SEQUENCE LISTING

<110> STAB VIDA - INVESTIGAÇÃO E SERVIÇOS EM CIÊNCIAS BIOLOGICAS, LDA

<120> METHOD AND PORTABLE DEVICE FOR DETECTION OF NUCLEIC SEQUENCES IN SUSPECTED CORONAVIRUS SAMPLES

<130> DD-17879

<150> PT 116317

<151> 30-04-2020

<160> 109

<210> 1
<211> 21290
<212> RNA
<213> Coronavirus severe acute respiratory syndrome 2 (SARS-CoV-2)

<400> 1
ATGGAGAGCC TTGTCCCTGG TTTCAACGAG AAAACACACG TCCAACTCAG TTTGCCTGTT 60
TTACAGGTTC GCGACGTGCT CGTACGTGGC TTTGGAGACT CCGTGGAGGA GGTCTTATCA 120
GAGGCACGTC AACATCTTAA AGATGGCACT TGTGGCTTAG TAGAAGTTGA AAAAGGCGTT 180
TTGCCTCAAC TTGAACAGCC CTATGTGTTC ATCAAACGTT CGGATGCTCG AACTGCACCT 240
CATGGTCATG TTATGGTTGA GCTGGTAGCA GAACTCGAAG GCATTCAGTA CGGTCGTAGT 300
GGTGAGACAC TTGGTGTCCT TGTCCCTCAT GTGGGCGAAA TACCAGTGGC TTACCGCAAG 360
GTTCTTCTTC GTAAGAACGG TAATAAAGGA GCTGGTGGCC ATAGTTACGG CGCCGATCTA 420
AAGTCATTTG ACTTAGGCGA CGAGCTTGGC ACTGATCCTT ATGAAGATTT TCAAGAAAAC 480
TGGAACACTA AACATAGCAG TGGTGTTACC CGTGAACTCA TGCGTGAGCT TAACGGAGGG 540
GCATACACTC GCTATGTCGA TAACAACTTC TGTGGCCCTG ATGGCTACCC TCTTGAGTGC 600
ATTAAAGACC TTCTAGCACG TGCTGGTAAA GCTTCATGCA CTTTGTCCGA ACAACTGGAC 660
TTTATTGACA CTAAGAGGGG TGTATACTGC TGCCGTGAAC ATGAGCATGA AATTGCTTGG 720
TACACGGAAC GTTCTGAAAA GAGCTATGAA TTGCAGACAC CTTTTGAAAT TAAATTGGCA 780
AAGAAATTTG ACACCTTCAA TGGGGAATGT CCAAATTTTG TATTTCCCTT AAATTCCATA 840
ATCAAGACTA TTCAACCAAG GGTTGAAAAG AAAAAGCTTG ATGGCTTTAT GGGTAGAATT 900
CGATCTGTCT ATCCAGTTGC GTCACCAAAT GAATGCAACC AAATGTGCCT TTCAACTCTC 960
ATGAAGTGTG ATCATTGTGG TGAAACTTCA TGGCAGACGG GCGATTTTGT TAAAGCCACT 1020
TGCGAATTTT GTGGCACTGA GAATTTGACT AAAGAAGGTG CCACTACTTG TGGTTACTTA 1080
CCCCAAAATG CTGTTGTTAA AATTTATTGT CCAGCATGTC ACAATTCAGA AGTAGGACCT 1140
GAGCATAGTC TTGCCGAATA CCATAATGAA TCTGGCTTGA AAACCATTCT TCGTAAGGGT 1200
GGTCGCACTA TTGCCTTTGG AGGCTGTGTG TTCTCTTATG TTGGTTGCCA TAACAAGTGT 1260
GCCTATTGGG TTCCACGTGC TAGCGCTAAC ATAGGTTGTA ACCATACAGG TGTTGTTGGA 1320
GAAGGTTCCG AAGGTCTTAA TGACAACCTT CTTGAAATAC TCCAAAAAGA GAAAGTCAAC 1380
ATCAATATTG TTGGTGACTT TAAACTTAAT GAAGAGATCG CCATTATTTT GGCATCTTTT 1440
TCTGCTTCCA CAAGTGCTTT TGTGGAAACT GTGAAAGGTT TGGATTATAA AGCATTCAAA 1500
CAAATTGTTG AATCCTGTGG TAATTTTAAA GTTACAAAAG GAAAAGCTAA AAAAGGTGCC 1560
TGGAATATTG GTGAACAGAA ATCAATACTG AGTCCTCTTT ATGCATTTGC ATCAGAGGCT 1620
GCTCGTGTTG TACGATCAAT TTTCTCCCGC ACTCTTGAAA CTGCTCAAAA TTCTGTGCGT 1680
GTTTTACAGA AGGCCGCTAT AACAATACTA GATGGAATTT CACAGTATTC ACTGAGACTC 1740
ATTGATGCTA TGATGTTCAC ATCTGATTTG GCTACTAACA ATCTAGTTGT AATGGCCTAC 1800
ATTACAGGTG GTGTTGTTCA GTTGACTTCG CAGTGGCTAA CTAACATCTT TGGCACTGTT 1860
TATGAAAAAC TCAAACCCGT CCTTGATTGG CTTGAAGAGA AGTTTAAGGA AGGTGTAGAG 1920
TTTCTTAGAG ACGGTTGGGA AATTGTTAAA TTTATCTCAA CCTGTGCTTG TGAAATTGTC 1980
GGTGGACAAA TTGTCACCTG TGCAAAGGAA ATTAAGGAGA GTGTTCAGAC ATTCTTTAAG 2040
CTTGTAAATA AATTTTTGGC TTTGTGTGCT GACTCTATCA TTATTGGTGG AGCTAAACTT 2100
AAAGCCTTGA ATTTAGGTGA AACATTTGTC ACGCACTCAA AGGGATTGTA CAGAAAGTGT 2160
GTTAAATCCA GAGAAGAAAC TGGCCTACTC ATGCCTCTAA AAGCCCCAAA AGAAATTATC 2220
TTCTTAGAGG GAGAAACACT TCCCACAGAA GTGTTAACAG AGGAAGTTGT CTTGAAAACT 2280
GGTGATTTAC AACCATTAGA ACAACCTACT AGTGAAGCTG TTGAAGCTCC ATTGGTTGGT 2340
ACACCAGTTT GTATTAACGG GCTTATGTTG CTCGAAATCA AAGACACAGA AAAGTACTGT 2400
GCCCTTGCAC CTAATATGAT GGTAACAAAC AATACCTTCA CACTCAAAGG CGGTGCACCA 2460
ACAAAGGTTA CTTTTGGTGA TGACACTGTG ATAGAAGTGC AAGGTTACAA GAGTGTGAAT 2520
ATCACTTTTG AACTTGATGA AAGGATTGAT AAAGTACTTA ATGAGAAGTG CTCTGCCTAT 2580
ACAGTTGAAC TCGGTACAGA AGTAAATGAG TTCGCCTGTG TTGTGGCAGA TGCTGTCATA 2640
AAAACTTTGC AACCAGTATC TGAATTACTT ACACCACTGG GCATTGATTT AGATGAGTGG 2700
AGTATGGCTA CATACTACTT ATTTGATGAG TCTGGTGAGT TTAAATTGGC TTCACATATG 2760
TATTGTTCTT TCTACCCTCC AGATGAGGAT GAAGAAGAAG GTGATTGTGA AGAAGAAGAG 2820
TTTGAGCCAT CAACTCAATA TGAGTATGGT ACTGAAGATG ATTACCAAGG TAAACCTTTG 2880
GAATTTGGTG CCACTTCTGC TGCTCTTCAA CCTGAAGAAG AGCAAGAAGA AGATTGGTTA 2940
GATGATGATA GTCAACAAAC TGTTGGTCAA CAAGACGGCA GTGAGGACAA TCAGACAACT 3000
ACTATTCAAA CAATTGTTGA GGTTCAACCT CAATTAGAGA TGGAACTTAC ACCAGTTGTT 3060
CAGACTATTG AAGTGAATAG TTTTAGTGGT TATTTAAAAC TTACTGACAA TGTATACATT 3120
AAAAATGCAG ACATTGTGGA AGAAGCTAAA AAGGTAAAAC CAACAGTGGT TGTTAATGCA 3180
GCCAATGTTT ACCTTAAACA TGGAGGAGGT GTTGCAGGAG CCTTAAATAA GGCTACTAAC 3240
AATGCCATGC AAGTTGAATC TGATGATTAC ATAGCTACTA ATGGACCACT TAAAGTGGGT 3300
GGTAGTTGTG TTTTAAGCGG ACACAATCTT GCTAAACACT GTCTTCATGT TGTCGGCCCA 3360
AATGTTAACA AAGGTGAAGA CATTCAACTT CTTAAGAGTG CTTATGAAAA TTTTAATCAG 3420
CACGAAGTTC TACTTGCACC ATTATTATCA GCTGGTATTT TTGGTGCTGA CCCTATACAT 3480
TCTTTAAGAG TTTGTGTAGA TACTGTTCGC ACAAATGTCT ACTTAGCTGT CTTTGATAAA 3540
AATCTCTATG ACAAACTTGT TTCAAGCTTT TTGGAAATGA AGAGTGAAAA GCAAGTTGAA 3600
CAAAAGATCG CTGAGATTCC TAAAGAGGAA GTTAAGCCAT TTATAACTGA AAGTAAACCT 3660
TCAGTTGAAC AGAGAAAACA AGATGATAAG AAAATCAAAG CTTGTGTTGA AGAAGTTACA 3720
ACAACTCTGG AAGAAACTAA GTTCCTCACA GAAAACTTGT TACTTTATAT TGACATTAAT 3780
GGCAATCTTC ATCCAGATTC TGCCACTCTT GTTAGTGACA TTGACATCAC TTTCTTAAAG 3840
AAAGATGCTC CATATATAGT GGGTGATGTT GTTCAAGAGG GTGTTTTAAC TGCTGTGGTT 3900
ATACCTACTA AAAAGGCTGG TGGCACTACT GAAATGCTAG CGAAAGCTTT GAGAAAAGTG 3960
CCAACAGACA ATTATATAAC CACTTACCCG GGTCAGGGTT TAAATGGTTA CACTGTAGAG 4020
GAGGCAAAGA CAGTGCTTAA AAAGTGTAAA AGTGCCTTTT ACATTCTACC ATCTATTATC 4080
TCTAATGAGA AGCAAGAAAT TCTTGGAACT GTTTCTTGGA ATTTGCGAGA AATGCTTGCA 4140
CATGCAGAAG AAACACGCAA ATTAATGCCT GTCTGTGTGG AAACTAAAGC CATAGTTTCA 4200
ACTATACAGC GTAAATATAA GGGTATTAAA ATACAAGAGG GTGTGGTTGA TTATGGTGCT 4260
AGATTTTACT TTTACACCAG TAAAACAACT GTAGCGTCAC TTATCAACAC ACTTAACGAT 4320
CTAAATGAAA CTCTTGTTAC AATGCCACTT GGCTATGTAA CACATGGCTT AAATTTGGAA 4380
GAAGCTGCTC GGTATATGAG ATCTCTCAAA GTGCCAGCTA CAGTTTCTGT TTCTTCACCT 4440
GATGCTGTTA CAGCGTATAA TGGTTATCTT ACTTCTTCTT CTAAAACACC TGAAGAACAT 4500
TTTATTGAAA CCATCTCACT TGCTGGTTCC TATAAAGATT GGTCCTATTC TGGACAATCT 4560
ACACAACTAG GTATAGAATT TCTTAAGAGA GGTGATAAAA GTGTATATTA CACTAGTAAT 4620
CCTACCACAT TCCACCTAGA TGGTGAAGTT ATCACCTTTG ACAATCTTAA GACACTTCTT 4680
TCTTTGAGAG AAGTGAGGAC TATTAAGGTG TTTACAACAG TAGACAACAT TAACCTCCAC 4740
ACGCAAGTTG TGGACATGTC AATGACATAT GGACAACAGT TTGGTCCAAC TTATTTGGAT 4800
GGAGCTGATG TTACTAAAAT AAAACCTCAT AATTCACATG AAGGTAAAAC ATTTTATGTT 4860
TTACCTAATG ATGACACTCT ACGTGTTGAG GCTTTTGAGT ACTACCACAC AACTGATCCT 4920
AGTTTTCTGG GTAGGTACAT GTCAGCATTA AATCACACTA AAAAGTGGAA ATACCCACAA 4980
GTTAATGGTT TAACTTCTAT TAAATGGGCA GATAACAACT GTTATCTTGC CACTGCATTG 5040
TTAACACTCC AACAAATAGA GTTGAAGTTT AATCCACCTG CTCTACAAGA TGCTTATTAC 5100
AGAGCAAGGG CTGGTGAAGC TGCTAACTTT TGTGCACTTA TCTTAGCCTA CTGTAATAAG 5160
ACAGTAGGTG AGTTAGGTGA TGTTAGAGAA ACAATGAGTT ACTTGTTTCA ACATGCCAAT 5220
TTAGATTCTT GCAAAAGAGT CTTGAACGTG GTGTGTAAAA CTTGTGGACA ACAGCAGACA 5280
ACCCTTAAGG GTGTAGAAGC TGTTATGTAC ATGGGCACAC TTTCTTATGA ACAATTTAAG 5340
AAAGGTGTTC AGATACCTTG TACGTGTGGT AAACAAGCTA CAAAATATCT AGTACAACAG 5400
GAGTCACCTT TTGTTATGAT GTCAGCACCA CCTGCTCAGT ATGAACTTAA GCATGGTACA 5460
TTTACTTGTG CTAGTGAGTA CACTGGTAAT TACCAGTGTG GTCACTATAA ACATATAACT 5520
TCTAAAGAAA CTTTGTATTG CATAGACGGT GCTTTACTTA CAAAGTCCTC AGAATACAAA 5580
GGTCCTATTA CGGATGTTTT CTACAAAGAA AACAGTTACA CAACAACCAT AAAACCAGTT 5640
ACTTATAAAT TGGATGGTGT TGTTTGTACA GAAATTGACC CTAAGTTGGA CAATTATTAT 5700
AAGAAAGACA ATTCTTATTT CACAGAGCAA CCAATTGATC TTGTACCAAA CCAACCATAT 5760
CCAAACGCAA GCTTCGATAA TTTTAAGTTT GTATGTGATA ATATCAAATT TGCTGATGAT 5820
TTAAACCAGT TAACTGGTTA TAAGAAACCT GCTTCAAGAG AGCTTAAAGT TACATTTTTC 5880
CCTGACTTAA ATGGTGATGT GGTGGCTATT GATTATAAAC ACTACACACC CTCTTTTAAG 5940
AAAGGAGCTA AATTGTTACA TAAACCTATT GTTTGGCATG TTAACAATGC AACTAATAAA 6000
GCCACGTATA AACCAAATAC CTGGTGTATA CGTTGTCTTT GGAGCACAAA ACCAGTTGAA 6060
ACATCAAATT CGTTTGATGT ACTGAAGTCA GAGGACGCGC AGGGAATGGA TAATCTTGCC 6120
TGCGAAGATC TAAAACCAGT CTCTGAAGAA GTAGTGGAAA ATCCTACCAT ACAGAAAGAC 6180
GTTCTTGAGT GTAATGTGAA AACTACCGAA GTTGTAGGAG ACATTATACT TAAACCAGCA 6240
AATAATAGTT TAAAAATTAC AGAAGAGGTT GGCCACACAG ATCTAATGGC TGCTTATGTA 6300
GACAATTCTA GTCTTACTAT TAAGAAACCT AATGAATTAT CTAGAGTATT AGGTTTGAAA 6360
ACCCTTGCTA CTCATGGTTT AGCTGCTGTT AATAGTGTCC CTTGGGATAC TATAGCTAAT 6420
TATGCTAAGC CTTTTCTTAA CAAAGTTGTT AGTACAACTA CTAACATAGT TACACGGTGT 6480
TTAAACCGTG TTTGTACTAA TTATATGCCT TATTTCTTTA CTTTATTGCT ACAATTGTGT 6540
ACTTTTACTA GAAGTACAAA TTCTAGAATT AAAGCATCTA TGCCGACTAC TATAGCAAAG 6600
AATACTGTTA AGAGTGTCGG TAAATTTTGT CTAGAGGCTT CATTTAATTA TTTGAAGTCA 6660
CCTAATTTTT CTAAACTGAT AAATATTATA ATTTGGTTTT TACTATTAAG TGTTTGCCTA 6720
GGTTCTTTAA TCTACTCAAC CGCTGCTTTA GGTGTTTTAA TGTCTAATTT AGGCATGCCT 6780
TCTTACTGTA CTGGTTACAG AGAAGGCTAT TTGAACTCTA CTAATGTCAC TATTGCAACC 6840
TACTGTACTG GTTCTATACC TTGTAGTGTT TGTCTTAGTG GTTTAGATTC TTTAGACACC 6900
TATCCTTCTT TAGAAACTAT ACAAATTACC ATTTCATCTT TTAAATGGGA TTTAACTGCT 6960
TTTGGCTTAG TTGCAGAGTG GTTTTTGGCA TATATTCTTT TCACTAGGTT TTTCTATGTA 7020
CTTGGATTGG CTGCAATCAT GCAATTGTTT TTCAGCTATT TTGCAGTACA TTTTATTAGT 7080
AATTCTTGGC TTATGTGGTT AATAATTAAT CTTGTACAAA TGGCCCCGAT TTCAGCTATG 7140
GTTAGAATGT ACATCTTCTT TGCATCATTT TATTATGTAT GGAAAAGTTA TGTGCATGTT 7200
GTAGACGGTT GTAATTCATC AACTTGTATG ATGTGTTACA AACGTAATAG AGCAACAAGA 7260
GTCGAATGTA CAACTATTGT TAATGGTGTT AGAAGGTCCT TTTATGTCTA TGCTAATGGA 7320
GGTAAAGGCT TTTGCAAACT ACACAATTGG AATTGTGTTA ATTGTGATAC ATTCTGTGCT 7380
GGTAGTACAT TTATTAGTGA TGAAGTTGCG AGAGACTTGT CACTACAGTT TAAAAGACCA 7440
ATAAATCCTA CTGACCAGTC TTCTTACATC GTTGATAGTG TTACAGTGAA GAATGGTTCC 7500
ATCCATCTTT ACTTTGATAA AGCTGGTCAA AAGACTTATG AAAGACATTC TCTCTCTCAT 7560
TTTGTTAACT TAGACAACCT GAGAGCTAAT AACACTAAAG GTTCATTGCC TATTAATGTT 7620
ATAGTTTTTG ATGGTAAATC AAAATGTGAA GAATCATCTG CAAAATCAGC GTCTGTTTAC 7680
TACAGTCAGC TTATGTGTCA ACCTATACTG TTACTAGATC AGGCATTAGT GTCTGATGTT 7740
GGTGATAGTG CGGAAGTTGC AGTTAAAATG TTTGATGCTT ACGTTAATAC GTTTTCATCA 7800
ACTTTTAACG TACCAATGGA AAAACTCAAA ACACTAGTTG CAACTGCAGA AGCTGAACTT 7860
GCAAAGAATG TGTCCTTAGA CAATGTCTTA TCTACTTTTA TTTCAGCAGC TCGGCAAGGG 7920
TTTGTTGATT CAGATGTAGA AACTAAAGAT GTTGTTGAAT GTCTTAAATT GTCACATCAA 7980
TCTGACATAG AAGTTACTGG CGATAGTTGT AATAACTATA TGCTCACCTA TAACAAAGTT 8040
GAAAACATGA CACCCCGTGA CCTTGGTGCT TGTATTGACT GTAGTGCGCG TCATATTAAT 8100
GCGCAGGTAG CAAAAAGTCA CAACATTGCT TTGATATGGA ACGTTAAAGA TTTCATGTCA 8160
TTGTCTGAAC AACTACGAAA ACAAATACGT AGTGCTGCTA AAAAGAATAA CTTACCTTTT 8220
AAGTTGACAT GTGCAACTAC TAGACAAGTT GTTAATGTTG TAACAACAAA GATAGCACTT 8280
AAGGGTGGTA AAATTGTTAA TAATTGGTTG AAGCAGTTAA TTAAAGTTAC ACTTGTGTTC 8340
CTTTTTGTTG CTGCTATTTT CTATTTAATA ACACCTGTTC ATGTCATGTC TAAACATACT 8400
GACTTTTCAA GTGAAATCAT AGGATACAAG GCTATTGATG GTGGTGTCAC TCGTGACATA 8460
GCATCTACAG ATACTTGTTT TGCTAACAAA CATGCTGATT TTGACACATG GTTTAGCCAG 8520
CGTGGTGGTA GTTATACTAA TGACAAAGCT TGCCCATTGA TTGCTGCAGT CATAACAAGA 8580
GAAGTGGGTT TTGTCGTGCC TGGTTTGCCT GGCACGATAT TACGCACAAC TAATGGTGAC 8640
TTTTTGCATT TCTTACCTAG AGTTTTTAGT GCAGTTGGTA ACATCTGTTA CACACCATCA 8700
AAACTTATAG AGTACACTGA CTTTGCAACA TCAGCTTGTG TTTTGGCTGC TGAATGTACA 8760
ATTTTTAAAG ATGCTTCTGG TAAGCCAGTA CCATATTGTT ATGATACCAA TGTACTAGAA 8820
GGTTCTGTTG CTTATGAAAG TTTACGCCCT GACACACGTT ATGTGCTCAT GGATGGCTCT 8880
ATTATTCAAT TTCCTAACAC CTACCTTGAA GGTTCTGTTA GAGTGGTAAC AACTTTTGAT 8940
TCTGAGTACT GTAGGCACGG CACTTGTGAA AGATCAGAAG CTGGTGTTTG TGTATCTACT 9000
AGTGGTAGAT GGGTACTTAA CAATGATTAT TACAGATCTT TACCAGGAGT TTTCTGTGGT 9060
GTAGATGCTG TAAATTTACT TACTAATATG TTTACACCAC TAATTCAACC TATTGGTGCT 9120
TTGGACATAT CAGCATCTAT AGTAGCTGGT GGTATTGTAG CTATCGTAGT AACATGCCTT 9180
GCCTACTATT TTATGAGGTT TAGAAGAGCT TTTGGTGAAT ACAGTCATGT AGTTGCCTTT 9240
AATACTTTAC TATTCCTTAT GTCATTCACT GTACTCTGTT TAACACCAGT TTACTCATTC 9300
TTACCTGGTG TTTATTCTGT TATTTACTTG TACTTGACAT TTTATCTTAC TAATGATGTT 9360
TCTTTTTTAG CACATATTCA GTGGATGGTT ATGTTCACAC CTTTAGTACC TTTCTGGATA 9420
ACAATTGCTT ATATCATTTG TATTTCCACA AAGCATTTCT ATTGGTTCTT TAGTAATTAC 9480
CTAAAGAGAC GTGTAGTCTT TAATGGTGTT TCCTTTAGTA CTTTTGAAGA AGCTGCGCTG 9540
TGCACCTTTT TGTTAAATAA AGAAATGTAT CTAAAGTTGC GTAGTGATGT GCTATTACCT 9600
CTTACGCAAT ATAATAGATA CTTAGCTCTT TATAATAAGT ACAAGTATTT TAGTGGAGCA 9660
ATGGATACAA CTAGCTACAG AGAAGCTGCT TGTTGTCATC TCGCAAAGGC TCTCAATGAC 9720
TTCAGTAACT CAGGTTCTGA TGTTCTTTAC CAACCACCAC AAACCTCTAT CACCTCAGCT 9780
GTTTTGCAGA GTGGTTTTAG AAAAATGGCA TTCCCATCTG GTAAAGTTGA GGGTTGTATG 9840
GTACAAGTAA CTTGTGGTAC AACTACACTT AACGGTCTTT GGCTTGATGA CGTAGTTTAC 9900
TGTCCAAGAC ATGTGATCTG CACCTCTGAA GACATGCTTA ACCCTAATTA TGAAGATTTA 9960
CTCATTCGTA AGTCTAATCA TAATTTCTTG GTACAGGCTG GTAATGTTCA ACTCAGGGTT 10020
ATTGGACATT CTATGCAAAA TTGTGTACTT AAGCTTAAGG TTGATACAGC CAATCCTAAG 10080
ACACCTAAGT ATAAGTTTGT TCGCATTCAA CCAGGACAGA CTTTTTCAGT GTTAGCTTGT 10140
TACAATGGTT CACCATCTGG TGTTTACCAA TGTGCTATGA GGCCCAATTT CACTATTAAG 10200
GGTTCATTCC TTAATGGTTC ATGTGGTAGT GTTGGTTTTA ACATAGATTA TGACTGTGTC 10260
TCTTTTTGTT ACATGCACCA TATGGAATTA CCAACTGGAG TTCATGCTGG CACAGACTTA 10320
GAAGGTAACT TTTATGGACC TTTTGTTGAC AGGCAAACAG CACAAGCAGC TGGTACGGAC 10380
ACAACTATTA CAGTTAATGT TTTAGCTTGG TTGTACGCTG CTGTTATAAA TGGAGACAGG 10440
TGGTTTCTCA ATCGATTTAC CACAACTCTT AATGACTTTA ACCTTGTGGC TATGAAGTAC 10500
AATTATGAAC CTCTAACACA AGACCATGTT GACATACTAG GACCTCTTTC TGCTCAAACT 10560
GGAATTGCCG TTTTAGATAT GTGTGCTTCA TTAAAAGAAT TACTGCAAAA TGGTATGAAT 10620
GGACGTACCA TATTGGGTAG TGCTTTATTA GAAGATGAAT TTACACCTTT TGATGTTGTT 10680
AGACAATGCT CAGGTGTTAC TTTCCAAAGT GCAGTGAAAA GAACAATCAA GGGTACACAC 10740
CACTGGTTGT TACTCACAAT TTTGACTTCA CTTTTAGTTT TAGTCCAGAG TACTCAATGG 10800
TCTTTGTTCT TTTTTTTGTA TGAAAATGCC TTTTTACCTT TTGCTATGGG TATTATTGCT 10860
ATGTCTGCTT TTGCAATGAT GTTTGTCAAA CATAAGCATG CATTTCTCTG TTTGTTTTTG 10920
TTACCTTCTC TTGCCACTGT AGCTTATTTT AATATGGTCT ATATGCCTGC TAGTTGGGTG 10980
ATGCGTATTA TGACATGGTT GGATATGGTT GATACTAGTT TGTCTGGTTT TAAGCTAAAA 11040
GACTGTGTTA TGTATGCATC AGCTGTAGTG TTACTAATCC TTATGACAGC AAGAACTGTG 11100
TATGATGATG GTGCTAGGAG AGTGTGGACA CTTATGAATG TCTTGACACT CGTTTATAAA 11160
GTTTATTATG GTAATGCTTT AGATCAAGCC ATTTCCATGT GGGCTCTTAT AATCTCTGTT 11220
ACTTCTAACT ACTCAGGTGT AGTTACAACT GTCATGTTTT TGGCCAGAGG TATTGTTTTT 11280
ATGTGTGTTG AGTATTGCCC TATTTTCTTC ATAACTGGTA ATACACTTCA GTGTATAATG 11340
CTAGTTTATT GTTTCTTAGG CTATTTTTGT ACTTGTTACT TTGGCCTCTT TTGTTTACTC 11400
AACCGCTACT TTAGACTGAC TCTTGGTGTT TATGATTACT TAGTTTCTAC ACAGGAGTTT 11460
AGATATATGA ATTCACAGGG ACTACTCCCA CCCAAGAATA GCATAGATGC CTTCAAACTC 11520
AACATTAAAT TGTTGGGTGT TGGTGGCAAA CCTTGTATCA AAGTAGCCAC TGTACAGTCT 11580
AAAATGTCAG ATGTAAAGTG CACATCAGTA GTCTTACTCT CAGTTTTGCA ACAACTCAGA 11640
GTAGAATCAT CATCTAAATT GTGGGCTCAA TGTGTCCAGT TACACAATGA CATTCTCTTA 11700
GCTAAAGATA CTACTGAAGC CTTTGAAAAA ATGGTTTCAC TACTTTCTGT TTTGCTTTCC 11760
ATGCAGGGTG CTGTAGACAT AAACAAGCTT TGTGAAGAAA TGCTGGACAA CAGGGCAACC 11820
TTACAAGCTA TAGCCTCAGA GTTTAGTTCC CTTCCATCAT ATGCAGCTTT TGCTACTGCT 11880
CAAGAAGCTT ATGAGCAGGC TGTTGCTAAT GGTGATTCTG AAGTTGTTCT TAAAAAGTTG 11940
AAGAAGTCTT TGAATGTGGC TAAATCTGAA TTTGACCGTG ATGCAGCCAT GCAACGTAAG 12000
TTGGAAAAGA TGGCTGATCA AGCTATGACC CAAATGTATA AACAGGCTAG ATCTGAGGAC 12060
AAGAGGGCAA AAGTTACTAG TGCTATGCAG ACAATGCTTT TCACTATGCT TAGAAAGTTG 12120
GATAATGATG CACTCAACAA CATTATCAAC AATGCAAGAG ATGGTTGTGT TCCCTTGAAC 12180
ATAATACCTC TTACAACAGC AGCCAAACTA ATGGTTGTCA TACCAGACTA TAACACATAT 12240
AAAAATACGT GTGATGGTAC AACATTTACT TATGCATCAG CATTGTGGGA AATCCAACAG 12300
GTTGTAGATG CAGATAGTAA AATTGTTCAA CTTAGTGAAA TTAGTATGGA CAATTCACCT 12360
AATTTAGCAT GGCCTCTTAT TGTAACAGCT TTAAGGGCCA ATTCTGCTGT CAAATTACAG 12420
AATAATGAGC TTAGTCCTGT TGCACTACGA CAGATGTCTT GTGCTGCCGG TACTACACAA 12480
ACTGCTTGCA CTGATGACAA TGCGTTAGCT TACTACAACA CAACAAAGGG AGGTAGGTTT 12540
GTACTTGCAC TGTTATCCGA TTTACAGGAT TTGAAATGGG CTAGATTCCC TAAGAGTGAT 12600
GGAACTGGTA CTATCTATAC AGAACTGGAA CCACCTTGTA GGTTTGTTAC AGACACACCT 12660
AAAGGTCCTA AAGTGAAGTA TTTATACTTT ATTAAAGGAT TAAACAACCT AAATAGAGGT 12720
ATGGTACTTG GTAGTTTAGC TGCCACAGTA CGTCTACAAG CTGGTAATGC AACAGAAGTG 12780
CCTGCCAATT CAACTGTATT ATCTTTCTGT GCTTTTGCTG TAGATGCTGC TAAAGCTTAC 12840
AAAGATTATC TAGCTAGTGG GGGACAACCA ATCACTAATT GTGTTAAGAT GTTGTGTACA 12900
CACACTGGTA CTGGTCAGGC AATAACAGTT ACACCGGAAG CCAATATGGA TCAAGAATCC 12960
TTTGGTGGTG CATCGTGTTG TCTGTACTGC CGTTGCCACA TAGATCATCC AAATCCTAAA 13020
GGATTTTGTG ACTTAAAAGG TAAGTATGTA CAAATACCTA CAACTTGTGC TAATGACCCT 13080
GTGGGTTTTA CACTTAAAAA CACAGTCTGT ACCGTCTGCG GTATGTGGAA AGGTTATGGC 13140
TGTAGTTGTG ATCAACTCCG CGAACCCATG CTTCAGTCAG CTGATGCACA ATCGTTTTTA 13200
AACGGGTTTG CGGTGTAAGT GCAGCCCGTC TTACACCGTG CGGCACAGGC ACTAGTACTG 13260
ATGTCGTATA CAGGGCTTTT GACATCTACA ATGATAAAGT AGCTGGTTTT GCTAAATTCC 13320
TAAAAACTAA TTGTTGTCGC TTCCAAGAAA AGGACGAAGA TGACAATTTA ATTGATTCTT 13380
ACTTTGTAGT TAAGAGACAC ACTTTCTCTA ACTACCAACA TGAAGAAACA ATTTATAATT 13440
TACTTAAGGA TTGTCCAGCT GTTGCTAAAC ATGACTTCTT TAAGTTTAGA ATAGACGGTG 13500
ACATGGTACC ACATATATCA CGTCAACGTC TTACTAAATA CACAATGGCA GACCTCGTCT 13560
ATGCTTTAAG GCATTTTGAT GAAGGTAATT GTGACACATT AAAAGAAATA CTTGTCACAT 13620
ACAATTGTTG TGATGATGAT TATTTCAATA AAAAGGACTG GTATGATTTT GTAGAAAACC 13680
CAGATATATT ACGCGTATAC GCCAACTTAG GTGAACGTGT ACGCCAAGCT TTGTTAAAAA 13740
CAGTACAATT CTGTGATGCC ATGCGAAATG CTGGTATTGT TGGTGTACTG ACATTAGATA 13800
ATCAAGATCT CAATGGTAAC TGGTATGATT TCGGTGATTT CATACAAACC ACGCCAGGTA 13860
GTGGAGTTCC TGTTGTAGAT TCTTATTATT CATTGTTAAT GCCTATATTA ACCTTGACCA 13920
GGGCTTTAAC TGCAGAGTCA CATGTTGACA CTGACTTAAC AAAGCCTTAC ATTAAGTGGG 13980
ATTTGTTAAA ATATGACTTC ACGGAAGAGA GGTTAAAACT CTTTGACCGT TATTTTAAAT 14040
ATTGGGATCA GACATACCAC CCAAATTGTG TTAACTGTTT GGATGACAGA TGCATTCTGC 14100
ATTGTGCAAA CTTTAATGTT TTATTCTCTA CAGTGTTCCC ACCTACAAGT TTTGGACCAC 14160
TAGTGAGAAA AATATTTGTT GATGGTGTTC CATTTGTAGT TTCAACTGGA TACCACTTCA 14220
GAGAGCTAGG TGTTGTACAT AATCAGGATG TAAACTTACA TAGCTCTAGA CTTAGTTTTA 14280
AGGAATTACT TGTGTATGCT GCTGACCCTG CTATGCACGC TGCTTCTGGT AATCTATTAC 14340
TAGATAAACG CACTACGTGC TTTTCAGTAG CTGCACTTAC TAACAATGTT GCTTTTCAAA 14400
CTGTCAAACC CGGTAATTTT AACAAAGACT TCTATGACTT TGCTGTGTCT AAGGGTTTCT 14460
TTAAGGAAGG AAGTTCTGTT GAATTAAAAC ACTTCTTCTT TGCTCAGGAT GGTAATGCTG 14520
CTATCAGCGA TTATGACTAC TATCGTTATA ATCTACCAAC AATGTGTGAT ATCAGACAAC 14580
TACTATTTGT AGTTGAAGTT GTTGATAAGT ACTTTGATTG TTACGATGGT GGCTGTATTA 14640
ATGCTAACCA AGTCATCGTC AACAACCTAG ACAAATCAGC TGGTTTTCCA TTTAATAAAT 14700
GGGGTAAGGC TAGACTTTAT TATGATTCAA TGAGTTATGA GGATCAAGAT GCACTTTTCG 14760
CATATACAAA ACGTAATGTC ATCCCTACTA TAACTCAAAT GAATCTTAAG TATGCCATTA 14820
GTGCAAAGAA TAGAGCTCGC ACCGTAGCTG GTGTCTCTAT CTGTAGTACT ATGACCAATA 14880
GACAGTTTCA TCAAAAATTA TTGAAATCAA TAGCCGCCAC TAGAGGAGCT ACTGTAGTAA 14940
TTGGAACAAG CAAATTCTAT GGTGGTTGGC ACAACATGTT AAAAACTGTT TATAGTGATG 15000
TAGAAAACCC TCACCTTATG GGTTGGGATT ATCCTAAATG TGATAGAGCC ATGCCTAACA 15060
TGCTTAGAAT TATGGCCTCA CTTGTTCTTG CTCGCAAACA TACAACGTGT TGTAGCTTGT 15120
CACACCGTTT CTATAGATTA GCTAATGAGT GTGCTCAAGT ATTGAGTGAA ATGGTCATGT 15180
GTGGCGGTTC ACTATATGTT AAACCAGGTG GAACCTCATC AGGAGATGCC ACAACTGCTT 15240
ATGCTAATAG TGTTTTTAAC ATTTGTCAAG CTGTCACGGC CAATGTTAAT GCACTTTTAT 15300
CTACTGATGG TAACAAAATT GCCGATAAGT ATGTCCGCAA TTTACAACAC AGACTTTATG 15360
AGTGTCTCTA TAGAAATAGA GATGTTGACA CAGACTTTGT GAATGAGTTT TACGCATATT 15420
TGCGTAAACA TTTCTCAATG ATGATACTCT CTGACGATGC TGTTGTGTGT TTCAATAGCA 15480
CTTATGCATC TCAAGGTCTA GTGGCTAGCA TAAAGAACTT TAAGTCAGTT CTTTATTATC 15540
AAAACAATGT TTTTATGTCT GAAGCAAAAT GTTGGACTGA GACTGACCTT ACTAAAGGAC 15600
CTCATGAATT TTGCTCTCAA CATACAATGC TAGTTAAACA GGGTGATGAT TATGTGTACC 15660
TTCCTTACCC AGATCCATCA AGAATCCTAG GGGCCGGCTG TTTTGTAGAT GATATCGTAA 15720
AAACAGATGG TACACTTATG ATTGAACGGT TCGTGTCTTT AGCTATAGAT GCTTACCCAC 15780
TTACTAAACA TCCTAATCAG GAGTATGCTG ATGTCTTTCA TTTGTACTTA CAATACATAA 15840
GAAAGCTACA TGATGAGTTA ACAGGACACA TGTTAGACAT GTATTCTGTT ATGCTTACTA 15900
ATGATAACAC TTCAAGGTAT TGGGAACCTG AGTTTTATGA GGCTATGTAC ACACCGCATA 15960
CAGTCTTACA GGCTGTTGGG GCTTGTGTTC TTTGCAATTC ACAGACTTCA TTAAGATGTG 16020
GTGCTTGCAT ACGTAGACCA TTCTTATGTT GTAAATGCTG TTACGACCAT GTCATATCAA 16080
CATCACATAA ATTAGTCTTG TCTGTTAATC CGTATGTTTG CAATGCTCCA GGTTGTGATG 16140
TCACAGATGT GACTCAACTT TACTTAGGAG GTATGAGCTA TTATTGTAAA TCACATAAAC 16200
CACCCATTAG TTTTCCATTG TGTGCTAATG GACAAGTTTT TGGTTTATAT AAAAATACAT 16260
GTGTTGGTAG CGATAATGTT ACTGACTTTA ATGCAATTGC AACATGTGAC TGGACAAATG 16320
CTGGTGATTA CATTTTAGCT AACACCTGTA CTGAAAGACT CAAGCTTTTT GCAGCAGAAA 16380
CGCTCAAAGC TACTGAGGAG ACATTTAAAC TGTCTTATGG TATTGCTACT GTACGTGAAG 16440
TGCTGTCTGA CAGAGAATTA CATCTTTCAT GGGAAGTTGG TAAACCTAGA CCACCACTTA 16500
ACCGAAATTA TGTCTTTACT GGTTATCGTG TAACTAAAAA CAGTAAAGTA CAAATAGGAG 16560
AGTACACCTT TGAAAAAGGT GACTATGGTG ATGCTGTTGT TTACCGAGGT ACAACAACTT 16620
ACAAATTAAA TGTTGGTGAT TATTTTGTGC TGACATCACA TACAGTAATG CCATTAAGTG 16680
CACCTACACT AGTGCCACAA GAGCACTATG TTAGAATTAC TGGCTTATAC CCAACACTCA 16740
ATATCTCAGA TGAGTTTTCT AGCAATGTTG CAAATTATCA AAAGGTTGGT ATGCAAAAGT 16800
ATTCTACACT CCAGGGACCA CCTGGTACTG GTAAGAGTCA TTTTGCTATT GGCCTAGCTC 16860
TCTACTACCC TTCTGCTCGC ATAGTGTATA CAGCTTGCTC TCATGCCGCT GTTGATGCAC 16920
TATGTGAGAA GGCATTAAAA TATTTGCCTA TAGATAAATG TAGTAGAATT ATACCTGCAC 16980
GTGCTCGTGT AGAGTGTTTT GATAAATTCA AAGTGAATTC AACATTAGAA CAGTATGTCT 17040
TTTGTACTGT AAATGCATTG CCTGAGACGA CAGCAGATAT AGTTGTCTTT GATGAAATTT 17100
CAATGGCCAC AAATTATGAT TTGAGTGTTG TCAATGCCAG ATTACGTGCT AAGCACTATG 17160
TGTACATTGG CGACCCTGCT CAATTACCTG CACCACGCAC ATTGCTAACT AAGGGCACAC 17220
TAGAACCAGA ATATTTCAAT TCAGTGTGTA GACTTATGAA AACTATAGGT CCAGACATGT 17280
TCCTCGGAAC TTGTCGGCGT TGTCCTGCTG AAATTGTTGA CACTGTGAGT GCTTTGGTTT 17340
ATGATAATAA GCTTAAAGCA CATAAAGACA AATCAGCTCA ATGCTTTAAA ATGTTTTATA 17400
AGGGTGTTAT CACGCATGAT GTTTCATCTG CAATTAACAG GCCACAAATA GGCGTGGTAA 17460
GAGAATTCCT TACACGTAAC CCTGCTTGGA GAAAAGCTGT CTTTATTTCA CCTTATAATT 17520
CACAGAATGC TGTAGCCTCA AAGATTTTGG GACTACCAAC TCAAACTGTT GATTCATCAC 17580
AGGGCTCAGA ATATGACTAT GTCATATTCA CTCAAACCAC TGAAACAGCT CACTCTTGTA 17640
ATGTAAACAG ATTTAATGTT GCTATTACCA GAGCAAAAGT AGGCATACTT TGCATAATGT 17700
CTGATAGAGA CCTTTATGAC AAGTTGCAAT TTACAAGTCT TGAAATTCCA CGTAGGAATG 17760
TGGCAACTTT ACAAGCTGAA AATGTAACAG GACTCTTTAA AGATTGTAGT AAGGTAATCA 17820
CTGGGTTACA TCCTACACAG GCACCTACAC ACCTCAGTGT TGACACTAAA TTCAAAACTG 17880
AAGGTTTATG TGTTGACATA CCTGGCATAC CTAAGGACAT GACCTATAGA AGACTCATCT 17940
CTATGATGGG TTTTAAAATG AATTATCAAG TTAATGGTTA CCCTAACATG TTTATCACCC 18000
GCGAAGAAGC TATAAGACAT GTACGTGCAT GGATTGGCTT CGATGTCGAG GGGTGTCATG 18060
CTACTAGAGA AGCTGTTGGT ACCAATTTAC CTTTACAGCT AGGTTTTTCT ACAGGTGTTA 18120
ACCTAGTTGC TGTACCTACA GGTTATGTTG ATACACCTAA TAATACAGAT TTTTCCAGAG 18180
TTAGTGCTAA ACCACCGCCT GGAGATCAAT TTAAACACCT CATACCACTT ATGTACAAAG 18240
GACTTCCTTG GAATGTAGTG CGTATAAAGA TTGTACAAAT GTTAAGTGAC ACACTTAAAA 18300
ATCTCTCTGA CAGAGTCGTA TTTGTCTTAT GGGCACATGG CTTTGAGTTG ACATCTATGA 18360
AGTATTTTGT GAAAATAGGA CCTGAGCGCA CCTGTTGTCT ATGTGATAGA CGTGCCACAT 18420
GCTTTTCCAC TGCTTCAGAC ACTTATGCCT GTTGGCATCA TTCTATTGGA TTTGATTACG 18480
TCTATAATCC GTTTATGATT GATGTTCAAC AATGGGGTTT TACAGGTAAC CTACAAAGCA 18540
ACCATGATCT GTATTGTCAA GTCCATGGTA ATGCACATGT AGCTAGTTGT GATGCAATCA 18600
TGACTAGGTG TCTAGCTGTC CACGAGTGCT TTGTTAAGCG TGTTGACTGG ACTATTGAAT 18660
ATCCTATAAT TGGTGATGAA CTGAAGATTA ATGCGGCTTG TAGAAAGGTT CAACACATGG 18720
TTGTTAAAGC TGCATTATTA GCAGACAAAT TCCCAGTTCT TCACGACATT GGTAACCCTA 18780
AAGCTATTAA GTGTGTACCT CAAGCTGATG TAGAATGGAA GTTCTATGAT GCACAGCCTT 18840
GTAGTGACAA AGCTTATAAA ATAGAAGAAT TATTCTATTC TTATGCCACA CATTCTGACA 18900
AATTCACAGA TGGTGTATGC CTATTTTGGA ATTGCAATGT CGATAGATAT CCTGCTAATT 18960
CCATTGTTTG TAGATTTGAC ACTAGAGTGC TATCTAACCT TAACTTGCCT GGTTGTGATG 19020
GTGGCAGTTT GTATGTAAAT AAACATGCAT TCCACACACC AGCTTTTGAT AAAAGTGCTT 19080
TTGTTAATTT AAAACAATTA CCATTTTTCT ATTACTCTGA CAGTCCATGT GAGTCTCATG 19140
GAAAACAAGT AGTGTCAGAT ATAGATTATG TACCACTAAA GTCTGCTACG TGTATAACAC 19200
GTTGCAATTT AGGTGGTGCT GTCTGTAGAC ATCATGCTAA TGAGTACAGA TTGTATCTCG 19260
ATGCTTATAA CATGATGATC TCAGCTGGCT TTAGCTTGTG GGTTTACAAA CAATTTGATA 19320
CTTATAACCT CTGGAACACT TTTACAAGAC TTCAGAGTTT AGAAAATGTG GCTTTTAATG 19380
TTGTAAATAA GGGACACTTT GATGGACAAC AGGGTGAAGT ACCAGTTTCT ATCATTAATA 19440
ACACTGTTTA CACAAAAGTT GATGGTGTTG ATGTAGAATT GTTTGAAAAT AAAACAACAT 19500
TACCTGTTAA TGTAGCATTT GAGCTTTGGG CTAAGCGCAA CATTAAACCA GTACCAGAGG 19560
TGAAAATACT CAATAATTTG GGTGTGGACA TTGCTGCTAA TACTGTGATC TGGGACTACA 19620
AAAGAGATGC TCCAGCACAT ATATCTACTA TTGGTGTTTG TTCTATGACT GACATAGCCA 19680
AGAAACCAAC TGAAACGATT TGTGCACCAC TCACTGTCTT TTTTGATGGT AGAGTTGATG 19740
GTCAAGTAGA CTTATTTAGA AATGCCCGTA ATGGTGTTCT TATTACAGAA GGTAGTGTTA 19800
AAGGTTTACA ACCATCTGTA GGTCCCAAAC AAGCTAGTCT TAATGGAGTC ACATTAATTG 19860
GAGAAGCCGT AAAAACACAG TTCAATTATT ATAAGAAAGT TGATGGTGTT GTCCAACAAT 19920
TACCTGAAAC TTACTTTACT CAGAGTAGAA ATTTACAAGA ATTTAAACCC AGGAGTCAAA 19980
TGGAAATTGA TTTCTTAGAA TTAGCTATGG ATGAATTCAT TGAACGGTAT AAATTAGAAG 20040
GCTATGCCTT CGAACATATC GTTTATGGAG ATTTTAGTCA TAGTCAGTTA GGTGGTTTAC 20100
ATCTACTGAT TGGACTAGCT AAACGTTTTA AGGAATCACC TTTTGAATTA GAAGATTTTA 20160
TTCCTATGGA CAGTACAGTT AAAAACTATT TCATAACAGA TGCGCAAACA GGTTCATCTA 20220
AGTGTGTGTG TTCTGTTATT GATTTATTAC TTGATGATTT TGTTGAAATA ATAAAATCCC 20280
AAGATTTATC TGTAGTTTCT AAGGTTGTCA AAGTGACTAT TGACTATACA GAAATTTCAT 20340
TTATGCTTTG GTGTAAAGAT GGCCATGTAG AAACATTTTA CCCAAAATTA CAATCTAGTC 20400
AAGCGTGGCA ACCGGGTGTT GCTATGCCTA ATCTTTACAA AATGCAAAGA ATGCTATTAG 20460
AAAAGTGTGA CCTTCAAAAT TATGGTGATA GTGCAACATT ACCTAAAGGC ATAATGATGA 20520
ATGTCGCAAA ATATACTCAA CTGTGTCAAT ATTTAAACAC ATTAACATTA GCTGTACCCT 20580
ATAATATGAG AGTTATACAT TTTGGTGCTG GTTCTGATAA AGGAGTTGCA CCAGGTACAG 20640
CTGTTTTAAG ACAGTGGTTG CCTACGGGTA CGCTGCTTGT CGATTCAGAT CTTAATGACT 20700
TTGTCTCTGA TGCAGATTCA ACTTTGATTG GTGATTGTGC AACTGTACAT ACAGCTAATA 20760
AATGGGATCT CATTATTAGT GATATGTACG ACCCTAAGAC TAAAAATGTT ACAAAAGAAA 20820
ATGACTCTAA AGAGGGTTTT TTCACTTACA TTTGTGGGTT TATACAACAA AAGCTAGCTC 20880
TTGGAGGTTC CGTGGCTATA AAGATAACAG AACATTCTTG GAATGCTGAT CTTTATAAGC 20940
TCATGGGACA CTTCGCATGG TGGACAGCCT TTGTTACTAA TGTGAATGCG TCATCATCTG 21000
AAGCATTTTT AATTGGATGT AATTATCTTG GCAAACCACG CGAACAAATA GATGGTTATG 21060
TCATGCATGC AAATTACATA TTTTGGAGGA ATACAAATCC AATTCAGTTG TCTTCCTATT 21120
CTTTATTTGA CATGAGTAAA TTTCCCCTTA AATTAAGGGG TACTGCTGTT ATGTCTTTAA 21180
AAGAAGGTCA AATCAATGAT ATGATTTTAT CTCTTCTTAG TAAAGGTAGA CTTATAATTA 21240
GAGAAAACAA CAGAGTTGTT ATTTCTAGTG ATGTTCTTGT TAACAACTAA 	          21290


<210> 2
<211> 3822
<212> RNA
<213> Coronavirus severe acute respiratory syndrome 2 (SARS-CoV-2)

<400> 2
ATGTTTGTTT TTCTTGTTTT ATTGCCACTA GTCTCTAGTC AGTGTGTTAA TCTTACAACC 60
AGAACTCAAT TACCCCCTGC ATACACTAAT TCTTTCACAC GTGGTGTTTA TTACCCTGAC 120
AAAGTTTTCA GATCCTCAGT TTTACATTCA ACTCAGGACT TGTTCTTACC TTTCTTTTCC 180
AATGTTACTT GGTTCCATGC TATACATGTC TCTGGGACCA ATGGTACTAA GAGGTTTGAT 240
AACCCTGTCC TACCATTTAA TGATGGTGTT TATTTTGCTT CCACTGAGAA GTCTAACATA 300
ATAAGAGGCT GGATTTTTGG TACTACTTTA GATTCGAAGA CCCAGTCCCT ACTTATTGTT 360
AATAACGCTA CTAATGTTGT TATTAAAGTC TGTGAATTTC AATTTTGTAA TGATCCATTT 420
TTGGGTGTTT ATTACCACAA AAACAACAAA AGTTGGATGG AAAGTGAGTT CAGAGTTTAT 480
TCTAGTGCGA ATAATTGCAC TTTTGAATAT GTCTCTCAGC CTTTTCTTAT GGACCTTGAA 540
GGAAAACAGG GTAATTTCAA AAATCTTAGG GAATTTGTGT TTAAGAATAT TGATGGTTAT 600
TTTAAAATAT ATTCTAAGCA CACGCCTATT AATTTAGTGC GTGATCTCCC TCAGGGTTTT 660
TCGGCTTTAG AACCATTGGT AGATTTGCCA ATAGGTATTA ACATCACTAG GTTTCAAACT 720
TTACTTGCTT TACATAGAAG TTATTTGACT CCTGGTGATT CTTCTTCAGG TTGGACAGCT 780
GGTGCTGCAG CTTATTATGT GGGTTATCTT CAACCTAGGA CTTTTCTATT AAAATATAAT 840
GAAAATGGAA CCATTACAGA TGCTGTAGAC TGTGCACTTG ACCCTCTCTC AGAAACAAAG 900
TGTACGTTGA AATCCTTCAC TGTAGAAAAA GGAATCTATC AAACTTCTAA CTTTAGAGTC 960
CAACCAACAG AATCTATTGT TAGATTTCCT AATATTACAA ACTTGTGCCC TTTTGGTGAA 1020
GTTTTTAACG CCACCAGATT TGCATCTGTT TATGCTTGGA ACAGGAAGAG AATCAGCAAC 1080
TGTGTTGCTG ATTATTCTGT CCTATATAAT TCCGCATCAT TTTCCACTTT TAAGTGTTAT 1140
GGAGTGTCTC CTACTAAATT AAATGATCTC TGCTTTACTA ATGTCTATGC AGATTCATTT 1200
GTAATTAGAG GTGATGAAGT CAGACAAATC GCTCCAGGGC AAACTGGAAA GATTGCTGAT 1260
TATAATTATA AATTACCAGA TGATTTTACA GGCTGCGTTA TAGCTTGGAA TTCTAACAAT 1320
CTTGATTCTA AGGTTGGTGG TAATTATAAT TACCTGTATA GATTGTTTAG GAAGTCTAAT 1380
CTCAAACCTT TTGAGAGAGA TATTTCAACT GAAATCTATC AGGCCGGTAG CACACCTTGT 1440
AATGGTGTTG AAGGTTTTAA TTGTTACTTT CCTTTACAAT CATATGGTTT CCAACCCACT 1500
AATGGTGTTG GTTACCAACC ATACAGAGTA GTAGTACTTT CTTTTGAACT TCTACATGCA 1560
CCAGCAACTG TTTGTGGACC TAAAAAGTCT ACTAATTTGG TTAAAAACAA ATGTGTCAAT 1620
TTCAACTTCA ATGGTTTAAC AGGCACAGGT GTTCTTACTG AGTCTAACAA AAAGTTTCTG 1680
CCTTTCCAAC AATTTGGCAG AGACATTGCT GACACTACTG ATGCTGTCCG TGATCCACAG 1740
ACACTTGAGA TTCTTGACAT TACACCATGT TCTTTTGGTG GTGTCAGTGT TATAACACCA 1800
GGAACAAATA CTTCTAACCA GGTTGCTGTT CTTTATCAGG ATGTTAACTG CACAGAAGTC 1860
CCTGTTGCTA TTCATGCAGA TCAACTTACT CCTACTTGGC GTGTTTATTC TACAGGTTCT 1920
AATGTTTTTC AAACACGTGC AGGCTGTTTA ATAGGGGCTG AACATGTCAA CAACTCATAT 1980
GAGTGTGACA TACCCATTGG TGCAGGTATA TGCGCTAGTT ATCAGACTCA GACTAATTCT 2040
CCTCGGCGGG CACGTAGTGT AGCTAGTCAA TCCATCATTG CCTACACTAT GTCACTTGGT 2100
GCAGAAAATT CAGTTGCTTA CTCTAATAAC TCTATTGCCA TACCCACAAA TTTTACTATT 2160
AGTGTTACCA CAGAAATTCT ACCAGTGTCT ATGACCAAGA CATCAGTAGA TTGTACAATG 2220
TACATTTGTG GTGATTCAAC TGAATGCAGC AATCTTTTGT TGCAATATGG CAGTTTTTGT 2280
ACACAATTAA ACCGTGCTTT AACTGGAATA GCTGTTGAAC AAGACAAAAA CACCCAAGAA 2340
GTTTTTGCAC AAGTCAAACA AATTTACAAA ACACCACCAA TTAAAGATTT TGGTGGTTTT 2400
AATTTTTCAC AAATATTACC AGATCCATCA AAACCAAGCA AGAGGTCATT TATTGAAGAT 2460
CTACTTTTCA ACAAAGTGAC ACTTGCAGAT GCTGGCTTCA TCAAACAATA TGGTGATTGC 2520
CTTGGTGATA TTGCTGCTAG AGACCTCATT TGTGCACAAA AGTTTAACGG CCTTACTGTT 2580
TTGCCACCTT TGCTCACAGA TGAAATGATT GCTCAATACA CTTCTGCACT GTTAGCGGGT 2640
ACAATCACTT CTGGTTGGAC CTTTGGTGCA GGTGCTGCAT TACAAATACC ATTTGCTATG 2700
CAAATGGCTT ATAGGTTTAA TGGTATTGGA GTTACACAGA ATGTTCTCTA TGAGAACCAA 2760
AAATTGATTG CCAACCAATT TAATAGTGCT ATTGGCAAAA TTCAAGACTC ACTTTCTTCC 2820
ACAGCAAGTG CACTTGGAAA ACTTCAAGAT GTGGTCAACC AAAATGCACA AGCTTTAAAC 2880
ACGCTTGTTA AACAACTTAG CTCCAATTTT GGTGCAATTT CAAGTGTTTT AAATGATATC 2940
CTTTCACGTC TTGACAAAGT TGAGGCTGAA GTGCAAATTG ATAGGTTGAT CACAGGCAGA 3000
CTTCAAAGTT TGCAGACATA TGTGACTCAA CAATTAATTA GAGCTGCAGA AATCAGAGCT 3060
TCTGCTAATC TTGCTGCTAC TAAAATGTCA GAGTGTGTAC TTGGACAATC AAAAAGAGTT 3120
GATTTTTGTG GAAAGGGCTA TCATCTTATG TCCTTCCCTC AGTCAGCACC TCATGGTGTA 3180
GTCTTCTTGC ATGTGACTTA TGTCCCTGCA CAAGAAAAGA ACTTCACAAC TGCTCCTGCC 3240
ATTTGTCATG ATGGAAAAGC ACACTTTCCT CGTGAAGGTG TCTTTGTTTC AAATGGCACA 3300
CACTGGTTTG TAACACAAAG GAATTTTTAT GAACCACAAA TCATTACTAC AGACAACACA 3360
TTTGTGTCTG GTAACTGTGA TGTTGTAATA GGAATTGTCA ACAACACAGT TTATGATCCT 3420
TTGCAACCTG AATTAGACTC ATTCAAGGAG GAGTTAGATA AATATTTTAA GAATCATACA 3480
TCACCAGATG TTGATTTAGG TGACATCTCT GGCATTAATG CTTCAGTTGT AAACATTCAA 3540
AAAGAAATTG ACCGCCTCAA TGAGGTTGCC AAGAATTTAA ATGAATCTCT CATCGATCTC 3600
CAAGAACTTG GAAAGTATGA GCAGTATATA AAATGGCCAT GGTACATTTG GCTAGGTTTT 3660
ATAGCTGGCT TGATTGCCAT AGTAATGGTG ACAATTATGC TTTGCTGTAT GACCAGTTGC 3720
TGTAGTTGTC TCAAGGGCTG TTGTTCTTGT GGATCCTGCT GCAAATTTGA TGAAGACGAC 3780
TCTGAGCCAG TGCTCAAAGG AGTCAAATTA CATTACACAT AA 		          3822


<210> 3
<211> 828
<212> RNA
<213> Coronavirus severe acute respiratory syndrome 2 (SARS-CoV-2)

<400> 3
ATGGATTTGT TTATGAGAAT CTTCACAATT GGAACTGTAA CTTTGAAGCA AGGTGAAATC 60
AAGGATGCTA CTCCTTCAGA TTTTGTTCGC GCTACTGCAA CGATACCGAT ACAAGCCTCA 120
CTCCCTTTCG GATGGCTTAT TGTTGGCGTT GCACTTCTTG CTGTTTTTCA GAGCGCTTCC 180
AAAATCATAA CCCTCAAAAA GAGATGGCAA CTAGCACTCT CCAAGGGTGT TCACTTTGTT 240
TGCAACTTGC TGTTGTTGTT TGTAACAGTT TACTCACACC TTTTGCTCGT TGCTGCTGGC 300
CTTGAAGCCC CTTTTCTCTA TCTTTATGCT TTAGTCTACT TCTTGCAGAG TATAAACTTT 360
GTAAGAATAA TAATGAGGCT TTGGCTTTGC TGGAAATGCC GTTCCAAAAA CCCATTACTT 420
TATGATGCCA ACTATTTTCT TTGCTGGCAT ACTAATTGTT ACGACTATTG TATACCTTAC 480
AATAGTGTAA CTTCTTCAAT TGTCATTACT TCAGGTGATG GCACAACAAG TCCTATTTCT 540
GAACATGACT ACCAGATTGG TGGTTATACT GAAAAATGGG AATCTGGAGT AAAAGACTGT 600
GTTGTATTAC ACAGTTACTT CACTTCAGAC TATTACCAGC TGTACTCAAC TCAATTGAGT 660
ACAGACACTG GTGTTGAACA TGTTACCTTC TTCATCTACA ATAAAATTGT TGATGAGCCT 720
GAAGAACATG TCCAAATTCA CACAATCGAC GGTTCATCCG GAGTTGTTAA TCCAGTAATG 780
GAACCAATTT ATGATGAACC GACGACGACT ACTAGCGTGC CTTTGTAA              828


<210> 4
<211> 228
<212> RNA
<213> Coronavirus severe acute respiratory syndrome 2 (SARS-CoV-2)

<400> 4
ATGTACTCAT TCGTTTCGGA AGAGACAGGT ACGTTAATAG TTAATAGCGT ACTTCTTTTT 60
CTTGCTTTCG TGGTATTCTT GCTAGTTACA CTAGCCATCC TTACTGCGCT TCGATTGTGT 120
GCGTACTGCT GCAATATTGT TAACGTGAGT CTTGTAAAAC CTTCTTTTTA CGTTTACTCT 180
CGTGTTAAAA ATCTGAATTC TTCTAGAGTT CCTGATCTTC TGGTCTAA              228


<210> 5
<211> 669
<212> RNA
<213> Coronavirus severe acute respiratory syndrome 2 (SARS-CoV-2)

<400> 5
ATGGCAGATT CCAACGGTAC TATTACCGTT GAAGAGCTTA AAAAGCTCCT TGAACAATGG 60
AACCTAGTAA TAGGTTTCCT ATTCCTTACA TGGATTTGTC TTCTACAATT TGCCTATGCC 120
AACAGGAATA GGTTTTTGTA TATAATTAAG TTAATTTTCC TCTGGCTGTT ATGGCCAGTA 180
ACTTTAGCTT GTTTTGTGCT TGCTGCTGTT TACAGAATAA ATTGGATCAC CGGTGGAATT 240
GCTATCGCAA TGGCTTGTCT TGTAGGCTTG ATGTGGCTCA GCTACTTCAT TGCTTCTTTC 300
AGACTGTTTG CGCGTACGCG TTCCATGTGG TCATTCAATC CAGAAACTAA CATTCTTCTC 360
AACGTGCCAC TCCATGGCAC TATTCTGACC AGACCGCTTC TAGAAAGTGA ACTCGTAATC 420
GGAGCTGTGA TCCTTCGTGG ACATCTTCGT ATTGCTGGAC ACCATCTAGG ACGCTGTGAC 480
ATCAAGGACC TGCCTAAAGA AATCACTGTT GCTACATCAC GAACGCTTTC TTATTACAAA 540
TTGGGAGCTT CGCAGCGTGT AGCAGGTGAC TCAGGTTTTG CTGCATACAG TCGCTACAGG 600
ATTGGCAACT ATAAATTAAA CACAGACCAT TCCAGTAGCA GTGACAATAT TGCTTTGCTT 660
GTACAGTAA                                                         669


<210> 6
<211> 186
<212> RNA
<213> Coronavirus severe acute respiratory syndrome 2 (SARS-CoV-2)

<400> 6
ATGTTTCATC TCGTTGACTT TCAGGTTACT ATAGCAGAGA TATTACTAAT TATTATGAGG 60
ACTTTTAAAG TTTCCATTTG GAATCTTGAT TACATCATAA ACCTCATAAT TAAAAATTTA 120
TCTAAGTCAC TAACTGAGAA TAAATATTCT CAATTAGATG AAGAGCAACC AATGGAGATT 180
GATTAA                                                            186


<210> 7
<211> 366
<212> RNA
<213> Coronavirus severe acute respiratory syndrome 2 (SARS-CoV-2)

<400> 7
ATGAAAATTA TTCTTTTCTT GGCACTGATA ACACTCGCTA CTTGTGAGCT TTATCACTAC 60
CAAGAGTGTG TTAGAGGTAC AACAGTACTT TTAAAAGAAC CTTGCTCTTC TGGAACATAC 120
GAGGGCAATT CACCATTTCA TCCTCTAGCT GATAACAAAT TTGCACTGAC TTGCTTTAGC 180
ACTCAATTTG CTTTTGCTTG TCCTGACGGC GTAAAACACG TCTATCAGTT ACGTGCCAGA 240
TCAGTTTCAC CTAAACTGTT CATCAGACAA GAGGAAGTTC AAGAACTTTA CTCTCCAATT 300
TTTCTTATTG TTGCGGCAAT AGTGTTTATA ACACTTTGCT TCACACTCAA AAGAAAGACA 360
GAATGA                                                            366


<210> 8
<211> 132
<212> RNA
<213> Coronavirus severe acute respiratory syndrome 2 (SARS-CoV-2)

<400> 8
ATGATTGAAC TTTCATTAAT TGACTTCTAT TTGTGCTTTT TAGCCTTTCT GCTATTCCTT 60
GTTTTAATTA TGCTTATTAT CTTTTGGTTC TCACTTGAAC TGCAAGATCA TAATGAAACT 120
TGTCACGCCT AA                                                     132


<210> 9
<211> 366
<212> RNA
<213> Coronavirus severe acute respiratory syndrome 2 (SARS-CoV-2)

<400> 9
ATGAAATTTC TTGTTTTCTT AGGAATCATC ACAACTGTAG CTGCATTTCA CCAAGAATGT 60
AGTTTACAGT CATGTACTCA ACATCAACCA TATGTAGTTG ATGACCCGTG TCCTATTCAC 120
TTCTATTCTA AATGGTATAT TAGAGTAGGA GCTAGAAAAT CAGCACCTTT AATTGAATTG 180
TGCGTGGATG AGGCTGGTTC TAAATCACCC ATTCAGTACA TCGATATCGG TAATTATACA 240
GTTTCCTGTT TACCTTTTAC AATTAATTGC CAGGAACCTA AATTGGGTAG TCTTGTAGTG 300
CGTTGTTCGT TCTATGAAGA CTTTTTAGAG TATCATGACG TTCGTGTTGT TTTAGATTTC 360
ATCTAA                                                            366


<210> 10
<211> 1260
<212> RNA
<213> Coronavirus severe acute respiratory syndrome 2 (SARS-CoV-2)

<400> 10
ATGTCTGATA ATGGACCCCA AAATCAGCGA AATGCACCCC GCATTACGTT TGGTGGACCC 60
TCAGATTCAA CTGGCAGTAA CCAGAATGGA GAACGCAGTG GGGCGCGATC AAAACAACGT 120
CGGCCCCAAG GTTTACCCAA TAATACTGCG TCTTGGTTCA CCGCTCTCAC TCAACATGGC 180
AAGGAAGACC TTAAATTCCC TCGAGGACAA GGCGTTCCAA TTAACACCAA TAGCAGTCCA 240
GATGACCAAA TTGGCTACTA CCGAAGAGCT ACCAGACGAA TTCGTGGTGG TGACGGTAAA 300
ATGAAAGATC TCAGTCCAAG ATGGTATTTC TACTACCTAG GAACTGGGCC AGAAGCTGGA 360
CTTCCCTATG GTGCTAACAA AGACGGCATC ATATGGGTTG CAACTGAGGG AGCCTTGAAT 420
ACACCAAAAG ATCACATTGG CACCCGCAAT CCTGCTAACA ATGCTGCAAT CGTGCTACAA 480
CTTCCTCAAG GAACAACATT GCCAAAAGGC TTCTACGCAG AAGGGAGCAG AGGCGGCAGT 540
CAAGCCTCTT CTCGTTCCTC ATCACGTAGT CGCAACAGTT CAAGAAATTC AACTCCAGGC 600
AGCAGTAGGG GAACTTCTCC TGCTAGAATG GCTGGCAATG GCGGTGATGC TGCTCTTGCT 660
TTGCTGCTGC TTGACAGATT GAACCAGCTT GAGAGCAAAA TGTCTGGTAA AGGCCAACAA 720
CAACAAGGCC AAACTGTCAC TAAGAAATCT GCTGCTGAGG CTTCTAAGAA GCCTCGGCAA 780
AAACGTACTG CCACTAAAGC ATACAATGTA ACACAAGCTT TCGGCAGACG TGGTCCAGAA 840
CAAACCCAAG GAAATTTTGG GGACCAGGAA CTAATCAGAC AAGGAACTGA TTACAAACAT 900
TGGCCGCAAA TTGCACAATT TGCCCCCAGC GCTTCAGCGT TCTTCGGAAT GTCGCGCATT 960
GGCATGGAAG TCACACCTTC GGGAACGTGG TTGACCTACA CAGGTGCCAT CAAATTGGAT 1020
GACAAAGATC CAAATTTCAA AGATCAAGTC ATTTTGCTGA ATAAGCATAT TGACGCATAC 1080
AAAACATTCC CACCAACAGA GCCTAAAAAG GACAAAAAGA AGAAGGCTGA TGAAACTCAA 1140
GCCTTACCGC AGAGACAGAA GAAACAGCAA ACTGTGACTC TTCTTCCTGC TGCAGATTTG 1200
GATGATTTCT CCAAACAATT GCAACAATCC ATGAGCAGTG CTGACTCAAC TCAGGCCTAA 1260


<210> 11
<211> 117
<212> RNA
<213> Coronavirus severe acute respiratory syndrome 2 (SARS-CoV-2)

<400> 11
ATGGGCTATA TAAACGTTTT CGCTTTTCCG TTTACGATAT ATAGTCTACT CTTGTGCAGA 60
ATGAATTCTC GTAACTACAT AGCACAAGTA GATGTAGTTA ACTTTAATCT CACATAG    117

<210> 12
<211> 20
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 12
CTGCACCTCA TGGTCATGTT                                             20


<210> 13
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 13
AGCTCGTCGC CTAAGTCAA                                               19


<210> 14
<211> 42
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 14
GAGGGACAAG GACACCAAGT GTATGGTTGA GCTGGTAGCA GA                      42


<210> 15
<211> 39
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 15
CCAGTGGCTT ACCGCAAGGT TTTAGATCGG CGCCGTAAC                                                      39


<210> 16
<211> 21
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 16
CCGTACTGAA TGCCTTCGAG T                                            21


<210> 17
<211> 25
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 17
TTCGTAAGAA CGGTAATAAA GGAGC                                        25


<210> 18
<211> 18
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 18
TGCCTCAACT TGAACAGC                                                 18


<210> 19
<211> 21
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”
<400> 19
TTCATAAGGA TCAGTGCCAA G                                            21


<210> 20
<211> 42
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 20
CACCAAGTGT CTCACCACTA CGGCACCTCA TGGTCATGTT AT                          42


<210> 21
<211> 42
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 21
CTCATGTGGG CGAAATACCA GTCCACCAGC TCCTTTATTA CC                      42


<210> 22
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 22
ACCGTACTGA ATGCCTTCG                                               19


<210> 23
<211> 18
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 23
GGCTTACCGC AAGGTTCT                                                 18


<210> 24
<211> 20
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 24
TGCTCTCAAC ATACAATGCT                                               20


<210> 25
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 25
TCCTGTTAAC TCATCATGTA GC                                            22


<210> 26
<211> 40
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 26
CAAAACAGCC GGCCCCTAAC AGGGTGATGA TTATGTGTAC                          40


<210> 27
<211> 42
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 27
TGATTGAACG GTTCGTGTCT TTAGACATCA GCATACTCCT GA                     42


<210> 28
<211> 21
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 28
GGATTCTTGA TGGATCTGGG T                                             21


<210> 29
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 29
AGCTATAGAT GCTTACCCAC TT                                          22


<210> 30
<211> 21
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 30
TGGTGGTGTC AGTGTTATAA C                                          21


<210> 31
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 31
GTAGGCAATG ATGGATTGAC TA                                          22


<210> 32
<211> 42
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 32
ACACGCCAAG TAGGAGTAAG TTCAGGATGT TAACTGCACA GA                      42


<210> 33
<211> 41
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 33
ACGTGCAGGC TGTTTAATAG GGCGCATATA CCTGCACCAA T                      41


<210> 34
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 34
GATCTGCATG AATAGCAACA GG                                          22


<210> 35
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 35
GCTGAACATG TCAACAACTC AT                                          22


<210> 36
<211> 20
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 36
CATTACTTCA GGTGATGGCA                                               20


<210> 37
<211> 18
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 37
ACGCTAGTAG TCGTCGTC                                                18


<210> 38
<211> 44
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 38
CATGTTCAAC ACCAGTGTCT GTCACAGTTA CTTCACTTCA GACT                    44


<210> 39
<211> 44
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 39
TGAGCCTGAA GAACATGTCC AACATTACTG GATTAACAAC TCCG                      44


<210> 40
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 40
TTGAGTTGAG TACAGCTGGT AA                                            22


<210> 41
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 41
ACACAATCGA CGGTTCATC                                                    19


<210> 42
<211> 18
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 42
ATGAACCGAC GACGACTA                                                 18


<210> 43
<211> 25
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 43
GATCAGGAAC TCTAGAAGAA TTCAG                                        25


<210> 44
<211> 41
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 44
ACCTGTCTCT TCCGAAACGA ATGTAGCGTG CCTTTGTAAG C                       41


<210> 45
<211> 43
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 45
TCTTGCTTTC GTGGTATTCT TGCTAATATT GCAGCAGTAC GCA                     43


<210> 46
<211> 25
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 46
AGTACATAAG TTCGTACTCA TCAGC                                        25


<210> 47
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 47
TTACACTAGC CATCCTTACT GC                                          22


<210> 48
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 48
TGGCACTATT CTGACCAGA                                                 19


<210> 49
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 49
ACTGCTACTG GAATGGTCT                                                19


<210> 50
<211> 39
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 50
GGTCCTTGAT GTCACAGCGT GTGATCCTTC GTGGACATC                          39


<210> 51
<211> 39
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 51
TGTTGCTACA TCACGAACGC TCCTGAGTCA CCTGCTACA                         39


<210> 52
<211> 21
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 52
TAGATGGTGT CCAGCAATAC G                                               21


<210> 53
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 53
CAAATTGGGA GCTTCGCAG                                                19


<210> 54
<211> 18
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 54
TAGGACGCTG TGACATCA                                                18


<210> 55
<211> 21
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 55
GTAACCTGAA AGTCAACGAG A                                             21


<210> 56
<211> 39
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 56
CCTGAGTCAC CTGCTACACG TCACTGTTGC TACATCACG                         39


<210> 57
<211> 44
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 57
GTCGCTACAG GATTGGCAAC TATCACTTAC TGTACAAGCA AAGC                   44


<210> 58
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 58
CTGCGAAGCT CCCAATTTG                                              19

<210> 59
<211> 20
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 59
ACACAGACCA TTCCAGTAGC                                              20


<210> 60
<211> 21
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 60
TGATAACACT CGCTACTTGT G                                            21


<210> 61
<211> 21
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 61
CACTATTGCC GCAACAATAA G                                           21


<210> 62
<211> 42
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 62
GAGTGCTAAA GCAAGTCAGT GCGCTCTTCT GGAACATACG AG                       42


<210> 63
<211> 42
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 63
TCCTGACGGC GTAAAACACG GAACTTCCTC TTGTCTGATG AA                      42


<210> 64
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 64
GAGGATGAAA TGGTGAATTG CC                                          22


<210> 65
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 65
CTATCAGTTA CGTGCCAGAT CA                                           22


<210> 66
<211> 18
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 66
TTGTTGCGGC AATAGTGT                                               18


<210> 67
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 67
ACCGATATCG ATGTACTGAA TG                                           22


<210> 68
<211> 43
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 68
TGTTCGTTTA GGCGTGACAA GTTAGCCTTT CTGCTATTCC TTG                      43


<210> 69
<211> 45
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 69
ACAGTCATGT ACTCAACATC AACCACATCC ACGCACAATT CAATT                    45


<210> 70
<211> 20
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 70
GCAGTTCAAG TGAGAACCAA                                               20


<210> 71
<211> 24
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 71
CCGTGTCCTA TTCACTTCTA TTCT                                          24


<210> 72
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 72
TAGGAATCAT CACAACTGTA GC                                           22


<210> 73
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 73
CACGAACGTC ATGATACTCT AA                                            22


<210> 74
<211> 45
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 74
TCCACGCACA ATTCAATTAA AGGTGAGTCA TGTACTCAAC ATCAA                   45


<210> 75
<211> 44
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 75
GAGGCTGGTT CTAAATCACC CATTACAACG CACTACAAGA CTAC                   44


<210> 76
<211> 24
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 76
AGAATAGAAG TGAATAGGAC ACGG                                         24


<210> 77
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 77
AATTGCCAGG AACCTAAATT GG                                          22


<210> 78
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 78
TGGCTACTAC CGAAGAGCT                                               19


<210> 79
<211> 20
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 79
TGCAGCATTG TTAGCAGGAT                                              20


<210> 80
<211> 41
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 80
TCTGGCCCAG TTCCTAGGTA GTCCAGACGA ATTCGTGGTG G                      41


<210> 81
<211> 40
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 81
AGACGGCATC ATATGGGTTG CACGGGTGCC AATGTGATCT                         40


<210> 82
<211> 25
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 82
GGACTGAGAT CTTTCATTTT ACCGT                                              25


<210> 83
<211> 21
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 83
ACTGAGGGAG CCTTGAATAC A                                            21


<210> 84
<211> 18
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 84
TCCTGCTAAC AATGCTGC                                                18


<210> 85
<211> 20
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 85
TCTCAAGCTG GTTCAATCTG                                              20


<210> 86
<211> 40
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 86
AACGAGAAGA GGCTTGACTG CTCAAGGAAC AACATTGCCA                       40


<210> 87
<211> 40
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 87
CTCATCACGT AGTCGCAACA GTATTGCCAG CCATTCTAGC                        40


<210> 88
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 88
CCTTCTGCGT AGAAGCCTT                                               19


<210> 89
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 89
AATTCAACTC CAGGCAGCA                                                19


<210> 90
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 90
GTGACTCTTC TTCCTGCTG                                              19


<210> 91
<211> 18
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 91
ATAGGCAGCT CTCCCTAG                                               18


<210> 92
<211> 43
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 92
GAATTCATTC TGCACAAGAG TAGACCATGA GCAGTGCTGA CTC                   43


<210> 93
<211> 42
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 93
TAGGGAGGAC TTGAAAGAGC CACATTGTTC ACTGTACACT CG                    42


<210> 94
<211> 18
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 94
GTGTGGTCTG CATGAGTT                                               18


<210> 95
<211> 16
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic oligonucleotide primer”

<400> 95
CCACGCGGAG TACGAT                                                 16


<210> 96
<211> 20
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic probe”

<400> 96
GACCGTACTG AATGCCTTCG                                             20


<210> 97
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic probe”

<400> 97
ACCGTACTGA ATGCCTTCG                                             19


<210> 98
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic probe”

<400> 98
CTATAGATGC TTACCCACTT AC                                         22


<210> 99
<211> 24
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic probe”

<400> 99
TGAACATGTC AACAACTCAT ATGA                                       24


<210> 100
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic probe”

<400> 100
ACACAATCGA CGGTTCATC                                             19


<210> 101
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic probe”

<400> 101
CTGCGAAGCT CCCAATTTG                                            19


<210> 102
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic probe”

<400> 102
CTATCAGTTA CGTGCCAGAT CA                                        22


<210> 103
<211> 24
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic probe”

<400> 103
CCGTGTCCTA TTCACTTCTA TTCT                                       24


<210> 104
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic probe”

<400> 104
AATTGCCAGG AACCTAAATT GG                                        22


<210> 105
<211> 20
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic probe”

<400> 105
ACTGAGGGAG CCTTGAATAC                                          20


<210> 106
<211> 18
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic probe”

<400> 106
AACTCCAGGC AGCAGTAG                                              18


<210> 107
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic probe”

<400> 107
GTGGTCTGCA TGAGTTTAG                                            19


<210> 108
<211> 22
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic probe”

<400> 108
TTACACTAGC CATCCTTACT GC                                        22


<210> 109
<211> 20
<212> DNA
<213> Artificial sequence
<220>
<221> source
<223> /note= “Description of artificial sequence: synthetic probe”

<400> 109
TAGATGGTGT CCAGCAATAC                                          20
