTTTTATAACTGATTTGAGTAATCTCATATGAGAAAAAATATAAATATGGCCATTATCATTATTTG
GGACCTATATTAGAGAGCCTTCATTTCTTTTATGAGTTGTCTGAATATCATTTCCACAAACACACATATACAACACAAATAGTTTACATTTAAAATGCCC
TTTCTTATTAAGATTAAAAAGTTCATTTTATTCCAAATTTTTCTCATACTTTAAAAGAAGATCCTGGAACAATTAAAATCTGTTCTTAATCCATCATCTA
CAGTTATTCACTAATTTTAATACAACAGTTTGGCTGTTAGGAATTTAAAATTTTCCTTTCTTTAAAATGTAGGTTTTCTTATTATTTCTGTTAGCAAGTT
ATATATGTTTTTTCTCCATAGGTCTCCCTTTGCAAGGAGCTAATTCATCTTGCATTGAAAGGATTGTCCTATTATCACACATATGACAGATTCTTTTTGG
GCGTCAATGTTGTTATTGGTTTTGTGGGATGGATATCTTATGCCTCTTTGTTGATCATCAAGTCTCATTCCAACCTTWTAAAAGGTGTTAGTAAAGAAGT
GAAGGTACGTTTAGAAAATGTGAGGATTCAGATGATGGTATAAAATCACTAGTACTGAATCCAGTGTAATGAGTTTATAGGATGTGCAAGTCATTGTTCT
AAGCTAACTCTTGTTTATCTTTCATTTGCTTTTATTGTATTGGATTTTTCCTCAGTTATCTCTGTTTCTTCAGTTGAGAAAAAGATATATTGATAATAAT
GATCCTATAACTTAAGAAAGCTATAAAGATAGAGGTGTAAGTAATTTAAGTGCTCCTATGTTATCAATGGTGTCGACCTTCTGTTTTATTTTATAACTAG
CATTTTATAAGTATTCCATATCTTTCTAGTACAACTGGTCAGAAAACTACTTCAAAACAATATGTTTAATTTTATTTGATATTAAAAGTTTGGGAGCTAG
AGAACAATAAAATTATTTGCTCATAATGTTTCTTCTTAAATGATGTATACATTTTTTAATTACTTACCTTCTTTTAACTTTTTGAAGTTTCTCAAAATGC
AGATTTCTAGACCTCTCCAAGTATTCTTATTTTAAGAATTTGTTCCTACTTTACTATGCTTTCAGTGAAAAAATAAAAATTAAAAAAATCTCTTTAATGA
TACTTCATATTGCTGAGACAATATAACAGTATGTATATGGTTTTACTACATTAAAACACTTTACTCTTTTAAAATATATTTCTAACTATCATTTACCAGG
GGCACTATGCCACTTTCATTTCCTTTGCTTCATTCTCTTTAATGATTATTACCATGTTCAAGTTCTCTAAAAAGTAATATATCCTGGTGGTGTATTTTTA
ATAATAGTCTGCAGATATTTCCAGTGGTAACTTTTCCAATTTTATATTTTATTATTCTGTAATGGAAGTAAGGCCATTAGTGTTTATTATAATTTTGTAT
AATGCTTTAATGTATCTTAAATAATTTCCCCCAAGTAATTTTAATTATTTGAGTGTATGTGAAATTGGCTGGAATGGGAATTGTATCTAGGCATTCTTAG
AACTCATAACAGTGCTAGAAGTAGACATAATTTATGTTTGCAAAAAAGGAAGCTGAAGCTGAGGAGGATTAAGTTACTTATTAAAGGCCACTCAGATAGC
ATGTGAGGGACTGAGACTTTAATCCAGAGCAGTCGTGGGYCAGAGAGTGCCTTTTCATGTTTATCTTAATATTCAGTTTATTGAGAAAAAAATATGTTTT
TATATTGATATGTTAACAAGATTTCATAGCTGATAGTTCTTCATTATTCRTTAATCTGATAATACAGCCAATATTTAATTGAGTGTATGGTACAATGCTA
GATGCTGGCAAGGGTATCCAAYCTTTTGGCTACCCTAAGCCACATTGGAAAAAGAATAATTGTCCTGGGGCACACATAAAATACACTATCAACAGCTGAT
GAGCTTTAAAGCTCATTCAAAGCTGTCCTGGACCACAGGTGGCCTGTGGGCTGCAGACTGGACAAGCTTGCTGTATAGGCTATACAAAGAAATAAAAGAT
TCAGATTCTACCATCAAGAAGCTTAGAATTTAATAAAGTAGGTAAGAGATGTACACATATAACCAACCACCTTACCAGGCATAAGTCACTATATCTACAC
TCGACTACAAAAGAAAACTTTAAGATATGTAAAGTGTTTGGGATAATAAAAAGACTATCATATTTTAAATATGAGAGCTGACTTTAGGGTGACGATAACA
GGAAAAAGTAAGTCTTGGTGGGAGTTTAACAGTCAGAATCTAGGGAGAGGTTGAGAATTAAAGCAAACTGAATGATGTAAACAGAGGCAGATTTGGGAAG
ATGTACTGTTCTTCTGGGTTAATAGTAGTATGTATTGAGCCCCACTGTTCCAGGACTGCCCTGGGTGCTTTATGTAAGTTATTTAGTTAGGCTTAACACT
ACCCTAAATTTGGTGGTTATGATTCTCATAATATAGATGGAGGGATTTAGGCTCAGAAAAATTACCTGTTTTCCACAAGGACACATGGGTTTTAAATGAC
AGAACCCATATTTTCTGACACTTGAATTCTTTCTCTTTCTATGCCATGCTTCCTTCAAAATAAATAGTTCACTTTGTATAGAATGTGGGAGGTTTGTTCG
AGGGACTGATAAGAAATAATACAATATAGATTAGGCCGAAGTAATCMAAGGCTTCAAATGCTGGACTACAGCATTTACACTTTATTTAGTGAGGAGTTTG
GTACGTTAATAAAAACCAGAGAAATAGAACCAGGCTATATATATATATAATATATATACATATTTATATATATATATGTATTATATATATATWTTTTATT
ATGCTTTAAGTTCTAGGGTACATGTGCACAATGTGCAGGTTTGTTACATATGTACACATGTGCCATGTAGTATAAGAAATTGGCTTATGTGATTGTGGGG
CCTAGTTAGGCAAGTCCTAAATTCACAGGTCAGGCTGTCAGGAAAGGCAGACTGAACTCGCCAGCAGGAGCTGAAGCTGCACTCAACAGGTAGAATTTCT
CCTTTAGGGAACCCTTAGTTTTGCTCTTAAAGGTTTTCAACGGATTGAATGAGGACTACCCAGATTATCTAGGATAATCTCCTGTACTTAAAGTCCCTGA
CCTTTACMCCATGCAGACTATCACTAGTGAATTASATTGATGAATTCTCTGTTTTGGCAGGTGATTGGGAATAGTGCATATGACTGAATGAAGTTTCTAT
TGGGTGGGCAATAGAGAGAGAAGCTTAGATAGCTTGTCACATTGGAGCTTGAATAGATAAGACATTGTTCCAAATGATAATTAAGTCCCATACCTTATTA
TGGATTAAATAGGCTTTTGCGAGTTATCCAGAGAACTCAATCAACATTTATAAAATTATTCCTAAAAGGAAACATGTTCAGAATTCTGAACAAGTTACTT
GCAAACAAACTTTAAGGCCATAGTCACTTTTAAGTTGAGAATTGCTTAATTGCAGCAATTCCAGGTTATCTAGGTTTTTCCTCTCWAATATGCTCCTCAA
ATAATAGATTTTTTTCCTTGTCTTAATGCAGCTCTTTGATTAATCATCTAGTAGTATAACCATTGAAAGAAAGTAATAGGTTTTCTTTACTTTATAAAAT
CTCTTTTAAAACCTATCAATTACCATTGGTTTGGAAGTGTTTCAATGTTTTGTTTGATTTTTCAGAAACCAAGCCATCTCCTGCCTTGTAGTTTTGTAGC
TATTGGCATTTTAGTAGCRTTTTTTCTGCTGATTCAAGCCTGTCCCTGGACATATTATGTATATGGTTTGTTGCCACTGCCAATATGGTATGCGGTTCTA
AGAGAGTAAGTAATGCATCTTGCTGCCTTGTTTTTTCACTTCATTGACAGTTAAATCTGTRTTTAAAATGCAGTAGATTTCTGTACCATAAGTCATCAAA
TATATTTATAATACTGTACTTTCAAACCTCCAGTCCCTCTCACTTCATTTATAACTGCATAAATGTTGAGTAGGATATAAACATTCTTTCTGTYGTACTT
TTCCCTTTTGACTTCATCTTTATTTTTCTGAAGTGGCAGTGTTCACTTCTTTGTGTATCTTTTATAGAAAAAAAATGGAATAAAAGTAACGATTAATATT
GATCATACTATGCCTAGACTAACTTGCATTTTGAACTTGTGTCATCATCTCAGATTCCAATATATCTTCATATTTGACAAAGATATTTGCATGTTTTATT
TCCATACATTTTGACTCCTCCTTTCCTAGCGATTGTRTAGATCTAGATAAATTAAACTTTGTAGTTAAATCTAATACGGTTATATTTACACACAGAGATT
AGTCTRTATTTTTCACATGTGCTGTGGTTCTACCTGTAAGTGCTTCCTCACAGGYTGTACTTAAAATAGAGTGTATTGTTAACATTGTAGAAAACATTAG
AAGTAAGGCTCTTTGGTGAGTTTCAAACACTTTTAATAAAACCACTAGAAGGGAGTACTAGTTCATGCTCACTGGCAGCTGGAGTCATGTTGCAGATCTT
ATTGGTTTCTATTTTTACACCAGTAATCTATAATTTAAACTTAGTCATGGATATCAAAGTATTTTCTGAGCAAACCAGACCCCTAAAGTCAATGAAAGAA
TGAGAGCCTATTATAATAAGGGTATCCCCAAGGTTGGCTTAACATGTGCATCGTGACACTATGCATAATTTTATTCTAATTTTTCTTAACTTTAGCTTTG
ACTGCTTCTTCCTTCTTTTAAAACATGATGTATTAAAAATATTTCRGAGTTGGCTGGGTGCAAGGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCA
AGGCAGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGCAAAATGTTTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTA
TGCACCTGTAATTCCAGCTACTCAGGAGGCTGAGGCATGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATTGCACCACTGCACTCC
AGCCTGAGCGACAGAGTGAGACTCTGTCTCAAAAAAAAAATTAACTTAAAAATATCAAAAATTAATATTAATATTAAAATGCTTAAAATATTAACTATAA
GGCAAAAAGACACTGATCAAATAACATATTGTTACCTCTCCATTTGAAAGGAATAGGGTTGTTGCATACGCATATTTAACTCAGATTTTTAAAAATGTCA
TTTAGTCTGGTTTTTAAACTTTTAGAACAAAAGGTTTTGTCTTTGCAGAAAATTGTATCTAGTACAGAACCCCTCCTGAATTATTAAATGTCCTAATTAT
GAAGAAAACATATATATTTAAATTTTAAGGGAAAACATGATTTTGAAAGTATGTTGTGTCCTATCTTTATCTTTTTGATAGATTGTATAGGAAAAAGACA
TAAAAATTCACAGTCTTCTAAATGATTTTACAAAATCATCTGTTGATCCTCTGTGCTTATTCATTGTTAAGAATAAAAGAAACATTCCCCTTTTGACTGG
TGTTAGCTTTTCTTTCCTACATGGCACCTTCCTCATTTTGATGAAATTCTGCAGCTGTTGCTTTCAGTCAGAGAAAGGTCATAAACCAAATGATACTGAC
CTTCTAAAATTACCTACTTAATAATGCACTACAAATGTTAACTTTTTTTCCTAGTGATGAAATGTAAAAAGTACTCAAGTATGTAATACATTTTTGATGG
TTATGAGTTCACTTGATTACCGTTAGTGTACAATTAGTGACATCTTAAATTGGGTTTGGAAAAGGTTATTTAGCTCAGTTAGAAAATGTAATTAAGATTT
TTCTCTAACTAGATTAGGAAACCCTACCTTTATTTCATTAAGATTTAAATATAGGATTACTTGGGTGAATTTTAAAAAATTTTTCAGTTTATATGCATTT
GGATTCATTGTGTTTTATATTGATGTTGTATCTGTAATTGTATGAATCCGTGTTTAAACTAAGATCAAACAAGATTCATTTATTGTCATTAATGCTTATA
AAAACCAAGCAAACTTTTGTGATCATTTTCTTTTTTTTTTTTTTGAGACAGCGTTTCGCTCTTGTTGTCCGGGCTGGAGTGCAATGGCATGATCTCAGCT
GACTGCAACCTCCACCTCCCAGGTTCAAGCTATTCTCCTGTCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTGCCATCACGCCTGGCTAATTTTGT
ATTTTTAGTGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTTGTGACCTCAGGTGATCCGCCCTCTTCAGCCTCCCAAAGTGCTGGGATTA
CAGGCCTGAGCCACTGCACCTGGCTGATCGTTTTCAAATTAATTCAGAAATTACATTTTCCCTAAAATACTTCTAGATTAAAAAAAAATAGGTAAATAAA
GCCCTTGAAACAAATCCGTTAGAGCTTATTTTAGTTTTTGAATAATCTATAAATGGAAAATTMTSTAGTGTTTTAGCTTTGTGCAAAGTTTGTATTGTTA
TASTATGTATGACCTAACTTTAAAATTCAATCAGTCTTTTTATTTGAAACAGATTTCAAGTTATTCAGGACCTTGTTGTATCAGTGTTGACCTATCCTCT
GAGCCATTTTGTTGGGTACCTGTTAGCCTTTACCCTGGGAATTGAAGTATTAGTAAGTAACTTACCAGATTACAACATTTGCAARTTTCTTTTATATATT
TGTAACTAGTATTAAATGACCTTATTTTTCATTCCTTCTTTGGAATGCATTACTAGGTTCTCAGTTTTTTCTACCGCTATATGCTTACCGCTGGACTTAC
TGCCTTTGCAGCTTGGCCATTTCTCACTCGGCTRTGGACTCGAGCAAAGGTATGAGTACTCATTTTGACATAGGACAGATTAGTAACTACTTTGTTTTGA
CACATGTGTAACTCAAGGAACTGTTTATTTTTAAAGAAAAGGGTAGAATGTGTTCTTACATAAAAGAGCCTAGTCATATTGATAGGAGGACTGACATTAC
CTKTAAGGTTTCAGTAATTCACTTAGACTTTCACATCAAAATGGGCCAGTTATGTGGTAATTGAAATGCTATATAAGTTGTACTGATATGTCCATCTCTG
AAGCATTTCCTGGATTTGTTTAGCTTCAAATATCTTGATAATGGACCAGGCAAGGAGTCGTCCAGAGCAGCACAGCCCAGTGGCTTAGGGGTCTGCACTC
TGTGAGTCACAGGAAACACCTCCCTCGTTACCCTGAGCCACTCAGTTTTTTTTTTTTCTGGATAAGTATGTATTTATTATAGATTATTAAAAATAYAGTC
AGTCTTGATTTTCTTCCTTCAGCTACATAGGGAATTACAATGTGCTTCTACAAAGAATGCWCTTATATTTCCACTTTGATACTTTTTGATAGAAGTAGCA
GGAAGATATCTTCTTTCTACTCTGAGAATTTATTAAAAAATCTTCAATGAATGGGATTATMGATCTTTTAATTTGTGAGGGATCTTAATCTAATTACAAA
AGTAGTTTTACTTATTTTCCTTCTGGGCTCAGTTGTTTGGTGATTATTGTAGGCCACCTTTTTTATAGATGTCTTCATCAATATATGGTCTAACCTAAAT
TGAATGAAGCACTTTATGCAGGTTTAAATACTGGTTATTTTATTTACTTGTCATGGACCTGGTACTACTTATATTTTAACTTCTCTGAGCTCTGTTTCAT
CATCTGATGTATTGGGAATGATAATACCTGCCTCTTGAGGTTATTGTGAGAATTAAATGAGAAAGTGCTCATATTATACCTAATACTATACCTGCTATGC
AACAGGTCCTTCACAAATAGTAACTATTACTTTTTAAAGTAGTTAGCTGTTGATTCTGCTAGAAAGTATTTGAAAAATAAAATAATAAACAGCTGTAAGG
CTTTGCATTTTCCTTTTACCTTCACAGTCATATAGTCTGTGAAACACTAATGATAGTTTTCTATACCATATTTGTCTAAAGATAACTTTTTTCTTGATTT
TAGATGACCTCACTGAGTTGGACTTTCTTCTCTTTGCTCCTGGCAGTGTTCCCACTGATGCCGGTTGTAGGTCGAAAGCCAGACATCTCTCTAGTGTATG
AATAATATTGTATTTTATTCTATTTTCAATACACTTTTTTTTCCTCAATTAACACTGTAAAATTTGAACCTAATCTTGGTCAAGAATATAAAATCATGTG
AACTAACGGGAATTTAAAATACCAATATCAAACCATTAGTCATGATTTTGGCCTAGGTTCTAAGAGTCATTAAACCTCCTAGTAGGTGCTTTCGGGCTTT
CATAATGAAATTGTGCCACTGATAACTTAAAATCCCGCCCATTTTTTTTTGTTTAAGTCTAGAAGGTTTTCTTTCTTTTATGCTTGGAGGAATCAGTAAA
AGTTTTAGTTTCATGTGAAAAAACATTCTGTTGCCAAAACAAAAATGTCTCAAAGCTACTGTGTTAGCCCTCTTTGCTTTAATCATGTCCACACTAAAAT
GTCATGTAAAAATTAAATTTTCTGCTATTCTAAATTGAATGTAAAGATCTCCATGGGAGGAAACTCTATTCACCTTGCCAGCTTTCCCATGTTTAACCAC
TCAAATTGTTTGAAAATTCTTCTGCATATCTTACCTAAATTCCTTACTGTGCTGCTATATTTATTTCTCTTCAATAGACCTAAATAAATTTATAAAATAA
CTGGTTACCTTTGCTTTTAACTGCACTTTATTGTCAAGTAAATTATGGGCTGTTTGAGTGTGCATATGATCATTATTTCATTTAACATTTCCTCTCTTAT
TGTCTAATCATGGGAATTAGAAATTAAATCATCTTTGTTACTTTCTTCAGAATGCTATAAGCATTTTTTAAAACATTCTAACCAAGTCTGTAATGGATAA
TGGTATATATTTTTAAATCAAGGAAGATTAACTAAATACTATTTTGTAAAAATATGTGCTGATTTATGAGATTCTATACATTTTCTCCTATTTGTATGAG
AATACCAATATGCAATAGACCAGGAAATATCCCAGGAAGTCACTTTATTAGCAGAGCTCAAAATAATTGTATTGAATTCTAACACCATACTATCTAAGCC
ATACTTTATTAGAGTGTTACTAGGTAAAAACATTTTGCAACTGTCATAACCTATAAATAGTATATGACAAAATGAATTCCAATATTTTCATTTATTTCTT
GCTTCAGATAGCTCTGTAAGCTCTTGTATTGTTTCTATAAAGCCCCTTTCCTTCCCTTTGTCAGTCTCTGCCTATCAGTCCTGCTCAAGCAGTATTGCCA
TAGTTGAGCAGAATTTATCATATGCTAAAAGGGAAGGAAATTGTATAAATTTGCCACTTGCGTATTCTACTAAAGATGAATGTGGKAAGCAAATAAACTT
GTTAAAATATGAGAAATCTAATTTATATTTTAGAAAATTATATTGTTTCCCTCTAAATTTAAATTGCTCAGTGACTTTAAGTTTATCCTACTAGCTATAT
TTGCAACTTATTTATTTTGATTCCTGGTTCATGGGGAAATTTCTACTCTCCTTTTCATCTGTCACAGCATCTCCCTTCTTCAGAAAATCACAAAGATGTG
ATTTTGTGAAACATTTAAGGATACAATTAAAGGAAAAAGCAAACGTGTACAACATGGTTGTGATGTCTGTTACTCCAGTGTTCTAAAGTAAAAACATATT
TGCCAATAAGTTTAGATACCAAATTATTTTAAAAATTAAGAAAGAGAAAAAAAGCAAAGAATCTTGATCATATGTGACTATTTTTTCCTAAATTTTAATG
ATAATCCATGTTGAATATATGATTACCTTTCTCCTTAGGATTCTCAAAGAGTGTATTTGAAGCATCACAACCAACCATCAAGCATTTTTCTGGGGATTCC
TGCTTTGCATTCTTCTTAGGTGTCCAGCTCTGCTTTTTGCTCTTTCTTTTTTCTCTTCAACCAATTCCTTTTCTCTTAGTTCTATTTGGGTTCTGGATTT
CATCCTCAGCATAATTCTGGCTGTGCTATGTTATTCAGATGTTAAGGAGGTGAGAAAGAGCTCAACAATAGGGCACCATTTCCTTGGTATCAGTCACCTT
TGACTTTAGGAAACATACTATACCTGGTGTGTTTCCTTACTGTTATTTCATTACTGTACAAATGCCTCACCTGCATGCCACCCATGTGACCACTGCCTAC
CCCTTCCCTCAGCCAGGAGCAGCTGAGGAAAATACCAAGGTCTGTCACAGAAGGGAGCTGTTTTTCCTGCTAGAAATAATGTGGGTTATATATGTAGATA
CTTTTTGCATGAGTAAGTTTCATAATCACAAAATACATGTTGTAGATACTGATAATATACTTGTTTAGCTATCTTTTATATTGTAAATTTTTGTAAATTT
GCCCAATTCAGGCTAAATATTATAGTATTTGATATGCCTAAAATTTTTTTAAATTAAATTATAGAAGCAAGGTAGAGATACTTAGAAAATTGTGGGGAGA
GGTTACAAATAACCCCATCCAGCAGTATCTTTATCCTAAGATTAAAAGTTTTCTTAAAATCTTAAAACTTAAAAGTTTTCTTAAAAATCTGAAAATGTAC
CCATTTTGCTACTTCCTCTTGATTAAGCCAAATGACTGAGAGGTTCTGTATTAGAGTAAGATGTCTCATATTTCCATCTGATATGTGTTCGTAAATATCT
GAAGAAAATTTAAAATTAATTGTATTTCAAAACAGGATGGGTGCAGGCTTGCTGGTTCTTCTGTTATCCCTGTGTGTTGTAACATCTCTCATGAAAAGAA
AAGATAGCTTTATAAAGGAAGAGCTATTGGTACATCTRTTACAGGTCAGTTACAGATTTTCAATACTATGTTATACTAATGATATACTGAAATGTGTCTT
ATGGTTATATTTAATTATGTTCATAAAATGCCATTACCTTTATGCTACTTAGTATCTGCCAGCTGAGAAGAAAGCTTTCATTTAAGATGCTACATGGAAA
TGTGTTCTTTAAGAGGTATGAAATAGCAAAAGGTCCATAAGAGGCAGCCCAGTGATGCCTGAAGAGCAGAGGTTATGGAAACTGTATTGACCAAAAAGTT
GAACTGAAAAGGGCTTCATCTGGACTGAGATTCTACATTGTCCTCATTTGGGTCAGGGAAGGTCACTTCCTTGAAGTGAAAGCAGCCTGGGGTATGTTTA
TATTAAGAATAGCCAGTTTAAGACTTCAGTTAATGTCCCAGGTGAAAATAAACTTCAGCATGGTTGGTGGCTTTGGTGTGGTGAAAATAACTTTGAACTT
GATGTTTCAAAATTGAGTCAGTTCCCAGTTACGCTGCATACTAGATGGGTACTTTTTAGTAATTTGATTTCAGTTTGTGTGGTTTTTTTGTTTTTTGTAT
GTGTTTTTTTGAAATGAGGTCTTACTCCTGTCACCCAGGGTGGAGTGCAGTGGCACAATCTCAGCTCAATGCAACCCCTGCCTTCCAGGTTCAAGTGATT
CTCCTGCCTCAGCTTCTTGAGTAGCTGGGATTACAGGCGAGAGCCACTACGCCTGGCTAATGTTGTATATTTAGTAGAGTCAGGGTTTCACCACGTTGGC
CAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCCACCCCGGCCTCCCAAAGTCCTGGGATTACAGGCGTGAGCCACCACACAGCCACTTCAGTTT
GTTTTTAATCTGTAGAGATAATATCTGATAGGGTTGTGACAGAGATCATATCATGTGATAGTCTATAAAATGACAACTTTTTCCATAGATAACGATGGAA
AACATCTGTTTTTCTTTTTAACTGAATAAATAAATAAATAACCACGTCTAGACCACACACAAAAAGCAAAACTCATATGAGTGTTCTCAAAAAATTTCCT
CAAGAATAGAGCTTGGATAGTAGATGGTATTTCCAAGAACACTCTGAAATAAAAATATACAACATTTGAAGGATTACATCACAAGTTAAATTCATTTTTG
GAGAGCAACAGGGAACTTATAAAAAGAGAAGAATTTTTTGTCAAAAATCCTGTCAAGCCATTGGAACATATGTTTCCTTTTAAATGGTACTCTGACTGGC
TTTACACTTAAGCCATAGTAGCTTTGACAGAATGTATCCAGAATAATAAGTACTTTGACAGAAGTGAATGTTTCTGAATCTCTCTCTAGGGTAGCCAAGA
ATATCATGCTAACATTCTTACGTGCTTTGTTAGACATACCCCTGAGTATTAGGTAACTCTGTTACAAAATTCATTTTTGCATTAGGTTTATTAACTTGCA
TCAGTTCCTGTACTGTCCACTGTATTTCATTGATTCCAAGATACACATTTTTTCCACATTTTAATGTCTCAGAAATAAGAATGTCTTACATTCTTGCTAG
TTAGAGTCTTTCACTACCTTCTCTTTTTTTAACCTATTTCATCTTTGTCTTTAGGTGCTGAGCACAGTGCTCTCCATGTATGTTGTGTATAGCACTCAGA
GTAGTYTRCTCAGGAAGCAAGGACTGCCTCTCATGAATCAAATTATTAGCTGGGCAACATTAGGTAAGAGGCCACTCAAACCAGGTGAGGTAATTTGACA
TCAACTTAGTTATTTTAAAATGATCTGTTTATGTCTGTATCATTGTTATTGAAAGAAATAATTTTATTGCAGGAAAATAATAATAACTGGCTATTATTTC
TATCTCTTGCTGGAATTTAACAAAGAGAATTTTTATGTTCATGCATGTGTTAARAAGATAATTTGATAGAATATTTATGAGCTGATAATAAAGCTATGTA
TTTATTAACATCTCATAAGATTTGACTAAGTGATTCCAAAAGAGATAAGGGTGAAGAGGATCTTATGCCTCATTTTCATGCCAATTCATAAATTCTCTGT
TCTTACACAGGGACTGGGAAATGTTTAAATTTTATCTGTTTCCCTTCCTGAAAATAACATCGACTAGTATACCTTACATATTTTTTAAAGCTAGTTAGAC
ATTTGAAAGCATATTTTTCTATGTAGTCCTCTTAATTAGGAATGTTGGAATATATGTGTGAAGCAAACATGTAATTTAAGGACTTAGGTTTTCCCTTCCA
GTTGGAAGACAAGAGCAAGTTTTGAGCTCAAGTTTTTTGTTCAGAAAAGACACTTTGTAATGCCTGTGAATAATTTGACATATGCTTTAACTTTTACATC
TTTTGATGATTTTTGTTGTTTGGGTCATGGGGGCCCACCCCTCATGAATGGCTGTACTAACTTACATTCCCACCAACAATGTACAAAGGTTCCCCCTTCY
CCACATCATTGCCAGCATCTGCTATTTTTTATCTTTTTGATAATAGCAATTCTAACTGGGGTGAGATGATATCTCATTGTGGTTTTGATTTGCATTTCTT
TGAAGATTAGTGATAGTGAATATTTCTTCATATACCTGTTGGCCATTTGAATGTCTTCTTTTGAGAAATGTCTACTCAGATCATTTGCCCATTTTTTAGT
TGGATTAATAGGTTTTTTGCTGTTGAATTGTTTGTACTTTTTATATATTTTGGTTATTAATTCCTTGTCAGATGGGTAGTTTGCAAATATTTTCTCCCAT
TCTGTAGGTTGTCTCTTCACTCCGTTGATGGTTTCCTTTGCTATGCAGAAGCTTTTTAGCTTGATATAATCCMCTTTGTCTACTTTTGCTTTTGTTGCCT
GTGCTTTTGAGGTCTTACCCAAAATGTCTTTGTCAGACTACTGTCCTGAAGTGTTTTCCAAATGTTTTCTTCTAGTACTTTATGGTTTCAGGTCTTACAT
TTAAGCCTTTAATCCATTTTGAGTTGATTTCTTTTTTATGTGGTAAGAGATAAGTGTCTTGTTTTATTGTTTTGAAAATGGATATTCCATTTTCCTAGCA
CYGTTTATTGGAGAGACAGTCCTTTCCTCAATGTATGTTCTTGGTGCCTTTGTCTAAATGAGTTGGCTATAAATATGTGGATTTATTTCTGGGTTCTCTA
TTCTGTTCCATTCATCTATGTGTCTGTTTCTATGCCAGTACCATGCTGTTTGGGTTACTATAGCTTTGTAGTTTACTTTGAAATCATGCCTTCAGCCTGA
CTTCATGATGCCTCCAGCTTTGTTCTTTTTTTAAAAGCTTAAGATTGCTTTGGCTATTCAGAGTCTTTTGTGGGCCCACATGAATTTTAGGATTTTTTCT
ATTTCTGTGAAGGATGTCATAATTTTTGTTTTATATAYGTTGTTTGAAGCAAAATATTCATAACTATTACATTATCATTGTGGAATGTTACTTTTAACAT
CACAAAGTGTTCTTCTTTGCTTTATTGATTGTTTTTGGTCTAAAGTATACTTTGGTATCAGGATTGCAACTCTAGATTTCGTGCTGTTTCCATTTGCCTT
TATTTTTAGCCTTTTTGAATCACTGTGTTTTAAGWTTAGTTCCTGTATTCTGCGTAGAGTTAGGTTTTGCTTTATATGCCAATTCGACAATTTTTTTTCT
TTTAACTAAAAAGGTGAGTTGAGCTCATTCACATTTACTAACATGACTCGTAGGCTTGTTCTCAAGAAGCATATAAAACACTGCATAATGTGTAGGTGTG
CTCTACTACAACAAATTGAAGATTCTGTCAAGAAGATTCTGTCAAATCTTATGTTGTAGCAGAGCACACTTGTACATTATGCAGTGTTTTATATGCTTCT
TTCTCTATTTGGAGTATCCTATATGATTTTATTTATTGTCCTTATTGATTTGATTATTGTTTTGGAATGGTGAGGAGGAGATTCAGAATCAGTTTACTGC
TATTGTTCACCAAACATGAAAGTTTCTCTGGGCATGTATTTTAAACAAGATCTTTCCTCCTTGGGATTGGTAGAGCTAGGTTCTAGAGGATACCTACAAA
ATGATGTAAGACATGAAATTGTTAACTCATAGGTAAGTCATCAGTATCTCCAAAGGTCTCTTTTAGGCACAGATACACCATGGTCTAGCTTTAATGAGCA
TTTTTGCTTAATATGCTATGATCTCCAAATGGATGGTATATTTTGAAATTGGTTCTACTTATGTCATTTAGAATAGAGACTCTTATTTCCCCTTTATTAC
CTTATCAATCATTTAGACAAAAGTAAAACAAGGACAGAAAATGTGTACAGTTTTACAGAAGAGGTCTCATTTGAACTGACTTTTATTATTTGCTTTTTAT
TTTTTTATTTCTTAACAACCACCGTATGTCCAACAGATTAACTGACTTTTAAAATCAGACATATTGAAATGTTATTCCTTCCAGTTAAAATATGTATCAG
TTTATTATGATTGGAGCTACACATCTGGAAAAAAAGTCAGAAGCTACTCATCTAAGGGTATTAAAAAATGTAACTTCATAGTCTTAAATCTTGCAGTGAC
TTGACTTTAGGTGAAATTGACATTACATGTAACTTAATTTAGAAGATGTTGACTAATAATAATAACCACAGTTAACAGTTACTAAGCACTATGTGCTAGG
CACTATGCTCAGGGAACATTGTATAGGTGAAATTGTATTTAATCCTCACAACTTTTTAATGTTATCTCTATTTGACAGGTGGGTAAATTTCTGCTTGGAT
CAGTTAATGAACTTGCCCTATAGTTTAAACAGTTAGTAAGTGATTCAGCCGGGATTTCATCCCAACTTGTCTATCTTCAACCTCTAGAGCACTAGGGGGA
TTAGAAAGTTATGCACATTTCCTTCCCAGAATAGAGATGGAGGAGTTTATGTTTTGCCACCCCACCCACTTCATCTGCCCTTYCTCCACTTGGGTAGTTG
CTTTTATTATCCCGGGGGAGAGTCGATACATCTCTCATGCATGGTGAAGTCATTCCTGTTTCTCTTTTCCAAGGGGCATACTGCAACTGTCAGTGCATAC
TTTACGGTGGGAAAACTTGGAGAAGGAATGGGTTAGGAAAAAATCAGTTTCTGAGGAGTAAGTTGTCTTTGAACTAAGATATAAATGCCTAATTAAGCAA
AGAGTGCTAAATCTTGAGTAATACTTTTATTTCATTARAAAATAATTCATTTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTA
GTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAATRGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCGCATCC
TCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCATTCTAACTGGTGTGAGATGATATCTCATAGTGGTTTTGATTTGCATTTCTCTGATGGCC
AGTGATGATGAGCATTTCTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTYGCCCACTTTTTGATGGGGTTGT
TTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAATTTTCTCCCATGTTGTAGG
TTGCCTGTTCACTCTGATGGTAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGTCTTTTGTTGCCATTGCTTTT
GGTGTTTTGGACATGAACATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGT
CCAACAATGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAATATGATGAGTTCATATCCTTTGTAGGGACAT
GGATGAAATTGGAAACCATCATTCTCAGTAAACTATCGCAAGAACAAAAAACCAAACACCGCATATTCTCACTCATAGGTGGGAATTGAACAATGAGATC
ACATGGACACAGGAAGGGGAATATCACACTCTGGGGACTGTGGTGGGGTCGGGGGAGGGGGAAGGGATAGCATTGGGAGATATACCTAATGCTAGATGAC
ACATTAGTGGGTGCAGCGCACCAGCATGGCACATGTATACATATGTAACTAACCTGCACAATGTGCACATGTACCCTAAAACTTAGAGTATAATAAAAAA
AAAAAAAAAAAAAAAAAAAAAGAAAATAATTCATTTTTGAGTTAATATTATTATAGTTATCTGGGCTGAATATAAATTGAGAAAATATGGGCGTAGTTAA
AAAAATGAAATGTAATGTTAATTAAAAATGTGAGGCTTGACTGTGATTAGGGGAAATGTAGCCTCATGTTCAAGGTCACAAAACAATAAATGCCATAAAT
GATACTAGATTATTCAGAGCTTCTACAGTAACTTTTTTTTTTAAGATGGAGTTTCACTCTTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCA
CTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTACCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCTGCCACCACACCCAGCTAATTTTTGTA
TTTTTAGTAGAGACGGGGTTTTATCATGTTGGCAAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGAGATTA
CAGGTGTGAGCCACCACGCCCGGCCCTACGCTAACATTTTTTTTGTGTCTCTTATACTGACAGATGACCTGTTCTGTTTCATTGCAGCCTCTTCCTTGGT
TGTGCCACTACTGAGTTCTCCAGTTCTCTTTCAGCGATTGTTCAGCATACTTCTTTCATTGATGTCAACCTACCTACTTCTAAGCACAGGGTATAAACTT
TTTAACAATTTAATTTTATAGCAGCAAGTTTTAAATGATATATTGATATTTTCTCTATTAGTATTTAACTTCTGGAAATAAAAAATGTTTTCTAAATCTT
GAGGGATACATTATAAATATTTTCTTCTCTATGAGAACTGTATCTGACTTGATCTGTAATCTTCTGTTTTCTGTTTTTTAAATCCATTTCATGATATTGC
TTGCTGTCTTTGTCTTTCTCTTTTCTGAAGTTGCTAAAATACCATTTAACTATAATGTTAAAAAATTCTGATTGTGGAAGAATTTTGTCTCATTGATTTT
TATTTTTATTGCATTCCTTATATTGATTTTAAATTATGCTTTGATTTGTCCATTCTTCTTTGAATATAGTATTTTTTAATCTTACATATCTCACAGTTCA
GATATTCATTTGATTCAGAGAACCTTCAGAATATTTTCCCAAAACTTTTAAAGATTTTTATTTAAGATTGAAATTTTCTTRCCAAAACAAAACAAAAAAT
CAGCAGCTTGACTTGGGGTAAATCCCAAAGCATTTTCTAGAACTCAGTGAAGACAGGGATATACTCTGTCCATTAACTTTGAAGAATTCTTTTCTTGCTT
TTGAATTTTGTCCTTACTTAAATCTTTATGAGGGTAAGAAATGTGTACATTATAACAAACAATGACTAGAACAAACAGTGAATAAACACCACTCATAAAC
AGTTTGAATTTTGGCCCAAATACAGAATCTTGATTGAAGTTAGACTAAACCTAGGGATTCACCATTATGCTATGAGATTATTCACAGTTCAAATGATTTT
GTAAAGCCATTTGGGGTCTAAGGCTCAGGTTCTCCCTTTTGGAAACTTAGTTGTCATAGTTCAAAATTAGAGAGATGTTCTCAAAGTCTTCCCACAGTAG
ACTCTAACACCCTAAGTGACCTAGACCCCAGGAGTTCTTGTAGTCTCATATAAGAGATGATCCAGTGGGGCCCTAAACCTTTTTTTCACCAAAGCTGTCT
ATCTTCTTTTGTTTCCCTTCCCCCTGCCTAACCAGATGTGGGCCACAGCTCTGAAGATGTGATATGAATGTCATGGAAATTTTTACCAGTTACCTAATAA
GATTATAAGATAGGCTTCCTTTGAGATTTAGACCTTTGAAATATAACTTTAAAATAAAACTGGAAATTTATGAGCATCTGTTATTCAAGAGTGATGAACA
TCATGAAAGCTTAAAATCTTTCACAGTTTTCACCCTTTATTAGTGAAATTTCAGGATAAATAATTTTGTTAAATTAGAATCTATGAGAGTAAAAATGAAT
TCAACTATGCACAAGTTTTTAATCTATATAAGGAAGCAGAAGTTAAAATAATTTCTATTCTAACCTACCATTTCAGGGAGACTTGTGAGTTTTATTAAGA
GATCACACCCAGARGTTGACTTAAGGAAATAAATGTTTGAAAGCGTCCAGAAATATGTACTAAATTCTGTACAGTCTCTTAATAGGCCTTTCTCTTTTTT
GAACTTTCAAATTCTAAAGCAATAAACAGATTTAAAGGGATGTGTAGTTGATTAAAAATGTAAACAAATATAAAAATAGATCTGATTTGCTGGATTAGAA
AAGGAGAGAAAGAAGCAAGGATAATTGAAGTTTAATTTTGAATGAAAAACTATTTCATAATGTAGCATTAGTTAATCATGTAACTTACATAGGGGATAAA
TATTTTAAATCATCAATTTAATAGTCATAGGAGATGCCCAAACAAATTATCATAATAAGCATAATCATAATCATAACTTATTTTAAGAAAATCTAAAAAG
TGAAAATTTATACCTAAAATCAGAATAATAAGGCACTATATAACCTTGTTAATGAATTCATTAAGAGATACATTATTCAACATCAGAAAGTATATCTAGC
TTTGCCAAAAAAAATTAAAAAGAGTATCTTGAAATAGCACAGTTCAGTCATTTCAATCAGTACATCTTCTCAGTGTCAAATCAGTTTTGCAAAACACAGT
CCACCTGTTATGATTCAGCCTCACCATTTTGGATGACCTGGAGGGTTCTCTACGTAAATTAGTGAATATTCAGAATTACAGAGTATTTAAAAGAAATGTA
GTTATATTATAATATAGAAATATAGCAGCAGTAATCCTAAATTCTTACAATGCATCCTTGATTTATTGAATAAAGAAGATTCATTTTTAATCAGCACTTA
ATTATTTTTATGCAAATGGAGCTATTGTAATACTTGAAAATAGTTTGTTCTCTTGGTTAAAGTTGGTTAAACATTTCCCTTTGAAATTTTCTTTGCATTA
TTCCTTTGCTTAGCAAACTGTAATACAAAGCTAAATGCCTTGTCTGCCCTATTCAATTTTCACAGAGACCAAACCAGCAGATCCTAATTTAGTAAGTTTT
CATTATGTTCTCCCTGAGCCGGTGATGACATTTCATTGATATTTCAGTTTATTAATGCAGATATACAGACTTTATATGAACTATTGATTGTTTTAAGAGA
TAAAGTCCCATAGGAAGATTATCTTTATCTGGTTTATTCATCTCCATTTTACAAAAGAAAGTGATCATAATGTATAGTTTTTGAAAGGAAATAAATTCTA
CTATTTGTAGAACTATGACATTTATGTTTTTAAATATTAGGAAACAGTAACTTCATATATAACTTCAAATCTTTAAAAAAATGACGGTTGCCTTTTGTTC
AGAGTATGCACCTTAATTCAATTAATCAACAGTTGTTTTTTCTTTCATATCTCCAGTGTCCAGAGCACTATGCAATCACACAGAGAGAACCATTAGTGTA
CTGCTAGTGTACAATAGAGTTATAAGCTGCTATAAAATAAGAACTATATTTTACAGTGTTAGGCAATTACAAAATCAAACAATTAAGTTACTGTGAGTTA
ATGAAGTTGTGAATTGTATGAAATGAAGACTGACTAGAGAAAGAGCTTGAATAGGAAAGCTGAGTTAGTGCCATCAATGATGTTGAACTGAACTTTAAAG
AAAGGCCAGGGATACAAGCATTGTAAATATTTGTTTTTCAATTTTTAAAAAATCATTGGAAAAATAGTGTCATCACATTATCGAAAGTAGGAATAAGGGA
TAAAATCATGTATTAACTCTACTCTTGTTAATGTTCTGGTATATTTCTTTCTGGTGTTACCCCCGTATTTGTCTTTTTAACATAGAATTAATCACAGTAC
ATGTTCTATTTTGGATCTTTTTTTCTAATTAACATTATTTCAGAAGCATTTTCTAGGTGGCTCTTAGGCTTTCTAGCCACCATTTTAATAGATATTTAAT
ATTTCATGATATGGATTTTGTTTCAACTTTTTATTATCACAGATAATATTTTGAGTTATGTTTTTATGCATAAGCTTTTTCATAGTCTAGATTATTTCCT
TTGTTCACTTCTCATATAGTGTATTTGGGCCATTGGGTGTGAACTTTCTTTTTTTAACTTGTAATTGTCTTAAGAACAGTGCCAATGTATAATATCTACA
ACAAACTATATATGAGGGGTACTATTTCATCATATCTGTAACAAATATGTAACAGTATTTGGTATTTCCATTTTTAAATAAGAATATCAAATGTTATATT
AATAGGTCAAAAGTGGCACTGCTTTGTACAGTTTTCTGTACTTGTTTTACTCATGATATTTTCTCATGTGTGTAGGTATCTGTTCATATCCCTGGGCCTT
CTAAGTCTTATATATCAAGTGATTTGTGTATGCTTYCTGAAACCTGAATCTTTCCTTCTGCCCAGTCTTCAGTGTTATAATTTTATAATTTGTAATAGCG
TTTAAAGTGTTTGGTTTTTTTTGCTTTCTTATCTTTAGGAAATAGTRGCGTATGCTGTAGAGTTCAGTAGTTGAAAGACTCAAAAAGGAAATAAGGCTTT
GTTTTGTTTTGTAACTTCTGATTAGATAAATAACTCACTCAGCAAATATTTGTGAGCTGGGCCAGCAGTGGTAATGAGACAGACAGACTTGGTTTTCAAA
GATTTTATAAAGTAATAATAGACGCTTACAGGTAGACATGTGATTAAGATGGTGTAAGTACTATAATAGAGCATTTAGGGATTATGAAGGTGGAACATTT
ACCCCAGACAAAGCGGAAACTGTTTAGAAAAGGCTTCTATCACTGTGTTGTCTCATGAGCATTTCTTCTTTGTTTTTGTGTCCATTTTACACTCCAGCCT
GTAGGTGTACCACACATTTAATCATTCCCCGGTGGACATGTAGGTTGTTTTCTGTTTCCYGCTTCTGTAAACAATATTACAACAGATATCTTTATAATGG
AAATTGTAGCACATGTCTGCTTATTTTCTCAGGGTAAATTTTTAGAAATGGCCTTATTGCATTATAGTATATGAATATTTTTGAGATTCTTAATACATAG
TATCAGATGGTCTTCCAGAAAGTGTATATTCCTATAGAGAGCATATGAGAGTTCCTTTTTCATCACATTCTTGTCAACACTGTTTTGTTTTTGAGACAGA
ATCTCACACTGTAACCTGGGTGGGAGTGCAGTGGCGTGATCTCAGCTTACTGCAACCTCTGCCTCCCGGGTTCACGTGATTCTCCTGCCTCAGCCTCCCG
AGTTAGCTGGGCAGGCGCACACCACCACACCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACTATGCTGGCCAGACTGGTCTCGACTCCTG
ACCTCGGGATCTGCCTGCTCCGGCCTGCCAAAGTGCTGGGATTACAGGCATGAACCACCACGCCTGGCCAACACTGTTGTTTTAATATTGGCAAATATGA
TATATCACCATTGTTTTCATTTCCATATGTTATCARTAAGGTCAAACATAATTTTCGTGTTTGTGTTCTTGTTGCGCCCATTTTTTTGAAAATTTAGAGT
GTTCCTTTTCCTCTTCTATGTATGTTAATAATTTTACCTCAAGAATTATCTTTTTACCTTTGTCTTCATGCCTTCTTTCTCTTTTATGTATATCTGTCAT
TTGCTTTATGAATGGCTTTTATATATTTCTATTATTTTAAACACATAATTATCTCAAGATTTCACATCACTCAAAAAAGATGATGTTGGAGTTAAAATTT
AAATATTACTTTCCTACTTTCTTCTTAAGTTTTGTAATATTGTGACTTAGAAGTATTATCAAATTGTTTTAATTTTGAGAAAGACCTCAGTGTAAATTTG
CATTTTTACTTATTTTACTGTTTTTTTCTTTTCATTTCTACCTTTCCCCACCTGTTAGGTATGAAGCTCTCTTTCCACTAGTGTTGTCTTGTTTGATGTT
TGTCTGGATAAACATAGAACAAGAAACTCTACAACAATCTGGTGTTTGCTGTAAACAAAAGGTAGCTGGTCAAAGTCATTTTTGTTTTTATTTGAGACTA
TTAGTCTCTATCCTATAAGGAAGTTGCAATATTATTTCAAAAATTCTTTCTACTTAAAATTTTAGTGTTAAAAGTTTTAGTTGTTTGGCATTAATAATTA
AGTTAAACTTAATAATAGATAAGGAAGATTTTTTACTTATCACAGAAAAGCACAATTTTGTTGTTGTATAGGTTGGGCTTTTCTTAGTGATTACTTGAGG
ATCATTGATTTAAAAAASTCAATATAAGTGAAGGAATACAGAAAAGAATGCTTTTTATCTTATTTTCTTCATATTTCACATCCAATTTTTCCTTCCGTCA
ATTTATCTTGGAAGAATTTTAATGTTGTCACAAGTCAATTTATGAATTTTATTATAAGGTGACATTTACGTTTCTATTGTTGTTTTTCACTTTCTGGTCA
TCCTAATCCAAATTGCTTATTCTGCTGCCTTAATGATTGTGGCCTCAGTCCAAATCTTAGATTGTGTATGCAACACATAATACTTTGAGTTGGCTAAAAT
CCAACCAATTTTTAAGGATACCTTTATCATGGTGGGCTACAGAGTTAAATTGATGTTTCTTGTCTATATTTAGAGCTGATGGTAATTCTGAGAAATTGGT
GATAGAATATTTGCAGTTTTACTAAGGTCGGATAAAATGAATATTACAGAAAATACTTTCATAGTTGATCCATCGTTATATGGCTCCAGTTGAGTTTGTA
GATTGTTATTGATAATTCAGAATGATTAATTTCAATAAAGAAGAAACTTTATTGAGGCATATTTAATAATTACTGGTTTTAAACTTTTAGTCCTTGAATA
TTAAAATAATACATGAAAAGCAGTTTTGAGCAGATTCATGTAAATACTCAGAGATTAGCCTTAATGTTAAATATTTTGTCAGGCTGAGGATTATTGTGTT
ACTTTTTAAATTCTATGTTTTTAACTAAAAGCAAATGTATTTCATTCTAGAAAAGAGTATTAAAACATCCCAAGAACTTACTAGAAAATTACATGGGAAG
TAGGAGTGGGGAAAGTCTACCTTTAAATTCACCCATTAGTGTTCTATTTGTGGAGGGTGATTAAGCAAGAGTGCACTCACCTTGTTGGATTGAGTGGCTT
TCTGTTCTACCAAAGACAGGACTATGTTGCTTTTTTATAGAAAGAAAATTTCTCTGCAAATAGAATTAATAGAGGGACAAATAAACAAACATTTAATTTT
ACCATGTCTTTTAATATGATACCATATCTAGGTTTAAGATGATCAGGACACTCTGAGAAATTAGTCTTTGAAGAGGGAAGAATTATATAGGGATTTTAAA
ATGAAGCATTTATATAAGATAAGAAAAAACTCAATTCTCACTTTTATTACACATATAGCAACASTACAACTGTGTTCTATATATTATTAGCAACATATTT
TACCTTTTGGCACATTTTATTAAGGTGTAATTAAACCCTAGGGAAAGATTTATTGTTTATTGTTTATTGTTTATTTTTTTGTCAGCACAGGGCATGTTTC
TAGCCATTGTAACTTAGCCATTGTAAGTTTGCCTTCAAATATAGAAATAAGCCAACTGTTATTGTGCATTAATATTTTTCTTATTATCTCACAGCTCACC
AGTATCCAGTTCTCTTATAATACTGATATAACTCAGTTTCGACAGCTATATCTGGATGACATCCGTAGGGCCTTTTTCCTTGTATCCTTTGTGGAGACTT
TGGTTTAAAGAGCTGCAACTCCCACTTAATGGAGTAAGAAGACATGGAAGGTGTTTCTGCCCATCACTTAATAGTGGTGTTAAGTACTTTAACCTCCCTG
AACTATAGTTTTCTCATGTAATTCACATTAAAAATTTTTTTGAACTATAGAAAAGTATAAATAATTWTATGTATGTATATATATATATTCCTGCTATTCA
GATATTAGCCATTAGTACTTTGTCACATATGTTTTTTAAAAATGTGTTTTTAAGAAGTTAAAACATTAGAGCTAAAGCCAAAGTCTTTCAACTCCCGACT
TCAATCGAATTTCTCACATCCTGGAAGAAACCACAATTATGAGTTCATATCTTTTTATGTGCATTTTATTCTGAACTCACATTACATAACATCTGTCTCA
CAGAGGTTTTTGGATCACATCAGAGGCAATGTTGTGAAAGTTGTTAGTAGTAGAAGTTTGAAAGACAGTATGGCAGAGGAAAGTCTTAGTTTGGAAAGGC
TGACTGACTAGCTGCAAGAAATCATAGGGATGTATTTCCTTTATTTTATTTTATTCAGCTTTATTGAAGTATAATTGACAAAAATTGTATATATTTAAGG
TGTATATTTTGATGTTTTGATATATGTATACATTGTAAAATGATCACCACAATCAAGCTAATTATCATATCGATTGCCTCACGTACTTACTGCTTTTTCT
TTCTTTCTGTTTTTGCAGTGAGAACACTTAAGATCAGCTCTCTTAGCGCATTTCAAGTATACAATACAATATTACTGACTATAGTCACCATGCTGTACAT
TTAATCTCCAGACCTTATTCATCTTGCACAACTGAAACTTCATACACTTTCACCAACATTTCCCCTTTCCCCACTCCTCTCAGCCCTCAGCAACCATCAT
TCTACTCTCTTTTTTAAGTGTGACTATTTTACTTTTGCTAGCTGTAGGAGTTCCTCGTATGTTTTGGATATTAACCCTTATCAGATACATGGCTTGTAAG
TATTGGAGGCATTTTCTTTGAGCTGACCATGGTGCAGAGTCTAGACCTCAGGTACAGGAAATAAATATTCCATCCTCTCTGTCTCTTGCTTTTACTCTGT
TTTGCTTTCTTTCTCTCTTTACAGGTTCCTTCCAATCAGCTAATACTATTAAAGCACTTTACCCACTGAACCTTGCATTTCCCTAAATTATAATTTCATC
TTGTCCTTTCTGTTTAATTTTTTGAAAGAAAWATTTATAGTTGCTGCCATTATTTTCTCTCCATGTATATGCCATATCCGCAAACCTCTAACAATGCCTG
GCACGTAGCAGTGCTCTATCAGTATTTGTCAGATGTCTCTGCCGAAGTTGTACTGTCAGTGGTCTGCAGGGGCTTCCTGATCACTCAAATCTATTCAGTT
TACCTGACCACACTTTAACATTCAAGTCTATGTTTTCTCTTTCTTTTCCCTTCACATCCAGTACACAGTACAAGTTTTCTTCTAAGATTTTTATATCACT
TCTATTCTTCTTCTCTATAATTACTTCCTTTGCCTGATCTTCAGCCATACTTTTTTCTCCATGCTCCACCATTAACCTTCTTTTATTGTGCCTGGTTTAT
GCCATATTTTCCTGTAACTTTGGTAGACACTTCTATGCAAACAACTCTAAGATGTGTTTTTCCAAACTTGACCCCTTTCRTGACCTCGAGGACCACATGT
CTAACATTCTGCTGGGCATCACCAAATATGTGTCCCAAACTGACTAACAACTGCCACTCCTCTTCAAAGTCACTCTCTCTGGCAGGCCTTATCTCATTTA
ATGGCATCACCATACTCCCAGTCCCCAAGACATCCAACTTGTTGTCATATTTAACTGCTCCTTGTCCACTTCTAAAGTCCCTGTGGCTCCCTTCACTCTA
GATCTTCATTCCCACTGCATCAGTTCACATTTCCTTATCTCTGACATGGACTACTGAAATGGCTCCCAACTTAAATTTTCTGCCTCCAATTATTTGTCTC
CCTTATCTGAATATCACACAGTCACTGATGTTTCTTGATTATAACACTAGCCTAAAAGATTTGCTACTCTTCACTGTATCCACAATAAAGTTCAGGCTTT
TTAAAAAAAAAAAAAAAMAAAAAACGGAGTCTTACTCTGTCACTAGGCTGGAGTGCAATGGCACAATCTTGGCTCACTGCAACCTCCACTTGCCGGGTTC
AAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTATAGGCGTGCACCACCAGGACCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCAC
CATGTTGGCCAGGATGGTCTTGATCTCTTGACCCCGTGGTCTGCCCGCCTCAGCCTCCCTAAGTGCTGGGATTACAGGCATGAGCCACTACACCCGGCCC
AGTTCAGGCTTTTTATTAATATGCCACCAGTCTATATTTCTTGCTTCATCTTTCACCATATCCTTCGATAAAGTCTAAGTTCCTATCTGTCAAGCCTTTT
TACTCTTTCTTGGCGTTGTCATTTTTTTCTCACTGTTCTTTACCTTAAAATGTCTCTCCTCTATTTCTGTCATCATATCTTAGTCACCATTTGAGTATTT
TGAGACTATTTTATTTATGTTTATATTCTTAGTGCCTATCTCTGTCTCTGACATCTACTAGACAATAAACGGTTGCTTAGATGATTCGTTGAATCACTGA
ATGCATGAATACATTAAAGGCTCAGCTCACCAACTCAAATGCCTCTTTTTCACTGAAAATTGTCATGATTCGTACTTCCTCTTCGGCGTTGCCTCACCAT
TTCTGTGGGTGTCTATGGTAATGAAAGAGCTAAYGCTTATCAAGCCCTTTCAGTGGGCTRGGCACCATTTTAAGTGCTTTGCTAGCAGTAAGTTCTTGGA
CACTAAGATTAATATCAATGTTTTATTGCTTTACTAATACAAATGTAAGTTTCAGAAATGTCAAAAAGATGTTCAGCATTTTCTCATGTGTCATTCTCTA
TTGAATTATTTTAAAACATGGTATCTTGTTTCTTCCTGAGCCTTTCAAGTGGTCTAGCATGTGCTTAGCAGGTGGTGGGTTTACGGCAAGCATATATAGA
CTATAACTGTGTCTCTCAGCTGAAAATATCTATGATACACACTAGATCCATGTTTTTCTTTTGAAAAAATCACTAGCAGCCCACTACAGATATGGTCCAC
CTTGCTCATATTAGGGAAGAGGAAAAYAACTTACTAGGAACTGAGTGAGGATGACCTCTCAGGCCTCATTATTCTCRGTACACAGCCTCTTCAATCTGGC
TGTTTTAAAATGCATTCACAAKGAGTTATAATGGAATGTTCATTGAAAACAATTCATGGTACAAGTAAAAGAGCAAATTACTCTCAAGGTAAAATTAGCA
TATCTTTTCTAAATGAAAAGGAAATTTGTATGAAATCTGAGTTGTTTTGCCATTTCCTTGACTCCCTTTAGGTTTTCTTCTTAGTGACAGCATTTTTTGG
AACTGGAAATATAGCTTCTATTAACAGGTAATTTTAAATGAAAGTGGCATATATATATAACTAAAAAATAATGCAACCTGGGACTTCTATACCTTTTGTT
CTGTACCTTATTAWTTTTTTTTCTTTTTGAGACCAAGTCTCACTCTGTTGCCTAGACTGGAGGGCAGTGGTGTGATCTCGGCTCATTGCAACCTCTGCCT
CCCAGGTTCAAGCGATTCTCATGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCCGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGAYG
GGGTTTCACTATGTTGGTCAGGCTGGTCTCAAACTGCTGACCGCAGGTGATCCACCCGCCTCAGCCTGCCAAAGTGCTGGGATTACAGGCGTGAGCCACG
GCACCCAGCCTGCACCTTGCTTTTTATACTGAATGATATATTTTGGAGATTGGTATGTATTGGCACATTCGGATCTACTGCGTTCATTTTAGTGGCTTCA
TAATATGATGTTTGCTTGTGTTTTAGTAAGTAGATTTCAGAGAATTAGTTTAAACATCTTTTTAGAAGAATATTCTTTTAAAGTTACAGAGTGAATTCTA
AATTCTTTTTCCTTGTTATAATTCCCTAGCTTTGATCTTGCCTCTGTCTATTGCTTTCTGACTGTGTTCAGTCCTTTTATGATGGGAGCCCTGATGATGT
GGAAGGTTAGTTTTCTTATTTTGTTATTTGTCTTAAGCTATTGATTGATTAAGRTTATAAAGTCATTTAGACAGAGTTAAGTAGCAATGGAAAGAAGATA
TCCTTTCAGAGTTGGCACTGCTAAACTGGAGGTGAGACCCTCTATCCCTTACTCCAAACCACAGTTAATCTTTTTGCTTTACTCWTAAGTGCATTTGACT
TCAAAAGAGTAGGGATTCAACTGTTAATCTGAGAGGATCTTATCAGATGTGATTAAAGCCTGTGGGAAGCTATGGATCAAACTGCAGTGCTGCTAAAGAG
TATAAGGTTCCCTGAACCCATGTTCTCTACCCATGAGATTGCCAACATAATCTTTTCTCATAAGCCATGTACCTGGAATTGATCAATTCATTCAACAAAT
GTGTCATTTTCTGCTATATTTAGTAATGTGCCAGATAYTAGCTGGGTGCTGACAGTACAAAGATAATGACCATTTTCAGCTTTCCAGGGGTTCAGATTCT
TCATTAGAATGTAATTCATGTTCTTCTTCTCTAAGGTCATTATGCTTGTTTTATTCCCTTTACCATAATGCCTGACACRTTTTACTTAGTATATATTTGT
TTAAATAAAGTAAACTGATTCTTGCCTAAAATCCGATTACCTAATGTTCAGATTTATGAATAAAAATGGTTAAAGGTGTCATCTTAATAGGATTAATGTC
TACTTTTTGTTATTACACTAATACAAATGGAAGTTTAAGAAGTGTTAAAAAGATGTTCAGTTTCTCACATCCTGTTCCCTACTGAGTTATTTTAAAACAT
GTTGCTATTTCCTTAATTTTCAYTCACATTTTTTAAATGGTTTTTTTTCCCAGTTTATTAAAGACCATTGGCCTTTAATTAAAAACAAGCAAGCAAGCAA
GCAAGCAAGCAAGAAAGAAAGACAAAGCTCAAATTAGAATGCTAGGTTCTTAATCTCCAGCACAATGCAGTAAGCTTTAATGACATAATACACTTGATGA
CTTTTGTTGACTGATGTGTCTAGAAGTGAGGGCCCTGCTGAATTCTATTTTATTCATATGTCCTTCACTTGAAAAAGAACTGTATGCTGCCTTGAACATC
ATTTATTTTCCATATCTCCCCCTGTTTTGAAACATCAAGTTATATATATTTTTCAAAATTGATAATTGGAAAGCAATACCTCAAGATATTAACAGTATTA
GCTCTGGATTATGGATTTTCAACCAGCATAAATTTTACTATAGCTTTATTTCAAATGTTTTATAAATTTTTTCATATTTGTTATAATGAGTGTGAATTTT
ATAATCATAAATAAATGTATTTTTTTAAAAAAGGCAAAGATTAAGAAGCTGAATCATGTTTATAATGTTATAGTTTTAAATAACCAGATGGGTTTAAGGA
TCTGTGAATCAAATTATCAGGTTATATAATTTATTTGATTTGGGCATTCTGTGCTTTTCACACCCTCTTGGAATCTTTTGAACATTGTGGTTAATTATTA
GAATACATTAAATGGAACAAAATTTGTAATAGGCTTTTATTTGGAATATGTATTGATGTTTGCTGTCTTTTACATCGTATAGCTTATTAATGTAGGTTTT
TAAGTCAGTTTCATCACCGTTCTATGTGCCATTGKTATCATGCTTTTATTTCAGTGTTTGCTCTTCACTAGTATATATAAAAGTTACTTGAGAAATTGAA
AATATTTCTGTAAGCAGAAATAGTATTTTTTTCAAAAAGTGTTTCAGATGCTTCAGTTATTCCTTGCATCATTTATTGTTCTTTTACAGATTTTAATCCC
CTTTGTTCTTGTTATGTGTGCTTTTGAAGCAGTTCAGTTGACTACTCAGTTATCGTCAAAAAGGTAAGATGAATTAGTTTAAGAAACATTTGATTTGCCT
ATTTTTAGGAGATGAGAGTAAACTTTCGAAGACATTTCATATGATTGCTATTAAGACACTGTAACATAGATTGTTTATTACAAAAATGAGAAAATTYTCA
CCCGTTTAGTCAGTGTTGCTTGTCATTAGAGGAAATTAGTTGATTAGGGCCTCTAGCAGACAAACTTGCTTTCTCAGCAATAAAATGTTATTAGAGTATT
ATTCAAGCTAGTGAAGAACCTCCCTAGAAAACAGTAAAACATAAATGTTAAATTATTGTAGTTAATTACTTGTTATAACTGTGCCTACAAAAAGCAAAAG
ATACTCTAACTTTTATTTTGGTTTATTTCTTAAATATGTTATATAAATATGTTAACATTATTTCATTTTCCATGACTTAAAATTAACTTTTCTACATGTC
AAAAATATACTCAGTTTCTCTGTCATGATTTCTGTACATTTGACAAATGGAGTAGGAAGTATTCTTTCTGAGTTTTGAGGAATTTCTGGAGCAGTCCGTC
TTAAGCAATCAAGACTGTGGAAGAAAAGCTGTCAACTCAACTATTTGCTTTTTTTAACCAATAAAATTGCCTCATCAGCACAGGGACTCTGTAAAATACT
TGATATAAATATGAAGCTTAGCAGTTTTGTTATTCTTGAATCAAGCTAGCATATTCAATGCTGAAAGAAATAACTAATATTAGCATAAATTTGCATGTTG
TTCTTGATGAGTATAAGCTAGAACTGGGTTTAGCATAGTATTATGGATATGCCATAATGAAAAAAGTTTTTCTTCCACTGCTTAAGAATACTAGAAATCT
CATTTCTAGTTTTAGTATATTTTTGCAGGATATTTACATGAATTTAATATTGAAAGTATTTATGCCTTGTCAATATCACATAAGAGATATTTACTTAGAT
GCAATAAAAACTGGTGAATGACATGTACTTTCCTGCATCTTTGTTGGTGGATAAGATTTTTAGAAGGGATTTTAATTAAGGTTTAAATAAGAAGAGCTGG
GGACATGTGGAATGAGAAATAGAAGGCTCATCAAAATGTATGTGTGTATGTATTCTTATATTTGTGCGTGTCTATAGTAATGCTATCTGGAAACTAGTGC
AATGAAAAACAAAACACAACAGGAGAGAACTGAGGCAAAGGTGGCTCAGAAAGGTCTCTTTTGACCTTTAAACTCAGAAGTCACTGACATTTCTTCCTGG
ATATCACACTGACTCATCAAATTTAATGTCACACATTGAAGCCAGTGATGCCTTTTCTTCCTATTGCAAACTAGCTTCTCATCCTGTTTTCTTTATTTAA
TACATCACACAAGCTGAAGTCCAGCCACCCTTACTGCCATACTGCTTACCAAATAATCACTGATATCATCTCTCCTTTCTGTTCACCTTTTAACAGTCTT
ATTATTTATATTGCTAATCATTTTCTTACAACTGTTGGAAGCCTACAGTTAAGATGGGGGTGGATATATATACTAATGACTTATTTGTTTATTAGGTCTA
TAATGCCAAGGACGAGTTCAGTATAACAAACCAGTGAAATGATTCTGCTTCTCTTCCGACTCACTCCTTAAAATGTGTATTGAACAAAAGTGAAGTAGAA
AAGTTGTATTAACATTGTTTTTTTTCATAACTTAAAATTTACTTTTCTAATTATTAATAATTTATCTAGTGTCTCAGTGTTAATAATTGGGTTCATCAGC
AAAACCTTGTAAATTTTGGGTAGAGACCACAAAAAGGTAGTAGCTGTGCATGAAGATTACCTGATAGTTTATCTGTTAAGAATGCTTATGGATGTAAGCA
ATGAAAATCTAACTAACAGTAGCTCAGAGAAATAGAGATTTATGTCCTCACGTCACATGGAGTCTGGAGGTTGGCAGCCCATAACTCTGTGATGCCATCA
GCAACCCTGCTTTTCTGCATTCCTAAGAATGGTAGATTCTTAGATTGTTGCTTTTACCCTCGTGTTTTTCTCATCATGCCTCCATCTGCCATCGTATCTC
ATCTGCCATCCAGACAGGAACAAGGGAAAAGGACTAATGAGGAAAAAGGCAAGGAGATATGTCAGCCGATTCTCCTTTTCTGTCAGGGTAGCAGTGTCTT
TCCCAAAGGCCCCATGTAGCAGATTTCTGACTATGTCTCTATGGCCAGAACTCTGTCTGGCACACATTCATTTTAAACTGGAAGGTTGTTAGGGAAAAGG
AAGGTGTGGGGGTGTGAAACAACCTGCCAAAAGTGTCACAATTGTGGCCAGTTCATTTCACAGTTTGAGATGACATGGACCATGAAGACCTTTGTCACCT
TCAGAATGCAGCAAAGCATGAGAGAAGATTAGAAGGCCGCTGAGAAAGAGAAACAAGTTTTAGTATTACAGAAGTATTCAACAACCAACCATATAAGATC
TGAAAGGGATGATTTTTCAGTTCTGTGTTTGATTAAATACTCAACTGTACAAGAGCCATGGCTACACGGCAGGGATTGGGGRAAAAAAAACACAAAAACT
TGGAAATAGCAGTTGTCAACAATGTGATCTAGCAGCCAAAAAGCTAGTTTTCTCATGCCCTCTATTAATTGAAGTGAAAATATTTTGACTCTAATTTTGA
ATATACCATTTTGTTCTGATGGATATTTTTATCTCCAGAATGTTTTGCTCACATATTTAGGAATCCAAATTTGAATCAGAATTATTATAATATTGAATAA
CTTTTATTGGGAAAGTGTTTTTATGTGGGTACTCTATTAAATCAGCTTAATTTTTAAATTAATTTTATATGAAGTAGAAGTAAATTACTTCTAAGTATTT
CTATTTTGATTTTTAATTTATTAAAATTATTTTTATTAATTTTCAGAAACTTTTTGTGTTATTTGTTTTTATCTTAAAGTCTATGGATTTCAGCTCCTGC
CAGAGTTTTTTTTTTTTTCTTCTACAGTTATCATATCTACCAGGTCTCATTCACCTAGATCAGATATTACAGATCTGGTTATTGTCAAGATTTGCTTCTT
CCATCATTATTTTGTTAGTTACAGATTTTATTCTGTGGTTTTAGCCTTCTACAATGTTATTTGGTGTTGTTTCTACCAGGTCTAATTTTTCCTGGGTCAG
ATTTTTTGTATTCTATGAAATCAAAAGGAAAAGGCTCTTAAGTCAGTCTTAAATCTAAAGCATATTTCACAATGTGTGGCATTAGCCATTTTCAGTTTTA
TTTTATGCTAATTTCTCCTACTATTCATTCAGTACATAGGGTTTGAGTTTGTATCATATACCGGGCACTGTACTAGCCACTGGTGATACATTTTGTGATC
AGAGCTTACTGTCTACCTGGGGAGACAAAGAAAATAAAATGCTTGTAATAACAAAATTTCAAGTAGTGTTAAATGTCAGGGGAAAAAATGAAGTGATTCA
GGGAGACTTCTCTAAGGAGAAGCAATTTATGCAAAAACCTTAATATGGTCTTTACTCACATAGTTTTATGGTTCACTCAGGTGGAGGGAGTGAAACATAC
AAAGGGCATGAGTTGAAAACATGCTTGGTGTATTTGGAGAACAGCAAGAAAGGTAGCCTTAAGCAGAGTGTGCTAGCAGAAGAATTGTAGGAAATAAAGT
TGAACAGGTTGGCAGGGGCAGAAAAGAAGGGGCCACAGATAGGACTTCACCATTATTCAGTTGTGGCAAGAAGCCTTTGGTAGGTTTTGAAGGCTGTTCT
GTCTGTTGCATGGATAATAACTTTAGGAAGACAAGAATAAGAGCAGGGAGATCAATTAAGGGTCTTGCAAGTGAACAATCACAGTGGCTCAGTGGGGATG
ATAAGTAATATTTATTATCAATTGGATAAAAGCTCAATAGCAGGTATTTATCTCTTGAATAAAAAGGTATTTACGAGGAAACTCATAGGATCTAGGTACA
CAGTAGCTTCAAAACATCTTGGAGATCAAATAATACCATATAACTAACCTGACTTCAATAAAATTATTGTATTTAGAGCAAGGGAATGATAACCCTATCS
TTCTTAAAATTAGATCACCATGAATATTGAATAGTGTATTACATTTATGCCTTCGCATTTGAGCAACATATGAATAAACGAGGGAACCAGGGACACATTC
AAAGGAACGTGGTGAAGATGCTGAAGGCCTCTGAGAGTCAGTAGAGCCATAGGGAGGCAGTGTGCGTAATGGTTAGGAGCACAGGCTGTGGGGCCAGACT
TGCTGTTAGAAGTCTATGACTTACTGTTACTAGCTGTGTGACCTTGAGCAGGCTTACTTCTGGGTTCTTCAGTTTCCACAGAATGGTTCAAGAATATGAA
GATTTGCTCTGGAAAATCATTTTCCTTCCTTTTAATTAAGACTTAGTTCAGGSATCGTATTCTCTGTTAAACCTTTTTTACCCAACTGCTCCACTCTCCA
GAATCCTTCCACCCTCAAATTTCTGGCTAAGTTAGGTAACTCAGACTGTGGCTGATAAAATTGTTTCTTACTTTTCTGTTTCACACCCAGTTAGGGGCTG
ATTTGTGTCCCCTAAAATTCTTATGTTGAAGTCCTGACCCCCAAGTACCTCAGAATATGACTAAATTTGGAGACAGGGCCTTTCAATAGGTAACTAAAAT
GAGGTGATATGGGTGGGCCCTAGTCCAATATGACTGATGTCCTTATAAGAGGAAAAGATTAAGACACAGTCAAACACAGAAGAGATAACATGTGAACCTA
AGGGAGAATATGGCCATTTACAAGCTAAGGAAAGAGACCTCAAATAAGACCGATGCTGCTCACMCACGATCTTGGACTTCCAGCCTCCAGAACTATGAGG
AAATTTATATTGTTTAAGCCACTCAATCTGTGGGACTTTGTTATGGCAACCCTAGCTAATACACACCTTGTGAACTCCATAAGGGGAGAGATTATATCTT
TAATTTCATTTAAAGCTTTTGTTTAAGGAGTGAGAATGAAACCGATATTTACTAGGCAGATACCATATGTCAGGCACTGTATTAGGTACTTTCCACATAT
TACCTGACTTAATTTTTCCAATGATACTAGGAAATATAGATATTATTACAACCATTTTATAGATAAGGAAACTGAGGCTAAGACAATAAATAACTTAATC
AGATGTGTCTTAACTTCAGAAGGATCCCAGAATATCATCTGTGTCACACAGTAATATAATTATCTTTAGAAAAATAAAAATATTTCTAAAAAATCAAAAC
TTTTTAAAAAAGGTATGTAAAGGTTTTTTAAAGGTTTTGTTTGTTTGTTTGTTTGTTTGTTTTGAGGCAGAGTCTCACTCTGTCACCCAGGCTGGAGTGC
AGTGGTGTGATCTCATTGCAACCTCCACCTCCCACATTCAATCGATTCTCGTGCCTCAGCCTCCCGAGTAGCTGGGCTTACAGGCATGTGCCACCACACC
TGCCTAATTTTTCTATTTTTAGTAGAGCCGGGTTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGGCCTCAAGCAATTCACCCACCTCGGCCTCCT
AAAGTGCTGGGATTACAGGTGTGAGCCACCGCACTCATTCTAAAGCTCTTTTGAATTGTATTTATTATTTTTCTATTCCAGAAGAACTGGGTCCATAGGG
TAGAATATTTGTTGTGCTTTGATTCACAGAAGAAAGAACTCTGCAGTAATTGGAGCTGCTGAAAATGGAGTGGATTCTGTTGCTGCAACCACTAAAACTA
GTGCTAGACAATGCCTTTATTGGGATTGATACTTTGGGAATTCATGCTTTAGGTAGAAGGTTGTACTGGATGACCATTGCATTCTCTACAAACTCTTAAT
CAGATTAACACACTTTATTATGTGTCTGAATGGAATTATACTTCAGTAAGATATGATCAGTCTGACTTGTGGTATATATCTGCATATGTGAATTATTGAG
TTACATGTCTTTATTTCAAACCTATGGTTAGAAAAACAATTATTTATTAAAAAGAAGTCACAAACCTCTACCAAAACCTCACACTTTATTCAAAAATTAA
CTCAAAATGGACCACAGATTTAAACTTCTAGGAAAAAAATAGAGCAAATCCTTGGGATTTGGGTTAGGCGAAGAGTTAGGCTTGACATCAAAATTGTAAC
CCATTAAAGGAAAAATTGATAAACTGGACTTCTTCAGAATTAAAAGTTTTTGCTCTGTGAAAGACTCTAGTAAGAGGAAGAGAACATAGGTTACATACTG
GGAGAAAATATTTACAAACCAGGTTATCTGACAAAAGACTAGTATCTAGAATATAAAAAGAATGCACAAAACTCAACAGTAAAAAAATAATTTAATTAGA
AAGTGAGCAAAACACCTGAAGAAGATATACAGATGGCAAATAAGACAATGAAAAGTTGTTCAGCATTATTAGCCATTAAAGGAATGCATGTAAAACCACA
ATGGGTTGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATACGAGGTCAGGAGTACAAGACTAGCCTGACCAACAT
GGTGTAACCCCGTCTCTACTAAAAATACAAAAATTATCCGGGCGTTGTGGCGGGTGCCTGTAGTCCCAGCTACTTGGGAGACTGAGGCAGGAGAATCGCT
TGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGTACCACTGCACTCCAGCCTGGGCGACGGAGCRAGACTCCATCTCAAAAAAGAAAAAAAAAAT
CAACAATGAAATATCATTACACACTTACCAGAACAGTTTATCAGAATAGTTAAAAACAAATAGTGGCATCACCAAATGCTGTTGAGGATGTAAGGAAATT
GCTCTCATGCATTGCTAGTGGAAATGTAACATGGTACAACCACTCTGAAAAGAGTTTTACAGTTTCTTATGAAACTAAACATGCTACTGTTGTATGACCT
AGCAATTGCACTCTTGATGTATTTTCCTAGAGAAATGAAWGGTTTACACAAAAAATTAGRCACAAATGTTTATAAAAGCTTTATTTGTAAGAGCCACAAA
CTGGAACAATAGCCACAAGTAGAAACAACCCTTGATGTCCTTTGGTGCTTGAATGGTTAAGTAAACCATTGTATATCCATATGATGGAGTACTATTCAGC
CATAAAAGTAAATGACCCATTGATACAGCACCTTGGATGATTCTTGAGAAAATTATKCTAAGTGAGAAAAGCCAATCCCAGAAGGTTACAAAAGGTAACA
AAGTGTTATATAAATTGTTCAACTTGTTATGTATGTGATTCTACTCATAAAACACTCTTAAAATGACAAAATTATAGAAATGGGGGACAGATTAGTGGCT
CTCAGGGGTGAGGGATTAGGCAGAGGGATGGTGAGGGGAGGACAGATGTGGCTATAAAATGGCATCATGAGAGATCTTTGTGCTGATGGGAACACTCTTT
ACCTTGACAGTATCAGTGTCATTGTCCTGCTTGGGATATTATACTRTGGTTTTACAAGATCTTCCCACTGGGGGAAACTGGGTAAAGGGTACAGAGGATC
CCTCTGTATTATTTCTTGAAATTGCATATTAGTTAACAATTACCTCAAAAGTTTAGTTTTGAAAATCATAATGTATGTCCCTTTCATTTTACTGAAATAA
ATATTCAGAGCACTTAATAACACATTTTACAGTCCAGCTCATCTCTATGGTATGGTCACCCATGATAATATGAAAAGAACCTTTGAAAGTTGTATTTTCA
GAAGCAAAAATACCAACAATACTAGGTTATTTGCCTAGTCTCACTTGGATTTTAATGAGCTTGAAAAATGCACCTGTTGTATTAGATGTAATTTTTCCTT
CTTTTTTTTTCCAGCCTTTTTCTCATTGTTCTCGTCATATCAGACATTATGGCTTTGGTAAGGCATTACTRGGTAGTCCATATAAATTAGATTAAGAGTC
CTGGGTTAATTTAATAAAGAGAAATATGAATGCATTTTGGTACGTGAAATCTTTAGATGTTGAGTTGTAAGTGCTGGCATAATTTACACAATAAATTATG
TTCTTTTATATTAGTTATGCAGGATGTGTGCTCTTCTTCAGGTGTCAAAAGTCTTACTACTTGAATTTGTCATACCTCGTCTTCCATGTTGCTTTGTATC
TGAAATGAACCTTCCAAAGAAAATTAGCAGAAAAAGCTAACTTTAAATTTAGATAATACATCATTTTTCTACTGAAATGTTGATTTTTAACCCTTCTCTC
AGATTAAAAATGAAAGGAAAAGAGGGAGGGAAGGAAGGAAGGAAACAGGAAATACAGCTTTTCTGTTGGGAAGATGTTAATCAAGACGTAGCTGCAATAA
ATGAGTTCTGATGTATGTAGGTAGGCCTCTCTCATTAACAAAAAGAGGAACCTATTTTATGTCTACAACTTTGGGGAGTTCCCAAGACCACCCTCAGCTT
TAGTAATTCACTAGAATTCACTGAAATCACTGAATGCTGTTATATTCAGTTACAGTTTATTCCAGTGCATAGGGCAGAGTCCAGGACACCAAATGCCAAG
CTTCTGTTTCTCCCTGTGGAATCAGGACAGCATTACCCTCCCACTATTGATGTGTGACAGTACACATGGAGTATTGCCAACCAGGCTTACCTAAGCTTTG
TTGTCCAGACTTTTTAGTGGGGCTTGATCACATACTGCCTACCTGGCTGACCTTTAATCCCTTCTGGGGATACAGCTGGTAATATGGCCCAAAGCCCTCA
TCATATATCACATTATTAGACTGTCCAGTGGCCAAGCCCTCAGGCAGAACCTTCTATGAGGCATGACATTCCATGACATTCCAAGGGCCCAGAAATTGCC
TCCCAGTAGCTGAGAATGAACACCAGCGGTCTTTTTGGGTAAGGTTAATTTGTCACCATATAACATCCCATGCCAGAAGTAACTAGGAATACTAATAAGG
GTAGCTTCCCAAATCAGATTCCTAGTCACTCGGTTTAGATGAGAGTACTTTTGTGTGGTGGTGAACCATTATTCATTGTATTTCTGAAACTGACCACACA
TAATGTGAGAGCAAATCAGCTTTCAGTTTTGTGCAAAGTGACAAACAGACATATTAATAGAAGAGGATTGAAATTCTGATTAATTTTGTATAAAAAAGAT
TGCATAAATTGACTTGAACAGCCATTTGTGATATAACTTCTGCTCATTTGATTGACATCTTCTCTTACCTCTCCATCCTTGTTTTCTCTACACCATCCTC
CCTTTGACACTACCAAGCTCTCTCTGGACTCTTGATGTATATATAGGCTATTCCCTCTGCCAGAAACTTCTTTCTATCCAAACCTCCTTTCATCTGACTC
CTACTTTTTACTTAGATTTCACCTTGCAATGGGAAGCCTTCCCTTCCATTCTAATCAGGGTATGAACCCCTTCCTCTGTTTCTATAATTGCCTATATTTT
CCAATGATAACACTCCCTCCATCCCCCCCTTACACACACACACACACACACACACACACACACACACACCCCTGATAATTTGATGGAATTATTTACTACA
GCCTATGCCTTGTGAGGAGGAGTTTATCTCCAGCACCTAAGACAGTGATCGGCACACAGTAGGTAGTCAGTACAGTAAATATTTGTTGGTAGATGGATGA
CGTGGCTTCTTTCCACTGACATCTTTAGTATTATCTAGTTTTTTTTATTGATGTTGGCTTGTTCTTCTTTATTTCTAATTATTCAGAAATGTCACTTTTG
TGTTCATTTGATTGATAATTCTATTTCTGGATTTTAGACTACTGCTAATTCTAATCCAAGCAAAAGTTTCAGTAAATGACATATTCTTGTTGATTACAGT
CAGATAGTGATTCTTAGAGTCAGAAATCTGAAACATACAGTCCTAAAATAGCTTTGTTTTTAGACTGAATCTAAATAGCTTTGTTTTTCATTAAGCCTTT
TTTTTTTTTTACAGCATTTTTTCTTCTTGGTCAAGGATTATGGCAGCTGGCTTGATATTGGGACAAGGTATAGTATATATGGTCATGCATTGCTTAACAA
CAGGGATAAGTTCTGAGAAATATATTGTTAGGCAATTTCTTCACTGTGCAAACATCACAGAGTATATTCACACAAACCTAGATGGTGTAGCCTACAACAC
ACCTAGGATATGGTACAGCCTATTGCTCCTAGACTATAAACCTGTACAGCATGTTATCATACTGAATACTGTAGGCAATTGTAACCCAATGGTAAGTATT
TATGTATCTACACATAGAAAAGGTATAGTAAAAAATTCAGTGTAAAAGATTTTTTAACTGGTATACCTATCTAGGACACTTACCATGAATGGAGCTTGCA
GGACTGGAAGTTGTTCTGGGTGAGTCAGTGAGTTATTACAGTAACCTTTTTTACTTTATAAGGTTCTTAACTTTTTGACTTTATAATAACACTTAGCTTA
AACACACAAACACATTATATAGCTATACAAAAACCTTTTCTTTCTTTATATCCCTATTCTCTAAGCTCTTTTCTATTTTAAAATTAATATTTTAATTTAA
TATTTTAAAATCACTTTTTTTTACTTTTTAAACTTTTTTGATAAAAACTAAGATACACACACACACACATTCACCTAGGCCTACAGAGGGTCAGGATTTT
TATTTCCACATCTTGTCCCACTGGAAGGTGTTCACAGGCAATAACATGCATGGAGCTGTCATCTATGACAACAGTGCTTTCTAGAATACCTCCTGAAGGA
CCTGCCTGAGGATATTTTACAGTTAAATTTATATATATATATATATATATATATATATATATATATATGGAAAAGGAGTACAGTCTAAAAAACGATGAAA
AATATGGTATAGTAAATGTAGATACTGGTAACAGTTGTTTATTGTCATTATCAGATATTATGTACTGTACATAATTGTGTGTGCCAGACTTTTATAGGAC
TGGCAGTGCAGTAGGTTTGTTCACACCAGCATCACCACAAACAAGCGAGAGTAATGCTTTGTGCTGCAAAGACACTGCGCTATCACTAGGTCTGTTATCA
TCTTATGGGACCACCATGTATATGCAGTCCATTGTTGACTAAAACATCATTATGTGGTGCATGACTACACTCACGCAGAAGTTCTTAATAGTGCAGTAAA
AAAAAATTAAAACTTAGTATCTTAGTATAGAAGGTGCCCATATGATTTTGAGGTAAGCGCAGCAATTAGCAATTATTTTAAGCCCCTGGAAATGAGACAT
CTTTCCAATTCTTGGCATTAGCACATTAGCAAATGTTTACATGGAATGCTGTGGGGAGGATGATAGATGTTAAGTCTAGAGAGAACTAAAGGGCAGCAGA
AGATGCAAGATAAACTGCTTGAATCCGCGGTTTCAAAGTTGATCATTCCAGAGTCCTAGTGTGTTTTCTTAATCTCTCATCTCTGTTTAGAAAAATGAGG
TTGTTCCGGTTGCAGTATGAATTTTATATGGTGGTTTAAATTTCATGTGATCATTATCTGCCTCTTAGAATCTTTAATATGGTAACCTTTTAACATGTGA
TAACTATTTAAAGTGTAATTTGAGGTCAGGAACAGTGGCCCACGCCTGTAATCCTAGCACTTTGGGAGGCCGAGGTGGGAGGACTGCTTGAGCCCAGGAG
TTTGAGACCAGCCTGGGAAACATAGTGAGACCCTGTTTCTACAAAAAGCAAAAAAAAAATTACCCGAGTGCAGTGGCCCATGCCTGTAGTCTCAGCTACT
CAGGAGGCTAAGGCAGAAAAAGTGCTTGAGCCTGGGAGGTCAAAAGAGTTTAGTGAGCCATGACTGGGCCACTGCACTCCAGCCTGGGCCACAGAGTGAK
ATCCCATATCAAAAAAAAATTAATTAATTAGTTAATTAAAAATAAAGTATAATCTGAACAAAAAGTCAGGTTCCTTTTTATKGTGATTTAAATTTCAATG
ATTGCCATAACCTGTTAAATTTCTTTTCTTTGAGAAGAAGAAAGCAAAATTGACCCTTTTGCCTTTTCTTCTCCAAATGCATTCTGAGACAGAATACATT
TTTGTATACTGATTTTATTTCATTTAGTCAATATTCATTCATCACTTTGTGTTGCCAGGAATTGTATGGGTTTGCAGGAGACACCATGTGTTAAACATCC
TCTTCCCTCTGTTGATACCTCTTAGGCAACTCCTGGCATGTACTGCCTGGTTATTTATGTACATATCTGCCTCTCCCAATAGACTGTGGATGCTCTCAGA
TCCAGGATTGGATTTGAATCTCTTACATGCCATACGTGCTTGGTACGTAAAAGGTACTCCATAGAAAATTGATTTGGTTTTCATTTGTCTCTTATACTTG
AAAGTTTAGGGAAAGTTTAGATATCCCCTTCTGCTTCCCAGCCCTCTCATTCTAAAGTGTCCAGGCGGATAGTGGCCAGAGCATGGGCTTTAAACCAGAG
CGCCTGGGTTTGAATCTCATTTCTGCCACTTTTGAGCTGTGAAACCTTTGCTAAGTGACTTAATCTCTCTAAGCCCCCCGTTTCTCTTGTAGTCRTTTTG
AATGAATTAATTTATATAAAGCATTTAAGTATTTAGCATAGTGCCTGGCATCTAATAAGCTTCAGTGAATGTCAGCAATTGTTACTGTTGTCATTCTGTA
ATTCTGTTTTTTTGTCCTTTATAGTGCTTCTTGCATTTGGCATACCTTTCTTTACCATTTGATTATTTTCATTTTAGACATTGGTCAGAATTTTGTTTCA
AAAATATTCTGGTAAAATACAGTATTTTGTTTATGAGACTTTTTCTTTTATTTTTAATTGTGGTAAACTACACATAATGAAATTTGTCATCATAACAATT
TTTAAGTGTACAGTTCAATGGTATTAAGTATACATTCACATGGTTGTGCAACTATTACCACACACCATCTGTCTCCAGAACTCTTTCCATCTTGAGAAAC
AAACTCTGAATGCATTAATCAGTCACACCCCATTCTCCCGCTCATCAGCCCCTGGCAACCACCATTCTACCTTTGTTTCTATGAAYTTGATGACTCTGGG
TATCTCATATAAATGAAATCATACAGTATTTGTCTTTCTTGCAACTGACTTATTTCACTTGGTGTAATATCGTCAAGGTTCATGTATATTGTAGCATGTG
TCAGAATTTTGTTCCTTTTAAAGGCTGAATGATAGTTCATTGTACGTATATATGCATATGCCATATTGTTCACCTGTTCATCTGTCAATGGATACTAGAG
TTGTTTCCACCTTTGTTTATTGTAAATAATGCTGCTGTGAACTTGGGAGTGAGACTGTTTTGATGAGAGAAATTAAATTGGTTTGACTCTAAACAGGTGC
CAAGGAATGAAGAAGATGCAGTTTTCATAGGAAGATGTGCATCATTAGTTTATGAACAGGCATTCATTTGTATTGCACTAAGAATTTTAGATTTTCTTTA
ATTAGCTTGAGGTTTATCTTTACCTGGCGTGTTTTTTCTTCAAAGTAAAAATTGTTTACTCTTATTACCAGTAATAACATGTATAAAACATAAAGCACTT
TTTCATATCCATGATCTCAATTCAATCCAGCAAATATTTATTGAGCACCAGCTGTATGCTAGGAGAGTTGCTGGGGATGAGAAACTCACAGTTCTGGGCT
TTCAGGAAGCATAAGGCTGGAGGAGGAAGCAGATCCGTGAGCAGGCCATATGGTGCAGTGTGAGAAATTTTAGAGTAGTCTCTCTTGTACTGTGGGGACA
CTTAGGGTGTCTCTCTGAGTCTTGTAGCTTAAGGAAGGCTTTTCAGAACAGGAGCTGTCTGAACACTGSAAGTGTGGGGCTTACAAGAGTACRTTGGGTC
ACAAGAACTAGGGAGAATGTGTAGAGTGAGAGAAGGTGAAGAGCAGAGAACAAGAAGTGTGGAAACAAGGCTGAAAGAAGTGGCCAGAAGGCAGGAGAAA
ATCTAGAGAGAGCAGTATTGTGAAAATCAAGCGAGCATTTCAGGCAGGAGAGAGGTCATGCAGTCTCAGATATGACAGAGTGTAAGTGAAAACATAAAGG
TGTGCCTTGGTTTAAGTGGCAGAGGACGTTGTTGAGCTTGGCTGGAGAAGTTTCAGGGGTAGGATCTGGTGCTAGATTGCTGTGCTGAATCAGATCCACC
AATTTCCAGGTGAGGACTGCAGACCAAAGATAAACATTTTTCTTTTTTCTACCAAGACCCCAATAAAAATAAACAAACTTASCAAAATGAAAAGAGTGGG
AGAAGGACTATCAGCAAATTTGAGTTCAACAAATTTCTAGAAGATAGATAACCAGAGGGAGGAAACAGCAGCTGAGAAACTACAGACAGGTATGGCAAAG
GGAAAGGAGGTCCAGGGACCTCAGACTCAGTGAGACAGTAATGTGGAAGGAGGAGTGAGGAAGGGAAGCAGGAGATTAATTGGATATCTGCCTACCAAAT
GATGRTATCAACAGGCTCTCCATAGCCCGTCTCCTTCCTTCATCCCCATGGAGAAAGTGCTACAGGCATTTTATTCCAAGTAGAAAACCAGAAGACACCT
CTAAAGAGACAAAAAAACAAACAAACAAACAAMGACCTGGGAGGAATTTCATTGCTATGATATATGTGCCTCCACTTTAGTAAGGCTGTTCTCCATTCTA
GCATGTGTAGCCTCCTCCTAACAAAGGACAGAGACAGGCATCCCTCCYGCTCATCCTAAAACACGACACAGCAATTCTTATTACATGCATAGAACTTACT
GGTGGCCTTCCTATTCGTGAGTGAGACCTAGAGGGAAAAGAAACTTTCTTAAAAAGTGAAATACACACTACCTCTGACCCAGCAATTCCATGCCTAGGTA
CCCAAGAGAAGGCAAAACATACGTATGCTGAAAGACTTGTACAGGAATTTTCATAGCAGCTGTATTCATAAGAACCAAAATCTTGAAACAACCCAAATGT
TCATCAGCACATGAATGGGTAAACAAATTGTGCTATTGCCATACAATGGGATATTACTTACCTATAAAAAGAAATGAGTAAGTGATGAACTCAACTACAT
GGATGACTATCAGATACTTTATAGAGTTAAAGAAACCAGATATGTAAGAGTATATAGTGTACTCCATTTATATAAAATTCTAGAGCAGGCAAAACTRTAG
TCACAGAAAGTTGACCACTGRTTGTTTGGGGCTGGCAGTTGGGGTATGATTGACCACAAAAGGGCCTGTAGGAACTTTTAGGGTGACAGAAATGTTCTAT
ATATTGAAGTTGTTTTTAGTTACATGGATGTAGCATTTGTCAATAATCGGCTAACTGGACATTTAAAATGGTTCCATTTTCTCACATGTAAATTATACCT
CAAAGTTGATTCATAAGGAAAAATAGAAAAACTAAAAGTTGAAATGAGTGGAGCCTAGTATGCATAGATTAAATTCTGGTTAGTAGGAGGGACTTTGTTT
CAAATGGGTGCATGCATAAACAACAACATAAAGGTAATAAGTCATATTAGGGGGGTAACCACCAGAAGATCTAAAAAGAAAAGTAGTTAGAGTGGTTGCT
GTAAAAAGTGAATAAGAAGGAATGAAAGATTGTTGCTTTTCATTATAAATCTTTCTCCATTATTTTGCTTTTCTAGTACTTGCATGTATGACTGATAAAA
GCTAAAGAGAAAAATGCATAAGTAGAATTGGAGGTCAGGAAGTAGAGTTCTAAGTACAGACCACTCTTTCAAGTTTAATTAGAAAGGGGAGGAGAAACAA
AGTAGTATTTGCATGGGAATACTCTCACACCTCCCTTTGAGGGAGATTATATTTTCATTTATTTTACTAATGAGCATGAGGAATATTATAATTAGAAGGA
GTGAATGTCCCTAGTTAAATCAGTTTAATTACTCTCTGTCAAAGAAGGATTTTGAAGGCATTATGTGGGGCCCAAATGGAGTTAACTCATTCCCAGAGCA
GAGTAGAGGCAGAGAGCYTCCCACAAGGTCACAGCAAGGCTGTGCATTGCTACACAGAGTCCACATACCCAACAGTTGTTTATCTGAGATCGGAGTCCTG
AAAGACGTGATAAAGGCTGTTCAGAGACCACAGAGTCCTCTCTATTAGATAAAAGGCAAAGTAAGATAGAAGCTCAAACTTGAGTAGGAGGCCCAGGATG
TCAGTCAAAGGATTGCCCCTGGTCACACATCTACCAAAAATAACCAACACTTCTACTGTGCTACTCTATTTACATTATCTTCTACATTATTTCATGTGAT
TTTCCTCGTAACACTGTAAAGTAGATACTATCGTTCACAGTAGATAATTTTACCATCTCCATTTTACAGATGAGGACACTGTGGCCCTAAGGAGATTGGG
ACTTGCTCATGTCACAGAGTCGATCAGTGGTTGAGCTGATCTTAAAGGATGCACTTGTGAATGGGGAAGCTGCCATGGGGTGTGTAGGCTGCTCAGTCAC
TGCCTGTTTTGTGCATGCTGCCAAACTGCACAGTTGAAAAAGTGATTTGTTATTTATGTCAGAAGACAGAAACAAGTAGTAAATGTCACATTGGTAATTA
AAAGGAAAGCCTTGTGACATGAAGACTATTGTTAGCAAGTTAAAAGCTATGGTTAAAGAAAGCCTGTGGGAGTATTAGGCTGCCAAAACTAAAGCTTTGA
GTAAGACCCAAAAGGGCTTTTGCTAGGGCTACAGAGAATGGGGCAAAATCAGGGAAGTAGTGATGAAACGAGATACCCAGAAGCAGGCCCCTGAACAGAA
ATTTTCCTTGGCTGCAGCATCCCCTTTGCTTACCTTGATGCCTGGGACTGAAATAGAGGAGATTTCAGCCTTGGAATCCTGAATTCATTATCTTTTTCCT
ACTTACTAACATACTTAGTCTTTCATGCTTTCATTCAACAACCACTTACTGAGCAACAACATAAGCCTGTCTTTTTTTTATTTTTATTTTTTTTTGGAGA
CGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACAAGCTCTGTCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCC
GAGTAGCTGGGACTACAGGCGCCCRCCACCKCGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATCTTAGCCAGGATGGTCTCGAT
ATTCTGACCTCGTGATCCGCCCRCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCSGCCAAGCCTGTCTTTTTAATTATATTCA
TCCTGCCCCTTATTCAGTTTTTCTCAACTGAATAATCCATTCTCTTGTTAGTTCATCATGGGTTCCATTCTGTTGAGCACTCTTTTCCCTGTTTTGTTTC
TGTCACCTTCAGTCTTTCATCTAAAACTTGATTGGCAGAGTATTCCCAGAACAACTTCTCTTTCCTTTCTCTACCTCTGTAATAATGCACTGTTTTATAA
AAAAGTTTTTAAAAAAAGGAAAGGAGGGGAGATAGGAAAGAGAAAGAGAAAGGAAGGAAGGAAGGCATGCAAAGGAAAGAAGGAATAAAGGAGGACAAAG
GGAGGGAGAGAGAGAGAGAAAGAAAAAGAAAACGCCTTTTAGCCTTTTATTGTCCCCCTTCCTGCATCAGTATCAGCCTTTGGTCTATTCCGGAAGTCCC
GTGTTTGTCCTTGTCCAGGAGGCTTTCCTTTATCCCTTCTGCAATCTTTAATGTTGCTTGTTTAAAGACTCACCATTTTTCTCTTGAAAATTCTGGGAAG
TTTTTTTTTTTTAGAAGTGTCAAGTTCAGCTGTTTTAAGTAATTTAATACAACCATGTTTCTCTTCTCTCCTCTCCCTCTGGGATCACCAGAAACTAATT
GGGGGATTGTATTGTTTTGCCACAGAAAAACTTCTACCCAAACCTGGGAAAAGCAGGTTAAGTTAAACAGTGATTGGGAAAAGTTAAGGATTATTGAGAA
AGGTATTAAAYTGATGATAATGATATTACTAGAGTAGAATATCATTTATTGTATGCAGTGTATTAGGAATTGTACTTATRTTATCTCATTGAGTCTCATG
AAATGATGTGAAGAAAATATTAACAATTTCTGTTTTACAGAGTAGAAACTGGTTCTGAAAGACTGATTGCACAATAATGTGGCATAGCTAGGTTTATTTT
TTGCATTGTGTATGTGTTTAATAAATTGATCRTTTTTCAGAAAAAAATACATATTGAACACTCACCATACATAAAGCATTCCCAGACATTGTCAAGTACC
CAGAGATGAATGGACTGCCAGCCTTAAGACTTGGTGATGCTCCATCTCTGGAGACAGATAGCTACTTCATCAGGAACTTAAGCATAAGGATGTATAACTG
GTATGGGACATTCCAGTCCTGGAAGTGTRTGACTCTTAACACATGGCCACTGCTTTCAGGGAGGTTATGGCCTAATATAGGTTTAAAGACATAATGATAA
TGATTATAGTATAAGGCAACATGTGGTTAAGGGTTATAAAAATACAGGAGGGAGGCTGCTTCACTTAAGCCTTCAGTGACAGGAAACATTATGCCAAGTC
TGGCATTTGAACTGGGCCTTGAACAAAAGGTGTAATTTCTTTTTTTGTTTGTTTTATTATGCTTTAAGTTCTAGGGTACATGTGCACAACGTGCAGATTT
GTTACATATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAGCTCATCATTTACATTAGGTATATCTCCTAATGCTATCCCTTCCCCCTCCCCCCA
CCCCATGRCAGGCCTCAGTGTGTGATGTTTCCTACCCTGTGTCCAAGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTT
TCTGTCCTCACAATAGTTTGCTCAGAATGATGGTTTCCAGCTTCATCCATGTCCCTGCAAAGTACACGAACTCATCCTTTTGTATGGCTGCATAGTATTC
YATGGTGTATATGTGCCACATTTTCATATGTCTGTCTAAAGTAGTCTTCCCAGACCTGTAAGTCCCCTAATTGAAATTATACCTTTTGGCACCTTTTGTA
ATTTCAATTAGGGGACTTACAGGTTTGGGAAGACTATTTTAGACAGACAGATGGACATGAGTAAAGCCATAGAGGTAAAAAGCCCAATGCATATGTGCAT
GATATGTGATAAATAATTTGGATTTCAGAAACCATAGATTTTGGCTAAAATCTATAAAACCATAGATTTTGGATAAAATCTATAAAACCATAGATTTTGG
MTAAAATCTATAAAACCATAGATTTTGGCTAAAATCTATAAAACCATAGATTTTGGCTAAAATCTATAAAACCATAGATTTTGGCTAAAATCTATAAAAC
CATAGATTTTGGMTAAAATCTATAAAACCATAGATTTTGGMTAAAATCTATAAAACCATAGATTTTGGMTAAAATCTATAAAACCATAGATTTTGGATAA
AATCTATAAAACCATAGATTTTGGATAAAGAAATTTCTAGAAAATAGCCTTTGGGAGGCTTAAGTTTTTTATTTTGATATGGTCCATTTTATTTTACATT
TATTACCTGTGTTTGCTTGACACATTTTTGTTATTTTTGTTTTCCCTTCCTCTCATGAGTGTTGATGCTCAGTACATTTTAAAAGAGCTAGTGCAAGCTT
GCATTTAACGTCTATCATGATGTTCCTCTTGATATTTGTGTGGTACCTCCAGCCTTATCCTTAACATTCCTTTACACAGCCCTCATGGAATAAACAGCAC
AAAACAGCAACGACAACAGCAAAAAAAAAAAAAAAAAAAAGCAGAATACAAAAGCATAAAACAAATAATGAGCATCATTCAAACCAAGGGAAACAGAATG
ACATATCAGCACTTATAGGCAGAGAATGCATTTATAACCACCACCACCCGGTACTAGCCATGAGAAAAGGGTGTTAACTTTATGTTTCAATGATTTATGT
ATACATATTAAAATATTATATTATTAATGCAATTCAGGGTAAAATATGCTATAGGAATATTTCGTGATAATATTTTTTATAATGGGAGCTGCCCTGAATA
TACAGTGATCCTATGCCCTGATTTCCCGGAGACTTCCTGATTTATGCCTGGTGGCCTGCTATAATCATTACACCCCCATCTATACAACATTAAAAATCCA
AAGTGGATAAGAAGAAGACAAAGGCACAGCCAGTTAATAAGTTATGTTAAACCTTAGTTTATCTCATTCTCAGTATTTCATCATTGGGGATCTAACCCCC
ATAGGTTAAACRGGATGCTTGCTCTGAGAAACTTCTCAAAGGCAGGTATAAGAAACCTTAGATCTGTCTTCATCAGGCTGATGGCACTGAACAAATCTAC
ATAAATTTCCCACATATTCTCTTAGTCATTCCTGATGAAATATCTCCTTGCTCTGTCTTCTTTGTCTCTTATTATGTCATCTAAAAGGTGCCCACTTTAA
GAGAGGAAGTTGATTGCAGGTGGGGGGAGCAGGGTCAGGATGGAGAGGCCAAAATGAAATCTGAGTTGGTGAAGTTAGGCTTTCTAAATGGAATTGCCCC
TGATTGATGCTGCAATGTGATGTTTTTCTTATTGCTAAGTTAGAATTCTAAGGTCTTTCCTTTGTATCCTCTATAGCGGTGATGTCATATAGTGCCTCTG
TGAACCATGTGGTGCTGGTCTAATGGGCAGGAGTGGTTCATGCATCTTCATAAACATCTAGTTTATTGCGAGGAAAAGGCTTGGATAATGGTGGGGAAGT
AGGGGGAAATGTACGTCAAGATTCAAAACTAAAGCMCCATACGATAGGGTTCACATGTCAAAACTTCATTATTGTACTTTTTCTGCTTTCTGTTTGTGAG
AATGTTGCATTTAAGTTTTGAGTTTCCAATTATTYTTGTGTGAAGGTACATTTGAAAAGCTGTGGTGTTTCTTGTCATGTCGCTGATATTATAAACTGAC
CGGCAGAGCTCCCTTCACAGGTGCCGGGGTTATTGGAATTGTGCTCCTGCACTGGTTCCCCTTCATGACGAATTTTATTCCTAAACTCCTTTGTGTTAAT
AGTATAATTAGCGATTTCAGCCATTCCATGCTTTTTATTCACGGGAATGGAATGTTGCCCTTTTGTCCTCACTATTTTATTGCATTTTTTTTTTTTTTTT
TTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCCGGAATGCGGACTGCAGTGGCACAATCTCGGCTCACTGCAAGCTCCTTTATTGCTTTTTT
TTTTTGCATTTATTCCTGAAATGGCGGGAMTCTGTCCCAGAATTTGAGAGAGGAGTGGGAGCTGACTGCCCCRTGAATGTAGTCTGGCATGTATCTGTAA
TGTTTATAGTGTTGTGGTGATTGCCATGGATTTTCAGAACACTTTTGAGAGATTTGTCACCTGTTATTAATAGTTGCAGGTTAATAAGTATAGTTTCTTA
AATAATAAAGATTGTATTATTAGGGCATTAGATAGTATATCTGTTTATAGGCATAGTACTCTGTGTTTCAAATGCATCTTCAGAGCAGATTTTACCAAAC
TGAAATTGAGACTCAGGAAGCATACACTACAGTCAGTGTATTCAGCTGAAACTACTGGTGTGAGTTCAGTGTTTCTCTTGAGAACCTGTGGCATCGGGTA
TGCTTTTTAACAGCCATGTGAAAAATATCCTGCCCAGGCCATAAAACTGTTCAGCTGACAGAGCTAATTTAGTATTTTCTTCTTTTGATCTTTACACTTT
ATCTTCATTTATAGCAGGTCATAAACTTTATAGAGTATTGCCTTTTATACGGCATACTGAAAGTACATTTTTAAAACTAGAGAAAAAAATTCCTTTGAGG
TAATTTTCATAACTATAAAAACRTATATTCAGATTTGCGTCCTCAATGCATTTGTAGTGAGGTGAATAGAGTCAGGATCATCAGTTTGATTGAGCTGAGT
TTGATTTGATGGCAGTCTTCATTTGGACTTTAATTGTTTCTCACATGCACGATTGTTATACCTTATTGAAATACAAATGACAACTAACGTGTTTATCATT
TCTCTTTTGATATAATGAGAACTCAAAAAAAAGAGAGAACTCATGATTCTATTCAATAGTGTTTGTATATCCTAAATGTAATTAATAAGTGTCATAAAAC
ATCTGTACTGTTACAGTGAATACCAAACTTTATTAAAACCAATGATTCTCAGACTTTTTCTGCCCCAGTACATTGAACAGGTATGACCTGCTTCTATCGC
CCATCACCCTTATAGAGGAGAAATATGATCAACATTTTGTCACCATTGTGCAGGTTGAAAAGGCCTGCCTGGCAATTCCATGTGCCTCCACACATACGCT
CTTCCCCTCGACCATCACACATGCACACCTTGAGAACTGCTGATTTAAATGATGGCACAATAGTCATGGGAGGGGAGTGCGAACAGCTGAACTCATTTCA
AGTTGAAATTTGATGTTCCTTTAACTCTGCTATGGCGAGATGACACCAAGACTTGATTGATGCAAGATAWCACAAGCTGGATGCCTTATGGCTCAATTGC
ATGAAGATGATGAGCTTCACAACTGTTTCCTGCCAATTATGTTAGCTTACATGAGCCAAGAGTCAGTAATTTCAGGCCACTGTAAGGAAATGAGTGATCT
GTGGAATGCCTTTTATAGACAGACTTTAGATTAAATTTGAGGATGGGTCACCTACTGGTTTTACAAACCGTTTTTGTTTAGACATCAAATCAGATTTAAT
ATTTTAACCTGTAAGTGATGGCAAAATTCAGCAAGAAAAATCTGCTAGCATGTAATCTTTTCTTTCTTTGTTTTTATTCTTAACAGCTTTATTGAGTATA
ATTCATACCATAAAATTTATCTATTTTCATTTTTTAATGATTTAATAAATGTTTTAAGTCATTTTGATGATTTTTGGCAAATGTATGGAGTTGTGCAACC
ATCACAATCTATTTTTTGAACATTTCCATCACACAGAAAATACCCTCTACCTGTTCACAATCTGTTCCCATTACCATCCCAAGCCCAGGCAACAACAAAT
CTGCTTTCTGTCTCTACAGATTTGCCTATTGTGGACATTTCATATAAACAGAAAAATACAATATGTAGTTTTTTTCATCTAACTTCTTCCAGTTAGTGTA
ACTTTTTTTTGGCATTCATCTATATTGCAGCATGTAAAAGTACTTTATTCATTGCTGAATAATGTTCCATTGTTTGGATATACCACATTCTGTTTATCCT
TTCTATAATGCTTATAAAAGATTAATCTTTTATGGTCCTTGTTGCTTTTAATCTACCTAGCTCCCCACCTCCTTGCCTGGTTTCCCCCCTGGAACCAAGG
TCAGATTGAGCTTTTCTGGATTTGACCTCCAGGCTCTATGCTGAAGAGTTTGTACTCCTTCACTCATCTCATCTCTGACTACAAACTTTGGTCCCTGAAG
AAGTTGGGATGATTATATCCAGTGTTTTTKTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCAGGGTACAGTGAGGTGATCACCACTGCAGCTTCCAC
CTTGTAGGCTGAAGTGATCTTCCCAACTCAGTTTCCTGAGTAGTGAGGACCACAGCTGTGTGCCGTGACACCCGGGTAATTATTTTAATTTTTATTTTTT
AGAGACAGGGTCTCACTCTGCTGCCCAGGCTGGTCTCAAATTCCTAAGCTCAAGAGATCCTCCTGCCTTGGCCTCCCAAAGTCATGGGGTTAGAAGCATG
AGCCACTACACCTGGCCTGGATTGAGGATTTTAATCTCAGGAGCTGGTACCAATTTTGGAGTGTCTTCTGAGGCCTCAGAAACAGAATAGAGTTGAAGAT
TTCTCTGGTAATTATGAGTCAGCCTTAGAGTTCTGTGGCTAAACCTAGCATAATTTGTAAACATCACATAAATAGCAATATATTACAAATATACTAAAGA
AAATACTGAAAGCATTAAGAAAAGATAAGTCATTCATAATTCAGTGTCTCAGTTTGCAGTATTCAGGGAGAACCACTATTCAACATGTTGATGTATGTCC
TTTTAGCTTTAATTTATGTGCAGACATATACAGTTTCTTTAAAAGATGGTTTTCTATAATAACCATTTCCCCATGTGAGTAAATACTTTTGAAAATATGA
AAGTTAGTCTCATGAGCAGTGCAAGGTCAGAGATAACCAGATTCATTCACGTTTGCGTCTTTCCATAGTGTCAGACTTCTGTTGATGCTATTTCAATAGC
AAAAGGCCATGAACTGCATGGAGTTTTCTAGGAGGCAGTCCTCCTTAGAACTTTCCGGTCACTTGGTAGTCACAGCTGCACAGCCACAAGCCACTCCACA
AGTCAGTCAATATTGTCAACTATATGTAATATTATACCTAATTAATATATAAATGTTACAGATTAAACATTCCACAACAAACAAAGTAACATTTAACATC
AAGAGAAGAGAGATAGGAAAAAGGGTTAAGGAAATAGTCCAGGGAGAGTGAGGAAGACAGAAAGAACCTCCTGGTCTGGGCCAGGGCCCATCTGTTTTAC
AAGAAAGAGTCTTTACAAGAAAGAGTCTTTGAAGGCCACCCACCTTCAGTGGCAGGTGCTGGGTGCTTATCAGGAGTGATAGCAAGACAGTGTCAGTTAA
GACAGCCATTTTGAGCTGTGAAGTCCTGCTCTTTTTATGGCTGCAGAGTCCTCCAGTGAGGACTGATAGTGGAAGAGTGTGCCTGTTTATGTCCTTATCT
GGTTGGATGCAGTCTTTATTTATTAATTTATTAAGCAAAGTATCTTTTCCCTGTTGGCAAAGTGTCCTGTGAAATGTAAGATGGAGTCTTTTTCTGAGAT
GGAGTTACTTGTGTCAAGGGTGCTCTGTACAGTTAGTGTAGCTAGAATGGTATGAGGGAAAACATGGTCAGGAGAGAATTCATAGAGTAGATATTTGCTA
TCACTTATGGCCTTTGAAAGTCATTGTAAAGAAYTGGGAGTTTATTCCAAGTGTAAGTTGAAGCATTAGTTTGTTGAGCAGAAAGTTATTTTATTTGCTT
CACATTTTTGACATAACACTGGCCACAATGTAAAGAACCTATTGGAGGGATCGAGAGAGGGAGAAGGAAGATTGAGGAAGAGGCTTTCGTGGTATCGTAA
GCTAGAGATGATGGCAGTTTAGGCTAGGGTAGCAATTCAAAATAGCAACAAGTGGCTGGACTTAGAAAATATTTTCAGAGAGGTTGATAGGATTTGTTGA
TAGACTAATATACTGGGAGAAAAAAAGAATCAAGGGCAACTCCTAGTTTTGTTTTTTAATCTTGAGTAACTGAGTGACTAGGAAAGCCATTGCAGAAATC
TGGAGAAAGCTCTAGGAGGAGTGAGTTTGGTGAAGGAAGGTGTGGGAGATTAAGATCTGGGTTTTGCATATATAAAATTTAAATTAGGATGGTGCTGGAG
GGAGCTATGGGATCTTGGGAGAGTTAGAATGAGACAAATTACACATTTGTGTGGTAAAGGATATGCTCACCTAGAGAAGGAAAAATGGGTGATATCTAAG
AGGGAAAGGGATAATTGGAAAAATAAAGTCCTTTAGTACAGTGGTCCCCAGTCATTTTGGCACCAGGGACCAGTTTCGTGGAAGACAGTTTTTCCACGGA
TGGGGYGAAGGGTGCAGGGGCCAGCAGGGGATGGTTTCAGGATGAAACCATTCTACCTCAGATCATCAGGCATTCGTTATATTTTCATAATGGGTGCACA
ACCTAGATCCCTTGCATGCGCAGTTCACAATAGAGTTCGTGCTCCTGTGAGAATCTAATGCCGCCACTCATTTGACAGGAGGTGGAGCTCAGGCAGTAAT
GCCAGCGATGCAGAGCAGCTGCAAATACAGATGAAGCTTCGCTCACTTCCCCGCCGCTCACCTCCTGCTGTGTGGCCCAGTTCCTAACAGGCCATGAACT
GGTACGGGTCCAAGGCTTGAGGGTTGGAGACCCCAGCTTTAGTGGGAGAGTTGGGATGAAATCCAAACTAGAAGTGGAGGGGTTTGTTTTAGACAAGAAA
GGTACCTGAGGCAGTGTGGGCACAGATATGAGTGGGTTAGAAAGTTCGGGGTGAGAAGAGGCACTTCTCTTGCGATCACTTTATCAGTATTTTCTCGGTT
AAAAAAAAGCAGAGTCATCTGCTGAGATGGGAGGAAGGTGACAGGACTTTGAGGAGAGGAGAAAGGACACAAATTGGTTTGACTCAGAGAAGAATAACTC
AGAAGTGTGCAATCAGGATTGAGACACTGATGAGAACCAAATCTCATTTGTGCTTATAAGTTTAAAGTGAGTCCAGCCAGAACAGTTGTGAGTTACTGAT
GATGATTCCTTGATCTTGGGTGACAGGATGATCTGTTCTCTTCCGTTGTCCTGTTGATTCTAATGCCCGTATTACATTTAACTTTATATTTTAATATTTT
GCAGGGTGAGTTTTACTTTAGTTTTGTAGAAACTTTTCGTTTCCTTTGGCATTTTGGTTTTGCTTTTTAGCTTTCGGTATTGATTATGCTTATTCTATTT
TGGGAGAGTCTGATCTTATTAGGTTGGTGCAAAAGTAATTGCGGTTTTTGCCTTTTTTTTTTTTTTTAGTGGCAAAAACCACAATTACTTTTTCACCAAC
TTAAATAAGTTCAGATTAAATTTGCCGGGGTAACATAAAACAAAAGAAGATTTTATCATTTCTTCTAATTATAAATTATCTTTAATAATTCATTTAACAA
ATATTGATTAAGTGCCTATAAGACCTTGCATGAGACGTTAGAGATGCAATGGGAAAAGAGATAAAAATTATAGTCCCTGYTTCCACAGAGCTCACAGGCC
AGGGTAGAGGCCAGCAACCTATGCCCTTTAGCCAAATGCAGCCCACCTCTTGATTTTGTACAGCCTGTGAACTAAAAAAAATTTTTAATTAAACATTTCA
TTTTAACATTATTATAGATTCACATGAGGTTGTAAGAAATAATACAGAGAGATCTCCTATACCCTCTACCTTATTTCCCCCCAGTGGTAACTTTATGCAG
AACTATAGTATAACATATAGTAAAACCAGGATGTTGACATTGAAACTGTCAAAAGACAGAACATTTCTACCAGCACAAGGATCCTTCATGTTGCCCTTTA
TAGCCCAGGCACTTCCCTCCCACCCAGAAACCCTCCTTAACCCCTGGCAACATTTAATGTTTTCCATTTCTGTAGTTGTTACTTCATAAATATGATACAA
AGTAAATCATATAGTATGTAACTTTTTGGAGTTAGCATTTTTTTCACTGTCAGAGTAATTCTCTGGTGATTCATTGTTGCGTATTTCAGTAGTTCGTTAC
TTCTTATTGCTGAGTAAATCCATGGTATGGATGTGCCACAGTTTGTTTAATCATTCACCTGTTGAAAGACATCAAGGTTATTTCAAGGTTTTGGCTATTA
TGAATAAAGATCCTATAAACATTCTTGTGAACAGTTTTTTCCCTCTGGCATGCATGCTCAGAATCATATTTGCTGAGTCTTATATTATTTGCATGCTGAG
TTTTAAAAGAAACTGCCACCAGAGTGGTTGTACCAGAGACTGTCAATCCAGTTTCTCTGCATCCTTGCCAGCATTTGGTGCTGTCAATATTTTTTATTTT
AGCTATTCAAGTGGGTGTGTAGTGATATCTCATTTTGGCTTCAACTTGCATAATAGTTAATGATGTTGAACACTTTTTCATCTATTTATTTACTGACTTT
ATATCCTCTTTGATGAAACGTCTGTTCATGTCTTTTGATCATTTTCTAATTGAATTGTTTGTGGAGCTTTTTTTACTGTTGAGTTTTGAGAATTTATTCT
ATATTTTATTCTAGGAAATAGTCCTTTGTAGCTGAGTGCAGTGGCTCATGCCTGTAATCCCAACACTGTGGGAGGGCCAAAGCGGGCAGATTGCTTAAGC
CCAAGAGTTCAAGACCAGCCTGGGTAACATGGCAAGACCCCATCTCTACAGAAAATACAAAAATTAGCTGGCTGTGGTGGTGCATGCCTGTGGTCTCAGC
TACTCAGGAGGCTGAGGTGGAGGATCACCTGAGCCCAGGGAGGTCAAAGCTGCAGTGARCTATGATCATACCACTGCACTCCAGCCTGGGTGACAGAGCA
AGACCCTGCCTAAAAAAAAAAAAAAAAAAAAATAGGRAAAAAAAAAGTATTTTGTTGAATGTGTGGCTTGCAAGTGTTTTATCCCAGTCTGTAGCTTGTC
TTTTTACCCTCTTAACAGGGCCCTTCACAGAGCAAAAGTTTTTTGTTTTTTTTTTTAAGCCCAATTTATCAGATTTACTTTTTTAGATTGTGCTTTTTGT
ATTAAGACTAGGAACTCTTTGGCTAGCTCCAGATCCCAAAGATTTTTTTTCTAAAATGTTTATGTTTTTACATTTTACTTTTAAGTCCATGATCCATTTT
AGTTAATTTTTGTATATAGTGTGAGACTCACACTGATAGGGTGTGGTGATATCAGGTATATGGTTTACACTCTTTCAGGGGGATGGGGTGCAGATTTGCA
TGGGTCTGCTTCCCCGTCTGCGCTTGCTTTAGCTGTGTCCCATAAACTGTGATGTGTTGGTTTTTTATTTTCATTACATTCAATCTGTTTTTTTTATTTC
TCTTGAAACTTCATCTTTGACCCATGGATTATTTACAGTTGTGTTGTTTAGTTTCCAAGTGTTTGGTAATGTATCTGTTATCCATTGTTGATTTCTAGTT
GGATTCCACTGTGGTCAGAGAAGGCACTCTGTGTGATTTCAGTTCTTTTAAACTTGCTGAGGTTTGTTTTATGGCCCAGAATATGATCTATCTTGGTATA
TATGAGCACTTGAAAAGAGCATGTATTCTGCTGTTGTTGGGTAGAGTGTTTTATCATTGTGAATTAAATCYTGTTGTTTGATAGTGTTGAGTTCTGTATT
CTTGCTGATTTTCAGTGTTGTTGTTCTATCAATTTTTGAGAAAAGGGTATCTTTGCTCTGAAGTCTGTTTGCTCTGAAGTCTATTTTATCTGATATTAAT
ATAGCCACTCCAGCTTTTTTAAAATAAATGTTTGCATGATGTTTCCTCCATAATTGAAGTGAGTGTCTTTTAGACAGCATGTGGTTTGGTCACGGTCATG
TTTTTTATTCTCTTCTACCAATCTCTGTTTTTCAGTTGGTGTATTTAGACTATTCACATTTAATGCAGTTATTGATATGTTAGGGCTTAAGTCTGCCATT
TTATTTTTTTGTTTTCTGTTTGTTCTCAGTGTTTTGTGTTTCCTGACATCCAGTGTATTACTTGAACATTTTATAGAATTATTTTTTTACTTTTCTGTGG
TGTTATTAATGTATCTCTTTGTATGGYTTTTTAAATGGTTGCTGTAGGTATTATATATACATAGCTAATCCCAGTCTACTGGTGATGTCATTTTACCAGT
TTAAGTAATATATGGAAACCTTACCTCCTTCTACATCCCATTGCCTTCCCTTGCTTACAATAAAATTGTCTTAAATATTTCCTCTACACACATTTGAAAC
CATGTCATACAGTATTAGAATTTTYACATCAGCTAGCAAATATAATTTAGAAAACTTAAGAGGACAAGGAAAACTTATTGTCTTTACCCAGATTTTTACT
TACTGAGTTCTTTTTCCTTCATAATTTTAGCAGATTCTTTCTTTATTGTTTTATTTCTGTTTAGAAAACTTCCTTCAGAGAAATAAAATACAGACAAGCA
AATGCTGAGAGATTTTGTCACCACCAGGCCTGCCCTAAAAGAGCTCCTGAAGGAAGCACTAAATGTGGAAAGGAACAACCAGTACCAGCCACTGCAAAAT
CATGCCAAATTGTAAAGACCATCAAGGCTAGGAAGAAACTGCATCAACTAACGAGCAAAATAACCAGCTAACATCATAATGACAGGATCAAATTCACACA
TAACAATATTAACTTTAAAGGTAAATGGACTAAATGCTCCAATTAAAAGACACAGACTGGCAAATTGGATAAAGAGTCAAGACCCATCAGTGTGCTGTAT
TCAGGAAACCCATCTCACGTGCAGAGACACACATAGGCTCAAAATAAAAGGATGGAGGAAGATCTACCAAGCAAATGGAAAACAAAAAAAGGCAGGGGTT
GCAATCCTAGTCTCTGATAAAACAGACTTTAAACCAACAAAGATCAAAAGAGACAAAGAAGGCCATTACATAATGGTAAAGGGATCAATTCAACAAGAAG
AGCTAAGTATCCTAAATATATATGCACCCAATACAGGAGCACCAAGATTCATAAAGCAAGTCCTGAGTGACCTACAAAGAGACTTAGACTCCCACACATT
AATAATGGGAGACTTTAACACCCCACTGTCAACATTAGACAGATCAACGAGACAGAAAGTCATCAAGGATACCCAGGAATTGAACTCAGCTCTGCACCAA
GTGGACCTAATAGACATCTACAGAACTCTCCACCCCAAATCAACAGAATATACATTTTTTTCAGCACCACACCACACCTATTCCAAAATTGACCACATAG
TTGGAAGTAAAGCTCTCCTCAACAAATGTAAAAGAACAGAAATTATAACAAACTGTCTCTCAGACCACAGTGCAATAAAACTAGAACTCAGGATTAAGAA
ACTCACTCAAAACCACTCAACTACATGGAAACTGAACAACCTGCTCCTGAATGACTACTGGGTACATAATGAAAGGAAGGCAGAAATAAAGATGTTCTTT
GAAACCAATGAGAACAAAGACACAACATACCAGAATCTCTGGGACACATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCCACAAGAGAA
AGCAGGAAAGATCCAAAATTGACACCTTAACATCACAATTGAACGAACTAGAAAAGAAAGAGCAAACGTATTCAAAAGCTAGCAGAAGGCAAGAAATAAC
TAAAATCAGAGCAGAACTGAAGGAAATAGAGACACAAAAAACCCTTCAAAAAATTAAGGAATCCAGGAGCTGGTTTTTTGAAAGGATCAACAAAATTGAT
AGACCACTAGCAAGACTAATAAAGAAGAAAAGAGAGAAGAATCAAATAGACGCAATAAAAAATGATAAAGGGGAAATCACCACCAATCCCACAGAAATAC
AAACTACCATCAGAGAATACTACAAACACCTCTATGCAAATAAACTAGAAAATCTAGAAGAAATGGATAAATTCCTCGACACATACACCCTCCCAAGACT
AAACCAGGAAGAAGTTGAATCTCTGAATAGTCCAATAACAGGCTCTGAAATTGTGGCAATAATCAATAGCTTACCAACCAAAAAGAGTCCAGGACCAGAT
GGATTCACAGCCAAATTCTACCAGAGGTTTAAGGAAGAACTGGTACCATTCCTTCTGAAACTACTCTAATCAATAGAAAAAGAGGGAATCCTCCCTAACT
CATTTTATGAGGCCAGCATCATCCTGATACCAAAGCCGGGCAGAGACACAACCAAAAAAGAGAATTTTAGACCAATATCCTTGATGAACATTGATGCAAA
AATCCTCAATAAAATACTGGCAAACCGAATCCAGCAGCACATCAAAAAGCTTATCCACCATGATCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTC
AATATACACAAATCAATAAATGTAATCCAGCATATAAACATAACCAAAGACAAAAACCACATGWTTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAA
TTCAACAACCGTTCATGCTAAAAACTCTYAATAAATTAGGTATTGATGGGACGTATCTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATAT
CATACTGAATGGGCAAAAACTGGAAACATTCCCTTTGAAAACTGACACAAGACAGGGATGCCCTCTCTCACCACTCCTATTCAACATAGTGTTGGAAGTT
CTGGCCAGGGCAATTAGGCAGGAGAAGGAAGTAAAGGGTATTCAATTAGGAAAAGAGGAAGTCAAATTGTCCCTGTTTGCAGATGACATGATTGTATATC
TAGAAAACCCCACTGTCTCAGCCCAAAATCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATACAAAATCAATGTACAAAAATCACAAGCATT
CTTATACACCAACAACAGACAAACAGAGAGCCAAATCATGAGTGAACTCCCATTCACAGTTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTTACA
TGGGACATGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAATGAAATAAAAGAGGATACAAACAAATGGAAGAACATTCCATGCTCATGGGTAG
GAAGAATCAATATCGTGAAAATGGCCATACTGCCCAAGGTAATTTATAGATTCAATGCCATCCCCATTAAGCTACCAATGCCTTTCTTCACAGAATTGGA
AAAAACTACTTTAAAGTTCATATGGAACCAAAAAGGAGCCCGCATCGCCAAGTCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACGCTACCTGAC
TTCAAACTATACTACAAGGCTACAGTAACCAAAACAGCATGATACTGGTACCAAAACAGAGATATAGATCAATGGAACAGAACAGAGCCCTCAGAAATAA
CACCACATATCTACAACTATCTGATCTTTGACAAACCTGAGAAAAACAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCT
AGCCATATGTAGAAAGCTGAAACTGGATCCCTTCCTTACACCTTATACAAAAATCAATTCAAGATGGATTAAAGACTTAAATGTTAGACCTAAAACCATA
AAAACCCTAGAAGAAAACCTAGGCATTACCATTCAGGACATAGGCATGGACAAGGACTTCATGTCTAAAACACCAAAAGCAATGGCAACAAAAGCCAAAA
TTGACAAATGGGATCTAATTAAACTAAAGAGCTTCTTCACAGCAAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAACATGGGAGAAAATTTTCGC
AACCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAACCCCATCAAAAAGTGGGCGAAGGACA
TGGACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAAACACATGAAAAAATGCTCACCATCACTGGCCATCAGAGAAATGCAAATCAAAACCAC
AATGAGATACCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAACAGGAACACTTTTACAC
TGTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGATCTAGAACTAGAAGTACCATTTGACCCAGCCATCCCAT
TACTGAGTATATACCCAAGGGACTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCGGCACTATTCACAATAGCAAAGACTTGGAA
CCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAAAATGTGGCACATATATACCATGGAATACTATGCAGCCATAAAAAAGGATGAGTTCATGTCC
TTTGTAGGGACATGGATGAAATTGGAAATCATCATTCTCAGTAAACTATCGCAAGGACAAAAAACCAAACACCGCATATTCTCACTCATAGGTGGGAATT
GAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACTCTGGGGACTGTTGTGGGGTAGGGGGAGGGGGGAGGGATAGCATTAGGAGATATGCCT
AATGCTAAATGACGAGTTAATGGGTGCAGCACACCAGCATGGCACATGTATACATATGTAACTAACCTGCACATTGTGCACATGTACCCTAAAACTTAAA
GTATAATAATAATAAAAAAAAAAAAAGAAAAGAAAACTTCCTTCAGACATTCTTTTAGGTTAGGTCTGCAGGCAATAAATTCATTTGGTTTTTTTTTTCA
TCTGTGAATTCTGATTTCCCCTTATTTCCGTGGGATATTTTTATTGGATTCTGGGTTGACAGTTATTTTTCTTTCAACACTTGAAAAATGGTGCACCATT
TTCTGCTGGTTTCCATATTTTCTGATGAGAAATCTGCTGTTATTCAAATTGTTTTTCCCCTATAGGTAAGGTGTCATTTCTCACTGCTTTCAAATTCTTT
TCTTTGTTTTTAGWTTTTAGTAATTTGATGTGTCTTTGTGTGGATTGCTTTGGGTTTACCTTATTTGAGGTTTGCTTAGCTTCTGTAAGATTTATGTCTT
TTGCCAAATTTGGAAACTTTTCAGCCACTATTCCTGTGAGTACTCTTTTAGCCTCTTTTTCTTTTCCTTCTAGAAGTCCAGTGACACAAATGTTAGATCT
TTTGTCACAGTCCACAGGTCCCTGAGACTCTGTTCATTTTTTTTTAACATCTATTTTTGTTTTTCAGGCTGGGTAAATTCTGTTGTTTTATCCTCAGGTT
CATGGATCCTTTCCTGTGCCCCCTCAGTTCTGCTATTGAGCACTTCCATGGAAATTTTTATTTTGGTTATTGCATTTTTTAGTTCTWGACTTCTTTATTT
GCTTCTTATTTACATCTTCTTTGCTGAGAATTCCTATTTCTTAGCTCAGATTTTCTGTTTTTTTGTGTGTTTGTTTCTAGTAKGTACATAATTGCTCATT
AAAGTATTTTTATAATGACCACTTTAAAATTTTTGCCAGATAATTCTAACAGCTCTGTTATTTAGGTTTTGATATCAGTTAATTGTCTTTTTTCATTCTG
CTTGAGATCTTCCTGGTTCTTGATGTGGTGAGTGATTTTCTTTTGAAACCTAGACATTTTGGGTATTTGGTTATGAGATTCTCAGTCTTATTTAAACCTG
TTTTAACTGGCTTCTGACATTCCTATGGCAGGGGAAGAGGGGACACTACCTCATTTCTGCCTGATGAGGTTAGAAATCCAGGTTCCCCTTGCAGCCTCCA
TTGGCACCCGAGAGGGAGCTCCTTACTGCTGCCTGCCAGGGACCAGCGTTACGGCACCCTGCRAGGCCTCCACTACTGCCTTCATGACTGGGAAAGAYAG
AGGTCCCCTTTGCCTCCCATGCAACCTCCACTAATAACATGGTCAGGAAAGGAATGGCCTTTCTACCTCTGAGTGGAGGTGGAATTCCTGGCTCTCCACT
AGGCCTCCTCTGACATGACCCCATTGAAGAGGGGGAGGGACCTCATTACTGCTTCATGGAGGTGGAAGTCTAGGCTCCCCACGTGATGTCCACTGACATC
CTCCAGGTATGGACAGAAGTACCAGCTTCCCTCCTCAGCCTTCCCTGACACCATGACAGTGGAGGGGAGGGCATAGCCGGGGAGTTAGAGTGCCCCATTA
TAGCCTGGTGAGGATGGAAGTCTGGGCTCCCCACTCAGCCTATGCTGGAATAGGTAGGGGTGGAGCCACATTTTTTCTGTGGTGTTTGGCTGAAGTAGAT
CAGTTAATATCTAAACATTTTCTGTCTTTCTGGCTGCCCCTTTCCTTGTCTGTCCCTTAGCTGCGAGCATAGGCTCTTGTGGTGGTGGTATTATTGTTTT
TTGGGGATTTCTTTTTGGTCTGTGCCCAGTGGCATTTCCAGGTTGCTGCTGTCTTCCTGCAAAAGAAAATTCAGGAAATTCTTTGGGTCCCAAGATCACT
GACCAGTTTGCCCTCTTTCCACCACCTGGAGTCGTCTTACGTTTGTTTATAGTGTCCAACATTTTTAGTTGTATAGTCAGCCCTCTGTATCCTTGGGTTC
CACATCATGGATTCAGCCAGCTATAGGTTGAAAATATTTTTTTAATTGCATCTGTACTGAACATGTACAGACTTTCTATTCTTTCTATTATTCCCTAAAC
AATATAGTGTAACAATTATTTACATGGCATTTACATTTTATTAGGTATTGTAAATAATCTAGAGATGATCTAAAGAAGCAGTCCCCAACCTTTTTGGCAT
AAGGGAGTAGTTTCATGGAAGACAATTTTTCCACACGCCGCTGTGTATGTGGGGGTGAGGGATGGTTTCGGGATGAAACTGTTCCACCTCAGATCATCAG
GCATTCGTTAGATTCTCATAAGAAGTGCACAACCTAGATCCCTTGCAAGCACAGTTCACGACAGGGTTCGTGCTCCTCTGAGAATCTAATGCYGCCGCTG
ATCTGACAGGAGGCGGAGCTCGGGCAGTAATGGTCACTGGTCCACCACTCACCTCCTGCTTTGCAGCCAGTTCCTAACAGGCCACAGACTGGTACCAGTC
CACTGCCTGAGGTTTGGGGACCCCTGGTCTGAAGTATACAGGAGGATATACATAGCTTATATGCAAATACGGCACCATTTTATATCAGGGACTTGAGCAT
TCAAAGATTTGGGTATTCGTGGAAGGTCCTGGAACCAGTCCATGGACAGCTGTACTTGAAGGTCCTGGAACCAGATACCAACAGACAGCTGTACTTAGCA
GGAGGAATAAGGTAAAGAACACCCACTCCAGCTCCTGAAAGTGGAGATTTTCATCTGTCCATTTAAAACCATTCAGAGGAATCTCATGATTTTCCTCACC
TGTGTTCTCTCTGCCTGTAACATCTTTTTCTCCTTTTGCAGCATCAGCCACTATGTGATTGTCATGTCCATGACCATCTTKTTGGTGTTCCTCAATGGCC
TGGCCCAGCTGCTCACAACGAAGAAACTCAGACTATGTGGCAAACCCAAAAGTCACTTCATGTGAGGTTGCTGAAGCACCATTCAGCATCTGGATCCTGA
TTCTCCTTTTAAGCTAAAATCTCATCAAGGCTTCAATAAGAAGATGGATATGGATATATAGTATATTCTACTCCTGTAAGGAAAATGGTATTTGGAATTC
CGAATTGACAGGTTATCTGGAACAAAGGAGCTTCTTTTTTTTTCTAGGTTTTGCAGGCATGAAATAGTGATTATATCTGTGGAAAAGCATAGGAAGGCAT
TCTCCTTTTTCATTTTTTTCCTTTGGCTGGCAGCTCTTCCCAGTGATGTTGAGAGCACCTGCAGCAATCTGGTCCCCAGTCGCACAACTTCCCACATACC
CAGAGGAGAGCATATGCCTGTGGGGGCAGTGCTGATGGCATCCAGAGTCATTGCTGTGGCTGAGCTGGAAGGAAATCACCAGGTGCCACCGTCAATATTT
ATCAGCTTTCAGCACTGGTTTTGTTAGACAGTCAGGGTGTATTATTTCAAGAGCTTCAATAAAAAAAGTGTTTGCAGGTATTTGTCATATTTCTTTAGTA
TGCAATAATGCTATCTTATCCTTTTTAGTGCTATTTCTCAGGTTTTCTCAGTCAACCAGCTAGATGCATGTGATGCATGTCTRTCCTTCACTTTTTTTTT
TTCATTTCTGGATTTTCCTGGGATTTCTGACAACACAAAAGTAGAAAGTGCTTGGTATTTCTGTCTTATACATAGGAAAACATTTAAAATAAATAGTTTT
TAATTGTAGGCTCAACATCTGTTACCCCATAGCTTTTTCGTATATTGTTTCTTTCCCTTTGAATTTCTTTTTACTGTCATCTATTATTTTAACAGGAGTT
AAAATAACTCCTGTTAAACTTTCTGACAATATCATAAGAATTCATATTAAAGGTGTTATTCTTTCTGGTTGTGAGATTCTAGCACAAAGGCCTAAAATCA
TCAAATTAGATTTCCATTTGTAAACAAATTCTAATGGGCAAAATATCTTGAGAGCAGTTTTTATATGGATTATCCATAAAATGACCTTTACATATCCCTG
CAGAGTTGGCCTTTTGCCCGTGGTGTGCTAGTAGCTTTGGCTGATGCTAAGCTTTCCTGGTATGCGCCCTATTTTTAAGAAGTAATTGCTTTTGAATTAA
GTTATAGCATTACTAATTCATGTTAATGACTAGGAAACCCTCTGTAATTTACAAGATTTTTCAAATTGGTGGGGAGTGAATAAATACAATTTAAAAGAGT
CAGAAATCAGTTTGGCAAAGTGTACTTTCTTAATTTCTATTTATGATGAAGTATAGTCATAATTTATTTGTAATACTACTTTATGGTATACCAGTGAAAG
AACTGTAGTATAAAAAAGAGGTATTAATGTTTTATGAAATCTCATGCATCAGTTCATAGCATAAAATCTAGCTGGACAACTAAGAAGCTATGGTAGCAAA
CAGTGATGTTGATGGAATGAGAATCATGAACTTTCATATTACCTCAAAGGATTTTTTTATCAGTTTTTTTCACACATCAGAAAAAACTGACTGTATAAAC
ACTTATCACTGACCTTTTTCTATGTGTAGTTTTGCCTTTTATCTTTTCCCAAATTTTTATAAAGAGAAATTAATAAATATTTTATTACAACATTGTAAAG
GGTGCTCAGTTTTTTTATCTTTCTTTATTTTGCTCTTTGAGGCATATCTTTTTCTTAATTTTGTCCTTTCAGGTCAGTGTGAGTCTGTAGAATAGGTTGA
ACTTCCTTCTGACAGTATCATAGAGTTTGTGGAGTTTGTGTTGTGTGCCTGCAGCCACAGGCTCGCCTTGCTGCACCGTAACTGGCCCCTTCAGACTCAC
ATGGGAACAAGCCTTTTCTGTTGCAGTTTCCCAGATATCTTTAAATGTTTTGAAATGTATATTTTTATGTTGCAAAACAGAAAAAAGAAACGAGTTAGGG
AAAAAGTATTTCTATTTAAGGTATTTATTTTTTCATTCTACCTATGCCATAGATTTCTGAATCAAGACTTAGGACATTTGCTGATTAACAATGTTTAAAT
TAGGAATTGTTATAAGAATTAAAATAGGCAGAACAAGTTGTGAAAATATTGAACCAAAAAAAGGCCATGCTATCATCTTAGAGGGCCCATGAATAAACCT
TAGAGGGAATCCTAAGGCTTTAGGAAACCGCTGCAGCTTGTCTGTCATTTTCCAATATGTTARTTATTATACTTAGTGTACAGTATTTAGAATACAAAAT
GCTTTTTTATTTTTTAGGAAAATAATGTTATAAATGATTGTATATTTTCATAGTAATGTCTTTATAATTATTTATTAATGATAGAGCTGAATTAGAAAAG
CTCTTCATCCATTATAATATGGTTTCTCATGAAAAACTTATTACAAATTTCAGCCAACTCAGATATTAAGAACATCAGTGTCAATCCTCCTCCCCTCCTG
CGACCTTTTTACACTTGTTTTGGTGGACTAGGGGCTCCTTTTCTCCTCCTTTTTGACATATAACTGTGCCATTAAAAACATGATTTCTGATGAAGCTGGC
CTAGAGGGAATGAAGGAGATTGCGTGGGTATGGTCTCTAGGACAGGCGTAGCTGTTGCAGGGCCACCCTGTCCTTGGGAGAACCTGGTGAGCTCCCATAT
TCACACTAGATGCCATCATGTCAGGGGGCTGAAGAGAATGGAGCTAATCAACTCTGTCATTTGGAGAAGACCCCCTTCAGACCAGTTCTGAGAACTCCTT
CTTTTAAGAGACCAGAGATAACTTGATCATTTCTCACCTTTTCGTAGTTGTTCTTTTTTATGTTGACATTCCCCTTACTGTTTTTAAAATGCTTCAAAGC
ATTAATGATTGTTATGCTGTGTGCTTTCAGTACTATGGCAATATCTTTGTAGCATTTTCCCATTTCTGTATAAGCATGGTTTTTTGTTTTTTTTTTTTTC
GTTTTTGTTTTGAGACAGGGTCTCACTCTTGTTCAGGCTAGAATGCAGTGGCACCATCTCAGCTCACTGCAACCTCTGCCTCCTGGGCTCAAGTGATCCT
GCCACCTCAGCCTCCTGAGTAGCTGAGACTACAGGCACATGCCCCCACACCTAGCTAATTTTAAAATATTTTTTGATGGAGACAGGGTTTCACTATGTTT
TCCAGGCAGCAGCATTTTTTTTTGACTGGGATTTCTTTATGATGCTTTGTTATTTAAAAAAAAAATGAGAAGGAAACATTAATAATCAAAATTATCTTTA
ATTGGCCTCACAGGGCTAAAATCTAGAATTATTATTACTCTTGGGTAAACTCATGAAAAGYACTTAATATTCATTCTATAAAGAAACAAAAAGAACCTTT
GAGATGTGTCTCTTATTCATTTCCTTGGGTACACTTAAAACGGGTTACAGTTACTGCTCAACTTTCTACCTTCAGAACTGCAGCATTTATTTGCCACACA
GCAGCATTTATCAGAGATTGTCCCTTAGAACATTGGTTCCTTGTAATACAAATAAATGTCATAATAAAAATAGTTTCTTTTTTCTTTCTTTCTTTTTTTT
TCAAGACAGACTCTGGCTCTCTCGCCAAGGCTGGAATGCAGTGGCGCAATGTCAGCTCACTGCAAGCTCCGCCTCCCTGGTTCAAGCGATTCTTCTGCCT
CAGCCTCCTGAGTAGCTGGGATTACAGGTGCCCACCACCACGTCTGGCTAATTTTCATATTTTTAGTACTGACAAGGTTTCACCATGTTTGTCAGGCTCA
TCTTGAACTCCTGACCTCAAGCAGTTCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTGCCTCACCCAGCTGAAAAGAGTTTCTTAA
TTAAATATATTTGAGAAACATCTAGTCAAACCACCTTAAATAGGTATATTTACATTAGTTCTAAGGGAATTTAACTTGTGATGTACGTTGTGAAGGGAGG
AAGATAGCATTATGCCAAAAGTTTCCACTAGCTTGACAGCAGACCCTGTCTTAGAGTTTTCTTCCTGATTGGTAAACATAAGAAATGTTTCCAAAGCCGG
GCTTGGTGGCTCACCCCTGTAATTCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGTCTGGCCAAGATGGCAAA
ACCCCATCTCTACTAAACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACCCGGCGGGGTGGTAGGCT
CCTGTAATCCTTGCTACTCAGGAGCCTGAGGCATGAGAATTGCTTGAACCTGGGAGGTGGAATTTGCAATGAGCCGAGATGGTGCCACTCTGGGCGACAA
AGTGAGACTCTGCCTCAAAAAGAAATGTCTCCATATAATTTTGCACTAAAACCTTAATTTGTCATAGTTTTGAAAATAGGGTGTTGTATGTTGATTGAAT
TTTTTTCCCTGAGAACTGGAATACCATTTTTACTTTAACCCTTAATGTGAGAAAACTTTACAATTTCCTGCAATTTTTCCTGCCTCTGTATATATTACAC
CTGTCATCATTTAGTCTTTCATGTGGGAAAGGCCAGTGGTACCAGATTGCATTCGGTTCATCATGGCTCATTGTCTAGCCCTGCTAGAGTATAGACTAAG
CCTTCATACCTTATGTTTTATATCTTTTACCTGAAAAATAAATTTGCACCAAATTTCAACTTGTTTTCTTATGATTTGACAGTGTAGAAAGTGATTAGTA
GTTAAATTTTTATAATGCTTTGTTATTTAAAAAAACTATGAAAAGAAAACATCAGTTATCAAAATTTCCTTTAATTGGCCTCAAAGGGCTAAAATCTAAA
ATTATTATTACTCTTGGGTAAACTCATGAAAAGATAAATTCTTTTTACAGAAGAATTTAATTAGCTTGACTGGTATCAAATACCAATTGCATCAAACATC
AGTGATTCCATGAATTTTTTAAAGTTGTTTTTACTTTAAGCAGATAATGTTCAGTGAATTTGACTAATGTGATTAACGAAGGGACCAACACAGGTAATTG
TCAATCTTACAGACATAAACTGTTACCTCGAATATCCCTGTATTACTTGAAATTCTAGAAATCGTCTGTCAACATTTTAAAAGCTCCTCTCCTTGCTGAT
GAGAAGTAATATTCTTAAAGTTAGAAACCATACAATTAAATCCTGATTTGCCTGATACATGTTTGCTTATCATGTCCTATCTCTCATGCTATTGTGATTG
GTTTTATTTTATTAAAAACTGCTCATAGCATAGCCAGGTGATCTATGTGAACATCAACAGTGATAAGCTGACAGTATGTACCCTGGATACATGATGAGAA
TGGCACTTTAGCTACACGGACTTCCTCCCCAGTGCTCATAAACCCAGTCTAATCATGAGAAAAACAGACAAATATCAATATAGGAACATTTGGCAAAATA
CCCAGTGAGTACTTTTCAAAACTACCAAGGTCATCAAAAACGAGAAAAGGCTGAGAAACTGTCAAAGCCAAGAGAAGCCTGTAGAGACATGACCACTGCA
TGGGGTGCGGCACCCTGGATGGGCCCTAAACATGCGGTGCGGCACCCTGGATGGGGCCCTAAACATGGGGTGCGGCACCCTGGATGGGGCCCTAAACATG
ATGTGCGGCACCCTGGATGGGGCCCTAAACATGGGGTGCGGCACCCTGGAAGGGGCCCTAAACATGAGTTGCGGCACCCTGGCTGGGCCCTAAACATGGG
GTGCGGCACCCTGGAAGGGGCCCTAAACATGGGGTGCGGCATCGTCGATGGGGCCCTAAACATGGGGTGCGGCACTCTGGATGGGGCCCTAAACATGGGG
TGCGGCACCCTGGATGGGGCCCTAAACATGGGGTGCGGCACCCTGGATGGGGCCCTAAACATGATGTGCGGCACCCTGGATGGGGCCCTAAACATGGGGT
GCGGCACCCTGGAAGGGGCCCTAAACATGAGTTGCGGCACCCTGGCTGGGCCCTAAACATGGGGTGCGGCACCCTGGAAGGGGCCCTAAACATGGGGTGC
GGCATCGTCGATGGGGCCCTAAACATGGGGTGCGGCACTCTGGATGGGCCCTAAACATGGGGTGCGGCACCCTGGATGGGGCCCTAAACATGATGTGCGG
CACCCTGGATGGGGCCCTAAACATGGGGTGCGGCACCCTGGATGGGCCCTAAACATGGGGTGCGGCACCCTGAATGGGCCCTAATCATGGGGTGCGGCAC
TCTGGATGGGGCCCTAAACATGGGGTGCGGCACCCTGGATGGACCCTAAACATGGGGTGCGGCACCCTGGATGGACCCTAAACATGGGGTGCGGCACCCT
GGATGGGGCCCTAAACATGAGATGCGGTACCCTGGATGGGGCCCTAAACATGGGGTGCGGCATCCTGGATGGGGCCCTGAAACAGAAAAGGACATCAGGT
AAAAACTAAGGAAATCTGAATAAAGTATGGAATGTAGTTAATAAAATGTCAATATTTGTTCATTAAATGTGAAAACTGTGCCTTAGTAGTTTTTAGTAAT
TAGTAATCATTAGGTATTAATAATAAGAGAAACTGGGTGAGGGAGTGTGTTGGAACCCTCTGTATTAATTTTGCAAATTTTCTATAAAACTATTGTAAAA
TAACAAGATTATTTAAAATTGTAATTTTATGTTTTTAAAATTTTTACTCTATACACATAATTTTACATAAATGCATTAGAAGTGTAATAACAGAGAAGCA
GAGGATTGAAGGGGTGGTTCACTGGTTTTTTTCTGTTTTCGTTATTTCTCCCTAGTTCTCTCTCTGCTCTTTCACTCCTGTAACTCCTCTCTGAGCCATG
TTAGAGCCCAATGTGTATAACATTTTTCTTCCTGAATTACTTTCAATCAATTATTGTAGCTATTATTATTATTATTATTATTATTATTTTGAGACAGGGT
CTCACTGTGTCGTGCAAGCTGTAGTGCAGTGGTACAATGATGGCTCACTGCTTCCTTGACTTCCTGGGTTCAAACAGCCCTCTTACCTCAGCCTCCTGAA
TAGCTGGAACCACGGGCTAATTTTTAAATATTTTGTTTTTGTAGAGACAGGGTCCTGCCATGCTGCCCAGGATGGTCTTGAATTCCTGGGCTCATGCAAT
CTGCCCCTTGGTCTCCCAAAGTATTGGGATCAGAGGCACGAGCCACTGTGCCCAGCCAATTATTATGTTCCACATAAATCTCACATGAGTGTGTAGTGGT
CAGCTGTGCCTTTGCTCAGCATTTCCTCTTGAGATAACTGTGCCTGCATTGCTAACCTTCTGTTTCTGGCAGGAGCCAAAAATTTTTTATGACCCTTCTC
ACCACATTTGACTAGTTTAGGGGTGCACATCCAACCCACACAAGACCAGTCTAAGTTCTTTGCAAGATTTTCAAGCTGCAACTGAGAGAAAGTTTCTAAC
ATGTGAAGTTTCAGAGCTGTTTTTGGCCAAGTTCAATTAAGTGAAATATTCTAGTAACCTCCCAGTAAGTAATCTTTTCAAAAAAAAAAAAAAAAAAAAA
CACGGAGGGGGATTGAATTCACTGATCTCTCTAAGAACACGGTGGATTACGAGAAATCCGAAGCTCCACTTAAAATGTTTATTTTTGTTCCTGGTTTTT


SNP Information

Context             (SEQ ID NO:4902):
AAAGTTACACATTTGGTATGATTACAACTACATTAAAAATTCGTGTGTGTGTGTGTGTTTATACACATATATACAAACGTGTATATTTATATACACATAT
R
TACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACATGTATATACACATATGTACAAACGTGTATATT
Celera SNP ID:            hCV8687503
SNP Position Genomic:     67813
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4903):
GCAAAGAAAAATAGGCAAAATGTAAAATAAATTTTGCCTGTTTTCCCATGCACACACATTGAAAGGAAACACAACAAAAATTTCAAAGCATGTTGGAGAA
R
GCCCTAAGGCATATGATGTCTGGTATTTGAAGAAGTGCAGGAAAGAGCAAAAGAGAGGAATGGGCAGGGGCCATATCTCTCCTCATAGGCAGGTTTAGCA
Celera SNP ID:            hCV8687507
SNP Position Genomic:     68320
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


Context             (SEQ ID NO:4904):
TTATTTTAAATTTTAGGTACATTACAAATGGCAACGTATGGTAGTCTCTTATTTTTCTTCCTTTTTTAGGTCTGCAATATTTTGATAGCATTGTATTCAA
R
ATTTATTGATTCATTTTATGTGCTTTAGCACTTTGCTAAGTATTATTGTGGATATTAATGGAATATAAGACATTATCTTGGCCCACATGGAGGCTAAAAT
Celera SNP ID:            hCV8687509
SNP Position Genomic:     76285
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;(G,-|A,-)   Caucasian(G,82)   African-American(A,1|G,83)   Asians(G,84)   total(G,249|A,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4905):
AAACCATAGATTTTGGCTAAAATCTATAAAACCATAGATTTTGGCTAAAATCTATAAAACCATAGATTTTGGCTAAAATCTATAAAACCATAGATTTTGG
M
TAAAATCTATAAAACCATAGATTTTGGATAAAATCTATAAAACCATAGATTTTGGATAAAATCTATAAAACCATAGATTTTGGATAAAATCTATAAAACC
Celera SNP ID:            hCV26583240
SNP Position Genomic:     129713
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4906):
TCCATCTTGAGAAACAAACTCTGAATGCATTAATCAGTCACACCCCATTCTCCCGCTCATCAGCCCCTGGCAACCACCATTCTACCTTTGTTTCTATGAA
Y
TTGATGACTCTGGGTATCTCATATAAATGAAATCATACAGTATTTGTCTTTCTTGCAACTGACTTATTTCACTTGGTGTAATATCGTCAAGGTTCATGTA
Celera SNP ID:            hCV1389630
SNP Position Genomic:     123386
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4907):
GATATGTGATAAATAATTTGGATTTCAGAAACCATAGATTTTGGCTAAAATCTATAAAACCATAGATTTTGGATAAAATCTATAAAACCATAGATTTTGG
M
TAAAATCTATAAAACCATAGATTTTGGCTAAAATCTATAAAACCATAGATTTTGGCTAAAATCTATAAAACCATAGATTTTGGCTAAAATCTATAAAACC
Celera SNP ID:            hCV26583241
SNP Position Genomic:     129601
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4908):
TATTTGTCCCAATTACTTATTATACTTGAACTTTTTCTTTTTGCTTAGATGTACTTTATTACATATTTGATTTCAGTATTATGTCACATTATTAAATAGT
R
CTTATTGTTACCACCACAAATGAAAGTAAAGTTGTGAGTTATATAATAATTAAAAATATATGTTTCATCTACTTGTGATCATCAAAATATGTGAAAATAC
Celera SNP ID:            hCV27502264
SNP Position Genomic:     31508
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,24)   caucasian(A,22|G,12)   total(A,30|G,36)
SNP Type:                 INTRON;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,384|A,1099)   total(G,384|A,1099)no_pop(A,-|G,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:4909):
TCTGTCCTCACAATAGTTTGCTCAGAATGATGGTTTCCAGCTTCATCCATGTCCCTGCAAAGTACACGAACTCATCCTTTTGTATGGCTGCATAGTATTC
Y
ATGGTGTATATGTGCCACATTTTCATATGTCTGTCTAAAGTAGTCTTCCCAGACCTGTAAGTCCCCTAATTGAAATTATACCTTTTGGCACCTTTTGTAA
Celera SNP ID:            hCV26583242
SNP Position Genomic:     129301
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4910):
ATGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAGCTCATCATTTACATTAGGTATATCTCCTAATGCTATCCCTTCCCCCTCCCCCCACCCCATG
R
CAGGCCTCAGTGTGTGATGTTTCCTACCCTGTGTCCAAGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAACATGCGGTGTTTGGTTTTCTGTCCT
Celera SNP ID:            hCV26583243
SNP Position Genomic:     129108
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:4911):
GCCTATTTTTAGGAGATGAGAGTAAACTTTCGAAGACATTTCATATGATTGCTATTAAGACACTGTAACATAGATTGTTTATTACAAAAATGAGAAAATT
Y
TCACCCGTTTAGTCAGTGTTGCTTGTCATTAGAGGAAATTAGTTGATTAGGGCCTCTAGCAGACAAACTTGCTTTCTCAGCAATAAAATGTTATTAGAGT
Celera SNP ID:            hCV25984911
SNP Position Genomic:     110497
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:4912):
TTTTATGATAGTTTAAAAGATTTTGTAAAAAGATTATTTTTTCCAAATTTTCTTTTCAGGTGCTAGTGGAGACCACGTTTATACATATAGTTATGATGCT
R
AAAGAGAGGATTTTGGTGCTCAAGATGCAACAAAACTGGATACGTGGGTTTTTGATAATGTTAAGGTTTGTGCTATTGAGTGGTTAATATACAAAAAGCA
Celera SNP ID:            hCV25753296
SNP Position Genomic:     38434
SNP Source:               Applera
Population(Allele,Count): african american(A,33|G,1)   caucasian(A,26|G,2)   total(A,59|G,3)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:4913):
GATTCTAAAAGTATTTATGCTCAGTGGAAGAATTCAGATGGAAGAGAGTACATGATGCAGAAATAGATTTTTATAAAATTCAAAAATGCAAACAAATCTA
Y
AGTGGTAGAAAATACATTAGTGGGCTGGGCATGGTACACCTATAATTCCAGCACTTGGGAGGCCAAGGTGGGCAGATCACTTGAAGCCAGGAGTTCCAAG
Celera SNP ID:            hCV11691619
SNP Position Genomic:     23872
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:4914):
CACATATGACAGATTCTTTTTGGGCGTCAATGTTGTTATTGGTTTTGTGGGATGGATATCTTATGCCTCTTTGTTGATCATCAAGTCTCATTCCAACCTT
W
TAAAAGGTGTTAGTAAAGAAGTGAAGGTACGTTTAGAAAATGTGAGGATTCAGATGATGGTATAAAATCACTAGTACTGAATCCAGTGTAATGAGTTTAT
Celera SNP ID:            hCV8687513
SNP Position Genomic:     79878
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:4915):
GGAGTTTGGTACGTTAATAAAAACCAGAGAAATAGAACCAGGCTATATATATATATAATATATATACATATTTATATATATATATGTATTATATATATAT
W
TTTTATTATGCTTTAAGTTCTAGGGTACATGTGCACAATGTGCAGGTTTGTTACATATGTACACATGTGCCATGTAGTATAAGAAATTGGCTTATGTGAT
Celera SNP ID:            hCV8687514
SNP Position Genomic:     82193
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,13)      total(A,2|T,13) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4916):
AACTTTGTAGTTAAATCTAATACGGTTATATTTACACACAGAGATTAGTCTATATTTTTCACATGTGCTGTGGTTCTACCTGTAAGTGCTTCCTCACAGG
Y
TGTACTTAAAATAGAGTGTATTGTTAACATTGTAGAAAACATTAGAAGTAAGGCTCTTTGGTGAGTTTCAAACACTTTTAATAAAACCACTAGAAGGGAG
Celera SNP ID:            hCV16190699
SNP Position Genomic:     83755
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,107|T,1378)   total(C,107|T,1378) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4917):
GGAACCCTTAGTTTTGCTCTTAAAGGTTTTCAACGGATTGAATGAGGACTACCCAGATTATCTAGGATAATCTCCTGTACTTAAAGTCCCTGACCTTTAC
M
CCATGCAGACTATCACTAGTGAATTAGATTGATGAATTCTCTGTTTTGGCAGGTGATTGGGAATAGTGCATATGACTGAATGAAGTTTCTATTGGGTGGG
Celera SNP ID:            hCV8687515
SNP Position Genomic:     82508
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4918):
CTGAACAAGTTACTTGCAAACAAACTTTAAGGCCATAGTCACTTTTAAGTTGAGAATTGCTTAATTGCAGCAATTCCAGGTTATCTAGGTTTTTCCTCTC
W
AATATGCTCCTCAAATAATAGATTTTTTTCCTTGTCTTAATGCAGCTCTTTGATTAATCATCTAGTAGTATAACCATTGAAAGAAAGTAATAGGTTTTCT
Celera SNP ID:            hCV8687519
SNP Position Genomic:     82886
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|T,17)      total(A,2|T,17) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4919):
AAGCTGTTACGTGATTCTTCATAGCAGCTTTATTTGAAATAGCCAAAAACTTTTAGAAACAACACAAGTGTCTGTTAACATGAGAGTGAATAAACAAATT
R
TGCTATATCTGTGCAATGGAATAATGCTCAATAATAAAAAGGAACAAACATATATGATTCTAAAAGTATTTATGCTCAGTGGAAGAATTCAGATGGAAGA
Celera SNP ID:            hCV11691620
SNP Position Genomic:     23716
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4920):
AAAGCAGTGACTCACGCCTGTCATCTCAGCACTTTGGGAGTCCAAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTCAAAAAAAAAATAATAAAAAAATAA
K
AAGAAGAAATGAAAGCACACGCCCATACATAAGCTGTTACGTGATTCTTCATAGCAGCTTTATTTGAAATAGCCAAAAACTTTTAGAAACAACACAAGTG
Celera SNP ID:            hCV11691621
SNP Position Genomic:     23585
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4921):
ACAATCATAACATCAAAGATCACTGATCGTAGATCAACATAACTGACAATAGTAATGAAAAAGTTTGAAATAATTGCAAGAATTACAAAATATGACACAG
R
CATGAAGTGAGCACATATTGTTGGAAAAATAGCACCAATATACTTGCTCAATGCTGGGTTGCTTCAAACTGTCACCTTGCAAAAATAAATCTGCGAAGAG
Celera SNP ID:            hCV11691625
SNP Position Genomic:     22668
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,1|-,6)   total(G,1|A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4922):
CAGAGTTTATTTGCATGATTTGGATCACCAATAAGAAGTCCCAATCTTAATTACCAATTTGGCAGGAAAATATATCTTTGTCTCTTCTATTGCTTTCTTC
A
GCATAATGTAAAGTCAACTATTTACAGGTTGATTTTAAAAATATGAGTTGGGTTGCTTCACAATCTAGTTATTTTTAGTATTGCTAATATTTTGTGTTCG
Celera SNP ID:            hCV11691626
SNP Position Genomic:     19979
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,11)   total(A,1|-,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4923):
AGTGCTAATTATATGGCTTAATAGTTTATCTGATAATCTTGTGTGCAGGCTCCAAGTACTATCTTACAGTTTTTCTTTCCTCTTCTTCTTTTTTTTTTTT
T
AAGTGGGTCTTGCTATGTTCCCAGGCTAGCCTTGAATTCCTAGGCTCAAGCAATCCTCTCGCCTCACCCTCCTAAGTAGCTGGGACTACCAGCTCTGTCT
Celera SNP ID:            hCV11691627
SNP Position Genomic:     14442
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,12)   total(-,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4924):
TAAAATACTTCTAGATTAAAAAAAAATAGGTAAATAAAGCCCTTGAAACAAATCCGTTAGAGCTTATTTTAGTTTTTGAATAATCTATAAATGGAAAATT
M
TGTAGTGTTTTAGCTTTGTGCAAAGTTTGTATTGTTATACTATGTATGACCTAACTTTAAAATTCAATCAGTCTTTTTATTTGAAACAGATTTCAAGTTA
Celera SNP ID:            hCV8687523
SNP Position Genomic:     85863
SNP Source:               Applera
Population(Allele,Count): african american(A,34)   caucasian(A,34|C,2)   total(A,68|C,2)
SNP Type:                 INTRON

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:4925):
AAATACTTCTAGATTAAAAAAAAATAGGTAAATAAAGCCCTTGAAACAAATCCGTTAGAGCTTATTTTAGTTTTTGAATAATCTATAAATGGAAAATTAT
S
TAGTGTTTTAGCTTTGTGCAAAGTTTGTATTGTTATACTATGTATGACCTAACTTTAAAATTCAATCAGTCTTTTTATTTGAAACAGATTTCAAGTTATT
Celera SNP ID:            hCV8687524
SNP Position Genomic:     85865
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:4926):
GTCTTTCACTACCTTCTCTTTTTTTAACCTATTTCATCTTTGTCTTTAGGTGCTGAGCACAGTGCTCTCCATGTATGTTGTGTATAGCACTCAGAGTAGT
Y
TACTCAGGAAGCAAGGACTGCCTCTCATGAATCAAATTATTAGCTGGGCAACATTAGGTAAGAGGCCACTCAAACCAGGTGAGGTAATTTGACATCAACT
Celera SNP ID:            hCV8687528
SNP Position Genomic:     91906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:4927):
TATCTATGATACACACTAGATCCATGTTTTTCTTTTGAAAAAATCACTAGCAGCCCACTACAGATATGGTCCACCTTGCTCATATTAGGGAAGAGGAAAA
Y
AACTTACTAGGAACTGAGTGAGGATGACCTCTCAGGCCTCATTATTCTCGGTACACAGCCTCTTCAATCTGGCTGTTTTAAAATGCATTCACAAGGAGTT
Celera SNP ID:            hCV25760741
SNP Position Genomic:     107527
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(C,8|T,16)   total(C,10|T,50)
SNP Type:                 INTRON


Context             (SEQ ID NO:4928):
CTTTTGATGATTTTTGTTGTTTGGGTCATGGGGGCCCACCCCTCATGAATGGCTGTACTAACTTACATTCCCACCAACAATGTACAAAGGTTCCCCCTTC
Y
CCACATCATTGCCAGCATCTGCTATTTTTTATCTTTTTGATAATAGCAATTCTAACTGGGGTGAGATGATATCTCATTGTGGTTTTGATTTGCATTTCTT
Celera SNP ID:            hCV8687529
SNP Position Genomic:     92700
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4929):
AGGTGGTGCCACCTACTGAGATTGTGAACACTAAGGATTTAGTAGGTAGTAGACAAGGCTCATGGGAAATGTTATGAATTTGGTTTTAAACCTACTTAGT
T
GAGTGTCTTTGAAACGTCCATGTAGATTTATAAAGGTTCGAGTTACATATGTGGATTTGGAGCTATAATTTGTTGAGGCTTTTGCATATTAGGTAATAAC
Celera SNP ID:            hCV11691630
SNP Position Genomic:     10714
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,9)   total(-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4930):
ATCTCATGATTTTCCTCACCTGTGTTCTCTCTGCCTGTAACATCTTTTTCTCCTTTTGCAGCATCAGCCACTATGTGATTGTCATGTCCATGACCATCTT
K
TTGGTGTTCCTCAATGGCCTGGCCCAGCTGCTCACAACGAAGAAACTCAGACTATGTGGCAAACCCAAAAGTCACTTCATGTGAGGTTGCTGAAGCACCA
Celera SNP ID:            hCV25614611
SNP Position Genomic:     147081
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(G,1|T,39)   total(G,2|T,76)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4931):
CATGTGTAACTCAAGGAACTGTTTATTTTTAAAGAAAAGGGTAGAATGTGTTCTTACATAAAAGAGCCTAGTCATATTGATAGGAGGACTGACATTACCT
K
TAAGGTTTCAGTAATTCACTTAGACTTTCACATCAAAATGGGCCAGTTATGTGGTAATTGAAATGCTATATAAGTTGTACTGATATGTCCATCTCTGAAG
Celera SNP ID:            hCV25614612
SNP Position Genomic:     86403
SNP Source:               Applera
Population(Allele,Count): african american(G,36|T,2)   caucasian(G,24|T,6)   total(G,60|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:4932):
CAGTGTTTTGTGTTTCCTGACATCCAGTGTATTACTTGAACATTTTATAGAATTATTTTTTTACTTTTCTGTGGTGTTATTAATGTATCTCTTTGTATGG
Y
TTTTTAAATGGTTGCTGTAGGTATTATATATACATAGCTAATCCCAGTCTACTGGTGATGTCATTTTACCAGTTTAAGTAATATATGGAAACCTTACCTC
Celera SNP ID:            hCV11691490
SNP Position Genomic:     139727
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4933):
GAAGAATTTTGTCTCATTGATTTTTATTTTTATTGCATTCCTTATATTGATTTTAAATTATGCTTTGATTTGTCCATTCTTCTTTGAATATAGTATTTTT
T
AATCTTACATATCTCACAGTTCAGATATTCATTTGATTCAGAGAACCTTCAGAATATTTTCCCAAAACTTTTAAAGATTTTTATTTAAGATTGAAATTTT
Celera SNP ID:            hCV11691564
SNP Position Genomic:     97577
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,14)   total(-,14|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4934):
ACTTATATTTCCACTTTGATACTTTTTGATAGAAGTAGCAGGAAGATATCTTCTTTCTACTCTGAGAATTTATTAAAAAATCTTCAATGAATGGGATTAT
M
GATCTTTTAATTTGTGAGGGATCTTAATCTAATTACAAAAGTAGTTTTACTTATTTTCCTTCTGGGCTCAGTTGTTTGGTGATTATTGTAGGCCACCTTT
Celera SNP ID:            hCV11691565
SNP Position Genomic:     86861
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,12)   total(A,1|C,12) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4935):
GATAAGTATGTATTTATTATAGATTATTAAAAATACAGTCAGTCTTGATTTTCTTCCTTCAGCTACATAGGGAATTACAATGTGCTTCTACAAAGAATGC
W
CTTATATTTCCACTTTGATACTTTTTGATAGAAGTAGCAGGAAGATATCTTCTTTCTACTCTGAGAATTTATTAAAAAATCTTCAATGAATGGGATTATC
Celera SNP ID:            hCV11691566
SNP Position Genomic:     86761
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,12)   total(A,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4936):
CCTTCCTTCATCCCCATGGAGAAAGTGCTACAGGCATTTTATTCCAAGTAGAAAACCAGAAGACACCTCTAAAGAGACAAAAAAACAAACAAACAAACAA
M
GACCTGGGAGGAATTTCATTGCTATGATATATGTGCCTCCACTTTAGTAAGGCTGTTCTCCATTCTAGCATGTGTAGCCTCCTCCTAACAAAGGACAGAG
Celera SNP ID:            hCV11691495
SNP Position Genomic:     124933
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:4937):
TGGGACCACCATGTATATGCAGTCCATTGTTGACTAAAACATCATTATGTGGTGCATGACTACACTCACGCAGAAGTTCTTAATAGTGCAGTAAAAAAAA
A
TTAAAACTTAGTATCTTAGTATAGAAGGTGCCCATATGATTTTGAGGTAAGCGCAGCAATTAGCAATTATTTTAAGCCCCTGGAAATGAGACATCTTTCC
Celera SNP ID:            hCV11691497
SNP Position Genomic:     121506
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4938):
CTACTTGGGAGACTGAGGCAGGAGAATCGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCAAGATTGTACCACTGCACTCCAGCCTGGGCGACGGAGC
R
AGACTCCATCTCAAAAAAGAAAAAAAAAATCAACAATGAAATATCATTACACACTTACCAGAACAGTTTATCAGAATAGTTAAAAACAAATAGTGGCATC
Celera SNP ID:            hCV11691498
SNP Position Genomic:     117070
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,7)   total(G,7|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4939):
GTCTTTACTCACATAGTTTTATGGTTCACTCAGGTGGAGGGAGTGAAACATACAAAGGGCATGAGTTGAAAACATGCTTGGTGTATTTGGAGAACAGCAA
G
AAAGGTAGCCTTAAGCAGAGTGTGCTAGCAGAAGAATTGTAGGAAATAAAGTTGAACAGGTTGGCAGGGGCAGAAAAGAAGGGGCCACAGATAGGACTTC
Celera SNP ID:            hCV11691499
SNP Position Genomic:     113948
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,9)   total(G,1|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4940):
ATTGTATCTTTCAGAGTGGAGATTGGAGAATTGGAAGAGGCTAGATGTCAATCAGGTATCCAGTTCGATTTTATTACATTCAAATTTAATTTTATCTTCT
R
TAAGAAGGTTAGACAAAAACTATGAAAAAGAGATAATATTAATATTGACAAAGTCTTTTTCAAAACATTTCAGTTACTAAGGGGAATTCTTTTAGTGCAA
Celera SNP ID:            hCV25755494
SNP Position Genomic:     49779
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,30)   total(A,62|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:4941):
CATCAAATATATTTATAATACTGTACTTTCAAACCTCCAGTCCCTCTCACTTCATTTATAACTGCATAAATGTTGAGTAGGATATAAACATTCTTTCTGT
Y
GTACTTTTCCCTTTTGACTTCATCTTTATTTTTCTGAAGTGGCAGTGTTCACTTCTTTGTGTATCTTTTATAGAAAAAAAATGGAATAAAAGTAACGATT
Celera SNP ID:            hCV641201
SNP Position Genomic:     83394
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,239|T,1246)   total(C,239|T,1246)   no_pop(T,-|C,-)   SC_12_A(C,1|T,22)   SC_12_C(C,9|T,15)   SC_12_AA(C,7|T,10)   SC_95_C(C,61|T,118)   total(C,78|T,165) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4942):
TGTTGACCTATCCTCTGAGCCATTTTGTTGGGTACCTGTTAGCCTTTACCCTGGGAATTGAAGTATTAGTAAGTAACTTACCAGATTACAACATTTGCAA
R
TTTCTTTTATATATTTGTAACTAGTATTAAATGACCTTATTTTTCATTCCTTCTTTGGAATGCATTACTAGGTTCTCAGTTTTTTCTACCGCTATATGCT
Celera SNP ID:            hCV15815900
SNP Position Genomic:     86085
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,1)   caucasian(A,25|G,9)   total(A,48|G,10)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,27|G,11)   total(A,63|G,13)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:4943):
CACCTGTTGTATTAGATGTAATTTTTCCTTCTTTTTTTTTCCAGCCTTTTTCTCATTGTTCTCGTCATATCAGACATTATGGCTTTGGTAAGGCATTACT
R
GGTAGTCCATATAAATTAGATTAAGAGTCCTGGGTTAATTTAATAAAGAGAAATATGAATGCATTTTGGTACGTGAAATCTTTAGATGTTGAGTTGTAAG
Celera SNP ID:            hCV25752732
SNP Position Genomic:     118271
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;TFBS


Context             (SEQ ID NO:4944):
CTAGTTAGGCAAGTCCTAAATTCACAGGTCAGGCTGTCAGGAAAGGCAGACTGAACTCGCCAGCAGGAGCTGAAGCTGCACTCAACAGGTAGAATTTCTC
C
TTTAGGGAACCCTTAGTTTTGCTCTTAAAGGTTTTCAACGGATTGAATGAGGACTACCCAGATTATCTAGGATAATCTCCTGTACTTAAAGTCCCTGACC
Celera SNP ID:            hCV11691570
SNP Position Genomic:     82402
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,18)   total(C,18|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4945):
CCTTTTCATGTTTATCTTAATATTCAGTTTATTGAGAAAAAAATATGTTTTTATATTGATATGTTAACAAGATTTCATAGCTGATAGTTCTTCATTATTC
R
TTAATCTGATAATACAGCCAATATTTAATTGAGTGTATGGTACAATGCTAGATGCTGGCAAGGGTATCCAATCTTTTGGCTACCCTAAGCCACATTGGAA
Celera SNP ID:            hCV11691571
SNP Position Genomic:     81150
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:4946):
CCTTCTTTGGAATGCATTACTAGGTTCTCAGTTTTTTCTACCGCTATATGCTTACCGCTGGACTTACTGCCTTTGCAGCTTGGCCATTTCTCACTCGGCT
R
TGGACTCGAGCAAAGGTATGAGTACTCATTTTGACATAGGACAGATTAGTAACTACTTTGTTTTGACACATGTGTAACTCAAGGAACTGTTTATTTTTAA
Celera SNP ID:            hCV25614622
SNP Position Genomic:     86234
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,11|G,29)   total(A,13|G,65)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4947):
AACTATAAGCTATTTCTTGGAAGACTTCAGAGAACAAACAGCAATTCAGGTTTTTTTCTTTGATTTTTGTTTTGTTTGCTGTTTTGTAATTTTCACTATC
W
TTGTTTTTTAATTAAGGGGAAAAAAGAAACATATACTTGGAATGAGGAAACCCTTTAAACCTATTCTTTTTTTTATATATAGACTGCTTTCTGATTCCAA
Celera SNP ID:            hCV25614623
SNP Position Genomic:     78316
SNP Source:               Applera
Population(Allele,Count): african american(A,2|T,32)   caucasian(A,9|T,27)   total(A,11|T,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:4948):
TGGATTATATGACTTTCATAAGTGTAGTTTGGCATTTGAAACTTCGAGTCAAGAAAACCAAATTTAACTATAAGCTATTTCTTGGAAGACTTCAGAGAAC
M
AACAGCAATTCAGGTTTTTTTCTTTGATTTTTGTTTTGTTTGCTGTTTTGTAATTTTCACTATCTTTGTTTTTTAATTAAGGGGAAAAAAGAAACATATA
Celera SNP ID:            hCV25614624
SNP Position Genomic:     78251
SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,26)   caucasian(C,40)   total(A,4|C,66)
SNP Type:                 INTRON


Context             (SEQ ID NO:4949):
GCAAAAAAGGAAGCTGAAGCTGAGGAGGATTAAGTTACTTATTAAAGGCCACTCAGATAGCATGTGAGGGACTGAGACTTTAATCCAGAGCAGTCGTGGG
Y
CAGAGAGTGCCTTTTCATGTTTATCTTAATATTCAGTTTATTGAGAAAAAAATATGTTTTTATATTGATATGTTAACAAGATTTCATAGCTGATAGTTCT
Celera SNP ID:            hCV11691575
SNP Position Genomic:     81040
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4950):
ATTATTAAATAGTGCTTATTGTTACCACCACAAATGAAAGTAAAGTTGTGAGTTATATAATAATTAAAAATATATGTTTCATCTACTTGTGATCATCAAA
R
TATGTGAAAATACATATGAATGCATTAAGATTTACCCCAATTTAATTTTGTTCTCTCTTTCAGCTGTTCTTGAAGACTAATTAGTTACACTGGATATGCT
Celera SNP ID:            hCV25757179
SNP Position Genomic:     31595
SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,32)   total(A,69|G,1)
SNP Type:                 INTRON

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:4951):
CCTTGAAACAAATCCGTTAGAGCTTATTTTAGTTTTTGAATAATCTATAAATGGAAAATTATGTAGTGTTTTAGCTTTGTGCAAAGTTTGTATTGTTATA
S
TATGTATGACCTAACTTTAAAATTCAATCAGTCTTTTTATTTGAAACAGATTTCAAGTTATTCAGGACCTTGTTGTATCAGTGTTGACCTATCCTCTGAG
Celera SNP ID:            hCV25752309
SNP Position Genomic:     85903
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:4952):
TGGGTGCAGGCTTGCTGGTTCTTCTGTTATCCCTGTGTGTTGTAACATCTCTCATGAAAAGAAAAGATAGCTTTATAAAGGAAGAGCTATTGGTACATCT
R
TTACAGGTCAGTTACAGATTTTCAATACTATGTTATACTAATGATATACTGAAATGTGTCTTATGGTTATATTTAATTATGTTCATAAAATGCCATTACC
Celera SNP ID:            hCV25758485
SNP Position Genomic:     90238
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(A,5|G,21)   total(A,7|G,57)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4953):
GCTTTCCAGGGGTTCAGATTCTTCATTAGAATGTAATTCATGTTCTTCTTCTCTAAGGTCATTATGCTTGTTTTATTCCCTTTACCATAATGCCTGACAC
R
TTTTACTTAGTATATATTTGTTTAAATAAAGTAAACTGATTCTTGCCTAAAATCCGATTACCTAATGTTCAGATTTATGAATAAAAATGGTTAAAGGTGT
Celera SNP ID:            hCV8687543
SNP Position Genomic:     109079
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:4954):
ACAAATGGAAGTTTAAGAAGTGTTAAAAAGATGTTCAGTTTCTCACATCCTGTTCCCTACTGAGTTATTTTAAAACATGTTGCTATTTCCTTAATTTTCA
Y
TCACATTTTTTAAATGGTTTTTTTTCCCAGTTTATTAAAGACCATTGGCCTTTAATTAAAAACAAGCAAGCAAGCAAGCAAGCAAGCAAGAAAGAAAGAC
Celera SNP ID:            hCV8687547
SNP Position Genomic:     109323
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4955):
CCACTCTGAAAAGAGTTTTACAGTTTCTTATGAAACTAAACATGCTACTGTTGTATGACCTAGCAATTGCACTCTTGATGTATTTTCCTAGAGAAATGAA
W
GGTTTACACAAAAAATTAGACACAAATGTTTATAAAAGCTTTATTTGTAAGAGCCACAAACTGGAACAATAGCCACAAGTAGAAACAACCCTTGATGTCC
Celera SNP ID:            hCV8687548
SNP Position Genomic:     117340
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4956):
AGGTTGCAAGTACATTCTGCAGAGAGGAATTGAGCCTACAAAGGTCTTATAGCAGTGGGATACTTGAATAAAAGAAGGGGCCAGTGATGTGAGATGTTAC
M
AAGTAAAGGGGAGTGCTATGAGACAGGTTTAGAAAAGAAGGCAGAGGCTAGTCTATAAAAGACCTTGTTAGTCACATTAAGGATTTTAGTCTAGATTAGT
Celera SNP ID:            hCV8687476
SNP Position Genomic:     9651
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:4957):
TGCCAGGATAGAAAGTATAGAGTGAGAAGAAAAGACAGCTGAGGACCAAGTTTTGAGTAACTCCAAAATTTAGTGATCAGATAGAGACTGTTCAACATTG
R
TCAGAGGTGTAGGTGAAAAATGAAAGCAGTAATGTTCATAGAAGCCAAGTGATAACAGCCTATTAAAAAGGAGAAGGCAGCCGGGCATGGTGGCTCATGC
Celera SNP ID:            hCV8687477
SNP Position Genomic:     10939
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4958):
TATGTATAAACATACACACACTATATAAACATACACACACATATAATTGTAATGTACAAGTCAAATAAAAGGTCAATAACCCTAATCCTATCTGATCAAA
R
GATATGAATAGGCAGTTGAAAGGAAGAGAGACCCAATTGGCCAATAAAAACATGAAAAAATTTTCATACTCACTAGTAATCAGGCAAATACATATTCAAA
Celera SNP ID:            hCV8687478
SNP Position Genomic:     12378
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,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4959):
GTAAGTATTCTTTTAAGCAGATTTAGATCACATGTATAGTTCAGTAATATAGTAAATAATGGTATTTCTGTGGAATGCTTGGTCTACTAATGTTGCTGTG
G
TTTATTTAATCATTTTTCTCAAAATCTGATCTTAATGGCAGCTCATTATATAGACATAGTCAGTTTTTATTGTTAAGAAGTTATTCCATTTCTGAATAAG
Celera SNP ID:            hCV11691580
SNP Position Genomic:     68841
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4960):
ACTATGTAGAATGTTGTATTTCAAACATGTTGCTTTTTAAGTTAATACTTCATTAGTTTATCCATATCTGTAACTATGCATAGATTAAAGGGAAAATGAA
M
AACAAATAGTAAAACCATCACTTTTCCTTGTGGGCAATCTGAATTTGGGCAGTTGATAGGAAGATATATTAGTTTTCTAGGGTTGCCATAACAAACTACC
Celera SNP ID:            hCV11691581
SNP Position Genomic:     62692
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,11)   total(A,2|C,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4961):
ACAAGAAATAATTTAAAAGAAAAAATGCCACAGAATAAGAAGAAAGCAAAAAAGATCTCTTCAGAGATATCTTAGGGGGAAGAATACGGAATTGGGAAGG
R
GATATATACCTTGCCAATAGAAGCAAAAATATTTGTTACTTTTTTATTTGAAAATTATTATATAAATTTGATAAACAAAGAAATTTTAACAAAAAACTGT
Celera SNP ID:            hCV11691582
SNP Position Genomic:     61737
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,12)   total(G,12|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4962):
CTTTAGAGGCTGGAGTAAGACAAGAAATAATTTAAAAGAAAAAATGCCACAGAATAAGAAGAAAGCAAAAAAGATCTCTTCAGAGATATCTTAGGGGGAA
R
AATACGGAATTGGGAAGGGGATATATACCTTGCCAATAGAAGCAAAAATATTTGTTACTTTTTTATTTGAAAATTATTATATAAATTTGATAAACAAAGA
Celera SNP ID:            hCV11691583
SNP Position Genomic:     61718
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,12)   total(G,12|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4963):
CATACATTTTAGAGAAAAGGAATGGGCATTTTTTCATCAACTGATTAGTGTGAATTTTTGGTAGAGTCAGAAACGTATTTTTAAACTTTAATTAGCTTAT
T
GAATGAAATTTTATTATACAAATATCTTATAACTCTTTTGGCAGTGTATCCTAAAGCCATTAAATCAAGACGGTCTCTCATAATCACTTGTTTAGATTTC
Celera SNP ID:            hCV11691584
SNP Position Genomic:     49019
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,11)   total(T,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4964):
GTTACTGATTTTGAATGTAATGAATCCACGTTGAATAAATTTGATTTCTCCAAATTAATTTAATTTGTTCCTCTGTTTCTTTACAAATAGAGACTACAAG
S
ACAATATTAAAAAAGTTGATGATGGAGTTAAAGAAATCGTGTCTATGTTTAACCACTTCTATGGAAATGATGGGAAAACAACATTTATCTTTACCTCTGA
Celera SNP ID:            hCV11691585
SNP Position Genomic:     45953
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,28)   caucasian(C,3|G,33)   total(C,9|G,61)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,10)   total(G,4|C,10) 
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4965):
GTGTTCTGCTAATTACTTCAATTTAATCAGAATTTCTTTGTTAGCCAGAGTATTACATTTCTTCAGAATGATGGATTATATGACTTTCATAAGTGTAGTT
Y
GGCATTTGAAACTTCGAGTCAAGAAAACCAAATTTAACTATAAGCTATTTCTTGGAAGACTTCAGAGAACAAACAGCAATTCAGGTTTTTTTCTTTGATT
Celera SNP ID:            hCV25614635
SNP Position Genomic:     78180
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,30)   caucasian(C,9|T,29)   total(C,11|T,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:4966):
TTAAACCTATTCTTTTTTTTATATATAGACTGCTTTCTGATTCCAAACAGTTCAACATTTTAAGAAAAGCAAGATCTTATATAAAACACAGAAAGTTTGA
Y
GAAGTGGTAAGTATACCGGCCTTATAGACATAAATAGCTGATTATCATTTTGGGGATGGAGAGGAGAAAAATAGAGCAAAGTAGGCAGGCCAGGGAGCTT
Celera SNP ID:            hCV25614636
SNP Position Genomic:     78471
SNP Source:               Applera
Population(Allele,Count): african american(T,30)   caucasian(C,7|T,25)   total(C,7|T,55)
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:4967):
AAAAAGGGTTTATTAAAATATATTTGTTAATCATTCCCCTCCTTTTAAGCCATCTTTGAAAACTATTTCAGGTTATTTAGCTTCATTAAAAGGAGAAAAA
A
TTATTTTAACAATCTAGAGTACTCTGATTTTAAAATATTAAAGATGAAATCTAAAAGCATTTCAGAAGTTACTGATTTTGAATGTAATGAATCCACGTTG
Celera SNP ID:            hCV11691587
SNP Position Genomic:     45785
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,9)   total(A,2|-,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4968):
TTACATTTTTTTATTAACTTGAAGGAAAGAATTTTCCACTGAGTTTGCAATTTTTCACTGAGTGATAGGATTAGTTTACTTATACAGTTTGCCATTTTAT
R
TACATTAGTGTAAACTCCAAATTGAAATCCTCTTCTATTGCTGTTGTTAAATAATGAGCCAGGTGCTAGATAACTTTGAATGGCTGGAAGAGGGATGAGG
Celera SNP ID:            hCV25614637
SNP Position Genomic:     54906
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,36)   total(A,70|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:4969):
AAGAAGACAAAGGCACAGCCAGTTAATAAGTTATGTTAAACCTTAGTTTATCTCATTCTCAGTATTTCATCATTGGGGATCTAACCCCCATAGGTTAAAC
R
GGATGCTTGCTCTGAGAAACTTCTCAAAGGCAGGTATAAGAAACCTTAGATCTGTCTTCATCAGGCTGATGGCACTGAACAAATCTACATAAATTTCCCA
Celera SNP ID:            hCV28018596
SNP Position Genomic:     130612
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4970):
TTATAAAGTTTTCTTTGGAATTATAACAACAGAGCTAATATTTTAAACAACTACTGTAATGTTTATTAAGTTCTCAATTATATGAGATTTCCAATATAGT
S
GTTTAAATCATATGTGCTGTATCCAGATGGCACATTAATATAAGTAAAATATATCCTGTACATATTACATAATCTTCATTTACTGAAGCAGAGAAAAAAA
Celera SNP ID:            hCV25753620
SNP Position Genomic:     44993
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,10)   caucasian(G,2)   total(C,2|G,12)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:4971):
CAGTTTCTTATGAAACTAAACATGCTACTGTTGTATGACCTAGCAATTGCACTCTTGATGTATTTTCCTAGAGAAATGAAAGGTTTACACAAAAAATTAG
R
CACAAATGTTTATAAAAGCTTTATTTGTAAGAGCCACAAACTGGAACAATAGCCACAAGTAGAAACAACCCTTGATGTCCTTTGGTGCTTGAATGGTTAA
Celera SNP ID:            hCV8687552
SNP Position Genomic:     117360
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:4972):
TTAAGTAAACCATTGTATATCCATATGATGGAGTACTATTCAGCCATAAAAGTAAATGACCCATTGATACAGCACCTTGGATGATTCTTGAGAAAATTAT
K
CTAAGTGAGAAAAGCCAATCCCAGAAGGTTACAAAAGGTAACAAAGTGTTATATAAATTGTTCAACTTGTTATGTATGTGATTCTACTCATAAAACACTC
Celera SNP ID:            hCV8687553
SNP Position Genomic:     117557
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|G,10)      total(G,10|T,7) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4973):
AATCTTGATGAAAAAATATATACCCCAGAATAATAAGCAAATGAACTAGTGCTAATTATATGGCTTAATAGTTTATCTGATAATCTTGTGTGCAGGCTCC
M
AGTACTATCTTACAGTTTTTCTTTCCTCTTCTTCTTTTTTTTTTTTTAAGTGGGTCTTGCTATGTTCCCAGGCTAGCCTTGAATTCCTAGGCTCAAGCAA
Celera SNP ID:            hCV8687482
SNP Position Genomic:     14395
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4974):
TTAATTTGATTAGGGGAGTTGTTTTCAGATCCTCTTAAAAGCTTTTTTGAGGGGGAGGGGATTGAATTGCATGACAGTTTAAAAATGGTCTCATTGTCTC
R
TAGCCATGATTTTTATAGGAACTAAGTAATTGTATAGGACATTCATTTTTCTGTTCAGCTAGTTGCTATGTATGTTTTTAAAAATATTGTGCTTACCTAA
Celera SNP ID:            hCV8687483
SNP Position Genomic:     18184
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:4975):
TGAACTCAAAGTTTGACTCAATTGCCTTTGCTTTATAATATGCCATTTCTTCATATAGGCAATAAACATTTACTAAGGAGCTATTAATGGGTCAGTCACA
R
GTGGAAGAATGTTGTGAATATAGAAGTGAATGGGAGTGTGTCTAAAAGATCATATAATTTGGTATGTAAAACTGAAAAAGTAAGTAATTACAGCAGTGAA
Celera SNP ID:            hCV8687484
SNP Position Genomic:     18656
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:4976):
TGTCCATTACCTTAAATAGTTATCTTTTCTGTACACCAGGATCTTTTTAATTATTCTGTTCCAGCTATTTTGAAATGTATAATATATTAATGTTAACCAT
R
GTCATCCTACTGCTCTATTGAACACCAGCTCTTATTTCTTCTATCAAACTGTGTTATTTATACCCATTAATCCACCTCTCTTCATTGCCTTCTCCCCTCT
Celera SNP ID:            hCV27953693
SNP Position Genomic:     70895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4977):
CTTTATAATATGCCATTTCTTCATATAGGCAATAAACATTTACTAAGGAGCTATTAATGGGTCAGTCACAAGTGGAAGAATGTTGTGAATATAGAAGTGA
M
TGGGAGTGTGTCTAAAAGATCATATAATTTGGTATGTAAAACTGAAAAAGTAAGTAATTACAGCAGTGAACTAGGAGCTACCATGGAAGTGTTTCTAAGG
Celera SNP ID:            hCV8687489
SNP Position Genomic:     18686
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:4978):
TGTGAACACTAAGGATTTAGTAGGTAGTAGACAAGGCTCATGGGAAATGTTATGAATTTGGTTTTAAACCTACTTAGTTGAGTGTCTTTGAAACGTCCAT
K
TAGATTTATAAAGGTTCGAGTTACATATGTGGATTTGGAGCTATAATTTGTTGAGGCTTTTGCATATTAGGTAATAACTGAAGCCACAGATATGATGAAA
Celera SNP ID:            hCV27953694
SNP Position Genomic:     10736
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4979):
TACAGTATTTTTTTTTCCTTCTTAGTTATACTTGAGATATTGGCACATCATACAGTTAGATAGTATTTTGGATTCAATTAAGTGGTATATAGCACTATCG
S
TTAACAGCTATATAATCTTGAGCAATTTATATAACCTCTCTGAGCTTCAATTTCCTTTTCATAAAATGTGATAATATTAGTTTCTGTCTCATAGATTTAT
Celera SNP ID:            hCV27498012
SNP Position Genomic:     36161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4980):
GCCAGGTGTTACTGAATTTAATTCATCTCTTGCTTTGCTTACCTTAATACATCTACTTTGTGAGAAAAATAATAGAACATCTTTCAGTTATAGTTTTAAA
W
AGATTTTTCATTTAACTATTTCAATTATTTATTTGTCCATATGCCTTATCTTTATTGCTTTTAAGTCTGTTTTGTTTTATAAGGATAGCCTGAGCTGTCT
Celera SNP ID:            hCV25614647
SNP Position Genomic:     53827
SNP Source:               Applera
Population(Allele,Count): african american(A,4)   caucasian(A,13|T,1)   total(A,17|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:4981):
AAGTATTGGCCACTCCTAAAAATCAAATGATTTATTCTTTTTTAAATCTTAACATCAGATCTTGTGTCTGATTGTATCTTTCAGAGTGGAGATTGGAGAA
Y
TGGAAGAGGCTAGATGTCAATCAGGTATCCAGTTCGATTTTATTACATTCAAATTTAATTTTATCTTCTATAAGAAGGTTAGACAAAAACTATGAAAAAG
Celera SNP ID:            hCV25755665
SNP Position Genomic:     49709
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,29)   caucasian(C,7|T,23)   total(C,12|T,52)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:4982):
GGCTTAGGAATACCCTCCCGGCTATCGCTTCAGTGGGTAGAGGGGACCACTGCCCGAGAGCTTTAATGGAGCTGGGTCCTGCCTTCGCGCTGAGGAGCCC
Y
CGTTTTCGAGATCAGGCCTGACCGGGATAAGCTCCAGGTAAAGTTCAGGGACCAGTGCGCGGAGGGTGTCGGCGCCCAAACTGTGGTGTCGCGCCCGCGG
Celera SNP ID:            hCV27495614
SNP Position Genomic:     6162
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,100|T,645)   total(C,100|T,645) 
SNP Type:                 UTR 5;hmCS


Context             (SEQ ID NO:4983):
ATAATTCATTTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCACAAT
R
GTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCGCATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATTGCCAT
Celera SNP ID:            hCV3018901
SNP Position Genomic:     95542
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4984):
CAAGCAGTATTGCCATAGTTGAGCAGAATTTATCATATGCTAAAAGGGAAGGAAATTGTATAAATTTGCCACTTGCGTATTCTACTAAAGATGAATGTGG
K
AAGCAAATAAACTTGTTAAAATATGAGAAATCTAATTTATATTTTAGAAAATTATATTGTTTCCCTCTAAATTTAAATTGCTCAGTGACTTTAAGTTTAT
Celera SNP ID:            hCV3018902
SNP Position Genomic:     88786
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,15)   total(G,15|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4985):
TTTCATAGCTGATAGTTCTTCATTATTCGTTAATCTGATAATACAGCCAATATTTAATTGAGTGTATGGTACAATGCTAGATGCTGGCAAGGGTATCCAA
Y
CTTTTGGCTACCCTAAGCCACATTGGAAAAAGAATAATTGTCCTGGGGCACACATAAAATACACTATCAACAGCTGATGAGCTTTAAAGCTCATTCAAAG
Celera SNP ID:            hCV3018904
SNP Position Genomic:     81222
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4986):
CCTGACTCCTGTTTCTTTACCTTAATACTTCCAATATAATATAACATAACATAATATATAATGTAAATATTTCTCCTTAAGAATTTTTTTCTCTTATTCT
Y
CATAAGACTTCACTTAACAGAATGTCTGTTAAATTAGCTTAAGTAATTTAGCTTCAGACAAGCTTTTTTTCCTTTCTTTTTATTTTAAATTTTAGGTACA
Celera SNP ID:            hCV3018905
SNP Position Genomic:     76105
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,14)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4987):
GAACTGGAGATCATTATGTTAAGTGAAATAAGGCCGCCACAGAAAGACGAATTTTACATGTTCTCACTCATATGTGGGAGCTAAAAAAAATAGCTTTGAT
R
ACGTAGACAAGAATTGACAGAATAGAATTGATGAAGTAGACAAGAATACATATGTATACATGATATATGTATATCCTTCTTGTTATATTTCAAGTTCTAT
Celera SNP ID:            hCV3018906
SNP Position Genomic:     75270
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:4988):
AGATATAATGAGTTATAATATGTGATAAAATTAGTGGATCTTCTTCTTCTCTGGCCTTCCAAGTTTCCTATTGTCTGCATTCCAGTATCCTTTCCTATTC
Y
TCATTATGCTAACTAGTTTTCCTAACATAGGAACCAAACATTCAGTTAATATTTTAGATGCCCCTTACTATTCAAACTCTCCCTTAATATCTAAAATTCA
Celera SNP ID:            hCV3018908
SNP Position Genomic:     69230
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:4989):
CTTTGTCAGTTAGCTATGAGATGCAAAATAGCATCTACTTACTAAGGAACTTTTGTACTTTGTAGAATATCTTTGATATTTAGTTGACCCTTGGTTCTCA
R
AAAATAAGTGGCTTGTAATTTGACCTTTTGCTCTATCATGTTTTCTTTTTTATAATCTGCTTGACTTTGATGAGTGTTTTTCCAATGTTTCATTTGTTTT
Celera SNP ID:            hCV8687490
SNP Position Genomic:     30425
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:4990):
CATGCATTAGGGCTCATAATTAGTTCATAAAAGTAGAATTTTGAGAAACCTTTTCTATACAGTTTTGTCTCACTTTTTTTTTTTCATTTTTATAGTCACA
R
AAGATATAATGAGTTATAATATGTGATAAAATTAGTGGATCTTCTTCTTCTCTGGCCTTCCAAGTTTCCTATTGTCTGCATTCCAGTATCCTTTCCTATT
Celera SNP ID:            hCV3018909
SNP Position Genomic:     69128
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:4991):
AATATTTAGCATAGCACTTTTCACATAACTTGATTATAAATGATGATGTTGAGGTGTGGTTCATTATACTTTGGTAAATTATTTTAAAAGTTAGTAGCTA
Y
TCATATAAAGATTTAAACATTGGCTGGGCACAGTGGCTCACACCTGTAATCTCAGCATTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGCTCAGGAGTT
Celera SNP ID:            hCV8687491
SNP Position Genomic:     36392
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,3|C,11)      total(C,11|T,3) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4992):
TCAGGAGGCTAAGGCAGAAAAAGTGCTTGAGCCTGGGAGGTCAAAAGAGTTTAGTGAGCCATGACTGGGCCACTGCACTCCAGCCTGGGCCACAGAGTGA
K
ATCCCATATCAAAAAAAAATTAATTAATTAGTTAATTAAAAATAAAGTATAATCTGAACAAAAAGTCAGGTTCCTTTTTATTGTGATTTAAATTTCAATG
Celera SNP ID:            hCV8687567
SNP Position Genomic:     122200
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:4993):
TCTCAGCATTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGCTCAGGAGTTGGAGACCAGTCTGGGCAACAAGGTGAGACCCACATCTCTACAACAAACA
R
AAAATTAGCTGAGTGTGGTGGCATGTGCCTGTAGTCCCAACTACTCAGGTGGCTGAGGTGGGAAGAGTGCTTGAGAGCCTGGGATGTTGAGGCTGCAGTG
Celera SNP ID:            hCV8687495
SNP Position Genomic:     36542
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|A,11)      total(G,3|A,11) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4994):
GTGAGCCATGATTATGCCACTGCACTCCAGCCTGGGCAACAGAGCAACACCCTATCTCAAAAAAAATATTTAAGTGTTAAAATATATAGTTATAATTCCT
R
TTTTAATACATCGAAGATGCCATATATTCTGGCATTTGATATATATGGCATTTAACATATAATTTATTTAAATTGATATTTAATATACTGAATGTAGCAT
Celera SNP ID:            hCV8687496
SNP Position Genomic:     36740
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|G,10)      total(G,10|A,3) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4995):
CAACTATCTCAATGGACTTTCTCAGCCAGGGCGCTTTTAAAATGTAACCTGAGAGACTGATTCAGGCCATAAGGGGAAGTGGGTGTTGGACATGCCTCAT
W
ATACCTCTCTGGCATTAACGTCAACACAGACCTTAAAGTCTAATAAGAAACATGTACCCTAAAACTTAAAGTATAATAATAATAAAATTAAAAAAAAAAG
Celera SNP ID:            hCV8687497
SNP Position Genomic:     40653
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:4996):
CTCCTTCTACATCCCATTGCCTTCCCTTGCTTACAATAAAATTGTCTTAAATATTTCCTCTACACACATTTGAAACCATGTCATACAGTATTAGAATTTT
Y
ACATCAGCTAGCAAATATAATTTAGAAAACTTAAGAGGACAAGGAAAACTTATTGTCTTTACCCAGATTTTTACTTACTGAGTTCTTTTTCCTTCATAAT
Celera SNP ID:            hCV7911096
SNP Position Genomic:     139925
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:4997):
ATTTTTCATTTAACTATTTCAATTATTTATTTGTCCATATGCCTTATCTTTATTGCTTTTAAGTCTGTTTTGTTTTATAAGGATAGCCTGAGCTGTCTGA
W
TACTATCAATAAGCTGGTGTTTGTTATTTTCAGGGAATCCTTCCTGTGGATTATCTTAACAACACTGATCTCTTCAAAGCAGAGAGCATGTTTACAAATG
Celera SNP ID:            hCV25755815
SNP Position Genomic:     53930
SNP Source:               Applera
Population(Allele,Count): african american(A,2)   caucasian(A,23|T,1)   total(A,25|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:4998):
GCTTCTATTAACAGGTAATTTTAAATGAAAGTGGCATATATATATAACTAAAAAATAATGCAACCTGGGACTTCTATACCTTTTGTTCTGTACCTTATTA
W
TTTTTTTTCTTTTTGAGACCAAGTCTCACTCTGTTGCCTAGACTGGAGGGCAGTGGTGTGATCTCGGCTCATTGCAACCTCTGCCTCCCAGGTTCAAGCG
Celera SNP ID:            hCV25985771
SNP Position Genomic:     107914
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,37)   caucasian(A,2|T,32)   total(A,3|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:4999):
GTCGCCCAGGCCGGAATGCGGACTGCAGTGGCACAATCTCGGCTCACTGCAAGCTCCTTTATTGCTTTTTTTTTTTGCATTTATTCCTGAAATGGCGGGA
M
TCTGTCCCAGAATTTGAGAGAGGAGTGGGAGCTGACTGCCCCGTGAATGTAGTCTGGCATGTATCTGTAATGTTTATAGTGTTGTGGTGATTGCCATGGA
Celera SNP ID:            hCV11450212
SNP Position Genomic:     131630
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5000):
CTTTCACTACCTTCTCTTTTTTTAACCTATTTCATCTTTGTCTTTAGGTGCTGAGCACAGTGCTCTCCATGTATGTTGTGTATAGCACTCAGAGTAGTCT
R
CTCAGGAAGCAAGGACTGCCTCTCATGAATCAAATTATTAGCTGGGCAACATTAGGTAAGAGGCCACTCAAACCAGGTGAGGTAATTTGACATCAACTTA
Celera SNP ID:            hCV27478135
SNP Position Genomic:     91908
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:5001):
GCCTCAAATGATATGTAATTTAGTACCTTTATGTTTTTAAAGGGAATACCATCAGATCTTTTGGTAAATTAGTAAATTTAGTGAAATTTGGTAAGTATTC
Y
TTTAAGCAGATTTAGATCACATGTATAGTTCAGTAATATAGTAAATAATGGTATTTCTGTGGAATGCTTGGTCTACTAATGTTGCTGTGGTTTATTTAAT
Celera SNP ID:            hCV3018912
SNP Position Genomic:     68751
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,9)   total(C,3|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5002):
TCATGTCACAAAGTGAAGGTATGTTTTGAGATATTTTGGACAAATGTTTTAGCATGCTTTGCTGACATGAATACCCACTGGTACTGACTCCAGAATTGAA
R
CTTTAGTATTTCATTATCCTGTGTTATTGAAAGAATTTGGGTTGGATGGAAGCATAATTTTCCTAGATATTACTCTTGAAAGTTCAAAAATAATTTTATA
Celera SNP ID:            hCV25753069
SNP Position Genomic:     35528
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,13|G,5)   total(A,45|G,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:5003):
ATGAGCCCTAGATTAGGATTTAGGAAACCTGTTTTTCGTTTCTAGTTTGTGATTCATCCTGGGTAAATTTTGATCTTTCATTGACCATGGAATCAGACTC
Y
TGTAGTAATGGACCATATGAGATGTAGGAAAGCCTTTGGGAAAATGCTGTTCAAATGTAATACATTTATAATAACAAAGTGGATGATTTTTTAAAAAATA
Celera SNP ID:            hCV25757780
SNP Position Genomic:     38805
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,23)   caucasian(T,6)   total(C,1|T,29)
SNP Type:                 INTRON


Context             (SEQ ID NO:5004):
AAAAATGAGAAGGAAACATTAATAATCAAAATTATCTTTAATTGGCCTCACAGGGCTAAAATCTAGAATTATTATTACTCTTGGGTAAACTCATGAAAAG
Y
ACTTAATATTCATTCTATAAAGAAACAAAAAGAACCTTTGAGATGTGTCTCTTATTCATTTCCTTGGGTACACTTAAAACGGGTTACAGTTACTGCTCAA
Celera SNP ID:            hCV641172
SNP Position Genomic:     150461
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:5005):
TTAACTATATATGGATCAACTCTTTAAAACAAACTATTTTAAAAAATATTTAGTTGTAAGTTAGTTCTTCTATATTTGTCTTATTATTCTTTATATCTTA
W
TTGTAGGTTCCCATGGGGCTGGTCATCCTTCAGAGACTTTAACTCCTTTAGTCACTTGGGGAGCTGGAATCAAGTATCCCCAAAGAGTATCAGCTCAGCA
Celera SNP ID:            hCV25749763
SNP Position Genomic:     47012
SNP Source:               Applera
Population(Allele,Count): african american(A,7|T,29)   caucasian(A,2|T,12)   total(A,9|T,41)
SNP Type:                 INTRON


Context             (SEQ ID NO:5006):
GTGCTGAATCAGATCCACCAATTTCCAGGTGAGGACTGCAGACCAAAGATAAACATTTTTCTTTTTTCTACCAAGACCCCAATAAAAATAAACAAACTTA
S
CAAAATGAAAAGAGTGGGAGAAGGACTATCAGCAAATTTGAGTTCAACAAATTTCTAGAAGATAGATAACCAGAGGGAGGAAACAGCAGCTGAGAAACTA
Celera SNP ID:            hCV8687572
SNP Position Genomic:     124582
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:5007):
AGGAGGTCCAGGGACCTCAGACTCAGTGAGACAGTAATGTGGAAGGAGGAGTGAGGAAGGGAAGCAGGAGATTAATTGGATATCTGCCTACCAAATGATG
R
TATCAACAGGCTCTCCATAGCCCGTCTCCTTCCTTCATCCCCATGGAGAAAGTGCTACAGGCATTTTATTCCAAGTAGAAAACCAGAAGACACCTCTAAA
Celera SNP ID:            hCV8687573
SNP Position Genomic:     124805
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,11)      total(G,4|A,11) ;no_pop(G,-|A,-)   JBIG-allele(A,516|G,953)   total(G,953|A,516)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5008):
TTCATTGCTATGATATATGTGCCTCCACTTTAGTAAGGCTGTTCTCCATTCTAGCATGTGTAGCCTCCTCCTAACAAAGGACAGAGACAGGCATCCCTCC
Y
GCTCATCCTAAAACACGACACAGCAATTCTTATTACATGCATAGAACTTACTGGTGGCCTTCCTATTCGTGAGTGAGACCTAGAGGGAAAAGAAACTTTC
Celera SNP ID:            hCV8687574
SNP Position Genomic:     125048
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5009):
TGTCATATTTCTTTAGTATGCAATAATGCTATCTTATCCTTTTTAGTGCTATTTCTCAGGTTTTCTCAGTCAACCAGCTAGATGCATGTGATGCATGTCT
R
TCCTTCACTTTTTTTTTTTCATTTCTGGATTTTCCTGGGATTTCTGACAACACAAAAGTAGAAAGTGCTTGGTATTTCTGTCTTATACATAGGAAAACAT
Celera SNP ID:            hCV641177
SNP Position Genomic:     147783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:5010):
CCATTGGCACCCGAGAGGGAGCTCCTTACTGCTGCCTGCCAGGGACCAGCGTTACGGCACCCTGCAAGGCCTCCACTACTGCCTTCATGACTGGGAAAGA
Y
AGAGGTCCCCTTTGCCTCCCATGCAACCTCCACTAATAACATGGTCAGGAAAGGAATGGCCTTTCTACCTCTGAGTGGAGGTGGAATTCCTGGCTCTCCA
Celera SNP ID:            hCV641178
SNP Position Genomic:     145498
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5011):
TTTATCCTCAGGTTCATGGATCCTTTCCTGTGCCCCCTCAGTTCTGCTATTGAGCACTTCCATGGAAATTTTTATTTTGGTTATTGCATTTTTTAGTTCT
W
GACTTCTTTATTTGCTTCTTATTTACATCTTCTTTGCTGAGAATTCCTATTTCTTAGCTCAGATTTTCTGTTTTTTTGTGTGTTTGTTTCTAGTATGTAC
Celera SNP ID:            hCV641179
SNP Position Genomic:     144987
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|T,7)      total(A,5|T,7) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5012):
ACTTGGTGATGCTCCATCTCTGGAGACAGATAGCTACTTCATCAGGAACTTAAGCATAAGGATGTATAACTGGTATGGGACATTCCAGTCCTGGAAGTGT
R
TGACTCTTAACACATGGCCACTGCTTTCAGGGAGGTTATGGCCTAATATAGGTTTAAAGACATAATGATAATGATTATAGTATAAGGCAACATGTGGTTA
Celera SNP ID:            hCV2717422
SNP Position Genomic:     128729
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,7)   total(G,1|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5013):
GTTTTACAGAGTAGAAACTGGTTCTGAAAGACTGATTGCACAATAATGTGGCATAGCTAGGTTTATTTTTTGCATTGTGTATGTGTTTAATAAATTGATC
R
TTTTTCAGAAAAAAATACATATTGAACACTCACCATACATAAAGCATTCCCAGACATTGTCAAGTACCCAGAGATGAATGGACTGCCAGCCTTAAGACTT
Celera SNP ID:            hCV2717423
SNP Position Genomic:     128532
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,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5014):
CTTCAAAACTGAAATTTATCTTTAAAAAAAACTTCTGTGCATCACATACCTACATAGAAAAATATTATTCATTTATTCACTTATGACATGAAGGGTGATA
Y
GATTCTATATCATTGGTCATGCTAAAGGAATGAAAATTATTCTAGAAATAACTTTTTATCCTGCTTTCTCTGTCTTTATACTCTTAAAATATTTTTCCCT
Celera SNP ID:            hCV2717425
SNP Position Genomic:     62107
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:5015):
AAAATATGTGCATATATTGCTTTGATAAAACTTATTTTTAAAAGTATGTTTATCAAAATAAATAGATATTCTAATCATTGGCACAAATTCAGTAGAATAT
K
TAATTGGAAAAGGATACTATTCATAATAGAAATAAAATACCCAGCAATAAAATAATGAGAAATGTATATTGTAAAGAAAACTGTCAAATTTTATTAAGGA
Celera SNP ID:            hCV2717426
SNP Position Genomic:     59306
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,13)   total(G,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5016):
ATTACAGAATAGAATGCAAATGTTAGCAGCCTTGAAAATGTACAAGTGCAGTTAACAGGTTGGAAGGCAGAGAGGGAAGGAAATGTACATGGAATAGTAG
Y
GGTGCTATTGTCTTCATGAAATAGAATATGGAGAATTTTATCTTTAGTTGAATTCGTCAGAGGTTTAGGTATTAGTTTTTGTTTTGTTTTGTTTTGTTTG
Celera SNP ID:            hCV2717427
SNP Position Genomic:     58548
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,8)   total(C,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5017):
TATCTTAACAACACTGATCTCTTCAAAGCAGAGAGCATGTTTACAAATGCAGTACAGATTCTTGAACAGTTCAAGGTAAAAAAAAAATTCAAAAAGGCAC
R
CACAAAAATGGACAATACTACAATTTAAATATTGAATATATTTAGGGAAAATATTTGATTTTGTTTTTAACTATTTCCCTGTAATTTACCTTTAAATTTT
Celera SNP ID:            hCV2717428
SNP Position Genomic:     54082
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:5018):
ACAACAGTGCTTTCTAGAATACCTCCTGAAGGACCTGCCTGAGGATATTTTACAGTTAAATTTATATATATATATATATATATATATATATATATATATA
T
GGAAAAGGAGTACAGTCTAAAAAACGATGAAAAATATGGTATAGTAAATGTAGATACTGGTAACAGTTGTTTATTGTCATTATCAGATATTATGTACTGT
Celera SNP ID:            hCV26583029
SNP Position Genomic:     121168
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5019):
TAGTGTAGCTAGAATGGTATGAGGGAAAACATGGTCAGGAGAGAATTCATAGAGTAGATATTTGCTATCACTTATGGCCTTTGAAAGTCATTGTAAAGAA
Y
TGGGAGTTTATTCCAAGTGTAAGTTGAAGCATTAGTTTGTTGAGCAGAAAGTTATTTTATTTGCTTCACATTTTTGACATAACACTGGCCACAATGTAAA
Celera SNP ID:            hCV641180
SNP Position Genomic:     135334
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5020):
CACCATACGATAGGGTTCACATGTCAAAACTTCATTATTGTACTTTTTCTGCTTTCTGTTTGTGAGAATGTTGCATTTAAGTTTTGAGTTTCCAATTATT
Y
TTGTGTGAAGGTACATTTGAAAAGCTGTGGTGTTTCTTGTCATGTCGCTGATATTATAAACTGACCGGCAGAGCTCCCTTCACAGGTGCCGGGGTTATTG
Celera SNP ID:            hCV641181
SNP Position Genomic:     131235
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5021):
GTTCATGCATCTTCATAAACATCTAGTTTATTGCGAGGAAAAGGCTTGGATAATGGTGGGGAAGTAGGGGGAAATGTACGTCAAGATTCAAAACTAAAGC
M
CCATACGATAGGGTTCACATGTCAAAACTTCATTATTGTACTTTTTCTGCTTTCTGTTTGTGAGAATGTTGCATTTAAGTTTTGAGTTTCCAATTATTCT
Celera SNP ID:            hCV641182
SNP Position Genomic:     131136
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5022):
ATTGTTTTGCCACAGAAAAACTTCTACCCAAACCTGGGAAAAGCAGGTTAAGTTAAACAGTGATTGGGAAAAGTTAAGGATTATTGAGAAAGGTATTAAA
Y
TGATGATAATGATATTACTAGAGTAGAATATCATTTATTGTATGCAGTGTATTAGGAATTGTACTTATGTTATCTCATTGAGTCTCATGAAATGATGTGA
Celera SNP ID:            hCV641185
SNP Position Genomic:     128311
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5023):
GAGGGGAGTGCGAACAGCTGAACTCATTTCAAGTTGAAATTTGATGTTCCTTTAACTCTGCTATGGCGAGATGACACCAAGACTTGATTGATGCAAGATA
W
CACAAGCTGGATGCCTTATGGCTCAATTGCATGAAGATGATGAGCTTCACAACTGTTTCCTGCCAATTATGTTAGCTTACATGAGCCAAGAGTCAGTAAT
Celera SNP ID:            hCV8687583
SNP Position Genomic:     132870
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(T,1|A,11)      total(A,11|T,1) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5024):
AATCAGTTTAATTACTCTCTGTCAAAGAAGGATTTTGAAGGCATTATGTGGGGCCCAAATGGAGTTAACTCATTCCCAGAGCAGAGTAGAGGCAGAGAGC
Y
TCCCACAAGGTCACAGCAAGGCTGTGCATTGCTACACAGAGTCCACATACCCAACAGTTGTTTATCTGAGATCGGAGTCCTGAAAGACGTGATAAAGGCT
Celera SNP ID:            hCV641186
SNP Position Genomic:     126318
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5025):
CCAGAGCGCCTGGGTTTGAATCTCATTTCTGCCACTTTTGAGCTGTGAAACCTTTGCTAAGTGACTTAATCTCTCTAAGCCCCCCGTTTCTCTTGTAGTC
R
TTTTGAATGAATTAATTTATATAAAGCATTTAAGTATTTAGCATAGTGCCTGGCATCTAATAAGCTTCAGTGAATGTCAGCAATTGTTACTGTTGTCATT
Celera SNP ID:            hCV641187
SNP Position Genomic:     122895
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5026):
GCCTGGGCCACAGAGTGATATCCCATATCAAAAAAAAATTAATTAATTAGTTAATTAAAAATAAAGTATAATCTGAACAAAAAGTCAGGTTCCTTTTTAT
K
GTGATTTAAATTTCAATGATTGCCATAACCTGTTAAATTTCTTTTCTTTGAGAAGAAGAAAGCAAAATTGACCCTTTTGCCTTTTCTTCTCCAAATGCAT
Celera SNP ID:            hCV641188
SNP Position Genomic:     122282
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5027):
CTTTAATAATTCATTTAACAAATATTGATTAAGTGCCTATAAGACCTTGCATGAGACGTTAGAGATGCAATGGGAAAAGAGATAAAAATTATAGTCCCTG
Y
TTCCACAGAGCTCACAGGCCAGGGTAGAGGCCAGCAACCTATGCCCTTTAGCCAAATGCAGCCCACCTCTTGATTTTGTACAGCCTGTGAACTAAAAAAA
Celera SNP ID:            hCV8687589
SNP Position Genomic:     137180
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5028):
ATAATCAGCAATTGAACATAGATTCAGTTATTGCTCTCTGAATTGTCAGTCTGTTGGCAAACACTCCTGCTTCAAATCTCCATCAAATGAGAATCTCTTT
K
TCTATTCATTCCTTCTACTAACACTGTGATGTGTCTGTGGTGTGTTTCAACTTTGTGCTAAGTCTAAGTATTTAGTGGTGAGTTAAGGCAGACATAATCC
Celera SNP ID:            hCV2717430
SNP Position Genomic:     50767
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5029):
AATTTAATTTGTTCCTCTGTTTCTTTACAAATAGAGACTACAAGCACAATATTAAAAAAGTTGATGATGGAGTTAAAGAAATCGTGTCTATGTTTAACCA
Y
TTCTATGGAAATGATGGGAAAACAACATTTATCTTTACCTCTGACCATGGAATGACAGACTGGGGTTAGTGTGTCTTTAATTGATATGTACCTTACAATT
Celera SNP ID:            hCV2717432
SNP Position Genomic:     46009
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,8)   caucasian(C,5|T,17)   total(C,15|T,25)
SNP Type:                 SILENT MUTATION;hmCS

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,13)   total(C,13|T,2) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:5030):
AGAAATAATTTTATTGCAGGAAAATAATAATAACTGGCTATTATTTCTATCTCTTGCTGGAATTTAACAAAGAGAATTTTTATGTTCATGCATGTGTTAA
R
AAGATAATTTGATAGAATATTTATGAGCTGATAATAAAGCTATGTATTTATTAACATCTCATAAGATTTGACTAAGTGATTCCAAAAGAGATAAGGGTGA
Celera SNP ID:            hCV11450304
SNP Position Genomic:     92154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   SC_12_C(G,1|A,20)   total(G,1|A,20) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5031):
GTGTGGCAGTCTTAAATATAATGTGTTCAAAACATGATATTATATTTTATATCAAAAGCACTTTAGGGAATGAAAATATTCTATACTTGAAATGATACTT
K
TAATGTGGCCAAACAGTTTAGTTTATGTAGTAAGAGTGAGAGACATGAACGTCATCTATCTCATTTAGGACCTAAAAAGGGTTTATTAAAATATATTTGT
Celera SNP ID:            hCV2717435
SNP Position Genomic:     45611
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:5032):
CCCTTCTTAAACGTGATGCACTGCTGTAATTGATGGAATATTCATATCGAATGAACCTTGTTCAGTTGTGTGGCAGTCTTAAATATAATGTGTTCAAAAC
R
TGATATTATATTTTATATCAAAAGCACTTTAGGGAATGAAAATATTCTATACTTGAAATGATACTTGTAATGTGGCCAAACAGTTTAGTTTATGTAGTAA
Celera SNP ID:            hCV2717436
SNP Position Genomic:     45544
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:5033):
CTATTGGGTTAGCTGCCAGTGATGAATACCTCACAATCCCCTTCTTAAACGTGATGCACTGCTGTAATTGATGGAATATTCATATCGAATGAACCTTGTT
S
AGTTGTGTGGCAGTCTTAAATATAATGTGTTCAAAACATGATATTATATTTTATATCAAAAGCACTTTAGGGAATGAAAATATTCTATACTTGAAATGAT
Celera SNP ID:            hCV2717437
SNP Position Genomic:     45506
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:5034):
ACAACTTCTGTTGCACTAGTGTGATATTCATAAATTAGAAAGGCGGCCGGGCACGGTGGCTCACTCCTATAATCCCAGCACTTTGGGAGGCCGAGGCAGG
Y
GGATCACAAGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGGGCACCT
Celera SNP ID:            hCV7910960
SNP Position Genomic:     56449
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:5035):
AATTAGTATTGTATCTAGCAAATAAATTGTATACATTTTTGTATACCATAATTCAATAACACTCCTTATATATGACAGCAAGTATTTTTCTCACTTTTGA
R
GACCATAAGTAAAAGGAAGATACCATGTTATACTCTTATTTCTGACTTTGCATTTGGTTTAAATTAGCCTAACAGTGGCTGTAAAGCCTATTGGGTTAGC
Celera SNP ID:            hCV2717438
SNP Position Genomic:     45318
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:5036):
GACAACAGTGCTTTCTAGAATACCTCCTGAAGGACCTGCCTGAGGATATTTTACAGTTAAATTTATATATATATATATATATATATATATATATATATAT
A
TGGAAAAGGAGTACAGTCTAAAAAACGATGAAAAATATGGTATAGTAAATGTAGATACTGGTAACAGTTGTTTATTGTCATTATCAGATATTATGTACTG
Celera SNP ID:            hCV26583030
SNP Position Genomic:     121167
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,5)   total(A,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5037):
ATTATTTATTCCTTGTGTATTCCCTTTAATTAGTATTGTATCTAGCAAATAAATTGTATACATTTTTGTATACCATAATTCAATAACACTCCTTATATAT
R
ACAGCAAGTATTTTTCTCACTTTTGAGGACCATAAGTAAAAGGAAGATACCATGTTATACTCTTATTTCTGACTTTGCATTTGGTTTAAATTAGCCTAAC
Celera SNP ID:            hCV2717439
SNP Position Genomic:     45291
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:5038):
CCCCTTCCTCTGTTTCTATAATTGCCTATATTTTCCAATGATAACACTCCCTCCATCCCCCCCTTACACACACACACACACACACACACACACACACACA
C
ACCCCTGATAATTTGATGGAATTATTTACTACAGCCTATGCCTTGTGAGGAGGAGTTTATCTCCAGCACCTAAGACAGTGATCGGCACACAGTAGGTAGT
Celera SNP ID:            hCV26583031
SNP Position Genomic:     119867
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,10)   total(C,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5039):
ACCCCTTCCTCTGTTTCTATAATTGCCTATATTTTCCAATGATAACACTCCCTCCATCCCCCCCTTACACACACACACACACACACACACACACACACAC
A
CACCCCTGATAATTTGATGGAATTATTTACTACAGCCTATGCCTTGTGAGGAGGAGTTTATCTCCAGCACCTAAGACAGTGATCGGCACACAGTAGGTAG
Celera SNP ID:            hCV26583032
SNP Position Genomic:     119866
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,10)   total(A,10|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5040):
ATGTGGCTATAAAATGGCATCATGAGAGATCTTTGTGCTGATGGGAACACTCTTTACCTTGACAGTATCAGTGTCATTGTCCTGCTTGGGATATTATACT
R
TGGTTTTACAAGATCTTCCCACTGGGGGAAACTGGGTAAAGGGTACAGAGGATCCCTCTGTATTATTTCTTGAAATTGCATATTAGTTAACAATTACCTC
Celera SNP ID:            hCV26583033
SNP Position Genomic:     117846
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,13)   total(G,3|A,13) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5041):
TTATTAAAATTATTTTTATTAATTTTCAGAAACTTTTTGTGTTATTTGTTTTTATCTTAAAGTCTATGGATTTCAGCTCCTGCCAGAGTTTTTTTTTTTT
T
CTTCTACAGTTATCATATCTACCAGGTCTCATTCACCTAGATCAGATATTACAGATCTGGTTATTGTCAAGATTTGCTTCTTCCATCATTATTTTGTTAG
Celera SNP ID:            hCV26583034
SNP Position Genomic:     113318
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5042):
ACAGTCACTGATGTTTCTTGATTATAACACTAGCCTAAAAGATTTGCTACTCTTCACTGTATCCACAATAAAGTTCAGGCTTTTTAAAAAAAAAAAAAAA
M
AAAAAACGGAGTCTTACTCTGTCACTAGGCTGGAGTGCAATGGCACAATCTTGGCTCACTGCAACCTCCACTTGCCGGGTTCAAGTGATTCTCCTGCCTC
Celera SNP ID:            hCV26583035
SNP Position Genomic:     106418
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,6)   total(A,1|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5043):
CTTTTATTGTGCCTGGTTTATGCCATATTTTCCTGTAACTTTGGTAGACACTTCTATGCAAACAACTCTAAGATGTGTTTTTCCAAACTTGACCCCTTTC
R
TGACCTCGAGGACCACATGTCTAACATTCTGCTGGGCATCACCAAATATGTGTCCCAAACTGACTAACAACTGCCACTCCTCTTCAAAGTCACTCTCTCT
Celera SNP ID:            hCV26583036
SNP Position Genomic:     105980
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5044):
GTTTTCCATGTGTAGTTTCCCATGCATTTTCTTGTTGGGAAAATAGCACCATGTATTTTTAATTGCCATTTCCATCATCAGTCCTATCTTCTCCTTCCGC
Y
ATTATGTATGTTTATTATGGCCTGGATAATTGGAGTAAGAAAAATGCCACAGGATATAGGTCCCAGCTACTCAGGAGGCTGATATGGGAGGATCACTTGA
Celera SNP ID:            hCV7910968
SNP Position Genomic:     65151
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5045):
CTTAATAGTGGTGTTAAGTACTTTAACCTCCCTGAACTATAGTTTTCTCATGTAATTCACATTAAAAATTTTTTTGAACTATAGAAAAGTATAAATAATT
W
TATGTATGTATATATATATATTCCTGCTATTCAGATATTAGCCATTAGTACTTTGTCACATATGTTTTTTAAAAATGTGTTTTTAAGAAGTTAAAACATT
Celera SNP ID:            hCV26583037
SNP Position Genomic:     104467
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,15)   total(A,2|T,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5046):
GTCTTTGAAGAGGGAAGAATTATATAGGGATTTTAAAATGAAGCATTTATATAAGATAAGAAAAAACTCAATTCTCACTTTTATTACACATATAGCAACA
S
TACAACTGTGTTCTATATATTATTAGCAACATATTTTACCTTTTGGCACATTTTATTAAGGTGTAATTAAACCCTAGGGAAAGATTTATTGTTTATTGTT
Celera SNP ID:            hCV26583038
SNP Position Genomic:     103964
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,9)   total(G,1|C,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5047):
CAACCAACCATATAAGATCTGAAAGGGATGATTTTTCAGTTCTGTGTTTGATTAAATACTCAACTGTACAAGAGCCATGGCTACACGGCAGGGATTGGGG
R
AAAAAAAACACAAAAACTTGGAAATAGCAGTTGTCAACAATGTGATCTAGCAGCCAAAAAGCTAGTTTTCTCATGCCCTCTATTAATTGAAGTGAAAATA
Celera SNP ID:            hCV641190
SNP Position Genomic:     112882
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;no_pop(G,-|A,-)   SC_12_A(A,1|G,22)   SC_12_C(G,9|A,12)   SC_12_AA(A,9|G,15)   SC_95_C(G,80|A,103)   total(G,126|A,125) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5048):
CATTTCTTCTTTGTTTTTGTGTCCATTTTACACTCCAGCCTGTAGGTGTACCACACATTTAATCATTCCCCGGTGGACATGTAGGTTGTTTTCTGTTTCC
Y
GCTTCTGTAAACAATATTACAACAGATATCTTTATAATGGAAATTGTAGCACATGTCTGCTTATTTTCTCAGGGTAAATTTTTAGAAATGGCCTTATTGC
Celera SNP ID:            hCV26583039
SNP Position Genomic:     101460
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5049):
CCAATCAGCTAATACTATTAAAGCACTTTACCCACTGAACCTTGCATTTCCCTAAATTATAATTTCATCTTGTCCTTTCTGTTTAATTTTTTGAAAGAAA
W
ATTTATAGTTGCTGCCATTATTTTCTCTCCATGTATATGCCATATCCGCAAACCTCTAACAATGCCTGGCACGTAGCAGTGCTCTATCAGTATTTGTCAG
Celera SNP ID:            hCV641192
SNP Position Genomic:     105532
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5050):
GATAAGGAAGATTTTTTACTTATCACAGAAAAGCACAATTTTGTTGTTGTATAGGTTGGGCTTTTCTTAGTGATTACTTGAGGATCATTGATTTAAAAAA
S
TCAATATAAGTGAAGGAATACAGAAAAGAATGCTTTTTATCTTATTTTCTTCATATTTCACATCCAATTTTTCCTTCCGTCAATTTATCTTGGAAGAATT
Celera SNP ID:            hCV641193
SNP Position Genomic:     102818
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,36)   caucasian(G,40)   total(C,2|G,76)
SNP Type:                 INTRON;TFBS

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


Context             (SEQ ID NO:5051):
AGGGAGGTCAAAGCTGCAGTGAACTATGATCATACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGCCTAAAAAAAAAAAAAAAAAAAAATAGG
R
AAAAAAAAAGTATTTTGTTGAATGTGTGGCTTGCAAGTGTTTTATCCCAGTCTGTAGCTTGTCTTTTTACCCTCTTAACAGGGCCCTTCACAGAGCAAAA
Celera SNP ID:            hCV8687590
SNP Position Genomic:     138537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5052):
AGTTTTTAATCTATATAAGGAAGCAGAAGTTAAAATAATTTCTATTCTAACCTACCATTTCAGGGAGACTTGTGAGTTTTATTAAGAGATCACACCCAGA
R
GTTGACTTAAGGAAATAAATGTTTGAAAGCGTCCAGAAATATGTACTAAATTCTGTACAGTCTCTTAATAGGCCTTTCTCTTTTTTGAACTTTCAAATTC
Celera SNP ID:            hCV641195
SNP Position Genomic:     98614
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|A,13)      total(G,7|A,13) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5053):
TTAAAAAGTTCACATGAAGCTTTTAAGCACATATAAGCATTTCATTACAGTGATTTTTATGTTCCTTGATCATAGTTTACACTAGTTCTTTTGCTCCAGC
S
TAATAAATCACTCAGCACCTGTAATATAAAATGATATTTTCTGTGGTAAAATTTTAGAAAAATGACATAAACTTGTCAGTTTGCAAACACTATAGTGTTT
Celera SNP ID:            hCV29176227
SNP Position Genomic:     66609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5054):
TATAACTCTAAAAAATGTAGTATTGATGCAGGCCAAACATATAGATTTAGTGGAACTGATTCGTGAGTACATAAAGAGATAAGATTCACTTGTCTACAAC
R
TGCACCTTGACTTATGATGGGGTTACATCCCTAAGTTGCAAATAATGTAAGTGCAAAATGGATTTAATACACCTAACCTACTGAACATCATAGCTTAGTC
Celera SNP ID:            hCV29176228
SNP Position Genomic:     59751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5055):
AGCTGATTAGATGATGCCCACTTGAGGGTGGGTCTGCTTCTCCCACTCCACTGACTCAAAGGTTAATCTCCTTTGGCAACAATGTCACAGACATACCCAG
R
AACAATACTTTACATCCTTCAATCAAGTTGACACTCAATATTAACCATCACAGTAGGCAAAGAAGAGAGCTGACTTTGGTGAGCAGCAGATTTTGCTGTC
Celera SNP ID:            hCV29176229
SNP Position Genomic:     56037
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5056):
CACTCTGTGAGTCACAGGAAACACCTCCCTCGTTACCCTGAGCCACTCAGTTTTTTTTTTTTCTGGATAAGTATGTATTTATTATAGATTATTAAAAATA
Y
AGTCAGTCTTGATTTTCTTCCTTCAGCTACATAGGGAATTACAATGTGCTTCTACAAAGAATGCACTTATATTTCCACTTTGATACTTTTTGATAGAAGT
Celera SNP ID:            hCV641199
SNP Position Genomic:     86696
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:5057):
ATGGCCCAGAATATGATCTATCTTGGTATATATGAGCACTTGAAAAGAGCATGTATTCTGCTGTTGTTGGGTAGAGTGTTTTATCATTGTGAATTAAATC
Y
TGTTGTTTGATAGTGTTGAGTTCTGTATTCTTGCTGATTTTCAGTGTTGTTGTTCTATCAATTTTTGAGAAAAGGGTATCTTTGCTCTGAAGTCTGTTTG
Celera SNP ID:            hCV8687597
SNP Position Genomic:     139271
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,10)      total(C,2|T,10) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5058):
CATATTTTCTGATGAGAAATCTGCTGTTATTCAAATTGTTTTTCCCCTATAGGTAAGGTGTCATTTCTCACTGCTTTCAAATTCTTTTCTTTGTTTTTAG
W
TTTTAGTAATTTGATGTGTCTTTGTGTGGATTGCTTTGGGTTTACCTTATTTGAGGTTTGCTTAGCTTCTGTAAGATTTATGTCTTTTGCCAAATTTGGA
Celera SNP ID:            hCV8687598
SNP Position Genomic:     144614
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5059):
CAATGAAAAGTGGTCCAGTTCTGAAATATTTAAAAAAATAAATTATTCTTAAACTGGTAACAGTATTACTATATTATTTTTGACTCTTGCCAAAATATGT
S
TTCAATCTGCTGTATTTTATTAAGTTAGATGTGGGATTAACAACATTATGAGATCTCTATGAAATTATGATCCCCTTTCTAACATCTTTTTTTGGCCTTA
Celera SNP ID:            hCV2717440
SNP Position Genomic:     44395
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,7)   total(G,1|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5060):
AAATTTTCTTAGGGGTTAAGTAGAATGTATATGAAAGTTAGGGGGCAATTTTATACTTTTGAGAAGGATGATAGGTTATATATTGTATTAATTTATTTCT
R
TTCTTGAATAGTTTCTCTAATTGCACCATTTGTGTTTTTTAACATAGTAGTGAAGAGTTATTTGAAAAAAATACTTAAATACTTCAGACTTTTGTTGAAA
Celera SNP ID:            hCV2717441
SNP Position Genomic:     43785
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5061):
AAAAAAATATATATATATATATATGCAAAATACAGAATTTACTGTCTTAAGCATTTTAAGTGTTTGCAGACAGTCCCCAGCTTAACAATGGTTTAACTTA
Y
GATTCTTTTGACTTTCCACCAGTGCAAAAGCAATACATATTTAGTATAAACCGGACATTGAGTATCCATACAACCATTTTGTTTTTTACTTTCAGTATAG
Celera SNP ID:            hCV2717442
SNP Position Genomic:     40269
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:5062):
ATCTGTTGACCCCTTCAAACTCTTTGGCAATAAGCAATATTTATTCTCTTAGAAGTTGAGAAAAATACTCATAGTTTATGAATAAGAGAAGTGAAATATC
K
GAATTTTCTTCTTATGTTAAGAAGGTTTGTACAACACACATCATCTATTTTAGATTGTAGCATTCTAAGGGGCACACATGTTTTGAATAGTTTAATCCTT
Celera SNP ID:            hCV2717445
SNP Position Genomic:     37958
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:5063):
ATGGTAGTTTTCTATTTTTATGTATGTAATGTATGTGTTGATTTTTACACATATTTTTACATTTTTAACATTTCTGAAATAGGGATGTTTAATTACAGTA
W
TTTTTTTTCCTTCTTAGTTATACTTGAGATATTGGCACATCATACAGTTAGATAGTATTTTGGATTCAATTAAGTGGTATATAGCACTATCGCTTAACAG
Celera SNP ID:            hCV2717446
SNP Position Genomic:     36068
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,3|T,9)      total(A,3|T,9) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5064):
CATAATATAAAATCTATTAGTTTTGCATTTATTCACTGACTAATGTAATTGTTATTATTTGAAGAATAGTTCTTTAGGGGCTTATTGTACCATGTGTATA
W
AACTATTACTGCTTGCTTGCTTTCTGAAGGATGGAAGGAAAATCCTGTAGAGTTTGATTCTCTTTTTAATGAAAGTAAATACACATGGAGCTGGGGAAGC
Celera SNP ID:            hCV2717447
SNP Position Genomic:     35787
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|T,7)      total(A,2|T,7) ;no_pop(T,-|A,-)   ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5065):
TGAACATCTGTATACCCTTTACCTAGTATGACAATTTTAACCTTTTTTCATAATTGCGTTCACCCTCTCCTGGCCCCTCTGCCACCTGCACCACAGGGGT
R
CCCATGTATGTCCATCTAGTTATAATTATTTTTTCCTTAACAATTCGAAAGCAAGAAACTTTACCCCAAACACTTCAGCCTATATCTCTTAAATAACCAC
Celera SNP ID:            hCV2717448
SNP Position Genomic:     34773
SNP Source:               Celera;HGBASE;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:5066):
CTTACATATCTCACAGTTCAGATATTCATTTGATTCAGAGAACCTTCAGAATATTTTCCCAAAACTTTTAAAGATTTTTATTTAAGATTGAAATTTTCTT
R
CCAAAACAAAACAAAAAATCAGCAGCTTGACTTGGGGTAAATCCCAAAGCATTTTCTAGAACTCAGTGAAGACAGGGATATACTCTGTCCATTAACTTTG
Celera SNP ID:            hCV26583040
SNP Position Genomic:     97681
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5067):
AAAGGATTATTTGATGAACATCTGTATACCCTTTACCTAGTATGACAATTTTAACCTTTTTTCATAATTGCGTTCACCCTCTCCTGGCCCCTCTGCCACC
Y
GCACCACAGGGGTACCCATGTATGTCCATCTAGTTATAATTATTTTTTCCTTAACAATTCGAAAGCAAGAAACTTTACCCCAAACACTTCAGCCTATATC
Celera SNP ID:            hCV2717449
SNP Position Genomic:     34759
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,2|T,10)      total(C,2|T,10) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5068):
TGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTCTTCATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTT
Y
GCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATTTGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGA
Celera SNP ID:            hCV26583041
SNP Position Genomic:     95778
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,5)   total(C,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5069):
ATGCTAGGAATGGGCTCACCTGGAATTTGAAAAATTCCTTTCCTTCTTAAGTTTTGACTTAAGTTTTTTGCTTTTGATTCCTTCTGTAATAATCTTATGT
K
TCTAAAGCTTTATGTGAGAGTATCTAATCATAGTCTGTGTTAACTATTTGTCTTTAATATCTTTTAGGAATATCATAATGCATGAAGGCAGCTGGGGCAT
Celera SNP ID:            hCV25753091
SNP Position Genomic:     35168
SNP Source:               Applera
Population(Allele,Count): african american(G,2|T,36)   caucasian(G,8|T,24)   total(G,10|T,60)
SNP Type:                 INTRON


Context             (SEQ ID NO:5070):
AAAAAATCAGTTTCTGAGGAGTAAGTTGTCTTTGAACTAAGATATAAATGCCTAATTAAGCAAAGAGTGCTAAATCTTGAGTAATACTTTTATTTCATTA
R
AAAATAATTCATTTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAATCGCCACACTGACTTCCAC
Celera SNP ID:            hCV26583042
SNP Position Genomic:     95438
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5071):
TCTAGAGCACTAGGGGGATTAGAAAGTTATGCACATTTCCTTCCCAGAATAGAGATGGAGGAGTTTATGTTTTGCCACCCCACCCACTTCATCTGCCCTT
Y
CTCCACTTGGGTAGTTGCTTTTATTATCCCGGGGGAGAGTCGATACATCTCTCATGCATGGTGAAGTCATTCCTGTTTCTCTTTTCCAAGGGGCATACTG
Celera SNP ID:            hCV26583043
SNP Position Genomic:     95183
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5072):
TTGGTCTAAAGTATACTTTGGTATCAGGATTGCAACTCTAGATTTCGTGCTGTTTCCATTTGCCTTTATTTTTAGCCTTTTTGAATCACTGTGTTTTAAG
W
TTAGTTCCTGTATTCTGCGTAGAGTTAGGTTTTGCTTTATATGCCAATTCGACAATTTTTTTTCTTTTAACTAAAAAGGTGAGTTGAGCTCATTCACATT
Celera SNP ID:            hCV26583044
SNP Position Genomic:     93835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5073):
CTTAAGATTGCTTTGGCTATTCAGAGTCTTTTGTGGGCCCACATGAATTTTAGGATTTTTTCTATTTCTGTGAAGGATGTCATAATTTTTGTTTTATATA
Y
GTTGTTTGAAGCAAAATATTCATAACTATTACATTATCATTGTGGAATGTTACTTTTAACATCACAAAGTGTTCTTCTTTGCTTTATTGATTGTTTTTGG
Celera SNP ID:            hCV26583045
SNP Position Genomic:     93638
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5074):
ACATTTTGACTCCTCCTTTCCTAGCGATTGTGTAGATCTAGATAAATTAAACTTTGTAGTTAAATCTAATACGGTTATATTTACACACAGAGATTAGTCT
R
TATTTTTCACATGTGCTGTGGTTCTACCTGTAAGTGCTTCCTCACAGGTTGTACTTAAAATAGAGTGTATTGTTAACATTGTAGAAAACATTAGAAGTAA
Celera SNP ID:            hCV16190700
SNP Position Genomic:     83706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5075):
TAAGCCTTTAATCCATTTTGAGTTGATTTCTTTTTTATGTGGTAAGAGATAAGTGTCTTGTTTTATTGTTTTGAAAATGGATATTCCATTTTCCTAGCAC
Y
GTTTATTGGAGAGACAGTCCTTTCCTCAATGTATGTTCTTGGTGCCTTTGTCTAAATGAGTTGGCTATAAATATGTGGATTTATTTCTGGGTTCTCTATT
Celera SNP ID:            hCV26583046
SNP Position Genomic:     93302
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,28)      total(C,28|T,1) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5076):
TGAATTGACGTTTTAGAATCACATGATTTCAAGAATCATCAGAAATGTATTTTTTCTCATATGAATATTAAATATCATACATTTTAGAGAAAAGGAATGG
R
CATTTTTTCATCAACTGATTAGTGTGAATTTTTGGTAGAGTCAGAAACGTATTTTTAAACTTTAATTAGCTTATTGAATGAAATTTTATTATACAAATAT
Celera SNP ID:            hCV29176230
SNP Position Genomic:     48944
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5077):
TGGGTAGTTTGCAAATATTTTCTCCCATTCTGTAGGTTGTCTCTTCACTCCGTTGATGGTTTCCTTTGCTATGCAGAAGCTTTTTAGCTTGATATAATCC
M
CTTTGTCTACTTTTGCTTTTGTTGCCTGTGCTTTTGAGGTCTTACCCAAAATGTCTTTGTCAGACTACTGTCCTGAAGTGTTTTCCAAATGTTTTCTTCT
Celera SNP ID:            hCV26583047
SNP Position Genomic:     93073
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,24)      total(A,1|C,24) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5078):
AGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGAGCGACAGAGTGAGACTCTGTCTCAAAAAAAAA
A
TTAACTTAAAAATATCAAAAATTAATATTAATATTAAAATGCTTAAAATATTAACTATAAGGCAAAAAGACACTGATCAAATAACATATTGTTACCTCTC
Celera SNP ID:            hCV26583048
SNP Position Genomic:     84440
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,13)   total(A,2|-,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5079):
TAATTGGTTGCTTTTCTGTTACATGATTTGAAGAACACATTCTAGCTGGGGCAAAGGAAGTAATTAGGAGGCTATTTGCAATGTTCTACATTAGAGATTA
Y
GGTTGGACTAGGTTGATAGTACACAGGACAATGAAAAGTGGTCCAGTTCTGAAATATTTAAAAAAATAAATTATTCTTAAACTGGTAACAGTATTACTAT
Celera SNP ID:            hCV29176231
SNP Position Genomic:     44266
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5080):
GTGCATCGTGACACTATGCATAATTTTATTCTAATTTTTCTTAACTTTAGCTTTGACTGCTTCTTCCTTCTTTTAAAACATGATGTATTAAAAATATTTC
R
GAGTTGGCTGGGTGCAAGGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGACC
Celera SNP ID:            hCV26583049
SNP Position Genomic:     84146
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,14)      total(G,2|A,14) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5081):
CAGCCCACTACAGATATGGTCCACCTTGCTCATATTAGGGAAGAGGAAAATAACTTACTAGGAACTGAGTGAGGATGACCTCTCAGGCCTCATTATTCTC
R
GTACACAGCCTCTTCAATCTGGCTGTTTTAAAATGCATTCACAAGGAGTTATAATGGAATGTTCATTGAAAACAATTCATGGTACAAGTAAAAGAGCAAA
Celera SNP ID:            hCV25749791
SNP Position Genomic:     107577
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(G,32)   total(A,5|G,63)
SNP Type:                 INTRON


Context             (SEQ ID NO:5082):
CTTAGAAGGGTTTATGAATCTAGTTTATCATTATTTAATTAGCATAATAATCTTCAAATTTTATTTTAATTAATTATTCCCAGCCTCACCCTGCCAAGTA
R
TATTTTATTAATTGGTTGCTTTTCTGTTACATGATTTGAAGAACACATTCTAGCTGGGGCAAAGGAAGTAATTAGGAGGCTATTTGCAATGTTCTACATT
Celera SNP ID:            hCV29176232
SNP Position Genomic:     44157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5083):
CTTTCCTTCTTAAGTTTTGACTTAAGTTTTTTGCTTTTGATTCCTTCTGTAATAATCTTATGTTTCTAAAGCTTTATGTGAGAGTATCTAATCATAGTCT
R
TGTTAACTATTTGTCTTTAATATCTTTTAGGAATATCATAATGCATGAAGGCAGCTGGGGCATATCTCATACACGTGTGCCAACAGAATCTCGGCCAGGT
Celera SNP ID:            hCV29176233
SNP Position Genomic:     35205
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5084):
CTCACCTGGAATTTGAAAAATTCCTTTCCTTCTTAAGTTTTGACTTAAGTTTTTTGCTTTTGATTCCTTCTGTAATAATCTTATGTTTCTAAAGCTTTAT
R
TGAGAGTATCTAATCATAGTCTGTGTTAACTATTTGTCTTTAATATCTTTTAGGAATATCATAATGCATGAAGGCAGCTGGGGCATATCTCATACACGTG
Celera SNP ID:            hCV29176234
SNP Position Genomic:     35182
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5085):
GGCCATGCTATCATCTTAGAGGGCCCATGAATAAACCTTAGAGGGAATCCTAAGGCTTTAGGAAACCGCTGCAGCTTGTCTGTCATTTTCCAATATGTTA
R
TTATTATACTTAGTGTACAGTATTTAGAATACAAAATGCTTTTTTATTTTTTAGGAAAATAATGTTATAAATGATTGTATATTTTCATAGTAATGTCTTT
Celera SNP ID:            hCV3018874
SNP Position Genomic:     149363
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 TFBS


Context             (SEQ ID NO:5086):
TATTTTGTTTCATGATTCTGTGCAGTGGTTGAATGGTTCTTTGTTTGGTCTTACATCAGCAAATTCATGCTGCTGCATTCAGCTGGTAGATGCTAGGAAT
S
GGCTCACCTGGAATTTGAAAAATTCCTTTCCTTCTTAAGTTTTGACTTAAGTTTTTTGCTTTTGATTCCTTCTGTAATAATCTTATGTTTCTAAAGCTTT
Celera SNP ID:            hCV29176235
SNP Position Genomic:     35079
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5087):
TGGGGACACTTAGGGTGTCTCTCTGAGTCTTGTAGCTTAAGGAAGGCTTTTCAGAACAGGAGCTGTCTGAACACTGCAAGTGTGGGGCTTACAAGAGTAC
R
TTGGGTCACAAGAACTAGGGAGAATGTGTAGAGTGAGAGAAGGTGAAGAGCAGAGAACAAGAAGTGTGGAAACAAGGCTGAAAGAAGTGGCCAGAAGGCA
Celera SNP ID:            hCV29176309
SNP Position Genomic:     124193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5088):
TTTTAAGAATTTTTCAACTAAACAAATTTGAAAGGATTATTTGATGAACATCTGTATACCCTTTACCTAGTATGACAATTTTAACCTTTTTTCATAATTG
Y
GTTCACCCTCTCCTGGCCCCTCTGCCACCTGCACCACAGGGGTACCCATGTATGTCCATCTAGTTATAATTATTTTTTCCTTAACAATTCGAAAGCAAGA
Celera SNP ID:            hCV29176236
SNP Position Genomic:     34729
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5089):
ATTACACACTGGCTTGGAAAGTACTCCCATGTTCCGTTTGATCTTGGCAATTTAATGGTATCTTCTTTTACAGTTTTATTTAAATGTTTCATATTGCTTC
R
TTTTTCTTCCTTAAGTATTTGTAAGTTCATCAGCTCTGTGATGAACTTACAGAGAACTCGATATTCTTTATAGTACCCCAGCACCCAGTTATGCATGTGA
Celera SNP ID:            hCV29176237
SNP Position Genomic:     30835
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:5090):
AAAAATTAGCTGGCTGTGGTGGTGCATGCCTGTGGTCTCAGCTACTCAGGAGGCTGAGGTGGAGGATCACCTGAGCCCAGGGAGGTCAAAGCTGCAGTGA
R
CTATGATCATACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACCCTGCCTAAAAAAAAAAAAAAAAAAAAATAGGAAAAAAAAAAGTATTTTGTTGAA
Celera SNP ID:            hCV3018876
SNP Position Genomic:     138459
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,6)   total(G,2|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5091):
CAATACTTTTTTTTTTCTCCTCGATCTGCAGAGATTCACCAACAATAGCAAATTACACACTGGCTTGGAAAGTACTCCCATGTTCCGTTTGATCTTGGCA
R
TTTAATGGTATCTTCTTTTACAGTTTTATTTAAATGTTTCATATTGCTTCGTTTTTCTTCCTTAAGTATTTGTAAGTTCATCAGCTCTGTGATGAACTTA
Celera SNP ID:            hCV29176238
SNP Position Genomic:     30784
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 5;INTRON;TFBS


Context             (SEQ ID NO:5092):
GCCGTTACATTACAACTAAGACAAGTTCCAATACTTTTTTTTTTCTCCTCGATCTGCAGAGATTCACCAACAATAGCAAATTACACACTGGCTTGGAAAG
Y
ACTCCCATGTTCCGTTTGATCTTGGCAATTTAATGGTATCTTCTTTTACAGTTTTATTTAAATGTTTCATATTGCTTCGTTTTTCTTCCTTAAGTATTTG
Celera SNP ID:            hCV29176239
SNP Position Genomic:     30756
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:5093):
AAACTTTATAGAGTATTGCCTTTTATACGGCATACTGAAAGTACATTTTTAAAACTAGAGAAAAAAATTCCTTTGAGGTAATTTTCATAACTATAAAAAC
R
TATATTCAGATTTGCGTCCTCAATGCATTTGTAGTGAGGTGAATAGAGTCAGGATCATCAGTTTGATTGAGCTGAGTTTGATTTGATGGCAGTCTTCATT
Celera SNP ID:            hCV3018878
SNP Position Genomic:     132223
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,2|G,9)      total(G,9|A,2) ;no_pop(G,-|A,-)   ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5094):
AAAGTTAAGGATTATTGAGAAAGGTATTAAATTGATGATAATGATATTACTAGAGTAGAATATCATTTATTGTATGCAGTGTATTAGGAATTGTACTTAT
R
TTATCTCATTGAGTCTCATGAAATGATGTGAAGAAAATATTAACAATTTCTGTTTTACAGAGTAGAAACTGGTTCTGAAAGACTGATTGCACAATAATGT
Celera SNP ID:            hCV3018879
SNP Position Genomic:     128380
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:5095):
TCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACGTGCCACCACGCCCGGCTAATTTTTGTACCTTTGGTAGAGAC
K
GGGTTTCACCATGTTGACCAGGCTGGTTTCGAACTCCTGACCTCCACCTGCCTCAGCTTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCATCTGG
Celera SNP ID:            hCV2717450
SNP Position Genomic:     33972
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,6)   total(G,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5096):
TAATTTGAAGAATTTTTCACAATATTTGAATCTTTAATTCTACATTGAGAATTATATTTAAGAAAATAACACAAATATATTCAGAATTATTTTACATTCA
Y
ATTGATAATTTAGCATTTAATGTTCATTAGGTTGTTTAGTAAAAAAACATAAAATTTACTTTTTAAAAAAATTAAGGACAGTGATTATTATTCTAAACTG
Celera SNP ID:            hCV2717452
SNP Position Genomic:     30148
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:5097):
AAGTAAAGCACAATAAGATGTGGTATGCCTGCATCTAGAATATATTAAGAACCATTATGGTTCTGTGACAAGAACACAATCTAATTAAAAAATTAAATCC
R
TACAAATGGTAGATCAGTAAGCCTATGGAAAGATACTCAATAATATTAGTCATTAGGGAAATTATATTAAAATCACAACAAGCTACCAGTACACACCCAC
Celera SNP ID:            hCV2717453
SNP Position Genomic:     22874
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5098):
GATACCTAGGGGGAATTTTAGAAGCTTTCAAGGACTTTTTATTAGCTCTCTTCCTGCCATATTCCCCAAAATAAGTAAAATTTCTCTTTGACTTGATGCT
R
CATTAACTGTACTTTTTAGTGAACTGGGGGAAAATAAATAAAGTTCAAATATATACTCATTCCACCAATGAATCATAAAGTGACTGCACTATGCCGTTAG
Celera SNP ID:            hCV2717456
SNP Position Genomic:     17203
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:5099):
ACAGTGAACTTTACAGAGGACAAACTGAACAAACCGCCTCAGCCAAGTGGTCAAGTTTTATATTAACAGTTTAGTAAGTCATGTTGACAGTACCCTTAAT
R
TGATGTGAAGAAAATGGTACTTTATGTATGTATGTTTCCTCTCCTGAACCCATAACCCCAGACTTACCATGAGAAAAACATCAGATAAATCCCAATAGCA
Celera SNP ID:            hCV2717458
SNP Position Genomic:     13881
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:5100):
CATCAGTGGATTAAGGGATAAAGAAAATATGGTATATATACATGATGCGTCTTGTATATTGCAATATTATTCATTCATAAAAAAGAATGAAATCCTGTCA
Y
TTGCAGCAACATGGGTGGAACTGGAGATCATTATGTTAAGTGAAATAAGGCCGCCACAGAAAGACGAATTTTACATGTTCTCACTCATATGTGGGAGCTA
Celera SNP ID:            hCV26583050
SNP Position Genomic:     75152
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:5101):
ATTGTCTTAAGGTAAATATGACAGTATCAAGCAATTAGGGGGATTTAGAGATATAGAAGCTTTCGTACATTGCTGGAGAGTATGTAAATTAGTATGGACA
M
TTTGCCAGTCACTTGTAAAGTTGAAAATTTTGTTTATTAGAGCAATTCCACTTATAGAGGTGGCTTTCAATCTTATTGGTCCATAGAATAATTTAAAATA
Celera SNP ID:            hCV2717459
SNP Position Genomic:     12607
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:5102):
TGTTTGTGCTATCAACCTAGAAGCAAGGAAGTGCTAGGCATTTGCATTCATTAAGAGGGAACTGATAAAAATTTGCTATTGGATTCTGAATATTATAAAA
R
AAATATTAATTGAAATAAAAATAATATAAGGAAGTTAAGTAGAAATTTAGCTTATATGAGTAATCTAGGAATTTTAGTTTGAAAATTTTCTTTGTAAAAT
Celera SNP ID:            hCV26583051
SNP Position Genomic:     70627
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5103):
CTCTCTATATGATGCTTCATGCATTAGGGCTCATAATTAGTTCATAAAAGTAGAATTTTGAGAAACCTTTTCTATACAGTTTTGTCTCACTTTTTTTTTT
T
CATTTTTATAGTCACAGAAGATATAATGAGTTATAATATGTGATAAAATTAGTGGATCTTCTTCTTCTCTGGCCTTCCAAGTTTCCTATTGTCTGCATTC
Celera SNP ID:            hCV26583052
SNP Position Genomic:     69111
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,11)   total(T,11|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5104):
TACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACATG
T
ATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATATACATGTATGTACAAACATGTATATTTATATACATGTATGT
Celera SNP ID:            hCV26583053
SNP Position Genomic:     67884
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5105):
TTTAGAGTAGTCTCTCTTGTACTGTGGGGACACTTAGGGTGTCTCTCTGAGTCTTGTAGCTTAAGGAAGGCTTTTCAGAACAGGAGCTGTCTGAACACTG
S
AAGTGTGGGGCTTACAAGAGTACATTGGGTCACAAGAACTAGGGAGAATGTGTAGAGTGAGAGAAGGTGAAGAGCAGAGAACAAGAAGTGTGGAAACAAG
Celera SNP ID:            hCV29176310
SNP Position Genomic:     124169
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5106):
ATACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACAT
G
TATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATATACATGTATGTACAAACATGTATATTTATATACATGTATG
Celera SNP ID:            hCV26583054
SNP Position Genomic:     67883
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,8)   total(G,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5107):
TTGTGTCATCATCTCAGATTCCAATATATCTTCATATTTGACAAAGATATTTGCATGTTTTATTTCCATACATTTTGACTCCTCCTTTCCTAGCGATTGT
R
TAGATCTAGATAAATTAAACTTTGTAGTTAAATCTAATACGGTTATATTTACACACAGAGATTAGTCTATATTTTTCACATGTGCTGTGGTTCTACCTGT
Celera SNP ID:            hCV16190710
SNP Position Genomic:     83637
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5108):
CGTGTGTGTGTGTGTGTTTATACACATATATACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACGTG
T
ATATTTATATACACATATGTACAAACATGTATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATATACATGTATGT
Celera SNP ID:            hCV26583055
SNP Position Genomic:     67854
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5109):
ATATGGTTTGTTGCCACTGCCAATATGGTATGCGGTTCTAAGAGAGTAAGTAATGCATCTTGCTGCCTTGTTTTTTCACTTCATTGACAGTTAAATCTGT
R
TTTAAAATGCAGTAGATTTCTGTACCATAAGTCATCAAATATATTTATAATACTGTACTTTCAAACCTCCAGTCCCTCTCACTTCATTTATAACTGCATA
Celera SNP ID:            hCV16190711
SNP Position Genomic:     83261
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,7)   caucasian(A,24|G,12)   total(A,45|G,19)
SNP Type:                 INTRON;hmCS

SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   JBIC-allele(A,628|G,845)   total(G,845|A,628)   (G,-|A,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:5110):
TCGTGTGTGTGTGTGTGTTTATACACATATATACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACGT
G
TATATTTATATACACATATGTACAAACATGTATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATATACATGTATG
Celera SNP ID:            hCV26583056
SNP Position Genomic:     67853
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5111):
ATTACCATTGGTTTGGAAGTGTTTCAATGTTTTGTTTGATTTTTCAGAAACCAAGCCATCTCCTGCCTTGTAGTTTTGTAGCTATTGGCATTTTAGTAGC
R
TTTTTTCTGCTGATTCAAGCCTGTCCCTGGACATATTATGTATATGGTTTGTTGCCACTGCCAATATGGTATGCGGTTCTAAGAGAGTAAGTAATGCATC
Celera SNP ID:            hCV16190712
SNP Position Genomic:     83119
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,76|A,1031)   total(G,76|A,1031) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:5112):
TTCGTGTGTGTGTGTGTGTTTATACACATATATACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACG
T
GTATATTTATATACACATATGTACAAACATGTATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATATACATGTAT
Celera SNP ID:            hCV26583057
SNP Position Genomic:     67852
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5113):
CTATATGTAGCTAATGCCGTTACATTACAACTAAGACAAGTTCCAATACTTTTTTTTTTCTCCTCGATCTGCAGAGATTCACCAACAATAGCAAATTACA
S
ACTGGCTTGGAAAGTACTCCCATGTTCCGTTTGATCTTGGCAATTTAATGGTATCTTCTTTTACAGTTTTATTTAAATGTTTCATATTGCTTCGTTTTTC
Celera SNP ID:            hCV29176240
SNP Position Genomic:     30741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:5114):
ATTCGTGTGTGTGTGTGTGTTTATACACATATATACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAAC
G
TGTATATTTATATACACATATGTACAAACATGTATATACACATATGTACAAACGTGTATATTTATATACACATATGTACAAACGTGTATATATACATGTA
Celera SNP ID:            hCV26583058
SNP Position Genomic:     67851
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5115):
TGTTTTTCCAATGTTTCATTTGTTTTTGCAAGGTTATTTTGCCATCCTTTCCTTCCATGATGTGATTCTTCAGGCCAAGAAGAAAAAGATGTGTCTGTAG
Y
TAAAATTACCTCATCCTTGGTGTTTTTCAGCCTAGGATCACTATATGTAGCTAATGCCGTTACATTACAACTAAGACAAGTTCCAATACTTTTTTTTTTC
Celera SNP ID:            hCV29176241
SNP Position Genomic:     30600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5116):
AATTGGGTCTGGCAGACCCTGGTGATGGTATGCTGAAGGATGACCAGCAGGTGGAGCTACATGACCAGGAGAGGCATAAAAGGATCACCCATCTGTAAAA
G
GAGGAAAAACACTTTATGTTTAAAATTGTATACTTTAGAGGCTGGAGTAAGACAAGAAATAATTTAAAAGAAAAAATGCCACAGAATAAGAAGAAAGCAA
Celera SNP ID:            hCV26583059
SNP Position Genomic:     61585
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|G,11)   total(G,11|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5117):
CGCCCATACATAAGCTGTTACGTGATTCTTCATAGCAGCTTTATTTGAAATAGCCAAAAACTTTTAGAAACAACACAAGTGTCTGTTAACATGAGAGTGA
W
TAAACAAATTATGCTATATCTGTGCAATGGAATAATGCTCAATAATAAAAAGGAACAAACATATATGATTCTAAAAGTATTTATGCTCAGTGGAAGAATT
Celera SNP ID:            hCV15920093
SNP Position Genomic:     23705
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5118):
TTCACCATCTTAGCCAGGATGGTCTCGATATTCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCC
S
GCCAAGCCTGTCTTTTTAATTATATTCATCCTGCCCCTTATTCAGTTTTTCTCAACTGAATAATCCATTCTCTTGTTAGTTCATCATGGGTTCCATTCTG
Celera SNP ID:            hCV3018880
SNP Position Genomic:     127572
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:5119):
GGACCAGAACACCATGCAAATATGAGCTTTGAAAATAACGTAATAAAGGTTATCTCCAACAGGAAAATACAACTGGGTCAGGTTTATTATTAGGTGTACC
R
TAGTCCTTTTTTCGTTGGGACCTCTGTGTTGTTTCTAGAGTAGAAAAGGTCTAATGTCTAAAATCTACTATAATAATCAAAACAAAAGAGCAAGTCATGA
Celera SNP ID:            hCV29176242
SNP Position Genomic:     29761
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5120):
TGAAAGCAGTGACTCACGCCTGTCATCTCAGCACTTTGGGAGTCCAAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTCAAAAAAAAAATAATAAAAAAAT
W
AGAAGAAGAAATGAAAGCACACGCCCATACATAAGCTGTTACGTGATTCTTCATAGCAGCTTTATTTGAAATAGCCAAAAACTTTTAGAAACAACACAAG
Celera SNP ID:            hCV15920094
SNP Position Genomic:     23583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5121):
CCACCACCTCGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATCTTAGCCAGGATGGTCTCGATATTCTGACCTCGTGATCCGCCC
R
CCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCCCGCCAAGCCTGTCTTTTTAATTATATTCATCCTGCCCCTTATTCAGTTTTTC
Celera SNP ID:            hCV3018881
SNP Position Genomic:     127523
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5122):
CTCCCAGGTTCAAGCGATTCTCATGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGCCCGCCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGA
Y
GGGGTTTCACTATGTTGGTCAGGCTGGTCTCAAACTGCTGACCGCAGGTGATCCACCCGCCTCAGCCTGCCAAAGTGCTGGGATTACAGGCGTGAGCCAC
Celera SNP ID:            hCV25984726
SNP Position Genomic:     108099
SNP Source:               Applera
Population(Allele,Count): african american(C,34|T,2)   caucasian(C,23|T,11)   total(C,57|T,13)
SNP Type:                 INTRON


Context             (SEQ ID NO:5123):
TGCAGTGGCGCGATCTCGGCTCACAAGCTCTGTCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACC
K
CGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATCTTAGCCAGGATGGTCTCGATATTCTGACCTCGTGATCCGCCCGCCTCGGCC
Celera SNP ID:            hCV3018882
SNP Position Genomic:     127431
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,4)   total(G,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5124):
ATGAAAGCAGTGACTCACGCCTGTCATCTCAGCACTTTGGGAGTCCAAGGCAGGAGGATTGCTTGAGCCCAGGAGTTTCAAAAAAAAAATAATAAAAAAA
W
AAGAAGAAGAAATGAAAGCACACGCCCATACATAAGCTGTTACGTGATTCTTCATAGCAGCTTTATTTGAAATAGCCAAAAACTTTTAGAAACAACACAA
Celera SNP ID:            hCV15920095
SNP Position Genomic:     23582
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5125):
CTGGAGTGCAGTGGCGCGATCTCGGCTCACAAGCTCTGTCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCC
R
CCACCTCGCCCGGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATCTTAGCCAGGATGGTCTCGATATTCTGACCTCGTGATCCGCCCGCC
Celera SNP ID:            hCV3018883
SNP Position Genomic:     127425
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5126):
TTCAAGGACTTTTTATTAGCTCTCTTCCTGCCATATTCCCCAAAATAAGTAAAATTTCTCTTTGACTTGATGCTACATTAACTGTACTTTTTAGTGAACT
R
GGGGAAAATAAATAAAGTTCAAATATATACTCATTCCACCAATGAATCATAAAGTGACTGCACTATGCCGTTAGGTGGTGAGCATGAGTGAACAGAAACA
Celera SNP ID:            hCV29176245
SNP Position Genomic:     17229
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5127):
ATAGAGTTAAAGAAACCAGATATGTAAGAGTATATAGTGTACTCCATTTATATAAAATTCTAGAGCAGGCAAAACTATAGTCACAGAAAGTTGACCACTG
R
TTGTTTGGGGCTGGCAGTTGGGGTATGATTGACCACAAAAGGGCCTGTAGGAACTTTTAGGGTGACAGAAATGTTCTATATATTGAAGTTGTTTTTAGTT
Celera SNP ID:            hCV3018884
SNP Position Genomic:     125521
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5128):
TATTGATGCGTGGATACACAGGAAAAAAACACACTTTTTCAAAATAATCATGTACTACTTCTGAAGTACTTTGTGATGTGATATATTCTATATTTTATCC
R
ATCCTATTGTACTGTATTCTATTTCATTTTTTAAAAAAAGGAAAGAAGGCTAATTGCAGTCCATGAAATTATTTTGTTATGGGTCACTACTCTACAGTTT
Celera SNP ID:            hCV29176246
SNP Position Genomic:     12841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5129):
ACATGGATGACTATCAGATACTTTATAGAGTTAAAGAAACCAGATATGTAAGAGTATATAGTGTACTCCATTTATATAAAATTCTAGAGCAGGCAAAACT
R
TAGTCACAGAAAGTTGACCACTGATTGTTTGGGGCTGGCAGTTGGGGTATGATTGACCACAAAAGGGCCTGTAGGAACTTTTAGGGTGACAGAAATGTTC
Celera SNP ID:            hCV3018885
SNP Position Genomic:     125497
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,10)   total(G,1|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5130):
TCTCAGCCTCACTTGCATTCGTCTATCAAAGGGGATAAGGAAAGTACACAGAATTGAGAATGTTCTTGTCCCAGTGCCTGGTACCTGCTACACAATAACT
R
TTACTGTGGTCACTTATTAATTATTGAAATATTAGTATGTGTTGAGAACATTTGACAAGTGTTTAAAAATAAAACTAATATCAATCGTTTTGGCAGTGCA
Celera SNP ID:            hCV29176247
SNP Position Genomic:     8175
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5131):
TAGTCACTTGGGGAGCTGGAATCAAGTATCCCCAAAGAGTATCAGCTCAGCAATTTGATGATGCATTTTTGAAAGGTACAAGCATTTCTTTACTGGTTTA
Y
AAATACAACCTCTTAAAATAAGAACAAAGTTTAAATTTTTAAGAAATCACTCTTCAAATTTTAGTTGTAAATCCCTCATTTTGACATTTGTGCCATTACT
Celera SNP ID:            hCV25751142
SNP Position Genomic:     47161
SNP Source:               Applera
Population(Allele,Count): african american(C,3|T,35)   caucasian(T,24)   total(C,3|T,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:5132):
ACACAGTCAAACACAGAAGAGATAACATGTGAACCTAAGGGAGAATATGGCCATTTACAAGCTAAGGAAAGAGACCTCAAATAAGACCGATGCTGCTCAC
M
CACGATCTTGGACTTCCAGCCTCCAGAACTATGAGGAAATTTATATTGTTTAAGCCACTCAATCTGTGGGACTTTGTTATGGCAACCCTAGCTAATACAC
Celera SNP ID:            hCV3018888
SNP Position Genomic:     115164
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:5133):
CTTACTTCTGGGTTCTTCAGTTTCCACAGAATGGTTCAAGAATATGAAGATTTGCTCTGGAAAATCATTTTCCTTCCTTTTAATTAAGACTTAGTTCAGG
S
ATCGTATTCTCTGTTAAACCTTTTTTACCCAACTGCTCCACTCTCCAGAATCCTTCCACCCTCAAATTTCTGGCTAAGTTAGGTAACTCAGACTGTGGCT
Celera SNP ID:            hCV3018889
SNP Position Genomic:     114753
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5134):
AAATAGCAAAAGCCAAGATTTGAATGTAAAGGTTTAAAACCTTTTTCTTTCTGATGTGTAATTTTATCATAGTAAATTCTACACTAGTAGCAGTACTAAT
W
CTTGTGAGCTGGTTAAAAACATAAGCTGATGTCTACCTCACACCATATACAAATAATTATTTTTGTTTCAGAGGACACAAACCAACACAAATAAATTTTA
Celera SNP ID:            hCV2717460
SNP Position Genomic:     11966
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,5)   total(A,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5135):
AAACAATTTATCTGTTCCCTATGGTTAGATATTGTTTCCAATTTTTTATTATTACAAATAGCAAAAGCCAAGATTTGAATGTAAAGGTTTAAAACCTTTT
W
CTTTCTGATGTGTAATTTTATCATAGTAAATTCTACACTAGTAGCAGTACTAATACTTGTGAGCTGGTTAAAAACATAAGCTGATGTCTACCTCACACCA
Celera SNP ID:            hCV2717461
SNP Position Genomic:     11911
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5136):
CCACGACTCCTCCATGATTGGTCAGAGAAGGAAGGCGTGGAGCGGACTGACGGGAGACTGGCCCGAGAATTATCGCGATAGCAGCAGCGGCCGGGCAGGT
R
TTGGGGGCGTTCCGGAATTGAGGGGTGGTTGTAGTGGTGGCTTAGGAATACCCTCCCGGCTATCGCTTCAGTGGGTAGAGGGGACCACTGCCCGAGAGCT
Celera SNP ID:            hCV27474110
SNP Position Genomic:     6023
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,250|A,1187)   total(G,250|A,1187) 
SNP Type:                 UTR 5;TFBS;hmCS


Context             (SEQ ID NO:5137):
TTGTGAACACTAAGGATTTAGTAGGTAGTAGACAAGGCTCATGGGAAATGTTATGAATTTGGTTTTAAACCTACTTAGTTGAGTGTCTTTGAAACGTCCA
Y
GTAGATTTATAAAGGTTCGAGTTACATATGTGGATTTGGAGCTATAATTTGTTGAGGCTTTTGCATATTAGGTAATAACTGAAGCCACAGATATGATGAA
Celera SNP ID:            hCV2717462
SNP Position Genomic:     10735
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,3|T,9)      total(C,3|T,9) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5138):
TTTTCTTTTCCACAATACACAGAGGTTTGGTTATTCGTGAATAATGTATAAGTAACACACACTGGAATATTAAAAATTACCGATCACTACTTATAATAAT
K
TATTATTAATAGTGTTGGGAAATTTCCTTTCTACTTAGTAAGATTTTCATTAATCTAGGCCCTTACAACTAATGTTTCATCTGACTAATGATAGTTATTA
Celera SNP ID:            hCV2717464
SNP Position Genomic:     8631
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,8)   total(G,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5139):
AAATTGGGTCTGGCAGACCCTGGTGATGGTATGCTGAAGGATGACCAGCAGGTGGAGCTACATGACCAGGAGAGGCATAAAAGGATCACCCATCTGTAAA
A
GGAGGAAAAACACTTTATGTTTAAAATTGTATACTTTAGAGGCTGGAGTAAGACAAGAAATAATTTAAAAGAAAAAATGCCACAGAATAAGAAGAAAGCA
Celera SNP ID:            hCV26583060
SNP Position Genomic:     61584
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,11)   total(A,11|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5140):
CTCAAATGCCTCTTTTTCACTGAAAATTGTCATGATTCGTACTTCCTCTTCGGCGTTGCCTCACCATTTCTGTGGGTGTCTATGGTAATGAAAGAGCTAA
Y
GCTTATCAAGCCCTTTCAGTGGGCTAGGCACCATTTTAAGTGCTTTGCTAGCAGTAAGTTCTTGGACACTAAGATTAATATCAATGTTTTATTGCTTTAC
Celera SNP ID:            hCV27931975
SNP Position Genomic:     107134
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5141):
TTTCAACGGATTGAATGAGGACTACCCAGATTATCTAGGATAATCTCCTGTACTTAAAGTCCCTGACCTTTACACCATGCAGACTATCACTAGTGAATTA
S
ATTGATGAATTCTCTGTTTTGGCAGGTGATTGGGAATAGTGCATATGACTGAATGAAGTTTCTATTGGGTGGGCAATAGAGAGAGAAGCTTAGATAGCTT
Celera SNP ID:            hCV27931976
SNP Position Genomic:     82535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5142):
AAAATTGGGTCTGGCAGACCCTGGTGATGGTATGCTGAAGGATGACCAGCAGGTGGAGCTACATGACCAGGAGAGGCATAAAAGGATCACCCATCTGTAA
A
AGGAGGAAAAACACTTTATGTTTAAAATTGTATACTTTAGAGGCTGGAGTAAGACAAGAAATAATTTAAAAGAAAAAATGCCACAGAATAAGAAGAAAGC
Celera SNP ID:            hCV26583061
SNP Position Genomic:     61583
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,11)   total(A,11|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5143):
TTTTTCCCTTGAAATTTTCTTTTTACTTTTAATATATACTTTTGTCAACAGGGAAAACTTTCAACTTAAATAAAATCTGTGTAAGAAAATGATTAGCAAA
Y
TATTTTGCTAATCATCACTTCTTAACTTAATGTGCTAATATTAATATCTGCATGAAATCCTTTGGCTTCTAATTTCATATGTGTAGCTAAAATCCCTCCA
Celera SNP ID:            hCV27488380
SNP Position Genomic:     39457
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5144):
TTTGTTAATGGAATTGGTTCTGAGGAATATATAAATGTTCATATGTTTTTCAAGAAATATTGATTGACTAGTATGTGTTTTGCGGATATAGCAGTGAACA
R
GATAGACAAAGGCTTTGCATTCATAGAGTTTATTTGTACAGTAGTGTCACAGGCAAACTATAACCAAATGAAGAAGTGAATAAGGAATACATTATCAATT
Celera SNP ID:            hCV26583063
SNP Position Genomic:     57010
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,3)   total(G,3|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5145):
TAGCCTTCAGTCTGTGGCCAAAGGCCCGAGAGCCCCTAGCAAACCACTGGTGTAAGTCCAAGAGTCTAAAAGCTGAAGAATTCGGAGTCTGATGTTCAAG
T
GCAAGCAGCATCCAGCGCAGGAGAAATATGAGGCTGGAAAACTCAGCAAGTCTGCTCATTCCACATTCTTCTGCCTGCTTTATTCTAGCTGTGCTGGCAG
Celera SNP ID:            hCV26583064
SNP Position Genomic:     55838
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,12)   total(-,12|T,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5146):
AAAGAAGCCAGTCTGAGTCCCAAAACCTCAAAAGTAGGGAAGCTGACAGTATAGCCTTCAGTCTGTGGCCAAAGGCCCGAGAGCCCCTAGCAAACCACTG
R
TGTAAGTCCAAGAGTCTAAAAGCTGAAGAATTCGGAGTCTGATGTTCAAGTGCAAGCAGCATCCAGCGCAGGAGAAATATGAGGCTGGAAAACTCAGCAA
Celera SNP ID:            hCV26583065
SNP Position Genomic:     55787
SNP Source:               Celera;HGBASE
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:5147):
GGTTTGGCTTGTTTTATTTTCAGAGTTAAGGAAGTACAGTTTTAATTACAGTATGTTACTTTGCAAGATTGATATGTTTAATTCTCAGCTTATTGAGATA
R
TAAGAAAATGTTAAATTTTTCTTTAAATATTTATGAAACAATATAGTAACATAAAATTCCATTTATTTTCAAAGTGGTTAACCATCCCTAAAGAATCATT
Celera SNP ID:            hCV16190722
SNP Position Genomic:     54566
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,29)   caucasian(A,4|G,32)   total(A,7|G,61)
SNP Type:                 INTRON;hmCS

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


Context             (SEQ ID NO:5148):
GAATTGAGCTTTTTTATTTGTAGGCTGATATTGCACCATTGATGACTTCCCTTATTGGAGTTCCCTTTCCTCTTAACTCAGTGGTAAGGAATAAAATTTT
R
TTATCAACTCTCAGTATAAAAAAAAACTATCGCACAGTAAAATGTACTCTTTTTTATGTGTTTCTGAATAATCTGGGTTTTTTTTTTAGATGGGGTCTTG
Celera SNP ID:            hCV26583068
SNP Position Genomic:     52637
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,5)   total(G,1|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5149):
CATTCTAGTAGGAGAATTAAAGCAACTATAAACAAAACTTACACATTATGATAATTTTATGAAGAAAATTAGGGTGATATGATAAAAGAGGAGGTAGGAC
Y
GGGCTCCTTTCTCCACCCTGCCCCCCCCGCCAGTTTCCTTAGAGACAGGTTCTTGCCGTGTCTCTAAAGGAATGGAATGGGCTGGAATGTAGTAGCTGTT
Celera SNP ID:            hCV26583069
SNP Position Genomic:     48002
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|T,7)   total(C,6|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5150):
ACAGTAGCTTCAAAACATCTTGGAGATCAAATAATACCATATAACTAACCTGACTTCAATAAAATTATTGTATTTAGAGCAAGGGAATGATAACCCTATC
S
TTCTTAAAATTAGATCACCATGAATATTGAATAGTGTATTACATTTATGCCTTCGCATTTGAGCAACATATGAATAAACGAGGGAACCAGGGACACATTC
Celera SNP ID:            hCV3018890
SNP Position Genomic:     114400
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:5151):
GATGAGGTTAGAAATCCAGGTTCCCCTTGCAGCCTCCATTGGCACCCGAGAGGGAGCTCCTTACTGCTGCCTGCCAGGGACCAGCGTTACGGCACCCTGC
R
AGGCCTCCACTACTGCCTTCATGACTGGGAAAGATAGAGGTCCCCTTTGCCTCCCATGCAACCTCCACTAATAACATGGTCAGGAAAGGAATGGCCTTTC
Celera SNP ID:            hCV8687691
SNP Position Genomic:     145463
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:5152):
CAATGGAAAGAAGATATCCTTTCAGAGTTGGCACTGCTAAACTGGAGGTGAGACCCTCTATCCCTTACTCCAAACCACAGTTAATCTTTTTGCTTTACTC
W
TAAGTGCATTTGACTTCAAAAGAGTAGGGATTCAACTGTTAATCTGAGAGGATCTTATCAGATGTGATTAAAGCCTGTGGGAAGCTATGGATCAAACTGC
Celera SNP ID:            hCV25749885
SNP Position Genomic:     108685
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:5153):
ATTGCCAACATAATCTTTTCTCATAAGCCATGTACCTGGAATTGATCAATTCATTCAACAAATGTGTCATTTTCTGCTATATTTAGTAATGTGCCAGATA
Y
TAGCTGGGTGCTGACAGTACAAAGATAATGACCATTTTCAGCTTTCCAGGGGTTCAGATTCTTCATTAGAATGTAATTCATGTTCTTCTTCTCTAAGGTC
Celera SNP ID:            hCV3018892
SNP Position Genomic:     108938
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


Context             (SEQ ID NO:5154):
CTTTCTGACTGTGTTCAGTCCTTTTATGATGGGAGCCCTGATGATGTGGAAGGTTAGTTTTCTTATTTTGTTATTTGTCTTAAGCTATTGATTGATTAAG
R
TTATAAAGTCATTTAGACAGAGTTAAGTAGCAATGGAAAGAAGATATCCTTTCAGAGTTGGCACTGCTAAACTGGAGGTGAGACCCTCTATCCCTTACTC
Celera SNP ID:            hCV3018893
SNP Position Genomic:     108554
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,5)   caucasian(A,21|G,7)   total(A,50|G,12)
SNP Type:                 INTRON

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:5155):
CTGGGATTACAGGCATGAACCACCACGCCTGGCCAACACTGTTGTTTTAATATTGGCAAATATGATATATCACCATTGTTTTCATTTCCATATGTTATCA
R
TAAGGTCAAACATAATTTTCGTGTTTGTGTTCTTGTTGCGCCCATTTTTTTGAAAATTTAGAGTGTTCCTTTTCCTCTTCTATGTATGTTAATAATTTTA
Celera SNP ID:            hCV3018896
SNP Position Genomic:     102036
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;TFBS


Context             (SEQ ID NO:5156):
AATCTTTCCTTCTGCCCAGTCTTCAGTGTTATAATTTTATAATTTGTAATAGCGTTTAAAGTGTTTGGTTTTTTTTGCTTTCTTATCTTTAGGAAATAGT
R
GCGTATGCTGTAGAGTTCAGTAGTTGAAAGACTCAAAAAGGAAATAAGGCTTTGTTTTGTTTTGTAACTTCTGATTAGATAAATAACTCACTCAGCAAAT
Celera SNP ID:            hCV3018897
SNP Position Genomic:     101047
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5157):
CTGTACTTGTTTTACTCATGATATTTTCTCATGTGTGTAGGTATCTGTTCATATCCCTGGGCCTTCTAAGTCTTATATATCAAGTGATTTGTGTATGCTT
Y
CTGAAACCTGAATCTTTCCTTCTGCCCAGTCTTCAGTGTTATAATTTTATAATTTGTAATAGCGTTTAAAGTGTTTGGTTTTTTTTGCTTTCTTATCTTT
Celera SNP ID:            hCV3018898
SNP Position Genomic:     100936
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,10)   total(C,2|T,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5158):
GAAAATAACTTACTAGGAACTGAGTGAGGATGACCTCTCAGGCCTCATTATTCTCGGTACACAGCCTCTTCAATCTGGCTGTTTTAAAATGCATTCACAA
K
GAGTTATAATGGAATGTTCATTGAAAACAATTCATGGTACAAGTAAAAGAGCAAATTACTCTCAAGGTAAAATTAGCATATCTTTTCTAAATGAAAAGGA
Celera SNP ID:            hCV27470345
SNP Position Genomic:     107622
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,101|G,1392)   total(G,1392|T,101) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5159):
TGCTTCCTTCAAAATAAATAGTTCACTTTGTATAGAATGTGGGAGGTTTGTTCGAGGGACTGATAAGAAATAATACAATATAGATTAGGCCGAAGTAATC
M
AAGGCTTCAAATGCTGGACTACAGCATTTACACTTTATTTAGTGAGGAGTTTGGTACGTTAATAAAAACCAGAGAAATAGAACCAGGCTATATATATATA
Celera SNP ID:            hCV11450270
SNP Position Genomic:     82047
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5160):
TTATATTTAAGGTATGTCTTCTGTAAGTAGCACATAATTGACTTTGTTGTTTGTTTTTTTATCCAGTATTCTACTTTTTTTCTTTTAGTTGGTGTTTTCG
S
ACCATTTATACTTACTATAATAACTGATATATTTAGGTTTGTTTTCAATTTATCCCATCTGTTTTATGTTCCTTTTTCTGTTTTATTTTGTTTTTTTGTA
Celera SNP ID:            hCV11450271
SNP Position Genomic:     72165
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:5161):
GTCAATGCCTGGACTTATATTAGTATAATGACAGCAGCATTGTTTATATTTGTGTGTTATGTCTTTTCTCATATCCTTTCACTTTTAACATTTTGATGTT
Y
TTATATTTAAGGTATGTCTTCTGTAAGTAGCACATAATTGACTTTGTTGTTTGTTTTTTTATCCAGTATTCTACTTTTTTTCTTTTAGTTGGTGTTTTCG
Celera SNP ID:            hCV11450272
SNP Position Genomic:     72064
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:5162):
CACCCTATCTTAAGACTTTTGCCTTAAAGTCAATGCCTGGACTTATATTAGTATAATGACAGCAGCATTGTTTATATTTGTGTGTTATGTCTTTTCTCAT
R
TCCTTTCACTTTTAACATTTTGATGTTCTTATATTTAAGGTATGTCTTCTGTAAGTAGCACATAATTGACTTTGTTGTTTGTTTTTTTATCCAGTATTCT
Celera SNP ID:            hCV11450274
SNP Position Genomic:     72036
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:5163):
GTCTTTGCATTCTAGTGTGTCATTGGCAAATGCCCTTGCCAATGCCCTCACCCTATCTTAAGACTTTTGCCTTAAAGTCAATGCCTGGACTTATATTAGT
R
TAATGACAGCAGCATTGTTTATATTTGTGTGTTATGTCTTTTCTCATATCCTTTCACTTTTAACATTTTGATGTTCTTATATTTAAGGTATGTCTTCTGT
Celera SNP ID:            hCV11450275
SNP Position Genomic:     71988
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:5164):
AGTTAATTAACGCTGCAAATATCCCAGAGACTTTATAGATGAATAATTTATCATTATTATACTATATTATATCTAAAACTTGTATTATTTTGGAAAAAGA
R
GAAAGATAGGTCTAGAGGGAACTGGAAGGAATCTAAACTCTTTGGTGTCAATGTTTAAACTGCTTTCTTGAAAAGAAAACATATTCTCTGAACAAAGATT
Celera SNP ID:            hCV11450276
SNP Position Genomic:     70212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5165):
TAGAGACTCATGTTTAATTCAAGCCAAACAGTTTCCAGATCCATGCAGTTTTCTACTCACCTGTTTTTTTGTAACTGTGGTTAAAAAAAAAAATATATAT
R
TATATATATGCAAAATACAGAATTTACTGTCTTAAGCATTTTAAGTGTTTGCAGACAGTCCCCAGCTTAACAATGGTTTAACTTACGATTCTTTTGACTT
Celera SNP ID:            hCV26583071
SNP Position Genomic:     40183
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,15)   total(G,2|A,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5166):
TGACTGATCCAGATACTCTTGTTTTCAGATTTTTTTCTCATGCTGTTTTAATTGTAAACTGTTATACAATTGGGTTACTAAAACCCTTGATGGGTTCTAG
Y
AATCACCAACTAGTAAGTCATAAAACTTTTGTAACTTACTGTATTTCAGAATTGTTATTCAGATTTTCCAAATTATTCTTTGTGAGTTATGTATGATGTC
Celera SNP ID:            hCV11450278
SNP Position Genomic:     67049
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(C,1|T,13)      total(C,1|T,13) ;no_pop(T,-|C,-)   ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5167):
GTCCTGGCTAGAGACTCATGTTTAATTCAAGCCAAACAGTTTCCAGATCCATGCAGTTTTCTACTCACCTGTTTTTTTGTAACTGTGGTTAAAAAAAAAA
A
TATATATATATATATATGCAAAATACAGAATTTACTGTCTTAAGCATTTTAAGTGTTTGCAGACAGTCCCCAGCTTAACAATGGTTTAACTTACGATTCT
Celera SNP ID:            hCV26583072
SNP Position Genomic:     40175
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,14)   total(A,14|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5168):
ATGTCCTGGCTAGAGACTCATGTTTAATTCAAGCCAAACAGTTTCCAGATCCATGCAGTTTTCTACTCACCTGTTTTTTTGTAACTGTGGTTAAAAAAAA
W
AATATATATATATATATATGCAAAATACAGAATTTACTGTCTTAAGCATTTTAAGTGTTTGCAGACAGTCCCCAGCTTAACAATGGTTTAACTTACGATT
Celera SNP ID:            hCV26583073
SNP Position Genomic:     40173
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|A,13)   total(A,13|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5169):
AAAGAAATGGATAGGGATGGATTGGTATGGAAAGGTATTGCAGGCCAACAGCATTATGTAAATCTTGGTCAAGAGCCAGCATAATGGATTTGAGGAAGTG
A
GAAAGAAGGGAGGTTAGTGTGGCAGGAGGACTGCCTGGGAGCCAGGTCTCAGAAGAGGCTAGAGAGTGAGGTAAGGGTTTTACTCGAACTTCATGTCCTG
Celera SNP ID:            hCV26583074
SNP Position Genomic:     39980
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,11)   total(A,11|-,2) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5170):
GTACAGGAGACAAAGAAATGGATAGGGATGGATTGGTATGGAAAGGTATTGCAGGCCAACAGCATTATGTAAATCTTGGTCAAGAGCCAGCATAATGGAT
Y
TGAGGAAGTGAGAAAGAAGGGAGGTTAGTGTGGCAGGAGGACTGCCTGGGAGCCAGGTCTCAGAAGAGGCTAGAGAGTGAGGTAAGGGTTTTACTCGAAC
Celera SNP ID:            hCV26583075
SNP Position Genomic:     39969
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,13)   total(C,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5171):
TCAACTTAAATAAAATCTGTGTAAGAAAATGATTAGCAAATTATTTTGCTAATCATCACTTCTTAACTTAATGTGCTAATATTAATATCTGCATGAAATC
Y
TTTGGCTTCTAATTTCATATGTGTAGCTAAAATCCCTCCAAAATCATGGAATTGATTCCTTGTGAATGTACATACATAGCTGGTAGCTGGCCTGATTTTC
Celera SNP ID:            hCV26583076
SNP Position Genomic:     39517
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:5172):
ATTTTTCTTTAGAATGTATTGAGAGGCAGATATTTATCTTGAAAAATGTTATTGTTGAGTTTACTATTTTATAACTTATTGCTCTGCTGGCCTTTCACCT
R
TAATAGCACCACTTGTAGTTTTGCTTTCTTCCCCAAATTTTGCAAATCACTGTGGATACAACTTAAATAATGTTGACATCTTTTAGCAAAATAATCTTTT
Celera SNP ID:            hCV26583077
SNP Position Genomic:     34451
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:5173):
AAAATGTTTCTTTAATAAGTACAAATTTTCTGAAGCACAGATGAAATTTAACTTCATATGATTCTGCCAAATGTGATAGAATACATGTTTCCTGCTCAAT
R
TGGTAATAGTCAAGAGAGCCAGAATACCAAAGTAAGAAGAAAAAAAAAATCACAAATATTTGAATAATTTAAATCAATTCAGCAACATCTAAATAATTAT
Celera SNP ID:            hCV26583078
SNP Position Genomic:     31105
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:5174):
AGTAGCTGGGATTACAGGTGCCCGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCACATTGGTCAGGCTGGTCTCGAACTC
Y
TGACTTCGTGATCTGCCCTCCTTGGCCTCCCAAAGTGCTGAGATTACAGGCGTAAGCCACCGCACCCGGCCGAGAAATGATCAGTTTTAATAGTGAAATT
Celera SNP ID:            hCV26583079
SNP Position Genomic:     19039
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:5175):
TTGTCATGATTCGTACTTCCTCTTCGGCGTTGCCTCACCATTTCTGTGGGTGTCTATGGTAATGAAAGAGCTAATGCTTATCAAGCCCTTTCAGTGGGCT
R
GGCACCATTTTAAGTGCTTTGCTAGCAGTAAGTTCTTGGACACTAAGATTAATATCAATGTTTTATTGCTTTACTAATACAAATGTAAGTTTCAGAAATG
Celera SNP ID:            hCV27871182
SNP Position Genomic:     107160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5176):
TACTGAACATCATAGCTTAGTCTAGCCTACCTTTAATGTGCTGAGAACACTTAACATTAGCCTACAGTTGGTCAGAATCATCTAACATAAAGCCGACTGT
R
TAATAAAGTATTGAATATCTCATGTAATTTATTGAATACTGCATTGAAAGTGAAGAACAAAATGATTGTGTGGGTACTCAAAGTATGCTTTCTACTGAAT
Celera SNP ID:            hCV27871184
SNP Position Genomic:     59930
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5177):
ACATATACATAATAATGATTATGTGTGATAATAATCAACATAATGTATGTATTACTGTGTGATATGGTTTGGCTCTGCGTCCCCACCCAAATCCCATCTC
R
AATTGTAATCCCCATGTGTTGAGGGAGGGACCTGGTGGGAGGCGATTGAATCATGGGGTGGATTTCCCCCTTGCTGTTCTCCTGATAGTGAGTGGGTTCT
Celera SNP ID:            hCV27871185
SNP Position Genomic:     28392
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5178):
TTCTTTTGCTCCAGCCTAATAAATCACTCAGCACCTGTAATATAAAATGATATTTTCTGTGGTAAAATTTTAGAAAAATGACATAAACTTGTCAGTTTGC
R
AACACTATAGTGTTTACCATGAATTCATGACATCAATATTTAGTTTATCTGGCAGAATGTAGAAAAATGTATTAATCACTAGAAAGTATGATAATTATTA
Celera SNP ID:            hCV11450281
SNP Position Genomic:     66694
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:                 INTRON


Context             (SEQ ID NO:5179):
GCCTCCCAAAGTGCTGAGATTACAGGCGTAAGCCACCGCACCCGGCCGAGAAATGATCAGTTTTAATAGTGAAATTATGGAAGGCTTTTTAGCTTTTGCC
M
CCTATTTGTTGCTCTTCCTTGTGTTCCAATTGGAAAGGATGAAGGGAGAGAATTAATTAGGTGGTTGAATTGGCAGAATTTAGTGACCATATGACTATTC
Celera SNP ID:            hCV11450285
SNP Position Genomic:     19164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5180):
AGTAATTGTATAGGACATTCATTTTTCTGTTCAGCTAGTTGCTATGTATGTTTTTAAAAATATTGTGCTTACCTAAACCACTTTTAAAAATAATGCATTA
K
CATTAATTTAACCGATTTAATTAATTAATAATATTGGGAATTTAATAGGATCAGAGAAAATATGAATAATATAAGCTTCTATTGGATAATGCAATGGTTA
Celera SNP ID:            hCV26583080
SNP Position Genomic:     18309
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:5181):
CTGGGCATGATGCTGTGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCCGAGATC
K
CGCCACTGCACTCCAGCCTGGGCGATAGATAGGGCGAGACTCTGTCTAAAAAGAAATAAAAATAAAAAGGAGAAGGCGACTGGGCCCAGCAACTCACACC
Celera SNP ID:            hCV11450288
SNP Position Genomic:     11254
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,9)   total(G,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5182):
TATATATCTAATATATATAATGTTTATGTCATTCATGTTTAGTAGTGAACACTGTGAGTCTGTAATCAAGAAATTTTATTAATTTGATTAGGGGAGTTGT
T
TTCAGATCCTCTTAAAAGCTTTTTTGAGGGGGAGGGGATTGAATTGCATGACAGTTTAAAAATGGTCTCATTGTCTCATAGCCATGATTTTTATAGGAAC
Celera SNP ID:            hCV26583081
SNP Position Genomic:     18106
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5183):
TTACAGTATTTTTTTTTCCTTCTTAGTTATACTTGAGATATTGGCACATCATACAGTTAGATAGTATTTTGGATTCAATTAAGTGGTATATAGCACTATC
K
CTTAACAGCTATATAATCTTGAGCAATTTATATAACCTCTCTGAGCTTCAATTTCCTTTTCATAAAATGTGATAATATTAGTTTCTGTCTCATAGATTTA
Celera SNP ID:            hCV27513241
SNP Position Genomic:     36160
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5184):
ATATATATCTAATATATATAATGTTTATGTCATTCATGTTTAGTAGTGAACACTGTGAGTCTGTAATCAAGAAATTTTATTAATTTGATTAGGGGAGTTG
T
TTTCAGATCCTCTTAAAAGCTTTTTTGAGGGGGAGGGGATTGAATTGCATGACAGTTTAAAAATGGTCTCATTGTCTCATAGCCATGATTTTTATAGGAA
Celera SNP ID:            hCV26583082
SNP Position Genomic:     18105
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,9)   total(T,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5185):
AATATATATCTAATATATATAATGTTTATGTCATTCATGTTTAGTAGTGAACACTGTGAGTCTGTAATCAAGAAATTTTATTAATTTGATTAGGGGAGTT
G
TTTTCAGATCCTCTTAAAAGCTTTTTTGAGGGGGAGGGGATTGAATTGCATGACAGTTTAAAAATGGTCTCATTGTCTCATAGCCATGATTTTTATAGGA
Celera SNP ID:            hCV26583083
SNP Position Genomic:     18104
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5186):
TGTGGAGAAGTGAAAACACGAGTTCCTTTGAAAACAAAACTCAACTGGACACTGAGTTTTATATATATAATGACATAAACATTATATATATTAGATATAT
W
AAATATATATATTTATTATATATAAAAATATATATTTATAATATATATCTAATATATATAATGTTTATGTCATTCATGTTTAGTAGTGAACACTGTGAGT
Celera SNP ID:            hCV26583084
SNP Position Genomic:     17964
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:5187):
TTAAAGAGTTTTAACCTTTAATCTGAGTTTTGGGGTCAGTACCTGTGTATAAAATTCCTGAAGAACAATTAGAATGAAGTATAGTGAACAAGTGAAATGT
W
CTACAATTTGTAGAGTAAAATATGTAATTACTTTAGATGAAGGGAGAAACTTACATTGTGTAGTTTTCTGCAGTTTGGTAGGGAAACCATTTGGAAGTTG
Celera SNP ID:            hCV26583085
SNP Position Genomic:     17715
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:5188):
GACATCTTAGCTAGACCTTGTCTGGTGAAAAATCATGAGATAATTTAGAAATCTTAGAAATAACACAAAAACCAAAAAAAAAAAACAACAAAAAAAAAAA
A
CAAAAAAAGACCCACCACCACACATAACAATTTTGTTACACTACTGTCTCATTTTATAGTCTTAAAGGTCAGCAATGAGAAAATCTTTTCCCGAAAAAGA
Celera SNP ID:            hCV26583086
SNP Position Genomic:     3784
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,3)   total(A,1|-,3) 
SNP Type:                 TFBS


Context             (SEQ ID NO:5189):
ATCATCAGGCATTCGTTAGATTCTCATAAGAAGTGCACAACCTAGATCCCTTGCAAGCACAGTTCACGACAGGGTTCGTGCTCCTCTGAGAATCTAATGC
Y
GCCGCTGATCTGACAGGAGGCGGAGCTCGGGCAGTAATGGTCACTGGTCCACCACTCACCTCCTGCTTTGCAGCCAGTTCCTAACAGGCCACAGACTGGT
Celera SNP ID:            hCV27871196
SNP Position Genomic:     146593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5190):
TTTCAACTTAAATAAAATCTGTGTAAGAAAATGATTAGCAAATTATTTTGCTAATCATCACTTCTTAACTTAATGTGCTAATATTAATATCTGCATGAAA
K
CCTTTGGCTTCTAATTTCATATGTGTAGCTAAAATCCCTCCAAAATCATGGAATTGATTCCTTGTGAATGTACATACATAGCTGGTAGCTGGCCTGATTT
Celera SNP ID:            hCV11691600
SNP Position Genomic:     39515
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|T,10)      total(G,4|T,10) ;no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5191):
AAATAAATGTTAATTATTCCTCCCATTTTTCTCTTCCCCATCATAATGAACAATGCTTTGTGAAAATTCTGGTTACTCACAAAAATCTGTGAATGACTAG
Y
TCATATTTTATGATAGTTTAAAAGATTTTGTAAAAAGATTATTTTTTCCAAATTTTCTTTTCAGGTGCTAGTGGAGACCACGTTTATACATATAGTTATG
Celera SNP ID:            hCV11691601
SNP Position Genomic:     38328
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5192):
GATGGATATGGATATATAGTATATTCTACTCCTGTAAGGAAAATGGTATTTGGAATTCCGAATTGACAGGTTATCTGGAACAAAGGAGCTTCTTTTTTTT
T
CTAGGTTTTGCAGGCATGAAATAGTGATTATATCTGTGGAAAAGCATAGGAAGGCATTCTCCTTTTTCATTTTTTTCCTTTGGCTGGCAGCTCTTCCCAG
Celera SNP ID:            hCV26583230
SNP Position Genomic:     147343
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,12)   total(-,12|T,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:5193):
TTCTTGACTTCTTTATTTGCTTCTTATTTACATCTTCTTTGCTGAGAATTCCTATTTCTTAGCTCAGATTTTCTGTTTTTTTGTGTGTTTGTTTCTAGTA
K
GTACATAATTGCTCATTAAAGTATTTTTATAATGACCACTTTAAAATTTTTGCCAGATAATTCTAACAGCTCTGTTATTTAGGTTTTGATATCAGTTAAT
Celera SNP ID:            hCV26583231
SNP Position Genomic:     145083
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,13)   total(G,3|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5194):
GCAGCACACCAGCATGGCACATGTATACATATGTAACTAACCTGCACATTGTGCACATGTACCCTAAAACTTAAAGTATAATAATAATAAAAAAAAAAAA
A
GAAAAGAAAACTTCCTTCAGACATTCTTTTAGGTTAGGTCTGCAGGCAATAAATTCATTTGGTTTTTTTTTTCATCTGTGAATTCTGATTTCCCCTTATT
Celera SNP ID:            hCV26583232
SNP Position Genomic:     144326
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5195):
TTTTATTTGGAATATGTATTGATGTTTGCTGTCTTTTACATCGTATAGCTTATTAATGTAGGTTTTTAAGTCAGTTTCATCACCGTTCTATGTGCCATTG
K
TATCATGCTTTTATTTCAGTGTTTGCTCTTCACTAGTATATATAAAAGTTACTTGAGAAATTGAAAATATTTCTGTAAGCAGAAATAGTATTTTTTTCAA
Celera SNP ID:            hCV15879533
SNP Position Genomic:     110135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5196):
AGCATATAAACATAACCAAAGACAAAAACCACATGATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAACCGTTCATGCTAAAAACTCT
Y
AATAAATTAGGTATTGATGGGACGTATCTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCATACTGAATGGGCAAAAACTGGAAACAT
Celera SNP ID:            hCV26583233
SNP Position Genomic:     142129
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,8)   total(C,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5197):
AAGGGATAATTGGAAAAATAAAGTCCTTTAGTACAGTGGTCCCCAGTCATTTTGGCACCAGGGACCAGTTTCGTGGAAGACAGTTTTTCCACGGATGGGG
Y
GAAGGGTGCAGGGGCCAGCAGGGGATGGTTTCAGGATGAAACCATTCTACCTCAGATCATCAGGCATTCGTTATATTTTCATAATGGGTGCACAACCTAG
Celera SNP ID:            hCV1389624
SNP Position Genomic:     136006
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:5198):
TCAAGTGGGCTTCATCCCTGGGATGCAAGGCTGGTTCAATATACACAAATCAATAAATGTAATCCAGCATATAAACATAACCAAAGACAAAAACCACATG
W
TTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAACCGTTCATGCTAAAAACTCTTAATAAATTAGGTATTGATGGGACGTATCTCAAAAT
Celera SNP ID:            hCV26583234
SNP Position Genomic:     142064
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,8)   total(A,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5199):
CGTGTTTATCATTTCTCTTTTGATATAATGAGAACTCAAAAAAAAGAGAGAACTCATGATTCTATTCAATAGTGTTTGTATATCCTAAATGTAATTAATA
A
GTGTCATAAAACATCTGTACTGTTACAGTGAATACCAAACTTTATTAAAACCAATGATTCTCAGACTTTTTCTGCCCCAGTACATTGAACAGGTATGACC
Celera SNP ID:            hCV26583235
SNP Position Genomic:     132488
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5200):
ACGTGTTTATCATTTCTCTTTTGATATAATGAGAACTCAAAAAAAAGAGAGAACTCATGATTCTATTCAATAGTGTTTGTATATCCTAAATGTAATTAAT
A
AGTGTCATAAAACATCTGTACTGTTACAGTGAATACCAAACTTTATTAAAACCAATGATTCTCAGACTTTTTCTGCCCCAGTACATTGAACAGGTATGAC
Celera SNP ID:            hCV26583236
SNP Position Genomic:     132487
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5201):
TCACTGCAAGCTCCTTTATTGCTTTTTTTTTTTGCATTTATTCCTGAAATGGCGGGAATCTGTCCCAGAATTTGAGAGAGGAGTGGGAGCTGACTGCCCC
R
TGAATGTAGTCTGGCATGTATCTGTAATGTTTATAGTGTTGTGGTGATTGCCATGGATTTTCAGAACACTTTTGAGAGATTTGTCACCTGTTATTAATAG
Celera SNP ID:            hCV26583237
SNP Position Genomic:     131673
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,2)   total(G,2|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5202):
AAACCATAGATTTTGGCTAAAATCTATAAAACCATAGATTTTGGATAAAATCTATAAAACCATAGATTTTGGATAAAATCTATAAAACCATAGATTTTGG
M
TAAAATCTATAAAACCATAGATTTTGGATAAAATCTATAAAACCATAGATTTTGGATAAAGAAATTTCTAGAAAATAGCCTTTGGGAGGCTTAAGTTTTT
Celera SNP ID:            hCV26583238
SNP Position Genomic:     129769
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5203):
AAACCATAGATTTTGGCTAAAATCTATAAAACCATAGATTTTGGCTAAAATCTATAAAACCATAGATTTTGGATAAAATCTATAAAACCATAGATTTTGG
M
TAAAATCTATAAAACCATAGATTTTGGATAAAATCTATAAAACCATAGATTTTGGATAAAATCTATAAAACCATAGATTTTGGATAAAGAAATTTCTAGA
Celera SNP ID:            hCV26583239
SNP Position Genomic:     129741
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5204):
TTGCTTATACATTTTGTGTTCTTCGCCTCCATCTTTGACATTTATTTTACATCTCCTTTGGTTCATGGAATGACTCCTCAGTTTACACCATTGCCTCCTC
Y
AGCGAGAAGATTAGTGTTGTTTGTTGCTGATGGCCTTCGAGCAGATGCACTTTACGAATTAGATGAAAATGGAAACTCTAGAGCACCGTTTATTAGGTAA
Celera SNP ID:            hCV25758949
SNP Position Genomic:     31815
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:5205):
CAGGCTCTATGCTGAAGAGTTTGTACTCCTTCACTCATCTCATCTCTGACTACAAACTTTGGTCCCTGAAGAAGTTGGGATGATTATATCCAGTGTTTTT
K
TTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCAGGGTACAGTGAGGTGATCACCACTGCAGCTTCCACCTTGTAGGCTGAAGTGATCTTCCCAACTCA
Celera SNP ID:            hCV15982621
SNP Position Genomic:     133830
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5206):
AATATTTTTAACTCATTTGTTATATGTAGGACTTCTTTCATCATGCCAGAAACAACCAGTCTTTGTTTTCTAAAATAAATGAAGAGAAAATAGTTTTTTT
Y
TTACATTTATTAGGAATAGATACAAACGGACATGCTCATCGACCATCCTCGAGGTAATTTAATATTGTGTTTAATTGTATTTTTTAGGGCAACAGCTATT
Celera SNP ID:            hCV8687501
SNP Position Genomic:     44777
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:5207):
ATGCACTCAACAGCATGTCTTCAGTAAGTAATGGTGCATTTTTCAGAGGGCGATTTCTTATATATTTGTAAGTGCTAATGGAGAGCATCATGCCACATCA
Y
AGGTCCACAGGGGAGACATTGACAAAAGGCCAGAACAGTGTAACCAGTACACTGCCATGATTATTTCCAGATTTATTTAAGCATGAAAGAAAAAGAAGCT
Celera SNP ID:            hCV8687502
SNP Position Genomic:     47738
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 21
Celera Gene:                 hCG39697 - 145000146587011
Gene Symbol:                 CXCL14
Protein Name:                chemokine (C-X-C motif) ligand 14;BMAC;BRAK;KS1;Kec;MGC10687;MIP-2g;NJAC;SCYB14;bolekine
Celera Genomic Axis:         GA_x5YUV32VUFE(40326963..40347766)
Chromosome:                  Chr5
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1682):
CTCATAGGAGCCTTTACAAGTGTGAGGAGTGGCACTGGAGACAACAAGGTCTACGAGCCACGCGGACAGCAGGTGCCTCTCCTACCCTGGGGCTAGGACG
GGAGTCAGGCAGATGTGTGCAGTCAAGGAGGGCTTCCCTGTAAAATGACATCTTCGCAGTTTCAGGAAGGCAAACGAAAGCAAACAGCCTAGCCAAGGAG
ACAGGACTTGGCGGTGCCTGCACAGAGGCCTAGGACTCTGCTGCAAACATGGAACAGGGCTGGTGAGAGAGGCAGGAGGTGGGGCAGAGCAGAATGAGGA
CAAGTGAGGCCGGATGGAGGGGCTGCTTGTTCCCCTGTGCCAAGCAGTGGGGGACAGCTCTAAAGATGGGCCTAGACCCTCACCATGGGACTCACCCAAG
CCACCAACAACTCTACCTGCCTCTCTGCAGTGCCACCTGCACAGCACAGGTGCTCATCGCCCATCGCCAGCGTCTGCTCAGTGAGGCTGAAGGCTGCCCA
AGCCCTCGCTGAATCAACTGCTCCTGAGTTGCTGTTATAACAAGAACATTCTGAAAAACTGGAAAGCAAGGAGAGAAGCTTTACAACAACAATGCCCAAC
ATTTCGCCACTCAAAGAGAATGACGTTTGTAACTCTGTCTTGCCATCCTTTGTACAGAGGTTACTGTTTTGCATACTTATAATCACAGTGTTTACACAAC
CTTGTGTTTTTTCTACTTACTGCATAAGCATTTACTCCACAAATTTAGAGCTTTCATTGTTTTCTTAATCCCCCATTGTTGGGCATTTAGTTTAAATCTT
TATTTTTAACAAGGACTAGCTTTGCATGTGGTATTTCTCCATTATGAGAATTTTAAACAGATTTCTGAAGTGGTTAATAAGATGAAATGGTTTACTTCAA
ACAGTCTGGATACCATACTATAAATATAACTTCCCCAAATTTTGTACCAATTGATAGTCCCATGAGTGATGCTTAAGTGATGCTTCCTCACTTTACCATT
ATCAGCTTTGGATGTTGCTATTTAAAATAAACATTTCCTCATTGAGTGGGACCAAAACCAAAATGCCGTGATCCTGCAGCACTGCTGTGCTTTTCCTTCA
TTGCCAAAGAGGATGCATGTTCTTTGATGAATTGGTTAATTGCCTTTCTTTTTCTCCTGAATTGTCCTTTGATGTCCTTTGCTCATTTATATGTTAGGGC
CCTCTTCGGAAATATCTTTGCATGTGTTCTTAATATAATAAAGATGCTTGCCTGTAAGGGAGTGTTGTTGGATGAATAGATGGTGGAATAAATGCTACTT
GTTGGTTTGTCATATTTGCTGCAAGCATTTTCTCCCATGTTTAGGGGAATCTTGCAGTGCCCCCTGTGACCCATCTGAGTAACAGAGCCCCCCTACATAC
ACTCTGCCTCGGGGCTGCTTTAAGCCTAATTCAATACTGCCTGGCTGTCCCCCACATCATTTTCTCTGGGCTTAAGTTACTCAGGATCTCTAAATATTTG
CAGTGTGAAGAACAAAACCAGAGGTTGTTCTTGGGAACCTTGGTCCTTCAACTTCCTTCACCCCAGAGCATGGCCAGGGAAGGGGTCAGCATGCAGGGCT
GTAGCTGAAAGAAAGCTGCACAGAGGAGGCAGCTGGCTGCCCAGACTCCACAGGCTGCAGGTGAACAGACAGAGGGAGGAGCTGGAGAGGGAGAGGCACC
CGCCAGGCTTGGATTCAGAGCCAGCAGCCACACAACACAATGGAAGCAGGTATTTTGGGGTGACCCACCATGTCATGAGTGGTGATGGGGCCAGACAGGT
TACTGGAGCCCAGGATCTTGCTCTGGCCTAAGTAGCTAGGTACAGGACACAGAGACAGGAGGCTGGCTAACATTAATGCACAGGGAGATCTTGTATGCAG
TCAACCCCATTGCTGGGCCTCAGTTTCCTCATATGTACAATGAAGGCCAGTTGTGGCCTCAGCCTCTACCAGTGCTGAATTCTAGGATTCCTGTCCTGCC
AGGGAAGTAAAAAGGACTCCTCTTCTGAAAAGAAGGTCAGTCACGAAAAGAACTAAAAGAATGGGGGAAGGAATTGCCCTGGATCCCAGCTCCCAGGGCA
GAAAACCAGCCTTGACCAGTCAAGACCCCTTTCTAAGCAGACCAAGGAGGTAGTGCCCAGACACCTGTGGGATTTCCTGGAAAGTCACACTCCTGTTATC
ACCACCTCCTCTTCCCAGAGACTTCATCTCTAAAACAAATGCCCTGAGGATGAACTGGCTTCCCTGGGAATATGGACTCCCCATGGCCACCCCTACACAC
ACGCAAACACACACACACACACACGCACACACACTTTCTCACATGCAACCTTGTAGCCTGTGCAGCCTGGATTCAGCAGTACTCTCACATGCTGAGCTGT
TGCCTGAAACATGTTTTTATTTACTCCACAGATAGGGAGTGAACCCCTGCTACATGCCAATCACTGTTGTAGATACTGAGGATGAGCAAGACAGACACCC
ACAGACACAGACAGATCATCCACAATGCACCCCCAAATAAATATGAAAATGTACAATTTGAGGTTGCTGCACATACAATGAATAAACTAAAATCGGTGGC
AACACAGAGAGGGACTGTTGTTGGGCGTATGCTCGTGGGATTAGAACTGGATGGTGAATATTGGAGCCCAGGMTCACTGAGGAGAAGAGGGTTGCCTGTC
AGCCCCTGGGGAGGAGCACTGCAGGTGGAGGGGCCAGTGAGCACAAAGACCCTGAGGTGGGAACAGGCTTGGATGTTTGAAGGTAAGACAAGGCAGAGTA
TCTGGAGCACAGCCTGTGGGGAGCATGGCAGGTGCTGGTCATGATTGGGTGCGCACTGCTGGGGACTTGGCTTCCACTCTGCATGAGATCGGGAGCCAGT
AAAGGGTTCAGAGCAGGGACTTCCCCCAGGAGATCACTGTGTGAGCAGCAGGGACCATGAAGGGCCAGGAGTGGCCTCCCTCCTGTGGTCACTGGTTAAT
TCCTTTCCATCCTTCATATCTAACTCAATGGCCCTTTCCTCCAGGAATTTGTCCCCACCTCGTCACCCTGTCAGATCCCCTGATGAGTCTCCTAGCACCA
ACCACCCTCCAGGACACTGACCTCTGCAGGAGTTTCACACTGATCTCTGTGGTTTATAGCTAATGTCTGCCTTCCCCACTAGACTCTGAGCTGCTTGGGG
ACAGGCACACAGCTGCCTTGGCTCACCTCAAACCCCCAGCACCTCGTACAACGCCTGGGACACAGTGGGTGCTCAATAAATGTAAAGAGAAGAAATAAGC
AAATCCCTGGGGTCTCAGCAAAATTTCCACTCCCTCAAGGAGTGATGTCCTGTTTCCACTTCCTCCCTCCTCTGTGCCCCCACACTTCACGTCTACCTCT
TCTGTAGAATCCAGTATGACCATGAATGTGTTGACATCTGCACACATGCATACACACACACAGGCAAGGCATGTGTGCTGTCCTTCACTGTACCCCAGGG
ACCTCCTTGAAGCAGACAGTGCCACTGTACAAAGAACGGCCTCACACATGCCCACCTGCTCAGAGGCCCTCGGCTTGGGCTCACTAGACAGTCTGTGCCC
TGAAGGTGTGTCAGGGGCCAAGCCCCCTCCCTCACCCAGTTAGGCAGCATCCCCCACAGACCTGCTGGCAGCAGGGGCCTCATGCTCTCCTGTACCATGG
CTCCAGAAGAACTCACACAAACAAGGGCTCAGCTCTGCTTGCACAGTGGCTGCCTTCTGCAAACCAGAGATCTGCATACACAGACTGAGGAGTGTAACTG
AGGACAAAACACTGGGACGTCTGACCTCTGGTCCAGCCCAAGAAGCTGGGGAACGTTGGTCCATATTTCTAGAGCCAACTACTTTTTCCTGTGAAAACTC
AGTGCCCACGATCGCTGGTGTTGTTAGATCCCAGTTAATCAATCAACATATTCTTGAAACAAACATGTTAGAAATAAAATCGTTAATAAAAAATAATACT
TTACATGCTCTAGGAAAGCTTGGTATTTAAGAAATTCCTTTGCAGCATAAAATATATTTTTTTGGAAAGCAATTGGCAATTTCTATGAAAAGTCTTAAAA
TGGGCATGTGCCATGGCCCCATGATTCTATTTCTGAGGGCTGATCCAATGTATTAAAACCTACCCCAAAATGGAGCTACAAGAATATTTGTCAAACAGCA
TTGGTTGTAAGAGGGTAAGGTTGAAAACAATCCAAATGTCCAGCAAGGAGTAGTCAAATTAATTCTGGTACATCTGTATGACGGAATACTCTGCAGCTAA
AATCATGATAACCGCAATGGTCAGCACATATCAAACACTTACTCTGTGTTGGGGACCACATTAAAAGCATTACATGCACTATCTCATTTAATTCTGCCTA
TGCTGTACATATTATTATCATCTCCATCTCACAGATGAGGAAACCAATACCAAATAGAGTTAAGGTATTTGCCCAAAGTCACACAGCTAGTCCCTAGGAT
GCATACTCAGGCAATTTGACTCCAGACACCAGCCTCTTAGCCATTATACTACCCGGCCTCAGATGAAACCATTAAGGGAGCTATTGTTGTAGCAAGGCTA
GCCACATGGAGCGATGTTCACAATATGCTAATAGGTATAGCAAGCAGGTTATTAAAGACTACATGCAGCCTGATCCCATGTGTACATGTGCACACAAAGC
AAAAAGAGGATGCTTTGGGAAGATTTCACCCAAGATTTTACTTGCGTGAAAATGTTAGTTTTCTTCTGCTTGGGTTTTCTGATTTTTCTGGGCAAACGTG
TTGTTTCTATATTTTAAAAAATTATTTTTAGAGTTAAAAACTAACATAAATGCCAAAAGTCACTCCCTCATACTCATCTCATGCATAAATGCAAATGTCC
AGCTATTGGCTTTGCTTTAGGTATAGGCACAACAGCACGCATAGGCGCTGCTTGCTTTTCATGGCTCAGCTTCTTCTTGAAGCAGCAAGGGCTCTCCAGT
TGGGAAGAGACGACACAGATTCTTCCCATTGCACCCTTCAGCAGACTGTCCCCATCATCCAGAAGCCCTCTGGGCATTTTTGCCTCCAGGGAACTGCCAG
GCTGATGGCATAGAGCTGGGTGAGCTCTCTCCTGACAGCCAAGCCCAGGGACTCCAAGAGCTTGAGATGATCCACCTCCTGTCTCTGGGTCTCTCAAGGC
AGCAAGAAGTGAAGGGCAGACAGGCCTCAAAGCAACAGAGTGGTCCAGGGACAGGAGTCCCAGTTCTGCAGCCGTATATACTGAGGACCCTCCTGGCCTA
GTCACCTGCTTCCTAGCTCTGTGACCTTGGACAAGTTATTTCTTCTCTCAGAGCATGTTTCCACACCTGTCAAATAAAGAAATTAAAAGTACCAACTTGG
AAGAAAAGTACCAATTGGTAAGAATCAAAGTAATAGATAAATTAGACATAAAACGATGGTGCCAATAAGTAACATTTCCTGGGTACTGACAACATGTATG
ATTTCTATAGTTCTCACAGCCACCCTATCAGAAACACTGTGATGATCTGCACTTTACAGATGATGAAACAAAAGCTGAGAGCGGTAAAGTCACTTGTGCT
GGAAAGTAGTGAGGAGGGAATTTCTGCCACTATGGCTGGGCTCACACCACTATACCTCGCATTCTGGCACAATGTCTAGAACATGGGAAGGCCTTCATCC
AGATGGTTACCACTGTCATCGCTCTCCACTAGGGCTCTCTACCTGGCTTTGGAGAGTAGTGTGAGAGTGAGGACTCCTCCTGGTTCTCCCCACCACCCAG
ACACTCACACAGCCACCAGGCCACTGACCCACTTTAAGGAGCTTTCCTTTGGGAGTCACCAAAACTCCTCCCCAATACCCGTCCCCACCCCCGCAYACAC
ACACATACCCTCTTTGAGTCAGTTCCAGTGATCACAGTCAATGACTTTGCTGCTGGACAGTCTATGACAAGCCCCTGTCCAGAACTGGCCTTGTGTTCTG
GCCCAGCAGGGGCCCTTGGGGGTCAGGCCTGCAGGCACTCACACTTGGCACCTGCTCCAAAACCCTTTCAGGTCTTTGAGGATCTGRGCCCTGGGCCTGG
GTCTCCCGCCGGCTCGGAAAAGCTGGCCTGCCGGGCCAGAGAGAGAACCACACGATTCAGAAAAGCAGTGCCCTTCAGCAGCCTCTCCACCGTCTGGGCT
CCCCAAAGGCAGAGCGGGACGCTGGAAATGWGTGCGCGCTGTGGTATGGGTGTGCAAGTGTGCGAAGGCGGCGTGTTGTGTGAGCGAGAGGGTAGCGGAT
GTGTGTGTGCGTGTGCGCGCGTGGCTCCGGGTGTGCGCCGCTGCGATAGCGGGTCCTTTCCCGGRGCGGGCGACKGGCGGGCTGGGAAGGTCTCCTCCCC
TCACCACATTGAGAAATCTCAGTGAGTCACCGAGTGGTTCTGCATATTAATGAGCTCGCTCGCTGCGAGGGCAGGAGCGGATTTAAAAGAGGCCAGGGCG
GGCGGAGGGAGGCTGTGGAGAGAGCGCGGAGACAAGCGCAGAGCGCAGCGCACGGCCACAGACAGCCCTGGGCATCCACCGACGGCGCAGCCGGAGCCAG
CAGAGCCGGAAGGCGCGCCCCGGGCAGAGAAAGCCGAGCAGAGCTGGGTGGCGTCTCCGGGCCGCCGCTCCGACGGGCCAGCGCCCTCCCCATGTCCCTG
CTCCCACGCCGCGCCCCTCCGGTCAGCATGAGGCTCCTGGCGGCCGCGCTGCTCCTGCTGCTGCTGGCGCTGTACACCGCGCGTGTGGACGGTGAGTGCG
GGGAGCTCCCCTTGTCGCCGTCTCGTCTTGTCCTGTCCTGGGGAAYCCAAGCGCCAATTTCTAGGCATCCTGGGATCCCGCGGGGGGTGGTCTGGGTGGG
CACCAAGGTGGTCGAGGGGCAGGAGACCGCCTAGCAACTAAGCCGTTGCCCCGCGCTCGCTCRCAGGGTCCAAATGCAAGTGCTCCCGGAAGGGACCCAA
GATCCGCTACAGCGACGTGAAGAAGCTGGAAATGAAGCCAAAGTACCCGCACTGCGAGGAGAAGATGGTTATGTGAGTTCTCGCTCCTCACCTTGAGGGG
GTGCGCACTGCTGTCAACCCAATGCCAGGGCACAGCCTGGGCCTGGGTCGGGCTAACAAACATTTCTCTCCGACTTTGTCAAGGCCCTGGAAAAGCCTTT
GTAATTGCCCAGAGAGTCCTTAGGACGCTGGCGAGACACTCTGGAAGACAGTCGGGAAKGGGGGTCACTGTCCCGCTCCGGAACAGCGCCTCCAAGTTCA
CCCTTGCTAGGATTCAAATGAGCAGTCTCCCTATTTGTACCATGGGCCACCCACTCTGCTAGGGCCATCAAGGGTTAAAGGGTTCCCTTGTGCCAACTCA
GAAAACCTAGACTGAAATCACTTAAAACACACTCACACCCAAACTGTGAGGCGTGCTGCCTTCCTGTCACTGGATAGAGGACTAATGCAAACACTATCTT
AAATCCTGAGTCTCCTTCAGAGCCTTGTTCCAGTCAGAGACAAGTGGACCGCAAGTTTTTGGCTCCTAGAGATTTTATTTTGAGAACGCTCCACGAGCTT
CCCTCACCGACTGTACTCCTTGTGRGTCCCCAATACGGAGCAGTACTGCAGAAAGTGCTCTGCTGGGGTTAATGTGCCACATGGCTGGAGCCCTGCTTGG
TGGGGATGTGGGGAATGTTGGAAAAACTGGGGCAGAGTGAGAGAACACTTAGTTTCTTGCTCCTCCGCCTTCCCAATTAACCACTTGAGGCCAGCACCGC
TGCCTCCTCATCAATATGCTCTTGGCCAGGAAGGGAGCCCTTGGCAAAGCGGCTACCAAATATTTGCCACAGACCATTGGCCCCTCTTCCCCTCCCCCAG
AAACAGGACGCACTTTATTCTCAGTCTGGGCAAGTGCCCTCCACCAGCTGGCCCCCACCGGCGCAAAGGCCTTCACAGTGTCTGCGAAAGCAGTGCACAC
CCCTACCCAGCACCCCCCATCCCCGTCTAGGGGCTACACTGTCAGGCTGAAATTAGGGGAATTCAGAAATCCACTGGAACTGAGCTGACCCCACTGCCTT
CCTTCACAGACACCTAAATTAACTTGCTTGTCCCTACCCCTTGCCTTGCAGACCAAATTCAAAGAAAATACCCAAAAATCCTTTTGGGTGGGGGCCAAGT
GTCAAATGAGCTGGGAAAGGAGCTCCAAGCTCCTCAGGGCTTCCAGTTTGGGGGCTAAGAATGACAGGGGAATTCCAAGTTAAATCTCACTCGTCTAAGA
GCTGAAAACCACTCTATTAACCAAACAAGTTTCTGAGACCTTGCAGGGGAAGAAAGCAGGGTAAAGGATGCAGTGATACCTAAAAAGGACAGAGCCCTCA
GTAAATAGGCTTGCTCTTTTCCTGGCTAAACTTTTCCACATATAGAGAAAAACTATAGCTAGGCAAGTGYGAGAAAGGCTTTACGGAGCCTTGTAGAAAC
GTGCAGGGGCCTCAGGAGATCAGCACACAATCCAATCACCCTCTACTAAACCTCTAACCCACCCCCTAGGGCCTCCCACTCCATCCCTGAGGGCTGGGGG
CTCCTCTCCCCCTCCACAATCCTAAAACTCTSCAAATCAGATGAGGGGCCAGCACTTTTGCAAAGCAGGTTTTCAGCCACAAAGGCTGAACAAAAGCAAA
TTTTCCAGCTTACCCTGAGTCACCCAGAAATCTCTGCTGAGGCTGGGGGTGGGGGCAGGAGTAGGGGCGGGGGGAGAGGTCCGCTTTGCAAGTGGGAGTC
CTTGCACCCAGAAGGATCCAGGAGAGTCCGAATTCTAGAAAGAGCAATTTGTGTCATAGGTCCATRGAGCTCTCACCAAAACCCTTACCCCCACCGCCAG
AACTGTGGAGGAGAGGGTCACAGGACTCAGAATTTCTGATAGTTGCTGGAGTCACAAATCCCTATGTCTGCACTCCACAACCGATTTTCATAATCCCAGT
ATTATGACGTGGCATTTGAGCACTGTAGTGAGAGGGCTGAGTGACCCTTCCTGCTCTCCCTTCCTGCTCTCCCTGACCTTCAGGATTTGGGATGCACAGC
CTGCACACTGACCTAACTGAGAAAGGGTTTTTATCAGGCATTACCACGTCCTTTCCTTCAGAATGCTAAAGCAGCCTTGTAGGCAGAAAGAGAAAAGCAT
TTGCTAAATTCCTGCAGGGTGACTGGGCACAGTGGGGGAGAGAGACAACCAGAGTTCACTCTGAAGCCTGGCCTGTGCTCAAGGCTAGAGGAATGACCCG
GAGTCACAGAGGAGTCCAGTCAAGGCAGGCACCATCACCTGGCATCAGCAGGAAGACCCGCCCCTGCCCCAAGGAGCTTAGGCCCTAGCAGGGACCCCAG
AAACCCAGAGCACGGAGAAGGGAAGAGAACAGGTTGCCTAGGAACATTATGCCCCCATTCTGGTGGCAAGATCCGATTTTCTTTCCCCATCAACTGGGAG
ACTGAAGTAATGGGAATCCTGTCCCTTCTAGAACTTAGCCCATATAAGCCATGACATTTTCCATTTGGTTAACAGTGGGGAACTAGCTGACCTCTGTCCC
TCTCTTCTCACTCTTTCCACTCTCACTTCCAGTCTCCCCCTTTGCCCTCCAAGCCCATTCCAGCACCCCAGTCTACCATCATGGCTTGCATGGCTGTGAC
CCCTCAAGAAGTGGCATCCTCACCTCTCACCTTGCACTTTTCCAAATACCCTAGGTGGTCTCTTATTCCCCACAACTCCTGTCATGCCTGTGGCCTAGAG
GTGCTCAGAAGTTCTGAGCAGCAGGCTTGCCTCGCCCTCCAGGCTGGAGCCCCCACAGCAAGGCTACTCTTTCCCCTTGGCCACTTCATCTTCCATGACC
AATGACTAGTAACAGTAACTGTTAATTGTGCATCTACCAGGTCCTGGGTACTTTCTAAAGATTGTATCTTTTAATCATCCCAATAACCCTGTGAGATAGT
CCTATTATTATACCCATTTTACAGATGGCCAAACTGGATTCAGAGAGGTTACCCAAGGTCCCACAGCCAAATTTGAGATTCAGTCCCAGGCCCTTACAGT
CTGCACAACACCTGCTTCTCTACCACATGGCTAGGCTTCTGCTGGGTGTTGGGACATTGGCTGATAGAGGCCTGAGATCTTCAGGCTGTGCAGAAGAGAG
GTCTTACTCTTCTGCTTAGGGGTGAGATACCTGGGACCTCCCACAAGGCCAACAAGACTTTGCCTCAGGATCAGGAGATGCCCAGCCCTGGGACAATCTG
TGGTGGGTCAGAGGGAACTGGGGTTGAGGAGACAGAAATCAGAGTGTCTGCGGGGCATGTCTGAGCCTTGCCATGAGCTCCTCAAATCCAAGGACAGAGG
TTTTGGCATGTGCACCTTGCTGGCATTAGCTTTCTCCACCTCCTGATCCCAGGCTCAGAGAGGCTGGGAGTCCTCTGACCTTTGTTCCCCAAAAGAGGCC
TGAGCCCTGGAGACAACACACTGCATGAGGTTGGGGGTGGGAGAGACCATCCCAGACTCTCAGGACTCCCAGGGGAAAAGTGAGGGCTGCTCACTACATA
CAGGGTTAGGCCCTAACATGGAGTCAGAGAATAAGGGGACAACCAGAACCTTCCAAAGAGCCAGCTTGGAAGTGAGCACACAAGTCGGCTCCCTTGAGAG
GAGGCAGGAAGCCACAGTCTCTCAGGGCCCTGACTTAGCCCAGGGCTACTCACAGGCCACACAAGAGGCAACATGTTATTCAGGCTCCTCAACCCTCCAC
CTCATCCTGCTCCRTTTCAGCATCACCACCAAGAGCGTGTCCAGGTACCGAGGTCAGGAGCACTGCCTGCACCCCAAGCTGCAGAGCACCAAGCGCTTCA
TCAAGTGGTACAACGCCTGGAACGAGAAGCGCAGGTACGCCCCGCCTCTACTCACCTTCCTTCCCACCAGACCCAGCTGTGGCTCTCAGGATGGGAAGGG
ACCCCCCCACCAGGTCATCTAGCCCCATCTAATATGTGAACACCCACCACAACATCCACAGCAAACAGATACTCAGACAATGCTTACATACCCCCAGGGA
CAAGGAACTCACCACTTACCAAAGCTAGCTATCCATCTCTTGTCCATTTGCAAGCATGGCAGGTTTGTCATTTTGTAAACTAAAGTCTGTCTCACTCTAA
TATTTGCATTATAATCTTAATTCCTCTTTTTATTTCAGTTACGTAAGTTGTTAAATGGCAGAGTGAGCACTGGCATGGCTGCCAGGGGAGCTCTGAGGAC
TTCAGTGGGGTGAAATGTGACCACTTAGGTGACTGTGTATGTTGGCTATAAAACTGCGCTATAAAACCATGAGGTGCTGAGGATGATCCTTGCCAGAAAC
ATGTTTTCTTCTCCAAGGTGCCCCACTCCCTCTGCTGCCCAGAAACCTGATAAACTCCTTCCTTCGCAGGTGCTGGAAGGCACCACAGGTTTGGCTCTTT
AAAATCAGAGCCACTGTTAACCAAGGCGGGCAGCAGTGTTAAGACCACCAGCACCCTGAACCAGCCCTGTACTTACTGGGCACTGTTTCCTTAAAATCAG
AAGGTGGCTTCCCATCTCTGGTTTCCTGGGGTCTTATGTCTGTCCTCGGAGGGAGAATCCAGTTCCTAGCTCCCCTGTACCATGCGAAGGTAGCCTGTCC
TGTCTCACTCCTCAGATACGCAGMGTCTGTTTACACATTTGCCTGCATAGCATGATCAGGAAGCACACACACACACACACACACACACACACACACGCAT
GCATGCACACACCATGCAGGTGACTTCCCCAGGAACTAGTGCCAGCACCCCTGCTGCAGAGGGGGATATCAAGGCTAAATGGAAGAGAGGGGTGACTTGC
CTGGGAGCACAGGGCAAAGCCAGGACAGCAAACCAGGCCTCCTGGTGCTACCCCACCAGCTGCCCTCACAGGGTGGAAGGTACAGCCATAGTGGGTGCCT
GCATTGCCCTCCCCTCACCTGGCCCAGCCATGCTACCCCAAGCTCAGCCCTGTGACCAGCTCTCCCAGAGCTGACACTCGGGCTCAACCCCTATACCTGA
GCCTTTTTTGCTGCCTCCAAAACAGCCTCATCTGCAGTTGCTTGAAATAGAAAGTGATGAGAGCAATAAATTATTTTCTATAAATCTGCTGGGAATGAAG
CCCTCTTTCTGGTCAAGCCAGGCAGCTCATGTGGCAAAGGCCAGAACTGCGCAGTCCACACTCTGTCACCCTCCAGGCCCTGTGTCATCAAAACTGGCAG
AAGGCTAATCCCATGGGCAGGTTATGGAAGAGGCTGAGGGCATCTTGATCTGATTGCTGGGGGATACTCAAACCTTTAGCTCACCTTGCTTCTCCCCTCC
ACCTGAGCTGCAGCCTGGAAAAGGAGGCACCCACAGGTCTAAACATGGCCCTGCTTTTTTTTTTCCTGAAAATTCCAATAACAAAAGCAACGAGAGCCTC
TCACTACCAGGCCTTCTCTCACTTTGCTATAAAATTAGTTCACCCCTCTTTCTTAGAGTGTTGAGGTCCCTGCCCTCCCCACCTCCCTCCCCTGAAACAA
GTTGAAAATATCTTAATGAACATAGAACAGTGATAAAGGAAGTGTTTGAAGTCCTCTTTGTACAGAGAGAGAGAGAAAGAGAATGCCAAAGCTAGGTTGG
AGGAAGTAGAAGGGTATACGGTGGGCTCAGGCCCATGGGGGCCACACAGAGGAGCTCTGTGCACTTCAGAGACCAGAGCTTCCAGGGAGCTTCYGGCCAC
CACAGGAAGCAGCCTAGTCAGGCATTTTATTTCAATGGATAATTCAGTGGTCTTACTCAGAAATCAAGAACGAGACAGAAAAGTGATAGGCTAAGTGTAA
CGTATGGCCCCAGGGCAGCCATGGGGCAGAACTAGAAGAAAGCAAAATATCTAACTGGGCACAGCTTGAGAGGTGAGGGGAAGGTGGGGCTGGGAACGAG
TAGAGATGAGGCAATGCAGCCAGGAGCAGGGACTGAGGGGCACAGGCCTCCTGCACCACTGCCCCACCCCACCAACCACCTCTTCTGTCTCCAGGAAGCA
GCTTCTAGAGCTAGCATTCTTCTGGAGGACATGCATTATTTGGGCAAAATACAAAGAAATATACAAGCCTAAGTCAAGTAAGGGAATGCCTCCCACCCTT
GCTATTTTCTCTAAATAGAGAGGCTGAGTACAGACGCGGAAAGAAACAAGGAGGTGTGGGAGCAGCCCGCCATGCTAGAGAAAGACTACATTCCTGCCAC
TAACAGTCGGTGGCCACTGGGCAAATCTTAAGTCTGTGGTGCCTCAGTTTCCTCATATGCAAAGCGGGTTTGTTCCATAGGCCTCTGAGGACAAAATGAG
ATTGCAGAAGTGAGATTGCAGATGGTTAGAAAAGACAAAGCCACACTGGTGTGAGTTTTCATGGTCCCCGGGACCACATCCTCAGAAGGATCCCTCCCAC
TTCTCCTGGGGGTTCCTGCAGTTCTGGGACAGGGGCATTCCCTGCAGACCAGACGTGAATGAAGCCGCTTAGCCAGCATCTTGTGAACGGCCTGCCTCAT
GTCCTGAGCCACTTAYACATGTGTTTTTTCTCCCCAGGGTCTAYGAAGAATAGGGTGAAAAACCTCAGAAGGGAAAACTCCAAACCAGTTGGGAGACTTG
TGCAAAGGACTTTGCAGATTAAAAAAAAAAAAAAAAAAAAGCCTTTCTTTCTCACAGGCATAAGACACAAATTATATATTGTTATGAAGCACTTTTTACC
AACGGTCAGTTTTTACATTTTATAGCTGCGTGCGAAAGGCTTCCAGATGGGAGACCCATCTCTCTTGTGCTCCAGACTTCATCACAGGCTGCTTTTTATC
AAAAAGGGGAAAACTCATGCCTTTCCTTTTTAAAAAATGCTTTTTTGTATTTGTCCATACGTCACTATACATCTGAGCTTTATAAGCGCCCGGGAGGAAC
AATGAGCTTGGTGGACACATTTCATTGCAGTRTTGCTCCATTCCTAGCTTGGGAAGCTTCCGCTTAGAGGTCCTGGCGCCTCGGCACAGCTGCCACGGGC
TCTCCTGGGCTTATGGCCGGTCACAGCCTCAGTGTGACTCCRCAGTGGCCCCTGTAGCCGGGCAAGCAGGAGCAGGTCTCTCTGCATCTGTTCTCTGAGG
AACTCAAGTTTGGTTGCCAGAAAAATGTGCTTCATTCCCCCCTGGTTAATTTTTACACACCCTAGGAAACATTTCCAAGATCCTGTGATGGCGAGACAAA
TGATCCTTAAAGAAGGTGTGGGGTCTTTCCCAACCTGAGGATTTCTGAAAGGTTCACAGGTTCAATATTTAATGCTTCAGAAGCATGTGAGGTTCCCAAC
ACTGTCAGCAAAAACCTTAGGAGAAAACTTAAAAATATATGAATACATGCGCAATACACAGCTACAGACACACATTCTGTTGACAAGGGAAAACCTTCAA
AGCATGTTTCTTTCCCTCACCACAACAKAACATGCAGTACTAAAGCAATATATTTGTGATTCCCCATGTAATTCTTCAATGTTAAACAGTGCAGTCCTCT
TTCGAAAGCTAAGATGACCATGCGCCCTTTCCTCTGTACATATACCCTTAAGAACGCCCCCTCCACACACTGCCCCCCAGTATATGCCGCATTGTACTGC
TGTGTTATATGCTATGTACATGTCAGAAACCATTAGCATTGCATGCAGGTTTCATATTCTTTCTAAGATGGAAAGTAATAAAATATATTTGAAATGTACC
AAAATTCTAGACTGCCACCTTTTTTCTATTTAATTAAGCTAGGATGACAATAAAATGTTTACCATGTCCTGAAAAAATAAGGACAAATATGCTGGGAAAG
AAAACTGGTATTTCCCAAATACCTGTCAACACCATCACCTCTGTGGAACGTGTGGAGCTGTCATTACAGTCAGGAAGCCAAGAAGCCAGGCCTTGAGGCT
AAGGCTCCTTCCCCGACGATTCCTACCCCTGCAGCAGGTGTATCAGAGCAGGCAGGTTGGAGCACAGGGAACTAGAGGGTCACGATCCCAGCCTCCTCCA
CGCAAGACCACACTGAGCCTCAGCACCAGAGGGCAGCAAAGAGGCTGGATGCCTCAGCCAAGGGCTCTCCAAGTTCCCTGGGGCTGCATAAGGACGGCAA
CAATAGAGGACTGGTGTAATTATTGCCTACTGTGAGCCAGACCCTGTGCGGGGAGCCTTACATGCCCTATCTCTTTGAATCCTGGTAACAACCACAACGG
GGGTGGTTCTATTGAAGCTCCATTTTACAGATGAGGAAACCAAGGCTTAAAGAGGTGAGCACATCACTCATATTCTCCCACTTAGAGAAGATAGTAGATG
GGGCCAGTCAAGATACCCTGGGGTCCAGGGCCCCAAGATGCCAGGGGGACTCGGGGAGGTGGGAAATGCCCACCTGGGAGGCTGTGGGACTCTGGAGCTG
GGCAGACTCTGGACTCTGGAGGCGTGGGAGCCACGCCTGGGAGATACTGGAGCTGTTCCTGCTCCTGCCAGGTGGACAGGTGGACAGTAGGGCACACCTC
ATTGTGCTTCTAGGGACTGCATGTCGTAGGCCCATGTAAAGCACTTAGCAGGATACCAGGGCATGGTGAGCACGTGGTAATGGAAGCCCTTTTTTTATTT
TTTTATTTTTATTTTTTTCCTGAGACAGGGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCATAGTTCACTGCAGCCTTGAACTCCTGACC
TCAAGGGATCCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACATACCACCATGCCTGGCAAGATGGGATCTCTCTATGTTGCCCAGGACAGT
CTCAAACTCCTGGACTCAAGTGATCCTCCTCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCCAGCCAGAAGCTATTTTAA
TAAGCACAACACCAGACCAGCCACTTTGCACTTTGTACCAACTACCCACAGCCCTGCATCTCACCGTATCCTAAAGTCAGCCAGGCCCTGAAACAGGCCT
CTCTGCCTTCCCTGGGTTCTCCACACCCAGAAGGACTCCACCCTGTCTGCTACACTAGCAACTGGAAGCCAGTCACCCATGTCCCCTTCACCTCCCCRGA
AGCTTCCTGAAACACTGGTTCTGCACACACTTACGAGGACACCCAGCAAGTACCCTGTCTCAGCATGTCCCCGGCAAGATGCTACCACAAACGCTTTTAT
CACCATCTTATTTCCTCCTGGCGGCTTCAGATTACACCACATGTATTCCTGAGGAAGCTGAAGATCAGAGAGGTTGAGAAAGTTGCCCAGAGTCACACAG
CTACCACTCATCACACCCTCCAATGGCTGGGCCTGGCAGCCTTTCTGCTGAGGGGTGGAGGAGGGGCAAGCTGAGGCCACAGTGAGCTGGTGACCATGAA
TGCCCTGCAGCAGCCCTGCCTTTCCCTTCATTATGGAGAAAGAAGGTAGACTAGACAGGGAAACCCCAAGACCAACAGACAGAACAGAATGCAAGAGCCC
CAGAAGACAGTGCATACCAGGGCAGGGCAGGGCAGAGCAGAGGCCAAGCCTCTTGCTGGGAGCCCTGAACCCTGCCTGGCCTCAGAGCAGCACCAGTGGA
GCCTCAGGAGGGAAGGGCAGTGTACAAAGCTGGCTGAAGAGCCCCGGCCACCGAGAGCAAAAGCTGCTCCAAGACAGCACAGGCCGTGGGGTGCCGCTTG
TAAACAAGCCATACACACTCCCTGTCTTTGCTGGGGCTCTCCTCGTCCTGCCTGTGGCTCTAGTGCTAGGCCACCCTCCTCTAACTCTGCTGGCCCCGAT
GGTCCCTCCCTTCTCTGACATCCCAAGTTACAGATTGGATCATTAATAACAGCAACAGTGTCACCTCACACTGGTCCAGCCACTGATCCGGGCACTCACC
CAAGCACTGGCCCCACATGCTCTGTCTGCACTCCCACAATGCGCTATGTGGCAGGTGCCCAGAGAAGTGAAGCACTTTGCTTAGGACAGTAGAGGAAGTC
CTGGAAGTCAAGCCTCAGCTGGTCAAAGCGCAGAAACGGTGGAGAGTCTGCATGTAAATATCTCCATTCCCTACAGAGATGGGGTCCCAGGACAACAGAG
GCTGGGCTATGCTTCCAGGGAGAGCTTGGGCCCTTTCCTCCCGCAGACAGGGATTAACCTGACCACTAAGAATAGACTCTGAGCCCAAACACTTCACCAA
ACACCAAATGAGGACCCACAGGCGCCTAGAACTGTGCGAGGCTCCAGGGAAGAATCTTCTCTCCCCGGCTACAGACCTGTTTCCTGTACCTCTTCTCTGG
GCCTCCCAGTATCCCTATGAAGTGTCCACTTGCCAGCTTCCAGGAAAGAGAGTAATCCCAGTGCAGCAAAGCAAGGCCAGGTGGCCTTTCAGAGCGGGCT
CTGCACTGGTGGCTCTCATGGGCTTCCCTGGATAAGAGCAAGCTTCTCCTCTGCACACAGGGCAGACCCGGCCCACATACAGGCCCCACCTCCACTGGAG
CCACTGCATCCTCACAGTTAGGCTTGTTTTGATTCCAAATGCCATTGCCCTGACTTCCCATAGGCTCGTCCTGAGCAGGCCCTGGTGCTGTAGTGGGCTG
ACACCAGCATGGCCATGTCCTCAGAGAGCTCCAGCCTAGCCCTGCAGTTCAACTCCTCCACCTCACCTGACCGCTCTCAGATCTACTCCACTCAGAGCTT
CTCCTGGTCATCCTGGACTGACTACATAATTTGCAGGCCTAGGTGCAAAAAAAAAAAAAAAAAAAAAAGATGCAGGCCTCCCGTTCAAAAATTATTAAGA
ATTTCTAGACGGCAACAGCAGGGCATTAAACCAAGCATGGGGCCCTTTCCAGACATGCTCTGTGCAACTCACATGTCACAAACCCATGGGGCCAACCCTG
CCTCCAGTATCAACTCTAATATCCATATAGGTGACTCATTTTGGTCCTGAATTATTACATAATCTGCACTACAGTTTAACAGTTTTATTTGAACCTGAGC
ATCTAAGAAGAAGCCCTTCTTAGAAACCAGGAGCTGTGTCATATGCTGCTTTGTAAAAACCTCCCAGAATCTATGATAGCACTTACGAGGTATTCAAACA
CAGTTGAATTAATATTAGGATCATAGGGAGATCCCTGAGAACATGCTTTCTTCACGCATTCCTGAGCTACTGCTATGTGCAAAACTCTGCTGGGCACCAT
GGGGAACAGAGGTATGACTGGCTGTGCTCCTTTATCCTCAAGGACAGAGTTCAACCATTCATTCACCCAGCTACTGTTGCATGATTAAACATCTGCTCTG
TGCTGGATGCTGGAGATGGCCCCTCCAGAAACTCAGTCTACAGGGAGGCAAAGAAGCTGCCTGAAATTGCCTGTTGGTCTGACTGCCAGACGGACTCACG
GCAGACTCTGGGGCAGCCCCAAAGAGCGGGTGTCTCACCCAGGGTCAGAGGAGGAGACTGATCAAGACATCTGTCAGTCCTGGGAAGGCTCATGGCAGAT
TGCAAGTCATTATCAGGCAAGAAAAAAAAAAAAAAGGTGCTGATTCCATCCTGGCTCTCACATGGCCCGTGGCCGCCACGCCCATGTGCGATGAGATGGG
CTAGCTGCGGCAGAGCACCAGGGGCAGAGAAGTAGAGAACACTGGGGGATTTAGAGGAGGCCCGGGAGCATCGGCCATGCCCCAGATGCATGTCCACAGA
GCCCAGCCCCAGCCTCAGTCCCCACTCCCCTCTCGCCCAGCTCCCTTCTCTCTGCCTGTCCTGCCAGGACACCGTGATGGGGGCCTCCGGAACCTCAAAG
GCAAAGAAGCCCACACAACCCTTCCTGCTCAACCTCCACACAAGGAAGACACCGTGCTGCTTTTTAGAGCCCCTGGGGTGTTTTCTTCTCCTCCTGTTTT
TGAAAAGTTACATGGATATTCTTGGAGGTCTTCAAGAAAGCACTAAAACCCTAAGCTATTTTCTTGCTTTCAAAGTAACATTTCCCAGCTTCCTCCACGC
AGGTCCGCGCTGAGCCTCACCACCAGAGGGCAGCCAAGAGTCCGGGTGTCTCAGCCAAGAGCTTTCCAAGTTCCCCGAGGCTGCATGAGGACAGCGACAA
GGACTAGTGTAATTATTACCTACTGTGAGCCAGACCCTGTGTGGAGGGCCTTACATACCCTATCTCATTGAATCCTGGTAACGACCACAACGGGGGTGTT
CTATTGAAGCTCCATTTTACAGATGAGGAAAACAAGGCTCAGTGAGGTGAACACATCACTCGTGTTCACACAGCTAGCAGGTGGAAGAGACAGGATTCAA
ACCCACGTGTGTCGGGCTGCAAGGAGACTGTCTGCTCTCTGAAGTACACAGTGTCTTACAGTTCCTGTCCACCCCAGCCCACAGGATGCTCCACTGTGCT
CTCATGCTCCGGCTCAGGGCTGACCCCCTGTTTATCAAATGGAGATTAATCACCCAGTTAACCTGGGCCACACGAACAACCAGCCTCAGCCAGGTTTGTT
TTGCTGGTGTCTAGTTCTGTCTCCTACAGGCAGACATCTGCAGAAATCACATGCTCCTCTAGAGCCTCTCCCCCCGATCCAGAAAGGGAGCCCCGGAGCT
GTGAAACGGCTGCTCCAGCTCTCATTTGGTAGACACAAATTCCACTTCAGTAGAGGAGCAGCAGGGTTGGTTTTCCCCCAACACCAAATACACTGAAGAC
GCAAAATGACCATGATGTCGTCAAGTTCAACTCAACGCTTTGGTTAGAAGCAAAATGATCTTCTGTTGGGTAAAAAATCAATTCAAAGCTGGATTTCAAA
TAATCTGCCCCATTTCACAATGAGGACAGAGTTGATATTCCGGGATGAGTGGTAGGCATGTCTAATTAGATGCAGATGAGACTCTGATCTAATATTCAAA
GTTTTTCCCCCAGAGCAACGGGGATGATGAAGCAACAAGCTCTTTCTTTCAACCCATTGTTATTTAAAGGCAGTGCTCACACAAGAATCATTTCTAAATC
ACAAAGGCTTTTTTCCCCTGAAATAATGGCCTGCAAAGATAGACTGGAGTTAGGTATTCACATCGGTACAGCCAAAAAAAATGTCATAAGCCAAGAAAAG
TACGAGACAAAGCATACCCTTCAATTCATTTATAGCTACTAGGGTACCAATCCTGCTGATTCCACATATTTTGAGGGGAGCAAAGTTTAACCAACACAAT
AGCAACAACCGCACTTTCTTTCTCACCAAACTCCACTATAAGTCCTGTTTTGCAGATGAAGAACTTAAGGTTTAGAGAAGCTAAATTGTCCTGGGCAGTG
TTAAAAGTTTTGGACACTCCTAGGTTGGATGACCACATATTCTGGTTGGCCTGAGACAGTCCTGGTTTATGGTAATTGACCCAATGCAATTATGAAGAAT
GTTCCCTTTCACTCTCAAAAGAGTCCGAGTATGGCTGATATACTGTATAATCACCCCACTGACAGGGCCTAGCAGAAAAGTATATATGACGGCTAAGGAA
TGATCAGTCAACCTCTCCGCTTGGATCACCAACTCGTAAGTGAGTTTGGGCCCTTTAGAAGTTATGGTAACTCTTTAACCCCATAGAGTACCCTAAAATC
CCCTGTTCCAGCCTGGCCTGCCTTCCCTGCAGCCTGGATCTGATGTTGTCAGATTGTTCGCTGGGAGGCACCAGGTATTTTGGAGACTCATCTGTTGAAT
GAA


SNP Information

Context             (SEQ ID NO:5208):
CCGGGCCAGAGAGAGAACCACACGATTCAGAAAAGCAGTGCCCTTCAGCAGCCTCTCCACCGTCTGGGCTCCCCAAAGGCAGAGCGGGACGCTGGAAATG
W
GTGCGCGCTGTGGTATGGGTGTGCAAGTGTGCGAAGGCGGCGTGTTGTGTGAGCGAGAGGGTAGCGGATGTGTGTGTGCGTGTGCGCGCGTGGCTCCGGG
Celera SNP ID:            hCV27848939
SNP Position Genomic:     6231
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,35)   caucasian(T,38)   total(A,1|T,73)
SNP Type:                 UTR 5;PUTATIVE UTR 5;TFBS


Context             (SEQ ID NO:5209):
CTTAAAAATATATGAATACATGCGCAATACACAGCTACAGACACACATTCTGTTGACAAGGGAAAACCTTCAAAGCATGTTTCTTTCCCTCACCACAACA
K
AACATGCAGTACTAAAGCAATATATTTGTGATTCCCCATGTAATTCTTCAATGTTAAACAGTGCAGTCCTCTTTCGAAAGCTAAGATGACCATGCGCCCT
Celera SNP ID:            hCV11739864
SNP Position Genomic:     14528
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:5210):
GTTGTGTGAGCGAGAGGGTAGCGGATGTGTGTGTGCGTGTGCGCGCGTGGCTCCGGGTGTGCGCCGCTGCGATAGCGGGTCCTTTCCCGGGGCGGGCGAC
K
GGCGGGCTGGGAAGGTCTCCTCCCCTCACCACATTGAGAAATCTCAGTGAGTCACCGAGTGGTTCTGCATATTAATGAGCTCGCTCGCTGCGAGGGCAGG
Celera SNP ID:            hCV27852907
SNP Position Genomic:     6375
SNP Source:               Applera
Population(Allele,Count): african american(G,26|T,8)   caucasian(G,34)   total(G,60|T,8)
SNP Type:                 UTR 5;PUTATIVE UTR 5;hmCS


Context             (SEQ ID NO:5211):
AAGGCGGCGTGTTGTGTGAGCGAGAGGGTAGCGGATGTGTGTGTGCGTGTGCGCGCGTGGCTCCGGGTGTGCGCCGCTGCGATAGCGGGTCCTTTCCCGG
R
GCGGGCGACGGGCGGGCTGGGAAGGTCTCCTCCCCTCACCACATTGAGAAATCTCAGTGAGTCACCGAGTGGTTCTGCATATTAATGAGCTCGCTCGCTG
Celera SNP ID:            hCV27837291
SNP Position Genomic:     6365
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,27)   caucasian(G,38)   total(A,5|G,65)
SNP Type:                 UTR 5;PUTATIVE UTR 5;TFBS;hmCS


Context             (SEQ ID NO:5212):
CTGCAGTTCTGGGACAGGGGCATTCCCTGCAGACCAGACGTGAATGAAGCCGCTTAGCCAGCATCTTGTGAACGGCCTGCCTCATGTCCTGAGCCACTTA
Y
ACATGTGTTTTTTCTCCCCAGGGTCTACGAAGAATAGGGTGAAAAACCTCAGAAGGGAAAACTCCAAACCAGTTGGGAGACTTGTGCAAAGGACTTTGCA
Celera SNP ID:            hCV2391035
SNP Position Genomic:     13616
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:5213):
AAAAAATGCTTTTTTGTATTTGTCCATACGTCACTATACATCTGAGCTTTATAAGCGCCCGGGAGGAACAATGAGCTTGGTGGACACATTTCATTGCAGT
R
TTGCTCCATTCCTAGCTTGGGAAGCTTCCGCTTAGAGGTCCTGGCGCCTCGGCACAGCTGCCACGGGCTCTCCTGGGCTTATGGCCGGTCACAGCCTCAG
Celera SNP ID:            hCV2391037
SNP Position Genomic:     14032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:5214):
GCAGACCAGACGTGAATGAAGCCGCTTAGCCAGCATCTTGTGAACGGCCTGCCTCATGTCCTGAGCCACTTACACATGTGTTTTTTCTCCCCAGGGTCTA
Y
GAAGAATAGGGTGAAAAACCTCAGAAGGGAAAACTCCAAACCAGTTGGGAGACTTGTGCAAAGGACTTTGCAGATTAAAAAAAAAAAAAAAAAAAAGCCT
Celera SNP ID:            hCV8964940
SNP Position Genomic:     13644
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,28|T,6)   total(C,57|T,7)
SNP Type:                 NONSENSE MUTATION;hmCS

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


Context             (SEQ ID NO:5215):
GCAGTGATACCTAAAAAGGACAGAGCCCTCAGTAAATAGGCTTGCTCTTTTCCTGGCTAAACTTTTCCACATATAGAGAAAAACTATAGCTAGGCAAGTG
Y
GAGAAAGGCTTTACGGAGCCTTGTAGAAACGTGCAGGGGCCTCAGGAGATCAGCACACAATCCAATCACCCTCTACTAAACCTCTAACCCACCCCCTAGG
Celera SNP ID:            hCV8964943
SNP Position Genomic:     8470
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5216):
AACATTTCTCTCCGACTTTGTCAAGGCCCTGGAAAAGCCTTTGTAATTGCCCAGAGAGTCCTTAGGACGCTGGCGAGACACTCTGGAAGACAGTCGGGAA
K
GGGGGTCACTGTCCCGCTCCGGAACAGCGCCTCCAAGTTCACCCTTGCTAGGATTCAAATGAGCAGTCTCCCTATTTGTACCATGGGCCACCCACTCTGC
Celera SNP ID:            hCV25623083
SNP Position Genomic:     7259
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(G,35|T,1)   total(G,67|T,1)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5217):
TCCTAGCTTGGGAAGCTTCCGCTTAGAGGTCCTGGCGCCTCGGCACAGCTGCCACGGGCTCTCCTGGGCTTATGGCCGGTCACAGCCTCAGTGTGACTCC
R
CAGTGGCCCCTGTAGCCGGGCAAGCAGGAGCAGGTCTCTCTGCATCTGTTCTCTGAGGAACTCAAGTTTGGTTGCCAGAAAAATGTGCTTCATTCCCCCC
Celera SNP ID:            hCV8964937
SNP Position Genomic:     14142
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:5218):
ACAGTCTCTCAGGGCCCTGACTTAGCCCAGGGCTACTCACAGGCCACACAAGAGGCAACATGTTATTCAGGCTCCTCAACCCTCCACCTCATCCTGCTCC
R
TTTCAGCATCACCACCAAGAGCGTGTCCAGGTACCGAGGTCAGGAGCACTGCCTGCACCCCAAGCTGCAGAGCACCAAGCGCTTCATCAAGTGGTACAAC
Celera SNP ID:            hCV25623093
SNP Position Genomic:     10814
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,22)   caucasian(G,30)   total(A,4|G,52)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:5219):
TCCTGGGGTCTTATGTCTGTCCTCGGAGGGAGAATCCAGTTCCTAGCTCCCCTGTACCATGCGAAGGTAGCCTGTCCTGTCTCACTCCTCAGATACGCAG
M
GTCTGTTTACACATTTGCCTGCATAGCATGATCAGGAAGCACACACACACACACACACACACACACACACACGCATGCATGCACACACCATGCAGGTGAC
Celera SNP ID:            hCV3281640
SNP Position Genomic:     11724
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,3)   total(A,3|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5220):
AGGTTGGAGGAAGTAGAAGGGTATACGGTGGGCTCAGGCCCATGGGGGCCACACAGAGGAGCTCTGTGCACTTCAGAGACCAGAGCTTCCAGGGAGCTTC
Y
GGCCACCACAGGAAGCAGCCTAGTCAGGCATTTTATTTCAATGGATAATTCAGTGGTCTTACTCAGAAATCAAGAACGAGACAGAAAAGTGATAGGCTAA
Celera SNP ID:            hCV3281641
SNP Position Genomic:     12794
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,8)      total(C,8|T,4) ;JBIC-allele(C,575|T,916)   total(C,575|T,916)no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5221):
AGGCATCCTGGGATCCCGCGGGGGGTGGTCTGGGTGGGCACCAAGGTGGTCGAGGGGCAGGAGACCGCCTAGCAACTAAGCCGTTGCCCCGCGCTCGCTC
R
CAGGGTCCAAATGCAAGTGCTCCCGGAAGGGACCCAAGATCCGCTACAGCGACGTGAAGAAGCTGGAAATGAAGCCAAAGTACCCGCACTGCGAGGAGAA
Celera SNP ID:            hCV22274211
SNP Position Genomic:     6963
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,27)   caucasian(A,4|G,32)   total(A,13|G,59)   
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(A,4|G,36)   total(A,14|G,62)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:5222):
CCTCTCTGCCTTCCCTGGGTTCTCCACACCCAGAAGGACTCCACCCTGTCTGCTACACTAGCAACTGGAAGCCAGTCACCCATGTCCCCTTCACCTCCCC
R
GAAGCTTCCTGAAACACTGGTTCTGCACACACTTACGAGGACACCCAGCAAGTACCCTGTCTCAGCATGTCCCCGGCAAGATGCTACCACAAACGCTTTT
Celera SNP ID:            hCV11817668
SNP Position Genomic:     16198
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:5223):
GGCGGGGGGAGAGGTCCGCTTTGCAAGTGGGAGTCCTTGCACCCAGAAGGATCCAGGAGAGTCCGAATTCTAGAAAGAGCAATTTGTGTCATAGGTCCAT
R
GAGCTCTCACCAAAACCCTTACCCCCACCGCCAGAACTGTGGAGGAGAGGGTCACAGGACTCAGAATTTCTGATAGTTGCTGGAGTCACAAATCCCTATG
Celera SNP ID:            hCV15955622
SNP Position Genomic:     8866
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,89|G,1400)   total(G,1400|A,89) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5224):
ATACAATGAATAAACTAAAATCGGTGGCAACACAGAGAGGGACTGTTGTTGGGCGTATGCTCGTGGGATTAGAACTGGATGGTGAATATTGGAGCCCAGG
M
TCACTGAGGAGAAGAGGGTTGCCTGTCAGCCCCTGGGGAGGAGCACTGCAGGTGGAGGGGCCAGTGAGCACAAAGACCCTGAGGTGGGAACAGGCTTGGA
Celera SNP ID:            hCV27497845
SNP Position Genomic:     2673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:5225):
CCCAGACACTCACACAGCCACCAGGCCACTGACCCACTTTAAGGAGCTTTCCTTTGGGAGTCACCAAAACTCCTCCCCAATACCCGTCCCCACCCCCGCA
Y
ACACACACATACCCTCTTTGAGTCAGTTCCAGTGATCACAGTCAATGACTTTGCTGCTGGACAGTCTATGACAAGCCCCTGTCCAGAACTGGCCTTGTGT
Celera SNP ID:            hCV3281636
SNP Position Genomic:     5896
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,10)   total(C,1|T,10) 
SNP Type:                 TFBS


Context             (SEQ ID NO:5226):
GGCCTTGTGTTCTGGCCCAGCAGGGGCCCTTGGGGGTCAGGCCTGCAGGCACTCACACTTGGCACCTGCTCCAAAACCCTTTCAGGTCTTTGAGGATCTG
R
GCCCTGGGCCTGGGTCTCCCGCCGGCTCGGAAAAGCTGGCCTGCCGGGCCAGAGAGAGAACCACACGATTCAGAAAAGCAGTGCCCTTCAGCAGCCTCTC
Celera SNP ID:            hCV3281637
SNP Position Genomic:     6087
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,10)   total(G,2|A,10) 
SNP Type:                 UTR 5;PUTATIVE UTR 5


Context             (SEQ ID NO:5227):
TTGTTCCAGTCAGAGACAAGTGGACCGCAAGTTTTTGGCTCCTAGAGATTTTATTTTGAGAACGCTCCACGAGCTTCCCTCACCGACTGTACTCCTTGTG
R
GTCCCCAATACGGAGCAGTACTGCAGAAAGTGCTCTGCTGGGGTTAATGTGCCACATGGCTGGAGCCCTGCTTGGTGGGGATGTGGGGAATGTTGGAAAA
Celera SNP ID:            hCV3281638
SNP Position Genomic:     7625
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5228):
CCAATCACCCTCTACTAAACCTCTAACCCACCCCCTAGGGCCTCCCACTCCATCCCTGAGGGCTGGGGGCTCCTCTCCCCCTCCACAATCCTAAAACTCT
S
CAAATCAGATGAGGGGCCAGCACTTTTGCAAAGCAGGTTTTCAGCCACAAAGGCTGAACAAAAGCAAATTTTCCAGCTTACCCTGAGTCACCCAGAAATC
Celera SNP ID:            hCV3281639
SNP Position Genomic:     8632
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|G,4)      total(G,4|C,3) ;JBIC-allele(G,484|C,991)   total(G,484|C,991)
SNP Type:                 INTRON


Context             (SEQ ID NO:5229):
GCGCTGCTCCTGCTGCTGCTGGCGCTGTACACCGCGCGTGTGGACGGTGAGTGCGGGGAGCTCCCCTTGTCGCCGTCTCGTCTTGTCCTGTCCTGGGGAA
Y
CCAAGCGCCAATTTCTAGGCATCCTGGGATCCCGCGGGGGGTGGTCTGGGTGGGCACCAAGGTGGTCGAGGGGCAGGAGACCGCCTAGCAACTAAGCCGT
Celera SNP ID:            hCV22274501
SNP Position Genomic:     6846
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,6)   caucasian(C,24|T,6)   total(C,48|T,12)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,6)   caucasian(C,26|T,8)   total(C,56|T,14)   
SNP Type:                 INTRON

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


Gene Number:                 22
Celera Gene:                 hCG40366 - 84000314171117
Gene Symbol:                 OAS1
Protein Name:                2',5'-oligoadenylate synthetase 1, 40/46kDa;IFI-4;OIAS;OIASI
Celera Genomic Axis:         GA_x5YUV32W46Y(60589670..60614631)
Chromosome:                  Chr12
OMIM number:                 164350
OMIM Information:            2-PRIME,5-PRIME-@OLIGOADENYLATE SYNTHETASE 1;OAS1


Genomic Sequence (SEQ ID NO:1683):
TTTCTAGCTATGGGAACTTGGCCAAGTCATTTAGCCTCACTGAGTATCAGTTTCCTCAGCTGGAGTAATAAATATTTCAAAGAGTTGCTGAGAGATGTTA
ACGGTACAGTCCATCGAGAGTACCTGGCACGTAGTAGAGACTTGACAAGTGCCACCTCCGCTTGCCAGCCCCTAAACTTGGGCTCCCTCACGCAGCTTGC
ATCGGGGAAAATGCTCTTGAACTGGCATTGGTTGAAAACAGGACGTTGGAGCTGAAAGTGGGTGAAGTTCAGGTGAGGCAGAAATCAGATCTCCAAGGTC
TCTGCACAGATGGGAGCAGACTCTCCTGCTGGTGCCCACAGAAATTCAGCCAACATCTAGAGATGTTTGTTCTGAGTAGGAGTCAGAGGCAAGATCAAGT
TGCTGAGGTCTGGTTTCCCATCAGGGATGACAAAAGGGAGGCCAGGAAAAGGGGCAGGTCACAGGGCTGGTGGTTCCTGGTGAAAGCAGTGCAGGCCCAA
TTGCGGCTGGGCTTACCGCCAAGTGGATTAAACACTCAATGCTCTGAAACCTGCCAGGCTGACCCTTGCTCAGCTCAATCAGATCTGCCAGGGACATTGG
CTTGATGAGGTTAAGCAAGCCATTCAAGGTGATGGACACCCCAATTACCCTGATGTGATTGTGACACATCATACACCCGTGTCCAAAATATTGCATGCAC
CCCATAAATATGTACAACTCTTATGTATTCATAATAATTAAAAATAATTTTTGACCAGGCATGGTGGCTGATGCCTGCAATCCCAGCACTGTGGGAGGCC
AGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAATATGGTGAAATCCTGTCTCTACTGAAAATACAAAAAATTAGCCAGGCGTGGT
GGCGGGCACCTGTAATCCTTGCTATTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCTGGGAGGTGGAGGTTGTGGTAAGCTGAGATCATGCCATTGCA
CTCCAGCTTAGGCAACAAGAGTGAAACTCCGTCTCAAAAAAAAATAAATAAAAATAATAATTTTTAAAAAGAGTACCATGAAAGCAAAAGTATGTACATA
AGAGGTATCTTTTGGCCGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGGATCACAAGAGTTTGAGACCAGCCTGGCC
AACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGTGTGGTGGCAGACACCTGTAATCCCAGCTACTCGGGAGGCTGAGGGAGGAGA
ATTGCTTGATCCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATTATGGCACTGCACTCCAGCATGGGCAACAGAGTGAGACTCTGTCTCAAAAAAAAAAAA
AAAAAAAAAAAAAAAAAAAGAGGTATCTTTTGCTTGGCTCTTGTCCATATCTGCTGTGTGATCTTGAATAAGTCACTTCCCCTTTTTGTTCTCTGACTAC
ACAGGTAGACATCAGAGCATCATGATTCTCTATGTTAATTGTTACACCCCATAAATGTGCCGTTGTTTCCTAATCATTCGTTGAAGACCGAGACCTTTTT
GCTGAGGACAGGCCCCCTGACTGGAGTCCCACACTATCTTTCTCTCAAAGCGCAAGAATGAGTGGTGTGTAATTTCCTGTTTCTGTTTCTTTAAAGGAAA
CAATAATTTAAAGCCACCTGCAAAGGCATGAAGGCATAATCCTGGGCAAAAGTGGATTTGTTTCAACTTATTTTCTCAATCTTCTATGGGATCATCTCAC
TCTTAGCTAATTCTACGCAATGCTTGCCTTTATTGCATCTTTCCAAAGAATTGGATGTTGGTTTCCTAAGGACAGCTCTCTTTTGCACTCATCTGTTTAC
AGATATATATATTTAATCAAAAATATTTAACAACTGCAATTGCCATGAGGACATTTGGGAGCAAACAAAATTTTATTTATTTATTTAGAGACAGGGTCTC
ACTATGGGAGCAAACAAAGTCTTCTTTATTTATTTAGAGACAGCATCTAGCTATGTTGTCCAGGCTGGTCTCAAACTCCGGAGCTCAAGTGAGCCTCCTG
CCTCCACCTCCGAAAGTGCTGGGATTACAAGCCTGAATCACTGCTCCTGGCCAGAATCTTTTTTTTTTTTTTCAGTTAATTTAGAAAGTTTATTTTGCCA
AGGTTGAGGATGCCAACCCGTGACACAGCCTCAGGAGGACCTGAGGACATGTGCCCAAGGCAGTCAGAGACAGTTTGGTTTTATACATTTTAGGGGACAT
GAGACATCAATCAACGTATGTAAGATGGACATTGGTTTGGTCTGGAAAGGCGGGACAACTCGAAGTGGGGAGGGGGCTTCCAAGTGGTAGGTATATAAGA
CACAAATGGTTGCATTATTTTGAATTTCTGATTAGCCTCTCTGAAGGGGGCAATCAGAAATGCATTTATCTCAGTGAGCAGAGGGGTGATTTTGAATAGA
ACGGGAGGCAGGTTTGCCCTGAGCAATTCCCCAGCTTGACTTTTCCCTTTAGCTGAGTGATTTTGGGGCCCCAAGATATTTTCCTTTCACATTTCCTCCC
TTTTCTTTTTAAAAATATTTTAGACAAAGCATTTTAGAAGAAAATGAGTCTCTAGTCTCAGGTTTCATCTGATTTCTCTTGGCTAGGATGGTTTATTACT
ATAGGGGTAAGTCCGGAGTTATTAGGAAAGCTCATTTTTAGAAGGTTGTAAAGTCTCATGTCCTGTGAAGAGAAAATAGGGGGAGGAAGGGAGAACACAA
CAAACAAAAGAACAATCCTGGAAAATCAAGATACAGGCCAGAGTACTCCGAAGTTCACACATCAGCAGATAGGTATGAAAGTGGCTTACGTCTGTAAATA
TGTAATTATTTTTTTCTGAGGTTTAAGTTGTCTAGCTCCAGTTTGCAGGGCTTTATAAAAGCACAACTTAGTTTTCAGTGATTCCAAATTAGGGAAAATG
GGGGGAAAAGAAGGAAAAAATTTAAAATATTATTTTGGAGACTTGTAGCCAAGAAAAATTAGAATTCAGTCCAAACTATAGAAAATAATAAAAATTGAAA
AACATTAGGCAAGACTAGAATGCAACAACAGGTGTACTATAGTTTTTGAAGCATAATCTTTCTCCAATTTCCCATTTTTACTAAAGATGAATCATGGTAA
GGGAGGAGACCACCCCTCATATTGTCTTATGCCTAATTTCTGCCTCCAAAGAAAGAAGATGTAAAAACTAAAAGGCAGAAATGAAATCCACAAGCAGGTA
GCCTGGTGCCACACCCTGGGCCTGGTAGTTAAAGATCGACTCCTGACCTAATAGGTTATTTGCATAAAAAAGGCACTGTGAAGATCCCTGTCCTATTCTG
TTCTGTTCTAATTACTGGTGTATGCAACCCCCAGTCATGTACCCCCTGCTTGCTCAATCCATCACGACCCTCTCACATGGACCCCCTTAGAGTTGTGAGC
CCTTAAAAGGGACAAGAATCGCTCACTCGGGGAGCTCAGCTCTTGAGACAGGGGTCTTGCCCATGCTCCCGGCCGAATAAACCCCTTCCTTCTTTAACTC
GGTGTCTGAGGGGTTTTTGTCTGCAGCTCTTCCTGCTACAATGGTATGACTGGTTTGCTTTATCATACTTGGCCTAATTTTTTGCATACAGTGCAGCAAG
AATCTTCAACTAGTAAATGAAGTGAGTATTGCAAAGACAGCACCCCACCCTCATGGTGACATTTAGTCTTAGGCCAAAGTCAACATCTTATACAGTAGGA
GTGGAGAGTGTCAACTCATGAATAATCTGGTTAAGAGGTTAAGGGGTTGTAAGAAAGATAGTTGGCATTTACAAAATATTTCATCCAACAAAAACAGGAA
ACACATTCTTCTCAAACTCACACAGAACATTCACCAAGACATATTATGTTCTGGGCTAGAAAACACACTTTAACAAATTTCAACAGAGATATGTTATGCA
AAGCATGCCCTTTACTACAATGGAATTAAAAAAGAAACCCACAAAAGAAAGATAGCTGGAAAATTCCAAAATATATGGAGATTAAAGAACACACCTCTAA
ATAACACATGGGGCAAGGAAGAAGTCTCAAGAGAAATTTTAAAATATTTTGGGCCAGGCTCAGTGGCTTACGCCTATAATCCTAGCACTTTGGGAGGCTG
AGGCAGATGGATCGCTTGAGCCCAGGAGTTCGAGACCAGACTGGGCCACATGCAGAAACCCCATCTCTACAAAAAATACAAAAATTAGCCAGGCATGGTG
GCATGTACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACCTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCTAAGATTGTGCCACTGCAC
CCCAGCCTGGGCAACAGAGTGAGACCCTGTCTCAACAAAATAAATAAATATATTTTGAATTAAATTAAAATGAAAAAACAGCCTATCAAAAAGTGTGGGA
TGTAGTGAAAGTAGTGTTTAGAGGGAAAGTTATAGCATTGAATGCATATATTAGGAGAAGAAAGATCTAACTCAGAGAGGGATGAACAGGTGAGGCATAG
GGGATTTTAAGGTAGTGAAACTGTTGCAGGGCAGGGGAGCCCCAAAACTGGGACACCGTCCGGGAAGGCTCTTGGCTTCGTCCAGGAAGGAATTCAAGGG
TGAGCTAGAGGAGGAAGAAAAAGGTTTATTGAGGCAGCAGGGTTACAGTTCTGTGACTGTCCCTGCAGAGCAGGGCCACCCCATAGGCAGTGCCTGGAGA
GCAGCAGCTCGGGGCACTTCTATAGTCACATTCATACCCACTTTTAAATACGTGCAAATTAAGGGCAGGTTATTCAGAAATTTCTAGAAGAAGGGTGGTA
ACTGGGTCATTGCCAGGGAATGAGTAAACTGTTCATGGTGCTGGTGCTCATGCCAGCCAGTCTTCAATCTGGCCCTGAGTCAAGCCCCACCTCCTATCTC
AAAACTATTCTGCATGGTGCTGTAATGGTGGATACATGACATGTTATGTTTGGCAAAATCCATAGAACTGTAGGACACAAGAGTGAACCTTAATGTAAAC
CTTAATGTAAATGGACTTTTGTTAATTATGATGTATTAATATCAATTCATCAATTGTAACAAATGTATCACAGTACTGTTAATAATAGAGGAACTTATTG
GCAGGAGAGAGAGCTTATGGAACTCTCTGCACATTCAGCTCAATATTTCTGTAAGCCTAAAACTGCTGTGAGAAATAAAATCCAACCTGGGCAACATAGC
AAGACCTTGTCTCTACAAAAAATAAAAAATGAGCTGGGTGCAGTAACGCATGCCTGTAGTCCCAGGTATTCAGGAGGCTGGGGCAGGAGGATCGCTTGAA
CCCAGGAAGTTGAGGTTGCACGAGTCATGATCATGCCCCTGCACTCCAGCCTGGATAACAAAGCAAGATCCTGTCTCCAAAAAATAATAAAATAAAATAA
AAATCTACTAATTGAAAGGGAAAAAAGCATAGTATAATACCATTCTTAACAAAAAGAAAAGAGACCTGTGTTTGTGTGTGTGTTAACATTTGAAAAAAAT
CTGGAAAGCTCTATATCAAAACGTTTATAGAGGCAATTTTGTAGTGTTAGAATCATAGATGATCTTTCCACTTCCTGGTTTTTCTGACTTTTTTTCTTTT
TGCAGTGGGCATGTATTGCTGGAAAATACCACAGACAACTGTGAAAGGATTTCATCAACAACAAAAAAAAGATAAAGAAGGAAACACAAAATCTGTTAAA
TAAGATTTATGTTGGCTGGAGGTTAAAATGCATTTCCAGAGCAGAGTTCAGAGAAAGGCTGGGCTGCTTGTTGCTGGCTAAAGGACAAAGGGTAAGTTTC
AGGAAGCAGAAGAGTGAGCAGATGAAATTCAGCACTGGGATCAGGGGAGTGTCTGATTTGCAAAAGGAAAGTGCAAAGACAGCTCCTCCCTTCTGAGGAA
ACGAAACCAACAGCAGTCCAAGCTCAGTCAGCAGAAGAGATAAAAGCAAACAGGTCTGGGAGGCAGTTCTGTTGCCACTCTCTCTCCTGTCAATGATGGA
TCTCAGAAATACCCCAGCCAAATCTCTGGACAAGTTCATTGAAGACTATCTCTTGCCAGACACGTGTTTCCGCATGCAAATCRACCATGCCATTGACATC
ATCTGTGGGTTCCTGAAGGAAAGGTGCTTCCGAGGTAGCTCCTACCCTGTGTGTGTGTCCAAGGTGGTAAAGGTGAGTCCAGGCCTGCCTGGCCAGGGGA
GGGGTGGCTGAATGTGCAAGAGTTGAGATTGAGAATGAGAGAGAGAGAGAGAGAGAAGCAAAAACCTAGAACCCAGGGTGCAAATGTGAGTACAGAGAGC
TGAGATCTTCTGGGCTGGTGGTTTCTTATTTATCCACACAGCATGTTAAAATAGATTCTGGGGTGAAATCCTACATCCCTATTATTAACAAGTGACCCTC
CCCGCTACTTCCCGCTGAAGTTTATGAACCACTGTCCTGGGCGATGCCCATTTCAGAAATAGGGAACTGAATCCCAGCTCTGGTAAACAGTTTGCTAATT
CGTGGCCAGGCTAGGGGCTCACCATTTCTGCAGTGAAGAATCATATGTTTTGAAAGCAAATAGCACCTGCTGGCTGCAAGACCTTGAGCAAGTCACTTAA
CTACTCTGTGTTCCAATTTCCTCAGCCATAATCCCCAATACTGTTGCAGTCTTGCCAGTGCACCTTAATGTAGCAGCTTCTCACTGAATTAGTACCCAAG
GTTCTTTGTCCTGCATCCAAGAAAATTAAGGAACATGGACACAAACGTGAGCTTGGAGCAAAAGTTCAGTAAGCAAAAGAAGAAAGCTGTCTCCACTGTG
GAGAGGGAAGTCTGAGTGGATTGCCAGATTGCAGCTGAATGCAAAAMACTTTTATAAGAAACCACTCTCCTCCCTGTAACTGTTTGAGAAACTTTTTATC
AGTAAAGCTGTGCAACTTCCCTTACCTTATGCAGCTGTGGGTATATCTCTAGGCAAGCATAAAGCGCTGCTTCTCTTGTATGTATAACTGTGGATTTGTT
TTAGGTAAGTCCCACTCCCTGCGCCAGTTTCAGGCAGGCCGCTCCTCCAGGGCCCAGCCTTGACCATTTACCTAACTGATTTTTCCTCTACTTTCCCTCA
ATACCTCATAGGGCCGTGYAGATTAAGTAAAATAGTAAGTGTGAACCACCCAGCATAAGCTAGTCCTGGGCATCGTAAAGGACAATGGGAAAAGAACACA
GATCCTGGAAGAAGGCCCCCAGGTTTGAATTGTATTTGCCACCTACTAGCTGGGTGATGGGGCTGATAYATTATMTCACTGAGCATCCATTTTCCCATCT
GTAAAATGGGAACTAATGATAATGGCATCCAAATCATAGCATCATTGTGAGCATTATAGGAGTTTAAGACATGCAATGCCTTCAGAACAGTGGCTAGTGC
TCCATAATGTTAGTGATTGCTCCTGTCATTTTATTTAGGGAGGTTTGCCTCACTAAGCATCAATTATTATTTTTGTCGTCTTTTTCAGGGTGGCTCCTCA
GGCAAGGGCACCACCCTCAGAGGCCGATCTGACGCTGACCTGGTTGTCTTCCTCAGTCCTCTCACCACTTTTCAGGATCAGTTAAATCGCCGGGGAGAGT
TCATCCAGGAAATTAGGRGACAGCTGGAAGCCTGTCAAAGAGAGAGAGCAYTTTCCGTGAAGTTTGAGGTCCAGGCTCCACGCTGGSGCAACCSCCGTGC
GCTCAGCTTCGTACTGAGTTCGCTCCAGCTCGGGGAGGGGGTGGAGTTCGATGTGCTGCCTGCCTTTGATGCCCTGGGTGAGAGCTCCCAGCTTCTTTTT
CTCCCTCTTCCCATTTCTGAGCAGAAATCTCCCACAGTTTGAGAGCTTTTTGCCCCAACAGGGCATCTCTCTAAAGCAGGGTGGGAGGAGATCTTAGGAT
CTGTCCCGGGGCAAGAATGAATACGGKCATGATCTATCACAGGAGAGACATTAAACAGCAAATTGGCATAATGTGGGGACAAAGACATTTCTTACAGAAC
ATCTGCAAGGCTTACTGGTTCTGTTTAAGGCAAAATGTGTGAATTTTATCTTTCTAAAATCAGGCAGCAAAGATGTGGCTTAAAGTTCATGTTACTCTCA
TCTTTGTCCCAACATGAGATCTCATCAAACGTATGCAGCACGTTGGGAGATAGATATTTATAATTTGCAGGAACATTTGGACAGGAAGTGTAACCTCTCA
GAGGCTCCCTTGCCACATCAGGAGAATTGRTAAAACCACACTACCTGTATCATATCATTATTTTAAGTGATAAATGATCATCTACATTCAGCTCTGATGA
GTAATAGGTGTTCAAAAATAGGAACTTCCAGCCAAGTGTGGTGGCTCATGCTTGTAATTCCAACACTTTTGGAGGCTGAGGCAGGAGGGTCGCTTGAGCC
CAGGAGTTCAAGACCAGCCTGGGCAGCAAAGTGAAACCTCATCTCTACTAAAAATTTTAAAACATTAGCCAAGTGTGGTGGTACATGCCTGTGGTCGCAG
TTATTCAGGACGCTGAGACTGAACGATCACATGAGGCCAGCCAAGGATTCGAGGTGTCAGTGAGCCACGAATGTACCACTGCACTCCATCCTAGGCACAG
AGCAAGAGCAAGACCCTGTCTCAATCAATCAGTCAATCAGTCAAAACTATGAATTTCCCAGCTGTATATGAAGGCACCTCAAAACACCACAGTGAACTCA
CAGAGGGACACGGAATAGTTTAGATTTTAATTTTTTGAGGGAAATGCGATGACATCTGTCACACACCGCACAAACGGCTACTATTAAACTGAACTTACTG
ATTAGTGGCTACTAATTAATAGTTGGTCATTAAGCAGTAATTAGTGATTAATTATCAAGTAATTAGGACTTAATTAAAGGAACTGTCACAGTTTCCTTTA
GTCCTAGGGCAGCCATGAAAAAAAAAATGCTGACTCTCCAAAGACACCAGGGTATGAGAAAGTTTTGGATTCTCTCCTTTGTGCCATCTCCTGTGTTGGG
GGCTGAAGTACAATGGTTGTAAAAGACAAGAGGGAGAAGGCTGGTCACAGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCAAAGTGGGGGGATC
ACTTGAAGTCAGGAATTCAAGACCAGCCTGGCCAACATGGTGAAATCTCACATCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGTGTGTGCCTGTA
ATCACAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGATGGAGGTTGCAATGAGCCAAGATCATGCCATTGCACTCCAGCCTGGGCA
ACAGAGTGAGACTCCATCTCGAAAAAAAGAAAAAAGAAAAGAATATAAGGAGTGATTAAAAAAGAAAAGAAAAGAAAACTAAGTAGGGTGAAACAATAGA
TAGCCATGGGGGTTAGGGAGCTTTTTTAGACAGGGTCGTGAGGGAGGGTCCCTGAGCCTGAGTGGCGAGAAGGAGTGAGCCTTGGGGAGATCTGGAGGTT
CTGGGAAGAGGAATGGCAAGTGCAGAGGCCCTGAAGCAGCAATGACCATGGCACATTTGAGGAAGAGAGAAAAAGTCAGAGAAGTAGAAAGTGGGCAAAG
GAAGCAAGACAGGAGGTGAGGTGGGAGAGGTTCCAGAGACCAGATCACACCAGACATCATTGGCCACCATAAGATCTTTGGGTTTTAAAATTCCAGATGT
TATGGGATGCAGGAAGCAGCATGATCAGCAGCATTCTCTAGGTGCCAGGTTGAGAACAGGCTGTGGGGGAACCTGTAAAGAGGTTGCTGCCATAGTTCCG
GCGAGTGAYGGTGGTGGCTTGGATGGGGTGATGGCAGTGGAGAGGGCAGGAGGGAGGATCAGGAATGGACCTCAAGACTTCCCAGCCCTGGGTCTSCTGC
ACTTTTCAATCWAACCCCATGGCCAGGGAGATTGTCCCCTCAGAGTGACTGAAGGAAATTCAGAGAAGAGCTGACACCTAAGTTGTAGATTTTGCCYGAA
CAGGTCAGTTGACTGGCRGCTATAAACCTAACCCCCAAATCTATGTCAAGCTCATCGAGGAGTGCACCKACCTGCAGAAAGASGGCGAGTTCTCCACCTG
CTTCACAGAACTACAGAGAGACTTCCTGAAGCAGCGCCCCACCAAGCTCAAGAGCCTCATCCGCCTAGTCAAGCACTGGTACCAAAATGTATGGCCCTCC
CACCAGGCCTGGTGGGTCCTGTCTCGACTGGGAGCAGAGGAGGGGTGGGGGGAGGAGAGAAAGAAGGGAGTGAAGGGAAGAGGAGGGGGAGTGGTGGAGG
GAAATAGAGGGATGGAAAAAGGAGAGAAAGGAAAAAGAGGTGGAGAGAGGAGCCTGCAACAGAAGGGAGAATGAAAGGGAAGGAAGAGAGAAAGGAAGGG
ATTTTGGTGTTCTGTTCACTGCTGTATCCCCAGAACTTAAAACAGAGCCTGGTGCATAATAGGTGTAAATAACTGTTGAATAAATGAATCAATGCTACAT
ACACACACGCACGCACACACACACAGAGAGAGAGTCAACCACACTCTTCAGAAGGTGGATAAGTTAAAACAAGAGTTTCAAACAAATATATGTTCAGATG
CCCTTTCCTCCCACTTACTGGCTGGCTGGCCTTAAGTAAGCAACTTAACCTTTCTGTTCTTTCTGCTTTCTTATCTGCAACGAGTAGCATGCCATAGCTA
GAGTAACACGGCATATAGTTGGTCCTGATAAATGTAGCATATTTTAGCCACCATAGGAGTACACATAATAAAAGCTAACATGTAGTATGTGCTTAGCTTA
TCTATGTTTTGTGGATGTGATACAATTTTCTGTTCACTTTTAAATGCCCTGCATCTTAGTCAATTTTAACAGTGATTCTGTAAGTTAGATAAGGTTAGGC
ATTATTATTAAATCCATTTTACACCAAGAGAAACTTGGGTCAAAAAGAGAAACTCCTGGGTCACATGGCTCATTCGGCCAATAAGTAGCAGAAGTAAAAT
TTGAATTTGGCTGGGCGCGGTAGCTCACACCAGTAATCCCAGCACTTTGGGAAGCCAAGGCAGGTAGATTGCTTGAGCCCAGGAGTTCAAGACTAGCCTG
AGCAACATGGCAAAACCTCGTCTCTACAAAATAAACTAAAAATTTAGCCAGGTGTGATGGTGAGCACCTGTAGCCCCAGCTACTGGGTAGGCTGAGGTGG
GAGGATCGCTTGAGCCTGGGAGGAGGAGGTTGCAGTAAGTCAGGATTGCACTACTGCCCTCCAGCCTGTGAGACAGAGCAAGATCTTCTCTCAAACAAAC
AAACAAACAAACAAACAAAAACTCGAATTTGGGTCTATTGACTTAAGAGTTTGCCTGATAATAATAGGCATTCAATGTATATTTCTTGAATGAACGAATG
AATGAAAATAATCAGGAATAAACTTTCCAATTTAAAAGTAACACCTCTAGGTAAAAAAAAGACAATCATTTAGTTGCCAGACTTCTAAGTGTTTGCTGTT
CTATGAATTGTAATCATGGAGCCTGAGCATTGTAGAATTTACAAAAGCAGTTCCTGACAAAAGCAGCACTGCCCCCAGGGACATATTGAAAATTAATGAG
GGTGTTTTTGGTAACCATGGTGATGGGAGGACATGGGTGCTACTTATATTTAGTGGAAAGAAGACAAGAATGCTAGTTATTGTACAATGATCAAGAGAGT
CCTGCACAGCCAAGAATTGTCTTTTTCTTTCTTTCTTGATGCTGTTCTCCTTTAAAACAAGACAAGATTAACAATAATTTAACTCCACTAACCACCATCA
TCACCACCTCCAACTTATATGCTACATTTCTTGTATATTTCAAGTCTGTTTATATTTTCAAGTGCCTCGAAGTATTATTGTTTTATAGCCAAATGTTTAG
TTAATCTGCTCACAGATTTACCACTTTCTTCACTATTCATTCTKTCTTACACCTCTAACATTCCATCTGGGGTAATTTTCCTAAATGATCATGCATCCTT
TGGGATTTCTTTTGATGATGGTCTATTGGTAGTAAACTCTCTCAGTTATTGTTTGTCTGAAAATGTCATGCTTTTGCCTTCATTGTTGAAGGGTGCTTTT
GCTGGGTGGTCATTTCAGTATATTGAATATATCATTCCATCTTCCAGTGTCATCATTAAAAAGTCAGTTGCCAGTCTAACTGCAGCTCTTTTATAAGTAA
CCTGTCTTATTCTTCTGGCTGCATGTAAAAGTTTTCTCTTTGTCTTTGATTTTGTTTAGCTTCAATCTGCTGTGTCTTAATGATGGGTTCCTATTGTTTG
TCCTGATTGGGATTCCGTTAAGATTCCTGAATCTGTGGGTAGATATCTTTAATCAGTTTTGAAACTTCTCAGCCATTCTTCTAAAATATTGATTCTCCTT
CATTCTCTCCTCACCTTCTAGAATTCCAATTAAATGTATGTTAGACCCTGCTCTATCTTTCATATCTCTATACTCTCTTCTGTGTTTTTCATCCTTTTGT
CTATTTTTCCATGCTTTATTCTGAATAGTTCCTTCTAATCTACCTTCCAATTAACTAATTTTCTCTTTAGCTATATCTAATTTGCTGTAATTAATTACAG
TTGCCATTTTTATCCTAAAATTTCTATTTCATATTTTTGTATCTGCCATGGTACTTCTTATGGCTTTKAATTCCCTGCTAACTATTTAAAGTTCTTATTT
TATCCTGTGAATATGATATTCCTAGTTATTTTATTTTTAATTTTTATTATTTGTTAATCTTATGTTTTATTTACACTTCTTTTCTGTGACATGAGCACAC
ACAGATTCATGTGTATACATATATGGCTCTGATACCTCTCCTTTCCTGTCCTCATTCAAACCACTGATCACAGAGAGAGGACTATTTTTTTTTATTTTTA
ATTTTTCTATTTCAATAGGTTTTTGGGGGAACAGGTGGTGTTTGGTTACATGAATAAGTTCTTTAGTGGTGATTTTGGTGCACCCATCACCCAAACAGTG
TACATTGTACCCAATGTGTAATCTTTTAACCCTTGCCACACCCCACCCTTTCCCCGCAGTCCGCAAAGTCCCATGTATCATTCTTATGCCTTTGCTTCCT
CATAGCTTAGCTCCCACATATGAGTGAGAACATACAATGTTTGGTTTTCCATTCCTGAGTTATTTAATTAAAATAATAGTATCCAATTCCATCCAGGTTG
CTGTGAATGCCATTATTTTGTTCCTTTTTATGGTTGAGTAGTATTCCATGGTGTGTTTGTGTGTGTATAACATTTTTCTTTATCCACTCATTGATTGATG
GGCATTYGGGCTGGTTCCATATTTTTGCAATTGCAAATTGTGCTGTTATAAACATGTGTGTGCAAGTATCTTTTTTGTATAATGACTTCTTTTCCTCTGG
GTAGATACCTAGTAGTGGGATTGCTGGATCAAATGGTAGATCTACTTTTAGTTCTATAAGGAATCTCCACACTGTTTTCCATAGTGGTTGTATGAGTTTA
CATTCCCACCAATGGTGTAAAAGTGTTCCCTTTTCACCACATCCACACCAACATCTATTATTGTTTGATTTTTTATTATGACCATTCTTGCAGGAGTGAG
GTGGTATCACATTGTGGTTTTGATTTGCATTTCCCTGATAATTAGGGATGTTGAGCATTTTTCCATATGCTTGTTGGTATTTGTTTTTTTTTTTTTTTTT
TCATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGTGTGCTGCACCCATTAACCCG
TCATTTAGCATTAGGTATATCTCCTAATGCTATCCCTCCCCAATTCCCCCCACCCCGCTTGTTGGTATTTGTATATCTTCATTTGAGAATTCTCTGTTCA
TGTCCTTAGCCCACTTTTTGATGAGATTTTTTTTTTCTTGCTGATTCGTTTGAGTTCTTTGTAGATTCTGGATATTAGTTGGATGTATAGATTGTGAAGA
TTTTCTCCCATTCTGTGGGTTGTCTGTTAACTCTGCTAATTATTTCTTTTGCTTTGCAGAAGCTTTTTAGTTTAATTAAGTCCCATCTATTTATCTTTGT
TTTTGTTGCATTTGCTTTTGGGTTCTTGGTCATGAAGTCTTTGCCTAAGCCAATGTGTAGGAGGGTTTTTCCAATATTATCTTCTAGAATCTTTATGGTT
TCAGGTCTTAGATTTAAGTATTTGATCGATTTTGAGTTGAATTTTGTATAAGGGGAGAGAGAAGGATTCAGTTTCATTCTTCTACATGCAACTTGCCAAT
TATCCTAGGACCATTTGTTGAATAGGGTGTCCTTTCCCCATTTTATGTTTTTGTTTGGTTTGTCAAAGATCAGTTGGCTGTAAGTGTTTGGCTTTATTTC
TGGGTTATCTATTCTGTTCCATTTGTCTACGTGACTATTTTTATACCAGTACCATGTTGTTTTGGTGACTATGGCCTTACAGTATAGTTTGAAGTCTGAT
AATGTAATGCCTCCAGATTTGTTCTTTTTACTTAGTCTTGCTTTGGCTATGTGAGCTCTTTTTTGGTGCCATATGAATTTTAGGATTGTTTTTTCTAGTT
CTGTGAAGAATGATGGTGGTATTTTGATGGGAATTGCATTGAATTTGTAGATTGTTTTTGGGAGTATGGTCATTTTCACAATATTGATTCTACCCATTCA
TGAGCATGGGATGTGTTTCCATTTGTTTGTGTCATCTATGATTTTCTTTCAGCAATGTTTTGTAGTTTTCCTTGTAGAGTTCCTAGTTATTTTAAAGTCT
GTGTTCGGTCTTTCAGCATTTAAAGTTTGTAGGTTTATTACTATTTCTCTTCTTTCTGTTGGTCATAACTCTTAGTGTTTTGTTTCCTTGTGTGCCTGGT
TACATATGTGCTGGTCATTGTATTTGAAAATTATGTGTGAAATAATTTGAGGTTTTGGATTATGTATATTCCTCCAGAAAGAATTTCATTTGCTTCTGTG
CATTTCTTAGGAACATTACAAGTCCTTCTTCTCAGTTAATTTTCGTAGTATCTTTATCAGATAGGTGCTATTACAACCACTCACTTAGCAGATGAAAATC
ATGAGGCTCTGAGAGTCTAAGTCATCTACTTAGAATTGGACAATGGTGAAGCCAGGATTCAAACCCACATCAATAAGAATCCAGCGCTCTTAACAAGGGG
CCAGTACACTTTTTTAAAAAATAAAAGGCTAGATAGTAAATATTTTAGACTTTGTGGACTGCACAGCCTCTGTTGCAACTACTCAACCCTGCCTTTGTAG
CATGAATGCAGTCATAAACTATACATAAATGAATGAGCCTGGATTCGTTCCAAGGAAACTTTATAAAAACAGGTGGCAGGCTGGATTTGGCCCATGAGAA
GTGTAGTTTACACAAAAGTTGAGCAAACCAATTTTTTTCTGATTGTTTTTCCTCTTCTCAGTGTAAGAAGAAGCTTGGGAAGCTGCCACCTCAGTATGCC
CTGGAGCTCCTGACGGTCTATGCTTGGGAGCGAGGGAGCATGAAAACACATTTCAACACAGCCCAGGGATTTCGGACRGTCTTGGAATTAGTCATAAACT
ACCAGCAACTCTGCATCTACTGGACAAAGTATTATGACTTTAAAAMCCCCATTATTGAAAAGTACCTGAGAAGGCAGCTCACGAAACCCAGGTATGCTAT
CCCCACATGGCTTAGCTCCCCTATGTAAATGAACACCTGGATACAGGTACAGTGCCTTGGAAATGGAGGAGGTGGGAGGGCTCCCCACTTAGTGAGAATC
TCCTGTTGCCCATCATTGTACTGGGCATTTTACTACTGCCATCTGTTTTAAACACCTACCTCCAACCCTGTGAGGCAGGCACTATGCCAATTATTTTACA
GGTGAGTAAACTGAGGTTCTGAGAGGTAAGGAGCTTGTCCAACCCTTAACAGAAAATGAGTAAAATAGCTGCAGTTTGAACTGAAATAAGAACAGCAGCA
ACAACAATGATAGTAATTGCTCCCAGGTATTGAAAGCTTGTTGTAAGACTAACACATGCTAATATAATAGTAAAAATTATTAGCAATATTACTGATATGT
ATGTTATGTTCTAGTCGCTGTGCTGAGCATTTCATATAACTGGGCTTTTTCTATCCTCACAGCATAGCCTTTGAGATAGGTATGTGGAACTATTCCCATT
TTACAGATAAGAATCCTGAGGCTTAGAGAGTTCAAGTGACCTACCCAAGGGCACATCACTGATAAAGGGCAGAGGTGGGATTCAAACCCACATCTGTCAG
GTGCAAGTGCAAGGCTCCTTCTCCTCATGCTCACTGCCTGCTGGGGAATAGGGCACTGGGGACATACCCCAGGGAGCCCTTCCTCATGTTCTGAGTCCCA
GTTCATCCCATGCTGCTATTTTKCTCTCCCAGGAGCATCTGGACTCCCTAGACAGAGCCCCAGCTTCTCACCTGTCCCTCTCTAAATGCTGCTCTGCAGG
CCTGTGATCCTGGACCCGGCGGACCCTACAGGAAACTTGGGTGGTGGAGACCCAAAGGGTTGGAGGCAGCTGGCACAAGAGGCTGAGGCCTGGCTGAATT
ACYCATGCTTTAAGAATTGGGATGGGTCCCCAGTGAGCTCCTGGATTCTGCTGGTGAGACCTCCTGCTTCCTCCCTGCCATTCATCCCTGCCCCTCTCCA
TGAAGCTTGAGACATATAGCTGGAGACCATTCTTTCCAAAGAACTTACCTCTTGCCAAAGGCCATTTATATTCATATAGTGACAGGCTGTGCTCCATATT
TTACAGTCATTTTGGTCACAATCGAGGGTTTCTGGAATTTTCACATCCCTTGTCCAGAATTCATTCCCCTAAGAGTAATAATAAATAATCTCTAACMCCA
TTTATTGACTGTCTGCTTCGGGCTCAGGTTCTGTCCTAAGCCCTTTAATATGCACTCTCTCATTAAATAGTCACAACAATCCCATGAGGCATTTTTAAAA
ATTTTTTATTATTTTAGATTCAGAGGGCACATGTGCCATTTGTTACACAGCTATATTGTGTAATGGTGGGGTTTGGGCCTCTATTGATCCTGTCGCCCAA
ATAGTGAACAGAGTACCCAAAAAGAATTTTTTCAACCTTTGCCTTTCTCCCTTCCTCCTCCCTGTTGGAGTCCCTAGTGTCTATTGTTCCCATCTTTAGC
AGATGTTAAGTATTTGATTTTCTGTTTCTGGGTTAATTCACTTCGGATAATGGCCTCCAGCTGCAACCATGATTTCATTCTTTCTTATGGCTGCATAATA
CTCCATGGTGTAGATATACCACACTTTCTTTATCCAGTTCACACTGATGGGCACTTAAGTTGATTCCATGACTTTGCTATTGTGAATCGTACTGCGATAA
ACATACGAGTGCCGGTGTCTTTTGATAGAATGATTTCTTTACCTTTGGGTAGATACYGAGTAGTGGGATTGCTGGGTTGAATGGACATTCTACTTTTAGT
TATTTGAAAAGTCCCATGAGGCATGTTTTCTATCATTCCCATCTTACAGATGAGACAAAGGCTCAGAGAGGTGAGGTCACTTGCTCAAGGACATCAGCTA
ACAAGTGGTGGAAATGGAATTCAAGCTCAGTGGACTCTAAAGCCAGTGCTCATGTCACTGTGCTAAACAGCCTGCCTTGTCACATCCCCACCTCTCATCT
GACCAATGGGAGACTCTGAGCAGCTGAGTGACTTGGGTTGTCACACAGCTAAACAGGGGCAAAGGACCCAGTCTTGGATCTTTCCACCTCCAAGCAGGAA
TCTGTCTGATTCCAGGGGATTGATGATGTTGCAGATGGCTAGGAAGCAGACTCCAGGATGGAATTTAGTATGCAGGATGTTCTGGGGGAGAGCCACTGGA
ACCAGCACTCAGGGAAAGGGGGGAAGAAAGGATAGGAAGGAAGCATGAAAGAGAATAGGGAGAAGTGAACAGGGATGCAGAGCGAATGCCAGTTTCAGCC
AACTCCAAGGACAGCCCTGGAGCTGGAATGGCCTTTAGAGCTGCCCCATGGTGACAGAGGTGGCCAGGCTTCTATACCCCTACGTGGATCACTCACTGTG
CTTGGGCACCTTGGGAAAGGGCATGGCTTTGAGCAAAAGGCTCTCTGCAGCTGAGGCAACCCCTAAAAGGGCTGACGGCTGAAGTCTGTCTGCTGACCAC
TGTCCCAGCAGCTGGGGCTTGTTAGTCCTTCCTCAAAGGGGGATCCAGATGGCATGTCACAGTGTCTACCGTAAATGCTCACTGAATCCAGCTGCAATGC
AGGAAGACTCCCTGATGTGATCATGTGTCTCACCCTTTCARGCTGAAAGCAACAGTRCAGACGATGAGACCGACGATCCCAGGASGTATCAGAAATATGG
TTACATTGGAACACATGAGTACCCTCATTTCTCTCATAGACCCAGCACACTCCARGCAGCATCCACCCCACAGGCAGAAGAGGACTGGACCTGCACCATC
CTCTGAATGCCAGTGCATCTTGGGGGAAAGGGCTCCAGTGTTATCTGGACCAGTTCCTTCATTTTCAGGTGGGACTCTTGATCCAGAGARGACAAAGCTC
CTCAGTGAGCTGGTGTATAATCCAGGACAGAACCCAGGTCTCCTGACTCCTGGCCTTCTATGCCCTCTATCCTATCATAGATAACATTCTCCACAGCCTC
ACTTCATTCCACCTATTCTCTGAAAATATTCCCTGAGAGAGAACAGAGAGATTTAGATAAGAGAATGAAATTCCAGCCTTGACTTTCTTCTGTGCACCTG
ATGGGAGGGTAATGTCTAATGTATTATCAATAACAATAAAAATAAAGCAAATACCATTTATTGGGTGTTTATTAACTTCAAGGCACAGAGCCAAGAAGTA
CAGATGCATATCTAGGGGTATTGTGTGTGTATATACATTGATTCAACAAGAAATATTTATTGAGCACTTACTATGTGCCAAGCATAGCTCTGGGCACTGG
GAATATAGCAATGCACAAAAGCAGACAGAAATCCCTGTCCTCATGACCCTGCAGAGCCAAGACTTCCAGAATTTTTTAAATAAAAAAATCCCTGTCCTCA
TGGAGTTGACATTTGTGCAAAACATCTTAATGTTAGATGGTTTTCCTATTACTAATAATTCTGAAATAAGCATCCTTGATTTATCCTTTCTCCATATCTC
TGAGAAAAATTATAGAACCTCCCTGTGTGACACAGCAGCCACTAGCCACATGTGTCAAATGCTTAAAATGTAGCTAGTCTAAATCTACATGTGCTGTGAG
TGCAAGGTATATACTTGGTTTCAAAGACTTAGTACAAATGAAAAGAATGCCAAGTTCTTGCCAACTGATAATTTTTTTAATTGTGTGCTGAAATGACAAT
TTTTAAATATATTTGAGTTAAATCAAATGAACTTCATCTCTTTCTTTTCCCTTTTTAATTGTGGCTACTAGAAAATGTGAAATCATACATGTGGCTTGTG
TTATATTATGTATTTCTATTGGACAGCTCTGTCCTCCAAGGTAAATCACTGGATTAAAGATTCGACTATACTGACTTACATTGCCACATTGTCACACTGT
CCTTGGGACCAAGAATCAACATATCATTCATAAGACTCTAAAATATAAAACTCTCATAAATACTCACAAAAGAACCTAGCATGCTCTGATCACCTGAGTT
GCTGGTCACTTTTGGTGGCTGGTAAGCAGCCTTTGGTCCGTCCAGATTATATTCTTCCATTTAGTCCCCCCACATCCCTGTGAGATGGGTTTTGTTGTTA
TTCTCATAATATTAAGTGGAATAACTTGAGGTTCTAAGAGGTTACAGTGCTTGCCCAGGGTCACCCAGCTGGTCAGGGGCAGAGTCTGAACTTGAACCCT
AATCCTTCTCTCTCTAAAGCTCATGTTCTTAATCACTGCAGTATGGTCTTAATGTGTCCTCATTCATTGAAAGCTTATGTTTTCCTACTCTGGCGCCATG
AGAACCAGAAGCATCAATGTCCAGGGGCAGGGAAAGATGAATGTCCCAGCTCAACCTGAGCACAGATTCACCCTTCCTCGGTCTTTTTGTCCTATTTGTA
GACTGGATTAGATGATGCCAGTCTACTGATTCAAATGTGAATCTCTTTCAGAAAAACCCTCACAGATACACCTAGAAATGATGTTTCACCAGCTATCTTG
GCACCCTTAGCCCAGTCAACTTGTCACATAAAATCAATCATCACACACTCCATGCTGATAGGCAAGTGTGGACATCCCAGTGTAATGGCTTCATTGTATT
TTACCGTGTGGAAAATGCACTTGTGTTGCCTTTTGAGAGTGTTTCATTTTATAGCAATGCCACAACCAACAGTAGATTAATGGAATCAGTAATTAGTTGC
TTGATCGAAGAGCCACATGGCCACGTGATCAGCCTTCCATCTACAACAGGACCCAGGAGTATACCAGGATTGTTTTTCAAAGGGCATAGACATTTTTGCT
GCAAATGACATGGGCTTACTCCAGAGTCCTGGAGGGGTCTGTGTTATAATTCTCTAAATAGATATTGCCATAATCTCTGAATGACACCTTTTCCCATGAC
TAACACTTTGAACACCATGGGGTCTGCCAGGCTGGTGTGGGCCAAGTAGAGGGGCGACTTGCACCACAGCCTATACCAGCTGCAGAGCCCTTTAGGACTT
AATAAAAGGGTGCTAATTTCTGTATTTCCCTGGCTCTGAGATGTAATAGTGGTTTTAATTTACTATCCTGGCCAGGGAGGTGGCAGTTTCAAAGGTATCC
CCATGACCTTCCTCACTGTGATAGCCCTCACTTAACCCTCAGGCCAATGTGGGGTAGTGTCTTTTACCAAGCATGTCCTTTTTGAATATACATTCAGGGG
ACAGGGAAATGATCACCAGGTCGGTCCATAGACACAGTGGGCAAATGACAAGCCTGACTTGGCCAGGGCTCCATTTTTCACTCTTGGCTCCTATATGCCC
CTACTCTGATGGGGACAGAATCTGATGACGCTTTTCGTTATCAGTGTTGATCCTCTGCCCAACAGTCTTAGAAATGTTGAGTGACTCCCCTTTTCCAGTG
TATCATCCTCTGAATAAATGGCCATAGGTCCTTTGGGGGAAACCATTACTATATATGCTATGGTGTCACAGCRTCCTTTCCCAAGGGGACTCTGCCTCCT
CTTTGTTAATGGGGTCTAGTCTGAAAACTGGGTTGGTCAGTTCCAAAAATCAGGAAGGGATGATGACTTTTTATTGGAATGGCTCCCCTTAACCCCCTGG
TCGTCCGGCCTTGATTTCTTCTAATGGTATAAATTGAGTAGTGCCCTTTCAAGATACTCATCCACTAAGTCACTAAGAGGCCACATTGTGTTAACCAGGT
CCCTAACCCTGTATCAGTCACGACCCCTGGCTGCCCCTCCAACCTCACCGTTCATTATAGTCATTGCACCCACCTGGCTTCTATTGCTCTGGGAGTCCTG
CCTGCCCTATTGCCCTTATCAATCCAAGCTCTGTAACAGCCCCTCTTCCCAGGAGGCCACCACCAGAACACCTCATGATGCAGGTGTCCCTCTCTCCACA
CATTCCTTATGGCCTTGGGGAATGTTTTGTCCCCTGGGACTCTATTTCCAGACTTACATAGTAAACATATCCACTCCTCTTCACTGTGCCCATTTCCCTT
GGCCTCTTAACACCTTCTTCCACCAGCTCCACAGCAATTCTGGAATTTCATACTTTTCTGCATTTCTAGGAGCCATCCTAGGAGTCAGGGAAAACCTCGG
CTTCACAAGTAAATGGGACTTCAGTTGTGTGCCAACATGCCTGGCTAATTTTTAAATTTTTTTGTAGAGATGGGGTCTTGCTGTTTTGTCCAGGCTGGTC
TTGAACTCCTGGCCTCAAACAATCTTTCCTCCTCGGCCACTCAAAGTGCTGGGATCACAGCTACCATTCCCACACACATTTTCTTATTTTTAAAGGCTGT
ATGTGCACTGTATACATTAAATGTGTGCACTGTATACATTAACTGTGTGCACTGTATACATTAATTTTCTTTAACGAATTTATCCATTTATAGTTGCTTT
GGTTGTTTCCACTTGATTATTGTGAATAGTGCTGCAGTAAACATGGGAATGCAGTTATCTCTTTGATATCCTGATTTCAATTCTTTTGGATACTCAGAAG
TGGGATTGCTGGAACATATCGTAGTTCCATTTTTAATTTTTTGAGGAACCTCCATACTGTTTTTTACAGTGGCTCACCAACAGTGTGCAAGAGTTCCCAT
CCCTCTACATCCTCACACTTGCTATCTTTTGTTCATTCTTTAAAAAATGATAGCCATCCTACCAGGAGTAAGGTGATATTGCATTGTGATTTTGATTTGC
ACTTCTCTGATAATTAGTGATATTGAGTATATTTTCATAGACCTGTTATCCATTTGTGTGTCTTCTTTGGAGAAAGATCTATTCCTATCCTTAGCCCATT
TTTAAATCAAGTTATTAATTTTTTTGCTAGTGAGTGGTAGGAGTTCCTTACATATTGTGGAGATTAACCCTTATTAGATGTATGGTTTGTAAATGTTTTC
TTCATTCCATAGATTGTCTTTTCAGCCCGTTGATTGTTTCCTTTGCTATGCAGAAGCTTTTTAGTCTGATGTAGTCCAAGTTGCCTATTTTTGCTTTTGT
TGCCTGTGCTTTGCATACGTGTCCACCTGATCTTTGACAAGATTGCCAAGAATACACAATGGGGAAAGGACAGTGTCTTCAACAAATGGTGTTTGGAAAG
CTGAATGTCCACATGCAAAAGAATAAAATTGGACCCTTACCTTACAGCATACACAAAATCAACTCAAAATGGATTAAAGACTTAAACGTAAGACCTGAAA
CTGAAACTACTAGAAGAAAACTTAGGGGAAAACTTCATGACATTGGTCTTTCCAGTGATTTCAGGGATGTGACACCAAAAGCACAGACAACAAAAGGCAT
TTATTTTTATATGGCATGTGAGGAAGGGGTTCAGTTCCAGTTCTTCCAATGTGGATGCTCAATTATCCCAGCAGCATTTATTGAACGGATCATGTTCTCT
CCACTTCTTTGCAAAGCCACCTCTTAAATATTCCCAGAGCCCATCTATGTGGGAGTCTGTTTCTGGACTCTGCTCTTTTCCATTGGTCTATTTTTTGTGT
CCTTCAGTTAACACAACCTTGTCTTAATTACTATAACCTTATAATTCTTAGTATCTTTGGGAGAACTCTGTTCTCTTTTTATCAAGTCATTGGTTCCTCT
TGGCCCTTTTTATTTCTACATTAATTTTATACTCAATTTGTGAAGCTCCTCCCAAAATATGGGGAGGCATTTGATTAGAATTACACATATTAGCTTGGGA
AGAATAACATCTATATTTTATATATATATATCTATATAGAATTTGATGATTCTGATCCATGAACTTGGAGTTTCTTTTCATTAATTTTTGTCCTCTTTAG
TGACAGTGACAATGTTTTATCATTTTCCCTGCAGAGGTCTTTCATGGTTTTTGTCGTATGTATTCCCAAATATTTGTTTCAGTACTATCGTACTTGGCAT
GCTTTCTTTAATTTCATTTTGCAATGGTTGCTTCATGGGAGACTTAAACATTTTCAGTGGTGATATTTGGCTATAGCATTATAGGTGATCTTTATACTTT
TCTAAATTTTCTGTGGCCACGGGAAATAATAAAGACACTTTTCTTGCACAGAAAAAAAAAACTTTTGGGAAGTATTTCTCACAGCTAAGATCTGATAGTT
TACGCAAAGTTGGCAGGCACAGGCTACAGAAAGCTCTGGGGTGCTGTTGTTTGGAGCTGCTGGTTCAAGGACAAATTCACAAGATTTGGAAACAGAGGAG
CAAGTGTGTAAGGACGAGGGAAACTATGGTATAACATTGAAGCACCTGAGCTGGAAATTTCTGAGCCCTCAGAGATAAATTTCCTCAGCTCCTCCCTGCC
GAGAAAACAAAACTAAAAAGAGTTAATGTTTAGCCAACAGAAATGAGAGTGAAGTTCACAGAAGAAATTAGGGCACAGCTGGAAGTGTTCAAAATGAGGA
AACGTTCAATGTCAAGTTTGAGGTCCAGGGTTGATGGGTGAACTCKGCACGCTCAGCTTCATGTTAGGTCTCCCAGCTCAACGAGGGGGTGAATTTTGGT
GTACTGCTGTCTTTGAGGCCCTGCGGGAACTCTCCCACACCCTCCCCCTTTTCCTCACACAAATCCCCTCCTTGCACACCCCTCACGCCTGTCTGTGAGG
TGCCAGGGCCCCTCTCCCAGCCAACCACAGGCCAGTATTGCCCCTCCCCAAACTTCCCTTCAGGCAGATCAAACCCAGGGCTCTGGAGTCACACTGCCTG
GGCTCAAATCCTGCTTCTGAATCTTATGAGATGTCAAGTCACTTACCTAACTCCTTGGTGAAACAGGCTCTCCTCTGTCAAATAGGTGTGCATGCTTTGG
GAGGCCAAGGCAGGAGGATTGCTTGAGCCCAGGAGTTCAAGACCAGCCTGGGTAACGTAGTGAGACCCTGTCTCTATAAAAATAAAAAAATTAGCCAGGT
GTGGTGGCTCATGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGAGGAAGAATTCCTTGAGCCCACGAAGTCAAGGCTGCAGTGAGCCATGATCAAGCTG
CTGCACTCCAGCCTGGGCAACAGAATGCGACCCTGTCTCAGAAATAAGTAAATAAATAAATACATAAATAAATTTGGGTGCAATTGTGGCTCTTAGTGTT
ACAGAGAGGACTGAAGGAGCTAATGGATGATGGATTTATGGCAGTACCTCACATATAGCTT


SNP Information

Context             (SEQ ID NO:5230):
TATTTTACAGTCATTTTGGTCACAATCGAGGGTTTCTGGAATTTTCACATCCCTTGTCCAGAATTCATTCCCCTAAGAGTAATAATAAATAATCTCTAAC
M
CCATTTATTGACTGTCTGCTTCGGGCTCAGGTTCTGTCCTAAGCCCTTTAATATGCACTCTCTCATTAAATAGTCACAACAATCCCATGAGGCATTTTTA
Celera SNP ID:            hCV27465589
SNP Position Genomic:     16997
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON;UTR 3;TFBS


Context             (SEQ ID NO:5231):
TCTCCTGTCAATGATGGATCTCAGAAATACCCCAGCCAAATCTCTGGACAAGTTCATTGAAGACTATCTCTTGCCAGACACGTGTTTCCGCATGCAAATC
R
ACCATGCCATTGACATCATCTGTGGGTTCCTGAAGGAAAGGTGCTTCCGAGGTAGCTCCTACCCTGTGTGTGTGTCCAAGGTGGTAAAGGTGAGTCCAGG
Celera SNP ID:            hCV8920492
SNP Position Genomic:     6183
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS


Context             (SEQ ID NO:5232):
CCTGCACCATCCTCTGAATGCCAGTGCATCTTGGGGGAAAGGGCTCCAGTGTTATCTGGACCAGTTCCTTCATTTTCAGGTGGGACTCTTGATCCAGAGA
R
GACAAAGCTCCTCAGTGAGCTGGTGTATAATCCAGGACAGAACCCAGGTCTCCTGACTCCTGGCCTTCTATGCCCTCTATCCTATCATAGATAACATTCT
Celera SNP ID:            hCV2567429
SNP Position Genomic:     18690
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,4)   caucasian(A,26|G,6)   total(A,58|G,10)
SNP Type:                 MISSENSE MUTATION

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:                 MISSENSE MUTATION


Context             (SEQ ID NO:5233):
CAGAGGCCGATCTGACGCTGACCTGGTTGTCTTCCTCAGTCCTCTCACCACTTTTCAGGATCAGTTAAATCGCCGGGGAGAGTTCATCCAGGAAATTAGG
R
GACAGCTGGAAGCCTGTCAAAGAGAGAGAGCATTTTCCGTGAAGTTTGAGGTCCAGGCTCCACGCTGGGGCAACCCCCGTGCGCTCAGCTTCGTACTGAG
Celera SNP ID:            hCV15746708
SNP Position Genomic:     7718
SNP Source:               Applera
Population(Allele,Count): african american(A,39|G,1)   caucasian(A,38)   total(A,77|G,1)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,37|G,1)   caucasian(A,40)   total(A,77|G,1)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:5234):
GTCTGTTTATATTTTCAAGTGCCTCGAAGTATTATTGTTTTATAGCCAAATGTTTAGTTAATCTGCTCACAGATTTACCACTTTCTTCACTATTCATTCT
K
TCTTACACCTCTAACATTCCATCTGGGGTAATTTTCCTAAATGATCATGCATCCTTTGGGATTTCTTTTGATGATGGTCTATTGGTAGTAAACTCTCTCA
Celera SNP ID:            hCV11700676
SNP Position Genomic:     12044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5235):
GGAAGCTGCCACCTCAGTATGCCCTGGAGCTCCTGACGGTCTATGCTTGGGAGCGAGGGAGCATGAAAACACATTTCAACACAGCCCAGGGATTTCGGAC
R
GTCTTGGAATTAGTCATAAACTACCAGCAACTCTGCATCTACTGGACAAAGTATTATGACTTTAAAAACCCCATTATTGAAAAGTACCTGAGAAGGCAGC
Celera SNP ID:            hCV25630617
SNP Position Genomic:     15678
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,35)   caucasian(G,40)   total(A,1|G,75)   
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:5236):
CTGCGCCAGTTTCAGGCAGGCCGCTCCTCCAGGGCCCAGCCTTGACCATTTACCTAACTGATTTTTCCTCTACTTTCCCTCAATACCTCATAGGGCCGTG
Y
AGATTAAGTAAAATAGTAAGTGTGAACCACCCAGCATAAGCTAGTCCTGGGCATCGTAAAGGACAATGGGAAAAGAACACAGATCCTGGAAGAAGGCCCC
Celera SNP ID:            hCV27833191
SNP Position Genomic:     7219
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:5237):
AGAGTGAAGTTCACAGAAGAAATTAGGGCACAGCTGGAAGTGTTCAAAATGAGGAAACGTTCAATGTCAAGTTTGAGGTCCAGGGTTGATGGGTGAACTC
K
GCACGCTCAGCTTCATGTTAGGTCTCCCAGCTCAACGAGGGGGTGAATTTTGGTGTACTGCTGTCTTTGAGGCCCTGCGGGAACTCTCCCACACCCTCCC
Celera SNP ID:            hCV27925869
SNP Position Genomic:     24246
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 TFBS


Context             (SEQ ID NO:5238):
GGAGAGTTCATCCAGGAAATTAGGAGACAGCTGGAAGCCTGTCAAAGAGAGAGAGCATTTTCCGTGAAGTTTGAGGTCCAGGCTCCACGCTGGGGCAACC
S
CCGTGCGCTCAGCTTCGTACTGAGTTCGCTCCAGCTCGGGGAGGGGGTGGAGTTCGATGTGCTGCCTGCCTTTGATGCCCTGGGTGAGAGCTCCCAGCTT
Celera SNP ID:            hCV27833192
SNP Position Genomic:     7794
SNP Source:               Applera
Population(Allele,Count): african american(C,39|G,1)   caucasian(C,38)   total(C,77|G,1)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,1)   caucasian(C,40)   total(C,75|G,1)   
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:5239):
GGCATCGTAAAGGACAATGGGAAAAGAACACAGATCCTGGAAGAAGGCCCCCAGGTTTGAATTGTATTTGCCACCTACTAGCTGGGTGATGGGGCTGATA
Y
ATTATCTCACTGAGCATCCATTTTCCCATCTGTAAAATGGGAACTAATGATAATGGCATCCAAATCATAGCATCATTGTGAGCATTATAGGAGTTTAAGA
Celera SNP ID:            hCV27854695
SNP Position Genomic:     7369
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:5240):
AGCTGACACCTAAGTTGTAGATTTTGCCCGAACAGGTCAGTTGACTGGCGGCTATAAACCTAACCCCCAAATCTATGTCAAGCTCATCGAGGAGTGCACC
K
ACCTGCAGAAAGAGGGCGAGTTCTCCACCTGCTTCACAGAACTACAGAGAGACTTCCTGAAGCAGCGCCCCACCAAGCTCAAGAGCCTCATCCGCCTAGT
Celera SNP ID:            hCV27854696
SNP Position Genomic:     10169
SNP Source:               Applera
Population(Allele,Count): african american(G,39|T,1)   caucasian(G,38)   total(G,77|T,1)
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:5241):
ATCTCCCACAGTTTGAGAGCTTTTTGCCCCAACAGGGCATCTCTCTAAAGCAGGGTGGGAGGAGATCTTAGGATCTGTCCCGGGGCAAGAATGAATACGG
K
CATGATCTATCACAGGAGAGACATTAAACAGCAAATTGGCATAATGTGGGGACAAAGACATTTCTTACAGAACATCTGCAAGGCTTACTGGTTCTGTTTA
Celera SNP ID:            hCV16111933
SNP Position Genomic:     8027
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5242):
CCTCATGCTCACTGCCTGCTGGGGAATAGGGCACTGGGGACATACCCCAGGGAGCCCTTCCTCATGTTCTGAGTCCCAGTTCATCCCATGCTGCTATTTT
K
CTCTCCCAGGAGCATCTGGACTCCCTAGACAGAGCCCCAGCTTCTCACCTGTCCCTCTCTAAATGCTGCTCTGCAGGCCTGTGATCCTGGACCCGGCGGA
Celera SNP ID:            hCV27833193
SNP Position Genomic:     16523
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:5243):
TGGTGGCTTGGATGGGGTGATGGCAGTGGAGAGGGCAGGAGGGAGGATCAGGAATGGACCTCAAGACTTCCCAGCCCTGGGTCTGCTGCACTTTTCAATC
W
AACCCCATGGCCAGGGAGATTGTCCCCTCAGAGTGACTGAAGGAAATTCAGAGAAGAGCTGACACCTAAGTTGTAGATTTTGCCCGAACAGGTCAGTTGA
Celera SNP ID:            hCV29305268
SNP Position Genomic:     10012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5244):
CTGCACTTTTCAATCAAACCCCATGGCCAGGGAGATTGTCCCCTCAGAGTGACTGAAGGAAATTCAGAGAAGAGCTGACACCTAAGTTGTAGATTTTGCC
Y
GAACAGGTCAGTTGACTGGCGGCTATAAACCTAACCCCCAAATCTATGTCAAGCTCATCGAGGAGTGCACCGACCTGCAGAAAGAGGGCGAGTTCTCCAC
Celera SNP ID:            hCV27838986
SNP Position Genomic:     10097
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,10)   caucasian(C,34)   total(C,60|T,10)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:5245):
TTGTAGATTTTGCCCGAACAGGTCAGTTGACTGGCGGCTATAAACCTAACCCCCAAATCTATGTCAAGCTCATCGAGGAGTGCACCGACCTGCAGAAAGA
S
GGCGAGTTCTCCACCTGCTTCACAGAACTACAGAGAGACTTCCTGAAGCAGCGCCCCACCAAGCTCAAGAGCCTCATCCGCCTAGTCAAGCACTGGTACC
Celera SNP ID:            hCV27838987
SNP Position Genomic:     10183
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,39)   caucasian(G,38)   total(C,1|G,77)
SNP Type:                 MISSENSE MUTATION;UTR 5;hmCS


Context             (SEQ ID NO:5246):
AATGTTGAGTGACTCCCCTTTTCCAGTGTATCATCCTCTGAATAAATGGCCATAGGTCCTTTGGGGGAAACCATTACTATATATGCTATGGTGTCACAGC
R
TCCTTTCCCAAGGGGACTCTGCCTCCTCTTTGTTAATGGGGTCTAGTCTGAAAACTGGGTTGGTCAGTTCCAAAAATCAGGAAGGGATGATGACTTTTTA
Celera SNP ID:            hCV348486
SNP Position Genomic:     21273
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:5247):
TAGCTATATCTAATTTGCTGTAATTAATTACAGTTGCCATTTTTATCCTAAAATTTCTATTTCATATTTTTGTATCTGCCATGGTACTTCTTATGGCTTT
K
AATTCCCTGCTAACTATTTAAAGTTCTTATTTTATCCTGTGAATATGATATTCCTAGTTATTTTATTTTTAATTTTTATTATTTGTTAATCTTATGTTTT
Celera SNP ID:            hCV16178363
SNP Position Genomic:     12768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5248):
GTACAGACGATGAGACCGACGATCCCAGGACGTATCAGAAATATGGTTACATTGGAACACATGAGTACCCTCATTTCTCTCATAGACCCAGCACACTCCA
R
GCAGCATCCACCCCACAGGCAGAAGAGGACTGGACCTGCACCATCCTCTGAATGCCAGTGCATCTTGGGGGAAAGGGCTCCAGTGTTATCTGGACCAGTT
Celera SNP ID:            hCV2567430
SNP Position Genomic:     18555
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:5249):
TGTGATCCTGGACCCGGCGGACCCTACAGGAAACTTGGGTGGTGGAGACCCAAAGGGTTGGAGGCAGCTGGCACAAGAGGCTGAGGCCTGGCTGAATTAC
Y
CATGCTTTAAGAATTGGGATGGGTCCCCAGTGAGCTCCTGGATTCTGCTGGTGAGACCTCCTGCTTCCTCCCTGCCATTCATCCCTGCCCCTCTCCATGA
Celera SNP ID:            hCV8920484
SNP Position Genomic:     16703
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:5250):
AATCCAGCTGCAATGCAGGAAGACTCCCTGATGTGATCATGTGTCTCACCCTTTCAAGCTGAAAGCAACAGTACAGACGATGAGACCGACGATCCCAGGA
S
GTATCAGAAATATGGTTACATTGGAACACATGAGTACCCTCATTTCTCTCATAGACCCAGCACACTCCAGGCAGCATCCACCCCACAGGCAGAAGAGGAC
Celera SNP ID:            hCV2567431
SNP Position Genomic:     18485
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,7)   caucasian(C,25|G,11)   total(C,54|G,18)
SNP Type:                 MISSENSE MUTATION;INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(C,109|G,201)   Chinese(C,14|G,44)   Japanese(C,4|G,16)   African(C,10|G,88)      total(G,349|C,137)no_pop(G,1|C,12)    ;(C,-|G,-)   
SNP Type:                 MISSENSE MUTATION;INTRON


Context             (SEQ ID NO:5251):
CCTCAGTCCTCTCACCACTTTTCAGGATCAGTTAAATCGCCGGGGAGAGTTCATCCAGGAAATTAGGAGACAGCTGGAAGCCTGTCAAAGAGAGAGAGCA
Y
TTTCCGTGAAGTTTGAGGTCCAGGCTCCACGCTGGGGCAACCCCCGTGCGCTCAGCTTCGTACTGAGTTCGCTCCAGCTCGGGGAGGGGGTGGAGTTCGA
Celera SNP ID:            hCV8920485
SNP Position Genomic:     7751
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:5252):
TCACAGTGTCTACCGTAAATGCTCACTGAATCCAGCTGCAATGCAGGAAGACTCCCTGATGTGATCATGTGTCTCACCCTTTCAAGCTGAAAGCAACAGT
R
CAGACGATGAGACCGACGATCCCAGGACGTATCAGAAATATGGTTACATTGGAACACATGAGTACCCTCATTTCTCTCATAGACCCAGCACACTCCAGGC
Celera SNP ID:            hCV2567432
SNP Position Genomic:     18457
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,7)   caucasian(A,25|G,11)   total(A,54|G,18)
SNP Type:                 SILENT MUTATION;INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,12)   Gaucasian(G,108|A,202)   Ghinese(G,13|A,43)   Japanese(G,3|A,9)   African(G,10|A,90)      total(G,134|A,344) ;(A,-|G,-)   
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:5253):
GGATCCAGATGGCATGTCACAGTGTCTACCGTAAATGCTCACTGAATCCAGCTGCAATGCAGGAAGACTCCCTGATGTGATCATGTGTCTCACCCTTTCA
R
GCTGAAAGCAACAGTACAGACGATGAGACCGACGATCCCAGGACGTATCAGAAATATGGTTACATTGGAACACATGAGTACCCTCATTTCTCTCATAGAC
Celera SNP ID:            hCV2567433
SNP Position Genomic:     18441
SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,19)   caucasian(A,25|G,11)   total(A,40|G,30)
SNP Type:                 ACCEPTOR SPLICE SITE;INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,11)   total(G,2|A,11) 
SNP Type:                 ACCEPTOR SPLICE SITE;INTRON


Context             (SEQ ID NO:5254):
AAGTTGATTCCATGACTTTGCTATTGTGAATCGTACTGCGATAAACATACGAGTGCCGGTGTCTTTTGATAGAATGATTTCTTTACCTTTGGGTAGATAC
Y
GAGTAGTGGGATTGCTGGGTTGAATGGACATTCTACTTTTAGTTATTTGAAAAGTCCCATGAGGCATGTTTTCTATCATTCCCATCTTACAGATGAGACA
Celera SNP ID:            hCV2567434
SNP Position Genomic:     17557
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5255):
CGTATGCAGCACGTTGGGAGATAGATATTTATAATTTGCAGGAACATTTGGACAGGAAGTGTAACCTCTCAGAGGCTCCCTTGCCACATCAGGAGAATTG
R
TAAAACCACACTACCTGTATCATATCATTATTTTAAGTGATAAATGATCATCTACATTCAGCTCTGATGAGTAATAGGTGTTCAAAAATAGGAACTTCCA
Celera SNP ID:            hCV2266052
SNP Position Genomic:     8330
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:5256):
CATGGCCAGGGAGATTGTCCCCTCAGAGTGACTGAAGGAAATTCAGAGAAGAGCTGACACCTAAGTTGTAGATTTTGCCCGAACAGGTCAGTTGACTGGC
R
GCTATAAACCTAACCCCCAAATCTATGTCAAGCTCATCGAGGAGTGCACCGACCTGCAGAAAGAGGGCGAGTTCTCCACCTGCTTCACAGAACTACAGAG
Celera SNP ID:            hCV2567435
SNP Position Genomic:     10118
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,26)   caucasian(A,16|G,14)   total(A,24|G,40)
SNP Type:                 MISSENSE MUTATION;UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|A,2)   Gaucasian(G,131|A,179)   Ghinese(G,26|A,34)   Japanese(G,8|A,12)   African(A,26|G,74)      total(G,239|A,251) ;JBIC-allele(G,550|A,935)   total(G,550|A,935)
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:5257):
TTCCGGCGAGTGACGGTGGTGGCTTGGATGGGGTGATGGCAGTGGAGAGGGCAGGAGGGAGGATCAGGAATGGACCTCAAGACTTCCCAGCCCTGGGTCT
S
CTGCACTTTTCAATCAAACCCCATGGCCAGGGAGATTGTCCCCTCAGAGTGACTGAAGGAAATTCAGAGAAGAGCTGACACCTAAGTTGTAGATTTTGCC
Celera SNP ID:            hCV2567436
SNP Position Genomic:     9996
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,31)   caucasian(G,38)   total(C,1|G,69)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:5258):
GCAGGAAGCAGCATGATCAGCAGCATTCTCTAGGTGCCAGGTTGAGAACAGGCTGTGGGGGAACCTGTAAAGAGGTTGCTGCCATAGTTCCGGCGAGTGA
Y
GGTGGTGGCTTGGATGGGGTGATGGCAGTGGAGAGGGCAGGAGGGAGGATCAGGAATGGACCTCAAGACTTCCCAGCCCTGGGTCTGCTGCACTTTTCAA
Celera SNP ID:            hCV2567437
SNP Position Genomic:     9909
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5259):
TCGCCGGGGAGAGTTCATCCAGGAAATTAGGAGACAGCTGGAAGCCTGTCAAAGAGAGAGAGCATTTTCCGTGAAGTTTGAGGTCCAGGCTCCACGCTGG
S
GCAACCCCCGTGCGCTCAGCTTCGTACTGAGTTCGCTCCAGCTCGGGGAGGGGGTGGAGTTCGATGTGCTGCCTGCCTTTGATGCCCTGGGTGAGAGCTC
Celera SNP ID:            hCV28015277
SNP Position Genomic:     7787
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 5;TFBS


Context             (SEQ ID NO:5260):
GTGAGCTTGGAGCAAAAGTTCAGTAAGCAAAAGAAGAAAGCTGTCTCCACTGTGGAGAGGGAAGTCTGAGTGGATTGCCAGATTGCAGCTGAATGCAAAA
M
ACTTTTATAAGAAACCACTCTCCTCCCTGTAACTGTTTGAGAAACTTTTTATCAGTAAAGCTGTGCAACTTCCCTTACCTTATGCAGCTGTGGGTATATC
Celera SNP ID:            hCV2567438
SNP Position Genomic:     6947
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:5261):
ATGCCATTATTTTGTTCCTTTTTATGGTTGAGTAGTATTCCATGGTGTGTTTGTGTGTGTATAACATTTTTCTTTATCCACTCATTGATTGATGGGCATT
Y
GGGCTGGTTCCATATTTTTGCAATTGCAAATTGTGCTGTTATAAACATGTGTGTGCAAGTATCTTTTTTGTATAATGACTTCTTTTCCTCTGGGTAGATA
Celera SNP ID:            hCV28037071
SNP Position Genomic:     13407
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5262):
GTAAAGGACAATGGGAAAAGAACACAGATCCTGGAAGAAGGCCCCCAGGTTTGAATTGTATTTGCCACCTACTAGCTGGGTGATGGGGCTGATATATTAT
M
TCACTGAGCATCCATTTTCCCATCTGTAAAATGGGAACTAATGATAATGGCATCCAAATCATAGCATCATTGTGAGCATTATAGGAGTTTAAGACATGCA
Celera SNP ID:            hCV11308468
SNP Position Genomic:     7375
SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,34)   caucasian(A,4|C,36)   total(A,8|C,70)
SNP Type:                 INTRON

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:5263):
ACACATTTCAACACAGCCCAGGGATTTCGGACGGTCTTGGAATTAGTCATAAACTACCAGCAACTCTGCATCTACTGGACAAAGTATTATGACTTTAAAA
M
CCCCATTATTGAAAAGTACCTGAGAAGGCAGCTCACGAAACCCAGGTATGCTATCCCCACATGGCTTAGCTCCCCTATGTAAATGAACACCTGGATACAG
Celera SNP ID:            hCV27470696
SNP Position Genomic:     15746
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Gene Number:                 23
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:1684):
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:5264):
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:5265):
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:5266):
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:5267):
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:5268):
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:5269):
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:5270):
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:5271):
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:5272):
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:5273):
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:5274):
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:5275):
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:5276):
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:5277):
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:5278):
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:5279):
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:5280):
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:5281):
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:5282):
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:5283):
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:5284):
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:5285):
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:5286):
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:5287):
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:5288):
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:5289):
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:5290):
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:5291):
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:5292):
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:5293):
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:5294):
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:5295):
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:5296):
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:5297):
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:5298):
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:5299):
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:5300):
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:5301):
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:5302):
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:5303):
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:5304):
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:5305):
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:5306):
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:5307):
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:5308):
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:5309):
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:5310):
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:5311):
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:5312):
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:5313):
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:5314):
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:5315):
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:5316):
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:5317):
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:5318):
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:5319):
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:5320):
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:5321):
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:5322):
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:5323):
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:5324):
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:5325):
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:5326):
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:5327):
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:5328):
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:5329):
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:5330):
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:5331):
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:5332):
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:5333):
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:5334):
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:5335):
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:5336):
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:5337):
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:5338):
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:5339):
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:5340):
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:5341):
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:5342):
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:5343):
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:5344):
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:5345):
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:                 24
Celera Gene:                 hCG43696 - 104000116816209
Gene Symbol:                 RDBP
Protein Name:                RD RNA-binding protein;D6S45;NELF-E;RD;RDP
Celera Genomic Axis:         GA_x5YUV32W6W6(4977945..4996952)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1685):
AGGCTGGAGTGCAGCGGTGCTATCTTGGCTCACTGCAATCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAG
GCACCTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCTTGTGATCCAC
CCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCGGCCAATATAGTTATTTTGTCTAAATAGTGCCAGCGTGCATTCCAAACT
GGCTAGGCATCCCGTAYRGGATTCCCAGAACCCTACAACCTCCTATATCTCTGGCAACACTCGGCATGAACTAGTTTCCTAAATTTTACCAGTCTAATAG
CTGTAAAGTCGTATCTTGTGAGTACTTCAATTTGTATATTTCTGATTACTAATAACTTTTCGAATGCTTGCTAGCTTCCTGGGTTTCTTTTCTGAGACCT
ACGTATTCATATCTTATGCATCCCCATTTTAAGATGGGAAACCTAAAGTTCAGGAAGGTTAAATAATTGGTCCAGGATGATACTGTGAATACATGGTGTA
CCTGGGATTCAAACCCAGGTAGTCTGAATCCAGAGCCCAGATTCTTAACCACAGCACTGGCCTGCCTAAACCTCTGCCCCTCTGCCCTCTGGGCAGCCCC
TAAGTGGGCAACAAGCACCCTGAGGAGTCCCTTTCCACCACCACATGCACCTTGACCAGGCCACGGCTGAAGAGCATCTCCACGATCTCCTTGAGGATGG
GCAGGATGCCGCTATGGTGCACACCCAGGCCGCGATTCAGGAGCTCTGACATGTGCAGGACCTTTGGTGGGAGGAGGCCCATGGTCAGGGATGGAGTCTC
GGAACACCCTATCCCCACCAGTCTGCCAAATGTGTGCATGCACGCACACAGACGCACACAGACGCACCTGGGGCAGCTGGCGGTCAGAGCCACGGAGGCG
AGCAAGGCAGCGCTGCAGGAAGAGGTGGATCTCGCTCTTCTCCGAACTGGTGGTGAGGTCAAGGGAGGTGAGRCCTGAGGCCTGCTCATCACAGCGGCCC
CGGGAGAAGGTGAACACCACCACGGGCAACTGGGCACGTGTGCGGAGGGAGGCCAGGAGGGACAGGTACACTCCGCGGTCCTGGAGAAGGAAGGGGAAGG
GGAAGGAGCAGAGGTTGAGTTCCTGAACCAATGAGAGGTGAGCTAGTGTTAACTGGGGCAGTGCTCAAAGCTCAAGTCAAAACCCCTGGGGGACAAGGGG
AAAAAAAAGATAGGAGGAAAAACAGGTGCTGGCAGGTACAAAACCCTCCCAGTTCTCACCTGTGCAGGGCCCCCCTGATGTGTGGGCTGCTTGGCCCCAA
AGGTCTGGGCGTGTTTGCTCATTCTCTCCTTCTTGGCCTCCACAGCTGCATAGTACCTGGGGCACAGGGAGGGGTAGCCACAATGTCCAGCTGGGGGCCC
AGCCCTAACTCTTTCCCCCATCTCGAGGCTTACCCTTTTGTATGGAAGGCTCCTCGGGAGTCCAGCAACAAAAAGAGCTCCCCCTGGGTCTTGGAGCTGT
TCCCTGTGAAAAGATAGTGCTCCAGGGGCACGGGGCGGGTTACAGTGCTAATCACATAGATCTGACGACGCTTCAGCCGCCTGAAGAAAGGAGAGGGAAG
CAGGTCAGGGGTGGGAACGTGGGAAGGAACCCGCATCCCCACCCCCTTCCCTACCCCTCCAACTTTACCCAGTCTTTTCTGAGACCCAGAATGGAAGGCT
ATCCCCCAACATCTCATCCCATTTCAACATGCAAAGTAATCTGGACCCAAAGGGGATCCCACAGCCACCAGGTGGGACATGTTCCCCAGCATCACCCCTA
AGGCCTGACCGCTCTCCTTGCTGTGGTAGACTTAGTCCCCCACCCGAATCAAGGAGTACTGTAGCCCCCTTCACCCAGGCAACCCGGGACACACGTCTCA
CCCAATCCAGTCAGCAAACTCAAGGGCGTTGGGGACGGTGGCACTCAGAAGGATGATAGAAACGTGGTCAGGTAGCATGATAAGCACCTCCTCCCACACG
ACCCCACGCTGGGCACAGAGAGGGAAGGGAGGTCACATGAGGGCAGGGGCCGCCCTTCTGCCCATAAAGAGGCACAGGATTCCATATGGGGGTAAAGAAA
GCAGTAAGGGGCCCTGAGTGTGTGGAATAAGGGAGACGCTCAACTGGTCCCAAAGGAGAGGACTGCCGGGTTCTGGGGAGCCCATGGCCCTTACCTCGAC
ATCGTTGATATAGTGAACCTCATCAAAGATGACCCACTCCAGGTCCCGAATAACATCTGAGCCACTGTACAGCATGGAGCTGGGGAGAAGAGGCCAAGGA
TTGACTCCCCAGTGGCTCGTCTCCACCCACTCCTCAGACAGCACACTCTCCACAACGGCCACATCTTCCCAGCCAAAACTCCCCTGTATTGAGTGTCCAT
CTCTCACCGAAGGATCTCTGTGGTCATGATGAGGCAGGAGGCCTCCGGATGCAGCTGTACATCCCCGGTGAGCAGCCCCACATCCCCGAATGTGTTTCGG
AAGTCCCGGAACTTCTGGTTGCTCAGGGCCTTGATGGGCGAAGTGTAGATGGTGCTGGGAAGAGAGCATGAAGTTAGCCAGTCCCTCCGCAGACTCATGG
CCCGCACTTCCTCTCCCACATGGAGCCCTCGTGGAAGCATGCCCCAGAAGCTCAGGTGCTCCTCTTCTTCACCCAAACTGCCCTTACATTCTCCTGCATG
ATATAACCCCAGAAAAATTCTGTCCCCAACCCCTTCCTAAACTAACCCAGGTCATTCTTCTAAACTTTCTCCCCACCATGTCTTTTCATTTCTCTCTGGG
CTCTTGTCTCAGTCTTAGCCCTGAACCTCTCACTTAAAGGATGAGCTAGAGAGGTGGGGGAAGAGATGAGATTTTCAAAGGATGCAGGAGAAAATGGGGC
TGGCTGGTGAAGGGGGAGGTTGGCAAAGGAACTCATACCGTGTCATGTGTTTCTGGGCCAGGGCAATGGCATATTCAGCCACAACTGTTTTTCCTGCAGA
TGTGTGAGCTGCGACAAAGACAGAGTCATGCCGTTCCAAGTGCAGGATGGCCTGTTTCTGAAACACATCTGGCTCAAATGCCCACTATGGGAGAGAGAAA
TAGACAGGAGCTGAAGAAAGGAGCGGGGCCTTGCTGCCTCCTGCTCATGGAGCACGCAGGGCGGGCGGATGAAGGCCGGAGCCAGCCGAGGCTGGGACTG
AGTACCAAGACTGGCCTGGGATGGATCTGACCTCTGGCCAATAGAGGAGACAAGGGGTCGGCTGGGAGTGTGACCCAGAAAGAGGTAGAGGAGCGTGTGA
AGATGGGGCCAAAGTACCTGGAAGGCTGGCTGGGGAATGAGGCGATAGAAATCACCAACAGGGGAGGTGGCGTCCACAGGGATGGCCCACTGCTCCTGAG
ATGGAGGCTCTGGGGCCTCTGGGGTGGATACAGCTGTGGACGCTTCCTGGAAGAGTCAGGGGTAGCAGTGATAAAGATACAACCAGAGGGCTCTCAATTA
GCACTCCTCCCAAAAGATGTCCCTTTCTTCCCCTCAGACCCATCCTAGCCAGCCCACATCCTGGTGGCAAGGCTCTTTCTTGCCTCCACTACACAGAACC
ACCAACCTTCAACACTAGGTCTTCCAAGCTGCTTGCTCGGGCCAGGGGAGCACTGCAGGGAGAGGCTGAAACAGTGTCCCCTCTGGGACCTCCTGGCTGT
CCCACTGCCTCATTCTCATCCTCGTCACCCCCACCCAAATCCAGAGGCTCCAACAGACAGCTAAGGCTTAGTAGTCCAGGAGCTGGAGTTGGACAATCTG
AGGAGCAAGCCAACAAGGTCAACCTTGTCATGTCCATCTCTGTTCCTTAGGAGAAGGACATGACTTCTCCTACACCCCACTCAAAAACTAAAACTAACCT
TTTGGTGCAAAGTCCATGCCTTTCTTGAAACCAGGTGGAATAGTAAGAAGATCTGTAGGATAGGGACATGGAATCAGGTCACTGCACACTGGTGAACAAA
TTGTGTACATTATATAAACCTAAAAGATACCATTTACAGGACAGATGCTGTAGATAGGGATGTTTGCTATGACACTTTCCCAACAGATGACAGTAAAGGT
TGTTGTAGAAATTTCCCAGCAGATGACAGTAAAGGTTGTTATGGACAGAATATCTTTTTCTAATTTTCTCAAAAACATGGGAGGGCTAGCAGTAGCCCAG
TGATAGCCTGGGCTCTTCCTCCTCAAGGCTCAGACTCAGAGCCCCACCTTACCTTTCTCAAAGTCTATCTCCTCCTCAGCCTCCTCCCGTGTGTTCAGAT
CTGTTATGGTGGGTTCATCCATCCCCCCTGGGAAGAGACAGGACAGACAGGGATTCATGGGATGAGGGTAATACGAGATAGGTGGGGAACCCTTCCCTGG
AGATTAAAGACACCCTCTTCTACCATCCCATCTCCACAAGAGTCACCTGGCCAGAAGGGATACTGAGTTGGATTTCCCCATAAGGACTGGGAGGCTGGCC
CTGGAGGCCGGCGAAGAGACAAGGAGGTTGTAGCCGAGAGATTTGTGTTCTCCAGCAAGACCTAAGGCAAGAGATCAGAGCCCCAATGAGGCTGAGCTTG
TCTCTGACCACCTCCCCTTCTCCCCAACTGTTTCTCATGACCCCTGACCTCCTACCTCTTTGTAACCCAGTATCTGGCCTGTGGTTGGGTGTCTTTGGGC
CTGTAGGTCGGATGGGACTGGGGCTCCCAGGACAGCCAAAAGAGACCAGGGATCCGTCTTCCTCTGCCATTTTCTGGAGAGAAAAATAGTAACTTTTGGG
TCTTCTTTCTTCCTCTGTCCCAGCTTCCTTCAGGAACCCATCACCCTAGTCTAAGCCCCTCCAGACTCCTCACCGGGCTGAGTGCTCCACACCATGCAGA
GGCAGCCAGGCTGGGGATGACAGAAACAACTGTTCTGCTTCTTGCTGCAGATCTGGGGCACAAGGAGGGAGGCCATGGGGAAGCTGAAACAAGGGCAAGA
TGAGAGGCATTAGGTAAGGAAAGAGGATAAAATGCAGACAAAAGAGATGATGGGACTTGTGTTCAGATCAGAAATGGCAGATGTGTCAAACAGACTAGGA
CAATCAGGCTTGGCCAAAAACTACCTGCTACTGAATTACCTGGGGCAGATTTTGGATTTCAGAAACATGGAGGCTGGACCTAGGAATGTGCATTTTTAAA
AAGCTCCCTGGCTAATCATGAAGCACACTGAAATTGGAGACTCACTGATTTTAGAAAAAGGGGTCCCAGACCTAAGGATGAAAGGTTGGAGGCTCAAAGC
CTATCATCTCAGTCACCAAGTGCCCTGGTGCTTGGATACAGAAGGGAGCTCCACGGAGAAATGCCACATTTGAAAGAGCAGCTCTCAAAGCAAAAATATC
CCCAGCCCTTTCTGCTCTGTCCTCACACGTACTGCAGGTACACTGGGCTGTAATCTGTCCAGCACCCCTTCAGGCTGGGATGGACAGGAGTACAGGCACA
GATGAACAAGGTTAAGCTAGATCCTACTGTGAGGAGGGTGAAGGAGGTTTGGACTCAATGCGGGTCAAAGGTTAGGGTCAAAAGTCACTCACGCTACTCT
CTGGAGCTCCAGGCAAGTTCAGCAGCTCCCAGTGCCCCGTGCATCCGAGCTCCACGGCCCGAAGGGGTAGGTCCAGGGGATCTGGAGGGGGTAGCACTAC
GGGGAAAGGTCAAAAGTCAGGGGTCAAAGTTCATTCCATATCGGCTACTCCGTTCCATTTCCCTCCCCTCCCCCTCACCAAGTCGCTCTGTCTCCATCAT
CCTGGAGCCACAGCAGCTGCCTGGCAGCCCGGAAGTGCGGCAAGTAGTCGCTGCGAAGTAAGCCCCGCCCCGGAACGGGCGGAAGTAGAGGCAACTTCCG
GTACAGCCCYGCCGAGAGCGTGAACTATCGCTGCGGAGGGGCAGACCTGGACCGGTGGAAGGCCGGGCGGAAGTGCGCGCCTGGGGCCGCCTTGGTTACC
GCGTTTTCCGCTCCTCGCTACGTCATCGTTGTGAGCCCGCTATCAGCRGCCAGCGCGGGCGCGGCCGGAGACCGTGGGGMCCCCGGTTGCCGCCCCCTCG
GGTAAGGCCCTCTGCTTCTCACTCTTCGGCCCTTTTTCTCATAGCCGTTTCTCTGTTCTTCCTCTTTGCRTTGCTCTGCGGGCGCTACGCTGGCTCCACC
GCCTTCTCTGCCGTTCAAACCCCGCGGTTGTCCTTACCCTAGCGAGGGTAGGGGGGTCGGGTGCCATCGTCTTTCCGACGGAGTGGATATTTGTCCCTCC
TTGAACCACATGGTACCTAAAGGTGCTGGTGTCTGTGATCCCTGGAGACAGGAGGGAATGCTGGATGATCCCGACCAGCGGGAGCTTGGACAGCAGCCTG
GTTTAAGCAAGGGGTAGGGAAAGCCAAAGACAAGAGTAGGCAGACCTGAAGGGGTGGGGTTGGGTRCAGTGTGGACGGCGTGTGAACCCCGGGTGGTAAC
AGTGGAGAAAGATGTCTTGGGCCCTGCCCCTGAACTAGGAGCCACCATGTTGGTGATACCCCCCGGACTGAGCGAGGAAGAGGAGGCTCTGCAGAAGAAA
TTCAACAAGCTCAAGAAAAAGGTGAGGGACTGTGTGTGGACATGGCCTAACCTTTCACAGACTCTGCACTCTGAGAAGATATGGGGTGAGTGTGAGCGAA
TGGGGAAGTTTTTCTGGCCCATACCTAGAGACATATCACCTCACAGTGTAGCTTCGAGAGGTGGGCTTTCCCAAGCCTTGGTGTGGACCTTCTGTCTTTT
CTATGCAATTTGCCATGGATTGTCTTCCTTTCCCATGGCTTTTAGTACCGCTTAAGAGCTGATGATCCCCAAGTTTGTTTTTTCCAGTTCTATCCAGTGT
TATACTGAAAAACTTCAGATACTCAGTGTTGAAGCTATCATCTTTCTATTCTTGATCTTCCAAATAAGATTGACTACACCAATTCTGCCACATGTTTGGA
CTCAAAACTCTGACTTCCCCACTATTTGCATAGTCAAACCTTTGCCAAGTCTTATTGTTTCTTCTTTTGAAGKAATTTTTCCTGTTTATTCTTCACTGTG
CATTCCCCCGAGCAGGGCTTTATTGACATTCATGTGGGCCATTGTAATGGTCTCTCAACAAATTTCTCAGTCTTTTTTTTTGAACAGACTTCTTCACTCC
TGTTCAAATGATCCATTGAAAACACAAAATTCTGCTCCCTCTGTTTCTCAAAAACCATAAATGGCTTCACATTGTCTATAAAAAAGCCTCAAAACCTTAG
TTTGGCAGCCTTGTCTAGTAAAGTAGAACTATTCACTACTTCCAAAAGATGCATTCCCAAAGCCTTCTTATCTCTGCATCTTTGCCACCCTGTTTTCTTT
TTCTAAAATACCCTTCTCCTCTCTGTGTTGTGCAGAGATACGGGAGAGGGCCTAGTTTAATAGCCATTAAACATCAGAAAATCTTACTAGCTTTCAGCTA
TGAATAATCTGCACCTCTTATAATTGTATTGCTAACTCAATGTATTTTATTTCTCAGACTGTAAGCTTCTTGAGGGTAGGAACAATGCATTAGCCTCCTG
GATATCCCTGTTACGAAGTCATGGCTGGGCCTCATTCAATATGCAGGAAATAGATGGATGAAGCTTCCAGGAAAGGCACATAAACTTATACTTACTTGCA
GCTTATATCCTAGGATTCTAGTCCATGATTGAGTTATTTGTCTTCAACTTCAAAAATGTAACACTCTGGAAAACCTCTGGGTTCCGTGGTTTGGTTAGAT
TAGGAATTTCCAGCATCATACATGATCTAGGGGACCAGAGGCAAGAGGCAGAGCACATCAGTGTACCACTCTGAGGGCATCAAGAAAGAYGGTCCCTGGA
GTGATGTGCCCAGGGGCCTTAGGAGAGGAACCGGCTAGGGGCTGGCCCTCACTTACCTCTCTCTTCTCACCCTTGTTCCCAGAAAAAGGCATTGCTGGCT
CTGAAGAAGCAAAGTAGCAGCAGCACAACCAGCCAAGGTGGTGTCAAACGCTGTGAGTGACAGGGGAAATGGGGATGGACTGGAAGTGGGCAGCATGGAG
CTGACCTTCATCATGGCTTGGCCAACATAATGCCTCTTCCCCTTGTCTCTCCAGCACTATCAGAGCAGCCTGTCATGGACACAGCCACAGCAACAGAGCA
GGCAAAGCAGCTGGTGAAGTCAGGAGCCATCAGTGCCATCAAGGCTGAGACCAAGAACTCAGGCTTCAAGCGTTCTCGAACCCTTGAGGGGAAGTTAAAG
GTGAGCACAAGCAGAAAGATTGTTTAAAGGGCATCCCTCCAAGTTGGAATGTAGATGGGTTTGGGGAAAAATATGCATACTCAAGCACTGGCAAATTGCT
GTACCATTCTGAGTTTCACCTCTCATGTATAAAATGAAAAAAYTAGACGACTCCTGAATTCTCCATTTTACAAATTCTGTGGTTCTAATCCACCTTGGAT
TGGAGCTCTTGGAATATGTTGCCCTAAGGGATGGAAAGGGCTGAAAATGTTATCAGGTTCAAGAGAGGTTCAAATAAACTGAATACATAATATATCGAGT
CACTTATAAAAAATACCAGCTGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAGATCACTTGAGATTAGGAGTTTAAG
ACCAACCTGGCCAACATGGTAAAACCCCGTCTCTACTAAAAATACAAAAATCAGCAGGGTGTGAGGCCGGGCRCGGTGGCTCACACCTGTAATCCCAGCA
CTTTGGGAGGCCGAGGCAGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACAAGGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGC
CGGGCGTGGTGGCGGGCGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCGGAGCTTGCAGTGAGTCGAGATTG
TGCCACTGCACTCCAGCCTGGGTGACAGCGAGACTCCGTCTCAAAAAAAAAAAAAATTAGCAGAATGTGGTGGTGCACACTTATAGTCCCAGTTACTGAG
GAGGCTGAGGCCAGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGTGGAGATCACACCACTGCACTCCAGCCTGGACGACAGAGCAAGATTCT
GTCTCAAAAACAAAACAAAACAAGCCACAATGGCAGGTGCGGCAATGGCTCATTCCTGGTTAATTTCAGCACTTTAGGAGGCCGAGGTAGGAGGATTGCT
TGAGCCCAGGAGTTTGAGACCAGCCCTGGCAACATAGTGAAACCCTATCTCTACAAAAAAAAAAAAAAATACAGAAATTAGCCAAGCATGGTAGAGCACA
TCTCTAGTCCCAGCTACTAGGGAGGCTGAGGTAGGAGGATTGCTTGAGCATGGGAGGTCAAGGCTGCAGCAAGCTACGATTGCTCTATTGCACTCCAGCC
TGGACAACAGAGCAGGACCGTGTCTCAAAAAAAAAAAAAAAAAATAAGTAAAACCACGTCAAATAAGAAATGTATGTAGAATTAAAAGGGAAGAAAAGAT
CAGAGGAAACCTAGAAGAGGGTGAGGGAAGAGGAACACCTCTGGTCCATGGTTGGGCAACCTCCTGCTCCACACTGAGGTAGGTCTYTCACCACTCCAGG
ACCCCGAGAAGGGACCAGTCCCCACTTTCCAGCCGTTCCAGAGGAGCATATCTGCTGATGATGACCTGCAAGAGGTAAAGGCTCCTAATTTCTGTCCCTG
AGGGGTTGGGGATGGAGGAATATGAGAGACAAATATATTTTGGACCACATGTCAGCAACTGGAAATCATCTTAACTGTTCTTGGTCTCTTTTACAGTCAT
CCAGACGTCCCCAGAGGAAATCTCTGTATGAGAGGTTAGAGAGTAGAGATAAGGCTGGGCCCATTTGGTGGAGTTGATTGCCTGAGTCCTTGGGAGGTTT
GGGCTGTAGGAGCTGGGCTATAGAGGGAATATTGAGTCTCCACAGGGTCTGAGGGGAGAAGGTAAAACCCCCCTTTGATCTTCAGTCTGCATCTCCCCAG
CTTTGTGTCTTCTAGTGATCGACTTCGAGAACTAGGACCAGATGGAGAAGAGGCAGAGGGCCCAGGGGCTGGTGATGGTCCCCCTCGAAGCTTTGACTGG
GGCTATGAAGAACGCAGTGGTGCCCACTCCTCAGCCTCCCCTCCCCGAAGCCGCAGCCGGGACCGCAGCCATGAGAGGAACCGGGACAGAGACCGAGATC
GGGAGCGGGATCGAGACCGGGATCGAGACAGAGACAGAGAGCGGGACAGGGATCGGGATCGRGATCGAGATCGAGACCGGGAACGGGACAGGGATCGGGA
GCGGGATCGAGACCGAGACCGAGAGGGTCCTTTCCGCAGTGAGTGATTTTGGCTGGAGGTCAAGGTGACCTTAACTGAGGTTTATGTGGGTCCTACTAAG
TGAAATGTGGCATGGKCTATGTCTTGTGACTATGATTTGTGCTCCCAAAGGGTCGGATTCATTCCCTGAACGGCGAGCCCCTAGGAAAGGGAATACTCTC
TATGTATATGKAGAAGACATGACACCCACCCTTCTCCGTGGGGCCTTCTCTCCTTTTGGAAACATCATTGACCTCTCCATGGACCCACCCAGAAAGTAAG
GATGACAACAGGGCATGATGAGAAGTCCTGGGAGAATCCTGGGGTGTGAGACCTGAGGGAAGAAGCTGCCCTCCCTGCAGCCGCCTATTATCACTGGGTT
TGGTTGGGTCCAGAAGAGCCCCTTGGCTCTCCACTGACCGTGTTTTCTCTTATCCCAGCTGTGCCTTCGTCACCTATGAAAAGATGGAGTCAGCAGATCA
GGCCGTTGCTGAGGTTGGAACTTCCCAAATCTGTTCTTCCCATCGCTTCTGCTGTTCTCATGTGTTCTCCTCAAAATACTAGATGCCAGGAAGAAGTTGG
TTCCTCTTGATAAAGAAAGCCTCTCCCTATTCACACAGAAAAACTCACATTCTCAGATTCCTTATTCAGTCTCCTCCTAGGATAGCAACTCCTGGAATAA
CTTCTTTGGTTTATCTGTAATGTTTTCCTCCCCATCCTCTGCCTCCCCTCTTCTGCTTCAGCTCAACGGGACCCAGGTGGAGTCTGTACAGCTCAAAGTC
AACATAGCCCGAAAACAGCCCATGCTGGATGCCGCTACTGGCAAGTCTGTCTGGGGCTCCCTCGGTAAGAATGGGATTCTTCCYTTCCCATCCTYTCCCC
CACAGGCCATTCCTTTTGGTTCCCCCACACATCCTTGGGTTTCCTAGAGATGATCGAGGTCAGAGTGTGTGCGGAGGCTATGGGAATGGGAAGGAAAATT
TCAGATCCTCTGTCAGTTAGAGGTAAAGAAAGGAGAGAAAAGGATTGAAAACAGCTTCCAAAGCAGTGACTGGAACAGGGAAGAAAGTGGGAGCTGGAGT
GAGATTGGTGAGGAAGATGAGTGTCTCATGGGGCTTGTTCATTTTGAGATGGAGTAGAGTGAGTTTCATAAGTATTCGAAATCAGGGATCTGGAACTCAG
GTGTGAGGTAAGGAAGGAAAACATAGATTAAGTCATCCACATCACAGGGTGGCTGCCAAACAATAGGATCATCAGGGAGACTCTGATTTCAGAGAAAAAA
AAACGACCCAGGACTCAGTTTGAGGAGTACTCTGGGACTATGTTAGGAAACAGGACTGTTCACCTCACACCCCACATGTCCCCAGCTGTCCTGACATGTT
AGGCTAACGTTGAGCCTAACGTTAGCAAAGGAGACAGGAGGAGGGGTCGGAGGGCTGGGAGCAGCACCGCAGGGGCCTGGGCCACTGAAGCAAAAGGACA
CACACTTTGAGAAAGAGGGAGTAGCCAGCAGTGTTGAGGCACAGAGATCACAGGATGGGAGTGGGTGAGAGAGATTCTCTGTAGCTCAAGGGTGGTGGGG
ATGGAACCATTGGATGGGGTGAAGAGAGTAACATGTCTGGTGGAGGGAGGAAAGAGGAAGGGGAAGAAACAGCTAGAGGCTTRAGAGAGAATGGTGAGGG
CCAAAGCTACACCCTGAATGAGTTCTGGTGGAGCTAGTAGCATTTCTTAGTGTGAATAATCCATTTTCCCTGAAAGTAGATTTTCCTGGGAAAGGAGTGA
GCAGAAAGAAGGGCTCAGCTACAGTGGCCCTTCAGGCAAAAGAAAGGAACTAGAATTGACCAGCATGTCAAAAAAGGGCTACAGAGGTTTTCTAGTTTTT
AGCTTCTGACATACTGACTGTAAGTAGTGGGTTAATATCATTCACGTGTCTCAACAATGACATTTGGGATTTTTCTAAGAACAAAACATTCATCAAAATG
TCCACTTATACTTTTCTTGGCCATGGGTTGGCACAAAGGAGCTAAGGAAGACAGGCCATCCTGGCCACCAGAGGGCAGCGTGGAAACTGGGCTTCCAGGG
GCCAGTGGCCAGGAGTGAGGTGGTCAGGAGTCAGCCTCAGGGTCTGTTCTRTGATCTCCTTTAGACCTTAACTGTTCCTCTCCTCCCTCCCTAGCTGTCC
AGAACAGCCCTAAGGGTTGCCACCGGGACAAGAGGACCCAGATTGTCTACAGTGATGACGTCTACAAGGAAAACCTTGTGGATGGCTTCTAGGGAACAGA
GCTGGATTCCTTGTGCCTCATATGCCCCAATGCTGGTCTCAGTAAAACACTGAGGTGGAAGCTTACACATCTCCCTCAGCCTCTGGTTTTTCASCACTTG
GGATTGGGGTTAARCCTTTAAAAACRGCTGTCAGGTTTGATCTCAGTGTAACRACATGGCCAGTGCCTGTTCCCCACTCCCTTGCCCCAAAAGGATCTGG
AACACAGGTGTTGTCGCAGCTGTTTTAATTCAATCCCACGCCCCTGTCCAGCAGGAAACCCCTTATAGAAAACCCAAATCCTCATCTTGGAGTTTCTCCT
TCAGCCAGGGCAGCACTTGAAAGAGGTTGATGTGAAAGTCTCGGGCGTGAGCRGGTACCTGCTTTTGCCGCTTCTGGTTTTTGCAGACATCCACTACTCC
CCAGCTGATTACACCAACCTGCAGAGGCAGTGGGGTGCCATGGATCATTCAGTAGAATTCCTAATCCTGGAAGCATGGCTGTTCCTGCTTGCGTCTTAGC
TGACCTAAAGGAATCAGACTAGGGACCCAGCTCAGCCTCGTTCTTGACACACGCAGGCAAGACATGCGGTCCTAAGGTGAGGCAGGCTCTGCCTACCTCG
AATTACTAGCCACATGCATTGAGCTTTCCTGCTTTGGGGCCCATGCTGACCACTTGGCATCTCCCCAGATAGGAAAGGGAGGACTCACTTGAATGAAACG
ACTTCTCTTGTGAACTATCAAGGGGCCGCCAGAATCACCTGCAAGGAGAGSAGAAGCTGTAGAGAAAAGGACTGTTGGGCCTTGGGCACTTGTAGCACRA
CCAAAGAGCATTCTCTCACCTCTGCAAGTATTGGGGTCAGCATAGGGACTCACTCCTCCAGTACAAAGGAACCGAGGGGTGACCACCTCTGAGATGTCCT
TGACTTTGTCATAGCCTGGGGCATATTGAGCATCTCTCTCACAGCTGCCTTTCTGTAGGGGAGGTGGGAAGCATGGAGAAGTAATGAACAGAAGTGGCTT
AGGAAGGATTGGGGCCTAGAGTGCCTCCTTAGGATGCCCGTTTCTCACCTTATCCCCATTCTTGATGTAGACCTCCTTCCGAGTCAGCTTTTTCTCCTCC
TCAGACACAAACAGAGCTTTGATATCCTGTGCAGGGAGCAGCTCTTCCTCTGGACGAATAGACTGCGTCACTTCAGCTGCTCCCACCACTGTCATCTCCC
CATTGCCTTTGTCACTCAGTAGATGTCCCCTAAGCCCTTCTAGAGCTAGGTTCTGGGCCAGGCATCATCTCTTCCTATTGCACCTCCCTCTCATGCCCCA
CTTGTCTCTTGGGATCTCATCCTTATCCTCTTGCCAAGTATGTCTTACTTTGTTGCTGGCAAGTGGTAGTTGGAGGAAGCCTCAAAGCTCGAGTTGTTCC
CTCGGTGCAGGGGAGACAAATGGGCCTATAAAGGACAAGGAGAACAGCAAACCAGGCCTGCTCCTCACCCCAGTCCTCCAGCCTTTCCCAGCCTTTCCTC
AGGGATCTGGACGCTCTCACCTGATAGTCTGGCCATATTTCAGCTTATTCTTGAGCTTGATCAGGGCAACGTCATAGTCATAAAATTCAGGAATTCCTGC
TKCTTYTTTCCCATTAATGTTGTAGTTRGGGTGAAATAGGACTACTTCTATCTCCAGGTCCCGCTTCTCCCCTCCTGAAGTAGGAGAGTAGGTACCACCT
CTTTGTGGGCAGCTTCCTGCCTCTGGCCCCGTGTCATTCCTAACTTCACGTCTTCCCCCATCCCTGACTGGTCTGGGGTGCAAGGAATGGGGCTGCATTG
AGGATGGGTGGAGTGTAGGATCTGTAGAAAGTGGGAGGTGTTGCCTGGAGAGCATAGGTGCAGCCCAGGACCTTCAGTTGCATCCTTACCTACGCTGACC
TTGATTGAGTGTTCCTTGTCATCCACAGTGAAACAATGTGCTGCTGTCAGCACAAAGTACTCAGACACCACAGCCCCCATACAGCTCTCGTGTCCCTTTG
AAGGGCGCTGGGGACACAACAGTAGAGAGGGAAAGCTCAACTTTCACAAACCACCATCTCTTATGGCCATTTTTTCCTTCCCCTACTCCCATTTCACCTT
GACCTCACCTCCCCCAAGTCCCCACTACTGGGATTCTGTGCTTACAATGACTGAGATCTTGGCCTGCCATGGTTGCTTGTGGTAATCGGTACCCTTCCTG
TGTTCCCAAACCATGCCACAGAGACTCAGAGACTGGCTTTCATCTGGCAGAGAAGGAGAATGTGCTGAAAACTCGGAACACTTCATTCCCAAATGGCAGC
AGCCTTTTGGGTAGGAGTCTATGGGGAGCAAAGGCCCAAAAGGAGAAAGGGAAAGACCACGGGTATTTGTTTCCTCGTGTTAGGAGAAAACTGCTATGGT
GGACTGAAAAGGGAAAGAACTTGGGATCAAGCTGTCAGAGGCCTGGCTGTTTTCAAGCCCACCCTTGTTGCTAACTTGCTGTCCCTTGACCTCCTTTGGC
TTCTGTTTCCACGTGTCAAATGTAGGACTATAGAAAGATCTCTGAAGTGCTCAGAGCTCTGTGATTCTAAGGTTAAGTGAACAGTGCCAGGAAACAAGAA
TAGTGACACTGAGGTAGAGAAGGAGGAATGAAGAAGGCTTTCCAGGCAACTAGAGCTTCAGGTGTAGAGGAAGAATGAATTACTTCAGGGGAACCTGAGG
AGAGTTGTGTTCTTTATTCCCTTGTATCKCCCTACCGATCATTTGGTAGAAAACATCTTCCAGGTTTTCCATATCCTTRACTTTGAACACATGTTGCTCA
TTGTCTTTCTTGGAAGCCAAAGCATTGATGTTCACTTGGTTCACCAAAGGCCCGACCCCAAACACATAGACATCTGAGGGATAAAAAGGAAGGATGAGGG
TCCAAGCCCTGAGGAAGTGGGGTGCTGGGTCCTAGGCAGGTTACTCACCCAGATAATCCTCCCTTGGGTTTTTGCGATCCTTGCCAATGTATAGCAAGTC
CCGGATCTCATCAATGACAGTAATTGGGTCCCCGCCCATGTTGTGCAATCCTGCAGAAGAGACAGGACCATGAGGGTAGGAGATAAGGAAGATAAACTGG
CTAAAGGCAGGGATACACATGGCAGGGTGAGCAAGTTGAGGAAGGGTTAGAGATAGTTGATCACAGGGCTTAGGAAGAATTCCTTATGAAGGGTCACAGG
AGAGATGAACAGCCAGCTATGAGTCACATTCAGGGCCCCAACCATGGGTATAGTGTTACAAGTGGACTTAAGGGCCACATGCTGGTCTGAGAAGGTGGGG
AGGCTGGGACAGGAGAGAGGTCCCTTCTGACCATCAGTCATGAGGATGATGACATGGCGGGTGCGGTTCCAGCCTTCAGGAGGGACGTCATCTGGCCAGC
TCATMATGCTGTACACTGCCTGGAGGGCCTTCTTGGTGTTAGTCCCTGACTTCAACTTGTGGTCTGTGGAGAGGGAAGAGACCATCACCTCACCTGGTCT
TCCAAGCCATCTTTTAACCCCAGAGACCAATCTGCAACTGAAATCCCACATCTTTCAACTTTTTAAGTTAATCATCATTACACGGACTTCCCTTTGACCA
CAAAGTGGCCCTTCCAGCCCCCAACAGGTTCCCACTAACCTCCATTGCCCAACGATCCTGCTGTTCAACCTTTGACTACAAAGTGGTCCTCCCTGTCGCC
CTCAAGGTAGTCTCATGACCCCCTCCACCCTGAACCTCCTGACCCCAAAGTGAACCTCCCACCATTCCCTAACCTCTGACCTTCATAATTGATTTCATTG
AGCTGCTTCGTGACCCAGTCTGCATTACTGCTGTCTGCTTCAGACACTTTGACCCAAATTTTGGGGTATGTGGCATATGTCACTAGACCATATCTTGGCT
TCACACCATAACTTGCCACCTGTGGGTGAGGAGAACAAGGCGCCATGGCATTGAAAATAGAATACTGTGATTGGGAGATTTCAGCGACTTTGCTGGGACA
GGGAGGCTCTCAGTAAGAGGCTCAAGGGCTGAGGTTCATGGAGGAATTACCAGTCAAGAAACTGCTTCAAGTAAAAGGGAAGGAGGACAGAATAGGACCT
GGAGATTTTCCTGGGGCCCTGTTGTTCAGAGGGGCTGGAATGATCAGGGAGCTAGTCCTGGAAGATCAGCGAGATTCCATTCCCCCGAGTTCAGGGATAG
GAGGATTCCACCTTCTCAATTAAGTTGACTAGACACTTTTTGGCTCCTGTGAAGTTGCTGGCCCCAATGCTGTCTGATCCATCTAGCACCAGGTAGATGT
TCATGGAGCCTGAAGGGTCCAGGACGATCTTCCGCTTCTGTTGTTCCCCTGGGTGCCAGGAGAGTGGCTCAGGCTCCAGCATTAACAGTTCTGTCCCTTC
TCCATTTTCCCCCAGTTCCCTGCCCTGCCTCCCTTCTCTGTCTTCAAACCTGGGCYGTGCCCATCCTCAGCATCGACTCCTTCTATGGTCTCTGTCAGGG
AAGACAGGAAAGCTTCGGCCACCTCTTGAGGGGTGTCRTACATGAAGGAGTCTGGGAGAGTCAGAAATGAGGTCAAATGTCTGGGAGTGTCAGGGATACA
GTGACCAAAGAGACGGGGGATCATGGGTTTCCAGGGTATAAAAGGCTCAGAAGTGAGATAGTTGTACAGGGAGGTTTAAACAAAGTGAGGAAAGAGCAGG
GTTGAGGTGGGGAGAGAAGACAGTAGGATGGAAGACCAGGATCTGACCTGGGGGTACAGGTCAAAGGTCACCTTGGCAGGAAGGCTCCGTCCCGCTCCAA
GAGCCACCTTCCTGACACGTTCGCCGCTGGGAGCCACGCAGGGTAAGCCCCCGGCTGCAGTGGTAGGTGACGCTGTCTTCAAGGCGGTACTGGCTGCCCA
CCTTCCTTGTGCCAATGGGGATGCCCGGGTTGGAGCAGTACCCCGCTGCAGAGGTATGAGACATCGAGGTAAGCACTGAAGCCTGAGGCCCCGTGAGCAA
GGTAGAGAGCAAGAGTTACAGTGTCCGGAGCCGAGTGCCCACTCCTCGGGCTGGGCGCCGTCAGGGAGACAGCAATGTAGGGGGAGGGGATGCTTCTCAC
CTCCGTTGTCACAGATCGCTGTCTGCCCACTCCACCGGCCATTCACTTGGCAGGTGCGATTGGCAGAGCCCCGGAGAGTGTAACCGTCATAGCAGTGGAA
AGAGATCTCATCACTCACATTGTAGTAGGGAGACCGGGGCCAGTATTCCCCGTTCTCGAAGTCGTGTGGTCTTGGACAGTGGATTGCTTTGAGAAGGGGG
GACAAGTAGAAGTCATCAAGAGGGAAAGGCTGCCTTAGGTGTATCCCTCCTGGTCTCGGAGACCATGTCACTGAGAAACAGCGCATTCCCAGTCCCGCAG
AAGCAGCATCTTACCTACTCCTCAACCCATATGGATTTCCACTGCTTCTCCCTCCCCATTTCTGAGTGTTCTCTTGACTTCCAGGGCTGCCTGGAAGCCC
AGGGTAAATGCTTAGTAAGGGTTAACTCCGCTTTTTCTTGCCCCCTTTCCGCCTGCCACCCTAAAACTGCTCCTACTCCCGGTCAGCCCACCTTGTCACC
CTGCCTAGTCTCATCCTAGTCCTGACCTTGCTGCCGCCTGCCCTGTTTCTGCCTTAGGCCACTGCCCACACTCATTGCCCTCAAACCTCTGCACTCTGCC
TTCCTGACAGTCTTTTGGTCTTGAGTCTTCAGGGTGCTCCAGGACCCCGTAGATCTGCAGGTACGTGTCTGCACAGGGTACGGGTAGAAGCCAGAAGGAC
ACACGTACTCCAGTGCCTGGCCCTCTTGGAGAAGTCGGAAGGAGCCGCCTTTGATCTCTACCCCCTCCAGAGAGCAGGATCCCTGGGGCCAGGCCAAAGA
CCATGGAGTGGTGGTCACACCTGAAGAGAAAGGCTGATGAAGCCTGGCCCCAAAAGGCCAAGGAGGGATGCTGGAGACAGCAGGAAGGGAAGGTTACCCT
CGCTTACCTCCAGACAAGAGGCCCAAGATAAAGGGCATCAGGCAGAGTTGGGGGCTGAGATTGCTCCCCATGGCGTTGGAAGGCAGGAGAGAAGCTGGGC
CTGGGGCAGGATGGTGTGTCCTGGCTTGCTTTGCTTGTCTGCTTGGCTCAGTGTCCAAGCTGAAACTCCAGACCTAGACCTGGTCACATTCCCTTCCCCT
GCTCCCC


SNP Information

Context             (SEQ ID NO:5346):
CACTTGGCATCTCCCCAGATAGGAAAGGGAGGACTCACTTGAATGAAACGACTTCTCTTGTGAACTATCAAGGGGCCGCCAGAATCACCTGCAAGGAGAG
S
AGAAGCTGTAGAGAAAAGGACTGTTGGGCCTTGGGCACTTGTAGCACAACCAAAGAGCATTCTCTCACCTCTGCAAGTATTGGGGTCAGCATAGGGACTC
Celera SNP ID:            hCV25630792
SNP Position Genomic:     13551
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(G,40)   total(C,1|G,77)
SNP Type:                 INTRON;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,31)   caucasian(G,32)   total(C,1|G,63)   
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:5347):
AGGTGGAAGCTTACACATCTCCCTCAGCCTCTGGTTTTTCAGCACTTGGGATTGGGGTTAAACCTTTAAAAACGGCTGTCAGGTTTGATCTCAGTGTAAC
R
ACATGGCCAGTGCCTGTTCCCCACTCCCTTGCCCCAAAAGGATCTGGAACACAGGTGTTGTCGCAGCTGTTTTAATTCAATCCCACGCCCCTGTCCAGCA
Celera SNP ID:            hCV940294
SNP Position Genomic:     12953
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,7)   caucasian(A,39|G,1)   total(A,70|G,8)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)   PGA-AFRIGAN-PANEL(G,12|A,34)   PGA-EUR(EAN-PANEL(G,4|A,30)   total(G,16|A,64)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:5348):
TCTGGCCATATTTCAGCTTATTCTTGAGCTTGATCAGGGCAACGTCATAGTCATAAAATTCAGGAATTCCTGCTTCTTTTTTCCCATTAATGTTGTAGTT
R
GGGTGAAATAGGACTACTTCTATCTCCAGGTCCCGCTTCTCCCCTCCTGAAGTAGGAGAGTAGGTACCACCTCTTTGTGGGCAGCTTCCTGCCTCTGGCC
Celera SNP ID:            hCV7515124
SNP Position Genomic:     14428
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 UTR 3;SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:5349):
CTGTCTTCAAACCTGGGCCGTGCCCATCCTCAGCATCGACTCCTTCTATGGTCTCTGTCAGGGAAGACAGGAAAGCTTCGGCCACCTCTTGAGGGGTGTC
R
TACATGAAGGAGTCTGGGAGAGTCAGAAATGAGGTCAAATGTCTGGGAGTGTCAGGGATACAGTGACCAAAGAGACGGGGGATCATGGGTTTCCAGGGTA
Celera SNP ID:            hCV25630793
SNP Position Genomic:     17338
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(G,20)   total(A,1|G,49)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:5350):
CCTGGGGCCGCCTTGGTTACCGCGTTTTCCGCTCCTCGCTACGTCATCGTTGTGAGCCCGCTATCAGCGGCCAGCGCGGGCGCGGCCGGAGACCGTGGGG
M
CCCCGGTTGCCGCCCCCTCGGGTAAGGCCCTCTGCTTCTCACTCTTCGGCCCTTTTTCTCATAGCCGTTTCTCTGTTCTTCCTCTTTGCGTTGCTCTGCG
Celera SNP ID:            hCV27835651
SNP Position Genomic:     6180
SNP Source:               Applera
Population(Allele,Count): african american(C,34)   caucasian(A,1|C,31)   total(A,1|C,65)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(A,1|C,39)   total(A,1|C,71)
SNP Type:                 UTR 5


Context             (SEQ ID NO:5351):
TGCCTCATATGCCCCAATGCTGGTCTCAGTAAAACACTGAGGTGGAAGCTTACACATCTCCCTCAGCCTCTGGTTTTTCAGCACTTGGGATTGGGGTTAA
R
CCTTTAAAAACGGCTGTCAGGTTTGATCTCAGTGTAACAACATGGCCAGTGCCTGTTCCCCACTCCCTTGCCCCAAAAGGATCTGGAACACAGGTGTTGT
Celera SNP ID:            hCV940295
SNP Position Genomic:     12914
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,6)   caucasian(A,39|G,1)   total(A,71|G,7)
SNP Type:                 UTR 3;hmCS

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRIGAN-PANEL(G,12|A,34)   PGA-EUR(EAN-PANEL(G,4|A,36)   total(G,16|A,70)   no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:5352):
CCAGGAGAGTGGCTCAGGCTCCAGCATTAACAGTTCTGTCCCTTCTCCATTTTCCCCCAGTTCCCTGCCCTGCCTCCCTTCTCTGTCTTCAAACCTGGGC
Y
GTGCCCATCCTCAGCATCGACTCCTTCTATGGTCTCTGTCAGGGAAGACAGGAAAGCTTCGGCCACCTCTTGAGGGGTGTCGTACATGAAGGAGTCTGGG
Celera SNP ID:            hCV25630794
SNP Position Genomic:     17256
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,33|T,3)   total(C,69|T,3)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:5353):
CATGGGCTATGTCTTGTGACTATGATTTGTGCTCCCAAAGGGTCGGATTCATTCCCTGAACGGCGAGCCCCTAGGAAAGGGAATACTCTCTATGTATATG
K
AGAAGACATGACACCCACCCTTCTCCGTGGGGCCTTCTCTCCTTTTGGAAACATCATTGACCTCTCCATGGACCCACCCAGAAAGTAAGGATGACAACAG
Celera SNP ID:            hCV7515142
SNP Position Genomic:     10711
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    ;no_pop(T,-|G,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:5354):
ACAGGCCATCCTGGCCACCAGAGGGCAGCGTGGAAACTGGGCTTCCAGGGGCCAGTGGCCAGGAGTGAGGTGGTCAGGAGTCAGCCTCAGGGTCTGTTCT
R
TGATCTCCTTTAGACCTTAACTGTTCCTCTCCTCCCTCCCTAGCTGTCCAGAACAGCCCTAAGGGTTGCCACCGGGACAAGAGGACCCAGATTGTCTACA
Celera SNP ID:            hCV940296
SNP Position Genomic:     12651
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,16)      total(G,3|A,16) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5355):
GACCGTGGGGCCCCCGGTTGCCGCCCCCTCGGGTAAGGCCCTCTGCTTCTCACTCTTCGGCCCTTTTTCTCATAGCCGTTTCTCTGTTCTTCCTCTTTGC
R
TTGCTCTGCGGGCGCTACGCTGGCTCCACCGCCTTCTCTGCCGTTCAAACCCCGCGGTTGTCCTTACCCTAGCGAGGGTAGGGGGGTCGGGTGCCATCGT
Celera SNP ID:            hCV27857036
SNP Position Genomic:     6270
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,3|G,37)   total(A,3|G,75)
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:5356):
TGGACCGGTGGAAGGCCGGGCGGAAGTGCGCGCCTGGGGCCGCCTTGGTTACCGCGTTTTCCGCTCCTCGCTACGTCATCGTTGTGAGCCCGCTATCAGC
R
GCCAGCGCGGGCGCGGCCGGAGACCGTGGGGCCCCCGGTTGCCGCCCCCTCGGGTAAGGCCCTCTGCTTCTCACTCTTCGGCCCTTTTTCTCATAGCCGT
Celera SNP ID:            hCV27833678
SNP Position Genomic:     6148
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(G,32)   total(A,1|G,65)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,19)   caucasian(G,32)   total(A,1|G,51)
SNP Type:                 UTR 5


Context             (SEQ ID NO:5357):
AGCTCAAGGGTGGTGGGGATGGAACCATTGGATGGGGTGAAGAGAGTAACATGTCTGGTGGAGGGAGGAAAGAGGAAGGGGAAGAAACAGCTAGAGGCTT
R
AGAGAGAATGGTGAGGGCCAAAGCTACACCCTGAATGAGTTCTGGTGGAGCTAGTAGCATTTCTTAGTGTGAATAATCCATTTTCCCTGAAAGTAGATTT
Celera SNP ID:            hCV940297
SNP Position Genomic:     12183
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   (A,-|G,-)   SG_12_G(A,0|G,13)   total(G,13)   PGA-AFRIGAN-PANEL(A,14|G,34)   PGA-EUR(EAN-PANEL(A,5|G,41)   total(G,75|A,19)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5358):
AGACCGAGAGGGTCCTTTCCGCAGTGAGTGATTTTGGCTGGAGGTCAAGGTGACCTTAACTGAGGTTTATGTGGGTCCTACTAAGTGAAATGTGGCATGG
K
CTATGTCTTGTGACTATGATTTGTGCTCCCAAAGGGTCGGATTCATTCCCTGAACGGCGAGCCCCTAGGAAAGGGAATACTCTCTATGTATATGGAGAAG
Celera SNP ID:            hCV940298
SNP Position Genomic:     10616
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,5)   caucasian(G,25|T,15)   total(G,54|T,20)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   PGT-TFRIGTN-PTNEL(T,7|G,41)   PGT-EUR(ETN-PTNEL(T,11|G,33)   total(T,18|G,74)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5359):
TTTGGTTAGATTAGGAATTTCCAGCATCATACATGATCTAGGGGACCAGAGGCAAGAGGCAGAGCACATCAGTGTACCACTCTGAGGGCATCAAGAAAGA
Y
GGTCCCTGGAGTGATGTGCCCAGGGGCCTTAGGAGAGGAACCGGCTAGGGGCTGGCCCTCACTTACCTCTCTCTTCTCACCCTTGTTCCCAGAAAAAGGC
Celera SNP ID:            hCV940299
SNP Position Genomic:     7990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   SC_12_C(A,1|G,22)   SC_12_AA(A,9|G,12)   SC_95_C(A,11|G,178)   total(G,212|A,21)   (G,-|A,-)   JBIC-allele(A,120|G,1355)   total(G,1355|A,120)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5360):
TTGAGCATGGGAGGTCAAGGCTGCAGCAAGCTACGATTGCTCTATTGCACTCCAGCCTGGACAACAGAGCAGGACCGTGTCTCAAAAAAAAAAAAAAAAA
A
TAAGTAAAACCACGTCAAATAAGAAATGTATGTAGAATTAAAAGGGAAGAAAAGATCAGAGGAAACCTAGAAGAGGGTGAGGGAAGAGGAACACCTCTGG
Celera SNP ID:            hCV27301663
SNP Position Genomic:     9644
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5361):
CTTGAGCATGGGAGGTCAAGGCTGCAGCAAGCTACGATTGCTCTATTGCACTCCAGCCTGGACAACAGAGCAGGACCGTGTCTCAAAAAAAAAAAAAAAA
A
ATAAGTAAAACCACGTCAAATAAGAAATGTATGTAGAATTAAAAGGGAAGAAAAGATCAGAGGAAACCTAGAAGAGGGTGAGGGAAGAGGAACACCTCTG
Celera SNP ID:            hCV27301664
SNP Position Genomic:     9643
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5362):
GCTTGAGCATGGGAGGTCAAGGCTGCAGCAAGCTACGATTGCTCTATTGCACTCCAGCCTGGACAACAGAGCAGGACCGTGTCTCAAAAAAAAAAAAAAA
A
AATAAGTAAAACCACGTCAAATAAGAAATGTATGTAGAATTAAAAGGGAAGAAAAGATCAGAGGAAACCTAGAAGAGGGTGAGGGAAGAGGAACACCTCT
Celera SNP ID:            hCV27301665
SNP Position Genomic:     9642
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,10)   total(A,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5363):
TGCTTGAGCATGGGAGGTCAAGGCTGCAGCAAGCTACGATTGCTCTATTGCACTCCAGCCTGGACAACAGAGCAGGACCGTGTCTCAAAAAAAAAAAAAA
A
AAATAAGTAAAACCACGTCAAATAAGAAATGTATGTAGAATTAAAAGGGAAGAAAAGATCAGAGGAAACCTAGAAGAGGGTGAGGGAAGAGGAACACCTC
Celera SNP ID:            hCV27301666
SNP Position Genomic:     9641
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,11)   total(A,11|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5364):
AGGGAAGAAAAGATCAGAGGAAACCTAGAAGAGGGTGAGGGAAGAGGAACACCTCTGGTCCATGGTTGGGCAACCTCCTGCTCCACACTGAGGTAGGTCT
Y
TCACCACTCCAGGACCCCGAGAAGGGACCAGTCCCCACTTTCCAGCCGTTCCAGAGGAGCATATCTGCTGATGATGACCTGCAAGAGGTAAAGGCTCCTA
Celera SNP ID:            hCV25967571
SNP Position Genomic:     9787
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:5365):
ATTACTTCAGGGGAACCTGAGGAGAGTTGTGTTCTTTATTCCCTTGTATCTCCCTACCGATCATTTGGTAGAAAACATCTTCCAGGTTTTCCATATCCTT
R
ACTTTGAACACATGTTGCTCATTGTCTTTCTTGGAAGCCAAAGCATTGATGTTCACTTGGTTCACCAAAGGCCCGACCCCAAACACATAGACATCTGAGG
Celera SNP ID:            hCV15861919
SNP Position Genomic:     15579
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,119|G,1378)   total(G,1378|A,119)   no_pop(G,-|A,-)   PGA-AFRIGAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:5366):
TGAAGAAGGCTTTCCAGGCAACTAGAGCTTCAGGTGTAGAGGAAGAATGAATTACTTCAGGGGAACCTGAGGAGAGTTGTGTTCTTTATTCCCTTGTATC
K
CCCTACCGATCATTTGGTAGAAAACATCTTCCAGGTTTTCCATATCCTTGACTTTGAACACATGTTGCTCATTGTCTTTCTTGGAAGCCAAAGCATTGAT
Celera SNP ID:            hCV29415916
SNP Position Genomic:     15529
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:5367):
AGGAAACCCCTTATAGAAAACCCAAATCCTCATCTTGGAGTTTCTCCTTCAGCCAGGGCAGCACTTGAAAGAGGTTGATGTGAAAGTCTCGGGCGTGAGC
R
GGTACCTGCTTTTGCCGCTTCTGGTTTTTGCAGACATCCACTACTCCCCAGCTGATTACACCAACCTGCAGAGGCAGTGGGGTGCCATGGATCATTCAGT
Celera SNP ID:            hCV27508695
SNP Position Genomic:     13153
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3;SILENT MUTATION;hmCS


Context             (SEQ ID NO:5368):
TGATCCCGACCAGCGGGAGCTTGGACAGCAGCCTGGTTTAAGCAAGGGGTAGGGAAAGCCAAAGACAAGAGTAGGCAGACCTGAAGGGGTGGGGTTGGGT
R
CAGTGTGGACGGCGTGTGAACCCCGGGTGGTAACAGTGGAGAAAGATGTCTTGGGCCCTGCCCCTGAACTAGGAGCCACCATGTTGGTGATACCCCCCGG
Celera SNP ID:            hCV29415957
SNP Position Genomic:     6566
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5369):
TTCCCTTCCTGCTGTCTCCAGCATCCCTCCTTGGCCTTTTGGGGCCAGGCTTCATCAGCCTTTCTCTTCAGGTGTGACCACCACTCCATGGTCTTTGGCC
Y
GGCCCCAGGGATCCTGCTCTCTGGAGGGGGTAGAGATCAAAGGCGGCTCCTTCCGACTTCTCCAAGAGGGCCAGGCACTGGAGTACGTGTGTCCTTCTGG
Celera SNP ID:            hCV3125451
SNP Position Genomic:     317
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;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,35|T,1)   total(C,64|T,6)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS

SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:5370):
CCCAATGCTGGTCTCAGTAAAACACTGAGGTGGAAGCTTACACATCTCCCTCAGCCTCTGGTTTTTCAGCACTTGGGATTGGGGTTAAACCTTTAAAAAC
R
GCTGTCAGGTTTGATCTCAGTGTAACAACATGGCCAGTGCCTGTTCCCCACTCCCTTGCCCCAAAAGGATCTGGAACACAGGTGTTGTCGCAGCTGTTTT
Celera SNP ID:            hCV25965074
SNP Position Genomic:     12926
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,40)   total(A,1|G,77)
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:5371):
TGGGACAGGAGAGAGGTCCCTTCTGACCATCAGTCATGAGGATGATGACATGGCGGGTGCGGTTCCAGCCTTCAGGAGGGACGTCATCTGGCCAGCTCAT
M
ATGCTGTACACTGCCTGGAGGGCCTTCTTGGTGTTAGTCCCTGACTTCAACTTGTGGTCTGTGGAGAGGGAAGAGACCATCACCTCACCTGGTCTTCCAA
Celera SNP ID:            hCV7515114
SNP Position Genomic:     16205
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:5372):
GGTCTCCCTACTACAATGTGAGTGATGAGATCTCTTTCCACTGCTATGACGGTTACACTCTCCGGGGCTCTGCCAATCGCACCTGCCAAGTGAATGGCCG
R
TGGAGTGGGCAGACAGCGATCTGTGACAACGGAGGTGAGAAGCATCCCCTCCCCCTACATTGCTGTCTCCCTGACGGCGCCCAGCCCGAGGAGTGGGCAC
Celera SNP ID:            hCV3125453
SNP Position Genomic:     1073
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,9)      total(G,9|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:5373):
ACAGCAGCTGCCTGGCAGCCCGGAAGTGCGGCAAGTAGTCGCTGCGAAGTAAGCCCCGCCCCGGAACGGGCGGAAGTAGAGGCAACTTCCGGTACAGCCC
Y
GCCGAGAGCGTGAACTATCGCTGCGGAGGGGCAGACCTGGACCGGTGGAAGGCCGGGCGGAAGTGCGCGCCTGGGGCCGCCTTGGTTACCGCGTTTTCCG
Celera SNP ID:            hCV27849200
SNP Position Genomic:     6010
SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,1)   caucasian(C,26)   total(C,57|T,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:5374):
GAACAGAGCTGGATTCCTTGTGCCTCATATGCCCCAATGCTGGTCTCAGTAAAACACTGAGGTGGAAGCTTACACATCTCCCTCAGCCTCTGGTTTTTCA
S
CACTTGGGATTGGGGTTAAACCTTTAAAAACGGCTGTCAGGTTTGATCTCAGTGTAACAACATGGCCAGTGCCTGTTCCCCACTCCCTTGCCCCAAAAGG
Celera SNP ID:            hCV7515132
SNP Position Genomic:     12894
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 UTR 3;TFBS;hmCS


Context             (SEQ ID NO:5375):
CTGTACAGCTCAAAGTCAACATAGCCCGAAAACAGCCCATGCTGGATGCCGCTACTGGCAAGTCTGTCTGGGGCTCCCTCGGTAAGAATGGGATTCTTCC
Y
TTCCCATCCTCTCCCCCACAGGCCATTCCTTTTGGTTCCCCCACACATCCTTGGGTTTCCTAGAGATGATCGAGGTCAGAGTGTGTGCGGAGGCTATGGG
Celera SNP ID:            hCV25966415
SNP Position Genomic:     11384
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,1|T,39)   total(C,1|T,75)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:5376):
GTTGGAATGTAGATGGGTTTGGGGAAAAATATGCATACTCAAGCACTGGCAAATTGCTGTACCATTCTGAGTTTCACCTCTCATGTATAAAATGAAAAAA
Y
TAGACGACTCCTGAATTCTCCATTTTACAAATTCTGTGGTTCTAATCCACCTTGGATTGGAGCTCTTGGAATATGTTGCCCTAAGGGATGGAAAGGGCTG
Celera SNP ID:            hCV3125457
SNP Position Genomic:     8543
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5377):
GGGATCTGGACGCTCTCACCTGATAGTCTGGCCATATTTCAGCTTATTCTTGAGCTTGATCAGGGCAACGTCATAGTCATAAAATTCAGGAATTCCTGCT
K
CTTTTTTCCCATTAATGTTGTAGTTGGGGTGAAATAGGACTACTTCTATCTCCAGGTCCCGCTTCTCCCCTCCTGAAGTAGGAGAGTAGGTACCACCTCT
Celera SNP ID:            hCV25630789
SNP Position Genomic:     14402
SNP Source:               Applera
Population(Allele,Count): african american(T,38)   caucasian(G,1|T,37)   total(G,1|T,75)
SNP Type:                 UTR 3;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:5378):
TCCCTTCCTGCTGTCTCCAGCATCCCTCCTTGGCCTTTTGGGGCCAGGCTTCATCAGCCTTTCTCTTCAGGTGTGACCACCACTCCATGGTCTTTGGCCT
R
GCCCCAGGGATCCTGCTCTCTGGAGGGGGTAGAGATCAAAGGCGGCTCCTTCCGACTTCTCCAAGAGGGCCAGGCACTGGAGTACGTGTGTCCTTCTGGC
Celera SNP ID:            hCV940289
SNP Position Genomic:     318
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,1|G,39)   total(A,8|G,70)
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   PGA-AFRIGAN-PANEL(A,13|G,35)   PGA-EUR(EAN-PANEL(A,3|G,25)   total(G,60|A,16)    
SNP Type:                 NONSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:5379):
TTGAACCCAGGAGGCAGAGGTTGCAGTGAGTGGAGATCACACCACTGCACTCCAGCCTGGACGACAGAGCAAGATTCTGTCTCAAAAACAAAACAAAACA
A
GCCACAATGGCAGGTGCGGCAATGGCTCATTCCTGGTTAATTTCAGCACTTTAGGAGGCCGAGGTAGGAGGATTGCTTGAGCCCAGGAGTTTGAGACCAG
Celera SNP ID:            hCV27301671
SNP Position Genomic:     9323
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,13)   total(A,13|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5380):
CTTGAACCCAGGAGGCAGAGGTTGCAGTGAGTGGAGATCACACCACTGCACTCCAGCCTGGACGACAGAGCAAGATTCTGTCTCAAAAACAAAACAAAAC
A
AGCCACAATGGCAGGTGCGGCAATGGCTCATTCCTGGTTAATTTCAGCACTTTAGGAGGCCGAGGTAGGAGGATTGCTTGAGCCCAGGAGTTTGAGACCA
Celera SNP ID:            hCV27301672
SNP Position Genomic:     9322
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,13)   total(A,13|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5381):
ACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGTGGAGATCACACCACTGCACTCCAGCCTGGACGACAGAGCAAGATTCTGTCTCAAAAACAAAACAAAA
C
AAGCCACAATGGCAGGTGCGGCAATGGCTCATTCCTGGTTAATTTCAGCACTTTAGGAGGCCGAGGTAGGAGGATTGCTTGAGCCCAGGAGTTTGAGACC
Celera SNP ID:            hCV27301673
SNP Position Genomic:     9321
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,13)   total(C,13|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5382):
CACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGTGGAGATCACACCACTGCACTCCAGCCTGGACGACAGAGCAAGATTCTGTCTCAAAAACAAAACAAA
A
CAAGCCACAATGGCAGGTGCGGCAATGGCTCATTCCTGGTTAATTTCAGCACTTTAGGAGGCCGAGGTAGGAGGATTGCTTGAGCCCAGGAGTTTGAGAC
Celera SNP ID:            hCV27301674
SNP Position Genomic:     9320
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,13)   total(A,13|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5383):
TCACTTGAACCCAGGAGGCAGAGGTTGCAGTGAGTGGAGATCACACCACTGCACTCCAGCCTGGACGACAGAGCAAGATTCTGTCTCAAAAACAAAACAA
A
ACAAGCCACAATGGCAGGTGCGGCAATGGCTCATTCCTGGTTAATTTCAGCACTTTAGGAGGCCGAGGTAGGAGGATTGCTTGAGCCCAGGAGTTTGAGA
Celera SNP ID:            hCV27301675
SNP Position Genomic:     9319
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,13)   total(A,13|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5384):
AAAGTCAACATAGCCCGAAAACAGCCCATGCTGGATGCCGCTACTGGCAAGTCTGTCTGGGGCTCCCTCGGTAAGAATGGGATTCTTCCTTTCCCATCCT
Y
TCCCCCACAGGCCATTCCTTTTGGTTCCCCCACACATCCTTGGGTTTCCTAGAGATGATCGAGGTCAGAGTGTGTGCGGAGGCTATGGGAATGGGAAGGA
Celera SNP ID:            hCV15861920
SNP Position Genomic:     11395
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,9)   caucasian(C,26|T,14)   total(C,53|T,23)
SNP Type:                 INTRON

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;(T,-|C,-)   PCT-TFRICTN-PTNEL(T,2|C,46)   PCT-EUR(ETN-PTNEL(T,15|C,23)   total(C,69|T,17)JBIC-allele(T,630|C,870)   total(C,870|T,630)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5385):
GCAGATCACTTGAGATTAGGAGTTTAAGACCAACCTGGCCAACATGGTAAAACCCCGTCTCTACTAAAAATACAAAAATCAGCAGGGTGTGAGGCCGGGC
R
CGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACAAGGTGAAACCCC
Celera SNP ID:            hCV27301677
SNP Position Genomic:     8873
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5386):
ACCGCAGCCATGAGAGGAACCGGGACAGAGACCGAGATCGGGAGCGGGATCGAGACCGGGATCGAGACAGAGACAGAGAGCGGGACAGGGATCGGGATCG
R
GATCGAGATCGAGACCGGGAACGGGACAGGGATCGGGAGCGGGATCGAGACCGAGACCGAGAGGGTCCTTTCCGCAGTGAGTGATTTTGGCTGGAGGTCA
Celera SNP ID:            hCV25971800
SNP Position Genomic:     10462
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(A,1|G,27)   total(A,2|G,56)
SNP Type:                 SILENT MUTATION;INTRON


Context             (SEQ ID NO:5387):
ACTACACCAATTCTGCCACATGTTTGGACTCAAAACTCTGACTTCCCCACTATTTGCATAGTCAAACCTTTGCCAAGTCTTATTGTTTCTTCTTTTGAAG
K
AATTTTTCCTGTTTATTCTTCACTGTGCATTCCCCCGAGCAGGGCTTTATTGACATTCATGTGGGCCATTGTAATGGTCTCTCAACAAATTTCTCAGTCT
Celera SNP ID:            hCV2989391
SNP Position Genomic:     7173
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5388):
TCTGGACGCTCTCACCTGATAGTCTGGCCATATTTCAGCTTATTCTTGAGCTTGATCAGGGCAACGTCATAGTCATAAAATTCAGGAATTCCTGCTTCTT
Y
TTTCCCATTAATGTTGTAGTTGGGGTGAAATAGGACTACTTCTATCTCCAGGTCCCGCTTCTCCCCTCCTGAAGTAGGAGAGTAGGTACCACCTCTTTGT
Celera SNP ID:            hCV25630790
SNP Position Genomic:     14406
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,36)   caucasian(T,38)   total(C,2|T,74)
SNP Type:                 UTR 3;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:5389):
CGACTTCTCTTGTGAACTATCAAGGGGCCGCCAGAATCACCTGCAAGGAGAGGAGAAGCTGTAGAGAAAAGGACTGTTGGGCCTTGGGCACTTGTAGCAC
R
ACCAAAGAGCATTCTCTCACCTCTGCAAGTATTGGGGTCAGCATAGGGACTCACTCCTCCAGTACAAAGGAACCGAGGGGTGACCACCTCTGAGATGTCC
Celera SNP ID:            hCV25630791
SNP Position Genomic:     13599
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,1)   caucasian(A,14)   total(A,39|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


Gene Number:                 25
Celera Gene:                 hCG43698 - 104000116755979
Gene Symbol:                 SKIV2L
Protein Name:                superkiller viralicidic activity 2-like (S. cerevisiae);DDX13;HLP;SKI2;SKI2W;SKIV2
Celera Genomic Axis:         GA_x5YUV32W6W6(4984664..5007912)
Chromosome:                  Chr6
OMIM number:                 600478
OMIM Information:            SUPERKILLER VIRALICIDIC ACTIVITY 2, S. CEREVISIAE, HOMOLOG-LIKE;SKIV2L


Genomic Sequence (SEQ ID NO:1686):
CAGGAAAATCTACTTTCAGGGAAAATGGATTATTCACACTAAGAAATGCTACTAGCTCCACCAGAACTCATTCAGGGTGTAGCTTTGGCCCTCACCATTC
TCTCTCAAGCCTCTAGCTGTTTCTTCCCCTTCCTCTTTCCTCCCTCCACCAGACATGTTACTCTCTTCACCCCATCCAATGGTTCCATCCCCACCACCCT
TGAGCTACAGAGAATCTCTCTCACCCACTCCCATCCTGTGATCTCTGTGCCTCAACACTGCTGGCTACTCCCTCTTTCTCAAAGTGTGTGTCCTTTTGCT
TCAGTGGCCCAGGCCCCTGCGGTGCTGCTCCCAGCCCTCCGACCCCTCCTCCTGTCTCCTTTGCTAACGTTAGGCTCAACGTTAGCCTAACATGTCAGGA
CAGCTGGGGACATGTGGGGTGTGAGGTGAACAGTCCTGTTTCCTAACATAGTCCCAGAGTACTCCTCAAACTGAGTCCTGGGTCGTTTTTTTTTCTCTGA
AATCAGAGTCTCCCTGATGATCCTATTGTTTGGCAGCCACCCTGTGATGTGGATGACTTAATCTATGTTTTCCTTCCTTACCTCACACCTGAGTTCCAGA
TCCCTGATTTCGAATACTTATGAAACTCACTCTACTCCATCTCAAAATGAACAAGCCCCATGAGACACTCATCTTCCTCACCAATCTCACTCCAGCTCCC
ACTTTCTTCCCTGTTCCAGTCACTGCTTTGGAAGCTGTTTTCAATCCTTTTCTCTCCTTTCTTTACCTCTAACTGACAGAGGATCTGAAATTTTCCTTCC
CATTCCCATAGCCTCCGCACACACTCTGACCTCGATCATCTCTAGGAAACCCAAGGATGTGTGGGGGAACCAAAAGGAATGGCCTGTGGGGGAGAGGATG
GGAARGGAAGAATCCCATTCTTACCGAGGGAGCCCCAGACAGACTTGCCAGTAGCGGCATCCAGCATGGGCTGTTTTCGGGCTATGTTGACTTTGAGCTG
TACAGACTCCACCTGGGTCCCGTTGAGCTGAAGCAGAAGAGGGGAGGCAGAGGATGGGGAGGAAAACATTACAGATAAACCAAAGAAGTTATTCCAGGAG
TTGCTATCCTAGGAGGAGACTGAATAAGGAATCTGAGAATGTGAGTTTTTCTGTGTGAATAGGGAGAGGCTTTCTTTATCAAGAGGAACCAACTTCTTCC
TGGCATCTAGTATTTTGAGGAGAACACATGAGAACAGCAGAAGCGATGGGAAGAACAGATTTGGGAAGTTCCAACCTCAGCAACGGCCTGATCTGCTGAC
TCCATCTTTTCATAGGTGACGAAGGCACAGCTGGGATAAGAGAAAACACGGTCAGTGGAGAGCCAAGGGGCTCTTCTGGACCCAACCAAACCCAGTGATA
ATAGGCGGCTGCAGGGAGGGCAGCTTCTTCCCTCAGGTCTCACACCCCAGGATTCTCCCAGGACTTCTCATCATGCCCTGTTGTCATCCTTACTTTCTGG
GTGGGTCCATGGAGAGGTCAATGATGTTTCCAAAAGGAGAGAAGGCCCCACGGAGAAGGGTGGGTGTCATGTCTTCTMCATATACATAGAGAGTATTCCC
TTTCCTAGGGGCTCGCCGTTCAGGGAATGAATCCGACCCTTTGGGAGCACAAATCATAGTCACAAGACATAGCCCATGCCACATTTCACTTAGTAGGACC
CACATAAACCTCAGTTAAGGTCACCTTGACCTCCAGCCAAAATCACTCACTGCGGAAAGGACCCTCTCGGTCTCGGTCTCGATCCCGCTCCCGATCCCTG
TCCCGTTCCCGGTCTCGATCTCGATCCCGATCCCGATCCCTGTCCCGCTCTCTGTCTCTGTCTCGATCCCGGTCTCGATCCCGCTCCCGATCTCGGTCTC
TGTCCCGGTTCCTCTCATGGCTGCGGTCCCGGCTGCGGCTTCGGGGAGGGGAGGCTGAGGAGTGGGCACCACTGCGTTCTTCATAGCCCCAGTCAAAGCT
TCGAGGGGGACCATCACCAGCCCCTGGGCCCTCTGCCTCTTCTCCATCTGGTCCTAGTTCTCGAAGTCGATCACTAGAAGACACAAAGCTGGGGAGATGC
AGACTGAAGATCAAAGGGGGGTTTTACCTTCTCCCCTCAGACCCTGTGGAGACTCAATATTCCCTCTATAGCCCAGCTCCTACAGCCCAAACCTCCCAAG
GACTCAGGCAATCAACTCCACCAAATGGGCCCAGCCTTATCTCTACTCTCTAACCTCTCATACAGAGATTTCCTCTGGGGACGTCTGGATGACTGTAAAA
GAGACCAAGAACAGTTAAGATGATTTCCAGTTGCTGACATGTGGTCCAAAATATATTTGTCTCTCATATTCCTCCATCCCCAACCCCTCAGGGACAGAAA
TTAGGAGCCTTTACCTCTTGCAGGTCATCATCAGCAGATATGCTCCTCTGGAACGGCTGGAAAGTGGGGACTGGTCCCTTCTCGGGGTCCTGGAGTGGTG
AGAGACCTACCTCAGTGTGGAGCAGGAGGTTGCCCAACCATGGACCAGAGGTGTTCCTCTTCCCTCACCCTCTTCTAGGTTTCCTCTGATCTTTTCTTCC
CTTTTAATTCTACATACATTTCTTATTTGACGTGGTTTTACTTATTTTTTTTTTTTTTTTTTGAGACACGGTCCTGCTCTGTTGTCCAGGCTGGAGTGCA
ATAGAGCAATCGTAGCTTGCTGCAGCCTTGACCTCCCATGCTCAAGCAATCCTCCTACCTCAGCCTCCCTAGTAGCTGGGACTAGAGATGTGCTCTACCA
TGCTTGGCTAATTTCTGTATTTTTTTTTTTTTTTGTAGAGATAGGGTTTCACTATGTTGCCAGGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCTCCT
ACCTCGGCCTCCTAAAGTGCTGAAATTAACCAGGAATGAGCCATTGCCGCACCTGCCATTGTGGCTTGTTTTGTTTTGTTTTTGAGACAGAATCTTGCTC
TGTCGTCCAGGCTGGAGTGCAGTGGTGTGATCTCCACTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCTGGCCTCAGCCTCCTCAGTAACTGG
GACTATAAGTGTGCACCACCACATTCTGCTAATTTTTTTTTTTTTTGAGACGGAGTCTCGCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCGACTC
ACTGCAAGCTCCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTGT
ATTTTTAGTAGAGATGGGGTTTCACCTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTAC
AGGTGTGAGCCACCGCGCCCGGCCTCACACCCTGCTGATTTTTGTATTTTTAGTAGAGACGGGGTTTTACCATGTTGGCCAGGTTGGTCTTAAACTCCTA
ATCTCAAGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCAGCTGGTATTTTTTATAAGTGACTCGATATATT
ATGTATTCAGTTTATTTGAACCTCTCTTGAACCTGATAACATTTTCAGCCCTTTCCATCCCTTAGGGCAACATATTCCAAGAGCTCCAATCCAAGGTGGA
TTAGAACCACAGAATTTGTAAAATGGAGAATTCAGGAGTCGTCTAGTTTTTTCATTTTATACATGAGAGGTGAAACTCAGAATGGTACAGCAATTTGCCA
GTGCTTGAGTATGCATATTTTTCCCCAAACCCATCTACATTCCAACTTGGAGGGATGCCCTTTAAACAATCTTTCTGCTTGTGCTCACCTTTAACTTCCC
CTCAAGGGTTCGAGAACGCTTGAAGCCTGAGTTCTTGGTCTCAGCCTTGATGGCACTGATGGCTCCTGACTTCACCAGCTGCTTTGCCTGCTCTGTTGCT
GTGGCTGTGTCCATGACAGGCTGCTCTGATAGTGCTGGAGAGACAAGGGGAAGAGGCATTATGTTGGCCAAGCCATGATGAAGGTCAGCTCCATGCTGCC
CACTTCCAGTCCATCCCCATTTCCCCTGTCACTCACAGCGTTTGACACCACCTTGGCTGGTTGTGCTGCTGCTACTTTGCTTCTTCAGAGCCAGCAATGC
CTTTTTCTGGGAACAAGGGTGAGAAGAGAGAGGTAAGTGAGGGCCAGCCCCTAGCCGGTTCCTCTCCTAAGGCCCCTGGGCACATCACTCCAGGGACCRT
CTTTCTTGATGCCCTCAGAGTGGTACACTGATGTGCTCTGCCTCTTGCCTCTGGTCCCCTAGATCATGTATGATGCTGGAAATTCCTAATCTAACCAAAC
CACGGAACCCAGAGGTTTTCCAGAGTGTTACATTTTTGAAGTTGAAGACAAATAACTCAATCATGGACTAGAATCCTAGGATATAAGCTGCAAGTAAGTA
TAAGTTTATGTGCCTTTCCTGGAAGCTTCATCCATCTATTTCCTGCATATTGAATGAGGCCCAGCCATGACTTCGTAACAGGGATATCCAGGAGGCTAAT
GCATTGTTCCTACCCTCAAGAAGCTTACAGTCTGAGAAATAAAATACATTGAGTTAGCAATACAATTATAAGAGGTGCAGATTATTCATAGCTGAAAGCT
AGTAAGATTTTCTGATGTTTAATGGCTATTAAACTAGGCCCTCTCCCGTATCTCTGCACAACACAGAGAGGAGAAGGGTATTTTAGAAAAAGAAAACAGG
GTGGCAAAGATGCAGAGATAAGAAGGCTTTGGGAATGCATCTTTTGGAAGTAGTGAATAGTTCTACTTTACTAGACAAGGCTGCCAAACTAAGGTTTTGA
GGCTTTTTTATAGACAATGTGAAGCCATTTATGGTTTTTGAGAAACAGAGGGAGCAGAATTTTGTGTTTTCAATGGATCATTTGAACAGGAGTGAAGAAG
TCTGTTCAAAAAAAAAGACTGAGAAATTTGTTGAGAGACCATTACAATGGCCCACATGAATGTCAATAAAGCCCTGCTCGGGGGAATGCACAGTGAAGAA
TAAACAGGAAAAATTACTTCAAAAGAAGAAACAATAAGACTTGGCAAAGGTTTGACTATGCAAATAGTGGGGAAGTCAGAGTTTTGAGTCCAAACATGTG
GCAGAATTGGTGTAGTCAATCTTATTTGGAAGATCAAGAATAGAAAGATGATAGCTTCAACACTGAGTATCTGAAGTTTTTCAGTATAACACTGGATAGA
ACTGGAAAAAACAAACTTGGGGATCATCAGCTCTTAAGCGGTACTAAAAGCCATGGGAAAGGAAGACAATCCATGGCAAATTGCATAGAAAAGACAGAAG
GTCCACACCAAGGCTTGGGAAAGCCCACCTCTCGAAGCTACACTGTGAGGTGATATGTCTCTAGGTATGGGCCAGAAAAACTTCCCCATTCGCTCACACT
CACCCCATATCTTCTCAGAGTGCAGAGTCTGTGAAAGGTTAGGCCATGTCCACACACAGTCCCTCACCTTTTTCTTGAGCTTGTTGAATTTCTTCTGCAG
AGCCTCCTCTTCCTCGCTCAGTCCGGGGGGTATCACCAACATGGTGGCTCCTAGTTCAGGGGCAGGGCCCAAGACATCTTTCTCCACTGTTACCACCCGG
GGTTCACACGCCGTCCACACTGYACCCAACCCCACCCCTTCAGGTCTGCCTACTCTTGTCTTTGGCTTTCCCTACCCCTTGCTTAAACCAGGCTGCTGTC
CAAGCTCCCGCTGGTCGGGATCATCCAGCATTCCCTCCTGTCTCCAGGGATCACAGACACCAGCACCTTTAGGTACCATGTGGTTCAAGGAGGGACAAAT
ATCCACTCCGTCGGAAAGACGATGGCACCCGACCCCCCTACCCTCGCTAGGGTAAGGACAACCGCGGGGTTTGAACGGCAGAGAAGGCGGTGGAGCCAGC
GTAGCGCCCGCAGAGCAAYGCAAAGAGGAAGAACAGAGAAACGGCTATGAGAAAAAGGGCCGAAGAGTGAGAAGCAGAGGGCCTTACCCGAGGGGGCGGC
AACCGGGGKCCCCACGGTCTCCGGCCGCGCCCGCGCTGGCYGCTGATAGCGGGCTCACAACGATGACGTAGCGAGGAGCGGAAAACGCGGTAACCAAGGC
GGCCCCAGGCGCGCACTTCCGCCCGGCCTTCCACCGGTCCAGGTCTGCCCCTCCGCAGCGATAGTTCACGCTCTCGGCRGGGCTGTACCGGAAGTTSCCT
CTACTTCCGCCCGTTCCGGGGCGGGGCTTACTTCGCAGCGACTACTTGCCGCACTTCCGGGCTGCCAGGCAGCTGCTGTGGCTCCAGGATGATGGAGACA
GAGCGACTTGGTGAGGGGGAGGGGAGGGAAATGGAACGGAGTAGCCGATATGGAATGAACTTTGACCCCTGACTTTTGACCTTTCCCCGTAGTGCTACCC
CCTCCAGATCCCCTGGACCTACCCCTTCGGGCCGTGGAGCTCGGATGCACGGGGCACTGGGAGCTGCTGAACTTGCCTGGAGCTCCAGAGAGTAGCGTGA
GTGACTTTTGACCCTAACCTTTGACCCGCATTGAGTCCAAACCTCCTTCACCCTCCTCACAGTAGGATCTAGCTTAACCTTGTTCATCTGTGCCTGTACT
CCTGTCCATCCCAGCCTGAAGGGGTGCTGGACAGATTACAGCCCAGTGTACCTGCAGTACRTGTGAGGACAGAGCAGAAAGGGCTGGGGATATTTTTGCT
TTGAGAGCTGCTCTTTCAAATGTGGCATTTCTCCGTGGAGCTCCCTTCTGTATCCAAGCACCAGGGCACTTGGTGACTGAGATGATAGGCTTTGAGCCTC
CAACCTTTCATCCTTAGGTCTGGGACCCCTTTTTCTAAAATCAGTGAGTCTCCAATTTCAGTGTGCTTCATGATTAGCCAGGGAGCTTTTTAAAAATGCA
CATTCCTAGGTCCAGCCTCCATGTTTCTGAAATCCAAAATCTGCCCCAGGTAATTCAGTAGCAGGTAGTTTTTGGCCAAGCCTGATTGTCCTAGTCTGTT
TGACACATCTGCCATTTCTGATCTGAACACAAGTCCCATCATCTCTTTTGTCTGCATTTTATCCTCTTTCCTTACCTAATGCCTCTCATCTTGCCCTTGT
TTCAGCTTCCCCATGGCCTCCCTCCTTGTGCCCCAGATCTGCAGCAAGAAGCAGAACRGTTGTTTCTGTCATCCCCAGCCTGGCTGCCTCTGCATGGTGT
GGAGCACTCAGCCCGGTGAGGAGTCTGGAGGGGCTTAGACTAGGGTGATGGGTTCCTGAAGGAAGCTGGGACAGAGGAAGAAAGAAGACCCAAAAGTTAC
TATTTTTCTCTCCAGAAAATGGCAGAGGAAGACGGATCCCTGGTCTCTTTTGGCTGTCCTGGGAGCCCCAGTCCCATCCGACCTACAGGCCCAAAGACAC
CCAACCACAGGCCAGATACTGGGTTACAAAGAGGTAGGAGGTCAGGGGTCATGAGAAMMAGTTGGGKAGAAGGGGAGGTGGTCAGAGACAAGCTCAGCCT
CATTGGGGCTCTGATCTCTTGCCTTAGGTCTTGCTGGAGAACACAAATCTCTCGGCYACAACCTCCTTGTCTCTTCGCCGGCCTCCAGGGCCAGCCTCCC
AGTCCTTATGGGGAAATCCAACTCRGTATCCCTTCTGGCCAGGTGACTCTTGTGGAGATGGGATGGTMGAAGAGGGTGTCTTTAATCTCCAGGGAAGGGT
TCCCCACCTATCTCGTATTACCCKCATCCCATGAATCCCTGTCTGTCCTGTCTCTTCCCAGGGGGGATGGATGAACCCACCATAACAGATCTGAACACAC
GGGAGGAGGCTGAGGAGGAGATAGACTTTGAGAAAGGTAAGGTGGGGCTCTGAGTCTGAGCCTTGAGGAGGAAGAGCCCAGGCTATCACTGGGCTACTGC
TAGCCCTCCCATGTTTTTGAGAAAATTAGAAAAAGATATTCTGTCCATAACAACCTTTACTGTCATCTGCTGGGAAATTTCTACAACAACCTTTACTGTC
ATCTGTTGGRAAAGTGTCATAGCAAACATCCCTATCTACAGCATCTGTCCTGTAAATGGTATCTTTTAGGTTTATATAATGTACACAATTTGTTCACCAG
TGTGCAGTGACCTGATTYCATGTCCCTATCCTACAGATCTTCTTACTATTCCACCTGGTTTCAAGAAAGGCATGGACTTTGCACCAAAAGGTTAGTTTTA
GTTTTTGAGTGGGGTGTAGGAGAAGTCATGTCCTTCTCCTAAGGAACAGAGATGGACATGACAAGGTTGACCTTGTTGGCTTGCTCCTCAGATTGTCCAA
CTCCAGCTCCTGGACTACTAAGCCTTAGCTGTMTGTTGGAGCCTCTGGATTTGGGTGGGGGTGACGAGGATGAGAATGAGGCAGTGGGACAGCCAGGAGG
TCCCAGAGGGGACACTGTTTCAGCCTCTCCCTGCAGTGCTCCCCTGGCCCGAGCAAGCAGCTTGGAAGACCTAGTGTTGAAGGTTGGTGGTTCTGTGTAG
TGGAGGCAAGAAAGAGCCTTGCCACCAGGATGTGGGCTGGCTAGGATGGGTCTGAGGGGAAGAAAGGGACATCTTTTKGGAGGAGTGCTAATTGAGAGCC
CTCTGGTTGTATCTTTATCACTGCTACCCCTGACTCTTCCAGGAAGCGTCCACAGCTGTATCCACCCCAGAGGCCCCAGAGCCTCCATCTCAGGAGCAGT
GGGCCATCCCTGTGGACGCCACCTCCCCTGTTGGTGATTTCTATCGCCTCATTCCCCAGCCAGCCTTCCAGGTACTTTGGCCCCATCTTCACACGCTCCT
CTACCTCTTTCTGGGTCACACTCCCAGCCGACCCCTTGTCTCCTCTATTGGCCAGAGGTCAGATCCATCCCAGGCCAGTCTTGGTACTCAGTCCCAGCCT
CGGCTGGCTCCGGCCTTCATCCGCCCGCCCTGCGTGCTCCATGAGCAGGAGGCAGCAAGGCCCCGCTCCTTTCTTCAGCTCCTGTCTATTTCTCTCTCCC
ATAGTGGGCATTTGAGCCAGATGTGTTTCAGAAACAGGCCATCCTGCACTTGGAAYGGCATGACTCTGTCTTTGTCGCAGCTCACACATCTGCAGGAAAA
ACAGTTGTGGCTGAATATGCCATTGCYCTGGCCCAGAAACACATGACACGGTATGAGTTCCTTTGCCAACCTCCCCCTTCACCAGCCAGCCCCATTTTCT
CCTGCATCCTTTGAAAATCTCATCTCTTCCCCCACCTCTCTAGCTCATCCTTTAAGTGAGAGGTTCAGGGCTAAGACTGAGACAAGAGCCCAGAGAGAAA
TGAAAAGACATGGTGGGGAGAAAGTTTAGAAGAATGACCTGGGTTAGTTTAGGAAGGGGTTGGGGACAGAATTTTTCTGGGRTTATATCATGCAGGAGAA
TGTAAGGGCAGTTTGGGTGAAGAAGAGGAGCACCTGAGCTTCTGGGGCATGCTTCCACGAGGGCTCCATGTGGGAGAGGAAGTGCGGGCCATGAGTCTGC
GGAGGGACTGGCTAACTTCATGCTCTCTTCCCAGCACCATCTACACTTCGCCCATCAAGGCCCTGAGCAACCAGAAGTTCCGGGACTTCCGAAACACATT
CGGGGATGTGGGGCTGCTCACCGGGGATGTACAGCTGCATCCGGAGGCCTCCTGCCTCATCATGACCACRGAGATCCTTCGGTGAGAGATGGACACTCAA
TACAGGGGAGTTTTGGCTGGGAAGATGTGGCCGTTGTGGAGAGTGTGCTGTCTGAGGAGKGGGTGGAGACGAGCCACTGGRGAGTCAATCCTTGGCCTCT
TCTCCCCAGCTCCATGCTGTACAGTGGCTCAGATGTTATTCGGGACCTGGAGTGGGTCATCTTTGATGAGGTTCACTATATCAACGATGTCGAGGTAAGG
GCCATGGGCTCCCCAGAACCCGGCAGTCCTCTCCTTTGGGACCAGTTGAGCGTCTCCCTTATTCCACACACTCAGGGCCCCTTACTGCTTTCTTTACCCC
CATATGGAATCCTGTGCCTCTTTATGGGCAGAAGGGCGGCCCCTGCCCTCATGTGACCTCCCTTCCCTCTCTGTGCCCAGCGTGGGGTCGTGTGGGAGGA
GGTGCTTATCATGCTACCTGACCACGTTTCTATCATCCTTCTGAGTGCCACCGTCCCCAACGCCCTTGAGTTTGCTGACTGGATTGGGTGAGACGTGTGT
CCCGGGTTGCCTGGGTGAAGGGGGCTACAGTACTCCTTGATTCGGGTGGGGGACTAAGTCTACCACAGCAAGGAGAGCGGTCAGGCCTTAGGGGTGATGC
TGGGGAACATGTCCCACCTGGTGGCTGTGGGATCCCCTTTGGGTCCAGATTACTTTGCATGTTGAAATGGGATGAGATGTTGGGGGATAGCCTTCCATTC
TGGGTCTCAGAAAAGACTGGGTAAAGTTGGAGGGGTAGGGAAGGGGGTGGGGATGYGGGTTCCTTCCCACGTTCCCACCCCTGACCTGCTTCCCTCTCCT
TTCTTCAGGCGGCTGAAGCGTCGTCAGATCTATGTGATTAGCACTGTAACCCGCCCCGTGCCCCTGGAGCACTATCTTTTCACAGGGAACAGCTCCAAGA
CCCAGGGGGAGCTCTTTTTGTTGCTGGACTCCCGAGGAGCCTTCCATACAAAAGGGTAAGCCTCGAGATGGGGGAAAGAGTTAGGGCTGGGCCCCCAGCT
GGACATTGTGGCTACCCCTCCCTGTGCCCCAGGTACTATGCAGCTGTGGAGGCCAAGAAGGAGAGAATGAGCAAACACGCCCAGACCTTTGGGGCCAAGC
AGCCCACACATCAGGGGGGCCCTGCACAGGTGAGAACTGGGAGGGTTTTGTACCTGCCAGCACCTGTTTTTCCTCCTATCTTTTTTTTCCCCTTGTCCCC
CAGGGGTTTTGACTTGAGCTTTGAGCAYTGCCCCAGTTAACACTAGCTCACCTCTCATTGGTTCAGGAACTCAACCTCTGCTCCTTCCCCTYCCCCTTCC
TTCTCCAGGACCGCGGAGTGTACCTGTCCCTCCTGGCCTCCCTCCGCACACGTGCCCAGTTGCCCGTGGTGGTGTTCACCTTCTCCCGGGGCCGCTGTGA
TGAGCAGGCCTCAGGCCTCACCTCCCTTGACCTCACCACCAGTTCGGAGAAGAGCGAGATCCACCTCTTCCTGCAGCGCTGCCTTGCTCGCCTCCGTGGC
TCTGACCGCCAGCTGCCCCAGGTGCGTCTGTGTGCGTCTGTGTGCGTGCATGCACACATTTGGCAGACTGGTGGGGATAGGGTGTTCCGAGACTCCATCC
CTGACCATGGGCCTCCTCCCACCAAAGGTCCTGCACATGTCAGAGCTCCTGAATCGCGGCCTGGGTGTGCACCATAGCGGCATCCTGCCCATCCTCAAGG
AGATCGTGGAGATGCTCTTCAGCCGTGGCCTGGTCAAGGTGCATGTGGTGGTGGAAAGGGACTCCTCAGGGTGCTTGTTGCCCACTTAGGGGCTGYCCAG
AGGGCAGAGGGGCAGAGGTTTAGGCAGGCCAGTGCTGTGGTTAAGAATCTGGGCTCTGGATTCAGACTACCTGGGTTTGAATCCCAGGTACACCATGTAT
TCACAGTATCATCCTGGACCAATTATTTAACCTTCCTGAACTTTAGGTTTCCCATCTTAAAATGGGGATGCATAAGATATGAATACGTAGGTCTCAGAAA
AGAAACCCAGGAAGCTAGCAAGCATTCGAAAAGTTATTAGTAATCAGAAATATACAAATTGAAGTACTCACAAGATACGACTTTACAGCTATTAGACTGG
TAAAATTTAGGAAACTAGTTCATGCCGAGTGTTGCCAGAGATATAGGAGGTTGTAGGGTTCTGGGAATCCTTTACGGGATGCCTAGCCAGTTTGGAATGC
ACGCTGGCACTATTTAGACAAAATAACTATATTGGCCGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATCACAAG
GTCAAGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCAGRTGCCTGTAGTCCCAG
CTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGATTGCAGTGAGCCAAGATAGCACCGCTGCACTCCAGCCTGGGCAACAGAGG
GAGACTCCATCTCAAAACAAAAACAAACAAAGAAACAAACAAAAACTATATCATACTCTGAGCTTATATTTCATTCCTGGGTATATATCACAAAGAAATT
CTCACCCTGGTCTGTGAGAGAACATGTACACCCATCCTTTGTTTGTGGTGGCATGGTGTTGGTAGTACCAGGGTGCCCTTCACTGGGAGAGAGGGAAGGT
TAGTGTGGGGGATGCACCCATAGAGTGTTCTGCAGCAGTTGGAAGCAGTGGGTTAGATGTGGCCACAGGAACATGGACARATGTTGAAACACTAGGTGGA
GAAAAAGAAGCAAAAAAAAATCAGATATATAACCACTTTTTATATGAATTATAAACTACAAGCTCACAAAAGAAGACATGTTCTATAAGATCATATTTAT
ATAAAAAGATATTTGTTGGATACATTGGAATGATTGCAGTCAGGGATGGGAATGGGATATGAAGGTAAAAGTTAAGAAATAGAAATAAGTAGCTACATAA
GTAAAATGAGGAAAACAATAATACCTGCCCTATAGATTTGCCTGGAGAGTTCAGTGAGATCCCATAAGTAACAACTGGGATGGTGCCTTATGCCTACAAA
GTAAGGTGGGCTTGGCCAGGGCTGGGGGTGTGTGTAYGTAGAGCCTTTGCTGATCCTTTCTGTTCTCCTCTGTCCCAGGTCTTGTTTGCCACAGAGACCT
TTGCCATGGGAGTAAACATGCCTGCTCGTACAGTAGTGTTTGACTCCATGCGCAAACACGATGGCTCCACCTTCCGGGACCTGCTCCCTGGGGAGTATGT
GCAGATGGCAGGCCGGGCAGGGCGGAGGGGCCTGGACCCCACAGGCACCGTTATCCTGCTCTGCAAGGGCCGAGTGCCCGAGATGGCAGACCTGCACCGC
ATGATGATGGTGAGCGGGCCAGCATGCTCGGCAGGGCCCCAGCTCCAGGACCTTGCTGGATTCTGTCTTCGATTCTCCTCTCTTCTTTTTCTTCTTCCTT
TTTTTTTTGGAGACAGGGTCTTGCTCTGTTACCTAGGCTGGAGTGCAGTGGCACAATCTCGGGTCACCGCAACCTCTGCCTTCCAGGCTCAAGGGATCCT
CCCACCTCAGCCTCCCAAGTAGGTGGGATTCCAGGCACATGCCACACAGGCCTGGCTAATTTTTTTTTTTTTTTTATGCTTTGTAGAGATGAGGTTTTGC
TATGTTGCACAGGTTGGTCTTGAACTTCTGGGCTCAAGCAGTCTGTCTGCCTCAGCTTCCCAAAGTACTGGGATTATAGGTGTGGGCCACAGCGCCCAAC
TTCCTCCGACTTTTTTGTTTTGCCTGGGAGAAGCTGAGGTAGGAGTGAGTGAATCCAAGGATGAGATTGGAGCCCATCTCTTCCAGTTTTCTCCCATGTG
AATATGGAGCTAGATGGGGCCTTTGAGTCCATTTATTTCAGTTTGCTCCCTTATGTTACAGAAGAGGTGAGCAAGTGGTTTGTCCAAGGCYCCATGGTTG
CAGAGCTAGGACCGGATCTGACGGGAGTAGGCCCAGTCCAGAAGACTGGCTGGGGTTCAGTAGGTCCCACCCTGATCTCAGTGACTTCTGTGRCCTGACT
CCAGGGGAAGCCRTCCCAGCTGCAGTCCCAGTTCCGCCTCACGTACACTATGATCCTCAACTTGCTGCGAGTGGATGCCCTCAGGGTGGAGGACATGATG
AAGAGGAGCTTCTCTGAGTTTCCCTCCCGCAAAGACAGCAAGGTAAGGAGCCTGGGGTAACCAGTGTGTGGAGCAGGAGGTTGGCCAAAGACAGGCTGGG
AATAGGTAGGCATCCAGAGGCCAGTGTGTTGAGGGTGGGGAGTGTGACAGATTGGGCCTGGAGACTCCCCTTTCACAGCTTCCCCTGCTCCCACCCAAGG
CCCATGAACAGGCCCTGGCTGAACTGACCAAGAGGCTGGGAGCTTTGGAGGAGCCTGACATGACTGGCCAACTGGTCGACCTGCCTGAATATTACAGCTG
GGGGGAGGAACTGACAGAGACCCAGCACATGATCCAGGTGAGCAAGTGTGAGWGCTGAGGAGGTGATAGGAGAAGGGAAGAGAAGATCGTGTTACTCTAG
GTGCTACTAAACTTAGTCCAAGTGTCTGTCCCTGTGATGCCTCCTCCCATCTGTCCTTTGCTCTTCAGCGACGCATCATGGAGTCTGTGAACGGGCTGAA
GTCTCTCTCAGCAGGAAGGGTGGTGGTTGTGAAGAATCAGGAGCATCACAACGCATTGGGAGTGATCCTACAGGTGAGGGTGATGGGAATTTGGACTCCA
GAGGGTGGGAGGGAGCAAGCCCTCTCTCCATTTTCCCCACTTGGCCAGGGCAGGTTGCGTCATCATAGGGCCCTCATTTTCCCCTCTTGCCCTCCTTTTC
ACCCTCTCCCTTCCCATCACCACATCATGYTCACTCCTTCCTCCCACCACCCCAAGAAGTCTGCTCTGATCGCTTGACTTGGKTGCCCCTCTCTACTGGT
GAGCTCTGCATGGTTGCTTCCTGATTCCTGCCCAAGGGTGGGTATCTGGTCTCTGCCTTTGATGTCTACTCATCACACCCCCSTCTCCTGGCCTCTCTGA
CCACCCCCAGGTCTCCTCGAACTCCACCAGCAGAGTATTCACAACCCTGGTCTTGTGTGATAAGCCCTTGTCCCAGGACCCACAGRACAGGGGGCCAGCC
ACTGCAGAGGTGCCCTATCCAGATGACCTCGTGGGATTCAAGCTGTTCCTGCCTGAAGGTGAGAGTGTGGCAGATGTCTGTTTTCTGCCAGCAGTATAAG
CAGGATGCCTGGGTCCATGGCAATGTCTGCCCTGCTCTCCCCTTTTCACAGGGCCTTGTGACCACACCRTGGTCAAGCTCCAGCCAGGAGATATGGCTGC
CATCACCACCAAGGTGCTCCGGGTGAATGGGGAGAAGATCTTGGAGGACTTCAGCAAGAGGCAGCAGCCAAAATTCAAGTCAGAGATGCTAGGGAGGCCC
TTCTCCTCCAGAGGGGCACGTAGAGGCAGGGAGGGGCAGTGGTCTGSGAGTTTCCTCCAGCCTGAGGGAGACCATGAAGTGGTGGGGTTGTAGTGAGGGG
GCTCCCCCAGCCTAAGGGAGACTGTGAAGTGGAGGTTGTAGTAAGAGGGCTTCCACAGCCTGAGGGAGGCTTCTGKGGGAGAGAAGATCTTACCCCAGAT
CTTAAGATCTGCTCCCTCTTCAGGAAGGATCCTCCCCTTGCAGCCGTGACCACTGCTGTCCAGGAACTGCTGCGTCTGGCTCAGGCCCACCCAGCCGGAC
CTCCCACCCTCGACCCTGTCAATGACCTGCAGCTCAAAGATATGTCAGTTGTAGAGGGTGGGCTCCGGGCCCGGAAGCTGGAGGAGCTGATCCAGGGGGC
TCAGTGTGTACACAGCCCCCGTTTTCCTGCCCAGGTAGGACCCTGGGTGGTAACTCCCAAGCTGGGAGTAGGGGCTTTTCCTCTGTGGTCCCCTGTAGAC
TGACCGCCCCCATCTCAGCCCTTGTCCTCAGTGCACCCCTGCTAAGGGGCAAGGAGAAGGCTGACGGGTGGCTCTCTGCAGTACCTGAAGCTGCGGGAGC
GAATGCAGATACAGAAGGAGATGGAGCGGCTGCGCTTCCTACTGTCGGATCAGTCATTGCTGCTGCTTCCTGAGTACCATCAGCGAGTAGAGGTGGGTGG
GGCAGTGGTTGGGGCAGGGGGGCTAGGGGACAGCAGTGTGTCCAATGCYCACCCTTTTTCTTGCAGGTGCTCCGAACCCTGGGTTAYGTGGAYGAGGYGG
GCACTGTGAAGCTGGCAGGGCGGGTGGCTTGTGCCATGAGCAGCCATGAGTTGCTCCTCACTGAGCTCATGTTTGACAATGCACTGAGCACCCTGCGGCC
TGAGGAGATTGCTGCCTTGCTCTCTGGCCTGGTCTGCCAGAGCCCTGGGGACGCTGGGGATCAGCTCCCAAACACCCTCAAGCAGGTAGGGGACACCACC
CCTTTCTCCCTGCCAGGGCTGTGGCATTCCTGACCTTCACCTTCAGGTAGTCCCCCAGGTGACCCCCTCCAGCCCTGTAAGTGCCCCAAGGATGGAAAAT
GGCTGCCTTCTTGATCTGGTCCTTCCCTGTCCTGGAGCAGGAAGGCAGGCCTTAAYCTCTCCTTCTTTCCTGCAGGGAATAGAACGTGTCCGGGCTGTGG
CCAAGCGGATTGGTGAGGTCCAGGTGGCTTGTSGSCTGAACCAGACGGTGGAGGAATTTGTGGGGGAGCTGAATTTTGGGCTGGTTGAGGTTGTATATGA
GTGGGCCCGGGGCATGGTGAGTACCTGAGGTTTGGGATTTTGCAGACGGCTGGCTGGGGAGAACCTGCCCAGGCTGAGTGCATCCAGTCCTCACCCTACT
TTCCCCACAGCCCTTCTCCGAGTTGGCAGGGCTCTCAGGGACCCCTGAGGGCCTGGTGGTCCGCTGCATTCAGCGCCTGGCTGAGATGTGTCGCTCACTG
CGGGGGGCAGCCCGCCTGGTAGGAGAGCCTGTGCTGGGTGCCAAGATGGAGACAGCGGCTACCTTGCTACGGCGGGACATCGKATTTGCGGCCAGCCTCT
ACACCCAGTGAATGCCCCATGTAAAAACAYGATGATAAAACAGCAAAGCACTGTTGTGTGCTTGAGTTGCTGGACAGGGATGACTCASCTAAGAAGACAG
CGAGAGAACYTYTTAGAAATATGCTTTTATTATCTGCACACAGAGATATGACTGCCTCCCTCTAAAGCATTACTATTTGGGAGAGGGAGTCTTGGGGGGT
GATGGGAGGTCCTGAGTCATAGCTTCCACATACCATATGGGCAGGAAGGCGTAAGGTGCATCTTGGTGTACAGACACGGTGACTGGGCCGCCAGGCTCCC
AAGAGAAGAGATGAACGAGCCTGGGGGGCAGATGGAGGCATCAGTTGAGGGCCAGAGGCTGGATCCTGGGATCCAGAGGGGAGGGACAGAGCTGAATGCC
TCACCTGGGGTCATCCTGGACAACCGTGCTCTGGGCAAAGCTAAGGAAGGCGGCACAGAAGTTCATGCACACAGAGGGATTCCAGCCGTCACGGTCATTC
TGGAGCAGGCAGAGGAGGAGGCAGAAGATGGGCAGTGGGGGTGGTGGGAGGAGAGAAGGCAGGCTGTTGCCCTGGATGCTAGACCTGTGGTCTTGGTGTT
TGGGGATACGGGTGGGAGCTGCAACATCGTTCCCTTACCCTGACATATTCAAACATCTTCATGGTAGGAAAGGTCTTGAGGGAAGAGACAAAACCGTCTG
GGTTACGGAAGCCAGCAACAACATTCGGGACCCCTGGGAGGAATGACTGAGCCCACCATTTCAGGAGCTTGTGTCTGACAGGAAAAGCAAGGGATCAGTG
GGACCCCTCGTGCACCCTCCATTCTGCCTTCACCCTCCTCCCCAAGTCCCTTTCCCAGCCTTCAAGCCTAAGCTCTCGCCCTGCCCACCCCGATCCTGAA
CCTGTAGAAACTCCTCCATTGGCCAGGGCTGTGCATCTCCTTGGAGGTCTTGAGCTCCACATAGCAGGTTGGGGGCTGTGTGGATGGGGCTTGGGGGTCT
GTGCAGTCTACCTCCCCTGAGAAGAGCAGAGGGTGGCTTCCCAGGCGGCTGCGTAGCACAGAGCAGAAGGCCACGTTGGTGTTAACCTCCCCAGAGGGGT
CTGGGGAGCTTCCAGGTTTGTCTGCACAAGGAGAGAAGCAGCAGCAGGCGTGGGGGGCTCTCAACCTCTGGGAAGGGGAAGGGGGCTATGAAGCAGGGGC
AACTCACCTGCACACATGTACTGCTCAAATTTGTATCCCATGTACATAAGCTCCCGGAGGAGCGGTGGCCGAGCAAGCCTCTGGGCCCGAGCGTTCGGTG
TCTCCACTTCACTCAGGTATAGTGTTCCCTGGAACCGGGAGGCTGCCAGCTGCCAGCCCTCCTGCCGCTCATACGGTGTCGTCAGCAGTTTTGTCAGGTG
CCCCCGCCACGTCACTATGGCCTCTGCCAGCCAGCCTGGACCCCTGAGAGGCAGGAGTTACAGGCTGAAGGTCTGACACAAGCATTAGTGAGATGCTCCC
CTCGAAGAATAGTCTTGTTTCTTCTAAGGACTGATTCTCACCCCGGCTTTGGCTCTCCTAATTTTAGAGGGTAGGTACGGGTCTCCAGATATACTGCCTA
CCACGCTTTGCTCACCCCTCCAACCGGCCTCGGTGTTCCAGGAGCCAGCACAGCAGGTGGTCCAGCCTTTCCTGGACCTCCTCGTCCCGGGGCTGGTATC
GATCCGGGTATCCGTCTCTGAGGTCAAAGTTGGGGCCTGGACCGTTAGTGGGGGGTGGGCTATAGTAGCGCAGGGCTCGGGCATCTCCATGGTACTGGCG
TTGAGCATCCAGGGAGAAGCAGCCCAGTTCCGAAGGGCGCCGGTAGAAAGGAAAGGGCCCAGAGTAGAGGGCAGGGTCTGTGGGCAGAGAAGGTGCTGGA
CGAGGTAGTTTGTTCCGAGGCTCAGCTACCTCTGTCTTCTCAGCTCCTCTCTTGGTCCCCCTGGGATCCATGAGGTCCTAAGACAAGCAGGGGTACAGAG
TTTCCATTCTACAGAGGAGGCCTGGAGAAGGATGACTGGTTTAGGACTAAGCGAGCCACCTGATCGCCAGGCTCTGGCCTTGAAACATTCAGGCCCCTCA
GACGCCACCGCGGCCAAGCTCTCATCCTGCCTCTTTCCTTGCCCTTCACCCACCCTCCCTCCAGGTCCTCCAAATGCAGTGAGGTTAGGAAGGACGTCTG
CGCTCAGATCAAGAATCCAGTTACCTCAAAGCTCCCCAACTTCCACCTCCGCAGAGCTATGACGTCATGGCAGGCACGCCAGAGGCCGAAGGATGCAAAA
GTGGTTTTCTGCTTTCGATGATGCAATCATTCAGCGACAGTGGCGGGCAAACCCCTCCCGGGGCGGGGGAGGTGTGAGCTTCACGAAGGAGGTTGACACC
AACGTGGCCACCGGCGCCCCTCCACGCCGCCAACGAGTCCCCGGGCGTGCGTGCCCTTGGAGGGAGCCAATCCGCGGCCGGCGTGGGGCCCGGCCTGGCG
GAGGTGATGCTGGTATGTGCGTCGCCACCGCCCCTCCCAGCACTGACGGGCCTGAGGGACGACAAGTTGACGCTCCTTTCGTCATCACCTGGTCTAGGAG
GGACGCCCGGGGAGACCGTACGTCACTGCTCTGCGCCGGAAGACCCTATTTTCAGGTTCTCTTCCCTCCATTCCTACCCCTTCCCCGGTACCATAAAATC
CCGGGATATGAGCTGGAAGAGGCATCACCTGATCCCGGAGACCTTTGGAGTTAAGAGGCGGCGGAAGCGAGGGCCTGTGGAGTCGGATCCTCTTCGGGGT
GAGCCAGGTAACCATGGCAACCCCGGGGGTGGGGCCTCGCTTCCGGTAGCCGAGAGTTTTGTTAGAACCGCGTCCCCGCCCCAGTTCCCTGTCCGTGAGC
CGATTTATCTGCCCAGGGTCGGCGCGCGCGGCTGTCTCAGAACTCATGCAGCTGTTCCCGCGAGGCCTGTTTGAGGACGCGCTGCCGCCCATCGTGCTGA
GGAGCCAGGTGTACAGCCTTGTGCCTGACAGGACCGTGGCCGACCGGCAGCTGGTGAGGGGCGTCGGTGCGACCGCCGGAAGCCCCTTTCCTAACTCCTG
GAATTCCCTGTCACTCAGTCACTCCGCCAGCCGTTCAGCAAGCATTAGGCCTTTCAGGCGAGGGCACTGTGCCAGGCACTGGGGTGCCACAGAGACCCTG
TTAAAAGTCCCGCAGGTAGTACAGGGCATTTCAAATCATGGAGGTAGAAGAACGAGGCTTTTGGGGAAACCGAGTCATGGGGCATGGTTCGAACATACAG
CGCTGGGAGTGCAGTCAGACGTCAGATCATGACAGGCCTTGTACATCAGTGTTGTTTCCATCTTACACTGAGGCGATGGGCTGGTAGAGAATATCATAGA
GAGAGGGAATGGTGTATTGGAGATAGTGGATGAGGCAGGGAGGTCAGCTAAGAAGATACTGCATCTGAGAAGTGGTGAAGGCCTAAATTAGGTCAGTGCA
GTAGGGAGGGAGAGGAGAGTGAGGAAGAGGGAGGAGTCCAGGACAACTCAGACTTTCCAGATGACTGCGTGGCTGGTGGTATTAGGAGCACATTTAGTTG
TTGGACTACAGATAATGTGTTTAATTTTATACAAGTTGAGTTGATGGTGCATGTGGAGCATCCAAAGACAAAGGTATTAGACAGTTGGATATGAGAGTTG
GAGAGAATTCTGGGCCAGTGATAATAGAATTACAAGTCATGGAGGTGTGAATAGCAAGTGGTTAATTCTGTGATGTGGTGAGATCCAGTAGGAAGAGTGG
GTAGAGGAGTGATTTCTAACCTTTTTGTAATCTTTAGAAGGTGATAAAAGCTATGGCTATCTCTCTCCAGAAAAATGCACGTTTGCCACATATACATAGG
GTGTATGTATAGTTAGGGGGGAAATATTTTACTAATCCTGCGAGGTCCGTGGTTAAGGACTCCAGGTTTAGAGTGGAAGTTAATAGGGTCAAATCCACAA
TGCTGGGAAACACCATCATTTAAGGCAGTGTTACTGAATATATGAGCTGAGTTATTATGCCTGTGTCAAAATTACGTGGGCTGCTTGTTAAAAAAAATAC
AGGTTCCTGGGACTCATCCAAGGTTAATGAATTACGCTCTCTTGGGGCGGGATTTGGGACTCTACATTTTTGAACTGCCTCAAGTGCTTTTTAAGTGTGC
CTTAAAATTTGAGATCCACTGACATAAAGGGAAAGCAGAAGAAGAGGAATCTGTGACAGAGGCAGAGAGGGACTTGCCTGAGTTAAGAGGAACCCAGAGG
CCGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCTCTTGAGCTCATGAGTTTGATACCAGCATGGGCAACATGAC
ATAACCCCATCTCTACAAAAAATACAAAAATTAGCCAGGCGTGGTGGTACGCGCCTATAGAGCTACTGGGGAGGCTGAGGTGGGAGGATTGCTTGAGCTG
GGGAGGCGGAGGTTGCAGTGAGCTGAGATAGCACCGCTGCACCCCACCCTGGGTGATAGAGCTAGACTTTGTCTCAAAAAAAAAAAAAAAAAAAGTAACC
CAGGAAGAGGCCTACTGTGAAAGTAAAGAGATTTTTGAGAAAGTGAAGTAGTTGGCAGTATTAGAACCTGTGATTCAAGACAGTGGTCTAAGAAGAGGGA
AGAGGTAAAGTAAAATATAAACTGAAATCTAGGCTGAGTGTGGTGGCTCATGCCTGTACTCCCACCACTTTGGGAGACTGAGGCAGGAGTATAGCTTGAA
ACCAAAAGTTTGAGACCAGCCTGGGCAACAAAGTGAGACCCCATCTTTACTAAATAACTGAGATCCCATCTCTACTAAATAAATAAATTAAAACACAAAA
ATTCTTAGCTGGGCATGGTGGTGTGCACCTATTGTTCTAGCTGTTTGGGAAGTTGAGGCAGAAGGAGTGCTTGAGCCCAGGAATTTGAGGCTGCAGTGAG
CTATGATTGCACGACTGCACTCCAGGCTGGGTAACAGAGGGAGACCCTGTCTCTAAAAAAATGAAAACAACAACAAAAAAACCCAGAACTGAAATCTGTC
CATTGGATTTAGCAGGTAGAAGGTTAATAGTGATCTTTCAAGAAAAGAGGAAAGAAAAGGAAGGCAGTCTAGCACTCACTTGAGGTGAGCTAGTCTCCCT
GACTAGGTCTCCCGTGAGGAAGCATGCCAGATGGAACCACTCCTTAAGGAGTATTTGTTGATTTTAATGTATTGGTGTTAGCTTTTGTTTTTAAAAACCT
TTAAAAGTTGCAGAATGAAAATATAAACATATATAATTTAAATGATGTTTATAAAGCAGATACCTATCTAGCCACTCCCTAGGTCAAACTATAGAATATG
ACCAGTATCCCACATATATCCCTCTCTGATCAAAATGTCTCTGATCAGAATGTCCCTGGGAGGTGACTGCTGTGGTCATTGTTGCCTTAGTTTTCCCTTT
TTTTTTTTTTTTTTTGAGGTGGAGTGTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGTGATCTCAACTCACTGCAACCTCTGCCTCCTGGGTTCAAGC
AATTCTCCTGCCTCACTGTCCTGATTAGCTGAGACTACAGGCACGCGCCACCATGCCCAGCTAATTTTGGTATTTTTAGTAGAGATGGGGGTTTCATCAT
GTTGGCCATAATGGTCTTGATCTCCTGACCTCGTGATCTGCCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGATCCACCGCACCCGGCCTAAT
TTTGTATTTTTATAGGGATGGGGTTTCACCCTGTTGGCCAGGCTGGTCTCAAACTCCTGACTCAGATGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGTT
TTTTTTTTTTTTAATTGTCTTTTTGATAATTCCACTATTTTTTTTTTTTTTTGAAAAGTCTCCCATGTCTACCTCTTTCCACACAGACACGGCAACCATC
CGATTTCTCAATCTTTTCCCCACCTTTTCCCGCTTTCTAGTCCACAAAACCACCATTGTCATCGTGGCCCGTTCTCAATGAGCTGTTGGGCACACCTCCC
AGATGGGGTGGTGGCCGGGCAGAGGGGCTCCTCACTTCCCAGCAGGGGCGGCCGGGCAGAGGCGCCCCTCACCTCCCGGACAGGGCGGCTGGCCGGGCGG
GGGGCTGACCCCCCCACCTCCCTCCCGGACGGGGCGGCTGGCCGGGCAGAGGGGCTCCTCACTTCCCAGTAGGGGCGGCCGGGCAGAGGCGCCCCTCACC
TCCCGGACGAGGCGGCTGGCCGGGCGGGGGGGGCTGACCCCACCACCT


SNP Information

Context             (SEQ ID NO:5390):
TCACTGGGAGAGAGGGAAGGTTAGTGTGGGGGATGCACCCATAGAGTGTTCTGCAGCAGTTGGAAGCAGTGGGTTAGATGTGGCCACAGGAACATGGACA
R
ATGTTGAAACACTAGGTGGAGAAAAAGAAGCAAAAAAAAATCAGATATATAACCACTTTTTATATGAATTATAAACTACAAGCTCACAAAAGAAGACATG
Celera SNP ID:            hCV3125462
SNP Position Genomic:     12580
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,13)      total(G,13|A,4) ;no_pop(A,-|G,-)   SC_12_C(A,3|G,21)   SC_12_AA(A,8|G,8)   SC_95_C(A,12|G,169)   total(G,198|A,23) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5391):
CGCAGAGCAACGCAAAGAGGAAGAACAGAGAAACGGCTATGAGAAAAAGGGCCGAAGAGTGAGAAGCAGAGGGCCTTACCCGAGGGGGCGGCAACCGGGG
K
CCCCACGGTCTCCGGCCGCGCCCGCGCTGGCCGCTGATAGCGGGCTCACAACGATGACGTAGCGAGGAGCGGAAAACGCGGTAACCAAGGCGGCCCCAGG
Celera SNP ID:            hCV27835651
SNP Position Genomic:     6109
SNP Source:               Applera
Population(Allele,Count): african american(G,34)   caucasian(G,31|T,1)   total(G,65|T,1)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(G,39|T,1)   total(G,71|T,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:5392):
GTGGGTGGATCACAAGGTCAAGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCAG
R
TGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGATTGCAGTGAGCCAAGATAGCACCGCTGCACTCCAG
Celera SNP ID:            hCV11409007
SNP Position Genomic:     12185
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,11)   total(G,11|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5393):
TTTGCCTGGAGAGTTCAGTGAGATCCCATAAGTAACAACTGGGATGGTGCCTTATGCCTACAAAGTAAGGTGGGCTTGGCCAGGGCTGGGGGTGTGTGTA
Y
GTAGAGCCTTTGCTGATCCTTTCTGTTCTCCTCTGTCCCAGGTCTTGTTTGCCACAGAGACCTTTGCCATGGGAGTAAACATGCCTGCTCGTACAGTAGT
Celera SNP ID:            hCV3125463
SNP Position Genomic:     12937
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,28)   caucasian(C,3|T,37)   total(C,11|T,65)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,9)      total(C,4|T,9) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5394):
ACGATGGCACCCGACCCCCCTACCCTCGCTAGGGTAAGGACAACCGCGGGGTTTGAACGGCAGAGAAGGCGGTGGAGCCAGCGTAGCGCCCGCAGAGCAA
Y
GCAAAGAGGAAGAACAGAGAAACGGCTATGAGAAAAAGGGCCGAAGAGTGAGAAGCAGAGGGCCTTACCCGAGGGGGCGGCAACCGGGGGCCCCACGGTC
Celera SNP ID:            hCV27857036
SNP Position Genomic:     6019
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,37|T,3)   total(C,75|T,3)
SNP Type:                 INTRON;UTR 5


Context             (SEQ ID NO:5395):
CATGGTTGCAGAGCTAGGACCGGATCTGACGGGAGTAGGCCCAGTCCAGAAGACTGGCTGGGGTTCAGTAGGTCCCACCCTGATCTCAGTGACTTCTGTG
R
CCTGACTCCAGGGGAAGCCGTCCCAGCTGCAGTCCCAGTTCCGCCTCACGTACACTATGATCCTCAACTTGCTGCGAGTGGATGCCCTCAGGGTGGAGGA
Celera SNP ID:            hCV25630779
SNP Position Genomic:     13893
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:5396):
CTGTTGTCATCCTTACTTTCTGGGTGGGTCCATGGAGAGGTCAATGATGTTTCCAAAAGGAGAGAAGGCCCCACGGAGAAGGGTGGGTGTCATGTCTTCT
M
CATATACATAGAGAGTATTCCCTTTCCTAGGGGCTCGCCGTTCAGGGAATGAATCCGACCCTTTGGGAGCACAAATCATAGTCACAAGACATAGCCCATG
Celera SNP ID:            hCV7515142
SNP Position Genomic:     1578
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    ;no_pop(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:5397):
ACGGCTATGAGAAAAAGGGCCGAAGAGTGAGAAGCAGAGGGCCTTACCCGAGGGGGCGGCAACCGGGGGCCCCACGGTCTCCGGCCGCGCCCGCGCTGGC
Y
GCTGATAGCGGGCTCACAACGATGACGTAGCGAGGAGCGGAAAACGCGGTAACCAAGGCGGCCCCAGGCGCGCACTTCCGCCCGGCCTTCCACCGGTCCA
Celera SNP ID:            hCV27833678
SNP Position Genomic:     6141
SNP Source:               Applera
Population(Allele,Count): african american(C,33|T,1)   caucasian(C,32)   total(C,65|T,1)   
SNP Type:                 UTR 5

SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,1)   caucasian(C,32)   total(C,51|T,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:5398):
ATTTTCCCCACTTGGCCAGGGCAGGTTGCGTCATCATAGGGCCCTCATTTTCCCCTCTTGCCCTCCTTTTCACCCTCTCCCTTCCCATCACCACATCATG
Y
TCACTCCTTCCTCCCACCACCCCAAGAAGTCTGCTCTGATCGCTTGACTTGGTTGCCCCTCTCTACTGGTGAGCTCTGCATGGTTGCTTCCTGATTCCTG
Celera SNP ID:            hCV3125466
SNP Position Genomic:     14730
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:5399):
GACTTCAGCAAGAGGCAGCAGCCAAAATTCAAGTCAGAGATGCTAGGGAGGCCCTTCTCCTCCAGAGGGGCACGTAGAGGCAGGGAGGGGCAGTGGTCTG
S
GAGTTTCCTCCAGCCTGAGGGAGACCATGAAGTGGTGGGGTTGTAGTGAGGGGGCTCCCCCAGCCTAAGGGAGACTGTGAAGTGGAGGTTGTAGTAAGAG
Celera SNP ID:            hCV3125467
SNP Position Genomic:     15347
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,37)   caucasian(C,1|G,39)   total(C,2|G,76)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:5400):
AACAGTTGGGGAGAAGGGGAGGTGGTCAGAGACAAGCTCAGCCTCATTGGGGCTCTGATCTCTTGCCTTAGGTCTTGCTGGAGAACACAAATCTCTCGGC
Y
ACAACCTCCTTGTCTCTTCGCCGGCCTCCAGGGCCAGCCTCCCAGTCCTTATGGGGAAATCCAACTCAGTATCCCTTCTGGCCAGGTGACTCTTGTGGAG
Celera SNP ID:            hCV7515162
SNP Position Genomic:     7657
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:5401):
GAAGTGGTGGGGTTGTAGTGAGGGGGCTCCCCCAGCCTAAGGGAGACTGTGAAGTGGAGGTTGTAGTAAGAGGGCTTCCACAGCCTGAGGGAGGCTTCTG
K
GGGAGAGAAGATCTTACCCCAGATCTTAAGATCTGCTCCCTCTTCAGGAAGGATCCTCCCCTTGCAGCCGTGACCACTGCTGTCCAGGAACTGCTGCGTC
Celera SNP ID:            hCV3125468
SNP Position Genomic:     15476
SNP Source:               Applera
Population(Allele,Count): african american(G,31|T,3)   caucasian(G,26|T,2)   total(G,57|T,5)
SNP Type:                 INTRON;UTR 3

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


Context             (SEQ ID NO:5402):
GCCTTTTTCTGGGAACAAGGGTGAGAAGAGAGAGGTAAGTGAGGGCCAGCCCCTAGCCGGTTCCTCTCCTAAGGCCCCTGGGCACATCACTCCAGGGACC
R
TCTTTCTTGATGCCCTCAGAGTGGTACACTGATGTGCTCTGCCTCTTGCCTCTGGTCCCCTAGATCATGTATGATGCTGGAAATTCCTAATCTAACCAAA
Celera SNP ID:            hCV940299
SNP Position Genomic:     4299
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   SG_12_G(A,1|G,22)   SG_12_AA(A,9|G,12)   SG_95_G(A,11|G,178)   total(G,212|A,21)   (G,-|A,-)   JBIG-allele(A,120|G,1355)   total(G,1355|A,120)   no_pop(G,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5403):
GTGGGTGGGGCAGTGGTTGGGGCAGGGGGGCTAGGGGACAGCAGTGTGTCCAATGCCCACCCTTTTTCTTGCAGGTGCTCCGAACCCTGGGTTACGTGGA
Y
GAGGCGGGCACTGTGAAGCTGGCAGGGCGGGTGGCTTGTGCCATGAGCAGCCATGAGTTGCTCCTCACTGAGCTCATGTTTGACAATGCACTGAGCACCC
Celera SNP ID:            hCV3125469
SNP Position Genomic:     16093
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 SILENT MUTATION;INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:5404):
TGTCTCTTCGCCGGCCTCCAGGGCCAGCCTCCCAGTCCTTATGGGGAAATCCAACTCAGTATCCCTTCTGGCCAGGTGACTCTTGTGGAGATGGGATGGT
M
GAAGAGGGTGTCTTTAATCTCCAGGGAAGGGTTCCCCACCTATCTCGTATTACCCTCATCCCATGAATCCCTGTCTGTCCTGTCTCTTCCCAGGGGGGAT
Celera SNP ID:            hCV7515163
SNP Position Genomic:     7768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5405):
CGGATCTGACGGGAGTAGGCCCAGTCCAGAAGACTGGCTGGGGTTCAGTAGGTCCCACCCTGATCTCAGTGACTTCTGTGACCTGACTCCAGGGGAAGCC
R
TCCCAGCTGCAGTCCCAGTTCCGCCTCACGTACACTATGATCCTCAACTTGCTGCGAGTGGATGCCCTCAGGGTGGAGGACATGATGAAGAGGAGCTTCT
Celera SNP ID:            hCV27301772
SNP Position Genomic:     13913
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,157|G,1340)   total(G,1340|A,157) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:5406):
GGTGGGAGGGAGCAAGCCCTCTCTCCATTTTCCCCACTTGGCCAGGGCAGGTTGCGTCATCATAGGGCCCTCATTTTCCCCTCTTGCCCTCCTTTTCACC
C
TCTCCCTTCCCATCACCACATCATGCTCACTCCTTCCTCCCACCACCCCAAGAAGTCTGCTCTGATCGCTTGACTTGGTTGCCCCTCTCTACTGGTGAGC
Celera SNP ID:            hCV27301773
SNP Position Genomic:     14704
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,7)   total(C,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5407):
CCTGGGAGCCCCAGTCCCATCCGACCTACAGGCCCAAAGACACCCAACCACAGGCCAGATACTGGGTTACAAAGAGGTAGGAGGTCAGGGGTCATGAGAA
M
CAGTTGGGGAGAAGGGGAGGTGGTCAGAGACAAGCTCAGCCTCATTGGGGCTCTGATCTCTTGCCTTAGGTCTTGCTGGAGAACACAAATCTCTCGGCTA
Celera SNP ID:            hCV16223035
SNP Position Genomic:     7558
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5408):
CTTGTCCCCCAGGGGTTTTGACTTGAGCTTTGAGCACTGCCCCAGTTAACACTAGCTCACCTCTCATTGGTTCAGGAACTCAACCTCTGCTCCTTCCCCT
Y
CCCCTTCCTTCTCCAGGACCGCGGAGTGTACCTGTCCCTCCTGGCCTCCCTCCGCACACGTGCCCAGTTGCCCGTGGTGGTGTTCACCTTCTCCCGGGGC
Celera SNP ID:            hCV16069785
SNP Position Genomic:     11092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5409):
GTGGGAGGGAGCAAGCCCTCTCTCCATTTTCCCCACTTGGCCAGGGCAGGTTGCGTCATCATAGGGCCCTCATTTTCCCCTCTTGCCCTCCTTTTCACCC
T
CTCCCTTCCCATCACCACATCATGCTCACTCCTTCCTCCCACCACCCCAAGAAGTCTGCTCTGATCGCTTGACTTGGTTGCCCCTCTCTACTGGTGAGCT
Celera SNP ID:            hCV27301774
SNP Position Genomic:     14705
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,7)   total(T,7|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5410):
GTAGAGGTGGGTGGGGCAGTGGTTGGGGCAGGGGGGCTAGGGGACAGCAGTGTGTCCAATGCCCACCCTTTTTCTTGCAGGTGCTCCGAACCCTGGGTTA
Y
GTGGACGAGGCGGGCACTGTGAAGCTGGCAGGGCGGGTGGCTTGTGCCATGAGCAGCCATGAGTTGCTCCTCACTGAGCTCATGTTTGACAATGCACTGA
Celera SNP ID:            hCV940310
SNP Position Genomic:     16087
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION;INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:5411):
CTGGGAGCCCCAGTCCCATCCGACCTACAGGCCCAAAGACACCCAACCACAGGCCAGATACTGGGTTACAAAGAGGTAGGAGGTCAGGGGTCATGAGAAA
M
AGTTGGGGAGAAGGGGAGGTGGTCAGAGACAAGCTCAGCCTCATTGGGGCTCTGATCTCTTGCCTTAGGTCTTGCTGGAGAACACAAATCTCTCGGCTAC
Celera SNP ID:            hCV16223036
SNP Position Genomic:     7559
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5412):
CCTCTTGCCCTCCTTTTCACCCTCTCCCTTCCCATCACCACATCATGCTCACTCCTTCCTCCCACCACCCCAAGAAGTCTGCTCTGATCGCTTGACTTGG
K
TGCCCCTCTCTACTGGTGAGCTCTGCATGGTTGCTTCCTGATTCCTGCCCAAGGGTGGGTATCTGGTCTCTGCCTTTGATGTCTACTCATCACACCCCCC
Celera SNP ID:            hCV27301775
SNP Position Genomic:     14783
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5413):
CAGGTGACCCCCTCCAGCCCTGTAAGTGCCCCAAGGATGGAAAATGGCTGCCTTCTTGATCTGGTCCTTCCCTGTCCTGGAGCAGGAAGGCAGGCCTTAA
Y
CTCTCCTTCTTTCCTGCAGGGAATAGAACGTGTCCGGGCTGTGGCCAAGCGGATTGGTGAGGTCCAGGTGGCTTGTGGCCTGAACCAGACGGTGGAGGAA
Celera SNP ID:            hCV940311
SNP Position Genomic:     16456
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;hmCS

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


Context             (SEQ ID NO:5414):
GAATGCCCCATGTAAAAACATGATGATAAAACAGCAAAGCACTGTTGTGTGCTTGAGTTGCTGGACAGGGATGACTCAGCTAAGAAGACAGCGAGAGAAC
Y
TCTTAGAAATATGCTTTTATTATCTGCACACAGAGATATGACTGCCTCCCTCTAAAGCATTACTATTTGGGAGAGGGAGTCTTGGGGGGTGATGGGAGGT
Celera SNP ID:            hCV27466624
SNP Position Genomic:     17010
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:5415):
GCCTGACATGACTGGCCAACTGGTCGACCTGCCTGAATATTACAGCTGGGGGGAGGAACTGACAGAGACCCAGCACATGATCCAGGTGAGCAAGTGTGAG
W
GCTGAGGAGGTGATAGGAGAAGGGAAGAGAAGATCGTGTTACTCTAGGTGCTACTAAACTTAGTCCAAGTGTCTGTCCCTGTGATGCCTCCTCCCATCTG
Celera SNP ID:            hCV25630780
SNP Position Genomic:     14353
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:5416):
TTGCCCCTCTCTACTGGTGAGCTCTGCATGGTTGCTTCCTGATTCCTGCCCAAGGGTGGGTATCTGGTCTCTGCCTTTGATGTCTACTCATCACACCCCC
S
TCTCCTGGCCTCTCTGACCACCCCCAGGTCTCCTCGAACTCCACCAGCAGAGTATTCACAACCCTGGTCTTGTGTGATAAGCCCTTGTCCCAGGACCCAC
Celera SNP ID:            hCV25630781
SNP Position Genomic:     14883
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:5417):
CCGGGGGGTATCACCAACATGGTGGCTCCTAGTTCAGGGGCAGGGCCCAAGACATCTTTCTCCACTGTTACCACCCGGGGTTCACACGCCGTCCACACTG
Y
ACCCAACCCCACCCCTTCAGGTCTGCCTACTCTTGTCTTTGGCTTTCCCTACCCCTTGCTTAAACCAGGCTGCTGTCCAAGCTCCCGCTGGTCGGGATCA
Celera SNP ID:            hCV29415957
SNP Position Genomic:     5723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5418):
ATGCCCCATGTAAAAACATGATGATAAAACAGCAAAGCACTGTTGTGTGCTTGAGTTGCTGGACAGGGATGACTCAGCTAAGAAGACAGCGAGAGAACCT
Y
TTAGAAATATGCTTTTATTATCTGCACACAGAGATATGACTGCCTCCCTCTAAAGCATTACTATTTGGGAGAGGGAGTCTTGGGGGGTGATGGGAGGTCC
Celera SNP ID:            hCV27469317
SNP Position Genomic:     17012
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:5419):
GCGGCCAGCCTCTACACCCAGTGAATGCCCCATGTAAAAACATGATGATAAAACAGCAAAGCACTGTTGTGTGCTTGAGTTGCTGGACAGGGATGACTCA
S
CTAAGAAGACAGCGAGAGAACCTCTTAGAAATATGCTTTTATTATCTGCACACAGAGATATGACTGCCTCCCTCTAAAGCATTACTATTTGGGAGAGGGA
Celera SNP ID:            hCV25630782
SNP Position Genomic:     16988
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,12)   caucasian(C,4|G,8)   total(C,8|G,20)
SNP Type:                 UTR 3;TFBS


Context             (SEQ ID NO:5420):
ATCAGTCATTGCTGCTGCTTCCTGAGTACCATCAGCGAGTAGAGGTGGGTGGGGCAGTGGTTGGGGCAGGGGGGCTAGGGGACAGCAGTGTGTCCAATGC
Y
CACCCTTTTTCTTGCAGGTGCTCCGAACCCTGGGTTACGTGGACGAGGCGGGCACTGTGAAGCTGGCAGGGCGGGTGGCTTGTGCCATGAGCAGCCATGA
Celera SNP ID:            hCV16166653
SNP Position Genomic:     16049
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;JBIC-allele(T,149|C,1328)   total(C,1328|T,149)
SNP Type:                 INTRON


Context             (SEQ ID NO:5421):
TTTATCCTCTTTCCTTACCTAATGCCTCTCATCTTGCCCTTGTTTCAGCTTCCCCATGGCCTCCCTCCTTGTGCCCCAGATCTGCAGCAAGAAGCAGAAC
R
GTTGTTTCTGTCATCCCCAGCCTGGCTGCCTCTGCATGGTGTGGAGCACTCAGCCCGGTGAGGAGTCTGGAGGGGCTTAGACTAGGGTGATGGGTTCCTG
Celera SNP ID:            hCV25630783
SNP Position Genomic:     7258
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:5422):
TGTGCTGGGTGCCAAGATGGAGACAGCGGCTACCTTGCTACGGCGGGACATCGTATTTGCGGCCAGCCTCTACACCCAGTGAATGCCCCATGTAAAAACA
Y
GATGATAAAACAGCAAAGCACTGTTGTGTGCTTGAGTTGCTGGACAGGGATGACTCAGCTAAGAAGACAGCGAGAGAACCTCTTAGAAATATGCTTTTAT
Celera SNP ID:            hCV16166654
SNP Position Genomic:     16930
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:5423):
CGGAAAACGCGGTAACCAAGGCGGCCCCAGGCGCGCACTTCCGCCCGGCCTTCCACCGGTCCAGGTCTGCCCCTCCGCAGCGATAGTTCACGCTCTCGGC
R
GGGCTGTACCGGAAGTTGCCTCTACTTCCGCCCGTTCCGGGGCGGGGCTTACTTCGCAGCGACTACTTGCCGCACTTCCGGGCTGCCAGGCAGCTGCTGT
Celera SNP ID:            hCV27849200
SNP Position Genomic:     6279
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:5424):
CAGTATCCCTTCTGGCCAGGTGACTCTTGTGGAGATGGGATGGTAGAAGAGGGTGTCTTTAATCTCCAGGGAAGGGTTCCCCACCTATCTCGTATTACCC
K
CATCCCATGAATCCCTGTCTGTCCTGTCTCTTCCCAGGGGGGATGGATGAACCCACCATAACAGATCTGAACACACGGGAGGAGGCTGAGGAGGAGATAG
Celera SNP ID:            hCV25630784
SNP Position Genomic:     7824
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:5425):
AGGCGGCCCCAGGCGCGCACTTCCGCCCGGCCTTCCACCGGTCCAGGTCTGCCCCTCCGCAGCGATAGTTCACGCTCTCGGCGGGGCTGTACCGGAAGTT
S
CCTCTACTTCCGCCCGTTCCGGGGCGGGGCTTACTTCGCAGCGACTACTTGCCGCACTTCCGGGCTGCCAGGCAGCTGCTGTGGCTCCAGGATGATGGAG
Celera SNP ID:            hCV27849201
SNP Position Genomic:     6297
SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(C,2|G,20)   total(C,2|G,52)
SNP Type:                 UTR 5;TFBS


Context             (SEQ ID NO:5426):
TGGGGCAGTGGTTGGGGCAGGGGGGCTAGGGGACAGCAGTGTGTCCAATGCCCACCCTTTTTCTTGCAGGTGCTCCGAACCCTGGGTTACGTGGACGAGG
Y
GGGCACTGTGAAGCTGGCAGGGCGGGTGGCTTGTGCCATGAGCAGCCATGAGTTGCTCCTCACTGAGCTCATGTTTGACAATGCACTGAGCACCCTGCGG
Celera SNP ID:            hCV3125470
SNP Position Genomic:     16098
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,10)      total(C,10|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:5427):
CCCAGTCCCATCCGACCTACAGGCCCAAAGACACCCAACCACAGGCCAGATACTGGGTTACAAAGAGGTAGGAGGTCAGGGGTCATGAGAAACAGTTGGG
K
AGAAGGGGAGGTGGTCAGAGACAAGCTCAGCCTCATTGGGGCTCTGATCTCTTGCCTTAGGTCTTGCTGGAGAACACAAATCTCTCGGCTACAACCTCCT
Celera SNP ID:            hCV25630785
SNP Position Genomic:     7567
SNP Source:               Applera
Population(Allele,Count): african american(G,34|T,2)   caucasian(G,39|T,1)   total(G,73|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:5428):
TTCAGAAACAGGCCATCCTGCACTTGGAACGGCATGACTCTGTCTTTGTCGCAGCTCACACATCTGCAGGAAAAACAGTTGTGGCTGAATATGCCATTGC
Y
CTGGCCCAGAAACACATGACACGGTATGAGTTCCTTTGCCAACCTCCCCCTTCACCAGCCAGCCCCATTTTCTCCTGCATCCTTTGAAAATCTCATCTCT
Celera SNP ID:            hCV25630786
SNP Position Genomic:     9227
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:5429):
CAAGGCCCCGCTCCTTTCTTCAGCTCCTGTCTATTTCTCTCTCCCATAGTGGGCATTTGAGCCAGATGTGTTTCAGAAACAGGCCATCCTGCACTTGGAA
Y
GGCATGACTCTGTCTTTGTCGCAGCTCACACATCTGCAGGAAAAACAGTTGTGGCTGAATATGCCATTGCCCTGGCCCAGAAACACATGACACGGTATGA
Celera SNP ID:            hCV25630787
SNP Position Genomic:     9156
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,37|T,1)   total(C,73|T,3)
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:5430):
CCCATAGCCTCCGCACACACTCTGACCTCGATCATCTCTAGGAAACCCAAGGATGTGTGGGGGAACCAAAAGGAATGGCCTGTGGGGGAGAGGATGGGAA
R
GGAAGAATCCCATTCTTACCGAGGGAGCCCCAGACAGACTTGCCAGTAGCGGCATCCAGCATGGGCTGTTTTCGGGCTATGTTGACTTTGAGCTGTACAG
Celera SNP ID:            hCV25966415
SNP Position Genomic:     905
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,39|G,1)   total(A,75|G,1)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:5431):
ACAAGAGCCCAGAGAGAAATGAAAAGACATGGTGGGGAGAAAGTTTAGAAGAATGACCTGGGTTAGTTTAGGAAGGGGTTGGGGACAGAATTTTTCTGGG
R
TTATATCATGCAGGAGAATGTAAGGGCAGTTTGGGTGAAGAAGAGGAGCACCTGAGCTTCTGGGGCATGCTTCCACGAGGGCTCCATGTGGGAGAGGAAG
Celera SNP ID:            hCV25630788
SNP Position Genomic:     9482
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,3|G,35)   total(A,3|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:5432):
CATGTTTTTGAGAAAATTAGAAAAAGATATTCTGTCCATAACAACCTTTACTGTCATCTGCTGGGAAATTTCTACAACAACCTTTACTGTCATCTGTTGG
R
AAAGTGTCATAGCAAACATCCCTATCTACAGCATCTGTCCTGTAAATGGTATCTTTTAGGTTTATATAATGTACACAATTTGTTCACCAGTGTGCAGTGA
Celera SNP ID:            hCV3125458
SNP Position Genomic:     8110
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:5433):
CTTCTCCTAAGGAACAGAGATGGACATGACAAGGTTGACCTTGTTGGCTTGCTCCTCAGATTGTCCAACTCCAGCTCCTGGACTACTAAGCCTTAGCTGT
M
TGTTGGAGCCTCTGGATTTGGGTGGGGGTGACGAGGATGAGAATGAGGCAGTGGGACAGCCAGGAGGTCCCAGAGGGGACACTGTTTCAGCCTCTCCCTG
Celera SNP ID:            hCV3125459
SNP Position Genomic:     8433
SNP Source:               Applera
Population(Allele,Count): african american(A,6|C,32)   caucasian(A,17|C,21)   total(A,23|C,53)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(A,5|C,12)      total(A,5|C,12) ;no_pop(A,-|C,-)   ;no_pop(A,-|C,-)   JBIC-allele(A,508|C,989)   total(A,508|C,989)   SC_12_CA(C,12|A,14)   SC_12_AA(C,9|A,17)   total(A,31|C,21) 
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:5434):
ACCAGAAGTTCCGGGACTTCCGAAACACATTCGGGGATGTGGGGCTGCTCACCGGGGATGTACAGCTGCATCCGGAGGCCTCCTGCCTCATCATGACCAC
R
GAGATCCTTCGGTGAGAGATGGACACTCAATACAGGGGAGTTTTGGCTGGGAAGATGTGGCCGTTGTGGAGAGTGTGCTGTCTGAGGAGTGGGTGGAGAC
Celera SNP ID:            hCV7515171
SNP Position Genomic:     9770
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   SG_12_A(G,4|A,19)   SG_12_G(G,1|A,22)   total(G,5|A,41)    
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:5435):
TCCTGGCCTCTCTGACCACCCCCAGGTCTCCTCGAACTCCACCAGCAGAGTATTCACAACCCTGGTCTTGTGTGATAAGCCCTTGTCCCAGGACCCACAG
R
ACAGGGGGCCAGCCACTGCAGAGGTGCCCTATCCAGATGACCTCGTGGGATTCAAGCTGTTCCTGCCTGAAGGTGAGAGTGTGGCAGATGTCTGTTTTCT
Celera SNP ID:            hCV7515190
SNP Position Genomic:     14986
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,2|G,36)   total(A,3|G,73)
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:5436):
AGTAGGATCTAGCTTAACCTTGTTCATCTGTGCCTGTACTCCTGTCCATCCCAGCCTGAAGGGGTGCTGGACAGATTACAGCCCAGTGTACCTGCAGTAC
R
TGTGAGGACAGAGCAGAAAGGGCTGGGGATATTTTTGCTTTGAGAGCTGCTCTTTCAAATGTGGCATTTCTCCGTGGAGCTCCCTTCTGTATCCAAGCAC
Celera SNP ID:            hCV940300
SNP Position Genomic:     6761
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;JBIC-allele(A,517|G,970)   total(G,970|A,517)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5437):
TGGAGCAGGAAGGCAGGCCTTAACCTCTCCTTCTTTCCTGCAGGGAATAGAACGTGTCCGGGCTGTGGCCAAGCGGATTGGTGAGGTCCAGGTGGCTTGT
S
GCCTGAACCAGACGGTGGAGGAATTTGTGGGGGAGCTGAATTTTGGGCTGGTTGAGGTTGTATATGAGTGGGCCCGGGGCATGGTGAGTACCTGAGGTTT
Celera SNP ID:            hCV16069792
SNP Position Genomic:     16533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:5438):
TAGGTCTTGCTGGAGAACACAAATCTCTCGGCTACAACCTCCTTGTCTCTTCGCCGGCCTCCAGGGCCAGCCTCCCAGTCCTTATGGGGAAATCCAACTC
R
GTATCCCTTCTGGCCAGGTGACTCTTGTGGAGATGGGATGGTAGAAGAGGGTGTCTTTAATCTCCAGGGAAGGGTTCCCCACCTATCTCGTATTACCCTC
Celera SNP ID:            hCV940301
SNP Position Genomic:     7725
SNP Source:               Applera
Population(Allele,Count): african american(A,29|G,7)   caucasian(A,38)   total(A,67|G,7)
SNP Type:                 MISSENSE MUTATION;hmCS

SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   (G,-|A,-)   JBIC-allele(G,128|A,1375)   total(G,128|A,1375)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:5439):
CATAGCAAACATCCCTATCTACAGCATCTGTCCTGTAAATGGTATCTTTTAGGTTTATATAATGTACACAATTTGTTCACCAGTGTGCAGTGACCTGATT
Y
CATGTCCCTATCCTACAGATCTTCTTACTATTCCACCTGGTTTCAAGAAAGGCATGGACTTTGCACCAAAAGGTTAGTTTTAGTTTTTGAGTGGGGTGTA
Celera SNP ID:            hCV940302
SNP Position Genomic:     8218
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,20|T,16)   total(C,52|T,22)
SNP Type:                 INTRON;TFBS

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


Context             (SEQ ID NO:5440):
GAGCAGGAAGGCAGGCCTTAACCTCTCCTTCTTTCCTGCAGGGAATAGAACGTGTCCGGGCTGTGGCCAAGCGGATTGGTGAGGTCCAGGTGGCTTGTGG
S
CTGAACCAGACGGTGGAGGAATTTGTGGGGGAGCTGAATTTTGGGCTGGTTGAGGTTGTATATGAGTGGGCCCGGGGCATGGTGAGTACCTGAGGTTTGG
Celera SNP ID:            hCV16284865
SNP Position Genomic:     16535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:5441):
TCATGACCACAGAGATCCTTCGGTGAGAGATGGACACTCAATACAGGGGAGTTTTGGCTGGGAAGATGTGGCCGTTGTGGAGAGTGTGCTGTCTGAGGAG
K
GGGTGGAGACGAGCCACTGGGGAGTCAATCCTTGGCCTCTTCTCCCCAGCTCCATGCTGTACAGTGGCTCAGATGTTATTCGGGACCTGGAGTGGGTCAT
Celera SNP ID:            hCV940303
SNP Position Genomic:     9860
SNP Source:               Celera;HGBASE;dbSNP
Population(Allele,Count): no_pop(G,3|T,12)      total(G,3|T,12) ;no_pop(G,-|T,-)   ;(G,-|T,-)   no_pop(T,-|G,-)   JBIG-allele(T,647|G,802)   total(T,647|G,802)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5442):
GGTGAGAGATGGACACTCAATACAGGGGAGTTTTGGCTGGGAAGATGTGGCCGTTGTGGAGAGTGTGCTGTCTGAGGAGTGGGTGGAGACGAGCCACTGG
R
GAGTCAATCCTTGGCCTCTTCTCCCCAGCTCCATGCTGTACAGTGGCTCAGATGTTATTCGGGACCTGGAGTGGGTCATCTTTGATGAGGTTCACTATAT
Celera SNP ID:            hCV940304
SNP Position Genomic:     9881
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


Context             (SEQ ID NO:5443):
TGCATGTTGAAATGGGATGAGATGTTGGGGGATAGCCTTCCATTCTGGGTCTCAGAAAAGACTGGGTAAAGTTGGAGGGGTAGGGAAGGGGGTGGGGATG
Y
GGGTTCCTTCCCACGTTCCCACCCCTGACCTGCTTCCCTCTCCTTTCTTCAGGCGGCTGAAGCGTCGTCAGATCTATGTGATTAGCACTGTAACCCGCCC
Celera SNP ID:            hCV940305
SNP Position Genomic:     10556
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5444):
CAAGGAGATCGTGGAGATGCTCTTCAGCCGTGGCCTGGTCAAGGTGCATGTGGTGGTGGAAAGGGACTCCTCAGGGTGCTTGTTGCCCACTTAGGGGCTG
Y
CCAGAGGGCAGAGGGGCAGAGGTTTAGGCAGGCCAGTGCTGTGGTTAAGAATCTGGGCTCTGGATTCAGACTACCTGGGTTTGAATCCCAGGTACACCAT
Celera SNP ID:            hCV940306
SNP Position Genomic:     11596
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,9)   caucasian(C,31|T,1)   total(C,60|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:5445):
CTCCCATGTGAATATGGAGCTAGATGGGGCCTTTGAGTCCATTTATTTCAGTTTGCTCCCTTATGTTACAGAAGAGGTGAGCAAGTGGTTTGTCCAAGGC
Y
CCATGGTTGCAGAGCTAGGACCGGATCTGACGGGAGTAGGCCCAGTCCAGAAGACTGGCTGGGGTTCAGTAGGTCCCACCCTGATCTCAGTGACTTCTGT
Celera SNP ID:            hCV940307
SNP Position Genomic:     13791
SNP Source:               dbSNP
Population(Allele,Count): SC_12_C(T,3|C,21)   SC_12_TT(T,6|C,10)   SC_95_C(T,12|C,148)   total(C,179|T,21)JBIC-allele(T,150|C,1351)   total(C,1351|T,150)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5446):
GGCAGATGTCTGTTTTCTGCCAGCAGTATAAGCAGGATGCCTGGGTCCATGGCAATGTCTGCCCTGCTCTCCCCTTTTCACAGGGCCTTGTGACCACACC
R
TGGTCAAGCTCCAGCCAGGAGATATGGCTGCCATCACCACCAAGGTGCTCCGGGTGAATGGGGAGAAGATCTTGGAGGACTTCAGCAAGAGGCAGCAGCC
Celera SNP ID:            hCV940309
SNP Position Genomic:     15169
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
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:5447):
TGAAGGTTGGTGGTTCTGTGTAGTGGAGGCAAGAAAGAGCCTTGCCACCAGGATGTGGGCTGGCTAGGATGGGTCTGAGGGGAAGAAAGGGACATCTTTT
K
GGAGGAGTGCTAATTGAGAGCCCTCTGGTTGTATCTTTATCACTGCTACCCCTGACTCTTCCAGGAAGCGTCCACAGCTGTATCCACCCCAGAGGCCCCA
Celera SNP ID:            hCV15926792
SNP Position Genomic:     8678
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5448):
GAGATGTGTCGCTCACTGCGGGGGGCAGCCCGCCTGGTAGGAGAGCCTGTGCTGGGTGCCAAGATGGAGACAGCGGCTACCTTGCTACGGCGGGACATCG
K
ATTTGCGGCCAGCCTCTACACCCAGTGAATGCCCCATGTAAAAACATGATGATAAAACAGCAAAGCACTGTTGTGTGCTTGAGTTGCTGGACAGGGATGA
Celera SNP ID:            hCV15926793
SNP Position Genomic:     16883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:5449):
AGGTGAGAACTGGGAGGGTTTTGTACCTGCCAGCACCTGTTTTTCCTCCTATCTTTTTTTTCCCCTTGTCCCCCAGGGGTTTTGACTTGAGCTTTGAGCA
Y
TGCCCCAGTTAACACTAGCTCACCTCTCATTGGTTCAGGAACTCAACCTCTGCTCCTTCCCCTTCCCCTTCCTTCTCCAGGACCGCGGAGTGTACCTGTC
Celera SNP ID:            hCV3125460
SNP Position Genomic:     11028
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Gene Number:                 26
Celera Gene:                 hCG43706 - 104000116819540
Gene Symbol:                 DOM3Z
Protein Name:                dom-3 homolog Z (C. elegans);DOM3L;NG6
Celera Genomic Axis:         GA_x5YUV32W6W6(4995668..5010350)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1687):
CTGTTGAAAATTAACTAAAATCCTGGATAAAAATGTTATTTTAAAATTGTTTAAGACCAGGTACAGTGGCTCATGCCTGTAATTCAGCATTTTGGGAGGC
TGAGGTAGCAGGATCAATTGAGGACAGGAGTTCGAGACCAGTCTGGGCAACACAGTGAGACCCCCCCACCCGCCACATCTCTACAAAAAATGTAAAAACA
GCCAGGCGTGGGGGCAGACACCTATGGTCCTAGCTACTTGGGAGACTAAGGCAAGAGGATCACTTGACCCAGGAGTTTGAGGCTGCAGTAAGATATGATT
GCAACTGGGCAACACAGTGAGACCCCATCTCTTAAAAAAAATTGTTTAGACACTAAAGAGCTCACAGGATAACAGGAATTACCACTAATATAACATCTAA
GTAGGCCGGGCGAGATGGCTCAAGCCTGTAATCCCGGCACTTTGGGAGGCTGACGTGGGTGGATCACCTGAGGTCAGGAGTTCAATATCAGCCTGACCAA
TATGGTAAAACCCCGTCTCTACTAAAACTACAAAAATTAGCCGGGCGTGGTGATGTGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGACACAGGAGAACT
GCTTGAACCCAGAAAGTTGCTGTGAGCCGAGATCATGCCACTGCGCTCCAGCCTGGGTGACAGAGTGAGACTCTAACTCAAAAAATAAAAATAAAAATAA
CTGGGGCCGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGACGCTAAGGGTGGATCACTTGAGGTCAGAAGTTCAAGTTCAAGACCAGCCTGG
CCAACATGATGAAACCCGGTCTCCATTAAAAATACAAAAATAGGCCAGATGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGCAGGCTGAGACGGGTG
GATCACGAGGTCCGGAGATCAAGACCATCCTGGCTAACACGGTGAAACCCCATCTCTACTAAAAATACAAAAAAAAAAACAATTAGCCAGGCATAGTGGC
GGGCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCGGGAGAATGGGTGAACCCAGGAGGCAGAGCTTGCAGTAAGCCAAGATCATGCCACTGAACTCC
AGCCTGGGTGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAATTAGCTGGGCGTGGTGTCAGGTGCCTGTAATGCCAGCTACTTGGGAGG
CTGAGGCAGGAGAATCACTTGAACTCAGGAGGCAGAGGTTGCAGTGAGCCAAGATCATACCACTGCACTCCAGCTTGGTGACAGGGTAAGACACTGTCTC
AAAAAAAAAAAAGTAATTGGAACATGGAGGGCATTTATTAATCTAGGCAAATCTGCCCAGAACATTTTCAAAAGTAACTGGGCGCATAAGGAAACAAAAC
TCAAAGAGAGAATAAAAACAAACCCCAAAAGACAAGTAATAGTGGAATTATCCTTTCCACGGTCTCCCTCTGATGCCGAGCCGAAGCTGGACTGTACTGC
TGCCATCTCAGCTCACTGCAACCTCCCTGCCTGACTCTCCTGCCTCAGCCTGCCGAGTGCCTGCGATTGCAGGCGCGCGCCGCCACGCCTGACTGGTTTT
CGTATTTTGTTAGTGGAGACGGGGTTTCGCTGTGTTGGCCGGGCTGGTCTCCAGCTCCTAACCGCGAGTGATCCGCCAGCCTCGGCCTCCGGAGGTGCCG
CGATTGCAGACGGTGTCTGGTTCACTCAGTGCTCAATGGTGCCCAGGCTGGAGTGCAGTGGCGGGATCTCGGCTTGCTACAACCTCCACCTCCCAGCCGC
CTGCCTTGGCCTCCCAAAGTGCCCAGAGTGCAGCCTCTGCCCGGCCGCCACCCCGTCTGGGAAGTGAGGGGCGTCTCTGCCTGGCCGCCCATCGTCTGGG
ATGTGAGGAGCCCCTCTGCCTGGCTGCCCAGTCTGGAAAGTGAGGAGCGTCTCTGCCCGGCCGCCATCCCATCTAGGAAGTGAGGAGCGTCTCTGCCCGG
CCGCTCATCGTCTGAGATGTGGGGAGCGCCTTTGCCCCGCCGCCCCGTCTGGGATGTGAGGAGCGCCTCTGCCCGGCCGCGACCCCGTCTGGGAGGTGAG
GAGGGTCTCTGCCCAGCCTCCCCGTCTGAGAAGGGAGGAGACCCTCCGCCCGGCAGCCGCCCCGTCTGAGAAGTGAGGAGCATCTCCGCCCGGCAGCCGC
CCCCTCCAGGAGGGAGGTGGGGGGGTCAGCCCCCTGCCCGGCCAGCCACCCCGTCCGGGAGGTGAGGGGCGCCCCTGCCCAGCCACCCCTACTGGGAAGT
GAGGAGCCCCTCTGCCCGGCCAGCCGCCCTGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCACGCAGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGG
TCAGCCCCCCACCCGGCCAGCCGCCCCGTCTGGGAGGGAGGTGGTGGGGTCAGCCCCCCCCGCCCGGCCAGCCGCCTCGTCCGGGAGGTGAGGGGCGCCT
CTGCCCGGCCGCCCCTACTGGGAAGTGAGGAGCCCCTCTGCCCGGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCGCCCGGCCAGCC
GCCCTGTCCGGGAGGTGAGGGGCGCCTCTGCCCGGCCGCCCCTGCTGGGAAGTGAGGAGCCCCTCTGCCCGGCCACCACCCCATCTGGGAGGTGTGCCCA
ACAGCTCATTGAGAACGGGCCACGATGACAATGGTGGTTTTGTGGACTAGAAAGCGGGAAAAGGTGGGGAAAAGATTGAGAAATCGGATGGTTGCCGTGT
CTGTGTGGAAAGAGGTAGACATGGGAGACTTTTCAAAAAAAAAAAAAAATAGTGGAATTATCAAAAAGACAATTAAAAAAAAAAAAAACAGCACTTTGGG
AGGCCGAGGCAGGCAGATCATCTGAGTCAGGAGTTTGAGACCAGCCTGGCCAACAGGGTGAAACCCCATCCCTATAAAAATACAAAATTAGGCCGGGTGC
GGTGGATCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGAGGGCAGATCACGAGGTCAGGAGATCAAGACCATTATGGCCAACATGATGAAACCCCC
ATCTCTACTAAAAATACCAAAATTAGCTGGGCATGGTGGCGCGTGCCTGTAGTCTCAGCTAATCAGGACAGTGAGGCAGGAGAATTGCTTGAACCCAGGA
GGCAGAGGTTGCAGTGAGTTGAGATCACACCACTGCACTCCAGCCTGGGCAACAGAGCGACACTCCACCTCAAAAAAAAAAAAAAAAAAGGGAAAACTAA
GGCAACAATGACCACAGCAGTCACCTCCCAGGGACATTCTGATCAGAGACATTTTGATCAGAGAGGGATATATGTGGGATACTGGTCATATTCTATAGTT
TGACCTAGGGAGTGGCTAGATAGGTATCTGCTTTATAAACATCATTTAAATTATATATGTTTATATTTTCATTCTGCAACTTTTAAAGGTTTTTAAAAAC
AAAAGCTAACACCAATACATTAAAATCAACAAATACTCCTTAAGGAGTGGTTCCATCTGGCATGCTTCCTCACGGGAGACCTAGTCAGGGAGACTAGCTC
ACCTCAAGTGAGTGCTAGACTGCCTTCCTTTTCTTTCCTCTTTTCTTGAAAGATCACTATTAACCTTCTACCTGCTAAATCCAATGGACAGATTTCAGTT
CTGGGTTTTTTTGTTGTTGTTTTCATTTTTTTAGAGACAGGGTCTCCCTCTGTYACCCAGCCTGGAGTGCAGTCGTGCAATCATAGCTCACTGCAGCCTC
AAATTCCTGGGCTCAAGCACTCCTTCTGCCTCAACTTCCCAAACAGCTAGAACAATAGGTGCACACCACCATGCCCAGCTAAGAATTTTTGTGTTTTAAT
TTATTTATTTAGTAGAGATGGGATCTCAGTTATTTAGTAAAGATGGGGTCTCACTTTGTTGCCCAGGCTGGTCTCAAACTTTTGGTTTCAAGCTATACTC
CTGCCTCAGTCTCCCAAAGTGGTGGGAGTACAGGCATGAGCCACCACACTCAGCCTAGATTTCAGTTTATATTTTACTTTACCTCTTCCCTCTTCTTAGA
CCACTGTCTTGAATCACAGGTTCTAATACTGCCAACTACTTCACTTTCTCAAAAATCTCTTTACTTTCACAGTAGGCCTCTTCCTGGGTTACTTTTTTTT
TTTTTTTTTTTGAGACAAAGTCTAGCTCTATCACCCAGGGTGGGGTGCAGCGGTGCTATCTCAGCTCACTGCAACCTCCGCCTCCCCAGCTCAAGCAATC
CTCCCACCTCAGCCTCCCCAGTAGCTCTATAGGCGCGTACCACCACGCCTGGCTAATTTTTGTATTTTTTGTAGAGATGGGGTTATGTCATGTTGCCCAT
GCTGGTATCAAACTCATGAGCTCAAGAGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCGGCCTCTGGGTTCCTC
TTAACTCAGGCAAGTCCCTCTCTGCCTCTGTCACAGATTCCTCTTCTTCTGCTTTCCCTTTATGTCAGTGGATCTCAAATTTTAAGGCACACTTAAAAAG
CACTTGAGGCAGTTCAAAAATGTAGAGTCCCAAATCCCGCCCCAAGAGAGCGTAATTCATTAACCTTGGATGAGTCCCAGGAACCTGTATTTTTTTTAAC
AAGCAGCCCACGTAATTTTGACACAGGCATAATAACTCAGCTCATATATTCAGTAACACTGCCTTAAATGATGGTGTTTCCCAGCATTGTGGATTTGACC
CTATTAACTTCCACTCTAAACCTGGAGTCCTTAACCACGGACCTCGCAGGATTAGTAAAATATTTCCCCCCTAACTATACATACACCCTATGTATATGTG
GCAAACGTGCATTTTTCTGGAGAGAGATAGCCATAGCTTTTATCACCTTCTAAAGATTACAAAAAGGTTAGAAATCACTCCTCTACCCACTCTTCCTACT
GGATCTCACCACATCACAGAATTAACCACTTGCTATTCACACCTCCATGACTTGTAATTCTATTATCACTGGCCCAGAATTCTCTCCAACTCTCATATCC
AACTGTCTAATACCTTTGTCTTTGGATGCTCCACATGCACCATCAACTCAACTTGTATAAAATTAAACACATTATCTGTAGTCCAACAACTAAATGTGCT
CCTAATACCACCAGCCACGCAGTCATCTGGAAAGTCTGAGTTGTCCTGGACTCCTCCCTCTTCCTCACTCTCCTCTCCCTCCCTACTGCACTGACCTAAT
TTAGGCCTTCACCACTTCTCAGATGCAGTATCTTCTTAGCTGACCTCCCTGCCTCATCCACTATCTCCAAYACACCATTCCCTCTCTCTATGATATTCTC
TACCAGCCCATCGCCTCAGTGTAAGATGGAAACAACACTGATGTACAAGGCCTGTCATGATCTGACGTCTGACTGCACTCCCAGCGCTGTATGTTCGAAC
CATGCCCCATGACTCGGTTTCCCCAAAAGCCTCGTTCTTCTACCTCCATGATTTGAAATGCCCTGTACTACCTGCGGGACTTTTAACAGGGTCTCTGTGG
CACCCCAGTGCCTGGCACAGTGCCCTCGCCTGAAAGGCCTAATGCTTGCTGAACGGCTGGCGGAGTGACTGAGTGACAGGGAATTCCAGGAGTTAGGAAA
GGGGCTTCCGGCGGTCGCACCGACGCCCCTCACCAGCTGCCGGTCGGCCACGGTCCTGTCAGGCACAAGGCTGTACACCTGGCTCCTCAGCACGATGGGC
GGCAGCGCGTCCTCAAACAGGCCTCGCGGGAACAGCTGCATGAGTTCTGAGACAGCCGCGCGCGCCGACCCTGGGCAGATAAATCGGCTCACGGACAGGG
AACTGGGGCGGGGACGCGGTTCTAACAAAACTCTCGGCTACCGGAAGCGAGGMCCCACCCCCGGGGTTGCCATGGTTACCTGGCTCACCCCGAAGAGGAT
CCGACTCCACAGGCCCTCGCTTCCGCCGCCTCTTAACTCCAAAGGTCTCCGGGATCAGGTGATGCCTCTTCCAGCTCATATCCCGGGATTTTATGGTACC
GGGGAAGGGGTAGGAATGGAGGGAAGAGAACCTGAAAATAGGGTCTTCCGGCGCAGAGCAGTGACGTACGGTCTCCCCGGGCGTCCCTCCTAGACCAGGT
GATGACGAAAGGAGCGTCAACTTGTCGTCCCTCAGGCCCGTCAGTGCTGGGAGGGGCGGTGGCGACGCACATACCAGCATCACCTCCGCCAGGCCGGGCC
CCACGCCGGCCGCGGATTGGCTCCCTCCAAGGGCACGCACGCCCGGGGACTCGTTGGCGGCGTGGAGGGGCGCCGGTGKCCACGTTGGTGTCAACCTCCT
TCGTGAAGCTCACACCTCCCCCGCCCCGGGAGGGGTTTGCCCGCCACTGTCGCTGAATGATTGCATCATCGAAAGCAGAAAACCACTTTTGCATCCTTCG
GCCTCTGGCGTGCCTGCCATGACGTCATAGCTCTGCGGAGGTGGAAGTTGGGGAGCTTTGAGGTAACTGGATTCTTGATCTGAGCGCAGACGTCCTTCCT
AACCTCACTGCATTTGGAGGACCTGGAGGGAGGGTGGGTGAAGGGCAAGGAAAGAGGCAGGATGAGAGCTTGGCCGCGGTGGCGTCTGAGGGGCCTGAAT
GTTTCAAGGCCAGAGCCTGGCGATCAGGTGGCTCGCTTAGTCCKAAACCAGTCATCCTTCTCCAGGCCTCCTCTGTAGAATGGAAACTCTGTACCCCTGC
TTGTCTTAGGACCTCATGGATCCCAGGGGGACCAAGAGAGGAGCTGAGAAGACAGAGGTAGCTGAGCCTCGGAACAAACTACCTCGTCCAGCACCTTCTC
TGCCCACAGACCCTGCCCTCTACTCTGGGCCCTTTCCTTTCTACCGGCGCCCTTCGGAACTGGGCTGCTTCTCCCTGGATGCTCAACGCCAGTACCATGG
AGATGCCCGAGCCCTGCGCTACTATAGCCCACCCCCCACTAACGGTCCAGGCCCCAACTTTGACCTCAGAGACGGATACCCGGATCGATACCAGCCCCGG
GACGAGGAGGTCCAGGAAAGGCTGGACCACCTGCTGTGCTGGCTCCTGGAACACCGAGGCCGGTTGGAGGGGTGAGCAAAGCGTGGTAGGCAGTATATCT
GGAGACCCGTACCTACCCTCTAAAATTAGGAGAGCCAAAGCCGGGGTGAGAATCAGTCCTTAGAAGAAACAAGACTATTCTTCGAGGGGAGCATCTCACT
AATGCTTGTGTCAGACCTTCAGCCTGTAACTCCTGCCTCTCAGGGGTCCAGGCTGGCTGGCAGAGGCCATAGTGACGTGGCGGGGGCACCTGACAAAACT
GCTGACGACAYCGTATGAGCGGCAGGAGGGCTGGCAGCTGGCAGCCTCCCGGTTCCAGGGAACACTATACCTGAGTGAAGTGGAGACACCGAACGCTCGG
GCCCAGAGGCTTGCTCGGCCACCGCTCCTCCGGGAGCTTATGTACATGGGATACAAATTTGAGCAGTACATGTGTGCAGGTGAGTTGCCCCTGCTTCATA
GCCCCCTTCCCCTTCCCAGAGGTTGAGAGCCCSCCAMKCCTGCTGCTGCTTCTCTCCTTGTGCAGACAAACCTGGAAGWWCCCCAGACCCCTCTGGGGAG
GTTAACACCAACGTGGCCTTCTGCTCTGTGCTACGCAGCCGCCTGGGAAGCCACCCTCTYCTCTTCTCAGGGGAGGTAGACTGCAWAGACCCCCAAGCCC
CATCCACACAGCCCCCRACCTGCTATGTGGAGCTCAAGACCTCCAAGGAGATGCAHAGCCCTGGCCAATGGAGGAGTTTCTACAGGTTCAGGATCGGGGT
GGGCAGGGCGAGASSTTAGGCTTGAAGGCTGGGAAAGGGACTTGGGGAGGAGGGTGAAGGCAGAATGGAGGGTGCACGAGGGGTCCCACTGATCCCTTGC
TTTTCCTGTCAGACACAAGCTCCTGAAATGGTGGGCTCAGTCATTCCTCCCAGGGGTCCCGAATGTTGTTGCTGGCTTCCGTAACCCAGACGGTTTTGTC
TCTTCCCTCAAGACCTTTCCTACCATGAAGATGTTTGAATATGTCAGGGTAAGGGAACGAYGTTGCAGCTCCCACCCGTATCCCCAAACACCAASRCCAC
AGGTCTAGCATCCAGGGCAACAGCCTGCCTTCTCTCCTCCCACCACCCCCACTGCCCATCTTCTGCCTCCTCCTCTGCCTGCTCCAGAATGACCGTGACG
GCTGGAATCCCTCTGTGTGCATGAACTTCTGTGCCGCCTTCCTTAGCTTTGCCCAGAGCACGGTTGTCCAGGATGACCCCAGGTGAGGCATTCAGCTCTG
TMCCTCCCCTCTGGATCCCAGGATCCAGCCTCTGGCCCTCAACTGATGCCTCCATCTGCCCCCCAGGCTCGTTCATCTCTTCTCTTGGGAGCCTGGCGGC
CCAGTCACCGTGTCTGTACACCAAGATGCACCTTACGCCTTCCTGCCCATATGGTATGTGGAAGCTATGACTCAGGACCTCCCATCACCCCCCAAGACTC
CCTCTCCCAAATAGTAATGCTTTAGAGGGAGGCAGTCATATCTCTGTGTGCAGATAATAAAAGCATATTTCTAARARGTTCTCTCGCTGTCTTCTTAGST
GAGTCATCCCTGTCCAGCAACTCAAGCACACAACAGTGCTTTGCTGTTTTATCATCATGTTTTTACATGGGGCATTCACTGGGTGTAGAGGCTGGCCGCA
AATMCGATGTCCCGCCGTAGCAAGGTAGCCGCTGTCTCCATCTTGGCACCCAGCACAGGCTCTCCTACCAGGCGGGCTGCCCCCCGCAGTGAGCGACACA
TCTCAGCCAGGCGCTGAATGCAGCGGACCACCAGGCCCTCAGGGGTCCCTGAGAGCCCTGCCAACTCGGAGAAGGGCTGTGGGGAAAGTAGGGTGAGGAC
TGGATGCACTCAGCCTGGGCAGGTTCTCCCCAGCCAGCCGTCTGCAAAATCCCAAACCTCAGGTACTCACCATGCCCCGGGCCCACTCATATACAACCTC
AACCAGCCCAAAATTCAGCTCCCCCACAAATTCCTCCACCGTCTGGTTCAGSCSACAAGCCACCTGGACCTCACCAATCCGCTTGGCCACAGCCCGGACA
CGTTCTATTCCCTGCAGGAAAGAAGGAGAGRTTAAGGCCTGCCTTCCTGCTCCAGGACAGGGAAGGACCAGATCAAGAAGGCAGCCATTTTCCATCCTTG
GGGCACTTACAGGGCTGGAGGGGGTCACCTGGGGGACTACCTGAAGGTGAAGGTCAGGAATGCCACAGCCCTGGCAGGGAGAAAGGGGTGGTGTCCCCTA
CCTGCTTGAGGGTGTTTGGGAGCTGATCCCCAGCGTCCCCAGGGCTCTGGCAGACCAGGCCAGAGAGCAAGGCAGCAATCTCCTCAGGCCGCAGGGTGCT
CAGTGCATTGTCAAACATGAGCTCAGTGAGGAGCAACTCATGGCTGCTCATGGCACAAGCCACCCGCCCTGCCAGCTTCACAGTGCCCRCCTCRTCCACR
TAACCCAGGGTTCGGAGCACCTGCAAGAAAAAGGGTGGGCATTGGACACACTGCTGTCCCCTAGCCCCCCTGCCCCAACCACTGCCCCACCCACCTCTAC
TCGCTGATGGTACTCAGGAAGCAGCAGCAATGACTGATCCGACAGTAGGAAGCGCAGCCGCTCCATCTCCTTCTGTATCTGCATTCGCTCCCGCAGCTTC
AGGTACTGCAGAGAGCCACCCGTCAGCCTTCTCCTTGCCCCTTAGCAGGGGTGCACTGAGGACAAGGGCTGAGATGGGGGCGGTCAGTCTACAGGGGACC
ACAGAGGAAAAGCCCCTACTCCCAGCTTGGGAGTTACCACCCAGGGTCCTACCTGGGCAGGAAAACGGGGGCTGTGTACACACTGAGCCCCCTGGATCAG
CTCCTCCAGCTTCCGGGCCCGGAGCCCACCCTCTACAACTGACATATCTTTGAGCTGCAGGTCATTGACAGGGTCGAGGGTGGGAGGTCCGGCTGGGTGG
GCCTGAGCCAGACGCAGCAGTTCCTGGACAGCAGTGGTCACGGCTGCAAGGGGAGGATCCTTCCTGAAGAGGGAGCAGATCTTAAGATCTGGGGTAAGAT
CTTCTCTCCCCCAGAAGCCTCCCTCAGGCTGTGGAAGCCCTCTTACTACAACCTCCACTTCACAGTCTCCCTTAGGCTGGGGGAGCCCCCTCACTACAAC
CCCACCACTTCATGGTCTCCCTCAGGCTGGAGGAAACTCSCAGACCACTGCCCCTCCCTGCCTCTACGTGCCCCTCTGGAGGAGAAGGGCCTCCCTAGCA
TCTCTGACTTGAATTTTGGCTGCTGCCTCTTGCTGAAGTCCTCCAAGATCTTCTCCCCATTCACCCGGAGCACCTTGGTGGTGATGGCAGCCATATCTCC
TGGCTGGAGCTTGACCAYGGTGTGGTCACAAGGCCCTGTGAAAAGGGGAGAGCAGGGCAGACATTGCCATGGACCCAGGCATCCTGCTTATACTGCTGGC
AGAAAACAGACATCTGCCACACTCTCACCTTCAGGCAGGAACAGCTTGAATCCCACGAGGTCATCTGGATAGGGCACCTCTGCAGTGGCTGGCCCCCTGT
YCTGTGGGTCCTGGGACAAGGGCTTATCACACAAGACCAGGGTTGTGAATACTCTGCTGGTGGAGTTCGAGGAGACCTGGGGGTGGTCAGAGAGGCCAGG
AGAGGGGGGTGTGATGAGTAGACATCAAAGGCAGAGACCAGATACCCACCCTTGGGCAGGAATCAGGAAGCAACCATGCAGAGCTCACCAGTAGAGAGGG
GCAACCAAGTCAAGCGATCAGAGCAGACTTCTTGGGGTGGTGGGAGGAAGGAGTGAGCATGATGTGGTGATGGGAAGGGAGAGGGTGAAAAGGAGGGCAA
GAGGGGAAAATGAGGGCCCTATGATGACGCAACCTGCCCTGGCCAAGTGGGGAAAATGGAGAGAGGGCTTGCTCCCTCCCACCCTCTGGAGTCCAAATTC
CCATCACCCTCACCTGTAGGATCACTCCCAATGCGTTGTGATGCTCCTGATTCTTCACAACCACCACCCTTCCTGCTGAGAGAGACTTCAGCCCGTTCAC
AGACTCCATGATGCGTCGCTGAAGAGCAAAGGACAGATGGGAGGAGGCATCACAGGGACAGACACTTGGACTAAGTTTAGTAGCACCTAGAGTAACACGA
TCTTCTCTTCCCTTCTCCTATCACCTCCTCAGCACTCACACTTGCTCACCTGGATCATGTGCTGGGTCTCTGTCAGTTCCTCCCCCCAGCTGTAATATTC
AGGCAGGTCGACCAGTTGGCCAGTCATGTCAGGCTCCTCCAAAGCTCCCAGCCTCTTGGTCAGTTCAGCCAGGGCCTGTTCATGGGCCTTGGGTGGGAGC
AGGGGAAGCTGTGAAAGGGGAGTCTCCAGGCCCAATCTGTCACACTCCCCACCCTCAACACACTGGCCTCTGGATGCCTACCTATTCCCAGCCTGTCTTT
GGCCAACCTCCTGCTCCACACACTGGTTACCCCAGGCTCCTTACCTTGCTGTCTTTGCGGGAGGGAAACTCAGAGAAGCTCCTCTTCATCATGTCCTCCA
CCCTGAGGGCATCCACTCGCAGCAAGTTGAGGATCATAGTGTACGTGAGGCGGAACTGGGACTGCAGCTGGGAYGGCTTCCCCTGGAGTCAGGYCACAGA
AGTCACTGAGATCAGGGTGGGACCTACTGAACCCCAGCCAGTCTTCTGGACTGGGCCTACTCCCGTCAGATCCGGTCCTAGCTCTGCAACCATGGGGCCT
TGGACAAACCACTTGCTCACCTCTTCTGTAACATAAGGGAGCAAACTGAAATAAATGGACTCAAAGGCCCCATCTAGCTCCATATTCACATGGGAGAAAA
CTGGAAGAGATGGGCTCCAATCTCATCCTTGGATTCACTCACTCCTACCTCAGCTTCTCCCAGGCAAAACAAAAAAGTCGGAGGAAGTTGGGCGCTGTGG
CCCACACCTATAATCCCAGTACTTTGGGAAGCTGAGGCAGACAGACTGCTTGAGCCCAGAAGTTCAAGACCAACCTGTGCAACATAGCAAAACCTCATCT
CTACAAAGCATAAAAAAAAAAAAAAAATTAGCCAGGCCTGTGTGGCATGTGCCTGGAATCCCACCTACTTGGGAGGCTGAGGTGGGAGGATCCCTTGAGC
CTGGAAGGCAGAGGTTGCGGTGACCCGAGATTGTGCCACTGCACTCCAGCCTAGGTAACAGAGCAAGACCCTGTCTCCAAAAAAAAAAGGAAGAAGAAAA
AGAAGAGAGGAGAATCGAAGACAGAATCCAGCAAGGTCCTGGAGCTGGGGCCCTGCCGAGCATGCTGGCCCGCTCACCATCATCATGCGGTGCAGGTCTG
CCATCTCGGGCACTCGGCCCTTGCAGAGCAGGATAACGGTGCCTGTGGGGTCCAGGCCCCTCCGCCCTGCCCGGCCTGCCATCTGCACATACTCCCCAGG
GAGCAGGTCCCGGAAGGTGGAGCCATCGTGTTTGCGCATGGAGTCAAACACTACTGTACGAGCAGGCATGTTTACTCCCATGGCAAAGGTCTCTGTGGCA
AACAAGACCTGGGACAGAGGAGAACAGAAAGGATCAGCAAAGGCTCTACATACACACACCCCCAGCCCTGGCCAAGCCCACCTTACTTTGTAGGCATAAG
GCACCATCCCAGTTGTTACTTATGGGATCTCACTGAACTCTCCAGGCAAATCTATAGGGCAGGTATTATTGTTTTCCTCATTTTACTTATGTAGCTACTT
ATTTCTATTTCTTAACTTTTACCTTCATATCCCATTCCCATCCCTGACTGCAATCATTCCAATGTATCCAACAAATATCTTTTTATATAAATATGATCTT
ATAGAACATGTCTTCTTTTGTGAGCTTGTAGTTTATAATTCATATAAAAAGTGGTTATATATCTGATTTTTTTTTGCTTCTTTTTCTCCACCTAGTGTTT
CAACATYTGTCCATGTTCCTGTGGCCACATCTAACCCACTGCTTCCAACTGCTGCAGAACACTCTATGGGTGCATCCCCCACACTAACCTTCCCTCTCTC
CCAGTGAAGGGCACCCTGGTACTACCAACACCATGCCACCACAAACAAAGGATGGGTGTACATGTTCTCTCACAGACCAGGGTGAGAATTTCTTTGTGAT
ATATACCCAGGAATGAAATATAAGCTCAGAGTATGATATAGTTTTTGTTTGTTTCTTTGTTTGTTTTTGTTTTGAGATGGAGTCTCCCTCTGTTGCCCAG
GCTGGAGTGCAGCGGTGCTATCTTGGCTCACTGCAATCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGC
ACCTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCTTGTGATCCACCC
ACCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCGGCCAATATAGTTATTTTGTCTAAATAGTGCCAGCGTGCATTCCAAACTGG
CTAGGCATCCCGTAAAGGATTCCCAGAACCCTACAACCTCCTATATCTCTGGCAACACTCGGCATGAACTAGTTTCCTAAATTTTACCAGTCTAATAGCT
GTAAAGTCGTATCTTGTGAGTACTTCAATTTGTATATTTCTGATTACTAATAACTTTTCGAATGCTTGCTAGCTTCCTGGGTTTCTTTTCTGAGACCTAC
GTATTCATATCTTATGCATCCCCATTTTAAGATGGGAAACCTAAAGTTCAGGAAGGTTAAATAATTGGTCCAGGATGATACTGTGAATACATGGTGTACC
TGGGATTCAAACCCAGGTAGTCTGAATCCAGAGCCCAGATTCTTAACCACAGCACTGGCCTGCCTAAACCTCTGCCCCTCTGCCCTCTGGGCAGCCCCTA
AGTGGGCAACAAGCACCCTGAGGAGTCCCTTTCCACCACCACATGCACCTTGACCAGGCCACGGCTGAAGAGCATCTCCACGATCTCCTTGAGGATGGGC
AGGATGCCGCTATGGTGCACACCCAGGCCGCGATTCAGGAGCTCTGACATGTGCAGGACCTTTGGTGGGAGGAGGCCCATGGTCAGGGATGGAGTCTCGG
AACACCCTATCCCCACCAGTCTGCCAAATGTGTGCATGCACGCACACAGACGCACACAGACGCACCTGGGGCAGCTGGCGGTCAGAGCCACGGAGGCGAG
CAAGGCAGCGCTGCAGGAAGAGGTGGATCTCGCTCTTCTCCGAACTGGTGGTGAGGTCAAGGGAGGTGAGGCCTGAGGCCTGCTCATCACAGCGGCCCCG
GGAGAAGGTGAACACCACCACGGGCAACTGGGCACGTGTGCGGAGGGAGGCCAGGAGGGACAGGTACACTCCGCGGTCCTGGAGAAGGAAGGGGAAGGGG
AAGGAGCAGAGGTTGAGTTCCTGAACCAATGAGAGGTGAGCTAGTGTTAACTGGGGCAGTGCTCAAAGCTCAAGTCAAAACC


SNP Information

Context             (SEQ ID NO:5450):
CCGCAGGGTGCTCAGTGCATTGTCAAACATGAGCTCAGTGAGGAGCAACTCATGGCTGCTCATGGCACAAGCCACCCGCCCTGCCAGCTTCACAGTGCCC
R
CCTCGTCCACGTAACCCAGGGTTCGGAGCACCTGCAAGAAAAAGGGTGGGCATTGGACACACTGCTGTCCCCTAGCCCCCCTGCCCCAACCACTGCCCCA
Celera SNP ID:            hCV3125470
SNP Position Genomic:     9589
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,10)      total(G,10|A,3) ;no_pop(G,-|A,-)   
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:5451):
CATGTCTTCTTTTGTGAGCTTGTAGTTTATAATTCATATAAAAAGTGGTTATATATCTGATTTTTTTTTGCTTCTTTTTCTCCACCTAGTGTTTCAACAT
Y
TGTCCATGTTCCTGTGGCCACATCTAACCCACTGCTTCCAACTGCTGCAGAACACTCTATGGGTGCATCCCCCACACTAACCTTCCCTCTCTCCCAGTGA
Celera SNP ID:            hCV3125462
SNP Position Genomic:     13107
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,13)      total(C,13|T,4) ;no_pop(T,-|C,-)   SC_12_C(T,3|C,21)   SC_12_AA(T,8|C,8)   SC_95_C(T,12|C,169)   total(C,198|T,23) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5452):
GAATGTTGTTGCTGGCTTCCGTAACCCAGACGGTTTTGTCTCTTCCCTCAAGACCTTTCCTACCATGAAGATGTTTGAATATGTCAGGGTAAGGGAACGA
Y
GTTGCAGCTCCCACCCGTATCCCCAAACACCAAGACCACAGGTCTAGCATCCAGGGCAACAGCCTGCCTTCTCTCCTCCCACCACCCCCACTGCCCATCT
Celera SNP ID:            hCV3125471
SNP Position Genomic:     8161
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|T,9)      total(C,2|T,9) ;no_pop(T,-|C,-)   SC_12_A(C,3|T,18)   SC_12_C(C,3|T,21)   SC_12_AA(C,3|T,12)   total(C,9|T,51) 
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:5453):
CTCTGCTCTTCTCAGGGGAGGTAGACTGCACAGACCCCCAAGCCCCATCCACACAGCCCCCAACCTGCTATGTGGAGCTCAAGACCTCCAAGGAGATGCA
H
AGCCCTGGCCAATGGAGGAGTTTCTACAGGTTCAGGATCGGGGTGGGCAGGGCGAGAGCTTAGGCTTGAAGGCTGGGAAAGGGACTTGGGGAGGAGGGTG
Celera SNP ID:            hCV3125472
SNP Position Genomic:     7856
SNP Source:               Applera
Population(Allele,Count): african american(C,2)   caucasian(A,1|C,11)   total(A,1|C,13)
SNP Type:                 MISSENSE MUTATION;UTR 3;INTRON;TFBS;hmCS

SNP Source:               Celera
Population(Allele,Count): (A,1|C,7)   total(A,1|C,7)Caucasian(A,19|C,253)   Chinese(T,0|C,54)   Japanese(T,0|C,20)   African(A,13|C,81)   total(A,32|C,408)    
SNP Type:                 MISSENSE MUTATION;UTR 3;INTRON;TFBS;hmCS


Context             (SEQ ID NO:5454):
TGGTACTGGCGTTGAGCATCCAGGGAGAAGCAGCCCAGTTCCGAAGGGCGCCGGTAGAAAGGAAAGGGCCCAGAGTAGAGGGCAGGGTCTGTGGGCAGAG
W
AGGTGCTGGACGAGGTAGTTTGTTCCGAGGCTCAGCTACCTCTGTCTTCTCAGCTCCTCTCTTGGTCCCCCTGGGATCCATGAGGTCCTAAGACAAGCAG
Celera SNP ID:            hCV7515207
SNP Position Genomic:     7786
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:5455):
TCCTCCACCCTGAGGGCATCCACTCGCAGCAAGTTGAGGATCATAGTGTACGTGAGGCGGAACTGGGACTGCAGCTGGGACGGCTTCCCCTGGAGTCAGG
Y
CACAGAAGTCACTGAGATCAGGGTGGGACCTACTGAACCCCAGCCAGTCTTCTGGACTGGGCCTACTCCCGTCAGATCCGGTCCTAGCTCTGCAACCATG
Celera SNP ID:            hCV25630779
SNP Position Genomic:     11794
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,37)   caucasian(T,38)   total(C,1|T,75)
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5456):
CCTTCTGCTCTGTGCTACGCAGCCGCCTGGGAAGCCACCCTCTGCTCTTCTCAGGGGAGGTAGACTGCACAGACCCCCAAGCCCCATCCACACAGCCCCC
R
ACCTGCTATGTGGAGCTCAAGACCTCCAAGGAGATGCACAGCCCTGGCCAATGGAGGAGTTTCTACAGGTTCAGGATCGGGGTGGGCAGGGCGAGAGCTT
Celera SNP ID:            hCV3125473
SNP Position Genomic:     7817
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 SILENT MUTATION;UTR 3;INTRON;hmCS


Context             (SEQ ID NO:5457):
TCACTATTAACCTTCTACCTGCTAAATCCAATGGACAGATTTCAGTTCTGGGTTTTTTTGTTGTTGTTTTCATTTTTTTAGAGACAGGGTCTCCCTCTGT
Y
ACCCAGCCTGGAGTGCAGTCGTGCAATCATAGCTCACTGCAGCCTCAAATTCCTGGGCTCAAGCACTCCTTCTGCCTCAACTTCCCAAACAGCTAGAACA
Celera SNP ID:            hCV7515209
SNP Position Genomic:     3754
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5458):
GGCAAGGAAAGAGGCAGGATGAGAGCTTGGCCGCGGTGGCGTCTGAGGGGCCTGAATGTTTCAAGGCCAGAGCCTGGCGATCAGGTGGCTCGCTTAGTCC
K
AAACCAGTCATCCTTCTCCAGGCCTCCTCTGTAGAATGGAAACTCTGTACCCCTGCTTGTCTTAGGACCTCATGGATCCCAGGGGGACCAAGAGAGGAGC
Celera SNP ID:            hCV27858971
SNP Position Genomic:     6744
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,35)   caucasian(T,40)   total(G,1|T,75)
SNP Type:                 UTR 5;INTRON


Context             (SEQ ID NO:5459):
CTCTTACTACAACCTCCACTTCACAGTCTCCCTTAGGCTGGGGGAGCCCCCTCACTACAACCCCACCACTTCATGGTCTCCCTCAGGCTGGAGGAAACTC
S
CAGACCACTGCCCCTCCCTGCCTCTACGTGCCCCTCTGGAGGAGAAGGGCCTCCCTAGCATCTCTGACTTGAATTTTGGCTGCTGCCTCTTGCTGAAGTC
Celera SNP ID:            hCV3125467
SNP Position Genomic:     10340
SNP Source:               Applera
Population(Allele,Count): african american(C,37|G,1)   caucasian(C,39|G,1)   total(C,76|G,2)
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS

SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,8)   total(G,1|C,8) 
SNP Type:                 INTRON;MISSENSE MUTATION;TFBS


Context             (SEQ ID NO:5460):
GGGTGCTCAGTGCATTGTCAAACATGAGCTCAGTGAGGAGCAACTCATGGCTGCTCATGGCACAAGCCACCCGCCCTGCCAGCTTCACAGTGCCCGCCTC
R
TCCACGTAACCCAGGGTTCGGAGCACCTGCAAGAAAAAGGGTGGGCATTGGACACACTGCTGTCCCCTAGCCCCCCTGCCCCAACCACTGCCCCACCCAC
Celera SNP ID:            hCV3125469
SNP Position Genomic:     9594
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 SILENT MUTATION;INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:5461):
AGTAGCGCAGGGCTCGGGCATCTCCATGGTACTGGCGTTGAGCATCCAGGGAGAAGCAGCCCAGTTCCGAAGGGCGCCGGTAGAAAGGAAAGGGCCCAGA
Y
TAGAGGGCAGGGTCTGTGGGCAGAGAAGGTGCTGGACGAGGTAGTTTGTTCCGAGGCTCAGCTACCTCTGTCTTCTCAGCTCCTCTCTTGGTCCCCCTGG
Celera SNP ID:            hCV25763406
SNP Position Genomic:     7760
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,1)   caucasian(C,37|T,1)   total(C,52|T,2)
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:5462):
AGAAAACAGACATCTGCCACACTCTCACCTTCAGGCAGGAACAGCTTGAATCCCACGAGGTCATCTGGATAGGGCACCTCTGCAGTGGCTGGCCCCCTGT
Y
CTGTGGGTCCTGGGACAAGGGCTTATCACACAAGACCAGGGTTGTGAATACTCTGCTGGTGGAGTTCGAGGAGACCTGGGGGTGGTCAGAGAGGCCAGGA
Celera SNP ID:            hCV7515190
SNP Position Genomic:     10701
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,36|T,2)   total(C,73|T,3)
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:5463):
TCAGACCTTCAGCCTGTAACTCCTGCCTCTCAGGGGTCCAGGCTGGCTGGCAGAGGCCATAGTGACGTGGCGGGGGCACCTGACAAAACTGCTGACGACA
Y
CGTATGAGCGGCAGGAGGGCTGGCAGCTGGCAGCCTCCCGGTTCCAGGGAACACTATACCTGAGTGAAGTGGAGACACCGAACGCTCGGGCCCAGAGGCT
Celera SNP ID:            hCV25922831
SNP Position Genomic:     7411
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,1)   caucasian(C,30)   total(C,57|T,1)
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:5464):
AGAAGCTCCTCTTCATCATGTCCTCCACCCTGAGGGCATCCACTCGCAGCAAGTTGAGGATCATAGTGTACGTGAGGCGGAACTGGGACTGCAGCTGGGA
Y
GGCTTCCCCTGGAGTCAGGTCACAGAAGTCACTGAGATCAGGGTGGGACCTACTGAACCCCAGCCAGTCTTCTGGACTGGGCCTACTCCCGTCAGATCCG
Celera SNP ID:            hCV27301772
SNP Position Genomic:     11774
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,157|C,1340)   total(C,1340|T,157) 
SNP Type:                 SILENT MUTATION;hmCS


Context             (SEQ ID NO:5465):
AAACCTCAGGTACTCACCATGCCCCGGGCCCACTCATATACAACCTCAACCAGCCCAAAATTCAGCTCCCCCACAAATTCCTCCACCGTCTGGTTCAGGC
S
ACAAGCCACCTGGACCTCACCAATCCGCTTGGCCACAGCCCGGACACGTTCTATTCCCTGCAGGAAAGAAGGAGAGGTTAAGGCCTGCCTTCCTGCTCCA
Celera SNP ID:            hCV16069792
SNP Position Genomic:     9154
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:5466):
CCAACCTGCTATGTGGAGCTCAAGACCTCCAAGGAGATGCACAGCCCTGGCCAATGGAGGAGTTTCTACAGGTTCAGGATCGGGGTGGGCAGGGCGAGAG
S
TTAGGCTTGAAGGCTGGGAAAGGGACTTGGGGAGGAGGGTGAAGGCAGAATGGAGGGTGCACGAGGGGTCCCACTGATCCCTTGCTTTTCCTGTCAGACA
Celera SNP ID:            hCV16069793
SNP Position Genomic:     7915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:5467):
TTGTCTCTTCCCTCAAGACCTTTCCTACCATGAAGATGTTTGAATATGTCAGGGTAAGGGAACGATGTTGCAGCTCCCACCCGTATCCCCAAACACCAAG
R
CCACAGGTCTAGCATCCAGGGCAACAGCCTGCCTTCTCTCCTCCCACCACCCCCACTGCCCATCTTCTGCCTCCTCCTCTGCCTGCTCCAGAATGACCGT
Celera SNP ID:            hCV15926803
SNP Position Genomic:     8196
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:5468):
CAGCCGCGCGCGCCGACCCTGGGCAGATAAATCGGCTCACGGACAGGGAACTGGGGCGGGGACGCGGTTCTAACAAAACTCTCGGCTACCGGAAGCGAGG
M
CCCACCCCCGGGGTTGCCATGGTTACCTGGCTCACCCCGAAGAGGATCCGACTCCACAGGCCCTCGCTTCCGCCGCCTCTTAACTCCAAAGGTCTCCGGG
Celera SNP ID:            hCV16069794
SNP Position Genomic:     5953
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5469):
CCAAACCTCAGGTACTCACCATGCCCCGGGCCCACTCATATACAACCTCAACCAGCCCAAAATTCAGCTCCCCCACAAATTCCTCCACCGTCTGGTTCAG
S
CCACAAGCCACCTGGACCTCACCAATCCGCTTGGCCACAGCCCGGACACGTTCTATTCCCTGCAGGAAAGAAGGAGAGGTTAAGGCCTGCCTTCCTGCTC
Celera SNP ID:            hCV16284865
SNP Position Genomic:     9152
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 SILENT MUTATION;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:5470):
TTTGTCTCTTCCCTCAAGACCTTTCCTACCATGAAGATGTTTGAATATGTCAGGGTAAGGGAACGATGTTGCAGCTCCCACCCGTATCCCCAAACACCAA
S
ACCACAGGTCTAGCATCCAGGGCAACAGCCTGCCTTCTCTCCTCCCACCACCCCCACTGCCCATCTTCTGCCTCCTCCTCTGCCTGCTCCAGAATGACCG
Celera SNP ID:            hCV15926804
SNP Position Genomic:     8195
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:5471):
TCAGTGCATTGTCAAACATGAGCTCAGTGAGGAGCAACTCATGGCTGCTCATGGCACAAGCCACCCGCCCTGCCAGCTTCACAGTGCCCGCCTCGTCCAC
R
TAACCCAGGGTTCGGAGCACCTGCAAGAAAAAGGGTGGGCATTGGACACACTGCTGTCCCCTAGCCCCCCTGCCCCAACCACTGCCCCACCCACCTCTAC
Celera SNP ID:            hCV940310
SNP Position Genomic:     9600
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 NONSENSE MUTATION;INTRON;UTR 3;TFBS;hmCS


Context             (SEQ ID NO:5472):
CCCAACCTGCTATGTGGAGCTCAAGACCTCCAAGGAGATGCACAGCCCTGGCCAATGGAGGAGTTTCTACAGGTTCAGGATCGGGGTGGGCAGGGCGAGA
S
CTTAGGCTTGAAGGCTGGGAAAGGGACTTGGGGAGGAGGGTGAAGGCAGAATGGAGGGTGCACGAGGGGTCCCACTGATCCCTTGCTTTTCCTGTCAGAC
Celera SNP ID:            hCV15926805
SNP Position Genomic:     7914
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;UTR 3


Context             (SEQ ID NO:5473):
TTCCTCCACCGTCTGGTTCAGGCCACAAGCCACCTGGACCTCACCAATCCGCTTGGCCACAGCCCGGACACGTTCTATTCCCTGCAGGAAAGAAGGAGAG
R
TTAAGGCCTGCCTTCCTGCTCCAGGACAGGGAAGGACCAGATCAAGAAGGCAGCCATTTTCCATCCTTGGGGCACTTACAGGGCTGGAGGGGGTCACCTG
Celera SNP ID:            hCV940311
SNP Position Genomic:     9231
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;hmCS

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


Context             (SEQ ID NO:5474):
CTGGAATCCCTCTGTGTGCATGAACTTCTGTGCCGCCTTCCTTAGCTTTGCCCAGAGCACGGTTGTCCAGGATGACCCCAGGTGAGGCATTCAGCTCTGT
M
CCTCCCCTCTGGATCCCAGGATCCAGCCTCTGGCCCTCAACTGATGCCTCCATCTGCCCCCCAGGCTCGTTCATCTCTTCTCTTGGGAGCCTGGCGGCCC
Celera SNP ID:            hCV25630811
SNP Position Genomic:     8402
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,9)   caucasian(C,30)   total(A,1|C,39)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:5475):
GGAGCTTATGTACATGGGATACAAATTTGAGCAGTACATGTGTGCAGGTGAGTTGCCCCTGCTTCATAGCCCCCTTCCCCTTCCCAGAGGTTGAGAGCCC
S
CCACGCCTGCTGCTGCTTCTCTCCTTGTGCAGACAAACCTGGAAGCTCCCCAGACCCCTCTGGGGAGGTTAACACCAACGTGGCCTTCTGCTCTGTGCTA
Celera SNP ID:            hCV940312
SNP Position Genomic:     7633
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:5476):
CTTATGTACATGGGATACAAATTTGAGCAGTACATGTGTGCAGGTGAGTTGCCCCTGCTTCATAGCCCCCTTCCCCTTCCCAGAGGTTGAGAGCCCCCCA
M
GCCTGCTGCTGCTTCTCTCCTTGTGCAGACAAACCTGGAAGCTCCCCAGACCCCTCTGGGGAGGTTAACACCAACGTGGCCTTCTGCTCTGTGCTACGCA
Celera SNP ID:            hCV25630812
SNP Position Genomic:     7637
SNP Source:               Applera
Population(Allele,Count): african american(C,6)   caucasian(A,1|C,21)   total(A,1|C,27)
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:5477):
TCCTCTCCCTCCCTACTGCACTGACCTAATTTAGGCCTTCACCACTTCTCAGATGCAGTATCTTCTTAGCTGACCTCCCTGCCTCATCCACTATCTCCAA
Y
ACACCATTCCCTCTCTCTATGATATTCTCTACCAGCCCATCGCCTCAGTGTAAGATGGAAACAACACTGATGTACAAGGCCTGTCATGATCTGACGTCTG
Celera SNP ID:            hCV940313
SNP Position Genomic:     5371
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5478):
CGTCCCGGGGCTGGTATCGATCCGGGTATCCGTCTCTGAGGTCAAAGTTGGGGCCTGGACCGTTAGTGGGGGGTGGGCTATAGTAGCGCAGGGCTCGGGC
W
TCTCCATGGTACTGGCGTTGAGCATCCAGGGAGAAGCAGCCCAGTTCCGAAGGGCGCCGGTAGAAAGGAAAGGGCCCAGAGTAGAGGGCAGGGTCTGTGG
Celera SNP ID:            hCV15926815
SNP Position Genomic:     7679
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:5479):
TTATGTACATGGGATACAAATTTGAGCAGTACATGTGTGCAGGTGAGTTGCCCCTGCTTCATAGCCCCCTTCCCCTTCCCAGAGGTTGAGAGCCCCCCAC
K
CCTGCTGCTGCTTCTCTCCTTGTGCAGACAAACCTGGAAGCTCCCCAGACCCCTCTGGGGAGGTTAACACCAACGTGGCCTTCTGCTCTGTGCTACGCAG
Celera SNP ID:            hCV25630813
SNP Position Genomic:     7638
SNP Source:               Applera
Population(Allele,Count): african american(G,6)   caucasian(G,19|T,1)   total(G,25|T,1)
SNP Type:                 INTRON;UTR 3;hmCS


Context             (SEQ ID NO:5480):
GTCCCGGGGCTGGTATCGATCCGGGTATCCGTCTCTGAGGTCAAAGTTGGGGCCTGGACCGTTAGTGGGGGGTGGGCTATAGTAGCGCAGGGCTCGGGCA
W
CTCCATGGTACTGGCGTTGAGCATCCAGGGAGAAGCAGCCCAGTTCCGAAGGGCGCCGGTAGAAAGGAAAGGGCCCAGAGTAGAGGGCAGGGTCTGTGGG
Celera SNP ID:            hCV15926816
SNP Position Genomic:     7680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION;TFBS;hmCS


Context             (SEQ ID NO:5481):
GGCTGCTGCCTCTTGCTGAAGTCCTCCAAGATCTTCTCCCCATTCACCCGGAGCACCTTGGTGGTGATGGCAGCCATATCTCCTGGCTGGAGCTTGACCA
Y
GGTGTGGTCACAAGGCCCTGTGAAAAGGGGAGAGCAGGGCAGACATTGCCATGGACCCAGGCATCCTGCTTATACTGCTGGCAGAAAACAGACATCTGCC
Celera SNP ID:            hCV940309
SNP Position Genomic:     10518
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
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:5482):
ATCACCTCCGCCAGGCCGGGCCCCACGCCGGCCGCGGATTGGCTCCCTCCAAGGGCACGCACGCCCGGGGACTCGTTGGCGGCGTGGAGGGGCGCCGGTG
K
CCACGTTGGTGTCAACCTCCTTCGTGAAGCTCACACCTCCCCCGCCCCGGGAGGGGTTTGCCCGCCACTGTCGCTGAATGATTGCATCATCGAAAGCAGA
Celera SNP ID:            hCV25970292
SNP Position Genomic:     6379
SNP Source:               Applera
Population(Allele,Count): african american(G,28|T,6)   caucasian(G,38|T,2)   total(G,66|T,8)
SNP Type:                 MISSENSE MUTATION;UTR 5


Context             (SEQ ID NO:5483):
ACCTCCCATCACCCCCCAAGACTCCCTCTCCCAAATAGTAATGCTTTAGAGGGAGGCAGTCATATCTCTGTGTGCAGATAATAAAAGCATATTTCTAAGA
R
GTTCTCTCGCTGTCTTCTTAGCTGAGTCATCCCTGTCCAGCAACTCAAGCACACAACAGTGCTTTGCTGTTTTATCATCATGTTTTTACATGGGGCATTC
Celera SNP ID:            hCV27466624
SNP Position Genomic:     8677
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:5484):
TCATCCCTGTCCAGCAACTCAAGCACACAACAGTGCTTTGCTGTTTTATCATCATGTTTTTACATGGGGCATTCACTGGGTGTAGAGGCTGGCCGCAAAT
M
CGATGTCCCGCCGTAGCAAGGTAGCCGCTGTCTCCATCTTGGCACCCAGCACAGGCTCTCCTACCAGGCGGGCTGCCCCCCGCAGTGAGCGACACATCTC
Celera SNP ID:            hCV15926793
SNP Position Genomic:     8804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3;MISSENSE MUTATION;hmCS


Context             (SEQ ID NO:5485):
GGACCTCCCATCACCCCCCAAGACTCCCTCTCCCAAATAGTAATGCTTTAGAGGGAGGCAGTCATATCTCTGTGTGCAGATAATAAAAGCATATTTCTAA
R
AGGTTCTCTCGCTGTCTTCTTAGCTGAGTCATCCCTGTCCAGCAACTCAAGCACACAACAGTGCTTTGCTGTTTTATCATCATGTTTTTACATGGGGCAT
Celera SNP ID:            hCV27469317
SNP Position Genomic:     8675
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:5486):
TCCCTCTCCCAAATAGTAATGCTTTAGAGGGAGGCAGTCATATCTCTGTGTGCAGATAATAAAAGCATATTTCTAAGAGGTTCTCTCGCTGTCTTCTTAG
S
TGAGTCATCCCTGTCCAGCAACTCAAGCACACAACAGTGCTTTGCTGTTTTATCATCATGTTTTTACATGGGGCATTCACTGGGTGTAGAGGCTGGCCGC
Celera SNP ID:            hCV25630782
SNP Position Genomic:     8699
SNP Source:               Applera
Population(Allele,Count): african american(C,12|G,4)   caucasian(C,8|G,4)   total(C,20|G,8)
SNP Type:                 UTR 3;TFBS


Gene Number:                 27
Celera Gene:                 hCG95980 - 84000313732789
Gene Symbol:                 TRIP
Protein Name:                TRAF interacting protein
Celera Genomic Axis:         GA_x5YUV32VV34(49825387..49866334)
Chromosome:                  Chr3
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1688):
TAGCTGTAGCTCCTTTGTTTCCATTGCTATATAATATTCCATTGTGTGACTCTACCACAATACATCCTGTTGGTGGTGGTATTTGGTCTGTTTTCAATTT
TTGGCTATTATGTATATGGCTACTATGAGCATTGTATGACTGTCCTGATGCACGAATATGTGCACTTCTGTAGGCACGTATTTAGGAGTGCAATTGCTGG
TTCATAGGGTATGTTTGTTTGACTTTAGTGGTTTTACCAAACTGCTTTACAAAGGGGAGTTTGCCCTCTCCTAGCAGTGCTCACGTTCTTCATATATCCA
CTAACACTTGTTAGCTCTAGACCTTCAGAGATGACTAGCAGGTGGGTGGGTGGTTATAGCCCCCTTCATCTGTAAAATAGCTGAAATTTAAATAAACTGT
TTGATAAGCCTTTTTTTTGAATGTATAGAATACAAAACTATTCCCTTATATATCAGCTTAATACATTTTTTCATATGTAGGCTGTTGCACTTCAGGCAGC
CAAGCTGAGTAGCTGGATGTCTAGCCAGAAAAGCAGGGGTAGGATCTAAGCCTGCCTATCCTCTAGCCCCTCCTGGTATGGTCTCTGCCCCTAGCTTGGC
CTGAGCCAGGTTGGGGTCTCCCAAAAGCAGCCCCTATGTTGTGGGGAAGTGGAGAGTAGTACAGCTAAGCCAGACCCCATTGTGCCCGCAGGTTAGAGCC
TGGCAATGCCGTTTGGGTGTGTGACTCTGGGYGACAAGAAGAACTATAACCAGCCATCGGAGGTGACTGACAGATATGATTTGGGACAGGTCATCAAGAC
GTGAGTGCCGGGCCTGTCAGGCAAGGCTGGGTGGGCTGGTGAGCAGGGGCTAGGGAAGTGGCAGTGGAGTGCAGCTGATGCTAAGGCCAGGCCTGAGTGG
GTGCCTGTCGGCTGCAGTGAGGAGTTTTGTGAAATCTTCCGGGCCAAGGACAAGACGACAGGCAAGCTGCACACCTGCAAGAAGTTCCAGAAGCGGGACG
GCCGCAAGGTGCGGAAAGCTGCCAAGAACGAGATAGGCATCCTCAAGATGTGAGTTTGAGGCCTGGGATTGGGGCGGGGTGGGAGGCAGCAGGGAAGGGC
TTAGAGGGCAAGTGGCCTCAGGCAGTCCCAGCCTCTGGCCAATTAGTCTGCTGTGGCCACTGTGGTGACCACAGCCTCTCCCAGGGGTTCATCCAGCCCT
AACTACTGGCTCCCCTCCCTGTCGCCAGGGTGAAGCATCCCAACATCCTACAGCTGGTGGATGTGTTTGTGACCCGCAAGGAGTACTTTATCTTCCTGGA
GCTGTGAGTGTGGGTCTGGGGACCCAAGATTCCCCAGCGCCCAGGGCTTTCACCTGTCCCACCCTCTGCAGCTAAGGAAACCCCCTTTCTGGACCCTTGG
CGTCCCAGGTCCCTGTGCCTTGCTCAGCCAGCTGCCTGGCGTAGGCAGCTCACCCAAGTGCTCCTGCCCTACCCCTGATTCTGCCCACGCCAGGCTCAGG
GGCTGGTGTCCCTCAGGGCCACGGGGAGGGAGGTGTTTGACTGGATCCTGGACCAGGGCTACTACTCGGAGCGAGACACAAGCAACGTGGTACGGCAAGT
CCTGGAGGCCGTGGCCTATTTGCACTCACTCAAGATCGTGCACAGGAATCTCAAGGTGAGGGCAGAGCCAGAGTCAAAGGGCCAGTTGGCAGCTGGGCTG
GTGCTGGGGTGGGCAGCACCTCAGGGCCTTGGTCTAGCCTCCAAGGTCCTCATGGTGTCTTCTGCTCACCCACATGCTATTCTCACACCACAGCTGGAGA
ACCTGGTTTACTACAACCGGCTGAAGAACTCGAAGATTGTCATCAGTGACTTCCATCTGGCTAAGCTAGAAAATGGCCTCATCAAGGAGCCCTGTGGGAC
CCCCGAGTATCTGGGCAAGCAGGGGGTGGGGCAGGGGCAGGGGGATAATGGGGGGCAGCCTTCAGGGAGCTGCTCTGGGCAGGGGGAAAATGTGCTCATC
TCAGGAAGCTGGTGTGGATGGTACTGGACCTGGCTAGGCCTGATACTGACCAGCAGATGGGCGCTGTGTTTGTAGCCCCAGAGGTGGTAGGCCGGCAGCG
GTATGGACGCCCTGTGGACTGCTGGGCCATTGGAGTCATCATGTACATCCTGTGAGTGGACAGATGGACAAGCAGGCTTGCAGTCAGATGGGGTGGGGGC
ATGTGTCTSTGGCCTTTCTGTGTGACCCTTCCCCCATGCAGGCTTTCAGGCAAYCCACCTTTCTATGAGGAGGTGGAAGAAGATGATTATGAGAACCATG
ATAAGAATCTCTTCCGCAAGATCCTGGCTGGTGACTATGAGTTTGACTCTCCATATTGGGATGATATTTCGCAGGCAGGTGAGGAGGTGCCTGCCCAGCA
CTTGGTAGAACGCAAGGGAGTGGGGAGGGTGTCCTGCTCTCATCTTCCTCTGTGGTATTCTGCTTCTGTCCCCCAGCCCATTTATCACCTCTAGACATTG
AGATGGGGTGCCCATGACTATCCCCTYCTTGGTTTTGTCCACAGCCAAAGACCTGGTCACAAGGCTGATGGAGGTGGAGCAAGACCAGCGGATCACTGCA
GAAGAGGCCATCTCCCATGAGTGGTGAGCAGGGTCCAGGGGAGGGTGGGAGAGGCCAGGGTCCCCCTCACACCCAGCAGCCCCATCTTTGAGGCCTAGAA
GGGGTGCAGGTACCTAGAGCTCAGGGCAGCCCAGAGGCTCTGCCTGGTAGTCCCTGGATGCCACATAGAAGGGCTGAGCAGAGTCTCCACAAAGGCTCAT
TCTCTCAGATCCAGACACACTTGCACCCTTTCCAGGATTTCTGGCAATGCTGCTTCTGATAAGAACATCAAGGATGGTGTCTGTGCCCAGATTGAAAAGA
ACTTTGCCAGGGCCAAGTGGAAGGTAAGGCTTGGATAACTCCCTTCTTGGCTCTATCCCAAGTATTGCTTCTGGCACTCAGTTTCTTGCCTGCATCACAC
CCCTGCAGCCACACACAAGCTTTTCTCAGGCCATCAGGTGTGGGTGTAGCCACTGTGATTACCTTAAGTAGGAGTGCTGAGCAGCTGAGTACTTGGCCCT
GGGGTGGATGGAGGTGGCCGGGGGTACTATGGAAGGAGTTTGGTTTGGTCACTGCCAAGCAATGGATCCAGCAAGCCTCACCCTTAGCCTTTCTCCACTG
TGCTCCTTTCAGAAGGCTGTCCGAGTGACCACCCTCATGAAACGGCTCCGGGCACCAGAGCAGTCCAGCACGGCTGCAGCCCAGTCGGCCTCAGCCACAG
ACACTGCCACCCCCGGGGCTGCAGGTGGGGCCACAGCTGCAGCTGCGAGTGGAGCTACCTCAGCCCCTGAGGGTGATGCTGCTCGTGCTGCAAAGAGTGA
TAATGTGGCCCCCGCAGACCGTAGTGCCACCCCAGCCACAGATGGAAGTGCCACCCCAGCCACTGATGGCAGTGTCACCCCAGCCACCGATGGAAGCATC
ACTCCAGCCACTGATGGGAGTGTCACCCCAGCCACTGACAGGAGCGCTACTCCAGCCACTGATGGGAGAGCCACACCAGCCACAGAAGAGAGCACTGTGC
CCACCACCCAAAGCAGTGCCATGCTGGCCACCAAGGCAGCTGCCACCCCTGAGCCGGCTATGGCCCAGCCGGACAGCACAGCCCCAGAGGGCGCCACAGG
CCAGGCTCCACCCTCTAGTAAAGGGGAAGAGGCTGCTGGTTATGCCCAGGAGTCTCAAAGGGAGGAGGCCAGCTGAGTAGGCAGCCTGGTGAGGGGGGGC
AGGGGATGGGCAGGAGGGTGGGAGAGTGGATGAGGGGCTTCTCACTGTACATAGAGTCACTGGCATGATGCCCTCGCTCCCCCATGCCCCCACATCCCAG
TGGGGCATWACTAGGGGTCACGGGAGAGCAGTCTCGTCTCCTGTGTGTATGTGTGTGAGTGGTGGGCAGGCCAGTGGCAGGGCCGGCCCCAGCCCCTGCA
TGGATTCCTTGTGGCTTTTCTGTCTTTTGCTAGCTTCACCAGTTTCTGTTCCTTGTGGGATGCTGCTCTAGGGATACTCAGGGGGCTCCTGCTCTCCTTC
CCCTTCCCTTCTTGCCTCACCATTCCCCTAGGCAGGCCCTGCAGGTCCCACACTCTCCCAGGCCCTAAACTTGGGCGGCCTTGCCCTGAGAGCTGGTCCT
CCAGCGAGGCCCTGTCAGCGGTCTTAGGCTCCTGCACATGAAGGTGTGTGCCTGTGGTGTGTGGGCTGCTCTAGGAGCAGATACAGGCTGGTATAGAGGA
TGCAGAAAGGTAGGGCAGTATGTTTAAGTCCAGACTTGGCACATGGCTAGGGATACTGCTCACTAGCTGTGGAGGTCCTCAGGAGTGGAGAGAATGAGTA
GGAGGGCAGAAGCTTCCATTTTTGTCCTTCCTAAGACCCTGTTATTTGTGTTATTTCCTGCCTTTCCGAGTCCTGCAGTGGGCTGCCCTGTACCCTGAAC
CTCATGAGCCTCTAAGGGAAAGGAGGAACAATTAGGACGTGGCAATGAGACCTGGCAGGGCAGAGTACAAGCCCAGCACCCAGTGTCCCAGCCTTACTGG
GTCCTTACCCTGGGCCAAACAGGGAGGGCTGATACCTCCTTGCTCTTCCTAGATGCCCACCTCCTACAATCTCAGCCCACAAGTCCTCTCCACCCTAGGG
GGCTTGCTGCATGGCAATAACTCATAATCTGATTTGGAGGTTTGCCCTTTACAGGGGCAGATTTTCTGCTCAGTTCAACAATGAAATGAAGAGGAACTCC
CTCTTTCTACAGCTCACTTCTATCAGAGGCCCAGGTGCCTCAGAGCCACATTGAGTTGCTTTTTCTGGGATGAGGAAGTAGGGTTAAACTCCCCAGTTTC
CTGAGGGAGGCTCCTGACAGGTGCCCTTTGTCAGACCCTACCACAGCCTGGATAGGCAGCCACATTGGTCCTCGCCCTTGCTCGGCACTCCGTGGTGGTC
CTGCCCTTCTCCCTGCATGCCTGTGGGTCTGCTCTGGTGTGTGAAGGTCGGTGGGTTAACTGTGTGCCTACTGAACCTGGCAAATAAACATCACCCTGCA
AAGCCTCTGGCCACCCTCTCGCCTTTGCTTCCTCTGTCCTACTGGGGAGGAGCCCCTGGAAGGCAGTGGGGAAGGGAGAGGCTGGGAGCAGGTTCACAAG
TAGTGGCTGGGAGTAGTAGTGAACAGTGCCCTGTGGATTTCTTGGGCTGAGGGTGAAGATCATCCTCACCACAGTGTATTCCTCAATGGTGGTGGTGGTG
GGGGTCCTCTGAACTCTAGAAATCCATGTGAGTAGTGGGTCTTGGGCTGCATTTGGACCAAGGAATACTCCCTGGGCTGAGAGCTCAAGTAAGGGCTGCT
GTTTTTGACTCCTGTTGACCGAGGAGCCTTACTCTTGATTTAGGCATAGAGCTGGAATCTACCTGGGCCAGCCAGCGCAAGGACAGACCCTGCTCATAGC
CAAAGATAGCTTCCCTGAGCTAGGGAGAGGGTGTAGGGTGAGCAATGCACAAAGATTCTATGCTGCTCTGTGTTGATTCCTTCTTTCTGTGAACACCTGT
GCTTTCCACCTATGCCCCAAATGAAATCTCACTCTGGGTCTATTTCAGCTGGAGCAGATCAGCTTTATATTATGGGACTATGCACAGGGTTTCTTCTGGG
TAGAGGGAGTAACACTGCCACAGATACTAAGCCTAAAAACCCAAAAGTTGACTTACTCCAGCCCAGGTGGGCCTGGGTGAACTCACCAGGGATGCTGCTC
TCTGGGAGGACCTCAAAGATAACCTCCTCAAAGATAACTTCTCTGATGTGGGAATAATAAAAAGGATTTGTTAGTCTCTAGTCTTTGAAGCATCTGGGCC
TCCAAAATTCCAACCCTACTACAGTCTCAAGCATAACTGATCCTCCTGAGAGCTAAGAGCTAAAGTCAGGGTACTGGCCCTAGTGTCTCCAAACTCAAGG
ATAGTCATATCTTACTTGGATGAAGCCAAGGTTGGCCTGGGGTGACCTGAGGGACTGGGGCCTATGTGTCCATCTTTCTAGAATCGCCCGGAACTGAGGA
CTGAGAGGGTAGGGTATTGTGGTCTATGGGAACTACAGACCATAGCGCATGGTCCATCACTGTCCAGAGCCCAAGGGACCCATCGGGACCATTGTTCTAT
TCCCTTGCGGCTGCGGTTTTCTCTGCCTTGGCCCAGCCTGCCTCGCGCCAGCTCTGGCATGGGACCACAATGCGCTGCCTTGCCCTGGAAAAGGGTCCAG
CTGGCAGCCTCGCTGCTCCCCGCCTTGATATAATGCTGCGCTCTCAAGTGGCAGGTCGAGTCTCCCCAGAGGACGCCTGAGAGCGACCGCGCTCCGCCCA
GGATTCTCTACGGCCTCGGGGCCGCTAAGCCCCGCCCATAGTTCCGCCCATCCGAGAATTTGTCCAATCCAGGCGAAGTATTCACGCTCCGCCCAARGTT
TTGTGTTGTCACTTCCGGCCCGCTCCAGGAAGTCGTGCTGCGGAGCCAAATTTGAAGCAAGCGGAGGCGCGGGGGCGCGTCTACGAAGCCGGACCTGTAG
CAGTTTCTTTGGCTGCCTGGGCCCCTTGAGTCCAGCCATCATGCCTATCCGTGCTCTGTGCACTATCTGCTCCGACTTCTTCGATCACTCCCGCGACGTG
GCCGCCATCCACTGCGGCCACACCTTCCACTTGCAGTGGTGAGTGACTGCAGTGTTGGGGCCCGGTGTTTGCCCGGGTACCGCTTCAGGGCCTTGAGGTG
TTGGGCCTCCAGGCGGTCCAACCCCGGAATCCAGACAAGTGATGAGAACCTTCCTCCTAGACGAGGCCCCACGGGAGCTTCCCAACCTGGGCAGAAGTGG
GTCAGGACAGGCTTTCTGGTAGAGGTGATAGCTGAGCTAAGCCTGAGGGGGACTAAGATGGCTCAGTGAAGATAGATGCTTCCTTGATCACCTATACAAA
CAGATGTGATTTCAAAACCGTTAGSCTGGGCAAGGGTGAGCTTTCACCACATCAACAAGTCCTTTTATTTCTTCCAGATAGAAACCTGCTAGGCTTCTGG
CTACCCAAGAGAGTTTGCTGTGCCTTACTTGATGGTTTGGAATTATTCTACCCAGAGTCATCTCACTGTCCAGACACCCCAATGTATTCGCCATGTCAGC
AAACCCGTTTAACATGGGGAAGGCAAGGAGATGCTCCCCTATCCAGGGGTCCTGCTGACCGTGTAGGGCCATTCTGTTGAGTGTACAGCTAGTGGGGAAA
GATTCCCCTAGCAGATGTGGACAGGCCGGTTTGGACCTCCTAGCAAAAGAGATAAGGCAGCGTTACCCCTGGGAATGGTGGGTGATAATAATCACAGGGT
CTTGTGGGGCTAAAGGCCCTAGGAAGCAGAAAGGCAGGCATGACACTGATGGCTGCTGGCTTACTTGCAAAGCTTTGTTTAGGCCTGTGTTGCTGACAGC
CTGAGCCCCATGCTGAGGGAGCCACTGCTGTTTGGTTAGACTAGAAATTAAGCTCGCCTCTAAGCGTACTCTATTTTCTGTTTGCCTACTCTATTTTCTT
CTATCCTTTTACTTTATTTATTTATTTTTAYTTTATTTTATTTTTGAGATGGAGTCTCGCTCCTGTCGTGTAGGCTGGAGTGCAGTGGCGTGATCTCGGC
TCACTGCAACCTCCACCTCCTGAGTTCAAGTGATTCTCCTTCCTCAGCCTCCCAAGTAGCTGACATTACAGGCGTGCGCCACCACGCCCAGCTAATTTTT
GTGTTTTTCATAGACAGGGTTTCTCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACTTCAGGTGATCCACCCACCTTGGCCTCTCAAAGTGCTAGGGCC
TATCCTTTTACTTTAAACTTTTCTGTGTCCTTGTGTTTTACATGTATCCCTTGAAACAGCATTTATTTCTTTTTTTGTATATTAAAAAGTACTTTAGCTT
ACTGCAAAGATCTTTATTTTATTTTATTTTGAGACAGGGTCTCACTCTGTTACACAGGCTGCAGTGCAGTGGTGCCATCTCGGCTCACTGCAGCCTCTAC
CTCCTGGGCTAAGGTGATTCTCCCATCTTAGCCTCCCAAGTAGCTGGGACTACAGGCGCCTGCCACCATGCTTGACTATTTTTTTTTTTTTGTATTTTTA
GTAGAGATGGGGTCTTGCTATGTTGCCCAGGCTGGTCTTGAACCCCTGGACTCAAGTAATCCACCCACCTCTGCCTCCCAAAGTGCTAGGATTACAGGTG
TGAACCACCGCACCCAGCCTTGGAAAACAACATTTAGTTGGACTTTTAAAAATCCAGTCTGATAATCTTTGTATTTAACTGGACCATTTAGTCTACTTAA
AATTGTTGCAATTACTGATTAAATAAAGAGTAAACATATTGTCTTTAGTCGATTCTGTTTTGCCTTGCCTATTATATCTTATTGTCTCCTTTCTTGCCTT
GGTAGGAATTGGTTAAATATTCTGTATTTCTCCATTTTTCCCTCAGTTAGTTGGGTCGTTATATACCCCATTTCCATTTATAAGTGGTTATCCTAGAAAT
TAAGGTATGTATCCTTAACTTACCAATTTCAAGGTTAATCARCACCTTTCTCATTTTCCCAGGCAACTCAAAGAGCTTAGAATACTAACATTCTTTTCCC
ACTTCTACGTTATTGTTGAATATTTTAATTGTGTGTATGTGTGGTATTTTTTTCGTTGGTGTTATTTTTGAGACAGAGTCCTGCTCTCTTGCCCAAGCTG
GTCTGCAGTGGTACAATCTCTGCTCACTGCAGCCTTGACCTCCTGGACTCAAGCGATCCTCCTGCCTCAGCCTCACAACTAGCTGGGACTACAGGTGCAT
GTCACCATGCCCAGCTAATTTTTGTTTTTTGTAGAGACAGGATTTCGCCATGCTGCCCAGGCTGGTTTGAAACTCCTGTACTCAAGTGATCCACCCTCCT
TGGCCTGCCAAAGTGCTGGGGTTTACAGGCATGAGCCACCACGACCGGCCAATTGTATGTTTTTAAGTAAAGTTTTTGTTTGGAATAATTTTTTTTTTTT
TTTGAAACAGGATCGTGCTGTGTCGCCCAGGCTGGAGTTTATAATTGTTTCTTCTTGCAGGATTGAACTTTTTTTAAATGTTCTTCTTTGTCCTTCTTTG
TCTCTTGTAACTTTAATTCAAAGTCTGTCTTGCCTAATTTTTTTTTTGAGATGGAGTCTCGTTCTGTGGCCCAGACTGGAGTGCAGTGGCGCAATCTTGG
CTCACTGCAACCTCTGCCTCTTGGGTTCACGTGATTCTCCTACCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACACACCACTGTGCCTGGCTAATTTT
TTTTGTATTTTTAGTAGAGGCAGAGTTTCACTATGTTGGCCAGACTGGTCTCAAACTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGG
GATTACAGGCGTGAGCTACCGTGCSTGGCCTATCTTGTCTAATTTAAAGTCCATTTTATCTGCTATTAGTATAGCCACTTCAGCTGTCTTTTGGTGACTG
CATGGTATATCTTTTTTCATCTGTTTTATTTTATTTTATTTTATTATTGTTTTTAGAGACAAGGTCTCGCTATGTTAGCCAGGCTGGTCTCAAACTCCTG
GCCTAAAGCAATCCTCCTGCCTTGGCCTTCCAAAGTGCTGGGAATACAGGTGTGAGCCACCACACTCGGCCCTTATCCAACTTCTAGCTTCCGTTGTAGC
TATTGAAGTCAGATTTTAGTTTATCAGTTACTCCTTTAAGCATACTTTGGAACTTTATCCTCAGACTCTCATTACCTTTAGAATTTTCTCTGATTTTGGC
TTTCTGCAGTTTTRGTATAGTGTATCCAATATGAATTTCTTTTTACCTTTTTCTTTTCTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGG
CTGGAGCACAGTGGGACAATCTCAACTCACTGCAACCTCCACCTCCCTGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTAAAGGCA
CGTGTCATCATGCCCGGCTAAATTTTGTACTTGTAGCAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTTCC
CACCTTGGTCTCCCAAAGTGCCGGGATTACAGCCATGAGCCATTGTGCCTGGCCGAATTTCTTTTTACAAATTCTGCTCGGGATTCATTAGATTTCTTTA
ACGTGTAGAGCAATTTCTTTCTTTCTTTCTTTTTTTTTTGAGACGGAGTCTCGCTGTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGC
AAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACCATGCCCAGCTAATTTTTTGTATTT
TTAGTAGAGATGGGGTTTCACTGTGTTAGTCAGGATGGTCTTGATCTCCTGACCTCATGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGC
GTGAGCCACCGCGCCTGGCCGTGTGGAGCAATTTCTTTAATCAGTTCTGGAAAATTATCAGCCATTATCTCTTCATATATTGCCTCTATTCCATTAACTT
TTTTATCCTGTGTTATTATTTATTTTTGAGGTAGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAATGGTCCGATCTCGGCTCACTGCAACCTCCACCTC
CTGGGTTCAAGCAATTCTCCTGCGTCAACCTCCCGAGTAGCTGGGATTACAGGCGCTCGCCACCGTGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGG
GGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCCCTCTCAGCAGATTGTTGTTGTTGTTGTTGTTGAGACAGGGTCTC
ACTCTGTTGCCAAGGCTGGAGTGCAATGGCACCAACACAGCTCACTGCAGCCTTGACTTGGGCTCAAGCAGTCCTCCCATCTCAGCCTTCCCAGTAGCAC
ATGCCACAGCCAGCTAATTTTCTTTTCTTCTTCTTCTTTTTTTTTTTTTTTTTGAGACGGAGTTTCGCTGTTGTTACCCTGGCTGGAGTGCAATGGCGTA
ATCTCGGCTCACCGCAACCTCCACCTCCCAGGTTCAAGAGATTCTCCTGCCTCAGCCTCCCGGGGTAGCTGGGATTACAGGCATGCACCTGGCTAATTTT
GTATTTTTAGTAGAGACGGGGTTTCTCTGTGTTGGTCAGGCTGCTCTCGAACTCCCGACCTCAAGTGATCCGCCTGCCTCGGCCTCCNNNNNNNNNNNNN
NNNNNNNCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCTGGCCTACCTAAAGTCTTTGTGGGCATTTCTTCTGGTTTGTT
TTCATAGTGCTTTTTTTTCTTGTGTACCTGTTTACTTAAAAAAATGTTTTTTTGGCTGGGCGCGGTGGCTCACAACTGTAATCCCAGCACTTTGGGAGGC
CGAGGCTGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTTTACTAAAAATACAAAAAAATTAGCCGGGCATGG
TGGCGGGCGCCTCTAGTCCCAGCTACTTGGAAGGCTGAGGCAGGAGAATCGCTTGAACTCAGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACTGC
ACTCCCGCCTGGGTGACAGAGCGAGACTCAGTCTTAAAAAAAAAAAAAGTGTTTTTTTGGCTAGGCATGATGGCTCACCCCTTTAATCCCAGCACTTTGG
GAGGTGGCTGGATTGCTTGAGCCCAGGGGTCCAAGACCAGTCTGGGCAACACAGTGACACCCCATCTCTACAAAAAAGTGAAAAAAATATAAATTACCTG
GGCATGATGGCCTGTGCCTGCAGTCCCAACTACTTGCAAGGCTGAGGCAGGAGGATCGCTTGAGCCTGGGAGGTTGAGGCTGCAGTGACTCATGATTGTG
CTGCTGCACTCCAGCCTGGATGACAGAGTGAGACCCCATTTCAAAAAAAGAACATTTTAAAATTGAAGTATAATATAGTTCAGAAAAGTACACATATTCT
AAGTATATGGCTTACAGAATGTTTACAAATTGAACATATCTATGCAGCCAGAATTCAGATCAAGAAACAGGGTATGGCTGGGCGTGTTGATTCACGCCTG
TGATCCCAGCACTTTGGGAGGCTGAGGTAGGCAGATTGCTTGAGCCCAGAAGTTCTAGAACAGCCTGAGCAACATGATGAAATCTCTACTAAAAACACAG
AAAATTAGCCGAGCATAGTGGCATGTGCCTGTGGTCCCAGCTACCCAGGATGCTGAGGTGATCATCACCTGAGCCTGGGAGGTAGAGTCAGCTGTGAGCC
ATGATTGCTTTACTGCATTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCGAAAGTCCCCCCACCAAAAAAAAAAAAGAAAACAGGAAAACGCAGGCTA
TTGGCCGGGCATGGTGGCTCATGCCTGTAATCCCAGCATTTTGGGAGTCCGAGGCGGGTGGATCAGGAGTTTGAGAGCAGCCTGGCCAACATGGTGAAAC
CCTGTCTCTACTAAAAAAATATAAAAATGAGCTGGGCATGGTGGCGTGCACCCGTAACCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACC
TGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGTGCCACTGAACTCCAGCCTGGCTGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAA
ATGCAGACTATTATCAGCTCTAGAAACCTTCTAGAAACCTCCTTATATGCTCTTCCAACCCCTACCAACACCTCCCTCCACCTCCCCATATTAAGATAGC
TACTGTCTTGACTTTGAGAGCATAGATGAATTTTGCCTACTTTTTTTTTTTTTGAGACAGAGTCTCACTATGTCCCTCACGCTGGAGTGCAGTGGCGTGA
TCTCGGCTCACTGCAACCTCCACCTCCCAGGTTCAAACGATTCTTCTGCCTTAGTCTCCCAAGTAGCTGGGATTACAGGCGTGCGCCACCACACCCGGCT
AATTTTTCTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGTCAGGCTGGTCTCAAACTTCTGACCTGATGATCCACCCGCCTCGACCTCCCAAAGTGC
TGGGATTACAGACGTGAGCCACTGGGCCTGGCCTGCCTACTTTTAAACTCTGTGTAAATAGAATCATACAAAATATAACTTTTTGTATCTGGCTTCTCTT
CCTCAGTGTTATGTTTTTGTGATTTATTCATAATATTGTTCTTAGCTGTAGACTCATTTATTCTTGCTGTGTAGTATTCCACTGCGCCTGGTTACTCTTG
ATTATATGTTGTACATGGTATTTGAAAACTTATGGGAATTTTAGCTGGGCATGGTGGTGCACGCCTGTGGTCCCAGCTACTCGGGAGGCTGAGGTGGGAG
GATTGCTCGAGCCTGGGAGGCGAAGGTTGCAGTAAGCCAAGATCACACCACTGCGCTCCAGCCTGGGTGACAGATTGAGACCCCATCTCAAAAAAAAAAA
AAAAAAAAAAAAAGAAAAGAAAAGAAAATGTACTTATAGGAATCTTTGAGGCCAGGATGATGGTATCATTTTCCAGAGAGGACTTAGTTTCTCCCTGGTC
CCTAGGAGTAGGGGAGTCTACTAGTAGGAGACTAATTAAAGTTTAAGGCTTGAGCTTTGCTGGACCACCTGCATAGATGATGCAAAGCTCAGCTGTGTTT
TGCTTTTACCACTACTTACTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGTAGTGGCACAATCTCAGCTCACTGCAATCTCCGCC
TCCCAGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCTGCCACCACGTCCGGCTAATGTTTTGTATTTTTAGTAGAGA
TGGAGTTTCACCATGTTAGTCAGGATGGTCTCAATCTCCTGACCTTGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACT
GCGCCCGGCCACTCTTTTTTTTTTTTAATTAAAAAAATTTTTTTGATTGGGCACAGTGGCTTATACCAATAGTTCCAGCACTTTGGGAGGCTGAGGTGGG
AGGAGCACTTAAGCTCAGGAGTTGAGACCAGCTTGGGCAGCACAGTGAGACCCTGCCTCTATTCTGTAAAAAACAAAAAAACAAAAAATTTAATTTAAAA
AAATTTTATGGCTGGGTATGGTGGCTCATACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCT
GGCCAACATGGTGAAACCCTGTCTCTACTAAAAACAAAAATTAGCTGGGCGTGGTCGCGCATGCCTGTAATCCCAGCTACCTGGGAGGCTGAGGTAGGAG
AATCGTTTGAACCAAGGAGGCGGAGTTTGCAGTGAACCAAGATCGTGCCACTGCACTCCAGCCTGGGCGACAGAGCAAGACTCCACCTCAAAAAAAAAAA
AAAAGTTATGAGTACATAGTAGGTATACATATTTATTGGGTTTATGAGATATTTTGATGCAGGGATACACTGTAATAATCACTTCAGGGTAAACAGAGTA
GCCATCACCTCAAGCATTTATCATTTTTTTGTGTTACAAACATTCCTATTCTTTTAGTTACTTTAAAATGTACAGTAGATTATTGTTGACTGTAGTCACT
CTGTTGTGCTATCAAATACTAGATTTTATTCCTTATATCTAACTTTATTTTTGTACCCTTACTTACTTTTATTTCTGGTTGATCCTTACCTTGAAAGTGT
AGTCTTTGGGATTCCAGCTTAAAATGGGGGTGTTATCAGAGTCCTYATCTCTGAGGGCCCCTGAGCTTCGACTATCATCTCTCCCAACCCCAGTCAAAGC
CCAGAATGTTGCCTAAAGGACAGCTTTTGGCCAAGCCAACAGGGCCAAAAAAAGGGCCAGCTGGTTGGAGTCCTGAGTACCCATCAGGCCTTGCGGGAGG
TGCTGTAACTGCCTATGCTACTGTCCTCTTATTTGGGCAGGCATTGGGTCAAGGAGGAGCAGAACAGACCCTTTCGTGGTCAGAATGTTTGCCTGGCTTA
TGTCCCCAGACAAACCAGGGCTCATCAGTCTATTGTTCTGCTTTTCATTCCAGCCTAATTCAGTGGTTTGAGACAGCACCAAGTCGGACCTGCCCACAGT
GCCGAATCCAGGTGAGAGTATTGGGGTGGGACCACCTCAACTGAAGAGATCTCCTTAGCAGAGAGCAGGAATGTGAAAAGAGCTCTGAAACTGCAATATC
TCTGACCTTTTTTGGACCCTCCTGGTTTAAGGCCAGTTGAGCCTCACTTGTGCCCTTGAGTGTTTGGGAGGTCTGCTTACACCCACAGGTAGCTGGCAGA
TGGACTTGTTGCCTGGGCCAGTTTTCACTTGGGTAGATTTGGCTGGCCTCCTTCCCTGTCTTTTCATCAGTGACTCCGCACCTAGAGTTCAGGTATCTTT
TGAGCACTTAACCGTGTAGGTCTGTAGTAATATGACTTCAGTGACCACGAAACCAGCAGCCCCAACTTGGGGTACCTGCAGGAGTAAAGAGGKCTTTTGA
CTCTAAAGGATGTACTTTGAAAAATTAGGTCTGAGAACAGGCCTGACATGCATGTCAGGCAGGTAGTCAGACCCATGTACAACACTCTYCTCCTTGCGCA
TGACCCAGCTACACAATCATACTCTTACCTTGTTCTCCCATCCAGGTTGGCAAAAGAACCATTATCAATAAGCTCTTCTTTGATCTTGCCCAGGAGGAGG
AGAATGTCTTGGATGCAGAATTCTTAAAGGTACCCAGAATTTATCTGATTCTACTGAACTCCAAGCCTTGTGCRAGTTCACTTTTCTTTTTTCTTTTCTT
TTCTTTTTTCTCTTCTCTTCTCTTCTCTTCTCTTTTCTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTTTTAGAGACAGGGTCTTACTTTGTTGCCCACA
CTGGAGTGCAGTGGTGCAATCATAGCTCACTATAACCTCAAACTCCTGAGTTCAAGGGATCTCCCCACCTCAGCCTACCTAGTAGCTAGGACTGTAGGGG
TGCACCACCATGCTCGGKTAATTTTTTTATTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGATGAAGTCTCACTCTGTCACCCA
GGCTGGAGTGTAGTGGCGTGATCTTGGCTCACTGCAACCTCTGCCTCCTAGGTTAAAACAATTCTCCTGCTTCAGCCTCCCGAGTAGCTGGGACTACAGG
CACGTGCCACCATACCCGGCTAGTTTTGTGTTTTTAGTACAGACGGGGTTTCACCTTGTTGGCCAGGCTGGTCTCGAACTCCTGACCTGAAGTGATCCAC
CCACCTCGGCCTCCCAAAGTGCTGAGATTGCAGGCGTGGGCCACCGTGCCCAGCCCTAATTTATAAAAAAAAATTTTTATAGAGATAGGGCCTTGCTATG
TTACCCAGGCTGGTCTTGAACTCTTAGGCTCGAGCAATCCTCCCACCTTGGCCTCCCAAAGGGCTGAGATTACAGGCATGAGCCACTGTGCCTGGCCTGG
GAGTTCACTTTCTATTTCCACATAAGTGGAGGGTTCCTGGAATATGGAGATGAAGTTATAGAGGTGAGACTTGGTACAGTTTTCAAGGTGGGGACACAAA
AATCAGAGGACAACTGATGAGACACAGTCATCAGAGAAATGCACTGTGAGGGAAGAGGGGAGCTGCTTGACTGTAAACCCTCCCTTTGGGATTTCAGGTC
AATTCCAACCTGAATTCTCTCCTGCGGTCTTGTCTCCTCATCTTTTAAAGAACCTACAGCCATCCTGTACAGCCTACTTTGCTGCTTGGACAGTTAGTGA
CAGATTAGAAAACTCTTCTACTCCCCAGCCACGGGAGATTTTTGGATTCAGTGTTCCCTAGCCTGCCTGTGCCTCAAAATTGCCTGGGGAGGCTGGGCGT
GATGGCTCACACCTGTAATCCCAGCACTTTGGGTGACCAAGGTGGGCAGATCACTTGAGCCCAGGAGTTCAAGACCAGCCTGAGCAACATGGGACCCCAT
CTCTATTAAATAAAAAAAGTTAAAAGAAAAAAAATTGCCTAGGGAGCTTGGTATAAAGTCAGATGCCTGGGCCTTCCCCAGACCAGAGCTCTTGGAATCA
AGAGTTGCAGCTCAGGTGGGAATGGATATATTAGGGGAAAGTGGGTAGTTTCCCTCCTATACGTCTAACTGCTTCCCCTCCTAATCTAAAATTTAGCTTT
TTTTGTGTGCAAGCAGGCTGCGTTGGCAGAGAACTCTTGAGGAAGTTGGATTTGGGTTCACAAATGATCCCTGGACTCTGAGGGTTAATTTGCTGGATAT
CTGTCAGATCAGAGTTCATTTGGCTCTGGCCCCAGGGTGTCATGATGTCCTTGGAACCTCACTGCTTCAGGAACATGGAGCTTTTGTGCTTAGAGCAAGC
ATGTTCATCGTCATGGTAACTGCTCCCAGTTTTAAGTAGTGTCTTCCCTGTGATGAAGGCAACAAAGGCAGTTTCATTTATTTCCAGCTTTCAAAGCCAG
GTTTGTGAGACAGGTAGCAACATCTTGGGTAGTTTGGAGCAAGGGCTTGGAAGCCCCTGCTGGAGTGTGGAAGAAGTCAGGGGACTATGGGTAGTGGTGC
AGCAGCCATGTCCTGGTATCTGTTCTCAGGCAGCCCTTGCGTGCTCTTCCTTACCCACCACCTCCACTCCCAGCTGTTCAGCCTATGCTAACCAGCCCAG
CCACCAGAAGCTCTTGCCCCCAGAGTCCTAGGTGGAGAGTTTGACAGTAGGGGCTTGTTTACCCACTGGGCCTGGGCCATACTATTGGTCACATGTGAAA
TTCTGAGTCTTCTGTTGATCTTAGACAAGTGATCTACAGTAAGGTTTGCCTGGATTCCATCTAGCTACCACCATGGACCCTTGGTCAAGCGTTTCAGTTT
TGTAAAACCTTGGATTTCTTTGTTATGGAGCAGGCACCTCTCTTGCTCATGGGGATGTTGAGTTCTGTGGCATCCTGAACAGGAACTGGGTTCAATTCTG
CCACAGCTTCTCAATGATTCTGTGGCATGGCTGTGAAACATTTGCAGGGGCTTTGAGAGGCTCACTTGATCCTCACAATAGTCTAGTTAGAGACTAGACA
CATGGGAGGTTTCATCCAGGGGTACAAAGCTGTCCTGGCATAGCTACCTCCATTGGATACTAGGTCTGGAAGGTTTGTGGTACACAGAGCCAGTTCAGAG
CTTGGAGGAAAGTCGACTATGAATCAGGAAGACCCAGGGTGGAGAGGAGGAGTAGTCGCCCAAGGTCCTTGGCCATTCCTATTGTGTGTCCCTGGTGAGT
CAGCTGATGCCCAGAGGGAATGAGACCAACATAGAGCRATGAGGCCAAGGAAGTGATAGAAACTTCTGCTATGGAGACTGATCACAGGGGCCCTACTTTA
ACTTCCCTTCCACTATTCTACCTCTTTACCTGTCCTGGGGCCTTGCCCCTGAGATTGTTTTCCTCCATCTTACCTACTTTTCAAAAGGGCACATAGAGCT
ACAGCAGTGCTTATCTTTCCATTGTTAGCTTAGCTTGGCCTTGAGGCACTGCAGGATTCATGCCCTAGAAGGCCTCATTGTTCAATCCTGGGGCTCCCCA
CAGCCTTATGGGAGACCACGTGGAGGTCAGCTATGATGCTTTCCTGCTGCTTATTGTGGGTATTGCCTTTCAGAATGAACTGGACAATGTCAGAGCCCAG
CTTTCCCAGAAAGGTGAGTTAGCAAGAGACGAGGGGTGCTGGGAAGCCCCTGACTTGGATGCTGGAGGAAGGGGGCCCTAGGAGGAAGGTTTCAAACCGT
TTGGGAGAGCCAGGGCCTTTCCCTGCTTTGTATGTCCAAGAGTCCTGCTAGCTGTTGTGGTGGGCAGAAAAAGAGAGGGAAGGGAGGTGACTGAAGCTGT
TCACCTAGACCAGGTGAGCCTCTTGTCTCTGAGTGCAGCTTCTTGCCCAGGAACCAAGATGGGAGGGGGTTRCCTGATGGGACTGAATATCTTCGGGAGA
GGGCTCAGCTGCTGAGTTTGGCTGGAACCTGCTTGAGTCCTGGGTTGATGAACTAACTGGACCCATGGCAGGTAGGGAATGGGCAGTAAAATATTTTCCT
AAGTAGTTCAAGCAGCAGAAGGTGGGCTTTTCCCTGAATGAAGGCTCTGGCTCAGCTTCTCTGGTTTGGCACATCCCAGAGAAAGAAGCGGGCCACCCAG
CTTTCAGGCCTGAGCCTTGTTTCTCACCTGCCTAAGGGATGAGGCACTGAATCCAAGGGCCCAAGTTCTTCTGCTGATGGATGGACAGGCCTTTCCCTTT
CCTCCGCCCTCTACCCCTGCTCCAGACAAGGAGAAACGAGACAGCCAGGTCATCATCGACACTCTGCGGGATACGCTGGAAGAACGCAATGCTACTGTGG
TATCTCTGCAGCAGGCCTTGGGCAAGGCCGAGATGCTGTGCTCCACACTGAAAGTAGGTCCTCAGGTTTTATGGGTACAGAATTCATAGGGAGGTATTGC
CCCAGAACTGGACTCCCCATTCTGGGCTTATCTTCTGGTTCTGCTCCAGTCAWCACCTTGGTTTGGGGAGTTGTAAAATAGAGGCAAATCACTTCTTCCC
CTTGCCCTTCCATACTGTACCCATCCATCCCATAAGAAAAGGGCCATATTGGCTATACTTGTGGGTTTTGTACTAGGTAGTTTGAAGAGTCAAGGCCTTC
CCAGTACCTCACAGAGGGGATGCTCAACTAAGACCTCAGTGAGRCTGGGCCATATTTCCGAAAGTGGTTCATACTCTACTGATGAGGCCAGCCTGAAGAA
CCTTCCATTAGCACTCTAGTCCTTGGCTGGGCTGCTCTCCTGAGCCAGATCAAACAGCATCCTAGGGAGGAGCAAGGGCCTTTGAAGTCAGCTGTGCTGA
GCTGACCAACCAGATCAAAGTCTGCAGAGTGAACAGCCTTAGACCCAGATGAATTTTGCATCAGCCTGGGTTGGTGAGCCTCTTGCTCTCCAAGGGGCAT
GAGAGGCGATTGATCTGAACCCACGATTGATATTCTGGCCTTGTAGGCAGGAGCAGTCCTTGCTGGATGCCATTTGAAAGGGAAAGGGAGCCATCCTTGT
GAACAGACAAGGCCCCAGGATATTCATTGTCTCTGTTCCTGCTTGGGGGCTGGGCTGGATCACATGGTCTGGCTGGTGGGAGGGAGCAAACTGGCACCTG
GCTGCAGAGCAGGAGTCTCTCATGGTATTCTCAGGTCAGAGACAAGTGGTCTTAGGCTGAAGGCAGCCTGGCCAGCTTCCCCTGGCTCAATTATTCATTC
TTGGCAACTGTCCATGGGTCTGGGTGTTGGATGGTGAGGCCTGGGTTTGTGCTCTGGACTTCTTCAGCCACCTGCACAACATGTACCATGAGGCCCAGAC
CACTGGACCTTGGCAGCCCACAGTGGGCCTGTAAATGCTGGCAGTGGGCTGTGTCTACTGTAAGATACCTTTCAGGAGGAAGCAGGCAGGGAGGTGAAGA
AGCAGCTGGCTTAGAGCCTTTTAGAAGAAGAAGCACAAGCGAGAGTGGGACCCAGGAGCTTTACCTCCTGGGGTTTGGGAGTACATGGTTATCAGCATTT
TCAAAACATAAGCTGCAGAGAGTTCTGGAGCAGAGTTTTCCTAGTGACTTTAGCAATGGCTCCTGAGGGCCTCCAAGCATCAGGTATGGGTGTATTTGCT
CTTCAGAAGCAGATGAAGTACTTAGAGCAGCAGCAGGATGAGACCAAACAAGCACAAGAGGAGGCCCGCCGGCTCAGGAGCAAGATGAAGACCATGGAGC
AGTGAGTTTGGAGCTGGGTCCTGCACTGTGCCTTTGCCCCCAGGGCCTGCAAGTGGTACAGTTCTTAGGACTGCAGCAGGGAGTGGGATTGGGTCATGTC
CGAGGCTCAAATCTCCATAGGCCATGGAGGGCTCAGGTCAGCTGGGTGTGGGCACAGATCTTAGCCTCTATGAACTCTTCCCCCATTCCAAGGAATGGGA
GCCCTTGCCACATTCCTCCCTGTCTCTGCTGCCTGTGGCCAGATGACCTGGTGGGTCTTTCCTTCCAGAAACCTCTCTCCAGGAAATCCCTGACCTTGAG
ACCCTCTTTCAGCACCTCTTCTTTCTCAGCAGCATCCTTGGAGCTATGCTCATCTCTGCCACAGGGCCTTTCCTTGGGCACACCCACCTACTAAAGCATC
CTGGCAGCCTAGCCTGTTACCTTAGCAACGGCAGCAAAGGAAGGCAGAGCGGCACTGGGTACCTACCCATCAGCCTCCAGATTGCAAATGCCGTGGGCTG
GGTGTATTTTTCAGGATTGAGCTTCTACTCCAGAGCCAGCGCCCTGAGGTGGAGGAGATGATCCGAGACATGGGTGTGGGACAGTCAGCGGTGGAACAGC
TGGCTGTGTACTGTGTGTCTCTCAAGAAGTGCGTACTGTGGCCCCTCTCAGCAAACACAGGAGATAGGCCATGGGGCCCCAGCCRTGTCATTGCTCCCCA
TCTCTTGTAAAGCAGATGGAACTAAGGGGCAAACTCTGGAGCCATGCTGCCTTTGTTTGAACCCTGATTCCACCTTTCAGCAACTATGTGGCCTGCTGCC
AGTTTCTTGGCCTCTTTGACCCTCAACTTCCTGAATGGAAATAGTAGTAGACCTGCCTCATAGGATTGTTGAGGATTTAGTGTGAATCTTAAGYGCTGTT
TCTAAGGGAGTTGACCTAGCTCTCTGGGCTATAAGCCCCATTGTGATTGATATGTAGAGCCTGTTCCCCATTAGCACTATGATCCTGCCTGGCTGGGATC
AAACTCTACTCATATTCTTCACTCTGGTGGGTGTAAGGTTGGCAGGAAGGGTGGAGGGCCACTTAGCTGAGAGGCATAGAGGGTCCAAGATGCCTCCTTT
AAGACCAGGTGGTTTAGGGAGCCCCCTAGTGAGACTGGGGCTTTCTGCATGCCCTCTCAAGTCACCAGTGCCTGCAGGACAGGCAGGAGGAAATAGTCAC
TTCCTTGCATTCTCTGCAGGACCCTCCACAGTGCYACCTGGTACTTGTTGGGCTCAGGTGTCAAAGTAGGAATGAGAGTGAGTTGAGGGGTTGGGCRGTG
CTTTGTGTTAGATTAGTGCTGTGGCTCAGTCTGACCTGCAGGTGTTCTTTTCTGGCATCTCTTTCCATGGCCACATTGCAGAGAGTACGAGAATCTAAAA
GAGGCACGGAAGGCCTCAGGGGAGGTGGCTGACAAGCTGAGGAAGGATTTGTTTTCCTCCAGAAGCAAGGTAACTTAGCAGTGAACAGAGGYTGAAGGAG
AAGTGGCTCTCCTTTTGTCATGTTCACTCTGGTCTCCTGAGCAAGGCCATGGGACCTGATGGCACAGCTGACTCCCTGGGGCAGCTGGAGGACTTACAGA
AATTTGTTACCAGTCCTTACTGSGCATTGGCCTGAATATGTGGCTTGTCCACTAGGGGTGGACAGATCACAGAGGTATCCCCCAACATGTGGACACTGAT
GCTCCCCTCTGCTCTTCCTGGCTCCTGGGTACCTCTCAGCTGGCTGGAGAGCACAGGCCTCAAATGTGACAGCRTCAGAGGCCTATTTTTGTACCACATC
TGGAGTAGRAGGGCTCCTGGAACCTGATTCGGTCAGCACAGCTGCTTTTACTTCTGGCATGGTGCATCCACAGGCTGCAGGATGTAGGAAGCAGCCTTTG
CTTCTAGGCAGCTCCGGATGTGCATTGCCAGACTGAGGCCTAGCCTCAGAGAGCTGGGATCTCTGCCCATATCTCTAGTCTCTTCTGGGCTACCTTGATC
ACTCCCTGGGGAGCAGCAGGAGGGGGCAGGGCACAAGGCTACCACTTGGCTTGTCTTTCATTCCCTACACTTTCTTATAGTTGCAGACAGTCTACTCTGA
ATTGGATCAGGCCAAGTTAGAACTGAAGTCAGCCCAGAAGGACTTACAGAGTGCTGACAAGGAAATCATGGTGAGGGACATCCCTGGCTTGACAGGAATG
AGGGGTGGTTTGTGTGCCCTCCCAGAGCAGGGCTGGGCTATCTCTGCCCAGGACCCTTGCACCAGTCAGTGGTGGTTCTGGGCCCCTGCATCCTCCTGGG
TCAGGGTGTGCCCCTTGGCCCTGGTCCGGACTGGAGCCTGGGCCTCCTCAACAGAGGGCAGACAGAACCATGAGTCTTCCCTCATAGTCTGTCCTGCACT
TACATCCCTGAGGTCCCTTATCAGAGGAGGGGCTCTACCTGGGGCTTGGCCTCCTGAGCCTAATGATGAGGTATCAGGCCTTGCTCTGTTCCCAGTGGGC
TGGCCTTTCATGCATGCTGCTCATGTCCTCTGCATTATCTCYGGACTTGATGCCTCAGCCTTTCTCTCACACACTTTTCTTTCCCTCCCCAAGAGCCTGA
AAAAGAAGCTAACGATGCTGCAGGAAACCTTGAACCTGCCACCAGTGGCCAGTGAGACTGTCGACCGCCTGGTTTTAGAGAGGTTTGTTGAGCCTTGGGC
GGTACAGGGGTCACAAGGTGGGAGAGCTTTCTGGTAACAGTCTTTACTCCTCCTGGCTTTGGTGGGGTGGGTGACCTCTGTGGACCTGATGTCTGCAGAC
AGCCTGCCCTGGGAGCCAGCCAAGATTTAGCTGGCAAGCAGCCTTGAAGCAAATTAGGCTCTGACACGGAGAGGCCAGAGAAGGCCAGAGGACCTAGAAG
TGGTCTGAGAATAGGGCAGAAGCACTGACTGTCTTGGGGCATCCTGTTTATGGAGTAGCTCCCCACATTTATCTGTCCACCCCAGATTTTGAAACAAATA
TGAAACCACTGTAAAATAATTCCCTTAGTGCCAGGAGTGCGTGCTTTAAAGCTGCCAGCAGAGGGAGCCACGAGGCAGAAGGATTGGTGTCCCTGCAAGC
ATGGGCATCCATTTCTGCTCCTGAGAGTTTCACAGAAGCAGACTAGCTGAGAGCATCCTCAAGGCTACCTCCTGCCTGCCAAAAGTCCCCAGCAAGGACC
CAGACAGAAAGCACACAACTCCTGTCAGTGGCCCCAGTCTTTTTTTTTTTTTTCCTTTTTCTTTTTTTAATGGAGTCTTACTCTGTTGCCAGGCTGGAGT
GCAGTGGCACTATCTCGGCTCACTGCAATCTCTGCCTCCTGGATTCAAACAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCGCACCA
CCACGCCTGGCTAATTTTTTGTATTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTCCTGACCTCGTGAGCCACCTGCCTCGGC
CTCCCAATGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCAGCCCAGTCTTTAATCTTTTTTTTTTTTAGATGGAGTCTCACTCTGTTTCCCAGACTGG
AGTACAGTGGTGCGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAACCTCCTGAGTAGCTGGGATTACAGGCATGTG
TCACCATGCCCAGCTAATTTTTGTATGTTTTGGCAGAGACGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAAGCAATCTGCCCACT
TGGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGTTGCTTTTGTTTACTTTCTTTACCTCTTCAGGGTGCTGGAAGGCCTGGACTC
CTACAGCAGGTCCTTGATGAGTGCCCACTGCATGGCAGACCTTCTCTGTTCTCTTGGAGCTTATGTTCCAGTGGGATAGATGAGCTTGGAGCTTAGATGG
CTAAGCCCACAGCCAACCAGCTATATACTACATTATAGAATCTGGTCTGTAGCTCCCAGTTGGGGACGGGCCCACCTCATTCTGAGTAAGCTTCATGCCA
GGGCCTGCAGCCCATCTTGGTACAGGGAGGACAGCAATGGTCTCCCTTGGCTTTCAGGCCAGCAGGACACTAAACTTGACAAGCCTTCTTCTGTAAGCTG
GGCTGGGCTTCTCATCAAGCCACATGAGGATGACTTCATTCATTTTTGTCTCCAGTATTTTTCTGGGCATAAATATTGAAGTGGTTGGCTGGGTGCATTG
ACTCATACCTGTAATCTCAGTGCTTTGGGAGGCCAAGGTGGGAGGATTGCTTGAGTCCAGGAGTTCAAGACCAGCCTGGGCAACATAGTGAGACCCTGTA
TCAAAAAACTTAAAACTTAGCCAAGCATGGTGGCACACACTTGTAGTTCTAGTTACTCAGGAGGCCAAGGCAGGAGGATCACTTGAGCCCAAGAGTCGAG
CTATGATTGTGCCACTGCACTCCAGCCTGGGAGACAGAGTAAGACCCCGTCTCTCTTGGAAAAAAAAAAAAAGTCCGGGCGTGGTGGCTCACACCTGTAG
CCCCAGCACTTTGGGAGGCTGAGGTGAGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAATATGGTGAAACCCCGTCTCTACTAAAAATAG
AAAAATTAGCTGGGTGTGGTGGCAGGCGCCTGTAATCCCAGTTACTTGAGAGGTTGAGGCAGGACAATCGCTTGACCCTGGGAGGTAGAGGTTGCAGTGA
GCCGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGAGACTCCGTCTCAAGCAAAAACAAAAAAAAATTACGGTGGCAGGTCTGTTTGTTTTTAGC
AAAAGCCCTTCTTTTAACTAGGCATTAGGCAGCACCAGCACAGTCTATTCTTGTGTTTGTTTGTTGGTTTGTTTGTTGGTTTGTTTGTTTTGAGATAGGG
CCTCATTCTGTTGCCCAGGCTGGAGTGCAGTGGYGYGATCACAGCTCACTGCAGCCTCAACCTCCTGGGCTCAGGTGATGTGATCCTGCCTCAGCCTCCT
GGGTAGCTGGGACTAAAGTGCTGGGATTACGAGCGTGAGCCACCATGCCCAGCCTAGGCACAGCCTCTTCTAAACTCATAGCCTCAAACTCTCAAAAATA
GTTGTTGAATCCTCAGCAACGGCATTGCCCTGTCTTCTTTGTGTTCTGATGGCAAGACCCTCAGAACTACAAGTGACCTCAAAGACTCTGCCTCTACCTT
TCTCCTGTGACTGCTAATGTGTTACTACAGAGGTCTGGAAGAAGTCTTAAGTTTTCTTGGGCCACCTACTCGGGAGGCTGAGGTGAGAGGATCACTTGAG
CCTGGGAGGTCAAGACTGCAGTAAGTGATGATCACGCCACTGCACTCTAGTCTGGGCGACAGAGTGAGACCTGTCTCAAAAAAAAAAAAAAAAAAAAAAA
GTCATGTCAAGGAAGATGGAAGAGTAGAAAGCTCCAGGAATCCATCTCTCCATGGCAACAGTTGATCTGGTTGAAACCATCTGAAGCAACCACTTTGGAA
ATCTGGTCTAGTAGAACATTTCCAGTATCCAGGGGAGAGGGTGATGAAGAAGCTGGTAAACTTCAGTAAATTTTCACTGTTCTCATAGCAGCTCCACCTC
CTGGGCTCAAGTGGTCCTCCTGCCTCAATCTCCTGAGTGGCTGGGATTGACTACAGGCATGCACCACCACGCCCAACTAATTTTTTGTAGAGGCAGGGTC
TCACTTATTGTCCAGGCTGGTCTTGAACTCCTGGCCTCAAGCGATCCTCCTGCCTGGGCTTCCCAAAGTGCTGGGTTACAGGCGTGAGCCACCGCTTTGC
TTTGCTTTGCTTTGCTTTGCTTTTTCTTTTTCTTTTTCCTTTTCTTTTCTTTTCTTTTTTTTGAAACAGTGTCTTGCTCTGTTGCCTAGGCTGGAGTACA
GTGGTGCAATCTTGGCTCGCTGCAACCTCCGCTTCCCGGTTGAAGAGATTCTCCTGCCTCAACCTCCCCAGTAGCTGGGATTATAGGCACGCACCACCAT
GCCCAGCTAGTTTTTTGTATTTTTAGTAGAGATGGGGCTTCACCATGTTGGCCAGGCTGGTCTTTAATTCCTGATCTCAAGTGATCTTCCCACCTCGGCC
TCCCAAAGTGCTGGGATTATAGGTGTGAGCCACCACACCCAGCCACCACCATTTCTTAATTTAAAATTAGGAAAATTAATAAATCTCTGGCTGGATATGG
TGGCTGTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGTACACGCCTATAATCCCAGCTACTTGGGAGGCTGATGCACAAGAATGGCTTGAATCTGGG
AGGTGGAGGTTGCAGTGAGCCAGAATCGTGCTACTGTACTCCAGCCTGGATGACAGAGCGAGACTGTCGCAAAAACAAAAACAAAAAAAAATTAAGAATT
TTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTAGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTTCAAGCTCCGCCTCCCCGGTTCACGC
TATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCRT
GTTAGCCAGGATGGTCTCCATCTCCTGACCTTGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGCGCCACCGTGCCCGGCCAAGA
AGTTTCTTAAGTTTTTTAAGAAGCTTCTTAATTTTTATAACTTTTTACTGCAGCAGTATTTTTTATTGTAGTAAAATATAAACAAAACTCACCATTGTAA
CCATTTTTAAGTACATTTCTGTGGCATCAAGTACATTTAATTGCTGTGCAACCATCACCACCATCCCACTCCAGAATGTTTTCATCTTCCCAAAGTGAAA
TTCTATACCCATTAAACAATAACTCCCCTTTCCCCTTTCTCCTCAGCTCCTTCACTTACCATTCTTTCTGTCTCTATCAATTTGACTACTTTAGGAGCCT
CATATAAGTGGACTCATACAATATTTGTCCTTTTATTACTGGCTTATTTCACTTAGCATAATGTCTTCAAGGTTTATCCATGTAGCATGTATTAGAATTT
TCTTCCTTTTTAGGGCTGAATCAGTAATCATATTTAATTTTTTTTTGAGACAGGGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGC
TCACTGCAACCTCCACCCCCTGGGTTCAAGGGATCCTCCCACCTCAGCCTTCCAAGTAGCTGAGATTACAGGCATGTGCCACAATGCCCAGTTAATTTAT
TTAATTTTATTTTTTGTAGAGATAGAGTCTTAATATGTTGCCCAGGTCAGTATTGAACTCCTGGCCTCAAGCCATCCTCCCACCTCAGCCTCCCAAATTG
TTGGTATTACAGGCGTGAGCTACTGTGCCTGGCAGTATTCATGTTTTAAATTTGCAAGCATTCTTTCTTGCTCTTTGAGTATGTCTGTTTTGCAAAGCAT
CATGTTCTTGTTTTATGGTCTCATATTTCTGTTTGTCTCAGAGTCAGTATTTGTGCACCATGGACTTTTTCCTGGGCTCCCCTCCCATACCTGGTGGTCC
TTGGCTACTTTGGAGGCCAACCTATGTGGGTAGGGTTTGGGGGGGATGTGCAGACTGCTGGCATCATGTTGAGTCTTACCTGAACCCAGGATGCAGAAGG
CTTTACTGTTGGGTCCAATAATATTGGCTGCCCTAGGTCATTGTACATAGTTTGTTTAGTGTCTTTGAGAAAAGCTCTTCTATTTATTGGCCCAGGGCAG
CAGCCTAACTGCCTAGTGTTCTACCAATGCAGATTAGGATGGGGTGGAGCCAAGCTCACAATTTCATCAGTGTTCCAGTTTTCAGGCCTGTTTAATGCTT
TTGCAAGGCCCTCCCTTTCCTTCATGGACCCCCTCCTTGTGGGTTCTGGCTGCTGTGTCAGTCTCTTGTCCCCTGGCCATGCTTTGTCTCCCAGAATTTT
TTGGAAATCTCTGGGGGCTGATGGTGGTTGCCCCTTCTACTTGTTGCAGTAGGATTACCCTTCATACCTGTCATTTTAGGGAGGCATCAGCATGTAGCCA
CCACCCCCAACTACAGAGTCAATGTTAGGAAGATCTCTCTCATGGRCCCCAAGGGCCCCTGAACTCCAGGCTAGAGACAGCCAGGGAGACCTTTCCTTAG
GGTAGGGTAAGGCCGCCAGGAGCCATGAGTTCATGGAGGAGATGTTGACTAATCCCATGCCACGCAGGCAATGGGCTGCTCAAGGCCTTAGCTCTGTTCT
GGAAAGGGGAGCTTTGAGTGTCTTGCCTGGCTCCCTGAGGCCTCTGGCATGAAGCCCTGTAACTTGACCATGGGTGGGTGTCCCAAGGGTGATAGTGTCA
CTCAGGAGGGCCTCAAGCCAGCCTCAACCAGTGAGGGAAGGACTACTAAGCCCTAGGTTCTTTCTCCTTGTAGGACAAACAGAAAGTGGGAAGGAAAGAA
AGTGGACCCCTGGCAGAAAGGGAAATAGGCTTCAAGCTCATGAAGGAAGAAGAATATAGAAACAGTCTAAGACAAGGCCGGGCGCGGTGGCTCATGCCTG
TAATACCAGCACTTTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAGGAGAGCGAGACCATCCTGGCTAACACGGTGTAACCCCATCTCTACTAAAAATA
CAAAAAATTAGCTGGGCGTGGTGGCGGGCGCCTGTAGCCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCTTGAACCCGGAAGGCGGAGCTTGCAGT
GAGCCGAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGATTCCGTCTCAAAAAAAAAAAAAAGAAACAGTCTAAGAGAGGAAGAAATGTGTC
CATATGATCCAGATGTGGATATGGGGAGTGAGGGAGGCACCGTGAGAACCTCCTGAGTCTTGAGTTTAGTGTTGTGGATGACCAGGAGGTGCAAGTGAAT
AAGCCTGGCTTGCCTTGAGCTTGGGCACCACTAGGCAACGCCTTAGGGGATGGCTGGGAGTAGAAAGTCCTGCCTTGAGCCACCTGGAGGGTAAAATTTA
CAGGACCCAGCGAGATCCTGCCTTCCTCTTGAGTTTACCTTTCCTAACCTGAGCCTCAACTTGCTGGGGTTGGTAAATGGTGGCAGAATATGGATACTGC
AAAAAAGTTGGCATGAGTGGTCCTGGCTGCTGTGGTTCCCAGAGGAGGAAGCAAAGCAGCCAGCCTAGAGTTGGTTTGAGGTGGGTTTGTGCAGTCTTCA
TTTTAACTTGCAGGCGGGGACAGAGGTAGAGCTTCTAGGGTCCTGGACAGGGAAAGGAAGAAATAGTCCAGGCTGCCTGGATTGCTTAGCCACCCAAATC
AATGCAGGTAGGCTTCCTCCCTCTGATGTGTACACCCCAGTGGAAGTGGGATTGTGGTGCAGCTCTGAAAAGTTCCTGAGGAAGGAAAGAGAGAAGGCAT
CTTTGGAGCTACCCTTGCCATTCCCCAGGGTTCTCCTTGTATGACAGGAGGTGGGGAGCCCTGCCAGGTCTGGGTGGGCTGGAAGAATCCTGTCGGCTGT
AGTTTTAATAGAATAAAACTTCACTCCCCACCCCCCCCCCCCCCCCCCCCCCCCCGTGTTATAAAAGTAAAAACACACTCATTGAGAATTTGGAAAATAG
GGAGTTATCATAGAGGTACTTATGGTTGACATGTGGAATATTTCCTTCTCCTTTTTCTGCATGTGGGAGTGGTGGGGGGGTGCCAAATCATGTAATTGCA
CTATACATGGAGTTTTGTGTGCTTTTTAAATTAAATTAAATTTAAACTTTTTTTTTTTTTTTTTTCTGAGACGGAGTCTTGCTCTGTCGCCCAGGCTGGA
GTGCAGTGGCGCGATCTCGGCTCACCGCAAGCTCTGCCTCCCGAGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGACACAAGC
CACCACACCCAGCTAATTTTTGTATTTTTAGTAGGATGGGGTTTCACCATGTTAGCCCGGGTGGTCTTGATCTCTTGACCGCTTGATCCACCCGCCTTGG
CCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCGAGAGTAGGGCTYTCTTGAGGGGTGGCCTTGAGTCAGGAGTGGGCTCCAGGTCC
CTGGAGCTGAGTTATCTCTGATGCTTCAGGAGCTGTTGTCCTGGGTTACCACTGTGGCCCCAAGTAACCAGGTCATCTCTGCCTTCAGCCCAGCCCCTGT
GGAGGTGAATCTGAAGCTCCGCCGGCCATCCTTCCGTGATGATATTGATCTCAATGCTACCTTTGATGTGGATACTCCCCCAGCCCGGCCCTCCAGCTCC
CAGCATGGTTACTACGAAAAACTTTGCCTAGAGAAGTCACAGTGAGTGATAGTCGCTGGCACTGTCCATGGGCTGGTAGGGGGATAGCTAAGACAGCTCT
GCAGGCCCTGTGCTGTTAGCTCTGAGTGGCTGATGGGGCAGTGAGGGTTGCCTAGGCTTGGCCATGGCTTTGGTTCCAGCTACCTCTTGTTCCCTCACCT
GAGCACTCAATCTGTGCAAACCCCTTCTCTTKTCTCATTATTCCTCACCATCACCTTTCAAGGCAAACGTATTGGAATGCAAGTTAGAGAGAATGCAGTG
ATGCCAGAAGGGGTGGGTCTGGGCTGGAGAGGGTGCTCCCAATACCTTGAAGGCCTGCCCACCAGAGTCCTGAGCGAGGGACTCTGAACTTCCTCTTCTA
TGTTTGCCTCTGAGGCTCATGCCTGAGGGAGGATCATCTCAAACCACAGAGCCCAAGGCCTTACCACCCAAGGGGGTGACCCACAGGGGCAAGCATGAGA
AGCTGTCTGGAATWCCAGTGGGGCAGGTGGAACCTGCTCTGGGGTACRGTGGGACCAGAAAAAGGGAGGCTGTCTCCTTGGCCAGGTTTGCCAAGTGTAA
TTCACTGTGGAGACAAGGACTATACTCATTCATACAGGTACTGTTCAGGTGAGGCTGGTCAAGGGCTGGGCAGGTTTCCTCTTTTTCAAAGACTTTGTAC
AGAGAGAAAGAAGAGAAAGAGAAAGAAACTGAGATGCTAGACAGTGGAGGTGGAAGGGAGCAAGAGGGCAAGCCAGCTGGGCTGTCCTACCTCCCAAACC
TCAGGGGGCATGGGCACCCCTGTTGTAGAGGGCGAGGCCTGGTAGCAATGAGAAACAAACCTAGGACCCRTGGGCTGTAGTCCTCAGGGATCCTGTCAGT
GTCTGCTGTGTACTCTGGCTTCCTCCCATTGCCCYTCTTCCGCTGTAAAGGTTGAAGGTGGACACCTGGGGTCTTCAGGCTGCCAGGCCTTTCAGAGACA
TTTCCACCACCTTCATGGCCTGTGGAGGTAGTGAAGGAGGTAGTGAAGTTCTGAGTCCCTAACTCAGCTCGTCCTTCCTGGAGCCTTGGTTGTCATGTAG
CCTTACCACAGGCCGTTAGGGCAGGAGCAGAGGAGTCAGTCATCAGGCCCTGATCCCACTCTTGTCCTTATGGCTTGAGAAGCCACAGGGCCAGCCTTAG
ATCACCATCTTCTCACCCACCAGGGAAAATGCCAGGAGAGGGTATCCAGCTGCTGGGTTCCCCAGGAATTGGATGGAAATACAGTTTCTGGCTCTGGGGC
TGGGATTGGGAGACCAGGGCCTGGGGCCATGCGCTATTCTGCCCCAGGCCCTTCTTAGACACACTCTCTAGGGAGATGGCTTGGCCCTGTGTTCTGAGAG
GATTTTGTGGGCTACTTTACTGAAAGGCTAACTTACTGAGGCTCTCGTGGAGGTAGTGTCCCCTCTCTGGGAAGACAGGACTAGGCCTGAGCTCATTAAA
TTTCTTTTGCTCGTATCAGGGCATGACTGGCTTTCCTCCCGTGGGTGGTGAGTTGATTGGGCTCTTCAGCCCCATATAGAGCCTGGGACATGGTGAGGTG
CCCGAGGACTTGAGGAGCGTTGGAATTTGGCCTTGAGTGGAAGCCACAGGATTGGGACATGGTCCAGTCATCCCCAGTCATCCCTGTCTCTGCCACCCTA
CTGGCTGTGGCTGTCCAGCTGTTAACAGACCTGCACTTGGGGTGGGATCACTGAGGTGCCTTGCCCAGAATGCAGGCATGGCAGCAGCAGTGCCACATGG
TAACTCCCCAAGGGGCGTGTGCTGAGCCTGGTTCACCTGCCCCCATGTCTTGCTTACCTACCCCTTGCCTTCTCTCTCATTCTTGTAGCTCCCCAATTCA
GGATGTCCCCAAGAAGATATGCAAAGGCCCCAGGAAGGTAAGAGCTTTCTAGAAGAAGCACAGTCTAACCTTTGGCAGGACTGGACTTTTGGGAGGGCAC
GGTCTTGCCAGAGCCTTGTCAYTCCTGGTCCAGGACTGAGGTACTTCGGAGCCACCCTTGGGATTCTACTCATTATCCCTCCTGCCTCCTAGTGAGGCAT
CAGAGATCCTGATCTTGTTCCACCACCACTACCCTCCCTCCTTTGCTGACATCCAGCTCATCAAGTCTGGCCCTGGGGTCTTCCCTGCAGGAGTCCCAGC
TCTCACTGGGTGGCCAGAGCTGTGCAGGAGAGCCAGATGAGGAACTGGTTGGTGCCTTCCCTATTTTTGTCCGGAATGCCATCCTAGGCCAGAAACAGCC
CAAGAGGCCCAGGTCAGAGTCCTCTTGCAGCAAAGATGTGGTGAGTGTGGCTTCCCACAGTGGCAGGAGCCAGCCCTCTTGGGTAGAAATGGGTGGCCAG
CCCCCCAGCCCATTAGCCTGGCCCACTCATCTCTTCCTTCCACCCTAGGTAAGGACAGGCTTCGATGGGCTCGGTGGCCGGACAAAATTCATCCAGCCTG
TATCCTTTTCCTGTGATGTTGAGCTGAGCTGAACTGTGGAGCCCATACTATGCCTCACCTATACCCCCAGCCTGCCAGTGCCAACAGCCTCAGGTGTGCA
GTGCTGGGCCTCATTCTGTGTATCAGCGCCGCCCACCCCCGGCTCTGAGCCTTTCTTGCCCTGCATTGCAGTCCTTTCTCGCCCTGCATTGCAGTCCTTT
CTCCATGCCTCTTCCTTGACAGCTCCTCCAGACTGACACAGTCATGATCCGCCCATTGCCTGTTAAGCCCAAGACCAAGGTTAAGCAGAGGGTGAGGGTG
AAGACMGTGCCTTCTCTCTTCCAGGCCAAGCTGGACACCTTCCTGTGGTCGTGAGAACAGTGAGTCTGACCAATGGCCAGACACATGCCTGCAACTTGTA
GGTCAAGGACTGTCCAGGCAGGGGTTTTGTGGACAGAGCCCYACTTTCGGGACCAGCCTGAGGTGTAAGGGCAGACAAACAGGTGAGGGTGAGTGTGRCA
CCCAGAGACTGCTCTTCCTGCCCTCACCCTGCCCCACTCCTACGACTGGGAGCTGACATGACCAGCCCACTGATCCTGTCAGCAGGTCCTGCTCCTGTTG
CCAGGCTCCTGTTTATAGCCATGATCAGATGTGGTCAGACTCTTTCTGGGCCTGGAGACCACGGTCACTTGTTGACTGTCTCTGTGGACCAGAGTGCTTG
AGGCATCTCAGGCAGCCTCAGCCCAAGCTTCTACCTGCCTTTGACTTGCTTCTAGGCATAGCCTGGGCCAAGCAGGGTGGGGAATGGAGGATAGCATGGG
ATGTATGGAGAGGATGGAAGATTTTCATGTAAAATAAAATTAAAAAAAAAAAAACAATCTCTTCTTCCTGGTTCTGAGAGTGTAAATTTGCACCAACACT
TTAGAAAACTGTTTGGCATGACTTTCTAAAGCAGGAACATCGCCAAGCCTCAGATCCAGCAGTTCCTTCCCTAGGCATATGCCTTGCTGCATGGGGCACA
GGAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTCTTTTT
GCAACAGGGTCTCCCTCTGTCTCCCAGGCTGGAGTGCAGTGGCACAATCACAGTTCACTGCAGCCTCAACCTCCCAGGCTCAGGTGATCCTCCCACCTCA
GCCTCCTGAGTAGCTGGGACTGCAGGTACATGCCACCACGCCTGGCTAATTTTTTTATTTTTATTTTTTGTAGAGACAAGGTCCTGCTATGTTGCCCAGG
CTGGTCTCAAACTCCTGAGCTCAAGCGATCCTCCTGCCTTGGCCTCCCAAAGTGCTGGAATTATAGGTGTGAGCCACCACGCGCAGCCAACGGCACTTTC
TTCTAAAGTGCTTCCCTTCTTGACCCCCAGCCTGGGTGAAGTCCCCTAAATTTCCCTCTCCCACTATTAGGTAGGAGTTCACCTGTTTTTCCAGGACCCA
GCATGGGCCTGGCACGGGGAGTAAGAKGCACAGGGAGTGAGTGAGTGCTGCAGTGGAGGTTGCCCAGCTGATCTCTAGCATATCTGGAGGAGTATGGGGC
TTTGTGGCAAGGAGGTGCCATTCTTGGTTATGAGTTTTGGCCCCTCTGCAGCTGACTTGAGCCAAGGAAGTTTAGTGATGCAAAGCGAAGCATCAGGTTA
AGAGTGTAGGGGCTGGCTGCTAGCACCATCCTTACCAGCTGAGTGATCTTAGGTAAATTACCTGGCCTCTCTGTGCTCAGCTTCTTTTTTTTTTTTTTGA
GACATAGTCTCAGTCTGTTANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNCGTGGTGAAACCCCATCTCTCCAAAAATTCAAAAATTAGCTGGGCATGGTGGTGTGCACCTGTAGTCCCAGCTA
CTTGGGAGGCTGAGATGGGAAGGTCACATGACCCTAGGAGGCAAAGGTTGCAGTGAGCCGAGATCATTCCACTGCACTCCAGCCTGGGCGACAGAGCAAG
ACTCCCAAAAATAAAAATAAAGTGGGGATCTGTGTTGCGTATAGGTTAAGAACTTATGGCAGCTAGGTGAAATAAGCCAGACACAAAAAGACAACTATTG
TATGATTCCACGTACATGAGGTGTCTAGAACAGGCAAGTTCACAGAGACAGAATAGAAGTTAGCATGGGATAGAGGGAGGGGGCAGGGGAATTATTGCTT
GATGGTCACAGAGTTTCTGTCTAGGGTGATGCAAAAGTTTTGGAAATAGATAGGTGTGATGATTACCAAAAAATGAACTTGTGACCTGAATACATGGATA
TCTTGTGTTCATGGATTGGAAGACTTTAAAGATGGCAATAACCCCCAAAGCATTCTACAATTCAATACAATCCCTATCAAAATTCCAATGGCCTTTTTTT
TTTTTGCAGAAATTTGAAAACTGATTCTCAAATTTATATGGAATTGCAAGAGGCTCTGAATAGCCAAAACATTTTTTAAAATTGTTTTAAAGAAAAGATA
AAAGTTGTTCCCAATTTAAAAACTTAACTACAAAGCTATAGTAATCAAAAGAGTGTGGAGCGAAGGCATGCATAATGGTGGAATTGGAAGCTCTAGGGGT
TGGTTCCTGAATCAAAGCAACCATTGAGCTGAAAAGAGCAGTGATTGTAATCAACTGTTTCAGAACCCGGAAATTTAACAAGGGGGTTGCTTGATGAAGA
GAGTAGTGTGAATCAAGCAGCTACTTCTCCCATTCCTCAGCCCCATCCGGCTGTGGGGATAGCAGCACCAGTTCTGAAAGCAGCTGACTGGTGCCAGAAC
AGGCACGGGAACCTTGCCCTCCAAAAATGCTGGGGTTGTGCGCTTTGACGGACCTGGAGGTACTCTGAGATGCTTGCCTTGGTTTCATTCAGCCTCTTAG
ATGCAATTCCTGCATTAATACCCCACCCAACCCCACCTTGGCAACATATCAGAAGATTTAAAGGACTCGTGCCTTTTTTTGTTTGTTTTTTAAGCCAGAA
AATCTTTGTCAGCTCACTCACTGGCTGACTACAGAGATAATAGAGGCCCGGCACAGTGGCTCACACTGTGGGAGGCTGAGGCAGGAGGAATACTTGAACC
TAGGAGTTTGAGACCAGCTTGAGCAAAATAGTGGGACCCTGGCTCCACAGAAAATTTTAAAAATTAGCCAGGTGTGGTGGTGCATGCCTGCAGACTCCCA
GCTACTAGGGAGTCTGAGGTAGGAGAATTGCTTGATTCCAGGAGTTGGAGACTGCAGTAAGCAGTGATTACACCACTGCAGTTCAGCCGGGGCAACAGAG
TGAGACCCTGTCTCATAAATAAATAAAAAATTAGGTTGCTGCAAAATAAAATATTAGATTGGTGCAAAAGTAATTGTGGTTTTTACCATTACTTTATAAG
AGATAACAAACTTCAGTGACCACACACACACAAGAGACACACACTTTGCATAAATAGTTTGGAAAAAATCACAGATGGCTCCAGCCCTCAACAAGCAAAA
ATTTAGGTCAGGCACAGTGGCTCACACCTGTAATCTCAGCACTTTGGGAGCCCGAGGCAGGCAGATCACCTGAGGTCAGGAGTTCTAGACCGTCTGAGCC
AACATGGTGAAACCCCGTCTCTACCAAAAATACAAAAAATTAGCCGGGCGTGGTGGCACATGCCTGTAATCCCATCTACTCAGGAGGCTGAGGCAGGAGA
ATCACTTGAACCCGGGAGGCAGAGGTTGTAGTGAGCCGAGATAGCACCACTGCACTCCAGCCTGGGCAACAGAGTTGCCAGTGTCAAAAAAAAAAAAAAA
ATTAACAATCCCTGAGGAGTCGGAGAATAAGATTTGCCAGAGTTANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTTTGAAACGGATTTCA
CTCTTGTTGTCCAGGCTGGAGTGCAATTGGTGCAATCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTA
GCTGGGATTACAGGCATGCACCACCACGCCCGGCTAATTGTTGTTGTTGTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCAATC
TCGGCTCACTGCAACCTTTGCCTCCCGGGTTCAAGCAATTCCCTGCTTCAGCCTCCCAAGTAGCTGGTATTACAGATGCCTGCCACCACACCTGGCTAAT
TTTTGTATTTTTTTTAGTAGAGATGGGGTTTCGCCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTCATCCACCTGACTCAGCCTCCCAAAGTGC
TGGGATTACAAGCGTGAGCCACTGCACCTGGCCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCCAACC
TTAGGTAATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGAAGTGTGAGCCGCTGCGCCTGGCCTAATTTTTTTTGTAGTTTTAGTAGATATGGAGTTTCAC
CATATTGCCCAGACTGTTCTCAAACTTCTGGTCTCAAGGGATCCGCCAGCCTCAGCCTCTCAAAGTGCTAGGATTACAGGTGTTAGCTACTATGCCTGGC
CAGAATATTCAGTTCTCAAAAAAATCATAAAGCGTATGAAGAACCAGGGAAGTATGGCCCACTCACAGGAAGAATTTTTTTTTTTTTGAGATAGAGTTTT
GCTCTTGTTGTCCAGGCTGGAGTGCAATGGCACGTCCTCTGCTCACCGCAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTA
GCTGGGATTACAGGCATGCGCCACTATGCCCGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCCAAC
CTCAGGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCACGCCTGGCCACAGGAAGAATTTTTTTGACAAACTATCCCT
GACAAACTCTGGAGCTGAAAAGTAAATAGGTTTTCAGTGAGCCAAGATCGCGCCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCTGTCTCCAAAAA
AAAAAAAAGAAGAAGAAGAAGAAGAAGAAGAAAAAAGTCATCACCAAACCACGGTCACCTAGATTTTCCCCTATGTTATCTTTTAGGAGTTTGATAAGTT
TTGTATTTTACATTTAGGTCTATGAGCCATTTTGAGTTAATTTTTGTGAAAGGTCTAAGATATGTCTAGATTTTTATTTTGATTTTTGCATATGGATGGC
CAATTGTTCCAGGACTATTTGTGAAAAGACTACTCTTTATTGGATTGCCTTTGCTCCTTTGTCAAAGATCAGTTGACTATATTTGTGTGGGTCTGTTTCT
GGGCTCTATTCTGTTTCATTGGTCTATTTTTGCTGACACCATACTATCTTGATTTTCTTTCCTTCTTTTTTTTTTTTTTGAGATGAAGTCTCACTCTGTT
GCCCAGGCTGGAGTGCAGTGGCGCAATCTCAGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCTGCCTAAGCCTCCCAAGTAGCTGGGATT
ACAGGCAGCATGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAAACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGT
GATTTGCCTGCCTCAGCCTTCCAAAGTGCTGGGATTACAGACATGAGCTGCCACACCTGGCTCCCCCTCCTTTTTTTTTCTTTTTAAATAGAGACCAGGT
CTCACGTGTAGACAGGTTGGTCTCAAACTCCTGGGTTCAAGTGATCCTCCTGCCTCAGCCCCCCAAAGTGTTGGGATTACAGGTGTGAGCCACCATGTCC
AGTCCTTACTGTCTTGATTACTGTAGCTTTATAGTAAGTCTTGAAGTCAGGAAGTGTCACTCCTCTAACTTTGCTCTTCTTCAGTATTGTGTTGGCTATT
CTTGGTCTTTTGCTTTTCCATATAAACTTTGGAATTAGACCGGGTGCAGTGGTTCACATCTGTAATCCCGGCACTTTTAGAGGCCGAGGCAGGAGGATCG
CCTGAACCAAGGAGTTTGAAACCAGCCTGGGCAACATGGCGAAACCC


SNP Information

Context             (SEQ ID NO:5487):
GGGTGGTCTTGATCTCTTGACCGCTTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGTGCCTGGCCGAGAGTAGGGCT
Y
TCTTGAGGGGTGGCCTTGAGTCAGGAGTGGGCTCCAGGTCCCTGGAGCTGAGTTATCTCTGATGCTTCAGGAGCTGTTGTCCTGGGTTACCACTGTGGCC
Celera SNP ID:            hCV11547318
SNP Position Genomic:     31359
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,5)   total(C,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5488):
CTGCTCTTCCTGGCTCCTGGGTACCTCTCAGCTGGCTGGAGAGCACAGGCCTCAAATGTGACAGCGTCAGAGGCCTATTTTTGTACCACATCTGGAGTAG
R
AGGGCTCCTGGAACCTGATTCGGTCAGCACAGCTGCTTTTACTTCTGGCATGGTGCATCCACAGGCTGCAGGATGTAGGAAGCAGCCTTTGCTTCTAGGC
Celera SNP ID:            hCV15961500
SNP Position Genomic:     22909
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,1)   caucasian(A,5|G,9)   total(A,6|G,10)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,331|A,1148)   total(G,331|A,1148) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5489):
GTGATAGCTGAGCTAAGCCTGAGGGGGACTAAGATGGCTCAGTGAAGATAGATGCTTCCTTGATCACCTATACAAACAGATGTGATTTCAAAACCGTTAG
S
CTGGGCAAGGGTGAGCTTTCACCACATCAACAAGTCCTTTTATTTCTTCCAGATAGAAACCTGCTAGGCTTCTGGCTACCCAAGAGAGTTTGCTGTGCCT
Celera SNP ID:            hCV28955972
SNP Position Genomic:     7025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5490):
TATTTTTGTACCCTTACTTACTTTTATTTCTGGTTGATCCTTACCTTGAAAGTGTAGTCTTTGGGATTCCAGCTTAAAATGGGGGTGTTATCAGAGTCCT
Y
ATCTCTGAGGGCCCCTGAGCTTCGACTATCATCTCTCCCAACCCCAGTCAAAGCCCAGAATGTTGCCTAAAGGACAGCTTTTGGCCAAGCCAACAGGGCC
Celera SNP ID:            hCV9512501
SNP Position Genomic:     15046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5491):
GGGCTTGGCCTCCTGAGCCTAATGATGAGGTATCAGGCCTTGCTCTGTTCCCAGTGGGCTGGCCTTTCATGCATGCTGCTCATGTCCTCTGCATTATCTC
Y
GGACTTGATGCCTCAGCCTTTCTCTCACACACTTTTCTTTCCCTCCCCAAGAGCCTGAAAAAGAAGCTAACGATGCTGCAGGAAACCTTGAACCTGCCAC
Celera SNP ID:            hCV25630075
SNP Position Genomic:     23642
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:5492):
CAAAGGCCCCAGGAAGGTAAGAGCTTTCTAGAAGAAGCACAGTCTAACCTTTGGCAGGACTGGACTTTTGGGAGGGCACGGTCTTGCCAGAGCCTTGTCA
Y
TCCTGGTCCAGGACTGAGGTACTTCGGAGCCACCCTTGGGATTCTACTCATTATCCCTCCTGCCTCCTAGTGAGGCATCAGAGATCCTGATCTTGTTCCA
Celera SNP ID:            hCV25630076
SNP Position Genomic:     33622
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:5493):
TGCCTCTTCCTTGACAGCTCCTCCAGACTGACACAGTCATGATCCGCCCATTGCCTGTTAAGCCCAAGACCAAGGTTAAGCAGAGGGTGAGGGTGAAGAC
M
GTGCCTTCTCTCTTCCAGGCCAAGCTGGACACCTTCCTGTGGTCGTGAGAACAGTGAGTCTGACCAATGGCCAGACACATGCCTGCAACTTGTAGGTCAA
Celera SNP ID:            hCV25761708
SNP Position Genomic:     34406
SNP Source:               Applera
Population(Allele,Count): african american(A,28|C,6)   caucasian(A,34|C,6)   total(A,62|C,12)
SNP Type:                 SILENT MUTATION;UTR 3;hmCS


Context             (SEQ ID NO:5494):
TTTTAGTTTATCAGTTACTCCTTTAAGCATACTTTGGAACTTTATCCTCAGACTCTCATTACCTTTAGAATTTTCTCTGATTTTGGCTTTCTGCAGTTTT
R
GTATAGTGTATCCAATATGAATTTCTTTTTACCTTTTTCTTTTCTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGCACAGTGG
Celera SNP ID:            hCV2744684
SNP Position Genomic:     9914
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:5495):
GGTATCCCCCAACATGTGGACACTGATGCTCCCCTCTGCTCTTCCTGGCTCCTGGGTACCTCTCAGCTGGCTGGAGAGCACAGGCCTCAAATGTGACAGC
R
TCAGAGGCCTATTTTTGTACCACATCTGGAGTAGGAGGGCTCCTGGAACCTGATTCGGTCAGCACAGCTGCTTTTACTTCTGGCATGGTGCATCCACAGG
Celera SNP ID:            hCV15961490
SNP Position Genomic:     22874
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,317|A,1142)   total(G,317|A,1142)no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5496):
CCATATTGGCTATACTTGTGGGTTTTGTACTAGGTAGTTTGAAGAGTCAAGGCCTTCCCAGTACCTCACAGAGGGGATGCTCAACTAAGACCTCAGTGAG
R
CTGGGCCATATTTCCGAAAGTGGTTCATACTCTACTGATGAGGCCAGCCTGAAGAACCTTCCATTAGCACTCTAGTCCTTGGCTGGGCTGCTCTCCTGAG
Celera SNP ID:            hCV26861433
SNP Position Genomic:     20044
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,18)      total(G,18|A,2) ;no_pop(G,-|A,-)   
SNP Type:                 INTRON;TFBS;hmCS


Context             (SEQ ID NO:5497):
AATCATAGCTCACTATAACCTCAAACTCCTGAGTTCAAGGGATCTCCCCACCTCAGCCTACCTAGTAGCTAGGACTGTAGGGGTGCACCACCATGCTCGG
K
TAATTTTTTTATTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTGAGATGAAGTCTCACTCTGTCACCCAGGCTGGAGTGTAGTGGCG
Celera SNP ID:            hCV26861434
SNP Position Genomic:     16318
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,13)   total(G,2|T,13) 
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5498):
GGGTGTCCTGCTCTCATCTTCCTCTGTGGTATTCTGCTTCTGTCCCCCAGCCCATTTATCACCTCTAGACATTGAGATGGGGTGCCCATGACTATCCCCT
Y
CTTGGTTTTGTCCACAGCCAAAGACCTGGTCACAAGGCTGATGGAGGTGGAGCAAGACCAGCGGATCACTGCAGAAGAGGCCATCTCCCATGAGTGGTGA
Celera SNP ID:            hCV11546051
SNP Position Genomic:     2527
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,8)   caucasian(C,17|T,19)   total(C,43|T,27)
SNP Type:                 INTRON;hmCS

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:5499):
TCTTCTTTGATCTTGCCCAGGAGGAGGAGAATGTCTTGGATGCAGAATTCTTAAAGGTACCCAGAATTTATCTGATTCTACTGAACTCCAAGCCTTGTGC
R
AGTTCACTTTTCTTTTTTCTTTTCTTTTCTTTTTTCTCTTCTCTTCTCTTCTCTTCTCTTTTCTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTTTTAGA
Celera SNP ID:            hCV26861435
SNP Position Genomic:     16074
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:5500):
GTCTCAAACTTCTGACCTGATGATCCACCCGCCTCGACCTCCCAAAGTGCTGGGATTACAGACGTGAGCCACTGGGCCTGGCCTGCCTACTTTTAAACTC
T
GTGTAAATAGAATCATACAAAATATAACTTTTTGTATCTGGCTTCTCTTCCTCAGTGTTATGTTTTTGTGATTTATTCATAATATTGTTCTTAGCTGTAG
Celera SNP ID:            hCV26861436
SNP Position Genomic:     13351
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5501):
GGTCTCAAACTTCTGACCTGATGATCCACCCGCCTCGACCTCCCAAAGTGCTGGGATTACAGACGTGAGCCACTGGGCCTGGCCTGCCTACTTTTAAACT
C
TGTGTAAATAGAATCATACAAAATATAACTTTTTGTATCTGGCTTCTCTTCCTCAGTGTTATGTTTTTGTGATTTATTCATAATATTGTTCTTAGCTGTA
Celera SNP ID:            hCV26861437
SNP Position Genomic:     13350
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|C,3)   total(C,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5502):
CCCAGGATTCTCTACGGCCTCGGGGCCGCTAAGCCCCGCCCATAGTTCCGCCCATCCGAGAATTTGTCCAATCCAGGCGAAGTATTCACGCTCCGCCCAA
R
GTTTTGTGTTGTCACTTCCGGCCCGCTCCAGGAAGTCGTGCTGCGGAGCCAAATTTGAAGCAAGCGGAGGCGCGGGGGCGCGTCTACGAAGCCGGACCTG
Celera SNP ID:            hCV163035
SNP Position Genomic:     6497
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,6)      total(G,3|A,6) ;JBIC-allele(G,164|A,577)   total(G,164|A,577)
SNP Type:                 UTR 5


Context             (SEQ ID NO:5503):
GAGTGGACAGATGGACAAGCAGGCTTGCAGTCAGATGGGGTGGGGGCATGTGTCTGTGGCCTTTCTGTGTGACCCTTCCCCCATGCAGGCTTTCAGGCAA
Y
CCACCTTTCTATGAGGAGGTGGAAGAAGATGATTATGAGAACCATGATAAGAATCTCTTCCGCAAGATCCTGGCTGGTGACTATGAGTTTGACTCTCCAT
Celera SNP ID:            hCV11546054
SNP Position Genomic:     2254
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,10)   caucasian(C,1|T,1)   total(C,19|T,11)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:5504):
ATCGCTTGAACTCAGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCCCGCCTGGGTGACAGAGCGAGACTCAGTCTTAAAAAAAAAAAA
A
GTGTTTTTTTGGCTAGGCATGATGGCTCACCCCTTTAATCCCAGCACTTTGGGAGGTGGCTGGATTGCTTGAGCCCAGGGGTCCAAGACCAGTCTGGGCA
Celera SNP ID:            hCV26861438
SNP Position Genomic:     11848
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5505):
CCCTATGTTGTGGGGAAGTGGAGAGTAGTACAGCTAAGCCAGACCCCATTGTGCCCGCAGGTTAGAGCCTGGCAATGCCGTTTGGGTGTGTGACTCTGGG
Y
GACAAGAAGAACTATAACCAGCCATCGGAGGTGACTGACAGATATGATTTGGGACAGGTCATCAAGACGTGAGTGCCGGGCCTGTCAGGCAAGGCTGGGT
Celera SNP ID:            hCV11546055
SNP Position Genomic:     732
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,10)   caucasian(C,11|T,7)   total(C,25|T,17)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,12)   caucasian(C,15|T,5)   total(C,37|T,17)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,6)   caucasian(C,12|T,6)   total(C,28|T,12)
SNP Type:                 SILENT MUTATION;TFBS;hmCS

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION;TFBS;hmCS


Context             (SEQ ID NO:5506):
GCTATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCACC
R
TGTTAGCCAGGATGGTCTCCATCTCCTGACCTTGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGCGCCACCGTGCCCGGCCAAG
Celera SNP ID:            hCV26861439
SNP Position Genomic:     27799
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5507):
GATGGGGCAGTGAGGGTTGCCTAGGCTTGGCCATGGCTTTGGTTCCAGCTACCTCTTGTTCCCTCACCTGAGCACTCAATCTGTGCAAACCCCTTCTCTT
K
TCTCATTATTCCTCACCATCACCTTTCAAGGCAAACGTATTGGAATGCAAGTTAGAGAGAATGCAGTGATGCCAGAAGGGGTGGGTCTGGGCTGGAGAGG
Celera SNP ID:            hCV464095
SNP Position Genomic:     31832
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,5)      total(G,5|T,4) ;JBIC-allele(G,336|T,1167)   total(G,336|T,1167)
SNP Type:                 INTRON


Context             (SEQ ID NO:5508):
GGCAGGAGGGTGGGAGAGTGGATGAGGGGCTTCTCACTGTACATAGAGTCACTGGCATGATGCCCTCGCTCCCCCATGCCCCCACATCCCAGTGGGGCAT
W
ACTAGGGGTCACGGGAGAGCAGTCTCGTCTCCTGTGTGTATGTGTGTGAGTGGTGGGCAGGCCAGTGGCAGGGCCGGCCCCAGCCCCTGCATGGATTCCT
Celera SNP ID:            hCV163038
SNP Position Genomic:     3909
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,3)      total(A,3|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3;hmCS


Context             (SEQ ID NO:5509):
AGAGCCCAAGGCCTTACCACCCAAGGGGGTGACCCACAGGGGCAAGCATGAGAAGCTGTCTGGAATTCCAGTGGGGCAGGTGGAACCTGCTCTGGGGTAC
R
GTGGGACCAGAAAAAGGGAGGCTGTCTCCTTGGCCAGGTTTGCCAAGTGTAATTCACTGTGGAGACAAGGACTATACTCATTCATACAGGTACTGTTCAG
Celera SNP ID:            hCV464096
SNP Position Genomic:     32148
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5510):
AAGCCAGCTGGGCTGTCCTACCTCCCAAACCTCAGGGGGCATGGGCACCCCTGTTGTAGAGGGCGAGGCCTGGTAGCAATGAGAAACAAACCTAGGACCC
R
TGGGCTGTAGTCCTCAGGGATCCTGTCAGTGTCTGCTGTGTACTCTGGCTTCCTCCCATTGCCCTTCTTCCGCTGTAAAGGTTGAAGGTGGACACCTGGG
Celera SNP ID:            hCV11547320
SNP Position Genomic:     32470
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5511):
AGGCCTGGTAGCAATGAGAAACAAACCTAGGACCCGTGGGCTGTAGTCCTCAGGGATCCTGTCAGTGTCTGCTGTGTACTCTGGCTTCCTCCCATTGCCC
Y
TCTTCCGCTGTAAAGGTTGAAGGTGGACACCTGGGGTCTTCAGGCTGCCAGGCCTTTCAGAGACATTTCCACCACCTTCATGGCCTGTGGAGGTAGTGAA
Celera SNP ID:            hCV11547321
SNP Position Genomic:     32535
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:5512):
GTAGGTCAAGGACTGTCCAGGCAGGGGTTTTGTGGACAGAGCCCCACTTTCGGGACCAGCCTGAGGTGTAAGGGCAGACAAACAGGTGAGGGTGAGTGTG
R
CACCCAGAGACTGCTCTTCCTGCCCTCACCCTGCCCCACTCCTACGACTGGGAGCTGACATGACCAGCCCACTGATCCTGTCAGCAGGTCCTGCTCCTGT
Celera SNP ID:            hCV464099
SNP Position Genomic:     34598
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:                 UTR 3


Context             (SEQ ID NO:5513):
TCAGCGGTGGAACAGCTGGCTGTGTACTGTGTGTCTCTCAAGAAGTGCGTACTGTGGCCCCTCTCAGCAAACACAGGAGATAGGCCATGGGGCCCCAGCC
R
TGTCATTGCTCCCCATCTCTTGTAAAGCAGATGGAACTAAGGGGCAAACTCTGGAGCCATGCTGCCTTTGTTTGAACCCTGATTCCACCTTTCAGCAACT
Celera SNP ID:            hCV11988906
SNP Position Genomic:     21785
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    ;no_pop(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5514):
CAGCACAGTCTATTCTTGTGTTTGTTTGTTGGTTTGTTTGTTGGTTTGTTTGTTTTGAGATAGGGCCTCATTCTGTTGCCCAGGCTGGAGTGCAGTGGTG
Y
GATCACAGCTCACTGCAGCCTCAACCTCCTGGGCTCAGGTGATGTGATCCTGCCTCAGCCTCCTGGGTAGCTGGGACTAAAGTGCTGGGATTACGAGCGT
Celera SNP ID:            hCV491439
SNP Position Genomic:     26136
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5515):
TGCTGCCAGTTTCTTGGCCTCTTTGACCCTCAACTTCCTGAATGGAAATAGTAGTAGACCTGCCTCATAGGATTGTTGAGGATTTAGTGTGAATCTTAAG
Y
GCTGTTTCTAAGGGAGTTGACCTAGCTCTCTGGGCTATAAGCCCCATTGTGATTGATATGTAGAGCCTGTTCCCCATTAGCACTATGATCCTGCCTGGCT
Celera SNP ID:            hCV27877459
SNP Position Genomic:     21994
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5516):
CTGGGGCTTTCTGCATGCCCTCTCAAGTCACCAGTGCCTGCAGGACAGGCAGGAGGAAATAGTCACTTCCTTGCATTCTCTGCAGGACCCTCCACAGTGC
Y
ACCTGGTACTTGTTGGGCTCAGGTGTCAAAGTAGGAATGAGAGTGAGTTGAGGGGTTGGGCAGTGCTTTGTGTTAGATTAGTGCTGTGGCTCAGTCTGAC
Celera SNP ID:            hCV11988907
SNP Position Genomic:     22335
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON;TFBS


Context             (SEQ ID NO:5517):
AATCTAAAAGAGGCACGGAAGGCCTCAGGGGAGGTGGCTGACAAGCTGAGGAAGGATTTGTTTTCCTCCAGAAGCAAGGTAACTTAGCAGTGAACAGAGG
Y
TGAAGGAGAAGTGGCTCTCCTTTTGTCATGTTCACTCTGGTCTCCTGAGCAAGGCCATGGGACCTGATGGCACAGCTGACTCCCTGGGGCAGCTGGAGGA
Celera SNP ID:            hCV11988908
SNP Position Genomic:     22592
SNP Source:               Applera
Population(Allele,Count): african american(T,10)   caucasian(C,5|T,31)   total(C,5|T,41)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:5518):
TTCACTCTGGTCTCCTGAGCAAGGCCATGGGACCTGATGGCACAGCTGACTCCCTGGGGCAGCTGGAGGACTTACAGAAATTTGTTACCAGTCCTTACTG
S
GCATTGGCCTGAATATGTGGCTTGTCCACTAGGGGTGGACAGATCACAGAGGTATCCCCCAACATGTGGACACTGATGCTCCCCTCTGCTCTTCCTGGCT
Celera SNP ID:            hCV11988909
SNP Position Genomic:     22723
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5519):
CTCAGTTAGTTGGGTCGTTATATACCCCATTTCCATTTATAAGTGGTTATCCTAGAAATTAAGGTATGTATCCTTAACTTACCAATTTCAAGGTTAATCA
R
CACCTTTCTCATTTTCCCAGGCAACTCAAAGAGCTTAGAATACTAACATTCTTTTCCCACTTCTACGTTATTGTTGAATATTTTAATTGTGTGTATGTGT
Celera SNP ID:            hCV15987959
SNP Position Genomic:     8642
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,4)      total(G,4|A,2) ;(G,-|A,-)   TSC_42_A(G,-|A,-)   TSC_42_C(G,-|A,-)   TSC_42_AA(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5520):
GGTGGAGAGGAGGAGTAGTCGCCCAAGGTCCTTGGCCATTCCTATTGTGTGTCCCTGGTGAGTCAGCTGATGCCCAGAGGGAATGAGACCAACATAGAGC
R
ATGAGGCCAAGGAAGTGATAGAAACTTCTGCTATGGAGACTGATCACAGGGGCCCTACTTTAACTTCCCTTCCACTATTCTACCTCTTTACCTGTCCTGG
Celera SNP ID:            hCV15931395
SNP Position Genomic:     18638
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,10)      total(G,10|A,5) ;(G,-|A,-)   TSC_42_A(G,-|A,-)   JBIC-allele(A,338|G,1157)   TSC_42_C(G,-|A,-)   TSC_42_AA(G,-|A,-)   total(G,1157|A,338)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5521):
CCTGTGGTCGTGAGAACAGTGAGTCTGACCAATGGCCAGACACATGCCTGCAACTTGTAGGTCAAGGACTGTCCAGGCAGGGGTTTTGTGGACAGAGCCC
Y
ACTTTCGGGACCAGCCTGAGGTGTAAGGGCAGACAAACAGGTGAGGGTGAGTGTGACACCCAGAGACTGCTCTTCCTGCCCTCACCCTGCCCCACTCCTA
Celera SNP ID:            hCV11971033
SNP Position Genomic:     34542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:5522):
GGCTCATGCCTGAGGGAGGATCATCTCAAACCACAGAGCCCAAGGCCTTACCACCCAAGGGGGTGACCCACAGGGGCAAGCATGAGAAGCTGTCTGGAAT
W
CCAGTGGGGCAGGTGGAACCTGCTCTGGGGTACAGTGGGACCAGAAAAAGGGAGGCTGTCTCCTTGGCCAGGTTTGCCAAGTGTAATTCACTGTGGAGAC
Celera SNP ID:            hCV29261346
SNP Position Genomic:     32114
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5523):
AGAGAGGGAAGGGAGGTGACTGAAGCTGTTCACCTAGACCAGGTGAGCCTCTTGTCTCTGAGTGCAGCTTCTTGCCCAGGAACCAAGATGGGAGGGGGTT
R
CCTGATGGGACTGAATATCTTCGGGAGAGGGCTCAGCTGCTGAGTTTGGCTGGAACCTGCTTGAGTCCTGGGTTGATGAACTAACTGGACCCATGGCAGG
Celera SNP ID:            hCV15931396
SNP Position Genomic:     19272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5524):
GTATCTTTTGAGCACTTAACCGTGTAGGTCTGTAGTAATATGACTTCAGTGACCACGAAACCAGCAGCCCCAACTTGGGGTACCTGCAGGAGTAAAGAGG
K
CTTTTGACTCTAAAGGATGTACTTTGAAAAATTAGGTCTGAGAACAGGCCTGACATGCATGTCAGGCAGGTAGTCAGACCCATGTACAACACTCTCCTCC
Celera SNP ID:            hCV25630081
SNP Position Genomic:     15793
SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,22)   caucasian(T,38)   total(G,6|T,60)
SNP Type:                 INTRON


Context             (SEQ ID NO:5525):
GAGGTCTTTTGACTCTAAAGGATGTACTTTGAAAAATTAGGTCTGAGAACAGGCCTGACATGCATGTCAGGCAGGTAGTCAGACCCATGTACAACACTCT
Y
CTCCTTGCGCATGACCCAGCTACACAATCATACTCTTACCTTGTTCTCCCATCCAGGTTGGCAAAAGAACCATTATCAATAAGCTCTTCTTTGATCTTGC
Celera SNP ID:            hCV25630082
SNP Position Genomic:     15889
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:5526):
TCACTTCCTTGCATTCTCTGCAGGACCCTCCACAGTGCTACCTGGTACTTGTTGGGCTCAGGTGTCAAAGTAGGAATGAGAGTGAGTTGAGGGGTTGGGC
R
GTGCTTTGTGTTAGATTAGTGCTGTGGCTCAGTCTGACCTGCAGGTGTTCTTTTCTGGCATCTCTTTCCATGGCCACATTGCAGAGAGTACGAGAATCTA
Celera SNP ID:            hCV25630083
SNP Position Genomic:     22397
SNP Source:               Applera
Population(Allele,Count): african american(A,25|G,3)   caucasian(A,40)   total(A,65|G,3)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:5527):
GCCCTGTGGACTGCTGGGCCATTGGAGTCATCATGTACATCCTGTGAGTGGACAGATGGACAAGCAGGCTTGCAGTCAGATGGGGTGGGGGCATGTGTCT
S
TGGCCTTTCTGTGTGACCCTTCCCCCATGCAGGCTTTCAGGCAACCCACCTTTCTATGAGGAGGTGGAAGAAGATGATTATGAGAACCATGATAAGAATC
Celera SNP ID:            hCV25630087
SNP Position Genomic:     2209
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,13)   caucasian(C,1|G,17)   total(C,2|G,30)
SNP Type:                 INTRON;hmCS


Context             (SEQ ID NO:5528):
AGTAGGTCCTCAGGTTTTATGGGTACAGAATTCATAGGGAGGTATTGCCCCAGAACTGGACTCCCCATTCTGGGCTTATCTTCTGGTTCTGCTCCAGTCA
W
CACCTTGGTTTGGGGAGTTGTAAAATAGAGGCAAATCACTTCTTCCCCTTGCCCTTCCATACTGTACCCATCCATCCCATAAGAAAAGGGCCATATTGGC
Celera SNP ID:            hCV16057632
SNP Position Genomic:     19853
SNP Source:               Applera
Population(Allele,Count): african american(A,9|T,9)   caucasian(A,18|T,20)   total(A,27|T,29)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|A,7)      total(A,7|T,7) ;JBIC-allele(A,335|T,1166)   total(A,335|T,1166)   (T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5529):
CCAGCCTGGGTGAAGTCCCCTAAATTTCCCTCTCCCACTATTAGGTAGGAGTTCACCTGTTTTTCCAGGACCCAGCATGGGCCTGGCACGGGGAGTAAGA
K
GCACAGGGAGTGAGTGAGTGCTGCAGTGGAGGTTGCCCAGCTGATCTCTAGCATATCTGGAGGAGTATGGGGCTTTGTGGCAAGGAGGTGCCATTCTTGG
Celera SNP ID:            hCV26012287
SNP Position Genomic:     35727
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,4)   total(G,4|T,1) 
SNP Type:                 TFBS


Context             (SEQ ID NO:5530):
TTTGGTTAGACTAGAAATTAAGCTCGCCTCTAAGCGTACTCTATTTTCTGTTTGCCTACTCTATTTTCTTCTATCCTTTTACTTTATTTATTTATTTTTA
Y
TTTATTTTATTTTTGAGATGGAGTCTCGCTCCTGTCGTGTAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCACCTCCTGAGTTCAAGT
Celera SNP ID:            hCV26026694
SNP Position Genomic:     7631
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,5)   total(C,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5531):
GTTTCACTATGTTGGCCAGACTGGTCTCAAACTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTACCGTGC
S
TGGCCTATCTTGTCTAATTTAAAGTCCATTTTATCTGCTATTAGTATAGCCACTTCAGCTGTCTTTTGGTGACTGCATGGTATATCTTTTTTCATCTGTT
Celera SNP ID:            hCV11546044
SNP Position Genomic:     9525
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,7)   total(G,7|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5532):
ACCAGCACAGTCTATTCTTGTGTTTGTTTGTTGGTTTGTTTGTTGGTTTGTTTGTTTTGAGATAGGGCCTCATTCTGTTGCCCAGGCTGGAGTGCAGTGG
Y
GTGATCACAGCTCACTGCAGCCTCAACCTCCTGGGCTCAGGTGATGTGATCCTGCCTCAGCCTCCTGGGTAGCTGGGACTAAAGTGCTGGGATTACGAGC
Celera SNP ID:            hCV491440
SNP Position Genomic:     26134
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5533):
GCAGTAGGATTACCCTTCATACCTGTCATTTTAGGGAGGCATCAGCATGTAGCCACCACCCCCAACTACAGAGTCAATGTTAGGAAGATCTCTCTCATGG
R
CCCCAAGGGCCCCTGAACTCCAGGCTAGAGACAGCCAGGGAGACCTTTCCTTAGGGTAGGGTAAGGCCGCCAGGAGCCATGAGTTCATGGAGGAGATGTT
Celera SNP ID:            hCV11547316
SNP Position Genomic:     29346
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;TSC_42_A(G,-|A,-)   TSC_42_C(G,-|A,-)   TSC_42_AA(G,-|A,-)   
SNP Type:                 INTRON


Gene Number:                 28
Celera Gene:                 hCG15929 - 96000070133678
Gene Symbol:                 CAPN9
Protein Name:                calpain 9 (nCL-4);CALPAIN9;GC36;nCL-4
Celera Genomic Axis:         GA_x5YUV32VWMC(6724321..6791007)
Chromosome:                  Chr1
OMIM number:                 106150
OMIM Information:            ANGIOTENSIN I;AGT


Genomic Sequence (SEQ ID NO:1689):
GAGCCTATGCGCCTACAAGCTGGGATCTCTTGAGTCAGACAGCTGAGGCCAAAGACTGGCATCACCCTGTGGAGCAGCGAGTGTGGGGGAGATTTGGGCT
GGGTGCTCTGTTGCCTTTCAGGAGATGGCTCTTACCCTATGGTGTGATGCCTGAGCACGGCTCATTCCCACTGAAGAAAAGATTTGTTATGGTTCATGAA
TGAGTGCCCACTAGGACAGGGGTGAAACTAGGAGTGTTCCAGGGATGGACAAGTCCCTGGATGAAGAAAGGGAGACCCTCACCTGATGTCAGGCTTACCA
ATGACCTTGGGAGGGGATGGATAGGGAAGCAAGGTCTGGGTGAAGATCTAGTTCTCATCTTCTAGGAAATGGGGGTGGCCCTCAGGACAGATAAGCTCCT
TTGCAAATGTACAGACATCTTGCGAGGAGAGATACACGGGGGAGGGAAGGCAGAGCCCACCTAGGCCAAAACATCATTGTGGGCTTTAAGTTTCAAACTA
GGCTTTTAAAAGTCGACAACAGTTAAGGCTAGTGTTGTGGTGTACACCTGTAGTCCCAGCCACTGGGGAGGCTGAGGTAGGAGGATCTCTTGAGCCCAGG
AGTTCAAGCCTTCAGTGAGCTATGATCATGTCACTGCACTCCAGCCTGAGTGACAGAGCAAGACTCCGACTCTAAAATAAAATTTTAAAAAATTCAACCA
GGTAAATCTATAGGGTTAAAGCTAAAAAAATATAAAAGGCATATAGAAAAGTCTCCCCACATTCCTCTACCCCCATCTACTCCACCTACCCCCAGAAAAC
AGAACCACTATTATGAGTAGATCTTTGTGTAGTTTCCGAGAAATTTTTATGCAGATATAAATAAATATTTTTTGCCTTCTTTCTCCACAAATGCTGGCAT
ACTCTACATGCCATTCTGCACTTTGAATTTTCTTTTTTCTTTTTCTTTTTGAGACAGAGTCTCGCACTGTCACCCAGGCTGGAGTGCAGTAGCACCATCT
CGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCAATTCTCCTACCTCTGCCTCCCAAGTAGCTGGGATTACAGGTGCCCACCACTATGCCTGGCTAAT
TTTCTGTATTTCTAATAGAGACAGGGTTTCACTATGTTGGCAAGGCTGGTCTTGAACTCCTGACCTCATGATCCGCCTGCCTTAGCCTCCCAAAGTGCTG
GGATTACAGGCGTGAGCCACTGCACCCGGCCACTTTGACTTTTCAGTTGAACACTGTATCCCAGGGACCTTCCCACATCAGTGTATGCAGAGTTTCCTTG
TTCCGTTTTATGGCTGTACACTGTTCCACTTCATGATTAGCTGGACCATAATTTTCTTTACCATTCCCCCAACAGAGGGCACTAAGTGCTTTCCAACCTT
TTTTAATGTAAACAATGCCACCATGAAATGAGCAAGCTGGTATACCTTTCACTTTTCGGGGTGCGGCTCTATCATCAGGATAAAGATAAATTTCTAGAAG
GGAAACAGCTGGATCAGAGTGGGTGCATTGGTAGCTCTGAGAGGTATTCATAAATAGTTCTCCAAAAAGGAGACACCAATTTACACTCCCTTCAGCAAGT
AGGGGGGTGTTTTACTTTTTCTTTTTGAGATGGAGTCTCGCTCCTCGCCCAGGCTGGAGTGCCGTGGCTCGATCTCGGCTCACTGCAGCCTCTGACTCCC
GGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCACCCCCACCACGCCTGACTCATTTTTTGTATTTTTAGTAGAGTCAAGG
TTTTACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACTTCAGGTGACCCATCTGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCATTGCA
CGCAGTCGTCTTACTCTTAACATACCCAAAGTGTTCAACTTTTCTTCCAAGTCTGCCTCTCCTCCTTCTGTCACCACCATCACCCATTTGCTCAAGTCTG
AAGGCAGGACGCCACCTTTACACCTCCACCCTTGCACCCCAGCAGAACGCCCTGACAGTACTTCTAGAAGAATCTGTCCCTTCCTGCCTTCACTCTGGTT
ACATCTGGAGTTAGCCTCAGCCCCTCTCACCTGGACACCTGTGCAGGTCCCCTGCCTCTCCACTCTCCACCCTCCTCGCCAGCCCACCCCATCCTCCACA
CTGCAAGCCAAGGGGCTACAAATGTCGCAGCCGGGTGGGCTCACTCTCAGCCCATCATAGGGCTGAGATCCCTCTGCAGGATCCAGGCTGTTTGGCATAT
CCCTCAAAACCCAGGCCCTGCTGTAAGGCCTGGACCGGGTGGGGTCCTAGAGGTCATCTCCCTGCACCCATGTGAAGCTTCTGAGCATTTGTCCTTGGGG
TTTTGCCCCATGGCATCCCAGAGCCACCCAGGCACTATGTTCACCTCCTGCTGCCCTTCAAGATGAACAAGAAGAAGAGAAACAAAGGGAGTTCGCCACA
GGCCTGAGTGTGGAGGAGACAGAGAAAGAACAGCACAGAAAAGAGAGGCCAGGAAGGCCCCAGATGCCAGGTCAGGTTCATTTCATGTAGAAATCACTTC
AGCAGATTGCTCTGCTAAAGAGAAGAAAATACACTTAACATGATGCATGGCCCCCGCTTGGCTCAAAGCTGATTGCATCTCTAGGCTAGCGACAAGCTGG
CAGAGCTTATTAAAAACAGTGCACATGATTCTCTGCCCAAGCTCAGAGCCCTTTCCCTCTGAGCCACTCAGGGCATTTCCCAGTGTGGGTGAGGAAGTGT
GCAAGGCCTGGTAGACCTTAGACTGCATGGCTGCAGTTTCTGTAACTATTGTTCATCCTGAGAAGTGAAGGTTTGGAAAACTAAATGAAGACACCCAAGA
ATGCCATCTGCTTTCTTGAGGCATTGGTTCAATGTTTACTCAGCAAATGTGCATCGTGCTCCTGCCCTGCACTGGGCTGAGCTGGGAGCAGGATTAGACG
CTAAGACAAAGTCATGGAGAAGTCCGGTGCCATGAGCTCTGCAGGAAAGATGGACCCAGGGCTCTGTGGGCAGACATTGGGCAGGAAGAATGATGAGGCT
GTAAATCCTGAGAATGCACTCCCTCCCGCAGACATTCTCAGAGTCCCAGAGTGTTAGGGGGCAGGAGGAATTCCAGCTGTGGTTCTGGAGGATTGTTAAA
CCTTTTTGGTGTGTTTCCTACTCTGAGGCATGTTTGTTTTACTCACAATGATGATGCAATTCTCCAATTACCTAGCAACTATACTAAGACTCTAAAGAAA
AAGGCAGGTTCTTCCAATACATAGATAAGTCCCAGGTGGAAGGACAAGACCCCAGCCTGGAGAGGTGTTTGTATCGGGAGGAGAATGAGAACGTAAATCC
CTGAAGCTGGGAGTGGGTCTGGTGCTGAGCAAACCCTTTACAGTTCTGGTCAGTGCTGAAATTTACTTCAAGGTCCTTTCTCAGTTGCTGGGGCATTTGA
AGGGGATGCTCCCAGAGATCTGGGCTGGTAATCATTTCCCTGCCGAGGTGTCACCAGAAATGGATGGCCCTCACATTGCCACACCTGTCTCCCTAGGTTG
CCCTCCTTAATCACTTCGAAACAGAGCCGTCTGCCAGGGCAGTGGGCAATGGGACACTCCTGGGCAGCTCCATCATCTCTAGCCAAGAATCATTTGGACT
GGCCAGAACTGCACTCTGGTCCCAGCCAGAGGACCCCAGTTCCAAAGTCCTTCATTGTGCAAACAAAGAGACAAAAGAGATGCCTTGCAAGTTGAGGCAA
GTCAGGCTCAGAAGGAGACCATGAAATTCAGCAGCATCTGTGGGAGGGGCAGGGGGTGCAGAGAGGATAGGGGAAAGGGAGGAATCAGCAGCTCCTGATC
CCCTCCATGTGCCAGACTTTGCAAGTGGCTTTGCTTCCACAAACCCGCCATGCCTCTAGCAGGCAGCACCGATTATCCTGATTCACAGCTTGGAAGCAGG
GACAGACAGCATGGATAACTCGCCCAAGATCACCCCAGGGAAAACTGGGAATTTGTCTTAGTTCATTCAGGCTTCTATAACAAAACAGCACAGACAGGGT
GGCTTATAAACAACAGAAATGTGTTGCTCACAGTTCTGGAAGCTGGAAGTCCAAGATCAAGGCACTGGCAGATTCCATGCCTGGTGAGGGTCTACTTTCT
GGTTCCTGTGTCCTCACATGGTGGAAGGGAGGAGGGGGCCCTCTGTGACCTAATCTTTCATAATGACACCAATCCCATTCATGAGGGCTCCACTCTTCTG
ACCTAATCACCCCTTAGAGGCCCCACTTTCTAATACCATTACCTTGCAGGGTATGGGTTCAACATACAAATTTTGGCGGGGTCGGGGGGGTGGTGCGGAA
TACAAGCAATCAGGCCATAGCAGAGTAAAACCCAAATATCCCCAACTCTAATGTCTAGACCTCCCCTGTAAAACCATATGCAGGATCTACTAGACAGAAC
GTGTGTCAGACTGAGTGCACACTCCTGGGAACTGTGAGCTTATATAAAAATTCACATCATGGCCTTTTAACTGTACCCATTAACTCAAGACCCCTTGTCT
CCAAACCTCAACTTTGACTAGTTAGAGAATCACACAGAAATCATTATAAAGTGCTTAGAACATCAGAGTTTTCACGTGGTGACTAATACTTTTATTGACT
TATTTTTATTGATACATAATATTTGTACGTATTGATGGGGTACATGTGCTATTTTGTTACATGTGCAGAATGTGTGATATCGAGTTGGGGTATTTAGGCT
ATCTATCCCCTCCAGTATTTATCATTTCTTTTCTTCTTTCCTTCTCTCTCTCTCTTTTCTTTCTCTCTCTCTCTCTTTTTTCTTTTTTTTTTTTTTTTTT
TTTGACAGAGTCTCTCTCTGTCACCCAGGCTAGAGGGCAGTGGCACGACCTCAGTTCACTGCAACCTCCACCTCCCAGGTTCAAGGGATTCTCCTGCCTC
AGCCTCCCAAGTAGCTGGGATTACAAGCATCCGCCACCACACCGGGCTAATTTTTTGTATTTTTAGTAGAGACAGGGTTTCATGATGTTGGCCAGACTGG
TCTTGATCTCCTGACCTCGGGTGATCAACCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACACCCAGCCTGTATAATCATTTCTA
TGGGCAAACACATTTATCAAACCACCTCCATCCTCTAACATTTGTTTTTTCTCAGACGTGAGATCCTATTTGTAGGACTATAACAACAAGGAACTTTATT
AATATGATGTCTAGAGAATGAAAGAGGCACATGTGCCCTAGAGGAAGAGCCGATGTCCTCTGTGAGTTCTCCTCTATCAGGGGTCAGGTTGGATGAAATC
TAACCCCCACCTGCCTTTGTAAATAAAGTTTTATTGGAACACAGCCACACCCATTCATCTGTGTCACATCTACGGCTGCTTTGTCACTACAACAGCAAAG
TTGAGTAGTTGCAGCACAGACTTTGCGTGGCCCACAAAGCTGAAAATATTCATGGTCTGGGCCTTTACAGAAAAGGTTTGCTGACCCCAGTGCTGAATCA
CTATGGGATTGCCTGTGCAGGAGCTGTGCCAGCTGTGTTCACATAATGCATCCTGCTTTCATTCACCAACCTCCCTTCCGACTACAAAACTCTGCCATTC
TCTGATGCAGGAGATGGGACTCAAGACCACACCGTGCACTTCTCCGTAAAGCCACCTCCTGGACCAGTTGGGTTTCTTGCTCCTTTTCCTTCTGAAGCAA
TCCTCTCTCTCCCATGAGGCCCCCTGAGCGCACTAAGCAGAGGTGCCGCCTCTGAGTGGAATGTGCCAGGCCCCAGAGCTGCCTCTGAGTCTGCAGGAGT
GCAGAGTGGGCAGAGGGCTCTCTCTGCTGTTTTCCATCAGGGCGTGTCCCATCTCAGTCTAACAGGGAGGTGCCCAGAAAATAGGTGGAGGTGAGGGCCA
CTCAGCCCAGTGGCCCTCTGAGCTGTTCCTTCTTGACCGGCACACACAGCTCGCTTCTTCACTTTCTTTTCCATCCACTGCCGGACCCAAGCCAGCCTTC
CAGGGAGCAGCCATGCCTTACCTCTACCGGGCCCCAGGGCCTCAGGCACACCCGGTTCCCAAGGACGCCCGGATCACCCACTCCTCAGGCCAGAGCTTTG
AGCAAATGAGGCAGGAGTGCCTGCAGAGAGGCACCCTGTTTGAGGATGCAGACTTCCCAGCCAGCAATTCCTCCCTGTTCTACAGTGAGAGGCCGCAGAT
CCCCTTTGTGTGGAAACGACCAGGGGTGAGTGGGGYGAGCAGGGGAAGGAGCAYAGATGAGGCCGAGGYTCAGCAGCCCCCGCAGGAAGTGGAAACAGGG
GTGCTGGGGAGGGGCCGGCTACGCTCAGTGCAACTGAGKTGCATCATCCCAGTCTACCGTGGAAAGCTTTGCAGTTTGGAGGCAGAAAATAATGTACAGG
CCTGGGATGCTCTGCGGTGGGGACCSGGGGCATCTGGTTGTACCCGCTCCCCGGCTCCAAGCTGTCTGACTCCYACCGAGGCTGAGGACCTGGAGTCAGA
GTGGGTCTTGTCAGCAGGTGATAGGCACGAATCAAAACCTTATCCACAAGGACAGGCCCCCACCCTGTGTGTGGTAACACTGAGATCACGTTATGCACAG
TGTTCTGTGGCTTCTGGCCCAGAGCTGAGGGTGCTCAGTGTGGATGGATGTTTGGCTCAGCAAGGTCTCAGCAACCGGGTGACAGATGGAATACAAGGGA
AGCAGGAATCTTCTCCCRAGAACCATGCACCCCCCATTCCCAGAGATCAGGGTGAACAGTGCCCCACCTCTGACAGTCTGGAGGTGTCGTCCCAAGAGGC
ACCAGCTGGTCACTGGGTCCCAAGAGGTGCTAGCTTGTGCCTGGGACGCCATGTCAATATTTGCGGTGCTGGATTAGTCAGGGCTCTACCTCTGACCCGG
CGCCAGCTGGGCTGGCTTCCATTCCCTCCAGGTGKGTACGGGCCTGGGAGTGGCTCCTGTGGGGTCCGGTTGCTTTTGGGCAAGGAGGGGCAGTACAAGG
GATGCTGGTCCTACAAGTGAGATCCTGAGTGCCYGTCTTATCCTGACAATTTGTCTCATGCATATAGTCATATCACTTCATTTCCCTGAGCCTCAGTCTC
CTCACCTGTAAAATGGGAACAATAATGGCTAAYGCAGGCCAATGTCTAGCACACAGAAGGTTTCCAGTACATTACAGCTATTGTCACATTATTACTATTA
CTGATACTATTATTATCATCATTACAATGATTATTAGCTCTGARTCTCATCTTACATATGAGTAGCAAAGGACTCATCATAACTACCTCCTCACTATCTC
CCAACATTAAAATAATGTTGATGATTAAAAACAATTTTTTTTAACGCACATTCACAAAACTTCTGGGCTCTTCAGGGGCAGGGCCAAAGTGAACCTAAGT
GGGTGTTTCCGAAGTGGTAAGGGTTTTATTGCTATTTCCTGCAGTAGGCAGTGTGGGGTGTATGTGTGTGCACGCACTTGTGTGTGTAGGAATTTGACTG
TGTATGTGCATGTGTGTGACTGTGTGCACATGTGTGTGGATATGCATAGGCGTGTATGTGGGGGGTGGGTGACTGCATGCATAGGCACACAGGTGCTTTG
ATCTTCACCTGCCAGGTAATTGATCCCACAAGGTGCCATGTTCATGGGGAAATCACAGTGAGCATTCAGTGGCCCTATCGGAGTTGGGGTGAAAGCTCCC
AGGCACCTTCCTCACCGAAGCCACGCTGTGATTGTTTTTGGTTCTCTGCATATGGCCAATTGCAGTGTGAGGTCACGGYACTGGCAGATCACGTGGGGTT
GCACTTTACAGACAGGATTAGTAGGTCATGCTCTGCTAAGTAAGAAAAAGGACATTTCCAAACTAAAAAAGCAGAAGTTACAAGACATAAAAGAGTGACC
CTCTGAGGGGCACCGCCCACGACCATTAGGTCTCCCTGGGCTTATTTCCGGCCTCGGCGCATGAACAAATGGGCGCGTGGGCAGCTGCCCAGGCTGCAGG
CTGTGGGTGCATTTTTAACTGTGGGCAGAGATTTCCCTGCAGTTGATGTCAGGAGCCCTGGGAAATAGAGTTAGAGAAATTGATTTCCTGGGCCCCTGGT
GAGCAGAGCCCCTGGCCAGAAGCAGCGGCTCTTTCTGTTTGATCCAGGGTTTCATACAGATGCTCATGTTCTCTACAGGCACTTGATATGAAAAGGTTGG
AAGCACTTTTTCTCTTCCTTAAAATGGGGACAATAATGCAACTTATGGGGTCCTCATGAGGGTCAGCTGCGTTACCATGAGTAGAGCACTTAGCAAAGAG
CCTGGTGTGTAAAGAATCAGTGCTGGTCCTTGTTATTTCTACTGCTGTCATTGTAACCTAACACCATCGTCTCCTGACTCTAGGAGGGCCCCCATCCTTG
CAGTCTATATTGACATCATCTAGTTTAAAGTGTAATCTGTACTCTACAACTCACTTACTTTTTGTCAAAGTTAGAATTCTCCRAGATAAAAGCTGGACGC
ACAAACCAGCATGGAGGGCATCTTTGTCTCCCCCTTCAGAAGTCTYCCCTCCTGGGACCAGGGCCACCAAGGCCTSCCCAGCGACTCTAGAGTCCCAGAT
CTCTGCTCCAAGGGGCTGTCTTCCTTAGTATTATCTCCTCTGGCATTGCCCCAAACGCTGGGTGAGGCCTTCATCCACAGGCCAGGGCCCTTGATACACA
CAAGCCCCTGCCAAGATGCACCCCGACCTGCCACCCAGCCCATGCCCCTGTACCAGCCCTCTGTCCCTTCTTCATCCCACTGTCTCCACCTACGGCAGAC
CCTTTATTGATCTTAACCCAGGTCTACTGTGTTGCTGTCGTTCCCACAGACTCATTTTCAGAATCTGTTCTGCCTTTTCCTTTGTCTGCAACTGAAGATT
GTCCCTTTGGTCTGGTCCTCATTCYCGTACCCCTATCTGTTTCTTATTTAGGGGAGTTAGRAGCTTTACATCATATCTTACAGATTTCTGTAAAATCAGG
AACAAAAGGGCTGAGGATGAGCATGGAGACTCTTYTTGCAGCATAGAGTCGCAGGGAGCCGGGGGGTAGCGGGCCATAGGGAAATCACAAGCATTGCCAG
GTTCCCTGCAGACCTCTGTGGCTTGGGCATCATTTGCAGTRGGACTCAGCATTACACGGTGCACRTCTCAGCAGCCCGTGGGACCGTGGGGCTGGACGGC
CCTCCTCCTCAGCACCACCTTCTTGTCAAACACAGCTGTRCTTGGGGAGGGTGGGCAGAGCACAAAGCCAAGGGGACATTGGAGGGCAGTGGACAGCCAG
GCTTGCCCTCAAGGGAGCCCAGGGCAAGGAGTGCACTGAGGGTGACTCAGGGAACTGGCTGGGAGGGGCTGGGAGGCAGAGAGGGTGATAGGCTCAACCT
GGAGAGAAGGTGAGATCACCCCCAGGTCTCATGCAAGGGACTGTGGACCTGAGTGGAAGTGGGTGCACAGAAAGAGGAGGAGGGAGTATCGGGTGAGGTC
TCCCAGCCTGATGGGGAACAGCCACCATGCAGTCCATCCCTCCTTGTCTGCCTGTACCCATTTATTTTTGGCCAGGCAATTCCCCCCCACCAATTCTCAG
TGTAAATCCAGGACACCTCCCCGAAAGTGCCCACACCCCTCTAGCCCATGTGAACAACCCCTGTGGCAGACCTGTGCACAGCGTGGCATGTGACCACAGC
CTCTCCTGCACGGTGAGCTTGCCGTTCCCTGTGCTGCTCCCCTGACCCCCAGGAGGGGTTGTCAGTTGTTCTGGGACAGCCCCAAAGGCCCCATGGCCTC
CACAGTGCTGGGCACATGACAGGGATCGGCACATAGCTATGAACAGCAGCGTCTGGCATCTCCAGACCTTGCTGGAAATGTGGCTTTTCTTCACTGGAAG
GCCATGTGAAAGACAGAATGAATGAAAAAGAAAGAGAGAAAGAAAGAGAAAAAGAGAGAAGGAGAGGAAGAGAGAGAGGGAAAGGGAAGGAAGGGAAGGG
AGGAAGGGAGGAAGGAAGGAAAGAAGGAAGGAAGGAGAGAAAGAGAAAGAAAGATAGAAAAAAAGAAAGGAAGAAGAGAAAGAAAGAAAGAAGAAAGAAA
CAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAGAAAGAAAGAAGGGTGGCTTTTCCCTTTGTGAATTATT
CACTGTGCTTAGTAGAGGAAAGTGTGTCTTCGGCTGAGCCCCGATGATGTACAAGGTAAACAGAACAGTCCCTGAAAGCAAACATTCCAGGGTGCTTGGC
CCTTAGTGCTCCAGGAAAACCACCTGGTGGTAGGGCTGTGGGGTGGGGGAGGGGAGGGGGAGGGGGAGGGGTCTGCGTGCCTCCCTCGGGGCTTCAGGCA
GCAGTCTAGGTTCACTTCAGGTTTGTCAAGACCCCTGCAATTGAGACACCTCTGATCGTCCTATCACAGGACTGTAGCTTCAGGTAACCCCTTCCTCATG
GCCTCCCAAGCAACATTTCACAGGAACAAATGTACATCCAGGATCGACACGCACATGCAGGACACTCACACGTAGACAATGCTCCCAAGTGCACATGCAA
CCAGCATACATGTGGAGCATGCACAAGCACACACGTGTACCACACCTGGGCACAYACAACAAGGCAAGTCACAGGCACCTTGCACATGTGGGCATGTGGG
CCGTCAGCATACACACCACTCCCAGGCATCTAACCCAGGCCCACCGCCTAGCTGCCCCTTCCACACATGCGTCCGCAGAACCCCCTGTGACTGGCACGTG
TGCACACCAATTMCCAGAARCACTGACCCACAGAGGAGTCGGTCACACATCCAGACACCTCCCCAATTTATACCCGATGGCTAATTTGTGTTTACTTGGA
GAGTTTCTGAGTTTTTTCCTTTTGTATTTTTCTCCTCATTGGGTGCGATYTGGTTTAAAACAAAAACAAAAACAGACCTCTCCTGAACAAAACAACCAAT
TGCAAGATAGGAGCTGGGAGGCGGTGGCAGCTGCAGGCACAGTTGGTACGGTTGGCGGGGCCAGGCCTGCAGAAGGCTGGGGGAGGGGAGGGGCAGGGAG
GATGGGAAGGAGGCGGGCATCCGGGAACAGCCCTGCCCCAGGAGCTAGCACAGCCTGCTGGGCAGGGATCTGTGGCTTTTGGAGTACATTTTATGTCCAC
TTGAGGAGTGAGTAGCATTGGCAGTGGGGGCATTGCTTGCCAKGGCTATCCCCTGGCAGGGGCTGGGCAATCAAGACAGGGAGGGCTTGGGGGACTCCTG
GGTTTCCCTTCGGGCAGGCACATTCTGCARCAAGCCCAGAATGTCTAAGCTGGTGACAGATGAGGATGCAGCCGTGAGAAGTTAAATGGCCCACCCTGAA
CCCTACTGCTGAGCSGGGCAGGCTATTCCTGGGACTCTATTGAGGCCCACTGACATGGTCCTGGTTTGCATTGTCCTTCTGGGCTCAGCTCAGAGCCACC
TGCAAACTCCTGCGCTAGCCAAGGTGGAGGAGGAAGAAGAGCAGTGYGCTTCCTACAGATGAGAGGGGTCCGCACAGGCAAGCCAAGCCAGGACCCCAGA
ACTGAGCAGCTGCCCCCCACCTTCACTCCCTTTCCAGCCACCACGGAGATCAGAGTCATTTAATGAAATGGCGCCAAAGCTACCTGGAGCTGGGGGTGGG
AATGCAAAGACGTGTGAGACCTGGCAGAGGACAGGCCAGCATTTGGGAGGTCCTTACTTCTGCCGGGCCTGGGGTTTTGGCGCATCTAAAAACACCCCGT
GTTCTTCAGMAATTCTCCTGGCCAAGCTTTCTTGAGTATTTTAGACACTAATGCCACACATAGCTCTCCCTGGGCAGGCGCCCCTGGTGTCTGTCACTCC
TCCAGGTTGTCACATCCTGGGGAATGCAGAGAGAGCACCAGCATTTGAAGCTTCTGCTCTTGGTCCTGATAATCCCCTTGACTTCAAAGAAATCTCTGTC
CTGCCTTTGATTCTTTGGGACACAAGATGAGAGGAGAAGCAGGGTGCTGAGAAGCCTGAGGAAGACAATTCAAAGCAGAGGTCTCTCGGGGAAGGCGGCG
CAGCTTGAGCTCCCCACRTGGCGTCCGCCCAGACACTGCTGGAACCTTCCACCTCCAGCCCAGGCCCCTCCTCAGTCCTGGTGCCTGGAAAAGTGGGAAG
AGGTGGGAAAAATCCTTCACTCCTCTGCAGGCCCCGGCCCAGTTAACTCACCACCCCTGCAGGGTGAGCCAGAACGKGCCTCGCTGCCACAGGWTTGGCT
GTTACCTCTCCCGRGACCGGCCCGGCTTYCTCCCTCCCTCCCTCCCTCCCTCCCTTTGTTTAGGTCTGTGCTCCTCTGCTTCCCCCAGAGACGCCTCCCC
TGCTGACTGCTGTAGCTASCCTTGCCCCATCCCACCCCTTCCCTCTCCATCCTCGCTCTTTTCTCTCCTGGTTTATGGTTTGTCTCTTCCTCAAATGCAA
TTTGCAAAACTCTCCTGAACGAAACAACAGCTTCTGGGAGGTGGTGGCAGCTGCAGGCACAGTGGGCGCCGTGGGTGAGGCCAGGGCTGAGGCAGGCTGG
GGGAGGGGCGGGGCAGGAGGCTGGGAAGGGGCGGGGCTTCCGAGAGCACCGCCCTCCGCGTCCAGGGCAGCTCCACCAGGGCAGGGGCTTTCCCTCTCTC
TTTGTTGTCGTCCAATGTCAGGAATGGAGCCCAGCAACTCAAAGAGTGGAAGAATATATGCATATCATAAGATTGCTTTCTACACTTTTTTGTTCATGTT
TTATAAATACCCCTCCATATTGTATATGTATATATTAATATGTATTAATGATTACATTAATACACATAGTGTATGTGCTTATGTGTAATATAGAATAATA
TATATATATAATGCACTTCGGTGAAACAATATGAGAGATGTGTGCATATCTCTCTTTATATGGTATAGATACATGAAATTTTACCTAAGYGCATCTCTGT
AAAAAGAAACACTGAGCAGGGTGGCATGTGTCTGTAACCTCAATACCTTGGGAATCCAAGGCGGGAGGATCACTTGAGGCCAGGAGTTTGAGACCAGCCT
GGGCAACATAGCGAGACCCCCATCTCCACAAAAAAAAAAAAAAAAATTAAAAAGTGGCTGGGCGTGGTGACTCACGTCTGTAGTCCCAGTTACTTGGGAG
GCTGAGGTGGRAGGATTGCTTGAGCCCAGAAGGTCAAGGCTGTAGTGAGCTATGATCATGTCACTGCACTCCAGCCTGGGTGACACAGCAAGATTCTGTC
TCTAAACCTATATATATTTGGAATCCACTTTGTGGGGGAAGGATTATATAAAGAAAGAAATGGAGAAGMTGGGTGGGTAGGGAGTATGTTTAGTCCAAGG
CCCCAGCCTGTGGTACATGCATTACTCAGCTCCTTGAAGCCCACAGAGGTCACAGAGCTCACAGCTGGGATAGCCCTGGACTCCTAGCCCAGTGCCTGAG
TGAGCACAGGAATCCTCAGTGTGTGGCTGATGTCCAGCTTTGTGGCCGGGTGTGGCCTGTGTTTCTGGCCAGAGATTGGTGCTGAGTGCAGCTCAGGAGG
CAGGACCTCTCCCCGGCGGAGGAGATTTACCAAAGATGAGCCCAGCCTTATCCAGAGCATAGAGAGGTGGCAGCCTTTTACATCCACGTGGCCCTCCTCA
GGGAAAAGAATCAAGCACAGGGAAAGCCCTCTGCCCCAAGAAAGCAGAGAGACCCTGAGCCTACCCTTTCATAGTGGCTTGCAGCATGGCAGGCCTCAGC
CTAATAACACTCTCATTCCTCCAGGAAATCGTGAAAAACCCAGAATTCATTCTTGGAGGGGCCACCAGGACTGATATCTGCCAGGGAGAGCTGGGTGAGT
GTAAGTGGATGGAGCATGGCRARAGGGAGGTTGAGTCACTGGGACAGGCAAGCAACTGCAGCATGGGGTCCCTGAGGACCCAAGAGGCAYGGGGCTGGGG
GAACAACACTGCTTYGGCCTCTGCTTCCTCACTCCCTCTGAATGGAGTCCAGTGGCCTCAAGCCCCTGCACCTCYGTTCCTCTAGAGTCAGACATGCCTG
TGATGTGGGGCTCACAGCCCCGGAGTTTACAGAGGAAAGTGACACCCAGCAGCGTTGGTCGGGCTCTCCTACACCACCACAGTAGCTAACACCTGCACAC
ATGAACTCAGTCACCTGCGAGGTACTCTCCCCAGCACACATTGCCTCATTCCATCTTCACAACCCACCCTCCTAACGTCACAGATGAGGAAATGGAGGCT
GAGGAAGGCTAAGTAACTTGTCCAAGGTCACAGAGGTGGTAGACAGGCAATCAGGATTTGAACCCAGACACTCCAGCAGCAGAGCCCTTACTGCTAACCA
TTATACACACCCTGGGGAGCCGCTCCCCAGCAATCCAGTCTCCCTCCTGCAATGAACCTGAGTGCACCTCAAGTCACTCAAATTGGGTCCTGCATTTTAG
GACTTAATCCAACTGGGCTGGGTTTACCTTTGTTCTATCTATGAAAGACAGAGARAGTGAGAGAGCGAGAGACTTTCTTTTAAAAAATACCAGTGAAATC
AGCCTAGAGAACAAACCACTGCAAGCTTGTGTGGACCCTGACTTATTTCTAGCTGAGGTTGTCACTGTGGTCTATTGGTTAAGAAAGGCCATGCTGGAAC
CTCCATGCTGAGCAACTGAGCTATCCTAAACACAAGATCCAAAGTCACAAACCTAGACTGATGTTAGTTAATTAGCTAGACAGAGAGACAATTGAGAGAG
AGAGAGAGAGAGAGAAGCAAATGGATAGATAGATAGAAACATAGATAATAAGTAATAGATGATAGGTAGAAAACGGATGCATAATTAGATAGATAAATAG
GTTGATAGGTTGATTGATTGACTGATAGACCATACAAAATAAATATATAATAATAGATAGATGGTAGTAAATAATGATAGGAAGGTAGGTGGGTAAATAC
ATGGATGGATGGGTATAGATAGATGATGGATGATAGACGGAATTACAGTTGACCCTTTAACAACATGAGTTTGAACAGTGCAGGACCACTTCTAAGTGGA
TTTTTTTTCAACCAAACACAGACAGAAAATACCGTGTTCCAGGCTGAGCGTGATGGCTCACACTTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGAGA
ATCGCTTGAGCCGAGGAGTTCAAGACCAGTCTGGGCAACATAGTGAGGGCTCGCCTCTACTAAAAATTAAAATTGAAAAATTAGCCAGGCTTGGTGGTGC
ATGACCATAGTTCCAGCTACTTGGTAGGCTGAGATGGGAGGATTGCTTGAGCCTGGGAAGTTGAGGCTGCAGTGAGCTGAGATCATGCCACTGCACTCCA
GCCTGGACAACAGAGTAAGACACTGTCTCAAACAAACAAAAAGGAAAAAAAGGAAGGAAAGAAGGAAGGGAGAGAGGGAGGAAGGGAGGGAGGGAGGATG
GAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAARGGAGAAAATATACTATTCCAGGATTTGAAACCCGCATATACAGA
GGGCTGACTTGGTATAGGCAGATTCCACAGGGCTTACTGTGGGACTTGAGTATGCACAGATTTTGGTATACACAGGGGTCCTGGAACCAATCCCCCATGT
ATGCCATATTCTAGATACAATGTAGACTTTTCAAAAGGTTTACATTCAGGTGGTCCTTCTCCAGGAGATCCTCCCTGCCGCTGCCCACCTSTCCCCCTCT
TCCTCTGCCTCCCTTCCCCTCGACCCCGTAGTCCTCCATTGCTATCCAATAGGAAATCATTCTACTGGCTCCTTTGTTTTTCAAAGTTTTGGTTTGTCAC
ATTGGCATAAACATATATTTGGAGTTACAACCTTATATTTTACCTTAGTGGATGGTTGATTCTAAAGATTATTTTGTAACACTTTTACTACACCAAAGTA
CTGTACATGGCATATATATGTTATAAAGAATAACAAGAAAATGAACAGCCGTGATCTGTTGCCACCCACAATAAGAACTAGAACATCTGGTCATGTAGAG
TGCTCACACCTGTAATCRCAGCGCTTTGGGAGGGGGAGGTGGGAAGATCTCTTGAGCCCAGGAGTTTTAGACTAGCCTGGGCAACATAGCAAGACCACAT
CTCTATCAAAAAAAAAAAAAAAACTAGAACACACTTGGAACAGCATCAAGGCATGCTGTTATCTGCAGGGGGTGGGGGTAGGGGTGGAGCTGGGTGAGTG
TGAGGGGATGGAGCATGGCGAGAGGGAGGTTGGATTGCTGGATCAAGAGCGACTGCAGTATGGGGTCCCTGAGAACCCAAGAGGCACAGCGTTCCCCCTG
CAGTGAGCCGAGATGGTGCCACTTCACTCCAGCCTGCTCCTCCCATAGTGCCCTCTGCTCTGCACCACCCAGATAGCCGAGCAACACGCTGACCCACAGA
GGGCACTTCTTCCAGGCACAGCTGGGTGGCCAGCCCCATCCATCTGCCCAGGCCCAAGAGAGAGAAAAGCAATCTTGTTTTGGCTTCTCAATCTCCCCGC
CAAAAGCTCAGAGCATTTCTGGCTGAAAACACGTGAGGTGTTGAGTTCTCAGGCCGGAAAACACTCATTTTCCTCAACTGGGCAAAGTTGAAACTTGGAG
GAGAGCTGGGAAAGGTCAGCCCACAGCAGAGGTCACTCTATTAGACTCCTGTTGGCCTGGCCGCCCTGAAGCTGAAAGCAGACACCAAGTCTCTCCTTAT
CTTTGCATCTTCTGCGTGGCACAAGGTCTGCCACCCTAGAGGCACTTGGTAAAGTTTGCTGAACAAACGATCCTGCAGGTTCCAGCCATGTCACTTCCTA
GTAGCATCTCCCAAAGCTGACCTGAGGCTCCCAAAGACCAGCAGATGCATTAGAAACCAATCCTTCTGTGCTCCAGCTAAGGCTGGGGGTGGCTTGTACT
CTGCTGGTGACACCTCTCAGAAAGCCAGAACCAGGGCGATTCGGAATTAGCTTTCCCGATGTTCRGCCCTGGCGAGTCTCTCTTGCCTGTGTCAAACAGC
CAGAAARGGCCATATTACAATGTCCCAAGCCCAGTGACATACGGTGCTTTCCAGAAATGTGAACTCAGAAACTGCCAAGCTGAGTGTGATGGGCTYTTAK
GTTCTGATGACGTTGATGTTGTCTACTGAAAACAAGTGAATCTGGATAAAGGTGATTCGGATAAATGGATCCTCCCAGATATCTGCTTACACAGGCGGCA
TCTGAGACACTGTGAGGCACACACCAGACACAGCCCACACTCAGTGTGGGCAAAGGAATGCCTCCAGGAGTCTGGAACAGCACAGATAGCACAGATAAAA
TCATGTTTGATGTTTGACTTCACTTTTTAGTTTTCCTCCAGATGTGTGTTAACATGAAGACACAGCTGGGAAGTTCAGTAGGTCAGTCAATAAATCTTGA
AAATGCAAGATAATTTAAAGCAAATGGAGCCACCACGGAGATACCATTATCTGTAATTAAGCTGWGTCTYGGTTGGGGCTGCAGGGAGATTTCTAACCAC
CCTCCCAAGTACTGCCGAACCACTTGGGTGGCAGCTATGAAATGTCTGCTCGCCCAGCCCRTGCTGACACTGATGTATGCAGWCTTGGWCCTCTGGAAAG
GGAGTTGCTGGAATTYACAGAGCTGATGCATCAGGCAGCCATATGTCTGAAACCCAAGTAAGCATGTCCTATAACAGTGCCAAGAAGGCAACAGCTGTTT
ATGATAGACGGGCAGAGAAGAGCAGGCAAGGGAGGCAGAAGGGGAGGAGAGAGTTATTTGTTGGTGTCCTGTCTGTTTTTAAACAGGTAGAAAAGATGTG
GCCACATCTGAAACTCCCCACATCCCCTTCTGACACAGAGTTTTCCTATTTGCTGTGAAATAGCAATGAAAATTGTGATTTATGGCTTCCATTTTGCAGG
AGACTGCTGGCTATTAGCCGYCATCGCCTCCCTTACGCTTAATCAAAAAGCACTGGCCAGAGTCATCCCCCAGGACCAAAGMTTTGGCCCTGGTTATGCC
GGGATATTCCATTTCCAGGTAAGAGGGAGCCCTGRGCCAGTGGGTTTACCTCTCTGGGGCCCRGCATGAGGGCAGGTGCATTTCCACACTGCCTGGTAAC
CCTAGAAAAAAATGTCATCAGATCTGTGTGACATATGGTCCTAAACCATGCTAAAGCCACATTTTATCATGGAATAACAGCTAAATGCCTCAGAAGAACA
TTAACGGCATTGCACGGTGAATCCTTATGGAGCATACATTTAAAACTATAAGTGATGTTTTGGCAAATCTGGAGGTCCATCTGTTAAGGGTTTTATTATT
TGGAATTTCTTGTGCTTTAAGCACAAATTGACTAAACCAATTATACCTCCAGGAAACTGGTTGATTTCTCATAAACAGAGAGGTTCTCTTTATGGAAGAA
TTGTAAATTTGGAGATCTTGAGGGATTTTAAAAAATAAAAACTGAGAAAAATACAGACAACATCTGCTGGAGTCCCGTGTGACCCGCAGACCCTCAGCCG
AGGTGCACATCAGGAGAGGCTTGCCCCCAGGAGATGGTTTCCTGCTGCTTCACCTCACTTTCTATCCCTCCAGTCTCTCCTCCACCCCTGTCCTTATATA
GGGTTCGACCAGATACTGAAACTTGCCCCTTGTTCTTACTTAGGTGGGTGACCTCAGACAATTTTCTTAGTGACATTAAACCTTTCTACACTCGTCTGAA
AAAAGGAGAGACTGACAGTTCCCTGCAGGCTTCCYGTAGAGCTAAATGGCATCACACACAGGAGCYGGCACAGAGCCAGGCACCGAGTAGGCATTCCTTG
ACCTTCCACCCCAGACAGTGTCACCTTCTCCTGACTCACAGGCCACCACTCAGGGCCAGCCCGTTTCTTCTGTCCCTGARGCCTGCAATCTGATAAGCAG
AGGTACTCTCAAGCCCTGTCACCAATAGCACAGAAGTGTTTCAAAGGCAAAGAGAGTGAGCAGGTCACATGTAGCTCAGGGAGCATGCAATTCCCAGGGG
TCAGGCCTCCTGCGCCGGCTGGGGACAGAGCCACTTTGGGTCCCAGGGAAACTCTACCCCTGCTCTCTCACAGACCTGCCACCACCTGGCTGTCTCCCTT
CCCATCCTGTGACTTCTGCTGAGACCACAGTCTTGGTTTGATGGCGCCCCCAGGAGCCGGTCTTTCCCCAGTCCTCTTAAACACACCAGGGTGGCAGTGT
TGGGGGTGGTTAAGCTCAGAAAATCCAGCAGAACTACTGCCTCTAAACCAGAACCAGAACCAGCAGAACTACTGCCTCTAAACCAGAACCAGAACCACCA
CCTCTTGGGCTCCCAAAAGGAACAGTGTTCTTGTCCCTTGAATGTCACAGCTGGGAGGAGCCTTGGCAATCCCCTGACCCAGTCCTCTCATTAACTCCCG
AGGACACTGAGTCCCAGGGAGTGGAAGTGGTTGATCCAGGGTCACAAAACAATAAGTAGCCAAGCCAGACCTAGAACTCAGGAGTTCTGGATCCAGCATC
CTTTTGTGCTGCCAGGGATCATGTGGGGGTGGGGAGTGACCCTGTTGATGCCTGTCAGTCCCGCAATAACAATACTCCGCCCGCTCCCCTCCTTGGCCTT
CTAGGAAGCAGAGCTTTGGAAATAAATCCACCTCCTTCACACTCCTCTTCCACTCCTCAGCCACAGTGCAGGTGTGCGTGCTAGGAAGTTAGCAGAGCTC
TCTGGGCTGGCAGATAATCTCTCCTGACTCACAGGCCCCCTGAGCCAGCCCCTCTGCAAGGAAAGCCAGCCCTGAGGCTCCTCCCCACTGCTCCCCTGCT
CAGGAACCCCAAGGCCCAGGCCCGAACTTTAAACACCTAACCCAACTGTGCCTCAGTCCCACCTGAAGCTGTGGATAGCCCCAAAAGCGGGAAGCCCTGG
AGGGGAGGTCCAGCTGGAGCAGGTGACAAGAATCTTCCTTAAAACACACACACACACACAGACACCCTCAGCCACATCGTGGCCAACTCTTCTGATTGGG
ATTGAATCACTGATGCAGCAAGATGCTCAGGATGACACAGCAAAGCTGTAAATAAATGGCTCCCAAAACCACTGTGCCTACCCTCCTCTTTCAACCCTTT
TCTTYTTACTCTTAGAGGTTACCTTAGGATCGCTCTCAGGCCAACTGAACCAGAAGGAACGGGTAGGAGGTGGGTCACTGCAGGATACACAGAGAAACTA
CCATGGTCCTTGACTCGTTCCAACCTCCCTTCCTGTTCCCAGCAGACCACACACAAGCTCATACACATGCATACATGTGCTCAAACACACACGTGTGTAG
AAGCACTTGCAAACACATGCRTGCACACATACATGCACACACATGCACACATGTGAGCAAACACAYGCTTTCACACATGCAATGTATAAATAAACCACAA
ACAGTGCACATACCTGTCATGCCTGCCTGTATGCACATGTATACACATGTGTGCGCACATGCATTCACACACACCCACACTCCACTCATGTCTCCTCACT
GGCACGCAGGGATTACTGAGTCCACCTGCCTCCTATGTGAATGGCCAACAAATCAGTCTTAGGGGCTCCACTTATGGGCGAGGAGGGAGCAAGGTTAAGG
AAAATTGGAGCTAGACCCTGAAACTGGATGGGAGAGAATAACAGAGAACTGGGCTACAAAACAGCAAACCCAAACCCCACGTTACCATTCTCCCTCCCCC
ACAAAAACAACTTTCTTGTGAAGAAGAAAAACTAATTCAGAGCACCGTAGAGTGTCTACTTGTGAGTCCTGTCCTGCCCCCTGCATCGCCTGCGGCTTTG
ATGGGTTGACCCTGAGTCTTTCAGCTGATGTCAATGGTTAGTGCTGGGTGGAATACTCAGCTTGTAACTTGGWGGACAAAGCCCAGGTGCCCTACCTTGG
AACCCGTGTGTGATTTTCAAAGCTGTCTATGGGTAGCTTGGTCAGAGGGGAAAAAAGCAACAGGATCAACATTTACAAACAGGGCCTGGAGCTCCCATGT
AGCTGACTCRCATCATTTCTGTCTTTTTCCTGGGCAACAGTTCTGGCAGCACAGTGAGTGGCTGGACGTGGTGATCGATGACCGCCTGCCCACCTTCAGG
GACCGCTTGGTTTTCCTCCACTCTGCCGACCACAAYGAGTTCTGGAGCGCCTTGCTGGAAAAAGCCTACGCCAAGTGAGTGACAGCTTCCCCAGCTCARG
CAGCCTCCCGACAGGAGTCTCTAYACTAGTCTTTGTAGTGAGCATCTAAGGGCTGGGAAAAAATCAGGGCTCTGGGTTTGCAGGTGAGGCTCGGCAGGAC
CCAACCCTCTCAGGGCTCAAGCGGGGTTGGAGGTGGTTTTCCTGTCGTAGCCTAGATGTGCCCATCTTTGGGAGCAGTSGCTACATTCATGACCCTTTTT
CTCCCTGGGCCATGAATCTGGCCTTTGGAAGAGCTGGGAAGGCAAGCGGAGGGGAATTCTGGCTGTGCCGACAGCACTTAGTGCTTCACACTTCCCTCGG
ACACTGGCATGGCTCAAACATCTGGGCTATTACGCACGTKGATATAGAGACATCAATTGTCCGTCCTACGGGATGCTTCTTTTTTATTTTTAAAAARTCG
TATATGACATATCGATAAATAATCGTATATGATAAAATGTATATGACATAAATTTTACCATTTTTAAGTGTKCAGTTGAGTAGCATTAAGTACATCCATG
TTGTTGTGCAGCTATCACCACGATCTATCTCCAGCACTTTTTCATCTTGCAAAACTGAAATTCTGTCCCTATTAACAAATAACTTCCTATTCCTCCCTTC
CCCCAGCCCCTGGCAACACCACTCTACTTTCTGTTTTTATGATTTATCTAGTCTAGGAACCTCATATAAGTGGAACCAAGAAATTCATTTTTAATCACCA
GCCAAATGGCCTCAGTTTCCTCAGGCTCTCAATTTCCAGCCCACTAGCTCGTTAGTGAAAGGCCACAACAGCCTGAATTTGATCCACAGATGATGGCAGA
GCTCCTGGGAGCCACTTTCAGGTTCAGCCTGGATCTTCAAGCCATGAGAATACTATCCCCAGAGACAGAAGCAAGGATGGTCTTGCTTCTACCTCCAAGT
GGGACATAAAAGTGGCAAAATAGAGGGGAGKCATACTGTGGTTAAATTAATCCTGAAATCAGCAGGACAGAATTAAAGCCATCAAATAAGAACCAAAGAT
GCCCACGCTTGCCCTCTGTCCCACCCAGGTCTGTGCAAACACCATCAGTGCCACCAGACAGGCTTAAGGGGACAAAGGGCACTGTTTCCAAGTCCAGTGG
GTGGGACCCAAGCCCACCTCTGCCCCTTGGTGAGTGCCCCCCACATCAGGATGCAAGCAAGGCAACAGMAACTGTGTGCCATCTAGTTTCTAAACATAAA
AAAGATTTATTGGGGTCAYTTAAAAAGGCCAAAAATGGTTGGCAGAACAGCTCACCAAAAAAAAACTGTATAGATGGTGTTATGGTTAGTTTTATGTGTC
AACTTGATTGGGCCAAGGGATGCCCAGATAGCTGGTGAAGCATTATTTCTGGGTGTGTCTGTGAGAGTGTTTCTGGAGAAAATAGCTTTTGAATCAGTAG
ACTGAGTAAAGAGGATTGCTGCCACCAATGTGGACGAGCATTATTCAGTTTGCTAAAGATCCAAATAAAAGAAAAYGACAAAGGAAGGGTGAATTCCCTT
TCCCTACTTGAACTGGGACATCCATATTCCCCTGCTCTTGGACATTGGAGCTCCTCGTTCTCAAACCTTTGGACTCAAACTTGGACTTACATCATCAACC
CCCCAATTCTCAGGCCTTTGGACTCAAACTGAATGATACCACCAGCTTTCCTGGTTCTCCAGTTTGCAAATGGCAGATTGTGAGATTTCTTGGCGTCCGT
AACTATGAGAGCCAATTTCAAACGTATGAAATAACCTCATTGAAGGGGTTGGAGAGAAAGGTGCTGACCTAAGTAACTTTGGAAATCAGTGGAGTCTGTA
AGATTAAAGGCAAAAGAAACTGTACGTGAGTGCTATGCTCTAGTTGCTAAAATTGTTTCTTGTAGGAGTACAAATGAAAAATTGATCTAATTATACATGT
ATATTGAGCTGAACAATCGAGTGAACGGATGGTGGATGGCGGGAGCCGAGTTTCTCACTGTTGGATTGAGAGGTTACAGATAGGCAAGGGGAGGAGGCCA
GAATGATCCATGCAGATTAGAGTTGGAGATTCCAGAATGAACTTAGATTTAGCTTAACAGAGATGGTTATGTAGAGATACATGGATCTGTACATGGGTTA
TCATACACATATATATTGATCTATACTTGGGTTATCATACACATATGTATTTCCTTGCTTTGTCAGTGAGAGGAACTAGAAGCAATGACAATCCTGTAGC
AACAAGCACACCTATGTCTCAAGTCTTGGTTTCTAAGATCATTCTTCAATCAAAGGAACTGGGGCTTCTTGGAGATAAGGCTGATTCTAGGACTGGGGCA
TACACACATACATACATATATATACACATACATATATACATACATACATAAAATGAACCTAGATCATCTTATAGTGCCAGAAAATGAGAACACATGCAAG
ACACACACACACACACACACACACACACACACACACACACACACACAAATGAGGTTATGCCAAAAGGGCACAAGAGCATACTGAAGGAGCTCCAAACAGC
CAAAGCTAGAAGAATTCAACCAACGAAATAGACAAAGCAGTACTGGATTATGAACCCAAGTAGAAGCTGGGTGCAGTGACTCACACCTGTAATCCCAGCA
CTTTGGGAGGCCGAAGTAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGATGAAACTCAGTCTCTACTAAAAATACACAAATTA
GCCAGGCATGGTGGTGCATGCTTGTAATCCCAACTACTCGGGAGGCTAAGGCAGCAGAACCACTTGAACCCAGGAGGTAGAGGTTGCAGTAAGCCGAGAT
CATGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCATCTCAAAAACAAAAACAAAACAAAACAAAAAAACACAAAATAAACCCAAGTAGAAAAT
AAATATCAATGGGTTCATACTAATTTGAATAAATGATTGTATAAATAAATGTGGAAGAAGGAACATATATCCTGTGTAGAATAATTCCAAATAAATTATG
TTTATATTCCATCCTTGAGGAGGTGGAGTATAACTCCCTGATTTTTTCATGCGGCCTTCACATAATGATTCCTTCCAAAGAGTTCAGCATGGAAAGGGGA
GAGAAGGAGCAACTTTCCAGTGGAGACACCTGACTAACACTACCTTAGCCAGGTGATCAAGGCCAGCATCAGCTGTGGTAAGGCATGTGGACGGCAGGTA
CTCTTGATATSATGAGATGAGAGGGSAGCTTTACCTCTCCGGTCTTCCTTCCACTAACCAATAGCCCCACTCTTTTTTTTATTATTATTTACTTTTTTTT
GGAGACAGGGTCTTGCTCTCTCACCCAGACTAGAGTGCAGTGGCACCGTAATAGCTCACTGCAGCCTGCAACTCCTGGGCTCAAGTGATTCTCCTGCCTC
AGCCTCCCGAAATGCTGGGATTACAGGCACCAACCACCACACCCAGCTATTTTTTTAATTTTTAAAAAATGTTTCATTTTTTATTTTTATGGATGCATAA
TAGTGCATAATAGTATACATATTGATGGGGCACATTTGATATTCTGATTACAAGCGCACAATGTGCGATGATCAAATCAGGGTAATTGAGATACTTATCA
CCTCAAGCATTTATCATTTCTTTAATAGCCCTAGTCTTACCAGGAGAAAAAACATTAGACAAATTCTAATCCTGCAGTATGCCTGCCCAGGACTCCTCAA
AACCGTCAAGGTCATCAAAAACAAGGACAGTCTTATAAACTGTCACAGCCACAAAAAGCCTAAGGATATGTGAGGACTCAGTGCAGTGTGGGGTCCTGGG
TGGGATTCTGGAACAGAAAAAGGACATTAGGTAAAAACTAAAGAAGCCCAAATAAGCTATTGTATTAAGTCTGTTTTCACACTGCTGATAAAAACATACC
CTAGACTGGGCAATTTACAAAAGAAAGACATTCAATTGGACTCACAGTTCCACGTGGCTGGGAAGGATTCACAATAATGGCAGAAGACAAGGAGGAGCAA
GTCACATCTTACATGGATGGTGGCAGGCAAAGAGGGCTTGGGCAGGGAAATTCCCATTTTTAAAACCATCAGATCTGATGAGACTCATTCACTATCACAA
GAACAGTGCAGGAAAGACCCGCCTCCATAATTCAGTCACCTCCCACCAGATTCTAAAATTCTAAATTGAAAAGCTTATTTAAAAATCAAGCAGAGCACAT
ATATGTAAAATGCATATGAATAAAAGAGATGACTATGACAAAAATGGTTAGGAGTATGTGAGACCAGAGAAGAAGGGAAAGGGCCTCTCTCTATCCACAT
AGCCAGGCCCCGTTCCATGGGAGGTTAGAGAGTGAGACACACGATTTGAACCTCACAGCAGTCCTAGAAGGGAGAGCACAACTCTCTCCCCCATTTTGCA
TATAAGAAAATGAAGGCACTAGCGACTTGGTCATTCAGATGGTAAGTCGTAGAACCAGGATTTGAACCTGCGGCCACTCAGGCACCAGAGCTGCTGCTCT
ATACCACCACACCACACTGCCTCCCTTGCAGGAAGGTCAGGATCTTTGGCTTCCTCGAAGCTCCAAACAAACCCTGATAACTTGCTTCCCGTCTTCCTTC
CACACCACCCAGCCAGGGCAAGCCCTGGGAGATGCTTCAGGCTTAGTTAGAAAAGCTCTGAAAGCAGGGTGCCCYRGTGGCCTCCCTAGGTCCCTGACTC
TCTCCTCTCTCTCTTGCCACCCTTGCAGGCTAAATGGGAGCTATGAAGCTCTGAAGGGAGGCAGCGCCATCGAGGCCATGGAAGACTTCACYGGGGGTGT
GGCAGAGACCTTCCAAACTAAAGAGGCCCCCGAGAACTTCTATGAGATTCTAGAGAAGGCTTTGAAGAGAGGCTCCCTGCTGGGCTGCTTCAYTGATGTA
AGTTGCTCATGGGCTCCCATTCCAGGCACTATGCTGRGGCTGCATAGTGCATTCCAGGCACTATGCTGGGGCTGTACCAGGTACCCCAGCCACACCCAAG
GAGGGGCATAACTCTTGGGGGCAGTGTTTATTCCTGCTAATTAAAACACAAGTTTTGGGGGGAGGTGGGAGGGATAGCATTAGGAGATATACCTAGTGCT
AAATGACTAGTTAATGGGTGCAGCACACCAACATGGCACAGGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAAAACTTAAAGWATAA
TAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAAAATAAAATAAAATAAAATAAAAATAAATAAATAAAACACAAGTTTTAACCAAGCA
TGGTGGTGTGTGTCTGGAGTCTGAGGCAGGAGGATCCCTTGAGCCCAGGAGTTTGAGGCCGCAGTGAACTATGATCGTGTCACTGCTCTCCAGGCTGGGT
GACAGATCAAGACCCTGTCTCTAATAAATAAATAACAAATAAAACACAAGTTTTTATTTAATAGTCGTCAAATAACAAAGGTAAGATGTACTTGCTGTAT
CAGATGGAACAATCTTGAGGCCCATACAGGCGCATTTTTACCTCCCTCCCACCCGTTTCTCAGCTGCCTCTGTTCTCCAGCTCCACCCTGGGACTGGGAT
CACCTGGCCTGTATCCTTCCCAGCTCTCTATCTGCTCGTACAAACAGGCACACACTTCCACACACAAACATCAAGGTCAGTTGGTTTGATTTTACTGAAA
YGGGATCTTYCTATCTAGTTTTCTGAAATTTGTTTTTTTTTTTTCATTTCATGTACTATGAAAAAAATAGCAGATAGAAGTCTAATGATATTTTTTAAAA
TTTTCTCTATGCATACAAACACACACACTTATAATTTTATCTCATCTTTTTAAAACTTTTTGTTGTTTTTTATGGACTGCTATGACACTATGTATTTTTT
TTAATCAATTCTAGTTTTCTGTTTCCTCTTAGATTAGCCTTGGGGTCTGTTTTTTGCTAATGAATTAGCCAGTTCCTCTGCACTTTCAGGTTTGTGACGC
AGAGCTGTGTGTCCTGTTGTTATATTCTTCTTTTCGTCTCTGGGATGTATGTGATTGTGTCTTCTCTCTCACACTATACTACATGAAGGTGACAAGTTGT
TCTGTTTGGGGACAAAATAGTGAACTGTTCTTTGGAGTCCACACTGGAAGCGAGCGCCTCCCCATCCTGGGAAGAGACTGGAACTTGCTTCATGTCACTG
CTAAACATCCTAGGGGAGCCCCGTGCATAGCCCACGCACATGGCCTGCACCTGGGGCAGCAGAAGGGGCTGGAGGTTGTGACYGGGCCAGGCATGTAGCT
GGGTCTGATCCAGCAGGGGAGGCTTGACTTAGACGGTGGGTGTGACKCTGCTYTTYCCATGTTTTAGACCAGAAGTRCTGCAGAATCTGAGGCCCGGACG
CCGTTTGGTCTTATTAAGGGTCATGCCTACAGTGTAACGGGAATTGACCAGGTAGGCGACTTGAACTCCAACTGCAGGCTATGGGGAGACATGTGACAAT
GCTAATCCCTTAGGCATTTATTCAGTGCATTGCAGTTTAAATGTCTGCCTTTCAGGCATTTCAGAGATTATGTCACCTAAAGAGGCAGGCTGGAATTCAA
AACGGCAAGCCAGGAAAGAGAGAAACCATGTGATTCCACCGCAGCACAAAACTCGTTTAGCAGCTGTAAGCGCCTGGTCTTTGTTTATTTTTAATTTCCT
TTCTTTCCCAATTCTCCTTCAGTCCTGTGTTAGTCAGGATTCTTCAGAGAAATAGAATCACTAGGGAACCAAATATATATACATACAATTAAACACACAC
ACACCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTACATCACACAGTTGACCCTTGAGCAACACAGGCT
TGAACTTATATGGGGATTTTCTTCCATCTCTACCACCCCTGAGACAGCAAGACCAACTCCTCCTCCTCCTTCTCAGCCTACTCAACRTGAAGATAATAAG
GATGAAGACCTTTACAATKACCCAGTTCCACTTAATAAATAGTAAATGTATTTCCTCTTCCCTATGATTTTCTTGATAACATTTCTTTTCTCTGGCTTAT
TTATTGTAAGAATACAGTATATAATATAAATAATTATAAAACATGTTAATTGGTTCTTTAYGTTATCGATAAGACTTCTGGTCAATGGTAGGCTATTCGG
AGTTCAGCTTTAGGGAATACAAGATTTTTTGACAATGCAGGAGGGTTGGCACCCCAACCCCTGACATTGTTCCAGGATCACCTGTAATACGATTTATTGT
AAGGCATTGGCTCATGCAATTGTGAAGAGTAAGAAGTCCCACGATCTGCTCTCTGCAAACTGGAGGCCCAAGAAAGCCAGTGGTGTAGTTCTGGTCTGAG
TCTGAAAGGAAGGCCTAGCCACCAGGAACACCAATGGTAAAAGTCCCAGTCTGAGGGCAGGAGAGACGGATGTCCCAGCTCAGGCACCCAGGAAGAGAGA
GTGAATTCCCCCTTCCTCTGCCTTTTTGTTCWGGTCAGGTCTTCACAGATGAGATGAGGCCCACCTACACTGGGGAGGGCAATCTGTTTTACTCAATCAA
CTTAAATTTCATGTCACCCAGAAGCACCCTTGCAGACACAACCAGAATAACCTTAAAGCAAATATCTGGGCACCCCATGGCCCAGTCAAGTTGACACATA
AAATTAATCACCACGAGTCCCATTCTTGTAGCTGTAGCCCAGGGTGGAACTGATCCTGGGGGACACCCAGACTCCACACAGCACCACCCTGACTTCAAGG
GAGCTGTTGGTTAGGAGGAGAGATCCTTGAGGGGCACAAGGGGAAGAGWAAGAAAGAATTGAATGAAAGAGGAGGACAAGAAGCCAAAGGTATCACTCTG
CCAGACTCAAGCTCAGCAAAGCCCAGCAGCCTGCCTTGCCCACTCCATGCCTCCCTGGACCAGTCTCAAGCCCAGTACTTAGAAGGTGCAGATGCACCTG
GTCTTCTGTAGCCACCCACCTTTTGAGTGACATCCTCTGAATGCGTGGGGAGTAAAGAACACTGAAGGGAGACYCTGCCCTTCCTCCTCACTGGAGCCAA
GGTGTGAGACGCCRTTGGACTCTTTGGGATTCTTTAGAATGTTAGCTATTTGTGTTGGCTCCTTTGTCCTCCTTCACCATCCATAGATGACTTGCAGATT
GCTCACTCAAGCRGGCATGTGATGTTTCTAGGTTAGATCTTCTACGTATTCCACGTAACAACAGAAACCTCTCATCATCTTGGTTTGCTTGATTTTGCTT
CCTCTCCCCCCTACAAGGAACTCACCTGCCCTGAACCTTTCAAATTAAATGAGCCCCTTTAATGGTGAGCCACAAGCCACATCTTGGACTCYGAAGAGTT
GATGTTACTTGAATTTTTACACATCCAAAATATAATTTATGCCAAATGCATGAGGATAAAACATTCTGACTGCTACAGTTTCTGGTTAGTYGATAACTAG
AAGTCTTTTACTTTCACYCTCTCTCCTCTAAAACCCTTCTCAAATGCATTGGCCCTTGTCCCTGCTCCCAGGCAGAGCCTGAGGGCACACAGGCTCAAGG
GTGATTGAGGTGAACAGCAGGAATCCTCACAGACACCTGAAATAAGGAGAATATTGGGTCTAGAAGACRTAAAAGCTGTTTTTGTTTATTGTTGTGTTTA
AATCCCCAACATGTGCTTATTTTCTTATCATTCATCTGTGCATGGGATGCTAGGATGAAGAAAGTTCAGTAATAGTTCCATGAGCACCTTTGAGGACTAC
TCTTTACCATTCAYTCTGCTAGATGCTGAAGATGCCTAAGACTTGGCTCCTGCCTCTAGGGAGATCCAAGTCTAGAGAGAAACCCATTTTTAGATTCATA
TGGACTAATTTCTTGTTAATTGCAATTCTACTTTACTTCCCAGATGTGGCATAAGCATTTTGGTGCTTAATATAATATCATTGGCAATAGTAGCAATTAT
TCAATAGGAATTAGAAGGTTCCAAGGGCTGGTTAAGAACTGGCGAACTTCTACATACCTTCAGCAGCATTTTAGGCAAGAGACTTTCAACAGAACCAGTT
CTGGATGGAGCTGGTCCACCTGGAGCTCATAGATGAATGTGGCCAAACCTCCACCATATTTATCATTTCACACTTCCCTCATGCTTTTCCCTTCTAGGTA
AGCTTCCGAGGCCAGAGAATCGAGCTCATCCGAATCCGGAACCCTTGGGGCCAGGTTGAGTGGAACGGGTCRTGGAGCGACAGGTCAGTCACCCTATCCT
GCCTCTCTGGCTGGTTCCCGGGGCGTGTGGGGCCARAGCTGGCTTGTGCAGACATGTGAAGGAGTGGCCTGTCTACTATCCTCCCGGGCTCTGACTCAGG
ATCCTGTCCYGATTCTGAGGTGCCCCTTCTTCCTCCCCTTTCAGCCCTCAGGCCCACCTTGCATCAAGGTTGATTCTCAAGAAAGACTTTTACAACAGCA
CTCTAACTTTCACGAATTGTATTTATGTCAATACATAAATGTGTTACCTCCCATGGTGATGTTTATAACCCAGTGATATGGTGAAAAGCTTTATCTGTAG
TTGTGAGTAACTCCAGTAAGCAGTGTGCATATGCATAARTGCGTGTGTGTTTGTGTGTGTGTGTGTATTTGGAGTGTCGGAATCCCTGAAATATTACCTA
GCATGTAACTATAGGATTCTCTCTGATGGTCACTGACCATGGCAGAGGCCCAATAGCCCAGCAGAGAAATAGAAGTGAGGCTGAGCATGGTGGCTCATGC
CTATAATTCCAACACGTCAGCAAGCCGAGGTGGGAGGATCACTTGAGTATGAGAGATTGAGGCTGCAGGGAGCTATGATTGCACCACTGCATTCCAGCCT
GGGCAACAGAGCATGTTGACCCCATCTCTTTTTTTTTTTTTTTTTAAAGGAAAAAAAATAGAGGACATGGAATTGGAATTTTATCTATTACAGAGCTGTT
AACCAGAGTTTTGGCCCCCAGTTATCAAGAAAGGTCTGCCTTTTCTGTGTGTGTCCCCACAGCTCCTCCAGCTCTGGTCCCTTGGGAAGTGGACCAGGTG
ACTAAGAACCAGGGATGTTTGTGTGGGTGCGTGGCAGGGCCTGCCTGARGCTGTTGCTCGTCCGCTGCTTGTTGGGCTCCTGAAGCCCTTTCCTGCCACA
TCCATGGCCCCTGAGCTTCTGGGGAAATCTGAAGCTAGTCTAGAACTTGGTTAAAACTGAGCCAGTGTTTGTCTTCAGTCCAGACACAGCTACCAGGTCR
CCAGACATGGTGCAGCCGCTGCTGTATTAGCCAGACCCCAGCGTGAGGGCAGGGCACACAGGCCTGTGCTTTCCAGGCTGTCATKGTCCCCATGGAGGCT
CTCGTCCCACCATCCTCTGCTCTGGCCTTGGCTGCCGCCTTCTGAGAACCAAGAAGCATTGGCAGAGATGAGCTGAGATGGGTTGAGGAGGAAAGAGATT
GGCCTCCCTCTCCTGGCAGAAATGGAAAGCACAGAGAACTACTGAAACCAAAATTAGTGAGACTGCGTCACGTTGTAAGATGTGCAGTGCCCCTCAACTT
TGAGATCGTAGCCTATAAAGGGAAAATGGGCCATTGTCTCCCATTTTCTGGGACTCACAGAGGTAGAAATCAAGAAAGKGACTGAGAGCCAAGGCTGGAA
TAAAATTTGTCTTCCACTCATGCAGCCTCCATGGGTGATGGGAGGGGCAGGCGCCRTCCCGAYTCCCTGACTTYGCTGTGCTGCTGGTGACATGTGAGTA
GGGTTGAAGGCACCGCATGGCCAGCCTGTCAGGCCAATTATCTGGGTGTGAGCCACTTAGGATAATGGCTCCAAAAGAAAATAATGGCTGCCAGTTCCAC
TCTTCTGACCCTGGCCCGAGCACCTGGAGACAGGTCCCGGCTGATCCTCCCCTTGGATCACCTGAGCACTCCCCTGAGGTTGAGTTGAGATCACAGGATG
AGAGGGAGCTGCCACGTTGGCTGTAGCACCGCAACAGTGGTGACCTACTTTGAACTATTTGGAGGCGGCTGTGGGAGTCACAGAAAATGCAATGAACTTG
GAGTCACAAATCCTGAGTTTGGAGAGTGACAGGCAGCCATTCCTACCCCTACTCTTCCCTGAGAGTGTTTCCATGGGCCTACCTGAGCCCTCTTATCTGC
AGGACGGGCACACCTAGCTCACAGAACCCCACCTGGCTTGCCAGCGAGGTCACATACAAAAGGTGCCGGGTACAGACAACATCAAGCATGGGCAGGTGTA
AGGCATTATCACCTTTCCAAGTGTCAGCTTGTCCATTAAGGAAGGGCCAAGTACTGCTCCAGGTCACATGGCAAGTTGGAGGCCAAGCACGAAAGTCAGC
AGACTTGTGGCTTCCAGCCGGGCTCTTCTGCTACCCCACGGGCATGCAATGCCTTGTGACTATCCCAAGATAATCTTCCATGTCGGTGGTTCAGATCATC
CTCAGGGGTATTTTATCCATCAGCAACACTTGGAGATGTACTTTCTGACCAGCCCTCTTATTTGGGGGCCAGTGGCTCACCTGCCGCTACATCCCTGGGT
GCATTTTTGGGACCCAGTGAGTAGTTACTAAGCAGGTCTTATTTCCTCCATAACCGCACACTGTGGGTTCCACATCAAGGCCATTGTTGCTCTTCATCAT
GACCTCTGCCTGAACACCAATTTTGTTTACTCCTAGTTCTCCGGAGTGGCGTTCTGTTGGTCCAGCTGAGCAGAARCGTCTGTGTCACACTGCTCTGGAT
GATGGGGAATTCTGGTACCGTGCTTGTTCCTGTGTTAACTGCAGATACGAGCAAGTCCCATGGCCCTGGGGCGTAAGGAGCACTGTGCTTCTCTCTCGCT
TTCCTTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTTGTTCTTATTGCCCAGGCTGGAGTGCAGTGGTGCGATCTCGTCTCAC
TGCAACCTCTGCCTCCCAGGTTCAAGTGATACTCCTGCYTCAGCCTCCCAAGCAGCTGAGAGTACAGGCATGCGCCACCACGCCCGACTCATTTTGTATC
TKTAGTAGAGATGGGGTTTCACCGTGTTGGCCAGGCTAGTCTCGAACCCCTGACCTCAGAGAAACCACCCACCTTGGCCTCCCAAAGTGCTGGAATTACA
GGTATGAGCYACCACGCCCAGCCTTCTCTCTCCATTTTTGGCAAATCAAATTCATCTGTCTCAGACTCCTCATATACACCCAGATTAGAGGGAAATTTAA
TCTCCCTCCTGTCTTGGTGGGGGCTCACCCCAGCTCTCGGTTTGTTGAAGAGTCTTCAGGGGGTTCCTGCAATCCAATAGAGGAAGAGCCTCTGGTCTCT
AGCCTGACACACCTCCTTGGCACTCTTTGTCATCCAGGTTTACACAGTGAATTTGAAGACAGGCAGCCCTACTGCTCACAGGATCCATTCCCTCCACACC
CATCTTGATGAGAGGTACCTTTGAAGGCAGCTGCCCTGAGAGCATCTAAAGATATCGACCTACGTAGGAAGTAAACATTTCTACTCTGGACTTTCCCTTG
GCCTGAATCTCTTTGTTTAATTGAACATTTGTATTGGGCCTTCATCTCTAGAATCTTTTTCAGTCTTATTTCTTCCTGTTTGGGTTCTAGAAGTTGGCCC
TTCTAACCCTGTGAGACCACAAATTTCTGGTTTCTGGCTCTATTCCCTTTCATGTGCTCCAACCAATCAAGTCTTGCCTGAGCTCATCTCTTTCTTGTAA
CAGCTTTTAAAATACAACAGCAGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACGAGGTCAGGAGATTGAAA
CCATCCTGGCTAACACAGTGAAACCCCACCCCTGCTAAAAATACAAAAAATTAGCCAGGGGTGGTGGTGAGTGCCTATAGTCCCAGCTACTTGGGAGGCT
GAGGCAGGAGAATGGCGTGAACCCAGGAGGTGGAGCTTGCAGTGAGCCGAGATTGCATCACTGCACTCTAGCCTGGACAACAGAGTGATACTCCATCTCA
AAAAAAAAAAAAAAAAATACTACAACCCAAAACCATGACTATTCCAGCCTTTTTCATTCTTTTCCCATAGAACACAGCCTCAGTAGTGATTTGTTCTGCC
TTCTGTATTTTTATAGTTGTCTTAGTCTATTTGGGTGGCTATAAAAAAATACCATAGACTGAGTGGCTTACAAAGAACAGGAATTTATTTCTCACAGTTC
TAGATACCAGGAAGTCCAAGAAGATGACACAGGCAGTACCTGTATCTGTGGAGGGCCCTGTTTCTGATTTATAGATGGATCCTTCTCACTCTGTCCTCAC
ATGGTAGAAAGAGGGCAAGGCAGCTCTCTGGGGCCTCTTTTATAATGGCACTAACCCCATCCATGAGGGCTCCACCCTCACAACCTAGTCACCTCCCAAA
GGCCCCACCTCCTGACACTACTACTTCGAGGGTTAGGATTCAACATATGAATTTAGGGGAGACCACAAACATTCAGTCCATAACAACATGCAACAGATTT
ACCCAATGTTTTGCCACTGCATAACATAGATAACCATTTTCCAGCTCGAACAGTTCCATGATCCCTCTTGCTCAACTGCTAACATATTTTAGAATTTCGT
TGTGGCAGTTCTGTAATTCAAGGCACCAATGACTCAAGGTAACACTAGCTGCAGTAGTGAATAGACCCCAAATATATAAAGGCTCAAACACAGTAAAGTT
TTTTCCTCACTCATTATGACAGTCCAGGGAGGATGTTCATATTCTGTGGGTGGCTCTGTTCATACAGTGATTCAGGAACCCAAACGCCTTCTATTGTGTG
GCTCTGCCATCTTCTARGGTCACGTCATCATCTGCACATAGCCAGCAGAAGAGAAGAATAAAATAAAACATTGAAAAAGACACTCTCACTTTCTAAAAAT
CTTGACTCAGAAGTAAATGCGTCACGGCTCACATTCTACTCCCAAATGGAAGGAGTGGGGTGCAGTCTTGGTCCTGTGCTGATGACTGCCAGCCATCTCT
GCCTCGGGAACCATGAGGGTTTAGGTTCCCCAGATTTGTGGAACACATGCAGGGTGCTTGAGAGATTCCCAAGCTGTCAAATTAGAAATTACAGATAAAC
TTTGAATTTTGAAGTACAGGGGACTTTGAGTTAGGGGGTTACAAGAGAGGAGCAAAAACTGCAGGAAGAAAGCTGAGTTCTGGAATTAGTAMCATCACAG
TAATTGCTGCATATGAGCAGGAGGTAGAAACCAGAGTTTGAGAGGCTACCTGAGGTCAGGCTAGTGGAAAGAAGGTCTGRTGCAGACGGTGGGAGAAGCC
GGGCAGAGGAAACTCGGAAATTCACAGCAGGARGCTCCACAAAGAAGAGCGTCCATGTGAGTGATCCATTGCCCTGCCCCTCTTGAAGGAGCAGCCCCAA
CACCWGGGCTGAGCCTGCCCAAGGTGATGGGTGGTGTTAAATCATGCACTCTGTGCGTGGAGCCCTTCCTCCTGGAATCCTGACTCTGAAGCCCTGTGTA
GCCTCTTTCCATTCTTCACCRGCTCTAGGATGTACCTCCTGCAACTCTCTTCTCTCCCCTTACGTATGAATTCCCCCCTTCTTCTGAATCATTCCCCTTA
GCACTCCAACACTATCATTTCTCCTACCTGCAAAGAAAAAAAAAGCCTCTCTTGACCCACTCAAGTGACCAACCCAGCTCTCTCCTGTCCTCTACAGCAA
GCCCGCCAGTTCCTCTTCTCCCTTACTCTCTCGACTCCACTCAGCTATGAGTGTGCCCCACCACCCCACTMACCCTGATCTTGCCAGGGACGCCACCGAC
TCTCACTTTGCTCGATCAGATTATCTTGATCCATCAGGAGCCCTTGACGTGCTGGATTGCGGGGGACCACACGCCCTGGTGGTCCTCCTCCTACCTGAGC
TCCTTCTCAACATCCTGTCCTGGCCCCCTCTCATCTCCCTAACCTGTTAGCACTGAGGTGTCCCAGGACCCCATCCATGGTCCCCCTCCTGGCTGTCTAT
TCCCACTCTTTAGGCGTCTCGTCTGGTCTCTTGACTTTAAAAACTATCTTTACACTAATTCTCAGGTTTCTATCTTCAGCTCCTTTCCCCAGGATTCCAG
AGTCACATATTCAATGGTCTACTTTAACATCTCTCCTTGAATGTATAATAGACATCTCACATTCACGTGCCCAAACCTGACCTCCTGAGCTTCTCTCTCA
AACTGCCCCACCACAGCCTTCCCCATCTCCATCCTTCCAGTCACTCAAATCAAACATCCTGATTCCTTTCATTCGCTCCTTCCCCACATCCAGTCCATTA
GCAAATCCTATAAAATTTACCTTTGGAATGTGTCTCAAATCTGGCCACTGTTCATCACCTCCCATACCATCAGCCTGGACCAAGCCACCCTTGTCTCTCA
CTTGGACACCGGCACTAACTTCCTAGCTGCCTCTCTGCTTCCACTTGTGTCCCCAAAGTCTGTTCTCAACACAGCAGCCATGGAGCATGTGACTCCTCTG
TTTACTGCCTTCTAAAAGCTCTCCATCTTCTCAGAGTCAAAGCCAAAATCCCTATACCTATTTGACGTACTATGATCTCTTGATCTTATTCCTTACAGAC
ACCTCGTGCCTTCCTGGTGTTCTGTGAGCACCTCAAGCACCTCTCTGCCTCGGGGCCTTGCTGTCCATCTGCCTAGACCCCCAGAGAGCTGCCCTGCCCA
GGACCTGGTAGTTCAGGTCTCCACTCAGAATGTGCCCCATCAGTAAGGGCTTCTCTTACCTCCCTGTTTAAAATAGCATCCCACCCCTACGCTCCCATCC
TTCAGCCCAATTTGGTTTTTCTCTGTAGCACTTAACATCTACAATCAATCTATATTTTTAGCCTGGTTTTTACCTTTTTAACCTTTATTTTACTTTTAAA
AAATTTTCCATCTCCCCACACTTTGCAGTCCCCCCACTCCTTGCGGACAGGAACAAGATGATTTAATGAATAAGTGAATGATTTAATGAATGAGTGAATG
GATGATGCCCTCACTCTTGCCCTCCTGTGCATCGTGTCTCTCMGCTTTGCTGCAGGATGGCATTTMAGGACTTCAAGGCCCAMTTTGATAAAGTGGAGAT
CTGCAACCTCACTCCCGATGCCCTGRAGGAAGACGCGATCCACAAATGGGAGGTGACGGTCCATCAGGGAAGCTGGGTTCGCGGCTCCACGGCTGGGGGC
TGCCGCAATTTCCTGGGTAGGTAGGCTGCCTGTCACTCTCTCTGCCACTCCCAAGTGTCCCTTCCAACTCAGGACACCAAAGGATAAGGGCCGGGTCCTC
AGAGAAAGCCTGAAACATAGTAAGGTTTCAAAAGTGACTGGGGAAAAAAGGCTGCAAAGATTTAGTTGGATAAGAATTGTTTGGGGAAACCTCCTTTGTT
TTACCACTTAGGTTATTTTCCATTACAAGTAATGGAAAGCATGACTCATGCCAGTTTAGCAATAGAAAGGATTTGTTATCTCACATAATTGAAGAGCTCA
GAGGAAAAGTAGGGTGGGCTTCAGGCACAGTTCTATCAGGGCCCTGGTTCCATTTGCTTGTAATTCACTGTTCTGCCCTCTTTTATGTGTTGACTTCTTT
CTCTGTCTGGCTTTCTTTATAATCACAGGAGGGCTGGCAGCAGTATCCAGGGCTTCCTGAGCCCTCATTCACACGAACAGCAAGAGCTCCTGGGGGTATC
AAAAAAAAGCCCTCAACTTCCCTCTAATTGGAAATTCCTTGAACTAATATTGTCCAGTGAATGCTATGCATTGATTGGCTTTGTCCAATCCTCGGTGGCA
AAAAGGACTGGCACAGACCAATCAGAATTCATGCTGGAGCAGTGCTCGAGGTCAATCCTACTCAAACGGCCCACCATCAAGTAGATGCCAGGGGGACAAC
CAGAAGTCCACTGCACTCTCCTTTGAAATACTAAGTGGAAAAAAAACTGATAGAACAAGCTTTAGCAGACTAGACCCAGAAGAATGTCCTTAAGAAACTG
CATAGGAAATGGTTGAAGAGAAGGTGGAAATGAAAGAGAGGATATTTTGCATTCCCGTTGGGGATTATCAAAAGTAGGGTAGGAGGACTTATTGAACAGG
GAGAGAAGGTATTACTTTCTCATGTTTGGTAGGACATATAATGAGGGCAGATAGGTGTATGTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGG
TCTTTGTGGGTTGTTTTTTAAAAGGGGAAAATAATCTACCTCTCCCAAATGACAGATACCTTTTGGACCAATCCACAAATAAAATTGTCTCTGACTGAGA
AAGATGAGGGGCAGGAGGAGTGTAGTTTCCTTGTAGCCCTGATGCAGAAAGATAGAAGGAAACTCAAGAGATTTGGTGCCAATGTGCTGACAATCGGCTA
TGCCATTTATGAGGTAGGTGGGAACCACACTGCATTTCAGAGTTCTCCATCTGAGTTCTAAATTCGCGGCTCCTCCTCGGTCTCACACCCGAGACTCAAC
CAAGAGTCCATGAATTGTGTCCGAAAAGCCAAGAGGAACTTCCCTAGGAAACCCCTCCCTTTCTTGCCCATTGCAGTGCCCTGACAAAGAYGAACACCTG
AACAAAGACTTCTTCAGATACCACGCTTCTCGGGCCAGAAGCAAGACGTTCATCAACCTGAGAGAAGTCTCCGACCGGTTCAAGCTGCCCCCTGGGGAGT
ACATCCKGATTCCCAGCACTTTTGAGCCCCACCAGGAAGCTGATTTCTGTCTGAGAATCTTTTCAGAGAAAAAAGCCATTACCCGGTGAGTCAGAGGAAC
AGCTTCCAGAATCCCACTTCTTTTAGTGGTTTATTCACACAGAAGTCACCTGGGAACTGCTGGAGCCAAGACTCCATTCTTCCCTTTCCCATGTGTACCT
GAGAAACAAGGCAGGATGGTTTCTTTCTTTTCTTTTATTTATTATTAATTTTTTTTTTTGAAATGAAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAAT
GGTGCCATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCAATTCTCCTGGCTCATCCTCCCGAGTAGCAAGGATTACAGGCACCCACCACCACA
CCCGGCTAATTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGCTGGTCTCGAACTCCTGACCTTAGGTGATCCACCCGCCTCAGC
CTCCCAAAGTGCTGGGATTACAGGAGTGAGCCACCACGCCAGGCTGCAGGACACTTTCTTAGCTTATCTGCAAGGCAAGGCACATATCCCTTCTAGCTCT
GCTCCTCGCTCCCTCAAGCAAACCATTGAAAAGTTGCTGTTTTCTACTGGTCCCAGAGTCATGCTCACAAGACATTCTTGGGTGGAGACCTTCATTTTTC
AGACCCTATTACCAAGAAGCTTCTTGGATAAGAGCCACATGCAGGGATGCTAGACATTTCTGGGCATGATGAAGGGGGTGGCTATTGCAAATTTCAAGAA
TGACATGTTCTTTCAGCTCCAATTTAAATAAATGTTGGCAAATCTGCCTCTCATTTTACATACCCAATATTCCACCACATTTTCCTCACAGTGTCTTAGC
GAAATTACTTTATATCAGTTACTTCTATGGAAAATGTTTCCCATTACTGCCCATTCACCATTGGTTGCTCTGTGGCACAGGGGGAAAAATGGTTCAAGAC
AGAGGAATCCATTTCTTTTCCCGATGACAATATTCTAAAGATTAAGGAGAACGCTAAAATCTGCTAATTCTGTATTTAAGCTAGATAAGTCTCCAACAAA
AGATCAATCTGCACAGAGTTAACAAGAGAGACAGCTGTGAATACATGACTCACTCTAGTTTCATCTTTCGTTTAGTGAGAGAGAATTAGATTGGTGGCAT
GCATTGAAAAGACTCTCAATTATGAAGTCTAGTGGGGTTTCCCAAGCTGATTACAAAAGGCATGGTTCTTTCTCTTGGCTAAATAGATGCAGAAAAGTCT
TTAATTTTTAAACACTCTACCAGAGAATTTTTCTCCAGCCTTCTCCCAGATACTAGTACAAGATGGGGATGAATATCCTAGTATCTGTTCACACAAAAGT
ACCCTGTATGAGATCCATGCAGATTGACATCTCTTATGGGTGGCAAGAACAAGAGAGACCCAAGTTATGCCAATGCCATGCCTCTTGTTCTCTATCTTAT
TAGTGGGGTGAGCTCAGAGTCACTGACATGCATAAGGTGACTTGTACATGGCAAAAAACTCCATACTCAATCTTGCTCTGAACAAGATTCTTTAATCTGC
TATGATATTGAGTATAAGAATCAGCTCTGTAGCTTGGTAACAAAAATTCACACTGAGCTGTGTTYGCATTGGTTTAGCTCTCAGACAGACTCCTGATTAA
ACAAACAGAAGTTCTGAAAGGGTTATGTTATGGATGCCCAGGGGATGAGGAGGAAAGGGAGGACTACCCCCAATTGATGTTAATGTTTATTTGTATTCCC
TTTGACTTTGTATCAGTTTTTCTTTGAGAGCCCTTCAAGTTTTAGTCTATGAGACTGTATTCTTCCAAATGTTTTTAGCATCATCAAAAGCTGAAGCCTG
CTCCTCCTCTTAATATTACTACTATCCAAATATTACAAGTCCCCCTAAATATGTGAATAGCAAAAAAACATGATTGCATCATTTTTCCTCTTTTTCCCTA
ACATAAGCACAGAGACACCCATCCCTCCCCAACCCCACCAGTGGAATCAGGAATTTACATCTGTGATGAGAGGCAGGAGTTAGGGATGCAGCTTCAAAAG
GTGRTCTTTAGGCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGAGGATCACCTGAAGTCAGGAGTTTGAGACCAGCC
TGGCCAACACAGAGAAACCCTATCTCTACTAAAAATACAAAATTAGCTGGGCATGGTGGCACGTGCCTGTAATCCCAGCTAATTGGGAGGCTGAGGCAGG
AGAATCACTTAAAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGTGCCACAGAGTGAGACTCCGTCTAAAAAAAAW
GGTGGTTTTTTTGGTTCTGATTCAACTTTGTAATCTTTTAAAATGCACCCCCTCCCCAGTGCCTACCACTCAATAGGCTGAATGGTCTCCAACAGATATG
TATCTCCTTTGAAGATGCAAAGTTCATGGAGAGTGAATGTGTAATGCAACTGCACTGTTTATGCGTCTTTGGAGGTGCTGCTATTCTACAAAACACTTTA
TCAGTTGCCCTTGTTAAAGTACATTAAAGAAATAAGGAGTGACTGCTGGCTTAACTTCTTTTAGTTTCATAAATCCAGAATTCACAAGTTCTTGGTGATG
GCTGATTTAGTTTGAATATGTGTCCCCATCAAATCTGAAGTTGAATTGTAATCCCCAATGTTGGAGGTGGAGCCTGGTGGGAGATGTTTGGGTCATGGGT
GTGGATCCCTCATGGCTTGGTGCTATCCTCGTGATACTGAGTGAATTCTTGTGAGATGTGGTTAATAGTATGTGGCACCTGCCCCACCCCTGCTCCTGCT
TTTGCCATGTGACATGACTCTTCCCCCTTCTGCCATGATTGTAGTTTCCTAGGTCTCCCTAGAAGTCAAGGAGTTAAGTTAACTTCTAGGGAATACACCA
TGCTTCTTTGTAAAGCCAATTGAACCTCTTTTCTTTGTAAATTAGTSTTAGGTATTTCTTTATAGCAGTACAAGAACAGCCTAATACAGAAAATTGGTAC
AGAAGAGTGGGGCATTGTTATAAAGATAACTGAAAATGTGGAAGTGACTTTGGAAGTAGATAACAGGCAGAGGTTGGAAGAGTTTGAAGGCCTCAGAAGA
AGACAGGAAGATGAGGAAAAGTTTATAACTTCTTAGAGGCTGGTTAAATAGTTATGGCCTAACTGTTGACAGTGATATGAACAGTGAAGTTCAGGCTGCC
GAGGTCTCAGATGGAAAGGAGGAACTCATTGGGAACTGAAGCAAAGGTTATGTGTGTTATGCCCTAGCAAAGAACTTGGCTGAATTGTGTCCATGCCCTA
GGGATCTGTGGAAGTTTGAACGTCATAGTGATGATTTAGGGTATCTGGAAGAAGAAATGTCTAAGCAGCAAAGCATTCAGGATGTGACCTGGCTGCTTCT
AACAACCTATACTCAGATATGGGAGCAAAGATATGASTTAAAGCTGGAATATATACATTTAAAAGGGAAGCAGGGCATAAAAATTTGGAAAATTTGCAGC
CTGGCTATATAGCAGAGAAAGAAAAAGCTTTTTCGAGAGAGGAATTCAAGCAGGCTATGGAGCAACCACTTGCTAGAGATATTTACATAACTAAAAAGAG
CCAAGTGCTATAACCAAGACAATGGGGAAAAGGCCTCAAAGGCATTTTAGAGACCTTTGCAGCAGCACCTCCTCCCATCACAGGCCGAGAGGCCTAAGAG
GAAAAAAATGGCTTCATGGGCCAGGCCTAGGGCCCCACTGCTCTATGCAGCCTCAGGACACTGTTACCTGCATCCCAGCTGCTCCAGCTCCAGTCTCTGC
TCAAAGGCACCAGATACAGTTTGGGCTACTGCTTCAGAGGGTGCAAGAGTGCAAGCCATAAGCCTTGACAGCTTCCATATGGTGTTAAGCCTGCAGGCAC
ACAGAGTGCAAGACTGAATGAGGCTTGGCAGCCTCCACCTAGATTTCAGAGGATGTATGGAAAAGCCTGCATGCCTAGGCAAAAGCYTGCTGCAGGGACA
GAGCCCTCACAGAGAACTTCTACTAGGGCTATGCAGATGGGGAAATGTGAGGTTCAAGGTCTCGCACAGAGTCCCCACTGGGGTACTGCCTAGTGGAACT
GTGGGAAGGCGGYCATCATCCTCCAGACCCAAGAATGGTGGATCCACTGGCAGCTTGCACCTTGAGCCTGGAAAAGCCACAGGTACTCAACAACCCATGA
CAGCAGCCAAAGTCACAGGGACAGAGCTTCCCAAGGCCTTGGGATCCCACCCTTTGTACCAGTGTTCCCTGGATGTAGGACATGGAGTCAAAGGAGATCA
CTTTGGAGCTTTAAGATTTAATGACTGCCCTGCTGGGTTTCAAACTTGCATGGGGCCTGTAGCCCCTTTCTTTTGGCCTTTTGGAATGGGAATGTTTACC
CAATGCCTATACTCCCATTGTATTTTGGAAGTATAAAATGGAATTTGTATATCTTGGAACTTGATTTTGATTTGACAGGCTCATAGGTGATGGGACTTGC
CTTATCTCAGRTGAGACTTTGGACTTTGGAATTTTGAGTTAATGCTGGAATGACTTAAGACTTTGGGGGTTATTGGGAAGGCATAATTATATTTTGCAGT
GTGAGAAGGACATGAGATTTGAGGGCCCATAGCAGAATGATAGAGTTTGAATATGTGTCCCCACCAAATCTGATGTTGAATTGTAATCCCCAGTGTTAGG
GGTGGGGCTTGATGGGAGGTGTTTGGGTCATGGGGGCGGATCTCTCATGGCTTGGTGCTGTCTTCACGATAGTGAGTTTGCACGAGATCTGGTTGTTTAA
GGGTATTTGGCAACTCCCCCATACCACCCTGCTCCTGCTTTTTCCATGTGACTTGCCTGCTCCCCCTTCACCTTCTGCAATAATTGTAAGTTTCCTGAGG
CCTCCTTAGAAGCAGAACGGATGCCAGCACTGTGCTCCTGTAAAGCCTGTAGAACCATGAGCCAATCAAATCTCTTTTCTTTATAAATTACCTAGTCTCT
GTTATTTCTCTATAGCCATGCAAGAATGGTCTAACACAATGGCTGTCCCTCTTATTTACATTCTGAGCAAGGTCTGAGTGACTAAGGGTGGGGGTGTCAA
TGCATGGGGTCTGCAAACTCTGTGAAATGTAAACAGCACTGAACAATAAGGGATTCAAAGGGACAGAACCTTCCCAGGCTCTGGGCTCTTCAGCTCTGCA
GATCCCAATGGGAAGTTAATCCACAATTGAGGCAGTGTGTTTTTCTGCCCCTACAGGGATATGGATGGAAATGTAGACATTGACCTTCCTGAGGTGAGTC
TTCTGATGTTGCTATGGAGTATGGGATTCAGGTGATGGTTCTGGAAACCTTCCTTCTAATCACAGCATCATGTAAAACTCTGCAGTTCAGGGATGGTTAC
ATGCAATCAAGTAAGCATCTATGATTCTAACCTCCTGGAGACCAAGATGTGTGTGTTCTAGTCTGTGCTCTTCTAGTCCACAAGGACCTGGCATGGGAGT
GAGGTGGGTGCTTGGTATAAAGTTCTGTTCSATGTCATCTTCCTCTGTGCTACTGTCAACTGAAATAACAAACACAGAGACACTCTCTAAAAGAAAAGCT
ATTTATTTAGGGATAAAGCACTGCAATGGGAAGGTGCATGCCATAGTAAACTATGCACCTATTTGGGGAGGTAAAGGAGGACAAAGGTTTTTAAAGAAAA
AATGAGAAGGATTACATAATTGTTTTGAAATAATTATCCTTGGCTACAAAGATCAATAACAAAAGTGAAGCCAGTCTGATGTTGGACAGGCAGTTGCTAG
GCAGAGGTAGAAGTATTTTTGTGTATGGTTGCGAGGGCCTCTGTGAAAGGTTGTGGGTTTTGCAGCCTTTTGTGATATTTTTGTTATCAGGCAAATAAGC
ATGAGAACCTTCTGGCCTTCCCGAGCTCTATTTGTCAGGGTTTTCTTAACATTAGTGACTTCATTTTGACTCAATAACTTTCACACTACCAACTCCACCT
GAGAGAAGGCTGCCGCTTCTGAAGTGGGTAGACTTTTAATTGTATTTTAAGAAATCTAATCAATGAAAAGAAAACCAGAGAGGCAGGGAGATGTTTTTTA
CTGTGGACTCAGGGGAACAYATTACATCTCCCCTATGTTATGTGGTGTGGAAGGGGTGACATGGGGGTGGCTTTACCCTCGTCCAAGGGCTGGAGGACTC
GCAAGAGGCCCTGAGATACTATAGCTGGAAATAGTCTGACACGTCCAGGGACAGCAGAGATCTGCTTTTAGGAGGGAATTTGCTGTTCCATGCTGGGGCA
CAGCTTATTAATGGTGCTAAAAAACCAAAGAAACCAAAAATCACCCAAAACATTTACTGAGCTCTTTCTATATACCAAGCCCAGAGCTTAGTGGTAGAAA
CAGACTCTTGCCTTCAACGATTTTACCAGCTATCAAAACAGATGATGAAGTAAGTCATTCCAGTCCAGGGTGGTAAGAAGTAAGCCAGAGGAAGGGCAGG
AAGCATGAAAATCCAATGGCCAGGACCTAACTTAGGCACGGGTCAAGGTCCTTTGGCCTCCTCGTCTGTAAGGCAGAAGGGCTCCACAGGTCCAGCTAAT
AAAGTCCTTCTAGTCTCACCTTCTAAAAGAGCCTTCATGAGAAAATGTTCCTCACGCTACAGGACGCAGCTTGTGCACACYGCCTCAGGAGGGTGACATG
GGGCTGGGCACACAGGSTCCTGGCTTCTTTCCTGCTATTTTTGTCATGTTTCTTTTTTGTGGATCATTTTGTGCAAGTTTCTTTGGCTGTTTTTTAGCCT
CCAAAGCCAACTCCACCTGACCAGGAGACAGAGGAGGAGCAGYGGTTTCGGGCTCTGTTTGAACAAGTCGCTGGTGAGGTAGGACATGCCCCACTTCCAT
CTCCCCACCAGSCTGAGGGCCTGGACCTGCTTCCTAGCAAAGGGTTGCAGTCGTGGGGTTGGTCAGCAACGTCATCCTGAGGCATGATGGAGCTTGTTGC
AAAGTAAGACCAGCACTGATCATTCAAGGCCCAAAGACCACCCTGTTTACAACATTTACTTACACAGTCTGCGGCTGTGGATGGGGCCAGTGAGCCCAAA
GAAGCTTGGAATAGGCCCAGACGCTTTGTTTTTTAGTTCTGTTTTGCTTTAGACAGAGTCTCACTCTTTTACCCTGGCTGGAGTGCAGTGGYATAAGCCT
AGCTCACTGCAGCCTCAAACTCATGGGCTCAAGAGATCCTATCACCTCAGCTTCCTGAGTAGCCGGGACTATAGGCACATGCCATCATGCTTAGCTAATT
AAAAAAATAAATAATAAAGAGTCTTGCTATGTTGCCCAGGCTGGTCTCAAACTCCTAGGCTCAAGCAATCCTCTGGCCTCAGCCTCCCAAAGTGCTGGGA
TTACAGTCATGAGCTACCACGCCTGGCCCCAGGTGCTTTCTTTGGGAGGCTAGAGCAAGCCTTGAAGAGGTGACTCCTTTGAACTCTGCCTGAAAATCAC
TGCCATTAGAATACTCTGTTTGCTGTAGTAAAGGGGATCATGTTCAAGGAGGTCCCTATTCAATTGCAACTTCCTGTCCCCCACCCTATCCTAGCTCTTT
CCACTGCTCAGCTTCCTTTTTAGGGACACTGGATGGAGCCTCACACAGATCCAGGCTCTTCCTCCACCTGCTGGGGTCAGGGGAGGGAAGTCTTTCTAGA
AACTGCCCCAGAGGTGCTCTCTTGGAGCCATAAATACAATGAGCTGATGAACTAATTCATGTCAAGGTGCTAATGACTCTATTAGCTTCATGTGTTTCCC
CAAACTGGGGTTCCTGAATTATGAAAGGGGTCACCTGGAGGGGTGATATCTAAACCTAGGGGCTGTCTGATGGTAGTATATTAGGCACTGCAATAAACAG
GCAAGRCAGGGAGATTAGGGGACCACAGGATCGGATGGAGAAAATGGGGGCTCATGTGACTGCTTAAAGCACAGCAGGAAGGTGGCTGAGCGYAGCCCTG
GGCGGGACAGAGCATGGTGAGGGGGGAAGGCAGTGGTGACCTCCCTGCTCCAGGTGCTATCTGGAGCATGCTGGGTCAGACCCAGCAAGACAGGCTCAGA
GGAGTTAAAGAGGTTCATGCGGGTGCGCAGAAGTTGTCAGATGGAGATCCAGAGTTTGGAAGGGAAGCGGTGAATGTTGCAGGAGTTTCAGTCGACCTTT
ATTAACAACCAAAAAGTACCTCTAGAGTTCAGCCCTCCTTGACTCATGTCCTGCTTTTCTTCCAAGTAGTTGGATGACTTGGGCACATGGCTCCATTTCT
CTTTCCTCCTCTTTCAGTGGGGGCCTGGCTGGGGCAGTGCTTTCTTACCAACACCAAACATCCCAAACCCCCATTCCCCAGGCCCAGAGGCTTCAGGACG
GACATGTGTTAGAAGCACTCCACAGCATAACACACGGCTAGCGCAAAACCCTGACTAAAATGAGGTCTATGTCAGTGCTACTCAAACACACATGTGCATA
AAGTCACCTGGGCATCCTGGGAAAAAAAACACAGATTCCTCATCAATAGGTCAAGAGCATCCTGGGCAACATAGGGAGAGCCCATCTCTGCAAAAATAAT
CAGCCCAGCATGGTGGTGCATGCCTATAGTCCCAGCTACTTGGGAGGCTGAGGTAGGAGGATTGCTTGAGCATGGGAAATTGAGGCTGCAGTCAGCTGTG
GTCACACCACTAATACTCCAATCTGGATGACAGAGCAAGACCCTGTATCAAAAAAAAAAAAAAAAAAAAAAAAAAAGCCTGAGTCTCAGGGCAAGGTCTG
AGACTCTCCATTTCTAACCAGCTTCTGGGGTGGGGGCTGCTGAGATTTCCTGGAGTGCCTTAGATCCATGATTCTGAAATTCACCCTTATTCTTAATTCT
AAATCAACTCCTAGGTCTTAAAAATAGGACCATATTCTCAGGTCCTCTGATTTCAAGATTCCCTGGGGTAAGCCCCAGATGCGGGACTATTTTAAAGCTC
TGCAGGTGGTTCTACTGTACAGAGGAAGACTCAGTCTGGTTTTCCCAAACTGCCTCCAACATAGGAATCATCTGAGGAGCTTAGGACAATTCCAGGAGTT
GGTTCTGACCCTCAGGGAAGCTGGGAAACCACTGCCTTGCCCTGCCCAGCTTTTCATGCGCTTTCCTGGGTTGGGATGTCTCTCAAGTTAGGCTCTCTCC
TAGTTGGGCTGGCATGYCCCTAAAACATGTGACATATGAGACACATAGCTGCAGCTACACAGGAGATAGGTACATCTGCCCACAGCAGGGTCCTGAAGGC
TGGTCTGTCACTGGAGCCAAATGAAGCTCAGAACTGATTTAAAACAAAAATAAACTATAAAAGAAGGTGCCAAGGGCTATAAMAAACAATTGTCTCCACT
TCAACAGGACATGGAGGTGACAGCAGAGGAACTTGAGTATGTTTTAAATGCTGTGCTGCAAAAGAGTAAGTGCCAACCCCATCRGGGTCCTGGGGCACCT
ATGGAGGGACAAGCGACCACACTGCCTGGGTCCCCTCCCTGCTCCTCCGAGCCGCAGATCTGCTTCCCAGGGCTGATTTGTAGGTAGACTTTAAAAATAG
CTTTCATTGTTTGTTTTCCTGATTCCAAAAACGATGCAGGTTTATAGTAGAAAATTCTTAAAAATGCAGAAAAGCCTAATGACAAAGATAGTCACAAATG
ATCTCACCACCATAAATAACCACTCTTAACATATGTGTATCTGCATGTATGTACATGTGTGTCATATGCGTAGACATATAATGTTAGAATGTTTCATCAC
TCCAACAAGAAACCCTTTACCCATTAACAGTGTTAACCCTGTACCCATTTCCCCCAGCCCCAGGCAACCACTCATCTAYTTTCTCTATAGATTCTATTTA
CATATTCTGAATATTTTATATAAAAGGAATCATAGGCCGGGTGYGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGACAGGCGGATCACCT
AGGTCAGGAGTTCAAGACCAGCCTGGTCAACATGGTGAAACCCCATCTCTACTAAAAATAAACACACACACACACAATCAGCCAGGTGTGGTTGTGGGCA
CCTGTAATCCCAGCTGCTCGGGAAGCTGTGGCAGGAGAATTGCTTAAACCTGGGAGGTGGAGTTTGCAGTGAACCAAGATCACACCGTTGCACTCCAGGC
TGGGCAACAGAGCAATACTCCGTTTCAGGGGGAAAAAAAGGAATCATACAATATGTGGTCCTTTCTGACTGGCTTTTCTCACATGGTGTGATGTTTTCCA
GGTCCATCCATGCTGTAGCATGTATCAATGTCTCATTCCTTCTTACAGCCAGACAACATTCCATCGTATGGATGGGCCCTGTTCTGTTTATTCATTCATC
TATTGGTGGCCACGTGGGTTGTTACCGGTTTTTGGTCATTATGAATAATGCAACTGTAAACACTCCTATACAAGTTTTTTGGGTGGGCATGTGTTTTTAC
TTCTCCTGGGTATATAGTTATGAGGATGGTTCCATCACAATGCAACAGTCTATGGTTACATGGTGGCATAACCATCCTCTTAATTATATGTTTAGTTAAG
AGGATTGCTTAACTCTATGTTTAATGTTTTTAAAAACTATCCAACTGTTTTCTAAAGTGACTATTTCACATTTTCACCAGCAGCAGTATGGGAGTACAAA
TTTCTCCAACAAATTTAAATCCTGCCATTAAATATGCTGCAAAAACATGATTCCTAAGGGTCGTATAATACTTCATTATATAGACATAGCCTAAGGTATT
GACCATGCCTCTCTATTGGTCATTATTTCACTTCCAAATTTTTGCCACTATAAATAATATGATGACAAAAATCTTCATATGTWATTCTTTGCTCGGGGTT
CTTAGAACTAGAATAAATGGATGAAGGCGTATTCCCACTTTTATTGCTTTTTTCACATTTAGCCAATTTTCCTTCTGAAAGGTCATGTTAACTTCTACTC
CTACCAGCATCATAAGAGAGTAGCCACATCACAGCCCCCAACAGCCCTGGATTTAGCCACATTATTGGGCTTTCAGCAGATGGGTACATAGGTTTATCTT
ATCGGGTCAACTGAATTCAGCTTTCATGTGCAATTTCAGAAAAGGACATCAAATTCAAGAAGCTAAGCCTGATCTCCTGTAAAAACATCATTTCCCTGAT
GGACGTATCCTTCCAAATATTTGAGCAGAAATAGACATGGATCCTGGGCTTTAAGCACAGTAGAGTAATCTTCAATAGTGCAGACTCTCCAAGAACATGA
CATCCTTAGCCAGCAGAATAGTCTTCTTCACAGAAAATAACCCAAAGCTGGGGGACCCCCATGCTGAAATTGGATCAGAATCAAGATGCACAAGACTGCC
YAGTGGTGGGGGTGGGGAGCTTTTGAAGGGACTTGGGGGTCTTCTTGCCACTTTGGGATCCCATCCAAGGGAACAGAGTTCTGTTTTTGTGAACTTTCCR
GGACCACCCCCATTCCACTTCTGCCGTTTCCCCTCTTCAGAGATTTGTGGTTTAATCATTAAAACCACTTCCCCAGGGCCCCAAACCTGTGCACCCAGGC
CAGCCCATCGGCCCTCCCCCTCTGCAGTCCCAGAGCTGAGGTCCCACGAGGAGCCTCAGGTTGAAACACTGCTCATGTCTCCCTTAACCCACATGGCACA
GACCAGCGGCAATGGGAAGCTGGAGTTTGATGAATTCAAAGTGTTCTGGGACAAGCTGAAGCAGTGGATTGTATGTAACCTGGAGCAGGGCTTGGCCTCT
GGGGGACCCAGTGAACCTAGAGCAGAGGGGATTTAAAATGGTGCAGCAGGCTGCAGGCTATAGGCTAGAGGAATTGTATTYGGACAGGGGAGAAGGGAAA
ACAGCATCATGCTATTCCGATRCTTACGGGAGTACCACCGTGCTTCCACCCAAGACGAAAAGGAAGACAAAAGGGAGACCGACTTCTTTTGGAAGGCCCA
GTCCAACTGTGGCCTCTGCGGCCCCTAGAGGGTAGCTCCCCCGGGCTGGCTGTCAYCCATTTACTGCCAYCAGCGATGCCTTTCAGGCACGCTCCTTCTC
AAGGCTTCTGCTCTCCACCCTTTAGAACCTTTTCCTTCGGTTTGATGCTGACAAGTCCGGCACCATRTCTACCTATGAACTACGGACTGCACTGAAAGCT
GCAGGTAAAGAAAAGACTGGAGTACAGGTGGCTGACTGCATGCCAGGTACTGCCTGTGGGCAACCTGAGCAGATGGCAGGTCTTCTCTCTGCTGCCCAGG
AGGTGGGCCTCTGAGCCCAGTTGGTGATTCTTAAGGTCAYGGCCCTTGGAGTGGTGGCACCAGGGTTCAGACCCAGGACTCACTTCCTGACACCAGGGCC
CTCATTTTAAACCACTGTGAACATTGGTAGAAACTTTTTAAATGTATCTGCTAAAAATGAACTTGGCCTGCCCTCTGGAGGCCTCATAGCCTCTGACCAT
GTTTTCTGGCCCAGTACTTAACACATGGCTCTTTGGTGGCAAGCTGCAGTGATTCCAAACTTCTCATTTCTGCTCTCAGATGGTTGTTATCGTGGATGAG
ACAGAGCATGCAGCACCCATGGTTTGGGGTCCGCACGTCCCTCTGCCACCTGTGGCCCTGTCCCGGGTTTTATCAGCATCAGACTCTGAATCCAAAATGG
ATGACTGCATCATAGTTTATACCCTGCTCCCTTACCCAAAGGCTGGGCTCCAGGTGGCATTTCCCACTCTTGTCCGGTGCTGGATGGCTGTCGGCATCTC
TGTGGTCCCATGTCCTGCACACACAACCGTAGTTTCCACRAGCGCTCTGCAGACCTCCCGCCTGCCGGGCTGCCTGCGCTTCTCACCAAGCACACCTCAC
AGATAGGGGCCTCCTGAACCTTTTAAAGTGGTTCYCTCCCAGGGAAAGCAAAATCTGGAAACATGTCCAGGCTCAGGCCTGATAAAAGGATGAAGTATAC
ACAGCCAGGACCATCTCGGGTCCTATGTGAGGGAGAAGAAAATCAGATGATTTATAAATGAGCAAAGTGCCAGGCTGAGAAGGGGCGCCTGATTTTCTTA
GGGGATGATGACTCTGTTTCCATGGTAGGAGGAGGAACTGAGCAGGGGACAAAGGGAGCACTCAGAGAGGAGGGGCATGGCTGTGTCTTTCCTACCCTGA
CGTGGTGTGGGGAGAATCGCCCCTCATCCCCCTCCTCTAGCCCCAAACATCAGGATTCTGGCCAAGGCTGGCAGCCAGCACTGCCGTGCAGGCTCCAGRG
ACTCTGTGCTCTGTGTCTGACCTGCCTGCTCCTCTGCTGGAATTAGGAAGAAGCAGAAAGACCCTGGGTGGATTTCTGAACAATCCTGTGAACACCTCCT
AGAAAGTGAACATGTAGACAAAAATGAAAGGGGGAAAGAAATCACTTCTAAGGGCACTAATTAGAAATCAAAGCACTGGCCAGGTGTGGTGGCTCACACC
TGTAATGCTAGCACTTTGGGAGGCCTAGGTGGGTGGATCATGAGGTCAGGAGTTTGAGATCAGCCTGGCCAACATGATGAAACCCCGCCTCTACTAAAAA
TACAAAATTAACCAGTTGTGGTGGCAGGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGCAGCAGAAGAATCACTTGAAATCAGAAGGCAGAAGTTGCACT
GAGCCGAGATTGCACCACTGCACTCCAGCCTGGGCAACAAGAGTGAAACTCCATCTCAAAAAAAAAAATCTAAATATCAAATCCAGAAGGAAGTTCACTT
TGTCTAAACTCCTCATTTGACAATGAGGAAACCAAAGCCCAGAGAACTGAACCCATATGCCACGGCTGGAGCAGTGCCAGGGCTCAGATCCAAGCCTCCT
GGCTATAGCCTGTCATTCTTCCCCCATCGTGGATGTGTAGGAATGGGCCCTGGCAGAGTATCATTCTCCGTGGGCAGCAGCATCCCCTCCAAGAAACTTT
CTAGGGCCACAGCTGGAAGTGACCTGAGACATAGAACRCGAGGGGAGGCTGGTGTAGGAATGAACTTGGGGCTCAGACACCACCCAGTGTTAAGTTCCCC
CAAACAAAGCTTCCTGTAAAGTCAGCGAGACTCTATGGGTGATGTTAGCATCAAAATTAAGATCACAAACTCGCTAAACTCAGAAGCCATTAAACACAGA
AAGCACGCCTGAGAGTCCCCCGCACACTCGCCCCTGCACCACAGATTCACACTCTCACGCTGCATTCACACCAAGGGCAGCAGTCCCACTGGGTCTGGGG
ACCCCMGCTTTGAGGAGTGAAACAGTGGCTTCCTCTTCTGAGCCCTCTCCTCAGCTGCCTGGGAGCTCCCTCAAAGGTGCAGACTCACCTCGGGGCTCGG
ATACAGCGAGTCCTGGGTCTCCTCCTTTGTCCCCACAGGCTTTCAGCTGAGCAGCCACCTCCTGCAGCTGATTGTGCTCAGGTATGCGGATGAGGAGCTC
CAGCTGGACTTCGATGACTTCCTCAACTGCCTGGTCCGGCTGGAGAATGCGAGCCGTAAGTGTCCAGCGAGGCTGAGGGTGCACCTCGGGGTGGCATCTT
CAGTCACCCTCCATGAGCGCATGAGAAACAGCCTGGTTAAAGTAATGGCAAAGATAGACCACAGAGAGCCATGGTCTGATGTGTGTGGACCCATGGGCCT
GTGCGGTTAGCTAAGGAGCAGAATGTGCCAGCCTCCCCTGCAGCAYGTTTCTTAGCATCGCCTTTCTTTATACATTCACAGTGCCTCTGTGGGAGGATGA
TGGGCTGGGGCAGGTTTGTGCCTTGTGTTTGAGGAAAGGTTCAATTGCAGGTCAAATCCCATCATAGCATATAGAAACAGGAGAGTCTCAGTCCCCCTTC
CTCCCCCCTTCCCCGCCCTGTAAGCCCTAGACATTGACCCAGTTATCTCAAATAAGATTTGTTACACCACAAATAGAGAGGGATTATGTGCCCGTGCGCT
TCAGTGTTTGCAGTTTATTGTCATAGCCATCCTGCCCCTCAAAGGTGGTTTTGAAGGTGAGGCTGAGTGAAGCATGTCCAGGGCCTGTAACTCAGTACTG
GAGTGGCTATGAGGACATGCCCTGTGTGCAGGTGCCAAAGGACCCGTGCCCTCAAGGGTGCCTCGTGCTTGGTTTAATGTTCTGGCGTTTCCATCTTGAA
AGTCTTCACAACTTAGGAGCAGGGGGCCCCGCATTTCCATTTTGTCCTGCTTGGTATTTTCTAATCTGTGTTCCATAGGCCACTTCGAGGTATGAATACT
TGATTAAAAAAAAAAAAAAGGCAGGGGGCTGGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTTGAGGCAGTTGGATCGTGAGGTCAGGA
GCTCGAGACCAGCTCATAGCGAAACTTTGTCTCTACKAAAAATACAAAAAATTAGTCAAATGTGGTGGTATGCACCTGTAATCCCAGCTACTCGGGAGGC
TGAGGCAGGAGAACCCCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATTTGCCACTGCACTCCAGCCTGGGCAACAGTGGGAGACTCCATCTCA
AAAATATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAATAAAATTAAATTAAATTAAAATAAAAAGGTGAGGGCTGTGACCCTTGGTTA
TCAGCATGATAGCTCCCTCTGCTTCTTTGGTAATAGAACACTAATTACTTGCCTGAAGCACAGCCCCTCTAGACTCTAAGCTCCAGGAGAGCCGTAATTT
CTGGACAATCAATGAGTATGTGTTGATTAAGGAATGATGAGAGAAAATCAGAGACAGACCAGCAGGCCCCAAAGGGTCTAGTATATCAAGCCAGGAAGCC
GGCTTTCCCTAAGGGGTTACTGGTAGCTAGTGAGAGGTGCATTCTAGAAAGACCCCTCCTGAAACAGAATCYGTTATTAGACTTACAGGGTGGTCAGAGC
TGACCCTAGAAATAATGAGATTTGCTAGTTTCTCTTCTCTCCATTGCTCTTTCCCTTTCTAAACCACCCAGGTGTAATCCTTCCCAGAACGGGGGGTGGG
AGTGCCTCAGCTTTTCTTATAGTAGAGGAATATTAGGGTGAAGACCCTTTAGGCTTAACACCATCCACTCTGGCATCCTCACATTAGATTTGCCTGGAGA
ACTTTTAGAATTACCAAGGATGGAGCTTTGCTGCAGTATTATTTTAACTTTTTATTGTAAGAATGTCAACCCTCCAGTTAGATATAAAGAATCATAATAG
GTTCCCATGCACTCCACATCAGCACTTCTCAAACTTCGCTGTACATTACAATCTCCAGGGGTGCCTAAAGAAATGCTGATGACCAGGCTGCACAGTTGAC
CAATTCTGTTAGAATCTCAGGGGTGGCACACAGCATTGGGAGTTACGCAAATTCGCCAGGTGTTTCCAGACCTTTACACCCAACCTCAACAATTACCATC
TTGCTAACTTTTCCCTTGTGCTCCCGCAACACATACATTTTCCCCCTAAATAATTTAATAGCAGATCTCAGAAACTCTGTCCATTCATCTGAGTATCTCC
AGCTGATAGACTTGTTTTTAGCATCATCTTCATACCATTTGCACACCTAACGAAATTCTCAGCAAACCCTCAACATTCTCTAGTGCCCGGTTCATGCCCA
AGTCTTCCAGGCCACCTTTTTACAGTTGCTTGGTTGACTCAGGATCCACACAAGACCCAGTCACCATGTTTGGTTGTTGGGTCTCTTCCATTTCTTGTGT
CCAGTGATGGTCCCCCACCCCGCTTTGGGTTGTATTATTAAAGCTACCCGAGAGATTCTCAAGTGAAGCCAGGGCTGATTGGCTCGACCTCGTCTTCTGA
AGGTGAGGAGGCTGAGGCCCCAAGAGGGCAGTGACTTGCTCAGGTGCACTCAGGTCACTACACCATGCGGTAGACCCAGCCCCCAGCTCAGTGCTGGCAC
GCTCTCCTGTGCCACTCTGTCCTCTGACAGCACCCACGGCACCTTCCTACAAGGGCGAGACTAACAACTTTCAGATTCATGCAAAACTTTACGTGCGTGT
GCTTTTTTTCTGGGGCCTATGGATTTCAAGGGCCCTGTACCCCCCAGAAGGTTAAGATAGGGGCGTTGCTTTGGCTCCAGGAGCTGCTGGCCGGCTGACT
GGCTTAGGTGACCACTGGCTTGCTACAGGACTGGATGCCTCCATCCGTTCAGAGAAGTTCACCTTCAGCCCGCCCTTGATGAGAGTCCCATCGCCGCCCT
TGATGAAAGTCCTTGTTTACCACCAGATGGAGCAGCTTCCCCACAGGCTCCACTGGAAGGCCCTTTGGTCGCTGGGAAACAAACTTGGTAAAGGAATTGT
CTTTAAAAGGATGCCTTTCCCCCTTCTYTCCTATCAGGGGTGTTCCAGGCTCTCAGTACAAAGAACAAGGAGTTCATTCATCTCAATATAAATGAGGTAT
GGCCAATCCAGACCCTCTGCTCAGGGACCCAGCTGGGGCCCAGCAGAGTCCACGCTGCATAGATGTTTGCCGAATGCTTGATTTCATGCAAGGGCTGACA
TCTAGCTGTGGGAGTGATTATAACAAAATAGCTAATATTTTTGAGATACTATTTATCAAGTAATCAATTAAGCCATTACAATAATTCTGTGAGCTAAGTA
CCAATAGTATCCCCATTTTGCAGGGTGGAAACTGAGGCATAGAGAGATTAATCACCTTGACTTGAGTGAGTGAGCAGACTCTGCCTTCTTGTCCTTCTCT
TCCTTCTGTCATTTGGGTAACTTAGCCTGCCTGCCTTCCAGCTGCCAGTTTGCTCACTCTCCCTTGCTCATGTTGTCCCGTGGTTCCCATGACACTCCCC
CAGACTCCAATAAGTACAAAACTGGCCAGTTACCGGGGCCAYTGTAGCAATGACGGGGGTGGGAGACCATGGGTCTGAGTGTCAGAGGTATGGGAGAAGG
ATTCYAGGGGGTTTCAATCACCCTCTCCCCAGAGGATCCCAGTGGACCCATCTGCTCACAGGGAGGTCCATGGGCCAGCAGCAGCATAGGCATCACTTAG
GAGAGAGCGTTGGAAATGCAGAGTGCCAGGCCCTGCCCCAGACCTGCTGAATGGAAGTCGTCTTTCACAGGACCCCACTGATTCCTGTGCACATGAAGCT
TGGGAACGCTCTTGAGACATTCTCCTGCCCAAAGGCAGAGGGGAAACTGTGGAGCAGTTTCCTTCAATGGTTCTGTAATTTTTATCTCCCTTTTCCTTCT
TTCCCTCCCTGTATCTTTCTTTCCAGGTCTGCTTTCTCTTCTACCTAACAACTCTGAAGCCAGGCAGCCTGTGGCTCCTCCCCAGTCTCTGGAGTTTCTC
CTCTCCACCAATTTCCATACTCACAGTCACAGCCAGCTCATTTCCAAATTCATTAGTAACTTTGGGTTTGGATAACATTTAATTGAATATTTCAAGATGA
AGAGGTTGATGACAGTATGTGTTTTAGAGGATTGTACCTCCTCCCCTCTTTTGTGCTCTGATTTCGATTAAGCAGGCTGCTCGGTGCCTCAGTTTAACCA
TTTACAGAAAGAGACATAGGCCTTAATATTACACCCAAAGCTTTGCTTTATAATAATATCATATAATTTGGCAATTATGTTGACTCACCACTAATTTTCT
CAAGTGTGTATCTCAGATCCCTGGACGCATTATTATTTCATTGAGCCAATTACGTATTATTACGGTGAGCCAAATGGGGATACTATTGGTACTTAGCTCA
CAGAATTATTGTAATGGCTTAATTGATTACTTCATAAATAGTAKCTCAAAAATATTAGCTATTTTGTTATAATCACTCCCACAGAAACTAGGCATTTTTC
TTCTCTAGTTTTGTCTTTCAACTTCAGCATGTARGACACATGTAATAACTATACCTCCTTTGATCAATCCAAGATTCCAAAGAAAGATGTGCACACACAA
ATTATTCTTTTATGAAAATAAGAGGAAGCTGGGCATGGTGGTGTGCACCTGCAGTCCCAGCTATTTGGGAGGCCTAGGCGGGAGGATTGCTTGAGGCCAG
GGGTTTGAGCATGCAGTGAGCTATGATCTCGCCACTGCACTCCAGCCTGGAAGAGAGTGATAGCAAGACCCTGTCTCTTAAAAAAGAAAGGAATTTGTAA
TCCCAGCACTCTGGGAGGCTGAGGCGGGTGAATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCATCTCTACTAAAAATACAA
AAAATTAGCCTGGCATGGTGGCGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGAGGTGGAGCTTACAGTGAG
CCAAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCAAAAGAAAGAAGGAAAGAAGGAAAAGAAAGAAAAGAAAGAAAAATRAGA
AAGAAAGAARAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGWAAGAAAGAAAGGAAAAACAAGAGAGACCC
CTAGGTCCACCTTTATTTATCATTTACTTTAAGGTAAATGATAAGTAATGTCACTAAAAAACATGAGGAAGTGTGATGGCTGCCCCTGGTCCATGGTGGA
AGGAGACAGTGGGAAGGTTTGTTACTCAGCGGCCCCCTGGCTAGTCAAAGGCTCCAGAGCACCAGCAGTGTGGAGGAAGTATTCCAGTGCTGCAGCTTCA
AGGTAGAAGTGTGGACACCTCTAACGCAAGTGTCCACAGGTGTAGGGGCTGGAATAGGCTCCTGCCCTGCCCCATATCATCACCCTGCAGTACAACAGTG
AAAACCATTGCATTCTCTCCCTCTAAACCTACCATCTTTACATCTGGCTGCATGTTAGCATCACCTGGGGAGATTTAAAAATCCTGATACCCCAGCCACT
CCCTAGATCAATTAAATCTGAATCTCTGGAGGTGAGGCCCAAGCATTGTTTTTCTTTAATCCCCTTGGTGAGTCCAGTGTGCAGCCAGGTCTGAAGTATC
CATGTTTTAAAGTCCCTCTCCTTTTCCCCTGACCCATCCTAGGAAGCAACAGGAGATTTTCCTGGCTGAGTTGGCCTCACCTGCAATCACTTTCCTAAAA
AGGCCTGTGCACCTTTCATTACAGTAGCTCTCATACTATATACACTGTGCCCAGGARGGAGGACAGAGAAGGGAGAAAAAAACCATCTCATATAATCACR
TTGCCCCAAGTCACCATGCTGTAATAAACAAGCTGTTGGGAAGGAGGAGGCAGGGTGGACTCGGGAGAGAAAATGAGGAGGAATTCCATGCTACTTCTCC
TTCAGCTCACTTGTAACACCCCCCAGCTATGGAACCTGCTTCCACTTCCTGCAGCCCCTCCAGGGTGGAGGGCCACCTCTCTCCCAAAGGTGAGAGGACC
CCTCATCAACAAGGAAAAGTCACTTAATACTGCCCTGCCCAAGATGCTTCAGCGAGGCTGTCCTCTTAACAGGGAGAAAGCACATTTTCCCGTCTCTGTC
TTACCAACTGTGCTTGATATGAGCTCACTTGGAAAGGACTCAGGTCCTCCAGAAAATGTCAAGTGCTGAGAATTCATTTATTTTCTTTAAATGGTTTCCT
GCTGAGACAGACATCCAAGTTGGCAGGCAAAATGATCAAATAGCAGATCTCCTGTGATATCAGCAAACTGGGGCCACTCCTGAGGCTGAGGCTGGAAGGG
ACATGGAAGGACAACGACCCCTCATCTCTCTCTCTCTCTTCCCAGTTCATCCATTTGACAATGAACATCTGAGGCTGCCTTGTAGAGATGCAGCCTGCCC
AGCTGAATCTTGGCTTCTGGACCTTGACCTTCAGAACTTCTCTTGGTGTGGAACCATTACGCCCAGGGTTCACTCCCCTCTCATCGTCCGGCCTTCTCCC
TTCATCTTGATCTGGGAAGAATGAAATGAACTCAGCTACACTCTCTGATTTTGTGCTACTCCTTTGTAAAGTCACTGCCTTAAGGGGGCTGATGGCGCCA
CCTGTGCCTTACATCCAGGTTCAGGCATCACTAGCTTTCCCACACTCTACTTTCCTTATTTCCTTCCATTAAGAATTACTCAGAGTTCTAACGCACAGAA
TCCTGACTTCCATGTAGCTCCAGTCATTGTGATCAGACATCCTTTATAAAACATGTTTTTATAAATGTGTATGTGGAATAAGATGAGGAGGAAAAGGAGT
GAGGTCATAATTTAGCATTTCTGCATCATAAGTGTGCTTCCTTATCAGGGAAGACATCAGGTAGTTCCGATAATTGGACAAGAGTGGATCTCCGATAAGA
GTGGATCAAGGTGACAATCTCTACCTCCTCCTACGAGAGGTGGTAACTAAAACAGTCACTATCCAGTCCAGACATTCTTTGTGTCTGAAGACTTTGGGTC
AGAAAAGCTGAATGATATTATTTCTTCTCAAGGAGTCCAGATTCTGGTGAGGTTTGATCTTACTCATCCCCAACATGATGGGGGATAACAGACCCGAGAA
TCCTCATTATAGCTCACTAGTGCTGAACAGGAGTATCCACTGAACTAGAATAATGGGAGGTAACATGAGAAGATACTGGCTCAATACATGCCAAGCCCCA
CATTCTTACTGGTACACTTGTGGCAGATGAGGTGGAGGATGGGAGCGGGAGATACCGAGAGGGAAAGAGGGAGAATGGCTGGGATGAAGATCAAGTTAGA
AGTGGAGGCTGAGCATGGTGGCTTACACCTGTAATCCCAGCACTTTGTGAGGCCAAGGTGGGAGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGC
CAACATGGCAAAACCCAATCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCGGGTGCCTGTAATCCCAGCTACTCAGGATGCCGAGGCAGGAGA
ATCACTTGAACCCAGGAGGCAGAGGTTGCAGCCTGGCGACAAGAGCGAGACTCAGTCTCAAAAAAAAAAGAAGTGGAGCTTCATCAGAACCCTGTCCCTG
ATCGTGGCCAAGGTACCATGATCTTCTCCTTTACCTTCCAGCCCTTCCCTGGGTTCACGCAGCAGTGGATGCAGGACAAGAGCCCTCTCTCAGGAGCAGG
CTTAGGACCAAGGCTCTGTGCTGGGGCACGCCAGTACAACCCCAGACATGCCATCTCCTGTGCTCGGCCTGTGCCCACTCTCATCGATGCACACTGCTGC
CATATTGTTTGTTAGATGTCGTGAACACTAGCCCTGCTCACAGGTAAAACTTGGAAGGGGACTCACCATATGAGCTTCTTTGTCTAGTGTCACTCCCACA
GGGTGCCTTTAGGCCTTTATGTCCAGGAGCACATAACTGTCTCTCACTGATTTTTCCTCTGCTTGAAAGGTACCCAGGAAATGAAGTTTATGAACTGGGC
GTCCTGTTTTCTTTCCATCCATATGTCCCTGGGAAAGTTATTAAACTCTCTGAGACTTAGTTTCCTCCACTCACAAGGATGGTAATTTCTGCCTCACTGA
GATCTTATGATGAATAAATGAAATTGTAAGTAGAAGGTGCCAGGCACAGTACTTGACACATAACAGGCCCTCAGTGCAACTAAGGCCCACTGTTGTGAAC
CAGTGTTTTCTTAAATGTCTAAAAGAGTTACATACTATCACATGCTTTCGGTTTACCTCTGTTCTTCATTGCAAGAATCCAAGAATTATAGAACCAGTCT
TGAAGGAGAGTTCAATAGAGCTCTACAGACTATTATATGATCATGAGTTGAGAACAAAAAAAAGTGTATGAATTTAGCTTCTATTTGTTTCTGAATTACA
TGGTCTGATACTGACACCCAGAAACAAAGGAAGATGTTTCACATGCATGAGTTTGATTAACTATAATTAAAGTGATTTTGTAGCTTATAATTCAAACCAA
CAGCTTTTGAGTGTGAAAGGAATAATATTAGTTATTACACCAGGACAATAGATGTAAACTGGAGCTGTCCTAGGAAAATTGCGATTTATGGCCATTCACA
TTATGTCTATCACCACCTGCATAATATATGCTTTAGGTCTTGGCACCAAAATATTCGTGCCCTACTACCTTTAAATTAAACAGTGGCTGGGCATGGTGGC
TCGCGCCTGTAATCCCAGCACTTTCAGAGGTCAAGGCGAGCAGATCACGAGGTCAGGAGTTCGTGACCAGCCTGGTCAATGTGGTGAAACCCCATCTCTG
CTAAAAATACAAAAATCAGCTGGGTGTAGTGGTGCGTGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGAAGAATCGCTTGAACCCAGGAGGTGGAG
GTTGCAGTGAGCCAAGATCGTGCCACTGCTCTCCAGCCTGAGGGACAGAGCAAGACTCCATCTCAAAAAAATAAAAAATACAAAAAAAAAAAGAGAGAGA
GAAAACAAAATAACTGGGTGTGGTGGTGCATGCCTGTAATCACAGCTACTAGGGAGGCTGAAGCAGGATAATTGCTTGAACCCAGGAGGCGGAGGTTGCA
GTGAGCCGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAACGAGACTTTCTCAAAAATAAAAATAAAAATTAATTAATTAAACAATAGTATACACG
AGCTATCTAACGCTACTGCTTCACACCAAAATCACATGAAATACAAAGAGATACACACCTAGACACATCAAAGTCAAACTGTTGGGAAAAAAAGAGAAAA
TCTGAAAAGCAGCTTGAGAAAAATGACTCATCATGAACAGGGAACAATGCAATTAGCAACTGACTTCTCATCAGAAATGACAGACGACAGAAGGCAGTAG
AATGACATTCCAAGTGCCAAAGGAAAAATCTTTCAATCAAGAATTCTGTTTTTCCACTAGAACTGCAAAAATGAAAGCACAATAAAGATATTCCCAGTTA
AACAAAGACTGAGAGAATTCATTATTAGCTGACCTGCCACTGGAAAAATATTAAAGGATGTATTTCAGGGTGAAAGGAAATAAAACTAGATGAGACTGTG
GATCTGTAGAAAGAAATGAAGAGCACTCAAAAGGATATCTGTGGGTAAATGTAAAAGACTATATAAACGTGTTATCTTCCATTCTAATTTTGTTTGAAGA
CATTAGATTATATAAAGCATTAATTATTGTACTATGTTGTTGGATTTATAACAATAGAGAGATATATTATAAAGGAGAGAGGAAGAAACAAAGTATTGTA
GCAATATTTCTATATTTTCTTAGAATTAAGTCAGTATTACCTCAGGTAATGATATTAGATATTAGATGGTTATAAATTAAGATGCAGATTGTAATCTACA
GAGCAACCACTAAGAAAATAACTCAAAAATACAGTAAGATAGCAGAGGAATCAAAGCAGAATACTTAAAAAAAATGTTTAGCACAAAAGCCGTAAGGGAA
GAACAGATTTTAAAAATAAGACATAGAAACAAAATGGCATACCTTAATCCAGCCATGCTGATAATAATATTAAATATGAATAAAAACTACAATCAAAAGG
CAGTGATTGTCAAAATGGATAAAAAAGCAAGATTCAATTGTACACTATCTACAAGAGATACTTCATACAAAAAGACAAAAGTTGGAAGTAAAAGGATGAA
AAAGAGAGTACCATGCAAATACTGGCAATAAGAGAGCTTGAGTGCCTACATCAATATCTGAGAAAATAAAATTTAAGACAAGAAATATTATTAGAGAGAA
GAAATGATATTACAGTATCATAAAGGGTCAATACATTAGGAATATATAATAATTACAAGTGTGATGGTACCTAATAGTAGAGTCTCAAAATTATGAAGCA
AAAATTGATATAATTGAAAGAAGAAACAGATTATTCAGACTTAACAATTATAGTTAGAGAGTTCAATAACCCATTTTTAATAACTGATAGGACAACTATT
CAGAAAATTAACAAGGAAATAGAAGACATGAACAACACTATCAACCAACTTGACTAACTGACATTTATAGAATACTTTACCCTCAAGTAATGAATACACA
TTTTTTCAAAAGCACATGGAACTTTCTCCAGGTTAGACCATATACTAGACCATAAAACTAATTTTTAATATATTTAAAAGAATTTAAATCACTCAGAGTA
TGTTCTCCAGCCACAAAGGAATTAAATTAGAAACAAAAATAAGTTTGGGAAATCCTCAAATTTTAGAAATTAACACATTTCTAAATAACTATGAGTTGAA
GAGAAAAATTACAATGGAAATTAGAAAGATTTTGAACTGAATGAAACAAAAATAAACTATGTATTTACACATGTCTATACACATCCACATTAACCGGATT
AAGCTAAAGCAGGACCTAGAAAAGTAGAGTGTTCTCAAAACAATAATTTAAGCTTCCATCTTAAGAAATTAGAGAGAGAGGCAAATTAAACCTTAAAAGG
AAAGAAATAAAGACTAAAGCAGAAATCAATTGACTAGCAAAGAGAAAAATAATAGAGAACATCAAAGAAACAAAAAGGTGATTCTTAAAAAAGATTGCAA
AATTGATAAACTTTTAGCTAAACTGACCAAGAAAAAAGACAGAAAACACAAATTAACAATCAAGAATCTAAGAGCAGCCGTCATTGCTGACCCATCAGAA
ATTAAAAGAATGATAAGTGAATATTTTAAACAACTTTATGTCAACAAATCAGACAACTTAGATGGAATGGAAAAAATCCTAGAAAAAGATAAATTACCAA
AACTACCTTCAGAGAATACTGAAAATCTGAATAGACCTATGCATTAGTCCACTGTCACAGTCTAATAAAGACATGCCTGAGACTGGGTAATTGATAAAGG
AAAGAGATTTAGTTGACTTACAGTTCAGTATGGCTGGGGAGGCCTCAGGAAACATATAATCATGGCGGAAGGTGAAGGGGAAGCAAGATACCCTCTTCAC
AAAGCGGCAGGAAGGAGAAGTGCCAGCAGGGGAAATACAAGACACTTATAAAACCATCAGATCTCATGAGACTCACTCATTTTCATGACAACAGCATGGG
GGAGACTGCCCCCAAGATTCAATTAACCTCCACTTGGTCCTGCCCTTGACATATGAGGAGTATAAGGATTAAATTCAAAGTGAGATTTGGGTGGGGACAC
AGAGCCAAACCATATCAACCTACAACATGAAACATATCATACCATATCAACCTATAATATTTTGGTCCTGAGACCAAATCCTTTGGACAGTGCCTGGAGA
GAGCCTCAGGCCACAGTCATGTTTATCTGAAATACAGGGCCTACCTCCAGGCTCCTCTCCACCCTGTCCTGTGCAGAGCTACGCAGTGCGCTGAGGGGCC
AGGGCTTCAGAAAGCCCAGAGCATGTGACCTGGTTGGCAGAGGTACCAGGGTCATTGGTGCCAGCCCAATTCAGTGTACTGGATCATTAGTAGAAACAAA
GCACCATTCTACTGAGAGCCAAGACCGCCTGCCAAGTACCAGTGCGAAGGCTGCCTCGTCACCACAGCTGTGAATCAAGAGTAGGCTGTGCTTGCTACTG
ATGCCAGCCTGGGGCATTTTCCCAGCCCCACAGTGCCTTTCTGAAGTGGGAGAAGGAGAAGCAGAGGGTTAGACTCTCCTTGGTGCCTGAACAGTGCCTC
TGATGGAAGAACGTAGCTCAGTGATATTCCCAAGGAGGTTTATTGGTTCATTATCAGTAGGACTCTCCAAGGAAAGGGAACAGCTGAACCATATGGAGCA
ACTGCAGGCTCATGTAATAGAAGCAGCATTGAACTTAGAGTTTGAGTCCTGTATTCTAGTCTAGAACTTACCTCCAGCTAGCTGTGTGGACTTAACCATA
TCACTTTACCTCTCTGGGCTGCCTTGCACCTTGAAATTATGTGATTCCTTCTCTCACTCTGGGAACTAGAAGGCCAGGTCAGTGTGGCTCAGTCCTGGTC
TAATTGGATGGATGGAGAGAAGGTAGCAGAGGTGGGCCCAGCAAGCCTGAGAATTCATCTTACTCCCTGACAGAGCTCAGAGTTCTGAGAAGAATGTGGT
CACGCAGAAGACTCTCTGTAGGCCACATCAGGACCAGGCTTCTTGGAAAGCTGTACTCCTCCTGCCTTTCAACATCTTAACACACTCAGCTCCTCCATTA
TACACACTTACCTGAACCCAGCTTGTCTGTATGGGTTTAGCATTCTCTCTTGTCCTTCCCAGTCTACCCTCTACATTCTAAAAAGAGAGTCTCCCACCCA
GACGATCTCCTTGCAGTCACTTTTCAATGCACCAGAACAGCTTCCTTAGTTGGAACAGTGAACAGTGTGTTTTCAAACAAAAGGGG


SNP Information

Context             (SEQ ID NO:5534):
CAGTGCAACTGAGGTGCATCATCCCAGTCTACCGTGGAAAGCTTTGCAGTTTGGAGGCAGAAAATAATGTACAGGCCTGGGATGCTCTGCGGTGGGGACC
S
GGGGCATCTGGTTGTACCCGCTCCCCGGCTCCAAGCTGTCTGACTCCCACCGAGGCTGAGGACCTGGAGTCAGAGTGGGTCTTGTCAGCAGGTGATAGGC
Celera SNP ID:            hCV26885220
SNP Position Genomic:     6526
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


Context             (SEQ ID NO:5535):
GTTTGGAGGCAGAAAATAATGTACAGGCCTGGGATGCTCTGCGGTGGGGACCCGGGGCATCTGGTTGTACCCGCTCCCCGGCTCCAAGCTGTCTGACTCC
Y
ACCGAGGCTGAGGACCTGGAGTCAGAGTGGGTCTTGTCAGCAGGTGATAGGCACGAATCAAAACCTTATCCACAAGGACAGGCCCCCACCCTGTGTGTGG
Celera SNP ID:            hCV26885221
SNP Position Genomic:     6574
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:5536):
CCCAGAGCTGAGGGTGCTCAGTGTGGATGGATGTTTGGCTCAGCAAGGTCTCAGCAACCGGGTGACAGATGGAATACAAGGGAAGCAGGAATCTTCTCCC
R
AGAACCATGCACCCCCCATTCCCAGAGATCAGGGTGAACAGTGCCCCACCTCTGACAGTCTGGAGGTGTCGTCCCAAGAGGCACCAGCTGGTCACTGGGT
Celera SNP ID:            hCV26885222
SNP Position Genomic:     6818
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:5537):
AGCTAGCACAGCCTGCTGGGCAGGGATCTGTGGCTTTTGGAGTACATTTTATGTCCACTTGAGGAGTGAGTAGCATTGGCAGTGGGGGCATTGCTTGCCA
K
GGCTATCCCCTGGCAGGGGCTGGGCAATCAAGACAGGGAGGGCTTGGGGGACTCCTGGGTTTCCCTTCGGGCAGGCACATTCTGCAACAAGCCCAGAATG
Celera SNP ID:            hCV11677395
SNP Position Genomic:     11343
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5538):
TTGTGCCTGGGACGCCATGTCAATATTTGCGGTGCTGGATTAGTCAGGGCTCTACCTCTGACCCGGCGCCAGCTGGGCTGGCTTCCATTCCCTCCAGGTG
K
GTACGGGCCTGGGAGTGGCTCCTGTGGGGTCCGGTTGCTTTTGGGCAAGGAGGGGCAGTACAAGGGATGCTGGTCCTACAAGTGAGATCCTGAGTGCCCG
Celera SNP ID:            hCV26885223
SNP Position Genomic:     7035
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,4)   total(G,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5539):
GGGTACGGGCCTGGGAGTGGCTCCTGTGGGGTCCGGTTGCTTTTGGGCAAGGAGGGGCAGTACAAGGGATGCTGGTCCTACAAGTGAGATCCTGAGTGCC
Y
GTCTTATCCTGACAATTTGTCTCATGCATATAGTCATATCACTTCATTTCCCTGAGCCTCAGTCTCCTCACCTGTAAAATGGGAACAATAATGGCTAATG
Celera SNP ID:            hCV26885224
SNP Position Genomic:     7134
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5540):
CCGTCTTATCCTGACAATTTGTCTCATGCATATAGTCATATCACTTCATTTCCCTGAGCCTCAGTCTCCTCACCTGTAAAATGGGAACAATAATGGCTAA
Y
GCAGGCCAATGTCTAGCACACAGAAGGTTTCCAGTACATTACAGCTATTGTCACATTATTACTATTACTGATACTATTATTATCATCATTACAATGATTA
Celera SNP ID:            hCV26885225
SNP Position Genomic:     7233
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:5541):
GAATCTGTTCTGCCTTTTCCTTTGTCTGCAACTGAAGATTGTCCCTTTGGTCTGGTCCTCATTCTCGTACCCCTATCTGTTTCTTATTTAGGGGAGTTAG
R
AGCTTTACATCATATCTTACAGATTTCTGTAAAATCAGGAACAAAAGGGCTGAGGATGAGCATGGAGACTCTTTTTGCAGCATAGAGTCGCAGGGAGCCG
Celera SNP ID:            hCV26885226
SNP Position Genomic:     9061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5542):
AGGCCCCGGCCCAGTTAACTCACCACCCCTGCAGGGTGAGCCAGAACGTGCCTCGCTGCCACAGGATTGGCTGTTACCTCTCCCGAGACCGGCCCGGCTT
Y
CTCCCTCCCTCCCTCCCTCCCTCCCTTTGTTTAGGTCTGTGCTCCTCTGCTTCCCCCAGAGACGCCTCCCCTGCTGACTGCTGTAGCTAGCCTTGCCCCA
Celera SNP ID:            hCV26885227
SNP Position Genomic:     12429
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:5543):
GATGGGGTTTCACCGTGTTGGCCAGGCTAGTCTCGAACCCCTGACCTCAGAGAAACCACCCACCTTGGCCTCCCAAAGTGCTGGAATTACAGGTATGAGC
Y
ACCACGCCCAGCCTTCTCTCTCCATTTTTGGCAAATCAAATTCATCTGTCTCAGACTCCTCATATACACCCAGATTAGAGGGAAATTTAATCTCCCTCCT
Celera SNP ID:            hCV9070460
SNP Position Genomic:     33610
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5544):
GCGAGACCCCCATCTCCACAAAAAAAAAAAAAAAAATTAAAAAGTGGCTGGGCGTGGTGACTCACGTCTGTAGTCCCAGTTACTTGGGAGGCTGAGGTGG
R
AGGATTGCTTGAGCCCAGAAGGTCAAGGCTGTAGTGAGCTATGATCATGTCACTGCACTCCAGCCTGGGTGACACAGCAAGATTCTGTCTCTAAACCTAT
Celera SNP ID:            hCV26885229
SNP Position Genomic:     13311
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:5545):
GACATAGCCTAAGGTATTGACCATGCCTCTCTATTGGTCATTATTTCACTTCCAAATTTTTGCCACTATAAATAATATGATGACAAAAATCTTCATATGT
W
ATTCTTTGCTCGGGGTTCTTAGAACTAGAATAAATGGATGAAGGCGTATTCCCACTTTTATTGCTTTTTTCACATTTAGCCAATTTTCCTTCTGAAAGGT
Celera SNP ID:            hCV408079
SNP Position Genomic:     50183
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5546):
AGGCTGGGCTCCAGGTGGCATTTCCCACTCTTGTCCGGTGCTGGATGGCTGTCGGCATCTCTGTGGTCCCATGTCCTGCACACACAACCGTAGTTTCCAC
R
AGCGCTCTGCAGACCTCCCGCCTGCCGGGCTGCCTGCGCTTCTCACCAAGCACACCTCACAGATAGGGGCCTCCTGAACCTTTTAAAGTGGTTCCCTCCC
Celera SNP ID:            hCV27507132
SNP Position Genomic:     52140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5547):
ACTCAATCTTGCTCTGAACAAGATTCTTTAATCTGCTATGATATTGAGTATAAGAATCAGCTCTGTAGCTTGGTAACAAAAATTCACACTGAGCTGTGTT
Y
GCATTGGTTTAGCTCTCAGACAGACTCCTGATTAAACAAACAGAAGTTCTGAAAGGGTTATGTTATGGATGCCCAGGGGATGAGGAGGAAAGGGAGGACT
Celera SNP ID:            hCV317106
SNP Position Genomic:     40865
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,9)      total(C,4|T,9) ;no_pop(C,-|T,-)   JBIC-allele(C,102|T,1383)   total(C,102|T,1383) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5548):
TTAATGAATGAGTGAATGGATGATGCCCTCACTCTTGCCCTCCTGTGCATCGTGTCTCTCCGCTTTGCTGCAGGATGGCATTTCAGGACTTCAAGGCCCA
M
TTTGATAAAGTGGAGATCTGCAACCTCACTCCCGATGCCCTGGAGGAAGACGCGATCCACAAATGGGAGGTGACGGTCCATCAGGGAAGCTGGGTTCGCG
Celera SNP ID:            hCV25632381
SNP Position Genomic:     37583
SNP Source:               Applera
Population(Allele,Count): african american(A,3|C,35)   caucasian(C,40)   total(A,3|C,75)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5549):
ATGCAGGACACTCACACGTAGACAATGCTCCCAAGTGCACATGCAACCAGCATACATGTGGAGCATGCACAAGCACACACGTGTACCACACCTGGGCACA
Y
ACAACAAGGCAAGTCACAGGCACCTTGCACATGTGGGCATGTGGGCCGTCAGCATACACACCACTCCCAGGCATCTAACCCAGGCCCACCGCCTAGCTGC
Celera SNP ID:            hCV15972651
SNP Position Genomic:     10755
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5550):
CCACTGACATGGTCCTGGTTTGCATTGTCCTTCTGGGCTCAGCTCAGAGCCACCTGCAAACTCCTGCGCTAGCCAAGGTGGAGGAGGAAGAAGAGCAGTG
Y
GCTTCCTACAGATGAGAGGGGTCCGCACAGGCAAGCCAAGCCAGGACCCCAGAACTGAGCAGCTGCCCCCCACCTTCACTCCCTTTCCAGCCACCACGGA
Celera SNP ID:            hCV15972652
SNP Position Genomic:     11647
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5551):
CTTACTTAGGTGGGTGACCTCAGACAATTTTCTTAGTGACATTAAACCTTTCTACACTCGTCTGAAAAAAGGAGAGACTGACAGTTCCCTGCAGGCTTCC
Y
GTAGAGCTAAATGGCATCACACACAGGAGCCGGCACAGAGCCAGGCACCGAGTAGGCATTCCTTGACCTTCCACCCCAGACAGTGTCACCTTCTCCTGAC
Celera SNP ID:            hCV253894
SNP Position Genomic:     18935
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5552):
CTTAGTGACATTAAACCTTTCTACACTCGTCTGAAAAAAGGAGAGACTGACAGTTCCCTGCAGGCTTCCCGTAGAGCTAAATGGCATCACACACAGGAGC
Y
GGCACAGAGCCAGGCACCGAGTAGGCATTCCTTGACCTTCCACCCCAGACAGTGTCACCTTCTCCTGACTCACAGGCCACCACTCAGGGCCAGCCCGTTT
Celera SNP ID:            hCV253895
SNP Position Genomic:     18966
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,7)   total(C,7|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5553):
TGTGCATCGTGTCTCTCCGCTTTGCTGCAGGATGGCATTTCAGGACTTCAAGGCCCACTTTGATAAAGTGGAGATCTGCAACCTCACTCCCGATGCCCTG
R
AGGAAGACGCGATCCACAAATGGGAGGTGACGGTCCATCAGGGAAGCTGGGTTCGCGGCTCCACGGCTGGGGGCTGCCGCAATTTCCTGGGTAGGTAGGC
Celera SNP ID:            hCV22271618
SNP Position Genomic:     37626
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(G,40)   total(A,5|G,73)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5554):
GCACCGAGTAGGCATTCCTTGACCTTCCACCCCAGACAGTGTCACCTTCTCCTGACTCACAGGCCACCACTCAGGGCCAGCCCGTTTCTTCTGTCCCTGA
R
GCCTGCAATCTGATAAGCAGAGGTACTCTCAAGCCCTGTCACCAATAGCACAGAAGTGTTTCAAAGGCAAAGAGAGTGAGCAGGTCACATGTAGCTCAGG
Celera SNP ID:            hCV253896
SNP Position Genomic:     19080
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,7)   total(G,3|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5555):
AACAGTTCTGGCAGCACAGTGAGTGGCTGGACGTGGTGATCGATGACCGCCTGCCCACCTTCAGGGACCGCTTGGTTTTCCTCCACTCTGCCGACCACAA
Y
GAGTTCTGGAGCGCCTTGCTGGAAAAAGCCTACGCCAAGTGAGTGACAGCTTCCCCAGCTCAGGCAGCCTCCCGACAGGAGTCTCTACACTAGTCTTTGT
Celera SNP ID:            hCV253897
SNP Position Genomic:     21336
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,8)   caucasian(C,22|T,18)   total(C,46|T,26)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,9)      total(C,9|T,1) ;JBIC-allele(C,713|T,784)   total(C,713|T,784)no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:5556):
GGGACCGCTTGGTTTTCCTCCACTCTGCCGACCACAACGAGTTCTGGAGCGCCTTGCTGGAAAAAGCCTACGCCAAGTGAGTGACAGCTTCCCCAGCTCA
R
GCAGCCTCCCGACAGGAGTCTCTACACTAGTCTTTGTAGTGAGCATCTAAGGGCTGGGAAAAAATCAGGGCTCTGGGTTTGCAGGTGAGGCTCGGCAGGA
Celera SNP ID:            hCV253898
SNP Position Genomic:     21399
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5557):
GCTGGTTCCCGGGGCGTGTGGGGCCAGAGCTGGCTTGTGCAGACATGTGAAGGAGTGGCCTGTCTACTATCCTCCCGGGCTCTGACTCAGGATCCTGTCC
Y
GATTCTGAGGTGCCCCTTCTTCCTCCCCTTTCAGCCCTCAGGCCCACCTTGCATCAAGGTTGATTCTCAAGAAAGACTTTTACAACAGCACTCTAACTTT
Celera SNP ID:            hCV25632388
SNP Position Genomic:     30810
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:5558):
CCGGAACCCTTGGGGCCAGGTTGAGTGGAACGGGTCGTGGAGCGACAGGTCAGTCACCCTATCCTGCCTCTCTGGCTGGTTCCCGGGGCGTGTGGGGCCA
R
AGCTGGCTTGTGCAGACATGTGAAGGAGTGGCCTGTCTACTATCCTCCCGGGCTCTGACTCAGGATCCTGTCCCGATTCTGAGGTGCCCCTTCTTCCTCC
Celera SNP ID:            hCV25632389
SNP Position Genomic:     30736
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:5559):
GAGAAAATAGCTTTTGAATCAGTAGACTGAGTAAAGAGGATTGCTGCCACCAATGTGGACGAGCATTATTCAGTTTGCTAAAGATCCAAATAAAAGAAAA
Y
GACAAAGGAAGGGTGAATTCCCTTTCCCTACTTGAACTGGGACATCCATATTCCCCTGCTCTTGGACATTGGAGCTCCTCGTTCTCAAACCTTTGGACTC
Celera SNP ID:            hCV28020906
SNP Position Genomic:     22876
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5560):
CCCATTTCCCCCAGCCCCAGGCAACCACTCATCTACTTTCTCTATAGATTCTATTTACATATTCTGAATATTTTATATAAAAGGAATCATAGGCCGGGTG
Y
GGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGACAGGCGGATCACCTAGGTCAGGAGTTCAAGACCAGCCTGGTCAACATGGTGAAACCCC
Celera SNP ID:            hCV408080
SNP Position Genomic:     49244
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5561):
GGAAAGAAGGAAGGGAGAGAGGGAGGAAGGGAGGGAGGGAGGATGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAA
R
GGAGAAAATATACTATTCCAGGATTTGAAACCCGCATATACAGAGGGCTGACTTGGTATAGGCAGATTCCACAGGGCTTACTGTGGGACTTGAGTATGCA
Celera SNP ID:            hCV26885231
SNP Position Genomic:     15656
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,10)   total(G,3|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5562):
GCTGGGAAGTTCAGTAGGTCAGTCAATAAATCTTGAAAATGCAAGATAATTTAAAGCAAATGGAGCCACCACGGAGATACCATTATCTGTAATTAAGCTG
W
GTCTGGGTTGGGGCTGCAGGGAGATTTCTAACCACCCTCCCAAGTACTGCCGAACCACTTGGGTGGCAGCTATGAAATGTCTGCTCGCCCAGCCCGTGCT
Celera SNP ID:            hCV26885232
SNP Position Genomic:     17665
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:5563):
ATGAGGGCAGGTGCATTTCCACACTGCCTGGTAACCCTAGAAAAAAATGTCATCAGATCTGTGTGACATATGGTCCTAAACCATGCTAAAGCCACATTTT
A
TCATGGAATAACAGCTAAATGCCTCAGAAGAACATTAACGGCATTGCACGGTGAATCCTTATGGAGCATACATTTAAAACTATAAGTGATGTTTTGGCAA
Celera SNP ID:            hCV26885233
SNP Position Genomic:     18366
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,7)   total(A,7|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5564):
CAACCTCCCTTCCTGTTCCCAGCAGACCACACACAAGCTCATACACATGCATACATGTGCTCAAACACACACGTGTGTAGAAGCACTTGCAAACACATGC
R
TGCACACATACATGCACACACATGCACACATGTGAGCAAACACATGCTTTCACACATGCAATGTATAAATAAACCACAAACAGTGCACATACCTGTCATG
Celera SNP ID:            hCV26885234
SNP Position Genomic:     20521
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,14)   total(G,1|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5565):
TGGGGTTCCTGAATTATGAAAGGGGTCACCTGGAGGGGTGATATCTAAACCTAGGGGCTGTCTGATGGTAGTATATTAGGCACTGCAATAAACAGGCAAG
R
CAGGGAGATTAGGGGACCACAGGATCGGATGGAGAAAATGGGGGCTCATGTGACTGCTTAAAGCACAGCAGGAAGGTGGCTGAGCGCAGCCCTGGGCGGG
Celera SNP ID:            hCV408085
SNP Position Genomic:     47206
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   no_pop(A,-|G,-)   JBIC-allele(A,99|G,1390)   total(G,1390|A,99)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5566):
GTGCTAAATGACTAGTTAATGGGTGCAGCACACCAACATGGCACAGGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAAAACTTAAAG
W
ATAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAAAATAAAATAAAATAAAATAAAAATAAATAAATAAAACACAAGTTTTAACCA
Celera SNP ID:            hCV26885235
SNP Position Genomic:     26596
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:5567):
TGCTAAATGACTAGTTAATGGGTGCAGCACACCAACATGGCACAGGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAAAACTTAAAGT
A
TAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAAAATAAAATAAAATAAAATAAAAATAAATAAATAAAACACAAGTTTTAACCAA
Celera SNP ID:            hCV26885236
SNP Position Genomic:     26597
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5568):
GAGCCCAAAGAAGCTTGGAATAGGCCCAGACGCTTTGTTTTTTAGTTCTGTTTTGCTTTAGACAGAGTCTCACTCTTTTACCCTGGCTGGAGTGCAGTGG
Y
ATAAGCCTAGCTCACTGCAGCCTCAAACTCATGGGCTCAAGAGATCCTATCACCTCAGCTTCCTGAGTAGCCGGGACTATAGGCACATGCCATCATGCTT
Celera SNP ID:            hCV408086
SNP Position Genomic:     46492
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|T,9)   total(C,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5569):
CTAAATGACTAGTTAATGGGTGCAGCACACCAACATGGCACAGGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAAAACTTAAAGTAT
A
ATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAAAATAAAATAAAATAAAATAAAAATAAATAAATAAAACACAAGTTTTAACCAAGC
Celera SNP ID:            hCV26885237
SNP Position Genomic:     26599
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5570):
TGAAGTGGGTAGACTTTTAATTGTATTTTAAGAAATCTAATCAATGAAAAGAAAACCAGAGAGGCAGGGAGATGTTTTTTACTGTGGACTCAGGGGAACA
Y
ATTACATCTCCCCTATGTTATGTGGTGTGGAAGGGGTGACATGGGGGTGGCTTTACCCTCGTCCAAGGGCTGGAGGACTCGCAAGAGGCCCTGAGATACT
Celera SNP ID:            hCV408087
SNP Position Genomic:     45420
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5571):
AATGACTAGTTAATGGGTGCAGCACACCAACATGGCACAGGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAAAACTTAAAGTATAAT
A
AATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAAAATAAAATAAAATAAAATAAAAATAAATAAATAAAACACAAGTTTTAACCAAGCATG
Celera SNP ID:            hCV26885238
SNP Position Genomic:     26602
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5572):
CCTCCTGGAGACCAAGATGTGTGTGTTCTAGTCTGTGCTCTTCTAGTCCACAAGGACCTGGCATGGGAGTGAGGTGGGTGCTTGGTATAAAGTTCTGTTC
S
ATGTCATCTTCCTCTGTGCTACTGTCAACTGAAATAACAAACACAGAGACACTCTCTAAAAGAAAAGCTATTTATTTAGGGATAAAGCACTGCAATGGGA
Celera SNP ID:            hCV408088
SNP Position Genomic:     44831
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,9)   total(G,9|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5573):
ATGACTAGTTAATGGGTGCAGCACACCAACATGGCACAGGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAAAACTTAAAGTATAATA
A
ATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAAAATAAAATAAAATAAAATAAAAATAAATAAATAAAACACAAGTTTTAACCAAGCATGG
Celera SNP ID:            hCV26885239
SNP Position Genomic:     26603
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5574):
AGAACTTCTACTAGGGCTATGCAGATGGGGAAATGTGAGGTTCAAGGTCTCGCACAGAGTCCCCACTGGGGTACTGCCTAGTGGAACTGTGGGAAGGCGG
Y
CATCATCCTCCAGACCCAAGAATGGTGGATCCACTGGCAGCTTGCACCTTGAGCCTGGAAAAGCCACAGGTACTCAACAACCCATGACAGCAGCCAAAGT
Celera SNP ID:            hCV408089
SNP Position Genomic:     43413
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,6)   total(C,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5575):
TGGGAAGAGGTGGGAAAAATCCTTCACTCCTCTGCAGGCCCCGGCCCAGTTAACTCACCACCCCTGCAGGGTGAGCCAGAACGTGCCTCGCTGCCACAGG
W
TTGGCTGTTACCTCTCCCGAGACCGGCCCGGCTTCCTCCCTCCCTCCCTCCCTCCCTCCCTTTGTTTAGGTCTGTGCTCCTCTGCTTCCCCCAGAGACGC
Celera SNP ID:            hCV11677401
SNP Position Genomic:     12394
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,7)   total(A,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5576):
ACTTCCCTCATGCTTTTCCCTTCTAGGTAAGCTTCCGAGGCCAGAGAATCGAGCTCATCCGAATCCGGAACCCTTGGGGCCAGGTTGAGTGGAACGGGTC
R
TGGAGCGACAGGTCAGTCACCCTATCCTGCCTCTCTGGCTGGTTCCCGGGGCGTGTGGGGCCAGAGCTGGCTTGTGCAGACATGTGAAGGAGTGGCCTGT
Celera SNP ID:            hCV25632390
SNP Position Genomic:     30672
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:5577):
ACACCACTCCCAGGCATCTAACCCAGGCCCACCGCCTAGCTGCCCCTTCCACACATGCGTCCGCAGAACCCCCTGTGACTGGCACGTGTGCACACCAATT
M
CCAGAAACACTGACCCACAGAGGAGTCGGTCACACATCCAGACACCTCCCCAATTTATACCCGATGGCTAATTTGTGTTTACTTGGAGAGTTTCTGAGTT
Celera SNP ID:            hCV219869
SNP Position Genomic:     10913
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:5578):
AACCCAGCTCTCTCCTGTCCTCTACAGCAAGCCCGCCAGTTCCTCTTCTCCCTTACTCTCTCGACTCCACTCAGCTATGAGTGTGCCCCACCACCCCACT
M
ACCCTGATCTTGCCAGGGACGCCACCGACTCTCACTTTGCTCGATCAGATTATCTTGATCCATCAGGAGCCCTTGACGTGCTGGATTGCGGGGGACCACA
Celera SNP ID:            hCV9070330
SNP Position Genomic:     36271
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|C,6)   total(A,5|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5579):
TGTGACCGGGCCAGGCATGTAGCTGGGTCTGATCCAGCAGGGGAGGCTTGACTTAGACGGTGGGTGTGACTCTGCTCTTTCCATGTTTTAGACCAGAAGT
R
CTGCAGAATCTGAGGCCCGGACGCCGTTTGGTCTTATTAAGGGTCATGCCTACAGTGTAACGGGAATTGACCAGGTAGGCGACTTGAACTCCAACTGCAG
Celera SNP ID:            hCV25632397
SNP Position Genomic:     27777
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:5580):
CTCCAGCCTGGGTGACACAGCAAGATTCTGTCTCTAAACCTATATATATTTGGAATCCACTTTGTGGGGGAAGGATTATATAAAGAAAGAAATGGAGAAG
M
TGGGTGGGTAGGGAGTATGTTTAGTCCAAGGCCCCAGCCTGTGGTACATGCATTACTCAGCTCCTTGAAGCCCACAGAGGTCACAGAGCTCACAGCTGGG
Celera SNP ID:            hCV16247850
SNP Position Genomic:     13469
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5581):
GCAGCAGAAGGGGCTGGAGGTTGTGACCGGGCCAGGCATGTAGCTGGGTCTGATCCAGCAGGGGAGGCTTGACTTAGACGGTGGGTGTGACTCTGCTCTT
Y
CCATGTTTTAGACCAGAAGTGCTGCAGAATCTGAGGCCCGGACGCCGTTTGGTCTTATTAAGGGTCATGCCTACAGTGTAACGGGAATTGACCAGGTAGG
Celera SNP ID:            hCV25632398
SNP Position Genomic:     27756
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:5582):
CTGGAATTAGTACCATCACAGTAATTGCTGCATATGAGCAGGAGGTAGAAACCAGAGTTTGAGAGGCTACCTGAGGTCAGGCTAGTGGAAAGAAGGTCTG
R
TGCAGACGGTGGGAGAAGCCGGGCAGAGGAAACTCGGAAATTCACAGCAGGAAGCTCCACAAAGAAGAGCGTCCATGTGAGTGATCCATTGCCCTGCCCC
Celera SNP ID:            hCV27483569
SNP Position Genomic:     35780
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,13|G,1468)   total(G,1468|A,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5583):
GAGACTCAACCAAGAGTCCATGAATTGTGTCCGAAAAGCCAAGAGGAACTTCCCTAGGAAACCCCTCCCTTTCTTGCCCATTGCAGTGCCCTGACAAAGA
Y
GAACACCTGAACAAAGACTTCTTCAGATACCACGCTTCTCGGGCCAGAAGCAAGACGTTCATCAACCTGAGAGAAGTCTCCGACCGGTTCAAGCTGCCCC
Celera SNP ID:            hCV22272716
SNP Position Genomic:     39091
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,3)   caucasian(C,33|T,7)   total(C,68|T,10)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:5584):
GCACCTGGGGCAGCAGAAGGGGCTGGAGGTTGTGACCGGGCCAGGCATGTAGCTGGGTCTGATCCAGCAGGGGAGGCTTGACTTAGACGGTGGGTGTGAC
K
CTGCTCTTTCCATGTTTTAGACCAGAAGTGCTGCAGAATCTGAGGCCCGGACGCCGTTTGGTCTTATTAAGGGTCATGCCTACAGTGTAACGGGAATTGA
Celera SNP ID:            hCV25632399
SNP Position Genomic:     27747
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:5585):
ACTAGTTAATGGGTGCAGCACACCAACATGGCACAGGTATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAAAACTTAAAGTATAATAAAT
A
AATAAATAAATAAATAAATAAATAAATAAATAAATAAAAAATAAAATAAAATAAAATAAAAATAAATAAATAAAACACAAGTTTTAACCAAGCATGGTGG
Celera SNP ID:            hCV26885240
SNP Position Genomic:     26606
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,6)   total(A,6|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5586):
CGCCTGAGAGTCCCCCGCACACTCGCCCCTGCACCACAGATTCACACTCTCACGCTGCATTCACACCAAGGGCAGCAGTCCCACTGGGTCTGGGGACCCC
M
GCTTTGAGGAGTGAAACAGTGGCTTCCTCTTCTGAGCCCTCTCCTCAGCTGCCTGGGAGCTCCCTCAAAGGTGCAGACTCACCTCGGGGCTCGGATACAG
Celera SNP ID:            hCV22272646
SNP Position Genomic:     53606
SNP Source:               Applera
Population(Allele,Count): african american(A,33|C,1)   caucasian(A,29|C,5)   total(A,62|C,6)
SNP Type:                 INTRON


Context             (SEQ ID NO:5587):
AATTTCCTTTCTTTCCCAATTCTCCTTCAGTCCTGTGTTAGTCAGGATTCTTCAGAGAAATAGAATCACTAGGGAACCAAATATATATACATACAATTAA
A
CACACACACACCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTACATCACACAGTTGACCCTTGAGCAAC
Celera SNP ID:            hCV26885241
SNP Position Genomic:     28193
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5588):
ATTTCCTTTCTTTCCCAATTCTCCTTCAGTCCTGTGTTAGTCAGGATTCTTCAGAGAAATAGAATCACTAGGGAACCAAATATATATACATACAATTAAA
C
ACACACACACCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTACATCACACAGTTGACCCTTGAGCAACA
Celera SNP ID:            hCV26885242
SNP Position Genomic:     28194
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5589):
GATGCTTCTTTTTTATTTTTAAAAAGTCGTATATGACATATCGATAAATAATCGTATATGATAAAATGTATATGACATAAATTTTACCATTTTTAAGTGT
K
CAGTTGAGTAGCATTAAGTACATCCATGTTGTTGTGCAGCTATCACCACGATCTATCTCCAGCACTTTTTCATCTTGCAAAACTGAAATTCTGTCCCTAT
Celera SNP ID:            hCV253900
SNP Position Genomic:     21872
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:5590):
TTCCCAATTCTCCTTCAGTCCTGTGTTAGTCAGGATTCTTCAGAGAAATAGAATCACTAGGGAACCAAATATATATACATACAATTAAACACACACACAC
C
TATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTACATCACACAGTTGACCCTTGAGCAACACAGGCTTGAAC
Celera SNP ID:            hCV26885243
SNP Position Genomic:     28205
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|C,6)   total(C,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5591):
TCCCAATTCTCCTTCAGTCCTGTGTTAGTCAGGATTCTTCAGAGAAATAGAATCACTAGGGAACCAAATATATATACATACAATTAAACACACACACACC
T
ATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTACATCACACAGTTGACCCTTGAGCAACACAGGCTTGAACT
Celera SNP ID:            hCV26885244
SNP Position Genomic:     28206
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5592):
CCAATTCTCCTTCAGTCCTGTGTTAGTCAGGATTCTTCAGAGAAATAGAATCACTAGGGAACCAAATATATATACATACAATTAAACACACACACACCTA
T
CTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTACATCACACAGTTGACCCTTGAGCAACACAGGCTTGAACTTA
Celera SNP ID:            hCV26885245
SNP Position Genomic:     28208
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5593):
GCATAGAGTCGCAGGGAGCCGGGGGGTAGCGGGCCATAGGGAAATCACAAGCATTGCCAGGTTCCCTGCAGACCTCTGTGGCTTGGGCATCATTTGCAGT
R
GGACTCAGCATTACACGGTGCACGTCTCAGCAGCCCGTGGGACCGTGGGGCTGGACGGCCCTCCTCCTCAGCACCACCTTCTTGTCAAACACAGCTGTGC
Celera SNP ID:            hCV219438
SNP Position Genomic:     9241
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:5594):
AAGGTGATGGGTGGTGTTAAATCATGCACTCTGTGCGTGGAGCCCTTCCTCCTGGAATCCTGACTCTGAAGCCCTGTGTAGCCTCTTTCCATTCTTCACC
R
GCTCTAGGATGTACCTCCTGCAACTCTCTTCTCTCCCCTTACGTATGAATTCCCCCCTTCTTCTGAATCATTCCCCTTAGCACTCCAACACTATCATTTC
Celera SNP ID:            hCV317627
SNP Position Genomic:     36021
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,12)   total(G,1|A,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5595):
GTAGAAATCAAGAAAGTGACTGAGAGCCAAGGCTGGAATAAAATTTGTCTTCCACTCATGCAGCCTCCATGGGTGATGGGAGGGGCAGGCGCCATCCCGA
Y
TCCCTGACTTCGCTGTGCTGCTGGTGACATGTGAGTAGGGTTGAAGGCACCGCATGGCCAGCCTGTCAGGCCAATTATCTGGGTGTGAGCCACTTAGGAT
Celera SNP ID:            hCV78306
SNP Position Genomic:     32163
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,13)   total(C,13|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5596):
AATTCTCCTTCAGTCCTGTGTTAGTCAGGATTCTTCAGAGAAATAGAATCACTAGGGAACCAAATATATATACATACAATTAAACACACACACACCTATC
T
ATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTACATCACACAGTTGACCCTTGAGCAACACAGGCTTGAACTTATA
Celera SNP ID:            hCV26885246
SNP Position Genomic:     28210
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5597):
ATTCTCCTTCAGTCCTGTGTTAGTCAGGATTCTTCAGAGAAATAGAATCACTAGGGAACCAAATATATATACATACAATTAAACACACACACACCTATCT
A
TCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTACATCACACAGTTGACCCTTGAGCAACACAGGCTTGAACTTATAT
Celera SNP ID:            hCV26885247
SNP Position Genomic:     28211
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,6)   total(A,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5598):
CACAGAGGTAGAAATCAAGAAAGTGACTGAGAGCCAAGGCTGGAATAAAATTTGTCTTCCACTCATGCAGCCTCCATGGGTGATGGGAGGGGCAGGCGCC
R
TCCCGACTCCCTGACTTCGCTGTGCTGCTGGTGACATGTGAGTAGGGTTGAAGGCACCGCATGGCCAGCCTGTCAGGCCAATTATCTGGGTGTGAGCCAC
Celera SNP ID:            hCV78307
SNP Position Genomic:     32156
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:5599):
AGAGGAAACTCGGAAATTCACAGCAGGAAGCTCCACAAAGAAGAGCGTCCATGTGAGTGATCCATTGCCCTGCCCCTCTTGAAGGAGCAGCCCCAACACC
W
GGGCTGAGCCTGCCCAAGGTGATGGGTGGTGTTAAATCATGCACTCTGTGCGTGGAGCCCTTCCTCCTGGAATCCTGACTCTGAAGCCCTGTGTAGCCTC
Celera SNP ID:            hCV317628
SNP Position Genomic:     35905
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,13)      total(A,13|T,1) ;JBIC-allele(T,336|A,1139)   total(A,1139|T,336)
SNP Type:                 INTRON


Context             (SEQ ID NO:5600):
TTCTCCTTCAGTCCTGTGTTAGTCAGGATTCTTCAGAGAAATAGAATCACTAGGGAACCAAATATATATACATACAATTAAACACACACACACCTATCTA
T
CTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTACATCACACAGTTGACCCTTGAGCAACACAGGCTTGAACTTATATG
Celera SNP ID:            hCV26885248
SNP Position Genomic:     28212
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,6)   total(T,6|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5601):
CACAGCTACCAGGTCACCAGACATGGTGCAGCCGCTGCTGTATTAGCCAGACCCCAGCGTGAGGGCAGGGCACACAGGCCTGTGCTTTCCAGGCTGTCAT
K
GTCCCCATGGAGGCTCTCGTCCCACCATCCTCTGCTCTGGCCTTGGCTGCCGCCTTCTGAGAACCAAGAAGCATTGGCAGAGATGAGCTGAGATGGGTTG
Celera SNP ID:            hCV78308
SNP Position Genomic:     31785
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,7|G,8)      total(G,8|T,7) ;JBIC-allele(G,227|T,1242)   total(G,227|T,1242)
SNP Type:                 INTRON


Context             (SEQ ID NO:5602):
GAAGTTCAGTAGGTCAGTCAATAAATCTTGAAAATGCAAGATAATTTAAAGCAAATGGAGCCACCACGGAGATACCATTATCTGTAATTAAGCTGAGTCT
Y
GGTTGGGGCTGCAGGGAGATTTCTAACCACCCTCCCAAGTACTGCCGAACCACTTGGGTGGCAGCTATGAAATGTCTGCTCGCCCAGCCCGTGCTGACAC
Celera SNP ID:            hCV9614783
SNP Position Genomic:     17670
SNP Source:               dbSNP
Population(Allele,Count): SC_12_AA(T,3|C,18)   total(C,18|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5603):
CCCTGACTCTCTCCTCTCTCTCTTGCCACCCTTGCAGGCTAAATGGGAGCTATGAAGCTCTGAAGGGAGGCAGCGCCATCGAGGCCATGGAAGACTTCAC
Y
GGGGGTGTGGCAGAGACCTTCCAAACTAAAGAGGCCCCCGAGAACTTCTATGAGATTCTAGAGAAGGCTTTGAAGAGAGGCTCCCTGCTGGGCTGCTTCA
Celera SNP ID:            hCV22272864
SNP Position Genomic:     26192
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,29)   caucasian(C,14|T,26)   total(C,21|T,55)
SNP Type:                 SILENT MUTATION

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


Context             (SEQ ID NO:5604):
CAATGGTAAAAGTCCCAGTCTGAGGGCAGGAGAGACGGATGTCCCAGCTCAGGCACCCAGGAAGAGAGAGTGAATTCCCCCTTCCTCTGCCTTTTTGTTC
W
GGTCAGGTCTTCACAGATGAGATGAGGCCCACCTACACTGGGGAGGGCAATCTGTTTTACTCAATCAACTTAAATTTCATGTCACCCAGAAGCACCCTTG
Celera SNP ID:            hCV26885249
SNP Position Genomic:     28932
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:5605):
GTGTGTCCCCACAGCTCCTCCAGCTCTGGTCCCTTGGGAAGTGGACCAGGTGACTAAGAACCAGGGATGTTTGTGTGGGTGCGTGGCAGGGCCTGCCTGA
R
GCTGTTGCTCGTCCGCTGCTTGTTGGGCTCCTGAAGCCCTTTCCTGCCACATCCATGGCCCCTGAGCTTCTGGGGAAATCTGAAGCTAGTCTAGAACTTG
Celera SNP ID:            hCV78309
SNP Position Genomic:     31549
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,5|A,8)      total(G,5|A,8) ;JBIC-allele(G,228|A,1211)   total(G,228|A,1211)
SNP Type:                 INTRON


Context             (SEQ ID NO:5606):
TCTGCCCCTTGGTGAGTGCCCCCCACATCAGGATGCAAGCAAGGCAACAGAAACTGTGTGCCATCTAGTTTCTAAACATAAAAAAGATTTATTGGGGTCA
Y
TTAAAAAGGCCAAAAATGGTTGGCAGAACAGCTCACCAAAAAAAAACTGTATAGATGGTGTTATGGTTAGTTTTATGTGTCAACTTGATTGGGCCAAGGG
Celera SNP ID:            hCV27495007
SNP Position Genomic:     22619
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5607):
TCCCAGGCATCTAACCCAGGCCCACCGCCTAGCTGCCCCTTCCACACATGCGTCCGCAGAACCCCCTGTGACTGGCACGTGTGCACACCAATTCCCAGAA
R
CACTGACCCACAGAGGAGTCGGTCACACATCCAGACACCTCCCCAATTTATACCCGATGGCTAATTTGTGTTTACTTGGAGAGTTTCTGAGTTTTTTCCT
Celera SNP ID:            hCV219870
SNP Position Genomic:     10920
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:5608):
TCCAGACACCTCCCCAATTTATACCCGATGGCTAATTTGTGTTTACTTGGAGAGTTTCTGAGTTTTTTCCTTTTGTATTTTTCTCCTCATTGGGTGCGAT
Y
TGGTTTAAAACAAAAACAAAAACAGACCTCTCCTGAACAAAACAACCAATTGCAAGATAGGAGCTGGGAGGCGGTGGCAGCTGCAGGCACAGTTGGTACG
Celera SNP ID:            hCV219871
SNP Position Genomic:     11050
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:5609):
AATCACTGATGCAGCAAGATGCTCAGGATGACACAGCAAAGCTGTAAATAAATGGCTCCCAAAACCACTGTGCCTACCCTCCTCTTTCAACCCTTTTCTT
Y
TTACTCTTAGAGGTTACCTTAGGATCGCTCTCAGGCCAACTGAACCAGAAGGAACGGGTAGGAGGTGGGTCACTGCAGGATACACAGAGAAACTACCATG
Celera SNP ID:            hCV11677418
SNP Position Genomic:     20305
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|T,9)      total(C,1|T,9) ;JBIC-allele(T,632|C,849)   total(C,849|T,632)
SNP Type:                 INTRON


Context             (SEQ ID NO:5610):
CTGCCAGTTTGCTCACTCTCCCTTGCTCATGTTGTCCCGTGGTTCCCATGACACTCCCCCAGACTCCAATAAGTACAAAACTGGCCAGTTACCGGGGCCA
Y
TGTAGCAATGACGGGGGTGGGAGACCATGGGTCTGAGTGTCAGAGGTATGGGAGAAGGATTCCAGGGGGTTTCAATCACCCTCTCCCCAGAGGATCCCAG
Celera SNP ID:            hCV27483570
SNP Position Genomic:     57242
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,311|T,1184)   total(C,311|T,1184) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5611):
GGGACAAAGGGCACTGTTTCCAAGTCCAGTGGGTGGGACCCAAGCCCACCTCTGCCCCTTGGTGAGTGCCCCCCACATCAGGATGCAAGCAAGGCAACAG
M
AACTGTGTGCCATCTAGTTTCTAAACATAAAAAAGATTTATTGGGGTCACTTAAAAAGGCCAAAAATGGTTGGCAGAACAGCTCACCAAAAAAAAACTGT
Celera SNP ID:            hCV27517060
SNP Position Genomic:     22569
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5612):
TCCTCCCTGTTCTACAGTGAGAGGCCGCAGATCCCCTTTGTGTGGAAACGACCAGGGGTGAGTGGGGCGAGCAGGGGAAGGAGCATAGATGAGGCCGAGG
Y
TCAGCAGCCCCCGCAGGAAGTGGAAACAGGGGTGCTGGGGAGGGGCCGGCTACGCTCAGTGCAACTGAGGTGCATCATCCCAGTCTACCGTGGAAAGCTT
Celera SNP ID:            hCV22272509
SNP Position Genomic:     6369
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,21)   caucasian(C,28|T,12)   total(C,45|T,33)
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:5613):
ACTGATCCTGGGGGACACCCAGACTCCACACAGCACCACCCTGACTTCAAGGGAGCTGTTGGTTAGGAGGAGAGATCCTTGAGGGGCACAAGGGGAAGAG
W
AAGAAAGAATTGAATGAAAGAGGAGGACAAGAAGCCAAAGGTATCACTCTGCCAGACTCAAGCTCAGCAAAGCCCAGCAGCCTGCCTTGCCCACTCCATG
Celera SNP ID:            hCV27517061
SNP Position Genomic:     29249
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,125|A,1356)   total(A,1356|T,125) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5614):
AGTACTTAGAAGGTGCAGATGCACCTGGTCTTCTGTAGCCACCCACCTTTTGAGTGACATCCTCTGAATGCGTGGGGAGTAAAGAACACTGAAGGGAGAC
Y
CTGCCCTTCCTCCTCACTGGAGCCAAGGTGTGAGACGCCGTTGGACTCTTTGGGATTCTTTAGAATGTTAGCTATTTGTGTTGGCTCCTTTGTCCTCCTT
Celera SNP ID:            hCV27517062
SNP Position Genomic:     29474
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,27|C,1270)   total(C,1270|T,27) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5615):
GGATCTTCAAGCCATGAGAATACTATCCCCAGAGACAGAAGCAAGGATGGTCTTGCTTCTACCTCCAAGTGGGACATAAAAGTGGCAAAATAGAGGGGAG
K
CATACTGTGGTTAAATTAATCCTGAAATCAGCAGGACAGAATTAAAGCCATCAAATAAGAACCAAAGATGCCCACGCTTGCCCTCTGTCCCACCCAGGTC
Celera SNP ID:            hCV27487139
SNP Position Genomic:     22331
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,254|G,821)   total(G,821|T,254) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5616):
GCAACCTCTGCCTCCCAGGTTCAAGTGATACTCCTGCCTCAGCCTCCCAAGCAGCTGAGAGTACAGGCATGCGCCACCACGCCCGACTCATTTTGTATCT
K
TAGTAGAGATGGGGTTTCACCGTGTTGGCCAGGCTAGTCTCGAACCCCTGACCTCAGAGAAACCACCCACCTTGGCCTCCCAAAGTGCTGGAATTACAGG
Celera SNP ID:            hCV27517063
SNP Position Genomic:     33502
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5617):
CAGATAAACTTTGAATTTTGAAGTACAGGGGACTTTGAGTTAGGGGGTTACAAGAGAGGAGCAAAAACTGCAGGAAGAAAGCTGAGTTCTGGAATTAGTA
M
CATCACAGTAATTGCTGCATATGAGCAGGAGGTAGAAACCAGAGTTTGAGAGGCTACCTGAGGTCAGGCTAGTGGAAAGAAGGTCTGGTGCAGACGGTGG
Celera SNP ID:            hCV27517064
SNP Position Genomic:     35692
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5618):
TGACAGTCCAGGGAGGATGTTCATATTCTGTGGGTGGCTCTGTTCATACAGTGATTCAGGAACCCAAACGCCTTCTATTGTGTGGCTCTGCCATCTTCTA
R
GGTCACGTCATCATCTGCACATAGCCAGCAGAAGAGAAGAATAAAATAAAACATTGAAAAAGACACTCTCACTTTCTAAAAATCTTGACTCAGAAGTAAA
Celera SNP ID:            hCV317630
SNP Position Genomic:     35317
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5619):
GTCATGTTTCTTTTTTGTGGATCATTTTGTGCAAGTTTCTTTGGCTGTTTTTTAGCCTCCAAAGCCAACTCCACCTGACCAGGAGACAGAGGAGGAGCAG
Y
GGTTTCGGGCTCTGTTTGAACAAGTCGCTGGTGAGGTAGGACATGCCCCACTTCCATCTCCCCACCAGGCTGAGGGCCTGGACCTGCTTCCTAGCAAAGG
Celera SNP ID:            hCV22272299
SNP Position Genomic:     46143
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,6)   caucasian(C,31|T,7)   total(C,59|T,13)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,5)   total(C,5|T,3) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5620):
ATGTGTTACCTCCCATGGTGATGTTTATAACCCAGTGATATGGTGAAAAGCTTTATCTGTAGTTGTGAGTAACTCCAGTAAGCAGTGTGCATATGCATAA
R
TGCGTGTGTGTTTGTGTGTGTGTGTGTATTTGGAGTGTCGGAATCCCTGAAATATTACCTAGCATGTAACTATAGGATTCTCTCTGATGGTCACTGACCA
Celera SNP ID:            hCV78310
SNP Position Genomic:     31039
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,10)   total(G,10|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5621):
TGCTTATTTTCTTATCATTCATCTGTGCATGGGATGCTAGGATGAAGAAAGTTCAGTAATAGTTCCATGAGCACCTTTGAGGACTACTCTTTACCATTCA
Y
TCTGCTAGATGCTGAAGATGCCTAAGACTTGGCTCCTGCCTCTAGGGAGATCCAAGTCTAGAGAGAAACCCATTTTTAGATTCATATGGACTAATTTCTT
Celera SNP ID:            hCV78311
SNP Position Genomic:     30214
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:5622):
TTTGAGACGGAGTTTTGTTCTTATTGCCCAGGCTGGAGTGCAGTGGTGCGATCTCGTCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATACTCCTGC
Y
TCAGCCTCCCAAGCAGCTGAGAGTACAGGCATGCGCCACCACGCCCGACTCATTTTGTATCTTTAGTAGAGATGGGGTTTCACCGTGTTGGCCAGGCTAG
Celera SNP ID:            hCV26885251
SNP Position Genomic:     33439
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:5623):
CAGGCAGAGCCTGAGGGCACACAGGCTCAAGGGTGATTGAGGTGAACAGCAGGAATCCTCACAGACACCTGAAATAAGGAGAATATTGGGTCTAGAAGAC
R
TAAAAGCTGTTTTTGTTTATTGTTGTGTTTAAATCCCCAACATGTGCTTATTTTCTTATCATTCATCTGTGCATGGGATGCTAGGATGAAGAAAGTTCAG
Celera SNP ID:            hCV78312
SNP Position Genomic:     30069
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,14)   total(G,14|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5624):
TAAGCACAGAGACACCCATCCCTCCCCAACCCCACCAGTGGAATCAGGAATTTACATCTGTGATGAGAGGCAGGAGTTAGGGATGCAGCTTCAAAAGGTG
R
TCTTTAGGCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGAGGATCACCTGAAGTCAGGAGTTTGAGACCAGCCTGGC
Celera SNP ID:            hCV26885252
SNP Position Genomic:     41304
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5625):
CCGAAGAGTTGATGTTACTTGAATTTTTACACATCCAAAATATAATTTATGCCAAATGCATGAGGATAAAACATTCTGACTGCTACAGTTTCTGGTTAGT
Y
GATAACTAGAAGTCTTTTACTTTCACTCTCTCTCCTCTAAAACCCTTCTCAAATGCATTGGCCCTTGTCCCTGCTCCCAGGCAGAGCCTGAGGGCACACA
Celera SNP ID:            hCV78313
SNP Position Genomic:     29891
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:5626):
GAGAATCACTTAAAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGCCTGTGCCACAGAGTGAGACTCCGTCTAAAAAAAA
W
GGTGGTTTTTTTGGTTCTGATTCAACTTTGTAATCTTTTAAAATGCACCCCCTCCCCAGTGCCTACCACTCAATAGGCTGAATGGTCTCCAACAGATATG
Celera SNP ID:            hCV26885253
SNP Position Genomic:     41600
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,5)   total(A,2|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5627):
ATTTTGCTTCCTCTCCCCCCTACAAGGAACTCACCTGCCCTGAACCTTTCAAATTAAATGAGCCCCTTTAATGGTGAGCCACAAGCCACATCTTGGACTC
Y
GAAGAGTTGATGTTACTTGAATTTTTACACATCCAAAATATAATTTATGCCAAATGCATGAGGATAAAACATTCTGACTGCTACAGTTTCTGGTTAGTCG
Celera SNP ID:            hCV78314
SNP Position Genomic:     29792
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:5628):
TCCTAGGTCTCCCTAGAAGTCAAGGAGTTAAGTTAACTTCTAGGGAATACACCATGCTTCTTTGTAAAGCCAATTGAACCTCTTTTCTTTGTAAATTAGT
S
TTAGGTATTTCTTTATAGCAGTACAAGAACAGCCTAATACAGAAAATTGGTACAGAAGAGTGGGGCATTGTTATAAAGATAACTGAAAATGTGGAAGTGA
Celera SNP ID:            hCV26885254
SNP Position Genomic:     42247
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|C,6)   total(G,5|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5629):
CGTTGGACTCTTTGGGATTCTTTAGAATGTTAGCTATTTGTGTTGGCTCCTTTGTCCTCCTTCACCATCCATAGATGACTTGCAGATTGCTCACTCAAGC
R
GGCATGTGATGTTTCTAGGTTAGATCTTCTACGTATTCCACGTAACAACAGAAACCTCTCATCATCTTGGTTTGCTTGATTTTGCTTCCTCTCCCCCCTA
Celera SNP ID:            hCV78315
SNP Position Genomic:     29613
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;JBIC-allele(G,575|A,914)   total(G,575|A,914)   (A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5630):
TAGGGTATCTGGAAGAAGAAATGTCTAAGCAGCAAAGCATTCAGGATGTGACCTGGCTGCTTCTAACAACCTATACTCAGATATGGGAGCAAAGATATGA
S
TTAAAGCTGGAATATATACATTTAAAAGGGAAGCAGGGCATAAAAATTTGGAAAATTTGCAGCCTGGCTATATAGCAGAGAAAGAAAAAGCTTTTTCGAG
Celera SNP ID:            hCV26885255
SNP Position Genomic:     42737
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|G,9)   total(G,9|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5631):
CCTATGATTTTCTTGATAACATTTCTTTTCTCTGGCTTATTTATTGTAAGAATACAGTATATAATATAAATAATTATAAAACATGTTAATTGGTTCTTTA
Y
GTTATCGATAAGACTTCTGGTCAATGGTAGGCTATTCGGAGTTCAGCTTTAGGGAATACAAGATTTTTTGACAATGCAGGAGGGTTGGCACCCCAACCCC
Celera SNP ID:            hCV78316
SNP Position Genomic:     28561
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:5632):
AAGCCTGCAGGCACACAGAGTGCAAGACTGAATGAGGCTTGGCAGCCTCCACCTAGATTTCAGAGGATGTATGGAAAAGCCTGCATGCCTAGGCAAAAGC
Y
TGCTGCAGGGACAGAGCCCTCACAGAGAACTTCTACTAGGGCTATGCAGATGGGGAAATGTGAGGTTCAAGGTCTCGCACAGAGTCCCCACTGGGGTACT
Celera SNP ID:            hCV26885256
SNP Position Genomic:     43287
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5633):
GATAACTTGCTTCCCGTCTTCCTTCCACACCACCCAGCCAGGGCAAGCCCTGGGAGATGCTTCAGGCTTAGTTAGAAAAGCTCTGAAAGCAGGGTGCCCC
R
GTGGCCTCCCTAGGTCCCTGACTCTCTCCTCTCTCTCTTGCCACCCTTGCAGGCTAAATGGGAGCTATGAAGCTCTGAAGGGAGGCAGCGCCATCGAGGC
Celera SNP ID:            hCV22272871
SNP Position Genomic:     26076
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,18)   caucasian(A,17|G,19)   total(A,27|G,37)
SNP Type:                 INTRON


Context             (SEQ ID NO:5634):
GGTACTGCCTAGTGGAACTGTGGGAAGGCGGCCATCATCCTCCAGACCCAAGAATGGTGGATCCACTGGCAGCTTGCACCTTGAGCCTGGAAAAGCCACA
G
GTACTCAACAACCCATGACAGCAGCCAAAGTCACAGGGACAGAGCTTCCCAAGGCCTTGGGATCCCACCCTTTGTACCAGTGTTCCCTGGATGTAGGACA
Celera SNP ID:            hCV26885257
SNP Position Genomic:     43482
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,7)   total(G,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5635):
ACTCCCATTGTATTTTGGAAGTATAAAATGGAATTTGTATATCTTGGAACTTGATTTTGATTTGACAGGCTCATAGGTGATGGGACTTGCCTTATCTCAG
R
TGAGACTTTGGACTTTGGAATTTTGAGTTAATGCTGGAATGACTTAAGACTTTGGGGGTTATTGGGAAGGCATAATTATATTTTGCAGTGTGAGAAGGAC
Celera SNP ID:            hCV26885258
SNP Position Genomic:     43811
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,8)   total(G,8|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5636):
TAATGTTAGAATGTTTCATCACTCCAACAAGAAACCCTTTACCCATTAACAGTGTTAACCCTGTACCCATTTCCCCCAGCCCCAGGCAACCACTCATCTA
Y
TTTCTCTATAGATTCTATTTACATATTCTGAATATTTTATATAAAAGGAATCATAGGCCGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAG
Celera SNP ID:            hCV26885259
SNP Position Genomic:     49179
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:5637):
ACTTGCTTCATGTCACTGCTAAACATCCTAGGGGAGCCCCGTGCATAGCCCACGCACATGGCCTGCACCTGGGGCAGCAGAAGGGGCTGGAGGTTGTGAC
Y
GGGCCAGGCATGTAGCTGGGTCTGATCCAGCAGGGGAGGCTTGACTTAGACGGTGGGTGTGACTCTGCTCTTTCCATGTTTTAGACCAGAAGTGCTGCAG
Celera SNP ID:            hCV25632406
SNP Position Genomic:     27683
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:5638):
CTTCTATGAGATTCTAGAGAAGGCTTTGAAGAGAGGCTCCCTGCTGGGCTGCTTCATTGATGTAAGTTGCTCATGGGCTCCCATTCCAGGCACTATGCTG
R
GGCTGCATAGTGCATTCCAGGCACTATGCTGGGGCTGTACCAGGTACCCCAGCCACACCCAAGGAGGGGCATAACTCTTGGGGGCAGTGTTTATTCCTGC
Celera SNP ID:            hCV25632407
SNP Position Genomic:     26337
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:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5639):
GGGGGTGTGGCAGAGACCTTCCAAACTAAAGAGGCCCCCGAGAACTTCTATGAGATTCTAGAGAAGGCTTTGAAGAGAGGCTCCCTGCTGGGCTGCTTCA
Y
TGATGTAAGTTGCTCATGGGCTCCCATTCCAGGCACTATGCTGGGGCTGCATAGTGCATTCCAGGCACTATGCTGGGGCTGTACCAGGTACCCCAGCCAC
Celera SNP ID:            hCV25632408
SNP Position Genomic:     26293
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:5640):
CATGCATACATGTGCTCAAACACACACGTGTGTAGAAGCACTTGCAAACACATGCATGCACACATACATGCACACACATGCACACATGTGAGCAAACACA
Y
GCTTTCACACATGCAATGTATAAATAAACCACAAACAGTGCACATACCTGTCATGCCTGCCTGTATGCACATGTATACACATGTGTGCGCACATGCATTC
Celera SNP ID:            hCV11677422
SNP Position Genomic:     20566
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,15)   total(C,1|T,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5641):
CCTGCCCCCTGCATCGCCTGCGGCTTTGATGGGTTGACCCTGAGTCTTTCAGCTGATGTCAATGGTTAGTGCTGGGTGGAATACTCAGCTTGTAACTTGG
W
GGACAAAGCCCAGGTGCCCTACCTTGGAACCCGTGTGTGATTTTCAAAGCTGTCTATGGGTAGCTTGGTCAGAGGGGAAAAAAGCAACAGGATCAACATT
Celera SNP ID:            hCV15877971
SNP Position Genomic:     21073
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(A,330|T,1145)   total(A,330|T,1145)no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5642):
TGGAGCAGGGCTTGGCCTCTGGGGGACCCAGTGAACCTAGAGCAGAGGGGATTTAAAATGGTGCAGCAGGCTGCAGGCTATAGGCTAGAGGAATTGTATT
Y
GGACAGGGGAGAAGGGAAAACAGCATCATGCTATTCCGATGCTTACGGGAGTACCACCGTGCTTCCACCCAAGACGAAAAGGAAGACAAAAGGGAGACCG
Celera SNP ID:            hCV15877972
SNP Position Genomic:     51181
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

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,271|C,1230)   total(C,1230|T,271)no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5643):
TTCCCAGCCAGCAATTCCTCCCTGTTCTACAGTGAGAGGCCGCAGATCCCCTTTGTGTGGAAACGACCAGGGGTGAGTGGGGCGAGCAGGGGAAGGAGCA
Y
AGATGAGGCCGAGGTTCAGCAGCCCCCGCAGGAAGTGGAAACAGGGGTGCTGGGGAGGGGCCGGCTACGCTCAGTGCAACTGAGGTGCATCATCCCAGTC
Celera SNP ID:            hCV22272511
SNP Position Genomic:     6354
SNP Source:               Applera
Population(Allele,Count): african american(C,17|T,21)   caucasian(C,28|T,12)   total(C,45|T,33)
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:5644):
ACTCTGCCGACCACAACGAGTTCTGGAGCGCCTTGCTGGAAAAAGCCTACGCCAAGTGAGTGACAGCTTCCCCAGCTCAGGCAGCCTCCCGACAGGAGTC
T
CTACACTAGTCTTTGTAGTGAGCATCTAAGGGCTGGGAAAAAATCAGGGCTCTGGGTTTGCAGGTGAGGCTCGGCAGGACCCAACCCTCTCAGGGCTCAA
Celera SNP ID:            hCV11677425
SNP Position Genomic:     21420
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,8)   total(-,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5645):
CATCCCCTTCTGACACAGAGTTTTCCTATTTGCTGTGAAATAGCAATGAAAATTGTGATTTATGGCTTCCATTTTGCAGGAGACTGCTGGCTATTAGCCG
Y
CATCGCCTCCCTTACGCTTAATCAAAAAGCACTGGCCAGAGTCATCCCCCAGGACCAAAGCTTTGGCCCTGGTTATGCCGGGATATTCCATTTCCAGGTA
Celera SNP ID:            hCV1985422
SNP Position Genomic:     18121
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,11)   total(C,11|T,1) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5646):
TGCAGGTGAGGCTCGGCAGGACCCAACCCTCTCAGGGCTCAAGCGGGGTTGGAGGTGGTTTTCCTGTCGTAGCCTAGATGTGCCCATCTTTGGGAGCAGT
S
GCTACATTCATGACCCTTTTTCTCCCTGGGCCATGAATCTGGCCTTTGGAAGAGCTGGGAAGGCAAGCGGAGGGGAATTCTGGCTGTGCCGACAGCACTT
Celera SNP ID:            hCV11677426
SNP Position Genomic:     21579
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,1|G,9)      total(G,9|C,1) ;JBIC-allele(C,339|G,1154)   total(G,1154|C,339)
SNP Type:                 INTRON


Context             (SEQ ID NO:5647):
ACCCACCTTTTGAGTGACATCCTCTGAATGCGTGGGGAGTAAAGAACACTGAAGGGAGACCCTGCCCTTCCTCCTCACTGGAGCCAAGGTGTGAGACGCC
R
TTGGACTCTTTGGGATTCTTTAGAATGTTAGCTATTTGTGTTGGCTCCTTTGTCCTCCTTCACCATCCATAGATGACTTGCAGATTGCTCACTCAAGCAG
Celera SNP ID:            hCV27487140
SNP Position Genomic:     29514
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5648):
CGAACCACTTGGGTGGCAGCTATGAAATGTCTGCTCGCCCAGCCCGTGCTGACACTGATGTATGCAGTCTTGGTCCTCTGGAAAGGGAGTTGCTGGAATT
Y
ACAGAGCTGATGCATCAGGCAGCCATATGTCTGAAACCCAAGTAAGCATGTCCTATAACAGTGCCAAGAAGGCAACAGCTGTTTATGATAGACGGGCAGA
Celera SNP ID:            hCV1985423
SNP Position Genomic:     17816
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,13)   total(C,13|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5649):
AGGCAAGCGGAGGGGAATTCTGGCTGTGCCGACAGCACTTAGTGCTTCACACTTCCCTCGGACACTGGCATGGCTCAAACATCTGGGCTATTACGCACGT
K
GATATAGAGACATCAATTGTCCGTCCTACGGGATGCTTCTTTTTTATTTTTAAAAAGTCGTATATGACATATCGATAAATAATCGTATATGATAAAATGT
Celera SNP ID:            hCV11677427
SNP Position Genomic:     21740
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,9)   total(G,2|T,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5650):
GATGTGCAGTGCCCCTCAACTTTGAGATCGTAGCCTATAAAGGGAAAATGGGCCATTGTCTCCCATTTTCTGGGACTCACAGAGGTAGAAATCAAGAAAG
K
GACTGAGAGCCAAGGCTGGAATAAAATTTGTCTTCCACTCATGCAGCCTCCATGGGTGATGGGAGGGGCAGGCGCCATCCCGACTCCCTGACTTCGCTGT
Celera SNP ID:            hCV27487141
SNP Position Genomic:     32079
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,126|T,1375)   total(G,126|T,1375) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5651):
GCTGAGTCTGGGTTGGGGCTGCAGGGAGATTTCTAACCACCCTCCCAAGTACTGCCGAACCACTTGGGTGGCAGCTATGAAATGTCTGCTCGCCCAGCCC
R
TGCTGACACTGATGTATGCAGTCTTGGTCCTCTGGAAAGGGAGTTGCTGGAATTCACAGAGCTGATGCATCAGGCAGCCATATGTCTGAAACCCAAGTAA
Celera SNP ID:            hCV1985424
SNP Position Genomic:     17761
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,11)      total(G,11|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5652):
CTCCAATAAGTACAAAACTGGCCAGTTACCGGGGCCACTGTAGCAATGACGGGGGTGGGAGACCATGGGTCTGAGTGTCAGAGGTATGGGAGAAGGATTC
Y
AGGGGGTTTCAATCACCCTCTCCCCAGAGGATCCCAGTGGACCCATCTGCTCACAGGGAGGTCCATGGGCCAGCAGCAGCATAGGCATCACTTAGGAGAG
Celera SNP ID:            hCV27487142
SNP Position Genomic:     57305
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5653):
CCAGAAAGGGCCATATTACAATGTCCCAAGCCCAGTGACATACGGTGCTTTCCAGAAATGTGAACTCAGAAACTGCCAAGCTGAGTGTGATGGGCTTTTA
K
GTTCTGATGACGTTGATGTTGTCTACTGAAAACAAGTGAATCTGGATAAAGGTGATTCGGATAAATGGATCCTCCCAGATATCTGCTTACACAGGCGGCA
Celera SNP ID:            hCV1985425
SNP Position Genomic:     17300
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:5654):
TCGGACACTGGCATGGCTCAAACATCTGGGCTATTACGCACGTTGATATAGAGACATCAATTGTCCGTCCTACGGGATGCTTCTTTTTTATTTTTAAAAA
R
TCGTATATGACATATCGATAAATAATCGTATATGATAAAATGTATATGACATAAATTTTACCATTTTTAAGTGTGCAGTTGAGTAGCATTAAGTACATCC
Celera SNP ID:            hCV11677429
SNP Position Genomic:     21797
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5655):
ACAGCCAGAAAGGGCCATATTACAATGTCCCAAGCCCAGTGACATACGGTGCTTTCCAGAAATGTGAACTCAGAAACTGCCAAGCTGAGTGTGATGGGCT
Y
TTAGGTTCTGATGACGTTGATGTTGTCTACTGAAAACAAGTGAATCTGGATAAAGGTGATTCGGATAAATGGATCCTCCCAGATATCTGCTTACACAGGC
Celera SNP ID:            hCV1985426
SNP Position Genomic:     17296
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:5656):
CTGTTTGAGGATGCAGACTTCCCAGCCAGCAATTCCTCCCTGTTCTACAGTGAGAGGCCGCAGATCCCCTTTGTGTGGAAACGACCAGGGGTGAGTGGGG
Y
GAGCAGGGGAAGGAGCATAGATGAGGCCGAGGTTCAGCAGCCCCCGCAGGAAGTGGAAACAGGGGTGCTGGGGAGGGGCCGGCTACGCTCAGTGCAACTG
Celera SNP ID:            hCV22272517
SNP Position Genomic:     6336
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,14)   caucasian(C,18|T,20)   total(C,42|T,34)
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:5657):
GTGACACCTCTCAGAAAGCCAGAACCAGGGCGATTCGGAATTAGCTTTCCCGATGTTCAGCCCTGGCGAGTCTCTCTTGCCTGTGTCAAACAGCCAGAAA
R
GGCCATATTACAATGTCCCAAGCCCAGTGACATACGGTGCTTTCCAGAAATGTGAACTCAGAAACTGCCAAGCTGAGTGTGATGGGCTTTTAGGTTCTGA
Celera SNP ID:            hCV1985427
SNP Position Genomic:     17207
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:5658):
TCTGTGCTCCAGCTAAGGCTGGGGGTGGCTTGTACTCTGCTGGTGACACCTCTCAGAAAGCCAGAACCAGGGCGATTCGGAATTAGCTTTCCCGATGTTC
R
GCCCTGGCGAGTCTCTCTTGCCTGTGTCAAACAGCCAGAAAGGGCCATATTACAATGTCCCAAGCCCAGTGACATACGGTGCTTTCCAGAAATGTGAACT
Celera SNP ID:            hCV1985428
SNP Position Genomic:     17165
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:5659):
AAAGGGAGACCGACTTCTTTTGGAAGGCCCAGTCCAACTGTGGCCTCTGCGGCCCCTAGAGGGTAGCTCCCCCGGGCTGGCTGTCACCCATTTACTGCCA
Y
CAGCGATGCCTTTCAGGCACGCTCCTTCTCAAGGCTTCTGCTCTCCACCCTTTAGAACCTTTTCCTTCGGTTTGATGCTGACAAGTCCGGCACCATGTCT
Celera SNP ID:            hCV25767516
SNP Position Genomic:     51370
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:5660):
ATGTTATAAAGAATAACAAGAAAATGAACAGCCGTGATCTGTTGCCACCCACAATAAGAACTAGAACATCTGGTCATGTAGAGTGCTCACACCTGTAATC
R
CAGCGCTTTGGGAGGGGGAGGTGGGAAGATCTCTTGAGCCCAGGAGTTTTAGACTAGCCTGGGCAACATAGCAAGACCACATCTCTATCAAAAAAAAAAA
Celera SNP ID:            hCV1985429
SNP Position Genomic:     16218
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5661):
GGACACAAGATGAGAGGAGAAGCAGGGTGCTGAGAAGCCTGAGGAAGACAATTCAAAGCAGAGGTCTCTCGGGGAAGGCGGCGCAGCTTGAGCTCCCCAC
R
TGGCGTCCGCCCAGACACTGCTGGAACCTTCCACCTCCAGCCCAGGCCCCTCCTCAGTCCTGGTGCCTGGAAAAGTGGGAAGAGGTGGGAAAAATCCTTC
Celera SNP ID:            hCV11400212
SNP Position Genomic:     12218
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5662):
GGCCCGGCTTCCTCCCTCCCTCCCTCCCTCCCTCCCTTTGTTTAGGTCTGTGCTCCTCTGCTTCCCCCAGAGACGCCTCCCCTGCTGACTGCTGTAGCTA
S
CCTTGCCCCATCCCACCCCTTCCCTCTCCATCCTCGCTCTTTTCTCTCCTGGTTTATGGTTTGTCTCTTCCTCAAATGCAATTTGCAAAACTCTCCTGAA
Celera SNP ID:            hCV11400213
SNP Position Genomic:     12519
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:5663):
ACAACTCACTTACTTTTTGTCAAAGTTAGAATTCTCCAAGATAAAAGCTGGACGCACAAACCAGCATGGAGGGCATCTTTGTCTCCCCCTTCAGAAGTCT
Y
CCCTCCTGGGACCAGGGCCACCAAGGCCTGCCCAGCGACTCTAGAGTCCCAGATCTCTGCTCCAAGGGGCTGTCTTCCTTAGTATTATCTCCTCTGGCAT
Celera SNP ID:            hCV9614651
SNP Position Genomic:     8646
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5664):
ATGGCTTCCATTTTGCAGGAGACTGCTGGCTATTAGCCGCCATCGCCTCCCTTACGCTTAATCAAAAAGCACTGGCCAGAGTCATCCCCCAGGACCAAAG
M
TTTGGCCCTGGTTATGCCGGGATATTCCATTTCCAGGTAAGAGGGAGCCCTGGGCCAGTGGGTTTACCTCTCTGGGGCCCGGCATGAGGGCAGGTGCATT
Celera SNP ID:            hCV22273463
SNP Position Genomic:     18182
SNP Source:               Applera
Population(Allele,Count): african american(A,2|C,26)   caucasian(A,3|C,37)   total(A,5|C,63)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5665):
GCGGACAGGAACAAGATGATTTAATGAATAAGTGAATGATTTAATGAATGAGTGAATGGATGATGCCCTCACTCTTGCCCTCCTGTGCATCGTGTCTCTC
M
GCTTTGCTGCAGGATGGCATTTCAGGACTTCAAGGCCCACTTTGATAAAGTGGAGATCTGCAACCTCACTCCCGATGCCCTGGAGGAAGACGCGATCCAC
Celera SNP ID:            hCV11400217
SNP Position Genomic:     37543
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:               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:5666):
ATAAACAGGCAAGGCAGGGAGATTAGGGGACCACAGGATCGGATGGAGAAAATGGGGGCTCATGTGACTGCTTAAAGCACAGCAGGAAGGTGGCTGAGCG
Y
AGCCCTGGGCGGGACAGAGCATGGTGAGGGGGGAAGGCAGTGGTGACCTCCCTGCTCCAGGTGCTATCTGGAGCATGCTGGGTCAGACCCAGCAAGACAG
Celera SNP ID:            hCV11400218
SNP Position Genomic:     47293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5667):
CATCCTTAGCCAGCAGAATAGTCTTCTTCACAGAAAATAACCCAAAGCTGGGGGACCCCCATGCTGAAATTGGATCAGAATCAAGATGCACAAGACTGCC
Y
AGTGGTGGGGGTGGGGAGCTTTTGAAGGGACTTGGGGGTCTTCTTGCCACTTTGGGATCCCATCCAAGGGAACAGAGTTCTGTTTTTGTGAACTTTCCGG
Celera SNP ID:            hCV11400219
SNP Position Genomic:     50701
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,18)   caucasian(C,24|T,12)   total(C,42|T,30)
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:5668):
CTAGTGGTGGGGGTGGGGAGCTTTTGAAGGGACTTGGGGGTCTTCTTGCCACTTTGGGATCCCATCCAAGGGAACAGAGTTCTGTTTTTGTGAACTTTCC
R
GGACCACCCCCATTCCACTTCTGCCGTTTCCCCTCTTCAGAGATTTGTGGTTTAATCATTAAAACCACTTCCCCAGGGCCCCAAACCTGTGCACCCAGGC
Celera SNP ID:            hCV26885260
SNP Position Genomic:     50800
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,8)   total(G,8|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5669):
ATTCTCCAAGATAAAAGCTGGACGCACAAACCAGCATGGAGGGCATCTTTGTCTCCCCCTTCAGAAGTCTCCCCTCCTGGGACCAGGGCCACCAAGGCCT
S
CCCAGCGACTCTAGAGTCCCAGATCTCTGCTCCAAGGGGCTGTCTTCCTTAGTATTATCTCCTCTGGCATTGCCCCAAACGCTGGGTGAGGCCTTCATCC
Celera SNP ID:            hCV9614658
SNP Position Genomic:     8676
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5670):
TGAGCCAAGATTGTGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCAAAAGAAAGAAGGAAAGAAGGAAAAGAAAGAAAAGAAAGAAAAAT
R
AGAAAGAAAGAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGGAAAAACAAGAGAGA
Celera SNP ID:            hCV26885261
SNP Position Genomic:     58797
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:5671):
TACTGTGTTGCTGTCGTTCCCACAGACTCATTTTCAGAATCTGTTCTGCCTTTTCCTTTGTCTGCAACTGAAGATTGTCCCTTTGGTCTGGTCCTCATTC
Y
CGTACCCCTATCTGTTTCTTATTTAGGGGAGTTAGGAGCTTTACATCATATCTTACAGATTTCTGTAAAATCAGGAACAAAAGGGCTGAGGATGAGCATG
Celera SNP ID:            hCV9614659
SNP Position Genomic:     9025
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5672):
TGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCATCAAAAGAAAGAAGGAAAGAAGGAAAAGAAAGAAAAGAAAGAAAAATAAGAAAGAAAGAA
R
AAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGGAAAAACAAGAGAGACCCCTAGGTCCAC
Celera SNP ID:            hCV26885262
SNP Position Genomic:     58810
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,5)   total(G,5|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5673):
GGAAAAGAAAGAAAAGAAAGAAAAATAAGAAAGAAAGAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAG
W
AAGAAAGAAAGGAAAAACAAGAGAGACCCCTAGGTCCACCTTTATTTATCATTTACTTTAAGGTAAATGATAAGTAATGTCACTAAAAAACATGAGGAAG
Celera SNP ID:            hCV26885263
SNP Position Genomic:     58871
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,6)   total(A,6|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5674):
AAAGAAAGAAAAATAAGAAAGAAAGAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAG
G
AAAAACAAGAGAGACCCCTAGGTCCACCTTTATTTATCATTTACTTTAAGGTAAATGATAAGTAATGTCACTAAAAAACATGAGGAAGTGTGATGGCTGC
Celera SNP ID:            hCV26885264
SNP Position Genomic:     58883
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|G,5)   total(G,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5675):
CACCTTCTAAAAGAGCCTTCATGAGAAAATGTTCCTCACGCTACAGGACGCAGCTTGTGCACACCGCCTCAGGAGGGTGACATGGGGCTGGGCACACAGG
S
TCCTGGCTTCTTTCCTGCTATTTTTGTCATGTTTCTTTTTTGTGGATCATTTTGTGCAAGTTTCTTTGGCTGTTTTTTAGCCTCCAAAGCCAACTCCACC
Celera SNP ID:            hCV22272300
SNP Position Genomic:     46017
SNP Source:               Applera
Population(Allele,Count): african american(C,29|G,9)   caucasian(C,31|G,7)   total(C,60|G,16)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|C,6)   total(G,4|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5676):
TGATAACTTGCTTCCCGTCTTCCTTCCACACCACCCAGCCAGGGCAAGCCCTGGGAGATGCTTCAGGCTTAGTTAGAAAAGCTCTGAAAGCAGGGTGCCC
Y
AGTGGCCTCCCTAGGTCCCTGACTCTCTCCTCTCTCTCTTGCCACCCTTGCAGGCTAAATGGGAGCTATGAAGCTCTGAAGGGAGGCAGCGCCATCGAGG
Celera SNP ID:            hCV25632412
SNP Position Genomic:     26075
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:5677):
GTGATTTTCAAAGCTGTCTATGGGTAGCTTGGTCAGAGGGGAAAAAAGCAACAGGATCAACATTTACAAACAGGGCCTGGAGCTCCCATGTAGCTGACTC
R
CATCATTTCTGTCTTTTTCCTGGGCAACAGTTCTGGCAGCACAGTGAGTGGCTGGACGTGGTGATCGATGACCGCCTGCCCACCTTCAGGGACCGCTTGG
Celera SNP ID:            hCV25632413
SNP Position Genomic:     21210
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:5678):
TGCCGACCACAACGAGTTCTGGAGCGCCTTGCTGGAAAAAGCCTACGCCAAGTGAGTGACAGCTTCCCCAGCTCAGGCAGCCTCCCGACAGGAGTCTCTA
Y
ACTAGTCTTTGTAGTGAGCATCTAAGGGCTGGGAAAAAATCAGGGCTCTGGGTTTGCAGGTGAGGCTCGGCAGGACCCAACCCTCTCAGGGCTCAAGCGG
Celera SNP ID:            hCV25632414
SNP Position Genomic:     21424
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:5679):
GACGTGGTGTGGGGAGAATCGCCCCTCATCCCCCTCCTCTAGCCCCAAACATCAGGATTCTGGCCAAGGCTGGCAGCCAGCACTGCCGTGCAGGCTCCAG
R
GACTCTGTGCTCTGTGTCTGACCTGCCTGCTCCTCTGCTGGAATTAGGAAGAAGCAGAAAGACCCTGGGTGGATTTCTGAACAATCCTGTGAACACCTCC
Celera SNP ID:            hCV27495024
SNP Position Genomic:     52599
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5680):
GCTCCACAGGTCCAGCTAATAAAGTCCTTCTAGTCTCACCTTCTAAAAGAGCCTTCATGAGAAAATGTTCCTCACGCTACAGGACGCAGCTTGTGCACAC
Y
GCCTCAGGAGGGTGACATGGGGCTGGGCACACAGGCTCCTGGCTTCTTTCCTGCTATTTTTGTCATGTTTCTTTTTTGTGGATCATTTTGTGCAAGTTTC
Celera SNP ID:            hCV9072464
SNP Position Genomic:     45981
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,28)   caucasian(C,7|T,31)   total(C,17|T,59)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,6)      total(C,6|T,6) ;JBIC-allele(C,38|T,705)   total(C,38|T,705)
SNP Type:                 INTRON


Context             (SEQ ID NO:5681):
ACACCTGACTAACACTACCTTAGCCAGGTGATCAAGGCCAGCATCAGCTGTGGTAAGGCATGTGGACGGCAGGTACTCTTGATATCATGAGATGAGAGGG
S
AGCTTTACCTCTCCGGTCTTCCTTCCACTAACCAATAGCCCCACTCTTTTTTTTATTATTATTTACTTTTTTTTGGAGACAGGGTCTTGCTCTCTCACCC
Celera SNP ID:            hCV11677432
SNP Position Genomic:     24626
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,11)   total(G,11|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5682):
TCCCCCATGTATGCCATATTCTAGATACAATGTAGACTTTTCAAAAGGTTTACATTCAGGTGGTCCTTCTCCAGGAGATCCTCCCTGCCGCTGCCCACCT
S
TCCCCCTCTTCCTCTGCCTCCCTTCCCCTCGACCCCGTAGTCCTCCATTGCTATCCAATAGGAAATCATTCTACTGGCTCCTTTGTTTTTCAAAGTTTTG
Celera SNP ID:            hCV1985430
SNP Position Genomic:     15891
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,8)   total(G,3|C,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5683):
GGGGCAGCAGAAGGGGCTGGAGGTTGTGACCGGGCCAGGCATGTAGCTGGGTCTGATCCAGCAGGGGAGGCTTGACTTAGACGGTGGGTGTGACTCTGCT
Y
TTTCCATGTTTTAGACCAGAAGTGCTGCAGAATCTGAGGCCCGGACGCCGTTTGGTCTTATTAAGGGTCATGCCTACAGTGTAACGGGAATTGACCAGGT
Celera SNP ID:            hCV11677435
SNP Position Genomic:     27753
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,25|T,15)   total(C,62|T,16)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,10)   total(C,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5684):
CACCTGGCCTGTATCCTTCCCAGCTCTCTATCTGCTCGTACAAACAGGCACACACTTCCACACACAAACATCAAGGTCAGTTGGTTTGATTTTACTGAAA
Y
GGGATCTTCCTATCTAGTTTTCTGAAATTTGTTTTTTTTTTTTCATTTCATGTACTATGAAAAAAATAGCAGATAGAAGTCTAATGATATTTTTTAAAAT
Celera SNP ID:            hCV168552
SNP Position Genomic:     27101
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,10)      total(C,10|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5685):
AACCTGAGTGCACCTCAAGTCACTCAAATTGGGTCCTGCATTTTAGGACTTAATCCAACTGGGCTGGGTTTACCTTTGTTCTATCTATGAAAGACAGAGA
R
AGTGAGAGAGCGAGAGACTTTCTTTTAAAAAATACCAGTGAAATCAGCCTAGAGAACAAACCACTGCAAGCTTGTGTGGACCCTGACTTATTTCTAGCTG
Celera SNP ID:            hCV1985431
SNP Position Genomic:     14655
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:5686):
TGTATCCTTCCCAGCTCTCTATCTGCTCGTACAAACAGGCACACACTTCCACACACAAACATCAAGGTCAGTTGGTTTGATTTTACTGAAACGGGATCTT
Y
CTATCTAGTTTTCTGAAATTTGTTTTTTTTTTTTCATTTCATGTACTATGAAAAAAATAGCAGATAGAAGTCTAATGATATTTTTTAAAATTTTCTCTAT
Celera SNP ID:            hCV168553
SNP Position Genomic:     27110
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,10)      total(C,10|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5687):
AGGACCCAAGAGGCACGGGGCTGGGGGAACAACACTGCTTCGGCCTCTGCTTCCTCACTCCCTCTGAATGGAGTCCAGTGGCCTCAAGCCCCTGCACCTC
Y
GTTCCTCTAGAGTCAGACATGCCTGTGATGTGGGGCTCACAGCCCCGGAGTTTACAGAGGAAAGTGACACCCAGCAGCGTTGGTCGGGCTCTCCTACACC
Celera SNP ID:            hCV1985432
SNP Position Genomic:     14175
SNP Source:               Applera
Population(Allele,Count): african american(C,19|T,17)   caucasian(C,16|T,22)   total(C,35|T,39)
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:5688):
TGCTCGTACAAACAGGCACACACTTCCACACACAAACATCAAGGTCAGTTGGTTTGATTTTACTGAAACGGGATCTTCCTATCTAGTTTTCTGAAATTTG
T
TTTTTTTTTTTCATTTCATGTACTATGAAAAAAATAGCAGATAGAAGTCTAATGATATTTTTTAAAATTTTCTCTATGCATACAAACACACACACTTATA
Celera SNP ID:            hCV168554
SNP Position Genomic:     27133
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,11)   total(-,11|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5689):
ACGTGTGAGACCTGGCAGAGGACAGGCCAGCATTTGGGAGGTCCTTACTTCTGCCGGGCCTGGGGTTTTGGCGCATCTAAAAACACCCCGTGTTCTTCAG
M
AATTCTCCTGGCCAAGCTTTCTTGAGTATTTTAGACACTAATGCCACACATAGCTCTCCCTGGGCAGGCGCCCCTGGTGTCTGTCACTCCTCCAGGTTGT
Celera SNP ID:            hCV1985437
SNP Position Genomic:     11910
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,6)   total(A,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5690):
CAGGCACATTCTGCAACAAGCCCAGAATGTCTAAGCTGGTGACAGATGAGGATGCAGCCGTGAGAAGTTAAATGGCCCACCCTGAACCCTACTGCTGAGC
S
GGGCAGGCTATTCCTGGGACTCTATTGAGGCCCACTGACATGGTCCTGGTTTGCATTGTCCTTCTGGGCTCAGCTCAGAGCCACCTGCAAACTCCTGCGC
Celera SNP ID:            hCV1985438
SNP Position Genomic:     11515
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|G,5)   total(G,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5691):
GCATTGCTTGCCAGGGCTATCCCCTGGCAGGGGCTGGGCAATCAAGACAGGGAGGGCTTGGGGGACTCCTGGGTTTCCCTTCGGGCAGGCACATTCTGCA
R
CAAGCCCAGAATGTCTAAGCTGGTGACAGATGAGGATGCAGCCGTGAGAAGTTAAATGGCCCACCCTGAACCCTACTGCTGAGCGGGGCAGGCTATTCCT
Celera SNP ID:            hCV1985439
SNP Position Genomic:     11430
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:5692):
GAGCAACACAGGCTTGAACTTATATGGGGATTTTCTTCCATCTCTACCACCCCTGAGACAGCAAGACCAACTCCTCCTCCTCCTTCTCAGCCTACTCAAC
R
TGAAGATAATAAGGATGAAGACCTTTACAATGACCCAGTTCCACTTAATAAATAGTAAATGTATTTCCTCTTCCCTATGATTTTCTTGATAACATTTCTT
Celera SNP ID:            hCV9070431
SNP Position Genomic:     28387
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5693):
GGTAGCGGGCCATAGGGAAATCACAAGCATTGCCAGGTTCCCTGCAGACCTCTGTGGCTTGGGCATCATTTGCAGTGGGACTCAGCATTACACGGTGCAC
R
TCTCAGCAGCCCGTGGGACCGTGGGGCTGGACGGCCCTCCTCCTCAGCACCACCTTCTTGTCAAACACAGCTGTGCTTGGGGAGGGTGGGCAGAGCACAA
Celera SNP ID:            hCV9614660
SNP Position Genomic:     9265
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,6|C,9)      total(C,9|T,6) ;no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5694):
TTCTTCCATCTCTACCACCCCTGAGACAGCAAGACCAACTCCTCCTCCTCCTTCTCAGCCTACTCAACATGAAGATAATAAGGATGAAGACCTTTACAAT
K
ACCCAGTTCCACTTAATAAATAGTAAATGTATTTCCTCTTCCCTATGATTTTCTTGATAACATTTCTTTTCTCTGGCTTATTTATTGTAAGAATACAGTA
Celera SNP ID:            hCV9070435
SNP Position Genomic:     28419
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5695):
CCTTCACTCCTCTGCAGGCCCCGGCCCAGTTAACTCACCACCCCTGCAGGGTGAGCCAGAACGTGCCTCGCTGCCACAGGATTGGCTGTTACCTCTCCCG
R
GACCGGCCCGGCTTCCTCCCTCCCTCCCTCCCTCCCTCCCTTTGTTTAGGTCTGTGCTCCTCTGCTTCCCCCAGAGACGCCTCCCCTGCTGACTGCTGTA
Celera SNP ID:            hCV15989867
SNP Position Genomic:     12414
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:5696):
TTTTCCTGGCTGAGTTGGCCTCACCTGCAATCACTTTCCTAAAAAGGCCTGTGCACCTTTCATTACAGTAGCTCTCATACTATATACACTGTGCCCAGGA
R
GGAGGACAGAGAAGGGAGAAAAAAACCATCTCATATAATCACGTTGCCCCAAGTCACCATGCTGTAATAAACAAGCTGTTGGGAAGGAGGAGGCAGGGTG
Celera SNP ID:            hCV155814
SNP Position Genomic:     59557
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,5)   total(G,5|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5697):
ATAAATAGTATCTCAAAAATATTAGCTATTTTGTTATAATCACTCCCACAGAAACTAGGCATTTTTCTTCTCTAGTTTTGTCTTTCAACTTCAGCATGTA
R
GACACATGTAATAACTATACCTCCTTTGATCAATCCAAGATTCCAAAGAAAGATGTGCACACACAAATTATTCTTTTATGAAAATAAGAGGAAGCTGGGC
Celera SNP ID:            hCV155816
SNP Position Genomic:     58234
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,13)   total(G,13|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5698):
TCATCCCCCAGGACCAAAGCTTTGGCCCTGGTTATGCCGGGATATTCCATTTCCAGGTAAGAGGGAGCCCTGGGCCAGTGGGTTTACCTCTCTGGGGCCC
R
GCATGAGGGCAGGTGCATTTCCACACTGCCTGGTAACCCTAGAAAAAAATGTCATCAGATCTGTGTGACATATGGTCCTAAACCATGCTAAAGCCACATT
Celera SNP ID:            hCV25632420
SNP Position Genomic:     18263
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,17)   caucasian(G,38)   total(A,3|G,55)
SNP Type:                 INTRON


Context             (SEQ ID NO:5699):
AGCCAATTACGTATTATTACGGTGAGCCAAATGGGGATACTATTGGTACTTAGCTCACAGAATTATTGTAATGGCTTAATTGATTACTTCATAAATAGTA
K
CTCAAAAATATTAGCTATTTTGTTATAATCACTCCCACAGAAACTAGGCATTTTTCTTCTCTAGTTTTGTCTTTCAACTTCAGCATGTAGGACACATGTA
Celera SNP ID:            hCV155817
SNP Position Genomic:     58144
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|T,8)   total(G,6|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5700):
ACGCTTAATCAAAAAGCACTGGCCAGAGTCATCCCCCAGGACCAAAGCTTTGGCCCTGGTTATGCCGGGATATTCCATTTCCAGGTAAGAGGGAGCCCTG
R
GCCAGTGGGTTTACCTCTCTGGGGCCCGGCATGAGGGCAGGTGCATTTCCACACTGCCTGGTAACCCTAGAAAAAAATGTCATCAGATCTGTGTGACATA
Celera SNP ID:            hCV25632421
SNP Position Genomic:     18235
SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,17)   caucasian(G,30)   total(A,3|G,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:5701):
TGGAGCAGCTTCCCCACAGGCTCCACTGGAAGGCCCTTTGGTCGCTGGGAAACAAACTTGGTAAAGGAATTGTCTTTAAAAGGATGCCTTTCCCCCTTCT
Y
TCCTATCAGGGGTGTTCCAGGCTCTCAGTACAAAGAACAAGGAGTTCATTCATCTCAATATAAATGAGGTATGGCCAATCCAGACCCTCTGCTCAGGGAC
Celera SNP ID:            hCV155818
SNP Position Genomic:     56728
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,29|T,9)   total(C,65|T,9)
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:5702):
CATGGCGAGAGGGAGGTTGAGTCACTGGGACAGGCAAGCAACTGCAGCATGGGGTCCCTGAGGACCCAAGAGGCACGGGGCTGGGGGAACAACACTGCTT
Y
GGCCTCTGCTTCCTCACTCCCTCTGAATGGAGTCCAGTGGCCTCAAGCCCCTGCACCTCCGTTCCTCTAGAGTCAGACATGCCTGTGATGTGGGGCTCAC
Celera SNP ID:            hCV25632422
SNP Position Genomic:     14115
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:5703):
AGGAAATCGTGAAAAACCCAGAATTCATTCTTGGAGGGGCCACCAGGACTGATATCTGCCAGGGAGAGCTGGGTGAGTGTAAGTGGATGGAGCATGGCGA
R
AGGGAGGTTGAGTCACTGGGACAGGCAAGCAACTGCAGCATGGGGTCCCTGAGGACCCAAGAGGCACGGGGCTGGGGGAACAACACTGCTTCGGCCTCTG
Celera SNP ID:            hCV25632426
SNP Position Genomic:     14023
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:5704):
CCAGGAAATCGTGAAAAACCCAGAATTCATTCTTGGAGGGGCCACCAGGACTGATATCTGCCAGGGAGAGCTGGGTGAGTGTAAGTGGATGGAGCATGGC
R
AGAGGGAGGTTGAGTCACTGGGACAGGCAAGCAACTGCAGCATGGGGTCCCTGAGGACCCAAGAGGCACGGGGCTGGGGGAACAACACTGCTTCGGCCTC
Celera SNP ID:            hCV25632427
SNP Position Genomic:     14021
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:5705):
GCAGGGGAAGGAGCATAGATGAGGCCGAGGTTCAGCAGCCCCCGCAGGAAGTGGAAACAGGGGTGCTGGGGAGGGGCCGGCTACGCTCAGTGCAACTGAG
K
TGCATCATCCCAGTCTACCGTGGAAAGCTTTGCAGTTTGGAGGCAGAAAATAATGTACAGGCCTGGGATGCTCTGCGGTGGGGACCCGGGGCATCTGGTT
Celera SNP ID:            hCV25632428
SNP Position Genomic:     6439
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,38|T,2)   total(G,76|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:5706):
ATCCATGGCCCCTGAGCTTCTGGGGAAATCTGAAGCTAGTCTAGAACTTGGTTAAAACTGAGCCAGTGTTTGTCTTCAGTCCAGACACAGCTACCAGGTC
R
CCAGACATGGTGCAGCCGCTGCTGTATTAGCCAGACCCCAGCGTGAGGGCAGGGCACACAGGCCTGTGCTTTCCAGGCTGTCATGGTCCCCATGGAGGCT
Celera SNP ID:            hCV11677446
SNP Position Genomic:     31700
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,6|A,10)      total(G,6|A,10) ;JBIC-allele(A,254|G,849)   total(G,849|A,254)
SNP Type:                 INTRON


Context             (SEQ ID NO:5707):
AACTTTCCAGTGGAGACACCTGACTAACACTACCTTAGCCAGGTGATCAAGGCCAGCATCAGCTGTGGTAAGGCATGTGGACGGCAGGTACTCTTGATAT
S
ATGAGATGAGAGGGGAGCTTTACCTCTCCGGTCTTCCTTCCACTAACCAATAGCCCCACTCTTTTTTTTATTATTATTTACTTTTTTTTGGAGACAGGGT
Celera SNP ID:            hCV83166
SNP Position Genomic:     24611
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:5708):
GCTGGGTGAGTGTAAGTGGATGGAGCATGGCGAGAGGGAGGTTGAGTCACTGGGACAGGCAAGCAACTGCAGCATGGGGTCCCTGAGGACCCAAGAGGCA
Y
GGGGCTGGGGGAACAACACTGCTTCGGCCTCTGCTTCCTCACTCCCTCTGAATGGAGTCCAGTGGCCTCAAGCCCCTGCACCTCCGTTCCTCTAGAGTCA
Celera SNP ID:            hCV22271885
SNP Position Genomic:     14090
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,10)   caucasian(C,22|T,18)   total(C,48|T,28)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:5709):
CCTGGTGCCTGGAAAAGTGGGAAGAGGTGGGAAAAATCCTTCACTCCTCTGCAGGCCCCGGCCCAGTTAACTCACCACCCCTGCAGGGTGAGCCAGAACG
K
GCCTCGCTGCCACAGGATTGGCTGTTACCTCTCCCGAGACCGGCCCGGCTTCCTCCCTCCCTCCCTCCCTCCCTCCCTTTGTTTAGGTCTGTGCTCCTCT
Celera SNP ID:            hCV15972700
SNP Position Genomic:     12377
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5710):
TGGCAAAGATAGACCACAGAGAGCCATGGTCTGATGTGTGTGGACCCATGGGCCTGTGCGGTTAGCTAAGGAGCAGAATGTGCCAGCCTCCCCTGCAGCA
Y
GTTTCTTAGCATCGCCTTTCTTTATACATTCACAGTGCCTCTGTGGGAGGATGATGGGCTGGGGCAGGTTTGTGCCTTGTGTTTGAGGAAAGGTTCAATT
Celera SNP ID:            hCV25632432
SNP Position Genomic:     54046
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:5711):
ATGCCAGGTACTGCCTGTGGGCAACCTGAGCAGATGGCAGGTCTTCTCTCTGCTGCCCAGGAGGTGGGCCTCTGAGCCCAGTTGGTGATTCTTAAGGTCA
Y
GGCCCTTGGAGTGGTGGCACCAGGGTTCAGACCCAGGACTCACTTCCTGACACCAGGGCCCTCATTTTAAACCACTGTGAACATTGGTAGAAACTTTTTA
Celera SNP ID:            hCV25632433
SNP Position Genomic:     51640
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:5712):
CCATCAGCGATGCCTTTCAGGCACGCTCCTTCTCAAGGCTTCTGCTCTCCACCCTTTAGAACCTTTTCCTTCGGTTTGATGCTGACAAGTCCGGCACCAT
R
TCTACCTATGAACTACGGACTGCACTGAAAGCTGCAGGTAAAGAAAAGACTGGAGTACAGGTGGCTGACTGCATGCCAGGTACTGCCTGTGGGCAACCTG
Celera SNP ID:            hCV25632434
SNP Position Genomic:     51467
SNP Source:               Applera
Population(Allele,Count): african american(A,6|G,30)   caucasian(G,40)   total(A,6|G,70)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5713):
GTCTAGCACACAGAAGGTTTCCAGTACATTACAGCTATTGTCACATTATTACTATTACTGATACTATTATTATCATCATTACAATGATTATTAGCTCTGA
R
TCTCATCTTACATATGAGTAGCAAAGGACTCATCATAACTACCTCCTCACTATCTCCCAACATTAAAATAATGTTGATGATTAAAAACAATTTTTTTTAA
Celera SNP ID:            hCV29269201
SNP Position Genomic:     7344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5714):
CGGAGTTGGGGTGAAAGCTCCCAGGCACCTTCCTCACCGAAGCCACGCTGTGATTGTTTTTGGTTCTCTGCATATGGCCAATTGCAGTGTGAGGTCACGG
Y
ACTGGCAGATCACGTGGGGTTGCACTTTACAGACAGGATTAGTAGGTCATGCTCTGCTAAGTAAGAAAAAGGACATTTCCAAACTAAAAAAGCAGAAGTT
Celera SNP ID:            hCV29269202
SNP Position Genomic:     7879
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5715):
TACACATCCAAAATATAATTTATGCCAAATGCATGAGGATAAAACATTCTGACTGCTACAGTTTCTGGTTAGTCGATAACTAGAAGTCTTTTACTTTCAC
Y
CTCTCTCCTCTAAAACCCTTCTCAAATGCATTGGCCCTTGTCCCTGCTCCCAGGCAGAGCCTGAGGGCACACAGGCTCAAGGGTGATTGAGGTGAACAGC
Celera SNP ID:            hCV29269203
SNP Position Genomic:     29918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5716):
GAAAGTGACTGAGAGCCAAGGCTGGAATAAAATTTGTCTTCCACTCATGCAGCCTCCATGGGTGATGGGAGGGGCAGGCGCCATCCCGACTCCCTGACTT
Y
GCTGTGCTGCTGGTGACATGTGAGTAGGGTTGAAGGCACCGCATGGCCAGCCTGTCAGGCCAATTATCTGGGTGTGAGCCACTTAGGATAATGGCTCCAA
Celera SNP ID:            hCV27501739
SNP Position Genomic:     32174
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5717):
CGAAAAGGAAGACAAAAGGGAGACCGACTTCTTTTGGAAGGCCCAGTCCAACTGTGGCCTCTGCGGCCCCTAGAGGGTAGCTCCCCCGGGCTGGCTGTCA
Y
CCATTTACTGCCATCAGCGATGCCTTTCAGGCACGCTCCTTCTCAAGGCTTCTGCTCTCCACCCTTTAGAACCTTTTCCTTCGGTTTGATGCTGACAAGT
Celera SNP ID:            hCV29269204
SNP Position Genomic:     51356
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5718):
GCAGAGGGGATTTAAAATGGTGCAGCAGGCTGCAGGCTATAGGCTAGAGGAATTGTATTCGGACAGGGGAGAAGGGAAAACAGCATCATGCTATTCCGAT
R
CTTACGGGAGTACCACCGTGCTTCCACCCAAGACGAAAAGGAAGACAAAAGGGAGACCGACTTCTTTTGGAAGGCCCAGTCCAACTGTGGCCTCTGCGGC
Celera SNP ID:            hCV25632438
SNP Position Genomic:     51222
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:5719):
AAGGCCTGTGCACCTTTCATTACAGTAGCTCTCATACTATATACACTGTGCCCAGGAGGGAGGACAGAGAAGGGAGAAAAAAACCATCTCATATAATCAC
R
TTGCCCCAAGTCACCATGCTGTAATAAACAAGCTGTTGGGAAGGAGGAGGCAGGGTGGACTCGGGAGAGAAAATGAGGAGGAATTCCATGCTACTTCTCC
Celera SNP ID:            hCV29269205
SNP Position Genomic:     59600
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5720):
GGAGGGCCCCCATCCTTGCAGTCTATATTGACATCATCTAGTTTAAAGTGTAATCTGTACTCTACAACTCACTTACTTTTTGTCAAAGTTAGAATTCTCC
R
AGATAAAAGCTGGACGCACAAACCAGCATGGAGGGCATCTTTGTCTCCCCCTTCAGAAGTCTCCCCTCCTGGGACCAGGGCCACCAAGGCCTGCCCAGCG
Celera SNP ID:            hCV1985520
SNP Position Genomic:     8583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5721):
AAACAATTGTCTCCACTTCAACAGGACATGGAGGTGACAGCAGAGGAACTTGAGTATGTTTTAAATGCTGTGCTGCAAAAGAGTAAGTGCCAACCCCATC
R
GGGTCCTGGGGCACCTATGGAGGGACAAGCGACCACACTGCCTGGGTCCCCTCCCTGCTCCTCCGAGCCGCAGATCTGCTTCCCAGGGCTGATTTGTAGG
Celera SNP ID:            hCV25632439
SNP Position Genomic:     48784
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:5722):
AGAGTTTGAGAGGCTACCTGAGGTCAGGCTAGTGGAAAGAAGGTCTGGTGCAGACGGTGGGAGAAGCCGGGCAGAGGAAACTCGGAAATTCACAGCAGGA
R
GCTCCACAAAGAAGAGCGTCCATGTGAGTGATCCATTGCCCTGCCCCTCTTGAAGGAGCAGCCCCAACACCAGGGCTGAGCCTGCCCAAGGTGATGGGTG
Celera SNP ID:            hCV11677453
SNP Position Genomic:     35833
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:5723):
CAAGGCCATTGTTGCTCTTCATCATGACCTCTGCCTGAACACCAATTTTGTTTACTCCTAGTTCTCCGGAGTGGCGTTCTGTTGGTCCAGCTGAGCAGAA
R
CGTCTGTGTCACACTGCTCTGGATGATGGGGAATTCTGGTACCGTGCTTGTTCCTGTGTTAACTGCAGATACGAGCAAGTCCCATGGCCCTGGGGCGTAA
Celera SNP ID:            hCV22272185
SNP Position Genomic:     33176
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:5724):
ATAGAATAATATATATATATAATGCACTTCGGTGAAACAATATGAGAGATGTGTGCATATCTCTCTTTATATGGTATAGATACATGAAATTTTACCTAAG
Y
GCATCTCTGTAAAAAGAAACACTGAGCAGGGTGGCATGTGTCTGTAACCTCAATACCTTGGGAATCCAAGGCGGGAGGATCACTTGAGGCCAGGAGTTTG
Celera SNP ID:            hCV16247824
SNP Position Genomic:     13090
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5725):
ATGAATAAGTGAATGATTTAATGAATGAGTGAATGGATGATGCCCTCACTCTTGCCCTCCTGTGCATCGTGTCTCTCCGCTTTGCTGCAGGATGGCATTT
M
AGGACTTCAAGGCCCACTTTGATAAAGTGGAGATCTGCAACCTCACTCCCGATGCCCTGGAGGAAGACGCGATCCACAAATGGGAGGTGACGGTCCATCA
Celera SNP ID:            hCV11677459
SNP Position Genomic:     37566
SNP Source:               Applera
Population(Allele,Count): african american(A,27|C,11)   caucasian(A,29|C,11)   total(A,56|C,22)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|C,5)      total(A,5|C,5) ;no_pop(A,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5726):
ATCTGTTTCTTATTTAGGGGAGTTAGGAGCTTTACATCATATCTTACAGATTTCTGTAAAATCAGGAACAAAAGGGCTGAGGATGAGCATGGAGACTCTT
Y
TTGCAGCATAGAGTCGCAGGGAGCCGGGGGGTAGCGGGCCATAGGGAAATCACAAGCATTGCCAGGTTCCCTGCAGACCTCTGTGGCTTGGGCATCATTT
Celera SNP ID:            hCV11677387
SNP Position Genomic:     9135
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5727):
TAGGAATGGGCCCTGGCAGAGTATCATTCTCCGTGGGCAGCAGCATCCCCTCCAAGAAACTTTCTAGGGCCACAGCTGGAAGTGACCTGAGACATAGAAC
R
CGAGGGGAGGCTGGTGTAGGAATGAACTTGGGGCTCAGACACCACCCAGTGTTAAGTTCCCCCAAACAAAGCTTCCTGTAAAGTCAGCGAGACTCTATGG
Celera SNP ID:            hCV502836
SNP Position Genomic:     53338
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;JBIC-allele(A,123|G,1360)   total(G,1360|A,123)
SNP Type:                 INTRON


Context             (SEQ ID NO:5728):
AGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGTTGAGGCAGTTGGATCGTGAGGTCAGGAGCTCGAGACCAGCTCATAGCGAAACTTTGTCTCTAC
K
AAAAATACAAAAAATTAGTCAAATGTGGTGGTATGCACCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAACCCCTTGAACCTGGGAGGTGGAGG
Celera SNP ID:            hCV502837
SNP Position Genomic:     54737
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,7)   total(G,2|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5729):
AGGGAGATTTCTAACCACCCTCCCAAGTACTGCCGAACCACTTGGGTGGCAGCTATGAAATGTCTGCTCGCCCAGCCCGTGCTGACACTGATGTATGCAG
W
CTTGGTCCTCTGGAAAGGGAGTTGCTGGAATTCACAGAGCTGATGCATCAGGCAGCCATATGTCTGAAACCCAAGTAAGCATGTCCTATAACAGTGCCAA
Celera SNP ID:            hCV27878020
SNP Position Genomic:     17783
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5730):
ATTTCTAACCACCCTCCCAAGTACTGCCGAACCACTTGGGTGGCAGCTATGAAATGTCTGCTCGCCCAGCCCGTGCTGACACTGATGTATGCAGTCTTGG
W
CCTCTGGAAAGGGAGTTGCTGGAATTCACAGAGCTGATGCATCAGGCAGCCATATGTCTGAAACCCAAGTAAGCATGTCCTATAACAGTGCCAAGAAGGC
Celera SNP ID:            hCV27878021
SNP Position Genomic:     17789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5731):
AAGGGTCTAGTATATCAAGCCAGGAAGCCGGCTTTCCCTAAGGGGTTACTGGTAGCTAGTGAGAGGTGCATTCTAGAAAGACCCCTCCTGAAACAGAATC
Y
GTTATTAGACTTACAGGGTGGTCAGAGCTGACCCTAGAAATAATGAGATTTGCTAGTTTCTCTTCTCTCCATTGCTCTTTCCCTTTCTAAACCACCCAGG
Celera SNP ID:            hCV27878022
SNP Position Genomic:     55272
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5732):
TCCACGAGCGCTCTGCAGACCTCCCGCCTGCCGGGCTGCCTGCGCTTCTCACCAAGCACACCTCACAGATAGGGGCCTCCTGAACCTTTTAAAGTGGTTC
Y
CTCCCAGGGAAAGCAAAATCTGGAAACATGTCCAGGCTCAGGCCTGATAAAAGGATGAAGTATACACAGCCAGGACCATCTCGGGTCCTATGTGAGGGAG
Celera SNP ID:            hCV27501740
SNP Position Genomic:     52235
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,401|T,1082)   total(C,401|T,1082) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5733):
CAGCAGGGTCCTGAAGGCTGGTCTGTCACTGGAGCCAAATGAAGCTCAGAACTGATTTAAAACAAAAATAAACTATAAAAGAAGGTGCCAAGGGCTATAA
M
AAACAATTGTCTCCACTTCAACAGGACATGGAGGTGACAGCAGAGGAACTTGAGTATGTTTTAAATGCTGTGCTGCAAAAGAGTAAGTGCCAACCCCATC
Celera SNP ID:            hCV25632440
SNP Position Genomic:     48683
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:5734):
GAAGCTGGGAAACCACTGCCTTGCCCTGCCCAGCTTTTCATGCGCTTTCCTGGGTTGGGATGTCTCTCAAGTTAGGCTCTCTCCTAGTTGGGCTGGCATG
Y
CCCTAAAACATGTGACATATGAGACACATAGCTGCAGCTACACAGGAGATAGGTACATCTGCCCACAGCAGGGTCCTGAAGGCTGGTCTGTCACTGGAGC
Celera SNP ID:            hCV25632444
SNP Position Genomic:     48517
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:5735):
TCCACCTGACCAGGAGACAGAGGAGGAGCAGCGGTTTCGGGCTCTGTTTGAACAAGTCGCTGGTGAGGTAGGACATGCCCCACTTCCATCTCCCCACCAG
S
CTGAGGGCCTGGACCTGCTTCCTAGCAAAGGGTTGCAGTCGTGGGGTTGGTCAGCAACGTCATCCTGAGGCATGATGGAGCTTGTTGCAAAGTAAGACCA
Celera SNP ID:            hCV25632445
SNP Position Genomic:     46212
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:5736):
CCAAAGTGCTGGGATTACAGGAGTGAGCCACCACGCCAGGCTGCAGGACACTTTCTTAGCTTATCTGCAAGGCAAGGCACATATCCCTTCTAGCTCTGCT
C
CTCGCTCCCTCAAGCAAACCATTGAAAAGTTGCTGTTTTCTACTGGTCCCAGAGTCATGCTCACAAGACATTCTTGGGTGGAGACCTTCATTTTTCAGAC
Celera SNP ID:            hCV11677464
SNP Position Genomic:     39804
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|-,10)   total(C,5|-,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5737):
TGGGACTCAGCATTACACGGTGCACGTCTCAGCAGCCCGTGGGACCGTGGGGCTGGACGGCCCTCCTCCTCAGCACCACCTTCTTGTCAAACACAGCTGT
R
CTTGGGGAGGGTGGGCAGAGCACAAAGCCAAGGGGACATTGGAGGGCAGTGGACAGCCAGGCTTGCCCTCAAGGGAGCCCAGGGCAAGGAGTGCACTGAG
Celera SNP ID:            hCV11677391
SNP Position Genomic:     9340
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:5738):
GACTTCTTCAGATACCACGCTTCTCGGGCCAGAAGCAAGACGTTCATCAACCTGAGAGAAGTCTCCGACCGGTTCAAGCTGCCCCCTGGGGAGTACATCC
K
GATTCCCAGCACTTTTGAGCCCCACCAGGAAGCTGATTTCTGTCTGAGAATCTTTTCAGAGAAAAAAGCCATTACCCGGTGAGTCAGAGGAACAGCTTCC
Celera SNP ID:            hCV25632379
SNP Position Genomic:     39207
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,40)   total(G,1|T,77)
SNP Type:                 MISSENSE MUTATION


Gene Number:                 29
Celera Gene:                 hCG1641508 - 106000122235730
Gene Symbol:                 KLK12
Protein Name:                kallikrein 12;KLK-L5
Celera Genomic Axis:         GA_x5YUV32VY4T(885688..903492)
Chromosome:                  Chr19
OMIM number:                 605539
OMIM Information:            KALLIKREIN 12;KLK12


Genomic Sequence (SEQ ID NO:1690):
TCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTCTGTCACCATGCCCAGATAATTTTTTGTATTTTTAGTAGAGACAGGGTTTTACCATGTTGG
CCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTACCTGCCTTGGCCTCCCAAAGTGCTGGGATGACAGGCGTGAGCCACTGTGCCTGGCCAGCATAC
ATCTAACTTTATAAGAAGTTGATGGCCAGGCACAGTGGCTCACACCTATCATCCCAGCACTTTAGGAGGCCAAAGTGGGAGAATCGGTTAAGCCCAGGAG
TTTGAGACCAGTCTGGGTAACATAGTGAGACCCTCATCTCTACTAAAAATTTGAAAAATTAGCCGGACATGGTGGTGTGCACCTGTAGTGCAAGAGGAAT
AAGTTTAAGAGATTTACTGTATTAATACAACATGGTAACTCTAGTTAATAACAATGTACCATAGACAGCAGTCCCTCCTTATTTGAGGTTTCCCGTTCTG
CAGTGCAGGTACCTGTGGTCAACCGCAGTCCCACAATAGGTGGGTACAATTCAGTACAATAAGATATTTTGAGAGAGGGAGACCACATAACACATAATTT
TATTACAGTGCATGGTTATAATTGTTTTATTGTATTATTATTCATTATTGTGGTTCATCTCTTACTACGCCTAATTTATAAATTAAATTTTACGATAGGT
ACTCTCCATGATCTTGGAACATATTTTCCCTGGATAAGCGGGGACTACAGGACTCAAAAATTGCTAAGAGAGTAGATTTTAAGTGTTCTCACCACATGCA
CACAAAATAAGAATGTGAAGGATGAATGTTAATTAGCTCAACTTAGTCATTCCACAATGTATATGTATTTCAGAACATCATGTACCAGCCCAGTGAGGTG
GCTCACATCTGTAATCCTAGCACTCTAGGAGGCCAAGGTTGGAGGATCAAGGATTGCTTGAGCTCAGGAGTTCAAGACCAGCCTGGACAACATAGTGGGA
CCTCCTCTCTACTAAAAATAAAAATAGAAATAATTGGCTGGGCATGGTAGTGTGCATCTGTGGTCCCGACTACTTGAGAGGCTGAGGCAAGAGGATTGCT
TGAGCTCAGATCAAGGCTGCAGTGAGCTATAATTGCACCACTGCACCCCAGCCTGAGCGACAAAGCAAGACCCTGTGTCAAAAACAAAACAAAATATCAC
ATATCCATTAAGGCCCCCATACCCAGTATTACTTTCCATAGAATCAGCAACTGGCAAATACGTTACCGTCGTTGGATTTGGCTGATATGCTCTGTTCCAA
GGCTATTTCAACAGCCTCTCAGCTGCAGCTAGCCTTCACCGTGGAAAGGATACAATACGCCTGACCCAGCTGCTCCTGGGGAACCTTGAATCCTGGCCAC
TACTGCAGGTGCAGTAGTGAAAAGGTGCAATACCTTTTTTTTTTTGAGATGGAGTCTTGCTCAGTCGCCCAGGCTGGAGTGCAGTGGCGCAGTCTCCATT
CACTGCAACATCTGCCTCCTGGGTTCAAGCAATTCCCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACATGTGCACACCACCACGCCCAGGTAATTTTTG
TATGTTTAATAGAGACGGGGTTTCACCATGTTAGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCTGCCTCGGCCTCCTGAAGTGCTGGGAT
TACAGACATGAGTCACCGTGCTTGGCCCGCAATACCTTTTTCTTATGCATTTCAAAGTCCATGGCCAGCACCCCTATAACAAAAGACAGGTTAATGAGAT
AAAAGCGTAACAAGTGGATTTAACAGTTTTATGTGACATGAAAGCCTTCAGAAATGAAGACCCAAAAACTCAGGGAAAATTGTGTCATTTTGAGGTTCAA
TGAAGAAGGCGTTGGCATGTAGACATGTGATGTGAAAAACCAGGTACGATCTTGGGAGGCCGAGGTGGGAGGATCATGAGGTCAGGTGTTCGAGACCAGC
CTGGCCAATATGGTAAAGCCCCATCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGCAGGTGCCTGTAATTCCAGCTACTCAGTAGGCTGAGGCA
GAAGAATTGCTTGAACCCAGGAGGCGGAGGTTGCAGTGAGCCGAGATTGTGCCACCGCACTTCAGCCTGGGCCACAGAGCGAGACTCCATCTCAAAAAAA
CCCAACCAACTCAACAAACAAACAAAAACCAAAAAACAGGTATGATCTCTTGGTCATAAATTGAGGGGGGATCCCAGCAGGTCCCATTTGTTCAGATTCT
TCTGGGCCTTTCTGTGTTGCATTTCTTCCTCTGCAGGACACCTGTCACATGAGGGTCTTCAGGGGAAAAGGAATTCTAGTGTCTGTGACTGCTTCAAAGG
AGAAGTAAGGGGAGAGGAGAGGAAAGCAGGAGGAGGTTGGAGAGAACCTCTTGTTCCTGAGGTCTTCCAATCTCCTTCAGCTCAAAGCACTCAGCATGCT
GAAGTTCCAGACTCTGGGCTATCACGTTCTGACATGCAACACAGGCAACACCCCAGCTCCATCCACGTTTCTCCAAAAGCACAGGCATGACGTCATATGG
TGACAAACACCCTTGTCCAAAGGAAGCCCATAGGATACGCTAATTCTAGATTCACAAATACTCTAGAGGAACTCACACAATGGGATGGGCCAGTGCCCCA
CACAGAGTATGAGGCCTCCCACCTTGGTTGAATATCTTTTTCTTTTTTTTCTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAG
TGCAGTGGCTCGATCTCGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCTGGAGTAGCTGGAATTACAGGTGCCCACC
ACCACAACTGGCTAATTTTTGTATTTTTAGTAGAGACGAGGGTCCACCATGTTGACCAGGCTTGTCTCGAACTCCTGGTCTCAAGTGATCTGCCCACCTC
GGCCTAGTGCTGGGATTACAGACGTGAGTCACCACGCCCGGCCCCACCTTGGTTAAATTTCTGAAAATCATTTGGTAAAGTGAGGACCCCTCCAGCTGAG
ACACTGCCAGGAAACAGCTATTGAGTCTCTTAGCACCCACAGCATTAAAACAAACCCAAAACATTTTAGGCCTCGTTGAGTTCTGGAGGCAAAATATTCC
TCATCTACAAATTTATTTTATTTTATTTTTTAATAAAAGTTATTATTATTTTTTTTTATAGAGAGACAGGGTCTTGCTCTGTGACCCAGACTAGAGTGCA
GTGGTGTGACCATGGTTCACTGCAGCCTCCACCTCCTGGGCTCAAGCGATCCTCCCACCTCAGCCTGCCAAGTAGCTGGGACCACAGGTATGCCCCTCCC
CCAGGCTAACTTTTTTTTACTTTTTGTGGAGATGAGGTCTCACTATGTTGCCCATGCTGGTCTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGGAGTGCA
GGCTGGAGTGCCCAGGCTGGAGTGCAGTGGCACAATCATAACTCACTGCAGCCTCAAACTCCTGGGGTCAAGTGATCCTCCCACCTCAGCCTCCCACATA
ACTAGGACTACAGGCCTGTGTCACCATAATGCCTGGTTAATTTTTTTAGTTTTTGTTTGTAGAAACAGGGTCTCACTATGTTACCCAGGCTGGCCTCTAA
CTCCTGGCCTCAATCCATCCTCCCATCTCAACCTCCCAAAGTGCTAGGATTATAGCCACGAGCCACCATGCCCGGCCCCATACTTATATTTACTTGTAGT
GAGAACACTTAAACCCTACTCGGTCAGTAATTTTCAAGTACACAATACATTGTTACTAACTATATACATGGTATTTTTAATTTGCATGAATGCTCCTTAA
AATCAGCGAGCCCGCCTTATTTTTTGTATTCAATTTTATTGGATATAAATTCCACATCAGTAAACCTGATTCTCTTAAAAATCTACACAGAAAAAAAAAA
AGAGAGAGAGGTTGAGTTGGGTAGTTGTTGGTATTTTTGTTTTTGTTTCTTTGCTTATTCAGTTGAGGTTTATTGTAAAACTTGACACCAGAAAAAGGAA
GAAGTGGCGTTTTTGTGCTGTGAGCGTGTGACGTGTGTCCTTTCCAGAGAAAGGACAGTCATGGTGCTTTTTTATCCTCTCTGCCCAAAGAAGGAAAGCT
CTTAACAGCCAGCAGGAGGCTTTGTAGGGACCAGCGTTATCAACGCCAGTCGCGCTGACCAATGATGAGTTAAAGCAGTTAGGTCGTTTCTAAGAGCAAA
TCAAAAGCTAAGGTTCTGTGATTCTGAAAATGAGACACGGACAGAGACTGGAGACCCAGAGAGAAAGTGAAGGACTAAAAGACAGTCATAGGGTGGGAGT
TTGCTCTCCTCTGTTTTGTTCTGGGTTTTTTTGTTTGTTTGTGCGCTCTGTCTGACCGCTTTTCTTTTTTTTCTTTTTCTTTCTTTTTTTTTTTTTTTTT
TTTGAGATGGAGTCTTGCTCTGCCGCCCAGGCTGGAGTGCGGTGGCACAATCTCGGCTCACTGCAAGCTCCGCCTCCCACGTTCAAGGGATTCTCCTGCC
TCAGCCTCCCGAGCAGCTGGGATTACAGGCATGCACCACCACACTCAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATATTGACCAGGCTG
GTCTTGAACTCCTGGCGTCAAGTGACTTGCCCGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCCTGACTGCTTTTCTC
CTTGGTTTGTTTCTCAATCCCCCTTCCTCTGAGCCGAATTCCCTTTTTGTTCTCATTTTCTCTCTCTGTCCCCTCTCTCTCTCCTTCTTTCTCTCCTTCC
ATTCCTCCTAGATGAAGCAAAAACTCAGATAAACCAGCACAGAGGCCAGGTATGGTGGCTCACACCTGTAATCCCGGCACTTTGGGAAGCCAAGGCAGGC
AGGTTGCTTGAGGCCAGGAGTTCAAGACCAGCCTGGCCCACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGACATGGTGGCACGTGC
CTGTAATCCCAGGTACTCAAGAGGTGGAGGTTGCAGTGAGCGGAGATCACAGCCCTGCACTCCAGCCTGGGTGACAGAGCGAGACTCCATCTCAAAACGA
AAAACAAAAAACAGCACAAAGTTCCCTTGTCCTGTGACTCATTCTCTCTCTCTCTTTCTACCATTTCTCCTTCCCTGTGTCTTTTTTTTTTCTCTCTGTG
GGTTTTATTTAAGCAATAGAAGTTCTTAGCAAAGAAAAACTTTATGGAATTAGATTGATCCACTTCATATGTACATATATGAACTCAGTTCAGAAACTCT
CTTCTACCCCTGCCTGATCACCTATTTGGAAGTCTGTTCCTTCAACTCTTCTTCTCTTTCTGGGACTCTTTCTAGCTTGGGCTTCCTGCCCCTCCCGTCC
ACTCTCCTGCTTTCACAGCCTCTCCTTCCCCCTGCCCCTCCCCTGCACTGCATGGGGATGGGCCCCAGGTGTCCAAGGTCTCCCCACCCTCCTTTGTCAC
TGGAGTCAGGATTAGAACCCAGCTCCCTAGTCACCTTGAGTCATCAGTCCTGGGGCTGCTGACGGGCTTGCAGAGGAGAGAGGGAGTGGGGCTGGGTCTT
CCCACCCTGGGTCCTTTCCTCCTTCCCCACTCCGTTTAGCTGTAAAGCTCAATTAAGTGTGATTAGCTGAGAAGAGTTTCTGCAGAATTAGAGCACGCCC
CACCCCTGTCTTCGTGGTCCCCTTCCCTTAACCCGGAAACTGGATGGGCCAGGACAAAGAGAGTTAAGAGCTTTGTCAGTGGTCTGTCTGGAGCGACAGA
TGGAAGGAAAGGGACCGGTTGAGCAACATGACAGGTGGCTGAGGAGCCAGGTGCAGAGTGGTAGAGTTGGCTGGCGGAGTGGCCAGCACATGAGAAGACA
GGCAGGTAGGTGGACGGAGAGATAGCAGCGACGMGGACAGGCCAAACAGTGACAGCCACGTAGAGGATCTGGCAGACAAAGAGACAAGGTGAGAAGGAGG
TAGGCGACTGCCAATGAGGGAGTGACACACAGGGGAGCAGGTAGAGAGAGGACAAGCAGGTCATCCCCTTGGTGACCTTCAAAGAGAAGCAGAGAGGGCA
GAGGTGGGGGGCACAGGGAAAGGGTGACCTCTGAGATTCCCCTTTTCCCCCAGACTTTGGAAGTGACCCACCATGGGGCTCAGCATCTTTTTGCTCCTGT
GTGTTCTTGGTGAGTTCTCCCGGAGCAGGGAGAGGGCAGGACTGCGACTGGATCCCTTCACCCCCATGAGGAGGCCCCACCACCCTCCCCATCTCAGCTC
TGGCCCCCAGCCTGGTGGTGAGGAGGAGAGGGGCTTTCTCTGTGCCTCCATTTACCTGCAGCTCTCAKGGTACTGCTCACCTCGGTCTCCCCTATTTTTT
GATCCCTCTTCCCTTCTGTCCCTCTCTGAATCTCTGTCTCTCCATTTCCCTCCTATGTGTAAGCATCTTTCTCCCTGGGTGTCTTTGATGTTTCATGGTC
TTTTTCTATCACTGGGTCTCTCTCTCTTTCTCTCTCTTTCTCGTCTCTCTTTCTCCTCTCTCTCTCCTGCCTGTTTCTCTCTCTCACTCTGTGTGTCTCT
CCATCTCTGTATCTTTTCTTCCTCTCTCTGACCCATGCCCCTGTCTGTCTCCAGGGCTCAGCCAGGCAGCCACACCGAAGATTTTCAATGGYACTGAGTG
TGGGCGTAACTCACAGCYGTGGCAGGTGGGGCTGTTTGAGGGCACCAGCCTGCGCTGCGGGGGTGTCCTTATTGACCACAGGTGGGTCCTCACAGCGGCT
CACTGCAGCGGCAGGTAAGTCCCTTCCTGGGGTGGGCGAAGGGAGGACTATGGGAAGGCAAGCGCTGGGGGTAGGATCACAAGGGAGGGTGGTGCCCACT
GGGAAGAAGCTGATCCTGCAACAAGAGAGTCTGAGGTTAGACCAGGAGTGGAACTTCCTTAGCAGTGGGCCTGGGGTGGTGCTGGGCAGGGTGAGGTATG
TTGGGTGGAGGGCCGGGGAGGGTCCTGGAACCTGCCCTCCTGCCTCTCCCATTCCTGCATGTACCCTTTCTTTCCTATATGACATCTGCCACTCACCCCA
GCCATTCCTTGACCCAGTCTGGGCCCGGGGCCCAGGTCTCACCCAAGCTCTTTTTCTTTTTCTTTTTTTTATTTTTTTGAGACAGGGTCTCGCTCTGTCG
CCCAGGCTGCTGTGCAATGGCGTGATCACAGCTCACTGCTGTCTCTGCCTCCCAGGTTCAAGTGATTCTCCTGCCCCAGCCTCCTGAGTAGCTGGGATTA
CAGGCACCCGCCACCATGCCCAGCTAATTTTTGTATTTTTTGTAGAGACAGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGGCCTCAAATGA
CCTGCCCRTCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCCGGCCAACATGACCCAAACTCTTTGTGCAACTTCAGAATCTATGC
CTGGCACCTCTCTGGGCCTCAGTAGACTGATGTTCTGGAATTTTTTTCTTTTTCTTTCTTTTTTTTTTTTTTTGGAGACAGAGTCTTGCTCTTTCTGTCA
TCCAAGCTGGAGTGCAGTGATGCTATCTTGGCTCACTACAGCCTCAACCACCTGGGCTCAAGTGATCCTCACACCTCAGCCTCCCAAGGAGCTAAGACTA
CAGGCCTGCGCCACCACACCTGGCTAATTTTTAAATTTTTTTTGTAGAGACAGGGTTTTGCTATGTTACCCAGGCTGGTCTCAAACTCCTCAGCTCAAGC
AATCTTCCTGCCTTGACCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGTGCCTGGCCTGGAACTTTTTTTGTGAAAGGGGAGATCAGATGCAAAG
AAACAGAGACTCAGGGAGAGAGAGGGCCAGCAGCAGGATGCAGAGAGGCCATTCATCAACCCACTCGTTCAATCATGAACCCACTCGTCCACGCATGAGC
ATGGAGGGCACATGCTCCGTGCCAGGCGGTGGGAATAAGGCAGTGAACAAGGTCCACTGATGTCCCTGCCTTCATGGGCTTCACCAGCCGAGAGAATCAG
AAAGAGAGGCCTGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGA
CACACATGGTGAAACCTTATCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCATGCTTCTGTAATCCCAGCTACTTGGGAGGCTGAGGCAGGTG
AATTGCTTGAACCTGGGAGGTGGAGGTTGTAGTGAGCCAAGATGGTGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCGGTCTTGAAAAAAAAAA
AAAAAAAAAAAAGGAGAGAGAGAGACACAGATGCAGGGACATGGTAGGAGAAACAGGGAACACCCAAGATGGAAAGAGGGTGATGGAGGTTGGGAATAAG
AGCCTGTAAGAGAGACTCGGAGAATGAGAGTTGCGGGTGAGAGGACAGACAGTGAGGGGCAGAACAGTGGGGAGCGGCAGGAGCGCCTGAGTGTCCGTGG
AGGGGTGCAAGGTGGGGGACTGCRTGCCTGCCACCCGCTCAGCCGTCGCCACCGGCAGCAGGTACTGGGTGCGCCTGGGGGAACACAGCCTCAGCCAGCT
CGACTGGACCGAGCAGATCYGGCACAGCGGCTTCTCTGTGACCCATCCCGGCTACCTGGGAGCCTCRACGAGCCACGAGCACGACCTCCGGCTGCTGCGG
CTGCGCCTGCCCGTCCGCGTAACCAGCAGCGTTCAACCCCTGCCCCTGCCCAATGACTGTGCAACCGCTGGCACCGAGTGCCACGTCTCAGGCTGGGGCA
TCACCAACCACCCACGGAGYAAGGGGCCCAGGGCCAGGGGTCAGGGGTCAGGATGGGTACAAGTCTGGGATGCAGGGCGAGAGGTCGAATCATGACACCT
CAGAGGAAGGATGGGTAAAGGGTCAGGGTGTGGGATGGGACATCAGGATCATGGTTTGGGGTCAGAGATTATGGTGGATTGGGGTCTTGGGAGCCAAAGG
GGTTAAAGGACTGGGTATGAAGTCAGGGATCAGAGGTCAGAGGTCAGAGTGTGTCAGAGGTCATCACACTGGAGCAAAAGGCATATATATATATATATGT
ATGTADAGGATATGGGCATTGTGGGTCATGGGTCTGGGGTTAGAGGTCACCGTAGAATTAAGGTCATGGGATCCAGAGGTTGTACAATCTGGTCAAAATC
TGAGGATGGAAATTGGGATTCTATCCAAAATCACATATCTGAGATTGGAGGTCATAGCGTTTGGGGTGTGGGGCCCGAAGTTTGGGGTCATGGAGGCTGG
GGCCCAATAAACTAGGATCAGGGGACACTGGCRTTGGAAGCAGTGAGGTTTGGAAGATGCAGAGCTGAGGTTGGAGGTTAAGGTAAAGACAGGGACATGG
GGTCAGGAGACAGAAGATATGAGATCAAGCTGGGATCATAAGGTAATAAGACAGAAGGTCAAAGATCACAGTAGCTGGCATTGAAGAGGGTCAGGTCTGG
ATTCGTTGTCTCTGACGCTGGAGAGACAAGAAAGTTCTTGAGTTATGCCACTCAAAGTCAAATGTCAAAGATCAAAGAGACCGTCAATCATCTGGGGTCA
TGATTCATATGAAATTAAGTCATAAATATGTAACTTGGAGGTTTCGGGATTGTAGTACAGGTCGGTGAGGGGCAGGGGTATTGACATGGATGGGCCACAT
CCAGGGAAGAGGGACGTGGCCTCAAAGTGGGGAGATTTAGGGGACCCTGCAGCACGCATGTTCTCTCTCCAGACCCATTCCCGGATCTGCTCCAGTGCCT
CAACCTCTCCATCGTCTCCCATGCCACCTGCCATGGTGTGTATCCCGGGAGAATCACGAGCAACATGGTGTGTGCAGGCGGCGTCCCGGGGCAGGATGCC
TGCCAGGTGAGCCAGTGCAGGCAGCGTGCGTGGTCACCAGGACAGGAAGTGAAGGGGAGGGGCTGGAAGCAGGAGGGGAACTGATGGAGGATGAATCAGG
GAAAGGGGATGCTGCAGAGAGACGGGGTCAAAAAGGAAGGGAGAGGCTGGTTACGGAGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGG
CGGATCACTTGAGGTCAGGAGTTCAAGACAAGCCTGGCCAACACGGTGAGACTCTGAATCTACTAAAAATACCAGAATTAGCCGGGGGTGGTGGTGCAAG
CCTGTGGCCCCAGCTACTTGGAAGGCTGAGGCAGGAGAATCGCTTGATCCCGGGAGGCGGAGGTTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGCC
TGGGCGACAGAGCCAGACTCTGTCTCAAAACAAAATAATTAATAATAATAATAATAATAATAATAATAATAATGGAGGAGAGGCCCAGGATAAGGGAGGG
AGAGAGACAGGGAGTAAAAGGGAGGACCGGGGAATGGAGGAGGGGGAGGGGCAGGGAGAGAGAGGGAGGAAGGGAACAGAGAAGGAAAGATGGGGCAGGG
GTTACAGAGAGAGACAGCAAAACAGACGGAGASGACTGGGAGCCCAGACAGGGAACCAGCTGTTTCTGGGGCTCTAAGTCTTTCCCATACCATCCTCCAG
TTGGTGCTGTCCCAGACTGAGAGAGATTTGAGGATGGCGGTCTCTCCCCTCATTGGTCAGGGCCCCAGCCATTGTCCTTGAGAGAACTCTGTGCTTTTGA
TGGAGTCCTGCCCACCTTCCCTGGGATTGGTCATTTTTGATGGCACTCTCTCCCCTCATTGGTCAGAACCCCAGGCATTGTCCTTGAGAGAACCTCTATC
CTTTATGGAGTCCCACCCTCCTCCCCTGGGATTGGTCATTGATAATAGTGTTCTCTCTCCTCATTGGTCAGGGCCCCAGCCATTGTCCTTGAGAGAATGC
TCGACTCTTTATGTTGTCTTGACAGCCTCCCCTGAGATTGGTCATTAATGACTGTGCTCTCTCTCCTCATTGGTCAGGGCCCCAGCCATTGTCCTTGAGA
GAACCTCTGTCCTTTATGGAGTTCCACCCTTCTTCCCTGGGATTGGCCCCTAGAGACAGTGGTTCTTCTCTTTTGGTTAGCCATTGCCATTGTCCTCCGG
GAAAGTGATTATACTCTTTTGTCTAATGACCAGACTTGGAGCCCTCCCCAAGGCCCAGGACTGGGTTGAAGGGTTGGGGAGGAAAACAGAAATAAGATGT
CTCCCTTGTTCAGACAGTACTTCTCTTCCCTTCCAGGGTGATTCTGGGGGCCCCCTGGTGTGTGGGGGAGTCCTTCAAGGTCTGGTGTCCTGGGGGTCTG
TGGGGCCCTGTGGACAAGATGGCATCCCTGGAGTCTACACCTATATTTGCAAGTATGTGGACTGGATCCGGATGATCATGAGGAACAACTGACCTGTTTC
CTCCACCTCCACCCCCACCCCTTAACTTGGGTACCCCTCTGGCCCTCAGAGCACCAATATCTCCTCCATCACTTCCCCTAGCTCCACTCTTGTTGGCCTG
GGAACTTCTTGGAACTTTAACTCCTGCCAGCCCTTCTAAGACCCACGAGCGGGGTGAGAGAAGTGTGCAATAGTCTGGAATAAATATAAATGAAGGAGGG
GCCATGTCTGTCCATTTGAAGTCCTCATGCTGGTTGAGACTGGAAGAAGGACTCAGCAGTTTCCCTATCTCATAGGAGTAGAAACAGAGCTCAAATAAGG
CCAGGCACAGTGGCTCACACCTGTAATCCCATCACTTTGGGAAGCTGAGGCAGGTGGATCACCTGAGGTCAGGAACTCGGGACCAGCCTGGTCAACATAG
TGAAACCCCAACTCTACTAAAAATGCAAAAATTAGCCAGGCATGGTGGCGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGACAGGAGAATAGCATG
AACCCGTGAGGCAGAGGCTGCAGCGAGCCGAGATTGAACCATTACACTCCAGCCTGGGCGACAGAGCGAGACTCCATCTCAAAAACAAGCAAACAAAAAA
CCCAGTGCTCAAATAGGATGAGGGTCTTCCCTGAGTAGTTACTCAGAAATGGAGTAGAAAAAGTTACTTTTAATAATATAGGCTGGGTGCAGTGGCCCAC
GCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGAGGATGGCTTGAGCTCAGATTTCGAGATCAGCCTGGCAACATGGTGAAATCTTGTCACTACAAA
AACACAAAAAATTAGCTGGGTGTGGTGGTGCGTGCCTGTAGTCCCAGCTACTTGGGAAGCTGAGGTGGGAGGATCACCCGAGCCGGGGAGGTGGAGGCTG
CAAAGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCAATAAAGTGAGACCTTGTCTCAAAAACAAAAACCCAGCAATATAAATAAGACACATGTTTC
TTCATCTGGCATAATAGAAATAGTGCCCAGAGCTTATAAGCTTTTCAAGAGTCCACAAAAGACCCGAAAAAGAAAAAGAAAATTGTTAGCTCCAAAATAC
CAGATGAAAGCTGCAAAGTCAACATTTATGACCATTTAATCCAATGTCCATAAAACGTAGCATTCTTTCCACTAGCCAACTGCAGTTTACTTTCTTGTAA
TGAAGCATACATTGTATCTTTAATGTGGGACGTGGCTTTGTTCTAATAAGACGAAGGGTGGAGTGCAGGCTTGGAAAGCAGGAGAGCTCAGCCTACGTCT
TTAATCCTCCTGCCCACCCCTTGGATTCTGTCTCCACTGGGACTCAAGAGGTGAGGAGAGACCATCTCCCCAAATGCACTGAAGGGAAACTGGAGGAGGG
AGGGAGTGAGGGGTGATCATACCAGCGGAGGCACATTTGCTGAGCCCCCCTGCAGTCTGCTCTTTCCAAGTGGACCCTCCTGGAAGCCTGATCCCAACCT
CCCCTGCAAGCAGGTCTGTCACCCCCATCTCTCAGATGAAGAAACTGAGCCTTGCAGGGGTGGAGTCCCTTGTCCCCACGTCATAAGGGTAGTCATAGTA
GTAGGAAGAGGAAGCACCTAGGTTTGAGGCCAGGGCTGGCTGCTGTCAGAACCTAGGCCCTCCCCTGCCTTGCTCCACACCTGGTCAGGGGAGAGAGGGG
AGGAAAGCCAAGGGAAGGGACCTAACTGAAAACAAACAAGCTGGGAGAAGCAGGAATCTGCGCTCGGGTTCCGCAGATGCAGAGGTTGAGGTGGCTGCGG
GACTGGAAGTCATCGGGCAGAGGTCTCACAGCAGCCAGTAAGTGAACAGCTGGACTTGGGCTGCCTGGGCGGCAGGGAGAAGCGGGCAGGGGAAGGGTCA
GCAGAGGAGCGAGGCCCCAGAGGAGCCCTGGGGTGGAGCACAGCCAAGGGCTCTGTTCCCTTTCCTGGACTCGGCTTCCACAGGCCCTGACCTGCCTCCC
CCACCCTCCGGTCCTGCCCCTGTGCCTGGCAGCAGCCCCACCTGTGTGACATCCCAGCACACCCCCCCTCTCCTTGCAAAGGAGAAGGGAGCGGCCTAGG
GGAGGCCAGGGGCCCACCTGGGCTGGGGCTGTGGAGAGGGAGTGGCTGGGACGGGAGGAAAAAGAGAGACGGAGATTAGATGGAAGAAGAGGGATTTCAA
GACAAATTGCCAGAGATGCAGTCAGAGAGACTGACTGAGAGACACAAAGATAGAAGGAATTAGAGAAAGGGCCACACAGAGCCAGACAGAGAGAGAAGAG
TGGAGATGGAGACAGGGACGAGGACAGAGAAAGGCAGACAGACACATAGGGACAGAAAGAGAAAAATCACACAAAGTCAGAATTACTGAATGACAGGGAA
TGACACATAGAACGAGACACAGATTCAGAGACTCAGGGCAGGGAAAGGAAGGCTGCAGACAGACAGACAGACAGAGGGAGGCTGAGACACAGGGAGAAGA
GGGGCTTGGAGAGGTGGCACAGGCAGGCAGCCAGTGCCTCAGAGGCCTCCGGGGAGGGCCCTCACACACACCCCGCCCCGGGGCATTAAGGCAGGGCTTG
GAGGCCAGTCATCCTGGGCCCGCCCAGGGCCGCCCCCCTGCCAGCCCGCCTGCCTGGTGCCTGGCACCTGGCGCTCCAACCCAGCCTACCTGCTGTAGCT
GCCGCCACTGCCGTCTCCGCCGCCACTGGGCCCCCAGAGCCCCAGCCCCAGAGCCTGTGAGTCCAGGAGGAAAGGGAAGCTGCCCCTCCCCGTCCAGGTG
TCAGCCCTCCCCAAGGACACCTGTCCCACTCGGGCACCCATTTCTCCCTCTGCTCTGTCCTTCTCTGCTTGGGTGGGGGTTCCTGGCCTCTCTCTACACC
TCTCACCTCCGATGGCTGTCCGCAGCCTCAGTTACCTCTAATCTCCATGGCTTCAGCTGCTGAGCTGGCCCTCTGCTCCCACCCCCGCTGGCCAGGGCAG
CGGAGGGCACTGGCCCTCCCCTCGACCAGCCCCGCCCAGCTTTGCTTGGCTGTCCTTCAAAAGGGCAGGGGTTTGGCGGACAGGGCTTCAGCAAGCCGGG
TGATGGGGGTCCCAGACATTGTCTGGGGCTGAGCCCCCTACTCCCCTCCAGCAGACCTCAAAGGCTCCATATCGCTCTGCTGCGAAGACAATGAAAAAGG
GGTGGCTACGGAACGGTGTCTGGTTCCCCTTGTCCTTCCACCCCAAGCTGCTGGGGCCTGGCCAGCTCTCAAGGCAAGAAGGAAAACATCCTCTGACATG
TGCCGGGGAGGTCCCATGGCTGACTTGAACAGGGCCGAACCATGGCTTGACAGCTCAAAGCCCCTCCCAACGACTTCCACATGGTTCTTGGTATCTCGGA
AGCTTCTAGCTGTGACCAGGCCCTCTCCAAGGCCACCCTAGACACCTAAGATATATTTTAAGTGTTTGGAGATCTGAGTGCTGTGAGAAACAGGGGATTT
CCCCAACCTTGTTTCTCCCAAGTGGGGAGCGGGAGCAGGTGAGGGAGAGAGGAGAGGGCATGAGCCAGCCCCCCCCTCCCGATTTCCCCGTAAAGTGATG
CGGCCCCATGTCCCTCCTTGTTCCCAGAGGAACCTGGGGCCCGCTCCTCCCCCCTCCAGGCCATGAGGATTCTGCAGTTAATCCTGCTTGCTCTGGCAAC
AGGTACGCAGGGGATGGGGGCAGGGCAGGATCCTCCCTCTTGAATCTCTGGGATCCCCTAACCCTCTGTGTCTGGACAGTGACAGGGCTGATTCCAAATT
ACAGAACAACCCATAAGGCACCTGAACTGGAGCAGTGGTCATGAGGGCCTGGATGCCCTTCTAGATAATCCCTTTAAATGCCAAAGGAGGAGAGGTCAAG
GGGGTCGTAAAGGGTCCCGTGGAGGGGCTGAGGAAGCTGGAGTTGGGGGAGCAGTCACTCAAAGCGCCCAGGACAGGGGCTACTGACCAACCAGTATGGA
AGTATTTCCTTTTTTTTTTTTCCCAGAGACAAAGTCTTGCTCTATTGTCCAGGCTGGAGTGCCGTGGTGCCAACACGGCTCACTGCAGTCTTGACTTCCC
GGGCTTAAGTGATCCTTAAGCCATCTCAGCTTCCCCGGTAGCTGGGACCACAGGCACCTGCCACCAAGCCAGGCTAATTGTTTAATTGTTTGTAGAGATG
GGGGAGGAGGTCTCACTATGTTTGCCTAGGCTGATCTAGAACTCCTGGGCTCAAGTAATCCTCCCACCTTAGCCTCTCAAAGTGCTGGGATTACAGGCAT
GAGCCACTGCATTTGACCTTATGGAAGTATTTTCATCCTTTAATACCCGACCCCAGCATCCAGGGCAACCCAGAGGGACACCAGACCAGGGCCCAGACCA
CCCACTCTCTTTCTCTCCTCCCCACCCCCATTTCTGGGAGTCCTCCTGGTCTACCACCTCTCCTTCCTGAGCCCCTTCTTTTGCTCTCACCCCCTCCAGG
GCTTGTAGGGGGAGAGACCAGGATCATCAAGGGGTTCGAGTGCAAGCCTCACTCCCAGCCCTGGCAGGCAGCCCTGTTCGAGAAGACGCGGCTACTCTGT
GGGGCGACGCTCATCGCCCCCAGATGGCTCCTGACAGCAGCCCACTGCCTCAAGCCGTGGGTGCGGGGGCTGGGGCGGTGCCGGGGTGGGGGGCTGGGAA
TGGGGAGATGGATGGAGAGAAGCTCAGGGATAGGGGTGCTGGTAAGGGGATTAGAGATGGGGATGGGTAGTGTCAGCAAGGTTGATGGGCTCGAGTTGGT
ATTGAAGGTGGGGGGATGAATGGGGTTGGGATGGGGCTATGGCTGGGAAGGGGGCTTCGGTGGGAGACGTGGAAGAGGTTGGAAGCAGAGCGATGTTTCT
TCATCCTCAAAGGTGTCACTCACCTCTCCCACCCATGTCTCCCCCGACCTTTCCTCCTCCAACTACTGTCTCTCCCACCTCAGCCGCTACATAGTTCACC
TGGGGCAGCACAACCTCCAGAAGGAGGAGGGCTGTGAGCAGACCCGGACAGCCACTGAGTCCTTCCCCCACCCCGGCTTCAACAACAGCCTCCCCAACAA
AGACCACCGCAATGACATCATGCTGGTGAAGATGGCATCGCCAGTCTCCATCACCTGGGCTGTGCGACCCCTCACCCTCTCCTCACGCTGTGTCACTGCT
GGCACCAGCTGCCTCATTTCCGGCTGGGGCAGCACGTCCAGCCCCCAGTGTAGGAGCACCAGAGGGGAACCTGGCAGGGGGTGGTGAGGAGGGAGTGGTC
AGGATTGTGGAAGGGTTCAGGGCATCAGAGATGCGGTTCACAGTGACGATGTGGGATAAGTTGAGAGGATGTGTGGAAAACGTCAGGATAGGGGGGTGGG
GACAAAAGTTGGGGCCTTGGAGTCAGACGGACGGGATATGCAATCATACATCCATAACCTCCTGGTTGTAAGACCTTAGGCAAGCAGCTTCACCTCTCTG
AATCTTGATTTTCTTCTCTATAAAATGAGAATGATTATACCCACCTGTCAGGATTGGATTAGAGATAATGTATATCAAGCAACTGACATAAATCATTTAT
TGGATAGCAGGCTGGGCACCGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGAAGATCACCTGAGGTCAGGACTTTGATACCAGCCT
GGCCAACGTGGTGAAATCCCATCTCTACTAAAAATGTGAAAATTAGTTGGGCGTGGTTGTGTGCGCCTGTAATCCCAGCTACTCGGGAGGTTGAGGCAGG
AGAATCGCTTAAACTTGGGAGACGGAGGTTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCTGTCTCGAAAAAAAA
AAAAAAAAAGCTGGATAGCATTGCTGTTGCTATTGTTACAAGAAGAGAGGTGAGTTGGCTGCGTCTAAGGACAGGGATTCCCCCAGGGGCGGGATCACAG
CAAGCACTGCATTAGGGGAGGTGGCAGGGGGCTCATTCCCACAGCCCCTCACGCTGTTTCCACAGTACGCCTGCCTCACACCTTGCGATGCGCCAACATC
ACCATCATTGAGCACCAGAAGTGTGAGAACGCCTACCCCGGCAACATCACAGACACCATGGTGTGTGCCAGCGTGCAGGAAGGGGGCAAGGACTCCTGCC
AGGT


SNP Information

Context             (SEQ ID NO:5739):
GGGTGCGCCTGGGGGAACACAGCCTCAGCCAGCTCGACTGGACCGAGCAGATCCGGCACAGCGGCTTCTCTGTGACCCATCCCGGCTACCTGGGAGCCTC
R
ACGAGCCACGAGCACGACCTCCGGCTGCTGCGGCTGCGCCTGCCCGTCCGCGTAACCAGCAGCGTTCAACCCCTGCCCCTGCCCAATGACTGTGCAACCG
Celera SNP ID:            hCV25747601
SNP Position Genomic:     8867
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(G,38)   total(A,1|G,75)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:5740):
ATGAGAGTTGCGGGTGAGAGGACAGACAGTGAGGGGCAGAACAGTGGGGAGCGGCAGGAGCGCCTGAGTGTCCGTGGAGGGGTGCAAGGTGGGGGACTGC
R
TGCCTGCCACCCGCTCAGCCGTCGCCACCGGCAGCAGGTACTGGGTGCGCCTGGGGGAACACAGCCTCAGCCAGCTCGACTGGACCGAGCAGATCCGGCA
Celera SNP ID:            hCV25742776
SNP Position Genomic:     8724
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:5741):
GGTGGCTGAGGAGCCAGGTGCAGAGTGGTAGAGTTGGCTGGCGGAGTGGCCAGCACATGAGAAGACAGGCAGGTAGGTGGACGGAGAGATAGCAGCGACG
M
GGACAGGCCAAACAGTGACAGCCACGTAGAGGATCTGGCAGACAAAGAGACAAGGTGAGAAGGAGGTAGGCGACTGCCAATGAGGGAGTGACACACAGGG
Celera SNP ID:            hCV1844293
SNP Position Genomic:     6034
SNP Source:               Applera
Population(Allele,Count): african american(A,29|C,5)   caucasian(A,27|C,9)   total(A,56|C,14)
SNP Type:                 UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,11)      total(A,11|C,3) ;no_pop(C,-|A,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:5742):
GAGGAGGCCCCACCACCCTCCCCATCTCAGCTCTGGCCCCCAGCCTGGTGGTGAGGAGGAGAGGGGCTTTCTCTGTGCCTCCATTTACCTGCAGCTCTCA
K
GGTACTGCTCACCTCGGTCTCCCCTATTTTTTGATCCCTCTTCCCTTCTGTCCCTCTCTGAATCTCTGTCTCTCCATTTCCCTCCTATGTGTAAGCATCT
Celera SNP ID:            hCV1844295
SNP Position Genomic:     6468
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|G,17)      total(G,17|T,4) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5743):
AAGGACTGGGTATGAAGTCAGGGATCAGAGGTCAGAGGTCAGAGTGTGTCAGAGGTCATCACACTGGAGCAAAAGGCATATATATATATATATGTATGTA
D
AGGATATGGGCATTGTGGGTCATGGGTCTGGGGTTAGAGGTCACCGTAGAATTAAGGTCATGGGATCCAGAGGTTGTACAATCTGGTCAAAATCTGAGGA
Celera SNP ID:            hCV26639594
SNP Position Genomic:     9306
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,2|A,2|-,12)   total(G,2|A,2|-,12|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5744):
TAACCAGCAGCGTTCAACCCCTGCCCCTGCCCAATGACTGTGCAACCGCTGGCACCGAGTGCCACGTCTCAGGCTGGGGCATCACCAACCACCCACGGAG
Y
AAGGGGCCCAGGGCCAGGGGTCAGGGGTCAGGATGGGTACAAGTCTGGGATGCAGGGCGAGAGGTCGAATCATGACACCTCAGAGGAAGGATGGGTAAAG
Celera SNP ID:            hCV11715593
SNP Position Genomic:     9020
SNP Source:               Applera
Population(Allele,Count): african american(C,15|T,19)   caucasian(C,21|T,17)   total(C,36|T,36)
SNP Type:                 DONOR SPLICE SITE

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,6|T,8)      total(C,6|T,8) ;(T,-|C,-)   JBIC-allele(T,413|C,880)   total(C,880|T,413)    
SNP Type:                 DONOR SPLICE SITE


Context             (SEQ ID NO:5745):
GAGAGGACAAGCAGGTCATCCCCTTGGTGACCTTCAAAGAGAAGCAGAGAGGGCAGAGGTGGGGGGCACAGGGAAAGGGTGACCTCTGAGATTCCCCTTT
T
CCCCCAGACTTTGGAAGTGACCCACCATGGGGCTCAGCATCTTTTTGCTCCTGTGTGTTCTTGGTGAGTTCTCCCGGAGCAGGGAGAGGGCAGGACTGCG
Celera SNP ID:            hCV7805085
SNP Position Genomic:     6246
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,10)   total(-,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5746):
ACTCTTTGTGCAACTTCAGAATCTATGCCTGGCACCTCTCTGGGCCTCAGTAGACTGATGTTCTGGAATTTTTTTCTTTTTCTTTCTTTTTTTTTTTTTT
T
GGAGACAGAGTCTTGCTCTTTCTGTCATCCAAGCTGGAGTGCAGTGATGCTATCTTGGCTCACTACAGCCTCAACCACCTGGGCTCAAGTGATCCTCACA
Celera SNP ID:            hCV11715594
SNP Position Genomic:     7673
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,10)   total(T,10|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5747):
CCGCCACCATGCCCAGCTAATTTTTGTATTTTTTGTAGAGACAGGGTTTTGCCATGTTGGCCAGGCTGGTCTCGAACTCCTGGCCTCAAATGACCTGCCC
R
TCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCCGGCCAACATGACCCAAACTCTTTGTGCAACTTCAGAATCTATGCCTGGCACC
Celera SNP ID:            hCV11715595
SNP Position Genomic:     7508
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,9)   total(G,9|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5748):
AATGGAGGAGGGGGAGGGGCAGGGAGAGAGAGGGAGGAAGGGAACAGAGAAGGAAAGATGGGGCAGGGGTTACAGAGAGAGACAGCAAAACAGACGGAGA
S
GACTGGGAGCCCAGACAGGGAACCAGCTGTTTCTGGGGCTCTAAGTCTTTCCCATACCATCCTCCAGTTGGTGCTGTCCCAGACTGAGAGAGATTTGAGG
Celera SNP ID:            hCV1844299
SNP Position Genomic:     10733
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,8)   total(G,8|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5749):
ACATATCTGAGATTGGAGGTCATAGCGTTTGGGGTGTGGGGCCCGAAGTTTGGGGTCATGGAGGCTGGGGCCCAATAAACTAGGATCAGGGGACACTGGC
R
TTGGAAGCAGTGAGGTTTGGAAGATGCAGAGCTGAGGTTGGAGGTTAAGGTAAAGACAGGGACATGGGGTCAGGAGACAGAAGATATGAGATCAAGCTGG
Celera SNP ID:            hCV11467939
SNP Position Genomic:     9533
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:5750):
CTTCCTCTCTCTGACCCATGCCCCTGTCTGTCTCCAGGGCTCAGCCAGGCAGCCACACCGAAGATTTTCAATGGCACTGAGTGTGGGCGTAACTCACAGC
Y
GTGGCAGGTGGGGCTGTTTGAGGGCACCAGCCTGCGCTGCGGGGGTGTCCTTATTGACCACAGGTGGGTCCTCACAGCGGCTCACTGCAGCGGCAGGTAA
Celera SNP ID:            hCV25745668
SNP Position Genomic:     6818
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:5751):
CTGCGTGCCTGCCACCCGCTCAGCCGTCGCCACCGGCAGCAGGTACTGGGTGCGCCTGGGGGAACACAGCCTCAGCCAGCTCGACTGGACCGAGCAGATC
Y
GGCACAGCGGCTTCTCTGTGACCCATCCCGGCTACCTGGGAGCCTCGACGAGCCACGAGCACGACCTCCGGCTGCTGCGGCTGCGCCTGCCCGTCCGCGT
Celera SNP ID:            hCV25747660
SNP Position Genomic:     8820
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,38)   total(C,74|T,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5752):
TGTGTCTCTCCATCTCTGTATCTTTTCTTCCTCTCTCTGACCCATGCCCCTGTCTGTCTCCAGGGCTCAGCCAGGCAGCCACACCGAAGATTTTCAATGG
Y
ACTGAGTGTGGGCGTAACTCACAGCCGTGGCAGGTGGGGCTGTTTGAGGGCACCAGCCTGCGCTGCGGGGGTGTCCTTATTGACCACAGGTGGGTCCTCA
Celera SNP ID:            hCV25745701
SNP Position Genomic:     6792
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,40)   total(C,72|T,2)
SNP Type:                 SILENT MUTATION


Gene Number:                 30
Celera Gene:                 hCG1641509 - 106000122235824
Gene Symbol:                 KLK10
Protein Name:                kallikrein 10;NES1;PRSSL1
Celera Genomic Axis:         GA_x5YUV32VY4T(870347..888775)
Chromosome:                  Chr19
OMIM number:                 602673
OMIM Information:            KALLIKREIN 10;KLK10


Genomic Sequence (SEQ ID NO:1691):
ATTGTCTGGGGCTGAGCCCCCTACTCCCCTCCAGCAGACCTCAAAGGCTCCATATCGCTCTGCTGCGAAGACAATGAAAAAGGGGTGGCTACGGAACGGT
GTCTGGTTCCCCTTGTCCTTCCACCCCAAGCTGCTGGGGCCTGGCCAGCTCTCAAGGCAAGAAGGAAAACATCCTCTGACATGTGCCGGGGAGGTCCCAT
GGCTGACTTGAACAGGGCCGAACCATGGCTTGACAGCTCAAAGCCCCTCCCAACGACTTCCACATGGTTCTTGGTATCTCGGAAGCTTCTAGCTGTGACC
AGGCCCTCTCCAAGGCCACCCTAGACACCTAAGATATATTTTAAGTGTTTGGAGATCTGAGTGCTGTGAGAAACAGGGGATTTCCCCAACCTTGTTTCTC
CCAAGTGGGGAGCGGGAGCAGGTGAGGGAGAGAGGAGAGGGCATGAGCCAGCCCCCCCCTCCCGATTTCCCCGTAAAGTGATGCGGCCCCATGTCCCTCC
TTGTTCCCAGAGGAACCTGGGGCCCGCTCCTCCCCCCTCCAGGCCATGAGGATTCTGCAGTTAATCCTGCTTGCTCTGGCAACAGGTACGCAGGGGATGG
GGGCAGGGCAGGATCCTCCCTCTTGAATCTCTGGGATCCCCTAACCCTCTGTGTCTGGACAGTGACAGGGCTGATTCCAAATTACAGAACAACCCATAAG
GCACCTGAACTGGAGCAGTGGTCATGAGGGCCTGGATGCCCTTCTAGATAATCCCTTTAAATGCCAAAGGAGGAGAGGTCAAGGGGGTCGTAAAGGGTCC
CGTGGAGGGGCTGAGGAAGCTGGAGTTGGGGGAGCAGTCACTCAAAGCGCCCAGGACAGGGGCTACTGACCAACCAGTATGGAAGTATTTCCTTTTTTTT
TTTTCCCAGAGACAAAGTCTTGCTCTATTGTCCAGGCTGGAGTGCCGTGGTGCCAACACGGCTCACTGCAGTCTTGACTTCCCGGGCTTAAGTGATCCTT
AAGCCATCTCAGCTTCCCCGGTAGCTGGGACCACAGGCACCTGCCACCAAGCCAGGCTAATTGTTTAATTGTTTGTAGAGATGGGGGAGGAGGTCTCACT
ATGTTTGCCTAGGCTGATCTAGAACTCCTGGGCTCAAGTAATCCTCCCACCTTAGCCTCTCAAAGTGCTGGGATTACAGGCATGAGCCACTGCATTTGAC
CTTATGGAAGTATTTTCATCCTTTAATACCCGACCCCAGCATCCAGGGCAACCCAGAGGGACACCAGACCAGGGCCCAGACCACCCACTCTCTTTCTCTC
CTCCCCACCCCCATTTCTGGGAGTCCTCCTGGTCTACCACCTCTCCTTCCTGAGCCCCTTCTTTTGCTCTCACCCCCTCCAGGGCTTGTAGGGGGAGAGA
CCAGGATCATCAAGGGGTTCGAGTGCAAGCCTCACTCCCAGCCCTGGCAGGCAGCCCTGTTCGAGAAGACGCGGCTACTCTGTGGGGCGACGCTCATCGC
CCCCAGATGGCTCCTGACAGCAGCCCACTGCCTCAAGCCGTGGGTGCGGGGGCTGGGGCGGTGCCGGGGTGGGGGGCTGGGAATGGGGAGATGGATGGAG
AGAAGCTCAGGGATAGGGGTGCTGGTAAGGGGATTAGAGATGGGGATGGGTAGTGTCAGCAAGGTTGATGGGCTCGAGTTGGTATTGAAGGTGGGGGGAT
GAATGGGGTTGGGATGGGGCTATGGCTGGGAAGGGGGCTTCGGTGGGAGACGTGGAAGAGGTTGGAAGCAGAGCGATGTTTCTTCATCCTCAAAGGTGTC
ACTCACCTCTCCCACCCATGTCTCCCCCGACCTTTCCTCCTCCAACTACTGTCTCTCCCACCTCAGCCGCTACATAGTTCACCTGGGGCAGCACAACCTC
CAGAAGGAGGAGGGCTGTGAGCAGACCCGGACAGCCACTGAGTCCTTCCCCCACCCCGGCTTCAACAACAGCCTCCCCAACAAAGACCACCGCAATGACA
TCATGCTGGTGAAGATGGCATCGCCAGTCTCCATCACCTGGGCTGTGCGACCCCTCACCCTCTCCTCACGCTGTGTCACTGCTGGCACCAGCTGCCTCAT
TTCCGGCTGGGGCAGCACGTCCAGCCCCCAGTGTAGGAGCACCAGAGGGGAACCTGGCAGGGGGTGGTGAGGAGGGAGTGGTCAGGATTGTGGAAGGGTT
CAGGGCATCAGAGATGCGGTTCACAGTGACGATGTGGGATAAGTTGAGAGGATGTGTGGAAAACGTCAGGATAGGGGGGTGGGGACAAAAGTTGGGGCCT
TGGAGTCAGACGGACGGGATATGCAATCATACATCCATAACCTCCTGGTTGTAAGACCTTAGGCAAGCAGCTTCACCTCTCTGAATCTTGATTTTCTTCT
CTATAAAATGAGAATGATTATACCCACCTGTCAGGATTGGATTAGAGATAATGTATATCAAGCAACTGACATAAATCATTTATTGGATAGCAGGCTGGGC
ACCGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGAAGATCACCTGAGGTCAGGACTTTGATACCAGCCTGGCCAACGTGGTGAAAT
CCCATCTCTACTAAAAATGTGAAAATTAGTTGGGCGTGGTTGTGTGCGCCTGTAATCCCAGCTACTCGGGAGGTTGAGGCAGGAGAATCGCTTAAACTTG
GGAGACGGAGGTTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCTGTCTCGAAAAAAAAAAAAAAAAAGCTGGATA
GCATTGCTGTTGCTATTGTTACAAGAAGAGAGGTGAGTTGGCTGCGTCTAAGGACAGGGATTCCCCCAGGGGCGGGATCACAGCAAGCACTGCATTAGGG
GAGGTGGCAGGGGGCTCATTCCCACAGCCCCTCACGCTGTTTCCACAGTACGCCTGCCTCACACCTTGCGATGCGCCAACATCACCATCATTGAGCACCA
GAAGTGTGAGAACGCCTACCCCGGCAACATCACAGACACCATGGTGTGTGCCAGCGTGCAGGAAGGGGGCAAGGACTCCTGCCAGGTCAGTGTGGTCTCC
AACCACAGCCCCATCCCCATCCCCAGCTTCAATGACATCTTTACCGACATCCACAATTTCATCCCCAACCTCAACCCGCCGACCCCTGCAACTCCCAATC
CATCTCTTCCCCTGTTCCCGTTTCTGACCTCAGCACAAACTTCAGCTCCATCCCCGTTTCCACACCATTTCCAGCTCCAACCATCCCCAAACTCGTTTTT
GAGCCTAACCCCATCCTTTATCCCACCCATAATCCCAGCTTTATCGCTAAACCTATCACCTTTCCCAGTGCCTACCCATCCTGTCTCGGCCCCACTCCTA
AGCACCGTCCCCACCTCCTCCCTGGCTAACACCATGCTCAACGCTTTCTCTGACCGACATTCTCTCTCCCCGTGCCCAGGGTGACTCCGGGGGCCCTCTG
GTCTGTAACCAGTCTCTTCAAGGCATTATCTCCTGGGGCCAGGATCCGTGTGCGATCACCCGAAAGCCTGGTGTCTACACGAAAGTCTGCAAATATGTGG
ACTGGATCCAGGAGACGATGAAGAACAATTAGACTGGACCCACCCACCACAGCCCATCACCCTCCATTTCCACTTGGTGTTTGGTTCCTGTTCACTCTGT
TAATAAGAAACCCTAAGCCAAGACCCTCTACGAACATTCTTTGGGCCTCCTGGACTACAGGAGATGCTGTCACTTAATAATCAACCTGGGGTTCGAAATC
AGTGAGACCTGGATTCAAATTCTGCCTTGAAATATTGTGACTCTGGGAATGACAACACCTGGTTTGTTCTCTGTTGTATCCCCAGCCCCAAAGACAGCTC
CTGGCCATATATCAAGGTTTCAATAAATATTTGCTAAATGAGTGAATCTACTGAGTGCTTACTATGTGCTAGACCCTGATCCAATGGCTTTTATTTTATT
TTATTTTTTGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTACAGTGGTGCTATCTCTGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCC
TGCCTCAGCCTCCTGAATAGCTGGGATTACAGGTGCCTACCACCACATCCGGCTAATTTTTGTATTTTTTAGTAGAGATGGGGCTTCACCATGTTGGCCA
GGCTGGTCTCGAACTCCTGACCTCAGATGATCTGCCCTCCTTGGCCTCCCAAACTCCTGGGATTACAGACGTGAGCCACCGCGCCCGCCCGGCTTTCATT
TATTAATTAAAAGAAATTAAATTAATTAATCTATTTAGGAGACAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTAACAATCACAGCTCACGGCAATCT
CAATTTCCTGGGGTCAAGTGATTGTCCTCCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCACATGCCACGAAGCCCAGCTAATTTTTGTATTTTTCGTA
GAGACAGAGGTCTCAGTATGTTGCCCCGGCTAGTCTCAAACTCCTGGGCTCAAGCAGTCTGTCCTCCTCAGCCTCCAAAAGTGGTGAGATTACAGGCATG
AGTCGCTGTGCCTGGCCTCCAAGCACTTTCAAATGTATCAACTTAATCCTCACAAAACCCTGTGAGGTCGGTACTGTTTTCATACCTATTTTATAGTTGA
AGAAACAGACACAGAGAAGCAAAGTCACTTGCTCACAGTCACGTGGCTAGGAGAGCAAGGATCTGAAGCAAGGCGATCTCTTAATTACCAAGTGATGTTC
CTGGAGTAAGGCTCTGTTTGTTTCCTTTCCTGTAAAATGCTGCATGCAAAAGTATAACACAGTAAGTAAAGAAGTCAGTTAGCCTGCACATACTAAGACC
TAACCAAAGGAGCTTATTGTTTTTCTCCAACTTCCATGATAGGTAATTAGATAGTGGAGACCTCTGCTGGCCAATATGGTAGCCACTAACCGCAGCTGGC
TCTTCCAATTAAAATTACATAAAGCCAGAAATGTAACTCCTCTGTCTCACTTGTTATATCTCCAAGGCTGGATAGCCACATGTGACTGGTGGTGGCTGGA
TTAGCTAGTGCATATAAAACATCACTGCAGAAAGTTCAGCTGAGCAGCACTGAGTTAGATGGCCTCTGAAGAGGATGTCCCACGGAGAGAATCCAGAACT
CAGGATCTTTTTTTTTTTTTTTCTTTGCGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACTTCTGCCTCC
CAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCTAGTAGCTGGGACTACAGGCCTGTGCCAACATCCCCAGCTAATTTTTGTGTCTTTTTAGTAGAGATG
GGGTTTCACTATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCGCCCCCCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCG
CGCCCGGCCAGCTCAGGATCTTTTGGGATGGTCTGTTCACCTCGCAGAAGTGGCTGGCATGAGCAATAGGAGCCCAGAGTGGAACCAGGGCCTTCTGGTT
GTCAAGTGGACTTGCTGTGTGACCTCCTGTGAGTCTCTGCCCTCTCTGAGCCTCTCACTCCTCACCTGAGATGAGGGAGTTGGCTGAGGTGATGCCGATG
CCCCTCACAGCTTTGACCTCCTATGATTCAGGGGCCTGTGTGTCACCTGGTGGCACACAGATGGCAGGGAGGGTGTGAGATGGCCACACATGGGTATGAG
GCAGAGCCACAGCCCCCCCCAACACGCACATGGGCTAGTCACTGGGACACACACAGAGCTCACTCACGGCCACAGAGTGGGCGTGGGTTTCCCTTTTTCC
TTGTTTCTGTTTCTCTTAGCCTCGGCGCCTCCCTCCCTCCCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTGGCTCTTTTAGCCTTGGTTTGT
TACAATCTCCCTTTTCAAGCCAGCCTCTGTCCCTCCTACTCAACCTGCTTTATCTCTAGGCCTTCCTCCTTCCTCTTCCACAGTCTGGCTTCTCACATTG
TCACTCTAGGTATGCACTTCCCATTGATTTCCTCTTGCTCAGTGGCCTCTCATCCYGCCACCCCTAGCCTTGCTGGGGACGTGAACCCTCTCCCCGCGCC
TGGGAAGCCTTCTTGGCACCGGGACCCGGRGAATCCCCACGGAAGCCAGTTCCAAAAGGGATGAAAAGGGGGCGTTTCGGGCACTGGGAGAAGCCTGTAT
TCCAGGGCCCCTCCCAGAGCAGGAATCTGGGACCCAGGAGTGCCAGCCTCACCCACGGTACAATTAGACAGAGGGAAAGGGAGGGAGCCCGGGGGTGGGG
GTAGGGGAGGGTGGAGAAGCTTCCGGACTCCTTGGGGTTAAAAGGGAAGGTCCCGCCAGGGGTCCCTGGGCAGAGGATACCAGCGGCAGACCACAGGCAG
GGCAGAGGCACGTCTGGGTCCCCTCCCTCCTTCCTATCGGCGACTCCCAGGTGAAGCTACCTGCACCCCACCCGGGTTGGGGTGGATTGCGAGAGGATGG
GTGGGGACCCCCGGGCCACAGGCAGGAGCCGGCTTAGAGCCTCGGTTTCTCCACCTGCGGGACGCGGAAGTCCCCCCGCTGTGAGGTTGAGAAAGAGGCT
CCCACTGGCTCCGAGCCTCGGATCCCCACCCCGCGCGTGAAGGAGGGGGAAACCTCGGGCGCGGCGTGGCTGCAGCCAGGGTAGCTGGGGCGCGGAGAGC
GCTCCACTCGGGCACAGGGAGGACGGGAAGATGCCGCGAGGGGCGTCATTAGGGTAATTGTGCCCATTACCGCTGTTCCAGCCCGAATCTCCCGTCTGCC
AGCCCCTGGGGTTATCGGCTGCAGGTCAAAAGGGTGCTTGCGGGCTGGGGTGGCCCAGGCTGGGCGGATGAGCGCGGCGAGGTGGGGGTCTCTAACGGAG
CATCTGTTTTAACCCGCCCCTGCACACACCCCAGCAGATCCTGGCCATGAGAGCTCCGCACCTCCACCTCTCCGCCGCCTCTGGCGCCCGGGCTCTGGCG
AAGCTGCTGCCGCTGCTGATGGCGCAACTCTGGGGTAAGGTSGGGGRCAGGGGGCGGGGAGAGGCGCCGGTGGGAGGCACGGGCGGGAGGAGAATGTGTT
CCCGTCACCAAGCCCCGCGCACCTCTCCTCCCCCGAGACCCCAGCACCCACCCAGCGCTCCGGAGCACGGCCCGCCCCCAAGTCAGCTGGGCCCTTCTTC
TGGCTCGGCCCCTGGGTGACCCGCCCCACTCAGGCCCTGTCCGATTTCTGCCACCCGGATCCTCGCTCTTCCGTGGACTCTTCGCCGCGTTCTTTCTCCT
CCTCTTACGCCGCCCCATCCCGGCCCCGCTCCATTTTACACTACCGTGTTTTGTTTTGTTTGTTTGTTTGTTTGAGACGGAGTCTCGCTCTGTCGCCCAG
GCTGGAGTGCAGTGRCGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGC
GCCCGCCACCAAGCCCGGCTAGTTTTTTGTATTTTTAGTAGAGATGGGATTTCACCGTGGTCTCGATCTCCTGGCCTCGTGATCCGCCTGCCTCGGCCTC
CCAAAGTGCTGGGATTACAAGCGTGAGCCACCGCTCCCGGCCACACCACMGTGTTTTATCCTGAGTCTTGCCTTACCGCTTTTTGCCCTCTCCCCTCACT
TTTTTTCTTCCTCTTTCCCTTTCTCTCTCTTTTTTCTTTTTCTTTCTTTCTTTTCTTTCTTTCGTTCTTCTTTTCCTTCCTTCCTTTCCTTCCTTCCTTT
CGTTTGTTTCTTCTTTCTTGTTTTACTTTCTCTCTTATTTTTTCTTCTTTCTTTCTTGTTTTTTTCTTTCTCTCTCTTTTTCTTTCCTTCTTTTTTTTTT
TTTTTTTTTTTTGAGACAGGGCAGTGCTCTGTCTCCGTGGCTGGAGTACAGTGGCCCAATCAGAGCTCACTGCAGCCTCGACCTCCTGGGCTCAAGCGAT
ACTCAGCCTCCAGAGTAGCTGGTACCACAGGCATGCACCACCACATCCGGCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACAGGGTCTCACTCTGT
CGCCCAGACTGGAGTGCAGTGGCCCAATCTCGGCTCATTGCAACCTCCACCTCCTGGGCTCAAGCGATCCTCCCACCTCAGCCTCCCAGGTAGCTGTGAC
TACAGGCGCATGCCTCCGCGACTACTTTTTTGTTGTTGTTGTTGTTGTTTGTTTGTTTTTGTAGAGACTGGGTCTTGCTGTGTTGCCCGGGCTGGTCTTG
AATTCCCGAGCTCAAGCGGTCCAACCGCCTCGGCTTCCCAAAGTGCTGGGATTACAGGCGTAAACCACTGCGCCCCACCCCTCTCCTGGTTTTCAATCCC
GTTTTGTTATTCACACCCCTTCCTCTCCCCGATCCCCGAGTTCTATCCCCGCACCCTTACCTCCCCGCCGCGTTCAATCCCCGCCCCTCTATCGACCAGC
GACGTTCTAGCCAGCTCTCCAGGCGCGCTGCGTTCAGTCCCTGCCCTCCAGACCCACCCTATTCTGTCTCATTACTCCACGCTACCCTATCCCAGCTTCC
TTCCACTTTCACGCGCTTCTTCTCCTCCCATTCCCTTCGGTGCACGCGAAACCCCCAATATTTCCCTACCACCCTCGCGTTCTGGCTGCGTCCCCCGTCC
CCGAACGYAGTCCAGTGCCACAGCCCAGCTCCAACCCCAAACCCAGACCCTGCCCTCCGTGCTTTGATTCCGTCCCCTTTCTTTCTCCAGCCGCAGAGGC
GGCGCTGCTCCCCCAAAACGACACGCGCTTGGACCCCGAAGCCTATGGCKCCCCGTGCGCGCGCGGCTCGCAGCCCTGGCAGGTCTCGCTCTTCAACGGC
CTCTCGTTCCACTGCGCGGGTGTCCTGGTGGACCAGAGTTGGGTGCTGACGGCCGCGCACTGCGGAAACAAGTAGGAGRAGATCCATCCCCGAGGACGCC
ACGGGGGGCTGTGGAGGCGGCCTCCAGGGAGGAGCGGGCAGGGCGGGGTCTCTCGGAACTCCCACAGCTGGAGGTGCGGTCCCCGGTGTCCTTCCAGCAG
GAGGAGAGACCGGSSTTGCGCTGTGGCCGCCAGGGGRCGGTGTGGTCCTTTTCCGCATTTCTGGGCCCGTCACTCCTCTCCCGCTGATTCTCCTTGAGCT
CTAGGAGGAGGTGGTTGCCTGCAACGGATAGAAGCCAGGGTCCGGTGTGGTCAGGAATTTAGAACTAAAGGAAAAGGTTCACTTCGTGAGTCCCCGTTGA
AGGAGGAAGGGTTGGGTATTACCACAGAGAAAATGTGGAGTTGGGCTGGGCTCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGT
GGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCACTTCTCAACTAAAAATAAAATAAAATAAAAAATAAAAAATTTTAAAA
AAATTAAAAAAAAAAAAAGGCTGGGTGTGGTGGTGGGTGCCTGTAATCCCAGCTACTCAGGAAGGAGGCTGAGGCAGGAGAACTGCTTGAACCTGGGAGG
TGGAGGTTGCAGTGAGCCGAGATTGCGCCATTGCATTCTAGCCTGGGTGACAAGAGCGAAACTCTGTTTCAACAAAGAAAAGAAAAAGAGAAAAGAAAAT
GTGGAAGGCTTACCTAGGTGTCCAGGCCCCCAGCCCTCCTCAATTCCTGCAGATCCTCAGAGCTCAAACAACTGATTCCTCCTCCCCATGTCCACTGAGG
TCCCCTTCTCCCACAAGGCCCTCTTCCCTCAGACTCTTCCTATCTCCAGGCCCTGCTTCACTGCCCACCTGCTTTCCCAGTCCCTRTGAAGGGTTTGCCT
TCACATGCCTCTTCCTTCCCCCAGGCCACTGTGGGCTCGAGTAGGGGATGACCACCTGCTGCTTCTTCAGGGMGAGCAGCTCCGCCGGACSACTCGCTCT
GTTGTCCATCCCAAGTACCACCAGGGCTCAGGCCCCATCCTGCCAAGGCGAACGGATGAGCACGATCTCATGTTGCTRAAGCTGGCCAKGCCCGTAGTGC
YGGGGCCCCGCGTCCGGGCCCTGCAGCTTCCCTACCGCTGTGCTCAGCCCGGAGACCAGTGCCAGGTTGCTGGCTGGGGCACCACGGCCGCCCGGAGAGG
CAAGAGCTGGGGCTCTGAGGCCRGAACCTCAGGAGGAGGGGGCTGAGGGCCTGAACCCCTGGGTCTGAGGAAGGATGGGCTGGGGACTGGATTCCTGGAT
CTGAGGGAGGACGGGCTGGGGTCCTAGATGCCTGGGTCTGTGAGTCTGAGGGGAGGAGGGGCTGGGGGCCTGGACTCCTGGGTCTAAGTGGGGAGGGGCT
GGGGCCAGGATTCTTGAGTCTGAAGGAGGAGGGGCTGGGGCTTAGGATAGAAACGGTCTTGTATCTGGACTCCTGGCTCCCCAAGGATTGGGGGCTGGAC
CCAGGGATTACTGGCATATTCTCCCTTCAGTGAAGTACAACAAGGGCCTGACCTGCTCCAGCATCACTATCCTGAGCCCTAAAGAGTGTGAGGTCTTCTA
CCCTGGCGTGGTCACCAACAACATGATATGTGCTGGACTGGACCGGGGCCAGGACCCTTGCCAGGTAGGGTCTGAACAGGGAGAGTCTCTGACTCCTGGG
AGGGAGGACAGGGAGGTTATGGGAAAAGAGCAGACCCTGTGCCCGATCCCCARCTCCATTCCCAAACCCATCCTTGACCCCAACTCTTACCCAGACCTAA
CCCCCTCCTCATCCCTATCCTCAATCCCATTTCCATCCYAACCCCACCCCATTCCCRTCTCCAAGCCCATTTTCATCCCCTCACCTTCCATGAACTACAA
TCCCAACCCCAGTCTCACTGTGCCTTCATTCTCATCCCCCAGCCCAACCTCCCATAACCTGAAGTCCACCTCCATTCCTACCTTCCAGCTCATACCTAAT
TCCAACCCCATCCCATCCTCGTCTTTATCCCAACCCAACYCCTTCCTTCCCCACCACTGCCCCAGATCCCAAAGTGACAGCTCTCACGTTGGCACATTTA
TTTGATCTCTCCTTYCTGCCACCCCCAGAGTGACTCTGGAGGCCCCCTGGTCTGTGACGAGACCCTCCAAGGCATCCTCTCGTGGGGTGTTTACCCCTGT
GTGCTCTGCCCAGCATCCAGCTGTCTACACCCAGATCTGCAAATACATGTCCTGGATCAATAAAGTCATACGCTCCAACTGATCCAGATRCTACGCTCCA
GCTGATCCAGATGTTATGCTCCTGCTGATCCAGATGCCCAGAGGCTCCATCGTCCATCCTCTTCCTCCCCAGTCGGCTGAACTCTCCCCTTGTCTGCACT
GTTCAAACMTCTGCCGCCCTCCACACCTCTAAACATCTCCCCTCTCACCTCATTCCCCCACCTATCCCCATTCTCTGCCTGTACTGAAGCTGAAATGCAG
GAAGTGGTGGCAAAGGTTTATTCCAGAGAAGCCAGGAAGYCGGTCATCACCCAGCCTCTGAGAGCAGTTACTGGGGTCACCCAACCTGACTTCCTCTGCC
ACTCCCYGCTGTGTGACTTTGGGCAAGCCAAGTGCCCTCTCTGAACCTCAGTTTCCTCATCTGCAAAATGGGAACAATGACGTGCCTACCTCTTAGACAT
GTTGTGAGGAGACTATGATATAACATGTGTATGTAAATCTTCAKGTGATTGTCATGTAAGGCTTAACACAGTGGGTGGTGAGTTCTGACTAAAGGTTACC
TGTTGTCGTGATCTGACCACGTCCCGGTGAAAGCGTGTGTCCAGGGAAGAAGTGCACAGGGTAGCCCCCAATCCCAACCTTCCATCCCCAACCCTTAGGG
ATGATGGAAGAATCATTTTCCTCACCCTAGTTCCAAGTCCCAGGAAACACCTTTTAACCACTTCCTTCTCATCTCCCACTGTTTCCCACTTCTGGTTCCA
CCCAACACCAGTTCCTCCTGCCTTGGCACGAGCTAGGCTGGCCCTGAGTCATTAGCACCTTYTCTGCCTTCATGAGGCCACTGAACTCAAGGGACCTCAC
CTTGCTTCCATCCCAGCCTCTAAGACCAGAGGGCCGAGGGGGTAGTGAAGATTGGGAAACCCTTGCCACCTCAACTGCCCAGCTTGTGCCAAGAAACCTC
CCTCTGACATTTAGGGGAAAATCTTTGGTTTGTCTGTTATTAATTGGCTGTGAGATTTTCGTCCTGAAAACTTGGGAGGAGGAATTGTTTGATTCTCCCT
GAAATTGGGGGAGGGAAGGGGAGTTAATACACAGAATCCAGGTAAGGCTAATAGAAGCTTCAGTGTCCGCTGGGTGTGGTGGCTCACGCCTGTAATCCTA
GCACTTTGGGAGGCCGAGGAAAGCAGATCATCTGAGGTCAGGTGTTCGAGACCAGCCTGGCCAAAATGGTGAAATCCCATCTCTACTGAAAATACAAAAA
CTAGCCAGGCGTGGTGGCAGGCACCTATAATCCCATCTACTTGGGAGGCTGAGGCAGAAGAATCACTTGAACCCGGGGGGCAGAGGTTGCAGTGAGCCAA
GATTGCACCATTGCACTCCATCCAGCCTGGACGAAAGAGCAAAACTCCATCTCAAAAAAAGAAGAAGTTTGAGTGTCTCAGCTTATCCTGAACTTTGAAG
AAGTAACATAAGCTAGCTGAATATAGGCACAACAGAAATTTCCCATTAAGCACGGGGTTTTTGTTTGTTTGTTTGTCCTTTCAGTTACCAATTTATGGAG
CATCTATTATGTGCCAGGCCCAGTGCTGGGTGCTGGGGACATACGTAGGGGTGATCACAAGGTCCCCCACCCTGCAGAGCCCACAGGAGGTTGATGTACA
ATGTCTGAGCACACAGCTCCCTTCCGTGGCCTCTTTCCCATTCTGCCCCCATTAGCACACGCAGGAAATGTCAGTCAGGCGTATCAGCTGGGTTTGTCAT
CCGAAGACCAGAAGCGAGGTCGGTGGAAACTTGAAAACTCGATTCATTATTAAAGGCAACTCACCCGTCCCTTTAGTCACTCCACAATGTTTATCGAGCC
ACGTCTTATGCCAGGCCTCAAAGATGAATCAGACCAGGCACTACCCTCAAGGAGCTGCTAGTTAGGTCAGGGAGACAGGCCAGTCTTACATTCCTGTCAT
TCAGGTCTCCACTCAAAAGTCACCTCCTCCGGGAGGCCTTCCTGAATTGCCCAGGCTATAGGAGTCCACTTTTGGTCATCCAGTCCCGATGCTCTGTTTT
TTGTTTGTTTGTTTTTTTTTTAATAGCACCTGTTATACCTGAAATTATCTCATTTGTGTTTACTTGATAATGGTCTATGTCACCCTTCCCCACAAATTCC
GTGAGGGCAGTGATTCAGATATTTGTTCACTGTGATTTTCTAAGCTCCTGTATTGTGCCCGGCACACAGAAGTCACCCCCGTTGCTGTGTGAACACATAA
CACAAATAGATCAGTGCTGTAACAGAAGGGGGTATGGGGTGCACCACACCAAGTCCACAGGCTGTGCCTGAAGGAGTCAGGAAAGGCTTCTCAATGAGGG
GACATTTGTGCAGGAGTTTAAAGGATAAGTAGGAGTTCACCAGGTAGAGAAGGAAATGCATTTCAATCACTTTGCTGTATGACTTTGAGCAAATTACTTG
AATGCTGTCTCTTCCTCAGTTTTCACTCTGTGAAATGGAGACACCTGCTTAATTAGACTCCCGTGAGAGTTAAATGAGATAGGCTGGGCGCAGTGGCTCA
CTCCTATAATCCCAGAACTTTAGGAGGCTGAGATGGGTGGAATGCTTGAGCTCAGGAGTTTAAGATCAGCCTGAGCAACATAGTGAAACCTCGTCTCTAC
TAAAAAAAAAAAAAAAAAAAAAAAAAAAATTAGCCTTGCATGGTGGTGCACACCTTGTAGTCCTAGCTACTCAGGAGGCTGAGGCAGGAGGAATACTTGA
GTCCAGGAGGTTGAGGCTGCAATGAACTATGATCATGCCGCTGCACTCCAGCCTTGGCAACAGAGACCCTGTGTCAAAAAACAAAAAACAACAACAACAA
AAGGATAATTAAATGAGATAATATACATGCAAAGTTCACCTAACACCAGGCACTGAGAACACAGTCAATAAAGGTAGCTATTAAAATGCTCATTTTTTTT
TTATTTTTCTTTTGAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTAGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCAATTCT
CCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCCGCCCGCCACCATGCCTGGCTAATTTTTGTGTTTTTAATAGAGTCAGAGTTTCACCATGTTGGC
CAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCACCCACCTCGGTCCCCCAAAGTGCTGAGATTACAGGCGTGAGCCACCGCGCTTGGTCTAAAATGC
TCTTAATAGCAGTTAAGGTGGCACTTAGCACATAGTGGATACCCAGTCCCTGATCTCAAGGACTTCCCTGTCTGGAAAGGGAGTGAGACAACTGCAGGCA
AGGGTGAAATGAGCTATGATAAAGGCACCACAGGTTTCTGCAGGGGATGAAGAGACATTGAACATTTACCATGTGTCAGACACTGTTGTGCTTCATGTGT
GTAAATTTGCTTAATCCCCCCAACGACCCTCGTTATTACTGCTACTTAACAGATGGAGCAGGCCAGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTT
GGGAGGCTGAGGCAGGCGGATCACGAAGTCAAGAGTTGGAGACCAGACTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAGTACAGAAATTAGCCAGG
TGTCTTGGCGCACGCCTTTAGTCCCAGCTACTTGGGAGGTCGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCTGAGATCGCGCC
ACTGTACTTCAGCCTGGGTGTCAGAGCAATACTCCGTTTTGGAAAACAAACAAACAAACAAACAAACAAAAAACAGATGGAGCAACTGAGAGAGGTCTTG
TGACTTGCCCAAAGTCACACACCTCATCACTAATCACACCTAATCATTGAGATTTGGACACACATGGTTCAGTTCCAGAGTCCATGCTCCAAACCATGAC
GACACAGTGAGAGAACATTCAAGGGGAGCCCAGACCCAGCTTCATAACCAGGCCTGTGAGCAGGAGAAAGTGGAAGGGATCGTAAGTGCCCAGGGGAGGC
AAAGATGGACTCTGCCTGAGGATCTCAGAGATTTCCTGGAGGAGGGAGAATTGAGGTTGGGTGTTGAAGGATGAGTGGGAGTTCACCAGGAAAAGAAGGA
TATGGAGAAAGACATTCACTCATTCAATGAACATCTCCTGAGGACTTCTGCAAGCCCTGTTCCGCCTGGAACGGGGTGATGCTGGGACACAGAGATGAGT
CAGACCTGGGCCCAGCCCTCCAGAAGCTGTCCACCTGGTGAGAAGGAATGATGAGGAGAGAGGCAGGGAGGATGGGGTGATGGAAGGGACAATGGGGTGG
GGGGCAGGGAGATGGATGAAAAAAATATATAGCAAATGTTCTCAGGATTTGGCAAAGATCAGGATGTATTAAGAGAGAGCACAGGGCACTTGCTACCTGG
AAGGTTGGGCACCTGGGTCCTTGGGTGGTGGAGCCGTGGGGAAGGGGGCAGGTTATGACAAGAGTGGGTTAATCCAGATGGAACCAGATTTCTCAACATT
CTAGGAGAGGGCCTTGTCCTTGTGGGAAGAGGCCCAAATCCCCAGGGCAGGGAAGGTTCTGCAAGGTGTGTAAACCTGTGCAGCTGCCTGTGGTCTCTGC
CTCACTCCACCTGGATTTCCCTCAATCTTTCTCGTGTTCTGTCTCCTCCTCCCACTCCTCCTCTCATCTTGGGTCCTTCTGTGCCTGTACCTCCCTCTCT
TTGTATCTTTTGCTCTTGTGTCTGAGTCCTGACTCTGTCTTCCACCCCTCGCCTCCTTTCTGGGTGGTCCCCCTGCACATCCCTCCAGCCTGCCGTGGGA
GGTTGGTCTCTGCACACCACTGCTTTATCCAAAATAAACCTGCTGCACCCCAGGACCTTAGGCTTCAAGGATCTCCCTCCTTTTCCAGGACACAAAAGAT
TCTGTATCTTGTAGCCTAAGGTGATGAGGAATGAGGTCTCCCACTCTGAAGACCCCAGAGGAGGTGCCCACAACCTCTCCACACCCCCAGCACTCCTCCT
CCATTCAGTCAAGCTCTGGCCCAGCAAGCCGCCAGTTCATCCCAAAAGGGGGGTCCCCCTGCACTTACCTCCTCTCCCAAGGCCCCTGTCACAGCCCCAG
GGCTTCCCCCTCCCCCAGGTACATTTCCCAACCCCGATTAATCACAGGGGCGGCCCCATGGAGGAGGAAGGAGATGGCATGGCTTACCATAAAGAAGCAC
TGGACGCCGGGTGCACGTTCCAGGATCCAGGTGCCCAGGGGTCATGAAGCTGGGACTCCTCTGTGCTCTGCTCTCTCTGCTGGCAGGTGAGGCTCCCAGG
CTGGCTGCCCCTTCACGGCTGTACTAAGGTCACCTTGCTCTTCCCTCCCATCCCAGGCTTCTGCCTCCTGCCCTCTAGGCTTCTCAGCATCCTCTCCCTG
CCCTCCCAGCCTGCTCTTCGCTGACCCCTTTGTCCCTCATCCCCACCCCAGGGCATGGCTGGGCAGACACCCGTGCCATCGGGGCCGAGGAATGTCGCCC
CAACTCCCAGCCTTGGCAGGCCGGCCTCTTCCACCTTACTCGGCTCTTCTGTGGGGCGACCCTCATCAGTGACCGCTGGCTGCTCACAGCTGCCCACTGC
CGCAAGCCGTGAGTGACCCAGGCTGGCCATGCTGGGGAGGGACAGAGGCTGGGGGTCAGGAGAGGGTGAGGGGTGCTTTAGGCCAGAAGTGCGGAGCCTC
CACTTCTGATACCACAAGTTCAACTCTTAGAAGTAGGAAGGGTAGCCTCCCAAATCCTAAAATTCTAGAGACCAGCAATATCTCATTTGAGAAGTCTAAG
ATTCGAAACTTAGGCTCTTCGAATCCGAGACTGACCCAGAGAAATCCAGAATCGTAGAATCCTAAAATCTTGAATTTATGAAATTCTGCAATAGCCTCAG
CAAATTTTAGAATCATAGATTCGCAGACTATTAGAATCTTAGCAGTCTGGGTCAGCACTGCCCAGAGGAATTATGATGCCAGCCACATGTGTAAGTTTAA
ATTTCTGGTGGACACATTTAAAAAATAAGGAATGAGTAAAATTAATTCTAATAGATTTAACTTGACATACCCAAAAACTTATTTTGACATGTAATCAATT
TTTAAATACGTATGAATGATACAGTTTACTTTTGTTTTGGTACTAAGCCTTTGAAATCTGTTCTGTATTTTACACATATAGCCTGTTACAAAATGGACTA
GCCACATTTCAAGTGTTCAATAGCCATAATGGCTAGTGTGATCCTAGAATCTTAAATTCAGAGCTTTCTAGATTCATTGAATATTGAAACTCACAGTACT
AGAATCTTTGATTCACAGTATCCTAGAATATTGAGATTCAGATAATTCTGTAGTCTTAAACTATTTGAATCCCAGACTCTTAAATTTCTAAGGTTATAGA
TTTATAGAATGATGACATTCTAGTCTTTCTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTCTCCCTCTATCTCCCAGGCTGGAGTGCAGTGGCACAAT
CTCAGCTCACTGCAACCTCTGCCTCTCGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTATGCACCACCATGCCAGGCTA
TTTTTTTTTTTTTTTTTTTTTTAGTAGAGACGGGGGTTTCACCATATTGGCCAGGCTGGTCTTGAACTCCTGACCTTGTGATCTGCCCGCCTCGGCCTCC
CAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCAAAATTCTAGTCTTTTTGTCCTAGAACATTAAAATTCTATGTTCAAATCTTAGATTTAA
TTCAGATAATGTTAGAATCCTGGAGTTTTTTTGATCCAGGGGAATCTGGAATGTTAGAATCTTGGATTCATAAAACTCTAAACCTTGAGCCTCTAGATTC
TAGAATCATGGATAATAGTGTGTCGGAATCTGAGAATTCTAGAATCTTAGGTTCTGGGCATTCTAATAGTATCCTGGAATCCACCTGATGCAGGAATCCT
CTCTCCATTGCCTCTGAAAAGTGACCAT


SNP Information

Context             (SEQ ID NO:5753):
TTTCCCAGTCCCTGTGAAGGGTTTGCCTTCACATGCCTCTTCCTTCCCCCAGGCCACTGTGGGCTCGAGTAGGGGATGACCACCTGCTGCTTCTTCAGGG
M
GAGCAGCTCCGCCGGACGACTCGCTCTGTTGTCCATCCCAAGTACCACCAGGGCTCAGGCCCCATCCTGCCAAGGCGAACGGATGAGCACGATCTCATGT
Celera SNP ID:            hCV22271850
SNP Position Genomic:     10073
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,7)   caucasian(A,18|C,20)   total(A,19|C,27)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,7|C,29)   caucasian(A,18|C,20)   total(A,25|C,49)
SNP Type:                 SILENT MUTATION

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


Context             (SEQ ID NO:5754):
GTTGTCCATCCCAAGTACCACCAGGGCTCAGGCCCCATCCTGCCAAGGCGAACGGATGAGCACGATCTCATGTTGCTAAAGCTGGCCAGGCCCGTAGTGC
Y
GGGGCCCCGCGTCCGGGCCCTGCAGCTTCCCTACCGCTGTGCTCAGCCCGGAGACCAGTGCCAGGTTGCTGGCTGGGGCACCACGGCCGCCCGGAGAGGC
Celera SNP ID:            hCV16166666
SNP Position Genomic:     10201
SNP Source:               Applera
Population(Allele,Count): african american(C,16)   caucasian(C,15|T,17)   total(C,31|T,17)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,31|T,7)   caucasian(C,19|T,19)   total(C,50|T,26)
SNP Type:                 MISSENSE MUTATION

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


Context             (SEQ ID NO:5755):
ATGAGAGCTCCGCACCTCCACCTCTCCGCCGCCTCTGGCGCCCGGGCTCTGGCGAAGCTGCTGCCGCTGCTGATGGCGCAACTCTGGGGTAAGGTCGGGG
R
CAGGGGGCGGGGAGAGGCGCCGGTGGGAGGCACGGGCGGGAGGAGAATGTGTTCCCGTCACCAAGCCCCGCGCACCTCTCCTCCCCCGAGACCCCAGCAC
Celera SNP ID:            hCV15973746
SNP Position Genomic:     7147
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:5756):
TGGCCATGAGAGCTCCGCACCTCCACCTCTCCGCCGCCTCTGGCGCCCGGGCTCTGGCGAAGCTGCTGCCGCTGCTGATGGCGCAACTCTGGGGTAAGGT
S
GGGGGCAGGGGGCGGGGAGAGGCGCCGGTGGGAGGCACGGGCGGGAGGAGAATGTGTTCCCGTCACCAAGCCCCGCGCACCTCTCCTCCCCCGAGACCCC
Celera SNP ID:            hCV15973747
SNP Position Genomic:     7142
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


Context             (SEQ ID NO:5757):
TCCTCTTGCTCAGTGGCCTCTCATCCTGCCACCCCTAGCCTTGCTGGGGACGTGAACCCTCTCCCCGCGCCTGGGAAGCCTTCTTGGCACCGGGACCCGG
R
GAATCCCCACGGAAGCCAGTTCCAAAAGGGATGAAAAGGGGGCGTTTCGGGCACTGGGAGAAGCCTGTATTCCAGGGCCCCTCCCAGAGCAGGAATCTGG
Celera SNP ID:            hCV11715592
SNP Position Genomic:     6230
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:5758):
CATTCCCAAACCCATCCTTGACCCCAACTCTTACCCAGACCTAACCCCCTCCTCATCCCTATCCTCAATCCCATTTCCATCCTAACCCCACCCCATTCCC
R
TCTCCAAGCCCATTTTCATCCCCTCACCTTCCATGAACTACAATCCCAACCCCAGTCTCACTGTGCCTTCATTCTCATCCCCCAGCCCAACCTCCCATAA
Celera SNP ID:            hCV15863065
SNP Position Genomic:     10957
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5759):
CCATGTCCACTGAGGTCCCCTTCTCCCACAAGGCCCTCTTCCCTCAGACTCTTCCTATCTCCAGGCCCTGCTTCACTGCCCACCTGCTTTCCCAGTCCCT
R
TGAAGGGTTTGCCTTCACATGCCTCTTCCTTCCCCCAGGCCACTGTGGGCTCGAGTAGGGGATGACCACCTGCTGCTTCTTCAGGGCGAGCAGCTCCGCC
Celera SNP ID:            hCV16166678
SNP Position Genomic:     9986
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,28)   caucasian(A,19|G,19)   total(A,27|G,47)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:5760):
AGCTCCGCCGGACGACTCGCTCTGTTGTCCATCCCAAGTACCACCAGGGCTCAGGCCCCATCCTGCCAAGGCGAACGGATGAGCACGATCTCATGTTGCT
R
AAGCTGGCCAGGCCCGTAGTGCCGGGGCCCCGCGTCCGGGCCCTGCAGCTTCCCTACCGCTGTGCTCAGCCCGGAGACCAGTGCCAGGTTGCTGGCTGGG
Celera SNP ID:            hCV22271856
SNP Position Genomic:     10178
SNP Source:               Applera
Population(Allele,Count): african american(A,30|G,8)   caucasian(A,19|G,19)   total(A,49|G,27)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,17|G,1)   caucasian(A,8|G,10)   total(A,25|G,11)   
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:5761):
TTTACCCCTGTGTGCTCTGCCCAGCATCCAGCTGTCTACACCCAGATCTGCAAATACATGTCCTGGATCAATAAAGTCATACGCTCCAACTGATCCAGAT
R
CTACGCTCCAGCTGATCCAGATGTTATGCTCCTGCTGATCCAGATGCCCAGAGGCTCCATCGTCCATCCTCTTCCTCCCCAGTCGGCTGAACTCTCCCCT
Celera SNP ID:            hCV25638424
SNP Position Genomic:     11390
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,29)   caucasian(A,1|G,37)   total(A,2|G,66)
SNP Type:                 UTR 3

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,33)   caucasian(A,1|G,23)   total(A,2|G,56)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:5762):
GACCCTTGCCAGGTAGGGTCTGAACAGGGAGAGTCTCTGACTCCTGGGAGGGAGGACAGGGAGGTTATGGGAAAAGAGCAGACCCTGTGCCCGATCCCCA
R
CTCCATTCCCAAACCCATCCTTGACCCCAACTCTTACCCAGACCTAACCCCCTCCTCATCCCTATCCTCAATCCCATTTCCATCCTAACCCCACCCCATT
Celera SNP ID:            hCV15863069
SNP Position Genomic:     10853
SNP Source:               Applera
Population(Allele,Count): african american(A,27|G,3)   caucasian(A,38)   total(A,65|G,3)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,139|A,1132)   total(G,139|A,1132) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5763):
GCAGGTCTCGCTCTTCAACGGCCTCTCGTTCCACTGCGCGGGTGTCCTGGTGGACCAGAGTTGGGTGCTGACGGCCGCGCACTGCGGAAACAAGTAGGAG
R
AGATCCATCCCCGAGGACGCCACGGGGGGCTGTGGAGGCGGCCTCCAGGGAGGAGCGGGCAGGGCGGGGTCTCTCGGAACTCCCACAGCTGGAGGTGCGG
Celera SNP ID:            hCV25638425
SNP Position Genomic:     9079
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,5)   caucasian(G,30)   total(A,1|G,35)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,31)   caucasian(G,34)   total(A,1|G,65)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5764):
GGGTTTGCCTTCACATGCCTCTTCCTTCCCCCAGGCCACTGTGGGCTCGAGTAGGGGATGACCACCTGCTGCTTCTTCAGGGCGAGCAGCTCCGCCGGAC
S
ACTCGCTCTGTTGTCCATCCCAAGTACCACCAGGGCTCAGGCCCCATCCTGCCAAGGCGAACGGATGAGCACGATCTCATGTTGCTAAAGCTGGCCAGGC
Celera SNP ID:            hCV8704119
SNP Position Genomic:     10091
SNP Source:               Applera
Population(Allele,Count): african american(C,18|G,20)   caucasian(C,26|G,12)   total(C,44|G,32)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,4)   caucasian(C,27|G,11)   total(C,31|G,15)   
SNP Type:                 SILENT MUTATION

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


Context             (SEQ ID NO:5765):
AGATGTTATGCTCCTGCTGATCCAGATGCCCAGAGGCTCCATCGTCCATCCTCTTCCTCCCCAGTCGGCTGAACTCTCCCCTTGTCTGCACTGTTCAAAC
M
TCTGCCGCCCTCCACACCTCTAAACATCTCCCCTCTCACCTCATTCCCCCACCTATCCCCATTCTCTGCCTGTACTGAAGCTGAAATGCAGGAAGTGGTG
Celera SNP ID:            hCV8704127
SNP Position Genomic:     11509
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    ;no_pop(C,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:5766):
CCCTCTCACCTCATTCCCCCACCTATCCCCATTCTCTGCCTGTACTGAAGCTGAAATGCAGGAAGTGGTGGCAAAGGTTTATTCCAGAGAAGCCAGGAAG
Y
CGGTCATCACCCAGCCTCTGAGAGCAGTTACTGGGGTCACCCAACCTGACTTCCTCTGCCACTCCCCGCTGTGTGACTTTGGGCAAGCCAAGTGCCCTCT
Celera SNP ID:            hCV8704128
SNP Position Genomic:     11640
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;(T,-|C,-)   POOLE|_CEPH(C,40|T,148)   total(C,40|T,148)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:5767):
CTAGGCCTTCCTCCTTCCTCTTCCACAGTCTGGCTTCTCACATTGTCACTCTAGGTATGCACTTCCCATTGATTTCCTCTTGCTCAGTGGCCTCTCATCC
Y
GCCACCCCTAGCCTTGCTGGGGACGTGAACCCTCTCCCCGCGCCTGGGAAGCCTTCTTGGCACCGGGACCCGGAGAATCCCCACGGAAGCCAGTTCCAAA
Celera SNP ID:            hCV7805060
SNP Position Genomic:     6156
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,12)   total(C,1|T,12) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5768):
CAGCCCAACCTCCCATAACCTGAAGTCCACCTCCATTCCTACCTTCCAGCTCATACCTAATTCCAACCCCATCCCATCCTCGTCTTTATCCCAACCCAAC
Y
CCTTCCTTCCCCACCACTGCCCCAGATCCCAAAGTGACAGCTCTCACGTTGGCACATTTATTTGATCTCTCCTTTCTGCCACCCCCAGAGTGACTCTGGA
Celera SNP ID:            hCV22272054
SNP Position Genomic:     11140
SNP Source:               Applera
Population(Allele,Count): african american(C,24|T,2)   caucasian(C,14|T,14)   total(C,38|T,16)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,7)   caucasian(C,8|T,28)   total(C,29|T,35)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   JBIC-allele(C,389|T,510)   total(C,389|T,510)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5769):
TTCACGCGCTTCTTCTCCTCCCATTCCCTTCGGTGCACGCGAAACCCCCAATATTTCCCTACCACCCTCGCGTTCTGGCTGCGTCCCCCGTCCCCGAACG
Y
AGTCCAGTGCCACAGCCCAGCTCCAACCCCAAACCCAGACCCTGCCCTCCGTGCTTTGATTCCGTCCCCTTTCTTTCTCCAGCCGCAGAGGCGGCGCTGC
Celera SNP ID:            hCV27472475
SNP Position Genomic:     8808
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,123|C,1372)   total(C,1372|T,123) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5770):
ATCCTCGTCTTTATCCCAACCCAACCCCTTCCTTCCCCACCACTGCCCCAGATCCCAAAGTGACAGCTCTCACGTTGGCACATTTATTTGATCTCTCCTT
Y
CTGCCACCCCCAGAGTGACTCTGGAGGCCCCCTGGTCTGTGACGAGACCCTCCAAGGCATCCTCTCGTGGGGTGTTTACCCCTGTGTGCTCTGCCCAGCA
Celera SNP ID:            hCV22272055
SNP Position Genomic:     11215
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,14)   caucasian(C,32|T,6)   total(C,50|T,20)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,12|T,16)   caucasian(C,20|T,6)   total(C,32|T,22)   
SNP Type:                 INTRON

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


Context             (SEQ ID NO:5771):
ACGACTCGCTCTGTTGTCCATCCCAAGTACCACCAGGGCTCAGGCCCCATCCTGCCAAGGCGAACGGATGAGCACGATCTCATGTTGCTAAAGCTGGCCA
K
GCCCGTAGTGCCGGGGCCCCGCGTCCGGGCCCTGCAGCTTCCCTACCGCTGTGCTCAGCCCGGAGACCAGTGCCAGGTTGCTGGCTGGGGCACCACGGCC
Celera SNP ID:            hCV27454780
SNP Position Genomic:     10189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5772):
TCTTTCTTGTTTTACTTTCTCTCTTATTTTTTCTTCTTTCTTTCTTGTTTTTTTCTTTCTCTCTCTTTTTCTTTCCTTCTTTTTTTTTTTTTTTTTTTTT
T
GAGACAGGGCAGTGCTCTGTCTCCGTGGCTGGAGTACAGTGGCCCAATCAGAGCTCACTGCAGCCTCGACCTCCTGGGCTCAAGCGATACTCAGCCTCCA
Celera SNP ID:            hCV26639523
SNP Position Genomic:     8012
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|T,3)   total(T,3|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5773):
TTTCACCGTGGTCTCGATCTCCTGGCCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCGCTCCCGGCCACACCAC
M
GTGTTTTATCCTGAGTCTTGCCTTACCGCTTTTTGCCCTCTCCCCTCACTTTTTTTCTTCCTCTTTCCCTTTCTCTCTCTTTTTTCTTTTTCTTTCTTTC
Celera SNP ID:            hCV1843173
SNP Position Genomic:     7750
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|C,6)   total(A,3|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5774):
GTGGCAAAGGTTTATTCCAGAGAAGCCAGGAAGCCGGTCATCACCCAGCCTCTGAGAGCAGTTACTGGGGTCACCCAACCTGACTTCCTCTGCCACTCCC
Y
GCTGTGTGACTTTGGGCAAGCCAAGTGCCCTCTCTGAACCTCAGTTTCCTCATCTGCAAAATGGGAACAATGACGTGCCTACCTCTTAGACATGTTGTGA
Celera SNP ID:            hCV11468021
SNP Position Genomic:     11707
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    ;(T,-|C,-)   (C,-|T,-)   JBIC-allele(C,635|T,846)   total(C,635|T,846)   POOLE|_CEPH(C,76|T,112)   total(C,76|T,112)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:5775):
CTGCCCTCCGTGCTTTGATTCCGTCCCCTTTCTTTCTCCAGCCGCAGAGGCGGCGCTGCTCCCCCAAAACGACACGCGCTTGGACCCCGAAGCCTATGGC
K
CCCCGTGCGCGCGCGGCTCGCAGCCCTGGCAGGTCTCGCTCTTCAACGGCCTCTCGTTCCACTGCGCGGGTGTCCTGGTGGACCAGAGTTGGGTGCTGAC
Celera SNP ID:            hCV1843175
SNP Position Genomic:     8950
SNP Source:               Applera
Population(Allele,Count): african american(G,23|T,1)   caucasian(G,20|T,18)   total(G,43|T,19)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,6|T,2)   caucasian(G,15|T,13)   total(G,21|T,15)
SNP Type:                 MISSENSE MUTATION

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:5776):
AACCTCAGTTTCCTCATCTGCAAAATGGGAACAATGACGTGCCTACCTCTTAGACATGTTGTGAGGAGACTATGATATAACATGTGTATGTAAATCTTCA
K
GTGATTGTCATGTAAGGCTTAACACAGTGGGTGGTGAGTTCTGACTAAAGGTTACCTGTTGTCGTGATCTGACCACGTCCCGGTGAAAGCGTGTGTCCAG
Celera SNP ID:            hCV11467938
SNP Position Genomic:     11844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:5777):
GTGCCCGATCCCCAACTCCATTCCCAAACCCATCCTTGACCCCAACTCTTACCCAGACCTAACCCCCTCCTCATCCCTATCCTCAATCCCATTTCCATCC
Y
AACCCCACCCCATTCCCATCTCCAAGCCCATTTTCATCCCCTCACCTTCCATGAACTACAATCCCAACCCCAGTCTCACTGTGCCTTCATTCTCATCCCC
Celera SNP ID:            hCV16044264
SNP Position Genomic:     10939
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5778):
GGCAGGGCGGGGTCTCTCGGAACTCCCACAGCTGGAGGTGCGGTCCCCGGTGTCCTTCCAGCAGGAGGAGAGACCGGGCTTGCGCTGTGGCCGCCAGGGG
R
CGGTGTGGTCCTTTTCCGCATTTCTGGGCCCGTCACTCCTCTCCCGCTGATTCTCCTTGAGCTCTAGGAGGAGGTGGTTGCCTGCAACGGATAGAAGCCA
Celera SNP ID:            hCV1843176
SNP Position Genomic:     9237
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:5779):
CCATCCCGGCCCCGCTCCATTTTACACTACCGTGTTTTGTTTTGTTTGTTTGTTTGTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTG
R
CGCGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACACCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCCACCAAGCC
Celera SNP ID:            hCV26639527
SNP Position Genomic:     7515
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5780):
GCAGCTTCCCTACCGCTGTGCTCAGCCCGGAGACCAGTGCCAGGTTGCTGGCTGGGGCACCACGGCCGCCCGGAGAGGCAAGAGCTGGGGCTCTGAGGCC
R
GAACCTCAGGAGGAGGGGGCTGAGGGCCTGAACCCCTGGGTCTGAGGAAGGATGGGCTGGGGACTGGATTCCTGGATCTGAGGGAGGACGGGCTGGGGTC
Celera SNP ID:            hCV16044265
SNP Position Genomic:     10323
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5781):
GAGGCGGCCTCCAGGGAGGAGCGGGCAGGGCGGGGTCTCTCGGAACTCCCACAGCTGGAGGTGCGGTCCCCGGTGTCCTTCCAGCAGGAGGAGAGACCGG
S
CTTGCGCTGTGGCCGCCAGGGGGCGGTGTGGTCCTTTTCCGCATTTCTGGGCCCGTCACTCCTCTCCCGCTGATTCTCCTTGAGCTCTAGGAGGAGGTGG
Celera SNP ID:            hCV16044273
SNP Position Genomic:     9214
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5782):
AGGCGGCCTCCAGGGAGGAGCGGGCAGGGCGGGGTCTCTCGGAACTCCCACAGCTGGAGGTGCGGTCCCCGGTGTCCTTCCAGCAGGAGGAGAGACCGGG
S
TTGCGCTGTGGCCGCCAGGGGGCGGTGTGGTCCTTTTCCGCATTTCTGGGCCCGTCACTCCTCTCCCGCTGATTCTCCTTGAGCTCTAGGAGGAGGTGGT
Celera SNP ID:            hCV16044266
SNP Position Genomic:     9215
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5783):
TTCCTTCTCATCTCCCACTGTTTCCCACTTCTGGTTCCACCCAACACCAGTTCCTCCTGCCTTGGCACGAGCTAGGCTGGCCCTGAGTCATTAGCACCTT
Y
TCTGCCTTCATGAGGCCACTGAACTCAAGGGACCTCACCTTGCTTCCATCCCAGCCTCTAAGACCAGAGGGCCGAGGGGGTAGTGAAGATTGGGAAACCC
Celera SNP ID:            hCV15916080
SNP Position Genomic:     12162
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Gene Number:                 31
Celera Gene:                 hCG1642239 - 66000115875239
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VS61(1413517..1426494)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1692):
CTATGGGGTGGGAATTGATGTTCCATTCCACAGCTGACTCCACTGAAGCCCATGAGGAAGAAATTGGCCCAAATCACAGTCCCCTCTGATTACAGAACAG
AAAAAGTCAGCTAAAATCTCAGGATCACTTTTTTCAGGTGATGGGAGGATTTCAGAAGTTCTGTGGACACCTGAAATTGGGCACAAAATCAGGTGTTTCA
TGCCAGTGGGCATTTTCCAGGTAGAGGGATCATATTTCTCTCGAGAGTCTAAAAGTGTGTTGAACAAGCCCACTCTTTACAGATGGGGAGACTGAGCCTG
GGGACAGGGAGTGGCCTGCTCAGAAAAGACTCAGAAATTAAATCCAGTCCAGTGGGTTGATATTTACCCAAATTTCCAGCCTGGGGAGATTGATGCACCC
AAGAGAAGAACCCAGAAATGAAACTTTGTTCTTTTATGCTAAAAAATAAAATTCCCCAGAGTGCTTACAATCTCTCCTCCCACTCCCTTTTTCCTGCCCT
AAATAAATAATGGCGAATGAGCACCCAGCCAGGGATGTGTCTGATCAAACAATCATGGATCAATAGCTATGTTTGGAGAAGGAATTTGTGGCTGCTCCAG
CTACTGGGCATTTTGTCTGGTCCAGTTCATGTAATCTCCCAACACCCCATGAAGCAAGGCTTTGTTAATCCTATTTTACTGAAAATGAACTAAGACTCAG
AGAGATAAAGCTGTTGCCCAATGAGCCTTCTTTCTGCCCTCCAGATCCACGGTGCTAATTCCCCTTCCGATGACCTAATGATTCTGAGCTTGGCAAAGGT
CTTATCTCCCAGCTCGCCCAGGCCCAGTGTTCCAGGAATGTGACCTTTGCTGCAGCAGCCGCTGGAGGGGGCAGAGGGGATGGGCTGGAGGTTGAGCAAA
CAGAGCAGCAGAAAAGGCAGTTCCTCTTCTCCAGTGCCCTCCTTCCCTGTCTCTGCCTCTCCCTCCCTTCCTCAGGCATCAGAGCGGAGACTTCAGGGAG
ACCAGAGCCCAGCTTGCCAGGCACTGAGCTAGAAGCCCTGCCATGGCACCCCTGAGACCCCTTCTCATACTGGCCCTGCTGGCATGGGTTGCTCTGGCTG
ACCAAGGTACAGGGGAGTGTTGGTGGCCATCTGGGTCAATGTAGGGAGGGCGAGGGTGGTCTGGGCTTGGTGGCACCGACTGACACTCCTTCCTCATAGA
GTCATGCAAGGGCCGCTGCACTGAGGGCTTCAACGTGGACAAGAAGTGCCAGTGTGACGAGCTCTGCTCTTACTACCAGAGCTGCTGCACAGACTATACG
GCTGAGTGCAAGCCCCAAGGTGTGTTCAGAGCCCAGGTGGGTGGGCTGGGGTGCCCCCTGCTGCTGGAGACTCACTACCATCCACTCTCTGCAGTGACTC
GCGGGGATGTGTTCACTATGCCGGAGGATGAGTACACGGTCTATGACGATGGCGAGGAGAAAAACAATGCCACTGTCCATGAACAGGTGGGGGGCCCCTC
CCTGACCTCTGACCTCCAGGCCCAGTCCAAAGGGAATCCTGAGCAGACACCTGTTCTGAAACCTGAGGAAGAGGCCCCTGCGCCTGAGGTGGGCGCCTCT
AAGCCTGAGGGGATAGACTCAAGGCCTGAGACCCTTCATCCAGGGAGACCTCAGCCCCCAGCAGAGGAGGAGCTGTGCAGTGGGAAGCCCTTCGACGCCT
TCACCGACCTCAAGAACGGTTCCCTCTTTGCCTTCCGAGGTGAATCCAGGGCAGGTACTGGGGATGCGGGTCTGCCCCAGGAGCGTCCCTGCTCTCACAC
CATCTCCTCCACTCTAGGGCAGTACTGCTATGAACTGGACGAAAAGGCAGTGAGGCCTGGGTACCCCAAGCTCATCCGAGATGTCTGGGGCATCGAGGGC
CCCATCGATGCCGCCTTCACCCGCATCAACTGTCAGGGGAAGACCTACCTCTTCAAGGTGCCAGGGGCTGTGGGCCAGGGTAGAAAGCATCTAGGGAGGG
TTTGAGAGCTATTGCTCCCAGGGACAGGGTGGACAGGGAAGCTGGACCCAGGGCCCTGCAGGACCTGGTGGGAGCTCTGTGAGCACAGGGCAGCCCCAAG
ACTCCAGGTCCTGGGCAGTGAACCTGGACCTGGGAACGGCTGCCTTAGGGCAAGGGACTCTGCCTCTGTGCCCAGCCAGCGGCCTCCATACCCCTTTTCA
CTTTCCCCACCTCTTAGGGTAGTCAGTACTGGCGCTTTGAGGATGGTGTCCTGGACCCTGATTACCCCCGAAATATCTCTGACGGCTTCGATGGCATCCC
GGACAACGTGGATGCAGCCTTGGCCCTCCCTGCCCATAGCTACAGTGGCCGGGAGCGGGTCTACTTCTTCAAGGGTACTCAGGGGGTGGTGGGAGACTGA
GCAGGCAGTGGAGCAGTCTTGGATTCCTTTCACACTTCACTGGGGACAGGCCTCAGCATGTGCCCACCCCTGACCCCCACCTCATGCTGGGAGATCCTAA
CTTCAACAGCCTCTGGGATCTCCAGTCTTGCCCTGGCCCAGCCCTCCTAATGCCCACCACCCCGCTCCTCAGGGAAACAGTACTGGGAGTACCAGTTCCA
GCACCAGCCCAGTCAGGAGGAGTGTGAAGGCAGCTCCCTGTCGGCTGTGTTTGAACACTTTGCCATGATGCAGCGGGACAGCTGGGAGGACATCTTCGAG
CTTCTCTTCTGGGGCAGAACCTCTGGTATGGAGAGAGGGCAAGTCTTGCTTCTCCCTCAAAAGGGCTGAAACCCCTTGGTATTGGTAGAGCCAGGCCGGC
TGGAGGGGGCTGTGGTTGTGGAGCTATCGATCAAAGTCTGTTTGCTCAGGCCAGACTTTGCTTCTGTTGACCTTTTGGGGAAAGCTCAGCTCTACCTGGA
CCCCACACCTTGGACTTTGCCTAGCACAGCTGAGAGCACAGCCAGCAGAGGGAGGGGCTGTGGCTGAGGAGTTTAGGGGGCCTGGGGGGGTGGGGTCGAG
ACACCAGTGATATGGTGGAGGGAAAGCACAGGGGGAAGGGAATTGGACTGAGAGTCAAAGGCCTGGCTCTGCCATTCGCTGCTGTGTGTCTTTGGGCAAG
GTGCAGCAGATGAACTCTAATGGCCCCGCTGGAAGGGGCAAGATTCGGACCCCCAAGACCTCTCATTCACCCCTTCCCTGCCACAGCTGGTACCAGACAG
CCCCAGTTCATTAGCCGGGACTGGCACGGTGTGCCAGGGCAAGTGGACGCAGCCATGGCTGGCCGCATCTACATCTCAGGCATGGCACCCCGCCCCTCCT
TGGCCAAGAAACAAAGGTTTAGGCATCGCAACCGCAAAGGCTACCGTTCACAACGAGGCCACAGCCGTGGCCGCAACCAGAACTCCCGCCGGCCATCCCG
CGCCATGTGGCTGTCCTTGTTCTCCAGTGAGGAGAGCAACTTGGGAGCCAACAACTATGATGACTACAGGATGGACTGGCTTGTGCCTGCCACCTGTGAA
CCCATCCAGAGTGTCTTCTTCTTCTCTGGAGGTAGGAGCCGCTGCCACCCCTGAAGCTGGTCTAGCTTGGGTTTTCCTTGCTGTCCCTGGTGCACAAGGG
CTGAACGCAGCCTGCAAGTAGTGACCACAGAAAGCCAGGCCAGAAGTCCTTAGCTGCATCATGGATGTTCACTTTCCCTTCTGGGAGAGACCCTAGACTT
CTCAAGGGAAGAGTGGGCAGGGCCAGGCTGGGCCTCACGCATCCTCTGCTTTCCTCTCTTCCAGACAAGTACTACCGAGTCAATCTTCGCACACGGCGAG
TGGACACTGTGGACCCTCCCTACCCACGCTCCATCGCTCAGTACTGGCTGGGCTGCCCAGCTCCTGGCCATCTGTAGGAGTCAGAGCCCACATGGCCGGG
CCCTCTGTAGCTCCCTCCTCCCATCTCCTTCCCCCAGCCCAATAAAGGTCCCTTAGCCCCGAGTTTAAAATTATTGTTCTGACTGGGGTAGACACATCCC
TGTCTGGGTAAAGGAGAGGAAGCTGGACTGTCAGAATGGGTTGGTGAGGGGGACAGAGAAGGGACAGAGAAGGGCCTCGCCGTGTCCAACCCATGTTGGG
CTCAGGACCTCTCTGTGCTCAGGACCTCTCTGTGAACCGGTTTGGGGCTGGGGAAGGCCTCCTGAGAGCTACCCTTCCTCTTGAGCTAAGCAGCCCCCAG
CAACCCACCAGCAGCTAAGCAGACACTTGAACTCCTCTGATGATGACAAAGTTACCAGGCCAGCCTCCGTGGGTGAGGCTTGCTTTGCCCCTTGGAGTTG
ACTAGGGTCTTGGAGGAGAGAGAAGGGGCAAGAGTTGGTGGGGTTCTGGCTCAGCTTTTTTGTCCATCCTGATCTGAAATCCTAGTAGCTCTGACTCCTG
AGCACTTGGGGAACCAGTCACTGTGCTTCCCCAAACCCACCCCTAGGGTGAGCCTTTCTTGAGGTCTCTGTCTAGGGTCTAGGATGGGGAGCAGCAAGAC
CAGGAGAGATAGTGAAGGGCAGAAACTGAAAGGAAATTCAAAAGCACACACTTCTTGTGGAAAAGTGGCCCAGGAGCCCAGGAGTTTGAAGCTGCAGTGA
GCTATTATTGTACCACTGCACTCCAACCTGGGGAATAGAGTGAGACTCTATCTCTAAAAACAGAACAAAATAAAAAAGGGGGGGAATTTTTGTCTGGGCA
TGGTGGCTCATGCCTGTAATTCCAGCACTTTGGGAAGCCAAGGTGGGAGGATTGCTGGAATCCCGAAGTTTGAGACCAGCCTAGGCAATATAGCAAGACA
CCATCTCTACAAAAATAAATAAGTTAGCTGGGCAACTTATGGGTGGTGTGTGCCTGTAGTCCCAGCTATTTAGGAGGCTGAGGTGGGAGGATTGCTTGAG
CTTGGGAGGTTGAGGCTGCAGTGAGCAGAAATCACACCACTGTACTCCAGCCTGGGCAACAGAGTGAGAAAAAGAAAATTTAGGCCAGGCACGGTGGTTC
ATGCCTGTAGTCCCAGCACTTTGGGAAACCAAGGCGCGTGGATCATGAGGTTAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACT
AAAAATACAAAAAATTAGCCGGGTGTGGTGGCAGGCGCCTGTAACCCCAGCTACTCCGGAGGAAGAGGCAGGAGGTGGAGTTGCTTGAACTCGGGAGGTG
GAGGTTGCAGTGAGCCAAGATCACGCCACTGCACTCCAGCCTGGGTGACAAAGCAAGACTCCATCTTGAAAAAAAAAGAAAAAAGAAAAAAATTTTCAAA
ATTTAAGAAAAAGTGGCTCAGAATATATCCAAGGAAGAGAATACTGTACACATAAACATCTTTATCATCTTTCTTAGAACCCCTCAACTGCACCTGTGGA
ACCTCCTCTGGTTCCAGGTTCCGAACCCCAGGAAGTCCATCTGGCTCTTGAGGGGCCAGAGAGAGAAAGGGTTAGATGAGGCAAAGCTCTAAAGCAGACC
TGAGGGCAATCTGGTGGTGACATCTGTTCCCCAGTCCTGCTGACAGCGGCTGGCTCCCATTCATCCCGTTGACACCCTACCATCCTTCTCATCCTGTCCC
ACTTCACCAGCCCAGTCCCCAGTTGTGGGAGAGGACTCCACTCCCTCTCCCCTGAAGGTAGCCAGGTTCAGAGCACTAAGGGCTCCAGAAGGGGCAGCCA
GTGCCTGGGAGCACTGGAGAGATGGTTTTCTTTGGCTGCCTGGAAGGACCCCTGGGAGGATTTTCATGAAGTATAGGATTTCAGGCACAGACTGCCAGTT
TGAGGTTTGAGAAGGGATGCTGGGTCCAGCTTCCTTTGCGAGGCCTTGGAGGGGCAGGGGGTATACAATTTGCCCCACCCATACCCTCATAAGCCCAACC
CGGCCTCCAGCCTCCCTTCTTCCCCACCGAGACTTCTCTGCCTTGCTTGAGCTGGACTCTAAACCTCTCCACTCCTGAAGGCGGGGCCAGCCACCCTGAG
CATGATAAAACCCAAATGGGGGGGTCTGGTGTGGGCACAGCCCTGGCATGGCCCTCTGGCACGGCCCTCTGGCACCTTACCCTTTGCCAGCTCCATGCCC
AGCCCTGTGGATGCATCCTCAGCAGGTGATCTGATGGGGGAAGTGTGGGCAGGGTGAGAACGCAGGCCATGGTAGGATGAGGACGGTTGGAGAGGGGTGG
GAGTAGGGACTTCGGGGTTGATTGAGGGCTTTGAGGCTGGGTGGAGGCTCTTGCAGGGAGTCCCAGCTTGACCCCCACCATGGCCTGCAGACGGTGGCAG
CGGGTTGGGTTCCCACCGGAGAAAGCGGACCACCTTCAGCAAAGGGCAGCTRCTGGAGCTGGAGAGGGCGTTTGCAGCATGGCCCTACCCCAACATCAGC
ACCCATGAGCACCTGGCCTGGGTCACTTGCCTTCCTGAGGCCAAGGTACAGGTGAGCTGTGACCCCTTCTCACACAGCCAACATCTAGGCTTGGCCCACA
GCCCCTTSGCTGGGTAGCCTGCCTTCAGGTTGTTTCCCCTGTCCCTGGGTGGAGGGGATGCTGGGGCCAGAACAGACCCCTTCTTCTTTCCTAGCAGGTG
TGGTTCCAGAAGCGCTGGGCCAAAATAATCAAGAACAGGAAGTCAGGAATTCTAAGCCCTGGGTCTGAGTGCCCCCAGAGCTCCTGTTCTCTTCCAGACA
CCCTCCAGCAGCCCTGGGATCCCCAAATGCCAGGCCAACCTCCACCCTCCAGCGGCACACCTCAGCGCACCTCAGTGTGTCGACATAGCTCCTGTCCAGC
TCCTGGCTTGAGTCCACGGCAGGGCTGGGAAGGGGCTAAAGCTGTAGCCCCATGGGGATCAGCTGGGGCTTCAGAGGTCCACCCTTCTTTAGAGCGAGCT
ACTCCCCAGACTTCACTAGGCAGCCTGTCTGACCTCATCTATGCCTYGGCCATTGTCGTCAATGTGGACCACTCCTAGTCTTTGTCCAGAACTTGCAAGG
CCCCTCCTCTGACTCCTGTGGCCCACCCTGCCCCTCCTGGGATTGAACACATCAGAAGTGGATTCCCTGGCCCCACTTTTTATGCAAAGGGATTCCCTAC
GGGAAAGGAGTTTAGCTCAGGCATCCCTCCCTTCCACTGGCCTCCAGGCCAGCCTAGATGCAGGTCCTAAGCAGACTGGGGCCTGGCTCCTGCCACCCCA
CACCCTGACCCCTTTGGGGCATATGCTCATTGTTGTGGCAGGTGGTACCTTCAGAAGGATGAGATGAGGGTCATGTTTTCCTCCACTCTTGCCAGGCCTG
GTCCCCAGTTCTCACCAGCTGATGGCCTCCTCCTTCTGAAGGGGCAGGCTCCTGTCTCCTGAGGTCTCTCCAGGCCATTACCTTGCTAACTGCTAAGTGA
GGTAGGAGAGGAGAGTGCTGCTCCTCATCTAGACTGCTGGAGAGCCAACTTCTTTATGGGTCAGGGCCCCCTCTCTTGACCATCGACCACCTGGACAAAT
TAATCAGAACTACGGATGTGAAGAGGGAGTGGCATTAAAGTAATGAAGCAAAGATAGGAAGCTGGGGCTTATGTTGATTTAATTTTCACAAAGATCAGAT
TGGATGCCCTCTGATGTGGGGCTGTGGAGACAACCTGACAGATCTGGGATGGAGGCAGGTATAGCAGCATTGGGTTTTGGTATCACCATCACCTGTAATA
CCAACTAATCTCCAAATAAAACCCAAACTCTGTACCTTAATCTGGATTGTTGTGCTCTGCAAACGAACGGGGACGAGGGCCGTTTGCCATGGAAATTTAT
CTCCATCACCTAATCCCTAAATAGGGCCAGGTTCCACACAGATACCTCTTGGTGGGAGGTATTACCCAGGCTTCAGCTGGGATTAGAGGGATAGTTAATT
GAAGGGTTTAGGACTCTGACTGACAAGACCCTGGGGAGATGAGAGCCTCTGCTAGCACCCCCAGCTCCTGGTCCCACTGAATCTAGGACATTCCAGTCAC
CTCCACCTCTGGAGCTGCTCTGCTTTGGAGAGAAAACCATGGTGTTTGCGGTCTGCACTGGATTCAAATCCTGACTTTGCGATGTAACTGTGGCAACTCT
GGAACTCTATGTGACTAAAAAATGGGGATACTTATTTGCTCTCTGTTTGGGGTATAAGAAATAATGTAGGTAAAGGGCTTTACATGGTGTGTAACACATC
GTAAAAACTCAGTAAACGCTAGTTCCCTCTCCAGACAGGCCCTAAGAAACTGGGAAGGCCCTAAACTTCTTGTTCTTCCCACCTCCTGCCAAGCAGTCCC
TGGACCCAGAGTGCATTACAGAAAGCATGGCACAGTGAGGCAGGAGTGGCTAGCAGATGAGAGAGCTCCCTTCTATATGCTGAGAACTGGAGGATAGGGC
ATTTGGTTCTCCCCTCCCAGTGCCCCCTGCTTTTTCATTGAGACAAGGTCTCACTCTGTCATCCAGGCTAGAGTGCAATAGCATGATCTTGGCTTACTCA
GCTTACTGCAACCTCTGCCTCCCAGGCTCAAGTGATCCTCCCACCTTAGCCTCCTGAGTAGCTGGGACTACAGGCGTGCGCTACCATGTCAGCTAATTTC
TGCGTTTTTTTGTAGAGATGGGCTTTCGCCATGTTGCCCAGGCTGGTCTCAAACTCCTGAACTCAAGCATCCTCCCACCTTGGTCTCCCAAAGTGCTGGG
ATTACAGGCATGTACCACCACGCCTGGCTAATTTTTTTGTATTTTTAGTAAAGATGGGGTTTCGCTATATTGGCCATGCTGGTCTTAAACTCCCAACCTC
AAGTGATCCGCCTGCCTCAGCCTCCCAAAATGCTACGATTACAGGTGTGAGCCACCTCACCTGGCCCAGTGTAGCTTTTTAACACAAATTTTATATAGCT
CAGGTTACTGGAAACACTGTAAAATGCCACCTACTTTTTCTTTTCACAGCTGACACTTCTCCCAACTAACAGAAACTGGCAAACATTGTAGAGGAAGTGT
CCACTGAGTGAATGAGTATATAATTTATGAAAACAGAAAAGTGCTTTGGAAAAAAAAAAAAAGACAACAGGAGTACATACAGTGAACCAAAAAGAGTGTA
CCAGGAGGAGCAGACCCTGAACAGTTAGAACTATGGAAATCGCTATGCTTTGTGTTGTCACAGGAGTTAAAATAGGAATACCCTGCATACAATAAATATT
TATTGGATAAATAACTAAGCCTGATACCCTTTTCAATGCGTTATACAGACTCTATCATCACACCACTAATCTAAGTTCTCAGAAGTTAAACATTACAAGA
CTTCAGAACAACATAGGCGTCTTTGGCTCCATTTAACAGAAGAAGGACCATAGTGATCATTTAATCTCTATGAGTCTGTCTTATCTTCTGGAAAAGGGGC
CTAACACCATTTCCTTTTGCAAAAAGGTAGCTGCCTTGCTTCCAGTTCTACCATCCTCTAGCAACCCATCTTTCTCTTATTTGATGTCTCTGATCAGCTC
CTCTTCCAGCACAAACTGGAGAAAGGGGATCCTTTCTGTTTTCTTGGAGGCTTCTGAACTCAATTACAGGTCTGCATTAAAAATGTATGGAGAAAGCTGG
TGATTAGTTTGTACATATGGACAAGTTCAAGGCAGTATGGTCTACTTCTGGGAAGGCCTGGATTCCATTTGCTCCTGATGGAAAAACCCTAGTCCCAGCA
GTGTTTAGAATGAACTGGAGAAGGCAGATGGGTACCAGATTCAGGAAGAGGTACTGATAGACCAAGACCAGTTCTTTCTGTTTTAAAGATGTGTTATCTC
AATCTCCTCCAATGCTCCCTTTGGAAATTCACAGAAGATTAGGGCTCCCCACAGAAACAGCAGCTGGCCTGGGCTGGTCTTCTGACTAACTGGAGCTGAA
TACAAAAAGTCTGATGGGTTGACTGAGTCGGTGACTGCCAATTGGAGCCTGAAGCCCCCAAAGTCTTCTCTAGACTTGATGATGAAGCACCAGTTACAGT
TCTCCCAGCTCGCCTTCCATTGCCCGCACCATGACATACAGCTCGGCCAGACCCACCACAGAGGCGACGATCAATGCAGCTAGCACCCGCTGGAGATGGG
GAGAACCAGGCTTAAGGGATGCAGGCCAACAACCAGCTCTGTACCCCAGCAACTTTAATGAGGATGGAGAGCCCCCCAACCACCCTCTAAGTTGGGGGAG
GGGAAGAAAAGAGAATGTGGCTTCTCCTGGGGTTATTACCTAACCTCCCGTGACTGCTGGAAAGCTCTAATGCTCCCCTTATTAATGGCATAAATATCTG
TTCAATACCTAACCTGTGCAAGGCACTTTCACATACGTCCTCCCTTACCCACTAACACCCCCACCAGGGGCACCCTGCCCTGCCCAGTGCCTACTCACCG
AGGCCATTTCTGTGAAGATATATTGGCTTCCAAGGTAAGTGCAGACGAAGGCAGCAACCACCGTGACAATGAAATTGAAGATGGTGATGACCAGAGCCTT
CAATGATCTCACTTTGGGGAGGAGCCAGAGAGGGCACCTTTAGTTCAACATTCTCTAGGAGGTGCTCTTATCTCATGGCTCCCCCACCAACTGGGTTTCA
GTCAAACAACAAGCCTGAGTGTCATGACCCATCTCAGGAAAAGGTTTTAGAAGCCTGATCTCCTAGTACCTCACCTTGCTTTCCCAGGTCGCTGAGAGTC
CCACCATGTCTTGTATCCTGGGAAAAAGAAAAAGAAGATGATTCAGAATAGAAGCAGCTCAGAGAGCATCCATTGACAGTCTGGGCTCAGCCCTCTCTAT
TCCCCAACATATTAACTCTGCCCTCCCCATGGATTCTTTTGTCTGGAACCATTTTGACTCTTTTCTGGACTACAGAGCAGGCATTTCGGAGAGAGGACAT
AGGCTGCCAGTACCCATCTACTCTCCTGTTCCAGGGTAGGAGCATGCCATAGAGTAGTAGGGAGCCCTGTCAGAAGAAATGCTCGAATGGCTGGGCACAG
TGGCTCACCTTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGAGGATCACCTTGAGGCTGGGAGTTCAAGACCAGCCTGGCCAACGTGGTCTCTACTAA
AAATACAAAAAATTAGCCTGGCGTGGTGGTGCATGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCATAAGAATCACTTAAACCTGGAAGGCGGAGGCC
GCAGTGAGCAGAGATCCTGCCACTGCCCTCCAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAAAAAAAAGAAGAAGAAAAAAAGCCTCCAAGATTC
ATTCCCACTTATTTATTTATTTATTTATTTATTTTGAGATGGAGTCTTGCTCTTGTTGCTCAGGCTGGAGTGCAATGGTGCAGTGTTGGCTCACAGCAGC
CTCTGCCTCCGCCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCTCGAGTAGCTGGGATTACAGGTGCCCGCCACCACGCCAGGCTAAGTTTTGTAT
TTTTTGTAAAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCACGAACTCCCGACCTCAAGTGATCCACCTACCTCAGCCTCCCAAAGTGCTAGGATTAC
AGGCATGAGCCGCCGTGCCCGGCTAACTCCCACTTCTATGACGTTTAAAACTTGGTCACCATCTCAGCCCAGAGTCTCAGTGAATGAGATGGGAACTGTG
TTGTTTGTATGCAGACTTCCTATGGTCCCTGAACAGTATAGAAACCAAGTTTCCATGTTTTTTCTAAACTCTGTATCTTCTTCCACTGCAGGGCCCTACT
CTGAGGGGCTACCTAGACCACGTACTGAAGAGCATGTCCTTACCTGACAAGTGACGTTGCGGGTGATCCGTTTATATTCCTCATTGGCCAGCTGTATCTT
AATCTTCTCCAGCCGGGCAACTAGTTCTGGGTTCTGAAGCAGAAAAATCAAATGAGAAGAATGATATTCCCAGCTTGTTAGAAAGCACATCACAATCATT
GGTTCCAGGGGTAAAGCACTGCTAAAGGTATCAGGAGACCCACATACTAGTCGTAACTCCAGTGCTTTGAAACTGTTTTTTTTTTTTTTGATCTCAATTT
TCCAAACAGCTGATGGGGAGGACAATATCTGGCTCCCCCAGATCCCAAAGATTTCAAAAACAATTTTTCAAGCCTAAAAGTTGATTTATAAGTTCAGTGT
ATCATGGATAAGCCCAACTCAGTCAATAACCACTCTCACAAACATATCCCTTACATACCCGTGGAGGCTTCACAACCTCTGGGAGATAGATTTCACTGCC
TTCTAGGAGCTCATGGAGGTATAGTTTGGAATCTGAGAAGAAAAGGTTTCACAAACACAATGATCCACGAGCTGAGGTTGAAGGGTTAAGATCAAGAGGG
GTGTAGCCCTTCTTTCTACCAAAATAAAACAGGGCCATCTCTACATTAATCCATTTCCAGGATCATTTTCAATTGAAAAGAATTTTGGATAATTCCATGT
AGGTATCTCCCAGTGCTGCGCAGGTGACTTTAGCTGTCAGCTCTCAATTATCCTGCCAGTGTTATAACTAACAAGTAAGCCATTTACTTGTGCCTTTGGG
TTAGATCAGTTCTGTGGCCACAACAGCTCTTCCCTAAATAAGTTTAGGTCATAGTGATGCTAAATGCTCAGAGGACACTAATACTAGGCAATCTCTTTCT
AAGGTCCTTTCTAGTTCTAATAATTGAGCAGTCTACCCTTTGCACTTCTGGCTGGTCTATGTTACTTCTGGCAAAATACCTTATGTGCTAGTTTGTCCTG
TTCCTTCCCTTTACACATAAGGGAACTGAGGCCCAGCGAGGAGAAATGACTCCTTCAAAGGATTAGTGACAGAGCTAGGACTGGAACTCACATGCTACTC
TCAGGCCAGATCTTTCAACACAGCTTTTGCCATCCTATATTAAAAAAACAAACAAACAAAACAAAGTATCAGATTTC


SNP Information

Context             (SEQ ID NO:5784):
TGCAGGGAGTCCCAGCTTGACCCCCACCATGGCCTGCAGACGGTGGCAGCGGGTTGGGTTCCCACCGGAGAAAGCGGACCACCTTCAGCAAAGGGCAGCT
R
CTGGAGCTGGAGAGGGCGTTTGCAGCATGGCCCTACCCCAACATCAGCACCCATGAGCACCTGGCCTGGGTCACTTGCCTTCCTGAGGCCAAGGTACAGG
Celera SNP ID:            hCV15885133
SNP Position Genomic:     6352
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,225|A,1266)   total(G,225|A,1266) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:5785):
GCCCCATGGGGATCAGCTGGGGCTTCAGAGGTCCACCCTTCTTTAGAGCGAGCTACTCCCCAGACTTCACTAGGCAGCCTGTCTGACCTCATCTATGCCT
Y
GGCCATTGTCGTCAATGTGGACCACTCCTAGTCTTTGTCCAGAACTTGCAAGGCCCCTCCTCTGACTCCTGTGGCCCACCCTGCCCCTCCTGGGATTGAA
Celera SNP ID:            hCV326998
SNP Position Genomic:     6947
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:5786):
AGCACCTGGCCTGGGTCACTTGCCTTCCTGAGGCCAAGGTACAGGTGAGCTGTGACCCCTTCTCACACAGCCAACATCTAGGCTTGGCCCACAGCCCCTT
S
GCTGGGTAGCCTGCCTTCAGGTTGTTTCCCCTGTCCCTGGGTGGAGGGGATGCTGGGGCCAGAACAGACCCCTTCTTCTTTCCTAGCAGGTGTGGTTCCA
Celera SNP ID:            hCV15885166
SNP Position Genomic:     6508
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,226|C,1263)   total(G,226|C,1263) 
SNP Type:                 INTRON


Gene Number:                 32
Celera Gene:                 hCG1647900 - 106000122235397
Gene Symbol:                 KLK15
Protein Name:                kallikrein 15;ACO;HSRNASPH
Celera Genomic Axis:         GA_x5YUV32VY4T(680931..699166)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1693):
TGCAAGCCTCAGCCTGATTTTATGATTCGCACACCTGCTCCATGGGTATGACCTCATCCAACCCCTGTGAGGTCCCTCCCATTTCCACCCCACCGCAACG
GAAGACCCCTTCGCAGATGAGCACCTGACACCCAGAGAGCTGATGCTTCTCACAAGGGGCACCAGGACCCCGAGAACCATTCTCTTGATTCCACTTCTGC
AGCCTGGGTGACCTTCACCAGTGACCCCCGCACTCCCGTCTGCTCATGTGTTAAATGAATGAATCGTCATAATTTACTATATGCTCTGAGCTCCTAACAC
AAACTAAGTCGTTACTCCTCGAAAAACTCTACGAGGGGATCCTCTGATTTTAAGGATAAGAAACTGAGACACAGAGAAGAAAAAACTCTTACCAGGGTCT
CCCAAAATAGTAAGTAGTGGAACAGAGATCTGCACCCATGCTGTCTGGATCCAGACCCAGCGCCCTGAAACAGCAGCTTGTCTGGTTCCAGAAGGAACGG
AGGCCGTGGTGAGACTAAGTTAGAAGAGGGCCAGCACCTCATGGGGAGGCCCTTCGGGCACCACGAGTCCAGTCCCGCTCCGGAGGTGGGCAGTCTGCAG
GCCCCCTGAGAAGGGGGTTTGAGGGGAGGCTTTTTCCTGCTGGGGAATCTCAAAGGGCTTAAAACTGCAGACCGAGAAGCCGGGACCTTGCCCAGGGGTG
ATGGGGAGCTGCAAGGGAAGGCTGTGAGCAGGGGAGGGGCGGGGTGATCTCCAAGTGCAGAGAGACCCTCTAGGGCCACGTGGTGACCGACAGGAGGCTG
TCCTCCCGGACAGGAGGAGCGAGGGTCCAGAGAGAGAGGAGGACGTCTGAGCTGGAGCCAGGCCAAGGGGACAGAGAGGAGGGGACGGGGCAGAGAGAGG
CAGGGGCCGAAGGGACAAGGCTGGGGACCGATGGGCTGTAGGGGATAAGGGGAGAGATGGGGCAAGGTCAGTGCCAAGGGCGTCTGGCCGAATAACTGGG
TGGTCGGTGACGCTGCCCCTGAGATGAAGAACGTGGAAGAACAGGGAAGGAGGGTTTGGGGAAATAGAGCAATGAGTTGGGACTCGGTAAGTGAGAGGGG
CCTAGGGACAGTGGTGCAGGGGGCGCCCAGGAGCAGGTGGCTGCCCAAGCCGGAGTTCAGGGTCAGATGGAGGAGACCTGCGTGGTTGGTGGATGAACCA
CGGGAGTTGATGAAAAACTCCCAGGGAACGTTCTCAGGAGGAGGAGCCGGGCAAAAGTGAGACTCAGGCCGCGGTGGGCGGGACCCAGGCCGCGGTGGAG
GTGAAGGACGTCCGCGGACACGTCCAGGAGGACATCGATCGCGCGAGCCTGAGCCAGACACAGTGGGCGGGGACGGGGCGCCGACGTCACCGCGTGGGGG
CGGGGCTGCGGGAGCCGCTGGCTGCGCGCCCTCCAGGGAGCCGAGCGCAGACCGGGTGCGCGCCTGGGTTCGGCGCGGCGGGAGCGCCCTCAGTGTCCCC
GTCTGTATCAGGGGTGCTTCATCAGTACCTGCCTAGGCTGGTTAGGAGGAGGAGCACGTGCGATCGTGACGGGAAGCGCTCAGCACAGACCTGGCACCGA
GGAAGTCCCAGGGGCTCGGCTCCTTTCCCTCGTCACCACCGCGCCCCAACAGAGGGAGGCGGCTGCAGGGGTGGCGGCGAAAGGGCCCACCGGGCGTTCC
GGAGTCGGAACACTGATTCCTCTCCCGCGTGGCCTCTCGCTTCTGCAGGAACCTTGCTTGTGCTGCCTCCTGTCTGGGCCTCAGTTTCCTCCGTATTCAG
CAGGAAGCCATAAGGTTATTAATATAAACACCTCACAGGGCTGCCGGGAGCCGGAGTGAGATCCTACAAAGAGAGCACTTGGCACGGAGGAGTGGCCTGC
AGCCGCATTCCATAAACAGGGCTGCTCAGCTGAAGCGGTGGCCCAGGGTGAGGCCCGCAGACTTTGAGCATCAATTTGTGGGGAGGGAGGCAAAGGGACA
TAGGAGTTCTAGAATAGCTTCCAACCTGGGGATCTATTATGTCTGCCGGTCTGGGCTTGTAGAATGTCTGGAGACCCGACGTTCTAGAATGCATGAGGTT
TCTGGGGACTCCAGAGTGCCCGATGTTCGAAGGTTCTAGAGTGTTTGGAGCTCTGTGGTTCTAGGCTATTCTAAAATCTTACCTTCCAGAGTGTCCTCCA
CTGCCAGAATGTCTTAGGGCCTGTGCTTTTAGAATCTGAAAGTCTGATATTCTAGAAATTCCAGGGGCCTGTAGTTCTAGAATGGCTGAATCCTTCCCAT
AAAGATGATGACTTTCCACACATGGGGAGAGACCACGCTTACAACAGGTCCCATCCTTCACTGGGTGACCTGAGTGAGGTCAGTCCCTCCTGTCTCGGGA
CCTCCTCATTAATTAAGCCAAAATAGACTCTAGATAATTGCTTGGGGCCCTCTGGGGTTCTGAGACATTGGAAGCCAGCCTCAAATACCCAAAGCCTTGG
GTCATCTCAGTGATCATCTCCAGCCTCTGGGATGCAGAATCCAGATTTCAAGCTCTAGAACCCAGAAATAAGACTACAGGACCAGAATAGAGACCCTGGG
TTCCCAGACTCTAAATTCAGACTCTAGAGTCAAGATTCTAGCAATCTCAGAATCGTGAAAGCCAGGTCCCTGTCTCTCAATTCAGCCTTTTAAAAATTTA
TTTACTTATTTATTTATTTATTTAGATTTTTCATAGAGATGAGGTATTGCTGTGTTGCCCAGGCTGGTCTCAAACCCTTCAGTTCCAGCAATCCTCCTAC
CTCAGCCTCCCAAAGGCATGAGTCACTGGGCCCAGCCACAGTCCAGGTTTTCAATGCAAAAACAGATTTGAAACTCCAGACTGTATGTTCCAAAGTCTAC
TCCTGAAAGCTCAGAGGCTAGATCCACCCTGTAGAATCCAGACCCCAAGCCTGGCATGGTGGCTCACGCCTGTAATCCCAGCACTTTAGGAGGCTGAGTC
AGGTGGATCACTTGAGATGAGGAGTTCGACACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATATAAAAATTAGCTGGGCGTGGTGGTGG
TCGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCTATTGAGCCCAGGAAGTGGAGGTTGCAGTGATCTGAGATCGCGCTATTGCACTCCA
GCCTGGGTGACAAGAGCGAAACTTCATCTCAGAAAAAAAAAAAAAAAAAGAATCCAGACCCCACAATTCAAAATCCCAAATCTACCATTTGTAGTCTAGG
CCCCAGGCTTCTCATAGCAGGTGCAAAGGTTTCCAGCCTCGATTGCCAGATTCCAAACACCAGATTCCAGGCTCCTATTGTGGGTTCTAGATTCGAATGC
CCCGGGATCCAGAATCAAGGTTCACGATCTGTCACTCAAAGGCCCGACTCCAGGATCCAGATTCCAGACCCCCAGCCCAAGAACTCAGACTTTGAAATCC
ATATTCCAGACTGCAGGTCATTAATCTCCAACTCAAGATCCTCAAATCCAGAATCCAAGACCCAGATCCAGAACCAGATCCGGATCCAGAACCCGGGATC
CAGAACTCTGCCCCAAGCCCAAGAACAGGGACTTTAGGATCCAGTTTCCACACTCCAGACCCCAAATTCCAGACTCTGTCTTTTGATCTCCTCCTAATTT
CTGTTTTTGTCCTCCTGTCCCCTCCCCCTTGAGGAACTGCTCCTGGTGGAGAATTCCTCTTTGTGGACTCAGACAACAGCTTCAACCTAATAAATGCTCA
TTAGGCCAAGTCTCCCACCCCACCAGCAACCAAGGCGTCTCTGCCTGTAAACCTGACTCTCAGCCACCTCCCACCCCACCCTACACCACCACACCCCCAG
ACCCAGCTGGGACTGGGAGCTTATAAATTCAGGCATCCTGGTACCTGCTCCCTTCTGGCACCCAAGCTGCCCTAGATGCTGCTGGAGGATCTGGAGGAGG
TGAGAGCTTTGAGACAAGACTGAGGGAGGGGCAAAGGGGAGATTCACTGTGCCCTGGTTTCAAGGGGAAACGTTGACCACGCTTGGAGAACTGAGTGTCA
AGGGCATGGGTAGATCCACGTGTCCTTTACCAATGCCCCAAATTGAACCTGAACCAAGAAAATGTCCTGGAATGGCCAGAAGGAGCTGCAGTGGTGGGGA
GGGAGGGGGATGGAGTGGATCAGGAGGACGTCCCTGAAGTACTTGTATCAGAGCCAAGAACGTGGTCAGGAGTGATCACGGGTTCAAGTCAGTTCAGCAC
AACCTCCCGGAGGCCTCCTGTGTACCAGGCCCCAGGTGGGGCAGTGCTGAGGTCACAGAAAGAACCTGACCTGAGCCCCATCTTCAAGACCCCCAGATGG
AGAAAAGAACAGGCCAGACCTCAGCAAGTATGGGGCATCTGCGCTGTAATGGAGACAGAATGGGTGCTGTGGGATTCAGGGGAGACACCTGTTAGGTGTT
GGGGCCTCCCAGAAGAGGTGGGGGCAGAGTGTCAGAGGACAAAGATGAATTTGGAAGATATGGGGAAGAAGGATTTCAATTCACCCTCAAAGCTTCCTGA
GGCCTCCCGTGGGTCGGGCCCTGCAGTACTGGAGACCCAGAGTGGAGTCAGACCAGCTCCTCGGGGAGCTGCCAGTCTCGTAGGGGAGGCAGACACCACT
GAGGGTCAGGGGAGGTCAGAGAAGGCCTCAAGGAGGAAGCGGGGCTGGAAGGGAATGGCGTTGGATATGCGGTGGGAGGAATAGCCTAAGCATGAAATGG
CAGGAGGGAAAATGGCAGCACTGGCTGCGTCTAGGACAAGGTCATGGGAGACCCAGGGAGAGGGGCTGGAAGGGAAGAAGCCACTTTTGTCCTTGAAAGT
GAGGCTGGAGCCAGGCAACTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACTAGAGGTCAGGAGTTCAAGACCAGCCTGGCCAA
CATGGTGAAACTCCGTCTCTACTAAAATTACAAAAATTAGCTGGGCGTGGTGGCACACACCTGTAATCCCAATTGCTTGGGAGGCTGAGGCAGGAGAATC
TCTTGAACCCAGAAGGCAGAGGTTACAGTGAGCGGAGATCACGCCACTCCACTCCAACCTGGGCTACAGAGCCAGACTCCGTCTCAAAAAAAAAAAAAAA
AAAGAAAAAAAAAGAAAGAAAGTGAATTTGAAGAGCTGGACTTTATCCTGGTGGTGCCAAGGATCCATGGAGGGTGGTGAGCAGGGGAGGGGCACAGCCA
GCTCCAGATGTAGAAAGACCCTTTGGGGTCATGGCTGGAGGGCAAGCTGGTGGAGGGGACTGGACTGGAGGGGGACCCAAAAGGCCAGATAAGAGGTTGA
GATAGACCAGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCATGAAGTCAAGAGATTGAGGCCATCCTGGCTAAC
ACGGTGAAACCCTGTCTCTACTTAAAAAAAAAAAATTTCCAAAAAATTAGCCGGGCACGGTGGTGGGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGG
CGGGAGAATGGTGTGAACCTGGGAGGTGGAGCTTGCAGTGAGCCGACATTGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCGTCTCAAAAA
AAAAAAAAAGTTGGGACAGGGGTCCTTGGTGATGATGGAGAGAGATCCAGGGGCTGGTAGCATGGTGCTGGAGGCTGACAGGTGGAGGAGGTGGGGCAGG
GTCTGTCCGAGTGCCTAGAGGAAGAGTAAACCTTCCAGAGATGGGGGACCCAGAAGGAAGCGCAGAGTGGGGTTGGGGGAAGGGGATACCGGTGGTCAGA
AGAAATTTATTAACAGTGGATGGGATAAGTCTGTGTCTGGAGGGATCCTGGTGGAGGCAGAAGGGTCCTGCCTCACCTGGATTCTCTCACTCCCTCCCCA
GACTGCAGCCGAACCCTGGTCCCTCCTCCACAATGTGGCTTCTCCTCACTCTCTCCTTCCTGCTGGCATCCACAGGTGAGGTGGCCCCAGGAGGGGGCCA
GGTCTGTGGGAGCAGGTGCCCCCTTCCCAAGCATGTCTGGGCCCAGTGATCTGCCAGCCCCTACCTCACCCAGAGACCACTAAAGATCCTTCCTTCACCC
TCCACCTGTGCCAATGTCCCTAAGCCCTTACCGTCAGGTGCTGGTGCTGCTGCTCTGGAGTCGCTATGTTGCCTGGGGCCTCTCGCTGCCCACGACAAGG
AACACGGTCCTGGGGTTACACAAACCTGAGCTGAGTCCTGGGGCAACCGCTTCCTTGCTGTGTGTCCTTGAGGGAACTGCTTCACCTCTCTGGGCTTCGA
ATGCCTTCTCTATAAGACAGCACCCRCTTGAGACAATAACAGTGAGGTCTCAATAGCATAACAGAGGTAATATACATAGCAAGCATTAGACAAGTGCTGA
GAGGCCAACAGCACAGACAGACTCCAGCTTGAGTCCCACRCCTGCCACTCCCTGTCTCTTACAGGGTCTTTGAGGGGATTAAATGTGGTTGTGTGTGAGG
CAGAAGCATAAGCCTGGCYCAGGTAGTGCCCYTTCAGGTGTGCAAGCCAGGCACGGTGCTTAGAGCTTACATACAACGTCTATGTGTGGTGGGCACCMCC
GACCTCATTTGACAAGGGAAGGGGCTGTGGCTCAGAGGGACGGCCACAACATCAAGGTCACCTTGGGTGTCAGGCAAACTCCAGATTGAACTCAGCTGCC
ACACACCAAGAAATTAATTGTAACCTGATGCCTCTCTTCTGGAGAAATTGGGGGGTGGACTTTCATTAACGTTCTGCCACAAATGACCCTCACTCCTGGG
GGCCCYTSAGACCCCCACGCCTCCAGCCTCCCCTCCGGCTCTCTCTGTGCACTCACCTACCTGCCTYGCGCCTGCCTGCTGCGCCCAGCTGGGGCCTCCA
CCTTCCTCTGGCTTGGACTGGCCAGGTGCAGCCTCGGTGCCCAGCTGTTCAGCCCGTACCCTCCGCCCTTCGGAGGACGACCTCACCCTTCCTTTGTTAA
GCCCCTYGTCCACCACATCCGCATTCCCCTGGTCTCACGGGGGCCTTTGGCCCAGTTCCTGACTGTGATGGGGAGAGTGTGGGCATTTGGTCTGGCTGTG
CAAATCCTGCCCCTGTGTGGGTGGGAGTGTGCATGGCTTCAACCTTCAGGGGATGCATCCACATTGCCCAGTGGAGAGGGGTCCTGGTCCTGTGACCTTG
AATGTCTCTAATCATGTCCTTAAGCATAATGCCATTCTGTGTGTGTGTGTGTGTGTGTGTGTGKACATGCACGTGTGCAGTGGGTATACAAGGCCCTGTA
TGTTCACATCCTCTCCACATGCATGAGCCAGATCCCCATATGTGAAACCCAATCAGTGACTCCACAGATCTGGCTTGGGGGCTGATCTAGAGATGGATAA
ATATGTCCTGCCCTGGCTGCCTCTGGCTTCAGCTGCATGTCTYTGACCTTGAATGCCCAGCCCCGTGTCTGGGTGCTGCCCCAGACAGCAAGTCCACATC
TGAGTGTTGGCCTTCTGGGTTGGTGTCTGCAGCTCTAACTCTACAAAATGTCTTGTGGGTGAATCACGGTTTTAACCTTGACTTTTTTTTGTTTGTTTGG
TTTTTTTTGAGACGGAGTCTCGCTCTGCCGCCCAAGCTGGAGTTCAGTGGTGCAACCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCAATTCTG
TCTCTGCCTCCCGAGTAGCTAGAATTACAGGCACGCACCACCACGCCCAGCTGATTTTTGTATTTTTATTTATTTATTTATTTATTTTTTAGTAGAGACG
GGATTTCACGATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTCGGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGA
GCCACCACACCTGGCCAACCTTGACTATTTATTATAGGTAATTCTGTGCAGATGTCTGACTTATGTTGGCCATCTCCAGGATGGACCTGAACTTTCACAC
GTATGTCCCTRTGACTAAATCCAGGTGTCATTTGCAAAAAACAACTAATATTATTAAGTAGCTACCAGGGCTAGGTATCACTCACCATACATACACACAT
GCACACACACACATACACATTCCTACCTCATCCTTACAACAATCTTCATTTTACAGATGAGGAAACAGAGGCACAGACAGGTCGAATAACTTACTCAAAR
TTTCACAGCTAGTACATTCGAACCCAGGCTTAAGGACCCATCTTTGTCCAGACCCTGTATGCAAGTGTCTGTGACACTGGATGCCAAGACTCACACTAGA
GATGTTGAATTTAGGTCTGAACAATATCCAATTCTGTGTGTGTGTTTGTGTGTGCATGTGTGTGTGTGTTGTATTCATGTCTTAACCATCCATATTCATA
TACACATATGAACATCTGTGCTGTGATTCTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTCTTGTCACCCAGGCTGGAGTGCAATGGAGCA
ACCTCCGCTCACTGCAATCTCCGCCTCCCGGGTTCAAGCGATTTTCCTGCCTCAGCCTCCAGAGTAGCTGGGATTACAGGCACCCGCCACCATGCCCAGC
TAATTTTTTGTATTTTTGTTAGAGACAGGGTTTCCCCATATTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCACCCGCCTCGGCCTCCCAAA
GTGCTGGGATTACAGGCATGAGCCACCGTGCCCAGCCTGTGCTGTGATTCTTGAAGCTGCAACCCATGTGCATGCAAGTGAATTTCAGCTTCCAGTCCTG
TCCATAGCTGTACCTAAGTGTGGAAGCTGGATGTGCATGTATGCATGTCCATGACCTTGTATAGCCACATCTGGGACTCATACTGCACACTGAATTTGGC
TGACATGTCCAGACTCTGGGGCCAAGGCTGGGTCACACATACTGAGTGGCCACATGCGTTTGACGTCTGTGACAATTTGGTGACCGTGAATGACTGGTTT
CAAGTGACCACCTGTCTGAACCTGTATCCAGTGCCCCTGTCTCCACCCCCAACCACAGAGGACTTCTTGCCCTCTGGTCTGTTCCCCTTSCTCTCTCTCC
CAGAGTCTTATAGCAAATGGGGTGGGGGCTAGAGTTCTGGAGAAAACAGGCAGCGGTTGTAAATAAACAACAGGGCAGGCGGAGCATGGTGGCTCACACC
TGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGCAGAGCATTTGAAGTCAGAAGTTTGAGACTACCCTGGCTAACATGGTGAGACCTCGTCTCTACTAAA
AATACAAAAATTAGCCAGGTGTGGTGGCGGGCACCTCAGCTACTCGGGAGGCTGAGGCAGGAGGATCACTTGAACCCAGGAGGCGGAAGTTGCAGTGAGC
TGAGATCATGCCACTGCACTCCAGCCTGGGCAAAAGAGTGAGACTCCGTCTCAAAAACAACAACAACAACAAAACAAAAAACAGGGCAGGGTGTCTTGAG
AAGTTAGGGGAAAGGCATAGGCATATAGTAGTTAGGGCAGGGTGCAAGGAAGGTGTAGGAGGCAATGTAAACGTCCCTGTCCTCAGGCATCCTCTACCCC
TTCTCTTAGCAGCCCAGGATGGTGACAAGTTGCTGGAAGGTGACGAGTGTGCACCCCACTCCCAGCCATGGCAAGTGGCTCTCTACGAGCGTGGACGCTT
TAACTGTGGCGCTTCCCTCATCTCCCCACACTGGGTGCTGTCTGCGGCMCACTGCCAAAGCCGGTATGAAGGCAGGGGCTCARGGTCCTGAGGGAGCCTG
GTTCGGGGGGAAGAGCTCCTAKATTTGGGGGAAGACGGAGGCAGACGCCASAACTCCTGGGTTCTGAAAGACGAGGAGGCCGGATGTCAAGCCCCTGGGT
TAGGAAGGAGTGTGTGTTTCAAAGCCTTCGATCTCTGAAGGAGGAAGGAGAAGACTAGTTCCAGCTTTTGAGCCTCAGTTCTAGGGATGTGAGAATCCTG
GATTCGGGGACAGACCAGGAGGGGGCTGGGAGTAGTTGGAGGGGATCGAGTTCTAGGAGTGTGCCTGACTTCAGACTCGTTGGTCCTTGAGGAGCAGGGG
CTGGAACCATTGGCTTCAGGGTCTTGGGAAAAGGTAATGGGATGTCGAGATTTCTAAAGGGTCGGGAGACCTCGGGTTGCCCACTCTTTGATCTTTCTGT
CCTCTACTTGCGGGTAACCACTGGCCCGCACTCCACTGGCGGGAAAACCACTCGCCCSCACAGCTTCATGAGAGTGCGCCTGGGAGAGCACAACCTGCGC
AAGCGCGATGGCCCAGAGCAACTACGGACCACGTCTCGGGTCATTCCACACCCGCGCTACGAAGCGCGCAGCCACCGCAACGACATCATGTTGCTGCGCC
TAGTCCAGCCCGCACGCCTGAACCCCCAGGTGCGCCCCGCGGTGCTAYCCACGCGTTGCCCCCACCCGGGGGAGGCCTGTGTGGTGTCTGGCTGGGGCCT
GGTGTCCCACAACGAGCCTGGGACCGCTGGGAGCCCCCGGTCACAAGGTGCGTGAAAGGATGGAGCTGGATGCGAGGCCTCAAGGAATCCTATGCTCCAG
GGCTCTTGGGCGGAGGGGACAAGGGCCGGAATTTATGGATCTGCTCCAAGTCCACTGTCTTCCCCAGTGAGTCTCCCAGATACGTTGCATTGTGCCAACA
TCAGCATTATCTCGGACACATCTTGTGACAAGAGCTACCCAGGGCGCCTGACAAACACCATGGTGTGTGCAGGCGCGGAGGGCAGAGGCGCAGAATCCTG
TGAGGTCAGAGCCTAGAGGGGCCATCAGGCGGAAGAAGAGGGATGGGGACAGGTGTGGGAGTCCGGATGGGGTTGGATTTTCTTTGCTTTGGGCCAGAGA
AGATGCTAGGGTKAGGCTTGGAGATGGAGTAGGAAGAGAAGTTAGAATAGGGGTGAGGTTGGAGTTGGGGTTATAGGTGGGGATTGCGTTGTTTGAGGTG
GATAATGTGATAGTTAGTTTGAGATGGCATGGGTTGGGGTTGAGAATGGGAATGGTTTGGTTTGATTCTGGGTGGGAAATACGTCAGGGTTGAATTGGGA
TGAGGTAGATTTTGTTTGGAATGCAGAAGACATGAAGATTGAGATTGGATTTTGAGATGGGCATGGGTTTGATTTGATTTTGAATGGTGAGGATGTGGGC
TGAGTTGGATTTAACTTAGTACAGTTGCACTGGAGTTGCATGGGGGTRAGATTGGATATAGGTTGGGTGAGTTGTATTGAGCTGTGTTGAATTGGGGTTG
GGGTTGGGGTTGGGTTGGCTCTGTTTGGGATAAACTGGGCTGTATTGAGTTGAGTTGGGTTGGGGTTCCCTGGGATGGGGATGGATTGGGTTTGGGGTGA
GATTGCAAATGGTGATTAGGATGAGGATGAATCCAGGAGGTTTCACTCAACCTGAGACCCCCTCTTTTCCCCACAGGGTGACTCTGGGGGACCCCTGGTC
TGTGGGGGCATCCTGCAGGGCATTGTGTCCTGGGGTGACGTCCCTTGTGACAACACCACCAAGCCTGGTGTCTATACCAAAGTCTGCCACTACTTGGAGT
GGATCAGGGAAACCATGAAGAGGAACTGACTATTCTAGCCTATCTCCTGTGCCCCTGACTGAGCAGAAGCCCCCACAGCTGGCCAGCAGCCCCGCCTGAC
ATGGAACAGAACGGAGCCATCCCCCAAGACCCTGTCCAAGGCCCAGATGTTAGCCAAGGACTTGTCCCACCTGAGGACAAAGCTGGCGCTCAAGGTCACC
TGTTTAATGCCAAGATAACAAAGCGCTGATCCAAGTTGCTCTGTAGGAATTTCTGTGACTTTTTTCTGGGGTCAAAGAGAAACCCCGAGACACTGTACAC
TGTTCCTTTTCACCCACCACCCCGATCCCTAGGTGAGGAGAAGCGGCTTGAAGCAGGGCTCCATTCATTCAACACACATGACCACCCGTGTGATCTTGAA
CAAGAGGCCCAATCTCACTTCGCCTTGGTTTCCTTATCTGTAAAATGAGACCATCTTATTGCTGACTTCAAAGGGCTGTTGTGAGGATTAAATGAGATGA
TTCGTCTGAACTGATTAAAATCGTGTCTGGCACTGAGTAAATACCCTCTATCTCTGGATCCCAGTTAAAGGACCTAACAGACACTAGATTACCAAGAATG
GCTTTTTCTTTAAGGTTTAGTTCTGGGCCGGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGCTCACTTGAGGTCAGG
AGTGCAAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACTAAAAAAATTTAGCCGGGCGTGGTGGCACACGACTGTAATCCTAGCT
ACTTGGGAGGGTGATGTGGGAGGATCGCTTGAACTTAGGAGGCAGGAGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGTGACAGAGCAAG
ACTCCATCTCAGAAAAAAAAAAAAAAAAAAAAAGATTTAGTTCTGGGCTTCCTGGTAGCCATGGCAAAAAGGCAAATACTGTCCTTTCCTTAGCCAGGTC
CCTGATATACAGCAGAGGCTGGAACTCTGAGCTGCTTTGATTTTACCAAAAAGCCAAGACAACCTGTTGGAAGCCTATGGGTTTACCATTGAGGCTGCAG
GAATCTAGTTCCTAATTATCTTCAGAGACCACAAAATGTGATGTTCAAGGTCGCTGAATGTTGAAGTACATGAACCTGGCTCGTGAGACCTAAATATTGT
ACTGGTGGTGGGGGGGAAGGGTCATTGGAATCTGTGGTTAGCCTGATCTTGACCTGGGAGGGAAGGTTGTCCAGATCTCTGGGACTTTGGAGGACAGGAC
GTTGAGCACCCATAACTGGGAGCAAGAAGTGGGAGGCTCATTGAGACCCCAGCATTGTTTGGGAGGGACACTGGATTTTGTAATGCTAAAGAACTTACCC
TGGGAGACCCCTGAAACTTCACATTCCTGGATCTGGAGGCACTAGGAATGTGGTGATGTGTACCCCAAAATTTTATTATGAAAGGAACAGTAGCTTTGGG
GACCTAGGTCCTGGGTCTGGGAGTGCAAGAACCAGGGCATTCTGAAGGCCAAGGCTTATATTTCAGGGGGAACTGGCAGCTGAGATGCTAGTATCTTGGC
TCCGAGTGGTGCAGGGAATCAGAGCCCTAACTGCTGGTGTTTGAGGGCACCAGGTCTGGGGGTGCAGGGCCTTAATTGAGACTGAGGTATATGGGGCTTT
GTACCAGGGGTCACTGATTCCTCCGTCTTCCTGTTTCTGCTTCCCCTCAGTCCCCCCTTGCCTCACTGGCTGCTCCCCAGAGCAAAGCCCCAGAGCCACA
GGCCCTGCCCCACCTGGCTTCAACCCCAGGAATGCGTCCAGCGTGATCCAGGGCCTGCAGAACAGGTGCTGGTTCTCCCTCCCCGTCTACAGCTCTGGGG
ATCGGAGGGGGGGGGGCAATTGTCCAGCCCCCAGGCAACAGGGGAAGGGCCTTGGCCAACATCTGGGTGCCAGCAGGGCAGGGGTGGGGCTCTGAGGGGA
TAAGGGCTTTTAAAAGCCTCCCCAGGGAGGTTCCCCAGTTCCTCCACCTGCTGGCCCCTGGACACCTCTGTCACCATGTGGTTCCTGGTTCTGTGCCTCG
CCCTGTCCCTGGGGGGGACTGGTGAGACAGTGGGGGGATGTGGGAGGGGGAACGGGCCCTGATTCTCTTGCTGGCCTCACATCCCCCCCCGATAAGACCT
TCCCCTCCAACACCCCACCCTCATCCCTCTGGCCCACAGTCTATCCTAGTCCGGGGTGCCCCGGCTCTTATCTATCTTGCGCGGCCCCACCCTAAACTTC
CACCCCCGCTCCTCCATGTTGTCATAGTGCTCACTCCCACACCAGATTCCTGCTCCTCCCAGGAAGCCTCAGTACTTTCTCCTCTTCCCTAGCCAACGCC
CTGTCCCACCGCTTTACCAAAGGGGCAGATTCTGGGCCATCTCTGTCTCTCTCTGGAGGACCCCAACCCTCCCATGGGCTTCCCCCACCCCACAGGACTC
TGATCATCCCCTCCTGCCCCCTAGTTCCCTGCGGCCACCTATTTGGCTCCTGAGTCTACAAATCCCACCACACTCCAGTGACTTTTTCCATCCAGCTGTC
CGCTCTCAACTGTGTCCTCCAGACCCTGACATCTGGTCTCCCCAGTCCTTCCAGGGTCCCCCAAATTTCACCAGAAAACCCTGCTTCCCAAACTGGCATG
TGGGATCCCCCATCTGGTATGGGGGGGGGTCTGCAAATGTCCCTTCCCACCCAGCACCCCCAGCTCTCCCAGGAAAAACACCACACCCTCCCACCACATG
CTCCTTTCCTTGGGGAAGTTCCATCCCGCCCCAGGCCCCAGCCCTTCTCTGCCTGAATTGTTCCTACACAGCTCTGGTTTTCTGGAACCCCACGCCAAGG
ATCCTGAATGCCTTCTCAGCCAGCGCTTCTGCCCTGGCCTCCCCCAAGTCAGTATGTGATTCTACAACCTCACATCAAGTGGGTCCTGCATTGCATTCCC
ACAGCTGCTTGGCGCCTGTTCTCACCACTTCTCCAATCCTCTTCCTAGGATTGCCTCCAAGAGGACCCCATATCCTTCCAGTACCCTCAGACCATGAACC
CCATCCCCATGAGAAACGAAGATCCCATCCTTCACCCTGTCCGAGAAGGACTGCCACTCACGCCTCCCTCCTCCTGAGCCCCGTCCCAGTCCTGACCGCA
ACTGTGTTCTCAGGGCCCCAACCTCCCCTCAGATTGCCATTCCTGGTTCACAGGAAGGACCCCAAAACCTCTCGGAAGCCCACCTCTAGCCTTAACCATA
GCCCTTTCTTTTACCCTTTAACCAGGAAGCCCTGAAATCTAACTGTCCCAGCCAAGCTGGCCCCTTCCAACCCCAATGTAGGGACCCCAAGTCACCCCCA
AACTCTTCAGTCCAGATGCTCTTCTTTACCTCTCAGACCTGGTTCCCTAAAGCTGCATCCTTTCCTGAACCTCAAAAGCCCAACCCAGGTCCTGTTTCCC
TAGCCTAGGAGCCCCTTAGCCCTCCAGATTCTTCCTCAGTGAGCCTCTGATCCTGTCCCACCCTTGGCGCCTTGATCCCTGGTTTCCAGAATCCCTTTCC
ACTCCCCTAACCCACCACCTCCCATCCCCCAGCCCCAGACCCCAAATGACCTGACGCCCAGATGCAGTGTCTGCTCCAGACACTGTCTCCTGTCTCCTAC
CCTGATCCCTGGAGGCTGCTCTACTGTCAGAGCACAAAATCTCCCCACCAGGTCCAGCCACCACTCCAAAAGCCCAGGGAACAGTCCAGAGTCCCACCCC
TTCCCAACACCCCTTGCCCATGTCCCCAACCTCCAGCCCTGGTCCTCTACCCGCAATGTCCCTTCAGACCCACAGCCCAGCTCCCTCTCCTAGCCTTGTC
CCTGGCCTCTCCTGCCAACCCTGCCCTTCCTGACCCAGCACCGCCTCTGCAGGTGCTGCGCCCCCGATTCAGTCCCGGATTGTGGGAGGCTGGGAGTGTG
AGCAGCATTCCCAGCCCTGGCAGGCGGCTCTGTACCATTTCAGCACTTTCCAGTGTGGGGGCATCCTGGTGCACCGCCAGTGGGTGCTCACAGCTGCTCA
TTGCATCAGCGAGTGAGTAGGGGCCTGGGGTCTGGGAGGAGGGCATCTATGCTGCCACAGGATTGACAGGCCAGTGGCATTCCCCTTGGATAACCTCAGG
CAAGACTGGGGGGCTGAGGCAGAGAGGAAGGCTCTGGCGCAGGTCGCCTGGCAGGGCAGAGCTGGGCTGGACACCCCTCTCCAAGGCTGCCTGGGTCTCT
TGGGATCTGGTTCTGCTTGTGTCTCTGTGTGACTGTGTTCTGGTCTCTGTCTTCCTCTCTCTCCTCTGTCTCCTTGTCTCTGCATCTCCCCTGTCTCTGT
CTGTCTCTGAGTCTCTCTGCGGCATCTCTGTCACTGTGTCTCACCCTCCATCTCTCTACCCATCTCTCTCTCTCTGGGTCTCTACCTCACCGCTCCCTCA
TCCCTACTAAACACACACCCAGATGGACCTAAGGGAGGCCCCAGAGTAAAGGAAGGGCTTTATCCCCAACTTGTGTGCCTGGGAGGGGGCGCCTCTCCCT
CTGTCCAGCTCCCCGCCCCACAGGATATCCCTCCACTCTGGAGAGACACAGGGAAGGGCTGGTTTCAGCGGGAGCTGGGTGGGGCAACTGAGGGAGGAGG
AAGGAGGAGGCGGGGCGAGAAACGCGCGGGAGGGTGCTGGGAAGGGAAGGGGGCCTCGACCTTGGACTTCAGGCCAGGCCACCTGCCCCTGGGGAGCCCG
CACCACAGCCCCAGCTGCAGCTGAGCCGCTCTCAGGCCTCCCCTCCTCCCTACCTGCCCCCACCCTCCCCACCTGCCCCCACCCTCCCCCAGGGCCTCCC
TCCCTTTTCTCTCCCACACTCGGTCACTCCTGCTTCCTCTCTGCCTCTGTTTCTAGTTCTCACTCTGACGTCCCGCGTCCTTTTTCATTTGTCTGCTTCT
CGCTCCCTTCCGTGTTCTGTTCCCTCTTCCTCCCTCTTCCCTGGGCCTGTTTCTCGCTGTCCCTGTCTTTTATCCTTCTCATCTGCCTCTTTTTTGCTCA
CCCTGTTTCTCACTGCCCTCCCCTCCGCCTTTCTCACCCCTCTGTCCTTTTGAGCTCTTTTTTGCTCTGTCTCTTCATTTGCCTTTTGCACTCTCAAACT
CTTTCATCTTCCCATTCGCTGTCTGTATTTCTCCATAACTATATCTTTCTTCCTCTGTCTCCGCCCACCCACATTTTTCTCTTTCCCTTTCTCTCTTTGG
GGACCCTCCCCCATGCTCCCCTGCCCCATCCCCTTTTCCCCTTCCCGTCTTCTCATCCCTCCATTCCCATCTTTCCCCAGCAATTACCAGCTCTGGCTGG
GTCGCCACAACTTGTTTGACGACGAAAACACAGCCCAGTTTGTTCATGTCAGTGAGAGCTTCCCACACCCTGGCTTCAACATGAGCCTCCTGGAGAACCA
CACCCGCCAAGCAGACGAGGACTACAGCCACGACCTCATGCTGCTCCGCCTGACAGAGCCTGCTGATACCATCACAGACGCTGTGAAGGTCGTGGAGTTG
CCCACCGAGGAACCCGAAGTGGGGAGCACCTGTTTGGCTTCCGGCTGGGGCAGCATCGAACCAGAGAATTGTATGTGGGGGCAGACTGTGTAGCCCAAGG
CGGGGATGGGGACTCCTGCGTCCAAGGGAGAAAGGGCCAGGGAAGCAGGTGAGGTCGGGCTGCAGCCCTTTTTCTCCCGGGTTCGTAGTCTCATTTCCAG
ATGATCTCCAGTGTGTGGACCTCAAAATCCTGCCTAATGATGAGTGCAAAAAAGCCCACGTCCAGAAGGTGACAGACTTCATGCTGTGTGTCGGACACCT
GGAAGGTGGCAAAGACACCTGTGTGGTGAGGCAGCCCTGCCCCCAGGGTCTGGAAGGGCTGAGGGAGGGGACTCAGCCTCTGAACTGGCTTCTGAGAGCT
AACCAGGCATCTGCTTCACTGCTTCCCAGCTAGCTGTAGCCACTCGCCCCATCAGTGCCCCAGCTCCCCCTCCTTCCCCCGCCCATCCAGGGACAACTGC
ATCTCACCCCCCACACCAGAGTTCACCGTTCCTCGTGGTAATGTGTTGTTACCGTCGAGTCAGAGAGTAGTCCTGGAGAGGTGGCCTCTGCGATGTGCCC
GCAGGGGCAGCGTCCTGCAGATGGTCCTGCCCCTCCTCCCCCTAACCTGTCTGCAGGCACTGTCCACCTGGACCCTGCCCCATGTGCAGGAGCTGGACCC
TGAGGTCCCTTCCCCCTTGGCCAGGACTGGAGACCCTGTCCCCTCTGTGGGAATCCCTGCCCACCTTCCTCTGGGAGTGGGCACTGGAGGCCCTGTCTGC
GAGCTGGGGCTCCCCAGGCAGAACTTGGGCCCCGTAGACCTTTCTCACTCTCCCCTCCCACCTTGTGCTCCCAGGGTGATTCAGGGGGCCCGCTGATGTG
TGATGGTGTGCTCCAAGGTGTCACATCATGGGGCT


SNP Information

Context             (SEQ ID NO:5787):
CTAGAGGGGCCATCAGGCGGAAGAAGAGGGATGGGGACAGGTGTGGGAGTCCGGATGGGGTTGGATTTTCTTTGCTTTGGGCCAGAGAAGATGCTAGGGT
K
AGGCTTGGAGATGGAGTAGGAAGAGAAGTTAGAATAGGGGTGAGGTTGGAGTTGGGGTTATAGGTGGGGATTGCGTTGTTTGAGGTGGATAATGTGATAG
Celera SNP ID:            hCV25761512
SNP Position Genomic:     11013
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(G,1|T,37)   total(G,1|T,71)
SNP Type:                 INTRON


Context             (SEQ ID NO:5788):
ACTGCCAAAGCCGGTATGAAGGCAGGGGCTCAGGGTCCTGAGGGAGCCTGGTTCGGGGGGAAGAGCTCCTAGATTTGGGGGAAGACGGAGGCAGACGCCA
S
AACTCCTGGGTTCTGAAAGACGAGGAGGCCGGATGTCAAGCCCCTGGGTTAGGAAGGAGTGTGTGTTTCAAAGCCTTCGATCTCTGAAGGAGGAAGGAGA
Celera SNP ID:            hCV26638597
SNP Position Genomic:     9951
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5789):
CTCCCCACACTGGGTGCTGTCTGCGGCCCACTGCCAAAGCCGGTATGAAGGCAGGGGCTCAGGGTCCTGAGGGAGCCTGGTTCGGGGGGAAGAGCTCCTA
K
ATTTGGGGGAAGACGGAGGCAGACGCCAGAACTCCTGGGTTCTGAAAGACGAGGAGGCCGGATGTCAAGCCCCTGGGTTAGGAAGGAGTGTGTGTTTCAA
Celera SNP ID:            hCV26638598
SNP Position Genomic:     9922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5790):
GATTTTGAGATGGGCATGGGTTTGATTTGATTTTGAATGGTGAGGATGTGGGCTGAGTTGGATTTAACTTAGTACAGTTGCACTGGAGTTGCATGGGGGT
R
AGATTGGATATAGGTTGGGTGAGTTGTATTGAGCTGTGTTGAATTGGGGTTGGGGTTGGGGTTGGGTTGGCTCTGTTTGGGATAAACTGGGCTGTATTGA
Celera SNP ID:            hCV15929775
SNP Position Genomic:     11348
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5791):
CTACGAGCGTGGACGCTTTAACTGTGGCGCTTCCCTCATCTCCCCACACTGGGTGCTGTCTGCGGCCCACTGCCAAAGCCGGTATGAAGGCAGGGGCTCA
R
GGTCCTGAGGGAGCCTGGTTCGGGGGGAAGAGCTCCTAGATTTGGGGGAAGACGGAGGCAGACGCCAGAACTCCTGGGTTCTGAAAGACGAGGAGGCCGG
Celera SNP ID:            hCV26638599
SNP Position Genomic:     9883
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5792):
TGCACACACACACATACACATTCCTACCTCATCCTTACAACAATCTTCATTTTACAGATGAGGAAACAGAGGCACAGACAGGTCGAATAACTTACTCAAA
R
TTTCACAGCTAGTACATTCGAACCCAGGCTTAAGGACCCATCTTTGTCCAGACCCTGTATGCAAGTGTCTGTGACACTGGATGCCAAGACTCACACTAGA
Celera SNP ID:            hCV11509596
SNP Position Genomic:     8300
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:5793):
AGGGTCGGGAGACCTCGGGTTGCCCACTCTTTGATCTTTCTGTCCTCTACTTGCGGGTAACCACTGGCCCGCACTCCACTGGCGGGAAAACCACTCGCCC
S
CACAGCTTCATGAGAGTGCGCCTGGGAGAGCACAACCTGCGCAAGCGCGATGGCCCAGAGCAACTACGGACCACGTCTCGGGTCATTCCACACCCGCGCT
Celera SNP ID:            hCV22272909
SNP Position Genomic:     10358
SNP Source:               Applera
Population(Allele,Count): african american(C,4|G,20)   caucasian(C,1|G,1)   total(C,5|G,21)
SNP Type:                 INTRON


Context             (SEQ ID NO:5794):
TTGCCCAGTGGAGAGGGGTCCTGGTCCTGTGACCTTGAATGTCTCTAATCATGTCCTTAAGCATAATGCCATTCTGTGTGTGTGTGTGTGTGTGTGTGTG
K
ACATGCACGTGTGCAGTGGGTATACAAGGCCCTGTATGTTCACATCCTCTCCACATGCATGAGCCAGATCCCCATATGTGAAACCCAATCAGTGACTCCA
Celera SNP ID:            hCV11509597
SNP Position Genomic:     7364
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3|-,9)   total(G,3|-,9|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5795):
ACACCCGCGCTACGAAGCGCGCAGCCACCGCAACGACATCATGTTGCTGCGCCTAGTCCAGCCCGCACGCCTGAACCCCCAGGTGCGCCCCGCGGTGCTA
Y
CCACGCGTTGCCCCCACCCGGGGGAGGCCTGTGTGGTGTCTGGCTGGGGCCTGGTGTCCCACAACGAGCCTGGGACCGCTGGGAGCCCCCGGTCACAAGG
Celera SNP ID:            hCV29188581
SNP Position Genomic:     10548
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5796):
TAACGTTCTGCCACAAATGACCCTCACTCCTGGGGGCCCCTGAGACCCCCACGCCTCCAGCCTCCCCTCCGGCTCTCTCTGTGCACTCACCTACCTGCCT
Y
GCGCCTGCCTGCTGCGCCCAGCTGGGGCCTCCACCTTCCTCTGGCTTGGACTGGCCAGGTGCAGCCTCGGTGCCCAGCTGTTCAGCCCGTACCCTCCGCC
Celera SNP ID:            hCV29188582
SNP Position Genomic:     6967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5797):
AAGAAATTAATTGTAACCTGATGCCTCTCTTCTGGAGAAATTGGGGGGTGGACTTTCATTAACGTTCTGCCACAAATGACCCTCACTCCTGGGGGCCCCT
S
AGACCCCCACGCCTCCAGCCTCCCCTCCGGCTCTCTCTGTGCACTCACCTACCTGCCTCGCGCCTGCCTGCTGCGCCCAGCTGGGGCCTCCACCTTCCTC
Celera SNP ID:            hCV29188583
SNP Position Genomic:     6908
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5798):
TGTGACACTGGATGCCAAGACTCACACTAGAGATGTTGAATTTAGGTCTGAACAATATCCAATTCTGTGTGTGTGTTTGTGTGTGCATGTGTGTGTGTGT
T
GTATTCATGTCTTAACCATCCATATTCATATACACATATGAACATCTGTGCTGTGATTCTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTCACTC
Celera SNP ID:            hCV26638600
SNP Position Genomic:     8470
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5799):
CCAAGAAATTAATTGTAACCTGATGCCTCTCTTCTGGAGAAATTGGGGGGTGGACTTTCATTAACGTTCTGCCACAAATGACCCTCACTCCTGGGGGCCC
Y
TGAGACCCCCACGCCTCCAGCCTCCCCTCCGGCTCTCTCTGTGCACTCACCTACCTGCCTCGCGCCTGCCTGCTGCGCCCAGCTGGGGCCTCCACCTTCC
Celera SNP ID:            hCV26638601
SNP Position Genomic:     6906
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5800):
AGGCAGAAGCATAAGCCTGGCCCAGGTAGTGCCCCTTCAGGTGTGCAAGCCAGGCACGGTGCTTAGAGCTTACATACAACGTCTATGTGTGGTGGGCACC
M
CCGACCTCATTTGACAAGGGAAGGGGCTGTGGCTCAGAGGGACGGCCACAACATCAAGGTCACCTTGGGTGTCAGGCAAACTCCAGATTGAACTCAGCTG
Celera SNP ID:            hCV26638602
SNP Position Genomic:     6698
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5801):
AGTCCCACACCTGCCACTCCCTGTCTCTTACAGGGTCTTTGAGGGGATTAAATGTGGTTGTGTGTGAGGCAGAAGCATAAGCCTGGCCCAGGTAGTGCCC
Y
TTCAGGTGTGCAAGCCAGGCACGGTGCTTAGAGCTTACATACAACGTCTATGTGTGGTGGGCACCACCGACCTCATTTGACAAGGGAAGGGGCTGTGGCT
Celera SNP ID:            hCV26638603
SNP Position Genomic:     6632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5802):
ATGACTGGTTTCAAGTGACCACCTGTCTGAACCTGTATCCAGTGCCCCTGTCTCCACCCCCAACCACAGAGGACTTCTTGCCCTCTGGTCTGTTCCCCTT
S
CTCTCTCTCCCAGAGTCTTATAGCAAATGGGGTGGGGGCTAGAGTTCTGGAGAAAACAGGCAGCGGTTGTAAATAAACAACAGGGCAGGCGGAGCATGGT
Celera SNP ID:            hCV2421335
SNP Position Genomic:     9190
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,7)      total(G,3|C,7) ;no_pop(G,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5803):
CTGAGCTGAGTCCTGGGGCAACCGCTTCCTTGCTGTGTGTCCTTGAGGGAACTGCTTCACCTCTCTGGGCTTCGAATGCCTTCTCTATAAGACAGCACCC
R
CTTGAGACAATAACAGTGAGGTCTCAATAGCATAACAGAGGTAATATACATAGCAAGCATTAGACAAGTGCTGAGAGGCCAACAGCACAGACAGACTCCA
Celera SNP ID:            hCV1531082
SNP Position Genomic:     6426
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,8|G,10)      total(G,10|A,8) ;no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5804):
CTGGCCAACCTTGACTATTTATTATAGGTAATTCTGTGCAGATGTCTGACTTATGTTGGCCATCTCCAGGATGGACCTGAACTTTCACACGTATGTCCCT
R
TGACTAAATCCAGGTGTCATTTGCAAAAAACAACTAATATTATTAAGTAGCTACCAGGGCTAGGTATCACTCACCATACATACACACATGCACACACACA
Celera SNP ID:            hCV8705513
SNP Position Genomic:     8111
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:5805):
CAGTGAGGTCTCAATAGCATAACAGAGGTAATATACATAGCAAGCATTAGACAAGTGCTGAGAGGCCAACAGCACAGACAGACTCCAGCTTGAGTCCCAC
R
CCTGCCACTCCCTGTCTCTTACAGGGTCTTTGAGGGGATTAAATGTGGTTGTGTGTGAGGCAGAAGCATAAGCCTGGCCCAGGTAGTGCCCCTTCAGGTG
Celera SNP ID:            hCV1531083
SNP Position Genomic:     6540
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,18)   total(G,1|A,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5806):
AGACTCCAGCTTGAGTCCCACACCTGCCACTCCCTGTCTCTTACAGGGTCTTTGAGGGGATTAAATGTGGTTGTGTGTGAGGCAGAAGCATAAGCCTGGC
Y
CAGGTAGTGCCCCTTCAGGTGTGCAAGCCAGGCACGGTGCTTAGAGCTTACATACAACGTCTATGTGTGGTGGGCACCACCGACCTCATTTGACAAGGGA
Celera SNP ID:            hCV1531084
SNP Position Genomic:     6619
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,18)   total(C,18|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5807):
GTGCACCCCACTCCCAGCCATGGCAAGTGGCTCTCTACGAGCGTGGACGCTTTAACTGTGGCGCTTCCCTCATCTCCCCACACTGGGTGCTGTCTGCGGC
M
CACTGCCAAAGCCGGTATGAAGGCAGGGGCTCAGGGTCCTGAGGGAGCCTGGTTCGGGGGGAAGAGCTCCTAGATTTGGGGGAAGACGGAGGCAGACGCC
Celera SNP ID:            hCV1531092
SNP Position Genomic:     9849
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|C,8)      total(A,1|C,8) ;no_pop(C,-|A,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:5808):
GGGGATTAAATGTGGTTGTGTGTGAGGCAGAAGCATAAGCCTGGCCCAGGTAGTGCCCCTTCAGGTGTGCAAGCCAGGCACGGTGCTTAGAGCTTACATA
C
AACGTCTATGTGTGGTGGGCACCACCGACCTCATTTGACAAGGGAAGGGGCTGTGGCTCAGAGGGACGGCCACAACATCAAGGTCACCTTGGGTGTCAGG
Celera SNP ID:            hCV1531085
SNP Position Genomic:     6674
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,16)   total(C,16|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5809):
TCTGGCTTGGACTGGCCAGGTGCAGCCTCGGTGCCCAGCTGTTCAGCCCGTACCCTCCGCCCTTCGGAGGACGACCTCACCCTTCCTTTGTTAAGCCCCT
Y
GTCCACCACATCCGCATTCCCCTGGTCTCACGGGGGCCTTTGGCCCAGTTCCTGACTGTGATGGGGAGAGTGTGGGCATTTGGTCTGGCTGTGCAAATCC
Celera SNP ID:            hCV1531086
SNP Position Genomic:     7107
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:5810):
TGAAACCCAATCAGTGACTCCACAGATCTGGCTTGGGGGCTGATCTAGAGATGGATAAATATGTCCTGCCCTGGCTGCCTCTGGCTTCAGCTGCATGTCT
Y
TGACCTTGAATGCCCAGCCCCGTGTCTGGGTGCTGCCCCAGACAGCAAGTCCACATCTGAGTGTTGGCCTTCTGGGTTGGTGTCTGCAGCTCTAACTCTA
Celera SNP ID:            hCV1531087
SNP Position Genomic:     7543
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


Gene Number:                 33
Celera Gene:                 hCG1648174 - 61000125149604
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W6GH(14096936..14126807)
Chromosome:                  Chr15
OMIM number:                 147370
OMIM Information:            INSULIN-LIKE GROWTH FACTOR 1 RECEPTOR;IGF1R


Genomic Sequence (SEQ ID NO:1694):
AATACAAAATACAGCGCCTGGCACAGACCTGGTGCTTATCAGGTATTTGCACAATAACTATTTTGCAGAATGAACAGCAGGCTTAAAAAAGCAGATGCCC
ATCTGCTCATTCAGAGCACCCAGCTCCCAAGAGCACTACACCATCAGCAGAAATTGGAAACATTCCTTCACCACCAAAGGTGAGGCCAGCAGTGTCTGTG
ACTGCAAAACATGTACCCAGCATGGGGGGATCCAGTGGTCACCGCCCCATTCAAGGCAAGCACAGGTGTTTTCAAAAATGATCTGTAAGGCTACTAAGAG
TTAAAGGTGTTTCTGCCTTAAAAGCAAATGAAACAACTAAAAAGTCACTGCCCAGGGATTTGAGTCTTTTCTTTCCACTTCTATTATTGAGAGAGCCTCC
AGAAGACTACAGCTAAGAGGGCTGTTATTTTCCTACTAGAAGAGCAGCTGAGGAAAGGTAAAACAGAGCGAGAATGATCATCTATTTACTGTACAACCGC
TAGTCCGCCACTAAGAGAAGTATGCAAACAAGAGCCTCCAGAAGATGGCTATTCCACCAGTACATCAATTAACCAAATAGTGTAATGATACACACAATGT
CACTGACATGCCAGTACATCAATCAGCTACAGAGTATAAAACCATGTGTGGTCCAAAAGGACCCTACAATAATCCCCAAGAATGCTACGTGGCACAGTAG
CTCATGTCTATCAGCCCAACTACTTGGGAGGTTGAGGCAAGAGGATCACTTGAGCCCAGGAGTTCAAGGCTACAGTGAGCCATGATCACACCACTGCACT
CCAGCCAGGATAATAAAGACCTCATTTTTTTAAAAAAAAGTAAAATAAAATAAAAAGATGCTCCCATGTGACAGTCTTACAATGCAGGCTAGTGTCTCCA
AAGAAGACTTACTGAGCTACACAGAGGAAGCTGGACATTAGGAATCCCACCCAGAAACATTTGTTAACCCTTACGAAATCACTGATTAAGTTTCACCAGA
TTCACTGCTTCAACTTTCCAGGTACCCGTATTTAGGGGGGAAAAATCCATTCACCCCAAATGAAATGATTACTGGACCAAAATTAGTTAACCCAATCAGA
ACTACTTGAGTGGCCAAGCCATTATCATCCTATAAAGCTGGAAAGGTTTTTGTATTTCTCAAAATCTTATGACTCTCATCACAAATGAGACCGGAAGAAA
TACAACGTTTAGCATGGAAGCATTTGAACTGTAGGCACTTTTGCTAACCTACACTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACTC
AGGCTGGAGTGCAATGGCGCCATCTTGTCTCGCTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCCACCTCAGCCTCCCGAGTAGCTGGGACTACAG
GCGCACACCACCACACGCGGCTAATTTTTGTATTGTATTTTTCGTAGAGACGGGGTTTTGCCGTGCTCGCCAGGCTGGTCTCAAACTCCCGACCACAGGT
GATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCATGGCACCCAGCCTTATCTACATTTTATTTCATGAAAAGAGTTGTGGGAAA
ATGTGAAGGCTGCCAGTCCATCATTTTCTTGGTTACTTTGGATCCTTCTCCTTTGTTGCAAGAATCATAAATATTCCCAATTCTTTTACAGGCAAAAATG
AAACGTGTGCCCAAATATGTCCTTTAAAAATAAACATTAAACATTATGAGGGAAACAACTGGCATTGTGGAAAATGTCTGTGCACCCTGGCTAAGCAACT
CACTATTGCTTGGATTATATTAATATACACACCATAAAGCTAAGGAAGAACTTAAATTTGAGCCTCTGCATTTCTGTGCTGAGTAAGCTGTAGTTCTTTC
GACTTATCGCCTTCATACTTGCCTGTCCAAACAAAAAGATCTCAAGAATTCCACTGAAATAGTCCAAACAAGAGCTTAAACTTACAAAGCTGTTTTTCAG
AGCTCAATAGTACAACAACAGGAAGTAGAACTTCTGGGATGGGGATTTTGCTATTTATTTTTTCTTTCAATGGCCACTTTTAAGCAAGAGAGAAAAAAGT
CTACAGGCATTACAAATCCTGGAAGCTATGAATCAGGAAGTGGGAAATGGCTGATCCTGAAATGGCCAGCCTGAAAATCCTGGCTCTTTTATGTAGTCAA
GTCTCTGAAGCCAGGAATTTCAGAAATCTTAGGCATTTTGCATTATTTTCTGAATCTTAAAAGAGCTGAGACTTGAGAGAAAAGAGAAGGGCCAGGATAA
ATGAACCAATAAGGAAGCCCCCAGTCTCCAGCTCCATGCCCCTACCACCACACAAATCTTGCCCCTATAATTACAAGCTCAGTTGGGACATGCTCCTTAC
AAATGACGTTTGTTTACAATGCTGCTAAGGAGAGGGGGTGATAGCCCATGGTTTCTGCAGACAGAGCCTGCCCCAGGCTTCAGCTTTCTCATTCTTTCCC
AATGTTGAATCTGGAATGGACTCGGGACCCTAAATATTTCACAACTCCAAACACCCTGCAGTTGATTAAAAACAATGGTCACTTTTGTTTTCAGGAAAGA
CTATACCTGATTTTTGCTAAGTCTAAGTAAAATGCAAAGACCCATGCAATGAACCTGCATGAATGCTTTCAGACATGCAGATTTGGAGGGGGACACTGCT
CTCTTTTGAGCAAATGGAGATCCAGTAACAGAGCGGGGCTCACTCTGCAATGGCTGCATTTGCATCAACGTGAGACACCAAACAAATGCCCGCACACAGG
AGTCTACTATGTGGATCGAGGGAAAAGAGGGCACCTTTATCCTTCCAAATATGACAACTCAATAGAAAACTTCTCATTCCAAAGTCCTAAGGGTCCCTAC
AACAGGAAGCTACTGGAGCTTGTGAAATATTTCCAGTTATTTTCTACAGAAATTAAACATATCAATTCTACCGGCAGGTCATGTGAGATGACAGGTTTAA
AAATGTATGTTGATTGGGGGAGAAAAGCAAAGAAAAAAAATAGAAGAAAATAAAGTCATTTCCTGTGTCAGTTGTAATTTGGGAGGCTTTTTTCCAGTGC
CCTTCTAAGTAAATCTGCCATAATCAAATGTAGTCAAATATAACTGCAATGTGCAAAAGCACAGTGATGACCTGAGAGGAAGGTGCCACTAAGAACCCCT
GGGACCAGTCTTCTATCTCTTCCATCAGACATCCACTACTACCTCCCCAAAAAGGCTCAGGGTTATTTCATAAACACCAGTAGCCTCCCATGTATTTAAC
TTAGCACAAATAAGAGAACCAATATGTAAGGGATTTTTTTTGCTCTTAAGAACCAACCATTCCTCTTACCCCAGCCTTTACAGACCTGGAAAACCATCCC
TGATTTGCCCCCAGCCTCATCCCCCACTACAACTTAAACAAACCTTCCTCTCCAGCCTTGCTTCCAGCCCCAAAATACATTTTTAAAGTTCTGATGCCAA
GACCACCCCATCAAGTCTAGTATAATCCTTCTGATCATCTAAGTACCCTCCTCCAGGAGACCTCCAAGATCCCTCTGGGCAAAATGATCTCTTCCTCCAA
TTCCAGGGCTCTTTCCCAGTGTGCTCACTCCATCCTCACTCATAAAAGCATCTGGTTCCATTCCACAGCTGGGCACACCTTATCTTCTCAAGAGACAATG
TAAGCTCTTTATAAAACAGGGGCTGCATTTTACACACCTCACATACCTCCTGCAGGTCCCCGAACATCCAAACACTCCAAATTTGTCTCTGTCTCCAAAT
CCTACAAAACCAAATTCTCTCTACCCAGCTCAGCTCAGCATCCCTGGGGCCCCGATCTACCTCATCTGCCTCCTCTGCTCTAGAGTAAAAGCAACACCAG
TCACCCCCACTCTGCCGCCCACTGTAGCCGAATCCAAGTGGCACTCTCAGCCCATGCTCTTATCAGTGCACTGGGGGCAGGCCTACCATCTACCAAGCAC
CAGAAATGCCCCTCCGAGCTTTGTGCAGCCCCCTTGCCAGGCAGACAGCCTCCAGGGCCAGGTTCGGCACGGGAAGCTAGAACACGGGGCTGACTGCACA
GCCTGGGGCAGACACACCTCAGCTTCCACACCCACCTGACAAGGCTGCCCAGAGGATGGAGGGAAGTCAGTGTTTCACCCACTGCCCTAATGGGAAGACA
GTGTTTCTCACCCACTGCTCAAGCCTGGAAGCAAAAGGTCCCAATGTTCCTACTCGATGACCCGCCCTGTCATGCCCTGTCCAGATATCTAACCCTCACC
TTTCTCTGTCCATCAAGCAGTAAGAATTCATAGCAGCCAGCACATATGACCCTGAGGGCAACGTTCTAACAAAGCCAAAGAAAAGGTGGCACACTGGCCT
TCAATTCAAAGCCCAGGGTGGCAAGAAAAGGGTCACTAGTTCCCTGAAAATAACTGGCATGCAAAATTCAAACAGGTAATTGGGGTGGAGTTCATGGAAA
AGGGAAGAGAAAACCTCACATGGGTTTGTATACCCTTCATTTAAGCACACTGTCTTCAGGCAGCAGAGGTTTCAAGGTGCATGCTAAAAACCCTTGCGCA
GGTTTCAGAGAGCAGATAAAAGGGGCTAACCAGGCTCTCAGGAAGCCCAATCCGCACACGCACGGAGCCGAGCCAGTGGAAACCATAAGCCTGTCTCATC
TGTCTCTAAACTGCTCACAGGATGAACAGGAAGGCTTGATCGATACTGATTTTACAGTCATAGGAGTGACTCATCACGAAATTCTACCCAGCTTAAAGCT
CAGCTGTGAACAGAAACAAAACAACATAATGGCAGGGTCAGATTTAAAATAGTAAGTATGACTGGTAAACAGTTAATGCTCATAAACAATTAACAATCAC
CTTCCCAGCCTCCTGGATTTGCTGGGAGAGGAAAAAGTACTACTGAGGGCTCTGAAGCGGGCTGCAGCAGTAAGTCTGTCTTCTGTGGCAGCCCCTTCCA
ACTCACTGATGCTGGTGTCAGCTTTACAAAACCCTGGAGGGTCACGAGGAGCTGCTTTTAATAGAATTCCACACATCTGATGGGTACGTGCTCACTGAGG
AGGGGAGAGAGGAGGAATGTACTTACATGGAACAGAGTTTTCAGAGAGTGAAATTTAAGCTCTCCTGGAGTATAACTTCCTCTATGTAGCTCCTGCAGAG
TTTAAAATAAGCAACTTATCTGTCCTAAAATGAGAGAAATGGGGTCATATAAAATTTCTCAATAATTGAGTTCCTCTCAAACTGCATTCACTTTAAGGAA
AGCACTGGGGTGCTCAGAAGGTGCACTACACATTTCAGGCATTTGGTTACAGAGGCGAATGTGCTCAGCGCCATCCTGAAGACATGTACTTTCAAGTACT
GGATTCCATGTAAATTTTAATGATCTGTAACCAACTCTCAGACCTGGCCAAGAACTTCCATAGAGAATCCTGGTCTGGAGATCCCTTCACTATGGCACAC
TGCTCCACTGTTCTGAACTGCATGACTGTGTCCCCTCCAATTCATATACTGAAGCCCCAACCCCCAGATACCTTCAGTGGTATCTGAAGGTGGGGCCTTA
GGGAGGTAATCAGGTTTAGATGAGGTCCTGAGGGTAGAGCCCCCATAATGGCAACAATGCCCTTACATAAAGAGGAAGAGACCAGAGCCCCTTGCTCTCT
CCACCCTGTGAGGACACATGACATTTGTCATCTGCAAGCCAAGAAATGGACCCTTAACAGAAACCAAATTTGGTCGGCACCTTGATCTCAGACTTCCAGC
CTCCAGAACTGTGAGAAACATAAGTCTGTGGTTTTAGCCCTCAGTCTATAGTAACCTGTCACAGCAGTCTGAGCTAAGACATCCATACAGCCCCGTAAGA
GAACCAACCCAGGGACGAGCAACACCTCTCATCATCTGACACCACCTCCTGCCTGACGACCAGGCAAAACAAGCACATACACAAACAAGCAAAAGGGGAG
GATGAGAGTGGTCATTCGGGTTTGCTTTGGAGGTCCAGAGAAAATGCAAGTCCAACTTCCAGGCACAGACCAGTTGCYCGCAGCAGGCTTCCTCCCATTG
GTCTCAGACCAAGGTGAGCCACTCCCCCGGGCGGGACAGAGAAAGCTCCTCTGGAAGCCAGACAAGCTCGGCCACCTCGAAGTCTTCTTTGGAATCCAGC
AGGTCCAGGCCTGAGCCCTGGCGCCTGGTTAAACCAAARGATGACAACCAAGCAGAAAAAAATAGCCCCAGAGAGTATCTGCTGGAGAGGCAGACAGGCG
GACCTGGCCTTCGACACACAGCATGCGTGCCATGGTCTCTAGCAGCGCGTCCCTCCAAGCTTCCTGGCCTGTAAGGCGAAGCCTCTAGCCCTTTTCTACT
TTTAGGATGCTCAGATTCTTGCCTGCAGAGGTCAATCCCTTTCTTTCAAGGGCTCCCCCCTCTGTAATGAGGGAGTCCATTTACAATAAAAAAAAAATTG
AGCTGTCAAAACAAATGAAAAACTTCCAGTATAATCATAATCAGTGAGGGAATCAAACATCTAAACAAATCTCTCTTCTGGAAAAATAAGAAAATGAAAA
AGCAATTACACGTCACATGGCTGATTAGCAATAAATTTCATTTGTGACTACRGTGGCATGAGAGTTTGACTCCTGACTTGCTTTCCTTGAAAGAAAAAAA
TTATCTGCAATACTGTCTCTTGATATAGAAAACAGACCCATTCCATCTGACTCAGCTCAAACCTGCGTTTTTTTTCAAGGCCTCTCCTGACCTCACAGTT
CCCCCGCAGTGATCCCGTGGTACCTAGGACCGCCATGGACAAGGACTGGTCTCCTTGAATTTGTCTCCCCAACTATTCCACACATATACTCGCATAAACA
ATTGAGAAATAAGCTTTTTAAAATTGTGGTAAAATATACACAACAAAGAATTTAACATTTTAACCCTTGTTAAGTGTATAGTTCACTGACACTGATTCAC
AATGTTGCTCAACCACCGTAACCATCCACCTCTAGAACTTTTACATGTTCCCAAACTGAAACTCTGTACCCATTAAACACCAATTCCTCATTGCTCCCTC
CCCCCAGCCTCTATTCACCGCCCCTCACCATTCTACTTTCCGTCTCTATGAATGTGACTACTCTACATAGCTCACGTAAGGGTAACAATTATGCACTGTT
TGTCCTTTCATGACTGGCTTCTTTCACTTCGCAGAGTGTCTTCAAGGTTCACAGACATTGTAGCACATCATAGAATTTCCTTCCTTTTTAAGGCTCAATG
ATATTCCATTGTATGGATAGACCACATTTTGTTTATCCACCCGTCTATGGATGGACCCTTGAGTTGCTTTCACTTTTTGGCTATTTTGAATTATTTGCTG
CCATGAACATGGGTGTACAAATATCTGTTCGAGCCCCTGCTTTCACTTCTTTTTGGGCATATACCCCAAAGTGGAATTGCTGGATCATATGGCAATTCTA
TGATGAATTTATTGAGGAAGCACCATATCATCTTCCTGTTAAAAAAAAAAAAGGCTGTGCCATTTTAACAGTCTCACCAGTAAGGCACAAGGGTTCCAAC
ATCTCCACATCCTGGCCTATGCTTGCTATCATCTGGTGTTTTTGGTAATAGCCATACTAATGAGTATGAAGTACCAATTGTGGGTCTGACTTACATTTCA
CCAATGACTAGTGACTTTCAACATCTTTTCATGTGCCTATTTGCCTCAAGTAGTAAGTTTTAAATCAAAAGAATTAACCCCTCCTCCTAAGAGACCTCTC
ATCACAGAAAGCAAACAGTAGTATCCTTACCTACTAGCATTGTTAAATTGGTTAGTCTGGGCTCAAAACACTTTTGTTTTCCTTGCAAATACCACCATAG
GCAATATTCGCTTAGCAAAGACCATTCAAGTCCATCTACCAAGTTGCCTAAACAGGACTAACCTTGAATTCTGGTCTCAGGAAGACCTTGTGCGATCCAG
GGAGCAGAGCAAGAGAGCAGCTCCTTCTCGCACCATCCTGCATCAGGCAACACACTGCAGCTGGCTTCCCACCTGACTGAAGCCTTCTCCTGTTCTGGCA
GCCATGGGCCGCTCCAGCTGGGGATGCTCATCCTTGCAAGCAGCCATCCACGCACAAAGGGCACAGGTTCTCAGGGTTCTCCACATTCAATTTAAAATAC
CCTAATTTGTGTTGCAGATACTTAATCTAAGTGTTTTTCAGATCCTGTGCCCTAAATTTTGGCTGGAAACATAGTCCCACTCACATCCCTCATGCTCGTG
ACCAGGCTCTTCCCCAGGCCACATGACCCCCAATTACCTCCCCCTCCTTGAAGAAGGAAGAGACTGAAGGGCGAAGGGACATCCACAGTTCACATTGATA
ACGCAAATGATCCATCACCATGGCCTCAAAAGGGCCTTGGAATCCAAATGACCCACTTACTGGAGGAGGATGCTTCAAACGGAGGCAGATGCAGAGTCAG
GAGGGAGACAGGGACAGAAAAGGAGGAAGCTGTGCTGCTATCCCCAGTGGAGCGCTTGTCAAACTCTCTTTACAAGAAATGAAGCTGGGTTCCTGCCGGG
CGCGGTGGCTCACGCCTTTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCACAAGGTCAGGAGATCAAGACCATCCTGGCTAACACGGTGAAACC
CCATCTCTACTAAAAATACAAAAATTAGTGTGGCAGCGGACGCCTGTAGTCCCAGCTGCTGGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGT
GGAGCTTGCAGTGAGCCAAGATTGCGCCACCACACTCCAGCCTGGACGACAGAGCGAGATTCCATCCAAAAAAAAAAAAAAAAATGAAGCTGGTTCCTAA
TTCTGCAGTCAAAAAAAAACGGCAAATGTAGCTAGGAGCAAAACATCAGAATCAATACACACCCAAAGGGTATTTTTTTTTTTAAAGGAAGTAAATAACT
TCTAATGCGTATTTCCTCTATCCTTAGCAACAATAGTATCAGCTAACTCCTAGTGTTTATAAACCCTAGGTTCTAAGAAATGTGTATGTATTCACTCATG
AAGTATTGGTAACGATCCTCCAAGATGGGTGACACTTTTTTTTTTTTTTTTTGACATGGAGTCTCACTCTCGCCCAGGCTGGAGTGCAGTGGCGCGATCT
TGGCTCACTGCAACCTCCAACCTCCAACCTCCAACCTCCAACCTCCACCTCCCAGGTTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTA
CAGGTGCATGCCACTGTGCCTGGCTAATTTTTATATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGCTGGTCTCGAACTCCTGATTTCAGGTGA
TCCGCTCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCACTCGGCCTGATGGGTGGCATTATCTTCCATTTTACAGATGAGGAAAG
GAGAGCAGAGAGGGTCAATAACGTGCCCCGGTACAATGCATCAGTAGACTTCTAATTCTCCAACCCTCATCTCAGAGGGGAATGGTGTCAKGAAACAAGA
CTGGGGGGAAAAGGGAGAAGGCCTGCTTTCTAGTCGAGAAAAGCGGAGACCGTCTGAAACTCTACTTGCTCCAACAGGTSAACGTGATTGAAAATTCAGA
ATTCACTCTCCTAATAGCAGGAAAGTRTTACAAAAGCCCACAGGCCAAATGATACCACCCTCCCAGGAAGTCTCTTGCAGAACTGTGTTTTTTAATGTTA
TTTGTCAAGTGAAAACAGTTACAGTGGCAGAACAGGCAGCACCCAGAGAGTGGCACTAATCGTGGGCTAAGGATGGGCAATTGCTTCTCATCAAGAACCA
CAATGTGTCCAGTCAATTTACAAACATAAATCAACACAAGTTCAAAAGCACCAGTAGCAAAGTCCAGGCCTGGATGTGAAGCTGGCACCCCTCTTTAAAC
AAACTGTTCCTCTTCACTTGCATGGTAAGGACTGGAAAGAGCCCTGCCGCGTTGGCCAGCTCTTCAGGGTAGCGGGGGCCACYGCCCTCTCCCAGCCTCG
GGAAGCCCAAGGCCACTGCATCAGCCTGGCCCAGCCCAGAACCAGCCTCGGGCCCAGCCGGCCCAACTCAGAAAAAGGCAGGGGTCAGTCTCCAGCCTGG
ACTCCTCTAAAAATCAGAAAGCAGTGCCCCAGCAAAYGAACAACAACAGCGCTCACCTGAAACAGTTTCACCTTCATTTTTAGAGGAGAGGAACACAATA
GGAGGGCGTATTACTCCACGGGTTTTAACCCTAGCCCTTGATGCTACCAGGTATCCATGATGCCCCTAATAAAGGTGACAGTTCCTYCACTTTTCTAACA
TCCAGCTATTCTTTAAAAAAGTTGAACACTGCAGTTTCCGGAGAACTTTGCTATGTGAATTGCCTCACTGCAGGTGTGCTCTCCCCTAGCTCTCTCCATT
CCATGCCTTAAAAGTGCCAGGTGTCTCCTCGGGAGCTGCCCTGTGCTACCGCCCCCAGTCCTGCAGCCAACCTGTTTTGCGGGTCCTGCCTCTCCATCAA
CTGGGACTGCTCTCTCGACAAACCACCCCAGCCCACAGCTCCTCTGGCAACCCAGCCCCTCACACCGAGGACCCATCTCACCAGTCACCTCCCTCAGSTG
GGCCAACCTGTCCAGTCCATTCCTGCTTCCTGGTCTCAGGTCTAGAGACAAGACTTCCCTCCCTGAGCCTGTCCTCACTGCCTCCCTCATCTATACCATC
ACTGGCTCACACCGGGGTGTCTATCTGTCCCCCAATCCTGACTCCATCGAGAGACCAGAGCAGCCTCCCCAGAACACCCTTCTCAGCGGGTCCACTGCAA
TGGTGCAAAGGTTTCAGCGCTCCTCATTCTCTAGCCAGCAGTCAATTCCTTCCCACCACACAAACACCGGATTCTGACACCCTCTCCACTCCATCAGTGC
ACACTGCCACCCACACCACACATGGTCCCTTCCTCTCCTGGGGAGCTGCCTCCTTGGATCTTGAGAGTCAAATATTTAGGGCACACTAAAGTCAGACATC
CTCCTTAAAGCTTCTCAAGCCATTCTGCAGTTCCGTGACCCCACTGCCTGCAGCCCACATACTTCTCTCCGGTCAGCATCCCATAACTTAGCACTAAACT
CATAGCATCTGTTACTCTCCACCAGTAGTTGAGTTTTCCCAACTAGACAACAAGCTCGAGTAAAAAAAAAAAATCATATTCTTTCATATGCTTTCCATGG
AGCAGAGACCACTGGAGGCCCTCAAATAATCTAGATATCAGAAACAGGGTTCCATACTCTGTCACCACTCACCTTCCACTCCCACTCCCCTTCCACAGAT
AGGGACATGACCTTGAACCAGTCAGCCTGGTTAACCTAAAAACCCATTCTCTTCAGGCACAGAGAAGCAAGGTGGTTACTTAGTGGTTTCAACAACTGAC
CTGAGACTCAGACGTCCGGGTTCAAACCTTTCACTGTAGATGTGCAAAAAAAGACCCTCCTTGGCCAGCCACAGTGGCTCACATCTGTAATCCCAGCACT
ATGGGAGGCCGAGGTCGGTGGATTGCTTGAGGCCAGGAGTTTGAGACCAGCCTGACCAACATGCCTAAACCCCGTCTCTACTAGAAAAAAAAAAAATTAG
CCAGGCGTGGTGGCACACGCCTGTAATCCCAGCTTCTTGGGAAGCTGATCCACAAGAATTGTTTGAACCTGGGAGGAAGAGGTTGCAGTAAGGCAGAGGT
TGCAGTGAGCGGAGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAGGGCCYTATTCAACTGGCA
GCAATTCCCCAGTGTTGTGGGGAAGGAGGACTGGAGGCCCCAGAGAGAGCCCACCAGGGCCACCCACCATGAGGAGGAGAAAAAAAGAGAAAAGCATCCA
TTTATTGGATGCTTTCTATTTGCCAGGTTTGCTGGGCAGCTTGGATACATTATCTATTGCTAATTCTCATTGGCATCCCTGCTAGAGCAGTGTTATTCCA
ATCACAGGCAGAGACACTGAGGCCTGGAGCTCCCTTTCCAACATGCCTCCATGCGTGGGAGAGAGGGAGACAGTGAATTGTTTGAGGGGACAAGGCTTCA
AAGGAAGCCCTGCACATATGCAAACCGCACGGAGAAGAGCAGAGCAAAGACAGGCCAGGCTGTCCAGCTAAGTTCACATCCAGCCGGTTCAGCATTCACA
TGAGAATTTCACAAGATGCTTTTTTACAAGCTACTCTTGAATATTAACATTCCAGCTTCAAATGATTATGTTTACATTNNNNNNNNNNNNNNNNNNNNCC
ACCCCACTCCTCGGAAGAGGAGACTTTAAGGATAATTTCTAAGGTGTTCATTAAGTTCAGGAGTCCCCTTGACACCAACCTAGACAAGTAAGCTTTCTTC
TGTCCAGAGGTCGGGAGCTGGCCTCACCGTCGCCCTACCAGGACACTGTCAAAGGCCTTCACCAGCAACCAAAACCGGCAGGGTTGGRGAGGGTGCTTCA
ATGATAGAGAGACCTGTAAGACCTTGCTACTGTCCCTCCCAGGAGTGAGGCAAAAGCTTACTGGCCTCACCAAGAAAACAATGCAAAAAATAGAAGCCAA
CTTCCATACGTGGTGATTCTGCTTGTTCCAACCACATCTCCCTCAAATCTCCATCTCTCTCTCTGCCTAGTATCTTGAGATCTGAAGGCTGGAAGGGCCT
GTGAAATGACCTAGGTCCACCCTGTAACTCAAGGTCAGCAGGTGTGCAAGTACCCTACCCACCCAACTTTCTGAGATGCCACCCTGGCCCTCTGCACCAG
GCCACTCCGGAGACCACCAGGCAGCCGAGTCCAGCCTGCAGATGCTTCCTCCTCAGGAACCCAGCTCCARGAGGGTTTAAAAGCACACTACAGACATAAA
TCGGTGCCAATGAATTATTCATTACATCTTATCTATAGGGAACTTATGGAACAAAGTCTCCATCCACAGGGATGAGGTGATCTTGACACAAGGCCAGACT
CACAAATTACCCTTCCAGGAGTTCTAATTTTTTTTATTCACCTCAATGTGCAAAAAGCCTAATCAAACAATGATTTTAAAGATAATTTTATTGCTTTCAA
GTTCCATGCAGCAGTAACTGGTGTGATAAAATGTTTTGGCTAGCAGAGGTGCAATGATCAGATGAAAATAAATTTGTTGTACAAAGAAGTGCTTCAAAGT
GAATGGCGAGTATCCCTTTAAGAAGTCTTCCGTTTCTTCAGCTCCTCCTATGCACCAGGCACTGGGCCACCTCCTGGGAATTCAAAGATAACCAAGGTAC
CATTCCCCTCCCCAATGGTGGGGGAAAGCAATATGGGGGAGATGCCCAAATAGGAGGTATAGCAAGAGACCACAGGAGCTCAAGTCAGTGCAATCATTCT
GCATGCAGAATCAAGGCCAGAGAGAGGGTGAAATTACAGCTAACTCTTAAAGGAGCTTGCCAGAGGGCAAGCTGRTAGTATTGTTTGCTATTCCAAGCAG
AGGGGCTTCCACCTGCCAAGACAAARAGACACGAATGAGTACAGCCTGAACTGTTCAAAATGTCTGGGAGGAAGGGAGGCTGAAGTTCTCTCTCAGACAG
CCAAACAAAGATTTCCGAATTAAAAATAATAAAAGGCAATCATGGGGAAACAGGTTTAAGGCTTTTGACACGTAAAACTGAATAACCAGCTATATATTTT
GTGTAATCTCAGCAAGAAAGATTCTGAAAATATCAATAAAACATGAAACAAAATACATAAAATTAGCTAGCGAAATATAGACGGTGTGGGACCTAACACA
ACACTGGATGTATTTATTCTTATTCTCTGTGAGTATTTCTGGCTGGCGAGCATCTTAACCACATAGAATAGCCAAAGGGGAGAGAGAAGAGAATGAAAGT
GTTACTACCTGTTTAAATAGAGCAATGGAAGGTAAATCTTGCTGTATTTTTCCAAATGAAATCAGTAGTGTTTTTTTAATCTCTAATCTCAAATATTTTG
GAGCTTTAAATTTATTAAAGTCCTGTAAAATTATCTTAAAACTCTAACTGTAAAAGACACACTAGGTGTTAACAGCTCTGCCATGGAGTTGCAGTRCGCC
TGTCTGCATCACTTAGGAAGACCCTAATTCTCTCAGGACAGCTCGCACTGACACAGTAGAGTAACCTTAATCCAAAACTGTAGCCCAGTGATTTCTACAG
AAGTCTGTAGTATCCACATTTTCTTGCAATCAGTCCCCAGGAAGCAAGCCAGAGAGTGGGTTGGGATCGCTATCTTCCTCCTTGGGGCACTATTAATTCA
GTCACCTAATATGCTGAATTTCCCTTCTGGCCACTAGATGGAGCCTATGCATAGGCGAGATGGGCAAAGTGCACACTGGACACCTCTCAGGTGTGAGCAG
AAATTGACAAATGACAATATTAAGGGAGAAAGTGTAATAAACAGATCTCTGAAATGGAAGGCAAACTGCAGGGGGATGACCATCGTTTACTGAAAAAAAA
AATCACAACTGTTTAATAAGCAACATGCCATCTTGTTAATAAACACCTTAGCAAAATAAAGTTTTATTATACATTTATTGAGCACCTATGTGCCAGGTTC
TATAACATATTTAAATGGCAAGGACAATCAAACATCAAGTAAGCCTTATATTTCTATCCAAAGAACATCTCTGTTCGAGGATGTCACAACCCTAAGAACA
GTAGCAGTTGAAGTCCAAGGGCTTAATACCAGGTGCCAGGTTCTATTCTAGGCACTTGACATGTGTACGAATTTGATTTCTATGAATGTTTAAAGTAGAT
TCTATTAAAATTATAATTTCACAGATGAGGAAACTGAGGCACAAGAAGATTAAATTATTTGCCTGAGAGCTTAGCTASTGAAGAGCTGAGATTCAAACCA
GCCACTTTGGCTCCATGGTCCTAATAAAATTACAAGCAAGGAACAAGACAAATCACTGTCAACCAGCAAAACCGTGGGTTATGAACTCAAAAGGAGTAAT
GGGAAAGTAGATCTATACAAGTTAGGGAAATCCCAAAAACCTTCAAGAAGGAAGAGGAATTTGACTTGGAAATGTAAAGATGGCATCTCTGACCTATTCA
AACCACAGAAAAGGCATATGGGGGAAAGGAATCACCTGACTTAGCGTGCTGCCTTTTGAAAGTTATGATCTTGTCCCTATTTTACAGATCCACCTGGAAC
TTGGAAATTATTTCAATTTAAAAAACCTATTCTATTTCCTCACAATTTTTCTGACTTTGGTTTTCTAAACCTGTTAGAAAAGGTTTTCATTCTGTTGTTT
AGTGAGAAAAGGAGAAATGTCTCCCCCAAATATTTTTAAGTCTCCGCATTTCTATCAAGACTCAGAAAAGTTAATAACTTTAGGACCAAAGAACTAATTG
GCAGCTAAGGAGAAACTAAAGCTATGGTGACCTTCCTGTGTTCTTAAGCGGCACTTTCTGCTATTCAGTATTGAGGATGGAAGGAGAAGTAGCAGAGTAG
TGAAGAGGAAAAACATTCTCAGCTATGGAAACAGCAGAAGCAAAAACTTGAAGACAGGCATAACACAGCTTCCTTTCCATCAAGCTAATGCACAGATGCT
GGGGAGTACCAGGAACTAACAGTGGATCCCTACAGCACAGGATTACTAAGGACCTGTTTCATTACTTGATTCTAAGGACCCTGGACTTGATCCTAGGACC
ACAAGAGGCACGTTCTGAGTATTTGGAGCTGGCAAGTCCATCAGACTAAGGGAATGGTACAGGAACTGGTTCAGAGGCCAACTCAGCATGTAGTCAGAGT
CAATGCAGGTCTGCACTGGACCAGGCTGGATCCCGGAATAGGGGTCAATCTGAGCGATTTCAAGTGACTCAGTGAGATCGAAAGGCAACATTCAATTAAT
GAGTCTCCCCAGAAAAGGACAGGCTGCAGAACTGAAACTGAACAAATTCCATCCTGAGCCAATCTCTGTTGCTGAAAATTTTACTGAGGTGCATGTGAGA
AAGAAAATCCCAATTGTATCACCTGACGAAGAAAGGCTACCATAACAAAAGTTCTGTACCTACGACTACACGATATCATGTTGTGACCTAACATATGCAG
TGAACTCATTATCCACAGAAATCAGACAACAGAACTAAGGGAAGCCTCACAGCAGATCTCCCTCTGCTGCTACTGGTCTCTGTGTTCATTTGTTTTCGTG
GCAATCTGTGCTTCTCTTTAAAGTCCTGAGTCTGTAAGCTTGTGTATTATCCCACTAAAATGAGACTCAGGGAAATTAGGTAAAGAGAATAAATACAGGA
CAACACAGATAAATGTGGACACAACTGAGAGGGATTTTACAATCTAGACAGAATTAATAGCTAATGACTTAGAAAACACTTTGTAAGCTGATGCAGTCAA
TTGGATCATGGGCTCCTACCTGGAATTTCTCTCCATGCTTCCTACTTTTTCCAGGAAGTTATCAAAGGTCACTAAGACGCTTTGAATTTGGGGAAAACTC
CTAYAAATAAATTCATCTCTCCCTAATTACCATTAGACTTCTGTTCTTTAAAGTTCTATTGACTAAACTTTGGCTGACTTAAATTGGTGATGTCTCATTT
ACGTAATCAAGCACATATTCCCAATAACCAACTTTACAGAGACTAACCACGACTATATTTTTTACAGCAGAGGACAAGCTGAAAGCAATCACAATGTATC
AGGAAAAATTTCAAGTTATGCTCTATAAAATATTTATGCTCTAACAACTATCAAAATATATTTGTTCTCCCATGTCAAGAGTAATTTTTAAAGTGGTATT
TATTTTTAAACTGACAAATAATTCCAAAGCCAGTTTGAGAAAGCTAGTGCCATGTTAAAAAGAAAATGGTTGAACAAAAGTATACAAAACAGCAACAACA
ATGTATTTCAAACTYGCAGAATTTGGACGATGGACGGATGGATGGAGATACACAATTCTGAACAAACGGCATTCGTATTATGTAACTCTTACTGAAGTAG
AGACCTATGGTATTAAGGGGGCTAAGACTGAGGAGTGAGATAAAACAAAGTTTCAAACTCCTCCCCGCAAGAACTTTCTGGATTAGCAAGACTACTTTCT
AAAGTCTTTAAAATATGCAAAAAAACAAAAAAAAAATGTTTTCCAGACTATTACCAGGTGAGCAATTTATTTTTATATATGTATTTTGTGTGTGTGATGG
AGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATCATCTTGGCTCACTGCAACCTCTGCCTCCTGGGTTTCAGCAATTCTCCTGCCTCAGCCTCTC
ACGTAGCTGGGATTATAGGCACGGGCCACCACGCCCGGTTAATTCTGGTATTTTTAGTAGAAAGGGGGTGCACCATGTTGGCCAGGCTGGTCTTGAACTT
CTGACCTCAAGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTGGGGTTACAGGCAGGAGCCGCTGTGCCCAGCCAGGTGAGCAGTAAGGTAGGCCCAGCT
ATCGCTGCAGTGTGTGATGGCCCCATCCACAGGTGTGCACATCTTCCCCATGTGACTAGCCAGCCGCCCCACTACTCCAAAGAATGTGAATGCTTCAAGA
CCACCAACCACCAAGTGAGCTCCATGGACACAAGGCCCAACAACTTATATTGCAATCGTAGGTGTTCATCCCTCACCATAAAAGAAACTACTTTCTGTTG
TGGTCCAGTGAAAACAGAAGAGCAATCTATGAGTTTACAAATTCTTGTAGGCTGGGGGTGGTGGCTCGCACCTGTGATCCCAGCCCTCCGGGAGGCCGAG
GTGAGTGGATCGCTTGAGTCCAACCTGAGCAACATAGCAAAACCTCGTCTGTACTAAAAATACAAAAAATTAGCCAGGCATGGTGGTGTGTGCCTGTAGT
CCCACCTACTTGGGAGGATCACTGGAGCCTGGGAGGTCAAGGCAGAATCAAGCCGTGATCACACCACTGCATTCCAGCCTAGGTGACCAGAGACCCTGTC
TCAAAAAAAAAAAAGAAAAAAAAATCTGTAGTCCAGGGCAGGAAAAAGAAAAATTTTAAGCTTGCTTACTAGTTTGTTTCGTTTTATTTTTTTTTTTAAT
AAACATGGCAGTAACATCTATAGTTTGACGGGTATCTTTAAAAACTTATGGTAAGACATTTTACAGTATCAAATAATTTCTAAACCTAAAGAACTGCATC
CAGTAAGTACTCAACATGTATTTACTGTGGAAGAAAAGAGGGAGGGAAAACGACTATTTCTCAGTTCAAGTAAGGAAATATCAGTTTTTCCTTAAGATTT
GAAAATAAAACATAAGTAAAGCCGGCATCAGTGGAAAAAAAGGGAGAGAAATCTTCAAAAATGGTATCTGGGACTTTCAAACGAGTAAAATTGACCATTT
AAAAACTTAGTCTTCAAAAGTCCAAAAGTCTCAAAATCAAAGGTATTGTTAATACTTTGAGTCAAATAAAACCAAAGCAATTTAACAAAAGAAAACATCA
TGCCGAGGAAGTATGCTTCTCTTGAGATAACAATCTAACTTGTTTWAAAGATCCTTTGTTTACTAACCATTTTATATTCCAAATATATGTTCCTTCCTCA
GAACAAATCAATTCTTTTCCAGACCCTCGGGGATGGGGGTGCAGGCATGAGGGGATGTGTACATATATCAAAGTTTTAATCTTTTCAAATAGTGGAACTC
AGTTATGCTTCCCAAATGTCAACAGGTCTCAATGTCCACAAACACTGGGGCTGCTACCCTCCCCCATCCCCACTTAAAGCCACATCACATCTTTACAAAT
AACTGGAAAACCTCCTCTTGCTAAGCTGATGCCAAACACCATTTTCCAGGAGGGATCAGAGTGCATCACTCATTAGGCACTTTGTTGTCTCTAAAGTGTT
CAGAATTTTCCTTCAGAACATCTCAGACTGGAAATCAAGAAACTATATCCGTAACATGTGTGCAACTATTATATATTTAGTACAATTGAGAAGAGCTCAT
CCCCTGGACTCAGCACCTGTCCTAAGCTGGCTAAGAAAAGCAGTTCAAATCAAGTTCGCCCACAGGCGCAAATACCTCTTCCATGAACTAGGTCTGATTT
TTAAATGAGTTTTGAAAACAAATTGGGGAAAATCACAACCTATAAAGAAATGTATCTTGTATGCTTTACAATTAAAAAACAAAAACTTTCAGGATTTGTC
TCCTCACTCTTACTCCCTCACGCTTTTAAAAACACCAAGTTATTTACAAATTATAAAATGCCCTGAAATTATGAATGCTTCCTGATTTCTAGAAAGCTAA
CTAAGCAATATGTAATCCAGAAAACTTCTGAAATAAGTTCCATCTTTCTTACAACTCAAAACATGCTATGCAACGTTCATGTACACACCTGTGACTCCTA
ATTTTTGGAAAAAGGCAACTACAACACTGCAGTTTGTAAATCACAATTGCCATATCCAATGTTATAAAGAAGACAGTGCCGCCAGTCAAGATGGGTTAAC
ATCACCTGTATGTCACAGTCTACAGTGACATCCCAATATAACGGAAAGCACCAATGAGGCAAAAAAGGTATAGGGTAAAGGCTTCTGATGAACAACACTA
GAGTCCTAAGTCTACAGAAATATTTTTAAAAGAACCTTTAAAATGCTAACTACTGTCTACTTGAAAACTGCACCCTATACTGAGTCTGAAAAAAAATCTG
AATTTCAAGAAAGGTGGTTTCATGCAAGACTCTGCAGGTTCATGCACTGAGTAGCACAAGGTCAGCTTTCATACAGTAGGTGCACAATAAGTGCAGGCTG
GATTCAGTTGCTTCTTACAGCACATTCTTACAAAACAAATGAAACCAGATTTAAAAGGAAACCACCGTCCCTTGAGGGTTCCTCTTGGCAAAAACTCTAA
GGCAACAAGTGAAAATGATACAGTTGATTTTCATTACTGCCCTGATCTTGCAACAATAGGAAGGGCAGGAAACATTTTTATTAGTAAACTAAGCCTTAGA
CAAAGACCAAAAGCAAATGTAAACAACAATTATTCTCTAGGTCTTTTCCTATTGAAAGGCCAGGGTAAATCTGGATAAATGCACACAGTTTCAAAACAAA
AATGCCTTTGCCACATTTTAAAACCTTTCGTTCTGTAAGGAATTTTAATTTTATAAAAATCACTGTATACTTGAAACAGTGTATCCTAAAACTACTGCAT
CCTAAAGATTCTTTCTCCTGCTCAGACCCTGGAACTATGTAAGAAATAAAATAAAACTGCAAAGAAAAGAAACAACAATACTGCATTAAAATGAACTGTT
CTGTTCATCCTCAGTCCTTACTACCACTTGTGGTCAATGTGGCATATCAAAAAATGAGTGTTTAAAACATCTTAAAACAGCAATGTCTTTCTTTGTTGGA
AAACATAATAAAACTGGAAATACAAACAGCCCTTCAGACTCAGCTCCTAAACTCTATCCTGAAAAAAACCATCATTTCAGATTCAGCTGAGGTTTCTATT
GTCAAAAATCTGCCCTCCACCAGCATTTGTGTTTTTTAAATCCAGCTCCTCAATCCCTAACTGAAGCTACATAGAACCAAGATTCTTTTTCTCCTGCTTG
CCCATTTCTACTGCGGGATTGAATCCCTGTTGCTAAGCTTCAATTATCAGTTTGTTGTATTGCTGCAACTCACGGATCTGAAAAACTCATAAATGAAAAG
AGAGAGAGACATCAGCCTGTCAAATRTATGTAATAATTTTAACGTAATTTAAGGTAGCATAACAAGTTATTTTCAACCTGATCACATTTCTTTAAAAAAA
AAAAAAAAGGGTTTATTGAGATATAATTCACATACCATTAAAGTCCCCGATTTAAAGTAYATAATCCAATGGTTTTAAGTATATTTAGAGCTATGCAGCC
ATCGCCACAAACTAATTTTAGAACAATTTTCATCACCCCAAAAAGAAACCCTGTGCCCACYAGCAGTCACTCCCCATTCCATCCGCCCCCAGCCCCTGGC
AACCACTCATCTACCTTCTGCCTCTATGGATTTGTTTATTCTAGACATTTCACATAAACCGGATCATACGATATGTGGTCTTTTGTGACTGACTTCTTTC
ACTTTTTGTGATATTTTTAAGCTTCATCTATTCAACCTTAGCATATTTCTTAGAGTTGAACTTTTCTAATCTTTTTCGACAAATCAAACATTATGACCTT
TTACATTTCAAATCCTGACACAAACCCCACCCTTCCACAAAACACCATTTGCTTGCTATGTCTCTCCAGAGGATCTAAACTATAATTTGCTGTTTAGGTT
CTTTCAGAAGTTCTTTTTCTGGGTTCTCCTTCTGGTAATAAAACACTAACTTCTTTAAACACCAACATTTCACATACCTACATTTCTGTGACAACAGGAT
GCCTGGGGTAGAAAGATGACTGAATCCTTTTAAGGAGATGGGTACAATAAATTTAAAGTGCATGCTGACTTTTTAAAAACAAAATAGCCCTCAGATTATC
TGGCTATCACTCAGAACCTCCGAACCGCCTTCATTTAGATGCTCTGTTCACATTATGGTGATACAAAACAAACACATCCATATGACTGCCTCTGCTTCAG
AAACTAAGTTTTCTAAGATAAACAACACTCTTTCTACTGCCATCACACTCAAAGAGGAAACTCTAATCTCTCAATACGCCAGCAAAATACCTGCAACTGA
ACCAACACCCTGTCTTTATTTCTCCACCAGACAACAGCTGAAAGAACGCCCTCCCTGATAGGGCTCAGCAGCTTATTTCTATCAGAGTTAAGTGGTCTAG
CACCTTCCCSGCTAAAAACTGAACGCCCGTTCACAGGCATAGCTTTTAATTCTCCACATTTCAGAGATGGAGGGAGGGGCAGGTACTGAGTCAGTCAAGA
CTTCAGCAAACCATAATCGAGATTTGGGGTGCCTTCTGACCACCCATCAGGTTTCCAGGAACTAACCACTGTAAAGGGATCCTGGGGGGAAGCTTTGGTA
TCATGGAGTAAAAACATACATTAAAACACCCCCTCCCTYCTGCCTGTGTTCTCAAAAATCGCCGTCTTGCACAAASAATATCCTTCAAGAAGAACGCTCC
AAAAGAAAAACAGCCTATTTTAAAATGCCCGACTCCTGCGTCGGCGAAGGCCATCCCTGCTGTTTTGAATTTCAGAACATTAAAAACACAAAACTAGAGA
AGCTATACAGTTCAACTGCATAACATAACAAAATGGATTATTTCTCCCGTGTCTTCTAAACCGTACTTATCTTTTAAAGATAAAAACCCTYCTTTGTCCC
CCCAGCCACCACCTAAACGACTTAGTAAAGGGAGCCGGAAGGCTTTCGCCCAATCGAGTCCGCTGAAAGTTTAGAAAACAAAGAGCAGGAGAGCCCAGAT
CTGTGGAAGGTCCGGCCCCAGTCCGCGTCCCACTCGGCAGTAAACACGCGAACCACGATCTGCTCTCGTTCCGTCGCGGACTCATTTCTTACCAGACGTT
TAAGGATTTGTTTATAGAAACAGCCTTTCTGAATTGCCCCGGTGATGGGGCCATACAACCTCCGCTGCCTCCTCCTTCCCCGCCTCACTCGTGAAGGCTC
AGTCGTGATTTTTTCAAAGTTAATCGGCACCACCTGCATACCCTCGGCAACCATTACTCACCAACACGCCCTCACCGTTCCCAGTCCCAGTTCTGCGACA
TTTAAACTTTTAATCGTGTTCAAATTACCCTACCATCTTGAATGTACCAGTAAGCCACACTTTCAACTTTTTCAGAAGAATAAAACCCCCACCTCCTCCG
GCCGTAGACACCGGGGGGAGTTCTCGCTCCCCGCATCCCCGCGCTTCCCTACTAACCCCCACCCGACACCACCAAAACAAAAGCTATCAGATTGCAAAAG
ACAGCGAATGTGGAGCGACACTGCTTATTAACTACGTACAAAGGAAGTGCGGGGCGGCAGAAGAGAGGGCGACACGACGCCGACCACAACAAAACCAAGG
CCAGGGCTCCGCGCTCGCAAAACACAACACCCTCCCCGCGCCGCCGCAGACCCTGGCGCTGAAACCACAGCGTACGACACCTCTCGCCAGGGACGGGCGT
CTAGGTGTCCCCGTGAGGCGGCGACTACACCCCGCGCTGCGAGCACGTGTGTCGGAATGCACGTCGGCTCCGACCACACACCCACCAACGCACACTCGGA
TGCGGCCCTAGTACCCCTCCATCCCCCGGCCCGGGAGAAACTGGGAGACCATCCCAGAGCCCTCTGAACTGGGGACCCAGTGGCGCTCCCCGGAAGAGAC
AAGCTGAGGAAGACTCCCGGCCTCGCACTTCCCGGGGGGCTGCCCAGAGAGCGCTTCCCCTCACCCCACCGCCCAGCCCCGGGACGCCGGGGGCAGGTAA
CCCAACGAGGAGCGGGCCAAAGTGACGGGCAAGGCCAGGAACCCGAGGAGCCCGAGGGGCAAAAGCACGTTGGGCGACGGGAGGCAGCGACGGGCGCTTG
GAGACGTGTCCTGGGGCTTCGGGGCCTCTCCGCAGGGCACCTCCCCCCTCGAGGGCAACTCGCACCCCGCGGGCCGGGCGGCTGCCCGCTCCCCACTGCC
CGGTCAGCCCCAGCAGCGGAGACGCGGTGCGGCCCAGGGTGCTGTCGCTGCTGCCTGCGCGCCGCAGGGGGATCAGCGCTGTGTGCGGAGAGGCTCKTGC
GCAYGGAAGGGGCGAGGTGCGGGTCGCGGGGCCCGGGAACCGCGGAGCCCGCCCCGGCACCAACTTCCCTACCGAGTCCTCGCGCCTAGCCGGGAAACAC
GGCTGGGCTGTCAGGACGGAGAAAGAGAAAAGCCCTTCCCGCGCGGGGATGCGCGGAGCCAGGGCCCGCGGGGCTCCAGACGAACGAGCCCGGGTCCCGG
GTCCGCTGCAGCCTCCCTCCCGGCAGAGCCGCCCTGCGCCCCACCCCGCCGCTCCCGAGCCCGGGGGCCCGACAGCTGCGACGGTGGCAACTCGGGTTTC
GCAAACAGGGCGCAGCCCCTCGGAGGAAAAGTTCCCGCAGTGGCCGCGGGCGGCGGGCACATACTCACTTTCTCCACTCGTCGGCCAGAGCGAGAGCGCG
GCGGAGAGAAACAGGAGCCCCCACAGCGAGGTCGGGGACCCTCCTCCGGAGCCAGACTTCATTCCTTTTATTTGGGATGAAATTCCCCTTTCTCAAAAAA
AAAAAAAAAAGAAAAGAAAAGAAAAAAAGGAAATGAAAGGAAACAAGTCTCAAACTCAGTCTTCGCTCCCCCTCCAAAAACAAGGGCGAAGGAAACAATA
CTCCGAAGGCGGCGCCGCCGGGGCCCTCCGGGTGCGCGGACGGGGCGGGCGGCGCGGGGCGGCCCCTCAGCGCCGGCAGCAGCGGCCCAGGGCTCGGCGG
AGTCGGGAACCCGAGGCGCGCCGGGGCGGACTGTCGGCGTCGTCGGCCTCCATTTTCAAACCCGGAGAGGCAGGAAGGGGGGAAAACTGCAAAGAAAGGG
GGCAAAGCCCAAATCTGCCTAGGCGAGGAAAAACAAGCCCGGCCCTGGCCGCGCGGGAGGCGGCCGGACGCCCGAGCTTCCGCCGCGGGAGGGCGCGACG
CAGTTCGCAAGATCGCCCCGAAGTCCGGGTCACAGGCGAGGCCGGCGAGGGGCAGAAACGCGGAGTCAAAATGAATGAGCGGCTCCCCCTCCTCCTCCTC
CTCCTCCTGGCTCCGCTCGCCGCCGCCTCCTCCCTCAGCGCCGCCGCCGCCGCGGCGAGCTCCTTCCCAAATCCAGGACACACACAAAGCGGCGGGCCGG
CCGCGCCGCGCTCAGCACTCCCGCCGCGCCGCCCGGCTCTGCGCCGCCGCCCGCCCCGCGCCGGCCCCCGCCCGGCCCCCGCCCGCCGCCGCCTGCTCTG
CGCGGGGGCTCCGGCTCGCTGAAGGTCACAGCCGAGGCGAGGCGCGCCGTGGAGCTGCCCCCGCGCGGGAGGGGCGTGGAGGGCGCGGGGGGATCCGGGG
AGCGGGGCCGAGGGTCTGCGAGCGCCGGCCGTGGGCAGGCTCGCTGGCGGCGTCCCTCTCGCTCTCCCGCCTCTCTCGAGTTCGCCTGGTGCGCTCGCTC
CTCCTCGGGTTTTTTCCCTTTTTTTTTCCGCTCAGCGGAGTTAATGCTGGTAAACAAGAGCCCCAGCCTCGCCGCGCCGCCGCCGCCGCTGCCACACACT
GGGGGCTCGCGCGCGCGCGCGCGCGCCCTGGCCCGCGCACACGCGCCCGCTCGCACACTCGAGCGGCCACCGCCGCAGCAGCGGCGCGCCGAGGGCCCGG
CCCAGGCCGGCGCGCGCAAAAAACCGGAGCCCGGGTTCCCCAAGACGTGCGGAGCGGAGCCCGGGCGTGGGGCGCGAGACTGCGAGGCGCCGCCCCCCAT
CTCCCGCCCCACCGCCTCCCGCGCGCACACAGAGACACGCGCGCGTGCCCACCCGCTCCCGCCCCCACCGCACTGCGCCGGCCACCCCGCACGCGCCCTC
CCCTCCCGCCCGACTCCAAAAACAATGCCCCCGCCGCCGGTCCGGTCTCGGCGGGGCAGGGGTGGGTAGCCAGGGAAAGGCTAGGCAGGGGAGGGGTGGG
CAGGAGAGGGGAGGGGTGGGCGGGGAGTGCGGGGCTGGGAGAGGTTCATTGAAAACAACAACAGCGCGGCTGGAAAGCGCGTTTCCCCGGTTCTTGAAAA
GCTTCATTGTTTCTTGCAGCTGTTGCAAAATAAATAAATGCGTGCATGCGGCATTTTTTTCGCTGCGTACTGGAAAGCCCGAACGTGGCGGAAGGGGCGC
ACCTGGGAGAAAGGGGACCCCCCCCCCCAGGCTACTACGCCGGGCACTTTCACGCCAGGCTGGGGTGCCCGCGGCGTTGCGACCGTGGAGCCCGGAGTTT
GGGGGCTCAGGGGGAGCGGAGGGGGAAGGGCGCGGCCCGTGTGGCTCGGCCCAGAGTGGCTCGAGGAGAGAGGACCCCGCCGCCCCTCGCGGGCCCCGCG
CCCCGGAAGGGGGGCCCAGACAGGCAGCGCCGCGTGCCCCGGGCGCGTCCCCGCGGCGGCCGCCAGAGGGCGCGGCGGGCGCTGGGGAGGGCAGCCCGCG
GAGAGTCGCCTCCCTCCCTCCGGGGGAGGAAATGTGGGGGCCCGGGCTGGGGGCCGACTCGGCTGGGTCGCGCTGGCGTGGCCTCCCGGACCAGCCGCCC
GCCCTGAGCGCTCTCCGCGGCCTCGCGCAGCTCAGGGCTCCACCACGTGGGCGGCTGCGGGGAGCGGCCGGGGCGCGTGCACGCTGCGGGTCTCCGAAGC
TCGGGGGGCGTGTCCGGGTCCCGGGGCGCCGAGGAGGGGGTGGAGGCTGGGGCCGGGAAGCCTCCCTTGGCTGCGGTCCCGACCCGGGAACACGCCGCAT
GCACTCGGGATCAGCGGCTACTGCGGAAACCCACCCGCACCTGTCTCGGGTCCTCCCAGGCACGTTCCTCTTGCTTCGTTTGCTACGTAAGTGACTGGAA
ACCAGTACCGACCCTAAGTCTCCGCGGTTGTTTTCTTGAATGTGCAGGAGGAGAGGTTTCCCCAAAGCGAGACTCCCCTAGGACTGCCATCTAATGAATA
AATGCTGCGGAGACCAGGTCCTCAAAGAGGGAAACAGCCCAGCAGTGGCAGGAGAGAGGAGTTTGAAATACGTGGACTTTTACAAACAGTGATTGGACCA
TGTGTCGCCCTTAATGTGGTCCGGTTTCATGACTCAGGCTAATTGATGCCAGTAATAAATTTTTTTAAGATAGCTAATAAAAGAGTTGTGAATTGTCGAG
ATAAGAAGTGGTTGTCTCAAACAATCGGGTAGGATGGTAAGAAGGGACCTGATGTAAAGGAAGGTAGTAGGTTTCTTTTACTCTCTAATTCTAAAATACT
TCTGCATTAGAACGTGTATCCATCGTTCGTAAATAATTTTTTAAGAGCTGAAAACAAGTCAAAAGCTATCATAACGGAAACTTAGCCCTTTTTTTCTAAA
GTTGTTTCCTAGATCATTTTCCTCCTTGGAAATTTCTAGCTCAATTCAGAGTCAGTTGTATAGAAAGAAAATAAACCTTGTTTTACCTAAGAAAGTTATT
CATATGATGGGATGGTTTTGTTTAACTGAAATTCAGCTTGATTTTTAAATAAAGAGTTTCAGTTTTGGATGTTCCTAGATTTAACAGTGAAATAAATTTA
TTAGAATCTTAAAATGTATTATTTAAAAATTAGGCACTACACATGAAGAATTAAAGTCCAGTCTACTAATTTTTAAATATTTCTTAAGTTCTCTGCATGA
GGTTGGTCTTGATTCCTGCAGATCCACTCTGGAGTTAAATGCAAAGGAATATTGATATATAATTTCATTATACTTGATTTCAGAATTTTTAATACATACT
TGTAAGACAAAAATTTAGAGCTGATTTTTAAAAGGCTAGTGCTAATATAAAATCTTCAAATACTACCCAATGTATTTTTAGTATTAGTAATAAATATGCC
TGTTTATTTGTCCCCAAGAACATAAAGAGGTCTATAGAATTTTTAAATGTATATAGGTTGTTGTAGGGGTTGTAGGATTTGTTTTTGTGTGTTTTTTTTT
TACTAAAATGATTTTTATTTGTGAATTTTTTAAATGTTTGTGTTTTCCTGAAGTAGTAGGAAATCAATCGTATTAAGTTATTTTAAACAGTGAAGTGGGA
GATGTATCATTATATAGCTTAATATTTAGGGAAAAAAAAGGAACAAAAATTTAGGTTGTCTTTACGCTCTAACTTGACCACATGGACAAAGGAGGTGATT
TGTATTTCTTCAATGATTATATTTTACATACACAAGTCAAACTTATTTTTTCAACCTTGAAATAAAATCATGTAGACAAAAATTAATTGGAGTCTTTGCT
TTATACCCACATTGACAATGCACCAAACTTTTTATTTTATACCATTTTACTCAGGTATCTTATAGGTTCTCCCTCTTTTGGAGCAGAAACTGATTGCTTG
TTTTCATTTTTTAAAAACGCCGTTTACTTGATAACAGTTTCATCTCAAATTATTCTGCTAAATGTACCAGACTCCCCAAAAAATGTAATGTATATCATAT
ACATCAAGTGCAAACGTGAGAAACAGCACAACAATTGACAAGTATCAAGTAATACAGTATATTGTGATGTATTCGCAGAAAGGAATGTTAGCAGCAAAAG
TGAATAAACTACAGCCCCACACAACATGGGCAGATCTTTGAAACACACTGAGTAAAAATATACAAATATCAAAAACGCACACAGCGTAACACCATTTTGA
TAAAGCTCTTAAAAAGCAAGGAAAACTTTAAAAGTTACAGAAAATTTTTTTTGCTTTAAATAATAAAATAATATTTTTCCTTTGTTTTGCTTTTGTTTTA
GCAAAAGAATTAATGAAGGATGTGAATTCCTTTGGAGAGGATGAGAAGCCCATAGGCACATGGGTTTCCATTGTAATTTGGAAATGAGTTCACTCTTGGA
TTGAGTGACGGATTTACAAATTTCCATTTTATAAGTATGCTTAATAACTAACACATGTTCTACATATTTTTGTATGTATAAAACATTAAAGAAGATAAAT
AAAAATATGGGAGAGATCCATGAAAGAGATCATTCTGGTTTTCCAATGGGAGTCGTTCAGATTTCGAGCTGTCCGTATAAATAACTCAGAAGCATTAAAG
ATCTACTAAAATAACACAGTTAATCAAGGTCTGATCCTTAAGATATTTCAGAAGAATGTCCACACATCTAATATCGATGCAATTTAAGACAAAAATCAAA
AGACAAAAAATTTAAAAGACCTCACTTCACAGGTAATAAGCTTCATTAAGAGTGCATTATGTCAACTGTTTGACAGTTTCTTATAAGGTAAAACATACAA
CTAACTTACGATCCAGCAAGTCTAGCCCTAGTTATTTACCCAAAAGAAATGAAAATTCCACAAAAATACTTCTATGGGAATGTCAATAGGTGCTTTGTTC
ATAATAGCAAAAACTAAAACAACCCAAATGTAAATCAAAAGGAGAATGGATAAACAAATCATGATATATCCATTCAATGCAATACTGCTTAGCAGTAAAA
AGGAATGGACTACTAATCCATGCAAAAACATAAATGAGTCTCCAAAGCATAATGTATAAGCCAAAAGAGTACATACTGTATTAGCTCATTTATGTAAAGC
TCAAAAACAGGCAAGATTGATCTAGAGCTAGAAATCAGAATCATGGCTGCCCTGGGTGGGTAGAGAGGGAAAGTTTCAAATGACTAGGGAGAGGCATAAA
GAACTTTCTTGGGTGATGGCAATGCTCTATATCTTGATGGGGTGTTGGCTATGCTAGTATATGCATTTAGCAGAAACACATCAGACTGTACACTTAAGAT
GGGTGCACTTCATTCTGCATAATTGTATCTGAATGTTAAATTGTTAAGATTGTATTATAATTTAGATAGTTGCAGCTGTTCTAAAAAAAATGTTAGCACA
ATGCTTCCCGTTTTTACTATTAGGTGAGTTAGTAGAGATGCTAAACTCCAACATCCTTGCCCACAGCTGTCTACAGATGTGTATACTTTCAGTGTGTATC
TGCCTAAGGTCTTTCCTTAGGGGCATTAGCTGTGGAAGGCATCACATGGTCTCCACAGAGCACCCCAAGGGCAGGAAAAATACAAGTGATGCTGTAGCTG
ATTCCTATCCCCACACAGCCACAAGCAACAAGAGTCTCAGTCTTGTTGAGGATCTGTTTATACTCAACTTG


SNP Information

Context             (SEQ ID NO:5811):
TACACAAACAAGCAAAAGGGGAGGATGAGAGTGGTCATTCGGGTTTGCTTTGGAGGTCCAGAGAAAATGCAAGTCCAACTTCCAGGCACAGACCAGTTGC
Y
CGCAGCAGGCTTCCTCCCATTGGTCTCAGACCAAGGTGAGCCACTCCCCCGGGCGGGACAGAGAAAGCTCCTCTGGAAGCCAGACAAGCTCGGCCACCTC
Celera SNP ID:            hCV25743523
SNP Position Genomic:     6078
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:5812):
CCTGTTGCTAAGCTTCAATTATCAGTTTGTTGTATTGCTGCAACTCACGGATCTGAAAAACTCATAAATGAAAAGAGAGAGAGACATCAGCCTGTCAAAT
R
TATGTAATAATTTTAACGTAATTTAAGGTAGCATAACAAGTTATTTTCAACCTGATCACATTTCTTTAAAAAAAAAAAAAAAGGGTTTATTGAGATATAA
Celera SNP ID:            hCV8722940
SNP Position Genomic:     20826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5813):
ATGAGGAAAGGAGAGCAGAGAGGGTCAATAACGTGCCCCGGTACAATGCATCAGTAGACTTCTAATTCTCCAACCCTCATCTCAGAGGGGAATGGTGTCA
K
GAAACAAGACTGGGGGGAAAAGGGAGAAGGCCTGCTTTCTAGTCGAGAAAAGCGGAGACCGTCTGAAACTCTACTTGCTCCAACAGGTGAACGTGATTGA
Celera SNP ID:            hCV25769604
SNP Position Genomic:     9591
SNP Source:               Applera
Population(Allele,Count): african american(G,1|T,37)   caucasian(T,38)   total(G,1|T,75)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5814):
ATAATCCAATGGTTTTAAGTATATTTAGAGCTATGCAGCCATCGCCACAAACTAATTTTAGAACAATTTTCATCACCCCAAAAAGAAACCCTGTGCCCAC
Y
AGCAGTCACTCCCCATTCCATCCGCCCCCAGCCCCTGGCAACCACTCATCTACCTTCTGCCTCTATGGATTTGTTTATTCTAGACATTTCACATAAACCG
Celera SNP ID:            hCV210484
SNP Position Genomic:     21061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5815):
TCAGCCCCAGCAGCGGAGACGCGGTGCGGCCCAGGGTGCTGTCGCTGCTGCCTGCGCGCCGCAGGGGGATCAGCGCTGTGTGCGGAGAGGCTCGTGCGCA
Y
GGAAGGGGCGAGGTGCGGGTCGCGGGGCCCGGGAACCGCGGAGCCCGCCCCGGCACCAACTTCCCTACCGAGTCCTCGCGCCTAGCCGGGAAACACGGCT
Celera SNP ID:            hCV29314498
SNP Position Genomic:     23804
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:5816):
CTGTCTTTATTTCTCCACCAGACAACAGCTGAAAGAACGCCCTCCCTGATAGGGCTCAGCAGCTTATTTCTATCAGAGTTAAGTGGTCTAGCACCTTCCC
S
GCTAAAAACTGAACGCCCGTTCACAGGCATAGCTTTTAATTCTCCACATTTCAGAGATGGAGGGAGGGGCAGGTACTGAGTCAGTCAAGACTTCAGCAAA
Celera SNP ID:            hCV210485
SNP Position Genomic:     21910
SNP Source:               Applera
Population(Allele,Count): african american(C,8|G,28)   caucasian(C,13|G,25)   total(C,21|G,53)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|G,6)      total(G,6|C,4) ;no_pop(G,-|C,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5817):
GGGATCCTGGGGGGAAGCTTTGGTATCATGGAGTAAAAACATACATTAAAACACCCCCTCCCTCCTGCCTGTGTTCTCAAAAATCGCCGTCTTGCACAAA
S
AATATCCTTCAAGAAGAACGCTCCAAAAGAAAAACAGCCTATTTTAAAATGCCCGACTCCTGCGTCGGCGAAGGCCATCCCTGCTGTTTTGAATTTCAGA
Celera SNP ID:            hCV210486
SNP Position Genomic:     22176
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:5818):
TGCCCGGTCAGCCCCAGCAGCGGAGACGCGGTGCGGCCCAGGGTGCTGTCGCTGCTGCCTGCGCGCCGCAGGGGGATCAGCGCTGTGTGCGGAGAGGCTC
K
TGCGCACGGAAGGGGCGAGGTGCGGGTCGCGGGGCCCGGGAACCGCGGAGCCCGCCCCGGCACCAACTTCCCTACCGAGTCCTCGCGCCTAGCCGGGAAA
Celera SNP ID:            hCV29314499
SNP Position Genomic:     23797
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:5819):
CAGAACCAGCCTCGGGCCCAGCCGGCCCAACTCAGAAAAAGGCAGGGGTCAGTCTCCAGCCTGGACTCCTCTAAAAATCAGAAAGCAGTGCCCCAGCAAA
Y
GAACAACAACAGCGCTCACCTGAAACAGTTTCACCTTCATTTTTAGAGGAGAGGAACACAATAGGAGGGCGTATTACTCCACGGGTTTTAACCCTAGCCC
Celera SNP ID:            hCV25748321
SNP Position Genomic:     10237
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,17)   caucasian(C,34|T,2)   total(C,55|T,19)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:5820):
TAACAAGTTATTTTCAACCTGATCACATTTCTTTAAAAAAAAAAAAAAAGGGTTTATTGAGATATAATTCACATACCATTAAAGTCCCCGATTTAAAGTA
Y
ATAATCCAATGGTTTTAAGTATATTTAGAGCTATGCAGCCATCGCCACAAACTAATTTTAGAACAATTTTCATCACCCCAAAAAGAAACCCTGTGCCCAC
Celera SNP ID:            hCV4646
SNP Position Genomic:     20960
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5821):
AGTAAGGCAGAGGTTGCAGTGAGCGGAGATTGCACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTGTCTCAAAAAAAAAAAAAAAAAAAAAGGGCC
Y
TATTCAACTGGCAGCAATTCCCCAGTGTTGTGGGGAAGGAGGACTGGAGGCCCCAGAGAGAGCCCACCAGGGCCACCCACCATGAGGAGGAGAAAAAAAG
Celera SNP ID:            hCV27009746
SNP Position Genomic:     11887
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,2)   total(C,2|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5822):
ATCAAACATCTAAACAAATCTCTCTTCTGGAAAAATAAGAAAATGAAAAAGCAATTACACGTCACATGGCTGATTAGCAATAAATTTCATTTGTGACTAC
R
GTGGCATGAGAGTTTGACTCCTGACTTGCTTTCCTTGAAAGAAAAAAATTATCTGCAATACTGTCTCTTGATATAGAAAACAGACCCATTCCATCTGACT
Celera SNP ID:            hCV11527384
SNP Position Genomic:     6652
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,12)   total(G,12|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5823):
GAATGGTGTCATGAAACAAGACTGGGGGGAAAAGGGAGAAGGCCTGCTTTCTAGTCGAGAAAAGCGGAGACCGTCTGAAACTCTACTTGCTCCAACAGGT
S
AACGTGATTGAAAATTCAGAATTCACTCTCCTAATAGCAGGAAAGTGTTACAAAAGCCCACAGGCCAAATGATACCACCCTCCCAGGAAGTCTCTTGCAG
Celera SNP ID:            hCV11527385
SNP Position Genomic:     9680
SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,31)   caucasian(C,10|G,26)   total(C,17|G,57)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,4)   total(G,3|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5824):
TTTCTAGTCGAGAAAAGCGGAGACCGTCTGAAACTCTACTTGCTCCAACAGGTGAACGTGATTGAAAATTCAGAATTCACTCTCCTAATAGCAGGAAAGT
R
TTACAAAAGCCCACAGGCCAAATGATACCACCCTCCCAGGAAGTCTCTTGCAGAACTGTGTTTTTTAATGTTATTTGTCAAGTGAAAACAGTTACAGTGG
Celera SNP ID:            hCV11527386
SNP Position Genomic:     9727
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,26)   caucasian(A,1|G,37)   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:5825):
TTCTATGAATGTTTAAAGTAGATTCTATTAAAATTATAATTTCACAGATGAGGAAACTGAGGCACAAGAAGATTAAATTATTTGCCTGAGAGCTTAGCTA
S
TGAAGAGCTGAGATTCAAACCAGCCACTTTGGCTCCATGGTCCTAATAAAATTACAAGCAAGGAACAAGACAAATCACTGTCAACCAGCAAAACCGTGGG
Celera SNP ID:            hCV8722930
SNP Position Genomic:     14978
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5826):
CAAATAATTCCAAAGCCAGTTTGAGAAAGCTAGTGCCATGTTAAAAAGAAAATGGTTGAACAAAAGTATACAAAACAGCAACAACAATGTATTTCAAACT
Y
GCAGAATTTGGACGATGGACGGATGGATGGAGATACACAATTCTGAACAAACGGCATTCGTATTATGTAACTCTTACTGAAGTAGAGACCTATGGTATTA
Celera SNP ID:            hCV52322
SNP Position Genomic:     17015
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:5827):
GATCATGGGCTCCTACCTGGAATTTCTCTCCATGCTTCCTACTTTTTCCAGGAAGTTATCAAAGGTCACTAAGACGCTTTGAATTTGGGGAAAACTCCTA
Y
AAATAAATTCATCTCTCCCTAATTACCATTAGACTTCTGTTCTTTAAAGTTCTATTGACTAAACTTTGGCTGACTTAAATTGGTGATGTCTCATTTACGT
Celera SNP ID:            hCV52323
SNP Position Genomic:     16604
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5828):
TTAATACTTTGAGTCAAATAAAACCAAAGCAATTTAACAAAAGAAAACATCATGCCGAGGAAGTATGCTTCTCTTGAGATAACAATCTAACTTGTTTTAA
A
GATCCTTTGTTTACTAACCATTTTATATTCCAAATATATGTTCCTTCCTCAGAACAAATCAATTCTTTTCCAGACCCTCGGGGATGGGGGTGCAGGCATG
Celera SNP ID:            hCV12100571
SNP Position Genomic:     18649
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,4)   total(A,2|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5829):
AGAGGAACACAATAGGAGGGCGTATTACTCCACGGGTTTTAACCCTAGCCCTTGATGCTACCAGGTATCCATGATGCCCCTAATAAAGGTGACAGTTCCT
Y
CACTTTTCTAACATCCAGCTATTCTTTAAAAAAGTTGAACACTGCAGTTTCCGGAGAACTTTGCTATGTGAATTGCCTCACTGCAGGTGTGCTCTCCCCT
Celera SNP ID:            hCV25749200
SNP Position Genomic:     10387
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,6)   caucasian(C,36|T,2)   total(C,68|T,8)
SNP Type:                 INTRON


Context             (SEQ ID NO:5830):
GGGTGAAATTACAGCTAACTCTTAAAGGAGCTTGCCAGAGGGCAAGCTGGTAGTATTGTTTGCTATTCCAAGCAGAGGGGCTTCCACCTGCCAAGACAAA
R
AGACACGAATGAGTACAGCCTGAACTGTTCAAAATGTCTGGGAGGAAGGGAGGCTGAAGTTCTCTCTCAGACAGCCAAACAAAGATTTCCGAATTAAAAA
Celera SNP ID:            hCV52324
SNP Position Genomic:     13626
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:5831):
TTGTTAATACTTTGAGTCAAATAAAACCAAAGCAATTTAACAAAAGAAAACATCATGCCGAGGAAGTATGCTTCTCTTGAGATAACAATCTAACTTGTTT
W
AAAGATCCTTTGTTTACTAACCATTTTATATTCCAAATATATGTTCCTTCCTCAGAACAAATCAATTCTTTTCCAGACCCTCGGGGATGGGGGTGCAGGC
Celera SNP ID:            hCV12100572
SNP Position Genomic:     18646
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|T,4)   total(A,2|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5832):
GGAGCTCAAGTCAGTGCAATCATTCTGCATGCAGAATCAAGGCCAGAGAGAGGGTGAAATTACAGCTAACTCTTAAAGGAGCTTGCCAGAGGGCAAGCTG
R
TAGTATTGTTTGCTATTCCAAGCAGAGGGGCTTCCACCTGCCAAGACAAAGAGACACGAATGAGTACAGCCTGAACTGTTCAAAATGTCTGGGAGGAAGG
Celera SNP ID:            hCV52325
SNP Position Genomic:     13575
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:5833):
ACCACCCATCAGGTTTCCAGGAACTAACCACTGTAAAGGGATCCTGGGGGGAAGCTTTGGTATCATGGAGTAAAAACATACATTAAAACACCCCCTCCCT
Y
CTGCCTGTGTTCTCAAAAATCGCCGTCTTGCACAAAGAATATCCTTCAAGAAGAACGCTCCAAAAGAAAAACAGCCTATTTTAAAATGCCCGACTCCTGC
Celera SNP ID:            hCV29314500
SNP Position Genomic:     22139
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5834):
GAGAAAGCTCCTCTGGAAGCCAGACAAGCTCGGCCACCTCGAAGTCTTCTTTGGAATCCAGCAGGTCCAGGCCTGAGCCCTGGCGCCTGGTTAAACCAAA
R
GATGACAACCAAGCAGAAAAAAATAGCCCCAGAGAGTATCTGCTGGAGAGGCAGACAGGCGGACCTGGCCTTCGACACACAGCATGCGTGCCATGGTCTC
Celera SNP ID:            hCV25742689
SNP Position Genomic:     6239
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,15)   caucasian(A,37|G,3)   total(A,58|G,18)
SNP Type:                 INTRON


Context             (SEQ ID NO:5835):
TTTTGGAGCTTTAAATTTATTAAAGTCCTGTAAAATTATCTTAAAACTCTAACTGTAAAAGACACACTAGGTGTTAACAGCTCTGCCATGGAGTTGCAGT
R
CGCCTGTCTGCATCACTTAGGAAGACCCTAATTCTCTCAGGACAGCTCGCACTGACACAGTAGAGTAACCTTAATCCAAAACTGTAGCCCAGTGATTTCT
Celera SNP ID:            hCV29314501
SNP Position Genomic:     14196
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5836):
TCTGAGATGCCACCCTGGCCCTCTGCACCAGGCCACTCCGGAGACCACCAGGCAGCCGAGTCCAGCCTGCAGATGCTTCCTCCTCAGGAACCCAGCTCCA
R
GAGGGTTTAAAAGCACACTACAGACATAAATCGGTGCCAATGAATTATTCATTACATCTTATCTATAGGGAACTTATGGAACAAAGTCTCCATCCACAGG
Celera SNP ID:            hCV29314502
SNP Position Genomic:     12970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5837):
AAACTAGAGAAGCTATACAGTTCAACTGCATAACATAACAAAATGGATTATTTCTCCCGTGTCTTCTAAACCGTACTTATCTTTTAAAGATAAAAACCCT
Y
CTTTGTCCCCCCAGCCACCACCTAAACGACTTAGTAAAGGGAGCCGGAAGGCTTTCGCCCAATCGAGTCCGCTGAAAGTTTAGAAAACAAAGAGCAGGAG
Celera SNP ID:            hCV28021969
SNP Position Genomic:     22391
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5838):
GTAAGCTTTCTTCTGTCCAGAGGTCGGGAGCTGGCCTCACCGTCGCCCTACCAGGACACTGTCAAAGGCCTTCACCAGCAACCAAAACCGGCAGGGTTGG
R
GAGGGTGCTTCAATGATAGAGAGACCTGTAAGACCTTGCTACTGTCCCTCCCAGGAGTGAGGCAAAAGCTTACTGGCCTCACCAAGAAAACAATGCAAAA
Celera SNP ID:            hCV29314503
SNP Position Genomic:     12588
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5839):
TGGCACCCCTCTTTAAACAAACTGTTCCTCTTCACTTGCATGGTAAGGACTGGAAAGAGCCCTGCCGCGTTGGCCAGCTCTTCAGGGTAGCGGGGGCCAC
Y
GCCCTCTCCCAGCCTCGGGAAGCCCAAGGCCACTGCATCAGCCTGGCCCAGCCCAGAACCAGCCTCGGGCCCAGCCGGCCCAACTCAGAAAAAGGCAGGG
Celera SNP ID:            hCV25747802
SNP Position Genomic:     10083
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:5840):
GCGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCAAGATTGCGCCACCACACTCCAGCCTGGACGACAGAGCGAGATTCCATCCAAAAAAAAAAAAAAAA
A
TGAAGCTGGTTCCTAATTCTGCAGTCAAAAAAAAACGGCAAATGTAGCTAGGAGCAAAACATCAGAATCAATACACACCCAAAGGGTATTTTTTTTTTTA
Celera SNP ID:            hCV27009738
SNP Position Genomic:     8884
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5841):
GGCGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCAAGATTGCGCCACCACACTCCAGCCTGGACGACAGAGCGAGATTCCATCCAAAAAAAAAAAAAAA
A
ATGAAGCTGGTTCCTAATTCTGCAGTCAAAAAAAAACGGCAAATGTAGCTAGGAGCAAAACATCAGAATCAATACACACCCAAAGGGTATTTTTTTTTTT
Celera SNP ID:            hCV27009739
SNP Position Genomic:     8883
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,2)   total(A,2|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5842):
CAACTGGGACTGCTCTCTCGACAAACCACCCCAGCCCACAGCTCCTCTGGCAACCCAGCCCCTCACACCGAGGACCCATCTCACCAGTCACCTCCCTCAG
S
TGGGCCAACCTGTCCAGTCCATTCCTGCTTCCTGGTCTCAGGTCTAGAGACAAGACTTCCCTCCCTGAGCCTGTCCTCACTGCCTCCCTCATCTATACCA
Celera SNP ID:            hCV1119265
SNP Position Genomic:     10698
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,3)   total(G,1|C,3) 
SNP Type:                 INTRON


Gene Number:                 34
Celera Gene:                 hCG1649742 - 209000105743215
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W1ET(31870461..31890447)
Chromosome:                  Chr10
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1695):
TGTACCTGTTACCCAAGCTTAGTGATTAATAACGTGCTCTTTCACTCTATAAACAGTCCCCATCTGGAGGATAACGTATATGGTTCACCTGCTTACAGGT
CCTATGTGATCTGGCACAGCTGACTCCTCCAGCTCCACCCAGCAATAGCCCACACACTGGCACATGCTCCTTTCTCGCAGCATCACTGCTATCAGAGATC
ACAATTTTCTTCACTTTGCAAATGGAGAGAATGACACTCCAAGAAGTTCACTGGTTAAGGTCATATGGCAAATTAGGATGGGGAGCAGAGGTTTAAATGG
AAGCTGTGATGCTTACTCTGCTCATTTCCACTCATCTGCAAGGCTTAGACTGGACTGCACTGGGATTCCAGACTCACATGCTGCAGGGACATTCTACAAA
CACTGTTCCTACCTCCCAGAACCCCCATCTGGCTCACTGCCACTTCCCCTTCAGGTCTCAGTTGAGCCGTCACTGACAGCTCTGCGACACCCCAAATCTA
GCTGTGCACATAATACCAAGTGTGTCCCCTACTGAAACACTTACACAATCATTCTGCACATATTTGTTCACAACTTGGTATGTGTCAGGCCCTGTTAGAG
TGGCTGGGGACACATGTAGGGACAAAATGCCAGCCCTCATGGAGTTTCATGCTAGAGGAAAAAAGAGACAGAAAGGAAACTAGCAAATATAAAACAGAGT
TGCATGACATTATAAACTGATACAAAATAGTACAAATATCTCATGAATTCATCACAATTCATTATAATTTCCTATTTGCCTGACCACATCTCCCTGTGGG
TTTTGCAGCACGGTGTGTGATCTGAGGCTTGCAACAAAGGCCTGGTGAATTCAATAGCAGTTTCCCTTTCCATTCTCTCCATTGTCCTGGGAACTTGTCC
TGCTCTGATAACATACAAAAGATAATTATATCTGTAACTAATCTTCTAAAAAGCATCTGTCCCACACATTCAGGGTTATTAACACTGATGCCATGTTCAC
TTTATTCTCAACAACTACTCATTTCTGAATCATAAGGTTCCTCATGGAGGTGGAGATAACCCTACCTACCGGGACATTCTGTTTATGTTTTAGGGACTGT
CCTTTCCATGGCTTCCCTAGTCCCTCAGGTGCTGTGTGAGTTGTATTTCCTCCATTAATTCTACACTAGAAAAAGGTGTATATGCTCAAGCTGGGATAGG
AAATAAACAATGAACTCAGGAGTAGCATCAGCCCAGAGATCCCTGCCATTGGGCATTCAATGATTGGGTAAAAAGTTAACTATCAGCACCTTACACCAAT
TAGAAAGGCTACTATAAAGAAGATTTTTAAAAAAGCCCAGGTGCGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCAAGGTGGGTGGATCATGA
GGTCAAGAGATCGAGACCATCTTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAGTTAGCTGGGTGTGGCAGCGCGTGCCTATAGTCCCA
GCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGTAGAGGTTGCAGTGAGCTGAGATCATGCCACTGCACTCCAGCCTGGCGACACAGC
GAGACTCCATCTCAAAAAACACAAAACAAAAGACAGCGTTGCTGAGAATGTGGAATAATTGGGACCCTTTCTACCACTGGTGGGAATGTAAAACGGTCCA
GCCACTGTGGAAAACAATATGGCAGTTCCTCAAAAAATTAAACATAGAATTACCCTACGACCCCACAATTCTACTGCTGGGTACATACCCCAAAGAATTG
AAAGCAGGACCTCAAACAGATATCTGCGTGTTCCTCTTCACGGCAGCATTATTCACAATAATCAAAAGATAGAAGCAACCATCAACAGATACAAGGATAA
GCAAAATGTGGTATATCCATAAATGGAATAGTATTCAGACTTAAAAAGGAAGGAAGTCCTGTCCAATGCTGTCACATGGATACAGCTTGAGAACACTATG
CTAAGTGAAATAAGACAGTTACAAAAGGATGGATACTGTATTCTGCTTCTGTGAGGTCCCTAGAGCAGTCAGAATCTTAGAGACAGGAAGTAGAAGGGTG
GCTGCCAGGGGCTGAGAGGAAAGACGGATGAGGAACGAATGTTCCACGAGGACAGAGTTTCAGTTTTAGGAGATGAGAAGAATCCTGTGGATGGATGATG
GCAATGGTTGCAAAACAATGTGAATATACTTAATGTCACTGAACTGTACGCTAGAAAATAGTTAAGAAGTTAAATTTTAAGTTATGTGTATTTTAACCAC
AATAAAAAAGTTAACTGGTAGGTCACCTGGGACTGCGGTTTAAAGCAAATGCTTGATGGTTAGACTAATCTGGATGGTCCAACTAACCTGACTCTACCAC
TGACTGGTTATAAGACCTGGACAAGGGGCTCTACTCCTTGAGCCTCAGTTTCCTCATCTGAAAAACTGGAATAATAATAATATCTAATTTATAAAGGCTT
TTGGAGGTTAAATGAAGCAGTAATGCCTCTTACATATAAATAAAATTCTGAGTATGATATACAGCACATAAATTCTAAATAATAAAGACTCAAAACCATA
TTTCATTGGTTTTGTTGATGCTGATTATTATTATTATAATTAATACTATTAGCTTAATTCAAAAGCTAACATCAACCTACAGCAACCTGCAGAAAGATGT
CCTGCCAAATACTTGCTAATTTAATCCAGGAGCAAAAATCTATGATTCTGGGCTTGAGTGAGCTTTCCTAATTTTAAAACTCTGATGCTCATTTTGTCCC
CAAGAATGTGTTTAGATGACAGAGCAATCAGAATTTGACATGTATAAATGCTTGGCATGTTAAAATAATGAAAGATATTTTCACCATTGTAAGGAAACAG
CTTTTAATCCATCTCTCTGGTTCAACATCACATTTTTCTATAGTTTCTCATGACTTCTTCCTTAACAATTGGAATAGGTATGAAAAAGCTGAGCTGAACA
CATAGCTGCTTAGAAATGAGCTGCTTAAAGTGTTAAAACAACAGAAACAGCAAGCATGAGTTTAATGCTATGTATGCCGTCACAATACTAATTTCTCTAT
TTTAAATTACAGATTACACACACACATACACACACACACGGAATCACGTCTATATTGCTGGGATTTTCATTATATAACAATATATCATTTTAAATGATTT
GAGGCAAATTATTGAAAAAAATTAAAGACTGAACTCCATAAAAAGGAAATCACCTGAAATCAAATATAACCTTGTTAACAAACCAGCACATTAGCAACAT
TTTTAGGGGCAACAACATAATCAGCAACTCTAAGACATCAATCAAATGCATTAAAAACAGGAAGTACTAACTCTAATTCCTAATTTCCAGAAAGGCAAAT
ATACCATAATTAAATAACACGTTATAAGGAGATTTGTCTGTGTAGGTCTACTTCTGAATCCCCGAAGTTACATACTTGTACCACAAGCCCATACTCTTGA
AAGAAAATTCTGGACCCAGTCCACATGGAATTTTGGTTAAAACATCTAATTCATTGCAGAGAAGAATTTAGTCTTTTCCACGGAAGAGACAGCATGTGTT
AGAATGAGAATACTTTATAGAAATGACCAGTGACAAGCCGGCTATGTAAGGGGGCTTCTGATGCCTGGCGTTAACAAGAGACAGAGAGTATTATTGTTGA
AAGGGATCTTTGAGATTACAGAAGGAGCTGAGGTGTGAATAATCGAACACCATCCCCTTGTTGCCTGAAGGAGAAGTGAGACAGCAAAACAAATCAAATT
TCCAGGAGCTGCACCGTGTATGGTGAGCGAAGACGCAATGAGGACATGTCTGTAGGAGAACAGAGGTAGAAGTTAGCTCCTCAAGTAACAGTTGCCATCC
CGAGGCACCACAGCACAAGACAGTAGCGGAAATGAACATGACAACGCGGATGGTGGGTGACAAGAGTCTTGCCTGGATATTGACATTTTTAAAGTGTAGA
AGAAAATCGCAGGTCACTGAAACAAAGGCTGATGGTGCCCAGCAGGTTACTCTTGAAATCAGAAACAGAAGTTCATGAGAGGCAAGAAGACAGAAACAAC
AACTGAAAAACTTAGAGTGGATCGCTAACTTGCAGGAGCTGTGCAGCTTTGGCTTTGCAGGTTTTAGAAGCTCTCCCTACGCCACGTCTTTAAATATATG
TATGTTCAATCAGCAGGAGGAAGGGACTAACAAGAGCCTTCTGCGGTAAGCACCTGCATCAAACAATGGCACTGATCTCAGAGGGATTTTAAACAGCTGT
GCATAAACTTCAAAAGTAATTTGCAACCATATTAGTAAATGTCACTCTTCTTCCCGCTAGACACAGCACTTTTAAAAGAGATTAAGCATCCGCAGTAAGC
CTGCCATTTTACAAGGGTTACCAAAGATAAGTTAGGGAAAATATGAAGATGATGATTCACAAGGTCGGGGTGTGGGGTGGGGTGGGGGACCCAGGACCTT
AGGAATAGGGCTTGTCTATCACACAGCCTCGGGCAAGAAGGGCCCAGTGGGGACCATGGCTTCTAGGGAGCAAACCAAGGGAAAAGAGCAACGGAGTGGA
CCCTCCAGGCTTCTTGCCTCTCTCACGGAGCCTCACGAATCCCAGTGGTTTAGAATTTTCTTTGGCAAAAGAAAAGGTCAAAGAGGCCGGAGTTGACAGA
AAGCATGGGCGGACTTCTCAGATCTTGTAGGTGGTTCTTAAAAGAATTCAGCAGGCTTGAGGTGTGCTCTCAAAGGGCAACTGGAACGTCAAGGACTTGG
ACACCAGGCACAGATGGTTCATTTCCCATGGACAGGAAGAGGGCACGGAGTGCTCCCTCTTCCCTCCACCTTCTCCAGCCTAGTCCCCCTCAGCCTGTGC
CACTCCTGAATCATCTTTTATAGCACCACGTCCAGCCCGCACAGGGGCAGGACAGCCCAGGGAACAAGGCAGTCCTGTGGCGCTCTCCTTGCAGAAATGA
CCGGAGTCTCCCAATCCAGCCAGCCCGTGGACCTCTCTTCATGCCCACGGGGGAGTGCACACGCCTGTAGCATTCAACAGTCACTCTCCCATTGATAACG
GTGGCTCTCGAAAATCCAATACCACAAAGATACTTTATTGCACAAACTTTGCTTGGTTAACCTGGCCCTCAAAGCTGGGGAATAACCTCACTTGAGGCTA
CAGGAATGAGCACGCAGATTTTTCTTTTTTTTTTTTTTTGGTATCTTTCAAAGACCTGCCTCCCCCTCCCCCAGGCCCTTGACCAGAAACTTGGCTTGTT
TAGAAGCCTGAGCAATGGCACCCCCGTCCGTGCTCCAATACATTCCCAGAAAAGGGGTTATGCTCCCCTGTGGACAGGATACCATCTCCAGAAAACATGT
TTCCTCACGCATTTTTTTTTTTTTTTTTACCAAGAATACAAAAACTTTCCACCTTCTTCCCTCCCCGCAGGCCCCCTTTCGTTCAGGTGAGAAGGAAAAG
GGAGAAGAAAGGAGGAAGCGCCCCCAGGCCGGCGGCCCCCACCCGGCTAAGGTCGCCAGCATCCCGCATCCCGTGCGACCTGCGTCCCAGAAACCCAGCG
GGGAAATTCTTCCCGGTGCGCTCTTGCGCCCGCTTGGTTCCATTTCCTACTCCGCCTGCTCACCCGGCAGCCCTCACCCCTTCCCGGAGGCTCTCCGAGG
GGCCTGGGTAGCCCTTCTCGCCACGGGTCTCGGCCCCTCCAGCCCGCTCCCTCCCGGCGGCGGCGCGGGGCGCGGGGCCCTACCTGGAGCGAGCACGGCG
CCGCTGCTGCCCGGTGGCGCTGGGACTGCGCGGGGACTGCGCGGGGACTGCGCGGGGACTGGCGGTCGGGGCTGGCGGGGCTGGCGGGGCTGGCGGGCCC
GGCGCACTGCGGGTGCGCCTAGAAGGCGGTGCCCGCCAGGGGGCGCTCGCCAGCCTCCCCGCCAGCCCGGCCTCCCGGGACCCGGCACCTCTAGCCAGGG
ACGCGCGCTCGGTCCCCCGCCGTGCGCCCCCGGTCCCGCGCCCAGGCTCCCGCCCCTGGCCTCCTTACCAGCCACTTGTCGCCCAGCTGCGAACTGGAGC
GGGAGGCGGCGGCCGGAGGGCCCAGGACAGCCCCGGGAGGGCGGCGAGGCGGAGCAGGAGCGCCCCGGCTCCGGCCACATTCTCAGAGTCAGGAAAAGGG
GCGAGAGGCCACATGTCTCCCTCTCGCCCAACTGAAAACGAAACGGCGCTCCAGCAGATTGGGTGGAAAGAGCTGGGTCTCTTTTCTCTGTTTTTCACGC
TAGAAAGGGCTTGTAAACATTGTTCCTTTTAAAATGACCTACCCCAGGCATTTGTTTGGGCACACTTCTGTCCTGGGGTCATCGTTCCTAGGTGGCTTCG
GACCTGGGACTTTTCCTGTATCTGCACATTGTCGTTTTATACACAATTGCCAAGGTGGGACTGCTTTCAACTTTACTGTGCTTGAAGCTGCAAAGGTAAT
GTTGCCGCCGTGCGTGTCATTTTAGGACTTTTTATGCCTTGCGGGTAATACTAATGATGGTCACAGGGAGGATAAACGGGGTGGTTTCTTTTTCTATACT
CCATGTAACTAATTTCTCATTCAGGTTAGAAAATTATATGTCTGGTTACTAATATTCTTACTGAATGGTTTCCTTGCAATGATGACACCAAATAATTAAA
ACGTACTTGATTAAGACTTTTGTTGCTGTAGTGTACTAAGATCAGATTAATCTGAGAAGTAAAATAGTAATTTTTTGTCCTTTTTTCTTTTCTTGTTTTG
AGAGAGACATTAAAAACGATTAAAACAAAACAAAACAGGCCAGGTGCGGTGGCTCATGCCTGTAATGCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCG
CTTGAGGCTGGGAGTTTGAGACCAGCCTGGCCAACATGGCAAAATCGTGTCTCTCCTAAAAATACAAAAATTAGCTGGGTGTTGTGGCACGTGCCAGTAA
TCCCAGCTACTCAGAAGGCTGAGGCAGGAGAATCGTTTGAACCTGGGAGGAGGAGGTTGCAGTGAGCTGAGATCTCACCACTGCACTGCAGTCTGGGTGA
CAGCAAAACTCTGCCTCAAAAAAAAAAAAAAAAAAAAAAGGTTTAACAAAAGCCAAAAGTTGAATTAGCAGCCTTCTGATCATGGGAATGTAGGATGTCA
ACTAAAAAGAACCTCAGAGGTTGGGAAGGCAGATGAAAAACTGAGGCCCCGAAGTGTTTCAAGACTTGATTAAATCACTCAGGTCTGCACTAGGAAGCGA
GTTATGATGATGCCCCTAATCTATATGAACCCAAATAAAGCCAAAACACACACACCTTTTAAGGATAAAACTRTATTCCATTAAAATTAGCCCCGCATTT
GTCAATATCTAACAGCATTGGACTGACCCTCAGGCCAGAGGCTGTAGCTCTTGGAAGATCCTAGCCAGGAGGTTTGAGAGTGGCCAGTACCTCGGAAGTG
CTGGCTCACTCTGACATCATCAGAACCTGGCATACAGTAGGCGCTCATTGGGTATTTGCTATGGAAATTAGGCAGGAAAGTGCGTCTGTGTCTGGAAACA
AAGAGGCAAAGCTTAAGCAGTGATCCCCATGCAGATTCTTTCTGCAAACTACAAAACAGAAGCTTCCCTAGTTCAGACTGCCATCCATCTGGCTCTTTCT
CCAATTGTTTTTCAGCGGATCCTGTTACAGTGCAAAGAAGAAATGGCAAACGGATAACAGCTACTGTGCCTAGAAGATGGTAGATTCCTCACGCTCCATA
TCTGGGTTTCTCATTGACAATTAGGCACTGAAAGGAAGCTCATATGTCCTGTTAATTTAATCAGTAGTTAGTGGCTTTAGAAAAAGTTTCATATATACAC
CAGGTATGATAAGGACTTTTTTTTTTCTTTTTGAGACAGAGTCTTGCTGTGTTGCCCAGGATGGAGTGCAGCGGCGTGATCATAGCTCACTGCAGTTTTG
ATCCCCCAGGACTCAAGTTATCCTCTCACCTCAGCCTCCCAAATAGCTGGGACTACAGGCACACATCACCATGACCAAGCTAATATTTAAAAAGATTTTT
TTGTAGAGACGGGGTCTCACTATGTTGCCCAGGCTGGTTTAAAACTCCTGGGCTCAAGTGATGCTCCTACCTCAGCTTCCCAAAATGCTGGGATTATCGG
GGTGAGCCACCATGCCCAGCCTGTGATGACTTTAGACGCACTACTCATATAATATTCATAATCTGATGTGATATGTATCATCATCATTATCATCTCTCTT
TAACAGAAGAGACTAACAAGGCTTAGAAAGGTTATGTACCTCGCTCAAGATCCCACAATTACTAAAGTACCAGAACCAAGATTCAAACCCAGGTCAGGCT
GGAGCCACCATCTCAAGAGCTGCTGAATAATTAATTCTCCTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGTTCTGTCACCCAGGCTGGAGTGCAGTGG
CACAATCTTGGCTCACTGCAACCTCTGCCTTCTGGATTCAAGTGATTCTTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCATGTGCCTGCCACC
ATGCTCAGTTAATTTTTGTATTGTTAGTAGAGACGGGTTTCACCATGTTGGCCAGGGTGGTCTCGAACTCCTGACATCAGGTGATCCGCCCACCTCAGCC
TCCGAAAGTGCTGGGATTACAGGCATAAGCCACTGCGCCCAGCCAATTCTCCATTCTTACATCGTACACTCAGTTTTCTCTTTCTTTCTCTTTTGGACAA
CTGATCTTTGAGGACTCTTGGCTACTCAATTGTCCTATAATCGTATAGTCCTACAACAGGAAACCCGTTAACCTGAAGATCAGATCTTTTAAAACAACAT
CCATCATATATCTACAAAATTGGGATTTTTTTATCGTAAAATTTCATCTAAAACAAAAAATTCACATCTGTTCTTGGTATCCATTAGGTGTAGYGGACAC
CTCTAGATATTCTTGATGCCAGCATCCTGTAGACCCGCCATCTCCTTTCCCAGGCCATGGGGTGTTTCTGTTTTCTATTAGACACTGTCTCTTAGTTATA
TAAACGTGGCTGCTCTCAGAAGTTCTCCACACCTTTGTTTCCTGGAAGAGGAAATGGCATTTCCTGGAGGGGATGACACGTGGGCGGTGAGGTTCCACTC
ACTACGTTAAACACACCCTAACTTTCAGCTGTGTACTTCTTTTCCTCTTTCAGGTTCTGCCCTGATGTTTCCTGGAATAATGCTGAGGACTGCCTTTCGG
GTAGCCGCCCTATTCMGTTCACTTCATCTCGGAAATACCTGACCYCTGCCTTGGATCCAGCGGCCCTCCTGAGAGCTGAGGAAGGAGGAAATCCTATGTG
TCTGCTCCCRGAGCTGCCACAACCCATCTTCCCACAACTCGGAACTTGGAAAAAGGAACCCAGGACACGACTTTGCTTTTCTTTTGGACCTAGTTGGTGA
TTATACTCTGTCTCCCATGGAGACCACGTCTTGCATCCTTCCTTCTATATGGGATTTAGGATAGAAATTAAAAAGAAAACATATTATTTTGAGTCTTGAT
TTGGAGAAAGGTAGTATTCAGGAGGAAGTAGGCTATGATACACATAGAAAATTTGAGGACAGTGTTACTTAACAAGGACATTTCTGTCTCTGCAGAAGTC
ACAGCTTGGAGGAAACCAGTTTGCACTATTTGATGAGGAATTTGGCCACCAAACCACTGATACTTTCCCAAAGGTTTGGCAGAAATTGTTTTTTGAGTGG
CTCACCAGAGTACCCAGAAGAATCAGTATGGAATTAGAGGACAGTGGCCTACCCTAAATAAAGACATGAGTGATGTATAAAGTCTAGTGTCAATTTATTC
AGAAAATATCAAAATTATTCTGGGAGCTATGGGTCAAAGTTGATAGGCACAAACAAACAAAAACGAAAGGTATTTTAAATTCACAGCTTGGATAAGTAAA
AGGGAGATGTTGTCATTTCTCTTCTTCAATCCAACTTTAGATTTTCAAGCCGGAAAAAGGGTAATTAGAAGTTAGAAATTGTTATTGCCAGAAAATAGCT
CTAAACCCTGAAAAAAAAAAAAAAAAAAAAAACTGACCCTCCTCTTGGGGAGTGATAAACCTCAATTACTGTTGATAGTAAAACTGATATCAACTCTTCG
AAACCAGTGAAAGGTGAATGGAAACCTTACCCTAGGTTAAGGTTTAAAAAATGTTCATAATATATATTTGAAAGTTCCATTATTTAAAATATTCATTAGA
CATGCTTTGTAATGTTAAGTTACTTCAAAAAATCTTACACAAGGGAAGGGAAGTATGTATTATTCCTTCATTTAAGAGAAAGATAATGTGTGAATATTAG
TTAATATTTATCGTACATTTACTACCTGTGTCGAAGCGTAGTGTTACACACTTAATTTCAATTATTTAATTTGATTCTAACAATGAATCCCCTGAGATGG
ATAATATCCTCTTCATTTTACAGATGAGACAATTGAGACTTAAAGGTTAAACAAATGATTTCCTAAGCTCATTCAGCTAATAAACGGTAGGGGACTGCTT
GACACCAGTCCAGTTGACCCTCAAATCCATGATTTCTGCCACCATATTCACAGAAACAAGACAAGAGCTGAAAATATAGCCTGACTCTTGAAACAGTCAA
AGAATTGTGTATGTTTATGAAAGTTCTGATTAATAAGATATTCTGAGGACAAAAGACAAGGCATGGGTAGAGGGGCAATGTGTAGATTAGAATGTATCAC
AATGCCCACTAAATAGTAAAACCATAGAAAATGAAATTTAATCCTTACTGTGTAGAATATTTAGAGTAGATTGTTTTTTCCTCGGTGTCAATTACTATTA
CAACTATCAAAGAATGAAATTAAACAAGAAACGGTTCCTTTGGTTTTTTTTTTTAAAGGTGGGAGTTATAAAAACAGTATTTGCCATCTGGTTTTAGTTA
TGGCTGTGGAAATTCTATGGGTACAATTTGTTGTCATTGTTGTTACCACTACCAATACAGAGATGCTAATTGTAACATCAGTTTCTAAATCAGATAGTGA
ATAATTACATTTTCAATGTTTTCTTAACATAGATACAAGTTAACAGGATATGCTTCTGGCCTGTTTCTGGATTCTAAGGGTAGAACCAGCATAAAACTAG
TCAGTCCAAGTATTTCTAAAGATCCACAGACACAGTTCTCCTGGATTTGGGAAGCCTAGAGATATTAGCACAATAATTAAGGCCCAAGTGAGTATAAAAT
TTTATCTGAAATCGAAGAGATATTGATTAGATAATCCACAGAGACTACTTTTTAGTGATTATCTTCCACCAGGGTAAAAGCAACAGCAGCCTGAAAATGC
AAAAGACCATACATTTTAATGGTAAGTCCTCCCCAGGAAGGATTAATAAATCTCAGGAGGAAGATTTATTATCTGTAAATCCAGGAGGAAGAAATCAAGA
TGAAAACTATCATATTTATAAATTTGATTGTTGCAATTTTATAGTTTGACATAGTGCAATTGCTTTAGATTTGAAGGGGAACTTACTTTAGAGTAAGTCA
CTCAATCTCTTTTTTGGAAAGGCAAATGCCACACCTGATCCTCATCACTCCCTTCTCCTTTGTCCATAGCCTGGCTTTATTCTGCCATTAACACACACAC
ACACACACACACACACACACACACAAATTGGGAAGAGGATTTCTCATTTTACAGAAAGTATGCTGGGCTACACAGGATATTCTATCAGGTTTCTTCCAGC
TATAAAATTCTGAGACTAAATATCAAATTAAAGAAAGTACTAATTGTCAGCGATGGGGGATGTACTGCTATTTGCTTCTAGTGGTACTCACTGCTCATTT
CCTATATTCACTGGTATAAAAAAATTTCAAACACCCTCAAAAAAGCCTATACTGGTGGTACCAGGAAAACGCTGAAAATCATTACTTTCTGTGTGGTGTC
CAGCTCTTTTGGTTACATCATCACTTCGACCATTCACTTTTAAAGAAAAACTTTTGTGGAACAAAAATATAAAGATTTATTTTTTTTCTTGGTGGCTTAG
CACAGTGGCCTAATGTGGCTGACCATGTGCACCTGTTGTGTGAGTCACTTAGACGTGCTTTGTTTCTTGGTCACAGTTGATCCCTCAACTCAAGCATCTC
ACCCTCAAAATGTTTGTTTGGGACCCAAGAGGCAAACCTTGAGATGGGTTATTTCTTTCRCCTTGGATTGGCTCATCTGCTGGGAGTGGAGCCAAGCTGA
CATTTCCTTTCCTTTTTGTCTGCCTATCACTACGTAGAGGCAGCACATAAGAGAGGGAAAGCCATGCGCGTGGAGTCCAGCACATCACCCAGAAGGCAGA
TGTTCTATCTCCATTTTACTCATTAAAACAAACAAAACCACACCTGGATTGCCTGGTACTTAAATAAAATGCACTATGATGATTGAAGAAAAATATCTTA
TATTTAAGGAATAGTTTTAATAGCTTACATCTGTATTTCTATTAGCTTCCGTTTCTATTTTTAATATTTGTATAATATTAAAAGTAATTTTAAAAATGAA
CTAATCTTTTTACATCTCTTATGAGAACTTAATGGAGATATGATGTTTGAAGATCAAAGATACGTGGTATTTGAAATCAGAAAATGTGTTTGCTTTTCTA
CACAGATTACAAATATCATGCATTATTTCACAAACTCTTCTCAAAGTGTTGATTTTAAAATTAGTAAAAGGAGGGTATATTCATATCACATCCTGGCATT
TTTATAGGCAAGATTGAGCAGCTATAACCTCTAAAGTGCTTTGATCCCTATAAGCCTCAAGAAGAGAATGGTGCAATTTGAATTAATAACTACCCATTAT
AGAGCATTTGTATCACAGTATTTTCCAAATACTATCTTATTTAACCCTACAGCAATCCTATGATATGGGGATTATGTACACATTACAGATGAGAACTTGA
GGCTCGGAGAAAGTAAATAACTTACACAAGATCACAAAGCAAGTGACTGCCAGAGCCAGGATCAGAACCCAGACAGGCTTCATTAGGAGCTCTGCTGAAC
TCTGTCTAGAGAATTCTCACCACCTGCTGCAAAGGCTAAAAGAAAGGGTCATATTCCACATGTAGATTTTGAGAAATATTTGTTATTTTTCTTATGATAA
AGGTTATGCATACACACTCACACACACACACACACACACACACACACACACACAACTAGAAATTACAGAAAAGAAAAAAGATTAGCCAGAATGTCACCAC
CTAAAGACAGATAATATTTTGGTGTTTTCAAATATTCTTTTATCTATACTTTTTTGAATTATTTTATTTTAAAAATAACTTTTACTGGTTGCCTGATTAT
GAAGTAATAAATATTCACCATAAATATTTTGAAAAATATAAAACTGTCTATAAAAGAAATTTGAAATGATTGCTAATCTCAAAATATAAAGATACCTGTC
AGTACTTTGGCATTTTATCCTCCTTGTGGCTGAGGTCACATATCTTGAGACTGAAGCACAAAATTTCTATACCATACAGTTTATAGTTTAGGCCACAACA
TCATTTTTAAAATTGTTTCTTTGGTTTTTACTTGATTTGCTGATGTTTTATTTTTTAGAAAATTGCAGATGTGATTTTTAGGCAGCTGATTGGAATGTTC
TGGTTGCTCTGAATAGGACTARCTACTTTGTTTTTTACTGAAGGACAAATATTATTCCTACACACATAAAAAACCTCAAAGAATGAGTAATGATACTGTT
TAAATCTGCCCTTATAACTCCAAAGAATGACTTCAAATTTTCTTTCTTCCAAAGCAACTTTTAAAAGCCTTTCCACTGCACAGTGAAAGAAAACCACAAA
CTCCTTGTTTAATAAGTGGGATCACGTGCTTTTAACACGAGGAAAAGGTCAATCTGAAGCAACTGATATGGAACTGCCAGAGTAGGTACGTAAATTTAGG
AGTTACATCAATTTGGGAGGGCTGCAGAAATGTGGATCAGATTTTAATCACACTGAGGAAGTTTCTTTGAGCAAAAGACGTGATGGTTGTTCTCTAGAAC
CTTTCTGTCCTGTCCGTTGCTTTGCCAAGGGAGCTAGAAAAGAAATAAACATTTAAGAACTTAAAAGGCTTCTGGATAAAACTCAGCTTGGTGCAACACA
TTTTAGCTATCACAGCTTTACTCCCAAGCTTCCACCTTTCCTAGGAGCGCAGTAAAAACCTGAGCCAAAGAAACCAAACAATAGAACTGAAATTCTTTAA
ACTTGAGTTCTTGAGGTTATAGTCTTTGTGCACTCCATAAAGTCAAAGCCCTAAAAAGATTTTTAGAAAACAAAACACTTGTATCTGTATCTATTTCCCC
AAACCTCTCTACATTTACTTACCTTTTGCAGACTCATGCTTTCTCTTTTCCTTGTGATTGCATTTGGATAGAATGAAGACCTCTCCTACAGTTCTCAACT
TAAATTCTTTCTTTTATTTCTTAGCTACGAAAGAAAATTCAAAAAATTCAATGCTCTACTTTGTAACTCCCTGGACATAGTGAGTCCATTATGTACATCA
TGAGGAGGGAGTGGAGAAAGTGGAATTCTTATGTAAATTCATACAGCTTTGGAAAATGGTTTAGCAGTACCTACTAAAGCTGAGCATATGCAAACCAGTG
ACCCAGGAATGTCATGGGTACATAACCTACAAAAATGTAGACAGATGCGCTAAAAGACATGTACAACATGTTCACTGCAGCCCAGTTCATCATCACCCCA
AAGTGGAAACATCTCAAGCGTCCACCAGCTGGAGGCTGCACAATAAAAGTGTGGTACTTTCGTCGGTAGAAACATGCCACAGCTTGAACACACGCTGAAA
ACATAACGTCAAGTGAAAGAAGCCAGGTCCCAAAAAAAGACATACTGTATGATTGTATTTACATTAAGTCCCAAAACAGGTAAACTGAATTCATGCAATG
GAAAGTCATGAGAGTAGCTACTGCATCTGGGGAGGCAGGTGGTGGAGTGCCAGGGAAGGAGCACCAGGATGGCTCATGGTGCTATTTTTATGACTTGATG
TAGGGGATAGGTAATAGGTAGGTCCACTTTGGAAAAGTTCATCTAGCTGTGTATTTGTGACTTGCAGTCTTTTCTGCATGTGTCAATTCCAGTAAAAAGA
TTACTTGAAAATCAAGTATAATATTATTGTATTTACAAAGCCCTTTCTACGTAGCCAGAAACAGGGTTGGTTTCCCAGGTGACTGAGAGGTCGTCAGGAG
CTTAGTGAGTGGAGGGCAGGGGACAAGTGTGTTCATTCTCTCTCCCTCTCTCTCTGCTGTTCTGTAAGGTGACAAGTTAGGCTTACTGCCAGTGTGACCT
TAAATAAGCCATGCATGCTTTCTGAATCCTTTTTTCTTATTTGGTGAGTGACGTGCTAGTTAAAATGGTGTCTCCAGCCCTTTCCCGTCCTCACTGCTGT
GATTCAAGCCCCCTCCTTCTCTGTGGGGCTTCCTCCGACCTCTCGATTTCACTGTCACCTTTCTCTCTTCCTCTCTCTCCTGCTTCCTCCCTGTCCACCC
CCATCTCTGTCCCCCCAGGGCCGAGTTTGTTTTATATCTCTTTTGGTATCTCCTCTGGTTTTCTGGCACCATGTCTTACGTAGAGCAAATAATAATGCTT
TAAAAAATTCTCGATAAAGGAAAAAGTTCAGTAAAGTGTGAATTTCACATTGTAGTCAGTGGTTAAATGCCTCAAACACTTAAAAAGTAGAATTTATCTC
AACCTGGGCAGAAGGCAGTCCATGCCAATTTCTAAATGGAATCCAATAGCAAGAATGCACAAAGAACAAGCAGGAGTGGTGAGGATTTCCTCACTCTGTC
CCTCAGAGGTGGCGCGTCTCATCTGTGAGGTGAAAGTGTCATCACGTCATTGACATAAAGTATAAGTACAGGGAACATAATCATCTGGGAGATTTTAATT
TGAGTTAATAAGAGATAAGATTTTCAGGCTAAAAGTCTTGGGGCTGGACAAAGAATATTTAAAAGGAGGGTTGGTGGATAAAGAAACTGTGGTATATTTA
TACGATGGAAGACTACTTGGCCATAAAAAGGAATGAATTAACAGCATTTGCAGTGACCTGGAGATTGGAGACTATTATTCTAAGTGAAGTAATTCAGAAA
TGGAAAACCAAACATCATATGTTCTCACTGATATGTGGGAGCTAAGCTATGAGGATGCAAAGGCAAAAGAATGATACAATGGACTTTGGGGACTTGGGGG
GAAGGGTAGGGGGCGGCGAGACATAAAGACTAGAAATATGGTGCAAAGTATATTGCTTGGGTGATGGGTGTACCAAAATCTCACAAATCACCACTAAAGA
ACTTACTCCTGTAACCAAATACCACCTGTACCCCAAAAACTTATGGAAAAATAAATAAAAGAGGGTTGGATGATAAGAATTTGTCATCTTGTTTTCTGAA
TTGTTCAATTGTACTTAATTGTACTTCTTTCCTTAAGGAGTTGAAAATCTTCCTAAACTGCTGGAGGATACACCTCTGATAGCTTGAGACAAATATCCTC
TTGATCATTGTTTCACCATATTTGTCTTTGCTCATGGAGAACCATTTTGATCCGTGGTTTAGCCTCCCAGGTGATTGAACAATACCGGTGATCTGAGGCA
GACCCTCTGTGACGGATAACAGGTGAGTCTCTTGCATGTTTTTGCATCATGTACTGATTACCCAGACAAAACTGAGTTGGTACAGCTGCTAAATCCAGGA
TCAAGTGCTGGGATAGTAGTCATTCAAGGAGGAGGTGTCCTGAGGGGCTCATCCCTCAGTAGCCAGCTGTGCCCAGAGCAGAGAGGGGCACAGGGTGACA
GAGTGAGGCAGGCAGAGGAAGCCGCACATGGCCAGGTGGGAATGGACATCAGGCTCCTGACTGCTCTCCTCACCCAGCTACACCTTCAGCTTTTCACTGG
CAGACACCTGTGGCTGCTGAGATACCATCCCCTCCAGTGAGTCGGCTGGCAATTAGCTTATGGTCCTAAGGATATTTCTGGTGTTGCTGAGAAAGTCAGA
GAAATAGAGGAAAATGTCAAGCTATGCTTTTAGAAAAGAGTAGATGTTAACTTGTTTGGCTTCTGACTCTCAGCCTTAAAGAAACATGTCACCTTCTTCC
TCACCTGTAACGGCAACAAATCCTCGTAACAAACATCTTCCATTGATACTTGAAGAACATGCTCACATAGTAGGTGCTGGCTAGTTTGTACAACACGCCT
CTGCTTGTATTTATCTACTCACAGGTGAGAATGAGTTGAAATAAAACGTGGAAGTTCCTAGGAAGCACTCAGTATTGCCCCTCCCTGCCCCTTTTCTGCT
GTTATCTGCTGTGGGAGCAGGGGAGCAGGGCAGTGTGCTGTGGTGGCAGATGGTGGACTTCAGAGTCCTAGAACTCCCAGATTCATGATCATGACAGGTC
TGGGCTCCACCACTGACAAGCCATGAGGACTTGGGGAGTCCCATGATCTCTCTGGGCCTCAGTTTCCTCTGCTGTAAAACAAAGCAATGGATGAGATAAC
ATTTCTTTCCACTTGATAAATCCATAAAGTGCAAAAGAACCTAACTCTGACAAATATTTGTATAATATTTTTACTCCAGCAGGATGCATGATTTGTATTC
AGCTGAGATGGATTGACTAAAAATTACACCTTCTGCTCACTCTAATTTATTGCTGTAGAAGAAAGAATAAGTGAGATATTTCCATTTCTAGTGACAGGTG
GCTGGCACTTTGAAACCTTCCATTTCATTACTCACCTTAATGTTTTCACTAAAACACATGTGGTTTTCAAACACAGGAAGGAAAACATGGTAACCTGTGG
TTACAATTTCCACTAGAAAATAGAAAAGGTGTAGGTCAGAAAGAATGTTTGTGGGGTGTTCCTTTTTTACTTTAAACATGAAAACCCATGTCAGAAGAGT
TTTCTCTTGAGAAGAACACTGTTAATTGTTGCAATTTTCAAAAGTTGATGAAAATGGGGCCCAGTGGCCTCTGTTGTTGCAACCAGGGCAGTTGTGGTTG
AAGAACTCTGAAGGCTTTAGTGCCAGGGATATTTTTAATCTTCCACTGTGTCTTCAAGCAGTCTCTCTCTTCTCTTTTAATTCAAATTCTGGGAAGCCTA
AAGAAAATGTCTTTTCAGGCAGTCCTTCTCATACCCAAGTAGCTCTAAGAATCCCTTTTCAGATCCCATCTTGAAGCAAATTAGCTTGTTCAAATAGCAT
TTCCTCTGTAGCAATTACCTTCACAGTTATTTTCAGCTACTGGTTCCGTAGTTTGCTGTGATCAGTTGAATTTACCTGATACCTAAAATTAATTAATTCT
TCAATAAATATTTGGAGAGCACCAACTAAGTTTACGACATGCGCACACATCTGAGTTAATTGGTTAATCAGAAAGAAATGCAAAACACAAAAGAAAAACT
CTTTTGAATTTTCTAAATTGTAAACATCTACAACTACTAGAGATATGGAGTAAGTTTTAAGTAAATTCTATTTTCACAAGAGACTGGTATTTGAACTTCG
GAAGTCCTCTTTCCAGATGGCCGGGGTACCTAGCAGGAGGGGGTGGGAAACCACTCCAATAAATGTTATGCATTGGTTCAAGAAACCAGCTGTTCAACCT
GCAAGAGAAAAATGTGTTAACGGAGTAATACATACATAGTAGTTTAGATTTTTTTCTTCTAATTGCTTTACTGATGACAATCAAATAAGAATATGCGTAG
AGCTCTTCAGGGTATCAATAAAAACAGATGCAAGTCATGTTCACGTGCAGGTTCAGTTTTAAAGGGAAGAACCGCAGCATACATAGAACAGGAGAGCGGG
ACTGAGCTGTTCTGTACCAAGCTCTTATCTGCCAGACAAGATCTTATCTTACGTATTTATACACAAGCACAGATGTGCATGGTGAAACATGCATTTGTAT
CAATACAGGATAGCACTGGGGAGGACTCCTGATGGGTGGGAGGACTCCTCCAGTACTTGTTCCACTGCAGCCTGCCCTCGGCACAAGCAGCCAGAAAGAT
TCCCTAACAGCAGAGTCATACCTGCCACTCTGTCCCAGCCCCCAGGGCTTCCTTCTCCCTACAGGACCTGGCCAGTCCCTAGGCCCCAGATCCGCCTCTG
ATTCATCTTCCCCACCCAGCTCCAGCTGCATCAGCCCCTGTTTGCTTCTTAGCATGCCGGCAGGCTGGAGCCCAGGGCACAAGTCTCCATGTTTGGCTTG
AACATCAATTTCTCCAGGATGATTTCCCTGATGACTCTGTTTTAAATTTCAGGCCCTCTGTAACCCCTGTCCACACATACACACTAGACCCTATGCTCCC
TTTCCCTATCTCCCTCCCCATCCCTCTTCCCAGTTGGCTTCACCTTTCTGGAATAGAAACTCTATGCAAGCAGGGATTTTCCCCGTGTATCACTTATTAT
TGTATCCCAACAACTAGAGAGTACTTGGCACATAGTAGACGTTCAAACAACGTTCGTTCAATGAATGCATGAATTAAATGTAACTAATCACAATACATTC
ACAGATATATGAAATAATTCACTTACTTATGCAGAAGAATTGGGTAGCTATGGATTTAATTAGTCCTTTCACGTCTTAAGAAGTATTTAATTCATTTACA
AATATAAACAAAGAGCAAATTCTTTACCTCACATGGAATATCCTCTTTTGGACAGCTGGCATCAAATTGGCTCCGTGAACATTAGTCATAACACAATGGT
CATCTTTCTTTATTCATTGGTCATCATTCTAACAGTGTAGAGTCAGAGTCCCTATCTTTCAGATAGGGAGCTGTATTGGTTTTCTACAGGTGCTGTAAAA
AACCTCTACAAACTAAGTAGCTTAGAACCAAAATGTATTGCTGCACAGTTCTGTAGGTCAGAAGTCCAGGCTCACTCAGTTGACTT


SNP Information

Context             (SEQ ID NO:5843):
AATCACTCAGGTCTGCACTAGGAAGCGAGTTATGATGATGCCCCTAATCTATATGAACCCAAATAAAGCCAAAACACACACACCTTTTAAGGATAAAACT
R
TATTCCATTAAAATTAGCCCCGCATTTGTCAATATCTAACAGCATTGGACTGACCCTCAGGCCAGAGGCTGTAGCTCTTGGAAGATCCTAGCCAGGAGGT
Celera SNP ID:            hCV27477790
SNP Position Genomic:     7373
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5844):
TTGTTTCTTGGTCACAGTTGATCCCTCAACTCAAGCATCTCACCCTCAAAATGTTTGTTTGGGACCCAAGAGGCAAACCTTGAGATGGGTTATTTCTTTC
R
CCTTGGATTGGCTCATCTGCTGGGAGTGGAGCCAAGCTGACATTTCCTTTCCTTTTTGTCTGCCTATCACTACGTAGAGGCAGCACATAAGAGAGGGAAA
Celera SNP ID:            hCV29391304
SNP Position Genomic:     12260
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5845):
CTATTCAGTTCACTTCATCTCGGAAATACCTGACCCCTGCCTTGGATCCAGCGGCCCTCCTGAGAGCTGAGGAAGGAGGAAATCCTATGTGTCTGCTCCC
R
GAGCTGCCACAACCCATCTTCCCACAACTCGGAACTTGGAAAAAGGAACCCAGGACACGACTTTGCTTTTCTTTTGGACCTAGTTGGTGATTATACTCTG
Celera SNP ID:            hCV25642709
SNP Position Genomic:     9410
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,36)   caucasian(G,40)   total(A,2|G,76)
SNP Type:                 UTR 3


Context             (SEQ ID NO:5846):
TGGTTTTTACTTGATTTGCTGATGTTTTATTTTTTAGAAAATTGCAGATGTGATTTTTAGGCAGCTGATTGGAATGTTCTGGTTGCTCTGAATAGGACTA
R
CTACTTTGTTTTTTACTGAAGGACAAATATTATTCCTACACACATAAAAAACCTCAAAGAATGAGTAATGATACTGTTTAAATCTGCCCTTATAACTCCA
Celera SNP ID:            hCV992208
SNP Position Genomic:     13722
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:5847):
ACAACATCCATCATATATCTACAAAATTGGGATTTTTTTATCGTAAAATTTCATCTAAAACAAAAAATTCACATCTGTTCTTGGTATCCATTAGGTGTAG
Y
GGACACCTCTAGATATTCTTGATGCCAGCATCCTGTAGACCCGCCATCTCCTTTCCCAGGCCATGGGGTGTTTCTGTTTTCTATTAGACACTGTCTCTTA
Celera SNP ID:            hCV16011810
SNP Position Genomic:     8994
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,-)   JBIC-allele(C,511|T,966)   total(C,511|T,966)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5848):
TTGCCTGATTATGAAGTAATAAATATTCACCATAAATATTTTGAAAAATATAAAACTGTCTATAAAAGAAATTTGAAATGATTGCTAATCTCAAAATATA
A
AGATACCTGTCAGTACTTTGGCATTTTATCCTCCTTGTGGCTGAGGTCACATATCTTGAGACTGAAGCACAAAATTTCTATACCATACAGTTTATAGTTT
Celera SNP ID:            hCV27219450
SNP Position Genomic:     13489
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5849):
CTCTTTCAGGTTCTGCCCTGATGTTTCCTGGAATAATGCTGAGGACTGCCTTTCGGGTAGCCGCCCTATTCAGTTCACTTCATCTCGGAAATACCTGACC
Y
CTGCCTTGGATCCAGCGGCCCTCCTGAGAGCTGAGGAAGGAGGAAATCCTATGTGTCTGCTCCCGGAGCTGCCACAACCCATCTTCCCACAACTCGGAAC
Celera SNP ID:            hCV25642720
SNP Position Genomic:     9345
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:5850):
CCCTAACTTTCAGCTGTGTACTTCTTTTCCTCTTTCAGGTTCTGCCCTGATGTTTCCTGGAATAATGCTGAGGACTGCCTTTCGGGTAGCCGCCCTATTC
M
GTTCACTTCATCTCGGAAATACCTGACCCCTGCCTTGGATCCAGCGGCCCTCCTGAGAGCTGAGGAAGGAGGAAATCCTATGTGTCTGCTCCCGGAGCTG
Celera SNP ID:            hCV25642721
SNP Position Genomic:     9316
SNP Source:               Applera
Population(Allele,Count): african american(A,36|C,2)   caucasian(A,40)   total(A,76|C,2)
SNP Type:                 UTR 3


Context             (SEQ ID NO:5851):
TGCCTGATTATGAAGTAATAAATATTCACCATAAATATTTTGAAAAATATAAAACTGTCTATAAAAGAAATTTGAAATGATTGCTAATCTCAAAATATAA
A
GATACCTGTCAGTACTTTGGCATTTTATCCTCCTTGTGGCTGAGGTCACATATCTTGAGACTGAAGCACAAAATTTCTATACCATACAGTTTATAGTTTA
Celera SNP ID:            hCV11318428
SNP Position Genomic:     13490
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,3)   total(A,3|-,1) 
SNP Type:                 INTRON


Gene Number:                 35
Celera Gene:                 hCG1654256 - 61000125149630
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W6GH(14285202..14310660)
Chromosome:                  Chr15
OMIM number:                 147370
OMIM Information:            INSULIN-LIKE GROWTH FACTOR 1 RECEPTOR;IGF1R


Genomic Sequence (SEQ ID NO:1696):
CTAGCCACATTTCAAGTGCTCCATAGCCACATGTGGCTAGCGGCTCCTGTACTGGACAGGGCATCCACAGAACAGTCCATCATGGTGGAAACTTCCACTG
GACGGTGCTAGACTAGATGGAAGAACGGAACTGTGAGCCTTGGGTATTTACATTTATTTTTAAAGACGTAGGCTGGGCGTGGTGGCTCACGCCTGTAATC
CCAGCACTTTGGAAAGCCGAGGTGGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCCGGCCAACATGGCAAAACCCCGTCTCTACTGAAAATACAA
AAATTAGCCGGGTGTGGTGGCACATGCCTGTAATCTCAGATACTCAGGAAGCTGAGGCAGAAGAATTGCTCGAACCTGGGAGGTGGAGGTTGCAATGAGC
CGAGATCGCACCACTGCACTCCAGCTTGGGCGAAAGGGTGAGACTCTGTCTCAATTAAAAAATAAATAAATAAATAAATAAAGATGTACACAAAACAGTT
TAATTGTGGGGTCACTTTATAGAAGCTTCTTTAAAGCATCAGCTTTCCAACTGCACACAACTGTTTCCCCTAAGCAACTTCCAAGGCACAAACCCAGTAT
ACATTCTCTCCTAAGCATTATCTCAGTTGTACATTCGATTGTAGAATATCTTTCTTCCTTAAAAAAAAAAAATCTCTCACCCAAAACTTAAGAGAAAGGG
GTCATTTACAGGAGAAAGGGCAAATCATTATTTTTAGATGGAAAGACCTCCCTAAGTCAACATTTAAATATTAAAACATGTAGCAGGTAGTACCAAAGGG
TTTCTCCTTCATCACACTTGTATTTCTTTACTGTCGAAATTCTCTGCCCAGGAGTCAGCTCTGTGTGAGCTGAAAGCAAGTGTTCTGTTTGCTATTGCAC
ATCCATTACAAGCACAGTGCCTGCCTGGGACAAAACAGATGCTTAAATTTTTGTGGAATGATTGAATGAAACTTAAGAAGAATGGTATTTTGCTAAAGAA
CAGCAAACATCCTTTTAGAGCCTGGTTCCAATTCTTTATATTTGGATAGCAATCCACCCTTTATTTTCAAATGCAAACTTAAAATAACTTAGCAGACTGA
TTCATGCAAGTATGCATGCTACAGCTCAGTATCTTTAATACTCAGCAAAAGGCATACAGCATCTATGTCACAGTAAAATATGAGCTAACATTTATTGCAG
TTAAACACCAGGCCCAACGCTAAGTGTTTTACATATGCTATTGCATCTGCCCCTCACTCTGATAGTCTCTCTGCTACCAGGAGGAGGAAACCAAAGCTCA
GGGGAAATTAAGTGACTGGCTCAAGCCACAGGGCTAGAGATGTATAGTCAGAAAAGCTCCCCTGGTGAAGACTATGGACGATGCCCGTCATATAGCCTGA
TTGGACAATTCCTGCTTTAATCAGGAAGGCTACGATTGTCCTCGTCTACAAGGACCTGCCTCCAAGGAGGGGCATGGCTCTGGATCTTTGCAGCCCCAGA
GCTTAGTTGAGCACCTGCCCTGCAGGCCTCCCACATATTTTTGTGGAGAAAGACTCAGCAGTCCTAATGGCTTAAGGCTACTCAGACTTGGAGAAGGCCC
CTTCTACAGAAGCAGGCACAGCTCAGCACACCCCGTCTCCCTCTAAACCGAGGCTGCGGGGAAATCACTGTGACCTTGCCACTATACAGCAGCTTCATGC
TTTGGCCACCGTGTTGCAGCCTCTACGGCCACTCTGCTCTAGTAACTGGCCTCCTTCTGCAAACTGACCAGCTGCACCAGCATCACGGGGCTGGCAGCAC
TTCCATTATTCTTTTTCTTGCTATTCAGAATTTCAACCTAATAACTCCACTGTTTTAAAAACACAGTGCTTTAGCAAGAACCTGTTGTGCTCCAAGTACT
GGTCAGACAACTGCCTTTAAGGGGCTCACTTTCCTATTTGGCCCAATTCCCTCAGATTAGGGTTTCCAGAAGTCTGACCTATAAGCATTCATTTTCATAA
AAACCACTACTGACAAAGCAACAGGTTCTAAACGTATACATTAAAGAGCTAATTTTTTGTTGGATCAATATTTGTCAAGGGCTTGCCAAGCGGGGGTACA
AAAGTATAATAAAGGACATCAATCCATGTGGGGGAAAGGTAAACAAATATTAATCAAGTCCCTAGTGATTCTACATAATTCTCTGTAATTCTTTCTGCAG
TCCTATAGCATAGATAACATCTCCATCTATGGATGATAAAAAGCACTGCTTGTAATAACTCACTTCCTAAGTACCTGCAAGGCACGAATTCAGGGCCAGG
CACAGTTAATCCTCATAACTCCCTCAAGGAAAAGGTATTACTACTTCCTTCTCCAGAAAGACAGGCTCGGGGCGTCTGTCTGGGTCCGAGGTGCCCACGC
TGGCTGAGAGCGCTGAAGTGGAGTCAGACACACAGGCCTGCCTGGCTCCACAGACCATGGTGCCATTAAATGAGACTGTCCTCACTCTCATGGGGGGACA
CAGAGAAAGCTCCCCACCCCAACCACAGGAGGAAAAGATGACTGTGGGAGAACACATCACCATACAGCATCAGTGTCCCATTAGCGCGGAAGGCAAGATT
GACAGGAAAAACAAACAAGGAAATAGTACAGTGGGATGCGCAGGGGCTGTATGAAGGTGGTTCTAGAAAATGGGGTGGCCTGGCACAGGGGCAGCCATTC
CAGAACTAGGAAGGCAGGGTAAGGTACTCCACATGTGTTGGGGGGGGCAGGGGTGGAGGGAGTGAGAGGGGAACAAAGACCAAGGCAGGCTAAAGTCAGA
CCGTGTAGAACCCAAAGCCAGGCCAGGGTACTCGTACTGCCTCATGCAGGAAAGGGGGAACCAGAACACTGGGGCAGGGATTAAAGTAGTGATGGGAGAT
TCACTGGGTGTCACTCAAAGCTTGTCTCAAGTCACAGGGCTCTTCTATTCCCCCGACTTATCTGAACAGGAGAAATCCTCTTGGCTCCCAGACCCGCCTG
CCCTGGCATTCTCCCGCAGGGAAACATGCTTTGGTTGTTCAGACGTGACTTACTGGCACTTAGAGGCTGTTGGCATGGAAAAAATGAACAGGCTGACCTG
GCCAGAAAGGAGCAGGTGATGCAGAAACCCAGCAAAAGATGAATTCACCCTGCCACCCTGAGTAAATTACAAAGCTCATATGAAGGGCCGCAGAAGAAAG
AATGGGAGAGATGATTTACCAGACAGAGAAGGGGAAGTCTCAGCCCTAGGCACCTCATGAGCCCAGGAGAGTGCCAGGCAAAATCCCTAAGGCACTTCAC
TGAGTCCTACAACCTCGCATAGACATCACTGTGCTCATCTCAGGCAGGGGACACCCAGGCTCACTGTGGCGAAAGCACCTGGCCCAGATGAGTAAGGGAG
AGAAGCCGGAGCACACATCACTGGAGCACACTTTATTACAGTGTCTTTCTGCCTTCAATCACTTGCCCAGTTTTGTAACTTCATAAGAGAGTCATGATGC
CCAGAACCTCATGGCCCCGGGGCAAAACTCTGCACCAGCTCTGACACTCTCCTTAACCTGCTGTCACCACACGATACACAAGAACCATTCCTCTCAAATC
ACGAAACAAAGGTTAAACATATTCCACCAATAATACCACGATATGCATTAATTCCATCAGTGTGGAAAACTATTCCTTGTGGGAGAGGGCGCACAGACAG
ACAACTGGAAGAGAAAAAAACAGAGAGAAATCCAAGTCAGATGTTGTGCCTAACTTGAGGCAGGACTTTTCCTGGGATTTAAGTAGGTCTGGAGGCTGCT
CTGGCACATCCTGGCCACCCAGGCCACGCCTTACATTTCTATTTGCAATGCACCTTCCCCTCCTCCTCCACTCCCCGCACTTCTCCCCAAGTGCCCCATC
ACTGAAAAAGTTCAGGGGCCGCAGGGGCTGAGACGGGGCGCAGGGCACCGACCCTTTCAAGCGGCCACGGCTTTGCAACATGTTCCTGAAATTCCTACAA
ACCAAAAAGCAATTCAGAATCGCAGGAGGGAGGCTTATCCTCCACTCCGCAAACCAGACCCTCAAGATCATCTTTTTTATGCTGAAAAGGCTTTTCACAA
AATATTCCAAACCATCTTCATAGATTATTTTTCCTTTCTCTTAAAAAACTAAGCAAGACTGGATGTCATTTAGAATACCGACTTCTAAAAAAGGGCATTT
TTGAACTGAATGCCACATGCTGTATTTTGCCATTTTGCCTGCGCTTCCTGCTTGGAGCCTGTGACACAGAGAAGCCTCAGACACTGGAGCTGCTCCGGGC
CACGCAAACTCCGCTCCGCATCTTCCAGGCAGCCCTGTCGCAAATAATTCATGTCCACTACGCCCCTATCACACTGAATACAACCACATTGTACTGCTGG
AAATGGGAAACCTGATTCAGATCACAGGAGAAGGTAGAAAAACATTTGGTTCAACACAATACTGCCCCCCTTCTTTTTTTTAAAGGGAGGAAACATATTT
CAAACCTAGGAATAGGGAAAGGATTCAAGACCCATCGTGGAATAAAACACAGAATTTAAAATAGCATCCGATGTGACCCAAACCAGCAACAATAACGAGA
AAACCACCCAGTCCTTCCAGAGATGCACCTTGTTTCTGCTGCAGTGTTGCTAATCAAAATCGATCTGCCCATCCAAGCAATTTAAAGAGGAAGGGCGGCA
TTTGTAGAAAATGGTACATGTTGATAAAGCATGACCTGTCCCACATGGAGAGCAATAAAAGGAAAACAAGCCTGAGAACAGTATGCTGTGCTCACCAGGA
GATGGAAGAGAAGAAAGCCAGAATAAGGGCAGGGATGCCGGGGGAAGGGAGGACGGGGTGTCAAAGGCCTGCAGGATTTTTGTAAACAGCAGCCCGTAAT
GGCCACGGTGAGAGAGAAGGGAAAACAGACATGGAGGGAAACGTGTTTACAACTGCAGCGACGGCGGGAGGCGGAGGGAGGGATTCCCCGACTCTGCACT
CTGCGCTCGGCCCGCTTCGCTCCGGTGGGGCCCCGGGGCTGGGATGTGTTTTGGCTCCTCCACCCTCCACCCGCTTTCTTAGTGGGGGGAACACATCTTG
TTTATGGGGAAGGTTACTCCTCCTCTGCTCTGGTGATCGCCTCCCTAATACTCCTGCTGCATCCTTGCGGGATGCCCACTTGACTGACAGACACTCCAGC
CAGTCGCTGCCCGGGCCCCGCGGAAAGGTGGAATTTCCCAACGCAGCGATTGGCCGGCGGGGAGGGTGGGCCCTGGTGATTGGCGTGTTATTCGGAGTGG
AAAGTAGTAAACAACCTTGGTCCACGGCGGCGGCGCGGGCGCGGGGTGCCCGCTCCCTCTTCCCTCGCCCGGGGCGGGGTGGGGCGCGCGCGCCAGACAA
AAGGAGCCTCAGCCCCTCGGAGGGGAGAGCAGGAAGGGCGCACACCACAGCCGGCGGAGCGGGCGTCCCCCGGAGCCCCTGCGCCAGAACTGCTGACTTG
CAGCTTCACATCATTTTTGTTCTGTGGAAAACCGCAAAGGTTTTGTTTCCATAATTCGGCTCCTCTTCTTCGTCTTAGGTTTTAGAAAGTCTCCAAAGAG
AATGGCAATTTAGTTCCTCCTCTTTCCTGCCCTCCACCCCAACCCTCCACCTTTTAAGATTAATTTTTAGTTCTGTCTTTGCAGAAGTTGTTTTAAATCC
CTGTACTAAAAATTGTTGCTTTATTCACACAATACGCCATTAAGGGCACACGGGTGAATCAGATGCCCCGTTAGTCCCTTTCCTTGCAAGTTCCTGGAGC
TGTGATCTCACTGGGAGGGGCTGAGTTTGGGAGCAGGCATAAAAAGAAACATGATGATATTAGGCTCACTTGACAAGAAATAAGCAGTTACACCTTGCCT
TTTCCACACAGGATGTAGTTCACCCAGGCTATCATCTGACATTGCTAAGTCCCCTTCTGGTTGGTCTTGACTCACAACCCATTCCTCATTCTGGCCTCTC
CATCCTCACAGGACCCCCAGCCAGGGGAAACTTCCCAGCTTCCAGCGGGAAGTGCYGCTTCCCCAAATTGGGCAGCACCTGGGGATGCCTCTAGATGCAT
AATCACCTCAGAGGTCCTGAGCCAGAGTCCAGAGATTCTTTCTGAGATTCTGGCAAGGCCCCGGGGTACTGATGGAGGACTGGGAAGGTAGGAGAAGGCC
ACGGGGAGGGGGAGGCTGGACACAGGAGGGATCTCCACTTCATTTATGTGCTCTTTGGTGCTTCGCTCTGATGGTAAGTCACGTTGTCACTCTTGGCCAG
ACAGCCAGACTGTCCAAGCTGAAAACGTAAACAAAAGCTCCTTGCAGGAAGCAACAGGGTGCAAACTTGCCACCTGGGGGGCCTCTCTGCCACCCCTTGG
CCARCCCTCTCCTCCAGCATCTGGCCCCACCCCGGCCCTGCCCGCCTGGCATGTAAAGCACCCCCTCCTCTCCAAGCATCCGTTCCTCAGCCGCTGTGTT
CCTGTCGCAGGTCCCTGGATGGGCCACACACAAACCTTCACTCAGCTTATTCTTTCTAGGCCTTACCCTGCCTGCCCGGGAGAGGCCACTGTTCTCCACG
GCTTCCCTTGCCCTGGCCAGCCCACTTCCTGCAGGAGTGCTCCGAAATCGGTTTTGGTAGCACTGTGTTAAGGTTGCAGATGGTGTTTTCAACACTGTAC
TCCGACTCTACTTGCAGGTTTCTCCACCTCAGTAGACCCTGAGCATACCAGGGCAAGGTGTTATATTCTAATTTGTGTCTCCAGTGGAGACACAGGTCCA
CAATATGCACTCAATCAAGTCTTGCCAAACATTTGCAGCACTCAGTTCTCGTCTTGTCCAACACTCACACCTGCTTCTGCTGCCCCCAAGTCAAGTACCC
CTACCTAGTTTCTTGCTAACATGTTAACATGGTACCCCCCCCCACCAAGTGCCAAGCCCTTGTCCATCACTCAGTGATTCCCTGTACACATGCAGTTACT
TGTAACGTATGCTGCTTCCTCTGCCAGTTATGCTTTTCTGACTTCTCTTCTTGGCAAATTCCTATTCTGTCTAAAAATCACTTCTTCCCTTGGCAACATG
CCACAAGTTCCACCTGACTCCTCTGTGCTCCCAGAGCACCTCAGAGAGGCCTCGTTGCAACCTCTGCCATCTTCCGAGGACATGGCTACAGAGCCACAGC
TGGCATGGTTTGCTGGAAGAACCAAGAGCTGAAAGGCAGATTTACCAGGTGGTGCCCCCCCCAGGTGTCTGCAGAACCCACATATTCCAGTCTCCAGACC
ATGGAAGCAGTGCTGTTTCCAGCTTGTCTCTGCCACAGGGTCCTTCTCTGCTCTCTCAGCCTGAAGGCCTCCTCTGTGTCTGTGAGTGGCTGGCTCCTTC
TCAACCTTCATTCAGGTCTCCGCTCAAACACCACCCTCACCACCATGCCCACCTGCCAGCTACTATCMCACAGACCTTCATTTTCTTCATGAGGTGATTC
TGAAGAGAAAATAAGCTTGGGAGCTATCACCCTAACTTACTTATTCCCTCAGTGATGGAATTTGGGGGACATTTTCATCTTTTGCCATTTGAAACACTAC
AATGAACAACTGCACAACTGTCATTTCACATGTGTGCAAGTCTATGGGGTAAATGCCCCCTCTAAGATTGGTGGGTCAAAGAATACGTGTTTATAACCTG
AGAGATATTGCCAAATTCTCCTCTATAGATGTGCTATTCTGCCGTCCTCCCAGCCATGTGGGGTTGTTTTCCAAAGAGTGTGTTATCAAATATTTTGGAT
TTTTTCCAATATGAGAAGTGAAAAAATGGTATCTTGGTGTAGTTTTAATTTGCATTTCTCGTATGAGTGAAATCAAACTTTTTTTCTATGCTTAGCTATT
TGTGTTTCTTCTTCTGTGAGCTATCTGTTCAATACTTCATCCCAAATCCTATTGAACTGTTAGCCTCTTCCTTAACAATTTCTAGGAGCTCTGTTTTACT
TTGTTTTTTTAAACAAGGGAGATTAGCTCTTTGTGATAGAAGTTTCAGATATTTTTCTCAGTTTGGCATCTGTCTTTGCTTATGGTTTTTGGCCATGCAG
AAAGTTTTTTTGTAATTTAAATTCAATTTTTATGAATGTTTTCTTTTCTGGCTTCTGGATTTTGAGTTGAAACTAGAAAGGCTTTCTCTGCTCCAAGGTT
ATAAAAAGGAACTCGCTATGTGTTCTTCCAGGACTTTCATAGTTTTGTTTACACTTTTACCTTGGATTCACTTGGAGTCTAGCCTGGTACATGGTATAAT
GTATGAACCTAATTTACTTTCTTTTCCAGAGAAAAGAAACATGGCATGATTGGGCCATAATTTACATGCCCCAATCCAGTAAATCAAGAGTTTATCTTAG
TCCCAATGATTTGTGAAGCTACCTTTATCGAATAACTAAATTTCCACAGGTACTTGCATCTACATTTGGACTTTCTATTCTGTTCCATTGGTCTGTCTCT
TCATCTATTGGTATCTCACTATTTTAATTATTTAGGCACTATGGAAGTTTTTAATACCTGGTAAGGACTCCTTGCTCTTGTTCAGTTTTTTGTTTGTTTG
TTTTTGTTTTAATGATAACCTCAGAATCTAACTAAAAGAAAAAAATCTGTTGTATTTGGATTTATATTAAATTGAAAAACTTACGGAGAACTGACATCTT
GCCATCTTGCTAATGATGATTATTCCTGTCTAATAAATGTGGTATGTCTTTCCATTTATTCCAGTTGTCTTCTGTATCTTTTAATAGTATGGTTATCTTA
AGGTGTTTTCTCTYTTTATTTTAATTGGATGTAGAATCTTCAGTAATATCATCTAGCAAGTTATTTGCATATTGTACAGTTGTATGATGATAAATTTGTA
TGTTATTTCTGGCAGAAGATGTTCTATTCTGTGCCTTTAGAAGGACACAATGGGATGGGGGGGAATCAAAGGGTGATAGTCTTAACAATAAATAGAGGTT
GAGATCCTAATCAAGAATCAAAGCAATACATTYTGAGTTGGCATTCACAAATGAGTAAGTCAAATGGTGTGGGGCATAATGCTGGGGTGGCCATGGAAGA
ATTCTGCCCAACAGAGGATGATGTTCCTTAAGCTTCCAACACAGCAGGTTCAGAGAGGTTAGGAAAAATAAGCAAGGSAAAGAAACAAGTACTGATCTAA
CAATGACGGAAGCTGACTCCATGCCTTAKTGGATGCTTGCGGAGGATGGCACTATCTTGGCTGGGCTGACTGTATTAGCAATGCATGTATCTAAATCAGC
TCTAAAACCCATAGAGAGACTGGCACTTTAGTGTGAACACGTAAACTGTGGGTGATGGTCTGTATTTCACATAAGTTGTGATCACTGCAAGGCTCTGCTG
GTATTTTACAAGTCAAAAACAAGTTTCCTCTTCCACAGCCATATGTTTGAAAGATATGTCCCTTTAAGAATAATCAAACTCTCACCCAAAACATGTATTT
TTCAAACCTAGAGGTTCCAACTTGAAATACTGGACCACAGGGATACTCAGCTCAGATCCTCTTTCAGAAAGGACTTGCTGTCCAGCTCCAGAGTGTCACT
AGCAGATGCCCTCCAGCTGCTAGCTCTTCTAGGGTCCACTTCAACTTTTGGCCTAGGTCACACTCTTCCTAGGCAGCTCCTGGCCAGTAACTGAGCCCAG
CAATGGTCCCAGGGCCCGGTTATATCCATCTAACAGGGGGCTCTGCAAATGAGCTCCCGGAGGGCTGGCAGAGTGTCTGTCCTATCAGAGTCCTGGTCAA
ACCGCTCCCCACACCCATCATCTTCCTCCTCTCTTCCTTTCATTGGTGTTATCCTCAGTAAACCTTTCACATCCCTAACTTCATCTCAGTATGTCTCCTA
AAAAACTCAAATAGCAATGAAAATGTTTAGCAAATTTTGGGAAAGTAAAGGGGGGAATAAACATTCCCACATAATGTAGATCCAGACGATTCTGGAACTA
GAAGTAGAAAGGCCTCATCACACAAGCCAACTAAAATGCACCTCAAAGGTTAATGTCATCGAATTTCAAAAGTCCTCGAAACTTCCATGGTTATAAACGA
GCATTTCCTGCATGCTGGACTCTTCATCGTTGGTCTGGATTAATCCTCACTTCCATTCTAGGTGGTGGGTACAAGGACTTCCATTTTATAGACAAGGAAA
ACCTGATGTAAGTAAGTGGTAGAAAGCAGATTCAAATGCAGGCAGGACTACCTGGCTCCAAAGCCTTTTCCTTTCCAGATGGTACACTGCCCACATCTCT
TAGTTTATCGGCACAGGGTCAAGAAGGTGGTGAGGGTATGGACTGACAYGGCATCTACGGAGCTTTCCATACTTATACCAAGACGCCCCCCTGTAAAGAG
TGGACTGTCCGGTAGCCGGGCAAGGTGGCTCATACCTTAATCCCAGCACTTTGGGAGTCCAAGGCAGAAGGATCACTTGAGGTCAGGAGTTCGAGACCAG
CCTAGCCAACATGGTAAAACCCTGTCTTTACTAAAAATGCAAATAATAGCCAGGCATGGTGGTACGYGCCTGAAATCCCAGCTACTTGGGAAACTGAGGG
ATGAGAATCACTTGAACCCAGGAGGTAGAGGTTGCAGTGAGCCGAGATCATGCTACTGCACTCTGACCTGGGTGAGGGAGTGAGAATTTGTGTCCAAAAA
AAAGAAAAAGAGTGAACTGTTCCGCCTTTGTCTGATGAAGGAATATAATAATTGGCAGCCATACACTATATTCCCGGGTCAAGGAATTCCTGGGTCATTT
TCAGCAAGCCTAAAACAAGGTGTTCACACATTTATTTAAAAATATCCCAACAAAGTGTTGCAAAATTTCCCTTGATTGCAATGATTCTTTAAGCTGTTAA
CATTAATCTTGGGTGGATGCAGGAGYTGTCCACTGGCTTTCCAAAAGGCATCCAATGCCTTTAAGGCAGCATAAGAGAAACACTGCCCCTCTCGATGAAC
TGGGTCCCTGAGTCTGGCAGTACTGCCCTGTTCTCCACTGTGTCACCTATACAGGGACCCCTGAGAAGACCAGTGTGCATGAACCAGAGACTGGACAGTG
CCTCTGTTACCATCACCGTGTGGTATCATGAAGAGGTAACCATCCCGAAGTCACCCAACTTGTCAGCAGAACTACTGGGAAAAGAGCTTAACTTTTCCTG
TACTTAAATTCTTCCATATGTAGTTGGAGTTACAGGCCCCAAAGTAAAGACCTATTAAGCTTGCCTATATTGCTCCTAAATTCTCTACTCGTCTGTTCAT
TATTTCCAAATTTAATAAGGCCATACTGTTGTGTCTTCATCCTGGTCAATGCATCCAATGATACCTTGATAACTTTATCAGAGCAGTAGCTAGCAGAAGC
ACAGAGGCACGGAGGATGTTAAAACTGCTCAACACCACGGTACAAATGCATTGTCAGCTTATGTAGGAGTCTGCTTTTTATGCAGGCTTATGCAACTGGT
GTAATTTTAAAATTTTATAAGCCATTTGAAAGAGCAACTTTGATATTAATGAAATGGGGAGAAATGTATATACAGTCAAAGAAAAGTGTCTTTCCTTTAG
CTGATGTCAGAGACTCCCTAGAAATGAAAAATTATTACTGTCTTTTAGAAAAACAAAGGTTAAATGGAAATAGCACTGGCAGGAGTCATATCACAACAGC
AAAATATAACAGGGCCAGGCAAACCAAGGATATTGTTGCAAATGCAGAGCCTTGATCAGGCTCATATCTCGAACCTTTTATTTTGTAAAGCTGCCAATTT
TATAGCACAAAAATTTTAGTTAGGGCACCTTTAAGATTCACTGCATCTACTATGAGAAGAGAGAATGTCTTAGAAGAGTTTTTAAAAATACTACTTTGAA
ACACTTATGGGCAAACAAGAATTGGAACACTAATCACTGTAATTTCCCCACCAGGATCACTAGGTAAGACATTCAGAGAACTGGTGGAAGCAAGTGATGA
TTCAGATGCAGTAGTAGAACAGAAGATTGCCAATCAACTGCAAACAAAGTGCCGCACAGGCCCATCTCAACTGACAGCAATGGTAGAGAGAGAAGAGAGA
AAGAAGAGAGAGAAGAGAAACGAGAGAAGAGGAGAGAGGAGGGGGAGGAGGAGGAAGGAGGGGGAGGAGGAAGGAGGAGGAGGGAGGAGGAGAAGGAAGG
AGGAGGAGGGAGGAGGAGGGGGCAGGAGAAGGAAGGAGGGGAGGAGGAGGAGGGAGGGGAGGAAGAGGGAGGGGGAGGAGGAGGGAGGCGAGGAGGAGGG
AGGGGAGGAGGAGGAGAGAGAAGAATATGAGAAGGGAAGTTGGGAGAGACACAGCCCGACTGACTCAGATTCCAAATTACATATGCACAAAGCCCCTCAA
AGGTTATCATGCCCTATCTGATCCAGGGTAAATGAAAACTAAATACTGAGGCGCAATTCACAAGGAAAGTCAGAGTGTCTACACTGTTAACAACATACAT
TGAATAAAGTATTAGAAACATATTTACTCTTCTCCCTACTCTCGGTGCTACTGACCGTCTACTGAATACAAGGTACAAGAAGAGTTTGCTAAGTTTTGGG
TACTGCCCAGGTCGTTCCACGGCTAACAAGGCAAAAACACTCATGTAAACTCCTTGGTGGGCCTGGTATGTTGTGTGTGGAGAGGGTGCCTGATGATGTC
TTTGAACTTCACTTTTTGGTTTCTCAGCTATCTCAGAGGTCTGGCTGTAGAATTACTAATATTTTAAACAATGCAAATGTAATTATAGTTGAAGCATACT
CTTTAACAGAAGGAGGGAAAGATTGGCATTTAGAAGCTTCATTCAACTTTTGGCCTTTTCAAGGCTAAATGAATCTTAGGGAAGAAATAAAAAGTTCCCA
TTGATTCACTTAAAAAAAGATTKCTTGCAATTAACAGATCTAAATCTATGAAAAAGGGAGCATTTATGGTAATTTCCATAATCTCTCACTTTCTCTAGAC
ATTTCAAATCAAATTGTAATAATTATAAAATCCCTCCTTCTCTCTAAATACACACACACACACACACACACAAATATAGTTAATCAGCAAAACTTTTTCT
GATCTCAAGGAAATGTCAGTTACATTTACACAAGCCTAACTAGTTTAAGCAATTTATTTGTAAGTAGACATGCCTCCTAGATTAGGAAAAAAGTGTATTT
AGCTGTATGGCATGACACGCCCCCTACCCCAAACCGTAAATAGTTTTTTTGGCAGGGAGTCAGCAGAAGAGCTATAAAAACATCTTCAGGGTATAGAAAG
ATGTTCAGGACTTAGAATATACCTTTTCTCATGGTTCTCTTATCCCAACGTATAAATTGTGACAATTTGTTTAAAAGATTGAACTAAAYTATGATATTCT
CTTTGTCTTCCAAATTTATTTAGACTTGGTATCCTGTTCTTTCTCTGGAATTTCCTTTGCTTTTCTTTTTGTCAGTAAGCTAAATTACTTCTCCTCCCAC
ATGCATAAAAGCATTAATTTATAAAACACATAGCCATATGTCATATCTCATGTAATTCTATTTTACATTCCACTGCCGCCCAGACTTATCTAACATGAAC
AAATAGATATTATTTACTGTAGTCAGAATGAGAATTATCTAATGCCACTTACATAGCCATAAATTGATTTTTGATTAATGTTTAAGCAAAAAGCAAACAA
GCCCATCTGCTCTGAAAACAAACAAACAAAAGGAAGCAGCAAACGCATAGTTCACAGGAATTTCTGCAGTATTACTATGTTTCAGCGGCTGGTGAGGATG
GAATTTTTTCATTGCTATCGTGAAAATATACTGCTTGACAAGAAGAGAACTGCATATATAGATGCAGCTTCTTCTCTAGCAACTGTTAATTTAATAGACT
ACTACTTATGGTGAAACAAAAAACAATCCCACTCTGAAGAAAGCACTGAAGACCTATAACCAGYGGTGAATTTCTTCCGTATTGCTCAGTGGAAACAAAA
GAAAGCTCAAATGGGTGAGTTTTTCTTCTTTCAGGGTTGCTTTCTCTATGGATCAAGGTAAGAAGGAAGAAAAGCTAGGTCTCCTATCTATCTCACACAG
CAGATTTTAAAATATTTTWAAAATATTTTAAATACTTTCAATTTTTTAATATTTTAAAAACTTTTAAAACTAACTACTGTATCGTGTACCTATGAAATTT
CGTTTTCAGTGCAATTCAAAATTGCTAAGACAAACCAATAAGAGAAGTAGAAACACGACCAGAAGGCCCTGTCCTGTTTATTGGTATCATCTCTGAGGCT
TCCTCAGTATCTCGCACAGTATCTGTCAGTTGACAGCTCTAATCCGTTTAGAGTTAATTTGTTCTGCGTCTATTATGCAGGTAAGAGAAAAAAACTGCTG
CATTAGGTGGGAATTTCACTAATACCAATGAATTCCCAATATTCTAACTTTCTGGGGAAAAAAGATGCCAAAAAGAGTGAATGCATTTTCAACAAAAACA
GCATGTTAGGATTGTAGCACAGCAGGTTGAAGGATGAAAGAATGGTAAGAGCAATTTCACAGCAACCAAAATGACACAAGGACACACATGCCGGTGAGCA
AACAAGAGGCACAACTTAATGACGCAAGAGGAAGCAGTTTGACTTGCAACTTTCAAAATTAAATTCTAACCGTGGTAATATAAAGACAGCTTTACATCCC
ATTCACCACGTTACACATATTGCCATTTATTTGCTAACAGCAAAAATTCAAATGAGTGTACTTGAGTCTCTAAATATTTTCTACAAACGCTCACCCCCAG
ACTAAGATAGACACTGCCAAAGTGAACGAGTCACTGCATGGCTAGATTTCCATGTTGAAAATCTTAGGCTCATAGCAGAATACTTGCACAAATCCTACTG
CATCTCCTTAAAAATCACTCTACAAGTTGCATCCTAAGAGTTCTTGTCAAAATTGTTCTTTAAAGCATTACACACATATGCACACTGGCCTAGAGAACAA
GGATCTTTGTCTTTCTTTGCCAAAAGACAGTGTTTCCCCAGGCCTGTTTTAGCCTTCGACTGATGGTTCTGATTTTGGTTCAGAAAAATAATTGCATGAC
TGTCCTAAAGTGGAAAGAGAAAAACCTCAAAAATTGTTAACACATCAATTACATCAACCTTTTCTAATTACAACTCTGCATTTCATTATTCTGCAGGCAA
AATGAGTACCTTAAGTCTAGAGCCCCAGGTAAACAAAGCCTTTCCCTGTCCTCATTTCAAAACTTTGTTTTTATAAACATTCCCCGTCCCCTAAACTGAA
CTACAGCAGCACAATGATCCTGTTGTGAGCACTGCCTTGACCTCTATAGGACAACAGATTGTTGTTCACTTAGCCCCTCAGAGTTAAATCAGTTTTAATA
CAGAAGTTTCTGTCTTATCAAAGGAAGTAAAGAAGTAAAAACAAAAAATGAACGTATACAAGCACAGATTTTTGAGCTTCGATTGTAGAGAAATGGTAGT
TATGTGGCTTGCCAAGAAAGTGCATCACCTACTTCTGCTTCTGGGGACAGAGGTGAAGGGGTCTGTTCTGGAACTTTCTAAGGAGGCCATCTTCGTTATT
ACATCAGGGAAGTTTCTAGTCAAAATGTTATTCCTGTCTACAGGGAAAAACAAAAGCAAAACACAAAAGAACACTGCTTCTAATGGCATCATAGCAAGSA
GTTTATCTAGAAAGATGATGCCAGCAGTCACCTCTTTTCCAGGAAGACAGAAACAAAAACCGTTCTCCTCGAGAGGCCAACAGTGTAGAAGCCCCTTTTC
CAGAACTTTCCAAGGAGTAGGTGAACTTCTTTGTAAGTGTATCAGCACAGGGGAGAGTGGTGCTCCATGTTCCAAGGAAGAAAAGCAACCCACAGCTCCT
CCTGCCCGTGCAGCAGATGACCAGAAAGACGAGAAAGGGAAACAAACTCCCAYTCATGGTGAGGCTGCTTGTTTCTCAAACACACTTTTCCAATGCCTCC
ACAAGTTGYTTGTTTCTGTATTTTGAAAGCACTCAACATGCAGAGTATTTGCTAACCACAGGCAGAGTACCCAGTCAGGATGTACCAACTCAAACTCCTC
CCTGGGGCAGGCAAGGATAAACAGGGAACAGGTAAGAGAGGCCTAAAAAGCCAGGTGGACAGAGACCACATGTGACCCCAAACAGAAACAGGCTGCTGGA
AACTAACTCTCTCTCTCTCTAGCTGATACTTATTCARCACTTACTGTATGTCAGGTACTATYCTAAAAACTTTACGTATAGTAACTCAGTTTTCACACAG
ATGCAATTATTTTCCATACTTTAGAGATGAGAACATTGAGGCATAGAGAGGTTAAGTAATTTGACCAAGGAAGCACAGCCAGTAAATGGCAGGCCAAGGA
TTTGAACCCAATCAGTATTTTTTTTTGTAGCTCATCTCCATGGAGTTAGTTGGAGTCTCATCAGCACTTCCTCGTACAGGGCTCCATTTTACTGATTTCT
ATCAACCACAGGACATACTTTTCTTTTTTCTTCGTACCCTGAAGAAGAAATGCACTAGGTAACTTCAATATGATGGCAGTAAGATTGTTTTTCAACACAT
ACACACACACTTTCAAAAAAAACTTAGAGACCAGATGCGGTGGCTCACGCCTGTAATTCCAGCACTTCGGGAGGCTACAAGCGAAAGGAAGTCAAGACCA
GCCTGGACGGCCAGGCGCAGTGTCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTG
GCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAGTTAGCCAGGCGTGGTGGCACGCAGCTGTAATCCCAGCTAGTCTACTCGGGAGGTTGAGG
CAGGAGAATTGCTGGAACCTGGGAGGGAGAGGCTGCAGTGAGCTGAGATTGCACCACTGCACTCCAACCTCGGTGACAGAGCAAGACTCCACCTCAAAAA
AAAAAAAAAAACAAAACAAAAAACAAAAACCCCGCCTGGACAACAAAATGAGACCCCATCTCTATAAATAATTAGCCAGTTGTGGTGGCATACACCTGTA
GTCCCCAGCCACTTGGGAGGCTGAGGCAGGAGGACTGCATGAACCCAGGAGTTGGAGGTTGCAGTGAGCCACGACTGCACTACTGCGCTCCAGCCGGGGT
GACAGAGTGAGACTCCATCTTAACAACTTAATGGTAAAGCAGGCCTCCAGTACACTTTCTCCTCCCTGTCTTTTCTTCTTTTCTGAAGATTACTACTTAC
TCACCGTTCCCCATTGGTTTAGATGATAACAGAAGAAACAGGACACTATAAAAACCTTATTTTGCACCACAGAAAGCAAGATGTGAAGGCAGTCAGGTTT
GATAACAGTGCGCACTGTTTTTGCAGTATCTTTCATCACGAGGCTCTCACATCATGTGCTCTGAGCTCATGTAACACACTCTGCTGGAATGCCCCCATTC
AAGAGGGGAGAGAGTCCGTGACAGTCCTCCCTGCACTCACTGTGCTAGCAAAGATGTCCGGGAAGGACAGAAAAGAATGTAATGTGCAATTAAAACAAGG
GAGAGTGATTAATGTAGGCAAAAATTAATCACAAGGGCAGTGTCAAAGTTTGGTGGGACAACTGCGTGTTCAGAAGACACCTGAAAAAAGTAATCCCATG
ATAAATAACATGGTAAAAAGCTTAGATTGTGCCATTAAGTTTTCTTAATATTATGGATAAAATGACAACAGGCAAATTATTTTCTTTCCCAGGTGAAATG
AAGAACCAAGGATCATCTGAGCAAAGACTCAAGGACCATTTGAACAAAGACATCCACATCTATACCACAGATGACTTGGCATCTATGGAGGAGTGGAGGT
GAGCACCACTCTACCATGTAGRGGAAGCAGCCACTGTGGAGGCTGGGCTTGTGGAGATTCCTTCTGGATGCCCTCAGATCTGTCATTAATGGGGACAAAG
CAGAATCAAGGGACTGCTCTATCTCATCTACCACTACCAGCTCCACCATCCAGGGTACTGTTCTTGCCACTGCATCTAGAAAGAAGAGGAATGCAATCTT
GCAGTTAGAAAAGGCTGTCTCGCTGAATATTTATTCTCATTCCTCTACCCAAAACTAATGAAAATGTGAAGTCTGAGTGGTGTCTGAACCTAATATTTTC
GTGTCCGAGGCACACAAGGTTGAGCTGCCACTTCTAGCCATCTGAACCACCCAGTGTGAGCATATATGTGGCTGGGAGGGTGGGTGGTGATGGTGGTGGT
AGGGAGGTGGGGGAGACTTCTAATGAGAGGCAGTAGAGAGTAGGGTCTAAGAGTAGGTACTCTAGAGTCACACTGATTTCGGTTCAAACCCCAGGTCTGC
CATTTACTAGCTGCACTTCCTTGGCCAAATTACTTAACCTTTCTGTGCCTCAATTTTTTGTCTCTAAAGTGGGGATAAATAGTTGTATCTGTGGGACAAC
TGAGTATATGGCAAGTGTTTAGAATAGTACCTGGCATAGAGTAAGGGCTGAATGAGTGTCAGCTCCAGCTGTCATCTAGGTGTAAGCTCACTGGCAGCAG
GTGCAAGATTCTTTTGGATGGCTAACAAGCTACAGCTTTGGCTGACAGTGCTGTTTGTGAAACCCAGTGGCCTCTTCACTCCATAGTCAGCCTTCCAGTG
CTCCTGCCCTTGGTGGCCTTGGCAGGAGCCTGGGGTTGAGTGGGGACTCAGACAACTGAAGCTCTCCCAGCAAAAGCAGGATCCCCACGTCTCCCACTGA
CACTAAAAAACAAATTCTTGAATTTTTCCCGGGTCTGCTGAGTGATCACAAGAGGACAGCTGGGGCTGGATGACAGAGCCTCAGCAGTGACAGGGAAGCC
TGCTTACTTCCCTCATGCTCAGAGTGCCTTTTGGCCACGGGCTTATTTCAGCTGTCTTKTGTTCCATTTCTGAGGCTCTAAAGGGATGCTCTGGGAACTG
GGATCTAGGAATAAATCAAGATGAGTGGGGCAAGGTTAATACCCTGATTAGATCAGCCTGGCCCAACGCCCTTTGACCTTAGAGTACTGGAAAAGTCTTG
ACAGGCAAGGGCATGAAAAGGTCATGTGCTCCAGGGGCACTGTCTTCAAAGAGGAGCCTTCCTGGGGTAAACAGGCGCATCTACCTTCTCAATAACAGGT
TCAAAATTCAAGAAAGCAAACAGCATTCCCTAACTATCAATATTCCACTAAGTCCTAGAATAGTTTTAGTTTTTAACATCCCAGATAGCATTTTCAATTG
TAATGCCTGGAATGAGAGGCAGAGGATCTTCAGGGTCACGTGCTATTTTTTATGGGTTTACATGAAGGATGCAGATGTCATTTTAATTTTTATCTTTCTA
AACATAGTTTGGCCACCATCCCTGCTGAAGACCACAGTGAGTCCAAAGAACATGGTTAACTGAAATACACAGATAATCACAGAAATTACTTTTAGGCAAT
GATGTCAACTTTGTCCCACTGATGGAAGAAAATAAAAAAGCTGAAATTAGAAAATCTAAGTTTTTTCTCATAAAGGTGAACCCCAAACCTGTCCAATAAT
ACTCTACTAAATAAAGTCTGTTAGTAAAGAAGGGATGAAAAAAATCAGTACCTAAAAGACTCTCAGGCCGTGAAAATGATTTTGTAAATTCTCAAATGGG
CTTTGCAAGCCAACAGATCCAAATCACAACTGTGGTCAAGGCATTCTGCAGAGTCTCAATGCTAGGTGAAGAAGGCATCTTGGGAACCAGCAGACTGCCA
CTCTCTCAACATTGAAAAGATATCTCCATTCTTTGAAAGTCACTTTCAGCCACCCAGAAAGTTACCTGGAGAAAAGTATGGTGAATGAAACTGTTTAGAG
TTTGAGAAGGAGCAGGTCTTTCCTATGTAAAAATTCCAATGAATAAATGACAATAAGATAGAAAATTGCCATTAAAGCATGGCAGTAATAATTATTGTAG
ATAAGCTCCACCAAAGCATGACAAGATCAGTGAGTGACAATGTGATGAGAAACAGGACCTTGGCCAGTTGTGGTTGGGAGGCTGAGGTGGGAGGCCAGGA
GTTCGAGACCAGACTGGGCAACATAGTGAGTTTCTACAAAAAATTTAAAAATTGGTGAAGGCCAGGCATGGTAGCTCATGCCTGTAATCCCAGCACTCTG
GGAGGCCGAGGTGGGCGGTCAGGAGATCAAGACCAACCTGGCCAACATGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGC
CTGCCTGTAATCCCAGCTACTTGGGAGGAGGCTGAGGCAGGAGAACTGCTTGAACCAGGGAGTTGGAGGTTGCAGTGAGCCGAGATTGCGCCACTGCACT
CCAGTCTGGCGACTGAGCGAGATTCTGCCCAAACAAAAAAACAAACAAACAAAACTGGTGGGGCACTAATTAGTGATGGTGCACACTAGCTACTTGGGAA
ACTGAGATGGGAGGATTGCTCAAACCCAGAAGTCTGAGGCTGCACTCCCCTGCCTGGGCAACAGAGCAAGACTGTCTCAAAAAAAGAAAAAAGAAAAGAA
ATATGAAAAAAGAGAAACGAGACATCTGCATACTGTGAGTATCAGCCCTAAGATATCAGTAACAATGCGAAAAGCAGAAAATTTACACTGGAGAAACCTG
GCAGGCACCACCTCAATCAAGTGTTCAAGGCTAAGAGATCATCAGTGGTAAGATGCTGACATCACACAGATGTGACGCACTGAGATGCAATGTCAATCTT
GTAGTAGTCTTCCCCAAAATGTATAAAAATGAGTTTAATGATGAGAAACATTAGAACCAATTTGGAGCATTCTATGCAACAACCTGTCCATACTATTCAA
AAATATCAAGGTCATGAAAAACAAGCAAAGATAGACACATTTTTACAGACTGGAGAAGACTAGATATAGTAAGTAAACACAATGAAGGATGTTGGGACTG
AAAAAGGATATTAGTGGGAAAACTGGTGAAATTCAAATAGTCCATGGTTAACAGTATTGTGTCATTGTTAATTTCTTGGCTGTGAGAATTGGTGTATAGA
TTATGTAAAATGCTAACGTTAGGGAAAACTGGGTGATATTTTACAAACTTTTTTTTTTTTTTTTTTTAAAGAGACAGGGTCTTAATCTGTCTCCAAGACT
GTTGTGCAGTGGCATGATCATAGTTCACTGCAGCCTGGAACTCCTGGCTCATGCGATCCTCCCACCTCAGCCTCCCAAGTAGCTGAGACTACAGCCACGT
GCCACCACTGCTGGCTACTTAATTTCTTTTTTTTTGTAGAGATAGTCTCACAGCTTGGTCTCAAACTCCTGGCTTTAAGAGATTTGTCTTGGTTTCCCAG
AGCACTGGGATTATAGGTATAAGCCACCATGCCTGGATGCTTTTTCAACTTTTTTGTAAGTCTAAAATTATTTCAAAATAAAAAGCTGAGAGAGAGAGAA
AAAAAAAAATCAGTTCAGTTTCTCCCCGGCCAGTGGGGTCATCCTCACTACAAAGTTGCTGGTTTGGGCTCTAGCTCTGCGGATTTTCCTCACTGGACGA
ATTTCATAATTGTCGCTACCACTGATATTACACAATTGAGATTCTAACTGAATGGAGAGTGATGGAAGAACATGAATGAAGAAGTCATGCTGACATTGGG
GAAAGAGAACTTACTGAAAATTTTTAAAATGTTAAATATTTTACATTATCTTCACAATCCCTGTACCCCCAACACCTTCCACAGCAAATCTCCCTCAACA
ATACTTCAGTAATCTGGCTAGAGCCCAAAACAAATACTTCTTATTCAGAACTTGGCTTTGAAGAAAATGCAGCCCTAACAAAATTTTAAGTAAGTTACTG
AAGGATGCAGAGGCTTCATTTTACAGGAGTTAGTTCCAGAGGTGATTTTGGGACCAGCATTATTCCCAGACCCCAACCACATCTAAAGCTGCCAGGAGGG
TCTGGCTTTTGATTCCTCTGTGACTCCTTTCCAGACTAAATCAATGTCACTTGGTTCCAACAACTGCAGCTCTTCCCTACTCTTTGACCTGCTGTGCCTA
AAATTTAACTTTCCCAAATTGAGGAGGGTTCATCCTCCTTGCCTGGGTCAATCCTTGGGGTGGACAAAAGGTATTAAGACAACTATGGAAGCCTATCCAC
TCTGTCGAGAGAAACAATTACTCCTAAAGAAAATCTCTACTTAAAGCCACGATTAAAGTCACTCTCCTCTTCATCCCTCAACAACTTGCTTTGAAAGGGT
AAGAAGGGAAAGAAGATGAGTGCTTCCACTTCGCTGGTAGGGGTGAATGGTAGGTAGTCCTATCTGCACTCTTTCCATCTAGTCCCCTACACATAATAGC
AACAAGTGTGCTAGTTGTATGCTACAGTTGTTGTAGCCTCTTAGCAGAGCCTTCAAATCCTGGTGTGTGGGTGTAGGTCTGTGTGGGAAGGTGTGTGGGT
GTAGGTTTGTGTGGGAAGGTGTGTGGGTGTAGGGGTGGGTGTGTGTGGGTGTAGGGGTGGGTGTGTGTGGGTGTAGGGGTGTGTGTGTGTGTGTGTGTGT
GTGTGTGTAGGGGGGGTGTTCTCTTGCCCTGGCCACCTAAAAAGCCTAAGTTACTACTGACAAAGGATCCTATTCCTTTTCACTCAATATAAGCCTATAA
GACATCTCAACACTCGCCATCTTACAAACATAGAGAAGCATCTGGGTGTCTGGGCGTGCCCTGGACCCACAAAAATCCCTAACCAAAACTGTTAGCTCTG
ACAACGGTTTAAGCAGAAGTAATAGCATATACCTCTGAAGGCAGAGGTTTGGTTTTTATTGCTAGGTTTACTCCTGCTCGTTTATAAGGATGCCCTAAAT
GCCATCTCCCAATGAAAACCCTTCCATGTCCAGGGGCAAAGGATGCTCTGGACCCTCAATGCTTGAGCCTACTGAACCATCCAGGACCACTTCGCTTGGC
TCGTCTAGTGATGCAGAGCTGTTACATGGTTCTGCAAAGGATTCTCAGAGAGATTCCCACCTCACAGTCACTGCTTTGCTTTCAGATATTTCTGGTAACC
CCCAGAGTTCAGTGTCTTTCTAGCTTGATTTGTCCCAACAGAATGGAGCCTTATTGAACCTATGGATCAATTCTGGTGAAATGTCAAATAAGGCAAAATA
AAACAGAAGTAAGTGTGAAGGCAAGAGTTTTTACCAGAATCTGACCCTTTTGTGAGATAACTCACGTGACGGAAAGCTCTGATGATATTGCTGAAGCTGG
AGTGTTTAATGACCTCCATTTTCTCAAGAGCATTTTCCCTGTAAACAAAGATGACAACTGTTACAGCCAGAGAAAGTGACAGCTTCTGAGGTTTCCACCA
TAAACACTTGCTGAGGCTCCACTGATGCCAGGCACCATGGTGATGCTGGTGATCTAAAGACAAGAGTCAGGCTTAAAAGCTTTGCAAACTCTTTCCCAAA
AAAGGTACAGTCTAGGCAAAGTTCAAGCTGTAAACTTGTAACTTCAACATCAGCTGTTACATGCTCCAGCAATAGAATGGATTAATTTCTTGGGGACAGA
GGAGAGGATATTAAGGGTAAAGAAGGATTTTAATTAGGAGATGACATCTGGCAAGTCCTCATAAACCCAGCAGCACAGAGCTGGCCACATAAATCAAACC
CTTGTATTCAGGGTCCATACTATTACTCAACAAGGGTAATTCGAGTAATTACCAGAGTTATCATGATCCAACACATAAGTTCATTTGAGGACCCTGACTA
TGCAAGCATGAATATTTTTTTGGCTGCCTCTAGATAGCATGTTTATGAAAAACAGGTTAAGTTACTGGCTCCAAATTACTTTTTAATAAAAAAAGCAAAC
AATAAAAGCTTAAGCTTTTAAGATTTTTCTTTTTTGTTTTTAACCTGGAAAATAAATCTCCCTGTCAAAAACATGCAAAATGAATGATTTATGTGATATA
AGCTTGGGTATCTGTGTTATTATTACATGACATTTCCTAACAGCTTATAATTGCCTTAAAGATTGTTTTGGAAAGGTTATACCTTCTCCCTATTCCCATT
CCCTTTAAATAAACCCTTGTGTAATCTCTGGAAATTTTTAGACTACAACTATCAATGGGCCATTCAAAAATGGAGCCATTGTCAAGTCACCCACATGAAA
TAGTGAAGGTTTACAACCAAAAGAGAATCGCTCACTTCCACAAAATAGCTGATGGAAATACTGTGCTCCGGGGGCTTACGTGGAACAAACATTAGGAAGG
TGTCTACCTGCAAACCCGCTCTAAGGCTGGACCAAACCAGGGGGTCCAGGTCAATCACAAGTACTGAATCAACCAGGAAAGTCCACAGAATACTGAGAGC
CATCAATGACACCACTTTAGAATTTAACTGTTCCAAACCCTTTGTTTGGCAGATGGGGAAAGGAGAGGTAGAGGGAGATCAGAAGAGTCAATACAAGAAT
CTTGGCTGATTGGCTGGTTTTTCTAATATGGTTCATTCACCACATCATGTTATTCTATTGAAGTTCAGGAGAGGGTACCAGGGGATACCTCAACCCAAAA
TGACTTCTTCACAGTTTTAAGTCTAGGGGGAAAGGCCCATAATGTAGTCCTCACCACTTTTTCCTAGGAATGGCTAGCATCAGACATGACCTAAATCTGT
AGAGCTAGTTCAACATTCAGGTTACCAAACAAAGTCATGAAAGAATGTAATTACTATCACAGACATAGACTGTCTAGGTTCTAAAGCAATTAAGCTGGTA
ACGTACTATTTACAATAAAAAAATTGGTTTCACAAACCTGTAACAGAGACCAGGTAAATGTGCCAGAAATTGTATAAACCATGGCATACCTTGTATCAAT
TTTTATGTAGACACAGCAAGCAAACACAGTTTTGGAAGATAATTCCTATATTCCAACTTAGCATAAGGTAATTAACTGTGTCTTAAAAGAGGAAAAGAAA
GGAGCCTAGAGCTTTATTAGGTGTCCCACCTAACTTAAATTTGTTTTTCTAGAAAAAAACCATGCACTCAAGAAAGGCAATCAAGATCTACATACTTAAT
TCACATTCACAGAAACTTGTGAATATATCTGTAAAAGGATTATCATTAATCCTTCAAGCTCCTAGAGTAGGAATACAATACCCGGGCAGTGGTTCAAGAA
ATCTAACTCGTGAGAAGGTTACACATCTCAGGGGTAATCTAATAATGTAAACTTTTACAAACTTTCCTTCCTGGTCTCTTGCCTTCAGTAGGTCATTCAT
TTAAAAACATAATGAGCTCCTGGAATATGCTGGGGACCCTGTGGGGAATAAGGCACTTGTGATTCCTGCACCCAAGAGTGTAGCTGGGGCTACAGGAATG
TTTTAAGACACCTCTTAACTGTTTAACCGCTAGTGTTTTAAGACATAATTCCTGCCCT


SNP Information

Context             (SEQ ID NO:5852):
GTTTTTCTTCTTTCAGGGTTGCTTTCTCTATGGATCAAGGTAAGAAGGAAGAAAAGCTAGGTCTCCTATCTATCTCACACAGCAGATTTTAAAATATTTT
W
AAAATATTTTAAATACTTTCAATTTTTTAATATTTTAAAAACTTTTAAAACTAACTACTGTATCGTGTACCTATGAAATTTCGTTTTCAGTGCAATTCAA
Celera SNP ID:            hCV25748001
SNP Position Genomic:     14119
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:5853):
CCTCCTCTGTGTCTGTGAGTGGCTGGCTCCTTCTCAACCTTCATTCAGGTCTCCGCTCAAACACCACCCTCACCACCATGCCCACCTGCCAGCTACTATC
M
CACAGACCTTCATTTTCTTCATGAGGTGATTCTGAAGAGAAAATAAGCTTGGGAGCTATCACCCTAACTTACTTATTCCCTCAGTGATGGAATTTGGGGG
Celera SNP ID:            hCV29314538
SNP Position Genomic:     7468
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5854):
GCCAGACTGTCCAAGCTGAAAACGTAAACAAAAGCTCCTTGCAGGAAGCAACAGGGTGCAAACTTGCCACCTGGGGGGCCTCTCTGCCACCCCTTGGCCA
R
CCCTCTCCTCCAGCATCTGGCCCCACCCCGGCCCTGCCCGCCTGGCATGTAAAGCACCCCCTCCTCTCCAAGCATCCGTTCCTCAGCCGCTGTGTTCCTG
Celera SNP ID:            hCV29314539
SNP Position Genomic:     6404
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5855):
TAAGCTTCCAACACAGCAGGTTCAGAGAGGTTAGGAAAAATAAGCAAGGGAAAGAAACAAGTACTGATCTAACAATGACGGAAGCTGACTCCATGCCTTA
K
TGGATGCTTGCGGAGGATGGCACTATCTTGGCTGGGCTGACTGTATTAGCAATGCATGTATCTAAATCAGCTCTAAAACCCATAGAGAGACTGGCACTTT
Celera SNP ID:            hCV1599486
SNP Position Genomic:     9229
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,12)   total(G,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5856):
TCTGGTTGGTCTTGACTCACAACCCATTCCTCATTCTGGCCTCTCCATCCTCACAGGACCCCCAGCCAGGGGAAACTTCCCAGCTTCCAGCGGGAAGTGC
Y
GCTTCCCCAAATTGGGCAGCACCTGGGGATGCCTCTAGATGCATAATCACCTCAGAGGTCCTGAGCCAGAGTCCAGAGATTCTTTCTGAGATTCTGGCAA
Celera SNP ID:            hCV25744540
SNP Position Genomic:     6056
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,23)   caucasian(C,20|T,10)   total(C,25|T,33)
SNP Type:                 UTR 5


Context             (SEQ ID NO:5857):
GGGTATAGAAAGATGTTCAGGACTTAGAATATACCTTTTCTCATGGTTCTCTTATCCCAACGTATAAATTGTGACAATTTGTTTAAAAGATTGAACTAAA
Y
TATGATATTCTCTTTGTCTTCCAAATTTATTTAGACTTGGTATCCTGTTCTTTCTCTGGAATTTCCTTTGCTTTTCTTTTTGTCAGTAAGCTAAATTACT
Celera SNP ID:            hCV16143592
SNP Position Genomic:     13389
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:5858):
GCTGGGGCTGGATGACAGAGCCTCAGCAGTGACAGGGAAGCCTGCTTACTTCCCTCATGCTCAGAGTGCCTTTTGGCCACGGGCTTATTTCAGCTGTCTT
K
TGTTCCATTTCTGAGGCTCTAAAGGGATGCTCTGGGAACTGGGATCTAGGAATAAATCAAGATGAGTGGGGCAAGGTTAATACCCTGATTAGATCAGCCT
Celera SNP ID:            hCV16052856
SNP Position Genomic:     18959
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5859):
GAGAGTGGTGCTCCATGTTCCAAGGAAGAAAAGCAACCCACAGCTCCTCCTGCCCGTGCAGCAGATGACCAGAAAGACGAGAAAGGGAAACAAACTCCCA
Y
TCATGGTGAGGCTGCTTGTTTCTCAAACACACTTTTCCAATGCCTCCACAAGTTGTTTGTTTCTGTATTTTGAAAGCACTCAACATGCAGAGTATTTGCT
Celera SNP ID:            hCV25741856
SNP Position Genomic:     15953
SNP Source:               Applera
Population(Allele,Count): african american(T,34)   caucasian(C,1|T,35)   total(C,1|T,69)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5860):
AGAGGCCTAAAAAGCCAGGTGGACAGAGACCACATGTGACCCCAAACAGAAACAGGCTGCTGGAAACTAACTCTCTCTCTCTCTAGCTGATACTTATTCA
R
CACTTACTGTATGTCAGGTACTATTCTAAAAACTTTACGTATAGTAACTCAGTTTTCACACAGATGCAATTATTTTCCATACTTTAGAGATGAGAACATT
Celera SNP ID:            hCV16052866
SNP Position Genomic:     16237
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5861):
TGCAGCAGATGACCAGAAAGACGAGAAAGGGAAACAAACTCCCATTCATGGTGAGGCTGCTTGTTTCTCAAACACACTTTTCCAATGCCTCCACAAGTTG
Y
TTGTTTCTGTATTTTGAAAGCACTCAACATGCAGAGTATTTGCTAACCACAGGCAGAGTACCCAGTCAGGATGTACCAACTCAAACTCCTCCCTGGGGCA
Celera SNP ID:            hCV16052867
SNP Position Genomic:     16009
SNP Source:               Applera
Population(Allele,Count): african american(C,4|T,26)   caucasian(T,36)   total(C,4|T,62)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:5862):
AATGCTGGGGTGGCCATGGAAGAATTCTGCCCAACAGAGGATGATGTTCCTTAAGCTTCCAACACAGCAGGTTCAGAGAGGTTAGGAAAAATAAGCAAGG
S
AAAGAAACAAGTACTGATCTAACAATGACGGAAGCTGACTCCATGCCTTAGTGGATGCTTGCGGAGGATGGCACTATCTTGGCTGGGCTGACTGTATTAG
Celera SNP ID:            hCV16133697
SNP Position Genomic:     9178
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:5863):
TTACATCAGGGAAGTTTCTAGTCAAAATGTTATTCCTGTCTACAGGGAAAAACAAAAGCAAAACACAAAAGAACACTGCTTCTAATGGCATCATAGCAAG
S
AGTTTATCTAGAAAGATGATGCCAGCAGTCACCTCTTTTCCAGGAAGACAGAAACAAAAACCGTTCTCCTCGAGAGGCCAACAGTGTAGAAGCCCCTTTT
Celera SNP ID:            hCV25742854
SNP Position Genomic:     15699
SNP Source:               Applera
Population(Allele,Count): african american(G,26)   caucasian(C,1|G,31)   total(C,1|G,57)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5864):
ACACATTTATTTAAAAATATCCCAACAAAGTGTTGCAAAATTTCCCTTGATTGCAATGATTCTTTAAGCTGTTAACATTAATCTTGGGTGGATGCAGGAG
Y
TGTCCACTGGCTTTCCAAAAGGCATCCAATGCCTTTAAGGCAGCATAAGAGAAACACTGCCCCTCTCGATGAACTGGGTCCCTGAGTCTGGCAGTACTGC
Celera SNP ID:            hCV16277753
SNP Position Genomic:     10926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5865):
TACCTGGCTCCAAAGCCTTTTCCTTTCCAGATGGTACACTGCCCACATCTCTTAGTTTATCGGCACAGGGTCAAGAAGGTGGTGAGGGTATGGACTGACA
Y
GGCATCTACGGAGCTTTCCATACTTATACCAAGACGCCCCCCTGTAAAGAGTGGACTGTCCGGTAGCCGGGCAAGGTGGCTCATACCTTAATCCCAGCAC
Celera SNP ID:            hCV16052868
SNP Position Genomic:     10349
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:5866):
GCAGCTTCTTCTCTAGCAACTGTTAATTTAATAGACTACTACTTATGGTGAAACAAAAAACAATCCCACTCTGAAGAAAGCACTGAAGACCTATAACCAG
Y
GGTGAATTTCTTCCGTATTGCTCAGTGGAAACAAAAGAAAGCTCAAATGGGTGAGTTTTTCTTCTTTCAGGGTTGCTTTCTCTATGGATCAAGGTAAGAA
Celera SNP ID:            hCV25748879
SNP Position Genomic:     13964
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,38)   total(C,70|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:5867):
GCCTTTAGAAGGACACAATGGGATGGGGGGGAATCAAAGGGTGATAGTCTTAACAATAAATAGAGGTTGAGATCCTAATCAAGAATCAAAGCAATACATT
Y
TGAGTTGGCATTCACAAATGAGTAAGTCAAATGGTGTGGGGCATAATGCTGGGGTGGCCATGGAAGAATTCTGCCCAACAGAGGATGATGTTCCTTAAGC
Celera SNP ID:            hCV8723063
SNP Position Genomic:     9033
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5868):
GAAGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTAGCCAACATGGTAAAACCCTGTCTTTACTAAAAATGCAAATAATAGCCAGGCATGGTGGTACG
Y
GCCTGAAATCCCAGCTACTTGGGAAACTGAGGGATGAGAATCACTTGAACCCAGGAGGTAGAGGTTGCAGTGAGCCGAGATCATGCTACTGCACTCTGAC
Celera SNP ID:            hCV27009665
SNP Position Genomic:     10567
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:5869):
GAGACCACATGTGACCCCAAACAGAAACAGGCTGCTGGAAACTAACTCTCTCTCTCTCTAGCTGATACTTATTCAGCACTTACTGTATGTCAGGTACTAT
Y
CTAAAAACTTTACGTATAGTAACTCAGTTTTCACACAGATGCAATTATTTTCCATACTTTAGAGATGAGAACATTGAGGCATAGAGAGGTTAAGTAATTT
Celera SNP ID:            hCV15910861
SNP Position Genomic:     16262
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5870):
CAAAGACTCAAGGACCATTTGAACAAAGACATCCACATCTATACCACAGATGACTTGGCATCTATGGAGGAGTGGAGGTGAGCACCACTCTACCATGTAG
R
GGAAGCAGCCACTGTGGAGGCTGGGCTTGTGGAGATTCCTTCTGGATGCCCTCAGATCTGTCATTAATGGGGACAAAGCAGAATCAAGGGACTGCTCTAT
Celera SNP ID:            hCV16027522
SNP Position Genomic:     17922
SNP Source:               Applera
Population(Allele,Count): african american(A,31|G,3)   caucasian(A,36)   total(A,67|G,3)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:5871):
TTGGCATTTAGAAGCTTCATTCAACTTTTGGCCTTTTCAAGGCTAAATGAATCTTAGGGAAGAAATAAAAAGTTCCCATTGATTCACTTAAAAAAAGATT
K
CTTGCAATTAACAGATCTAAATCTATGAAAAAGGGAGCATTTATGGTAATTTCCATAATCTCTCACTTTCTCTAGACATTTCAAATCAAATTGTAATAAT
Celera SNP ID:            hCV16133706
SNP Position Genomic:     12923
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:5872):
TGATGATTATTCCTGTCTAATAAATGTGGTATGTCTTTCCATTTATTCCAGTTGTCTTCTGTATCTTTTAATAGTATGGTTATCTTAAGGTGTTTTCTCT
Y
TTTATTTTAATTGGATGTAGAATCTTCAGTAATATCATCTAGCAAGTTATTTGCATATTGTACAGTTGTATGATGATAAATTTGTATGTTATTTCTGGCA
Celera SNP ID:            hCV15910871
SNP Position Genomic:     8814
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 36
Celera Gene:                 hCG1654259 - 61000125149659
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W6GH(14267112..14282154)
Chromosome:                  Chr15
OMIM number:                 147370
OMIM Information:            INSULIN-LIKE GROWTH FACTOR 1 RECEPTOR;IGF1R


Genomic Sequence (SEQ ID NO:1697):
CCAGATGTGGTAAGAAGCTCTTTCAGCCGGACTTGGTAAAATGCCTTGTTTGAATCGAAGTCTGAATTGGCGGTTATTTTTAAATTAATAAAGTTTTTCT
ATTTGGAAGGACTTCTAATAACATAGAGCAGTATCCTAAGAAGCCCTTGGGGACTTTTTTAATGAATTAGAATAATGTGCAATTAGACCGACAGTTGTAA
CTGAGTGCTTCGGAGGGCTTGAAAGTAGTTGTTCTCAAGTAGTTCACGTAGCATCAAGTTCACAGAAAGGATTCTAAGGCACTGAATTGCTCGATTTTAC
AATGCACTGGGATATAAATGAACAAATGCACTCCACAGTACATATTAGGCATTCCCTAGGCTTAAAAAACCCAAAAACTCCAAAATAGGAAAAAAAAAAA
AAAAAAAACCATGCTCAGCAAATATATTAGGATAAATATGTATCAGAAAAATATTCGTTTCAGGATTCCTTTAAATAGTAAGTCCGCCTCATGTCTGTGT
GTCTTCACAGATCATTAATTTCTTGGCAAAGAAGTTGGGGTGCAGACACCCTGTGGCCACAGCACTGGAACTGAAGGTCAGTGGGAACGTGATGAGAGGG
GTTTTGAAAAGTCTGCGCTCCTCTGAAAACATTCTGACTATGCCTTTTCTCTCTCCACGGTTTCCCAAGGCCACTACTCTATCTTCCTCTGTTTGAATCC
AAACAGAAGTACAAGGAGTCAGATCCACAAATGAGTCGTTTTATCTTGCCCTACCTCTCTGTGCAGTCAATGGCCAACCATCCTATGGATGGACAGTCAC
AGGGGCCCAACCAAGGTGTCTTATACGAGCAGGCAGAGGGCTTGCAGTGGCTTTTTGTAGGTTTTTGGCTGGAGCTGAACTAACTGCAAACTAAAAAAAA
AGTTCCCAACAGCAGCCCTTCCTGAAGCTGACGGTCTGACTGTGGAAGTTTAGCCCGAGTATTTAGGGTGCTGGGAAGACATGAGAACTACCTTATGTCC
TTTGTTTTCTTCCTAAGCAAACTGGGCAGTCTTGTTCATGCAAAACCACTATGGAGTGATCACTGTAACAGGCACGCTGGACCAGAGGGTGAATGCCCCC
AGCGGGAATCTCTCCCTAAAGCCTTGCTTTTTCACATCACGCCACCTCCCCTCTTCCAAATTTTGGAGGCGTACTACCAATAGGAACTCACTATCTGACT
GATTAATCAGCTTTCAGTAGACAGGAGCGGGACAGGTGTGGGAGAAAACATTTCTTTCCAACTCCCATTCTCCACTGCAGAATACCACAATAAGAAATCT
TAGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCATGACGTCAGGAGTTTGAGACCAGCCTAACCAACAT
GGTGAAACCCCATCTCTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGCGTGCGCATGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATCGCT
TGAACCCGGAAGGCAGAGGTTGCAGTGAGCTGAGATTGCGCCACTGCACTTCCGATTGTTAACTAGCAGTTTAAATGACCACATTTAATCAGCTAAGTGA
GAGTTGGTTTAAAAGGCCAATTACAAAAGAAGTGGTAAATGGCCTTTTAAACCAATTCATAGTATCTCCAAATGCCTTGGTTTACCAAGTCTGAGGGTTT
CCTAGAACTCTCCTTATAAGCATTAGAATGAAATCTAGTCCTGGCTCTTTTCCCATGACCACTTCCTCTTTGGTTCATTAAGAATATAAACATTACTTAA
ATAGAGCAAAGCTCCCTGAGCTAAGGGGTCTTCATGGTATACATTCAAACGGCATGTGAACGAGGTTACAGGGCATAGTGCAGAATCCCTCCTCGGATTC
CAAGGTGGCTAAAAATGCCTATGTCAGTGGATTTGCCTGTTTTCCAAGTCATTTGCTCTGAAACTCCTAAATACAAATATGAAAACAACAGCATGAGACT
TCATTGTCATGTTTATTTGTTATTCATTCTCTGATTCGGAGTTGGGGGGCAGGGGAAGGATTAGACACAATTTTAAGCCAACCAGCCTCTAAACAGAAAT
ATGGTTTATTCTCGGTACTCAAATTCAAATCTTAGTAACATAGCAATTACATTTTAAAATAAACTATCTCCTTGTGCTTGCTTCTAAGGAGAGTGTTTAG
TGGGATATGAAAAGAGTCTAATCCTAGGCAGCCGTATGGCCAGACCAATTATAAACCCCGTAGACTTTTCACACGTCACAGAGAGCAAACTGCTCCAGGA
GCAGCTCTTAATACTTTATTGCCTATTCAGGTGCACCTGCACTTTTAAGATATACTTGTCAGCAACAAAATACAGCACTTCCCTCTGTCTTTATCACATT
GGTTGCCAGACAACTGCACAGAGCTAAAGTAGGTAATGTTACAGTAAACAGCTCCCTAAAACATTTACATATGTCACTGATAAACAATAGAAAATTTAAA
AGAGATACAAATGTACTCTTGGAACCTTAAATCTTCTTCCCACTGAGGCCTAAGAACTTAAAATCTTCATACACCTGGCTGAGAAAAAGGAAACAAATTC
CAAAGGAAGTCTAGATTTATAGCCTAAATATGTCTTCCTCTAGAATATTTAATACACTTAAGCTTTAGTCATTCTATACACTTTGAAAATGCCCTTCAAC
GATAAATTACAGTCGTTGCATTTTTCATTGCAGTTCACTTAAATATCATTTTGCTTTCAGGAAAACAATTATAGGACAGTAAATCACTTTTACATTGCAT
TCCAAAAATATTTAAGTTGCAACATGGACAATGTGTAGAATCACAAGAAAAATACAGCTTATATATTCTATCATTCAGTCTTCTACAGCAAACGTTAAAT
CCCTGAGGAAAGTCCTACCGTTAGTTTGGTTTTTAAATATTTAGATTATTTCAGCGTATGCACATAAGTATTAGTGCAACAAATATTTACTGAACTCCCG
CAATATGCAGTCATCCAGATTTGGGGTAGAAATTTGGGAATCCCCCTGATTTCAAGATATCAACCACTACTACCATAATTACCTGCTTCATGGGCATTTA
ACATGGCAGGCCCCAGCCTAACAACTCTACACACACAGACTATACCATTTCATCCCCACAACTTTCCTGAGAGGTGGAGATCATCATTCTGATTGAAAAG
TATGGAAAGGTCACCAAGGCCACATGGCTGGTGACACTGGAGGATCTGCCCAACATTCACACCCATAGGGGTGATCAGTATAGCATGCCCTCCATATCTG
AGGGCTCCACACCCATGGATTCAACCAACTGCAGATCAAAAATATTCAGGAAAAAAAATAGGATGCTTGTGTATTAAACATGTATGGACTTTTCTCCTTG
TCATTATTCCCTAATAATACATGATAACAACTATTTACATTGTATTAGGTGTTATAAGTAATCTACAGATGGTCTAACGTAGTGGTCCCCAACCTTTTTG
GCACCAGGGATCGGTTCCGTAGAAGACAATTTTTCCACAGATGGGTGGGGGAGAGGGATGGTTTTGGGATGAAACTGTTCCACCTCAGATCATCAGGCAT
TACTGAGATTCCCTGCATGTTCAGTTCACAATAGGGTTCTCACTCCTATGAGAATCTAGGACCTCTGCTGATCTGACAGGAGGCGGAGCTCATGCAGTTA
ATGCTAGTTGGCCTGCCACTCACCTCCTGCTGTGCAGCCTGGTTCCTAACAGGCCATGGACCGGGACTGGTCTGTGGCCCAGGGGTTGGGGATCCCTGGT
TTAAAGTATACGGAAAGATGAGCATGGGCTATACACAAATATCACACCATTTTATAAAAGGGACTTGAGCATCTGTGGATTTTGGTATCTGTTGGGGTGG
TCCCAGATTTTGGTATCTGTTGGGAGGTACCAGTTTTCTCAGGGAAAACTGTATATGGTGCCACTAATATGGTGCCACTGTATATGGTGCCACTGTATAT
GGTCTTCTAAGCTATGCCAAGTTTGTAAAATTAAAGAACAAAACAACCGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGTCAAGGCAGG
TGGATCACTTGAGGTCAGGAGTTCGACCTGACCTCCTGGCCAACATGGTGAAACTCCGATTCTACTAAAAATACAAAAATTAGCCAGGTGTGATGGCGCG
TGCCTGTAATCCCAGCTACTAGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGAAGGCAGAGGTTGCAGTGAGCCGAGATTGTGCCAGTACACTCCAG
CATGGGTGACAGAGCGAGAATCCGTTTCAAAAAAAAAAAAGAAGAAGAAAAGTTAAAAAATAAAGAACGAAACAGCGTAATAGATGATCAAGTCTTAGGA
GAGTGACTGCAGACTACAACTGCAACAGAGTGTTTAGGAAAAAATAGATGTTAGCTAGTAAGTGATGATCAAGGAAAAAGCATGGGAAAGAATGCCGAGC
AAGTGGGAGAACACATGAGTAACAGCAGTGGGGTGGGAGACAAGGGCCCAGCCTTTTGGCAGAACCTTCAGAAAACCAGCCTAATGGCCCATGCCTCTGG
AAAGCAGCAAGAAGATAAGCCAAGGTGTCCTGGGGGAAAGCTGAGTCTAATGGTTAGGACTTCACATCACAGAGAACAGGGAGCCACCATGGTATTTTGA
ACATATGAGTACCTTACCTAAACGAGTTATTTAGATAAGAAGAAGTCTGACAATAATTTACAGGATGTATTGGAGGGAAGGAAAAGCTGAAGGTGAGACC
GAACCATGAGGCTGCACCAGAGAAAAGGCACTGGGACTGAAAGAGCAGAGGAAAACATAAAGGGCATTTCAGAAGAGTGAAAGAGATAGGGAGGAAAGTT
CCTGAGTTCTGCCTAATTATGTGAGCCGTTCAATACTCACCAGCAAGTGAGGAGAGGAACCAGGTGGCCGTGCACACAGGGATGTGCATTTGCTCTCTTC
GACCTGGGGAGAACGGGCAGCCCTGTCAATATTCTCCACTCCTGTATAGGCTGCTGTCAACCAGTCAGCCCCGAGAATGACAATACTTCCATGTTACCCT
CCCTAGTTCCGAGTGCTGGCTATGCGACAAACATATTTTTAATGAGAAAAACTATTTTTGTTTCAGTTTTGTTTGAACCACATCATTCACAAATGACTGA
GTATAAGAAACAACACAATTCCAAAAATAATGTTGCTTAATTTTAGGATGTCTAGTCTTTTTTTCCCCCTCTTTCTCTCTCAGAATATGCCTGAAAATAG
TGGTTAGCCAAGTTTTTGTTTGTTTTTGTGGTGGCTGTTTTGTTTATTTAAACCAGGGTGAGAAATATTTTCTGGGAGTTTTAACTACTGGATCACAAAC
AGAAAATGGGGGTGGCAGCTATGCAAAAACCCCTATGATCATGAAACCAAGAAGTTATGGTTACTAAGCACTGTGAATTTAACAGGAGCTTAAAATCATG
GCTCTGACACCTGGAAAGATGCCACTGGGCTCAGACCAGCCCTGTGCAGCTCACAACTTCAACTGGAATCAAACCTGACCATATCCCCACTTCTCACTTA
AAAAGAAATGGTTTTGGCCGTACTGGTAGAGCAAAACCAGAAAATAGACTTTGAATTAGTCTTCATGCTTTGCAAAAAGGTACTAACTTGTTAAGATGCA
TCCTCCATGTCTAACTAAGCCTGGTCTAATAACTGTTTTGCATCTGTCCTCTAGCAGTCTGCTGCTGATTGGTGGTGGGAGGGGAAGAGGGAAACAGCTT
AAACCATTACTCCTGTTTTGTGGGCATTTGAAGTAGCTGCCAGGCACATGACACCACTGCTCCAATTGGTTCAGAGTGACATCACTTCATGATTCAACTT
TGTTTGCATTTCGGCTTCCTCCTTTCCAAGGGGTTCTCAACTTCACCCTGCCAAGTCACTTTCAAACAGAAAGAGAGAGGAACAGCACATCTTATGTAGT
CATGAAGTGTCAAATGTCCTTTGTGTTTCTTAGCCCAGTTTATGAGAGGAGACCTGGAGAAATAAAGGTTTCAATCAACACCACAATGGTGTATGACTTT
CTTCACAGCATGAGGTGGGGGGAACGGGAAGAAAAGCAAAAGGTGGCTGCTAAGCTTTGAGTAAGTTAAAACTGATGGACTTCAATAAAAATCCTCAAAG
TTTGTTTTCAAGTGGGAAAACTCTAAAATAGAAACCACATGCAATACTATGCTGGAACCTCATTTAAATCATTCACGCTTCTAAGACTCAGAGAATGTTT
CTAATTTAGTCAAACACTACCCTCTCTTTCTCCAAAATAATTATTCTTAATTTATTTCACCTAACTTCTGTTTTTTACATCTTAGCAATGTGACCACCAR
AAGCTGGAGCAACTGCTTTCTGATTCAGAAAATAAAAGTTTATTCTGATTTTTATTTCTGTCTTCCATACAGTCAGTTACCAGGGAACTCACAAAATTTG
GAGAGTTCGAGCACGATTAATTTTGTGTGTTCAGCTCAAAGGAAAAAGCTTCCTCATAGGAGAAATGCATKAATGGATGAGCGAATGAATAASARGCTTT
ATAACCCAACCAACCAGAAGCCGAGGGGCTCACTATATTAAATTATACCAGCTCTCAATACAATGGGTCAAAATGTATTTTATTTTAAATTCTAAGTTAG
GCTCCAAACTTTACATCGGGACCTTGTAAGACGAGATCTTTTATCATGCTAGACTTTTAYTATCCCCTAGGAAATGTAGTGACATTAACCAAACACACAA
AGCCATCTCAAGCCTAAAAATGCCTATTACTCCAATCCTGTACTCACTTGCTCCCTGCCAGAGAYAACAYAAAGAGATGAGTATACACACTCAGGAAAAC
TTYGCCCGGGCCTTCSAGGTAGGGCSAGGACTGTGCACCACACGAGATGACTTGAAAACCTGTAGGAAGGYTGTATCTCAGTGCCACTTGCTTTGAGGAG
ACTCACTGGGTAACTGTTTGAGGGTGGCTCTAATGCTCTGCAACAGTCCCTGCAGGGACAAAGAGAAATTTCCATCTTTCTGAAGGCCTAACATCTCTTT
TCTTGTAATCTCATTGACTTGCCTTGCCTAGACTCACCAGTCAATTATTATTTATCATTTACAGAGTAGCTCATATTGACAACATACCTACAAGTATTTT
AGCACTTCATATACCTTTTATGGTATAAGTACCTGTGGAAGGGAAAGGGAAATGAGTTGGCCTGGAGTGGGAATTAAGAAGCCATCATGAATATACATGT
GCCTGTGTGTGTGTGTGCACACATACACCCGTGTGTCTCTCCACGTCTGAGGCCAGCAGCTAATTCCTGCTCACCTTTCAACACTTCTAGTCTTGGCTCC
TGAGCCCCAGGTACTCTATTCCTGAAGATCCTTGCAGATATCAATCATCCCAAGAATGGGCTAGTGGTTTCCGGGTTTCATRAATAAAGCTGTCCCATTC
TCATCACTAATCAAGGTAAGAGAGTTACATCTTATTTCTCTGCCTTGGTTTCATCATCTATGGAAGAGCAGTCATACTGGATCTCGAAACATGCATTTTA
GTGCATCATGCACATTTAACGCCTCCCTCACGCATCACTCAACTGACTGGCAAGCCACCCCTTCCCCTTCGACTCTCTTCCAAAAATGCTTACGAACTTG
AAATCCAGCARAAAAGGGGCCACAGTGACTACGTACTCATGATTCTGTTTTACTCTTCTAAATTCACGGTCTACTTACTATTAACTTATATACACGTTAA
TATTTAAGTTCCAGATCCAAGGGAGGTAAGAAGCAGCTAATTCTAGGGAGGCAGGGCTAGAGAGAGTGATGGTAAAATCAGTTTAAAAAGGGGGGGGGGA
GGCGTGTTTAAAATAAAAGACAACTATAAAAAATCAACAGAGGAAGGGAAAAACCAGAAGCGCACAGGCCATTTAGCGCAATGTAGCGCGTCTCACACCA
GAAGTTGTTTACACACTCTTGGACGCCTGAGTTCTCCTTGAYTTTTGTTTTTCTTCATTTTATCTATCTTCGTTTATCCATCTTCTAGTTCATCTACTTA
ACCTTCTTGTAACTCAGTGCTGCCAAGTGGATTCGGCATCAGCATTTACATAAAAAACACATTGCAAGCAAACTGCATTACTCTAGCTGTTGTACACCAA
AAAGAAAAGACACATTTAACATATAAATATGTGTTCACATACCAAGTGAAGACCAATTTATGTTGTGGTACTTCCGTGAACTGGGGCCTTGCGATACTTA
AAGAAAAAATTCAATTGTGATGTCAAAGAGAGGTGTTCCGTAATTCAAACGTACTCAGGCCTTCGAGGTCAGTTTATTCACATTCTGAGCAGTGGTTTAC
TTTTAGCAAAATATTACCCATGTCATTAAATTAATATTTGGGTTTGAATCTTTTTGTTTTAKATGCACTTAATGTGTAAAATCATTTAACTTACAGTTGT
AAAAGATCTGCAAGCGTAAAAAATTGACACCTAGGCCTTATAAGGCTGTAGGTATTTAAGTATCTTTATACCAAGTAATTTATAATGACACTGAGGGTCT
GTGAATTTATCTTTTGCTTTTAAAAGGTGTCTCAATTACCTTAGATGAAAAACTGCCTTGCCCACCTGGGAGCATCATTATCTTATCATAGAATGAAGTT
ACTTTCACAGTGATGACCCTGAGTATTGASAAAAAGTTGGATTATGTTCATTATATTCTTTTTAATGCAAGCAATGTAAAACGTCCTTTAKAAATGTTTC
CTTTAAAAATTATTTAAATTGTATTGCTTAAAAAATATGACTCTTTCAACTCAGTTATCACTTAAGGTTTCCTGGAATATTCTGCTGTTTAGAACATATT
TGTAGGATATGAAATTACCTACGTATGTGACTCTTATAAGACCAGAGAAAAAGGCTAGAATTATATATATATATATATGAAAATAGCRTCAGCAATTCCA
CAAGGCCATCAACTTGGGGTATGAACTATCCGTGAAGGACTAGTGATGGCTGAACTTCAACCACACTCTGAACAGCATAAAAATGAGAAAACTGTACTCC
TTGATCTTTAGTTCTCAAAGTGTGGTTTGTGAACGCGTAAGGATTCTGCAGCTTTTTCAGGGGGTCTATGAGATTAAACTATTTTCATACACTACTAAGA
CACTGTTTACCTTTTTAACTCTTATTGTCTCATGAATGTGTGCCGTGGAAGTTTCCAGAAGCTGTGTGATATTGGCAGCAGAATAAACATAGAAGCAGGT
ATGATCATCCAATTGCCTTCTGTTAAGCCAGAGATTAAACACATAAAACAATGCCACTCTATTCATATACTGGGGTGGGATATAGTTTTTATCCAACATA
AAAGTACGTTAACGCATATTAAGTTTTGTTACTGTTTCTGAATCAATAAATCTTTTTAAAGTTATTAATTTTAATTCTTCATACAGCAAGTATCAATGGA
TACAACCCACATAAACGAAAGCTTATTGGCGTTTGTCCTAGCCTGTCTGGGCACCTATAACAAAACACCTTAAACTAGGTAGCTTTTAAACAACAGAAAC
TTATTCCTTACAGTTCTAGAGTCTGGGAAGTCCAAGATCAAGGCACTGGCAGATTCAGTGTCTTGTGAGGGCTCCACTTTCTGGTTCACGGAGGGCACCT
TCTAGCAGAAGAGGCAAAGCAGCTCTCTTTTATAAAGGCACAATCTCATTCATAAAGGTCCCCCACCCTCACGATTTAATCCCTTCCTAAAGGCCCCAGC
TCCTAATATCATCACATGGTGATTAGGTTTCAATGCATAGATTACTGGGGCAACATAAACATGTAGACAGTGGCAGGGTTTTCCATTTTTAACAGTGTGA
AGGGGTCCAGAGACCACTGAATTTGAAAACCCCTGGATGATTTCATTTTTCTCGACAGGGAAGCTACAAGTAGATGAGTGCCAAATGTTTCTCTCCATTC
CTGGCCTGTCCCCTGAGCCCTACACTGCTGTGTTCAACTCCATCTTAGCTTGCCCCCCCTGGATGTCTGAGGCATTTCTGACCTGAGAGATGCAAGACAG
AGCTCCTGCCCCATCTGCCTTCTCCACCACACACTTCCCAAACTACACTGCTCCTCCCTCCCCACTCCTTTGCAGCTCAGGAATGGAAGCCTCCACCCCC
TGTTCTGTCCAAGCCAAAATGTCTCAGAGGTATCTTTCACTCTCCCAGTCTCCATTCCCTTCAGGCTATATTTTACAAGTCTTCAAATATTCCTAAATCT
ATCCACTGCAAATTGCTATGACTCTGGTCCAGTGGTTCTCAACAGGGTACAATTTTGGTCTCCCCACCCCCTAATCCCAGGTTAACATCTGTCAATGTCT
AGATACATTTTTGATTGTCATGACTAGGGGGCGGGGTGGGTGGGCTTCTGGCATCTAGCAGGTAGAGACTAGTGAAGCTGCTGAACATTTTGCAATACAC
AGGACAGCCCCCCACAACTAATTATCTCACCCAAAATGCCAACAGTGCCAATGCTGAGAAACCTGGCACTGGTTCAGGACTGCACCCCTACCCCCCGCCC
TGCCACTCCCCAACTAATTATTTCACCCAAAACGTCAATACTGCCAATGCTGAGAAACCCAGCACTGGTTCAAGCCACCAACATCTCTCATATGCACGGT
CCCAGCAGCTTCCTAAGCGGTCTCCCTGCTTTTTCCACTATTCCTCCTTCTCCCCTTCTCCACCCAGCAGCTAGACTGACTGTTGTAGAAATCAGTGTGC
CACTCTTGTGCTTCTCACTCATCCCCAACTTCCACTGTGTATTGAGTAAATTCTCACTCTTGCCATGGCCTACAGACCCTCTCTGCTCTGGTCCCATCTA
ATACTGTGACCCATCTTATAACTCGACGCTATGAAATCAATTGTGTCTCATCCCCGGCCACCTCCCACCTCCACCCTGCCAATTCATATGTAGGAACCCT
AACCCCTCATGTGACTCTGTTGAAGGTAGGGCTGTTAAGGAGACAATTAAGATCAAATGAGGTCATAAGGGTGAGACCCTGATACAATTGGATTAATGTC
CTTAATCAGTGAAGAGACACCACAGCTTGCTCTCTCCCACCACTATATGAGGATACAGTGAGAAGGTAGCTGTTTGCAAACCAGGAAGAGAGCCCTCACT
AGAACCAGACCTTGTTGACACCTGACCTTGGACTTTCAGCATCCAGAACCATGAGAATATGCTTCTCCAACCATGACGCTGGAGAGAAGAGGTGAAGTAG
GCAGAGGCAAGACTGGGAAAGTAGGGCTGGGGTGGTCAGAAAGGGCAAATCACGAAATGTCTGGTGTGAAAGGAGAAAGGGATCTCCCCAGAGCTTGAGT
ATGGAAGACTATTCAACTTCAGAAATGAACACAGAGAGGGAGAGGGAATGCTGCAATGTCTATTGTTTAAGCCACCCAGGCTACAGTAATTTGTCAAAGC
AGCCTGAGCTGACAATCACTCTCAGTTTCCCTCATCTTCCAAGTTCCAGCCTTGCTGGTCATCAGTCTGTGCCCATGTGACAGCTTTTTCTTCTTATCCT
TTCTCCTGAACTTCCCATGGCTGGACCTTCCAATCTCCCTTAGTCTAAATGCCACCTTTTCACAGAGGCCTCAATGACTACCCAGCGTAATACAGCACCC
CTCAACCACACCTGGCCCCCAACCCAGCACTCCTGCATTGTGATGACAGTACTGTTTTGTGTTTTCTTCTTAGATGCTCATCACTAGCTTATTATTCTCT
TTACTGTGCATCCTACCATCCCCACCCCAGTATTCTTACTATTATTATTATTATTATTATTATTATTATTATTATTTTTGAGACAGATTCTCGCTCTGCT
GCCCAGTCTGGAGTGCAGTGGCATGATCTCCACTCACTGCAACCTCTGCCTCCCGGGTTCAAGCCATTCTCCTGCTTCAGACTCCCGAGTAGCTGGGATT
ACAAGCATGGGCCACCACACCCAGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGTTCTTGAACTCCTGACCTCAGGTGA
TCCGCCTGTCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCACACGCAGCATTGAAGAAATCTTTTCTGTCTTGATCACTGCTGGAGCAGA
CAGAGCACCACAGCTGCCTAATGTTTGTTAAATTAATAAATAAGTGAATGAACCTGGCTTTGAGGATCTCAGATCCATACAACCGGGCATTTATAGCCAT
TCTCTGAGTCAGGCAGCTTTCTGGAGCCACATGGTTATGAGAATGTGCCTTGCCCCAAGATTCATCTCCCTCTCCCACCTCCCCAAAGAAAGCTGCCATG
TTTGTGGCAATCTCATATTCCTCTGGGGACCACATGGGACAGGAAGGAGTAATTAACTGCAATATCCACAGCGAGTAGCTATTCATATTCTTACACTCCA
GGGAGCATCAAGTCTTAAGGTTACATTAAAACACAGGCACAAGGGAAGTCCCCAGTGTTTATTATCTGCAGCTACAGAGTGGGTAAGGATGAGATCTGGT
CACTTCAATTGAATTTACAGGCAACTTCTCAAGAGCCCAACTTTGAACTGCCCAAAGAAAACACAGGCAAGTCCTACTGGCACAAGAGAATGGGGTGGGC
CGATGGGGAGTGATGGCCGGCTAGGGTTGACATTTGTTTTTTCCACCATATTCAACACAGGCAAGTGCTTTCGAATTACTGGCTCCCTGAAAAGGGGGAT
CTGGACACATATGGCAATGCGATGAATGATGATTCCTGGAAAGAAAAATGCTTAATGAAACAAGAAACTCACAATTTCCTGAGACCTGATATGCACAAGG
TACTGGGCAGATCTTGTAGTTATTGATGGGAATTTCAGAGAAAGGCCTGATGAGGCAAAGCTGGCTGCTGGAACCTCAAAGAGACAGGAAAACAAGGATG
AGACCCATGATTAGGGCCACTGTGAAGACTCCAGAAGCTTCTGAGGTTCGAGAGAAGAGGTGAAGTAGGCAGAGGCAAGACTGGGAAAGTAGGGTGGCTG
GGGTGGCCTGAAAGGGCAGATCACAAAATGGCTGGTGTCAAAGGAGAAAGGGACCTCCCCACAGCTTGAGTATGGAAGACTGTTGAGCTTCAGAAATGAA
CACAGGGAAGGAGAAGGAATGCTGCAAATATTTTACCATATTGACTTTTAATTAGTTGAGAATCAATGTAACAGGTCTAGACCTCATCCAGGGTGGAGGC
AGCATGTGGGCAATGGTACCAAGAAAGCATCAGAAAGAAGAAGGGCTTGGAAGGCAACTACAGAACAGGCTGCCCCACATCAAACTTAGGTAGAATAAGA
CTCACTTCCATTGTTCCTTCTCTAGCCAAAGCTAGAGAAGCTCTGAATTTCTCTGCATTTCGAAAACACTCCAACACACAGAGTCACACAAAACTCTCCT
TTGGACCAGATGGACCCTATCCTACGCACTGAGAGATTTGGAGTGAATGGGACAAGAGGTAAGCCCAGTCTCTTTCCTCCCTCCCTCATCACCCCCCACA
CCTAACCTCTTCCAAAAACATCAAATATTTTCTTCCATAAATAATTGCAATAGGATGCCATAGCTTTTCCCAAACAAACAATAGCCTGATTGTGCCCTGT
TTGCATGGGCCCAGCCCGGCATACACAAAGGCCTGCTTTCATGCGCCAGGCCTCTCCCCACTGTAGAAGGATGGGCATATTTCGCCCTCCTCACTTCTTC
AACAACTTCACTGAGGCAATTCCATTCGGAAAGGAGCAACAGGAAGAGGTTGTTACCACCAGGAATAGGAGCAACTCCCATTAAAAAGACAGCCATTGTT
CCCCAGGTTTTCTGTTGCCTTTCGACCTCATCCAGAAAGTTCTTTCACCAGAAGAGAGCTGGTTTGCCCCAAGAGCCAAATGACAACATCTTATGCTGGT
GATTTCTTTTAAACTTTTTATTAAATTTCGAATATGATTTTAAATTGTAATCACTGACTGAAAATATTCCTGTTTTTATGTCATGTATCTTCTTAACAGT
ATCAGAATAGAGCTAAAACAAACGCATAAATTTTTGTACTACTAATTATTTTTCTGGTAAGAAAAAAAGCTGAACTAAAAGATTAAACTAACAACTTTAT
AACTGCTACTCTGAAAAAATATCCTTTTGTGTTTAAAAACATGAAGTATTAAGTTTCCTTTCAGAATGTAAGTTTGATTTTCCCCCACAGATATAAGGAA
GCATCATAGCAAGTCTTCTTCCTGTTTCCAGTAATTCGGAATGGCCATTCTCCCAGGTAGAGCCACGCTTATATCAGATACAATTTCTTCTCCCCATTTT
TGGTCTTCCATTCATTTCTCTTTCACTCTTCTAATTTAAGTGAAATGGAATTCCAAATGGCCAAGACACTAATAAGCTCTCTGAAAGCCATCTTGAGAGC
ATATACATTTTTGTTTTTAAAACCATATAAACAGGCTGGGCACAGTGGCTCACACGTGTAATCCCAGCACTTTGGAAGGCCAAGGTGGGAGGATCACTTG
AGGCCAGAAGTCTGAGACTAACCCCGGCAACACGGTGAGACCCCCATCTCTACAAAAAATTTAAAAATTAGCTGGGCATAGTGGCACATACCTGTAGTAG
TCCCAGCTACTCAGGAGGTTGAGGATCGCTTAAGCCCAGGAGTTTGAGGTTGCAGTGAGCTATGATGGTGCCACTGCACTCCAGCCTGGGCAACAGAGCA
AGACCCTGTGGCTATATCCATCCATCCATCCATCCATCCAAATCATATAAGGGCACCGAAAGCAGTGCTACACAGGGCATTAAAAAAAGCTTTCACTGCC
TGGTAAGTGTTGCTCCAAAGTGATGTATCATTCATGCCAGAAAGAGTAACTTAAATTAAAATGTATTTTAAAGTTGAATCTTGGTTTTGCAACAGGATCT
AGTGACGCAAGCAACCCACGATGATGTGCTCCATTTGCTATG


SNP Information

Context             (SEQ ID NO:5873):
AATTTGGAGAGTTCGAGCACGATTAATTTTGTGTGTTCAGCTCAAAGGAAAAAGCTTCCTCATAGGAGAAATGCATTAATGGATGAGCGAATGAATAAGA
R
GCTTTATAACCCAACCAACCAGAAGCCGAGGGGCTCACTATATTAAATTATACCAGCTCTCAATACAATGGGTCAAAATGTATTTTATTTTAAATTCTAA
Celera SNP ID:            hCV16052821
SNP Position Genomic:     6595
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5874):
AGTCAGTTACCAGGGAACTCACAAAATTTGGAGAGTTCGAGCACGATTAATTTTGTGTGTTCAGCTCAAAGGAAAAAGCTTCCTCATAGGAGAAATGCAT
K
AATGGATGAGCGAATGAATAAGAAGCTTTATAACCCAACCAACCAGAAGCCGAGGGGCTCACTATATTAAATTATACCAGCTCTCAATACAATGGGTCAA
Celera SNP ID:            hCV16052822
SNP Position Genomic:     6571
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5875):
TTCGAGGTCAGTTTATTCACATTCTGAGCAGTGGTTTACTTTTAGCAAAATATTACCCATGTCATTAAATTAATATTTGGGTTTGAATCTTTTTGTTTTA
K
ATGCACTTAATGTGTAAAATCATTTAACTTACAGTTGTAAAAGATCTGCAAGCGTAAAAAATTGACACCTAGGCCTTATAAGGCTGTAGGTATTTAAGTA
Celera SNP ID:            hCV29314527
SNP Position Genomic:     8462
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5876):
AAAAATGCCTATTACTCCAATCCTGTACTCACTTGCTCCCTGCCAGAGACAACACAAAGAGATGAGTATACACACTCAGGAAAACTTCGCCCGGGCCTTC
S
AGGTAGGGCGAGGACTGTGCACCACACGAGATGACTTGAAAACCTGTAGGAAGGTTGTATCTCAGTGCCACTTGCTTTGAGGAGACTCACTGGGTAACTG
Celera SNP ID:            hCV29314528
SNP Position Genomic:     6916
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5877):
GGAAATGTAGTGACATTAACCAAACACACAAAGCCATCTCAAGCCTAAAAATGCCTATTACTCCAATCCTGTACTCACTTGCTCCCTGCCAGAGACAACA
Y
AAAGAGATGAGTATACACACTCAGGAAAACTTCGCCCGGGCCTTCGAGGTAGGGCGAGGACTGTGCACCACACGAGATGACTTGAAAACCTGTAGGAAGG
Celera SNP ID:            hCV29314529
SNP Position Genomic:     6870
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:5878):
TCTCAATTACCTTAGATGAAAAACTGCCTTGCCCACCTGGGAGCATCATTATCTTATCATAGAATGAAGTTACTTTCACAGTGATGACCCTGAGTATTGA
S
AAAAAGTTGGATTATGTTCATTATATTCTTTTTAATGCAAGCAATGTAAAACGTCCTTTAGAAATGTTTCCTTTAAAAATTATTTAAATTGTATTGCTTA
Celera SNP ID:            hCV25771058
SNP Position Genomic:     8730
SNP Source:               Applera
Population(Allele,Count): african american(C,2|G,22)   caucasian(G,36)   total(C,2|G,58)
SNP Type:                 INTRON


Context             (SEQ ID NO:5879):
CCATCTCAAGCCTAAAAATGCCTATTACTCCAATCCTGTACTCACTTGCTCCCTGCCAGAGACAACACAAAGAGATGAGTATACACACTCAGGAAAACTT
Y
GCCCGGGCCTTCGAGGTAGGGCGAGGACTGTGCACCACACGAGATGACTTGAAAACCTGTAGGAAGGTTGTATCTCAGTGCCACTTGCTTTGAGGAGACT
Celera SNP ID:            hCV25741876
SNP Position Genomic:     6903
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:5880):
GGAAGGGAAAAACCAGAAGCGCACAGGCCATTTAGCGCAATGTAGCGCGTCTCACACCAGAAGTTGTTTACACACTCTTGGACGCCTGAGTTCTCCTTGA
Y
TTTTGTTTTTCTTCATTTTATCTATCTTCGTTTATCCATCTTCTAGTTCATCTACTTAACCTTCTTGTAACTCAGTGCTGCCAAGTGGATTCGGCATCAG
Celera SNP ID:            hCV15910812
SNP Position Genomic:     8042
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5881):
CACTTCTAGTCTTGGCTCCTGAGCCCCAGGTACTCTATTCCTGAAGATCCTTGCAGATATCAATCATCCCAAGAATGGGCTAGTGGTTTCCGGGTTTCAT
R
AATAAAGCTGTCCCATTCTCATCACTAATCAAGGTAAGAGAGTTACATCTTATTTCTCTGCCTTGGTTTCATCATCTATGGAAGAGCAGTCATACTGGAT
Celera SNP ID:            hCV15910813
SNP Position Genomic:     7482
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5882):
TCTAATTTAGTCAAACACTACCCTCTCTTTCTCCAAAATAATTATTCTTAATTTATTTCACCTAACTTCTGTTTTTTACATCTTAGCAATGTGACCACCA
R
AAGCTGGAGCAACTGCTTTCTGATTCAGAAAATAAAAGTTTATTCTGATTTTTATTTCTGTCTTCCATACAGTCAGTTACCAGGGAACTCACAAAATTTG
Celera SNP ID:            hCV8723061
SNP Position Genomic:     6400
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   African American (pooled) - WICGR(G,16|A,84)   Caucasian (pooled) - WICGR(G,1|A,95)   total(G,17|A,179)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5883):
ATTACTCCAATCCTGTACTCACTTGCTCCCTGCCAGAGACAACACAAAGAGATGAGTATACACACTCAGGAAAACTTCGCCCGGGCCTTCGAGGTAGGGC
S
AGGACTGTGCACCACACGAGATGACTTGAAAACCTGTAGGAAGGTTGTATCTCAGTGCCACTTGCTTTGAGGAGACTCACTGGGTAACTGTTTGAGGGTG
Celera SNP ID:            hCV15910823
SNP Position Genomic:     6926
SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,32)   caucasian(G,36)   total(C,6|G,68)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:5884):
GAATGAAGTTACTTTCACAGTGATGACCCTGAGTATTGAGAAAAAGTTGGATTATGTTCATTATATTCTTTTTAATGCAAGCAATGTAAAACGTCCTTTA
K
AAATGTTTCCTTTAAAAATTATTTAAATTGTATTGCTTAAAAAATATGACTCTTTCAACTCAGTTATCACTTAAGGTTTCCTGGAATATTCTGCTGTTTA
Celera SNP ID:            hCV8723056
SNP Position Genomic:     8791
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,13)      total(G,13|T,1) ;(T,-|G,-)   Caucasian(G,84)   African American (pooled) - WICGR(G,100)   African-American(G,84)   Asians(G,84)   Asian (pooled) - WICGR(T,1|G,83)   Caucasian (pooled) - WICGR(T,2|G,94)   total(G,529|T,3)
SNP Type:                 INTRON


Context             (SEQ ID NO:5885):
AAAATTTGGAGAGTTCGAGCACGATTAATTTTGTGTGTTCAGCTCAAAGGAAAAAGCTTCCTCATAGGAGAAATGCATTAATGGATGAGCGAATGAATAA
S
AAGCTTTATAACCCAACCAACCAGAAGCCGAGGGGCTCACTATATTAAATTATACCAGCTCTCAATACAATGGGTCAAAATGTATTTTATTTTAAATTCT
Celera SNP ID:            hCV15910824
SNP Position Genomic:     6593
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5886):
TTTAGAACATATTTGTAGGATATGAAATTACCTACGTATGTGACTCTTATAAGACCAGAGAAAAAGGCTAGAATTATATATATATATATATGAAAATAGC
R
TCAGCAATTCCACAAGGCCATCAACTTGGGGTATGAACTATCCGTGAAGGACTAGTGATGGCTGAACTTCAACCACACTCTGAACAGCATAAAAATGAGA
Celera SNP ID:            hCV25769792
SNP Position Genomic:     8988
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:5887):
ACAATGGGTCAAAATGTATTTTATTTTAAATTCTAAGTTAGGCTCCAAACTTTACATCGGGACCTTGTAAGACGAGATCTTTTATCATGCTAGACTTTTA
Y
TATCCCCTAGGAAATGTAGTGACATTAACCAAACACACAAAGCCATCTCAAGCCTAAAAATGCCTATTACTCCAATCCTGTACTCACTTGCTCCCTGCCA
Celera SNP ID:            hCV29314530
SNP Position Genomic:     6760
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5888):
AAAGAGATGAGTATACACACTCAGGAAAACTTCGCCCGGGCCTTCGAGGTAGGGCGAGGACTGTGCACCACACGAGATGACTTGAAAACCTGTAGGAAGG
Y
TGTATCTCAGTGCCACTTGCTTTGAGGAGACTCACTGGGTAACTGTTTGAGGGTGGCTCTAATGCTCTGCAACAGTCCCTGCAGGGACAAAGAGAAATTT
Celera SNP ID:            hCV25741800
SNP Position Genomic:     6971
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,28)   caucasian(C,17|T,19)   total(C,25|T,47)
SNP Type:                 INTRON


Context             (SEQ ID NO:5889):
CCCTAGGAAATGTAGTGACATTAACCAAACACACAAAGCCATCTCAAGCCTAAAAATGCCTATTACTCCAATCCTGTACTCACTTGCTCCCTGCCAGAGA
Y
AACACAAAGAGATGAGTATACACACTCAGGAAAACTTCGCCCGGGCCTTCGAGGTAGGGCGAGGACTGTGCACCACACGAGATGACTTGAAAACCTGTAG
Celera SNP ID:            hCV25742254
SNP Position Genomic:     6865
SNP Source:               Applera
Population(Allele,Count): african american(C,37|T,1)   caucasian(C,38)   total(C,75|T,1)
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:5890):
CACATTTAACGCCTCCCTCACGCATCACTCAACTGACTGGCAAGCCACCCCTTCCCCTTCGACTCTCTTCCAAAAATGCTTACGAACTTGAAATCCAGCA
R
AAAAGGGGCCACAGTGACTACGTACTCATGATTCTGTTTTACTCTTCTAAATTCACGGTCTACTTACTATTAACTTATATACACGTTAATATTTAAGTTC
Celera SNP ID:            hCV16052820
SNP Position Genomic:     7711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 37
Celera Gene:                 hCG1654260 - 61000125149595
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W6GH(14241058..14261084)
Chromosome:                  Chr15
OMIM number:                 147370
OMIM Information:            INSULIN-LIKE GROWTH FACTOR 1 RECEPTOR;IGF1R


Genomic Sequence (SEQ ID NO:1698):
ATGCCAGGCTATCCCACGTACCTTTCCCAAACAATTCCCAAACAACATGGATGTGGTATCTGTGTGTCCTCACAACTTCATTACTGCACAGAAATAGTAC
CTCACCACCAAAAAATCATGTTCATTGGAACTGTTCTCAGAAAAAACTCCAATCATAAGGCAATGTTTTATAATGAGAGTTTATGGATCAGATATTCTGA
CTAAATTCACCAAAATGATTTCAGAAGGAAAATTACTATTATCTTACAGCTGCTATTGTTTCCTCTAAACTTATACTATGTCAGACAGAAAATCCGACTG
CTTGAAAGAAGGACCCATAAACGGCAAGGAGACAGGGTATACACTAATGACAACAAAGCTATGACAAAAGTGAAGTGGCTTCCACATACACAGTGTTTCA
CTATGGCCCAGGCCCTGCTGTAAACTCCTCACAGGGATTAGCTCATTTAAACCTCACAGCACAACAATCCCTCACTATTAATGCCATCTTACAGAGAGTG
AAACAGAGGCATGAGTCTCAAAAATGGCAGCACAAGGATAAAATCCCATCTGGCTGCTGAGTGGATGTTTTGGTCCTTATCCTATCTCAGAGAATGCATT
CAAACCTAAAACTATGCCAGGAGTCTAAATTTAACTCAAACAAGCTGAAGAAAACCAAAACGTCTCAGATATCACAAAGCAGTGCATTTATTGCATAATG
TTGCACAACAAGGAAAGTTTCTAGAAAGCTGCCCGAACTTACATGGTTACTACCAACATCCAAGCAAAAGAAAGTCCCAAAGGACAAAGAACGTGTCCCA
CATGTACACGATCTGGTTCATCTATTCATATATCCAGGATGCAGCCTGTGCTCAGCGCCCTACTTACAGGAATCTGAGCTTTACGATTAGTATGATTTTA
GCTGCTAAAAATGTGACACCTACCTCTAAGTCATTTGGATTTATAAAAATCCCACCATGCTACAATCAAGAAAGCATTTCACTGAGCAACTGTAAGCCAG
GTACAGGGCATGAGCTGAAGAATGTCCCAGGTGAGTGAGGCCGTTCTAATTTCAACACCTAAAGAACAGGTCACATCAGACGTTATAAATTCTCCAATTT
TCTTTTCTTTTTTTTCTTTTGAGACGGGGTTTCACCATGTTGCCCAGGTTGGTCTTGAACTCCTGACCTCAAGTGATCTATCCACCTCGGCCTCCCAACG
TGCTGGGATTACAGGTGTGAGCCACCGCGCCTGACCAATTCTCCAATTTTCATGACATTAATGATCACGTTAGGCTTAGGGTCAGCTGTGCCCTAAAGCT
CTCACATCAATGTTTTATGGATGTATGGGCCTAACACTGGTATACAGATACCCTTGGCTATATCCCTCTTACTAATGCCAGAGAACGGGTGTTTCTTGCC
ACAGTGCCACTCCTGGCTGTCCAGCACATGTTCACAAGGACTAGGAAAAAGGGATCTCTCCCTGGCAGTCAGCTTCTCTTTTCACAGTGTTGAAAACTCT
GTGAGATAATTTCCTTAGGCGTCCTGGTAACACCTATTAGAAAGTGTTTATTTAATATTTATTCCCACAAATACCAATGAGAGAGAGAGTCTCCTACTAT
TCAACAGTTTTTTGTTTTTTTTTTTTAATCAAGAAATAGTTGAAAAGGATGGGAGTGAAGGCACTTTAAGCCCACAGATGCCAGCAGAGGTGGGACATGA
CAAGTGAGGCTGGGGGGCTGGCCCCAAACTGGTCCCTCCCAAGTCAGCTTGGACACCACACAGCACTTCGTGCGCCCTCGGCTGGCTTAGCACATGGACA
AGGCATTGCCGCTGGAGTCCCACCTTCTTAGAGACTCCTGAAAAGGAGCTCCACGCCACCCCCCACACCTCGCCCTGTGCCACTCTTCCACTTGTCCTGT
CCACTCTGGACATAGAGCCTTCACGGTAAACCAGTAATAGGACGTCAACTACTTTCTGGAATTTTGTGAGCCCAGGTGAGTGAGGCCGTTCTAATTTCAA
CATCTACAGAAGTTATCAAGTTTCAGGTTTAATAACCTAGCAAGTTATCAGACCTGAAAGCAAGGGGCCTGGCAACAAACTCTCAACCTTTCAGGCAAGT
CAGACAGAAGTGTGGGCACCCCATACCTGCTACTCGCATCTGCAGCAAGGGCAGACTCGTGGGACTGAACCCTCATCCCTGTGGAGTCTGTGCTAACTCC
AGGTGGTGAGTGTCAGAACTGCACTGAATTGTAAGGCCCCCAGTTGGTGTCTGGAGAGTTAGAGAACTGGTTGTTGGTATGGCAAAACCCCACACATTTG
GCGTCAGAAATGTTATGAGTAGCAACAGTTCAGAGTCCTTTATGTGCGTTTACAAAAGCAATAATTTATGGCAAGGACTTATCAGAACTACTTTACGATT
TTATTTTAGTTTCTTTTAAGGACCAAGATTAAAGATTTAATTAGTTAAACAAGACAACCAAAACAAATACTTCCTCCTGACCTTGAGTTATCACAGACTG
CCACCCAAGGGGCAACTGAAACAGAAAGGGTGGCCTGCATTTCAGAAGGGCTGGAGGGGACAACGGGCAGTGTGCTCTCAGGTGCTCTGAATCACACACA
CACACACACACCATACACACACAGGCACCCTTTTGGAACAGACAATTATGAAAGCACATTAAAACGCAGCATGCCATTTGGAAGTCTGGTCTTGCTGCTC
TGCCCAAACACAGGGTACACACTTCAGGGAAAACAATCCTAGAGAAACAGTAGCTCTGTGAAAAATGAGAAATGTAAAATGTTTCGGCCAAACACAAAGA
AAAAAAAAATCAGCGTGTGGGATGGGGAGGAGAATAAGACCTATCAGAATTCTTTTTGCTTAGCTGGCCAACTCTGGCAGCATAAAGTTTAAATGGAAGT
ATCTTCAAATTAAATCGCACCTGCATGTATATAAGACTCCCCTGTAATGCTCCGATAACACCTCAAGATTGAGGTCATCTAAATTCAAACCTTAAATATA
AAACCACTCCCAAAAGAGAATGCCTTTGAATATAATGGCAGTTTCAAACTTTGGCAAATAATTATCCTGTTCTTCTTATCTGTGAGAATCTATCATTTAT
TTTAAAAATTCTCTGCAGCGGCCGGGAGTGGCGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGAGGATCACCTGAGGTCAGGAGTTCA
AGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATTCAAAAAATTAGCCAGGCGTGGTGGTGCACGCCTGCAGTTCCAGCTACTCGGGAG
GCTGAGGCAGAATTGCTTGAACTGGGGATGTGGAGGTTGCAGTGAGCCGAGATTGCACAATTGCACTCCAGCGAAACTCCATCTTAAAAAACAATAATTA
TCTGCAGCTCCCTGTATCTTCCAGTAAACGGATTAGCAGGTATTTTCTGAGTGTCCATGATGACGGTCTTAGCACTCTCCTTCCTGCCTAAGGAGTCACA
ATCGCATTCACAATCAAATGCAGGTGCTGTGTGTGCGCTGCTCTCTTCCTCCCATAGCCCCGTTTCACTTTCTCTGGAGTGCATCCCCATCCTCTCAAAG
CAGAATCAACAAGCAAACCACTGTCCTTCTTTCAAAAAACAAAAACAAAAACAAAAACAAAAGTCATGTGTTTATTTCTTCCCCTCTACTTGTGCCTCCT
AAATTCCTTGCCTTAGTCCCAAATCAGTCCTCCAAACGCGGGTTACTTGTAACGTTATTCAGAAGTGGAAGATTACCTTGCAAAATGGCAGATAATGCCC
CAACTAGATATTTCATGGCATTCTAAAACTACATAAAAGCAAGATTTCTTAACATTCCTCTAAATAAATAATAGTGTAATAAATATATGAAACAGGCTAT
GCATTTCCTCAGTGTTCTTCCATTCCCTCCAGTGACCACACATGTGTACTGCATGGTGAGCCCATGACTGAGGAATAGAAATACAGTCATGAGGCAGCTA
ACAGCGTTTCAAAGATGAAGTGCATATACGATAGTGGTCCTGTAAGGATAGAATATAGCTAGAAAATTCCTATTGCCTAGTGACATTGCAACCGTGGTAA
GATGTACATGTTCCTCATATGTTTGTGGGGATGCTGGTGCAAACAAACCCGTGCTGCCAGCTGTATAAAAGTACAGCACGTACAACAGTGCACAGTACAT
AATATGTGATAATGATAATAAGTGACTATGTTATTGGTTTATGTATTTACTATACTTTTTATAGTTATTTAAGAGTGTACACCTTCTACTTATTAAAAAA
GTTAACTGTGGCCAGGCGCCGTGGCTCATGCCTGTAATCCCAGTGCTTTGGGAGGCCGAGGCGGGTGGATCACTTAAGGTCAGGAGTTTGAGATCAGCCT
GGGCAACATGGTGAAACCTCATCCCTACTACAAACACAAAAATTAGTCAGGCATGGTGGTGTGTGCGTCTAGTCCCGGCTACTCAGGAGGCTGAGGTAAG
AGGATCGCTTGAGCCTTGGCGGTCGAGGCTGCAGTGAGCTGTGATTGCACCACTGCACTCCAGCCTGGGGGACAGAGCAAGACCCTATCTCATAAATAAA
TAAATAAATAAATAAATAAATAAATAAATAAATAAAATGTAATATTCACTAAGTGTAGCCTAAGTGTACAGTATTTATCCAGGCCTTCACAATTACTCAC
CACTGACTCACTGACTCACCCAGAGCAACTTCTGGTCCTGCAAGCCTGACTCCTAGTAAGTGCCCTATACAGGTGTACCATTTTTTTATCTTTTACACTA
TATTTTTTACTGCACCTTATCTATGCTTAGATTCAGAAATACTTACCACTGTGTTACCATTGCCTACAGCGTTCAGAACAGCAACATGCTCCACGGGTTT
GCAGCCTACGAGCAACAGGCTATACCATGGACCCTAGGTGTGTAGTAGGCTGTATCAACTAAGTTTGTGAAAGTACGCTGTATGATGCTGGCATAATGAT
AAAATCCAATTACCTAACAATGCATTTCTCAGAACATATCCCTGTCATTAAGCAACATATGACTGTCTATTACTGAGATCTGTACATTTTTAATTACCTT
CATGTTACTGAATCCAGCTTTAAAAAAACAGCAGGAAACCATTTTTTCACTGTGTTTCAAGTCAGCTACAATTTAAATATCATTAGTTCGGTGTCAACCT
AAAATGGAAACAATTACCAGTAGAACATTACATATTACGTTTACTTTTCATTTTTGGTAGCACAATTCCTATCTAGGAAAACATAATAAGTTTCCTGTAG
GAAAAGTAAGATAAAGGAATTAAGAATTCTTAGGGGTCTCACTCACTTAAGACCGCTAATATATGAGAAAAAATATCTTGTGCTTTGAGAAGTAAGCTTC
AATTACCTGGGAAATCAACTCAAGCAAAAAACTCTTTCAATGATGCTAGACAAATAAAATGCACAGGTAGATGTTTGCACGTCCACAGAAATTGCAGCCA
CAATCAGATGCATTCTTCAGATGTGAATTCGTGCATACAAGCAACCCCTGTCTTTCGCAGAGTTAAGTTCAAATCCTGTACACACTTTGTTCCACAAAAT
TGCTGTTGGCTTGCATCTCTTTTGTCACCTTTCTCCATCCTTAAGTCCTCCAAGGTTCTCTCAGGGCCAAGACTGTAGGGTTCAATGACCTTCCCTGGTC
AGCTGTAAAACTAGGGCTAGCACCTTCAGAATCCGCCAGCCACACCCTGCTCCAGCTCACCACCATGAGTTTTCTCTCATCAGCCTCCAAAGTCCAAGCC
ATCGCTACATCTCAGAGATGACGTACAACATGTGCCTTTATTTTATACTCTCAAGATGCTGGATATAGTAGTTATTATCCAGAAAGAATGACTTCACAAT
CAGGATCCGAGACTGGCTATAAACAGTGATCGAATCCTCAACTCATTCCCTCTCGCACCTACAGGAAGGTATTAACAACTGATCCTCCCTTTCATTTTTA
GAGTAACAAACCCAGCTTGTACTACCCATGCCTACAACAGCCCAGATGTGGCACTCAAGGTTGAAAAGGGGCCAYAACTTGGTAACGGGACACACATGAC
CCCATGCAGGAGAACAGCCAGGGCCATGAGGAAAGGGACTTTGGTGCACAATGGCAGGTACCTATGCCCTTGCTGGGACATGGGGCATCAGGGTCATTAC
CAGATGGGTTTACAAAACACCAAAACACGGACAGCAAAAGTAAGATGCTCAGTCCATTGGCTTGCAGTGTTTCAGAGTCCCTGCTTGCTGCTAGCCACGG
GGATGGGGGCTGGGAGTCATCCTGTTTAAAAGCTGCAGTGAAAACCCAGTGTGGTCGTCTCTGTTCTCAATGTCTACCTTGGAAGAGGGAGTTCTTAACC
TCTGTGGCAGAGCAACCTGAAAACAGAATTATACTCCATAYACATAGCTACAATGCCTCATGCAGAATGCTCTTCCCAAAACYGTGCTCAAGGATACAAA
CCCAGGCTGTCCAATTTGGGGAAATCATTGTTTGAGGGTGGCACAGACAAGCAGTCGGCTTGGGGTTTGCTCCCTGTGCACAGCTCGATCATCAAGGAAA
GGCCTCTTCCGGGCCTCAAAGCTCCCTTTGTGAGGAATGAGGCCCACTGTCGAGGCTCACACAGGCAGCTGTAAYCAGGCTGCCCCTCTCTCTGGGTGTT
TGTTTTGATAGAGGTTCATTTATGCCAGAGACAATGCCCGCTCTCTTTGTTCTGCCCCCAGCAGGAAGCAGTGCAGGGAGGGGGACCAGCATTGTCACAC
AGCTTCCAATTCAGGTTTTGGTGGCCACAACAATGGGGCCTCAAGGGCCACAAATAAAGAGCCGCTCACGGGGAGCAGGGCAGAGAGACTGGCACATGTG
GACCCCAGCACACCCCAGGTAGAAGTCACCTCCTAACAAGTGCTCAGGCTCACTATCAAGGGCTTTGAGGGCTCTGAGGTTGGGGAGAGGGAGGCCACCT
CCTCTTCTCTTAAGTGGTGCTGGGAGGGAGAAGTAAGCAAGGTCCCCGGGGATGACAAAGCCTTCCTACCTCTCCTACCATTTATCCCAACTAAAGGAGC
AAACACTCAAAAAAGCAAGCAAAAAGAATGCACACACATGCTTCGTGTTCTAACTTACCAACAGTTGCACAAGGAAGAAAAAAAGTCTAATCTGAATTGC
CAAAAATGAACAATATCCTTTAAAATGAAGCCTGGGCTAGATGGCTGCAAGTGAATGAAATGTATTACCCAACTGCTGCTGTAACACAAGCCCTCTCCTC
CCCCTTCTGGGCCTCATTCATAAAAAGCCTGCTTCGCCCCAGCAGCTGCAGGAACTGGGACTGGATTTGTGTTTTGTGCCGGTGTTTTCCAAGACAGAGG
GAAACAATTGAAACAGACAATCGCTCAGATACCAACACCAAGTTCGCCTCCCCTTGAGAAGTTTGCTGCAGTCTCCTGGTCTAATCCAAATAGGYGGAGG
GAGGGCTGGGAGGGCATCCTGCAGAGCTGTTCAGTGGCGGTTCTAACGCTAACACCCAGCGTGTTATTAAAGGAATTCCCATCTGCTGAGTCACACTCCG
TATCTTTCACTCCCTGACATTTTATTTTTTTTTAATCAAAGGTTGTTCTTTGTTGGTAAAACGGGGGTTGCCAAGTTAATTAAAGATTGCCAAATTGGGG
TAGAGATAGCAACACAACTCCCAAAGAGGTAATTTTTTCATTGTCCACTTTTAAATGGATATTACCATCTACAGACTTTATGCAGCCTGCTAGAAATCTT
ATGAGATAAGGAACAACTTCAATTCTTAATATATTTTTCTAATTTATGAATAAACCAACAACCAACATGCTTCATCCAGGCAGGATGAAGCACTGTCTCC
CTCGCCCACACCCTTTTCCACAGCTGCCCTCCCAGCCCAGCATCTTTTATCACCTAGAAGGGCCAAGGAGGCTGGTTTGTGCAACTCAACAAGCTCTGTA
AAACACCAAGTCCCTAGAAATCTCAGAAATCACCATGAGAAACGAGAGGCTACCAAACTTTTTAGACTCAGCAGCCTTCTTCAAAGCAGGGCCCAAATAC
AAGAGCATGTTCTAATTTACCAGGAATGGTTTTAATACAAGAATTACATAAGAACAGAGTGCAGGAAAGGAAGGGAGAAATAAAACCATTCTTGTTGCCC
TAATACCAGAGCAGTCTTCCGGTGAATTGATACATAAATTCTCTCCAGAGACAAGATAATCCAAGCTATTAACTGTTCCCCTCTCAACTCTTGCAAAACA
CAAGGCTTCGAAACCTTGAAGGGGGGCAGGTGGAGGGGAAAGCCTGCTATATATTTCTAGAAAATACCAAATTTAACACCACGATCCCAGCCTGCTCATC
ACTGCTGGGGATCAGCCATTCTGGGAAGGTAACAGCAGCCCTCAGCACTCCCCTCCGCTAAGTAAACACTCCTTTCTACCACACTCGGTCCCCCATGCCG
GCCGCCTCCCACCTCTGCCTGTGGACTGACAGCCGAGGAAACAAGAAAACAAGCTGGAGATACCAAATGAATCTTGCGAAATACATGGTCTGTGATTAAA
TCACAATAACTCTAACCTCCTCAAAGGCAAACATATCAAGATAGCAAGCTGAGAGCAAAATAAGCAAGTCTTAACAGAAATTATGCCAAGCTTTATAAAG
GGATTACCCACACCTCCTAGAGGCTGTGCAGCCTGGAATCCAGGGTGGTTTGGGTTTTTTTTTTTTAAACTTACTGCAGCCCTTCTAGCTATCCAATGAA
AGCTCTTACAAAGAAACCTTCAGGTCTGCAGTTCTCTGTGGGTTTTCTATGAATATGAACGTACTTTACGGGTGGAGAAAACATATCCATGATCATGTTT
GAGGGGCTCACGAAAGGGGGAGGCACATGAATTATACCATGAATACAGATATAATGAATACAGATTTAGTGAGATTTTAATACCTCAATATTCTCTGGTC
CCACTCTTAAACATCGCCCTTCAACCATCAAAACATCTTAAATCCTGGGGTAGGGGCATAGTTACCCAAAGTTGTGGTACCTTCCCTAAAGAAAACTGAA
ATACATACCAGGACACACATAATTCTGTCAAGTTTGTCCCTAACTGTGTGATCTTGGACAAGTTAGCTAACCTCTCTGTGCCTCAGTTTCTTCATTTATA
ACATGGCTCTAATAGCAGAACGAACCCTTGAGAGGCTGTTGCAACAGCTGGTACACAGTAAGTGCTCAATAAATATTCGTTGCTGTTATTAACATTGTCC
CTATGCCATCTCACCCCCCATATAAGCTCTCTGCTAACTTTCCAACACAGAGAACAAAATCCAAATTCTTCACCATGGCTCCAGGGCCMATGTGATCTAA
TAGCCCTCTCTGCCTGTCACTCACCAGGCTCCAGCCACCCAACCTCATCTCATCCTCCTCACTGGACATCCCACGTGCATCCTGTGTGCACCAGACAGTC
TTGCTGGTGCTTCCAGACTCTGACTACTTCTCTCCACTGACCATCTCCACCATCCTGGTCTAAGGTTCATCTTCTCTGCCCTACACTGGGGCAACAGCCT
ACTCCTACTGGTCTCTCTACTTCTGTCCTTGCCCTTACAGTCTCTCTTAACGCAGCTGCCAGCATGGTCCTGTTAACGTACACACCAGCTCCAAACTCTG
CCATCTCCTTTCAGAGTCAAAGCCGAAGTCCTCACCGTGGCCTCCAGGGCCCTACATAACTGACTCAGTTTACCCCATCCCCCACCAAGATGCACCAAGC
TCTCCAAGCTCCTCGCCTTTCCCYTCCCTTTCCTTTAGGTCTTCGTCCAAATGTCACCTCTCTAGAGACCTTCTCTGAATACCCTACGTAAAAAGGTACC
CGGATACCTGCCTGGCACCACGTACCCTGTACCCCACACCTAACATGTGACCCAGCCCTCCCATCCCCTTCCCTACTTTAATAAAAGCTCCACAGAGGCA
GAGGCCTCATTTTGTCCACTTCTATAACCCTGACACCAGGAACAGTGCCTGGCACACAGCAGGTGCTCAATAATATTTGTGGAGCGAATAATCGATGCCA
TCATGGAGATCTTTCCCTCGCTGGGGCCTACCACCTCATGTTCCTCTCCACGTCTTCTCATGGCTGATTCACAGTGGCAGGGCAAATGTCCCCTCTTCAG
AAAGGCCTTCTATGAGAATCCAACTTAAAAGTCTCCATCACAATCAGTGAGTCTGTATTTTTTTCATAGCACTTACCACTGTCTGACATTATTTTCTGTC
TACTTGTTTGTTGTCTGTTTCTACCACTAGAATGTTTCCATTTGTTTTCCATTTGGAGAATGGAGTTGGCTTTGTCTCTGTAACCCCAAGTAGCTACGTC
AGCACAACAGAATGCTCAGTCCGTATTTGTTGAATAAATGGCAATGTATATACTGACATTCTTTAAAAACTAAAAGCACACATCCAGAAGAGGAACCGGG
AGGGCTCTGTCTTACCCCAGATGACACATACCCTGCAGGTGCATGTGCATGGAATGCCTTGGGCACCTGAAAACACCACCCCGCTCCCCCAACCCCAAAT
GAAGAGCTCTCCATCTGACCTGGGAGAAGCACTCAGAACCTAGACATGGCTCCGACGCAAAGAAAAACAATTTGAAGTTACTAAATAACAGCCCAACATC
TGTCACCACATATGAACAACTCTATGCACAGGTAACGGTCCACTCGCCATGCTCACTGTCCAAACACCCGGGCATCAGGTTTACCTTCCCCCTGAGTGGG
CTTTCGAGCAGTCATCACAGCTGCCTGGGAGACACAGCTCTAAAACGGGGCTCGGGCTGCAGCCCAGGGGCCAACACTGAGCTCCCAAAGCTTTGGATGC
ATTTCCTACTCAGCATGGACATCAGGTGACTTCCTTAAGAGGAAAAATCACCCCGCAAGACTGCTGAGAAAGCAGGTGTGGCATTTATCAGTGCTGCTGT
CATCCATAGAGAAGCCAGGAACAACGAAATGTAACTCTGTGTACACAGAACTCTGCCACCCCACACAGRGCAGATGGGGCAGCCATCAGAAATGCGGGGC
ATGGACCCAAACGCCAGCATAGCACCACACCCCCAAATGAGGGGGGAACAGGCTCAGCACCCCAAGACATCCAAGCACCATGGCTTTTACAGCTAGATGC
ACTCTCCACAAGCCAACAGGAGTCGCGAGTGAGAGCCTTCGAACACATCCAGTGTGAACATGCATTCAGCAAACATTTCCTGAGCCCTGCTTTGTGCCAG
GCTGTTCTCAGTGCTCAGGATACACAAGGAAGAAATAAATAAAARATAAGGTTTCTGTCCTTGTAAAGCTTATATTCGTGTCCGTGTGTGCATGCCTGTG
TGTATGTATAAGAATACATTCAATAGACACAATTATTAAGTAAATTAAGTCATATGTTAGAAAATAAGTGCTGTGGCAAAATCCAGATTAAAATCACCAA
TCACTAGTCAGGAGACCCCATCAGCTACGSAAAGACCATACAGGTAGTGTGCAGAGACACCAGAGAGGTCACCCTGTTTGATCGACAAAAGTATGCTCAT
TAGAAGGTAAACCACAGGACTATGGGGTCTTTATCTCTTTTYTCCCTGCAGGATTCTCAGCTCAAGAAGAGCACCTGGCACAGGTCAGGGACTCAGAAGC
ATTTGTTGAAGAAATGGAAGTGCTCACCCACTGAGTTCTTGCTTCTGCAGCATTCCTGGCAGGTMACCCTCTCGAGTTGGCTGAAATCTTTCCAAGAATG
AAAAGCTGGGCTTTTACAACAAACTAACAAGCAAACCCCAACCAACCACCCCCACACACCCCCAGGCGCCTTTACTGTATTACTTTCTGGACCCTCTGAG
ACACACACAGTCTACTACTAACGCCAGCACATGCTGTGATGGGATTCCCCCAGCAGTGCCCACACGATGCTGGGCCCACACAGCCTGTGACACCTGCTGG
CCACTTCGCTCCCAYGGAGAAGCCTCTTTCACGTTCATATGTGCTGGGGATCTGTGTCTGCTGAGAGCTGAGCTGCCTGCCTGGGATCAGCCAGATGGAG
CAGGCAGAGAYGGCACGGACCACACTCCAGAGGAACACGCCATGGATGGCTRTAYTGTTGATGTTTCAGATATCCAAAAAGTAAATTATAAATCTTAGCG
GTGATTTAGCTATCCTATTTGCCAAAGGTAGTTTACACGGGTGTTTCAAATTACTTGGTAAGAAGGCACAGGTGACACGAAGGGACCACCCACAAATATC
TGGCATGTTCCAGTCGCATGCATGGCATGTCGCATGTGGTGCGACAGTTCTCAGGAAACAGCATTTGTAAAAACATGCTTATTAAAAAATTAGAGAGATT
TTCTATAAGAAACACATAATAGGCGCAGTGGCTCATGACTGTAATCCCAGCACGTTGGGAGGCCGAGACAGGTGGATCACGAGGTCAGGAGATCAAGACC
ATCCTGGCTAACACAGTGAAACCCTGTCTCTACTAAAAATACAAAAAAAATTAGCCAGGGGTGGTTGCGGGTGCCTGCAGTCCCAGCTGCTCGGGAGGCT
GAGGCAGGAGAATGGCATGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCATCTCA
AAACAAAACAAAACAAAACAAAACAAAAAACAAGAAAGAAACACATAATAATGCTAATCTAATCATTTGTGTATTTTTAAGTTTTTAACTTACTGATACA
TGTCAATGTGTTAAGACCAAAAAAATACATGAATTTAATTTAAGTCTAGACGGCAAAGTCAAATTAATGTAGTATACAATTTTCTTAATAAACTTTTCCT
TTCCTACCCTCTTTCGCCCCATTTTGAACTTTAAAGAAAAATTTGCCTTTTTGCTGCTTCCTAAACAATCTATGACTGCTACAATAGTCAATCTTTATTT
TCCCACTTAGTTTGCTTATGGATGTGAGGGTTAAATGTTATGAACATAATTTAGTGCTTACAACATCAGCAAATCTGGCTTCTTCCTTGAGCTGATACAC
AGTGAGGTTAAGGTCAGGGAAACATCCGTGCCTTCTGGTCCAAGCTGAGAGCATTGCTAAGGTAAGCAATCAAAGCTGGGAAGGCTGGGGTTGGGGAGGT
GTCAAGGATGACACAATACAAATGCTAAAGTCTACAAAACAAGGTTGAAGACTCAAGTCCACAGCAGCAGTGGTTAAGGGGCGGGGGATTCTTGCTTGAA
GACGACACCAGGCACATTTTCCAGTTGGAGAGCTTGTAGTGAATTCAGATCACTTGGTATTTCAAGTGTTTCCCAAACTACTGTAGATGAAGGGCTCTGA
AATTATTCCATTTTGAAACTCATTACTGATTTTGTTACAACCAAATAGCAGCAAACATTTGTACAGCAGTTTCCAGTAGTTGTACATAAAAATGCTTTGG
AACACATTACTTGGGAAATGGAACTTTACACAGACAAATCAGAATGCCACTTACCTAATGGAGACAGTTTGCTTACTAATTAATTCTCAAGTCCATTTTG
TAAATAAAAACAGAAATGGGGCCATCCTGGAGAATCATGATGCTGTTAACTGAGCTACATGGAAGGCGCAGTTTTCCTCCTCTTATCACTGGTCTTTTCC
TTCTCACACTMAGCAATCTGAGCACCACGGGGGGCAACACCTGCTCTCTAATACAGAAGAGATGGGTGTATACCTCCATTCTAATACAGAATGTCTCCAT
ATACCCAGCCATTTCTAGGGAAAATCATCTCTGACAGCTGGCATGAAATCAATGTCCACCTGAAAAGTACCTTTGAGGGCCATCTAATAAAGGCCAAAAC
TATGSCCACGAATCCAAAACTGCGGAAGTCTAGACTGGCGTTTCTAAATAAGCTAGAGAAAAATACTCAATGTGCGACATCTTGTAAACTCACAGCTGCT
GAAGAACAGTGTCTTTCAGTCACATAGCTGAACTGAATGCAGAGGACACTGCCATTTGTGACCAACATTTCCTTTCTAGGGAGGAATACCCAGGACACTT
GTTACGGCTGCTACCTAAGTGCTAAGATAGGGCGCTTCGCCACTGTGCCCCCTGCTTCATCTCAAAAACTAAAATTTTCCATCAAAAATTGCCCTCATTT
TGTGCCTTTTTGCAAAAGTGAAGCTATCTAAATTCTAGCAAAGGAACGAACACAGGTATTTCAGAATACCCCACCTTTAAGGGTCTCAAAGATTCCAGGG
TGTTCCCTCTTAGGATGGAGTTTTATCTTGGCTGAAATAAAAGGGTCTTAATAAAGTCTTTTTCCTGCAGACCTCTGGGTATAAATTATAGATTCATGTC
AAAACAGTGAAAGGGATTTGAGGCAAAAGATATTTCTTTCATAAAATATTATGCATCAGAGTATACGTTCTATGCTATAAATATTTAGCAAGGGATAATG
TGACATATTTACTAATATTTCTGTCAAAATAACAACATCTAAACTGTCACTTCAACAAGGAAGCTTCTCTTCCTGTTTTAGTATAGAGAAGCACTAGGAT
ATCGTCTCTTTTCCTTTTAAAGAAAAATGTATTCTGACTGCTGGTAAAATCAGGAGTAACTTGAGTCTGTGACTTAAAGGGCAGAACTAAGCCCTATACT
ACAGTGATAACAGTAACAGGAACATCTGATTACAGATAAGCTGGCTCCTCATAAACCCTGATACAACCTAAGGCCTCCATTTTCATTACACACCTTCAAA
GATGCTTTTAAAATGGACTTGTTTATTGACAACACAAGATTTTTTTTAAGTACTTGTTTTCCTTTTCTAAAGGGGAGACTTCTTGCTATTTGCTAATTTT
CACATCTGTCAATGCTGACAACAACTGGATCTGTTGAATAAACATTTATTCCTTTTGACAAAGAACCTTCACATAAAATTGAACTCAATGGAACTTTATG
ATCGGGGCAAGAGAATTTGGAGCAACTTCACAGATTAGTAATATCTAACAGTGGCCAGGCCCTGGAGGTTCTCTTGCAGTGACCCTGGGGAATGGACCAG
TCTTTGTATCAGCAGAGGACAGACCAGAGCTTTTCAGGAGGAAGAAAAAAAACAACCCAACAAATCAATACAGCAATATACAATGGTAGACAAAGCTACA
CGCGTTTACAGAGTTTCAGCGCATAGAAACATCCAGTTCAGAAGCCTGTTAAACTTACATCTGTATTTGGAATCTCATGGGAGGCAACCCCTGGCAAAAT
ATCAACTCTTATTGAACCAAAACAAAATCTGTGTAGGCACAGAGTATCAGTACAAAATATCCAAAAACAAAAGCTCACTTTTCCAAAAGAAAAACGCTAA
GTTCAAGGAAGCAGCCAATAAGTAAGAGAAGTTTGGGCTTTTGACCTTCCCACCCTCCCATGCCACCTAGGAATATTCATTTTTAAAAGACTGAAGTTAA
AATATATAATACATATATGAAAAGATCCCCTAATTTGGGCCAGCCATAATCATCTTAAAATGGTAACCTGGGTAACAACTACCTATCATAATTTATCCTT
TGAAGATAACCACAGATTCATGGTTTTGATTTTAAAAGCTTCTTTCCAAACAAATAAATAGGTATCAAATCAAAAGGCACACTTTAAAAATAGGAAGATT
TTGCTAATTTGTCTTCATTTGCAAAGATGAATCTTACTCTGAAACCTCATTTGAGAGTGCTCTAGTCTCTCAGGATGCATAGAAATGCCTTATAAATGCT
AAGTCATATAATAATGGTTATGTATTTGGGTGTTAGTCATCTGCTCTTCTTGCTGAGATAAATAGCTACCATCTGAAGGTGAACACTTCACCTTCCCTAC
ATTTACAATACTCTACCATCAAACTTTCATTTAGATTAGCAAATAAATGGGAGTTGATAAGAGAGCTGTCAGGCATACCTAACAAACCTGAAACCTAAGT
GTTAGGAAAGTTATTCTGACTCAAGTATTCTACATACAATGAATTTGGGGACCTTATAGGGTAATAGGGAAGGAAAAAAGATTTTTCTCTTAACTAGCTG
CTGGGCCCCACAAACAGGGAGAATTGTCTAAACCTGAGCCACCATTCTGATCCTCAAACCCTGCCAGGTGAGGACCTATAGCTAGATTGTGTACTGGAGG
ATATTAGAGCAGATTGCTCCTCTGCCAACTTCTCTCCTTCCTTCTTCTATTTCTTCCCTTTCAAACCAGACCACTGAAACTCTCAGTCTGTATTTATGTG
AAATAACAGGAACGTTAAACATGCTACCTTCTATTTGTACAGAATTGCCATGCAACACAAAGAATGATTATGCATTAGCTACGTCACATTTACCTGTGAA
ATTTATCTCATTGTAGCACTATAACTCTATTTACTAAAATATGTTCATCCTTCGATCACATAGTATTTTCACCAACTTAAAATTTTAAACGGAATCAGAA
AATATACAGCCTTTCCTAATGGCCTCCTTAGGTTTTCAAGCTTCTCCCCACCTTCTACTTTTTTTCAGATGGTATAAGGACTTTTCATCTGTGATACCAA
TGGGTACTTTTGGTTGGAAAATCTTCCTCTGACACAGTCCACAAGTCACACATTACACACCTAAGTGGTCACAAACAGGATTTTAATCTATGTGAACAGA
TCACCAATCTTGGTTTCATCCTTTTATGAGTAAAATGTCATAAAAAAATAAACTCCTTAATACATGTAATAAGTTACAAGTGAAGTAAAAACTAAATATT
AGAGGAAAAGATACAAATAAGTTAGTTGTTGCTTTTTTAAGTTTTTCAAGATACAGAATATCATTACAGCTGTTGCATTTGAAAGATGATGCAACAGACA
AGGGCAACCACACCCCCAAGATCTTTGCAGCTCCACAAGAATAGGATTTAGACCCTTAAAGAATATGTCTTAACATTTATCAGTCAATAATGTATTAGGC
ATTTTTAAGTAATTTCTAACCAACAACCCATCATCATCACTGAATCATCTGAGCATGAACTAAGCTATGCAAACTTCTTTAAAGAAAGTCTGGGACAAGC
TTCAATCTAATGAAGGCTTAGGAACAGCTTTACTTTGTGAACAACTACAGCTTGCTGGAGAAGAGGCATCTCACAATAGCACAAAAGAACACAAAAAAGA
AAGTGATCTTTTTGATTAACCAACGTCACTTTCTGCTTTGTTTTAGGCATTATAAGGTAAATGAACTAAAGGTAATCAAATGATGAAGTTCTTCCTGCCC
TAAATGAATGTGTGTTTAGTCCATTTACCTACTGAGTCAACATGGAAAGAAAAATAAGAAAGAAAACTAAATTTTGTAAGACAGTAGAAGTTTTAATACA
TACTCAGTTCTAATGCCGTTAATTTTGTTTTCCTTCCGATTTCCTTAAGGGAAGACTCTGGTTGAGTCTTTCTCTGCTTTCCACATAGCCCCTCGAGGCA
CAGAGACAGAAGGGTCTGCTGTGGGAAGAGACCATGGAGCAGGTGCAGTGGCCCCTCTGAGGATAAAAACAACACGCCCAGAGGCTACAAAGCCAGCTAG
TGACCCAGCCTTCACCGCTCCCAGACTCCATCTCCCCTGCTCCCCCGCTATACCACAGGACCTTTGCAAGTGCAAACTGCATTTGAGATAAGCTTCCCCA
GACATGCTTTCATGAGGAGCTTATGGCGTTTTCTGTGCTCACAAGCAGGGTCTGGCACTGCCCTACCAAGGGAATGATCACTTGTAAGAAGAGGGAGGAC
AAAACTATCCCTGATGGCTCTTTCACATGTTTCTTTTAAATAAAAAGAGTGATGATCTTTCTAGGCAAGGACACAAGTTGCCCAGGCCACCCCCTTTCCC
TTCAAACACCCATACCCACCTCATATGGCACATATAGTACCCCAAAATGCCAGATAAGCTGGGCCACCTCACACACTGCAATGACCAAGCCCATCTCCTC
CATTGTCCTCATCCTTCCTTCGAAATCACCTGTCCCGGCCTCTTTCCAAACCCAAGTGGAACAGAGCCACTTGAACAGAGCTTCCTTCACAGAAATCCTC
CGGAGGCAAAATCCTAGAGCACAAACTACATAGAAACTGAACAGTTAATGTACATTTCCTTTGGCTAAGTCACAGACACTAAATGTTGGCAGACAGAGTA
CATCTGAAGCAAATCAGGGCCATTTTCAGGGCAGAGACTTGCTTTTATTCTCTGAGCTCCAGCAACCCGCCTCTCTGACTTCTTCCTCCCATGGTGCTTT
TCCACCCAGATAACTCGCCCCCAAAGCTGAGGACCCTCCCAAGGCCATGAAAGGGGCCTGGGTTCACCTCCACTGTCACAGAGTTTAAGAACACATGCCC
TGTATAGCCTATTTTGTTTGCTTGTTTCTTTATTAAACTATAAGAGCATCATCCAATTTGAAATGCCCCTCCTCCAAAGAAAAAGCTGCGTGGCCCAATG
TTAAAGGTCTACATCAGAAGTCACTGTTGCACATCATTATAATTAAGAAATGGCATATCACCTTCTTTGTAAGGTATAACATTTTCAATGTTGCAATATA
AGCTGACCACCTCCTCTAAGGCGAGGACTCGGCGTCAGGGGCAGGGAAGTGGTGAGCAAAGAAAGGGCAAAAACAAGACCTTGATCACAGAAGCAAGAAT
CTGACATTGGATTATTTTTGAAACATACTACATACATAAGGAAAATGATGATGCTATAAATTAAAGTTGTGGTTTTCTACATTTTAAAAAAAGGCTAGCC
AGCCGACCTTATCATCCCTGTCATTCCAATGGGAAAAAGCGTCATCAGCACAATTGTAGAAGCCTAGAACAATGTGTCCCTGTCAACTCAGTGAGGGTTT
TCTTCTTTCAAAGATAAATCAAGATGCCATAACCTAGGAATAATATAACTACTTACACACAGAGAACAAAGTTGGCAATCACGATCTGAGTTAAGTTTAA
GGTATGTTTGTCTTTCCATTTTACAAGAAGGTAAATGAACAGGAAAGTGAGCTGGAACAAGTAAACTGAGCCATAAGCCTACGTGTGCTTTTTTGTAGAA
GCACAGTCTAAATACACACACGCAAGCCACTGCAAAATGACTTTCTAAGTTAAAAGTCAGAGAAATCAATGTTTGACTGACTATGGAGCATACAAATTCT
TCATTTGCTTTCATCAGCTGAAAAAAAAATGCTAGAAATAACTACGGAGAAATGGTAAAGAAAAAAATGTAATGTACACAGTTTTGCTGAAAACCATGAA
GATACCAGCAGAAGAAAAAAGAAAATGAAGACGACAAATGTATTTCACACAAAGATGACCGGGGCTGTTTCTGCACAGCCTCCACCTGGAGCTGAATCAC
CGGCCAGAACAGGGATTAGGACAGGCCTCACTGGCCTCCCAGAGCTGTCAGACCTCAGCAGGGCGGGCGCATCCTTGGGTAGCCCAATCAAGGCTGAGCA
GTATAGACCGTTTGCAAACTTGCGCAAACTGTGAAGTTATTTACATGCATTCAGGGAAAAGACTCCCCCAAACAGGGAAGCTTCTACCAAACAAATGCCT
TAAAAATTATTTTATGAAAGAGATGTCTGTTATGTGTAAACAGACACTAATTGTTGCTGCACCTTGGGTAAGTGACAGGGCTCAGAGAACAGGAAGGAAG
CCTGTGACTTAGCAGACAACAGGACAGTTCTTCCCTTTGACCTTCCACTGGTCCCAGATTATGACTCAGAGACTGTCTCCCACTCTTTACCCAAGGGGAG
ATCCCTGCACCTCCTCCTCCAACATCCTACATCTTTAAAATGCTCCTCTGAATCCCAGAACTACAGAAACCACAGCACTCGTGCTGGTGAGCAGATTCCT
AATTGCAGAAGATGCATACAACTTGATGCTTTCAGATTAGAGTCTACCCATTCCTACCATGCATTTGTTCCTACACAATAGCATACGGGCATGTGTAGGA
GGTCACCCCACATTCTTTATTAACTT


SNP Information

Context             (SEQ ID NO:5891):
CAGAAATGGGGCCATCCTGGAGAATCATGATGCTGTTAACTGAGCTACATGGAAGGCGCAGTTTTCCTCCTCTTATCACTGGTCTTTTCCTTCTCACACT
M
AGCAATCTGAGCACCACGGGGGGCAACACCTGCTCTCTAATACAGAAGAGATGGGTGTATACCTCCATTCTAATACAGAATGTCTCCATATACCCAGCCA
Celera SNP ID:            hCV29314518
SNP Position Genomic:     13711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5892):
TTAACATTGTCCCTATGCCATCTCACCCCCCATATAAGCTCTCTGCTAACTTTCCAACACAGAGAACAAAATCCAAATTCTTCACCATGGCTCCAGGGCC
M
ATGTGATCTAATAGCCCTCTCTGCCTGTCACTCACCAGGCTCCAGCCACCCAACCTCATCTCATCCTCCTCACTGGACATCCCACGTGCATCCTGTGTGC
Celera SNP ID:            hCV29314519
SNP Position Genomic:     9389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5893):
CGAAGTCCTCACCGTGGCCTCCAGGGCCCTACATAACTGACTCAGTTTACCCCATCCCCCACCAAGATGCACCAAGCTCTCCAAGCTCCTCGCCTTTCCC
Y
TCCCTTTCCTTTAGGTCTTCGTCCAAATGTCACCTCTCTAGAGACCTTCTCTGAATACCCTACGTAAAAAGGTACCCGGATACCTGCCTGGCACCACGTA
Celera SNP ID:            hCV8722951
SNP Position Genomic:     9824
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5894):
CAATTATTAAGTAAATTAAGTCATATGTTAGAAAATAAGTGCTGTGGCAAAATCCAGATTAAAATCACCAATCACTAGTCAGGAGACCCCATCAGCTACG
S
AAAGACCATACAGGTAGTGTGCAGAGACACCAGAGAGGTCACCCTGTTTGATCGACAAAAGTATGCTCATTAGAAGGTAAACCACAGGACTATGGGGTCT
Celera SNP ID:            hCV8722952
SNP Position Genomic:     11530
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5895):
AGGTAGTGTGCAGAGACACCAGAGAGGTCACCCTGTTTGATCGACAAAAGTATGCTCATTAGAAGGTAAACCACAGGACTATGGGGTCTTTATCTCTTTT
Y
TCCCTGCAGGATTCTCAGCTCAAGAAGAGCACCTGGCACAGGTCAGGGACTCAGAAGCATTTGTTGAAGAAATGGAAGTGCTCACCCACTGAGTTCTTGC
Celera SNP ID:            hCV8722953
SNP Position Genomic:     11642
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   African American (pooled) - WICGR(C,1|T,99)   Asian (pooled) - WICGR(C,1|T,83)   Caucasian (pooled) - WICGR(T,96)   total(C,2|T,278)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5896):
CTACTAACGCCAGCACATGCTGTGATGGGATTCCCCCAGCAGTGCCCACACGATGCTGGGCCCACACAGCCTGTGACACCTGCTGGCCACTTCGCTCCCA
Y
GGAGAAGCCTCTTTCACGTTCATATGTGCTGGGGATCTGTGTCTGCTGAGAGCTGAGCTGCCTGCCTGGGATCAGCCAGATGGAGCAGGCAGAGACGGCA
Celera SNP ID:            hCV25986138
SNP Position Genomic:     12015
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(C,37|T,1)   total(C,69|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:5897):
AAGAGGGAGTTCTTAACCTCTGTGGCAGAGCAACCTGAAAACAGAATTATACTCCATATACATAGCTACAATGCCTCATGCAGAATGCTCTTCCCAAAAC
Y
GTGCTCAAGGATACAAACCCAGGCTGTCCAATTTGGGGAAATCATTGTTTGAGGGTGGCACAGACAAGCAGTCGGCTTGGGGTTTGCTCCCTGTGCACAG
Celera SNP ID:            hCV8722947
SNP Position Genomic:     6483
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,7)      total(C,4|T,7) ;no_pop(T,-|C,-)   (T,-|C,-)   African American (pooled) - WICGR(C,18|T,82)   Asian (pooled) - WICGR(C,7|T,77)   Caucasian (pooled) - WICGR(C,12|T,84)   total(C,37|T,243) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5898):
GAAGAGCACCTGGCACAGGTCAGGGACTCAGAAGCATTTGTTGAAGAAATGGAAGTGCTCACCCACTGAGTTCTTGCTTCTGCAGCATTCCTGGCAGGTA
A
CCCTCTCGAGTTGGCTGAAATCTTTCCAAGAATGAAAAGCTGGGCTTTTACAACAAACTAACAAGCAAACCCCAACCAACCACCCCCACACACCCCCAGG
Celera SNP ID:            hCV27009653
SNP Position Genomic:     11766
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,7)   total(A,7|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5899):
CTGTGTCTGCTGAGAGCTGAGCTGCCTGCCTGGGATCAGCCAGATGGAGCAGGCAGAGACGGCACGGACCACACTCCAGAGGAACACGCCATGGATGGCT
R
TATTGTTGATGTTTCAGATATCCAAAAAGTAAATTATAAATCTTAGCGGTGATTTAGCTATCCTATTTGCCAAAGGTAGTTTACACGGGTGTTTCAAATT
Celera SNP ID:            hCV25986820
SNP Position Genomic:     12152
SNP Source:               Applera
Population(Allele,Count): african american(A,21|G,3)   caucasian(A,38)   total(A,59|G,3)
SNP Type:                 MISSENSE MUTATION

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


Context             (SEQ ID NO:5900):
ACATCCAGTGTGAACATGCATTCAGCAAACATTTCCTGAGCCCTGCTTTGTGCCAGGCTGTTCTCAGTGCTCAGGATACACAAGGAAGAAATAAATAAAA
R
ATAAGGTTTCTGTCCTTGTAAAGCTTATATTCGTGTCCGTGTGTGCATGCCTGTGTGTATGTATAAGAATACATTCAATAGACACAATTATTAAGTAAAT
Celera SNP ID:            hCV27009654
SNP Position Genomic:     11345
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:5901):
AAATCTTATGAGATAAGGAACAACTTCAATTCTTAATATATTTTTCTAATTTATGAATAAACCAACAACCAACATGCTTCATCCAGGCAGGATGAAGCAC
T
GTCTCCCTCGCCCACACCCTTTTCCACAGCTGCCCTCCCAGCCCAGCATCTTTTATCACCTAGAAGGGCCAAGGAGGCTGGTTTGTGCAACTCAACAAGC
Celera SNP ID:            hCV27009655
SNP Position Genomic:     7894
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,5)   total(T,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5902):
GAAATCTTATGAGATAAGGAACAACTTCAATTCTTAATATATTTTTCTAATTTATGAATAAACCAACAACCAACATGCTTCATCCAGGCAGGATGAAGCA
C
TGTCTCCCTCGCCCACACCCTTTTCCACAGCTGCCCTCCCAGCCCAGCATCTTTTATCACCTAGAAGGGCCAAGGAGGCTGGTTTGTGCAACTCAACAAG
Celera SNP ID:            hCV27009656
SNP Position Genomic:     7893
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|C,5)   total(C,5|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5903):
CAGAGGGAAACAATTGAAACAGACAATCGCTCAGATACCAACACCAAGTTCGCCTCCCCTTGAGAAGTTTGCTGCAGTCTCCTGGTCTAATCCAAATAGG
Y
GGAGGGAGGGCTGGGAGGGCATCCTGCAGAGCTGTTCAGTGGCGGTTCTAACGCTAACACCCAGCGTGTTATTAAAGGAATTCCCATCTGCTGAGTCACA
Celera SNP ID:            hCV29314520
SNP Position Genomic:     7495
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5904):
TGTCTGCTGAGAGCTGAGCTGCCTGCCTGGGATCAGCCAGATGGAGCAGGCAGAGACGGCACGGACCACACTCCAGAGGAACACGCCATGGATGGCTATA
Y
TGTTGATGTTTCAGATATCCAAAAAGTAAATTATAAATCTTAGCGGTGATTTAGCTATCCTATTTGCCAAAGGTAGTTTACACGGGTGTTTCAAATTACT
Celera SNP ID:            hCV25987285
SNP Position Genomic:     12155
SNP Source:               Applera
Population(Allele,Count): african american(T,22)   caucasian(C,1|T,35)   total(C,1|T,57)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5905):
AGAAGAGCACCTGGCACAGGTCAGGGACTCAGAAGCATTTGTTGAAGAAATGGAAGTGCTCACCCACTGAGTTCTTGCTTCTGCAGCATTCCTGGCAGGT
M
ACCCTCTCGAGTTGGCTGAAATCTTTCCAAGAATGAAAAGCTGGGCTTTTACAACAAACTAACAAGCAAACCCCAACCAACCACCCCCACACACCCCCAG
Celera SNP ID:            hCV15979743
SNP Position Genomic:     11765
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(-,1|A,7)      total(A,7|-,1) ;no_pop(C,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:5906):
TGTGCACAGCTCGATCATCAAGGAAAGGCCTCTTCCGGGCCTCAAAGCTCCCTTTGTGAGGAATGAGGCCCACTGTCGAGGCTCACACAGGCAGCTGTAA
Y
CAGGCTGCCCCTCTCTCTGGGTGTTTGTTTTGATAGAGGTTCATTTATGCCAGAGACAATGCCCGCTCTCTTTGTTCTGCCCCCAGCAGGAAGCAGTGCA
Celera SNP ID:            hCV25987553
SNP Position Genomic:     6675
SNP Source:               Applera
Population(Allele,Count): african american(C,6)   caucasian(C,37|T,1)   total(C,43|T,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:5907):
ACAACTGATCCTCCCTTTCATTTTTAGAGTAACAAACCCAGCTTGTACTACCCATGCCTACAACAGCCCAGATGTGGCACTCAAGGTTGAAAAGGGGCCA
Y
AACTTGGTAACGGGACACACATGACCCCATGCAGGAGAACAGCCAGGGCCATGAGGAAAGGGACTTTGGTGCACAATGGCAGGTACCTATGCCCTTGCTG
Celera SNP ID:            hCV25990091
SNP Position Genomic:     6075
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,38)   total(C,66|T,2)
SNP Type:                 UTR 5

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:5908):
AAAGCAGGTGTGGCATTTATCAGTGCTGCTGTCATCCATAGAGAAGCCAGGAACAACGAAATGTAACTCTGTGTACACAGAACTCTGCCACCCCACACAG
R
GCAGATGGGGCAGCCATCAGAAATGCGGGGCATGGACCCAAACGCCAGCATAGCACCACACCCCCAAATGAGGGGGGAACAGGCTCAGCACCCCAAGACA
Celera SNP ID:            hCV25988551
SNP Position Genomic:     11069
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,23)   caucasian(G,34)   total(A,1|G,57)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:5909):
CCCACGGAGAAGCCTCTTTCACGTTCATATGTGCTGGGGATCTGTGTCTGCTGAGAGCTGAGCTGCCTGCCTGGGATCAGCCAGATGGAGCAGGCAGAGA
Y
GGCACGGACCACACTCCAGAGGAACACGCCATGGATGGCTATATTGTTGATGTTTCAGATATCCAAAAAGTAAATTATAAATCTTAGCGGTGATTTAGCT
Celera SNP ID:            hCV25986737
SNP Position Genomic:     12111
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,36)   total(C,65|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:5910):
AAAACCCAGTGTGGTCGTCTCTGTTCTCAATGTCTACCTTGGAAGAGGGAGTTCTTAACCTCTGTGGCAGAGCAACCTGAAAACAGAATTATACTCCATA
Y
ACATAGCTACAATGCCTCATGCAGAATGCTCTTCCCAAAACTGTGCTCAAGGATACAAACCCAGGCTGTCCAATTTGGGGAAATCATTGTTTGAGGGTGG
Celera SNP ID:            hCV1599470
SNP Position Genomic:     6441
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:5911):
CCAGCCATTTCTAGGGAAAATCATCTCTGACAGCTGGCATGAAATCAATGTCCACCTGAAAAGTACCTTTGAGGGCCATCTAATAAAGGCCAAAACTATG
S
CCACGAATCCAAAACTGCGGAAGTCTAGACTGGCGTTTCTAAATAAGCTAGAGAAAAATACTCAATGTGCGACATCTTGTAAACTCACAGCTGCTGAAGA
Celera SNP ID:            hCV29314517
SNP Position Genomic:     13905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Gene Number:                 38
Celera Gene:                 hCG1790280 - 30000035077830
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W6W6(6086445..6099527)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1699):
ATGAGAGGCATTCTCTGTGAGCACTGAATCCTCAGTGATACTTGTAGTCTGGACACACCAGCTAAGGGCTCTCTGCCTGAGTCCCCTCAAGGTTGGATGC
AGATGTGAGCACACCCAGGAGTCTGCACTTGCCAACCTCTCTCTCTGAAACCTTGTCTGTCCAAGGTTATCCTGAACCTCTTGGCCCCATTTCCCCATAG
ACAAGCAACTTGACCCCTGAGCACCTCCCCTTATTTACTGTGTCCATGTTCCTGGAGAGAGAATAGACCTGGTGGATAGCAACCTATCCTATAGGAGGTG
AGTTTGATTCTCCAGCTGTGATAGAAGGACACTAGGCCGTGGCAGGAGCCCCACATGCTGTCTCAGAGTCTGGTTCCATAAAGAGAAAGTCCCCTAGGAA
TTGTTCCCTGAGCCAGACCCTCCAGGAATAGCAGCTCTGCTCTTACCTGGAGTGGCCCTGCTCTGGACCACAGATATGAGCAGCACCATCAGTAATGCTG
TCAGAGCCACTGTCCAGGGGCCCCCTGAAACCTGCAGGATCATCATGGAGTTGGAAAAGGTTGGCAGAATGAAGAGAGCTGCAGTCAGGAAAACAAGAAC
TCATTAAAGGGAGCTCCTGTCTGAAATATTAGAGACCATGAACCCAAGCAGTCTTCTGTGACCCTAGGATTGGACAGACTCTGAGAAAAGAACCAATGGG
CACTGAGCTTTGTATGAGTCATTGCTCACTGGGCAGAAAGTTAGTATTAAAGATCTGACAATATAGAGCCAGTGATGCTGTTACGAGGACAGATGGAGAA
CACTGACACTCATTTTAACCAGTCAGAGTCATGAGTTTTGGGGAGATGATGTGTTTTCTTTGCTCTGAAGGTGATCTCAGATATTCTGCTGGCCCACCTA
CAGGGATTATCATTTCCCCAATTCTGCCACACCTCACACACCCACAGGACATGGCCTGGTGTGGAAGAAATGCTATCTCAATGTGTAAAAGGTCATTCAG
TGGCATGATTTAGAGAGATTAGAGTATCCATCCCAGAACTGAAAATGAGGCCTGGAGTCTGTTTTGCCTTTGTTCAAGGCCGTGCTTCAGATTAGTGCAC
ATTCATATTTTCTTCCTCCCACATGTCTGTGAGTCCTGAGATGTGCGGGGGATACTGGCTCCTTCCATAGGACTGTCATCAGGGTCAGCAGGGCTCAGTC
TAGGGGCCTTACACCTGGGAGCATGGACACACCACCTACACTACCATGGAAGTATGCAGCTTGAAGGACACTGCCTGTCTTGGACTTCAGTTCTTTGTCT
TCAGTATGGGGATGATATGACCTGCCTTTACAGCAGGGCTCTTAAGGTCAAATTAGATCAACGGATCTGTAATTGCTTTGGAAAAATGAGACTAAAAATT
ATACAGTGAATGAGGAAGAAATGAAAAAATGTCATAAAAGACCCTACATTTTCCAAAACATCTGATTCTGTGGTGTTTATACTGAATAGTTTCATAAACT
TTCAAAGAATATTACTCCTTAATTTAAAGACCTATAAATGTGATCCTGTACGACCTCCTAATCTAATAAAGAAAATGTAAAAGTGGCATCATTTGTTTAT
ATAAATGTTAAAATGTAAATAGAAGACTAGCATGTAAAATTCAAGAGAAGAAAATAATTATGCAGTAGAAGGGGCCAGTATAGGATTGCGGGGAAAAAGC
TCACGTTCCCTGCCATAGTCACCAAGACAGCATGGTACTGGTATAAAAATAGGCACATAGACAAAGGGAACAGAATAGAGAACCCAGGGATAAACCCAAA
TACTTACAGCCAACTGATCTTCGACAAAGCGAACAAAAACATATGGTGGGGAAAGACACCCTTTTCAACAAATGGTGCTGGGATAATTGGCTATCCACAT
GTAGGAGAATGAAACCGGGTCCTCATCTCTCACCTTATACAAAAATCAACTCAAGATGGATTAAGGACTTAAACCTGAGACCTGAGACTATAAAAGCTCT
AGAAGATCACATTGGAAAAACCCTTCTAGACATTGGCTTAGGCAGGGATTTCATGGCCAAGAACCCAAAAGCAAATTCAATAAAAACAAAGATAAATAGT
TGAGACTTAATTAAACTAAAGAGCTTTTGCACGGCAAAAGGAACCATCAGCAGAATAAACAGACAACCCACAGAGTAGTCACAATCTATACATCTGACAA
AGGACTAATATCCAGAATCTACAATGAACACAGGCAAATCAGTAAGAAAAAACAAACAACCCCATCAAAAAGTGGGCTAAGGACATGCATAGACAATTCT
CAAAAGAAGATATACAAATGGCCAAGAAACATAAGAAAATGCTCAACATCACTAATGATCAGGGAAATGCAAATCAAAACCACAATGTGATACCACCTTA
CTCCTGCAAGAATGGCCATGATAAAAAAATAAAAAAACAGTAGATATTGGTGTGGATGTGGTGATCAGGGAACTCTTCTACCCTGCTGGTGGGAATGTAA
ACTAGTACAGCCACTGTGGAAAACAGTGAGGAGATTCCTTAAAGAACTAAAAGTGGAACTATAATTTGATCCAACAATCCCACTACTGGGCATCTACCCA
GAGGAAAATAAGTCATTATATGAAAAAGATATTTGCACATACGTGTTTATAGCAGCACAATTCACAATCACAAATCATGGAACCAACCCAAATGCCCATC
AATCAACGAGTGGGTAAAGAAACTGTGATATATATATGATGGAATACTACTCAGCCGTAAAAAGGAATGAGTTAATGGCATTTGCAGCGACCTGGATGAG
ATTGGAGACCATTATTCTAAGTGAACTAACTCAGGAATGGAAAACTAAACATATATTCTCACTGATATGTGGGAGCTAAGCTAAGAGGATGAAAAGGCAT
AAGAATGATACAATGGACTTTGGGGACCTGAGAGGAAAGGTGGGAGGGGGCAAGGGATACTGCTCAGGTGATAGGTGCACCAAAATCTCACAAATCATCA
CTAAAGAACTTACTCATGTAACCAAATACTACCTGTACCACTATAACCTACGGGGGAAAAAAGCAACATAACCATGAACCAACTAATAAAAAACAACCTT
GCCTTCAGTCTGCATCCTACCCTAGAGACACTCTCTCTGTGTCCTCACACTTGGAGCTAAGCTTCTGACTTTTGTCTCCAGTACACCCCTGAGGATCCTC
TCATCACGGCCATCAGAAACCTCTGTAGAAGGTCAAATCCAGTGGGTTCTTGTCAGTGCCTCTGACTTGAGTTACTGATAATATTTGCACCATAATCCAC
TTCTTTCTAATGAGCTACTCTGTCCTTATTTTTCTCCTATTTACTGAATCCTCCTTATCATCCTTTGAAATCTCCTCTTAATTATTATGTTCTCTCATCA
TACCCTGAGATCCCTGCATTTCTGATTTTTGGCACTCTTCCTGGAAAAGCTCATCTAACCTGCACCTATGCTTGATGACTCTCAGTTCTCTGGCTTAAAC
TCCTCTACTGAGACCACCCATCATACAAAAATGTTTACATATTATTTTTCCTTAGATAACTTTTAGACATTCTAAGTGCAATAGCCCCACACTGAACTCA
GTCTCTTCTCTCAGTCAGGCTGTCTTCTCTCATTACCCTTTTTAATGAATGGAATCAAGATGTTTGCATTGGGTTGGGGAGATGTTGGTCAAAGGATACA
TCCATTTCATTTCATTTAGGATACATTTCAAAAGATACATTTCATTTAGATTGGAGGAATAATTTTAAGAGTTTTATTGTATAACATGGACTATAGTTGC
TAACAATGTATTGTTGAAAATTGCTAAAAGGGTGGATTTTAAGTGTTCTCACCACAAAAAATAAGTATGTGAGGTGAGCCATAAGTTCTTTAGCTTGATG
TAGCCGGTCCATGATGTACATACATTTCAAAACAACATATTATACATGATAAATATAAATAATTTTTGTCAATCAAAATAATTTAGAAAAGTGACACACA
CTTACACACACACACACAAAAGAGATGATTGCATTGGCCAGTCTAGGAATAAGAGTTATCTGGGAGTTTTCTAAGTCGGATGCCACCGACATCACTCACC
AATAATCCCTTTAATGTCAATCAAATTAAGTCCTCTTCTTCCATCATTTTACTCCTATGCCCATTTCCTCACTCTTTGTTCAGGCACTATTAGTCTTGCC
TCTTGAACCAACTTCTTTCACTCATGCTGCCCACTGTTGCCGTAGTGATCTTCCTAAATTGCAAATGCGCCATCACTCTCCTGCTTAAAATCCTTCAATG
ATTCCTTATGACTTCCAGGACAGAGTAGCCACTCCTGAGCTTTGCATGTAACATCTGTCATGATCCAGCCCCTGCCTGTCTATTTTTCCTTTTTTCTTGC
TGCTGTTCCACATCCAAAGCTGGCTCCATTCATACTGAAGCAGCTGAAGTTCTTCAGATATGTCATTGCCACACTGGGCCCACACTTTTGAACCTGCTTC
CTCCTGTGTGAGAAGTGGCTTCTGCCCTGTTTTCGGACTGCCTACATTGAAGCCATCTGTTCCCCAGGAAACCTTCCCTGATGCCTTGACAGCAGCATCT
TGTGCCTGCCCCATATCTGCACTTATCCATCTGGGCCTGCTGTTGTCTTGTCACTTGTGTTCTCTTCTGTGAACTGTAAACATCAGGAGGACAAGACCTA
TGTCTTACTTTTATTTGAATATTTAGCATCTAACAATGTTCGACATATAGTAGGCTTTTGATACTATTTTTTTACTATGACATTGTAGTATATGTTAATA
TCCAGTAGGACATAGGATATATTCTCTCTGTTTTCAATTTTTCATTGTTTACACACATTTATAATTCTATCTATAAGGATTTACAATTATTTACATGAAA
TGAATGAAATAAATAGAGAATGTTAGATATTAAGAGACAGTGTGGAAAGCCAGGCTGGGACTAGGGATGCACTTACCTTAGGTGCAAAATTTAGGAGGAT
ACCAAAAGAACTCAGTAATAAAAGTCAATCATATTTTAATGAAATATCTTAAGAAATCTAAATTAATGGAAAATATATAATGAACAAAATGTCAAAAGAG
AACTATTCAAAGAAAATGGAGAAGCAGAGAGGCAGAAGAATTAGTAGAATATACTGGCACATAAGCCAAGGAGGTAAAGATTTCCAGGAAGGAGGAAGTA
GAGTGGAGTCAGAAGTTCAACAGAAGTCATTTCAGAAATCTTACCTTGGTTTTGAAATCCTTTCAGAGAGCAGTTTTACATAATGTGAGCAATTATTTCT
CCTTCATCCCCATCATTCCAGAATTGAGCTTCTTCTCTGGCTTCAGAAATGTGGCCCTTCCCCTTGTCAGGATATGTTGGCGACATGATGCATGCGGATG
CCCTCAAAGTCAGCTGGGGTTTGGGGGTGAAATTAATTGACTTTAGGGAACTCCTTGAATGCTAAGTTCTGTTCACCTGGAGGACCAGAGAGGGCACAGA
GATGACCACCTAGCTTCTGCCTGGGACCTAAACAGGGCAGAGAAATAGGAGGATCAGGTATAAAGGGAGCAGGGAAGATGGGTCTGGGCTTACAGTACTG
AACCCAGGGATGACAGTAACTGTGTGTGTCTCGAGGCAGGTGACAAAATATGTGAAAGGAAGAGGACTTAGGAGAGATCTGAATTCCAGCTGTTTTACAA
GCTATATCTCAGCTTTCTTTCTCAATTCATGTGCTCTCTACCCCAAAGGCTGATGGAATTGCTGACCCTTCAAGTTCTCTTCTCATCTGCACCCCTTCCC
TCCTGCTGCACACTGTTCAGCGACATCACACACTTCTCCAGCCTCCTCTCTTCCTAGTCTTACCCCTTCCCAGTTTCCATAACTGAACTGTCCTGTTGAG
GAGTTCTTAGCAGCCCTCTGTGACCACAAGTGCAAGTTGCACTCCCTTCTGAGACAAAGTCCCCCATTTATTCCCTCCTGAGGGCGTGTCCCTTCCCCTG
ACCCTCATGGACTCTCCCAGGTGCACCCCCTGTGGATTTGCTCCTGGGCCTGAGTTTCCCCTACTTCCCTGATGGTGTCTGGAGGGCAAGGGGTATCTGT
CTATCTACTGAGTGTCATAAACTGCCCAACTCAGCACACCCACCCTCTACCTCTTCCTAAGTGTAGTGACACGGTGAGGGAGGTAATGGGGTGGGGTCTG
GAATCAGACACCAGGAGGAAAGGGGTGGTGGCTCTCTTTGCCTCTCACTCTGTGTGTATTTCTCTCGGGTACCAGGAGGATTTCCTAAAGATTTCTTTCT
CCTGACTGTTTTCTGGACCCGTCCTGGTCTCCAAGCTCCCCTCCTGATTCTCTGCAGTGCCCAGGTGTCCAACAGTTGAGCCTGGAGCCAGGCCAACTTG
TCAGCTTCCTGTATGAGGATCAGACTGGACGACTTCAACCTGCTTAGCCCGTCTTCTGAGGCCTCACCCTAGTAGTTGGCAAGTAAGTCTATTTGCTCCT
CTGGTCTGCCTGGCCCACACTTTTGTGAGAAAGTGCCCTAGAACCTGTACGCTCTAAACTGTGAAACCCTGTTCCTTCTTTTGGCCACAACACACCTACG
CACTGCCCAAAGTTCAGTCACTTCTAGCCCAGAGTTTGGGCTTAGAGTGCATCCTTCTCTGCAAGTTGTGTTAGCCTGTACCTTGGGCAAGTTACTTAAA
TTTTTTGAGCCTCAGTTTCTACATCTTAGGATGGACAGTAAATAGAATTGGCACAAACAAGTGAGAAAGTGATGGCACAGTGTTTGTTGCACTGTAAGCA
CTTGATAAATGGCAGCTATTGTGATTACTGCTCTCATCGTCATTGGTTTCAACTTTCATCAACAGATCTCCAACCCTGTTGACGCCCCTGCTTCAGTCAG
TCACTTGAACCTCTCACTCCATGACCAGGTGGCACCTTGTGGCTATGGCCATGAAGGGCCAGTCTGTCACCCTCATTGTTGACTGCAAGATGTGAGTCAC
CCGGCCTCTCCCCTGAAGAACTAGTCCAGTGTTGGACACCTGTGGGGTGATAATTGTTGGTGCCTGTATCCCAGATGAAGAAAGTCTTTGAGGTTACCAC
AAAAATCAGAGAAAGGAGTGACTTCTGGTCCCTTATTTTGTGCCCACTCCTCTTCTGGCCCCAGTATGCAATGTTCCTATTTCCTAAGCCTTCATTTTTT
TTCTTGTGAATTTTGATTTGCATTTCCTATCTTCAGGACTGCTGATCTCTGCAGAATAACTAGATGTCCACTTATGTGGCAGGACTGTCCACAGCCACTT
ATTCTATCCTTCAGTCTTCATCTYTCCATCTATCCATCCCTTGAACCTATCTCTCTCCTCATCCACCCCATCCATYCACTCATTCACCAGTCCACCTAYG
CACACATCCACCACCCACTCCCGCAACCATTTACCCACCTATGCATCACAAACTTACCCATCTACTCATGCATGAAGGCTTATATCCACTCACCTGTCCA
TCCTCCCCCTGCTTAAYGACTCTCCCCTTCTTTACACACATCTATTCGACTATGCTTTTGTTCATCTGTCCTCTTCAACTTATCCATCCATCTATTCACT
CACCCACCCACTCACACACCCCATCTACCCATGCATACAAGGATGCATGCATCTGTTCAGCCACCCATCTATCCATTATCCTTCCTGGAACTCAACCACT
CTCTCCTTCAATACACTCATGCACCCATCTCCTCACCCACTCACTTCACATCCAACCGTTCAYTCAACCAYGTATTCAATTCCACCCATCTATCTATTCA
CTCATCTGATTCCATCTACTCTGTACCTCCCGCTCATCTACCCACTAAGCCTTGCATGCATAATTCCCTCTGCAGGAGTCCCATTGTACCTGTTTTGTGC
CTTTCTTTTCACTCTGGGTCATGGTAGCCATATTGTTGAAGGTTCACTTCCCAGATCCTCTTTTCTTGGCTGCTTCCTGTCKGTACAGCYRCTTCCTGTT
TGTCCAGTTTGTTTTGTGGCCATCTTGGCCATGTTTAATTTTCCTTGGCCCTGGCATCACTCTTGCATCCAAGTGTTTGTCATTTTATTTTGTGTCCCTT
AGTTGTTCTMATATCTTCCAGTATTCTCTGTCAGTTGGACTGCTTCCTGTCTACTCTGCTACATCTTCTGCCTGCCTTGCAGTTATGGCTGCCTTTTCTA
CCCTGCTGCTGCATCCCACACCTCCTGCTCTTGGCACCCGYGAGCTTCTGCTGCCTTTCCTTTATGCTGCTGTCTGGGTCTTTGGGGTTGATGTGGGATM
TGGGAGAATTTTGAAAYGGATCATTGCTGTCAGGATGAAGGTGGAGAGGGGCATTCTGAAGATCTTTGTTTTGGGGAGTTGGGGTGGTGGTGAATGTTTC
ACCTTCTCCCCACCCTTATCTTGSCTATGGCCTGGATTTGGGAACAGGCATCTGAATGGAGGTGTGCAAGGGAGGGAACTGGTTGGCTTGGAGTGTACAT
GAGGGCCAGAAGAAGGGCAAAGCATCCTGCTGGGAGAGGAACTGTGGGGTGYATTGTAGGGGGCTGCTCTGGRGCTTGGATAACTGAGCCCAAGAACTRT
ATGTTTTGCAAAAGGCAGTTATGAGGCCTGAGTTTGGAATATCTCTGGGAAATGCTCTCCAAATTTMCTTGGAGTATGGATACTTAACCTGTGCAGGGTT
TTTACATTTTTGAACTCCTTCAAATTCTAAATAAAATTTTGTGCATAAGGGCATATACCTTTTCTTTTTTGGAGAAAGACTGAAAGACTCAAAGTCCTCT
TTCTGAAAGAGGCTCTTCAGGATTTGGAGAGGTTGTGTTTSCTGAGGTGGGACTGRGAACTGGGGTGCAGGGAACCCTGAGATCTCCTTGGCAGGCATGA
GAGTTTTGTGAACAGAAGTATTTAGAGGAAGCCTGTGGGGCTTGTGGGTAGGGCTGGTCTGGTCTCCAGAGGACCCAAAATCGAGGTTGGAGTTGAGATK
GGGGCAGGCCTGGTGTCCTGGCTGCTCATGGGCCCCACTGGGGTTACATGTGTGTCTCCCTYAGGCTGCCCATGGGCCCCGGGGKCTGAAGGGARAGAAG
AGAGAGCCTGCAGTGCTGGAACCTGTAAGTYATGCTGGTCACAGGGCTGAGGTGGTGGAAAGAGGAGAAGCAAGTGGGGTTTAGTGTGCTGGCCCTGTCA
CCTGTGAGTTTTAACCTTTGACTCCACAGGGTATGCTCKTGRAGGGGMCCCCTGGTTTAGAAGGCCCTGTGGTGAGTCTAGCAGTGACCTGGTGGCCATT
GTTTTCTTAGAGATCCCTCCTATGTGTTCATCTGTGCCTTCCCCACATATGCTCAGGCCTCCTCCTCAGAACTCCGGAGGGTCCTTCCAATAAAAGTTTT
TTAAAAAATCATTTYGAAAAATTAATTCAATAGTTTTTGGGGAGCAGGTGGTGTTTGGTTATATGGATAAGTTCTTTAGTGGTGATTTCTGAGGTTTTGG
TGCRCCCATCACCTGASGAATGTACACTGTATCCAGTGTGTAGTCTTTTATCCCTTACCCAGCTCCTACTCATACCTGGAAGTCCTCAAAGTCCATTATA
TAATTCTTATGCCTTTGTGTCTTCATAGCTTAGCTCCCACTTATAAGTGAGAACATACAATATTTGGTTTTCCATTCTTGAGTTACTTCCCTTAAAATAA
TGGTTTCTAATTCCCCCTAGGTTGCTGCAAATGTTATTTCATTCTTTCTTATGGCTGAGTAGTATTCTAAGGTATATAGATCACATATATATCATATGTG
ATCTATATATAGATCATATATATATATATGTGATCTATATATATATATATATATATAGATCTATATATATATAGATCACATATATATATATCACATATAT
ATATATCACATTTTCTTCATTCACCCATTAACTGATGGGCATTTGGGGTGGTTCCATATTTTTGCAATTGTGAATCATGGTGCTGTAAACATGTGTGTGC
AAGTGTCTTTTTCATACAATGRCTTTTTTCCTCCAGTAGTGGGATTGCTGGATCAAATGGTAGATCTATTTCTAGTTCTTTAAGGCATCKCTGTACTGTT
TTCCATAGGTTGTACTAGTTTAATTTCCCACCAGTAGCATAGAAGTGTTCTCTTTTCATCACACCTACCCCAACRTCTATTTTTTTTTTTATTTTTAAAT
TATGACCATTGTTACAGGAGTAAGTTGGTATCACATAGTGGTTTTGATTTGCATTTCCCTGATAATTAGTGATGTAGAGCATTTTTTCATATGTTTGTCA
ACCATTTGTATRTTTTCTTTTGAGAATTGTCTGTTCCTCTGCTTAGCCCACTTTTTGATGGGAGTATTTGTTTATTTCTTGCTGATTTGTTTGAGTTTTT
TGTAGATTCTGGATATTAGTCCTTTTTTGTATGTATAGCTTGCGAATATTTTCTCCCACTCTGTGGGCTGTTTACTCTGATGATTATTTCTTTTCCTTTG
AAGAAACTTTTTAGTTTAATTAGGTCCCATCTATTTATCTTGTTTCTTTTGCATTTGCTTTTGGGTTCTTGGTCATGAACTCTTTGCCTATGCCAATGTC
TAGAAGAGTTTTTCCAATGTTCTAGAATTTTTATGGTTTCAGGTCTTAGATTTAAGTCTTTGATCTACCTTGAGTTGATTTTTGTATAAGGTGAGAGATG
AGGATCCAGTTTAATTCTTCTGCATGTGGACTGCCAATTTCCCCAGTACCATCTGTTGAATACGCTGTCCTTTCCCCACTTTATGTTTTTGTTTGATCAG
TTGGCTGTAAGTATTTGGTTTTATTTCTGGGACTTCTATTCTGTTCAATTTGTCTATGTGCCTGTTTTTATACCATTCCCATGCTGTTTTGGTGACTATA
GCCTTGCAGTATATTTTGAAGTCAGGTAATGTGATGCTCCAGATTTATTCGTTTTGCTTAATCTTRCTTTGGCTATGTGGGCTCTTTTGTAGTTCCATAT
GAATTTTAGGATTGTTTTTTTCTAGYTCTGTAAAGAATGATGATGGCATTTTGATGGGGATTGCATTGAATTTGTAGATTGCTTTTGGCAGTATGGTCAT
TTTCACAATGTTGATTCTACCCTTCCATGAGCATGGGACGTGGTTCTACTTGTTAGTGTCATCTATAATTTCTTTCGGCAGTGTTTTTAATTTTCCTCGT
ACAGGTGTTTAACCTCTATTGCGGGAAGTCAGGGACCCTGAATGGAGGGACCGGCTGAAGCCACAGTGGAAKAACATAAATTGTGAAGATTTCATGGACA
TTTATCACTTCCCCAATCAATACTCTTATAACTTCCTATGCCTGTCTTTACTTTAATCTCTTAATCCTGTCATCTTTGTAAGCTGAAGATGTATGTCACC
TCAGGACCCTGTGATGATTGCGTTAACTGCATARATTGTTTGTAAAGCATGTGTGTTTGAACAATATGAAAWCTGGGCACCTTGAAAAGAACAGGATAAC
AGCAATTTTCAGGGAACAAGGGAGATAACCATAAGGTCTGACTGCCTGCAGGGCCAGGCAGAACAGAGTCATATTTCTCTTCTTGCAAAAGCAAATAGGA
GAAATATCGCTGAATTCTTTTGTCAGCAAGGAATAGCCCTGGGAAAAGAATGCATTCCCGGGGGAGGTCTCTAAAATGGCCACTCTGGGAGTGTCTGAAT
TACATGGTTGAAGATAAGGGATGAAATATGCCCTGGTCTCCTGCAGTGCCCTCAGGCTTGCTAGGATTAGGAAATTCCAGCCTGGCAAATTCTAGTCATA
CTGGTTCTCTGCTCTCGAACCCTGTTTCCTGTTAAGATGYTTATYAATGACAATGTGTGCCCAGCGGGATGTGGMACCTCATCAGTGATTCTAGTTTTGC
CCTCTGCCTTGTGATCTTTTAYTGCCCTCTGAAGCATGTGATCCCTGTGACCCATTCCCTATTCATAGACCCCYRCCCCTTTTGAAATCCRTAATAAAAA
CTTGCTGGTTTTGCGGCTCAGGTGGGCATCATGGAACCTGCTGACATGTGATATCACCCCCGGAGACCCAGCTGTAAATTTCTCTCTTTTGTACTCTTTC
TCTTTATTTCTCAGACTGGCCCACACTTAGGGAAAATAGAAAAGAACATACTTTGAAATATTGGGGGCTGGTTCCCCCAGTAAACCTCCTTGGTTAGGTA
TATTCCTAAGTATTTTATTTTTTTGCAGCTACTATAAAAGGGGTTGAGTTCTTGATTTAATTCTCAGCTTGGTCACTGTTAGTATATGGCAGTGCTACAG
ATTTGTGTACATTGATTTTGTATCCTGAAACTTTACTGAATTCATTTATCAGATCTAGGAGCTTTTTGGATAAGTATTTATGGTTTTCTAGGTATACAGT
CATATCATTGGTGAACAGTGACAGTTTGACTTCCTATTTACTGATTTGTCTGATTGCTCTGGCTAGGATTTCCAGTACTATGTTGAATAGAAGTGGTGAG
AGTGGGCATCCTTATCTTGTTCCAGTTCTCAGGGGGWATGCTTTGAACTTTTCCCCGTTCAGTATAAGGTCGGCTGTGGGTTTGTCATAGATGGTTTTTA
TTACCTTAAGTTATGATCTTTGTATGTCAAGTTTGCTGAGGGTTTTAATAAAAAAGCGATGATGGATTTTGTCAAATGCTTTTTCTGCATCTATTGAGAT
CATATGATTTTTGTTTTCAAATCTGTTTATGTGATCTATCACATTTATTGACTTGTGTGTATTAAATCATCCTTGCATCCCTGGCATGAAACCCAATTTA
TCACCATGTATGATCTTTTTGATATGCTGTTGGATTATGTTAGCTTGTATTTTGTTGAGGATTTTTGCATCTATTTTCATCAGAGATATTGGTCTGTAGT
TTTCTTTTTTATTATGTCCTTTCCTGGTTTTGGTATTAGGGYGATCCTGGCTTCATARAATAATTTAGGGAGGATTCTCTCYTTCTCTGTTTTGGAATAG
TTTCAGTAGGATTGGTACCAATTCTCTTCTTTGAATGTCTGATTGAATTCAGCTGTGAGTCCATGTGAATCTGTGATTTTTT


SNP Information

Context             (SEQ ID NO:5912):
AGAGTTTTGTGAACAGAAGTATTTAGAGGAAGCCTGTGGGGCTTGTGGGTAGGGCTGGTCTGGTCTCCAGAGGACCCAAAATCGAGGTTGGAGTTGAGAT
K
GGGGCAGGCCTGGTGTCCTGGCTGCTCATGGGCCCCACTGGGGTTACATGTGTGTCTCCCTTAGGCTGCCCATGGGCCCCGGGGGCTGAAGGGAGAGAAG
Celera SNP ID:            hCV25748664
SNP Position Genomic:     9000
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


Context             (SEQ ID NO:5913):
AGAGATATTGGTCTGTAGTTTTCTTTTTTATTATGTCCTTTCCTGGTTTTGGTATTAGGGCGATCCTGGCTTCATAGAATAATTTAGGGAGGATTCTCTC
Y
TTCTCTGTTTTGGAATAGTTTCAGTAGGATTGGTACCAATTCTCTTCTTTGAATGTCTGATTGAATTCAGCTGTGAGTCCATGTGAATCTGTGATTTTTT
Celera SNP ID:            hCV27016257
SNP Position Genomic:     12982
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5914):
GGTTGGAGTTGAGATGGGGGCAGGCCTGGTGTCCTGGCTGCTCATGGGCCCCACTGGGGTTACATGTGTGTCTCCCTTAGGCTGCCCATGGGCCCCGGGG
K
CTGAAGGGAGAGAAGAGAGAGCCTGCAGTGCTGGAACCTGTAAGTCATGCTGGTCACAGGGCTGAGGTGGTGGAAAGAGGAGAAGCAAGTGGGGTTTAGT
Celera SNP ID:            hCV25748770
SNP Position Genomic:     9085
SNP Source:               Applera
Population(Allele,Count): african american(G,22|T,10)   caucasian(G,30|T,8)   total(G,52|T,18)
SNP Type:                 SILENT MUTATION

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


Context             (SEQ ID NO:5915):
ACCCTGCTGCTGCATCCCACACCTCCTGCTCTTGGCACCCGTGAGCTTCTGCTGCCTTTCCTTTATGCTGCTGTCTGGGTCTTTGGGGTTGATGTGGGAT
M
TGGGAGAATTTTGAAACGGATCATTGCTGTCAGGATGAAGGTGGAGAGGGGCATTCTGAAGATCTTTGTTTTGGGGAGTTGGGGTGGTGGTGAATGTTTC
Celera SNP ID:            hCV25745992
SNP Position Genomic:     8300
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(A,1|C,37)   total(A,2|C,70)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5916):
TGTTTTGTGCCTTTCTTTTCACTCTGGGTCATGGTAGCCATATTGTTGAAGGTTCACTTCCCAGATCCTCTTTTCTTGGCTGCTTCCTGTCTGTACAGCC
R
CTTCCTGTTTGTCCAGTTTGTTTTGTGGCCATCTTGGCCATGTTTAATTTTCCTTGGCCCTGGCATCACTCTTGCATCCAAGTGTTTGTCATTTTATTTT
Celera SNP ID:            hCV25744613
SNP Position Genomic:     7991
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:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5917):
TCACAGGGCTGAGGTGGTGGAAAGAGGAGAAGCAAGTGGGGTTTAGTGTGCTGGCCCTGTCACCTGTGAGTTTTAACCTTTGACTCCACAGGGTATGCTC
K
TGGAGGGGCCCCCTGGTTTAGAAGGCCCTGTGGTGAGTCTAGCAGTGACCTGGTGGCCATTGTTTTCTTAGAGATCCCTCCTATGTGTTCATCTGTGCCT
Celera SNP ID:            hCV25749665
SNP Position Genomic:     9239
SNP Source:               Applera
Population(Allele,Count): african american(G,23|T,11)   caucasian(G,30|T,8)   total(G,53|T,19)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:5918):
TGTTTTGTGGCCATCTTGGCCATGTTTAATTTTCCTTGGCCCTGGCATCACTCTTGCATCCAAGTGTTTGTCATTTTATTTTGTGTCCCTTAGTTGTTCT
M
ATATCTTCCAGTATTCTCTGTCAGTTGGACTGCTTCCTGTCTACTCTGCTACATCTTCTGCCTGCCTTGCAGTTATGGCTGCCTTTTCTACCCTGCTGCT
Celera SNP ID:            hCV25745415
SNP Position Genomic:     8110
SNP Source:               Applera
Population(Allele,Count): african american(A,10|C,22)   caucasian(A,8|C,30)   total(A,18|C,52)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5919):
TGAGGTGGTGGAAAGAGGAGAAGCAAGTGGGGTTTAGTGTGCTGGCCCTGTCACCTGTGAGTTTTAACCTTTGACTCCACAGGGTATGCTCGTGGAGGGG
M
CCCCTGGTTTAGAAGGCCCTGTGGTGAGTCTAGCAGTGACCTGGTGGCCATTGTTTTCTTAGAGATCCCTCCTATGTGTTCATCTGTGCCTTCCCCACAT
Celera SNP ID:            hCV25749685
SNP Position Genomic:     9248
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,33)   caucasian(C,36)   total(A,1|C,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:5920):
CTGTTTTGTGCCTTTCTTTTCACTCTGGGTCATGGTAGCCATATTGTTGAAGGTTCACTTCCCAGATCCTCTTTTCTTGGCTGCTTCCTGTCTGTACAGC
Y
ACTTCCTGTTTGTCCAGTTTGTTTTGTGGCCATCTTGGCCATGTTTAATTTTCCTTGGCCCTGGCATCACTCTTGCATCCAAGTGTTTGTCATTTTATTT
Celera SNP ID:            hCV29315748
SNP Position Genomic:     7990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5921):
GTGGCAGGACTGTCCACAGCCACTTATTCTATCCTTCAGTCTTCATCTCTCCATCTATCCATCCCTTGAACCTATCTCTCTCCTCATCCACCCCATCCAT
Y
CACTCATTCACCAGTCCACCTACGCACACATCCACCACCCACTCCCGCAACCATTTACCCACCTATGCATCACAAACTTACCCATCTACTCATGCATGAA
Celera SNP ID:            hCV1842239
SNP Position Genomic:     7376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5922):
ATGAGGGCCAGAAGAAGGGCAAAGCATCCTGCTGGGAGAGGAACTGTGGGGTGCATTGTAGGGGGCTGCTCTGGGGCTTGGATAACTGAGCCCAAGAACT
R
TATGTTTTGCAAAAGGCAGTTATGAGGCCTGAGTTTGGAATATCTCTGGGAAATGCTCTCCAAATTTACTTGGAGTATGGATACTTAACCTGTGCAGGGT
Celera SNP ID:            hCV11916860
SNP Position Genomic:     8599
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5923):
CCCTCCTATGTGTTCATCTGTGCCTTCCCCACATATGCTCAGGCCTCCTCCTCAGAACTCCGGAGGGTCCTTCCAATAAAAGTTTTTTAAAAAATCATTT
Y
GAAAAATTAATTCAATAGTTTTTGGGGAGCAGGTGGTGTTTGGTTATATGGATAAGTTCTTTAGTGGTGATTTCTGAGGTTTTGGTGCACCCATCACCTG
Celera SNP ID:            hCV27463398
SNP Position Genomic:     9415
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5924):
CATTGTACCTGTTTTGTGCCTTTCTTTTCACTCTGGGTCATGGTAGCCATATTGTTGAAGGTTCACTTCCCAGATCCTCTTTTCTTGGCTGCTTCCTGTC
K
GTACAGCCACTTCCTGTTTGTCCAGTTTGTTTTGTGGCCATCTTGGCCATGTTTAATTTTCCTTGGCCCTGGCATCACTCTTGCATCCAAGTGTTTGTCA
Celera SNP ID:            hCV25744586
SNP Position Genomic:     7982
SNP Source:               Applera
Population(Allele,Count): african american(G,12|T,18)   caucasian(G,12|T,24)   total(G,24|T,42)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:5925):
CACCCATTAACTGATGGGCATTTGGGGTGGTTCCATATTTTTGCAATTGTGAATCATGGTGCTGTAAACATGTGTGTGCAAGTGTCTTTTTCATACAATG
R
CTTTTTTCCTCCAGTAGTGGGATTGCTGGATCAAATGGTAGATCTATTTCTAGTTCTTTAAGGCATCGCTGTACTGTTTTCCATAGGTTGTACTAGTTTA
Celera SNP ID:            hCV11407950
SNP Position Genomic:     10022
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5926):
ATCCATTATCCTTCCTGGAACTCAACCACTCTCTCCTTCAATACACTCATGCACCCATCTCCTCACCCACTCACTTCACATCCAACCGTTCACTCAACCA
Y
GTATTCAATTCCACCCATCTATCTATTCACTCATCTGATTCCATCTACTCTGTACCTCCCGCTCATCTACCCACTAAGCCTTGCATGCATAATTCCCTCT
Celera SNP ID:            hCV27459138
SNP Position Genomic:     7771
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5927):
CTAGTTTTGCCCTCTGCCTTGTGATCTTTTACTGCCCTCTGAAGCATGTGATCCCTGTGACCCATTCCCTATTCATAGACCCCCACCCCTTTTGAAATCC
R
TAATAAAAACTTGCTGGTTTTGCGGCTCAGGTGGGCATCATGGAACCTGCTGACATGTGATATCACCCCCGGAGACCCAGCTGTAAATTTCTCTCTTTTG
Celera SNP ID:            hCV27465375
SNP Position Genomic:     11991
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5928):
CATGTGTGTGCAAGTGTCTTTTTCATACAATGGCTTTTTTCCTCCAGTAGTGGGATTGCTGGATCAAATGGTAGATCTATTTCTAGTTCTTTAAGGCATC
K
CTGTACTGTTTTCCATAGGTTGTACTAGTTTAATTTCCCACCAGTAGCATAGAAGTGTTCTCTTTTCATCACACCTACCCCAACGTCTATTTTTTTTTTT
Celera SNP ID:            hCV11407951
SNP Position Genomic:     10090
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5929):
ACCCATCTATCCATTATCCTTCCTGGAACTCAACCACTCTCTCCTTCAATACACTCATGCACCCATCTCCTCACCCACTCACTTCACATCCAACCGTTCA
Y
TCAACCATGTATTCAATTCCACCCATCTATCTATTCACTCATCTGATTCCATCTACTCTGTACCTCCCGCTCATCTACCCACTAAGCCTTGCATGCATAA
Celera SNP ID:            hCV27465376
SNP Position Genomic:     7763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5930):
TTGCTGTCAGGATGAAGGTGGAGAGGGGCATTCTGAAGATCTTTGTTTTGGGGAGTTGGGGTGGTGGTGAATGTTTCACCTTCTCCCCACCCTTATCTTG
S
CTATGGCCTGGATTTGGGAACAGGCATCTGAATGGAGGTGTGCAAGGGAGGGAACTGGTTGGCTTGGAGTGTACATGAGGGCCAGAAGAAGGGCAAAGCA
Celera SNP ID:            hCV25744693
SNP Position Genomic:     8424
SNP Source:               Applera
Population(Allele,Count): african american(G,24)   caucasian(C,1|G,37)   total(C,1|G,61)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:5931):
CTTTCGGCAGTGTTTTTAATTTTCCTCGTACAGGTGTTTAACCTCTATTGCGGGAAGTCAGGGACCCTGAATGGAGGGACCGGCTGAAGCCACAGTGGAA
K
AACATAAATTGTGAAGATTTCATGGACATTTATCACTTCCCCAATCAATACTCTTATAACTTCCTATGCCTGTCTTTACTTTAATCTCTTAATCCTGTCA
Celera SNP ID:            hCV27016400
SNP Position Genomic:     11272
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:5932):
TGCTTCCTGTCTACTCTGCTACATCTTCTGCCTGCCTTGCAGTTATGGCTGCCTTTTCTACCCTGCTGCTGCATCCCACACCTCCTGCTCTTGGCACCCG
Y
GAGCTTCTGCTGCCTTTCCTTTATGCTGCTGTCTGGGTCTTTGGGGTTGATGTGGGATCTGGGAGAATTTTGAAACGGATCATTGCTGTCAGGATGAAGG
Celera SNP ID:            hCV25745909
SNP Position Genomic:     8241
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,32)   caucasian(C,1|T,37)   total(C,3|T,69)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:5933):
GTTCTTTAAGGCATCGCTGTACTGTTTTCCATAGGTTGTACTAGTTTAATTTCCCACCAGTAGCATAGAAGTGTTCTCTTTTCATCACACCTACCCCAAC
R
TCTATTTTTTTTTTTATTTTTAAATTATGACCATTGTTACAGGAGTAAGTTGGTATCACATAGTGGTTTTGATTTGCATTTCCCTGATAATTAGTGATGT
Celera SNP ID:            hCV11407952
SNP Position Genomic:     10175
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5934):
AGGATTTTTGCATCTATTTTCATCAGAGATATTGGTCTGTAGTTTTCTTTTTTATTATGTCCTTTCCTGGTTTTGGTATTAGGGCGATCCTGGCTTCATA
R
AATAATTTAGGGAGGATTCTCTCCTTCTCTGTTTTGGAATAGTTTCAGTAGGATTGGTACCAATTCTCTTCTTTGAATGTCTGATTGAATTCAGCTGTGA
Celera SNP ID:            hCV28000496
SNP Position Genomic:     12958
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5935):
TTACAGGAGTAAGTTGGTATCACATAGTGGTTTTGATTTGCATTTCCCTGATAATTAGTGATGTAGAGCATTTTTTCATATGTTTGTCAACCATTTGTAT
R
TTTTCTTTTGAGAATTGTCTGTTCCTCTGCTTAGCCCACTTTTTGATGGGAGTATTTGTTTATTTCTTGCTGATTTGTTTGAGTTTTTTGTAGATTCTGG
Celera SNP ID:            hCV11407954
SNP Position Genomic:     10312
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,9)   total(G,1|A,9) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5936):
TACCTTTTCTTTTTTGGAGAAAGACTGAAAGACTCAAAGTCCTCTTTCTGAAAGAGGCTCTTCAGGATTTGGAGAGGTTGTGTTTGCTGAGGTGGGACTG
R
GAACTGGGGTGCAGGGAACCCTGAGATCTCCTTGGCAGGCATGAGAGTTTTGTGAACAGAAGTATTTAGAGGAAGCCTGTGGGGCTTGTGGGTAGGGCTG
Celera SNP ID:            hCV27458803
SNP Position Genomic:     8856
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5937):
TTTTATACCATTCCCATGCTGTTTTGGTGACTATAGCCTTGCAGTATATTTTGAAGTCAGGTAATGTGATGCTCCAGATTTATTCGTTTTGCTTAATCTT
R
CTTTGGCTATGTGGGCTCTTTTGTAGTTCCATATGAATTTTAGGATTGTTTTTTTCTAGCTCTGTAAAGAATGATGATGGCATTTTGATGGGGATTGCAT
Celera SNP ID:            hCV11407955
SNP Position Genomic:     10966
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5938):
AAAAATCATTTTGAAAAATTAATTCAATAGTTTTTGGGGAGCAGGTGGTGTTTGGTTATATGGATAAGTTCTTTAGTGGTGATTTCTGAGGTTTTGGTGC
R
CCCATCACCTGAGGAATGTACACTGTATCCAGTGTGTAGTCTTTTATCCCTTACCCAGCTCCTACTCATACCTGGAAGTCCTCAAAGTCCATTATATAAT
Celera SNP ID:            hCV27458804
SNP Position Genomic:     9504
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5939):
TTCCAGCCTGGCAAATTCTAGTCATACTGGTTCTCTGCTCTCGAACCCTGTTTCCTGTTAAGATGTTTATCAATGACAATGTGTGCCCAGCGGGATGTGG
M
ACCTCATCAGTGATTCTAGTTTTGCCCTCTGCCTTGTGATCTTTTACTGCCCTCTGAAGCATGTGATCCCTGTGACCCATTCCCTATTCATAGACCCCCA
Celera SNP ID:            hCV27016333
SNP Position Genomic:     11875
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5940):
AAAAATTAATTCAATAGTTTTTGGGGAGCAGGTGGTGTTTGGTTATATGGATAAGTTCTTTAGTGGTGATTTCTGAGGTTTTGGTGCACCCATCACCTGA
S
GAATGTACACTGTATCCAGTGTGTAGTCTTTTATCCCTTACCCAGCTCCTACTCATACCTGGAAGTCCTCAAAGTCCATTATATAATTCTTATGCCTTTG
Celera SNP ID:            hCV27462056
SNP Position Genomic:     9517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5941):
AACCTCATCAGTGATTCTAGTTTTGCCCTCTGCCTTGTGATCTTTTACTGCCCTCTGAAGCATGTGATCCCTGTGACCCATTCCCTATTCATAGACCCCC
R
CCCCTTTTGAAATCCATAATAAAAACTTGCTGGTTTTGCGGCTCAGGTGGGCATCATGGAACCTGCTGACATGTGATATCACCCCCGGAGACCCAGCTGT
Celera SNP ID:            hCV27016317
SNP Position Genomic:     11975
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5942):
GTAATGTGATGCTCCAGATTTATTCGTTTTGCTTAATCTTACTTTGGCTATGTGGGCTCTTTTGTAGTTCCATATGAATTTTAGGATTGTTTTTTTCTAG
Y
TCTGTAAAGAATGATGATGGCATTTTGATGGGGATTGCATTGAATTTGTAGATTGCTTTTGGCAGTATGGTCATTTTCACAATGTTGATTCTACCCTTCC
Celera SNP ID:            hCV27016423
SNP Position Genomic:     11026
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,9)   total(C,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:5943):
GAACCTCATCAGTGATTCTAGTTTTGCCCTCTGCCTTGTGATCTTTTACTGCCCTCTGAAGCATGTGATCCCTGTGACCCATTCCCTATTCATAGACCCC
Y
ACCCCTTTTGAAATCCATAATAAAAACTTGCTGGTTTTGCGGCTCAGGTGGGCATCATGGAACCTGCTGACATGTGATATCACCCCCGGAGACCCAGCTG
Celera SNP ID:            hCV27016318
SNP Position Genomic:     11974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5944):
AGTGCCCTCAGGCTTGCTAGGATTAGGAAATTCCAGCCTGGCAAATTCTAGTCATACTGGTTCTCTGCTCTCGAACCCTGTTTCCTGTTAAGATGTTTAT
Y
AATGACAATGTGTGCCCAGCGGGATGTGGAACCTCATCAGTGATTCTAGTTTTGCCCTCTGCCTTGTGATCTTTTACTGCCCTCTGAAGCATGTGATCCC
Celera SNP ID:            hCV27016335
SNP Position Genomic:     11845
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5945):
AGCTTGTATTTTGTTGAGGATTTTTGCATCTATTTTCATCAGAGATATTGGTCTGTAGTTTTCTTTTTTATTATGTCCTTTCCTGGTTTTGGTATTAGGG
Y
GATCCTGGCTTCATAGAATAATTTAGGGAGGATTCTCTCCTTCTCTGTTTTGGAATAGTTTCAGTAGGATTGGTACCAATTCTCTTCTTTGAATGTCTGA
Celera SNP ID:            hCV27016262
SNP Position Genomic:     12942
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5946):
TCCTATGCCTGTCTTTACTTTAATCTCTTAATCCTGTCATCTTTGTAAGCTGAAGATGTATGTCACCTCAGGACCCTGTGATGATTGCGTTAACTGCATA
R
ATTGTTTGTAAAGCATGTGTGTTTGAACAATATGAAAACTGGGCACCTTGAAAAGAACAGGATAACAGCAATTTTCAGGGAACAAGGGAGATAACCATAA
Celera SNP ID:            hCV27459609
SNP Position Genomic:     11434
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5947):
CCTGCAGTGCCCTCAGGCTTGCTAGGATTAGGAAATTCCAGCCTGGCAAATTCTAGTCATACTGGTTCTCTGCTCTCGAACCCTGTTTCCTGTTAAGATG
Y
TTATCAATGACAATGTGTGCCCAGCGGGATGTGGAACCTCATCAGTGATTCTAGTTTTGCCCTCTGCCTTGTGATCTTTTACTGCCCTCTGAAGCATGTG
Celera SNP ID:            hCV27016336
SNP Position Genomic:     11840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5948):
GTCTCCAGAGGACCCAAAATCGAGGTTGGAGTTGAGATGGGGGCAGGCCTGGTGTCCTGGCTGCTCATGGGCCCCACTGGGGTTACATGTGTGTCTCCCT
Y
AGGCTGCCCATGGGCCCCGGGGGCTGAAGGGAGAGAAGAGAGAGCCTGCAGTGCTGGAACCTGTAAGTCATGCTGGTCACAGGGCTGAGGTGGTGGAAAG
Celera SNP ID:            hCV25748729
SNP Position Genomic:     9062
SNP Source:               Applera
Population(Allele,Count): african american(C,11|T,23)   caucasian(C,8|T,30)   total(C,19|T,53)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:5949):
GTGCATAAGGGCATATACCTTTTCTTTTTTGGAGAAAGACTGAAAGACTCAAAGTCCTCTTTCTGAAAGAGGCTCTTCAGGATTTGGAGAGGTTGTGTTT
S
CTGAGGTGGGACTGAGAACTGGGGTGCAGGGAACCCTGAGATCTCCTTGGCAGGCATGAGAGTTTTGTGAACAGAAGTATTTAGAGGAAGCCTGTGGGGC
Celera SNP ID:            hCV29315715
SNP Position Genomic:     8841
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5950):
CACACCTCCTGCTCTTGGCACCCGTGAGCTTCTGCTGCCTTTCCTTTATGCTGCTGTCTGGGTCTTTGGGGTTGATGTGGGATCTGGGAGAATTTTGAAA
Y
GGATCATTGCTGTCAGGATGAAGGTGGAGAGGGGCATTCTGAAGATCTTTGTTTTGGGGAGTTGGGGTGGTGGTGAATGTTTCACCTTCTCCCCACCCTT
Celera SNP ID:            hCV25746314
SNP Position Genomic:     8317
SNP Source:               Applera
Population(Allele,Count): african american(C,32|T,2)   caucasian(C,38)   total(C,70|T,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5951):
CAGGGCTGAGGTGGTGGAAAGAGGAGAAGCAAGTGGGGTTTAGTGTGCTGGCCCTGTCACCTGTGAGTTTTAACCTTTGACTCCACAGGGTATGCTCGTG
R
AGGGGCCCCCTGGTTTAGAAGGCCCTGTGGTGAGTCTAGCAGTGACCTGGTGGCCATTGTTTTCTTAGAGATCCCTCCTATGTGTTCATCTGTGCCTTCC
Celera SNP ID:            hCV25749692
SNP Position Genomic:     9242
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:5952):
ACTCCCGCAACCATTTACCCACCTATGCATCACAAACTTACCCATCTACTCATGCATGAAGGCTTATATCCACTCACCTGTCCATCCTCCCCCTGCTTAA
Y
GACTCTCCCCTTCTTTACACACATCTATTCGACTATGCTTTTGTTCATCTGTCCTCTTCAACTTATCCATCCATCTATTCACTCACCCACCCACTCACAC
Celera SNP ID:            hCV1842240
SNP Position Genomic:     7517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5953):
GAGATGGGGGCAGGCCTGGTGTCCTGGCTGCTCATGGGCCCCACTGGGGTTACATGTGTGTCTCCCTTAGGCTGCCCATGGGCCCCGGGGGCTGAAGGGA
R
AGAAGAGAGAGCCTGCAGTGCTGGAACCTGTAAGTCATGCTGGTCACAGGGCTGAGGTGGTGGAAAGAGGAGAAGCAAGTGGGGTTTAGTGTGCTGGCCC
Celera SNP ID:            hCV25749131
SNP Position Genomic:     9095
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,32)   caucasian(A,1|G,37)   total(A,3|G,69)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5954):
CTCTGGGGCTTGGATAACTGAGCCCAAGAACTGTATGTTTTGCAAAAGGCAGTTATGAGGCCTGAGTTTGGAATATCTCTGGGAAATGCTCTCCAAATTT
M
CTTGGAGTATGGATACTTAACCTGTGCAGGGTTTTTACATTTTTGAACTCCTTCAAATTCTAAATAAAATTTTGTGCATAAGGGCATATACCTTTTCTTT
Celera SNP ID:            hCV28037129
SNP Position Genomic:     8667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5955):
TTTACTGATTTGTCTGATTGCTCTGGCTAGGATTTCCAGTACTATGTTGAATAGAAGTGGTGAGAGTGGGCATCCTTATCTTGTTCCAGTTCTCAGGGGG
W
ATGCTTTGAACTTTTCCCCGTTCAGTATAAGGTCGGCTGTGGGTTTGTCATAGATGGTTTTTATTACCTTAAGTTATGATCTTTGTATGTCAAGTTTGCT
Celera SNP ID:            hCV27463005
SNP Position Genomic:     12537
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5956):
TTCCTATCTTCAGGACTGCTGATCTCTGCAGAATAACTAGATGTCCACTTATGTGGCAGGACTGTCCACAGCCACTTATTCTATCCTTCAGTCTTCATCT
Y
TCCATCTATCCATCCCTTGAACCTATCTCTCTCCTCATCCACCCCATCCATCCACTCATTCACCAGTCCACCTACGCACACATCCACCACCCACTCCCGC
Celera SNP ID:            hCV11916855
SNP Position Genomic:     7324
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5957):
TTATTCTATCCTTCAGTCTTCATCTCTCCATCTATCCATCCCTTGAACCTATCTCTCTCCTCATCCACCCCATCCATCCACTCATTCACCAGTCCACCTA
Y
GCACACATCCACCACCCACTCCCGCAACCATTTACCCACCTATGCATCACAAACTTACCCATCTACTCATGCATGAAGGCTTATATCCACTCACCTGTCC
Celera SNP ID:            hCV11916856
SNP Position Genomic:     7399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5958):
CTGTTTCCTGTTAAGATGTTTATCAATGACAATGTGTGCCCAGCGGGATGTGGAACCTCATCAGTGATTCTAGTTTTGCCCTCTGCCTTGTGATCTTTTA
Y
TGCCCTCTGAAGCATGTGATCCCTGTGACCCATTCCCTATTCATAGACCCCCACCCCTTTTGAAATCCATAATAAAAACTTGCTGGTTTTGCGGCTCAGG
Celera SNP ID:            hCV27016320
SNP Position Genomic:     11922
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5959):
CTGAATGGAGGTGTGCAAGGGAGGGAACTGGTTGGCTTGGAGTGTACATGAGGGCCAGAAGAAGGGCAAAGCATCCTGCTGGGAGAGGAACTGTGGGGTG
Y
ATTGTAGGGGGCTGCTCTGGGGCTTGGATAACTGAGCCCAAGAACTGTATGTTTTGCAAAAGGCAGTTATGAGGCCTGAGTTTGGAATATCTCTGGGAAA
Celera SNP ID:            hCV11916857
SNP Position Genomic:     8552
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5960):
ATCTTTGTAAGCTGAAGATGTATGTCACCTCAGGACCCTGTGATGATTGCGTTAACTGCATAAATTGTTTGTAAAGCATGTGTGTTTGAACAATATGAAA
W
CTGGGCACCTTGAAAAGAACAGGATAACAGCAATTTTCAGGGAACAAGGGAGATAACCATAAGGTCTGACTGCCTGCAGGGCCAGGCAGAACAGAGTCAT
Celera SNP ID:            hCV27459612
SNP Position Genomic:     11472
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5961):
AGGGAACTGGTTGGCTTGGAGTGTACATGAGGGCCAGAAGAAGGGCAAAGCATCCTGCTGGGAGAGGAACTGTGGGGTGCATTGTAGGGGGCTGCTCTGG
R
GCTTGGATAACTGAGCCCAAGAACTGTATGTTTTGCAAAAGGCAGTTATGAGGCCTGAGTTTGGAATATCTCTGGGAAATGCTCTCCAAATTTACTTGGA
Celera SNP ID:            hCV11916859
SNP Position Genomic:     8573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5962):
GGCCCCACTGGGGTTACATGTGTGTCTCCCTTAGGCTGCCCATGGGCCCCGGGGGCTGAAGGGAGAGAAGAGAGAGCCTGCAGTGCTGGAACCTGTAAGT
Y
ATGCTGGTCACAGGGCTGAGGTGGTGGAAAGAGGAGAAGCAAGTGGGGTTTAGTGTGCTGGCCCTGTCACCTGTGAGTTTTAACCTTTGACTCCACAGGG
Celera SNP ID:            hCV25749177
SNP Position Genomic:     9131
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,11)   caucasian(C,29|T,7)   total(C,52|T,18)
SNP Type:                 MISSENSE MUTATION

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


Gene Number:                 39
Celera Gene:                 hCG1798356 - 63000132472520
Gene Symbol:                 MGC18216
Protein Name:                hypothetical protein MGC18216
Celera Genomic Axis:         GA_x5YUV32W6GH(14407198..14423524)
Chromosome:                  Chr15
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1700):
TGTGCTCACCCTGCTGACCGTCACCCAGCCTCCGGGGGGGGTCACAGCTGGCCCCCAGGAAGCTGCTTCCCAGCAGGGCAGGAATTCCATTTGAGTCTTG
TCCCTGTTCCAGGAGAAGGGCTGGGTATGTGTCCCCCAAAGGGGAGAGCATTCGAGAAGGATGGCGCCAGCCTCCCCAGAACTGACCTGTGGTTAAAAAA
AAAAAAAAAAATTGTGCTTTTTAAAAGATGAGTTTTATCAGCTCACACATCCTTCTAGAGTCTAATGGAGATTTTTTGTGTGTGTGGAAATAGTAAACAA
GGTCTTGAATCCCACAGAGCAAAAAAGACTTCCTTTCATGGGCAGCACTGGAAGGGTTGTTACTCTGGAATGGTTTAAAAGAGGCGTCACATGGCTTGTT
TGTGCTGATGTCACTGCCTCGCTGCTCTCCTGTGGCACCTCCTCGGTCCCTGGCCACAGGGCACAGAGCCAAGCACATCTCATGCTCTTGGCCCAGTTAC
GCTTCTGCCCAGGGGTAAGTCAGCTGGAGAGGAATTCACAGCCCAGGCATTTCATGTCGTTATGGCCTATTTTAATTTTTTTAACCCCAATCATTTTTCT
TAGGAAGTGATGGGGAGTTTGGAAAGGCAGGCTTATTTGTCATCAAGCTGCCAGCTTTTATCAATGCAAACCACATCCCTGTGACATCTGTGACTGTTCC
TTGGACAGTTAGGTGAGGGAGGGTCTCCTGGTGGCCCCAGGGTTACTCTTATTTAGGTTGAGAAAAATTCCTTTTTCCAGGATCGTTGGTGATCAAAGTG
TAGTCATTCTGTTGCGCAGAGAACTCCATCCCAGCTCCACCCTCATGAATTTTGTAATCTTGGACAAATTATTTAGTATCTTAGTGCTTCTGTTCCCTCA
TCTGTAACATGGGGGTATATTATAGTCAGTAGCACCTGCTTCACAAACTCGTGAGGACTTCAGCAGTTCACACACATAACTGCCTCGCTGCCTGGCACCT
AGCGTGCACATGGCATTCTACCGTGGGGTAGACTTTTAAAATTCTGGCTACAGAGATACTTTTCCATAAAAGTGGCCACATGGAACTCTCCAAATCTAAG
AAGCATACTGTGGGGGCCTTCATATTTTGTCTAATTCTTTTCTCCCCAGAACAGGAACCTGCACCCTTCCTTCTTTTAAAGGGCGACGTGGTAAATAAAC
ATTTTTAGACTTGCAGGCCACAGTCTCTGTCCTAATGTCCTCAGCTGGTAGTTGTAGCTGGAAAGCAGCTGCAGCCCACATGGAAATGAGGGAGCGTGGC
CCCATGCCAGTGCAGCTGATGTAGAGGCGGGCAGCCCCGGGTTAGGCCCTGTGGAGACGCAGGCCCCCGGGCTCTAGAACGCTGAATTCTAGTGAATTCT
GGATGGCTCTCCCTCACACCCAGGCCCACCCTCCCTCAAGGTTGCACCTTCTCCACCTGAAGGAAGCTGCCAGGTGGCCATAGGAGCCCTTCTCTTGGCA
GGCCAGCTTCCAGGCCCAGTGGCTTCTCTTACATCAGGGGCCTCCCCTTGGAATGTTCCCTGAAGGCCAGACACGGGCAGGTAGTCTGTGGTCAAGCAGC
CACCCTGACAGGAGGCTAGATGCCACTGGGTGTGCTTTGAGTTTCCTAGATGTGGAGAGTTCTGTGTGGCCACTTTTATGGAAAAGCATCTCTTTAGCCA
GAATTTTAAAATAAAGAGGATAACTTCCTGGTGAGAACAGACGTGGAAAGGAAGGCACTTTGGTTTCACGCTCATGTAAGAGAGGGCTGTTGGCGGTCAC
TCCTCAGAACTATGGCCAGCCCTGGATGGTAGCCAGCTGCTTTTTGCCCCAAAAGTCTGTTTAGCTGGGTCTCTGCATTCTGGAAGCTTGTCAAAGCCCG
GGCCTTTCCTGGGTCAGGGCAGCCGGCTTTCCTTGTCCACGTGTGGCCGGCTGTTTTCTTGGGGAGCCCCGGCCACAGCCGGCAGGACTCCCTTTGCTCC
ATGTGACTCTGAGGGCCTCACAGGTATTTGCAGCCCAGGTGCTGTCGGAGCCCAGCCGATGCGACCGACACACAGCACAAGCGTCATCCTGTTCTGCCTG
TCCCTTGCGTGTGGAGGGGACTCGTGCCCAGGGCTCTCCTTGCTGGCTTGTTGGAATCTGGCTTCAGGTCTACACGGGGCCTCTCGTTTGGTCCAGAACA
GCCTGGCTCATCGGCTGGGGCTTGCTTGTGCAGGGCTGGAGCGAGCACGTGCTAGATGGAGACAGCAGACTCGGAGTGTGCATTTCTTCGTGTTGCAAGC
CTGGCCTCACAGTGCCTTCTTCCTTTGGTTGTCTGCCAGGGGTAGCCCTGCACCAGGAGGAAGCTTAGAAATAGCACAGGTGGGAACCGGAGAGAGAGCA
CTGTTGGGGAAGCTGCGGTCACTCATCAGCCTTCCTGGTGAGAAACCAGGGGTTTCCTGCTAATTCTGGAAAGGATGTTTCAGCAGTGCCTGCATGAGAC
GCCTCAGATAGAAAACTGGTTATTTTTGTTTCTTAGCACTGCCACCATAGATAACAGCTGTCACGATGGACAGTGTGGACCTGGATTAGTCCTTCTTGGG
AAAGGAGAGTTTGGGTTTTGTACCGTGGTGGTTCTGGGTTCTGGGGGAAGAGAATGGAACCGTACGAGGTAAAACAGGAGACTCTGAAGGCCACTTGGCC
ATCCAGGCAGAAAGCCAGGGATGGAGAGGGGCAGCAGGGCTGTGTTCAGTGCTCCCGCCGTACGCTTGTATGCGGGAAACCACTGCAGGCGGCCCATGAA
GCCTCCTGGCCATGTGCGCCCTCCCGGTTTGGACCCCCTCCCGTGTGTCTTGGCTGCAGGTTTGAACTGATGCGCATGTGCTGGCAGTATAACCCCAAGA
TGAGGCCTTCCTTCCTGGAGATCATCAGCAGCATCAAAGAGGAGATGGAGCCTGGCTTCCGGGAGGTCTCCTTCTACTACAGCGAGGAGAACAAGCTGCC
CGAGCCGGAGGAGCTGGACCTGGAGCCAGAGAACATGGAGAGCGTCCCCCTGGACCCCTCGGCCTCCTCGTCCTCCCTGCCACTGCCCGACAGACACTCA
GGACACAAGGCCGAGAACGGCCCCGGCCCTGGGGTGCTGGTCCTCCGCGCCAGCTTCGACGAGAGACAGCCTTACGCCCACATGAACGGGGGCCGCAAGA
ACGAGCGGGCCTTGCCGCTGCCCCAGTCTTCGACCTGCTGATCCTTGGATCCTGAATCTGTGCAAACAGTAACGTGTGCGCACGCGCAGCGGGGTGGGGG
GGGAGAGAGAGTTTTAACAATCCATTCACAAGCCTCCTGTACCTCAGTGGATCTTCAGAACTGCCCTTGCTGCCCGCGGGAGACAGCTTCTCTGCAGTAA
AACACATTTGGGATGTTCCTTTTTTCAATATGCAAGCAGCTTTTTATTCCCTGCCCAAACCCTTAACTGACATGGGCCTTTAAGAACCTTAATGACAACA
CTTAATAGCAACAGAGCACTTGAGAACCAGTCTCCTCACTCTGTCCCTGTCCTTCCCTGTTCTCCCTTTCTCTCTCCTCTCTGCTTCATAACGGAAAAAT
AATTGCCACAAGTCCAGCTGGGAAGCCCTTTTTATCAGTTTGAGGAAGTGGCTGTCCCTGTGGCCCCATCCAACCACTGTACACACCCGCCTGACACCGT
GGGTCATTACAAAAAAACACGTGGAGATGGAAATTTTTACCTTTATCTTTCACCTTTCTAGGGACATGAAATTTACAAAGGGCCATCGTTCATCCAAGGC
TGTTACCATTTTAACGCTGCCTAATTTTGCCAAAATCCTGAACTTTCTCCCTCATCGGCCCGGCGCTGATTCCTCGTGTCCGGAGGCATGGGTGAGCATG
GCAGCTGGTTGCTCCATTTGAGAGACACGCTGGCGACACACTCCGTCCATCCGACTGCCCCTGCTGTGCTGCTCAAGGCCACAGGCACACAGGTCTCATT
GCTTCTGACTAGATTATTATTTGGGGGAACTGGACACAATAGGTCTTTCTCTCAGTGAAGGTGGGGAGAAGCTGAACCGGCTTCCCTGCCCTGCCTCCCC
AGCCCCCTGCCCAACCCCCAAGAATCTGGTGGCCATGGGCCCCGAAGCAGCCTGGCGGACAGGCTTGGAGTCAAGGGGCCCCATGCCTGCTTCTCTCCCA
GCCCCAGCTCCCCCGCCCGCCCCCAAGGACACAGATGGGAAGGGGTTTCCAGGGACTCAGCCCCACTGTTGATGCAGGTTTGCAAGGAAAGAAATTCAAA
CACCACAACAGCAGTAAGAAGAAAAGCAGTCAATGGATTCAAGCATTCTAAGCTTTGTTGACATTTTCTCTGTTCCTAGGACTTCTTCATGGGTCTTACA
GTTCTATGTTAGACCATGAAACATTTGCATACACATCGTCTTTAATGTCACTTTTATAACTTTTTTACGGTTCAGATATTCATCTATACGTCTGTACAGA
AAAAAAAAAGCTGCTATTTTTTTTGTTCTTGATCTTTGTGGATTTAATCTATGAAAACCTTCAGGTCCACCCTCTCCCCTTTCTGCTCACTCCAAGAAAC
TTCTTATGCTTTGTACTAGAGTGCGTGACTTTCTTCCTCTTTTCCCGGTAATGGATACTTCTATCACATAATTTGCCATGAACTGTTGGATGCCTTTTTA
TAAATACATCCCCCATCCCTGCTCCCACCTGCCCCTTTAGTTGTTTTCTAACCCGTAGGCTCTCTGGGCACGAGGCAGAAAGCAGGCCGGGCACCCATCC
TGAGAGGGCCGCGCTCCTCTCCCCAGCCTGCCCTCACAGCATTGGAGCCTGTTACAGTGCAAGACATGATACAAACTCAGGTCAGAAAAACAAAGGTTAA
ATATTTCACACGTCTTTGTTCAGTGTTTCCACTCACCGTGGTTGAGAAGCCTCACCCTCTCTTTCCCTTGCCTTTGCTTAGGTTGTGACACACATATATA
TATATTTTTTTAATTCTTGGGTACAACAGCAGTGTTAACCGCAGACACTAGGCATTTGGATTACTATTTTTCTTAATGGCTATTTAATCCTTCCATCCCA
CGAAAAACAGCTGCTGAGTCCAAGGGAGCAGCAGAGCGTGGTCCGGCAGGGCCTGTTGTGGCCCTCGCCACCCCCCTCACCGGACCGACTGACCTGTCTT
TGGAACCAGAACATCCCAAGGGAACTCCTTCGCACTGGCGTTGAGTGGGACCCCGGGATCCAGGCTGGCCCAGGGCGGCACCCTCAGGGCTGTGCCCGCT
GGAGTGCTAGGTGGAGGCAGCACAGACGCCACGGTGGCCCAAGAGCCCCTTTGCTTCTTGCTGGGGGACCAGGGCTGTGGTGCTGGCCCACTTTCCCTCG
GCCAGGAATCCAGGTCCTTGGGGCCCAGGGGTCTTGTCTTGTTTCATTTTTAGCACTTCTCACCAGAGAGATGACAGCACAAGAGTTGCTTCTGGGATAG
AAATGTTTAGGAGTAAGAACAAAGCTGGGATACGGTGATTGCTAGTTGTGACTGAAGATTCAACACAGAAAAGAAAGTTTATACGGCTTTTTTGCTGGTC
AGCAGTTTGTCCCACTGCTTTCTCTAGTCTCTATCCCATAGCGTGTTCCCTTTAAAAAAAAAAAAAGGTATTATATGTAGGAGTTTTCTTTTAATTTATT
TTGTGATAAATTACCAGTTTCAATCACTGTAGAAAAGCCCCATTATGAATTTAAATTTCAAGGAAAGGGTGTGTGTGTGTATGTGTGGGGTGTGTGTGTG
TGAGAGTGATGGGACAGTTCTTGATTTTTTGGGTTTTTTTTCCCCCAAACATTTATCTACCTCACTCTTATTTTTTATATGTGTATATAGACAAAAGAAT
ACATCTCACCTTTCTCAGCACCTGACAATAGGCCGTTGATACTGGTAACCTCATCCACGCCACAGGCGCCACACCCAGGTGATGCAGGGGGAAGCCAGGC
TGTATTCCGGGGTCAAAGCAACACTAACTCACCTCTCTGCTCATTTCAGACAGCTTGCCTTTTTYTGAGATGTCCTGTTTTGTGTTGCTTTTTTTGTTTT
GTTTTCTATCTTGGTTTCCACCAAGGTGTTAGATTTCTCCTCCTCCTAGCCAGGTGGCCCTGTGAGGCCAACGAGGGCACCAGAGCACACCTGGGGGAGC
CACCAGGCTGTCCCTGGCTGGTTGTCTTTGGAACAAACTGCTTCTGTGCAGATGGAATGACCAACACATTTCGTCCTTAAGAGAGCAGTGGTTCCTCAGG
TTCTGAGGAGARGAAGGTGTCCAGGCAGCACCATCTCTGTGCGAATCCCCAGGGTAAAGGCGTGGGKCATTGGGTTTGCTCCCCTTGCTGCTGCTCCATC
CCYGCAGGAGGCTCGCGCTGAGGCAGGACYGTGCGGCCATGGCTGCTGCATTCATTGAGCACAAAGGTGCAGCTGCAGCAGCAGCTGGAGAGCAAGAGTC
ACCCAGCCTGTGCGCCAGAATGCAGAGGCTCCTGACCTCACAGCCAGTCCCTGATAGAACACACGCAGGARCAGAGTCCCCTCCCCCTCCAGGCTGCCCT
CTCAACTTCTCCCTCACCTCCTTCCCTAGGGGTAGACAGAGATGTACCAAACCTTCCGGCTGGAAAGCCCAGTGGCCGGCGCCGAGGCTCGTGGCRTCAC
GCCCCCCCCGCCAGGGCTGTACCTCCGTCTCCCTGGTCCTGCTGCTCACAGGACAGACGGCTCGCTCCCCTCTTCCAGCAGCTGCTCTTACAGGCACTGA
TGATTTCGCTGGGAAGTGTGGCGGGCAGCTTTGCCTAAGCGTGGATGGCTCCTCGGCAATTCCAGCCTAAGTGAAGGCGCTCAGGAGCCTCCTGCTGGAA
CGCGACCCATCTCTCCCAGGACCCCGGGGATCTTAAGGTCATTGAGAAATACTGTTGGATCAGGGTTTTGTTCTTCCACACTGTAGGTGACCCCTTGGAA
TAAYGGCCTCTCCTCTCGTGCACATACCTACCGGTTTCCACAACTGGATTTCTACAGATCATTCAGCTGGTTATAAGGGTTTTGTTTAAACTGTCCGAGT
TACTGATGTCATTTTGTTTTTGTTTTATGTAGGTAGCTTTTAAGTAGAAAACACTAACAGTGTAGTGCCCATCATAGCAAATGCTTCAGAAACACCTCAA
TAAAAGAGAAAACTTGGCTTGTGTGATGGTGCAGTCAYTTTACTGGACCAACCCACCCACCTTGACTATACCAAGGCATCATCTATCCACAGTTCTAGCC
TAACTTCATGCTGATTTCTCTGCCTCTTGATTTTTCTCTGTGTGTTCCAAATAATCTTAAGCTGAGTTGTGGCATTTTCCATGCAACCTCCTTCTGCCAG
CAGCTCACAYTGCTTGAAGTCATATGAACCACTGAGGCACATCATGGAATTGATGTGAGCATTAAGACGTTCTCCCACACAGCCCTTCCCTGAGGCAGCA
GGAGCTGGTGTGTACTGGAGACACTGTTGAACTTGATCAAGACCCAGACCACCCCAGGTCTCCTTCGTGGGATGTCATGACGTTTGACATACCTTTGGAA
CGAGCCTCCTCCTTGGAAGATGGAAGACYGTGTTCGTGGCCGACCTGGCCTCTCCTGGCCTGTTTCTTAAGATGCGGAGTCACATTTCAATGGTASGAAA
AGTGGCTTCGTAAAATAGAAGAGCAGTCACTGTGGAACTACCAAATGGCGAGATGCTCGGTGCACATTGGGGTGCTTTGGGATAAAAGATTTATGAGCCA
ACTATTCTCTGGCACCAGATTCTAGGCCAGTTTGTTCCACTGAAGCTTTTCCCACAGCAGTCCACCTCTGCAGGCTGGCAGCYGAATGGCTTGCCAGTGG
CTCTGTGGCAAGATCACACTGAGATCGATGGGTGAGAAGGCTAGGATGCTTGTCTAGTGTTCTTAGCTGTCACGTTGGCTCCTTCCAGGKTGGCCAGACG
GTGTTGGCCACTCCCTTCTAAAACACAGGCGCCCTCCTGGTGACAGTGACCYGCCGTGGTATGCCTTGGCCCATTCCAGCAGTCCCAGTTATGCATTTCA
AGTTTGGGGTTTGTTCTTTTCGTTAATGTTCCTCTGTGTTGTCAGCTGTCTTCATTTCCTGGGCTAAGCAGCATTGGGAGATGTGGACCAGAGATCCACT
CCTTAAGAACCAGTGGCGAAAGACACTTTCTTTCTTCACTCTGAAGTAGCTGGTGGTACAAATGAGAACTTCAAGAGAGGATGTTATTTAGACTGAACCT
CTGTTGCCAGAGATGCTGAAGATACAGACCTTGGACAGGTCAGAGGGTTTCATTTTTGGCCTTCATCTTAGATGACTGGTTGCGTCATTTGGAGAAGTGA
GTGCTCCTTGATGGTGGAATGACCGGGTGGTGGGTACAGAACCATTGTCACAGGGATCCTGGCACAGAGAAGAGTTACGAGCAGCAGGGTGCAGGGCTTG
GAAGGAATGTGGGCAAGGTTTTGAACTTGATTGTTCTTGAAGCTATYAGACCACATCGAGGCTCAGCAGTCATCCGTGGGCATTTGGTTTCAACAAAGAA
ACCTAACATCCTACTCTGGAAACTGATCTCGGAGTTAAGGCGAATTGTTCAAGAACACAAACTACATCGCACTCGTCAGTTGTCAGTTCTGGGGCATGAC
TTTAGCGTTTTGTTTCTGCGAGAACATAACGATCACTCATTTTTATGTCCCACGTGTGTGTGTCCGCATCTTTCTGGTCAACATTGTTTTAACTAGTCAC
TCATTAGCGTTTTCAATAGGGCTCTTAAGTCCAGTAGATTACGGGTAGTCAGTTGACGAAGATCTGGTTTACAAGAACTAATTAAATGTTTCATTGCATT
TTTGTAAGAACAGAATAATTTTATAAAATGTTTGTAGTTTATAATTGCCGAAAATAATTTAAAGACACTTTTTTTTTCTCTGTGTGTGCAAATGTGTGTT
TGTGATCCATTTTTTTTTTTTTTTTTTAGGACACCTGTTTACTAGCTAGCTTTACAATATGCCAAAAAAGGATTTCTCCCTGACCCCATCCGTGGTTCAC
CCKCTTTTCCCCCCATGCTTTTTGCCCTAGTTTATAACAAAGGAATGATGATGATTTAAAAAGTAGTTCTGTATCTTCAGTATCTTGGTCTTCCAGAACC
CTCTGGTTGGGAAGGGGATCATTTTTTACTGGTCATTTCCCTTTGGAGTGTAGCTACTTTAACAGATGGAAAGAACCTCATTGGCCATGGAAACAGCCGA
GGTGTTGGAGCCCAGCAGTGCATGGCACCGTTCGGCATCTGGCTTGATTGGTCTGGCTGCCGTCATTGTCAGCACAGTGCCATGGACATGGGAAGACTTG
ACTGCACAGCCAATGGTTTTCATGATGATTACAGCATACACAGTGATCACATAAACGATGACAGCTATGGGGCACACAGGCCATTTGCTTACATGCCTCG
TATCATGAYTGATTACTGCTTTGTTAGAACACAGAAGAGACCCTATTTTATTTAAGGCAGAACCCCGAAGATACGTATTTCCAATACAGAAAAGAATTTT
TAATAAAAACTATAACATACACAAAAATTGGTTTTAAAGTTGACTCCACTTCCTCTAACTCCAGTGGATTGTTGGCCATGTCTCCCCAACTCCACAATAT
CTCTATCATGGGAAACACCTGGGGTTTTTGCGCTACATAGGAGAAAGATCTGGAAACTATTTGGGTTTTGTTTTCAACTTTTCATTTGGATGTTTGGCGT
TGCACACACACATCCACCGGTGGAAGAGACGCCCGGTGAAAACACCTGTCTGCTTTCTAAGCCAGTGAGGTTGAGGTGAGAGGTTTGCCAGAGTTTGTCT
ACCTCTGGGTATCCCTTTGTCTGGGATAAAAAAAATCAAACCAGAAGGCGGGATGGAATGGATGCACCGCAAATAATGCATTTTCTGAGTTTTCTTGTTA
AAAAAAAATTTTTTTAAGTAAGAAAAAAAAAGGTAATAACATGGCCAATTTGTTACATAAAATGACTTTCTGTGTATAAATTATTCCTAAAAAATCCTGT
TTATATAAAAAATCAGTAGATGAAAAAAATTTCAAAATGTTTTTGTATATTCTGTTGTAAGAATTTATTCCTGTTATTGCGATATACTCTGGATTCTTTA
CATAATGGAAAAAAGAAACTGTCTATTTTGAATGGCTGAAGCTAAGGCAACGTTAGTTTCTCTTACTCTGCTTTTTTCTAGTAAAGTACTACATGGTTTA
AGTTAAATAAAATAATTCTGTATGCATTTCTGTCTCTGGTTTGGTTTTGTCCCTCCTGGAAGCATCACTACACTTTGGTGGCAGGGAAGCTGAGCTATGT
GGGGCACGTGTGTTCACGCATGTTGCCTGGAAGCGTTCTCCAGAAAAGCATTGCCTCTTCTCTGACAGCTGAGCTTTCTCAGCATGCAAATTGCCAGTAA
AGACGACAGGGAAGCTATCTGTTTCTCCCTCCATTAAATCATCTGGAAAGAAATTTGAATACATAAATTACGAAACTCTGTACTGCAGTTCCGACTGATT
TGTAGACTTTTTTCCTATACCTTCCACTAACAACAGTCAGGCCAAGGCAAGTCTGATCTGCATGACCCCAAGGCAGAGGACTTCAGTTCTTCACATTTCC
CATGTGCTTTTTGGTCTTTCACAGCTGACATGCCCACCTCGGGGGGATGCTGGTGAGAACCCAGTGGGCCTCACGCAGAATGTGGGTCACTGGAGGAGCT
CCAAAGTCCTAGTTACTTTCTAGCTGCTGCTCAGTGATCTCTGTCTGCCCCTAGGGACCCTACAATGTAAACATTATTTTTGTCAGGGGAAATGGCATGT
ATGGCAAGGTGTGTTCTAGAATCAGACTAAGGATTCAGACACATCAGGCAGAGAAGCTGGTCATTTCCTTCAACTTTATCATGGGAAATTATGCTCCAAT
AGCAAAATCGGGCCAGTAGAAGAAGAGCTGTCCAGCAATGTATAGGTAGAAGTAAACCGAAGACCATGGTTACTTCAGACCTGTTGAGCCTCAGAAGTGT
TTGCACCTAAAAGCAAAGGCCTTTCTGAAAGGGGACTCTCAGCTGGGGTGCGGTGGCTCACGCATGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGG
ATCACATGAGGTCAGGAGTTCAAGACCAGCCTGGCTAACATGGTAAAACCCCATCTCTACTAAAAATACAAAAAATTAGTGGGACATGGTGGCGGGTGCC
TGTAATCCCAGCTACTTGGGAGGGTGAGGCAGGAGAATCTCTTGAACTCAGGAGGCAGAAGCTGCAGTGAGCCAAGATTGTGCCACTGTACTGCAGCCTG
GGTGACAGAGTAGGACTCTGTCTCAAAAAGGGTACTCAAGCTTGGCATTGCTTCAGGGTTACTGCTCAGTGTTGTCACCGAGTGCCTGGCACTCAGGGGA
TCTTCATTAGGTGACTGATGATGAGGAGGTCTCAATTCTGAGGCTGGAAAGCCCAACAGGGCCTCCTCCTTCCCTGGTCAGGTAGATGCTGCCCTTCCAG
GTTGCCACAGTGCAGTCTGCACTTGGCCTGCCCAGCCAGAAGGAGCAGCAATATCTAAGGATGAAGGTGCTGGGTCTTCAGAAGCATTAGAACCTTTCCC
CTCCAGGCCATTTCTTAAGACTGCAAGCCCTCAAGAGCTATTTCTGCATTTACCCCCCAAGTCCAGGTATGAGTCCATACTCACTCAGATGTGTGATTTT
TGTAGTGTTCTAATGTTGCTAAAAAGACCTTCACATCCATTCTCTCACCAGATGTTCACAATCACCCTGCAAAGGAAGGATTTTAATTACTCTTACAGAT
GAGCAAACATACAGGCATGCTCAAGACCCCTCCCCCGCCCCCCCACCTCCCCACCAGCTACCAACTCAGGACTCAGCCTCTCAGCCTTTTCTGCTGTGGT
TCTCAATCTGGCTTCAGCACTGCCAGAACTAAGCAGGCTCTGTGCATACTGACAAGGGATGCTGGGTGAAGTACACAGCCCAGGTGTGAATGAGACTTCT
GGGGTTCTCCCTGGAGAACTTCAGGGGCCACAGCGGGGGGAAATGATGGGGAAGTTCTTGAAGAGGGAGCTCTGGGCCTCCCAACTGGATAATATCTAAA
AATTTAAAAAATGTTATGGCATGCTGCCAGGCAGTCTGAAATATAACACTGGAGCCCAGTCCTGGGGGCCCCTTGCTTGCCAGTGTCCTGGGACAGAATT
GCCCATAGCACAGACAGATCTCCACATTAGCAACCATGCAGCCAGACCTGTGCACACCGCCCAGCACCACCTCCCCCCATCCCCCAATATGTGGGCTTTG
ATCTGTTTTCTAGCAAATGATCCAGGTGTACTTGCAAAGGGAGTCCCCTAAAGGCTACTCCAAATGCAAAAAGCGTGCTGGCGGCCTTGACTGCTTCCTT
TGGTTTTCTTGTGGGTTTTTGTTTGTTTTTTTTTTTTTTTTTTTTTGAGACACAGTTTTGTTCTTATTGACCAGGCTGGAGTGCAATAGTGCAATCTCGG
CTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCCCCTGCCTCGGCCTCCCAAGTAGCTGGGATTATAGGCACCCACCACCACACCCGGCTAATGTT
TTTGTAATTGTAGTAGAGACTGGGTTTCACATGTTGGTCAGGCTGGTCTTGAACTCCTGGCCTCAAGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGG
GATTATAGGTGTGAGCCACTGCGCCTGGCCTGGTTCCTTTGTTAGGAAGCTGCAAATGCTTTTCTTAATAGTGAATGAATCCAAACACTAACTGATGAAT
TTTTTAAATGTAGTCAAGTGAAAAATGGTAGTTGTAAGCACACCAACGTAACAAGAAATTTCCCAGAGCTCACCTACCTTCACTCACTTCCTCCAAAAAA
AAAAAAAAAAGCGATGTTACCAATGGGACTCCCAAAGGAAATCTGCCCCTAGAAAACACTGAACAGGTAGAATCTTGCTGGGAGAAGCTTGGCACAAGAC
CCGGTGCTGTGTCATAAAAGCAAAACAAAACATGAAACAGAAAGGAGATTCTGCTTTTAAAAAGGGAAGACACCATGGAGAGAAGCTAAGCCCGGCTATT
AACCTGCGCCTTCAAACCAAACACTACCAGTGTGACTGTAAAATGGTGCAGCCCCTGTGCAAAACAAAATGGCAGTTCCTTAAAAAATTAAACACAGAAT
TAGCATTGAATCCAGGAATTCACCTCTGGAGATTGACCTGAAAGCAAGGACTCGGATACATATTTGCACGCCAGTGTTTGTAGCAGCATGATTTGCAAGA
ACCAAAAGGAGCAAGTAACGTAAGTGTTCATCTACAGCTGAATGGATGAAATGTGGTCCATACATACACTGGAATATTATTCAGCCTTCAACAGAATGAA
ATCCTGTCCCATGCTACAACATGGATGAACCTGGAGGACATGAGGCTGAAATAATACGCCAGATGTAGAAGGACCAGCGCCGCATGACTCCCTCATATGA
GCTACCTACAGTCAGATTCATAGGGATGGAGGGTGGAGTGGTGAGCACCAAGTGCTGGGAGGAAGAAGGAATAGGGAGTTAATAGGTACAGAGTTTCAGT
TTGGGATGAGGAGAAAGTTCTGGAGATGGATGGTGGTGATGGTTGTACAACAAGGAAATGTACTGTATACTACTGAACTGTATGCTTGAAATTATTAAAA
TGAGTAGTAAAAGGGGCAAACACAGAGACAGAGAAATCATACAGTAGAGCCTCGGTGGCTTCGAGGCTACCCAGGACCTGGACACACAAGCTCAAAGGCC
AGGAATGGGGTCCCTGGAGCAGCGGCTGTCTCTGTGCTTCTGTAAGCATCTCCAAAACAGGTCTGTGGTCCCCACAGTCTGCGCAGGATCACACAGACCC
ACTGTGTAGATTTTTGGAAGAAAACAGATGACTCGGATTTCATTTTATTGTCATGAAAACCATAACTGAAGCTAGTTCATCCCCTGTGAAATGTCCACCT
TTCAGAGTGTTCTTTCTCCTGACAATAAAATAACCCTTTGTGATTTTGTTGGGCTAATTCAGAGTTTTCCACCCTCTTTGTCTTACAAGCAATTTTTGAA
AAAGTTTCTCAATGCACAGTTGAGTGCTACATACAGGATTGAAACATTCAATTTTCTCTAGAGGAGCAATCCCCCGGTCAGTTCCCTTTGGCTGGAAGGA
CCATGGTTGAGTTTTCTTCGAACTGGGCTCTGTGCTTGGGCTTTCCCACCTCTTCCAGCATTTCCTGGATGATGACTCTCAAGGCTCTTCCCAGCAGGCT
GGCCGGGAGCCCGCGCGATAGTGGAGGGACATGGATGAGTGCCGCGCAGCCCTTTCCATGATGCAGAGACAGGTAATAGGTATAATCACAGACGTATCTG
CAACCACAGGAAATGCCACATTAATTCTCGGACCAGCCTCTAACCTCAGTGAAACATACGCAGAAGTGGCAATGCAACACCCACAAAGCCTGAGGAGGGA
GCACTGCCACCCAAGGGAGACTTGTGTTGTTTCACCTCAGAAAGAACATGGTGCCAGGATGAGCTGGGGAGAGCTGGCTCTTGGCCTCATGGCCTCATGA
CCGGCAAGTGGCCAAGGCAGAAAGGGGTCAGATATTCCACAGCACCTGCATCCCAGTGAATCCCTCTCATTCATGTCTTCGTTGAGTCACTTACTCATTC
ATTCACTGGGGAAAGGGGAAAAACCACCTACTGGGGATCGGAGTTTGGAGAAACAAAGGTAAATCAATCTTTATCTGGGGCTACATCAACACAGTTAACT
CACAACTTCGGTCACCCCAAAAATCAAAATCAGAAAACATTCACGAAATGTTAGTGGCTCTTGAAGTCTGCCTTCCCATCTCTTCTCCTAGATCAACACA
CCAAAGACCGTGTTTCCACAGGCAGGTCTCACAAACGAGACCTCAGGCAAGGTGTGAGCAACTGTGCTGGCCTGCACACAGCAAAGAGGGGCAATCTGGG
GGCGGCACCGCATGGCCAAGTGGCCAGCTGGACGATACAGGATGGCTTCTTGGAGGTCGGGGGGACGCTGACGGCCATTGCTTCTCTCCTACCTGCTCAG
AGTCCTGACACCCACAGAGCATACCTGCCTGCATCTCGGGAAAAGATCACGTCGACACCCTCCACAGCTACGCGCTTGCAGACTGCCTTCATGCAGACCC
CTGACTCCAGCACGTCTGGGCTGCCAGGTAGGCACACGCCGCCCTCGGGCCAGAAGCTGCGGATGTCGGCGTCCCGGTAGCCTTGGTTCTTGCCAGACTG
TTCCAGAATGATCGCCTTGGCGGCGGTGTCCATGCCCACATGCACGACGAGCTGTGTGAACGGGTAACAGCAGAGAGAACCCAGGAAAACGAGGCCCACC
CTGCTCACCAAATGTGCAGAAGGGGCCACTCCTTTTGAGAGCCCGGCTCTGTGCAAAACATCTCAAACCCCAAATCCACTGGGAAACCCCAGGATCCCCC
ACCAGTGTCTCCTAATTAATATGGCTGGAAAGAAAAACAGCTGGATTCTTTTAGCTGAATAAAAACTCATGCTGCATTTACATTTAAATGCTTTTTACTT
CAAATTATTCTTACAGGGTAATGTATTCTCTTTTTGTGGGGGGAGGGTTGGAGGGAGGAGAGGCAAGCTAGTAAGTGGTGAGGCTACCACAGCAGAGTCT
TCGTGTTTTGGTGGAATCCTGAATCTTTTTATTTTATATTTTATTTATGTATTTATTTATTTTTATGAGACAGAGTCTGGCTGTATCACCCAGGCTGGAG
TGCAATGGCACCATCTCAGCTCCCTGCAACCTCTGCCTCCCGGGTTCAAGTGATTATCCTGCCTCAGCCTCCCGAGTAGCGGGGACTACAGGTGCACCAC
GCCCAGCTAATTTTTGTATTTGTAGTAGAGATGGGATTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCGCCTGCCTCGGCCT
CCCAAAGTGCTGGGATTATAGGTGGGAGCCACCGTGCCCGCCTCCTGCATCTTTTTTTAAATGAAACTTTAATAAAGGAAGTTAGTGGCCATCCAGTGAA
ATCTTCTTAGAATTTATTCAAGCTGATTATTTTTCCTTTTTGAAAAATAGCTGCCCAAGTATGTTATCAAAACATCTGGGGCATTGTCTGAATGGCTTGA
TAGTGTATGTTTTATTAACCTCATCA


SNP Information

Context             (SEQ ID NO:5963):
CCCTGGCTGGTTGTCTTTGGAACAAACTGCTTCTGTGCAGATGGAATGACCAACACATTTCGTCCTTAAGAGAGCAGTGGTTCCTCAGGTTCTGAGGAGA
R
GAAGGTGTCCAGGCAGCACCATCTCTGTGCGAATCCCCAGGGTAAAGGCGTGGGTCATTGGGTTTGCTCCCCTTGCTGCTGCTCCATCCCTGCAGGAGGC
Celera SNP ID:            hCV11430939
SNP Position Genomic:     6312
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:                 UTR 5


Context             (SEQ ID NO:5964):
GTCACAGGGATCCTGGCACAGAGAAGAGTTACGAGCAGCAGGGTGCAGGGCTTGGAAGGAATGTGGGCAAGGTTTTGAACTTGATTGTTCTTGAAGCTAT
Y
AGACCACATCGAGGCTCAGCAGTCATCCGTGGGCATTTGGTTTCAACAAAGAAACCTAACATCCTACTCTGGAAACTGATCTCGGAGTTAAGGCGAATTG
Celera SNP ID:            hCV11713659
SNP Position Genomic:     8547
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,7)      total(C,7|T,4) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:5965):
GCCAATGGTTTTCATGATGATTACAGCATACACAGTGATCACATAAACGATGACAGCTATGGGGCACACAGGCCATTTGCTTACATGCCTCGTATCATGA
Y
TGATTACTGCTTTGTTAGAACACAGAAGAGACCCTATTTTATTTAAGGCAGAACCCCGAAGATACGTATTTCCAATACAGAAAAGAATTTTTAATAAAAA
Celera SNP ID:            hCV16048098
SNP Position Genomic:     9509
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:5966):
GCCCTCTCAACTTCTCCCTCACCTCCTTCCCTAGGGGTAGACAGAGATGTACCAAACCTTCCGGCTGGAAAGCCCAGTGGCCGGCGCCGAGGCTCGTGGC
R
TCACGCCCCCCCCGCCAGGGCTGTACCTCCGTCTCCCTGGTCCTGCTGCTCACAGGACAGACGGCTCGCTCCCCTCTTCCAGCAGCTGCTCTTACAGGCA
Celera SNP ID:            hCV25746517
SNP Position Genomic:     6696
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,4|G,30)   total(A,9|G,63)
SNP Type:                 UTR 5


Context             (SEQ ID NO:5967):
TGATCCATTTTTTTTTTTTTTTTTTAGGACACCTGTTTACTAGCTAGCTTTACAATATGCCAAAAAAGGATTTCTCCCTGACCCCATCCGTGGTTCACCC
K
CTTTTCCCCCCATGCTTTTTGCCCTAGTTTATAACAAAGGAATGATGATGATTTAAAAAGTAGTTCTGTATCTTCAGTATCTTGGTCTTCCAGAACCCTC
Celera SNP ID:            hCV27518809
SNP Position Genomic:     9103
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,13|T,1280)   total(G,13|T,1280) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:5968):
CCCTGTGAGGCCAACGAGGGCACCAGAGCACACCTGGGGGAGCCACCAGGCTGTCCCTGGCTGGTTGTCTTTGGAACAAACTGCTTCTGTGCAGATGGAA
T
GACCAACACATTTCGTCCTTAAGAGAGCAGTGGTTCCTCAGGTTCTGAGGAGAGGAAGGTGTCCAGGCAGCACCATCTCTGTGCGAATCCCCAGGGTAAA
Celera SNP ID:            hCV11713653
SNP Position Genomic:     6258
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,10)   total(-,10|T,3) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:5969):
GACCCATCTCTCCCAGGACCCCGGGGATCTTAAGGTCATTGAGAAATACTGTTGGATCAGGGTTTTGTTCTTCCACACTGTAGGTGACCCCTTGGAATAA
Y
GGCCTCTCCTCTCGTGCACATACCTACCGGTTTCCACAACTGGATTTCTACAGATCATTCAGCTGGTTATAAGGGTTTTGTTTAAACTGTCCGAGTTACT
Celera SNP ID:            hCV1134378
SNP Position Genomic:     7004
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|C,11)      total(C,11|T,5) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:5970):
AGCTGCAGCAGCAGCTGGAGAGCAAGAGTCACCCAGCCTGTGCGCCAGAATGCAGAGGCTCCTGACCTCACAGCCAGTCCCTGATAGAACACACGCAGGA
R
CAGAGTCCCCTCCCCCTCCAGGCTGCCCTCTCAACTTCTCCCTCACCTCCTTCCCTAGGGGTAGACAGAGATGTACCAAACCTTCCGGCTGGAAAGCCCA
Celera SNP ID:            hCV25746968
SNP Position Genomic:     6571
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,2|G,34)   total(A,6|G,66)
SNP Type:                 UTR 5


Context             (SEQ ID NO:5971):
TTTTAAGTAGAAAACACTAACAGTGTAGTGCCCATCATAGCAAATGCTTCAGAAACACCTCAATAAAAGAGAAAACTTGGCTTGTGTGATGGTGCAGTCA
Y
TTTACTGGACCAACCCACCCACCTTGACTATACCAAGGCATCATCTATCCACAGTTCTAGCCTAACTTCATGCTGATTTCTCTGCCTCTTGATTTTTCTC
Celera SNP ID:            hCV11430940
SNP Position Genomic:     7238
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:5972):
GCTGATTTCTCTGCCTCTTGATTTTTCTCTGTGTGTTCCAAATAATCTTAAGCTGAGTTGTGGCATTTTCCATGCAACCTCCTTCTGCCAGCAGCTCACA
Y
TGCTTGAAGTCATATGAACCACTGAGGCACATCATGGAATTGATGTGAGCATTAAGACGTTCTCCCACACAGCCCTTCCCTGAGGCAGCAGGAGCTGGTG
Celera SNP ID:            hCV11713655
SNP Position Genomic:     7410
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,12)      total(C,12|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:5973):
TGGAACGAGCCTCCTCCTTGGAAGATGGAAGACCGTGTTCGTGGCCGACCTGGCCTCTCCTGGCCTGTTTCTTAAGATGCGGAGTCACATTTCAATGGTA
S
GAAAAGTGGCTTCGTAAAATAGAAGAGCAGTCACTGTGGAACTACCAAATGGCGAGATGCTCGGTGCACATTGGGGTGCTTTGGGATAAAAGATTTATGA
Celera SNP ID:            hCV15914271
SNP Position Genomic:     7696
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:5974):
TAAAAGATTTATGAGCCAACTATTCTCTGGCACCAGATTCTAGGCCAGTTTGTTCCACTGAAGCTTTTCCCACAGCAGTCCACCTCTGCAGGCTGGCAGC
Y
GAATGGCTTGCCAGTGGCTCTGTGGCAAGATCACACTGAGATCGATGGGTGAGAAGGCTAGGATGCTTGTCTAGTGTTCTTAGCTGTCACGTTGGCTCCT
Celera SNP ID:            hCV27009701
SNP Position Genomic:     7883
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,11)      total(C,11|T,2) ;JBIC-allele(T,522|C,969)   total(C,969|T,522)
SNP Type:                 UTR 5


Context             (SEQ ID NO:5975):
ACCATCTCTGTGCGAATCCCCAGGGTAAAGGCGTGGGTCATTGGGTTTGCTCCCCTTGCTGCTGCTCCATCCCTGCAGGAGGCTCGCGCTGAGGCAGGAC
Y
GTGCGGCCATGGCTGCTGCATTCATTGAGCACAAAGGTGCAGCTGCAGCAGCAGCTGGAGAGCAAGAGTCACCCAGCCTGTGCGCCAGAATGCAGAGGCT
Celera SNP ID:            hCV25747490
SNP Position Genomic:     6430
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:5976):
GAACTTGATCAAGACCCAGACCACCCCAGGTCTCCTTCGTGGGATGTCATGACGTTTGACATACCTTTGGAACGAGCCTCCTCCTTGGAAGATGGAAGAC
Y
GTGTTCGTGGCCGACCTGGCCTCTCCTGGCCTGTTTCTTAAGATGCGGAGTCACATTTCAATGGTACGAAAAGTGGCTTCGTAAAATAGAAGAGCAGTCA
Celera SNP ID:            hCV15910918
SNP Position Genomic:     7629
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:5977):
GTCTAGTGTTCTTAGCTGTCACGTTGGCTCCTTCCAGGGTGGCCAGACGGTGTTGGCCACTCCCTTCTAAAACACAGGCGCCCTCCTGGTGACAGTGACC
Y
GCCGTGGTATGCCTTGGCCCATTCCAGCAGTCCCAGTTATGCATTTCAAGTTTGGGGTTTGTTCTTTTCGTTAATGTTCCTCTGTGTTGTCAGCTGTCTT
Celera SNP ID:            hCV11713656
SNP Position Genomic:     8052
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,11)      total(C,11|T,3) ;no_pop(C,-|T,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:5978):
CATTTCGTCCTTAAGAGAGCAGTGGTTCCTCAGGTTCTGAGGAGAGGAAGGTGTCCAGGCAGCACCATCTCTGTGCGAATCCCCAGGGTAAAGGCGTGGG
K
CATTGGGTTTGCTCCCCTTGCTGCTGCTCCATCCCTGCAGGAGGCTCGCGCTGAGGCAGGACCGTGCGGCCATGGCTGCTGCATTCATTGAGCACAAAGG
Celera SNP ID:            hCV8723111
SNP Position Genomic:     6367
SNP Source:               Applera
Population(Allele,Count): african american(G,20|T,14)   caucasian(G,14|T,20)   total(G,34|T,34)
SNP Type:                 UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,7|T,7)      total(G,7|T,7) ;(T,-|G,-)   no_pop(G,-|T,-)   JBIC-allele(G,637|T,854)   total(G,637|T,854)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:5979):
CTGAGGAGAGGAAGGTGTCCAGGCAGCACCATCTCTGTGCGAATCCCCAGGGTAAAGGCGTGGGTCATTGGGTTTGCTCCCCTTGCTGCTGCTCCATCCC
Y
GCAGGAGGCTCGCGCTGAGGCAGGACCGTGCGGCCATGGCTGCTGCATTCATTGAGCACAAAGGTGCAGCTGCAGCAGCAGCTGGAGAGCAAGAGTCACC
Celera SNP ID:            hCV25768907
SNP Position Genomic:     6403
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,26)   caucasian(C,2|T,36)   total(C,12|T,62)
SNP Type:                 UTR 5


Context             (SEQ ID NO:5980):
GGCGCCACACCCAGGTGATGCAGGGGGAAGCCAGGCTGTATTCCGGGGTCAAAGCAACACTAACTCACCTCTCTGCTCATTTCAGACAGCTTGCCTTTTT
Y
TGAGATGTCCTGTTTTGTGTTGCTTTTTTTGTTTTGTTTTCTATCTTGGTTTCCACCAAGGTGTTAGATTTCTCCTCCTCCTAGCCAGGTGGCCCTGTGA
Celera SNP ID:            hCV27854739
SNP Position Genomic:     6065
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,1)   caucasian(C,4|T,4)   total(C,11|T,5)
SNP Type:                 UTR 5


Context             (SEQ ID NO:5981):
CTTGCCAGTGGCTCTGTGGCAAGATCACACTGAGATCGATGGGTGAGAAGGCTAGGATGCTTGTCTAGTGTTCTTAGCTGTCACGTTGGCTCCTTCCAGG
K
TGGCCAGACGGTGTTGGCCACTCCCTTCTAAAACACAGGCGCCCTCCTGGTGACAGTGACCCGCCGTGGTATGCCTTGGCCCATTCCAGCAGTCCCAGTT
Celera SNP ID:            hCV27493060
SNP Position Genomic:     7990
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,590|G,867)   total(G,867|T,590) 
SNP Type:                 UTR 5


Gene Number:                 40
Celera Gene:                 hCG1799052 - 146000219875003
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VV34(12261283..12273831)
Chromosome:                  Chr3
OMIM number:                 601487
OMIM Information:            PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR-GAMMA;PPARG


Genomic Sequence (SEQ ID NO:1701):
CAAAAATAAAATTAAGTATGTATAATAATAATTATTATTATTTCGAGACAGAGTTTCACTCTTGTTGCCCAGGCTGGAGTGCAATAGCGTGATCTCGGCT
CACTGCAACCTCTGCCTCCCGGGTTCAACCGATTCTCCTGCCTCAGCCACCTGAGTAGCTGGGATTAAAGGCACGTGCCACCATGCCGAGCTAATTTGTA
TTTTTAGTAGAGGTGGGGTTTCTCCATGTTGGTTAGGTTGGTCTCAAACTCCTGACCTCAGGTGATCCTTCTGCCTCTGTCTCCCAAAGTGCTGGGATTA
CAGGCGTGAGCCACTGCGACTGGCCGCATGTATGATATTTTATGATCTGTGGATCTGCCAAAGGATTAAGCATTATTTATACTACCTTGGCACATCATTT
TCTGAAGTGATTGAAAAGTTCCTCTCATTTCAATCTATTAGGAAGCTACTTTTAAAGCCTGGAAGAGTTGACTCATGAAGAGACCACATAATTTGTCTAA
CATCACAGAGGAAATACAAGATATAATGAAGTGATAATATTCAGATATTTAATTACATTAAGATAATACTAGCTCATAACTTGAACTGTGATTACATTTC
TTAGTTTAATTGATGTTTCAGAATAACTGTTTTGAGGTCAAAAATGGTTCAAGGAAGATCTGCGACTTGTCTTGACTAAGAGAAAAAAAATGATGGGTAA
ATATATCTTTTCCTATCACTGCTATTCCAAATGGTTATTTTCCTATTTTGTTTCAAAGTTTCTGGCTTATGAGGAAACTGGGACATGCATTAACTTTATT
TTTCCCTCTCCTAACCCCCTCTTTCAAACTCCAAATCTGTTTTCTACTCCTTAAAGGCCTTGTTTTCAGGTAGCAAGGAAACAAGCAACTAGCCTTTCAC
ATTTTTGCTGATAGTGGTTTAGTGAACTAACCCTGCCAGGAACTTTGGCATTTTAAAAGTAGACCCAAAGCTTTCAAATTCAAAGACATTTTAAATTTCA
ATTCAAAGACATTCAAATTCAAAGACATTTTAAGAGGTGTATGACAGCCAGAGGGGTGTGGTCAAGGTTAGGAAGTTCCTTCCGGAACTTCATCATTGCA
CTCGAACAGTTTGACAGTTATATTTCTCCACTGCCCTCGATATGAAGGAAAATTTATTCCTTAAACATACAGGATGAAAAAGTAACCTCTTTCCATTCCC
TTGCCCAAATTATCTCCTTTAGTATAGAGCCAGAAAGAATAACAGTGCTAAGTGGCAAACTGAGATGTCCTACAATGTCACCAAGAAGCAGGGTAAATTC
TTAGAAATCAACCTTATATTTTAAGACTATACACAGTAATCATGCAACCTGCTGACTGTGGGAGTTGAGCATATACAGACCTGGTACATTCCTACTCAGG
GTATTTCCCTATTTCTCTACCTCCCTCATATCTACCTTCTCCTTACCTGTGGCAAACTGCGAAGGACTTCTCACCCCACGTTTTTGCTAATCTGAACTCT
TCTCAGAAGGTCAGATAATCTGACTCAATATGTCATATCCACACATAATCCTCCCAGATGAGTCCACAAATTAAAGTGGTTTTTTTTTAATAGTGACATA
GTTAAAACCAAGCAATGAATTTATTTTCTAAAATCAATGAAGTGGAATAAAAATGCTTCCTAAACAGATATTGAATCCAACTGAACTGAACTTACACAAT
CTAGTTTAAATCCTGACTGGAGGGTTTAAAATCTCCACTTAATGGATTCAATTCCTTTATATCTAAAAAATCGCAGTAGGAAAAAAAATTCATGGCACTG
TCCCACAAAAGATTTTCAAGTTGAGAACAGCCTGGCCACTGGAACAGTTGAAGGTATGGCAATGACTCTGAGAAAGCCTACGCTGTAGGATTAAGGCAGT
GGAAGATAACACGGCTCCCCACTCCCGGACAGGGACACTCAGCCCACCTACACGCACCAGCATGAGCCTTTCTTTGCCTTCGCCTCTGCATCCTTTTAGT
GAAGTCCCTACTTGGGCTTTGTAGCTCCACACTGCAGTGGGCAGAGTGGCTTGCCAGTCCAGTGTGCAGTTTGGGGCCCAGAGAAGGTGGGAGAAGTCCT
CTCCAACAATCCTCAGCCCCCGGGGCCCACGCACACAAGCCTCTTCACCCCATCACCCCGTGTGCTGTTACCAGTAACTTCCCATCACCAAGACACCGCT
TGCAGAGGCCTCCTCTTTGGCATATTCAGTCCAAGTCCCTTACTTTCTTAAGCAGGAGACACTTCACAACAATATGTATCAACAATTCACGCGAAGAATT
TAAAATTTATTATTTGGATGGTGCACAGTTAATTATATGTTTTTCCACTTACTCCCTACTAGCAAATAGGTGGGTTATTAGGAGATATCTGAACCTTTCA
AGCCACTAAAACACTATTTTTTGGTGAGTGCTTGTTGAAAGAGACCCATTTTTAATGACAAGCACAAGTCACTATTTAGTCTTTTAAGTTGTGACACTAA
ACTGTCTTCTGATCTGATGGATCCTAGGCCTCATTATAAAACGAACTTGCTCCTGGGGAATATACGTTAAGAATTCACAAGGTGTGCCATAAAGATATGC
AAAGACTAGAGCTTTATCAAATCAAAGCGCACAATCTGTGCCTTCTAGATGCATCGGATGTATAATATTAACATAAGAGGGGCTACACAGGACTCGCAAA
GCTGGAATAAAAATAATTACTATGCTGATTTTTGTCCAAAGTCATCAGGGAATGGAAAATACAATTTTAAATTGAATGATAATAAAATATTCCCAGAAAC
AGTTTATAAATTGATCACCACATGAGAAGCATCATCTTCAATCTTAACAATCTCAAAGTTATTGAGGTTTGAACTACAGTGAACTATTAACATTGGTAAA
AGAGTTAGCTATGACATAGATATTCATGAAGGTTCTTTTCAGAATATCAGCTCAATTAAATTCAGGGTCATGGTCACATCATTTAAAGTACATGGGTTTG
CTCATAAAGCCTTAAAATCATAGCAAAAGAGCAAGCAATAATAACTGCAACACTTTCTCCGTTTCAAAGATGACAAAATTGAGAGAAAGGATAAGGTACT
TGCCTAAGCCATAATAATTGAAACAGTTGAAAATGTAAACAGTCATACTCTGAATGAAATTCTCGGCATTAAAATATTGATGTGTACTTATTGTTGAAGA
GAAATTTTAAAAATATGTAAATCTGTTTTTACAAAATAATTTAAACATATACTATTATTGATGACAGATATTATCTAAACATCTACAAAAGTTTTCCCCA
AAACATGGCCTATTGCATCTGAATAGATTTTATCCCAAGAACCTACTTTAAGTGCATTAAATAAAATTTAAAACATGACATTTTAGTTAAATAACAGCTT
TAAAACATATACTATATTACTCCCCCAATCTACCTCTGTATTTTGAGAAAACGCAAACAGTAAGTAAGAACTTCCAAGAAGATTTCAAATAATCTTAAAT
CTAAATTTTTGATTTAGAACGCTATGAAACTAACTGAAGTTGATACGCTGGGGATATCTACACTTGCAAGATGGTTGTTCACAACTCTTACTATTCTTTT
GTGGAGTCAAATTAGATCCGTTTCAAAGGACCTTTGTAAGCAATTAAAATCACTGCGCTTTTTGTTGCTTTGGGATATTAAGAGAGAGTAAGCAAAGTGG
AGATCTACCAGGAAAAATAAGCAAATTAGAAATTCAGTTGTGGGGGGTGCATATGTTTACGCTTACACACTAGTGACTTCACCAAGTTTTCTCTATTAGT
GAGTTTTTAAAAATCCTCTACAGCTAATATTTATTTAGTGGAATCCTATGAGACCAAAAACTTCTTCCAGTACATTTGCCACACCTAATGACATACTGTA
TTTCCAAGTCCAAGTGACAACGAATCCAGCAGAAAGACACCCACAATTAGAATGACCAACTCTGTCCTATGCATTGGGAATATATAGATGCTAGGAAAGA
AGTGAAAGTGTGGGCCAGAATGTGTGAAACATTCAGAAAATGTCATTTTAACATATTTTCCTACTTCATGAAAGCCTCTTGTTATTAATAACGATTTTAT
AACCTGAAAACTAAATGAAATGTATTATTAATACTTGTATATGTTCCACGGTTGTGCCTTTTACACAGCTTTCATGCACATAATTATCTTGATAATTAAG
GTTAGTGGCTAACATCCTTATTGTCAGAAAATTACAGAAGAAAAAAGTATTTGTTTATATTTATATAACACTGATTAAAAACAATTCACTACGACCATTA
GTAATCCACTTCTAATTCATATTCCTCATGTCACACCTTTTCTCTTGTACACATTTTAAATGTCATAGGAATTTAGAAATATTGCAATTTAAAGCATAAT
CTAGAATTTTTTTAAAAGTAGTTCTGAAACATACAAAAAAATGAACATTTAGGAAACTAGTCCTTCAAAGAAAATATTATATTTTATCATTAAAAATATC
AATCGCAAAAATATTTTCAAAGCACTTAAGTTCAATAAAGAATATGAGGCCGGTGGACATTTTAGTTTTAATTTTAAAAAGAAATTATATTCTTTTTAAT
GTAAAGAAATGAGAAAACGACATCCAAAAAGTCTTCAGCCTGGGATTCTACAAAACTTTATACCTCACTGATGCCATGGTTTTACAGCAGTTATTGTTTA
AGAACTAGAAACAAACTTGTAAATATGAAAAAAGTTTTTGATTTTAAAAAAAACCATCATTAGTGTTTCTCTTTTCCTTCAAGTGAGTTTTAAAAGACTG
AGATGGCCACCAGTTGATTCAAAGATCTCTTAAGACATAATTATTAGCAAGTTAACTATCAAATATCATATAATTTAAATCAGGGAGAAAAATTATGTGA
AGTACACAAGAAGACAAAAATGGACAGTTTTGTAATACACTTCACTTTTTGGCTGAGACATTACCTTTAAAGTTTCGTATATTAAAGTGAATATTCAAAT
ACACTTTATTTGGAATCAAATAAAGTGTATTTGATTCCAAAGTGAATCTGATTGAAAATATACTACACAAAACTTACTTTAAAACTTGAACAGAATGTTT
TGATATATTACTCCAAATGCTAACTGGTAGCATCTATGAGTGTCTTCTGTCAAACTCCCCTAGGAGTGAAAGGTATTTCTTTAAGAGAAAAGCCACAGTG
AATGTCCATGCCAGTCCCTATACCAGAAAGGTTTTCTAAATCATCTAGCACCATCAGTTGGTTCTGTTCTCAGTCAGCAATCGATCACTTAGCAATAGAC
AGAAAGACTGCCATAAAATACCTGAAACCTGTCGAAGATTTGCCCAGGTCCTTTTAAAGAGTTAAGTTATTCATTGTTCTCTTAATAAATCCAGTTAACA
ATTTGTCTCACGAATGACAGAAACAGTTGGGGTTAAAATAATGTACTTCAAAATCAGAGGTTTTCCAGGAATAGGTATTATACAACTCAGTTTATCATTG
TCTGGTTTTATATCCAAATGATAATTTACACAAATAAACTTTACATTTTGTCCCTAATCTTGCAAGGAAAAGAAGAAAAATTTTAGTTTCTTCATGGCAG
ACGACTATTTTTGACTTGATTTCTTTTATAACAATGACACTATTTTTACAACCGTTAGCCTATGACCCAAGTGAATTGGATTCTTCTTATAAAACAAGAG
CACTGCAAAAAAAAATGATATAAGGATAATACAATAATTTTGCAAATTTCGGACCTATCACCAACACATTCCAACAAAATGCAATGAGAGTGAGCCAACT
CACCTAAGGAAAGGGAATTAAGCAGAATGCAGAAATGCAGGCTTCTGGTCACCAGCAGAGGTTAAGGCCCCTTCCTTACCTACCACTGACCTTATATAAA
AGCCGCAGCTCGGTTACTCCCCGTTTCTGACTCCTTACCTTAGGCTCCTCCCTAAACACCGAGGCGTAAAGTACCACGACTACACACCCACCTTCCACCA
AGGGACCTGAGATTTCTGTTAACCTYTGCTGCCTCTACCCCCCTCAGTTAGGCTCCCAGGAGGAGTGGTCAGCGCCTGGCACTTGCAGGAGCCCACAAAG
CAGCGACTTCGCCTTTCCAGCCCCCCGGGGTGCGGCTGGGGGTCCTGGCTGCGCGCTCCATCCGCGGAGGCACGGAGGCACCCAGTCCCCGTCCCCAGCC
CCTCCGCCGGGCGTAGGGCCAGCACAACGCGTCAGGGCACAGGGCCTGGCCAGCTACAAGCGCGCCCCTCGCTGAACGGTCCCCCGGTCCCCAMGCGGCG
GTCGCCCCTGGGCTCTGGACAGCGAACGGGACCTCCTCCTCAGCAGGGGTGCCGCGCGGCCTCAGGACGGACGCACGCGGATCTTCGCTTCCCCGGGTCC
AGACACCCTGCTCCAAAGTTCCCCCGGAGCGGCTCCCGACGCTTGCGCACCTCCGCCGGGGACGCGGAGGTCCCCGTGTCCCCGGCTCCGCGCCCACCCG
GCGCTCTCCCGAGGGGGGCTGTCCTGGAAGCCGGGACGCACCGGCTCGCGTCCACTCGAGTCGGCACCGGCCGCGGCTCTCTGTGCCCGCGCCCTCCGCC
CCTAGTGCGCGCTCCGGTAGACGCGACCCTCAGCCCGGGTGCCCTCAGCCCAAGACCCCTTCACCCGGTCACCCGTGAGCCGCCCGCCCGCGACCCGTCA
GTCCGGGTCCTGCCGGACCATGACCCTGCCTCAGCCCCGGACCCCTCAGCCGAGACCCCCTTCTCCCCAGCTCTCATCCGTCTGGGACCCCGTCAGTTCC
CGTTTCCTCGGCCCTAGCCCCCAGACCCTCGGCCCCAGCCCTCCGCGCCCCCTCCCTGAGCACTCCCCGCCCAGCCAGCAGCCGGTTCCCGAGCGCCGCG
GGCACCCGTACTCTGACCTGCGGCCACGGCGGCGTGGCGCCCCTCTCCGGTGTCCTCGAGGCCGACCCAAGCGCCCCAGGCGGCGGCTGCGGCTCGGGCT
CGGGCTCCGAGTGCGCTGGGCCCCGCCTGCCCGCGGCGGAGCCGGGTCGGGCCGAGCCGGGCCCGGCGCGGGGGCGGGCGCGGGCGCCGGCTGGGGGTGG
GGGTGGGGGTGGGGGTGGGGGCGGGGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGCGACTGGGAGGGAGCGGCCCGGGCTCGGCCGCCGCCCGCGCACAG
TAGGGCCCACGGCGGGAGCCACCGGCTTTCCCGCGTCCACTGTCTGCCCCGCGGCAGCTACCTGGTGTCGTTTGCTCCTCGCCACCACCGCTGGGAGGCG
GCCCAGAGAGGGTCCCATTTCCGAGGAGGGATCCGAAGTTTAGGGGGATGCCCCCGGCCAGGGCCGGTCTGGGGAGACCGAGGTGTGGGGCTCCCTCTCG
GCCAGAGTGGCTTGCCCTTCACACGGCGATCGGCCAGGCCGTCTTCCCAAGATGTTCTTTCCAGTGACATTTTAAAAGAAAATTTAATTAAAGCATATTT
CGGGTCCCTTGGTTTTCTCTTCTGATCGGTGGTGCTGCACACTTTCAGAGTTCCTTGCGTTTGTAAGTTACATGGTTATTCACAAGTCACTGACTTTTAA
TCATTAAAAACATTTCTTAAACTCATTAACAGAATTTCTTAAATTTCTTAGCAGTGTTTCTGACACCGAGGGACTCAGACAACATGGGTGGGGACGGAGT
GGGGACGTGAGGCACGAGAAACAGTTTCTCATGTGTTGGGTAGACAGTGACCTTTTCTTTTCCTGCCACGCTGTCCATCGTGACCTGTCCAAAGTGGGTT
GGCAGGTGCGCGTTCAGAAAGCCGCTGGTCTCCTGGACTTGAGGCCCCTCTTTCCCTTTTTCCAGTCTTATTTCTGGAGCATACTGTTCTGGGCCTGATC
CTCTTTGGGGAGGCAGCGATGCCTGAGGCCCCCCACTTCAGGAAGCTTATGGACTGTATGCTGGGGTGCTCTGCATTTCTTCCTAGCTTCATTGTGGTTA
TTGCCCCTCTGGTACAGAAGGTCCTCGTTTGTGGTTGAAGCAAAGTTTTGCGAGGATGGGTATCACAAGGGAAAATATTCAGCGCTTAAATCAACATAAT
CATGTCCTTCCTCCACAGCCCCTAAGATAAGAAGCTGAGAGCCACGGATCTTACAGGGACTGACCACTGAAAGACCATTTATTGGCCTGTGATTTAGGTA
GTCAGGTTGACCCGGATCCACAGTCTCCACTCAGGCGGAAGTGCTCCGTGCGTCCTACTTCTTGTTAATTCCAGAGTTCCAATCTGCTTTTTTTTTTTCT
TTCTTCCTTTCTTTTCTTTCTTTCTTCCATGAGACAGGGTGTTGCTGTGTCGCCCAGGCTGGAGTGCTGTGGCGCAATCACGGCTCACTTCAGCCTCGAC
TTCCCGGGCTCAAGGAATCCTCCCACCCCAGGCTCCCAAGTAGCTGGGACTACAGGTGCACACCACCATGCCTGGCTAATTTTTTTTTTTAATTTTAATT
GTTTAGTAGAGACTGTGTCTTGACATGTTGCCTAGACTAGTCTGAAACTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCTTTCCAAAGTGCTGGGATTAT
AGGCACCAGCCACTGCGCCTAGCCTGCTTTTTAAAATCACAGCTTTATTGAGGAATAATTAATATAATCTAAAATGTAAATACCATAGAAGTAAAATGTA
CAATTCAGGCCGGGTATGGCAGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACTTGAGGCCGGGAGTTCAAGACCAGCCTGG
CCAACATGGTGAAACTCCATCTCTACTAAGAAATACAAAAATTAGCTGGGCGTGGTGGCACGTGCCTGTAATCTCAGCTACTCGGGGGGCTGAGGCAGTA
GAATCGCTTGACCCTGGGAGGCAGAGGTTACAAGCCGAGATTGCGCCACTGCACTTCAGCCCCAGAGCAAGACTCCATCTCAAAAATAAATAAATAAAAT
GTACAGTTCAATGAGTTTTAGTTTATTGACAGAGTTGTGCCATCATCACCAAATCTACCCTTAGAACATTTTCATCACTCCAAAAAGGAACCCCCTCTCC
ATTAACAGTCATTCCACCAACTCTAGATAGAGATATTCTTTCTCTATAGATTTACCTATTCTGGACAATTCATATAAATAGAATCATAGAATATGAAGTC
CTTTGTGACTTTCTTCTTTCACTTAGCATAGTATTTGTGAGGCTCATCCATGTTATAGCTTATATTAATATTTCATTCCTTTTTATGGTCAATATTCCAT
TATACACATATACCACATTTTGTTTATTCATCCCATGAATTGATGAATATTTAGGTTGTTTCTACTTTTATGGGCTATTATGAATAATGCTGCTGTGAGC
ATTCATGTACAAGGTTACTTGTGGACATATATTTTTATTTCTCTTGAGTATATACCTAGGGACAGAACTGCAGGATCATAAGGTAACTCGGTGTTTTTGA
GGAACTGCCAGTCTGTTTTCCAAAGTGGGCACACCATTTTACAATCCCACCAGCAATGTGTCAGGGTTCCAGTTTTTCCACATCCTTGTCAACACTTGTT
ATAGTCTTTTTTATTTTAGCCAACCTAAAGGGTATGAAGTGATATCTCATGGGGTTTTGTTTGTTTGTTTGTTTTGAGACAAGGTATTGCTCTCTCACCC
AGGCTGGAGTGCAGTGGTGCAATCATAGTTCACTGCAGCCTCGAATTCCTGGGCTAAAGCAATCCTCCCACCTCAGCCTCCCAAGTGGCTGGGACAACAG
GTGCATGCCACCACACCAGCTAATTTTTGTATTCTTTTGTAGAGATGGGATCTCACTATGTTGCCCGAGCCGGTGTCTCATGGTTTTGATTTGCATTGCC
TTGGTGACTATCCCGTTGAGCATCTTTTCATGTGTTCATTGGCCATTTATCTTTTTTGAAGAAAGTCTGCTTAAATCCTTTCCCTGTTTTTAAATTGGAT
TATTTTTCTTTCTATTGTTGAGTTGTGAGAGTTATTTATTTATATAGTCTATATCCGAGTCTCTTATCAGATACATGATTTGCCAATATATTATTCCAGG
CTGTAAGTTGTCTTTTTACATTTTAAAATAATTATTTATTTATTTATTTATTTATTATTTATTTATTTATTTAAAGACGAGGTCTTGCTATGTTGCCTAG
GCTGGTCTTGAACTTTAGGGCTCAAGTGATCCTCCTGCCTCAGCCTTCTGAATAGCTGGAATTACAGGCAGATGCCACCATGCTTGGTTCTTTTTACTTT
CTTGATGTTGTCATTTGAGTTTTTAATTTTGATGAAGTCCAGTTTACCTGTTTTTTCTTTTGGTGTCGTGTCAGTGACTAACCCAAAGTCATGAAATTTG
CTCCTAATGTTTATTTTAAGAGTTTTATAGGTTTAGTTCTTACCTTTAGGTTTTAAATTCATGTTGAGTTAAATTTTGTATATGATGTGAGATGGGGGCC
AATCTGTTTTTTTGGTCGGAAAATTCCCATAATTCAACAACAGTGACTAAGGGGAACCCCACAACAGTGAATTCGTAAGTGGTGCAAAACTTTAGAGTTG
AGCTGAATATTTTCTAAATTCCCTCTGGATCAAAAATTTTGTGATTTTTTTTTTTAAGGAGACTTATGGGTAGTGAAGTGTATAAATGTAAGAGGTTAAG
TAATGTAAACTGAAATAATATGTCTGTTTTTCAAATTGCAAGGCTTGATTTAGTAGGTTATGAAATCAATTTATTCAGTCATAATCAGTATTTTTTAGTC
AAGCAAAAAGGACAGAAATAATCAGAACATGCCTACTGTATTAAAGAAAGTGCTGCTTCGTAACTTTTGTGTAATGCATGTGTGTGTGTATCTGAGTGTA
CCAGGAGTTGGTATAAAATGTGGTTTTTACTGTGGGCCATATCTTTTAAAGTTGGAAAAACACTGTATAAACTATAGCTGTAGAATTCTTTCTTTCCACA
AACATTTTATTGAGTGCTTATTTTGTGCCAGGCCCTCTGCTAAGTGCGGGGAATAAAATGATAAACAGCACATGGTCCCCACCCTGCAACTTTGCACATA
GGCAGTGCCATCCATATGGGGTTCCTAGAGACGAAAGACTATGCCCGTTTCAATTTTTCCAAACCACAAGGACTCCTTCCAAATATTGGTGTTTGGTCCC
ATGGTCCCATGGTCCCATGGGACTTCTTTTTTTTTTTTTTTTTTGCAATTAATGCTTAGTTGATTATCTCATTTGAGATTTGCATACATATTTGCTTTTC
TTTCAATAAAGAGGACTTTGTTCCCAGGTTTATAATTACATACTATGTTTATTATATTAAGAAGAGAGTGCAAGTCTAGAAATAGAAGTTTACCATAACT
GAATTGTTTTCCATTTTACTCCAGCTATATTTAAACTGGTCTCACTGGACAGACCTCAGATATTTTATAGTAGTGTTATGCTACTTCTTAAAGGAAAAAT
TTAAAATTGTAGCAAAACTTTTTCATTATCATCCGAGTGTTCGGCAAAACTGGGCATTGAGAATAGTGACATGTAAACCATTTTGCAGACTGAGTTTAGG
AAAGTTAGTGTGCTGTATTTGAAGTCAAGCAATCAAGCCACTCATTTATAGCAGCTGTGTATCATCATAGCGCTGACATTTGCTCCTTCTCTTTATCTGA
GACACCATTTATCAATCTCTAAGCCTTATAAATTCCCAGGAGGTTTAGAAGATCTTAATTTAAAATTTCAAAAATCATAACCAGTTGAACATGCCAGGCA
GGTTAAACATACACATATGCACACACACACACTTCCACAAATGTATCTACTTTTTGAATGACTCTGACATGTTCCCACTTGTGATTTTTATGTCTAGTTA
TGAAATTTTACCCACAACCTCCCAATTTTACTTTGAATTTCATTAAGGTCCTTTTCTCCTCCTCTGTTTATTCTGCCTCCTCCGATGTTGCCCTTCACAA
AATAACTTGCTCATCTCTTACAAGGTCTTAAGGACCAAAGCCAGATTTACAGCCTTTTCTTCTAACTTAAAATTGCTTGATCTTCTCATATACTGTATCC
CTCTGCTTCACTCAGCATTCTATTTCTATTTTGAATGGTTGCCTATAAATAAATAAAAATTTCTGGGACATTTTAATGGAAATATTAATCTTGATTATAT
TCAAGTCAAGAATATAATATAGCTATGTATTGGTTCGAAAAACCCACTGAGAGGCCAGGCGCAGTGGCTCACGCCTATAATCCCAGCACTAGGCCAAGGT
GGCCGGATCACTTGAGGTCAGGAGTTTGTGAACAGTCTGGCCAACATGGTGAAACCCCATCTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGT
GTGTGCCTGTAATCCCAGCTATTTGGGAGGCTGAAGCAGGAGAATCACTTGAACCTGGGAAGTTGCTGTGAGCCAAGATCGCACCACTGCACTCCAGCCT
GGGGGACAGAGGTGCGATAGCACCAAAAAAAAAAAAAAAAAAAAAAAA


SNP Information

Context             (SEQ ID NO:5982):
TCTGACTCCTTACCTTAGGCTCCTCCCTAAACACCGAGGCGTAAAGTACCACGACTACACACCCACCTTCCACCAAGGGACCTGAGATTTCTGTTAACCT
Y
TGCTGCCTCTACCCCCCTCAGTTAGGCTCCCAGGAGGAGTGGTCAGCGCCTGGCACTTGCAGGAGCCCACAAAGCAGCGACTTCGCCTTTCCAGCCCCCC
Celera SNP ID:            hCV27840745
SNP Position Genomic:     6026
SNP Source:               Applera
Population(Allele,Count): african american(C,36)   caucasian(C,35|T,1)   total(C,71|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:5983):
CCCAGCCCCTCCGCCGGGCGTAGGGCCAGCACAACGCGTCAGGGCACAGGGCCTGGCCAGCTACAAGCGCGCCCCTCGCTGAACGGTCCCCCGGTCCCCA
M
GCGGCGGTCGCCCCTGGGCTCTGGACAGCGAACGGGACCTCCTCCTCAGCAGGGGTGCCGCGCGGCCTCAGGACGGACGCACGCGGATCTTCGCTTCCCC
Celera SNP ID:            hCV25768826
SNP Position Genomic:     6294
SNP Source:               Applera
Population(Allele,Count): african american(A,13|C,1)   caucasian(A,8)   total(A,21|C,1)
SNP Type:                 MISSENSE MUTATION


Gene Number:                 41
Celera Gene:                 hCG1804187 - 61000125149578
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W6GH(14160105..14180187)
Chromosome:                  Chr15
OMIM number:                 147370
OMIM Information:            INSULIN-LIKE GROWTH FACTOR 1 RECEPTOR;IGF1R


Genomic Sequence (SEQ ID NO:1702):
TTAAAAGTTTACTGGAAACCACATACCTTTCTTCCTTTACGACAACCTGTCATTCATCACAGCTAAAACATCCACCCATTAAATGATATTTTTACAAGAT
TAAAGAATGGTTTTAAAAAGAAAGAAATCTCCTTAGTTAAAAATGAACCAAACAAAGGTACCTAATCACTGATCAGCATCAAAGTTTTGTTCCACACATG
AAAATAATTCATCAGGCCAGGTGTGGCGGCTCACACCTAGAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACC
TGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGACAGATGCCTGTAATCCCAGCTACTCAGGAGGCTGA
GGCAGGAGAATTGCCTGAACCCGGGAGGCGGAAGTTGCAGTGAGCCAAGATCACACCATTGCACTCCAGCCGGGGTGACAAGAGCAAGACTCTATCTCAA
AAAAAAAAAAAAAAAAAAAAAATCATCAATGTAAAAATGAATTCTGCCTAAGGAGGGGAATTTAAAAAGTCAGAGAAAAGCAAGGAATTAAAATTCAGAA
ACAAGCTGTTTTATAATTAAGCATCTGCAATTTAACTATACTATGTCACTCTGATTTTCATCTTTCCTTTCTCATAAGAGTCATAGATGTTCTCCGCTCA
TATAAAGGTGGTAGGAAGGGAGGGAGGGCGCCATGCTAATAGAACCCACATCATGTTTACTAAGAACTAGGCAGATGTGGACAAAAACTCCAAAGATTTA
AAAGTTTCTTGACTAGAGCAAGACATCTTCAAGAACTCATCCAACATGGTGCCTAGCCTTCTTCAGAGCAAGACAAGCCACTAAGTCATCCCTGGGTGTG
TGTTCAGCAGCAGCCCACTAGGAAGTATTAGGTGAGCTACGATGGGAGAGTAATGGGCAGGAAAATCATAGGAAAGCAGGTCTGGATTTGGGCTGGCTGC
TTAGCTGCATGGCACCTTGCACAAGTTATAATCAGGTCTCTTGCCTCCATTTCCTCTTCCACAAAAAATGGAACAGTAATATCCATATCCACCCTACAGA
CTGTGCAAAGATTAAAGAATACTGGCGAGGTGCCTGGCACCTAGTCATTGTTCAGTGAATGCCAGTCATGATCACGAACACAGTCCTTGCTAAGAGGGTG
ATATGATTTGGCTGTGTCCCCGCCCAAATCTCAACTTGAATTGTGTCTCCCAGAATTTTCATGTGTTATGGGAAGGACCCAGGTGAGGTAATTGAATCAT
GAGGGCTGGTCTTTCCTGTGCTATTCTCATGATAGTGAATAAGTCTGACGAGATCTGATGGGTTTATCAGGGTTTCCACTTTTGCTTCTTCCACATTTTC
TCTTGCTGCCACCATGTAAGAAGTACCTTTTGCCTCCTGCCATGATTCTGAGGCCTCCCCAGCCATGTGGAATTGTAAGTCCAATTAAAACCTCTTTTTC
TTCACAGTCTTGGGTACGTCTTTATCAGCAGCATGAAAACAGACTAATACAGAGGGTAATCACCACAGGAATCCAGACGGGGAGTGGGGTCAGTTCACTG
GTACAAGGATCTTCATCAAAGGAACTCATTTCCCACCTGATCCCTATTCACTCCAGGGTCCACATCTAGGAGTCCCAAAGACCGGCATGCATGGGTTGGG
TCAACAGGCTGCCTGGAGGTTTACCTCATTCCAGGAGTTGGAGAAGCACTGTGGGAGGAACTGGGGTTCAAATCTGCAAACCTCCAAAACATAGGAGGGA
TCTTCTAAAAGTTTCTGAGAGTTCTAACCACAGATTAGGGGAAAAAAAAGATGCCCTTTCATCAACATGGGATGAAATGCTAGGATTTAGACATGGTTTT
TTTGTGTGTTTTTGTTTTTGTTTTTTTCCAATTCAGAAAACACTAAATCATGTAAAAATCTTGGAAGAGGAGATACAGATTCTGACCTAATAAGATGCTA
CTGCTCTGATTCCACCATCAGAATACCTTTAGGTTGGCACCACTTGCAATGTATTAGTGCAGCAAACTGCACGAATCCCCTCATTAGATCCAGGGCCCCT
GAGAGTAGAAAGGGGAGTGGGGCAGTAAATGGCCAGGGAACAGGAGACAGTGGGCTGGAGGGTGTCCCAGGTTCTAACCCCAGCTGGGCCTTCAGAGCCC
TGGTGTGGTCTGGGCTAACCTCTCAATCCTTTTCCAAGTCTTAAGTTTCCTTCCAACTCACTGTGATTCTTCCAGAGAATTACACAGGGCAGGTGAAATT
ATTTCCTAGAAAATGCCCATGGAGTACAGAGGTTCTCACTGAACTTCTCTATTCCAGGGCCGATGCCTTTGTTTTAATGGCAGCGCATCATCGACTAACC
AAATCCACAGGTACTGCACAGGTCTGAAGGATCCGGCTCTGAGGGATACCGAGGCATCCGGGGCTCCCTCTGTCTTCTTTCTGTGTACACAAGGTACCTT
CAGTGACTGCAAGGAAAATCCTCTTGCTTTCTACATCAGAGCACGTTCCATAAGGGCAAAGTGCTCCAGTCATCACCTCCTGTTTTCTCTAGCCAGACCT
GCTCTGAGCTGGAGACCCACTGCAGTCAAGCAAACTTTTAGACACAAGAAAAAATGACAACGTGTCTATTACAGAGGTCTCAGCTTAATCAGAAAATGGC
ACTGTGGGCCAGAGAAAAGCTGACGGTGATGGCTCCTACCCCAGTGCAATAGGCAGATCCATGAGAGCTCTCACTGGGGCTGCTGGAGAACTGGCTGCTC
TCTCCCACTTTAGTAACCCCTGCTTCATAACTGTCTGTGCCAGAAAGCCACAGTGAGCCCCCAGTGGCCCCTGTATTACCCACCCAGAGAGACAAGCTCT
CCCCTCCATGAAACTCATTTCTGGGACCCACACCTAAACTTTAACACAAATCAGAAAAGTTGAGACTCCTTAAAAATGCGTTTTGCAAGCTCACAGGTTC
TTGGTTCATAAGTGATACTATGGAACAATCTGGTTGGGAAGGGTGGCACACAATAGAAAAAGTTAATGATTATCTGGTGTAGTTTGCTTTAGTCTGTGAG
TTCAAAAGTCTCCTCATTTACAATAACCTTAAAGGATAACAAAATAAAGTCCTAGAAGAAATGTAAATTTAATTATTTCCATTTTCTCAAAATATTAATT
GCTGATACAATTAAATGGATTGGCCTAAACTGCTCCAAAGCTTTTCCTATCTGCTAATTAAATTTGCCCTCGCTGCCATAATACAAATTCTGGGAAACCT
TCTGGCTTCTGGGCACACTATGTAGGATGAGAGAATCAAATCCATTCAGTCCTAATCTACTGCCCCACTTAATAAACAAAAAATGTTAAGAACATGCATT
TTAAAAAAAATCTAAATGCCTTCATAATATAGATACAGCAAGTCTTCCCATAATGCTAATGAAGGCTTCTCACAAGAGTTTAATGAGCTAGTATCCAGTA
TCTTCCAGGCCCGGGGATGTTAGCTTCTCCTCCCTTAGTACAGAGGTTGCTCAGACAGCAATCAGCATCATGATCCATACTAAATGCAACGGCCCTACTC
TTTATCTTTATAGTCTGTAATCCAAGTCACTCTATTAACAGGCAGAAAAATCCCAGCTAGCTTCAAAACTCCCTCATCTTTCCATTATTTCAAATGACAA
CCTTTTCCCACTACTTTATCTTTGCATTAAGTACCAGGAGCTGAAAGATGCAATCAATTTAATATTTCCCTCTGCCCATTTACATGACTTATTTGTTTCG
GCAGATCTTCTTTGCCACAAATCCTTCATTTGCCCATTCATGTCTGCATACTTAACATAGATTTAATATTTCTCCAGGCCAAAGATCATATGCAGAGTTT
TTCTTTGACTGGAGGACAGAAGAGACAAGGAGAGAAGGAGAACGTCTGGAATTCCTTTGTTCTTGGAGACAACTCCAGAGAACAATTCTCAATAAGAAAA
GTTATAAAAAGCTTCAATCAGCACCCTCACGTTTCTGATTTAAAGTTGGGGTGGGGGAGCGTGGAATAAAAAGAGAGGGAACTAAACATGTACGAAACTC
ATTCTAGCGTGAGACGTTGTCAGGTACTTTGCTGACATTTTATCATAAAACTCTCTCTCGGTGGCCACGGGTTACAGCAGGGAACCTAAAACCTAGACTT
GGGACCCCAAGTCCTCGCTTCACAAAAATCATGACATGGGTGTTGAACCAGTTTCTGTTCAGCCACACAGAAACTCATTCAAGTCCTTCAAGAGGAAGAA
TCCCACCTTCAACTCCACACCTCCTCCAGCACCAGGCGGAGATGCTCCTGATTCCACTGAGAATCCTCCTGCCCACACAGGCAGGAAACTCGGGGCACTC
AGTGCCTGCTCTCTCACCCACTGCATGCCCACAGACCTCTGCAAAGGCAGCTCCTTTATTCCCCCAATCCTGAACATCTGTTAAGTGCTAAGGCCTCAGA
GGGGGCTTTTTAAACAGGCACAAAGTAGAAACTACCAGCTTTCCACCACTCCTACCTCATCCATCAGAAAACAGAGCCACCAGCCTTCCAGGGTAGGGTT
CATCAAGCCTTTTCCTCCCCATGGAACTAAGCTGTACACAGTAGTCAGAGATAAATAATGTCTAAGCCAAACCGGCTTGAGGGCACATATGGAGGTGGGG
GGCAGAGGGACACTGGCCTGGGACCTAAACCACCATTCAGACCTCATCTTTACAAAATAGTATACTCCACATTCCAAATGCCTGGCAAAGTTTTGCATTA
CAACTCATTCACGAGTCGAGGGCCTTGTATACAGTGTTCGGCAAACAGTACTGAGCAAGTGTGGACATTTCTCATGAAAGGCCTCGATTTCAACCAGACC
CAAATATTCTTTTAATCCAAAGTTCCAAATGTGGAACTTACCCTCCTCTGAGCTCCTAGCACTTGTTGCCTCTATTTCTCTTCTGGCAAAAGTCGTAGAG
TGTCTCGTCACACCGCATAAGTTGTCTCTCTCTTTTAAATGTCAAGTGTTTTTATCTTATCTCACAACAGAATCCTAGTTTGTGTCATCTCATACTGCCT
AGCATGAGACTTGCACAAAACGGGGGCACCTTAATTGTGCAGCTGAGGGACACGATGGAAACTCTGGCCAAGGAACTAGCAAGGAAACCTGCAAAGACAC
ATCCAGACCTAACCTAGGTGCGACTTATAACTCAAACCTCTTCCCCAGTCTCCCTCTCTATGGGAGTGATATGTACACAATGTGTTCGCTTCCACTTCCT
TAATGATGGTGGACTGACATGAATAAGAATGATGGGGAGGACCATAGGACCCCAAATAATTCACAAGTCAGCAAAGTGAAGAACTCACCTAGGCCATACA
TGTGCACACATTCTCTAGCACACACACTTACTCTCACACTCTACTGTTATTTAGTTTGTTTATTCATTCCAGCTAGAACCAGGGACCAATTTGGTCATCC
AAAAATGTTTTGTAAATCTCTTTATAAAATTCCTGCACCTCTCAGGGCCAGCACCAGAGCAAGGCAAGATTGGTGTCCAGGATACAAAATGTAAACAGGT
GCTCCCTCTCATGGTGCACTACCCTGAGAGAAGACCTCTTTTGTCTCTGGTCCAAGATTTCTCACTCTGGTCCAAGATGCCACCACTGCTGCCACTGCCA
TCGCCACCTCCTCCTCCTTCCCTTCCTCCTCCCCCAAGAGAACTATGAGGACCAAACCACTCAGACACTAAGTGGGGTCAAGCCCACATGGGAGATGGAT
TTTTACAGAGTATCTCCTCCACGGGCTTCCCATTAGCTGTGAGGTTGGAGAATCAAACATTATAAACAAAGCATGAGTCCTAACCCACAAGTGGTTTCTC
AACTGTTTGGGGAGAGAGATGAATGAGGAGTAAACAAGGTCCTCTGAACCTACTGATAAAAAGTACAGAGAAACCATCATCACTGACCAAATAACCCAGC
AATGGATGAGCACAAAAGCAACCTGGAAGCAAGAGTCCTCAGTAAGGAAGATTTGGGGGGCTTCATGGAAGATCAAGTGGGTGATGGTTAAGGAGAAACC
ACGAAGAGCGTAGCCTCAGTAGGTAACGTCTGCTCCAGCTAGAGCTCACCATGCATGCACACCAAACCCAGATGCCGAAAACCAAAAAATACAGCAGAAC
GCACCCAACTCCCAAACCACTGAGAAAGTATTTTAATTTTGCTTTGATCACTCCAGCTGCGCTTCAGAGTCCCCAGCATTTCAGCAGCATCATAGAAGAA
GACATCAATCACTGGCCATGGCACAAGGAAACTCCTGCTTGGCTATCGGGCTGCTCAGATTCTGGATGAGGGAAAGCTTACTTTAGTGGAAAAGAATGAC
TTAAATGAATTTAAATTCATTCCACATAATCGAGTTACATCAGCATTTCTCATATGCACTTATGAATAATTCACTTTGGTAACAGCAAAAGCCAGACCAG
AGAAAGTCACTTCAAAGATCTAAGACTTAACATCAATCCTACCTGAATTTCCTGCTCTCAACTCCTTCCCTAACCACTTTATTTCCTTCTGCCCTATCAC
TGAGGTGCTTTGCCAGCCTCCTGTCCTACATCCGTTATCCCTCAGTAAGCTCTCTGGAACTTCCCAATTGCAGCCACCTCCTAATGTCCACAGCCTCCTC
TTCTAGATCTAGTTTCGTAGGCAGTCCCTAAGGGTAGGGCCCATCCTAAAAAGTTCGACTGCTTCATACCATTCCAAGTCTAGAACATGTCCTCAGTCTC
TAGTAGTGTTTACTGAAAGCCACGGCCAACAGATCTATCCGAGGTCCCCAACAACCTTGTCTTCAAAACTGAATCTCAGAGCTGGAAGGAAAGTCAGTAG
AAGAGGCCAGATCGTGCTTTCTGCAATAGACAATGGTGCTTAAGTGTACACAATTTTCATGCAAATTCCCCCGATCATGAAGCTGGGCTGCTCCCTATAC
TTCTTGTCATTTGATTCTCCAGGCCACCTGCCTCTCCAGCCCAGCTTTATAATGGTAAGGCACTGATGAGTTTGCATTTATTTAGATACACTGGAGGGAT
TTTGCGACTGGAGTTACAGGAGGCTGAGGAGCTGGCATCTGAAAGTCCATGCTTCACGCTTTTCAAATGCACTATGTATAACCAAGCTCRTTTCCAAAAA
CAGAATCTGAACTAGCTCATAATAAACCATTCACCTTTTATTTTTTGCTGAAGGGGTCAGAGCATCATCCCAATTACCATTTCTCTCTAATGACCACTTA
CTCCCTTCTTACACATTTTCATCAGCTCTTTATTCTACACTGAGTATTTCCAAGAATTAGGATAACACTACYGCCCAATAAGATAGAGTTGGGGTTACCC
AAATAAGCAACAGAAGCTTTCCAGTGGGACCGAGTCAAGTCAAGGGTCTCAAGTCCCCCCACCCTAAAGCACTGAACACGAAGTTCAGGGAGCCTGTGTC
TGAGGCCTAAGCACTTGCCCTGCATCACAATGAGCAGAAGACACAGGAGGCACGACAGCCGTCATCACTGCACAGCCACCAGTACACCTCGAAGCCAATT
AATCCTGCAAAACAAATTCCTCTCAAAATGGCAGTCTGTTAGGTCAAGTTTGGCTGTTTTRTTAATYGCCTATCAACAGAAACAGCTTTGCTAGGCACAC
CCAGAAGTTCATCTCTCCTMATCACCCACCTTTGGCACCCAGTGACTTTTCCAAGGAGGATCTTTTTCCCCCCTCAGCAAACAAGAAATATTTGGTGAGC
TAAAGAAGCATTCTTCTGAGAAAATTATACATTCTCAGAATTCCATTCATAAASGACTACTGGTCACAAAAGAATGGCCAGGGRTAAGGCAGGGGTGGGA
RGAGGAAGGGCAGGAGAYCCAACGGATGGTGCTGCCTGGACAGTCCCTGAAGTGATAAAGAGTTAGAACCAGAYACACACTTCTGCATTCAGCTGCTGTC
TTTCCTTGTGAGTGGAAAAACACACTCAGTACATTCTCTGCAAYCCTGCTTAAAACCTCTTCTAAAGCTTCTTTGACACAGTTATTCAAAAGCTTCTAAA
AGTAGTATCGACGTATTACAAAATAATCCAATCATTTCAAGTTCACTGAGGAAGAGAACAAAAATATATCCTTACATCCTATCTGAAGAATAGTCTAAGC
ACCTAATAATATCATCTACTTAGCAAAGCAGAAGGGGCCATTCAGAGGTCAAGAAATAGGAACGGAAACGTTGTACTAGGTTACCACCCCAGGAACAAAG
CTGGTCTTTTCTAGGACCCAAGGATCTGACTAGTTTCCATTTGTCTCTGCATTACAACTAATACCTCTGGGAGGTGGGGGTGGGGGTGATCCTAATTCAA
ACAGTAAGGCTGCCCAGGAAGTAYTTCTAATAATATCAACCTTCGTCTTTCCTTTTTTGTACTGTAGGCTCTTTGTCTCCTGATCTTCTTTTATTTTGTT
CCCCCTTTTTACTACTAAGCCCAACTCCTGGTCTCAGCAGCTGCTAAAACACGTCCAAGCACTTTGCATCTATCCGGAAATCCAGAATGGCAGCCTGGGT
TCACAGATCTGCTGCCAAGGGCAGATGTATSCGCACTGCAGCTGGGCCCTCCTCCCCAGGGGCCCCATGGGCACAAGCAGCTCAGGGTGGGCCAGCGAGC
CTCAGTCACACTGGCTGCCCTCAGCCCCACCTTCTGCATGAAGGGTGGCTAAGCTCCATGGGCCACTCTGCATTAACCCCAGGAACGGCAACCTCACTAA
CTTCATCCAGGTCCCTTCATTAGGACTTGCAAAAACAAATCAGATGCAGCTACACGTTGGGGCAGTGGGTGCAGCTTCTCTAAACAAGGCCATGGGTATC
AAGCAACCGACAGTCCCTAAATACGCTGCCTCTGTTCCCATCCCACATGGATTCTGGGAAAAATGGCAGGAAGAAAGAAGAGAGGACTGGGCGCTTGTTT
GTGACCAAGGCAAAGAAACAAAAAGCGACTTCTGTTCAATAATGAGATGAAACAGAAGCCCGGCTTCGGGCAGAGGCCTGGCATTCCTGCACAACATTTT
CCCACCCACCTGATCCCCTTGAACGGAAGGAAGACCTAAGGGAGGACAGAGAGCCAGTGTTTGTTTCCTGCAATGGGGGTGAGAGGAGGAAAATGAAACT
AAACAAAACAGGAGAAGAGGCTGGGTGGGAGAATAAAGTGGTACGCACATACACAAACACACACGCACACGTGCACGTGTGCACACATATACCTAGCGTT
ACCAAAGAAGAGGATAAACAGGCACATGCTTCATCCTGGAGCAGATGGTTGGCTACCTATGTGAGACCTAAAGTTGTCATAAAAATGCACATCTTTGTAA
TCTTTACCAATAACTGTGCCCACTCTAACCACTTTAATGTTATCCATGCAAACAGACAGAGGCATTTAAAAAATATGGTATTTAATGATTTAATGTCAGT
ATCATACAAGAATCTATGGATATTTCTTAAATGCTCCCAAAYACCAAACTTGCAAACAAAATAAATTCAGTTTCGGAACCAAATAAATAGAGTTTACATA
TGACTAGGGTGACTCCACTGGCACCCCGATATAGACATATGTACCTCGCTGAATGTTCTGTAAAGATACAGTTTATCTGGACAGACACAAGAATTTGAAC
AGTACGAATCAAATTAGCAAGAACCACACCTACAGTATGGCCCGCTATTTACAATAATTGAAATTCTACAATTTAGAAAAGCAATACAGAAGGACCATTT
AGTTATGGTAGTGAACATATATAGTCAACACAGCTTAAGACTCAGAATTTTAGATGGTCTYAGAATGCAACTCTTAGATAGTTTAATTTAAAAAAAAAAT
AGCAGCAGCTGCCACCATTTACCAAAAACCTATGTGCTTGGAAACATGTTAGATGCTTTTCAAATACTGTCCTATTCCTGTCTCACTGAAGGAAGGTGAG
GTCTGGCAGCTTTGTCCTAGCACCACATACCTGAGGCAAACAGATGGCACTATCTCAAGGCATCAACGGTCCTTAAACCTTTGCATATGATACCACTTGT
CCACACAGGAACGTAGTTTAAAAGAAATACATCCTGTTCTGTACAAAATGATGTATTCTTGCAGATCTCGCTGTTAATATGCCATGGGGAAAACAAGCAG
GGGAAAGCTGTACATCCGCATGTGGAGCCACCTAAACATCCTGAAGACCAGTCACACTGAGAGTGAGGGCAGGCACAGGATGGTAGCTTCTGCCCCCACG
GACTCCACAATATTGTAAGGAACAGATGCTCAGGGATATCAGGGGTGAGGCCTGGCCAGCCCCATGACATCCTGAAAACCTAACAGCGGCCAAGCTGACC
CCGCAGAAGAAGTGATCTAACCTGGATGGTCACCCTTCCCTGCCTAAGACTCACCCTTTCCACCSGCCCCAGAAGCCCTTATTCCTCCTTGACTTGAAAA
GACAACTGTCCCCCATAAGCCCTCACACCTCCTACCAAGCTCCAAGGACTGTTCTGTTCTTCTGCCTACTCCCGCAATGCAGTTCAAACGTTTACCAGGG
CTCTRCAGTGAGCTACTTTTCCAAAGACAGAAAAGCAAGGCTATGTGCAATCAGACGAAACTCCAGCTCTCATTGTAACATCCAGCTTAAAGCCATATGT
TAGCCAGTGGCAGGTACAGATTAGAACCCAGAATGGTCTAGATTTTGGGTTTCTACTTGGGGTTCCTTCTTCCATATAAATGATCTCTAAATTTCTTAAA
CCCTGATTCCCAAATTATACATGATGATCAGTGTGCCATTTGATGAGTTATGAACATTTTAAATGCTGCATACCTTGCCTGTATGTACTAGGATCAAAGA
GGAGAGAGAGAGAGACAGAGAGAGAGACCAAGCAACACGAACACACAGGCAGATCAGGAAGCAAGAAATCTTCTCAGAGCAGACCACGGAAACCCTCAGT
AACTTACTCAATTTTAGAGTTTGAGGAAACGGCACAGGTAGTCCGATGCAAGCCCCCCGAGTTCAAAGAAAGGAAATGGAAGTACAGGGCAGACAGGTGA
CGTGGCAACCGTCCCTAGGAAAGGCACTGCTGGACCCAGCTGTCCCTGTCCCTCACCAGCCTCACATGCCSAAGTCCCATGTACCCCTGGGGCTGCCATG
CTGGCTGCTGAGCCATGGGCGCTGGTTTGGAGRTGAACTTCTTCGAGGAAAGCAGCTTCTTATCCCCCAGAAGTTCTGCAGATCATCTGTGCACTTTGGT
TTTTACTTAAAATGTGATTTAAACAGCCTGCTCTACTTAATACTGCCTGTGCCACAGACAGAAAAATCCCATCTCCCACCCACCAGCCTCCCTGGAACAA
ACACCTTGGCTGTCTCTCGCTACCTCCRAGTCAGGGGAACATTCCAACYAGGATGGTGCTCAGAGACCCCACCTTTTATAGCCAGAGTCCCTGATTCACA
CCATATGCCCAAAGGAGGCGTGTTTCTAAGTGATGCTTCCAACTTCACCACCAGCCAAACTTAACTTTTGAACCACCCTATACACGCAAGTTGAGCAAGG
CAATTCAGGACAAGATTAACCACGGGCCCACACGCTCCACGTCATCCCCACTCTGCCGAGAATGTCACACTGGCATACACATGAGGAAAGCAAGACAGAG
GTATTAACGCAACAAAGAAAGAGGCTTTTCAAGCACAGGAAGAAACCAGAACAAWTGTACAAATAGGTTTAACTGGTGAGAGCTGAAGGGGCTCCAGATA
TTTTCCAAATACTTGGCATGCAAAAATCACCACAAGTCAGTGGTTCTGAAAGCTTTTTGGTCTCTTAGACGAGATCCCTATTAAAAACTTCTGAAGGAGG
CCCAGGATGGTGACACCATCACTAATGACAATTAGCCAAAAGCAAAGTCTTTGAGGCACAAGGCACACGCCCCAAGAAATGAGGTGGGCTAAGCCAGGTC
CCAGGGAACCTGCACACAAACTGCTTCACCATCTCGGCAACAAGCGTCGGCAATCAGGCAGAAGAGAATGTGAGCTCCACGCCTGACTATAAAAGGCATA
GCAATGAGGCCTGGGGGCATGTGACCCCCTTCTAAATAAAGATCACCCCCACACTGGGAGCAGCTGACCAGAGCAGAGGCCTTCCAGGGCAACCGAGACA
AGTTCCTACCAACAACACAAAGCCAGATGCCCCTCTCCTGGCTGCCTTCTCCTCCAGGGTCCACAAGCCCCTCCCAAGAGTCCACCTGAAAATGCAAGCC
TGTGTCATGATCGTCTTAGCAGTCTGGGGAACAGTGGCCTGCAGAAGACCAGCAGCAGACCACACAGTGCTTAACAGAAACATCTCAGCTCTTCACAAGT
AGCTTAAGTTTAAAAAAAAAATGTTAAGATGAAATACTGCACATCACATGAGTGAAGTCTCACTACAAAGACAATGTGCCCCTCTTCCCCCCATCCAGCA
GGTGATTTACACATTCTTTTTTTATTATTATTTTCCTTTCTCAAAGCTAGCCATAAAACTTAGTTACAAAATCTTTTTTTTTTTTTCTCAGACAGGATTT
CATTATGTCGCCCAGGCTGAAGTGCAGTGGCACAACCACGGCTCACTGTAACCTCCATCTCCCCAGGCTCAGGCGGATCCTCCCATCTCAGCCTCCCAAA
GTGCTGGGACTATAGGCACGTGCCTCCACAACCAGCTAATTATTTAAATTTTTTTATATGAACAAGGTCTCACCATGTTGCCCAGGCCAGTCTTGAGCTC
CTGGACTCAAGCGATCCTCCTGCCTCAGCCTCCCCAAATGCTAGGATTACAGGTGTTAGCCACTGCGCCCAGCCTTCAATTTACACATTCTTAAACAGGT
CCTCCACTTTGATCTAGCAGGTCAGCCACACCAACCTATAGAGGAAAACGAGGGAAGGAGAGCGCCTCTACTCCGCAAGACAACACTGCCCTTGTGAGCA
GTGGCTGACAAACAAGGATATAAGAACGTGGCGGTGGAAAAATGTAGACTTTTTTTTTTTTACTACAACCTGCCTTCATTTTAAGTCAGTGAGATGCCAT
CAGTGAGATGGCAGTAAAATGTTTTCCTTTTGTCAATAAAAACAGCCATTTACTGCCTTCTCGAAGGCTCCAATCTGCTATTTTCCTGGTTTCTCATTTT
GAGGGCAATAGGAAATGCAACAAACTCCAGGACTGCTGCTCCCAGTCAATGCCCTTTTAATTGAAATAAGGCTGCCCCACCAGCTAAGCCAGCTTCCAAC
ACAGCCCGGCCCTGCCTTCCTGGATTTCCTGGCAAAGCCCAGGCCTTCTCACACGCACTCAGGGTGATCTGAGCAGACCACAGGCTGTTCATCCCAWTRG
GTTAAAAAGTACTTGGARACTTAGTTGCAGTAAGGTCTTAGGTTTTGTTGGGGTTTTTTTTGTGGGAAAGTGAAGGCATCTGCACCTGAAATGAAATACC
AGAAAGCCTCCACAGCAAGCAAACAACAGGCACTTAGGTAAATTCAGCAGGAAGTAAGAAAACCACAGGTACTCAGGAGGATTCACCTCCGTCCCTCCCA
GGGCAGAACTGGCCTTCAGCAAAACTGCCTTACAAAGTCATGAATGGCTTCACGTGCCAAGCTTCAACCTTTCAGATGATTTCCATACTTCTCCATCATC
TTTGGCCTGGAATCATCCCCACAATGGCAGGAAAGAAAAGAGCTACCCGCCATAGTGGTCCTCTCTGCCAACTAAGAGTTGCAGATGATTCTGGTCAGTA
CTCCTCAGTAGCAATGACAGCAACAATGACACAGTAAACATCTGCATTTCATAATCCTGGTACAACTGGCTCACCGAAGACTGCCAGGATACGCYACTCT
CTGCTCAAGGGGAAAATGTATCTTCCGAACAATAAATCCTTCACTAAGCAGATGCAGTGCTTGCCCTTGGGGTGACAGCATACAGTGGAGGATACACCCA
GAATTTACAGTGGGGCAAAAAGTGTCCCATCAGGTGCTGGGAGACAGGCCTCCCGAAATCTGCAGAGCCTTTACATCCTTGAGAGGAAAAGGCAAGGCTA
GAGTTCGGCCAGGTGAGCCGTGCCGGCTGGTCAGCACGGGAGAGCACCACTGGGGCCAAGGACACAGCAGGCAGGCGGGAGGGAGTGGCACATGGAGTGT
GGCATGTTGTCACGGGGTAGCTGTTGACCACTCAGGAGCTTCACACTGTACCACATGCCTATCCTATAGGGACTTGCTACAGGATTTCAGGTAGGGGAGC
TCATCAGTCCAAAGTGCACACTAGATGGCCGGGCGCAGTGGCTCATGCCTGTAATCCCAGCACATTGGGAGGCCAAGACCGGTGGATCGCCTGAGGTCGG
GAGTTCGAGACCAGCCTGGTTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGGTGCGGGCCTGTAATCCCAGCTACT
CAGGCGGCTGAGGCAGTAGAATCACTTGAACCTGGGAGCCCGGAGGTTGCAATGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGTGACAGAGTAAGA
CTCTTTCTCCAAAAAAAAAAAAGTGCATACTGAAAAGCTCCCCAGTGCTCGGTGGAGCCACAGGACACAATAGCAGGAGAGAGGCTATGTCACTGCTGTA
AGGGGGAGGAGCAGAGGAACACAGCTGAAGCAGCATTTCCATTCCATTCGGGAGGGAAAGGGCCTGGTATCCAACTGGAGAAGGAAGTGTCCAAAGGACA
CCCACATTCCTGACATAAGAACCAGGGGAACAAAAGTGTGGCCCACTTAAGAGGGAATAGAAAAGAAAAAAAATAGGCAAAAGTGAGGAAACAGGGAAGA
CCATCAGAGGCTGTAGTGAAATGCTCGTGGTGGTCTGATATGAATGACAAGTCCTGGGTTCAAAAGGGTTCTGGGATGGATATGAATGACAGGTCCTGGA
CTCAAAAGGGTTCTGGGCTGGAGATACTTGGAAGTTTAGGTGGAGACAGGAGGCAATGCAGTTACCAGTGGATGAGATGAGAACAAGGAAAGTGAAAAGA
GAGCCCAGGACAGAACTCCAGCCATGCTATGATCTGAATGTTTATGTCCCCTCAAAATTCTTATGTTGAAACCTAATCCCCAGTATGATGGCTCTGGGAG
GTGATTAGGCCATGAGGGTGGAGCCCTCACAAATGGGATTAGTGCCCTTATAAAAAAGACGCCAGAAAAAAAATCCCTCGCCCCTTCCAACATGTGAAGA
CAGTGAAAAGGTGCTTCTGTGAACCAGAGTGTGGGCCCTCCCCAGACAGTTAATCTGGTAAGCACCTTGAACTTGGACTTCCAGCCTCCAGAACTGTGAG
CAGTATTTCTGTTGTGTGTAAGCCACTCAGGGTATGGGATTTTGTTACAGCAGCCTGAATGGACTATGTCAGGAGACCACCGTTAAAAGCCAGACTGAGG
GAAGGGAGACAGAGAAGCGGCACCTGTGGGGGTAGGAAGAGACTCATAAGAGGGTGGCGTTGGAAGACAAGGAAGAAGAATCAACCACACCACATGTCAG
GGGGTGCCACACAACTATGTTCTTACTGAAAGGAAACCACTGTACACAGTTCTTTAAGGGTCAATCGCTCTTTAGGAATGACTCAAAAATGTATAAAATC
CACTCCTAAATCCAAAAAGAACCGAGAAATACAGAAGTGTGCAGAGAACCCACAGAGGGATCACGTCCATAGAGGGAGTAGAGTCTACTACGCTGCCAGA
CACTGCAGAGTCACGGCACAGAAGGAGTTTAAAGGACAGTGCCAAGTGAAAACCGCGCAACAGCACGACAAAATCGAGTAGGCTCAACGATTTCACACAC
ACCCTTGACGTGTTTCTCCAGATGTTCTCCGTAGTTCTACAGCCAGCCAACAGAAGATTACCTGAATGGGATTCTTCTGTGCTTAATGTTTTCGAATGGC
CATCTTAATGCTTATGTTGAACTCAAGGTAGCCATTCTGCCTGGACTCAATGCCCTTCATGGAGCTCCCCAAATGATTCCTAAGGGTTCTGGCTGGAGAG
GTACATGCGGGGCTATGAGCGCTGCAGTGACGACTCAGCCAAAAAGATGATGAGGGGAAGAACTCCTGGTGTTAAAAGAAATGCTCTAAAGCAGCTTACC
AACACAGAATGCAAGCCACATCTGTAATTTTAAATTTTCAAGTAGCCACATTAAGAATTAAAAAGAGTCGGGCATGGTGGCTCACACCTGTAATCCTAAC
ACTTTGGGAGGCTGAGGCGGGCGGATCATCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGGTGAAACCCCGTCTCCAGTTAAAATACAAAA
ATTAGACGGGCATGGTGGCACATGCTTGTAATTCCAGCTACTTGGGAGGCTGAGGCAAGAGAATCGCTTGAACCCAGGAGACGGAGGTTGCAGTGAGCTG
AGATCGCGCCGCTGCACTCCAGCCTGGGTGATGAGAGCGAAACTCCGCCTCAAAAAAAAAAAAAAAAGAATAAAAAGGAAACAGGCAGGTGAAATTTAAG
AACACATTTTACTTAATCTAATATATCCAAAATGTTATATTTCAACATGTTATCAACATAGTAATTATTAATGAAATGGTGTACAGAGTTTTTGCTATAC
TATGTCTTGGAAATCTAGTGTATATTTTACACCTAAAGCAGTCCCAATTCGGACAAGCCACAGTTCAAGTACTCAATAAGCCACGTGGCTTACTCAATAA
GCGGCTACCACACTGGACAATGCAGGTCTAAATGGAATCTACGCAAACCAAGAGGAAGTTCTGATTCAACTAGAAAATCTCCAAGAAATATGCCCATGCC
TGAGTTTTCAGGACAAGGGGAAGGGAAGTCAATTTCCCGGAAAGCAGTTACCAATTTTATATAAGTACTCCATTGTGAAATCACAAGGAACATCAGCAGG
GCTGGGATGGTCAAGGAGAAGGCTGCAGGGCGTGGCCTTGGGGAAGCAGGTGACCAACCAACAGGTGATATCAAGGCTCTGTCTGTCACCAGCAGAGCCC
ACCTTCTAACCATCGTTAACATTTTCACGGTGCTTTTCCTTCCTCCTTTTCATCTTCCAACAGCCCTATGAGGAAGGCAGGCTTTACCCCATTCCACATA
TGAAGAAACCAAGGCCCAGGCAATTTAAATAACTTGCTCATTTCTAGTCGCCACTCTTAGACTTGGACCCAGAATGCAGGCCTCACCCCTACCCCAGGGG
TCTTCAATCAGTAGCTCATCAGAAACAGCCAAAAACCTATGGCAAGACCAAAGTAACTACCTACCTAGTTCGTGAACAACTCTCCACTTAATGACGTTTC
ATATGGCACCTCCCTTCTCTAAAGAGCTTATGAGTTTTCAAAACATCCTCATGCCCATATATGATCACCACTAAGGGATGTACTGGACTGCCCTAGAAAT
ATCCTAAAAAAGCCCAACTACAGCCCAGAAGGGCTGGCCCATCCAAGGTCATTCCTGGCCCTCATCACCACATTCAACATCTCTTTTCTACTCCATGCTG
CCTCCCTTGATAACACCTTTTACTTTTCAGATAAAATTTTTAAATGTCAAGGTTATTTAAAAAATATATTTTGTTGTTTTCTCAAACCAGTGGGTAACTT
AATGATAGGGCAGTTTTAATCAACCACACAAGTGACTTTAGCATAAGATCTCCCTCCAACTCCAGCCAACCTTAAAGTGGCCTGACTGCATTCTCAGAGC
TCTACAAGGTACTGGCTGCAGCCAGTGGGACCCCTGCCCTCACTAATCAATGTTCACATACGCACTGATCCAATTCTGCAGAATAGAAAAGTGCGTGGCA
GATCAGGGTACACAGATCCTTTTCCTGCCTCAGGACTGGTTGAACGGGAACTGAAGGGCTACCTGGGAGGTCTGTCCTTTATTTACTTTACACACTTCAC
CCCTGTGGGGTCTCGCCTTTTATTTATTTTAGGCAAGTCTAACAATTTGGGGTTTCTTGGTTCTTCATAACTAGAGAACATGGGTTCCTTACATCTTTAA
CTGGGCCAACACTTAAATAATAGCTATTTATAGCTAACACACTGACTTCAAACCAGTGAGGAAAAGCTTCCTAGCCAATATACATAACTATTGCTGAATG
CAATAAGGTGAAGGCTCAGAGTCACATTTTAATACCAAACAGCCTGGTTCTTAAGGAACTGATCACATGAAGGCAAGAGCTCAGTTATTCTCAAGGGAAA
ATAAGCATATTGCAGATAAATATACAAGAAGCTTCAAAATACCACCATCTGACCCCCAGAACAGTAAATACTTTCCAAAGTTCCTTCACTCGTGAAATCT
TAAGATTTTCACAACTGTTCAGTAAACAGGTATAAAAGAACGAAAACAGAATCCCAGAGGTTTAAAAATGCACCCTGCTACACAGCTACCTGCAAGTACA
GCCTGAACCTGGGACTTGCAGAAATGGGTCCAGAGGTCTCCCACCTGGGCCAGGTGCTCTGTCATAACCAGGACACCTGAGTATCATAACATCATCACTA
GGACCTAAGGACCACTTTCACAGGATATGAGTTAGTGCTTTACCTTCCCTTTATTTAACCATATTCCAAGTCCATTCAAACTAAGGAAGTCCTGCAGAAC
AAAAAATATCACTTCGCACAAAGGATGAAAGAGCTGACACATAAGCAGCCCCCAGCTGCCAAGGCTCAGGGACTTCCAAGCACACCAGGTCACCTTTCTC
ATCAGGAATTCAAAGCTGAAGGTCAGCAAGTGTCTAGCCCAGGAGTGTGCTGGATTATTTCTAACATGTGATTTGAACAGTCTTGACAGCAGCCATGATG
GCCTCCAGCCACGCCACAGTCCCGCAATCCAAGAGTCCCAGATGCAAAGGAAAGCCAACCAAGACCCCCACTGGGAACCACTTCCGCACAGCAGGCATGC
CACGTCCTAAATGCAACACGACTGCACCCTGCCCAGCGGAACTCGTGCACTCAGAAGAGAAGGGAGGTCAAGGAGGAGGAGAGGAGAGAGAGAGGCAGAG
AGAAAGCAGCAGTCAGCATCATTCTTACTTTTCTGGCAGCGGTTTGTGGTCCAGCAGCGGTAGTTGTACTCATTGTTGATGGTGGTCTTCTCACACATCG
GCTTCTCCTCCATGGTCCCTGGACACAGGTCCCCACATTCCTTTGGGGGCTTATTCCCCACAATGTAGTTATTGGACACCGCATCCAGGATCAGGGACCA
GTCCACAGTGGAGAGGTAACAGAGGTCAGCATTTTTCTCAATCCTGATGGCCCCCCGAGTAATGTTCCTCAGGTTGTAAAGCCCAATATCCTTGAGATTG
GTCATCTCGAAGATGACCAGGGCGTAGTTGTAGAAGAGTTTCCAGCCGCGGATGACCGTGAGGTTGGGGAAGAGGTCTCCGAGGCTCTCGAGGCCAGCCA
CTCGGAACAGCAGCAAGTACTCGGTAATGACCGTGAGCTTGGGGAAGCGGTAGCTGCGGTAGTCCTCGGCCTTGGAGATGAGCAGGATGTGGAGGTAGCC
CTCGATCACCGTGCAGTTCTCCAGGCGCTTCAGCTGCTGATAGTCGTTGCGGATGTCGATGCCTGGCCCGCAGACTGAAGGGAGACAAGAGGGTAAACGT
CTCAGTTAGAAGGAAATAATTTTTAAACTATTTTCCAAACAATAATACAGTTGGTTTTCAGGAATCCTGTATTATTATTAAAGAAATGAGGTTCAATTGT
TCACTGCAGAGCTGTGGGTTGCAGACTGACAGTTTAGGTGGCTAACCAGTTAGCTGGCATTTATACAGTGCCAACACTGGACCAGACGCTGTGCAACACA
CTCCAACCGACCATGGGAGAGGCCATCCCCGTTAACCGTGCAAACTAAAGCTTACAGCCCAGAGGCACACAGAGGCAGAGGCGAAAGTTAAATCTGCAAC
CCAGGCCAGCCGGACTCCACCACCGCACACTCCTGGTCCGTTCTGCAGAGCGTCAGTTGCCAAGGCCTGAACGACAGCTCAG


SNP Information

Context             (SEQ ID NO:5984):
CTGCTCTACTTAATACTGCCTGTGCCACAGACAGAAAAATCCCATCTCCCACCCACCAGCCTCCCTGGAACAAACACCTTGGCTGTCTCTCGCTACCTCC
R
AGTCAGGGGAACATTCCAACCAGGATGGTGCTCAGAGACCCCACCTTTTATAGCCAGAGTCCCTGATTCACACCATATGCCCAAAGGAGGCGTGTTTCTA
Celera SNP ID:            hCV25927581
SNP Position Genomic:     11428
SNP Source:               Applera
Population(Allele,Count): african american(A,22)   caucasian(A,39|G,1)   total(A,61|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:5985):
ACACAGCCCGGCCCTGCCTTCCTGGATTTCCTGGCAAAGCCCAGGCCTTCTCACACGCACTCAGGGTGATCTGAGCAGACCACAGGCTGTTCATCCCATT
R
GGTTAAAAAGTACTTGGAGACTTAGTTGCAGTAAGGTCTTAGGTTTTGTTGGGGTTTTTTTTGTGGGAAAGTGAAGGCATCTGCACCTGAAATGAAATAC
Celera SNP ID:            hCV29314580
SNP Position Genomic:     13399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:5986):
ATCCATGCAAACAGACAGAGGCATTTAAAAAATATGGTATTTAATGATTTAATGTCAGTATCATACAAGAATCTATGGATATTTCTTAAATGCTCCCAAA
Y
ACCAAACTTGCAAACAAAATAAATTCAGTTTCGGAACCAAATAAATAGAGTTTACATATGACTAGGGTGACTCCACTGGCACCCCGATATAGACATATGT
Celera SNP ID:            hCV29314581
SNP Position Genomic:     9542
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5987):
TCCCTGAAGTGATAAAGAGTTAGAACCAGACACACACTTCTGCATTCAGCTGCTGTCTTTCCTTGTGAGTGGAAAAACACACTCAGTACATTCTCTGCAA
Y
CCTGCTTAAAACCTCTTCTAAAGCTTCTTTGACACAGTTATTCAAAAGCTTCTAAAAGTAGTATCGACGTATTACAAAATAATCCAATCATTTCAAGTTC
Celera SNP ID:            hCV29314582
SNP Position Genomic:     8044
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5988):
GTCATCACTGCACAGCCACCAGTACACCTCGAAGCCAATTAATCCTGCAAAACAAATTCCTCTCAAAATGGCAGTCTGTTAGGTCAAGTTTGGCTGTTTT
R
TTAATCGCCTATCAACAGAAACAGCTTTGCTAGGCACACCCAGAAGTTCATCTCTCCTCATCACCCACCTTTGGCACCCAGTGACTTTTCCAAGGAGGAT
Celera SNP ID:            hCV29314590
SNP Position Genomic:     7661
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5989):
ATGGCCAGGGGTAAGGCAGGGGTGGGAGGAGGAAGGGCAGGAGACCCAACGGATGGTGCTGCCTGGACAGTCCCTGAAGTGATAAAGAGTTAGAACCAGA
Y
ACACACTTCTGCATTCAGCTGCTGTCTTTCCTTGTGAGTGGAAAAACACACTCAGTACATTCTCTGCAATCCTGCTTAAAACCTCTTCTAAAGCTTCTTT
Celera SNP ID:            hCV29314583
SNP Position Genomic:     7974
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5990):
ACTGGAGGGATTTTGCGACTGGAGTTACAGGAGGCTGAGGAGCTGGCATCTGAAAGTCCATGCTTCACGCTTTTCAAATGCACTATGTATAACCAAGCTC
R
TTTCCAAAAACAGAATCTGAACTAGCTCATAATAAACCATTCACCTTTTATTTTTTGCTGAAGGGGTCAGAGCATCATCCCAATTACCATTTCTCTCTAA
Celera SNP ID:            hCV29314591
SNP Position Genomic:     7190
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5991):
GAGAAAATTATACATTCTCAGAATTCCATTCATAAAGGACTACTGGTCACAAAAGAATGGCCAGGGGTAAGGCAGGGGTGGGAGGAGGAAGGGCAGGAGA
Y
CCAACGGATGGTGCTGCCTGGACAGTCCCTGAAGTGATAAAGAGTTAGAACCAGACACACACTTCTGCATTCAGCTGCTGTCTTTCCTTGTGAGTGGAAA
Celera SNP ID:            hCV29314584
SNP Position Genomic:     7918
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5992):
TAAAGAAGCATTCTTCTGAGAAAATTATACATTCTCAGAATTCCATTCATAAAGGACTACTGGTCACAAAAGAATGGCCAGGGGTAAGGCAGGGGTGGGA
R
GAGGAAGGGCAGGAGACCCAACGGATGGTGCTGCCTGGACAGTCCCTGAAGTGATAAAGAGTTAGAACCAGACACACACTTCTGCATTCAGCTGCTGTCT
Celera SNP ID:            hCV29314585
SNP Position Genomic:     7901
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5993):
AGAAATATTTGGTGAGCTAAAGAAGCATTCTTCTGAGAAAATTATACATTCTCAGAATTCCATTCATAAAGGACTACTGGTCACAAAAGAATGGCCAGGG
R
TAAGGCAGGGGTGGGAGGAGGAAGGGCAGGAGACCCAACGGATGGTGCTGCCTGGACAGTCCCTGAAGTGATAAAGAGTTAGAACCAGACACACACTTCT
Celera SNP ID:            hCV29314586
SNP Position Genomic:     7884
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5994):
GTCTCAGCAGCTGCTAAAACACGTCCAAGCACTTTGCATCTATCCGGAAATCCAGAATGGCAGCCTGGGTTCACAGATCTGCTGCCAAGGGCAGATGTAT
S
CGCACTGCAGCTGGGCCCTCCTCCCCAGGGGCCCCATGGGCACAAGCAGCTCAGGGTGGGCCAGCGAGCCTCAGTCACACTGGCTGCCCTCAGCCCCACC
Celera SNP ID:            hCV25928106
SNP Position Genomic:     8631
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:5995):
ACTGTCCCCCATAAGCCCTCACACCTCCTACCAAGCTCCAAGGACTGTTCTGTTCTTCTGCCTACTCCCGCAATGCAGTTCAAACGTTTACCAGGGCTCT
R
CAGTGAGCTACTTTTCCAAAGACAGAAAAGCAAGGCTATGTGCAATCAGACGAAACTCCAGCTCTCATTGTAACATCCAGCTTAAAGCCATATGTTAGCC
Celera SNP ID:            hCV8722980
SNP Position Genomic:     10605
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5996):
ATCTGACTAGTTTCCATTTGTCTCTGCATTACAACTAATACCTCTGGGAGGTGGGGGTGGGGGTGATCCTAATTCAAACAGTAAGGCTGCCCAGGAAGTA
Y
TTCTAATAATATCAACCTTCGTCTTTCCTTTTTTGTACTGTAGGCTCTTTGTCTCCTGATCTTCTTTTATTTTGTTCCCCCTTTTTACTACTAAGCCCAA
Celera SNP ID:            hCV25924291
SNP Position Genomic:     8424
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,34)   caucasian(C,1|T,35)   total(C,3|T,69)
SNP Type:                 UTR 5


Context             (SEQ ID NO:5997):
AGGAGGATCTTTTTCCCCCCTCAGCAAACAAGAAATATTTGGTGAGCTAAAGAAGCATTCTTCTGAGAAAATTATACATTCTCAGAATTCCATTCATAAA
S
GACTACTGGTCACAAAAGAATGGCCAGGGGTAAGGCAGGGGTGGGAGGAGGAAGGGCAGGAGACCCAACGGATGGTGCTGCCTGGACAGTCCCTGAAGTG
Celera SNP ID:            hCV29314587
SNP Position Genomic:     7854
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:5998):
GACCCAGCTGTCCCTGTCCCTCACCAGCCTCACATGCCCAAGTCCCATGTACCCCTGGGGCTGCCATGCTGGCTGCTGAGCCATGGGCGCTGGTTTGGAG
R
TGAACTTCTTCGAGGAAAGCAGCTTCTTATCCCCCAGAAGTTCTGCAGATCATCTGTGCACTTTGGTTTTTACTTAAAATGTGATTTAAACAGCCTGCTC
Celera SNP ID:            hCV8722981
SNP Position Genomic:     11233
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:5999):
CTCTCAAAATGGCAGTCTGTTAGGTCAAGTTTGGCTGTTTTGTTAATCGCCTATCAACAGAAACAGCTTTGCTAGGCACACCCAGAAGTTCATCTCTCCT
M
ATCACCCACCTTTGGCACCCAGTGACTTTTCCAAGGAGGATCTTTTTCCCCCCTCAGCAAACAAGAAATATTTGGTGAGCTAAAGAAGCATTCTTCTGAG
Celera SNP ID:            hCV29314588
SNP Position Genomic:     7720
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6000):
ACTGCACAGCCACCAGTACACCTCGAAGCCAATTAATCCTGCAAAACAAATTCCTCTCAAAATGGCAGTCTGTTAGGTCAAGTTTGGCTGTTTTGTTAAT
Y
GCCTATCAACAGAAACAGCTTTGCTAGGCACACCCAGAAGTTCATCTCTCCTCATCACCCACCTTTGGCACCCAGTGACTTTTCCAAGGAGGATCTTTTT
Celera SNP ID:            hCV29314589
SNP Position Genomic:     7667
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6001):
GCCGAGAATGTCACACTGGCATACACATGAGGAAAGCAAGACAGAGGTATTAACGCAACAAAGAAAGAGGCTTTTCAAGCACAGGAAGAAACCAGAACAA
W
TGTACAAATAGGTTTAACTGGTGAGAGCTGAAGGGGCTCCAGATATTTTCCAAATACTTGGCATGCAAAAATCACCACAAGTCAGTGGTTCTGAAAGCTT
Celera SNP ID:            hCV8722983
SNP Position Genomic:     11755
SNP Source:               Applera
Population(Allele,Count): african american(A,14|T,18)   caucasian(A,24|T,12)   total(A,38|T,30)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6002):
AAATTCTACAATTTAGAAAAGCAATACAGAAGGACCATTTAGTTATGGTAGTGAACATATATAGTCAACACAGCTTAAGACTCAGAATTTTAGATGGTCT
Y
AGAATGCAACTCTTAGATAGTTTAATTTAAAAAAAAAATAGCAGCAGCTGCCACCATTTACCAAAAACCTATGTGCTTGGAAACATGTTAGATGCTTTTC
Celera SNP ID:            hCV8722976
SNP Position Genomic:     9861
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6003):
TCCTGGATTTCCTGGCAAAGCCCAGGCCTTCTCACACGCACTCAGGGTGATCTGAGCAGACCACAGGCTGTTCATCCCATTGGGTTAAAAAGTACTTGGA
R
ACTTAGTTGCAGTAAGGTCTTAGGTTTTGTTGGGGTTTTTTTTGTGGGAAAGTGAAGGCATCTGCACCTGAAATGAAATACCAGAAAGCCTCCACAGCAA
Celera SNP ID:            hCV8722984
SNP Position Genomic:     13418
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6004):
TGACATCCTGAAAACCTAACAGCGGCCAAGCTGACCCCGCAGAAGAAGTGATCTAACCTGGATGGTCACCCTTCCCTGCCTAAGACTCACCCTTTCCACC
S
GCCCCAGAAGCCCTTATTCCTCCTTGACTTGAAAAGACAACTGTCCCCCATAAGCCCTCACACCTCCTACCAAGCTCCAAGGACTGTTCTGTTCTTCTGC
Celera SNP ID:            hCV8722977
SNP Position Genomic:     10465
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:6005):
AGGAAATGGAAGTACAGGGCAGACAGGTGACGTGGCAACCGTCCCTAGGAAAGGCACTGCTGGACCCAGCTGTCCCTGTCCCTCACCAGCCTCACATGCC
S
AAGTCCCATGTACCCCTGGGGCTGCCATGCTGGCTGCTGAGCCATGGGCGCTGGTTTGGAGGTGAACTTCTTCGAGGAAAGCAGCTTCTTATCCCCCAGA
Celera SNP ID:            hCV25923584
SNP Position Genomic:     11171
SNP Source:               Applera
Population(Allele,Count): african american(C,33|G,1)   caucasian(C,40)   total(C,73|G,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6006):
AATTACCATTTCTCTCTAATGACCACTTACTCCCTTCTTACACATTTTCATCAGCTCTTTATTCTACACTGAGTATTTCCAAGAATTAGGATAACACTAC
Y
GCCCAATAAGATAGAGTTGGGGTTACCCAAATAAGCAACAGAAGCTTTCCAGTGGGACCGAGTCAAGTCAAGGGTCTCAAGTCCCCCCACCCTAAAGCAC
Celera SNP ID:            hCV27957194
SNP Position Genomic:     7372
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6007):
CAACACAGCCCGGCCCTGCCTTCCTGGATTTCCTGGCAAAGCCCAGGCCTTCTCACACGCACTCAGGGTGATCTGAGCAGACCACAGGCTGTTCATCCCA
W
TGGGTTAAAAAGTACTTGGAGACTTAGTTGCAGTAAGGTCTTAGGTTTTGTTGGGGTTTTTTTTGTGGGAAAGTGAAGGCATCTGCACCTGAAATGAAAT
Celera SNP ID:            hCV1599418
SNP Position Genomic:     13397
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|A,3)      total(A,3|T,3) ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:6008):
ACGTTTACCAGGGCTCTGCAGTGAGCTACTTTTCCAAAGACAGAAAAGCAAGGCTATGTGCAATCAGACGAAACTCCAGCTCTCATTGTAACATCCAGCT
T
AAAGCCATATGTTAGCCAGTGGCAGGTACAGATTAGAACCCAGAATGGTCTAGATTTTGGGTTTCTACTTGGGGTTCCTTCTTCCATATAAATGATCTCT
Celera SNP ID:            hCV27009747
SNP Position Genomic:     10688
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,12)   total(-,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6009):
TTAGTTATGGTAGTGAACATATATAGTCAACACAGCTTAAGACTCAGAATTTTAGATGGTCTCAGAATGCAACTCTTAGATAGTTTAATTTAAAAAAAAA
A
TAGCAGCAGCTGCCACCATTTACCAAAAACCTATGTGCTTGGAAACATGTTAGATGCTTTTCAAATACTGTCCTATTCCTGTCTCACTGAAGGAAGGTGA
Celera SNP ID:            hCV27009748
SNP Position Genomic:     9899
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|-,5)   total(A,2|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6010):
GTGCCACAGACAGAAAAATCCCATCTCCCACCCACCAGCCTCCCTGGAACAAACACCTTGGCTGTCTCTCGCTACCTCCAAGTCAGGGGAACATTCCAAC
Y
AGGATGGTGCTCAGAGACCCCACCTTTTATAGCCAGAGTCCCTGATTCACACCATATGCCCAAAGGAGGCGTGTTTCTAAGTGATGCTTCCAACTTCACC
Celera SNP ID:            hCV1599419
SNP Position Genomic:     11449
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,10)   total(C,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6011):
TCAGTACTCCTCAGTAGCAATGACAGCAACAATGACACAGTAAACATCTGCATTTCATAATCCTGGTACAACTGGCTCACCGAAGACTGCCAGGATACGC
Y
ACTCTCTGCTCAAGGGGAAAATGTATCTTCCGAACAATAAATCCTTCACTAAGCAGATGCAGTGCTTGCCCTTGGGGTGACAGCATACAGTGGAGGATAC
Celera SNP ID:            hCV11527358
SNP Position Genomic:     13895
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,3|C,3)      total(C,3|T,3) ;no_pop(T,-|C,-)   
SNP Type:                 UTR 3


Gene Number:                 42
Celera Gene:                 hCG1820668 - 79000075733801
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W8B1(27458026..27472928)
Chromosome:                  Chr13
OMIM number:                 603101
OMIM Information:            CARBOXYPEPTIDASE B2, PLASMA;CPB2


Genomic Sequence (SEQ ID NO:1703):
GAAAAAAGTTAGAAAGATAAAGAAAAATTATATGTGTTAAAATCAGGAGAAAATTATACATAAATAAACAACACATTGTTAGCTTTGATTTGGAGGGTGG
GAAATGGCAATTGAAGCCTTGGGTAAGTGGCAGGGGAAGAACAAATGAGATTCTTTTTAAAAGAAAGGTTTCTATAGTACCAATAGGAGATACAACATTG
AACTAGTATACAATTATACCCAGGGAGGTATAACTATGTGGAGAAATGTATGAAAGGATGATCACAAACATGTTCATATTTTCACCAGGATGGTGAAATT
TTAGTATTTTCTCCCTAATTTTATGCTTTTCTGTATTGTTTACTTTTTAAACCCAAAAGAACTCCTATTCTTGTATTTATTCAAGAAAATTAAATTTAAA
GAAAAATCTCCTTTGACTGTGAAAAAGCCACTAACAAGCTTCTCAGTGATGCTGGTAACCCTCTCATCTCACCAGCACATTCCTTATTATTTTCATAAAC
AGAATGTTCTCTGGGCCCTTGGAGTAGCATAGTCACCCAGTGGGTTTTCTAGCCTTACATAGCATTTTTATTCTAGTGTGCTCTATCTCTTTTTTCACCA
TCTGCCACATTCGCTCTGACATTTCTAGCTCAGATGGTGCAGGCCATGCTTTCTCCAAGCTTCCAAAAACTACCCTAACAGCATGTTTGTACCACCTCTC
AAGGAACTAACTAGAATGTTAAATTCTGTAGCATGGGTGAGTGCACCTCCTTTGGGGTATAGTCCCTTTCCTTTGTTAACATGCCCAGCACTTCCACAGC
CAGCTTATGTTGTGACTACCCTAGGTTATTGGCTTGAAGGCCAGGAGGGGAGGTGGGAATAGATCCTGAGGGCTAACTACAGGACATGCCATTACAGAAC
TGAGCTCTCTGATACCAATGGAGATGTTAAGATCCCTGTATAGAGAAGCCAGGCGGGAGGGCTTAACCACCAGTAACAAGTTGGGCACAGTTATTACAAT
GAGCAGTAAGGTCGGAGTGGCAGCCAGAGGACCATGACCCTTAGAAAATTGTGGAGTCGGTTAGGAGAACACAGAGTTCTTAGGGGCAAGATAGAGAAGC
AGCCAACAAAAGGATTGCTCAATCTTTACAATAAAAATAAATCAAAGCTGGATAATGAGAGAGGCTGAGGACAGCTATCCTAATCAAAAGTCATAATCCA
TTGCCCTTTTCCAGATCTGAGCTGTTCTTAGACCCAGAATTTCTTGCCTGAAGGAGGAATCAGGTCCCCACAAGGAAAGACCCTGCAACTGTATAAAAAA
AGAATCTAAAAAGATCATGACTCCTTCAGTCCTTTCCCAAAGAGACCTATGGAAATTTCCTCAGGTAAGTCTGCACCCTGGGGAAAGGGTAATACTCAAA
TATTTTCAGGTGTGTTGGATGCAGGGTCACTATCCAAGTTGATTTTGAAACTTGGGTATCTGGAGCCCTAGCCTAAGACTAGCTCATAGCGGGTGCACCA
TGTTAATGGATTCCCCCATCATTATTTCCCTGGTCACCAAATGTATAATTGACATGAACATACTAGGTAGTTGGCAGAACCTCCACATTGTTTCCTTGAC
TGTAAGACCAGAGCTATCATAGTGGGAAAAGCCAAAAGGAAACCTCTGAAATTGCCCAACCTCCCAGCCAAGATATCAAAATTAAAAAAAAAAAATTCAT
CCTTGAGGGGAAATGACAAATATCAGTACCACCCTTAAAGACCTAAAAGATGCAGGGATGATAGATCCCATCAAAACCACATTTAATTTGCCATCTGGAT
CCCACAAAAACCAGATGGATCCTGGAAAACGACAGCAAACAATCAAACTCAACCAAGCAACAATCTCAATTGCAGCCATAGTGCTTGATGTGGCATCTTT
GCCGGGGTAGAGTCTCAGGCATATGGTATTCAGCTATTGCGCTGGATATGTCAGTCGGAAAAAGCATCAGAACAGTTAACATCCACTTGGGACAGACACC
AGTGCATATTTACAGTCTTGCCTCAGCTTTAATTAACTTTCTCACTCTCCAGCTGCAAGATGTGTACTTGATATAAGCCCCCAGCTACTGTGCTCTGAAA
TCTGTCCCTGTGTTAGTGCTAATACCACATTTCCCACTGGCTTCTTGCAGCTAATAACTGAGTATGGTGGGGATACTAAGGGAGGCTCTTTCTACAAAAC
TGGAAACTCTTCTGATGTGTGACTCTGCCTATAGGACTTTTTTTTTTTTTTTTTTTTTTTGAGACAGAGTTTTGCTCTTGTCACCCAGGCTGGAGTGCAA
TGGAGCAATCTTGGCTCACTACAATTCTGCCTCGTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCTCGAGTAACTGGGATTACAGGCACGCACCACCACA
CCTGGCTAATTTTTGTATTTTTAGTAAAAACGGGGATTCACCATATTGGTAAGGCTGGTCTCGAACTCCTGACCTCAGGTAATCCACACACCTCGGCCTC
TCAAAGTGCTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCAGGACTCTTGGTTGGTTTTGCCAAAACTTTCTTAGAACTGCACTACGACCTGAAATGT
TCCCTACCTGCTTCCTTCCTTTCCTCTCTCCTCCACAGGGGTTAAGCTTGCATTGCAGTCTCATGGCTCTCCCAGCCTCCTCCAGCCCTCTCCCCATTTC
TTGCACCCAAGCATTTTCCTCAACACACCTCTTGCACAGCTAATCCCATCTTGGTGTCTGCTTCTCAGAGGATCATAACTGACACAAGTAGGAAGAGGAA
GTCTGATACATGGACAGTCAAGTTGATAGTGCATGGGTACAAGTAAAAAATGAAGTGGGCTGGGCACGGTGGCTCACGCTTGTAATCCCAGCACTTTGGG
AGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCGAGACGAGCCTGGCCAATATGGTGAAATCCCATCTCTACTAAAAATACAAAAAATTAGCTGGG
CATGGTGGCGGGCACCTGTAATGCCAGCTACTTGGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGTAGTGAGCTAATATCGCACC
ACTGCACTCTAGCCTGGGCGACAGAGGGAGACTCCATCTCAAAAAAGAAAAAAAAAAGTGAAGTGGTGCTGCATTATGGACTCACTCGGGTGACCGAAAG
AGAGCAGAGAGGGAAATCGTCCCAAATAGGCAGAGCTTCAGTGTTGCATCTCATCATACACCTTGGGTGGAAAAGGTGTTTCCAGTGTTAGAATATGCAG
GAATTCATGGAGAGTGGCAAGTGACATGACTGGAAAACCCCTCAAGAACCTGGAAGAAGAAATCTTGACAGATTGGAGACAAAGAGATTGGAGAAAGGGG
GATGTGAATGGAACTATGAGAGTGGGCAGAAAGTGTGAAGATCTTTGTATCATTTATTAATGCCTAACCAGGAGCACCCACAACAGAATAGACATTAAAC
AGCTGCATAAACAAATGACTCAGCCAGTTGATGTCAGTCAGCCTGTGTCAACAGCCACCCCAATGCTGGCACAAAAGGCACTAGAACAGAATAGCCTGAT
GGCAGAGATGAAGTGTGCATGGCTCCAGCAGCACGGACTCCTCTCATTAAGGCTGATCTAGCTACTGTTGCTGCCCCATGTCTAACTTGCCAGCAACGGA
GACCAAAGTTGAGCCCCGGAATCAGCACCATTCCTCATAGAGACCAGCTAGTCACTGGGTGGTAAGTTGACTACATCTGTCCTCTTCCACTCTGGGTATG
GGTTTATCTCGCCTGCCTGTAGGGCCTCAGGCAAGCATCACCATACAAGGGCTTACGGAGTGTTTGACCACTGATAAAACATCTCACATAACATCCTATC
AGATCATGGGCTCCACTTTACAACAAGGGAATTGCAGAAATGGGTCCATTACCATGGAATCCACTTAGCCTCTCACATACCAGAATACCTAGTTGCTGCT
ATCCTGTTACTGAAATAAAAATGGTTTGTTGAAGGATCAATTGAGGTGCTAACTTGGAAGGCAACATCCTCCAGTGCACACTTTAAATCAATACTCATGT
GGTGCTGTGTCCCTACTAGGTAGTATACATGGTTCCAGGAACCAAGTTGGAGTGTTTCCATATACCGTCACTCCAAGTAACCCACTCGGAGAATTAGTAC
TTTAAATCTACAAATATGGACTCTGTACTTATAAAAATTCCGGTTTCCAGAGAGCATAGGAAGAGTTCCTTTAAACTGAAAGCTGTTGTTACTGTCCAGT
CATTTCAGTTTCCTCATGCTGATTGATTATCAGGAAGGCGAGGAGTTACCATGGGTTTTCTAGCCATGCAGGAAGGGTAATTGACTCCAATAATCAGAAG
GACATTGAGGGCTGCACTTACATACTGAATGTGGCAGGGAAGAATATGTTTGGAATCCAGCTTAGGCGTTCTGTAATATTCCCTTGTCCAAATTTGATGT
ATACAGACAATTGCAGCAGCCATGGCCCAAGAGGGCCCAGTGATTATGACTCAGATCCTTGAGGATTGAGGGTCTGGGTTGTCTCACCAGGTAAACCACC
TAGATTAGAAGAGGTGCTAGCAAAGGGCACCTCTTTGGGGAAAACAGAACGGGTAGGGGAGAAGAGGAATGACAAGTATTGGTTATGGCCTCGAGACTAG
CTGTAGCTGTGAAGGTTGTAGTTTATTTCACTAACGTTCCTCTTGTATATTTCCTTTAGGAAGAGGGACCAAGCAAAACCCCAGAAGAGTTGATCTCAAA
GCTTATTTTATGAAGAAAATTGACCTGAGTGACACAAAGGGTTGGACTGTAGTAGATGTCACGTTTTGCTGCCTAGATCTCCATCCAGGGATGAACTCTT
ATTTCCTCAGCTTCTTTGTCTCCTCAGCTTCTGGGAGGGTTGGCAGCTGATATTCTCACCTGAGTCCCTTTCTAGGACTTGCCCTTGCCTGAAGAGAGCT
GTGCTGCCCAACATGATGCCTCCTCCAAGGTACAATCCACACCCAGTGACTAATAAACAGGGGTTACAAAGGCATGCCTGCTTGCCCCAGTTTGGGACAA
CTTTACCAGGCCAACCCAGCCTCAAGGCTCTCCACAGGAACAGGTGAGGCCATAGTTGTGATTACATCACAGGTCAGTTTCTCCTCTGCCCAAGCCTTCT
TCCTTCATTCCTCCACAGATGCTGATCCTGAGATTCCTTTCCAGTAAACTTCCTCCATGCAATCTTCATCTCAGGAGTCTGTTTCCTGGGGAAACTAACC
TGCAACTGATACAAATGCCTATTCTGTGAGATAAAACACTAAAAGTACAATGCGAGTGGTATAAATATTCTGCTACAGGAATACAAAGTCAGGTATCATT
TTTGACTTAGGTAGTCAGAGAATGGAGATATTCTGAGTTGGACTTCTGAGATACTAGGATTCAATAGGTGAAGGGAAGATGAGATGGTATAAGACTAACA
TAGGCAGAATTTTGCTAAACGAATTGGAGATGAAACATCATAAGTGCAGGTGCACAAGTAGAAAAGTAAAATCAGAGCTCAAGGAAGGAGAAGTGATCCA
GCTGGGCAGAAATATGGGGCCTATATAGAGATATACCAGGAAATAAAGCCAGGACGAATGGCAGGGTAGGACCTGATTGTTAAGGGTCTTAAATGCTGGG
GTCAAGATTGTGGCCCTTACTTAAAAGTTGGTTGGGCATGATTTTGGGAGTTGTAGCAAAAGATGTGGCAAACTCAAAGCTTCCTTTTCATGTAAAGTAT
AGAGAAGTGGAGGTTCATATCATTAAATCACTGTAATTTCAGTGTGAACTTCTAACAATTTGAGCTAACCATGAGATAGGACACCTTATCAAGCAATGAG
CTCTTCATTATCTAAAGAGATGCTGAATTTCAAGTCCATGTAGAGGAAGTCTTGTGTTGACTAGAGCATAATATGTCTGGGGGGACTTTTCTTCTTTTTT
ACTGATATTTAGTAACTTGGATATTGTGCTAAGTGCTTTACAGGTATTCTTATTTAATCCTCACAAGGCAGTATGGTAGATAATCTATTATATTGAAAAT
AATGGGCCAGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCCTGACCA
ACATGGTGAAACCCTGTCTTTACTAAAAATACAAAAATAAGCGTGGCATAGTAGCTCACACCTGTAGTCCCAGCTACTCAGAAGGCTGAAGCACGAGAAT
CACTTGAACCCACGAGGTGGAGGTTACAGTGAGCCAAAATCACACCACTGGACTCCAGCCTGGGTAAGAGAGCATGACTAGGTCTCAAAAGAAAGAAAGA
AAATAATGAACAAAAAATGTTGAGTGGGCAGTATTAAATTAAAAAAAAACCTAATGTATTAAAGAAGGAGAAAAGTATAAAAATTAGTCAACAAGCAGAG
AAAGAAAGAAAATATAAAGGTAAAAATGTATGTTATCCAAATGAGACCTCTTAAGAAGAAAAAATAAAGGAAATTCAAAAAATAAGTTAGGAAATAGTGA
GTAAAATTATGAAGTTAAAAATTCACCAAAAATTTATTGATATGTCCAAGTTCAGCTTGTAGTGAACAGACTCTTCTTATGCAGAATTTGAGCAAAGTGC
TAACACAACAGAGTTAGGTAATGGGATGAGGGTCAGTCAGATCACTCTATTTTTGGAAACTGGTTTCATGACTGCTTCCCCTTACTTAGTCATAAACAGG
CTATATAAAAAGCTGTCAGAGTGGAAAGAGGGAGAGGATTTGTGAATTTTTTTTTTTAGCATGTTTTTATGGTTCTGTAAGTCACCACCCTCCCAAAGGG
ATGAAGTTTCGGGGTGCACTCCCCTTACCTCAGCCTAGTAGGGGGACTTCCAGGAGATAATGAGAGAGTTGGATGTTTCCTCAAATTTACAGACACAAAG
ACTGGTGCCTGGCTTCTCCTGATAAAGCTAAACCTGCATGTGGCTGGTCTCTAGTTGGCTAGATAGTAGTAGTTAAAATGAAAAGAAACACTTAATGTTA
GATGCCATCCAATAGGGCCMCCTAAAGGGATGGAARGTTCTCAACAACAAGAGCCCAGAGGTAGAAGCAAGACTCTTAGCGGGGAAGGATGGAGTCGCAA
GTGAAAACCTAGACAAAGAAGCATCTGTCCTGGTCCAGAGGCTTCCCCAATAAAGATGTCTCACACAACTCTAAGAAGTTAGAACTCGAGAAAAAGACTA
ACAAGAAAAAGAGTAAGGTGTGTTTGTGGAAGAGGTGAGGCAGTTGTTTTCCTATAAATAATGTTAAATTAAACTAAATTTGGTCTGAGGATGCCTCGTA
ACTTGAGTCGCTACATAACAAACTGCAACCTAACTTAGGAGTATTTTTTTTTTGTACTAACGAGGTGAGTCTCAGCCAATCACAGCAGCCAAGCTACAGC
CAATCCCATGTGGCCAACTGAKCAGCCTATGCCCAGTAAGACAACTGCTCACCTGTAACTACTCAAGCTGCTTCTGGACCTCATTTCCATTTGCTGTTTA
TAAGTGCTGCCTGCCCACTTTGCTGAGCAGAACTCTCTGAACTTCTTTCGTTTTTGAGGGTTACTTGATTAGAAAATTGTTCTTTGTTCAATTAAATTTT
GCTAAATATAATTCTTTTAAAGATTTTCTTTTAACAACAAAGATGGGGATATTTGAACAATACCTTGGTTGGAGGTGACATTCTAATTTCTAAATTGAGG
CTATTTGTATTTTTAGCAGGACCCAAGGACTGTCACTTAAAAGCAGGCTAAAAAGCCTTGAAATTTTCTAACTTTCCATGCGAGAGCAGTGATAGATAAC
CCCACTACGCAAAATGTCATGGGGCAATGGGAGACAAAAACTAAAGCTGTGTTTCAACTGCGTCTCTGAATGATACGATTATAGCACTTACACAATAACC
ACTTGAGAAAAAAGAACAGCCTTGCACCAAAAATCGAATGAGAAGTACAAGCACAGTGAAGTAACAGGTCACTTTACAAAAAAAGTAAAGGCTGAAAGGG
GACGAGCAAATTGCCCAAGTCTGCATGGGTGATAAGTAGCAGATCTGGGGCTCGAATCCAGATCCTGAGCTTTTAATACCTATGCAACACTTCCTCTGTT
CCTTCCCTTCTGAGAATGTCATTATGTTCATTGGGGTGTATCCCCTGCTATGGTTTACAGGGGAGGGTTCACACTTTCACCATTCTGAAAGATTATTTTG
AATTTAAAAAGCTGGCAAGATGTCTCTGAACAATGGAACATAGCCCAAGGCTGCAATTTTGTTGCACACATTACAGTGTTTTAAGGCCACTGGTGGCCTG
TTCTTTGAGATGAAAACAATRCATCAGTAGGAACAAAGTGAAAGAGAGTAAACTGGTCTCCAGGTACCCAAACAGTATGTGAAGTCAACAGAGGAACACT
TCCTGTGGTCTATTAATAATTCAGAAGCCCTTTATCCTCAACCCTCCTCCACTCTCTAATTCCTAAGTCTTCTTCCTAGTGTCTCTTACTTCCTCTTTCC
AAATAGTCTGGGCTGGCAGGCTGCATTTAGGTAATCACTGCACAATACAATTACTGATTCTGTTTACAAGATTCTTGCTAGTATTTTATTTTTACCCTTT
ATAGTGTTTGGCTTTTAAAAGCAAATGAATATGGAGTCATGATTTTTTGGCTGCCTTTCCCTTTGGCATATGATATTTATGCCTTTAAAACTTGTTGTTG
TTCCAGGGCATTTCACTGATGAAATTTATCAAAATGAACCTACAAATCAGCCACTAAGAGACTGCATGAATAAAAACTGTTAGTAGGAAAATGATTATGA
CAAAAAAAAAAAAAAAAAAACAAAGAACAGCTTTAAGAAAAAGCCAGACTGTTAGTTTTTTTTTTTTTTTTTAGAAGGGTTGATATTCTGAACCCCAGCA
ACAATTTATCAAAGTCTGTTGCCCTGAATGAAATTAGATTTCCTTTTTAGCTTCAGGAATAGGCCATTCCTGGAAAAGTGGAGCACAGAAACATTTGGTA
AAAAAATTTATTTTTACTCACAGAAAGAGTAGTTTGCAATGTTATTTCCAGTGAAGGGATGGGAACCAGGATTCAGATATTCATCTGTCTACAATACTGA
GGTCCTCCTACCTCCTCTCCTCTGCAAAGGGACCCTCGCAGTATGCAAAAGTATTAAATATTTTTAATGTGATATTCTTTGGTTAAAATATAGTCACATT
CTCATTCCTTTTTTCAAGCATAAGTATCAGTCAGATTTCAGAGTATAAGCTGAAGCAACAAATAGTAACAAAGCCCATGCATGAAGATATGTTCTCACTC
ATTTTTTTACTATTTTATTGTTGGCTACTTCTTCTATTTGCGTTATATTTAGTGTCACTAAGCTGCTATACACGTACTCATTTGAAGAGATGTGCTAAAG
CTTTTAGTGTGTTTTGCTATTGATTATCCTATCCAAGAGTTTGGGTTACTCTACGATCAAGATGGCGGTCTGCAGTGAGCCCACCTGCCCGCCAACCTCT
GCAACAACCAGCTGAGGATAATTGCACTGGGCTGACGCCAAGGCCATGATTAGATCTGCTAGTGGGTGAGAACCATGAGACTGAACCTCTAATCCCGAAC
CTCTCTTCCAAGCTACTTTCCAAACCAACTGCTGCCTGCAACTCCCTTTGACTAAATCTGACCTTCCTTCAAACTGGCTCTCTTCCTAATTTCCAGATTT
TATGGAGGCAATGCTGTCCAGTGCATGGAGTTGAAATGAGGCTAAAGTGGGTTTGAATCCAAGCTCTACATTTACTGTTTGATCTTGGGCCAATTATTTA
TTCTTCCTGAGGCTCAGTTTCCTCCTTTGTAAAATGTCAGTAAAGATTCCTAGCATGTAGGATTTTATGCATTTAAAGAGATAACATTTCTAAGTGACTA
GTTCAGTGCCTGGCACAAACACAGGCACTAAATAAGCAGAGGTTTCCTCCCTTTCCCCTAACTGTCAATGGTACTGCCACTGTGTACAGTAGCCAAGTTG
GACATGTTGATACCAATTTTTCTCTTCTCCCCCTTTCCCTTAACTGAAGCCAATTATCAAGTTATGGAATATTAGAACTAGCAAGAACCTTAGAAATCCT
GACCATATGATTCACCGATAAAATACAGAGAAAGACATAAGTCACTGATCATTGCAGCAATCTTGACCCCCACGTCAATTAAATAACAAAAATAATATCA
TTTTATGATAGAATTTGTTGCTCGACATTCGACAATCATGTTGAACAAAAGAAGATCAATCAACTATAATCAGTTCAGTGATCATGTACAAACACAGCTT
CAGGCTCACAAGTCAAGATCTATTTTCCAAACCATTGTCCTATGGTTATTTATGACCGTGAACATTTTTTTGGTGGTAGAATGTTCCTTGTCACTGGTAT
ATTCCTTTGCCCTATGTCTCTTCTTTCTTTGTCATTTACTAACATGAGGAGAGGGATCTGTCTCAAAGATAATTGGAGGAGAAAGCGATCATAGAACCAA
AACAAAGGGGAAAAAATAAGATAATTCCAAAGGAAACAATATCAATGTTTTAAAGCCTAAAAATTGACTACTTAATAAATTACATTACATATACCCTGGA
ACTATTTTCTCCATGCATTGCATGTGCTATAGCATGAATTCATTTGTGTTCTTCTAGATAGTTTATCCTAAGGGAATCTACTAAGCAAAATAAGAATCAG
ATAATAGTTCTTTATCACACAACTCTTCTTCCTTTCATATTCCATGCTAAATAATCATGCATGATCCAAACCTCCTATTTAACACTTCACCCTCTTCTTC
CTCCTATGTTCCATGTACAAGGGGAAAATAAATGATCCATAGTTAACTTTTTTTATGTGAAGACAGGAAGAATATGAATCATACATCAAGTTAGAGTATA
AATAGTTACGTTTATAAAAGATTTAATTTCTTGAATCTCCATAGTCACTGGATATGCGTATCATCCAAGGTTCTCCCAATAATAAAACCAGAGCCAGGAA
AGAAAAAAGACCCTGTCTTTAGTGATAGCCCATTGTGCTAAAGTCTACTTATTTGTCAGGGCAACTTGGAAAGTTCTGAAAGACCTGGCCTTCAAAGTTT
ACCATTTTGTCCACCAGCTCAGTGCACTGACTTGACACGACATGAGGCAAACAAGTGAGGAGAGTGGCCCACCACAGTCTAAGATTCTATTGGGTTACCT
CTGAAACGCGAAGACATGCTGCTCACAGAAGAGAACAATGGGTACAAGGACTGCAAGGCTGCAAAGCTTCATCCCAACAGCAATTTTCTGTACAACAAAT
TTCTCTGAAGAGAAAAACCCAGATCATTGATTGCATAACAGCCTTCTTTACACACTGGTTAAAATATAACGGCATGTTCCCTCTTGTTCCTGTGGGTCAA
TCAACTTAGCTTCCATTTCCACTCCCAAAAAGAGAAATATTATTGGCTTAGTTAGGCTGTTGCTTGATAATTAAACACTCAAAAAGAGTATGATGAGAGT
TGCTCTTAATTTAGACTATCTAGAAAATGTGTAACTCCTTGGGGAAGGTAGGGCCAAGAATAAAAGGGTAGTAATACAGTAGGATCTTGTCTGGTTTATT
GCAGAACAATAGCTATAGAATATTGACTAATGGATATATAGCCCATGTTGAGGGAGATCTACCGTGAAGTACTATAAATGTCTTCCCTTGCCTCTGACTT
TTTCAACATTTTAAATTTATGAAGACGTAAAAAGTGAGTTCCTCAAATCTGGCTAATCCAATCCAATGTTGAAGTGCAGTTTGTAAGGATGATTACAGGA
TCTCTGTTCAAAAAGATGTTTCCTTGACCATATGGAATGATAGGCCCACCCCCAATAGGAATACTATTTCATGGAAGCTGGTTCAAGCAGTAAAGACATC
AGGTTACTTTGAATCTCATTTATTTAAAGGTCACCATAATAGCCATCAATTAAATCCAGGCCCATCCCCTATCATCTTGAAAGTAGCATCAAATAACATT
TTGTCTAGTATGAGGCCATATCCTACCCTCTGTAAGTGAGTGGAGCCCTCTTCCCCTACATTCCCATTGGTTAATGCACTTGAATGTTCTTGAAGTCAGA
ATTGGCAAATTTGCAAAATAAATCAGCCTGCCCACAATTAACTTCTGAGAAGAAAATGATTTTTTTTCTTTTTTCTTTTCTTTTTTTTTTTTTTTTGAGA
CAGAGTCTCACTCTGTAGCCCAAGCTGGAGTGCAGAGGCGTGATCTTGGCTCACTGCAACCTTCACCTCTGGGGCTCAAGCAATTCTCCTGCCTCAGCCT
CCCAAGTAGCTGGGACTAGAGGTGTGCCCCACCACACCCGGTTAATTTTTTTTGTATTTTTAGTAGAGACAGGGTTGCACCATGTTGCCCTGGATGGTCT
CAAACTCCTGAGCTCAGGAGATCCACCTGCCTCTGCCTTCCAAAGTGCTGGGAATACAGGCGTGAGCCATCGTGCCTGGCCAGAAGAAAATGATTGAGAT
TTCAAACTTTTCCTTTTGAGATTTAAAACTATTGAATGATATTTAATGAATTAAAGTGACCTCCACTGTAACCACTTGTTGTATAAGAAAGAAGAAGAAA
TAAGAAAATATGTGTGTGTCTGCTCATATGTGGAGAAAGAAACATAAGAAGGATAGATTAGAAATCAATGAGACTGGTTATCCACGGGAGGTGAGTGGAA
ACACACTGGAAAAGACAGGGTAGAAGAGACAGGGAGGGACGCTTCTTTGGGTGAAGTGTTTTGAATAGTTCTGAACTTTAGAACTACTCTGAATTTTAGA
ACCATGTTCTTTTCACATATGTACTTAAAACAAGCAAACAAATAAATTTTAAAAAATAATACAAACAAAAACGAACCTGTGTTTCAAATGAATAACATAA
TCACACTGAAGGAGAGAAAGAAAAACTAACCCAAGTAACTTTTACCTTATCTTTTTAACATAAAAGTTAACTTTAAAATAAACAGTCAAAATAGTTAAAA
TATGCTAATAAATTCTATCAATTTTTGTGCTACTTATTTTGTATCTGTGTTTCTTCTTTATTTTATGTCCTGTTTCCTCTCTGGGGAAACAGAAACAGGA
TACAAAAGAAACAGAGTGCATAAAAAACAATAAATTTTAAATTACATTTCTTATTGCTGAAGCAATCTTTTAAAAGTTCCTATAGCAAAAGTCTACAGGT
GATAAAATCTTTTATGCTCTGTATCTTTAACAATAACTTTCTTTTGCCTTCACTTTCAAGTACTAGTTTAGCTGAATGTAATATTCGAGTGTGACGGATG
CGTCATTGTTGTTTGACATTTCCTGTTGCATGGTAGGAATCTGCTGCCCAGGTAATTGTTGTTCCCTTGCAGTTTAGCTGTCCTTTCTCCTTGATAACTT
TTAAGGGATTATCTTTATCCTTGGTGCTTCTCAGATCCATTACTCTGGTCTAGATGTGGATTTAGTTTTTATTATCTTACTCAATACACAGGATGTACTT
TTGATCTGAGGATTTAGACATTTCTTCAGTCTTGGAAAATCATTTTATTATTTCTTCAGCTATCGTATCTCTGCTAGTGCCCTGTAGGGGCTCCTGTTGG
AGCTTCTTGATCTATCTTTCATGTCTTGTAACTGTCCTTTCATGTTTTAAAAACTCATCATCTTTGTCTCTGTATGCTGTATTCTGGGTGAGTTTCTCAG
CACTATCTTCAAATCCACTAATTTATTCTTTGAGTCTAATTTAGACTACATAGTCCAGTTGAGGTGTTTTAAATAATTACCTCGATGACTATATAAATCA
TTTACAGCTGGTTCTTTTGCGTGTTTACTGATTTTGTTTTTATACCAGTATTTTAAAATATCATTTAAGATTTTTTTCAATTTTTTAGTCGATATGATTC
CTTTAGATCTCTCATTGAGAATCCTCAGGATACTTATTTTAAAGTCAGTGTTGCACTGCTTTATGAGGTTAATTATGTTTGGGTGAATTCATGTTCTGAG
TATTGATTTTGTTAGCTGCCTTTATTGGTATTTGAATTCTTCTGTGATTTGGAACTCTGGTCTGCAGGCTCATTTTGAGTAGGAAGTCTTCCTTCAAGTA
GGAAGTCTTTCATTTCTTTCTCTCTTCCCCTATGCTCACTTCTCTCTGCTTGGCACATGCCTCCAAGAAGTCCCTGCGCTTCCATTCCAGAGCCCTGTCT
TACACTGGTTTTTGGAGCACATTTCAAAGATCCAGTCAGCAAACAGCAATGACTTGACTTAATTATTGGCTTAGTTACTCCTGGTGTAGTTATTCTGTCT
CATACTGACTAGCAGCTACTTATAAACCAGTCCTAGGTAAAAGTGAGCAGCATTTTTTTCCTTTGTATTAAGGTACATGCAGTGAAATGCACAGATCGTA
AGTGTACAGTTAGATTTTATATATATATATAGAAGTGTTTGTTCAGATCATTTGCCTGGTTGTTAGTTGGGATAGTTTGTCTTATTACTGATTTGTAGGA
GTTATTCACATTTTCTAGACATCAGTCCTTTGTCAGATATATGTATTGTAAATATATCTTCCTTTGAGAAGTGTCTATCAAATTCTTTTGACCATTTTGG
AAAATTTAGTTGTCATTTTATTATTAACTTGTGAGAGTTATTTATATATTCAGGATACAACTCCTTTGTCAGACATATACATTGTCAATATTTTCTGACA
CTTTGTGGCTCTCCCATTTTTTATTGATGTCTTTTGCAGAGCAAAAGTTTTTAATTTTGCTGAGTTCAATTTATCAATTTTTCTTTAGTGGTTAGTGCCT
TC


SNP Information

Context             (SEQ ID NO:6012):
TGTCTCTGAACAATGGAACATAGCCCAAGGCTGCAATTTTGTTGCACACATTACAGTGTTTTAAGGCCACTGGTGGCCTGTTCTTTGAGATGAAAACAAT
R
CATCAGTAGGAACAAAGTGAAAGAGAGTAAACTGGTCTCCAGGTACCCAAACAGTATGTGAAGTCAACAGAGGAACACTTCCTGTGGTCTATTAATAATT
Celera SNP ID:            hCV1872237
SNP Position Genomic:     8421
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,5)   total(G,4|A,5) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:6013):
ACTGCAACCTAACTTAGGAGTATTTTTTTTTTGTACTAACGAGGTGAGTCTCAGCCAATCACAGCAGCCAAGCTACAGCCAATCCCATGTGGCCAACTGA
K
CAGCCTATGCCCAGTAAGACAACTGCTCACCTGTAACTACTCAAGCTGCTTCTGGACCTCATTTCCATTTGCTGTTTATAAGTGCTGCCTGCCCACTTTG
Celera SNP ID:            hCV11301120
SNP Position Genomic:     7522
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,6)      total(G,2|T,6) ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:6014):
GCATGTGGCTGGTCTCTAGTTGGCTAGATAGTAGTAGTTAAAATGAAAAGAAACACTTAATGTTAGATGCCATCCAATAGGGCCACCTAAAGGGATGGAA
R
GTTCTCAACAACAAGAGCCCAGAGGTAGAAGCAAGACTCTTAGCGGGGAAGGATGGAGTCGCAAGTGAAAACCTAGACAAAGAAGCATCTGTCCTGGTCC
Celera SNP ID:            hCV1872239
SNP Position Genomic:     7136
SNP Source:               Applera
Population(Allele,Count): african american(A,11|G,21)   caucasian(A,5|G,13)   total(A,16|G,34)
SNP Type:                 UTR 3

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|A,4)      total(G,3|A,4) ;no_pop(A,-|G,-)   JBIG-allele(A,339|G,1154)   total(G,1154|A,339) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:6015):
TGATAAAGCTAAACCTGCATGTGGCTGGTCTCTAGTTGGCTAGATAGTAGTAGTTAAAATGAAAAGAAACACTTAATGTTAGATGCCATCCAATAGGGCC
M
CCTAAAGGGATGGAAAGTTCTCAACAACAAGAGCCCAGAGGTAGAAGCAAGACTCTTAGCGGGGAAGGATGGAGTCGCAAGTGAAAACCTAGACAAAGAA
Celera SNP ID:            hCV25936246
SNP Position Genomic:     7120
SNP Source:               Applera
Population(Allele,Count): african american(A,24|C,6)   caucasian(A,3|C,5)   total(A,27|C,11)
SNP Type:                 UTR 3


Gene Number:                 43
Celera Gene:                 hCG1986256 - 65000099286783
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VWMC(12510872..12523265)
Chromosome:                  Chr1
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1704):
GGTAAAGACATAAAAGAAAGAGACATTAAAGACAAAATTTCACTAGTAAAACCAAAAAAGAAAAGAGAGTGAAAAATCAGAGGGCAGAGCCTTAGTGAGG
AAATCCACTCTCAGTCAGGAAGGCAGGCAGCAAAAAGAGAAGAAAAACAGCACAAAGGCTAGAAGGTATCTCACAGGTTACAAAAGAAAGACTTGACTGT
GTTGTGTTTTAAGACTAAATTGTAAGGTAAAAAAGGAGTACTTAGAATACTAAGCAGAAAAGGATAAACATGGAAGCAAGGTTCCTAAGAAAACTGGGTA
CCAGGTAGGATTTATGTTGACAAGCAACTTATTAACTTGGAGTAACAACCAATTCTGTTTCATTTCTAAATGATTTCTTAACCAGCTAGCATTTAATCAT
ATCTTAAGAACTCTATAAACAATAGCAAAATTAAATATATAGGTAGATAATGAACTGCCAAACAAGAAATTTCACTGGCAGCATTCCTGGTATGAAGTAA
AGATACTGTCTTCCAAATTATTCATTCAAATTCAATAGAAAGAAAAGTAAGTGGCCAGCCACGGTGGTTCACGCCTATAATCCTAGCACTTTGGGAGGCC
GAGGCGGGCGGATTGCCTGAGCTCAGGAGTTCGAGACCAGGCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAATACAAAAGAACAATTAGCGGGGCG
TGGCGGTGTGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTAGAACCCAGGAGGCAAAGGTGGCAGTGAGCCGAGATTGCACCAC
TGCACTCCAGCATGGGCAATAGAGCAAGCCTCCATCTCTTAAAAAAAAAAAAAAAAAGAGAAGAAAGAAAAAAAAAAAAAAACAGAAAAGGAAGCCTAAC
TTTTTTTTTCTTTTTTTTTTTTTGAGATGAAGTATCACTCTGTCGCCCAGGATGCAGTGCAGTTGTGCAATCTTGGCTCATTACAACCTCCACCTCCCGG
GTTCAAGTGATTCTCCTGCCTCAACCTCCCATGTAGCTGGGATTACAGGCCACCGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTT
TCACTGTGTTAGTCAGGCTGGTCTCGAACTCCTGACCTCAAGTGATCCTCTCGCCTCGGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCGCAGCACC
CGGACTCTGACTTTTTATTTTTATTTTTGAACATGGTTCTTGCTCTGTCACCCAGAATGAAGCACAGTGTCAAACTCACAGCTCACTGCAGCCTCAACCT
CCTGGGCTCAAGCAATCCTCCCACCTCACTCTTCCTCATAGCTGGGACTACAGACATGCGCCACAATCCCCAGTTAATTTTTGTATTTTTATAGAGAGAC
AAGGTCTCACTATGTTGCTCAAGCTGGTCTTGAACTCCTGGGCTCAAGTGATCCACTAGCCTTGGCCTCCCACAGTGCTGGAATTACAGGCATGAGCCTC
TGGACCCAGCCTTAGAGCCTGACTTTTTTAAGTCTTGGAATTCTATCAGTTGAACTAGTCAAAGAAATATACTAAATAGGGAAAAAAATACATAGGCCAG
TTGCAATATTTACTTCATCTTTTCCAAGAAAACTTAATGTGGACAGTTGGTCTAACACCAATGTGGACCAAAATATTAGAAATAGGCCAGGCATGGTGGC
TCATGCCTGTAATCCCAACACTTTGGGAGGCCGAGGCGGGAGGAGTGCTTGACCAGACTGAGAAACATGGCAAAACTCTGTCTTTACCAAAAAAAATACA
AAAATTAGCCAGGCATGGTGGTGCATGCCTGTAGTCCCAGCTATTTACAAGGCTGAGCCCAGGAGGTGGAGGTTGCAGTGGGGTAAGACTGCACCACTCC
ACTCCAGCCTGGGTGACAGAGCGAGCCTCTGTCTTAAAAAAAAAAAAAAAAAAAATTGGAAACATTAATGAAATAAAAATTAAAAAGTGGCGGTGTGTTT
ATAATGCCTAATAAAGAATACAACAGACAATAAATATATTTACTTATTGAACCTATCAGTAACAAAACAACCATGATTCAAGAAAACAGGTTTTGTGTGT
GGGGGGGGTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACCATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTC
AAGTGATTCTCTTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGAGGCTGCCATCACGCCTGGCTAATTTTTGTATTTTTAAGTAGAGACGGAGTTTCG
CCATCTTGGCCAGGCTGGTCTTGAACTCCTGACCTCGTGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCAGCT
GAAAACCGTTTTCCTAAGTCTAGCTTATAAAATATACTAATTGATTATCTTTAAATAACTAAGTTGGCCAGGCATGGTGCCTCACGCCTGTAATCCCAGC
ACTTTTGGAGGTCAAGGTGGGCACATCACCTGAGGTCAGGAGTTTGAGACTAGGCTGGCCAACACTGTGAAACCCCATATCTACTAAAAACACAAAAATT
AGCCGGGCATGGTAGCACGTGCCTGCAGTCCCAGCTACTCAGGAGGCTGAGGCACTAGAATTGCTTGAACCCGGGAGGCAGAAATTGCAGTAAGCCGAGA
TTGCATCATTTCACTCCAGCCTGGGTGACCAGAGGGAAACTATATCTCAAAAAATTAAAAAAAAAAAATTAATTGAATAAATAAAATAAGTTATTTACAG
CCTTTTTTTTTGGAACATTGAAAGGGCAACTAGCTACAAATGAGAGAAATTCAGTGCAATACAGGCCCTTTATACTATAAATATTTTACAGCAGTGAAAC
GTAAAGAGAGCGCAAAATGTTTTTGCCATTCAGTTCAGTCTACCTCTAACCTTTCCGACTCTTTTGTGAGAACTGATAATAAAACAGAGAATTTTGAAAA
GAAAGAAAAAAAAGCTATTTGCCAAAAATATCTCCCTTGGAAATGCATTATCCTCAGAACAGCATCCAGCCCATGCCACAAGACTGAAGGCATTTTCTGC
TCTAGCGCAGAACTACTTCTCCAGATCCCCTTCCTCAAGAAATGAAGTCTACTTATTTTTGTTCCACCTCAATAGTTGAGAGTACTGACCCCAGAAACTA
CAGGAATCAGCAGTATGCTAGAATCAAGATATGCACGAATTTTACCTATAAAATTATCTTCTTTTCTGTGTGAAGGGCAGAAATGAACAGTGTAACCTTT
ATCCATTCTCCCAGCTTGAGCCAAGATGATACTTCAGACACCCGTGGCAGGCAGCCTAGTTTGTTGTTGTTGTTGTTGTTAAGATCTTTGCAGGAAATCA
GTTTACAACCTTGGGATGTTTTTAACTCTAACATGCGCAAAGTCATCTTAAATGTCTCACAAGCTTCCGCTTCAGGAAGTCATCTTTTTTAAACTTACTA
CCACTGAAAGGCTATTTCTCCTAAAACTGACTTTGCTTGATACAGCAGCGATACCTCATTCTTACACAATGACATTAAAACTTAGGGAAAAAGGAAATAC
AGCTATAAAGTAAATGACAAAAACTTGAACCCACACACACTAACAAAACTGGTTTAGGGCCTCATTTTAAGGATTCTCACCCTTCCTTTTGCCCAAGAAT
CTTCTAGGCGGTTTACTAAAAAAGTGGCTGTCCTTTTTCAGACCTCGATTCAGGATTCAGCTTCAGATACGTGGAAACTAGACATTCCTAAAGATTCTCA
CCACCACATAAAACTAAAACAAGCTCTTTACTGCTCAGGATTACAGGGCAATTTCCAGCAATTACAGTCATTCAGGGATTCTAGGACCTGCCTGAACTGC
ACGAGACCCTTACTACTTCACACTCTCCATCTCCCCATTGGCTTTTGACATTTTCCCTGCTCAAGGGCCAAGCAGTATTTGAAAGGCTGAGGGAAAGATC
GAGACATTAACTTCTCATGGACAGCTCTAATTAAAAAAGAAAATGAAAAACTTGTAGAGTAAGAAATCCATTTTCCTTTAAAAACTACAATTTATGATTA
GCTGAGCCTCCTCCCATCACCAAAAGTTGGCATTCCCTCCACTCTACCCAGACGTTCCCTGTTCATAACACTGTTTCATCACGTCATATTATCATTGTGA
CTTCTTCCTCCACTAGAGGACAAGAGCTGTTTTGTAATCAGCACCCACCACCATCTCTATTACATAGTAGGTGCTTTAAATATGTTCACTGGCTTTTATT
CTTGCCCTGTCTCCCAATGGATAATTAATATTCTATTGGATCTGTCCTGGCATAGGTAAAAAGTTATCTTATAGAAATCAGTTACCGGGTTATAGATGAT
ATTCTGTAGGTTGTTTAAGGACAACATCATTCTTTTCCAGCTTCTTGTCGATTGGAGTCTCTTCTGTGTATGACCTAAGATTTTAGGCAAGTTTCATTTA
AAGGTTACCTGGATTGAAACTGAGGCACTGGCCCTGTGTAAAGTAAAAATAGAGGAAAAGAAAAGTAAGCATGTAGCATTTTTCTTCATATCCTATTTTA
AAATTTAAATTATATATTATGTTACTGATATTTACCAAATAATAGAATATTATTACAATCAACGATCTGCCTCCCATTCTTACCAGTGTGCTCATATACT
AAATAATTTTGGATTGTGAGTGTAGGAAATATTGACTTAAAAAATACATCAGTAGAAAATTTCTAACATGGAATTTATTATTAAAAATACTAAAATAGGC
CAGGCATGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTTCAGGAGTTAGAGACCAGCCTGACCAATATGG
TGAAATCCCATCCCTACTAAAAATACAAAAATTAGCCAGACGTAGTGGCATGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGACAGGAGAATTGCTTG
AACCTGGGAGACGGAGGTTGAAGTGAGCCGAGATTGTGCCACTGCACTCCAGCCTGGGCAACAGAACGAGACTCCATCTCAAAAAAAAAAAAAATTTAAT
TAATTAATGGTAAATACTAATCAAACAGTCCCGTACAATTACCAGAGGTATTCATTTAGATTTTCATTTCCATAAAATGAGAATTACAGTATTCACATCA
TTGGTTTGTTCTGAGGATTGAGTTAATAAAACAGCGAAAGAGTAAGCGCTATGTTAGCTATTATTATTGTGAATAGAAAGAATTGCTCTTCCTCCTCCAA
TTTAAACAAATCAAAGTAGGGAAAAATCCAATACTTTTAATACTATTAAGATACGGTTTTCTCTGTTGCTTAAAAAAATAATAATCACAGGGCAGGGGAG
TGTTGGAAAGCATCAGCCACATTTTTTAAGATAAAAGCACTCATGGACACTACACTACATTTAATAGCTCCAGGAAAAACTCGACTTTAAGCAGAACTAA
AGGGGAAATGAAACCAGAGCTTCCTGTATTTTACTTCCAGCAATTCTGTCATTATACTGCACACCAACAATACACACCGATCAAATCTATCACTTTTTCT
TTATTAAGAAAAAAAACTGTATCCCTCTTGGTTTACCACCTAAATATAGCCCCATGTCATTAACTTAATTCGTTAGTCAAAACCTCAAAACTCTGGCTCC
GTGACTCAATTCAGGAAGTAAGAACAAGAGCAAAAAGAATGGATGCCGAGTTGCCATACACATGTATAATAACAAGCCAGTGACCCAATTTAAGCCATCT
GCTTGCATTAAATCACGCAACCCCCGAAGTATCCCCAGGGACAGGTCCCGCCAGCATGAACACTTCGTATGCATCACAAGCAGCCATCACTTAAGTTTCA
CGTACGGTCAAAGGAAGTCACATGACTTGCGCTTTGCAATGTTTAACACTGCAGTCAAATGACTCGGCATCCTAAAGAGCGTGTTAGAGGCAGGGAACGC
AATGGAGGTCACTCCACYGTCACTACAAATTCCGGGAAGGAAACTTCCCCAGATTCCTCCACTTGGAGGTGGCGCTCGGCCTCAGGCTAGGAGGGAACAG
GTGAGAAAGCAGCCCAGGTGGGGTGGGTTTGCAGCGAGGAGACACCCCAGGGCAAACAGCCTGACCCCAGCCAGGGATGTCCAAGAAAGGCCGCGACTCC
TGATAATCCCTTATGCCCCGGAGYGCCTCGCCTGCAGAGGCAGCGTCCCCGCCACCCAGCCCCGGCTCTGCCGCGGTGAGGACCGGCGGGTCGGGGTGGA
CTGGACACTGTCCCACCCATCAAATGGTGATTTAGGAGCCGTGACATCCGAATGCCATCCTCCACTGGCGAGACCCTCAGAGCAGCCACGCCTCTAGCGA
CTGCCCCGCCACCCGAGGCCGGGGGTCGCGCGACTCACCCAAAGACTGGTGTTTCAGGCGCTCCACGGAGCAGGTTGTTTGTCAGCAGCTAAGTGCCGTC
AGGGTTCCCGGCTCTGGCGTCCGTGGGCGGCTACGGGAAGCGACAGGAGTCAGTCCTCGTTCACTTCCCGGCTCGCGCGCCTCACTGCTGTGGTCTCCCC
ACCCTCCCCGCGCCCCGCCTTCTGTGTCTGGGGCGTCCCTGGCGGCTCTGCTGGGTTTTGGACAGGGACCCGCCGCTGATCGCCACCCAGCTCGGCCTCC
TGCACAGCCTCTGGAGCCTTGGACCGCGACTGGCTTGCTGTGGGACGAGCACAGAGGGATAAGGACAAAGAATGTGTCCTGGGTGGATCTGGCTGCCTTT
GCCCGGAAGGCGGAGTGGGGTGGGAGGTGGTAGGAAAATGGGAAGGAAAGAAAAGAAAGGTGGGCCGACGTCCACCTGGCTGTTCCAGGCCTCCAGGTCT
AGGAGGGAGGGCGCTCGGGGCTGGGACTTTTCAGGACCAGGGTGGTCACCGCACAGGCCCCGCCTGCCTGGACCAAGCGCTGGCCTTCCCGGGGCGCCCA
GGTCCACGGGGTCAACGCCAGGGTTTTCTCAGCTTCCTCGTCTGCCTCGGATCCAAGTCCAGACAGTGCCAGAAGAGACTTGGAGGCGCTGCTTTTTGAC
AGTACACACCTCTGTATGCAGGTGAAACGGTGGGGGAAGGGTTCAGTACGCTGGACTGTGCCCAGCCCAAGCTCCCCATCCGTTAGTGATAACTTGGACT
CGCAGCCACTCCGCGTCACTCGCCGGTTATCCTGCGTGTGGGTGTTTTCTCCAAATTGGACACTTAGGGAACAGTTTAAGCAGTATGGAGCACAATTCTG
TGCCTATTAGATGCTCTTAAATACCCGACTTCTCAGGGCCCTACACTGACTGATAGTTTGACCTATTGGCTGTAAACACACCAGCCAGAAATACAAATAA
AGTTAAACAAAGTCATGTCAGCCACTTGGAATGGCTGGCTGCTTACTGTTTATTTTGTGTTAGGGACCTCAAAGTTCTCATCTTCTCTACTTGGCTTTTA
TCCACATTTGTTTGGAAAGATATATTTTAGTGTCATTAACGTGGGCTTTCTCCTCCCTGGCTTTTGTTTTCATTATTTTTTGTTTTAATTGAGGAATTCA
TTACAAGTCCCATAACTGGGAACTCATGTTCTGATTCACTGTTGCTTTTCTCTCCTCCTTACCCATTTTCCAAGCCTGATGCACTTCTCAAGATCCAATC
TGAATAGGTGAATTTACCCTTGACATACACTGCCTTGGATTTATAGCTGTCTTTTGGTATGTGTTGTGTGTTTTATCTATCCAACTCGACTGTAGTTTGA
GAAAAGGAACTTGTCTTATACAGTCTCCAGTGCATAGTGTAATGCTTTGCATAAAATAGATATCAATGTTAGGTTGAAATGTTAGATTATTGATAAAGTC
AGGAGCAATTGAATATCTTCACAATTCTGCCTGAGTCTCCCCCCAGCCCCGCCACTTTGAGACAGGGTTTCCCTCAAGTGATCCTCCCACCTCAGCCCCA
GGAGTAGCTGGGACTATAGACGCACACCACTATGCCCAGCTAATTTAAAAATTTTTTTTTGTAGAGACAGGGTCCACTGTGTTGCCCGGGCTGGTCTCAA
ACTCCTGGGCTCACAATATCTTCCTGCCTTGGCCTCCCACAATGCTGAAATTACAGGCATGAGACACCAAGCTGGGCCCTGAGTCAACCTTGTACTTCTT
TACAAAGCTAAAATAAGTTGAAATAAGTACACATAAATGCTGTGTTTCTTTTGTAAGTCATATTTAGGTGCAAACGGGGCTGAGTGAAAGGGCCAGAGAG
CAGAGTTAACAAAGAAAATCTGGATTAAAATGTTCATAAATCCTAAGAACTTATTCCTAGAAATATCTCCCTCATTTGGCACTGTTGTTCAATTAGCCCA
GTGTGTTATTTTAAATAAGCAAATATTCACTGAATGCCTATCATGGCCAGGCACAGCAGTAAAGAATACTAGCATGCAAAGGACCTCATGGGCCCTTCTA
GATAGAGTCCCACATCTCTTACATTATTACTGCAGTATCCTAATCGGTCTCCCTATATTTGCCCTTGCCCCTCTGCAATGTAGTCTCAACACAACAGCCA
GAGAAGTCATGACAAAACATAATTCAGATCATGTTAATCCCTTACTAAAACCTACTTTTTTTTTTTTTTGAGGCAGTCTCACTCTGTTGCCCAGGTTGGA
GTGGAGTACAGTGTTACATTCTCAGCTCACTGCAGCCTCTGCCTACCGTGTTCAAGTGATTCATGTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTG
CGCGCCACCATGCCCAGCTAAGTTTTGTATTTTTAGTAGAGATGAGGTTTCACCATGTTGCCCAGGCTAGTCTTGAACTCCTGACCTCAAGTGATCCGCC
CGCCTCGGCCTCCTGTAACCTGGGATTGCAGGTGTGAGCCACTGCATCCGGCCAACCGTCTACTAATTTTTGCTCATTCTTTGAGTAAAGATCCAGTTCT
TACACGAGCACTTCCTGATCTGCCCGAATCCTCACACACTGTGATTTCATCTCCTACTACTTTCCTTCTCACTTTTTCTGCAGCAGCCACAGCGACTTTG
CTATTCTCCTAGCAGGCCTGTCACACTCCCATCCTAAAATCTTTACTCAATATTTCCTTTTCCCTTTTCAAGTCTACTCAAATGTCAGTTCTCAGTGGGG
CCCTTCCTGACCACCAATATTTAAAATTGCAAACACTCTCCCAAAACACACTCATACACACTCCCTAGCAACTCTTCCTTGCTTTATTTCTGGCTAACAT
TTGTCATGCTAATATACTATATAAGGTGCCTTTTTATTTTATGTTACTTCACCCATCATAAGACTATAAACTCCATGAGGGCAAGGAGTTTTGATTGTTC
TTGTTTCGAGGAAGCTTATACTCTAGTTGAGGACACATACAGTGATGTGTTTTAGAGAAGATTAAATTGGGAGCACCTGAGTGGCAACCTTAGTTGGGTG
ACAAGGAAAGTCTCTCAGAGGAGTCAAAGTTTAAGCTGCTGGTGAGTGAAAGAAAGGAAACAGCCATATGAAGATGGTGGGGAAGAGCATTCCAGCCTTA
GCGAGCAGCTGCTGCAAAGTCCCTGAGGGTCTTGAGAATGCATTAAATGTGTTCAGGAAACAAAGGCCACCAACCAGTATGGCTGAAGCATGAGGGAAGA
ATGATATGACATCATGAGATTGGATGGCACCACCTAGGAGAGTAGTGGGAGAAAATCACCTCGGACAGCCCTGGGGAGATAAGACAACGCCAATAAATGA
GACTGAGAAGGGACAACCAGGGGAATTTGCTGAGAGTGGTGTCACAGATGCCAAAGAAAGAGAAACAGCCTGTGTGCCAAGTGTGCTGAGAGGCCAAGGA
GGACGGAAGTAAGCAATGGGCTTAGGAACATGGATGTCATTGCTGACTCTGACTCTGAAGTGTGTTGAGAAATGGGAGGTGAAGAACTGGTGGAAACCAT
GACTATAAAGATTTCAGAAAGGTTTGCTGTGAGGAGGAATGGAGAAGCAGCATTATAGCTGAGGAAGGAGTGGAGCAAAGGGCAGATTCAGGTTTTCTCC
TGTTGTTTTTTTTTTTTTTTAAAGAGAAGATACTACATTGGTGACTTTTAGACTTCTTTTTTTTCAAGTGACCTGCCATAAGAATTACATTTCCATTGAG
ACTTACTACACACATACTTAAAATTACGAAAACAAAAATTTTGACCAGGCACGTTGGCTCACTCCTGTAATCCCAGCACTTTGGGAAGCCGAGGCAGGTG
GATCACTTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAATATGGTGAAACCCTGTTTCTACTAAAAATACAATAATTAGCTGGGCCTTGTGGCGCATGCC
TGTAATTTCAGCTACTCGGGAGGCTGAGGCATGAGAATCGCTTGAACCCAGAAGGCCGAGGTTGCAGTGAGCTGAGATTGTACCACTGTACTCCAGCCTG
GGCAACAGAGTGAAACTGTGTCTAAAAAAAAAAAAAAAAAAAAAAAAAAATTGTACAAAACAATACTCCTGTTATGTGTAAAACAATCTACTTTTTCATT
TTAAAAAAATGCTGCTTATAGTCCACTAAAATGTTTGCAAGCCCCACTAATGGGCTGTGAGCTGAAGTTTGAAGAACACTGGGTAGTATGTTGGTGTTAG
CTCATACTGGCTTGTGACAGCCATTTTTGTACATAACTTCCATGTTGATACCTTGAAGTTATCCAGGGCAACTGCTAGAACTTAGGAACTTTTTCCCCCA
AAGAACAAGATCTTAAACATTTACCAGCACGCTACTGACTTTACTCATGTGAATGATCCGTGGAGAGGAGAAACTGATCATGCAGGAGAGGGGATGGTGT
TCCCAATAAAAGTTGCGAAAACCAGTTTCAGAACAATAGATACTGCCAATTATTTGCCACAACTGCCTGAGAGTTATGCAGATAAAAGGATCACTTCTGG
TAGGATCAATTTCTTTTTCATCTATATTGTCCTCTTTCCTTGCCCAAGAAGCCACATTTATATGGTATAATATAGCCACACATTTAGAAATAGTCTTTTT
TTTTTTTTGAGACAGAGTCTCACTCTATTACCCAGGCTGGAGTGTTGTGGTACAATAATGGCTCACTGCAGCAGTGACCTCCTGGGCTCAAGTGATCCTC
CCACCTCAGCCTCCCAAGTAGCTGGGACTACAAGTGCACACCACCATGCCTGACTAATTTTTTTTTTTTTTGGTAGTGATGGGGTCCCACTGTGTTGCCC
AGGCTGGTCTTGAACTCCTGGGCTCAAGCAGTCCTCCTGCCTCAACCTCCTGAAGTGCTAGGATTACAGGCATGAGCCACCATACCCAGGCAAAATTAAG
TCTTACAAGCAAAATGTTAAATTATATATATAGAGCCCACATTTTTTAAAAAACTAGTAAAAAAATCATGATTTTAGACATGAATTGTAAGCTCTTGCTA
CTTAGCAGGGTTAACTGATTAAACAGAAATAGATGCCATATTCTATCGACGTGAACCGTATTGTTTCAAGCTAAGGAATACTCTGGCAGTGATTTTGCTT
ATTGTTTTGTTGCTGTGTTACTTTTGTTAACATGATTGTAAAATTTTTGGACCCCCTCTCCAACCATCCATGAAATAGCGGTGCTAAGTGCTGGGAAAAT
GTGCTCCAACTCAATAATTTTGGAATACAAGTTAGATATGATAAAAGAGTATCAAGAACTTTAAAGAACTGCCTTGGTATGCTGTGAATTTAGAAACCAG
AACTCCGTCACAGAACCTGTGACAATAATGATAAAAAAAAATATGTGAAAGCAAAAATTTGCCACAATGGATTATACATTTGTGAGCGCCGAGAACACAT
ACCCTGCTATTCTCATGAGAAAATTAATCAAAATATGTAGGTTTTAAATTATGCAACATCTTCAGGAATGCATTCTTTACAAAACCACAATACTCACATC
CTTATACATACATCTGCTTCCCCAGGAAGTGTCATGGACGGTGTCTTCTACCTCTTCCGATTATCTTCCCCAATCTAAAGGAATTCATTTCTCCTTTGAA
TCCTCTTGCTTTGACCTAATCTCCCCTACACCCCAATACTAGCCCCATCCATGAGCACCAAACTCTTTTTTTTCACCCTCCAGACCCCCTATGATCTGAT
TCACCAGGCTTACCTCCGAAGTTCTACAGGATCATGTCCCAAATCCAGTCTTTTCAGGTGGGAGAAACAAGCTTCTAGAACTATGGTTTTGTCATAAAAT
AAAAGAATCTTAGTGACGAGAGGGATCTTAGGAGGAGTATAAATTAATTCATCTCAATAGCTCAAAGGATGAGATAGCCTATTTTGTGAAATA


SNP Information

Context             (SEQ ID NO:6016):
TGGGTTTGCAGCGAGGAGACACCCCAGGGCAAACAGCCTGACCCCAGCCAGGGATGTCCAAGAAAGGCCGCGACTCCTGATAATCCCTTATGCCCCGGAG
Y
GCCTCGCCTGCAGAGGCAGCGTCCCCGCCACCCAGCCCCGGCTCTGCCGCGGTGAGGACCGGCGGGTCGGGGTGGACTGGACACTGTCCCACCCATCAAA
Celera SNP ID:            hCV1653084
SNP Position Genomic:     6224
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,9)   total(C,9|T,2) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6017):
TCACATGACTTGCGCTTTGCAATGTTTAACACTGCAGTCAAATGACTCGGCATCCTAAAGAGCGTGTTAGAGGCAGGGAACGCAATGGAGGTCACTCCAC
Y
GTCACTACAAATTCCGGGAAGGAAACTTCCCCAGATTCCTCCACTTGGAGGTGGCGCTCGGCCTCAGGCTAGGAGGGAACAGGTGAGAAAGCAGCCCAGG
Celera SNP ID:            hCV27494771
SNP Position Genomic:     6018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Gene Number:                 44
Celera Gene:                 hCG2001591 - 30000034500474
Gene Symbol:                 C4B
Protein Name:                complement component 4B;C4F;C4S;CO4
Celera Genomic Axis:         GA_x5YUV32W6W6(5007878..5040611)
Chromosome:                  Chr6
OMIM number:                 120810
OMIM Information:            COMPLEMENT COMPONENT 4A;C4A


Genomic Sequence (SEQ ID NO:1705):
GCTGGCCGGGCGGGGGGGGCTGACCCCACCACCTCCCTCCCAGACGGGGCGGCTGGCCGGGTGGGGGGCTGACCCCCCACCTCCCTCCCGGACGGGGCGG
CTGGCTGCGTGGGGGGCTGACCCCCCCACCTCCCTCCCGGACAGGGCGGCTGGCCGGGCAGAGGGGCTCCTCACTTCCCAGTAGGGGTGGCTGGGCAGGG
GCGCCCCTCACCTCCCGGACGGGGTGGCTGGCCGGGCAGGGGGCTGACCCCCCCACCTCCCTCCTGGAGGGGGCGGCTGCCGGGCGGAGATGCTCCTCAC
TTCTCAGACGGGGCGGCTGCCGGGCGGAGGGTCTCCTCCCTTCTCAGACGGGGAGGCTGGGCAGAGACCCTCCTCACCTCCCAGACGGGGTCGCGGCCGG
GCAGAGGCGCTCCTCACATCCCAGACGGGGCGGCGGGGCAAAGGCGCTCCCCACATCTCAGACGATGAGCGGCCGGGCAGAGACGCTCCTCACTTCCTAG
ATGGGATGGCGGCCGGGCAGAGACGCTCCTCACTTTCCAGACTGGGCAGCCAGGCAGAGGGGCTCCTCACATCCCAGACGATGGGCGGCCAGGCAGAGAC
GCCCCTCACTTCCCAGACGGGGTGGCGGCCGGGCAGAGGCTGCACTCTGGGCACTTTGGGAGGCCAAGGCAGGCGGCTGGGAGGTGGAGGTTGTAGCAAG
CCGAGATCCCGCCACTGCACTCCAGCCTGGGCACCATTGAGCACTGAGTGAACCAGACACCGTCTGCAATCGCGGCACCTCCGGAGGCCGAGGCTGGCGG
ATCACTCGCGGTTAGGAGCTGGAGACCAGCCCGGCCAACACAGCGAAACCCCGTCTCCACTAACAAAATACGAAAACCAGTCAGGCGTGGCGGCGCGCGC
CTGCAATCGCAGGCACTCGGCAGGCTGAGGCAGGAGAGTCAGGCAGGGAGGTTGCAGTGAGCTGAGATGGCAGCAGTACAGTCCAGCTTCGGCTCGGCAT
CAGAGGGAGACCGTGGAAAGGATAATTCCACTATTACTTGTCTTTTGGGGTTTGTTTTTATTCTCTCTTTGAGTTTTGTTTCCTTATGCGCCCAGTTACT
TTTGAAAATGTTCTGGGCAGATTTGCCTAGATTAATAAATGCCCTCCATGTTCCAATTACTTTTTTTTTTTTGAGACAGTGTCTTACCCTGTCACCAAGC
TGGAGTGCAGTGGTATGATCTTGGCTCACTGCAACCTCTGCCTCCTGAGTTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGCATTACAGGCAC
CTGACACCACGCCCAGCTAATTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTTCAGTGGCATGATCTTGGCTTAC
TGCAAGCTCTGCCTCCTGGGTTCACCCATTCTCCCGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACTATGCCTGGCTAATTGTTTTTTT
TTTTGTATTTTTAGTAGAGATGGGGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCGGACCTCGTGATCCACCCGTCTCAGCCTGCCAAAGTGCTGG
GATTACAGGCATGAGCCACCGCATCTGGCCTATTTTTGTATTTTTAATGGAGACCGGGTTTCATCATGTTGGCCAGGCTGGTCTTGAACTTGAACTTCTG
ACCTCAAGTGATCCACCCTTAGCGTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCCGGCCCCAGTTATTTTTATTTTTATTTTTTGAGTTAG
AGTCTCACTCTGTCACCCAGGCTGGAGCGCAGTGGCATGATCTCGGCTCACAGCAACTTTCTGGGTTCAAGCAGTTCTCCTGTGTCAGCCTCCTGAGTAG
CTGGGACTACAGGCACACATCACCACGCCCGGCTAATTTTTGTAGTTTTAGTAGAGACGGGGTTTTACCATATTGGTCAGGCTGATATTGAACTCCTGAC
CTCAGGTGATCCACCCACGTCAGCCTCCCAAAGTGCCGGGATTACAGGCTTGAGCCATCTCGCCCGGCCTACTTAGATGTTATATTAGTGGTAATTCCTG
TTATCCTGTGAGCTCTTTAGTGTCTAAACAATTTTTTTTAAGAGATGGGGTCTCACTGTGTTGCCCAGTTGCAATCATATCTTACTGCAGCCTCAAACTC
CTGGGTCAAGTGATCCTCTTGCCTTAGTCTCCCAAGTAGCTAGGACCATAGGTGTCTGCCCCCACGCCTGGCTGTTTTTACATTTTTTGTAGAGATGTGG
CGGGTGGGGGGGTCTCACTGTGTTGCCCAGACTGGTCTCGAACTCCTGTCCTCAATTGATCCTGCTACCTCAGCCTCCCAAAATGCTGAATTACAGGCAT
GAGCCACTGTACCTGGTCTTAAACAATTTTAAAATAACATTTTTATCCAGGATTTTAGTTAATTTTCAACAGGTGGATTAGTTCTTGCTGTATTCTCGTA
AACAGAAGTCCTGGTTTATTTTTATTTGTTTTAAACATTGAATCCCATACTCCTCCCCACCTTACCCTACCCAGAATTTAGACTGTTAATGTTTTGAAGC
CACAGCCTGCATCTTAATCACTATTTTATCTTAGTGCCTGGTCTTAGAAATTATATTGACTCTTTGATAGACCATATATAAGGCAGGTGGATGAGAATGT
GGGTAGCTAGTTGGAAAAGGCTGCTTGGTCATTTGCTTGATTATTTTCTCACACAGTTTTTCCTTTACTAAGAGAAAATGCCCCCATATTGGCAAACAAA
ATCTCCCTGCCTGAGAGCGCCCAGAGTATAGCAGAGCATCTTACCCTGATACGCCTCTTTTCACTCTCTTCTCTGTGGAGACAGAAGGAGCTTCAAGAGC
AGGGGGAGATCAGAATCGTCCAGCTGGGCTTCGACTTGGATGCCCATGGAATTATCTTCACTGAGGACTACAGGACCAGAGTATGTGACTGTGTGCGTCA
GGGGTGCTGGGGGGAGGGCACAGGTTGGGGGAGACAGGGAAGTTGGGAAACAGAAATAAAAACAAAAGAAAGAATTTCCCTGCCCCCACATCCCATGGAG
AGGGCACAGGGCCCTGGTAAATAGTAATATGAGGGAGAGAGACAGGAGGGAAAGAGGGAGGAGTGAGAGGGTAAAGAGGGGGGGAGAGGAGGGGGAGGAG
GAGGAAGGAAGGAGGGGGAGGAGGAGGGGGGGAGGAAGAGGGGGAGGAGGATGAAGAGGAGGAGGAAGAAGAAGGGTATGAGAGGTGGAAGGATCTGAGC
AAGAGGTAAGACAGGAAGAGAAATGCTGTCCTGGGGGTGGAGGTTGGTAGAGAGTGAGGGTGGGGATGGACCATGTCTCTCATCTCTGCTTGTAGGTCCT
CAAGGCCTGTGATGGCCGACCGTATGCTGGGGCAGTGCAGAAATTTCTAGCTTCAGTACTTCCAGCCTGTGGGGACCTTAGTTTCCAGCAGGACCAAATG
ACACAGACCTTTGGCTTCAGGGACTCAGAAATCACGTGAGACTTGTGGAACCAACCAAAGTCAGGCATCTGGTGCTTCCCTGCCTCCCTCCAGTTCCATC
CAGCCTGTCCTCCTGTTTTTTTGGTGAACCTGCCAGAAAAGCTGCCAAAAAGCTGACTCTTCTTTTTAATAAAATGACCCAAGTTTGTATTCCTCCCCAC
AAGAGAGGAGGCCTATCTTACCTGGGCCTTAGAAAGAGCCCTGAAATAGAATTCAGTTCTTGGTGGCTTATCAAAAGCACACAGGGGCCTGGCAGGAAGT
GTAAAAGCTTGATGTTAATCATACTGGGACTAAGAGGATAGAGAATGGTAGGAGCTGGGATACCCCTAAACATTCACATTAAAACAAAAAAAACCCAAAG
CTAAAAAACAACTGGGCAGGAGCTAAATAAAAATCTAATTTTGAGAGGCTGTATCTGGCTCAGGCCTCCTACTTTGTAACCCATGGAATATGTGAAAGCA
TTTGAAAAACTATAGCACTGATCTCACATGGGCAGACACACTCTCAGAGAGATGTGGTGGGAGCCATGGCGCAGTCTGCCTAGGCAGTGGCAGGAGCGCA
GAAGACTCTGATTCCTCTCCTCGGTCCTAAGACCGAATGTGTGTCAGGACATGTGGTCAGGGAAGAGAAGCTATTTAACTGAACCAGTAATAGTAGCAGG
AAAAGAAAAAGTGGAGGGAGGGCAGTCCAGGTAGGGGGCCTGGAACAAGCAACTGCACCAACAGAGGCAGTTGGTGCGAGCACAGAACCACCCCAGGCTG
GGATTTTGTTATCCAGTCTCTCTTGCATGGTTGCCCGTGTTTCTGGAGACTTGTGTAAACATTAATGGATGAGGAGGAGAGATGGTTCTCAGAGCCCAGC
CCTCATCTCTGCTGGCTTCCCACTGCCCTCAGGCATCTGGTGAATGCTGGAGTCCTCACCGTCCGAGATGCTGGGAGCTGGTGGCTAGCTGTGCCTGGAG
CTGGGAGATTCATCAAGTACTTTGTTAAAGGTATCCCATCTGCAGCTCAAGCCTGCAGCCCCTCACCTTTTGGTGGCTCCTCAGGCCTCTAGGCCTTATT
CACCTTTCCCCTTTCCTGTGCCACTTCTCCTCTAGGGCGCCAGGCTGTCCTTAGCATGGTCCGGAAGGCAAAGTACCGGGAACTGCTCCTATCAGAGCTC
CTGGGCCGGCGGGCGCCTGTCGTGGTGCGGCTTGGCCTCACCTACCATGTGCACGACCTCATTGGGGCCCAGCTAGTGGACTGGTGAGTCTTTCCCTGGC
CTCTGGCAGATTATGGAGCAATGACCCAAAGTGGGATTTCCTCCCAGCTCATGCTTAGTTTCCTAGTGAAGGCCAGTGGCTCTCATTCTTCTCTGGAACC
CGGGAGCACCCCTTCCCAAGTTCTAAGTTCTCCTCACAGCTTGAGCCTAGGCGTCTGGCTCCAGCCTTGTCTTTCTCCTGCACAGCATCTCTACCACTTC
AGGAACCCTCCTCCGCCTGCCAGAGACATGAAGATTCTGCTCATCATTGCTCAGCTCCTCAGAGTGGGCCGGGAGGGGACTAGAAGAGCTGCATGATGGT
GGCTGAGACAGGGTCACCTTGGGAAGGCTTGGGAGCCAGGATGAGTGTCGGGCTCTCGTGTGTGCAAAAGGTCAGATGTGACTGCTGCTGTTTGCCTGGT
TTCTGACCCAGTGGTGGGGTTTGAGCAATGCTTCTCTGCCCTTCCATGGAAAGTGGAACCAGAAATGGTGCCAAGGCTGTGGCTGTTCCCTTTCGTGTAA
AATGGTGCTGTTATTACTCTGTCTTGAAATAGGAAGGTGGGATTTCTGGGGAGGCTGGTGAAGGAGGGCAGGGTTCTTTTCTCTACGTGTCATGTTAAAA
TTGCCAAATAAAGTACCTCTGCCTGTGATATTTTCTGGATGTCCTTTATTTACTGTGACGTGTGTTTGGGTGCCTTGTTTAGGGGTAGAGGTGAAGTCTG
AGCTTTGCCTCATTCAGAGAGGAAAGGGGTCAGGGGTTCACTCTGACGTTCAGGCCATTCTCCCTGTGGAGTGGTGAGGGTGTACCTAATCTCCTAAACC
ACGGAATTTCTGTTAGGGCCTAAAAAAGCAAAAGCCTAGTATAGTTCAATTTGTGTTGGAATGAAAGTAAGAGACAAGTGTCTTAGAAGCCTGTCATTGT
TTTGTGAGGGCCTTTAAATATCCTGTACTCGTGGGCCATGTTGGGCCCTTGTACGCCCAGGTATACATGAGCTTGTGTGCACCTATACCCTGATACAGAT
ATACCTGGTAGGGGGAGGTGCTCAGGCACTGGAATGAGAGGAGTTAACGGGGAAGGACAGGGTTATTTCTGGGCCAAGATTCAGAGTTTCCCATGGACAC
CCAGGTGTCCGGGGTGCCCCCACAACTCTGGGCCTGAGGCCAGTTGCACTTCTTGGCTGTCACGTGGTTTCCCAGCTTAGCTGGGCTGGGGGAGGAGCAA
GGTCCAGAGTCAACTCTGCCCCGAGGCCTAGCTTGGCCAGAAGGTAGCAGACAGACAGACGGATCTAACCTCTCTTGGATCCTCCAGCCATGAGGCTGCT
CTGGGGGCTGATCTGGGCATCCAGCTTCTTCACCTTATCTCTGCAGAAGCCCAGGTCCTGGAGGCGGGATGCTGGGTGCTTGGATTGGGGCAGGGCTGGC
ATCGGGACCCGATTCAGGAGTGAGGGAGAGCAGGGGTGGAGGTGTCAGAGCGAAGTCTGACTGCTGAWCCTGTCYKYTCTCCCCAGGTTGCTCTTGTTCT
CTCCTTCTGTGGTTCATCTGGGGGTCCCCCTATCGGTGGGGGTGCAGCTCCAGGATGTGCCCCGAGGACAGGTAGTGAAAGGATCAGTGTTCCTGAGAAA
CCCATCTCGTAATAATGTCCCCTGCTCCCCAAAGGTGGACTTCACCCTTAGCTCAGAAAGAGACTTCGCACTCCTCAGTCTCCAGGTAACCAGACCCCAT
GCCCTCCTGCTGCTTGTGGGGGCCTCCTGCCCTGTTCCCATCTGTCTTGTAAGTGTCATCATCTTCCCACTGGCCTCCTCCCCTCCTGTCTTCCCACCCT
GGCATTCTCCTTCCACGTTTCTCCCTTGGTCTCTGTCCTTTTTGGTCAGCTGTCTCTTGCTCTGTGACCCGCTCCCTCTCCCTCTCCCTCTCCTGACAGG
TGCCCTTGAAAGATGCGAAGAGCTGTGGCCTCCATCAACTCCTCAGAGGCCCTGAGGTCCAGCTGGTGGCCCATTCGCCATGGCTAAAGGACTCTCTGTC
CAGAACGACAAACATCCAGGGTATCAACCTGCTCTTCTCCTCTCGCCGGGGGCACCTCTTTTTGCAGACGGACCAGCCCATTTACAACCCTGGCCAGCGG
GGTGAGTCTCAGCCCCAGGGCCTCAACCTTTAACCCCCTCCGAGCCCTCTCAGGATGAGTTTGGTGCCCCCTAAGTGAGATAACCTGAAAGAAAGTGCCA
CACAGAAGGGGTGCTTAGGAAACATTTGTCCCCTGCTCCCTCTGTGGAGTTTGACCCACCCTCCCCTTGCACATGGACCCCTGCTCACCTCTCTCCTCCT
CCACTCCCAGTTCGGTACCGGGTCTTTGCTCTGGATCAGAAGATGCGCCCGAGCACTGACACCATCACAGTCATGGTGGAGGTGAGTCCCCGACCTCTGG
MCTTCCTGATCCTGGCCACTGATGTGACCTCCTGCCTGTGAGCACTTCTCCCCTTGCAGAACTCTCACGGCCTCCGCGTGCGGAAGAAGGAGGTGTACAT
GCCCTCGTCCATCTTCCAGGATGACTTTGTGATCCCAGACATCTCAGAGTGAGCGCTCCCAATGTGGGGGCTGCCCCCAAGCTACACCACCCCAATTCCT
GTTAGGCTCTCCACCTCCCACACAGAGGCACGTCCCCAGATGCCCTGACCCTCAGCCTCCTGAGCCTCTGGTTAACCCCCACAGTCCTCTTCCCAGGGAA
GCAGGCTGCTGGCTCTCCGTGCCCCACTGTACAGATGGGCTGAGCCCCTTCCTTGTCCATTCTCAGGCCAGGGACCTGGAAGATCTCAGCCCGATTCTCA
GATGGCCTGGAATCCAACAGCAGCACCCAGTTTGAGGTGAAGAAATATGGTGAGAGCTGGAAACTGGAGGGACAGGCAGCTGCTTTCCTGAAGGAAATAA
GGGTGGAAGGAGAGGTACTGGGAGCAGCTCAGGGCAGGGAGATATGGGTGCCACAGCCCTGAGCAGAGGGGAGTCTTTGAGCTGGAGTCTGACCTGCCTA
TCCCTTCACCCTGGGTCAGTCCTTCCCAACTTTGAGGTGAAGATCACCCCTGGAAAGCCCTACATCCTGACGGTGCCAGGCCATCTTGATGAAATGCAGT
TAGACATCCAGGCCAGGTAATACCTCCCTCCCCACCTCTGCCCACCAGCACCGGGTCCTGCTCCCTACTCAGTATGAATGGGCTCCTGCTTCCCTGCCCT
CGGGCCATTATTCCCCCCAGCCCTTGGCCCACCCTCTTCTCTCTGCCACGACAGGTACATCTATGGGAAGCCAGTGCAGGGGGTGGCATATGTGCGCTTT
GGGCTCCTAGATGAGGATGGTAAGAAGACTTTCTTTCGGGGGCTGGAGAGTCAGACCAAGGTAGGAAGGAGAATAGGGGCTGGGGAGGGGAAGGGGCAAG
GGAGGTGAGGTGGGAGACTCAGTCTCACCCTATGTCCTGTTTCTTTCTATGCCCCAGCTGGTGAATGGACAGAGCCACATTTCCCTCTCAAAGGCAGAGT
TCCAGGACGCCCTGGAGAAGCTGAATATGGGCATTACTGACCTCCAGGGGCTGCGCCTCTAYGTTGCTGCAGCCATCATTGAGTMTCCAGGTGGGTGACT
TTCCCTTATTGTAACCCCAGACCCTTGCCTCTGACCTCTGAGCTAACCCTCTGTCCTCCRGCACCAACACCACCCCACTTCTCACATCTCATCTCAGACT
CAAAACCAGGAAACACCCAGGAGACCTGGTTTCTCTCCAACTCTGTCTCTGTGACTCGGCCCTTTTCCCTGGCTGAGTTTATTTATTTCTTTGCTCGTTC
TGCTCATTCCTTCACTCCTCCAGTGGACATGTGTTGTTCAATGCCCCGTGCTAGGCCTCAGCATGCACAGACATGTTGGGGACCAGCCTCAACGCCACCC
GTAGGGTTCCTGAAGTCCATTGGTGACACAGGAATGAGAAGAGACAGGTTAAGAGTTCATAAAGAGTGGGGGCCAGGGGGCCAATTGCAAAATGGAGGCT
GCAAAAGGCTCAGAGCTCTGGTCTCCACACTATTTTTTGMGTACAGTCACTCAGATCTAAGAAGCAGATGTTCAGGGAGAAACAGTGAAAGGGAGGCAGT
GGGTCATAGGCGTAATCTATAGCAATASAGTTTTAAATGAATCTCCTTTGTGCTCAAACAGCATGTCTTTAAATTATCGGAGAGTAGCTGGTGGAAGTGG
GCTTAGCTAGRAGACTGCATGTCTGTCCAATGCTTCAAAGGAGGGTCTTTCTCCTTGAACACAGTGTTTACAGATAAGACAGGGGGTCTCACTCTGAGCA
TGGGAACATGATGGCAATTAGGAGGCTTTTCTTCTCAGAGGCCTCTTGTGGCTTTCCACAAYTTATTGTCTCATATTTTTATGGMCAGTTTATACAGGCA
CCCCACAAGTCCTTTTCCCAACATGCCCCCCTCCSTTTTTTTTTTTTTAACCGCTATTGCTATTATGGCTTATTTGTGGTGTTTGGTCTGTTTTCAGAAG
TGTCTTTTGCATCTGTAGACTAAAAGTAAACAGCATAAACAGATACACATTAAAGTAAAATTTGTAATAGTTGATCMTTTAATGGTCTTAATCTGTTTAA
GAGGATTTATRTTTGAAAGTCCGTCAGTAGCTCCAATGAGAATGTCAGTCTCAGGCAGGAGGGTTAAATGAGCCTGAGATGCTTTAAAAACCTGTTTTTT
TAAAATTTGGTTATATTTAATGTTAAATTTTTATTTTTTTCTTTTAGATGATGTCTAACTTTTTAAAAATGATGTTTAGTAGTATTATACGAATGGGGAG
TTATGTAGAAATTGGAAGTATTTCAATTACATTGTACTTCTAATTGATGTTTTAAGTTTATTGTACGATCTTCCATTTAAATAACAGTCTGTCTAAGATC
ATTTGTTTGATTTGTCAATTGTTGGTCTATTTGGGTCTGAGAATTCCACAATTTTGAGGAATTTTTTGTTAACTATTTATATATTTTGTAGTTTGAACAG
AGGAGTGTAAAGCAATTCCAGCAGCCGCAGCAGTAGCTGTGACTGCAATAAGGCCCATAAGACTGTTATAAGGGTAAAAATAAATCTCTTTGTTTTGGTA
AACACTTTTTTTTAAAACATTTTTGTGACAATATGAATGGAAGGAGAGGCTTTCTAAGGTCTATTGAGGGAAACCAGTATCCAAACTCCTTTCTTAGTTT
TTATCAGTAACACAGATGTTTTTACACCGAACGTGGAATTAATACAGGTGAAAAGGTGACAGTTTTGACAAGTAATAGTTTGAGAATTAGGTCGAATGTC
AATATTTTTGACCATTAACATAAAAGGAGGGTTGACACAACTCTGAATGGGCACTGTTTTGTTGGAAGAAAACTGATACGCAAATTGAAGTTTTTAACCT
TTTTTTTTTAAAGATAATATATTTTTTTCTAAACTTAAATATGAGATTGGGCCATTATTAACTTTCATAATTTGGAGTGTTTAGGGCCTATTATTGGATT
AATTATTTTGGGATGTGGGCCAGCTGTACTAAAATTGGTCCAAATTATGGGAAAATGAGCACGTTTTTCAGTGTAAGTAGTGTTACCTTTTTGATAGTAT
AGTTTCTGTTTTAGTTTTGTCTTGTATTTATTATTTTGATGGGTACAATTAACTGTAAAGGTCCCCTCAGGGGACCAATTAATGACAATTTCATAGGAAT
TATTTTGTAGTACCATAGTGTGATCAGAGATGTAATTTTTTTTAATTAATATTTTTAAATTATTTGACCATTGTTAAGGTTGTTGGCACCTCTTTTTTGG
GGGCTTAAACTGTTAATTGAATTGAACTCTGTGAATGATCCGGGCTCCATCCAGAAAATAAATGATAGGATACTGGTCTTTGATTATGACCTGGAATTTT
AACTAGTCAATGTTGTCGGTAGCCTTTTAGGCAACCGATAGTTGGCCTTATGTAAAGAGGGGGGAACTGATAACCTATGGACACATTTATTAACTTTTTT
TTTTTTCCTTTGGGTGAGAGGGCCCATGAGTATTTGTAGGCTTAGGGATCCAAACGCTATTATTAACATAAACTTCAACTGGGGGTTTTAACCATGTGAC
AGGCCTAATTAAAGGCAGGAATGGGACACATGCCCAATAGGTATAATTTTGGGCTGTTGTAGCCACAGGTTTGTTAGGCGAGGAGGTCACTGTTTTTATT
TTGGCTTTGTATTCTAGGATTAGTAAATAACAGAAGACAAACATGAGTATAATTAGTAACTTTTTTTTTTAGTAAAAGAGTGACCTGTAGTGTTACTTGG
CATCTTAGTTTACTATATGTTATTAATGAGGAACCCCACTGGGGGTATGTTAATTTATTCTAGCTAAGCAGTTATGTTATTAGAAGCTGAGAAGGGGGTG
TTTGTTAAAGTAACAGGGCAGAAGAAAGGCGGATTTAAGATACGAGCTTAATACAGTGTAGCAGGTATAGGTAGTAGGCAAAGTGAGAGAATTAAAAATG
AATAAATTATTTGGCTTAGACTTTTGTTTTTTTAGTATAATGTCTGAGGCCTGTGTTGTTTGTGGAAGTCGCATTGTTGAGGCTGTAGTTCCTGTAGGGT
CTTTTTTAGGCTGGTTCAAATGTTTTTTTATTTTTTAATTTTTTATCCTTTGATGAGGATGTAGTCTTTAGGCTGGTACTGGAAATTTTAGGAGTGGCGT
CTGTGTTAAGAGACTTTTTACAATTTTTAAAGAGCAGGTTAGTGTTTTAAGAAAAACTTGTGTTTTATTTTAATGTTTAGTTTATAGAAAACTGGATGAT
ATCTTTTTAACTTTAGTAAATAYGTTTACACACGGAATTTTTTACAATTATCATTTTAAAACTTGTTTAGATCTTTAAAACAAAATTAAACAACCTTTTT
TRTATAAATTTTTTATAACTTTTTTTATGACTTTTACAGACAATTTTTAACATGTCTTAACTTTTTATGTTTTATAATTTTTTTACTAAAGGTACATTTT
TATAACTTTTTAAATTTTTTTACTTTTTTGTATTTTTTTGATTTTTGTCTTAGTCTTTTTTTTACTTTTATTTTTTTAAATGTGTAATAATTAGATGAGT
GTTGGTAACAATGGATRTATGTACATATTTTAGTTTTTAAAATTTAGGGATGTGTTTAACATCTGTTTGCCAGAACTGACTAGGTTCCAATTCTTTACGG
TTAACACCTATTGAAGGAGGGTATGTGCCTGTGAGCTGGTAATCTGGGCATTGTGGGATAATTTGTTTAGCCAGCCTCTGTGTAAGTTGAAATTATTTAG
ATAAGTTTCTCCAATTTTGGTGGAATAATCGATGTGATTGGGTGGCTTGGTCAAGCAGTGATGTCATAACCTGAAGGTCTGCTTGATTATTGCCGTAAGC
CAATGGGCCAGGCAGAGAGCTGTGGGCTCGAATGTGTGTAATAAAAGTAGGATGTGTACCTTGGTCTAGTAATTGTTGAAGTTGAAGAAAAAGACCACAC
AGAGTGGGCTCCAGAGCAAACTTAAGGCTGTAATAGTTTTTAAATAAATACACAGAATAACCTTAGCTCTCTGAATGTTAGTAAATTCAGATCAAGTGAT
TGGATTATGTGGTCTCCACCAGACTGTTGCTTTTTCATGTTTACCAGACCCACCAGTAAAAACAGCTATGGCTCCTTCCAAAGGGGCATCACAAGTAATT
TTTGGAAGAACCTATGTAGTTAATTTTAAGAATTGAAAAGTTTTTAGGATAATGATTATTAATACATCCAACAAATTTTGTTAAATTAATCTGTCATGTA
ACTGAGTTAATAAATGCCTGTTTAACCTGATTTTTATTTATTGGAACTATAATTTTTATTGGGCTCAGTGCCACAAARTTTAATAATTCATATATGAGCC
TGTCCAATTAGAATTGCCATCTGATTTAAGTAYACTGTAAGTGCTTTTATGGTATTATGTGGCAAAAAGGACCATTTAACTAAATCATCATTTTGAACAA
TAACCCCCATTATTGTGTGGTTAGTGTGAAGTAGGGAACACAATGAATTATAAAGGCAAGTCTGAGTCAATCCTACTGACCTGGGCTTGCTGAATTTTGT
TTTCAATTACTGATAACTCTTTCATGGCCTCGGGTGTTAGTTCTCTGTTACTGCGTAAGTTGGTATTTCCCCTCAATATTGAGAAGAGATTAGACATAGC
ATAAGTAGGAATTGCTAAATTGGGCCAAATCCAATTAATATCTTCTAACAATTTTTGAAAATTATTTAAGGTTTTGAAAGAATCTCTTCTAATTTGAACC
TTTTGAGGCTTAATGGCTCTATCCTGTACTTGTATTTTCAAATACTGAAAAGGAGTGGTTGTTTGAATTTTGTCAGGTGCTATAAGTAATTCAGCATTTG
TAATTGTCTTTTGCAAAGATTAATAATATTGAATAAGTTGGTCTCTACTTTTTGCTGCACAAATCTGGAAACTGATCTCTAACAGGCTGGAKAGTTCTGC
CTACAAAAGTTTGACAAACTGTGGGACTATTTAACATACCCTGGGGCAAAACTTTCCAATGATATTTGGCTGCAGGTTTTTTGTTATTAACRGCAGGAAT
GGTAAAGGCAAATTTTTTGAAATCTGCCTCTGCTAAAGGAATTGTAAAAAAGCAGTCTTTTAAATCTATAATAACAAGCGGTCAGTCTTTAGGGAGCACA
GTGGGGGATGGRAGCCCAGGTTGTAAGGCTCCCATCGGTTGAATTACAGCGTTGACGCCATCTACCGGACTTTTTCTTAATTACAAATACTGGGGAATTC
CAAGGAGAGAAAGTGGGTGAAATATATCCTTTTTTTAGTAGTTTATTTTATAAAGCACCCCCAACTTTTCCTTAGGGAGCGGCCACTGTTCAACCCAGAC
GGGGCGCCGGGTCATCCATTTTAAGGGAAATTGCTCCTTCACTGTAATAACTGTAGGGTGAACCTGAATTGCCCCATCTCCATAATGAACTGTGGGTCGG
GCAATAATGGGCACGGTGAGCCAAGTCTCGGGCTCCCTCCCCCTGCACCCACTCGGCTGAGGAGGAGGTGGCCATTCTGGACATTYCTCTACAGGAACCG
TGGGCTGAACAATTTTTTGAGTAGGTTTAGGGAGACTGGGGAGATTGGCATAAATCATCTTCAGACTCTCCTTTTTGTTAGTACTCGGTAGAGGTGGTTC
AGAGTTCTGATTATCAAACTCCTCTCTCTCCTCCTCTGACTCAGCCTCATTATCTGTCTGAAAAGGCTCCAGTGCTGCATGCACCAATGACCAAAGCGAC
CAAACAGGCAAAGGAATTTCCTTTCCTTCTCTATATGCTCTTTTAAGGTCCTTTCCAACTCCTTCTTAATGTTTTAATTTCAAAGTTTCCTGTTTTGGGA
ACCAAGGGCAAAATTGTTCCATAGCATGAAACAAATCCATAAGATTTTCCGTATCAACTTTTACCCCACCATGCATGCTTGAAGAGCTGCCGTAGGAAGC
TCAAATACGTGGTGTACTTACTTTCAGTTTTTCCCATTGTGTCCCTAGCTTTCTCTGGGCGCCCCGCTTACCTGTAGAGGTTAAAACTTTTATGTCCTTG
GGAGTCCTTTGTTCGTTGGTCCTCTGTTTCACATGCTTGAGCGTTTCCTCACCAGATTCTTTTGGGCCCCACGTTGGGCGCCAGAATGTTGGGGACCAGC
CTCAACACCACCTGTAGGGTACCTGAAGTCTGGTGGTGACAAAGGAATGAGAAGAGACAGGTTAAGAGTTCATAAAGAGTGGAGGCCAGGGGGCCAATTG
CAAAATGGAGGCTGCAAAAGGCTCAGAGCTCTGGTCTCCACACTATTTATTGAGTACAATAACTTAGATCTAAGAAGCAGATGTTCAGGGCAAAACAGTG
AAAGGGTAGCAGTGCGTCACAGGCATAATCTACAGCAGAAGYGCTTTAAATGAATCTCCTTTGTGCTCAAACAGCATATCTTTAACTTRTCGGAGAGTAG
CTAGTGGGAGTGGGCTTAACTAGGAGCCTGCACGTCTGTCCACATTCCAATGCTTCAAAGGAGGGTCTTTCTCCTTGAATACAGTGTTTACAGATAAGAG
AGAGCAGGTCTCGCTCTGAGCATGGCAATTAGGAGGCTTTTCTCCTCAGAGGCCTCTTGTGGCTTTCCACAACTTATTGTCCCATATTTTTATGGCCAGT
TTATACAGGCACCCCACAAGTCCTTTTCCCAACACAGACAGGAATACGGCAGCCTGYGCCCTGGGAGCTCACTGTCTTGTGGGAGGGAACCACTCAAGCC
ACTCCCYACTTGTCCTCCTGTCCCTCTCTTCTTGGGCTCTGTCCCCCACCTCTCTCTGTCCTTTGTCTTGCAGGTGGGGAGATGGAGGAGGCAGAGCTCA
CATCCTGGTATTTTGTGTCATCTCCCTTCTCCTTGGATCTTAGCAAGACCAAGCGACACCTTGTGCCTGGGGCCCCCTTCCTGCTGCAGGTTTCTTCCAG
AGGGGAASGATGAGTAGGGAGGATGTGGTAGTTAGGAGGGCTCAGGGTCTGACCACTCTCTTTTGCCTGMCCTCCTTTACCTGMCTAGGCCTTGGTCCGT
GAGATGTCAGGCTCCCCAGCTTCTGGCATTCCTGTCAAAGTTTCTGCCACGGTGTCTTCTCCTGGGTCTGTTCCTGAAGTCCAGGACATTCAGCAAAACA
CAGAYGGGAGCGGCCAAGTCAGCATTCCAATAATTATCCCTCAGACCATCTCAGAGCTGCAGCTCTCAGTAGGAYTCCTCGGMCCCCTGGGAGATGGTGG
GGGAAGGGGAGGAGGGTGAGCTGGGGTCCCAAGGATCCATGGCCTGACTTGGGGGGAAGGTGGGGTACTTGGCTCTGAGCTACTACCCTATTCGCACCTG
ACCCCCTCTCCAGGTATCTGCAGGCTCCCCACATCCAGCGATAGCCAGGCTCACTGTGGCAGCCCCACCTTCAGGAGGCCCCGGGTTTCTGTCTATTGAG
CGGCYGGATTCTCGACCTCCTCGTGTTGGGGACACTCTGAACCTGAACTTGCGAGCCGTGGGCAGTGGGGCCACCTTTTCTCATTACTACTACATGGTGT
GCATGAGCTGGGGAGTCAMGGAGGGCTGGGGTGCAGGGAAGAGCCCTCTGGGTGGGGCTGGGGGGGTTCAAGGCTGAGGCTGTCCCATGAAGAGGCAACC
ACTCTTGTCCCTCCCATTCTTGGCCCAGATCCTATCCCGAGGGCAGATCGTGTTCATGAATCGAGAGCCCAAGAGGACCCTGACCTCGGTCTCGGTGTTT
GTGGACCATCACCTGGCACCCTCCTTCTACTTTGTGGCCTTCTACTACCMTGGAGACCACCCAGTGGCCAACTCCCTGCGAGTGGATGTCCAGGMTGGGG
CCTGCGAGGGCAAGGTGACCGGGGTCAGGAGAGATGGCACTTGTGCCGAGGGGGTTGAGGACAGGGTGATTGCCAACAGGGCATGGATTTAGCTTGGGGG
CAGTGAGGATACCGGGACTGAAGGAAGCTCTCCCACTCTGACCGCCCCCACCTGCCGCCCCTGCCAGCTGGAGCTCAGCGTGGACGGTGCCAAGCAGTAC
CGGAACGGGGAGTCCGTGAAGCTCCACTTAGAAACCGACTCCCTAGCCCTGGTGGCGCTGGGAGCCTTGGACACAGCTCTGTATGCTGCAGGCAGCAAGT
CCCACAAGCCCCTCAACATGGGCAAGGTTTGTCCAGACCCTCTCCACAGCTCTCTCACCCCTCCATGGCTCATCCCCCTGCTTCCCTGAGCCTTGGGCGC
AGCCCCTGGATCCCACTGAGGCTCCCCACAGTCTCTTCCCCACTTGGCCCTGTGGTCTCCATCTCCTGGCTCTGTATCCTTTCCTATCCCCCCATGTGCT
GCCCTCTCACCTGTGCCGAGTGCTCAGTCCTGCCCCTCAGCCACACTTGGCTCCTAGCATTCCTGCCTTTCTTGCAGGTCTTTGAAGCTATGAACAGCTA
TGACCTCGGCTGTGGTCCTGGGGGTGGGGACAGTGCCCTTCAGGTGTTCCAGGCAGCGGGCCTGGCCTTTTCTGATGGAGACCAGTGGACCTTATCCAGA
AAGAGTGAGAACAGAGAAGGAAGGGGAGTGGGTGGCGGGAAGATAAGGAAGGAGGAAGGGCCTGAGGGGACCAGCTGGAAGAGTCCGGGCAGGAAGGGCT
GGGCAGGGGAAGGGGAGGAGGGGAGGAGGCCGAGTGCCTGACGGCTGGACTGCAGCCTTTCTCTCTACCAGGACTAAGCTGTCCCAAGGAGAAGACAACC
CGGAAAAAGAGAAACGTGAACTTCCAAAAGGCGATTAATGAGAAATGTGAGTTGCGGGTGCCTAGGCAGTAGCTTGGGCTCTCCACCTGGGATCCGGGTT
GGGGGTCTKCCTCTCTGCCCCTCRGCTCCTTGCTGAACCCACGTGTGGTATTTGGGGCCAGAGATCCGAATTCCGGGATTACGAGTGGAAGGTGGGCAGC
TCTCTCCAGCAGCCTCTCTTATGTTGCTGGTCTCAAGGGGTCGGGGCGGGKGCTGAGGTGTATGTCCTTTTTGTCCTCTCATGCTCACCCCCACCTGGCC
CTGCAGTGGGTCAGTATGCTTCCCCGACAGCCAAGCGCTGCTGCCAGGATGGGGTGACACGTCTGCCCATGATGMGTTCCTGCGAGCAGCGGGCAGCCCG
CGTGCAGCAGCYGGACTGCCGGGAGCCCTTCCTGTCCTGCTGCCAATTTGCTGAGAGTCTGCGCAAGAAGAGCAGGGACAAGGGCCAGGCGGGCCTCCAA
CGAGGTGAGGGGCTGGGTGGGGCTAGGGCACAGGTGGCGGCGCTTGGAAAGGCAGAACGGTCCCCTCCTCACTCCCGTCCACCGTGGTCCCCCAGCCCTG
GAGATCCTGCAGGAGGAGGACCTGATTGATGAGGATGACATTCCCGTGCGCAGCTTCTTCCCAGAGAACTGGCTCTGGAGAGTGGAAACAGTGGACCGCT
TTCAAATGTGAGAGTGTGTGCCGGCCCGGCCTTTTCTCTGTGCTGTGTCTCGGGGCCAGCCGGGGTAGACGGGCCTTCTCTGCCTTTCCCTACACAGATT
GACACTGTGGCTCCCCGACTCTCTGACCACGTGGGAGATCCATGGCCTGAGCCTGTCCAAAACCAAAGGTGATGTCACCCTGTCTGGGCCTCAGGTGACC
CYGMTTCCATTTCCCTGTACCCCAGCTCCCTGTYCCCTTTGCTCTTAGTGTAGGAAGAGGGTCCAGTGATCTGGGGAGGTCTGTGYCAGCGTGCAGMTGG
CGTGGGCCRGAGGGCAGAGGCRGACTGAGACAGAGCTGGGTCACCCCCACCCCTCCCTCCTGTGGCCCTGAAGCTTTGATGGCCCCTCTRATCTCTGCCC
CTGTGCCCRCGCTTCCYTTCCCTCAGGCCTATGTGTGGCCACCCCAGTYCAGCTCCGGGTGTTCCGCGAGTTCCACCTGCACCTCCGCCTGCCCATGTCT
GTCCGCCGCTTTGAGCAGCTGGAGCTGCGGCCTGTCCTCTATAACTACCTGGATAAAAACCTGACTGTGAGGCCCCATRGGAGCCTGAGCATACAGGAGT
TGGGGGAGCCAGGGCCCAGTGAGGGGTGGGGAGGCTAACCGGGCCAGGACTCTGGCCATCCTCGTTTTCCTGCCCTCAGGTGAGCGTCCACGTGTCCCCA
GYGGAGGGGCTGTGCCTGGCTGGGGGCGGAGGKCTGGCCCAGCAGGTGCTGGTGCCTGCGGGCTCTGCCCGGCCTGTTGCCTTCTCTGTGGTGCCCACGG
CAGCCRCCGCTGTGTCTCTGAAGGTGGTGGCTCGAGGGTCCTTCGAATTCCCTGTGGGAGATGCGGTGTCCAAGGTTCTGCAGATTGAGGTGAATGGAGC
ACCCCTGAATATAAGTCCCCGGGCCCCYAGCTTTGTCCTCCACCCTCAGCACTCTCTCTGCTRGCCAGGCCAGGGGCCCAACACCCRAACCAATGCCTTG
GTCTGTTCCCATCTTCTACAATTCTGATCCAACTCTGTCCCTGGAGTTGAAACTCAAAGTTCTGGGGGAGTCTGYGCTAGCAGGGCAGGCTGTAGTCCTG
TGTGACCTCACAACCATGTTTTCCCTGAGACAGAAGGAAGGGGCCATCCATAGAGAGGAGCTGGTCTATGAACTCAACCCCTTGGGTGAGTGACCCTCTA
CCTCCAGCCATTGGTTTCCTAAGTGGGTACAGGTGGTGGGGGATGTGGACAGCAGGACAGGCTGCCAACTTCCCCMATTTCCCCAGACCACCGAGGCCGG
ACCTTGGAMATACCTGGCAACTCTGATCCCAATATGATCCCTGATGGGGACTTTAACAGCTACGTCAGGGTTACAGGTGGGAGTGCCCTTTAGTCCCTTC
CCAGTGGCCACCTTCGGATTCATGTGGGACYTGTGGATCCCTGCTTGGTCCCACTCCCCGTGAGCCTCTGACACAGAGTCCTCAGACCTCYACCCTCTCC
CTCCCATGTAGCCTCAGATCCAYTGGACACTTTAGGCTCTGAGGGGGCCTTGTCACCAGGAGGCGTGGCCTCCCTCTTGAGGCTTCCTCGAGGCTGTGGG
GAGCAAACCATGATCTACTTGGCTCCGACACTGGCTGCTTCCCGCTACCTGGACAAGACAGAGCAGTGGAGCACACTKCCTCCCGAGACCAAGGACCACG
CCGTGGATCTGATCCAGAAAGGTTCTGGGTGCAAGGGCAAGCAGGAGGGGGKCCAGGAAAGGACAGTTACTGGAAGATGGACAGCCCAGGAGGCTACAGA
GGGAAAGAAAGGGGGCCCCTGATGAGGATGGGGAGCATGGCCTTGGGCTCAAACAGCAGAAGGGTGAGTGTCACCTGAGCGGCCACCTCTCCTCTCCAAG
GCTACATGCGGATCCAGCAGTTTCGGAAGGCGGATGGTTCCTATGCGGCTTGGTTGTCACGGGRCAGCAGCACCTGGTGAGCTTGGGAGAGTGGTTCCAG
GGTTCTGAGGGGGTCAGGGCTGGGGCAGGGGTGGGACAGAGCTGGTATGATGGGAGGGTGGATAACCAGGCACCTGGGGGCGTGGGCATAATGAGAAGCA
AGTCCTTATCCCCAACCCTCCTTTCCTGCCCTCCAGGCTCACAGCCTTTGTGTTGAAGGTCCTGAGTTTGGCCCAGGAGCAGGTAGGAGGMTCGCCTGAG
AAACTGCAGGAGACATCTAACTGGCTTCTGTCCCAGCAGCAGGCTGACGGCTCGTTCCAGGACCYCTSTCCAGTGWTASAYAGGAGCATGCAGGTGCGGG
CATGCTGGGGCTGGCCCGAGAAGCGCCTGTCGGAGGACTCTCTTTGCCCCTTCCCCCTCCTGTTTGACATCTTTTCTCCCCTTACTAGGGGGGTTTGGTG
GGCAATGATGAGACTGTGGCACTCACAGCCTTTGTGACCATCGCCCTTCATCATGGGCTGGCCGTCTTCCAGGATGAGGGTGCAGAGCCATTGAAGCAGA
GAGTGGTAAGTTCAGTGGCGTTTCTGCCCTCTGCTGGCCCCCAGCTCTCTCCCTTTTTCCTCAGGAACCCAGGGGTCCAGGCCCAAGACCCTCCTCCCGT
TTTCTTCCAGGAAGCCTCCATCTCAAAGGCAARCTCATTTTTGGGGGAGAAAGCAAGTGCTGGGCTCCTGGGTGCCCACGCAGCTGCCATCACGGCCTAT
GCCCTGACACTGACCAAGGCSCCTGYGGACCTGCKSGGTGTTGCCCACAACAACCTCATGGCAATGGCCCAGGAGACTGGAGGTGAGGGGTGAGGSGCTC
TGGCAGTGAGCCTGAGGCCCAGGGGACCTTAGGATCCCTGAGTGTGCCCAGAGGGAGAGGCTGGATGAAGACTCAGAGGAGGAATGAAGTTATAAGCAGG
GGTGGGTTGGGGGAGACTCAGGAGAGCCCAGCAGGGGGTGGCTAAGGGCCAGGGGACCAGGCTCTTCTCCCTGCCTTCCTGTTTACTYGTGGTCTCCCTT
CACTTTCAGATAACCTGTACTGGGGCTCAGTCACTGGTTCTCAGAGCAATGCCGTGTCGCCCACSCCGGCTCCTCGCAACCCATCCGACCCCATGCCCCA
GGCCCCAGCCCTGTGGATTGAAACCACAGCCTACGCCCTGCTGCACCTCCTGCTTCACGAGGGCAAAGCAGAGATGGCAGACCAGGCTGCGGCCTGGCTC
ACCCGTCAGGGCAGCTTCCAAGGGGGATTCCGCAGTACCCAAGTAGGGGCCGTCCCCGGGCTCTGGSGGGGGTGGGTAGTCCTCAGACCAAGGGCTTGCT
TGAGTCCTGGCTCAACCTCCCTAGGACACGGTGATTGCCCTGGATGCCCTGTCTGCCTACTGGWTTGCCTCCCACACCACTGAGGAGAGGGGTCTCAATG
TGACTCTCAGCTCCACAGGCCGGAATGGGTTCAAGTCCCACGCGCTGCAGCTGAACAACCGCCAGATTCGCGGCCTGGAGGAGGAGCTGCAGGTGAACCA
CTCCCTGGTGAACCACTCCCTCGCCTGGGTAGCCAGGACACCTGGGCCTCGTGGCCAGGCCAGAAGCCGTCCCCAMCCTCCCACCCGTGGAATCCCCGCA
GCACTTCTTCCTGGGGTCTTCGGGGGAAGACTGACTTCCTGGCTGCGTGACCTGGAGCTCTGAGCTTCAGTTTTCTCACTTGTAGAGTAACATACACAGA
GTTCACCCTACAGGGTCGTTAGAAGGCTGAAGTGAGATAATTCATGTGCTGGTATAAACTTTGTGGAAATGTGAGGTGGGGAGAGGAGGTGGGGCTGTTT
TGAGGAAGGAGATAAGTTAYTGGAGCCGCAAAAACAGGTTTGCTTGTGCCCTTCTAACATCGCCTTCCCTTTTCTGTTGCTGAAGTTTTCCTTGGGCAGC
AAGATCAATGTGAAGGTGGGAGGAAACAGCAAAGGAACCCTGAAGGTGAGGGCCAGGGAAGGGGTGGGGCCAGGCACTGGTGGAGGAGAGGGTGTGGAGT
GAGAGGCCTGTGGGCAGAGGCACATGGTCCGGGGAAGGAGGCAGACACCTCAGGGTTGGTGTCCCGTGCTTCCGTCCTGGGTGTTTTTCCCCCTGCTTGC
TTTCGCTTGCTCTCCCCATCTCTGGGTACCTGTTGTTTCCTTTACCCGCCTCAGTGCTGGTGGCTCYGAATCCCACTCCTCAGMCCAGGSCTCTTCCCTG
AACCATGGGCCCCACTCGTCCCACTCCCACARCACCTCAGACGAGGCATGTCCCAAAGCCCTTCTTCATTCTGTGTCTCTTGTCTGGCTGGTGGGAGCCC
CTCCCAGCCAGGAGCCCAGCCACTACTCTAGAGGCCGTGTTAGTGGCCCCTCTCCCAAGCCTGTCCTTATGTCCCTAGTGACTCCTCCTCTGCTCCCCTG
CTGCCTGTGGCCCTTGGTGCTGCATCCTAGATTCTGTGCTGAGACGGCCTTCTCCCTACCTGGAACTTCTCTCTACCTCCTGTCTCCCCTGTCTGATCCA
CTGTCCACACGGSAGTGACACTGACCTTCCAAAAGCCCCAGCCAGATCAGCCTTGGGGAAAAGTCACTCCCCGCTGCCCACGGCTCAGATGGCTGGGCCT
CTGCCCACCCCTCCGGCCAGACAGCTCTCCTTGTCTACACAGATCCCCTTGCCTTTCCTGTCCTTCCCTGCTTCTTGGCCCACAGGACAAGCTCTTTCTT
CTCCTTCAAGCCTTGGCCAGAAGCCTTTCCTGAGCTTTTCAGTCCAGCCTCTTCCCAGCACAGTCTGGAGTGTTGGCCTCTGGGGGCAGGCCCCTGCTTC
TTTACCTCTCTGTCTCGCCTGACGCCTGTGGCGAATGTGGTGCCACTCGTGTGTGTGGACTGTGCAGTGACGGGGAGGAAAAGGGGCTGAAGGCCTCAAA
TCCYGTAGCCCAGGGAGATGCCCTTAGGTATGGCACCAGAGAGGTCTGTGGCCTYACATGTCCCACGTCCTCTCCCTGCCCCTTGCTGAGCCAGGTCCTT
CGTACCTACAATGTCCTGGACATGAAGAACACGACCTGCCAGGACCTACAGATAGAAGTGACAGTCAAAGGCCACGTCGAGTACACGAGTGAGTGTGGGG
GTTGGGAGGCCTTGGGGCCAGGCAGGGGCTGGCGCAGGGAGCCGGGTGGCCATCCCAGCCCTCCTCACAATGCTTCCCTGTGCAGTGGAASCAAACGAGG
ACTATGAGGACTATGAGTACGAYGAGCTTCCAGCCAAGGATGACCCAGATGCCCCTCTGCAGCCCGTGACACCCCTGCAGCTGTTTGAGGGTCGGAGGAA
CCGCCGCAGGAGGGAGGCGCCCAAGGTGGTGGAGGAGCAGGAGTCCAGGGTGCACTACACCGTGTGCATCTGGTGGGCGCCGGGAGCTGCCCTGGGCCAG
GGGAGGGAGGGCAGGACCCAGGCTGGGGCTGGGCTTCTGGAGCCCGCGCAGGCAGAACCTGGACGACAGCTCACACGTYTCCACAGGCGGAACGGCAAGG
TGGGGCTGTCTGGCATGGCCATCGCGGACGTCACCCTCCTGAGTGGATTCCACGCCCTGCGTGCTGACCTGGAGAAGGTGTGGTCAGCCACCCAGGGCAA
CCCCCTCTGTCCCAGGTACTGAGCCCTGTCATGTGCAGGGCCTGTGACCAACTCCCCTTTTCCACAGCTGACCTCCCTCTCTGACCGTTACGTGAGTCAC
TTTGAGACCGAGGGGCCCCACGTCCTGCTGTATTTTGACTCGGTGAGTGGGGAGAGATGAGGCAGGAAGGGACTCGATGGCACCGGGTTTACTGAGTATG
CGTTAGGAGGTTTCTCAGGAGACAGCTGTGTCAGCGGCTGGTGCTCTTGAGAACTTGTGATGTCATCAGAGAGAAGGACAAGAATGTGAGCCCGTGAGAC
ACAGCAGAGTAAGGGGCAGACCTGCAGGCGGCAGGGACCGATGCCAGTCAGCAGGGACCCTCAGGGTTTGAGAGGGAGTCTTTCCTAATGCTGGTTTTAT
TCAGCTTGAGGGGCTGCCTTTGTTTTTTTGTTGAACTTCCTATCTTTTTTTTAATATTAAAGCGTATTTTCCTTTACAAAGTGATGGTGGCCATAGATGA
TAGTTGTATTTGTCTTTTCACGACCTTATTTGGCTAAAATAGTTATCAACCCTCTTACGGCTCTCAAAACATTTTTATTTATTTATTTAGTAAAGACAGG
GTCTCGCTCTGTTGCCCAGGCTGGTCTTGAACTCCCGGCCTCAAGCGATCCTCTGGCCTAGGCCTTTCAAAGTACCGGATTTACAGGCCAGAGCCACCAT
GCCCGGCCTTCAAAAAAAGTTTTGGAACATTTACTGTAACCTCTGGGAGAAAATGTGAGAAAGGTGTGGTGGCTGTCATTAGCCAGCTGTTTGTAGGTCA
GGGAGACCCCTACCCAGTGTGTGCAGAGGGGCCAGCCCCCATCAGCTGGGGAAGCCTGGCTGACACATCTGGGTTGAACACAATAGAAAACACAGAGCCA
ACAAGATTCCCGGATAGGGAGCTGACGGTGCAGCAGCCTAGCTCAGGAGGGACACTGGCACGGCACCGTGTGGACTGGGCCCGCGTGGGCACGAGGAGGG
GTCAGGCCTGGGACCTGAGTCGGGGGGTCAGGCAGGATGACAGAACCTGCAGTTAGGTTGTGGCAAATAAAGGAGGACCCAGTKGTATCCATGACAAAGA
TGAGGCCGCGAGGAGGGCGAGTGGGTTTGGGGGCAGGCAGAGTGCCTTGGAGAACTTACAGGTCCTGCCACAATCCTAATGCAAGGATGGAGCTGCAAGT
TCAGTTTGGGAATCATCAGCCTGGATTGGTTTGGTGGAAGCCAGGGAGTGGTTGAGACCCCCACAGGGGAGCTCTGAGGAAGGAAGTTCCGAAGGAGGGA
ACGTAAGAAATGACCAGGTCAGAACCAAGGGTGGTCCAGAAGCTAACCCTTAGCTTAGGGACAGTTTCACAGAGAACACGTCCATGATGCAAGACTCTGC
TGAGGSCCTGGAGCAGTGAAGACTGGGGCAAGGTCACCCTCTGGGAAGTGAAGTCACCAGAGACCTTGCGGAGCAGCTTTGAGAGTTCTCTGAGTAGGAA
GGTAACAGAATGTGAAGGACACTGGAGAGAAGGCCAATAGGAAGCAAACAAAAACAGGCCAAGGAAACCCAGTACAGGGGGCTGCAGGGCCCAGGGAGTG
GGTCCCTCATCTCTCCTCCCCACGCTTGGCCAGGTCYCCACCTCCCGGGAGTGCGTGGGCTTTGAGGCTGTGCAGGAAGTGCCGGTGGGGCTGGTGCAGC
CGGCCAGCGCAACCCTGTACGACTACTACAACCCCGGTGAGCACTGCAGGACACCCTGAAATTCAGGAGAACTTTGGCATAGGTGCCCTCCTATGGGACA
ATGGACACCGGGGTAGTGAGGGGGCAGAGAGCCCTGGGGCTCCCTGGGACTGAGGAGGCAGAATGGAGGGGCCTGTGCCCTAACTCCTCTCTGTTCTCCA
GAGCGCAGATGTTCTGTGTTTTACGGGGCACCAAGTAAGAGCAGACTCTTGGCCACCTTGTGTTCTGCTGAAGTCTGCCAGTGTGCTGAGGGTGAGACTG
AGGGCCTGGGGCGGGGCAGTGGAGGCGGGATGGCCGGGGCCCCCCCCACACTGTCTGATGGGTTCCCCAACTTCAGGGAAGTGCCCTCGCCAGCGTCGCG
CCCTGGAGCGGGGTCTGCAGGACGAGGATGGCTACAGGATGAAGTTTGCCTGCTACTACCCCCGTGTGGAGTACGGTCAGTCTTCCCACCGAGGCCCTGG
CCTGACCCTCCCTCGGGGACCGGCYGTTTTGGTCTCTCTGGGTGTAGCCTGCTCCTCTTACAGGTCATGCACGCAGCCTGTTTGCTCTGACACCAACTTC
CTACCCTCTCAGCCTCAAAGTAACTCACCTTTCCCCCTTCTYCTCACCCCCTCTTAGGCTTCCAGGTTAAGGTTCTCCGAGAAGACAGCAGAGCTGCTTT
CCGCCTCTTTGAGACCAAGATCACCCAAGTCCTGCACTTCAGTATGAAGCAAACCGGAGAGGCGGGCAGGGCTGGGGGGAGACAGGGAGGCTGAGGTGTG
GCCGAGGACCTGACCATCTGGAAGTGTGAAAATCCCCTTGGGCTGTCAGAAGCCTTGGGCTTGGCCATAAATAGGGAGGCAGTGGCACCTCTCCATGGGG
GTGGCGAAGGTGGAATGAGAGGATCTACACAGAGTCCCCAGCCTGGGCTCACCCTGCACCTTCTCTTCCCCTCTGACCACTTTTGCGCACRTCATCCCCG
CAGCCAAGGATGTCAAGGCCGCTGCTAATCAGATGCGCAACTTCCTGGTTCGAGCCTCCTGCCGCCTTCGCTTGGAACCTGGGAAAGAATATTTGATCAT
GGGTCTRGATGGGGCCACCTATGACCTCGAGGGACAGTGAGTCATCTGGTCCCCTCAGTCTCTTGTCCTCCCCATGCCTYGCCACCTAGGCCTTGCCCCT
CAGAAGCCAGATGCCTGTGCTCTCCGTTTCCACCTGCCATCCTCCCGAGCCCTGYTGACTGYCCCTTTGCCCCCTGCAGCCCCCAGTACCTGCTGGACTC
GAATAGCTGGATCGAGGAGATGCCCTCTGAACGCCTGTGCCGGAGCACCCGCCAGCGGGCAGCCTGTGCCCAGCTCAAYGACTTCCTCCAGGAGTATGGC
ACTCAGGGGTGCCAGGTGTGAGGGCTGCCCTCCCMCCTCCRCTGGGAGGAACCTGAACCTGGGAACCATGAAGCTGGAAGCACTGCTGTGTCCGCTTTCA
TGAACMCAGCCTGGGACCAGGGCATATTAAAGGCTTTTGGCAGCAAAGTGTCAGTGTTGGCAGYGAAGTGTCAGTGTGTGTTGCTAGGGCTGAGAGCAGT
GCCCCTGCCCGATGCAGTTCTGGGCAGGCCAGGTTGACATAACCTTAGACTCTCTGAGCCCTGATGACCCTTGGGCTGTTCAGCTCTGCTAGAACCTCCC
AGATGACCCGCTAGGAGTCTAGTGCTTCACAGGACCACCCCGAGCAGAACTGGGACCCAAGAGCCTGCACCCCAAGGACCAGAGTCCATGCCAAGACCAC
CCTTCAGCTTCCAAGGCCCTCCACTGCCCGGCTGTCGCCAGTCACCACGGCCTCAGACAGGGCTTGTGCTCAGCTGACACCTGTGACACAGCTCTTCTGC
CTCATGAGCTGTTGTCCAGCTACACCTCCCCGACTCTGTCCTCGTGCTGCTGGCGGTTCTGAGGTCTGCAGATTTTAGCTGAGTTCCGGGCTGTTGAAAG
CCTGCTGACGCTTGGTTCTGTTATCAGTGGAATGAGGTGACTTTCCCGGAGTTGTGCAATCCTCAGGTCCGGCAGTGTCTTCTTCCAGTTACTGGTTTCA
AACAAGCCAAAAGTCTGACTTTGGTGTGTTTGTGAATCCTCTGAGGAAGCCGCTGTTCTCCTGGGGTCTCCCCTTCCCACCGGACCTGCCTAACTTTCCC
CCATTTAGTGGCACACCTGGGGTCTTCAGAGATGACTCCGCGTCTGTCCAAAGAAGTTTGGTGAGATCAGTTTCCGTAGAGGTCATGACAGTTCAGCAGC
CTGCCATCCAGTCATTCGACAGAAATTCGGGAATCTTTCACTTCATGCCATGCCCTGTGCCAGGTGCCAGAGATACAGCTGCTCACTCCAGGGCTCATCG
CTGGGGAGACAGATAAGAGGACGGGCAGTCCCCACCCTCTGTGAAAGATGTGATGTCAGGGAGCAGTGTGGTCCTGTGGGGCATCTAACCAAGTCAGGGG
CATTGCCAGGCAGGGACAGGGAAGGCTTCCTGGAGCAGGTGGCCTCCAAGTGGGGCTCTGAAGACTGAGAAGGAGCCAGGCAAAGAGCAGGGGTAGATGA
GGGCATCTGGGGCAGAAGGAGAATATACAAAGGCCCAGAGGCCGGGGGCAGGACAGGGTACCTTTGGGGACATTGCATGTAATTGACCACATTCGGAGTT
TGGATTTGGAAGTGGTGGAAGAGATGGAGATGGTGAGACAAGTAGTAAGCACGTCAGCCTTCCAGGTGCGCTCCTTTCCGATGAGCACTGTCTTATCCCA
CGTAACTTTGAGAAGTTTGGGCCTTTCCCACTGTGGCAGAGGTTTCCTGAGGCTCTTGCATACATGGCCCTATGGTTGCTCATCAGATCTTTCTCCCAGT
AGCTGCTCAGCATGGTGGTGGCATAAGCCCATTTTCCGGAGCCAGGGATTCAGTTGCAGCAAGACATGGCCCGGTCTGGGAGGTCAACCATGAAGAAGGC
AGTAGCTGTCATTGCCCAACCCCAGAAATCCCAATCCTGTTTTCTCCCTCTCAGTCCTGATCATGGATTCAGCAGCAGCGAACTCGCCAATGTAGTGGGT
GGCACAGCCAGGGTCTTGACTCTGGCTCTGCAGTAGCACAGTCTGGAAAAGCTCTGAGGGGAGAGAGACCCCCACTGGTCCGAGGGTCTGGCACAGAGCC
AGAAATGGGGGGGAAGGTATGGGGCTGGGTCGCCTCTGACCTCTCAGGTACCATCCAGGAGGCCCTGGCCTCTCACTGAACCCGGCCACTCCTCTTTGGC
ATGGCCTCTTCCCAAATCCCCAAACTGCCTCCTTACCCACAAAAGTGGTCTCTGAGTGTCAGTCCAGTGGGACCCCCACCCCTTATGGCTTCAGTTCCCC
AAATAGGGCTGGACCCTTGATCCTGATCCAGCTGTGGCTATCCAGCCCCTTCCTGGGGACTTTGGACTTTGAGGGGGGCATGCCCAGTTGTGCTGGGAAT
CCATACTTTCCCTGGCTGGAGTAGAACCTGTGGACTGTAGTCCTGAGGGCAGTCATGTTCTGCCTGTGCCTGGAAACACAAGAAACTTGACTGCAGAGAG
AAGAAAGAGGAGAGAGGAACAGAGCGAGGAAACCGCCCGTCTCCGGGGCTTTTTCTGTTCCCTATCCTTGACTTTCTAAGACCAGTGGGGTCCCCTCCTC
TGCTTCTTTTTCCTGAGTTCTGTGAAATTCCCCAATTCTTATTTTTTATCTCAAACCAGCTCAAGGTGGGCTGTTTTCCTTTCAACCAAAGAAAGGTGCT
CCTGGTGGCTAAAGGTACATATTCGACAGCTAGATTTCCAGGCTGGAATCCTGCCCTCCACAACATGCGAACAATACCCGTGTTGCATATAGAGCATGGC
TGTGAAGAGTTGAGTGAGTGCCCACAAAGCACTTAGAGCAGTGTCTGGTACATGCTATTACTCCGCAGCGGGAAACCACTTCCTCCTTTGTCTTCTGGGC
ACTTTTGTGAGTGAAAGGAGGCACTAATAACAATCACACTGGGATACCTGTATATACTGGAATGCCCCAGGCAAACCAGGCTTAAACTGTATTACTCTAT
CTGTAGCTTAAACTAACAAACAAACCCACACAAATCACATTTTGTTCTTCAGGCGATTCAGGAAGGCCTATTAGGCAGGGACTGCCATTTTCTCTCTGAG
ACAAACATCATGCCAGTAAACTGGCCCACGGTGGGGTGGCAGAGGGAGAGGGCCCAGGTCGGGGCGGACACCCTTGCCTGCACGGGTGATGTGGAACCAG
AAAGCTGACTCTGGATGCAGGAAAAAGGTCAGGGTTGCATTTCCCTTCCTTGCTTCTCGATGGGTGATTAATTTTTTTTGAAATACGGACGTCCCAAGGC
CAATGAGACTGGTGTCATTCCAGAAAAGGGCCACTCTGTGGGTGGGTCGGTGGGAAGGCACCTGAGGGTGGGGTCAAGGGAGGCCCCAAAACAGTCTACA
CAGCAGGAGGGATGGCTGGGGCTCTTGAGCTATAAGTGGCACCTCAGGGCCCTGACGGGCGTCTTGCCATGCTGCTCCTGGGCCTGCTGCTGCTGCTGCC
CCTGCTGGCTGGCGCCCGCCTGCTGTGGAACTGGTGGAAGCTCCGGAGCCTCCACCTCCCGCCTCTTGCCCCGGGCTTCTTGCACCTGCTGCAGCCCGAC
CTCCCCATCTATCTGCTTGGCCTGACTCAGAAATTCGGGCCCATCTACAGGCTCCACCTTGGGCTGCAAGGTGAGAGGCTGATCTCGCTCTGGCCCTCAC
CATAGGAGGGGGCGGAGGTGACGGAGAGGGTCCTCTCTCCGCTGACGCTGCTTTGGCTGTCTCCCAGATGTGGTGGTGCTGAACTCCAAGAGGACCATTG
AGGAAGCCATGGTCAAAAAGTGGGCAGACTTTGCTGGCAGACCTGAGCCACTTACCTGTAAGGGCTGGGGGCATTTTTTCTTTCTTAAAAAAATTTTTTT
TTAAGAGATGGGTTCTTGCTATGCTGCCCAGGCTGGTCTTAAATTCCTAGTCTCAAATGATCCTCCCACCTCAGCCTCAAGTGTGAGCCACCTTTGGGGC
ATCCCCAATCCAGGTCCCTGGAAGCTCTTGGGGGGGCATATCTGGTGGGGAGAAAGCAGGGGTTGGGGAGGCCGAAGAAGGTCAGGCCCTCAGCTGCCTT
CATCAGTTCCCACCCTCCAGCCCCCAACTCCTCCTGCAGACAAGCTGGTGTCTAGGAACTACCCGGACCTGTCCTTGGGAGACTACTCCCTGCTCTGGAA
AGCCCACAAGAAGCTCACCCGCTCAGCCCTGCTGCTGGGCATCCGTGACTCCATGGAGCCAGTGGTGGAGCAGCTGACCCAGGAGTTCTGTGAGGTAAGG
CTGGGCTCCTGAGGCCACCTCGGGTCAGCCTCGCCTCTCACAGTAGCCCCCGCCCTGCCCGCTGCACAGCGGCCTGCTGAACTCACACTGTTTCTCCACA
GCGCATGAGAGCCCAGCCCGGCACCCCTGTGGCCATTGAGGAGGAATTCTCTCTCCTCACCTGCAGCATCATCTGTTACCTCACCTTCGGAGACAAGATC
AAGGTGCCTCACAGCCCCTCAGGCCCACCCCCAGCCCCTCCCTGAGCCTCTCCTTGTCCTGAACTGAAAGTACTCCCTCCTTTTCTGGCAGGACGACAAC
TTAATGCCTGCCTATTACAAATGTATCCAGGAGGTGTTAAAAACCTGGAGCCACTGGTCCATCCAAATTGTGGACGTGATTCCCTTTCTCAGGGTGAGGA
CCTGGAGCCTAGACACCCCTGGGTTGTAGGGGAGAGGCTGGGGTGGAGGGAGAGGCTCCTTCCCACAGCTGCATTCTCATGCTTCCTGCCGCAGTTCTTC
CCCAATCCAGGTCTCCGGAGGCTGAAGCAGGCCATAGAGAAGAGGGATCACATCGTGGAGATGCAGCTGAGGCAGCACAAGGTGGGGACTGTGTGTGGAC
GGCCTCCCCTCGGCCCACAGCCAGTGATGCTACCGGCCTCAGCATTGCTATGAGGCGGGTTCTTTTGCATACCCCAGTTATGGGCCTGTTGCCACTCTGT
ACTCCTCTCCCCAGGCCAGCCGCTCAGCCCGCTCCTTTCACCCTCTGCAGGAGAGCCTCGTGGCAGGCCAGTGGAGGGACATGATGGACTACATGCTCCA
AGGGGTGGCGCAGCCGAGCATGGAAGAGGGCTCTGGACAGCTCCTGGAAGGGCACGTGCACATGGCTGCAGTGGACCTCCTGATCGGTGGCACTGAGACC
ACAGCAAACACCCTCTCCTGGGCCGTGGTTTTTTTGCTTCACCACCCTGAGGTGCGTCCTGGGGACAAGCAAAAGGCTCCTTCCCAGCAACCTGGCCAGG
GCGGTGGGCACCCTCACTCAGCTCTGAGCACTGTGCGGCTGGGGCTGTGCTTGCCTCACCGGCACTCAGGCTCACTGGGTTGCTGAGGGAGCGGCTGGAG
GCTGGGCAGCTGTGGGCTGCTGGGGCAGGACTCCACCCGATCATTCCCCAGATTCAGCAGCGACTGCAGGAGGAGCTAGACCACGAACTGGGCCCTGGTG
CCTCCAGCTCCCGGGTCCCCTACAAGGACCGTGCACGGCTGCCCTTGCTCAATGCCACCATCGCCGAGGTGCTGCGCCTGCGGCCCGTTGTGCCCTTAGC
CTTGCCCCACCGCACCACACGGCCCAGCAGGTGACTCCCGAGGGTTGGGGATGAGTGAGGAAAGCCCGAGCCCAGGGAGGTCCTGGCCAGCCTCTAACTC
CAGCCCCCTTCAGCATCTCCGGCTACGACATCCCTGAGGGCACAGTCATCATTCCGAACCTCCAAGGCGCCCACCTGGATGAGACGGTCTGGGAGAGGCC
ACATGAGTTCTGGCCTGGTATGTGGGGGGCCGGGGGCCTGCCGTGAAAATGTGGTGGAGGCTGGTCCCCGCTGCCGCTGAACGCCTCCCCACCCACCTGT
CCACCCGCCCGCAGATCGCTTCCTGGAGCCAGGCAAGAACTCCAGAGCTCTGGCCTTCGGCTGCGGTGCCCGCGTGTGCCTGGGCGAGCCGCTGGCGCGC
CTGGAGCTCTTCGTGGTGCTGACCCGACTGCTGCAGGCCTTCACGCTGCTGCCCTCCGGGGACGCCCTGCCCTCCCTGCAGCCCCTGCCCCACTGCAGTG
TCATCCTCAAGATGCAGCCTTTCCAAGTGCGGCTGCAGCCCCGGGGGATGGGGGCCCACAGCCCGGGCCAGAGCCAGTGATGGGGCAGGACCGATGCCAG
CCGGGTACCTCAGTTTCTCCTTTATTGCTCCCGTACGAACCCCTCCCCTCCCCCCTGTAAACACAGTGCTGCGAGATCGCTGGCAGAGAAGGCTTCCTCC
AGCGGCTGGGTGGTGAAGGACCCTGGCTCTTCTCTCGGGGCGACCCCTCAGTGCTCGGCAGTCATACTGGGGTGCGAGAGAGGTGGGCAGCAGCTCAGCC
TCCCCCCGCTGGGGAGCGAAAGTTTCTTGGTCTCAGCTTCATTTCCGTGAAGGGCACCGAGAACTCGAAGCCCTTCCAGTGGTACCAGCTCACTCCCTGG
GAAAGGGGTTGTCAAGAGAGAGTCAAAGCCGGA


SNP Information

Context             (SEQ ID NO:6018):
AGTTTGGCCCAGGAGCAGGTAGGAGGCTCGCCTGAGAAACTGCAGGAGACATCTAACTGGCTTCTGTCCCAGCAGCAGGCTGACGGCTCGTTCCAGGACC
Y
CTCTCCAGTGATACATAGGAGCATGCAGGTGCGGGCATGCTGGGGCTGGCCCGAGAAGCGCCTGTCGGAGGACTCTCTTTGCCCCTTCCCCCTCCTGTTT
Celera SNP ID:            hCV27301802
SNP Position Genomic:     20065
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6019):
TCTCAAAGGCAAGCTCATTTTTGGGGGAGAAAGCAAGTGCTGGGCTCCTGGGTGCCCACGCAGCTGCCATCACGGCCTATGCCCTGACACTGACCAAGGC
S
CCTGCGGACCTGCGGGGTGTTGCCCACAACAACCTCATGGCAATGGCCCAGGAGACTGGAGGTGAGGGGTGAGGCGCTCTGGCAGTGAGCCTGAGGCCCA
Celera SNP ID:            hCV27301804
SNP Position Genomic:     20521
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6020):
TCAGAGGCCTCTTGTGGCTTTCCACAACTTATTGTCTCATATTTTTATGGACAGTTTATACAGGCACCCCACAAGTCCTTTTCCCAACATGCCCCCCTCC
S
TTTTTTTTTTTTTAACCGCTATTGCTATTATGGCTTATTTGTGGTGTTTGGTCTGTTTTCAGAAGTGTCTTTTGCATCTGTAGACTAAAAGTAAACAGCA
Celera SNP ID:            hCV11409040
SNP Position Genomic:     9235
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|C,13)   total(G,1|C,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6021):
CCTATGCCCTGACACTGACCAAGGCCCCTGCGGACCTGCGGGGTGTTGCCCACAACAACCTCATGGCAATGGCCCAGGAGACTGGAGGTGAGGGGTGAGG
S
GCTCTGGCAGTGAGCCTGAGGCCCAGGGGACCTTAGGATCCCTGAGTGTGCCCAGAGGGAGAGGCTGGATGAAGACTCAGAGGAGGAATGAAGTTATAAG
Celera SNP ID:            hCV27301806
SNP Position Genomic:     20596
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6022):
AGTTATAAGCAGGGGTGGGTTGGGGGAGACTCAGGAGAGCCCAGCAGGGGGTGGCTAAGGGCCAGGGGACCAGGCTCTTCTCCCTGCCTTCCTGTTTACT
Y
GTGGTCTCCCTTCACTTTCAGATAACCTGTACTGGGGCTCAGTCACTGGTTCTCAGAGCAATGCCGTGTCGCCCACCCCGGCTCCTCGCAACCCATCCGA
Celera SNP ID:            hCV27301807
SNP Position Genomic:     20788
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6023):
ATGAGAAGCAAGTCCTTATCCCCAACCCTCCTTTCCTGCCCTCCAGGCTCACAGCCTTTGTGTTGAAGGTCCTGAGTTTGGCCCAGGAGCAGGTAGGAGG
M
TCGCCTGAGAAACTGCAGGAGACATCTAACTGGCTTCTGTCCCAGCAGCAGGCTGACGGCTCGTTCCAGGACCTCTCTCCAGTGATACATAGGAGCATGC
Celera SNP ID:            hCV7515324
SNP Position Genomic:     19991
SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,24)   caucasian(A,2|C,36)   total(A,6|C,60)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,4|C,24)   caucasian(A,3|C,33)   total(A,7|C,57)
SNP Type:                 SILENT MUTATION

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


Context             (SEQ ID NO:6024):
TTTTTCCCCCTGCTTGCTTTCGCTTGCTCTCCCCATCTCTGGGTACCTGTTGTTTCCTTTACCCGCCTCAGTGCTGGTGGCTCCGAATCCCACTCCTCAG
M
CCAGGCCTCTTCCCTGAACCATGGGCCCCACTCGTCCCACTCCCACAGCACCTCAGACGAGGCATGTCCCAAAGCCCTTCTTCATTCTGTGTCTCTTGTC
Celera SNP ID:            hCV27301809
SNP Position Genomic:     21984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6025):
TGGAGGAGGAGCTGCAGGTGAACCACTCCCTGGTGAACCACTCCCTCGCCTGGGTAGCCAGGACACCTGGGCCTCGTGGCCAGGCCAGAAGCCGTCCCCA
M
CCTCCCACCCGTGGAATCCCCGCAGCACTTCTTCCTGGGGTCTTCGGGGGAAGACTGACTTCCTGGCTGCGTGACCTGGAGCTCTGAGCTTCAGTTTTCT
Celera SNP ID:            hCV7515325
SNP Position Genomic:     21376
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6026):
GCAGGTAGGAGGCTCGCCTGAGAAACTGCAGGAGACATCTAACTGGCTTCTGTCCCAGCAGCAGGCTGACGGCTCGTTCCAGGACCTCTCTCCAGTGATA
S
ATAGGAGCATGCAGGTGCGGGCATGCTGGGGCTGGCCCGAGAAGCGCCTGTCGGAGGACTCTCTTTGCCCCTTCCCCCTCCTGTTTGACATCTTTTCTCC
Celera SNP ID:            hCV22274197
SNP Position Genomic:     20079
SNP Source:               Applera
Population(Allele,Count): african american(C,7|G,11)   caucasian(C,12|G,10)   total(C,19|G,21)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,6|G,6)   caucasian(C,18|G,14)   total(C,24|G,20)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6027):
GGGGTGCCAGGTGTGAGGGCTGCCCTCCCACCTCCGCTGGGAGGAACCTGAACCTGGGAACCATGAAGCTGGAAGCACTGCTGTGTCCGCTTTCATGAAC
M
CAGCCTGGGACCAGGGCATATTAAAGGCTTTTGGCAGCAAAGTGTCAGTGTTGGCAGCGAAGTGTCAGTGTGTGTTGCTAGGGCTGAGAGCAGTGCCCCT
Celera SNP ID:            hCV7515360
SNP Position Genomic:     26606
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6028):
AGGTAGGAGGCTCGCCTGAGAAACTGCAGGAGACATCTAACTGGCTTCTGTCCCAGCAGCAGGCTGACGGCTCGTTCCAGGACCTCTCTCCAGTGATACA
Y
AGGAGCATGCAGGTGCGGGCATGCTGGGGCTGGCCCGAGAAGCGCCTGTCGGAGGACTCTCTTTGCCCCTTCCCCCTCCTGTTTGACATCTTTTCTCCCC
Celera SNP ID:            hCV22274199
SNP Position Genomic:     20081
SNP Source:               Applera
Population(Allele,Count): african american(C,8)   caucasian(C,3|T,1)   total(C,11|T,1)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,9|T,5)   caucasian(C,9|T,13)   total(C,18|T,18)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6029):
GTGTTCATGAATCGAGAGCCCAAGAGGACCCTGACCTCGGTCTCGGTGTTTGTGGACCATCACCTGGCACCCTCCTTCTACTTTGTGGCCTTCTACTACC
M
TGGAGACCACCCAGTGGCCAACTCCCTGCGAGTGGATGTCCAGGCTGGGGCCTGCGAGGGCAAGGTGACCGGGGTCAGGAGAGATGGCACTTGTGCCGAG
Celera SNP ID:            hCV16172259
SNP Position Genomic:     16150
SNP Source:               Applera
Population(Allele,Count): african american(A,22)   caucasian(A,32|C,2)   total(A,54|C,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6030):
AACCATGAAGCTGGAAGCACTGCTGTGTCCGCTTTCATGAACACAGCCTGGGACCAGGGCATATTAAAGGCTTTTGGCAGCAAAGTGTCAGTGTTGGCAG
Y
GAAGTGTCAGTGTGTGTTGCTAGGGCTGAGAGCAGTGCCCCTGCCCGATGCAGTTCTGGGCAGGCCAGGTTGACATAACCTTAGACTCTCTGAGCCCTGA
Celera SNP ID:            hCV27463372
SNP Position Genomic:     26664
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6031):
TTGTGGCTTTCCACAACTTATTGTCCCATATTTTTATGGCCAGTTTATACAGGCACCCCACAAGTCCTTTTCCCAACACAGACAGGAATACGGCAGCCTG
Y
GCCCTGGGAGCTCACTGTCTTGTGGGAGGGAACCACTCAAGCCACTCCCCACTTGTCCTCCTGTCCCTCTCTTCTTGGGCTCTGTCCCCCACCTCTCTCT
Celera SNP ID:            hCV25921693
SNP Position Genomic:     15057
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:6032):
ACACTGTGGCTCCCCGACTCTCTGACCACGTGGGAGATCCATGGCCTGAGCCTGTCCAAAACCAAAGGTGATGTCACCCTGTCTGGGCCTCAGGTGACCC
Y
GCTTCCATTTCCCTGTACCCCAGCTCCCTGTTCCCTTTGCTCTTAGTGTAGGAAGAGGGTCCAGTGATCTGGGGAGGTCTGTGCCAGCGTGCAGCTGGCG
Celera SNP ID:            hCV7515293
SNP Position Genomic:     18002
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,28)   caucasian(C,1|T,35)   total(C,9|T,63)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:6033):
ACTGTGGCTCCCCGACTCTCTGACCACGTGGGAGATCCATGGCCTGAGCCTGTCCAAAACCAAAGGTGATGTCACCCTGTCTGGGCCTCAGGTGACCCTG
M
TTCCATTTCCCTGTACCCCAGCTCCCTGTTCCCTTTGCTCTTAGTGTAGGAAGAGGGTCCAGTGATCTGGGGAGGTCTGTGCCAGCGTGCAGCTGGCGTG
Celera SNP ID:            hCV7515294
SNP Position Genomic:     18004
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6034):
TGTCAGGCTCCCCAGCTTCTGGCATTCCTGTCAAAGTTTCTGCCACGGTGTCTTCTCCTGGGTCTGTTCCTGAAGTCCAGGACATTCAGCAAAACACAGA
Y
GGGAGCGGCCAAGTCAGCATTCCAATAATTATCCCTCAGACCATCTCAGAGCTGCAGCTCTCAGTAGGACTCCTCGGACCCCTGGGAGATGGTGGGGGAA
Celera SNP ID:            hCV25630814
SNP Position Genomic:     15505
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,4)   caucasian(C,38)   total(C,68|T,4)
SNP Type:                 SILENT MUTATION

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,663|T,830)   total(C,663|T,830) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6035):
GTATTTTGTGTCATCTCCCTTCTCCTTGGATCTTAGCAAGACCAAGCGACACCTTGTGCCTGGGGCCCCCTTCCTGCTGCAGGTTTCTTCCAGAGGGGAA
S
GATGAGTAGGGAGGATGTGGTAGTTAGGAGGGCTCAGGGTCTGACCACTCTCTTTTGCCTGCCCTCCTTTACCTGCCTAGGCCTTGGTCCGTGAGATGTC
Celera SNP ID:            hCV25630815
SNP Position Genomic:     15308
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(C,1|G,35)   total(C,1|G,73)
SNP Type:                 INTRON


Context             (SEQ ID NO:6036):
GCTGGCCCCCAGCTCTCTCCCTTTTTCCTCAGGAACCCAGGGGTCCAGGCCCAAGACCCTCCTCCCGTTTTCTTCCAGGAAGCCTCCATCTCAAAGGCAA
R
CTCATTTTTGGGGGAGAAAGCAAGTGCTGGGCTCCTGGGTGCCCACGCAGCTGCCATCACGGCCTATGCCCTGACACTGACCAAGGCCCCTGCGGACCTG
Celera SNP ID:            hCV15926850
SNP Position Genomic:     20433
SNP Source:               Applera
Population(Allele,Count): african american(A,10|G,4)   caucasian(A,8)   total(A,18|G,4)
SNP Type:                 MISSENSE MUTATION

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


Context             (SEQ ID NO:6037):
TGGCGGGGGTGGGTAGTCCTCAGACCAAGGGCTTGCTTGAGTCCTGGCTCAACCTCCCTAGGACACGGTGATTGCCCTGGATGCCCTGTCTGCCTACTGG
W
TTGCCTCCCACACCACTGAGGAGAGGGGTCTCAATGTGACTCTCAGCTCCACAGGCCGGAATGGGTTCAAGTCCCACGCGCTGCAGCTGAACAACCGCCA
Celera SNP ID:            hCV11917750
SNP Position Genomic:     21164
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6038):
TCATTTTTGGGGGAGAAAGCAAGTGCTGGGCTCCTGGGTGCCCACGCAGCTGCCATCACGGCCTATGCCCTGACACTGACCAAGGCCCCTGCGGACCTGC
K
GGGTGTTGCCCACAACAACCTCATGGCAATGGCCCAGGAGACTGGAGGTGAGGGGTGAGGCGCTCTGGCAGTGAGCCTGAGGCCCAGGGGACCTTAGGAT
Celera SNP ID:            hCV15926851
SNP Position Genomic:     20535
SNP Source:               Applera
Population(Allele,Count): african american(T,10)   caucasian(G,4|T,14)   total(G,4|T,24)
SNP Type:                 MISSENSE MUTATION

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


Context             (SEQ ID NO:6039):
CCTCTCATGCTCACCCCCACCTGGCCCTGCAGTGGGTCAGTATGCTTCCCCGACAGCCAAGCGCTGCTGCCAGGATGGGGTGACACGTCTGCCCATGATG
M
GTTCCTGCGAGCAGCGGGCAGCCCGCGTGCAGCAGCCGGACTGCCGGGAGCCCTTCCTGTCCTGCTGCCAATTTGCTGAGAGTCTGCGCAAGAAGAGCAG
Celera SNP ID:            hCV25630816
SNP Position Genomic:     17475
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(A,1|C,37)   total(A,1|C,75)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6040):
CATTTTTGGGGGAGAAAGCAAGTGCTGGGCTCCTGGGTGCCCACGCAGCTGCCATCACGGCCTATGCCCTGACACTGACCAAGGCCCCTGCGGACCTGCG
S
GGTGTTGCCCACAACAACCTCATGGCAATGGCCCAGGAGACTGGAGGTGAGGGGTGAGGCGCTCTGGCAGTGAGCCTGAGGCCCAGGGGACCTTAGGATC
Celera SNP ID:            hCV15926852
SNP Position Genomic:     20536
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6041):
GCGGTGTCCAAGGTTCTGCAGATTGAGGTGAATGGAGCACCCCTGAATATAAGTCCCCGGGCCCCCAGCTTTGTCCTCCACCCTCAGCACTCTCTCTGCT
R
GCCAGGCCAGGGGCCCAACACCCGAACCAATGCCTTGGTCTGTTCCCATCTTCTACAATTCTGATCCAACTCTGTCCCTGGAGTTGAAACTCAAAGTTCT
Celera SNP ID:            hCV25630817
SNP Position Genomic:     18763
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:6042):
AACCCCTTGGGTGAGTGACCCTCTACCTCCAGCCATTGGTTTCCTAAGTGGGTACAGGTGGTGGGGGATGTGGACAGCAGGACAGGCTGCCAACTTCCCC
M
ATTTCCCCAGACCACCGAGGCCGGACCTTGGAAATACCTGGCAACTCTGATCCCAATATGATCCCTGATGGGGACTTTAACAGCTACGTCAGGGTTACAG
Celera SNP ID:            hCV25630818
SNP Position Genomic:     19076
SNP Source:               Applera
Population(Allele,Count): african american(C,18)   caucasian(A,2|C,12)   total(A,2|C,30)
SNP Type:                 INTRON


Context             (SEQ ID NO:6043):
GAGTGTGGGGGTTGGGAGGCCTTGGGGCCAGGCAGGGGCTGGCGCAGGGAGCCGGGTGGCCATCCCAGCCCTCCTCACAATGCTTCCCTGTGCAGTGGAA
S
CAAACGAGGACTATGAGGACTATGAGTACGATGAGCTTCCAGCCAAGGATGACCCAGATGCCCCTCTGCAGCCCGTGACACCCCTGCAGCTGTTTGAGGG
Celera SNP ID:            hCV25630819
SNP Position Genomic:     22991
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,33)   caucasian(G,38)   total(C,1|G,71)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6044):
TGGTGTTTGGTCTGTTTTCAGAAGTGTCTTTTGCATCTGTAGACTAAAAGTAAACAGCATAAACAGATACACATTAAAGTAAAATTTGTAATAGTTGATC
M
TTTAATGGTCTTAATCTGTTTAAGAGGATTTATGTTTGAAAGTCCGTCAGTAGCTCCAATGAGAATGTCAGTCTCAGGCAGGAGGGTTAAATGAGCCTGA
Celera SNP ID:            hCV3125504
SNP Position Genomic:     9377
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,13)      total(A,2|C,13) ;no_pop(A,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:6045):
GTGTTTGTGGACCATCACCTGGCACCCTCCTTCTACTTTGTGGCCTTCTACTACCATGGAGACCACCCAGTGGCCAACTCCCTGCGAGTGGATGTCCAGG
M
TGGGGCCTGCGAGGGCAAGGTGACCGGGGTCAGGAGAGATGGCACTTGTGCCGAGGGGGTTGAGGACAGGGTGATTGCCAACAGGGCATGGATTTAGCTT
Celera SNP ID:            hCV22274055
SNP Position Genomic:     16195
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,17)   caucasian(A,2|C,16)   total(A,3|C,33)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6046):
CCCCTGCTTGCTTTCGCTTGCTCTCCCCATCTCTGGGTACCTGTTGTTTCCTTTACCCGCCTCAGTGCTGGTGGCTCCGAATCCCACTCCTCAGCCCAGG
S
CTCTTCCCTGAACCATGGGCCCCACTCGTCCCACTCCCACAGCACCTCAGACGAGGCATGTCCCAAAGCCCTTCTTCATTCTGTGTCTCTTGTCTGGCTG
Celera SNP ID:            hCV27301810
SNP Position Genomic:     21990
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6047):
CAGGGGCTGGCGCAGGGAGCCGGGTGGCCATCCCAGCCCTCCTCACAATGCTTCCCTGTGCAGTGGAAGCAAACGAGGACTATGAGGACTATGAGTACGA
Y
GAGCTTCCAGCCAAGGATGACCCAGATGCCCCTCTGCAGCCCGTGACACCCCTGCAGCTGTTTGAGGGTCGGAGGAACCGCCGCAGGAGGGAGGCGCCCA
Celera SNP ID:            hCV27853179
SNP Position Genomic:     23023
SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,2|T,36)   total(C,2|T,72)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(T,36)   caucasian(C,3|T,27)   total(C,3|T,63)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6048):
CTTGGTGCTGCATCCTAGATTCTGTGCTGAGACGGCCTTCTCCCTACCTGGAACTTCTCTCTACCTCCTGTCTCCCCTGTCTGATCCACTGTCCACACGG
S
AGTGACACTGACCTTCCAAAAGCCCCAGCCAGATCAGCCTTGGGGAAAAGTCACTCCCCGCTGCCCACGGCTCAGATGGCTGGGCCTCTGCCCACCCCTC
Celera SNP ID:            hCV27301811
SNP Position Genomic:     22313
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6049):
TTCTCCCTGCCTTCCTGTTTACTCGTGGTCTCCCTTCACTTTCAGATAACCTGTACTGGGGCTCAGTCACTGGTTCTCAGAGCAATGCCGTGTCGCCCAC
S
CCGGCTCCTCGCAACCCATCCGACCCCATGCCCCAGGCCCCAGCCCTGTGGATTGAAACCACAGCCTACGCCCTGCTGCACCTCCTGCTTCACGAGGGCA
Celera SNP ID:            hCV27496988
SNP Position Genomic:     20865
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6050):
ATTTCCCTGTACCCCAGCTCCCTGTTCCCTTTGCTCTTAGTGTAGGAAGAGGGTCCAGTGATCTGGGGAGGTCTGTGCCAGCGTGCAGCTGGCGTGGGCC
R
GAGGGCAGAGGCGGACTGAGACAGAGCTGGGTCACCCCCACCCCTCCCTCCTGTGGCCCTGAAGCTTTGATGGCCCCTCTGATCTCTGCCCCTGTGCCCA
Celera SNP ID:            hCV29415997
SNP Position Genomic:     18109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6051):
CCAGCTCCCTGTTCCCTTTGCTCTTAGTGTAGGAAGAGGGTCCAGTGATCTGGGGAGGTCTGTGCCAGCGTGCAGCTGGCGTGGGCCAGAGGGCAGAGGC
R
GACTGAGACAGAGCTGGGTCACCCCCACCCCTCCCTCCTGTGGCCCTGAAGCTTTGATGGCCCCTCTGATCTCTGCCCCTGTGCCCACGCTTCCTTTCCC
Celera SNP ID:            hCV29415998
SNP Position Genomic:     18122
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6052):
AGAGGGCAGAGGCGGACTGAGACAGAGCTGGGTCACCCCCACCCCTCCCTCCTGTGGCCCTGAAGCTTTGATGGCCCCTCTGATCTCTGCCCCTGTGCCC
R
CGCTTCCTTTCCCTCAGGCCTATGTGTGGCCACCCCAGTCCAGCTCCGGGTGTTCCGCGAGTTCCACCTGCACCTCCGCCTGCCCATGTCTGTCCGCCGC
Celera SNP ID:            hCV29415999
SNP Position Genomic:     18209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6053):
GATGCTGGGTGCTTGGATTGGGGCAGGGCTGGCATCGGGACCCGATTCAGGAGTGAGGGAGAGCAGGGGTGGAGGTGTCAGAGCGAAGTCTGACTGCTGA
W
CCTGTCTGTTCTCCCCAGGTTGCTCTTGTTCTCTCCTTCTGTGGTTCATCTGGGGGTCCCCCTATCGGTGGGGGTGCAGCTCCAGGATGTGCCCCGAGGA
Celera SNP ID:            hCV7515229
SNP Position Genomic:     6268
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6054):
TGAAGTCCAGGACATTCAGCAAAACACAGACGGGAGCGGCCAAGTCAGCATTCCAATAATTATCCCTCAGACCATCTCAGAGCTGCAGCTCTCAGTAGGA
Y
TCCTCGGACCCCTGGGAGATGGTGGGGGAAGGGGAGGAGGGTGAGCTGGGGTCCCAAGGATCCATGGCCTGACTTGGGGGGAAGGTGGGGTACTTGGCTC
Celera SNP ID:            hCV7515262
SNP Position Genomic:     15575
SNP Source:               Applera
Population(Allele,Count): african american(C,7|T,3)   caucasian(C,4)   total(C,11|T,3)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   JBIC-allele(T,263|C,1224)   total(C,1224|T,263)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6055):
ACCTCTCTGTCTCGCCTGACGCCTGTGGCGAATGTGGTGCCACTCGTGTGTGTGGACTGTGCAGTGACGGGGAGGAAAAGGGGCTGAAGGCCTCAAATCC
Y
GTAGCCCAGGGAGATGCCCTTAGGTATGGCACCAGAGAGGTCTGTGGCCTCACATGTCCCACGTCCTCTCCCTGCCCCTTGCTGAGCCAGGTCCTTCGTA
Celera SNP ID:            hCV7515335
SNP Position Genomic:     22704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6056):
CGTGGGCACGAGGAGGGGTCAGGCCTGGGACCTGAGTCGGGGGGTCAGGCAGGATGACAGAACCTGCAGTTAGGTTGTGGCAAATAAAGGAGGACCCAGT
K
GTATCCATGACAAAGATGAGGCCGCGAGGAGGGCGAGTGGGTTTGGGGGCAGGCAGAGTGCCTTGGAGAACTTACAGGTCCTGCCACAATCCTAATGCAA
Celera SNP ID:            hCV7515337
SNP Position Genomic:     24484
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:6057):
TAGTCCCTTCCCAGTGGCCACCTTCGGATTCATGTGGGACCTGTGGATCCCTGCTTGGTCCCACTCCCCGTGAGCCTCTGACACAGAGTCCTCAGACCTC
Y
ACCCTCTCCCTCCCATGTAGCCTCAGATCCATTGGACACTTTAGGCTCTGAGGGGGCCTTGTCACCAGGAGGCGTGGCCTCCCTCTTGAGGCTTCCTCGA
Celera SNP ID:            hCV27476596
SNP Position Genomic:     19291
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,218|C,1277)   total(C,1277|T,218) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6058):
TGCTTCCGTCCTGGGTGTTTTTCCCCCTGCTTGCTTTCGCTTGCTCTCCCCATCTCTGGGTACCTGTTGTTTCCTTTACCCGCCTCAGTGCTGGTGGCTC
Y
GAATCCCACTCCTCAGCCCAGGCCTCTTCCCTGAACCATGGGCCCCACTCGTCCCACTCCCACAGCACCTCAGACGAGGCATGTCCCAAAGCCCTTCTTC
Celera SNP ID:            hCV27476597
SNP Position Genomic:     21967
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6059):
CACTATTTTTTGAGTACAGTCACTCAGATCTAAGAAGCAGATGTTCAGGGAGAAACAGTGAAAGGGAGGCAGTGGGTCATAGGCGTAATCTATAGCAATA
S
AGTTTTAAATGAATCTCCTTTGTGCTCAAACAGCATGTCTTTAAATTATCGGAGAGTAGCTGGTGGAAGTGGGCTTAGCTAGAAGACTGCATGTCTGTCC
Celera SNP ID:            hCV27301784
SNP Position Genomic:     8928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6060):
CGTAATCTATAGCAATAGAGTTTTAAATGAATCTCCTTTGTGCTCAAACAGCATGTCTTTAAATTATCGGAGAGTAGCTGGTGGAAGTGGGCTTAGCTAG
R
AGACTGCATGTCTGTCCAATGCTTCAAAGGAGGGTCTTTCTCCTTGAACACAGTGTTTACAGATAAGACAGGGGGTCTCACTCTGAGCATGGGAACATGA
Celera SNP ID:            hCV27301785
SNP Position Genomic:     9011
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,8)   total(G,3|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6061):
GCCGGGAGCTGCCCTGGGCCAGGGGAGGGAGGGCAGGACCCAGGCTGGGGCTGGGCTTCTGGAGCCCGCGCAGGCAGAACCTGGACGACAGCTCACACGT
Y
TCCACAGGCGGAACGGCAAGGTGGGGCTGTCTGGCATGGCCATCGCGGACGTCACCCTCCTGAGTGGATTCCACGCCCTGCGTGCTGACCTGGAGAAGGT
Celera SNP ID:            hCV25630820
SNP Position Genomic:     23279
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:6062):
ATAGGAAGCAAACAAAAACAGGCCAAGGAAACCCAGTACAGGGGGCTGCAGGGCCCAGGGAGTGGGTCCCTCATCTCTCCTCCCCACGCTTGGCCAGGTC
Y
CCACCTCCCGGGAGTGCGTGGGCTTTGAGGCTGTGCAGGAAGTGCCGGTGGGGCTGGTGCAGCCGGCCAGCGCAACCCTGTACGACTACTACAACCCCGG
Celera SNP ID:            hCV25630821
SNP Position Genomic:     25037
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:6063):
AATATGATCCCTGATGGGGACTTTAACAGCTACGTCAGGGTTACAGGTGGGAGTGCCCTTTAGTCCCTTCCCAGTGGCCACCTTCGGATTCATGTGGGAC
Y
TGTGGATCCCTGCTTGGTCCCACTCCCCGTGAGCCTCTGACACAGAGTCCTCAGACCTCCACCCTCTCCCTCCCATGTAGCCTCAGATCCATTGGACACT
Celera SNP ID:            hCV22274853
SNP Position Genomic:     19231
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,4)   caucasian(C,28|T,6)   total(C,54|T,10)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,2)   caucasian(C,23|T,7)   total(C,51|T,9)   
SNP Type:                 INTRON

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


Context             (SEQ ID NO:6064):
CAGTGTTTACAGATAAGACAGGGGGTCTCACTCTGAGCATGGGAACATGATGGCAATTAGGAGGCTTTTCTTCTCAGAGGCCTCTTGTGGCTTTCCACAA
Y
TTATTGTCTCATATTTTTATGGACAGTTTATACAGGCACCCCACAAGTCCTTTTCCCAACATGCCCCCCTCCCTTTTTTTTTTTTTAACCGCTATTGCTA
Celera SNP ID:            hCV27301787
SNP Position Genomic:     9162
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,8)   total(C,8|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6065):
GTGTAGCCTGCTCCTCTTACAGGTCATGCACGCAGCCTGTTTGCTCTGACACCAACTTCCTACCCTCTCAGCCTCAAAGTAACTCACCTTTCCCCCTTCT
Y
CTCACCCCCTCTTAGGCTTCCAGGTTAAGGTTCTCCGAGAAGACAGCAGAGCTGCTTTCCGCCTCTTTGAGACCAAGATCACCCAAGTCCTGCACTTCAG
Celera SNP ID:            hCV25630822
SNP Position Genomic:     25742
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:6066):
GAGGCGGACTGAGACAGAGCTGGGTCACCCCCACCCCTCCCTCCTGTGGCCCTGAAGCTTTGATGGCCCCTCTGATCTCTGCCCCTGTGCCCACGCTTCC
Y
TTCCCTCAGGCCTATGTGTGGCCACCCCAGTCCAGCTCCGGGTGTTCCGCGAGTTCCACCTGCACCTCCGCCTGCCCATGTCTGTCCGCCGCTTTGAGCA
Celera SNP ID:            hCV29416000
SNP Position Genomic:     18217
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6067):
CATTGGTTTCCTAAGTGGGTACAGGTGGTGGGGGATGTGGACAGCAGGACAGGCTGCCAACTTCCCCCATTTCCCCAGACCACCGAGGCCGGACCTTGGA
M
ATACCTGGCAACTCTGATCCCAATATGATCCCTGATGGGGACTTTAACAGCTACGTCAGGGTTACAGGTGGGAGTGCCCTTTAGTCCCTTCCCAGTGGCC
Celera SNP ID:            hCV29416001
SNP Position Genomic:     19109
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6068):
GGTCTCACTCTGAGCATGGGAACATGATGGCAATTAGGAGGCTTTTCTTCTCAGAGGCCTCTTGTGGCTTTCCACAACTTATTGTCTCATATTTTTATGG
M
CAGTTTATACAGGCACCCCACAAGTCCTTTTCCCAACATGCCCCCCTCCCTTTTTTTTTTTTTAACCGCTATTGCTATTATGGCTTATTTGTGGTGTTTG
Celera SNP ID:            hCV27301788
SNP Position Genomic:     9185
SNP Source:               Celera
Population(Allele,Count): no_pop(C,6|A,7)   total(A,7|C,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6069):
TGGGAAAGAATATTTGATCATGGGTCTGGATGGGGCCACCTATGACCTCGAGGGACAGTGAGTCATCTGGTCCCCTCAGTCTCTTGTCCTCCCCATGCCT
Y
GCCACCTAGGCCTTGCCCCTCAGAAGCCAGATGCCTGTGCTCTCCGTTTCCACCTGCCATCCTCCCGAGCCCTGCTGACTGCCCCTTTGCCCCCTGCAGC
Celera SNP ID:            hCV25630823
SNP Position Genomic:     26280
SNP Source:               Applera
Population(Allele,Count): african american(C,36|T,2)   caucasian(C,40)   total(C,76|T,2)
SNP Type:                 INTRON

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:6070):
TGTGGGACCTGTGGATCCCTGCTTGGTCCCACTCCCCGTGAGCCTCTGACACAGAGTCCTCAGACCTCCACCCTCTCCCTCCCATGTAGCCTCAGATCCA
Y
TGGACACTTTAGGCTCTGAGGGGGCCTTGTCACCAGGAGGCGTGGCCTCCCTCTTGAGGCTTCCTCGAGGCTGTGGGGAGCAAACCATGATCTACTTGGC
Celera SNP ID:            hCV29416002
SNP Position Genomic:     19323
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6071):
TCTTTTTAACTTTAGTAAATACGTTTACACACGGAATTTTTTACAATTATCATTTTAAAACTTGTTTAGATCTTTAAAACAAAATTAAACAACCTTTTTT
R
TATAAATTTTTTATAACTTTTTTTATGACTTTTACAGACAATTTTTAACATGTCTTAACTTTTTATGTTTTATAATTTTTTTACTAAAGGTACATTTTTA
Celera SNP ID:            hCV27301789
SNP Position Genomic:     11702
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6072):
CTCCATGGGGGTGGCGAAGGTGGAATGAGAGGATCTACACAGAGTCCCCAGCCTGGGCTCACCCTGCACCTTCTCTTCCCCTCTGACCACTTTTGCGCAC
R
TCATCCCCGCAGCCAAGGATGTCAAGGCCGCTGCTAATCAGATGCGCAACTTCCTGGTTCGAGCCTCCTGCCGCCTTCGCTTGGAACCTGGGAAAGAATA
Celera SNP ID:            hCV25630824
SNP Position Genomic:     26091
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

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:6073):
GTTGTTTCCTTTACCCGCCTCAGTGCTGGTGGCTCCGAATCCCACTCCTCAGCCCAGGCCTCTTCCCTGAACCATGGGCCCCACTCGTCCCACTCCCACA
R
CACCTCAGACGAGGCATGTCCCAAAGCCCTTCTTCATTCTGTGTCTCTTGTCTGGCTGGTGGGAGCCCCTCCCAGCCAGGAGCCCAGCCACTACTCTAGA
Celera SNP ID:            hCV29416003
SNP Position Genomic:     22032
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6074):
GCCCCCAGTACCTGCTGGACTCGAATAGCTGGATCGAGGAGATGCCCTCTGAACGCCTGTGCCGGAGCACCCGCCAGCGGGCAGCCTGTGCCCAGCTCAA
Y
GACTTCCTCCAGGAGTATGGCACTCAGGGGTGCCAGGTGTGAGGGCTGCCCTCCCACCTCCGCTGGGAGGAACCTGAACCTGGGAACCATGAAGCTGGAA
Celera SNP ID:            hCV25630825
SNP Position Genomic:     26479
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:6075):
TGAATGGACAGAGCCACATTTCCCTCTCAAAGGCAGAGTTCCAGGACGCCCTGGAGAAGCTGAATATGGGCATTACTGACCTCCAGGGGCTGCGCCTCTA
Y
GTTGCTGCAGCCATCATTGAGTCTCCAGGTGGGTGACTTTCCCTTATTGTAACCCCAGACCCTTGCCTCTGACCTCTGAGCTAACCCTCTGTCCTCCGGC
Celera SNP ID:            hCV25630826
SNP Position Genomic:     8362
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:6076):
TCAGTCTCTTGTCCTCCCCATGCCTCGCCACCTAGGCCTTGCCCCTCAGAAGCCAGATGCCTGTGCTCTCCGTTTCCACCTGCCATCCTCCCGAGCCCTG
Y
TGACTGCCCCTTTGCCCCCTGCAGCCCCCAGTACCTGCTGGACTCGAATAGCTGGATCGAGGAGATGCCCTCTGAACGCCTGTGCCGGAGCACCCGCCAG
Celera SNP ID:            hCV15926862
SNP Position Genomic:     26355
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6077):
CTTGTCCTCCCCATGCCTCGCCACCTAGGCCTTGCCCCTCAGAAGCCAGATGCCTGTGCTCTCCGTTTCCACCTGCCATCCTCCCGAGCCCTGCTGACTG
Y
CCCTTTGCCCCCTGCAGCCCCCAGTACCTGCTGGACTCGAATAGCTGGATCGAGGAGATGCCCTCTGAACGCCTGTGCCGGAGCACCCGCCAGCGGGCAG
Celera SNP ID:            hCV15926863
SNP Position Genomic:     26362
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6078):
GGAGCAGGTAGGAGGCTCGCCTGAGAAACTGCAGGAGACATCTAACTGGCTTCTGTCCCAGCAGCAGGCTGACGGCTCGTTCCAGGACCTCTCTCCAGTG
W
TACATAGGAGCATGCAGGTGCGGGCATGCTGGGGCTGGCCCGAGAAGCGCCTGTCGGAGGACTCTCTTTGCCCCTTCCCCCTCCTGTTTGACATCTTTTC
Celera SNP ID:            hCV22275221
SNP Position Genomic:     20076
SNP Source:               Applera
Population(Allele,Count): african american(A,13|T,15)   caucasian(A,16|T,8)   total(A,29|T,23)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,5|T,3)   caucasian(A,21|T,11)   total(A,26|T,14)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6079):
AGAGACAGGTTAAGAGTTCATAAAGAGTGGGGGCCAGGGGGCCAATTGCAAAATGGAGGCTGCAAAAGGCTCAGAGCTCTGGTCTCCACACTATTTTTTG
M
GTACAGTCACTCAGATCTAAGAAGCAGATGTTCAGGGAGAAACAGTGAAAGGGAGGCAGTGGGTCATAGGCGTAATCTATAGCAATAGAGTTTTAAATGA
Celera SNP ID:            hCV28003711
SNP Position Genomic:     8840
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6080):
GTGGACTGTGCAGTGACGGGGAGGAAAAGGGGCTGAAGGCCTCAAATCCCGTAGCCCAGGGAGATGCCCTTAGGTATGGCACCAGAGAGGTCTGTGGCCT
Y
ACATGTCCCACGTCCTCTCCCTGCCCCTTGCTGAGCCAGGTCCTTCGTACCTACAATGTCCTGGACATGAAGAACACGACCTGCCAGGACCTACAGATAG
Celera SNP ID:            hCV25921560
SNP Position Genomic:     22755
SNP Source:               Applera
Population(Allele,Count): african american(C,35|T,1)   caucasian(C,31|T,1)   total(C,66|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:6081):
TTGGCCCAGGAGCAGGTAGGAGGCTCGCCTGAGAAACTGCAGGAGACATCTAACTGGCTTCTGTCCCAGCAGCAGGCTGACGGCTCGTTCCAGGACCTCT
S
TCCAGTGATACATAGGAGCATGCAGGTGCGGGCATGCTGGGGCTGGCCCGAGAAGCGCCTGTCGGAGGACTCTCTTTGCCCCTTCCCCCTCCTGTTTGAC
Celera SNP ID:            hCV22275227
SNP Position Genomic:     20068
SNP Source:               Applera
Population(Allele,Count): african american(G,10)   caucasian(C,6|G,8)   total(C,6|G,18)
SNP Type:                 MISSENSE MUTATION

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


Context             (SEQ ID NO:6082):
ATCTGTAGACTAAAAGTAAACAGCATAAACAGATACACATTAAAGTAAAATTTGTAATAGTTGATCCTTTAATGGTCTTAATCTGTTTAAGAGGATTTAT
R
TTTGAAAGTCCGTCAGTAGCTCCAATGAGAATGTCAGTCTCAGGCAGGAGGGTTAAATGAGCCTGAGATGCTTTAAAAACCTGTTTTTTTAAAATTTGGT
Celera SNP ID:            hCV16072263
SNP Position Genomic:     9411
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6083):
GGAGATCCATGGCCTGAGCCTGTCCAAAACCAAAGGTGATGTCACCCTGTCTGGGCCTCAGGTGACCCTGCTTCCATTTCCCTGTACCCCAGCTCCCTGT
Y
CCCTTTGCTCTTAGTGTAGGAAGAGGGTCCAGTGATCTGGGGAGGTCTGTGCCAGCGTGCAGCTGGCGTGGGCCAGAGGGCAGAGGCGGACTGAGACAGA
Celera SNP ID:            hCV7515304
SNP Position Genomic:     18034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6084):
ATTTTTAAAGAGCAGGTTAGTGTTTTAAGAAAAACTTGTGTTTTATTTTAATGTTTAGTTTATAGAAAACTGGATGATATCTTTTTAACTTTAGTAAATA
Y
GTTTACACACGGAATTTTTTACAATTATCATTTTAAAACTTGTTTAGATCTTTAAAACAAAATTAAACAACCTTTTTTGTATAAATTTTTTATAACTTTT
Celera SNP ID:            hCV16072264
SNP Position Genomic:     11623
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6085):
GTGAGTGTCACCTGAGCGGCCACCTCTCCTCTCCAAGGCTACATGCGGATCCAGCAGTTTCGGAAGGCGGATGGTTCCTATGCGGCTTGGTTGTCACGGG
R
CAGCAGCACCTGGTGAGCTTGGGAGAGTGGTTCCAGGGTTCTGAGGGGGTCAGGGCTGGGGCAGGGGTGGGACAGAGCTGGTATGATGGGAGGGTGGATA
Celera SNP ID:            hCV22275263
SNP Position Genomic:     19764
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,12)   caucasian(A,18|G,20)   total(A,32|G,32)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,16)   caucasian(A,13|G,13)   total(A,31|G,29)   
SNP Type:                 MISSENSE MUTATION

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


Context             (SEQ ID NO:6086):
GGTGCTTGGATTGGGGCAGGGCTGGCATCGGGACCCGATTCAGGAGTGAGGGAGAGCAGGGGTGGAGGTGTCAGAGCGAAGTCTGACTGCTGATCCTGTC
Y
GTTCTCCCCAGGTTGCTCTTGTTCTCTCCTTCTGTGGTTCATCTGGGGGTCCCCCTATCGGTGGGGGTGCAGCTCCAGGATGTGCCCCGAGGACAGGTAG
Celera SNP ID:            hCV7515238
SNP Position Genomic:     6275
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6087):
GTGCTTGGATTGGGGCAGGGCTGGCATCGGGACCCGATTCAGGAGTGAGGGAGAGCAGGGGTGGAGGTGTCAGAGCGAAGTCTGACTGCTGATCCTGTCT
K
TTCTCCCCAGGTTGCTCTTGTTCTCTCCTTCTGTGGTTCATCTGGGGGTCCCCCTATCGGTGGGGGTGCAGCTCCAGGATGTGCCCCGAGGACAGGTAGT
Celera SNP ID:            hCV7515239
SNP Position Genomic:     6276
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6088):
CCTCGTGTTGGGGACACTCTGAACCTGAACTTGCGAGCCGTGGGCAGTGGGGCCACCTTTTCTCATTACTACTACATGGTGTGCATGAGCTGGGGAGTCA
M
GGAGGGCTGGGGTGCAGGGAAGAGCCCTCTGGGTGGGGCTGGGGGGGTTCAAGGCTGAGGCTGTCCCATGAAGAGGCAACCACTCTTGTCCCTCCCATTC
Celera SNP ID:            hCV7515273
SNP Position Genomic:     15919
SNP Source:               Applera
Population(Allele,Count): african american(A,1|C,13)   caucasian(A,4|C,30)   total(A,5|C,43)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,10|C,14)   caucasian(A,7|C,25)   total(A,17|C,39)   
SNP Type:                 INTRON

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


Context             (SEQ ID NO:6089):
TTTATTTATTGGAACTATAATTTTTATTGGGCTCAGTGCCACAAAGTTTAATAATTCATATATGAGCCTGTCCAATTAGAATTGCCATCTGATTTAAGTA
Y
ACTGTAAGTGCTTTTATGGTATTATGTGGCAAAAAGGACCATTTAACTAAATCATCATTTTGAACAATAACCCCCATTATTGTGTGGTTAGTGTGAAGTA
Celera SNP ID:            hCV27301790
SNP Position Genomic:     12733
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:6090):
AGGATGTCAAGGCCGCTGCTAATCAGATGCGCAACTTCCTGGTTCGAGCCTCCTGCCGCCTTCGCTTGGAACCTGGGAAAGAATATTTGATCATGGGTCT
R
GATGGGGCCACCTATGACCTCGAGGGACAGTGAGTCATCTGGTCCCCTCAGTCTCTTGTCCTCCCCATGCCTCGCCACCTAGGCCTTGCCCCTCAGAAGC
Celera SNP ID:            hCV7515347
SNP Position Genomic:     26207
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,8|G,28)   total(A,13|G,61)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,12|G,28)   total(A,17|G,61)
SNP Type:                 SILENT MUTATION

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


Context             (SEQ ID NO:6091):
GGCAAAACAGTGAAAGGGTAGCAGTGCGTCACAGGCATAATCTACAGCAGAAGCGCTTTAAATGAATCTCCTTTGTGCTCAAACAGCATATCTTTAACTT
R
TCGGAGAGTAGCTAGTGGGAGTGGGCTTAACTAGGAGCCTGCACGTCTGTCCACATTCCAATGCTTCAAAGGAGGGTCTTTCTCCTTGAATACAGTGTTT
Celera SNP ID:            hCV27301791
SNP Position Genomic:     14789
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6092):
CTGTGCCGGAGCACCCGCCAGCGGGCAGCCTGTGCCCAGCTCAACGACTTCCTCCAGGAGTATGGCACTCAGGGGTGCCAGGTGTGAGGGCTGCCCTCCC
M
CCTCCGCTGGGAGGAACCTGAACCTGGGAACCATGAAGCTGGAAGCACTGCTGTGTCCGCTTTCATGAACACAGCCTGGGACCAGGGCATATTAAAGGCT
Celera SNP ID:            hCV7515349
SNP Position Genomic:     26535
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6093):
GGGCCCCCTTCCTGCTGCAGGTTTCTTCCAGAGGGGAAGGATGAGTAGGGAGGATGTGGTAGTTAGGAGGGCTCAGGGTCTGACCACTCTCTTTTGCCTG
M
CCTCCTTTACCTGCCTAGGCCTTGGTCCGTGAGATGTCAGGCTCCCCAGCTTCTGGCATTCCTGTCAAAGTTTCTGCCACGGTGTCTTCTCCTGGGTCTG
Celera SNP ID:            hCV27301793
SNP Position Genomic:     15370
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6094):
CTGCAGGTTTCTTCCAGAGGGGAAGGATGAGTAGGGAGGATGTGGTAGTTAGGAGGGCTCAGGGTCTGACCACTCTCTTTTGCCTGCCCTCCTTTACCTG
M
CTAGGCCTTGGTCCGTGAGATGTCAGGCTCCCCAGCTTCTGGCATTCCTGTCAAAGTTTCTGCCACGGTGTCTTCTCCTGGGTCTGTTCCTGAAGTCCAG
Celera SNP ID:            hCV27301794
SNP Position Genomic:     15384
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6095):
CCTCTCCAGGTATCTGCAGGCTCCCCACATCCAGCGATAGCCAGGCTCACTGTGGCAGCCCCACCTTCAGGAGGCCCCGGGTTTCTGTCTATTGAGCGGC
Y
GGATTCTCGACCTCCTCGTGTTGGGGACACTCTGAACCTGAACTTGCGAGCCGTGGGCAGTGGGGCCACCTTTTCTCATTACTACTACATGGTGTGCATG
Celera SNP ID:            hCV27301796
SNP Position Genomic:     15805
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6096):
CAGTATGCTTCCCCGACAGCCAAGCGCTGCTGCCAGGATGGGGTGACACGTCTGCCCATGATGCGTTCCTGCGAGCAGCGGGCAGCCCGCGTGCAGCAGC
Y
GGACTGCCGGGAGCCCTTCCTGTCCTGCTGCCAATTTGCTGAGAGTCTGCGCAAGAAGAGCAGGGACAAGGGCCAGGCGGGCCTCCAACGAGGTGAGGGG
Celera SNP ID:            hCV27301797
SNP Position Genomic:     17512
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6097):
GGGCCTCAGGTGACCCTGCTTCCATTTCCCTGTACCCCAGCTCCCTGTTCCCTTTGCTCTTAGTGTAGGAAGAGGGTCCAGTGATCTGGGGAGGTCTGTG
Y
CAGCGTGCAGCTGGCGTGGGCCAGAGGGCAGAGGCGGACTGAGACAGAGCTGGGTCACCCCCACCCCTCCCTCCTGTGGCCCTGAAGCTTTGATGGCCCC
Celera SNP ID:            hCV27301798
SNP Position Genomic:     18086
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6098):
GACCCTGCTTCCATTTCCCTGTACCCCAGCTCCCTGTTCCCTTTGCTCTTAGTGTAGGAAGAGGGTCCAGTGATCTGGGGAGGTCTGTGCCAGCGTGCAG
M
TGGCGTGGGCCAGAGGGCAGAGGCGGACTGAGACAGAGCTGGGTCACCCCCACCCCTCCCTCCTGTGGCCCTGAAGCTTTGATGGCCCCTCTGATCTCTG
Celera SNP ID:            hCV27301799
SNP Position Genomic:     18097
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6099):
AGGATGGCTACAGGATGAAGTTTGCCTGCTACTACCCCCGTGTGGAGTACGGTCAGTCTTCCCACCGAGGCCCTGGCCTGACCCTCCCTCGGGGACCGGC
Y
GTTTTGGTCTCTCTGGGTGTAGCCTGCTCCTCTTACAGGTCATGCACGCAGCCTGTTTGCTCTGACACCAACTTCCTACCCTCTCAGCCTCAAAGTAACT
Celera SNP ID:            hCV22274141
SNP Position Genomic:     25625
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,8)   caucasian(C,13|T,11)   total(C,15|T,19)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,30)   caucasian(C,22|T,18)   total(C,30|T,48)   
SNP Type:                 INTRON

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


Context             (SEQ ID NO:6100):
AAGGCAAGCTCATTTTTGGGGGAGAAAGCAAGTGCTGGGCTCCTGGGTGCCCACGCAGCTGCCATCACGGCCTATGCCCTGACACTGACCAAGGCCCCTG
Y
GGACCTGCGGGGTGTTGCCCACAACAACCTCATGGCAATGGCCCAGGAGACTGGAGGTGAGGGGTGAGGCGCTCTGGCAGTGAGCCTGAGGCCCAGGGGA
Celera SNP ID:            hCV22274974
SNP Position Genomic:     20526
SNP Source:               Applera
Population(Allele,Count): african american(C,6|T,4)   caucasian(C,5|T,5)   total(C,11|T,9)
SNP Type:                 MISSENSE MUTATION

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


Context             (SEQ ID NO:6101):
GGCTAACCGGGCCAGGACTCTGGCCATCCTCGTTTTCCTGCCCTCAGGTGAGCGTCCACGTGTCCCCAGTGGAGGGGCTGTGCCTGGCTGGGGGCGGAGG
K
CTGGCCCAGCAGGTGCTGGTGCCTGCGGGCTCTGCCCGGCCTGTTGCCTTCTCTGTGGTGCCCACGGCAGCCGCCGCTGTGTCTCTGAAGGTGGTGGCTC
Celera SNP ID:            hCV15926839
SNP Position Genomic:     18533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6102):
ACTATTTATTGAGTACAATAACTTAGATCTAAGAAGCAGATGTTCAGGGCAAAACAGTGAAAGGGTAGCAGTGCGTCACAGGCATAATCTACAGCAGAAG
Y
GCTTTAAATGAATCTCCTTTGTGCTCAAACAGCATATCTTTAACTTATCGGAGAGTAGCTAGTGGGAGTGGGCTTAACTAGGAGCCTGCACGTCTGTCCA
Celera SNP ID:            hCV2610258
SNP Position Genomic:     14742
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,12)   total(C,12|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6103):
ATTTTTTGAAATCTGCCTCTGCTAAAGGAATTGTAAAAAAGCAGTCTTTTAAATCTATAATAACAAGCGGTCAGTCTTTAGGGAGCACAGTGGGGGATGG
R
AGCCCAGGTTGTAAGGCTCCCATCGGTTGAATTACAGCGTTGACGCCATCTACCGGACTTTTTCTTAATTACAAATACTGGGGAATTCCAAGGAGAGAAA
Celera SNP ID:            hCV2610259
SNP Position Genomic:     13512
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,8)   total(G,8|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6104):
TGAACTGTGGGTCGGGCAATAATGGGCACGGTGAGCCAAGTCTCGGGCTCCCTCCCCCTGCACCCACTCGGCTGAGGAGGAGGTGGCCATTCTGGACATT
Y
CTCTACAGGAACCGTGGGCTGAACAATTTTTTGAGTAGGTTTAGGGAGACTGGGGAGATTGGCATAAATCATCTTCAGACTCTCCTTTTTGTTAGTACTC
Celera SNP ID:            hCV27468087
SNP Position Genomic:     13886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6105):
TGCTTGGATTGGGGCAGGGCTGGCATCGGGACCCGATTCAGGAGTGAGGGAGAGCAGGGGTGGAGGTGTCAGAGCGAAGTCTGACTGCTGATCCTGTCTG
Y
TCTCCCCAGGTTGCTCTTGTTCTCTCCTTCTGTGGTTCATCTGGGGGTCCCCCTATCGGTGGGGGTGCAGCTCCAGGATGTGCCCCGAGGACAGGTAGTG
Celera SNP ID:            hCV7515240
SNP Position Genomic:     6277
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6106):
AGGCACCCCACAAGTCCTTTTCCCAACACAGACAGGAATACGGCAGCCTGTGCCCTGGGAGCTCACTGTCTTGTGGGAGGGAACCACTCAAGCCACTCCC
Y
ACTTGTCCTCCTGTCCCTCTCTTCTTGGGCTCTGTCCCCCACCTCTCTCTGTCCTTTGTCTTGCAGGTGGGGAGATGGAGGAGGCAGAGCTCACATCCTG
Celera SNP ID:            hCV25921538
SNP Position Genomic:     15107
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,2)   caucasian(C,21|T,1)   total(C,23|T,3)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:6107):
GGCCCAACACCCGAACCAATGCCTTGGTCTGTTCCCATCTTCTACAATTCTGATCCAACTCTGTCCCTGGAGTTGAAACTCAAAGTTCTGGGGGAGTCTG
Y
GCTAGCAGGGCAGGCTGTAGTCCTGTGTGACCTCACAACCATGTTTTCCCTGAGACAGAAGGAAGGGGCCATCCATAGAGAGGAGCTGGTCTATGAACTC
Celera SNP ID:            hCV7515314
SNP Position Genomic:     18875
SNP Source:               Applera
Population(Allele,Count): african american(C,23|T,9)   caucasian(C,14|T,18)   total(C,37|T,27)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:6108):
TAGAAGGCTGAAGTGAGATAATTCATGTGCTGGTATAAACTTTGTGGAAATGTGAGGTGGGGAGAGGAGGTGGGGCTGTTTTGAGGAAGGAGATAAGTTA
Y
TGGAGCCGCAAAAACAGGTTTGCTTGTGCCCTTCTAACATCGCCTTCCCTTTTCTGTTGCTGAAGTTTTCCTTGGGCAGCAAGATCAATGTGAAGGTGGG
Celera SNP ID:            hCV598831
SNP Position Genomic:     21620
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,13)   caucasian(T,4)   total(C,1|T,17)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:6109):
AGAAATGACCAGGTCAGAACCAAGGGTGGTCCAGAAGCTAACCCTTAGCTTAGGGACAGTTTCACAGAGAACACGTCCATGATGCAAGACTCTGCTGAGG
S
CCTGGAGCAGTGAAGACTGGGGCAAGGTCACCCTCTGGGAAGTGAAGTCACCAGAGACCTTGCGGAGCAGCTTTGAGAGTTCTCTGAGTAGGAAGGTAAC
Celera SNP ID:            hCV16072704
SNP Position Genomic:     24806
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6110):
TACGTTGCTGCAGCCATCATTGAGTCTCCAGGTGGGTGACTTTCCCTTATTGTAACCCCAGACCCTTGCCTCTGACCTCTGAGCTAACCCTCTGTCCTCC
R
GCACCAACACCACCCCACTTCTCACATCTCATCTCAGACTCAAAACCAGGAAACACCCAGGAGACCTGGTTTCTCTCCAACTCTGTCTCTGTGACTCGGC
Celera SNP ID:            hCV11409036
SNP Position Genomic:     8460
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:6111):
GAGGTGAATGGAGCACCCCTGAATATAAGTCCCCGGGCCCCCAGCTTTGTCCTCCACCCTCAGCACTCTCTCTGCTGGCCAGGCCAGGGGCCCAACACCC
R
AACCAATGCCTTGGTCTGTTCCCATCTTCTACAATTCTGATCCAACTCTGTCCCTGGAGTTGAAACTCAAAGTTCTGGGGGAGTCTGTGCTAGCAGGGCA
Celera SNP ID:            hCV598832
SNP Position Genomic:     18787
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,17)   caucasian(A,16|G,14)   total(A,25|G,31)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:6112):
TGGCTCGAGGGTCCTTCGAATTCCCTGTGGGAGATGCGGTGTCCAAGGTTCTGCAGATTGAGGTGAATGGAGCACCCCTGAATATAAGTCCCCGGGCCCC
Y
AGCTTTGTCCTCCACCCTCAGCACTCTCTCTGCTGGCCAGGCCAGGGGCCCAACACCCGAACCAATGCCTTGGTCTGTTCCCATCTTCTACAATTCTGAT
Celera SNP ID:            hCV598833
SNP Position Genomic:     18728
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6113):
GACAAGACAGAGCAGTGGAGCACACTGCCTCCCGAGACCAAGGACCACGCCGTGGATCTGATCCAGAAAGGTTCTGGGTGCAAGGGCAAGCAGGAGGGGG
K
CCAGGAAAGGACAGTTACTGGAAGATGGACAGCCCAGGAGGCTACAGAGGGAAAGAAAGGGGGCCCCTGATGAGGATGGGGAGCATGGCCTTGGGCTCAA
Celera SNP ID:            hCV22275273
SNP Position Genomic:     19552
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(G,35|T,3)   total(G,73|T,3)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,211|G,1276)   total(G,1276|T,211) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6114):
GGGGCTGTGCCTGGCTGGGGGCGGAGGGCTGGCCCAGCAGGTGCTGGTGCCTGCGGGCTCTGCCCGGCCTGTTGCCTTCTCTGTGGTGCCCACGGCAGCC
R
CCGCTGTGTCTCTGAAGGTGGTGGCTCGAGGGTCCTTCGAATTCCCTGTGGGAGATGCGGTGTCCAAGGTTCTGCAGATTGAGGTGAATGGAGCACCCCT
Celera SNP ID:            hCV598834
SNP Position Genomic:     18606
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,27)   caucasian(A,5|G,33)   total(A,6|G,60)
SNP Type:                 MISSENSE MUTATION

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


Context             (SEQ ID NO:6115):
ACCCCTCCCTCCTGTGGCCCTGAAGCTTTGATGGCCCCTCTGATCTCTGCCCCTGTGCCCACGCTTCCTTTCCCTCAGGCCTATGTGTGGCCACCCCAGT
Y
CAGCTCCGGGTGTTCCGCGAGTTCCACCTGCACCTCCGCCTGCCCATGTCTGTCCGCCGCTTTGAGCAGCTGGAGCTGCGGCCTGTCCTCTATAACTACC
Celera SNP ID:            hCV598836
SNP Position Genomic:     18249
SNP Source:               Applera
Population(Allele,Count): african american(C,30|T,2)   caucasian(C,28|T,2)   total(C,58|T,4)
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,6)   caucasian(C,31|T,9)   total(C,57|T,15)   
SNP Type:                 SILENT MUTATION

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


Context             (SEQ ID NO:6116):
CCACTCCCAGTTCGGTACCGGGTCTTTGCTCTGGATCAGAAGATGCGCCCGAGCACTGACACCATCACAGTCATGGTGGAGGTGAGTCCCCGACCTCTGG
M
CTTCCTGATCCTGGCCACTGATGTGACCTCCTGCCTGTGAGCACTTCTCCCCTTGCAGAACTCTCACGGCCTCCGCGTGCGGAAGAAGGAGGTGTACATG
Celera SNP ID:            hCV7515248
SNP Position Genomic:     7201
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)   no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6117):
TTTGGGGCCAGAGATCCGAATTCCGGGATTACGAGTGGAAGGTGGGCAGCTCTCTCCAGCAGCCTCTCTTATGTTGCTGGTCTCAAGGGGTCGGGGCGGG
K
GCTGAGGTGTATGTCCTTTTTGTCCTCTCATGCTCACCCCCACCTGGCCCTGCAGTGGGTCAGTATGCTTCCCCGACAGCCAAGCGCTGCTGCCAGGATG
Celera SNP ID:            hCV598837
SNP Position Genomic:     17351
SNP Source:               Applera
Population(Allele,Count): african american(G,35|T,3)   caucasian(G,34|T,4)   total(G,69|T,7)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:6118):
GCACCTCCGCCTGCCCATGTCTGTCCGCCGCTTTGAGCAGCTGGAGCTGCGGCCTGTCCTCTATAACTACCTGGATAAAAACCTGACTGTGAGGCCCCAT
R
GGAGCCTGAGCATACAGGAGTTGGGGGAGCCAGGGCCCAGTGAGGGGTGGGGAGGCTAACCGGGCCAGGACTCTGGCCATCCTCGTTTTCCTGCCCTCAG
Celera SNP ID:            hCV22274904
SNP Position Genomic:     18379
SNP Source:               Applera
Population(Allele,Count): african american(A,8|G,22)   caucasian(A,17|G,19)   total(A,25|G,41)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,23)   caucasian(A,5|G,9)   total(A,10|G,32)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,29)   caucasian(A,13|G,21)   total(A,18|G,50)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:6119):
CTCTCAAAGGCAGAGTTCCAGGACGCCCTGGAGAAGCTGAATATGGGCATTACTGACCTCCAGGGGCTGCGCCTCTACGTTGCTGCAGCCATCATTGAGT
M
TCCAGGTGGGTGACTTTCCCTTATTGTAACCCCAGACCCTTGCCTCTGACCTCTGAGCTAACCCTCTGTCCTCCGGCACCAACACCACCCCACTTCTCAC
Celera SNP ID:            hCV7515249
SNP Position Genomic:     8385
SNP Source:               Applera
Population(Allele,Count): african american(A,9|C,17)   caucasian(A,20|C,16)   total(A,29|C,33)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)   no_pop(C,-|A,-)   SC_12_A(C,7|A,14)   SC_12_C(C,7|A,10)   SC_12_AA(A,5|C,12)   total(A,29|C,26) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6120):
CCAAAAGGCGATTAATGAGAAATGTGAGTTGCGGGTGCCTAGGCAGTAGCTTGGGCTCTCCACCTGGGATCCGGGTTGGGGGTCTGCCTCTCTGCCCCTC
R
GCTCCTTGCTGAACCCACGTGTGGTATTTGGGGCCAGAGATCCGAATTCCGGGATTACGAGTGGAAGGTGGGCAGCTCTCTCCAGCAGCCTCTCTTATGT
Celera SNP ID:            hCV598838
SNP Position Genomic:     17224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6121):
AGGACATTCAGCAAAACACAGACGGGAGCGGCCAAGTCAGCATTCCAATAATTATCCCTCAGACCATCTCAGAGCTGCAGCTCTCAGTAGGACTCCTCGG
M
CCCCTGGGAGATGGTGGGGGAAGGGGAGGAGGGTGAGCTGGGGTCCCAAGGATCCATGGCCTGACTTGGGGGGAAGGTGGGGTACTTGGCTCTGAGCTAC
Celera SNP ID:            hCV598839
SNP Position Genomic:     15583
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6122):
GAGAAACGTGAACTTCCAAAAGGCGATTAATGAGAAATGTGAGTTGCGGGTGCCTAGGCAGTAGCTTGGGCTCTCCACCTGGGATCCGGGTTGGGGGTCT
K
CCTCTCTGCCCCTCGGCTCCTTGCTGAACCCACGTGTGGTATTTGGGGCCAGAGATCCGAATTCCGGGATTACGAGTGGAAGGTGGGCAGCTCTCTCCAG
Celera SNP ID:            hCV7515283
SNP Position Genomic:     17209
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6123):
CGTGCAGCTGGCGTGGGCCAGAGGGCAGAGGCGGACTGAGACAGAGCTGGGTCACCCCCACCCCTCCCTCCTGTGGCCCTGAAGCTTTGATGGCCCCTCT
R
ATCTCTGCCCCTGTGCCCACGCTTCCTTTCCCTCAGGCCTATGTGTGGCCACCCCAGTCCAGCTCCGGGTGTTCCGCGAGTTCCACCTGCACCTCCGCCT
Celera SNP ID:            hCV22274906
SNP Position Genomic:     18190
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,30)   caucasian(A,8|G,32)   total(A,12|G,62)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,28)   caucasian(A,7|G,29)   total(A,11|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:6124):
CGGAGCACCCGCCAGCGGGCAGCCTGTGCCCAGCTCAACGACTTCCTCCAGGAGTATGGCACTCAGGGGTGCCAGGTGTGAGGGCTGCCCTCCCACCTCC
R
CTGGGAGGAACCTGAACCTGGGAACCATGAAGCTGGAAGCACTGCTGTGTCCGCTTTCATGAACACAGCCTGGGACCAGGGCATATTAAAGGCTTTTGGC
Celera SNP ID:            hCV7515359
SNP Position Genomic:     26541
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6125):
TAGTTCTGCCTACAAAAGTTTGACAAACTGTGGGACTATTTAACATACCCTGGGGCAAAACTTTCCAATGATATTTGGCTGCAGGTTTTTTGTTATTAAC
R
GCAGGAATGGTAAAGGCAAATTTTTTGAAATCTGCCTCTGCTAAAGGAATTGTAAAAAAGCAGTCTTTTAAATCTATAATAACAAGCGGTCAGTCTTTAG
Celera SNP ID:            hCV2610260
SNP Position Genomic:     13392
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,11)   total(G,11|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6126):
CAGCATTTGTAATTGTCTTTTGCAAAGATTAATAATATTGAATAAGTTGGTCTCTACTTTTTGCTGCACAAATCTGGAAACTGATCTCTAACAGGCTGGA
K
AGTTCTGCCTACAAAAGTTTGACAAACTGTGGGACTATTTAACATACCCTGGGGCAAAACTTTCCAATGATATTTGGCTGCAGGTTTTTTGTTATTAACG
Celera SNP ID:            hCV2610261
SNP Position Genomic:     13292
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,13)   total(G,1|T,13) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6127):
TTGTTAAATTAATCTGTCATGTAACTGAGTTAATAAATGCCTGTTTAACCTGATTTTTATTTATTGGAACTATAATTTTTATTGGGCTCAGTGCCACAAA
R
TTTAATAATTCATATATGAGCCTGTCCAATTAGAATTGCCATCTGATTTAAGTATACTGTAAGTGCTTTTATGGTATTATGTGGCAAAAAGGACCATTTA
Celera SNP ID:            hCV2610262
SNP Position Genomic:     12678
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,4|G,11)      total(G,11|A,4) ;no_pop(A,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:6128):
GGGGGAGCCAGGGCCCAGTGAGGGGTGGGGAGGCTAACCGGGCCAGGACTCTGGCCATCCTCGTTTTCCTGCCCTCAGGTGAGCGTCCACGTGTCCCCAG
Y
GGAGGGGCTGTGCCTGGCTGGGGGCGGAGGGCTGGCCCAGCAGGTGCTGGTGCCTGCGGGCTCTGCCCGGCCTGTTGCCTTCTCTGTGGTGCCCACGGCA
Celera SNP ID:            hCV11917747
SNP Position Genomic:     18502
SNP Source:               HGBASE
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6129):
TTTTTACTTTTTTGTATTTTTTTGATTTTTGTCTTAGTCTTTTTTTTACTTTTATTTTTTTAAATGTGTAATAATTAGATGAGTGTTGGTAACAATGGAT
R
TATGTACATATTTTAGTTTTTAAAATTTAGGGATGTGTTTAACATCTGTTTGCCAGAACTGACTAGGTTCCAATTCTTTACGGTTAACACCTATTGAAGG
Celera SNP ID:            hCV16222286
SNP Position Genomic:     11917
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6130):
AGCAGAGATGGCAGACCAGGCTGCGGCCTGGCTCACCCGTCAGGGCAGCTTCCAAGGGGGATTCCGCAGTACCCAAGTAGGGGCCGTCCCCGGGCTCTGG
S
GGGGGTGGGTAGTCCTCAGACCAAGGGCTTGCTTGAGTCCTGGCTCAACCTCCCTAGGACACGGTGATTGCCCTGGATGCCCTGTCTGCCTACTGGATTG
Celera SNP ID:            hCV11917749
SNP Position Genomic:     21067
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6131):
TGAGGCTTCCTCGAGGCTGTGGGGAGCAAACCATGATCTACTTGGCTCCGACACTGGCTGCTTCCCGCTACCTGGACAAGACAGAGCAGTGGAGCACACT
K
CCTCCCGAGACCAAGGACCACGCCGTGGATCTGATCCAGAAAGGTTCTGGGTGCAAGGGCAAGCAGGAGGGGGGCCAGGAAAGGACAGTTACTGGAAGAT
Celera SNP ID:            hCV27301800
SNP Position Genomic:     19478
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 SILENT MUTATION


Gene Number:                 45
Celera Gene:                 hCG2003534 - 30000023177771
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W2JD(13787946..13822005)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1706):
GGGGGCCTCCGGGATGTTCGCCAATAGGGGTCCTCCCCAGCTCCAAGCGTCCTGAAGCGCTGGAGTTGCAGACCTGGGTCTCCAGTCTAACCTCAACTGA
CACTCCCGGGCCCCACCCACGAACCTTGACCTCTTCCCGGCTCCCGCGACTTTCACCTGCTGAGCGTCATCACCACCCACCGCCACACCCTGCAAGGCAG
AGGCTAGCGCAGCCCACTCGTACCTGCCCGAGCCTGGCCGCCGCCCCCACTTCCCTCCCCGCGTCCGTGGTGGGGACGGGGTGCCCCACTTTCTTGGAGC
CACCCCTTCGGCCTCCTGAGGTTTCCACGCCTTTACCATATCCCGGCAAACCTGTAATTCCAGCAGTTCTGCTCCCCCTCCCCCACAACCCCTAGGAGAC
CCCATGTTGGAGAAGCGACCCACTGGGCCCCGCCCCGACCCCCAGCATTGTTTTCGGCCCTACGGAGGAGCCTCATTAGGAAGAGGACGCAAAAGGGAAT
CGCTGGCCCCCAGTCTTGAAAAGCACTTCCTTCCCCAAGGGCTTGGTACCCGTTGGGTGGGTAGAATATCTTCAATCCGAGGGCAAGGAAAGGTAACACA
GGGTCCCTTCAAGGCTGGGACAGAGTCAGAAGAGAAAAACAGACCTGTCCTGCTCTTAGTAGCAGGGCGGTTAGGATTCCAGAACCCTCCAGCCTTAAGA
GGAAGAGCCTCCCCCAGCCCCTCACCACCTGAAGAGCCCCAGGTTGCACTGCTTTCCTTCCACCTTACTCCACTCCACCTCTTCAGCTGGCAGACAGTCA
GCAAGTCAGAGCTGTTTCCTGCAGGCTGAGAGGGAGGATTCCAGCTACTTCAAAGAATTAAGTTCATAAACCAAGAGGTGCCCCAACCAAACCTTCTCAC
CAAAAAGCTGAGGTCTTCCCTTCATTCTTCTACCCCCACCTCTCCAAAGGTTTAAATAATAACACTGATCTCTTAAATTATATTTATTATATGAAATACA
AAATGTGGAAAATTTGGAAATTACAGAAAAACCAAAGATGAAAATTACAGTGACTTTGTTCCACCATACAAAGATAACCACTCAACATTTTTTAGTATGC
CTTCCGTCTTTTTTATCTGCTCTACGTATACAAGCATACACCCATATTTTAAAAAACAAAATTGAAATCACATAACATGCACTATTTTTACAACCTTTTA
ATATTCAAGGAGCATTTTTCTTTCAGTCAGATGTTCTTTTACATGACTTTTAATGTCTGCGCGGTACTCCACCATCTGGATGGAGATACAATAATTTACT
TAAGCAATCCCCTATTGCAAACTTTCGTTACAGCAGAAAAGGAATAAATTCCCAACCAAACCATTGCTTCCCATTTTTCTCCATTGCAATGCTGGGATGA
ACATCTTATCACTAACTAAATCCTTAAGTATTTTCTTAGGATAAATTCCCAAAGATAGAATTCGTAGGTCAAATGACATGGAGGCTTTTAGGCCACATGA
CACATATCACCCAACTGTCATCCAGGAAGCCTGCACCGATGTATACTCCCACACGCAATGTATGGGAATGTTTTTTCAGTAGTCTCTTTGCCAATATTGG
GTCTTATTTTTTTCTGTTATGGTTTGCTAAGGGAAAAATGCTTCCAGCTCTATTTGCCTTTCTTTAATTACTAATGAAGCATACTTTTTTTCATGGTTTT
ATCCATTCAGATTTCTTTTATGAATTTCCTGTGTGTGTCCTTTCGCAGATGGTTCTTGGTCCTTGAGGCTGCTTATATAAACATTACAGGCTGGGCGGAG
GTGGAAGTAGGGCGGTGAAGCCACAGGGCACCGCACTATGGTGCCACATCTCGGAGGCAGAAAGCCTGGAGAGAAATGGTGATCAAAGTAGGAGAGGGCT
GGAGGCTCGCCGTCAATGGAGGCTGGCTGCCCTCCCTCCTCTTGGGGTGCTCCTGGCCTTTAGGGGCTCCTCTGCTGGATGCCCAGGTAGGACCCTGTGC
TCTCCAGGCCTGGTCCTTCACTGGTCTCCATATTCCCAGGCTGCCTCTCCTCACCTCTGCTCCATGATGGGTGAAGATGGCAGAGGCACATAGCGAGGGC
TGGAGGGAGATGCTGTGGCCAGTGAAGCAAGGAGAAAGTACGGAGGCAGTGTCCAGGGACAGAGTCACCTTTGTTGCAGCCTATGAGTCTATCCCCTGCT
TCTCTACCACTGTCCCACACGCATCCTGCCCCTCAGCTTGGCTGCAGAAGAGCAGGGTTCCACGGTCTACTCTTCTCCACATCCTTGAGTTTTTCACAAG
CGGAGGACAAGATACAGCTCCCTGCACATCTCCTCCCACCAAATCGAACAGACACAGCTTCCTGTAGCCGCTAGGTGAGAATGGATCAGGGCTGGAGGTG
GCAGGTTTACACTCACTGCCTGATATCTGGAAGGAGGTCACATCCCACAACCCACCTCCCCTACTTGCTGCAGGGGAGAATTTCCTGTCTGCACAGGCCT
GAGCTGGGGATCACATACCACCTTGGAAAGCAAAGTGAGGAAAGAAACAGAGTAGCAGCAGTTAGAATCCCACCAAGGGGCTGCTGTCCTGCTTTGGATA
TCAGGGGAAGCCTTGGGCCACCCTTGCATGGGGGGAAGTCACGGAGAGGCGAGCTCTTACTAGCTCCTCGCATTGGTCTAACTCTAACCCCCTCCTCCAG
CTTCCCATTCCCCACCCAGCTTCTGGGTGATGGTATCAGGGATGGGGGAGGGACAACAGCTTCTGTGAAAAGGTGTTTTGTTTCCACCCACAGCAGGGGG
AGAGCCCGGGTTCTGAGTCAACCCAGATGGGCTTCTGATTCCCTCATGCACACTCATCTGTGTGACTGCCCATCTCACAGGTGGAGAAACTGAGACAGGA
GGTCTAAGGGTCTCAGATACAGGTAAGTGCCCAGGAATCTAGAGTCTGGGCCAGCCTAAGGAAATGCAGGGAAAAGTAAGAGCAGAAGGATGACTCCTCA
CGCCTGGGTTTAGTATCACTTTTCCCTGAAGAGTGAGCTTACTTTTGGACCTCATCTGGAAAGGCCAGTGGGGAAGAATGAAAGATACGGAAGGAGGGTC
AAGAAGGAAGTCGGGGAGACAGAGTGTTCTCTCCACTTCTTCCCACTGTCACACAAAGACCAACTAACCTTGGGTTGTTTGAGCCTTCTACTCCTCAATC
CAGCCAGTGTCTCTAATCTAAAACCGCTCCTTGCTGGGCCAATCTGGGCAAAGGCTCTCCAACTTGCCCAAAACGTATCATCCACCCTGCTGTTCGGACC
TTCCCAGCCCATTTCTGTCACCTTCCAGATGATGGGGAAAGCAGCTCCTCCTCCTCCTCGAAGCCAGGGGCAGAGGGCAACAGTTCTTCAACTGGCAGCT
TTAGCTGGGTCAGGACATAAAGCTTGCCACTGAAGAACTACTGCGGCTCAGCCAGGTGAGGGCGTGAGAGGAACAGGCTCCTAAGGGAAAGGGAGGGAAA
ATGGGAAAGATCTGAGCAGGGCATGTTGCTGCAACGCTGACCCACTCGCTGGCCATCAGGGTCCTGCCCCAGTAGACCTCTGAGATTCTAATGCAGGGCT
GCAGCTCTGATCTGGGCCCGCGGAAGCTGTTAACCTCGCTGAGCAGCAAGAGGTGGCTGTAAACAGACTTCCCTTGCTCTTCTTTCCAGAACTGGAGTCT
AGAGAAACCCAGTCCTGCTCTCACCCTCCCCTGCCCTAGCGGCCCCTGGGGGCCCAGCCTCCTCAGCATTCAGACAGGGCGGGGCCCGGGACCCTGGACA
CACCCCACCAGCACGCAGGTACTAGAAGTGTGGTACCTCAGGTCCAGAAATGTGAGTTCAGTGATCAGCCCAACTGACTTGTTCCCAGGGAGTTCAGCTG
GAAGGAGAGTTCTGGGGGCCTGGATTGGGGAAGAGTGAGGAAGGGAGGAGGCCTAGCGTTTGAAAGAAGGTCAGCAGAGGCCCCCGGGGCTGTGAGGGGC
GGACAGGGGACCACAGGCTGGAGAGGAGGGAGGTATCGGCAGGGTGGCCGGGGCTGTGAGGGGCGGGCAGGGGACCACAGGCTGGAGGGGAGGGAGGTAT
GGGCAGGGTGGCTGGGCAGCTTCCCCAGGACTCTCAGATGCCAGGCATTCCGCTTGCGCATTCCGGGTACATCTGGTATGAATTCCAGGCTGTCTGCCGG
CCCCTCCATGTCTGAACTTTGTTCCAAGTTCCAAGCCCCGCCCCCACAGTTCCAACGCATGAATCAGCAGGAAAAGCCGGGCCCTGCAGCATGGCCCAGG
GAGGGGGCTGGGGGCGTGGCAGGCTCGGGGGATGTGAGCTGGGGAGGGCGGGTCCGTGCTGACACTCAGTCCAAGGGCATGGCCCACGCCAGGCTGAGGG
GCCAAGGCGGTCTTGCCTTGGAATTTCTATACTCAGAGGGTAAGAAAGATTGGGGGATACGGGGTGCGGTTCAAATTCCGAAACCCTCTTGGGAGGCATG
AACTTTGTGTATCTTCCTTCCCCTGGGTGACCAGTCCAACTCCGTCCGACCTTCCTCTGTCTGAGATAGCTCTGTTCAACCCAGAGGACTCAGCAGCTGC
TGAGAGTCTGTGCCAAGCAGGTGCCCTTGGCTGCAGGGCGGGGTGGGCCCAGGGCACTGACCCTCTGACCAGCTGCTCCATCAACCCTCTGGCACTCTGA
CAGCTCCTAGCCCAATCTGACAGCCAGGATGACAGGCCAAAGGAGTTGGAGGCTGGAACCAGGGCCGGAGGGAGGTGGGGGTGACAGCCTCGCCGGAGGC
CATGGGGAGGGGCCAAGAGTTGGCCGAGAGGTGGGGAGAGAGGCAGCCCAGTGATGACTAACCCAGGCGCCCCACCCAGCCAGCCGGCTTCCCAGGCAGT
CAGGGCCAGGCCTGGGCTAGGGGCCTCACAATCGGACAGGCTGGGGGGAGGTGCAGAGGTGACCTTCTCTCGGCCCAAGACGGCCAGTTAGTCTGGGGAG
CGGGGGTTAGAGTTTCCAGGCCCTCCTCTTGCCCTCTTCCCCCCGCCCAACCACGGTGAAACCCTAACCTTTGGGTTGCATAAGGCCCCGGCACCGCCGC
CCCCTACTCCTCTCCCCTCCCCCCTTACATAACATCCCCTGGAGAGAACGAGAGGAGGGGCCGGCCCGCCCAGCGACCCCTTCCCTGCCAGGGCGCTGAA
CTGGCCCTGACCCAGTGAACGCCGGCAGAGGCAAAGCACCTCCTCGCCGCCCGCTCGGGGGGTCCAGACCCTCCCCAGGCTAGATGGCCGGCCCCTGTAT
CCTCAGACCGGGGGCCGCCGGGTGAGCCGCCCCCGGCCCTCCGGCCCCTCGGCTCTCCCCCCGCCCCCCGCCACTCCGCCAGCCCTTCCGCCACGACTCC
CGTCCCAGACTCTTTCCTCATAGCTCCTGACACACTAACCCGGCCAGTCCAGGCCCCTCTCCCCGAGGCGCCCCTGCCCCCGCCGCCCCTTCTCCTCCCG
GAAGGGCTGGGTGTGGCCGCCCGGACCCCACTTTCACCCTCCATCCCGTTACCGCGGCTCCCCGCTGCGTGACCGGGTCGCCAGCTCACACCCACCTGGT
GCTGGGTGTGGGGGTTGCTGCACGAGGGGGAGCAAATCACTGCGTCCGCTCCCCACGGCCGGCGGCGCTGTCTCTTCTCGGCACCCAGCACACACCGGCT
CCAGGCTCCGATCAGCTGGCGGCGTCGTGACGCACGAGCTGCGAATGCACGGCCCGGGGCCAATCACCGCCCACTGCTGGGCAACGTGGCCCCGCCCACC
CGGGGGCCGACGGGGCCTCGCCCTGGTCCCGCCTCTCCGGGCGCCCTGGCTCTGATTGGCAAGGAGGCCACCCTTTTGCCGGGCGGAATTGCACGAAGCC
ACGCCCACCCACTGAGGAGCCGGCCAATAGACGGACAGGTGTGGCCCAGCCCTCCGCGTCAGCGACCCGCTTAGAAAAGCGCTACGTCAAACGAGAGTCC
TAAAGAGCAGGCGAAAGCCACGGCGTCTGCGTTTGCAATGCATGCTGGTCCGTGTAGTTCTCAGCCTGACACCGTCGTTCCCAGAACCCAGCGCGCTCTG
TGAGTTGGCATTTTTAAACTGAGCTCGGAATCCAGCCCGGGGAAGTCCTTAAAGGGCGACAGCCCCTCCTTGTTGGAGTCGTGAGTGCTTCTTTTAGACA
TTCCCCAAACTGACTCGCCGGCCTCTGCGGGACGCTATAGCTCTTTAAGGAAAGGTGGAGCGGACCAAGGAGCAGGAGTGGGCAGAGCGTCAGCCCCCAG
GGCAGCAGAGACTGCCGTTGGAGAGCTCTCCAGGGTTTTTGGAGGAGGGAGGGTGCTCGCCTCGCCCAGCCCACTCCTCCTGGGGGCTCTTCCTAACCAC
AGGAGGCTTTTTTTCTTGGATGTCTCTTCCCAGTCCCAGAAGAGCCCCCAGAGCCTCCCAAGAGGTAGCTTTCTAACAAAAGATTCATAGCACAGTCCTC
ACCTTAGGGTAGAGGGAGGGCTTCTGGTCAGAAATTAGGGGATGGGCCATGCCAAAGTGCAAAGGGTCAGCAATCGCATCCTCTGATTAACCCCCATTCA
GTCCCGCCCTCCAAAGCTCTTCACTGACTCAGGCCTACTTAGGGAAGAGATTCGAAGGTGGAGACCAATGAGCAGGCTGCTCCTTCCCCAGGGGCCAATC
AGAGTCTAGATGAGCGGGGGATGGGCAAAAAGTGAAATGAACCCAGTGACTTGGCAAAAGCTGCTGGTCGGCGTTTTTAAAGGGGCAAGCCGGAGACCTG
CCCTACCTTATCAATCCCCGCAAGTCCCCCAAAGAGGAACATGTGGACTGAAATCCATGCCTTTTCCTTCAGCTCCAAATAGGGGCTGAGGGTAACTAAG
CAGGAGAGATGAGGCTGGAGGGTGAGATCCTTCCTTCTGTTAAATACGCACTCCATCAGGTAATTGATAAGGTTCACTTGGAGCTCCAAAATTCTGAGCC
TGCGTTCAGGACATTGCGCCTTTAAGGAAACTTCCTGCCTTGCGCCCCAGTAACAGCTGATTGTTGGAAAGTGTGACCTCTGGGGACGAATCAGCTGTTA
CCACATCCTCCTCCTTGCTTACCCTCCTCCATCCCCTTATCCACTCCCATGGGTGGTGAAGGAAAGAACGTGGGGGATGTGATTGTATGATCTTTCTTTT
CCCCCATCACTCCAAGACTGTCTCCCCCAACCCCAACCCCGCTCTGCTCCTTAGTTCTTCAGAGGCTCTGGGCTTGGAAAGAGAGGTATTTCCTGTTAGC
ACAGTAAATTCAGACTCTGTGGTCTAGACCCTCCCTGGTCTAGGGGAAGGCCAGTACTGGGGAGGTCCAGAATGGTGGCTGGCGCTGGGGAGGGTACAGT
GAACCCGAGGACCAAGCCTGGGGAGGAGGAATGGCTATGGGAAGCAAACTTGGGGTTCAGAACGCTGCTTCTCAGGCCAGCCGCCCCCTACTTCCTACTC
AAGTTGCCCTATTCCTCCATGGACAGGTGTCTGCTGATGGGATCCTCCTGCTTTTGCCCATTTACTCCACCTCCTTATTTATTTTTTTTTTTTCTGTTTT
TGAGACAGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTCCTTC
AGCCTCCTGAGTAGCTGGGATTACAGGCGTGCGCTACCACTCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGTGTTTTGCCATGTGGGCCAGGCTGGT
CTCGAACTCCTCACCTCAGGTGATCCACCCGCCTCGGTCTCCCAAAGTGCTAGGATTATAGGCGTGTGAGCCACCGCGCCCGGCCGCATTCACTCCACTT
CTAACTGTTCTCAGCTGCCACCTGGTCCCTGGGCCGCTCCATTTTTGGCTTTTGGCGGTGCCCTGCCCACATGGCCACCCCCCATAGCAAGGGTCCTAAT
TGCTCAAGGACTGCAGGTGGGACACGTTGGCCCCAGAAGCCAGCGTCTTTGGCTGGGAAGTGCTGGGAAGACCCAGGTAAATATTTTGCCTCGATCCTGA
GTTGGGAGTCAGGGTCACTCCAGGACAAGCTTAGTGTGAAGTCCTAGGACTGACTTGGCAAGGCGTGGAGAAATTGAGCAGGGCCCTGGCCAAGCATGGA
AGGAAGTGAAGCCTCACCAGTGGCCCCTATTCTCCATTATCCTGAGCATAGAAATCCCATCCCTTTCCCACTCACGGCCCTTGGGGTGACCCTTTTCCAT
TTTGTTCTGAACACTGACCCCACCCCCTAGGTCAAAAGCACAGGCTTCGAGTCCAGGGTTTCGCCACCTCAGCACCCACTGGCATTTTAAGTAGAATAAT
TTCTTGTGGGAGGGCTACCGGGTGCACAATAGGACATCCACGTGGTCCCTGGCCTCTGTCCTAGATGTCAGTGGCAACACCCACCCACCCCCAGCTCCCA
GTTTTGACAACCAAAAGTATCTCCAGACGTTACCAAATGTCTCCTAGGGGCCAAAATCTCCTCCAACTGAGAACTACTGTGTTAGGCACACTTAGATTCA
AATTCCAGCTCTTACTAGCTGTGAACTTGTTACCGATAATTTCCCCTCATCTACAACATACGGTGAATAAGGAATTCAAGCCTTGTTGTAGGGATTTCAA
CATTTAAAAATATTTTAAAAGTTAAAAATGTGCCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGGATCACGAGGT
CAGGAGATGGAGAACATCCTGGCTAACACTGTGAAACCCCGTCTCTAATAAACATACAAACAATTAGCCGGGCGTGGTGGCGGGCGCCTGTAGTGCCCAG
CTACTTGGGAGGCTGAGGCAGGAGAGTGGCGTGAACCCAGGAGGCGGAGCTTTGCAGTGAGCCAAGATTGGGCCACTGCACTCCAGCCTGGGTGACAGAG
CAAGACTCCGTCTCAAAAAAACAAAACAAAAAAAAAAATTAAAAATGTGGCCAGGCACAGTGGCTCATACCTGTAATCCCAGCACTTTGGGAGGCCGAAG
CAGGTGGATCACTTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACGTGGCAAGACCCTCTTTAAAAAAAAAAAAAATTAAAAAATGGCCTGGCGAGGT
GGCTCACACCTGTAATTGTAGCACTTTGGGAGGCTGAGGCAGGCAGATTGCTTGAGCTCAGGAGTTCGAGACCAGCCTGGGCAACATGATGAAACTCTAG
CTCTACCCAAAATACAAAACATTAGCCAGGTGTGGTGGTATCTGTGGTCCCAGCTACTCAGGAGGCCGAGGCAGAGGTTGCAGTGAGCCAAGATGGCGCC
ACTGCACTCCAGCCTAGGTGACAGAATGTGACTCCATCTCAGAAAAAAACGAAAAACAAATTTAATTAGAAAACACCTAGCATAGATTTAATTAGAAAAC
ACCTAGCGTAGATTTAATTAGAAAACACCTAGCGTAGATTTAATTAGAAAACACCTAGCATAGTACCTGCCACACTGGTCCGCAGCTGGTGCACTACTTT
TCTCCCTGCCGGATTAGCAAGAGCTGACCCCGCTCAACATGGGCTGACTGGTGGGGCAGCTGCAGCCTCTGTCCCTGACTATCCAAGACATGACCTCCCG
GAAACCCAATACTGAGGCTGGCCAAGGGGAGCGGCTAATTTGGTCTGAGATTCCCCAGAGCCCAAAGGTGCTTGCATTGGGATTCAGGGAACACGCTTAC
TGGGGGCAGTGAGAGGGAAATTCCGGAAGAGAGCTGTTACAGACGTTACTTCTCAAGACATAGCCTGAAGGTTGCTGCATCAGAATTACCTCGCGTACTT
GTTAAACATTTAGATAGCTGTATCTCACTCCAGACTCCTGAATTAGAATTATGCCCTAAAGGGCCGGGCATGGTGGCTCACGCCTGTAATTCCAGCACTT
TGGGAGGCGGAGGCGGGCGGATCATCTGAGGTCAGGAATTTGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAGTTAGCC
AGGCGCCTGTAATCCCAGGTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTGGGCGGTGAAGGTTGCAGTGAGCCGAGATCGTGCCACAGCACTC
CAGCCTGGGCGACAGAGTCAGACTCCGTATCAAGAAAAAAAAAAAAAAAAGAATTATGCCCTAAAATTTGAAAACTACTGCCCTAGGGCTCAGATTGGGC
CAGGGTTTGAGGCCCCAGGAATCCCAGTGCGCCAGTTCCCAATATTGCTAGGACATCTCTATTCTCGGGAGGAAAGGAGAATTTCAAGAGGTAAAATTAG
GTACACTCAAGGTCACTGCTGCAGTGTAACCCCAGTACCGCTAGAGGGCAGGGCACACACAGACTTGCAGACAGAAAAAGTAGTACCTGCTCAATCTAGG
TAAACTGAGACCAGCGCAAAGAACAGGTGGACCCAGCCAGCTCTATTGGTACTAAGAAGCAAGCACTACCTTCTAACCATCAAAACATATCCTCTGATTT
CAGGTATTTATATCAAAGTTGGGGCTGGGCACTGTGGCTCACGACTGTAATCCCAGCTCTACTAAAAATATAAAATTTAGCTAGGCGTGGTAGCAGGCAC
CTATAATCCCAGCTACTCGGGATGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCGGAGGTTGTGGTGAGTCAAGATGGTGCCATTGCACTCCAGCCT
GGGCAACAAGAGCGAAACTTTGTCTCGAAAAAAAAAATTAGCTGGGCTTGGTGACGCTGCCTGTAGTCTCAACTACTCGGGAGGCTGAGGTGGGAGGATC
ACCTGAGCCTGGGGAGGTCGAGGCTGCAGTCAGCTGTGACAAATCACTGCACTGCAGCCTGGGTGACAGAGTGAGACCCTGTGTCAAAAAAAATAAATAA
AAAATCACTCGGGCACCATGGCTCACACCTGTAATCCCAGCATTTTGAGAGGCCGAGATGGGCCGATTGCTTGAGCCCAGGAGTTCAAGACCAGCCTGGG
AAACATGGCAAAACCTGGTTACTACAAAAATACAAAAAATTAGCTGGATGTGGTGGCACATTCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAAG
TTCACCTGAGCCTGGAAGGTCGAGGCTGCAGGGAGCCAAGATCACACTACTGCATTCTAGCCTGGGCAACAGAGTGAGACTCTGTCTTAAAAAAAAAAAA
AAAAATCAGGCCGGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGAAGGCCAAGGCAGGCAGATCACCTGAGGTCGGGAGTTTGAGACCAGCCTG
ACCAACATGGAGAAACCCTGTCTCTACTAAAATACAAAAATTAGCCGGGCATGGTGGCACATGACTGTAATCCCAGCTACTAGGGAGGCTGAGGCAGGAG
AATCGCTTGAACCCGGGAGGCGGAGATTGCGGTGAGCTGAGATCGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCTGTCTTAAAAAAAAAA
ATCTTCTTAAAAGGGGTGGTGAGGATTACACAAAACAGGGTATGCAAAATGCTTAACAGATGACTAGCTCCTGGTAATGCTCCATACAAGTTTGTTGTAA
GTTACTACTGCCCAGGATCATATGACCAAGCACATGAGAGGCTCCAGCTACCCTTCAAGGAAGAGGAGACAGATGAAATCAGATCATGGCTGAGACATTC
CTGTTTTCTCTCTCTTTTTTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCTATCTTGGCTCACTGCAACCTCTG
CCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGAATTAGAGGCGTCCGCCACCACACCTGGCTAATTTTTGTATTTTAGTAGAGA
TGGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCATCTCAGCCTCCCAAAGTGCTGGGTTACAGGCATGAGCCAC
CGCACCCGGCCCTCCTATTTTCTCTCCTATCAGGCCTAGTTTTCTTTTCTTTTCTTTCTTTCTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGCCAC
CCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTAC
AGGCACCCGCTGCCACACCCGGCTAATTTTTTTGTGTTTTTAGTAGAGATGGAGTTTCCCCAAGTTGGCCGGGCTGGTCTTGAACTCCTGACCTCATGAT
CCGCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAACCACCGTGACCGGCCAAGGCCTAGTTTTCCTAAGTGTCTTTATGGGACCCTCACAC
CTGTACACCAAACTCCTTCAAGAGGCAAACTCTCTCCTAAGAGGGAGACAAAAGAAACAGGGCCAGTGGTTTCACTGTAGACAATGGTCTATCTGTCCTG
CAGATGAGTCAGAACTAAGACCCCTTGAGGAATCATGTTGCTTTGGTGCCGGCTGTCTGGTTTCTATTCCATATCCTGTGCCGCACCCTTCCCCCAGCCA
CAGTGACATCTGGAGGCTCTGACCACAGCTGGCAGGCTCTGTGGTACCGCAGAGGCCAATCTTCAACAGGAAGTCTTGGGGGAACATTTCTTCCCCCAAA
ACACCAGGCCTCTGGGCCTGGGCCACTTCTCTCCCTCAGACAGCCCAGGGTTTCGTTTTATTTTTATTTTATTTTATTTATTTATTTTTATTTATTTATT
TGGTTTTATTTTTATTTATTTATTTTTATTTTTATTTATTTATTTATTTATTTATTTATTTATTTATTCTTTTTGACGGAGTCTCGCTCTGTTGCCCAGG
TTGGAGTACAGTGGCGCCATCTCGGCTCACTGCAAGCTCTGCCTCCTGGGTTCATGCCATTCTCCTGCCTCAGCTTCCCAAGTAGCTGGGACTACAGGCG
CCCCCCACCACGGCCAGGTAATTTTTTGTGTTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCAGCT
GCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCACCCGGCCAGTTTTGTTTTTTAAAAAGCCGTGAGAGGGCTGTCAGGAGGCAGTGC
TCCTGGGCAGAAAGAAGGCTGGCACCAGTTTCTAAGTCTCCATTCCGCCAGGCGGACAAGCCTCTCTGGCGGTTGTTGGTTATCACTTGTAAAATATAAA
CAGTAATAACTGTCCTCCCTACCTCACAGAGTGTGTTGCGAGGGCCAAATGGAATGTGACTGTTGAAGTACTTAGGAAAGTTAAAAAGCTCCTTCCTATG
GAAGGTGGCATGGAGGCGCCGGGGGGATTCCATGTCAAAAGTCCCAGTTCTGGCCGGGCGCGGTGGCTCACGCCTGTCATCCCAGCACCTTGGGAGGCCG
AGACGGGTGGATCACGAGGCCAGGAGTTCGAGATCAGCCTGGCCAACAAGGCGAAACCCCATCTCTACTAAAAAATACAAAAATTAGCCGGGCGTGGTGG
CGCGCTCCTGACGTCCCAGCTACTCGGGAGGCCGAGGCAAGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCGGTGAGCCGAGATCGCGCCACTGCACT
CCAGCCTGGGCGACAGAGCAAGACTCCGTCTCAAAAATAGACACAACAGAAGTCCCAGTTCTGCCCCTGGTTGTGCGGTCCGCACTTAACTAAGAGGCTG
GCATCTCTGGGAACAGCCTCCGGGACCCGCGCGCTGGTGCGTGCTGGAGGGAGTAGGGAGGGGTGGGGCGGTCGGCATCGCCCTCCGCCGGGCCCGGCTG
GAGCTGGCTGGAGACCCTTTCAGCCCCGGGAGGAAGCGGAGCCCAGACCGAGCCAGAGCGGAGCAGCGGGAGGGAGGGCGGGGAGGCCGCCGGGCAGGAA
GCGGGGTCCCGCCCGGGCCTCTGGAGCCACGTGCGCTTGTTTCCGTGCTGGGGCGATCACGTGACCCGCGTCAGCTGACCCGTCACGGTGGAGCCCGGTG
CTCGCGCCCGGCAGCCTCTGCCCCGCCGCGCCCGGAGCGCAGGACCCGCGGAGGGGTAAGCGCGCCCCCCGTCCGCCTCTTCGCCGCCGCCGGCTTCCTG
CGGCCGCCTCCGCCCCAGCCCCTGTCCCGCGCCCATCCCAGCCCCGCCGGCCTGGCACCCCGGAAGCCGTCGCCAGCAGGGCCGTGGCTGGGCTCAGCCC
CGCGCTGCCCCCGGGCGGCCTGGAGGAGATGGCCCAGGGCAGCGGGGGGCGGGAAGGCGCTCTCAGAACCCCGGCCGGGGGCTGGCATTCCCCGCCAAGC
CCAGACATGCAGGAGCTGCTCCGGAGCGTGGAGAGGGACCTGAGCATCGATCCCAGGCAGCTGGCTCCGGCCCCGGGGGGCACCCACGTGGTGGCCCTAG
TGCCTGCGCGCTGGCTGGCCAGCCTCCGCGATCGCCGGCTGCCCCTGGGACCCTGTCCCCGCGCAGAGGGCCTGGGAGAAGCGGAAGTCAGGACTCTCCT
GCAGCGCTCTGTGCAAAGGCTGCCTGCCGGCTGGACGCGCGTGGAGGTGCATGGGCTGCGGAAGCGGAGACTGTCCTACCCTCTGGGCGGGGGCCTGCCC
TTTGAGGACGGGTCCTGCGGCCCTGAGACCCTCACTCGCTTCATGCAGGAGGTTGCCGCCCAGAATTATCGCAACCTGTGGCGCCATGCATACCACACTT
ACGGCCAGCCGTACAGTCACAGCCCTGCCCCCTCAGCTGTCCCTGCCTTGGACTCAGTACGGCAGGCTCTGCAGAGGGTCTATGGTTGCTCCTTCCTGCC
AGTGGGTGAAACTACCCAATGCCCTTCATATGCCAGAGAAGGCCCCTGCCCCCCTCGGGGCAGCCCTGCTTGCCCTAGTCTTTTACGGGCTGAGGCCTTG
CTGGAGTCGCCGGAGATGCTGTATGTGGTACACCCTTACGTACAGTTCTCCCTACATGACGTGGTCACCTTCAGCCCTGCCAAGCTGACCAACAGCCAGG
CCAAGGTGCTGTTCATTCTCTTCCGCGTGCTGAGGGCTATGGACGCCTGTCACCGCCAGGGGCTGGCGTGTGGGGCCCTGTCTTTGTATCACATCGCAGT
GGATGAGAAGCTTTGCAGCGAGCTGCGACTGGACCTGAGTGCTTATGAGAGGCCCGAGGAGGACGAGAATGAGGAGGCCCCTGTGGCAAGGGATGAGGCG
GGCATTGTGTCTCAAGAGGAGCAGGGAGGGCAACCTGGGCAACCCACTGGCCAGGAGGAACTTCGGAGCCTCGTGCTAGATTGGGTCCACGGCCGCATCA
GCAACTTCCACTACCTCATGCAGCTGAATCGGTTGGCAGGTCGGCGGCAGGGGGACCCCAACTACCACCCCGTGCTGCCCTGGGTGGTGGACTTCACTAC
GCCCCATGGGCGCTTCCGAGACCTGCGCAAGTCCAAGTTCCGCCTCAACAAGGGGGATAAGCAACTGGACTTCACGTATGAGATGACACGGCAGGCATTC
GTAGCAGGCGGGGCGGGCGGCGGGGAACCCCCTCATGTTCCCCACCACATCTCAGACGTGCTCTCCGACATCACGTACTATGTGTACAAGGCTCGGCGCA
CGCCTCGGTCGGTGCTCTGCGGACACGTCCGCGCGCAGTGGGAGCCCCATGAGTATCCGGCCAGCATGGAGCGGATGCAGAACTGGACCCCGGATGAGTG
CATTCCGGAGTTCTACACCGATCCCTCTATCTTCCGCTCCATCCACCCCGACATGCCTGACCTGGATGTGCCAGCCTGGTGCAGCTCCAGCCAGGAGTTC
GTAGCTGCCCACCGAGCCCTGCTGGAGAGCCGCGAGGTATCCCGGGACCTGCACCATTGGATCGACCTCACGTTTGGCTATAAACTCCAGGGTAAGGAGG
CTGTCAAGGAAAAGAATGTGTGTCTGCACCTGGTGGACGCCCACACTCACCTGGCCAGCTACGGGGTGGTGCAGCTCTTCGATCAGCCACACCCCCAGCG
CCTGGCTGGGGCTCCTGCCCTTGCCCCCGAGCCTCCCCTCATCCCCAAGCTGTTGGTCCAGACCATCCAGGAGACCACAGGCCGGGAGGACTTCACGGAA
AACCCGGGACAGCTTCCAAATGGAGTGGGCCGGCCAGTTTTAGAGGCCACTCCCTGTGAGGCTAGCTGGACCAGAGACAGGCCGGTGGCAGGAGAAGACG
ACTTGGAACAGGCCACAGAAGCTCTGGATTCCATTTCCCTTGCTGGGAAAGCAGGTGACCAGCTGGGCTCCTCCAGTCAAGCGTCCCCTGGACTTCTCTC
TTTCTCAGTGGCCTCAGCCTCCCGTCCAGGCCGCAGGAATAAAGCTGCTGGGGCAGACCCTGGGGAGGGTGAGGAGGGGAGGATTCTTCTTCCCGAGGGC
TTCAATCCCATGCAGGCCCTGGAGGAGCTGGAGAAAACGGGCAACTTCTTGGCCAAAGGCCTAGGGGGCCTGTTGGAGGTGCCTGAGCAGCCCCGGGTCC
AGCCGGCTGTGCCACTGCAGTGCCTACTCCACAGGGACATGCAGGCGCTGGGTGTCCTATTGGCAGAGATGGTGTTTGCCACCAGGGTGCGGACGCTGCA
GCCCGATGCACCTTTGTGGGTACGCTTCCAGGCTGTCCGAGGGCTCTGCACGCGCCACCCCAAGGAGGTCCCTGTGTCTTTGCAGCCCGTGCTGGACACA
CTCCTGCAGATGAGTGGCCCCGAAGTCCCCATGGGAGCAGAGAGGGGCAAGCTGGACCAACTGTTTGAGTACAGGCCTGTCTCCCAGGGCCTGCCCCCAC
CCTGCCCAAGCCAGCTTCTCAGCCCCTTCAGCTCCGTGGTTCCCTTCCCACCCTACTTCCCGGCACTGCACAGATTCATCCTCCTGTACCAGGCAAGGCG
TGTGGAGGACGAGGCCCAGGGGCGCGAGCTGGTGTTTGCTCTGTGGCAGCAGCTGGGCGCGGTGCTAAAGGACATCACCCCTGAGGGCCTGGAGATCCTG
CTGCCCTTCGTGCTCTCACTCATGTCCGAGGAGCACACAGCTGTGTACACGGCCTGGTATCTGTTTGAGCCTGTTGCCAAGGCACTGGGCCCCAAAAATG
CCAATAAGTACCTCCTGAAGCCGCTCATTGGTGCCTACGAGAGCCCCTGCCAGCTACACGGCCGCTTCTACCTGTACACGGACTGCTTTGTGGCCCAGCT
GATGGTGCGGCTGGGCCTGCAGGCATTTCTCACTCACCTGCTGCCCCATGTCCTGCAGGTGCTGGCGGGCGCAGAGGCCTCCCAGGAGGAGAGCAAGGAC
CTGGCAGGGGCTGCTGAGGAGGAGGAGAGCGGGCTGCCCGGGGCCGGGCCTGGCTCCTGTGCTTTTGGGGAGGAGATTCCCATGGATGGGGAGCCTCCTG
CCTCCTCGGGCCTGGGGCTCCCAGACTACACGTCTGGCGTCAGCTTCCACGACCAGGCTGACCTCCCTGAGACAGAGGACTTCCAAGCCGGGCTCTATGT
GACTGAGTCTCCCCAGCCCCAGGAGGCTGAGGCTGTGAGCCTGGGCCGGCTGAGTGACAAGAGCAGCACCAGCGAGACCTCCCTGGGTGAGGAGCGGGCT
CCAGACGAGGGGGGTGCCCCCGTGGACAAGAGCAGCCTTCGATCAGGTGACAGCAGCCAGGACTTGAAGCAAAGCGAGGGCTCCGAGGAGGAAGAGGAGG
AGGAGGACAGCTGCGTGGTGCTAGAGGAGGAGGAGGGGGAGCAGGAGGAGGTCACCGGGGCATCTGAGCTCACTCTGTCTGACACGGTGCTGTCCATGGA
GACGGTTGTGGCCGGCGGCAGTGGGGGAGATGGAGAAGAAGAGGAGGAGGCACTGCCTGAGCAGTCAGAAGGCAAAGAACAGAAGATCCTCCTTGGTAAG
TTCCCAGGTCTGGGAGGTGTTGGTCAAAAACACCTCCTGCTGGCCGAGCACAGTGGTTCACGCCTGTATTCCCAGCACTTTGGGAGGCTGAGGCGGGCGG
ATCACAAGGTCAGGAGATCGAGACCATCCTAATAACAAGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATAGCCGGGCGTGGGGGCAGGCACCTGT
AGTCCCAGCTACTCGGAAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGGC
GACAGAGCGAGACTCCATCTCAAAAAAACAAAACAAAACAAAAAAACAGCTCCTGCTTCTCCCTGCACACTGGCAGAGCACCTACTCTGTGCCAAGCAGT
GGATCGAGCCAGGACCACCGGCAACACAAATGTAGGCCTGCCTTCACAGAGCTCACACCCAGCAGACGAGATGCCGCAGTGCAGACAGTCTTAAGCAAGT
GTATTATGTTAGTGCGATAAAGAACATGGCTGCATTCCTAGGAGGGAGTGCAACATGGAGCTTTTCGGCCGGGCGCCGTGGCTCACGCCTCTAATCCCAG
CACTTTGGGAGGCCGAGGCAGGAGGATCACTTGAGGTTAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAT
TAGCCAGGCGTGGTGGCGGGCACCTGTAATCCCAGCTATTCAGGAGGCTGAGGCAGGAGAATTACTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCTGAG
ATCACACCACTGCACTGCAGCTTGGGCAACAGAGCGGGACTCCGTCTCAAAAAAGAAAAAAAAAATGGTGCTTTTACATCTAGTTTTCAAGGGTCAGAGC
AGGCTTCCTTAAAAGGAGAGACAGTTGAGGTTCAAGGAGGAGTAGGAAGAAGGTAGACAAAAATGGGCAAAAAGAAAGTCTGAAGGCTGAGGGAACAGCA
TGTGTGAGGCTCTGAGGCTGTCATGTTCCATTAAAGAAGAGAAGCGGGGGACCGGGCGCGGTGCTTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAG
GCGGATGGATCACAAGGTCAGGAGATTGAGACCATCCTGGCCAATATGGTGAAACCCCATCTCTACTAAAAATACAAAAACTTAGCTGGGCATGGTGGAG
GGTGCCTGTAATCTCAGCTATTTGGAAGGCTGAGGCAGGAGAATCGCTTGAACCCGGAGGTTCAAGGAGGAGAGTCAGGGCGGTGGAAGGTGGAGGTTGC
AATGAACTGAGATTGTGCCATTGCACTCCAGCCTGGGCAACAGTGCGAGACTCTGTCTCAAAAAAAAAAAAAAAGAAGAAGAAGAAGAAGAAGAGAAGCA
GGGAAAGGCCGTTATGGCGAGACCGAGGGAGTGGAGGGAAGAGAGGCCAGAGGGAAGGTGGCCAGGGCCGGGCCAGGCCTTGTTAAGGAGTTTCAGAAGA
CCCACGGGCAGGCTAACTTCCTGCGGGTCGTGCCTGTGGAGAGGAACCTGCGGCAGCCAGAGTCCCACAGGCCAGGGCCTGGGCACCTCTGCCGCTGTTA
CGTGGAGGGGGTGGTGTGGGACAGCCGGCCCGGGCTGGGCTCTTGGCAGAGCTGCAGCCGCAGGTGGTTGAGTGGGGTGCCGTGGGGTGGGGTGGGAGGG
GTGATGAGCCCCTGTTATCTGAGGAGCTCAGGGCCTGCTCCCACCCCGCAGATACAGCCTGCAAGATGGTCCGCTGGCTGTCTGCCAAGCTCGGCCCCAC
AGTGGCCTCTCGCCACGTGGCCCGGAACCTGCTCCGCCTGCTGACGTCTTGTTATGTTGGTAAGGAGGCCTGCGGTCAGTGCTGGAGATGAGGCTTTCTC
CCAGGCCCTCTGCCTAGCTTCAGCGCTCTCCGGCGGGGATCCTTCCCACCCCTCCCTCAAACCACCCCCCGGCCAGGTGCTGGGTCCCAGTCTAAGTGCC
AGCCTTGGGTAGGGCCAGGCTGGGCCCCCAGCTAGAGTGAGCTCAAGCGGCCAGCACAGCCCTGCAGGGCCARGCTACCCCCGGCCCTCCACTGGCGACT
CAGGGCTGCTGGCCCTTCCGTGGCAGGACCCACTCGGCAGCAGTTCACAGTGAGCAGTGGCGAGAGCCCACCGCTGAGCGCYGGCAACATCTACCAGAAG
AGGCCGGTCCTGGGCGACATCGTGTCAGGGCCTGTGCTCAGCTGCCTCCTCCACATCGCCCGCCTGTATGGGGAGCCTGTCCTCACCTACCAGTACCTGC
CCTACATCAGCTACCTGGTCAGTCGCTGGTTTGGCAGGCCCGGGGCTGGGAAGGCTGAGGACCTGAGGGCCGGCCCRGGCTCTCTTGGTGCCAGGGGGTC
TGTGGGGCTGCCCGGCCCTCATCTGCTCGGTGGCTCTAGGTGGCCCCAGGGAGTGCCTCAGGCCCCAGCCGACTGAACAGCCGTAAGGAGGCGGGGCTGC
TGGCCGCGGTGACGCTGACTCAGAAGATCATCGTGTACCTCTCAGACACCACACTCATGGACATCCTGCCCCGGATCAGCCATGAGGTCCTGCTGCCCGT
GCTCAGCTTCCTCACCTCCCTCGTCACGGGGTAGGCCTCTGCCCCAGCTGATGTAGGGGGACCGGCCCAGCGGAGGGGCTGCCCAGGAGGGGGTGGGAAG
CTCAGGGGAGAGGACGTAACACTGGACTGGGTGTCAAGAGTCCTGGTTTTGATCCCGGCTGTGTGACCCTGAGCAAACCACACCCTTTTCCTGTGCCTCA
GTTTCCTCATCTGGTTTGGACCAGTTGGTCTTGGAGCTCTTTCATTTAAAGCTTTTGATATGTCCGGGCACGGTGGCTCATGCCTGTAATCCCAGCACTT
TGAGAGGCTGAGGCGGGAAGATTGCTTGAGCCCAGGAGTTCAAGACCAGCCTGGGCAACAAAATGAGACCCCCTCTCTAAAAATATATATAAAGGCCGAG
CGTGGTGTCTCACCCCTGTAATCCCAGCACTTTGGGGGGCCAAGGCGGGTGGATCACGAGGTCAGGAGTTTGAGACCCRCCTGGCCAACATGGTGAAACC
CCGTCTCCACTAAAAATACAAAATCTTCGCTGGGCATGGCAGCAGGTGCCTGCAATCCCAGGTTCTCGGGAGGCTGCAATCCCAGGTTCTCAGGAGGCTG
AGGCGGGAGAATTGCTTGAACCCAGGAAGCGGAGGTTGCAGTGAGCTGAGATCACGCCATTGTACTGCAGCCTAGGCGACAGAGCAAGACTCTGTCTCAA
AAAAAAAAAAAAGTATATATATAWGCTGGGTGCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCGCTTGAGGTCAGGAG
TTCGAGACCAGCCTGGCCAATATGGCAAAACCCTGTCTCTACTAAAAATACAAAAAAAATTAGCCGGGTRTGGTGGCTCATGCCTGTAGTCCCAGCTACT
CGGGAGACTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCACCACTGCACTCCAGCCTGGATGACAGAGCAAGAC
TCCATCTCAATAAAAATAAAAATAAATAAAGATTTTGCTAGATTCTGGTCAAGTCCTGCAGAACGGCGGGCTGGAGCTCATGAGCTCTGTTTCCAGGTTC
CCAAGTGGGGCCCAGGCTCGGACCATCCTGTGTGTGAAAACCATCAGCCTCATCGCCCTCATCTGCCTGCGCATTGGACAGGAGATGGTCCAGCAGCACC
TGAGCGAGCCCGTGGCCACCTTTTTCCAGGTCTTCTCTCAGCTGCATGAGCTTCGGCAACAGGTGGGCAGATCTGCTGGGCCAGGGCGGGCTGGGGCGGG
GGCTGTGGACCTGGGTGACCCCCTGGGCATCTTGCTCATAGGATCTGAAGCTGGACTCCGYGGGCCGTGGCGAGGACCAGGGTGGGCCAGGGTGGGAGCT
GTGGACCCGGCTGACCCCCTGGGTGTCTTGCTCATAGGATCTGAAGCTGGACCCTGCGGGCCGTGGTGAGGGCCAGCTGCCACAGGTGGTCTTCTCTGAT
GGGCAGCAGCGGCCCGTGGACCCCGCCCTGCTGGACGAGCTGCAGAAGGTGTTCACCCTGGAGATGGCATACACAATCTACGTGCCCTTCTCCTGCCTGT
TGGGTACTGCCCCATCACGTTCCCCATCACAGTCTTCGTGGCTGTCTCCTCCCTTGGRAGGCCCCATTCTCTGCCCTTGCCCCAGAGTCAGCAGTGGGTT
CTAAGAGCCAGCAGGATGGGTGAGAGCAAAGGGATTTGGCCTCAGACCCCTACCCCCAAGGTGACACACAAACAAGGACTGAGCAGTAGCCAGCAAGAGA
GGCCCAGAAGCTGGCCTGTAGTGTCCCTGGGGAAGGCAGGAGAGTCAGGGAGGTGGACTGGCGGTCCGCAGGAGCTGGCGAGAGGGAAGGAGTGGCCTCC
TGTTTACGAAGCTTCCCCTCTGGGCCCTGCACGGTGCTGTGCTGATCGTTTCAGCGTGTCATCTCCCTGGAGAGGACAGACAGCCTTGTGGTTACACCTG
TTATCATCCTGCCACTGAAATCTAAGCTTGGGAGGCCAGGGCACCACCTGTCTTGTTCCATATTCTATTCCTAGTGCCCAGCACGGCACGGCACATATAG
AAGATGCTCATGTGTACATCACAACGGAATGAATCCACATTTCACTGAGGAGGAAACTGAGGCTCAGAGACAGAGTTACTTGCCCAGAGTTGCAGAGCCA
GTTCCTGCCCCATCTTCTGTGGCTCCCGAGTCCTTGGATGGGTGATAGCAGCCGCCTGCCATCTTCCCTGTCTCAGGACCTCTCCCACTCCTATCCAGGT
GACATCATCCGGAAAATCATCCCCAACCACGAGCTGGTTGGGGAGCTGGCGGCGCTGTACTTGGAGAGCATCAGCCCCAGCAGTCGCAACCCTGCCAGCG
TGGAGCCCACCRTGCCCGGCACCGGGCMCGAGTGGGACCCCCATGGTGGGGGCTGCCCTCAGGATGACGGCCACTCAGGGACCTTTGGGAGCGTCCTGGT
GGGGAACCGCATTCAGATCCCCAATGACTCTCGGCCTGAGAACCCCGGACCRCTGGGCCCCATCTCGGGGGTGGGTGGCGGGGGCCTGGGCAGCGGGAGC
GACGACAACGCCCTGAAGCAGGAGCTGCCGCGGAGCGTGCACGGGCTGAGCGGAAACTGGCTGGCGTACTGGCAGTACGAGATCGGCGTGAGCCAGCAGG
ATGCCCACTTTCACTTCCACCAGATCCGCCTGCAGAGCTTCCCGGGCCACTCGGGGGCCGTCAAGTGCGTGGCACCCCTRAGCAGCGAGGACTTCTTCCT
GAGCGGCAGCAAGGATCGTACCGTGCGCCTCTGGCCGCTGTACAACTACGGCGACGGGACCAGCGAGACGGCCCCACGCCTCGTCTACACCCAGCACCGC
AAGAGCGTCTTCTTCGTGGGCCAGCTTGAGGCCCCRCAGCACGTGGTGAGCTGTGACGGGGCTGTGCACGTCTGGGACCCCTTCACAGGTGAGCGGGCCC
AGGTGAGGCCTGTTCTCTTCCTGCTCCTGCGCCCCACCAGGCCTCCAGGAAGGGGGCCCGAGGGTGGGGCTGTAATGCTGCGGAGTTTGGGGAGACCCAG
CGAGGCCGCCTAGGAGAACAGTTAGGGCTTCGAATCTGTTAGACTTGAGTCTGAATTGGCTCCACCGGCTTACTTGCTGAGTGACCTTGAGCAAGTTCCT
GCTGCTGGAAGCGTCTCCTTTCCCATCTATAAACTGAGAATCAGAAAAACTGGCGTAGAAGATAACACACAGCCGGGCGCAGTGGCTCACGCCTGTAATC
CCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGATCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAA
ATTAGCCGGGCGTGGTGGCGGGTGCCTGTACTCCCAACTACACAGGAGGCTGAGGCAGGAGAATCTCTCAAACTCAGGTGGCAGAGGTTGCCGTGAGCCG
AGATCGCACCACTGCACTCCAGCCCGGGCAACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAAAGAAGAAGATAACACATGTAGGGTTTTGGCTTCATGT
GTAGCAGATATTTGGTCAATGGTTGCTTATTTTTTGGCGTCACCATAGGGAGAAATATGGTTAAAAGGGGGAAAGGGATGGTGTCGGGGAAGACAGAGGG
AGGTGGCATTGGGTCAGCAGCACTGTGCAGAGAGAGGAGGTTGCTTTGGGGATGGGAGCCTGGCCGGGCCATGGAAGCAGGAAGGTGGGAGAGTCAAGAA
ACATCTTTAGGCCGATGCAGTGGCTCACGCCTGTAATCTCAGCACTCTGGGAGGCCAGGAGTTGGAGACCAGACTGGCTGACATGGTGAAACCCCATCTC
TACTAAGAATACAAAAAAAGGCCGGACGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAAGTGGGTGGATCATGAGGTCAGGAGATCGAG
ACCATCCAGGCTAACATGGTAAAACCCCGTCTCTACCAAAAATACAAAAAATTAGCCAGGCGTGGTGGCGGACGCCTGTAGTCCCAGCTATTCGGGAGGC
TGAGGCAAGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCCTGGGCGACAAAGCGAGACTCCRTCTC
AAAAAAAGAGAAACATCTTTAGCATTTTCTAAGGATCCCTGGGGGACGGGAGGCAGGTGTGCGGTGAGTTGGGGGATTAGAAGCTCCCAGGGCTCTTCCG
TCAGCTGCTGGGACCCCAGATCCACTGTGACTTTCCTTCCCAGGGAAGACCCTTCGCACAGTGGAGCCGCTGGACAGCCGGGTGCCCCTGACTGCGGTGG
CTGTCATGCCCGCCCCCCACACCAGCATCACCATGGCCAGCTCTGACTCTACCCTGCGCTTTGTGGACTGCAGGAAGCCTGGTCTGCAGGTCAGGGGGGT
CCAGTTCCCTGAGCACTCGCCTGGTTCTCTGGGGACCTGGCAAGGAGGAGAGACTCCCCAAAAACAGAAAGCCAGGATGTTGTTCTGGGGCCCTAGTTAG
TTTCTCTTTGGTGCTAGATCACCCACAGCCACACATCCTGCGGGGCAGGACTCTGGCCTGTGATGGGGGTGGGGTTCTGGGCTTTTCATGCCCCCTGATG
AGGGTCAGAGGCTCAGGCCTTCCTGCTGTGTGGGCTTGGGTGGTGGGCAGGGCCTTGGGGAGTGTGAGATGGGAAGGTGGTGCCTCAGCTCAGCCGCCCT
CTCCCTGCAGCACGAGTTCCGACTGGGCGGTGGGCTGAACCCTGGGCTTGTCCGTGCCCTGGCCATCAGCCCCAGTGGCCGTAGTGTCGTGGCCGGCTTC
TCCTCAGGCTTCATGGTGCTCCTGGACACCCGCACRGGCCTGGTTCTGCGAGGCTGGCCAGCCCACGAGGGGGACATTCTGCAGATCAAGGTGACGGGCC
GGGTCTCCCTCCCCTTGCTGCCCAACCCCCGCCCCTGTCCAGCCATCACCCCTGCTTAGGGTCTGCCTGCCCGGGTTCAGGCTCGAACTGGTCTGTCTTA
TATACCTGGTCCAGGACTAACTGGGCAGGGAGGGTAGCCCTCTCGGTCCACCTTGGGAGCCAGTTGCACTGCAGGGGTCTCAGCAGGAGGCAGGCCATGG
GGGCGGGAGCCACGGGGCAGTGGGGCGGGAGCTATGGGGCAGGGCTGACCCTGTTGCTCATGGCGATGTTCTAATGAGTAACCCTTGTCCATATTTGTCT
TGCTTGGAGGATCAGGGGTCAGGCCCTGTCCGTGACCTAGTTCAGGTTAAATAAAGCTGAGCTGGGAGGCTGTTTACTGCCTGTAGACCGCTGAGCAGAG
TCCATGGCCCTGCCGGGCTGCCCTGGCTGGGGGCAGGAGCACRCCTGGGCATGGGGATCCTGYCCCCGTCTCCTTCCCCTCCCCCTCCCTCCATTCTCAG
TCACAGGCCTCRGGGAGCTGCTCAGGGAGGCCCAGGAGGGGAGGAACAGGGCTTCGTGTGGGAGGATTTCTGCAGGCAGCTGGGACTTTCCTCCCCAGCT
TGGCTGGAGGCCAGGAGTCTTGCATTGCCCTGCTGACAGCAGGCTGTCGCTGGCTCCCTCCAGAGCCCCAGGGAACCCTCAGCTCAAGGTGCCCCCAAAT
TCTAACTTTCCAAGAAAGTGTCAGGAGGGCTCTGGGGTCAGCCTGGGTGTTAATCCCAGCTCTGCTGCTTGCTGGCCCCATGACCTTGGTATGGTTACTT
CACTTCTCTGAGCCTCRCTTTTCCTGTTTGTGAAATGGGGACAATGGCAGCATCCACCGCATAGGGTTGTTACGAAGGTCAAGGTCGTCACGTGCACGCC
TGGCACCATGCCTGTGCGTAGTTCTCAAGTTAGAGTGACGACTGGGTTACGGATGCTGAGCGTATTAAAATGAACCAACGTGAATATGGTGTGTGTGGGA
GGGTGGCGGCTTGTCACCCACCCAGGACGGCCTGTCTCCCTGGAGAGAAACTGCGGAGGGAACTGGGAAGGCCTTGGGGCCCAAGGGTATGCAGAAGGAC
CCAGGCTCCTGCTGAGGCTCTCCTCTCCCGGGACAGGCGGTGGAGGGCAGCGTCCTGGTCAGCTCCTCCTCTGACCATTCCTTGACYGTCTGGAAGGAGC
TGGAGCAGAAGCCCACCCATCACTACAAGTCAGCATCCGACCCCATCCACACCTTTGACCTGTACGGCAGYGAGGTGGTCACTGGCACCGTGTCCAACAA
GATTGGCGTCTGCTCCCTGCTTGAGCCACCCTCGCAGGCCACCACGAAGCTCAGCTCTGAGAACTTCCGCGGCACGCTCACCAGCCTGGCCTTGCTGCCC
ACTAAACGCCACCTCCTGCTGGGCTCAGACAACGGGGTTATCCGCCTCCTGGCATAGACTGAGGCAGGAGCTGGCCGGGCAAGGGTGGGAAGACATCTGC
GGGCGCGTGTCCRCTCACCCTGTTCCCTGAGCAGCAGCTCCCTCCAGGGAGGCCCTGGGTCCCACGCCCTGGGTGCCCACATGGCCTGCCAACTAGGGCC
TGCAAATGGAGTGGGGGAGTCCTGGCCCCTGAATCACCAGAGCCACCAAGCCTGCCAGAGGGGTCTCATTCATGGCTTGGGGACACAGGGCTCCTAGCAA
GCAGGAAGTTAAGAGCAGGAGGAAGCGTTGCTACCTTCACTTCTCCCCAGCTCYGCCCTCTGGGTCCACATGAGGACAGGGAAGCTCGGGAAGGGGAAGG
GAGACTGGCCCTGCCCAGCCGGTCTCTAGCCCCTCAGCCCCCGCTGGGCACTCTCTGTCCCATCCCTCTAGGACAGGGAAGCTGGCCTGGTCCAGGGCAC
TGATGGTGCTTGGATTCCAGCCTAAGGAAGGCTGGCCGTGGTCCAGGAGTTAAGGGCTTGGGTCTGGGGTTTAAGTGGCCACCCATCCAGGCCCTGGCCA
GTGTGGGACCGGGACGGGAAGGAAGAAGGAGGCTAGGAGCAGGGGGAAAAGGTGCACTTGGCCAGTGGCGCCTGCCAGGAGTGAGTCCATGCGTTGTCTG
CCCACCCCTACCACAGTGTTTGTGCCTTCAGCTGAGGGGGCAGCCTCTGGGCCCTGAACCCCTGCTGGGGCTCCACGACCCTGAGAGAAGGGKTGAGAAG
AATCATCTCTGCACCTCGGGTCTCTGCCAGAGGAAGACTTAAGCATCCCTGCGACCTCACATTCTAGACAGAGATGAGGTCCARGGGTTGGCCCCTGCTG
CCTTCTCACAATTTGCAATAGATGTAAATAGGACCAATAAATCCTTTGGAAGAGCCATGGGGTGAACTGAGGCTTGTCTTTTTTTTTTTTTTTCAATAGA
GATGGAGTCTGACTATGTTGCCCAAGCTGGTCTCCAACTCCTGGGGCTCAAGCGATCCTCCTGCCTCGGCCTCCCAAAGTGTTGGGATTACAGGCATGAG
CCACCACGCCCAGCCTGAGGCTTATCTTGCTGGTGGTGTCAGGGTGGGGAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCAGGGAGTGAGGAGCA
GCACAGTGAGGGTGGGAGGCGGCCTGATGCAGGGAGTGAGGAGCCGGACAGTGAGGGTGGGAGGCGGCCTGATGCAGGGAGTGAGGAGCAGGACAGTGAG
GGTGGGAAGTGGCCCGATGCAGGGAGTGAGGCGCAGGACAGTGAGGGTGGGAAGGAGCCTGATGCAGGGAGTGAGGAGCCGGACAGTGAGGGTGGGAAGG
AGCCTGATGCAGGGAGTGAGGAGCCGGACAGTGAGGGTGGGAAGGAGCCTGATGCAGGGAGTGAGGAGCAGGTGTGAGGGCGGGAAGCGGCCTGATGCAG
GGAGTGAGGAGCAGGACAGTGAGGGTGGGAAGGAGCCTGATGCAGGGAGTGAGGAGCAGGTGTGAGGGTGGGAAGGAGCCTGATGCAGGGAGTGAGGAGC
AGGATAGTGAGGGTGGGAGGCGGCCTGATGCAGGGAGTGAGGAGCAGGTGTGAGGGTGGGAAGCGGCCTGATGCAGGGAGTGAGGAGCCGGACAGTGAGG
GTGGGAAGGAGCCCGATGTAGGGAGTGAGGAGCAAGTGTGAGGGCGGGAAGCGGCCTGATGCAGGGAGTGAGGAGCAGGACAGTGAGGGTGGGAAGGAGC
CTGATGCAGGGAGTGAGGAGCCGGACAGTGAGGGTGGGAAGCAGCCTGATCTTTGCACGGGCTGCCAGGCTTCTGGTTCATACAGCCCCAGGTCAGTTTC
CAGAACCCTCGCTCTTGGGTAGGGGAAAGAGACATTGCTCTGGAGTGGCAGGACGGTGGGAGAAGTTGAGTCCCTCTCATTTCTCCTCCCTCACCCCCTG
CCTTCCATCCCAGTCTGAAGGCAGCCAACCTGATCCTGGGCTTGGAAGGTTGGGGGTGGGCTTCCTATCCTGGGCTCTCTGCATAGGCTCTTGTGGCTTC
CCCTTTCCTCCCCTCAGGAGCGGGAGGCAGCTCTCTGGGAGAAGAAAGGACATTGGGAGTGAGAATCTGGATGTGCCTCAGCCCAGCTCTGTGTCCTTGG
GCAGGTCACATGGCCTCTCTGAGCCTGGCTGAACCAGGGATAATCCACACCTCGTGGGGTCTCTGGAAGGCTTAACACAGTGCTAGGTTCCTGTGCTTTC
TGGATCCGCCCTCTTGGCTAGCCAGATCCAGTCTCTTCAACTCTCTCCTCCTGAACTTTCTCTTTCCAGGCTCGGGGGGGGGGACCCAAATATAGGGGGT
TCTGCGTGGCTGCCTCAGGGTTAGATGCCCTGGTGGGAAAGGGGCTTCTGGCTTCAAGATCAATGTTTAACTGGATGTGCAAGTCAATATTTACCAGAAG
AGAAAGCAATCTGAACAGGGGTTGGCTGAGAGTAAAGGTCCTGGTGGGAGGGGAGGGGTGGGCTGGGCCAGCTGGAGCCTGGGCAGAGAGTGAGGAGCAC
CCAAGTGGGGCCAGAGGAACGTTGTGTGTGGCAGCAAGGAGCCCGCAGAGGTATGAGGGGAGGGGCTGCTCGGCCTGCTCCTTGGGTAGGAGAGGAGGAG
GGAGCTGCCTCCCTGGCTGAGGGGTCTGGGATTTATTCAGGAGGCCTGTCACTCCCCAGCCTCTTCTGGGACTTGAAAAACTGGAGCCTGTTCTTGGCAA
GAAGATTCTAATGCCCAGGTCGGAGTCGGGGCCCTGGCCAAGGGCTCTTGTGTGGGATGGGGGTGGGGCCGGGGGGACCAAAGGATCCTCCAGAAGGGTT
GGCCCCAAGATGGGGGTGGGCTGGAGGTAGCTGAGACCTGCTCTGACTTATCCTCCTGAGACCAACACCTGCCCTTCCCAGAGCCAGCCTGGAGCAGAGG
CCTGTGATGCTCCTAAGTGCAGAGGTGGCTCTGGCCAGAGTCATTCACTGGGCTCTGCTGCTGGGTCAAAAGGCAGCTCTCTGGCTGCCTTGCCACCCAT
GGTGAGACCTCAGGGCCTCACAGGTATGTCCAGCCTTGTGGGCAAGACCTGACCAGCCTGAGAAAGACGGGTTGGGGCCAGGCGTGGTGGCTCATGCCTG
TCATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCTGTCTCTACTAAAAA
TACAAAATTAGCCAGGCATGGTGGCACATGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTTAACCCAGGAGGTGGAGGTTGCAGT
GAGCCGAGATCGTGCCATTGCACTCCAGCCTGCATGATAAGAATGAAACTCCATCTCAAAAAAAAAAAAAAAAAAAAAAAAGACAGGCTAAATGGATGCA
GCAGGCTGGGTAGGAGCTCTGTGTTGGAGCTCTGCGGTGGAGGCTTCAGGGCAGGCTTCCCAGAAGAGGTGGCCTTGAGCCAAGCTGACCCCAGCCATCG
GGGGAGTGCCAAGCATTGTACTCAGGGTTTACAAAGATGGTCTTATTTATTTTTTTGAGACAGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCG
TGATCTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGCAGTTCTCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGGGCCCACCACCACGCCTGG
CTAATTTTGTATTTTCAGTAGAGATGGGGTTTTACCATGTTGGCCAGGCTGGTCTTGAACTCCCGACCTCAGGTGATCCACCTGCCCCTGGCCTCCCAAA
GTGCTGGGATTACAGGCTTGAGCCACCGTGCCTGGTCACAAAGATGGGTTTTTGCGACGCGCAAAGGCTCCCGACCGGAGCACACGCCGGCTGACCTGAC
TCGAGGAAGAGGAGCCTTCACGTGCGTCCTGCACCCTTGGCCCTGCGAGACTACCGTGAACCCCGAGAAGGGATCAGGCGCCGATCTGACCAACCGGAGG
CGGGATAAGCCACTCCCTAATANNNNNNNNNNNNNNNNNNNNACTGCTGACTCTGGGGCAAGGGCAGAGAATGGGGCCTCCCAAGGGAGGAGACAGCCAC
AAAGACTGTGATGGGGAACGTGATGGGGCAGTACCCAACAGGCAGGAGAAGGGCACGTA


SNP Information

Context             (SEQ ID NO:6132):
TCTCTCAAACTCAGGTGGCAGAGGTTGCCGTGAGCCGAGATCGCACCACTGCACTCCAGCCCGGGCAACAGAGCGAGACTCTGTCTCAAAAAAAAAAAAA
A
GAAGAAGATAACACATGTAGGGTTTTGGCTTCATGTGTAGCAGATATTTGGTCAATGGTTGCTTATTTTTTGGCGTCACCATAGGGAGAAATATGGTTAA
Celera SNP ID:            hCV12117603
SNP Position Genomic:     24264
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,5)   total(A,5|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6133):
CCAAGGTGGGTGGATCGCTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGCAAAACCCTGTCTCTACTAAAAATACAAAAAAAATTAGCCGGGT
R
TGGTGGCTCATGCCTGTAGTCCCAGCTACTCGGGAGACTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCAGAGGTTGCAGTGAGCCGAGATCGCACCAC
Celera SNP ID:            hCV12117604
SNP Position Genomic:     21570
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|A,6)   total(G,5|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6134):
AGTGTCAGGAGGGCTCTGGGGTCAGCCTGGGTGTTAATCCCAGCTCTGCTGCTTGCTGGCCCCATGACCTTGGTATGGTTACTTCACTTCTCTGAGCCTC
R
CTTTTCCTGTTTGTGAAATGGGGACAATGGCAGCATCCACCGCATAGGGTTGTTACGAAGGTCAAGGTCGTCACGTGCACGCCTGGCACCATGCCTGTGC
Celera SNP ID:            hCV1387550
SNP Position Genomic:     26517
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,4)   total(G,3|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6135):
AGGAAGCGGAGGTTGCAGTGAGCTGAGATCACGCCATTGTACTGCAGCCTAGGCGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAGTATATATATA
W
GCTGGGTGCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCGCTTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATG
Celera SNP ID:            hCV12117605
SNP Position Genomic:     21424
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:6136):
GCCGGGCTGCCCTGGCTGGGGGCAGGAGCACGCCTGGGCATGGGGATCCTGTCCCCGTCTCCTTCCCCTCCCCCTCCCTCCATTCTCAGTCACAGGCCTC
R
GGGAGCTGCTCAGGGAGGCCCAGGAGGGGAGGAACAGGGCTTCGTGTGGGAGGATTTCTGCAGGCAGCTGGGACTTTCCTCCCCAGCTTGGCTGGAGGCC
Celera SNP ID:            hCV1387551
SNP Position Genomic:     26212
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:6137):
TTGCTTGAACCCAGGAAGCGGAGGTTGCAGTGAGCTGAGATCACGCCATTGTACTGCAGCCTAGGCGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAA
A
GTATATATATATGCTGGGTGCTGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCGCTTGAGGTCAGGAGTTCGAGACCAGC
Celera SNP ID:            hCV12117606
SNP Position Genomic:     21412
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,6)   total(A,1|-,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6138):
CGGCCCTCCACTGGCGACTCAGGGCTGCTGGCCCTTCCGTGGCAGGACCCACTCGGCAGCAGTTCACAGTGAGCAGTGGCGAGAGCCCACCGCTGAGCGC
Y
GGCAACATCTACCAGAAGAGGCCGGTCCTGGGCGACATCGTGTCAGGGCCTGTGCTCAGCTGCCTCCTCCACATCGCCCGCCTGTATGGGGAGCCTGTCC
Celera SNP ID:            hCV12117607
SNP Position Genomic:     20282
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:6139):
TGGGAGGCTGTTTACTGCCTGTAGACCGCTGAGCAGAGTCCATGGCCCTGCCGGGCTGCCCTGGCTGGGGGCAGGAGCACGCCTGGGCATGGGGATCCTG
Y
CCCCGTCTCCTTCCCCTCCCCCTCCCTCCATTCTCAGTCACAGGCCTCGGGGAGCTGCTCAGGGAGGCCCAGGAGGGGAGGAACAGGGCTTCGTGTGGGA
Celera SNP ID:            hCV1387552
SNP Position Genomic:     26163
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(C,22|T,36)   Chinese(T,6|C,14)   Japanese(T,12|C,26)   African(C,21|T,39)      total(C,83|T,93)no_pop(C,3|T,8)    ;(C,-|T,-)   Caucasian(C,22|T,36)   African-American(C,21|T,39)   Asians(T,18|C,40)   total(C,83|T,93)
SNP Type:                 INTRON


Context             (SEQ ID NO:6140):
TGAACCCTGGGCTTGTCCGTGCCCTGGCCATCAGCCCCAGTGGCCGTAGTGTCGTGGCCGGCTTCTCCTCAGGCTTCATGGTGCTCCTGGACACCCGCAC
R
GGCCTGGTTCTGCGAGGCTGGCCAGCCCACGAGGGGGACATTCTGCAGATCAAGGTGACGGGCCGGGTCTCCCTCCCCTTGCTGCCCAACCCCCGCCCCT
Celera SNP ID:            hCV1387553
SNP Position Genomic:     25636
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6141):
CGCTGTACAACTACGGCGACGGGACCAGCGAGACGGCCCCACGCCTCGTCTACACCCAGCACCGCAAGAGCGTCTTCTTCGTGGGCCAGCTTGAGGCCCC
R
CAGCACGTGGTGAGCTGTGACGGGGCTGTGCACGTCTGGGACCCCTTCACAGGTGAGCGGGCCCAGGTGAGGCCTGTTCTCTTCCTGCTCCTGCGCCCCA
Celera SNP ID:            hCV1387556
SNP Position Genomic:     23636
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,4|A,6)      total(G,4|A,6) ;no_pop(A,-|G,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6142):
CTCCTGCTGGGCTCAGACAACGGGGTTATCCGCCTCCTGGCATAGACTGAGGCAGGAGCTGGCCGGGCAAGGGTGGGAAGACATCTGCGGGCGCGTGTCC
R
CTCACCCTGTTCCCTGAGCAGCAGCTCCCTCCAGGGAGGCCCTGGGTCCCACGCCCTGGGTGCCCACATGGCCTGCCAACTAGGGCCTGCAAATGGAGTG
Celera SNP ID:            hCV1387548
SNP Position Genomic:     27213
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,5)      total(G,2|A,5) ;JBIC-allele(G,272|A,1221)   total(G,272|A,1221)no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6143):
AGATCGGCGTGAGCCAGCAGGATGCCCACTTTCACTTCCACCAGATCCGCCTGCAGAGCTTCCCGGGCCACTCGGGGGCCGTCAAGTGCGTGGCACCCCT
R
AGCAGCGAGGACTTCTTCCTGAGCGGCAGCAAGGATCGTACCGTGCGCCTCTGGCCGCTGTACAACTACGGCGACGGGACCAGCGAGACGGCCCCACGCC
Celera SNP ID:            hCV1387557
SNP Position Genomic:     23480
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:6144):
CTGACCATTCCTTGACCGTCTGGAAGGAGCTGGAGCAGAAGCCCACCCATCACTACAAGTCAGCATCCGACCCCATCCACACCTTTGACCTGTACGGCAG
Y
GAGGTGGTCACTGGCACCGTGTCCAACAAGATTGGCGTCTGCTCCCTGCTTGAGCCACCCTCGCAGGCCACCACGAAGCTCAGCTCTGAGAACTTCCGCG
Celera SNP ID:            hCV1387549
SNP Position Genomic:     26971
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,4)      total(C,4|T,1) ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6145):
CACGAGCTGGTTGGGGAGCTGGCGGCGCTGTACTTGGAGAGCATCAGCCCCAGCAGTCGCAACCCTGCCAGCGTGGAGCCCACCATGCCCGGCACCGGGC
M
CGAGTGGGACCCCCATGGTGGGGGCTGCCCTCAGGATGACGGCCACTCAGGGACCTTTGGGAGCGTCCTGGTGGGGAACCGCATTCAGATCCCCAATGAC
Celera SNP ID:            hCV1387558
SNP Position Genomic:     23128
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:6146):
GCTGCCCTCAGGATGACGGCCACTCAGGGACCTTTGGGAGCGTCCTGGTGGGGAACCGCATTCAGATCCCCAATGACTCTCGGCCTGAGAACCCCGGACC
R
CTGGGCCCCATCTCGGGGGTGGGTGGCGGGGGCCTGGGCAGCGGGAGCGACGACAACGCCCTGAAGCAGGAGCTGCCGCGGAGCGTGCACGGGCTGAGCG
Celera SNP ID:            hCV27486909
SNP Position Genomic:     23252
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6147):
GCCAGAGGGGTCTCATTCATGGCTTGGGGACACAGGGCTCCTAGCAAGCAGGAAGTTAAGAGCAGGAGGAAGCGTTGCTACCTTCACTTCTCCCCAGCTC
Y
GCCCTCTGGGTCCACATGAGGACAGGGAAGCTCGGGAAGGGGAAGGGAGACTGGCCCTGCCCAGCCGGTCTCTAGCCCCTCAGCCCCCGCTGGGCACTCT
Celera SNP ID:            hCV27506693
SNP Position Genomic:     27454
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,742|C,757)   total(C,757|T,742) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:6148):
CTGTCCTCACCTACCAGTACCTGCCCTACATCAGCTACCTGGTCAGTCGCTGGTTTGGCAGGCCCGGGGCTGGGAAGGCTGAGGACCTGAGGGCCGGCCC
R
GGCTCTCTTGGTGCCAGGGGGTCTGTGGGGCTGCCCGGCCCTCATCTGCTCGGTGGCTCTAGGTGGCCCCAGGGAGTGCCTCAGGCCCCAGCCGACTGAA
Celera SNP ID:            hCV28970010
SNP Position Genomic:     20477
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6149):
GAGGCTGAGGCAAGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCCGAGATTGCACCACTGCACTCCAGCCTGGGCGACAAAGCGAGACTCC
R
TCTCAAAAAAAGAGAAACATCTTTAGCATTTTCTAAGGATCCCTGGGGGACGGGAGGCAGGTGTGCGGTGAGTTGGGGGATTAGAAGCTCCCAGGGCTCT
Celera SNP ID:            hCV26058243
SNP Position Genomic:     24896
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:6150):
CCAGGTGCTGGGTCCCAGTCTAAGTGCCAGCCTTGGGTAGGGCCAGGCTGGGCCCCCAGCTAGAGTGAGCTCAAGCGGCCAGCACAGCCCTGCAGGGCCA
R
GCTACCCCCGGCCCTCCACTGGCGACTCAGGGCTGCTGGCCCTTCCGTGGCAGGACCCACTCGGCAGCAGTTCACAGTGAGCAGTGGCGAGAGCCCACCG
Celera SNP ID:            hCV28970011
SNP Position Genomic:     20173
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6151):
GAAAATCATCCCCAACCACGAGCTGGTTGGGGAGCTGGCGGCGCTGTACTTGGAGAGCATCAGCCCCAGCAGTCGCAACCCTGCCAGCGTGGAGCCCACC
R
TGCCCGGCACCGGGCCCGAGTGGGACCCCCATGGTGGGGGCTGCCCTCAGGATGACGGCCACTCAGGGACCTTTGGGAGCGTCCTGGTGGGGAACCGCAT
Celera SNP ID:            hCV27492426
SNP Position Genomic:     23112
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6152):
CAGGTTAAATAAAGCTGAGCTGGGAGGCTGTTTACTGCCTGTAGACCGCTGAGCAGAGTCCATGGCCCTGCCGGGCTGCCCTGGCTGGGGGCAGGAGCAC
R
CCTGGGCATGGGGATCCTGTCCCCGTCTCCTTCCCCTCCCCCTCCCTCCATTCTCAGTCACAGGCCTCGGGGAGCTGCTCAGGGAGGCCCAGGAGGGGAG
Celera SNP ID:            hCV7459941
SNP Position Genomic:     26143
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(A,9|G,47)   Chinese(A,4|G,14)   Japanese(A,7|G,33)   African(A,13|G,45)      total(G,139|A,33) ;(A,-|G,-)   Caucasian(A,9|G,47)   African-American(A,13|G,45)   Asians(A,11|G,47)   total(G,139|A,33)
SNP Type:                 INTRON


Context             (SEQ ID NO:6153):
AAAAATATATATAAAGGCCGAGCGTGGTGTCTCACCCCTGTAATCCCAGCACTTTGGGGGGCCAAGGCGGGTGGATCACGAGGTCAGGAGTTTGAGACCC
R
CCTGGCCAACATGGTGAAACCCCGTCTCCACTAAAAATACAAAATCTTCGCTGGGCATGGCAGCAGGTGCCTGCAATCCCAGGTTCTCGGGAGGCTGCAA
Celera SNP ID:            hCV26058248
SNP Position Genomic:     21179
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6154):
CTGGAGATGGCATACACAATCTACGTGCCCTTCTCCTGCCTGTTGGGTACTGCCCCATCACGTTCCCCATCACAGTCTTCGTGGCTGTCTCCTCCCTTGG
R
AGGCCCCATTCTCTGCCCTTGCCCCAGAGTCAGCAGTGGGTTCTAAGAGCCAGCAGGATGGGTGAGAGCAAAGGGATTTGGCCTCAGACCCCTACCCCCA
Celera SNP ID:            hCV28970008
SNP Position Genomic:     22358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6155):
AGGTGGGCAGATCTGCTGGGCCAGGGCGGGCTGGGGCGGGGGCTGTGGACCTGGGTGACCCCCTGGGCATCTTGCTCATAGGATCTGAAGCTGGACTCCG
Y
GGGCCGTGGCGAGGACCAGGGTGGGCCAGGGTGGGAGCTGTGGACCCGGCTGACCCCCTGGGTGTCTTGCTCATAGGATCTGAAGCTGGACCCTGCGGGC
Celera SNP ID:            hCV28970009
SNP Position Genomic:     22061
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6156):
GTATGCAGAAGGACCCAGGCTCCTGCTGAGGCTCTCCTCTCCCGGGACAGGCGGTGGAGGGCAGCGTCCTGGTCAGCTCCTCCTCTGACCATTCCTTGAC
Y
GTCTGGAAGGAGCTGGAGCAGAAGCCCACCCATCACTACAAGTCAGCATCCGACCCCATCCACACCTTTGACCTGTACGGCAGCGAGGTGGTCACTGGCA
Celera SNP ID:            hCV7459945
SNP Position Genomic:     26887
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,228|C,1247)   total(C,1247|T,228)no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6157):
GTTGTCTGCCCACCCCTACCACAGTGTTTGTGCCTTCAGCTGAGGGGGCAGCCTCTGGGCCCTGAACCCCTGCTGGGGCTCCACGACCCTGAGAGAAGGG
K
TGAGAAGAATCATCTCTGCACCTCGGGTCTCTGCCAGAGGAAGACTTAAGCATCCCTGCGACCTCACATTCTAGACAGAGATGAGGTCCAGGGGTTGGCC
Celera SNP ID:            hCV7459946
SNP Position Genomic:     27893
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:6158):
AGAGAAGGGGTGAGAAGAATCATCTCTGCACCTCGGGTCTCTGCCAGAGGAAGACTTAAGCATCCCTGCGACCTCACATTCTAGACAGAGATGAGGTCCA
R
GGGTTGGCCCCTGCTGCCTTCTCACAATTTGCAATAGATGTAAATAGGACCAATAAATCCTTTGGAAGAGCCATGGGGTGAACTGAGGCTTGTCTTTTTT
Celera SNP ID:            hCV7459947
SNP Position Genomic:     27984
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Gene Number:                 46
Celera Gene:                 hCG2008078 - 106000122232727
Gene Symbol:                 MGC45922
Protein Name:                hypothetical protein MGC45922
Celera Genomic Axis:         GA_x5YUV32VY4T(673281..686523)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1707):
AGGACCATCCCAGTCAGTGAGGACCATCCCAGGGAGTGAGGACCATCCCAGGCAGTGAGGACCATCCCAGGGAGTGACGACCATCCCAGGCAGTGAGGAC
CATCTCAGGCAGGGAGGACCATCCCAGGCAGGGAGGACCATCTCAGGCAGGGAGGACCATCCCAGGGAGTGAGGACCATCCCAGGCAGTGAGGACCATCT
CAGGCAGGGAGGACCATCTCAGGCAGGGAGGATCATCTCAGGCAGGGAGGATCATCCCAGGCAGGGAGGATCATCTCAGGCAGGGAGGACCATCCCAGGC
AGGGAGGATCATCTCAGGCAGGGAGGACCATCCCAGGCAGGGAGGACCATCTCAGGCAGGGAGGACTATCTCAGGCAGGGAGGGCCGTCCCAGGCAGGGA
GGGCCGTCCCAGGCAGTGAGGACCATCTCAGGCAGGGAGGACCATCCCAGGCAGGGAGGACCATCCCATGGAAGTAAGGGCCATCTCAGGCAATGAGGAC
CATCCCAGGGTGGTGAGGATAATTCTGGGGCAGTGAGGATTATTCCAGGGCAGTGAGGACCATCCTGGACCAGTGAGTACTATCCCAGGGCAGTGAGAAT
CATTCGAGAGCAGTGAGGAGTATCCCAGGGCAGTGAGGACTATCCCGGAGCAGTGAGGACCATTCTAGAGCTGTGAGGACTATCCCAGGGCAGTGAGGAT
TATCCTGGGGCAGTAGGGACTATCCTATGACAATGAGGACCATCCCAGTGCTGTGAGGACCATCCTGGGGCAGTAAGGACCATCTCAGTCAGTGAGGATC
ATTTCAGTCAGTGAGGATCATCCTGTGGCTGGGAGGACCACCCTGGGGCCGTGAGACTCATAAAATACCTGTGAAGATCATTGCAGGAAAGGAAGAAACC
ATTCTGTGACAGGTGGAGGGGTCCCTGGGATAAAGTGGAGCGATGGGTCCCAGGAGTGGTGAGGGCAGGGCAGGCCTTCCAAGCATCCTGGCTGTGCTCA
TGCAGGCAGGAGATGTCACAGCACTGCTTCTCCTCCCCCAGAAGTCTAGCTCAGAACTTGGCCTCCGGCCTGGGCACTGCCTCATACCTGCCAGAATTGA
TCTCAATGGAGCTGCACAATGAGAGGTTTTGCATGTTGTCTAGAGGACTTTGGTTGAGTTCAGAGCTGAGCACACTTGCCTTCAGACTCTCCTGGGACTC
CCAGGTAACTGATTCAATGCTTTTGATACTGGGCTCGGGGCCGTAGGTAAGTGATGGGAGCACATTGACAATGGCCCAGGCTTGGAAGTTGGGGGTTGGA
ACACTTAAATGGGCAGTCTCGGTTGTTGACAGGTAGTTTTGGTCATGATCTTTGTTGCTGGGGATAATTGATGATTAGTCAGGGGGTGAGAGCCTTGGAT
ACTGAAGCAGCGAGTTTGGAAAATTGGTGAAGCACCTCGCATACTGAAATCGTGGCTGTAGGTAATGGCTGGTGTTTCTGGGATACTGATCTGTTGACTG
CTGATAGCTGGTGTAGGGTCTTGGATACTGACCTGGTGATTGTGAATAATTGGCAAGGGGTCTTGGATACTGACCAGGCGATTGCTGCTGGCTGGTGGAG
GCTGTTGGATACTGACCCCGTGACTGTTCCTGGCTGGTGGAGGGTCTTGGATACTGACCCGGGAATTGTAGGTAATTGGCACCACCGTGCCTGGCTAATT
TTTTTGTAATTTTAGCACAGATGGGGTTTCACCATGTTGGTCAGGCGGGTCTCGAACTCTTAACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAAGTTC
TGGGATTACAGGCATAAGCCACTGCGCCTGGCCCTTATTATTATTTTTTAAGGTATAGAAATCTAGAATTTTTTTTTTTTTTTCTGAGACAAAGTCTGGC
TCTATCACCCAGGCTGGAGTGCAGTGGCATGAGATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCAAGCCATCCTCTCACCTCTGCCTCCCACGTAG
TTGGGACTACAGGGGAGTGCTACTATTCCTAGCTATAATTTTGTATTTTTTGGTAGAGGTAGAGTTTTGCCATGTTTCCCAGGCTGGTCTCGAACTTGTA
AGCTCAAGCAATCTGCCCACCCCAGCCTCCCAAAGAGCTGGGATTACAGGCATGAGCCACTGTGCCCAGCCTTAGAATTTTTAGGTAGTTTAATTTCTTC
ACCTTTGTCTCTGTGACTTTATTAATTGCTTCTTGGCTTCGGGAGGTTCTCCCTCCAGATTTTTGATGAACATTCAGTTCTGTTTTTTTAAATTCTCATT
ACTTATTTTTAGGTTTTGATTGTGATTTTGGAGTTGGTATGCAGGGAACATTGAATTCTGTGCTCCCTGCTGTCCTAAGGAAGGGACTTGAATTAGTCAG
GAGTTTTTGGGTCACAAGTGACACAAACTCTTTTTTTTTAAATTTTTTTTATTTTTTACTTTTTTAAATTTGAGATGGAGTTTCACTCTTTCACCCAGGC
TGGAGTGCAGTGGCGTGATCTTGGTTCACTGCAACCTTCACCCCCCGGGTTTGAGCGATTCTCCTGCCTCAGCCTCCGGAGTAGCTGGGATTACAGGCGC
CCGCTGCCATGCCCGGCTAACTTTTATCTTTTTAGTAGAGACGGAGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCT
GCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCATCGTGCCCAGCCACAAGTGACACAAACTCTAACTTGAACTAGCTTGAGTGAACTAGTTG
TATTAGCTTGAGTGAACTAACTTGAACTAGCTAGGGGATCCTTTATGGGATCACCTGAGTGAAAAATGGTAATGGTAGGAATGCCTTCAGGCATGGGTGG
ATCCAGGGGCCCAAGTGATAGTATCAGATATTACTGTTTTTTGGCTATGGGATTGGCTTCATTCTCAAGGCTCTGTGTAGTGGCAAGTCAGAATCCAGTA
AGGAAAATAAATCATTCCAGATTCTTCAGAAGGAAGTAAATACAGGGAATTTGTTCGTGAGTAACAGAGGAGCTGAGAAGCCAATAGGAAATAGTGAGGC
AAACCAGGAGTTAGGAACTACAGGATGCTGCTACTTGGCCAGAAGGACAAAGGGAGGAGGTGGTATTACTACAGTCCAGAAACTGCAGCCCTCTGGAACG
CATAGGTTCATGGTTGGATTGCTCAGAAGTGGCTAGAATCAGAGAATAGATACAACTACTACGGAAGACCCACCACATGCAGAGATAGAGAGGCTAATAA
ATACCCTGGCTTGCCCTCTCCTCCCAGAACCAGTCTTCTGCCAGTGCCTCCCATTAGTCAAACACAGTGATAAGATGGTGAGCAAAGGAGGCTGGGAAAT
GTGGTCCTTGCAGTGCAGAACAGGACAGGGCGGGAAATGGATCTGAGAGCAGACAGACAAAAAACTGGCAGAGTTGTTAGCAACTTGGCAGAGTTGGTAA
TAACTGCCGAGTCCGGTAGAAAAAAGTTATCAACAGTTCTTGCAAGAATCCTGTGTGGCTTGGGGCACATGAGCACCCCGAGCCAATTATATGGCCAGTG
GAGTACAGTTGGCTGATTGGCTTAAGACTGGGGCTGAGAATGGGGAATGGGCAGGAGGTGAAATGCATGGTGGGGAGGTAAGCTGCAAATATCCACTCAT
TCTGACCAAATCACAGAGTGGGCTGCTCTCTGGGATGACGAGAGCCAGGGACTTCAGTGTCAGCTCAATGCTCTTTCGCTTGTCTGTTTTCCTTCTTAGT
TTTACTCTCCCCATGAAGCTAGGTCCAAGGCTTAGGCAGCTTCAGGCTTGTAATCCTTGAGGAGAGACTGCTTTTCCTTGACAGCTTCCTAATAAAAAGT
CTTGGGGCAGAGCTTGATTGGTTGGGCTTTGGTCATGTGTCCATCTTTGGGCCAATTGCAGGGTCTGCAGCTGGGGTACTGTGATTGGCTCAGCCAGAAT
CACATGATTACCTCTGTGGCCCAGAGGCCAGCATATGCCAGGAGAATCCCTCATCCAGGGTTATGTGAGTTGGGTGGAGGGTGTCCCCAAGAGATGTCAG
GCTGCTGTTCTGGGCAGACCAAATTCACCATTCAAGGTCTTGGTTTCTGGCTTGGTGCCTTCTCCCTGACCTCTGCTTCTTGACTCTTCAATGAGCAGAA
AGAACTAAGGGAACTGGCTGGGCATGGTGGCTCACACGTGTAATCCCAGCACTTTGAGAGGCCAAGGAGGGAGGATTGCTTGAGCTCAGTAATCTGAGAC
CAGCCTGGGTAACAGTGAGACCCCATCTCTATGAACAAAACAAAACAAAAACAAAAAACCAAGGGGTCTGATATTTCCCCCACTTCCCAGAGTGCTGTTG
CTCTTCTGTATATATGATGATCCTTTATCTTTCTTGTTGGGTATTAGAGATGTGCAGTTTGCCAGAAACAAAGCAGATGAGGTCTTGGCCTATTTGGCTA
AAACAATTTTGCACTGTTGAAAAGTAGACAAAGTAGAAAAAGGGCTAAAAGGAGGAGATGTAGCATCTCGGAAACAGGTAAACCTCTCTTCTGCTGGAAG
TCTAAGTTGGATAAATATCCACTGTAAACTGGAACTAAGCTTTTGGGCACATTGGTTTTAGAGTATTTGACTTGAAAGTTTTTCTTGTGTGCAAATCTGT
ATGTGTTTTGTGGGGGCTCTCAGGTGTGAACAAGAGATGACATTAGGATGTCTGAGGAGATTCTCGGCATGTGAATGGGGCCACTAGGGGACCTTGGGGG
GTGACTAGCAGAGACTAGAGCAGAAGTAGGGTGACTTTGGAGAGGACTGGGGTGACCGTGGTGTCTTGGATAACTTTGAGGGTGCTGTTGAGGGTGTCTG
GGAGTGAAACTGAGGATACTAACATGAGTTGTTATGAGACACCTTTTAGGAGTTCAAGTAGGGTGACCAGGGGTGTCTGTGGGGGTGGTTCTAGAAATGA
TCGAGGCTGGGCTCAGTGGCTCACGCTTGTAATCCCAGCACTTTGGGAAGCCGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAA
ACCATGTCTCTACTAAAAATACAAAAATTAGGCTGGCGTGGCAGCAGCTGCGTGTAGTATCAGCTAATCGGGAGGCTGAGGCAGGAGAATTGCTTGAGCC
CAAAGGCAGAGGTTGGAGTGAGCCGAGATCACACCACTGCACTCCAGCCTGGGCAACAGAGCAAGACTCCATCTTAAAAAAAAAAAAAAAAAAAGAAGAA
GAAAGAAAGAAATGATTGAGGTGATTCTGTGGGGTAACCTTGAGGATGAGTGGGATGACCTTTGGGGGGTCCTCTGTGGGGTGACCTTGGGGGGTGTGTG
GGATTATGAGAGTGTCTGAGAATTGAGTTTTAGGTTAAGTAGGGGTGATTTGGGACAACTCTAAGGGTGTGACTGGGGGATGACTTTAGGGGTCCCTGGG
GGTGACCTTGTGAGTGAGATTGGAGTTTCTTTGGGGTTTCTAGGAGGTGACTTTGGGGAGGTGAGTAGGGGTGATTTTGAGGATGTGCCAGACTTTGGGG
TTGTCTGTTGGGCTGCTTGTGGGTATCAGCAGAGATGACTTTGGAGGGTGACCAAGAGGGGTATCTGGGGTTGACTCTGGGGCCCCTGTCCCCCTCTCCC
CAGTTCTCATCCATATGAGCAAGGGCTTCATGTTACTGGCCGTGGCCCTGTGCTGAGTCCTCCTCCCGCCCATGGCCCTCTCCTCCTGGCCAGTGGTCCT
CCGCCTGAACATGGCCGACTTTGTCTTCAGTTTCCTCTGCCTCGGCATTGGTAGGTGTTGGCTTGGGGGGCGGGGGCCCTCCCTAACCCCAGCCCTGCTC
TCTGGCTTTCTGGAGGTGTATCTAGACTTCCGTGCTGCTCCCCTCGGGGCCTCTGTCTTAGCATGTCTCTGGGGAGCTCTGACTCAGTTCTACTCTATCT
GTGGGATGTCTCTCTCCCCCACTCTCTGTTTCCCTTTCTTTTTTTGTCCCCTCTCTCCAGGTATCTTTCTGTCTGTTGTGAGGGCGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTCTGCTTGTCACGGAGGGTGGGAGAGGATGTCTCAGTCCCTCTTTTCTTACTGGGGGTCATAGGGCTCACTGTCCAGCCT
TCTGTCTCTGGCCCCACCCCATTGCAGGGCTCCTGATTTCTCTTCAGCCTGACGCTCTTTTCAGTTAACGGCAAGGCGGTGCACCCAAGTCCGGTGGTGT
CCTACCTGGTGACCTCCTACCTGTGCTGGGACGCCAGCGACTTGATGCTGCACTCCGGTGAGGGCGGGGCCTCGGGAGGAGGGCGGGGCCTCGGGAAGCG
GGTGGGGCCTAGGGTGGGACTCGGAGTACAGCGGCCCACCTAGCCATCTCCCAGGAGCCGTGTCCTACCTAAGCCCAGTGGGCATGTGAAGCAGAGGGCA
GCCCTTGAATGCGCGGCGGCTGAGCTACCGCGGGTGGGCCGTGCAGCAGGGCGCAGCGAGGCGGACATCCAAACAGCGGAACTCAGACGCTGACTCCGAG
CGCACCCCGGGCCTTCCCATTTCATACACCCWCGAGGATGAGACCCAAGCACCTCCAAGGAATAGCACCCGAGGTCTTCAGGACACCGACCGGTAGCCAT
GGCCAGATGCCCGGCCAACCCCTTCAGCGTGGCCACGCCCTGGATATTCGACCTCCCCTGAGGCCCCACCCCCTGATATCAGGCCACGCCCTCCGAGGGG
ACCGGTGGCAAACTCCAGCCCTCGCTCTAGGGCCCGCCCTTTGCGGCTTTGTCCCTGCCCACTGGGTCCTCACAGTGCCTCCACCCCAGAGGCCCAGCAT
CCCCTCCCGTTCTGCAGACACTTGTCCAGCGTCCCGCTGAGCTCGGCAGTGTGGCTAGTTTGTGTGGCCCTGCCCCTGGTGCCCAGCCTTCGCAGGCCAC
ACCCTGAAGCCACTCTCCACCCGCTCAGCCAGGGTGCTCCGATGTCCACCCTTGTCCCGGAGTTCCGGCCTCAGCTCCGATGTCCACCCTTGTCCCCAGG
TGGACACAGCACCGCCCAGCATTTGGTGCAACTCCACCCTTCTGCAGAACGGGCCCCTCCCTGGGAAGGCATGGCTTGCAATAACATCCCTCTGTACCTT
TTCTGGCTTCCCCGCCACAATAAAACCTCTCAGCCTCAGACCTTCCATTGCCCCCCACCTCCCCACCAGGGCAGGGTCCATCCTAGTGTGAGTGAACTGT
TCTGGCGTCCCTGACTCGCCCTTTGGGATCTGAGCCTTTCCCTGCCTGTTTGTCTGCACCTGTCACAGCCCCTTCCTTTCCCCACCTGCTGGTGACCTCA
GACTTCCAGGCATGAGATTGACACAGCTGGGGTGGCCCCAGCCTCAGCCGAGTGGGTCCAGGTGCACCACATCTGGAAAGATAGGTGATGGCAGAACGTG
ACACACATTGGATGCACATTTGATTTTACTGGGGGTAGGGGACAGGGCTGGGCGTTCAGGAGTTCTCCGCTATGGTGTCCTCGATCCACTTCACATAAGA
CAGCACTCTGACGGCGACAGAAGGCTTATTGGGGGTGCCACAAGGGACGTAGCCCCATGATGTGACACCTTGGAGCACACCATCACACATCAGCGGGCCC
CCTGAATCACCCTGGGAGCACAAGGTGGGAGGGGAGAGTGAGAAAGGTCTACGGGGCCCAAGTTCTGCCTGGGGAGCCCCAGCTCGCAGACAGGGCCTCC
AGTGCCCACTCCCAGAGGAAGGTGGGCAGGGATTCCCACAGAGGGGACAGGGTCTCCAGTCCTGGCCAAGGGGGAAGGGACCTCAGGGTCCAGCTCCTGC
ACATGGGGCAGGGTCCAGGTGGACAGTGCCTGCAGACAGGTTAGGGGGAGGAGGGGCAGGACCATCTGCAGGACGCTGCCCCTGCGGGCACATCGCAGAG
GCCACCTCTCCAGGACTACTCTCTGACTCGACGGTAACAACACATTACCACGAGGAACGGTGAACTCTGGTGTGGGGGGTGAGATGCAGTTGTCCCTGGA
TGGGCGGGGGAAGGAGGGGGAGCTGGGGCACTGATGGGGCGAGTGGCTACAGCTAGCTGGGAAGCAGTGAAGCAGATGCCTGGTTAGCTCTCAGAAGCCA
GTTCAGAGGCTGAGTCCCCTCCCTCAGCCCTTCCAGACCCTGGGGGCAGGGCTGCCTCACCACACAGGTGTCTTTGCCACCTTCCAGGTGTCCGACACAC
AGCATGAAGTCTGTCACCTTCTGGACGTGGGCTTTTTTGCACTCATCATTAGGCAGGATTTTGAGGTCCACACACTGGAGATCATCTGGAAATGAGACTA
CGAACCCGGGAGAAAAAGGGCTGCAGCCCGACCTCACCTGCTTCCCTGGCCCTTTCTCCCTTGGACGCAGGAGTCCCCATCCCCGCCTTGGGCTACACAG
TCTGCCCCCACATACAATTCTCTGGTTCGATGCTGCCCCAGCCGGAAGCCAAACAGGTGCTCCCCACTTCGGGTTCCTCGGTGGGCAACTCCACGACCTT
CACAGCGTCTGTGATGGTATCAGCAGGCTCTGTCAGGCGGAGCAGCATGAGGTCGTGGCTGTAGTCCTCGTCTGCTTGGCGGGTGTGGTTCTCCAGGAGG
CTCATGTTGAAGCCAGGGTGTGGGAAGCTCTCACTGACATGAACAAACTGGGCTGTGTTTTCGTCGTCAAACAAGTTGTGGCGACCCAGCCAGAGCTGGT
AATTGCTGGGGAAAGATGGGAATGGAGGGATGAGAAGACGGGAAGGGGAAAAGGGGATGGGGCAGGGGAGCATGGGGGAGGGTCCCCAAAGAGAGAAAGG
GAAAGAGAAAAATGTGGGTGGGCGGAGACAGAGGAAGAAAGATATAGTTATGGAGAAATACAGACAGCGAATGGGAAGATGAAAGAGTTTGAGAGTGCAA
AAGGCAAATGAAGAGACAGAGCAAAAAAGAGCTCAAAAGGACAGAGGGGTGAGAAAGGCGGAGGGGAGGGCAGTGAGAAACAGGGTGAGCAAAAAAGAGG
CAGATGAGAAGGATAAAAGACAGGGACAGCGAGAAACAGGCCCAGGGAAGAGGGAGGAAGAGGGAACAGAACACGGAAGGGAGCGAGAAGCAGACAAATG
AAAAAGGACGCGGGACGTCAGAGTGAGAACTAGAAACAGAGGCAGAGAGGAAGCAGGAGTGACCGAGTGTGGGAGAGAAAAGGGAGGGAGGCCCTGGGGG
AGGGTGGGGGCAGGTGGGGAGGGTGGGGGCAGGTAGGGAGGAGGGGAGGCCTGAGAGCGGCTCAGCTGCAGCTGGGGCTGTGGTGCGGGCTCCCCAGGGG
CAGGTGGCCTGGCCTGAAGTCCAAGGTCGAGGCCCCCTTCCCTTCCCAGCACCCTCCCGCGCGTTTCTCGCCCCGCCTCCTCCTTCCTCCTCCCTCAGTT
GCCCCACCCAGCTCCCGCTGAAACCAGCCCTTCCCTGTGTCTCTCCAGAGTGGAGGGATATCCTGTGGGGCGGGGAGCTGGACAGAGGGAGAGGCGCCCC
CTCCCAGGCACACAAGTTGGGGATAAAGCCCTTCCTTTACTCTGGGGCCTCCCTTAGGTCCATCTGGGTGTGTGTTTAGTAGGGATGAGGGAGCGGTGAG
GTAGAGACCCAGAGAGAGAGAGATGGGTAGAGAGATGGAGGGTGAGACACAGTGACAGAGATGCCGCAGAGAGACTCAGAGACAGACAGAGACAGGGGAG
ATGCAGAGACAAGGAGACAGAGGAGAGAGAGGAAGACAGAGACCAGAACACAGTCACACAGAGACACAAGCAGAACCAGATCCCAAGAGACCCAGGCAGC
CTTGGAGAGGGGTGTCCAGCCCAGCTCTGCCCTGCCAGGCGACCTGCGCCAGAGCCTTCCTCTCTGCCTCAGCCCCCCAGTCTTGCCTGAGGTTATCCAA
GGGGAATGCCACTGGCCTGTCAATCCTGTGGCAGCATAGATGCCCTCCTCCCAGACCCCAGGCCCCTACTCACTCGCTGATGCAATGAGCAGCTGTGAGC
ACCCACTGGCGGTGCACCAGGATGCCCCCACACTGGAAAGTGCTGAAATGGTACAGAGCCGCCTGCCAGGGCTGGGAATGCTGCTCACACTCCCAGCCTC
CCACAATCCGGGACTGAATCGGGGGCGCAGCACCTGCAGAGGCGGTGCTGGGTCAGGAAGGGCAGGGTTGGCAGGAGAGGCCAGGGACAAGGCTAGGAGA
GGGAGCTGGGCTGTGGGTCTGAAGGGACATTGCGGGTAGAGGACCAGGGCTGGAGGTTGGGGACATGGGCAAGGGGTGTTGGGAAGGGGTGGGACTCTGG
ACTGTTCCCTGGGCTTTTGGAGTGGTGGCTGGACCTGGTGGGGAGATTTTGTGCTCTGACAGTAGAGCAGCCTCCAGGGATCAGGGTAGGAGACAGGAGA
CAGTGTCTGGAGCAGACACTGCATCTGGGCGTCAGGTCATTTGGGGTCTGGGGCTGGGGGATGGGAGGTGGTGGGTTAGGGGAGTGGAAAGGGATTCTGG
AAACCAGGGATCAAGGCGCCAAGGGTGGGACAGGATCAGAGGCTCACTGAGGAAGAATCTGGAGGGCTAAGGGGCTCCTAGGCTAGGGAAACAGGACCTG
GGTTGGGCTTTTGAGGTTCAGGAAAGGATGCAGCTTTAGGGAACCAGGTCTGAGAGGTAAAGAAGAGCATCTGGACTGAAGAGTTTGGGGGTGACTTGGG
GTCCCTACATTGGGGTTGGAAGGGGCCAGCTTGGCTGGGACAGTTAGATTTCAGGGCTTCCTGGTTAAAGGGTAAAAGAAAGGGCTATGGTTAAGGCTAG
AGGTGGGCTTCCGAGAGGTTTTGGGGTCCTTCCTGTGAACCAGGAATGGCAATCTGAGGGGAGGTTGGGGCCCTGAGAACACAGTTGCGGTCAGGACTGG
GACGGGGCTCAGGAGGAGGGAGGCGTGAGTGGCAGTCCTTCTCGGACAGGGTGAAGGATGGGATCTTCGTTTCTCATGGGGATGGGGTTCATGGTCTGAG
GGTACTGGAAGGATATGGGGTCCTCTTGGAGGCAATCCTAGGAAGAGGATTGGAGAAGTGGTGAGAACAGGCGCCAAGCAGCTGTGGGAATGCAATGCAG
GACCCACTTGATGTGAGGTTGTAGAATCACATACTGACTTGGGGGAGGCCAGGGCAGAAGCGCTGGCTGAGAAGGCATTCAGGATCCTTGGCGTGGGGTT
CCAGAAAACCAGAGCTGTGTAGGAACAATTCAGGCAGAGAAGGGCTGGGGCCTGGGGCGGGATGGAACTTCCCCAAGGAAAGGAGCATGTGGTGGGAGGG
TGTGGTGTTTTTCCTGGGAGAGCTGGGGGTGCTGGGTGGGAAGGGACATTTGCAGACCCCCCCCCATACCAGATGGGGGATCCCACATGCCAGTTTGGGA
AGCAGGGTTTTCTGGTGAAATTTGGGGGACCCTGGAAGGACTGGGGAGACCAGATGTCAGGGTCTGGAGGACACAGTTGAGAGCGGACAGCTGGATGGAA
AAAGTCACTGGAGTGTGGTGGGATTTGTAGACTCAGGAGCCAAATAGGTGGCCGCAGGGAACTAGGGGGCAGGAGGGGATGATCAGAGTCCTGTGGGGTG
GGGGAAGCCCATGGGAGGGTTGGGGTCCTCCAGAGAGAGACAGAGATGGCCCAGAATCTGCCCCTTTGGTAAAGCGGTGGGACAGGGCGTTGGCTAGGGA
AGAGGAGAAAGTACTGAGGCTTCCTGGGAGGAGCAGGAATCTGGTGTGGGAGTGAGCACTATGACAACATGGAGGAGCGGGGGTGGAAGTTTAGGGTGGG
GCCGCGCAAGATAGATAAGAGCCGGGGCACCCCGGACTAGGATAGACTGTGGGCCAGAGGGATGAGGGTGGGGTGTTGGAGGGGAAGGTCTTATCGGGGG
GGGATGTGAGGCCAGCAAGAGAATCAGGGCCCGTTCCCCCTCCCACATCCCCCCACTGTCTCACCAGTCCCCCCCAGGGACAGGGCGAGGCACAGAACCA
GGAACCACATGGTGACAGAGGTGTCCAGGGGCCAGCAGGTGGAGGAACTGGGGAACCTCCCTGGGGAGGCTTTTAAAAGCCCTTATCCCCTCAGAGCCCC
ACCCCTGCCCTGCTGGCACCCAGATGTTGGCCAAGGCCCTTCCCCTGTTGCCTGGGGGCTGGACAATTGCCCCCCCCCCTCCGATCCCCAGAGCTGTAGA
CGGGGAGGGAGAACCAGCACCTGTTCTGCAGGCCCTGGATCACGCTGGACGCATTCCTGGGGTTGAAGCCAGGTGGGGCAGGGCCTGTGGCTCTGGGGCT
TTGCTCTGGGGAGCAGCCAGTGAGGCAAGGGGGGACTGAGGGGAAGCAGAAACAGGAAGACGGAGGAATCAGTGACCCCTGGTACAAAGCCCCATATACC
TCAGTCTCAATTAAGGCCCTGCACCCCCAGACCTGGTGCCCTCAAACACCAGCAGTTAGGGCTCTGATTCCCTGCACCACTCGGAGCCAAGATACTAGCA
TCTCAGCTGCCAGTTCCCCCTGAAATATAAGCCTTGGCCTTCAGAATGCCCTGGTTCTTGCACTCCCAGACCCAGGACCTAGGTCCCCAAAGCTACTGTT
CCTTTCATAATAAAATTTTGGGGTACACATCACCACATTCCTAGTGCCTCCAGATCCAGGAATGTGAAGTTTCAGGGGTCTCCCAGGGTAAGTTCTTTAG
CATTACAAAATCCAGTGTCCCTCCCAAACAATGCTGGGGTCTCAATGAGCCTCCCACTTCTTGCTCCCAGTTATGGGTGCTCAACGTCCTGTCCTCCAAA
GTCCCAGAGATCTGGACAACCTTCCCTCCCAGGTCAAGATCAGGCTAACCACAGATTCCAATGACCCTTCCCCCCCACCACCAGTACAATATTTAGGTCT
CACGAGCCAGGTTCATGTACTTCAACATTCAGCGACCTTGAACATCACATTTTGTGGTCTCTGAAGATAATTAGGAACTAGATTCCTGCAGCCTCAATGG
TAAACCCATAGGCTTCCAACAGGTTGTCTTGGCTTTTTGGTAAAATCAAAGCAGCTCAGAGTTCCAGCCTCTGCTGTATATCAGGGACCTGGCTAAGGAA
AGGACAGTATTTGCCTTTTTGCCATGGCTACCAGGAAGCCCA


SNP Information

Context             (SEQ ID NO:6159):
GGGTGGGCCGTGCAGCAGGGCGCAGCGAGGCGGACATCCAAACAGCGGAACTCAGACGCTGACTCCGAGCGCACCCCGGGCCTTCCCATTTCATACACCC
W
CGAGGATGAGACCCAAGCACCTCCAAGGAATAGCACCCGAGGTCTTCAGGACACCGACCGGTAGCCATGGCCAGATGCCCGGCCAACCCCTTCAGCGTGG
Celera SNP ID:            hCV27954010
SNP Position Genomic:     6632
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 5


Gene Number:                 47
Celera Gene:                 hCG2043314 - 30000035077834
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32W6W6(6070230..6089762)
Chromosome:                  
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1708):
TCTAAGGTATATAGATCACATATATATCATATGTGATCTATATATAGATCATATATATATATATGTGATCTATATATATATATATATATATAGATCTATA
TATATATAGATCACATATATATATATCACATATATATATATCACATTTTCTTCATTCACCCATTAACTGATGGGCATTTGGGGTGGTTCCATATTTTTGC
AATTGTGAATCATGGTGCTGTAAACATGTGTGTGCAAGTGTCTTTTTCATACAATGGCTTTTTTCCTCCAGTAGTGGGATTGCTGGATCAAATGGTAGAT
CTATTTCTAGTTCTTTAAGGCATCGCTGTACTGTTTTCCATAGGTTGTACTAGTTTAATTTCCCACCAGTAGCATAGAAGTGTTCTCTTTTCATCACACC
TACCCCAACGTCTATTTTTTTTTTTATTTTTAAATTATGACCATTGTTACAGGAGTAAGTTGGTATCACATAGTGGTTTTGATTTGCATTTCCCTGATAA
TTAGTGATGTAGAGCATTTTTTCATATGTTTGTCAACCATTTGTATATTTTCTTTTGAGAATTGTCTGTTCCTCTGCTTAGCCCACTTTTTGATGGGAGT
ATTTGTTTATTTCTTGCTGATTTGTTTGAGTTTTTTGTAGATTCTGGATATTAGTCCTTTTTTGTATGTATAGCTTGCGAATATTTTCTCCCACTCTGTG
GGCTGTTTACTCTGATGATTATTTCTTTTCCTTTGAAGAAACTTTTTAGTTTAATTAGGTCCCATCTATTTATCTTGTTTCTTTTGCATTTGCTTTTGGG
TTCTTGGTCATGAACTCTTTGCCTATGCCAATGTCTAGAAGAGTTTTTCCAATGTTCTAGAATTTTTATGGTTTCAGGTCTTAGATTTAAGTCTTTGATC
TACCTTGAGTTGATTTTTGTATAAGGTGAGAGATGAGGATCCAGTTTAATTCTTCTGCATGTGGACTGCCAATTTCCCCAGTACCATCTGTTGAATACGC
TGTCCTTTCCCCACTTTATGTTTTTGTTTGATCAGTTGGCTGTAAGTATTTGGTTTTATTTCTGGGACTTCTATTCTGTTCAATTTGTCTATGTGCCTGT
TTTTATACCATTCCCATGCTGTTTTGGTGACTATAGCCTTGCAGTATATTTTGAAGTCAGGTAATGTGATGCTCCAGATTTATTCGTTTTGCTTAATCTT
ACTTTGGCTATGTGGGCTCTTTTGTAGTTCCATATGAATTTTAGGATTGTTTTTTTCTAGCTCTGTAAAGAATGATGATGGCATTTTGATGGGGATTGCA
TTGAATTTGTAGATTGCTTTTGGCAGTATGGTCATTTTCACAATGTTGATTCTACCCTTCCATGAGCATGGGACGTGGTTCTACTTGTTAGTGTCATCTA
TAATTTCTTTCGGCAGTGTTTTTAATTTTCCTCGTACAGGTGTTTAACCTCTATTGCGGGAAGTCAGGGACCCTGAATGGAGGGACCGGCTGAAGCCACA
GTGGAAGAACATAAATTGTGAAGATTTCATGGACATTTATCACTTCCCCAATCAATACTCTTATAACTTCCTATGCCTGTCTTTACTTTAATCTCTTAAT
CCTGTCATCTTTGTAAGCTGAAGATGTATGTCACCTCAGGACCCTGTGATGATTGCGTTAACTGCATAAATTGTTTGTAAAGCATGTGTGTTTGAACAAT
ATGAAAACTGGGCACCTTGAAAAGAACAGGATAACAGCAATTTTCAGGGAACAAGGGAGATAACCATAAGGTCTGACTGCCTGCAGGGCCAGGCAGAACA
GAGTCATATTTCTCTTCTTGCAAAAGCAAATAGGAGAAATATCGCTGAATTCTTTTGTCAGCAAGGAATAGCCCTGGGAAAAGAATGCATTCCCGGGGGA
GGTCTCTAAAATGGCCACTCTGGGAGTGTCTGAATTACATGGTTGAAGATAAGGGATGAAATATGCCCTGGTCTCCTGCAGTGCCCTCAGGCTTGCTAGG
ATTAGGAAATTCCAGCCTGGCAAATTCTAGTCATACTGGTTCTCTGCTCTCGAACCCTGTTTCCTGTTAAGATGTTTATCAATGACAATGTGTGCCCAGC
GGGATGTGGAACCTCATCAGTGATTCTAGTTTTGCCCTCTGCCTTGTGATCTTTTACTGCCCTCTGAAGCATGTGATCCCTGTGACCCATTCCCTATTCA
TAGACCCCCACCCCTTTTGAAATCCATAATAAAAACTTGCTGGTTTTGCGGCTCAGGTGGGCATCATGGAACCTGCTGACATGTGATATCACCCCCGGAG
ACCCAGCTGTAAATTTCTCTCTTTTGTACTCTTTCTCTTTATTTCTCAGACTGGCCCACACTTAGGGAAAATAGAAAAGAACATACTTTGAAATATTGGG
GGCTGGTTCCCCCAGTAAACCTCCTTGGTTAGGTATATTCCTAAGTATTTTATTTTTTTGCAGCTACTATAAAAGGGGTTGAGTTCTTGATTTAATTCTC
AGCTTGGTCACTGTTAGTATATGGCAGTGCTACAGATTTGTGTACATTGATTTTGTATCCTGAAACTTTACTGAATTCATTTATCAGATCTAGGAGCTTT
TTGGATAAGTATTTATGGTTTTCTAGGTATACAGTCATATCATTGGTGAACAGTGACAGTTTGACTTCCTATTTACTGATTTGTCTGATTGCTCTGGCTA
GGATTTCCAGTACTATGTTGAATAGAAGTGGTGAGAGTGGGCATCCTTATCTTGTTCCAGTTCTCAGGGGGTATGCTTTGAACTTTTCCCCGTTCAGTAT
AAGGTCGGCTGTGGGTTTGTCATAGATGGTTTTTATTACCTTAAGTTATGATCTTTGTATGTCAAGTTTGCTGAGGGTTTTAATAAAAAAGCGATGATGG
ATTTTGTCAAATGCTTTTTCTGCATCTATTGAGATCATATGATTTTTGTTTTCAAATCTGTTTATGTGATCTATCACATTTATTGACTTGTGTGTATTAA
ATCATCCTTGCATCCCTGGCATGAAACCCAATTTATCACCATGTATGATCTTTTTGATATGCTGTTGGATTATGTTAGCTTGTATTTTGTTGAGGATTTT
TGCATCTATTTTCATCAGAGATATTGGTCTGTAGTTTTCTTTTTTATTATGTCCTTTCCTGGTTTTGGTATTAGGGCGATCCTGGCTTCATAGAATAATT
TAGGGAGGATTCTCTCCTTCTCTGTTTTGGAATAGTTTCAGTAGGATTGGTACCAATTCTCTTCTTTGAATGTCTGATTGAATTCAGCTGTGAGTCCATG
TGAATCTGTGATTTTTTATCGTTGGCAGTTTTTTAAAAATTACCATTTCAATCTTTCTGCTTTTTATTGGTCTGTTCACAGTTTCTATTTCTTCCTGATT
TATTCTAGGAGGGTTGTATATTTCCAGGAATCTGTCTTCTCTAGGTTTTCTAGTTTGTGCCTGTGAATGTGTTCATATTAGCCTTGAATGATATTTTATA
TTTCTGTAATATCAGTGGCATTTTCTTCCATTTTGTTTCTAATTGAGGTTATTTGGATCCTCTCTTTTCTTGGTTAATCTCACTAATGGTCTATCAATTT
TATGTATCGTTTCAAAGAATCAGCTTCATGTTTCATTTATCTTTTGTATTTTTTTGTTTCAATTTCATTTACTTCTGCTCTCTTTGTTATTTCTTTTCTT
CTGCTGGGTTTGGGTTTGGTTTGTTCTTGTTTCTCTAGTTCCTTGAGGTGTGACTTTACATTTTGTATTTGTGCTCTTTCAGACTTTTTGATATAGGCAT
TTAATGCTATGAACTTTCCTCTTAGGACTGTTTTTACTGTGTCCGAGTGGTTTTCACAAGTTGTGTCACTATTATCATTCAGTTCAGAGAATTTTGCATC
TTGATTTCACTGTTGACCCAAAGATCATTCAGGAGCAAATTATTTAATTTCCATGTATTTGTATAGTTTTGAAGGTTTCTTTTGGAGTTAATTTCCAATT
TTATTCCACTGTGGTCTGAGAGGGGACTTGATATAATTTTGATTACCTTAAATTTGTTGAGGCTTGTTTTGTGGCCTATTATGTGGTCTATCTTGGAGGA
TGTTTCATGTGCTGATGAGAAGAATGTATATTCTACAGTTGTTGAGTAGAATGTTCTGTAAATATCTGTTAAGTTTATTTCTTCTAGTGTAACTTAAGTC
CATTGTTTCATTGTTGACTTTCTGTCTTGATGACTTTCTAGTACTGTCAGTGGAGTATTGAAGTCCCCACTATTATTGTGTTGCTGTCTATCTCATTTCT
CATGTCTAGTAATAATTGTTTTATAAATTTGGAAGCTCCCATGTTAGGTGCATATATGTTTAGGATTGTGATATTTTCCTGTTGGAGTTATCCTTTTATC
ATTGTATAATGTCCCTCTTTGTCTTTTTTAACTGTTGTTGCTTTAAAATCTGTTTTGACTGATATAAGAATAGCTACTCTTGCTTGCTTTTGTTTTCCAT
TTGTATGGAATATCTTTTTCCACTCCTTTACCTTAAGTTTTTGTGAGTCCTTACACATTAGATGACTCTTGAAGACTGAAGATACTTGGTTGCTGAATTT
TTATCCTTCCTGCCATTCTGTATCTTTTAAGTGGAGAGTGTTAATATTGAGATGTGAAGTACTGTTCTATTTCTCATGCTAGTTGTTGCCTGAATTCCTT
ATTTTTTTCCTTTGCATTACTGTTTTATAGGCCCTGTGAGATTTATGCTTTAAGGAGGTTCTATTTTGGTGTATTTTGGAGTTTTGTTTGAAGACTTAGA
ACTCCTTTTAGCATTTTGTGTAGTGCTGGATTGGTAGCGGTGAAGTCTCTCAGCATTTGTTTGTCTGAAAAAGACTTTATCTCTCCTTCATTTATGACGC
TTAGTTTTGCTGGATACAAAATTCTTGCCTGGAAATTATTTTGTTTGAGGAGGCTAAAGATAAGACCCCAGTCTTTTCTGGCTTATAGGCTGCTGTTAAT
CTGATAGGTTTTCCTTTATAGGTTACCTGATGCTTTTGCCTCACAGCTCTTAAGATTCTTTCCTTTGTCCTGACTTTAGATAACCTGATGACTATGTGCC
TGGGCGATAATCTTTCTGTGATAAATTTCCCAGGTGGTCTTTGAGCTTCTTGTATTTGGTTGTGTAGATCTCTAGCGAGGCCAGGGAAGTTTTCCTTGAT
TATTCCCTCAAATATGTTTTCCAAACTTTTAGATTTTTGTTCTTCCTCAAGAATGCCAATCATTCTTAGGTCATTTAACATAATCCCAAATTTCTTGGAG
GCTTTGTTTATTTATTAAAGTTCTTTTTTCTTTGTCTTTGTCTGACTGGGTTAATTCGAAAGGCTTGTTGTTTGAGCTATGAAGTTCTTTCTTCTACTTG
TTGGATCCTATTGTTGAAACTTTCCAGTGCATTTTGTATTTCTCTAAGTGTGTCTTTCATTTCCAGAAGTTGGATTGTTTCTTCTTTATGATATCTACGT
CCCTGGGGCATTTTTAATCCATATCCTGTGTTTTTAAAAAATTTATTTAAGTTGTTTTTCACCTTTCTCTGGTATCTTTTTGAGTAGCTTAAAATCAACC
TTCTGAATTCTCTATCTAGCAATTCAGAGATTTCTTCTTAGTTTGGATCTATTGCTGGGGTCCAGTGTGGAGGTGGTAGGGGAGTGAAGTAGACTCTGTG
AGAATCCTTGGTTGTAGATAGACTTAGTGTGGTGGCTTTCTCAAATGCTGGTTATGCTAGCAGTGCAGTTGTCATGTGAACAGACCGAAGACCACTGGTT
AGTCAAGATTTTTCAGCCAGTGGAATTAGCTGTTTTCTCCTTTCTTAGAGCAGTTATTCTGTCGTGAATTGTTGTAATGTCCTGAGTTGGTTGGCCTCCA
GCCAGGATGTGGTGCTTTCAAGAGGGCACCAGCTACAATAGTAGAAGGTGGATATAAGCTTGCCCTAAGTTGGCCAAGATAAATATTCAGTTTCTCAGGC
AATGAGTGGTGTCATAAAGCTCCCAAGAGTTTACGTCTTTTGTGATTGGCTACCAGGTGGGTAGAGAAATGCCCTCAGGTGTGGACAGGGTTAGGCAGGT
CTGAGCTCAGACTCTCCTCGGGCGGGGGGCTTGCGGCAGCCACTGTGAGGGATGGGGTGGAGGGTTTTTCTCCAGCCAATGGAATTATGTTCCAGAGGGC
ATTATGGCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTTTCTTTTTGTTGC
GACGGAGTTCTCACTCTGTCACCCAGGGCTGGAGTGCAGTGGCGCGATCTCGGTTCACTGCAGGCTCCGCCTTCCGGGTTTATGCCATTCTCCTGCCTCA
GCCTTCCTAGTAGCTGGCACTACAGGCGCCCGCCACCACGCCTGGCTAATTGTTTTGTATTTTTAGTAGAGACGGGGTTTCATCGTGTTAGCCAGGATGG
TCTCAATCTCCTGACCTTGTAATCCGCCCGCCTCGGCCTCCCAAAGTGCCGGGATTACAGGTGTGAGCGGCAGCGCCCGGCGTACTTTTGTATTTCATGC
TAAATCTGTTTCAGGTCTAGGTAAAGTTAAATCCTTTTCCTGTAATCTGGATTTTCGAGTTCCCCAGTGGGGACATGGGTCCGGAGGCAGGTTTTTCCCC
TCTCACGCTTTGGGAACGCACAGTTTTTCACYTGTCTGGTGGAGTTTGCAGTGGCCCCTCCCTTCTTTAAAAGGATCTGTGAATTCTTTCGATTTTCTGG
GTATTCTCCTGCAGTGGTTCCTTTCTTGAGGGATCTGTGAAGTGAGTTCCTCAAGATATTTCTTGTCAGGTGAACAGTCTGTGGTCTCTGCAGGGCCTGT
ACCACCCCTGGGCACTGTATGCCCCACAGAGTGGGCCTCTCCTGTGCAGGGCCTGGGAAGAGGTTGATTATAATCTGGTGTCTGAGGCCTGGCAGCACCA
CACTCTCTTCAGTGAGTCAGGCTCAAGTCTGAGCACATCTGCAGAGCTTATGTTTGCTGTGTTGCTCATGKAAGGCAGGGAATCCAAAATTGTTTTCTTA
GAGATGGACTCTCACTATGTTTCCTAGGCTGCTTTCAAACTCCTGGCCTCAAGTGATCCTCCTGTCTCGGCCTCTCAAATCACTGAGATTACAGGTATGG
GCCACTGTGCCCAGCCTATTATCGATTTTCTCCCATTTCATTCAGTCCTCAACCCAATGYACTCTCTCTTTTTCTTTCCCTCATCTCTGATGCTCCTCTC
AGGGTGGCAACTAATGACTTTTATACAACTCAAGCCAGTGGTCACTGTTCTGTTTCTGTCTTATGTGTGTCATTAGTGTGTTTGAGATGCMYCCTCTCCT
CTTTCCTGGAAGTTTTCTCCTGTCTSTTGTCTTTTATGAACCCRCTTCCTCTCTGTTTTCCTACCAMTTTCTAGTCCTCTGCTTTTCAGCCTCTTTCTTC
ATGTCTGTGTTTGTCTGGATGCAGGAGCACACACTCAGATCCCTGCTATCCTGACTTTGTGTACTTTTCTTGAGTGACCTGACCCAAAATTAGAACTTCA
CCCACCATGAGCCTCCTTCCAGTTTATGTCACTAACCTAATGTAGCATGACACTCATCCATTTATTTCACTGCCTTCAAATCAACTGTATGTTTTCCCCT
AGAAGTTTAAATTCAGTATGTCTCAAACAGAAAATTTTACCTTCTCTCAATCACTTAATTATCACCTTTGCAGKCACGGATGCCACAATTCTCCACGTTG
CGTGGTTATTCTCGACTTCTTCATATCCCTACTTCTGGCAYGTGATTTAGTGATTCCTGTGGCCTCTCATGTCATTACTGCCATCAAATCCATCTGCTGT
CCTCCTCACCCCATGTTCCTGCCCTGGCCTACGCCTTCATTACTTCCYACCAGAGGGCTTAAAAGTGCTACTGGTCTTGCCTTGAGTCCMGCCTCCTCCA
GCCCATCCTTCCTACAGGTGCCCCATCCAAACACAAATCTGACCGTGTTACTCTCCTGCTTAAGATACTTCACAACTTCCTRTGTCCTGTGGGATAAAAT
GCRAACACTTGCCATCAGCACACAAGGCAGGTTACAGTGCTGCCTGGCCCACATCTCCCCTGGCTTCAGTCACACTGAAGAACTGCAGTTCTCCTTGCAA
CTTCATGCCTCTCTGCTCCTGAGCCTGCTTCTCCTGCTGGAAATGCCATTTCCCCTTTCTCTGTTTTGCTATCTGCAGGTGAACACTGTCCCTAGGAACC
TTTCCTAAATCGTATTTTAATTTTGCTCCTGAGTAGCTCTTGTGTATACCTTGTGATACTCAGTGGTGATCAAACCACACATGTAGCAATCATCTTTTCT
TTGTCTGTTTTATTCTTGAATTTCAAGTAGATTAAGGACAAAGTTCCCATCTTTAGAGTTTCATCCTTATTACCTAGAGAGTGAAAGTTCACAAAAAGCA
TTTATTAACTGAATGAAAATTAACATTTGAAGTGTGGAATTTGCTTCAAAATGTGCCAACCTTTAGTTTTCAGATTTTGTAAATATAATAAATACAAAGT
RACCTAAGCTGAACCAATTACAKCTGTGTAGCCCAGTCTATACACCRTGTATTTTTCTTTTTCCTTTGGGATTCATTTCTGTAGGTGAGTAATCCTCTAG
ACCCTAAACTCAGTGRGGGACCCTCACCATCCGTGTGCGGCACTGAACCTGCTGTCACACTATGCATCTAAGTAGAGGACTGGTTCTCCCCRTGCTGGGC
TGGGAGGGGAAATCCTCACTTAGGGACCACCAACCATGCAGTGTCATTTGGCTTCACTTCCTCTTCCAGGCCGAACCCTAAACTCTCTGTAATTCACTGT
AATAATAATTCACTTTTTGTTATCAACCAGTTGCTGCTTCTTATGTATCAGGTAAAGCTAAGATACTATCCCRTAGGTCTTTCAAATGCCAACAACTTGT
ATTTCCAGGTGAAACTACACTTGAAAACTACACTCCWCAAGACAATTTTGTGAATGTTATGTGAATGATAATACTTTTAAATTTACTCTGCCTAAAATGT
AAGTGTTGTGGATAAAATTATAGAAGGTATCATTTTTCTTCTAAAAGTAAGAATGTAACTTGAAGTCTATAAATGTCACTAAGACTCTGGAGGTATTTTC
ATGTCCTTCACGATTTTGTTCCACTCTGAAATATTTATTCCATCCTTCCACTTCCCTGCCTTGCTTTATGGCTATATCAGTAATTTTTAATGTATTGTCC
TGTAGGGTTTCTGAGATCCTACAGGAATGAGGTAGGAGGACTACTCAATATTGTTTCTACCAGGAGTTGTGTGACTTGGACAAGTTACTTTACCTCTGGG
GTCAGTTCCCTACTATGGAAAATAAGTTCTTCTACATGGGGGTGTGAAGATTCAATGAGTAAGTTTAGCACATAGTAAGTGCCCAATAAATATTATCTTA
CTGTATTCAGCATTACCATTATCATAGACGGATGTTAAGTCTTCAGGGACAAGGGAAACAACCTATATCGTCCATGGGTCATTTCTGTCTTTGTTTCTTC
TCACTCCTTTTCTTTTCTTTCATTTGCATTTCTCATTTTCTGTGTTATTCCTTCATGTTCCCAATAACCTTCCTGTTACCTGTTTGCTTCCTGCATTCTG
TGTAGCATCCTACRTATTCACCCATTCTCCATCTTCTCCTTCATGCAGCAGACCATGTGTCAACATATGCRGAGTTTGTGCAGACGCACAGAMCCTCTGG
GGAGTATATGTTTGAATTTGATGAGGAGGAGCAGTTCTACGTGAACCTGGATGAGAAGGAGATGGTCTGGCCTCTACCAGAGTTTATTCACACYTTTGAC
TTTGGTGCTCAGAGGGGTATTGCTGGCATCGTCATGGCAAGGAAGCACTTGAACACCCRGATCAATGGTCCAAACAGACTTGGGCCACAAATGGCACTGC
CTATAGCTGCCTGTTCCTCTCAGAGGGGTATTGCTGGCATCGTCATGGCAAGGAAGCACTTGAACACCCGGATCAATGGTCCAAACAGACTTGGGCCACA
AATGGCACTGCCTATAGCTGCCTGTTCCTCTAGAGTCCAGCTGGAGGGATGGGAGGGCCTCTCTGCCACACATAGAACTAGAGGCCATGATGCCCACTCA
TGAATGAGCCCCTTCCCTGAGAGCGAGAAATCTTRGGTCCACACAGCTGGGTTCTTAGGACAGCAGAGGAGGAGGCATTTTCTTCTTACTCAAGAGAAAG
GCTGGGCTGAGGGGGCCAGGTCAGGAGCACGAGAAGCTGTGACCCTGTCCAGGAGCCCTAGGGGAGCAGGAGGATGGGCCTGGGAGAGGTGGCCCCTAAT
CTGGTGAATATAGGACTTGGGGTGGTGGAACCTTTAAGAATCAGCCAATGGCAGTAGGCTCCTTGGGTTCTATCCCCTTTTGGAGCCCCCACCGAGGTAA
GCGTCTTTCCCAAGGAGCCTGTGGATCTGGGCCAGCCCAACACCYTCGTCTGCCATGTTGACAAGTTCTTCCCACCAGTGCTGAACATCACGTGGCTGYG
CAATGGGGAGCCAGTCATTGAGGGTATTGCAGAGACCATCTTCCTGCCCAGCAAGAAACTCAGATTMCACAGGTTCCACTATCTGACCCTCGTTCCCATG
GCCGAGGACACCTGTGACCTCCAGGGGGAGCACTGGGGCCTGCACCAGCCTCTCCTCAGGCACTGGGGTATGGAGCGCCCTCCCTCTGCCCTCACGGCCT
TGGCACCACCTTTATTTCCTGGGCCCATCGCCCCTCAGCACCTGCCTTCCTCAATCCCATGTTTTAYGGTCACTTTATCCAAATTTCACCATCTCATGGT
TTCGAATACCCAACACCTCCCACATCCAAGGCCAGCCCCTGCTCTCTGTACCTTATAACTCTGTCTTCCCTTGGTGCCCCAGAGGTCCATGAAMTAATCC
AGGTGCCTGAGACCATGGAGATGCTGGTCTGTGCCCTSGGCCTGCTGGTGGGCCTGGCGGGGGTCCTTAATGGCACCATTGTCTCAAAGACCAAGCGATC
TGACAGCATCCCCGGGTCCAGGGGCTCCTATGAGTCATCCTATAGGTGTATTAGGGACAGAGTGGAAAAGACGAGGTAACAAGTTAGGGGTGAAGAGTGG
GAAAGAGAAACACTTCACCAGGGGCTCTTTGAGCATTACTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTGCACTGCATCCTTCCTTAGAAATCCCAGAGTTTCA
TAAACACCTGCATATGTCAGAGTGAGACACATCTGATACCTTCTTTCTGTGACTCCAGGGACATTCCTCATCTCCTGACACCCTCAGTTCCCTAGGAGCA
CATATCCTGTTCCTGTAATGTGGGTGCAGATACCTCAGCTTCTGATCCTGACAAGTGTTAGTCCAGAGATTGTTCACTCCACTCGGGGTACTGCCCTAAC
CTGTAACATGAGTACAGGAGACAAGCAGGAAAGAGAATGACTCTGACTGGATATGGTTTGTAATTTGTAATGTTAACTGCTCAGTGACTCTGAGGGTAGG
ATTTATGTGCTCTGGGTCTGAGGATTTCATAATGATCTCGATTTGAAGACTTTCTGCTATTCTCATGACCTCCTTCCATCGTTGAATCCCTGGATTGAAA
TCATATTAATTTTATGCTGCATAGGTTTCTCACAAGTTTCCTGTGAAGCCAAAAGGGAAAATAAGACAGATAAAGGGTCCTTATTTACTATATACTGTCT
TCCTTAGCTTATTATGTGACAGCTGAAATTACTACGCAAAAACAAGTCAGCAGCATTTTCCTTTATAGTTTTTGAGGAAATGAGGCTGATCAGGGATAAA
GATGTTTTAAAAAGAAAAAATGATTGTGTCCTATTCCCTAGGTTAAGAAGATTATGAGAAACATGATTGGTTGTCCTTGTGTGTGGCTTCTCTTTCCTGA
CTCCCTGACTCAGTCCAGCCTCTCTGCAGACTCCAGCTGTATTTACTTATATCTGTGCCAGTGACGCCCAAGTCTGTGCCTTCAGCCCCACCTCTCCTGA
AATTGGAGGAAGCCGGTCCCCCGATGGAAGATATTATTTGCAAGGGGAGATGGGCAAGAGGAGCACAGTAGCTTTCGGGAATTGACCAGGGACAGGTGCC
CAGGGACACACAAGGCCCAGAAGATGCTTGTAAGAAGCCAGGGAGACTGAAGGCATCAACTGGATGTATAAGAGAGCTGCTGTGCACTGATTGTGTGTAT
CAGGAGTGAAGAATCCATCCTCTACACGAAAAAGAAAGCTTACAACAAACATGTCCTCTACCTTGACCAAAAGGTGTCAATATGAGACGCAAAACACATA
ACAATGTTGGATTGTTAAGAAAAAAAAAAAGACCAGTGTTTGAAAAAGAGTGCTACATGTATTGCTTTGCTCTTTCCCCAGTGGGGAGTCATTTCTGTCT
GTATGAAAATTAAGACAGGAGGCCTAGGCTGGTGGATGAATGCAGACTTAGACGACAAATGACGTCTATTGGATGCATTCAAAAGTCCAAGCCGTATTTG
GTTAAGGAGTATTTGTGATGGCACACAAAGAAAATGGTTAAAGTGTATTAGATTATATTTATGATTTTAAATTCTGATGTTCATTTAACTTCTTAATGGT
AATGATAAAACATGCTCTCAGTAAGGTATATGTTGAATTAGTGCTGTGGGAATATGGGTCCTATCAGGCAGATTTGCAGTCTGCTCACCATTGAATAGTT
AAGAATAGTGGTCTGAGACATAAATGGATGAGGGCACTAAACTTGATTTGGGGGCAGCTCACTGAAATACAGTCAATTCAGAAGAGTGTCATGTGTAACA
GGCCCCATTATACAATAGTTAACATATCCCCATTTTCATGGTTCTCTTCTTTCCTATGTTTAAACCAAAATGAACTTCTTTATTAACTCCTACTGTCTAC
TAAAACCCTCAGAGAAAAGTGATGAGAGATGATTTGGTGCATATTTTTAAAGGAAAACAAACAGTCATGTTGGGTTTTGATTATTTGTGGTGCTAAGAAG
AAGGGAACATGGTTGGAGGCCCAGTGAGAGAAACAGTGCTTTGAATCAAAGAGCAGAATGATAGAAACTGACTTCAGAGCAACTTCTTGGCAGCAGTATC
CAATTTGGAAGTTGAAGGTCTGTCCTGGAGCCAGATGCTAACGAAACACAGCAAATGCTTTTCCTAAGGCACAATAGTCTTTTCAGTGAGCTCAGGAACC
CTGTGGGGGTAAAAGACAAGTTATCCCAGGTTGCCAGCCTCCTTCCTGTAAGTCCAGGAGAGAAAAATTATGGTGAGAGGATGCGTCTCAGGCTGATAAA
TAACAGAGTTGATCTCTGCTTCCTTCAGCAATGGAGCCAAGCAATGCTCTTTCCCCACTTGCCTGAAGGCTGACATTGAAAGAGGGGTTCATGCCTGAGA
TTCCCTTCCTGGAGGAGCCTCAGTGTTACAATGCACAGAAAGGACTCATATCCTCCTGCAACCCACCCCACAAGGAAATCAAAGCAGGAATATTACCTGT
TTATGCAGATCCTCGTTGAACTGAAATGAAAGACGAAAGGTTATATAATCAGCCATTGAAACCACCTCAGATAATTAGAGAAACATTTCCATCCCACCAA
ATTCCATTGCCCATCACTCAATGGACGCTCCGCAGGAGCCTGAGTACTTGGGACCTCATGCATCTGGCTGCATTAAGATCCCAGCCTGGGATCCCTCTCT
CGCTATAGGTCATGTTTGTTCCCCGATTATCTGATATCAGTGGCCTCTAGAGCTTTCTGACATTTCTTTTCTGTCAAACCCCTCATCGTGGAATAAGTGT
GAATATGCCAGGGGAAGGTAAGTCCCGCTCACCCTGCAGGCTTTCTCACCTTTCTTGCTCCTCCTGTGCATGAAGATGCCCACTCCACAGATGATGAGCC
CCAGCACGAAGCCCCCAGCTCCCGTCAATGTCTTACTCCGGGCAGAATCAGACTGTGCCTCTGGGAAGGACAGACCCAGGTTTAGTGTCACCTCCACCAG
CTGCATCCCTACTCATGTCCTGTCTGAGATTCTGGAGCCTGATGCAGCATATCGGGATGAGGACAGTGCAGCGGAAAAAGCTTGCTAAGAGGAAATTCAG
AAAGAGCCACCCTCATATCTGGAACAGGGGTGTGACCTCAACAAGGTGGCAAATGCTGATTCTGGAAGTTGCCTCTCAAAATGCCTGAGAAGAGGCTAAA
ATGCTGAAGGAAGAGAACTGTTCCTATGTGTGAGGTCAGTTCCTAAGTGTGAGGGTTTCGAGACCAGTCAGTGTCCCTAGATTCTCTGACAAGGGGGAGA
ACTATGAATCTTCAGGAACCCCTAAGCCAAGGNNNNNNNNNNNNNNNNNNNNATTAACAAATGTAATGAGAAATGACATTCATTGAGTTGCTTACTATGT
TCTAGGCACTATTCTAAGTGCTTCTCATGTGTTCACTTATTTACATCTGGAGGTTGGTTCTTATTTATTTCATGTTACAGAGCAGGAATCAGACACCGGG
AGAGGTGAAGACCACACAGCTTCAAAGTGCAAAGCTTGGATTTAAACCCAGGCTTTGGGCCTGCAGTGGCTGCAGTCTTGTCCAGTATTTAGATTATTTC
ATCTGCAGTCACTATCTGTCTTCCTACATTTTACACAGCCTTAATTTTCTTCTGCCCGCAGAGTGATGTTCAGAACTTCCAATGCTATGTTAAACATTTC
CAGCAACGAAGGACATCCTATCTTTTGCACAATCTCAAAGGCAATCCACCTCATTTCTTTGAAATATATATGCTATAGATTTTTGGTTCACTACCTTTAA
CATGTCATGAAATTGATTAAATTCTGTCTATGTCTTGAGCTGAATTCAGTTTAAATTAATATGAATTTTGCGGAGTCCACTAATGTGTTAACCACATTAT
ATATTTTCTGACACTGAAGAATCATTGCATTCCTAGAATAAATCTAAAATTGGTCAAAACGTATTGTTTTTATAATGTACTGTTGGATTCAGTGACATGG
CTAAAATTAGTCCACAATCCTGTTCTCCTGTACTATTCTTAGCTGGCTCTGGAAATATAAATGAACCAACCTCATAAAATGATCTCAAAAATTCTGTTCC
ATTCTATGTTCTAGAATCACACGTGTAAGAGGCATGATCTGCTCCTGGAAATGTGGGAGGACGCCCTCATCTGCAATAAGATCAGGACAGGGCCCTTTGG
AAGGCGATTCTTTGCTTCCCATGACAATTTCTTTGATATTCTCTACTCTATTTTAGTTTTCTATTTCTTCCTGTAGTTTTGACCTTTATATCTTTCTAGA
AACGTATCCGTTTTATCTAAATTTTCAAATTTATATGTATAGAGTTGGTCGTAAGATTTTGCATTTTAAAATGTGTATAAATGTCATTTACCCTTTTCGT
TCTGAATCTCCTGTATTTTCCTTAGGAGTCTTGCCAGAGGTCTCATTAAAGTTTTCATTGCCTCAAAATTTGATTTTATCTTCTCTATTTTTATATTTCA
TTGAATTCAGCTTTTGTCCTTATTATTTACATGTATTTTCTTTTTGCTGTTTTTCTGCTTTTCCATCCTCTTAATTCACATAATTAGCTCATTTGTTTAC
AGTCATTTTACTCTAACAAAATTGTTTAACAGTCTGACATTCTATGCAGCATTTTGAATGAACTTATTTCATCTTTCTATAAAGACTAAACATCTATTAT
GTTTTCAGTTATTTCCTCTTCCTCCACTATTTCCCTGACTTTCTAGACGTCTAATTATTAAGATGTCAGATGTCTGTTTCTATCCTTCATTTCTCTTCAC
TTGTCCTTTACATTTTCTATTGTTTACTCGATCATATTGTCCTTGGGACAGTTTCTCAGTTTGGCTTTTTGTTTATTAATTACACTTCAGTTGCAAAAGT
CCTATTTCTTGTCTCATTTATTATGTTTCTTA


SNP Information

Context             (SEQ ID NO:6160):
TTGAGTCCCGCCTCCTCCAGCCCATCCTTCCTACAGGTGCCCCATCCAAACACAAATCTGACCGTGTTACTCTCCTGCTTAAGATACTTCACAACTTCCT
R
TGTCCTGTGGGATAAAATGCAAACACTTGCCATCAGCACACAAGGCAGGTTACAGTGCTGCCTGGCCCACATCTCCCCTGGCTTCAGTCACACTGAAGAA
Celera SNP ID:            hCV11407958
SNP Position Genomic:     10482
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:6161):
GCATTCTGTGTAGCATCCTACGTATTCACCCATTCTCCATCTTCTCCTTCATGCAGCAGACCATGTGTCAACATATGCGGAGTTTGTGCAGACGCACAGA
M
CCTCTGGGGAGTATATGTTTGAATTTGATGAGGAGGAGCAGTTCTACGTGAACCTGGATGAGAAGGAGATGGTCTGGCCTCTACCAGAGTTTATTCACAC
Celera SNP ID:            hCV16189217
SNP Position Genomic:     12193
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)   JBIG-allele(T,403|G,1078)   total(T,403|G,1078) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6162):
TCTTCCCACCAGTGCTGAACATCACGTGGCTGCGCAATGGGGAGCCAGTCATTGAGGGTATTGCAGAGACCATCTTCCTGCCCAGCAAGAAACTCAGATT
M
CACAGGTTCCACTATCTGACCCTCGTTCCCATGGCCGAGGACACCTGTGACCTCCAGGGGGAGCACTGGGGCCTGCACCAGCCTCTCCTCAGGCACTGGG
Celera SNP ID:            hCV27465220
SNP Position Genomic:     13067
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6163):
CCATCCTTCCTACAGGTGCCCCATCCAAACACAAATCTGACCGTGTTACTCTCCTGCTTAAGATACTTCACAACTTCCTATGTCCTGTGGGATAAAATGC
R
AACACTTGCCATCAGCACACAAGGCAGGTTACAGTGCTGCCTGGCCCACATCTCCCCTGGCTTCAGTCACACTGAAGAACTGCAGTTCTCCTTGCAACTT
Celera SNP ID:            hCV27463601
SNP Position Genomic:     10503
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6164):
CTTCAAATCAACTGTATGTTTTCCCCTAGAAGTTTAAATTCAGTATGTCTCAAACAGAAAATTTTACCTTCTCTCAATCACTTAATTATCACCTTTGCAG
K
CACGGATGCCACAATTCTCCACGTTGCGTGGTTATTCTCGACTTCTTCATATCCCTACTTCTGGCATGTGATTTAGTGATTCCTGTGGCCTCTCATGTCA
Celera SNP ID:            hCV16073177
SNP Position Genomic:     10174
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,5|G,9)      total(G,9|T,5) ;no_pop(T,-|G,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:6165):
CTTCTCTCAATCACTTAATTATCACCTTTGCAGGCACGGATGCCACAATTCTCCACGTTGCGTGGTTATTCTCGACTTCTTCATATCCCTACTTCTGGCA
Y
GTGATTTAGTGATTCCTGTGGCCTCTCATGTCATTACTGCCATCAAATCCATCTGCTGTCCTCCTCACCCCATGTTCCTGCCCTGGCCTACGCCTTCATT
Celera SNP ID:            hCV16073187
SNP Position Genomic:     10241
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,5|T,10)      total(C,5|T,10) ;no_pop(T,-|C,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:6166):
TCATGGTTTCGAATACCCAACACCTCCCACATCCAAGGCCAGCCCCTGCTCTCTGTACCTTATAACTCTGTCTTCCCTTGGTGCCCCAGAGGTCCATGAA
M
TAATCCAGGTGCCTGAGACCATGGAGATGCTGGTCTGTGCCCTCGGCCTGCTGGTGGGCCTGGCGGGGGTCCTTAATGGCACCATTGTCTCAAAGACCAA
Celera SNP ID:            hCV1842260
SNP Position Genomic:     13394
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|C,4)      total(A,2|C,4) ;JBIC-allele(A,143|C,1336)   total(A,143|C,1336)   (A,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6167):
CCTGCTCTCTGTACCTTATAACTCTGTCTTCCCTTGGTGCCCCAGAGGTCCATGAACTAATCCAGGTGCCTGAGACCATGGAGATGCTGGTCTGTGCCCT
S
GGCCTGCTGGTGGGCCTGGCGGGGGTCCTTAATGGCACCATTGTCTCAAAGACCAAGCGATCTGACAGCATCCCCGGGTCCAGGGGCTCCTATGAGTCAT
Celera SNP ID:            hCV1842261
SNP Position Genomic:     13438
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


Context             (SEQ ID NO:6168):
GCTCCTCTCAGGGTGGCAACTAATGACTTTTATACAACTCAAGCCAGTGGTCACTGTTCTGTTTCTGTCTTATGTGTGTCATTAGTGTGTTTGAGATGCC
Y
CCTCTCCTCTTTCCTGGAAGTTTTCTCCTGTCTCTTGTCTTTTATGAACCCACTTCCTCTCTGTTTTCCTACCAATTTCTAGTCCTCTGCTTTTCAGCCT
Celera SNP ID:            hCV27459135
SNP Position Genomic:     9792
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6169):
GAACCCTAAACTCTCTGTAATTCACTGTAATAATAATTCACTTTTTGTTATCAACCAGTTGCTGCTTCTTATGTATCAGGTAAAGCTAAGATACTATCCC
R
TAGGTCTTTCAAATGCCAACAACTTGTATTTCCAGGTGAAACTACACTTGAAAACTACACTCCACAAGACAATTTTGTGAATGTTATGTGAATGATAATA
Celera SNP ID:            hCV1842254
SNP Position Genomic:     11373
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:6170):
ACTGTTCTGTTTCTGTCTTATGTGTGTCATTAGTGTGTTTGAGATGCCCCCTCTCCTCTTTCCTGGAAGTTTTCTCCTGTCTCTTGTCTTTTATGAACCC
R
CTTCCTCTCTGTTTTCCTACCAATTTCTAGTCCTCTGCTTTTCAGCCTCTTTCTTCATGTCTGTGTTTGTCTGGATGCAGGAGCACACACTCAGATCCCT
Celera SNP ID:            hCV27465373
SNP Position Genomic:     9844
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6171):
CTTCTTATGTATCAGGTAAAGCTAAGATACTATCCCATAGGTCTTTCAAATGCCAACAACTTGTATTTCCAGGTGAAACTACACTTGAAAACTACACTCC
W
CAAGACAATTTTGTGAATGTTATGTGAATGATAATACTTTTAAATTTACTCTGCCTAAAATGTAAGTGTTGTGGATAAAATTATAGAAGGTATCATTTTT
Celera SNP ID:            hCV1842255
SNP Position Genomic:     11437
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:6172):
TGCTCCTCTCAGGGTGGCAACTAATGACTTTTATACAACTCAAGCCAGTGGTCACTGTTCTGTTTCTGTCTTATGTGTGTCATTAGTGTGTTTGAGATGC
M
CCCTCTCCTCTTTCCTGGAAGTTTTCTCCTGTCTCTTGTCTTTTATGAACCCACTTCCTCTCTGTTTTCCTACCAATTTCTAGTCCTCTGCTTTTCAGCC
Celera SNP ID:            hCV27465374
SNP Position Genomic:     9791
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6173):
TCCTTTTCCTGTAATCTGGATTTTCGAGTTCCCCAGTGGGGACATGGGTCCGGAGGCAGGTTTTTCCCCTCTCACGCTTTGGGAACGCACAGTTTTTCAC
Y
TGTCTGGTGGAGTTTGCAGTGGCCCCTCCCTTCTTTAAAAGGATCTGTGAATTCTTTCGATTTTCTGGGTATTCTCCTGCAGTGGTTCCTTTCTTGAGGG
Celera SNP ID:            hCV27463004
SNP Position Genomic:     9132
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6174):
TTTCTTTCATTTGCATTTCTCATTTTCTGTGTTATTCCTTCATGTTCCCAATAACCTTCCTGTTACCTGTTTGCTTCCTGCATTCTGTGTAGCATCCTAC
R
TATTCACCCATTCTCCATCTTCTCCTTCATGCAGCAGACCATGTGTCAACATATGCGGAGTTTGTGCAGACGCACAGACCCTCTGGGGAGTATATGTTTG
Celera SNP ID:            hCV1842256
SNP Position Genomic:     12114
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,8)   total(G,8|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6175):
GTGTCATTAGTGTGTTTGAGATGCCCCCTCTCCTCTTTCCTGGAAGTTTTCTCCTGTCTCTTGTCTTTTATGAACCCACTTCCTCTCTGTTTTCCTACCA
M
TTTCTAGTCCTCTGCTTTTCAGCCTCTTTCTTCATGTCTGTGTTTGTCTGGATGCAGGAGCACACACTCAGATCCCTGCTATCCTGACTTTGTGTACTTT
Celera SNP ID:            hCV15840184
SNP Position Genomic:     9867
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|A,9)      total(A,9|C,3) ;no_pop(A,-|C,-)   no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6176):
TTTATTAACTGAATGAAAATTAACATTTGAAGTGTGGAATTTGCTTCAAAATGTGCCAACCTTTAGTTTTCAGATTTTGTAAATATAATAAATACAAAGT
R
ACCTAAGCTGAACCAATTACATCTGTGTAGCCCAGTCTATACACCATGTATTTTTCTTTTTCCTTTGGGATTCATTTCTGTAGGTGAGTAATCCTCTAGA
Celera SNP ID:            hCV15840185
SNP Position Genomic:     11001
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6177):
TCCTGTTACCTGTTTGCTTCCTGCATTCTGTGTAGCATCCTACGTATTCACCCATTCTCCATCTTCTCCTTCATGCAGCAGACCATGTGTCAACATATGC
R
GAGTTTGTGCAGACGCACAGACCCTCTGGGGAGTATATGTTTGAATTTGATGAGGAGGAGCAGTTCTACGTGAACCTGGATGAGAAGGAGATGGTCTGGC
Celera SNP ID:            hCV1842257
SNP Position Genomic:     12171
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,622|A,857)   total(G,622|A,857) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6178):
CCTCTGGGGAGTATATGTTTGAATTTGATGAGGAGGAGCAGTTCTACGTGAACCTGGATGAGAAGGAGATGGTCTGGCCTCTACCAGAGTTTATTCACAC
Y
TTTGACTTTGGTGCTCAGAGGGGTATTGCTGGCATCGTCATGGCAAGGAAGCACTTGAACACCCGGATCAATGGTCCAAACAGACTTGGGCCACAAATGG
Celera SNP ID:            hCV1842258
SNP Position Genomic:     12294
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,6)      total(C,6|T,1) ;JBIC-allele(T,582|C,921)   total(C,921|T,582)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6179):
CAAAATGTGCCAACCTTTAGTTTTCAGATTTTGTAAATATAATAAATACAAAGTAACCTAAGCTGAACCAATTACATCTGTGTAGCCCAGTCTATACACC
R
TGTATTTTTCTTTTTCCTTTGGGATTCATTTCTGTAGGTGAGTAATCCTCTAGACCCTAAACTCAGTGGGGGACCCTCACCATCCGTGTGCGGCACTGAA
Celera SNP ID:            hCV15840186
SNP Position Genomic:     11047
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6180):
TCCTGTCTCGGCCTCTCAAATCACTGAGATTACAGGTATGGGCCACTGTGCCCAGCCTATTATCGATTTTCTCCCATTTCATTCAGTCCTCAACCCAATG
Y
ACTCTCTCTTTTTCTTTCCCTCATCTCTGATGCTCCTCTCAGGGTGGCAACTAATGACTTTTATACAACTCAAGCCAGTGGTCACTGTTCTGTTTCTGTC
Celera SNP ID:            hCV27461054
SNP Position Genomic:     9660
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6181):
GGTATGGAGCGCCCTCCCTCTGCCCTCACGGCCTTGGCACCACCTTTATTTCCTGGGCCCATCGCCCCTCAGCACCTGCCTTCCTCAATCCCATGTTTTA
Y
GGTCACTTTATCCAAATTTCACCATCTCATGGTTTCGAATACCCAACACCTCCCACATCCAAGGCCAGCCCCTGCTCTCTGTACCTTATAACTCTGTCTT
Celera SNP ID:            hCV1842259
SNP Position Genomic:     13267
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,3|T,4)      total(C,3|T,4) ;(C,-|T,-)   JBIC-allele(C,170|T,931)   total(C,170|T,931)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6182):
CAACTCAAGCCAGTGGTCACTGTTCTGTTTCTGTCTTATGTGTGTCATTAGTGTGTTTGAGATGCCCCCTCTCCTCTTTCCTGGAAGTTTTCTCCTGTCT
S
TTGTCTTTTATGAACCCACTTCCTCTCTGTTTTCCTACCAATTTCTAGTCCTCTGCTTTTCAGCCTCTTTCTTCATGTCTGTGTTTGTCTGGATGCAGGA
Celera SNP ID:            hCV27461055
SNP Position Genomic:     9826
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6183):
ATCCTCTAGACCCTAAACTCAGTGGGGGACCCTCACCATCCGTGTGCGGCACTGAACCTGCTGTCACACTATGCATCTAAGTAGAGGACTGGTTCTCCCC
R
TGCTGGGCTGGGAGGGGAAATCCTCACTTAGGGACCACCAACCATGCAGTGTCATTTGGCTTCACTTCCTCTTCCAGGCCGAACCCTAAACTCTCTGTAA
Celera SNP ID:            hCV27462303
SNP Position Genomic:     11192
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6184):
GTCCAGCTGGAGGGATGGGAGGGCCTCTCTGCCACACATAGAACTAGAGGCCATGATGCCCACTCATGAATGAGCCCCTTCCCTGAGAGCGAGAAATCTT
R
GGTCCACACAGCTGGGTTCTTAGGACAGCAGAGGAGGAGGCATTTTCTTCTTACTCAAGAGAAAGGCTGGGCTGAGGGGGCCAGGTCAGGAGCACGAGAA
Celera SNP ID:            hCV28949432
SNP Position Genomic:     12635
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6185):
CCATCTGCTGTCCTCCTCACCCCATGTTCCTGCCCTGGCCTACGCCTTCATTACTTCCCACCAGAGGGCTTAAAAGTGCTACTGGTCTTGCCTTGAGTCC
M
GCCTCCTCCAGCCCATCCTTCCTACAGGTGCCCCATCCAAACACAAATCTGACCGTGTTACTCTCCTGCTTAAGATACTTCACAACTTCCTATGTCCTGT
Celera SNP ID:            hCV26007183
SNP Position Genomic:     10390
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:6186):
AAGCGTCTTTCCCAAGGAGCCTGTGGATCTGGGCCAGCCCAACACCCTCGTCTGCCATGTTGACAAGTTCTTCCCACCAGTGCTGAACATCACGTGGCTG
Y
GCAATGGGGAGCCAGTCATTGAGGGTATTGCAGAGACCATCTTCCTGCCCAGCAAGAAACTCAGATTACACAGGTTCCACTATCTGACCCTCGTTCCCAT
Celera SNP ID:            hCV27461056
SNP Position Genomic:     12999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6187):
TAATCTGGTGTCTGAGGCCTGGCAGCACCACACTCTCTTCAGTGAGTCAGGCTCAAGTCTGAGCACATCTGCAGAGCTTATGTTTGCTGTGTTGCTCATG
K
AAGGCAGGGAATCCAAAATTGTTTTCTTAGAGATGGACTCTCACTATGTTTCCTAGGCTGCTTTCAAACTCCTGGCCTCAAGTGATCCTCCTGTCTCGGC
Celera SNP ID:            hCV28949433
SNP Position Genomic:     9471
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6188):
ACATTTGAAGTGTGGAATTTGCTTCAAAATGTGCCAACCTTTAGTTTTCAGATTTTGTAAATATAATAAATACAAAGTAACCTAAGCTGAACCAATTACA
K
CTGTGTAGCCCAGTCTATACACCATGTATTTTTCTTTTTCCTTTGGGATTCATTTCTGTAGGTGAGTAATCCTCTAGACCCTAAACTCAGTGGGGGACCC
Celera SNP ID:            hCV26007184
SNP Position Genomic:     11023
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6189):
GAGATGGTCTGGCCTCTACCAGAGTTTATTCACACCTTTGACTTTGGTGCTCAGAGGGGTATTGCTGGCATCGTCATGGCAAGGAAGCACTTGAACACCC
R
GATCAATGGTCCAAACAGACTTGGGCCACAAATGGCACTGCCTATAGCTGCCTGTTCCTCTCAGAGGGGTATTGCTGGCATCGTCATGGCAAGGAAGCAC
Celera SNP ID:            hCV26007185
SNP Position Genomic:     12359
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6190):
TAGTGATTCCTGTGGCCTCTCATGTCATTACTGCCATCAAATCCATCTGCTGTCCTCCTCACCCCATGTTCCTGCCCTGGCCTACGCCTTCATTACTTCC
Y
ACCAGAGGGCTTAAAAGTGCTACTGGTCTTGCCTTGAGTCCCGCCTCCTCCAGCCCATCCTTCCTACAGGTGCCCCATCCAAACACAAATCTGACCGTGT
Celera SNP ID:            hCV11407956
SNP Position Genomic:     10348
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,11)   total(C,11|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6191):
CCAATGGCAGTAGGCTCCTTGGGTTCTATCCCCTTTTGGAGCCCCCACCGAGGTAAGCGTCTTTCCCAAGGAGCCTGTGGATCTGGGCCAGCCCAACACC
Y
TCGTCTGCCATGTTGACAAGTTCTTCCCACCAGTGCTGAACATCACGTGGCTGCGCAATGGGGAGCCAGTCATTGAGGGTATTGCAGAGACCATCTTCCT
Celera SNP ID:            hCV15875626
SNP Position Genomic:     12945
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(T,568|C,903)   total(C,903|T,568) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:6192):
AATTACATCTGTGTAGCCCAGTCTATACACCATGTATTTTTCTTTTTCCTTTGGGATTCATTTCTGTAGGTGAGTAATCCTCTAGACCCTAAACTCAGTG
R
GGGACCCTCACCATCCGTGTGCGGCACTGAACCTGCTGTCACACTATGCATCTAAGTAGAGGACTGGTTCTCCCCATGCTGGGCTGGGAGGGGAAATCCT
Celera SNP ID:            hCV27459606
SNP Position Genomic:     11116
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Gene Number:                 48
Celera Gene:                 hCG23778 - 104000117458649
Gene Symbol:                 SGPL1
Protein Name:                sphingosine-1-phosphate lyase 1;KIAA1252;SPL
Celera Genomic Axis:         GA_x5YUV32VT2P(20045937..20123459)
Chromosome:                  Chr10
OMIM number:                 603729
OMIM Information:            SPHINGOSINE-1-PHOSPHATE LYASE 1;SGPL1


Genomic Sequence (SEQ ID NO:1709):
AATACAGATGACTGGGCCTCACACCTCATTCCTTCCATCTGCAGGAGGGCCCTGACATGTGGATTTTGAAAGGCTCCTTGGAGATGCTGACTATCCATGC
TAGATGGGCACCTGGATGATGTTTAAGTCCCTTCTAGCTTGACAAATCCTCAGCTGTAGATATTAAAATGCTGCTTGTGCTGGAGTGTATCCCTGTCATC
AGTCCACAAGAGAAGCTCTCACTGGGGCAGCTGGGCTCCCTAGGGAGCACCCTGGAAATTAAAAAAAAAAAAACTTTTGGTTGTCATAATGATGAGGCTG
GTGCTTCTGGCATTCAGTGAGGGGAATACTGCAGTCCCTGGGGCAGAAATAAGGCCCATGATGACTTTTCTCTCTCCCCCAGGTGCTGCAGGCAGGGGCA
ACAGGCAGGTCCCTCTTTGTTCTTAGTGAGGGATGCATCCCATCACATTGAAGAATTGTCCTGAGTCCTGTACATCTTTTGAATGTACTGTCAGAATATT
CATAGAGGTGAAAAGCTAGTTCATAGGCACATGAGCCATAATCAACTTCACTTTACATGTACGTTTAAAAAAAAAAAACACCCTGGTGCAGTGGCTCATG
TCTGTAATCCTGAAGCGGGTGGATCACCTAAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCTTGTCTCTACTAAAAATACAAAAATTAG
CCTGGTGTGGTGGCAGGCGCCTGTAATCCCAGCTACTCGGGGGACTGGGGCAAGAGAATCGCTTGAACCGGGGAGACAGAGGTTGCAGTGAGCCGAGATT
GTGCCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCTGTCTCAAACAACAACAACAACAACAACAACAACAACAACAAAAAAGAACACATGATTTTA
TTGCACAACCTACCTGGAGTACAACTACCATGTTGAGAGCTGTGTGTAAATTGTCCTGCATTTTGTCTGAAACGTTATCGACCTTAAGCCACAGTTTTGT
AAAATCACATCATCCATGGCAATGCTGCTCACATAGTAATTGAGTCACTAAGACACTACCTCTATACTGGTCTGCATCTGCAGCTTTCCTATCCATGATG
ATTGTATCTAATTCTATGAATAGCCTAATTTAGTCCTTATGTCAAAATGTCAAATATAAAGAAAGCAGTGACAGCACTATTCAATTAAATATTGCCTTCC
TGTAATGCAAACATATCCATTGTAAGTCCATGCCTCTGCCAACTTCATGTATGATTTTATCGTGACATTCCCTTTTAAAATTATAGTGCTATATTGATTT
CAAGATAGTAAAAGAGAGTTACAAAACAATATTTGTTATAAACAGGGGTGTTGGATCTGGTTGGTTTAGGACTTACTGATCTACAAGCAATAAAACCTGC
AGGAAAACAGTAGATCTGTAGCTCTCAGACAAGCCTTGCAAAGGTCTAGCATGCCCTAGAGAGGGCAAGGGGCACGTTGGAAGGACTAATCAACTTGTTA
GGATCAGGTCCTGATGGGGATCGAAACCAGCTTCCAGCAACAATGTGAGAGGGCTAGGCTGGGCTTAGTCAATCACACGGCTCAGATTGGAATCTTATTT
GAGTACACCCTGGATGTATGCGGAGGGTGTTAGACCAATAATTCTTGGCCGGGCGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTAAGGTG
GGAGAATCACTGGAGCCCAGGAGCAGCCTAGGCAACATAGTGAGGCATTGTCTTTATAAATTAATAATAATAATAATAGTAATAATTATTGAGTGCTTAT
GGTGGATCAGGCCTCATATGTGATGGGCACACACATACATCTCTTACAATTGCCACAGCAGTCTTAGGGTAGTTGTTAATTCTTGCTTTACAAAGGAGGA
AGCCCAGGCTTGGACAGTTACAACAACTTGCTGGAGGCCACACAATGATTCCTGGGTAGAAAGCTGTCTCCCTGCCTTCAAAGCTATTTTGAGGCCACAC
AATGATTCCTGGGTAGAGACCTGTCTCCCTGCCTTCAAAGCTATTTTGTCAAAGGAAGTTTATATTTATTCAGTGTTTGAGAAACAGCTGCTCTCAGTTT
TTAATGTTTTGCTAGGAGTGACTGTGCAGCCTGGATAGCAACAATGGTGGGTGTATTAGTCCGTTTCACACTGCTATTAAGAACTTCCCTGAGACTGGGG
CATTTATAAAGGAAAGAGGTTTAACTGACTCACAGTTCCACACGGCTTGGGGAGGGCTCAGAAGACTTACAATCATGGCGGATGGTGAAGGGGAAGTAAG
CCCCTTCTTCACAAGGCAGCAGCAGAGAGAAGAACGAAGGAAGAACTTCCAGACACTCATAAAACCATCAAATCTCATGAGAATCACTCAGTGCCATGAG
AACAGCATGGGGGAAACCACCCCCATGATCCAATCACCCTCCCTCCCTCGACACATGGGAATTATGATTTGAGATGAGATTTGGGTGGGGACACAGAGTC
AAACCCTATCAGTGGGCTTCTTTACGAAAGATGAGGTTTCCTTGGGAAATAACTCTTGGCTCTCTGAGGGCTTGGCCACTCTGACTTTGATCAAACTGGC
AACTGGGGTATGTACCTGAGTGAGGTCAGGGGGCCCATGATAACTCGGTGACTTGCTGCCCCTTGCTCACTCCAGTTGGCAATGTCGGGGCATTTGGTCC
CTGCTGTGGGGGCTCCCATGTCTGTCTGGCCCTTGGCCTCTCCTCCCCTGGTGGCCAGCTCTGCTGTGATCAGCTGAGCCTGCTGCTGGAGCTATGTGCT
GGTTTCCTGCCTCTTCTTGGGCATTCTGGGCTCTAGGAACTGTTTGTTGGTTTCCTGTGGGCCATTCCTTTCCAGGATGGGCCTAGAGGCTGCAACCCTC
CTAAGATCTGCCCACACCCCTGTCCTGAGGTGAGCTTCTCAAGAAGGTCCCCGGCTGAGCAAGGGGTGTCAGGAGCAAGAATGGAGGCAGGAGAGTGTGT
GCGCCTGCTTTTTAGAGTGGGAGTGTGCACTCATGCATGAGTGGGAGGCTGTCATTAACTTGGCCATGGATGGCTGCCATTTTAAGCAGAACCAGATTTG
CTGGCATGAATTGTTTAAATGATGGCAGGCACAAGCACTGCAGGGAGATCCTCCTAGCCTAAATTAAAGAAGCCACAGAGGGAAAAAATCCCAGACCATC
TTGCTCCACACCTCCCTCCCCCGTCCCAAGCCTTCCGTCATCTGCGGGAATTTCAGTGCCTCACTGACACCTGAATGACAATCTTTTGTCATCCTGGAAG
GCACCATGATGGTACCAAAGGACAACTGGGGAGCATTGGTTCCCTCCCCAGCCCCAAACAAACACGTTCTTCATCAGCCTCCTTAAGCCATCCCAAACAA
CCCACACGCTTAATACAACTATCGTGCCTTCTATCCGGGCAAAGTGCCATGTGTCTGTAGACACAGCTACTCAGGAGGCTGAGACAGGAGGATCGCTCGA
GCCCAGGAGTTTGAGGCTGTAGTGAGCTATGATAATGGCTGTAAATAGCCACTACACTCCAGCCTGGGCAACATTATTGAGACCATGTTTCTAAATAAGC
AAACAAAAATTGTGCTTTCTCTGCAAACAGAGTGTCTAGGGAAGTGCTTTTTACTTTCTTGTGCATTAAGATCATCTGGGGACCTTGTTAAGCTGTAGAT
TCTGATTCAGGAGGTCTGGAGTGGGGCCCCAAGAACCTGTATTTATAACAAGCTCTCAGGTAAAGCCAATGCTGCTCTCAGGGAAACCACACTTTCAGAA
TGGAAGTTCCAGATAGCCCTCCTCTGCCTCTGACCAGCCAGCTATGTGCCTGCTAACGTCATTCTGCTGTCAGAGGGAGTGTGGGGTAGGAGAGCAGGGT
GGTCTGAAGTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCTCTCTCACACACACACACACACACACACACACACACACACACACACACACAGGGCTTCATC
GGCTCAGAGAGTTGCAAACCCAGACCCATGTTCTAGGCTGGGCTCTGCCAGGAACTGCTAGGAGTCGCATCTCTCTCTGGACCTCAGTTTCTTCACGTGT
ATTTGTGTATTCTCTGGGGTGGAGCTGGCGAATAGCTGGAGACCCCTCTAGCTCTACCATTTTTTGATTCTAATTAACCAAAAAGGATATTCGAGGTCCC
CGCTACAAATTCTGAACCCTTGGCTTCCCCTCCAAACTCCCACACAAACTCCACCCCATCCTGCCTGTGTGTCTTTGGGAGGATCATTTCCTTCTTTGGT
CTTGGTGTCCTTGTTTACAGGTTGAGGGATGATAAGAGTCACCTGATCTGGGCAAGTCAGGCCATAAATAAGGCTTGTATGTAAAGGTGCCTAGCATAGT
TCTTGGCAAAGCAAGGATCAGTCGATATGATTGCATTGGTTTGTGCATCTGGGAAGAATGAGCAGACTGCATACTGTGTGTTAGGGTGTAGGGAGGAATC
AGACGTGACCCTGCCCTCTAGTCATCTGGGTGCACAGATTCTAGATTAAAGGATGTGGGGGTGGTAACTAACAAGGAGATGGAGAGGAGGTGTGCAGTTC
CTGGGGGATCTGATGAAGAATTAAAGCAGAAGGGTAGGAGATGGAGAATGGGAAGGCATACCTGAAACCCTAAAGCAACTCTTGATGAGTAGGCATTGGC
AGGAGGCCCCAGAACATTTTCTGACCCTCAAACACTGAGAATGCATGTCTGCTGGGGAATAGTAGTGAGGGGGCTAAGGGTATGGGGGTGTTCATGCCTG
AGTCAGGGGCTCTGGATGGTAGAAATGTCTGGGAGTTCTGACGGAATGGGGGTGAGGAGGCCTAAAGATAACCTGTTCATAGTCTTTCAGGGCCTTAACC
ATTATGGCTGGGGAAGTGGGAAGTGCCGATGGGGTATGCAGAGGAGGGCAGCTGTGATAGTACATTTCATCCTGAAAGCACTACATGTGGATAATGACGG
TAGTGATGATGCCCTAATTTTAGTGTCATGGCAACATTTTCCAAGGGGATGGAATTGGGTACCCTCATTAGTGTCATTTTTGTTTGAGAGATTTCAAGAG
TCTATCTAGGTGTCATTTTAAAATCTATTGAAAAAAAATCTTGAATGCAGGTCACTGACCAGTTGGTTCCATGTAACTGCACTGCCTTCTGCTACCACTA
AAGCAATGTTATGACAACCTGGACAAGTCATGGGAAACCTATGTGAGACTTAGTTTTTTCTTTTTCTTTTTGGAGTTGGGGGTCTCACTATGTTGCTCAG
GCTGATCTAGAGCTCCTGGGCTCAGACAACCCTCCCGCCTCAGCATCCCCAAGTGCCGGGATTACCGATGTAAGCCACTGCACCCAGCTGAGACTTAGTT
TTTTCATCTGGAAATGAAGGCGACCTTTGTGATCCCAGTGGGCCCTTGCACTTGTGTATAAGGTGATTCCCAGCACTGCTCATGAAAGTAGTGATGGCAG
AGTAGCCTCTGCTCTCCATTTTATTTTTGGGGTGGGGGGGGGCAGTGGTGGAGGGGAGGATGAGGATGATATTTCCATTAAATAAGTTTCCTTGTTGCTT
TTCTTCAGGCACCACTGACCTCGATGGAAAAATGAAGTCCCTGGCCCAGGAAAGAGACCCAACTCTGTGGCTGTTTTGGATTAGTTTGTACAATGCCCTG
CAGACCTACTCTCTCAGGAGGCTCCAAGTGACCAAATGTGACAAGAAAGTTTTTTGTCCAAGGCAGTTTGGAAGAGAAGTTGGTGACCGTCGGGATACCA
CAGCCGCCCCAGGACGGCCTGGTTGAGACATTCACTGGAGGGTCTGGGTGCAGCCCGCTGCCTGGCCGGTAGGCGGCGCGCACAGGCCGTGGGGCCCGGG
TCTGGGCGTGCGCGCGGCTGGTAGCAGCGGGGCCGCGCACGCCAGGGTCCGGGAGCCGGGCCGGTGCCCCCGGAGCCATTTCCGGGAGGGGCGAGGCCGG
CGGCTGCCGGGCCTCCAATCTCGGCGGCGGCGGCGGCAACAGGGGAGCCTGGGTCTCGCGGCCTGCGAGTCCGTCGCGTGCTGAGGGAGACGCAGGAGGT
GGAGCCGGCCGGGTGCTCGAGGGAAGGAGACTGGAAGCTGGTTCCGGCGTGAGGAGGTGGAGGGGCCGCCGCGGGCTCCGGGGGGCGGTGAGGGTCGGGA
CGGAGGCGCCGCGGGGTGAGGAGAGGACAGGGGCCGGGTGGGCCGAGGGCGGGCAGAGGCGGCGGGGCGGCTGCGGCCGGGGCGGGGGCGGGGGCGGGCT
GAAGGCGTGGGCACCAGCCGCTGAGGTCCAAGCAAGTGGACGGCGGGCGGGCGCGGGGCCGCGGTGGGGCGGGTCTGGAGCCCACGCCTGCCGCGGGGTA
GGCATGGGCGGCCAGGATTTGCTGGTCCTCCGACGGGAGGGGTGACAACGAGAGCGAGGCCGTGCTGATTCTGAAGGGAGTGCGGAGGAGGCAGGACCCT
GGTAGCCTCGGCACCTTCAGCCCGGGTTAGGTGGCCTGGGCTGGGCTCCCCACCCCSATCGCGCGCAGACGGGGCGTTTCCCCTAGTTTCCACCTGGGTG
GAATGCTTTGTGGGAGTCTGGGTCTGGATTAGTTTCATCAGCTGTGGGAGGGAAACCTAGTTGCAGCAGGATTTTGATTCGCTGGTCTGGGGTGCTAGGG
GTGGACTGTGATATCTGGGAATGAAATCTGAGCCTTCAAAGGAGGGAGAGAACCATAACTTGGCTGCTCTGGCGAATCTAGGCGGGCTGGCGAGACAGTT
TAAAGCTCTAGAAGTAAACAAACCTGGTTCCCTTTTACAGAGTCTGAAAAAGGGGAGCGCGGAGAGGAGGCTGGAAGAGGAAGATGCCTAGCACAGACCT
TCTGATGTTGGTGAGCCTTTTGCAGACATCCTCCTGGTTCCAAGGCATTTGTCTCCGTTTTTTYAGTCCAAAGGATCCCAGTGTGTAGATTTCACCTCTG
ATGCTTGCTTTTGGTWGCTGAGCGTTTTGCCACCTTTTATTTTGTTTTGTTTTGTTTTGTTTTTTTGGAGACGGAGTCTCACTCTGTTGCCCAGACTGGG
GTGCAGTGGCATGATCTCGGCTCACCGCCACCTCTGCCTCCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCACGC
CACCACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTCTCCATGTTGGCCAGGCTGGCCTTGAACTCCTGACCTGTGGTGATCCACCCGCCTT
GGCCTCCCGAAGTGCTGGGATTCCAGGCGTGAGCCACCGCGCCTGGCCAACCACCTTTTATTTTGGATGAATGATCAGGATGAATAAATAGCTGAATTAA
ATACATCAATACAGTATATGTAGAACTTAAATTATTGAAGAATCTTTTTCAAAATTATTATTATTTTTTTTAAATGAGACAAGGTCTTGCTATGTTCCTC
AGACCGGAGTGCAGTGGCTATTTACAGGCATAATCATAGCTCACTGTAGCCTGGAACTCCCACTTCAAGTGATCCTCTTGCTTCAGCCTCTGGAGTAGCT
AGGACTAGGAGCACAGGTCACCTCTCCTGGCTTTCTTTTTCATAATTCTTGCAGTTTTAATCCCTCCCTTCCCGTACTACCAGAGCAGTTTTGAAACCTC
TATTATTACGTTTTATCAGGGTCTGCCATATACTAGTTTATCTGAGTGTTTGTCTTCCAGATTAGAGTTATGGTTCCTCGACAGGCAGATAATCATGTCT
TCTTTGTTTAGAGATGAATAAACACCTAGCATGGTGCTCTGAATATAGTATGTGCTTAACAAATGCTTGTTGGATTGAACCAGTATGAATTTAAGTTCTT
TTGTTGGACAGAGAGGTATGCCTGCTTTAGAGCTGTTTCCTCTCCTCCTGAGATCTTTCTGTGCTGTTTTACTGAGCAGGGAAGAATAGCGTTGCTAAAT
GCATGTTTACCAAAATGACATTTTATTTTTGGGACTTTTATGATTCCTTATGGACTTCTTAGTGTGAGAATTATGGAGAGTTTATAGCTTTGAAATGGTG
GTATAGAAAAAGTGTCCGGGTTTAGTTTTTTTTGTTTCGTTTTGTTTTGTTTTGTTTGTTTGTTTTTGAGATGGAGTTTAGCTCTTGTCTCCCAGGCTGG
AGTGCAATGGCACAATCTCAGCTCATTGCAACCTTTGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCGGGTAGCTGGGATTATAGGTGCACA
CCACCATGCCTGGGTAATTTTTGTTTTTTAATAGAGATGGGGTTTCGCCGTGTTAGCCAGGCTGGTCTCAAACTCCTAACCTCAGRTGATCCACCTGCCT
TGGTCTCCCAAAGTGCTGGGATTACTTACAGGCGTGAGCCGCCGTGTCCAGCCAAGTTTGTTTGTTTGTTTGTTTTTGTCACTTCTCTGAGTGCAAAATC
AGTGCTTTAAAAACAATTCATTTCTCTCTCTTTATCTCACTATCCCAGAGGGTGGGTTGGCGTCACTGGGAAACTGGCAAAAACTGGTAGTGAGATTTCC
TTATACTGGGTGCTGACATCGTAGTGGCATAACCTGTAAGGTCTGCAGGGGGGCTAAAGAAGAGAGAAACTAAGTTTTGATCCATTGTGATTTGAGGCAG
GGATCTAGGATAATTTTAGGTTGTATGTGAGAGACATAGATGAATACTTAGGTTATCCGCAGATCCCAATGAAAAGTTCATCTAAAATAGTATCTTGCCC
CAAATTTCATGGATTTTTCAGTTTTAATTAATACCCTTATATAACTTAAAATTCTTATTCAAAGACCATTATGTTAGAAATACTGGAAACTATAAGTAAG
CAAAAGGAAAGGGGATTTGTTAATCTCCCCTATCTCCTACATCCCCTTCATTCGCCTCTACCCCGTGCAGTAATTTATCACCCAGAAATAACCGCTGTGA
GCATCTTGGATGGTTAATGCAGAGTGACTTGTAGCAATTGACAGTTTCTGTTTATCCTCTTACAGAAGGATATGTTTATGTAAATTATAGGTTCTTATAT
GTAAGATATTTCCCCATGCACAGAGATATGGTTATTACTTATAGGGCCTATGCATTTACTTTAACAGAACAATGACTGCTTTTACTCGGAATATTAACTT
TGGAATCAGTTTTCTTTTGAGGTATTTCTCTAGCTGTTGCCACCACCTTTCACCTCCTCACCTGTTAATTTAGAATGTTTAGGAGTGTTGCTTTGCTTGT
TGCTGTAAGGAATTAATCCACATAGATGCGAGTGGCCCTAGGCAGTCATCACTTTCTGAAGACAACATACATGTTGCATGAAGTGCTTTCACTGGAAAAG
TTGTCATTCATTCCTTGACTGTAATGTATAATRCTATTTGGAACTAACTGGTAAAGAACCAATAACCATGGCTGGGTTTTCAGTGGCACACTAACCCATC
ATTCTATGAGGTGTTTCTCAAGCTACTTTATATGATATGTAAAACATGTTCTTGGCCCTCCACCTGGGAAGAAAGGACCTAAGTGAATAAAAAAATAACC
TCAGTGCAGTGCAGCATCTCAGAATTAGAAATAGTCTTAGAAGTCATGGGATGCAGCTTTTTTTTTTTTTTTTTTTTTGAGACAAGGTCTCACTCTGATG
CCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTTACTGCATCCTCAATCTCTGAGGCTCAGATGATCCTTCCACCTCAGCCTCCTGAGTAGCTGGGACGA
CAGGCACATGCCACCATGCCCGGCTGATTTTTGTATTTAYTTTTTGTAGAGATGGTAGTTTGCCATGTTACCCAGGCTGGTATCTAACTCCTGGGCTCAA
GGGATCCAACCGCCTGCCTTGGCCTCCYAAAGTGCTGGATTACAGGCATGAGCCACTGTACCTGGCCTGTGATGCAGCTTATATTATACATGAATCTGTT
GAAGAGTATCTCTGGTAAATGGATATCCAGTCTCCCGTCTTTTCTGCTAATGGAATAAGTGAGCAAAAGCTAGGAAACAATACAAGGTGGATTCAGGAAT
AGTAATGTTAACTCTGATAGCTAACATTTATTGAGCATGTATTACATGTTAAGTGTAGGAATACTGTACTTATTTAATTTTCACAAAAACCTTTTGGTAT
CCTTCTTTTACAGATGAAAAACGAGGCTTATAGAGAGTAACTACAGCAGTTGAGTGGTGGAGCCAAGTTTGACCTCAGTTGGTCTGACTTCAGATCCCTC
CCTCTTGCCTACTTTGTGTCCTTACCCCTGGTAAGGGTAGAGGTTGCTGACCATTGTGACTGATGGGAGAGGGTCTGTGTGGAGCAGATGGGATAGGATA
GCTCCACCCTCTAGGGGGCACTTTGGCAATGGGGGACTGGGGGAGGAGGGAGTCTTTTTTCTTCTAGTGTAGTCTGAAAATACATGTTTTATTATTAAAT
TATTATTAAATCTTGTTTATTGGGTCAGGCGTGGTGGCTCATGCCTGTAATTCCAGCACTTTGGGAGGCTCAGGCGGGCAGAGTACTTGAGGCCAGGTGT
TCTAGACCAGCCTGGTCAACATGGCGAAACTCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCGTACACTTGTATTCCCGGCTATTTAGG
AGGCTGAGGCAAGAGAGTTGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAAGCTGCACCATTACACTCCAGCCTGGGCGACAGAGCGAGACTGTC
TCAAAAAAAAAAAAATTTGTGTTTTATTTTCTTTTACGTCGCATTTAATGAATTATATTGAAATTTTAAAACTTGTRTCTGCAGGCATAGTGTTATAATC
TTTAAATGCCATGTCAGAGTAGCAAAAGGGATTACAGAATATTTGTTATAAAAAGAGGGCATTGGGTCATAGAGTTGAAGACTACTTGTGTGGACAGTAT
GCTGTGAGAGAAAACCTGGAGATGACCTGGAGTCCACATATAACAAGCCTTGAATCCAGACTGACAGGCTCGGGCTATCAGCCCTCAGTGTGTTCCTGCC
CTCAATTTTGTTATCATTTGATTAGGATAGTTTGCTTGCCTTTTTCCATTTGCTCGTATGTGATGTGTCATAGACTGCAGTACTTTCCACCTGTGTCTCA
TAGAGAATAAAATGAGTATGTTCATCTGCTGAGAGTTGTGATGATGTCAGAGGGAATTCAAGTCAGACAGCTTTGTAGCAGCCTTTCTCCCCCTTGGCAA
CCATTCTTTTTATTCATACTCTCCTCCTTGGTGCTAGAGGGTGGTATCACTTTGCAAGTTGCCAAATATTTGTAGTTTTTAAGAAAAAGGTATTTTATAA
AGCCAGTCTACCCCTTAGGTGGCTTTTTTCTTTTCTCATCAGAAAATGATGACTAAATTAGCTGATATTCATAGATGAATCAAGGTTAGCGTGTGCACCC
TGGTAGTGCTAGGTGGGGTTTGAGTGATAATTGCTTATCTAGGGCAGTGGTTCTTGACCAGGGGCAATTTTGCCCTCTGGGTGACATTTGACAATGCCTA
GAGACATTTTGGGTTGTTACACCTGAAGGGTTCTGCTGGCATCTAGTGGGTAGAGGCTAGGGATGCAACCAAACACCTTACAACGCACAGTTTCCTGCAA
ACAAGAATTATCTGGCCTAGAATGTCAATAGTGGTGAGGTTGAGAAACTGGTATGAAGTTTCTTACCATAGATACCTGGATATCTGTGTAGTCTATGCTT
TCATATGGGTGGGGGAGTGATTCCCTTCTTGGAGGTTAACGTGTCTGTTATTGTCTCACTTGGGGTTATTTTGCCCATGGGTCAAGCCTTGCTGCTCAGG
AATATATATTGGAGATGGTGCAGCTGATCTTTTATAGCAATGCAGAATTCTTAAGAAATGCTGTCCTTTGCAACATTTCTGCACCACTCTTTTCTTGATT
TGCAAACAGCAAGCTTCCCTCAGTTTTGTTTTTTGGGTTCAAAAATTGAATCTTTCCAGGTCCTTGAGCGTCTTTATCTGTGACCCTTGACTCTTTTTCA
GGGATGCTTTCTTTCTGAATCTCAAGTGGGATTTAAGCAATAAACTGAAAGATTGACCTTAGGAGCTCTGTTCTATTATTTGAGCCTTGTGTCTTGTTTG
TAGGATTTGCTAGAAGAAAGGGAAAATTCATTGGGATTGTTGATAGGACATTAAAAAATTTGTTGACATTTGAGTGGCCATTGCAGGATGAACACTGTAT
TTGGCAATCTCCCAGTGTTATAGATGAAACAGAGCTGTAATAATTTCCACAGCCTTTGGTTTAAAGGAAAAGAGGGTTATAAACAGATAGAATCCAAATC
CCAGTATTTGACTTAGCTTTTCAGTCTATGTGTCAGGAATTTTTAGTAATATTTACCTTCTTAATTAGGTTTTACCCAATCTAATATTATATACAGTTTG
TGCACATTGGTGGCAGAATTGAGAATCAGCCTGGGTTTAAGAATTTCCATAGGGAATTGATGTGAATCAGTCTGTATGTGTAAATGTACAGAACCCAATT
ACTGAGATAAAAACCATGCTGTGGGGGAAGGGGAGATAGGGGCCCTCTGAGAAGATGGAATGGTGAAGGCTGCGAGTAGTTTGTGGATATATCAGTCATA
TCTTGGCATAATCCAACAGCGTACTAAGGGATCAAGGGACTATTTTCAAGGCTGAGCAGGTTTAAGGAAAACATCTAGGTGAAACATCTAAGGGCTAGCT
AGCAATAGGAGAGCCATTATCACTCTTTTTTTTTTTTTTTTGTCATGGCAATTTCACTGAAGCTTTTATTGCCTCTATTGGTAATATGACAGGGACTGTA
AGAAACACAATTGAACTTACAGAGATATGCAGATGATATTCACTAAAGATAATCTTCATCTCAAGTATTTTTTATATGTGGGCACTTCTAATTTTATACA
TTTTTCTATTTAAAAAGCATTACATTTTAAAATKTGTACCTGTTTTGACATTTGGCAAAAAGGAAACTGTACCTATGGTTCAGTTTAAAACAAAGAATCA
GCATGGGGAGTTTACCGGAATGAGGACTGAAACACTTAGGAGTTAAAGCAATTCAAGGGGCGTGTGTGTGTCTCTCCCTTTCTCYGTCAATCTCTCTCAC
TCTCTCTGGCTCTCTCACAGACACAGACTCAAACACACACAGCCATATGTGTAATCATTTTTTAGTACAAAATATTCCCTGTAGCCAGACATTTATCTTC
AGAATAATCACACCACATTAAATCAGTCTTCTCTTTTCAGCCCTAGTAAAAGTTTTGTTTAATTCTAAGATGCCATCATAGDGAACAACCTTAACTTTTA
TSCTACATAATTATATTCAAAGCTTTATGTATTTTTGTTTATAATTACACAGTAATTATAAATGTTTAGTACCAACCTGATGACAAACACTATTTTGTTG
AAAAGGTTTTGCATTTAAAAAGAAAAATATGTAAAATCCAAGGCACTAGGCCACGAACCAATATCAGACTTTTAAAGAAAACACTTTATATTGAAAAAAA
AAAAAAAAAAAAGCTAATGGGATCTCATTTCAAAACACAGCATATGTGAATTAATCAATCTGAAACCAATAACCATAACTCAAAATCTTCAAGACAGGAA
ACAAAACAGTACATATATATAGATATATAGATATATATATCTTTTAAAAATTTTTCATAATTGAAGTTCCTCTTTATATTTACAAAAAAATCAGGAAATA
CTGAAAGCAGCAAGATTCTTCTTTTTCCTTTTTCTTTTAATAACCAATTCCAGTAGCCTGAATAGAAATTTTCAGATTTTTCTTTTGGTAAAACTGCATT
CTTGAATTAAAGTTATGATTGGAATATTGATATGTCTATAGGGAAAGCTTTCTAGTCTATTTCAAAATCATGTAAATAAAAAGCAGTTTTGATATGTCAT
TGTTTCTTAAAATAATTTCCATATTTGCATAAAATGTACTGCTATTCTAAGTACATTCCTTTGTTAATATCAACCCTAGACCTTAGAGAGTGCCTGGATA
TATATCCCAAGCAGAATCTGTTCCTATCAAAAGACCATAATCATCGAACATTTGAAGCATTACATTTCTAGCCTGCCTTACGGAAATGTTTAAGAAAGCA
AGAAACCCTTCTTCACATGTCAGTAAGTGAACAGGGAAATGACCATTTTCAGCATAAAAGCAGCTCATGGGTCTTGTAATGAAAAAAATACATACAAGAT
AGCATTCTGCTTTGATGAGAAAACTGAGCTAATCTGAGTGAAACAAAAACAGTAAAGAGACTAGAAGCCAGATTGGTATTTTGCATCATGTATGCTTGTT
TGAAAATCTTTGCTCCTGAAGTAAATATTTGGCAACCAAGTGATTAGCGACCACAATTTCAACAAAATAATAAGTCATTGAAAATGGACTATTTGTCTGA
AAGAGCAATACCTATATTACAAAGATTGAACTTCATGGCTCATTACAACCATTTTCAAAATTTAACTGCAACTATCTTCTTATAAATTAAGAGAGTTTAA
TTTGTGTTCCATAGTGCGATGACAAWAAAAAAGTAAAAACAAAACAAAAAAACCCTCATGCCTAAATTTAGAATATTGTATTATGTAGCAATCCAAAACA
TTCAAAACAAATTAAATAGTTTAACTTATGTGACAGGCAGATAAGCATTTCAAAAGCATAATGAAGTCCAATTATGTAGTGCWTAATGTAGACAGGAGAA
GAATCTAACATTATGCAGACATTTTCTAAATAAAAGCTCCCTGTAGGACAGCTATATATAAACATGGGTAAGGTAAGCGCAGACTAGTTCTGTGGAACCT
TTTGAAATCAAGAGTCTAAAACACAATACATTTTTCAGGTAGGCACCAAGTTATCCTAAAAAATTTTCATGTTGGTTATTCTGACGTTGTTTTTTCTCTT
TTTTTTTTTTTTTTGAGACAAGTCTTGCTCTGTCGCCCAGGCTAGAGTGCAGTGGCTCGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGTGA
TTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACACTCTTAAGCCTGTGAGAGGGCAAGGAAGGGAGTAGTTTCTGGAACTTTGAGAGAGTTGAGATG
AAGGAGAAGGTAACCTGTAGGAATGCCAGCCAGTGACCCAGTAGGAAAGGCATCAAGGGGAATAAATACTTCAAACTCTTTTGCTACCCTCTGATCTCCT
GCTGTAGCCTCCCATTGGTCTAATACAACTGGAAACCAGAGGTTAAGGAGTCTGGTTGATTTAATTCAGAGGGTGGAATCCGGAGGCACATAGCCGAGCT
GGAAAATGCTGGATGGAGGATCTGGAGGAGGAGATCATCTGGAGGGGAGAACATCCAGCATGCTGGAGTTGAGAGGTCTAGTTTGTCTTAAAAGGCACAA
ATGAGGAGATAATTCTTGAACAGAATCTTGAAGGTGGATAGCATATGGATTATAGAAAGGGAATGTTCCCACTGATTTTAACAGGATAGATTCAGAGGCA
CACAGTTGCCACAGCTTTGGCAAGCCCAAAGCTGCTTTGTTCCAGTAGTAGCCTTAGAATCTTAATTGCCTGGAGGGCCTTTAAAAGTACTGCAGTCCAG
CTTTCTTGCTGCCTAGGAATCCCTCTACAATGCCCTGTCAGGAGTGAGTGCTACATACTTTCTCAGGGGGTTCTTTCCACTGTTGGACAGCTTTAATTTT
TAGAAAATTTTTCATGTGTCCAGATCACTGAATGCATCAGCTAGAATTAGGTTTGAGTGTATATAACAGAAAAACCTAAAGTAATAGAGATTTTTTAAAA
GACATAAATATATTTCTTTAAGAGAAAACTGGCCTGGCGCGGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCGAAATGGGCGGATCACTTGAAG
CCAGAAGTCAAGATCAGCCTGGGCAATGTGGTGAAACCCCGTCTTTACTAAAAATACAAAAATTAGCCGGGTGTGGTGGTGGGTGCCTGTAATCAATCCC
AGCTACTCAGGAGGCTGAGGCATGAGAATCGCTTGAACGCGGGAGGTGGAGGTTGCAGTGAGCCAAGGTCACACTACCGCACTCCAGCCTGGACGACAGA
GTGAGACTCTCTCAAAAAAATTACAACACAGTACAATACAATACAACACAACACAACAATACAATACAATACAGTACTACAGTACAATACAATACAATGC
AATGCCAGTACAATTCCATTCCATTCCATTCATTCCCATTCCATTCCATGCCGATAAGGCCATTCCTGAGTCTTTGAGGTGCCAGGCTGCTTCTGTCTGT
CATTCCGCTATCAGTAGTGCATCCCCTCCTGGGCCAGGGTAGCTGCCTGGGGTTCTACCTGTCAGGTTCATGTTTCATTCATGAAGAGGAAGAGGAAACG
GAAAAAGAAGGGCTTGCCCTCCATTTTAATTAAAAATTATTTTGGAATTTATTATACGTGCAGAAGAGTATAGAAAGCACATATCTACATTTTAATGAAC
AATAATAAAACAACGATACCAGATTAGGATATAAACCATTTATCTCTAACTCTACGCTTCACCCTGTTACAAATATTTCCTTTCTTCCCCTCTAKGGATA
ACCCCATCCTGACTTTTATAATTATTCCCTTGCCTTTTTAAAAATAGTTTTAACCACCTGTGTATGCATCCTAAGTTTAGTTTGTTTTTTTTTAAACTTG
ATGTAAATGGATGCATATGTATTTTTATTTTTGTGATTTTCCTGTGTTGCTCAGTATTCATGCGATCCATGTTATTGCATGTAGTTTAAGTTCATTCATT
TTTATTGCTGTATATATAGTATTTTATTGTGTGACTAAACTGCAGTTATTTATCCATTTGACTTATAATTCACATTTGGGTTGTTTCCAATTTGAGGCTT
TTTCAAACATTGCTGTTATGAGCGTTCTTATATAACAAGTGATCACAAGTGCAAGAGTTTTTCTGGGATTTGTGCCTAGGAGTGGAATTGCTGATTGTAA
AGGCATACATGCCTAACTTCACTAGATATTGCTAAACTTTTCTGAAGAGGCCAATACAATTTATACCACTATCAACAATATATGAGAGTTATTTCCACCC
AACTTGGCAAACCTGATATTTATAAAGCTTATTTTTTGACAATCTGGTAAGCAGATAAATGTAATTGTAATTTCCGTATGCATTTCCTGATAACTGATGT
GGTTAAGTACCCTTTTCAATGTTTACCAACCACTTGGATTTTCTGTTTTGTGGCTGCCTCTTCAAGTCATATGCCTTATCAGTTATTTCTCCTTTTTAGT
TCTATTATTAATAGATTTTGCTGTATATTTGCTGAGATTTTGTTACTAGGTGCATTCAGATTTAAAATTGTTACATCTTGTAAGTTGAGCTTTTCATATA
ATTTGCTTTTTGACATAATATAGCTACATCAGCTTTTTGTCATGAAATAGGAAACTTCAAATGTATGATAAATGAATGAGTTGCCTGTTAGTATAGGCAG
AAACTGCAGAACAATCCTAGCCCATTATTCAGGCTTTATGTATCAGCGATTTGTTCTGTTATCCCATAAAGTGAATGAGTCATTTTTGAGTTTAAAAAAA
TCATAGGGCTTTTTTTTTGAGGTCCAATTTGCATACAGTAAAGGGCACAAATCTTAATTATCCAGGTCAGTAAATATTTATGTATGAATATACTTCCAGA
TCAAGATATTAAACATTTCCAGCACTCCAGCCAGCTTCTTAATGTCCCTCCCAGTTGATACCTACCAAAGGTTTTGCTTAGTTTTGCTGATTTTGAACTT
TACATAAAGTGGAAACATACAGTATATTCTCTTTTGTGAGTGGCCTTTTTGCTCAACATTGTGTTTGTGAGATTCAGTCATGTTCTTAGGTAGCATTAGT
TTTTCTTTCTTATTGCTGTGTAGTGTTACAATGTATAACTATATTATAACTAATTTGTTCTGTAGTTGTAGAACATTTATGTTTCTAGTTTTTTGGCTAT
TGTGAATGACACTGCTGCCTTCTTGAACATGTCTTGGTAAACATAAAATGTAGAGTTGCTGTGTGGTAACGTGTACTGCCAAACAGATTTCCAAAGTGGT
TGTACTAATTTACGCTACCAGAGTTTTAATATATAACTTCTTGATTTAGCTTTGGGCAGCAAATGTTAAATTTCTGTCATCTGCATACCACACATGGAGA
AGAGCACTGAGAACTCTTTCCTGAAGTTGTATAGGCACTTTTATTTTATTTTTTATTTTTATTTTTTTCGGAGACAGGGTTTCACCCTGTTGCCCAGGCA
GGAGTGCGGTGGTGCGATCATGGCTTCCTGCAGCCTTGAACTCTGGGTCTCTAACCATCCTCATTGAGAAGCCTCGGCTTCCTAAAGTGCTGCGATTATG
GGTGTGAGCCACTGTACCCAGCCTGTACAAGCAATTCTAAAATGTGAAATGCCCTTCCTTTTCTGTAATTTCCCCAGAGAGTAAAGCCTACTGCATTCTT
GTTTATCTAGTCTGTAAATGTTAATACACAATTGATGGGAACAAAGCAACCTTAGTTCTTTTTGAGTATGAAAAGGACCCTGTTAAGGGCAGAATTTAAA
ATATTTGTAGTAGTTAATTCTCAGGTTAAAATCATAATCTTCTAGAATGCTTTAGATTCTAAGTGGCTATTGTAGTAACACTTTATACTCAATATTGGGG
GACCATGTTTTTTGGAGGCTTTCACTGAAGCATTTAATTCCATTCTTTTGAATTCGTTTTGACAGATGGGTCTAAAAAGGAATAGATCAATTCTGTATTG
AATTCCAGTCTTAATGGCACCGAGTCTTTGAGACAATTGAGGCAAATTGGAAATTCTGTTTTCACATTCTTCTGAAAGGGGATGCCTTTCAGAAGTGTCC
TGAAGGGCGCTGGGGAGGGCAAATATGAGGATGCCAGGGTAAGTCTGCTCCCTGTCTGGCTGTGTTGGGCCAGAGTGGAAGAAAGCCTAAGACTCTGTTA
CCCAGCCCTTTCTGAAAATGTTTTCAAATGCTTTCCCAACAATCACGACCACAAGAGTCAACAGTCTGTTTGGATGACTGAAAACACACAGGTTTACGAT
CTGTAAAGATAGTAGGTAAGTGATTTAATCTTGTTGTATAGGTAGGCCAGAGGGCACTYGCAGCCTTCTGATTGATTTAATAGATTGTTGAAGATTAAGA
GTTGACTTAACATCTCTCTTAGAAAACTGAGAAATAGCTCATTACTAAGGTGTGTTTTATTACCACCGTCTGTAAGAAAATACAACATAGGCATGGGAAT
CAAACTACTTAAAGCCTCTTCCAGCTCCTTTGTGACTGGGAAGGTTACTTTTCCTTGTTGCTTATTGAAGAGAAAAGGAAAATGTTTATCATTGGATAAT
TCAGGTTCACTGAATATTTAATGAGTGTTTATTATCTGCAGTCATTTTCTTATTACCTTATCTCATTTAATATTCACAACAACCCTGTGAGTGGACGATG
GTATCTTTTTTTTTTCTCCTGAACGTTTTGTTGAATTATCCCAATGGCTTCTATTTTTGCAGATGAGCAGAGTCCAGTTGCATAGAGGTTTAGTGTTGTG
CCACACATCACACAGCTTCTAAGTGAGAGCTAAAATTAGAGCCRAAGGTTTTGATTACCAGTCCAGACTTTCTAGGACACCACAGCTGCCTTTCTGTAGA
ACAGATTAACATGACTCTCAGAGTCCGCAAGAGTAGTGGTGAGGTGTCAGTTCAGGGGAATACTCAAAGGTCACTGTCCTTTTCAGRTATCTGGGTAGTT
GCTACAGTATGTGCTTAGGAATTGCTGGATAAAAAAATATTCTTTAAAATCTCATCATTTTAGTCGTTAATAATTTATTATTATAACTCGTAAAAATATA
CCTTTAGGCAAGTTATTCTTAGGTAGTTATGGTTGCTTTCATTTGGAGTCCAGAGCTTTACTCTCTATTTCTGGAGTTGCAATTTCTGCTGTCCTTGGCC
CATTTAAAAACTTTTTCAGAAGGCCTTTTAAATTTTATTTTTTTATTAAAAGAAAGCCTGTGAATCCAAAGAATCTTAGGTGGTTTCTTAGCTGAAGGGA
CATTTGGTGAACACAAATGGAACTGTTAGGTCATGATGCTTTTTTAAGTGTACAACTCTGGTGTTTTGTATATTCACAGTTGTGCAGCCATCCCCACGAT
CAATTTTAGGACATTTTCCAAAGAAACCCAGTACTCAGCAGTCACTTCCTTATTTCCTTCTCACYGGTCCTCAGCAACTACCAGTCTACTTTGTGTAGAT
TTGCTTAGTCAGGACACTTCATATAAATACAATCATACAGTAAATATGTGGTCTTTCCTGATTGACTTCCTGATTAACCATTCGTTTAATGGTTTCAAGG
TTCATCCATGTTGTAGCATGGATCAGAACTGCACTCCTTTTTATTGCAGTTACAGGGCTTTTCCTACAGAATTTTAAGTAATGGATATATCTAACAATGT
CTCTTGTTCTCACCTACAGGAGACACAGGATCTTGGGCTTACTTTACTTATATAGGACCTTTTGTAATATCGAGGCTATTTCTATGCTTTATTGTAGAAC
AGAAGTTATTAACTGGGGAATATGGACCTTTATGACTGGCCTTTAGGATGTCCTGAATTCTTTGTAATTATATAAGATTTTATGTTCACAAGCATTTTCT
GGGCGTCGGAGGAGTCTGGAACAGCAAAGATCTCTAGCTTTTGTTAAAAGATAATTTTCGAAAGTAATATCCTGACTCTTATACAGATATAAAATGAACA
TATGTTGAAGATTTTATTTTACTCCAAAAGAGGAAACCAGGCAGATGTTATAACTGGTTCAAAGGAGAGGTCCAAAAAGCTGCTCATTTATGGATCAGGA
ATATCAAATGAATGTGCAAATGGAGGCAAAACAACTCTCTGTCATAGGGGTAGGAAAGTCAGGTGAAACTTCACCTGACGGCAGAATTTGCATATTTAGG
GATCTAGATTACTTTGCACTGCTATCAGTTATCTACAACTTTCAGAGCCGTAAACAGCCTCCTCATAATCAGAATCTGGTAACCCGGAGGGGCGTCCCAG
ATAATGCATAATTTTTCAYTGGAAGCCGTAGGGAAAAACTCTCTCCTCTACTCTCACACCACAACAATCAACACCGAAGACTTCCGTGACCAAACGTGTG
GGATTTTTTTCCCCACACTCCAAGAAGCAGACATCACTGGGTGTCGCCTAATTCAATTCTGACACTGTCTACCTGGAGATAGCATCAGATCTATGGGTTG
AGGGCTCAGTCCCAACCCATACCTGTCTCCCCCAACCCCAACCTGTCACAAGTCTGGTCCTTCAAAATGTCTGACTGACTGTCTTCAAGGTGAGGTTCCC
ATGACCTCCTCTTGGATTGGATTAATTTGCTGGAACAGCTCACAGAACTCAGGGAAACATTTACTTAGGTTTACAGGTTTATTTTAAGGGATACTGCAAA
GGTTACAAATGAAGAGATGCATGGGGCAAGGTATAGGGGAAGGGGTGTGGAGCYTCCATGCCTCCCTGGGTGCACCACCCTCCAGGAACCTCCATGTGTT
CAGCTATCCAGAGGCTCTCTGAACCCTGTCCTTTTGGGTTTTTATGGAGGCTTAGTTACATAGGCATGATTGACAACCATGTAGAAATGTGACTGGACAC
AGGAGGCATGATCTCATACTAATAGACTGACCGGAAACCCAGCAAGGCCTGTCTGTTCAGGTTGTCGCTGGCCTTTCTGTGCAGCCTTCCTTCCTCCAGA
ATATGGGGCACAACCCTCCCAGGAATGAGGGTTTTTTGGCCCACAGTTGGACTAGAGTCTTGCTTTGAGGCAGGTAAAAGAGGACAGGAGAAGGTTGAGA
GAGATTCTGTTTCCTGAGGCCCAAAGTGCCCCAGCATTATAATAGAAGACTATAACAAGGGCTATGGGGGTTATGAACCAGGAACCATGGATGCAAACCA
ATATATACGTATAACATCACAGAAGCACACTTTCCTGCTCACTTTCAATAGATACCACAAAGTTTGAAACTCTTCCAAGTATTAATTTTAAATTAAATTT
ACTCAGCTGCTTACTTCAGCTTTTAAAAGTAGGTTCTTGGTAATTTCGAAGATGCACTTTCCAAAGGGTGTTTATATAGTTGAAGGTCAGTCAGAGACCT
AGGGATAGGTCCCTGCTTATTCTTTTGAGCAGGCTTACGTGTTRGAAATCTCTAGAGAAATAGCTTTAGTTAGGTTACACTTCTCAGCAAATATTCAGTA
TTCCTCATCTCTAATAGCAGCATGACTGTTGTAGGGAAGGAATTTCCACAAATGGTTATGAAAAGTCTAAGTGTCTTAACTCCCAGACAAAGATAGAGAA
TTCTGTTAGTAAGATAAGTATGGGACTGGAGAAGTCAGCTAACCTCTGCCCTTCCCCAATCGTGATATGCTCAGAGAAGTTAAGACTTCTTTCTGTGTGA
GAAATACGGGATCTTTTCCACTAGATCTTGCTTATTATCCAAGAAATTATCATTTCTAGTTTTAGAGAATGATGAAACTCATTTGTGCTTTGAAATATAA
CCTGTATACATGTGCACAGTAAGTCATTTRGCTATTTATTGTCAGACTCTGRGAGTTCATAGCAAACTTAGCAACATTCCATGTGCAAATTTGCATATTT
TTCCCCCCATATCTTACCTACTTGCCTTAGGCTGGGAGTCTATTTTCCTACAAAACTGGTAATTGCTCTTATCTCTGTGTCCTTCAGTGTGTTCCTCTGC
TTATTGAATTCAGTTTTATGCATTTAGTCTTCTCTCCTAGTATAAGCTGCTCCTGATACTTTTAAATATGTATTTCAGAAGAGAGGTGCTCAGAATTGTT
ACTTAACAGAATCAGCATCTCCCTTTACTTGATGCCTTGTCCTGACCACAAGTACATTAATAAAGTGACCATTTAGCAGTGTTTYGGGTTCAGCTTTTAG
GAACTTAGAAGCTGTGGTTTTCCATGAGTGCACTTCTGATGACTTGGGAACATTTCATATGTGTGTTCTTTCTGTGGCCAAGATGGTTTTGTTATTTCAG
GGATGGAAAGATGCTTTGCCTGAATACTCCCATGCTAAGTGTATAGCAGTTGGTGCTTGGGGAATGGTACCAAGTGTACATATCTGGCAAGGCCAGGCTA
GAAGGGAAAATGTAGACTCTTAAGCTTTTTGAGACGAACTTCTCAGATACTGGATCTCTTGACTCACATAGTGGAATTTTGGGGGAAGTATGTGGTTTGC
TTTTTGTCTCCTAAGAAATGATGATTCAGTTTCCTCAAACGTTTCTCACAGTCACTACTGGTTGCTTGGAATGGCTGTCTGGTTTTGTTGCTCAGTTCTT
ACTTCTTTAATGACCCAAGAGGATTTTCCCTTTGGGGTTGTGATGTGTTTTTGATGATAAACTTTAATGCTTTTGGAGGCTATAAAGACAATAGTATTTT
CTTACCTGTTTACCTTGCACTTTGAAGTTCTGTAGACTGTAATATGAAAGAAAATCAGATTAAATTAGCTTTGCTTTCTGGCTTTTCTTTTTTTGGTGGG
GGGGCAGAAGCTGATAAGAATAAATATACTAACTGAGTCTCTTCTGTATTTTAACTTCACTCCCTAGGCTGAGGCTTAGTCCTTAGAGTAACATTTGAAC
TGGGTAGAACAGATTTTTCTTTTCCTCAACAGCCCATTCCTGCTGTAAAGCTCAGATTTATGGTCCTTCTGGAAAAAGTATTGAGYGTTGAATAGTTCAG
GAAAACAAATAACAAATTCTGTCTTCTTTGCAGGATTGTGGGGTAGAAGATTTTGATTTTTATTAGTATCTGGCCAAAGAATAAATATTAGGCAGGAACA
ATGAATTGATATCTAGTAGAGTGACGTGACTGGGCCCTGACTTTTAACACTTCCCAGGAAAGCTTCGTGGATGTCTTTTCCCTGCTGCGTGAATACCGGG
TAGCCATTAAGTTTGGTGATTGGGTGTCAGTAATATGTTAAGTCAGCTACTGGGTCATCTTTTAATAMAAGAAAAGGATGGGGAAGAGAATGGATTCTTA
AGCAGTGTTGCCTGTCAGAATCACCGGAGGGAGGTTTACAAAATACACATTCTGTACTCTGACCCTGTGGGTGGGGTATTCTGACCCAAGAAGATGATTC
GTTCCAGGAATCATGCTTCTTGGATGATATTGATGTACCCCCACTGGCTTTATGGAAAGAATATTGAAGAAGAAGATAGATTCTCTTGGGGGCTGTGCCT
CTAGTTTGAAACCAGGGAAGGCACATTTTGGTATTAKTCTGTGGCCTCAGTTTCTTCATCACTGCARTGAGATTGGACTATAGGTGGTCTCTAAGGTTCC
TTCAGACAGTAGCATTTTATGATTTTGAAGACAACTTTTCTGAAGTACTTTTCAAACTAATTTCTTTCCGTCTTTCTTTTGTAAGCAAATAAGTAGTATG
AGTGTAAGTCTCTAGCTCAGAGAAGAATGAAGTTTGCAGTTCGAAAAGGCCATGCAATAGCAGTTCACTTCCCCAAAATGCTCAGCCCTTGTAGGATGCC
GTTAGGTCATCTGGAAGTTCTGTATGCCTTCAYTGGGAGCGTAGTGAAGATGAGAGCCTTTCCTTTGGCTCTTGGAGTAAACTAGCTGACAGGACTTTGA
GAACTGTTGGTCTCCTGATTTGTGCCACTGATAGTTTGGCTCTGGAAAACTAGGCAGTGGAAAAAACAATGCATTTTAAACCAGAAGATTTGAGTCCTGG
CTCYGCTATTTCCGAGCTTTGTGACCTGTAGGCCTCAATRTCTTCATCTGTGAAGGACAGGTTCAGCTCTGATGGCCTATGATGTGATGAACCTTGTGAA
CTTGTAGGCAGAGTGCCACKGTGTGCAGAGTCCAGTTACAGATAACCAGCCATTCTCCTCTGCAGATTCAACCCACTGCCACTGTGTCTTGTTAAGCTTA
AATAGGAGAGATGTGGGAGAGAGGAGGCAGAAACATCCTAGGATCTTGCAAAACAAAACTGTCAAAAGTATAGGCAATATCATAATTACTTTATTTGAAT
AAACGTTGAGTTCCTGCTGTGTTGAAGATGCTGTTTTAGGCAGTGTAGGAGATAGAAGACTTATATCCTCCTCCTAATTTGTATTCTTATCAGCACCTGG
TACCATAGAGAGTTCATATATTAAAATTATTTGGTTGTTCTCCCTAACCAGAGTTGAATTCTTTCCTTCTAGGACAAATTAACTCATAATGCAATAGGCT
AATGCAGTTTGGCCCTGAGTGACTCTTGAGAAATACCCTGAGTTGAGGCACACTGGAAACGTGGCACATTAGAAATGCCAAGAAGAGGCCGGGTGCGGTG
GCTCATGCCTGTAATCCCAGCTCTTTGGGAGGCCGAGGCGGGTGGATCACGAGGCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCTGTCTCT
ACTAAAAATACAAAAAATTAGCTGGGAGTGGTGGCGGGTGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGCTTGAACCCGGGAGGTGG
AGTTTGCAGTGAACCAAGATTGCACCACTGCACTCCAGCCTGGGTGACAGAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAAAGAAATGCCAAGAAGAC
ATTGTACAGGAGAATGAAGGGAAACTTTCTGTAGGGAAGTAGCTTTCCCAGAAACTTGACTCTATAATGAAGCTATAGAGATCAGTAAAATCATTAGGGC
ATTACTGTTTTGAACATTTCCTTGAGTGAATAACAGACTTACACTCAGGGCCCTAGGTCTCTGTTGTGGCCCAGCAAGCTGCATTCAGACAAGGAGGCAG
TTTGAGAGGTACGAGTTGTTATGGAAGCCTGAGAAAACTGGTTTGTGTGCACTTCAGTTTTGACCATACAACCTTCACTCACTTAGCACTGTGCAGTAAT
CCACTGAGCAAAATTGCCACATTTTCCTTGGCAGGGAATCTGTGTGCCTGTGGCAGTTCARAAATTATTTGTAGAGTGGGTCAGCCTGTCAGCAGGAATG
TTTTTCTTTGATCTTCAGCCTGTTTTTCTTTAATGTGAGCAGAACAGTAAAGAGAGAATACATTGGAATATCTTGTTGGTTCCCCTGTTTGGCTTTACCT
ACAGCTCTTTGGTTTTCTTCTTTTAGGTCATACTTTCCCAATTAGTATGTAGGTATTTATGATGTTTTGAAGCCCAGAGCGATGGTTCCAATATCTTGTG
GAATTCAGCTCTGAGTGTGAAGTCCTGACTTTGCCTCTTTCTATCAGTTTGACTGAGCAAGTCACTTAACCTTTCTTGACTTCAGTTTTCCCCATCTATA
GAGTGATACTGYACACTGGTTTCTTTTCTTTTCTTTTTCCCCTTCCTTTCCTTTTCCTTTTTCTTTTCCTTCCCTCTCCCTCTCCTCCCTTTGCCTTTGC
CTTTCCCTTTCCCTTTCCTGAGATAGAGTCTCACTCTGCCGCCCAAGTTGTATTGGAGTGCAGTAGCATGCTCATAGCTCAATGCAGCATCAAATGCCTG
GGCTCAAGTGATCCTCCTACCTTAGCCTGCCAAGTAGCTGGGACTACAGGAGTGTGCCACCATGCCTRCTGCTTTTTTGTTTGTTTGTTTTTTAAATTTT
TTTGTAGGGATGGGAWCTTGTTATGTTGCTCAGGCTGGTCTTGAACTCCTGGCCTCAGGGGATCCTCCTGCCTTAGCCTCCCAAAGTGCTGGGATTACAA
GTACTTTATAATGTGTAAATGGCCTGTACATTCTTAATCTAATAGCCTCATGAGGTTATAAAATACAAATAAAATAACATGAAAGCCATTTAGAGTTTTA
AGGTGTATAATACCATGTATTCTCATTAATTAAATTTTAATAAATTTAAAAGATAAAATTATTTTTATAAAATAAATTTATTTTTAAAATTTTAATTACG
TTAAAAAGTTAATGCTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTACAGTGGTACGATCTTGGCTCACTGCAACCCCCGCCTCC
CAGGTTCAAGCGATTCTCATGCTTCAGCCTCCTGGGTAGCTGGGACTACAGGTGTACGCCACCATGCCTGGCTAATTTTTCTATTTTTAGTAGAGACAGG
GTTTCCCCATGTTAGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTACCCACCTCGGCCTCCCAGAGTGCTGGGATTACAGGTGTGAGCCACCAT
GCCTGGCCAAATTAAAAAGTTAATACTTTTTAAGTGCTTCACTCTTTCCTGTGCATGTTGTCTTGGCCTCTTTTTCTAAATTAGTTTTATTCCCTCTGTA
ATCAGAGGGTCACCAAATCTTTGAGTTTTAGAGGGAAGAGAAAGTTTTTAGTGAAACAAGTGGGTGAACTCTGATCCCTGTAAAATAGTGCCTTCATACA
GTAGGCACTCCAAAAATAATTGTTGAATGACTGAAACTCTTAAACAGCAGTAAGCATACGTATAGCAGAGACAACATTACAGAGTAGAGCTCTTTCTAGG
TTGGCATGGTAGATAGCTCTGAGGGACTACCTGAATGGAGATGCCATTGCTTTTGAATAAAACAAATATACATGGTGTCTTAGTCCATTTTCTGCTGTGA
TAGCAGAATACCACAGATTGGGTAATTATAAACAATAGAAGTTTATTTGGCTCGTGGTTCTAGAGGCTGGGAAGTCCAAGAGCATGGCACTGATATCTGG
TGAGGGCCTTCTTCTTGCTGAATAATAACATGTCAGAAGGGCAAGTGAGCACGCGAGCTAGAGGGGATGGGCCAAGATGTCATCCTTTATCAGGAGCCCA
CTCCCAAGATAATGGCATTAATATACTCATGAGGGCAGAACCCTCCTGATCTAAATCACCTCTTAAAGATCCCACCTCTCAACACTGTTACAATGGCAAT
TAAATTTCAACGTGAGTTTTAGRGGGGACATTCAAATCATAACAGGTAGTTAGCCCTGTTGAGTAATGGAGAAAGGATTGTATTAGTTCCAAGGAAAGAT
GCATCATCCAGTGTGGGTCTGGAAATATTTGCCAGATGGCTTTTCTCTTTTAGTAATATTCATTTGTGGAATGTTTCTTTAGGTATAAATTGGTGCTGAA
GTAATTTGATAAGGAAAAAATATCACTGCCTAATTGGTATTTGGTCACGAGCAGTACCAGTTCGTAAGATTTTTTTGGAGGTAGCAAGGGGTGGATAGTG
CTACTATTGGAAGTTTGCTTATGGAATCTTTTGCTCTCTTGAAGTGATTTGGAGATTAAAAGAGTTTAGTATCATTGGGGATAGCTGTGGTCTACTGTCA
GTTAGGAAGTAACTCATGACTAGATATCCTGGGCTTATTACTTCAGCTCATATTCCTGACCTCACAAAAATGTTAAGAGAATAAATCGTAAGTATAAAAA
GCACTGAGATTGTGTAGAGTGGAAAATAACATTAGTGTTAGCTCCCTCACTGTATTACACAACCACATTCTAAATTTAAGGAAGCCAGAAGTAAAATCAC
TCTGAAGCACTGCTTTTGAAACTGCAGATTATGATCCATTTAGAGGGACACAAAATCAGTTTAGTATATCAAGCGTTAAAGAAGGAAGAAATAGAAATGT
GAGTACATTACAAGTAATAAGGTGCTAAGTATTATTTTGGAAACTTTTGGTTTTATATGTTTCTGTTTCTACATGTATTAGATTGTGTTGTAAAAGACAT
TTCTTTGGGACTGTATTTTACAACACAGTCTCATACACGTAGACTCTAATACACATATTGAAACAGTTTGAAACTCAGTGGTCTAACAAGTAGCATACCC
CAAATTTACAATATTTGTAGCCTTCTGCTGTTGGGTACATTCATGAAAAGGTCTTGCATCCTTAAAGTGAAGGCTGAAAGAGTTTTATGTCATTGGGGCR
AGTGGGCTACCAAGCTCCCATAAATTCTAGGAGCTGCCTTTTGTCTAACGATTAGGATTATTGAGTACTATTTTGATGCCTTTTGGGTATCATCTGAAAT
GTAATCATTGAATTGGAAATGGAATAAACAAGAGAAAGGCTAGTTTACTCATTATTTGACAATAGCTCTTTAAAGTAGTTAATATTATGAATATTCCTAC
TACTAAGGTTTATAAGAGTTTGTTTTTTTCTTTAATGTTATACTTTAAAAAGTATTATTCATTCACTGGGCAAATAATTTTTTTTTCTAGAGGAATACCT
TTCCAATTTTATAACAGTGAAGGAAGGAATGTTTTACTTAYAGAAACTGTACTGAAACTACTGTTCTATTAAGCAAGGGTTGGAGATAAGCACCCCTGTC
CCCCTTCCCTGCCCAGGCACACACATATACAGATACAGCTTATTTTATGACTGTATTGTTCTTGTGTTTCTTCTTCTAGATAAAGACATAAAGATTGATG
AAATAATTTACCTGGAGTTGCACAGTAAGCTAGTGGCCTTTGTGGATGACCATTCATAGTTCATATATTTCCAGAGACACAATACATTGATAAAATTGAA
ATAAACAGAAGCCTAAGAATTATAAGTATATATTCAGAGATATATAGACAAAAAAGTACTGTTATAAGTAAAAAGACATAGTGGGAATAGTAATTATAAT
CACATGAACTTCTGTGCCATCTCTATCTAGATCAGGGGTGTCCAGTCTTTTGGCTGTCCTGGGCCACATTGGAAGAAGAATAATTGTCTTGGGCCACACA
TAAAATATACTAATGATAGCTGATGAGCTTAAAAAAAAATAAAAATTGCAAAAAAAAAAAGTCTCATGATGTTTTAAGAAAGTTTACAAATTTGTTTTGG
GCTACATTCAGAGCTGTCCTGGACTGCATGTTGGACAAGGTTGATCTAGATGTTTATCTGTAGTCATGACCTAACTATATAATTTTAGTATGTTATACAT
GGTACCATGTATCCAGGGTAGATCCTGCCAAGAACATAAATTGTGAAAAGAAAACTCTTGGGATGCTGCTGGATTGTAATGTGTTACTCCTCTGCCCATG
AATACTGAAAATCAAGATTTGAAAGGGTACTGAATACTGAGTCAAAAGGCATGCGTTCCTAGACTTCACTTAATCACAAGCATGTCTGTATGAGCGTAGT
CATGTCATTTCACTTTGGGGTCTCTGCTTGTAAAATGAAAATGTTAGACTTGATCTTCCAGGTTCCCTTCAGCTCTTACATTCTGTGCTTCCCAAGGGCT
AGAGTATTGCATCAGGACCCAGCCTGGGGTTTGTGCTGTTTTCAAGGTCCTAAGGAACTGCATCATCCTTTAGTCCAAGGAGATAGGATACCTTATGCCA
CAGAGCCCAATAATTCAGTGAGCTGTGAGTGTTGTGAGTTGCATCTACATTGGGGACTGAGCCTAGGTTGTTTGTAGTAACACTAGGAGGACCTTAGAAT
GATGCCAGGAGATGTAATTTCTGTGATCAACTAGTTGACTACTCAAAAAGCTTGTCAGGACCCATCCAACTACAGTGTCATTCTGTCTTTGGTGTTAAAG
AATTTAGATTTATCTCCTTTTAAAGGACCTCCTTTGAATTTAAGAATTGCCATTATCTTCATAAGAATCAAAACAAATACAAAGAAAATATATTCTTGCT
GAATGTAATTTTTAAATGTTAGTGARGAATGTCTTTATATCTTAATTTTAAGGCTTTTAAAAATTAGTTTGCATTTGCTGGTTCTTTGCTGTCACCCTAA
TACTGGTTATGTTACTTTTTTGCTCAGTGCTGTGAATTGTTCATAATATCTATAGTCATCTTTTGACATTGGTAACTTCTGTTTTCTGGGTGAATTAGGA
ATTAGTATCACCAGAAGAAAAGCTAATCTGAATAATTGTTCTTTCATCATCTCGTTCATGCACAGTATTTAACCATCTGGTTTGACCACAACTTTCACAC
TAGACGAGTCTTTATAATGATAGAAATCATGACATACTTTTGATGATAGACTCCTCTGGTCTTTCCCAGGTTTTGGCTGGTATTGCCATTGCTTTGGATT
GAGGTTGTTGATGCAACAGTGGGCTCTGGGGAATGGCCACCAAGAACTGTTGGGGAATTGCAGATAAACTGTCTCCATGGGTAGCCCTCCAGGGAACTTA
GTAGTTGTCTAATGTTAATTACCTTATACCACAGTCTAATTACTAAGAGTATTGTCTGAGTCCATTCAGGCTGCTATAACAAAATGCCATAAACGTGGTG
GCATATAAACAAAAGTCCATTTCTCTCAGTTCTGGAGGCCAGGAAGCCCAAGAGCAAGGCAACAGCAGATATGGTGCCTGATGAGGCCCACTTCCTGGAA
GGTGGCCTTCATAAAAGTGGTTCATAGAAAATGTCTTCTCACTGTATCTTCACATGGTAGAAGGGGCAMATTTGCTCTCTGGGGGTCTCTTTTATAAAGT
CACTAATCTTATTCACGAGGCCTCTGCCTTCATGATCTAATGACCCCCCAAAGGCTCCCTCTTCCTCCTWCCATCAGCTTGAGGGTTAGATTTCAACATA
TGAATTTTTGGGGGATGTAAACATTCAGTCCATTGCAGGTATAAATGTTTTCAACAAGCATTTGTTGAGTATCTGTCCTTTTTCTAAGCTTTCATGTTCC
TACTAGAACACTGGATGTGGATATCCAATAGGAATATATTTAAGTCAGTATCATTATCTTTTTCTCAAAACATCTTCTACCTTTTTTACCTTCCCTTCCT
CTTCTAGTCTTACCATAGTTAATACTGATATTAACTGTTAACATCATAGTTAACCAGTCTGTCGAACTTGAACTTGAAAATTTTGAATGATCTATACCCA
CACCCGAAAAAATTACTCACATACTTAAAAATCCATGCCTTTTGTTTTGTTTTATTGCTGTTGTTTGTAATTTACTTATTTTTACCYGATACTATGTTCT
GGAAATTTTTCTACGTAGTTCATGTAGATCTGTCTTCTTCTTAATGTTTCATGGTATGGGTACATAAAATGCACGTATTATAGTTTATTTAACCATTCTT
CTGTGGGTGGACATTTACATTATTTTTTCCCTTTTGTTAGAGAATACTGAAATGAATATCCTTGAACATGTTTATTTGTATACATGTGCAAAGTATGCAG
ATGCCAAAAAGTGAGATTGCTAGGTCAAAACGAACATGCGTTTAAAATGTTGATAGATACCAACAAATTGCTTTACAAAAGTTCCTATCAGTTTGTATAT
CAGTTTTTCTAAGTCCTTTTTAAACATGGACTGGATTAGCCCGTTCTTGCATTGTTGTTAAGAAATACCTGAGTCTGGGTAATTTATAAAGAAAAGAGGG
TTAATTGGCTCATGGTTCTGCATATTTGTACAAACATGGCTTCAACATCTGCTTCCGGTGAGACCTCAGGAAGCTTACAATCATGGCRGAAGGCAAAACT
TGAGCAGGCACGTCACATGGCAAGAGTGAGAGCAAGAAAGAGAGKGGGGGGAGGTCCTAGGCTTATAAACAACCGGATCTCACCTGAACTAACTGAGCAA
GAACTCATTCATGAAAGATGCACCCCCGTGATCCAGTCATCTCCCACCAGACCTCATCTCCAATGTCGGGAATCACATTTCAACATGAGATTTGGAGGAT
AGGCATCCAAACCATATCATGGACCTAGCATACTTCTCCCAGCCTCACGTCTCTGATTTAAGTGTTCACTCATTTACTTGGGCACTGTTACTTGGGCACT
GTCAGCCCCTGTCCATGTTTGTATTCAGTATAAATTGTGTGCCGGGCACTCTGCCACATGTTGGGGATTTAGTACTGGATGAGACAGAAATGGTCCCTGC
CATCATGTAGCTTACACTTTGCCACATAGAACTTTTGCCATATGCAGACTCTTTTTATGCATTTGCAGCTACTATCCTCTCTTTCTGGTATGACTTTTTT
CCTTTTAACTTTTCTACCTAGAGAATTTTCTTTCATCCTTTTAACCAGCTTAAATTTTGCCCTCYGTCATTATCTTTATCCCTTCAGAGTTAGATAGTCC
TTCCTCAGTGCTCCATCTTGGCACTCATATGCTTTTTGTGGCTATTCCCCTGAGAAGTTTTCGTGATTTGTTTGTATATGTATGTGCCTGTGTGTGTGTG
TGTGTGTGGACACACATCTACATCTTGCATATTAGATTGTAAACTCAGTATAGACTTGGAACTATGATATGTACCTGAACACTTCCCCAGCTTACTGCCT
TCAACCCTGGAGATGCTTAATCAATGTTGATTAAGTGAATGAATAGTAAACTATAAAATGACCTTAGTTTGTACAGGGCATTGTAGGGGATTGTAGATAT
GAATAGAACTGGTCTGTCTTCAAGAACTTAACCATATAGTCAGGGAGATAAGAAACAGATGAGTAGACTGCAAGGCAGGTTGTGATAAGCTCTGTATAGG
ACTTATCAAAAATGAGTACTGGAGGAGAATTTAAAGGGAGAGAGGAATTCTCGTGAATGAGATACTCTGGTAAGTTTACAGAGGACAGGTTTTTTCTTGC
TCGTACCAGGTGTTGTGAGGAATACACATGATGGTAAGATATGGTTGCTGACTGAGAGATTATAGTCAAGTAAGGCCTTAGAGCAGGCATTGGTAAATTG
TGGCCTGCAAGCCAAATCTGGCTCTTGCCTGCTTTTATATGGTCCTTGTGCTAAGAATGATTTTTACATTTTAAAAATTGTTAAAGAATATTTTATGAAC
ATGAAAATTATATGAAATTCAAGTTTTGGTGTCYGTAATTACATTGTGTTGGAACACAGCCATGTTCCTTTGTTTACACAATAACTGACTATATTTGTAC
TCCAGCAGCAGAGAKGAGTAGTTGTAAAGGAGAATGTTTGCTTTGCAACACTTAAAATATAAAATAATTTAGTATCAAGCTCATTACAGAACCAGTTTGC
TGACTACTGGGGTAGAGAATAGGAAAGATTCAAATAGAGAAGAGAAATGACATTGATATTGGGGGTATTAGTGTGAGTTAAGAGAGTGGGACAGTGATTC
TAGCAGTCATATAGAAATTTTAGGGCTGAAGTGACGATCTAGCTTAACCCTCTTACTGTATAAAATAGGCACAAGATTGAAAATAGTCTCAAAGTCCACT
AGCTGTTAAGTGGCAGTGGAGTGCTGCTGGAGTGACTGGTACAGAAGCCTTGAGGGCTGTAGATGATAATAAGATTATTGCTGAAGAAGGGCAAGATCCG
GAATGACCTTGCCCTTGAAAAATGAGAGTTGAAGTACAAACTAAGAACAGACTTCTTTTCTCTCTCTAAATGTAATGTTTTTATTTTTCACTTGTATTTC
TAGAAGGCCTTTGAGCCCTACTTAGAGATTTTGGAAKTATACTCCACAAAAGCCAAGAATTATGTAAATGGACATTGCACCAAGTATGAGCCCTGGCAGC
TAATTGCATGGAGTGTCGTGTGGACCCTGCTGATAGTCTGGGGATATGAGTTTGTCTTCCAGCCAGAGAGTAAGTATGCTGTCTCCTCTGTAAAGGTATA
GTGGTGTGTCACTAGCCTCAAACTAATTGCTGAGAGATAGGACTAATTTATTGCCTTTTGGTTGTTTTTTTGTTTGTTTGTTTGTTTTTGAGACGGAGTC
TCCATCTGTTGCTAGGCTGGAGTGCACTGGCCTGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGTGATTCTCCTACCTCGGCCTCCCGAGTA
GCTGGGACTACAGGCACACGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTGGAGATGGGGTTTCACCATGTTGGTCAGGATGGTCTTGATCTCTTGA
CCTCGTGATCCACCCACCTCGGCCTCCCAAAGTGCTGGGATTACAAGCGTGAGCCACCGTGCCCGGCCCTGGTTTGGTTCTTATTTTTAAAATCTGTTTA
AATGTAAAGCAGTACTTTGTCTTCTGATTGGTCAAGTTATAACAGGACTCTTGTATAACTAATACTCCTTACATTGATTTTTTTTGGATTTGTAGTTCAC
GTAAAAACGCCTCAGAATTAGTCATTGTAAGGATCCACAGAAATCTCAGTATGGTTTAAACCTTTGGTACCAGTTTCTTCCCTAGAACATAATTATGTCA
CCTGGAGTTCCCAGAGCAGGAATTTATTGCTTTCATTTTGTGCTATCCTTTTCAGTAAAGATTAGGTGAAATTGGAACAGCACTTACATGGTGACCATTT
GAGTGCTTGCTATGTGCCAGGCACTGCCATCAGGCTGTGGGGATATCTGCACAAGTAGTACAGGATCTCTCTCCTCTTGGAGTTGAACTGGTATCAGGGG
ATCGTATACTTTGAGCTTCCTAGAAGTGACTCAGTGCCAGATCAACATGGGGAAGAAGAGGCCACTTCTCAGGGTGCAGAAGATGAGCAGTCTCAGTGAT
CTGCTTCTGAATCTTCCACCTTTGCTTAGGATTAAGCCCCTCTCCTGCCCACCCACCTTTTTCCCGCCTAGAAACCTGGTTGTGTGTTACCTTCCTTTTT
TTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTTTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCGACTCACTGCAAGCTCCGCCTCCC
GGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGTGTAGCTGGGACTACAGGCACGCGCCACCATGCCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGG
TTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCC
CGGCCCTACCTTCTTATGAGTTATTTTCCTCTGCAGTCTGTGCTTGGTGAGTGTTGTTAGTACCTAAACACAAGTAGTGGATTTGGTGCTGGATGTTCTA
TAACACTCCCCTGCACCTTTTCCCCACTCTTAGTAGGGTATGGGAGTTAACTTCCTTGGGATAAGAAAACAGTAACATTGAAGATAATCATTAGCTGTTT
CTCATTTGCTTGAAATTTCCCCACCACTTTGCTTCCCTGATAACACCTGTTTAAAAGGGCTCTTTAATGTGTTTTTTCTGCTTTTCTTCTCTTGTTCAAG
GAAAGTCAATTTAGAAGCCAGATTCCATTTTTATCTCTTTACCCTGCAAATAGCTTCTTAGCCATTTATGGCGCAGTAAACATTGCAAAACCTGACAACC
AAGAAGCAAGTTCCAACTGCTTAGAGTTTTTAAATTAAAGTGGAAATGAGACCTGACTCTCCTGTGTAAATCTGTAGCTCACTCCAGCTTTAAAAACCTT
GTCCTCAGTTGCTGCTCCTAGTCCTTGCAAGATTTTCTGATAAACTCTAAGAAATTAGACTGGCCGGCCCTTCCGCTGCATCTGCTCAATGGTTTGGATA
TGGATGTAGCTTGTGTCCTTCTGCTCTTGCTTATTCCTTTCCTAGGAAGTATTCAATTCAGTGAGTAAGGGGCCCATTTCAGAGGATTCTGAGGGGTAGC
AAGAAATATACTTTCTTTTTATTTTTTAACTTTTCATTAAAAAAAAATCAGTCTCTGCTTATCCTTCTATTATAATAAAATATATACAACATAAAATTTA
CCACTTTAACCATTTTTAAGTGTACAGTTAGTCCTGTGGCAGTAAGTACGTTCACATTATTGTACAGGCATCACTATTACCAGAACTTTTTCATCACYCC
ACTGGAACTCCATTTTAATAAACATCAAATAATAACTGCCCATTACTCTCTCCCGCATCCCCTGGAAACCACCATTTATTGTATCGCCTTGTTTTACAAA
TGTACTACAATTCAAAGGTGGTACATTTATGAAATAAGGCTAAGCTTAGAGATCTGAGATTTATATTTTACTTGCTATGATTAATATTAATTTTAGGTAT
TCTTTTTAAAACAAATTTTAAAATTAATTGGCAAATAAACATTGTTTATATTTATCATGTACAACATATGTTTTGAAATATGTATACATTGTGAAATGGG
TAAATTGAGCTAATTAACATGCATTACCTCCCATATTTTTCTTTTTTTGTGGTTAGGTATTTACTTCTGTTTTCAGTTCTGCAGCTCACTATGCCATACA
TTTTGCTTAGCTAATAGTAGAGACACAGCCATCTTAGGTTCTGATACTTATCTGCTTTTAGTGGTCAAAAAGGAATATGCTGGCCTCTGAGAGGCCAATT
TTCCATGAGAAAATTGTTAGTCGTAGTATACTGATGAGATATGCCATCTAAATCCTTGTGGGCTGAACTCCAAGCCATTTGAGGTTTTTTTTTTGTTTTT
TGTTTTTTGTTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGTTCAGTGGCATGATCTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCA
ATTCTCCCTGCCTCAGCCTCATGAGTAGCTGGGATTATAGGTGCCCACTATCACGCCTGCCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCGCCATG
TTGGCCAGGCTGGTTTTGAACTCCTGACCTCAGGTGATCCGCCCACCTCAACCTCCCAAAGTGCTGAGATTACAGGCCTGAGCCACCATGCCCAGCTGAG
TTATTTTGTTTCTAAAGATACAAAACAAAAGCAGTACATATTCACTATGGAAAAGTTGGACAATATGGGTATATAATAAGAACAAAATTAAAATCTTACT
ACTGAAGGATACCACTATTGTATTTCTCTGTTTCTATATCTGAATCCAGTTTGAACCATACAAAATGTAATTTTGTAAAAAAAAAATCGTCAAATGTTGA
CAATTTTATACAATTTAGCACATACACACACAGCACACTTTCATTTGGTAATTTCCAACTTGAATTTTAGACACAGATAAGAATGTCTTCCCTCCAGAGA
TCAGGGATAATTTTGATAGAATATTCATTTTTTTTAGCACTTGCTCACTTGCCATGTGTTGCTGAACAATCAAGTTATTTTTAGTTACACTGCACTAAAG
GAGTCTGAAGTCTGGACTAGTGATGAATTTTGCTGATCTTCCAACACTGAATCCCTCTTGAGGGAAGAGAGTATTTCTGGAACAAAGGATGGAGCCTGGG
GTAGAGGAGAAGTGGGCAGCGGCATGAACTGTGCTGGGGTTAGCAGCCTCTTCCTTAATTCTGCCTCTGTGATTATCAGCTCACAGTTTATTACTTTTAC
TTTAATGCTGATTTTAACTGTGGGTTGTCCATAATTCATCAACAGAAATCAGCTTTATGTCATGGAGGAAATGATAAACTCTCAGTTTCTTGTTGTGTCA
CCTTGGGTGACACCCTTAAGCTCTCTTAGCCCATTTCCTTGCAATAAAATGGACATCATAATAGCTGCTTTACCTAGTCATGGGTAATATGAGGACTGAA
TGGCATCTTTTGCATGAGTGGAATTTGTAAACTGTTAAGAACCATGCATTGTTCTTACACTGGCATTTTCTATTTTGTTAAACTTAAAATTCTTTTTTTA
AAGTAACAAATAAAAATTGTATGTTTATGATGTACAACATGAAGTTTTCMAATGTGTAAGTTGTGGAATGGCTCAATCAAACTAACGTGATTACCTCACG
TACTTTTTTTTTTTTTTTTTTTTTTTTTTYTGAGATGGAGTTTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAACCTCCG
CCTCCTGGGTTCAAGCGATTCACTTGCTTCAGCCTCCCGAGTAGCTGGGATTACAGGCGCGTGCCATCACGCCCAGCTAATTTTTGTATTTTTAGTAGAG
ACAGGGTTTCACCATGTTGGTCAGGCTGGTCTTGAACTCTGATCTCCTGATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATAACAGGCGTGAACCACC
ACACCTGGCCTCATGTACCTTTTTTAATGGTGAGAACACTTAAAATCTACTTTCTTAGCAATCTTGACGTATGCAACACATTTTTATTTACTATGTCACC
ATGATCTCTTGAACTTATTGCTTCCGTCTAACTGGAATTTTCTATCCTTTTGACCATCTCCCAGTCTTCCTTCTTCCCCTTACTCTCAATCCCACTAAAA
AATTCTAATTACTTTTCATTCTGTACCTTCTGGGGACTTTTGAGATAATCTTTTTAGGTCAGGGCCATGGGATCTTTTTATTTTTAGTTTCTTCATCTCT
GATGCTGTATTCCGTTCTTTTTACCCTGTACCATTTTTTCTCACAACTTCCACAAAATTAGTTTATTCTTTTATCCTCCACCTAGTCACATTACTATACT
TCTGGACAGCTGGTCCAGTTTGCTGATTTTTAGACTTCTTTTTACCTCATTAATTACTTCATCAAATAAGGAAGCATTTCTGAATCTGTACAGCTTTAAC
AGTTAGAAATAGTTGAATAACAAGAAGCTAAAATATCCAATATTAGATTATAGTCATTTGATGAACTATTATAACATTAAAAATATGTTTAGAAAGAATT
GTTAATAATGTAGAAAGTGCTATCAGTGAGGAGGATACAGTTATTTTACATTATACAGAATCTCAGGTATGTATTACAGTGTGTAGAACATAGGGCTAGA
AGGAAATACTCCAAAATTTAAACAAAAAGTAACCACAAACAAGTGGTTTCAGTCTCTTTGTCTTCTTATTCAGTCTGTGTCTTAGTTACCTGGTTTTGTC
CCAGGTGTTTACAGAATGTGGACTCTAGGGAGAGTTAGAAAGAGAGGGATGCAGCTGAAGCAAAAACAGCTAGCAGAGATGCAAGGCATGATGTGATAGA
TACAAAAAGGGGGTGCAGACACATCCCGTGGTTGTTGAGTGAAGAGGGAGCTCCTTCTGGCCAGGAAAGTGGGAATTTCCAGATCTCCTAGGAATGCAGT
AGAAGTTCATATTCAGTTCACACCTTGGATAAAAGCCAGGCTTAGATTCTTATAGACTCAAACAGAAAATTCCTGTGGTGCATTTGAAGCAGTATAGAAT
CCTGGGAATCCTGGACTGAAAATACAAAGACTTCAGTTAAATCTTTGCTCTATCACTGATTTTATCTGTGGCCTTGAGCAAGTTTTGATGCTTTGATCTT
GCATTGCCTTTTATGTCACTCGTAGATGGTATATAATGCCTTCTGTGCCAGCCTCAGAATGCTGTTGTCAGAGTCAGTCGAGATACATTGATTGTGAATG
CATCAGAAGGTCTATTAGTCTATTTAGATGCCATGTATTTATGATTATTATGATCGACAGGATTTGTATTCCCTATTTGTTCTATGTACTGCCTGACAGA
GTGGACTCTGGCATCTGTGATTTTTCAAACTTTTTTTTCTTTTTGTTGAGACAGGGTCTCACTGTGTTGCCCAGGCTGGTCTCACCCTCCTGTGCTCAAG
CAGTCCTCCCACCTCGGCCTCCCACAGTGCTGGGATTAGAGGTGTGAGCCACTGTGCCTGGCCAGCATCCACAATTTTGAGGGCATTTGTAGGTCCAGAA
AATGTTAGAATCTGTGTTGGATGAGAGGCTGGACATAGATCCAAGAAAAACAAAACTAAAAACAGGCTGCCCATTAGTCTTGGGGGAAGGAAGAGAAATG
TTGAACATCTAGAAACCTTAGGAAGGTCAAGAATTCTGGAACACGTATATCATTTGACCTAGTAGTTCTGCTTCTGGGAGTTTATCCTGTAGGTGTACTT
GTAGTTTATCCTGTAGGTGTGCAGTATGGTGTGTGTTACAAGGTTATTTCAGCATGATTTGTAATAGCAAATATTAGAAGCAACCTATATATCCATCATT
AAGGGGCAGGTTAAATAAATTTTGGCACATCCATAAAATGGAATACTCTGCAGCTATAAAAATGAATGAGGATGCACTGATCTTTAAGATAATACTCCTA
AGTGGAAAAACAAGGTCTACTACAGTGCTAGAGTGTGCTACTTTTTGTGCAAAAAAAGGGAGACAAATAAGAATATAGCTTTACTGTTGCACGTGTATGC
ATAAGGAAACTCAGGGGGGTAGCATGAGGGTTGGGGGGATACGTTTGAGAGAGGGAAGCTTCACTGCTTTACTGTGTGTGTTATGTGTTTGTATTTTTAA
AATTTTGAACCATGTAAATATAGTACTTATTCACAAACTTAAATTTAAAAGTTTTTTTWAAATTTTTTAAACGAAAGAAACTCTTTGCAATTGGAAGGCA
AGTGAGGTGGAAGACACATTGAATGGTTGCTATATGCCAGGTCATATCCATGGAAATTTATTTGAATAAGAGAACCATTTGTTTCTTTTAGGTTTATGGT
CAAGGTTTAAAAAGAAATGTTTTAAGCTCACCAGGAAGATGCCCATTATTGGTCGTAAGGTAAGTAGAATCTGTGTATGTCATTTTTTCCCCTCTTGATA
ATCATACCTCTTTCTTTCTATTTACTAAACCTAATATTCTCAAAGTGGAGGGGTGATTTTGTCTCTTACCTCCAGGGGACACTTGGCAGCATTTGGAGAC
ATTTTTGGTGGTCACAGCTTGGATGGAGGGGTGCTCTTGGCATGTAATGGATCGTGTCCAGAAATGCTGCTAAACACTAAACATCCTACAGTGTACAGGG
CAGCCCCCSCCCACCCACCAAACACAGAATTATCTGGCTGGAAATGTCAAAATGGCCAAGGTTGAGAACCCTGACTTAACCCTTTCTCCAAYGTAACTGG
CCAAAGGAGAGATGAGAAGCCTGTTAAGGAAGTAAGAATTTGAGAAAACCTGACTGTATTGTTAGGTGCTTTGGAACAACATGCAGCTGGCTGACTTTAG
GTATTTATCTAGGAGTTGGGTGCTTACATGGTTTAGGTCAGGGGTCGGCAAATGTTTTCTATAAAGGGCTAGATATGAAACATTTTGGGCTCTGTAGGCC
ATATCATTTCTGTTGCAACTCCTCACCTCTGCCCTTGCAGAGGGACAGCAGCAAGAGGTTCAGGAATGAGCCTGGCTATATTCCAGTGAAACTTTCTTTA
CGAATTCAGGTAGGCCTTTGTTGGTTCCTGGCTGTAGTTTGCTGATCCCAAGTTGCACAGCGCTGTCTCTTGCTGTTTGCAATTTTCTGTATTGTAGTAT
GTCCCCTTTGTTATGTCCTCTTGGCCCTCATCCATGTTGAGGATAAGGTAGTCACCTCTGTGCGTCTCCCACAGGTTATCCCAGATGAAGATAAACAGGG
CAGGCCACTTGGCAAGCTCTAAGGAAGGCATATGAGTCCTTGGAATCTTCATCTCCTCCAGTGCCCTCCCCTGACCCCCCTTTGGTCTTTCCCAACTTTA
CCTGCCTTTAAGTTTTCTTCTACTTTTGGCTTTCAGTTCCCTTTCCTGGCTATACCAGGGTTTGTTTGCCAACCCCTGACCTAAAGTTGGCCAGTTATCT
TTAACCTTTGGCTGAAATCCATTCAGATCGCTGTGCTAACTCTCCCAGAGATAGGTATCTTCAGGTTCATTTCCTGTAGGAGAGTGGGAGCAATAACAGG
TGGTGAAGGGAAATGTGAGCATATAGGCTTCTGTTTGCTCTCCAAATTATATTAATCCCTAAAAGTAAATCTAGTCCTTACAGAGTATAAGGGGTGGGGA
CAGGGAAGGTATTGTAGAAGATGGACTGTAGCACAAAGGAGATTAGGATTTCCCCTTATCTCCTGAATTTTTTTTTCTTCTTTTCGTTCAGTTTTCAGAC
TTTGAGACAAATAAATGCTAGGGTTCCAGAACCCACTCTTAAACTTAGAAAGTAACAGAATTGGAAGATCCTTAGCTTGCCAAGGACTATCCAATCACTC
TCCATTTTTCAGAAACAGATTCTGAGGCTTAGATACAAAAAVTTACATGTGTGTAKGTGTGTGTGTGTGTGTGTGTGYGCGCGCRCGCGTGTGTGTATAC
CTCTGTCATTTATTCACTTAACACATGCTTATTGAGCCACCTGCTCAGTGTCAAGTACTTTTCTGGGTGCTGGGGATATGGTGGTGAACAAGACCAAATC
CTTCCTCTCATGGAACTTACATTTTAATAGGAAAGACAGAAAATAAAGAAGTAAACAAATATGTGGAATTTTATTTTGAAATAAATGCTTTGAAGAAATT
AAAATTGGGTAACGTAATACAGGCTTTGAGGCAAGAATTGGGGGTAAGGAAGTACTTGTGCTTTCTAATATACCTCTCTGTCACTTTTTGTCTGTTTTAT
GGCAATAGCATACTCTATGTATGGAAGCTCAGCTTTCATAGCCTGTTCTGTTGCATGAGTCGCCATTTATGTGAATTAATTTTTTAATTTACAACTTAAA
AAATGTCTTCACATSCATAGCATGCCCAGGCATTGCCCAGGAGTGTAGCCTCTGCTCCCTGCCAGTGTGGGCCTCTTAGACTATTGCAGACATGCTCGAA
AGGAGTGGCTTTCCCTGTGGTTTCACTGAGGGCCATATCTAAGAAGATCTTCTTGTATTCTAATTATCCTTGGCTAGAGATGAGAAAATCTTAGTGTGGA
GTGAGTTCTGGYGTTCTTTAACAAATATATTGCTGAAACAATAGCACTGTGACAAATCGTGACATGTAGCTTCTCTCCCCAAACCTACTACCCAAGAGCC
TTTTGCTATAAGCAGCAGCCCCTGCCCTTCTGCCTCCTTACTCTGCTATTTTTTTTCCCTCAGCACTTTTTGTTACCTGTCTTACTATTTTCTGTCTCTC
CTGCTGAAAATAAACTTCATGAGGACAGGAGGTTTTTTTTCCTGTGTGCTCCATTGCCTAAGTTTGTTTTGTTCACTATGTGTCCCTGGCCTGCATATTT
GTGAATATGCAGTGAATATGAATGTGAATATGTAAGTGAATAAAAGAAAACAGCTCAGAAGCTGTGGCTTTGAGGATGGAAAAGAAGGGAACCATAGTTG
ATAAACTACCTAGCAGAAAGGACCTTAGTTCCTTTTAATATTTTGGGGTCAGACAGTGCAAGCTGTCGACAGCAGCTTAAGGAGAYACATTAGAGTCTTC
CTGGCAGTTCTTAGAATGCCTTGTGMTAGTGTTGAATGGSACCTCCAAATTCCTAGTGTGCTGCGTGTATGTCTGTTGAAGGAGCTCATCACTTGCACAA
GGACCAGAATCACTTTTACTGCAGCATGGCCAGTTTTSTGGCCACTGTTCCTAGTTAYACCTTTGATTCTTTTACACACACACTGTAGCTGCTGCCAAGG
CAGGATCAAAGTCCAAATACTGCCCTCAAGGATGTGCTGACTTTAGCAATGCCAACCAAGTGAAGCAGCAGTGATGTCAATGTGGCAGAGAAAAGGGTTA
TGGGGAAATTGGGTGCAACTTTTTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGAATGGAGTACAGTGGTGTGATCTTGGCTCACT
GCAACCTCCACCTCCTGGGTTCAAGTGATTCTCATGCCTCAGCCTCCCAAGTAGCTGGGATTACAAATGCCTGCTACCATGCCTGGCTAATTTTTGTATT
TTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTGTAATGATCTGCCCACCTCGGCTTCCTGAAGAGCTGTGATAATA
GGTGTAAGCCACCGCGACCGGCTGAGTGCATCTTGACCTTTAGAGAGAAGCTTCGCTTTTCAAATTTTTAAGAGGCTATTGTACATGCCAGAAAGTAGCT
GATCAGTCAGAATATCACCATATATCTTTAGGAAAAATGTTAGTTTAGTTACTTGTGCGGTGCCTAGCATTGAGCAGTTGCTTGACTGTCATAATAATTC
TGCTGTCTCTACYGTACTCTTGCATCTGGATAACTTTGTCTTTCTTACCTTTGGAGATTCAAGACAAGTTGAACAAGACCAAGGATGATATTAGCAAGAA
CATGTCATTCCTGAARGTGGACAAAGAGTATGTGAAAGCTTTACCCTCCCAGGGTCTGAGCTCATCTGCTGTTTTGGAGAAACTTAAGGAGTACAGCTCT
ATGGGTATGATGCTTGGCATATACATGCTCTCTACTTCCTTAAAGAGACAGGTTTTGTCATTGTTTAATGTTCACATAGGTTAAGAATAACTCATCATTG
GTTAATACATGTTTAGGAGGGCCTACTCTCTGTTTCACAGGTTGAATTTCCTATTTTTAAAATTATGTTTAGATTCATCCTTCATCCATAAAGCAAGCAA
ATCTCAGAGACAGTGGAACTTGGCTTTTATTTCCTTTTGTAAGCATGAATAAAACAAATATATTTGTGTTTAAGAAGAGAGARTATAAGATATGTAATAC
AAATGAAATACAGATCCATGTAAAAATGTGAAATCTGCATAAAGGCACAAAAGAAAATAAGTCACTATAATTCCACTATCAAAGATAAACAGATGGTGTC
TATCTTTATGCATGTAGCTATAGGTAGAGCTGTCTATATAGTTTACATCTATCTATATATGTATATCTGTCTGTTTCTGAGAATGCTAATAGTGTTTGTC
TGTGTGTATACACATGTATGCATGAGCACATATGGGATGGATAAATAGACCAAATAGCTTGGTGCTTAAGAGCGTAACCCTGGAACCAGCCTGGATTCAT
AYCTTGGTTTGCCACTTAAAGTATGCCTTTGGCGAGTTACTTCTGTATGTCACAGTTCCTGTATCTCTACAATGGGGATAGTAATAGTAGTACAGTACTT
ACCTGAAAAGATGATTATGGGGATTAAATGAGATCATACATGTATAAATGTTTTATAGTGCCTGGCATATAGTAAGGATTCAGTAAATGTTAAACATTAT
TGCTATTATTAACTCAAACAGATTTATGTTTGTTACTGATTAAGATCATATTACAAGTACTTTTTAAAAAGAAGCTTTTTAGTTTGATATATTTACAGAA
AAGTAGCAAAGATGATAGAGATTTCCCTATACCCAGCTTCTCCTGATGTTAACATCCTCTATAACCATGGTACGTTTATCAAAACTAAAAAATTAACATT
GGTACAGTGCTATTAACTACACTACAAATTCTATTTCTAGTTCATCAGGGTTTTTTTTTGTTTTGCTATGTTTTGTTTTAAACTAATGTTCTTTTTTCTA
TTCTAGGAGCCAATCCAGGAGCCATGTTGCATTTTGACAAATACCCTTATTTTTTATTTTTTGAGACAGAGTCTCACTGTGTTGCCCAGGCTGGAATGCA
GTGGTGTGATCTCAGCTCACTGCAACTTCCACCTTCCAGGCTTAAGCAATTCTCGTGCCTCAGCCTCCCAAGTAGCTGAGATTACAGGCGTGCGGCACCA
TACCCAGCTAATTTTTTGTGTTTTTAGTAGAGATAAGATTTCACCATGTTGCCCAGGTTGGTCTCGAACTCCTGAACTCAGGTGATCTGCCCACCTTGGC
CTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACTGTGCTCGGCCTTGACAAATACYCTTACAATTTCTAAGTGACATGTGTTGAGGTCTTGACATTGAA
TAGTACAAAATTTGATATAGTCTAGGATGTAGATGAATAAAGCAGTGGTTAGCACTCTAAAACCTGGTGTTAAAGATTTCCATGATTATGAGACCTGGTT
GCCGCCATCATATTGCCTTCTCTTTAATGTTTAAGTCACTGTCCATTGCTGTATTCTCTAGCATCAGTAAAAGAACAGGAAATGAAACCAGTTATCTTAT
TTTTGAAAGGCTGGTGACCACTGGTCTGAAGCTGTGTATAGTACAGAGCAGTGTCCTCTAAGGAAAGAGTGAAAGTCAAACGGGCAGCAAGCCAGAGCTT
GGCAGATTGCTGTAAGAATGAGTTTGTCTGTATATTTACCACTTAGTTTTCTGTTCTCAAGAGCTGAAGATCTTTGCTTTGGAGAGCCCTTGGCTCCATG
CAGTTTTTAGTTGGTGTGTTTCCGTAATAGCTTTCTCACTACCCACTTTCAATAGGGCACAGCTGCATTGTAGCACAAGGACCTGAGACACCCATATCAA
CAAATTTGTGGGTAAAATGAAGAATGTCTCGGGGAGAGAGGAAAGTGGAAAGTCAGATCTTATATTCTACTCAGGAACTTTACTTTTCTTTCCACACTGG
GATAAAGGAGGTTTATCCCAATGTTGACTGTGTTCCTGATCTTGAATATGCTACAGCGTGTGCTGCTGGAAGCAGGTAACTAGTTTTATGTGGGTTTCCA
GGCTTGGCTTAAGGGAGCCGGCGTCTGAGACCGGGGTGCTCATGGTTTATACCTCATTGTGGTTTGTTTGCTGGTTTCATCTCTGATGATAGTGTGCTGA
AATTTCACACTTTTCATTTTGCTTTCTTCTGCCAACTCTGCTCATAATAGTTCTCAAAATTCCTAGGACTGGATAGGAAAGGAGAGAAGAAGGAAGCTAT
TGCAGAAAAAGGCCACTCCAAAGCCATATAGAGAACAAAAAATAAGTATAGACAAAGGCAAATGTTCCTGCTGTTAGAAGGCAGTTGAGGATGAGGACAA
CATTATTATCAGATTGCCTTTATTGTAGCTAAATGCTATTAATATCTTTTTCACATTGCTGATAATAATGATTTTTCATCTTTATTTTATTGTGCTAACT
CTATTGAACTTTTTTCTTGATTTGCTATAAGAATGCTGTTGGGTTTCCWCTCAACATTTTTTTCTTTTGTATCCAGAGGAGTTTCTTCCTGTTTCTTCTT
TATCAGAACCTGTCTTCCCAGAGATTCTTGCTTACTGACCAGTGACCTTACCTTTCTCTGCAGACGCCTTCTGGCAAGAGGGGAGAGCCTCTGGAACAGT
GTACAGTGGGGAGGAGAAGCTCACTGAGCTCCTTGTGAAGGTGAGTGTCCAGTTCTTGAGGGAAGCCTGTGAGGTCTGTGCCAGTTTACATGACCTCCTT
TTTTTCCCTTACTTTTGTAATTAGAAAAATTACTTAAGGAAAGCTTATTGGTACAATAAAACCATAAAAGTTTCTCTTCACCCAAACATAGGCGAATATG
TATAATATTATCAAAGACATCTTCAGTCTGTAAAATAGTAAAATGTTATTTATGTTTTCAGTCTTTGCAGATGTCCTGTCTAGAAGGCAGATTACTAGGG
AAGGTAGTCCTGTCAGATGAGATTTTTGTGGTGAGACAGATTTTGTTTGATAAGAAGAGATAAGATAGGGAAACTCTTTCATAATTTTCTCAAATCATGT
GACCCAAGATGAGCAGTGGTCTCATGTATACTTCAAATAATTCTCATTCTTAGCTTCTTCCATTTCTAATCAAATTTATTTTTATTTTATTTTATTATTT
TTACAGACAAAGTCTCACTCTGTCACACAGGCTGGAGTGGAGTGGTGTAATCATGGCTCACTTCAGCCTTGACCTCTTTGGCTCAAGTGATCCTCCCACC
TCAGCCTCCTGAGTAGTTGGGACTACAGGCGTGCATCATGACACCCAGCTAATTTTTGTATTTTTTTGTTGGAGATGGGGTCTCACTCTGTTGCCCAGGT
TGGTCTTCAACTCCCAGCCTCAAGTGATCCTCCTGCCTTGGCCTCTGAAAGTGTTGAGATTACAGCTGTGAACCACTGCACTCGGCCCTCATATTTATTT
TTGAAACTCCACTTCATCATATAAAATTGGGGTTGTACTGATGATCTCTAAGGTCTTTGTGTTTGATTATTATAAATATGAAACTGTCCCTTACTAAATA
AATATGGCAGGTTTTGCATAAGTTGGTGTAATGCTCTGATCTTCTGTGCTTAAAATCTTTCAGTAGCTTCCCATTATCTACAGGATGAAACTCAGGTTCT
TATGCAGCAGAGAATACAAGTTTCTTCATGAGCCAGCTCCCACTTATTTTTTCTTAACTACTTCTCTTYATTTCCCACATAAACACTAATCCTGCCTTTT
CTCTTTACTAAATGTGTCATGCTTTTACGTTGTTTTCCTTCCCTTCCATCATTCCTCTTGTTCCAAATGATGATTCCTACTCATCTCTCAAAGTTCCACT
CAGCAGACACCTCTAGATCACTCAGGATGTTAGTTGTTCCCTCTTCAGGGTCCCTTAGCACTCTGTACACACACCTGATATTGCAGTCGATAACAACAGC
TGCTTTGTGCCAGACACTCTACTAAGTGCTTCACATGCATTATGTTATTTAATTATTGCTAGAACACTAGAAGATAGCTACCATAACAACTTCTGCGTAT
GAAGAAACAACCTTAGATTATGTGACCTACACAGCTGAAAGTAATAGGCAAAGCTTAGACTTCCTCCTGGGTCGGTTTGGTGTTATAGTCTGCGCTTTTA
ACCATATTTATACTTCTTTCCTCATCACATTGTAAAATTATTTATTTACATGTCTGTCTCCTCTGCTATGTTTTGATCTTTTGGTTGAGGAATATATCTT
ATCTTTTTTTCCAGTTTATATTGTTGTGCCTAATACTTAGAAACTGTTGTTTAGTGCATGATTCTTTGTCCTGTATAGTGTAATAGTTTTGATTTCACAT
CTGCTTGCATTTTTTTGCAGGCTTATGGAGATTTTGCATGGAGTAACCCCCTGCATCCAGATATCTTCCCAGGACTACGCAAGATAGAGGCAGAAATYGT
GAGGATAGCTTGTTCCCTGTTCAATGGGGGACCAGATTCGTGTGGATGTGTAAGTATATGCAAGGGGCATCCAATAGCCTTATTTTTTAGGTTAAAATAG
AAGAGTTTTTAATAAATATTAATTATATTTTAAAAAATAAAAAATATTAAAAATATTTTACTACACAAGAAATATTTGATCATTGTAGAAAGGTCATTTT
ACTACACAAGGAATATTTGATCATTGTAGAAAGATCCTAATTAACTGCAGTTTTAAATGTTACTTRTAATTTTGTAACCTAGACAATGTCAACATTTTGG
TATATATTCTTCTAGATATTTTTATTTTCACCTTTTTATTTTGAAAAACTTTGAACCTACATTGAGTTGCTAGGATGGCTTAAAGAACACCTTAGATTCA
CTAAATGTAAATATGTTGCCATATCTGCTCTCTACACTCTTTCCCTCCCTACCCGCTTCTTCCCTCATCCCCCACCTGCATACCTACCATTCCCCTATTT
ATCTGTGTATACTTTTGTTGTTCCATCCAGCAGTGTTTTTAGTGTACTTCTGGTTTTACCTGAGCCAAAGTTTAATTTATTATTTTGCTGTAAACTGAAC
CTCATTTAGTTGCTATTAGGCATAAAGAAAGGGGGAGGACATCATTATAYTTAAAGAAACACATGAGGATTCTTTGTTTTACCTGTTCTTTCAAGTAGAT
GGTTGTTAGTTTTCGTAAACTATGATAGATAAACTTCTGTTTAGATCTGTTGTCTTTAGAAAAAACGAAATCTCAGGTTATGTAGGATAGATAGATTTAA
CTCAATATGCTGCAATGGTGTCCTAGAGGTGCTAATCCTATCAGATACTCATCATATTTGCAGTCATTATAAAGACTGCAGATTTAATTATTGAAGGGCC
CATTCGAAGAGCACCTAATTTAGTTTCTTTTTTTTTTTCCAGGAAGCATTGTTTTTGTTTTGTTTTTCTAATATGTTGGCGCCATGAAAATCATCATGTT
CAAATATTAGTAGTAATAAAGGTGATATGCCTGGCATTCATTTTCAAAGCAAAATACTGAAACTGTTAAAAACAGAACCACCCATAATACAGCAGCAGTT
TCCCTTAGAGTACTGAGGTGAACAGGGTGACTTTCAGAGGGAAGATGATAATGTACTTACAGTATATTCTCCTATGCCATTAGACTCTTGAAGAACTTGT
AAGAGGCCAGAGTGAATAGCCACAGAACAGTTTGGCCTTATCTGGTAAATTTGAAGATACATATATCTTATGACCCAGAAATTCTGCTACTAGGACATAC
TCTAGAAAAATTAGTACACATATATATCAGGATATATGGACATTAATATTCATAGCAATGTTATTCATGATAGCTAAAAACTGGAAGTAATTCAAATGCC
TATCCACAGGACACAGATGAATAAATTGTGGAATGCTGTGTGTGCCTCAATCCATTGTAGCTCTTATTCAGATTGATGTACAAATTGCCTCATCCATCTT
TGGCCAGTGGAAACATCATATTGGCTCCTAGGTCCATTTACATGACCCAAGTAATCTTTGAAAGCCTTTTTTCTCTTTCTTTCCTTTTTTTTTTTTTTTT
GACGAAATATTCCAGGTTCAGGTTCACTTTGTCCATTTCCTGCTCCAGGCCTTCAATCAGCCATTTATCCAAGGAGCCCTGGTTCATTTAAAACTAGGTA
AAATAATTACATAGTTCCAAAATCACATTTATGGAACAAGACAGATTAAAAAAAAAAAGTTAACCAGAATGCAGTCCAGAGAGACAAAGAAATAGAAGGT
ATGAAAGAGAGGCTAAGAGATGCAAAGGATAGGATGAGAAGGCTAACACACATCTAACTGGTGTTTGAGAGCAGCCAGAGAAAATAGATTACCTACAAAG
GCATAACTGTTAGGACAACTGATACTCAATAGCAACGATGGCTGGGGCAGTTGGGGGTAGATGAAAGATTGGCTGTAAATTGAAAATTGCTGGAGCCTGG
TGATAAGTAGTGAGAGGTCACAGCGTGCTGGCAGTCCTCACAGCCCTCGCTCGCTCTCGGCGCCTCCTCTGCCTGGGCTCCCACTTTGGCGGCACTTGAG
GAGCTCTTCAGCCCACCGCTGCACTGTAGGAGCCCCTTTCTGGGCTGGCCAAGGTCGGAGCCGGCTCCCTCAGCTTGCAGGGAGGTGTGGAGGGAGAGGC
GTGAGCCGGAACCAGGGCTGCGCGCAGCGCTTGCGGGCCAGCTAGAGTTCCCGGTGAGCATGGGCTTGGCGGGCCCCGCACTCGGAGCAGCCGGCCGGCC
CTGCCGGCCCCGGGCAATGAGGGGCTTAGCACCCAGCCAGCAGCTGCGGAGGGGGTTCTAGGTCCCCCAGTAGTGCCGGCCTACCGGCACTGCGCTCGAT
TTCTCGCTGGGCCTTAGCTGCCTTCCCCTGGGGCAGGGCTCGGGACCTGCAGCCCGCCATGCCTGAGCCTCCCACCCCCTCCGTGGGCTCCTGTGTGGCC
CCAGCCTCCTTGACGAGCGCCACTCCCTGCTCCACGGCGCCCAGTCCCATCGACCACCCAAGGGCTGAGGAGTGCAGGCGCACAGCGCAGGACTGGCAGG
CAGCTCCAGTCCTGCAGGCAGCTCCACCCGCAGCCCCGGTGCGGGATCCACTGGGTGAAGCCAGCTGGGCTCCTGAGTCTGGTGGAGCCTTGGAGAACCT
TTATGTGTAGCTCAGGGATTGTAAATACACCAATCGGCACTCTGTATCTAGCTCAAGGTTTGTAAACACACCAATCAGCACCCTGTGTCTAGCTCAGGGT
TTCTGAGTGCACCAATCGACACTCTGTATCTCGCTGCTCTGGTGGGGGCTTGGAGAACCTTTGTGTGGATACTCTGTATCTAACTAATCTGATGGGGACG
TGGAGAACCTTTGTGTCTAGCTCAGGGATTGTAAACGCACCAATCAGCGCCCTGACAAAACAGACCACTTGGCTCTACCAATCAGCAGGATGTGGGTGGG
GCCAGATAAGAGAATAAAAGCAGGCTGCCAGAGCAAGCAGTGGCAACACGCTCGGGTCCCCTTCCACACTGTGGAAGCTTTGTTCTTTCGCTCTTTGCAA
TAAATCTTGCTACTGCTCACTCTTTGGGTCCACGCTGCTTTTATGAGCTGTGACACTCACCACGAAGGTCTGCAGCTTCACTCCTGAAGCCAGTGAGACC
ACGAGCCCACCGGGAGGAACGAACAACTCCGGACGCGCTGCCTTAAGAGCTGTAACACTCACTGTGAAGGTCTGCAGCTTCACTCCTGAGCCAGCGAGAC
CACGAACGCACCAGAAGGAAGAAATTCCGGACACATCCGAACATCAGAAGGAACAAACTCCAGACGTGCTACCTTAAGAGCTGTAACACTCACCGCGAGG
GTCCGCGGCTTCATTCTTGAAGTCAGTGAGACCAAGAACCCACCAATTCCGGACACAGTAGAAGCCCATTGGGCTTTTMAATTTTATTTACTCTAATTTC
ATTCTAAAGAATTCTGTTTTGTAGTTCTCCTTTTATTTTATTATTATTTTTTGAGACAGGGTGTCACTCTGTTGCTCAGGCCAGAGTGTAGTGGTGCCAT
CTCAGCTCACTGCAGCCTTGACCTCTCTGGGCTCAAGCGACCCTCCCACCTCAGCCCCCTTGAGTAGCTGGGACTACAGGCATGCACCACCATGCCTCGC
TAATWTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGCCCAGGCTGGTSTTGAACTCCCAAGCTGAAGTGATCTGCCTGCCTTGGCTTCTCAAAG
TGCTGGGATTACAGGCGTAAGCCACCACGCTTGGCCGTCTTTTTTTTKTTTTTTTTTTTTTAATCTGCTTGGTTGTTTTTTATAGTCCTTTTCCTTGGCT
TAACTTTTGTTTACTTAAATATATTACACATAAATATGTTGTATTCTGTGTCTGWTAATTCCAATATCCATGAGCCTTACCTGATTCTGCTGGCTTCAGT
CATGGTTCCTTGTTTCCTTATATTTGTGATTTTATTTTATTTATTTATTTTTTTATGAGCCACTCATTTTTCTGGGAACCTAGGGATTCTTTGAGGCCTA
GATTGAAGTTAAGTCTGGAAGTTCTCTTCTTCCAGAGAAGATTTGTCRTACCTTTTTGAGTTGCTGGGGATTGCCACCACACTGGAACCAAATTAAGTCA
AATCCTTAGCTTGTCATTTTGTACCACAGAGGTAGTGTGAATTCTGACCACAAACTCACATAAAGGCTTCCTTGTTACACATTCTTGAAAGATTGCTATT
TTTCTTTACTTGAACATCAGGGTTGAGAAAAACAGTTTTTCTTTTCTCTTTTGCAGTAGTGGGATTTATTTCTTGTACACTGTAGAGTGTGGTCTTTTTC
CAGCCATCTCCTGTTGGACTCCTTATCTTGGGCAGTCTCTAATGTATCTTCTGGTCCATCCTTTGCTCATCTGTCAGTGTAGGAGTTTGAAGTCTGAAGG
GTCTGGTGCCACCTCAGGGTGAAAGCTAGTTTTGCCACTCACTTATCTTGCAGGATTCTTGATTTTGCTTTGTTTGGGGGTTTAGCAAGTTTCTTTMTGT
TAGGTTAGTGATAGGTTTAAATTTTTTTTTTTTGATGTTTTATCAAGTTTTTTAGTTATTTCAGTTAGGAAGGTTGCTCAAGGTATATAATATTGCTAGA
AATAGAAGTTCCATAATTGTTTTTTCCATGTKACAGACCTTCGTCTRTTTGAAAGCCCCTTTCTCCCTGAATCTTCTCTGCCCCACATTTTTCTGGGTTA
CTCCGCTTTTCATATGATTTCACAGACTTCCAACCATCGCAGTCATTCTCTGTATGACTTTTGGTTGCCTCTGGCCAGATTGAACACAGTTCTCCACATT
TGGAGTGGCATTGATCTTTCAATCTCTGTCTTTTTTAAATCTGGGTTCAATAAACTTATTTCAGACCTTTTCCTTGAAGTCAGCATTTTTATTCTTGGCA
ATGTTTATTTTATTCCTTGCTGTTCCTAATGTCTTTGTTAGTTCTGTATGGATGCTACTGGCTTTGTTTTTTTAGGTCTGTAGCTCATTCTTTTTGTTTC
ATGGTCTAGGTTTTGAACTCTTTGTTTTCTTAAATTCATGTTCTTATGATATTTTCCTAWAGTGAGAAAGTTATAAGGGGTTTCCTTCATCCCTTAGCTT
GTTTCCTTCTGTGTTGGGTTTTTATTTTGCATGCTACATACTACCTTTTCCCCTGCCTTTTAGTTTGTTTGCATAGTTTCCTTGCCATTTTCTCTCATCT
TGGGGTGGCATTCTCCAGACATTGTTMTTATGCACTGTGGGTGCTTCCTGTCTGAGACCATTTGGCTGGGGACAAAGCTCAGCCAAAGCTTTGTTCTATC
TGTATTAGAATAACCAGGTCTATTCTGAGATTCTCTTCAAAGTTACCTATCAGAGTTCACTCTCTTATTTGGAAGAGATAATATACCCTTTGAGCTCTGA
TTATTTAATTCACTGAAGTCTTCACTCTAAAGAGCCAATCCTGATGTTCTCTCTTCATTTTGCTCATTTCTCCCTAGCAGCCATGTTTACCACTCACTCA
TGAGAAGAAGAAGAAAATAAGGAAACCCCCTCAGCTTGCCTCTGCAGATTTGGGGGTATAAAGGAAAATTCTCAGGATTTTGCTGACTTTGCGGTACAGT
TTCAAGGGCTGATTAGAAACTAGTGTTTTGCTTACTTCTGCTCTCTGCTGTTTCACTGTTTCTTTTTTTTTTTTGATTGCCAATATTTGAAGTTTATTGC
CTAGATTATCTCTCTTTCCTTGTTTGGTTGTTGTTATTGTAGATTTTGACTCTTTTCTCTCCCTGCACTCACCCTTTTTTTTTTTCTTCCCATCTTACTC
CTGAAGTCCAGGCCTAGGGGTTTTTTGCATTGCTGCAATTAAACCATATCTCTATTATTTTGATCTTCAGCACGTGTGAGGGATCAGAAGAAGGATAGAG
TCTGATTCCCAGGCTCTTCTAATATTTAGACTTTTATAAAATAACTAATCAGCACTGGTATTGTCTTTTTCCCTCTCCCACTCTGTCTCCCCCACTCCTC
CCTTAGCTTCTTACTTCTCTCTCTGGATGAGCTGCTTCTAGTGAAGAAAGAGTTCACTGTTCAGAGGTGGGAAGCCAGAAGATAAAACCAAATGGCTGGG
CAGTCTTTAGGTTATTCCTAGCTAAGAGTTAAGAGTTGTAAGCTCTCTCATTCTTTGTTCTTCAGCCTTAAACTATCTTTCCTTCTATTAACTTTATTTG
TCTCAGTTACAATGATAGAGGTAACTTCACATACTAAAAGAAATTAGGTTACCATGTGAAACATTCTTCTTGGCTTGTGCTAATGTTATCAGATCCAAAC
AGCATCTGAAAGAAAATTTTCCAAGTAGATGTTGTTCTCTTGTTTTCTGAAATACATATCATATGTTAAAGTGAGAGTTTTTATACATGTTGAAAGAAGT
TGAATGACATAACAAATAGTTACTGAGGCCTCCATTTTCTTACTTCACAGTTAAAATTCCTGTTTCTCTTTGGGTATAGGAGGTAGAAAGAAGTGGGAGA
GTAATAGCATTTTAAAACACAGAATCAAAAATACATATTAAAAGTAGAACTTAGGCCCAGGCACAGTGACTCACGCCTGTAGTCCCAGCACCATGGGAGG
CTGAGGCAAGTGGATCGCTCGAGCCCAGGAATTCGAGACCAGCCTGGGCAACTAGGTGAAACCCTGTCTCTACAAAAAATACAAAAGTTAGCCAGGCATG
GTGGGGTGTGCCTGTARTCCCAGCTACTTTGGGGGATGAGGTGGGAGGATCTCTTAGGCCTGGGAGGTGGAGATTGCAGTGAGCCGAGATCACGCCATGG
CACTCCAGTCTAGGTGAAAGATTGAGACCCCATCTCAAAAAAAAACAAAAAAGAAAAAAGTAGAATTTAGGTATTCCTACTTTTACAGTCAAAAGTCCAC
TGGTGTTTGCATAACAATGATGTTTTGACTAGTTATTGGACTAAAAGTAGGACACATGAAGCAGGTGACTAGGAATTTGGAAATATTATTGCTTAGGTCA
TTACTGGACCTTACGAAGAGATTGTTGCACTGGTGACTTGGACTTTGCTGGTCCCTCCCCGACTCTTCACAGCTGGCTTGACGACTCTTGTGACATTCTG
AGGTTTTATGCTAAACCACAGGACATGCTGCTGATTTGCAGAGCTGACCTCAGCTGTAAGCACTTTGTCTTCTGCAGCGTAGAAATGTAGTGACCTACAA
GTGTCCCATGCCCAAGTTGGGTGCATTATTTTKTGGTGAYGGTCACATGTTTCATAAAGACTTCCTGAGTCAAAAAATGACTTTTCTCAGTTCATCTTCC
ATATAACTCCTGGCCACAGGGATTTTGTATCCAATGGTATTTTTGTTCTATGTGTGGATATTATTTTAGCAAAGTTCAGTGGTCACTTTCTCTGATTCCA
TCTTGTATTAAGCTACACTAAATATGAAAACGTAGAAAGTTTTACTTCTTATCAACAGATGCTAATGTATGACATTGAGTGAAACACTTTAATTCCTCAA
GGGCTCAGTTTTCTCACCTGTAAATTGAAAAAACCTTTCAAAGATTGTATGAATCTTCAGAGATGGTAAGTCTAAGAAGTTGTCCAACTAGTTTAGTATT
GTGGCTTTTTGTTTGTTTTGGAATGATTCATTCTCATATATTATTTTTTAAAAAAATAGCCAGGTGGCTATGACATGCCTGTGTTGGTCAAGGTTTACTG
AGAGTCAAGTCAGGCATTAAGAAATGTGAAGGCCAGGTGCAGTGGCTCACACCTGTAATCCCAGCTCTTTGGGAGGCTGAGGTGGGCAGATCACTTGAGG
CCAGGAGCTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTGCTAAAAATACAAAAATTAGGTGGGCATGGTGGTGGGCGCCTGTAATCCGAGC
TACTCGGGTAACTATGGCAGGAGAATCGCTTGAACCAGGAGGCAAAGGCTGCAGTGAGCCGAGATCATGCCATGGCACTCCAGCCTGGGCAACAGAGTGA
GACTCTGTCTCAAAAAAAAAAAAAAAATGGATTGAGGGTTTGTTAGGTGTCAGCCACTATGTCAGGTGCTAGGAATTTGTCATGAACAGACTGGTCCCTA
CTTTCATGAATTTATAGTCCAGTGAGGGAAATAAGATGAATAAAAAGACCCCTACGTCTTTTTGTTTGAACTCTGGTAAAGAAATGTGTTTATCAGAGGG
GCTAGGCCAAACTTTAGGAAAACATTTCACTTCACTTAAAAAAAATTAGGATTTTTGTTTTATTTCAGATAAGGCAACAAACTTCCATCAAGTAGAAACT
TCTGCTTTTCTCTGTCTTTCAAACTTGTCAAAATCAGCAGTTTACTTTGTTAAATCTGAATGTCTCTTTTTAGTGTATTGCACAGTTTACTAGAATTGTA
ATCACAATTTCACATTCTTTAACAGGTATTGAAAATTTAAATTAAAATTCTGATATTTTTGAATGGCATAAAATGCCCTATCTTATCTGAAAATTGAAAA
ATTAATACAGAAATGTAAATGGATTGTGAATAGGTGGGATCTGGCCAAGTGTGCATTTGTCTAGGCAGTGCTGAGTTTCTGCTCATTATTTAGTAGCTTT
CATTCTTCACCTGAGCCAAAATTAGGCTTAGCCAATAAAGCCAAATTTTCCTTCTGGAAGACATGGCAGTGTCTGCCTTGCAGCATGCATCCAAGACCTT
ATCTGTTTCTGTATCAAACATTGTCAAGATCAGGGCATGAAGAGCCRGGGCATTCCTGACTCCCCCAACAGATGGCATCTCTTCTTTATTATAGGTGACT
TCTGGGGGAACAGAAAGCATACTGATGGCCTGCAAAGCATATCGGGATCTGGCCTTTGAGAAGGGGATCAAAACTCCAGAAATGTATGTATGTGTGGCTG
TTTTGTCCCCTTTTGGATTTGTCTGTCTGGAGTACAGCTTTATGAAACTAAAGCAGATAATCCATTTTCCTGCTGCTTCTCTTCCTCTGGTAATTCTGGT
CCCCTTTCCCCCTGTCCTAGCCCCTCTGCCCTTATCCTTTTACATTCAGTAAAATTCTAAATGGATCAGCCAGTTATTTTTAAAGATCATTCCCATCCCG
CCCCACCCCCAGATCATGCATAGTATATACTACAAGCAAAAATAAGATCCTTTTTCCAAAAGTGAGAGTTTGAGGACTACATCTTTGAATCCTGTGATAT
TTGCAAATTATTTGGAGCCTAAAGAAACCTCTCTAGGTACTTTAGTTCTGCTTACCTTAGAAAGTTACTTAATATTATAGGCTGCCTCAGGGTACTCTCT
GGGAAAACTTTAGTGTGAGGGCTGTTTTCTGGGAGGAAGAATAAAAATATCTTTTTGAGATTTACCCACATTGCCTTCCTTGGACATAAATTTGATGTTT
AGTTACATTATTTTTTCCTAGACTGTCCCCTTGTACAGTATGTTTATCCTACATCTTAATATTTTTACTGCAAGTATTACTTGACAATGGGGATTTATTG
CATATGGTCTCATGCTGTGGTTCATATGTAGCATAAGAGAATAAACCAGGCTGCCATTCTTTCTTCATATGTCGATCTTTGGTGCTTGGTACTTCCTCAG
TAGTAGAGATTTTTCTCCTTAGAGGGAACAGATTCGTTGTATGAATGGAGTAGTTGAGGAAAGTCTAAAGCAAATACCCGTGACCTCATTTTCTCTTTCA
ACACTATTTGAAATACTATTTCCAAATGTGTAGGAGAAATGGGGATTTTAGTTTCTTCAGGTTTGTTGTCTTTCAGAGTTGGAAGGGGCCACTGAGCTGA
TGCTTGGCCGCTGTGTGAACATTTCTGCTTGAACATGTGTTGTGCCGGGAAGCCTTCTTCTCATTCTCACTGAGGTGCCTGTCTTTGGTAGGCAACCGTT
AGCCAGCTCTGCCTTGTGTTGCTCTCATCCAAAGTCTCTGTCCCCCARCTTTCCGCCTGCCAGCCTAGCTTTATGCTTTGGATCCCTCACTGTGGGATCA
CTTCTGAGTCCTCTTCCTATTGCCAGAATGATTTCCTAAATAGGAGGGAAGTTTCTGCAGAAAATCAGTTGGCCTCTTTTTGGGTGTGCTTAAAAAGAAA
AGTAGAGCAGTCTAAACACTTAAATTTTTAATTTGGGGAAAAATAATCAGAACTTACTCCCGGTAATTTAGATTAGCTGCTAATGGTGTTTTCTATTATT
TTGGCCTGAGTTACATTATTCTCCTCTTCCCTGTCATTTAGTGTGGCTCCCCAAAGTGCYCATGCTGCATTTAACAAAGCAGCCAGTTACTTTGGGATGA
AGATTGTGCGGGTCCCATTGACGAAGATGATGGAGGTGGATGTGCGGGTGAGTCCCTCTGGAGGGCCCACTGTCTRTGCTGGGCCCTGACAGCAGAAGGG
CCCTCCTGTTGACTAGCCGTTTCCAGTCAGATGGGTCTGACTGCCTTTGATTGTGGCAGCCAGAATATGAAAAACTGCATTGATAGTGGTGATTGACTGC
AGCTTCAGTCTTTTCATAGGTTCATGAATTCTGAAAGGGAGGTGATCTAGTCACTAACTTGGGACTTGAGAGACACTGGTTTTGCGGTCAGCGCCATCAC
TTTTTCTTTCTTTTCTCTATTTGTAAAATGAACATGGACTCACTTCCCCTAAGACTCTTACCATGGCCCGGGCATGGTGGCTCACATCTGTAATCCCAGC
ACTTTGGGAAGCCGAGGAGGGAGGATTACTTGAACCCTTGAGCCCAGGAGTTTGCGACCAGTCTGAGCAACATAGTGAGACCCCATCTCTACACAAAATT
TAAAAAAGTAGCTGGACATGGTGGCATGCACCTGTAGTCCTAGCTACTCGGGAGGCTGGGGTGGGAGGATCACTTGAGCCCCAGGAGGTTGATGCTGCAG
TGAGCTGTGTTCACACCACTGTACTCCAGCTTGGGTGACAGAGCAAGACCCTGTCTCAAAAAAAAAAAAAAGACTCTCACTGTGGTTTAGATTGGCTTAA
ATTAATACCATTGTCATTATGATAGTGATTATTTTTATGCCTCACATTTGTGTAGAGGAGTTTTCTAGTTTCAGTGTTCTGTCAGAATCCCATTTGAGCT
TTATGACATTCCAGAGAGGTTGATGAAGCTGTTATATTATTGTAGTTCACAGATAAGGAACAGACTGAAGTAGCATACTCAGGGTTTCACTGCTGGTACG
TTGTGGGGCTGGGGCTCACATTTGGCTCTTTGGCCTCTTAGCTCAATATTATTTTCGCCCCCACAGCGATTCTGTTCTTATTTTGTGCTCTCAGACTATT
CTCCAAATGGACTTACCTGGAGTCACCTGTGTCCTGTCACCGTGGTGGGATGCAGTCTTCTCCCAGTTGGAGTGGTGAAGGAGGGGGTACTGGTGGAACT
GGAACTCTAAGCTAGCAGCCCAAATTGCTCTTGGCAGCAGAAGAGAAGAGTAATTGTGACATAGATTCTCATTTTCCTTTAAACTTTAAATCCCTAGGCA
ATGAGAAGAGCTATCTCCAGGAACACTGCCATGCTCGTCTGTTCTACCCCACAGTTTCCTCATGGTGTAATAGATCCTGTCCCTGAAGTGGCCAAGGTAT
ATGAGAGAAATGGGCTGCTAAGGCAGGCAAATGGATATTTTAAAACAAAGCCTAATGGGGCAGTACTTGGCAAATAGAAGCGATTTTTTTTTTGTTTTTG
ACCACAGTAGTGATAAGTAGCTCTCATCAGCCCTAGGGGAAGCCCTGCAGCTCAGTTGCAAGCCTTTAAAAGTTGCTAGTCTCTGCTGTGGGGGAAGATA
GTACAAGGCTGAGGCCTTTTAAACTGGAAATTCTGAAATAGGATTGCCTTCTAGATTGAGATCTGGAAATAATCTGCATGTAGGAATGTGCCCACCAAAA
GGGTGATATTCCACATGCTGCCCCTCAGCRCCTCCCTTTCCCTCACGCCTCATCCTGCAGTGACTGAGGCAGGACCTTTCCCTTGTGCGAGAGGCAGCCT
AAATCAGAGCTCTACTCATTTCCTGCTTGATACCGCAGAGCGTTTGAGGTCATGCATATTTAAATATAAAATTGATACCATATTTCAGATGAATTATTTT
GAAGGGAAAATACATTTGAAAGATAAATTTTGTTGGGAATGTTAAAAATAGCCATTTTTTAAAAACATGGGAGGCATAATACAAAATAGCCTTGTGTTTA
TAGCCCATCTTTCCACCCATGTCTTGCAGTTTTTATTATAGGGCTATAAAGGAAATTCTCTTATGTTCTTTGTTTTTTGGAACAAGCTGGCTGTCAAATA
CAAAATACCCCTTCATGTYGACGCTTGTCTGGGAGGCTTCCTCATCGTCTTTATGGAGAAAGCAGGATACCCACTGGAGCACCCATTTGATTTCCGGGTG
AAAGGTGTAACCAGCATTTCAGCTGACACCCATAAGGTGAGCTAAGGAGGAGATCAAGTGTTACCAGTTGATTATTTTGACTATTATTGATAAAATAAAT
TGGTAGCTTCCCYGCAAAGTATAAAATTAACTAYAGAATTCTCATCAGATGCTTGTTTTAAACTCTCTCTTTGCCGTCACCAGATCAGCTGGTTCAGGTG
ATGGGGTATAGTGGTAGAGGTGACAAGCAGTAGTGAAAATGAACCTGTTACCTTTATCTCAAATTGGCTAAGAGAATTTCTGTATCCACTGACTGTGTGT
AACTAGAACATGCTAGTGTAGTGGCCCTTGTTAAAAAAGCTCCCTGAAGCCTTGAGCTGATTTGAGGTGGAGGGTAGAGGAGTGTGAGGGTTGGTAGTGG
AGTTCCCATGCTGGTAGATAACATTAGAGCTGCTGTGCAACTGGGCTCCTGAGCGTACATGACGGGAAAATGTTGACGGAAGAGTCCTTTGGAAAATGGG
AAGAACCTGTGTGCTCAGGAACATTCAGCATTTGAGATGGCCACGCCTGCCACCCTTGGTGGACTGAGACAAAGTCTAGATCAGTTGATAACGCTATTGA
ATATACATCCAGATGTGGAAGAAGTATTAGCAGCCTCAGGAATGTGTACCTTGTTTTGATTGCATTTTCAGAGCTTGTTTTAAACTCAAGTATATKAAAG
ACTTGTTTTTCAAAATCGGTGTGATCTGCAGCCGATTTTCAGTCAGCATCTGTTTTTTCCTTACCATCCAGATAGCTCCTGTGTCCTTTTCCCATAACCA
TCCATTTCTGGATGGTTCAGGTAATGAAATTAGTTCCACGTTAGTTTTAATAAGAGTTAATTAGGGGGTCAGATGTTCTATAAGGAAACCAGTTACATAG
TTAATTTTAAAGCTGGATTAAGTAGCTTTTAGTTTCTGAGCACCATTATGTTCTCATAAGCATAATATTCTTAGTAATACTAAGCAAAAAAAGATGGGAA
GGGGGTCAGATGGTGATTTTAACTTGAAGTGACAAATTCCATCCTTTCCTGGCTTCCATTGCAAACTTACCCTTGCTTTCATCCTGACATATGGTCTCCA
GAGAAATATTTTAAATAAGGTAAACCACATGCTGGGCAAGAGAGGGAGTAAACCGATTAACTGGGCGCTGTTCTTCCCTGGGTCTCAGATTCCTCATTCC
TAACAGAGAGAATTTAAACTCCATCCCTTAAGTTCCTACTATCCTTTAGCATTTTAAGTTTGAATCCTTAATGTGAGTGGGAAACATAACAGAGAAACTG
AGAAATAAATAGGATTTCCTTTGCATGATGAGAGTTCTGGGACAAGGTCTGCCAGACAGAACTATACTCTCACTTTTCTTGTCTGCTACTTCTTCCACAG
TATGGCTATGCCCCAAAAGGCTCATCATTGGTGTTGTATAGTGACAAGAAGTACAGGAACTATCAGTTCTTCGTCGATACAGATTGGCAGGGTGGCATCT
ATGCTTCCCCAACCATCGCAGGCTCACGGCCTGGTGGCATTAGCGCAGCCTGTTGGGCTGCCTTGATGCACTTCGGTGAGAACGGCTATGTTGAAGCTAC
CAAACAGATCATCAAAACTGCTCGCTTCCTCAAGTCAGAGTATGTGTGGAAGACTGGGGTTCTGCCTTGTCTATTGCTTTTTTGTCCTAGTAGGCTCAAG
GCACCTGCCTGGCTAAGTATCCATAGCCCTAGCCCACCTGTTGTCTCCTGCGATATAGAGGGCTTAGGGCAGCAGCTTAGGGCTTAGGCCAGACCAGCTG
GCCTGGGAGAAGAAGCTCCCTTTCTCTGCCCTGACTTTTGGAGGGTCTTTGAGACGGGGGCCTCATTTGTAGTTTATCTCATCTCTATGGATGTCTTAAT
AACTGGCAGCTCTTACCCTAAGGCTAATGTACAATTTAATGGTTAGGACAGTGATTCCCAAACTTGAGCATGCATTCTAATCACCTGAAGGACTTGTTAA
AACACAGGTAGCTGGGCCCACCCCTAGAGTTTCTGATTCAGTGGAACTGGGATGGGCTCTAAAAATTTCCATTTCTGGAGATACTGATGCTACTGCTCCA
GGAATCATACTTGAAGAATCATTGGAATAAGAAAATAATTGGAAATGGGCCAGAAGGAATGAGGAAAGGAGGGCAATGAAATCTTGGGTTAAGCCAAGGC
CAGAACAGGCTGCATGCTTTGTCTAATGTATCTGTTAACATCTTATCTGCCCATCTCTCTATGTGTCACTTGGATTGGGGAGGCTCTTTAAGTATATTGA
GGGGGAAGGAAAGCTGCCTGCAGGCATTTCTCATTTGAGAAAGATCCTTGGCCAGGCACGGTGGCTCCGGCCTGTAATCCCAGCACTTTGGGAGGCCAAG
GCAAAAGGATCGCTTCAGCTCAGGAATTAAAGACCAACCGGAGCAACATAGTGAGACATTATCTCTACAACAAATTTAAAAATTAGCCATGAGGCYGGGC
GCGGTGACTCATCCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCCAGAGTTCAAGACCAGCCTGACCAACAGGGAGAACC
CCGTYTCTACTAAAAATACAAAATTAGCCGGGYGTGGTGGCGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGG
AGGCAGAGGTTGCGGTGAGTTGAGATGGCACCATTGCACTCAAGCCTGGGCAACAAGAACGAAACTCCATCTCAAAAATAAAAAATAAATAAAAATAAAA
ATTAGCCACATGTGGTGGTGTGCACCTTTGGTCCCAGCTACACAGGAGGCTTAAGGCAAGAGGACTGCTTGAACAGCCCAGGAATTTGAGGTTACAGTGA
GCTATGATCACACCACTGCACTCTAGCCTGGGTGACAGAGCAAGACCCTGTCTCAAATAAATAAGCAAACAAATAAATAAAAATTAGATATATATAAAAG
GTCCTCCTATAGCTCTGATAGGGCCATTTATTAAGACCTGCTATACCATTTCTTGSTTTAGGGATTACATATGACTTTTTAGAACTGTGGAGATGGGCAG
ATTACTTTTCCAGAAATTTTTTTAGTACATCTTTCATGCCTCAGAAGCAYCTAGGGGAATATAATTGGGAGTTGGGTAGACAGGTTCGAAGTCAGTGATT
GAGTCATTAGATCTAGATGGGGTTTGGGCCTTGGAATTCCATTTTTATTGTTCCATCTATGATTCTGATCTCAGTAAGAACCACTGATCCAGTGTAGCCC
TCTTCTTTTTTGAAGATGAGAAGACTAAAGCCCAAAGGGTTAGATTGCATTCATTATAAGGAAGACTTTGAATGATTAAAGAGATAGTGACCAGGGGATT
GTATGTGACTGAATTTACTTTTTCTTCCTTCATTTATTTTTTTGTTTTAAGACTGGAAAATATCAAAGGCATCTTTGTTTTTGGGAATCCCCAATTGTCA
GTCATTGCTCTGGGATCCCGTGATTTTGACATCTACCGACTATCAAACCTGATGACTGCTAAGGGGTGGAACTTGAACCAGTTGCAGTTCCCACCCAGGT
AAGCTTGAAGAAGCCTCTTTCCCTTATTTTGCTCCATGATTTTGGAAGAACTTGGGTGGTACAGTAACCTGAAGTATAGAGTTTGACTGCTAGAGGCTAG
CACGTTAGTAGCAACTGTAGTATATAAAGGATTTCTCTCTTGCCACCTGGAATTATTAGATACAAAGAACAAGACCATTAGCTTTAAACTCTGGCAGAAT
TAGGTGACAGCCTCCTAGACCAGTGGTTGGTCATGAGGTKTTTCTCTCAGTCTCTAGCCTTTCTACTCTCCAATCCATCTTGTACACAGCCATCAAATTG
CTCTTATAAAATACTTGTTACCTGGCTAATATTTAGTTCAAGAYCTTCCTGGGGGTCTCTAATCATTCAGGCCTGCTACTGCCTTCTTTATTAGACTTTT
CTAACCTAATCTTCCATGATGCCTTTGAGTAAATGCACCACTCCAACTGAGTACAGGTCTGTTCATGTCCTCTGTGTACAGCTTAGCCTTCCACACGTTG
GTGCATTGCCAGTCCCATCTGGACTATCTTTTTCCCTCTTCACAATTCCAGTAAACCCCACTAAATTCCTCCAGGGCGAGGTAGAATTTCTTCTGTGCCC
TGAAGTCCTTTAAGACCCCAGCCATGTGGCCCTGTCCCCATGAGAGCACATGGGGGCTGATTATCTAAGATAAAAGTGTCTCATTGATGGTGACGTGGTT
GAAGGAATGGTGGTGGAATTTGTGAGGGGATGGGTGGGACAAAGCAGCCAACACTGTTCATCCTCTTAGCATGGTTCTCAGTCATGCCGAGAAGCTCTGA
GGCCAGCCCATGCCTGACACCCCAAGCATGAGAGAGCCGAGATTCCCAGGACTAGGAACAACTTGGATGACTACACTTGTCAGAAATATTGTGAAAGGGC
AACCAGGAAATTCCCGTATTTGGGGCTGCATCATTTTAGAACATTTTTTCTTTCTTCAAGGTTCATCTCTCTCTGTCTCTTCTTTCCTAGTATTCATTTC
TGCATCACATTACTACACGCCCGGAAACGAGTAGCTATACAATTCCTAAAGGACATTCGAGAATCTGTCACTCAAATCATGAAGAATCCTAAAGCGAAGA
CCACAGGAATGGTAGGGACACTTGGAGTTTTTTTTCTTCTCTKGGAAATTTAGGTGTTGGTGGAGAGTTTGAAGGAATCATATGACCCGGAGTCTGTTCC
TGCCTCTGCCCCTTTGCCACAGACATCTTTTATTTGTTGACTGGAGCTGATGATCTCTGCATCACCCACCCCTTAGGGTTGCTGAAGTCTCAAATGAGAT
ACACTATAAAGTACCTTGTAAGTTAGAGACTTCTGTATAAAAGCAGCTGGTGGTAGTGTCCATTTGAAAAGAAAATTTTGTCACAGGAAAGATAGTAAAC
ATGTTTTTTCTGGAATTTTCTTAGGCTAGTCCCTTTATGCAGAAAGGCAGACTGGAAAGTCCCTGTGAAAAATTGACTATGCCAGCTGTTTTTCTGATAG
AATGATGGGATGCCTTAGGTGGAAATGGGGTAGGGCAGTGCACATGCGAAGCTAGGACTCGGGGAGAAGGGGCTCATTGCTGCAGTTTTATTCTTGCTTT
TGGACCTGGCCTCACTAATAATGTCTCTTTCTTTGGATTTGTAGGGTGCCATCTATGGCATGGCCCAGACAACTGTTGACAGGAATATGGTTGCAGAATT
GTCCTCAGTCTTCTTGGACAGCTTGTACAGCACCGACACTGTCACCCAGGGCAGCCAGATGAATGGTTCTCCAAAACCCCACTGAACTTGGACCCTTTCT
AGTCTCAAGGGGATTCCAGCCTTCAGAAGGTTCTTGGGATATGGAACAGGCCGTGCACAACTTTGACATCTGGTCTTGCTCCATAGAGCACAACTCAAGA
TAGACCATGAGACAGCTTGAGCCTCAGGATTCTTGTTCTTCCTCTTATCTTCCTTTTGTGGTTTTTAATTTGAAGACCCCAGAGAATTCCATTACATAAT
GATTTTGCCCTTGTTATAAATGTTACCCTAGGAATTGTTTTAACCATTTCCTTTTCTAAACTCTCTAGCTTTCAACTTTACTTAAACATTGTGTGGTAGC
TCTGACCTGTCCTGATTCTTTAGAGAAGCTGGGGTACAGTTTATGAGATAGCTAGAGCTTCTTTGTTATCTCAGGCAGGAGGCGTTTACATAACAGATGT
TTCCTCAGCTGGGTGTGAGGTATACTCTAAGCAGGAGGCTTTTTCAGCCTTCTCTCTCTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAATTTTGCTCT
TTTGCCCAGTCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCTCCACCCACTGGGTTCAAGCGATTCTTCTGCCTCAGCCTCCCGAGTAGCTGGG
ATTACCGGCACCCACCACCACGCCTGGCTAATTTTTCAATTTTCTTTTTCAGTAGAGACGGGTTCACCGTGTTGGCCAGGCTGGTCTTGAACTCCTGACC
TCAGGTGATACCCGCCCCCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCTGGCCCTGTCTCTCTTAAGAGTAGGTTCATT
GTCTGTCTTAGAGTCACTTCTATTGCAACTCATTTTCTTTTTCCAGGGCACAGATCGACCAAGCTGCCGTTCCCTATTCTGCAGGACAGGACTATTCTAG
CATACCTGCTTCGTCCACCCAGGCAGGGTTTGGGGTGGTCTCTTCTGTGCCTGCAGTCCCCATTTGACACTTGGTTGCCACCATCTTTGGAGATTATTGT
TTGGAATGATGCTTCCATTGGCTTTTTCTTGTTACCATGGACTAGGAAGAAAACATGGTTTCCAAATAATCTGGGAGCTTTTGGCCATGGTGCCGCCTTC
CTGAATTGGCAGTGGTCAGAGCACACCTGAACCCTATCCTGGGCTGGTGATGAGCAGAAATCAGACCTTTTTCTATGCTTTTTTGAATATCAGAGTAGGA
TGAACACCCAGATTCAAATATGTCACCAAAGTTGGTGGTGGTCCTTCCCTGCACCCTTGCGTTAAGCCATTATGTAATGAAAATGTGTTTGCTTGAAGGA
ACAGCTCAAAGCACCTTCACAAGTTGCCTTGACTTACCCTAGGTGGGTGTGAAAGAGCACCCGTAGCAAGGAAAATTTTCTCTATTAGTGTGTTCTTCTG
CCTCTTCCCCCTTGATTCAGCTTTCAGAGGTACTATGGCAGTTTTGCCTCAGGTGCTGAACATTTCTCAGCCCTGGCTAAAAGGGAGCAGCACAGGGAGA
GAAACAGGATAGGAAAGCAGAATGGCGAGCAGCCTATGGCCCAGGGCCTGTAATCCCTTCCCAAGACTAGCTGCTCAGGGTGGTGCAGGGACAGGACCAG
ACCCTGCGCCTATTTCCTGCCTTCTTTCCCCTATAGGGAACTCTGTAGGCTGAGCCACTGTCCTGCTCTTATGACATTATATCTTGTGCCTTTCTCCTCA
GCAGTGAGCAGTGAGCTACTCCTGGCCCAGGCCCTAGGGGAAATGGATCAGTCTTTGAGGTTTCTATTTGGGGAGGGGAGTACTTAAGATGAGTCAAAAG
ACACTTTCCTCTGTTCCATTCCCCATCTCAGGGACTCCTGAATATTCAGCCTCTCCAGGCTGGTGTCTTCTAGTTTCCCCCACTGGGAATGCTGGCTGGG
AGAGCCATGACTACCAGACTTTTCCTCAGGCTCCTTGGCATGTTAGTCTGAATTGTTCTTGAGCACTGTACTACTGACCCAACAACTGTGACTAGCTGGC
CACRCCATTCAGGGCTGGTGTGGCATTTATGTGTGTGTGTGTGTGTGTGTGTTTTTCCTGTTTGCCCAGCAGTGCATTGTGGGTTCCAAGAGTGGGTAGT
GTGTGTATGTGTGTGTGTCAGAGGGAGACCTGGCAGGCACCTCTTTGAGAGTAGCTGTGGTCAGAGCTGTTTGGTCAGTGCATTATGTTGAATGAGGTCC
AGGAACCCAGAGCCACCCAGCAGACACCACTGTGGCTTGCCAGCTGCCAAGATGGAGAAGCATGTGCCCCTGTAGAGCGTCTCCCCAGAACCAGACCCCG
AGCCACTCGCTTCCTCTGTGCTGTGACAACATTGGTGCCAGGGGAGATGGTGTTTTTCAAAGGGACCTACTGTAGCCACTTTAATTTACAATTAAGAGCC
TTAGTTTGACTTAACACTTTTGTAGGCTTTTCATTGTGTATTTTTGTGTATGTGTGCATATAGCAGCTACTCTGTAGCAGAGGTGGGTAGAGACACTTAA
TAGTATCATGTYGCATGCAGATGTCACATCGGCCTCTGCAAAAACTGTACTGTCTTGTTTCTGCATTAGACTTAAGTAGTCATGTGAATATACTGCTATG
TCACTTTTAATATTACGAGTTTTATACTTGGAAAATGGTACTTGCTTCTTTTAAATCTCTGTCTTCTCTAACCTCCCCCTTCCCATTTCARTGCTCCCTT
CCTAATTTCAGCAATAATCTCAAAAAGCAATTAAATAGTTAAATGACCCTAATTGTAATTACTGTGGATGGTTGCATTCATTTGATTACTTGGGCACACA
CGAGATGACAAATGGGGCAGTGGCCATGCTTGAATGGGCTCCTGGTGAGAGATTGCCCCCTGGTGGTGAAACAATCGTGTGTGCCCACTGATACCAAGAC
CAATGAAAGAGACACAGTTAAGCAGCAATCCATCTCATTTCCAGGCACTTCAATAGGTCGCTGATTGGTCCTTGCACCAGCAGTGGTAGTCGTACCTATT
TCAGAGAGGTCTGAAATTCAGGTTCTTAGTTTGCCAGGGACAGGCCCTATCTTATATTTTTTTCCATCTTCATCATCCACTTCTGCTTACAGTTTGCTGC
TTACAATAACTTAATGATGGATTGAGTTATCTGGGTGGTCTCTAGCCATCTGGGCAGTGTGGTTCTGTCTAACCAAAGGGCATTGGCCTCAAACCCTGCA
TTTGGTTTAGGGGCTAACAGAGCTCCTCAGATAATCTTCACACACATGTAACTGCTGGAGATCTTATTCTATTATGAATAAGAAACGAGAAGTTTTTCCA
AAGTGTTAGTCAGGATCTGAAGGCTGTCATTCAGATAACCCAGCTTTTCCTTTTGGCTTTTAGCCCATTCAGACTTTGCCAGAGTCAAGCCAAGGATTGC
TTTTTTGCTACAGTTTTCTGCCAAATGGCCTAGTTCCTGAGTACCTGGAAACCAGAGAGAAAGAGGATCCAGGATGTACTTGGATGAGGAGGCCTGGCTT
ATCTAGGAAGTCGTGTCTGGGGTGCTTATTGCTGCTCCATACAGCTGTACGTCAGCCCCTTGGCCTTCTCTGTAGGTTCTTGGCAGCAATGAGCAGCTTT
CACTCAGTGACACAAGTAATTACTGAGTCCTAATTTGATAGCCACCAACTGTACCTGGGTAGGCAAAGTCAGATTTTTGAGAACCTTTTTCCTGATTTGA
AGTTTTAATTACCTTATTTTCTTTTATGCTTTCCTCTGTCTTGTAATCTTTTCTCTTCTTAATATCCTTCCCTATAATTTCAATTATTTGGATTAATTTT
AGAATAAACCTATTTATTTCTAAAAAAAAAAAGAAAAGAAAGTGTTACCTGTGTCTTTGTCTCACATGAATGTGCTTCATACAACTGTAGTGCTGCCAAG
GTTGGCTTTATTTTTTGGAGACAAGGTTTCACTGTCACCCAGGCTAGAGGGCAATGGCATGATCATCACTCACTGTAGCCTTGACTTCCTGGGCTCAAGT
GATCCTCCCACCTCAGCCTCCCGAGTAGCTGGGACCACAGGTGTGTGCCACCATGCCTGGCTAATTTTTCTGTATATTCTGTAGAGACAGAGTTTCTCTA
CATTGCCCAGCCTAGTCTCTAACTCCTGAGCTCAAATGATCCTCCCGCCTTGGCCTCCCAAAGTGTTGGAAATACAGGCATGAGCTGTCCCTGCATCGGG
TGAACATTTTTCAACCCTTGACCCATGAAAATAAGCAGAGGCAGGAATGTAACATAACAGCATAGTCCATACCTCCGCATCTGGCGTCTTCTGTCCTTCA
GTCCTCCAGTCATCAGATCAAAGCACACTTGGAAAATTTTAAGTCAGAAGTGGAGCAGATGGGAGACCACTGTCTGAATCTCGTTTGCCATCAATATAGG
TATTGATAATCCTTTACTAGCATATATGCTAGGAACGGGGTCCTGCTAATCCCTCTTGTGAACAATACGCTTATTTCTCAACCTCCAGCCTCTGCCCCTT
TCCTGGCCTTTGCTGGGGGACCAACTCATTCAGACTGAGTTGTGACATGGCTAGATTCCTGTTCCAAGTGACCCCGGCATTTACAAGTCAGCTTAGTACT
TGAGTTAGGAGACACAGGTGAGAACTATTAGGAAGAAGGCTTCCCAGTCTCTGCATAGTGACATATGTGAGGTAAAATTTGTGTGGCATTCTCGTGGGGG
TAGAGATGAGGCTGCTCTTAGTGCCCCCTTCTTCATGACAGCGTGGGAATATTCTGTCCTAGAGAGTTCCTGGCTGGGGAACTGACTGTGCAAACCATCT
CTTAACTGCTCCAGTAATAAATAGCCTGCCAGGTCCTAAGCTGCCTGTGTCTTCTCTCTTGTGGAGTAAACCAGGCAAGCCCTAAGAACTTTGCTAAGAT
TTTAAGAAACTGAAGAGACCATCAGGATTTGGGATCTGCCATATCTGATATGATAGGCCTGTGTATTATGATTCTCCAGAGAAACAGAACCAATACACAC
AAAGAGATTTCTTATAAGGAATTGGCTCATGTGATTATGGAGGCTGACAAGTCCCAAGATCTGTAGTTGGCAAGCTGGAGAACCAGGAAAGCAGATGGTA
TTGTTGCACACCGGAGGCTTGTAGCCTTGAGACCTAAGGAGAGTGGATGTTTCAGTTTAAGTCCGAAAGCAGGAAAAGACCAATGTCCCACCTCAAGGCA
GTCAGGCAGGAGGACTTCCCTTTTATTTGGAAGAGGGTCAGCCCTTTTTAGCCCTTTTTTTCTGTACAGGCCTTCACCTGGTTGAATGAGGCCACCCATG
TTAGGGAAGACAGTCGGCTTTACTCAGTCTACTGATTCAAATGTTATCCTCATTCAGAAACACCCTCACAGACACACCCGGAATGTTTGACCAAATGCCT
GGGCACCCCATGGCCCAATCAAGTTGACACCTAACATTAGCCATCACAGCCAGGAAGAAAATATAGGTTGAGTATCCCTTATCTGAAAGGTGTGAGACCA
GAAGTGTTTCAGATTTTGGATTTTGGAATATTTGCATTATACTGACAAGTTGAGCATCTCTAATCTGAAAATCAGAAATCTAAAATGATCCAATGAGTAT
TTCCTTTGGGCATCATGTTGGCATTCAAAAAGTTTCAGATTTTGGATTTCCAATTTTCAAATTAGGGATGTTCAACCTGTAATATGGCCCCAGACTGCCT
TTCTAGACATAGGTTCCACAATGCATATAATACCTGTGCCCTTCACACCCTTATCTGTGTTCATGGTGTTCTCTCAGCCATCTCTGCCTCCCAAGAATCC
TACCCAGGTCTTCAAGGCATAACTCAAAGCCTCCAGATTTGCCCTTTTCACCATTAATCACTTGCGTTCCCTTTAGCTCATTTCTTATCCTGCCACCTAG
CATTAATTCACTCTAGTAATAGTTAATTAGTACTAGTTAATTGGTAATTGGTAATAGTTAATTGTGTTCCTGTTTGATGATAATCAAATGGTATCCCCTA
GATGATAATGAATCTGAAGGCAAGGTGGTCTGGTCCCTGTCATTTTCCAGTACCTTGAACAGAGGAAGTGCCTAGCACAGAGGAAGTGCTTTCATTTAAA
TGCCTATTGACTCCAATTTGGATTGACCTGTGGAAAAGAAGTTTCTAGAGCCTGAGACCAAGTGATATAATAGTTTTATTTGAGACATAAAAACACATGT
GTTTCTATTACATAGTGTGGGGTTTAGGGTCCTGGTTTCTAAGACAAGACTTTATTTCACCCTGTATCACAGCTTCCTGGGAAATGAATTAGGGAGCAAG
AGACGGCCTGGCAAGAAAATCATTATTGTTGCTGGGAAGTTGCAAAGAAAGGGGAGAGTTTATTCAAATTAGTGTAACAGAGCCCCCAGGATGAAGAGAG
TGGTGCAGGGAAAAGGTCTAAATTCCTGGTGTTGGTGGGGACACTGGCACATCCCACAGCAAGGACTCAGCCCTCAACGGCGGCGGCTGGGTCTTGGGAG
GGGAGTGGTGGGAGGGTAAGGGCTCCTCAGCTCCCTCCCTGGACTCCCAGTTCAGTCACCCCTTCCCCCGGAAGAATTCAAAGAGGAAGGGCAGGGTCTA
TGTCATGGACACTGCTACTTGTTCGATGAAGCTGGCCAGGTTTATGTCCCGTTCTGAAAGGCCGGCACACTCATGGGTGCTCAGCGTGATGTGGACCTGA
AATGAAACCAGAAATTCTGCTTCCACTGACTTCACTTAAGAACAGGAGGGAGTCACTAGCTGCTGGGCTCAGCCCTGCTAGGAGCTCCAGAATAGCAGCT
GGCCAGTACGATCTCTCCTGGGGACTCCTTCCTGACATGTCTGTAACAACATCTTCTACATCTCCCCTTTGCTGTCTCTCAAAAATAATCATGACTTCAG
CTATAGAATAAAAGCTTAATATCTGAATGTCAAGAGCAACCTAAAAGCTAAAGACAAAACCAAAAACCAATGCCAACTCCTAAACACTATCCATTCATAG
ACGACCTCTTCCACCCTTACTGTTTTTATAAACAGAGACCAGCAGAGCTTTTGGCACATGGTAGACATTTAATGACTGTTTCTATTCATTAAGCAAATAA
TTTGATAGGTTGGCTATGTGTCTGTATTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTCTCCCAGGCTGGAGTGCAGTGGCTCAATCTCTG
CTCACTGCAAGCTCCGCCTCCCGGGTTCCCACCATTCTCCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGGCGTCCACCACCGCGCCCGCCTAATTTT
TTTGTGTTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGGAGGGTCTTGATCTCCTGACCTCGTGATCTGCCCACCTCGGCCTCCCAAATATGTGTG
TATTCTTAGTTCAAGTTTATTACTTTTTCATTCTTCCATACCTCCAGCAAGATTAAAGCCATTTAGAGCTATGAACACTGAATAAGTATGCCTGATTCCC
ACAGCCTTTCCTTTCTTGGGTTTTGCCTTCTTAATGTCTACTTAAATGTCTACTTTAACCACAACTATCTCATGCATCTTTTAATTTGCATTTCTTTATA
GTAAGACTGATTTTTTTTTCCCAGGGGTATTTATGTTGATTCTAGGCATGTGCAATCTCAGTGAGATTGGAAATGAGATGAGTGGATGACCTATGGGTCA
GGAAGGCTCATTGTTAAGTCCAAAAGCCTTCAGAATGTGTCAGAGTTCGCAGTATTTGGATGGGGGCAGAGCACAACAGAGGCACACAGCATCACTCACC
TTGTTGTACACGTTAAACCATTCAGGATGGTGGTCCAGTTTCTCAGCCTGCAGGGCCACTCTTGTCATGAACCCAAAGGCCTATTTAAGTGGAGTGAGAG
CCAGGTTAGTGTTCTAAGAGAAAGGACTTCTGGACATCACCAATTCAAGGCCTAGACGCAGGAGGATGAATTAGCTTCCCCCCAGGAGACTCCTCTATAA
TCATTTCCCCCTTGACATCCTGTCACTGGTTCTCAGGCTTGAGTTAGAGATTGTCCTTGCAGTAGGAAGAAAGTCTTGCTATTTAGGATGCCAACAAGGT
GGAAACACCACAACAGGCTTTTGGCCTGGCCAGTCTTGGCCGTCTGTTCAAATGTCTTCAGATGTGCATGGTTTCCACTTGAACTATCTCCTCAGAAGAC
TGCTGCTAAAAGTTCCAGGAAGGGAGAGCCCAAGACACATCCTCCTATGGCTCTCCAATCCCCAAAGATGATACTTTCTGAGTTAGACAGGAAAATTAAT
TTCCCCACTGGCACAGTGCCCAAATAACTGGATGAGTGTGGTGTCTGAGAGTCTTGGCTAACAAGACGTGAAGGGAGAGAACATGCTTTGTAAGGTGACC
CCATCAGCCCGTCTCAGAAAACTCTGTCCCACCCTGGTGCCATACCCTGTTGAAGTCTTTGAAATGAAACTGCTTGAAGATGGCATCACGGCCTTCCAGC
TCATTCCACCCCACAGCCCTCAGGTTTGGCAGCAGCTGGTCCCTCTCCTCAGCGCTCAGCCTGTGTGCTTTGCCAGCCTAGAAGAGGGAAAAAAACAGAG
GCCCAAGGGCATTTCTCTTTATAGGTCAAAACAGAGGGGCTCCAACCTTTAGGGGAACTTAGCTTCCACTGGCTGCTTTGGACGTGGGTGACCAAAGGGC
AGCAGGTCTTTGAGCAATAGGCTGGGAGGCCTCAAGGGTGGCACCCTGCCCAGGAGGTGGGGTCCAGGCTCGTCTGCCGATAGGCCCTCAGGTCTTGGGT
TTTAACACTCCACACACACACAAGGGAAATCACAAAAGCAATGTAATTCATATGACGGGGACAGAGAAGCACTCTTCCCCCACCCTGCCCTCAAAGCCTT
ACGGACCTTCCCTCCATGAGATTATTACATCAGTGAGGGCGTAAAAGCAAAATAAATCCCAGATGCAAATATGTTACTCCACAACCTCTCAGGAAGAGTA
CCCATGACTCTCCCCCCTTCCTTTTCCTATTATGTACTTCATCATATGCACCCCACGTCCCTACCGTAACTTTCACGTGTATTGAAGAGGAAACAGGCCT
AGAGAGGGGAAACGACTTGTCTGCTGTTCTTTCCCGCCCACCCCTAGCCAGTGATGGCGCAGTGTTGTCTGTGTGTCAGCATTGCTGGGGCTGGACGAAG
GAGCTACATTTAAAATAAGTGTCCATCCCATTCTTAGCCACACTGCAGCTGACCGCCGTTGGCACTACCTCTAGTAGGTCCTCAGTCATGCTCCCAGGCA
GCCTCTGGTCCTGAGCCGCCAGGGCTAGGTTTCTCTGGTTTTCCGTCTGCTTTTCTGGCTGGTTGGGAAGCTCAGGCCAAAGTGGAAGGAACTTGGCCAA
AGGCAGCTGGCAAACCTAGTGCCCCATCCTATTTACCTAATGTGCGAAGTGCCCTCAAGGCAGCCCAAATTGGCACAATTCAGGCCATGAGTGGAACCTC
AGAGAAAGCAAGGAAGCAAGGGTCAGTTTCATCCTAGGAGGATCCAGGTCTAGGAGCTTAACAGATCCCAGAACCTAGGCTTCTAGAGTAGCACCACCCC
AGGGCAGAAATAGAGTGCTGAATTGAAAAGATACCCTTAGGGGTGGGGAGGGAATGTGAGGGAGGTTGATTTAGCTTTTATGAGGCAGCCTGCAGACTGG
ACACCATGTGTTGATTGGCAGGAGTTTTGAGACCCGCTTTCACCATTTACCAGCCAGGTGGCTGTACCTCTCTTGGCAGAACCTCCACCTCCACAGATCA
TCATGAGGTGCCAATGGGACAC


SNP Information

Context             (SEQ ID NO:6193):
CCTTTTGCAGACATCCTCCTGGTTCCAAGGCATTTGTCTCCGTTTTTTTAGTCCAAAGGATCCCAGTGTGTAGATTTCACCTCTGATGCTTGCTTTTGGT
W
GCTGAGCGTTTTGCCACCTTTTATTTTGTTTTGTTTTGTTTTGTTTTTTTGGAGACGGAGTCTCACTCTGTTGCCCAGACTGGGGTGCAGTGGCATGATC
Celera SNP ID:            hCV26554208
SNP Position Genomic:     7016
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6194):
TTTCCTTCTGGAAGACATGGCAGTGTCTGCCTTGCAGCATGCATCCAAGACCTTATCTGTTTCTGTATCAAACATTGTCAAGATCAGGGCATGAAGAGCC
R
GGGCATTCCTGACTCCCCCAACAGATGGCATCTCTTCTTTATTATAGGTGACTTCTGGGGGAACAGAAAGCATACTGATGGCCTGCAAAGCATATCGGGA
Celera SNP ID:            hCV25951954
SNP Position Genomic:     58647
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,32)   caucasian(A,1|G,9)   total(A,5|G,41)
SNP Type:                 INTRON


Context             (SEQ ID NO:6195):
CTCCACCTGGGAAGAAAGGACCTAAGTGAATAAAAAAATAACCTCAGTGCAGTGCAGCATCTCAGAATTAGAAATAGTCTTAGAAGTCATGGGATGCAGC
T
TTTTTTTTTTTTTTTTTTTTGAGACAAGGTCTCACTCTGATGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTTACTGCATCCTCAATCTCTGAGGCT
Celera SNP ID:            hCV26554209
SNP Position Genomic:     9658
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,9)   total(-,9|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6196):
TATCACCATATATCTTTAGGAAAAATGTTAGTTTAGTTACTTGTGCGGTGCCTAGCATTGAGCAGTTGCTTGACTGTCATAATAATTCTGCTGTCTCTAC
Y
GTACTCTTGCATCTGGATAACTTTGTCTTTCTTACCTTTGGAGATTCAAGACAAGTTGAACAAGACCAAGGATGATATTAGCAAGAACATGTCATTCCTG
Celera SNP ID:            hCV16150549
SNP Position Genomic:     45013
SNP Source:               Applera
Population(Allele,Count): african american(C,8|T,30)   caucasian(C,2|T,8)   total(C,10|T,38)
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,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6197):
AGAGCTGACCTCAGCTGTAAGCACTTTGTCTTCTGCAGCGTAGAAATGTAGTGACCTACAAGTGTCCCATGCCCAAGTTGGGTGCATTATTTTGTGGTGA
Y
GGTCACATGTTTCATAAAGACTTCCTGAGTCAAAAAATGACTTTTCTCAGTTCATCTTCCATATAACTCCTGGCCACAGGGATTTTGTATCCAATGGTAT
Celera SNP ID:            hCV374761
SNP Position Genomic:     57140
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:6198):
GCTCGAGCCCAGGAATTCGAGACCAGCCTGGGCAACTAGGTGAAACCCTGTCTCTACAAAAAATACAAAAGTTAGCCAGGCATGGTGGGGTGTGCCTGTA
R
TCCCAGCTACTTTGGGGGATGAGGTGGGAGGATCTCTTAGGCCTGGGAGGTGGAGATTGCAGTGAGCCGAGATCACGCCATGGCACTCCAGTCTAGGTGA
Celera SNP ID:            hCV374762
SNP Position Genomic:     56617
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,5)   total(G,5|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6199):
GGCTTTGTTTTTTTAGGTCTGTAGCTCATTCTTTTTGTTTCATGGTCTAGGTTTTGAACTCTTTGTTTTCTTAAATTCATGTTCTTATGATATTTTCCTA
W
AGTGAGAAAGTTATAAGGGGTTTCCTTCATCCCTTAGCTTGTTTCCTTCTGTGTTGGGTTTTTATTTTGCATGCTACATACTACCTTTTCCCCTGCCTTT
Celera SNP ID:            hCV374763
SNP Position Genomic:     54960
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,7)   total(A,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6200):
GCTTATTATCCAAGAAATTATCATTTCTAGTTTTAGAGAATGATGAAACTCATTTGTGCTTTGAAATATAACCTGTATACATGTGCACAGTAAGTCATTT
R
GCTATTTATTGTCAGACTCTGGGAGTTCATAGCAAACTTAGCAACATTCCATGTGCAAATTTGCATATTTTTCCCCCCATATCTTACCTACTTGCCTTAG
Celera SNP ID:            hCV172284
SNP Position Genomic:     22730
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,10)   total(G,6|A,10) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6201):
ATGGCTTCTATTTTTGCAGATGAGCAGAGTCCAGTTGCATAGAGGTTTAGTGTTGTGCCACACATCACACAGCTTCTAAGTGAGAGCTAAAATTAGAGCC
R
AAGGTTTTGATTACCAGTCCAGACTTTCTAGGACACCACAGCTGCCTTTCTGTAGAACAGATTAACATGACTCTCAGAGTCCGCAAGAGTAGTGGTGAGG
Celera SNP ID:            hCV1198580
SNP Position Genomic:     19744
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6202):
AAGGGTCTGGTGCCACCTCAGGGTGAAAGCTAGTTTTGCCACTCACTTATCTTGCAGGATTCTTGATTTTGCTTTGTTTGGGGGTTTAGCAAGTTTCTTT
M
TGTTAGGTTAGTGATAGGTTTAAATTTTTTTTTTTTGATGTTTTATCAAGTTTTTTAGTTATTTCAGTTAGGAAGGTTGCTCAAGGTATATAATATTGCT
Celera SNP ID:            hCV374765
SNP Position Genomic:     54397
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,5)   total(A,5|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6203):
TTCCTAAAGGACATTCGAGAATCTGTCACTCAAATCATGAAGAATCCTAAAGCGAAGACCACAGGAATGGTAGGGACACTTGGAGTTTTTTTTCTTCTCT
K
GGAAATTTAGGTGTTGGTGGAGAGTTTGAAGGAATCATATGACCCGGAGTCTGTTCCTGCCTCTGCCCCTTTGCCACAGACATCTTTTATTTGTTGACTG
Celera SNP ID:            hCV11656995
SNP Position Genomic:     67043
SNP Source:               Applera
Population(Allele,Count): african american(G,20|T,10)   caucasian(G,23|T,9)   total(G,43|T,19)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;no_pop(G,-|T,-)   (T,-|G,-)   JBIC-allele(T,239|G,1246)   total(G,1246|T,239)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6204):
GGGACCTCCAAATTCCTAGTGTGCTGCGTGTATGTCTGTTGAAGGAGCTCATCACTTGCACAAGGACCAGAATCACTTTTACTGCAGCATGGCCAGTTTT
S
TGGCCACTGTTCCTAGTTATACCTTTGATTCTTTTACACACACACTGTAGCTGCTGCCAAGGCAGGATCAAAGTCCAAATACTGCCCTCAAGGATGTGCT
Celera SNP ID:            hCV16054537
SNP Position Genomic:     44338
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6205):
TTTTTTTATGAGCCACTCATTTTTCTGGGAACCTAGGGATTCTTTGAGGCCTAGATTGAAGTTAAGTCTGGAAGTTCTCTTCTTCCAGAGAAGATTTGTC
R
TACCTTTTTGAGTTGCTGGGGATTGCCACCACACTGGAACCAAATTAAGTCAAATCCTTAGCTTGTCATTTTGTACCACAGAGGTAGTGTGAATTCTGAC
Celera SNP ID:            hCV374766
SNP Position Genomic:     53948
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,3)   total(G,3|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6206):
CTCTCAGTCTCTAGCCTTTCTACTCTCCAATCCATCTTGTACACAGCCATCAAATTGCTCTTATAAAATACTTGTTACCTGGCTAATATTTAGTTCAAGA
Y
CTTCCTGGGGGTCTCTAATCATTCAGGCCTGCTACTGCCTTCTTTATTAGACTTTTCTAACCTAATCTTCCATGATGCCTTTGAGTAAATGCACCACTCC
Celera SNP ID:            hCV11656996
SNP Position Genomic:     66244
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6207):
TTTTTTTAATCTGCTTGGTTGTTTTTTATAGTCCTTTTCCTTGGCTTAACTTTTGTTTACTTAAATATATTACACATAAATATGTTGTATTCTGTGTCTG
W
TAATTCCAATATCCATGAGCCTTACCTGATTCTGCTGGCTTCAGTCATGGTTCCTTGTTTCCTTATATTTGTGATTTTATTTTATTTATTTATTTTTTTA
Celera SNP ID:            hCV374767
SNP Position Genomic:     53755
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6208):
GCTCACTGCAGCCTTGACCTCTCTGGGCTCAAGCGACCCTCCCACCTCAGCCCCCTTGAGTAGCTGGGACTACAGGCATGCACCACCATGCCTCGCTAAT
W
TTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCCAAGCTGAAGTGATCTGCCTGCCTTGGCTTCTCAAAGTGCTG
Celera SNP ID:            hCV11453062
SNP Position Genomic:     53505
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,6)   total(A,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6209):
CTGGTTTTACCTGAGCCAAAGTTTAATTTATTATTTTGCTGTAAACTGAACCTCATTTAGTTGCTATTAGGCATAAAGAAAGGGGGAGGACATCATTATA
Y
TTAAAGAAACACATGAGGATTCTTTGTTTTACCTGTTCTTTCAAGTAGATGGTTGTTAGTTTTCGTAAACTATGATAGATAAACTTCTGTTTAGATCTGT
Celera SNP ID:            hCV11453063
SNP Position Genomic:     50450
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:6210):
ATTCTGAAATAGGATTGCCTTCTAGATTGAGATCTGGAAATAATCTGCATGTAGGAATGTGCCCACCAAAAGGGTGATATTCCACATGCTGCCCCTCAGC
R
CCTCCCTTTCCCTCACGCCTCATCCTGCAGTGACTGAGGCAGGACCTTTCCCTTGTGCGAGAGGCAGCCTAAATCAGAGCTCTACTCATTTCCTGCTTGA
Celera SNP ID:            hCV11656999
SNP Position Genomic:     61830
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6211):
CAAACTAAGAACAGACTTCTTTTCTCTCTCTAAATGTAATGTTTTTATTTTTCACTTGTATTTCTAGAAGGCCTTTGAGCCCTACTTAGAGATTTTGGAA
K
TATACTCCACAAAAGCCAAGAATTATGTAAATGGACATTGCACCAAGTATGAGCCCTGGCAGCTAATTGCATGGAGTGTCGTGTGGACCCTGCTGATAGT
Celera SNP ID:            hCV11453068
SNP Position Genomic:     34537
SNP Source:               Applera
Population(Allele,Count): african american(G,27|T,3)   caucasian(G,29|T,1)   total(G,56|T,4)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6212):
TGAGTGTGAAGTCCTGACTTTGCCTCTTTCTATCAGTTTGACTGAGCAAGTCACTTAACCTTTCTTGACTTCAGTTTTCCCCATCTATAGAGTGATACTG
Y
ACACTGGTTTCTTTTCTTTTCTTTTTCCCCTTCCTTTCCTTTTCCTTTTTCTTTTCCTTCCCTCTCCCTCTCCTCCCTTTGCCTTTGCCTTTCCCTTTCC
Celera SNP ID:            hCV477828
SNP Position Genomic:     26512
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,4)   total(C,4|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6213):
CCGGTAATTTAGATTAGCTGCTAATGGTGTTTTCTATTATTTTGGCCTGAGTTACATTATTCTCCTCTTCCCTGTCATTTAGTGTGGCTCCCCAAAGTGC
Y
CATGCTGCATTTAACAAAGCAGCCAGTTACTTTGGGATGAAGATTGTGCGGGTCCCATTGACGAAGATGATGGAGGTGGATGTGCGGGTGAGTCCCTCTG
Celera SNP ID:            hCV11657000
SNP Position Genomic:     60160
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,31|T,1)   total(C,60|T,2)
SNP Type:                 SILENT MUTATION

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


Context             (SEQ ID NO:6214):
ATCCTCAATCTCTGAGGCTCAGATGATCCTTCCACCTCAGCCTCCTGAGTAGCTGGGACGACAGGCACATGCCACCATGCCCGGCTGATTTTTGTATTTA
Y
TTTTTGTAGAGATGGTAGTTTGCCATGTTACCCAGGCTGGTATCTAACTCCTGGGCTCAAGGGATCCAACCGCCTGCCTTGGCCTCCCAAAGTGCTGGAT
Celera SNP ID:            hCV26554210
SNP Position Genomic:     9840
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,15)   total(C,1|T,15) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6215):
TTGCATGCTACATACTACCTTTTCCCCTGCCTTTTAGTTTGTTTGCATAGTTTCCTTGCCATTTTCTCTCATCTTGGGGTGGCATTCTCCAGACATTGTT
M
TTATGCACTGTGGGTGCTTCCTGTCTGAGACCATTTGGCTGGGGACAAAGCTCAGCCAAAGCTTTGTTCTATCTGTATTAGAATAACCAGGTCTATTCTG
Celera SNP ID:            hCV11657001
SNP Position Genomic:     55127
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6216):
TGATATTCACTAAAGATAATCTTCATCTCAAGTATTTTTTATATGTGGGCACTTCTAATTTTATACATTTTTCTATTTAAAAAGCATTACATTTTAAAAT
K
TGTACCTGTTTTGACATTTGGCAAAAAGGAAACTGTACCTATGGTTCAGTTTAAAACAAAGAATCAGCATGGGGAGTTTACCGGAATGAGGACTGAAACA
Celera SNP ID:            hCV26554211
SNP Position Genomic:     13034
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:6217):
TTAAAACAAAGAATCAGCATGGGGAGTTTACCGGAATGAGGACTGAAACACTTAGGAGTTAAAGCAATTCAAGGGGCGTGTGTGTGTCTCTCCCTTTCTC
Y
GTCAATCTCTCTCACTCTCTCTGGCTCTCTCACAGACACAGACTCAAACACACACAGCCATATGTGTAATCATTTTTTAGTACAAAATATTCCCTGTAGC
Celera SNP ID:            hCV26554212
SNP Position Genomic:     13185
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,5)   total(C,5|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6218):
TAGCCAGACATTTATCTTCAGAATAATCACACCACATTAAATCAGTCTTCTCTTTTCAGCCCTAGTAAAAGTTTTGTTTAATTCTAAGATGCCATCATAG
D
GAACAACCTTAACTTTTATCCTACATAATTATATTCAAAGCTTTATGTATTTTTGTTTATAATTACACAGTAATTATAAATGTTTAGTACCAACCTGATG
Celera SNP ID:            hCV26554213
SNP Position Genomic:     13382
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|A,4|G,4|T,4)   total(G,4|A,4|T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6219):
AGCTGTAACACTCACCGCGAGGGTCCGCGGCTTCATTCTTGAAGTCAGTGAGACCAAGAACCCACCAATTCCGGACACAGTAGAAGCCCATTGGGCTTTT
M
AATTTTATTTACTCTAATTTCATTCTAAAGAATTCTGTTTTGTAGTTCTCCTTTTATTTTATTATTATTTTTTGAGACAGGGTGTCACTCTGTTGCTCAG
Celera SNP ID:            hCV11657004
SNP Position Genomic:     53279
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6220):
CATCTGCTTGCATTTTTTTGCAGGCTTATGGAGATTTTGCATGGAGTAACCCCCTGCATCCAGATATCTTCCCAGGACTACGCAAGATAGAGGCAGAAAT
Y
GTGAGGATAGCTTGTTCCCTGTTCAATGGGGGACCAGATTCGTGTGGATGTGTAAGTATATGCAAGGGGCATCCAATAGCCTTATTTTTTAGGTTAAAAT
Celera SNP ID:            hCV11657005
SNP Position Genomic:     49798
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6221):
GAATAATCACACCACATTAAATCAGTCTTCTCTTTTCAGCCCTAGTAAAAGTTTTGTTTAATTCTAAGATGCCATCATAGTGAACAACCTTAACTTTTAT
S
CTACATAATTATATTCAAAGCTTTATGTATTTTTGTTTATAATTACACAGTAATTATAAATGTTTAGTACCAACCTGATGACAAACACTATTTTGTTGAA
Celera SNP ID:            hCV26554214
SNP Position Genomic:     13402
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,5)   total(G,3|C,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6222):
TTGAACTTCATGGCTCATTACAACCATTTTCAAAATTTAACTGCAACTATCTTCTTATAAATTAAGAGAGTTTAATTTGTGTTCCATAGTGCGATGACAA
W
AAAAAAGTAAAAACAAAACAAAAAAACCCTCATGCCTAAATTTAGAATATTGTATTATGTAGCAATCCAAAACATTCAAAACAAATTAAATAGTTTAACT
Celera SNP ID:            hCV26554215
SNP Position Genomic:     14626
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,10)   total(A,10|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6223):
TCCCATTATCTACAGGATGAAACTCAGGTTCTTATGCAGCAGAGAATACAAGTTTCTTCATGAGCCAGCTCCCACTTATTTTTTCTTAACTACTTCTCTT
Y
ATTTCCCACATAAACACTAATCCTGCCTTTTCTCTTTACTAAATGTGTCATGCTTTTACGTTGTTTTCCTTCCCTTCCATCATTCCTCTTGTTCCAAATG
Celera SNP ID:            hCV11657006
SNP Position Genomic:     49069
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6224):
GCAGCTACTATCCTCTCTTTCTGGTATGACTTTTTTCCTTTTAACTTTTCTACCTAGAGAATTTTCTTTCATCCTTTTAACCAGCTTAAATTTTGCCCTC
Y
GTCATTATCTTTATCCCTTCAGAGTTAGATAGTCCTTCCTCAGTGCTCCATCTTGGCACTCATATGCTTTTTGTGGCTATTCCCCTGAGAAGTTTTCGTG
Celera SNP ID:            hCV429491
SNP Position Genomic:     33165
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,6)   total(C,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6225):
CAACAGTCTGTTTGGATGACTGAAAACACACAGGTTTACGATCTGTAAAGATAGTAGGTAAGTGATTTAATCTTGTTGTATAGGTAGGCCAGAGGGCACT
Y
GCAGCCTTCTGATTGATTTAATAGATTGTTGAAGATTAAGAGTTGACTTAACATCTCTCTTAGAAAACTGAGAAATAGCTCATTACTAAGGTGTGTTTTA
Celera SNP ID:            hCV26554216
SNP Position Genomic:     19259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6226):
ACATCTGCTTCCGGTGAGACCTCAGGAAGCTTACAATCATGGCGGAAGGCAAAACTTGAGCAGGCACGTCACATGGCAAGAGTGAGAGCAAGAAAGAGAG
K
GGGGGGAGGTCCTAGGCTTATAAACAACCGGATCTCACCTGAACTAACTGAGCAAGAACTCATTCATGAAAGATGCACCCCCGTGATCCAGTCATCTCCC
Celera SNP ID:            hCV429492
SNP Position Genomic:     32645
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,6)   total(G,1|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6227):
ATGTCTTGCAGTTTTTATTATAGGGCTATAAAGGAAATTCTCTTATGTTCTTTGTTTTTTGGAACAAGCTGGCTGTCAAATACAAAATACCCCTTCATGT
Y
GACGCTTGTCTGGGAGGCTTCCTCATCGTCTTTATGGAGAAAGCAGGATACCCACTGGAGCACCCATTTGATTTCCGGGTGAAAGGTGTAACCAGCATTT
Celera SNP ID:            hCV105698
SNP Position Genomic:     62219
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,4)   caucasian(C,23|T,1)   total(C,49|T,5)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,3)      total(C,3|T,2) ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6228):
GAAACATTTACTTAGGTTTACAGGTTTATTTTAAGGGATACTGCAAAGGTTACAAATGAAGAGATGCATGGGGCAAGGTATAGGGGAAGGGGTGTGGAGC
Y
TCCATGCCTCCCTGGGTGCACCACCCTCCAGGAACCTCCATGTGTTCAGCTATCCAGAGGCTCTCTGAACCCTGTCCTTTTGGGTTTTTATGGAGGCTTA
Celera SNP ID:            hCV26554217
SNP Position Genomic:     21654
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6229):
TAAGTCTCTAGCTCAGAGAAGAATGAAGTTTGCAGTTCGAAAAGGCCATGCAATAGCAGTTCACTTCCCCAAAATGCTCAGCCCTTGTAGGATGCCGTTA
G
GTCATCTGGAAGTTCTGTATGCCTTCACTGGGAGCGTAGTGAAGATGAGAGCCTTTCCTTTGGCTCTTGGAGTAAACTAGCTGACAGGACTTTGAGAACT
Celera SNP ID:            hCV26554218
SNP Position Genomic:     24705
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|G,9)   total(G,9|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6230):
AAAGAAAAGAGGGTTAATTGGCTCATGGTTCTGCATATTTGTACAAACATGGCTTCAACATCTGCTTCCGGTGAGACCTCAGGAAGCTTACAATCATGGC
R
GAAGGCAAAACTTGAGCAGGCACGTCACATGGCAAGAGTGAGAGCAAGAAAGAGAGTGGGGGGAGGTCCTAGGCTTATAAACAACCGGATCTCACCTGAA
Celera SNP ID:            hCV429493
SNP Position Genomic:     32588
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6231):
CCTACCTTAGCCTGCCAAGTAGCTGGGACTACAGGAGTGTGCCACCATGCCTGCTGCTTTTTTGTTTGTTTGTTTTTTAAATTTTTTTGTAGGGATGGGA
W
CTTGTTATGTTGCTCAGGCTGGTCTTGAACTCCTGGCCTCAGGGGATCCTCCTGCCTTAGCCTCCCAAAGTGCTGGGATTACAAGTACTTTATAATGTGT
Celera SNP ID:            hCV26554219
SNP Position Genomic:     26816
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6232):
TAACACTTTTGTAGGCTTTTCATTGTGTATTTTTGTGTATGTGTGCATATAGCAGCTACTCTGTAGCAGAGGTGGGTAGAGACACTTAATAGTATCATGT
Y
GCATGCAGATGTCACATCGGCCTCTGCAAAAACTGTACTGTCTTGTTTCTGCATTAGACTTAAGTAGTCATGTGAATATACTGCTATGTCACTTTTAATA
Celera SNP ID:            hCV8863100
SNP Position Genomic:     70212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   (C,-|T,-)   Caucasian(T,13|C,65)   African-American(T,22|C,60)   total(C,125|T,35)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6233):
ATATGGTGCCTGATGAGGCCCACTTCCTGGAAGGTGGCCTTCATAAAAGTGGTTCATAGAAAATGTCTTCTCACTGTATCTTCACATGGTAGAAGGGGCA
M
ATTTGCTCTCTGGGGGTCTCTTTTATAAAGTCACTAATCTTATTCACGAGGCCTCTGCCTTCATGATCTAATGACCCCCCAAAGGCTCCCTCTTCCTCCT
Celera SNP ID:            hCV429494
SNP Position Genomic:     31569
SNP Source:               Celera
Population(Allele,Count): no_pop(C,2|A,5)   total(A,5|C,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6234):
GCCATGACTACCAGACTTTTCCTCAGGCTCCTTGGCATGTTAGTCTGAATTGTTCTTGAGCACTGTACTACTGACCCAACAACTGTGACTAGCTGGCCAC
R
CCATTCAGGGCTGGTGTGGCATTTATGTGTGTGTGTGTGTGTGTGTGTTTTTCCTGTTTGCCCAGCAGTGCATTGTGGGTTCCAAGAGTGGGTAGTGTGT
Celera SNP ID:            hCV8863101
SNP Position Genomic:     69704
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6235):
GATTTGCAGAGCTGACCTCAGCTGTAAGCACTTTGTCTTCTGCAGCGTAGAAATGTAGTGACCTACAAGTGTCCCATGCCCAAGTTGGGTGCATTATTTT
K
TGGTGATGGTCACATGTTTCATAAAGACTTCCTGAGTCAAAAAATGACTTTTCTCAGTTCATCTTCCATATAACTCCTGGCCACAGGGATTTTGTATCCA
Celera SNP ID:            hCV8863102
SNP Position Genomic:     57133
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6236):
GTTTTTTAGTTATTTCAGTTAGGAAGGTTGCTCAAGGTATATAATATTGCTAGAAATAGAAGTTCCATAATTGTTTTTTCCATGTTACAGACCTTCGTCT
R
TTTGAAAGCCCCTTTCTCCCTGAATCTTCTCTGCCCCACATTTTTCTGGGTTACTCCGCTTTTCATATGATTTCACAGACTTCCAACCATCGCAGTCATT
Celera SNP ID:            hCV8863103
SNP Position Genomic:     54547
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6237):
GTGTGTATACACATGTATGCATGAGCACATATGGGATGGATAAATAGACCAAATAGCTTGGTGCTTAAGAGCGTAACCCTGGAACCAGCCTGGATTCATA
Y
CTTGGTTTGCCACTTAAAGTATGCCTTTGGCGAGTTACTTCTGTATGTCACAGTTCCTGTATCTCTACAATGGGGATAGTAATAGTAGTACAGTACTTAC
Celera SNP ID:            hCV8863104
SNP Position Genomic:     45802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6238):
TAGTTCCTTTTAATATTTTGGGGTCAGACAGTGCAAGCTGTCGACAGCAGCTTAAGGAGATACATTAGAGTCTTCCTGGCAGTTCTTAGAATGCCTTGTG
M
TAGTGTTGAATGGGACCTCCAAATTCCTAGTGTGCTGCGTGTATGTCTGTTGAAGGAGCTCATCACTTGCACAAGGACCAGAATCACTTTTACTGCAGCA
Celera SNP ID:            hCV8863105
SNP Position Genomic:     44226
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6239):
GAGGAGGCTGGAAGAGGAAGATGCCTAGCACAGACCTTCTGATGTTGGTGAGCCTTTTGCAGACATCCTCCTGGTTCCAAGGCATTTGTCTCCGTTTTTT
Y
AGTCCAAAGGATCCCAGTGTGTAGATTTCACCTCTGATGCTTGCTTTTGGTAGCTGAGCGTTTTGCCACCTTTTATTTTGTTTTGTTTTGTTTTGTTTTT
Celera SNP ID:            hCV25952118
SNP Position Genomic:     6964
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,29)   caucasian(T,6)   total(C,1|T,35)
SNP Type:                 INTRON


Context             (SEQ ID NO:6240):
TCCCTGTGGTTTCACTGAGGGCCATATCTAAGAAGATCTTCTTGTATTCTAATTATCCTTGGCTAGAGATGAGAAAATCTTAGTGTGGAGTGAGTTCTGG
Y
GTTCTTTAACAAATATATTGCTGAAACAATAGCACTGTGACAAATCGTGACATGTAGCTTCTCTCCCCAAACCTACTACCCAAGAGCCTTTTGCTATAAG
Celera SNP ID:            hCV8863106
SNP Position Genomic:     43712
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6241):
GTGCTGCGTGTATGTCTGTTGAAGGAGCTCATCACTTGCACAAGGACCAGAATCACTTTTACTGCAGCATGGCCAGTTTTCTGGCCACTGTTCCTAGTTA
Y
ACCTTTGATTCTTTTACACACACACTGTAGCTGCTGCCAAGGCAGGATCAAAGTCCAAATACTGCCCTCAAGGATGTGCTGACTTTAGCAATGCCAACCA
Celera SNP ID:            hCV16042785
SNP Position Genomic:     44358
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6242):
AAAGCAGCCAGTTACTTTGGGATGAAGATTGTGCGGGTCCCATTGACGAAGATGATGGAGGTGGATGTGCGGGTGAGTCCCTCTGGAGGGCCCACTGTCT
R
TGCTGGGCCCTGACAGCAGAAGGGCCCTCCTGTTGACTAGCCGTTTCCAGTCAGATGGGTCTGACTGCCTTTGATTGTGGCAGCCAGAATATGAAAAACT
Celera SNP ID:            hCV25952224
SNP Position Genomic:     60276
SNP Source:               Applera
Population(Allele,Count): african american(G,28)   caucasian(A,1|G,29)   total(A,1|G,57)
SNP Type:                 INTRON


Context             (SEQ ID NO:6243):
ATACTCATGAGGGCAGAACCCTCCTGATCTAAATCACCTCTTAAAGATCCCACCTCTCAACACTGTTACAATGGCAATTAAATTTCAACGTGAGTTTTAG
R
GGGGACATTCAAATCATAACAGGTAGTTAGCCCTGTTGAGTAATGGAGAAAGGATTGTATTAGTTCCAAGGAAAGATGCATCATCCAGTGTGGGTCTGGA
Celera SNP ID:            hCV9476890
SNP Position Genomic:     28123
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:6244):
GACTATCCAATCACTCTCCATTTTTCAGAAACAGATTCTGAGGCTTAGATACAAAAAGTTACATGTGTGTATGTGTGTGTGTGTGTGTGTGTGCGCGCGC
R
CGCGTGTGTGTATACCTCTGTCATTTATTCACTTAACACATGCTTATTGAGCCACCTGCTCAGTGTCAAGTACTTTTCTGGGTGCTGGGGATATGGTGGT
Celera SNP ID:            hCV8863107
SNP Position Genomic:     43085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6245):
TGCCAAGGACTATCCAATCACTCTCCATTTTTCAGAAACAGATTCTGAGGCTTAGATACAAAAAGTTACATGTGTGTATGTGTGTGTGTGTGTGTGTGTG
Y
GCGCGCGCGCGTGTGTGTATACCTCTGTCATTTATTCACTTAACACATGCTTATTGAGCCACCTGCTCAGTGTCAAGTACTTTTCTGGGTGCTGGGGATA
Celera SNP ID:            hCV8863108
SNP Position Genomic:     43078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6246):
AACTTAGAAAGTAACAGAATTGGAAGATCCTTAGCTTGCCAAGGACTATCCAATCACTCTCCATTTTTCAGAAACAGATTCTGAGGCTTAGATACAAAAA
V
TTACATGTGTGTATGTGTGTGTGTGTGTGTGTGTGCGCGCGCGCGCGTGTGTGTATACCTCTGTCATTTATTCACTTAACACATGCTTATTGAGCCACCT
Celera SNP ID:            hCV8863109
SNP Position Genomic:     43042
SNP Source:               Celera;dbSNP
Population(Allele,Count): Caucasian(A,0|G,60)   Chinese(A,0|G,18)   Japanese(A,0|G,40)   African(A,0|G,58)      total(G,176) ;(A,-|G,-)   Caucasian(C,60)   African-American(C,58)   Asians(C,58)   total(C,176)   
SNP Type:                 INTRON


Context             (SEQ ID NO:6247):
CCAAGGCAAAAGGATCGCTTCAGCTCAGGAATTAAAGACCAACCGGAGCAACATAGTGAGACATTATCTCTACAACAAATTTAAAAATTAGCCATGAGGC
Y
GGGCGCGGTGACTCATCCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCCAGAGTTCAAGACCAGCCTGACCAACAGGGAG
Celera SNP ID:            hCV27900090
SNP Position Genomic:     64796
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6248):
CTATGTATGGAAGCTCAGCTTTCATAGCCTGTTCTGTTGCATGAGTCGCCATTTATGTGAATTAATTTTTTAATTTACAACTTAAAAAATGTCTTCACAT
S
CATAGCATGCCCAGGCATTGCCCAGGAGTGTAGCCTCTGCTCCCTGCCAGTGTGGGCCTCTTAGACTATTGCAGACATGCTCGAAAGGAGTGGCTTTCCC
Celera SNP ID:            hCV11657010
SNP Position Genomic:     43515
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:6249):
TTGTTTATATTTATCATGTACAACATATGTTTTGAAATATGTATACATTGTGAAATGGGTAAATTGAGCTAATTAACATGCATTACCTCCCATATTTTTC
T
TTTTTTGTGGTTAGGTATTTACTTCTGTTTTCAGTTCTGCAGCTCACTATGCCATACATTTTGCTTAGCTAATAGTAGAGACACAGCCATCTTAGGTTCT
Celera SNP ID:            hCV26554220
SNP Position Genomic:     37242
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|-,6)   total(-,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6250):
CAAGAAATATTTGATCATTGTAGAAAGGTCATTTTACTACACAAGGAATATTTGATCATTGTAGAAAGATCCTAATTAACTGCAGTTTTAAATGTTACTT
R
TAATTTTGTAACCTAGACAATGTCAACATTTTGGTATATATTCTTCTAGATATTTTTATTTTCACCTTTTTATTTTGAAAAACTTTGAACCTACATTGAG
Celera SNP ID:            hCV25951577
SNP Position Genomic:     50066
SNP Source:               Applera
Population(Allele,Count): african american(A,2|G,22)   caucasian(A,4|G,24)   total(A,6|G,46)
SNP Type:                 INTRON


Context             (SEQ ID NO:6251):
CCTGGGCGACAGAGCGAGACTGTCTCAAAAAAAAAAAAATTTGTGTTTTATTTTCTTTTACGTCGCATTTAATGAATTATATTGAAATTTTAAAACTTGT
R
TCTGCAGGCATAGTGTTATAATCTTTAAATGCCATGTCAGAGTAGCAAAAGGGATTACAGAATATTTGTTATAAAAAGAGGGCATTGGGTCATAGAGTTG
Celera SNP ID:            hCV89265
SNP Position Genomic:     10877
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,8)   total(G,1|A,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6252):
ATGTACAACATGAAGTTTTCAAATGTGTAAGTTGTGGAATGGCTCAATCAAACTAACGTGATTACCTCACGTACTTTTTTTTTTTTTTTTTTTTTTTTTT
Y
TGAGATGGAGTTTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCACTTGCTTC
Celera SNP ID:            hCV26554221
SNP Position Genomic:     38830
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6253):
CTTCACTGCTTTACTGTGTGTGTTATGTGTTTGTATTTTTAAAATTTTGAACCATGTAAATATAGTACTTATTCACAAACTTAAATTTAAAAGTTTTTTT
W
AAATTTTTTAAACGAAAGAAACTCTTTGCAATTGGAAGGCAAGTGAGGTGGAAGACACATTGAATGGTTGCTATATGCCAGGTCATATCCATGGAAATTT
Celera SNP ID:            hCV26554222
SNP Position Genomic:     41359
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,5)   total(A,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6254):
GATTATAGGTGCACACCACCATGCCTGGGTAATTTTTGTTTTTTAATAGAGATGGGGTTTCGCCGTGTTAGCCAGGCTGGTCTCAAACTCCTAACCTCAG
R
TGATCCACCTGCCTTGGTCTCCCAAAGTGCTGGGATTACTTACAGGCGTGAGCCGCCGTGTCCAGCCAAGTTTGTTTGTTTGTTTGTTTTTGTCACTTCT
Celera SNP ID:            hCV432254
SNP Position Genomic:     8386
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,10)   total(G,10|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6255):
CAGAATTGGAAGATCCTTAGCTTGCCAAGGACTATCCAATCACTCTCCATTTTTCAGAAACAGATTCTGAGGCTTAGATACAAAAAGTTACATGTGTGTA
K
GTGTGTGTGTGTGTGTGTGTGCGCGCGCGCGCGTGTGTGTATACCTCTGTCATTTATTCACTTAACACATGCTTATTGAGCCACCTGCTCAGTGTCAAGT
Celera SNP ID:            hCV26554223
SNP Position Genomic:     43056
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4|-,5)   total(G,4|-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6256):
TACTTTAAAAAGTATTATTCATTCACTGGGCAAATAATTTTTTTTTCTAGAGGAATACCTTTCCAATTTTATAACAGTGAAGGAAGGAATGTTTTACTTA
Y
AGAAACTGTACTGAAACTACTGTTCTATTAAGCAAGGGTTGGAGATAAGCACCCCTGTCCCCCTTCCCTGCCCAGGCACACACATATACAGATACAGCTT
Celera SNP ID:            hCV11657015
SNP Position Genomic:     29441
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6257):
AGGGAACCATAGTTGATAAACTACCTAGCAGAAAGGACCTTAGTTCCTTTTAATATTTTGGGGTCAGACAGTGCAAGCTGTCGACAGCAGCTTAAGGAGA
Y
ACATTAGAGTCTTCCTGGCAGTTCTTAGAATGCCTTGTGCTAGTGTTGAATGGGACCTCCAAATTCCTAGTGTGCTGCGTGTATGTCTGTTGAAGGAGCT
Celera SNP ID:            hCV26554224
SNP Position Genomic:     44186
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6258):
AGGCCGTGCTGATTCTGAAGGGAGTGCGGAGGAGGCAGGACCCTGGTAGCCTCGGCACCTTCAGCCCGGGTTAGGTGGCCTGGGCTGGGCTCCCCACCCC
S
ATCGCGCGCAGACGGGGCGTTTCCCCTAGTTTCCACCTGGGTGGAATGCTTTGTGGGAGTCTGGGTCTGGATTAGTTTCATCAGCTGTGGGAGGGAAACC
Celera SNP ID:            hCV25951687
SNP Position Genomic:     6557
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,35)   caucasian(G,10)   total(C,1|G,45)
SNP Type:                 INTRON


Context             (SEQ ID NO:6259):
ATTTTGGGGTCAGACAGTGCAAGCTGTCGACAGCAGCTTAAGGAGATACATTAGAGTCTTCCTGGCAGTTCTTAGAATGCCTTGTGCTAGTGTTGAATGG
S
ACCTCCAAATTCCTAGTGTGCTGCGTGTATGTCTGTTGAAGGAGCTCATCACTTGCACAAGGACCAGAATCACTTTTACTGCAGCATGGCCAGTTTTCTG
Celera SNP ID:            hCV26554225
SNP Position Genomic:     44240
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6260):
TTCTTGCTTTAGGGATTACATATGACTTTTTAGAACTGTGGAGATGGGCAGATTACTTTTCCAGAAATTTTTTTAGTACATCTTTCATGCCTCAGAAGCA
Y
CTAGGGGAATATAATTGGGAGTTGGGTAGACAGGTTCGAAGTCAGTGATTGAGTCATTAGATCTAGATGGGGTTTGGGCCTTGGAATTCCATTTTTATTG
Celera SNP ID:            hCV146173
SNP Position Genomic:     65450
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6261):
ATGCTCATAGCTCAATGCAGCATCAAATGCCTGGGCTCAAGTGATCCTCCTACCTTAGCCTGCCAAGTAGCTGGGACTACAGGAGTGTGCCACCATGCCT
R
CTGCTTTTTTGTTTGTTTGTTTTTTAAATTTTTTTGTAGGGATGGGATCTTGTTATGTTGCTCAGGCTGGTCTTGAACTCCTGGCCTCAGGGGATCCTCC
Celera SNP ID:            hCV11657018
SNP Position Genomic:     26768
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6262):
TTTCACATTGCTGATAATAATGATTTTTCATCTTTATTTTATTGTGCTAACTCTATTGAACTTTTTTCTTGATTTGCTATAAGAATGCTGTTGGGTTTCC
W
CTCAACATTTTTTTCTTTTGTATCCAGAGGAGTTTCTTCCTGTTTCTTCTTTATCAGAACCTGTCTTCCCAGAGATTCTTGCTTACTGACCAGTGACCTT
Celera SNP ID:            hCV26554226
SNP Position Genomic:     47849
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6263):
AATAAATAAGCAAACAAATAAATAAAAATTAGATATATATAAAAGGTCCTCCTATAGCTCTGATAGGGCCATTTATTAAGACCTGCTATACCATTTCTTG
S
TTTAGGGATTACATATGACTTTTTAGAACTGTGGAGATGGGCAGATTACTTTTCCAGAAATTTTTTTAGTACATCTTTCATGCCTCAGAAGCATCTAGGG
Celera SNP ID:            hCV146174
SNP Position Genomic:     65356
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,3)   total(G,2|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6264):
TGACCATACAACCTTCACTCACTTAGCACTGTGCAGTAATCCACTGAGCAAAATTGCCACATTTTCCTTGGCAGGGAATCTGTGTGCCTGTGGCAGTTCA
R
AAATTATTTGTAGAGTGGGTCAGCCTGTCAGCAGGAATGTTTTTCTTTGATCTTCAGCCTGTTTTTCTTTAATGTGAGCAGAACAGTAAAGAGAGAATAC
Celera SNP ID:            hCV11657019
SNP Position Genomic:     26161
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6265):
TTGCCTCATCCATCTTTGGCCAGTGGAAACATCATATTGGCTCCTAGGTCCATTTACATGACCCAAGTAATCTTTGAAAGCCTTTTTTCTCTTTCTTTCC
T
TTTTTTTTTTTTTTTGACGAAATATTCCAGGTTCAGGTTCACTTTGTCCATTTCCTGCTCCAGGCCTTCAATCAGCCATTTATCCAAGGAGCCCTGGTTC
Celera SNP ID:            hCV26554227
SNP Position Genomic:     51385
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|-,3)   total(-,3|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6266):
GCCCCCTTGAGTAGCTGGGACTACAGGCATGCACCACCATGCCTCGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGCCCAGGCTGGT
S
TTGAACTCCCAAGCTGAAGTGATCTGCCTGCCTTGGCTTCTCAAAGTGCTGGGATTACAGGCGTAAGCCACCACGCTTGGCCGTCTTTTTTTTTTTTTTT
Celera SNP ID:            hCV26554228
SNP Position Genomic:     53554
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6267):
TGTACAGGGCAGCCCCCCCCCACCCACCAAACACAGAATTATCTGGCTGGAAATGTCAAAATGGCCAAGGTTGAGAACCCTGACTTAACCCTTTCTCCAA
Y
GTAACTGGCCAAAGGAGAGATGAGAAGCCTGTTAAGGAAGTAAGAATTTGAGAAAACCTGACTGTATTGTTAGGTGCTTTGGAACAACATGCAGCTGGCT
Celera SNP ID:            hCV8863110
SNP Position Genomic:     41892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6268):
GCTGGTCTTGAACTCCCAAGCTGAAGTGATCTGCCTGCCTTGGCTTCTCAAAGTGCTGGGATTACAGGCGTAAGCCACCACGCTTGGCCGTCTTTTTTTT
K
TTTTTTTTTTTTTAATCTGCTTGGTTGTTTTTTATAGTCCTTTTCCTTGGCTTAACTTTTGTTTACTTAAATATATTACACATAAATATGTTGTATTCTG
Celera SNP ID:            hCV26554229
SNP Position Genomic:     53648
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6269):
TTACCACTTTAACCATTTTTAAGTGTACAGTTAGTCCTGTGGCAGTAAGTACGTTCACATTATTGTACAGGCATCACTATTACCAGAACTTTTTCATCAC
Y
CCACTGGAACTCCATTTTAATAAACATCAAATAATAACTGCCCATTACTCTCTCCCGCATCCCCTGGAAACCACCATTTATTGTATCGCCTTGTTTTACA
Celera SNP ID:            hCV8863111
SNP Position Genomic:     36898
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6270):
AAATTCAAGTTTTGGTGTCCGTAATTACATTGTGTTGGAACACAGCCATGTTCCTTTGTTTACACAATAACTGACTATATTTGTACTCCAGCAGCAGAGA
K
GAGTAGTTGTAAAGGAGAATGTTTGCTTTGCAACACTTAAAATATAAAATAATTTAGTATCAAGCTCATTACAGAACCAGTTTGCTGACTACTGGGGTAG
Celera SNP ID:            hCV8863112
SNP Position Genomic:     34015
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)   no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6271):
ACTCTTGCATCTGGATAACTTTGTCTTTCTTACCTTTGGAGATTCAAGACAAGTTGAACAAGACCAAGGATGATATTAGCAAGAACATGTCATTCCTGAA
R
GTGGACAAAGAGTATGTGAAAGCTTTACCCTCCCAGGGTCTGAGCTCATCTGCTGTTTTGGAGAAACTTAAGGAGTACAGCTCTATGGGTATGATGCTTG
Celera SNP ID:            hCV25951977
SNP Position Genomic:     45116
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,4)   caucasian(A,9|G,1)   total(A,43|G,5)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6272):
GGAAGCCTTCTTCTCATTCTCACTGAGGTGCCTGTCTTTGGTAGGCAACCGTTAGCCAGCTCTGCCTTGTGTTGCTCTCATCCAAAGTCTCTGTCCCCCA
R
CTTTCCGCCTGCCAGCCTAGCTTTATGCTTTGGATCCCTCACTGTGGGATCACTTCTGAGTCCTCTTCCTATTGCCAGAATGATTTCCTAAATAGGAGGG
Celera SNP ID:            hCV11453043
SNP Position Genomic:     59848
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,6)   total(G,6|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6273):
TTTATATGGTCCTTGTGCTAAGAATGATTTTTACATTTTAAAAATTGTTAAAGAATATTTTATGAACATGAAAATTATATGAAATTCAAGTTTTGGTGTC
Y
GTAATTACATTGTGTTGGAACACAGCCATGTTCCTTTGTTTACACAATAACTGACTATATTTGTACTCCAGCAGCAGAGATGAGTAGTTGTAAAGGAGAA
Celera SNP ID:            hCV8863113
SNP Position Genomic:     33934
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)   no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6274):
ATGAACAATAATAAAACAACGATACCAGATTAGGATATAAACCATTTATCTCTAACTCTACGCTTCACCCTGTTACAAATATTTCCTTTCTTCCCCTCTA
K
GGATAACCCCATCCTGACTTTTATAATTATTCCCTTGCCTTTTTAAAAATAGTTTTAACCACCTGTGTATGCATCCTAAGTTTAGTTTGTTTTTTTTTAA
Celera SNP ID:            hCV16042792
SNP Position Genomic:     16695
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6275):
TGTTCTTACACTGGCATTTTCTATTTTGTTAAACTTAAAATTCTTTTTTTAAAGTAACAAATAAAAATTGTATGTTTATGATGTACAACATGAAGTTTTC
M
AATGTGTAAGTTGTGGAATGGCTCAATCAAACTAACGTGATTACCTCACGTACTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTTTTGCTCTG
Celera SNP ID:            hCV15915830
SNP Position Genomic:     38750
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6276):
ATGATCTATACCCACACCCGAAAAAATTACTCACATACTTAAAAATCCATGCCTTTTGTTTTGTTTTATTGCTGTTGTTTGTAATTTACTTATTTTTACC
Y
GATACTATGTTCTGGAAATTTTTCTACGTAGTTCATGTAGATCTGTCTTCTTCTTAATGTTTCATGGTATGGGTACATAAAATGCACGTATTATAGTTTA
Celera SNP ID:            hCV8863114
SNP Position Genomic:     32087
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   (C,-|T,-)   Caucasian(C,11|T,67)   African-American(C,5|T,77)   Asians(C,9|T,71)   total(C,25|T,215) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6277):
ATTTGCTCTCTGGGGGTCTCTTTTATAAAGTCACTAATCTTATTCACGAGGCCTCTGCCTTCATGATCTAATGACCCCCCAAAGGCTCCCTCTTCCTCCT
W
CCATCAGCTTGAGGGTTAGATTTCAACATATGAATTTTTGGGGGATGTAAACATTCAGTCCATTGCAGGTATAAATGTTTTCAACAAGCATTTGTTGAGT
Celera SNP ID:            hCV8863115
SNP Position Genomic:     31670
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6278):
TGTGACCTGTAGGCCTCAATGTCTTCATCTGTGAAGGACAGGTTCAGCTCTGATGGCCTATGATGTGATGAACCTTGTGAACTTGTAGGCAGAGTGCCAC
K
GTGTGCAGAGTCCAGTTACAGATAACCAGCCATTCTCCTCTGCAGATTCAACCCACTGCCACTGTGTCTTGTTAAGCTTAAATAGGAGAGATGTGGGAGA
Celera SNP ID:            hCV55836
SNP Position Genomic:     25020
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,8)   total(G,8|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6279):
GACCTCCTTTGAATTTAAGAATTGCCATTATCTTCATAAGAATCAAAACAAATACAAAGAAAATATATTCTTGCTGAATGTAATTTTTAAATGTTAGTGA
R
GAATGTCTTTATATCTTAATTTTAAGGCTTTTAAAAATTAGTTTGCATTTGCTGGTTCTTTGCTGTCACCCTAATACTGGTTATGTTACTTTTTTGCTCA
Celera SNP ID:            hCV8863116
SNP Position Genomic:     30826
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   (A,-|G,-)   Caucasian(A,4|G,76)   African-American(A,4|G,78)   Asians(A,8|G,44)   total(G,198|A,16)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6280):
CTCTGGAAAACTAGGCAGTGGAAAAAACAATGCATTTTAAACCAGAAGATTTGAGTCCTGGCTCCGCTATTTCCGAGCTTTGTGACCTGTAGGCCTCAAT
R
TCTTCATCTGTGAAGGACAGGTTCAGCTCTGATGGCCTATGATGTGATGAACCTTGTGAACTTGTAGGCAGAGTGCCACGGTGTGCAGAGTCCAGTTACA
Celera SNP ID:            hCV55837
SNP Position Genomic:     24940
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:6281):
CTGTTGGTCTCCTGATTTGTGCCACTGATAGTTTGGCTCTGGAAAACTAGGCAGTGGAAAAAACAATGCATTTTAAACCAGAAGATTTGAGTCCTGGCTC
Y
GCTATTTCCGAGCTTTGTGACCTGTAGGCCTCAATGTCTTCATCTGTGAAGGACAGGTTCAGCTCTGATGGCCTATGATGTGATGAACCTTGTGAACTTG
Celera SNP ID:            hCV55838
SNP Position Genomic:     24904
SNP Source:               Celera
Population(Allele,Count): no_pop(C,5|T,5)   total(C,5|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6282):
AAGAAGAAGATAGATTCTCTTGGGGGCTGTGCCTCTAGTTTGAAACCAGGGAAGGCACATTTTGGTATTAGTCTGTGGCCTCAGTTTCTTCATCACTGCA
R
TGAGATTGGACTATAGGTGGTCTCTAAGGTTCCTTCAGACAGTAGCATTTTATGATTTTGAAGACAACTTTTCTGAAGTACTTTTCAAACTAATTTCTTT
Celera SNP ID:            hCV55839
SNP Position Genomic:     24467
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:6283):
TGCCTTTCTGTAGAACAGATTAACATGACTCTCAGAGTCCGCAAGAGTAGTGGTGAGGTGTCAGTTCAGGGGAATACTCAAAGGTCACTGTCCTTTTCAG
R
TATCTGGGTAGTTGCTACAGTATGTGCTTAGGAATTGCTGGATAAAAAAATATTCTTTAAAATCTCATCATTTTAGTCGTTAATAATTTATTATTATAAC
Celera SNP ID:            hCV11453089
SNP Position Genomic:     19887
SNP Source:               Celera
Population(Allele,Count): no_pop(A,5|G,6)   total(G,6|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6284):
AAGGTGAGCTAAGGAGGAGATCAAGTGTTACCAGTTGATTATTTTGACTATTATTGATAAAATAAATTGGTAGCTTCCCCGCAAAGTATAAAATTAACTA
Y
AGAATTCTCATCAGATGCTTGTTTTAAACTCTCTCTTTGCCGTCACCAGATCAGCTGGTTCAGGTGATGGGGTATAGTGGTAGAGGTGACAAGCAGTAGT
Celera SNP ID:            hCV25953363
SNP Position Genomic:     62434
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,29)   caucasian(T,30)   total(C,1|T,59)
SNP Type:                 INTRON


Context             (SEQ ID NO:6285):
TTTTTGTATTTATTTTTTGTAGAGATGGTAGTTTGCCATGTTACCCAGGCTGGTATCTAACTCCTGGGCTCAAGGGATCCAACCGCCTGCCTTGGCCTCC
Y
AAAGTGCTGGATTACAGGCATGAGCCACTGTACCTGGCCTGTGATGCAGCTTATATTATACATGAATCTGTTGAAGAGTATCTCTGGTAAATGGATATCC
Celera SNP ID:            hCV16175721
SNP Position Genomic:     9928
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)   no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6286):
CCAAATTTACAATATTTGTAGCCTTCTGCTGTTGGGTACATTCATGAAAAGGTCTTGCATCCTTAAAGTGAAGGCTGAAAGAGTTTTATGTCATTGGGGC
R
AGTGGGCTACCAAGCTCCCATAAATTCTAGGAGCTGCCTTTTGTCTAACGATTAGGATTATTGAGTACTATTTTGATGCCTTTTGGGTATCATCTGAAAT
Celera SNP ID:            hCV260193
SNP Position Genomic:     29100
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6287):
ATTTCTAGTTTTAGAGAATGATGAAACTCATTTGTGCTTTGAAATATAACCTGTATACATGTGCACAGTAAGTCATTTAGCTATTTATTGTCAGACTCTG
R
GAGTTCATAGCAAACTTAGCAACATTCCATGTGCAAATTTGCATATTTTTCCCCCCATATCTTACCTACTTGCCTTAGGCTGGGAGTCTATTTTCCTACA
Celera SNP ID:            hCV11657021
SNP Position Genomic:     22752
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6288):
AAAGCTAGTTTTGCCACTCACTTATCTTGCAGGATTCTTGATTTTGCTTTGTTTGGGGGTTTAGCAAGTTTCTTTATGTTAGGTTAGTGATAGGTTTAAA
T
TTTTTTTTTTTGATGTTTTATCAAGTTTTTTAGTTATTTCAGTTAGGAAGGTTGCTCAAGGTATATAATATTGCTAGAAATAGAAGTTCCATAATTGTTT
Celera SNP ID:            hCV26554230
SNP Position Genomic:     54422
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,4)   total(T,4|-,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6289):
TTTGTATATTCACAGTTGTGCAGCCATCCCCACGATCAATTTTAGGACATTTTCCAAAGAAACCCAGTACTCAGCAGTCACTTCCTTATTTCCTTCTCAC
Y
GGTCCTCAGCAACTACCAGTCTACTTTGTGTAGATTTGCTTAGTCAGGACACTTCATATAAATACAATCATACAGTAAATATGTGGTCTTTCCTGATTGA
Celera SNP ID:            hCV29163788
SNP Position Genomic:     20365
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6290):
CTGCTATCAGTTATCTACAACTTTCAGAGCCGTAAACAGCCTCCTCATAATCAGAATCTGGTAACCCGGAGGGGCGTCCCAGATAATGCATAATTTTTCA
Y
TGGAAGCCGTAGGGAAAAACTCTCTCCTCTACTCTCACACCACAACAATCAACACCGAAGACTTCCGTGACCAAACGTGTGGGATTTTTTTCCCCACACT
Celera SNP ID:            hCV11657022
SNP Position Genomic:     21219
SNP Source:               dbSNP
Population(Allele,Count): (T,-|C,-)   (C,-|T,-)   Caucasian(G,3|A,77)   African-American(G,4|A,78)   Asians(G,8|A,72)   total(G,15|A,227)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6291):
AAGCTAGTTTTGCCACTCACTTATCTTGCAGGATTCTTGATTTTGCTTTGTTTGGGGGTTTAGCAAGTTTCTTTATGTTAGGTTAGTGATAGGTTTAAAT
T
TTTTTTTTTTGATGTTTTATCAAGTTTTTTAGTTATTTCAGTTAGGAAGGTTGCTCAAGGTATATAATATTGCTAGAAATAGAAGTTCCATAATTGTTTT
Celera SNP ID:            hCV26554231
SNP Position Genomic:     54423
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6292):
TTTCGAAGATGCACTTTCCAAAGGGTGTTTATATAGTTGAAGGTCAGTCAGAGACCTAGGGATAGGTCCCTGCTTATTCTTTTGAGCAGGCTTACGTGTT
R
GAAATCTCTAGAGAAATAGCTTTAGTTAGGTTACACTTCTCAGCAAATATTCAGTATTCCTCATCTCTAATAGCAGCATGACTGTTGTAGGGAAGGAATT
Celera SNP ID:            hCV29163789
SNP Position Genomic:     22344
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6293):
TGACTCATCCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTCCAGAGTTCAAGACCAGCCTGACCAACAGGGAGAACCCCGT
Y
TCTACTAAAAATACAAAATTAGCCGGGTGTGGTGGCGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCA
Celera SNP ID:            hCV26554232
SNP Position Genomic:     64905
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6294):
GGGAGGCTGAGGCGGGTGGATCACCTGAGGTCCAGAGTTCAAGACCAGCCTGACCAACAGGGAGAACCCCGTTTCTACTAAAAATACAAAATTAGCCGGG
Y
GTGGTGGCGCATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCGGGAGGCAGAGGTTGCGGTGAGTTGAGATGGCACCA
Celera SNP ID:            hCV26554233
SNP Position Genomic:     64933
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6295):
GGTTAGATTGCATTCATTATAAGGAAGACTTTGAATGATTAAAGAGATAGTGACCAGGGGATTGTATGTGACTGAATTTACTTTTTCTTCCTTCATTTAT
T
TTTTTGTTTTAAGACTGGAAAATATCAAAGGCATCTTTGTTTTTGGGAATCCCCAATTGTCAGTCATTGCTCTGGGATCCCGTGATTTTGACATCTACCG
Celera SNP ID:            hCV26554234
SNP Position Genomic:     65738
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|T,8)   total(T,8|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6296):
TTGATGTTTTATCAAGTTTTTTAGTTATTTCAGTTAGGAAGGTTGCTCAAGGTATATAATATTGCTAGAAATAGAAGTTCCATAATTGTTTTTTCCATGT
K
ACAGACCTTCGTCTATTTGAAAGCCCCTTTCTCCCTGAATCTTCTCTGCCCCACATTTTTCTGGGTTACTCCGCTTTTCATATGATTTCACAGACTTCCA
Celera SNP ID:            hCV9708886
SNP Position Genomic:     54532
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,4)   total(G,4|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6297):
ACCCCCACTGGCTTTATGGAAAGAATATTGAAGAAGAAGATAGATTCTCTTGGGGGCTGTGCCTCTAGTTTGAAACCAGGGAAGGCACATTTTGGTATTA
K
TCTGTGGCCTCAGTTTCTTCATCACTGCAATGAGATTGGACTATAGGTGGTCTCTAAGGTTCCTTCAGACAGTAGCATTTTATGATTTTGAAGACAACTT
Celera SNP ID:            hCV55840
SNP Position Genomic:     24437
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|T,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6298):
TGGTCACAGCTTGGATGGAGGGGTGCTCTTGGCATGTAATGGATCGTGTCCAGAAATGCTGCTAAACACTAAACATCCTACAGTGTACAGGGCAGCCCCC
S
CCCACCCACCAAACACAGAATTATCTGGCTGGAAATGTCAAAATGGCCAAGGTTGAGAACCCTGACTTAACCCTTTCTCCAATGTAACTGGCCAAAGGAG
Celera SNP ID:            hCV25953009
SNP Position Genomic:     41809
SNP Source:               Applera
Population(Allele,Count): african american(C,25|G,1)   caucasian(C,14)   total(C,39|G,1)
SNP Type:                 INTRON


Context             (SEQ ID NO:6299):
GTTGGTCTCGAACTCCTGAACTCAGGTGATCTGCCCACCTTGGCCTCCCAAAGTGCTAGGATTACAGGTGTGAGCCACTGTGCTCGGCCTTGACAAATAC
Y
CTTACAATTTCTAAGTGACATGTGTTGAGGTCTTGACATTGAATAGTACAAAATTTGATATAGTCTAGGATGTAGATGAATAAAGCAGTGGTTAGCACTC
Celera SNP ID:            hCV127494
SNP Position Genomic:     46657
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:6300):
CATCCATAAAGCAAGCAAATCTCAGAGACAGTGGAACTTGGCTTTTATTTCCTTTTGTAAGCATGAATAAAACAAATATATTTGTGTTTAAGAAGAGAGA
R
TATAAGATATGTAATACAAATGAAATACAGATCCATGTAAAAATGTGAAATCTGCATAAAGGCACAAAAGAAAATAAGTCACTATAATTCCACTATCAAA
Celera SNP ID:            hCV127495
SNP Position Genomic:     45483
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,6)   total(G,3|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6301):
AGCATTTCAGCTGACACCCATAAGGTGAGCTAAGGAGGAGATCAAGTGTTACCAGTTGATTATTTTGACTATTATTGATAAAATAAATTGGTAGCTTCCC
Y
GCAAAGTATAAAATTAACTATAGAATTCTCATCAGATGCTTGTTTTAAACTCTCTCTTTGCCGTCACCAGATCAGCTGGTTCAGGTGATGGGGTATAGTG
Celera SNP ID:            hCV25953403
SNP Position Genomic:     62413
SNP Source:               Applera
Population(Allele,Count): african american(C,27|T,3)   caucasian(C,26|T,4)   total(C,53|T,7)
SNP Type:                 INTRON


Context             (SEQ ID NO:6302):
ATGTAGCAATCCAAAACATTCAAAACAAATTAAATAGTTTAACTTATGTGACAGGCAGATAAGCATTTCAAAAGCATAATGAAGTCCAATTATGTAGTGC
W
TAATGTAGACAGGAGAAGAATCTAACATTATGCAGACATTTTCTAAATAAAAGCTCCCTGTAGGACAGCTATATATAAACATGGGTAAGGTAAGCGCAGA
Celera SNP ID:            hCV11453095
SNP Position Genomic:     14783
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,11)   total(A,1|T,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6303):
TGGCCCTAGGCAGTCATCACTTTCTGAAGACAACATACATGTTGCATGAAGTGCTTTCACTGGAAAAGTTGTCATTCATTCCTTGACTGTAATGTATAAT
R
CTATTTGGAACTAACTGGTAAAGAACCAATAACCATGGCTGGGTTTTCAGTGGCACACTAACCCATCATTCTATGAGGTGTTTCTCAAGCTACTTTATAT
Celera SNP ID:            hCV16042801
SNP Position Genomic:     9433
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6304):
GGTGCTCAGAATTGTTACTTAACAGAATCAGCATCTCCCTTTACTTGATGCCTTGTCCTGACCACAAGTACATTAATAAAGTGACCATTTAGCAGTGTTT
Y
GGGTTCAGCTTTTAGGAACTTAGAAGCTGTGGTTTTCCATGAGTGCACTTCTGATGACTTGGGAACATTTCATATGTGTGTTCTTTCTGTGGCCAAGATG
Celera SNP ID:            hCV29163790
SNP Position Genomic:     23085
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6305):
GAGTAACATTTGAACTGGGTAGAACAGATTTTTCTTTTCCTCAACAGCCCATTCCTGCTGTAAAGCTCAGATTTATGGTCCTTCTGGAAAAAGTATTGAG
Y
GTTGAATAGTTCAGGAAAACAAATAACAAATTCTGTCTTCTTTGCAGGATTGTGGGGTAGAAGATTTTGATTTTTATTAGTATCTGGCCAAAGAATAAAT
Celera SNP ID:            hCV29163791
SNP Position Genomic:     23886
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6306):
TGGATGTCTTTTCCCTGCTGCGTGAATACCGGGTAGCCATTAAGTTTGGTGATTGGGTGTCAGTAATATGTTAAGTCAGCTACTGGGTCATCTTTTAATA
M
AAGAAAAGGATGGGGAAGAGAATGGATTCTTAAGCAGTGTTGCCTGTCAGAATCACCGGAGGGAGGTTTACAAAATACACATTCTGTACTCTGACCCTGT
Celera SNP ID:            hCV29163792
SNP Position Genomic:     24168
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6307):
TTTGCAGTTCGAAAAGGCCATGCAATAGCAGTTCACTTCCCCAAAATGCTCAGCCCTTGTAGGATGCCGTTAGGTCATCTGGAAGTTCTGTATGCCTTCA
Y
TGGGAGCGTAGTGAAGATGAGAGCCTTTCCTTTGGCTCTTGGAGTAAACTAGCTGACAGGACTTTGAGAACTGTTGGTCTCCTGATTTGTGCCACTGATA
Celera SNP ID:            hCV29163793
SNP Position Genomic:     24733
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6308):
TACTGCTATGTCACTTTTAATATTACGAGTTTTATACTTGGAAAATGGTACTTGCTTCTTTTAAATCTCTGTCTTCTCTAACCTCCCCCTTCCCATTTCA
R
TGCTCCCTTCCTAATTTCAGCAATAATCTCAAAAAGCAATTAAATAGTTAAATGACCCTAATTGTAATTACTGTGGATGGTTGCATTCATTTGATTACTT
Celera SNP ID:            hCV8863099
SNP Position Genomic:     70391
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:6309):
ATTGAATATACATCCAGATGTGGAAGAAGTATTAGCAGCCTCAGGAATGTGTACCTTGTTTTGATTGCATTTTCAGAGCTTGTTTTAAACTCAAGTATAT
K
AAAGACTTGTTTTTCAAAATCGGTGTGATCTGCAGCCGATTTTCAGTCAGCATCTGTTTTTTCCTTACCATCCAGATAGCTCCTGTGTCCTTTTCCCATA
Celera SNP ID:            hCV29163794
SNP Position Genomic:     62996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6310):
TTGCCACCTGGAATTATTAGATACAAAGAACAAGACCATTAGCTTTAAACTCTGGCAGAATTAGGTGACAGCCTCCTAGACCAGTGGTTGGTCATGAGGT
K
TTTCTCTCAGTCTCTAGCCTTTCTACTCTCCAATCCATCTTGTACACAGCCATCAAATTGCTCTTATAAAATACTTGTTACCTGGCTAATATTTAGTTCA
Celera SNP ID:            hCV29163796
SNP Position Genomic:     66140
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Gene Number:                 49
Celera Gene:                 hCG28315 - 30000054192228
Gene Symbol:                 
Protein Name:                
Celera Genomic Axis:         GA_x5YUV32VV34(12300934..12313541)
Chromosome:                  Chr3
OMIM number:                 601487
OMIM Information:            PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR-GAMMA;PPARG


Genomic Sequence (SEQ ID NO:1710):
GAATTGAATTAAGAAAAGAATTTCCATGAGAGATATGCATTTACAATTTTGTAGATTTAATCTTTGCATAGACTTTTTTGTTGCAGATACTGAAAAGGAA
TCCATAAAAATACATAGATCCCTTTACTAGCCACTTTTAATTTACGGATGAGGAATATTCAGTTCACAGACTGGCTAGCGCTTTTTAGCTTTCTTTAGCG
TTTGAAGCAGGGCTTCTAAGTCACATGAAAGACTAGACTAGTTATTGGCATTTAAATTTTTTGGCTCCTACTTGTATGTATTATTTATTAAACAAGTAGT
TATTGCACTACCTTTATGTATGCAGCACTGTTTTAGACAAAATAGAATTGTGACATATTCCTTGCTCATGGTCTTGTTTCAAAGACAATACCTACAACTG
AAAGAATTAAATAATAGAGCCAGGCAATATCTGATTGAGGAAAAGCATGCAGTAAAAGTTCAGAGAAGAAGATACACGTGCAGAACTGGAATGGTCAGTA
GTTGCTTCATGAGATGGTTGCACTGAGCTGAACCCTTAAGTAAGGATGTGGATACATGAGAAGGAAGAAGCTGGAAATTTTAAACATGAGGAGCTTCATG
GGGAAAGAATTTCAAGCTATCAAAAGATATCAAAGATTGAGGAATTTGGACTTGGTCTGGGAGGTATTGGGGATCTTGAAGATTTGGGGGTAGGGAAGTG
ATATGACAAAAGCTGTGTTTGGAAGGCACAAGTGAAACAGAGTTGGGTTTTTTTGTTTGTTTGTTTGTTTGTTTTTTTCAGACAGGGTCTCACTCTGTTG
CTCAGGCTGGAGTGCAGTGGTACCATCTTGGCTCACTGCAACCTCAACCTCCCAGGCTGGAGTGATCCTCCCACCTCAGCCTCCCAATTAGCTGGGACTA
TAGGCATACAACACCATGCCTAGCTAATTTTTGTATTTTTTTTTAATAGAGGTGGAATCTCGCTATGTTGGCCAGCCTGGTCTTGAACTCCTGAGCTCAA
GCCATCCTCCCACCTCAGCCTCCCAAAGTGTTGAGATTATGGGCGTGAGCCACTGTGCCCAGCTAAAAGAGAGATTTTGATAGCTTATATGATTTGATGA
CTGAATAAAAAATAAAGAGGATGAAAAAAGTGAAAAATGAATTTTTGGCTGATAAATAGAGAAATGGAGGTATTAAAAGAAATTGGGAAGAGAGACTCTG
TTTCAGGAGGAAGAGGGATTAGCTTGATTTTTGGATTTGATGAAGATGTGAAGTTAGGTGACCAGACCTCGATTCAGATTTTAGAATCAGACTCTTTGAT
TTGGTGTCATTAACATTGATTGAAGAATGTTTTGAAAGCTGAGGTATTAAGAAACAACACAAAGGTGGAGTTTAAAAGAGGAAGTTGAGCGTTTGGAGAG
AGTGCCATGCCAAAGGAGGGGACTTTTAAGAAAAGGAAGACAACACTTAGTACTTCTGTGTACCCAGCCTTGTAGGAATAACTTTACCTGTGTAATCTTA
TTTTATTCTCACAGTACCATGTAAAGTATGAATTATCATTGTCCCTATTTGACAGGTGAATTAAGTGAAGTTTATTGTGGTTAAATAACTTGCCTGAATG
TCGTGCTGCTGGTGCAAGGTTAATCTGGATTTAAACTGAGATCTGTCTGTCTAACCCCCAAGCCCACATATTTTTTTAATTGAAATGCTGCAAAATGGTA
ATGAAAGGTCAAGAAGAATAAAAAAAAAAAGAGTAAGGCCATTAGAATGTTCAAGGAGAAGATCATTGTTTAAGATTATAAAAGCGTAGTGGTAGGAATA
TTTCAGCATTTAGAAGGTAATAGTAAATTAATGGAGGAAGTGACCCTAGACCATTGCTAATTTGGGCAGCGAGTAGGACAGTTCTCTTCTGAGGCAGCTG
AGTCAAGTACAGCAGAGAAGAGTGCTCATCAGTGGAGAAGGTGGGAATAGTGTTGGAGAGGTCTCAGAATAAACATTAAGTAATCCCAGCACTTTGAGAG
GCTAAAGCGTGTGAATCACCTGAAGTCAGGAGTTCAAGAGCAGCCTGGCCAACATGGTGAAATCCCGTTTCCACTAAAAATACAAAAATTAGCCACGTGT
GTTGGCACTCACCTGTAATCCCCGTTACTTGGGAGGCTGAGGCAGGAAAATCTCTTGAACCCAGGAGGTGGAGGTTGTAGTGAACCGAGATCGTGCCACT
GCACTCCAGGCTGGGCAACAGAGCAAGACTCTGTCTCAAAAGAAAAAAAAAAGAATAGACATTAAAAAGACACAGACGATGTGAGAAAAAAGACTGTTCC
CACCAAGTTTAGAAGAAAGGATAATGAGGTTGATGTGCCTGCTGTGCCGGGGGGATAAGAGAAAGGTGTCAGGCAAGAATAGATGTATAAAAGCACTAGT
TACAACTATACTTTGAAAGTCATATTTTACCTGGAAGAAATCTCAAAAAACAAAGACTACATGGCAGTTAAGTGACCCAAATCAAGTCACTTTCCCTCTT
CAGGCCTCAGTTTTCCCATATGTTAGACAGGTTAAATTAGGTGAGACAAACTGATCTTTTAGGACCATTCTATAATACTGTGCTTAACTTTCTAAGCATT
CTGGAATGGAGCAGCCTTGATCTTTTCACAGATACGTCAACCATATAGCTTTATTTATAAAACGAACATGTTGAGATAACTAAAATTAGAGTTAATATCT
TCATAGGTACAAAGAAACTTTTAGAACTTAAGTCCACAAGTCAGAATTTCTGGATGAATTCCTTTTTCCTCTTATTAAAAATTGTTAAGATGTCTGATTA
GACTAGTTGTAAATTCCCTTGAAAGCAAGGATGATATCCTGCTCTCTACTGTGTCCTCAGCATCAAGGACAGTGCCTAACACAGAACAACTACCAATGAA
TATTTATGAAATGAATGAAAGTTTGAATTGCAAAATTAAATGCCACCAATAAAGAGGCTTTGTGAGCGAGCGTGGTGGCTCAAGCCTGTAATTCCAGCAC
TTTGGGAGGCTGAGGCGGGCGGATCACTTGAGCTCAGGAGGTCAAGACCAGCCTGGCCAATATGGTGAGACCCCGTCTCTACTAAAAATACAAAACATTG
TCTGGGCGCAGTGGCTCACACCTGTAATCCCAACACTGGGAGGCTGAGGTGGGCAGATCGCCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGT
AAAACCCCGTCTCTACTAAAGATACAAAAATTAGCCAGGTGTGGTGGCAGGCACCTATAATCCTAGCTACTTGGGAGGCTGAGGCAGGAGAATCACTTCA
ACCCAAGAGGCGGAGGTTGCAGTGAGCCAAGATCACGCCGTTGCACTCTAGCCTGGGCGACAAGAGCGAGACTTTGTCTCTAAATAAATAAATAAATAAA
AGTATAAAAAACGAGCCAGTGTCGTGGTGTGCACCTGTAGTCCCAGATACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAGGAGGTGGAGGTTGC
AGTGAGCCGAGATTGCACCACTGCACTCCAGCCTGGGGGACAGAGCAAGACTCTGTCTCAAAAAAAAATAAATAAATAAATAAAGGCTTAGTATAGAACT
CTTCCCAGTCTTTTTTCTCCACTTTGATTTTTTTTTTTTTTCTCAATCTCTTCCATGACAATTCAGGGACACATTAATTGTGCAAAAGGCAGTCACTTGT
CTGTATTGTCTATTTTTATATCACTTAAATTGGTTTTTCATTTGGTTGCTATGTTGACATTTTATGAAAAGGGAACTAAACTTGTGAATTGACTGACAGT
GGAAATCATAGGATTTTCAAAAATAAGTTTTGTAGTTACTTAAAAATTAGTATTCCAGTTTTCGGTCGTTCATTAGTTTAAATGTTACCAATAATATTTT
CTTTATAAAAAGAAATTATGTTTTATATTGTAGAGGAAAAATGATTTAGAAAAACAGAAATCTATTTCTGAACAAATTTAGTGATGCTGATGTAAGAAAA
AGAAAACCACAAGAAGTCATCCCAAATTTAGTAATGCTTCCTATCTTAAACACATGATTTCACTTGTCTTCTGGCTAGCTAAAGGTTACAAAATGTCACC
ATAATACCTTTTACTTCCTTATGAGTTCTTGCTACTCCACCCCCTACCCCCAAATATGGTAGATCGAGTTGTAAAAACCCTGAAGTATGACAATATAGTT
TATTGCACTTATAGTTAGAATTATTCTGCCAAGATGAGCTGAGAAATGGAGGAAATGGATTTAAATTTACAGCAGTCCAGTGATACACAATATGCGTTTT
CCAGACCACTGAAACAGCAAGCCAACTTTTAACTTTAATACTTCATACAGTGGAAAAGTTACAGCTGTAATAAAATCAACAGATACATCTCTGGTTAATG
TTCTCAAATGAGAAAATTGACTGCAAGAACATTTGTCCAAATACATGTTTTTATATATTTTATGCTACTTTCCAGAATATTAACAGTTTTACATAGCGCT
GTTTTGGAAGTCACTCATTGTTTTCATCTTTCTGATTAAGAAATAGGGCCAAAGTTGTACATTGCACTAGTAGTAGACTTTTAAAGATGTCTTTGTCTCT
TTTTCAGTACTAAGCTTCAAGTTCATAGATTATCCTTGATCTTTCCTTTCCCTAGGTAGAGATTTAGAGTATTTGTTTATGTGAGATATATATAAAAAAA
AAGGAGATTTTAACAAATGACTGTTTGATTCTTGGGTAGAAACTAATACTGATCAAGACCAACCAAGTATTCAGACAAGATCGGGCGTGTTCAGGGTGGT
ACGGCCATAGACGACAACCAAGTATTCAAACATTGAGTGTTCAGTGGAGGCTGTACAGATATCCTGGGTTTTGATTCAAGATAGTGAGATAGCCATCCTA
TGAGAATGTGAACTTGAAATAAGATTTTGATTACTTTTTTTTCCTCCTTTAAAGGTTTGTTCAATTTTAACTATTTTTTTTCAAAATCTGCATTATCACA
GTATATTTTAAAAGAATGACTAATTTACTGTGATATATTTGGGAGTTACCTTGAAAGAGATTATCTTGTAATTTAAAATACCAGAGGTAGAGTGAAGAGT
CAGGTGGTAAAAGAGAAGGAGACTGGATGTTTGTACCCGGTTTGCTTCTTCCCCTTTGTTCTGCTGCTGGTTTTATTTTAGCTGTTCTGTTTGCCTCACC
GCAGGCAGCGTCACCACTCCGGTTCCAATCTTCTGGACGTAGAGTTTTCAAACCATCTATAAATTAGCAGTCTAAGTGGAACTTTGGCAAATGAGGTTGC
CAACAAGCATTTTCTTTATATTTAGATAATTTGAGCTCATGGCCTCTGGGCATTTGGTAAGAAGTCCAGTAAAGAGAAGCCTAAAGAACAGAATCTTTAT
TATGAGTAGTCGCCTTTTTCCACTCAGCAGTTTGATTCCAAGCACCCTGAGAAAAACTAGAGACATAGTCTAGTTGGCAGGTTTTTTGAAGAGAATGAGA
AGCCCAAACCAAAAGATAATGAAGACCACAGCAGAGAACTACCGAGGCAGCTGGCGCAGATGCTTTTTTGGCACTGTTGAGAAAGGCTTCAGACCCACAG
TCTGAAGAGATGGAGAACCCCTCCTCCAGGAGCAAGGAATAAGAATGACAATTGTTCTGTAGGACAGTTGACTTAGATTCAGGAAAGTTCTTCAGAAAAT
ATATTCAGATCACAAAAAAGGTGTTAAAATCCCAGGATTTTTCAGCCAAGGATGGCACTTGCTTCTTTCAGCATCACTCATCAAGTTGAAATTTATGAGT
GTCCTTTGTTATCACAAACAAAGCAAGCAAACTGAACAAATGAGAATGCTTCTTTAGTATYTACATAGCACTTTAAAAGCTCTGTTTTCTTTACAAAATG
TGTGTATGGAAAGGTAAAATGGGAATAAATAGTATTAAATTCTGTTCTTAGAACCTACTGTATAGTGATTGAACAGCTAAACAGAACGAAAAAGCATGCA
CATCTTACAGATACAGAGATCATGACTTTGGTAGATGAGACTAACATGTATGAAGGTGTAGGAAGAAKGTTTATTTTTCAGTCCAAGGAAGCAATTCACA
ATCAACTGTTAGAGAAGCAGCAAATAGCGAAGAAAAAATTAAAGAACTAGAACAGAAAAAGTCCTACCTGGAGCGGRGCGTTAAGGAAGCTGAGAACAAC
ATCCGGGAGATGCTGATGGCACGAAGGGCCCAGTAGGGAGCCTCTCTGGGAAGCTCTTCCTCCTGCCCCTCTCATTCCTGGTGGGGGCAGAGGAGTCTCT
GCAGGGAAACAGCTTCTCCTCTGCCCTGATGGATGCTTTATTTGGATGGCCTGGCAACGTCACATTTTCTGCATCACCCTGAGCCCCATTTGCTTCCCAG
CCCTGGAGTTTTTACCCTGGCTTTGCCTGCCACCTCTGCCCAGGACACTCTTCCCTCTTGGGGTGTGTGATGAACTCCCAGGAGAGGAAAGATGGGAGCC
AGGGCAAGATAGGAAGCTCTGCCTGAGCTTTCCACTAGGCACRCCAGCCAGACCAATAAAAAGCATCTGTCCCACTCTGCTAAGCCTGCTTTTCTTGAGC
AGAGGGTGAGAGAGGCAGTGGCCATCTCCACCTCAGCTCCTGCTCCCTCTGCATCAGAGCCCTTCCTTTCTTGGGGGATGGGCTCTTGCCCTCTTCTCTT
TTCCCTTCCTGTATCTTTGACTAACGCCTCAGCTTTCAGGCCTACATGTAGCAGACAGAAGAGGAAGAAAGAACAGACGTTCACAGCTGAATCTCAGTGA
ACAGAATAGCAGTCCCTGGATGGCAGTCTGCCTAAAGATTCCTTTCCCTGCCTTCTCCCATACATTCCAAAAGGAAGTTCAACAGTCAGCAGCACCTCCA
AGACTGTCTCCTTTTGGCCAATATCATAAGATGGACGCCGTAATCCTGAGGCCTCCTAGAGGCTGAGGGGGCAATGGTGTGCTCCAGCTGGCTCATCCCA
GCCCAGGTGGGCCAATTATTCAATTTTCAAGAATTTTGTTGCAAGCCAGTTGTTAAACACAGCCATTATAATTATGTAAATTTGCAAATTATGTTAAAAA
CAAGGACAATAAATACTCAAAATGCAAAAAAAAAAAAAAAAACCTACTGCATAGTGTAATAGTGCTCTCACTTTTCTCTCCTTGATTCTGATGTCAATCA
CTCATTGTCACCTCCACTAGAGGGGGATAAAAAGGATAATAGGAAATCAGAATATTTTGATTTGTAGTTCAACTGTTGATCAATTATCTTTGAGACTTTT
AACATTCATGACTAAGGAGGATTAATAATTAACATGAGCTGTAGAATTAAGGTTTGTATGGCATGATAAGTATAAACCAGTTTTGGGACCGCTATAATTC
TAAAAAAGCAGGTAGACTAGATGATTAGTTGTACACTTATTACTGCTAATTCTTGATTGTAGAACAAATTTTCCTATGAAAACCATGTTGTGTATTTTAT
ATCTCTATTAGTTCGTTAAAAGTTTAGCAGTTTTAGATGTCGAACCAGTAAAAAACAAGTTGCCCATTCTATCATTTTTTTTTATTGTGGTAAAATATAT
TTAAGATAAAATTTACGATTTTAACCATCTTAAGTGTACATTGGTACAGTGGCATTGGTTACGTTCACAATGTTGTACAACTGTCATCCCTATCTATTTC
CAAAGCTTTTTCATCACCCAAACAGCTCTATACCCACTAAACAACAACTCCACATCACCCACTCCCCAGCCCTGGTTATCTCTGTTCTACTTTCTGTCTC
TATGAATTCGGATATTCCAGTTGTTTCATATAAGTGGACTCATATAATATTTGTCCTTTTTGTATGGCTTATTTCATTTAGCACAGTGTCTTCAAGGTGC
ATCCATGTTGTAGCATGTATCAGAATGCCATTCCTTTTTATGGCTGAGTAATATTCCCTTGCATGGATATATACCACATTGTGTTTCTCCATTCATCTAC
TGATGGATACTTGGGTTGTTTTTGCCTTTTGCTATTGCAGATAATGCTTCAGTAAACATTGGTGTTCAAGTATCTGTTTTAGTCCCCACTTTTAGTTCTT
TTGGGTATATACCCAGGAGTGAAATGCTGGGTCACATGGTAATTCTGTTTTGCTTTTTAAGCAACTGCCAAACTGCTTTTCACAGCTGCTATACCATTCT
GCATTCCCACTGCAATATATATGGGTTCTAATATCTCTACATTGCTACAACACCTTTTTTTAAAAAAAAAAAAAAAAAAAAAGCTGTCCTATTAGGTGTC
AAGTGTTATCTCATTGTGGTTTTGATTTGCATTTTCCTAATGGCTGCTGATGTTAAGCATCTTTTCATGTGCTTATTGGTCATTTGTATGGGTTCTTTGG
AGAAATGTGTATTCAAGACTTTTGTCCATTTTTAAATTGGGTTGTTTGCCTTTTGCCTTTCTATTCTTCTCTCACTTTTAAATTGATTTTCTCCCATATT
TCTCCACAAAGTCAAAAAGATGATTTCATTTGAACACAGATAAATGCTGTCAGCCTTCCATTGCCATATACATTGAATTAAGGTCAAATGCTTTTTGTGC
TGTTGCTAAAATCACTTGAGAATCTGTCTCTCTTCAACTGAAAGAATTGTTCTGGATGCGTTGATGCTGTGGAATTCCTTGTACTCTCTCCCAAATCTCA
TTTAACAAGCTCACATTTAGGGTGTGATTCACTGTGAAGTATTCCAGAAAATAAAATCCATTTTCTCAGAATGATGAGAAATTTTACACCTTGAAGAGAC
CATCTCTTTTCCAAACTGAGATCCACAGATTCTTGGAGATCCACAAATATATTCTTGGGCTCTGAGAGTTTTAGAATTTTAAAATAATCTGTTTTTATAT
CAATAATCTAAAAGGTCATTAGAAAGCCCACATTTCACAATACAAGGACATTTTCCTGGAATGAGACTGTTTTCTTACATTAGTAAGATGGAAGTGACTT
GCCTAAGATAACACAGCAAGTTAAAACCAACACTAAAACTCATCTTTGGAAGCTTTTCTCAGTGTTCTTTGTTACTAGTGTGGAGATCTTGCAATGATTC
TGTCTTCATTAAGTCTACAGGTAGTGGGGAAAGCAGAAAAAGAACAAGTATTAACTAAAATGATGAGTGCTGTAAGGGAGAGAAATGGCAGTATGAGTTG
TGTAGAATGAGAGCAGTTGCATAGGATGAGTTAAGTTACTGTGAGAGTTTGAGGAGGTGGTTTTTATGCCGATAGTTGAAGAGTGAATTGGAGTTACCTT
AAGGGGGTTGTGAGAAGAACCATGTTACAGATGGAGGAAATGAGATGTGAAGGCTGTGATGTGGGAAACAGCTTAGTTTACTCCCTGATTTAAATGGAGA
AAAGGAATCCAGTGAGGCTTCAGAGAGAAGCAAGAACTAGGTTATTCAGGGTTTAAGACAATCAAAAGTCAAAATAGAGTTTAAACAGGGGAGTGACATA
ACCTGATTTGCATCATGCTGGCTGTAGTATGCAGAATTGATTGGAGAGGCAAGGATGGCAGACAGGACGCCAGGTGGGAAGCTATGGAAAGGTGCATATG
GAAGAAGAGAGTGTCTTTGGATTCCAGTTGGTAAGTGGAAGAGACTGAAGCATGTGGCTGAATGTAAATGTTTAATAAGTAGAATTAAAAGGACATGGCG
ATTGGTTTGATGGGGATGTCTGGGCCTTCAATTATGACTCCCTGTTTTTGGCAATGATCAGCTGGGAGATTGGTGGCAGCATTTACTAAGACAGGGCTCA
TTGAAGGAGGACCAGTTTTAGGGAATAGAGGATGAATGGAGTTTTTAACCTGTTGAGTTTCAGTTGCCTGTGAGATATTTCAATGGAGTTACCAAATAGA
TATTTCTATGTAGTGTCAAGGTTCAGACTAGAGGACTGAGGCAGAGATATAAATTTGGTCTTAATATATCCATAGTGCTTGAAACTATATGTGTGGAGAT
AGTTATATACTAATGGTTGTCAAATTAAGCATTTTTTCCAATTCCTTTCCCAGAATCTAGTCATGTGAAATGATGAGGAACTGGAATGTACAGTGTATAC
ATTGTTCTTGGCAAAACTAAATTTAAATTTCTGCTTAACCTAATCAACCAAAAAGCCCTTTTTATTTCTGCCTGTGTAAAATCTTTCTTCAACATATTAA
GCCATTTTTCTGTCTTGGTAAATATGATAGGGTGAAATAAAATTTAAATTGAATTTAGATAGCCCTGAATTGATGATTCAAGAACTTTTAGAATCTTAGT
TTTATTTTTGAGTAGCAAATAACATTATACTGTAGATATAAAAAATGTTGAAGATTATCCCAGGAAGTGCTCTGGAAGCTGCTTTTAAAAATAAATAACT
TTTAAACTGCCTTTTCTCCCTTAGCATTTGCCCATTTGTTCTAAAGGTAGAAGAACAACTTTCAGTGTGTTAAGGGTTTTTAATAGTTAATCACAGTTAT
ATGGCATTTGTTTTTGTTTAATATGTGGATTTTTATGTAATGCCACCCAGAGGCCTAGGTATATCAGTACATTCCTCAGCATTATTAATGTCATCCAAAT
AGATTGTCTTTGATTACTGATCACTGACTCCATATATAGGGCAGTGATTTCAAAATTATTCTACTACCATTGCAAGTAGACATGTATACAGTAAAGAACC
ATCCAAAGGCCAGGAGCAGTGACTCAGGCCTATAGTCCCAGCACTTTGGGAGACCAAGGTGGGAGGATCGTTTGAGCCCAGGAGTTCAAGACTAGCCTGG
GAAACATAGTGAGACCCCATCTCTACAAAAAATTTTAAAAATTGGCTGGGCATGGTGGGATGCATACTTGTAGTCCCAGCTACTTGGGAGGCTGAGGGAG
GATCGCTTGAGCCCGGGAGGTCCAGGCTCCAGTGAGCCATGTTCACACCACTGCACTCCAACCTAGGCAACAGAGTGAGATCCTGTCTCTAAAAATAAAA
ATTCTGAAAAGTTACATCTAAATTAGGTTTGAGTAAATGAAGTCATGAGCCAACTGCATAGGTGATCTTTCTAGTGGTAGCAATACCAAAGTGGGCCTTG
TAAAAACAAACAAACAAACAAACAAAAACACCCTTTTAAATGTAGTTCAGGGAGAAGGAAGCTAGTATTTCAACTTACTGTATGCCAAGCACTTCTAAGT
GCTTTACATTATTCTCTTTAATATTATTTCTTATATTCATCACCACAATCCTCATTTACAACTGAGGAAACAGAAGGAGGTTAAATAGCTTTGCCCAAAG
TTACACCACTGGCATGTGGTAATGTAGGGCTTCCAGCTTGAGTATATCTAATTTTATAGCCATCATTCTTTCTCTTTCCATCTCTGTATCTCTCTGGGAG
TCAGGAGACCTATATTCCTGTGTTTTTGTTGTTGTCGTTTTGAGACAGAGTCTCACTCTGTTGCTCAGGCTGGAGTGCAGTGGTGCCATCGTGGCTCACT
GCAACCTCAACCTACCGGGCTCGAGTGATCCTCAGCTGTGCCATCTCGCTATGGAACCTTGGCTAAGCCACGTTCTGAGCTATGGTAAAGCACAGTAATA
GGTTCACATTCACTCTCCCCCATCATGCTTATGCCCCCTACCTCGTCTAGAAGGCTCCACACTTCCTTTCTGTGTGCTCGTTCATTCAGTCGTCAGTCAT
TTCGTCAGTTAGTCAGACAACAGACTTTGTTCATACGACATTAGTGACTGAGGTTCTGTTGAGTGACGCAGATAGGAAATAACCTAGCTGCATGGTTGCT
GTCTTTCAAAAGGCCGTACTCTTAGGATCCACATACAGGCCCCCATCTTCTGTGAAGCCATTGTCCCCAGCCATCCCATTTTGACGAGTTTTTTTGAGTC
CCTGTGAAACTTTGGCTTTTTTACATTTATCTGGCAGTTAACTAGGTGCTGCTTTGTGACAGTTCTTCTATTATTGGATGCAATTCTTAATTCAAATCAT
GTATCATTACTTAACTTTTCACCTCTTTGCAGCTTCTTTCTCCCAGAAGATTACAAGTTCCTTAAGAGCAGGCTTATACTTCTTTGTATAATATTTCCCA
CAGTGTCTCTTAAATAGCAAAGTTTTTTGACCTGATTTACTAAAAAAAAGTTTGTTGACTTGGCTTAAATTTTATTTTCTTTTCTTTTTTTCTTTTTTTT
TTTCTTTGAGACAGAGTCTTGCTCTGTGACCCTGGCTGGAGTGCAGTGGTACGATTTTGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAACAATTCTCG
TGCCTCAGTCTCCCAAGTAGCCAGGATTACAGGTGCCCACCACCATGCCCAACCAATTTTTATATTTTTAGTAGAGATGGGTTTTCGCCATGTTGTCCAG
GCTGGTCTCGAACTCCTGACCTCAAGTGGTCCACCCTCCTCGGCCTCCCAAAGTGTTGGGATTACAGGTGTGGAAGCCACCGTGCCTGGCTGACTTGGGT
TAAATTTTTAAGTTTAGAGTTTACTCCCTGGTTGAATGATTTGGGCCAAGTTACATAGCTTCTGTGAACCTCCTCAGTTTTCAACAAAATGGGAATAATT
CCTACTT


SNP Information

Context             (SEQ ID NO:6311):
GCTTCTTTCAGCATCACTCATCAAGTTGAAATTTATGAGTGTCCTTTGTTATCACAAACAAAGCAAGCAAACTGAACAAATGAGAATGCTTCTTTAGTAT
Y
TACATAGCACTTTAAAAGCTCTGTTTTCTTTACAAAATGTGTGTATGGAAAGGTAAAATGGGAATAAATAGTATTAAATTCTGTTCTTAGAACCTACTGT
Celera SNP ID:            hCV26856771
SNP Position Genomic:     5861
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,9)   total(C,9|T,4) 
SNP Type:                 UTR 5


Context             (SEQ ID NO:6312):
ATTGAACAGCTAAACAGAACGAAAAAGCATGCACATCTTACAGATACAGAGATCATGACTTTGGTAGATGAGACTAACATGTATGAAGGTGTAGGAAGAA
K
GTTTATTTTTCAGTCCAAGGAAGCAATTCACAATCAACTGTTAGAGAAGCAGCAAATAGCGAAGAAAAAATTAAAGAACTAGAACAGAAAAAGTCCTACC
Celera SNP ID:            hCV11922962
SNP Position Genomic:     6068
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:6313):
TTCAAGAATTTTGTTGCAAGCCAGTTGTTAAACACAGCCATTATAATTATGTAAATTTGCAAATTATGTTAAAAACAAGGACAATAAATACTCAAAATGC
A
AAAAAAAAAAAAAAAACCTACTGCATAGTGTAATAGTGCTCTCACTTTTCTCTCCTTGATTCTGATGTCAATCACTCATTGTCACCTCCACTAGAGGGGG
Celera SNP ID:            hCV26856773
SNP Position Genomic:     7126
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:6314):
GGACACTCTTCCCTCTTGGGGTGTGTGATGAACTCCCAGGAGAGGAAAGATGGGAGCCAGGGCAAGATAGGAAGCTCTGCCTGAGCTTTCCACTAGGCAC
R
CCAGCCAGACCAATAAAAAGCATCTGTCCCACTCTGCTAAGCCTGCTTTTCTTGAGCAGAGGGTGAGAGAGGCAGTGGCCATCTCCACCTCAGCTCCTGC
Celera SNP ID:            hCV11922956
SNP Position Genomic:     6543
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:                 SILENT MUTATION


Context             (SEQ ID NO:6315):
TTCAGTCCAAGGAAGCAATTCACAATCAACTGTTAGAGAAGCAGCAAATAGCGAAGAAAAAATTAAAGAACTAGAACAGAAAAAGTCCTACCTGGAGCGG
R
GCGTTAAGGAAGCTGAGAACAACATCCGGGAGATGCTGATGGCACGAAGGGCCCAGTAGGGAGCCTCTCTGGGAAGCTCTTCCTCCTGCCCCTCTCATTC
Celera SNP ID:            hCV27469964
SNP Position Genomic:     6177
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Gene Number:                 50
Celera Gene:                 hCG28480 - 67000129466049
Gene Symbol:                 ICAM4
Protein Name:                intercellular adhesion molecule 4, Landsteiner-Wiener blood group;LW
Celera Genomic Axis:         GA_x5YUV32W1A1(1503284..1516841)
Chromosome:                  Chr19
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1711):
GGGTTCACTCCATCCTCCTGCCTTAGCCTCCTGAGTAGCTGGGACTACAGGCGCCCACCACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGG
GTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCATGT
CTGGCCTGGCCAGGCTGGTCTTGAACTCCTGACTTCCGGTGATCCATCTGTTCTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCACGCCATG
CCGAAGCCCAGCTTGTTTTTAATTTTTTTTTTTTTTTTTGGAGAAATGAGGTCTTGCAATGTTGCCCAAGCTAGCCTTGAACTCCTGGCCTCAAATGACC
CCGCCTTGGCATCCCAAAGTACTGGGATTACAGATGTGAGCCACCATGCCCCAGCCTTGCTTTCTTGAGATACGATTTAGAATACCATAAGATTCATCCC
TTTTAAGCACATAATTCAATGACTTCTGTACAAACAACCATGACTACAATCTAATTTTAAAATATTTCAATCACTCTAAAAAAGAAACCTCCTGCTTATG
TACAGCGACTCTGTCTACCTCTTAAGTGAATTCTCCTACCTTTAATAGCCCTATTTTACAGTTCAGGAAACTGAGGTTCAGAGAGACAAAGTCACTTACC
CACAGCAAAGAAGCAAGGCTGGGTATCAAATGCAGGACCCCCCCGGTCCTGATGCTTTTTTTTTTTTTTTTTTTTCCTCTGAGAGAGACTCTCACTCTGT
CACTCAGTCTAGAGTACAGTGGCGCGATCTCAGTTCACTGCAATCTCTGCCTCCTGGGCTGAAGTAATCCTTTCCTCACAAGTAAACCTCAGCCTCTCAA
GTAGCTGGGACTACAGGCACACAACACCACGCCTGGCTAATTTTTGTATTTTTAGGTAGAGACGGGGTTTCACTATATTGGCCAGGCTGGTCTTGAACTC
CTGACCTCAGGTGATCCGCCTGCCTCGGCCCCCCAAAGTGTTGGGATTACAGGCGTGAGCCACCACACGCAGCCTTTTTGTTATTAGACTCTGTCATTAC
TGACTTTTTTTTTTTTTTTAATAGAAACAGGGTCTTTCTTTCCCAGGCTAAAGTACAGTGGCATGATCACAGTTCACTATAGCCTTAAACTCCTGGGCTC
AAGTGATCCTCCTGCCTCAGCCTCCCAAGTAGCAGGGACTACAGGTGTGCACCACCACACCCAGTTAACCATTCATTCATTCATTCATTCATTTATTTTG
AGATGGAGTCTCGCTCTGTCACCTAGGCTGGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGAGATTCTCCTGCCTCAG
CCTCCCGAGTAGCTGAGACTACAGGCGTGCACCACCATGCCAGACTAATTTTTGTATTTTTAATAGAGACGGGGTTTCACTCTGTTGGTCAGGCTTATCT
CGAACTCCTGACTTCGTGGATCCACCCTCCTTGGCCTCCCAAAGTGCTGGGATTAAAGGCGTGAGCCACCGCGCCCTGCCAACCTTTTTTTGATTTTTCT
TAGAGATGGGGGTCTCCCTATGTTGCCCAGGCTTGTCTTGAACTCCTGGCCTCAAGTGACCCTCTTGCCTTGGCCTCACAAAGTGCTAGGATTACAGCCT
GAGCCATCACACCTGGCCAACAGGTTTTTTTTTTTGTTTTGTTTTGTTTTTTAAAGAATGTCTAGGCCAGGCTCATTTACTTTCACCTGTAATCCCAGCA
CTTTGGGAGGCCGGGGTGGGCAGATCACTTGAGGTCAGGAATTCGAGACCAGCCTGGGCAACATGCTGAAACCCCGTTTCTACTAAAAATACAAAAATTA
GCTGGGTGTGGTGACACGTGCCTGTAATCCCAGCTACTCAGGAGGTTGAGGCAGGAGAATTGCTTGAACCCAGGAGGCAGAGGTTGCAGTGAGCCAAGAT
CATGCCATCACCCTCCAGCCTGGGCGACAGAAGGAGACTCAGTCTAAAAACTTAATTAATTAATTAATTAAAAATAAAAATACAAAAATTAACCTGGTGT
GGTGGTGTGTGCCTGTAATCTAAGCTACTCAGGAGGCTGAGGCAGGAGAATCCCCTGAATCCCAGAGGCAGAGGTTGCAGTGAGCCAAGATCGAGCCACT
GTTTGCCCAGTCTAGTGCACTGGGCTGCTGAATTTATTTGACCAGACACCTAGCAATAGACTTTGAAGTTCTTTTCCACTTTTCACTCTAAGATGCTGCT
GTCATGAATAAGGAATATTTTGATCCCCTTCACAAACACTCGGGGCCCTCTTACCAGTTTTCACTGAAGATCTTGACATTCCTATCTGCTTAGGTGTCTG
GGCGTGTTTGGGGGAGATACTGAAGAGGTAGGGCTCCCAGGCAGGTGCAGTTCGTCTGTTAGGCAGGCAGCAAGGTCCACTTCACCAGACACCCCCACCT
CTGTTTTCCTGCAGGGACTCCAGAACGGGTGGAACTGGCACCCCTCCCCTCTTGGCAGCCAGTGGGCAAGAACCTTACCCTACGCTGCCAGGTGGAGGGT
GGGGCACCCCGGGCCAACCTCACCGTGGTGCTGCTCCGTGGGGAGAAGGAGCTGAAACGGGAGCCAGCTGTGGGGGAGCCCGCTGAGGTCACGACCACGG
TGCTGGTGAGGAGAGATCACCATGGAGCCAATTTCTCGTGCCGCACTGAACTGGACCTGCGGCCCCAAGGGCTGGAGCTGTTTGAGAACACCTCGGCCCC
CTACCAGCTCCAGACCTTTGGTGAGGATTGAAGAAGCCAGCAGGGAGAAGGTGGGGGTGGGGTATCCTGCAATGCGGTGCCTGTGGCCACAGGATCTTTT
GAGATGGGTGTGGCCCCGGCTAAGGGGTGCATGTGTTCTAGGCGTATGTGACCTAGGCTGCTGAGTGGCCCTGGAAGAGGATCTCGCAGGAGGGGGAATG
AAATGCCCCAGAGAAGGGCTTCGGGACGTCCATCCCTGTCTGCTCACACCTTTCTTCTCTCCCTAGTCCTGCCAGCGACTCCCCCACAACTTGTCAGCCC
CCGGGTCCTAGAGGTGGACACGCAGGGGACCGTGGTCTGTTCCCTGGACGGGCTGTTCCCAGTCTCGGAGGCCCAGGTCCACCTGGCACTGGGGGACCAG
AGGTTGAACCCCACAGTCACCTATGGCAACGACTCCTTCTCGGCCAAGGCCTCAGTCAGTGTGACCGCAGAGGACGAGGGCACCCAGCGGCTGACGTGTG
CAGTAATACTGGGGAACCAGAGCCAGGAGACACTGCAGACAGTGACCATCTACAGTAAGAAGGGGCAGGGGCGGAGTGGGGCTTCTTGGGGGTGTGACCT
GAACCCGGGGCGGGGCTCACTGTGTGCCTATTCCAGGCTTTCCGGCGCCCAACGTGATTCTGACGAAGCCAGAGGTCTCAGAAGGGACCGAGGTGACAGT
GAAGTGTGAGGCCCACCCTAGAGCCAAGGTGACGCTGAATGGGGTTCCAGCCCAGCCACTGGGCCCGAGGGCCCAGCTCCTGCTGAAGGCCACCCCAGAG
GACAACGGGCGCAGCTTCTCCTGCTCTGCAACCCTGGAGGTGGCCGGCCAGCTTATACACAAGAACCAGACCCGGGAGCTTCGTGTCCTGTGTGAGTGGG
GCTGCTGGTCAATGGCCCCTATCCCCCAAGGCCCAATCTCCCTGAAGGTCCCATAAGGTCTTGCCTCCAAGTCCTGCCCCCACCCACCTCCATGTCATCT
CATCGTGTTTTTCCAGATGGCCCCCGACTGGACGAGAGGGATTGTCCGGGAAACTGGACGTGGCCAGAAAATTCCCAGCAGACTCCAATGTGCCAGGCTT
GGGGGAACCCATTGCCCGAGCTCAAGTGTCTAAAGGATGGCACTTTCCCACTGCCCATCGGGGAATCAGTGACTGTCACTCGAGATCTTGAGGGCACCTA
CCTCTGTCGGGCCAGGAGCACTCAAGGGGAGGTCACCCGCAAGGTGACCGTGAATGTGCTCTGTGAGTGAGCCGGCGGGCAGAGCTGGGTGGGGGCAGGG
GCCATGGACCTAATGCAATCCTCACCGCCTGTTGTATCCTCCCCACAGCCCCCCGGTATGAGATTGTCATCATCACTGTGGTAGCAGCCGCAGTCATAAT
GGGCACTGCAGGCCTCAGCACGTACCTCTATAACCGCCAGCGGAAGATCAAGAAATACAGACTACAACAGGCCCAAAAAGGGACCCCCATGAAACCGAAC
ACACAAGCCACGCCTCCCTGAACCTATCCCGGGACAGGGCCTCTTCCTCGGCCTTCCCATATTGGTGGCAGTGGTGCCACACTGAACAGAGTGGAAGACA
TATGCCATGCAGCTACACCTACCGGCCCTGGGACGCCGGAGGACAGGGCATTGTCCTCAGTCAGATACAACAGCATTTGGGGCCATGGTACCTGCACACC
TAAAACACTAGGCCACGCATCTGATCTGTAGTCACATGACTAAGCCAAGAGGAAGGAGCAAGACTCAAGACATGATTGATGGATGTTAAAGTCTAGCCTG
ATGAGAGGGGAAGTGGTGGGGGAGACATAGCCCCACCATGAGGACATACAACTGGGAAATACTGAAACTTGCTGCCTATTGGGTATGCTGAGGCCCCACA
GACTTACAGAAGAAGTGGCCCTCCATAGACATGTGTAGCATCAAAACACAAAGGCCCACACTTCCTGACGGATGCCAGCTTGGGCACTGCTGTCTACTGA
CCCCAACCCTTGATGATATGTATTTATTCATTTGTTATTTTACCAGCTATTTATTGAGTGTCTTTTATGTAGGCTAAATGAACATAGGTCTCTGGCCTCA
CGGAGCTCCCAGTCCTAATCACATTCAAGGTCACCAGGTACAGTTGTACAGGTTGTACACTGCAGGAGAGTGCCTGGCAAAAAGATCAAATGGGGCTGGG
ACTTCTCATTGGCCAACCTGCCTTTCCCCAGAAGGAGTGATTTTTCTATCGGCACAAAAGCACTATATGGACTGGTAATGGTTACAGGTTCAGAGATTAC
CCAGTGAGGCCTTATTCCTCCCTTCCCCCCAAAACTGACACCTTTGTTAGCCACCTCCCCACCCACATACATTTCTGCCAGTGTTCACAATGACACTCAG
CGGTCATGTCTGGACATGAGTGCCCAGGGAATATGCCCAAGCTATGCCTTGTCCTCTTGTCCTGTTTGCATTTCACTGGGAGCTTGCACTATGCAGCTCC
AGTTTCCTGCAGTGATCAGGGTCCTGCAAGCAGTGGGGAAGGGGGCCAAGGTATTGGAGGACTCCCTCCCAGCTTTGGAAGCCTCATCCGCGTGTGTGTG
TGTGTGTATGTGTAGACAAGCTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCATGGTTCACTGCAGTCTTGACCTTTTGGGCTCAAGTGAT
CCTCCCACCTCAGCCTCCTGAGTAGCTGGGACCATAGGCTCACAACACCACACCTGGCAAATTTGATTTTTTTTTTTTTTTCAGAGACGGGGTCTCGCAA
CATTGCCCAGACTTCCTTTGTGTTAGTTAATAAAGCTTTCTCAACTGCCTCAGCCTTGTGTGAGTTGAGGGGAGGTGTCACATCCAGCTGGAGTCCTTTC
TAAGCAGCCACAGCCTGATCCTCCCACTTCCTCCCCCAAGAAAACATTGTGGGTTGATGGCCATACCCTGAGGTTCTGGTCCAAATCGGACTTTCTATGA
CCTTCTGGGTCTCTAGTGAAAACTAAAGACTCCTCTCCAGAAAAAAACATTTGGTTTCTAATGAGGCCTGGAATCTTATTCTTGACCTGGGGAGCGGAAT
CCCTTTTTGCAGTACTCCCGGGCCCTCTGTTGGGGCCTCCCCTTCCTCTCCAGGGTGGAGTCGAGGAGGCGGGGCTGCGGGCCTCCTTATCTCTAGAGCC
GGCCCTGGCTCTCTGGCGCGGGGCCCCTTAGTCCGGGCTTTTTGCCATGGGGTCTCTGTTCCCTCTGTCGCTGCTGTTTTTTTTGGCGGCCGCCTACCCG
GGAGTTGGGAGCGCGCTGGGACGCCGGACTAAGCGGGCGCAAAGCCCCAAGGGTAGCCCTCTCGCGCCCTCCGGGACCTCAGTGCCCTTCTGGGTGCGCA
TGAGCCCGGAGTTCGTGGCTGTGCAGCCGGGGAAGTCAGTGCAGCTCAATTGCAGCAACAGCTGTCCCCAGCCGCAGAATTCCAGCCTCCGCACCCCGCT
GCGGCAAGGCAAGACGCTCAGAGGGCCGGGTTGGGTGTCTTACCAGCTGCTCGACGTGAGGGCCTGGAGCTCCCTCGCGCACTGCCTCGTGACCTGCGCA
GGAAAAACACGCTGGGCCACCTCCAGGATCACCGCCTACAGTGAGGGACAGGGGCTCGGTCCCGGCTGGGGTGAGGGGAGGGGGCTGGAAGAGGTGGGGG
AAGGGTAGTTGACAGTCGCTCTATAGGGAGCGCCCGCGGACCTCACTCAGAGGCTCCCCCTTGCCTTAGAACCGCCCCACAGCGTGATTTTGGAGCCTCC
GGTCTTAAAGGGCAGGAAATACACTTTGCGCTGCCACGTGACGCAGGTGTTCCCGGTGGGCTACTTGGTGGTGACCCTGAGGCATGGAAGCCGGGTCATC
TATTCCGAAAGCCTGGAGCGCTTCACCGGCCTGGATCTGGCCAACGTGACCTTGACCTACGAGTTTGCTGCTGGACCCCGCGACTTCTGGCAGCCCGTGA
TCTGCCACGCGCGCCTCAATCTCGACGGCCTGGTGGTCCGCAACAGCTCGGCACCCATTACACTGATGCTCGGTGAGGCACCCCTGTAACCCTGGGGACT
AGGAGGAAGGGGGCAGAGAGAGTTATGACCCCGAGAGGGCGCACAGACCAAGCGTGAGCTCCACGCGGGTCGACAGACCTCCCTGTGTTCCGTTCCTAAT
TCTCGCCTTCTGCTCCCAGCTTGGAGCCCCGCGCCCACAGCTTTGGCCTCCGGTTCCATCGCTGCCCTTGTAGGGATCCTCCTCACTGTGGGCGCTGCGT
ACCTATGCAAGTGCCTAGCTATGAAGTCCCAGGCGTAAAGGGGGATGTTCTATGCCGGCTGAGCGAGAAAAAGAGGAATATGAAACAATCTGGGGAAATG
GCCATACATGGTGGCTGACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGAGARTCGCTTGAGCCCAGGAGTTCGAGACCAGCCTGGACAACATA
GTGAGACCCCGTCTATGCAAAAAATACACAAATTAGCCTGGTGTGGTGGCCCGCACCTGTGGTCCCAGCTACCCGGGAGGCTGAGTTGGGAGGATCCTTT
GAGCCCTGAAAGTCGAGGTTGCAGTGAGCCTTGATCGTGCCACTGCACTCCAGCCTGGGGGACAGAGCACGACCCTGTCTCCAAAAATAAAATAAAAATA
AAAATAAATATTGGCGGGGGAACCCTCTGGAATCAATAAAGGCTTCCTTAACCAGCCTCTGTCCTGTGACCTAAGGGTCCGCATTACTGCCCTTCTTCGG
AGGAACTGGTTTGTTTTTGTTGTTGTTGTTGTTTTTGCGATCACTTTCTCCAAGTTCCTTGTCTCCCTGAGGGCACCTGAGGTTTCCTCACTCAGGGCCC
ACCTGGGGTCCCGAAGCCCCAGACTCTGTGTATCCCCAGCGGGTGTCACAGAAACCTCTCCTTCTGCTGGCCTTATCGAGTGGGATCAGCGCGGGCCGGG
GAGAGCCACGGGCAGGGGCGGGGTGGGGTTCATGGTATGGCTTTCCTGATTGGCGCCGCCGCCACCACGCGGCAGCTCTGATTGGATGTTAAGTTTCCTA
TCCCAGCCCCACCTTCAGACCCTGTGCTTTCCTGGAGGCCAAACAACTGTGGAGCGAGAACTCATCTCCAAAATAACTTACCACGCTGGAGTGAGACCAC
GAATGGTGGGGAGGGGAGGGTCCCACGGACATATTGAGGGACGTGGATACGCAGAAGAGGTATCCATGTGGTGGCAGCCGGGAAGGGGTGATCAGATGGT
CCACAGGGAATATCACAAACTCGAATTCTGACGATGTTCTGGTAGTCACCCAGCCAGATGAGCGCATGGAGTTGGGGGTGGGGGGTGTCAAAGCTTGGGG
CCCGGAAGCGGAGTCAAAAGCATCACCCTCGGTCCCTTGTTCTCGCGTGGATGTCAGGGCCCCCACCCACCGAGCAGAAGGCGGACTCAGGGGCGCTCCA
GGGTGGCTCGAGCTCACACACGCTGAGTAGACACGTGCCCGCTGCACCCTGGGTAAATACAGACCCGGAGCCGAGCGGATTCTAATTTAGACGCCCGCGA
ACGCTGCGCGCACGCACACGTGTCCTCGGCTCGCTGGCACTTTCGTCCCGCCCCCTCCGTCGCGTGCCGGAGCTGACCCGGAGGGGTGCTTAGAGGTATG
GCTCCGCGGGGTCAAAAGGAGAAGGATCAGTGAGAGAGGCATCCCCACACCCTCCCCTAGAACTGTCCTTTCCCCATCCAGTGCCTCCCAAATCTCTCTT
AGTCCCCAAATGTATCCCCGCCCTAAGGGGCGCTGGTGGGAGGAGCTAAATGTGGGGGCGGAGCTCGGAGTCCAGCTTATTATCATGGCATCTCAGCCAG
GGCTGGGGTAGGGGTTTGGGAAGGGCAACCCAGCATCCCCCGATCCCAGAGTCGCGGCCGGGGATGACGCGAGAGAGCGTGGTCGCCCCCAGAAGGCCCT
GGGCCATCATGCCGGCCTCCACGTAGACCCCAGGGGTCGCTCACTCCTGCCAGCTCGCCTTCACCAAGGCCAGGAGCTTAGCGCACGCTCGCCTCCCGCC
CCCCCGCCGCCTCTGCCGCCGCCCCCTCCTTGGAAACCAAGTTACCAACGTTAAACCAATCCCCAAGCGCAACTCTGCCTCCCCCACACCCCACCCGCCG
CGCCGCGCGGAGCCGTCCTCTAGCCCAGCTCCTCGGCTCGCGCTCTCCTCGCCTCCTGTGCTTTCCCCGCCGCGGCGATGCCAGGGCCTTCGCCAGGGCT
GCGCCGGGCGCTACTCGGCCTCTGGGCTGCTCTGGGCCTGGGGCTCTTCGGCCTCTCAGGTAAGAGCCCCGCTCTGGTTCGGGGTGGACAGGGCGGGGGC
GGAGTCCCTGGACCTGAGAAACGGCCTCCTGTCCCTCCCAGCTCTGCCCTCGCCTCGCTCCCACGCCTCTGCCCCCACCTCGAGCCTGAGTCTTCTCCCC
TTCCCCCTCCTCCCCAACACACACCCGAGCCCCAGCTTCCTGACTCCTCGATAGCCCCTACCCGCTTCGAGATCCTAGGTGTTCTTCCGCACCCAACCCT
TCGCCCTGGAGACCCAGTGTCTCTCCTGTCCGCTCCCCGGGTACCTCCTTACGCTGTGCTGTGCACCATGGTCCACGGACTGGCATCTTCCCCACTCGCG
GTCCGCGAAGACTCCATCTCTCCAACTACCCTGACTCAGAGGCGCTGTTCCCGCTCCACCCAGAGCCCTGGCAACCGGGTCCCTCAGCTGTTCCCGCGGT
TCCTTCCATGAGCCCAGCCTTGCGTCCCGGCTCCGTGTTCTTCACCGGGTGTAGGGTCCTTCCTGATCCTTGACCCAGCCTCGTCTCTCCTTTGCCCTTG
CCGCAAACGCACTCTCCTCGTATCCCGGCATTCTGCCAGGACCCTGAGAACTGGTTCATCCCCCATCCCCCATCCCGGGTCCCCTTCTCTCAGCCTTGCT
GTGTTCATCCAAGAACCCACCTTTCCTCTCCTCTACGCCCTCCCCCCATGCTTTCCCGCCGCTCCATCGGCGCTTTGGAGACCATGGCTCTCTGCTACCA
CGTCCCAGAGACACCCTCGAGGTTTAGACTCTGGGAGTGCGCCTTTAAACCGGAGGCCTGGGCACGACGCGGGACGCCTGGGTTCTTTCCCTGGCTGCAG
CCTCTCCTCCTCCTCCCCGCCCTCTGAGAACCCTTGACTCGACATAGGGGCGCTAAGATGTCAGGGAGTTGGCTCCCCAGGCTCAGCCCGCGTTTCCCTG
GGCAGCGGTCTCGCAGGAGCCCTTCTGGGCGGACCTGCAGCCTCGCGTGGCGTTCGTGGAGCGCGGGGGCTCGCTGTGGCTGAATTGCAGCACCAACTGC
CCTCGGCCGGAGCGCGGTGGCCTGGAGACCTCGCTGCGCCGAAACGGGACCCAGAGGGGTTTGCGTTGGTTGGCGCGGCAGCTGGTGGACATTCGCGAGC
CGGAGACTCAGCCCGTCTGCTTCTTCCGCTGCGCGCGGCGCACACTACAGGCGCGTGGGCTCATTCGCACTTTCCGTGAGTTCTGGGTGGCCACGCGCGT
ACTCCACTACTCTCCCTCCCTCCCAGGCCCCGCCCCCTGGGTCCCAGGGTCCTCCCCTTCAGGCCCCACCTTCTGTTCCAAGTCCCGGCGTTCAAAGAGC
TGCGGACTCTTCCCCCTTGCAGAGCGACCAGATCGCGTAGAGCTGATGCCGCTGCCTCCCTGGCAGCCGGTGGGCGAGAACTTCACCCTGAGCTGTAGGG
TCCCCGGCGCCGGGCCCCGTGCGAGCCTCACGCTGACCCTGCTGCGGGGCGCCCAGGAGCTGATCCGCCGCAGCTTCGCCGGTGAACCACCCCGAGCGCG
GGGCGCGGTGCTCACAGCCACGGTACTGGCTCGGAGGGAGGACCATGGAGCCAATTTCTCGTGTCGCGCCGAGCTGGACCTGCGGCCGCACGGACTGGGA
CTGTTTGAAAACAGCTCGGCCCCCAGAGAGCTCCGAACCTTCTGTGAGTGGGTGTGGGGAGGAGATGGGGACCCAGTGGGGTCGGTCGGTGTTTAGGAGG
TTTAGAGGTAGATACATCTGAATGCTGACCCCGACTTCAACCCTCGCCGGCTGAGCTGTTTCCCCCTCCGTGCCTTGAGGATGATAATACGATAAGATAG
TGCATGTCAAGTGCTTAGGACATATTGAGCGCTCGGAGTTAGTTCAAACTTGGTTCTTCGACCCCTAGCCCTGTCTCCGGATGCCCCGCGCCTCGCTGCT
CCCCGGCTCTTGGAAGTTGGCTCGGAAAGGCCCGTGAGCTGCACTCTGGACGGACTGTTTCCAGCCTCAGAGGCCAGGGTCTACCTCGCACTGGGGGACC
AGAATCTGAGTCCTGATGTCACCCTCGAAGGGGACGCATTCGTGGCCACTGCCACAGCCACAGCTAGCGCAGAGCAGGAGGGTGCCAGGCAGCTGGTCTG
CAACGTCACCCTGGGGGGCGAAAACCGGGAGACCCGGGAGAACGTGACCATCTACAGTAAGGAAGGAGGCGGGGTCTCCGCGGCTCCGAGGTGGGACCAG
AGGAATGCGAAGGCGGGGCGAAGAGTGGGCGGGACCTCAGTACCGGAACAGGCGTGGCCCGAGGGGGCGGGGCAGGTGGGGGCGGAGACGTAATCGCTGG
GGAGGAGGAGCCTGTACAGCCTGAGAGGCGGGGCGCCGTACCCTAGTTCGTTCTCAGCACCCCGAGGATTCGGGCAGATAAGGGGCGGGCCTTGACCGGA
GGGAGGGGTATGGTCAGTATACTACGACCAAATGCTCCGCCCCCAGGCTTCCCGGCACCACTCCTGACCCTGAGCGAACCCAGCGTCTCCGAGGGGCAGA
TGGTGACAGTAACCTGCGCAGCTGGGGCCCAAGCTCTGGTCACACTGGAGGGAGTTCCAGCCGCGGTCCCGGGGCAGCCCGCCCAGCTTCAGCTAAATGC
CACCGAGAACGACGACAGACGCAGCTTCTTCTGCGACGCCACCCTCGATGTGGACGGGGAGACCCTGATCAAGAACAGGAGCGCAGAGCTTCGTGTCCTA
TGTGAGTTGGTGATAACCCCTCGCCCCCCACCTTCTGGTGACTTCCAAGGACCCGCCTGCTCCCTCACCGTGTCGTGGAGGCGGAGCCATTTCTTACGTC
TAAGCCTCTGTAACCCCACGCCCTGCCCGCAGACGCTCCCCGGCTAGACGATTCGGACTGCCCCAGGAGTTGGACGTGGCCCGAGGGCCCAGAGCAGACG
CTGCGCTGCGAGGCCCGCGGGAACCCAGAACCCTCAGTGCACTGTGCGCGCTCCGACGGCGGGGCCGTGCTGGCTCTGGGCCTGCTGGGTCCAGTCACTC
GGGCGCTCTCAGGCACTTACCGCTGCAAGGCGGCCAATGATCAAGGCGAGGCGGTCAAGGACGTAACGCTAACGGTGGAGTGTGAGTGGGGGTGCGCAGG
GTGCATTTCTATCTGGTTCAAGGTCTGGAGGGTGGCCAGCCTCCAGGGAAGAGTAGGAGTAGGGTATGAGGTGTCCCTTTGGGTGAGGTTTTGGGAAAGG
GAAGAGGCTGGTTAGTGGGGTTGGAGAAAGATCTTGGAGGATGGAAGGGACCGGGTGGGCGTGCCCCTAGCCTAGGGCGTGGTATTTGGGCGGAGTCGTG
GAAAGGCGGGCAGTCCAGAGTGTTTAAGTTTTTAGACGAAAAAGGCGCCACTGGTGGCTCAGGAAGCTCCCAGACAGAGTGCATGCCTCGACTAGCGTGA
CACCTCCTTGGATCGGCGTCCAAGGGTTATGCAGGGACAACACTTCGTGGAAGCCTTGCCGCGCCAAGGAGGGTCTAGGGACGTCAGATTTGCCCCCAAA
CCCCAAAGCCAACAATACACTCCCTCCTCCAGACGCACCAGCGCTGGACAGCGTGGGCTGCCCAGAACGCATTACTTGGCTGGAGGGAACAGAAGCCTCG
CTGAGCTGTGTGGCGCACGGGGTACCGCCGCCTGATGTGATCTGCGTGCGCTCTGGAGAACTCGGGGCCGTCATCGAGGGGCTGTTGCGTGTGGCCCGGG
AGCATGCGGGCACTTACCGCTGCGAAGCCACCAACCCTCGGGGCTCTGCGGCCAAAAATGTGGCCGTCACGGTGGAATGTGAGTAGGGGCACCGCGGAGT
TAGGCAGGATCTGTGGGACAACCCCGGCTGGACTTCCTGGCCCCCGTGTGAGCCCCTGCAATCCTGTTTCCCAGATGGCCCCAGGTTTGAGGAGCCGAGC
TGCCCCAGCAATTGGACATGGGTGGAAGGATCTGGGCGCCTGTTTTCCTGTGAGGTCGATGGGAAGCCACAGCCAAGCGTGAAGTGCGTGGGCTCCGGGG
GCGCCACTGAGGGGGTGCTGCTGCCGCTGGCACCCCCAGACCCTAGTCCCAGAGCTCCCAGAATCCCTAGAGTCCTGGCACCCGGTATCTACGTCTGCAA
CGCCACCAACCGCCACGGCTCCGTGGCCAAAACAGTCGTCGTGAGCGCGGAGTGTGAGCGAGGCCCAGGCGGGTAGGGAGCAGGGGTGCCCCACGGTCCA
GGCACTCCCTGACATCCCCCATGGCTGCTTTGCAGCGCCACCGGAGATGGATGAATCTACCTGCCCAAGTCACCAGACGTGGCTGGAAGGGGCTGAGGCT
TCCGCGCTGGCCTGCGCCGCCCGGGGTCGCCCTTCCCCAGGAGTGCGCTGCTCTCGG


SNP Information

Context             (SEQ ID NO:6316):
CTGAGCGAGAAAAAGAGGAATATGAAACAATCTGGGGAAATGGCCATACATGGTGGCTGACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGAGA
R
TCGCTTGAGCCCAGGAGTTCGAGACCAGCCTGGACAACATAGTGAGACCCCGTCTATGCAAAAAATACACAAATTAGCCTGGTGTGGTGGCCCGCACCTG
Celera SNP ID:            hCV27493692
SNP Position Genomic:     7259
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Gene Number:                 51
Celera Gene:                 hCG28481 - 67000129466069
Gene Symbol:                 ICAM5
Protein Name:                intercellular adhesion molecule 5, telencephalin;TLCN;TLN
Celera Genomic Axis:         GA_x5YUV32W1A1(1505692..1525101)
Chromosome:                  Chr19
OMIM number:                 601852
OMIM Information:            INTERCELLULAR ADHESION MOLECULE 5;ICAM5


Genomic Sequence (SEQ ID NO:1712):
TGGGGGAGATACTGAAGAGGTAGGGCTCCCAGGCAGGTGCAGTTCGTCTGTTAGGCAGGCAGCAAGGTCCACTTCACCAGACACCCCCACCTCTGTTTTC
CTGCAGGGACTCCAGAACGGGTGGAACTGGCACCCCTCCCCTCTTGGCAGCCAGTGGGCAAGAACCTTACCCTACGCTGCCAGGTGGAGGGTGGGGCACC
CCGGGCCAACCTCACCGTGGTGCTGCTCCGTGGGGAGAAGGAGCTGAAACGGGAGCCAGCTGTGGGGGAGCCCGCTGAGGTCACGACCACGGTGCTGGTG
AGGAGAGATCACCATGGAGCCAATTTCTCGTGCCGCACTGAACTGGACCTGCGGCCCCAAGGGCTGGAGCTGTTTGAGAACACCTCGGCCCCCTACCAGC
TCCAGACCTTTGGTGAGGATTGAAGAAGCCAGCAGGGAGAAGGTGGGGGTGGGGTATCCTGCAATGCGGTGCCTGTGGCCACAGGATCTTTTGAGATGGG
TGTGGCCCCGGCTAAGGGGTGCATGTGTTCTAGGCGTATGTGACCTAGGCTGCTGAGTGGCCCTGGAAGAGGATCTCGCAGGAGGGGGAATGAAATGCCC
CAGAGAAGGGCTTCGGGACGTCCATCCCTGTCTGCTCACACCTTTCTTCTCTCCCTAGTCCTGCCAGCGACTCCCCCACAACTTGTCAGCCCCCGGGTCC
TAGAGGTGGACACGCAGGGGACCGTGGTCTGTTCCCTGGACGGGCTGTTCCCAGTCTCGGAGGCCCAGGTCCACCTGGCACTGGGGGACCAGAGGTTGAA
CCCCACAGTCACCTATGGCAACGACTCCTTCTCGGCCAAGGCCTCAGTCAGTGTGACCGCAGAGGACGAGGGCACCCAGCGGCTGACGTGTGCAGTAATA
CTGGGGAACCAGAGCCAGGAGACACTGCAGACAGTGACCATCTACAGTAAGAAGGGGCAGGGGCGGAGTGGGGCTTCTTGGGGGTGTGACCTGAACCCGG
GGCGGGGCTCACTGTGTGCCTATTCCAGGCTTTCCGGCGCCCAACGTGATTCTGACGAAGCCAGAGGTCTCAGAAGGGACCGAGGTGACAGTGAAGTGTG
AGGCCCACCCTAGAGCCAAGGTGACGCTGAATGGGGTTCCAGCCCAGCCACTGGGCCCGAGGGCCCAGCTCCTGCTGAAGGCCACCCCAGAGGACAACGG
GCGCAGCTTCTCCTGCTCTGCAACCCTGGAGGTGGCCGGCCAGCTTATACACAAGAACCAGACCCGGGAGCTTCGTGTCCTGTGTGAGTGGGGCTGCTGG
TCAATGGCCCCTATCCCCCAAGGCCCAATCTCCCTGAAGGTCCCATAAGGTCTTGCCTCCAAGTCCTGCCCCCACCCACCTCCATGTCATCTCATCGTGT
TTTTCCAGATGGCCCCCGACTGGACGAGAGGGATTGTCCGGGAAACTGGACGTGGCCAGAAAATTCCCAGCAGACTCCAATGTGCCAGGCTTGGGGGAAC
CCATTGCCCGAGCTCAAGTGTCTAAAGGATGGCACTTTCCCACTGCCCATCGGGGAATCAGTGACTGTCACTCGAGATCTTGAGGGCACCTACCTCTGTC
GGGCCAGGAGCACTCAAGGGGAGGTCACCCGCAAGGTGACCGTGAATGTGCTCTGTGAGTGAGCCGGCGGGCAGAGCTGGGTGGGGGCAGGGGCCATGGA
CCTAATGCAATCCTCACCGCCTGTTGTATCCTCCCCACAGCCCCCCGGTATGAGATTGTCATCATCACTGTGGTAGCAGCCGCAGTCATAATGGGCACTG
CAGGCCTCAGCACGTACCTCTATAACCGCCAGCGGAAGATCAAGAAATACAGACTACAACAGGCCCAAAAAGGGACCCCCATGAAACCGAACACACAAGC
CACGCCTCCCTGAACCTATCCCGGGACAGGGCCTCTTCCTCGGCCTTCCCATATTGGTGGCAGTGGTGCCACACTGAACAGAGTGGAAGACATATGCCAT
GCAGCTACACCTACCGGCCCTGGGACGCCGGAGGACAGGGCATTGTCCTCAGTCAGATACAACAGCATTTGGGGCCATGGTACCTGCACACCTAAAACAC
TAGGCCACGCATCTGATCTGTAGTCACATGACTAAGCCAAGAGGAAGGAGCAAGACTCAAGACATGATTGATGGATGTTAAAGTCTAGCCTGATGAGAGG
GGAAGTGGTGGGGGAGACATAGCCCCACCATGAGGACATACAACTGGGAAATACTGAAACTTGCTGCCTATTGGGTATGCTGAGGCCCCACAGACTTACA
GAAGAAGTGGCCCTCCATAGACATGTGTAGCATCAAAACACAAAGGCCCACACTTCCTGACGGATGCCAGCTTGGGCACTGCTGTCTACTGACCCCAACC
CTTGATGATATGTATTTATTCATTTGTTATTTTACCAGCTATTTATTGAGTGTCTTTTATGTAGGCTAAATGAACATAGGTCTCTGGCCTCACGGAGCTC
CCAGTCCTAATCACATTCAAGGTCACCAGGTACAGTTGTACAGGTTGTACACTGCAGGAGAGTGCCTGGCAAAAAGATCAAATGGGGCTGGGACTTCTCA
TTGGCCAACCTGCCTTTCCCCAGAAGGAGTGATTTTTCTATCGGCACAAAAGCACTATATGGACTGGTAATGGTTACAGGTTCAGAGATTACCCAGTGAG
GCCTTATTCCTCCCTTCCCCCCAAAACTGACACCTTTGTTAGCCACCTCCCCACCCACATACATTTCTGCCAGTGTTCACAATGACACTCAGCGGTCATG
TCTGGACATGAGTGCCCAGGGAATATGCCCAAGCTATGCCTTGTCCTCTTGTCCTGTTTGCATTTCACTGGGAGCTTGCACTATGCAGCTCCAGTTTCCT
GCAGTGATCAGGGTCCTGCAAGCAGTGGGGAAGGGGGCCAAGGTATTGGAGGACTCCCTCCCAGCTTTGGAAGCCTCATCCGCGTGTGTGTGTGTGTGTA
TGTGTAGACAAGCTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCATGGTTCACTGCAGTCTTGACCTTTTGGGCTCAAGTGATCCTCCCAC
CTCAGCCTCCTGAGTAGCTGGGACCATAGGCTCACAACACCACACCTGGCAAATTTGATTTTTTTTTTTTTTTCAGAGACGGGGTCTCGCAACATTGCCC
AGACTTCCTTTGTGTTAGTTAATAAAGCTTTCTCAACTGCCTCAGCCTTGTGTGAGTTGAGGGGAGGTGTCACATCCAGCTGGAGTCCTTTCTAAGCAGC
CACAGCCTGATCCTCCCACTTCCTCCCCCAAGAAAACATTGTGGGTTGATGGCCATACCCTGAGGTTCTGGTCCAAATCGGACTTTCTATGACCTTCTGG
GTCTCTAGTGAAAACTAAAGACTCCTCTCCAGAAAAAAACATTTGGTTTCTAATGAGGCCTGGAATCTTATTCTTGACCTGGGGAGCGGAATCCCTTTTT
GCAGTACTCCCGGGCCCTCTGTTGGGGCCTCCCCTTCCTCTCCAGGGTGGAGTCGAGGAGGCGGGGCTGCGGGCCTCCTTATCTCTAGAGCCGGCCCTGG
CTCTCTGGCGCGGGGCCCCTTAGTCCGGGCTTTTTGCCATGGGGTCTCTGTTCCCTCTGTCGCTGCTGTTTTTTTTGGCGGCCGCCTACCCGGGAGTTGG
GAGCGCGCTGGGACGCCGGACTAAGCGGGCGCAAAGCCCCAAGGGTAGCCCTCTCGCGCCCTCCGGGACCTCAGTGCCCTTCTGGGTGCGCATGAGCCCG
GAGTTCGTGGCTGTGCAGCCGGGGAAGTCAGTGCAGCTCAATTGCAGCAACAGCTGTCCCCAGCCGCAGAATTCCAGCCTCCGCACCCCGCTGCGGCAAG
GCAAGACGCTCAGAGGGCCGGGTTGGGTGTCTTACCAGCTGCTCGACGTGAGGGCCTGGAGCTCCCTCGCGCACTGCCTCGTGACCTGCGCAGGAAAAAC
ACGCTGGGCCACCTCCAGGATCACCGCCTACAGTGAGGGACAGGGGCTCGGTCCCGGCTGGGGTGAGGGGAGGGGGCTGGAAGAGGTGGGGGAAGGGTAG
TTGACAGTCGCTCTATAGGGAGCGCCCGCGGACCTCACTCAGAGGCTCCCCCTTGCCTTAGAACCGCCCCACAGCGTGATTTTGGAGCCTCCGGTCTTAA
AGGGCAGGAAATACACTTTGCGCTGCCACGTGACGCAGGTGTTCCCGGTGGGCTACTTGGTGGTGACCCTGAGGCATGGAAGCCGGGTCATCTATTCCGA
AAGCCTGGAGCGCTTCACCGGCCTGGATCTGGCCAACGTGACCTTGACCTACGAGTTTGCTGCTGGACCCCGCGACTTCTGGCAGCCCGTGATCTGCCAC
GCGCGCCTCAATCTCGACGGCCTGGTGGTCCGCAACAGCTCGGCACCCATTACACTGATGCTCGGTGAGGCACCCCTGTAACCCTGGGGACTAGGAGGAA
GGGGGCAGAGAGAGTTATGACCCCGAGAGGGCGCACAGACCAAGCGTGAGCTCCACGCGGGTCGACAGACCTCCCTGTGTTCCGTTCCTAATTCTCGCCT
TCTGCTCCCAGCTTGGAGCCCCGCGCCCACAGCTTTGGCCTCCGGTTCCATCGCTGCCCTTGTAGGGATCCTCCTCACTGTGGGCGCTGCGTACCTATGC
AAGTGCCTAGCTATGAAGTCCCAGGCGTAAAGGGGGATGTTCTATGCCGGCTGAGCGAGAAAAAGAGGAATATGAAACAATCTGGGGAAATGGCCATACA
TGGTGGCTGACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGAGAATCGCTTGAGCCCAGGAGTTCGAGACCAGCCTGGACAACATAGTGAGACC
CCGTCTATGCAAAAAATACACAAATTAGCCTGGTGTGGTGGCCCGCACCTGTGGTCCCAGCTACCCGGGAGGCTGAGTTGGGAGGATCCTTTGAGCCCTG
AAAGTCGAGGTTGCAGTGAGCCTTGATCGTGCCACTGCACTCCAGCCTGGGGGACAGAGCACGACCCTGTCTCCAAAAATAAAATAAAAATAAAAATAAA
TATTGGCGGGGGAACCCTCTGGAATCAATAAAGGCTTCCTTAACCAGCCTCTGTCCTGTGACCTAAGGGTCCGCATTACTGCCCTTCTTCGGAGGAACTG
GTTTGTTTTTGTTGTTGTTGTTGTTTTTGCGATCACTTTCTCCAAGTTCCTTGTCTCCCTGAGGGCACCTGAGGTTTCCTCACTCAGGGCCCACCTGGGG
TCCCGAAGCCCCAGACTCTGTGTATCCCCAGCGGGTGTCACAGAAACCTCTCCTTCTGCTGGCCTTATCGAGTGGGATCAGCGCGGGCCGGGGAGAGCCA
CGGGCAGGGGCGGGGTGGGGTTCATGGTATGGCTTTCCTGATTGGCGCCGCCGCCACCACGCGGCAGCTCTGATTGGATGTTAAGTTTCCTATCCCAGCC
CCACCTTCAGACCCTGTGCTTTCCTGGAGGCCAAACAACTGTGGAGCGAGAACTCATCTCCAAAATAACTTACCACGCTGGAGTGAGACCACGAATGGTG
GGGAGGGGAGGGTCCCACGGACATATTGAGGGACGTGGATACGCAGAAGAGGTATCCATGTGGTGGCAGCCGGGAAGGGGTGATCAGATGGTCCACAGGG
AATATCACAAACTCGAATTCTGACGATGTTCTGGTAGTCACCCAGCCAGATGAGCGCATGGAGTTGGGGGTGGGGGGTGTCAAAGCTTGGGGCCCGGAAG
CGGAGTCAAAAGCATCACCCTCGGTCCCTTGTTCTCGCGTGGATGTCAGGGCCCCCACCCACCGAGCAGAAGGCGGACTCAGGGGCGCTCCAGGGTGGCT
CGAGCTCACACACGCTGAGTAGACACGTGCCCGCTGCACCCTGGGTAAATACAGACCCGGAGCCGAGCGGATTCTAATTTAGACGCCCGCGAACGCTGCG
CGCACGCACACGTGTCCTCGGCTCGCTGGCACTTTCGTCCCGCCCCCTCCGTCGCGTGCSGGAGCTGACCCGGAGGGGTGCTTAGAGGTATGGCTCCGCG
GGGTCAAAAGGAGAAGGATCAGTGAGAGAGGCATCCCCACACCCTCCCCTAGAACTGTCCTTTCCCCATCCAGTGCCTCCCAAATCTCTCTTAGTCCCCA
AATGTATCCCCGCCCTAAGGGGCGCTGGTGGGAGGAGCTAAATGTGGGGGCGGRGCTCGGAGTCCAGCTTATTATCATGGCATCTCAGCCAGGGCTGGGG
TAGGGGTTTGGGAAGGGCAACCCAGCATCCCCCGATCCCAGAGTCGCGGCCGGGGATGACGCGAGAGAGCGTGGTCGCCCCCAGAAGGCCCTGGGCCATC
ATGCCGGCCTCCACGTAGACCCCAGGGGTCGCTCACTCCTGCCAGCTCGCCTTCACCAAGGCCAGGAGCTTAGCGCACGCTCGCCTCCCGCCCCCCCGCC
GCCTCTGCCGCCGCCCCCTCCTTGGAAACCAAGTTACCAACGTTAAACCAATCCCCAAGCGCAACTCTGYCTCCCCCACACCCCACCCGCCGCGCCGCGC
GGAGCCGTCCTCTAGCCCAGCTCCTCGGCTCGCGCTCTCCTCGCCTCCTGTGCTTTCCCCGCCGCGGCGATGCCAGGGCCTTCGCCAGGGCTGCGCCGGG
CGCTACTCGGCCTCTGGGCTGCTCTGGGCCTGGGGCTCTTCGGCCTCTCAGGTAAGAGCCCCGCTCTGGTTCGGGGTGGACAGGGCGGGGGCGGAGTCCC
TGGACCTGAGAAACGGCCTCCTGTCCCTCCCAGCTCTGCCCTCGCCTCGCTSCCACGCCTCTGCCCCCACCTCGAGCCTGAGTCTTCTCCCCTTCCCCCT
CCTCCCCAACACACACCCGAGCCCCAGCTTCCTGACTCCTCGATAGCCCCTACCCGCTTCGAGATCCTAGGTGTTCTTCCGCACCCAACCCTTCGCCCTG
GAGACCCAGTGTCTCTCCTGTCCGCTCCCCGGGTACCTCCTTACGCTSTGCTGTGCACCATGGTCCACGGACTGGCATCTTCCCCACTCGCGGTCCGCGA
AGACTCCATCTCTCCAACTACCCTGACTCAGAGGCGCTGTTCCCGCTCCACCCAGARCCCTGGCAACCGGGTCCCTCAGCTGTTCCCGCGGTTCCTTCCA
TGAGCCCAGCCTTGCGTCCCGGCKCCGTGTTCTTCACCGGGTGTAGGGTCCTTCCTGATCCTTGACCCAGCCTCGTCTCTCCTTTGCCCTTGCCGCAAAC
GCACTCTCCTCGTATCCCGGCATTCTGCCAGGACCCTGAGAACTGGTTCATCCCCCATCCCCCATCCCGGGTCCCCTTCTCTCAGCCTTGCTGTGTTCAT
CCAAGAACCCACCTTTCCTCTCCTCTACGCCCTCCCCCCATGCTTTCCCGCCGCTCCATCGGCGCTTTGGAGACCATGSCTCTCTGCTACCACGTCCCAG
AGACACCCTCGAGGTTTAGACTCTGGGAGTGCGCCTTTAAACCGGAGGCCTGGGCASGACGCGGGACGCCTGGGTTCTTTCCCTGGCTGSAGCCTCTCCT
CCTCCTCCCCGCCCTCTGAGAACCCTTGACTCGACATAGGGGCGCTAAGATGTCAGGGAGTTGGCTCCCCAGGCTCAGCCCGCGTTTCCCTGGGCAGCGG
TCTCGCAGGAGCCCTTCTGGGCGGACCTGCAGCCTCGCGTGGCGTTCGTGGAGCGCGGGGGCTCGCTGTGGCTGAATTGCAGCACCAACTGCCCTYGGCC
GGAGCGCGGTGGCCTGGAGACCTCGCTGCGCCGAAACGGGACCCAGAGGGGTTTGCGTTGGTTGGCGCGGCAGCTGGTGGACATTCGCGAGCCGGAGACT
CAGCCCGTCTGCTTCTTCCGCTGCGCGCGGCGCACACTACAGGCGCGTGGGCTCATTCGCACTTTCCGTGAGTTCTGGGTGGCCACGCGCGTACTCCACT
ACTCTCCCTCCCTCCCAGGCCCCGCCCCCTGGGTCCCAGGGTCCTCCCCTTCAGGCCCCACCTTCTGTTCCAAGTCCCGGYGTTCAAAGAGCTGCGGACT
CTTCCCCCTTGCAGAGCGACCAGATCGCGTAGAGCTGATGCCGCTGCCTCCCTGGCAGCCGGTGGGCGAGAACTTCACCCTGAGCTGTAGGGTCCCCGGC
GCCGGGCCCCGTGCGAGCCTCACGCTGACCCTGCTGCGGGGCGCCCAGGAGCTGATCCGCCGCAGCTTCGCCGGTGAACCACCCCGAGCGCGGGGCGCGG
TGCTCACAGCCACGGTACTGGCTCGGAGGGAGGACCATGGAGCCAATTTCTCGTGTCGCGCCGAGCTGGACCTGCGGCCGCACGGACTGGGACTGTTTGA
AAACAGCTCGGCCCCCAGAGAGCTCCGAACCTTCTGTGAGTGGGTGTGGGGAGGAGATGGGGACCCAGTGGGGTCGGTCGGTGTTTAGGAGGTTTAGAGG
TAGATACATCTGAATGCTGACCCCGACTTCAACCCTCGCCGGCTGAGCTGTTTCCCCCTCCGTGCCTTGAGGRKGATAATACGATAAGATAGTGCATGTC
AAGTGCTTAGGACATATTGAGCGCTCGGAGTTAGTTCAAACTTGGTTCTTCGACCCCTAGCCCTGTCTCCGGATGCCCCGCGCCTCGCTGCTCCCCGGCT
CTTGGAAGTTGGCTCGGAAAGGCCCGTGAGCTGCACTCTGGACGGACTGTTTCCAGCCTCAGAGGCCAGGGTCTACCTCGCACTGGGGGACCAGAATCTG
AGTCCTGATGTCACCCTCGAAGGGGACGCATTCGTGGCCACTGCCACAGCCACAGCTAGCGCAGAGCAGGAGGGTGCCAGGCAGCTGRTCTGCAACGTCA
CCCTGGGGGGCGAAAACCGGGAGACCCGGGAGAACGTGACCATCTACAGTAAGGAAGGAGGCGGGGTCTCCGCGGCTCCGAGGTGGGACCAGAGGAATGC
GAAGGCGGGGCGAAGAGTGGGCGGGACCTCAGTACCGGAACAGGCGTGKCCCGAGGGGGCGGGGCAGGTGGGGGCGGAGACGTAATCGCTGGGGAGGAGG
AGCCTGTACAGCCTGAGAGGCGGGGCGCCGTACCCTAGTTCGTTCTCAGCACCCCGAGGATTCGGGCAGATAAGGGGCGGGCCTTGACCGGAGGGAGGGG
TATGGTCAGTATACTACGACCAAATGCTCCGCCCCCAGGCTTCCCGGCACCACTCCTGACCCTGAGCGAACCCAGCGTCTCCGAGGGGCAGATGGTGACA
GTAACCTGCGCAGCTGGGRCCCAAGCTCTGGTCACACTGGAGGGAGTTCCAGCCGCGGTCCCGGGGCAGCCCGCCCAGCTTCAGCTAAATGCCACCGAGA
ACGACGACAGACGCAGCTTCTTCTGCGACGCCACCCTCGATGTGGACGGGGAGACCCTGATCAAGAACAGGAGCGCAGAGCTTCGTGTCCTATGTGAGTT
GGTGATAACCCCTCGCCCCCCACCTTCTGGTGACTTCCAAGGACCCGCCTGCTCCCTCACCGTGTCGTGGAGGCGGAGCCATTTCTTACGTCTAAGCCTC
TGTAACCCCACGCCCTGCCCGCAGACGCTCCCCGGCTAGACGATTCGGACTGCCCCAGGAGTTGGACGTGGCCCGAGGGCCCAGAGCAGACGCTGCGCTG
CGAGGCCCGCGGGAACCCAGAACCCTCAGTGCACTGTGCGCGCTCCGACGGCGGGGCCGTGCTGGCTCTGGGCCTGCTGGGTCCAGTCACTCGGGCGCTC
TCAGGCACTTACCGCTGCAAGGCGGCCAATGATCAAGGCGAGGCGGTCAAGGACGTAACGCTAACGGTGGAGTGTGAGTGGGGGTGCGCAGRGTGCAYTT
CTATCTGGTTCAAGGTCTGGAGGGTGGCCAGCCTCCAGGGAAGAGTAGGAGTAGGGTATGAGGTGTCCCTTTGGGTGAGGTTTTGGGAAAGGGAAGAGGC
TGGTTAGTGGGGTTGGAGAAAGATCTTGGAGGATGGAAGGGACCGGGTGGGCGTGCCCCTAGCCTAGGGCGTGGTATTTGGGCGGAGTCGTGGAAAGGCG
GGCAGTCCAGAGTGTTTAAGTTTTTAGRCGAAAAAGGCGCCACTGGTGGCTCAGGAAGCTCCCAGACAGAGTGCATGSCTCGACTAGCGTGACACCTCCT
TGGATCGGCGTCCAAGGGTTATGCAGGGACAACACTTCGTGGAAGCCTTGCCGCGCCAAGGAGGGTCTAGGGACGTCAGATTTGCCCCCAAACCCCAAAG
CCAACAATACACTCCCTCCTCCAGACGCACCAGCGCTGGACAGCGTGGGCTGCCCAGAACGCATTACTTGGCTGGAGGGAACAGAAGCCTCGCTGAGCTG
TGTGGCGCACGGGGTACCGCCGCCTGATGTGATCTGCGTGCGCTCTGGAGAACTCGGGGCCGTCATCGARGGGCTGTTGCGTGTGGCCCGGGAGCATGCG
GGCACTTACCGCTGCGAAGCCACCAACCCTCGGGGCTCTGCGGCCAAAAATGTGGCCGTCACRGTGGAATGTGAGTAGGGGCACCGCGGAGTTAGGCAGG
ATCTGTGGGACAACCCCGGCTGGACTTCCTGGCCCCCGTGTGAGCCCCTGCAATCCTGTTTCCCAGATGGCCCCAGGTTTGAGGAGCCGAGCTGCCCCAG
CAATTGGACATGGGTGGAAGGATCTGGGCGCCTGTTTTCCTGTGAGGTCGATGGGAAGCCACAGCCAAGCGTGAAGTGCGTGGGCTCCGGGGGCRCCACT
GAGGGGGTGCTGCTGCCGCTGGCACCCCCAGACCCTAGTCCCAGAGCTCCCAGAATCCCTAGAGTCCTGGCACCCGGTATCTACGTCTGCAACGCCACCA
ACCGCCACGGCTCCGTGGCCAAAACAGTCGTCGTGAGCGCGGAGTGTGAGCGAGGCCCAGGCGGGTAGGGAGCAGGGGTGCCCCACGGTCCAGGCACTCC
CTGACATCCCCCATGGCTGYTTTGCAGCGCCACCGGAGATGGATGAATCTACCTGCCCAAGTCACCAGACGTGGCTGGAAGGGGCTGAGGCTTCCGCGCT
GGCCTGCGCCGCCCGGGGTCGCCCTTCCCCAGGAGTGCGCTGCTCTCGGGAAGGCATCCCATGGCCTGAGCAGCAGCGCGTGTCCCGAGAGGACGCGGGC
ACTTACCACTGTGTGGCCACCAATGCGCATGGCACGGACTCCCGGACCGTCACTGTGGGCGTGGAATGTGAGTGGGGGCAGCACCGGATGGAGGGGACAC
GGTCCTCGGAAGAATGACTCGCAGCGGTGGGAGCATTCAAGGGCACCTCTCCCAATCCCATTCTCGGGGACAGGGAATTCCAGCCTAAACCAGGGGGTAA
TGAAAATTCTAGCCAGGCGCAGTGGCTCAGGTCTGTAATCCCAACACTTTGGAAGGTTGAGGCGGATGAATCACTTGAGGCCAGGAGTTCGAGACCAGCC
CGGCCAACATGGCGAAAACCCGTCTCTACAAAAATTAGCCGGTCGTGGTSGTGGGCGCCTGTGGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGC
TTGAGCCTGGGAGGCAGAGGTTGCAGGGAGCCGAGATCCCGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCTTTCTTAGAAAAACAGAAAAAGA
AAATTATAGGGAATAGGAGCACGGCCCTCCTCAAATCCTGGATTAGAACACTGACCTGGGCTTCACCTCCTTCCATTCGGTGAAGAAGGGCGAGGAATTT
TAGCCGCAACAGCAGCCTGATTGTCGGGGAAGGAGGCTCTGATAGGAGGCAGGATCCTCTTCTGCCCATCAGAGGCGCGGTGGTCTCCCATCGATCGTTG
TGGGCCGGAGCAGGGCATTTGATCAGTGGCTGGGCCGGCGCTAAGCCCCACTTCACCTTCTGTGCCCTTCAGACCGGCCAGTGGTGGCCGAACTTGCTGC
CTCGCCCCCTGGAGGCGTGCGCCCAGGAGGAAACTTCACGTTGACCTGCCGCGCRGAGGCCTGGCCTCCAGCCCAGATCAGCTGGCGCGCGCCCCCGRGG
GCCCTCAACATCGGCCTGTCGAGCAACAACAGCACACTGAGCGTGGCAGGCGCCATGGGAAGCCACGGCGGCGAGTACGAGTGCGCASSCACCAACGCGC
ACGGGCGCCACGCGCGGCGCATCACGGTGCGCGTGGCCGGTMMGTGGCAGCTGGGGAGAGGCGGGGCGAGGTATCTGAGAGGGGGCGTGACCTGGGTCTT
GGGGCGGCCGGCCCCGCCTGCCTCCCTCTCGGTCCCGGKAGACTAGRCGGWAGTGGGACAGARTAGAAGTCAAAGGTGCCTKAGCGGGTGGGGCTGTTGA
TCGCACTTTGAGGGGTGGGAGATGGAGGTGGCAGGGGGACTGAATTCAAGGGGAGGGACCCTCCGGGGCTGTCACTGCTGCAGGAAAGGACTTTAAAACT
TGGGCTGGATTCTGCGTGGYGGAAACTTGACCCAATTCACAATCCACTGTGGGGAAGATTGGGGAGGGACCAAAGTCATTGGATGWTGGAGGGAGAGAGG
GGTCAAGATCGCCTTCTCTCACTTCCTGAAGCTCCTGGGGCTGGGTTCTCTCTGGGGTCGGGGGAACCTGACCTGGTCCTGCCGGTCCTCATTTTTTGGG
GGATGGGGAGAGTTGACTTGTCGCCAGGGGGCTAAGTGTGGTCACGGGTTTATATCCCCATGGGCTGAAGTGCGATATAAATCGGGACTCGGGTCGCCCT
GGCACTGGGAGTGGCCTTATTGCATGGGTTGTCTCCCTTCTCCCAAGGCCAGACAGTGAGCTCCCCGGGGCATGAGGACTGACTTCGTGCCTGTGGGAGT
GCGGGGGGCGGTGGGAGAAGCCCCCCGGAGCTTGGCCACCCTCCGCGAGGGTCTCCACCCCGCAGGTCCGTGGCTATGGGTCGCCGTGGGCGGCGCGGCG
GGGGGCGCGGCGCTGCTGGCCGCGGGGGCCGGCCTGGCCTTCTACGTGCAGTCCACCGCCTGCAAGAAGGGCGAGTACAACGTGCAGGAGGCCGAGAGCT
CAGGCGAGGCCGTGTGTCTSAACGGAGCGGGCGGCGGCGCTGGCGGGGCGGCAGGCGCGGAGGGCGGACCCSAGGCGGCGGGGGGCGCGGCCGAGTCGCC
GGCGGAGGGCGAGGTCTTCGCCATACAGCTGACATCGGCGTGAGCCCGCTCCCCTCTCCCCGCGGGCCGGGGGACGCCCCCCAGACTCACACGGGGGCTT
ATTTATTGCTTTATTTATTTACTTATTCATTTATTTATGTATTCAACTCCAAGGGCGTCACCCCCATTTTCTASCCATCCCCTCAATARAGTTTTTATRA
AGGAACTCCCTGTCTCCGCTTCTGTTTCTGCAAGGTGGAACAAGCCCAGGGTTCCAGTCGTGACCTCCCGAGTTATTCATTCAAAAAGCGATTTTTGAGA
GGGCCTGGGGTGGTGGCTTAGGCCTGTAATCCCAGGACTTGTGGGAGGCCCAGGTGGGAGGATCCCTTGCACCCAAGAGTTTCAGACCAGCCTGGGCAAC
ATAGGGAGACCCTACAAAAAATATTTTTCAAAAATTAGCCAAGGCCGGTCGCGGTGGCTCATGCGTGTAATCCCAGGACTTTGGAAGGCCGAGGCGGCCA
GATCACGAGGTCGAGGTCATGAGATCGAGACCATCCTGGCCAATATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGTGCG
CGCCTGTAGTCCCAGCTATTCGGGAGGCTGAGGCAGGAGAATCGCTTTAACCCCGGAGGCAGAGGTTGCAGTGAGCCGAGATCGTGCCACTGAACTCCAG
CCTGGCGACAGAGCGAGATTCCGTCTTAAAAAAAAAACCAGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACG
AGGTCGGGAGATCGAGACCATCCTCGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAAAAAAAAAAAAAAAATTAGCCGAGCGTGGTGG
CGGGCGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATGGCATGAACCCGGGGAGCAGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACT
CCACCCTGGCAGACAGCAAGACTCCGTCTCAAAAAAAAAAAAAAAAATTAGCCAGGGCCGAGCACAGTACTCTCGCTTGAATCCCAGAACTTTGGGAAAC
TAAGGCGGGGGGGGGGGGTCACTTGAGGTCAGGAGTTCGAGACCACCCTGGCCAACGTGGTGAAACACCTTCTCTACCAAAAATACAAAAAAATTAAGGC
CGGGTGAAGTGGCTCACGTCTGTAATCCCAGCACTTTGCGAGGCTGAGGCGGGCGGATCATGGGGTTAGAAGATCAAGACTGTCCTGGCTAACATGGTGA
AACCCCGTCACTACTAAAAACACAAAAATTAGCCGGGCGTGGTGGCACATGCCTGTAGTCCCAGCTACTCAAGAGGCTGAGGCAGGAGAATCGCTTTAAC
CCCGGAGGCAGAGGTTGCAGTGAGCCAAGATCGCACCACTGCACTCCAGCCTGGGCAATAGAGCGAGACTCTGTCTCAAAAAAAAACCAAAAACAAAAAC
AAAAAAATACAAAAATTTAGCTGGGCTGTAGTGGCACACGCCCTGTAATCCCAGCTACTCGTGAGGCTGAGGCAGGAGAATTGCTAGAACCCGGGAGGTA
GAGATCTTGCCATTGCACTCCAGCCTGGGCAACAGAACTAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAGTGTTTTTTGAGGGGGCTGGGCATG
GTGGCTCAAGCCTGTAATCCCAGGACTTTTGGGAGGCCCAGGTGGGAGGATCCCTTGTGCCCACGAGTTTCAGACCAGCCTGGGCAACATAGCGAGACCC
TACAAAAAAACATGTTTCAAAAAAAAATTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCCAGGCTGGACAGCAGTGGCACTATCTCTGCTCACTGCA
AGCTCCGTCTCCCGGGTTCATGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCGCCTGCCACCACACCCAGCTAATTTTTTTTTGTAT
TTTTAGTAGAGATGGGATTTCACCGTGTTCGCCAGGATGGTCTCTATTCCTGACCTCGAGATCCACCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGG
CGTGAGCCACCGCGCCCGGCCTCAAAAAAAAAATTTTTTTTTTGAGATGGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCTGTGGTGTGATCTTGGCTCA
CTGCAACCTCTGCCTCCTGGGTTCAAGCAATTCCCCTGCCTTGGCTTCCCAAATAGCTGGGACTATAGGCATGCACCACCACACCCAGCTAATTTTTGTA
TTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTAAGGTGATCCACCTGCCTCGGTCTCCCAAAGTGCTGGGATTA
CAGCTGTAAGCCACCATGCCTGGTGTATTTTTCAAAAATTAGCCAGACATGGTGGTGCATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGGA
TCCTTTGAGCCTAGGAGGTCAAAGCCACTTCCAGCTATGATATTGTCATTGTGCTCCAGCCCAGGTGACAGAACCAGACCCTGTCTCTAAAAACAAACAA
CGAAAAAATCCAAAAACTTTTTTTGAACACCTACTATGCATCAGGCACAATCTAAGCTGTCTTTTTCTTTTTCTTTTTTTTATTTTTGAGACGGAGTCTC
TCTGTCGCCCAGGCTGGAGTGCAGTGGTGTAATCTCAGCTCACTGCAAGCTCTGCCTCCCACGTTCAAGCGATTTTCCTGCCTCAGCCTCCTGAGTAGCT
GGGATTACAGGCGCGCGCCACCACTACGCCCGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTAGTCTGGAACTACTGA
CCTCGTGATTCACCTGCCTCGGTCTCCCAACGTGCTGGAATTACAAGCCTGAGCCACTGTGCCTGGCCCGGCTGGCTGTCTTTTCTCAGTGTGACCTAGA
GCTCGTCCTCTCTCAGTGCCTGTTTTCTGCTCTCTTCACACCCTTGGGCAGGGGTGGGGGCCTCACTCCTTCCTCCTACTTATCTCTTCCACCCAGCACT
GCCCTCTGATCCGGGTCACTCTTGGAGGTGGGGGCTAGGTGCTTCCCCCAGGCCTGGTTACCGGCAGAGCTGAGGCCGCCTTGCCAGGGTGGGTGGAGGC
CCTCTCCGTTGTGCCCCTGCCCTGAGACTTCGGTGAGACCTTCCTGGGCAGGCACTGGCTGATGCTATGGGTGTCAGCCCTTAGCATGTCCTCCCTGTTA
AAGGGGGCACCCCTGCCCCGCCCTCAATGCCTCCTTTGTCCTGTGTCCACCCACAGTGCTTCAGTTTACCCCCACCCTGCCTTTCCACTCAGCCCATCAT
GATTCAGAACAGACACACACAGGGTATCCGCTGCAACCCCCACTACACGGCACCTTCCCCCCTCATCCCCAACAGCATAAGGCACAGCAGCTGGGCCTCC
TCCCCACAGCCTCCTCCTCTGCCCCTCCTCCCTCAAAAGCAGGAACACGGAGCCCTAGAGAAGGAAGCCAGTCCCATGCAAACATGTAATGAGCAAAGAT
GAGACGGGGAAATGGCACAAGAGGGCAGGCCAGTGCTCGGTGCTGGAGCCAGGGGCCAGGTATAACACCCAAAAAGGCACCAGCCAGGTGCAGTCCCTGC
CACTAACAGCACCTCACCTTTTCTGCCTGTGCCCTCCCTACTTAATGATCTCTCTCCGCTCCTACTGACCTCAAGGTCTCTTTCAGAGCCTTCAGATGAG
ATATTTATTTTAGTAGGTTGGTGCAAAAGTAATTGCTGTTTTTGCCATTGAAAGTAATGGCAGGCAGGGCATGGTGGCTCACGCCTGTAATCCCAGCACT
TTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAGGAGTTCAAGACCAGCCTGGCTAACATGGTGAAACCCTGTCTCTACTAACAATACAAAAAAAATTAG
CCGGACATGGTGGCACACCCCTGTAGTCTCAGCTACTTGGGAGGCTGAGGCAGGAGAACTGCTTGAACCCTGAAGCGGAGGCTGCAGTGAGCTGAAATCA
CGCCACTGCACTCCAGCCTGGGCCACAGAGTGAGACTGTCTCAGAGGAAAAAAAAAAAAAAAAAGTAATGGCAAAAACTGCAATTACTTTTTCTTTTTCT
TTCTGTTTTTTTTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGAGACGGAGTCTCACTGTGTGGCCCAGGCTGGAGTGCAGTGGCGCAATCTTGGCTT
ACTGCAGCCTCCGCCTCCCAGGTTCAAGTGATTCTCTCCTGCCTCAGCCTCCCAATAGGATTACAGGCACCCACCACTATGCCTGGCTAATTTTTGTATC
TTTAGCAGAGATGGGGTTTCACCATGTTTGCCAGGCTGGTCTCGAACTCCTGATCCACCCACCTCAGCTTCCCAAAGTGCTGGGATTACAGGCAGGCATG
AGCCATGGTGCCCGACATTTTTTTTTTTTTTTCTTTTTTTTTTTGAGACAGAGTCTCACTTTGTCACCCAGGCTGGAGTGCAAAGGCAAGATCTCACTGC
AGCCTCTGCCTCCTGGGTTAAAGCGATTCTCCCACCTTAGCCCCCTGAGTAGGTGAGATTACAGGCACATGCCACCACACCTGCCTAATTTTTGTATTTT
TAATAGAGAGGGGGTTTCACCATTTTGTCCACGCTGGTCTCGAACTCCTGACCTCAAGGGATTCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGG
CATGAGCCACCACGCCCGACCTCCTTAACTCTTTTATTTCCTTGCACACTTTTTCTCTGTAGCCCAGCTCACAACTTAACATCCTCTTAGACATACACCT
GAGGTTTTTTTTTTTTTTTTTTTTGAGAGGGAGTCTCTCTCTGTCACCCAGGATGGAATGCAGTGGTGTGCTCTCAGCTCACTGCAACCTTGCAACCACT
GCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGACACATGCCGCCACACCTGGCTGATTTTTTGTTTTTTAGTAGA
GACAGGGTTTCACCGTGTTGCCCAGGCTGGTCTCAAACTCCTGAGTTCAGGCAGTCCGCCTGCCTTAGCCTTCCAAAATGCTGGGATTACAGGCATGAGG
CACCGCGTCCTGCCTCTGAGTTTTTTTTTTTTTTTTTTTTACTGTCTCCTAGAACATCAGCCCCAGTAGAGCAGGGATCTTTGTTCTGTTCACCACTGAG
GGTCCTCATTGGGTCCTAGCACACACAGTTGCTCAATAAATGTTGAATAAGTGGGTAAAGACAGCCACGAGCTTGCAGATATGTGTTCAAGGTGTGTCCT
TGCAGAGAGCTTCTCTATACTTGGCACTGGAGAGGCCTGTCGTGGGCAAGGACATAGATGTGGCGACCTCAGACTTGAGAACTCCTGGGGCAGTAGGGGA
GATGGATGTGGATAATGTAACCATAAGCCTTCCTTTCTATTTTAGACTGAGTGGTCAAGGAAGGCTTCCAGACAATGGAAATTCTGATAGGTTCTAAGAG
GGAGACCAGCAAGGAGCTGAACCGGAGGCTGACACAGGGTGAGAGTGGGAATGTCTATTTTATTTTTTTTTTGGAGACAGGGTCTCACTCTGTTGCTCAG
GCAGCAGTGCAGTGGCACGATCGTGGCTCACTGCAGCTTCAACTTCCCAGACTCAAGTGATCCTCCCACCTCAGCCTCCCAAGCAGCTGGGAATATAGGT
GCATGCCACCACATCCGGCTAATTTTTGTATTTTTGGTAGAAACGGGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCCTGGGTTCAAGTGATCTTG
CTGCCTTGGGCTCCCAAAGTGCTTGGATTACAGGTGTGAGCCTGTGAGCCACATCTGGCCTATTTTATTTTTTAATTAGTTTTTTGTTTTTGTTTTTGTT
TTGAGATGGAGTCTCTGTCTCCAAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGTAACCTCCACCTCCCAAGTAGCTGGGATTACAGGCACATGCC
ACCACGCCTGGCTAATTTTTGTATCTTTAGTAGAGACAGGGTTTCCCCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCCGGTGATCCACCTGCCTC
AGTTTCCCA


SNP Information

Context             (SEQ ID NO:6317):
GTCGGTCGGTGTTTAGGAGGTTTAGAGGTAGATACATCTGAATGCTGACCCCGACTTCAACCCTCGCCGGCTGAGCTGTTTCCCCCTCCGTGCCTTGAGG
R
TGATAATACGATAAGATAGTGCATGTCAAGTGCTTAGGACATATTGAGCGCTCGGAGTTAGTTCAAACTTGGTTCTTCGACCCCTAGCCCTGTCTCCGGA
Celera SNP ID:            hCV8726342
SNP Position Genomic:     8573
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6318):
TCGGTCGGTGTTTAGGAGGTTTAGAGGTAGATACATCTGAATGCTGACCCCGACTTCAACCCTCGCCGGCTGAGCTGTTTCCCCCTCCGTGCCTTGAGGA
K
GATAATACGATAAGATAGTGCATGTCAAGTGCTTAGGACATATTGAGCGCTCGGAGTTAGTTCAAACTTGGTTCTTCGACCCCTAGCCCTGTCTCCGGAT
Celera SNP ID:            hCV16044645
SNP Position Genomic:     8574
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6319):
AAGGACTTTAAAACTTGGGCTGGATTCTGCGTGGTGGAAACTTGACCCAATTCACAATCCACTGTGGGGAAGATTGGGGAGGGACCAAAGTCATTGGATG
W
TGGAGGGAGAGAGGGGTCAAGATCGCCTTCTCTCACTTCCTGAAGCTCCTGGGGCTGGGTTCTCTCTGGGGTCGGGGGAACCTGACCTGGTCCTGCCGGT
Celera SNP ID:            hCV1844464
SNP Position Genomic:     12586
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:6320):
CCACGTCCCAGAGACACCCTCGAGGTTTAGACTCTGGGAGTGCGCCTTTAAACCGGAGGCCTGGGCACGACGCGGGACGCCTGGGTTCTTTCCCTGGCTG
S
AGCCTCTCCTCCTCCTCCCCGCCCTCTGAGAACCCTTGACTCGACATAGGGGCGCTAAGATGTCAGGGAGTTGGCTCCCCAGGCTCAGCCCGCGTTTCCC
Celera SNP ID:            hCV16044646
SNP Position Genomic:     7590
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6321):
TGGAAGGTTGAGGCGGATGAATCACTTGAGGCCAGGAGTTCGAGACCAGCCCGGCCAACATGGCGAAAACCCGTCTCTACAAAAATTAGCCGGTCGTGGT
S
GTGGGCGCCTGTGGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAGCCTGGGAGGCAGAGGTTGCAGGGAGCCGAGATCCCGCCACTGCAC
Celera SNP ID:            hCV3129420
SNP Position Genomic:     11550
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|G,6)   total(G,6|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6322):
GGGGCGTGACCTGGGTCTTGGGGCGGCCGGCCCCGCCTGCCTCCCTCTCGGTCCCGGTAGACTAGACGGAAGTGGGACAGAGTAGAAGTCAAAGGTGCCT
K
AGCGGGTGGGGCTGTTGATCGCACTTTGAGGGGTGGGAGATGGAGGTGGCAGGGGGACTGAATTCAAGGGGAGGGACCCTCCGGGGCTGTCACTGCTGCA
Celera SNP ID:            hCV3129421
SNP Position Genomic:     12382
SNP Source:               Celera
Population(Allele,Count): no_pop(G,5|T,6)   total(G,5|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6323):
CTCTCAGCCTTGCTGTGTTCATCCAAGAACCCACCTTTCCTCTCCTCTACGCCCTCCCCCCATGCTTTCCCGCCGCTCCATCGGCGCTTTGGAGACCATG
S
CTCTCTGCTACCACGTCCCAGAGACACCCTCGAGGTTTAGACTCTGGGAGTGCGCCTTTAAACCGGAGGCCTGGGCACGACGCGGGACGCCTGGGTTCTT
Celera SNP ID:            hCV16044647
SNP Position Genomic:     7479
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6324):
ACTGTCCTTTCCCCATCCAGTGCCTCCCAAATCTCTCTTAGTCCCCAAATGTATCCCCGCCCTAAGGGGCGCTGGTGGGAGGAGCTAAATGTGGGGGCGG
R
GCTCGGAGTCCAGCTTATTATCATGGCATCTCAGCCAGGGCTGGGGTAGGGGTTTGGGAAGGGCAACCCAGCATCCCCCGATCCCAGAGTCGCGGCCGGG
Celera SNP ID:            hCV944700
SNP Position Genomic:     6254
SNP Source:               Applera
Population(Allele,Count): african american(A,12|G,8)   caucasian(A,28|G,4)   total(A,40|G,12)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   JBIG-allele(G,631|A,636)   total(G,631|A,636)SC_12_A(A,10|G,10)   SC_12_C(G,3|A,12)   SC_12_AA(G,2|A,11)   total(G,15|A,33)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6325):
AGATGGAGGTGGCAGGGGGACTGAATTCAAGGGGAGGGACCCTCCGGGGCTGTCACTGCTGCAGGAAAGGACTTTAAAACTTGGGCTGGATTCTGCGTGG
Y
GGAAACTTGACCCAATTCACAATCCACTGTGGGGAAGATTGGGGAGGGACCAAAGTCATTGGATGTTGGAGGGAGAGAGGGGTCAAGATCGCCTTCTCTC
Celera SNP ID:            hCV944701
SNP Position Genomic:     12520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6326):
GGACCAGAATCTGAGTCCTGATGTCACCCTCGAAGGGGACGCATTCGTGGCCACTGCCACAGCCACAGCTAGCGCAGAGCAGGAGGGTGCCAGGCAGCTG
R
TCTGCAACGTCACCCTGGGGGGCGAAAACCGGGAGACCCGGGAGAACGTGACCATCTACAGTAAGGAAGGAGGCGGGGTCTCCGCGGCTCCGAGGTGGGA
Celera SNP ID:            hCV8726349
SNP Position Genomic:     8888
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,33)   caucasian(A,14|G,22)   total(A,19|G,55)
SNP Type:                 MISSENSE MUTATION

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


Context             (SEQ ID NO:6327):
GCGCCCCCGGGGGCCCTCAACATCGGCCTGTCGAGCAACAACAGCACACTGAGCGTGGCAGGCGCCATGGGAAGCCACGGCGGCGAGTACGAGTGCGCAG
S
CACCAACGCGCACGGGCGCCACGCGCGGCGCATCACGGTGCGCGTGGCCGGTAAGTGGCAGCTGGGGAGAGGCGGGGCGAGGTATCTGAGAGGGGGCGTG
Celera SNP ID:            hCV16285400
SNP Position Genomic:     12189
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6328):
GGAGGATGGAAGGGACCGGGTGGGCGTGCCCCTAGCCTAGGGCGTGGTATTTGGGCGGAGTCGTGGAAAGGCGGGCAGTCCAGAGTGTTTAAGTTTTTAG
R
CGAAAAAGGCGCCACTGGTGGCTCAGGAAGCTCCCAGACAGAGTGCATGCCTCGACTAGCGTGACACCTCCTTGGATCGGCGTCCAAGGGTTATGCAGGG
Celera SNP ID:            hCV16285401
SNP Position Genomic:     10128
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6329):
GGGGCGAGGTATCTGAGAGGGGGCGTGACCTGGGTCTTGGGGCGGCCGGCCCCGCCTGCCTCCCTCTCGGTCCCGGTAGACTAGACGGAAGTGGGACAGA
R
TAGAAGTCAAAGGTGCCTTAGCGGGTGGGGCTGTTGATCGCACTTTGAGGGGTGGGAGATGGAGGTGGCAGGGGGACTGAATTCAAGGGGAGGGACCCTC
Celera SNP ID:            hCV16044700
SNP Position Genomic:     12363
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6330):
CGCGCCCCCGGGGGCCCTCAACATCGGCCTGTCGAGCAACAACAGCACACTGAGCGTGGCAGGCGCCATGGGAAGCCACGGCGGCGAGTACGAGTGCGCA
S
CCACCAACGCGCACGGGCGCCACGCGCGGCGCATCACGGTGCGCGTGGCCGGTAAGTGGCAGCTGGGGAGAGGCGGGGCGAGGTATCTGAGAGGGGGCGT
Celera SNP ID:            hCV16044701
SNP Position Genomic:     12188
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6331):
TGCCTCGCCCCCTGGAGGCGTGCGCCCAGGAGGAAACTTCACGTTGACCTGCCGCGCGGAGGCCTGGCCTCCAGCCCAGATCAGCTGGCGCGCGCCCCCG
R
GGGCCCTCAACATCGGCCTGTCGAGCAACAACAGCACACTGAGCGTGGCAGGCGCCATGGGAAGCCACGGCGGCGAGTACGAGTGCGCAGCCACCAACGC
Celera SNP ID:            hCV16044702
SNP Position Genomic:     12098
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6332):
TGACTCAGAGGCGCTGTTCCCGCTCCACCCAGAGCCCTGGCAACCGGGTCCCTCAGCTGTTCCCGCGGTTCCTTCCATGAGCCCAGCCTTGCGTCCCGGC
K
CCGTGTTCTTCACCGGGTGTAGGGTCCTTCCTGATCCTTGACCCAGCCTCGTCTCTCCTTTGCCCTTGCCGCAAACGCACTCTCCTCGTATCCCGGCATT
Celera SNP ID:            hCV16285371
SNP Position Genomic:     7224
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6333):
CAAAACAGTCGTCGTGAGCGCGGAGTGTGAGCGAGGCCCAGGCGGGTAGGGAGCAGGGGTGCCCCACGGTCCAGGCACTCCCTGACATCCCCCATGGCTG
Y
TTTGCAGCGCCACCGGAGATGGATGAATCTACCTGCCCAAGTCACCAGACGTGGCTGGAAGGGGCTGAGGCTTCCGCGCTGGCCTGCGCCGCCCGGGGTC
Celera SNP ID:            hCV16044636
SNP Position Genomic:     11020
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6334):
CCCCAGCAATTGGACATGGGTGGAAGGATCTGGGCGCCTGTTTTCCTGTGAGGTCGATGGGAAGCCACAGCCAAGCGTGAAGTGCGTGGGCTCCGGGGGC
R
CCACTGAGGGGGTGCTGCTGCCGCTGGCACCCCCAGACCCTAGTCCCAGAGCTCCCAGAATCCCTAGAGTCCTGGCACCCGGTATCTACGTCTGCAACGC
Celera SNP ID:            hCV8726350
SNP Position Genomic:     10795
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)   no_pop(A,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6335):
ACCTTCTGTGCCCTTCAGACCGGCCAGTGGTGGCCGAACTTGCTGCCTCGCCCCCTGGAGGCGTGCGCCCAGGAGGAAACTTCACGTTGACCTGCCGCGC
R
GAGGCCTGGCCTCCAGCCCAGATCAGCTGGCGCGCGCCCCCGGGGGCCCTCAACATCGGCCTGTCGAGCAACAACAGCACACTGAGCGTGGCAGGCGCCA
Celera SNP ID:            hCV25612171
SNP Position Genomic:     12055
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,37)   caucasian(A,2|G,38)   total(A,3|G,75)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6336):
ACCATGGTCCACGGACTGGCATCTTCCCCACTCGCGGTCCGCGAAGACTCCATCTCTCCAACTACCCTGACTCAGAGGCGCTGTTCCCGCTCCACCCAGA
R
CCCTGGCAACCGGGTCCCTCAGCTGTTCCCGCGGTTCCTTCCATGAGCCCAGCCTTGCGTCCCGGCTCCGTGTTCTTCACCGGGTGTAGGGTCCTTCCTG
Celera SNP ID:            hCV16044654
SNP Position Genomic:     7157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6337):
CGGGCGCTCTCAGGCACTTACCGCTGCAAGGCGGCCAATGATCAAGGCGAGGCGGTCAAGGACGTAACGCTAACGGTGGAGTGTGAGTGGGGGTGCGCAG
R
GTGCATTTCTATCTGGTTCAAGGTCTGGAGGGTGGCCAGCCTCCAGGGAAGAGTAGGAGTAGGGTATGAGGTGTCCCTTTGGGTGAGGTTTTGGGAAAGG
Celera SNP ID:            hCV16044637
SNP Position Genomic:     9892
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6338):
GTAAGGAAGGAGGCGGGGTCTCCGCGGCTCCGAGGTGGGACCAGAGGAATGCGAAGGCGGGGCGAAGAGTGGGCGGGACCTCAGTACCGGAACAGGCGTG
K
CCCGAGGGGGCGGGGCAGGTGGGGGCGGAGACGTAATCGCTGGGGAGGAGGAGCCTGTACAGCCTGAGAGGCGGGGCGCCGTACCCTAGTTCGTTCTCAG
Celera SNP ID:            hCV16044638
SNP Position Genomic:     9049
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6339):
GAGCCGAGCGGATTCTAATTTAGACGCCCGCGAACGCTGCGCGCACGCACACGTGTCCTCGGCTCGCTGGCACTTTCGTCCCGCCCCCTCCGTCGCGTGC
S
GGAGCTGACCCGGAGGGGTGCTTAGAGGTATGGCTCCGCGGGGTCAAAAGGAGAAGGATCAGTGAGAGAGGCATCCCCACACCCTCCCCTAGAACTGTCC
Celera SNP ID:            hCV3129413
SNP Position Genomic:     6060
SNP Source:               Applera
Population(Allele,Count): african american(C,12|G,10)   caucasian(C,31|G,7)   total(C,43|G,17)
SNP Type:                 UTR 5

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,1|C,6)      total(G,1|C,6) ;no_pop(C,-|G,-)   
SNP Type:                 UTR 5


Context             (SEQ ID NO:6340):
CCGCGGGGGCCGGCCTGGCCTTCTACGTGCAGTCCACCGCCTGCAAGAAGGGCGAGTACAACGTGCAGGAGGCCGAGAGCTCAGGCGAGGCCGTGTGTCT
S
AACGGAGCGGGCGGCGGCGCTGGCGGGGCGGCAGGCGCGGAGGGCGGACCCGAGGCGGCGGGGGGCGCGGCCGAGTCGCCGGCGGAGGGCGAGGTCTTCG
Celera SNP ID:            hCV8726353
SNP Position Genomic:     13120
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6341):
CCCTACCCGCTTCGAGATCCTAGGTGTTCTTCCGCACCCAACCCTTCGCCCTGGAGACCCAGTGTCTCTCCTGTCCGCTCCCCGGGTACCTCCTTACGCT
S
TGCTGTGCACCATGGTCCACGGACTGGCATCTTCCCCACTCGCGGTCCGCGAAGACTCCATCTCTCCAACTACCCTGACTCAGAGGCGCTGTTCCCGCTC
Celera SNP ID:            hCV16044655
SNP Position Genomic:     7048
SNP Source:               dbSNP
Population(Allele,Count): (C,-|G,-)   JBIC-allele(C,517|G,974)   total(G,974|C,517)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6342):
CGAGTACAACGTGCAGGAGGCCGAGAGCTCAGGCGAGGCCGTGTGTCTGAACGGAGCGGGCGGCGGCGCTGGCGGGGCGGCAGGCGCGGAGGGCGGACCC
S
AGGCGGCGGGGGGCGCGGCCGAGTCGCCGGCGGAGGGCGAGGTCTTCGCCATACAGCTGACATCGGCGTGAGCCCGCTCCCCTCTCCCCGCGGGCCGGGG
Celera SNP ID:            hCV8726354
SNP Position Genomic:     13172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6343):
GTAAGAGCCCCGCTCTGGTTCGGGGTGGACAGGGCGGGGGCGGAGTCCCTGGACCTGAGAAACGGCCTCCTGTCCCTCCCAGCTCTGCCCTCGCCTCGCT
S
CCACGCCTCTGCCCCCACCTCGAGCCTGAGTCTTCTCCCCTTCCCCCTCCTCCCCAACACACACCCGAGCCCCAGCTTCCTGACTCCTCGATAGCCCCTA
Celera SNP ID:            hCV16044656
SNP Position Genomic:     6852
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6344):
CATCGGCGCTTTGGAGACCATGGCTCTCTGCTACCACGTCCCAGAGACACCCTCGAGGTTTAGACTCTGGGAGTGCGCCTTTAAACCGGAGGCCTGGGCA
S
GACGCGGGACGCCTGGGTTCTTTCCCTGGCTGCAGCCTCTCCTCCTCCTCCCCGCCCTCTGAGAACCCTTGACTCGACATAGGGGCGCTAAGATGTCAGG
Celera SNP ID:            hCV3129414
SNP Position Genomic:     7557
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,3|C,5)      total(G,3|C,5) ;(C,-|G,-)   JBIC-allele(C,537|G,963)   total(G,963|C,537)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6345):
AGCGGTCTCGCAGGAGCCCTTCTGGGCGGACCTGCAGCCTCGCGTGGCGTTCGTGGAGCGCGGGGGCTCGCTGTGGCTGAATTGCAGCACCAACTGCCCT
Y
GGCCGGAGCGCGGTGGCCTGGAGACCTCGCTGCGCCGAAACGGGACCCAGAGGGGTTTGCGTTGGTTGGCGCGGCAGCTGGTGGACATTCGCGAGCCGGA
Celera SNP ID:            hCV3129415
SNP Position Genomic:     7796
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,7)   total(C,7|T,1) 
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6346):
TCATCGAGGGGCTGTTGCGTGTGGCCCGGGAGCATGCGGGCACTTACCGCTGCGAAGCCACCAACCCTCGGGGCTCTGCGGCCAAAAATGTGGCCGTCAC
R
GTGGAATGTGAGTAGGGGCACCGCGGAGTTAGGCAGGATCTGTGGGACAACCCCGGCTGGACTTCCTGGCCCCCGTGTGAGCCCCTGCAATCCTGTTTCC
Celera SNP ID:            hCV25612176
SNP Position Genomic:     10563
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,2|G,38)   total(A,2|G,76)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6347):
TTAGCGCACGCTCGCCTCCCGCCCCCCCGCCGCCTCTGCCGCCGCCCCCTCCTTGGAAACCAAGTTACCAACGTTAAACCAATCCCCAAGCGCAACTCTG
Y
CTCCCCCACACCCCACCCGCCGCGCCGCGCGGAGCCGTCCTCTAGCCCAGCTCCTCGGCTCGCGCTCTCCTCGCCTCCTGTGCTTTCCCCGCCGCGGCGA
Celera SNP ID:            hCV16044674
SNP Position Genomic:     6570
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:6348):
GGCCACGCGCGTACTCCACTACTCTCCCTCCCTCCCAGGCCCCGCCCCCTGGGTCCCAGGGTCCTCCCCTTCAGGCCCCACCTTCTGTTCCAAGTCCCGG
Y
GTTCAAAGAGCTGCGGACTCTTCCCCCTTGCAGAGCGACCAGATCGCGTAGAGCTGATGCCGCTGCCTCCCTGGCAGCCGGTGGGCGAGAACTTCACCCT
Celera SNP ID:            hCV3129416
SNP Position Genomic:     8081
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,8)   caucasian(C,19|T,11)   total(C,21|T,19)
SNP Type:                 INTRON

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:6349):
ACCAAATGCTCCGCCCCCAGGCTTCCCGGCACCACTCCTGACCCTGAGCGAACCCAGCGTCTCCGAGGGGCAGATGGTGACAGTAACCTGCGCAGCTGGG
R
CCCAAGCTCTGGTCACACTGGAGGGAGTTCCAGCCGCGGTCCCGGGGCAGCCCGCCCAGCTTCAGCTAAATGCCACCGAGAACGACGACAGACGCAGCTT
Celera SNP ID:            hCV3129417
SNP Position Genomic:     9319
SNP Source:               Applera
Population(Allele,Count): african american(A,1|G,9)   caucasian(A,4|G,6)   total(A,5|G,15)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,1|G,5)      total(G,5|A,1) ;no_pop(A,-|G,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6350):
CTCTCAGGCACTTACCGCTGCAAGGCGGCCAATGATCAAGGCGAGGCGGTCAAGGACGTAACGCTAACGGTGGAGTGTGAGTGGGGGTGCGCAGGGTGCA
Y
TTCTATCTGGTTCAAGGTCTGGAGGGTGGCCAGCCTCCAGGGAAGAGTAGGAGTAGGGTATGAGGTGTCCCTTTGGGTGAGGTTTTGGGAAAGGGAAGAG
Celera SNP ID:            hCV3129418
SNP Position Genomic:     9898
SNP Source:               Applera
Population(Allele,Count): african american(C,5|T,31)   caucasian(C,16|T,24)   total(C,21|T,55)
SNP Type:                 INTRON

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:6351):
ACACGGGGGCTTATTTATTGCTTTATTTATTTACTTATTCATTTATTTATGTATTCAACTCCAAGGGCGTCACCCCCATTTTCTACCCATCCCCTCAATA
R
AGTTTTTATAAAGGAACTCCCTGTCTCCGCTTCTGTTTCTGCAAGGTGGAACAAGCCCAGGGTTCCAGTCGTGACCTCCCGAGTTATTCATTCAAAAAGC
Celera SNP ID:            hCV16044692
SNP Position Genomic:     13389
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6352):
GGTAAGTGGCAGCTGGGGAGAGGCGGGGCGAGGTATCTGAGAGGGGGCGTGACCTGGGTCTTGGGGCGGCCGGCCCCGCCTGCCTCCCTCTCGGTCCCGG
K
AGACTAGACGGAAGTGGGACAGAGTAGAAGTCAAAGGTGCCTTAGCGGGTGGGGCTGTTGATCGCACTTTGAGGGGTGGGAGATGGAGGTGGCAGGGGGA
Celera SNP ID:            hCV26941611
SNP Position Genomic:     12339
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6353):
TTGGGCGGAGTCGTGGAAAGGCGGGCAGTCCAGAGTGTTTAAGTTTTTAGACGAAAAAGGCGCCACTGGTGGCTCAGGAAGCTCCCAGACAGAGTGCATG
S
CTCGACTAGCGTGACACCTCCTTGGATCGGCGTCCAAGGGTTATGCAGGGACAACACTTCGTGGAAGCCTTGCCGCGCCAAGGAGGGTCTAGGGACGTCA
Celera SNP ID:            hCV3129419
SNP Position Genomic:     10178
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:6354):
ACGCCCCCCAGACTCACACGGGGGCTTATTTATTGCTTTATTTATTTACTTATTCATTTATTTATGTATTCAACTCCAAGGGCGTCACCCCCATTTTCTA
S
CCATCCCCTCAATAAAGTTTTTATAAAGGAACTCCCTGTCTCCGCTTCTGTTTCTGCAAGGTGGAACAAGCCCAGGGTTCCAGTCGTGACCTCCCGAGTT
Celera SNP ID:            hCV16044693
SNP Position Genomic:     13374
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6355):
TTATTTATTGCTTTATTTATTTACTTATTCATTTATTTATGTATTCAACTCCAAGGGCGTCACCCCCATTTTCTACCCATCCCCTCAATAAAGTTTTTAT
R
AAGGAACTCCCTGTCTCCGCTTCTGTTTCTGCAAGGTGGAACAAGCCCAGGGTTCCAGTCGTGACCTCCCGAGTTATTCATTCAAAAAGCGATTTTTGAG
Celera SNP ID:            hCV16285399
SNP Position Genomic:     13399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6356):
GCAGCTGGGGAGAGGCGGGGCGAGGTATCTGAGAGGGGGCGTGACCTGGGTCTTGGGGCGGCCGGCCCCGCCTGCCTCCCTCTCGGTCCCGGTAGACTAG
R
CGGAAGTGGGACAGAGTAGAAGTCAAAGGTGCCTTAGCGGGTGGGGCTGTTGATCGCACTTTGAGGGGTGGGAGATGGAGGTGGCAGGGGGACTGAATTC
Celera SNP ID:            hCV26941612
SNP Position Genomic:     12347
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6357):
CTGGGGAGAGGCGGGGCGAGGTATCTGAGAGGGGGCGTGACCTGGGTCTTGGGGCGGCCGGCCCCGCCTGCCTCCCTCTCGGTCCCGGTAGACTAGACGG
W
AGTGGGACAGAGTAGAAGTCAAAGGTGCCTTAGCGGGTGGGGCTGTTGATCGCACTTTGAGGGGTGGGAGATGGAGGTGGCAGGGGGACTGAATTCAAGG
Celera SNP ID:            hCV26941613
SNP Position Genomic:     12351
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6358):
GGCTGGAGGGAACAGAAGCCTCGCTGAGCTGTGTGGCGCACGGGGTACCGCCGCCTGATGTGATCTGCGTGCGCTCTGGAGAACTCGGGGCCGTCATCGA
R
GGGCTGTTGCGTGTGGCCCGGGAGCATGCGGGCACTTACCGCTGCGAAGCCACCAACCCTCGGGGCTCTGCGGCCAAAAATGTGGCCGTCACGGTGGAAT
Celera SNP ID:            hCV25472896
SNP Position Genomic:     10470
SNP Source:               Applera
Population(Allele,Count): african american(A,4|G,34)   caucasian(A,16|G,24)   total(A,20|G,58)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6359):
GTGGCAGGCGCCATGGGAAGCCACGGCGGCGAGTACGAGTGCGCAGCCACCAACGCGCACGGGCGCCACGCGCGGCGCATCACGGTGCGCGTGGCCGGTA
M
GTGGCAGCTGGGGAGAGGCGGGGCGAGGTATCTGAGAGGGGGCGTGACCTGGGTCTTGGGGCGGCCGGCCCCGCCTGCCTCCCTCTCGGTCCCGGTAGAC
Celera SNP ID:            hCV16019404
SNP Position Genomic:     12243
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6360):
CGTGGCAGGCGCCATGGGAAGCCACGGCGGCGAGTACGAGTGCGCAGCCACCAACGCGCACGGGCGCCACGCGCGGCGCATCACGGTGCGCGTGGCCGGT
M
AGTGGCAGCTGGGGAGAGGCGGGGCGAGGTATCTGAGAGGGGGCGTGACCTGGGTCTTGGGGCGGCCGGCCCCGCCTGCCTCCCTCTCGGTCCCGGTAGA
Celera SNP ID:            hCV16019405
SNP Position Genomic:     12242
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Gene Number:                 52
Celera Gene:                 hCG29284 - 79000075743605
Gene Symbol:                 KIAA0853
Protein Name:                KIAA0853 protein;DKFZp434D1812
Celera Genomic Axis:         GA_x5YUV32W8B1(27312536..27422836)
Chromosome:                  Chr13
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1713):
TTGATGGTAGCTTTAAAACTACAAATATCAGAAAAACTAAATTTACAGTGGATTAAGGAAAATGGGGTTTATTTTTTCTCCCATAACCATAAGTCTGGAG
ACAGGGCTGGCATCTCTGAGGATCTCTTAGCCACTTTCTCAAGGTTGCAAGGGAGACAGGTGCTGGGAATGACTGTTAGAAGGTCAGCTATGTGAGCAGA
TAAGTATTTGACTTCAAAAGAAACATAACACTTAGTGGAACTATGTTCTTTGCAGAGCCCTACCTAATCCATTCATCTAAAAGTGTTGCAACATAGGTAG
GAGAATACGTTGTCTGGGAAACCACAAATTACAGTACTATGTGCATCCCCTCATAATTTCACCTTAACAATTTCGTTACAGAGGAAGGTGCATCCAGTTC
CTCATGCTCGGAAACCTACTGTGGACTTTATCCTGAGTCAGAACCAGAAGTGAAGGCAGTGGCTAGTTTCTTGAGAAGAAATATCAACCAGATTAAAGCA
TACATCAGCATGCATTCATACTCCCAGCATATAGTGTTTCCATATTCCTATACACGAAGTAAAAGCAAAGACCATGAGGAACTGGTAAGTGCTACTTAAT
TATTTTTCTCATTAGCATTTTGGAAATAAAATAATACTTAGTTGAAGAATCAAAAACTGGGAAAAATTTTGGCCTCTAGAAGGCAAATGATAGATGTTTT
AAATCATGGTGTGATCCTGTTGAGAGTCACCCTGGGTCAGTGTTCTCTAAGGGAATATAAAGAACGTGCCTTACCCTAACAACACACACTTTATTCTAGC
ACGTGGGCTTCCTAAGAAAATGTCAGACAAATTCCTTGAAGGTTAGGAAGGAACTACTACTACACTTGACCTGATCTGCATGTGAAGCGGTATAAGCAAG
GATGAGTATGGAATCATGCGACAGCTTTGTGGTCACTAGCTTCCTACAACAGCACACCACAGATTAAGTCTCAACACAGCACTCATTGTTTTGGTATTAG
CAGCAGGAATTGTTCCTGCCCTGACTTCCTTAACCCTCAGGGTTTTGGTCCTATTAAAGTACCTCCAATTTTAGCATTGAGGAGAGAGTCTGTTTTTTGG
AACATAACAGACAATACAGGAAATTCAAAGAGGACTCACACAATTTGATACTCCCTTAGCACTTTTTAGTCCAAGATACTGTATGTTTGGGTTCATGGCA
AAAGATGCAAGGATTCTTGAAGGATTGTAGCTAGGCTTTGACAAATCCTCATCCCAGATGCTCTCCAGACAGTGGAAGTGTTACATCAACAGCCCCATTC
TTGGGAAGGGACTAATTTTTAGGTAGTAGCTTGTTTCTTAGTGACTCATTTTTTTTTCTGGCTCTCTTAACAGAATAAAATATAGTCACATTACAGGAGC
TAGCAATTGCTGATGACAAATATAAGATTATTTGCATTCTCTGAAAATAGCCCATTTAGAACATAAATGTACTTGATACTTGAGCTTTTTTCTTCTCAAG
GGAAAACTGTTAAGGAAAGCACCTTTCAAAAATATTATCTTTGAAGAAATAAAAGGAAATTTATCATGATTTGGGAAGTAGAATTAGTCTAATTATGCTT
TTTTTTTTTTGCATCACTGCCAGCACACATATATGTTGAGAGCCATTACGTGTAAAATACCTTGTCAATGGATGTTTAAAGAAGCATTAGGTAAAATCCT
GCCCTTTAAGAGAATGTGTTATGGTTAGGGAGCTCAACCATTAGCAAATGTTACAAATAGTTGTACTCTAAGGCGACATAGAGTAACTACTAAATACGTG
GCACAGACAGTACAACTCACTTCTAACTAGAATATCAAGGGATGGCTTCACTAATGCATTCAGAGGGAAATGCTGAGATAAGTGAGGAGATAAAGTAGTT
ACTGTCCTTGAGGAATTTACAATCTATTAAGGGGGGGAAAAACTACAAATAATAAAGTGCTGTTGATGTCAAAGATCAGCTACATTTTAGACAGGCATTG
AAAGAGGATTTCTATAGGCAGACAGGGAAGGAAGGACCTTCCAAGCAAAGAAGTTGGTGTTCACCATAAGAGGATGCAAAAGTGGAGGGTGATAGCATCA
GAAAGTAGATTAGGTTGGCTTCTGAAGGGGTGTGACTGTCAGATAAATTTGTATTTCATTATGTAGACAATGGGGTTACATTAAAACTTATTTTTTGAAC
AATGAGATGGCATAAAATAATATCCGCTGATAAATCTCTTGAGTTTTTCAAGAAGGTAACAGTGTATACCATGATGCTAGTTCCAATTTCCGAAAAGTTC
CAGATAAGTGAGAACTTCAGAATAGATTTGACAAAATGAATATCAACAGACAAAATGAAGTCAAATGGGGGTCTTAGTTATTATCCTGCTCCATACCAGA
GGCATAATCTTTTTTGATTTGATGAATCTATGGAAGTCATTAGACATTTTACACAAGAAGAAAATAGAAGTTGTGAGAAGGATAAGAAGTGAGTCATGCA
TGCATTAGGTGTTTGTATGTGTTTAGAAAGGTTGGATTTAAAGTTTGGTGATAATTTTGTTCAGAAATGGAGTACCTCTAAGCCTTTGAGATGTAGTTAT
ACTTCATTTTCCATAATAAATGAGTTCCCAAAAAGGCATGTGATAATTTTTTTCTGCAAATTAATATATTTATTTATATAAATTATTTCAATATATTGAA
ATAGTTTATGTTTAAAGCCACCCAATTGTGATTGCCATAAAGTGCACATATTTTAAATTAATTTGTTTACCTTATTTATTTGCCTTTTAGATGAATCTAG
ATTTTCTACCTGTATACTTTGATTCAATTAATGTATGATTATTTTTTAGAAACTTCTACTTGTCATGTTTCAAAGCTGCACATTAACTGAAATTCTATAT
CTTTTTGCTTCCAGTCTCTAGTAGCCAGTGAAGCAGTTCGTGCTATTGAGAAAACTAGTAAAAATACCAGGTATACACATGGCCATGGCTCAGAAACCTT
ATGTAAGTATTTCTTCTTATGATCTTAGAGAACTTTGAGCTACTAAAGAAATCTGTGTGATCTGTTTTTCTTTGTGTATTTAATTTTTCTGAATTAAATA
GGGTCACATGTAATACAACTGAATTGTAATAATTAGGAACAGAAGCATAATAGCTATGACAATGCTGAACAAAGCTATATTAATAAATGAGTTACTAAAA
AGAAGCCAAAATCCTATTTAAGAAATCATATTTATCACAATCAAGTAGGAATTACAGAATTGGCATCATACTAGTTGAGTGAAGCAGAAAAGTTCATAAA
ACTTTTGCATGATTCCCAGGGCCACCATGGAAGGTTGTGCAGGTTGTACACTACACTAATCTAGGGCATGCCATTTGCATCAAGTGTTTTTTAGTGTTAG
CCTGTTCCCAAGAGTATAGCTCATAACACATTACAGTTGATTGTCTTTAATATATATTACACACACAAAACTTGTGACAAACTCTTAACAAAAAGTTTTG
ATTAATTTTTGCTGAAAGATATTTAGTGAGTAACTCCTATCTACACACAGTGGGAGGACAGACTGATTTTGCCCTTTTGAAGTTTGAAGGGAGATGGGAA
AAGAGGAGCATAAAATAAACCTGTAACCAGGCATCAGAAAACTACAGCCTGAAGGCCAAATCCAGGTTTTTCCATTTTTTTTTTTTTTAATGATTAGAAA
AAAACAAAAAGAGGCCAGGTGCTGTGGCTCATGCCTGTAATACCAGCACTTTGGGAGGCTGAGGCAGGAGGATCACTTGAGGTCAGGAGTTCGAGACCAG
ACTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCAGGCGCCTGTAATGCCAGCTACTTGGTTGGCTAATGC
ATAAGAATTACTTGAACCTGGGAGGTGGGGGTGGCAATGAGCTGAGATTGTGCAACTGCACTCTAGCCTGGGTGACAGAGTGAGACTCCATCTCAAAAAA
GGTCGAAACTGTATTTATCATGAACACTAAAATATGTACACATTTTAGTTAACATGCATTAAACTGTAACAAGTCTTCTGGCAATTGTAGCTTTCATGAG
ATGCTTCCCAAACTGTATTAGATAGATGCTAAAATTATAAATTAAAATTTTGGGTCAGACTTTGCCATAAACCTGGACTCAATTTAGCACCCCCCCAAAA
AAAGTCAGATTATTCAATTAATGCGGTTGGAAAACCTAACAAGTTACCTAGAAAAAAATTAATTGGATTATTAACATGTCTTTCACCAAAGTAAATTCCA
GGTACAGCATATATTTTCATATGAAAACCCTGCATAAACCAAGTTGAAATCTCAGTAAGGAGAAAAAATTCTTGTGAAAGGAGAAATGAATGAAAGGAGA
AAAAAAGGTCTACATGCCAAACAAAGCTAATAACACTAATGTCGTTTTTATAAGCAATTGATAAAATGAACCAAGTAGACAAATGAGGAAGGACAATTGA
TAGGAAATATAAAGATAGCCAATAAATATGCCAAACAAATGTGCAACTCACTGATAATCAAAAAACATAAATTAAGACAGTTGGATATTATTTTTCGCCC
ATAAAATTATCAGAATTCATAATTCCTATTGATGGTATGGGAAGGGGAAATGGGCAAATTCATACCCTGCTTGTGGAAGTATAAATGAATTCAGTTCTTT
TGACGTCCATTTGGGAACATGCCGTAATTGCAAAAAGTACAGAGCCTTAGACTAGCAAATCTATTCTAGGGAAGAATATTCTAAAGAGACAAAGAAGCAA
TTATGTATAAACAAGGGTACTCATTGTAAAGTTGTTTATATTAGTTAAAAACTGAAAAAAATCTAAAGGTATACAAACAAATAAACATTTAAATCAAACA
ATTCCCAGTTTGTAAATTAATTTGAAACGTCTGTATTTCAACAATTTCTTTCTTCTTCTTTTAGACCTAGCTCCTGGAGGTGGGGACGATTGGATCTATG
ATTTGGGCATCAAATATTCGTTTACAATTGAACTTCGAGATACGGGCACATACGGATTCTTGCTGCCGGAGCGTTACATCAAACCCACCTGTAGAGAAGC
TTTTGCCGCTGTCTCTAAAATAGCTTGGCATGTCATTAGGAATGTTTAATGCCCCTGATTTTATCATTCTGCTTCCGTATTTTAATTTACTGATTCCAGC
AAGACCAAATCATTGTATCAGATTATTTTTAAGTTTTATCCGTAGTTTTGATAAAAGATTTTCCTATTCCTTGGTTCTGTCAGAGAACCTAATAAGTGCT
ACTTTGCCATTAAGGCAGACTAGGGTTCATGTCTTTTTACCCTTTAAAAAAAATTGTAAAAGTCTAGTTACCTACTTTTTCTTTGATTTTCGACGTTTGA
CTAGCCATCTCAAGCAACTTTCGACGTTTGACTAGCCATCTCAAGCAAGTTTAATCAATGATCATCTCACGCTGATCATTGGATCCTACTCAACAAAAGG
AAGGGTGGTCAGAAGTACATTAAAGATTTCTGCTCCAAATTTTCAATAAATTTCTGCTTGTGCCTTTAGAAATACAACCATGCATTCCGTTTGCTCCACG
GTAATTAGGCGATGGCCCAGAAAGGGGAGGGGTGTCAAAAACGACAAACATAGCCTCTCATTCCAGCTCAGCTGCTCAATAAACACTGTTGAACGAATGA
ATGAGTGGCTCTAGGTACTGTCAACAAATGCCGCATTTTGCGCATTTACAACAGCTGTTTATGGTAAGGAATTATGTAATAAAAAGAGAAAACTCACTTA
AATTCACTTTTAATTGGGAATTTTAGTTCTCCCGGGCTCCCAGTTTCCTTTCCTAGGATCTCTCACAGAGCACAGATTCGATTTCCAAGTCCCGCCGCAC
TCTTACCGCTCGCATGGAACCTTACGCCTAGAGGGCGTGTCCACGAAGGGTGGTGTCTGCGCACTGACGACTAATCTGACGGCCGGAAGCTGCCTGGGTC
TACAGAGGAACAGGGCAAACCTCTGACTTCCGGCGGCATTTTGAGGCGGTCCTCCTAGCGGCCTGGTAGTGTTTTTGTTGCCTTTTCTTAATCTACAATC
TCTTCGTTATTTTTCTTCCTGCGACCCAGTTTCGCTTGACCCTGGAGAGGCGGCGGGCGGGTTGGTTCTGCTTCTCAGCCATCCCGGGGGCTCCTCGCTA
GCCAAGAGCCGGTTCCCGGGAGCCGCGCGCGCATCGCTTTCTCCTCGTCGTCGTCCTCCTGGGTCCAGGCGCGGGGACAGAGTCGCCTCCCCCGCTCCTC
GGAGCGGCGGCGGCGGTGGTGCCTCCGGACTGCACTTGCGAAGGGAGCTTGGGGAGGAAGTAAGCGTTCTGTGAATTGGTGTGGGTATCTGGGGAAGGCA
TTGAGCGGACCCGTAATGCGGAGGCCCGGGTTACCYMCCCCCGTCTTTGCTTGAGTCACTGGGATTTTGAGCTTTCCTTGAGCATCCCACCCTTAACTCT
GCAATAGCCCCCTGTGCTCAGGCGTAATTTCTCACTCTGATTATGATTCTGGCATTTGTCTAAGGGCGATAAGTAGACTCAGACAATAGGCTGTACCCCT
CGTTACCATTTGATGTAAGCACGGGAACCCTTGTATGGTGTTCGTATTTGTGTGCGATGGAAGGGTGCAGCAATTTGGGCTTAAATTTAGAATCTTCCTC
TATACTCATTCCAGATCTGTTAGAGAAAAACATCTTACTTGTGATTGGTCTTGTTTTTTTTTTTTTTTTTTTTCCCTCAGCAGTGATAACGATTTAGGTC
CTGGGAATTGAGTGCTACTTTATMTTCACAAGCCTTAGGTAGGTAGTTTTGGCAACTGTCAGAAACGGGGGAAAGTGGAATAGAAAGAAGAGAGTCTGTT
TGGCGGCATTATCTCTCTGTAATAGGCTAACGCAATTTATGTGGTTTGAAAATTATTTAGAGTTGATAATACTTGAATTATGTTGGTAAGATGTTGTTTG
TGAAGGGTAGTCTTAAGGTATTTGGTTATACTATGGGGCTTTCAGGTAATTCGAACTACTTTGAAAATTATGGGAGTATGAAGTCTCTTAAGATTTTTGG
ATTTTTAAAGTAGTTTTAAAAATTTGGAAAACATCTTTACACCTCAAGTTTTCGAAGTCCGCGATACCGTTGGAGAATAAATACTTATGCAGTTCAGTCT
ATGGGTATATGGTGCCAGTTAGCGGGGTCTAGTTCTGTAACATTTGAAATTACTGGCTTTAGTACAATATATTGGAGCGTTTTGTGAATACAATCTATAG
ATTTTCAAATAATTTTTAATTTCTTAATGAACTATTTACATTATAACAGATGACAGTTTCAACTAGAGACTAGCAAAGTTGATGCAAGCTTGTAACAATT
GCGGCTTTAAAAATAGTTGCACTCTGAAACTAAGGCTTTCACTCTGTGCATCTGGTAGGATTCAGTTTTATCAAATGTATGCCTCTTACTGGCTTCCTGA
TTACTGGTCATTCTAAATGAACATTGCATATTTTGAGATTTGCAAGCTTATGTGATTTTCATATTTGTAATATGAATTTAACATACTAAAAATCCAGCAA
GTGGATGGTATCTTAACATCTTTACAAATTATTAAAATTGTAATATCATCAGTATTTATAATATGCATTGGCATTTACATAGAGGAAACACATTGTTTAA
CTTAAATTTACTTAGAGAGTTGGTTTTCAGTGGATGATAGTCTTCCTCACCTCCTCATCTCTCCCAACTCCATCTCATATAGAGGTGGAGCTATTTCTCC
AGCTGTTAGTAGTAGTTGAAGCATTAACTGCTGTTGATATAGAAAGAGTCTTTTATTCTTTTTTTTTTGTATTTTTGTATGATGCAGTTCTTTTTACTTC
ACTTTAGAGTAGGTACCAGCATGGGATGTTTTCTGTGCAGTCTTTTTAACAAATTGTTTTTTCTGCATAGTACTGCAGTGTTGCTTTGCTAATTCCTATG
TAGTCAGCTTAGTTCTGTCAGTTGTATTTGGAATTTAGTTTGGAATTGTTTTAGCATTAAATTTACGGAAGCAATCTGAAAGTTTGTTTTAGAAAGTTCT
TTTTAAAAAATTCTCTCAAACTATGCATCAAATAAAGTTAATTTTTCTTTCTAAAAATATGAAGTATAAATGTGAAGATACCTTATTTTTAGTATCACCT
TTTTAATCTTAGAAATTCAGAGTATAGGGATTTATCCTACTAGTTAGTACATTCATGTAGTTTTAATTGCCTRATTGTTTGAAATTTCCCTAATATTATG
CCGCTACTCATCCGGATTAAAGTGTTATGCTTTCACTTATGCTTCCAGTAGATGAGACCTGGAAAAGATAATTAATTATGGATTGAAGTGAAGATACTAG
AACGCATATGTGTTTATTGACAAGATTTTATTAATTGAGCTTCTGGAGTCATTATTCAAAAAGAGACCCTTTTGTATGCTTCTCCTTTCTCAGCCATAAT
TATAATGTGAACCTTCTGAGTACAGTGTTATTCTAAGTTTCTCGGGGCAAGGGAGCAGTTCCCATTTAAGACCCTCTTTTGTTGTGTCTTTATTAATAGA
CTCAAACTTTGTGTCCCGGATTTTCTTTTTCTTTTTCCATTTTCTTTTTTAATTGAAAAGAGATTATAAAGACTTCAGATATTCATTTGCTCTGCAAATG
GAGAGGAGAAATAGGAAAATAACGAAATAGGCTTTCACTAGTGCCACTCTGTCTTTGATAATGCTCGTGTTTGAGAAAGACTTGATGATGTGGGTGGAAG
TGTGATGGCAACTTAAACCAAATAATAATTTGAAAACAAAAATGGAGGAAAACCTTCATAGAAGAGTAAATTAGTAAGTTATTGGTATGACCTTGATTTC
TATTCTCTATGATAGGAAAGACTTTAGTATTTACATTTTTATCTTATGGTTTCTAATTTTTCTCATATACTTTGAAGCATTTACTTGTCATGTTCAGCCT
GTTCATACATAATTTGAAAAAGTTTCCCGCCCCGAAAATCTACATTTTAACTGTTGTGGTGTTCATTTTCCTTTACGGGCCCAAAGTTTTAAATAGGATT
GAAAATTCTAATTGTCACATTAGTTGGTAACATTTAGTTTTAATATATGAAAAAGGAAATGTTTTTCTGCTGTATTGTAGATAGTGTGTATATTTTTAGA
TAAATGGGATTTTTAAAGTTATATATTGTGTTCTTTACAAGCATGAAGCATTTTGTTTATTCAAATTCATGAATGTCTCATTAGTAATATTTAAGTAACA
TTTTATTGTTGACTACTTGTGGAAGTTTTTACATGGATGATCAGAAGAATTTTTTCAGTTAGAAATCTTCAGTTTCTGCTTTTTTCTTTTTTCACCAGAC
GTTTTACACACACACATATATATATCACATTAAAGAACATTTTATTAAGAATATGTGTGTGTGTGTATTATTGTTGTCATTATTCTTGTTTTAAATGTTC
AGTCCAGGACCTTGCTGTAACCCAGACCGCATACTCAGATGCTGTATTACTTTAGGACAAAGTATGGTACTCTTGGAGTCTGAGAAAAAGTAGAGTACAT
CTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCCCTCTGTTGCCAGGTTGGAGTGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCA
AGCGATTCTCCTGCCTCAGCTTCCCGAGTAGCTGGGATTACAGGCGTGCACCKCCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACC
ATGTTGGCCAGGATGGTCTCGATCTGTTGGCCAGGATGGTCTCAATCTCTTGACCTCGTGATCCGCCTGCCTTGGCCTCCCAAAGTGCTGGGATTACAGG
CGTGAGTCACTGCGCTTGGCCACATTTTTACTTAATTTCATTTCTTCGCTAAATTGGGAGACTCAGTACAGTAGTAGCTGCAAGTGAAATTCCTGGGATA
ATTACTATGTAGGTGAATCTTGAATAGTTCTTGATGTCACTGGTAAAAGCAATTTTGTCTCTGTGGAAAGAATATGGGCGTAGGGTGAGGGAGGTGAGGA
GGTGGATCATTAGTCTTCACTTGATTGTCTTTCATAGCAAGTCCAACCCTTGAAATCTTCAAAGTTTTTTTTTTTTTTTTTTTTTTTTTTGAGGCGGAGT
CTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCCGCCTCAGCCTCCCGAG
TAGCTGGGACTACAGGCGCCTGCCACCACGCCCGGCTAATTTTGTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTAGCCAGCATGGTCTCGAT
CTCCTGACTTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCGAAATCTTCAAAGTTTGCCTTAGGGA
GTCTAGGATTGGAGAGAAGCTCTCAGACCAGCAAAGCAATAGGTCAAGGGAGGAGAGTAGTGCGAATCAGGCAACAGAGGACAGACCAGAAAAAGAAACT
GTAGAGTTAATACCTGGAACCCTCAAAAAGTAAAAAGAAAGGAGATGATAGATGACCAATGTTTTAAGTATAATAAGTACGATAATAAATAGCCTGTCGT
CCTAACTGGAAACCATTACCATTGAATTTTTTGAAGGAGACTGAGCTGGGAGTGGAGGCATGTTGGGGGTAGTAGAGATGTTGGGGGCAGAACTAACTCA
TTTCCAGTGACAGTGGAGGGAAAAATAAAAAATTAGTGTTAGTCCACTTGAGGCAGTGTGGTGGGAGGGTGTGCCTGTTTTCTAAGTTCTACATAACTAG
CAAATAAGGAAATTTTGGAACCTATTCAATTTTGTTTATTAAGAAATGTTTTAAAAATTGAATTATTGGTTGAGGATTACTCTATATTTGTATATTAATG
TAGCAATATATAATGAAACTTTATGTTTTTCTCAAACTTCTTATACATTGTGATACATTTACTTATTATTGAATCATGCTTGGATATATATTGTTAAAAA
AGTTTTTCTCAAAGCTCTACATTTTCTAGATCTTTCTCAGCTCCACTTAGCTTTCAGTTTTTTCGTGCTCAGTAAATCAAATAGACATAGGAAATTTTAC
CAGCTTCTCCTCCGTATGTTCACATTTCAGCTGAGAATGAGTCTAAGAAAAATTAAATCAAAGATTATCTTATAATGCTAACACCAGTATGTAGAATTGG
TGTGTAGTTCCTTACTTGGAGAACAATTAATATTTAATTGATTTTGTGTTGCAGCAAATTATTGTTTATGTGATGCTCTCCACTGGTTCTTAAATTTATA
ATTACTGTGAAGTAATTCTGTTTTTAAAATCACTAAAAATTAATTGCTATTATATCAAAAGAATTATTACATTTTATATTGATAAAAATATAGATTTTCC
AATTTAAAATCACCATATATTATTTCATATTTTCCTTCCTTGATGCACCATCTTTTATTKATCAAATGTTGTTCTTAGTCTTTGGATTCTTTTAAAAGTG
TGACCTGAAGTACCTCATTGAACCAAACACTGTTTATAATTTTTTATTGCTGTTTCAATTAGGTACTACCACGATTTAATTTCCTTTAAAGTGATATGTC
TTTACTTTGAAACCACATTAAAGATTTGTGATCTTTATAGAGACTAAATGAAACTTTTTTAGCTGCTGTGGTTCATTCTAGTAACTTTTGATGATTGATA
AGATTTCAACTAATATTTAGTTTGTATAAAGCGGGATATAGTATGGTGTTTTTTTTCCTTCCCCTTATGAGGCAGTTTCTACCCTCTTCCCACAGTAGTG
TATGCTCTGGATTGTATCTTGGTCTAGAATTTAATATTGTTTTCTAATGTCATAATATACTGTCATTATCTGATACTTGCAAATCTAGTTGAATTACCCA
ATTATGTCATTGGATTAGATTTTTACTATAGTTTCAGTTTTTGAATGTTTTATTTACATACATATATATATATAGAGAGAGTTTTTTTGTTTTTTTTTGA
GATGGAGTCTCGCTTTGTCGCCCAGGCTGGAGTGCGGTGGTGTGATCTCGGCTCACTGCAAGCTCTGCCTCCTGGGTTCATGCTATTCTCCTGCCTCAGC
CTCCAGAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTTTTTTTTTTTTTGTATTTTTAGTAASAYGGAGTTTTGCCATGTTAGCC
AGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCACGAGCCACTGTGCCTGGCCCTTAAAAAATA
TTTTTATGTTTACATCAAATCTAACAGAGCTTAAACGTAAAATAAAATAAAAATATTTTTACAATTTGCCTTTTTTGTTATTACTAATAATGGTAAAATA
GTCTGATAATTACTTTTAACACCTTTGAATTTTATGTCAGTGTAGTATAGATTATAGAAACACCTCGACTTTTTCTAGTTCTACAGTCTGTCCTGTTTTG
AAAGTTGTTTCTATCAACATTGAGTTTTGTTTTGTTTTGTTTTTGTGTTACTGGAAAATAAATATGCTTGATCAGATTGTTTTGACTTCTGTCAGGCAAA
GAAAATACTAAAATATCATTCATTTTTCTCAACCTGATTTTTGGAACATAACTGCTGTTGTCCCTWAAACTTATGAAACATAATTTCTGCTATGAAAATT
TTCACCCAATTTTATTTTTCCATTTTCTTTAGCATAACTCTTTTTCAGTTAACCAGTTGATGGTTAACAACTTTGAGTTACTAAATTTTGAAGCAATTTT
TGTAAGTAACTTTTATAAAGTAAACATTTTGTACTGTATCTTCTGAGGTTGATTGTACTATGAAAACTTCACTGTGTGAGTAGGATCATATTCGTTCACT
CTGCAGAAGAGGTACAATTCTAGCCAACAGATCTCACAGCTGTTATAAATTCACCAGTAAGGCATGTTTTAGAAGATATTATCTCTGTTTACCTGTGACC
TCTCCTATGCTTTTTTTTTTTAATCTCCCAAGGAAAATCTCCTGTAATTTTACACTGTTACCTATAGTTTTATCTACTTGTAAGCTGTGGGCTCAGTTAT
TTAAAACTGAGGAATTTTACAGTTTTGCCTCTTTCTTTTTTGGTTGAAGTAGTACAAAATGTCAAAAATTAGAAGGAAGGTCACAGTGGAAAATACCAAG
ACTATATCTGATAGCACATCCCGAAGACCCAGTGTATTTGAGAGGCTTGGACCCAGCACTGGCAGTACAGCAGAGGTGAGTTGTCACTAGTATAGTCACA
GGGGYTCTCTTAGAATTCTATTATTGAAATGCTTATTTGTATCATAAAGGTGAACAGGTTGTTTTATTGTAGGAATGTTTGTTCAGTAAATTTTTTAAAG
TGTGTTTTATAAAAAGAAGTGAAAAGGGTGATAAGGTTTATGGGTTTTTCCATATTTTTTTCCTGAAGTTTTTATTATTTGGGGRGTAATATATCACAGG
TTAGCTGGAATTTTGGTAGCATTTGTTTTAATTTTGTCCCGCTAGCATTTTTTTTTTCCAGAAATAAATATGAAATTTACATAGTAATATCTGTCTCTTA
GACACAGTGCCGTAACTGGCTGAAGACTGGCAACTGCCTCTATGGAAACACATGTAGATTCGTACATGGCCCTTCACCTCGTGGTAAAGGTTATAGCAGC
AATTATAGAAGGTAAACTGAGAACTTTGTRTTGTTCATGTACTATTAGAAGATGGCTTTTGTAATTTATCTAGTRTAAAAATCTGAAATACAACCATATA
TTTGGTCAGATTTTCTATATTGGTGGTAGTCTTACCAGTAATTGAAGATCGACAGGATCTTTTTGTTATTTTCAAGATTAATAAAATGTTTGCTTTCAAA
TTAACTTATTTGTTCATTATTTATTTGTTTTGACAGTAGATCTTTTTGTAGTATGTGTATGGCTTACTTTTTCCCCCCTAATTATGTATTAAATTGCTGC
TTAAGACAGCAGAATTCCATGGTGTCTGAATTTCTTTTTAGTGAGGCTATTTTTAACTCTTAAAATAGTAAAATTCAAATAGGGTATAATTTTAGCTGTT
TAAGATGTTCTGAATTCAAATTTTGTACAAATTCTATAGGTTAAAATGCATTTGCCAAATCCCTTAGCACAGTATGTTAATGAAAATATKTATTTATATG
TGGATGAATATGCTCCATATTTCGAACATCGTTTTGCCTTTAATAAAGGCTTGGCTAGATTAAACTTGCTTAATAAAGACCTTTTATTTTTCTTTTGGTT
CCCTCATGATGATTATTTTATGGTATTTAAAGATGTAATATACATAAAGTTTGTCACAAAAACAGTTTTAACTTGATTGGTAAAGAAATAATTTACCTAG
ATCCAAAATTGGTTACRCTGATTGTTTTGGCTATAGCATAGCAACACTATAAAAACTGAACATTAGCAATTGGAWTTTTTTTTTTTTTTTTTTAGTTGAA
TGATTTTTTTKGGGGTAGTGTATGGGTAGATTTTGTTTAGGAGAATTTAAAATTCAAACCCTCAACATTAGCCAACTTCTTTTTCACGTAAACATTGTAC
ATTTTAGTTTATTTGTGATTCTGAATACTGTTTTATTTGTATTTAGATTGTCATTTGTCACTTCCGTTAATGTGGGAAGATTAGTGTTTATTGTATATGT
GTGTTTACTTGTATATATACACGTAGATACATACCTGGTGAAACTATTTCGATAMTTTTAATGTTTTGCTTTAATACTATACTTTTGATACATTTTAAAA
TTTATCTTTGAAATTTATTAGCTGACTCAGAATTTTTATTCAAGAAATCATTTTGAGAAAAATGGTCAGAGAAATTTGTCTAAAATGGGAAAAAGTAATG
TCATTGCTAGACTTAGAATAAAGAATATTTATTATAATTTTGCTATTTTGTGTATGATTTTCCATCTGATAACTTCTTTCGTATTTGTGCATTTTTTTTG
TCGGGAGGAAAAACATAGTTCATAATGCGAGTCAAAGATAAGAAAAGCAATGTATTTTACAGAATGCTTATTTATATGTTTATATACAAGACTTTTACAT
AATTAATTGAGAATTCGCTGTGTGTAAAACATTCATTCTGTTGGGTGCTGTTTAGGATAGAAACAAGTTCATACTAAAGTGTTTTATTATATAAAGGAAA
CCAGGGCACATAGGATTTACATGTACATCATTATAATTTAGAGCACTTAAGTACTGGTTCTTAGTAAGAGATTCCAGTTTCAAGTTTAGCTTTAACTGTT
AAAACATTTAATATAAATCTATTACATGTGCATGTAAACATTAATGAGATCCTTTAAAGTGAATTAACTCAAATTATTTCTTTACTAACCTTATGATTTA
TATTCATAAAATCAAGGAAYTGATTTGATTGCYCAATGACTGCTTGAAATAGATGTGAATATTTATGTGATTTGTTTATATCTTTTTTATATATAGTACT
TTTTGGTAGTCAAAGAGGAACAGAGCATTCCTTAACTTCTTTTGCCCTGTTTTAAAGGTGTTGTAGAAATAGTCTTTAAAGGCAGTCTGTTTTCCATCTC
TCCTTTGTTTTTTCCCACTGATAGTGAAAATAATTGCATAGCCATATACTGTCAAATTTCTAGTATAAATAATAAAGCCTTACCACTGTTGAGTATAAAT
ATGTATTTTTCCTTTAGTTAAAAAATTTACAGCAGAATATGAAAATCACTGTTGTAAAATTGCCTTGAATCCTTTATCTTTATTCTGAAATAATTTAAAA
TTTAAGATAAATTTTAAAGCTCCTATATTTGCTTTGATTCTTACTTAAGGTACATAAAATATTTTCTCAGTTATTGATGTTGCATCCAACCACAGGCATG
TGTATACAAGAAACTTATTTCTTGTAATATCTTCTTATATCTTTCAGTATAAATGATAATGCTGCTACCTCTAGATTAATTTTGCAACTTTGTAGTTTAA
AACTTTGTGTTACTACTACATTTTGCTCCCACATATAACTAATATATTTATGTGATTAATAGGAAAACAAGTCAAGCTATTAGTTCCTTTTTCTCAGTTC
ACATATAATTTCTTATTCACATCACCAGTACCTGCCACTTCGTGGAATTTAACATATACATTTTGATTGTTATTGGGAGAAAAACTGTAAGTGTTGCTCG
TGTTTTGCATATTAATATTTAAGGTGAAATTTTTCAGAAATTCAGGAGTCAAGGTCAGTTAGAAAAAGTGTATTGAGATTTGTGAGGTTATTTCTGTAAA
TACATTCTTATAAAATGTTATTAATATATAAATACAGAKTTTTGTTGTTTTGTTTCGTTTTTTGTTTTGTTTCTGTGTTTTGGTTCAAAGGTCACCAGAA
AGACCTACAGGGGATCTTAGAGAAAGAATGAAGAACAAGCGCCAAGACGTGGACACTGAGCCCCAGAAACGAAATACAGAGGAGTCATCCTCACCTGTTA
GGGTAGGATTGAATTTCCCAAAACAAAGTTCAACTTCAGTAGTGATTTGTTAATTTGAGTTTCATTTTAAATATTGTGTGCTAAATATATGGTAAATGTG
TAATACGGCATTATAATGTTCTATATGGATAATGTAATTTAGAGGGAAAGAGTCCCCTGGGAAAACTGTGATTGGTTCAGTTCTTTATGGTAGTTAAGAT
GAAAGGGATTAGTTGGCAGAACTCAAGCTGAACTTAGTAGGGATTTTGTGTAGGGATCCCTTAGTAGGGATCCTTGACGAGGATCATGAGTATCTTTAAG
TTTTCAGAATTCAGCCAGCCATCACATCTGCTTCCAAGAAAGATTGAAGTGGCTTGCAGTAGAACACTTACAAATGAAAACAATGAAAGCAAAACACATG
GGGTTAACAAACTGCACTAGAAAGTTGAGGTAAAAGAAAGCACATATGACCACAAATTTTAGCTGTGAATTTGTTGGCAGTGAAGCCAAGAGAAATAAAA
TTTATAATGTAGTTCATTGAATAAAAGAAAAGTGTTTGTCAGGAATGGAAATCTTTCCCAGAGCTAATTTTTTTCTAGAAATTTATCATACCATATTTCA
CATACCATACAGTTCACTCATTAAAAGTGTACGCCTCAGTGGTTTTTAGTATTATTAGAGTTGTGAAACCATCATCACAGTCAATTTTAGAATATTTTCA
TTGCTACGTAAAGAAACGCCAAACTTTTCAGCAGTCGCCCTCCTAGCCACCAGCCCTAGGCAACCACTAAATCCTCTTTCTCTCTCTAGAGATTTGCCTA
TATATTTCATATAAATGGAATAATAAAACATGATTTTTTGTGACTAGCTTTTTTCACTTAGCATACCTTTTCAAGGTTCGTGAAAGAGTATGGGATGCAT
CAGTATTTTATTCCTTATTTTTGTCAGATAATATTACATTGTATTGATAATATCACATTTTGTTTATCCACTCATCAGTGATGGATATTTGGGCTTTTTC
TACTTTTTGACTCCTGTGTATAATGCTGCTATGAACATTTATGTACAAGTTTGTATATGGATATGTTTTTATTTCTATTGGGTTTATATTGAGGAGTGGA
GTTGACAAGTTCTACGGTAACTGTGTGTTTAACCTTTTAATGAACTTCTAGACTTTCATTAAGTGGCTGTATCATTTCACATTGTTGACAGCATATGAAA
GTTCTAGTTTCTGCACATCATCACCAACACTTTTGTTATCTAACTTTTTGATTATAGCCATCCTGATGGGTGTGAAATGATGATCTAACTGTGGTTTTAT
TTGCATTTTGGATTCTAATGATGTTGAGCATCTTCTTGTGTACTTATTGGCTATTTGTATATTTTCTTTGGAGATTCTTTTCCCATTTTAAAAATCGAGT
TGTCTTTTTATTATTGAGTTACAAGTGTTCTCTTTATTTTGGATACAAGTCCCTTATCGTATATGTAACTTGCAGATCTTTTCTCCCATTCTGTGTGTTA
TCATCACATTCTTGATGGTGTCCTTTAAAGCATACACATTTTTAATTTGATGAAATCTGACTTACCTGTTTTTGTTTTTTTTGTTATTATTGTTGCTTGT
TTGTGCTTTTGGTGTCATCTAAGAAACTATTGTTTAGTCCAGGGTCACARAGATTTACGTCTATGTTGTCTTTGAAGCATTTTCTGGTTTTAGCTCTTAT
ATTTAAGCCTTTGATACATTTTGAGCTAATTTTTATTTATGATGTGGTAAAGGTTCAGCCTTATTCTTTTGCATGTGGATATCCAGTTGTCCTCTATTAT
AGTCTTTTTATGAAAGTTACTGAATTGTAACTGAATCAAGGAAGCAACAACTTCCTTGATCACTTAAATTATGTAGAAGTTTTCTGCAGCTGTTTTTGAC
CCATGGTAAAAAAGCCCTGACAGCATTATAATTTGTGAAACTTATTTCTTACAATACAGTTTTAAGTATTTAGTTTTCTAATGTCTAATGTTATACAGTG
ATACAGTCTTAAAAATCTTAAATAGTTCTCAGCTGGAGGTTTTTATCAACATTCCTTTTGAGGGAAGATCTTTTTCAAAATACACATGCCAATATTCCAC
CCCTAATCTACTGAATCAGAATTTCTGGGTTGGGGCTAAGCGTGTGTATTACATTTTGAAATAACCTATTGATTCAGAATAACAGATGCCTCAGCGGTCT
GCCAGTAAATGTACCGCTACTCTGAAAAAAAGAAAGCCATGCTTTCTAGGGTTTGCCCCTTCTTTTATGTAAATACTCCCACCATGGTCAGTTTCAAGCT
TTCAAAGACATCACTGACAGATGCATAGTTGGGAAGAGATGCTAAGTGACATTGTATACAGTGTTCCCGTTATGTATATTATAAACAGACACACAAAATG
TAAATAACCTCAGAAGTAAAATTTACTATGAGTTCTGAGTACTTATTATCTTTGTTTTTAATACAGTTTATTTGTTCAATCATGGCTGTGTTTAACAGTG
GCTTCCAGAATTCCTAAAAATTTAAATCAGCTCTTATGAGTCAGTACAGACTGACTCTAGCATACTACTAGATGAATTGTTATTAGTATAAGGAGCAAAC
ATCTGGAATCCATATTTAGAGCATATTACTTTAGGAATTGTTAAACTCTTCTTCTTGTCTCCTTATCCGTAAAATGGAAATGCAGGCTGTCCATGTTGCT
GTGAAGAATATACATGTAAATGATTTACTATTCCATGATGACACATGCGTAATAAATGGTATATACTGGTATTGAAATGGCACTTAGCTTTTTCTAATAT
AAATTGTCTTTAGGCTCTTATAGAAGATGAACATCAGCCTTGGAGATTTAGGTTGTTGACAGTTAACTGAATGTAAGTGTGTTGTTTATCATAAGGGTTT
TTATGTTCATCAAATAAAGTTAGTACAGTAAAGTTGGCATTTTGTTAAGAAATTTAAAGCCTGATTCTTGCTTTCCCTAGATGAGAAAGCCCTCAAAGGC
ACTGAGCATCGTGTATACCTAAGGGATAGAGTTACAAATTTCAACAGTGATCAGGTTTTAGGTAATACACTATCTAAACTTAAACAGAACTGTTAATAAC
CTGGGACACCAGGATATTAATTATTATTTATTAGTATTCTTTTGAGACAGAGTCTCACCCTGTCTCCCAGACTGGAGTGGAATGGCATGATCTCTGCTCA
CTGCAACCTCTGCCTCCTAGGTTCAAGCGATTCTCCAGCCTCAGCCTCCCAAGTAGCTGAGATTACAGGTGCGTGCCACCACGCCTGGCTAATTTTTTGT
ATCTTCAGTAGAAATGGGGTTTCACTATGTTGGGCAGGCTGGTCTTGAACTCCTGACCTTGTGATCCACCTGCCTCAGCCTCCCAAAGTCCTGGGATTAC
AGGCATGAGCCACCAGCAAGGTATTAATTATTTTTAGTGTTATATTTGACAGGTAACAGATACYGATCATTTTTATGGTGCATTCTTGCTGCAACACATG
ACTGTTGATCTTCATGTAATGAATTTCTCTAGGAAGATCAGGCCTATGTTAGGTAAGGGCAACTGTGGAATAGATTACATAGGCATAGCTAAGATAGAAT
GGGTGTGATTTTCAGCAAATTAGCTGTAATTCCTCCTCTTCTCTGTCACTGATGTCAACTCCAGTGTGTTTGAATTATGAGGTTGGTAACCCTTGATCTT
GTGGTTATCAAATTCATAAATGGATAACTTGTAATTCTGTAGCATGTGATAGTGTGTCAGAAAGATACGAGCAAAATGCACAATGGAGAGAGTAAGTAAT
TACCTGGAGAACCAGGGACCTCTTCAGGGAAAATGACACTTGGACTGGTGTTGAAGGATCGACGCGGTGTCAGAGGGGAGGGAAGAAGAGAAAACCAACA
CAAGAACTGTAAGGAGTTTTAAAGGACTAATGTGTTTGAGGAGCTTGTGAAGCTGTGTGCCTAGGTTATAAAAATGATAACATGTGGACGTGAGATGAAG
GCTGAAGTAGATTAGGACCAGATTATCAGTGGTCTTGTGTGCCAAACTCACAGTTTAGCAATAGAGAAAAGAGACATGCTGAGATCTGTCTTGCTCACCA
GTTTACCTCCAGACCCTGGAACTAGTAAGTTCACTTACTGAATTAATGGAAAGTGGTTCTGATATGCAGCCATGATTGAGAAACCCTGCTGATGTAAGGT
CTGTGCTGTCAAATGTGGGTAGTCTGAATTGAAGTGTGCTGTAAATATAAAATACATAGTGAATTTCAGAGACTTAGTATGAAAAGAAAGTAAAATATCT
CAAATTTTAAAATGTAGATTATATGTTGAGAGGACAATGATTTTGGATATGCTGGGTTAAATAATGTTATCAGTATTTTAATTTTACCTTTATCTTTTTT
TCTTTTTAATGTTACAACAAGGAATTGTAAAATTACTTAAGTGCTTGCATCATGTTTCTGTTGGAAAGGGCTGGTCTAGGTGATGTGAATCAGACAATAY
GGTGGAACTGAAAAGTGAGAGGCTTATATGAGGTAGTCAGTAGGAAATAGTTGCATTTAATCAGTAGAGGTTTTCAGATTAAAATGGAATTGTATTTTCA
TTTTRTATTGCAGAGACTTGTTATTTTATGGAATTTGAGCACAAAAGATAAATTAGCTTTGAAAGCAAAATTAGACCCCTAAATATAGTCAGGAAGAATA
TTCAAGCATTTATTGATGACGGAGACATACAGGTGCTGTAGGGCATCCTTATCTCTTAGTAGAAGCTTTGTGGCTGCATTCAAGAAAGAATTAGATAATT
TGTCACTGTGGGAAGATACCTAATTTAGGAGTTAGAGGTGCCCTATGAGTATTGCTTACCTAAGTCTTACATCAGAGCAAATGGGCAAGAGCAGTGGTCT
AAGTTTATTTTTCTTTATTGATCTTTGTTTTTATTTTCATTTTTTTATTGTGGTAAAATGCACATAAAATTTACTATTTTAACAATTTTTTGATGCACAG
TTTATTGGCATTAAGTACATTTACACTGTTATGCAACTGATACCACCATTCATTTCCAGAACTTTTTCATGATCTTTGTTTTTAAAGTGTTTAGTTTTTT
GTTGTTGTTTATTCGTCCTCATATACAATATTAAAACAATTGGGATAGCTGAGTGTGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGTG
GGCAGATCACTTGAGGCCAGGAGTTTGAGACCAGACTGGCCAACATAGCAAAACCCCGTCTCTACTAAAAATGCAAAAATTAGCCAGGTGTGGTGGCTCA
TGCCTATAATCCCAGCTACTCGGGAGGCTGAGCCAGGAGAATTACTTGAGCCTGGGAGGCGGAGGTTGCAGTGAGCTGAGATCATGCTAGCCTGGGTGAC
AGAGTAAGACTCTGTCTCAAAAAAACAAAACAAAACAAAAATGACAATTGGAATAATATTTTAACTGATGTTAATTTTCTAAATGTTAATTATTTCAACT
GGTTAAATACTTTTTCTTTACCTGTTATTTTAATAACTTTTTCTGGTTCCTAAAAAGTAATTTTTAGAGGTTTTGTTTTTTTTCTTTTCCACCTCGAGGT
TTTTCTTTTGAGACTTCACAATGTTGTTCTCTTTCCCTTGTCCACTGTTTTTTCAAAGGACCATTTCTGTCATTTGTTTATGTTTCCTACCCCACCCCAA
CCTAATTGCTTACCTTCAAACAGATCATTTGTTTAGACTTGATATTTATCCTGAATTTATTTAAGATGACTACACTCAAATTACTTTTTCAATTCTCAGT
CTATAGGTGGATCTCAAGTTGATTATCCAACTTTAAACCTATTCCAGGTGTCTTATTACTGAATTGAAAATGTATTTCTAGTATGAAGTTTACTGTCTCT
GGAAAYTGTACCTCCTAGAATGCCCATGCAATTATTAGTTTTGTTTCACAGTTGCCTCCTCAGTTCTCTTACTGCCCCCCGACATCCCCTATCTTGTTCT
TTTTTTTTTTTTTCTTGACACGGAGTCTTGCTCTCCCTCTCGATCTAAAGTGCAATGATGCAAACATGATTCACTGTAGCCTCCACCTCCCAGGCTCAAA
CAATCCTCCTGCCTCAGCCTCCAAAAATGTTGGGATTACAGTTGTGAGCCACTGCACTTGGCCTTACCTTGTTCTTTTTCTGCCATCTTGATATTTCTGT
CTAGATGAGAAAAAAAAATGGCACTGACTCTAGAGGAAGGGATAATACTGTAGCTGTTAGAATTAGCAGGACTCCTGCAGTGGAGGACTTTTAAGTTAGA
AGGCCTTAACATTGTTACTAACTATATCTTGAGTAAGTCTCTTGACTTTGTCTTTTAACTTGTAGGATAGATGTACCTGCCCCAGTTTATCACAAGTTAT
GGTGAGAACCAAATGAAGAAGTACGTATAAAATTCTTTGGAAATAATAAAACATAGTTTAAATGCAAAATAGAAATAGTAGAAAGTCACCAAAGTAAAAA
TTTAGGAAGCTGATCACTGTAGGGGTAAATAGATCAAATGAGTGTTGTTTGTTTATTTCAAAAGAAAAGGCTTAGAAGGATAAGAGTATAAGTAGAGGTA
CAGTGTATCTACCACCTGGTGGAAATTTGGTAATGAATATGTAGTACGGAGATAATTATGGTGATTTTCCAACATAGCTATATATTTTCATTTTATATGG
AAAAAACTTTTAAGTTTAGCCTAGTATGATCTGCAGATGTATTCTTTGATAGCATTAAGAGTTGTTCCAGTTGCTATTCCTTGATGTAAAACAACCATTT
ATTATGTGCTCAAATTCTGTCAGGAATTCAGAAAGGGCACAGCAGGGATGTCTTTTCTCTTGATCTGTGGGCCTCAGTTAATCTACTGGAAGCACGTAGG
CTGGAATCACTTGAAGGTTTATTTACTCACCTGTYTGGCAGTCGATGCTGGCTGTCAGCTAGAGGCCTCTGTTTGTCTCTATGTGGTCTCTTCCCTTGGA
TAGCTTGGGCTTCCTCACAGCCTGATAACTGAATTCCAAGGGTTAGTATTCTGAGACACATGCACACTGGCACACACAGCAAGGGAATGAGCATGTGCTT
GTGCCCTGGTTTCTTTTATTGTAGAATGGTATTAGTAACCAAAACCTGGGCGTTAGCTGTGTTTGTGCTAGTGGGGTATTGTTTCTTTTAGGACCTCTCA
GCTAGCAGAGCAAATAAATATATGCGTGTATACTAASTGGTATATATAAATATTTCTARTGACCATCTGTTATCTGTATTAAGCTAACCATGAGTTTTTA
CTGATTTCTCTAACTGTAATCCATTCCCACTATTAGTATTTTTATGCCCAGATGTCCCTTCCTTAGCTTGTGGGTGATCTTTGTATTGGATCCTGAGCCT
TTTTTTTWAATTTACTTTATTGAAATATAATTTTCAAACATTGAAATGCACCCATTTTAAGTATACAGTTTGAGTCTTGACAGATGTGCCACCTGTATAA
CTACCACCACAATCAAGATACAGAACATATCTGTCAACCGAAAACATATCTTCATGCCTTTTTGTCATCAGTCGCCTCCCAAACTCACTCCTGATAACCT
CTGATCTGTCACTGTAATGGAATCATATATATTATCGTGTCTTGATTCTTTCAGCATAGTACTTACCAGATTCAACCACATTGTTGCATATGTCAGTAGT
TCATTCCTTTTATTGCTGATTCATGTTCTATTAGATGGATATATCAAAATTTGTTTAGCCATTCTCCAGTGGATGGACATTTGAGTTGTTTCTAGTTTTC
ACCTATTAAGAATAAAGCTGCTATCAACATGTGTATATATGTTTTTGTGTGGAAAAGTTTTCTTTTGGTAAATATCTAGGGGTAGAACTGTGTCTTATGT
ATATTTTTAACTTTATAAGAAACTGCTGAACAGTTTTCTGAAGTGGTTGTTCCATTTTGCATCTCCACCTACACTGAATAATTTTCTCTCTGTATTCTTA
CCAACACTTGGCATTGTTGGTCTTTTTCATGTTAGCCCTTCTAGTGGGTATATAGTAGTTTTAATTTTCATTTCTTAATGGTTAGTGATGTTGAACATCT
TTTCATATGTTTATTGGCTGTTTCTGATCTTATGTATATCTTTTATTGGCTAATTGTTTATTTGTTAACATCTTTTGCTCATAAATTAGGCTCTTTGTCC
TATTACCAATTGGTAATATTCTGTATACCAATCCTTTGTGAGATATATGTATTGCAAATACGTTTTCCCAGTGTGCAGCCTGCCTTTTTATTTTTTTTTG
TGGTGTCTTTCAAAATGTCTTTCAACTTGAATGAAGTCCAGTTATATCATGTTGTTTTGAGACCACTTTAGTAATCCTCTGTAGTTTCTTTGTTTCTCTG
AAGATCACGTATTCCCAGCACATTGTGTATTTCATACTATATATGTGGAATCAGCCATTTTCCTCAAAAAACTTGGTTCCTTTTACTGAGAGTACTTGAA
AGCTTTTACCGCTAGATTAGTCATTGTCTTTGGGGCTTTTCATTAGGCATACCTAGGAAATGCGTATAGATCTTCTCTTTAAAACAGACAAACATGAATT
CAAATAATTCAGATTTGGACTGCAGGACTTTTACTTAACTTTGATTTTATTGTATGATTTTTCTCTTCTGCTGAAAATTTTGGTCCCTGTTGACATTATT
CATTTGCCTGACCTTACATTACATTTAATAGTTTCAGAATAGCAACTATATTATTGCTAATAGTGTTATACTGAGCTCAACTTAAGGTTTCTATATAGTT
CTTAAGATATATCCTATTAAGATAATATTGTTAAATCTGTCTATTAGGAATATATAGTCAAATTCGTACATTTTAAGTTACTTGAAACAGGTCTTCTCTA
TGTGGTTAAACCACCAAATTGATACTTAGTTGGGTTAACTGAAATAATCAGATAATTACAAGTAATTTTGAAGTTTTTAGATTTCTTTTTTCTTTCATTT
TCTAATTACATAAAACGTTTACATGATTTCAAAGCTAAATTTACAAAACAGTTTTACATTCAGAAAAGTCTTTAACTTCTGTCCCATGATTGCTGTACCC
TTTTCCCTGTAGGTAACCACATTTATTAGTTTTTGGGTAATCCGGCTGTTTTAATACACACATATATATWTTTAATATTTACATATATATGCACACAAAT
TAGTGTATATATAATCACCTTTTTTCTTTTTCTTAGATAAAAGGTAGCATTACTGTATACATTTTTCTTCACCTTGCTTTTTTAACTTAACACTGTACCA
GAGATCATTCTATAGCAGTATGCAAAGCTATATCTTAAGCTTTTTTATAGTTACATAGTATTTCATTGTATGATTGTATGGTACATTATTCAACCAGTCT
TCTATTAGTGGAGATTTTAGGTTATTTCAGTCTTGCCACTAAAAGCAGAGCTACAGGGAATATATGCAATTGTTATTTTGCATTTTTGTGTCTGTGTCTT
AGGGAAATATAAATCTCTAGAAATGGAATTGCTGTGTCAAAGGGTAAATGCCTACATAATCTTACTACATAATGACATTTGCATTGTTGCCAGCAGCACA
CAGAGCCAAATTACTTTATCTTTGCTTTGTTAGTATGTGTTTTCAAACTTGTCTTTTTGCCARTTTCATAGAAAAAAATGTTATTTCATCATAGTTTTAA
TTATGTTTCTCTTGTGAGTGAGGTTGGGCATCTTCATGTATTTACAGGTAATTTACTGTATCCCCTGCCCATTTTCTCTGTTTTTTTTTTTTTTTTTGGT
CTTTTTCTTCTCTGTTTTAAAAATTCTGTATTTTAGGGAAAATATTTTACTTAAGATATCAAGTACAGATAATTTTACTTGTCACTTTTCTGGTTTTAGA
AAAACACTATGTTTTATACAGTTTTAGGATCACAGCAAAAGTTAATGGTAAATACAGAGATTTCCCATAACACTTCCTCCCCCAGCATATGCAGGACTTG
CACCACTATCAGTGTCTCACACCAGTGGTGCATTTGTTGCGATCAGTGACCTTACACTGACACATTATTATTACTCATAGTCCACAGTGTAAAGTTCGGC
TATTCTGTTTATTTGTCCATTGACCTACCAAAGGACATGTTGGTTGCTTCCAAGTTTTGGCAATTATGAATACAGCTGCTATAAACATCTGTGTGCAGAT
TTTTGTGTGGACATATGTTTTCAACTTCTTTGGGTAAATAGGAGTATAATTAATGGATCATATGGTAAGAATATGTTTAGTTTTGTAAAAAACTGCCAAC
TATCTTCTAAAGTGACTGTATCATTTTGTATTTCCACCAGCAATGAGTGAGTTTCGATTGCTCCACATCCTGCCAGCATTTATTGTTGTCAGTGAATTGA
ATTTTGACTATTCAGATAGGTGTGTAGTGGTATCTCTTTGTGGTTTTACTTTGTATTTCCCTATTAGATAAGCTCTTGAGCGTCTTTTCATRTACTTATT
TGCCATCTGTATATCTTTGGTGAGATTGTTCAGGTCTTTTGCCTATTTTTAAAAACAGGTTGTTTTCTTATTATTCAATTTTAAGAGTTCCTTGTATGTT
TTTGGTAACAGTCCTTATTGCATATGTCTTCTGAGCTTATTTTTCCCAGTCTATGGCTTGTCTTATTATTTTGATGGTTTTTTTAATAGAGTAGAAGCTT
TTAATTTTAATGAAGTCCAGTTATCAGTTATTTCTTTCATGGATTATAGTTTGATGATGTGTCTAAGATGTCATTGCCATACCCAAGGTCATCTAGATAT
TCTCTTATGTTACTTTCTAGGAGTTTTATTTTTTTTGTCTTACATTAAGATCTRTGATCCATTTTAAGTTAATTTTTGTGAAGGCTGTGAGGTCTATGTC
TAGATTCTTTTTATTTATTTATTTATTTTTTTTGCATTTGGTTGTCCGGTTGTTTCAGCATGATTTGTTGAAAAGACTATCCTTTTTTCATTGAATTGGT
TTTGCTTCTTTGTTAAAAATCAGTTGACTATGTTTGTGGGAGCCTATTTCTGGGCTCTTATTATTTTCCACTGATCTGTTTGTCATTTCTTTTGCCCGTC
CCACACTGTCTTGATTGCTATAGCTTTATAGGAAGTGTTGAAGTCAGGTAGTGTCAATCTCATGACTTCGTTCTTCAGTATTGTGTTGGCTATTCTGGTT
CTCCATATAGAATGAGTATGTCAGTATCTACAAAGTAACTTGCTGGGGTTTTTTGGTGGGGATTACATTTAATCTATTAATTTGGGAAGAACTGACATCT
TGACAGATATGTAGTCTTCTGTCCAAGAGCATGGAATAACTCTTCATTTATTTAGTTCTTTGATTTCTTTAATCAATTTTGTAATTTTCCTCATGCATGT
CTTATGCATATTTTGCTAGATTTATCCTTAAGTATTTCATTTTTTTCTATACTGATGAAAATGGTATTGTTTTAATTTTAAATTCCACTTACCGTTGTAT
ATAGGAAAGTGATTGACTTTTATGTGTATTAGCCTTGTATTCTGCAACCTGAACTAATCTATTTGTCAGTTCTTTTGCCCACCCRCAGTCTTGATTGCTA
TAGCTTTATAGGAAGTCTTGAAGTTCTTGAACTTTATAGGAAGATCTTGAAAAAAGAACTAATTCCTGAAGTTCTTCTGTTAGTTCTTTCAGAATTTCTA
CATAGACAATCATGTCTTTTGCAGACACTTTTGTTCTTCTTAATAATCTGTATTCTTTTTATTTCCTTTTCTTGTCTTATTGCATTAGATAGAAATTTCA
GTATGATGAAAAGGAATAGTGAGAGGGAACATCCTTTCCTTGTTTCTCATGTTAGCAGGAAAACTTCTCATTTTTCACCATTAGGTATGACGTTAGCCGT
AGGGTTTTTTGTAGATGATCTTTATCAAGTTGAGGAAATTCGCCGCTGTTTCTAATTTACCAAGAGTTTTTATTATGTCTGAGTGTTGGACTTTATCAAA
TGCTTTTCCTATAGCTATTGATATAATCATGTGAGTTTTCTTTGTTAGTCTCTTGATGTGGTGGGTTACATTAATTGATTTTTGAATATTGAACCAGCCT
TGCATACCTAGGATAAATTCTTCTTGGTTGTGGTATATACATTGTGGGATTTGATTTGCTAGCTTTTTATTAAGTTTGACTTTTAAAATTATATCTAATT
TGCATAACATGTTATGATACAAATATATATAGTGAAATGATTCCTTCAGTCAAGCAGATTTCCATATCCATCATTTTATATAGTTACTTTTTGATTTGCT
AATATTTTTGATAAGGATTTTTGCTATTATTCATGAGAGATATTGGTCTTTAGTTTTTTTGTAATGTCTGTGTCTGGTTTCAGAATTAGGATAATGCTGA
CCTCATAGAATGAGTTAAGAAGTAGTCCATCTCGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACGAG
GTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTAGCGGGCGCCTGTAGTCCCA
GCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAG
CGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAGAAGTAGTCCATCTCTTCTGTCTCTGAAGAGATTATAGAGAATTGGTATAATTTCTTCCAGAAATAT
TTGGTAGACTTTACCTATAAACCATCTGGTGCTTTCTGTTTTGAAAGGTTATTAATTATTGATTCAATTTTTAAAATAGATATATACCTATTTAAATTGC
TTGTTTCTCCTTGTGTGAGTTTTGGCACCTTGTATTTTTCAAGAATTGGCCCATTTCATGTAGGTTGTCAAGTTTGTATTCATGAGTTGTTCATAGTATA
CCTTTATCATATTTTTAATGTTCATGGGATTTGTAGTGAGATCCCTACCTTTGTTTCTCCTATTGATAATTTATGTCTTCTCTCTTTTTTTCTTAATTAG
CCTGGCTAGAAGCTGATAAATTTTATTGATCTTTTCAAAGAAAACAGCATTTGGTTTTGCTAATTTTTCTCTATTGAATTTCTGTTTTCGATTTCATTGA
CTTTTTTCATTCTAATTCTTAAGTTTATTTTCTTCTGCTTACTTTGGGTTTAATTTGTTCTTTTTGTTGTTTTCTAAGGTGGAAGCTTAAATTAATGATT
TTTGGTTGTCTTTTCTAATATATACATTCAATGCTATAAATATCTCTTTGGGTACAGTGTTTACTGCATCCAACAAATTGTTGTAAGTTATMTTTTTATT
TTCATTTAGTTTAAAATATTTTAAAAATTTTTTTGCAATTTCTTCTTTGACCAATATGTTTATTAAAATTGTGTTGTTTAATTTCTAAGCATTTGGGGAT
TTTCCTAATCTTTCTGTTACAGATTTCTAGTTTAATTTCATTGTGGCTGAAAGCAGACATTGTATGATTTCTTTTACATTTGTTAAGTGTGTTTTATGGC
CCAGAATGTGATCTGTCTTGGTGAATGATCTGTATGAGCTTGAGAAGAATGTGTATTTTGCTGTTGTTAGATAAAGCCATCTATAATCAATTATATCAAT
TTTGTTGATGGTGCTGTTGAGTTCAACTGTGTTTTTACTGACTTCCTGCTGAATCTTTCCATTTATGATGGAAGGGTGTGAAATCCTCAACCATAAGAGT
GAATTTCTCTTTGCAATTTTATCGGTTTTTGCCTCAGGTATTTTGATGCTTTGATGGTAGGGTCATACACATAAGAATTGTTATGTATTTTTGCAGACTG
GACGTCTGTATCATTATGCAGTGCTCCTCTTTGTCTCTGATAACTTACCTTGCTCTAGAGTCTACTCTGTCTGAAATTAATATACCTACTCATACTCTTT
TTTGATTAGTGTTAGCAGTATACCTTTCTTCATTCCTTTACTTTTAATCTATTAATATATGTGTTTATATGTGGGTTTCTTGTAGACARCATACCATTGG
GTCTTGTTTTTCCATCCACTCCGAGAATATCTRYGTTTTAATTGGTGTATTTAGACCATTGATGTTTAAAGTRATTGTTGATGTAGTTGAATTAATATCT
ACAACATTCGTTACTGTTTTCTCTTCATTGCCATTGTTCTTTGTTCCTGTTTTTGTTCTCACTTGTTTTGTGCCTTTTTTGGTTTAAAATTTGTGGTTTT
AATTGAGCATTTATGTGATTCTTTGTTCATTCTTTTTTAGCATATCAATTATACTTCTTTCTACTTTTTTTGGTGGTTACCCTAGAGTTTACARTGTACA
TTTACAGCTAATTCAGGTCTGCTTTGAAACAGCACTATACTACTTCATCTATAATACAGATAATAACAAAATATTCCCAGTTCTTTACTCTGGGATATTT
TAAATGCATTTAGATTTTCTGCTCTTTAAAGGATTGGTAAAATTCCCCTGCAAAACCCACTGGGTTTGGTACTATTTTATGAAGGAGTTCTTTAACTGGC
TTTATTTTTTCTTTGAAAAATGATGTAGACTTTTGGTTCTGTTAAAGTCAGTTTTGGCAAATAGTATTTTTCTAGAAATTTCAGCCGTTTTTCATGTAAG
TTTTCAAACTTGTTTGCATAGAGTTATGTAAAGAAATCTCACCAGACACAGTATCTCACCAGGCACAGTGGCTCATGCCTGTAATCCCGCACTTTGGGAG
GCCAAGGCAGGCAGATTGCTTGAGCTCAGAAGTTCAAGATCAGCCTGGGCAACATGGCAAAACTCCCATCTCTACAAAACGTACAGAAATTAGCCGGGTG
TAGTGGTGTGTGCCTGTAGTCCCAGCTACCCGGGAGGCTGAGGTGAGAGGATGGCTTGAGCCCAGGAAGCAGAGGTTGCAGTGAGCCAAGATTGCGCACT
GTGCTGCAGCCTGGGTAACAGAGCTAGACCCTGTCTCAAAAAATAAAAAAAAATAAAAAACACCTCATAGTTTTATTTTTTCATTTTGCTTTGTTCTTAG
AGATACTTTTACTTTGTCATTTAGGATTTTGAATTTGTGCTTTCTCCCTTTTTTCTTGTTTAGGTTAGCCAGTGGTTTATTTTCAGAGAATCAGCTTTTA
CATTTGTATATTAGTTCCTTCTTTGTGCTTTCTAACATTTATTTCTGGGTCTTTAAATTCCTTCTTTGGTTGCTTATTTTTTTGTTGTTGTTGAATTTGT
TGAACATTTGTTTTCATTTTTATTTATGTTCTTTAATGCTGTAAGTTCTCATCAGATAACTGCTTTAGCTGAATCTCATGAATCTCATATGTCAAACTAT
GACAGTTATTTTCGGGAAGTTCTCCTCTTTAGATTTGGATTCCACCCATTATCTAAGAATTGTTTAATGGAATGTTAAAATTTTCAGGTTGGAGGGCCTT
TTGTTTTTTACGTGTGTATGTGTGTTTTCTTTTGATTTTTAAAAAGTAACTTTCATGTTTTTCTTCATATTTTTGAATTTGATGAGATTTTCTTTGTAGC
CTAAGACAGTCACTTTTTCTCAATTTTCCACCCATGCTTTAAAAAAAAGGTGTATTTTCTAGTTCTTGGTTTTTAGGTTCTATAAATATATATAAAACAT
CTATTCTTTGGGCATCCTATATTTTTAAGATTCTTCTTTATTTGATCTATTTTGGTTTGAGAACATTATGTTAAAGTATCTTAGTAGTAGGTTTCTGTCT
CTTTTACTCCATATCCTATAGTTTCTGCTCTTCACTACTGTATTATTAGGTACATAGATACAGAAGTATTAACTATTTCTTTTTCATTTTAATTCTTTTT
GTACTTTTTAGAGATGATGTTATTTTGGTTATCTGTATATTTCTTACTTGTTTTTTCTGAGATGAGCTAATTTAATTTATATGAGCACTTCATAAAAAGA
TTCTCCAATAATCCTATTTGGGTATTTTTCTTTAGTATAAACAAAATAAACTACAGTTTCATTAAGTGTAGGACTAAATTACTCTCTTTGTTTCTATAAT
ATTGAAAGGATCTGAAACTGCAGATCTGTGAATAATTTCAAAATTTCAAAATATTAGGTATATATATTCTAAAACTGTATATAGACTGAGCAGGCTGTTG
GTCTAACGTTCAGGCCAAAGCACAACAATGAACCATTCTACTAGATTAATAAAGTTTTTTTTTTTTTAGCTTTAATCAGATGTGTCCAATTATAAAGGTT
TGAAAACATTAAGGTCGAAAACCCTAATCTTTTTAAAATTAATAATAGTTGCTTCACTTGTTAATAATTTTGGGATACCACATGACAGTAAATAACAGAG
AAGAAAAATTGGTATTAACATTAATTCTAGAGCTGCTCAAAGAAAATCCAGGAATTGGTTGATAATGTTAGTGTTCTKTGAAACTAAGTTTATTTTTAGA
GCAATAGGATTTGAAATAGCATTATTCTTTTAAAATAAAATGAGAGGTTAGACCTGGTATCGTGGATCACGCCTGTAATCCCTGTACTTTGGGAGGCTGA
GGTAGGAGGATTGGTTGAGTCCAAGAGTTCAAGACCAGCTTGGGCAACATAGAGAGACCCTGTCTCTACAAATAAAAAAATTTTTTAATTAGCTGGGCGT
AGTGGTATGTACCAGTAGTTCCAGCTGTGGGAGGCTGAGGCAGGAGGATTGCTTGAGCCCAAGAGGTCAAGACTACAGTGAGCTATGATTGCGTCACTGC
TCTTCAGCCTGGATCATAGAACAAGACCCTGTCTCAAGTAGATAGATCGATAGATGGGATAGATAGATAAGATCAATAAGATAGGTAGATAGATGGATGA
TAGGAGAAGAAAACAAAGTTTTGCGTAAAACATTGAATGTTTAAAATCCTCTGATGTCAATATAATAAATATGGAATTATTACTTGAATGATAACTTTAG
TAGTGGATAGATTTGTGTAGATGTTTATAAGTGAATATTAGTAGCAGGTGAGAATGTTATTGACATACAAATAATTGAGTCATTCTTTGACTAAATGTTC
TGAGATAATTTTTGTATATTAACTTCAAAGGAAATTTCTCCAAGTAATTGTGGAAAGATGTAAGTAAATCCAATATAAGAGGTGTGATTATATAGGAAGC
TCAGAAACTGTTAGGGATAAACATGGAATTGATTTTAGGCATAGAAAGTTAATTGCACTGGTGTAGAATAGGGTGACTTGACCTGACAATAGTTGCCAGC
TGAAGAATTTCTCCAGAATTCATCACATAAAGAGAAGTTATGGAAAGTATTGACAAGGTTTAAAAACATGGGGGAAATACTTAGAAAATTCAATATGCAT
CTAGTTGGAAACCCAGAAGAAAAAAAAAAAGAATGTTGGAGAAGCAACATTTTAAGAAATAGTAGCTGAGAATTTTCCGTAATTGATGAACCACAAATCT
ACAGATACGAGATGTGCAGTACATGAGAGATAGAATATTATAATGAAACTGCAAAGCATCAGAGACATAGAGAAAATCCTAGAAACCTCTAGATACAGAA
AGACAAATCCCCATGCAAAGAAGCAACAGGATGACATCAGTAACAAACAATGGAAGCTAAAAGGCAGTGAAATAATATTTTCAAAGTACTGAGATAAACC
TATCAACCCAAAGTATGTACCAAAGTCTGGCTTTCAGGAATGAGAATAAAATAAAGACCTTTTCAAATAAAATTGAGAGTGTTTACTACCAACAGATCTT
CACTAAATAGAGAATATTTAAAAGGATATACATCAGGAAGATGGAAAAAGACCTTAGAAGAAGGGTCGGAAATGTGAATAGTAAAGGAGAAATTTTTATT
AAGTTGGAAATTCTGTCTTGTTATAGCCTTTGAAGTTATCAAAAGTGTAGCATTGTACCATGAGGAAGTGAAGTGTACTATGAAGTGCCAGGCAGATCAC
TTTGGATTCCCCAGAACCCGTTCCACCACTTTTTCATTTTGTATCAGCATTGTGATTTGGGGAATTGATCCCACTTTCATGGCTGGGCCTTGATTAGTCG
AATCCAGTTAGAATAATCCCATTCTCCTTGCTAATTCAATTGATTCAGGAAGCAGGCCTAAGCCATTTATCCCATGGCTATTACCTTGATAGTTATTCAT
TCATAGGTGGCCATGTGACTGAAGTTGGCCTAGTCACTCTGAAGGAAGGAATTCTTATTTGTGCTTGTGGGAGAGATACACTGAGGAGACCCAGATTGCT
TCTTATTATGGTAAGAGATAAGCTTTAATGTGAAGTCAACATTAGGCAGAGCGGAGCTGTGATAAATGAAAACAAGAGTGAATATTTGGTCTTTGATGAT
TTCACTGTTACTAAGTCACTTAGGCCTGAAGTTTACCCTATATATAGACTTCATTTTATGTGAAATAATAGTTCAAATTTGTATAGTTTAGGAGATTATA
GTTTCTTAGTTGAAGCTCCATTTTTCTCTGCTAAAACAAGTTAGACTTCATTAATACAAGTATAATTTCAATTCTAAGTCAGGGGAGTTGGAAGCTGTAT
GCTTTATGCTGTTCTGACAAGACTAGATTAATTTGGGGTATCATGTTTCATTGAAGCACACTAGCCGATTAATATGCCCAGAGAAGATGACAGAATGATG
AAGAAAGGGCTAGCACGTGAAAGAAGTATTAGATTTGTTTTGCATAATTCCAGAGGTTAGAACTATTCCCAATCAGTAGAAATTGTAGGGAGGTAGAACC
TCTAGAGAGGTTAAGAAAGATGCAATGGGCATAAGAAATAATTTTCTAATAATTAGAACTGTCTGGAAATGGGAAGAAAGGGTGCAACAGCACAGAGCTA
AGATTTTTGCCCCCAAGAGTCTTGTAATAGAGGGCTTCCATAGCTATACAAATATTGTGGAAAATTGTTCTGCATAGGGTAGGAGGTTGGATTATATTAC
TTACACAGCCTCCTAACCATTTTTATACTCTAGTTACTAATAATGGTTCTCAACTCTCTTAGCCTTGACACTTCCTATTTCATATTCTTTGTAATGCTTG
CTTTTYATCTAAAATTAATGATGAACATAATCTGCCCACGCATATAATGTTCAAGAAATAAATGTGCATATGAGAGTGGAAATGAAAGTAATATAAACAT
CTAAAATCATGTATTACATTTCTGAAATWCAAAAAACTTCAAACATTTTTCCTAAGACACAGACATTTGGGAGCAAAACCTGGTCTTAATTGAAATAAAT
TTAATTACAGTTTTTATACAAGTGGTGAATTTCTGTGTTTTGCTGCAAAAATGTTAGTATGTTTGGTCACAGGCTACTGTTCCAGACTCCACTGGAACAG
TAGTACTACTTAATATGCTTTGAAATGCAAAAAAAAAAAAAAATTCTGAACTCTTAAAATATCTGATCCCAAGGGTTTTGGCTAAAATACTGTGGTTCTT
CAAGTATTTCAAGACTTAGATGTTCCAGGATGACTAATTTACAACACATAGTAATCAGTAGGTTATACTTTTAATTAATATGTTTGGATTTAAGAGAAGA
TGAGAAGCCATTCTGTTCAAGAAATACAGCAAGGTGGAATAGTAGACCGTGCTACACTACATTGGACGAGTAATACCATACCCTATTTATTTGAATATAA
GAGAAAAGGGGGAATAACTTTGTTTGATAAAAGGCATAACATACCTAAACAAGTTACACATTGTTGAAGTGGGGGAAATTAGGAAATAAGGTATTTTTTA
AATTAGCTAGACCTTCTTAATAAATGTTACCAAAATAATTTCCTATATTATGATTTGAGGTAAGAACTTGAAATTCCATCACCTATTTAAGCCTGCATTC
AGTCTCTAGTACCTAATAATAGAAGTTATATATGATCTCTGGGAGTAGCATCAGAGTCATATTGGAAAACATGGACAATTCAAAAATTATAATTTTAATA
TTTAGGGTAAATATGAAATATTTACAGACATCATTATTAATGACATTTATTGATACAACATTTCTGGCTCTAAATCTGATAAAAAATGTTACAAATTTAT
AGATTGATTTTGCAGCACCAGCACTACTGCTCTGACACCCTTTTTAACTAGACTTRCAATTGGATTTTACATACTTTTAAGTGGACAGAAAGCACAGAAT
ATGTTATTTAATAATTTGGAGATAACCTCCTATTAAATATTTTTGGTATAGTTATTCAGTAATGTATATTTACAGTGGGTTTAATCCACAGAACATTCAA
AAATTGTTTGGGATGTAGGATAGTTCTTCATTGATGTTCCACATAATATGTTTTAAGAGTAAAAGTAAATTATATTTCTTCCTTTTGTCTTCTGTTCAAG
TAGAGGCCCATTTCTGTTTTCTTGACTCTTCACCATTTTTTTCATGRCAGGTTTTATTCTCATATAACTTACAAATTATTTTCGTCAGCCTCTGTTGTCT
TACCAGCAATCAAATCCAAATTTTGTCAGTAATATTTACAGTATGACTTCATGCCTAAATATGTAGAATTTAGGGGCAGTTATATATACTAGAGTTCTTT
AAGAAGAAAACTACAAAGAGAAATTAATTTGTGTTTTAAAGCAGCCAAATTTTATGATTAGTAATGCTCAGAAAGAAATTTGAGCACTTAATATCCTTGT
GTGTAAGTGTCTTTCATAGTATTTACAATGTTAGTAAAAGTAAGACTTCTGCTGTGGTGGAAGATAACAATTATATAACWCTGGTTACTTTTATTTTCTT
ACCACCTAGTAAAATATGATTTGGAGTTCTTATGTAATAGGACATTTAATTGACTTTTATAATCTGAATTAATTTTGTCCTTTTTTGTGTGTAAGCTGCT
TTTATACCTGGAATAAAATGTAAAACCTGTTTTTTAGCAGCAGTAGTGAGGACTAATTTACTATTTTAGGTACCATTTGGTTTCATCAAAATGGGTAAAA
TATATTTTTGTAAACCTTTATAATACTATTAAATGAGTTTGGATTTATCCTTGGGTGTCTAGGAAAATGACAATTACTTGAATATATGACAAGTCCTAGA
TCAGTTATTTTTAGAAGTCTGTGGTGAATGGTTTAGCCCTTTTTTGACATTTTAAAATATAATCACTTACAAATCCTTCCATTGTATTTTATTCATTTTA
AACTGTCTTTTCCCCAGTGGTTTTCACGTGGAAACTTACTGTGTAGCTGAATGTCACAAGTTTGTTAAAGTATTAGATTTGCATTGTATATTTTTACATC
TTAGCTACTCTTTAATATTTAAAGTTTTTGTTCTTTAGTAAAATAGATGTAGTATAGTCTACATCTCTTTTAGTTTTTGTTGTTTAGTAGTTTTTGTTCT
TTAGTAAAATGGAGTATAGTCTTTTCATTGTGGTGCTAAACTAGAATTTGTCACTTTCTCTACTTAGTGGATAAGTGACTATTTACAAAACTGATTCTTT
GATGAAACAGAGATGAATGAAATTAAAATGTTCTCTTATTACAATAAACTACCTCATAATTTTTAAAAATATAGTAATCTGAATGTATGTATGTACTTTT
TTAGAAAGAATCTTCAAGAGGGAGACATAGGGAAAAGGAAGACATAAAAATCACTAAGGAAAGAACTCCAGAAAGTGAAGAAGAAAATGTAGAATGGGAA
ACTAATAGAGATGGTGAGTTTCAGAATCTTGGTTTAAATGGCGAATTCTTGATTATTTACTTTCTAGAGTTTTCGTGGGCTTCAGAACACCTTTCGACTG
TGATCCCTCTCGTTTCAGAATCATTTTATTGACATATTTCTATCTTACTGAATTATAAGGCAAAAACTGGCATATAGTAGCTGTACAAAGGCAGAGAAAG
TGGTTTGCATTGCATATTTTTATTTTCCCTTCCTAGTTTTCCCTCTAGAACTTTATTGTGCAGCATTACAGCCCTTCAGGATTGTATTGCATATGTAAAT
TTAAAAATTCCTAACGCTAAGCTTAAAATGAAATCTATATTTGTTTTACATAAAATATTATAAATGAGATTTTTAAATCTTAAGGACTTGGGAAAGTTAT
TTCCAAGAAATGTTTGACTTTTATCTTTCAGAAGAAATCAAAATCAGATTAAGATAGAGACCTGGATTTATTAATAAAAAATTAGCAAAAAAATTTTTTT
TCTTGAGACATGCTCTCACTGTGTCACCCAGGCTGGAGGACAGTGGTACAATCATGGCTCACTGCAGCTTAGCCTCTTGAAGTCAAGCAGTCCTCCTGCC
TGTTATCTCAGCACTTTGGGAGGCTAAGGCTGGAGTACCACTTTAGCCCAGGAGTTTGAGACCAGTGTGGGCAACAAAGTAAGACCCCATCTCTACAAAA
AAACAAAGAAATTAGCCTGACATGGTGGTGCATGCCTGTGATCCCAGCTACTTGGGAAGCTGAGGTGGGAGCAAAATCATTTTTGAGTCATCAATAAGCA
TTTATTTTCCACCCCTTGAATGTTTTCTCCACCTCTTTGATGTTCTGAAAGATGGGCACTGTAATGTCATATTACCAAACACAGAGAAAGAGAACTTGTA
TTTGTTAAATGCATTGAGTGGGGGTGGACAATTTAATGTAATTTATATAATTGTCTTATTATTTCAATAGCTTTGTTACTCTACTTACAGATGACAAAAC
TAAAGATCTTAAAAATTTAAGCAACTTTTTCAGTGAGAAGCTGAAAACTTAGACCAGGGATTAGAAAACTAGAGTGTGTGGGCCAGTCACTGGTTTTTGC
AAAAAAAGTTTTATTGGAACACAGCCATGTCCATCCATTTGGTTACATATTGTCTGTGGCTGCTTTTGAGCTACAGTGGCCAAGTCGAGTCTTTATGACA
GAGAACTGAGAAGCTACAAGACTACAATATTAACTACTATATTTCAGAATTATCTCTGAAGACTTAATAGACTAACAGTTGTAAAGTATTGTAAATACAT
CTTTCCAGTAATTGTTACATCAGTACTTAAAGGAAACCTGTTCCATCTTTGGACAGTGCTGTTAAAAAATTGCTTCTAAGAACAAATAGGAAACTTGTTT
ATGGTTACTCAGGATTTCATAATCCAACCTAATACCGCTTCTACAAAATAGCAATAAAGGCAGCTATACTCTCCCATTTTAGTTGACTAGTATATTTAAA
TAAAATATTATAAACCATAACTGTTCAAGTTTGGAGAGCTAACTTTTCCTAAATACTAAGGGGTTACCTTTTAACACACCCAAGCATCCTTTCTTTTCAT
TTTAATTTTTTTGCATAAAAAACATTTTAAAATGTATTTGATACTTCTTATCTTTAAAATATTTTCAGTTGTCATTACAATAATTAGTAGTTGTTGAAAA
TATAAAAGGTTCAGAAAAGCCCAAGTCTGTTCTTTTTCTTCCTGGTAGGTATGTCAAACCTTCTCCATAAATCTATGCTTTCATTTCTCTTTTTTGCTAT
CTACTAAGCAGAGACAATGGAAATCTTTAGGAATTCCCTCAACTTCCTCCTACCACACCTTCAAACTAAGTTTTTATTTGTGCCTAAACTTTTTTACTTC
CCTCTTATTCTGTGTAAGAGGCCTCCTTCCTGCTGTATAAGGTTGATGAATAATTCCCTTGTATTGTAGATCTGATTTCCTCCTGCCTCAGCAATCTTGT
TCATTTGTGATACACTCTCTTCTATATCTTTAACATCCATTTTCTCTCCTCCCTATTTTACTGTTAGTCACTATCCTGCTTATCCCCACTTAACAACTAA
ATTCTTAAAACAGTTCTGTGCCTTACTGTTTCTACTTGATACTGTTTCACCTGATACTTATTATTCAGTCTTCTGACCCAACTCTCCACTAAAACTGCTT
TTCAAAGTCACTAATGACCTCCTCATTGCAGAATAAATGGAGATGTACTTGTTACTATCCTAAATGGCCCTTCTGCAGCATTTGACACATCAAGAGCTCC
TGTTTTCTTGAAAAAGACTCTTCTTTTGGCTTCTATTTATCACTCTTCAGTTTTGTATCTTCCTGTTCAAGCCCTTCAGTCTTACACGGAGGCTCCTTGT
ATTCTGTGTGCCCCTTAAATGTTKATTCCCAAGGATTTGCACTTAACTATATTCTTTTAAAAAATCTAAAGTGATTTTATTTCAAGAGCCTTTTATATAG
GAAATTCTTTTAAAAGGTGAGTGTAAATGTCTTTAATAAGAATTTCTTATGCTTTTCCTTGATTGAAACGCACAGTTTTTGACCATTGTGTATCTCTGTG
ATTTGAAARTATCTGTTGAGGGAATATTGAAGCATTGAGTTAAGTGCCCCACTCCCTGGATAGTGAGACTAAACTGGTTTCATAGACTTACCTTCTGCAT
TGTTATTCTATCTGGAATAACAATTTTAGCTGGATTCAGAAAAAATTGGTATATTTATAAACTTTCTGGTTTTTAGGCCACTTTTATATGCTTTTTCAGA
ACCCCCAAATAACTTTTATCCTTGTGTATTTTATGTTTCCATAACTGCCATATTATGAACCTGAGAAAATTTTTTAATATTTATGTATTCRTTCATTTAA
CAATGACATATAAAAATCCATTATATGCTTTTATGAAAAATAACTATTTTGCAAGCAAAAAATAATAATTGTGAGGAGGTGGCAGTGTTTTGCATCATTT
TGYAAATTGTTTTAATATCTGGCTTAATAGTTGATAGGTAGATTTTCTTACCTGCTTCTACATTCCACCTGTTAACCACATCACATATTCTGGGAAACTC
CACTATCTACTCATGGGAGAATGAGTACACCAGGCAAACAATGTAGTGTTATAGAAATAGTCTGATTTTGTAGAACTCCTGAAATTGTCTCAGGGACCTC
CTAGGTATCCTCAGACCACTCTCTGAGAATCACTTGTCTGTAAGAACAGCTTTTAAAACTTGGTTGTTTTCCTGTTACCTAGCCATCTTCTTTTCTCACT
TTCAATTTTTCCTTCTAGATGAAATCATGCACCCAGTGCTTCATTAACGTCGTACGTGTAGTGACTCCAAAATCTGGAGCTCTCAATTTAGCATTGACCA
ACTGGGCATCTCCATCTGAGTTATGTATCTTAAGGGCATCACTTTTCCTACCAGATACCAACAGTCCTGAGAGTCATCACTGACACTTCTTTCCCTCCAC
CCAGGCATTACCAGATAGATATTTTTATGTACCCAATACCATTGAAAACCATCTGTTTCTCTTGATATACTACTAATATTCTAGTTCTTAAGGTATTTAT
TTATTGCCTATAAATAGATTTTACCAAAATAACCTCCTAATCCCATCCCTTGCTTATAGTCTTGTCTCCTAATTAATCCCCCACTTTAAAGCAAGAATAA
TCTTTCTTACAAAGTTTTTCTACTGAAGTATACTATACGTTCAGAGGAATGCACAATACATGTGTCCAACCCATTGGATGTTCACAGACTGAACACATTT
GTAAAACCACTCAAATCAGTAAGTAGGAAATTACTAGTTTCCCATAGTCCCCTTGTGTTTTCTTCTAGTCACTCCTCCCTACCCTCACCCCTCAAAGGTA
ACTACTGTCCTGATTTCTAGCACCATTGATTAGTTTTGTGTGTTTGAGCTCCATATAAATGGAATTGACAGCATGTACTCTTTTTGTGCCTAGCTTCTTT
TGTTAACAGTATTATCTGAGATTGTACTTTATTTCACATATCATTCATTAATTGTTATTGCATCATTCTTATTGCTATATAGTGTTTTATTGTATGAATA
TGCCATAATTTAGTCTACTGTTGATGAACATTCAAGTAATTCCCAGTTTGGTGCTATTATGCATAATAAGGTGCTATTACTATTCTTAAACATATTTTTT
GGTAAACATGTACAGACACATATCAATTTCTCTTGAGTTTATGGTTCGAAGTGGAATTGCTGGGCTGTGGAGTGTGAATGTGTTCCTCTTTAGTAGATAA
TTTCAGATCAAAAATGGTTGTTCCAGTTAACCATACGGTGTTTTTGCCTTTTTCATCATAGCTGTTCTAAAATTTTGTAGTAGTATCTTACTGTGGTTTT
AGTTTGCATTCTCCTAATGAAGTTGAAAACTTTTTCACATGTTCACTGACCATTGTACACCCTATTTTGTGAAGTGTCTGTTCCAAATGTCTGCCGTTCT
GCTATTGTGTTACCTGTTTTTTTTTTCTTGTTAATTAGAGGAATTCTTTATGTTTTCTGGATATGAGATTTTTATCAGATATATAAATATATTGTTAGTG
TTTTCTCCCACTCTATGAGTTGCAGAACAGTCTTTTAAAAGAATAAATTGAATGTTCATTTTATTTTCCTGTTTCAAATTCCCTAATTTCCCATTGCCTT
CAGGAGCAAGTACAAATTCTAACTACGCCTATAAAACTTTTGATTATCTGGTTACTCTTTGTATTTCCAGGCCCCACTCCGAAGTCTGTGGTTTTTATTT
GGTTCCTTAAACTTCTTGTATTTGTTCATCATGTGTTCTTAAGGACCAATGAAGTAACATAAAAAGTAAAAGTATCATTGCAGTAGAATGTGTGAAAATA
TTTTGGTAATCTTGGAGGTTAGTACATCCTCCTTAAATAGGGCATAAAACCCAGAAGCCACAAACATTTGATTACATAAAACTAGGAGTTTCTGTGTAAC
TAAATGCAGAAGTTAAAAACAGATGAAATGGTAAAAGAAAATACTTGACATGTGTAACGTGTAAGCATTAGTAAAGATACTATATAGACATATAATGAGT
TTCTACAAATACATAAGAAAAAGACGGCCTAGTTAAAAAATGAGTAAAAATATATATGTATCAGATAGGTAACTCACAGGAGAAATAGAACTGGCCAATA
AATGCTCAATCTTACTGCAGGGAAATACTGATGAAAATAAAGAGATATGATTACTCACCCATTCGTTTGGCAGAAATGAAGAACATTAATGTTTTCAAGT
GGGGGTTTACATTGGTAAAGGAGTTTTGGAGTACAGTTTGTTGTTATTAGAAATAGAAATTATACTTATTTTCAGTCTAGCAATGTAGTCTGAGAAATAA
TGTCATAGAAAAATACTTGCACTTGAACCAAAGTATATATCAAAATGTTCATATAAGTCTTGTTTTTAACAGCAAAATACTGGAAACAGTTCATCTGTCT
TTAAGAAGGAAACTCTTTTAAGTAAGCTACGATAAAGTATGATCATATTAATGAAATGCTTTGCAGACGTTAAAATGAAGATAGTTGAACTCTATGACTT
GGAAAGATCTTGTTTATAGGGCAGTGTTGAATGTTAAAGGGAAAAATGTAAAGCATTATTTTCATGCATATGACACTAAACTGTTAGCAGTGTTATCACT
GGAGTAAGGATGGCTGTAGGAGGAATATAAGGGAAATTTCATATTTTACTCTGTGTATTCAGAATTATTTAAGACTTTAGCAATGAGAATGTATCATAAA
GGCAAAGTACAAAATATAGAATGGAATTCAAAAACAAGTGTCTGAAATCAGTTAATGAATTTAGAAAACGTCTCAGACAGCTTGAGGTTAAAAACTGATA
CACATAAATGATACTAACTCATTGGAAAAAGGTTAAATATAATTAGCATGATGTAACAAGGCAATTCACAAGTATTTATAGTTTTTAATCCTTATACATA
AACCTTTTATATATCTATGATTATTTTTATACAATAAATTACTGGAAGTTGCTGATCAACACAGAGAGGGGAACATCACACACCAGGGCCTGTTGTGGGG
ATGGGGGGTGAGGGGAGGGAGAGCATTAGGACAAGTACTTAATGCATGCAGGGCTTAAAACCTAGATGACAGGTTGATAGGTACATCARCCTGTACCTAT
AGGTACAAACCACCATGGCACATGTATACCTATGTTACAAACCTGCACATTCAGCACATGTATCCCAGAACTTAAAGTAAAATAAATAAATTTTAAAAAA
AGTTGCTGTATTAAAATTAAAGTTATGTATTGATGTTCTTAAGGCTTTTACCCATATTGACAAATAATTTTACAAGATAGATGTACTAGTTTGCATTGCT
ACYGCCAGAGAATGAGTATGTCCTTTATTTGTACCTTTACCAACAATTAATATTATAATTAGAAAAAATGGCTCCTGAATACATGAAAAAATATGTGTAT
ACTTTCTTCATTTCTTTCTCTTTGTGAATTGCCTTGTAATGTCCTTTACCTGTTCTGTTAATTAGTAAGAATTCTTTATATAGAAAGAATCTTAACCTTT
TCTTATGTGTTGCATATATTTTTCTGTTGTATATTCTTAAAAATATCTACCTTGTTAAATATACCTTTCTAATTATACTTGATATTTTTCTGATGACTTA
ACAATCATTTATGTGAATCAATTTTTATAAGGCAAAATTGTAGTGATAACCTGAAGCTACATGAGAGACATTTTCTAAATTTATTAACTGGCTTCAGACT
CTTGTTTTTGAATTCCATCCTGTATTTTGTACTTCCTGTTTTTTCTTTTGTTGTCAAAATACTGTCAGTTGCAATGTGCCTATCTTGTAGTCCATCTCTT
ACAGGTTAGGAAAATATCTGAGTTTTTATTATATGCGTAAAATAAGCACCTTCAGAATAAAGACCTGAGAGCTTTTCTTCTGAGCAAACTATATTAGTTA
TATTTACTACATTGACTAGACTTTTTATTTATTTTGTTTTTTTTTTTTTGAGACGAAGTCTTGCTCTGTTGTCAGGCTGGAGTGCAGTGGCACGATGTCA
GCTTACTGCAACCTCCGTCTCCCGGGTTCAAGCAATTCTCCTGCCTCTGACTCCTGAGTAGCTGGGACTCTAGGCACGCGCCACCTCGCCCAGCTAATTT
TTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTGGCCAGGATGGTCTCGATTTCTTGACCTGATGATCCGCCCTCCTCGGCCTCCCAAAGTGCTGAGC
TTACAGGCGTGAGCCACTGCGCCTGGCTGACTTASACATATATTTTAACTGCTCAGGCCTCTCCCCCTTGGTTGGATAGTTGAAAATTGAGAACTGAAAG
CCAGCTTCTTCTTTCTTTTATGTGTTCTGTATTGGTGATATTTCCAGTTGCGAATTTTTAGATTGGCAGTGCCTTACTGATAATACAGTACCGTCAGAAA
CACTGTTAATCATTCTTCTCAATTAACTACTCTTTCCGTTGTTTTACCTGGGTATTTGGTTATGGAATTTTATTGAATTTAGGAACATAATCAAACCAGA
ACATTGACTCCTATTATTCAYTGATGTAAAGTATCTCAATAGAGTACAAAATAATAACTGGAGATAGCTAGTATTCACTTAATTAAATTCAGTGTCTTCA
TTTTATCTAGTGAAAACTACTTGCCCTTAATTAAATATTTAGTAATTGCTTTCTGACTGAAAAACATGCTTTAGCCTATTTCATATATTTACTGAGAAAT
TGTCATTGTACTCCAACATAAGATGAGTAATCAAGCTTAGTCACACAGGTAGTGAATATATATAGTTACCCWCTCAGTCCCCAAGCATGAATGGATAGTT
GTCATTCTAATGCATTTGAGCAATATATAACAGTGATGTTCATTTTCTTGGGTTTTAAGCAGTCAAGTAGGACTTCTTATGTTTGTTRTTTTTTTAGTTC
TTCATTTTATTTCTTTTCCCAAGGTTAAGATATGATCTAAAGTGCTAGAAGTATATCTTGAGAAGGCACCTCAGTTTGTGGTCAGTCAAGTCCATCGTGG
TCAATGAAATTCCCACCTCTAGGCTCCTGGGCATTTATGGCAAATGAGCGTGATGGGTTTGGGTGCTAGTGCCAGCAACTTCTATGTATTTTAATGAAAT
AGATCTACACACCACTCTTGATTTTTTAACCAATCTTCATAGCTTTTCATCAGAAAATATAAATGGAAATAGAAATATGGCATCAGATCCGTTGAGACGG
ACAGTTGTGATCTAAGGAAATAGTACAAATCACTTGTAAAGAAAATGTCATAAATCCTTTAAAAATTAGTTTATGTACACATTAGTACTAAAATTACTTT
AGTTTTAGATATTAATCATTTGTCTCACAAATTTTAAAACTGAAAAGCCTATGGAAGCAATGTTGCACACGTAATATAACCTCACTTTGTATGATGTATT
TTAGTAGCGTATCTTTAGGAAAATCAAGGAGATAATGAGTCGCATCGTATACAGCATGAAATATTGAAGGCTTTGGTATCTTTAAGGCTTAGAAATTCAG
CTGAGTGCATTTTGTCTTTTAAAATTCCATCTCCTAACAAAAAACCCAACTTCCAAACAACCCAAAATTGTTTCCAGAAAACCCAGAAACTTCCAAAATA
TTTGGCTTTTCATGAAGAAATCAACCATGGTGATTTTAATCCTTTATAGAAATGGTATCTATTTCTTTTATCTTTTAGAAGTATGTGATCCTGATGAAAG
ACTCTGCTATTTAGATTTGTGTAAGAAATTAGTTGAAAAAAGTCTGTATGATTTTTGGCATAGATAATTATGCTAGTTTCTAACAGTAATGCAATTTTAT
TTTAAAGATTCTGACAATGGAGATATTAATTATGATTATGTTCATGAATTGTCATTGGAAATGAAGCGTCAGAAGATACAGAGGGAATTAATGAAGCTGG
AACAAGAAAACATGGAGAAGAGAGAAGAAATTATCATTAAAAAGGAGGTATGCTATTTATTGCAATAAATATGTTAGTACTTAATAGCAGCATTTGTATT
GATCAGATAACTCAGCTTCTTGCTACATCTTAAATTATATTAGTATACTGATATATTGATCAACCCACTGTATATGTACTACTCCATATATATTCATTTA
ATTTTCACATTATTCTATTAGATAAGTAGCAAATATTTATGTTATTGAATAGGTGAGCAAAGCTAAGAGTTTGTTGCCTAGAGTCACCAGCTAATGTAAC
ATGGGGTTTGAATCTGCCTATGTCTGTTTCAGGCCCATGCTATTTCTAGAATGCCTTGTTTCTTTTCTAAAAAGTGAAGATACAGTTAATTTAAATATAA
TTTATGATTTTTCTGAGGAGATTTTGAAATTTTATGATTTTAATTTACTTTATTGAAACTGGTATATGTTAGGACAGTTATATTGCTTAAAATCATGGAT
TCAGGAGTCAGACTAATATCAACAGATAGTGGTTATTATAATTTTGTTATTTTTATTTTTATTTCAAACTTTTTTTGTAGGGATGAGATCTTTCTCTATT
ACCCAGGCTGGAGTGCAGTGGCACTCACTGCAGCCTTGAACTCCTGGGCTCAAGGGATCCTCCCATCTCAGCCTCCCTAATAGCTGAGACCATAGGCACC
TTCCATGCCTGGCTTTTTTTTTTTTGTATAAGAGATAGGGTTTTTTTTATGTTATCCAGGCTGATCTCAAACTCCTCACCTCAAGCAATCCTTTCACCTC
AGCCTCTCGAGAAACTGGGATTACAGGTGTGAACCACTGCACCCGGCAATAATATTTAATTTTAATCTGAAGTTTGGTGTGATTCTAAAATACTGTAAGT
CTTGTTGTACCATAAGTGGAGGAATTTCTGAATTGACTTACTGAATTTTTTTAAAGGTTTCACCAGAAGTGGTTAGATCAAAATTGTCCCCGTCACCTTC
TCTAAGAAAGTCTAGCAAATCTCCGAAGCGAAAATMAAGCCCGAAGTCGTCTTCAGCTAGCAAGAAAGATAGGAAGACATCTGCAGTATCTTCTCCCCTG
TTGGACCAGCAGAGGTCAGTAGGGTGATAAATAGTATCGAGAAAATAGCTTTTTCTGAAGTGATACTAAAAAGAATTAGTAGGTTATAAAAGGGTACTTT
TAGTACATTTTATATTTAATGTAAGCTTTTTTGTTCTAAAAAGAAATTTGAAATGTTTCAATTAAAAAGACAATTATAGAGAACAATAAAACAAACATCT
GTGTAACATCCACATATGCTTCAGAGCTTTTTATTTTTTAAGAAATAAAAATACAAGATACATTTCCTGTTCCTCTCTTAAATCTGGTGTTTATGATACT
TGTGCATGTGTTTATACTTTAACTAATATGTGTTCTGCAATGTATAGTATTGCTTTCATCTATTGTAATAGGGATATATCATAACCTTCTGCACATTGCT
TTTTCACTCAACATTTTTTATGTTTATATTGATACATATAACCTTAGTTCATTCATCTTAGTATTTATATTATAAATTTGTCTGCTTTTCTGTGGAACAT
TTATGTTGTTTCCGATTTTTAAACTGCTACAAATTATACACAAAAAATTTTTGTCTTTCAGTATATATTATCAAGAGATTGAATTCTTTATAACTTAGAA
TTACTGTAGAAGCCAGTTGAAGAAGTAAAAATAGAAATGATTATATTCAGGGACTAAGAATAAGGAGAAGATACATTTTCATTTAAGGTCACTCTGAACT
ATTTATATTTTATTTTAATTAAAGTCCATACCCTAATTTTATCTTAAAAAAAATGAACTAAAAATATCTTCTACCTAAGATTTAATCAGTTAACAAGCCC
TGTCTRTTTGAACCTGTAATGAAACTCATATTTATCTCCCTCCTTCTAGTTCCTAGAAACTAACCCTATTTCAGACTCTACTTAACTTTTTGCCTAGATT
ATTATATCACTAACTATATTGACTTTATGTAGTTTCTACCCACCACCCACACAGGTGAAYATTTTCATTCAGCTACCTCAACCCATTTATTTTGTAGATG
CTGTCAGAGAAATCTTAAAAGGACAATTCCAATTAATTTATTATACCATTGAAAAACTCAGTGGTTTTTCATTCTGTAGAATGAAATTCAGATTCCTTAG
AATGACATTTACACTTTGGTCTTTTCTTTCTTGTCAGTAGTTTTTGTCCAGCTTCCTCCTATCTACCCCCTTCTATCTCAATTCTTCAATCTCTAGCTCA
AATTTTAAGTTTTCCCATTTCTCTTTATGGAACATAAGTTCTGTTCCCTTTAGGTACCTATCAGATTTTGCTTATACCTCCATGTTGATAATAATTGCCT
GTTGCATTATATTTCAGCTGTGACTTATGTTTTATAACCTTTATTAAATTTAAGCTCCTTGAAGATTGGGATCTTGGTTATTCATAGTTCTGTCTTCTCA
TAGTGCCTACTTGACATAGAACTTTGCATTGTAATAAGGCACTTAGTAAAGTTGAGTTGATCCTCTCCCTCATATTGCCTACTTGGCATAGAACTTTGCA
TTTTAATAAGGCGCTCAGTAAAGTTGAGTTGATCCTATCCTTTGTTCATGCAATTGAGTAAATATTGCAAAGGTATATTGAAGAAGTTGAATGAACAGAG
AGTGATACGCTCCACTTCACTTGCTCTTATCCTCTTGGCTAACCAGCTATGTAACTTTCCCTCAATTCTATTCATTTCCCCAATAAACTGCATACTAGAA
ATACCCTTTCTTCCTTGTCTTATCTGTTCTGTTTATAGAATATTTGAAACTTAWTCTTTTCATAGAAAGTTTTGATAACTATTTAGACAAAGGGTTAGTT
TCATCTTTTACATACAATCTCTTTTGCTTCTTTATTAGTAACWCATCCTATTATAAATATTTGTCATGAATAATCATTCACACTGGTTTAATTACTRTAT
TTCTTATATTCTACTATGTTGTTGACTTTACGATGCACCGTTAATTTAATAATAAAAGCAAAAGGACCTGGAAAAACAGTATATTAAAAATACAAAGAAA
ACATTTAATTGAGTATAGCATTTCTTTTCTTTTTTTTTTTTGGAGTATAACATTTATGCAGTTTACATTTCCTAGAGTGTGTCAAGTAATCATCTTTTAA
TTTTATTGCTGGATCATACTATCAACTMAGAACATACTAAGCACATGTAAGGATTAGAATTTCAGTTAAAACTCAGTGGAGTATTTTAACCAGTGTCAGC
CAACTGAGGTGTGATAATCAGGTAAACAAATTTCTTGGTGGTCTTACTAGGTTATCATATTGAATGGAAAGATATAATTACTGACAAATTAAAACTTACA
CTTTTCCCTGAAAGCTGGCATTTTTCTTTGTTTGACATTTATTTTGAGATATAGTCTGATAGTAAGATTTGTCCTGATATATGAGATATGGTATAATCTA
AAATCATAAATATATTACCTATTCTGTCCATCTGCACTTTTAATCTTAGTTTTTATTAGGTGAATTTTTCTTTATAGCTCTTTGTACAGAGAATATTAAG
TATGTCAAAAGCTAATCTAAAACAATAGTTTTGAAGAGAGAGAGAAAAGATTAAAAACTGATAAAAGTAAACAGGTGGGCTCTTTGCCACAAGTCTGAAG
TAGGCTCTGTGCCACTGAAACAACAATTAGTTGRCTTTTTAAATGTTGAAGATCTTGGTGATTTCAGAATACACAAAACCAGTTTTGGCCTCTTCAGTTG
GAAAGCACTGTAACGTAATTGTGTTTTCTAACCACATATAATTTTGATGGTAATGTGAAGAAATGCTGTACTTTAGTAAGTATATTAGAATAGTCCAGRT
TGTGATTATAGCCAAGTCCCAAAATGTCGGTGGTTTAACACAACAGAAGGTTATTTCTCACGTAAAGTCAAAATGAGTGTTTCTGATTGACAGATGGCTG
TCCTATATATGGAGATTGAGTAACCCAGGCTCCTTCTGACCATGATTCCACTTTCTTGGGTTTTCAAGGAAACCAAAGAACGGGATGTACAAAGAAAAAC
GGAAATTGAGTATTGCAGTTATTTAGCTCTATAGTTTACAATTGCCTGGCATATGAGAGCCCTTTGAAATTTGGGCCTGGAGGTGGTATACATCATTTCC
ACTCACGTTCCTTTGGCCAGGTCTTGGTCACTTGGCCATGCTTAATTTCAAGAAAGTGTAGATAGTATGGTTTACCACTGTGCTCAGAAGAAAAGTTTGG
TAAACCCCYTGCTAGTCTCTGTCACAGGTGATAATGTAAAAATAGTTTGTGTCAAGAATTCCTTTGTTGTTTAATCATGAAATTTTAAAAGATAATTTTG
ATACAGATGCYAATTATTGATCCGTTTTTATCTTTAAAGTAGAAAAGTATCCAGAAATACAGATATTTATCACATATCTGTTAGGGTGCATAAGAAGATT
GAGTCATCTCATGAATATGCAATGAGATATGTGGCTAATATAGTTGTTGGCAGAAGACAAGGATGAAAACTAGATTTAGTCGTCATATTTTAGTAATTTC
CTACTTGTTTACATGGTTAACGCTATGAGTGATAATAAGACATAGGGATGAGGACTAAGAGAGCTACATTTTCTCAATGCTATGAGTCAAGTGCTTTTAA
AATATTGCCAGCAATTTTGAGGTAGATACTATCTCATATATATATATGGCTAAGAACTCTTGGGACTTGAGAATTCTGAGAATTCAGCATGATAGGAAAT
AAGTTCTAGGATTTTAGGCTTAGGTCTTCATTTATAAATATCAGTAGATAGTGAGATTAGTAGATAGTGAAAACTCACCAGATGTATGAAAAGGGTTACT
TGCAAACCTAGTACCAGACTGAACACTCTGAGCAGATGGCTTACACAGAAACGTTAATACAGTAAACAGGAACAAACTTAAATTATAAATTCATTTATAA
GTTTAGTGCAATTTGTGAGGATATTGTATTTAGAAGACAAAAGCAGTTGATTATGGGAAAAAAACTGTGAACAACTATATTTTTATTTTATTTTATTTTA
TTTTATATTTTTGCAGGAGACTGGAGTTTTATTAATCAATCTCCCTGAGCATTTGGGGATCAGAGTTTTAGAGGACAACTTGGTGGCGGGGCAGCAGGGA
GACTGGGGGAAGCCAGTAAGCCAGGAGTGCTGACTGGTCAAGTCAGAGATGAAATCCGAGGGAGTCGAAGCTGTCTTCTTGTGCTGAGTCAGTTCCTTGG
TGGGGGCTACAAGATCAGATGAGCCAGTTTATCGATCTGGTTGGTGCCAGGTTGAACAACTTTTTTTTTTTTTTTTTAGGACAGAGTCCCACTCTGTCAC
CCAGGCTGGTGTGCAGTCAGCTCACTGCAACATCTGCCTCCTGGGTTCAAGCGGTTCTTCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGTGCGC
CACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGGCGGGGTTTCACCATGTTGGTCATGCTGGTCTCGAACTCCTGACCGCCTCACGATCCGCCCACC
TTGGCCTTTCAAAGTGCTGGGATTACAGGTATGAGCCACGTCGCCCAGCCTGAACAACAATATTTTAAAAGAGAAAAGAGTTCAAATGGAAAATCATAGA
ATAGGACAGATGCAGTGGTCTGAGGTGGACAGATCACTTGAGCCCAAGAGTTTGAGACCAGCCTGGATAACGTGATAAAACCCTGTCTCTACAAAAATAT
GAAATTTAGCCAGTTGTGGTGGTATGCACCTATACTCCTAGCTACTCAGAGGGCTGAGGCATGGGGATCACTGGAGCCCTGGGGGTCGAGGCTGCAGTGA
GCCATGATTGTGCCACTGCACTCCAGCCTGGGCAACAGAGCGAGACACTGTCTCCAAAAAAAAGAAGAAATCAAAAAATAGCAGAACAACGAGATTGCCA
AATTTAGAATTAGCAAAATGAGTACTACTTTAAAAATTACTGAATATAAAGACAGATTTAAGATCCTGGAAAAGCAGGAAAAATGGAAATGACAGAGACA
TCTAACATGGAGGAGAGATCCAAGAGATACAGTAACTGTGTAATAAAGAGAACTGCAGAGACTTGGGTCATAAGGAAAAGTTWTGAAATGAAAATAGAAG
AAATTGAGTAAAAAGTTTGAAGTTTCAGATTGAAACAGTCCATTTAGTGCTGGAAAAGATTTTTTGAAAATACCTGGATTTAGTGAAAATCTTTTTCCAG
TGAGTAATTTTCAAGGGATAATGTTCATAAGCATGCCAACAGAAAAACCAGCTTACCTGAATAGTAAAAAATTTGATTTTCTTTGGACTTCTGACCTGCA
ACGTTAAATGTTACAAAATATTTTAACTAGAGCTCTGAGGTAAAAGGATTTTGACATGAAAATGCTATATTCAATTAAACTATTGTTAAAGTAAGAGGCA
AAGACAGCCAGTTTTGAATGTGTATGGGATCAAAGTTATACTATTTACTTAAAATTACTTAAATTGCCAAAAAGAGGCACTTAAAGAACAAAATTTGTAC
CCCAAAATCAATTACAAGTAGATTAAAGACAAATGTGAAAGGCAAAATTACAAAATTTTAGGAGACCATCTTTGTGACCTCAGAGTTGGTAAAAATTTCT
TAAATAAGATTGAGAAATTTATGATGAATATATACTGACAGTGGTTGATATTTCATTTGTAGATGATGTAATTGTGTTTTTTGAATAATGATGAAAACCT
GGAAGCCACCTGAAAAACTATGAAATTGTTTTAGAAAGTTTTGGAGCATCTATTCAGGGAAATTCTATACAGTCAATAAAAATGATTACCTAAATCTGCT
TTTTTAAAAAAAATTTTATTTTGAGTTAGAGTCTTACTCTGTCACCCAGACTAGAGTGCAGTGGCGCAATCTTGGCTCACTGCAACCTCTTTCTTCCGGG
TTCAAGTGATTCTCCTGCCTCAGCCTCTGGAGTAGCTGGGATTACAGGCACCCACCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATAGGGTTT
CACCATGTTGGCCAGGCTGGTCTCGAAYTCCTGACCTCAAGTGATCCACCCCTCCTCTGCCTCCCAAAGTGATGGGATTACACCATGCCCAACCTAAATC
TACTTTTTGTTACGGAAAGATGCTCACACTATGTCTATATTCAGTATTTGAAAATTTTGCAAAATATTGTAATAGGATATCCCATGAATGTATGTGACAC
ACACACACACACACACACAGAGTTACCATTTCCAATGATGAGAGAAAATAGTTGTGACTATATATATATATGATTTGCACATATTTTCTCGCATTCTATA
AGTTGCCTTTTCACTTTGTTGATTGTGTCCTTTGACATGCAAAAGTTTTAAAATTTGATTTAGTCTCATTTGTCTATTTTTGCTTTGTTGTTACCTGTGC
CTTTGGTGTCATAGCCAAGAAATCATTGCCAAGTCCAATGTCATGAAGCTTTTCTTCTATATTTTCTTTTCGGATTTTTATAGTTTTTGCTTTTATGTTT
AGGTCTTTATTTTGAGTTAATTTTTGATCTGGTGCAATGTAAAGGTCCAGCTTCATTCTTTTGCATGTGAATACCCAGTTTTAAATGAATAGACAGAGAA
AGTAAGATATATGGCAAAAGTATGTAAATATTCAAGATGTTAAAAATAGTTCTCTTTGAGTAGTAGAATTATAGGTGATTTTTACTTTCTTTGTCTACTT
TTCTGTCTTAAAAAAAAACAGTTTAAACAGTCATTGTATTAACATCTTTTCTGAAAGTGTCTTCCTATTTCACCTCTATCTTTTCTCAGAAACCTGCCCC
TTTAAAGTTATATAATAATAAGCAGTGTTAACAAAATAAGTATCAAGTAAATTAATTCTTCAGCCATTTCTGTTAGTTTTTTTTTCTTCTTGATATTGGT
TAGTAGTATACAAAATAATAAAGGGCAAGTAATGTAAAGGAACGCTGCTGTTTTTAAGAAGGCTTTAAAAAATATCCTTTTGGCATATTTGAACCTCTAA
TGATAGCTTTTTGTTAYCTTCAGAAATTCAAAAACCAACCAAAGTAAAAAGAAAGGACCACGTACTCCTAGTCCACCCCCTCCTATACCAGAAGATATCG
CTCTGGGGAAAAAATACAAAGAAAAATATAAAGTAAAAGACAGGATAGAAGAAAAAACAAGAGATGGAAAGGACAGAGGACGAGATTTTGAACGACAAAG
AGAAAAGAGAGACAAGCCAAGGTAAGTAGGATTGTATGTTTTTAACAATATTAACTTTTGTAGAATATAGAATATTTACTTTTCAGAAGCCGTTGGGCAT
TAGCATATTGGGTTTTTTAGTTTTGTTTACAATAGTGTGTATATTTATTTTAATAATTCCCATAATAATTATTATTATGAGTCATGGATAATTCAGTAAG
CCTTAATTTTTACAATTTATTTTTCAATTTTTTATTGTGGTAAAAAAACATAAAATGTACCATCTTCATCATTTTAAAGTTTATAGTTTGGTAGTGTTAA
GTATTTTCACACTTGTGAAACAATTCTGCAGAACTTTTTCATTTTGCAAATCTGAAACTCTGTATCTGTCAAAAAATAACTCCCCCTTTCCACCTTTTCC
CAGCTCCTGTTAACTATCATCCTGTTTTGTTTCTGTGAATTTGACTGCTTCAGATACCTTATATAAGTGGAATCATACAGTGTTTGTCTTTTTTGACAGG
CTTATTTCACTTAGCAGAATGTCCTCAGGGTTCCTTCTTGCTGTGGCATGTGACAGGATTTCCTTCCTTTTTAAGGCTGAATAATATTTGATTGTATGTA
TATGCCACATTTTATTTATCCATTCATCCATTTGATGGGTGTTTGGGTTCTTTCACCTCCTGGCTATTGTTGATAGTGCTGCTATGAGCATGAATGTGTA
AATAATCCCTTTTGAGACCCTGCTTTCAGTTCTTTTGTATATATACCCAGAAGTAGAATTGCTGGGTCATATGATAATTCTATTTTTAATTTTTTTGAGA
AACCTGCCTACTGTTTTCCAATGCAGTTGCACTGTTGTACATTCCCACCAACAGTACACAAGTGTTCCAGTTTCTCCATACCTTCACCAACACTTAGTTT
GTTTGTTTTATAGTCGCCATTCGAATAGGTGTGTTTATCTCATTGAGGTGAGGTGTTATCCCATTGAGGTTTTGATTTGCATTTCTCTGATGATTAGCCA
TGTTGAACATCCTTTCATGTGCTTGTCGGCCATTTGTATATCATCTTTGGAGAAATGTCTTTCCAATTCTTTGCCCATTTTTTAATTGGGTTATTTGATT
TTTTTTCTGTTGAGTTCTAAGAGTTCGTTATATATTCTGGACATTAACCCCTTAACAGAGATAAGATTTTAAAATATTTTTTCCTATTCCATATGTTGCT
TTTTTTTTTTTCACTCTGTTAATTGTGTCTTCTTGACATGCAAGAGAACAGTTAACTGAAGACTTCAGAGTTCTTAAGTATGTTTTCTTAGACTATACTC
TATATTTTACTCAGTCCAGCAGGTGTGTTTGTGAAAATTACATGTAAATGTTTTTGGTGATTGACATTCTATCAGTAATAAATGTTTTTGGTGATTGACA
TTCTATCAGTAAAGCCTTTAGTTTTCCCTAATGGTTCTTTGTACTTTTATTTTGGTATTTTGACTAAGAAGTCTCTGAGAGTTGGTTCTTAACACCTGTT
GCTAGGTAGTTTATCATTTAAATGGTAAAAACATTTGTGTTATGAGGAGTTGAATATTACACAGGCTTATCCTTCATTTTCCAGTTTTTCTCCCTTGGTT
ATCCCTAAATGGTATGCATAGGACTCACCTGTTATTTAGTATGTAGACAAATCTGAACTTGGTTTTTAAATTTATTTTTATTTTTTATTTTTTCATCTAA
GGACATGAAACAACAGAGCTAGGAATACTGGAAGATTATATAAATACCTGATCTGCACGCACTGGAGTTCTAAAGCCATATGTGACAAGACATTGGAAAA
AGACATTTTGGTTTAGGAAGAGTTAATTACCAAGGTTCTTAGGTGGGGCTGTTATTTTCATTTGTCTCCATTACTCTGAATGAAGAAATTACAGGCGCAC
CAATTTTATTGAAGCTCACAGATGTTGTGTATTTTTACAAATGGAAGGTTTGTGGCATCCCTGCATTAAACAAGCCTATCAGTGCCATTTTTCCAATAAC
ATGTGCTCACTTTGTGTCTCTGTAATTCTTGAAATATTTCAAGCTTTTTCATCATTATTGTATCTGTTACGATGGACTGTGATCAGTAATTGTCGCATTA
CCATTGTAATTGTTCTGGGGTGTCGTGAACTGCACCCATATAAAACAGTGAACTTAATCTGCAAATGTGTGTGTTCTGACTGCCCTACTGACTGGCTAGT
CCCCTGTCTCTCACCATCTCCTTGGGCCTCTGTATTCCTTGAGACACAACAATATTGAAATTAGGCCAACTAATAACCCTATGTGTAGTGGCCTCTAAGT
GTTCAAGTAGAAAGGAAGAGTCTCTTACTTTAAATCAAAAGCTAGAAGTGATTAAGCTTAGTGAGGAAGGCATACTGAAAACTTAGGTGGCAAGCTAGAT
CTCTTGTGCCAGTCAGCTAAGTTGTGAATGCAAAGGAAAAGTTCTTGAAGGAAATTTAAAGTGCTACTCCAATGAACACATGAATGAGAAGAAAGCAAAA
CAGCCATATTGCTGATGCGGACAAAGTTTGAGTGGGCTGGATAAAAGATCAAAGCAGCCACAGTTGAAATCAGCCACAACATTCCTTTAAGCCAGAGTCT
AATCTGGAGCAAGGTCCTAACTCTCTTTAATTCTTTCGAGGCTGAAAGAGGTAAGGAAGCTGCAGGAAAAAAGTTTGAAGTTAGCAGAGGTTACTTCATG
ACATTTAACGAATGAAGCCATCTCCGTAGCACAAAAGTGCAAGATGAAGCAGCACAAAAGTGCAAGATGAAGCAGCACATGCTGATGAAGAAGCAGCGGC
AAGTTATCCGGAAGATCTAGATAAGATAATTGATGTTGGCCACACTAAACAAATTTTCAGTGTAGTTGATACAGCCTTATTGGAAGAAGATGCCATCCAA
GATGTCCATAGCCAGAGAGGAGAAGTCAATGCTTGGCTTCAAAGCTCCGAAGAACAGGCTGACTCTCTCGTTAGGGGCCCGTGCAGCTGGGGGTTTTAAG
GTGAAGCCAGTGCTCATTTACCATCCTGAAAATCCTAGGATTTTTAAGAATTATGCTAAATGTACTTTGCCTGTGCTCTTAAGTGGAAAAACAAGCATGG
ATGACAGCACATCTGTTTACAGCATGGTTTACTAAATATTTTAAGCCCACTATTGAGACCTATTGCTCAGAAGAAAAGATTCCATTCAAAATACTACTGT
TTGTTTATGATGTGCCTGTTTACGCAGGAGCTCTGATGAAGATGTCAGGAGAGATTAATAGTTTCATGCTCGCTAAGACAAAAGGCACCCTACAGCCCAT
GGATCAAAGACTAATTTTTACTTTTGAGTTATTTAAAAAATACATTTTATAAGGCCACAACTGCCATAGATAGTGATTCCTCTGATGGATCTGGGCAAAA
TAAATTGAAAACTTTATGGAAAGGATTTACTGTTCAAGATGCCATTAAGAACATTCGTCATTCACAGGAGGAGGTCAAAATATTAATAGTTACAGAAGTT
AAAAGAAGTCAATTACAACGTTCATGGATGACTTAGAGAAGTTCAAGACTTTATTGAAAGAAGTAACTGCAAATGTGGTGGAAATAGCAAGAGAACTAGA
ATTAAAAGTAGATCCTGAAGATGTAACTGAATTGCTGCAATCTCAGATCAGACTTGAACGGATGAGGAGTTGCATCATATGGATGAACAAAGAAAGTGGT
TTCTTGAGATGGAGTCTACTCCTGGTGAAGATGCTAGAAACATTTTTTTAAATGACAGTGACACCAAAGAATTCAGAGTGTCACATAAACTTTGTTGACA
AAGCAGCAGCAGGGTTTGAGAGGATTGAGTCCAGGTTTGTTTTTTGTGTATGTGTGTGCTGTTTTTTGTTTTTCTTCTCACTGTAACCCAGGCTTAAGTG
CACTGGCGTGATCTCAGCTCACTGTGTCTCGCTATTACCCAGGCTTAAGTGCACTGGCGCCATCTCAGCTCATTGTAGCCTCCGCCTCCCATCAAGTGGT
GAAGTGATCCTCCCACCTCACCCTCCCAAGTAGCTGGGCTTACAGGCTTGCGTTGCCACACTCAGCTAATTTTTAAAATCTTTTTGTAGAGATGAGGTCT
CGCTATGTTGTCCAGACTGATCTYGAACTCCTGGACTCAAGTAATCCTGCCTTGGCCTCCCAAAACATTGTAGTTATAGGCTTGAGCCACCATGCCCAGC
CGACTGCAGTTTTGAAAATTCTACTGTGGGTAAAATGCTAGCGAACAGCATCACAAGCTACAGATAAATCTTTTGCGAAAGGAAGAGTCAATTGGTGTGA
CAAACTTCATCATTGTCTTCTTTTAAGAAATTGCCACAGCCTCCCCAGCCTTTTGCARCCTTCATCCTCGTCAGTCAACAGCCATCAGCATCAAGATAAT
ACCCTTACCCACAAAACGGTTAAAACTCTCTGAAGGCTTAGATGGGTGTTAGCATTTCTTTAACAATAAAGTATTTTAAAAATTAAGTTATGTACTTTTA
TTTTTTTTTTTGAGACGGAGTTTCGCTGTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCATTGCAAGCTCCATCTCCTGGATTCATGCCATT
CTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCACGCCCAGCTAATTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACYGT
GTTAGTCAGGATGGTGTCAATCTCCTTACCTTGTGATCCTCCCATCTCAGCCTCCCAAAGTGCTGGGATGACAGGTGTGAGCCACCGCGCCCGGCCTGTA
CTTTTTTAGATATAAATCTATTGTACACTTAAAAGACTACAGTATAGTGTAAACATAACTTGTGTGTGTACTAGGAAACCAAAAAATTTGTGTGGCTCAC
TTAACTGTGATATTTGCTTTATTGTGGGAACCAAACCTATGTTTCTGAGGTGTACCTGTATTAATTTTAAAACTAAACAGTATCTTTGTCACTGTCTTCA
GATTGATAAGGAATGTAATTAAAGGTTAATGTCTAAATTCCTTTTGGAAAAAATTGCCCTTTAAAAATACTTTAAATGTCATAATGGGCGTATTAGTAGT
GTTTTGTTTACTAGTAGGTGTTGTGCTTAAGTAAAATTGCTAATTCATTCATCCAACAGTTACTTAAATACCTGTTCTAAAGCTGGTATTGCAGCAGTGA
GCAAAAGTGTTTCCAAAAGTTTTGTTAGTACAGGTAGAAGTAATATAGTGATGGGGTGTGTGTGTGTATGTGTGTGTTTGTAAAATAGTGTTTCCAAATA
CGTGGGTTTTGGCTTTGGGTTTGTTTTTTTTTCCTTCAAGTATGACCCACTAGGCTTACTGGATATAAGCGGTTGCTTACATTTCTTAAAGGATGGCTCT
CTATTGAGTTACCCATTTACATGGCATAGGTGTGCATACACATGGCATAGGAGATGCAACAATGCTACACGATCCTCTGACTTTAAATCCTTCTAGCTGT
TCTCTGTGTCTCAGTTGTCCAAATTCAAAAATAAATTGTAACAGTTAATGCTTACTGAATTATCCATTACTCATAATAGATAATAATTGTGTCTCAGTTG
TCCAACGTTCTGTATCAGGTGCTTCTAACCCGAAGTCCACTGGTGGATTTTAGGGGTCTACAAGTTTCTTGAGTTATGTATAAAACTTTGCCYGTGTATG
TGTTTTGGTGAGGGAGAGTGCCCATACCCTTCTAGAAAAGTTCATGATTTTCCCTTCTCCAAAAAAATGTTAGAATTATGAATCATTCTTGAAGCCTAGG
ACACTAACCTGATGTCAAGGATTTGAGTACTTTCCTCCCAAACTGTCATTGGCATATCAAGTTTGTTAAAAATGTACTCTTCCCAGAGTATTTGTAAGTT
TAATACGAAATTCTATCATGTGGTTAATTTTTAATTGAATAATTTGGAGACTTCGGCCCTTAAATGAATGTCATCAGTGTCTTCCAACTTAACTTTACTC
AGCTTTGATTTATTTATTCAATGTTGATCAAAACCTGAGTACTACTCATTTACGCAGAGAAAAAGCCTTATGGATTTATTACTGTGCTTTCAGAAAATAT
AGCAATTTCCCATAATATTTTTTTAAAATAAACTTTCCGTGACCTACTCTACAGAGAATAGTAAAATACTATTTCTGCCCCTCTTATCCTCAGGGAATAC
ATTCCAAGACCCCCAGTAGATGCCAGAAATGGCAGATAGTGCTGAACCTTGTATATACTGTGCATGAATTTCTTCTTCTTTATTCATAATTTCATGTATA
GACTATTCCTTCTTATTGTAGATTTTTGCAACCTCAGCATACAGTTTTTCTTCTTAAGAACTTTCATGTTTTCACTCAAAGGAAGTACTTTATGGCTTTT
TTTTTTTTTTTGTACATATTCAAATTGCCAGCATCACTCTTCTTTGCACTTTGGGTCATTATTAAGTAAAATAAGGGTTACTCGAACTGCATAATTACTG
TTATTGCCAAACTGCAAGTCAATCTGATAACTGAGATGGCTACAAAGTGATCAGCGAGCAAGTGCATACAGTGTATAGTGGTTGCGGTAGAGTGGAACGA
CAAAAGATTTCACTGTGCCACTTAGAACTGTGTGCAATTTAAAACATATGAATTGTTTATTTCTGGAAGTTTCCATTAGTATATTTGGACTGTGGTTGAC
CAGGGAAAGCAAAACAGCAGGTAAGCTGGGCCTATTGTAGTGGGAACCCAACAAACTAATTTTTTTTCCTGTAAATTGTTTAGAAGAGATGTAAATCAAA
GGGAAATTAAGTTTATTTTAGGTATTTAGTCAGAAAGATAATTTTCGAAGGGAATACTCTGTGTCAATATTCCTAACCTATTATGTCTAGATAATCCTAA
ATTGAATATTTATAATGATCTTTTGGTAGATGTAATACTTGCTTTTATCAGTGTACTCACTTATATTAGTATATATTCTTTATAGTTTCCCATGCTAAAT
CAGGAAAGTAAACTAATACATTAGTAGTATTTTAGGAACAAGGGTTTAAACACAAAATCTTCTTGGATAATAATCAGAAAAATTATCTGACAATTGCATG
TAGCTCATTCTGCCAGATATTTTGGTTTCAGTATGATTCTGCTGACAGGTGATATGTTTTAATCATAATGCTAGGTTGTAGGACTTTGTGGTCAAATGAA
AAAATAGTACTCAGAGCATAGCTAACTAAAAACACAATCATTCCAACACAATTACCTGAGTGTAGAAATCTGCTTATTACTTGATAGTAGTTGGATCAGG
TTGTTCTTGTATTGCTATAAAGAAATACCTGGGACAAGGTAACTTATAAAGAAAAGAAGTTTAATTGGCTCATGGTTCTGCAGGCCGTACAAACATGGCT
CCAGCATCTGCTGCTGGTGGGGCCTCAGAAAGCTTACTAGGAGGAGGTRTGCTGAAGTAAAAGTGCTAATTCATTTATTCATCCAACAGTTACTTGATTA
CCTGTTCTAAAGCTGGTATTGCAGCAGTGGGCAAAAATATTTCCAAAAGCTTTGTTAGTACAAGTAGAATAATGTGGGGTGTGGGTGTATGTGTGTAAAA
TAGTGTTTCCAAATATGTGGGGTTTGTAATATAGCCAAACATGATTATATTGCACACTAAGCTTACGAAAGGCTTGTGTTAAGAATGAAATCATGTTATA
AACATCAAAACAACTCATTCACAAGGGATAAAAAAGAAGCCTTTCACATTTAGTCAAATTAACCAAGGCTTGGACTGTCTTTAGTAGGTGTGATGTTGGG
AAAATTTGTTGAATTCAGGAGAGAAACTCATATCTAGAAAGAGTTTATGACCCTAAATAATTGTACTTTTAGCTTTTGTCCAACTTGCTTTGCAAAATTG
GAGACTTGAGGAAGGCTGTTCTCAAGTATTTTCAGAGAGGTTTTTAGTAGCAGCTGGTGGTTCGGAAGTTTAATCCTATTCCAATAATTGATTCAGTCAG
AAATGCATAATATAGAGTCAATTCTGTAAAGAATGTAGGGCTGTGTTATAATGACATTAATAAAATAGCCTCTACCTGCACTGTCAAAATCCATCCTAAT
CTGGCTGTGGTCTGGTGCCAGGTGGTGGCGTTTTTGTTTTTTTTTTTTCACTGATAGTTAAATGACCGTAAGAAGAATTTTGGCTCCTGTGACTAGATGG
GACTTCCAGGCCATTGGCAGGGATTTCAAAAATCTCCCTTGCTTGGCACCCAGTGGCCTGATCTGGGAAGGTATTATGTCTGGGAAATGCAGATTGGGGA
CTTCTGCACCTTCCTCTTCCAAAACTGGATTATCTACTGTTTCTTGGCCTGGTTTGGTCCTCTGCTTCATATTCTTGCCACCCTACCCTATCCCCAGCAG
AAAGTAGTAACTTTAACTGGTTCCACCAAGCGGAAGGAGCCAGTTGTCTTATGCCAATGTGTGTTGTTTCTGGGTTTTATTGTATTTTAAATATCGATTC
TCTTACTCTGGGAGCTTAAAAACAATCCACATGCGTGCGGCAGGAATACCAGCTATTTGTCTTTTTCTAACCCTTGATCACATTGGTAGGTACAGCTTTT
AGTTCAAGCCATGTTGTTGAATAAGTCTATGTAAGGCTCTTACCTTGAACCACGTTTCATAAAAGTATTAGTTGTTAAATTATTCTGGATTTGAATAGCA
TTAAAGGATGGGTTAATTTAAGGGTTGTCTTTAACATTTTTTATTCTGAGATTGAAACTTTGGAAATTACAGTTGACCCTTGAACAATGAAGGGGTAGRG
GGTCAACCCCTGTGCAGTTGAAAATCCTTGTATAACTTTTGACTCCCCCCAAACTTAGCTACTAATAGCCCACTGTTAACTGGAAACTTTACTGATAACA
TAAACGTTTGATTAACACATATTTTKTATGTTATTTGTATTATATACTGTATTGTTATTACAAAGTAAGCTAGAGAAAAGAAAATGTTAAGAAAATCATA
AGGAAGAGAAAATATATTTACTATTCATTAAGTGGAAATGGATCATTATAAAGGTTGTCCCTTTGAGGAGGCTAGAAGTGCAAAAAGGAGGCGTTGTTCT
TGCTGTCTCAAGGCTGGCAGAGGCAGAAGTAAACTCACACGTAAGTGTGGACCCTGTGTTGTTCAAGAGTCAACCATACTGCGTTTGTGCATGCAAAAAT
GAAATCTGAACAAAATTATTAGTACCTTAGTGAATATTTTCTTGTATTATCTAGAACTTACATGAGGGTTTTTTTTAATCAAATCTGTTTTACAAGTATC
ATTATGTATTTATGGAGGAGTGATCTTTTAAAAGATTCCCACAGACAAGTGTCCTCCTAGTTCTGTAAGATTGTTCAGTTAGAAATGATTCCCTTTCCAG
GGAGTATTTAGCCTGCTGCAAAAGAATAGCAAGCTACTAGGTGTAAAACAAATCACACAGAAGCATTTTCTTTTTTCATCTTACAGGTTTATTTAGACGA
GTAAGATCTTGTTATATTTTAAATGGCACTTAACCACCTATCACTCTCCAGTGCTTTCTCTCATGCTTAGAATAAAATCCAGACTTTTACCATGACCTGT
GGCCCACATCTGGCTCTGCCTGCTTTCTGATTCCCTCATGAGACTCTGTTCTCTCATAAATTGTGGTTCCACTTGGCTTCTTTCTATTCTTATACATCAA
GATCCCTCCTACCTCCTTTGTGCTTATTGATCCTAAAGCTCTTGCCTCAGATCTTCAGCACTTGGCTCAAATATATCCTCTAGTAAGGGTCCTTTCCTTA
CCAAGCAACCTAGAGTAGTCACCCTGACATAGTTTTTTGTGTTTTGTGATCAAGGGCTAGAAAAAGACAAATAGCCGGTATTCCTGCCACACACATGTAG
ATTGTTTTTAAACTCCAAAAGTAAAAAGCACATACTTTTTGTGTTTTTTTGGACCTAACAGTTCTATTTTGTTGTCCTTTTGTATAAATGTTGTTACATT
AATTAGCAGAAATTGTCTTGCTTTGTCATTGTTGGTTTGCTCCCTGGACCATAGACTCTGTTACTAGATAGACTGGTTTCCAGTCCTCCCTCGATGTATT
AGTCAAGGTTTTCCAGAGAAACTGAACCAGTAGAAGATATGTCTAGAATGAGATTTACTTAAGGAATTGGCTCATGCAATTATGGAGGCTATAAAGCCCT
GTGATCTGGCTGCAAGCTGGAGACCCAGGAAAGCTGGTGGTGTAATTCAGAAGCGTGAGAGGTAGAAAGCTGCCTCCATTCAGAGTGTAAGACCTGAGAA
GCAAGGGCAGATCAACGTTCAGCTCAAGCAGTCAGGCAGAGAATGTAACCTTCCTTCACCTTTTTGTTCTGTTCAGGCCCTCAGTAGATCAGATGATACA
CACATTGGTCAGGGCCATCTGCTTTACTCAGTTTACTGATTTCAAATGCCAGACTCTTTTAGGAAGCCCTCACAGACGTGCCCAGAAATAATGTTTAGCC
AGATATCTGGGCCATTCCATGACCCAGTTAACCCAGTTATGTCAGAAGTTGCAAATTTTTTTGTGAAAAATCAGACCTTGGCCATGAGACCTTGAGCAGT
AGGATATAAATAACTCCCACAAGTTTAGTATTCCAATAATGGAACACTAGGCATAAATGGATTAAGTTGACACATAAAATTAACCATGACATTCAATTAC
CTTATTAGATTGTCATAAAGATTAAGTGAGTTAATATATGACAAGCACYTAAAATAGTGTCACACACATAGTAGCAATATAYGTTACTTGCTATTATTAA
TGTCATTACTATTATTATGTTAGTGGTTTTGTTCTCTTCATTTCTGTATCCTCATTGCCAAAAATAATGCTTGGAGCTTAGTATGTGCTCACTTAATATT
TGTTGAGTGAATTAAAATGATTTAATAAATATAAACTTCATATGTAAAATAATAGAACCTAAATATTTCTACTTGCAAAATGTGTATTATGTTGTATTTT
ATCACTGAAAACAGAGATGATTTTGGTAGTGCCCATATTACCTTTGTGTTTTAAAAATGTATACATTTTACATGATTTTAAAGGTTAAAATATGAATGTT
AGTGCATTATGTAAGCATATTTTCATATTTGAGAAATAGAAACCATTTTTTGAAAGAAACATTGGTGTTACTATTTTTAAGTAAGTCTGGGGTAAACCTA
TTAGTTTGCAGGTGAAATTACTTGCATCTTGAATGAGAGTTTTTATTTTTAAATTTCTTAACTTTTCACATTTTTTCCCAAAATGAAATATACCCTGAAT
ATTCTCATTCCACACCACATCATATCCTAATTATAGCAGCACTAAAAAGTGTTTGATTGGAATCTAGTCAGACCAAAGATCAACTTTCCCTGGATACAAT
AAATCACAGTGCTCTTGATTACATTATACAGGTTTTTGTTTTAAGGTATTAAGCTTCTCTTCATTAAATAAACTTTCCTTTTTTCTTTATTTGAATTTCA
AGTTTCACTAATTTTTTCCCTCAGATAAGAAACCAGCCAATTATAAAGCATAAGACGAATTAATCTGAAGTTACTTCTATTCTAAGTGGAAATGTACTTT
ACTATAGCTCTGTAATAGTCTATAGCCAAAGTACTATTAATTTTCACCAGATTTCAAGACAGTTTCGTTGCTTAGAATCATACCTTTTATATATGCAGAA
TGGACGTAGGTGAAGGTTGAGTAAAAAGAAAATATGATTAAAAAGTTGAAGCCATTATTTGACAACCCATTAGTGTTCTGACCTTAATGTGATAGCCCGA
TTATCCTAAGTTTGAAGTTTTTTCTTCCATGCTATAGCCATCAAGTTGAATAGAAACATGATTGGACCCTAATGTGTTTTTTAAAGGTAGTATATGTGAA
CTGTTTTGTTTTTTTAAGTTTTATGAACTAATAACTCAAGGCTATTGTAGACATTCTTGAAACAATTTTAAGTATACCCCAGAAATAAACACAGAAGTAA
CCAAAATATCAGTTCAATGGAGAACCATTCATTCTTTAGTTTTTTAAATTGACGAGAACCATCAAGCATGGTGGCTCATGCCTATAATCCCAGTACTTTA
GGAGGCTGAGGCAGGATGATGGCTTGAGCCCAGGAGTTCAAGACCAACCGGGGTATAGTGAGACCTCGTCTCTATAAAAAATAAAACAAAGTAGCTGAGT
GTGGTGGCATGTGCCTGTAGTCCCAGCTGCTCGGGAGGCTGAGGTGGGAGGATCACTTGAGCCCAGAAAGCCAAGAGTGCAGTGAGCCATGATCATGCCA
CTGTACTGTAGCCTGGGTGACAGCGAGACCTTGTCCCCCCGCCCATCCCCCCAAAAATTTACTAGAACCTAATGACATTGAAATTGAAAACAACCAGACA
ATACTGACTCTAATTTTTACTCTTGCAGTGATTTTTCTGTTCAGTAGGATGCATTTAGATGGGCATTGATCATAAATGGTTTTCCAAATTTGGCTAAGAC
CCGTTGAGTATTTCCACTCATATTAGCTGTTAAGTTAATAAATTTCTATTTAGAGTCAATTAAATTTTAGTAGCTTATGGCTTATCTTTTTATGTTAGAA
AGGAATCACTATTTTATTAAAAGTATAAAGCTTTAATCAAGTCACAGAAAACTTGATGTTTAAGTGAGTGTAGTGTTCTAGTTAGCWGACTTTTCATTTA
CTGTCACCCAGAGGTATTTTTATTTGCCTAAATTCTTTTCTGCATATTCTTTCTAATATATTAGATCACATTCCTGACTTAGTAACATAGTTTATAGATT
GAAACCTTTTTTTGATAAAAGGTTTACTAAGGCATCATTTATAAACAACATAGTTTAAGGTAGTGGTTCTCAACTGGGGGTGATTTTGCCTGGTAGAGGA
CATTTGGCAATGTCTGGAGTAATTTTTTATTGTCATAACTTGGAATGGGAGGGATGCTACTGGCATCTAGTGAGTTGAGGCCAGGGATGCTGTTAAACAT
CCTATATATAATGTACAAGACACTCCCCCTCCTCCGAAGAGTTACCCAGTACAAAATGTCAGTAGTGCTAGGGTTGAGAAACTGGTTTAGAATTAGTAAT
GATTTGTGCCATCACTGCACATACTAAAAAAATGTTTATCATAGACACTGAAGATAATTACAGAAATACTTTGACTTAAAAAATCAGAATTTTTTTGAAT
AAGCTTTTAGCTCTTGAGATGATTGCTTTGAGGAATATTTATCTGGGCATGTCTAGAATATTATATTTTAAACATTATTTCCTGCTGCTTCTTAGTTATT
GCACAAAAGTTTGGACAGGACCCAGGTATAATAGACTCTAGGAGTGATTCAGATGTTGTGCTTAATGATCACATCTGTTTCATGAGGTTATGTGTTGTTT
CTCTGGTAGCAGTGAAAGAAAATGATTTGAAGGGAATAGGGGAGGCCTTAGTTGAACCAAGAACTATGAACTAACTCTCAGTTTGTGCTGCCCACAGTGA
AGGCAGATTACTTAAGTTAAAGACAGTATATATTTTGTTATCCTTTCCTTAATTCTAGGATTCTTTCATAGTCCTAAATGTCAACCCATGCAGCGTGGAC
TTTTTGTTTGCCTTAGCTGATGCTACCTCCCCTTTTACCATAGCCRTGAATTTACAGGCATTCTCAAAGCCACTTTCTCTCTAGATCTCAGTAGTATGTT
TTGCCATAGTTTGTGGGTTTTCTCCCTCTAAGTATTTGTTCACACTTTCAGAGATTATCAGAGTGAATTCCATACTTTAAGTTAGGGTAGATGGTGTATG
TTGGAAAATGCAGTGTACTTTGGCACCAAAGCCTGGGAGAAAAGCACTGCATATCTCTTCTTGAACTGTTGCTTCTAGTTGACTTAAAGTTAAGTCACGT
CGTTAAAAAAGTGACTTACTTAGAATTTTACAGCATTGTGAATTAAAATTTATTCTGAAGTTATTGTCTATACTTTCATATTCACTTTTTTGTTTTTAAA
GATTTTCCTTTGGCTAGAAATGAAGCTCTTGAATACATGTTTTATTGTTATTGTTTTCCCTTGTAGGTCTACTTCCCCAGCAGGACAGCATCATTCTCCT
ATATCTTCTAGACATCACTCATCTTCCTCACAATCAGGATCATCTATTCAAAGACATTCTCCTTCTCCTCGTCGAAAAAGAACTCCTTCACCATCTTATC
AGCGGACACTAACTCCACCTTTACGACGCTCTGCCTCTCCTTATCCTTCACATTCTTTGTCRTCTCCCCAGAGAAAGCAGAGTCCTCCAAGACATCGCTC
TCCAATGCGAGAGAAAGGGAGACATGATCATGAACGAACTTCACAGTCTCATGATCGACGCCAYGAAAGGAGRGAAGGTGTGTACTGTACTTTGATTTTT
TTAATTGAAAAATTGAACATCCAGCTTTATTGTTGTACTAAGAGATGGAGAAAGACTTTGCTATGTTAAGTCTTCTGTAACACACAGACTAGAATTTTTG
AGGGCAATAGGAGATGCTTAACAACATGGGAATGTTAGCTGTTAGGTGTATACAAGTTGGTATTTACAGGTATACTAAGCTGGTGCTTTCTTTAGTTAAG
ATGTTCTGGCCRGGTGCAGTGGCTCACGCCTGTAATCTCAACACTTTGGGAGGCCGAGGTGGGAGGATCATGCGGTCAGGAGATTGAGACCATCCTGGCT
AAYATGGTGAGACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCATGCACCTGTAGTCCTAGCTACTCGGGAAGCTGAGGCAGGAGA
ATTGCTTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCAAGATCGCACCACCATACTCCAGCCTCGGCAACAGTGCAAGACTCCATCTCAAAAATAATAAC
AATAATAATAATAATAAAAGATGTTCTGCTGAGTAAGTACTCTCAAGTTCTAGAAATTTTTGGCCATCTGATTCTTAGAGCATCCTTTTCAATCACTGAG
TTAATGTCTTTTGAAAACAAGGAGGTGAAGGGAAGAAAAGCAACAAATCAGAGAGCGTAGTTTGAAAGCATCAGAAGTGTTTTGATAAAGGAGTGAGGGC
TGGGGGGAATTGTTAGAAGGTCATTGCAAACCGAGTCATCAAATTTCTAGGTCATAATAAAGAAGTAAGCGAAGCAGTTTTCCTTTCTAGATCCCTGAGA
ATTAAGTTAACTTTGGATTTGCTACTCCCTATTCAAGCTGAGATTTTATTGTTACCTGGCAATAAAGCCTGTTTAATAGCTCTCATCTCTTTCTTTACTT
CTTGTCTAAGCTTCTGGTCTTCGTAGATTCAACTTAATAAGTCTGTTTTCTAACTTCTCCTGTGTTCATTTTTTAACATAGTAAGTACTCAGGAAATGCT
TACTTGGAACAACATTTATATTTAATATGCACTTTAAGCGCCTCTTGGTGAGTGGAGTACGGCAGTCTCCTATGAAACATGTTGAATGTAGTATTCTCTT
CCTATCAACAATGCAAGCAATAATCAGTCGGGTTCTTTTGTTCAAGAAAATGGCGGATGAGAATGATATTCAAGAAAATAGGCAGGGACTGGAGAAAGCA
CCTATTTGATAGAATTTTTTTTTTTGTATGTATGATTTTGGAACTAGGTCAGCACAGCAGTGTTTATGAAACATTGGTAAGATGGGAAAATTCTCTTATA
TTGTACCTTTCTATAAATTTTAATAAGATATTTAACAACTAGAGTTGACCAGGAATATAGTACATATTTAATGACTACTTATTGAATGAAAACTCCATTA
ACATTATTAAACATACTAATGAAGGGAAAATAATAAGCAATTGAGTCTCATAGGAATGCTTGTGTTAAGAAGGGACTTAAATCATAGGCGTTTTAAGTTC
TTTGTAAGGAAGATGTCTGTTTAACTTTCCATACGGGAGATTTAGCAGGCAATTGTTCCTCTCTATTTAGATGTCATTTTCTGAAATAAGGATAATTTCG
GTGGAAGGATAGGGAGGTAGGTAAAGAAGAAAATACAGTACCTAGACGTATTTGTAAAGACAGATGGGCGCATCATGAGAAAAAGATCTGGCACTAAGTG
AACACATTTTCAGGCACAGTTGGTATTGGGGGAGGAATAGAAGTGAAAGATATTCACAGAAAGGGATGGAGATATGTCAGATCTTTGCCTCTTGCCTTTG
TCCTTAAACAGGGTTTGTGGATATGGATATATGGACAAAGGAATTGGTGGGGGAGATAGGTTATTGATGAGGGTCTAAGGGCCTTGTGGTTACAAGATGT
TTGGGTCCATGAGAAAGTCTGTGGGCCTAGCCATTAGGGACAAAGAGAAAAGGAGGTAAACTTATAATGTTTTGGGCATGAGGCTGCTAGAGTTGCCAAA
ATAGCCTTAGACTAGGGCAATTCCAGAGTATAAGAGCACCTTGCAGAAGAATCTGATAAAAAGGGCAGAATTTATCCTTTGAGGTTCTCTTGTTAATTCT
TTGGCTTCATATCAGATTTGTTATAATCAATTTGTGCCCTTTCTAAATATATGTAAAGAGTGGTTTCTAATCTTTGCAAATTATGGGGTTGACTAAGCCA
TCTAAGTTTTGGGCCTCTATTTCTTTATTATAAAATGACATGGTTTGTTTAGATAATCACTGTGGTTCAGCTTTTAAAAAGTGCAAGTATTTATTTTTTT
GTATGAAATGCTTTTTTGTTCGTTCATTTTAAAGAGAAAAAGTCTCATCTTCCTATGTTGCCCAGGCTGAACTCAAACTCCTGGATTCAAGTGATCTTCC
TACCTCAGCCTCCCAAGTAGCTGGCACTGTAGGTACATGCCACGTCACCCAGCTAGAAAATGCTCTAAGTAGAGAAAGCTTTAAAGACTTGCACACATGA
ATGTTATACCATTAAACAGTGCAGGAAAAGAGAGTGAATAATAGTATCACTCAACCAGCTAGCTTACTAACCATAGGCTACCCTAAAGTGCTTAAGTACA
TTTGAGGAGGTCACAGATGGTCTAGTTTAGCCTAACTTAATAGTTGATAGAAAAGATTAAAGTAACTGAAGTGTCTTTGTATCTAAAAGTGGTTTCTGAA
AAGTAAGCCGTCAATGATAGGAGATGAACTTATTTGTTTCAGTTGTTTAGGATCTGGTAAGTTGGGGTGAGTTGGGGCAGTATAGGTAAGTTGGGGCAGA
GGAAATTCATGTTCGGAGTTTATCTAATGAAGAACATTCTTATCAGGTGTTAATTATCTTTGGAATTTTAGCTTCTTTATTTTTTGCAAAGAACACGAAT
TGTCATTATAATAAAATTTTTAAAGTTCTGTATTAAATATGTTTTCTAGTTTCCTGAAACTTTGTAAAAGCAATTACAGTCAATTTCCAAAATTGCATTA
CAGATACTAGGGGCAAACGAGACAGAGAAAAGGACTCAAGAGAAGAACGAGAATATGAACAGGATCAGAGCTCTTCTAGAGACCACAGAGATGACAGAGA
ACCTCGAGATGGTCGGGATCGGAGAGATGCCAGAGATACTAGGGACCGAAGGGAACTAAGAGACTCCAGAGACATGCGGGACTCAAGGGAGATGAGAGAT
TATAGCAGAGATACCAAAGAGAGCCGTGATCCCAGAGATTCTCGGTCCACTCGTGATGCCCATGACTACAGGGACCGTGAAGGTCGAGATACTCATCGAA
AGGAGGATACATATCCAGAAGAATCCCGGAGTTATGGCCGAAACCATTTGAGAGAAGAAAGTTCTCGTACGGAAATAAGGAATGAGTCCAGAAATGAGTC
TCGAAGTGAAATTAGAAATGACCGAATGGGCCGAAGTAGGGGGAGGGTTCCTGAGTTACCTGAAAAGGGTAAGGTTTTTGACTTGTCTATGAACTATATC
TTATATAGAAAGTATAAAATCTCCTAAGATTTCTAATATGTTGTTTCTTACATTTRTTATCATTTTGTCACAGTAATTTTTAATTAATTGAACTTGTAGT
CTTCCTTATAAATTCCTAATTGGAATTACTAGTTAAAATAGCAAAAGATAAATGGAGCTTGAGCTAGACCCCCCCTAAGTATATCCAGTCATGCCTATCA
TCTTGATTAATGTGGAACACTAAGAAAATCACTATCAGACAAAAAAGTAGAATCACGAGGAAGTTGCTTTCTGTTAAATAGGTATAAATATGATAAAATG
TTCATTAAATTAAAGTAGGATTAAAGTGGTGGGTTTTCAGAATTGTTGGCATCAGAAATGACTGATTTGTGTATTCTTCAGTATTTGTACTTGCTTCAGA
CCCTGTCAAACTGCCACACGTCATTATCTTGAGCCATTTTTCTTTTCATAAAAAGTATTTGCCATCACCCAAATGACTTAAATATATTGTAACTATTTCC
AAACTGCTGAGACTTAATTATCATGACCTCTCTTTACCTCCACCTGCTTTTCTCCCCTCTCCCCAAACACTGCTGCAGAACTTTGATCACTTTTATTCTT
TCCATTGGTCTGTTAGTCAATCCTTGGTCAGTATTACAGCTTCATATTTGTGTTGAGGGTCCTTTAGCTTCTTTGAGCTGCCTTGTCTTTTCTTGACCTT
TTACTTTTTCATATCAATTTTAGAAAACAGTTTTTAATTTCATAAAAAAACTGTTGGATTTTTATTTCAATGCATCAACTTAATCAATTTATAATATTTC
TCATTAATATTTTTTACATTTTTTCCTGTGTATCCTCTATTTTTTATTGCCATTTTAAATAGTACTTTTACATTTTGTAAGATGTAAATTATGTATTTAC
ATGGTTCAAAATTTTGAATGTATAAAAGGATATATAGTGAAAAGCCTCCGTTGTACCCTGACCACTCTTTTGCCAGCTTTGTATGTATTCTTCCCAAAAA
ACATTTTACACAAGCAAATATATATCCATTTGTTTTCCCCTCTGGTTTTACAAAACTAATTTTTAAAAACACTGGAAAAAACTATGTACTGTTTTATATC
CTACTATTTTCAACTAGTAAAAATATCTTTCATGTCTTTCTTTGTGGTAAACAGCTATTTTCTTCTTTTGGTACTTGTTCTCTATTGTAGAATATACCAT
AAAGTCAGCAAGTGCTGCATTACTGGGTATTTTGGTTTTCCAATCTTTATCTCTTTCAAACAGTGCTTTAGTGAATAACTGTGTACATATGTCACTAAAT
GGTGTCTTTTAAAACATTGCATTTTCTAATGCTTTGTTGGTACCTGGAAATGGTAATTGGCATTTGTGTATTAATCTTACATTTAAATGATGTTGCTGTA
TTTTCTTGATCTAATTAGATTCTCTWAACAGATGTTCCTAGGAACACACTGATTTGGCTCTTCTTTTCTGATTATTAATTTTCTGTCAGTAACCTTCTGA
GCATCTTTATCAATACAGTGTTAAATATAAGTAGAAGGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGYGGGCGGATC
ACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCGTGGTGGTGGGCGCCTGTA
ATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCATGAACCCAAGAGGCGGAGCTTGCAGTGAGCCGGGATAGCGCCACTGCAGTCCAGCTTGGGCG
AAAGAGTGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATATATATATATAAGTAGAAGGGGCTTTGCTTTGTTTCAGATTTTAAAGG
ATTGTTGCTGGCATTTTATTACTAAGTATGGTGTTTGTAGATTTTTTGCAGATACTTTTTATTGTGTTAAGGATTAAGTTCTCTCCCCCCATTTTAGTTG
TCAGAAAATACTCTGTTGAAAGTCAGTTCTTTGGGATATGTATTTGTTAACTCTTATTTTGTGGCTCAGTGGTCTGTTTTTATAAGTGTTCTGCATATGC
TTTCAAAGGAGTTGCATTTGTAATGGTTGAATGCAAAATGTTTCTCTAAGATAAAGTTTGTTTTAACTACACTTTCAAATCTACATGTAATTTTTCTTAG
TCTGTTTGTTCTGTCATTACAGAGAGGTGAGTTCAGTCTTCCACTGTGATTGTGGAATTTGTAGATTTGTTGATTTCTACTTATAGTTTGATCATTTTTT
TATTTGAATATTTGAAGCTTTGCTATTAGGTACACGTAAATTGAGTTATTTCTTTCTTTATTCATTATAGAATGACTGTTTATGCCAGGTTCAGGTTGAG
CATCCCTAATCTGAAATGCTCCAAAATCTAAAACTTTTTAATGTAATTTTTTTTGTTTTTGTTTTTTGTTTTTTCTATAGCCACTAGCAACTGATAAAAT
CCAGACTTTTTGAGAGCTGACATAACATTCAGAGGAAATGCTTATTGGAGCATTTTGGATTTCCAATTTTTCAGATTAGGGATGCTGAACCAATATAATG
CAAATATTCCAAAATCCAAAACACCTGTGGTCCCAAGCATTTCAGATAAAGGGCATTCAGCCTGTATTTTTCTTGAAGATTGTTTTGCTGGCAGCTGTCT
TTTGGTTAGTATTTGTTTGATATATCTTTTTCCATCCTTTCAGGCTTAATTTTTTTTTAAATGTAACTCTAAACAACATATAGTTTTAGACAGATTAAAT
CTCCTCATTGTATCTTCTTTCATTCTTAACTTTCAAATTTTTCATCTCTTTATCTGTTTCGCCTCTAGGTCATATTCTCAGGCTTACCTTCTAGTTTACC
AATTTTTTCTTAGCTGCATCTAATCTGATGGTTAATCCATTCTTTCCTAGATGTTATATGTAGCCTTTTTGTAGTCTGTAAAAATGTTTTAAATTTTTTC
TTCCTGGTCTTTAATTATTAAAATATTTTTCACAGCTATTTTGATTATTAAAATACCCGTAGAATCATGCTGTAATTCTTTTAGGTCTCAAAAGCCTGTT
ACATTTGTATTCTTTGTGTTTTTGTTTGTTTTTTAAATCTTGGGGAAGTGCCTTTTGATTCTGTCTTTGGGTGGGTTAGTTTGTCRTATGTTCTTTTTTT
TCTTTTTTATTTATTTGTTTATTTATTTATTTATTATTTTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCAGGTTAGTTACATAT
GTATACATGTGTCATGCTGGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGGTATATCTCCTAATGCTATCCCTCCCCCCTCCCTCCACCCCACAA
CAGTCCCCAGAGTGTGATGTTCCCCTTCCTGTGTCCATGTGTTCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGCAGTGTTTGATTTTTTGTTCT
TGCGATAGTTTACTGAGAATGATGCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATGCCATCTCACACCAGTCAGAATGGCAATCAT
TAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAACCCTTGTGGAAG
TCAGTGTGGCAATTCCTCAGGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCAAAGGACTATAAATCATGCTGCT
ATAAAGACACATGCACACGTATGTTTATTGCGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAGTGATAGACTGGATTAAGAA
AATGTGGTACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAATTGGAAATCATCATATGT
TCTTTTAAGTTTGGAGTGAACTCATCTTTGTCAAAGATTTATCCATGGTAATTCTATGAGGTTGAGGGCAGGGCCCTCAGAGTTTCTGTCTTTGTTTTTG
CCAGATATTCCTAAATTATCACAGCCCCAGTACTGTTTCTCTACTCCTAACCCTCACTGCTCAAAAAAAGCTTTTTTTTWAATTTCATTTTGTTTTGAAG
TAATTAGGAATTCACAGGAGATTGCAAATAAATGTACAGGGAAACTTTGTTTATCCTTACCCCAACTTCTCCAGTGTTAACATCTAACATCTTATCTATA
GCATAGTATCAAAACCAAACAATTGACATTGGTACAATCCATAGAGTTTATTCACATTTCACCAGTATACATGCACTTGGGTGTATGTCTGTATGTAGCT
TTTTGTAGTTTTATCATATGTGTAGCCCATTTCCATAGTCAAGATACTCATCTATAACATCCTAAGATTCCTTTTTATTACCCCTTTATAGCCACAACCC
TCCCCTGGCCCCTGGCCCCAACCCCTGGCAACCTCTTATGTGTCCYTTGTYTTGTAATTGTCTCGTAAATGGAATAATGCTATATGTATCCTGTTGAGAT
TGGCTTTTTCACTCAGCATAATTTTTTCTTGGGGTTCATCCAAGTTGTTGCATATATCGGTCATTCATTTTTATTGCCGAATAGTATTCCATGGCATGCA
TGTGCCACAGTTTGTTTAACTGTTCATCCATTGAAAGACATTAGTGTACTTTGCAGGTTTTGGCTGTTATCAACAAAGCCACTGTGAACATTTGTTTCCC
ACATCTGTTAATGAAAATTTTCACATACAGTTTAATGTTGTCATTAACCTTGGTGTTCTATGTTGGAATGTTTTCACTGTAAACTGTATTTAAGCAATAA
TACGTACCCATTTTTTTCTTTCATTATTTTTATATATCTGTGAATTAAATATGAAGAAATAGTTTTTATTTTTTGTTTTTTTTGGGGGGACAGGTTAATT
TTAATGAATCTTATTATTTTATGATTTTATCATATGACTTTTATATAGGTAGGGAAAACTGGGACTTCGTCTACTCAGGTCAGTCATTGGACACCTTGGT
TGTTCTGATTCATTGCTTGATACTCTTTTCAGGAGTGATTACCACACTTTGGAATATTAAATATATATATTAGTGATGTTTAGGAGGAAAGATTATGACT
GATGAAATTTGTTGAATAAAGTGTATGTGGTAAACATTTGTGTGTCTATCCTTTGTTTAGGAAGTCGAGGCTCAAGAGGTTCTCAAATTGATAGTCACAG
TAGTAATAGCAACTATCATGACAGCTGGGAAACTCGAAGTAGCTATCCTGAAAGAGATAGATATCCTGAAAGAGACAACAGAGATCAAGCAAGGGATTCT
TCCTTTGAGAGAAGACATGGAGAGCGAGACCGTCGTGACAACAGAGAGAGAGGTTTGTCAAACAGAATTTTATTAAATAGTGAACAATATCAATTGGGCG
AATTGTTTTTTCAAACAGTTACCAATTTACTTTTTAATATAAAATATACTTTAAGGCTTGTGCTCGATGACACATTTGAAACTATTATATATACTCATAT
AATCTTTGTTCACATGGTTTAGGAGGGATTATGTCAATAGCTAGTGACCAGTACCTACTGGCAACAAAGTGCAAAAACTTGGGTGCCCTACTGTGTGTTT
CTCATCTTACCCAAATAGCTTACAAACCTTTAAAGAATGTAGATGGTTGGGTTCTATTCCAGGCAATTCTGATTCAAGAAATACCTAAACCTTTACATCT
GAGTATCCTGTCTACTCACTCATTTGCTATGATCAATAGAATTTTATAAGGACTTCCAGAAAGGAACAGTAAAAAAAAACTGAATGATAGGGCTGGGGAT
TGTTTAGAGAAATATTTTATTTGTATTCTGTCCTGAGAAGATATGGTATTTGCTTTAGCTAATTTTACGTTCTTATATGTCTTAAGCTAAAACTTTTTCT
GTTCATCTATCAGGTGATCTCTTAAATGAATTTTGAAGCAAGATTACTAGGAAGCACTTAAGAAGGGTTGTAAATACTTTCTTTGGCAAGCTTTTATTTC
TGTACTTATTAGGGCCTTTAAACATTAAAAATTTTATGAAGGTCTTACTAACCTTGGCTGAAGTAAGGTTCACTATAATGCTGAGATTAATATAGCATGA
AACTTGATGGCCCAGAGAATTGAATATTGATACTTTACTATGGGCTGAATCAAAGAGGTAATATTATATCTTGATTGGTTAGTAGTGGGAGAAGAATAAA
GTTTCTAAGGCATCATCTACTTTTGGGAGCATAGATAGGATCAGAAGTAGGAGAATTGATTAGGTTGAGTTTATAAGGTAAGCCTAATGCATTTTGGTTA
AAAGATGTGTAGAATTTCCTTAGTTACAGATAGGGCTGGAGTTTCTATGTTCTGTGTTGATATCTGAAATTTTTTCTTCCCTGGGACTTTTAGAACTGGT
GATGCTTTTTTTTAAATTTCTTTTTTCCTTTTTTTCTATTTTCATATCCTTGCTCAGATTTTTCTCATCTCATGCCTGAATTCAATAGTAACATTTGGTT
TCAATCTTATGGTTAGTTCAACCACATGTATTGATCTTCTACTAGGTGCCAAGAACTTTGATAGTTGCTTTACATATATTCTGACTTAGTCTTTACAATA
TCCTTGTAAGTGTAGGTATGATAAAATAATTCATGTTTTCACAGTTTTGGGGATTAGATCTAAGAGTAGTAAGATTACAATATTATAGAGAAGTAGGTTC
CAGAGCTGGAATTCAAACTCAGGTCTTCTGACCAGAAGTTCAGTTCTCTATTTTAATTTTACTGTAACTACTTCAATAATTATGAGATGTATGATTGAAA
TAAAAATATATTTTGGAGGCTAATGAATATTTTACAAATATTTGTTGAGTACCCATGTCAGGCACTTTGCTAGGCACTTGAGGTACAATAATTTCTTGTC
CTTGTAGAATTTAATGGGGAGAGGGAAGAACTCCCCACCCAAAAAAACAAAGTGTGATAAAATGCTACTACTGTATATAAAAGTTCTGTGAGAAGACAAA
GGAGCAAACACAATTCTGAGCAATTCCAAGAAAGCTGCCTAAAGAAGTGACATCTGAATTAGGGCCTGAAGAATAAAAGGAAACTATAGAAGGAGCACTT
TACAGGGAGAGGGTGCAGCATGTACAGACACCAGAACTGAAAGAAACATGTGCTTTGGAGTAGTAAGGAATTATGAGATTGGAGTCAGAGTATGCTATAA
TTGGCAAGGTAGAAAAGAAACCAGGGAAAAGGACTGATGAAAGACTATAGGCCAGGTAGTAAATGACCTAAGTTTAGCCTAGTCAGGCTAAAAAATTTGA
TTTTAATTGCCTTTCACTGCCTACAAGATAACTACTTTTAAACAGTTGGAAGAAATAATTTTCATCAAAAACATATTAAGGGTGTTGGGAAAGATTGAAA
ACAAGGATACCAATTAGTTAGACTGTTTGATGACATAGGCATCTAAGAAGACCTGATCAAGGTCTGAGTTAATAACTATAGCTATGGGGACAGGAAAAGG
AACAAAGAAATATTTTAGAAGTGAAGTTGATTGTACTTGGATATGATGAGGCTTAGACAACCCAGAGATTGTCAGCTTTAATGAATTGGTATGTCATTTA
TTAAAATAAGGAAATATGTAAGTAGAAGCACATCTTTGAATAACACATTTTGGGGGAAAGATAGGGGAAGATAATTTAGACATTTTAAAGTGATGTTCTT
ATATTCTTTCCATTTTCCTTTGAAGAAAGTAGCATTGATATTTTGGTTGGGAAAATACATCTCCCATAAAAGCATGTCTGAATAGTCTATTTGCTGATAT
TGCTGTAATTAGAAATTTAAAGTATGATTTGCTATAAGTTAATGGTATTGAATTTGTTTCAGGTTATCTTGTAATGATTATGATGTTGGTATGACTCCTC
CAAACCAGGAATTCAGACAATACAAAAGATGGGTAGATAGCATTCTAGGAATCCAAAGTATGGTACAGAAGAACCACTTTAAGTTGGTTTCAGCAAAAGT
GAAAGGGTTTAAGAAAACTGACTTCTAATGCATCTACCATCTCTGTGACATTGGGAAGACAACTCTGGACCATAATTTCTGTTTTTAAATAGAAAGGGGG
AGAAGCAACTGTGTAGGATTTCATTTTGATTCAGCTTTAAAATGCTATGATCATTTGTATCTGGGTCTATAACCTCTAAAATAGTAAAGATAAGATAATT
CTTGTCTTTTCAATCAGTGATTAGGAAGGGAAATCCAGAATACTGTATTGAACCCTTCCTAGAAACATCCTAAAATTRTTCTGCTTAATGAGTTGATGTT
AGATGTTCCACTTACCAACCTGTTGGCCTGATTATAATATGATCTTTATCAAAAACCAGTAGATATATAGTATGTAAATGGAAACATCACAGTATCCTAG
ATCAGACCGCAGTAGTTGCTTTCAAAAATGGCTGTCTCTTTGAAAAAGTTCATGCCATCCTCTTAAACGTTTTTTTATCCCAGACTAATTTTCTGCTCAA
CTGGGTATTTGGGCAGCATGCATTCATTTACTCTGTGTTTATGTGATTTGTGTGTACATGGAAAAAATTTATATAAAATGTGATGAGGTTATCAGTTAAC
ATTTTAAGAAAACAGCTCTTCATCTGAGTAATCATTTATGTAATTAAAGCTAATTTATTAGTAATTGGTTATTAATTACAAATATATATCACTAATATGA
AACACTTTTTACATTTATTTCAAGATTGCTAGACATCAGTACCCTTAATATTACAGTTCATGTTATATTGCAGCAACAAATTCTGACATATGTTTTGTTC
TACTATATTTTCCTCACATAATAGCTGCACTTTGATGTGTATATATTTTGGCCTGAARTTAGAGGTGTGACTTACGAGGGAAATTTTTTTTTTCCTTCAG
CTCCTATGTTCTACACCTCCTGCTGCCCCTATCCTTTGCCACCAGTGTTCTCAGGTCCTGCTGGGGGGACAGAGAAGATCAGAGGTGAAGGGTAGAGATG
GCAGAAAGTGGGGTTGGAGCAGTGGGCTGGAGGTAGGGTAGGGAGCATGCAGAGAAAGATCAAAGATTGATCAGTGGGAGGGGGGAAGGGGGTTGACGGG
GAGCAGGAAACATGGTCGTTAGAGGGCAAATAAAAATTATCTTTAAAAAATTTAAGGTCTAGKGGCGATTGTTACTTGGATATTAAGTTAAAATTAAATA
TGCTACTTGGTTTGTAATTTGTTGCCAGTGTGACCCTATACACAGATAAAATTTAAGATTTACCATGCTGTCTTACCAATAGGTTATCTGTCAAATTAAT
CACTGACAAAACTTGATTTTCATTGTAGATCAAAGACCAAGCTCACCAATTCGACATCAGGGAAGGAATGACGAGCTTGAGCGTGATGAAAGAAGAGAGG
AACGAAGAGTAGACAGAGTGGATGATAGGAGAGATGAAAGGGCTAGAGAGAGAGATCGGGAACGAGAACGAGACAGGGAGCGGGAGAGAGAGAGGGAACG
TGAACGGGATCGGGAAAGAGAAAAAGAGAGAGAACTAGAAAGAGAGCGTGCTAGGGAACGGGAGAGAGAAAGAGAAAAAGAGAGAGATCGTGAAAGGGAT
AGAGACCGAGACCACGATCGAGAGCGGGAAAGAGAGAGGGAACGAGACAGGGAAAAAGAACGGGAACGAGAAAGAGAAGAGAGAGAGAGGGAGAGAGAGC
GAGAACGGGAGAGAGAGCGAGAGCGAGAACGGGAACGAGAAAGAGCGAGAGAAAGGGATAAAGAACGAGAACGCCAAAGGGATTGGGAAGACAAAGACAA
AGGACGAGATGACCGCAGAGAAAAGCGAGAAGAGATCCGAGAAGATAGGAATCCAAGAGATGGACATGATGAAAGAAAATCAAAGTAAGAATAATTATCA
GTTATTAATAACATTTTACATTTCAGGAAAGAATTCAAAGTTTCATTTAATGCTTTTCAATATACTCTTAATTTCCTGTTAATTTTTTTTCTCTGTATAT
TTTCCTGTTTTTCAAATTTAGTATATGTATCGGTGTTTAAAGTTTTTTTACCCAGCACTTTGGGAGGCCGAGGCAGGCAGATTCCTTCAGGCCAGGAGTT
TGAGACCAGCCTGGGCAACATGGCAAAACTCCATCTCTACAGAAAATACAAAAATTAGCCGGACATGGTGGCACGTGCCTGTATCCCAGCTACTTGGGAG
GCTGAGATGGGAGGATTGTTTGAACCTGAGAGGCAGAGGTTGCAGTGAGCCAAGATTATGTCATTGCACTCCAGCCTGGGTCGAGACCTTGTCTCAGGAA
AAAAAAAAAAAGTTTTTTCAGTTGTCTAGAAAAAATAATTTTTAAATTAAGACAGGAATCAGTGAACTTGTATCCCATCACATCCCCTAGACTAGTCACC
AAGGGATATCACCTGTGCCATTCTGATGATCCTTCATGACTTTTATGTGCTTGTAATTATGGAGTCACTACCCCCAGGCTACAGGAAGCATTCACAATGT
CTTGGAACTGAGGGAATCCTTGTAATCACTGCATGGTTCGAAGATGAGAGAAAAGGAAGTGTCTTCTCTTGTGCTGTGGAGTAGTTCTTTGGGGTCAAAA
AATGTGTTCTTGGCATCTGATATACCTAAGGGCATTCTCCCACCTCACCCCCTTTTAACCAGAAAAGAACTTATTGCTCAAATATCTAGGAAGTTGGAGA
TTAGCTTTTGCTTGTTCTGATGTGGCTATATCCAGATTCTCAAACAAAGCATTAGCAGTTTCCATCTCTCCAGTTTCCCTCTGTATTAATTTCAGTCTCA
GAAAGGTTTTCTCCATATGATGGCTAAGATGGCCCCAGAGTTGTCCCTGTCAGCTTAGCAGTCCTCTCTGAGTTGGGGCTCTCATTAGTTGGTGAGGAGA
CAGTTATTGACTAAGCTGATCACAGTGTTCATGAGAATTCTAGACTCAGATTGGTCAATTTTGAAGTTCTGTGGGCACAAAACCAAACTTACTAGAGTTA
ACTACTTTTTTGCCTCCAACTGGGATAAACACTGTGGTTTACCTTGCCAAAACATACTGAGAAAATAATTTATGTATCTTCAATTTTCTTGCTCTTACCT
CCAACTCATTTGCCACAGGGCGAATACAGGGTCCCTGCTTTAGGCTTTTTTCATCCTCACTATTGTGGATTATGGTTAGGGCCAAACAACACAGCACAGA
AGTAGAACTTTCTTCCCTTAGGTCTTGGCTGTTCTTTAATCTACAGCCATGGTTTTCTGTAGTACACTCCTTGGATTACTTTCCTGCTTCCCTCTCCTTA
CATTTTGAAAAATCTTACCTGAACATAAACTTCAGAGATACCTTTTTTAACACATGGAGGCACAGGTACATATTCCCACCCTCCCCACCCGCTACTTTTC
TGACCTCTTTATTTTCTAAGATTAAAATTCTGAAATCTTTGTTATTTATCTTTTATTCAGTCCTCTGCTTTCATTAGTACAGATTGAGCATCCCAAATCC
AAAAATTCAGAATTTGAAATGCTCCAAAATCTAATGTTTTTTAAACACTGACATGGCACTCAGAGGAAATGCTCATTGGAACATTTCAGATTTTCACATG
AAGGATGCACAACCAGTAAGTACAATGCAAATATTCAAAACCTAAAGCATTTCATGGATAAGGGATACGCAACCTGTATTTTTTTCATGCTTCTGATATC
TGCTTATAATAGCAAAAGTTTTTCTGGTTTTTCATGGTTAGACAATCTAAGAGTTGACAATGACCCCAGAAATTTAGAAGTTGAATAACTCTATAACAGA
AACTAATTACATGAGATTAATATCTTAATCTTTCATTAACTGTATTGTCATCTCAGTAGTTCAATTTATCCAGCACTTTTTTTAACTGCTCTTATGTAGA
AGGTTTGCCTAATTGCTGTATTTATTTTACTCTAATTGTGTTTATTTAGGTATTTCCTTGAAATAACTTTTTCTCATGTTTTAAATTTTCACTTTATTCC
AGTCTGTCAGTTATCTCTTGATATATAACACATCACCACATAAGTTAGTAGCTTAAAACAACAACCATTTATTTGCTCATGATTCTGTGGATTGGCAGTT
TTGCCTGGGCTCAATAGAGTGGTTGTTCTGTTGGTCTCACTTGGAGTAACTCCTGTATCAACATTACATCTGACAATGCAGCTGGGCCTGGAGGCCCAGG
ATTGTCTCATTCATGTGTCTGGCAATTAGGGCATCTTGTTTCTCCTCCACTTGACCCCCTGGCCTTCAGTAGTCTAAACGCTGCTTTGCATGTAATGGTA
GAAACAACAAGAGGGCAGAAGCTGAAGCAGCAAGGCCTCCTGAATCCTCTTCACATTTGCACAGTGTCACTTTCACCACATTCTCTTGTCATAGCAAGTC
ATTAGATATGAAAAATGGGGAAATAGGCCAGTTATTGATGGGAGAGGAGCTTTGGATAAAGTAGTACACAAGCTTGGGCCTGTGAGTTGTCATATTACAC
CTGGGGCCTTCTCCACATGGTTGTTCATCTATATAAAGGAGCTGTCTATGATATACATGTGCTGGTATGTTTTTGTTTTATTTTTATTTCAATAGCTTTT
AGGGTACAAGAGGTTTTTGGTTACCTGGATGAATTCAGAGATTTTAGTGCACCTGTCACCTGAGTAGTCCACATTGTACCAAACATGTACGTTTTTATCC
CTCACTCCCCTTCCACCCTCCCCCTTCTGAGTCTCCAAAGCCCATTATATCACTCTGTATGCCTTTGCATACTCATAGCTTAGCTCTCACTTACAGGTGA
GAACAAGTTGCTGCAAAAGACATTATTTTTTTCCTTTTTATGGCTGAGTAGTAGTCCATGGTTTCATGGTGTATATATACCACATTTTCTTTATCCACCC
ATTGGCCAATGGGCACTTAGGTTGGTTCTATATCTTTACAGTTGTGAATTTTGCTGCTATAAACATATATGTGCATGTTTTTTTTTTTCATATAATGACT
TCTTTTCCTTTGGGTAGATACCCAGTAGTGGGATTGCTGGATCAAATATCTCCTTTTAGTTCTTTAGGGACTCTCCATACTGTTTTTCATAGAGGTTGTA
CTTATTTACATACCCACCRGCAGTGAATAAGCATTCCCTTTTCACCATGTCTATGCTAACATCTCCTGTTTTTTTTACTTTTTAATGGCCATTTTTGTAG
GAGTAAGGTGGCATCTCATTGTGGTTTTTAATTTGTATTTCCCTGATGATTAGTGATTTTGAGCATTTTTTCATACGTTTGTTGGCTGTTTGTATGTCTT
CTTTTGAGAAATGTCTATTCGTGTCCTTTATCCACTTTTTGATGGGATTATTTATGTTTTTCTTGCTGATTTATTTGAGTTTCTTATAGATTCTGGATAC
TAGTCCTTTGTTGGATACATAGTTTGCAAACATTTTCTCCCATTCTATGGGTTGTCTTTGTTATTTATTTTGCTGTGCAGAAGCTTTTTAGTTTAATTAG
GTTCCATTTATTTATTTTTGGTTTCGTTGCGTTTGCTTTTAGAATCTTGGCCATGAAGTCTTTGCCTAGGCCAGTGTCCAAAAGAGTTTTCCCAGTGTTA
ATTTCTAGAATTTTAATGGTTTCAGGTTTTAGATTTAAGTCTTTGATCCTTCTTGAGCTGATTTTTGTTTGAGCTGAGAGGGATCCGGTTTCATTCTTTT
ACATGTGACTTGCCAATTTTCCCACCACCATTTAGTAAATAGAGTGTCCTTTCCCCAGTTATGTTTTGTATGCTTTTGCTGAAGATCATTTGGCTTTATT
TCTGGGTTTTCTATTCTGTTCCATTGGTCCATGTATACAATATGTTTCTTAACTTTTGACCATAGTATTTATAAACAAACAATGTTAGTGAAAAAACAGG
TAGTCAAATTTTAATGAAAATGGGGGAAAACACTAGAATAATTTAAGTACCCAAGAGATATAAAACGCTACTCATTTAAAGCTCAACTAAGGAACAAAAA
ATATAATGAACGTATGAATTATTTTATTAATTTGTCAGCAAGAAAGTGATTTCCATGAAGGGGAAAGGAACTAATTTTATGGTGTACCCACAACATATTT
GGCACTGGGTTTATGACATAACTAATTTATTCCTTACTGCAATTTTATGAAATGGACTCTCATTTCCCACCCATTCAGCCCCACCCACCATTTTCAGATG
AGAAACTAAGGTTCAGTGACTTCAAGGAACTTACTTAAGGCTGCGTAATAACTAATGTAGTTATAAGTTGAACTCATAGCTTTTTTACTTCAAAGCCAAT
ATTAGGTTTTCTCATTCAGCTCTGCAGCATAAGGCATTTTTATATCATAAGAATGCAAAATTGCTGAATGTTTATATCAGAGGGTACATTAATATATTGG
TTTCTGTGCTGCATGTTACCACCTTACAGTATTTAAATCTGGCAATTTTCACTTGAGTTATTCTACATGTATAAKGAAGAAGAAGAAGAAATGTTGTGTA
TTTTAAGTTCACAATTCTTAGCAAATGAAGTAAAGAATTTGTATTAAAGACACTGAATATCCTTTGTATGATACACTCTGGCAATATTGCTTTCCTACAA
TTATATGTTCCAGTTATAGTAAAGAGATACTAGTAAAAACAAAAAAATCTCTTTTTTTGCCCCCTAGAATTTTATAAAYTGTGTTTGCTTGTCCAATTTA
GGAAGCGCTATAGAAATGAAGGGAGTCCCAGCCCTAGACAGTCCCCGAAGCGCCGGCGTGAACATTCTCCGGACAGTGATGCCTACAACAGTGGAGATGA
TAAAAGTAAGCAGACTCTGTTTTCTGTCTCTCTATATTCATATTCATTTGTAACCATGAAACCATCCTTTCATACTAGTAGGAACTGATGAATTAAGATT
TTTAAAAAGTTGTCTTGCTTTGCTGCCTCTAAATATCTCCTTTTGTGACTAAAGTATGTGTTAGAGTACTGTCATTTTCTACTATTTATAGTAAAGCCAT
ATTTTTATTTTTACTAAAATTATTGTCATTTTAAAAGTTTTTAAATGATCTTGATCTCTTGATCTCATGATCCACCTGCCTCGGCCTCCCAAAGTCCTGG
GATTACAGGTGTGAGGAGAAATTATTATAATCTATATGTACCATGCAGTGGTTACTAACCTGGTGAGAGTGTGATTGCTTTTATCTTTTATATAGATGAA
AAACACAGACTCTTGAGCCAAGTTGTACGACCTCAAGAATCTCGTTCTCTTAGTCCCTCGCACCTCACAGAAGACAGACAGGGTAGATGGAAAGAGGAGG
ATCGTAAACCAGAAAGGAAAGAGAGTTCAAGGCGCTACGAAGAACAGGAACTCAAGGAGAAAGTTTCTTCTGTAGATAAACAGAGAGAACAGACAGAAAT
CCTGGAAAGCTCAAGAATGCGTGCACAGGACATTATAGGACACCACCAGTCTGAAGATCGAGAGACATCTGATCGAGCTCATGATGAAAACAAGAAGAAA
GCAAAAATTCAAAAGAAACCAATTAAGAAAAAGAAAGAGGATGATGTTGGAATAGAGAGGGGTAACATAGAGACAACATCTGAAGATGGTCAAGTATTTT
CACCAAAAAAAGGACAGAAAAAGAAAAGCATTGAAAAAAAACGTAAAMAATCCAAAGGTGATTCTGATATTTCTGATGAAGAAGCAGCCCAGCAAAGTAA
GAAGAAAAGAGGCCCACGGACTCCCCCTATAACAACTAAAGAGGAATTGGTTGAAATGTGCAATGGTAAGAATGGTATTCTAGAGGACTCCCAGAAAAAA
GAAGATACAGCATTCAGTGACTGGTCTGATGAGGATGTCCCTGACCGTACAGAGGTGACAGAAGCAGAGCATACTGCCACCGCCACRACTCCTGGTAGTA
CCCCTTCTCCTCTATCTTCTCTTCTTCCTCCTCCACCGCCTRTGGCTACTGCCACTGCTACAACTGTGCCTGCAACTCTTGCTGCCACTACTGCTGCTGC
CGCCACCTCTTTCAGCACATCTGCCATCACTATTTCCACCTCTGCCACCCCCACCAATACCACCAATAATACTTTTGCCAATGAAGACTCACACAGAAAA
TGCCACAGAACACGAGTAGAAAAAGTAGAGACGCCTCACGTGACTATAGAAGATGCACAGCATCGCAAGCCTATGGATCAAAAGAGGAGCAGCAGCCTCG
GGAGCAATCGGAGTAACCGTAGTCATACGTCTGGTCGTCTTCGCTCCCCATCCAATGATTCAGCCCATCGAAGTGGAGATGACCAAAGTGGTCGAAAGAG
AGTACTGCACAGTGGCTCAAGAGATAGAGAAAAAACAAAAAGCCTGGAAATCACAGGAGAGAGAAAATCTAGGATTGATCAGTTAAAGCGTGGAGAACCC
AGTCGAAGTACTTCTTCAGGTAATAAAATTGAATTGTGATCTAGTCACTGTTTCCTAGGTTAGTATATTTTATACACATTTTAATTCTAAAGTAATGCTA
AATTGGTTACTTTACATGCTGCCTTAAATTTTATGCAACTTTTTAAAGAAAAGTTTAGCTGCCCTATCAAAATGTTACCTGTTATCACATTAATACCAAC
ATTATAATAGAAATACATACAGTAGTGTTAATCAGTTTAATATCAGGATTTTAGTAGTATGTCTTGGTGGAAGGGTTTATGTGTTCAAGTCCCTTATTGA
TGCCTATGATTTTAACCTTCCTGCTMTTCTTCATGCAGTCAAGGCTGCCTCTTTTGACCACAGAAAATAAGATAGGGGAGTAGGAGGAGATCAAATAATG
GAGTGATTAGTTCTATTAATGCCTAATCATTTTATGTACTTCTTGGAAGATATTTTATGGTTATAGTGGAAATAGACAAGGAAACTTTTTTTTTTATTTA
TTAGAACTTTGAGAGAGGAATTTTTCTTAAAATGATTTATATATTTGGATATTTATAGAGAGAAATGTATATGTAGAATATAGAAATATATAGAACATAT
AGAGACAATATGGAACATAGAAAGTTACATAGAATATGGAAAAAGGTAAATTATGTTTTAAAGGACCTTGAAATGAAGCATTTTGTTTCTATTTTATCAT
GTGCTAATAACTCTTTATATATGGTATATTTATTTTAGATCGCCAGGATTCAAGAAGCCATAGTTCAAGAAGAAGTTCTCCAGAGTCAGATCGACAGGTC
CATTCAAGATCTGGGTCATTTGATAGCAGAGACAGGCTTCAAGAACGAGATCGATATGAACACGACAGAGAGCGCGAGAGAGAGAGGAGAGATACGAGGC
AGAGAGAATGGGACCGAGATGCTGATAAAGATTGGCCACGCAACAGGGATCGAGATAGATTGCGAGAACGAGAACGAGAGAGAGAACGAGACAAAAGGAG
AGACTTGGATAGGGAAAGAGAGAGACTAATTTCTGATTCTGTTGAAAGGGACAGGGACAGAGACAGAGACAGAACTTTTGAGAGTTCTCAWATAGAGTCT
GTGAAACGCTGTGAAGCAAAACTGGAAGGTGAACATGAAAGGGATCTAGAAAGCACTTCCCGAGACTCTCTAGCCTTGGATAAAGAGAGAATGGATAAAG
ATCTGGGATCTGTGCAGGGATTTGAAGAWACAAATAAATCCGAGAGAACTGAGAGTCTGGAAGGTGAGTGCTACCTCTGTTGTCTGTGATACTGCTTTAT
TTCTTTTCAGATTTCGTGGGAAACAACTATTTTCTTTTGAAAGGGCACCCACTAATGGGCAAATTGACTCCATTCTCCATTCTTCTATAGAGGAAGTAGA
TTTCAGAAGGAAAAGGCCTGTAAGATAGAGATATATATATTTTTTTAATGTGGTCCCCTTAGCAGTACCATTAAGGCAGATTTGGTTCACATAAACCTAA
ATGAAATAAAAGATTGTTTAGATGCAGTGTGTATAGATGTTGAAGAATAACCATCACATCCTTTTCTTAGATGTTAAAAAAATAAGATTACAAAAATTGA
AATGACTTCTTAGTTCAGAGAGGGATTCAAATAATTATTAGTGAATCCCTATTTTCTAGGGCAGTTGAGAACAAATATATGAAACAATAACACTACCTAA
AACTGTATTTAATGTAGGATTGACTAGAATCCCACTGGTACTCCCTAGTCCTAGAATAGGAATGCTAAGTCCGCATCAACTCAGAGCCAGCCTCAGCTAT
GTGAAACCTCACTCTCCATGCTTCTGTTCTTTACCCTTCAGCCCCCATTTACTAGACAAGCTGACTCATGCCTTTCCATTCTCTGCCCTTCTTTGTACCC
ACTCATACCATTTCCTGATAGACCTTTTTCTTTTATCTCATCTTTCTTACTCAAAATTCAAGTCCCAATTTATACATTATTTTCTCGATGAAGCCTTCTC
TGCTCGAGGCACTTACTGTTTCAAATTCATCTCTTCACATTACATTTTCATCTCAATTTTGAGTATAAATAGCATCAAATCATAAAGCATGGTTCTGATG
GAGGTACAACCCTGGGATATAATTGAATATAATTGAATTAATCATTATAATAGCTCTCTTGTGATTGGAGTCAGTATCCCTCATCTCTAAAATATATAAT
TTGCTGGTTATGATCACAGATAATATAGAATAGAAATGTATAGGTGAATCACTTGCTATGTGATGTAAAGTTTTTACTCAAAGTAGGAAAATGAGTTGGA
TCAACTTGAAAAGTTGAAAATCCTATTATGTGCATTTATGTTTAGATGTATGTTTATATGACAAAGTTACTAAAATTGGTTACATTAGAAGTGACTTAGT
GAGGATATGGGGAGATTATTATAGAATTTAATAACATGGAAAATCACTAGAATGACTAGAAACATCTCATAACTTCTTATATTTTATTTGCTGCAAATTC
ATACCCATAAAGCATATGGTTACATTTTGAAACTTAGTATTGTAGATTCAGTGAAATGTATGGTTAGCTAGTGATTGTAAACGTTAAGTGTATTCTGTAA
TTTTAGGAATAAGTTCACAACTAACTCACCAAGAGACAAAGTTTAGCATAGGTGGTTGAAAAAAGTTGGTAAAATAAAAAAATAGAACATACACTAGTGG
AACTAACAAAGTTATTTTTAATTGTATTAAAGCATTTTTCTAAAAATTGTGTTCATCAATGCAAGAAGATCATTGAGATAGGGAGGAGGAATTGAGATGT
TGAGAGAGAATTAGACACTTCTTGTATTTTTACCTCACTGTTGTAAAGTTTATATAATGAGCTAAATAATATGAACTAAGATTTAAGCTTCGAGTAAATT
TTTTAAATGTTTGCAAGTTTTTAAATTACTTTGTTTAGATAAATTGTGAAAATTTGAAAATATAACTTCAAAATCTTTTGAAGTTAGATTTGTCTGAGTT
TTAAAGTTTTAAATTATCAAAAATAATACACAGTCAACATTAGTATGTTAGTAGTAGCTTTTATTTGTCATATTTTTATTGTGATCTTATAAGCTGTTCT
CATAATTGCTGTCCAGATTGTATTCTTGCTATTAAAGTTTAATTTAACTAATTAAATTTTATTTTTGTTTTCTTTTGATAYTATCAAGTATTTGAATAAT
TAAGAGATACAGTTTTCTGATGAAAAGATGTTTTTCACATTGTTATAATGTGTGTACCCTCTACCTTTTGGTTTGACTTAGTCATCCTCTCCCTTTAATG
TTGTCTTTGATCTGAAATTAATTTGTCTATTTAGCAGGAGATGACGAGTCCAAGTTAGATGATGCACATTCATTAGGCTCTGGTGCTGGAGAAGGATACG
AGCCAATCAGTGATGACGAACTAGATGAAATTCTGGCAGGTGATGCAGAAAAGAGGGAGGACCAACAGGATGAGGAGAAGATGCCAGGTAACTATTTGCA
GAGGTGGTTAAACATGAAAATTATCTGTTATATGATATTAAAGTATTATTACCTTCTACTCTGTAAAAATTGACCTAAGACACTTAGAATTTTTCCTTTT
ACATTTTACTTAAGGTTGAAAGGCCAATAAAATGAAAATTATAGCCTATATGCCTACTCCTTTTTAAGTAGGCATTGTCTATGAATTAGAAAGGGCCTCA
TTTAAAATAGCAAAATTCTAAAGTTTATTTTCCAGAATTTAAGAATCATATTATATGACTTGGAATCTAAACAAATACTGATTGTCTAGCAATGTTCTTT
CTACATGGTAGTTATATGGTACAAAGCTTCACAACTGTGGTGACACAAGCCAACTTTTTAAACAACCTGTCAAAAATTTACAGTAGTTGAAATTATATTT
GAACACTATATACCTCTATCAATTTTCTAAATTTGGTAATTATTTTGACTTACAGTACTTTGTGTGTTGCTGGAACTCATTCCAGTGATTATACCATGAA
GCAACACCCCTTAATATTCCTCTTGAATCATTCCAATTAGTGTCTGATTGTTACTAACAACTTTTTTAAATCACAGTGAGGATCTTTTCTTTGATTATAT
AAAATATGAAATTTTTATTTTAATTTGCTCTTATATTTTGCAATTTTTTCTACTGATGTAGAAGGTATGTATGATTGTTATCTTTGTTATTTTCTGGTAT
CAGGTATTTCTAAGTAGAACATTATTTCTTCAACTGTTCCTTCGCAGTGGATGGATTATTTGCTCTCAGTGTTAATAATTGTCACTCTCTGACTCTTAAA
GGGATTTCATAATGAAATAGTTGTTTTTAAAAATTAAAATGTATGTGTGCACACACTGCAAACACATGTACTCCTAGATTTAACCCTTAAAAGGATTCTG
GTACCAAGTTTCAAAAGATCAGACCCAATCTGAGTGAAATCAATAGAGTTCTTTCATTGGGGATCTCCCATGGAGTTAAAATGAGTTATTTGTATGGGTG
GGTTGGGTTACCTGTTTTCTTTTGGTGGGAAGGTTTTTTATTTGTCAGAGTCCTTAGATTCTGAGTATTATATGGGAAGGCTTTTATTTTAARAATAGGA
CATTTTTGGTTTAAAGTACTTTTCATTTTTTCTGTTTTCTCCTTGATTTATGTAAATGTCTATGTAGATAACAAGACTGCTATTTCTTGGTGTAAAACAA
ATCTTACTTTTTAACTTTTTACAGATCCCTTAGATGTGATAGATGTGGATTGGTCTGGTCTTATGCCAAAGCATCCAAAAGAACCACGAGAGCCTGGGGC
TGCACTCTTAAAATTCACACCTGGAGCTGTTATGCTAAGAGTTGGGATTTCTAAAAAGTTGGCAGGTTCTGAACTCTTTGCCAAAGTCAAAGAAACATGT
CAGAGACTTTTAGAAAAACCCAAAGGTAGTTTCATTTTACTTTAACTATATAATGTCTGTTAACCATTTAAGATGCCATCTGAAGGGGATTCTGATCTGT
TCTTATGTAGCACTTAACACTGTGTAGAAACTATTTTTTGAGAAATCATTTTATAATCATTATTTAACCCTCATGGTCAAAGTTTCTCTTTAAAATTTAT
TTTGAGAAGAAGAGTTATCCCACAGAAAAGTTGGGAAAAGAGTACAATGACCTTTTTGTATGAAAATTACTTATTAACAGGCCAGGCGTGGTGTTGCATG
TCTGTAGTCACAGCTACTCAGGGAGGTTGAGGCAGCAGGATTGCTGGAGCCCAGGAAATTGAGGCTGCAGTGAGCCATGATTGAGCCACCACACTCCAAC
CTAGGTGACAGAGCAAGACCCTGTCTCAAAAAAAAAAAAACAAATTAACCAATAAGTTCTAATATCAAAGTGCTCAGTGGTTTGCCCTTGGCTAAATGAA
GCAGAGCCAGGAAAAACAGACTACATATTTTTCATGTCTAAAGAAATTGGGTATTTTGGCAGCCCTTTCCCCTAGACATCTACCCAAATGCAGGTGTGTA
GGTTGAGTCTTTAACAAAGTGATTAAGAGCTTGGTCTGTAAGGCCGGATGATCTGGATTTCAGTAGGCACACCACTTACTGGCTATTACTTAATCTGTGT
GTTAGTGTCATCATCTGTAAGTCAGGAATAATCATACCACCAACTTCCTATGGTAATTAGGAGCAAATGAGTTATTACAGGCAAAACACTTAGAACAGTT
CCTGGCATATAGTAATACCCAATAAATATTAACTGCTACTTTGAAAATATCCTATCACGCTGATTTTTGACCTCACTGCAGCAATTTTCAGTTATTCCAG
ATTATCTAGCTTATGGATTCTGGTGGTAGGGGTTGTTTGGTTTTGGTTTTCACTGTCTCTGTCTCATCTAGTACCTACCTTAGTTTATTTTGCAACTTAC
TAATACTTTATTAATGGGGAGGGACGAGTAGATGGTAAAAAGAAGGAAAAGGAGGTAAAAGGTGAAAGGAACAACATTAATTAACAATTTTACGTCATGT
CCCTGGACATAAAAGTTTAGTTAGTATTAAATTTTTCACTAATACAAAATAAAAAAATATTGTTTTATGAGTTTTATGAATTCATGCCCTTCCTTTACTC
TATTAGCATAAGCAGTAAATTTTTTTATTTTAATATAGCCCAATAAACCTAGAGTATACATGTACAAAATACATATAATTGTTAACGTGTATTAACCGAA
AAATGACCCAAGACTTAGTTCTTGCCCTACTGTATCTGCCTTGTTTGGTTGGTTCTGTGACCTTAAGCAAATAACTCCTGTGAGCCTCAATTTTATTTGT
AAAGTGATGGAATAAAACCCCTAAAATCTTACCCACCTCTAAAGATATTTGTTTCTGTGACCTTTTGCTAGTAGCATTTCAAGTTAAAATCTGGTTTGAT
TTTGCTACCCATGAAATACAGTTCGGCCCTTACTTATTGATGACTTAACCTAAACAGTGAAAATATGCACTGTAAAGGGTGGGGTGATGTGGCTTAACAA
TCAGACTTCTTCTATTTTTGCTGCTATGGTGGTTGTATTAGAGAACTGATGTATTATCTTGAATAAAGACTTTGTCTTGTTTACTGCCATATCCAAGGTC
TAATTATCTAYCTATATTTTCTGCTATTGCCCAGAAAAGTGCCTGACATACATAGTAGGTTTTCAGTAAATATTTATGAAATAATTGATACTGATTTTTC
TTTTCCATTTTGTCTATTCAAGTGTACCAACATGAAAGAAAACATAATCATATTTCATATATAATTTTTAAAAGAAACAACTAAAGCTTAAAACAGAAAA
TTTATAAGTGTACTGAAATTGAAATTGCTTTTGTCTGTTTTCTAATTGCACTAAGGTTAAGTTCATTTTTTTTAATTTTTAATTTTTAATTTTCATGGGT
ACTTAGTGGGTGTATATATTTGTGGGGTACATGAGATACTTTGATACAGTCATGCAGTGGGTTAATAATCATGTATGGAAAATAGAGTATTCATCCCCTC
AAGCATTTATCCTCTGTATTACAATCCAATTACTGTTTTAGTTATTTTTAAATGTATAATTAAATTGTTATTGACAATAACAGTTTCTACAACAGGGTGT
TATAGTCACCCTGTTGTATTATCAAATACTAAGTCTTATTCGTTCTTTTTTTTTTTGTACCCATTAACCATCCCCCCAACTCCCCACCCCCACATCTCCC
CACCCCCACATCTCCCCACCCCCACTACCCTTCCCAGCCTCTACTAACCATCATTCTACTCTCTGTTGGTTAAGTTCTTTTGAGCTAAACTTTTAAGAAT
GCATTTAGTCTGTTTCTTGAGTAATTTGGTGCTGCTCAGTTCAAAACTTTAAAGAGACTGGAAATTTAGTCATGTTTTATACTCCCTGAGGAGGTTTGCA
GGTATGTGTTTTGTAATCTACTATTTTGAAAGCCAAAAATAAGGATCCCAATAAACAGAAATGTGTGGTAATGAACAATTTTCAAGGAAGGGTGTAGGCT
CAATGCATTTCTTTTATATTATATCTGTAGTGGAATGGTAGTTAATGTTTTYGTTTTTGTTTTTAATCATGTGCATATATGACTATATCATTGGTTGGTA
CAAACATTGGTATATCTGAATCATCTGAAAAAACTGCCCCTTTTTTCCCTTAAGGTATTCTAGTCCAACTATGGTGATTCTCATTCTGCAAATCTGGTGA
TAGAGCCCAGGGAATGTTTTTTAAAAAGCTCCTCAGCTGATCCTGATAGACTCCAGTGTTTGAGAACTAGTTTCGGGCTTTTCTATATATTTACACCTTT
CTTATGTTACACATCTATTGACTAGGTGTGTTATTTAAGACTGGTTTCTTGTTAACTATCTAATCTCAATACTTACACTTTGCAGCCCAGAAAATTGAAA
TCGGCTATGTATTGCAGCTTCATTTTGTTCTCAGTAAAATGTGTCTTTTATTTTTACCCAGGCGTTTACTGCTTTTCTTTGTGGGTTGTAAAAGTAACCT
GCTTGAGCGTGTTGTATGAATAGAGGCAGTACCTGCTGTCTTTCGTACTCTTGACCGACTCTTATTTATTTGGATTACTGACTGGTCCTGTTCTGTTATT
TTGACTTCCTTTGTGTCTATTTTTAACCTAACCTCTTTATATTTTATTCTATCTTTCCTTAATTCTTCTGGGGTTTTTTTGTATGTTCAGTGTTTTCTCC
CCTACCTTGCATGTTGTGACTTAAAACTAAGTGATTTAAATTTAATACATTGTCCCAGGTTTTTATGGTGACCAAATCTAGGACAAAGTTTGCAGGTTAT
CTAACAATCACTTTCTTAACTAATTTTTTTAGAGGTCACAGACTTGAATATTGTTATAACATTTGAATCTTGCTATAATAAAGTCTTGAAATCTAAAACT
CTAAATAGTAGTTGATGGTAAGCAGTATACTGAATTAGAGTTCAATGATTCTTAACTTGAACGTTTCTTTAAAACATCCTTTAAAAACGTTCTTTAAATA
AATTCCCTGGGGCTGGGGGCGGTGACTCATGGCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACTTGAGGTCAGGAGTTCAAGACTAGCC
TGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACCAAAAAAAAATTAGCCAGGTGTGGTGGTGTACGCCTGTAATCCCAGCTACTCGGGAAGCTGA
GGCAGGAGAATCGCTTGAATCCAGGAGGTGGAGGTTTCAGTGAGCCGAGGTCGTGCCATTGCACTCCAGCCTGGGCAACAGAGAGATACTTTATCTCAAA
AAATAAATAAATAAATAAATTTTTTAAAATTAAAAAAAAAATTTCCTGGGCTCTACCTTGAGATCTACATACAGTCTGCTTTTCTTATATTTTAAGTAAA
TTTAAAGTGGCTATCAGAATATTTATTCTTGTTTGAGACTACCAACATAACTACGTGTTGAAGGTGCTTCACAGAGAATATATTGCCTTTAATGTGAAAT
AATTTTCACCAATGTTGCTAACTTTAATAAAGTATAAAATTTGTAGAATATTCAGTTAAGTAGTTGGTAACCCTTTTCTATTTTAGTAAAACTTAATGCA
TGTTTACTTTTTTTTGAAAGATGCAGACAATCTCTTTGAACATGAATTGGGGGCTCTCAATATGGCTGCATTACTACGAAAAGAAGAAAGAGCAAGTCTT
CTTAGTAATCTTGGCCCATGTTGTAAGGCGTTGTGCTTCAGACGGGATTCTGCAATTCGAAAGCAGCTTGTTAAAAATGAGAAGGTACTGTTATTTCCTT
GGAAAAAATACAAAGTGAATAGTGTGAATGGCCTATTTTTCATTTGGTTGTTTTAAATTGAGATTGCAATCTTATGTTTTTATGAGTTTGGTTTCCTAAT
CTTTTATACATGTAAAAAGAAGAATGCCATTAAAATGTATAATATGCTTTATTTTACTTCAACAGTATTAATGAATTTTGTTTTAATAAAGTTTAAAATA
TTCCATTTCTGTTAAACGTTTTTTGTGAAAAGCTTTCAACAAGCAAACGTATTACAAAAATTTATTTAAATTGAAACTCAAGGAAAAAAATTTCTTAGAG
TGATGAGGATATTTATGAGAGTAGTATTTATGAGAATATACAAAGTTGGAAGAAAGGGAAATAAAGCGACTCTATATAAGCATTTGAGAGGAATAAAGAG
ATTGAGAAGTAAGAGGAATAGAAATTAGATTTGGAAGAGATCTGTTAATGAAATCTGGTAAACCCAAGATGAAAACATTTTAGACTCTTTAAAGTTAAGA
AACTGGGATTTTTGGCCGGGCGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGTGAATCACGAGGTCAGGAGATCGAGACCATC
CTGGCTAATACAATGAAACCCTGTCTCTACTAAAAATACAAAAAATTAGCCGGGCATGGTGGCGGGCATCTGTAGTCCCAGCTATTTGGGAGGCTGAGGC
AGGAGAATGGCGTAAACCAGGAGGCGGAGCTTGCAGTGAGCAGAGATCGTGCCACTGCACTCCAGCCTGGGCGACAAAGCAAGACTCCATCTCAAAAAAA
AAAAAAAAAAGAAACTGGGATTTTTATTTGGGGTGGTGAGTGGATGGGTATAGGTAGTACAGACTGAGTATTCCTAATCCGAAGCTTTTGAGCATCGACA
TGACCCTCAAAGGAAATGCTCTTTGGAGAATTTCAGATTTTGGATTCTTAGATAGGGATGCTCAACTGGGTAAGTAAATGTAATGCAAATATTCCAGAAT
CCAAAAAAATTTCCAAATCTGAAACATTTCTGGTCCAAAGCATTTCAGTTGAGGACTACTCAACCTGGATGACAAAAGAGAGTTGGTGTGATTCTTTGCT
TAGAAAGTTTAGAGTAATGATAAAATGGTTAACTTCACTAGCTTTTTACTTGGGGCAGTTAGGAAAACAGAATTATCTTTGACTATATAACATTGCTAAA
GAAAAGATTACTTCATTAAAGAAAAATACTCAGATTTAGGGTAGTGGGTAGGGGGRATTCAATTTTTAAAAAACAGAAGAATGAGTTTATCTCCAAAGAT
TAAAATGGAAACAAATACGAGGAACAGGAGATTTTTAAAACATGTCTTGACTGTATAATCAAGTTTTCCTCACTTAAAAGTCTGGTTCAAGATTACTTTT
GACAGAATCACTACAGTCATTCTCCTTTGCTCCCTGATTTCAGTATGCACTTTTCTTTGTTTTGTATTTTGTAACATTCCCTGGTCCCTTCTCTATGACA
ATAACTTTCCAAAAAATGCTAATGTAACTTTAAGTCACAATAATATAGATACATATTTTAGTATAAGGGAGGTAGTAGTTCTTCAGCATACTGCATGATT
AGCTGTCTTCTAAAGGATTTATTCAGTTTTCGAGCTCACTTTTTATGGGACATTGAAAGATTGGTAAGGAGTATAGAATAGAATGTTTGGCTTACAGAAG
GAAAAACTATGTGAGGAAGGAACTCATGGCACTTACCTTCATAGAACTGAAGGATTGTCAAGTAAAGGTAAGATTGAATTACAGTGTAGCACCATAGAAG
AGCTTTTATTCCATCACATGGAAGAAATAGTGCCATTCAACAACAGAAYGTGCAGTGTGTTTTTTGTTTGTTTTGTCATTGGAAATGATAAAGTAAAAAC
CGGTTGATTACCTGTCAGAAATTGTTGAGAGGATTCCTACTTTAAGCAAGAGGTTAAACTAGGTGCCCTCTAAAAGTTTCTTTTCAAAGATTCATTGAGC
CCAAACACATTTTCTAATTTTGCTTTGAAATCCAATAAAGCTAATTTAATATCCAAAATGAAATACTCTTATAACTTTGATATTTTGGGTAGAGGTTAAC
CTGCCCATCTTTCCTACTAATAATGTACATCTTTTTTAAAGTTTGTTTTTGTTTTCTTCAAATAGGGCACCATAAAACAAGCTTACACGAGTGCTCCAAT
GGTAGACAATGAATTACTTCGATTGAGTCTTCGGTTATTTAAGCGGAAGACTACTTGCCATGCTCCAGGACATGAAAAGACTGAAGATAATAAACTTTCA
CAGTCCAGTATCCAACAGGAACTGTGTGTGTCTTAAGACCGAAGTTCAATATGGTATTTTTGGTACTGTCTTCCTTCAGCAGTGCATATTCTTTTGCAAA
GTTCTTTGGTTTGACAAGCATTAGTGACAAAGGCAGAAAAGATTTATCAGCCATGCTAAAAGAGTGAAGAATTTTGATCTTTAGAGACACTAGTTTTGGC
CAACTTAAGATTTTACGTTAATTTTTACATAGTATTTGACACTCATGCAAAATAATGTGAAAACATCTAGATTTAGTAGTTTATTCTGCGCCTTTTGTTA
AAACTGAAGATTTTGGAAAATGGTTGTCACTGCTCTTCCAGCCTATGAATATTTTTGTGAAATGGAACCATGGATTTATGTCTGGATCATCCATACAGAA
CCAACAATTTTATTCAAAAACAATGTGTTCATCAAAGTAATTGCTCACATTGTGCAGTACTATGTTGTACAGACCACGTGAAAGGGAATGCTGGTCTAGC
TGGCGTGGTATGTTTATAGGCGAATTTCAGCAGMAGGAAGCCAAAATAGTTTTTTCCTTTTGAAAGTTTTTTAAAAATTATTTCATGGGTCTTTTTTTTA
ATTAATATGTGTGCATTGTTACAATGTATGTTGGATGTCTTTTGACCCTAAATGCTTTTTTTGTTATCAGAGATTGTGTACTATTTTTATTTTTAATAAA
TGTATCTTCCCTTTCCTTGTTTTAGATTTACTTTGCTCTTCGTTAATCTTATTCCTGATGATCTAGAACATTAGTCATCAACATTACATGTTTCATGCTT
CAGATATTTTACTGCTTGTGTCCTTATTGTTGGACAGCTTTAAACAGAGTTGATGTACTTCAAATATAGCTCATTGATACTTAAGGCATCTTCTTGGAAT
GTGGCTTTTGAAGAAAAAAATTACTCAAAGCAAATCAAGAGTTAACAAACCTAACGTAACCTGAGGTTTAATATTCTACTATCATATTTTTTAGAGCTAT
AACTTTTGATTATATTAAACTGCCTCCAGCTGTACTATGTAAAACAGATTTACTTTTAAAAATTACAGTATACCTGCTTTGTTCTATATGTATATGTTTA
ACTCATGAAGTGGACTCTTAGAAGGATTTGAAATGGACTCTGGCCACAGAATTTGTGAGCAGACAGTAGTAGTGATAATAATAAAAGAAGGCAATCAAAA
TTTAATTTTATCATGCCCTCTCACAGGTTTGTGTTATAATTGTAAGCCCATATTACTTGTGTTAGTAGTTTTGTCTCTATAGGTAACATAATGACAGTGG
TGTAAAGTTTCTGTTCAAGAAACATRTGTTGTAAAGTTACTTTATACAAGATACCTGCCAAAGGAAATGGTCTTACTTTCAAATGACTTTGAAAGCATGT
ATAATTGCAAACAGAGCAGGAGAAGACTTTAATCAGAATTTCCTTGTGTCCTTTTCCTTTACTAAGTGTTTTGAATAAAGAAAAAAAAAATGTATGACCT
CAGAGAATGAATACCCTTCAGGAAGCCACTTCCTGATTTTAGTGGATAATATTGTTCTCTGTAGCACAAAGATTTAAAGTCCTAGAATTTCTAATCCTAG
TTCTCAGAATTGTAGAATATGACAAAAATAATGGTTTCCCCATTTGTCCACTGACTTCAGGGATATTTCACAAGTTATTTATTTATAGAATGAAAACTAT
GTAGTTAAATCTGTCATTCAGTTAAACCTGTTGTCTTTCAGTTTGAAATCTTTTTGTTATGTATGTTGCAAAAGAAAATTTAGAACTATTCCTTTGTTCA
CTCAGTCACAGCATTCAGAGCTTTATGTTTCCAGTGGAAATGTACTGTTCAGTCTCAATTTCTTTTAATTCAACCATTCTCAGTATTAGTAACATATACC
TATAAAATTTTTCTAAAGCAAAATTTTTGATTGAATTTCTCATAAAAGCTCTTGGACCATAATTAAAGTCTCAGTTAAACTGGTATTCCCGAAAAACAAT
CTTCCAGTCTATAAATTGTTTGCTAGTACAATTAAAAGGTCATCTATCTCATAACTGACGGCTCAGGTCTGTCCAGTTGCCATAATTGCACAACTGGATT
CCAGCTGCTGGTAATAAGGAATTGTGTAGATAGATAAAGGGCAAGAGTATGTCTGCAATCCAAAATAAATGAGAGTTAACACATAATTAGCCTTTTGATT
ATTTTGGCAGCTATCCTCACCATTTAGTAAAGGGTATACTAACAATACCCAACTTTATTTAACAAAGTTTTGTAAGCATACCTAAGTAGTAACTTGATAT
GCTGAAAAATCTGACCTGTCACTTCGCTTCACTCTGACCAGTAATTGCAGATTGTCGTCACCATCCTAGCCTATGACTACATTAGGATTTTATGACTTAT
TAACTTGAAAATCTGTTCTGTAAGTGGCATTGGTAGAATCTCCCACTTTGCTCCTCACTGTCCAATTGTGTAAAGATTAAGGTACATACTATTGTTGGTG
ATGCTTTTACACCTCAACTTGCTATTTTAAAAGGTTATATGAACCCCTCCCACTTTTAAGGATATTCCCTTTTACTGATTTTCCTAGCTAAAATTATATA
GCCATCTTTCTAAATATTGTATTTAAATCTGATCTAGGACTTGCCTTATTTTATCATTTTTCTTTAATAATCTCCAATAAACTTTCTTTATTCATTAATT
TTGTTGATCTTTCCATTTCAGTATTTTGAATGACACTCTGGGGAATCCAAGTTTAAATGGTGAAATATTTTTATTAAATAACTTTCTACATGCATCTGTA
AACATACTTTCTCAACTTTATTGAGCTGTTTCTTTCATATTTTTTTTTCTTTTTTAAATTATTTTTATAGAGATGGGGTCTTGCCTGGGCTGGTCTCAAA
CTCCTGGCTTCAAAGCCATCCTCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCATGCCCAGCCCTTTTTTTTTTCAGAGGCAGGG
TCTTTCTCTGACCCCCAGGCTGGAGTGCAGTGGCAGGATCATAGCTCACTGCAGCCTCCAACTCTAGGGCTCAAGGGATCCTCCCACCTCAGCCTCCCAA
GTAGCTGGGACTACAGGTGTGCATCATCATAACTGGCTAATTTTAAAAAGAAAAATTAAAAAAACACTTTGGTAGGCCAAGGCAGGAGGATTGCTTGAGC
CCAAGAGTTCAAAACCAGCCTGGGCAACAAAGTGGGACACCATCTCTGCAAAAAATACAAAAATTAGCCAAGTGTGGTGGCACGTGCCTGTAGTCTTAGC
TACTCAGGGAGGCTGAGGCAGGAGGATTGCTTGAGCCCAAGAGGTTGAGGCTGCAGCGAGCTGTGATGGCGCCACTCCATTCTAGCCTAGGCAACAGTAT
GATACCCTGTCTCAAGTTAAAAAAAAAAAAAAAAAGGTGGGGGGGGGATCTTACTATGTTGCCCAGATGATCTCAAACTCCCAGCTTCAGGCAGTCCTTC
CATCTCAGTCTCCCAAAGTGTTCGGATTACAGCCGATAGCCACCACCTGGTTATACTGTGATAGAAGTACAATTGGAGTAGCTTAGGTAAAGATGGGAAG
TAAATAGACATGAATAAAATGTAAATTGCAGTGATTGCAATTAAAGAAAAAACCAAATGACTGAGATGAGAAATAAGTGTAGCGATTGGGAGTTGGGTAC
TACTTCAGATTATCAAGAAGGTCTTACGTATGAGATGAGTCCTAAAAAATGAAAAGAAGCTAGCAAAGAGCAAAAGGGGAAGGAGTATTTCAGGCAGAGG
GATGGGGATATGCAAAGGCCTAGGAAAAGAGCTTTGGTGAATTCCAAGACGAAAATACTACTATGGCTCACCACTGGGTGGAGGGGATGGGGGTTGCTAG
AGAGAAGGTCTAGAACAGTGCTGTTCAACAGAATATTCTACAATGATGGAAGTGTTCTGTAAATGCTGCCCCCCAAAAAATGGCCAATACAAGCTTCATG
TGGCTTGTATTAAACACTTGAAATATAGCCAGTGTGACTGAGAAACTGAGTTTTAAAATTTTGTCATTACTTTTAAATAGCTGTATGTGGCTAATGGCTA
CCATTTGGGGTGGTGTAGGTATATATCTTGGCAAAGCCTTGTGGAATATGGAAGTGTTTCCCACAGTAGAGTATAAAACAAGTTCTGTATGTTCTAGTTA
CTTTGCATGGCAAGTGGTACTGATTGTTTTAGTTTACTGTGGCAATATAACATTTCTTTTTGGAATAAATGTTAATAACTAAACAAATTAAGTAGTCAGT
GTGGAAATAGGACAGAAATTACTGGTGCTCAGATAATTGAAGTTTAGAATATGTAGGCTATGTATGAAGTTGGAATTTCATTTGAAAGCAAAAGTAATAA
GTAATAATAAAAGGATAAAAGGCATTCAATCACGTCAAAACAGGCAAGCAGAAGAGAAAAAGCAATTTAGAACAGGTGAGACAAATAGAAAACACACGGA
TGTAAGCCCAAATGTATTCACAAATTATGTTAAATGAAAACATTCAGTATCCAATTAAAAGACAAAGATTATCAAACCACAGAAAAACAACTACATGTTG
CTTATGAGACTGACCTAAAACATAGGGAGCTTTAAAAGTAAAAGGATAGAAAAAAGACACCATGTAAACATCAAGAGAAAACGATGTTAATGTTAATCAG
TTATCCCTATGTATTTCATATGTATTGCTGTAATGCTTGCCAAATGCCGGTTTTCTAATTCCACTGTTTTTTCTACACTTACTGGAATTCCCTTATCCAT
TTATTTCTCCTTTATTCACTTATTTATGTCAGTATAAACTCATAGATTCCTATTTTATTTCATGGGTTATAACTCATTATTGCTCAAAATATCCATGTTT
TAGACTTGTTAATTAACTTCCGTGTGTATGTGTGACAATTCCAATATTTAATGCCAATTCAGAATCTGTTTCTATTGTGTGTTGTTTCTGTTGGCTCTTT
TTCATGTTTTCTTCCCTACTCTTAGGTCTGGTTATCTTTCACTATATGCCGAAATCGTGTTTGCAAAGTTGTTTGTAGAAAAAAAGTGGAGGTCTAAGAT
GCTGTTGTCCAGACACAAGTTTTTTTTGCTTCTGGGGTCACTGTCAGACTGAAAACATCTTAATCCTGTTTTAGGAACTAAGATGATCTGAATCCCCAGA
TGACTCGCATCTTGGCTGCAGTATATGCATGGGCACTTGTAGCTCACTGTCATTCCCAGGGTTCAGACTTTGAGGTCTAGATCCAAAGTACAAGGGTTCA
TAAGAGCCTCCATTCTTGGTGGATCCCATGTGCCAGTGTTTTCTGCCTTCCCCAAGAGGACATCATAACTTATGATTGGTTCCTCAGTCTGTTTTCCAGA
TTTTTAAATGGCATCTGGGCAAAATTGACCCCAAATGTCAGGTTCACCCCTGCATATCTATCTCCTGAATTTTGGCCCAAGATTTTTTCATCATCTTACT
GGCTTTTCAGTGTTCAAGCAGAATTTTTAAAATAAATGTTTTGTCCAGCTTCTCCAGTTCTTAGTGTGAAGTTGTTCTGAATTATCTCATCTCCCATTAC
CAGAACAGTTTAACTTTTTTCTTTACTTCCATTTCATTGCATTTCTCCATTTTATTACCTGTACTCATTTGGTTTCCCACAGTGTGTATTTTTCTTTTTG
TATAACTCCTTTCCTAAGCTCATATTTTTTCTTTCTGTGATTTCATCATCTCTTCCTTCTTGTTTCTTGTTTTGTGGACTTTCTTCATGGAGGCAGTTGA
ATCACTAGATTTTAATATTCATGTTGAATTTTTTTTTTTCTTGAGATGATGTCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATAATCATGATTCACTACA
ACCTCCACCTCCCAGGTTCAGGAGTCTTCCCACTTCAGCTTTCCAGGTAGCTGGGAACACAGGCACATGCCACCACACCCAGCTAATTTTTTATTTTAAC
TCTTTTGTGCCAACAAGGTCTCCCTATGTTGCCCAGGCTGGTCTCAAACTCCTGACCTCAAGCAATCCTTGACTCGTCCTCCCAAAATGTTAGGATTACA
GGTGTGAGCCACCATGCCCAGCCTATTCATGGTGAAATGTTGCAGAATGATATCCATCTGTTCTGCAAAATTTTTCAGATGGTGAATATTATCTGTTAAT
TTTTGCTAATTTCTCTAGTTTTTTTAATATAGTATCTTTGTATCAGTCTTACGGCAGTTCCTTTTTCTTACTCAATACTGAATGACTTGTAATATACCAT
TGTTTGCAGGAAATCAGCCATGGTAGCCTTCCAGACGTCACACACATGCTTCATCTTTTCTGCTGATGTCATAGAAGCATGCTGGCTCATGTAAATAGGG
CTCCTTGTGATTGCTTGTGTAGGTGGCCCTTCCTCCTCTCCTCCCCTGAACCAAACCAGGTCCAGGAGGACCTTCACAGCCAATCTCGCTCTTCTCTGCT
CCTAACTGATTGTTCCAAACAAGGGACATAGCTTTTGCCTTTCAAGGGGAACCCTCACATTCAAAAGCGGTATTTTTTGCTGAGATTTGCTACTGCCTGG
TCCCTCTCAACTCTTACTGCACTTCCTCCTTTCACTGTCTCCTGACACTACTTCTGCTAAATCTCAGCTGTTCTGGCAGCCCTTATGTCTATTTTGACAT
CTGAAGATTATATCTTATCTCCTAGATTCACTGGAAATAAACTTTATGGAGATTTTTACAGTCTTTTTGTTGCTTTTATACAATTTATAGAAGAAAAACA
GATTTATGCAGCATGTCCCTACTAAATTTCTTTCCAAGCTAAAATTCAATCCAAAAGTCACTTTAATCCTCAGCTTGGATAGTTCCATCGGGATGCATTC
TTAGGTGAACACCTATAATGGATTAATACTTGGGATTATGGTATCAATATAAACCAAACACATAAATGTGATTTACAAAATAAAGGTTATTTGATGTTAT
CCTGGTAGGTAGGAATCATATTCTCTCTTTAGTCACATTTCCTTTACAATAAATATATCACGTGGCTACCTCTAAAAGCAAAGGAGACTGGCATATTGAG
CATTTCACTTTTCTAGCCCCCTTACTAGAAATGACCAGAAAGGATGAGGGTTGGGTTATAGGTGTTAGCTTTGCCAACCAACCAATAGTGTTTTCCATAA
CTTCAGGAGAAACATAAGTAAGGAGAAATAATGGTACCCGTTAAGGCCTGTTGATGCCAACTTCATAAAACTAAATAGTCCAGAACCCAGAACAAGTTCT
GATTCTAACTCTGCCACAAACTGGCAGAATGACCCTGAGCAAGCCATTGTACTTTGGCTTCCTCATCTACCAAGTAAGCAGGTGGTAGAGAATCCTAGGA
TTTAAACAGAAAGCTGACATACGATAGCTCAGAGACATGTCAAATGTGTGTTCGTTTCCTTGTCAGGAGCTGAGAGCATCGTTTAGAGTATAGGGTAGGA
AAATGTCTCATTGTTTAGTAGCAAGAGGAATAGGACAGTATTTTGACTAAGGAAATCCTCTAATGCTTCTCAAACCCTTCTGTATCACAGACAAATTTTA
ATGCAGGGTAGGATTTCTAGGTCAGGATTTTCTCCTGATGCTAACACAGAGTGTATATGTGTGTGTATAAAATTATGGGCCCCTCTCCTTGAATGTGGAC
TGAACTTGACCAACTTCTAATGAGTGGAATGTGGTAAAGGCAAAAGTATGTGGCTTGAGAGTGTAGGTGGTGGCTTGTTTCTTGGAATATTCATTCTGGG
GAATGCTCAGATGCTAGGTCATGAAAACATTTCAAGCCACCCTGAGGAGTTCACGTAGTGAGAGGCCAAGGCCTCCTGCCAACAGTCGTGTGAATTGGCT
GTCTTGGATCCTCCAAGCCCTAGTTAGGCCTTCTTTAGCTTAGTTTTTTGTTCTTTTTCTTTTTTTTTTTAACTGGATTTGTTCCTTTATCAGAAAAGGT
AAGGAATATGACTTTTTTTTTTTTTTTGAGATGGAATCTTGCTCTGTTGCCCAGGCTGGAGTGCAGCGACACTATCTCGGCTCACTGCAACCTCTGCCTC
CTGGGTTCAAGAGATTCTCCCACCTCAGCCTCCCAAGTAGCCGGGACTACAGGTGCCCACCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGG
GGTTTCACCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGATGATCTGTCCGCTTTGGCCTCTCAAAGTGCTGGGATTACAGGCGTGAGCCACTG
CACCCAGCCGGGATATGACATTTAAATCACACTTTTTTTTAAACGTTTGTCTGTTTATGTAAACGCTTTAAAATAAACTGAATCTGAAGGATAGCTGAGA
CCTGAAGACTCCTGGACTATAACTTGAGCATTTCCCATTGTGCATCCTATATAAACTCTTAACTGGCAGCAGAATTCTATATCCAAGAAAACTGAGTCAA
ATAACAAAAGTCTACTCAAATGAGATAAACATGAAAATTGCTGTATAAACTGTGAAGTACTATATAATGCAAGATATCTGTGGCCGTCATTTCCATCTTA
CCAGTTCTTTGTAGAGAAGTAGTATGGGCTGAATCGTGCCCCCCAAATTCATTTGTTAAAGTCCTAACCCTTATCTCAGAAGTTAACTGTATTTGGAGAC


SNP Information

Context             (SEQ ID NO:6361):
TGGCAATATTGCTTTCCTACAATTATATGTTCCAGTTATAGTAAAGAGATACTAGTAAAAACAAAAAAATCTCTTTTTTTGCCCCCTAGAATTTTATAAA
Y
TGTGTTTGCTTGTCCAATTTAGGAAGCGCTATAGAAATGAAGGGAGTCCCAGCCCTAGACAGTCCCCGAAGCGCCGGCGTGAACATTCTCCGGACAGTGA
Celera SNP ID:            hCV25752521
SNP Position Genomic:     88279
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:6362):
CATTAAAGGATGGGTTAATTTAAGGGTTGTCTTTAACATTTTTTATTCTGAGATTGAAACTTTGGAAATTACAGTTGACCCTTGAACAATGAAGGGGTAG
R
GGGTCAACCCCTGTGCAGTTGAAAATCCTTGTATAACTTTTGACTCCCCCCAAACTTAGCTACTAATAGCCCACTGTTAACTGGAAACTTTACTGATAAC
Celera SNP ID:            hCV29428760
SNP Position Genomic:     64399
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6363):
ACTCCCAGAAAAAAGAAGATACAGCATTCAGTGACTGGTCTGATGAGGATGTCCCTGACCGTACAGAGGTGACAGAAGCAGAGCATACTGCCACCGCCAC
R
ACTCCTGGTAGTACCCCTTCTCCTCTATCTTCTCTTCTTCCTCCTCCACCGCCTGTGGCTACTGCCACTGCTACAACTGTGCCTGCAACTCTTGCTGCCA
Celera SNP ID:            hCV27490877
SNP Position Genomic:     89487
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6364):
ATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCACCACCACGCCCAGCTAATTTTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCAC
Y
GTGTTAGTCAGGATGGTGTCAATCTCCTTACCTTGTGATCCTCCCATCTCAGCCTCCCAAAGTGCTGGGATGACAGGTGTGAGCCACCGCGCCCGGCCTG
Celera SNP ID:            hCV29428761
SNP Position Genomic:     60298
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6365):
CTACAGATAAATCTTTTGCGAAAGGAAGAGTCAATTGGTGTGACAAACTTCATCATTGTCTTCTTTTAAGAAATTGCCACAGCCTCCCCAGCCTTTTGCA
R
CCTTCATCCTCGTCAGTCAACAGCCATCAGCATCAAGATAATACCCTTACCCACAAAACGGTTAAAACTCTCTGAAGGCTTAGATGGGTGTTAGCATTTC
Celera SNP ID:            hCV29428762
SNP Position Genomic:     59958
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6366):
GAAAGCAGAGTCCTCCAAGACATCGCTCTCCAATGCGAGAGAAAGGGAGACATGATCATGAACGAACTTCACAGTCTCATGATCGACGCCACGAAAGGAG
R
GAAGGTGTGTACTGTACTTTGATTTTTTTAATTGAAAAATTGAACATCCAGCTTTATTGTTGTACTAAGAGATGGAGAAAGACTTTGCTATGTTAAGTCT
Celera SNP ID:            hCV25760365
SNP Position Genomic:     69973
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,2|G,38)   total(A,2|G,74)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6367):
TACCCAGTAGTGGGATTGCTGGATCAAATATCTCCTTTTAGTTCTTTAGGGACTCTCCATACTGTTTTTCATAGAGGTTGTACTTATTTACATACCCACC
R
GCAGTGAATAAGCATTCCCTTTTCACCATGTCTATGCTAACATCTCCTGTTTTTTTTACTTTTTAATGGCCATTTTTGTAGGAGTAAGGTGGCATCTCAT
Celera SNP ID:            hCV198525
SNP Position Genomic:     86719
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,4)   total(G,1|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6368):
TCCCAAGTAGCTGGGCTTACAGGCTTGCGTTGCCACACTCAGCTAATTTTTAAAATCTTTTTGTAGAGATGAGGTCTCGCTATGTTGTCCAGACTGATCT
Y
GAACTCCTGGACTCAAGTAATCCTGCCTTGGCCTCCCAAAACATTGTAGTTATAGGCTTGAGCCACCATGCCCAGCCGACTGCAGTTTTGAAAATTCTAC
Celera SNP ID:            hCV29428763
SNP Position Genomic:     59724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6369):
ATGGAAATGACAGAGACATCTAACATGGAGGAGAGATCCAAGAGATACAGTAACTGTGTAATAAAGAGAACTGCAGAGACTTGGGTCATAAGGAAAAGTT
W
TGAAATGAAAATAGAAGAAATTGAGTAAAAAGTTTGAAGTTTCAGATTGAAACAGTCCATTTAGTGCTGGAAAAGATTTTTTGAAAATACCTGGATTTAG
Celera SNP ID:            hCV29428764
SNP Position Genomic:     53483
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6370):
TCTATAACATCCTAAGATTCCTTTTTATTACCCCTTTATAGCCACAACCCTCCCCTGGCCCCTGGCCCCAACCCCTGGCAACCTCTTATGTGTCCTTTGT
Y
TTGTAATTGTCTCGTAAATGGAATAATGCTATATGTATCCTGTTGAGATTGGCTTTTTCACTCAGCATAATTTTTTCTTGGGGTTCATCCAAGTTGTTGC
Celera SNP ID:            hCV8700517
SNP Position Genomic:     78051
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6371):
TCCTTTGGCCAGGTCTTGGTCACTTGGCCATGCTTAATTTCAAGAAAGTGTAGATAGTATGGTTTACCACTGTGCTCAGAAGAAAAGTTTGGTAAACCCC
Y
TGCTAGTCTCTGTCACAGGTGATAATGTAAAAATAGTTTGTGTCAAGAATTCCTTTGTTGTTTAATCATGAAATTTTAAAAGATAATTTTGATACAGATG
Celera SNP ID:            hCV29428765
SNP Position Genomic:     51609
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6372):
ACTCATCTATAACATCCTAAGATTCCTTTTTATTACCCCTTTATAGCCACAACCCTCCCCTGGCCCCTGGCCCCAACCCCTGGCAACCTCTTATGTGTCC
Y
TTGTCTTGTAATTGTCTCGTAAATGGAATAATGCTATATGTATCCTGTTGAGATTGGCTTTTTCACTCAGCATAATTTTTTCTTGGGGTTCATCCAAGTT
Celera SNP ID:            hCV8700518
SNP Position Genomic:     78046
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6373):
CTAACCCTATTTCAGACTCTACTTAACTTTTTGCCTAGATTATTATATCACTAACTATATTGACTTTATGTAGTTTCTACCCACCACCCACACAGGTGAA
Y
ATTTTCATTCAGCTACCTCAACCCATTTATTTTGTAGATGCTGTCAGAGAAATCTTAAAAGGACAATTCCAATTAATTTATTATACCATTGAAAAACTCA
Celera SNP ID:            hCV29428766
SNP Position Genomic:     49360
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6374):
GAGTTTCTGTCTTTGTTTTTGCCAGATATTCCTAAATTATCACAGCCCCAGTACTGTTTCTCTACTCCTAACCCTCACTGCTCAAAAAAAGCTTTTTTTT
W
AATTTCATTTTGTTTTGAAGTAATTAGGAATTCACAGGAGATTGCAAATAAATGTACAGGGAAACTTTGTTTATCCTTACCCCAACTTCTCCAGTGTTAA
Celera SNP ID:            hCV8700519
SNP Position Genomic:     77680
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6375):
TTTAAAAGGTGAGTGTAAATGTCTTTAATAAGAATTTCTTATGCTTTTCCTTGATTGAAACGCACAGTTTTTGACCATTGTGTATCTCTGTGATTTGAAA
R
TATCTGTTGAGGGAATATTGAAGCATTGAGTTAAGTGCCCCACTCCCTGGATAGTGAGACTAAACTGGTTTCATAGACTTACCTTCTGCATTGTTATTCT
Celera SNP ID:            hCV8700551
SNP Position Genomic:     40909
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6376):
TATTTTATTTTAATTAAAGTCCATACCCTAATTTTATCTTAAAAAAAATGAACTAAAAATATCTTCTACCTAAGATTTAATCAGTTAACAAGCCCTGTCT
R
TTTGAACCTGTAATGAAACTCATATTTATCTCCCTCCTTCTAGTTCCTAGAAACTAACCCTATTTCAGACTCTACTTAACTTTTTGCCTAGATTATTATA
Celera SNP ID:            hCV29428767
SNP Position Genomic:     49206
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6377):
ATGAAATCTGACTTACCTGTTTTTGTTTTTTTTGTTATTATTGTTGCTTGTTTGTGCTTTTGGTGTCATCTAAGAAACTATTGTTTAGTCCAGGGTCACA
R
AGATTTACGTCTATGTTGTCTTTGAAGCATTTTCTGGTTTTAGCTCTTATATTTAAGCCTTTGATACATTTTGAGCTAATTTTTATTTATGATGTGGTAA
Celera SNP ID:            hCV8700552
SNP Position Genomic:     18250
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6378):
TTTTGGCTTCTATTTATCACTCTTCAGTTTTGTATCTTCCTGTTCAAGCCCTTCAGTCTTACACGGAGGCTCCTTGTATTCTGTGTGCCCCTTAAATGTT
K
ATTCCCAAGGATTTGCACTTAACTATATTCTTTTAAAAAATCTAAAGTGATTTTATTTCAAGAGCCTTTTATATAGGAAATTCTTTTAAAAGGTGAGTGT
Celera SNP ID:            hCV29428768
SNP Position Genomic:     40724
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6379):
CACCTCGTGGTAAAGGTTATAGCAGCAATTATAGAAGGTAAACTGAGAACTTTGTATTGTTCATGTACTATTAGAAGATGGCTTTTGTAATTTATCTAGT
R
TAAAAATCTGAAATACAACCATATATTTGGTCAGATTTTCTATATTGGTGGTAGTCTTACCAGTAATTGAAGATCGACAGGATCTTTTTGTTATTTTCAA
Celera SNP ID:            hCV8700553
SNP Position Genomic:     13875
SNP Source:               dbSNP
Population(Allele,Count): (G,-|A,-)   Caucasian(A,25|G,59)   African-American(A,3|G,81)   Asians(A,8|G,76)   total(G,216|A,36)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6380):
TCATGCTATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTTTTTTTTTTTTTGTATTTTTAGTAA
S
ATGGAGTTTTGCCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCACGAGCCAC
Celera SNP ID:            hCV27334220
SNP Position Genomic:     12278
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|C,3)   total(G,3|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6381):
TCTGCCTCCTGGGTTCATGCTATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTTTTTTTTTTTT
T
GTATTTTTAGTAACATGGAGTTTTGCCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTA
Celera SNP ID:            hCV27334221
SNP Position Genomic:     12264
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,3)   total(T,3|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6382):
CTCTGCCTCCTGGGTTCATGCTATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTTTTTTTTTTT
T
TGTATTTTTAGTAACATGGAGTTTTGCCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATT
Celera SNP ID:            hCV27334222
SNP Position Genomic:     12263
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,3)   total(-,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6383):
TGAAGATACCTTATTTTTAGTATCACCTTTTTAATCTTAGAAATTCAGAGTATAGGGATTTATCCTACTAGTTAGTACATTCATGTAGTTTTAATTGCCT
R
ATTGTTTGAAATTTCCCTAATATTATGCCGCTACTCATCCGGATTAAAGTGTTATGCTTTCACTTATGCTTCCAGTAGATGAGACCTGGAAAAGATAATT
Celera SNP ID:            hCV27334224
SNP Position Genomic:     8273
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,9)   total(G,9|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6384):
TACTACATAATGACATTTGCATTGTTGCCAGCAGCACACAGAGCCAAATTACTTTATCTTTGCTTTGTTAGTATGTGTTTTCAAACTTGTCTTTTTGCCA
R
TTTCATAGAAAAAAATGTTATTTCATCATAGTTTTAATTATGTTTCTCTTGTGAGTGAGGTTGGGCATCTTCATGTATTTACAGGTAATTTACTGTATCC
Celera SNP ID:            hCV9231032
SNP Position Genomic:     26263
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,7)   total(G,4|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6385):
AACCATGACATTCAATTACCTTATTAGATTGTCATAAAGATTAAGTGAGTTAATATATGACAAGCACTTAAAATAGTGTCACACACATAGTAGCAATATA
Y
GTTACTTGCTATTATTAATGTCATTACTATTATTATGTTAGTGGTTTTGTTCTCTTCATTTCTGTATCCTCATTGCCAAAAATAATGCTTGGAGCTTAGT
Celera SNP ID:            hCV9230990
SNP Position Genomic:     66382
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:6386):
AGGCATAAATGGATTAAGTTGACACATAAAATTAACCATGACATTCAATTACCTTATTAGATTGTCATAAAGATTAAGTGAGTTAATATATGACAAGCAC
Y
TAAAATAGTGTCACACACATAGTAGCAATATACGTTACTTGCTATTATTAATGTCATTACTATTATTATGTTAGTGGTTTTGTTCTCTTCATTTCTGTAT
Celera SNP ID:            hCV9230994
SNP Position Genomic:     66349
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6387):
GAACTGAAAAGTGAGAGGCTTATATGAGGTAGTCAGTAGGAAATAGTTGCATTTAATCAGTAGAGGTTTTCAGATTAAAATGGAATTGTATTTTCATTTT
R
TATTGCAGAGACTTGTTATTTTATGGAATTTGAGCACAAAAGATAAATTAGCTTTGAAAGCAAAATTAGACCCCTAAATATAGTCAGGAAGAATATTCAA
Celera SNP ID:            hCV9231037
SNP Position Genomic:     21205
SNP Source:               Celera
Population(Allele,Count): no_pop(A,4|G,6)   total(G,6|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6388):
CCTTGTATAACTTTTGACTCCCCCCAAACTTAGCTACTAATAGCCCACTGTTAACTGGAAACTTTACTGATAACATAAACGTTTGATTAACACATATTTT
K
TATGTTATTTGTATTATATACTGTATTGTTATTACAAAGTAAGCTAGAGAAAAGAAAATGTTAAGAAAATCATAAGGAAGAGAAAATATATTTACTATTC
Celera SNP ID:            hCV9230995
SNP Position Genomic:     64526
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|G,6)   total(G,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6389):
TTCTTTTTAATGTTACAACAAGGAATTGTAAAATTACTTAAGTGCTTGCATCATGTTTCTGTTGGAAAGGGCTGGTCTAGGTGATGTGAATCAGACAATA
Y
GGTGGAACTGAAAAGTGAGAGGCTTATATGAGGTAGTCAGTAGGAAATAGTTGCATTTAATCAGTAGAGGTTTTCAGATTAAAATGGAATTGTATTTTCA
Celera SNP ID:            hCV9231039
SNP Position Genomic:     21100
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,5)   total(C,4|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6390):
CTTCTCCTCGTCGAAAAAGAACTCCTTCACCATCTTATCAGCGGACACTAACTCCACCTTTACGACGCTCTGCCTCTCCTTATCCTTCACATTCTTTGTC
R
TCTCCCCAGAGAAAGCAGAGTCCTCCAAGACATCGCTCTCCAATGCGAGAGAAAGGGAGACATGATCATGAACGAACTTCACAGTCTCATGATCGACGCC
Celera SNP ID:            hCV25759505
SNP Position Genomic:     69862
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:6391):
TGGAATAGAGAGGGGTAACATAGAGACAACATCTGAAGATGGTCAAGTATTTTCACCAAAAAAAGGACAGAAAAAGAAAAGCATTGAAAAAAAACGTAAA
M
AATCCAAAGGTGATTCTGATATTTCTGATGAAGAAGCAGCCCAGCAAAGTAAGAAGAAAAGAGGCCCACGGACTCCCCCTATAACAACTAAAGAGGAATT
Celera SNP ID:            hCV25756744
SNP Position Genomic:     89248
SNP Source:               Applera
Population(Allele,Count): african american(A,36)   caucasian(A,37|C,1)   total(A,73|C,1)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(A,20)   caucasian(A,39|C,1)   total(A,59|C,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6392):
ATAATAAAAGAAGGCAATCAAAATTTAATTTTATCATGCCCTCTCACAGGTTTGTGTTATAATTGTAAGCCCATATTACTTGTGTTAGTAGTTTTGTCTC
T
ATAGGTAACATAATGACAGTGGTGTAAAGTTTCTGTTCAAGAAACATATGTTGTAAAGTTACTTTATACAAGATACCTGCCAAAGGAAATGGTCTTACTT
Celera SNP ID:            hCV27334198
SNP Position Genomic:     102878
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|T,6)   total(T,6|-,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:6393):
AATAATAAAAGAAGGCAATCAAAATTTAATTTTATCATGCCCTCTCACAGGTTTGTGTTATAATTGTAAGCCCATATTACTTGTGTTAGTAGTTTTGTCT
C
TATAGGTAACATAATGACAGTGGTGTAAAGTTTCTGTTCAAGAAACATATGTTGTAAAGTTACTTTATACAAGATACCTGCCAAAGGAAATGGTCTTACT
Celera SNP ID:            hCV27334199
SNP Position Genomic:     102877
SNP Source:               Celera
Population(Allele,Count): no_pop(-,4|C,6)   total(C,6|-,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:6394):
GCAACTGCCTCTATGGAAACACATGTAGATTCGTACATGGCCCTTCACCTCGTGGTAAAGGTTATAGCAGCAATTATAGAAGGTAAACTGAGAACTTTGT
R
TTGTTCATGTACTATTAGAAGATGGCTTTTGTAATTTATCTAGTGTAAAAATCTGAAATACAACCATATATTTGGTCAGATTTTCTATATTGGTGGTAGT
Celera SNP ID:            hCV27473937
SNP Position Genomic:     13830
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(G,407|A,1076)   total(G,407|A,1076) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6395):
AATCTGCCCACGCATATAATGTTCAAGAAATAAATGTGCATATGAGAGTGGAAATGAAAGTAATATAAACATCTAAAATCATGTATTACATTTCTGAAAT
W
CAAAAAACTTCAAACATTTTTCCTAAGACACAGACATTTGGGAGCAAAACCTGGTCTTAATTGAAATAAATTTAATTACAGTTTTTATACAAGTGGTGAA
Celera SNP ID:            hCV28003565
SNP Position Genomic:     35829
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6396):
CTCTAACTGTAATCCATTCCCACTATTAGTATTTTTATGCCCAGATGTCCCTTCCTTAGCTTGTGGGTGATCTTTGTATTGGATCCTGAGCCTTTTTTTT
W
AATTTACTTTATTGAAATATAATTTTCAAACATTGAAATGCACCCATTTTAAGTATACAGTTTGAGTCTTGACAGATGTGCCACCTGTATAACTACCACC
Celera SNP ID:            hCV29428772
SNP Position Genomic:     24008
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6397):
GTGAACATGAAAGGGATCTAGAAAGCACTTCCCGAGACTCTCTAGCCTTGGATAAAGAGAGAATGGATAAAGATCTGGGATCTGTGCAGGGATTTGAAGA
W
ACAAATAAATCCGAGAGAACTGAGAGTCTGGAAGGTGAGTGCTACCTCTGTTGTCTGTGATACTGCTTTATTTCTTTTCAGATTTCGTGGGAAACAACTA
Celera SNP ID:            hCV25760448
SNP Position Genomic:     91229
SNP Source:               Applera
Population(Allele,Count): african american(A,1|T,31)   caucasian(A,10|T,22)   total(A,11|T,53)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6398):
ATCCACCTGCCTCAGCCTCCCAAAGTCCTGGGATTACAGGCATGAGCCACCAGCAAGGTATTAATTATTTTTAGTGTTATATTTGACAGGTAACAGATAC
Y
GATCATTTTTATGGTGCATTCTTGCTGCAACACATGACTGTTGATCTTCATGTAATGAATTTCTCTAGGAAGATCAGGCCTATGTTAGGTAAGGGCAACT
Celera SNP ID:            hCV29428773
SNP Position Genomic:     20064
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6399):
TATGGGTGGGTTGGGTTACCTGTTTTCTTTTGGTGGGAAGGTTTTTTATTTGTCAGAGTCCTTAGATTCTGAGTATTATATGGGAAGGCTTTTATTTTAA
R
AATAGGACATTTTTGGTTTAAAGTACTTTTCATTTTTTCTGTTTTCTCCTTGATTTATGTAAATGTCTATGTAGATAACAAGACTGCTATTTCTTGGTGT
Celera SNP ID:            hCV25754244
SNP Position Genomic:     94593
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:6400):
CTCCCCAGAGAAAGCAGAGTCCTCCAAGACATCGCTCTCCAATGCGAGAGAAAGGGAGACATGATCATGAACGAACTTCACAGTCTCATGATCGACGCCA
Y
GAAAGGAGGGAAGGTGTGTACTGTACTTTGATTTTTTTAATTGAAAAATTGAACATCCAGCTTTATTGTTGTACTAAGAGATGGAGAAAGACTTTGCTAT
Celera SNP ID:            hCV8700527
SNP Position Genomic:     69964
SNP Source:               Applera
Population(Allele,Count): african american(C,28|T,4)   caucasian(C,24|T,16)   total(C,52|T,20)
SNP Type:                 MISSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): (C,-|T,-)   JBIC-allele(T,221|C,1244)   total(C,1244|T,221)    
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6401):
TTGAGCACTTAATATCCTTGTGTGTAAGTGTCTTTCATAGTATTTACAATGTTAGTAAAAGTAAGACTTCTGCTGTGGTGGAAGATAACAATTATATAAC
W
CTGGTTACTTTTATTTTCTTACCACCTAGTAAAATATGATTTGGAGTTCTTATGTAATAGGACATTTAATTGACTTTTATAATCTGAATTAATTTTGTCC
Celera SNP ID:            hCV293131
SNP Position Genomic:     37380
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,7)   total(A,7|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6402):
TCCTTAATTCTAGGATTCTTTCATAGTCCTAAATGTCAACCCATGCAGCGTGGACTTTTTGTTTGCCTTAGCTGATGCTACCTCCCCTTTTACCATAGCC
R
TGAATTTACAGGCATTCTCAAAGCCACTTTCTCTCTAGATCTCAGTAGTATGTTTTGCCATAGTTTGTGGGTTTTCTCCCTCTAAGTATTTGTTCACACT
Celera SNP ID:            hCV8700528
SNP Position Genomic:     69246
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|G,9)      total(G,9|A,3) ;JBIC-allele(A,221|G,1264)   total(G,1264|A,221)   (G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6403):
ATGCTATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGACTACAGGCGCCCGCCACCATGCCCAGCTAATTTTTTTTTTTTTTTTTGTATTTTTAGTAACA
Y
GGAGTTTTGCCATGTTAGCCAGGATGGTCTCGATCTCCTGACCTCATGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCACGAGCCACTG
Celera SNP ID:            hCV11301167
SNP Position Genomic:     12280
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,3)   total(C,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6404):
CTCAGTTGTCCAACGTTCTGTATCAGGTGCTTCTAACCCGAAGTCCACTGGTGGATTTTAGGGGTCTACAAGTTTCTTGAGTTATGTATAAAACTTTGCC
Y
GTGTATGTGTTTTGGTGAGGGAGAGTGCCCATACCCTTCTAGAAAAGTTCATGATTTTCCCTTCTCCAAAAAAATGTTAGAATTATGAATCATTCTTGAA
Celera SNP ID:            hCV8700529
SNP Position Genomic:     61293
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6405):
TCTTTTTTTTTTTTGGAGTATAACATTTATGCAGTTTACATTTCCTAGAGTGTGTCAAGTAATCATCTTTTAATTTTATTGCTGGATCATACTATCAACT
M
AGAACATACTAAGCACATGTAAGGATTAGAATTTCAGTTAAAACTCAGTGGAGTATTTTAACCAGTGTCAGCCAACTGAGGTGTGATAATCAGGTAAACA
Celera SNP ID:            hCV9231000
SNP Position Genomic:     50528
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:6406):
GCTTGATCAGATTGTTTTGACTTCTGTCAGGCAAAGAAAATACTAAAATATCATTCATTTTTCTCAACCTGATTTTTGGAACATAACTGCTGTTGTCCCT
W
AAACTTATGAAACATAATTTCTGCTATGAAAATTTTCACCCAATTTTATTTTTCCATTTTCTTTAGCATAACTCTTTTTCAGTTAACCAGTTGATGGTTA
Celera SNP ID:            hCV8700561
SNP Position Genomic:     12766
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:6407):
TATCTGATAGCACATCCCGAAGACCCAGTGTATTTGAGAGGCTTGGACCCAGCACTGGCAGTACAGCAGAGGTGAGTTGTCACTAGTATAGTCACAGGGG
Y
TCTCTTAGAATTCTATTATTGAAATGCTTATTTGTATCATAAAGGTGAACAGGTTGTTTTATTGTAGGAATGTTTGTTCAGTAAATTTTTTAAAGTGTGT
Celera SNP ID:            hCV27521145
SNP Position Genomic:     13405
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,57|T,1416)   total(C,57|T,1416) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6408):
TTGCGAAGGGAGCTTGGGGAGGAAGTAAGCGTTCTGTGAATTGGTGTGGGTATCTGGGGAAGGCATTGAGCGGACCCGTAATGCGGAGGCCCGGGTTACC
Y
CCCCCCGTCTTTGCTTGAGTCACTGGGATTTTGAGCTTTCCTTGAGCATCCCACCCTTAACTCTGCAATAGCCCCCTGTGCTCAGGCGTAATTTCTCACT
Celera SNP ID:            hCV16181730
SNP Position Genomic:     6436
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6409):
TATCAGAGGGTACATTAATATATTGGTTTCTGTGCTGCATGTTACCACCTTACAGTATTTAAATCTGGCAATTTTCACTTGAGTTATTCTACATGTATAA
K
GAAGAAGAAGAAGAAATGTTGTGTATTTTAAGTTCACAATTCTTAGCAAATGAAGTAAAGAATTTGTATTAAAGACACTGAATATCCTTTGTATGATACA
Celera SNP ID:            hCV25755263
SNP Position Genomic:     88075
SNP Source:               Applera
Population(Allele,Count): african american(T,32)   caucasian(G,1|T,37)   total(G,1|T,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:6410):
AGTTTCATCTTTTACATACAATCTCTTTTGCTTCTTTATTAGTAACTCATCCTATTATAAATATTTGTCATGAATAATCATTCACACTGGTTTAATTACT
R
TATTTCTTATATTCTACTATGTTGTTGACTTTACGATGCACCGTTAATTTAATAATAAAAGCAAAAGGACCTGGAAAAACAGTATATTAAAAATACAAAG
Celera SNP ID:            hCV9231006
SNP Position Genomic:     50297
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:6411):
TTTGAAACTTAATCTTTTCATAGAAAGTTTTGATAACTATTTAGACAAAGGGTTAGTTTCATCTTTTACATACAATCTCTTTTGCTTCTTTATTAGTAAC
W
CATCCTATTATAAATATTTGTCATGAATAATCATTCACACTGGTTTAATTACTATATTTCTTATATTCTACTATGTTGTTGACTTTACGATGCACCGTTA
Celera SNP ID:            hCV9231007
SNP Position Genomic:     50243
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,3|T,8)      total(A,3|T,8) ;no_pop(T,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:6412):
ACTTTCCCTCAATTCTATTCATTTCCCCAATAAACTGCATACTAGAAATACCCTTTCTTCCTTGTCTTATCTGTTCTGTTTATAGAATATTTGAAACTTA
W
TCTTTTCATAGAAAGTTTTGATAACTATTTAGACAAAGGGTTAGTTTCATCTTTTACATACAATCTCTTTTGCTTCTTTATTAGTAACTCATCCTATTAT
Celera SNP ID:            hCV9231008
SNP Position Genomic:     50154
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|A,7)   total(A,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6413):
AATTCAGGAGTCAAGGTCAGTTAGAAAAAGTGTATTGAGATTTGTGAGGTTATTTCTGTAAATACATTCTTATAAAATGTTATTAATATATAAATACAGA
K
TTTTGTTGTTTTGTTTCGTTTTTTGTTTTGTTTCTGTGTTTTGGTTCAAAGGTCACCAGAAAGACCTACAGGGGATCTTAGAGAAAGAATGAAGAACAAG
Celera SNP ID:            hCV9231041
SNP Position Genomic:     16439
SNP Source:               Applera
Population(Allele,Count): african american(G,14|T,24)   caucasian(G,8|T,28)   total(G,22|T,52)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6414):
TGCGAAGGGAGCTTGGGGAGGAAGTAAGCGTTCTGTGAATTGGTGTGGGTATCTGGGGAAGGCATTGAGCGGACCCGTAATGCGGAGGCCCGGGTTACCC
M
CCCCCGTCTTTGCTTGAGTCACTGGGATTTTGAGCTTTCCTTGAGCATCCCACCCTTAACTCTGCAATAGCCCCCTGTGCTCAGGCGTAATTTCTCACTC
Celera SNP ID:            hCV16181737
SNP Position Genomic:     6437
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6415):
AATAAAGGGCAAGTAATGTAAAGGAACGCTGCTGTTTTTAAGAAGGCTTTAAAAAATATCCTTTTGGCATATTTGAACCTCTAATGATAGCTTTTTGTTA
Y
CTTCAGAAATTCAAAAACCAACCAAAGTAAAAAGAAAGGACCACGTACTCCTAGTCCACCCCCTCCTATACCAGAAGATATCGCTCTGGGGAAAAAATAC
Celera SNP ID:            hCV25750147
SNP Position Genomic:     55417
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:6416):
TTTTAGCTGTTTAAGATGTTCTGAATTCAAATTTTGTACAAATTCTATAGGTTAAAATGCATTTGCCAAATCCCTTAGCACAGTATGTTAATGAAAATAT
K
TATTTATATGTGGATGAATATGCTCCATATTTCGAACATCGTTTTGCCTTTAATAAAGGCTTGGCTAGATTAAACTTGCTTAATAAAGACCTTTTATTTT
Celera SNP ID:            hCV16228655
SNP Position Genomic:     14290
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6417):
TTTATGGTATTTAAAGATGTAATATACATAAAGTTTGTCACAAAAACAGTTTTAACTTGATTGGTAAAGAAATAATTTACCTAGATCCAAAATTGGTTAC
R
CTGATTGTTTTGGCTATAGCATAGCAACACTATAAAAACTGAACATTAGCAATTGGAATTTTTTTTTTTTTTTTTTAGTTGAATGATTTTTTTTGGGGTA
Celera SNP ID:            hCV16228656
SNP Position Genomic:     14517
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6418):
TATTACATGTGCATGTAAACATTAATGAGATCCTTTAAAGTGAATTAACTCAAATTATTTCTTTACTAACCTTATGATTTATATTCATAAAATCAAGGAA
Y
TGATTTGATTGCCCAATGACTGCTTGAAATAGATGTGAATATTTATGTGATTTGTTTATATCTTTTTTATATATAGTACTTTTTGGTAGTCAAAGAGGAA
Celera SNP ID:            hCV16228657
SNP Position Genomic:     15520
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6419):
GGTGGATCTCAAGTTGATTATCCAACTTTAAACCTATTCCAGGTGTCTTATTACTGAATTGAAAATGTATTTCTAGTATGAAGTTTACTGTCTCTGGAAA
Y
TGTACCTCCTAGAATGCCCATGCAATTATTAGTTTTGTTTCACAGTTGCCTCCTCAGTTCTCTTACTGCCCCCCGACATCCCCTATCTTGTTCTTTTTTT
Celera SNP ID:            hCV11697331
SNP Position Genomic:     22506
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:6420):
CAACATTTCTGGCTCTAAATCTGATAAAAAATGTTACAAATTTATAGATTGATTTTGCAGCACCAGCACTACTGCTCTGACACCCTTTTTAACTAGACTT
R
CAATTGGATTTTACATACTTTTAAGTGGACAGAAAGCACAGAATATGTTATTTAATAATTTGGAGATAACCTCCTATTAAATATTTTTGGTATAGTTATT
Celera SNP ID:            hCV11697332
SNP Position Genomic:     36756
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:6421):
GCTAGTCTCTGTCACAGGTGATAATGTAAAAATAGTTTGTGTCAAGAATTCCTTTGTTGTTTAATCATGAAATTTTAAAAGATAATTTTGATACAGATGC
Y
AATTATTGATCCGTTTTTATCTTTAAAGTAGAAAAGTATCCAGAAATACAGATATTTATCACATATCTGTTAGGGTGCATAAGAAGATTGAGTCATCTCA
Celera SNP ID:            hCV16153503
SNP Position Genomic:     51711
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6422):
TCTCAAAAGCCTGTTACATTTGTATTCTTTGTGTTTTTGTTTGTTTTTTAAATCTTGGGGAAGTGCCTTTTGATTCTGTCTTTGGGTGGGTTAGTTTGTC
R
TATGTTCTTTTTTTTCTTTTTTATTTATTTGTTTATTTATTTATTTATTATTTTATTATTATTATACTTTAAGTTTTAGGGTACATGTGCACAATGTGCA
Celera SNP ID:            hCV11301209
SNP Position Genomic:     76686
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,5)   total(G,2|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6423):
GGTTACGCTGATTGTTTTGGCTATAGCATAGCAACACTATAAAAACTGAACATTAGCAATTGGAATTTTTTTTTTTTTTTTTTAGTTGAATGATTTTTTT
K
GGGGTAGTGTATGGGTAGATTTTGTTTAGGAGAATTTAAAATTCAAACCCTCAACATTAGCCAACTTCTTTTTCACGTAAACATTGTACATTTTAGTTTA
Celera SNP ID:            hCV11301170
SNP Position Genomic:     14611
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|G,3)   total(G,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6424):
TTGTCACTTCCGTTAATGTGGGAAGATTAGTGTTTATTGTATATGTGTGTTTACTTGTATATATACACGTAGATACATACCTGGTGAAACTATTTCGATA
M
TTTTAATGTTTTGCTTTAATACTATACTTTTGATACATTTTAAAATTTATCTTTGAAATTTATTAGCTGACTCAGAATTTTTATTCAAGAAATCATTTTG
Celera SNP ID:            hCV11301171
SNP Position Genomic:     14855
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|C,3)   total(A,1|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6425):
GTGAATTGAATTTTGACTATTCAGATAGGTGTGTAGTGGTATCTCTTTGTGGTTTTACTTTGTATTTCCCTATTAGATAAGCTCTTGAGCGTCTTTTCAT
R
TACTTATTTGCCATCTGTATATCTTTGGTGAGATTGTTCAGGTCTTTTGCCTATTTTTAAAAACAGGTTGTTTTCTTATTATTCAATTTTAAGAGTTCCT
Celera SNP ID:            hCV16107494
SNP Position Genomic:     27092
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6426):
AAAGTAATTGCTCACATTGTGCAGTACTATGTTGTACAGACCACGTGAAAGGGAATGCTGGTCTAGCTGGCGTGGTATGTTTATAGGCGAATTTCAGCAG
M
AGGAAGCCAAAATAGTTTTTTCCTTTTGAAAGTTTTTTAAAAATTATTTCATGGGTCTTTTTTTTAATTAATATGTGTGCATTGTTACAATGTATGTTGG
Celera SNP ID:            hCV27334200
SNP Position Genomic:     102134
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,11)   total(A,11|C,1) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:6427):
GAAGGATTGTCAAGTAAAGGTAAGATTGAATTACAGTGTAGCACCATAGAAGAGCTTTTATTCCATCACATGGAAGAAATAGTGCCATTCAACAACAGAA
Y
GTGCAGTGTGTTTTTTGTTTGTTTTGTCATTGGAAATGATAAAGTAAAAACCGGTTGATTACCTGTCAGAAATTGTTGAGAGGATTCCTACTTTAAGCAA
Celera SNP ID:            hCV27334201
SNP Position Genomic:     101149
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:6428):
GGAACTGAGGGAATCCTTGTAATCACTGCATGGTTCGAAGATGAGAGAAAAGGAAGTGTCTTCTCTTGTGCTGTGGAGTAGTTCTTTGGGGTCAAAAAAT
G
TGTTCTTGGCATCTGATATACCTAAGGGCATTCTCCCACCTCACCCCCTTTTAACCAGAAAAGAACTTATTGCTCAAATATCTAGGAAGTTGGAGATTAG
Celera SNP ID:            hCV27334203
SNP Position Genomic:     84204
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|-,17)   total(G,1|-,17) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6429):
TGACCGTACAGAGGTGACAGAAGCAGAGCATACTGCCACCGCCACGACTCCTGGTAGTACCCCTTCTCCTCTATCTTCTCTTCTTCCTCCTCCACCGCCT
R
TGGCTACTGCCACTGCTACAACTGTGCCTGCAACTCTTGCTGCCACTACTGCTGCTGCCGCCACCTCTTTCAGCACATCTGCCATCACTATTTCCACCTC
Celera SNP ID:            hCV25760565
SNP Position Genomic:     89542
SNP Source:               Applera
Population(Allele,Count): african american(G,24)   caucasian(A,1|G,39)   total(A,1|G,63)
SNP Type:                 MISSENSE MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(G,32)   caucasian(A,1|G,39)   total(A,1|G,71)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6430):
CCTCTTAAACGTTTTTTTATCCCAGACTAATTTTCTGCTCAACTGGGTATTTGGGCAGCATGCATTCATTTACTCTGTGTTTATGTGATTTGTGTGTACA
T
GGAAAAAATTTATATAAAATGTGATGAGGTTATCAGTTAACATTTTAAGAAAACAGCTCTTCATCTGAGTAATCATTTATGTAATTAAAGCTAATTTATT
Celera SNP ID:            hCV27334204
SNP Position Genomic:     82159
SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|-,5)   total(-,5|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6431):
GGGCACAGCAGGGATGTCTTTTCTCTTGATCTGTGGGCCTCAGTTAATCTACTGGAAGCACGTAGGCTGGAATCACTTGAAGGTTTATTTACTCACCTGT
Y
TGGCAGTCGATGCTGGCTGTCAGCTAGAGGCCTCTGTTTGTCTCTATGTGGTCTCTTCCCTTGGATAGCTTGGGCTTCCTCACAGCCTGATAACTGAATT
Celera SNP ID:            hCV11301178
SNP Position Genomic:     23535
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,6)   total(C,6|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6432):
ACTTACTGAATTTTTTTAAAGGTTTCACCAGAAGTGGTTAGATCAAAATTGTCCCCGTCACCTTCTCTAAGAAAGTCTAGCAAATCTCCGAAGCGAAAAT
M
AAGCCCGAAGTCGTCTTCAGCTAGCAAGAAAGATAGGAAGACATCTGCAGTATCTTCTCCCCTGTTGGACCAGCAGAGGTCAGTAGGGTGATAAATAGTA
Celera SNP ID:            hCV8700539
SNP Position Genomic:     48336
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:6433):
AAGAAAAGAAGTTTAATTGGCTCATGGTTCTGCAGGCCGTACAAACATGGCTCCAGCATCTGCTGCTGGTGGGGCCTCAGAAAGCTTACTAGGAGGAGGT
R
TGCTGAAGTAAAAGTGCTAATTCATTTATTCATCCAACAGTTACTTGATTACCTGTTCTAAAGCTGGTATTGCAGCAGTGGGCAAAAATATTTCCAAAAG
Celera SNP ID:            hCV16095891
SNP Position Genomic:     63049
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:6434):
AACCAAAACCTGGGCGTTAGCTGTGTTTGTGCTAGTGGGGTATTGTTTCTTTTAGGACCTCTCAGCTAGCAGAGCAAATAAATATATGCGTGTATACTAA
S
TGGTATATATAAATATTTCTAATGACCATCTGTTATCTGTATTAAGCTAACCATGAGTTTTTACTGATTTCTCTAACTGTAATCCATTCCCACTATTAGT
Celera SNP ID:            hCV11301179
SNP Position Genomic:     23837
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:6435):
AATTAACTACTCTTTCCGTTGTTTTACCTGGGTATTTGGTTATGGAATTTTATTGAATTTAGGAACATAATCAAACCAGAACATTGACTCCTATTATTCA
Y
TGATGTAAAGTATCTCAATAGAGTACAAAATAATAACTGGAGATAGCTAGTATTCACTTAATTAAATTCAGTGTCTTCATTTTATCTAGTGAAAACTACT
Celera SNP ID:            hCV9231012
SNP Position Genomic:     45921
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|T,4)   total(C,3|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6436):
TGGCCAGGATGGTCTCGATTTCTTGACCTGATGATCCGCCCTCCTCGGCCTCCCAAAGTGCTGAGCTTACAGGCGTGAGCCACTGCGCCTGGCTGACTTA
S
ACATATATTTTAACTGCTCAGGCCTCTCCCCCTTGGTTGGATAGTTGAAAATTGAGAACTGAAAGCCAGCTTCTTCTTTCTTTTATGTGTTCTGTATTGG
Celera SNP ID:            hCV9231013
SNP Position Genomic:     45635
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|G,4)   total(G,4|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6437):
ATGACATATAAAAATCCATTATATGCTTTTATGAAAAATAACTATTTTGCAAGCAAAAAATAATAATTGTGAGGAGGTGGCAGTGTTTTGCATCATTTTG
Y
AAATTGTTTTAATATCTGGCTTAATAGTTGATAGGTAGATTTTCTTACCTGCTTCTACATTCCACCTGTTAACCACATCACATATTCTGGGAAACTCCAC
Celera SNP ID:            hCV9231014
SNP Position Genomic:     41303
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,8)   total(C,8|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6438):
AAGATTGATCAGTGGGAGGGGGGAAGGGGGTTGACGGGGAGCAGGAAACATGGTCGTTAGAGGGCAAATAAAAATTATCTTTAAAAAATTTAAGGTCTAG
K
GGCGATTGTTACTTGGATATTAAGTTAAAATTAAATATGCTACTTGGTTTGTAATTTGTTGCCAGTGTGACCCTATACACAGATAAAATTTAAGATTTAC
Celera SNP ID:            hCV9230971
SNP Position Genomic:     82763
SNP Source:               Applera
Population(Allele,Count): african american(G,29|T,5)   caucasian(G,27|T,5)   total(G,56|T,10)
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:6439):
ACAAAAGGAGAGACTTGGATAGGGAAAGAGAGAGACTAATTTCTGATTCTGTTGAAAGGGACAGGGACAGAGACAGAGACAGAACTTTTGAGAGTTCTCA
W
ATAGAGTCTGTGAAACGCTGTGAAGCAAAACTGGAAGGTGAACATGAAAGGGATCTAGAAAGCACTTCCCGAGACTCTCTAGCCTTGGATAAAGAGAGAA
Celera SNP ID:            hCV25757413
SNP Position Genomic:     91091
SNP Source:               Applera
Population(Allele,Count): african american(A,35|T,1)   caucasian(A,40)   total(A,75|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:6440):
CTTTTTCAGAACCCCCAAATAACTTTTATCCTTGTGTATTTTATGTTTCCATAACTGCCATATTATGAACCTGAGAAAATTTTTTAATATTTATGTATTC
R
TTCATTTAACAATGACATATAAAAATCCATTATATGCTTTTATGAAAAATAACTATTTTGCAAGCAAAAAATAATAATTGTGAGGAGGTGGCAGTGTTTT
Celera SNP ID:            hCV9231018
SNP Position Genomic:     41191
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:6441):
AGAATTATTACATTTTATATTGATAAAAATATAGATTTTCCAATTTAAAATCACCATATATTATTTCATATTTTCCTTCCTTGATGCACCATCTTTTATT
K
ATCAAATGTTGTTCTTAGTCTTTGGATTCTTTTAAAAGTGTGACCTGAAGTACCTCATTGAACCAAACACTGTTTATAATTTTTTATTGCTGTTTCAATT
Celera SNP ID:            hCV9884914
SNP Position Genomic:     11560
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,6)   total(G,2|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6442):
TGCAGTGGCGCGATCTCGGCTCACTGCAACCTCCACCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCTTCCCGAGTAGCTGGGATTACAGGCGTGCACC
K
CCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATGGTCTCGATCTGTTGGCCAGGATGGTCTCAATCTCTTGA
Celera SNP ID:            hCV9884915
SNP Position Genomic:     9753
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|T,3)   total(G,2|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6443):
GTTCTGGCCAGGTGCAGTGGCTCACGCCTGTAATCTCAACACTTTGGGAGGCCGAGGTGGGAGGATCATGCGGTCAGGAGATTGAGACCATCCTGGCTAA
Y
ATGGTGAGACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGTGGCATGCACCTGTAGTCCTAGCTACTCGGGAAGCTGAGGCAGGAGAATT
Celera SNP ID:            hCV27960162
SNP Position Genomic:     70303
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6444):
AGAAAAACATCTTACTTGTGATTGGTCTTGTTTTTTTTTTTTTTTTTTTTCCCTCAGCAGTGATAACGATTTAGGTCCTGGGAATTGAGTGCTACTTTAT
M
TTCACAAGCCTTAGGTAGGTAGTTTTGGCAACTGTCAGAAACGGGGGAAAGTGGAATAGAAAGAAGAGAGTCTGTTTGGCGGCATTATCTCTCTGTAATA
Celera SNP ID:            hCV9884916
SNP Position Genomic:     6824
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|C,4)   total(A,2|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6445):
TCATGTTATATTGCAGCAACAAATTCTGACATATGTTTTGTTCTACTATATTTTCCTCACATAATAGCTGCACTTTGATGTGTATATATTTTGGCCTGAA
R
TTAGAGGTGTGACTTACGAGGGAAATTTTTTTTTTCCTTCAGCTCCTATGTTCTACACCTCCTGCTGCCCCTATCCTTTGCCACCAGTGTTCTCAGGTCC
Celera SNP ID:            hCV9230979
SNP Position Genomic:     82458
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|A,4)   total(G,4|A,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6446):
GTGATCTTATAAGCTGTTCTCATAATTGCTGTCCAGATTGTATTCTTGCTATTAAAGTTTAATTTAACTAATTAAATTTTATTTTTGTTTTCTTTTGATA
Y
TATCAAGTATTTGAATAATTAAGAGATACAGTTTTCTGATGAAAAGATGTTTTTCACATTGTTATAATGTGTGTACCCTCTACCTTTTGGTTTGACTTAG
Celera SNP ID:            hCV25760420
SNP Position Genomic:     93181
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:6447):
TGTAAACATTAATGAGATCCTTTAAAGTGAATTAACTCAAATTATTTCTTTACTAACCTTATGATTTATATTCATAAAATCAAGGAACTGATTTGATTGC
Y
CAATGACTGCTTGAAATAGATGTGAATATTTATGTGATTTGTTTATATCTTTTTTATATATAGTACTTTTTGGTAGTCAAAGAGGAACAGAGCATTCCTT
Celera SNP ID:            hCV16228665
SNP Position Genomic:     15533
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6448):
AAGAGAGAGAGAAAAGATTAAAAACTGATAAAAGTAAACAGGTGGGCTCTTTGCCACAAGTCTGAAGTAGGCTCTGTGCCACTGAAACAACAATTAGTTG
R
CTTTTTAAATGTTGAAGATCTTGGTGATTTCAGAATACACAAAACCAGTTTTGGCCTCTTCAGTTGGAAAGCACTGTAACGTAATTGTGTTTTCTAACCA
Celera SNP ID:            hCV16228666
SNP Position Genomic:     51034
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6449):
TATGTTTTAAGAGTAAAAGTAAATTATATTTCTTCCTTTTGTCTTCTGTTCAAGTAGAGGCCCATTTCTGTTTTCTTGACTCTTCACCATTTTTTTCATG
R
CAGGTTTTATTCTCATATAACTTACAAATTATTTTCGTCAGCCTCTGTTGTCTTACCAGCAATCAAATCCAAATTTTGTCAGTAATATTTACAGTATGAC
Celera SNP ID:            hCV15830020
SNP Position Genomic:     37047
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6450):
CAGTTAGGAAAACAGAATTATCTTTGACTATATAACATTGCTAAAGAAAAGATTACTTCATTAAAGAAAAATACTCAGATTTAGGGTAGTGGGTAGGGGG
R
ATTCAATTTTTAAAAAACAGAAGAATGAGTTTATCTCCAAAGATTAAAATGGAAACAAATACGAGGAACAGGAGATTTTTAAAACATGTCTTGACTGTAT
Celera SNP ID:            hCV420399
SNP Position Genomic:     100556
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6451):
TGGAGTAGCTGGGATTACAGGCACCCACCACCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGATAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAA
Y
TCCTGACCTCAAGTGATCCACCCCTCCTCTGCCTCCCAAAGTGATGGGATTACACCATGCCCAACCTAAATCTACTTTTTGTTACGGAAAGATGCTCACA
Celera SNP ID:            hCV1872272
SNP Position Genomic:     54428
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,3)   total(C,3|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6452):
TAGCCTATTTCATATATTTACTGAGAAATTGTCATTGTACTCCAACATAAGATGAGTAATCAAGCTTAGTCACACAGGTAGTGAATATATATAGTTACCC
W
CTCAGTCCCCAAGCATGAATGGATAGTTGTCATTCTAATGCATTTGAGCAATATATAACAGTGATGTTCATTTTCTTGGGTTTTAAGCAGTCAAGTAGGA
Celera SNP ID:            hCV8700540
SNP Position Genomic:     46172
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6453):
TTGCTGTATTAAAATTAAAGTTATGTATTGATGTTCTTAAGGCTTTTACCCATATTGACAAATAATTTTACAAGATAGATGTACTAGTTTGCATTGCTAC
Y
GCCAGAGAATGAGTATGTCCTTTATTTGTACCTTTACCAACAATTAATATTATAATTAGAAAAAATGGCTCCTGAATACATGAAAAAATATGTGTATACT
Celera SNP ID:            hCV8700541
SNP Position Genomic:     44703
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6454):
GGTTTGTGTTATAATTGTAAGCCCATATTACTTGTGTTAGTAGTTTTGTCTCTATAGGTAACATAATGACAGTGGTGTAAAGTTTCTGTTCAAGAAACAT
R
TGTTGTAAAGTTACTTTATACAAGATACCTGCCAAAGGAAATGGTCTTACTTTCAAATGACTTTGAAAGCATGTATAATTGCAAACAGAGCAGGAGAAGA
Celera SNP ID:            hCV29428757
SNP Position Genomic:     102926
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6455):
CAGCCTCCTAACCATTTTTATACTCTAGTTACTAATAATGGTTCTCAACTCTCTTAGCCTTGACACTTCCTATTTCATATTCTTTGTAATGCTTGCTTTT
Y
ATCTAAAATTAATGATGAACATAATCTGCCCACGCATATAATGTTCAAGAAATAAATGTGCATATGAGAGTGGAAATGAAAGTAATATAAACATCTAAAA
Celera SNP ID:            hCV27938251
SNP Position Genomic:     35706
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6456):
TAAACAGAAATGTGTGGTAATGAACAATTTTCAAGGAAGGGTGTAGGCTCAATGCATTTCTTTTATATTATATCTGTAGTGGAATGGTAGTTAATGTTTT
Y
GTTTTTGTTTTTAATCATGTGCATATATGACTATATCATTGGTTGGTACAAACATTGGTATATCTGAATCATCTGAAAAAACTGCCCCTTTTTTCCCTTA
Celera SNP ID:            hCV29428758
SNP Position Genomic:     97552
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6457):
TTTTTATGTTAGAAAGGAATCACTATTTTATTAAAAGTATAAAGCTTTAATCAAGTCACAGAAAACTTGATGTTTAAGTGAGTGTAGTGTTCTAGTTAGC
W
GACTTTTCATTTACTGTCACCCAGAGGTATTTTTATTTGCCTAAATTCTTTTCTGCATATTCTTTCTAATATATTAGATCACATTCCTGACTTAGTAACA
Celera SNP ID:            hCV29428759
SNP Position Genomic:     68287
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6458):
TTAATTTAATAATAAAAGCAAAAGGACCTGGAAAAACAGTATATTAAAAATACAAAGAAAACATTTAATTGAGTATAGCATTTCTTTTCTTTTTTTTTTT
T
GGAGTATAACATTTATGCAGTTTACATTTCCTAGAGTGTGTCAAGTAATCATCTTTTAATTTTATTGCTGGATCATACTATCAACTCAGAACATACTAAG
Celera SNP ID:            hCV27334211
SNP Position Genomic:     50441
SNP Source:               Celera
Population(Allele,Count): no_pop(-,5|T,7)   total(T,7|-,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6459):
TGAATGGATAGTTGTCATTCTAATGCATTTGAGCAATATATAACAGTGATGTTCATTTTCTTGGGTTTTAAGCAGTCAAGTAGGACTTCTTATGTTTGTT
R
TTTTTTTAGTTCTTCATTTTATTTCTTTTCCCAAGGTTAAGATATGATCTAAAGTGCTAGAAGTATATCTTGAGAAGGCACCTCAGTTTGTGGTCAGTCA
Celera SNP ID:            hCV27334212
SNP Position Genomic:     46288
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:6460):
CCTGTTGTGGGGATGGGGGGTGAGGGGAGGGAGAGCATTAGGACAAGTACTTAATGCATGCAGGGCTTAAAACCTAGATGACAGGTTGATAGGTACATCA
R
CCTGTACCTATAGGTACAAACCACCATGGCACATGTATACCTATGTTACAAACCTGCACATTCAGCACATGTATCCCAGAACTTAAAGTAAAATAAATAA
Celera SNP ID:            hCV27334213
SNP Position Genomic:     44489
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,11)   total(G,1|A,11) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6461):
GTGTTTGTGCTAGTGGGGTATTGTTTCTTTTAGGACCTCTCAGCTAGCAGAGCAAATAAATATATGCGTGTATACTAAGTGGTATATATAAATATTTCTA
R
TGACCATCTGTTATCTGTATTAAGCTAACCATGAGTTTTTACTGATTTCTCTAACTGTAATCCATTCCCACTATTAGTATTTTTATGCCCAGATGTCCCT
Celera SNP ID:            hCV11301185
SNP Position Genomic:     23859
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:6462):
TGTTAATCAGTTTAATATCAGGATTTTAGTAGTATGTCTTGGTGGAAGGGTTTATGTGTTCAAGTCCCTTATTGATGCCTATGATTTTAACCTTCCTGCT
M
TTCTTCATGCAGTCAAGGCTGCCTCTTTTGACCACAGAAAATAAGATAGGGGAGTAGGAGGAGATCAAATAATGGAGTGATTAGTTCTATTAATGCCTAA
Celera SNP ID:            hCV25754159
SNP Position Genomic:     90326
SNP Source:               Applera
Population(Allele,Count): african american(A,5|C,13)   caucasian(A,21|C,13)   total(A,26|C,26)
SNP Type:                 INTRON

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


Context             (SEQ ID NO:6463):
TTAATGATTTTTGGTTGTCTTTTCTAATATATACATTCAATGCTATAAATATCTCTTTGGGTACAGTGTTTACTGCATCCAACAAATTGTTGTAAGTTAT
M
TTTTTATTTTCATTTAGTTTAAAATATTTTAAAAATTTTTTTGCAATTTCTTCTTTGACCAATATGTTTATTAAAATTGTGTTGTTTAATTTCTAAGCAT
Celera SNP ID:            hCV27334214
SNP Position Genomic:     29992
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|A,4)   total(A,4|C,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6464):
CCACTTACCGTTGTATATAGGAAAGTGATTGACTTTTATGTGTATTAGCCTTGTATTCTGCAACCTGAACTAATCTATTTGTCAGTTCTTTTGCCCACCC
R
CAGTCTTGATTGCTATAGCTTTATAGGAAGTCTTGAAGTTCTTGAACTTTATAGGAAGATCTTGAAAAAAGAACTAATTCCTGAAGTTCTTCTGTTAGTT
Celera SNP ID:            hCV27334215
SNP Position Genomic:     28185
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:6465):
TGGTTTTAATTGAGCATTTATGTGATTCTTTGTTCATTCTTTTTTAGCATATCAATTATACTTCTTTCTACTTTTTTTGGTGGTTACCCTAGAGTTTACA
R
TGTACATTTACAGCTAATTCAGGTCTGCTTTGAAACAGCACTATACTACTTCATCTATAATACAGATAATAACAAAATATTCCCAGTTCTTTACTCTGGG
Celera SNP ID:            hCV9231020
SNP Position Genomic:     30994
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|A,3)   total(G,2|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6466):
TTAATTATGTTTCTCTTGTGAGTGAGGTTGGGCATCTTCATGTATTTACAGGTAATTTACTGTATCCCCTGCCCATTTTCTCTGTTTTTTTTTTTTTTTT
T
GGTCTTTTTCTTCTCTGTTTTAAAAATTCTGTATTTTAGGGAAAATATTTTACTTAAGATATCAAGTACAGATAATTTTACTTGTCACTTTTCTGGTTTT
Celera SNP ID:            hCV27334216
SNP Position Genomic:     26397
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|T,5)   total(T,5|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6467):
CTTTAACTTCTGTCCCATGATTGCTGTACCCTTTTCCCTGTAGGTAACCACATTTATTAGTTTTTGGGTAATCCGGCTGTTTTAATACACACATATATAT
W
TTTAATATTTACATATATATGCACACAAATTAGTGTATATATAATCACCTTTTTTCTTTTTCTTAGATAAAAGGTAGCATTACTGTATACATTTTTCTTC
Celera SNP ID:            hCV27334217
SNP Position Genomic:     25770
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:6468):
AAAATAGTAAAGATAAGATAATTCTTGTCTTTTCAATCAGTGATTAGGAAGGGAAATCCAGAATACTGTATTGAACCCTTCCTAGAAACATCCTAAAATT
R
TTCTGCTTAATGAGTTGATGTTAGATGTTCCACTTACCAACCTGTTGGCCTGATTATAATATGATCTTTATCAAAAACCAGTAGATATATAGTATGTAAA
Celera SNP ID:            hCV9230980
SNP Position Genomic:     81878
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:6469):
AGATGCTTAACAACATGGGAATGTTAGCTGTTAGGTGTATACAAGTTGGTATTTACAGGTATACTAAGCTGGTGCTTTCTTTAGTTAAGATGTTCTGGCC
R
GGTGCAGTGGCTCACGCCTGTAATCTCAACACTTTGGGAGGCCGAGGTGGGAGGATCATGCGGTCAGGAGATTGAGACCATCCTGGCTAATATGGTGAGA
Celera SNP ID:            hCV27890860
SNP Position Genomic:     70212
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6470):
GGGTTTCTTGTAGACAGCATACCATTGGGTCTTGTTTTTCCATCCACTCCGAGAATATCTATGTTTTAATTGGTGTATTTAGACCATTGATGTTTAAAGT
R
ATTGTTGATGTAGTTGAATTAATATCTACAACATTCGTTACTGTTTTCTCTTCATTGCCATTGTTCTTTGTTCCTGTTTTTGTTCTCACTTGTTTTGTGC
Celera SNP ID:            hCV9231024
SNP Position Genomic:     30773
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:6471):
AACCTTCTGAGCATCTTTATCAATACAGTGTTAAATATAAGTAGAAGGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGG
Y
GGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGGCGTGGTGGTGG
Celera SNP ID:            hCV9230981
SNP Position Genomic:     75091
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|C,4)   total(C,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6472):
GATTGGTAAAGAAATAATTTACCTAGATCCAAAATTGGTTACGCTGATTGTTTTGGCTATAGCATAGCAACACTATAAAAACTGAACATTAGCAATTGGA
W
TTTTTTTTTTTTTTTTTTAGTTGAATGATTTTTTTTGGGGTAGTGTATGGGTAGATTTTGTTTAGGAGAATTTAAAATTCAAACCCTCAACATTAGCCAA
Celera SNP ID:            hCV27334219
SNP Position Genomic:     14575
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,4)   total(A,4|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6473):
CCACATGACAGTAAATAACAGAGAAGAAAAATTGGTATTAACATTAATTCTAGAGCTGCTCAAAGAAAATCCAGGAATTGGTTGATAATGTTAGTGTTCT
K
TGAAACTAAGTTTATTTTTAGAGCAATAGGATTTGAAATAGCATTATTCTTTTAAAATAAAATGAGAGGTTAGACCTGGTATCGTGGATCACGCCTGTAA
Celera SNP ID:            hCV27890861
SNP Position Genomic:     33078
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6474):
TCCTTTACTTTTAATCTATTAATATATGTGTTTATATGTGGGTTTCTTGTAGACAGCATACCATTGGGTCTTGTTTTTCCATCCACTCCGAGAATATCTA
Y
GTTTTAATTGGTGTATTTAGACCATTGATGTTTAAAGTGATTGTTGATGTAGTTGAATTAATATCTACAACATTCGTTACTGTTTTCTCTTCATTGCCAT
Celera SNP ID:            hCV9231025
SNP Position Genomic:     30734
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:6475):
TTCCTTTACTTTTAATCTATTAATATATGTGTTTATATGTGGGTTTCTTGTAGACAGCATACCATTGGGTCTTGTTTTTCCATCCACTCCGAGAATATCT
R
TGTTTTAATTGGTGTATTTAGACCATTGATGTTTAAAGTGATTGTTGATGTAGTTGAATTAATATCTACAACATTCGTTACTGTTTTCTCTTCATTGCCA
Celera SNP ID:            hCV9231026
SNP Position Genomic:     30733
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:6476):
CTCATACTCTTTTTTGATTAGTGTTAGCAGTATACCTTTCTTCATTCCTTTACTTTTAATCTATTAATATATGTGTTTATATGTGGGTTTCTTGTAGACA
R
CATACCATTGGGTCTTGTTTTTCCATCCACTCCGAGAATATCTATGTTTTAATTGGTGTATTTAGACCATTGATGTTTAAAGTGATTGTTGATGTAGTTG
Celera SNP ID:            hCV9231027
SNP Position Genomic:     30689
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:6477):
ATGATGTGTCTAAGATGTCATTGCCATACCCAAGGTCATCTAGATATTCTCTTATGTTACTTTCTAGGAGTTTTATTTTTTTTGTCTTACATTAAGATCT
R
TGATCCATTTTAAGTTAATTTTTGTGAAGGCTGTGAGGTCTATGTCTAGATTCTTTTTATTTATTTATTTATTTTTTTTGCATTTGGTTGTCCGGTTGTT
Celera SNP ID:            hCV9231029
SNP Position Genomic:     27454
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,11)   total(G,11|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6478):
TGGAAAGCACTGTAACGTAATTGTGTTTTCTAACCACATATAATTTTGATGGTAATGTGAAGAAATGCTGTACTTTAGTAAGTATATTAGAATAGTCCAG
R
TTGTGATTATAGCCAAGTCCCAAAATGTCGGTGGTTTAACACAACAGAAGGTTATTTCTCACGTAAAGTCAAAATGAGTGTTTCTGATTGACAGATGGCT
Celera SNP ID:            hCV16228638
SNP Position Genomic:     51199
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:6479):
TCTATTTTTGCTGCTATGGTGGTTGTATTAGAGAACTGATGTATTATCTTGAATAAAGACTTTGTCTTGTTTACTGCCATATCCAAGGTCTAATTATCTA
Y
CTATATTTTCTGCTATTGCCCAGAAAAGTGCCTGACATACATAGTAGGTTTTCAGTAAATATTTATGAAATAATTGATACTGATTTTTCTTTTCCATTTT
Celera SNP ID:            hCV256825
SNP Position Genomic:     96611
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,14)   total(C,1|T,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6480):
CTAATGCTTTGTTGGTACCTGGAAATGGTAATTGGCATTTGTGTATTAATCTTACATTTAAATGATGTTGCTGTATTTTCTTGATCTAATTAGATTCTCT
W
AACAGATGTTCCTAGGAACACACTGATTTGGCTCTTCTTTTCTGATTATTAATTTTCTGTCAGTAACCTTCTGAGCATCTTTATCAATACAGTGTTAAAT
Celera SNP ID:            hCV9230988
SNP Position Genomic:     74926
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|T,5)   total(A,1|T,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6481):
TTACCTGAAAAGGGTAAGGTTTTTGACTTGTCTATGAACTATATCTTATATAGAAAGTATAAAATCTCCTAAGATTTCTAATATGTTGTTTCTTACATTT
R
TTATCATTTTGTCACAGTAATTTTTAATTAATTGAACTTGTAGTCTTCCTTATAAATTCCTAATTGGAATTACTAGTTAAAATAGCAAAAGATAAATGGA
Celera SNP ID:            hCV9230989
SNP Position Genomic:     73556
SNP Source:               Applera
Population(Allele,Count): african american(G,38)   caucasian(A,3|G,35)   total(A,3|G,73)
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:6482):
AGTAAATTTTTTAAAGTGTGTTTTATAAAAAGAAGTGAAAAGGGTGATAAGGTTTATGGGTTTTTCCATATTTTTTTCCTGAAGTTTTTATTATTTGGGG
R
GTAATATATCACAGGTTAGCTGGAATTTTGGTAGCATTTGTTTTAATTTTGTCCCGCTAGCATTTTTTTTTTCCAGAAATAAATATGAAATTTACATAGT
Celera SNP ID:            hCV25757356
SNP Position Genomic:     13585
SNP Source:               Applera
Population(Allele,Count): african american(A,5|G,31)   caucasian(A,15|G,21)   total(A,20|G,52)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,3|G,21)   caucasian(A,10|G,10)   total(A,13|G,31)   
SNP Type:                 INTRON


Gene Number:                 53
Celera Gene:                 hCG31809 - 66000115749050
Gene Symbol:                 SARM1
Protein Name:                sterile alpha and TIR motif containing 1;KIAA0524;SAMD2;SARM
Celera Genomic Axis:         GA_x5YUV32VS61(1420677..1462303)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1714):
TCCCTTCTCAAACCTCAAACTGGCAGTCTGTGCCTGAAATCCTATACTTCATGAAAATCCTCCCAGGGGTCCTTCCAGGCAGCCAAAGAAAACCATCTCT
CCAGTGCTCCCAGGCACTGGCTGCCCCTTCTGGAGCCCTTAGTGCTCTGAACCTGGCTACCTTCAGGGGAGAGGGAGTGGAGTCCTCTCCCACAACTGGG
GACTGGGCTGGTGAAGTGGGACAGGATGAGAAGGATGGTAGGGTGTCAACGGGATGAATGGGAGCCAGCCGCTGTCAGCAGGACTGGGGAACAGATGTCA
CCACCAGATTGCCCTCAGGTCTGCTTTAGAGCTTTGCCTCATCTAACCCTTTCTCTCTCTGGCCCCTCAAGAGCCAGATGGACTTCCTGGGGTTCGGAAC
CTGGAACCAGAGGAGGTTCCACAGGTGCAGTTGAGGGGTTCTAAGAAAGATGATAAAGATGTTTATGTGTACAGTATTCTCTTCCTTGGATATATTCTGA
GCCACTTTTTCTTAAATTTTGAAAATTTTTTTCTTTTTTCTTTTTTTTTCAAGATGGAGTCTTGCTTTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCT
TGGCTCACTGCAACCTCCACCTCCCGAGTTCAAGCAACTCCACCTCCTGCCTCTTCCTCCGGAGTAGCTGGGGTTACAGGCGCCTGCCACCACACCCGGC
TAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTAACCTCATGATCCACGCGCCTTGGTTTCCCAAAGT
GCTGGGACTACAGGCATGAACCACCGTGCCTGGCCTAAATTTTCTTTTTCTCACTCTGTTGCCCAGGCTGGAGTACAGTGGTGTGATTTCTGCTCACTGC
AGCCTCAACCTCCCAAGCTCAAGCAATCCTCCCACCTCAGCCTCCTAAATAGCTGGGACTACAGGCACACACCACCCATAAGTTGCCCAGCTAACTTATT
TATTTTTGTAGAGATGGTGTCTTGCTATATTGCCTAGGCTGGTCTCAAACTTCGGGATTCCAGCAATCCTCCCACCTTGGCTTCCCAAAGTGCTGGAATT
ACAGGCATGAGCCACCATGCCCAGACAAAAATTCCCCCCCTTTTTTATTTTGTTCTGTTTTTAGAGATAGAGTCTCACTCTATTCCCCAGGTTGGAGTGC
AGTGGTACAATAATAGCTCACTGCAGCTTCAAACTCCTGGGCTCCTGGGCCACTTTTCCACAAGAAGTGTGTGCTTTTGAATTTCCTTTCAGTTTCTGCC
CTTCACTATCTCTCCTGGTCTTGCTGCTCCCCATCCTAGACCCTAGACAGAGACCTCAAGAAAGGCTCACCCTAGGGGTGGGTTTGGGGAAGCACAGTGA
CTGGTTCCCCAAGTGCTCAGGAGTCAGAGCTACTAGGATTTCAGATCAGGATGGACAAAAAAGCTGAGCCAGAACCCCACCAACTCTTGCCCCTTCTCTC
TCCTCCAAGACCCTAGTCAACTCCAAGGGGCAAAGCAAGCCTCACCCACGGAGGCTGGCCTGGTAACTTTGTCATCATCAGAGGAGTTCAAGTGTCTGCT
TAGCTGCTGGTGGGTTGCTGGGGGCTGCTTAGCTCAAGAGGAAGGGTAGCTCTCAGGAGGCCTTCCCCAGCCCCAAACCGGTTCACAGAGAGGTCCTGAG
CACAGAGAGGTCCTGAGCCCAACATGGGTTGGACACGGCGAGGCCCTTCTCTGTCCCTTCTCTGTCCCCCTCACCAACCCATTCTGACAGTCCAGCTTCC
TCTCCTTTACCCAGACAGGGATGTGTCTACCCCAGTCAGAACAATAATTTTAAACTCGGGGCTAAGGGACCTTTATTGGGCTGGGGGAAGGAGATGGGAG
GAGGGAGCTACAGAGGGCCCGGCCATGTGGGCTCTGACTCCTACAGATGGCCAGGAGCTGGGCAGCCCAGCCAGTACTGAGCGATGGAGCGTGGGTAGGG
AGGGTCCACAGTGTCCACTCGCCGTGTGCGAAGATTGACTCGGTAGTACTTGTCTGGAAGAGAGGAAAGCAGAGGATGCGTGAGGCCCAGCCTGGCCCTG
CCCACTCTTCCCTTGAGAAGTCTAGGGTCTCTCCCAGAAGGGAAAGTGAACATCCATGATGCAGCTAAGGACTTCTGGCCTGGCTTTCTGTGGTCACTAC
TTGCAGGCTGCGTTCAGCCCTTGTGCACCAGGGACAGCAAGGAAAACCCAAGCTAGACCAGCTTCAGGGGTGGCAGCGGCTCCTACCTCCAGAGAAGAAG
AAGACACTCTGGATGGGTTCACAGGTGGCAGGCACAAGCCAGTCCATCCTGTAGTCATCATAGTTGTTGGCTCCCAAGTTGCTCTCCTCACTGGAGAACA
AGGACAGCCACATGGCGCGGGATGGCCGGCGGGAGTTCTGGTTGCGGCCACGGCTGTGGCCTCGTTGTGAACGGTAGCCTTTGCGGTTGCGATGCCTAAA
CCTTTGTTTCTTGGCCAAGGAGGGGCGGGGTGCCATGCCTGAGATGTAGATGCGGCCAGCCATGGCTGCGTCCACTTGCCCTGGCACACCGTGCCAGTCC
CGGCTAATGAACTGGGGCTGTCTGGTACCAGCTGTGGCAGGGAAGGGGTGAATGAGAGGTCTTGGGGGTCCGAATCTTGCCCCTTCCAGCGGGGCCATTA
GAGTTCATCTGCTGCACCTTGCCCAAAGACACACAGCAGCGAATGGCAGAGCCAGGCCTTTGACTCTCAGTCCAATTCCCTTCCCCCTGTGCTTTCCCTC
CACCATATCACTGGTGTCTCGACCCCACCCCCCCAGGCCCCCTAAACTCCTCAGCCACAGCCCCTCCCTCTGCTGGCTGTGCTCTCAGCTGTGCTAGGCA
AAGTCCAAGGTGTGGGGTCCAGGTAGAGCTGAGCTTTCCCCAAAAGGTCAACAGAAGCAAAGTCTGGCCTGAGCAAACAGACTTTGATCGATAGCTCCAC
AACCACAGCCCCCTCCAGCCGGCCTGGCTCTACCAATACCAAGGGGTTTCAGCCCTTTTGAGGGAGAAGCAAGACTTGCCCTCTCTCCATACCAGAGGTT
CTGCCCCAGAAGAGAAGCTCGAAGATGTCCTCCCAGCTGTCCCGCTGCATCATGGCAAAGTGTTCAAACACAGCCGACAGGGAGCTGCCTTCACACTCCT
CCTGACTGGGCTGGTGCTGGAACTGGTACTCCCAGTACTGTTTCCCTGAGGAGCGGGGTGGTGGGCATTAGGAGGGCTGGGCCAGGGCAAGACTGGAGAT
CCCAGAGGCTGTTGAAGTTAGGATCTCCCAGCATGAGGTGGGGGTCAGGGGTGGGCACATGCTGAGGCCTGTCCCCAGTGAAGTGTGAAAGGAATCCAAG
ACTGCTCCACTGCCTGCTCAGTCTCCCACCACCCCCTGAGTACCCTTGAAGAAGTAGACCCGCTCCCGGCCACTGTAGCTATGGGCAGGGAGGGCCAAGG
CTGCATCCACGTTGTCCGGGATGCCATCGAAGCCGTCAGAGATATTTCGGGGGTAATCAGGGTCCAGGACACCATCCTCAAAGCGCCAGTACTGACTACC
CTAAGAGGTGGGGAAAGTGAAAAGGGGTATGGAGGCCGCTGGCTGGGCACAGAGGCAGAGTCCCTTGCCCTAAGGCAGCCGTTCCCAGGTCCAGGTTCAC
TGCCCAGGACCTGGAGTCTTGGGGCTGCCCTGTGCTCACAGAGCTCCCACCAGGTCCTGCAGGGCCCTGGGTCCAGCTTCCCTGTCCACCCTGTCCCTGG
GAGCAATAGCTCTCAAACCCTCCCTAGATGCTTTCTACCCTGGCCCACAGCCCCTGGCACCTTGAAGAGGTAGGTCTTCCCCTGACAGTTGATGCGGGTG
AAGGCGGCATCGATGGGGCCCTCGATGCCCCAGACATCTCGGATGAGCTTGGGGTACCCAGGCCTCACTGCCTTTTCGTCCAGTTCATAGCAGTACTGCC
CTAGAGTGGAGGAGATGGTGTGAGAGCAGGGACGCTCCTGGGGCAGACCCGCATCCCCAGTACCTGCCCTGGATTCACCTCGGAAGGCAAAGAGGGAACC
GTTCTTGAGGTCGGTGAAGGCGTCGAAGGGCTTCCCACTGCACAGCTCCTCCTCTGCTGGGGGCTGAGGTCTCCCTGGATGAAGGGTCTCAGGCCTTGAG
TCTATCCCCTCAGGCTTAGAGGCGCCCACCTCAGGCGCAGGGGCCTCTTCCTCAGGTTTCAGAACAGGTGTCTGCTCAGGATTCCCTTTGGACTGGGCCT
GGAGGTCAGAGGTCAGGGAGGGGCCCCCCACCTGTTCATGGACAGTGGCATTGTTTTTCTCCTCGCCATCGTCATAGACCGTGTACTCATCCTCCGGCAT
AGTGAACACATCCCCGCGAGTCACTGCAGAGAGTGGATGGTAGTGAGTCTCCAGCAGCAGGGGGCACCCCAGCCCACCCACCTGGGCTCTGAACACACCT
TGGGGCTTGCACTCAGCCGTATAGTCTGTGCAGCAGCTCTGGTAGTAAGAGCAGAGCTCGTCACACTGGCACTTCTTGTCCACGTTGAAGCCCTCAGTGC
AGCGGCCCTTGCATGACTCTATGAGGAAGGAGTGTCAGTCGGTGCCACCAAGCCCAGACCACCCTCGCCCTCCCTACATTGACCCAGATGGCCACCAACA
CTCCCCTGTACCTTGGTCAGCCAGAGCAACCCATGCCAGCAGGGCCAGTATGAGAAGGGGTCTCAGGGGTGCCATGGCAGGGCTTCTAGCTCAGTGCCTG
GCAAGCTGGGCTCTGGTCTCCCTGAAGTCTCCGCTCTGATGCCTGAGGAAGGGAGGGAGAGGCAGAGACAGGGAAGGAGGGCACTGGAGAAGAGGAACTG
CCTTTTCTGCTGCTCTGTTTGCTCAACCTCCAGCCCATCCCCTCTGCCCCCTCCAGCGGCTGCTGCAGCAAAGGTCACATTCCTGGAACACTGGGCCTGG
GCGAGCTGGGAGATAAGACCTTTGCCAAGCTCAGAATCATTAGGTCATCGGAAGGGGAATTAGCACCGTGGATCTGGAGGGCAGAAAGAAGGCTCATTGG
GCAACAGCTTTATCTCTCTGAGTCTTAGTTCATTTTCAGTAAAATAGGATTAACAAAGCCTTGCTTCATGGGGTGTTGGGAGATTACATGAACTGGACCA
GACAAAATGCCCAGTAGCTGGAGCAGCCACAAATTCCTTCTCCAAACATAGCTATTGATCCATGATTGTTTGATCAGACACATCCCTGGCTGGGTGCTCA
TTCGCCATTATTTATTTAGGGCAGGAAAAAGGGAGTGGGAGGAGAGATTGTAAGCACTCTGGGGAATTTTATTTTTTAGCATAAAAGAACAAAGTTTCAT
TTCTGGGTTCTTCTCTTGGGTGCATCAATCTCCCCAGGCTGGAAATTTGGGTAAATATCAACCCACTGGACTGGATTTAATTTCTGAGTCTTTTCTGAGC
AGGCCACTCCCTGTCCCCAGGCTCAGTCTCCCCATCTGTAAAGAGTGGGCTTGTTCAACACACTTTTAGACTCTCGAGAGAAATATGATCCCTCTACCTG
GAAAATGCCCACTGGCATGAAACACCTGATTTTGTGCCCAATTTCAGGTGTCCACAGAACTTCTGAAATCCTCCCATCACCTGAAAAAAGTGATCCTGAG
ATTTTAGCTGACTTTTTCTGTTCTGTAATCAGAGGGGACTGTGATTTGGGCCAATTTCTTCCTCATGGGCTTCAGTGGAGTCAGCTGTGGAATGGAACAT
CAATTCCCACCCCATAGGCATGTTGTGAGGTTTCGCTAAGAAACAGCCATAAAAGGGCCTTAAGAGTTATGATGATTGTTTTAACCATTTAGTAGGGAGG
GGGCATCCAGCGGTGTTGCTCCCACGTACCGATGTCACGTGGGGCGGGGAGGCGGGGCGGAGAACGGAGAGCGTCCTCTCATTCTCCACCCCCTTCCTCC
AAGTCCAGCGCAGGGGGAGGTGGCTGCGACTGACTGAGGGGCTAGGGAAGGCTGGCCAGGGGCGTGGGCGTGGCTGGGGACGGCTTGGGGGTGGGGCTGC
GCAGGAGGCTGGAGGAGCCCCGCGGGACCCAGAGGCGGGGCGTCGGCCCGGGGACCRCTGCTCCTCCGGGGCGTGGCTGCAGGAGGCTGGAGGAGCCCCG
CGGGACCCAGAGGCGGGGCGTCGGCCCGGGGACCGCTGCTCCTCCGGGGCGTGGCTGCTGCCGAGCATCTCCCAGCTCAGCCGAGCCCGTGCCCAGGCCA
CGCTTTGTTCCAGCCGCCGCCTCCTCTACCCTACGGCGTCCGGAGCCATCCCTCGCCTGCTCGCTCTCTCCTTTCGCCCACTCCCTGCATCTGGGCCTGC
ATCACCTTTGCCAACCGCTCCCCCGATCCTGCCGACACTCCTCCCCCAAACTTCTGACCGGCACCCTTGCCTGGTACCCTTCTCTCCATTCCTCCCCCTC
CATCTTCTTTCCCCGACCCCTCTCGGGTCCCTCTTTTCCCAAAACCCGGGTCTCTCCGCGTGGCCCCGCCTCCAGGCCGGGGATGTCCCCCGCGGCCCCG
CGCCCATGGTCCTGACGCTGCTTCTCTCCGCCTACAAGCTGTGTCGCTTCTTCGCCATGTCGGGCCCACGGCSGGGCGCCGAGCGGCTGGCGGTGCCTGG
GCCAGATGGGGGCGGTGGCACGGGCCCATGGTGGGCTGCGGGTGGCCCGGGCCCGCGAAAGTGTCGCCGGGGGCAGGCACCGAGGTGCAGGACGCCCTGG
AGCGCGCGCTGCCGGAGCTGCAGCAGGCCTTGTCCGCGCTGAAGCAGGCGGGCGGCGCGCGGGCCGTGGGCGCCGGCCTGGCCGAGGTCTTCCAACTGGT
GGAGGAGGCCTGGCTGCTGCGGCCGTGGGCCGCGAGGTAGCCCAGGGTCTGTGCGACGCCATCCGCCTCGATGGCGGCCTCGACCTGCTGTTGCGGCTGC
TGCAGGCGCCGGAGTTGGAGACGCGTGTGCAGGCCGCGCGCCTGCTGGAGCAGATCCTGGTGGCTGAGAACCGGTGAGCGCGCCAGGCCGGGGTTGGGAG
AGCGCCGCGTGGTGTGGACAGTTAAGCGCCTGCGTTCCCGTGTGCCTTGCGCCGTGCCTTTGCCTCCCTCACCTCTCTGACTGCCTGCACTACATCTCTG
TTAGGGGTCAGCCTGTCTGTTTCACAGATAAGGAAACTGAGCCTTGGGAAAGTTTAGTGACTTGCTCAGTGGATCACAGTGAACTAAGATTTGCTCCCAG
GGCTAGTGGGGTGAGGAATGGAGTTACAGGACAGGAGTCCGTCCCTGGCTCTATGGATGGAGATGGCATCCTATTGCCAATTCTCCCTCTCCCCCGCCCC
CCAAGCCCACAGCTCTCCTTCCCACCGGCTTGGGTTCCCGTCTATGACACCTTCTCTCGCCATCATCCCATCCCTCTCCCAATGAGAGAAGAAGGGAAAC
ACAACGCTCAGAAAAGAGGGAGGGAGACCTCTCCTTTCCCTCCTCCCCAGGCTGTAAGGCGTGCTGGCCTGAGGCTGCTTACTCCCTTCTTGCCGCCCCA
ATCCAACTTCTGCTCCATCCTTCATTCTGGTTCTTGCAACAGGCCAGACATGATCTCATTCTGCAGCTGCTGATGGGAAACAGTTTTCTGCTGGGAGGCA
TGGGTGGGGGAAGAGGACACCGGGGTGCAGAGCCCGGCGGGGACCAGGCAGAGTGTGTGTTCTCTCCCTTCACCCCACTTAGCACCAAGATGCCGCAAGA
GGGTCAAACAGAGGCCTGGTTGCCACTCTTGCATGTCTCTTGGGATCTCTCCTGGAGTATGAAGACCTCCAAGGACTCACTTTCCCTCCCTTCTGATGCC
AGAGCAGACCAAGCTGTCACACTCCAGTCTCATGCTGAAGTCTCCAGCTTCTCAAGCTTAGAAGAGTTTTTGGAAGAGTCACTTTCAGCTCATGCAGCTC
TCACAAGTGTGAAGGGAGTGGGTTGGGGGTGTTTTCCTTGCCATTTTCGAAAAGAAAAAAATTACCTGGTGATTGGTGGAAAGATACAACTGTCAAAAAT
GCATGAATGAAGCAATTTAGGTTGGGAGACCAAGATAGGGTTCTGCTTATTTGGCAAGCCATTAACCTCCCATCTGACATCCGTTGCCATGATGGGGATA
GGCCATGAATTTGGAGGGGGTAGCAAATAAAATATGTGCTCACTGGGTGTGGTGGGGTCAAGGCTGGTAGGTGTGCCCTGCAGGCTTGCTATGTGGAGTC
AGGAGCTATAACTACAATCCCTGGAGAGTGAGTACAGCCAGCAGCCCAAGGAGAGGAGGGTTGCAAGATGCAAACAGTACTGCTATATCTCAAGGTTAAA
AATGGCAATTCTCACCTGGTTCAGAGTTACCGAGAGAAGAGTCACTAACCAGTGTCCCTGGTCTCAAGAAACGCACGCTGGTCTCTTCAGGACCAAGGAC
AGAGCACAACGTGCGTGGTTGCTATCACAATACTTCCAAAGAAAGGCAGGATCCCCGCCAGGCGCCGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAG
GCCCAGGCGGGTGGATCACCTGAGGTCAGGGGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAAAAAAAAAAAAATACAAAAAT
TAGCTGGGCATGGTGGCGGGCATCTGTAATCCCAGCTACTGGGGAGACTGAGGTGGAAGAATCGCACAGAACCCGGGAGGTGGAGGTTGCAGGGAGCCGA
GATTGTGCCATTGCACTCCACCCCACGCTGGATGACAGAGCAAGACTCGTCTCAAAAAAAAAAAAAAAAAAAAAGGCACTGTCTATAATCCTAGCACTTT
GGGAGGCCAAGGCAGGCAGATCACCTGAGGTCAAGTGAAACACAAAAATTAGCCAGGCATGGTGGTGGTGCGTGGTGTGTGCCTGTAACCCCAGCTACTC
TGGAGGCTGAGGCAGGAGAATTGCTGGAACTCGGCAGGCAGAGGCTGCAGTGAGCTGAGAGCGCGCCACTGCACTCCAGCCTTGGCAACAGAGTGAGACT
CCATCTCAAAAGAAAAAAGAAGGGGAGGGTCCCTGCACCCCTTGTAGGCTGCATGAGAATGGGGCTGGAAAGAAGAGAAGGGGAGTGACACACTGCGAAT
TTATGAAATGTTTTTCTCCTTCACCAACCAAGCCCCCACTGCCTCATCTCAAAGAAGGCTCTTCTGGGCAAGCATGGTGGTTCATGCCTGTAATTCCAGC
ACTTTGGGAAGCTGAGGTGGGTGGATCACTTGAGGCCAGGAGTTCAAGACCAGCCTGGGCAACATGGCAAAAACCCATCTCTACAAAAAATATACAGATT
AGCCGGGCGTGATGGCATGCACAGTCCCAGCTACTCAGGAGGCTGAGGTGGGAGGATGGCTTGAGCCCAGGAGGCGGAGGTCACAATGAGCTGAGATCAT
GCCACTGCTTTCCAGCCTCAGTGACAGAGCCAGACCTTGTCAAAAAAAAAAAAAAAAAAAAAAAAACAATTCCATCAGTGTGCCTACCCCTTTTTGCCAC
TTCCCTCTTGCTTTCTTCTTCTCAGGATGCTATTGCACCCATTGTCAAGGAGCCTAGGTCACAGTTTTCCTGACTTCCAACTACCAGAAGTCCAACAGAA
TATGGCTCTTCAAATCTGGCCCCACAACACCCAGTGAGGTCCCCATATGACTGCTAGCCCTCTATATTCACAGTCCACCCCCTTCAGGGGATCTTAATGA
AGCTATCCTCAGAGTAGTTAAATGGCTTTCCCAGGAATATTCAATGAATAAATGGAGGAGACAGGTTTTTGAAATCACAGAAAGGCGGCCAGGAGCAGTG
TCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCCAGGCGGGCAGATTGCCTGAGGTCAGGAGTTCGAGACCACTCTGGCCAACATGGTGAAACCCCGTC
TCTACTAAAAATACAAAAAATTAGCCGGGCKTGATGACGTGTGCCTGTAATCCCAGCTACTCTGGAGGCTGAGGCAGGGGAATTGTTTGAACCAGGGAGG
TGGAGGTTGCAGTGAGCCGAGATCGTGCCGCTGCMCTCCAGCCTGGGCAAGAGTGAGACTCCATCTAAAAAAAAAAAAAAAAAAAATCACGAAAGCCATT
GCACATAAATTCAAAAAAGTGGAAAAGCACACAAAAGGTATACAGTTAAAAGTTATTCTCAGCCAGGCATGGTGGCTCATGCCTGTAATCTCAGAACTTT
AGGAGGCTGAGACAGAAGGATTACTTGAGCCCAGGAGTTTGATTGAGACCAGCCTGGGCAGCATAGTGAGAGCCCTGTCTCAATTTTTTAAAATTAAATT
AAAMATTTTTTAAAAGTTCTTCTCAACCAGACCCCCTCTCTGGAGATAAACCACTATAACAAGTTTCTTGTATATCCTTCCAGAGAGAGTCTCTGCATAT
ACAGGCATTTGCATGTATATTATATAGACATGTTTGCAATATATATACAATCTTCCCCTCCTTTGGAGCTGGGATTTGAATCCAGACCTGTGTAATTCTA
AAATATCTGCCCATTTCACCAGACCCACAGCCTCTCAGACCACAGAAGAACTGGGAGCTGGGTGAGTAGTTATCACAAGAGTGCAGCACAGTTCCACTCT
GTAAAGGTGCCAGGTGCATAGGGAAAAGTGAGGGCTGGGGCATCAGGAGACTCAAAATAAAGTCCTAGGTCTGAATTGATATGTTCCTGAGCAAGTCCTT
CCCTTCGCTGGGCCTCAGGTAAGTCCTCTGAAAATGAGAGTGTTGGCTGGCCAGGGGCGGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCCAAGG
CAGGCGAATCGTTTGAGGTCAGGAGTTCAAGACCGCCTGGCCAACATGGTAAAACTCTGTCTCTACTAAAAATACAAAAAAAAAAAAAAAAAAAAAGAGC
CAGGTGTGGTTGTACATGTCTGTAATCCCAGCTACTTGGGAGGCTGAGACATGAGAATCAGTTGAACCCAGGAGGTGGAGGTTGCAGCGAGCTGAGATTG
CGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGATCCTGTCAAGAAAAAAAAGAAAAGAAAAAGTAAGGGTGTTGGATTAGATAATTTCCTTCTTATCT
TTTGTTTTTGTTTTTGTTTTTGGTAGAGACAGGGTCTTTCTATGTTGCCCAGGCTGGTCTCAAACTCCTGGACTCAAGCAATCCTACTGCCTTGGCCTCC
CAAAGTACTGGAATTACAGACATGAGCCACTGCATTCAGCCAGATTAAATAATTTTCTTATTTTATTTTTCATTTTTTGAGATGGAGTCTCCCTCTATCA
CCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCTGCCTCCCAGGCTCAAGTGATTCTCATGCCTCAGCCTCCCAAGTAGCTGGGATTA
CAGGCACCTGCTACCACGCCCAGTTAGTTTTTGCATTTTTAATAGAGATGGAGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAAGTGA
TCTGCCCACCTCAGCCTCCCAAAGTGTTGGGATTACAGGCGTGAGCTACCGCACCTGGCCACATTAGATATTTCTTAAACATATCCTGGCTCTTACATTC
TAGGCATTTATGCAGTCAGATGTCTAGAAACGCAAAATGAAGGTGAAGGATCTTGAACTCTGGAGACAGGCAGATCTGGGTTCAAATCTCAGCTGTGCCT
CTCAGAAACTGTGTGACTCTGGGCATGTCATGTACCCTCTCTGAGTTTTGGTTTTCTCATTGGTAAAAGGAATAACTGGGCCAGGTGAGGTGGTTCATGC
CTGTATTCCCAGCGCTTTGGGAGGCCGAAGTGGGAGGATTGTTTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAATATAATGGGATCCTGTCTCTACAAA
GTAAAAGAAAACAAAACAAAAAAAATCAGCCAGACATGGTGGTACATGCCTGTAGTCCCAGCTACTCAGGTGGCTGAGTTGGGAGGATGAATTTAACCTA
GGTGGCCAAGGCTGCAGTGAGCTGTGAGCTTATGGCATGTTCCGGACTCAGGTAGGTTCTGCAGTGGACACAAAATCACATGCACTATGGTCACTGTGGT
GCCCTTTGGGCAAGGACTCCATTGCTGGCTAGGCCTCTACCTCTTTGGCAGTAATGTCACCTGTGGAGGACATCACTTTTTTTTTTTAGACGGAGTCTCA
CTGTGTCACCCAGGCTGGAGAGCAGTGGTATAACCTCGGCTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGTTTCTCCTATCTCAGCCTCCTGAGTAGC
TGGGATTACAAGCGCACACCACTACACCTGGCTAATTTTTGTAATTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACC
TCAAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACTGCGCCCGGCCATCTGTGGAAGACATCATTTGTGGAGGTCAGT
AAGGCAGGAAGCCTGAACCTCTACCAGGATGTGGCAACTCTCCCACCTGCTCAGCAGGCCTCCAAGTTCTCTCTGTTGGATCTGTCCTCTCCACCACAGC
CAGAGTGAATTTTCTAAAACCCAAATATGGCCAGGCCACTCCCCTCCCTGAGAGTTTTCAGTGGCTTCTCTTTGACATCAAGATAAACTACAAATGCCTT
GAGGTGCCTCARAAGGTCCCCAGGTCCGATCTCTTTTCACACTCTCCCCTTGAATCTTCTGCCTCAGCCATGGAAGTGTGGGCAGCTCCCCAAGTGCACC
AGCTCTCCAACACCTCCAACTCTTTGCATATACCTGTGCCTGAAATGCAACTGAAATGCAATCTCTCCTTCTCCTCCTGACTAATGCCCACACTATTCTC
TTGCCCTAACTCCATAAGGAACCATTCAGTATATCTAATGTGTATCTTTCTATCTGTGTTCTGCTAAAATCTTTAAATCTTTATTCTTGGTCTTGTGTGC
ATGTATTTTTAATGTATATTAATAGTGCTGTGTCATATAGCACATTCTATTTCTTACTTTTTCCCACTCAGTGTTGGGTTTTATTGGTTTTTTTGTTTTT
GTTTTTGTTTTTTGTTTTTTGGGTTTTTTGTTTGTTTGTTTGTTTTGAGACAGGGTCTTGCTCTGATGCCCAGGCTGGAGTGCAGTGGCCCAATCATGAC
TCGCTGTAGCCTCAACCTACTGGGCTCAAACTATCATCCTGCCTCAGCCTCTCAGGTAGCTGGGACTACAGGCCTGTGCCACCATACATGGCTAATTTTT
TTGATTTTGTAGAGACAGGGTTTTGCTATGTTGCCCAGGCTATGTTGTCCAGGTTCGTGTTGCTGTGTTATCACCTGCTCAGTCACTTGGACCTCCCTGC
AAATCCTACAGAGTAGGCACCTGCCCATGTTACCTGACTCTCCCCAAGCTTGATACTGATTGCCTCCAACTTCCTCACACTACAAATGACACTGCAGTGA
ACATCCTTGTCTAAGTGCTTTTCTCTATCTATATGACAATCTCTTTGGGAGAGGTTGCCTGTATTGTTCAGCTTCTGATTTTGCCCATCTAACAGGTGTA
AAGTGGTAGCTGGTTTTCTGTTTGCTTGTTTTCTGCCAGTGAACATTTTATTCAAGGTATGTGTGTGGAGAGTGGTCAGGGACAAAGGAGAGTGGGAATG
GCCTTTGAAATAAAATAAAATGATTTAGGTGAAGAAACTCTAGGAAAGGGTAATTTTCTCCATTTAGATCYTTTTTTTTTTTTTTTTTTTTTTTTTTTTG
AGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCCATCTTGGCTCACTGCAAGCTCCGCCTCCTGGGTTCACACCAGTTTCCTGCCTCAG
CCTCCTGAGCAGCTAGGACTACAGGCACCCGCCACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGGGACAGGGTTTCACCATGTTAGCCAGGATGGTC
TCGAGCTCCTGACCTTGTCATCCACCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCACCCGGCCTAGATCATTTTAAGAAAGAA
AATGACAGATAAGGTTTCTGGTCTATGGAACTAACAAACAAGTAGACTATTAATATAATATCAGATATTAAATGCCCTGAAGACAATAAAATAAGGTAAT
GAGTTAGAAAGTGATGGGGAAAAGCCTTTAGATTGGATGATTGGAAGGAAGTAACATTTGAGCAGACATTGGAATGACGAACCATGAAGCGGATTTTGTT
GAAGAACATTTCAGGTAGCGATAGCTATTGTTTTAATTTTCATTTCTCTGATTACTAATGAGTTAGAGCATCTCTTTATCTGGTTTTTCAAATTTTGKAT
TTCCTCTTGTCAATTGCCTGTTTATGTCCTTTGCCCATTTTCTTTTGAATTTGTTGCCTTTTTCTTCTTGATTTGAATATTTGCTGATATATTCTACATA
TAAACCCCTCATTGATTTTTTTCTTTTCTTTTTTTTTTTTTTTCTGTCTCTCTCTCTCTTTTTTTTTTTTTTCTTTTGACACAGGGTCTCACTTTGTTGT
CCAGGATGGTCTCAAGTGAGCCTCCCACCTTGGCCTCCATGTGCCAGGCATTGTGCCAAGCATTCTACAGGCATGAGCCACCTTGCCCAGCCTGGTTTTA
TATTTTCCCTTTTTGGTTTTAGACATCGCAATACCTCTGGCATTCTTTCTATTCCTCAAACACGTCAGCTCCTCTGCCCTCAGGCCTTCATCCTTGCTCC
TCTCTCTGCCTGTTATGCTCCTCCCAGATATTTGCACACAGGGATTTCTTCACATTAAGCTTAGATGTCACCTCTTCCCACATACCCCTCCTCCAGGCAC
ACGCCATTACATCATCCTGTTTTGCTAGCGCCAAGGCCCTATCACTACGATCTGGTTCACTCATTGTTTTCTTGTCTATGTCTTCCTCCATCGCCCTGAG
GATAAGCTCTGGCCAGTCTCTGTTAAACCTCAGCCCCTAGTGCAGTGSCTGGCACAGGGGACGTCCTCAGGAAGCATCTGTTGAATGAATGAATAGATAT
GCCCCGGTCATGGGCCATGGAGTGAGGAAAAGGCAAGGCTAAGAGTGGTGTGCTTCAAGTGACACTTCAAATTAGGACAAGTTAATATTTGTTGAGTTTT
TACCATGTGCCAGGCATTGTGCCAAGCACTCTATAAGGCTTATCTCATTAGTCCTGATAATAATCCTATGAGGCAGGTATTTCTATTTTCTATTTATGAG
ATAAGGAAAGCAAGGTAGAGAGATAAAGGAAGCTGCCCAAAGGTCTCCTTTATCCCAGTTAGAAAACGGGCTGAGAAGAAACCAGGACCCAGGGGATCTG
CTCCTGAGCTGAGGCTCTTAGCCACCACACATACTGCCTCTCAAGGGGAGGAGGGAGGGGGAGAACGGCTATGGCCAGAATAGAGCACCCTTAGAATCCG
AGAAGTGGGGTCCTCCCAGGGGAGGAGATGAGGGTGGGGAGCAGGGAGGGGAATGCTCTCCCCTATATGAGGCCGGTGAGGCCCAGAGAGGGTTAGTGAC
CAGGCCCCAAACGGGCAAGCCAAGCTCCCCAAGCTGCGGCAATTCCACTGTCCCCTTCCACTTTCACTGGGCAGAGACCGCGTGGCGCGCATTGGGCTGG
GCGTGATCCTGAACCTGGCGAAGGAACGCGAACCCGTAGAGCTGGCGCGGAGCGTGGCAGGCATCTTGGAGCACATGTTCAAGCATTCGGAGGAGACATG
CCAGAGGCTGGTGGCGGCCGGCGGCCTGGACGCGGTGCTGTATTGGTGCCGCCGCACGGACCCCGCGCTGCTGCGCCACTGCGCGCTGGCGCTGGGCAAC
TGCGCGCTGCACGGGGGCCAGGCGGTGCAGCGACGCATGGTAGAGAAGCGCGCAGCCGAGTGGCTCTTCCCGCTCGCCTTCTCCAAGGAGGACGAGCTGC
TTCGGCTGCACGCCTGCCTCGCAGTAGCGGTGTTGGCGACTAACAAGGAGGTGGAGCGCGAGGTGGAGCGCTCGGGCACGCTGGCGCTCGTGGAGCCGCT
TGTGGCCTCGCTGGACCCTGGCCGCTTCGCCCGCTGTCTGGTGGACGCCAGCGACACAAGCCAGGGCCGCGGGCCCGACGACCTGCAGCGCCTCGTGCCG
TTGCTCGACTCTAACCGCTTGGAGGCGCAGTGCATCGGGGCTTTCTACCTCTGCGCCGAGGCTGCCATCAAGAGCCTGCAAGGCAAGACCAAGGTGGGTG
CAGATGTGGGGTTGGGTGGATCAGGGGTTAGAGAGCCTTTGGGAAGGTTTCCCAGAGGAAGTCACATTCAACCGGGTCTTGAAATACACATCAGAATTAG
ATGAAGCAAGACAAAGGAGGAGCGGGCCAGTCATTTTGGCGTTGAAGGCAAACCCGAAGTTTGGACTTGGTTTTGGGGGCAAGAGGAAGACACTAAGAAG
CTTTTAAGCAAGGGGACACTTGTGTTTTACAAAGATCATCCTAGCTGCTGTGTGGAAAGGGGCTTGGCAAGGGTGAGGACGGAGGCAAGGCAACCCAATA
AAAAACTATGACTTGCAGGGGTGGGCGTTGGGGGAAGGGGGAGACAGCGATGCCAGTGGCAGAGAGCAGATTCAAGAGATGTTTAAGAGATGGAGTTAGC
ACTTGGTGGCTGGGAGAAGGAGAAAGAGGAGCTGAGGATGACTCCTGGCCCTGAACATAGGCAATGAATAAAGTGAACTGGGTGAGAGACAAGTGGAAGT
GGGGAAGGGGAAGAAAGTGACTTCTGCAGGACATATGGAGTTTGAGATGCCTGAGAGATGCCCAGCTGGGGAGCTTCAGTGGGTAGTGTAGCCTTTTRAG
TCTGGAGTCAAGATGGCTGTTAGAGACAGAGGCTTGCGGCTTGGGACAGGACATCAGTGTGTCAGCCAGATAACCCCCATCGGAGTCCCAAGGGGTCCTC
ATGTCCAGGGCCTAATCCACCAGTGACCTTTGCCCACTGCTTTAACTTGCTGTGTGACCTTGAGCACCTGGCTTCCCCTCTCTAGGCCTCTATCTGGGCC
TCATTTTTATCTTCTGGAAAATTCAGTAAATTGGACCACAGCAGCAGTTCTTACCCTAGATGTGGGATAGTTTTAGCACCACAAGTTTGTGGATTGTACT
TTTTGGAAACAGAGATCTACTATATTGCCTAGGCTGGCATCAAACTCTCAGGCTCCAAGCGATCCTCTCTGCCTCAGCCTCCCAAGTAGCTGGGACTACA
AGCACGCACCACATCGCCCAGCTGGGCTTTGTTTTTAAAATGTTACAGGTTGAAGATTCTCCCTRCAATATCACTCTCTCTTCTTTGCATTTTTTTGTGG
AGGCTTGGAGGTTGGTGATAGCTGGTGCACAGAGATGTGGTGCATACCCCATGACCCACCTTGTCTGTACCCCAGCTGTCATCTGGGGGTGCTCAAAGGA
GTGTGTCTTACAGATGATTGTCACCCATCATGTATGTCCCTGCAGATCAAAAAGAGACTGCTGGCTGGGTGAGGTGGTTCATGCCTGTAATCCCAGCACT
TTGGGAGGCCGAGGCAGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGACAACATGGTGAAACTCTGTCCCTACTAAAAATACAAAAATTAGC
TGGGCATGGTGGCAGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATCACAKGAACCTGGGAGGCAGAGGTTACAGTGAGCTGGAATCG
CACCACTGCACTCCAGCCTGGGCTACAAAGTGAGGCTCCATCTCAAAAAAGAAAAAGAAAAAGGAGACTGCTATGTTAGGGGGGTCTCTGGGGCCTCTTT
CAACATCCAGTGTTCTAGGAACTTCTGATTCTTCTCTCTGCACTCCAGAGCTGGGTCAGGGAGGACCTGCTCTACAAGGCAGGTCATTTTGCTTAGGGAA
AAGGGTCTTAAAGGAAGTAGGRAGTGAGGACCCCAAGGATTGGATCTGGGCCGCAACCATGATCACCAGYCTGTCACCCCTTTCCCATCGAGGCCAAGTG
AGTGTAGTTCAACAAAGACATCTCGAGTCCCACTCTGTGTCCTTCATCGTGCCAGATGCAGGTTTCCAGTAGTGACTAAGACATGTCCTCAGCTTATACT
CCAGTGGAAGTTGCATCGTCAACCAGTGACAGTGGCATTCAGAGTGTGGTATAAGACCTCATTGGAGGTGTGGGCCAGGATGTGGGGGAATCAAAGCAGG
CTGCATGAAGGAGGTGCTAATCAATTTGGATTCTGGTGGATGAGTAGGATTTCCGTGGAGTGGGAGGATTCCCATGAGCAGACTGGAAGAACTAAGGGTT
TGGAAACATAGTGGGCCAAGACCCAGAGGTGTGAAAGCCTTGGAATGTGTGCATGTGCGTGTGTGTGTGAAGTGTAAGTTAGTGGAAGGTGAGGTGAACT
GGGAGTGATGGGCAGCTGCACTGTGCCCTGCCTGGCGCTATGCTGAGAGCTCAACTTTATTCCAGGGCCGGTGGATGCTGTAGAAGGGATATAAAGGAGG
GATAGGCCCCTCCGCCCCCAACCCATCCGAGTCAGGACCTGGTCAAGAATTGAGAGAACTTCAGGAGGGGGAATCCGCAGGACCCCATGACTTAGTGGCT
GAAGGTGGGGCCAGGGCAGATGGAGAGACTTTGGGTTGTGAGAAGAGACAAGGAGAGGGACTGGGCACGTGTGGGAGCACCTGGAGAGCTGGTGGGACCT
ACAGCCCTCTCCCCACTCCCTCCCTAGGTGTTCAGCGACATCGGCGCCATCCAGAGCCTGAAACGCCTGGTTTCCTACTCTACCAATGGCACTAAGTCGG
CGCTGGCCAAGCGCGCGCTGCGCCTGCTGGGCGAGGAGGTGCCACGGCCCATCCTGCCCTCCGTGCCCAGCTGGAAGGAGGCCGAGGTTCAGACGTGGCT
GCAGCAGATCGGTTTCTCCAAGTACTGCGAGAGCTTCCGGGTAGAGTCGCGTGGGATACGCCTCCCCCGAGTCAGAGCGGGCGCCCTGTGCACAGGGACT
GCGTTCCCTCCCCGCCTCGCAATCCCGCGGCGCCAGGGTCGCTTTTGGGGGCGGGGAGCCTGTACGCAGCCACCGTTAGGGTCACTCGGCTCTGATCTAG
GTCCCATCCGCCTCCTCCACGCCATCTCCAGTTCCTTCCCTTGCATCTTGTGCTCGAGGTCCAAGGGCGGAGTAGCGAAGCCCTTCCTGACACCCGACTC
CTCCCCCAGGAGCAGCAGGTGGATGGCGACCTGCTTCTGCGGCTCACGGAGGAGGAACTCCAGACCGACCTGGGCATGAAATCGGGCATCACCCGCAAGA
GGTACGGAGCCTCCTGCCCGCCGGACCCCAGCTAGGTCTAAATAAGCTCCCCCTCCGCCCACAGCCCGTCCGAGTCTGGACCTCAGCGTCTTCTCCTCCG
TGGGGTGCAGGTTCTTTAGGGAGCTCACGGAGCTCAAGACCTTCGCCAACTATTCTACGTGCGACCGCAGCAACCTGGCGGACTGGCTGGGCAGCCTGGA
CCCGCGCTTCCGCCAGTACACCTACGGCCTGGTCAGCTGCGGCCTGGACCGCTCCCTGCTGCACCGCGTGTCTGAGCAGCAGCTGCTGGAAGACTGCGGC
ATCCACCTGGGCGTGCACCGCGCCCGCATCCTCACGGCGGCCAGAGGTCAGCCCGCTCACCCGGGACCCCGCCCCAGCCCCAGCCCCARCCACGGCCCTG
GAATGGTGAGGGGAGACACGGGGTGGAGCCTTCCAGCCTCRCCGTGGATTGATTGAGCACAAACGTGGGTCACACTGGGCTCTGAGGATGTAAAGATGAA
TACGTTGCACTTTACCTCAAGAAGTTCCCAGTCTGAGGTGGGTAGGCGGTGGGAGGAAGGAGGCTATTAAACAGGCAAGCGGCCCCGGCAGGAAGCTACC
CAGGTCTCCAGTGGGAGCACAGAGGAAGCCCAGCCCACCCCATCCAYCCAGGTYTAGATTTCAGAGAGGACAGGATGCCTGACCATGTCTTGAGAGGTGC
ACTGGCGGGGAGGGGTGGCAACAGGAAGGGCAGCCCAGGCAGAGGCAGCGGCCTATGGAGAGTCCATGCAGTGGGGTGTAGGCGGGAAGGGTGTGCGTAT
GTGTGTTATCCTATTGGCCAACAGCTTACAAAATTTGGGTCTAGAGGTGGTTTAGAGTGAATTCTAGGCCTCTAGCCACCCTCCTTATTTACTAATTTAT
TTTTACTTACTAATTTACTACTTAGCTAATCTTTATTGTCAATTACAAGGTACTCTGTTTGGTTTTTAAGATATTATCCCATCAGTCTCTATATTGATTC
TATGCAATGAGTGTTCAGTTTTTAAAATCAACCTTAAAGAACTCTTGAAAGAATAAAAAGAGGAGTAAGTGTCCAGTTTGAGGGCCRGGCACCGTGGCTC
ATGCCTGTAATTCTAGGACTTTGGGAGGCCAAGGCAGGCGGATCGCTCAAGTCCAGGAGTTTGAGACCAACCTGGGCAACATGGTGAAAGCCCATCTCCA
CTAAAAGCACAAAAAAATACAAAAAATTAGCTAGGTGTGGTGGCGCATACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCACCTGAGCCC
AGGAAGTTAAGGCCGCAGTGAACTGTGATCAGGTCACTACACTCCATCCAGCCTAGGCAGCAGGAGTGAGACCCTATCTCAAAAAAGAAAAAAAGTATCA
GTTTGAGGAGTTTTGAAAGACATCTGTGTGACCCCCCACCCCCACCATCATCATTAAAGATATAGAATATTTCCATCATGGGTGTTCCTTTTAAAGATAA
TGAAACTAACATTTAAAGAATTCAAATACATTTCCCACAGTCATAAAAGTCATTAGATGGCAAAACTGGGACTTGAGCCCTTGTCTTTCTGCTTCATAAA
CAAACAAATGTTGTCTATGAGGGTTATGTCTAAATATTATAAGAAGATGAATTCTTTTCATTTTATCCTTTCATTCAGCAATTACAGACTAAGCACCCAC
AAGACACAAGGGACTGAGCTTTGGCTGCATTCTTATGCTTCAACCAAAGCAGGTTGGCTTTTATTATTTTTACATTGCAGCTCCCATTAAAACTTCAAGA
TTTCATTTTTATTATAATTAATTAATTTGAGACAAGGTCTCATTCTGTCACCTAGGCTGGAGTGCAGTGGCGCAATCACAACCCACTGAAGCCTCAACCT
CCCGGGCTCAAGTGATTCTCCCACCTCACCTCCCAAGTAGCTGGGACCACAGGTGCGCAACACCACACCCAGCTAATTTTTTTATTTTTTGTGGAGACAG
GGTTTCACTATGTTGCCCAGGYTGTTCTCAAACTCCTGGCCTCAAGCAATCTTCCCAACTTAGCCTCCCAAAGTGTTGAGATTACGGGCGTGGGCCACCG
CACCCAGCGCAAGATTTCATTTTTAAACAACAGGAAAATCCTAGGGCAAAAATAGCTTACAAAAAATAGTTTGTATAGTGAGTAGGGAGCCATGCATAGT
TTTTAAGTGGGAGGAATGACATGCTCAGATTTGGATTTTAGAAAGATGTTCTGGTAGCTGTGGCAAATGGACTACACTGGGCAATTCTTTTCTTTTCTTT
TCTTTTCTTTTTTTTTTTTTTTAGTCAGAGTCTCACTCTGTCGCCCAGGCTAGAGTGCGGTGGTGCATTCTTGGCTCACTGCAACCTCTGCCTCCTGGGT
TCAAGTGATTCTCGTGCCTCAGCCTCCCAAGTAGCTAGATTACAGACATGTGCCACCATGCCTGGATAATTTTTTGTAAAGACAGGGTTTCACCATATTG
GCCAGGCTGGTCTCGAACTCCTGGCCTCAAGTGATCCACCCACCTTGGCCCCCCACAGTGCTGGGATTACAGGTGTGGGCCACTGCCCCTGGCCTAGACT
GGGCAATTCTAGCTGGGTTTGGGGAGGCCATTGAGGAGGCTGGCATTGGAAACCTGAGCCAGGGAAGGGCCCGGAGGCTGGAGTCCAGTATGTTTAGTAG
GTAGAATCCTCAGAATGCGGTGCCTGGCGCTTAGTACTGAGCGTGGCTCCAGAGGAGCAGAGTGCTGTCTGTTTTACTCACTGCTGAATCTCAAGCACTG
AAGACAGTCCTGGCACACAGCAAGTGCTTAGGATGTATTTGTTGAATAAATTAAATGGGAGGCAGGAGTTGAGGCTGATACCCAGGTGTCTGGCTTTGGT
GGGAAATAGGGAAGAAGGAATGAGGGGGAGATTTGGGGTGTGTTGAATTTGGAGTGATTGTGGGCAGCTGGCTGTTCAGGTCTGGAGTTCCAGAGAGAGG
TCAGGGCTGGAAGTGCATGCATATCAATGTCCCTAGAACACAGTGCCTGCCTCCTAAGAGGAACCCAACAATAACATGACCTTCCTCCTGGAGGCCCCAT
TTCTCCTTTTTGGGGCAGGCCACCCTCCCCAGGCTGGGCTGAGAGGGCTTGGTGGACTGGGGACTAAGTCCACAAGGGATGATATACCTGACAGTGAGTG
ATGCGGAGGGGCCACCTTCACCATGCTGCCTATTGCCCACTTCAGAAATGCTACACTCCCCGCTGCCCTGTACTGGTGGCAAACCCAGTGGGGACACTCC
AGATGTCTTCATCAGCTACCGCCGGAACTCAGGTTCCCAGCTGGCCAGGTGAGGAGGGGCGGGCGGGCAGCGACGGGGCGTGGGGACAAGGCTGTGGCAC
TGACACAGGACTTACTTGCAGTCTCCTGAAGGTGCACCTGCAGCTGCATGGCTTCAGTGTCTTCATTGATGTGGAGAAGCTGGAAGCAGGCAASTTCGAG
GACAAACTCATCCAGAGTGTCATGGGTGCCCGCAACTTTGTGTTGGTGCTATCACCTGGAGCACTGGACAAGTGCATGCAAGACCATGACTGCAAGGATT
GGGTGCATAAGGTAGGTGCCTGCCTATGCTTCTGCGGTCCCAGCATTGGCCTGTGGTCCAGAAGATAGGGTCGTCTTCTATTCCTTCTTGTCTGCACATC
CCGGCACACTTAGCCCTGAAGCACCTCCTTGGCCCAGCTGGAAGTCAGGAACCACAGCTCTGACTGTAATAGGACTTTAGCAAACCACAAGGGACAAGAG
ACTAGGCTTTGGCTCTCTGAGCCTCAGTTTTCTTTTTCTTTTTTTTTTTTTTTTGTTTTTGAGGTAGAGTCTCGCTCTGTCACTCAGGCTGGAGTGCAAT
GGCGTGATCTTGGCTCACTGCAAGCTCCACCTCCCGGGTTCACACCATTCTCCTCCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCACG
SCTGGCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGTGAGCCTCAGTTTTCTTTTCTGCAAAATGGGGTAACTTACC
TGTTCCACTCACCTTATAGAACTGTTGTGAGGATCAGAGAGACATAAAAATGCTTTGAAAAATAAATTCCATGAGAGACAGGAGAGCATAGCGACAGGCA
GAATGGAATAGTTGTTGAGAGCTCAAAACTGAGAGTTTGAATCCTGGCTCTGGCCTTGGGCAAGTTACTTAACCCCGATAAGCTTCATATTTATTTCTGG
AAAGAGGGTATAATAATAGTATCTAACTCCCTAGAACATTGTTATAAGGACTAAAAAAGCCAAAATTTGTGAAGTGCTTAGCAGAATGGCTGGCACATAG
TAACTGCTCAATAATGGTAGCAATTATTATTATTAATATAATTATTATAACTACTATATCTGTTTAATTCATCATTGTATTTTCAGTGCCTGACGCATTG
TAGGAACTTATTGAATACTAACAGAATGCATTGATGGATAGCTCCATATTGCATCTTCAGGTTATTAATCATTAATCGGTCAGTAGGAATTGGAGTTGGG
GCTGAGGGATGCAGTAGTCATCTAAGAGACAGGATGAGACAAGCAGTCAGCTCAGAGACAAGAATATGCCCAGAGGGCTGGGCACAGTGGTTCACACCTG
TAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATCACTTGAGGTCAGGAGTTCGAGACCAGCCTGGGCAACATGGTGAAACCTTGTCTCTACTAAAAA
AATACAAAAATTAGCCAGGCATGGTGGCGCACACCTGTAATCCCAGCTACTCAGGAGACTGAGGCAGGGGAATYGCTTGGGCCCAGAAGACGGAGATCAC
ACCACTGCACTCCAGCTTGGGCAACAGAGTGGGACCCTGTCTCAAAATGACTAGATCGCATACAAGTTGKTGTAAATGCTGAGCCAGGTAAGCAAACATC
TTGCTTGCCACAGGGGTTTGGAGAAGGGAGAGAGCATCAAGGTGTCAACGAAAAGAGTCAGACTCTATGAGCGACCATGGCCTGTGACACAGCCCTCAGG
ARACCCTGAGAACACGTGCCCAAGGTGATCAGGGCACAGTTTGGTTTTATACATTTTTGGGAGACACGAGACATCAATCAATACATTTAAGATGTACATT
GGTTTGGTTCAGAAAGGCAGGACAGCTCAAAGCAGGGGCTTCCAGGCTATAGGTAAATTTTAAATTTTTCCAGTTGATAATTAATTGAGTTTATCTGAAG
ACCTGGGATCAATAGAAAGGRAATGTTTAGGTTAAGATAAAGGGTTGTGGAGACCAAGTTTTATTGTGCAGAGGAAGTTCTCAGGGCAGACTTCAGAGGG
AGTAGGTTATAAAATGTTTCTTATCAGACTTATAAGGGTGCCTGGCTCTTTGTTGATTATCTCCTGAGTCCGGAAAGAAAAAGAAAAAAATGGGGGGAAG
GGGATTCTCTATAGAATGTGGCCTTTTCCCACAAGAGACAAACTTGTGGAGCAATTTCAAGATATGGCAGGGAAATATATTTGGGGTTAAAATATTTTTA
TTTCCTCCCTTATTATGTGATGTTATGCTAGAGTCAGGTTAGAAAGCAGACCACGCTATATAGGGTTAAAATTAAAACCTCCTCCGATAAGACTTTATGG
TTTGTAGGGCATGACTCCCTAGGCTCCTTAGGTAGGAATTTGGGCAAGATAAAAAAAAAAAAAATCAGAGTTTAGTCCTCAAAGGACTGGAATAATCAGG
GAAGACTTCATGGAGGAAGCAGGTCTTGAGAAGAATCTTAAGAATCTGGGTAAGTGGAATAGAAGGCATCCCAGGCCAGGGTAACAGCATGAGCAAAGGA
ATAAAGGTAGGGAGGAGAACAGTGCTGAAAGCCCACATACATCTTGGTACTGCTTTCTCCATATCACAGATGAAGAAACTGAGGCTCAGAAAAGTAGAAT
AATGTTCCCCTGGCTGCACTACTAGTGTAGAAATCAGAAAAGCTAGGCTTCAAATTCCATCTATCTGACTCCAAAGCTCATCACTTTCCCAAGATCCACA
CTGCATTCTATGGCACAGCTCTGAGGGGGTGTGAGGGGAGGTGATGGGGTAGGGCTGGATTCGGTTGACACCAGAGATGATTGTATCTCTTCACAACTCC
ACATCCAGTGATGTCATGTTGGTAGCTTGWCATCAGCCATGGTGGGAGTATTTACACCAAGGAAATTGGCAACCACTACAAATCAAAGTTTTGTTAGTTT
GGTTGATTGGCTGGTTGGGTTTTCTTCCCCCATGAATAGCTAGTTACTATAAAGTTAGCAGCACACCACTGGCTGGATAAGAACCATGGAAACCAGGTAA
AGCAGTGTCTAAAGGCAGGAGAAGACCTGTGCTTAAAGCACTGGAAATCAAGGAGCCCATGAAGGAGAAGATGCCAGGGCGGTGGGTCTTAGGATGAAGG
CTCTGACACTGGAATGCAGTCCACATGGAGTGTGGAGTCAAGCCCCAGAGGCCATGTAGGAGGGGCTGAGTACTAGGCCTGGTTTGGGGAGGGGCACTGG
GGCAGTTGAGCATCCAGGAAGAACATGGCTGATAACCCAGAGCATGTGGCAGGCAGCCTTTTGAGAGAAAGAAAAGAGTGTCTGTGAGCTCCATGAGACT
TCAGACCTTGCCTCATTCATCTGTGTCCCTGGTGCCTAAAACCATGCATGGTACAAAGGAGGCTCTATGCAATTGCACCAAAAAAAAAAAAAAAAAAAAA
AGAGAGAGAGAGAGAGGCTGAGGCTGTAGAGGAGTTTATAGAACAATTGAATCAATGATTAAGCAGACAAGTGATACTGATGAAGCTGAGATGCCATGCC
TGGGAGAGCCATACATATCTAGTAGATTTACCAGGTTAGAGGACTTGACTCCGTTTTTTTTTTTTTTTTTCCAGTAGAGATAGGGTTTCGCTATGTCACC
CAGGCTGGTCCCGAACTCCTGAGCTCAAGCCTGGAGTTCAGTGCCTGCCTCGGCTCCCCAAAGTTCTGGGATTAGAGGCATGAGCCACCGTGCCCAGCCA
GAGGACTTGACTCTAATTGTTTTCGTTCTCAACCAGCTAGGTGATCCTGAACAAACCATTATCCCTTTCTTTTATTTATTTAATTATTTTTTTTTTTTTG
AGGCACAGTCTTGCTCTATCACCAGGTTGGAGTGCAGTGGTGAGATCTTGGTCGGCTCACTGCAACCTCCGCCTCCCGGGTTCAAGTGATTCCCCTGCCT
CAGCCTCCTGAGTAGCTGGGACTACAGGCACACGCCACCATATCCAGCTAATTTATATATATATATTTTTAGTAGAGACGGGGTTTCACCATCTTGGCCA
AGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGACATGAGCCACCACACACGGCCGCCATTATCCCT
TTCTTGGCCAGCCTCTGAATCTGTGCGATGAATAATTTGTACTGTCTTTGGTTTTGTATAATTCTGGATGAAACAAATTTCTAAAAATTTCCAAATAAAT
TGCTGCAGGCTCAGGATTCATTCCAATGCTCAGCAGAAAGGCAGCAGGGCTTGGCTGAAACAGCCTGGACTTGGACTCCCGAGGCTTGAGTCAGAGGACC
GGCCCCTCGTGGGCTGGGCGTGTGTGTGGCTTAGGAGGAAATCCCTTCCTCTCTGGGCTTTTTTCTCTCCATCTGTAAAATGGAGCGGCTCCCCAGGAAG
CCAGTCAAGGACGAAGTTACGCATGTTCTTTCCCCAGGAAGRCTCCACTTCCCAAGAATGCTTGGCACCCCTTGTCGTCCCAGCAGATGGCAAAGAGGTG
AGAGGAGCCTTTGTCTTGGACCGGCCCCAGAGGCTCCGTCATCCCTCTTTGGTTGTTTCTGGTGCTTAATTGCCTCTGGTTTTAAAACTCCTTTCCCTGA
AGCCACATTAGTGGGTAATCAATAGGGAAAAACCACAAGTGAACTGCACTCAAAAAAGTAAAATCCCTTTGGTTCCCTCTTGAGAGGAAGAAAAACATTC
AATAAGCACTTAATGGAACCCGATTACTAGCAAATAATTCCTCAGAACAACGCTTTGAGGTAGGTTTTATTATCCCCACTTTACAGAAGAGGAAATAATA
ACACCTATTACGTATTAAGCATACACTGCATGCAAAGCACTGTTCTAATTACTTGCCATGGAATGTTGCGCTTATTCCATGGAACAATCCTGAAGACAGG
GACTATCATTAATCCTGCTTTATATATTAGAAAACAGAGGAACGAGTGTGGTAGTGCAGGCCTGTGATCCCAACACTTTGGGATGCTAAGGTGGGAGGAT
CACTTGAGGCCAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAAACCCCATCTCTACTAAAAAATACAAAAAATTAGCCGGACATGGTGGCACACGCCT
GTGGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATGGCTTGAGCCCAGGAGGTTGAGGCTGCAGTGAGCCTTGATGGTGCCACTGCCCTCCAGCCTGG
GCAAAAAGTGAGATCCTRTTCCCCTGCCCCCCGCCAAAAAAAAAAAAGAAAGAAAGAAAAGAGAAAACAGAGACTTTGAGAACCTATTATTTTTGCCTCA
GGTCGTAGAGCCTGTGTCAGAGACTCAGTGCAAACCCCGATTTGATGATTCCAGAGTGCAGCCCTAACTGCTGTGCTATGTTTTCTCATTCATTCATTCA
TCCATCTATTAAATATTTAGCAAGGGCTAACTATAAGGGCTTTGTGAAAGATGCTGAGATATAAGGTCAGTGAAAAATAGATATGATCCCTCCTCATGTC
TGGCAGAGAAGACAAATACTGAGTAATTTACCCATTAATTAATTAAAATTTGCAACTATAATATGTTCTGCAGAGCCTATAATAGGGGAACTGACTTGGT
CAGGGCAGTGGGAGACAACTGCCCTGTGTAAGAGTTGATTGAGCTCAGATCAGAAAAATGAATGGGCATTATCAAGGGGGAAGGACAAGGAAGCTTATTT
TGTGTGTCTGGGAGGACAGGGCAGGGGTAGAGTTTGAGAAGTGGACTGTGGCCAACCACATAGGGTCTCACAGGCCACATGAAGGAGTTTGGACTTTATT
CTAAGACCATGCAAAGTCTTGAAGAATTTTAAGTAGGGGGTGACAGGACCTAATTTGTCAGATGTGCATTTTGCAAATATTAGCTACATGAAAGGGCAAT
GTGGAGAGTGAATTAGAGAAGACAAGCGTGGATGAGGAAAGACCTGGTGGGGGCTTARAGATAATGGGGATTGGAAGAGGGTGGTAGTGGGGTGGAGGTA
GGGAAAAATAGTGGATTTGAGAAATAAGTAAGGAGTACAATTGGCAGGGCGCATGATGGATCAACCTGTACGCAGGAGTGTGATGTTTTTCTTCTGACAC
CAAATTGTTTGGGGTTTTTCCCACACTAACCACTAATTCTCCAGCTTGCCAACACCAACTGGGTATCCCGCAATTCAATTCAATTCTGAAATGTCAGTCA
CGAGGCCCAGGCCCCCAGGCTGCCACATTTCTGTTTGATTTGGCTACAAATTCGGGGGTGCCCATGACACCCCGAGATTCAATTTGCCAGAATGACTCAC
AGAACTCAGGAAAGCACTTTACTTACTATTAGTTGTTTATTATGTCAACCTTAAATAATGAGATTCAGAAAATAAGACTAAGTATAGAGTTTCTTTGAGT
GCAAAGTTTGAGAATAGCCACCCAGTAAGCATTGACTCCAAAGGMATGGGGTGAGCATTCCAAACTGGAGAAGTTAAGGTTTCACTTCCACAGGCAAAGA
GAGAGGAATTTTAGCAGGATTACAACATTTTCCATACAAGACCAGTGCRTATGTTACAGTGCTTTGATTGGTTATAGATTGCTACATTCCAAGGAAGATG
ACTTTATTACCCCCTGAGAAAGGGTGGTGATCTAAGTGGGGATCTAAGGGAGTCTTATCTCTGGTGCCATTTGGTCTTCCTAAGTAATTACAGAAAAAAA
AAAAAATAGGTGGAAGTTGCAGCTGCATGCCCCATGACTCAGGCTGCAGAGACCAATTCCTGTCAAGGCTCAGAATAACTTAAAGTTCCAAGAGCTTTAG
GTTTGATTTAACAAAGCTTGAATAATAGTAATAAATAATATTATTAATCTCAAAATCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGTTG
GGATTACAGGCGTGACCCACCATGCCCAGCTGAATTATTTAATTTCACAGTTATAAAGGACACAGCTCAAGAATAGCCAAATGGAAGAGATACATAGGAT
CTCTACGTATGGAGGGTGGAGGTGTGGATGCCATGCCTTCTACCACCTTCCCAGCACCTACACCTGTTTATCAACCTGGAGGCTCTTCAAAACCCCTTGT
TTGGGGGTTTTTATGGAGGTTCCATTATGTAGGCATGATTGATTAAATCATTGGCCATTGGTGATTGAACTCAATCTCCAGCACCTCTCTGGAGGCTGGG
AGGTGGGGCTGAAAGTTCCAATCCTCTAGTCATGCCCTGGTCTCCCTGGTGACCAGCCCTCTTCCTGAAACTATCTAGGCTACCCCCATAGCACCCCCCR
GGCCCCCAGTGGGGAATCATCTCTTTAGCATACAAAGACACTCATCACTCAAGAGATTCCAAGGGTTTTAGCAGCTCTGTGCYAGGAACTCTGGGCAAAG
GAAAAATATTTATTTTTTATTACACTACAAGGGTTAAGGTAGACATCAAGGTGGACATCAGGACTGGTGTCCTGCCCTGGGCCCAGCCTCGGGCCAGTGG
GCCTCCCAGCACCTGCCTGGCTACAAGGGTCCCTAGATGGGTACAGGGGTATCTTCCTCCTTTCCTTTCTTTCTCCAGGAGATTGTGACTGCTTTAAGCT
GCGGCAAGAACATTGTGCCCATCATTGATGGCTTCGAGTGGCCTGAGCCCCAGGTCCTGCCTGAGGACATGCAGGCTGTGCTTACTTTCAACGGTATCAA
GTGAGCCCCAGGGCCCTGGGACCAGGGGGGTAGGGTACAAATCACCATGACAGGCAGAGTGTGGGCAAACAGCTGACTAGCAGCTCCCTCTGCCCAGCTG
TCTGAACCACATTGGCTCCTGTGCCCACAGGTGGTCCCACGAATACCAGGAGGCCACCATTGAGAAGATCATCCGCTTCCTGCAGGGCCGCTCCTCCCGG
GACTCATCTGCAGGCTCTGACACCAGTTTGGAGGGTGCTGCACCCATGGGTCCAACCTAACCAGTCCCCAGTTCCCCAGCCCTGCTGTGACTTCCATTTC
CATCGTCCTTTCTGAAGGAACAGCTCCTGAAACCAGTCTCCCTGGGCTGAGACAACCTGGGCTCTTCTTAGGAAATGGCTCTCCCTCCCCCTGTCCCCCA
CCCTCATGGCCCACCTCCAACCCACTTTCCTCAGTATCTGGAGAGGGAAGGGAAGTCAGGCTTGGGCACGGGAGGTTAGAACTCCCCCAGGCCCTGCCAT
TGGGTTGTCTGTCTCCGTCATGGGGAGGGTCCCTGCTCAGTTCTGGAGACACTGGAGTTGGGGTGGGKGTGGTTCTGCATTCCCTTCTCCTGCTGATAGC
AGTCAGCTTGAGGAGGATGAMGGAAGGCAGCCTCAGACAGGAATTAAGGCAATGCCCAGGCRGGCCTGGGCACTGTATTCTGAGCAARGGCCTGGGCCCA
GGAGCCAGCCAGGGATGAGTGCCATCATGGCTCTCCACTCAGACTGTGCCTGGCCCCTGCACTTACAACTTCCTGCYGCTCTGTGGCCTTGCCCTGTAAT
CACTCAGTGCCCTTAGCTAGCCTGACTAAGTCCCAGATCCCCTACAGCTTCCTTCGGTGTGGTATCTTTTGCCACATCCAGGGYGAGGGTTGAGGCAAAC
CAGCCCTCCCTCTGACTTCCTTGTCACTGCAGCCAGCTTTGCTGCACTTGCTGGTGCACAGGAGCCTCCTGTTTGGGCCTGGGTCTGGGCATGGGGAGGC
CGTGCCTCAAAGCCCACCCTACCCCATGCCTTGGTGCTGTGCCTCAGGCTCCTTCCTGGTCTGGCCCAGCTGGCTTCCCCAGCCCCTCAGCCATCCAGGG
CTACCCACTGCTTACTCAGGGACCAGGCAGCCCCCATGGCAGTAAAAGCAGCCTAGACAGAACCTGCAGCTCTGTGGAAAGAGGCAAAGTCCTGAAAAGG
CAAAGGGTTGTCACTTAGGGCAGCTTCTCCAACTTTAACATGCATCCAAGTCACCTGGGAATGTTGTTAAAATCAGGAGATCTGGGGTGGGGCCTAGGAC
TCTGCATTTCTTACWGATTCCCAGGTGAGCTGATGCTGGTGGTTAAGGGTAGCAAATCTCTAAAGCACGAAGCCCTCACAARTCTTTGCCATTTCCCAAA
CACTCCGCTCCATGGTCTCCAGTCATCAGAGCAACTCTACCTGGTATTATCATCCCCATTTTACAGATAATGACACTGAGGCTCAGAAAGGTTGAGGATA
AGCCCASTTTCCTGTCATTAGTGGCAGCCCCAGATCCAGACCTAGGCCTCCTGGCACCCAGTCCACTGGCAGTGGAATTGCTTTCCTGAGAATCATTCTG
AGGCTGGGCTATTGCTTCTCCCTTGCTTCAAAGAATCTAGCAGCGGGGGATAGGATTTTGCAACAAAAAGCTGACCCAGAGGCCATACAGAGCAGGAATA
TCCCATTGCCCCCTCCTCCACTGGGTTCAGAGGGTAAGAAAGCACCCTCCAATAAACCCAGGCTCCAGGCCGTGGGGGCTGCTGAAGGCTCTTTCCCCGC
AAGGGCCAGGTGTTGACACCTTAAAGCTGGCTGCGCCCCCAGCCCCACTCTTGGCYGTGCTGGCCAGGTGACTCCTAGTTCTTGGCCACATCATCAGAAA
GTCAAAGGTCTCACTCCAGGTTTGGGGCTCCTTCCTTCCACTCCCCTCCCTGCCAGAGTCTGTCTTGGCCAGTGCCAGCCTCGATGCTTTGGTTTTGACC
CCACCTGATCCTCCTTTCCTCATGCAGCACAAGTGCTCACCGGGGCCAGAGCCAGGGCATGGATATGACAAGCAGGGCAGCCTGGACACTGCCCTCACAG
GACAGCGCCAATAACAATACAGTGTCTGAGTATCTCCAGGGGATGATTTCTGGCTCTTTGTCTCCAATCAGTCCCACTCCCTCCTGAGGTCCCCAAGGGC
AGTATTCAGAGAGGTTTCCTGCRTTTTATTTCTATTTGGTATACCCTCCACTGTTGTCCACTGCCCTGTGTGGCCTTCTGGTTGACCTCTGCCCGATCTT
CTGTCTCTCTGAGGGAATCAGAGTCCAGCATCCAGCCCCAGCTGGAACAGCTGAAGTCACAAGCCTCCTCTAAGCCAAGGCCAGTGTGTTCAGAGGTGAC
TGCCACCCATACTAGGACAAACACAGCTCAGATCACCAGGTCAAGCACCTAGGCCTGGCTTCTCCTGAGACAGAGGACTCAGAAGTGGCCTTTCCTCCAA
AGCCTGCTCAGACACARRTCTGTAGGGCCAGGGTGTTCTGCTTGGCTGGGCTGCAGCTGCTACCCCTCGGTTGGGGCTGAGTCAGCCAGATCCTCCCCCT
ACTTCTCCCCAAGGGCCAAGAACTGCTCAGGGACATTAAAGGTCAAAAGTCCAGCCACACTCATTCATCCTTTCCCCAGGCCCATGAAGAGAGGCATCTC
AYTGTAGAATGTATGAGGAAGTGGGAAGTATCTCAGAGAATCAGCTAAGTTTCCTAACTTGTCCATCCAAATGTGATCACCACGATTCAACAATTTGGGG
CATTGCTGATCTAGCCGTTCCTAGTGGGGCTTGCTCAAGGTTGCACAGCGAGTCAGTAGAAGCCCTGGCTGGCCCCACTTGGTACCAATCCACCAGGCAG
CTCAGGGCTCCTGCCCAGCCCAGCAGCTTCTGTTGTCTAACGTATGGCAGGCAGACTGGGAGCAGGAAAACAGAGGGCCCCAAAGCCCAAGGCACCAGAA
GGTTTGTTTCAGTTTGCTGAAGCTGATTTGTAATGATTGGCACTCTTCAGCCAGGGGAGTGGGTAGGCCATAGCCAAGGATCGATTCCCCAACCACAGCA
AAGGCAACACTCTTCCTCCAGAGATCACCAAGCCCCTCTTACCTCCCTCCCTCCTTCCCAAGGCTGGCACTAACCAGGTACCACATTCATTGTTAAGGAA
TGGCTGATGACTGCTACACGTGTTGGGAACCTGGTTGGGGCTGTGCAGTTTGGGCTGGAAGGAGAGATGCCAGCCCTCGTGCTGCCTCTGGTCCCTGAAG
TGTCACCTCTCTCAGGACCTCTCCTCTGGCCTGTGGGGTTATAAGTGATGGATAGCAGAAAGGGAGAACTGACTCCTGTCCCAAATAGCTCCTCTSCCAC
CTGTCCTGCAGTGGGCCTGTGTGGGTTATGATTCTAGATCCTAGACAGAGGCTGGGTCAGCTGTGGATGGGGTGGTGCCTTGGTCTCTCTTGACTACCTC
GTCCAAAGAGAGCACTGCCCTTAGACAAGAGTTGCTTGTCCTGCTGTGGGCTGGGCTTCCAGCTGCAGACCTCCAGTTGCTTGGTGTTCACTTTGCTCCT
CTTGCCCTCTGTCTTCTGGTCCAGGCAGATCAGGGGCTCTGGGGAAACTGCTGGAACTCGAGGTGAGGATCAGCCTTTTCCAGCATCCTGTGAGAGACCA
GAGAGAGAGTTTGGATTTCATGTGGGGAACCCTCAAGGCCTGTCTGGAGAAGTGACACAGGATTTACTGGGGTGGGCTGGTCCAGGTAGCTCTCCTGAAC
CTCCTCCTTCCCCAAGCTGAGAAGCTGAGAGCTGGAGGACAATATCCAGGGACATGGCTCTGGAAAATAACTTTTTTTTTTTTAAGAGACAGGGTCTTGC
TCTGTTGTCCAGGCTGGAGGGCAGTGACATAATCATAGCTCACTGTACCCTTGAACTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCTTAGTAGCT
GGGACTACCAGTGCATACCACCATGCCTGGGTGATTTTTTAAATTTTTTATACAGACAAGGTCTTGCTATGTTGCCCAGGCTGATCTTGAATTCCCGGGC
TCAAGTGGTCCTCCTGCCTCAGCCTCCCACAGGATCGGGATTACAGGCAAGAGCCTCCACGCCCGGCCATGAAATATAATTCTTAATATCATACAGGAAA
AAGTCAGCGGGTCAAGCTAGCCTGTGGCCCAGCCACAACTAGCTGACAAAGCTTCCTGGCCTTCCCTTTAACACAGTTCTGCTGCCATAGTTCCATCTAT
AAAATGGGAATGGAGGGAAATAGGGGAACTGGGAKAGAGAACACAGCCTTGCCAAGCAGCAATGTTAGCCTGATCCTTCCTCCACCTAGCTCGCCATCTC
GCCCTTGGAAAATGGCTCCTGGAGGATTAGGCAGCCATCTGCAAGGAGAGGGGCAACCTGGGACAAGACACCCAGAGGGTAAGGATTCCAGGAATGAAGC
TGCCATTTCTGGTTGGGAGGAGAAGAGGAAACTTTTAAGAGAAAGGGCTCCATTATGAGCATGGGTTCAGGGCCCTGCRTTACCCAATCAGAACAGCCGG
GATGAGCAGGAGGCCAGCTCCCAGGAGGAAGGGGAACCCCTTCATAAAGTTCAGAGTGGCTGGGTAGAGTGAGTTGAAGATGCCGGAGGCCGTCAGCATG
GCCAGGCTATTCACACAGGCCACAGCAGAAAAGAGAGCACCTGTGAAGAAATAAATACCATACTCTGGAGTCCGAAAGGGCCATATTCCAACTCTGGCAC
CACCACCTCACAGCTGTGTGACCGGGAGTAGTCACTTAACCTATGTCTCCCCTTCCTCACCAGTAAATCCTGCTACATCATGTACTGTGACAAGGATTCA
GTAAGGTCATATGTGGAYAGTAGCTGGCACAGAGGGGCTACTAAACAAATGGCTGCTATTAAATCCACATTAAAAGTACATGTGATCTGACAGAACCCAG
CACATAAAAGAAAAAAAAAAGTACATGTGATATTGTCTGATGAAAGCTTGATGGAAATGGCTTTTTTCTGGTTTATCCTCTTTGGAATCATCTCCTGTTT
GGGATTAACTGCTGGTCTGATCAGTTCCAATATTCATAGCGGTGTCACCACTGAATAGCTTCTTATCCTTTGGGTTCCTGTTCCTCCTTCTGCTAAATAA
GGATAATACCTATTTCCTAGATTGTGAGCAACATTAAGTTCACATGGAAATCACCCATCACTGGGCCTGGTCCCCTGGAAGTAGCTAGTTAGTAAGGGCT
GTTCTTTTCTCCTGTTTCTCTTGACATCTCTGGGCACAGAGAAAGTGCTGGGAAAAAAAGTTTAGGTGAATGAATGAAGACACATGGATTCTGGGGACAC
CAGAACCCACAGTGGGCTCTGTATGGCACCAGAGTCTCTGTCATCATCAGATCCTCATTCCAGGACAGATGGAAAAAGATGAATGTTTCCAGACTGGGGC
ATAAAGACCCAGAGGCTGGAGAAGCTGTTCTTTATAGATATACCAGGAGAACCCACAGTTTACAAAATGTGCAACAACCCAACAGAAGTTGAGATTAAAT
TCTGTCACATCTAGAGGGGTCTGTGATGTCATCAAAAGCAAACCACCCACATCACAGATGAAGAAACAGGCCTGTGGCAGGGCTCGGACTAAAACCCAGA
TCCTGAGACCAGCTGCTTTTAAACACAGACGTAGGTTTGCATCCTAGCTCCACCATTTACTGAGTAACCTTGGGTGAGCCAATGTAACCCCCTGGGTCTC
TGTTTCTTTATCTGTCAACTGTGGAAAATGAAACCCATGTCACAAGGTTGTTCACTTCTGGGCTTGTACACGCTGACCCCAGAGAAACAGGGAACTCTGG
CATCACCACACCCATCTTACAGACGGAAAAGCTGAGGTCTGCAGAGAGTAAATCCTCTGCTCTGGTTATCTAGAAAGAACATAATTGTGCTCTGCTGACT
GCAAATCCCAACTCTGCGGTTTGAAAATCCAAGGTGGCATGATCCTCTGCCCATTGTGGGCAATTTCACAGAAATGTGTTTGTTTTGGCCACTTACTTCT
CCAGGGTGAGAGGGGGGAAGGCAAGCTGTTCCCCCAGCCATGGCTGCCCATCAGCCCGTTTCGGGCAGCACTGGACATGAGGAACCAGACACAGGTGGGT
TCTGACACTCACCCTGCTCTGTCTCTCTCACCAGCTTGGAGAGTTTAGCCCGGATGACAGGTGTGATGACTAATGACAGGAAAAGCAACCCATATCCTGT
GGAGAAACAAACACTCATCAGGAAAATGGGGCTGGGGAGAGGGGCGTCCAAGGGAAAGGCAGCAGAGCTCCTATCCATACCCCATGTGGGGCTTAGGTTA
GACCCAGGAAGAACTTCCTTGATGGTGAGGGTGGGAAGACAGTAGTCAAGGAGGAATGGAGACTGCCCTTGTCTGGGCTTGGCCACCTGCTAGCTCTCAT
GAATGAATGCTAATTCCCATTGATTGCTTTCTTGTCTGAACCTCTTGTGGTCACAGCAGGCATCACCCACCCACTTGGCACTTAGTAGGGATATGGCAGG
GCACAGAAAACAAGCATGGGCTTTGGAGTCAGCCCTGAGTTCAAAACCTGATGCCATTACATATTATCTGTGTGGCCTGGGGTACTTACCCTCTCTGATC
CTGACTCCCTGTATGAGGAAGATAATAAGGCCTTCATCACAGGATGGTTCTGAGGCATAGGAGGCTGAATAATGGTGCCCAATGGCATCAGATTCATAGC
CCTGGAACCTGTAAATACTACCTTATTTGGAAAATGAGTCTATGCAGGTGTGCAGTTAAGCCTCCTGAGAGAGCAGAGTTATCCTGGATTAGGTTGGGCC
CTAAATGCCGTCACACATATCTTTATAAGAGGAAAGCAGACGGAGATTTGGCACCGACAGAATTGAGAAGGCACAAAGAGGAGGAGAGTCAATGTGAGCA
CAGAGGCAGAGACTGGTGATGGCCGCCCCAAGCCAAGGAATGCCAGCAGCCCCAGAAGCTGGAAGAAATGAGAAACACGTTCTCTCCTGGAGGCTTGCAA
GGGAGCACTGCCTGCTGACTGCTTCCATTCAGCCCGGTGGTACTGACTTTGGACTTCTGGCCTCCAGAACTGTGAGAGAATATGTTTCTGTTGTGTTAAG
CCCCCAAGTTTGTGGTATGTCATTACAGCAATCTCAGGGAACCAATACATGAGGTAAAAAGGTAACATCTATGAAGAGCATGGCATAGGGACACAGCAAA
TGGGAGTTCCTTTTCCCTTTGCATTCAGTTACTTACAGGCTTCCTGTTTTCTTCATAACCATTTCTCTCCCTGTGCGACTGCTGACTCCTCAGCAAAACT
GCAAACTCCTACAGGACAGTGGATCCTCCAAAGAAGGTATACGATGAGGCATCCAGGGACCCTAGCAGTGTCAGGCCCCTCAAATCCCACTCTGTTGAGA
CCTCCCCCCGACCCAGAGCAATGACAGCATCTTTATCATCTCTGCATCCCCCAGGGCCATCAGCAGGAGGGAAAGGTTCCCTTCTGCTTAATTGTCAGAC
AAGCAGTTGAGTTAAGAAATCTGTGATTATTGTATTGTTGACTATACACAGCACATTTTAGGGCTCTATCAAAATAAATCTGTCCCTTTAAAAAAAGTTA
ACTAAAGCCGGGCACGGTGGCTCATGCCTGTAATCCCAACACTTTGGGAGGCTGAGGCAGGCGGATCCTTGAGCTCAGGAGTTAGAGACCTGGACTGGGC
AAAATGGTGAGGACCCCATCTCTATAAAAAATACAAAAATTAGCAAGGTGTGGTAATGTGCACCAGTGGTCCCAGCTACTAGAGAGGCCAAGGTGGGAGG
ATCATCTGGGCCCGGGGGATGAGGCTGCAGTGAGCCATGATCGTGCCACTGCACTCTAGCCTGGGTAACAAAGCGAGACCCTGTCTCTAAATACATCAAT
CAAATAAAAATTTTAAAAAGTTAACTTCCTCATTTACTGGCCTGTTGACCCTCTCCCATCAAAAAAAGAAGGGGAGGAAGTGAGGAGGGAAAGGAGAAGG
AGAAAGAGGAGAAGAGGAACTGAAGCAGGAATTTCATATCTGTGGTCCGAGAAGACTGGTTTTTAAAAAACCCAAAGAAGCTGACTAAGGGTATTTGAGG
TAGGTCCTGTGATTCTTATCAGAGAAGTGAGTACCAGGCATTAATGGCATGGACTTTGTTTAAGAACATATGAATAGGCGGTGGGAGGCCAAGGGGTAAA
GCAATTAGTGTATGAGCCACACTTTTGTCTTTTGCTCTATATTACTAACAATATTAATGGTTGATAACAGTGGGTTAATTACTTTAGCTACTGAAGGTCT
ATATTTTCCATGTATCAAAGATGGCATTTTTGAGGGATTTCTTAGTTGTCTGTTCTCCAGTGCAGGCTGGGGGCATAACTATGTTTCCAAAGACACAGGA
ATGAACCACATCTGGGGGCAGTGAGTGGCCGGCCCCCAGTTCTTACCCAGTGCCTCTGGGACAAGCTGTCCCTGAGCCCACACACTTTACCTGTGAACAT
GAGAGGCGTGATAGTGGCAAAGGCAAAGACCACCATCCCCAGGATGTTGAAGGCCAGGCCGATCTCAGCTACCCAGGCATCGGCCAGGCAGTACTGCAGG
AGCTTCAGGGCCAGCAGGCTGGTGAGGTAGGGGAGATGCTGAGCTGCAGAACCATAGCCGATTAGTTTGGAGTCCCAGCAGAGGGGTGTGCTTAGTTCAT
AAAGGGTTAAGATGTCCTGGGCCCCAAAGTGCACAGTGATCACCACGAAGATGGCCAGTGAGTAGAGGGCTAAATGTTTCCTGGACTTCTCTGGGGCGGG
AGCCACATAGAGCTGGACAATGGATCGGTGGTGACGGAACGTGAAGAGCCGGGTGGACTTTGGCTCCTTTAAGGTCTCACCAAAGCAGAAAGCTGCATAG
AGAGTCATGGCTATCAGCAAGGCCAAGGCCAGCCAGAAGGGGTTGGCATAACCCTGGGCCCGGAGCCAGTGGCCCCCGAGGAGGCTTGCCAGCATCCCAG
CCACCCCGATGCTGGCTTCCAGCAGGGCCATCCGGAAGGTGCGGCTGCGACTGGAGCTGACATCTGCCACGGACGCAAAGCTAGCAGCCAGAAGGCCACC
GAAGTCGCCGAGGAGGGCACAAAGGATGCGACCCAGCACGAAGTAGCCGACGTGGAGCTGCAGCTGCACCACAAAAACGGACACTAGGGCCTGGAGCAGC
AGGCCCAGCGAGGCCAGCACTAGCAGCGGGCGGCGGCCCACACTGTCGCTCCAAGCTCCCAGCAGGGTGGACGAGAAGAGCCCCACCAGGAAGCCGCCCA
CGTTCATGTAGAGGGTCCAGTGGGAGGTAAGGGTCTCCACTTCCTGTAGGGGCACAATGACCAGGGTGCGGTTCCTCACTCTGGGTTCCACAATCCCCAA
ATCCTCGCCATCCCGGGAGCTACAGGGATGAGGACTTCCTTTGGAGCCCTAAACCTCAGAGAATCTTAGCACAGCTTTCAAAATCTGCCAGTGGAGAGGG
GGAAGGACATGGACCAAGGCCCCATTCCCTTTCCTTTCCCCCCCCTTTTGTTAACCTGCAAGGCCAGACTTTAGCTCAGCTTTTCGCATCCCACCCGCTG
AGGTTCTCGGTCAGGCCCCTTTGCTCTGGTCCCGCCCACCATCCAAAATGCACCCTCCCTCCAGTTACCCGCCACTACCATTACGCAGGCCCCGCCCCTC
CGCTGCCCCCACGCTCCAGACCAGGGCCCTCCACCTGCCAGGCTCCTCGCCGCCCCGCTACCTGCATGGTGGGGTCCGCGCTGCGGTTGCTGCAGCCCCC
CCTTTGGCGGGTGCCATTGTAGCCGAGGTCGGCGCTGAAGCGGTGCCACAGATACTGCGTGGTGAGCGGGCCCTGCAGGACCAAGGCAAAGTTGGCCAGG
AAGACCAGCGGCTCTACCGGGCCCCGGCACAGCACGGCAGCCGCAGGGCGGGCGCGGGGCTTTTCCGGGGGGCTCGCGCTCCCCTCCATGTGCGTGCGCG
GCGGAGCTGTCGCCAGGCGGGCGGCGGGGCGCGCGAGCGACTCGCTGCCTGGGACCAGCGACGCGTGGCGTGGGGCTTGCGCTGTCTGCGCCTGCGCCCG
GCGTCCCTCCTTAAATGTCCGGCGGGGAGGGGCCTGTGACCTGAGGCCACCGGACTCTCGCCGCGGGTGCACCTGGCTGGGCGTGGGCCAGCGAGGGGCC
CGGCACCCCCAGCCCGCGGGATGACCTCACCTGTAAAGTGTGCGTAGACACCGCCCTGCAGCCCTCCCTCCCGGCCCAGACACACCACAGATAACAAGAA
TATCAACAATTAACATGTATTGACCACTTACTATGTGCTGGGCACGGTATTAAACCCTTTTTGTGCGTTGGTCTCCCGATAACTCTACAGGCTAGCCAAT
ATTAACCATCGCTATCTACCGCTGAGGAAACGAGGTCATCGGGTACTCAAGGCAGAGCTGGAAGAGCACATGACTCCTGATGCTGCTGATGTTCTGCGCT
GTAACAGAGAGGCAGCTGGAGAGGATCGGAGTGGGCTGAGCCCAGCTGCCTGGGTTGGAACACCTAGGCTCTGCCACTACCTTCGGCATGCCACTTACCA
CCCTGAGCCTCTGTTTTTTCATCTGTAAAATGGAGTTGCTAACAAAACATGTCTCAAAAAGTTGTGGAAAAGCAGTGTCTGGTATATTCAAAGTGCTATT
ATTGCTATTAACAGGCTGTCACGTCTGGGAGTGGTGGCTCACACCTGTAATCCCAGCACTTTTGGAGGCTGAGGCGCATGGATCGCTTGAACCCAGGAGT
TCGAGACCAATCTGGGCAACATGGTAAAACCCTGTCTCTACAAAAAATACACAAAAATTAGCCAGGCGTAGTAGCAGATACCTGTAGTCCCAGGTACTCG
GGTGGCTGAGGTGGGAGGATCAATTG


SNP Information

Context             (SEQ ID NO:6483):
GACAGCTCAAAGCAGGGGCTTCCAGGCTATAGGTAAATTTTAAATTTTTCCAGTTGATAATTAATTGAGTTTATCTGAAGACCTGGGATCAATAGAAAGG
R
AATGTTTAGGTTAAGATAAAGGGTTGTGGAGACCAAGTTTTATTGTGCAGAGGAAGTTCTCAGGGCAGACTTCAGAGGGAGTAGGTTATAAAATGTTTCT
Celera SNP ID:            hCV9243871
SNP Position Genomic:     24821
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,5)   total(G,3|A,5) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6484):
GCTCCATGGTCTCCAGTCATCAGAGCAACTCTACCTGGTATTATCATCCCCATTTTACAGATAATGACACTGAGGCTCAGAAAGGTTGAGGATAAGCCCA
S
TTTCCTGTCATTAGTGGCAGCCCCAGATCCAGACCTAGGCCTCCTGGCACCCAGTCCACTGGCAGTGGAATTGCTTTCCTGAGAATCATTCTGAGGCTGG
Celera SNP ID:            hCV29193100
SNP Position Genomic:     32107
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6485):
TGCTTGCCACAGGGGTTTGGAGAAGGGAGAGAGCATCAAGGTGTCAACGAAAAGAGTCAGACTCTATGAGCGACCATGGCCTGTGACACAGCCCTCAGGA
R
ACCCTGAGAACACGTGCCCAAGGTGATCAGGGCACAGTTTGGTTTTATACATTTTTGGGAGACACGAGACATCAATCAATACATTTAAGATGTACATTGG
Celera SNP ID:            hCV9243872
SNP Position Genomic:     24602
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,9)   total(G,9|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6486):
GGGTGAGCATTCCAAACTGGAGAAGTTAAGGTTTCACTTCCACAGGCAAAGAGAGAGGAATTTTAGCAGGATTACAACATTTTCCATACAAGACCAGTGC
R
TATGTTACAGTGCTTTGATTGGTTATAGATTGCTACATTCCAAGGAAGATGACTTTATTACCCCCTGAGAAAGGGTGGTGATCTAAGTGGGGATCTAAGG
Celera SNP ID:            hCV2536573
SNP Position Genomic:     29449
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:6487):
GGCCCAGGCGGGCAGATTGCCTGAGGTCAGGAGTTCGAGACCACTCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGC
K
TGATGACGTGTGCCTGTAATCCCAGCTACTCTGGAGGCTGAGGCAGGGGAATTGTTTGAACCAGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGTGCCGC
Celera SNP ID:            hCV2536590
SNP Position Genomic:     10031
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|T,8)   total(G,1|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6488):
TCAACCTTAAATAATGAGATTCAGAAAATAAGACTAAGTATAGAGTTTCTTTGAGTGCAAAGTTTGAGAATAGCCACCCAGTAAGCATTGACTCCAAAGG
M
ATGGGGTGAGCATTCCAAACTGGAGAAGTTAAGGTTTCACTTCCACAGGCAAAGAGAGAGGAATTTTAGCAGGATTACAACATTTTCCATACAAGACCAG
Celera SNP ID:            hCV2536574
SNP Position Genomic:     29345
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:6489):
TCAGATGTGCATTTTGCAAATATTAGCTACATGAAAGGGCAATGTGGAGAGTGAATTAGAGAAGACAAGCGTGGATGAGGAAAGACCTGGTGGGGGCTTA
R
AGATAATGGGGATTGGAAGAGGGTGGTAGTGGGGTGGAGGTAGGGAAAAATAGTGGATTTGAGAAATAAGTAAGGAGTACAATTGGCAGGGCGCATGATG
Celera SNP ID:            hCV2536575
SNP Position Genomic:     28858
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,5)   total(G,5|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6490):
GGAGGCTGAGGTGGGAGGATGGCTTGAGCCCAGGAGGTTGAGGCTGCAGTGAGCCTTGATGGTGCCACTGCCCTCCAGCCTGGGCAAAAAGTGAGATCCT
R
TTCCCCTGCCCCCCGCCAAAAAAAAAAAAGAAAGAAAGAAAAGAGAAAACAGAGACTTTGAGAACCTATTATTTTTGCCTCAGGTCGTAGAGCCTGTGTC
Celera SNP ID:            hCV2536576
SNP Position Genomic:     28118
SNP Source:               Celera
Population(Allele,Count): no_pop(G,6|A,7)   total(G,6|A,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6491):
CAAACACAGCTCAGATCACCAGGTCAAGCACCTAGGCCTGGCTTCTCCTGAGACAGAGGACTCAGAAGTGGCCTTTCCTCCAAAGCCTGCTCAGACACAG
R
TCTGTAGGGCCAGGGTGTTCTGCTTGGCTGGGCTGCAGCTGCTACCCCTCGGTTGGGGCTGAGTCAGCCAGATCCTCCCCCTACTTCTCCCCAAGGGCCA
Celera SNP ID:            hCV7442511
SNP Position Genomic:     33118
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6492):
TCCCTTCCTCTCTGGGCTTTTTTCTCTCCATCTGTAAAATGGAGCGGCTCCCCAGGAAGCCAGTCAAGGACGAAGTTACGCATGTTCTTTCCCCAGGAAG
R
CTCCACTTCCCAAGAATGCTTGGCACCCCTTGTCGTCCCAGCAGATGGCAAAGAGGTGAGAGGAGCCTTTGTCTTGGACCGGCCCCAGAGGCTCCGTCAT
Celera SNP ID:            hCV2536577
SNP Position Genomic:     27342
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|G,6)   total(G,6|A,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6493):
ACAAACACAGCTCAGATCACCAGGTCAAGCACCTAGGCCTGGCTTCTCCTGAGACAGAGGACTCAGAAGTGGCCTTTCCTCCAAAGCCTGCTCAGACACA
R
GTCTGTAGGGCCAGGGTGTTCTGCTTGGCTGGGCTGCAGCTGCTACCCCTCGGTTGGGGCTGAGTCAGCCAGATCCTCCCCCTACTTCTCCCCAAGGGCC
Celera SNP ID:            hCV7442512
SNP Position Genomic:     33117
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6494):
GAATTGCTTGGGCCCAGAAGACGGAGATCACACCACTGCACTCCAGCTTGGGCAACAGAGTGGGACCCTGTCTCAAAATGACTAGATCGCATACAAGTTG
K
TGTAAATGCTGAGCCAGGTAAGCAAACATCTTGCTTGCCACAGGGGTTTGGAGAAGGGAGAGAGCATCAAGGTGTCAACGAAAAGAGTCAGACTCTATGA
Celera SNP ID:            hCV9243877
SNP Position Genomic:     24470
SNP Source:               Celera
Population(Allele,Count): no_pop(G,4|T,8)   total(G,4|T,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6495):
ACAACTAGCTGACAAAGCTTCCTGGCCTTCCCTTTAACACAGTTCTGCTGCCATAGTTCCATCTATAAAATGGGAATGGAGGGAAATAGGGGAACTGGGA
K
AGAGAACACAGCCTTGCCAAGCAGCAATGTTAGCCTGATCCTTCCTCCACCTAGCTCGCCATCTCGCCCTTGGAAAATGGCTCCTGGAGGATTAGGCAGC
Celera SNP ID:            hCV2254191
SNP Position Genomic:     34935
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6496):
ATGGTGAAACCTTGTCTCTACTAAAAAAATACAAAAATTAGCCAGGCATGGTGGCGCACACCTGTAATCCCAGCTACTCAGGAGACTGAGGCAGGGGAAT
Y
GCTTGGGCCCAGAAGACGGAGATCACACCACTGCACTCCAGCTTGGGCAACAGAGTGGGACCCTGTCTCAAAATGACTAGATCGCATACAAGTTGTTGTA
Celera SNP ID:            hCV9243878
SNP Position Genomic:     24374
SNP Source:               Celera
Population(Allele,Count): no_pop(C,4|T,6)   total(C,4|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6497):
ATTCTGAGCAAGGGCCTGGGCCCAGGAGCCAGCCAGGGATGAGTGCCATCATGGCTCTCCACTCAGACTGTGCCTGGCCCCTGCACTTACAACTTCCTGC
Y
GCTCTGTGGCCTTGCCCTGTAATCACTCAGTGCCCTTAGCTAGCCTGACTAAGTCCCAGATCCCCTACAGCTTCCTTCGGTGTGGTATCTTTTGCCACAT
Celera SNP ID:            hCV2254192
SNP Position Genomic:     31377
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|C,8)      total(C,8|T,1) ;(C,-|T,-)   JBIC-allele(T,109|C,1390)   total(C,1390|T,109)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6498):
TCCTGCTGATAGCAGTCAGCTTGAGGAGGATGAAGGAAGGCAGCCTCAGACAGGAATTAAGGCAATGCCCAGGCGGGCCTGGGCACTGTATTCTGAGCAA
R
GGCCTGGGCCCAGGAGCCAGCCAGGGATGAGTGCCATCATGGCTCTCCACTCAGACTGTGCCTGGCCCCTGCACTTACAACTTCCTGCCGCTCTGTGGCC
Celera SNP ID:            hCV2254193
SNP Position Genomic:     31288
SNP Source:               dbSNP
Population(Allele,Count): (A,-|G,-)   African American (pooled) - WICGR(G,100)   Asian (pooled) - WICGR(G,84)   Caucasian (pooled) - WICGR(A,1|G,95)   total(G,279|A,1)   (G,-|A,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6499):
CTCTACAAGGCAGGTCATTTTGCTTAGGGAAAAGGGTCTTAAAGGAAGTAGGGAGTGAGGACCCCAAGGATTGGATCTGGGCCGCAACCATGATCACCAG
Y
CTGTCACCCCTTTCCCATCGAGGCCAAGTGAGTGTAGTTCAACAAAGACATCTCGAGTCCCACTCTGTGTCCTTCATCGTGCCAGATGCAGGTTTCCAGT
Celera SNP ID:            hCV2254194
SNP Position Genomic:     18170
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:6500):
CTTCTGATTCTTCTCTCTGCACTCCAGAGCTGGGTCAGGGAGGACCTGCTCTACAAGGCAGGTCATTTTGCTTAGGGAAAAGGGTCTTAAAGGAAGTAGG
R
AGTGAGGACCCCAAGGATTGGATCTGGGCCGCAACCATGATCACCAGCCTGTCACCCCTTTCCCATCGAGGCCAAGTGAGTGTAGTTCAACAAAGACATC
Celera SNP ID:            hCV11889049
SNP Position Genomic:     18122
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6501):
AATGATTAAGCAGACAAGTGATACTGATGAAGCTGAGATGCCATGCCTGGGAGAGCCATACATATCTAGTAGATTTACCAGGTTAGAGGACTTGACTCCG
T
TTTTTTTTTTTTTTTTCCAGTAGAGATAGGGTTTCGCTATGTCACCCAGGCTGGTCCCGAACTCCTGAGCTCAAGCCTGGAGTTCAGTGCCTGCCTCGGC
Celera SNP ID:            hCV26650780
SNP Position Genomic:     26454
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|-,4)   total(-,4|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6502):
GAAGATGACTTTATTACCCCCTGAGAAAGGGTGGTGATCTAAGTGGGGATCTAAGGGAGTCTTATCTCTGGTGCCATTTGGTCTTCCTAAGTAATTACAG
A
AAAAAAAAAAAATAGGTGGAAGTTGCAGCTGCATGCCCCATGACTCAGGCTGCAGAGACCAATTCCTGTCAAGGCTCAGAATAACTTAAAGTTCCAAGAG
Celera SNP ID:            hCV26650781
SNP Position Genomic:     29594
SNP Source:               Celera
Population(Allele,Count): no_pop(-,3|A,6)   total(A,6|-,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6503):
TTAGGGCAGCTTCTCCAACTTTAACATGCATCCAAGTCACCTGGGAATGTTGTTAAAATCAGGAGATCTGGGGTGGGGCCTAGGACTCTGCATTTCTTAC
W
GATTCCCAGGTGAGCTGATGCTGGTGGTTAAGGGTAGCAAATCTCTAAAGCACGAAGCCCTCACAAATCTTTGCCATTTCCCAAACACTCCGCTCCATGG
Celera SNP ID:            hCV26650782
SNP Position Genomic:     31915
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6504):
GTGGCACTGACACAGGACTTACTTGCAGTCTCCTGAAGGTGCACCTGCAGCTGCATGGCTTCAGTGTCTTCATTGATGTGGAGAAGCTGGAAGCAGGCAA
S
TTCGAGGACAAACTCATCCAGAGTGTCATGGGTGCCCGCAACTTTGTGTTGGTGCTATCACCTGGAGCACTGGACAAGTGCATGCAAGACCATGACTGCA
Celera SNP ID:            hCV25751946
SNP Position Genomic:     22994
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,31)   caucasian(G,30)   total(C,1|G,61)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6505):
CAGGGGCGTGGGCGTGGCTGGGGACGGCTTGGGGGTGGGGCTGCGCAGGAGGCTGGAGGAGCCCCGCGGGACCCAGAGGCGGGGCGTCGGCCCGGGGACC
R
CTGCTCCTCCGGGGCGTGGCTGCAGGAGGCTGGAGGAGCCCCGCGGGACCCAGAGGCGGGGCGTCGGCCCGGGGACCGCTGCTCCTCCGGGGCGTGGCTG
Celera SNP ID:            hCV29193094
SNP Position Genomic:     6157
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:6506):
CAGGCCGGGGATGTCCCCCGCGGCCCCGCGCCCATGGTCCTGACGCTGCTTCTCTCCGCCTACAAGCTGTGTCGCTTCTTCGCCATGTCGGGCCCACGGC
S
GGGCGCCGAGCGGCTGGCGGTGCCTGGGCCAGATGGGGGCGGTGGCACGGGCCCATGGTGGGCTGCGGGTGGCCCGGGCCCGCGAAAGTGTCGCCGGGGG
Celera SNP ID:            hCV29193095
SNP Position Genomic:     6673
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 5


Context             (SEQ ID NO:6507):
TTCTAAAACCCAAATATGGCCAGGCCACTCCCCTCCCTGAGAGTTTTCAGTGGCTTCTCTTTGACATCAAGATAAACTACAAATGCCTTGAGGTGCCTCA
R
AAGGTCCCCAGGTCCGATCTCTTTTCACACTCTCCCCTTGAATCTTCTGCCTCAGCCATGGAAGTGTGGGCAGCTCCCCAAGTGCACCAGCTCTCCAACA
Celera SNP ID:            hCV29193096
SNP Position Genomic:     12812
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6508):
CCAGAGGTCAGCCCGCTCACCCGGGACCCCGCCCCAGCCCCAGCCCCAGCCACGGCCCTGGAATGGTGAGGGGAGACACGGGGTGGAGCCTTCCAGCCTC
R
CCGTGGATTGATTGAGCACAAACGTGGGTCACACTGGGCTCTGAGGATGTAAAGATGAATACGTTGCACTTTACCTCAAGAAGTTCCCAGTCTGAGGTGG
Celera SNP ID:            hCV29193097
SNP Position Genomic:     19941
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6509):
CGGTGGGAGGAAGGAGGCTATTAAACAGGCAAGCGGCCCCGGCAGGAAGCTACCCAGGTCTCCAGTGGGAGCACAGAGGAAGCCCAGCCCACCCCATCCA
Y
CCAGGTCTAGATTTCAGAGAGGACAGGATGCCTGACCATGTCTTGAGAGGTGCACTGGCGGGGAGGGGTGGCAACAGGAAGGGCAGCCCAGGCAGAGGCA
Celera SNP ID:            hCV29193098
SNP Position Genomic:     20147
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6510):
CTGGGGTGGGGCCTAGGACTCTGCATTTCTTACAGATTCCCAGGTGAGCTGATGCTGGTGGTTAAGGGTAGCAAATCTCTAAAGCACGAAGCCCTCACAA
R
TCTTTGCCATTTCCCAAACACTCCGCTCCATGGTCTCCAGTCATCAGAGCAACTCTACCTGGTATTATCATCCCCATTTTACAGATAATGACACTGAGGC
Celera SNP ID:            hCV29193099
SNP Position Genomic:     31982
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6511):
ACCCAGGCTCCAGGCCGTGGGGGCTGCTGAAGGCTCTTTCCCCGCAAGGGCCAGGTGTTGACACCTTAAAGCTGGCTGCGCCCCCAGCCCCACTCTTGGC
Y
GTGCTGGCCAGGTGACTCCTAGTTCTTGGCCACATCATCAGAAAGTCAAAGGTCTCACTCCAGGTTTGGGGCTCCTTCCTTCCACTCCCCTCCCTGCCAG
Celera SNP ID:            hCV16175812
SNP Position Genomic:     32456
SNP Source:               dbSNP
Population(Allele,Count): JBIC-allele(C,100|T,1397)   total(C,100|T,1397) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:6512):
TGTGAGGGGAGGTGATGGGGTAGGGCTGGATTCGGTTGACACCAGAGATGATTGTATCTCTTCACAACTCCACATCCAGTGATGTCATGTTGGTAGCTTG
W
CATCAGCCATGGTGGGAGTATTTACACCAAGGAAATTGGCAACCACTACAAATCAAAGTTTTGTTAGTTTGGTTGATTGGCTGGTTGGGTTTTCTTCCCC
Celera SNP ID:            hCV2536580
SNP Position Genomic:     25730
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,3)   total(A,3|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6513):
CTTCTCCCCAAGGGCCAAGAACTGCTCAGGGACATTAAAGGTCAAAAGTCCAGCCACACTCATTCATCCTTTCCCCAGGCCCATGAAGAGAGGCATCTCA
Y
TGTAGAATGTATGAGGAAGTGGGAAGTATCTCAGAGAATCAGCTAAGTTTCCTAACTTGTCCATCCAAATGTGATCACCACGATTCAACAATTTGGGGCA
Celera SNP ID:            hCV2536564
SNP Position Genomic:     33302
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,4|C,5)      total(C,5|T,4) ;no_pop(T,-|C,-)   JBIC-allele(T,321|C,1176)   total(C,1176|T,321) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:6514):
TGTCTGAGTATCTCCAGGGGATGATTTCTGGCTCTTTGTCTCCAATCAGTCCCACTCCCTCCTGAGGTCCCCAAGGGCAGTATTCAGAGAGGTTTCCTGC
R
TTTTATTTCTATTTGGTATACCCTCCACTGTTGTCCACTGCCCTGTGTGGCCTTCTGGTTGACCTCTGCCCGATCTTCTGTCTCTCTGAGGGAATCAGAG
Celera SNP ID:            hCV2536565
SNP Position Genomic:     32823
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,2|G,6)      total(G,6|A,2) ;JBIC-allele(G,319|A,1164)   total(G,319|A,1164)
SNP Type:                 UTR 3


Context             (SEQ ID NO:6515):
CACCTCACCTCCCAAGTAGCTGGGACCACAGGTGCGCAACACCACACCCAGCTAATTTTTTTATTTTTTGTGGAGACAGGGTTTCACTATGTTGCCCAGG
Y
TGTTCTCAAACTCCTGGCCTCAAGCAATCTTCCCAACTTAGCCTCCCAAAGTGTTGAGATTACGGGCGTGGGCCACCGCACCCAGCGCAAGATTTCATTT
Celera SNP ID:            hCV2536582
SNP Position Genomic:     21522
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,2)   total(C,1|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6516):
TGGCCTTGCCCTGTAATCACTCAGTGCCCTTAGCTAGCCTGACTAAGTCCCAGATCCCCTACAGCTTCCTTCGGTGTGGTATCTTTTGCCACATCCAGGG
Y
GAGGGTTGAGGCAAACCAGCCCTCCCTCTGACTTCCTTGTCACTGCAGCCAGCTTTGCTGCACTTGCTGGTGCACAGGAGCCTCCTGTTTGGGCCTGGGT
Celera SNP ID:            hCV2536566
SNP Position Genomic:     31484
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:6517):
CTCTATATTGATTCTATGCAATGAGTGTTCAGTTTTTAAAATCAACCTTAAAGAACTCTTGAAAGAATAAAAAGAGGAGTAAGTGTCCAGTTTGAGGGCC
R
GGCACCGTGGCTCATGCCTGTAATTCTAGGACTTTGGGAGGCCAAGGCAGGCGGATCGCTCAAGTCCAGGAGTTTGAGACCAACCTGGGCAACATGGTGA
Celera SNP ID:            hCV2536583
SNP Position Genomic:     20587
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|G,4)   total(G,4|A,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6518):
GGTGGGGGTGGTTCTGCATTCCCTTCTCCTGCTGATAGCAGTCAGCTTGAGGAGGATGAAGGAAGGCAGCCTCAGACAGGAATTAAGGCAATGCCCAGGC
R
GGCCTGGGCACTGTATTCTGAGCAAGGGCCTGGGCCCAGGAGCCAGCCAGGGATGAGTGCCATCATGGCTCTCCACTCAGACTGTGCCTGGCCCCTGCAC
Celera SNP ID:            hCV2536567
SNP Position Genomic:     31262
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:6519):
TGGGGAGGGTCCCTGCTCAGTTCTGGAGACACTGGAGTTGGGGTGGGGGTGGTTCTGCATTCCCTTCTCCTGCTGATAGCAGTCAGCTTGAGGAGGATGA
M
GGAAGGCAGCCTCAGACAGGAATTAAGGCAATGCCCAGGCGGGCCTGGGCACTGTATTCTGAGCAAGGGCCTGGGCCCAGGAGCCAGCCAGGGATGAGTG
Celera SNP ID:            hCV2536568
SNP Position Genomic:     31221
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|A,5)      total(A,5|C,4) ;JBIC-allele(A,96|C,1381)   total(A,96|C,1381)
SNP Type:                 UTR 3


Context             (SEQ ID NO:6520):
ACGGGAGGTTAGAACTCCCCCAGGCCCTGCCATTGGGTTGTCTGTCTCCGTCATGGGGAGGGTCCCTGCTCAGTTCTGGAGACACTGGAGTTGGGGTGGG
K
GTGGTTCTGCATTCCCTTCTCCTGCTGATAGCAGTCAGCTTGAGGAGGATGAAGGAAGGCAGCCTCAGACAGGAATTAAGGCAATGCCCAGGCGGGCCTG
Celera SNP ID:            hCV2536569
SNP Position Genomic:     31168
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|G,6)      total(G,6|T,1) ;JBIC-allele(G,327|T,1173)   total(G,327|T,1173)
SNP Type:                 UTR 3


Context             (SEQ ID NO:6521):
AGTGGGGAAGGGGAAGAAAGTGACTTCTGCAGGACATATGGAGTTTGAGATGCCTGAGAGATGCCCAGCTGGGGAGCTTCAGTGGGTAGTGTAGCCTTTT
R
AGTCTGGAGTCAAGATGGCTGTTAGAGACAGAGGCTTGCGGCTTGGGACAGGACATCAGTGTGTCAGCCAGATAACCCCCATCGGAGTCCCAAGGGGTCC
Celera SNP ID:            hCV15877462
SNP Position Genomic:     16998
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6522):
CTCTCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAAGCACGCACCACATCGCCCAGCTGGGCTTTGTTTTTAAAATGTTACAGGTTGAAGATTCTCCCT
R
CAATATCACTCTCTCTTCTTTGCATTTTTTTGTGGAGGCTTGGAGGTTGGTGATAGCTGGTGCACAGAGATGTGGTGCATACCCCATGACCCACCTTGTC
Celera SNP ID:            hCV2536585
SNP Position Genomic:     17465
SNP Source:               Celera
Population(Allele,Count): no_pop(G,1|A,6)   total(G,1|A,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6523):
GTTGAAGAACATTTCAGGTAGCGATAGCTATTGTTTTAATTTTCATTTCTCTGATTACTAATGAGTTAGAGCATCTCTTTATCTGGTTTTTCAAATTTTG
K
ATTTCCTCTTGTCAATTGCCTGTTTATGTCCTTTGCCCATTTTCTTTTGAATTTGTTGCCTTTTTCTTCTTGATTTGAATATTTGCTGATATATTCTACA
Celera SNP ID:            hCV2536586
SNP Position Genomic:     14498
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|T,5)      total(G,2|T,5) ;(G,-|T,-)   (G,-|T,-)   African American (pooled) - WICGR(G,47|T,53)   Asian (pooled) - WICGR(G,9|T,75)   Caucasian (pooled) - WICGR(G,36|T,60)   total(G,92|T,188)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6524):
CGATCTGGTTCACTCATTGTTTTCTTGTCTATGTCTTCCTCCATCGCCCTGAGGATAAGCTCTGGCCAGTCTCTGTTAAACCTCAGCCCCTAGTGCAGTG
S
CTGGCACAGGGGACGTCCTCAGGAAGCATCTGTTGAATGAATGAATAGATATGCCCCGGTCATGGGCCATGGAGTGAGGAAAAGGCAAGGCTAAGAGTGG
Celera SNP ID:            hCV15877463
SNP Position Genomic:     15148
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6525):
AGTGGTCAGGGACAAAGGAGAGTGGGAATGGCCTTTGAAATAAAATAAAATGATTTAGGTGAAGAAACTCTAGGAAAGGGTAATTTTCTCCATTTAGATC
Y
TTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCCATCTTGGCTCACTGCAAGCTCCGCCT
Celera SNP ID:            hCV2536587
SNP Position Genomic:     13871
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,4)   total(C,1|T,4) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6526):
GAAGACTGCGGCATCCACCTGGGCGTGCACCGCGCCCGCATCCTCACGGCGGCCAGAGGTCAGCCCGCTCACCCGGGACCCCGCCCCAGCCCCAGCCCCA
R
CCACGGCCCTGGAATGGTGAGGGGAGACACGGGGTGGAGCCTTCCAGCCTCGCCGTGGATTGATTGAGCACAAACGTGGGTCACACTGGGCTCTGAGGAT
Celera SNP ID:            hCV27872463
SNP Position Genomic:     19889
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6527):
TGAAGTGTCACCTCTCTCAGGACCTCTCCTCTGGCCTGTGGGGTTATAAGTGATGGATAGCAGAAAGGGAGAACTGACTCCTGTCCCAAATAGCTCCTCT
S
CCACCTGTCCTGCAGTGGGCCTGTGTGGGTTATGATTCTAGATCCTAGACAGAGGCTGGGTCAGCTGTGGATGGGGTGGTGCCTTGGTCTCTCTTGACTA
Celera SNP ID:            hCV27872464
SNP Position Genomic:     33996
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6528):
TGACGTGTGCCTGTAATCCCAGCTACTCTGGAGGCTGAGGCAGGGGAATTGTTTGAACCAGGGAGGTGGAGGTTGCAGTGAGCCGAGATCGTGCCGCTGC
M
CTCCAGCCTGGGCAAGAGTGAGACTCCATCTAAAAAAAAAAAAAAAAAAAATCACGAAAGCCATTGCACATAAATTCAAAAAAGTGGAAAAGCACACAAA
Celera SNP ID:            hCV2536589
SNP Position Genomic:     10135
SNP Source:               Celera
Population(Allele,Count): no_pop(C,3|A,7)   total(A,7|C,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6529):
GTGACCGGGAGTAGTCACTTAACCTATGTCTCCCCTTCCTCACCAGTAAATCCTGCTACATCATGTACTGTGACAAGGATTCAGTAAGGTCATATGTGGA
Y
AGTAGCTGGCACAGAGGGGCTACTAAACAAATGGCTGCTATTAAATCCACATTAAAAGTACATGTGATCTGACAGAACCCAGCACATAAAAGAAAAAAAA
Celera SNP ID:            hCV25991920
SNP Position Genomic:     35518
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,37|T,1)   total(C,67|T,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:6530):
GCCTGTAATCCCAGCACTTTGGGAGGCCCAGGCGGGTGGATCACCTGAGGTCAGGGGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACT
A
AAAAAAAAAAAAAAATACAAAAATTAGCTGGGCATGGTGGCGGGCATCTGTAATCCCAGCTACTGGGGAGACTGAGGTGGAAGAATCGCACAGAACCCGG
Celera SNP ID:            hCV26650773
SNP Position Genomic:     8676
SNP Source:               Celera
Population(Allele,Count): no_pop(-,2|A,9)   total(A,9|-,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6531):
GTAAGGATTCCAGGAATGAAGCTGCCATTTCTGGTTGGGAGGAGAAGAGGAAACTTTTAAGAGAAAGGGCTCCATTATGAGCATGGGTTCAGGGCCCTGC
R
TTACCCAATCAGAACAGCCGGGATGAGCAGGAGGCCAGCTCCCAGGAGGAAGGGGAACCCCTTCATAAAGTTCAGAGTGGCTGGGTAGAGTGAGTTGAAG
Celera SNP ID:            hCV25994436
SNP Position Genomic:     35179
SNP Source:               Applera
Population(Allele,Count): african american(A,30)   caucasian(A,37|G,1)   total(A,67|G,1)
SNP Type:                 UTR 3


Context             (SEQ ID NO:6532):
GCTGAGGTGGGAGGATGGCTTGAGCCCAGGAGGCGGAGGTCACAATGAGCTGAGATCATGCCACTGCTTTCCAGCCTCAGTGACAGAGCCAGACCTTGTC
A
AAAAAAAAAAAAAAAAAAAAAAAACAATTCCATCAGTGTGCCTACCCCTTTTTGCCACTTCCCTCTTGCTTTCTTCTTCTCAGGATGCTATTGCACCCAT
Celera SNP ID:            hCV26650774
SNP Position Genomic:     9542
SNP Source:               Celera
Population(Allele,Count): no_pop(-,1|A,4)   total(A,4|-,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6533):
TCCCAGCACTTTGGGAGGCCCAGGCGGGCAGATTGCCTGAGGTCAGGAGTTCGAGACCACTCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATAC
A
AAAAATTAGCCGGGCTTGATGACGTGTGCCTGTAATCCCAGCTACTCTGGAGGCTGAGGCAGGGGAATTGTTTGAACCAGGGAGGTGGAGGTTGCAGTGA
Celera SNP ID:            hCV26650775
SNP Position Genomic:     10015
SNP Source:               Celera
Population(Allele,Count): no_pop(A,1|-,7)   total(A,1|-,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6534):
AGGCTGAGACAGAAGGATTACTTGAGCCCAGGAGTTTGATTGAGACCAGCCTGGGCAGCATAGTGAGAGCCCTGTCTCAATTTTTTAAAATTAAATTAAA
M
ATTTTTTAAAAGTTCTTCTCAACCAGACCCCCTCTCTGGAGATAAACCACTATAACAAGTTTCTTGTATATCCTTCCAGAGAGAGTCTCTGCATATACAG
Celera SNP ID:            hCV26650776
SNP Position Genomic:     10404
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|A,5)   total(A,5|C,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6535):
GGTGAAACTCTGTCCCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCAGGTGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATCACA
K
GAACCTGGGAGGCAGAGGTTACAGTGAGCTGGAATCGCACCACTGCACTCCAGCCTGGGCTACAAAGTGAGGCTCCATCTCAAAAAAGAAAAAGAAAAAG
Celera SNP ID:            hCV26650777
SNP Position Genomic:     17863
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|G,5)   total(G,5|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6536):
AGGAAGGAGGCTATTAAACAGGCAAGCGGCCCCGGCAGGAAGCTACCCAGGTCTCCAGTGGGAGCACAGAGGAAGCCCAGCCCACCCCATCCACCCAGGT
Y
TAGATTTCAGAGAGGACAGGATGCCTGACCATGTCTTGAGAGGTGCACTGGCGGGGAGGGGTGGCAACAGGAAGGGCAGCCCAGGCAGAGGCAGCGGCCT
Celera SNP ID:            hCV26650778
SNP Position Genomic:     20154
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:6537):
GGCGTGATCTTGGCTCACTGCAAGCTCCACCTCCCGGGTTCACACCATTCTCCTCCCTCAGCCTCCCGAGTAGCTGGGACTACAGGTGCCCGCCACCACG
S
CTGGCTAATTTTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGTGAGCCTCAGTTTTCTTTTCTGCAAAATGGGGTAACTTACCT
Celera SNP ID:            hCV26650779
SNP Position Genomic:     23501
SNP Source:               Celera
Population(Allele,Count): no_pop(G,2|C,7)   total(G,2|C,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6538):
CCCCCATAGCACCCCCCGGGCCCCCAGTGGGGAATCATCTCTTTAGCATACAAAGACACTCATCACTCAAGAGATTCCAAGGGTTTTAGCAGCTCTGTGC
Y
AGGAACTCTGGGCAAAGGAAAAATATTTATTTTTTATTACACTACAAGGGTTAAGGTAGACATCAAGGTGGACATCAGGACTGGTGTCCTGCCCTGGGCC
Celera SNP ID:            hCV2536570
SNP Position Genomic:     30283
SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,6)   total(C,6|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6539):
GAGGTGGGGCTGAAAGTTCCAATCCTCTAGTCATGCCCTGGTCTCCCTGGTGACCAGCCCTCTTCCTGAAACTATCTAGGCTACCCCCATAGCACCCCCC
R
GGCCCCCAGTGGGGAATCATCTCTTTAGCATACAAAGACACTCATCACTCAAGAGATTCCAAGGGTTTTAGCAGCTCTGTGCCAGGAACTCTGGGCAAAG
Celera SNP ID:            hCV2536571
SNP Position Genomic:     30200
SNP Source:               Celera
Population(Allele,Count): no_pop(A,2|G,4)   total(G,4|A,2) 
SNP Type:                 INTRON


Gene Number:                 54
Celera Gene:                 hCG31819 - 30000061155490
Gene Symbol:                 MGC45714
Protein Name:                hypothetical protein MGC45714
Celera Genomic Axis:         GA_x5YUV32VS61(1406896..1424934)
Chromosome:                  Chr17
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1715):
CACATACCCTCATGCCCATGTAGAAGGGGATGACAGTGACACGTATGTTCTCAGTTGTTTCCCGATGAACATCGGAGAGCTCCAGCCAGGGGTGATTCTT
CTCTTGCCAGGCCCTTAGCGTCTCCCGAGCCACAAAAGGAGGTGCTGGGGCAAGATACAATTGGTTAGTCCAATTGTGTGTTGTGGATACAATTGTATCT
AGTCCAATCACACAATAGTCCAGTGCGATTGCCCCTCCTAGAAAACCCTCCCTAGTGGTGGCCCAGGCAAACAAGGTGCTCATACATGAAGCAAAAGTTC
AGGCTGGAAGAAGGCACAGGACTGCTACCAAGAATAAGCCCTGAGGAGCTAGTGTGATACAATGGGAAAACAATCGGACTGGCAGTTAAGAGCCCTGGTT
TTCAGCCCTCACTCTGCTACTAGCAACCTTGAGTCCCTTGTCATCATCCCTGATCCTCAGTTTCCATATCTGTAAGGAAATAACTGCCATCTGTCATCTG
TCAGGTATGACACCTATGAGGCATGACAGCTCTAACAGGAGGTTGAAAAGGGTTGTGGAAATAGAGCGTTGGAATTATTTCTTTTTTTTTTTTTTTTTTT
TTTTTTTTTGGAGACGGAGTCTTGATCTGTTGCCGGGATGGAGTGCGGTGGCATGATCTCAGCTCACTACAACCTGTGCCTCCCGGGTTCAAGCAATTCT
TCAGCCTCAGCCTCCCAAGTAGCTGAGACTACAGGTGCACGCCACCACACCCAGCTAATTTTTATATTTTTAGTAGAAACAGGGTTTCACCACATTGGCC
ACGATGGTCTTGATCTCTTGACCTAGTGATCTGCCCGTGTCAGCCTCCCAAAGTGCTGGAGTTATAGGCGTGAGCCACAGCACCCGGGCCTTTTTTTTTT
TTTTTCCTGAGATGGAGTCTCGCTCTGTTGCCCAGGCTGGAATGCAATGGTGCAATCTCGGCTCACTGCAACCTCCACCCTCCTGGGTTCAAGTGATTCT
CCTGCCTCAGCCTCCCAGGTAGCTGGGATTACAGGCGCCCACCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCAGGTTGGCC
AGGCCAGTCTTGAACTCCTGACCTCAGATGATCCACCTGCCTGGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGTGCCCGGCCCTGGAATTA
TTTCTATGATATTCTTTGATGAAAAGGCCCTCCCATTCCACCTCCCCTTCTTGAGAGAGATTACCTTTTGTCTGGTCATACAGAAGAAATCTTTCAAAGA
GTTCATGTTGGATGGGAACCTGATCAGTGGAGGTGTAGGGGAGGATGTCTTCATGGCTGACATAGTCCAAGCCTGGCACAGAGATGCAAAAGACAGTGGT
GAAACTCACAGGAGAGGAGAGAGATGGGGTTGAGAAGAAACATTAACTGGCCTTGTTCCAGTATGGGATAACCCTGATATCATACCTCTCAGCATCATAA
TCCCTCCCAGTGGATGACAGGACATCAGAATCCTCTCCCTGAGACACACCAGACTCCTTCTTGACGGGCACCATTCAAATGCTAACTACTCACCTGGGAT
GGCATAGAGGGCCCGACTGTCATCATGGTTAGCCAAGAAGGTCACAGCTTCTGTCTGAGATCTCTGAGACTAAGGCAAGAAGTGAATCAGTGGTGAAACC
ATGTCTCTGCTAAAAAGTACAAAAATTAGGCTGGTGTGGTGGCAGATGCCTGTAATCCCAGCTACTCGGGTGGCTGAGGCAGGAGAATCACTTGAACCCG
GGAGGCAGAGGTTGCAGTGAGCTGAGATCTCACCACTGCACTCCAGCCTGGCGACAGAGTGAGACTCCATATCAAAAAAAAAAAAAAAAGACGTGAATCA
GGGCTTTGTTGGCCACTGTGCAGTCCAAGGCCTTGGGGACCAAGACTGACCTGGGCTCTGTTTGACCCCCTTCCCTCCCTTTGTCCCCATTGGGATGCAG
GACTTTCCATGGAGAGGACCCCCAAGCCCAGCCATCTTGCTTACTTACTATATGTGGGCAGTCACGAGCATCAATCAGCACCTGATAGTAAGTGTGAGTT
TTGCCTTTCACCTCCTTGGAGCCATGGCCAGCAGGGTTCTCTGCTCTATGGGGTGGGAGAAGGAGGCCAAGATCACCCCAGGAGAAATGGAAGCTGTGGC
TGACTCAGCTCCCTACTCCTCCTCACCTAAACAGGCTGGTCTCTGATCTAAAGGGGCTTTAGCACCAGCTGGACACCTGCTCTGCAGCACCTCAGCTCAG
CTGCTCCTCAGTTGGGGCAAATAATAGAGCATGGAAGACCATGGTATGGAGCCATCATCTGACCGTGTGGATACCTCTTAAAAGAAGGGGGCCATGTTGA
GAAAATCAAATTGCCACCTCAGTCCCCAGGGCCCAGAGTACTCTTGTCTTCTTATATCCCAGGGACTGTCTGTGATCACTTAATGGGGCTGAACCTTTTC
TGTTTTAATGTATTCTAGGGATGATGTGAGATTGAGGGAAAGACTCCAGCTGAACATCAAGAAATCAAGAAGACTTGTCCCCCAAATGCCCTCTGGGATA
CTCATAATGAAAATTAGGAATGGCTTAGGAAAGCATTCTGAGGAGGCCTAAAGGGACTCTCTGACTTAGACTATCCCTGGCACTCAGCACTTTTGTCTCC
ATGGGTCTTAGTCCCAGAGAAGTACTCTGGGGATGTTTCCAAGGCCTAGGAGGACGCTGTCTTCACCCCTAGTACCCCAATTACATATGTCTGCCATCTC
CTCCTGAGGATACTGTGAGGCACAACCACAGGGAAACTTACTTTTCTGGAGCTGCAGAAGCCACATCCCGGTCATACAGTCTGGCCTGCCAGGGAAACAG
GACGACACCTCGGTAGCCAAAAATGCTATGAAGGAAAAGCTGGAAGGAAAGAGGGGCCTCAGTGAGTCTGCAGTCCAGCAAATCCATCCAGGTGGGCCCC
AGACCACAAAGCAACACAGGTGGAGGCAACTCCAGCACAAGGTCTTGCTACCTCTTCCCTTGAAGTCTGTGATCAACCAGACCAATGCTGGAACACTCTT
ATTTCTTCTTTACCTGGCTGACTCTACTCATCCTTTAGGTAAAAGCTTAGGCCTCCAGGAAGCCTTCCCTGACCTCCCTTCCACTTAGCACAATGTACAG
CTATTGGCCATTTGCAAATCGTTCTTTTCTAGACTAGAAACTCCACAATAGCAGGAATCATGTCTACTTTGCTTTCTGATTTAACCCTAATGCACAATGC
CTAGTCCATTGTAGGCACACAGAAAAATAAAATGTTGAACAAACAAAAAGTCTTCCTTACCTACAATATCCTAGAAGGGCCTAAATCTATCCCAGTGGAC
CCAGAACAAAGCTGATATAGAAAAAGAACCACACATCCAGAGTTTACCACACTGAAGTCAATTTTATTACGGCAAAGCATCAAAGGTATACTTTTCTGAA
AGCTCCCTCCACGGCTTCCCACCATCCACTATGTTAGAGAAATCTTCAGCAACTTGGCTAAACCTCACTATAGTCCACACCATCCCTGTCCACATTAACT
TGGAAAGAGAACCCACTGACACATTAAGTGCATTCAAATCCAGGAGAACAGAAACCCTATCTATAAAAATTTGATTCTGGGCTGGGTGCGGTGGCTCACG
CCAGTAATCCCAGGACTTTGGGAGGCCAAGGCAGGTGGATCACCTGAGGTCGGGAGCTCGAGACCAGCCTGACCAACATGGAGAAACCGCATCTCCACTA
AAAGTACAAAATTAGCCAAGTGTGGTGGCGCATGCTTGTAATCCCAGCTACTAGGGAGGCTGAGGTAGGAGAACTGCTTAAACCCAGGAGGTGGAGCTTG
CAGTGAGCCGAGACCATGCCATTGCACTCCAGCCTGGGCAACAAGACTGAAACTCCGTCTCACAAAAAATAAATAAATAAAATAAATAAATAAAATAAAA
AATGAATACAAATTTGATTCTGGAATGGCACCAAACATCAAGGTGGAATGAATGGAACACCATACCATGCAGGCCTGTGACCTAATCTGACTTTTTTCAG
AAGCAGAGCACTCTATGAAAATGAAAGATGACCCAGCCCAATACTCACCTGCCCGGTCTCATATTTTCCATTCTGTTTTGGCACCTCAAACACACCAACT
GTCTCCAACACTTTGCCCTCTGGTCGGTTTCTGAGTAGGAAGGAAAAGAACAAGCAACAGAAAAGCTGAGAAGGTAATGGTAGTTATCCATAAGAAAAAG
CTCCTAGGATACTGAGGGGCCAGGGCGATGACAGCAGAGAAGGGTTTGGGGTAGTGGGACCAGCTGGAGCAGGAAAGGCTTTCCTCCTCCTTGGTGAAAA
CCTCCACAGTCTCCCAGTGTTAGATGTGACCGCTCCCATACTACTGTCTTCTCTCTTCACTGGGCATTCTTCATATCATGCCCTCACACTCTGCTCAAAT
GTACCCCTGCCCTTGTTTCTTCCCTAACCCACCCTCCTGACCTCCCACAGCACTTTAACTGTCTTGCTCACTTTTTCAATTTTTTTAGAAGGGGAGTATC
TTTTTTTCTTCTTTTCTTACATTTTCTATATCACAAGTCATCAAACAATATCCTGCTCCCTTTACATTTCAGTTGTGTCCATGTCTTATCTTTATTAAAT
ACTGTAAATTCCCTGGGAGCAATGCCTGAGTCTGATTAGCTGGTACTGCCCCCTCAGAGCCTAGTGTACAAGAGGTGCTCAAAAAATATTTGTCCTGTAT
TATAATTCCATGTCCATCTCCCCCTCTAACCTGTAGCCCTTACATTGCCCTTGAAAAGCTTAAACATCTCTAGATTTCCTACGGCACATCGCTCTCTCAA
TACCGTTTTTGTTCATATTCTCACAGGGGTCTTAAATTGCAAATAGCTATCATCTCTCCCCAATGTTCAGTGTCTAATATCAGCCACTAAAATGTCAGTC
ACCACTCTGAACAGGGCTGCTCTTTCTAGGGGCCCTTCAAATAAAGGCTGTTTTTACTGTTTTGAAGATGTGAACTTTATGCTTCCTCCCACTGATCCAC
CAGCCCATTTGATCCGCCTGTCCCATCCGTGGAAACAGTTTCCACACCATCCCCATGGCCTCAAACCCCCTTCCCCAAGTCACAGATAGAAAATCGATCT
CCCCAAAGTCACTTGGAAACCTGGGGCCTACGAGGGTCCACACCCAAGAGTCTCGTTTCCCACCTCTAGCATCTTTCTGAGGCAGACCTTCACCAAATCC
AAAGGCTGAGGGTTCAAGCCAATGCCCTAGGGCTGAATTAAAAAGCTTCCCTCTGACATCGGTGCTGGGGACCCCAGCCGGGGAAGTAGGATTCACTTGG
GGAGGGTAACCTGTTCCCCCCCAGGGCCAGCCCTGTACAACCAGGGCTCTGGGCCGCGCTGGCTTCCCTGCTCCTGGCACATGTCCCAGACAGCGCAGGT
CGGCTCCCTGCTCGGGACCCTCTCCCGGGTCAAACTCCAGTCACCCTCAGCAGGCCCGGGCCCCTGGCCTCCGCACTGGCTAGGAACACGCTCTCTGGGC
TCCAGGCCCAGTCCTCGCGCCCCCTGGCTCCGTCCCTCACCGGGACGAGAGGTGCCTCCGCGTCGTCGTGGTCGACGCTGGCGAGAAGGCTCCAGCTCCG
GCCGCCGCACAGAGCGGCCTTGGCCACCGGGCCCCAGTCAGCGACCGGGACCACCAGCGGCTGCCCACGGCCAGGGGCCGCCGGGCTGTACAGGCTGCCA
TGTCCCGCCCGAGCGCCCGCCCGGCTGCTGACACAGAGCCCGACCCGCGGCCGGGCGGTTCCGCCCCAGTCCCACACTGCCCCGCGCGGCGTCCCGGCCC
TCTTGGCCCGCCTGGTCCCACCCCGGAGCTCAGAGCAACTTCCGGTGCGCTTAGCGTTACTTCCGGCGCGCGGCGGGCGGAAGTCCGGGTTGGGGTCACC
TGACCGGAGAGCCGGCTAGATATGGCGTCCTCTTTGCTTGCGGGCGAGCGATTGGTGCGTGCTTTGGGCCCCGGCGGGGAGCTGGAGCCAGAGCGGCTAC
CCCGAAAGCTGCGGGCCGAGCTTGAGGCCGCGCTGGGGAAGAAGCACAAGGGCGGTGATAGCTCCAGTGGCCCCCAACGCTTGGTTTCTTTCCGTCTCAT
CCGGGATCTGCACCAGCATCTGAGAGAAAGGGGTGAGCCCCAGTCTCCAGTCCGGGGTCCCCTCCTTGTGTCCAGATCGATTCCCTCCTGAGGTCTTTTC
CCATCATTCCCCTTCTTCTACGGAGCACTCATCTAGACAAGTCAAGAGTCACTCCATAAATCCCAGGGCCACCCACTTTCTTAACTCCCATGGGAATTTC
TCGTGGATGACAAATTTGCTTGTGCAGTTTCTGCTCTTTTGAGAGCCCCCTCTTCACTTCCAGGCACACCTAGGCCCAATTCACCCTTGAGAAAGTCTAG
GTTTTTACCAAATACAAATATCACAGGTTTTGTCTCTTCTTTTTCTCCACTTTAGGAATCAGCTTAGCATAGTGAGCTTGTAGGAATCCGGATTTCTTTC
CACCTCAAAAGCAAGAGTGGTGAAATCTGATACTTTGTTTTGTTTGTTKGTTTTTTTAATATAGGATGGCAAAAGCTGTGTTGAAAGATCTGGCCTGAGA
GTAGCATGTGAGTTCCAGTCCTAGCTCTGTCACTAATCCTTTGAAGGAGTCATTTCTCCTCGCTGGGCCTCAGTTCCCTTATGTGTAAAGGGAAGGAACA
GGACAAACTAGCACATAAGGTATTTTGCCAGAAGTAACATAGACCAGCCAGAAGTGCAAAGGGTAGACTGCTCAATTATTAGAACTAGAAAGGACCTTAG
AAAGAGATTGCCTAGTATTAGTGTCCTCTGAGCATTTAGCATCACTATGACCTAAACTTATTTAGGGAAGAGCTGTTGTGGCCACAGAACTGATCTAACC
CAAAGGCACAAGTAAATGGCTTACTTGTTAGTTATAACACTGGCAGGATAATTGAGAGCTGACAGCTAAAGTCACCTGCGCAGCACTGGGAGATACCTAC
ATGGAATTATCCAAAATTCTTTTCAATTGAAAATGATCCTGGAAATGGATTAATGTAGAGATGGCCCTGTTTTATTTTGGTAGAAAGAAGGGCTACACCC
CTCTTGATCTTAACCCTTCAACCTCAGCTCGTGGATCATTGTGTTTGTGAAACCTTTTCTTCTCAGATTCCAAACTATACCTCCATGAGCTCCTAGAAGG
CAGTGAAATCYATCTCCCAGAGGTTGTGAAGCCTCCACGGGTATGTAAGGGATATGTTTGTGAGAGTGGTTATTGACTGAGTTGGGCTTATCCATGATAC
ACTGAACTTATAAATCAACTTTTAGGCTTGAAAAATTGTTTTTGAAATCTTTGGGATCTGGGGGAGCCAGATATTGTCCTCCCCATCAGCTGTTTGGAAA
ATTGAGATCAAAAAAAAAAAAAACAGTTTCAAAGCACTGGAGTTAYGACTAGTATGTGGGTCTCCTGATACCTTTAGCAGTGCTTTACCCCTGGAACCAA
TGATTGTGATGTGCTTTCTAACAAGCTGGGAATATCATTCTTCTCATTTGATTTTTCTGCTTCAGAACCCAGAACTAGTTGCCCGGCTGGAGAAGATTAA
GATACAGCTGGCCAATGAGGAATATAAACGGATCACCCGCAACGTCACTTGTCAGGTAAGGACATGCTCTTCRGTACGTGGTCTAGGTAGCCCCTCAGAG
TAGGGCCCTGCASTGGAAGAAGATACAGAGTTTAGAAAAAACATGGAAACTTGGTTTCTRTACTGTTCAGGGACCATAGRAAGTCTGCATACAAACAACA
CAGTTCCCATCTCATTCACTGAGACTCTGGGCTGAGATGGTGACCAAGTTTTAAACGTCATAGAAGTGGGAGTTAGCCGGGCACGGCGGCTCATGCCTGT
AATCCTAGCACTTTGGGAGGCTGAGGTAGGTGGATCACTTGAGGTCGGGAGTTCGTGACCAGCCTGGCCAACATGGTGAAACCCCGTCTTTACAAAAAAT
ACAAAACTTAGCCTGGCGTGGTGGCGGGCACCTGTAATCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCGGAGGCAGAGGC
TGCTGTGAGCCAACACTGCACCATTGCACTCCAGCCTGAGCAACAAGAGCAAGACTCCATCTCAAAATAAATAAATAAATAAATAAATAAGTGGGAATGA
ATCTTGGAGGCTTTTTTTCTTCTTCTTTTTTTTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGGGCAGTGGCAGGATCTCTGCTCACTGCGG
CCTCCGCCTTCCAGGTTTAAGTGATTCTTATGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCACCACGCCAGGCTAATTTTTTGTATTTTT
AGTAGAGACCACGTTGGCCAGGCTGGTCTTGAACTCCCAGCCTCAAGGTGATCCTCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAAGGTGAGCCACT
GTGCCCAGCCATTCGAGCATTTCTTCTGACAGGGCTCCCTACTACTCTATGGCATGCTCCTACCCTGGAACAGGAGAGTAGATGGGTACTGGCAGCCTAT
GTCCTCTCTCCGAAATGCCTGCTCTGTAGTCCAGAAAAGAGTCAAAATGGTTCCAGACAAAAGAATCCATGGGGAGGGCAGAGTTAATATGTTGGGGAAT
AGAGAGGGCTGAGCCCAGACTGTCAATGGATGCTCTCTGAGCTGCTTCTATTCTGAATCATCTTCTTTTTCTTTTTCCCAGGATACAAGACATGGTGGGA
CTCTCAGCGACCTGGGAAAGCAAGGTGAGGTACTAGGAGATCAGGCTTCTRAAACCTTTTCCTGAGATGGGTCATGACACTCAGGCTTGTTGTTTGACTG
AAACCCAGTTGGTGGGGGAGCCATGAGATAAGAGCACCTCCTAGAGAATGTTGAACTAAAGGTGCCCTCTCTGGCTCCTCCCCAAAGTGAGATCATTGAA
GGCTCTGGTCATCACCATCTTCAATTTCATTGTCACGGTGRTTGCTGCCTTCGTCTGCACTTACSTTGGAAGCCAATATATCTTCACAGAAATGGCCTCG
GTGAGTAGGCACTGGGCAGGGCAGGGTGCCCCTGGTGGGGGTGTTAGTGGGTAAGGGAGGACGTATGTGAAAGTGCCTTGCACAGGTTAGGTATTGAACA
GATATTTATGCCATTAATAAGGGGAGCATTAGAGCTTTCCAGCAGTCACGGGAGGTTAGGTAATAACCCCAGGAGAAGCCACATTCTCTTTTCTTYCCCT
CCCSCAACTTAGAGGGTGGTTGGGGGGCTCTCCATCCTCATTAAAGTTGCTGGGGTACAGAGCTGGTTGTTGGCCTGCATCCCTTAAGCCTGGTTCTCCC
CATCTCCAGCGGGTGCTAGCTGCATTGATCGTCGCCTCTGTGGTGGGTCTGGCCGAGCTGTATGTCATGGTGCGGGCAATGGAAGGCGAGCTGGGAGAAC
TGTAACTGGTGCTTCATCATCAAGTCTAGAGAAGACTTTGGGGGCTTCAGGCTCCAATTGGCAGTCACCGACTCAGTCAACCCATCAGACTTTTTGTATT
CAGCTCCAGTTAGTCAGAAGACCAGCCCAGGCCAGCTGCTGTTTCTGTGGGGAGCCCTAATCTTCTGTGAATTTCCAAAGGGAGCATTGGAGGAGATTGA
GATAACACATCTTTAAAACAGAAAGAACTGGTCTTGGTCTATCAGTACCTCTTCCTGAATCTGGTACCCATCTGCCTTCTCCAGTTCATTCTAAACACTG
CTGGGACTAGGGTTTTTCCATCAGGAGCAAATGGAATCCAGGCCTTCCCAGAAGTAGACCATACTGCCTTGAACTTGTCCATATGTACAAACTRATCACC
AGCTTTCTCCATACATTTTTAATGCAGACCTGTAATTGAGTTCAGAAGCCTCCAAGAAAACAGAAAGGATCCCCTTTCTCCAGTTTGTGCTGRAAGAGGA
GCTGATCAGAGACATCAAATAAGAGAAAGATGGGTTGCTAGAGGATGGTAGAACTGGAAGCAAGGCAGCTACCTTTTTGCAAAAGGAAATGGTGTTAGGC
CCCTTTTCCAGAAGATAAGACAGACTCATAGAGATTAAATGATCACTATGGTCCTTCTTCTGTTAAATGGAGCCAAAGACGCCTATGTTGTTCTGAAGTC
TTGTAATGTTTAACTTCTGAGAACTTAGATTAGTGGTGTGATGATAGAGTCTGTATAACGCATTGAAAAGGGTATCAGGCTTAGTTATTTATCCAATAAA
TATTTATTGTATGCAGGGTATTCCTATTTTAACTCCTGTGACAACACAAAGCATAGCGATTTCCATAGTTCTAACTGTTCAGGGTCTGCTCCTCCTGGTA
CACTCTTTTTGGTTCACTGTATGTACTCCTGTTGTCTTTTTTTTTTTTTCCAAAGCACTTTTCTGTTTTCATAAATTATATACTCATTCACTCAGTGGAC
ACTTCCTCTACAATGTTTGCCAGTTTCTGTTAGTTGGGAGAAGTGTCAGCTGTGAAAAGAAAAAGTAGGTGGCATTTTACAGTGTTTCCAGTAAMCTGAG
CTATATAAAATTTGTGTTAAAAAGCTACACTGGGCCAGGTGAGGTGGCTCACACCTGTAATCSTAGCATTTTGGGAGGCTGAGGCAGGCGGATCACTTGA
GKTTGGGAGTTTAAGACCAGCATGGCCAAYWTAGCGAAACCCCATCTTTACTAAAAATACAAAAAAATTAGCCAGGCGTGGTGGTACATGCCTGTAATCC
CAGCACTTTGGGAGACYAAGGTGGGAGGATGCTTGAGTTCAGGAGTTTGAGACCAGCCTGGGCAACATGGCGAAAGCCCATCTCTACAAAAAAACGCARA
AATTAGCTGACATGGTAGCGCACGCCTGTAGTCCCAGCTACTCAGGAGGCTAAGGTGGGAGGATCACTTGAGCCTGGGAGGCAGAGGTTGCAGTAAGCTG
AGTAAGCCAAGATCATGCTATTGCACTCTAGCCTGGATGACAGAGTGAGACCTTGTCTCAATGAAAAAGCAGGGGGCACTGGGAGGGGAGAACCAAATGC
CCTATCCTCCAGTTCTCAGCATATAGAAGGGAGCTCTCTCATCTGCTAGCCACTCCTGCCTCACTGTGCCATGCTTTCTGTAATGCACTCTGGGTCCAGG
GACTGCTTGGCAGGAGGTGGGAAGAACAAGAAGTTTAGGGCCTTCCCAGTTTCTTAGGGCCTGTCTGGAGAGGGAACTAGCGTTTACTGAGTTTTTACGA
TGTGTTACACACCATGTAAAGCCCTTTACCTACATTATTTCTTATACCCCAAACAGAGAGCAAATAAGTATCCCCATTTTTTAGTCACATAGAGTTCCAG
AGTTGCCACAGTTACATCGCAAAGTCAGGATTTGAATCCAGTGCAGACCGCAAACACCATGGTTTTCTCTCCAAAGCAGAGCAGCTCCAGAGGTGGAGGT
GACTGGAATGTCCTAGATTCAGTGGGACCAGGAGCTGGGGGTGCTAGCAGAGGCTCTCATCTCCCCAGGGTCTTGTCAGTCAGAGTCCTAAACCCTTCAA
TTAACTATCCCTCTAATCCCAGCTGAAGCCTGGGTAATACCTCCCACCAAGAGGTATCTGTGTGGAACCTGGCCCTATTTAGGGATTAGGTGATGGAGAT
AAATTTCCATGGCAAACGGCCCTCGTCCCCGTTCGTTTGCAGAGCACAACAATCCAGATTAAGGTACAGAGTTTGGGTTTTATTTGGAGATTAGTTGGTA
TTACAGGTGATGGTGATACCAAAACCCAATGCTGCTATACCTGCCTCCATCCCAGATCTGTCAGGTTGTCTCCACAGCCCCACATCAGAGGGCATCCAAT
CTGATCTTTGTGAAAATTAAATCAACATAAGCCCCAGCTTCCTATCTTTGCTTCATTACTTTAATGCCACTCCCTCTTCACATCCGTAGTTCTGATTAAT
TTGTCCAGGTGGTCGATGGTCAAGAGAGGGGGCCCTGACCCATAAAGAAGTTGGCTCTCCAGCAGTCTAGATGAGGAGCAGCACTCTCCTCTCCTACCTC
ACTTAGCAGTTAGCAAGGTAATGGCCTGGAGAGACCTCAGGAGACAGGAGCCTGCCCCTTCAGAAGGAGGAGGCCATCAGCTGGTGAGAACTGGGGACCA
GGCCTGGCAAGAGTGGAGGAAAACATGACCCTCATCTCATCCTTCTGAAGGTACCACCTGCCACAACAATGAGCATATGCCCCAAAGGGGTCAGGGTGTG
GGGTGGCAGGAGCCAGGCCCCAGTCTGCTTAGGACCTGCATCTAGGCTGGCCTGGAGGCCAGTGGAAGGGAGGGATGCCTGAGCTAAACTCCTTTCCCGT
AGGGAATCCCTTTGCATAAAAAGTGGGGCCAGGGAATCCACTTCTGATGTGTTCAATCCCAGGAGGGGCAGGGTGGGCCACAGGAGTCAGAGGAGGGGCC
TTGCAAGTTCTGGACAAAGACTAGGAGTGGTCCACATTGACGACAATGGCCGAGGCATAGATGAGGTCAGACAGGCTGCCTAGTGAAGTCTGGGGAGTAG
CTCGCTCTAAAGAAGGGTGGACCTCTGAAGCCCCAGCTGATCCCCATGGGGCTACAGCTTTAGCCCCTTCCCAGCCCTGCCGTGGACTCAAGCCAGGAGC
TGGACAGGAGCTATGTCGACACACTGAGGTGCGCTGAGGTGTGCCGCTGGAGGGTGGAGGTTGGCCTGGCATTTGGGGATCCCAGGGCTGCTGGAGGGTG
TCTGGAAGAGAACAGGAGCTCTGGGGGCACTCAGACCCAGGGCTTAGAATTCCTGACTTCCTGTTCTTGATTATTTTGGCCCAGCGCTTCTGGAACCACA
CCTGCTAGGAAAGAAGAAGGGGTCTGTTCTGGCCCCAGCATCCCCTCCACCCAGGGACAGGGGAAACAACCTGAAGGCAGGCTACCCAGCGAAGGGGCTG
TGGGCCAAGCCTAGATGTTGGCTGTGTGAGAAGGGGTCACAGCTCACCTGTACCTTGGCCTCAGGAAGGCAAGTGACCCAGGCCAGGTGCTCATGGGTGC
TGATGTTGGGGTAGGGCCATGCTGCAAACGCCCTCTCCAGCTCCAGTAGCTGCCCTTTGCTGAAGGTGGTCCGCTTTCTCCGGTGGGAACCCAACCCGCT
GCCACCGTCTGCAGGCCATGGTGGGGGTCAAGCTGGGACTCCCTGCAAGAGCCTCCACCCAGCCTCAAAGCCCTCAATCAACCCCGAAGTCCCTACTCCC
ACCCCTCTCCAACCGTCCTCATCCTACCATGGCCTGCGTTCTCACCCTGCCCACACTTCCCCCATCAGATCACCTGCTGAGGATGCATCCACAGGGCTGG
GCATGGAGCTGGCAAAGGGTAAGGTGCCAGAGGGCCGTGCCAGAGGGCCATGCCAGGGCTGTGCCCACACCAGACCCCCCCATTTGGGTTTTATCATGCT
CAGGGTGGCTGGCCCCGCCTTCAGGAGTGGAGAGGTTTAGAGTCCAGCTCAAGCAAGGCAGAGAAGTCTCGGTGGGGAAGAAGGGAGGCTGGAGGCCGGG
TTGGGCTTATGAGGGTATGGGTGGGGCAAATTGTATACCCCCTGCCCCTCCAAGGCCTCGCAAAGGAAGCTGGACCCAGCATCCCTTCTCAAACCTCAAA
CTGGCAGTCTGTGCCTGAAATCCTATACTTCATGAAAATCCTCCCAGGGGTCCTTCCAGGCAGCCAAAGAAAACCATCTCTCCAGTGCTCCCAGGCACTG
GCTGCCCCTTCTGGAGCCCTTAGTGCTCTGAACCTGGCTACCTTCAGGGGAGAGGGAGTGGAGTCCTCTCCCACAACTGGGGACTGGGCTGGTGAAGTGG
GACAGGATGAGAAGGATGGTAGGGTGTCAACGGGATGAATGGGAGCCAGCCGCTGTCAGCAGGACTGGGGAACAGATGTCACCACCAGATTGCCCTCAGG
TCTGCTTTAGAGCTTTGCCTCATCTAACCCTTTCTCTCTCTGGCCCCTCAAGAGCCAGATGGACTTCCTGGGGTTCGGAACCTGGAACCAGAGGAGGTTC
CACAGGTGCAGTTGAGGGGTTCTAAGAAAGATGATAAAGATGTTTATGTGTACAGTATTCTCTTCCTTGGATATATTCTGAGCCACTTTTTCTTAAATTT
TGAAAATTTTTTTCTTTTTTCTTTTTTTTTCAAGATGGAGTCTTGCTTTGTCACCCAGGCTGGAGTGCAGTGGCGTGATCTTGGCTCACTGCAACCTCCA
CCTCCCGAGTTCAAGCAACTCCACCTCCTGCCTCTTCCTCCGGAGTAGCTGGGGTTACAGGCGCCTGCCACCACACCCGGCTAATTTTTTGTATTTTTAG
TAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTAACCTCATGATCCACGCGCCTTGGTTTCCCAAAGTGCTGGGACTACAGGCATGA
ACCACCGTGCCTGGCCTAAATTTTCTTTTTCTCACTCTGTTGCCCAGGCTGGAGTACAGTGGTGTGATTTCTGCTCACTGCAGCCTCAACCTCCCAAGCT
CAAGCAATCCTCCCACCTCAGCCTCCTAAATAGCTGGGACTACAGGCACACACCACCCATAAGTTGCCCAGCTAACTTATTTATTTTTGTAGAGATGGTG
TCTTGCTATATTGCCTAGGCTGGTCTCAAACTTCGGGATTCCAGCAATCCTCCCACCTTGGCTTCCCAAAGTGCTGGAATTACAGGCATGAGCCACCATG
CCCAGACAAAAATTCCCCCCCTTTTTTATTTTGTTCTGTTTTTAGAGATAGAGTCTCACTCTATTCCCCAGGTTGGAGTGCAGTGGTACAATAATAGCTC
ACTGCAGCTTCAAACTCCTGGGCTCCTGGGCCACTTTTCCACAAGAAGTGTGTGCTTTTGAATTTCCTTTCAGTTTCTGCCCTTCACTATCTCTCCTGGT
CTTGCTGCTCCCCATCCTAGACCCTAGACAGAGACCTCAAGAAAGGCTCACCCTAGGGGTGGGTTTGGGGAAGCACAGTGACTGGTTCCCCAAGTGCTCA
GGAGTCAGAGCTACTAGGATTTCAGATCAGGATGGACAAAAAAGCTGAGCCAGAACCCCACCAACTCTTGCCCCTTCTCTCTCCTCCAAGACCCTAGTCA
ACTCCAAGGGGCAAAGCAAGCCTCACCCACGGAGGCTGGCCTGGTAACTTTGTCATCATCAGAGGAGTTCAAGTGTCTGCTTAGCTGCTGGTGGGTTGCT
GGGGGCTGCTTAGCTCAAGAGGAAGGGTAGCTCTCAGGAGGCCTTCCCCAGCCCCAAACCGGTTCACAGAGAGGTCCTGAGCACAGAGAGGTCCTGAGCC
CAACATGGGTTGGACACGGCGAGGCCCTTCTCTGTCCCTTCTCTGTCCCCCTCACCAACCCATTCTGACAGTCCAGCTTCCTCTCCTTTACCCAGACAGG
GATGTGTCTACCCCAGTCAGAACAATAATTTTAAACTCGGGGCTAAGGGACCTTTATTGGGCTGGGGGAAGGAGATGGGAGGAGGGAGCTACAGAGGGCC
CGGCCATGTGGGCTCTGACTCCTACAGATGGCCAGGAGCTGGGCAGCCCAGCCAGTACTGAGCGATGGAGCGTGGGTAGGGAGGGTCCACAGTGTCCACT
CGCCGTGTGCGAAGATTGACTCGGTAGTACTTGTCTGGAAGAGAGGAAAGCAGAGGATGCGTGAGGCCCAGCCTGGCCCTGCCCACTCTTCCCTTGAGAA
GTCTAGGGTCTCTCCCAGAAGGGAAAGTGAACATCCATGATGCAGCTAAGGACTTCTGGCCTGGCTTTCTGTGGTCACTACTTGCAGGCTGCGTTCAGCC
CTTGTGCACCAGGGACAGCAAGGAAAACCCAAGCTAGACCAGCTTCAGGGGTGGCAGCGGCTCCTACCTCCAGAGAAGAAGAAGACACTCTGGATGGGTT
CACAGGTGGCAGGCACAAGCCAGTCCATCCTGTAGTCATCATAGTTGTTGGCTCCCAAGTTGCTCTCCTCACTGGAGAACAAGGACAGCCACATGGCGCG
GGATGGCCGGCGGGAGTTCTGGTTGCGGCCACGGCTGTGGCCTCGTTGTGAACGGTAGCCTTTGCGGTTGCGATGCCTAAACCTTTGTTTCTTGGCCAAG
GAGGGGCGGGGTGCCATGCCTGAGATGTAGATGCGGCCAGCCATGGCTGCGTCCACTTGCCCTGGCACACCGTGCCAGTCCCGGCTAATGAACTGGGGCT
GTCTGGTACCAGCTGTGGCAGGGAAGGGGTGAATGAGAGGTCTTGGGGGTCCGAATCTTGCCCCTTCCAGCGGGGCCATTAGAGTTCATCTGCTGCACCT
TGCCCAAAGACACACAGCAGCGAATGGCAGAGCCAGGCCTTTGACTCTCAGTCCAATTCCCTTCCCCCTGTGCTTTCCCTCCACCATATCACTGGTGTCT
CGACCCCACCCCCCCAGGCCCCCTAAACTCCTCAGCCACAGCCCCTCCCTCTGCTGGCTGTGCTCTCAGCTGTGCTAGGCAAAGTCCAAGGTGTGGGGTC
CAGGTAGAGCTGAGCTTTCCCCAAAAGGTCAACAGAAGCAAAGTCTGGCCTGAGCAAACAGACTTTGATCGATAGCTCCACAACCACAGCCCCCTCCAGC
CGGCCTGGCTCTACCAATACCAAGGGGTTTCAGCCCTTTTGAGGGAGAAGCAAGACTTGCCCTCTCTCCATACCAGAGGTTCTGCCCCAGAAGAGAAGCT
CGAAGATGTCCTCCCAGCTGTCCCGCTGCATCATGGCAAAGTGTTCAAACACAGCCGACAGGGAGCTGCCTTCACACTCCTCCTGACTGGGCTGGTGCTG
GAACTGGTACTCCCAGTACTGTTTCCCTGAGGAGCGGGGTGGTGGGCATTAGGAGGGCTGGGCCAGGGCAAGACTGGAGATCCCAGAGGCTGTTGAAGTT
AGGATCTCCCAGCATGAGGTGGGGGTCAGGGGTGGGCACATGCTGAGGCCTGTCCCCAGTGAAGTGTGAAAGGAATCCAAGACTGCTCCACTGCCTGCTC
AGTCTCCCACCACCCCCTGAGTACCCTTGAAGAAGTAGACCCGCTCCCGGCCACTGTAGCTATGGGCAGGGAGGGCCAAGGCTGCATCCACGTTGTCCGG
GATGCCATCGAAGCCGTCAGAGATATTTCGGGGGTAATCAGGGTCCAGGACACCATCCTCAAAGCGCCAGTACTGACTACCCTAAGAGGTGGGGAAAGTG
AAAAGGGGTATGGAGGCCGCTGGCTGGGCACAGAGGCAGAGTCCCTTGCCCTAAGGCAGCCGTTCCCAGGTCCAGGTTCACTGCCCAGGACCTGGAGTCT
TGGGGCTGCCCTGTGCTCACAGAGCTCCCACCAGGTCCTGCAGGGCCCTGGGTCCAGCTTCCCTGTCCACCCTGTCCCTGGGAGCAATAGCTCTCAAACC
CTCCCTAGATGCTTTCTACCCTGGCCCACAGCCCCTGGCACCTTGAAGAGGTAGGTCTTCCCCTGACAGTTGATGCGGGTGAAGGCGGCATCGATGGGGC
CCTCGATGCCCCAGACATCTCGGATGAGCTTGGGGTACCCAGGCCTCACTGCCTTTTCGTCCAGTTCATAGCAGTACTGCCCTAGAGTGGAGGAGATGGT
GTGAGAGCAGGGACGCTCCTGGGGCAGACCCGCATCCCCAGTACCTGCCCTGGATTCACCTCGGAAGGCAAAGAGGGAACCGTTCTTGAGGTCGGTGAAG
GCGTCGAAGGGCTTCCCACTGCACAGCTCCTCCTCTGCTGGGGGCTGAGGTCTCCCTGGATGAAGGGTCTCAGGCCTTGAGTCTATCCCCTCAGGCTTAG
AGGCGCCCACCTCAGGCGCAGGGGCCTCTTCCTCAGGT


SNP Information

Context             (SEQ ID NO:6540):
GGACATGCTCTTCAGTACGTGGTCTAGGTAGCCCCTCAGAGTAGGGCCCTGCAGTGGAAGAAGATACAGAGTTTAGAAAAAACATGGAAACTTGGTTTCT
R
TACTGTTCAGGGACCATAGGAAGTCTGCATACAAACAACACAGTTCCCATCTCATTCACTGAGACTCTGGGCTGAGATGGTGACCAAGTTTTAAACGTCA
Celera SNP ID:            hCV25997384
SNP Position Genomic:     7860
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:6541):
CAATGAGGAATATAAACGGATCACCCGCAACGTCACTTGTCAGGTAAGGACATGCTCTTCAGTACGTGGTCTAGGTAGCCCCTCAGAGTAGGGCCCTGCA
S
TGGAAGAAGATACAGAGTTTAGAAAAAACATGGAAACTTGGTTTCTATACTGTTCAGGGACCATAGGAAGTCTGCATACAAACAACACAGTTCCCATCTC
Celera SNP ID:            hCV25992272
SNP Position Genomic:     7813
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:6542):
TAATCACCAGCTTTCTCCATACATTTTTAATGCAGACCTGTAATTGAGTTCAGAAGCCTCCAAGAAAACAGAAAGGATCCCCTTTCTCCAGTTTGTGCTG
R
AAGAGGAGCTGATCAGAGACATCAAATAAGAGAAAGATGGGTTGCTAGAGGATGGTAGAACTGGAAGCAAGGCAGCTACCTTTTTGCAAAAGGAAATGGT
Celera SNP ID:            hCV7442520
SNP Position Genomic:     10093
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    ;no_pop(A,-|G,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:6543):
AACTAGTTGCCCGGCTGGAGAAGATTAAGATACAGCTGGCCAATGAGGAATATAAACGGATCACCCGCAACGTCACTTGTCAGGTAAGGACATGCTCTTC
R
GTACGTGGTCTAGGTAGCCCCTCAGAGTAGGGCCCTGCAGTGGAAGAAGATACAGAGTTTAGAAAAAACATGGAAACTTGGTTTCTATACTGTTCAGGGA
Celera SNP ID:            hCV25992370
SNP Position Genomic:     7773
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:6544):
CTAGAGAATGTTGAACTAAAGGTGCCCTCTCTGGCTCCTCCCCAAAGTGAGATCATTGAAGGCTCTGGTCATCACCATCTTCAATTTCATTGTCACGGTG
R
TTGCTGCCTTCGTCTGCACTTACCTTGGAAGCCAATATATCTTCACAGAAATGGCCTCGGTGAGTAGGCACTGGGCAGGGCAGGGTGCCCCTGGTGGGGG
Celera SNP ID:            hCV7442521
SNP Position Genomic:     9141
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,29)   caucasian(G,40)   total(A,9|G,69)
SNP Type:                 MISSENSE MUTATION

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


Context             (SEQ ID NO:6545):
CAATTTCATTGTCACGGTGGTTGCTGCCTTCGTCTGCACTTACCTTGGAAGCCAATATATCTTCACAGAAATGGCCTCGGTGAGTAGGCACTGGGCAGGG
C
AGGGTGCCCCTGGTGGGGGTGTTAGTGGGTAAGGGAGGACGTATGTGAAAGTGCCTTGCACAGGTTAGGTATTGAACAGATATTTATGCCATTAATAAGG
Celera SNP ID:            hCV2536597
SNP Position Genomic:     9222
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|-,8)   total(C,1|-,8) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6546):
TAACCCTTCAACCTCAGCTCGTGGATCATTGTGTTTGTGAAACCTTTTCTTCTCAGATTCCAAACTATACCTCCATGAGCTCCTAGAAGGCAGTGAAATC
Y
ATCTCCCAGAGGTTGTGAAGCCTCCACGGGTATGTAAGGGATATGTTTGTGAGAGTGGTTATTGACTGAGTTGGGCTTATCCATGATACACTGAACTTAT
Celera SNP ID:            hCV25997943
SNP Position Genomic:     7311
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,27)   caucasian(T,36)   total(C,1|T,63)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6547):
AAGTAGGTGGCATTTTACAGTGTTTCCAGTAACCTGAGCTATATAAAATTTGTGTTAAAAAGCTACACTGGGCCAGGTGAGGTGGCTCACACCTGTAATC
S
TAGCATTTTGGGAGGCTGAGGCAGGCGGATCACTTGAGGTTGGGAGTTTAAGACCAGCATGGCCAATATAGCGAAACCCCATCTTTACTAAAAATACAAA
Celera SNP ID:            hCV26650760
SNP Position Genomic:     10763
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6548):
TATATAAAATTTGTGTTAAAAAGCTACACTGGGCCAGGTGAGGTGGCTCACACCTGTAATCGTAGCATTTTGGGAGGCTGAGGCAGGCGGATCACTTGAG
K
TTGGGAGTTTAAGACCAGCATGGCCAATATAGCGAAACCCCATCTTTACTAAAAATACAAAAAAATTAGCCAGGCGTGGTGGTACATGCCTGTAATCCCA
Celera SNP ID:            hCV26650761
SNP Position Genomic:     10802
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6549):
CTGGGCCAGGTGAGGTGGCTCACACCTGTAATCGTAGCATTTTGGGAGGCTGAGGCAGGCGGATCACTTGAGGTTGGGAGTTTAAGACCAGCATGGCCAA
Y
ATAGCGAAACCCCATCTTTACTAAAAATACAAAAAAATTAGCCAGGCGTGGTGGTACATGCCTGTAATCCCAGCACTTTGGGAGACCAAGGTGGGAGGAT
Celera SNP ID:            hCV26650762
SNP Position Genomic:     10830
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6550):
TGGGCCAGGTGAGGTGGCTCACACCTGTAATCGTAGCATTTTGGGAGGCTGAGGCAGGCGGATCACTTGAGGTTGGGAGTTTAAGACCAGCATGGCCAAT
W
TAGCGAAACCCCATCTTTACTAAAAATACAAAAAAATTAGCCAGGCGTGGTGGTACATGCCTGTAATCCCAGCACTTTGGGAGACCAAGGTGGGAGGATG
Celera SNP ID:            hCV26650763
SNP Position Genomic:     10831
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6551):
CCAGCATGGCCAATATAGCGAAACCCCATCTTTACTAAAAATACAAAAAAATTAGCCAGGCGTGGTGGTACATGCCTGTAATCCCAGCACTTTGGGAGAC
Y
AAGGTGGGAGGATGCTTGAGTTCAGGAGTTTGAGACCAGCCTGGGCAACATGGCGAAAGCCCATCTCTACAAAAAAACGCAGAAATTAGCTGACATGGTA
Celera SNP ID:            hCV26650764
SNP Position Genomic:     10917
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6552):
CCCAGCACTTTGGGAGACCAAGGTGGGAGGATGCTTGAGTTCAGGAGTTTGAGACCAGCCTGGGCAACATGGCGAAAGCCCATCTCTACAAAAAAACGCA
R
AAATTAGCTGACATGGTAGCGCACGCCTGTAGTCCCAGCTACTCAGGAGGCTAAGGTGGGAGGATCACTTGAGCCTGGGAGGCAGAGGTTGCAGTAAGCT
Celera SNP ID:            hCV26650765
SNP Position Genomic:     10999
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6553):
ACTTTAGGAATCAGCTTAGCATAGTGAGCTTGTAGGAATCCGGATTTCTTTCCACCTCAAAAGCAAGAGTGGTGAAATCTGATACTTTGTTTTGTTTGTT
K
GTTTTTTTAATATAGGATGGCAAAAGCTGTGTTGAAAGATCTGGCCTGAGAGTAGCATGTGAGTTCCAGTCCTAGCTCTGTCACTAATCCTTTGAAGGAG
Celera SNP ID:            hCV27828834
SNP Position Genomic:     6649
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:6554):
GTGGACACTTCCTCTACAATGTTTGCCAGTTTCTGTTAGTTGGGAGAAGTGTCAGCTGTGAAAAGAAAAAGTAGGTGGCATTTTACAGTGTTTCCAGTAA
M
CTGAGCTATATAAAATTTGTGTTAAAAAGCTACACTGGGCCAGGTGAGGTGGCTCACACCTGTAATCGTAGCATTTTGGGAGGCTGAGGCAGGCGGATCA
Celera SNP ID:            hCV26650759
SNP Position Genomic:     10695
SNP Source:               dbSNP
Population(Allele,Count): (A,-|C,-)   African American (pooled) - WICGR(A,4|C,96)   Asian (pooled) - WICGR(C,84)   Caucasian (pooled) - WICGR(C,96)   total(A,4|C,276) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:6555):
GGTCTAGGTAGCCCCTCAGAGTAGGGCCCTGCAGTGGAAGAAGATACAGAGTTTAGAAAAAACATGGAAACTTGGTTTCTATACTGTTCAGGGACCATAG
R
AAGTCTGCATACAAACAACACAGTTCCCATCTCATTCACTGAGACTCTGGGCTGAGATGGTGACCAAGTTTTAAACGTCATAGAAGTGGGAGTTAGCCGG
Celera SNP ID:            hCV25997331
SNP Position Genomic:     7880
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:6556):
AACACTGCTGGGACTAGGGTTTTTCCATCAGGAGCAAATGGAATCCAGGCCTTCCCAGAAGTAGACCATACTGCCTTGAACTTGTCCATATGTACAAACT
R
ATCACCAGCTTTCTCCATACATTTTTAATGCAGACCTGTAATTGAGTTCAGAAGCCTCCAAGAAAACAGAAAGGATCCCCTTTCTCCAGTTTGTGCTGGA
Celera SNP ID:            hCV2254202
SNP Position Genomic:     9994
SNP Source:               Applera
Population(Allele,Count): african american(A,14|G,6)   caucasian(A,9|G,15)   total(A,23|G,21)
SNP Type:                 UTR 3

SNP Source:               dbSNP
Population(Allele,Count): WICGR8_asian_pooled(G,12|A,71)   total(G,12|A,71)   (G,-|A,-)   (A,-|G,-)    
SNP Type:                 UTR 3


Context             (SEQ ID NO:6557):
GAACAGATATTTATGCCATTAATAAGGGGAGCATTAGAGCTTTCCAGCAGTCACGGGAGGTTAGGTAATAACCCCAGGAGAAGCCACATTCTCTTTTCTT
Y
CCCTCCCCCAACTTAGAGGGTGGTTGGGGGGCTCTCCATCCTCATTAAAGTTGCTGGGGTACAGAGCTGGTTGTTGGCCTGCATCCCTTAAGCCTGGTTC
Celera SNP ID:            hCV25993014
SNP Position Genomic:     9396
SNP Source:               Applera
Population(Allele,Count): african american(C,28)   caucasian(C,38|T,2)   total(C,66|T,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:6558):
TTCTGAATCATCTTCTTTTTCTTTTTCCCAGGATACAAGACATGGTGGGACTCTCAGCGACCTGGGAAAGCAAGGTGAGGTACTAGGAGATCAGGCTTCT
R
AAACCTTTTCCTGAGATGGGTCATGACACTCAGGCTTGTTGTTTGACTGAAACCCAGTTGGTGGGGGAGCCATGAGATAAGAGCACCTCCTAGAGAATGT
Celera SNP ID:            hCV25999250
SNP Position Genomic:     8951
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:6559):
AATCTTTGGGATCTGGGGGAGCCAGATATTGTCCTCCCCATCAGCTGTTTGGAAAATTGAGATCAAAAAAAAAAAAAACAGTTTCAAAGCACTGGAGTTA
Y
GACTAGTATGTGGGTCTCCTGATACCTTTAGCAGTGCTTTACCCCTGGAACCAATGATTGTGATGTGCTTTCTAACAAGCTGGGAATATCATTCTTCTCA
Celera SNP ID:            hCV25999424
SNP Position Genomic:     7546
SNP Source:               Applera
Population(Allele,Count): african american(C,21|T,5)   caucasian(C,20)   total(C,41|T,5)
SNP Type:                 INTRON


Context             (SEQ ID NO:6560):
CCCTCTCTGGCTCCTCCCCAAAGTGAGATCATTGAAGGCTCTGGTCATCACCATCTTCAATTTCATTGTCACGGTGGTTGCTGCCTTCGTCTGCACTTAC
S
TTGGAAGCCAATATATCTTCACAGAAATGGCCTCGGTGAGTAGGCACTGGGCAGGGCAGGGTGCCCCTGGTGGGGGTGTTAGTGGGTAAGGGAGGACGTA
Celera SNP ID:            hCV25997294
SNP Position Genomic:     9165
SNP Source:               Applera
Population(Allele,Count): african american(C,35|G,3)   caucasian(C,39|G,1)   total(C,74|G,4)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6561):
ATTTATGCCATTAATAAGGGGAGCATTAGAGCTTTCCAGCAGTCACGGGAGGTTAGGTAATAACCCCAGGAGAAGCCACATTCTCTTTTCTTCCCCTCCC
S
CAACTTAGAGGGTGGTTGGGGGGCTCTCCATCCTCATTAAAGTTGCTGGGGTACAGAGCTGGTTGTTGGCCTGCATCCCTTAAGCCTGGTTCTCCCCATC
Celera SNP ID:            hCV25992993
SNP Position Genomic:     9404
SNP Source:               Applera
Population(Allele,Count): african american(C,27|G,1)   caucasian(C,40)   total(C,67|G,1)
SNP Type:                 INTRON


Gene Number:                 55
Celera Gene:                 hCG43699 - 30000035464411
Gene Symbol:                 BF
Protein Name:                B-factor, properdin;CFAB;GBG;PBF2
Celera Genomic Axis:         GA_x5YUV32W6W6(4971569..4989948)
Chromosome:                  Chr6
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1716):
TAGGATTACAGGTATGAGCCACTATGCTCAGCCCGTCTTCACAAATTTTTTAAAATTAATTTTTAAATTTTTTTTGAGACAGAATCTTGCCGTGTTGCCC
AGGCTGGAGTGCAGTGACTCGATCTCAACTCACTGCAACCTCCACGTCCTGGCTTCAAATGATTCTCCTGCCTCAGCCTCCAGAGTAGCTGGGATTACAG
GTGTGTGCCACCATGCCCGGCTCATTTTTGCATTTTTAATAGAGACAGAGTTTCACCATGTTGGCAGTCTGGTGTCAAACCCCTGGCCTCAAGTGATCCG
CCTGCCTTGGTCTCCCAAGGTGCTGGGATTACAGATAGGCGTGAGCCACTGTGCCTGGCCAATTTTTAATTTTTTAATTATTATTTTTAATCAACAGCTT
TAGACAGAGAACCTTGGTTTCATCTTCAGTGGGCTGTGGCCATGGGCAGTTTCTTCATCTGCAAAAGGGGAGTAGTACTAGGACCCAGCTCACAAGCTGA
CAGGGGAAGATGCTCAGACAAACACTGCCTGCCTGGCATAGAAAAATGCCCAGCATATGTTAGCCATGACCACGACCGTCGTCGTTATCATCATCATCAT
CATCATAGCATCTCATGTTTCAGGAAACTTTCCAGGAAGAAGGGACCTCGATTCCCTCTGGGGAATGTCCCTGGTGGTTGCTCTTTCAGCAGCACAGCTG
GCTAACTAAGGCTTTGGCAGTTGCAGCCTCTAAAGGAAAAATTCCTCAGGTTCAGACTAAACACAAATTGCACTGACCTTTGATCAGAAAGTAATTTCAG
AGAGAGAGATGCTCAGACAGGGAGGGCAGCTGGTTTTGAGCCCCAACCTTTCATCTTCCCCTTAGCTCCTCTCCTTTCCATTCACACTGCCCCCTCCCCC
ATCACCTGGCCCTCGGGGGTAAGCTGATTCCTCTTTAAAACTCTGGCCCAAGGAAGACAAAATTTAAAGCCCACTCCCTTCCTCCTTAGCATCACTGGAC
CAAGGTCAAATGCTACAAAAACATTTTATTGAAAATAAGCAGGAAACCAAACGAAAATAGTCAAAGAAAACGCACAAGGCACGATCGTTGTCTAGCTCCA
ACTGTAACTGTTTCTATCTGGGCCATTGCCAGATTGCCTCCTGGCTGAAGATCTCTTGGTCCACCTAAGCACCTTGCTTTTTACACACAACGCGGGGCTC
TCTGAGAACAAAAATGGGCCACAAGGGGTGCAAAGGCTGGGAGAGGAGTAGACTCTGTGGTCTGTCTGAGGGCAGTTCTGACTGGCACCACAGTCGGAGG
ACAGGCGCGGCCTGTTGTGTGGGTCCAGGGCCTCCAGTGGGAAAACGTGGCTTTAGGCCCTTCTCCCAGATGCTACCTTTTACAGAGGAAGACCAGATCT
GAGGTTTAGTTTCCATGTTGTGTTCTGAGTTCTTTCTATTCATTCAGTCATTTAAAAGTACTTACCAAACTACCACAAACCTGGGTGGCTTAGAACACAG
AATTTCTTTTTCTTACAGTTCTGGAGGTTAGAAGTCTGAAATCAAGGTGTTGGCAGGGCCGTGCTTCCTCAGAAGGCTCTTGGGAAGAATTCTTTCCTGC
CTTTTCCGGCTGCCGGCAGCTCCAACCTTGGCTTGCGGCAGCATAAACCCATTCTCTGCCTCTGTCTTCAACTCGCCTTCTTTTCTGTGTGTGCCTCTGT
GTCATTACATGCTGTTCTCTTATATAGATAGGAGACCCACTACCTGTGTCTTTGTGTCCAAATTCCTTTCTTCTTTTTCTGTTCATTTGTTTGAGACAGA
GTCTCGCTCTGTCACCCAGAAGCCCAGGCTGCAGTGCAGTGGCGGGATCCCGGCTCACTGTAACCTCTGCCTCCTGGGTTCAGGTGATTCTCGTGCCTCA
GTCTCCCAAGAAGCTGGGATTACAGGCATGTGCCACCATGCCCGGCAAATTTTTGTATTTTTAGTAGAGACATGGTCTCGCCATGTTGGCTAGGCTGGTC
TTAAACTCCTGGCCTCAAGGCGATCTGCCTGCCTTCGCCTCAAAAAAACTGCCGGGATTACAGGCATGAGTCACCACCATGCCCAGCCAGTTCACTTTTT
TTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGTGCAATCTCGGCTCACTGCAACATCCGCCTC
CCGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTGTGCCAGCATGTCTGGCTAATTTTTGTATTTTTAGTAGAGACAGG
GTTTCACCATGTTGGTCAGGCTGGTCTTGAATTCCTGACCTCGTGATCTGCCCGCCTCAGCCTCCCAGAGTGCTGGGATTACAGGTGTGAGCCACCGTGC
CCGGCTCACCTCTTCTTTTTTTTTTTTTGAGACGGGGTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCGATCTTGGCTCACCACAACCACCGCC
TCCTGGTGATTACAGGTGTGAGCCACCACGCCTGGCTCTGGCTTACCTCTTCTTATAAGGACCTCAGTCATTGGATTAGAGCTCACCCTAATCTAGTATG
ACTTAATCTTAACTTGATTACATCTGCAAAGACCCTTTTTCCAAATAAAGTCACAGATACTGGGGATTAGGACTCGAACACATCTTTCTGGGGGACACAA
TTCCACCATTACAGGGAATAAACAGGATAAGAAAACCATAGAACCCAGCAGGTGGTAGGTGACACAAGCTAAGGGGTGTTGCCATGTTGCCCAGGCTGGT
CTCAAACTTCTGGCTTCAAGGGATCCTCCCACCTTGCCTCCCAAAGTGGGGATGAAAGTTTGTCTGGGGCATTGCAGTTTTAGACAGGAAGACCAGGGAA
GGCCTCACTGAGAAGGTGACATTTGAGCCAAGACTTAAAAAGGTACGAAAGTGAGCCATGTGGAAGTCTGGGGGGGAGGAGTGAACTAGGCAGAGGCACA
GCTGGGCAAAGGGCCTGAGGTGTGACCATGCCTATGGATTTGAGGAACTTCAAAGAGGCTGTGTGCTGCAGGAGAGTGAAGGGCAGGGAGTGGCAGGAAA
TGAAGGCAGACAGGTAGCAGTGGGGAGGACGCAGGGGTCCAGCTCATGTAGGTCTTGATTGGACACAGTGAGTTTCAGATGACAGCCTCCTGTCTCATGG
GGTAGCCCCAAAGCCACAGGAGTCTGGTGATTTCCCTCTTCCCCACCAGACATCTATGCCATCGGGGTGGGCAAGCTGGATGTGGACTGGAGAGAACTGA
ATGAGCTAGGGTCCAAGAAGGATGGTGAGAGGCATGCCTTCATTCTGCAGGACACAAAGGCTCTGCACCAGGTCTTTGAACATATGCTGGGTGAGTGAGC
TTTGCCCTCCTTGGTGTGGGGAGGATGGTGAGGAGCCCGCCAGAGGCCCGTGTTGGGAACCTGGACACAGTGCCCCTCACTTGCCTCCTTCCCCATCTGA
TCCTCACACCCACAGATGTCTCCAAGCTCACAGACACCATCTGCGGGGTGGGGAACATGTCAGCAAACGCCTCTGACCAGGAGAGGACACCCTGGCATGT
CACTATTAAGGTACCAGGAAGGAGGGGCAGGGCTTGGATTCCAGAGGTAAAAGCGGCCATGGGCCAGACATACTGCAATCTCTGAAAATCACCTGTTCCC
CTGCAGCCCAAGAGCCAAGAGACCTGCCGGGGGGCCCTCATCTCCGACCAATGGGTCCTGACAGCAGCTCATTGCTTCCGCGATGGCAACGACCACTCCC
TGTGGAGGGTCAATGTGGGTAAGGCAGGGGATGCACCAGCCTCCTGATCCTGAAGCCACAGATCCTACCACCTCACCCAGCCTCTGGCCCCTGCAGGAGC
CCTGGTCTAGCCTAATCTAGTGTATCATTTCCAGGAGACCCCAAATCCCAGTGGGGCAAAGAATTCCTTATTGAGAAGGCGGTGATCTCCCCAGGGTTTG
ATGTCTTTGCCAAAAAGAACCAGGGAATCCTGGAGTTCTATGGTGATGACATAGCTCTGCTGAAGCTGGCCCAGAAAGTAAAGATGTCCACCCATGCCAG
GTGCCTGGAGTCTGGGATGGGAGGGTGCCCTGCAGGGAAGAGTGCTCTGGAGATCCCTGGAAGAGATACTGGGGACAGGCTGGTGTGACCCTTGCTCTTC
TCCCCAGGCCCATCTGCCTTCCCTGCACGATGGAGGCCAATCTGGCTCTGCGGAGACCTCAAGGCAGCACCTGTAGGGACCATGGTGAGTGCTGGGACTT
ATGGTGCTTGAGAGCTGGGGCCGGGGTTTGGGGGTGATAACAAGGACTAGGCTGCAGTCCCCAAGCCAGGAACCTGGATTCTGGGTAAAAGGACCAGCAC
CAACATCCCCTTCTCTTGACTATAGAGAATGAACTGCTGAACAAACAGAGTGTTCCTGCTCATTTTGTCGCCTTGAATGGGAGCAAACTGAACATTAACC
TTAAGATGGGAGTGGAGGTGAGGGTCTCAGGTTGGGGATGCTGGGATCCCCCTGTGACAGCTCCCAGAATGTCTCTCTTCCTTCTCCAGGTCTGGCTGCT
TTCTCTCTCTGACGCGGGTCACCCCTCCTCCCAAGCCTCACAAACCTGCTAGGTGTCCCTGGGTCTGCTTATTCTTTTTTTGTTGTTATTGAGATGGAGT
CTTGCTCTGTCTCCCAGGCTGGAGTGCAGTGGCACGACCTCAGCTCACTGCAACTTCTGCCTCCTGGGTTCAAGCGATTCTCCTACTTCAGCCTCCCGAG
TAGCTGAGATTACAGGTGCCCACCACCACACCAGCTAATTTTTGTATTTTTAGTAGAGACGGGATTTCGCCATGTTGGCCAGGATGGTCTTGAACTCCTG
ACCTCAAGTGATCTGCCTGCCTCAACCTCCCAAAGTGCTGAGATTACAGGCGTGAGCCACTGCACCCACCCGGGTCTGCTTATTCTACCCTTCTCTCTGG
TTCCACCCCTGCTGCAGTGGACAAGCTGTGCCGAGGTTGTCTCCCAAGAAAAAACCATGTTCCCCAACTTGACAGATGTCAGGGAGGTGGTGACAGACCA
GTTCCTATGCAGTGGGACCCAGGAGGATGAGAGTCCCTGCAAGGGTGAGTCCCTCACCATGCCTGGATTCCCAAGGGGAAGGCCACCTGTGTCTCTGTGG
CCAGCATGCATGCCAGAACACCAGTCCACTGCCCTAGATGACACTGTCTCCTGTCACCCTTTGCTGGCAGGAGAATCTGGGGGAGCAGTTTTCCTTGAGC
GGAGATTCAGGTTTTTTCAGGTGAGAAGGTAGAAGCTTGCAGGACCCAGGGGTTACAGGATCTCAGCCTTGTTGGGGGGATGAGGGAGGCCTTTGAGGGA
TCTAGGGAGGTTGGGGCTTACAGTTGGGGCTGTGGCAGCCTCCCAGCCAGTTCTCTCCTTTTCTCCAGGTGGGTCTGGTGAGCTGGGGTCTTTACAACCC
CTGCCTTGGCTCTGCTGACAAAAACTCCCGCAAAAGGGCCCCTCGTAGCAAGGTCCCGCCGCCACGAGACTTTCACATCAATCTCTTCCGCATGCAGCCC
TGGCTGAGGCAGCACCTGGGGGATGTCCTGAATTTTTTACCCCTCTAGCCATGGCCACTGAGCCCTCTGCTGCCCTGCCAGAATCTGCCGCCCCTCCATC
TTCTACCTCTGAATGGCCACCCTTAGACCCTGTGATCCATCCTCTCTCCTAGCTGAGTAAATCCGGGTCTCTAGGATGCCAGAGGCAGCGCACACAAGCT
GGGAAATCCTCAGGGCTCCTACCAGCAGGACTGCCTCGCTGCCCCACCTCCCGCTCCTTGGCCTGTCCCCAGATTCCTTCCCTGGTTGACTTGACTCATG
CTTGTTTCACTTTCACATGGAATTTCCCAGTTATGAAATTAATAAAAATCAATGGTTTCCACATCTCTCAGTGCCTCTATCTGGAGGCCAGGTAGGGCTG
GCCTTGGGGGAGGGGGAGGCCAGAATGACTCCAAGAGCTACAGGAAGGCAGGTCAGAGACCCCACTGGACAAACAGTGGCTGGACTCTGCACCATAACAC
ACAATCAACAGGGGAGTGAGCTGGATCCTTATTTCTGGTCCCTAAGTGGGTGGTTTGGGCTTACTGGGGAGGAGCTAAGGCCGGAGAGGAGGTACTGAAG
GGGAGAGTCCTGGACCTTTGGCAGCAAAGGGTGGGACTTCTGCAGTTTCTGTTTCCTTGACTGGCAGCTCAGCGGGGCCCTCCCGCTTGGATGTTCCGGG
AAAGTGATGTGGGTAGGACAGGCGGGGCGAGSCGCAGGTGCCAGAACACAGATTGTATAAAAGGCTGGGGGCTGGTGGGGAGCAGGGGAAGGGAATGTGA
CCAGGTCTAGGTCTGGAGTTTCAGCTTGGACACTGAGCCAAGCAGACAAGCAAAGCAAGCCAGGACACACCATCCTGCCCCAGGCCCAGCTTCTCTCCTG
CCTTCCAACGCCATGGGGAGCAATCTCAGCCCCCAACTCTGCCTGATGCCCTTTATCTTGGGCCTCTTGTCTGGAGGTAAGCGAGGGTAACCTTCCCTTC
CTGCTGTCTCCAGCATCCCTCCTTGGCCTTTTGGGGCCAGGCTTCATCAGCCTTTCTCTTCAGGTGTGACCACCACTCCATGGTCTTTGGCCYRGCCCCA
GGGATCCTGCTCTCTGGAGGGGGTAGAGATCAAAGGCGGCTCCTTCCGACTTCTCCAAGAGGGCCAGGCACTGGAGTACGTGTGTCCTTCTGGCTTCTAC
CCGTACCCTGTGCAGACACGTACCTGCAGATCTACGGGGTCCTGGAGCACCCTGAAGACTCAAGACCAAAAGACTGTCAGGAAGGCAGAGTGCAGAGGTT
TGAGGGCAATGAGTGTGGGCAGTGGCCTAAGGCAGAAACAGGGCAGGCGGCAGCAAGGTCAGGACTAGGATGAGACTAGGCAGGGTGACAAGGTGGGCTG
ACCGGGAGTAGGAGCAGTTTTAGGGTGGCAGGCGGAAAGGGGGCAAGAAAAAGCGGAGTTAACCCTTACTAAGCATTTACCCTGGGCTTCCAGGCAGCCC
TGGAAGTCAAGAGAACACTCAGAAATGGGGAGGGAGAAGCAGTGGAAATCCATATGGGTTGAGGAGTAGGTAAGATGCTGCTTCTGYGGGACTGGGAATG
CGCTGTTTCTCAGTGACATGGTCTCCGAGACCAGGAGGGATACACCTAAGGCAGCCTTTCCCTCTTGATGACTTCTACTTGTCCCCCCTTCTCAAAGCAA
TCCACTGTCCAAGACCACACGACTTCGAGAACGGGGAATACTGGCCCCGGTCTCCCTACTACAATGTGAGTGATGAGATCTCTTTCCACTGCTATGACGG
TTACACTCTCCGGGGCTCTGCCAATCGCACCTGCCAAGTGAATGGCCGRTGGAGTGGGCAGACAGCGATCTGTGACAACGGAGGTGAGAAGCATCCCCTC
CCCCTACATTGCTGTCTCCCTGACGGCGCCCAGCCCGAGGAGTGGGCACTCGGCTCCGGACACTGTAACTCTTGCTCTCTACCTTGCTCACGGGGCCTCA
GGCTTCAGTGCTTACCTCGATGTCTCATACCTCTGCAGCGGGGTACTGCTCCAACCCGGGCATCCCCATTGGCACAAGGAAGGTGGGCAGCCAGTACCGC
CTTGAAGACAGCGTCACCTACCACTGCAGCCGGGGGCTTACCCTGCGTGGCTCCCAGCGGCGAACGTGTCAGGAAGGTGGCTCTTGGAGCGGGACGGAGC
CTTCCTGCCAAGGTGACCTTTGACCTGTACCCCCAGGTCAGATCCTGGTCTTCCATCCTACTGTCTTCTCTCCCCACCTCAACCCTGCTCTTTCCTCACT
TTGTTTAAACCTCCCTGTACAACTATCTCACTTCTGAGCCTTTTATACCCTGGAAACCCATGATCCCCCGTCTCTTTGGTCACTGTATCCCTGACACTCC
CAGACATTTGACCTCATTTCTGACTCTCCCAGACTCCTTCATGTAYGACACCCCTCAAGAGGTGGCCGAAGCTTTCCTGTCTTCCCTGACAGAGACCATA
GAAGGAGTCGATGCTGAGGATGGGCACRGCCCAGGTTTGAAGACAGAGAAGGGAGGCAGGGCAGGGAACTGGGGGAAAATGGAGAAGGGACAGAACTGTT
AATGCTGGAGCCTGAGCCACTCTCCTGGCACCCAGGGGAACAACAGAAGCGGAAGATCGTCCTGGACCCTTCAGGCTCCATGAACATCTACCTGGTGCTA
GATGGATCAGACAGCATTGGGGCCAGCAACTTCACAGGAGCCAAAAAGTGTCTAGTCAACTTAATTGAGAAGGTGGAATCCTCCTATCCCTGAACTCGGG
GGAATGGAATCTCGCTGATCTTCCAGGACTAGCTCCCTGATCATTCCAGCCCCTCTGAACAACAGGGCCCCAGGAAAATCTCCAGGTCCTATTCTGTCCT
CCTTCCCTTTTACTTGAAGCAGTTTCTTGACTGGTAATTCCTCCATGAACCTCAGCCCTTGAGCCTCTTACTGAGRGCCTCCCTGTCCCAGCAAAGTCGC
TGAAATCTCCCAATCACAGTATTCTATTTTCAATGCCATGGCGCCTTGTTCTCCTCACCCACAGGTGGCAAGTTATGGTGTGAAGCCAAGATATGGTCTA
GTGACATATGCCACATACCCCAAAATTTGGGTCAAAGTGTCTGAAGCAGACAGCAGTAATGCAGACTGGGTCACGAAGCAGCTCAATGAAATCAATTATG
AAGGTCAGAGGTTAGGGAATGGTGGGAGGTTCACTTTGGGGTCAGGAGGTTCAGGGTGGAGGGGGTCATGAGACTACCTTGAGGGCGACAGGGAGGACCA
CTTTGTAGTCAAARGTTGAACAGCAGGATCGTTGGGCAATGGAGGTTAGTGGGAACCTGTTGGGGGCTGGAAGGGCCACTTTGTGGTCAAAGGGAAGTCC
GTGTAATGATGATTAACTTAAAAAGTTGAAAGATGTGGGATTTCAGTTGCAGATTGGTCTCTGGGGTTAAAAGATGGCTTGGAAGACCAGGTGAGGTGAT
GGTCTCTTCCCTCTCCACAGACCACAAGTTGAAGTCAGGGACTAACACCAAGAAGGCCCTCCAGGCAGTGTACAGCATKATGAGCTGGCCAGATGACGTC
CCTCCTGAAGGCTGGAACCGCACCCGCCATGTCATCATCCTCATGACTGATGGTCAGAAGGGACCTCTCTCCTGTCCCAGCCTCCCCACCTTCTCAGACC
AGCATGTGGCCCTTAAGTCCACTTGTAACACTATACCCATGGTTGGGGCCCTGAATGTGACTCATAGCTGGCTGTTCATCTCTCCTGTGACCCTTCATAA
GGAATTCTTCCTAAGCCCTGTGATCRACTRTCTCTAACCCTTCCTCAACTTGCTCACCCTGCCAYGTGTATCCCTGCCTTTAGCCAGTTTATCTTCCTWA
TCTCCTACCCTCATGGTCCTGTCTCTTCTGCAGGATTGCACAACATGGGCGGGGACCCAATTACTGTCATTGATGAGATCCGGGACTTGCTATACATTGG
CAAGGATCGCAAAAACCCAAGGGAGGATTATCTGGGTGAGTAACCTGCCTAGGACCCAGCACCCCACTTCCTCAGGGCTTGGACCCTCATCCTTCCTTTT
TATCCCTCAGATGTCTATGTGTTTGGGGTCGGGCCTTTGGTGAACCAAGTGAACATCAATGCTTTGGCTTCCAAGAAAGACAATGAGCAACATGTGTTCA
AAGTYAAGGATATGGAAAACCTGGAAGATGTTTTCTACCAAATGATCGGTAGGGMGATACAAGGGAATAAAGAACACAACTCTCCTCAGGTTCCCCTGAA
GTAATTCATTCTTCCTCTACACCTGAAGCTCTAGTTGCCTGGAAAGCCTTCTTCATTCCTCCTTCTCTACCTCAGTGTCACTATTCTTGTTTCCTGGCAC
TGTTCACTTAACCTTAGAATCACAGAGCTCTGAGCACTTCAGAGATCTTTCTAYAGTCCTACATTTGACACGTGGAAACAGAAGCCAAAGGAGGTCAAGG
GACAGCAAGTTAGCAACAAGGGTGGGCTTGAAAACAGCCAGGCCTCTGACAGCTTGATCCCAAGTTCTTTCCCTTTTCAGTCCACCATAGCAGTTTTCTC
CTAACACGAGGAAACAAATACCCGTGGTCTTTCCCTTTCTCCTTTTGGGCCTTTGCTCCCCATAGACTCCTACCCAAAAGGCTGCTGCCATTTGGGAATG
AAGTGTTCMGAGTTTTCAGCACATTCTCCTTCTCTGCCAGATGAAAGCCAGTCTCTGAGTCTCTGTGGCATGGTTTGGGAACACAGGAAGGGTACCGATT
ACCACAAGCAACCATGGCAGGCCAAGATCTCAGTCATTGTAAGCACAGAATCCCAGTAGTGGGGACTTGGGGGAGGTGAGGTCAAGGTGAAATGGGAGTA
GGGGAAGGAAAAAATGGCCATAAGAGATGGTGGTTTGTGAAAGTTGAGCTTTCCCTCTCTACTGTTGTGTCCCCAGCGCCCTTCAAAGGGACACGAGAGC
TGTATGGGGGCTGTGGTGTCTGAGTACTTTGTGCTGACAGCAGCACATTGTTTCACTGTGGATGACAAGGAACACTCAATCAAGGTCAGCGTAGGTAAGG
ATGCAACTGAAGGTCCTGGGCTGCACCTATGCTCTCCAGGCAACACCTCCCACTTTCTACAGATCCTACACTCCACCCATCCTCAATGCAGCCCCATTCC
TTGCACCCCAGACCAGTCAGGGATGGGGGAAGACGTGAAGTTAGGAATGACACGGGGCCAGAGGCAGGAAGCTGCCCACAAAGAGGTGGTACCTACTCTC
CTACTTCAGGAGGGGAGAAGCGGGACCTGGAGATAGAAGTAGTCCTATTTCACCCYAACTACAACATTAATGGGAAARAAGMAGCAGGAATTCCTGAATT
TTATGACTATGACGTTGCCCTGATCAAGCTCAAGAATAAGCTGAAATATGGCCAGACTATCAGGTGAGAGCGTCCAGATCCCTGAGGAAAGGCTGGGAAA
GGCTGGAGGACTGGGGTGAGGAGCAGGCCTGGTTTGCTGTTCTCCTTGTCCTTTATAGGCCCATTTGTCTCCCCTGCACCGAGGGAACAACTCGAGCTTT
GAGGCTTCCTCCAACTACCACTTGCCAGCAACAAAGTAAGACATACTTGGCAAGAGGATAAGGATGAGATCCCAAGAGACAAGTGGGGCATGAGAGGGAG
GTGCAATAGGAAGAGATGATGCCTGGCCCAGAACCTAGCTCTAGAAGGGCTTAGGGGACATCTACTGAGTGACRAAGGCAATGGGGAGATGACAGTGGTG
GGAGCAGCTGAAGTGACGCAGTCTATTCGTCCAGAGGAAGAGCTGCTCCCTGCACAGGATATCAAAGCTCTGTTTGTGTCTGAGGAGGAGAAAAAGCTGA
CTCGGAAGGAGGTCTACATCAAGAATGGGGATAAGGTGAGAAACGGGCATCCTAAGGAGGCACTCTAGGCCCCAATCCTTCCTAAGCCACTTCTGTTCAT
TACTTCTCCATGCTTCCCACCTCCCCTACAGAAAGGCAGCTGTGAGAGAGATGCTCAATATGCCCCAGGCTATGACAAAGTCAAGGACATCTCAGAGGTG
GTCACCCCTCGGTTCCTTTGTACTGGAGGAGTGAGTCCCTATGCTGACCCCAATACTTGCAGAGGTGAGAGAATGCTCTTTGGTYGTGCTACAAGTGCCC
AAGGCCCAACAGTCCTTTTCTCTACAGCTTCTSCTCTCCTTGCAGGTGATTCTGGCGGCCCCTTGATAGTTCACAAGAGAAGTCGTTTCATTCAAGTGAG
TCCTCCCTTTCCTATCTGGGGAGATGCCAAGTGGTCAGCATGGGCCCCAAAGCAGGAAAGCTCAATGCATGTGGCTAGTAATTCGAGGTAGGCAGAGCCT
GCCTCACCTTAGGACCGCATGTCTTGCCTGCGTGTGTCAAGAACGAGGCTGAGCTGGGTCCCTAGTCTGATTCCTTTAGGTCAGCTAAGACRCAAGCAGG
AACAGCCATGCTTCCAGGATTAGGAATTCTACTGAATGATCCATGGCACCCCACTGCCTCTGCAGGTTGGTGTAATCAGCTGGGGAGTAGTGGATGTCTG
CAAAAACCAGAAGCGGCAAAAGCAGGTACCYGCTCACGCCCGAGACTTTCACATCAACCTCTTTCAAGTGCTGCCCTGGCTGAAGGAGAAACTCCAAGAT
GAGGATTTGGGTTTTCTATAAGGGGTTTCCTGCTGGACAGGGGCGTGGGATTGAATTAAAACAGCTGCGACAACACCTGTGTTCCAGATCCTTTTGGGGC
AAGGGAGTGGGGAACAGGCACTGGCCATGTTGTTACACTGAGATCAAACCTGACAGCCGTTTTTAAAGGTTTAACCCCAATCCCAAGTGCTGAAAAACCA
GAGGCTGAGGGAGATGTGTAAGCTTCCACCTCAGTGTTTTACTGAGACCAGCATTGGGGCATATGAGGCACAAGGAATCCAGCTCTGTTCCCTAGAAGCC
ATCCACAAGGTTTTCCTTGTAGACGTCATCACTGTAGACAATCTGGGTCCTCTTGTCCCGGTGGCAACCCTTAGGGCTGTTCTGGACAGCTAGGGAGGGA
GGAGAGGAACAGTTAAGGTCTAAAGGAGATCATAGAACAGACCCTGAGGCTGACTCCTGACCACCTCACTCCTGGCCACTGGCCCCTGGAAGCCCAGTTT
CCACGCTGCCCTCTGGTGGCCAGGATGGCCTGTCTTCCTTAGCTCCTTTGTGCCAACCCATGGCCAAGAAAAGTATAAGTGGACATTTTGATGAATGTTT
TGTTCTTAGAAAAATCCCAAATGTCATTGTTGAGACACGTGAATGATATTAACCCACTACTTACAGTCAGTATGTCAGAAGCTAAAAACTAGAAAACCTC
TGTAGCCCTTTTTTGACATGCTGGTCAATTCTAGTTCCTTTCTTTTGCCTGAAGGGCCACTGTAGCTGAGCCCTTCTTTCTGCTCACTCCTTTCCCAGGA
AAATCTACTTTCAGGGAAAATGGATTATTCACACTAAGAAATGCTACTAGCTCCACCAGAACTCATTCAGGGTGTAGCTTTGGCCCTCACCATTCTCTCT
CAAGCCTCTAGCTGTTTCTTCCCCTTCCTCTTTCCTCCCTCCACCAGACATGTTACTCTCTTCACCCCATCCAATGGTTCCATCCCCACCACCCTTGAGC
TACAGAGAATCTCTCTCACCCACTCCCATCCTGTGATCTCTGTGCCTCAACACTGCTGGCTACTCCCTCTTTCTCAAAGTGTGTGTCCTTTTGCTTCAGT
GGCCCAGGCCCCTGCGGTGCTGCTCCCAGCCCTCCGACCCCTCCTCCTGTCTCCTTTGCTAACGTTAGGCTCAACGTTAGCCTAACATGTCAGGACAGCT
GGGGACATGTGGGGTGTGAGGTGAACAGTCCTGTTTCCTAACATAGTCCCAGAGTACTCCTCAAACTGAGTCCTGGGTCGTTTTTTTTTCTCTGAAATCA
GAGTCTCCCTGATGATCCTATTGTTTGGCAGCCACCCTGTGATGTGGATGACTTAATCTATGTTTTCCTTCCTTACCTCACACCTGAGTTCCAGATCCCT
GATTTCGAATACTTATGAAACTCACTCTACTCCATCTCAAAATGAACAAGCCCCATGAGACACTCATCTTCCTCACCAATCTCACTCCAGCTCCCACTTT
CTTCCCTGTTCCAGTCACTGCTTTGGAAGCTGTTTTCAATCCTTTTCTCTCCTTTCTTTACCTCTAACTGACAGAGGATCTGAAATTTTCCTTCCCATTC
CCATAGCCTCCGCACACACTCTGACCTCGATCATCTCTAGGAAACCCAAGGATGTGTGGGGGAACCAAAAGGAATGGCCTGTGGGGGAGAGGATGGGAAA
GGAAGAATCCCATTCTTACCGAGGGAGCCCCAGACAGACTTGCCAGTAGCGGCATCCAGCATGGGCTGTTTTCGGGCTATGTTGACTTTGAGCTGTACAG
ACTCCACCTGGGTCCCGTTGAGCTGAAGCAGAAGAGGGGAGGCAGAGGATGGGGAGGAAAACATTACAGATAAACCAAAGAAGTTATTCCAGGAGTTGCT
ATCCTAGGAGGAGACTGAATAAGGAATCTGAGAATGTGAGTTTTTCTGTGTGAATAGGGAGAGGCTTTCTTTATCAAGAGGAACCAACTTCTTCCTGGCA
TCTAGTATTTTGAGGAGAACACATGAGAACAGCAGAAGCGATGGGAAGAACAGATTTGGGAAGTTCCAACCTCAGCAACGGCCTGATCTGCTGACTCCAT
CTTTTCATAGGTGACGAAGGCACAGCTGGGATAAGAGAAAACACGGTCAGTGGAGAGCCAAGGGGCTCTTCTGGACCCAACCAAACCCAGTGATAATAGG
CGGCTGCAGGGAGGGCAGCTTCTTCCCTCAGGTCTCACACCCCAGGATTCTCCCAGGACTTCTCATCATGCCCTGTTGTCATCCTTACTTTCTGGGTGGG
TCCATGGAGAGGTCAATGATGTTTCCAAAAGGAGAGAAGGCCCCACGGAGAAGGGTGGGTGTCATGTCTTCTCCATATACATAGAGAGTATTCCCTTTCC
TAGGGGCTCGCCGTTCAGGGAATGAATCCGACCCTTTGGGAGCACAAATCATAGTCACAAGACATAGCCCATGCCACATTTCACTTAGTAGGACCCACAT
AAACCTCAGTTAAGGTCACCTTGACCTCCAGCCAAAATCACTCACTGCGGAAAGGACCCTCTCGGTCTCGGTCTCGATCCCGCTCCCGATCCCTGTCCCG
TTCCCGGTCTCGATCTCGATCCCGATCCCGATCCCTGTCCCGCTCTCTGTCTCTGTCTCGATCCCGGTCTCGATCCCGCTCCCGATCTCGGTCTCTGTCC
CGGTTCCTCTCATGGCTGCGGTCCCGGCTGCGGCTTCGGGGAGGGGAGGCTGAGGAGTGGGCACCACTGCGTTCTTCATAGCCCCAGTCAAAGCTTCGAG
GGGGACCATCACCAGCCCCTGGGCCCTCTGCCTCTTCTCCATCTGGTCCTAGTTCTCGAAGTCGATCACTAGAAGACACAAAGCTGGGGAGATGCAGACT
GAAGATCAAAGGGGGGTTTTACCTTCTCCCCTCAGACCCTGTGGAGACTCAATATTCCCTCTATAGCCCAGCTCCTACAGCCCAAACCTCCCAAGGACTC
AGGCAATCAACTCCACCAAATGGGCCCAGCCTTATCTCTACTCTCTAACCTCTCATACAGAGATTTCCTCTGGGGACGTCTGGATGACTGTAAAAGAGAC
CAAGAACAGTTAAGATGATTTCCAGTTGCTGACATGTGGTCCAAAATATATTTGTCTCTCATATTCCTCCATCCCCAACCCCTCAGGGACAGAAATTAGG
AGCCTTTACCTCTTGCAGGTCATCATCAGCAGATATGCTCCTCTGGAACGGCTGGAAAGTGGGGACTGGTCCCTTCTCGGGGTCCTGGAGTGGTGAGAGA
CCTACCTCAGTGTGGAGCAGGAGGTTGCCCAACCATGGACCAGAGGTGTTCCTCTTCCCTCACCCTCTTCTAGGTTTCCTCTGATCTTTTCTTCCCTTTT
AATTCTACATACATTTCTTATTTGACGTGGTTTTACTTATTTTTTTTTTTTTTTTTTGAGACACGGTCCTGCTCTGTTGTCCAGGCTGGAGTGCAATAGA
GCAATCGTAGCTTGCTGCAGCCTTGACCTCCCATGCTCAAGCAATCCTCCTACCTCAGCCTCCCTAGTAGCTGGGACTAGAGATGTGCTCTACCATGCTT
GGCTAATTTCTGTATTTTTTTTTTTTTTTGTAGAGATAGGGTTTCACTATGTTGCCAGGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCTCCTACCTC
GGCCTCCTAAAGTGCTGAAATTAACCAGGAATGAGCCATTGCCGCACCTGCCATTGTGGCTTGTTTTGTTTTGTTTTTGAGACAGAATCTTGCTCTGTCG
TCCAGGCTGGAGTGCAGTGGTGTGATCTCCACTCACTGCAACCTCTGCCTCCTGGGTTCAAGTGATTCTCTGGCCTCAGCCTCCTCAGTAACTGGGACTA
TAAGTGTGCACCACCACATTCTGCTAATTTTTTTTTTTTTTGAGACGGAGTCTCGCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTCGACTCACTGC
AAGCTCCGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCGCCCGCCACCACGCCCGGCTAATTTTTGTATTTT
TAGTAGAGATGGGGTTTCACCTTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTG
TGAGCCACCGCGCCCGGCCTCACACCCTGCTGATTTTTGTATTTTTAGTAGAGACGGGGTTTTACCATGTTGGCCAGGTTGGTCTTAAACTCCTAATCTC
AAGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCCAGCTGGTATTTTTTATAAGTGACTCGATATATTATGTA
TTCAGTTTATTTGAACCTCTCTTGAACCTGATAACATTTTCAGCCCTTTCCATCCCTTAGGGCAACATATTCCAAGAGCTCCAATCCAAGGTGGATTAGA
ACCACAGAATTTGTAAAATGGAGAATTCAGGAGTCGTCTAGTTTTTTCATTTTATACATGAGAGGTGAAACTCAGAATGGTACAGCAATTTGCCAGTGCT
TGAGTATGCATATTTTTCCCCAAACCCATCTACATTCCAACTTGGAGGGATGCCCTTTAAACAATCTTTCTGCTTGTGCTCACCTTTAACTTCCCCTCAA
GGGTTCGAGAACGCTTGAAGCCTGAGTTCTTGGTCTCAGCCTTGATGGCACTGATGGCTCCTGACTTCACCAGCTGCTTTGCCTGCTCTGTTGCTGTGGC
TGTGTCCATGACAGGCTGCTCTGATAGTGCTGGAGAGACAAGGGGAAGAGGCATTATGTTGGCCAAGCCATGATGAAGGTCAGCTCCATGCTGCCCACTT
CCAGTCCATCCCCATTTCCCCTGTCACTCACAGCGTTTGACACCACCTTGGCTGGTTGTGCTGCTGCTACTTTGCTTCTTCAGAGCCAGCAATGCCTTTT
TCTGGGAACAAGGGTGAGAAGAGAGAGGTAAGTGAGGGCCAGCCCCTAGCCGGTTCCTCTCCTAAGGCCCCTGGGCACATCACTCCAGGGACCGTCTTTC
TTGATGCCCTCAGAGTGGTACACTGATGTGCTCTGCCTCTTGCCTCTGGTCCCCTAGATCATGTATGATGCTGGAAATTCCTAATCTAACCAAACCACGG
AACCCAGAGGTTTTCCAGAGTGTTACATTTTTGAAGTTGAAGACAAATAACTCAATCATGGACTAGAATCCTAGGATATAAGCTGCAAGTAAGTATAAGT
TTATGTGCCTTTCCTGGAAGCTTCATCCATCTATTTCCTGCATATTGAATGAGGCCCAGCCATGACTTCGTAACAGGGATATCCAGGAGGCTAATGCATT
GTTCCTACCCTCAAGAAGCTTACAGTCTGAGAAATAAAATACATTGAGTTAGCAATACAATTATAAGAGGTGCAGATTATTCATAGCTGAAAGCTAGTAA
GATTTTCTGATGTTTAATGGCTATTAAACTAGGCCCTCTCCCGTATCTCTGCACAACACAGAGAGGAGAAGGGTATTTTAGAAAAAGAAAACAGGGTGGC
AAAGATGCAGAGATAAGAAGGCTTTGGGAATGCATCTTTTGGAAGTAGTGAATAGTTCTACTTTACTAGACAAGGCTGCCAAACTAAGGTTTTGAGGCTT
TTTTATAGACAATGTGAAGCCATTTATGGTTTTTGAGAAACAGAGGGAGCAGAATTTTGTGTTTTCAATGGATCATTTGAACAGGAGTGAAGAAGTCTGT
TCAAAAAAAAAGACTGAGAAATTTGTTGAGAGACCATTACAATGGCCCACATGAATGTCAATAAAGCCCTGCTCGGGGGAATGCACAGTGAAGAATAAAC
AGGAAAAATTACTTCAAAAGAAGAAACAATAAGACTTGGCAAAGGTTTGACTATGCAAATAGTGGGGAAGTCAGAGTTTTGAGTCCAAACATGTGGCAGA
ATTGGTGTAGTCAATCTTATTTGGAAGATCAAGAATAGAAAGATGATAGCTTCAACACTGAGTATCTGAAGTTTTTCAG


SNP Information

Context             (SEQ ID NO:6562):
GGTCTCCCTACTACAATGTGAGTGATGAGATCTCTTTCCACTGCTATGACGGTTACACTCTCCGGGGCTCTGCCAATCGCACCTGCCAAGTGAATGGCCG
R
TGGAGTGGGCAGACAGCGATCTGTGACAACGGAGGTGAGAAGCATCCCCTCCCCCTACATTGCTGTCTCCCTGACGGCGCCCAGCCCGAGGAGTGGGCAC
Celera SNP ID:            hCV3125453
SNP Position Genomic:     7449
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,6|G,9)      total(G,9|A,6) ;no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6563):
GAGTCCCTATGCTGACCCCAATACTTGCAGAGGTGAGAGAATGCTCTTTGGTTGTGCTACAAGTGCCCAAGGCCCAACAGTCCTTTTCTCTACAGCTTCT
S
CTCTCCTTGCAGGTGATTCTGGCGGCCCCTTGATAGTTCACAAGAGAAGTCGTTTCATTCAAGTGAGTCCTCCCTTTCCTATCTGGGGAGATGCCAAGTG
Celera SNP ID:            hCV25630792
SNP Position Genomic:     11833
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,31|G,1)   caucasian(C,32)   total(C,63|G,1)   
SNP Type:                 INTRON


Context             (SEQ ID NO:6564):
GGCCAGAGGCAGGAAGCTGCCCACAAAGAGGTGGTACCTACTCTCCTACTTCAGGAGGGGAGAAGCGGGACCTGGAGATAGAAGTAGTCCTATTTCACCC
Y
AACTACAACATTAATGGGAAAAAAGAAGCAGGAATTCCTGAATTTTATGACTATGACGTTGCCCTGATCAAGCTCAAGAATAAGCTGAAATATGGCCAGA
Celera SNP ID:            hCV7515124
SNP Position Genomic:     10956
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    ;no_pop(C,-|T,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6565):
TACCCTGGAAACCCATGATCCCCCGTCTCTTTGGTCACTGTATCCCTGACACTCCCAGACATTTGACCTCATTTCTGACTCTCCCAGACTCCTTCATGTA
Y
GACACCCCTCAAGAGGTGGCCGAAGCTTTCCTGTCTTCCCTGACAGAGACCATAGAAGGAGTCGATGCTGAGGATGGGCACGGCCCAGGTTTGAAGACAG
Celera SNP ID:            hCV25630793
SNP Position Genomic:     8046
SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,1)   caucasian(C,20)   total(C,49|T,1)
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6566):
TAACACTATACCCATGGTTGGGGCCCTGAATGTGACTCATAGCTGGCTGTTCATCTCTCCTGTGACCCTTCATAAGGAATTCTTCCTAAGCCCTGTGATC
R
ACTATCTCTAACCCTTCCTCAACTTGCTCACCCTGCCATGTGTATCCCTGCCTTTAGCCAGTTTATCTTCCTTATCTCCTACCCTCATGGTCCTGTCTCT
Celera SNP ID:            hCV3125454
SNP Position Genomic:     9426
SNP Source:               Celera
Population(Allele,Count): no_pop(G,3|A,14)   total(G,3|A,14) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6567):
CCCAGACTCCTTCATGTACGACACCCCTCAAGAGGTGGCCGAAGCTTTCCTGTCTTCCCTGACAGAGACCATAGAAGGAGTCGATGCTGAGGATGGGCAC
R
GCCCAGGTTTGAAGACAGAGAAGGGAGGCAGGGCAGGGAACTGGGGGAAAATGGAGAAGGGACAGAACTGTTAATGCTGGAGCCTGAGCCACTCTCCTGG
Celera SNP ID:            hCV25630794
SNP Position Genomic:     8128
SNP Source:               Applera
Population(Allele,Count): african american(G,36)   caucasian(A,3|G,33)   total(A,3|G,69)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6568):
CATTCCTCCTTCTCTACCTCAGTGTCACTATTCTTGTTTCCTGGCACTGTTCACTTAACCTTAGAATCACAGAGCTCTGAGCACTTCAGAGATCTTTCTA
Y
AGTCCTACATTTGACACGTGGAAACAGAAGCCAAAGGAGGTCAAGGGACAGCAAGTTAGCAACAAGGGTGGGCTTGAAAACAGCCAGGCCTCTGACAGCT
Celera SNP ID:            hCV3125455
SNP Position Genomic:     10054
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6569):
AAGAGACAAGTGGGGCATGAGAGGGAGGTGCAATAGGAAGAGATGATGCCTGGCCCAGAACCTAGCTCTAGAAGGGCTTAGGGGACATCTACTGAGTGAC
R
AAGGCAATGGGGAGATGACAGTGGTGGGAGCAGCTGAAGTGACGCAGTCTATTCGTCCAGAGGAAGAGCTGCTCCCTGCACAGGATATCAAAGCTCTGTT
Celera SNP ID:            hCV7515125
SNP Position Genomic:     11374
SNP Source:               Applera
Population(Allele,Count): african american(A,34|G,2)   caucasian(A,33|G,5)   total(A,67|G,7)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): PGA-AFRIGAN-PANEL(G,5|A,43)   PGA-EUR(EAN-PANEL(G,5|A,41)   total(G,10|A,84)no_pop(A,-|G,-)   no_pop(G,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6570):
GCAGAGCCTGCCTCACCTTAGGACCGCATGTCTTGCCTGCGTGTGTCAAGAACGAGGCTGAGCTGGGTCCCTAGTCTGATTCCTTTAGGTCAGCTAAGAC
R
CAAGCAGGAACAGCCATGCTTCCAGGATTAGGAATTCTACTGAATGATCCATGGCACCCCACTGCCTCTGCAGGTTGGTGTAATCAGCTGGGGAGTAGTG
Celera SNP ID:            hCV3125456
SNP Position Genomic:     12092
SNP Source:               Applera
Population(Allele,Count): african american(A,16|G,22)   caucasian(A,19|G,17)   total(A,35|G,39)
SNP Type:                 INTRON

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,-)   PGA-AFRIGAN-PANEL(G,19|A,25)   PGA-EUR(EAN-PANEL(A,16|G,26)   total(G,45|A,41)JBIC-allele(A,697|G,794)   total(G,794|A,697)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6571):
ACTATACCCATGGTTGGGGCCCTGAATGTGACTCATAGCTGGCTGTTCATCTCTCCTGTGACCCTTCATAAGGAATTCTTCCTAAGCCCTGTGATCAACT
R
TCTCTAACCCTTCCTCAACTTGCTCACCCTGCCATGTGTATCCCTGCCTTTAGCCAGTTTATCTTCCTTATCTCCTACCCTCATGGTCCTGTCTCTTCTG
Celera SNP ID:            hCV25630795
SNP Position Genomic:     9430
SNP Source:               Applera
Population(Allele,Count): african american(A,32|G,2)   caucasian(A,30)   total(A,62|G,2)
SNP Type:                 INTRON


Context             (SEQ ID NO:6572):
AAGGAATTCTTCCTAAGCCCTGTGATCAACTATCTCTAACCCTTCCTCAACTTGCTCACCCTGCCATGTGTATCCCTGCCTTTAGCCAGTTTATCTTCCT
W
ATCTCCTACCCTCATGGTCCTGTCTCTTCTGCAGGATTGCACAACATGGGCGGGGACCCAATTACTGTCATTGATGAGATCCGGGACTTGCTATACATTG
Celera SNP ID:            hCV25630796
SNP Position Genomic:     9499
SNP Source:               Applera
Population(Allele,Count): african american(A,3|T,31)   caucasian(T,8)   total(A,3|T,39)
SNP Type:                 INTRON


Context             (SEQ ID NO:6573):
AGAGGTGGTACCTACTCTCCTACTTCAGGAGGGGAGAAGCGGGACCTGGAGATAGAAGTAGTCCTATTTCACCCCAACTACAACATTAATGGGAAAAAAG
M
AGCAGGAATTCCTGAATTTTATGACTATGACGTTGCCCTGATCAAGCTCAAGAATAAGCTGAAATATGGCCAGACTATCAGGTGAGAGCGTCCAGATCCC
Celera SNP ID:            hCV25630789
SNP Position Genomic:     10982
SNP Source:               Applera
Population(Allele,Count): african american(A,38)   caucasian(A,37|C,1)   total(A,75|C,1)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6574):
TCCCTTCCTGCTGTCTCCAGCATCCCTCCTTGGCCTTTTGGGGCCAGGCTTCATCAGCCTTTCTCTTCAGGTGTGACCACCACTCCATGGTCTTTGGCCT
R
GCCCCAGGGATCCTGCTCTCTGGAGGGGGTAGAGATCAAAGGCGGCTCCTTCCGACTTCTCCAAGAGGGCCAGGCACTGGAGTACGTGTGTCCTTCTGGC
Celera SNP ID:            hCV940289
SNP Position Genomic:     6694
SNP Source:               Applera
Population(Allele,Count): african american(A,7|G,31)   caucasian(A,1|G,39)   total(A,8|G,70)
SNP Type:                 NONSENSE MUTATION

SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   PGA-AFRIGAN-PANEL(A,13|G,35)   PGA-EUR(EAN-PANEL(A,3|G,25)   total(G,60|A,16)    
SNP Type:                 NONSENSE MUTATION


Context             (SEQ ID NO:6575):
AGGAAACAAATACCCGTGGTCTTTCCCTTTCTCCTTTTGGGCCTTTGCTCCCCATAGACTCCTACCCAAAAGGCTGCTGCCATTTGGGAATGAAGTGTTC
M
GAGTTTTCAGCACATTCTCCTTCTCTGCCAGATGAAAGCCAGTCTCTGAGTCTCTGTGGCATGGTTTGGGAACACAGGAAGGGTACCGATTACCACAAGC
Celera SNP ID:            hCV25630797
SNP Position Genomic:     10309
SNP Source:               Applera
Population(Allele,Count): african american(C,32)   caucasian(A,1|C,37)   total(A,1|C,69)
SNP Type:                 INTRON


Context             (SEQ ID NO:6576):
TGGGACTTCTGCAGTTTCTGTTTCCTTGACTGGCAGCTCAGCGGGGCCCTCCCGCTTGGATGTTCCGGGAAAGTGATGTGGGTAGGACAGGCGGGGCGAG
S
CGCAGGTGCCAGAACACAGATTGTATAAAAGGCTGGGGGCTGGTGGGGAGCAGGGGAAGGGAATGTGACCAGGTCTAGGTCTGGAGTTTCAGCTTGGACA
Celera SNP ID:            hCV27841334
SNP Position Genomic:     6332
SNP Source:               Applera
Population(Allele,Count): african american(C,30)   caucasian(C,9|G,1)   total(C,39|G,1)
SNP Type:                 UTR 5


Context             (SEQ ID NO:6577):
ATCAATGCTTTGGCTTCCAAGAAAGACAATGAGCAACATGTGTTCAAAGTCAAGGATATGGAAAACCTGGAAGATGTTTTCTACCAAATGATCGGTAGGG
M
GATACAAGGGAATAAAGAACACAACTCTCCTCAGGTTCCCCTGAAGTAATTCATTCTTCCTCTACACCTGAAGCTCTAGTTGCCTGGAAAGCCTTCTTCA
Celera SNP ID:            hCV29415916
SNP Position Genomic:     9855
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6578):
CCTCAGATGTCTATGTGTTTGGGGTCGGGCCTTTGGTGAACCAAGTGAACATCAATGCTTTGGCTTCCAAGAAAGACAATGAGCAACATGTGTTCAAAGT
Y
AAGGATATGGAAAACCTGGAAGATGTTTTCTACCAAATGATCGGTAGGGAGATACAAGGGAATAAAGAACACAACTCTCCTCAGGTTCCCCTGAAGTAAT
Celera SNP ID:            hCV15861919
SNP Position Genomic:     9805
SNP Source:               dbSNP
Population(Allele,Count): JBIG-allele(A,119|G,1378)   total(G,1378|A,119)   no_pop(G,-|A,-)   PGA-AFRICAN-PANEL(A,1|G,47)   total(G,47|A,1) 
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6579):
ACTGAATGATCCATGGCACCCCACTGCCTCTGCAGGTTGGTGTAATCAGCTGGGGAGTAGTGGATGTCTGCAAAAACCAGAAGCGGCAAAAGCAGGTACC
Y
GCTCACGCCCGAGACTTTCACATCAACCTCTTTCAAGTGCTGCCCTGGCTGAAGGAGAAACTCCAAGATGAGGATTTGGGTTTTCTATAAGGGGTTTCCT
Celera SNP ID:            hCV27508695
SNP Position Genomic:     12231
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|T,-)    
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6580):
AAATCTCCAGGTCCTATTCTGTCCTCCTTCCCTTTTACTTGAAGCAGTTTCTTGACTGGTAATTCCTCCATGAACCTCAGCCCTTGAGCCTCTTACTGAG
R
GCCTCCCTGTCCCAGCAAAGTCGCTGAAATCTCCCAATCACAGTATTCTATTTTCAATGCCATGGCGCCTTGTTCTCCTCACCCACAGGTGGCAAGTTAT
Celera SNP ID:            hCV940290
SNP Position Genomic:     8576
SNP Source:               dbSNP
Population(Allele,Count): no_pop(A,-|G,-)   PGA-AFRIGAN-PANEL(G,2|A,46)   PGA-EUR(EAN-PANEL(G,2|A,38)   total(G,4|A,84)   SC_12_AA(G,3|A,18)   total(G,3|A,18) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6581):
AGGGAATGGTGGGAGGTTCACTTTGGGGTCAGGAGGTTCAGGGTGGAGGGGGTCATGAGACTACCTTGAGGGCGACAGGGAGGACCACTTTGTAGTCAAA
R
GTTGAACAGCAGGATCGTTGGGCAATGGAGGTTAGTGGGAACCTGTTGGGGGCTGGAAGGGCCACTTTGTGGTCAAAGGGAAGTCCGTGTAATGATGATT
Celera SNP ID:            hCV940291
SNP Position Genomic:     8914
SNP Source:               Applera
Population(Allele,Count): african american(A,9|G,25)   caucasian(A,13|G,13)   total(A,22|G,38)
SNP Type:                 INTRON

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(A,5|G,8)      total(G,8|A,5) ;SG_12_A(A,7|G,10)   SG_12_G(A,7|G,16)   SG_12_AA(A,5|G,12)   SG_95_G(A,54|G,111)   total(G,149|A,73)no_pop(G,-|A,-)   no_pop(A,-|G,-)   PGA-AFRIGAN-PANEL(A,13|G,35)   PGA-EUR(EAN-PANEL(A,12|G,30)   total(G,65|A,25)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6582):
ACAAAGAGGTGGTACCTACTCTCCTACTTCAGGAGGGGAGAAGCGGGACCTGGAGATAGAAGTAGTCCTATTTCACCCCAACTACAACATTAATGGGAAA
R
AAGAAGCAGGAATTCCTGAATTTTATGACTATGACGTTGCCCTGATCAAGCTCAAGAATAAGCTGAAATATGGCCAGACTATCAGGTGAGAGCGTCCAGA
Celera SNP ID:            hCV25630790
SNP Position Genomic:     10978
SNP Source:               Applera
Population(Allele,Count): african american(A,36|G,2)   caucasian(A,38)   total(A,74|G,2)
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6583):
TTCCCTTCCTGCTGTCTCCAGCATCCCTCCTTGGCCTTTTGGGGCCAGGCTTCATCAGCCTTTCTCTTCAGGTGTGACCACCACTCCATGGTCTTTGGCC
Y
GGCCCCAGGGATCCTGCTCTCTGGAGGGGGTAGAGATCAAAGGCGGCTCCTTCCGACTTCTCCAAGAGGGCCAGGCACTGGAGTACGTGTGTCCTTCTGG
Celera SNP ID:            hCV3125451
SNP Position Genomic:     6693
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

SNP Source:               Applera
Population(Allele,Count): african american(C,29|T,5)   caucasian(C,35|T,1)   total(C,64|T,6)   
SNP Type:                 MISSENSE MUTATION

SNP Source:               Celera;HGBASE
Population(Allele,Count): no_pop(C,6|T,7)      total(C,6|T,7) ;no_pop(C,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6584):
TAGCTGGCTGTTCATCTCTCCTGTGACCCTTCATAAGGAATTCTTCCTAAGCCCTGTGATCAACTATCTCTAACCCTTCCTCAACTTGCTCACCCTGCCA
Y
GTGTATCCCTGCCTTTAGCCAGTTTATCTTCCTTATCTCCTACCCTCATGGTCCTGTCTCTTCTGCAGGATTGCACAACATGGGCGGGGACCCAATTACT
Celera SNP ID:            hCV940292
SNP Position Genomic:     9465
SNP Source:               Applera
Population(Allele,Count): african american(C,2|T,18)   caucasian(T,12)   total(C,2|T,30)
SNP Type:                 INTRON

SNP Source:               dbSNP
Population(Allele,Count): SC_12_C(C,1|T,22)   SC_12_TT(C,9|T,12)   SC_95_C(C,11|T,176)   total(C,21|T,210)no_pop(C,-|T,-)   PCT-TFRICTN-PTNEL(C,13|T,35)   PCT-EUR(ETN-PTNEL(C,5|T,41)   total(C,18|T,76)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6585):
CTTCCAGGCAGCCCTGGAAGTCAAGAGAACACTCAGAAATGGGGAGGGAGAAGCAGTGGAAATCCATATGGGTTGAGGAGTAGGTAAGATGCTGCTTCTG
Y
GGGACTGGGAATGCGCTGTTTCTCAGTGACATGGTCTCCGAGACCAGGAGGGATACACCTAAGGCAGCCTTTCCCTCTTGATGACTTCTACTTGTCCCCC
Celera SNP ID:            hCV3125452
SNP Position Genomic:     7187
SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,7)   total(C,7|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6586):
TTGGAAGACCAGGTGAGGTGATGGTCTCTTCCCTCTCCACAGACCACAAGTTGAAGTCAGGGACTAACACCAAGAAGGCCCTCCAGGCAGTGTACAGCAT
K
ATGAGCTGGCCAGATGACGTCCCTCCTGAAGGCTGGAACCGCACCCGCCATGTCATCATCCTCATGACTGATGGTCAGAAGGGACCTCTCTCCTGTCCCA
Celera SNP ID:            hCV7515114
SNP Position Genomic:     9179
SNP Source:               HGBASE;dbSNP
Population(Allele,Count): no_pop(G,-|T,-)    ;no_pop(G,-|T,-)   
SNP Type:                 MISSENSE MUTATION


Context             (SEQ ID NO:6587):
GGACATCTCAGAGGTGGTCACCCCTCGGTTCCTTTGTACTGGAGGAGTGAGTCCCTATGCTGACCCCAATACTTGCAGAGGTGAGAGAATGCTCTTTGGT
Y
GTGCTACAAGTGCCCAAGGCCCAACAGTCCTTTTCTCTACAGCTTCTCCTCTCCTTGCAGGTGATTCTGGCGGCCCCTTGATAGTTCACAAGAGAAGTCG
Celera SNP ID:            hCV25630791
SNP Position Genomic:     11785
SNP Source:               Applera
Population(Allele,Count): african american(C,1|T,25)   caucasian(T,14)   total(C,1|T,39)
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


Gene Number:                 56
Celera Gene:                 hCG95981 - 84000313732746
Gene Symbol:                 MGC8407
Protein Name:                hypothetical protein MGC8407
Celera Genomic Axis:         GA_x5YUV32VV34(49854853..49879198)
Chromosome:                  Chr3
OMIM number:                 
OMIM Information:            


Genomic Sequence (SEQ ID NO:1717):
CCAACTGAGGAGGCTGAGAACCCCATGAAGAAACTTCCAGTCTCTACCTCCAGGCCAGGCAGCCCAATGCCAGGCCCAGAGCCCCCAGTTATCTCCAAGT
CCCAGAGGAGTAGCCAGGAGATCTGTAGCTCTCAGCCACAGAAGCAGCTCCCCAATGTCTGTGACAATACCAGCTCTAATGTGCCACTGTCTGCCTACCA
AGTAACCTGCCACAAGCAGTCCCCATTCCAGTCTCCGAAGGAAGCCATGCAGATCCCCCTCTCCAGTGCCCCAACCTGCCAGCTTCAGGAAGTTGTGGAG
GACCGTGTGCTGGTATTTGATGGGGCTGCTGTGCCATGACCCTGTGGGCTCACGGGCAGTGCTTGTGGGCCTCATGCCCAGCCACCCATCCATCTATGTC
CCTGAAAATATGCTGTCCACCCAGCTGTCGGCCAAACCCATCCTGTCTCCTGACAGCAATCACTCCAGCTTTTGGTCTATCACACCCATGCTGTCCAGCC
CAGTGCCCTGCAGCCTCTCATCTGGCAGCTACCGAGAGGTAGCCCTGATTCCCAAGGAGGCCAGGCTCAACCTGGAGTCATGGGACTCCCCTGGTACTGA
GACACCCATCAGGGTTGGGATGCTGACTGGGCCTGTTCCACTGGGGATGCCCCTCCAATTTGATGAGAGGATACTGACCCATGTCCCTAATACTAGCTGG
TCCAAGCCTGATGGTGAAAAAAATGAACCTAGTCATACCATCTGGATGCTAGACCCTTCCATGGCACCCTCTAGGATGCCAGATGCCTCCATAGTCCAGA
CCAAGAAACTGCAGTGGATGAACTCAGAGCCTGCTGCACCAGCCGATACCCAGGAAGTGCCCAGATCCCTCCTCCAGGAAGACATAGGCAGCCACGAAGA
GGTCATTCCTGCTCACCCTGATAACCCTCAGGCCAAAGATGCTGGACAGACTCTCCTCACTGGGCAGATCCTCCTTGCTGGACAGCCACCCCTACCTGAG
CACCCCCTTACTGATCAACCCCCTCTCACTGGGCAGACACCCCTTGCTAGGAATCCCTCTTTATCTAAAGAACCCCCCATCACCAAAGAGCCCACTCTTT
CAAGATGGTCCCCCAACCCTGGAGAACCTGGCCAGGTCTCCACCCAGGAAGATGAGCCCTTAGGCCTGCCTACTCATGTAGGGGTATTTCAGGTGCCCCT
GACCCCTGAGGAGACCTGTATCTATATGAGTAGAGACAAGGTTGGCATCAGTAATACTCAGCACTCCATCACGCATCAGCAGCAACCTGGCAACTCCCCT
AGGACCCAGGAGGAGCAGCTTCCCTTGATCACATTTACCACACCTGGCACTGGACGCAAGGTCTTGCCCATGGCCATGGTGGCCACTGAGCCCCAGAGTG
CCCCATTCAAGCTGACAGCTGAGGATCTTACACACTTATCAGTAGTTGCACACCTTGGACTGCCCCACGGGGCCTGCTATGAACTGGTGTCCACCATGGA
TGCTCTGCCAGTTCGGTCGCCAGTGCTCTGCTGCCACTCACTGGGACCCTTCCAGGACATGGCGGCCGTGGTGATTGATACAGGCACAGGATTCACCAAA
TGTGGACTGGCGGGAGAGGACCATGTCCTCAGTGTCATACCCTCACGAGTTCAGCTGCTGCAGCACCCAGCCCAGGGCCAGCCACGATATGCAGTGCCTG
AAAACCAAGTGGGATCCTATTCAGTGCTGAACCGTGGTGTGGTCTATGACTGGGATGCACTAGAGGTGCTATGGCAGCACCTGTTCTATTGAAGGCTGGG
TGTGCAGCCCGAGAAGCTGTCTGTGCTCGTAGCCGACTCGCCCATCTCACCACTCACCAACCGAGAAAAGGTGGCTGAAATACTCTTTGAGCATTTCCAT
GTCCCAGCCATGCAGACAGTGCATCAGGCCCTGCTGGCGCTCTATGCTTATGGACGTACCACTGGGCTGGTGCTGGGCAGTGGCCATGGCACTTCCTATG
TGGCACCCATCCTCACTGGGGATCTGGCCCCACTTGACACCTACCGGCTGGATGTGGCTGGTGCTGACCTTACTGACTACTTGGCCCAGCTGCTGCAGAG
AAGTGGCCACTCACTGCCCCAGGCAGGACTGATCAACCAGATGAAAGAGGCCTGCTGCTACGTGGCCATGGATGTGGCAGCTGAGAGGGCCCACACCCAG
GCGCAGGCCGAGGTGGACTTTGTGCTTCCAGACAAGCAGGTTATCACGCTGGGGCCTGAGCGCTTCTGCTGCCCTGAGGCCCTCTTCCAACCCAATCTGA
TAGGTCTCAACCAGCTGGGCCTTCCACAGCTGGCCCTCCTAAGCATCAGCCGGTTGGAGGCCAAGCAGCAGGAGCAGCTACTGGCCAATGTGGTACTGGA
CGGTGGCAGCACCCTCATGAGTGGCTTCCCTGAGCGCCTGAGACAGGAGCTGGGCCCTGGTGCCACTGTGCTGGGGTCTCCCCACCGTGCAGTTGCTGCC
TGGCTTGGGGGCTCCATCATGGCATCCCGGAGCTCTTTCCAGAGCCTGTGGCTCAGCTGCCAGGAATATGAGGAAGAGGGCCCATGGGCTATCTATAAGT
ACCAGCTGTGAGCATATAAAAGTTCTGGTTCTGCTTTCTTTAAGCACCGTGGCATGTTTCAGCCACAGGGTGGTGTGGGAAAAGCAGGAGTCCAGGCATG
GGGTCATGGATGGGGGCCCTGGCTCTCTCCCAAGGCATGCCCTGCCTCTGCACTCTGGAACTCCATGGGCCCTGGCAACCTACCCTTTCTAGACAGCCCC
GGAGCCCCTTGACTGGCATTGGCTCTGATCTGGCCTGACCTTTACTGCACCCCAAGGGCAACCACAGACAGTGGCTGCTGTGGGTTTTGCCCCGTTGCCC
TGACGACAAGTGCAATTACCCTTGATTGCCAGCTTGTTGCCATGGCAATTTCAAACATAATGTAATAACCCACACAGCCTGGAGTGAGTCACAAGGTGGG
GGGCGGGGGGCAGCCCCCTCCCCTGGCTCCAGAGGAAAAGACTGCTTGCCCTTCCCCATTGTGGGCCCTCTTCTGGGGACTGAAGCCAAGCAACATGGAC
AACAGTCAGGCAGTTTCAAAGATGGCTGGGGGCCTGGGGTGGGAGGGTTCTGTCAGAGTTCAGGCTTCTTGGGGAGCTGCACTGGTAATCTAGGTACCTC
CTAGAGTCTGAACCTTTGCTGGAGCGCTATGCTGGGTTAGCAGGGGCTTCTATCAGCCAGCCAGAATCTAAGGGCATAGGAGTGCCGGCCTTTGGCACCC
TAGAGCTGGGAGTTGGGGGCACAGATAAGTCCTGGATCCTGGGTAGGAGGCCCAACCTGAGCTGGGGGATGAAGCTCTGTGGATACTGCGGCTCGCACCT
TATTCTGCCCCTCTGACTTTCTAGCTTTGGTGGGAGCCAGAACTACGAACTTGGGCCCTCTTCTCCTCCTCAGCCTCCCAACCCAGGCAGCCCCTGTCTT
CAGGGTACAGGCCTCCTTAGGAGGGTCCTCATAAAGGCTACTAGGCAATGCTAATCTGGATTGCCTCTGCTCTTGTTCCAAACTCTGGTCTGTGCTAAAG
GGCCTCCTGCCATCACTCTGGCCAGTGGAGTGGTGAGAAATCATGTCCCCTGACCCCGTCTGGCTTTGAATAGTGGAAGTAAGAACAAAGCTCAGCATTG
GTCCCGTCCCTGCCCTGGAAGAGCTAAGAGGATGGCATTCAGCTGATGTTACTATCTCCTGCCTGAAAGGCAGCTGGAGGTTGAAGCCAAAACATTGAAG
CCGGTCCTACCCTGCCTGTGCCTTCCTGTCTAGGGGCTGAGGGATAAGCCATGGCTCAATCCTAGCCCTGGGTTCTTGTCTTCAGATTGCCCTCCACAAA
TGGCAAAGACTTGTCTATCTTCACATACACCAGAGATCAAGGGGCTGCTCTGGTGGGGAGCCTGAAAACAGCCAATGATGTAGGGTCAGCACAGACCCTG
CCCACTGCTGGACATGGTCCAGCCCCCTTCCCATGTCCAGCTCTCAAAGCCTGATTCAGCCTCCACAATCCTGAGACTTGTGTCAGGCAGGAAGGGGACT
GATAACTCCAGGGACCAGCTACAGCGTCCACACACACGTGCCAGCAAGCATGCCTGGGTGCACAAAGAATGCAGACACACGTGCCCCTGGGCACCACTGC
ATACACTGTGCTGTTGCATCTCCCTCGGCAAAAGAGAGCATACACAACACGTACACGTGTGCACACACACCCTGCCACGTGCTCTCACCCACATGCACAG
AGCGTGCTTAGGACCAAGAAGAGGTGGAGTACTGCCAGCAGCAGGCAGGGCGCTAAGGAGCCACCCCTTCCCCTGCCTAAAAATCCCCATTCCAGCTTCT
CATTGACCCCCATGCCTGGATAGCCATGACCCTCAGGAAAGACAGAAAACATGTATGTGGCATGTGTGGGGTCAGCAAGCTACAGCTTGGCTACACCATA
AAACTCAGAGACCCATTGTTTCAAGAATAGTGGGCAGATGGCAGGAAGGACTCAGTGCCAGGCCATTCATTCATTCTGCAGACATCAGCCGAGCATACTG
AGATGAGAAACGGGTTCTGCCTTGCAGATACCCAGCCTGCCAGGAGATTCCTACCCAGTGGTGGGGTGGGTCCCATAACCCGAGACCACTCAGAGCCCAG
GGACCCCAGAAGTGGCACCAGCCTGGCCTAGAGGAGGTAACACCAAGCCAGGGAGGAAGGTGAAGGGCTCAGTACCCCCTCTGGAGGAAAATTTTGAGGA
ACCTTGTTTGAGGCGGTCATTTCCTAAGCTAGCCTTCAGTCTGAGCCCCAGCCCCAGCTTCTGGACTTGGACAGTCCCTCCTGTCATCAGCCATGGGTGG
CCAGGGCAGCCTCAAGATGGCTGAGGGTTTGGGGATGACCCCAACTCCCTCTCCCACAGCAGGGTCAGGAGGCTCACTGGGAGGAGTGAGGTGGGATAAA
ACCCAGCTCCAGACACTGAGAGGCCTGAGTCTGGTCTTCAGATACTGGCCTTAGGATGGTCCTCAGGGCTTGTGAGGGGTGTGGGTCAGGCTTTGGGTCC
GTGAGCCTCACTGACAAGGGACAGAGAAATGGCCAAGGACTTCCTTTAAAGCTTCCTCCTGGTGGTTCTGAGCCTCCTCCCTCTGATTAGCACCCAGGCC
AGGTGGGATACCTTGGTGCCACAGTTCTCCTGTGTCCCCATATCCCAGGCCAGGCCACTAGAGTGATACAACTCATGAAGTGTTTGACAGTGATTAGACT
GAAAAGAAAGCAGAGGCCACACCATGTCACAGGTGACTTTTATAGTTTGGGAAATTTGGTGCCACACAGGAAGGGGCTGACTGTGCTGCCACCCTTGCTG
GTACTTATGTTTGGGAAAGACTCTGGCCTTGCAGGAGTTGGGGATGGGGTGGGATAGGAGACTTTGCTACTACAGTCTAGGGCCCTCACTGTTTTCACAC
TGACTACCTGCAAACACACACCTCTGTGTGTTTACTGCTCCTAGCTAGGGGATGCGTAGCTAGGGGATGCTAGGGGATGCCACACTGACTACCTGCAAAC
ACACACCTCTGTGTGTTTACTGCTCCTAGCTAGGGGAGCCTGCCCTAGCCCGACTGCCCATCTGGTTTTTCTAAGTTGGTCCTGCCTTTTGGGTCGGGTT
CGGGGAGCTGGGCAAAGCCCCGTTCCCTAGAGACTAATGACTGGCAAGCGATCCTATGCAGCTCCAGGACTCAGGCTTTCCCCCAACTCTCCACTCACCA
CCCCTTACATTGGGCATAGGAGGCCTCCTCCGGCCCCAGGCTGAGGGCCTAAGGGAGCCATTGAGAACCTTGGCCAGGGCTAAGCAGGCCAGTGCTCACC
AGCACCGCTGCCATCCCGCGCGCTCCTGCTCTCCAGTGGGATTCTGCCCTTAAGGCTCCGCCAGGGTCGGGGCGGGGCCGGTTGGGAGGCCCCGCCCCCA
GCCCGCCCCCGGCCCGGGGTGCGAATCCGGTGCCGGCAAGCGGCTGGCGATGCTGGAGGTTCGCTAGCCGAAGCGGCTGCATCTGGCGCCGCGTCTGCCC
CGCGTGCTCGGAGCGGATTCTGCCCGCCGTCCCCGGAGCCCTCGGCGCCCCGCTGAGCCCGCGATCACTTCCTCCCTGTGACCAACCGGCGCTGCAGGTG
CGGGGCGGGCCGGGCTGGGGGCGCTTCCCGAACGCAGGTTGTGGGGCCTTGGGGGATTGTTTCCCTGGCTCGAGGTKCGGGATGCAGAGTGCGCGGGGGC
GCAGCGAGGGCTCGMGGTCCTGGCGGGGTCAGAGCGCGCGGGCTTTGCAGATTTGGGGGAGGGAGTGCGGGGTCGGGCTAAAGTTCCCCATTACCTCGGA
CGGCTTGGGGGTTCTGGGGGGAAGCTTCTGCGGCTCGGAATTGTGAAAAGATTAACCCTCGAAGATTCGTGGTCCCCCGTGAGGATAGGGGCCGAGAGCT
GAGCCGTCCCTCCCCGTTCCCAGAGCCGCCTCCAGCCCCTCCCAACTGTCCCCGGGCCCCTTCCCTCCCGCTTAGCAGTCACTAATTTCCATGACAACGG
AGAGTTCTTTATGGGCGACAACCCGGAGGGGGCTGGGCGGGGCTGCCGCGGGGTGGGGGAGGAAGCTCCAAGCCCCTGGGGACCAGCAGCCCCCCAGCCA
AAATTCAGCTTCCAAGCCTTCACCTGGGTGCCAGCTGGGGGTCCAGTGCATGGACCCACGTGCACGGTGGGGGTGGGGGCGCACATGTTCCTGCTGGGAG
GTGCGGGGCTTGGTGCTCACACGTGTGCTTTCCGCATGTGTGTTGCTGTGCCAGCGGGGGCGAGCCAGCAGCACTTGGGAAAGGGGTCAGGGTGGCAGCA
CGGTGGGGAGCAGGGCCCCTGGCTGGAGGTGGCTGGGATAGTGACAGCATGAGCTTCTGCCTTCCCCAGCTTGTACTGTTTGGCAGAGACCCTGGGCTCT
TGAGCCCCAGCCCCCTCCCCGCATAGCTCTGCCAAATTGCTTTTGTCCGCACCTCCCAGGCAGATCCTGCTCCACCAGGTTCCTTCCTAAGGATCAGGGC
CCTCTGTCCCACACTAAAAGCTCAGAGTCTGCAGTAGTCCAGTCCCTGTGCTGTACTCCCCTTACCCCCAAGTCCAGGCTTTGAGCCCCCAGGACTACCT
TTAGAGACCTGGTGCCCTCCCCCACCCTCAGAGTTGATTCCTGGCAGCTCCAGCGACTTCTGAGCCTCAGTTTCCTCAACTGGGGAACTGGTGTCTCCAC
TCAGAGTCAGGTTGGTTTCCAGGGTGGGGCAAGGGTCTCCCTTTTCTAATATTTGGTGTGGACCCTTCAGGTGCTCTCCTAGGCTGKCTGTTCACATATC
TCTGATGGCCCTACTCTCCAGCCCCATGCCCTGGCCACCATTCACAGGCAGGCAAGCAGTCCTCTGCCCTGGGAGAAGGCCAGATTCCATGGTTTCCATT
AGGGGAAACTGAGGCATGGGGAGGTGAAGGGCTGTGTGGTTATCCTGTTTCTGGGTTGCTTGTGGTGCCGTTTCTGGCACTCATGGCAGGATCTGCTGTT
GGGGGTTGGTGAGAGGGGATTAAGCAGAGCTGTAAGAGGGGCTCTGGGGACCCAAAGCCTGGAAAGGATAGCAGATGGGGGAGGGGTTGGCTGGGAGGGT
CTAAGTACAGCTGGGCCAACTGAGAAGAGGGACTATAAAGGGAAGCAGCCAGGCATCCGAGCCTCATTTCCATACCCCTATGCGTCTGCCTTCAACATGT
TGGACCTGCTTTACCTAAGCTGCCGTGATGGCAGAGAGACGGGCTGGGAACTGTCCTGACTGGGGGGCTGCAGCAGCTGGCCTCTTCCCCACCAACATGC
TCCAAGGAGCTGGCCTCCTTTTGGCTGTGCCTCCTACACCAAGTTCAGTGTATGTTTGGGGGATACAGGAGGGTGCAGTCTCGAAGGTCCCAGTACCATG
GATAGCTCCTGGCCCAGGGATTTAGAGCACATCGCCATGGAGGCCTTAGGGCTCTGCTGGGCACCCATCCGCCCCCTTCAGAACTCCCGTCCACCTCCCC
TTTCCTGCCCTTTGTGCCTGTGTCCCTTTTACTTTGTCATCTCCTTGCTCCTCTTCCATCACAGGTTCTGTCTTTGTCTGTGTCTCTGCCCCATTCTCTT
TTTTCTAAATTCTCTCCATCTCCCCACCTCCCCTTTCTTGATGGGGACCTGGGTCACAGAACCTTGAAGAAGCAGCCAGGCTAAGGTCTCAGGAAATTCT
TGAAGAAGGGACCTGACCAACACATCTCCCCTCCCCCTCCCCTTGTTTTAAAACTTCCATCACCATAGCAACCCTTTACTCTAGTGCCTTCCTCTGCATT
TCCCCTCCTCCACCCACAGGGAAGCAGAGCCTCCAGTGGATTCTCCTTCAGGGGTTCAGAGATTTGGACCCCAAGTGCTTGGGAGGAGACAGCTGGCCTT
TGGCTTTGCCTGCATGTTGACAGCTAAACTTTCGGGATGTAGCACTGGACTGCATGCCCACCCCCAAAACTGGAGAGACCTCCCCACAATACTCCCTCAT
TAGATGGGCAAAATTCAGCTGTAGGAACTTCTACCATGATTTAGCTCGAGCCGGAGGCTCAGTCAGGGCAGCCCCTTGACCGGTCCCCTGAAGCAATTGG
ATGGTGGTCTAGAAGCTTGGCCCTTGTTCTTAACAGACCTTGAGGGAGGTCTTCAGCTCCCCTGGTCCTGTGGGTGACACCTCAGCTGTGAGTTAAGCAG
GGCTTGGGCTTCAGCATGTTCATTGCAGCAGGAAACCCAGCCCCAGCCCTTGAGAGAGTAGAGCAGCAGAGAGGAGGGGGTGCCTGCAGGCTGGTGTTCA
CAGCTGCCACTAAATTAGGAGGTGTTGCCTACAGTTGTTGGGAGGCAGCTGGAGGCCTCTTGGGCCCCTCCTGGCCTCCCTAGATTTACTGCAAGCTCTG
GAGCCCCACGTGGCAGGGGACCAAGGTAGCAGGAAACTCTGTTTATGTCTATGAAAGGTAGGGCCTGAACCAGGATGATCTCAGCGGAGGAGGGGACAGG
ACCCCAATGTGGGGCCTCCGGACCTCTTGGCCTTTGTCCCGTTTGGGCTTTCCCTGGGCCAGACTTACCTAAAGATGCAGCAGAGTCCCTGGGGGACCAT
TTATCACCAGGGCACCAACAGAGGACCCCTCAGGATTGCTGGAGGCTCAATTCCCTGAGTCCAGTGGTCAGGCCCTGGGAGCAGGCCATAACTGGGGAGT
GCTTGGCTCTCAGGCTCCATGAGAGCCAGCTGGAGGGCAATGGCCGCACCAGGGCCTGCACTCCCCACAAGCTCCCTCTGGGCAGCCGGTAGTGCATACT
GTTCAGTTCCTCTGCAGAGAGTGGAGGGAGCCATGTCTCCAGGGAAATGGCTGTTGTGGAGCTCCCATGCCCTTCCATGGCCTAAGTGTACCTGAGGAAG
AGCTCAGATCCTGTGTTGCTGAGAGGAGAGCTCTCCATTGTTGGGTGTTGGGTCTGGGCCATGGGGGTGAAAAATACAAACCCCTTCCACTTGGCCTCCT
CTCTTTCTGAGAGCTGTCCCTTGGCTGTTCCTCCCAGGTCTCCTTTGTTGCAAGCAGGTGCCCAGGGCTTGGTGCACACACCCGAAACCTCCCAGGGAGC
AACAGTGGATAGCAGATGGTGGAGTGGGTGTGGGCAGAGGGAACCAAGGTGCTAATTGAAAGCCAGGCCCCTCTTTCTCCTCTCTTTGCCCTGGGGCCAA
GTCCAGGGCCCCAAGCCAGTATACTTAGACTGGTGAGGAGGAGGAGGAGGAGGAGGAGTGACTGGCTGAAATTTGGGCAGCCATAGTAGGGGGCAGGGGA
GACAGATCTGTTCCCATCTCAGCCTTGAGGCTTCAGGACATGGCTCCAGGCTGACATTACGGGGTGGAGGCCCAGTTTTCTGTGCCTTTCATGGGACAGA
CCCCCATGACCAGCCCTGGACCTCAGTGGGCACGAATGCATATGCAGAGCCGAAAGCTGGGGCCAGGATCAAGGACAGGCATGCACAAAACCTCCCACCC
ACGCCACACTGGCAAAGCTGGGAGCTGTTGGAGTGGGGTGGGGGGTGGGGCATGGAGGTTGTGGAAGGTATCTCAGAAAAGGGCCATTTTGAGTCTGGCC
TTCGAGCATCAGGATTGTTTTGGACAATGTGTTGCACAAACCACCTTATAATGTCAGAAATCACAATGAAAGAAGAGATTCAGTTCTGCTCTCAGCACCT
CGCTCATGTGGCAGCTGCTCCACAGGAAAGCCAAGGTGGGCAGAGCTCTTGCCAGTGCCCACACTTCCTACCATTGAGTGGACACAGTTGAGCTGGCGAG
TCACCTGTTGTTGGACATTTAGGTAGTTGCTGAATTTTTTTTWATGTTATAAATAACTCTGCCGTGACAAATAGGAATCTGACGGGAGGCTTTTGGGGGA
AGGGCACTCTTGCCAGAGGGAATGGTGTAAGCAAAGCAACAGAGCCAGGGCACAGGTCCCTCCCAGCCTTCTTGGGAGACTGCAGGCTAAGGTACCATCC
TCCTGCCCAGTACACGGCCCTCAGACTGAGATGACTGTTGCAGGCCCCCTCCTGCAGCTGTTATGGTGTGAAAATGTGTAGCCGGCAATGGTAACTGGCT
ATGCCTCTGCTCTCAGCTGTGAGGATGGGATTCTGGCCACATGCTTCTCCCCAGTGGAGGAGTGCAGGGTTGTGCCCATGGTGGCAGACATGCAGTCAGT
GACGATCTTCAAAGCCTCTCCTTTGTCTCTGCTGTGCYTCGCAAGAYGGCTTAAACCCTGTCTGGAATAATGCTGATGAAATGCATTTGTATTCCCTGAG
CCCAAGCAACCCAGATGAAGGAATGATAGAGTTTGTTCCCTAATGCTGAAGGCAAATCTGAGGGAGAATTTCCAGGGCTGTGACTCCTGGGAATCACAGC
CTGGTGGCTGGCTTCTGCCTGGGAGGAAGCAAGTAGCAGCCAGGGTTGGCTATGGGGCTCGTTTGGGTCCTGGTCTTTGACTTTGGCTGGCAGAGTTCAT
CTTGCCAAGCTGCCTCCTTTGCCTCCTCCCTTCTCCACTACCTTGAGGCTGTGAGTGCCTTCAGGTCGGGGAGCATCTAGGTACCCCCAGGCCCTAGCTC
AGGCCCTGCACACAGCAAGTGCTAATTGGCRTGGAGGGAAAACATGCACAGTCAGCAGAGGCAGAGCAATTTCAGCGCAGCCTCAGTGCAGAGCTTGCTG
TAGCCCCAGTGTCACACTGACCGGGTATTATGGAGGCACACCCTGGCGTCAGATCTGTGAAGGTCTAGTCAGTAACCCCCCACCCCCAGCTTTGAGCATG
GGCTATGAGTGCCTTTTCCTTTGGACACTGGAGTCAGCCCCCCTAGCACTACAGATGAGGATTGGGCTGTAATTGGCAGGATTGCAGACCTGTGGGACAC
CGTGCCCCAGGTGGAAAGAGTGCCTAGCGCTCACTGAGCCAGCTATATCTGTTCTGTTTGGGGGCCTTGCACCTGGACCTGACAGCCCAGGTCCCCTGTG
GGCCCCAGTGGGCATGAATGCATATGCAGAGCCGAAAGCTGGGACCAGGATCAGGCTTGTTTTGCTCTTCCTGACCAGTACACCTGCATACCTCCTGGCA
AATCTTTTCCTACTGAGTCCTAATGCTGCCTCCAAAGCTTTACCTTGCCTCTCCACCCAGATTATCCCTCTGAGGAATCCCCCAAGCACTGTGCCTGAGT
GCAGTATTTACTAAATTCATCGAAGTCATTATAGTAAAATAGTAAAAATTCGCACAGAAAATTAGTAAACAAAAGATATGTCTGCCTTTTTGACATCCAA
TTCTTTGCCCAGGAGAGAACTCTTATTTCCTTCAGTATTCTTCCAGAAAAGAGTTTGTGAGGGTACATCAGTATGTAAACTTTAAAAAATTTACCCAAGC
CAGGTATGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAAGCTGAGGTGGGAGGATCACTTGAGCCCAGGAGTTCAAGAACAGCCTGGGCAACGTAAT
GAAATCCTGTATCTACAAAAAAATTTTTAAAAATTAGCCAGTTGTGGTGGTGTGCACCTATGGTCCAGTCCTAGCTACTCAGGAGGCTGAGGTGGGAGGA
TCGCTTGAGCCCAGGAGGTTGAGGCTGGAATGAGCTGTGATCATTCCACTGCATTCCAGCCTGGGTGCCACTGCATTCCAGCCTGGGTGACAGAACAGCT
GGGCATGGTGCGGGTGCCTGTAATCCCAGCWGCGGTGGGAGGATCGTTTGAGTTCAGGAGCTCTGGGCTGCAGTGCGCTATGCCAGTTGGGTGTCTACAC
TAAGTTTGGCATTAGTATGGTGACYTCCTGGGAGCTAGAGCTCATCAGGTTGCCTAAAGGAGGGGTGAAGCAACCAAGGTCAGAGACGAAGCAGGTCAAA
ACTCCTGTGCTGATCAGTAGTGGGCTTGTGCCCATGAATAGCCACTGCACTCCAGCCTGGGCAACATAGTGAGACTTGTCTCTAAAAAAAGAAAGAAAGA
AAGAAAAGAAAAGAAAAGAAATAGGTCTTCCAGAATCCCCCCATGTGTCCTGAATCAATCATAACCCCTCCTTTTCTCTTAGAAGGGACCATTATCTGAC
TCTGCTTATTTCCTAGCTTTTCTTTATAGCTCTACTGCTGTGTTTGTATCCCCCTTACGGGTTTGTTCTGCCTGTTTGAACTCTATCAATAGACTCATAC
TATATGTATTCTTTTGTGTCTTTTTGCACTTAACACTGTGTAAGAGTCACCAGGTGGTTGGGTATAGCTGTAGCTCCTTTGTTTCCATTGCTATATAATA
TTCCATTGTGTGACTCTACCACAATACATCCTGTTGGTGGTGGTATTTGGTCTGTTTTCAATTTTTGGCKATTATGTATATGGCTACTATGAGCATTGTA
TGACTGTCCTGATGCACRAATATGTGCACTTCTGTAGGCACGTATTTAGGAGTGCAATTGCTGGTTCATAGGGTATGTTTGTTTGACTTTAGTGGTTTTA
CCAAACTGCTTTACAAAGGGGAGTTTGCCCTCTCCTAGCAGTGCTCACGTTCTTCATATATCCACTAACACTTGTTAGCTCTAGACCTTCAGAGATGACT
AGCAGGTGGGTGGGTGGTTATAGCCCCCTTCATCTGTAAAATAGCTGAAATTTAAATAAACTGTTTGATAAGCCTTTTTTTTGAATGTATAGAATACAAA
ACTATTCCCTTATATATCAGCTTAATACATTTTTTCATATGTAGGCTGTTGCACTTCAGGCAGCCAAGCTGAGTAGCTGGATGTCTAGCCAGAAAAGCAG
GGGTAGGATCTAAGCCTGCCTATCCTCTAGCCCCYCCTGGTATGGTCTCTGCCCCTAGCTTGGCCTGAGCCAGGTTGGGGTCTCCCAAAAGCAGCCCCTA
TGTTGTGGGGAAGTGGAGAGTAGTACAGCTAAGCCAGACCCCATTGTGCCCGCAGGTTAGAGCCTGGCAATGCCGTTTGGGTGTGTGACTCTGGGYGACA
AGAAGAACTATAACCAGCCATCGGAGGTGACTGACAGATATGATTTGGGACAGGTCATCAAGACGTGAGTGCCGGGCCTGTCAGGCAAGGCTGGGTGGGC
TGGTGAGCAGGGGCTAGGGAAGTGGCAGTGGAGTGCAGCTGATGCTAAGGCCAGGCCTGAGTGGGTGCCTGTCGGCTGCAGTGAGGAGTTTTGTGAAATC
TTCCGGGCCAAGGACAAGACGACAGGCAAGCTGCACACCTGCAAGAAGTTCCAGAAGCGGGACGGCCGCAAGGTGCGGAAAGCTGCCAAGAACGAGATAG
GCATCCTCAAGATGTGAGTTTGAGGCCTGGGATTGGGGCGGGGTGGGAGGCAGCAGGGAAGGGCTTAGAGGGCAAGTGGCCTCAGGCAGTCCCAGCCTCT
GGCCAATTAGTCTGCTGTGGCCACTGTGGTGACCACAGCCTCTCCCAGGGGTTCATCCAGCCCTAACTACTGGCTCCCCTCCCTGTCGCCAGGGTGAAGC
ATCCCAACATCCTACAGCTGGTGGATGTGTTTGTGACCCGCAAGGAGTACTTTATCTTCCTGGAGCTGTGAGTGTGGGTCTGGGGACCCAAGATTCCCCA
GCGCCCAGGGCTTTCACCTGTCCCACCCTCTGCAGCTAAGGAAACCCCCTTTCTGGACCCTTGGCGTCCCAGGTCCCTGTGCCTTGCTCAGCCAGCTGCC
TGGCGTAGGCAGCTCACCCAAGTGCTCCTGCCCTACCCCTGATTCTGCCCACGCCAGGCTCAGGGGCTGGTGTCCCTCAGGGCCACGGGGAGGGAGGTGT
TTGACTGGATCCTGGACCAGGGCTACTACTCGGAGCGAGACACAAGCAACGTGGTACGGCAAGTCCTGGAGGCCGTGGCCTATTTGCACTCACTCAAGAT
CGTGCACAGGAATCTCAAGGTGAGGGCAGAGCCAGAGTCAAAGGGCCAGTTGGCAGCTGGGCTGGTGCTGGGGTGGGCAGCACCTCAGGGCCTTGGTCTA
GCCTCCAAGGTCCTCATGGTGTCTTCTGCTCACCCACATGCTATTCTCACACCACAGCTGGAGAACCTGGTTTACTACAACCGGCTGAAGAACTCGAAGA
TTGTCATCAGTGACTTCCATCTGGCTAAGCTAGAAAATGGCCTCATCAAGGAGCCCTGTGGGACCCCCGAGTATCTGGGCAAGCAGGGGGTGGGGCAGGG
GCAGGGGGATAATGGGGGGCAGCCTTCAGGGAGCTGCTCTGGGCAGGGGGAAAATGTGCTCATCTCAGGAAGCTGGTGTGGATGGTACTGGACCTGGCTA
GGCCTGATACTGACCAGCAGATGGGCGCTGTGTTTGTAGCCCCAGAGGTGGTAGGCCGGCAGCGGTATGGACGCCCTGTGGACTGCTGGGCCATTGGAGT
CATCATGTACATCCTGTGAGTGGACAGATGGACAAGCAGGCTTGCAGTCAGATGGGGTGGGGGCATGTGTCTSTGGCCTTTCTGTGTGACCCTTCCCCCA
TGCAGGCTTTCAGGCAAYCCACCTTTCTATGAGGAGGTGGAAGAAGATGATTATGAGAACCATGATAAGAATCTCTTCCGCAAGATCCTGGCTGGTGACT
ATGAGTTTGACTCTCCATATTGGGATGATATTTCGCAGGCAGGTGAGGAGGTGCCTGCCCAGCACTTGGTAGAACGCAAGGGAGTGGGGAGGGTGTCCTG
CTCTCATCTTCCTCTGTGGTATTCTGCTTCTGTCCCCCAGCCCATTTATCACCTCTAGACATTGAGATGGGGTGCCCATGACTATCCCCTYCTTGGTTTT
GTCCACAGCCAAAGACCTGGTCACAAGGCTGATGGAGGTGGAGCAAGACCAGCGGATCACTGCAGAAGAGGCCATCTCCCATGAGTGGTGAGCAGGGTCC
AGGGGAGGGTGGGAGAGGCCAGGGTCCCCCTCACACCCAGCAGCCCCATCTTTGAGGCCTRGAAGGGGTGCAGGTACCTAGAGCTCAGGGCAGCCCAGAG
GCTCTGCCTGGTAGTCCCTGGATGCCACATAGAAGGGCTGAGCAGAGTCTCCACAAAGGCTCATTCTCTCAGATCCAGACACACTTGCACCCTTTCCAGG
ATTTCTGGCAATGCTGCTTCTGATAAGAACATCAAGGATGGTGTCTGTGCCCAGATTGAAAAGAACTTTGCCAGGGCCAAGTGGAAGGTAAGGCTTGGAT
AACTCCCTTCTTGGCTCTATCCCAAGTATTGCTTCTGGCACTCAGTTTCTTGCCTGCATCACACCCCTGCAGCCACACACAAGCTTTTCTCAGGCCATCA
GGTGTGGGTGTAGCCACTGTGATTACCTTAAGTAGGAGTGCTGAGCAGCTGAGTACTTGGCCCTGGGGTGGATGGAGGTGGCCGGGGGTACTATGGAAGG
AGTTTGGTTTGGTCACTGCCAAGCAATGGATCCAGCAAGCCTCACCCTTAGCCTTTCTCCACTGTGCTCCTTTCAGAAGGCTGTCCGAGTGACCACCCTC
ATGAAACGGCTCCGGGCACCAGAGCAGTCCAGCACGGCTGCAGCCCAGTCGGCCTCAGCCACAGACACTGCCACCCCCGGGGCTGCAGGTGGGGCCACAG
CTGCAGCTGCGAGTGGAGCTACCTCAGCCCCTGAGGGTGATGCTGCTCGTGCTGCAAAGAGTGATAATGTGGCCCCCGCAGACCGTAGTGCCACCCCAGC
CACAGATGGAAGTGCCACCCCAGCCACTGATGGCAGTGTCACCCCAGCCACCGATGGAAGCATCACTCCAGCCACTGATGGGAGTGTCACCCCAGCCACT
GACAGGAGCGCTACTCCAGCCACTGATGGGAGAGCCACACCAGCCACAGAAGAGAGCACTGTGCCCACCACCCAAAGCAGTGCCATGCTGGCCACCAAGG
CAGCTGCCACCCCTGAGCCGGCTATGGCCCAGCCGGACAGCACAGCCCCAGAGGGCGCCACAGGCCAGGCTCCACCCTCTAGTAAAGGGGAAGAGGCTGC
TGGTTATGCCCAGGAGTCTCAAAGGGAGGAGGCCAGCTGAGTAGGCAGCCTGGTGAGGGGGGGCAGGGGATGGGCAGGAGGGTGGGAGAGTGGATGAGGG
GCTTCTCACTGTACATAGAGTCACTGGCATGATGCCCTCGCTCCCCCATGCCCCCACATCCCAGTGGGGCATWACTAGGGGTCACGGGAGAGCAGTCTCG
TCTCCTGTGTGTATGTGTGTGAGTGGTGGGCAGGCCAGTGGCAGGGCCGGCCCCAGCCCCTGCATGGATTCCTTGTGGCTTTTCTGTCTTTTGCTAGCTT
CACCAGTTTCTGTTCCTTGTGGGATGCTGCTCTAGGGATACTCAGGGGGCTCCTGCTCTCCTTCCCCTTCCCTTCTTGCCTCACCATTCCCCTAGGCAGG
CCCTGCAGGTCCCACACTCTCCCAGGCCCTAAACTTGGGCGGCCTTGCCCTGAGAGCTGGTCCTCCAGCGAGGCCCTGTCAGCGGTCTTAGGCTCCTGCA
CATGAAGGTGTGTGCCTGTGGTGTGTGGGCTGCTCTAGGAGCAGATACAGGCTGGTATAGAGGATGCAGAAAGGTAGGGCAGTATGTTTAAGTCCAGACT
TGGCACATGGCTAGGGATACTGCTCACTAGCTGTGGAGGTCCTCAGGAGTGGAGAGAATGAGTAGGAGGGCAGAAGCTTCCATTTTTGTCCTTCCTAAGA
CCCTGTTATTTGTGTTATTTCCTGCCTTTCCGAGTCCTGCAGTGGGCTGCCCTGTACCCTGAACCTCATGAGCCTCTAAGGGAAAGGAGGAACAATTAGG
ACGTGGCAATGAGACCTGGCAGGGCAGAGTACAAGCCCAGCACCCAGTGTCCCAGCCTTACTGGGTCCTTACCCTGGGCCAAACAGGGAGGGCTGATACC
TCCTTGCTCTTCCTAGATGCCCACCTCCTACAATCTCAGCCCACAAGTCCTCTCCACCCTAGGGGGCTTGCTGCATGGCAATAACTCATAATCTGATTTG
GAGGTTTGCCCTTTACAGGGGCAGATTTTCTGCTCAGTTCAACAATGAAATGAAGAGGAACTCCCTCTTTCTACAGCTYACTTCTATCAGAGGCCCAGGT
GCCTCAGAGCCACATTGAGTTGCTTTTTCTGGGATGAGGAAGTAGGGTTAAACTCCCCAGTTTCCTGAGGGAGGCTCCTGACAGGTGCCCTTTGTCAGAC
CCTACCACAGCCTGGATAGGCAGCCACATTGGTCCTCGCCCTTGCTCGGCACTCCGTGGTGGTCCTGCCCTTCTCCCTGCATGCCTGTGGGTCTGCTCTG
GTGTGTGAAGGTCGGTGGGTTAACTGTGTGCCTACTGAACCTGGCAAATAAACATCACCCTGCAAAGCCTCTGGCCACCCTCTCGCCTTTGCTTCCTCTG
TCCTACTGGGGAGGAGCCCCTGGAAGGCAGTGGGGAAGGGAGAGGCTGGGAGCAGGTTCACAAGTAGTGGCTGGGAGTAGTAGTGAACAGTGCCCTGTGG
ATTTCTTGGGCTGAGGGTGAAGATCATCCTCACCACAGTGTATTCCTCAATGGTGGTGGTGGTGGGGGTCCTCTGAACTCTAGAAATCCATGTGAGTAGT
GGGTCTTGGGCTGCATTTGGACCAAGGAATACTCCCTGGGCTGAGAGCTCAAGTAAGGGCTGCTGTTTTTGACTCCTGTTGACCGAGGAGCCTTACTCTT
GATTTAGGCATAGAGCTGGAATCTACCTGGGCCAGCCASCGCAAGGACAGACCCTGCTCATAGCCAAAGATAGCTTCCCTGAGCTAGGGAGAGGGTGTAG
GGTGAGCAATGCACAAAGATTCTATGCTGCTCTGTGTTGATTCCTTCTTTCTGTGAACACCTGTGCTTTCCACCTATGCCCCAAATGAAATCTCACTCTG
GGTCTATTTCAGCTGGAGCAGATCAGCTTTATATTATGGGACTATGCACAGGGTTTCTTCTGGGTAGAGGGAGTAACACTGCCACAGATACTAAGCCTAA
AAACCCAAAAGTTGACTTACTCCAGCCCAGGTGGGCCTGGGTGAACTCACCAGGGATGCTGCTCTCTGGGAGGACCTCAAAGATAACCTCCTCAAAGATA
ACTTCTCTGATGTGGGAATAATAAAAAGGATTTGTTAGTCTCTAGTCTTTGAAGCATCTGGGCCTCCAAAATTCCAACCCTACTACAGTCTCAAGCATAA
CTGATCCTCCTGAGAGCTAAGAGCTAAAGTCAGGGTACTGGCCCTAGTGTCTCCAAACTCAAGGATAGTCATATCTTACTTGGATGAAGCCAAGGTTGGC
CTGGGGTGACCTGAGGGACTGGGGCCTATGTGTCCATCTTTCTAGAATCGCCCGGAACTGAGGACTGAGAGGGTAGGGTATTGTGGTCTATGGGAACTAC
AGACCATAGCGCATGGTCCATCACTGTCCAGAGCCCAAGGGACCCATCGGGACCATTGTTCTATTCCCTTGCGGCTGCGGTTTTCTCTGCCTTGGCCCAG
CCTGCCTCGCGCCAGCTCTGGCATGGGACCACAATGCGCTGCCTTGCCCTGGAAAAGGGTCCAGCTGGCAGCCTCGCTGCTCCCCGCCTTGATATAATGC
TGCGCTCTCAAGTGGCAGGTCGAGTCTCCCCAGAGGACGCCTGAGAGCGACCGCGCTCCGCCCAGGATTCTCTACGGCCTCGGGGCCGCTAAGCCCCGCC
CATAGTTCCGCCCATCCGAGAATTTGTCCAATCCAGGCGAAGTATTCACGCTCCGCCCAAAGTTTTGTGTTGTCACTTCCGGCCCGCTCCAGGAAGTCGT
GCTGCGGAGCCAAATTTGAAGCAAGCGGAGGCGCGGGGGCGCGTCTACGAAGCCGGACCTGTAGCAGTTTCTTTGGCTGCCTGGGCCCCTTGAGTCCAGC
CATCATGCCTATCCGTGCTCTGTGCACTATCTGCTCCGACTTCTTCGATCACTCCCGCGACGTGGCCGCCATCCACTGCGGCCACACCTTCCACTTGCAG
TGGTGAGTGACTGCAGTGTTGGGGCCCGGTGTTTGCCCGGGTACCGCTTCAGGGCCTTGAGGTGTTGGGCCTCCAGGCGGTCCAACCCCGGAATCCAGAC
AAGTGATGAGAACCTTCCTCCTAGACGAGGCCCCACGGGAGCTTCCCAACCTGGGCAGAAGTGGGTCAGGACAGGCTTTCTGGTAGAGGTGATAGCTGAG
CTAAGCCTGAGGGGGACTAAGATGGCTCAGTGAAGATAGATGCTTCCTTGATCACCTATACAAACAGATGTGATTTCAAAACCGTTAGCCTGGGCAAGGG
TGAGCTTTCACCACATCAACAAGTCCTTTTATTTCTTCCAGATAGAAACCTGCTAGGCTTCTGGCTACCCAAGAGAGTTTGCTGTGCCTTACTTGATGGT
TTGGAATTATTCTACCCAGAGTCATCTCACTGTCCAGACACCCCAATGTATTCGCCATGTCAGCAAACCCGTTTAACATGGGGAAGGCAAGGAGATGCTC
CCCTATCCAGGGGTCCTGCTGACCGTGTAGGGCCATTCTGTTGAGTGTACAGCTAGTGGGGAAAGATTCCCCTAGCAGATGTGGACAGGCCGGTTTGGAC
CTCCTAGCAAAAGAGATAAGGCAGCGTTACCCCTGGGAATGGTGGGTGATAATAATCACAGGGTCTTGTGGGGCTAAAGGCCCTAGGAAGCAGAAAGGCA
GGCATGACACTGATGGCTGCTGGCTTACTTGCAAAGCTTTGTTTAGGCCTGTGTTGCTGACAGCCTGAGCCCCATGCTGAGGGAGCCACTGCTGTTTGGT
TAGACTAGAAATTAAGCTCGCCTCTAAGCGTACTCTATTTTCTGTTTGCCTACTCTATTTTCTTCTATCCTTTTACTTTATTTATTTATTTTTATTTTAT
TTTATTTTTGAGATGGAGTCTCGCTCCTGTCGTGTAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCACCTCCTGAGTTCAAGTGATTC
TCCTTCCTCAGCCTCCCAAGTAGCTGACATTACAGGCGTGCGCCACCACGCCCAGCTAATTTTTGTGTTTTTCATAGACAGGGTTTCTCCATGTTGGCCA
GGCTGGTCTCGAACTCCTGACTTCAGGTGATCCACCCACCTTGGCCTCTCAAAGTGCTAGGGCCTATCCTTTTACTTTAAACTTTTCTGTGTCCTTGTGT
TTTACATGTATCCCTTGAAACAGCATTTATTTCTTTTTTTGTATATTAAAAAGTACTTTAGCTTACTGCAAAGATCTTTATTTTATTTTATTTTGAGACA
GGGTCTCACTCTGTTACACAGGCTGCAGTGCAGTGGTGCCATCTCGGCTCACTGCAGCCTCTACCTCCTGGGCTAAGGTGATTCTCCCATCTTAGCCTCC
CAAGTAGCTGGGACTACAGGCGCCTGCCACCATGCTTGACTATTTTTTTTTTTTTGTATTTTTAGTAGAGATGGGGTCTTGCTATGTTGCCCAGGCTGGT
CTTGAACCCCTGGACTCAAGTAATCCACCCACCTCTGCCTCCCAAAGTGCTAGGATTACAGGTGTGAACCACCGCACCCAGCCTTGGAAAACAACATTTA
GTTGGACTTTTAAAAATCCAGTCTGATAATCTTTGTATTTAACTGGACCATTTAGTCTACTTAAAATTGTTGCAATTACTGATTAAATAAAGAGTAAACA
TATTGTCTTTAGTCGATTCTGTTTTGCCTTGCCTATTATATCTTATTGTCTCCTTTCTTGCCTTGGTAGGAATTGGTTAAATATTCTGTATTTCTCCATT
TTTCCCTCAGTTAGTTGGGTCGTTATATACCCCATTTCCATTTATAAGTGGTTATCCTAGAAATTAAGGTATGTATCCTTAACTTACCAATTTCAAGGTT
AATCAGCACCTTTCTCATTTTCCCAGGCAACTCAAAGAGCTTAGAATACTAACATTCTTTTCCCACTTCTACGTTATTGTTGAATATTTTAATTGTGTGT
ATGTGTGGTATTTTTTTCGTTGGTGTTATTTTTGAGACAGAGTCCTGCTCTCTTGCCCAAGCTGGTCTGCAGTGGTACAATCTCTGCTCACTGCAGCCTT
GACCTCCTGGACTCAAGCGATCCTCCTGCCTCAGCCTCACAACTAGCTGGGACTACAGGTGCATGTCACCATGCCCAGCTAATTTTTGTTTTTTGTAGAG
ACAGGATTTCGCCATGCTGCCCAGGCTGGTTTGAAACTCCTGTACTCAAGTGATCCACCCTCCTTGGCCTGCCAAAGTGCTGGGGTTTACAGGCATGAGC
CACCACGACCGGCCAATTGTATGTTTTTAAGTAAAGTTTTTGTTTGGAATAATTTTTTTTTTTTTTTGAAACAGGATCGTGCTGTGTCGCCCAGGCTGGA
GTTTATAATTGTTTCTTCTTGCAGGATTGAACTTTTTTTAAATGTTCTTCTTTGTCCTTCTTTGTCTCTTGTAACTTTAATTCAAAGTCTGTCTTGCCTA
ATTTTTTTTTTGAGATGGAGTCTCGTTCTGTGGCCCAGACTGGAGTGCAGTGGCGCAATCTTGGCTCACTGCAACCTCTGCCTCTTGGGTTCACGTGATT
CTCCTACCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACACACCACTGTGCCTGGCTAATTTTTTTTGTATTTTTAGTAGAGGCAGAGTTTCACTATGT
TGGCCAGACTGGTCTCAAACTCCTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCTACCGTGCGTGGCCTATCTT
GTCTAATTTAAAGTCCATTTTATCTGCTATTAGTATAGCCACTTCAGCTGTCTTTTGGTGACTGCATGGTATATCTTTTTTCATCTGTTTTATTTTATTT
TATTTTATTATTGTTTTTAGAGACAAGGTCTCGCTATGTTAGCCAGGCTGGTCTCAAACTCCTGGCCTAAAGCAATCCTCCTGCCTTGGCCTTCCAAAGT
GCTGGGAATACAGGTGTGAGCCACCACACTCGGCCCTTATCCAACTTCTAGCTTCCGTTGTAGCTATTGAAGTCAGATTTTAGTTTATCAGTTACTCCTT
TAAGCATACTTTGGAACTTTATCCTCAGACTCTCATTACCTTTAGAATTTTCTCTGATTTTGGCTTTCTGCAGTTTTAGTATAGTGTATCCAATATGAAT
TTCTTTTTACCTTTTTCTTTTCTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGCACAGTGGGACAATCTCAACTCACTGCAAC
CTCCACCTCCCTGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTAAAGGCACGTGTCATCATGCCCGGCTAAATTTTGTACTTGTAG
CAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCTTCCCACCTTGGTCTCCCAAAGTGCCGGGATTACAGCCAT
GAGCCATTGTGCCTGGCCGAATTTCTTTTTACAAATTCTGCTCGGGATTCATTAGATTTCTTTAACGTGTAGAGCAATTTCTTTCTTTCTTTCTTTTTTT
TTTGAGACGGAGTCTCGCTGTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAAGCTCTGCCTCCCGGGTTCACGCCATTCTCCTGCC
TCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACCATGCCCAGCTAATTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGTCAGGAT
GGTCTTGATCTCCTGACCTCATGATCTGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCGTGTGGAGCAATTTCT
TTAATCAGTTCTGGAAAATTATCAGCCATTATCTCTTCATATATTGCCTCTATTCCATTAACTTTTTTATCCTGTGTTATTATTTATTTTTGAGGTAGAG
TCTCGCTCTGTCACCCAGGCTGGAGTGCAATGGTCCGATCTCGGCTCACTGCAACCTCCACCTCCTGGGTTCAAGCAATTCTCCTGCGTCAACCTCCCGA
GTAGCTGGGATTACAGGCGCTCGCCACCGTGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTCGAACTCC
TGACCTCAAGTGATCTGCCCCTCTCAGCAGATTGTTGTTGTTGTTGTTGTTGAGACAGGGTCTCACTCTGTTGCCAAGGCTGGAGTGCAATGGCACCAAC
ACAGCTCACTGCAGCCTTGACTTGGGCTCAAGCAGTCCTCCCATCTCAGCCTTCCCAGTAGCACATGCCACAGCCAGCTAATTTTCTTTTCTTCTTCTTC
TTTTTTTTTTTTTTTTTGAGACGGAGTTTCGCTGTTGTTACCCTGGCTGGAGTGCAATGGCGTAATCTCGGCTCACCGCAACCTCCACCTCCCAGGTTCA
AGAGATTCTCCTGCCTCAGCCTCCCGGGGTAGCTGGGATTACAGGCATGCACCTGGCTAATTTTGTATTTTTAGTAGAGACGGGGTTTCTCTGTGTTGGT
CAGGCTGCTCTCGAACTCCCGACCTCAAGTGATCCGCCTGCCTCGGCCTCCNNNNNNNNNNNNNNNNNNNNCCCGCCTCGGCCTCCCAAAGTGCTGGGAT
TACAGGCGTGAGCCACTGCACCTGGCCTACCTAAAGTCTTTGTGG


SNP Information

Context             (SEQ ID NO:6588):
CTGGGGGCGCTTCCCGAACGCAGGTTGTGGGGCCTTGGGGGATTGTTTCCCTGGCTCGAGGTTCGGGATGCAGAGTGCGCGGGGGCGCAGCGAGGGCTCG
M
GGTCCTGGCGGGGTCAGAGCGCGCGGGCTTTGCAGATTTGGGGGAGGGAGTGCGGGGTCGGGCTAAAGTTCCCCATTACCTCGGACGGCTTGGGGGTTCT
Celera SNP ID:            hCV28955971
SNP Position Genomic:     6315
SNP Source:               dbSNP
Population(Allele,Count): no_pop(C,-|A,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6589):
ACTGGTGTCTCCACTCAGAGTCAGGTTGGTTTCCAGGGTGGGGCAAGGGTCTCCCTTTTCTAATATTTGGTGTGGACCCTTCAGGTGCTCTCCTAGGCTG
K
CTGTTCACATATCTCTGATGGCCCTACTCTCCAGCCCCATGCCCTGGCCACCATTCACAGGCAGGCAAGCAGTCCTCTGCCCTGGGAGAAGGCCAGATTC
Celera SNP ID:            hCV9512322
SNP Position Genomic:     7387
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6590):
GTAGCTCCTTTGTTTCCATTGCTATATAATATTCCATTGTGTGACTCTACCACAATACATCCTGTTGGTGGTGGTATTTGGTCTGTTTTCAATTTTTGGC
K
ATTATGTATATGGCTACTATGAGCATTGTATGACTGTCCTGATGCACGAATATGTGCACTTCTGTAGGCACGTATTTAGGAGTGCAATTGCTGGTTCATA
Celera SNP ID:            hCV27986469
SNP Position Genomic:     12970
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|G,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6591):
GCCCTGTGGACTGCTGGGCCATTGGAGTCATCATGTACATCCTGTGAGTGGACAGATGGACAAGCAGGCTTGCAGTCAGATGGGGTGGGGGCATGTGTCT
S
TGGCCTTTCTGTGTGACCCTTCCCCCATGCAGGCTTTCAGGCAACCCACCTTTCTATGAGGAGGTGGAAGAAGATGATTATGAGAACCATGATAAGAATC
Celera SNP ID:            hCV25630087
SNP Position Genomic:     15073
SNP Source:               Applera
Population(Allele,Count): african american(C,1|G,13)   caucasian(C,1|G,17)   total(C,2|G,30)
SNP Type:                 INTRON


Context             (SEQ ID NO:6592):
CACATGCTTCTCCCCAGTGGAGGAGTGCAGGGTTGTGCCCATGGTGGCAGACATGCAGTCAGTGACGATCTTCAAAGCCTCTCCTTTGTCTCTGCTGTGC
Y
TCGCAAGACGGCTTAAACCCTGTCTGGAATAATGCTGATGAAATGCATTTGTATTCCCTGAGCCCAAGCAACCCAGATGAAGGAATGATAGAGTTTGTTC
Celera SNP ID:            hCV272570
SNP Position Genomic:     10838
SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,2)   caucasian(C,9|T,3)   total(C,25|T,5)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,2|C,10)   total(C,10|T,2) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6593):
CTCCCCAGTGGAGGAGTGCAGGGTTGTGCCCATGGTGGCAGACATGCAGTCAGTGACGATCTTCAAAGCCTCTCCTTTGTCTCTGCTGTGCCTCGCAAGA
Y
GGCTTAAACCCTGTCTGGAATAATGCTGATGAAATGCATTTGTATTCCCTGAGCCCAAGCAACCCAGATGAAGGAATGATAGAGTTTGTTCCCTAATGCT
Celera SNP ID:            hCV272571
SNP Position Genomic:     10847
SNP Source:               Applera
Population(Allele,Count): african american(C,10|T,2)   caucasian(C,2|T,2)   total(C,12|T,4)
SNP Type:                 INTRON

SNP Source:               Celera
Population(Allele,Count): no_pop(T,3|C,10)   total(C,10|T,3) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6594):
TTCTCCACTACCTTGAGGCTGTGAGTGCCTTCAGGTCGGGGAGCATCTAGGTACCCCCAGGCCCTAGCTCAGGCCCTGCACACAGCAAGTGCTAATTGGC
R
TGGAGGGAAAACATGCACAGTCAGCAGAGGCAGAGCAATTTCAGCGCAGCCTCAGTGCAGAGCTTGCTGTAGCCCCAGTGTCACACTGACCGGGTATTAT
Celera SNP ID:            hCV272572
SNP Position Genomic:     11231
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(G,2|A,7)      total(G,2|A,7) ;TSC_42_A(G,-|A,-)   TSC_42_C(G,-|A,-)   TSC_42_AA(G,-|A,-)   
SNP Type:                 INTRON


Context             (SEQ ID NO:6595):
TGAGCTGTGATCATTCCACTGCATTCCAGCCTGGGTGCCACTGCATTCCAGCCTGGGTGACAGAACAGCTGGGCATGGTGCGGGTGCCTGTAATCCCAGC
W
GCGGTGGGAGGATCGTTTGAGTTCAGGAGCTCTGGGCTGCAGTGCGCTATGCCAGTTGGGTGTCTACACTAAGTTTGGCATTAGTATGGTGACTTCCTGG
Celera SNP ID:            hCV272573
SNP Position Genomic:     12331
SNP Source:               Celera
Population(Allele,Count): no_pop(A,3|T,6)   total(A,3|T,6) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6596):
CCCAGCTGCGGTGGGAGGATCGTTTGAGTTCAGGAGCTCTGGGCTGCAGTGCGCTATGCCAGTTGGGTGTCTACACTAAGTTTGGCATTAGTATGGTGAC
Y
TCCTGGGAGCTAGAGCTCATCAGGTTGCCTAAAGGAGGGGTGAAGCAACCAAGGTCAGAGACGAAGCAGGTCAAAACTCCTGTGCTGATCAGTAGTGGGC
Celera SNP ID:            hCV272574
SNP Position Genomic:     12425
SNP Source:               Celera
Population(Allele,Count): no_pop(C,1|T,7)   total(C,1|T,7) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6597):
GAGCTCTTGCCAGTGCCCACACTTCCTACCATTGAGTGGACACAGTTGAGCTGGCGAGTCACCTGTTGTTGGACATTTAGGTAGTTGCTGAATTTTTTTT
W
ATGTTATAAATAACTCTGCCGTGACAAATAGGAATCTGACGGGAGGCTTTTGGGGGAAGGGCACTCTTGCCAGAGGGAATGGTGTAAGCAAAGCAACAGA
Celera SNP ID:            hCV26026693
SNP Position Genomic:     10443
SNP Source:               Celera
Population(Allele,Count): no_pop(T,1|A,9)   total(A,9|T,1) 
SNP Type:                 INTRON


Context             (SEQ ID NO:6598):
GGGTGTCCTGCTCTCATCTTCCTCTGTGGTATTCTGCTTCTGTCCCCCAGCCCATTTATCACCTCTAGACATTGAGATGGGGTGCCCATGACTATCCCCT
Y
CTTGGTTTTGTCCACAGCCAAAGACCTGGTCACAAGGCTGATGGAGGTGGAGCAAGACCAGCGGATCACTGCAGAAGAGGCCATCTCCCATGAGTGGTGA
Celera SNP ID:            hCV11546051
SNP Position Genomic:     15391
SNP Source:               Applera
Population(Allele,Count): african american(C,26|T,8)   caucasian(C,17|T,19)   total(C,43|T,27)
SNP Type:                 INTRON

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:6599):
TGTGACCAACCGGCGCTGCAGGTGCGGGGCGGGCCGGGCTGGGGGCGCTTCCCGAACGCAGGTTGTGGGGCCTTGGGGGATTGTTTCCCTGGCTCGAGGT
K
CGGGATGCAGAGTGCGCGGGGGCGCAGCGAGGGCTCGAGGTCCTGGCGGGGTCAGAGCGCGCGGGCTTTGCAGATTTGGGGGAGGGAGTGCGGGGTCGGG
Celera SNP ID:            hCV11546060
SNP Position Genomic:     6277
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:6600):
GAGTGGACAGATGGACAAGCAGGCTTGCAGTCAGATGGGGTGGGGGCATGTGTCTGTGGCCTTTCTGTGTGACCCTTCCCCCATGCAGGCTTTCAGGCAA
Y
CCACCTTTCTATGAGGAGGTGGAAGAAGATGATTATGAGAACCATGATAAGAATCTCTTCCGCAAGATCCTGGCTGGTGACTATGAGTTTGACTCTCCAT
Celera SNP ID:            hCV11546054
SNP Position Genomic:     15118
SNP Source:               Applera
Population(Allele,Count): african american(C,18|T,10)   caucasian(C,1|T,1)   total(C,19|T,11)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,4|T,6)      total(C,4|T,6) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6601):
GGCTGAGAGCTCAAGTAAGGGCTGCTGTTTTTGACTCCTGTTGACCGAGGAGCCTTACTCTTGATTTAGGCATAGAGCTGGAATCTACCTGGGCCAGCCA
S
CGCAAGGACAGACCCTGCTCATAGCCAAAGATAGCTTCCCTGAGCTAGGGAGAGGGTGTAGGGTGAGCAATGCACAAAGATTCTATGCTGCTCTGTGTTG
Celera SNP ID:            hCV163036
SNP Position Genomic:     18339
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(C,2|G,4)      total(G,4|C,2) ;JBIC-allele(C,225|G,1275)   total(G,1275|C,225)
SNP Type:                 UTR 3


Context             (SEQ ID NO:6602):
CAATAACTCATAATCTGATTTGGAGGTTTGCCCTTTACAGGGGCAGATTTTCTGCTCAGTTCAACAATGAAATGAAGAGGAACTCCCTCTTTCTACAGCT
Y
ACTTCTATCAGAGGCCCAGGTGCCTCAGAGCCACATTGAGTTGCTTTTTCTGGGATGAGGAAGTAGGGTTAAACTCCCCAGTTTCCTGAGGGAGGCTCCT
Celera SNP ID:            hCV163037
SNP Position Genomic:     17679
SNP Source:               Applera
Population(Allele,Count): african american(C,38)   caucasian(C,39|T,1)   total(C,77|T,1)
SNP Type:                 UTR 3

SNP Source:               Celera
Population(Allele,Count): no_pop(T,4|C,11)   total(C,11|T,4) 
SNP Type:                 UTR 3


Context             (SEQ ID NO:6603):
CCCTATGTTGTGGGGAAGTGGAGAGTAGTACAGCTAAGCCAGACCCCATTGTGCCCGCAGGTTAGAGCCTGGCAATGCCGTTTGGGTGTGTGACTCTGGG
Y
GACAAGAAGAACTATAACCAGCCATCGGAGGTGACTGACAGATATGATTTGGGACAGGTCATCAAGACGTGAGTGCCGGGCCTGTCAGGCAAGGCTGGGT
Celera SNP ID:            hCV11546055
SNP Position Genomic:     13596
SNP Source:               Applera
Population(Allele,Count): african american(C,14|T,10)   caucasian(C,11|T,7)   total(C,25|T,17)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,22|T,12)   caucasian(C,15|T,5)   total(C,37|T,17)   
SNP Type:                 SILENT MUTATION

SNP Source:               Applera
Population(Allele,Count): african american(C,16|T,6)   caucasian(C,12|T,6)   total(C,28|T,12)
SNP Type:                 SILENT MUTATION

SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,2|C,7)      total(C,7|T,2) ;no_pop(T,-|C,-)   
SNP Type:                 SILENT MUTATION


Context             (SEQ ID NO:6604):
GGCAGGAGGGTGGGAGAGTGGATGAGGGGCTTCTCACTGTACATAGAGTCACTGGCATGATGCCCTCGCTCCCCCATGCCCCCACATCCCAGTGGGGCAT
W
ACTAGGGGTCACGGGAGAGCAGTCTCGTCTCCTGTGTGTATGTGTGTGAGTGGTGGGCAGGCCAGTGGCAGGGCCGGCCCCAGCCCCTGCATGGATTCCT
Celera SNP ID:            hCV163038
SNP Position Genomic:     16773
SNP Source:               Celera;dbSNP
Population(Allele,Count): no_pop(T,1|A,3)      total(A,3|T,1) ;no_pop(T,-|A,-)   
SNP Type:                 UTR 3


Context             (SEQ ID NO:6605):
TGCAGAAGAGGCCATCTCCCATGAGTGGTGAGCAGGGTCCAGGGGAGGGTGGGAGAGGCCAGGGTCCCCCTCACACCCAGCAGCCCCATCTTTGAGGCCT
R
GAAGGGGTGCAGGTACCTAGAGCTCAGGGCAGCCCAGAGGCTCTGCCTGGTAGTCCCTGGATGCCACATAGAAGGGCTGAGCAGAGTCTCCACAAAGGCT
Celera SNP ID:            hCV22272521
SNP Position Genomic:     15561
SNP Source:               Applera
Population(Allele,Count): african american(A,23|G,9)   caucasian(A,13|G,13)   total(A,36|G,22)
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,15|G,5)   caucasian(A,17|G,19)   total(A,32|G,24)   
SNP Type:                 INTRON

SNP Source:               Applera
Population(Allele,Count): african american(A,18|G,2)   caucasian(A,2|G,8)   total(A,20|G,10)   
SNP Type:                 INTRON

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


Context             (SEQ ID NO:6606):
TCATATGTAGGCTGTTGCACTTCAGGCAGCCAAGCTGAGTAGCTGGATGTCTAGCCAGAAAAGCAGGGGTAGGATCTAAGCCTGCCTATCCTCTAGCCCC
Y
CCTGGTATGGTCTCTGCCCCTAGCTTGGCCTGAGCCAGGTTGGGGTCTCCCAAAAGCAGCCCCTATGTTGTGGGGAAGTGGAGAGTAGTACAGCTAAGCC
Celera SNP ID:            hCV11970771
SNP Position Genomic:     13435
SNP Source:               dbSNP
Population(Allele,Count): no_pop(T,-|C,-)    
SNP Type:                 INTRON


Context             (SEQ ID NO:6607):
ACCACAATACATCCTGTTGGTGGTGGTATTTGGTCTGTTTTCAATTTTTGGCTATTATGTATATGGCTACTATGAGCATTGTATGACTGTCCTGATGCAC
R
AATATGTGCACTTCTGTAGGCACGTATTTAGGAGTGCAATTGCTGGTTCATAGGGTATGTTTGTTTGACTTTAGTGGTTTTACCAAACTGCTTTACAAAG
Celera SNP ID:            hCV27965005
SNP Position Genomic:     13018
SNP Source:               dbSNP
Population(Allele,Count): no_pop(G,-|A,-)    
SNP Type:                 INTRON
