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Created June 18, 2026 14:52
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preflightx species/sex panel — Taeniopygia_guttata (zebra finch), k=50 canonical
This file has been truncated, but you can view the full file.
#species Taeniopygia_guttata
#k 50
#canonical true
#n_autosomal 20000
#n_female_XIST 0
#n_male_Y 0
GGCCTCATCGACGGCATCGTGGAGGCCGACCTGGTGGAGGCGCTGCAGGA autosomal
ATGAGTGTGCTGTATTCACAACGTCATTTTTTCCCCTCCATCTATTTCAA autosomal
GATTTCTCAGCAGGCAGCCTGTTCCTAGCTGGGTGACTTATGAGCTGTGC autosomal
GCCAGGCTCTCGCGCACCTCGGGCGGCAGCGGCACGGCCTCCAGCGCGCA autosomal
CTACTCAGCTCCTCGTCCCGCCCTCCGCTGCCATTGGCCGGCGCGGGGCC autosomal
ATGGTTGTTGTTTTTTTGGGTTTTCTGTTTGTTTTGGTTTTGTTATTTTC autosomal
CTGTGGTGAAGGTCCGATGATGCCAAACATTTTCATTTCTCAGGAGAAAA autosomal
GACTACAGCTCCCAGGCTGCCCCGCCGGGTGCCGGGGAGCGGAGCGGCCC autosomal
GCTCTGCCGCCCTCACCACCGCCACCGCCACCGTAATATCGGCCCGAGCC autosomal
CGCCCAGCGCCGCTGGGCTCCCGGCTCCCGGCGCCTCGGCCACGCTCTCC autosomal
TCCTCATTCTCCAGTGTTTTTTCTTAAGTTTTAAAATGAAAAATCTCGCA autosomal
CGCTGCTGGTTAGACCACAGGTGCCTGGATAGGTTAATAAAGTCTCCACC autosomal
CCCGGGATCCTGGGCAGGACGCCCTCGCCCCGCGGGGTGCGGGGAGCCGG autosomal
ATCTGCCTGCCACGTCCTCCCGCTGGTGGTGGGGATGGTGGCACTTTCAA autosomal
GCCGCTCCGTGCCCTGCCCGCTCCCCGCTCAGCGTGGGAATCCCGGTGCC autosomal
AAACTTTGGAAGTTTAGCATTATTGTGTTTGTCTTTCTGGTATTTTTATT autosomal
AAGGTCGGGGTGCAGGGAGCACCTGGATCAGCCACTTTGGGGTGCAGGGC autosomal
CATTGTGGCTGTGAAGACAAAGAACGTCCCTTCAGGTTTTGGAAACCCCA autosomal
AGCGCCTCGGAGAGGTTGAGCAGCATTCGGCCGCGGCCCTGCAGCTCCCG autosomal
GATACGCTGGGAAAGCCAGGCAGCCGTGGCTGGTCGGAGCCGCCCTCGGC autosomal
GAGCAGAGAAAAACTCACATATAGAGCCCTATCTAAGTACCAGCTAAGGC autosomal
CCGGCGGGCTGCGCCGCCGCCGCCGCTTGCTTGAGGGACATGGCGAGGAG autosomal
ATAGCATCTGGGTGGCAGTCGTCCAGCCCCAGGGCACACTCGTCCACATC autosomal
CCGCCCGCTCCGACCGCCGCCACCCGCACGCGCGCACTTCCCAGAAGTCG autosomal
CGGCAAAGCCGCACGGCCCCGGAAACCTCATCCGCGATCCTGACCGCGCC autosomal
GTCTCACTTGAATGCTGGGGAAGCCACGAAACTGACCACGGTGTCATTCA autosomal
AGAACTTCATTGGTCTTTCACAAACCCCAGAGAGACGTTGAAGAGAGATA autosomal
CGGCGCGTTCCTCCCGCCGCAGCCAGCAGCGCCCCCTGCCGGCCGCTGCA autosomal
AATCTATATTGTTTGTACTTTTGCTCAGCAAAGCAGCTATAAGAAATAAT autosomal
CCCGCCGCTGCCGCCCATTGTGTCCCCCCGCCCCGGCAGCAGCAGCGGCG autosomal
CACCAGGACGAGGAGGAGGAGGAGGAGGAGGAGGAAGAGCAGCGGCTGCC autosomal
CCGGGACGATGCGCGGAGCGGAGGGAGCAAGCTCCGGGTCCAACTCCCGA autosomal
GCCGGAGCGGCCGCCGCCGCCGCGGGTGCGCGGGCTGAGTCAGCGCCCCC autosomal
CTTCTTTCTGTTGCTGCTCCTCTTCTTGCTTACATTGTCTCATTTTCTCC autosomal
AAGCCCCGGCGGCGGCGGCGGCACCGGCGGGAGAAATGCCGGCGAAGAAG autosomal
ATCCCCAGGGAATCCCGGCCCGTTCCCGGGGAATCCCGGCCCGTTCCCGG autosomal
CATGCGCAGTTCCCAAATTCCTGCCCCTTAGCTGAGCACTGTCTCCACAG autosomal
ATGCTGAGCTATGGGGCAGGATTCGCCCTGTGGACCGCGCTGGCCCTGAC autosomal
CCGCAAGATGGCGGCGCCCATGTTGGTGCCCGAGCCCCCCCTGGGGAAGC autosomal
CCGGCGCCATCTTGCCGCGGCGGCGGGGAGCGAGCGGGCCCGGCCATGCC autosomal
AACCGGCAGAAGGAATACAAATGCGGGGACCTGGTTTTCGCCAAGATGAA autosomal
AAGCAAGGATCACCAGCATGTTTCCAAGGATGGTCACCAGACACAGCAGC autosomal
CAGGCTCTGATAGTCAAGCAGTGCTTTTTGACAAAGGGCATTCATCCACA autosomal
CACGGCCAAGCGGTCATTGAGCTCCTGCAGGTCCTCCTTCTCCTGCAGCC autosomal
AGGTTCCCACAAGTTCTTCCTCCTCCCACAGTCGCTGCTGCTGCTTCTGC autosomal
ACAATACAGATTTATTAATTTTCTGAAGAGTTTTACATGTGAATTATCTA autosomal
GTCCGGAGCCCCCCGAGGTTGGAGCGGCGTCGTGTCCTCGGGAGAGGAGA autosomal
ATCATCAACAGAGGGAGCCCGAGGATGTCTGTGCTCCAGAGTCAGACACC autosomal
GAATACAGTATAAAAATGGCAGAATAGCAGACTACTCAGAGACAAAATCC autosomal
AGCTCGGCCACGCTCACGGCCTGCGCCATCTTGGCCCGCCCGCGCCGCCC autosomal
CCAAGCGCCCTGGGAGCGCGGGGCGGCCCTGCGAGAAGCGGCTTCAGGTC autosomal
GAGGACCCCCCCGGGACCCCCCCAGGACCCCTCAGCACCCCCCGGGACCC autosomal
CGGCGGGCCGGGACTTTTATCGTGCTCGGCCGGCTCCGTCTCGGCGGTGC autosomal
CCGCCTCGCTCCGTGGCCGGCGCTGCCGCCGCAGCCCCCGCAGCACAATA autosomal
CCACTGACTCCCCAGCGCGACTCTCGCTGCGGCAGACGGGCTCCCCAGGG autosomal
AGCCGGGCGGGGATGCTGTGCCCGCGCCGCAGCACCGGCTCCGGCCGCAG autosomal
AATCCCGCAACGGAGGCGTCTACCCGGGGCCAGCCGCGGAGAAGAAGCTC autosomal
CCCGACAAGGCCCGCCGATTCCTGGAGAAGGCGCAGCGCTTGTACCCCTC autosomal
ACCTGTATTTGTAATACAGACAATATGCATTTACTACAGCAGAGCCTCCC autosomal
ACTGCGCCGACCGCGACCGCATCGACGAGGCGCGGCAGGAGCTGCACCGC autosomal
GCTGCGTGCGCCGTCTCAGCTGAGCGCCCCTCGGGCTCGTCCCGGGAACC autosomal
ACATCTGTCACACCTGCCACACCTGTAACCCCTGTCACACCTGTAACCCC autosomal
TGAGTGTTACAGAGCTGAATGTAAAGACAGGATTATGTGTTGTGTCTGCA autosomal
AGCGGCCGGTGGCCGGAGCCGCAGGCGAGCGCGACGGGGCCGTGCCAAAC autosomal
CCCCTGGCACCACCCCTGCCACCCCCCGCCCCTGCGCCCACCACAGCCCC autosomal
AAAAACCAAGCTATTTCCCTGTTGTTGCTTCAATAGCCCATCATACTGTG autosomal
GAGGCGCGGGGAGGAGCGGTGGCCGCGTTCTCCCATTTAGCTGCGAGGGA autosomal
GGAGAGAAGCCGGCGGCGGCCGCGGGATTAGATCCAGTCCGAGCTAGAGA autosomal
GAATATCTCACAGTGGAGGACATGGAAGTTATCAGAGCGAGGGTGTGAAA autosomal
AAACCACTTCCCTGATGTAGTTCACTTAGTTTCTCAATTTCAAACAAATA autosomal
CACTCGGGTGCCCCAACCTAAGGAAGTCGCATCGATAACCTGGAAACGGG autosomal
AATTCATGAATGCCATATACTCTATAGCTCCAGTCTGGGGAGGGGAAGAC autosomal
CTCATGCCTTTTCCGAGTTCCCTCCACTTATCCTAGAAACTGTTAATAAA autosomal
CATGTTCCTGCAGTGCTAAGAGAACGAGGGCGGGGAGCGCGTCTACACCC autosomal
CTCCCCGCCCGCCGCAGCCGAGGGAGGTGCAGCTCCCCGCGGTGGGGCTC autosomal
CGGGAGCGGGGCGGGGCCCGCCGGGAGTCAGCTGGGCGCGAGGGGAGAAC autosomal
AAGTTCGACTCAGAGATGAGCCGGGGCGGGCTGGGCACGGCGGACGGGGT autosomal
CGGCGCTGCCGCCGCTCCGGTGCGGCCGCTCAGGGCCACACTGACAGCAC autosomal
GAAAGGCAAAGGCTGCTCCTTCCCTTATATACGGAGCCCAGTGCTCACCC autosomal
CAGCGAGCGGTACAGGCGGGACTCGCTCTCGGCCGTCAGGGCCATGTTGG autosomal
ATATCTTATCTCTATTAGGTTTTGCAATCAACTATTAAGGTGCAACTATG autosomal
ACTGACATTGCTCTGGCAGCAGCACTAGGAAACTAAGGATCACAATGCAG autosomal
AGGAAAGGGGGGCTGGGGGGGCCAGCACGGGGGGAGGGGGGCCCAAATTC autosomal
GGATCATCAATTTTTGTCCAAGAAATTGGTGTGGTGGTAGAAACAAGGGA autosomal
CCATGGCCGCGTCCCCGCCGGCCCCGGGATGCTCCTACCGCGGCGGCCCC autosomal
AAGTGAAGTCTACATCCACTCTTCTCACTGCACATGGAAGGAAAAAGCCA autosomal
GCGCAAAACGAGCAGAGCAAGATGCAGGCTCGGAGCAGGGGGCAGTGTCC autosomal
CGGGAGGGACGGGCTGGGGGCGGCCATGCCGAGGGGGCGGCCCCCCGAGC autosomal
CTTGCTAGAAATGCCTAGCGATCGGCCGCCTCCCGTCCGGGGGGAGCTCC autosomal
CCGGCGCGGAGCGGCGCGGAGCCGCATGGCCCTGCCGCCGGCCACCCCGC autosomal
GCTCCGGGGGGCGCGGAGGGGTCTCTGCTCCGCGGGGGGACGATCCCAGC autosomal
ATCAGTAGCCTGGTCTTGTGGAATAAAAGATTTTAGAATGATGTGGGAGC autosomal
GGATTGGTCCTTTCCCTACGAATCCTCTGGAAAATGCACTTCCCACAGAA autosomal
ACTGCTTCCAGGGAGCACATTACCAGGGAGCCGGGGCCAGCCTGCACACA autosomal
CATGGCGTCCGTGGTGCTGAGCGAGGCGGAGAAGCTGTACATCGTGCACG autosomal
ACAGGTGAGCGGCCCTACGCCTGCGGCACCTGCGGCAAGAGCTTCAAGCG autosomal
ATTCCACCGTCCTGCGGGCTCTTCCTGCCTCCCCCAAAACATCACCTGCC autosomal
AGCAGTGTCAAACTTCCCCTGCCCTGACTCATTTTAAATACAGATCAGAG autosomal
AAGTTGTGGGTCCGCCAGCGCAGCGCCGCGGGAGCCGCTGCCGCGGGACG autosomal
GCGCGGCCGTGCGCAGGTTCTGCCGCTTCATGGCGAGGGGCGGCCGCCGC autosomal
CTCGGAGCACACGTCGTCGGCGCGGAACTTGAGGCGTTTGCGGGCGGCCC autosomal
CCTGCCCTTCCTCCCTCCTCTCCTCCCCTCCTCCGCCTCCTCCTCCCCGC autosomal
GAGCCCGCCGCCCCCCAGCAGCATGTCGGGCCGGTCGGTGCGGGCCGAGA autosomal
CTCACACAGGCTCCCCTGCATGTCCTCTGCACTCCCAGCACCCCCAAAAC autosomal
CTCAAAATCATTTCAGCAATCATTCCTCAGAAAAGGAAGCTAAGCTTATA autosomal
AAAAGTAGTTGTAACTTGCCTAGACATCAGTTTGTTATTGTTTATTTATT autosomal
ATCCGGGCCGCGCTCCAGGCGGCACAGGCGGGCGGCGGGGCCCGCGCCGC autosomal
AGGCGGCAGAGCCGGAGATCCTGGTGCTGCTCTGCCCGGCTGTAGATGAA autosomal
CTCGCCCGGGTCGCTCCCCGCTGCCAGGGCGCCGTCACGCCGAGCCCATC autosomal
AGAGCTAAAGCGGTGAGAGACATCAGCCCCGCTCAGATAATACATGCCAG autosomal
GCCTTCTGGGAGGTCTCCAGCCTCTTCCCCAGATCTCCATTGGTATCTCC autosomal
GGAGGCTGCCTGAGCAGCTGCCAGCATTGCAGCACAGTCTATCCTGTGCC autosomal
AGATCTGGAGCCAAAGATGGGAATAGATGCCAAATAGACAAGTGATTACA autosomal
CCGCCGCGCCCGGTCCTAGCGCCGCGAACGGCGGCCCCCCTCCCCTCCCC autosomal
CCCGCCGGCCCCCGCACGGCTGGGCTGTAATCCCGTCCCTTCTCCCGGCC autosomal
CGTGCCGGCCCGCAGGATCCAGCCGGGGAGCTGCCGTGCCGAGGCCAAAG autosomal
CCGGTGAGCGAGCGAGGGAGGGAGCGAGCGCTCCGGGGCAAAGTGGGCGC autosomal
CTAAGATAAATAAACTGTTAATTAAAGCTCTCCACTGTTCTACATAGAAA autosomal
AGGAAAAGAAAAGGGGAGAGGAGGGAAAAAAAAAAAAAAAAAAAGAAAAA autosomal
CGCTGTGTTGTAGAGGAAGAGCGTCGAGTGCGAGCCAACGCACGGGAGTA autosomal
CACCCCGGGGTGCTGCGACACCCGCTGTCCCCAAATGCCCTTTCCCCTGG autosomal
ACTGCAGAGGACCGGAGATGCCCACCATTCGCCACGGGCTGCGAGCTGCA autosomal
CCCACGGCTGAGCGCTGCGCCCCTCCGAACCGGCCACGGCCACGGCCGCG autosomal
AAAAAGAAGGTCAAAAACACGTCTTCCTGTGTGAAGAAGGATGTATCAGT autosomal
TGCCATCCAGTCCTTCCAAGCCAGCAGGGCCCTGTGGGGACAAGGTGACA autosomal
AAGAGCCCCAAGCAGCAGGGAGAAGGAGAGAGGAGGAGGAAGGAGAGGAG autosomal
CCTACTTCTCCTCAGACTCATGAAATGTAGGCTTTCTCTCCGGGACCCAC autosomal
AAAGCGATCCACCTTTTCTCAATGTTGTTCAGGAATGGCCTGGTACTAAT autosomal
CGGCCCGAGCTGCTGCCCGCGGCCCACGTCCCCTCGCTGCCGCACTACCA autosomal
AAGGCAGCATTGGCACCACTGCACCTCTGCACAGCCACCTGGGCATGGTC autosomal
CACCCACGGGATCCGTGGGATCTTTGGGATCTTTGGGATCCTTCCCACCG autosomal
CTTCGCTTCCCGGGGCGCAGGGAGGAACGGCACCGGCTCGGTCCGGCTCC autosomal
CCGGCCGCGGCCACGGGCGGCTCCGCGCCGGCACCGGGCATGAGCGGGGC autosomal
CTACAGAGAGAGAAGCATTTGTGGTTGGAGCATATCAGGAACACTCTGAA autosomal
CTTGGGCCGCCCTTCCGCCGCCGTCCCGTGGGCTCGCAGGCCGCCGTCCC autosomal
AATTTTGGGATCAGGTTGCAGCATTTCCTGGAGTGCTGTCCAGGGTCTGA autosomal
CCCGTCCCGCCCCTCTAAGCTCGCCCCTCTCCCCGCCCGCTCCCTCCGCA autosomal
GCCCCGCGCCTACATCCTGGCGCCTCGGAGCCCTCCTCGGCGGCGCTCCC autosomal
GAAAAAAATCCCCAATATAAAAACCAAACAAAACACCCTTTCTTCCAAAA autosomal
ATGAGAATGTTCAGACACCGAGTGGGTTATTTGGAAATGTCAAGACAACC autosomal
CTTCGGCGGGCGCCGCCATGGCCGGGTGCCTGCTGCTCCTCCTGCTCTGC autosomal
GACAGGTGGGATGGGGGTCCCTTCCTATAGCGGATATACCACATCCTGAC autosomal
GCGCTGCGCGGCGCGGAGCCCCCTCCTCCCCCGGCTCATCTGCCAGCGCC autosomal
GAGGTCTGGAGGGAGCAACCGAGCCGAGCCGAGCCGAGCCGAGCCGAGCC autosomal
AGCCCGCCCAGGCCGCCGCCCGCCCGGCGCCGCCGCTCCGCCGCCATCGC autosomal
GCGGCTCGCCGCGCACAGCACCGGCTCCGGGCCGCCCGCAGCTGGCGACC autosomal
ATGACAGATCTTGCTCTTTGCCTCCCACATATCTGCAGGGCTAAAGGAGC autosomal
CCGTGCGGCTCCGGCTCCCGGGGGTCAGAGTTCGCGACCCCGCCTCCGCC autosomal
CTCCAGGAGTGTGGCTCGAAGCCCGTGCACAGCCCTCTGCAGCGCAAGCA autosomal
GGGCGGGGAGCGACCGCCGCCGCAGCACAAGCTGCCCCGGAGCAGCGGCA autosomal
AGGATGGGGCCGGGCAGGGTCACCAGCACAGCAGACGGCTCAATGACAAC autosomal
ATGCAAAGGCGAACCCCCCCGTACCCGCACACACCGTCGGTGAATCACCG autosomal
GCTGAGGCGGCGGCAGCGGCGGGACGGGACGGGACGGGCGAGCAGCGCCA autosomal
CCTGGATGTGGCACTGGGTGCCAGGGTTTAGTTCAGGTGTTAGGGCTGAC autosomal
AGCGCCGCCGCTGTAGCGCTGCGAGGAGCCGCCCGCTCGCCCCGCTCCGC autosomal
AGCGCCGTGACCGCCTCCGCCAGCCCCGTCCCGCCGCGTCGGGCGAAGCG autosomal
GAGCGGCCCCCCCCGCCGGCCCTGCCGCCCCGGCCGTGCCCCGCCGCCGC autosomal
CGCTCCGAGTGCCAGTGGGAGCGGATTCCCGAGCTCGTCAAGCAGCTCTC autosomal
ATAATTAATATATATTTTTTTTTCACTTGAGAAACAATGATAGCTCACCA autosomal
CATAATGAAATACCACTACTTTGAACTGCATTATAATTACAGGATGTTAA autosomal
AGTTCCTCCCAGTTCCTCCCAGTTCCTCCCAGTTCCTCCCAGTTCCTCCC autosomal
AAAGGCGGCAGCGGCGACAGGTCACTCCCGCCGCGCAGCCCCTCACGCCC autosomal
GCGGCTGGCGAGGGCTCCGGCGGGGAGACGGACAGACAGACACACAGCTA autosomal
GCAGGAGAGGGACCCTCAATGCCTGCTGACATAAAATCAGAAGTCAAAGC autosomal
TCTGAGGTACCCATGGCCAGCCCCAAGCCCTCTGAGTCTAGTGTCCCCAA autosomal
ATGTTCTGTTTTGGCCAGAGGAACAGTGCAAAAGGGGAGCCTCGGCTCGG autosomal
ACACCGTGCCCTTGCCCGAGCCGGGGGGACCGAGCACCACGGCCCGCAGC autosomal
ACATTGTGGCACATATTGCTGTGGCACACATTGTGGCACACATTGCTGTG autosomal
GATTCAATTCACTCATGAACAGCTTCATTCTCATTTAAAAAGACATAAAA autosomal
CAGAGACACTGGAGTGGACGCAGTGCTGGAGGAGAGGTGCACGGAGCGAG autosomal
GGAGAGGGATGGAAAATGGGGATCAGAGCTGCTCCCCTCTCCCAGAGCCA autosomal
GATCACTGTGTGTTAGCATAATGAAAACAACAGGAAGATAATAGTGCTGA autosomal
GGAGACGAGGATGCCTGGCATGCAGGATTCCTGGGGATGGATGCTCCGGA autosomal
CACGGGTTTCTAAAAAACAGCAAAATCCTCCATGGATAAACTAGATGGCC autosomal
GCTGTGTTTGTATCTGTGACCCTGGTGCAAAGAGTGAGGACTTGGAAGTA autosomal
CATGGCCCGGCCCCGCCGCGCTCCCGCCGCGCTTTATGGCAGCGGAGCCG autosomal
AAGTTTTTCCACCAGTACTTTGCCCATGAAACCTGTAGCTCCAGTGATAA autosomal
GAACCTCCGCGCCGCTGCGGCCCCGCTGCCTGCGGTGCCCTCCCCGCAGC autosomal
CAGGGGAGGGGGATATGATACTCTGGAGGGAGATTCTTGAAGAGGAGGAA autosomal
CAAAATCCGCCCCCCCCCCCCCCCCTCCGCTGCGGCCGGGGCCGCCCCGC autosomal
CCGCGGCCGCGTAGGGCTGGAAAGCCGCGGGGCCCGCGGGCCAGGGCGCG autosomal
GGCGGGGACGCGCTCCCGAGGCTGCGGCGCCCGGGGCGGCGCGGGCCGGA autosomal
AGAGAGAGAGAGAGGGGGAGCGAGACCTCCGCTGGCCCCGCGAACTTGTC autosomal
ACCCTGCAGAAACTCACCACAGGACCAGACTCAGGGTAGTTTGTCCTTTA autosomal
AGCGAACCATCCGGGAGCCCGCACCGCCACCCAGAGTAGAAAAAAAAAAA autosomal
CTTTTCCAGGCTGGCAGATGGGCAAAGTTCCCAAGGTATTTTTGGAACAC autosomal
ACCGGACACGCCCACGAACCACGCCCTCCAATGGGCCACGCCCATCCGCC autosomal
GGGGCTCTGCAGCCGCTCTGGGATTTATGATCCCCCAAAGGAAAGGGAGA autosomal
CCCCTCGTGCTGTCAGTGTGGCCCTGAGCGGCCGCACCGGAGCGGCGGCA autosomal
CTTAAACTGCAGTAGATCCTGAACTCTACCTGCACTGTAAGCACTTTTGC autosomal
CTTCAGTTCTTGTCTGCCTCCCATCCAGTTACCCAAAGCTCCATTAGCCC autosomal
AGGCCATGGTGAGGGCTATGGTGAAACAAACTCTGCCTTATAATGCGTGA autosomal
CGGAGGAAGAGCGGAAGATCATCCTGGCCGTCATGGACCGCCAGAAGAAG autosomal
AAGTGCACGTCCTGCAGCCGCTGGCCCAGCGTGGCTTTGGAGCGCTGCTG autosomal
CCGCAGGCGGCTCTCGCTGCTCCGGAGGCGGCGACGGCGGCGGCAGCAAC autosomal
CGGAGCGTAGCGCTGCTGCTGCCATGTTGTGCGGGGGTGCCTCGGCGGCC autosomal
CGAGGAGCCCACCAGCTGCTCACAGTCTGTGCCCCCAGGCAGGTGTTGGC autosomal
ATGGGATCGGTCCCGCCATTCCCGCCATTCCCGTGGGATCAGTTCTGCCA autosomal
AGCCACTCTTTCTTGAGAAAGCATTATACAATAAAACTGCCTAAAACCCC autosomal
AGGGCGGGCGGGCGGCGGGGCTCTGTGGGGCTCTGGGGGCAGCGGGCGAG autosomal
CGGGAACCGCCCTGAGGGGAACCGCCTTGAGGGGCTGGAAGGAGGCGGGA autosomal
TCATCCAGGGCCTGATCTGAGTCTGGAGAATGGGGGCTTCCTGACAATGA autosomal
CTTGATTGTCAGATGTTAATTTGCACCCTAAATGTCTTTGGGTTGAGATC autosomal
ACAGCAATTAACGAGAAAGTCATTAGCGGTGTGTGGCGGAAACGCGAGGC autosomal
AGGAAAAGCGCCCATAAACAGCGGCAGCACCATTTTGTAAACACGCGGAG autosomal
ACACACAAAATGACTTGCTGATTAATATAAAACTGTGTGCAAGTGGCTTA autosomal
CCCCAAAAGTCACCCAAAATCCCCTCCCGAAAACCCCAAATGTCCAGAGC autosomal
CATCTTCAAAACAGCCACAGGTTGCATATGGGCCAATTATCTTTAGCACA autosomal
CCAGCCCGGCGCGGCCGTGACACACACGTTAAACGGTAAAACCCCGCAGC autosomal
AGGAGCAGCGAGTCAAGATGAGAGTTCGGCGGCGGCGGTGGCGGCGGCGG autosomal
AGTATGGTGGACCACCAGTCTCTAGCTTTAAACAAGGACATTCTTCCTTA autosomal
GAGGAAGAGGTAAAATCAATACTCCTGATCTTGAGTTCATGGTTTGCAAA autosomal
CTCCCCCGAGCCCCCCTGGCACACACGCGCTCACAGGGACATGTCAGTGA autosomal
ACTGGGTTTGCTGCACACACTGGCTGACATGCAGAATGGGAGTCTATAAA autosomal
CTGTGGTGAGACTTGGGGATGTCAGCTACCATGAAGTGCAGCAGGAGAGA autosomal
AGCTCCCATCCGTCCCGGCACAGCTCCGCTCCCGGACTACAGCTCCAACA autosomal
CTGCTCTCGGCCGGCAGGTTCCGCAGCAGGATCTTGCGGCGGTTGCCCAG autosomal
GCCTCATGGCCGCGGCTGCACAGGCCCCGCCGCTCCCGGCCCCCCTCCCC autosomal
TCTTATCTGGAATTTACCCATTTTTGTTGCAGCCCTGAAGGAGTTCTGCA autosomal
CAGCGCTCCGTGCCCGCCGCCCGCCTGAGCCTCCCGGGGCCGGCCCGGCC autosomal
GCGACGCGGAGGAGGTGCGGCGGCTCGTGGAGCTGGGCGTCGGCCTCAAC autosomal
GCGCTCCCCCAGCTCGCTGATGCAGCTGTAGGCAGAAGCCGACTGCAGGA autosomal
AGCGCACGGTGGTGTCGGGCTTCTCGGGCAGCGAGAGCACGGCGCGCACG autosomal
ACGAGGCCCGGCAAGAACTTGGCAAGGAATTGGCAAGGACTTGGCGAAGA autosomal
CTCTTCTTCAGGCACAGCAGGACTGAGCTCTCAGAGACTTCCCTAAAACA autosomal
CTTTGCCTTTTACCTCATCTTTTCAGCACAAAATAGGGAAAATGAAGTCA autosomal
CCCGCTCCCCTCCGTGCAGCACGGCAGGCTGGGAACAGGGATGTTGGCCC autosomal
AAAGCAGAGAGGCAAACCTTCAGTCCAGCACTGTGGCCGGCAGGAGCTCC autosomal
ACAGGGATGTCAGTTTTGGAATGTGACTGTACAAACCGACTGTCTGCTGA autosomal
AGCCGCGGCGGAGCGGCGCGGCCAGGCGCGGCAGCGGGAGCAGCGCGGGC autosomal
GCCGAGAGAATTATGTGAATATTTTCCCTTTTGCCAGGTTATGAATTTTA autosomal
ACTGGAAACAAGTCCGGTGAGAGCCCAGCTGTGGCAAGATGGGATCTGCC autosomal
ACAACAAGAACGCGTCCGTGAGACGCCGGGTGGCCATGGCCCCCCGCCCC autosomal
CATCCTGCCCGTCGGGCCCGCGCTGCTGCGGCCGGGACTCGAGACAACAA autosomal
AAGGAGCAGCAGGAGCCACCACGGGGGGCTCGGAGCCCCCAACAGCTCCA autosomal
AAGGGAAGGTAAGCGCAGCCAGGAGCATCTACAGTAGCACCTTCCTCCTG autosomal
GGCGGGGAGAGGATGGAAGTAGGAAAAGAAAAAGAAAAAAAAAAAAAAAA autosomal
CAAGGAGCTGGGCGGCCCCATGGACAAGGCAGCGGGGCCGCCGTGCGAGC autosomal
CCAGTTTCTTGGCGTTGCCCGTCACGAACACGACGCTCCGCCGCGCCGGC autosomal
AGCGAGCGGGGCCGGGCCGGGCCGGGCCGGGCGGGCGCTGCCGGCGGGGC autosomal
CCACTGTCCAAATGTCCCCATCCTTTTAGTGGGCACGAAGAGAGACTTGA autosomal
CCAGATGGGGGCTGAGCCCTAAGGCCCTGCAGAGTGGTACCTAGCTCATC autosomal
GGATGTCCCCTCGGAGCGTCCCCAGAGGCTCCCACCTCCTCCCGCTGCCC autosomal
CATATCCAGCAGGGCAGCACTGGTCTTGGTTTTGAAGATGGGAGAGTACG autosomal
CACACACGCACGCGTGTCCCCTCCGTGTTAACCTCTGTGGTGGCAGTCCA autosomal
AGGAATCTGCCTTTCACTGCTGTCCGGATAACAGAAGGAGAAATGAAATC autosomal
GAGGCGGTCTGGGAGATGTCCAGGGTCCTGAAACGGCAGAGCTGAGGTCA autosomal
CCCTCTTTTTTTTTTCTCCTTTAAAAAAAATTTATTATTCCGAAAGTGCG autosomal
CTGCCAGGAGAGCCAGGTGCTCCAGGTGCCCCGGGACATCCCTGCCAACA autosomal
CGCGCGTCTCCTTCATGGCGCGCGCGCACAGCCCGCGCCACCGCCCGCGC autosomal
ATTTGGATTGTTCCGGCGAGCAGAGTGTCGCGGCACCGCGGCGCGCCGGG autosomal
GATGGCGGCGCTGCGGGACGGGGACTTCGCGGCGCTGCAGATCCTGCTGA autosomal
ATCTGGCGAAATTTGCCACCCACCGGCCAGGATTTTACACTTCCTGGCGG autosomal
GCAGCGCGGGCCGCCAGTCCCCCTGCGCCCCCAGCACGGCCAGCCGCACC autosomal
CAGCTGCCGGGCAGCGCCCGCAGCCGCTCCGCGCTCAGCTCCGCCATGGC autosomal
CCAGCTCTTCCTCAACTTCATAAATGTCCTCCACATTCTGTTGCTTGAAG autosomal
GGCGGGGAGGGCTCGGGGAGGCCCCGCGGGGAAAGAGCCCCGCGGGGAAA autosomal
CAAAATCTTAGACTTGTCTAATAATTCTCTCTCAAGTGTGGCACCTGGTG autosomal
CCAGTACCCCAAAATCCCCTCCTTGCTCCCCAACGTCCCCTTTGCACCCC autosomal
GGGACTGCGGGGGTTGTGCGTGCTGTCCCCGCGCCCCGGGACAGCGCCGA autosomal
CGCCAGAGCGGGAGCGGCCCGAGCGGCTCTGGCTGAGGGCGAGAGGGAGC autosomal
GTGCCCGGCCTGGACGAGTTCGCGGGGCAGAGCTGGAGCGCCTGGCTGGA autosomal
CAGCGCGCTGTGGTGCCGCGACACCAGCGGCTCGGGCAGGGCCGCCTCCC autosomal
GAGCTCCCCAGCTCGGCACGGCTCCGCACCGAGCCCGCGGCGCGGGCGGC autosomal
CTTTACGGCAGCGTCGCCGTTACCACGGCAACGGGCGCCGCTCCGGGTCC autosomal
TCTTGAAAGGCTCTGGAATGAGACATATCTAATTATCAAAATATTTAAAA autosomal
CCGTGCGGCCGCTGTTCCGGGCGGGGCCCGTTCCGCGCTCCGCCACCCCG autosomal
CCAAGCTGGCTCCAGCCTCTGCAAGGTTCCTCTGCAGCCTGGAAGGAAAA autosomal
ATGAAGATATTTTTTTCTGTTTTCAGTTTTACAGGACTGTTCTGTAAAGG autosomal
AGCCCAGTTCCTGCGTCCCTCGAGGTCACACACTGGAGGTCACAGCCTCC autosomal
GCCCTGGAGCCGGGGCACATCCAGCCCCCGGAGCCGGGGCACATCCATCC autosomal
CTACGAAGCTTGCAGTTTTCATGTGAGCCGGCGATGTTCCCCGAGACCCC autosomal
GCAGAGCAACTATTTCAGATTTCCAAACGTGCATTTCAGATTTCTACAGC autosomal
AAATTCGCTGCTTATAAAACAAATTTTGGCCTTGTTACTTCAGAAACTCT autosomal
GCATCGCCCCGGAACCGCCCCGCCTCGGTTCGGCAACGCCCTGGGACCGC autosomal
AGGAGGCGCGGCGGGCCTCTGGCTCTGCGGCGGCCCCTGAGCGAGGGCCC autosomal
GCGTCCGGACTCGGGGCTGTCCCGCAACTTTTCAAGTTTTTCTTTCGGAA autosomal
CGGCTGTGGGGGCGGGCTGGGGCGCGGGGTCTGCGCGGCCCCTGGCTCGC autosomal
GCGGGGAACGGGAACGCTGCGTGCCGCCACCGCTTCGCCCCGGGCACCGC autosomal
CCGCCGGAAACCCGCTGGTGCTGCTGCCGCCGCCGCTCCGTGTCCCCGAG autosomal
AGAGCCTAAAATACTTGATGTCTGAGAAAACCGTAGCAGGCATGCTAAGC autosomal
CCTGGGCTTGTAACAGAAAGTGGTCGCTGCTCTTGTTCTGTTGTGAGCAG autosomal
CCACGAGGCCCCGGAGGGCGCCTGGCCGTGGGTGGTGAGCCTGCAGGTGC autosomal
CCAATGCAGAGCTGGAAAGGAGGAAGCTCACAGCCTCTCCTGCTGCCTCC autosomal
AGGCGGCGGCGGAGCTGCCGGAGGCGGCGGCGGCGCAGCGGGGCCTGCGC autosomal
AACAAGCTGCAAGACGCCTTCAGCTCCATCGGGCAGAGCTGCCACCTCGA autosomal
ACATATCCTACTGGTGCCCAGCGTCCAACCCAGGGAAAAGGTACTGTGAC autosomal
ACCGGCGGCTCCATGGCGGCGGCGGCACCGCCGGCTCTCGCGAGACTCGG autosomal
AATATTTCCATAACCTACAAAATTCCTCTAATACACTTATCTGGAAGAAC autosomal
CCCCCGTAAAGCGGCGGCGGTGGCGGCGGAGCCCGATCCTGTCCGTGCGG autosomal
ATGGCCGGAGAGCGGGAAAGGCCTCAGCGATGGAGCGGGGAGTGTTGGTA autosomal
CGGGCCGGGCCGTGCCGGCGCTGCCGCCGCCTCCCGGGGCGGACAGCCAA autosomal
AACAATCATATTGCACATTCACTTTCCCCCTCACTAAATTAACTGGGTAA autosomal
CGGCGCAGGATCCCGGCGGAGCGGGATGAGCGGCGGGCGGCGCCGGGACG autosomal
AGAACTTAGAGGCAAAAGGCATTAATTAATGTGTCTATAAATTTCCCAGG autosomal
CAGCTCCCTCGGGCCCCTTATCCAGCCCAGCGGAGCGGCGGGCTGCTCCC autosomal
AATCATTAAGGGTAAAAGAAACCACTTGCAGTCTGCTCGAAGATGGAGAA autosomal
CATGGAACCAGCTCCAGCTGTGCCCCCAGCCCTTCCCACAGCTTCCCCAG autosomal
CATCTCGAGTACTCGAGGTTTCCACTCCAAGGCAGGAATTGTTTTGCCAC autosomal
ACTCAGTTGAAGATGACGGTGGGTGATCACTCTGATGATTCCTCCACGAA autosomal
CAGGAGTTAAGATGGCGGCGGGGAGGGGGCGACAAAGCCGAGCGCGGTGG autosomal
GCAGGAGCGGGAAGCGCGGAGGGCACCGAGGAGGAGCGGCGGACGGCGGA autosomal
CGCCCGCCAGAGCCGCGCCGCCCGCCCGGCCCTCCTCAGTCCTGAGCCGC autosomal
TGCTCTGCCCTCCAGGGCACCTGCAGAAGAGAAGCCTCAGGAAGGCCACA autosomal
AGCAGACTAGTACTTAGCTGCATGGCTGAAGTGTGTAGTGTTGGTTCCCT autosomal
GGAAGCTCTTCAGAAGAAACTACACCAAGATTTTTGGATAAAGATGCCCC autosomal
CAGATGTCGCTCCGCGCCGCGCTTCGGGCCGCTGCCTCGCTGGCGCGCTG autosomal
CGTGCCCGTGCCCGGCTCCGTCCCGCAGCGCCCGGGCTGCTCCGCGCCGC autosomal
CTGGTCCCGGTACTGGCTGAGCTCGGCATAGGAGTCGCTGCGCAGGATGC autosomal
AGCCTTGGAGCGCTGCGGGTTTTTTTCGGCTACACGTATGTGAAAGGAGA autosomal
GAAAAAGCCTGACTATTGCCCTGGGAATGAAACCAAAAACTTGCTTTGCC autosomal
ACCTCTGCCCTGTACTGCTCCTGCAGCTGCCGCACCTCCTCCTGCAGCGC autosomal
CTCCCGCGCCGCCCCCGCCCGCGCACGGCGGCAGCCGGACCGCTCCTCAC autosomal
CCTCTCAACGAGTCGCTGGCAGGAGATGCTCTGCCGCTCCGGGAACGGCA autosomal
ACTTTGTACCTGCAACTGCTCACAGAATAGAGGGAGCCCCTTTCTCTCAT autosomal
AGAAGGTGCTGCTGCAAGGAACCTGGAGCTGTGCGCTGGGATCTGACTGA autosomal
CTTATACTTCAGCAGATGTATAGCCAATTGGGAATACCTGCACTGGGCAA autosomal
CCTACAAAATGCTCAGTTTGGCATCCGGAAAGATGGTACCATGGTGTTCG autosomal
AAGGGCTGCTCTCCCTCTTTGGCTACCTGGCCATCTACCTGGCGAGCGTG autosomal
GCCCGGCCGATGTTCCTCAGGGATTACGAGCGGAAGGTGGTGCTGGAGAA autosomal
GCGGCCGCGCCGCTCCCGCTGCCCATCCCGGCGCTCCCGGGGATATTCCC autosomal
CAGGCGGCGGCGCGGCCGCGGCTCTTCCCGGCGCTGCGGGACCGGCGGGG autosomal
GGAGTGACTGGGAATGGAACTGGGATTGATTTGAATGGAACTGGGATTAA autosomal
CAGACAGTGAAGACTTGGGCAGTCAAGTGAGGGGAGTGTGACCATCCTGG autosomal
TGGAAATCAAATGTGAGGAGGTGAATTCTGATGACCACAGCTTGACCCCA autosomal
CCGCTGCGCCCCTCACCTCCTTCTCGGACGCCTTCTCGCCGATCCCCAGC autosomal
CAGCACAATCTCCTTGAATTTAGGGTAAAACAGACCCAAACTGCAGCACA autosomal
GCGCCGCCTCAGCGCCCCGCCATGCCGGCCCCCGGCCCGCGGCCCCGGCC autosomal
ATCGCGGCGTGCCGGCAGGATGGGTCAGTGCCGAGAGACAGGGGCAGCAC autosomal
GCGCACGGTGAAGGTCTTGGGCTGCTTGCGCTTGAGGGAGCTGAAGCTCA autosomal
GCAGTTTTCAGCTCCAGCTGCAGATTAACACTCCACACCATCGGGTAATA autosomal
ACGACACCGAGGGGCTGTCGACGCGCCTCAGCGGCACCCTGAGCTTCACC autosomal
CAAAGCCACCTGAGAGCACCCAACCTCCTGAGCAAAGGCCTGAAATCCCA autosomal
CCATGGAGAAATCCATGGATGCTCCAGCTATTTCCAGCATATCCTCATCG autosomal
CCCCGGGCCGGAGAGCCCCGGGCCGGAGAGCCCCGGGCCGGAGAGCCCCG autosomal
ATGACTTATAGTAACTTCTTTGTTGGTGCTTCCTTTCCTGCTTGCAGCTA autosomal
AACCAATTTGGAAAATGTTAAATTTAGTTAAGTAACATTTATATTAAAAT autosomal
CCACCGGGGCCGCTTCTACCGCTCGGCCCTGCGCAGGGCGCCGGCGGCAC autosomal
TAAGAAGTTAATAAAATCTGGAGCCTGCTGTTTCACCTCCAACATTCAGA autosomal
CATGGCAGCTCCGAGGCGCAGCGAGGGGGAGAGCGGTGGGGGCTGCCCGG autosomal
AGAGGGGGTCCGACCTGGAGCTCAGGTCCCCGTGGAGGCGGCTCCGGCAG autosomal
GCCTCCGCCGGCGCCCCGCTCCCTACTCGCCGGAGCCCCGCCGCAGCCCC autosomal
AATGCAAAGAATTCCTTGGCCTCTCTTAAGAGAGAAAACCCTCGGCTTGA autosomal
ACTTTTACAGGTTCCTGGCATCCACATCATGTGGGATGTGCACATATGTG autosomal
CCACCCTCAGGAGCTTCAGGCCCTTCAGGCTCGCATCTTGAGGGCTGAAC autosomal
CGCGGCCCCGCCGCCGCTGGAGTCACCGCCGACCCGAGGAGGAGGACGAG autosomal
ATTTCACTGAAGGTATCATCACCAACAGGTTCTAATTTGGTTTTGTTTTC autosomal
TGTTATTTTTCTGCTCTTCCTATGTACTTGTCTTGCTTTCCTCAATAAAA autosomal
CCGGCAGCTCCTTCCCCTCGGGGGTGACGTTCTCCAGCACCACTGAGTCC autosomal
GCCTCCGGGAGATGCTCCTCGTGCTCGCTCTGTGGCTGGCGTGGCAAGAA autosomal
ATCAGCTGAAGCATCTCTCACAATATTTCCGAAGCTGGTTTTATTTTATG autosomal
AAGCGCCCACCGCCGCCTGCCGTCTCCTCGTCCCCGCGGCGCGGATGGAA autosomal
ATCGAGGTAGGAACTCCACGGTCGGGTTGGGCATCACCATTCCCACAAAT autosomal
CCCGCAGCGCAGCCCGCCTCGCTCCCGGCGCCGCGCGGGGCCAGGCCGCG autosomal
CTGACAACAAGATGGCGGCGGCGGCGGGTCCGGCGGGCGCGGAGAGTCGC autosomal
ACAGAGAGGTCCCACTTGGTTGGATGGAGTTGTTTGAGGGCCTCCTCCAC autosomal
ACCGGGACCGGGCGGTGCCATGGGCCCGGCCCGCCGCAGGGACGCGCTCC autosomal
CGCGCGCCGGCAGGGAGCGCGGGGCGGCGGCGCCGAGCAGCAGGCGGGAC autosomal
AGACCCCCGGGCCCTCCCCCAGACCCCGGGGACACCCCCAGGGTTTTGGG autosomal
CACCGCCCGGGCCGGGCCGGTGCCTCCGGCCCGCGGGCCAAGGGCGGGCG autosomal
GAGCGGGGCTGTGCAGGCAGGAATGAGTGCAAGGTGCTGGGAAGGGCTGC autosomal
GCGCGGCGGTGCCGCCCGCGCCCCGCACCGCCAAGTTGGGAGCGGATGGA autosomal
AGGGGCTGGAGCCTCCCAGGCAAGGAGAGGCCACATGGGCCACCCTGCCA autosomal
GAATCGCGGAGGAAAACCGGGAAAAGGGAACCGGGAAAAGGGAACCGGGA autosomal
AAACAGCATTTGCAGCTGGATCTGAGCTGTGATGGACAGCTGATAGGTAT autosomal
ACCTTTTATCTCCTTTTTATTTCCAATTTCTTTCCTTTTTACGCTTTTAT autosomal
AGTAACTCCCAGTTCTCCCAGTAACTCCCAGTCCCCCCCAGTCCCCCCCA autosomal
CCAGCCGGACACTGAGAAACGGGAACCGACACCGGCAACCGGCACCGGGA autosomal
CCAAGAGCCTCCAGCCCGCGCAGGTGCTGCCGCTGGCCCTCAGCTTCTGC autosomal
ACCTCCTCCAAAACATATTCAGCTGCCACATAAAACCAAAGCACCAACAT autosomal
ATTGTGGCTAGCAGCAAACATGTCTCTCTCCAACAAACTCACCCTGGACA autosomal
CCAACCTTCCCATCTCCCATCCCAAGCCAGGCAGCTCTCAGCACTCTCCC autosomal
ACCAGGACGAGGAGAGCATCATTTCCCTCCTGCTCTCTGACACAGAGCCC autosomal
AAAAAAAGGAAGAAAACACCTTGATTTCACCAAGGATATCAGGACAAAAT autosomal
CGAGCGGTGTGGGCTCCCGCTCCTCGTCGCTGGAAAAGTCGGGCTGCGCG autosomal
CAGTTGACGTGCAGGGTGGTGGAAGCCTGGTTGAGGCAGTTGATGGCACG autosomal
ACTGCCCGCAAGGAGGGTTTAGCAAGATGGGGTCGGCCTCTTCTCCCAGG autosomal
CTCATTCGACCTCGGCGAAGATGGCGGCGGCGGTACGAGCCATCGGCAGC autosomal
AAAAAGAGGAAAACCGGGAGAGCGGCGGCACCTCGGGGCAGGCTCGGCTC autosomal
ATGGTAAAGCTACTTATTGGTACTCCTGGAGCAATGATTCAGATGTCTCC autosomal
CACCAACCTTGAAATGTAATGTTAAGAATTGTACATCATAGTGCAGTTCA autosomal
ATGGGTGTGCGGCCAGCGGGGCCCGCCGGGGCCGGGCCGCTCGGGCTCGG autosomal
CAGCTCAGAAAGACTCCACCAGAATTATAATTGTTTCCATAAATCAACAG autosomal
GCGATATCCGCCCCCCGGAGGCTCTGCAGAAGGAGGATGAGGAAGATGCC autosomal
CAGCTGGTGAGCAGCGCCAGCGGCCGCGCCGCCGCCGCCATGGCGCCCGC autosomal
CCGCGCGCGCAGGCGCTGTGGTCTCCTGCCGCCCGGAGCCGCGCTGCAGC autosomal
CTTTTCACTTGTGGTTTTGAACAGACCTTTTGCTTTGTATAAGCTGCTCA autosomal
ACGTCATCGGGAGGCGCCGCGCGACGATGCTGGAGGCGCTGGGCCGCGGG autosomal
GCAACGAGGTGCTGCGCTTCACCAGGGAGATGATGTTCCCCATCATACAC autosomal
CCGGGCACTGCAGCAGCTTGTGGAACTGCTCGGCCGAGCCCGCGGCCGCC autosomal
GAACGAGGAGCGGAGTCGAGCCGGCCAAGCCTCGAGCGGAGCGGCGGGGA autosomal
GAGCACATTCATATGTAAACAACGGGCTGCTTGCATAGCAAGATAAATTA autosomal
GGAGCGCGGCCCTGGCGGCGGCCGGGCTGAGCCGGGCGGCGCCGCGGGCA autosomal
CAGCCCGGCCCGTAACACCCTGAGCATGGCCCCGGCTGCGGCCCCGCTCC autosomal
ATTACTAAGCGATGCAGGAATGTGGTTTGTTTAATATGAGCCATCAACAC autosomal
ACGTTGGTACGATAGGCTTTGGGGTGAACTTGCTGTTTGGTGGAGCTTAT autosomal
GAGTGTGTCAGGCTATTCTGACTGCTCCCATCCCTGCACTCTTCAGTGCC autosomal
AAAGGTAAGGATGAGATGGGATGGGAGATCAGGGAATGGAGCGATGGGAT autosomal
CCCCATCTGGATCCTGCTCCTCCTGATGCAGAAAGGGACTTCTGCCCTTA autosomal
AGGGCGAGGCGCCGGCAGCGGGGAGAGAAGCAGGAGCGGGAGGAGAAGAG autosomal
CCGCCCGCCCGCTGGCGGCTCTCGGCTCCGGCGCTGCGGCTGCGGCAGAG autosomal
CACCCATGCAAACAAATGTGGTGTTTAAACAGCCTTTTGCATCTAATGAA autosomal
ATCCCGCCCAGCGCGCCCGCCTGCATGGAGCGGCACCTGGAGCGCGCGCA autosomal
GCAGCAGCTCCACTGCCGCGCCGGGCTCCGCTGCGCCGCCCGTAACGTTA autosomal
CGCCAAGATGGCGGCGCTGCGGGACGGGGACTTCGCGGCGCTGCAGATCC autosomal
CAGAGCTTTCTCCATTCGAGGTATCACAAGATGAGAAATGAGGTAAATGA autosomal
CCCGCTCGGACACGGCGCAGGAGAAGCCCCGGCACTGCCCGGGCTCGTCC autosomal
AGCGAGGCACAGCCAGAGCGGACTGGGGATGTCCACCACGGCCCCGAGAG autosomal
ATGTCCCTGTCCCTGTCCCTGTCCCTGTCTCCTCTCCCCACATCCCGATG autosomal
CGCAGCCTGCCCTCGTACTCCCTGCTCCGCGACCGCCGCCGCTTCCAGCG autosomal
AATTGTCCAGGCAGTGTTTTCTGCTTCCCTGCCATTTTGCTTTACATTCC autosomal
AAGGCGGGCGGGCGAGGGACACAGCCCCGCGCTCCTCTGCCGTCCGTCGG autosomal
CGGGCACGGGGCGGTGAAATGGAGGGGAGGAGGAGCCCAGCGCCCGGAAA autosomal
CGTCCTTCCAGAAACCTCCGGAACAGCAGCTTCCCGATGGGCTGCTCCAC autosomal
ACAGGACAGCAGACTCACCCTTCCTTCCTTCCTTCCTTCTCCAATGTCAA autosomal
CCATCCCGCCCTCCCTCCCTCTCGTTGCTCGTTCCCCAGAGGTGTGAGGG autosomal
CAGGCCCCGAACAGATGCTGAGGTGCTGCCCCAGTTCTCCAGCGCAAACC autosomal
CACTATTCCAGGTTGCTCCAAGCCCTGTCCAGCCTGGCCTTGGACATTCC autosomal
CCTGAGGCTGGGATTTGACACTGTGTATCCTCATCCCTCCTTAGCTTCTC autosomal
CTCCAGCTCCGGTCCCTCCCCACGCCCCGCTCCGTGCCTCAGTTTCCCCC autosomal
GAGCTCATCGGGAACCTGCGGGGAGTGTTCGCGGAGCTGGTGACCCGGGA autosomal
CTCGGCGAAGGCCTGGAAATTCAGTTTCCTGATCTTCTTCTCGCTCAGCC autosomal
ACGCCCCGGCCCACGCGGCCCTCGCCCGCCACGCGCGACCTCCTGCCGCC autosomal
CTCCGCGCTTCCCGCTCCTGCTTCGGCCATGGCGGGCGGCCCCGTGCCCC autosomal
ACCATGTAGAGGAGGAGGACGAAGGCCACGATGAAGGCGGCGGCCAGGAG autosomal
CCCTTTGCTGCTGCCAAAGGTAAAGCTACATTAATTAATGCAAGAAAGAG autosomal
GCGTTCAATCTGTGTCCTCGGGGAACACCCCAAAGGGACGGCGCAGGGCA autosomal
CTTTTTAAACCCCCGTGTTCTTCCACTGGGGGGTGCGAGCCACAGAGGAA autosomal
AGCACTCCTGCCCTGGAAATTGTGCTGTTTTAAAGGTTCATGGAACTCTC autosomal
CGCCCCAGTCCCGCAGTTCGGGAGGCCCCAGCTGCCCCTGGGAGCCGTCC autosomal
GCCATCCCGGTGTCCCCGGCCATGCCGAGTGGCTGTCCCCACCTGTCCCC autosomal
ACCGGGAGATCGAGAAGATGTGCAACTTTCACTACCAAGGCTTCGTGGAC autosomal
CAGCGCCCTGCCCCGCTGGAGCCCCCGCCATGGGGCCCGCCGAGGAGCTG autosomal
GCGCCTCTACACCGCCCCGTCCGGCCCCCGCGACCCGCTGGCCCCCGCCC autosomal
CGGAGGGAGGGGCGGGAGGGGCGGGGAGGGGGATGGAGGGAGGAGGAGGA autosomal
AGCGGTGCTCGGTTCTTCACGCCCAGTCCCGGAGTAACCGGCGTTCTGGC autosomal
AAATGAAGAATGCTTGCTCAGGCTCTGAGGATGTGTTTGGCTCTGGGCAA autosomal
GAAACCACAGAAGTCAGACTCATCTGAAGAATCTCTCCACAAGTTGCACA autosomal
TTTCTTTTTTTTTTTTTTTTTTTTTTTTTGGCTGGCCTGATACCCTCAAA autosomal
CGCTCGGAGCACACGTCGTCGGCGCGGAACTTGAGGCGTTTGCGGGCGGC autosomal
AGCCGCAGCAGCAGCAGCAGCGGGAGCGGCGGGGCCGCCGCCGCCTCCAT autosomal
CTGCCCAAGAAGGAGACCGGCGCCGCCGCCTTCCTCGCCCGCTTCCCCGA autosomal
ACGGGCTGTGCCCAGCCCAGCAGGCAGGAGATAAGGCCTGGGGAGGTGCC autosomal
ATCTGCCTTATTCCTGATAACCAGCGAGTTTGCTGACTTGGGGATGGCAG autosomal
CCATGTCCAGCTCTGTCTGTCATTCTAAGTAGCAGGGTAAGCGGTGCAGG autosomal
AGCTCTGTGCTGCAATACTTCAGGCCCTGGCTCAGAAGGACCAAAACAAA autosomal
CCGCCGCGCTCCCCGGCCCTCCGGCCCCGCACCGGCTCTCCATGTACGAC autosomal
CAGCTGGGTTATACAAGTTGACATTCTGCGCACTTCCATTGTGCGATGCC autosomal
CAGGGACCCTCCGCGACCCCTGCGCGGAATTTGGGGCTGGGGGGCACGGG autosomal
CCTGGCCGGCTTCCTCTTCGGCAACATCAATGAGGCGGGGCAGCTGGAAG autosomal
CCAGTGTCCTGCAGCTGTCTGCCACTGACCGTGACTCAGGCCTCAATGGC autosomal
AGGGCAAACACCTTGTGATTCAATAAATCACAAGGACAGTGACTTCCTGG autosomal
CCAGCCTTTTATACCCTCATGCTGATGCACTGCCCCTGTGTGCCCTCTGC autosomal
ATTATACTGTTTGAAATTATGTATGCTTATACTGGTATGAAGGTGTTTTG autosomal
ACCCTGCGGACCCACCCCGCTGGCCAACAGCTGCAACGAGCCCTGTGCCC autosomal
ACTCTATTATGAAGGATTTGGCAGCGTTGGGCAAGTGTGGGGGGCTGCTG autosomal
CACCAGAGTATCCGTGAGTCTATGTTAATGCCCCATGGGCCTCAAACACA autosomal
GCAAGCCGGAGGGGCAGGCAGGAGAGGAGGAGAAGAAAGGGGGCATAAGA autosomal
CTTGGCCTTCTCCCACCGGCAGGCAGCGCTTTCCCGGGGCAGCAGGACGC autosomal
ATGCCAAAATGAGGAGGAAAAAAGAAAAAAAAAACAAAAAAACCCGCCAA autosomal
AGGCCATTTTCAGAATTGAAGAAAGGCTGAAAGCTAGAAACTTTTCCTAG autosomal
AGTGAGCCCATTCCAGGAGCCAGCATGGGAGAGGGGCTCTCAGGCACCAA autosomal
AAGTTCTTTGCTAGGCTGTACTACAGCACCTGGACATCAGTAAAAGTGAC autosomal
CATTCCCGCTCCATTCCTTCTCCATTCCCTCTCCATTCCCGGACCATGGA autosomal
GGTTGCACGTCTTTCTGCCCCTGCAATGTGAGCAGAGAAGAGCTGCCCAC autosomal
ATCAGCCTCCTCCTCGGGCTCCTCTTTCTTAGCCTTGCCCTGGTCCTTGG autosomal
ATCAGGGAGCGCGTCCCTAAAGCTGCGGGGCTGGTGGTGCCGGTGCGGCG autosomal
GAGGGCTCCGGCTGCGGAGCATCCCCGAGCGCGGCGGCGGCGGCAGCGGC autosomal
CCTCTCTCCTTCCCTCGGTTCCGCCGTCCGTCCGTTCCTTTCCCCCGCCG autosomal
AACCCCTCCATCCTCCCGGGCACTTCGGGGAGGGTTGGGGTGAAGGCATT autosomal
AGGGGCTGCTCCTCCCGCGGGGGTCGCGGGCGCTCGGCACCCACCCCAAG autosomal
CTGCTTTCCCTCCGCACATCACGGAGCCCGGCATGGCCCCGCCGGGGCCC autosomal
AGCCACACTATTACAAATATTAAGAAATTAGGAGGACAAGATGAAAAAAA autosomal
AGAGAGAGGAGGGCTGGGAAGTGATGTGCCAGGACTTGGCTGCTGGCCTG autosomal
CCTGCGCCCTGGCCCCGGACCCCGCCGCAGCCTCTGGGCCGCCGGCGGCC autosomal
GGCACCAACTCGCTGCCGCTTTCTCCGGTGGCCGGGACCAGCTAGGTGCC autosomal
CCAAAGCAGTGCAGCTCCCCCAGGACATGCCCAGCGTCCCGGGCAGGGGG autosomal
GAGCGCGGCTCCCGCGGCGGGGGCGGCCGGGCGGGGGACGCTGCCCACGC autosomal
GCGGCGAGGGCCGGGATCGCCGCCGCGGGCCGGGATCGCCGGCGCGGGCC autosomal
CCTCCTCCTCCTCCTCCTTCCTTCTCCTCCTCTTCCTCAGTGCTCTAGGC autosomal
ATCTGATTTCCCCTCTGAATACTGCTTTTAAATCCAAGTGCTCTGATCTC autosomal
ACGCACTTTAAGATATGGTGGGTTACGCATGATGATGGTGTGAATGTACT autosomal
GGCGGAGCGGGAGCTTCCGGGAGCGGCGGGGCTGAGGAGGAGGAGGAGGA autosomal
ATACATCTATCTGTGTTCTCTGATGATTTCAGAGCTCATGCACAAGAGGC autosomal
CGGGGGGGTGGAGGCCGAGGGGCGCGGGCAGCCCCCCGCCCTGCGGGCAG autosomal
CATCTGGTCTGGGGCATCCTGAGGAGAGGAGATGCCCAAAGCAGCTTTTC autosomal
CCGCCGCCGCCGTTGCTGTGCTGGGCGGCGGCCGCCGAGGTGGTGGCGAA autosomal
TCAGCAATATGTTTTTGCAAGAACTCTTGAGTTTCCTCATTGTGAATAAA autosomal
CGCGCCGCCGCCCTCGGGTTGCTGCCCTCCGCCCGTCCCGACGGCCCCGC autosomal
CCGCGGTGGAGAGCGCCGTGCAGGGCCTGGAGCGGGAACAGATCCGCGCC autosomal
ACCACGGTCCCTGGGGACATGGGTCCTGCTCTCCTCCTGCTGCTCACCAC autosomal
GGGACTGAGGCCTCCGGCAGGGCCTGCGCCAACTGCGGTGTTCTCCAGCA autosomal
CATCCCCATCCTCATCATCATCATCATCATCATCATCCTCCTCCGCCGAC autosomal
GCGGCCGCTCCGTCCCTCGCCCGCTCCAGCCCGGTCGCGGTGCGTCCCGA autosomal
AAGCGGCTCACGTCGTAGGGTTCGCGGCACACGCAGTACACGGGGGTCGC autosomal
CTTCGAGCCGGCCGGGAGCGGCCAGGAGAAGCTGGACTTCAACAGGAACC autosomal
ACCCGGAGAGAATTCCCGGCTCCCGGTAACTCTGGGAACGGGAACCGTGG autosomal
CCGGCGGCGGCGGCGGCCCTGCAGCGGCCATGGAGCCCAAGCACAAGGAG autosomal
ACAACAAACATGGCGGCGGCCGCTGGCCCGTGGCCGTAGGGCCGGGCCGG autosomal
CATGTGTCCATCCCCGAGATGCCCCAACCCAGGGTGTCCCTGTGGTGTCC autosomal
AATCTTGGCTACCGAAAAACACTGGACTTAAATCTAAACAGTGGAACAAG autosomal
AGCAGCAGCAGCAGCAGCCCCGGCACGGCCCCAGCGCCGCGCGCCGCCAT autosomal
CCCTGCGCAGCCACCCGAGGCAGATCGCCGGAGTTTGCTCGGCTGTGAGG autosomal
CCATGGACATGGAGAGCATGGGCCCCCTGCGCCCGCAGACCTTCCTCTTC autosomal
GAATTCTTTTTGGAATATGAGGGCAACTTAAGTCACTACCTCTTCTGAGA autosomal
GCTGAGACCTGGAAGGCAGGAAAGGCAACTGTGAGGACTCACCCACCTGA autosomal
AAAGAACATCCCTGCTACATGCAGCGTTGAGGCCTATCTCTGCTCTTGAC autosomal
ACGGCCAGGCCAAGGAGCAGCAGCGGCAGCTCAGCGGAACAGCGGCCGCC autosomal
GCAGGGATGGGCACCGAGAGCCAGCGGGGAGCACGGCGGGGGACAGGGGA autosomal
AGAGCCCGGCCCTACAGAGAGCCCCGCCCCACAGAGAGCCCCGCCCCACA autosomal
CGGGAGCATGGAGCCGGGAGCGTCCCGCTAGGCACGGGGACCGCGCTGCC autosomal
CTGGCTGAGATGTTCCTGCAGCTCTGAGCAAGGTGCAAGGATTTGGCCAA autosomal
AGCCCCTCAGGAGCTCGTCCAGGGTGGGGGCTCGGTCCAGGTCCAGGGAG autosomal
TCCGAGCTGCGATCCCCGAGCTGCGGCTGCTGCCGGCCCCGGAGCTCCGA autosomal
GGCGGCAGAGCCAGGGGCAGCGGCGGCCACTTCCCGCGGGCAGCTCTGGA autosomal
AGGCCGGGGCTGTGTTTTCCTTGGAGCCGCCCCTGCCGCTGCCAGAGCCT autosomal
AGCTTGATTAAGTTAAAAAATTAACTAGTTATTTCAAGGACGGAAAGAAA autosomal
GCGGCGGGGCCGCCAGGGATATGCGGCAGCGGCTGTTCCCTGTGCTGAGC autosomal
CCGGGCGGCGGCGGAGGAGGCGGCGGGGAGCGGCTCGGCAGCGCAAGGAG autosomal
AGATCAGCGGCTGAAGCAGCTCCCCGCGCTCCTCTTGCTTTTGCAGATCT autosomal
TCTCCTTCAGCTGCAATTTAACTTGTCCTGGAGGGAAAAAAAAAAAAAAA autosomal
AACCACTTTTACAGCTTGTTTTGTGACACTGTGGAAGACTGACTATTCAT autosomal
ACTTTGTGGCTTTATTTTCCTGAGGAGCTCCTTCCCACGGAGCTGAGGCA autosomal
CGGGGCCCTCCTCCGCCCCCCCGGCCCCCCTTCGGCCGACCCCCCTTCGA autosomal
GCAAGCTGGGCAACCACCTAGATGGTGGAGATGGCAGACATCCTCCTGCC autosomal
AATTACCCACCTTTGTGTGAAGCCTGTGTGTAGAATATTCTTGATTAAGA autosomal
GCCACCCAGCGCTGTCCACCGGCGGCAAGAGACCTTCCCACAGGCACTCC autosomal
TCAGGGGGCCCCCAAAGTTCCCCTAAAAGGATCCCCCAGAAGATCCCACA autosomal
CGGCTGCGGAGAGTGCGGAGGCAGCCCAGGGGAAGCGCAGAGAGCGAGCA autosomal
AGGTGAGGACGCTGACCTACCGCAACTCCATGTTCCACAACCGACACCTC autosomal
ACCTGCGCCTTGATTTTTTTTTTATTTTTAAACAAACAAACAAACCCGCC autosomal
AGCGAAGTGAGAGCAGCTCGGCTTCCTTCCTGCTCTCTGAATGTGTGAAG autosomal
CCCACAGTCCTGAGTGATCCCAGAGCGTCCCAAACCATCCCAGACCATCC autosomal
CGTAGTTTCCACCAGAGGTCGAAAGACTTGTGATGGTGCAAGTACCTTCC autosomal
TGGGGGGCTGCTCCCCAAGAAGGAATCCTTGGGGCTCTTCCTGAGCCACA autosomal
ATCCTGGACGAGTACGAGGACTCCCTGCACCGCTCCGTGTCCGTGCCGCA autosomal
GACTTCTAAGGTGAGAGCGTGACAGGGAGGCTTCCTGCGCTGGTAAAAAA autosomal
CCTGACGAGCGCCGACAGCTCCATCGCGCCGCTCCGCCCGCCCGCATTCA autosomal
GAGCAGCCCTGGCAGGCTGTGGGTCAGGGAGGTGGCAGCAGCCCCAGCTC autosomal
GAGGCGCAGGGTGCGGGCCGGGCTGAGGCTCACGGAGCGGCGCAGGGGCC autosomal
GAACCTATATGCTACAGTGTGGCTTTTCAGTGTGGATTGGTGCAACGGGC autosomal
AGCCGAGCCATGGCCAACGTCAAGGTGGCCGTGCGGGTCCGGCCTCTGAG autosomal
CTGGCCCTTCCCGGCCCCGTTCCCGGCCCTTCCCGCCCTGCGCGGGCGGA autosomal
CAGCCCAAAGGCGGGACAGGAGGGACAGGAGGGACAGGAGGGCTCGGGCA autosomal
AGGAACCCAGGTAAAAATAATTTGCTTAGTTTGGGAAATGGGAAGGAGAG autosomal
CCTTCCTCCTCCCGCGCTGCCTGGGAGGGGGAAAACCCACAAATAACCCC autosomal
CAGCAGCTCCGGCACACCGGCACGGCGGGCACACCGGCACACCGGGCACA autosomal
CCGCCGCCGGTGCTGCGGATCGTGGCCGAGTGCGGCCGGAGCCGCGCCCG autosomal
GCCCGCCGGCCCGGGGCAGGCCCATGTCCGAGCGCGGCTGCCGAGGAGAC autosomal
AAGTCCCCGCGCAGGTGTTGGACGCACCAGGCCAGCAGCGCGCTGGGCGC autosomal
GGACATAGCCCATGGCCGGCTCCCCCAGCAGCCGCCGGGCCAGCACATAC autosomal
CAAAGTTCTGGAGAGGGCTGGAAGATGATACCATGAACAGCTGGCACAGA autosomal
CCCGAACGAGGTCATCATTAAGGTTCACGCTGCGAGCCTGAACCCCATCG autosomal
CAGCCCGGTGGGGCTGGGCGGTGAAGTCCCTCTCCCGCGGGCTCGGGCAC autosomal
AGACTGTTGTATAATGTTGTACAAGCTCTGTTAATTTACTTGTTCCTCCA autosomal
AAGCGCGCCCTGGAGCGGGAATCGGAGCCGGACAATAAAAAACTCAGGAT autosomal
AGCGGGTGGTGAACCGCAGGGCTGCGGGGCTGAGGATGGGAGCCGGGGCC autosomal
CACTTCACCCGGGGGGTGCCCAGCACCGCCCGGCGGCCGCCCGAGGTGGC autosomal
TGGGACCGGGACCTGCTCCTCGACCCAGCTTGGGAGAAGCAGCAGAGGAA autosomal
AGCAGGGAGGGCTCTGCTCCCCCGATGCGTGAGATGCCTGCGAGCAGCAG autosomal
CGGCTTGGGGGGTTCTCAGAAGCAGAGGAATTGCCAGCGGGGAATGTGAG autosomal
CCGAGGTGTGCGCGGCCCTGCGCAAGGGTTTCATCGCCTGCCACCGCGCC autosomal
CATTTCTGTCTCCTCCGGCTCTGCTGCCTCAGCTCCAGCTCCTCAGCTTC autosomal
CTCCGTGCCCGGAGTCACACCTGGGGACACCGCGTGCTGCTCTCGAGGCC autosomal
GGCTGGAAGGAGGCGGGAACCGCCCTGAGGGGCTGGAGGGAAGCGGGAAC autosomal
TACTGGTTCATACTGGGTTATACTGGTCCGTACTGGTCCATACTGGTTCA autosomal
CGTGCTGTGCTCACTTCATTGATTCGTTTACCAGGATTATAGCCCTGCAA autosomal
CTGGCTCAGCCGCAAGTACCCCTCCATTATCGTCAACTGCGTCGAGGAGA autosomal
GTGACCACATCCTTTCTAGTGCAGGGTGAAGGAAATGGAAACTGTGTCTA autosomal
CGCTTCCCCCGGGCTGCTCCGAGCATCCCTCCGCCCCTCTTGCATTTGTC autosomal
AGATGGGCTCGGCCGCGGGCAGCAGCAGGAGGATGAGGGGGACGGAGCCC autosomal
AACGGCGCTTTTTTGAGGGAAAACCACAGAAACGGCGATAAGAAATGAGT autosomal
GCCAAGAATGCAAAACTTCAAGTAGCGTGGGAATGGTCCCATTCCAGTCA autosomal
AAACCTCCACACATTTCCCAGCCCCACAGCATAGGAAATGCAGGCAAAAA autosomal
GGCAGCAGCTGTGAATCCAGCTGTGCTCACAGCTGCTGGGAGCAGAGCCC autosomal
CTGTGGCACGCTCTGGACGAGGGAAATGTCCTTTTGTGGAGAAGTCGGGC autosomal
CCATCTTACCTTAATTCTCTCCCCATACCCTTTTCTCCCTTCCTCTCATA autosomal
TCCGGGTCAGCGCCGAGCCGATGTCCCTCGTGGCACCTGTGGGGAGCAAA autosomal
GGCAGTTTGGGGGGTTCAGGGGCAGTTTTGGGGGTTCCAGGTTCCCCCCC autosomal
CCCAGGTGCCTCCTGAGACCCAAATCATTCCAGGTGCATCAGGAAATCAA autosomal
CTGGGCATGCTGGCCGGTGCCGGGGTGCTCTATGGGGTGACCCCGGGCCC autosomal
CCTCCCCCACCCTGCAGGCCTTGGCCACCTCCCCCCGCACCATCCTGGGC autosomal
ACCGTTACCATTACTGAGTTTAGTAATGGTAACGGTTCTGCCGACGGCCG autosomal
ATCTTGGTGGTTGTCATCACTTTTTTTCACAGCAAAAAATGATCATCATC autosomal
GAGCGGGCGCCGCCGCCGCCGGCTCTGAGGGGGGAGACGCGAGACGGAGA autosomal
CAGCAGCGCCCGCTCCCCCGCGGGACGCGCCCGCCCGGCCCCGCCGCCGC autosomal
GAAGCCCCAACACATATTCATTGCTGTGAAGGAGAGGAAGTGGTGTTGGA autosomal
ATCACTGAGAGTAGAGAACAGGACATCCCCCTGCTGCTGCTGAAGTTAAA autosomal
CGGGGCTGGTTCAGCGCCGGTGCCTGCCCCGGGATCACCTGTGGGATCAG autosomal
CGGTGGGCTGAGCGGGGGGCTTGCAAGTGGAGGCGAAGGCAACCGGGAAA autosomal
CGCATGCGCCGTGCGCGGACAAGATGGCGGCGCCCGTGGATCTGGAGCTC autosomal
CGCACCATGGGCAGCCAGGGCTCCAAGGCGGCGGGCGGCGACCCCGACAC autosomal
AATGTCTCCATCAAACTGGTGACCTCAGGTACAAAACTGGTGTTCACTGG autosomal
ACTCACTTGCAAGCATCGCTATCCCTGGACTGTGCTTCTTCAGTGAACGC autosomal
CGTGCTGCCCCGCAAGAAGCCGCCCCAGTTCATGGTGGATCTCTTCAACA autosomal
CGCGGGAAGGCGGCTCCGCCGGCATGGACGGGCCATGTGTATCCTGAGGA autosomal
ACGGTGCTCAGGAAGCGCTGGATGCAGCGGAACAGACCGGGGTCCCACGG autosomal
ACATTATATTTTTTCTCAGTAGCACTATAATATTTACAGAATGAAACAGA autosomal
CAGATATTAGAGTATGTATCCAAGGGTCTGGTTAGTCACAGCTTTGACTA autosomal
GCGCGGCGGCCGCGGCCGGGTAGGGTGTGAGAAGTTAGTGGCGCTGCCGC autosomal
CACCCCGGGCAGCCGCACAGAGAGCGCCGCAGGGGCGTCGGAGGCACCCA autosomal
GAGGAGGAGGAGGAGGAGGCGGTGCCCGGCGGGATGGAGGTGGCCCGCGA autosomal
CTGCGGGAGCGGCTGCTGCTGCGAAACCCCTCGGCCGCGCTCTGCGCCCC autosomal
AGCACGTTGAAGATGAACATCAGGTACTTCATGCAGCTCAAGACACCCAT autosomal
ATGTATCTTTCCCTCATACCTAAATATATCTTTTCCTCAGCTTCCAACTC autosomal
AGCACGCTCAGCCCGGTGCCGCTCCGGTCCCGGGCACAAACCGGGCTCCC autosomal
AGCACGGTGACAGGGACACCCAAAGGGACAGACACACACAGCCAGGGCGG autosomal
GTCAACAGGAAGCCCTAGAGGTTAGAGGGAATGATGTAACCATATGTGAC autosomal
GCAAATCGTCCCTACTGATGTGCTGCAGCAGCTCTTTCAGGAATCCCAGC autosomal
CGATCGCACGGAGCGTGCCATGGCGTTGGCCTAGGCCGCCCGGGGCCCCG autosomal
AGAGAAGGCTTCCAAAATTAAATTATAAAAGATTATAAGTGTGTAGTTTG autosomal
AAGAGGAAAAAATCGGGGAAAAAACAAAAAAAAAATGGTGAAAATCGGGC autosomal
CTGTTCATCTGATTAGAAGGAAAAACAATCAGCCTGGATTTAAGCTATGA autosomal
GAGCACCGTCCCCTTGAGGTAAGCGTACTCTTTGGTGCTGATGTCCAGGC autosomal
AATGCATGAAAAAAATTGTTATAATGTACTTCTAGGGCTTTGCAGTAAAG autosomal
CCCCGCGGATGGCGGCGGCACGGCCGCGAAGTCGAAGGCGACAGCCGCCG autosomal
GCTGCGCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCC autosomal
CGCCTGGTGTGGGGGCAACTTCCTGGAGGTGACCGAGCAGATCCTGGCCA autosomal
CCGCTCAGCGCTCGCTGCGCGTCGCCGCCGCTGAGGCCGCTGAGCCGCCG autosomal
CCCTGCCTCCCTCGCTTGCATTGTGCTGCACCATTTGGAGCAGTGCAAGC autosomal
GCCGGGCTGGGCCGGAGCCGGCAGAGACGATCGGGCTCGAGAACGAGAAC autosomal
AATCTGCTGGAGGATTTTGTTCCGAGTCTGTTTTGGTTTTATGCAGAACA autosomal
ACGCGGGCAGGAGGAGCTGAGAGGGCCGGAGAGGAGCGGCCGCTGCCCGC autosomal
AGAACACCGCCTCACCCGCCCCGGCGGCGCTGCCCCTTTAAGAGAGGGGC autosomal
TGTATGTCTGGGTGTCCCATTTATTTCTTGCATTTAGGGTGTGCCTTAAA autosomal
ACTGTAGCTGAGAGACACTTTTATTATAAGCACCACTTTACAGGCACACA autosomal
CACGTGTGCGCGGGGCTGGACCGGCCCTTCCCGGCGGCCCCGCTGCCGTC autosomal
CTCCTCCACCAGTTTCTCAAATTTCCAGCATGTTGGTAGGGAGAAGCAGC autosomal
AAATATATATATGCCTGTGCTAGGCAGGGATTTGTCATATAGGGCTACCC autosomal
GGCCGCGACGCGCGATAGGGGGCGGGGCTTGCTACGCCGGTGGGGTGGGA autosomal
CCACCATTTACACCGCTCGCTCCCTCCTTCTCCCCCTCCCTTCTTCCCTC autosomal
GCCGCAGCGGAGCCTCCGCCGAGCGAGCTGGGGGAGCCGCCGCCGCCGCC autosomal
CTAACATCCTGATCCAAATGAGCATTAGATCTGAGAATGTTCTAGTTCAA autosomal
GCAACGGCATCGAGCGCTACGAGCTGCTGCAGGAGCCCGGCGGGGACGGC autosomal
GGAAGGAATTTCCCATTCCCAGTATAAACTGGAGACTTCCCAGTATGAAC autosomal
TCACGGCCGCTGTGCCCCGCCGCAGGTGGCGGTCAGCTCGGCCGTGCTGA autosomal
GAGCAGCCGGCCCAGCGCGGCGGCCATGTCGAGCGGCGGGCGGGCGGAGC autosomal
ATCCTCCGCGCCGCTCCCGCCGCCGCCCTGCGCGCCGCAGCCGCGGCTCC autosomal
AAGGAGGGATGGAAGCAGGGAAGGCTCTGCCTGCGGGGCGGCGTCCCTTC autosomal
AACAACAAAAAAGCGCTTTATTTTCCAAGCGGGGGGGGAGAAATTTTGCT autosomal
CGGCTCGAAAGGAGCCGGAGTTGGTGCTCGGTGTCGCTTGCGCTGCCTTA autosomal
CGGTCGCTGCGAAGCCCCGGCCGTCCCCTCCGCGGTTACCTGCCCGGCCC autosomal
GGTGGAATTTTAGGAATTTTTCCTTGAAATTTCAGATTTTTTTCATAAAA autosomal
AGTCGTGCCGCAGCCCCGCGATGGAGGACAGCGCCATGGACATGGAGAGC autosomal
AGCCTCTGCATCGCCCGGGGGTGGTTTACCCACCGGGTGGCTGCGGAGCA autosomal
CGCTCCGAGCGAGCCGCTTCCGCCTGAGGGCACCGAGCCCCTTGACTGAC autosomal
GTGGATGGAGGTATTTCTTATTCAATCCACATTCTGTGTAACTATACAGA autosomal
CACACCTGGTGCTTGAGTACCGCACACATCCCGGTGTAAAAGGACGCGAA autosomal
GCCGGCCCCGGGCCGCTCCTCCTCGCCGTGCTCCGCGTCGCTGCCGCCGC autosomal
CTCTGCTGCGGCTCTGCCGCCCGCGGGACAAGGCGGCCGCGGCCAGCGCC autosomal
GCATCTTCATTGATTATTGTAGAAGAAGAAGGAGCAATAGCTGCAGACCA autosomal
GCGGCTCCCGCCGCGCCCGTGCCGAGCGCCGCTCCGCCGGGCCCGTCACC autosomal
AATACAAGCTAACATTTTAAAAAGTCATTGGGAGACTAAAATACAAGCAA autosomal
CCCTTACCAAATGTATTTCCAAGACAATGCTGAAAGTGGGATGCTTGTTA autosomal
AAGTTCCTGGTTTCACCCTTGGCTGGCTTTGGTTCAGTGGCTTCTGTTGT autosomal
CCCCTCTGACACCGCGTGCTGCCTGCTCCTCAGCAGAAATCGCTGGGAAG autosomal
GCGGGGCTACAGTTGGTCCCGCGGCACCGCCCAATGAGAGAGCCGGGAGA autosomal
GGTGTGTGCGGCGCCTCTGGAAAGCCACAGGCTGCATCCCAGGCAGCACA autosomal
AACCCCACACTTTCTGGCAGCTCATGGTGTTAAAGTTGGTTTTATGGTGG autosomal
AGCGATCCGGGCTCGCCCCCTCCCGCCGCCGCCAGTGGCAGGGCCGGCCC autosomal
TATGAACACAGTTAGATCTTGAAAGCAGTGAACAATAAATAGGCTTGAAA autosomal
AACTGGAGTGTTATCTGCTTTGCGGGACTTGTCTCCTGACATAATGAAAT autosomal
CTGGCGGAAGCTGTTATCCACGTAGGACGCCATCGCGCCCCTGCCGCCTC autosomal
CTGGCGGTGGCAGTGCCGGCCGTGCGCGGGGCCGGGGCCGGAGCCGGGGC autosomal
GATGAGCAGCTTCTAGTCTGCAGGACAGGCTTAGAGAATGGGGCAAAATA autosomal
CTTAAGACACCCTGCATTTAACTAGAGGTGTTGGAAAGCAAATTACTACC autosomal
AAAATGAGGGTGAAAAAATGGGGAAACATTTGGAGTGATACCGTTTGTCT autosomal
CCCAGGAGCCATGAGATATCCCCAGGAATCGAGACATATCGCCAGGAATC autosomal
ACGGGGCTGCGCTTGGCTCGCACGGACAACACGGGACAGCGAACACCGTC autosomal
AGGTTCTCGGCCGCCGCCTTCAGCTCCAGCACCGAGTCTGTCTGGCGCTC autosomal
AACCACCCTCTGGGTGAATTACTAGGTCTTAAAAAAAAAAAGAAAAAGGA autosomal
AATCCAAAAGAAATAAGCCCTCAACAAACCACACCTTATGCACAAAGCAT autosomal
TCCCTGTTCCATTTTCTCCGGGCGGGAGAGGCTGCTCCAGGCTGGAGCCA autosomal
CTGTGTTCAACAGCACCAGAAGCTGGTCATGGCGATGGGCACGTTACAAA autosomal
GGGACGGCGCGTACGAGCCGGGGTTCGTGGGGATCCGCTTCTGCCAGGAA autosomal
CTTTGGAACTCAAGGAAGAGTGTTCCAGGCAAGTGGTTGATGACAGCAAA autosomal
ACTGCACCGACCGGCGCTGGATCCTCCTGGGACCCCCCTGCGACCCCCCC autosomal
CAGCGCCGCTGGGACTGGGAGATTTGGGAGCTCCAAGAGGGGGCGGGTAA autosomal
GGATGGAGAAATCCATGGAAAACTCCCAAAAATGAGAAATCCACGGAAAA autosomal
CCATCTGCAGGGGGGTGTTGGGCGCAGTCAGGATCTGCCAGTAGTTCCGC autosomal
GCAATACCGGGACGATGCGCGGAGCGGAGGGAGCAAGCTCCGGGTCCAAC autosomal
CATCTCCAGAGATATCCCTACATTGGCTCTGCCTTCCAGGAGAGGAGGGA autosomal
AGAAGGCTGCAATGCAGGCATCTGCCCTTCTTCCTTAGCCCAACCTTTTA autosomal
ATGTGGAGTGCAAGAGAAGGGTGCCTGTAAACTGTCAGATATTTTTCCCC autosomal
CTGAAGATATATTAGGGTAAGTGTCCTATGCAAGGTAGCACAGTGAGAAG autosomal
CCTCATCCTCGGCATCCCCCTGCGCCGGCCCGGCCTCCGAGGGCTTCCGC autosomal
GCAAGAGGTTCCAGGAAGCGCCGCTGATCTGCACAGACCCCTTTGCCTGC autosomal
CTGTCTGCTCCCAGGGGAACAGCAGCTTGTTGGCCTTGGCACCCTGCTCA autosomal
TCGAGAACGTCTCGGTGGCGCTCGAGTTCCTGGAGAGGGAGAACATCAAA autosomal
CACTCAAAGTGGTGAACAGATGTTGAATTAATTGTGGAAGTGTCTGTTAC autosomal
GCGATGGCGGCGGGCCGCGGCTGGCGGCGGCGGGCGCTGCGGCTGCTGAC autosomal
TAGCTCAGATTTCTAGAGAGAAAAAAGGCAAGATTTACTTTGTGACAGAA autosomal
GACGATGCGCGGAGCGGAGGGAGCAAGCTCCGGGTCCAACTCCCGAGCCC autosomal
GGCGCGGCCAGCCCGATGGCCGCTGTGTTCCTGGTTACGCTGTACGAGTA autosomal
CTTTCTTCCCTGTGTCCTCTTCTCCCCCTTTCTCCTTCCCTTCCTTCTCC autosomal
CTTATCTTAAGGCAAACTGAAAATAAAACTATCAAATCAATTTCACTAAA autosomal
CCCATTTCCAGCCCCACGCTGACCCCAGCCCCATGCTGACCCCAGCCCCA autosomal
GGGTGGCTGGAAACCCTCAGGGAGCCAGAGCAGGGGGCAGTAGGGGGGAC autosomal
ACAGCGACCTTCTGAGAGCACCATGCCACAGCTCTCCAGAGCCTGGATAT autosomal
ATTTGAAATCATGAGTGTCCAGTGTGTTCTGTTGCAGAAGAGATGCAAAC autosomal
CGGGCGGCGGCTCCGGGAGCCCCCGATGGCGTCGAGCGCCGCCCGCGGGC autosomal
AGACTGCCTGTGGGTATTTCTGACCTTTCTTCCCTGTGAGGAGAATGGAG autosomal
GCCCCGCCCGGCCCGGCCCGGCCGCTCCCGCACGCGCCGCCGCTTCCGCC autosomal
CCAGTCCCCCAGGTCCGACATGTCGCAGCCGCGCCTGGCCGCCGCCCAGG autosomal
CCGGCTCGGCTCGCCCCACCGAGCCGCCTCAGCCGCCGCGCCGCTCCATC autosomal
CCATGGTGGCCCCTCGGACCGCCCGCGGGTGCGCAGCGCCGGGCACCAGC autosomal
CCCCTGATCGTTTCCATGGTGTTGAGAACAGTAACAGAGCTTCCCAAAAC autosomal
CTGCTCTCCCCTCCAGGCTTCTCCCCCCGGGCACGGCCCCGCGGCACGGA autosomal
AGGCAGCTTTGTTTATCTGGACGTCCAATTATTGGGATGCTCTCCTAGGA autosomal
CAAGGGGTGCTGGCTTTGCTATATGATAAATCCACCCTTTTATGAAGCTA autosomal
CTGGAAGCAGATTTGTCTTGGAATAGCAAAAATAAAAGAGCCGTGCCAAG autosomal
AAGGGGAGGAGCGAGGAAGGGGATGGGATGGGCTAACCAGGGTCCATCCC autosomal
CGCCCCCGGGCCCGCCACCCCCGCGGTGCCGCGCCCGGGCAGCGCCGCCG autosomal
CACCGCCGGCATCGCCGGGGCGGCGGCGCGGCCGCCTCCCTCCAACGGCG autosomal
TGAAGGGCGGGTGTCTGCAAGGAAGGCGGGAACCTCCCTTGGAATGGAAA autosomal
GCCGCTGCCCGCCCGCGCCGGCCGCGCCGCGCCCCTTCGCTTCCCTTTCC autosomal
CAGCTGCGGCGGCGGAGCAGCGGGGGCGCGGACGGCGCGGCGGTTCCGCA autosomal
AGCAGGGAAGCAGGGGCTCCAGGAGCTGGCAGCTCCTCACACACAGTCCC autosomal
CGGCCAGCGGACCCCGCGCGGGCACCGGCACCGGCACAGCGATGGACCCG autosomal
AACCTTTTACCTATTTTTACTACTTGATTTTTCTTATGGGAATTATTGGA autosomal
AAAAAATGAACCCAAAAAAAAAAAAAAAAAAAAAAAGACGAGTTCGGCTC autosomal
GGCGGAGCGGAGGAGGCGGCGTCCCCCGGTGGCGGCGGCAGCGACGCGGA autosomal
ACAGACAGGTTCCAGTCTGTTCCCTTGATGCCTTAAGGAGCTGCAGCAGA autosomal
ATTTGGGCCCAGGGTGCTGTTACATGAGGGGCTGCCTGTCTGATAGGGCA autosomal
AAGGCGGCGATGTGCAGGGCACTCCAGCCGTCGCGGTTGGCCAGGCGGAT autosomal
GGGTTGAAGATTTCTGGAATTCTGTGGTGATGCTCTGTGTGTTGTGGCCA autosomal
CGGCCCCGGAGGTGCCCGTGGCCCCGGCCCGCCAGCCGCCTGCCCCCCAG autosomal
CACCAGCCTGCGCCCGGAGCGCCGACACGGACCTCACCGCCCGGCACGGC autosomal
CCTGGATCCCATGGTCTCCGGGGGGCCGCATAGACCCGGGGCGGAGCGAG autosomal
CACATCCATGTCACTCTGTGCCACATCCATGCCACTGTGCCATGTCCCTG autosomal
CTGTGAGACAGCATCACATTTTCTGAGTCCATCCCTGGCTCTGTACCTTC autosomal
GCGGCGGCCATGGCGCGGCCCGGCCCCAAGGAGCAGCGCTACGATCGCCA autosomal
CCCTTGTCCCAAACCAAGCCTTGTCCCATGCCACCTGCCTGTCCCTGCCC autosomal
TAATACATACAGTAACTATCTGCGTAGAGCCATATAATACGCATTTTTCA autosomal
CGCGGACCCCGGCCCGGCGCGGGGAGAGTCCCCGGGCGGCGCGGTGCCCC autosomal
GGCAGAGGCGGGGATGAGGCGTCGGGCGGCGGCCGGAGAACGGGGCCCCC autosomal
AAGGTGGTAGCACTCAGGGACAAGGCAAGGGGACAGCCCTGTCCCCCAGT autosomal
GCTCTTGCCCAATCACCCTGTTTATAAATAGCTGTTTATTAGTTAGCTAC autosomal
CCCGCCGGGCCCGGGTCCGCCGCCGGCCCGACGTGCACCGCGCGCGGCGC autosomal
TCTCAAATTATCTTGAAAGGCTCTGGAATGAGACATATCTAATTATCAAA autosomal
CTGTGCCGCGCCGGCCGCCGCCCGCCCGCCGGCTCCGCCGCGCCCGCTCC autosomal
CAAAATCCTCCAAAAAACTCAAAATCCTCCAAAAACCTCCCAAATCCTCC autosomal
ATAGGACAGCAAGGCTCTGCAACTGACTGGAAACAGGAGTCTCATTTGTC autosomal
AGCCGCGTCCCGCGGAGCCCCCGCGCCGCCGCCGCCGCCGCCGCCCACAT autosomal
AGCGGCTTCAGCTCGGGCACGCCGGGCACGCCGAGCGTGGGCAGAGGCGG autosomal
CGCCCGCCGCCGCTCCGCGCCCCGGCCCCACCATGGGAGACGCCGGCAGC autosomal
TCCGCCCGCTCCCGGGCGGACCGAGATAGCTCCAGGTCAGGCAAACCTCA autosomal
CCGGGGCCGCCGGCACCACCCGGGCCGGCGCCAGGGTCGTGCTGCCCCAG autosomal
GTCCATGCGCTTCTTCTGCCGGACCGGCTGCAGCGGGATGTTGTCGGTCA autosomal
ATGGCTCCGCCGTGCCGCGGCGCCTTGCGCGGCCGCTGAGCGCGCTCGGG autosomal
GCCGCCTGAGGGAGCCGTGCCGCAGAGCCCAGGGAGCCTCACCCAGCTAA autosomal
GACCGGCTCCCGGCTCGGGAACTGGAGGATGCCCATCCACTCCTCACCGA autosomal
CGCTCCGGGGCGCGGGCTGCGGCGCAGGGAGGGCGGCGGGGAGCGGCGGC autosomal
TCTCAAGCCCTTGAAGATCTCATTTTCCATGCTGTGGCCCACCTGTCCCA autosomal
CTATAAGTATATATATGATCTGTATCACCACTTCTCTCGTAAGTTTGCGA autosomal
CCGGCACCCCGGGGCCAGCCCCCGGCAGCCCCTCGAGGCCGGCCCGCGGA autosomal
GCCTTCGCTGGTTCTCATCAGAGATCAGCCCTCAAAATGGCTGACCCTCA autosomal
GCCAGAACCAAAGGCAGCTGCTGATGATAGATTTCCACCAGTTTCCCACA autosomal
CCTTCGGGACGCCACTCCGGAGGGGAGCCCGCGGCCGCCATGGCCCCGCA autosomal
AGGGGACAAAAGAGGTCCTGCCTGGGTCCTGGTGCCCATCTCAGGTTGCC autosomal
CCCCCCGGCCTCACCCGCGACGTTCCGGGCGGGCGCCGCGGCCCGGCAGA autosomal
CGGTCCTGGCTCAGGTAAGGCAGCAGCATCCCCGCTCCCGGCGGTGGGCA autosomal
AGCCAGGAGAGCCGGCCGCGGAGCTGGTGCCTCCGGTTGGTCTGTAACCC autosomal
CGGCGGCCGAGGGTGACGGGGACGAGGCGCCGGTGGCGGCCGCCAGCAGC autosomal
AGCGGAAAGGCGGCGGGGCGGCCACCATGAACCGCCTGGGGAGGAGAGCC autosomal
AGCCGGTGCTGGTGAACATGGCAGCGGCCCGGCCCGGCCCGGCGGGCGCG autosomal
AGCGCTGCCCTGCTGCTGGCCGCGGGGGCCATGTACTGCCACTGCTGGTG autosomal
CTGGATTTCATTTGGGATCAGGATCAGACCCAAATCCCGGCCTGGATTTC autosomal
CAGCCTGCCAGTGGGGATGGGACAAATGCCAGCTGCAGCAGCACCAGGAG autosomal
CTATAGCTATCTCTTTTGGACCCCTTATTGCCTGCAAAATCTGTTTTATC autosomal
CCACTGACTGACTCAGCCTGCTCCTCACAAGCAGGGAAGAGCTGTTGGCA autosomal
CAGCAGCTCCCCTCTACGGCTCCATGCCGGAGGGCTGCGGGGGGACCCCC autosomal
ATCTTCATTTTGAAAAAGAGAACGTTTCTCTAGTAACTGCTCTCCATATG autosomal
CAATCTGACAAATTCTGATAAAGATTTTTTTTTTTTCTGTCTCACAGATG autosomal
GCCGGGGCGGGAGCGGCGGCGGCGCGGAGCGGAGCGGAGCAGCGGCGGCC autosomal
CACAGCAGACACCTGAGTGTGAGAGGGGACACGGCTCTCCTACACCACTG autosomal
GCAGCGGCTCCAGGTACAGCTCCAGCCGCCGGTAGCTCCGCACCAGCTCC autosomal
CGTCCAGGGCGGCTCCCGCCGAGCCCGGCCCCGCCGCCATCCCCGCGGCC autosomal
ACGCCCAGGGCCCACCCGGCAGTTCTCCCCAGTTCCCAGTTCCCTCCCAG autosomal
CGCGATGGTGAAGCTCACGGCGGAGCTGATCGAGCAGGCGGCACAGTACA autosomal
GCGGAGGCTGCGGCTGCCGGCCCGGCCCGGCCCGGCCCGCCGGAGGGACC autosomal
CCCGCGTGGGGAACAGGCTCTCCCCGTGGGGACCCCACTCCTGAGAGCCG autosomal
AACAAAGTTCTCGGTGAGAGCGAAGCAATTAAGGGACCGGAGCAAATTCA autosomal
AAGATGGCGGACAACCTGCCCACAGAGTTCGATGTGGTGGTGGTGGGCAC autosomal
GAGAAAGGGGGCTGCAGGTTGACCTTCCCATCCCCTAACTCTGTCCCTGC autosomal
ATGGCGCGCGCTCCTCCTTCTCCTCATGGACGGCAGCGCGACCCCGGCAG autosomal
CGATGGCGGGGCCCAGCCTGCGGCCGCACGTGCACTGGGCACAGCGGCAC autosomal
CTCTCCCCGTCTCTCCTCACAGCCGGCCCGTGGTGGAAGATGACGGTCCC autosomal
CCGCCGCTGCCCGCCAATCGCCCGTGCTCCCCGCGGAGTCCAGGCCGCGG autosomal
GGCACCGCCCACCCCGGCACCGGCGCGGTACTGACTGCGCCCCTCCGCCC autosomal
AGAGTGGGAGCCGCGCTTCTCCCCTCCCCGCTCCCGGGCGCCCGATCTAC autosomal
CAGAGCAGGATGATAAACAGTCCCCCAAAGAAAGTAACCATGGATGAGGC autosomal
CTGGTGCAGACAGCCAATGCGGGGGCAGGAGCACTGGCTGTCACCATTGA autosomal
ATTCAAAGCAGTCCATTTGGCAATCACAGAGATCCCACCGATCCATCAGC autosomal
GTTACGTACAACTAGCCATGCTGTAGGAGAATGATGGGTTTTGGAATCGA autosomal
GGGCCGGACCCGCAGCTCGGAGCCGGACCCGCAGCTCCGGGGCCGGACCC autosomal
CTCGAGAAATAAATAAAACACAAAGGTCTATCAGATTTGTGAAAGGAAAG autosomal
TCCTGCAACCGGGATGTTCCCGGTCCGTGAGGGACAACCCGACATCCCCA autosomal
CGCTTTACAGCTGCGGTGCCCTGAGCTCCCAACCCCCGCCCACGCCCCGC autosomal
ACCAGTAAATGCACCATGGAAACGCTGGTATCGTCCCTTTGCATCTTTAA autosomal
ACGTCTGGCGCGGCGGCGGCGGGCGGCGCTCGGCACTCACCGCCTCGGCC autosomal
CATGCGCGGCCGAGCCGCGGTGCGGGGGCTGCCCGCGGTGTCCCGCCGCC autosomal
CACCAGCGCCACCTCCATGGGCGCCGCCATCTTCGCGGTCCGCCAGGGCC autosomal
CGCGGGAAGCTCTCGTGGAAATGGCAGCGGAGATGGCCCGAGCCGAACTA autosomal
CGGCCGCGCTTTGTTGTCTCGAGTCCCGGCCGCAGCAGCGCGGGCCCGAC autosomal
CAGGTGTATGGGATGGGACCAGCATCTCAGCAGGCCTCGGCCTGCTAGAA autosomal
GAAGTATTATTATTATTTATAGAGCAGTATTACTTTCTCTGTACATACAC autosomal
CGCTCCGGGCGGCTCCGGGCGCTAAAGGCGGCTCCGGGCGGTGCCGCCCG autosomal
GAGAGACGCCGTCGCCTTTGCCACGAGAGAAAAACCAATACAAACAATAC autosomal
CCCTGAACGGGGGCCCCATGCCCCCACAGCGCCCTGGCACTCGGGACCAG autosomal
TCCGCGCTCGCCTCAGCCGCCCCGGCCGGGAAGATGCACAAAGGCTCCAA autosomal
ACCACCCTGAGAGTGCCCGATCTCGTCTGATCTCGGAAGCTAAGCAGGGT autosomal
ACAGACCCCCCCATACCTGCTGTCCCCTCTATAGGCCCCGTCCCCTATAG autosomal
GCCGAGACCCCCACATCACCTCGACCTCTTGAGCCTGAAACTTCCAAAAA autosomal
CAAAAAAATCCATCCCAAAAAACCCAAAAACATCAAAAATCCACCCAAAA autosomal
AGGCAGACGCGGAGGGCACCGGGGACATCAACATGGGGCCTCCGCCACCA autosomal
CGGTGTCCCCCGTGTCCCCCGGTGTCCCCCCGGTGTCCCCCCGGTGTCCC autosomal
CTTCCCGCTCCCGCTGCGCCGCAGCTCCGCGGCAGCCCCGCGCGCCCGCC autosomal
ATGAACTGTGGCTTTATTTGCTGATGAGGTTTGCCAGCCATTAATCCACC autosomal
GCGGCGATGGGGCCATGGCGCCGGGCAGCGCGCAGGGAGCGCCGGCCGCC autosomal
ATCAAAATTTTATTTTTTTCGACAGCCAGAATGCCTTTCTCTGTATGAAC autosomal
TCACACCTGAAATGGCAAAAGTATTTGACAAAATTGCAAGCACTTCAGAA autosomal
AAACATTTAAGCAAATCAGAAATGGAAGTGCTATTCAAAGCAGTAAAACA autosomal
ATAGGCAAAATCCCACCACAAAACCCCCACCACGAGGTCCTTTGCATGTC autosomal
AAAGCAGACGCTGGACGCTTCCAGATCGAGTCTTCTGGGGAGTCCAACGC autosomal
AAGACTTAGTGTAGTCAGCACAGCCCATCAGGGAGAAAAAAAGGTCAAAG autosomal
CCTGTCCTGGGGGGCATCGCCGGGGGCAGCCGTGCTCCGGACCGTCCGCG autosomal
CACTGCTGGTGACAGCTGGGGCTGAGCACATGTGGGGTGGCCCCGGGTCG autosomal
CGCAACGCAGCGCGTCCCGTCCCGTCCCGGCGCGAGATGAGCAGCCCCGA autosomal
AGGAGGAGGAAGGGGCCGGTGGGCGGGCAGGCGTGTCCCAGCGGCCGCTC autosomal
GAAGGAGTTGTTACAGGATTTGTTGTTTTAATTCTGACATATACTTTGAA autosomal
GGCTTCCTCCTGCCTCCTTCTAAAACTTGCAGATTCCTCCAGCCTGTCCA autosomal
CCTCGGGCCCCACCAGCAGCCCCTCTCCGACTCCGCCCTGAACGACTACC autosomal
CAAATATATTCTGGAAGAGATGCAGGGGAGAGGAATGTAGTGCAGAATGG autosomal
AAAGAGGTTAAATGAAAAAAGTGACCTTCCAAACTTGTACTTTAATGGAC autosomal
CAGGTTCATTGCGCCGCCTTTGGCAAATAGCCTAATCTTCCCCTGGCCGA autosomal
ACAGAGTTGCTCTCAGCAGGAAAATGGCAGCATTCCCACAGCAGGAAGCG autosomal
CCCCCGATCCCCCCAACCATGGAGGAGGTGGACAAGATCCTGATCCACTC autosomal
GACAGCGTCCCCTAGCATCCCGGCAGCGTCGCCCCAGCATCCCGGGAGCA autosomal
GGAGATTAATTTTAAGTAATTGTAGGATACTGGTGTTTGACTTGTAGGCC autosomal
CCATTTCCAAAAGTATCTGTTTGTGCTGTAAAAAGGGGCACACTGAGGTC autosomal
GCGGCCCCTCCGCGGCTTCGCCGGGCCGCTTGCGCCCGTTGAGGCGCAGC autosomal
AGAAAGGGGGCATAAGAGGAAGCAGCACGGATGGGCGGAGGGGCAGCGAG autosomal
GGGGCCGCTCCGGGACCGCCGGCACCGGCACCGGCACCGCCGCCAGGACC autosomal
CAGTATAAACCAGTAACCCCAAATCCACATTTAACCCTTTCATTACCATA autosomal
GGCACCTGCGCCCCGCGGGCCGGGCGGCGGCGGCGGCCGGAGGGCGGTGA autosomal
CGACTTGACGCATTCCGGCACTGGCTCCTACTCCTAAACGGCGCGTCTCA autosomal
AGAAGAGCCTTCATTCAAGATTCCCCTGTGAACCCTGCATTGATGCCAAG autosomal
GGCTGGTACGTGCTGCAACTGCAGGAGGAGGTCGGGCGGAGCGCCCGGGA autosomal
AATGTTTGTCCTGCTGGACAGGACCTTTCGAAAGTAAGTGAATTTTTTAA autosomal
GCGCATGGCCTGCTGCAGCTGCTTCACCTCCTTCTCCACCGTGAGGGCCA autosomal
CGCGCCGGGCGCGCTGCCGGCGCCGCCGGGAGCCGTTCCCGGGCTGCCGA autosomal
CCTTGTTGACTTGGCGAATTTAAAGGGCCGTAAGGACACTGCGCCGCCGC autosomal
CGCAGTCCGCCGCCGATGGCGCTGCCGGTGGCGCTCCCGTCACTGCGGCA autosomal
GCAGGGAACGGGGCTATAAAAAGGTCCCAGCTGCGACGGCAGCGGCCCCC autosomal
ATTGGCGGCGGCTCCGGAGCTGCCTCTGCCGCCGGCTATGGAGCCTCCCC autosomal
CGCCTGCCCGCCGTCAATGGAGGAGGACGCTGAGACCCGCAAGATCAGCA autosomal
AAGATGGCGGCGGCCATGGCGTGGCTGAGGCGCGGCGCCTGCGGCCCGGC autosomal
AGAGCCCCAGGCCCAGCGCTGTCTCCCAGCCGCCCGCCATGCCGGCCCTG autosomal
AGCACCCTGCGCACCCTGCCCGGCACGCGGCTGGCCTGGATCGCTGAGCC autosomal
CGCCGGCCCGGCCCGGCCCGGCCCGGCCCCGCCGCCGCTCCGGGGCCTCC autosomal
CCCTGGTTGAGGTCGTTCTCGGTGTTGTCCAGCCACAGCCGCACGGCCAC autosomal
GAGGTGCCGCTGGGGGACTTCTACCCCTTCGGGCCGGCCCAGGGCGACGC autosomal
CGCCCCCTGACCCCTCCGAGCCCCCCAGGACCCCCCCCGGGCCCCCCCCA autosomal
CCGGATCCGAGAGAGCCGGGCGGTGGGAGGGGAGGGAAGGAAGGGAAGGA autosomal
CCGGGCCCCGCCGCTCCTCGCTCGGCGGCGACGGACTGCGCCGGGGGCTC autosomal
CTGGTCTTCCCAAGGACACTGCCTTACTATATCACATCATCCAGTCCAGA autosomal
TATAAAGGGCCTTTTTTCTGGTCTTTTCAGTGGTGTTATTGTCTTTCACA autosomal
CAAAAAATCCCCAAAAAAAGCCAAAAAATTCCCATAAAATCCCCCAAAAA autosomal
CGCCCTCTCAAATCCCGCCTATACTTCGGCCAATCAGCACCGCGCCCCGC autosomal
AGAGAATGAGACATTGAGAAGTCCTTGACTTAGTGTAAGGTTAAGCACTG autosomal
AGATGAAGAGAGGCTGAGCTTATCTGCTTTGCTGATGCAGATACAACAAA autosomal
CCGCGGCGCACGGAGCGGAGAGGGGTGGAGGCTCATTTCGGAGCAGTGTC autosomal
CTCGGGGGGTGAGAGGGGCTGCGGGCAGCGGGCACGGCAGCGAGGGGAGC autosomal
CAGTTGGCGCAGGCCCTGCCGGAGGCCTCAGTCCCGGCCGACGGCGGCGG autosomal
CCCGGAGCCGCGGACATGTCGGTGTCCCCCGTGAAGCGGCAGAAGATGGA autosomal
AATTCCATGTGGGAACGCCGGGATCCTGTGCGGGAATGTTGGGATCAGTG autosomal
GCGAGCCCGGGTGCCGCACGGAGCCGCCTGCCGGGCCGGCGGGTCCGGCC autosomal
CCGGCGGGCCCCGCCCCGCTCCCGCCCCCGCCGCACGCAGCCGCAGCCCC autosomal
CTGCCTGCGGCCCCACACCTTTTATAGAGGCCTGGGGGGTGGGGGACCAA autosomal
GGGAATTCCCCGGGCTCGGCGCCGCCCCCGCCGCCTTCGAGGAAGTCAAC autosomal
GCTCCTTATCGCCCCTTATCGCCGCCCATAGACCAGCATTGATACCCAGC autosomal
CGCCCGCCCGCCGTCCGCTCGCAATACGGGCTCCCCGGGAAACAGCGGCC autosomal
AGCAACCTGCTGCGGGAGCGGCTGCTGCTGCGAAACCCCTCGGCCGCGCT autosomal
CACCGCCGAGGGAAGGAGGCGGTGGGGAGCGGAGGGAGGCGGGCGCAGCC autosomal
CTGTGGCCTCTGAGCACCTGCTTTACATAGCTTTCCTTGTATTATCATTA autosomal
TGCAGGGTCTCCTCGGCTGCGAGGAAGTGTAGTTTCTGATAGGGCTGAAA autosomal
AAACGCATGTGCATGTTGGTGATGGGATTAAAGGAGCCGCAGGCCAGGAG autosomal
ACGCTGAGCAGGCAGGAGCCCCAAGCCCCAGGCTGGCCACTAAGAAGGCC autosomal
GCGGGGTCGAGCGGCGGCGGAGGCGGGGTCGCGAACTCTGACCCCCGGGA autosomal
CACAGGCGAGCTCCGCTTGCCAGCGGCAGGAACGGCACCTGCGGCAGGAG autosomal
GGCTCCACCCTGCTGCACCCCCTGAGCGCGCTGCTGGGCATCCCGCTGGA autosomal
ACTCCATTATTCTTGATATTTTCTATTTTGTCAGCTGAGGGCCTGGAGAG autosomal
CAATGAGTGCTGTGTCAGGCAGTGCCAGAGCTCCCACGTTGTCATTGAGC autosomal
GCTGGGGGAGGGGGTCCATATACCACACGTGGGCGGGGGGGAGGAAGGCA autosomal
GAGTATTTACAGTCTGGGAGCTCAGATAGCGCCGGTCTGACTCTGTGCCC autosomal
CATTGTGCCATTGAATTTGTGAGGAACTGTGACAGAGACAGAGAGACGGG autosomal
AGCCCAAAAAAACCCCAAAAAATCCCCAAAAAAGCCCCAAAATTCCCGGA autosomal
CAGACTAAAAACCCGTTACTACTCTTTCAGATTAGCAAAGCCCTGGATGC autosomal
CAAAATATACTGCTTTTTTATACAGAATTTTGTGAGGACCAACTCCATTG autosomal
GGCCGGGGCCAGCGGGGCCGGAGCCGGGAAGCGCCCCCCCGCAGCCCCCC autosomal
AAATTCTGGTAATGGTCGTGATCAGGTTTCCTCTTGGTATGTGGTGATGG autosomal
CGGAGCGGCGGCGGTCGCGGTCGGATGCCCGGGGGCGGGGGCAGCCCGGC autosomal
AGGTCGACCACTTTCAACTTTTTCATGTAGGGAGAAGACTGATTCAGCAC autosomal
AGCCCGGCCCCGGTGAGCCCGGCCCGGGTGAGCCCGGCCCCGGTGAGCCC autosomal
AACAACAACAACAAAAAAGCGCTTTATTTTCCAAGCGGGGGGGGAGAAAT autosomal
CGAGGAGGAGGAGGAGGGCGCCGAAGAAGGCATGGAGGGGGCGGCGGGCG autosomal
ATCCCCCAGTGCCCCATCCCACCCCCCAGGTGCCACCTCTGCCCCCCAAG autosomal
CCCTGCCCGGGAGCGCCTGCGGGCAGGGACGGCGGCGGCTGCGGGCACAG autosomal
CAGGCGCTGGGGGGCGGCGGCGGCCGGGGGACCGCAGCTCCCGGGGCCGC autosomal
TGCAACTCTTTAAAGAGTCACTCCCTCAATGAAAGTTTCCTGATATCCAA autosomal
CGTGCTCCCGGTACCGGCCGCCTCAGCCCTTCGGGGCCGCCGCACCGGGA autosomal
GCGAGAAACCCCCCGGAGCCCCCGGCCATGGGCAGGGGGCTCGGGGACCC autosomal
CGGGGCAGGAAGGCCCGGGGCAGGAGCAGGGAGAGGCAAAGCACCAGGCA autosomal
AGGCTGAGGGAAGACACCGAGTGTTAGTCCTCTGTGTTGAAGAGAACTCA autosomal
TCTAGCCCCAAGTGACTCAAGGTCTGACTGTCTCATCCTTCTTAAGGAAA autosomal
AGTGCAGTGCCCAAGGGACACATCCTGACCTGCCCAACCTCACAGACACG autosomal
AATGCTCCCAGCGAGAGGCAGCCGCCCCCGCTGGGCTTCTGCCGGGCTGG autosomal
ATTACAAAATCACTTGCAGGGACATCTACTTTATTCCCAGCCTACCGGAG autosomal
GACGGAGCGGAGCGACGGACGGAGCGCAGGGACGGACGGAGCGCAGGGAC autosomal
AGGTGAAGTGTGCCAGTGACACTCGCCCGTAGTATGGATGCGGTTTCAAT autosomal
CCCGCATCCCTTCCTTCCCCCATCCCTTCCTTCCCTCCATCCCTTCCTTC autosomal
CGCCGCCGTAGACGCCGCCGCTCATGGCGCCTTCAGCACCGGGACAGCGC autosomal
GGCTGAAGCTTCAGCCCCTGCATTTTGCCCTCTCCCATTCCAGCACAAAC autosomal
GCACAAATCCAGGCAGTCACAGGCACCTCCACTCACAGCAGCACAGACCC autosomal
ACAGCCGGACCCGGGGCGCAGCACCTGGCTGCAGCAGGCGGCTGGGCTGC autosomal
AGTTTGTTTGGTTAGAAAGTTGACATTATCAGCATTGGGTACATGGGGGA autosomal
AGGTGAAATCCAGCAGCGACTGAGAGGCAAATCCGGAAAAAAAAGCCAAG autosomal
ATGAGTGTGGGGTTCCATTCCGCCCGACGGCCGCCTTCCTGTGGGTCGGG autosomal
CCGGGCCGTGCCCCTCTCCCTGCTCCTGGAGCTCTCTGTGCACAGCGGGC autosomal
ACAGCGACTCGTACTGCGAGATCAGCCAGTACCGGGACCAGCACTTCCGG autosomal
CGCCCTCGCCGCCGCCGAGGCGAGCGCCGCCCGCAGCGCCCGGCTCCGGA autosomal
CGCGCCCGTGTCGGCCACGACGTGCGGAACACGCGCCATGTCTGCGCGCC autosomal
GCCGTGCCATGGGATTGTGGTGACCGCCCGGCCCCGCCGTCCGCCCGCCC autosomal
GGGAAAACCTGAGAAAATAGGAAGGGGAGCAGCTGAGAAAGCTGCAGAAA autosomal
CGCGGCCCCGCAGCCCGGTCCCGAATCCACCGCGGAAGCCCCCGCGGGCC autosomal
TTTAAGTGGAACAGACAAAGAAATCATGCCACCAGCAGCATCAGAGAAAA autosomal
CCACTATCCCCAGGGTGTAGAGGAGCCAGCTCAGGAGGAAGGGAATCCAC autosomal
AGACAGCAGAGCAGAGCCAGCTCTGGTGGGGACGTGGCTCACAGATTGTG autosomal
CAAACCGTCGCTGCTCTACGAGGGCTTCGAGAGCCCCACCATGGCCTCGG autosomal
CAGTAACTCATTAGGACAGCAAGTGTGATCTCAGCTCTTTCACAATGATG autosomal
CATCTGTAAAATCACCAACTGTGGCACTTTTCAGGAATGCATCCTCAGCA autosomal
CGCACACGCCGCAAGTGTCCAACAGGTTGAGCGGGGCCGCGTCCCCGCCG autosomal
CAGGGGCTGGGCCCAGGGTGGGGGGGCAGCAGGGGGGTGCGGGGCGCGGG autosomal
GCTGCGCTGCGGAGCCGCGGCGAGCCGAGCCCCGCCGGCAGCAGCGGGCA autosomal
CGGAAGCCGTGCAGCTGCCGGCCGCTCACATACCGCCACCGCCACATCGC autosomal
GGCGGCGGCTCCGCCCGCCCGGCCCCGGTCCCGGCCCCGCCTCAGCCTGA autosomal
CTGGGGTGGTTTTAAGGAAAACTCACAGTGTTCATCTGTGCAACAGGAAA autosomal
AGGACATTCACTCAGCTGTGACAGAAGCTTGATGAGGACAAATGGATATG autosomal
ATCTGGGCACTTTCTCCTTCATGTCACTGACCTGGCAGGAGCTGCTTTAG autosomal
CCCGCTCCTCCTGCCACAGATCCTGGTTCTCCTGCCACAGATCCCGCTCC autosomal
CGGGGCGTTATTTCGTGCGGAATCCCAGTCAAGCCATAAAAAACCCCGCC autosomal
ACAGATCAAGATGGACTCGCAGATGACCAAGCAGGCGCTGAACGAGATCG autosomal
ACTAACATTTTTGTGACTACTGTCCAGATCTCCTTGTCATTATCTTTGAA autosomal
ACTGGATGGCTCTGCCGCCCCACCGACACGCCGAGTGTGACACACTCCGG autosomal
CAAACCTTTCCTGGTACAACTTCATGCCATTTCCTCCTGTCCCGGCCCTG autosomal
CCGCCCCGGGAGCTGCCGGCGAGCCGCGTCCGGCCCGTCACTCGCGGAGG autosomal
CCCCGCCGCCCACCGCCGCCTCGCCGCCGCGCAGCCCCAGCCTGGCACCG autosomal
CAATCCCAAGTCACATTTCCAAGTTCAAGATTTAAGGAAAATCTCAAAAA autosomal
GCTGGAGGCGGGTGTCCTCCTTCACGGGGCCGGTGCCGCGCTCCCGCCAC autosomal
GCTCTGGGGCTCCAGCTGCAGGACTGCCTCAGAGAGCAGGCTGGTGAACA autosomal
CACTGGTGAAGCCAAACATGGAGTACTGTGTGCAGTTCTGGACTCCCCAG autosomal
ATTTTGGCTCTCTTGACATTGTTTCTGAAGCTGCATAGGAGAACTTAGAA autosomal
AACCCACTCTCTCTCGGTTTGAAGCCATTCCCCCGCTGTCCTGTCAATAC autosomal
CCCGCCCCGGGCCGAGCACCGGGGCCGAGCCGGGTGCGGCCGTTCCGCGC autosomal
CAGATCTCTGCAAGAAGCCTGTGTGTGCCGAGCTCCTACGCTGCAAGTTC autosomal
CTTCCCGGCGGGTTTCTGCGAGCCGCCGGGCGCCTTGTCCGCCATCTTGC autosomal
CCCGCTCCGGGTATGTGAACAACCAACCCCCTGCCCCCCCCCTCCCCCCC autosomal
CTCCCTGGGCAGCCCCTGCCAGGGCCTGAGCAGCCTTTCCATGAAGAAAA autosomal
GCGAGCGCAAAATGGGCTGAAAAAACAGAATTTTGGTAAAAAACGGGTGA autosomal
AAGTATTTAATGACTAACATTAAAGGAAAATAAACCTTTCCAATCAATTG autosomal
CCAACCCTTACAACTTTCTGCAAGTCTAAAAATACTATCCCAGCACACAA autosomal
GAACCCTCCCGGAGCCCTCCCGGCACCGCCCGACCGCCGCCGCGCCGCCC autosomal
CGCACCTTCCTCCTGCCCGACCCGGCGCGCACCGCCTGGGCCGATGTGGA autosomal
AGCGGGAGCCGGCACCCCTGGGGACCCACCGGCTGTCCCCGCCGGGGCCG autosomal
TAGGGAACGGGACGTGCCCTGGCTTGTCTGGCCCCTGCTGCTGGACCGAA autosomal
GCGATGGTGCTGGAGACTCTGGCCCGCATCGTCAAGGTCCAGCTGCCCGC autosomal
GCCCGTGTTCAACTCCGACCTGCTCCGAACCACAGGTAAGAGACCTAACC autosomal
GAGTGCCCCGTGGCCAGCAGCCCAATGAGGACACAGGCGATGACCGTCAC autosomal
TCTTTTCCCCATCTGGCATGATTTCCTTGCCCTGTCTGTACCATTTGACA autosomal
GTGACGCAATCGGCGCGCGCCAGCGGGCTGTACCACTGCGGGCGGCGGGA autosomal
AGCAGGAAACGGAGATGTGCAGGGGTATTTTCCGCTGTGGCGAGCACAGC autosomal
CGCTGTCCGGAGGCTGGGAGGAGGCTCGCCAGGAGCACAGCCACGATCCA autosomal
GCCGCGACTTGGGCATGGCTGCGCCGTGCTCCGAGGCCCCCGCGCTGTGA autosomal
AGAAGGTGCACACAGGTGAGACGCCCTACAAGTGCGGGGTGTGCGCCAAA autosomal
CACCATTAAAATGCATCTTTCTGATAAAAGACCAGCTCAGCGTGATTCAA autosomal
GAAATGCTGAAATTCAATCTTTTCACGTAACTGCTGCTTTTCAGCCGCCC autosomal
GACAGGTTCCAGTCTGTTCCCTTGATGCCTTAAGGAGCTGCAGCAGAAGC autosomal
GGATTCCAGCTCCTCCCCGGGGGCCGCCGGGAATTCCTGCGCCGACCGAC autosomal
CCCCCAGGCTCAAAAGCTCCTCCCCTCCCCCAAAATTGGCCCCGGAGCGC autosomal
CGCAGCACCGCATCGCTCCCCGCTCCTCCGCCTGCTGCTGCCGACACCAC autosomal
CAGCCTCCTCCTCCGGCCGGTGCTGGGTCCTGCTGATTTCCAGCCTTGTC autosomal
AGCGCAGTTTAAATTTATTCACGAGGAATCCTCCCAGGAATGTGCCTCCC autosomal
CCGCCTTTGCGAGCTGTGCCGCCCAGCCCGAGCGGAGCCTTTCCGCCTGA autosomal
CAGAATTTTGTACTCAGGGTTCCACTCAGAATTTTGCAATCAGGGTTCCA autosomal
CCTCTGGTTTGGTTGTACAGCTCCGAGTCTGGGAGTTGTTGTCATTTTAA autosomal
GGGCAGCATAGAGAGGGCGGGCGGCGGGCGGAGAGCCCTCCGCCGGCGGA autosomal
CCGGGCCGGTTCTGGGAGCGTGGCCATGTGCAGGCGGGGCTGCGGGAGCG autosomal
CTAAATCAATACTGGACAGATAAAAAACCCAACAAAACAAAGCAGTCCAG autosomal
AAGACTGATTCAATTCTTCAAAGACAACTGCTCCCAACTTGTGAATACTT autosomal
CTCCCGGGCAGGGCAGGTGCCGGCAGGACCGTGGAAGCGCCTCGAGGTGC autosomal
CACGCAGGCTGTCAGCTCCGCGGGGAGAAGCTCTCGGACCGCGCTGGTGG autosomal
CAGGAGCAACCTTTAGCTACAGGAAGCTGAGGAGCTGGAGCTGAGGCAGC autosomal
GGTGGCTTTGGAGTGCAGCTGAGCCTCAGCACTTCAGTGGGATCCCGGAC autosomal
ATGGGCAGGAAATGGGGCTGGGGTCCGTGTTCCTCCCCCCGGAGCAGCTC autosomal
CCCCCGCGGAGCTGCGCGCGCCGCCCTCTCTCCTTTGGCGCGGCCGCCGC autosomal
CTGCAGGCTGTATTGTCTGATGGTGTGGATGACTTTCCCCCCGGTTATCA autosomal
CGCCATGGAGCCGGCGGAGGTGAAGGACCGCATCTTGGAGAACATCTCCC autosomal
CACTTCAGAGAACAGCAACACGATGGATTTCTTTTTCTGTGCTCTGGACA autosomal
ACACTCCGGGTTTCTCCGTGCTCGCCGCCGCGCTCTCTCCTGAGCCGGCC autosomal
AGCGCAGCCATGGCGGCGGGACCGGGAGCGGCGGGCACCGCTCGCGTCTC autosomal
ACCCAGTCTGATTGGTAGACAGTTGTTCTTACCAGGAAAGACACAAAAGG autosomal
GAGCGTCGAGTCGCCATAACAAGGCACCGGGGGAGCGAGAGGATTTTGTA autosomal
GAACCACGCGCGCTCCTGAGCACAGCGCGGAGCGGAGGTTCCCTGCTTCC autosomal
GGGGGGTCCCGATCTCCTTTTCCTCCTCATCCCGGGGATTGTGAACCCCA autosomal
ATCGGTCACGCGCGGGCCTCGCGCCGCCGCTCCCGCCGCTCGCGCGCCCC autosomal
AAATGTTGCCCTAGAGAAACACTGGGAAGCAATGCAAGCATGCCTAGCAG autosomal
CTTTATGCTTCAATATTTCAGTATTATATTGTAAATGCCTAACAGACGAA autosomal
CGGGAGAGCCGCAGCCTCGGCGGCGGCAGCGGCAGCAGCGCCTCCGCCCG autosomal
CCGGCAGGGGCGGCGGGCGGGGCGCGGCTGCCCCGGGCCGTGCGCGCTGA autosomal
AAGAATTCAGAATCCAATCAACCTGTGAATCGCTGCTTATTGATAAACAA autosomal
GCTGTACCCAGCAGCTTACGAGGAGTTGTTCCCAGCTGTGAGGTCACAGC autosomal
GGGGACGGTGGGGACAATGGGGACAGTGGGGACATTGGGGACAATGGGGA autosomal
ACCCGCCTCTGCAGGGGCAGACACCTAAATCCGAGCCCCTCTGCACTCCG autosomal
CGGACAGCTCGGGCATCTCCCCCTGAGGCTCCATGTCCGGCATGTCACGC autosomal
CCGCCGCGCCTGCCGCGCCGCCTGCGCCCGGGAGGAGCCGTTCTCCGGCG autosomal
GAAAGTTGAAATGATTACAAAAAAAAAACCCCAAAAATCTTAAAAAATAA autosomal
CCCCGAAGCCCTTGAAGGCCGGGCTGGGCCGGGCCCGCGCCGCCTCCCGG autosomal
AATAGACAAACACTAAATAAATCTGGATTAGACTGTTTCCAAACCTCTCA autosomal
AGTATCTACTCACAGATGCCGCCCTCTGGAAGAGGTGGAGACATCTGGTC autosomal
ACCGGCCGGGCGCCCCTCCGCGCCTCCCGCCGGACCTGCTGCGGGCAGAG autosomal
AGCAACTCGCCATCTTTTCCCTTCCCTTAATTCCTCCTCCTCCCACAGTC autosomal
CGGACCCCGGCCCAGAGATCTACGTCAGCTGGACTAGTAAAGGGACTCAG autosomal
CCCAAATTTTCGGGGGTCCCCAAACCCTCAGGGGTCCCCAAATTTTCGGG autosomal
CGGGCGGCCGCAAGATGCTGCGGACAGCACCCCGGCTGCTGCGGACCATC autosomal
GCCGCTCCCGGCGCGGGGCTGCGGCTGCCGCGGGGCTGACATAATCCGCC autosomal
AGCATCCCATCCGCCTTCCCCCTCCCCTCCGCCGGAGCGCAGCCCCGCAC autosomal
GAAACCCGAGTCGGGTCCACAGGAAGGGAGGAAGGGACTCGGGTCACTCC autosomal
CCAGCTCCGCACGCTCCTCCGCGGAGGGCTGTGCCGCCTGCCCGCTGCGG autosomal
ACTTGGGCATGGCGGCGAGCCCGGCGCTACGCCCCGCTGCCGCCCGCCGC autosomal
ACCGATGCGGATGTGCTGCTTCCCGTCGTAGACCAGCCACTCGTACACCT autosomal
CCCGGCGGCGCGGCGGGCGAGCGGCCCCGCCGGCAGCGCCCGGCGCGGCG autosomal
CCTCCCGGCCATGGGCTCCTTCCTGCCCAGCCCGCCCGGACTGCGTGTCC autosomal
CCCGGCACAGCCCGGTTACCCCTCCCCGAGCCCGGCACAGCCCGGTTGTC autosomal
CAGGCCCCGACGGCAGCGGCTCAGTCCGGCCCGGCCGCCATGTCAGCGGC autosomal
CCTGAGGATGCCTCCTGAGGGGAACTTTGGACTATGACTTAAGCCACCTA autosomal
GACACCAACTCAAAGATGGCGGTCACCATCTCCAAAATGGTGGCCACCAA autosomal
CAACACCCGATGCCCTTTACCGACACCCGATGCCCGGTACCGACTCCCGG autosomal
CTCCTCCAGCTTCTCCCGCTCCCGCTTGGCCAGGTACTCGCGGCGCGAGC autosomal
AGCACTCCATGCATTCTCCCTCTCTTCCTGCCCTTCTCCTGCAGACCATC autosomal
GGCGCCGGGCCGGACCCAGCCCAGCAGCAGCAGCAGCGGCGGCAGCAGCC autosomal
CGCCGCCGCCGCCGCCCGCGGCCGCTTCCCCGCTCGGCCGCCGCCTCCGC autosomal
CGGGGCTGATCCCACAGGTGATCCCGGGGCAGGCACCGGCGCTGAACCAG autosomal
TTGCAATGATGTTTTGAATTTCTTCACCTGAAGCAGCAGTGAAGAGCAAA autosomal
GTGCTGCTCACCTGCTGCTCACAGCTGTGCCCATGGGGATGAGGCTCCCA autosomal
TCCGCCCGCAACACAGACGGAAGTGCCGGCGGGGAGGGGGAGCGGGAGGA autosomal
GTCAAACATCCAAACTCCATCTCAAAATAGTTAAGCAAATATTTTTGCTA autosomal
ACTTAACCCCTCTCCCATATTTTTGGAGAATTCCTCTCAACATTTTGTCT autosomal
GAAATGGAACGGAAAGGATAATATCACAGTAACTCATTTGGCAGAATCAA autosomal
GACAACGAGGGGACACGGGGTCAGCGGGGACCCCAAACCTCAGTGTCACC autosomal
ACACAGCACTCATTGCAGCTGTTGGCCAGCGGGCAGGGGCCGCAGGGCTG autosomal
ATTTCAACTGCAGAGAAACATTTTAGGTGGTTCAGAAGCTGCAGGGTGGA autosomal
CTGCGGTTCATCGGCCGCACTCGCACGGCCACCTTCACCGAGGCCATGGC autosomal
AGGAAGCGGCTCCAGCCAGGGGAGTGACCCCCCAGCCCTGCCTGCCGCCA autosomal
AGTGCGGTGCTGCGCCGCGAACATGGCGTCGGAGGGGATGATCCTGACGA autosomal
AAAAATGCACGGGGAAGAGCAGTCTCCAAGCATCCAGTGGACACAGACGC autosomal
CTGTCCACGGCCAGCTCCGGCATGGCGCCGCTCGCTCCGACCGACGCGCC autosomal
TTCTAGAAGTGATAATGTAAGAATGCCAATTTGGTATCTTTAAACAAGAA autosomal
CGCCCAGCTCCGCGCCGGGATCCGCCGCCGCTGCCATGGAGCCGCATCGC autosomal
CACATCCTGGTCGAAGGGGTTGGTGGCGAAGAGCGGCATGGCGGGGCGGG autosomal
ATTCTCCTCAGGGCCGGGCTGGGTCTCGGCGCCGACTCTGGTTCTCCTCC autosomal
ATGAGCCAGTCGGGGCAGGGACTTGTGTACAGAGTATCCTGATGTTGGTG autosomal
CGGTGCGGGCTCAGGAAGTCGCGGGCCAACTCCAGGTCCTGGAAGTGGGC autosomal
TGCCAGAGCAGCAGCAGAAGGGCCATGGAGCAGTACTTCTCAGCCACGCA autosomal
AGGCTGCATCCCAGAGCTGCTGTGGTCCTGGTGGATATCCAGCCATGAGG autosomal
AATAAAAACAGCGGCCGGGCCCTGGAAATTCACTTTACACATGGATTTTA autosomal
GCCACCTCCAGGGCCTTCCCCTTCACCGTGTTGATGACGTTCTGCATCGC autosomal
CGGCTCCGCGGGGCGGCGGCGGCGGCTCCGGGCCCGGCGCTGGGTGCGCA autosomal
GCCCGCAGCCGCGCCATGGAGCGCCGCGTCGCCCGCGAGTTCCGGCACAA autosomal
AACAGCAGCTGAATGTGCATTAAATTTGAAGAAGATATATACAGTACAAA autosomal
CTCTCCGCCCCGCTCCGCTCCGCTCCGACGGCAGCGGGGGGACGAGCTGC autosomal
TAACCGAAACCCTCATTATCCCTCATTTACCTAGGAAACAGACACCAGCA autosomal
CAGTTCTCTTGGCAAACCTCAGTTTTAACTAGAGTGTTTGCTATGCCAGA autosomal
CTAAACCCAACAGTATCCCAAAATGTTAAGCAAAATACAAAAAATGAAGA autosomal
CCCCTCTCCACTTTGGCCGCCCCCTCACCGTTCTCTACCTCGGTCTCTGA autosomal
ACGGCCGGGGCGTGAGCAGCGTGAGCAGCCCCGGGCGCGGTGACAGGGCC autosomal
CGAAGGGGATGGGACCTGATCCATCCCGTCATCGGAAGAGTTTTACTGCA autosomal
CCCGCCCTGTCCGCGGCCGCCATGGGCTCCCTGCTCAGCCGGCGCATCGC autosomal
ATTTGCAGGTTGATTTTATTCTTTCCCATATTTCATTTAATAGTTCTGCC autosomal
GCTAGCGGTGGGGCCGCTCTGCCCCCCGTGAGCCACCCCAGCCAGGACAA autosomal
AATTCATAACGTCAGGTCGCAGCTGAGTCAAAGATAACAGCACCTGGAAA autosomal
AGACAGAAGCACTGTCAGTCCAGTCCAACAGTTATGCATTTAATATTGAA autosomal
GGAGATAGAGGTAGCAGCTTTATATTTCTTGTCTTCTGAATATAGCCTCA autosomal
CTGGACCTCAGCACGCACCTGGCCAAGATCTCGGCCGAGCTCAGCCTCGC autosomal
CGGCAGCGGGCTCGGCCCCCTCCAGCCGCTCCCCGGACGGGCCCGGCGGC autosomal
GAGCATGCCACCTGCCAGGGCAGCCCATGCCTTCCCAGCGAGCAGGGAGA autosomal
ATATACAATCAGAGCAGAGCCCTTAGCGCCGGCGGTCACTGTGGCCGGGG autosomal
CGCCTCGGCAGTTTTGCGACAGCCGTAAGTGCGCGGGGCGGCCGGCGGAG autosomal
AGCGCCGGCACTCACCCGTTCCTGTCGTACTTTTTGAACACCGGGAAGGC autosomal
CGTGGGCGCTGCGCGGTGTGGGTCCGCCGGACGGCTCGGCAGTGAGCGAG autosomal
GGGGATTCAGGCTCTCAGGAGGAATAGATTTTAACCAACCCTTAATCATA autosomal
TCACATCCAGTTACTTGTGAGAAAAGCACATTTCTAGGTGAAACATGGCA autosomal
CCTAGGAGCAGGAGGTAGAAGGAGTTACACATTCTAAACCAACCTCCCTC autosomal
GCACCGTGGAGGGGACGGCGCGCGGCGGCGGCGTCGACTACGAGGACGCC autosomal
ACCCGCCGTTGGGGCTGGGACAACGGCGAGCCAACCGCCGGGCTGGTGGC autosomal
CGCCGCCGCCGCCCGGCCCGCGCCCAGCGCCGCCATCTTGGCCAGCCCAC autosomal
AGCGCGGGCAGCAGCGCCGGGCCGGCTCCCCGCACCCCGCGGGGCGAGGG autosomal
ACAGGAAAACGTTCTCCTCCCCCATGGCCACCCCGGGACCCCCAAAATGC autosomal
CCATCTTGGCTCGGGCACCGGCCTCCCCCCGCCCTCCGCTCTCCCTCCCG autosomal
CGCGCACCCGCGGCGGCGGCGGCCGCTCCGGCCCGTCCCTGTGGGAGCCG autosomal
CATGGCCTCGGAGGGGGATTTGGGGATGCCTCTTCCTGACTCAGCACCGG autosomal
ATCCATGCTGACACAGGTTATCGCTCCGTTTGCCCTCTTCTGACTCGCTG autosomal
GCGAATGGATGTTTCTCGGGAGGAGCTGGCTCTGCCCTGTGGGGTTCAGC autosomal
CTTCCCCGCCGCTAGCCGCGGCCACTTCCGCTTCCGCTTCCGCCCGCGGC autosomal
GCCTGGCCACGGCTCCCAACGCTCCCGCCACCTCCGGTACGCAGTTCAGA autosomal
GTAATAATAATAAAAACAAAGTAACTTTGTTAATGAATTGAGATGAATCA autosomal
GGAGCCCTCAGACCTCATCACTGTGGTGGGTTTTATATCCCGACCTCCAA autosomal
CCTCGCGAGAGGCGGCGGGAGCGAGCGGAGGGGCGGGAAGGGGGCGCGCC autosomal
CTGCAAGTTACTTTACACTTTATCTCTCATCTCTACTCCAAGGACATTCC autosomal
CAGAGGGACCTGAAAATGACTGCCCAAACCCCCCCTGAGCCCCCCAGATG autosomal
AGAAAGAGCGCAGATTTGCATGCAATCTGAATTTCTGATAAGGAGGGAGC autosomal
TAGTTGACCTAGGCCTTCCAGAGAAGATTTGCCACACACAAGTTGAGACA autosomal
GGAATTACTGCTGCAGTGTTTCCAGAGTCTTGGGGAAGACAACTTCTCAA autosomal
AGGGACGAGCACTACGGCCGGGGGGTGGGGACCGGGTGCTGCCCGGCGGA autosomal
CCGCTCTTCCCCGCCGGCACCGCCCCGCCTCTCGCGTTACAGGCGACAGC autosomal
GCGGCCCAGGGGCGCGTCCCGCCCGGCAGAGCCCGGCTCAGCACAGGGAA autosomal
GACGTTCAACGTGGAAGCCGTGGGCATCGGCAAGGGGGACGCGCTGCCGC autosomal
GAATGTATTGTCTGGTTTGGATGCCTACATTGCTGCAGTAAGAGGAGGGA autosomal
GGGGCGGCAACGGCGCTTCGCGCTCCCTCGCCCAGAGCCGCCACCGCCAC autosomal
CCTGCCGGCGCCTCTGCCCCACACCGGCCCGGCCGGGCCCGGCTGCCCCG autosomal
CTCCGGTGACCTGTGCTGGGACTGGAGAGTAGCACTGAGTGAAGCTGGGA autosomal
AGAGGAGGAGCAGGAGCAGCAGCAGCAGGGGGAGGCAGCCCCCGGCCGGC autosomal
CGGCCGCTGCCAGCAGCCCTGCGCCTTCCTGCTCCAGCTGTACGCGCCGC autosomal
AGGATGAGGATGTGGATTAGCATGAGGATGAAGATGAGGGTGAGGATGAG autosomal
CTCTCCGGACCCTCCCCGGCACCGGCAACACTGGATACCGCTGAGTACCC autosomal
GCCAGCACCCCCGCGGCCGGACCCTCCACCTCGGCCACCACCGCCCGCCC autosomal
GCCCTGAGCGGCGACCGGCAGCGCACGGTGCAGGAGTTCCTGCTAGCCAA autosomal
TGAGACTCTGGTGACAGTGGCCTCCAAAAAGAAAAAGGATGGAGAGAGCA autosomal
CCGAGTTGGGTACCGTAGCTGCATCCTGGGGGATTGAGCTAATATCCGGC autosomal
CATCAGTTCCAGGACAAAGTCTGTGAGCCCTCTTTTCAGCACCAGCTCCA autosomal
CACGGCCGGGGAAGGCGGCTCCCGCCGGGCCCAGCGCGGCGGCGGATGGC autosomal
CCGCAGACCTCCCGCCGCAGCGCGCCGCGCCGGGCTCCATGCCGCGCTCC autosomal
CTCGCTCCCCGCGCCCGCCGCGCTCCCTCCCGCCTCGCCATGGCGGATAA autosomal
CACTAAACCCAGTCAATTATTCAAGGCTGTCTTACGTTAGAGCCTTTCAC autosomal
ATAACTCACACCTCCCTGGGAACAGGACAGAACACCTTCCCAGGAGCAGG autosomal
ACTCCTCTGTGCTGCTCTGCTCACAGGCTGAGGAGACCCAGGCCACTGCA autosomal
CCCGCCGCACCTGCGCCGCCCGAGGGCTCCACGTGGAGCTCCGGGAGCGG autosomal
GGAAAGCGGTCGGCCCCGCAGCCGGGAGCGGGGCTGCCGCCGTCAGCAAA autosomal
AGACCCGGGGCGGCGGGGCAGGCGAGGACAGCCACCGCCGCAGGGCCGCG autosomal
ACCGGGCCCGACCCTGCTTAGCTTCCGAGATCAGACGAGATCGGGCGCTC autosomal
CAGACGGACGGAGCGGACGTGCCACGGTGCCACCGAGGGACACAGCTGAG autosomal
ACGTCGGCCGGACGGGCAAGATGGCGGCGGCGGAGGGGAGCGGGGCCGGG autosomal
CCTCTGGCCACAGCAATCCAAGGCAAAGGCTGCTGTATGCCCTGGCCAGG autosomal
AGCGCCCCTCACAGCGCCCAGCGCCGCCGCGGGGCCCGGCCCTGAGCACG autosomal
AAGGCGGCGCCGGGCAGCGGCGCTCCGGCCCAGCGCGGCGGGGGCTGCGG autosomal
CTAATGATACCTGTGGAGGGAACTGAAATTTAGTTTTAATCTGTGGTGAG autosomal
GCCTCCCGGAGCTTCCCAGCATACAGTTGGTATTTGAAATATTTATGGTA autosomal
GCCGGCGGCCGCCCCGCTCCGCTCCGCTCCCGCCGCCGAGCGCTGCCCGC autosomal
ACACCGGGCTGTCCCTTCCCCTGCTGGACAGGGTGGCCAGGACACTGCCA autosomal
CGGGCGGTGGTGCTGAAGGACAGCTCCGCCCCCTCCCCTCCCCCATCCTC autosomal
GCGCTCGCTGCGCGCCGACCTGCGCGTCCGCCGCCTGCTTTCTGGGGAAA autosomal
AAACTACCCGTGACAAAACAAACTCCATTAAATTATTTAAAACGTGACGA autosomal
CTTCCCGCGGGCGGCTGGGCCGGGGCGGCCCTGGGCACAGCGGGCAGGCC autosomal
CACGTCGAACACTTGTCCCCGCACCATCTCCGGGCCGCCGGCGCTGGCGG autosomal
AAACATCAGCCTTTGCCTGAGCCTTTAGCAGGTGATTTTACTGCAAACAC autosomal
AGTCCCGCTGGGACACGGCGCGGATGACCCCGGCCCGCCAGCGCCCGCTC autosomal
CGGATGCTGCGGTGGCGGAAGTAGCTACACCATGTGCTGCTACAGCAGCC autosomal
GGCCAGTTTGACCTTGGCGAAGTTGCCTTTGCCGATGGTTTTCAGCAGCC autosomal
CTCCTGCCCAGCATGTTGGGACCTCTGTTTGGTTGGTCTCAAGGCTGCAC autosomal
GAACTGCTCCAGGGCCGACGCCATCTTGGCGGCTCGCGCCGCGGCCGAGC autosomal
CCCCGCACGCCCCGGGGCGGGCCCGCCGCCCCACCGCCGCTAGTTACCCA autosomal
GGCTGTTCTTCCCTAGCAGCAGCGGCGGCAGCAGCAGCAGAGGCAATGAC autosomal
ATATTAGCTCAATCCCCCAGGATGCAGCTACGGTACCCAACTCGGACACC autosomal
GCCCAAGAAAGAACAGAATGTTTGCTGTGAAGCATCACAGTGTAACGAGC autosomal
CACAAGAGGCTCTGAGCTGCCCGCAGCTCAGAGGAACAGGCTGCCAGCTG autosomal
GGGGAGGGCTCCCGGTGCCCTGAGGGATGCTGCGGACCGGGCTCCCGGTA autosomal
CTGCCAGGGGGCGCAGCGGGCGGGCGCGGCGCTGCGGCGCGGGGCGTGGC autosomal
CGGTGCTGGCGGTGGGGACAGCCCTGCCCCGCCCGGGGCTGCTCCCGCAC autosomal
TGGGAAACCAAAAATCCCAATGGGAAACCCAAATTGTCCATGGGAAACCA autosomal
CTGCCCACTTTAAATTTTGTATCATGTTGTAAAGAACATATTCTATCAAC autosomal
GCAGCTGCCGCTGCTGCTCCATCAGCAGCAGAAACTGCGAGAAGGTCCGC autosomal
GTTAGATAACTGCCTTCAAACAATAGGCCGTGAAAATATTTGAATACAAA autosomal
CGAAGAAGTTCTTCAAGGGGCTGATGGGCTGCGGCTGCTTCGCCATGGCG autosomal
CAAAGCTCCGCCCAAAGCCCCGCCCAAAGCTCCGCTCAAAGCTCCGCCCA autosomal
CCCGCGGCCTGAGCAGCGGCCCCACTCGTGCCCTGCGGCCCGCGCCATGA autosomal
ACAACGGGGCGGCGTCACGGCAGCGCCACACCCCCCCCGTCACGGCGGAG autosomal
AAGATCGGCTCGGGCTCCTTCGGGGACATCTATTTGGCGATCAACATCAC autosomal
CCCCGGCCCCGCTCCCCTCCGCCGCCGCCATCTTGCCCGTCCGGCCGACG autosomal
AGTACACAAATACCACTTACCTATCACTGCTTACCTCCATGGAAATAGTC autosomal
ACCTAGAGCAGGCAACACAGAAACGTGTCCAGGTGGGTTTTGAATGAACC autosomal
AGCTGATGAGCTATGAGCCAACTCCTGCCCCAGTTACAGCCGTGCCATTC autosomal
GCGGAGGCGCGGAGCAGGGGCAGAGCAGGGCCAGCAGAGCGGGGCCAGCA autosomal
CACACGGAGGGCACAAGGTGCCCCATCGCTGCAGAGTCCAAGCCGGGCTA autosomal
CCGGTGCCGGCGCGAAGGAGCGCAGCGCCGCCTGCTGCTGCTGCCGCCGC autosomal
GGGCGGCAGCTTGCCCTGCCCGGGGAGCGGCGAGCGGGGCGAGCCCCGCA autosomal
ACAACAGCAACCCGGGAGCCGGGCAGATGGTCTACTGCCGGCCGCCAGCA autosomal
ATGGTGTTCATTACAGAGCTTGGAGATAACTGGTGAGGTTTTTTTATGTC autosomal
CAGGACCCTCCTGAGTGTCCCAGGGATCCTGTCTCTGGCACTCTGCTGGG autosomal
AGCGGTGCGGCAGGCACCGTGCGGGGCTGGCCCCCCCCCCGCAGGCAGCG autosomal
CCCTCGCACAGATTGCTTAAGAGCATGGCACTCCGTGGAGTTTGACCCGG autosomal
GCCGCCCTGCCGGGGCGCGGCGGCTCCTTCCGCCGGGAGCGGCGCCGGCC autosomal
GTGAGGCGCGGCCCCGCCATGGCGGCGCAGGGGGAGGACCCGCTGGGCTA autosomal
CTTCGCGAGTCCTTCGCCGAGTTTCTGTGTGGAGAGGGAATGAGAACAGC autosomal
GCAGCAGCACGTAGCAGAGCACGGTGCCGATCATGCCGCCCGGCCCGGCC autosomal
AGTAGAGAGCTCTGTTTCTTGTCCAGATGTGAACTGTCCCGTGTTTTTCA autosomal
AAACCTCCGAGAAAACTCATGGGGCGCCCTTACAGGTGGAGGATAAAACG autosomal
ATCTTGGCCCGAGTAAACGCCACCGCCGCCGCCGCCGCCACCAAACAAAC autosomal
GGACGGCTCTGCGGGACCCGGCTCAGCTCGGCTCAGCGGGGCCGGAGGAA autosomal
AACACCTTCCAGAGCGGCTTCCTCTCGGTGCTCTACAGCATCGGCAGCAA autosomal
CGCGGGGTGAGGTCGGTACCTGTCCTGCTCCTCGCCGCGGGGCCCGTCCC autosomal
ACCTGGCACAGCAGAGGCACTGGCTGGGCTGCACTTGCATTCAGCAGTGA autosomal
GGCCCCGCAACGCCGCGCCGCGAGACCCGCGGCGCCGGGCTCCCCGCGCC autosomal
CACGGGGGTGAGCGGTGACGTAAGAGCGGTTGAACGGGAACGGCAGCCCC autosomal
ATGAGCGCGTAGTCACTGAGGCGCTTCCTCTTCTCGAACAGTGCCCGGCG autosomal
GGGGCGGCCGCAACTGGGGCACCCAAGGGCGCCCACCCCCCTCTCCCTGA autosomal
CTTGCTCCTTTGGGATCCATGTCCAAAAGCGGCTCCTGCCAGGTCAGTGA autosomal
TCAAACTGGGCAAGTACCTGTCAGACCGCAAGGAGCCAGGACCCAAAAAA autosomal
ACATCCTTGCCAGTCCCAGCTTCACTCAGTGCTACTCTCCAGTCCCAGCA autosomal
CCCAGGCTCTGCAGCACTTTGGCTTTGGAGAGCCGCCAGAAGCTCTGGGC autosomal
GCGCCTGCCCCGCCAGCCGCCCGCAGGAGTTTTCCCGAGTTCTGTTTACA autosomal
GGGAACGGACCCGAGATCTGGGGGGAAAAACGGGGAAATCGGGAAAAATA autosomal
CCTAGAGGCCTTCAGCTGCCACTCCAGATGGCACAGGAATCCCAAAACCC autosomal
AAACAGGCTCTAGCTGGGAGGCAAGGACGCCGAAATGCAAAACCGAGCCC autosomal
GGACCCCACATTGATCCCTGTGCTTGCTGCAGCACTGCTGAGCCAGGCCA autosomal
ACAGCGTCCTCAGAGGCACCGAGAGCAAACTCGAAGGCTTCCAGGTTCCT autosomal
CTCGGTGCGGTCGGGGCACCGGGGGGTGGACTACAGCTCCCGGCAGAAAC autosomal
CTCTGTGTCCTTCCAGCACAGCTGCTGCCACCTCTATGGTCAAATCCTGA autosomal
CCTAGATGTTGACATGTAACAGAGCTGGCAGCAGGATGGTGGTTGACGCA autosomal
CGGCAGCCAGGACTGGCTCCCGCCCGCGTGGTGCTGCCGGTTCCCCGGAG autosomal
GAGCCGAGCGGTCCCGCGGCCGCTGCTCGCGTGGCGGGAGCCGCCCCCCC autosomal
GAGACGTTCCGGGGCCGCTGACGTTTGCGGCGAGGAGCGGCGGGGAAGGC autosomal
ACGGAGCCTGCGCTGCCGCCGGGCGGCCCCGGGGGGGGGGCGGGCCCCGC autosomal
AACTCGCGGTCCCGCAGCGCGCCCAGCCCGTCCCCGTGCCCGTAGCCGTA autosomal
GCTGCTCCTGATACGCCTTGTTTGGGACCTTCCCCCTGCCTGGACCCCTA autosomal
ATGTTCTTTTTTTCCAAGTTATGGGGGAAGACTTCTTCAGTCTGTCTGTA autosomal
AGGAGCGAGCGCGGCCCGGGAGCGGCTGAGGCGACCCTGAGGGAGCTGCA autosomal
CCCAGGCCAGCCTGCGCAGGAAGGCGCCCAACAGCGCCCGCTCCCGCTCC autosomal
CTGCCACCCCTCACTAATCCCAGCCTCTGAGAGGACCTGGACAAAGGGAA autosomal
CCGAAAGAAACCGGTAAGGGCCGAAAGAAACCGAAGGGCCCCGATTCCAA autosomal
CAACCGGGACAACCGGGGCCGGGACCCCCGGGAATGGACCGGGACACTGG autosomal
AGAGATTCTCCTTTCTTTTTCCTTTACATGGGCGGATGAAAGTGTTTCAA autosomal
CAGTGAATTCTCCAAACCCAAATGGCGCCAATGCAGAGCAGCCCAGCCAC autosomal
ACTCCCTGATCAGCTGCTCAAGTTGGGAATTTTCTTCCTCCAAGCGTCGC autosomal
AGCGGCCGCGCCGCCAGGAACCGGCGCTGGAAGCGCAGCGCCAGCCCCGG autosomal
ACGGGGCCGGGAACGCACCTCTCCTGGCCGGGAACGGGGCCGGGAACGGG autosomal
CTGCTCCGGGCTGGGAGCGGCTGTCCCGCGCTCTCCGCCCCGCACTGAGC autosomal
CGCCGGTCGGTGCGGGCTGCGCGAAGAGAAGGGCGATGCACAAGGAGCCG autosomal
CCGCACAGCAGCTCGGCGGGGCCGGGGCCGGCTGCGGGCGGCCGGAGGAA autosomal
AAGCCGCATTTCCGAGCACACCACGATCTCCGAGGCTGTTCTTGCAAGGG autosomal
CGGCCGAGGAACCTCCGCGCCGCTGCGGCCCCGCTGCCTGCGGTGCCCTC autosomal
GGCGGGGAGGAGGGCTGGGAGAAGGCGGGGAAGGGAAAGGAGGGAACGGA autosomal
GGTGTCCATGGGTGCCCCGCGGCCGGCGGGAGGTGAAGTGTGCCAGTGAC autosomal
CCCGTGACGGCCAAGCAGCTCTTCGACCAGCTGGTGGCTCCGCGCATCGA autosomal
AAGAGTCAAAATGGAGTTACCTGGAGGAACAGATTTTCATAGTATGCTGT autosomal
AAGAAGGAGATCGTGGTCAAGGGCGACGAAGTGATCTTCGGAGAGTTCTC autosomal
CTGCCCGCTCGCTGGTGATGCTCCAGAGGGCAGGCGGGAGGAGGTCACGC autosomal
CAAAATCCCTCCAAACCCCCCCATAATCCCCCCAAAATCCCTCAAAATCC autosomal
GTTGGACCCAACGATGATGAAGAACCCAACGTTGACCCTGTTGACCTCAA autosomal
CTCCGGGACAGGCAGGTTAGCTGTTTCAGGCAACAGTAACAACGTGGATC autosomal
AGCTCGGGGAGAGCAGCCCTGCTCCTCTTGTGCCTCTGAGCTCGGCACCT autosomal
CGCACGGAGCCGTTCCCCGCCGCCTCCAGCTCCCGCAGCGCCGCGCCGAG autosomal
GGGCCAGGATGCTTCTTGCAGGCACAGCAGAACACCCCACAAACTGGTGA autosomal
CTGCCATGGAGGTGCCTGGTAGCTCTGCTCAGGAAGTGTGTGCTGCCATC autosomal
TGCGCGATGCCGTTGCCATGGCAGCGGGTGCCAACCGGGAGGTGCCGCCA autosomal
CAGGGAACCGAGAGGGCGTCAGAACACGCGGGGACATGGCAGAAGGAGGA autosomal
ATTCTGGGCCATGGTATACCCTTTAGTTACATATCCATAATCAAACAGCC autosomal
AGAGAAGGAGGGAGCGCCTCGCCTCGCCGTGCCACCCGCCTCGCCGCCGC autosomal
GCCCCGCGTTCGCCCACCAGGTACCGCACGATCTCCAGGTGCCCATCGAA autosomal
CAGCCTGGGCCCCCGGATGGCAGCTGCGAGCAGCCAGGCCCCCTCGGACC autosomal
AGGTGGCACCAGGACCTTGAGGGCCACCAAGAGCTCTGGAGGTGGCACCA autosomal
GCCGCTTCACTAAAAAATTCTTCCTTAAGCAAACTGTCTGCTGGGCTGAA autosomal
CCGCCCCGCCCGGCGCGCGGCCGTCACGTGACCCGGCGGCGGCCGGCGCG autosomal
CGACCTCCCCTCCACTGCCACATCCCTCAACCTCTCTGTCAATATCTTGC autosomal
AACCTTAAAAATGAAAACAGCCCACCTAGTCAGATGGTTCATTCTAAAGA autosomal
GATGAACATCATGGATTTCAATGTGAAGAAGCTGGCGGCTGACGCGGGCA autosomal
ATATCAAAGTGCCCTGTTTTGGGCTGACAAAGTAGCTTCACTCTCTCATG autosomal
AGGAACAACAACAACAACATCCGGCCGCGGGCCCGCCCCGCTCCCGGCAG autosomal
ACCTGATGCGGGGGATATTTCGGTACCTGACGCGAGGGATATTTCGGTAC autosomal
CAGCAGCAATGGTGGGAGGCAGAGCTTGGCTCCGGGGCTGAGCCCCCACA autosomal
CAGGGTTTAATTCTTGCTTTGAAAATAATACCTTCTTTGGTTCACCAGCA autosomal
CCAAGTGCTTCCCTGACCTAACGCCGTCTCCAGTGAGCAGCTCCCCTGGC autosomal
CGCCGGGCCCGGGGCAGGCGCCACTGTCCGCGCTCCTCCTCCTCCTCCTC autosomal
ACAGGGAGAGGGCGGCTGGGCCCGCGGCCCTCCGCTGAGCTGACAGCCCT autosomal
CCCTCGGGATTTACCGGGAGCGGCGGCATCGCTTTAAAGCGAGTCTGAGG autosomal
ACTTGCCAGGATCCCTCCTCTCGCCGCTCCTCCTCCCTCGAACCACCCCC autosomal
CGCCGCTCCCGTCGCGCCGCCGCCGTCACCGGGGTCCTCTCGCAGCCGCC autosomal
CCGCGCCGGTTCCGCCGCCCGCCGACGCTGTCGGTGCCGCCGGCGACGCC autosomal
AATTTTAGCAACAAGCCGAGGAGAGCAGCTCCCAGAAGGCGAGCCCTGCG autosomal
CTCGCGGAGCTTCTTCAGGATGGTCAGCAGCCCCATGGCGGCGCGGCCCC autosomal
GCCAGCGAGGCGGGCCGGGCGCTGCAGCTGATGAAGAAACGGGAGCGGCA autosomal
AGTATGCTTGCCTTAGTCACCCTCTCTGTTTCTCCTGAATCCCACGTCCC autosomal
CAAATCAAGACCGGCACACAAACAGGGCTGGAGCTTTTTTAAGCACTTGA autosomal
AGGGAGGGAGCCCGCGGGCCGCGAGTGGTCGCCGCCCGCTCTGCCGCCCG autosomal
CTAAAATTACTTTCGACCACAGCTATCCTGGATTATTCCAGGAGAACTCA autosomal
CCCACGAGCGACACGACGAAATAAACGAGGAAAACGTTCCTGAGCCGCAG autosomal
GAGGAGGATGATGATGAGGAGGATCGGGACCCGCCGGCGGGGGGTTCGGC autosomal
CGCTGGGCGGGATGTTCGGCTCGCAGGCCCCGGGGCCGCCGCCCGGCCCG autosomal
CCCGGGGGAGGGGGGCACCGGCGGGGGGGGGGCCCCCGGTAGGGGGGGAG autosomal
CTCAGCTCCGGCTTCGGCGGCTCCGGAGGGAGCGGCGGTGGTGGCGGCTC autosomal
CAGGAAAAAAGGGAAAGTGTCCCAGGAAAAAGGGGAAGTGCTCCAGGGAA autosomal
AAAGCAATGTTGGCCTCCAATGGTAGCATTAACTGCCTTCGTACAAGAAA autosomal
TCAAACACGTCATGTGCAAACCACACGTCCAAGAGGGAAGGGAGAATGGA autosomal
GGTGTCCCCAAGCTCCCCCCGAGGTCCCCAAGGCCGCCGCGGCCTCACCA autosomal
CCACCCAGAATGTACTGGTGTGTGGGAACGGAGGAATCCACTGTTTGCAG autosomal
CAGCGGGAGCAGCAGCGGGAGGCTCCCGTCCGCGCCGCCCGGCTGCTGCA autosomal
CCTGTGACCTTTCCAGAGCTGTTTTATCCTCTCCTGGCTGGTTGCTGTGC autosomal
CCAGCGCCGCTGCCCGGCCCGGCCCGGCCCGGCCCGGCCCCGCCGGCACC autosomal
GGCTGTGTCATTAAATCAATTGTCCCTGTAAAAAAAGGGGGTGACCTGCA autosomal
ATGGGACGGGCGCGGTGCGGCGGGACGGGCTCGGCTTGGGAAGGTCCCCG autosomal
CCCAGGGGGTGGCGGGACCCCCAAAGGGAGCTGGGACCCCCCCAAAGGGG autosomal
CACAGCTCAGGTCAGCAGTCCTGAGGTCCAGGGCAGCCTGGATGCCCTGC autosomal
AGTGCCATCACCTTTTGCCAAGGCATGTTTCAGTTGAGAGATGCTTTCAC autosomal
GAAAGCCAAAGCTGCGGAGCCCGCACAGAACCCACCCGTCCGCAGCGCGC autosomal
CCGGCTGGTGTTGCAGGGTCCCGACCCGTTCCAGCGGCAGGTGGGCCGGC autosomal
AGCCCGGAGCGGCGGCAGCGCGGAGCGGACCCGCCTGCGACCAGCGAGGC autosomal
AAACATGGCGGCGGCGTGAGGCGGGCGGCGGCAGCAGCGGCTTGACAGGA autosomal
AGCAGGACAGGCATGAAAGCAGGTCCTGGAGGAGAGAAACTTCGCCAGTC autosomal
CTGCCACTTCACCACAGAGGACCGCAAGCAACTGCGCAGTCATCTGTGCC autosomal
ACAAGCCCCTAGATAAATAAAGGTAGAAAAAAAAAATCCCGTAAAAAAGT autosomal
AAGCGGAAGTGACGAATGCGGAAGCGCAGGGGCTGAGGGGGAATAGGCGT autosomal
GCGAACGCGTCCTTCGCAGGCTGTGCCTCTCTGCTCCCTGCAGTGCTGAC autosomal
CCCCCCATCCCGATAGGATGTTCCCAGCTCCTTGCCCGGCGGCGGGGAAC autosomal
CGGGCAGAGCTCGGCGTTCACGCCGCAGGCGCCGGGCTACGCCAGCGCCC autosomal
AGATGAACCTATCACAAACTGGCAACAAAGACTATGTTTTTAATTGCACT autosomal
AAAGCGCTACTACGAAGGCTACAGCAGCTCCTCAGCCCCACGCGCCCTTG autosomal
CCGGCCCCCGGCAGCAGCCGCCCCCCGCCCGCCGCGCCGGTACCGGTACC autosomal
AATCACTCCCAGAGTACTTTAAGTAGATGTTGGTGAGAGATTTAGTTGGT autosomal
GCCCGGGCGGTGCCGGCGGTGCGGGGGACGCCGGGGATGTGCTGAGCGGC autosomal
CCCCCTGGAACAGCGGCTGGGAGCAGCCGAGAGCCCCGCGCTGCCCATCC autosomal
AGCTCTGGTTCCCACTGTCGGCCATTTTGGTTTGTTCTGAGCTCTGGTTC autosomal
CCCGGTGGTACAAGAGCAGCAGCAGGATAAGGATCGCCACGATGAAGACG autosomal
GAGGAGCAGGAGTACCTGCAAGCCTACGAAGATGTCCTAGAGAGATACAA autosomal
AGCGGGTGCCGGTGGCGGTGCTTGTCCTCCTGCACCTCCAGCAGGTCCAG autosomal
CCACCACCACATCGAACTCTGTGGGCAGGTTGTCCGCCATCTTGGGAGGC autosomal
AAAACTGCTACTGACTAATATTTTTAAAGCAGACAATCTAGTCAATCTAG autosomal
ATGTATTAATTATACATCTCTTGATGGATATTTTGTTTATATTTATAATC autosomal
ACGTGTCAGAGAATCCCAGAAGCTTCCTTTCCCACACAAAAGGCATTTTA autosomal
AGCGCGGCAGCGGCGATGCGGAGCCGGGGCGAACGGAGCCGCGGGTAGCC autosomal
AAATCCCCCCGGACCCCCCAAATCCCCCCGTACCCCTCCTCGGGCGCTGC autosomal
CTTGCTCACGATGAGCTAACGGGAGAGGAGTCAAAGTGCTGAGCAGGCAC autosomal
GAGGGACGGAGGGAGGGGTCCCGGTCCCGGGGGATGCGCGACCCCCGGGA autosomal
CCAGACCCTGCCCGGCTGCCTCACGCTGCGGTCTCCTAACGCGGATTCCG autosomal
CCCGCCGGGACCTCTCCGGTGCTCTCCGGTCCCGCCGCGCCCTCCCCGGG autosomal
CCGCGCGGGCCGGCGCGGGGCCATGGCGGAGCTCCGGGCCCGCCTCGAGG autosomal
GCGTCCCTTTGGCTTTGTTTTGTTTCAGTCACACTTTAAAAAAAGAGAGA autosomal
GACGGGGGACACGGGCATGGCCTCTGGGCCTGCGAGTGCTGCGGGACCTC autosomal
GCGGGGGCAGCGCCGCACGCCCCCGCCCCTCGCCCGGGGGACGCCGAGCA autosomal
ACCAGGCGGAGCGGGACAAGCCGCGGGCATCGCGGCAGAGCCGCCCTCCG autosomal
CCTCCTCCTCCTCCTCCGGCGGGCTCGGCTCAGCGCGGAGCCGGCAGCGC autosomal
CAGGTTTCCTTTTCTTGTCGCTTCTCCCAGAGACTGGCATTCACTCACAA autosomal
GCCAAACTGGTCCAAATTGGTCCATGGAAATTGGGCCAAACTGGTCCAAA autosomal
CTGCCGGTCCTGGCGGCGCTGCTGCTCTCGGCGGCTCCGGAGCCGGTCCC autosomal
ATGAGGCAGCTCCGGGCCGCCTGAAGGCACGGCCGGGAGCGCCGAGCGCC autosomal
TGGGGCTCCTGGATGCCGGAGCTGCTCCTCTGCCTTGCTGGTCCGTCACA autosomal
GCGGTGCCGGAACAGCCGCGAAGGCGGCGGGGCGGCCGCTCCTGGCTTCC autosomal
CAGACTGGAACTGCTCTGCACTGCACACCCTACATCTGCAATCAAAAGTA autosomal
CCTTTTACACCGGGATGTGTGCGGTACTCAAGCACCAGGTGTGTCACGGA autosomal
AGAGCTCACGGGGAATCCCAGCCCATGGATCACCCCACAGTGGGGGATAA autosomal
CACTGTGAATTCTCTAAAAACTTAATAATATTTTAGCAAAAATGTCACAG autosomal
GACACAGCCATGGGGGACTCTCCAGCAGATATTGTGGATGGAGGCACGGA autosomal
ACAGCCTTGGGGTCCTGACCATTCCCTGGAAGCCCTTTCCAGAGGCCGCT autosomal
AGTTCTTCTGATGTAGGGGCTTTGGCTACACATTTCACCCTCCTTGGCAG autosomal
CCATATGTAGTGAGCATGCGAGAGGAAACCTGAGAAAAATGATGAAGCTA autosomal
ACCGCCAGCTCCTGGAGGCCCATCCCGGGAGAGCCGCACCGCGAGCGGCG autosomal
ACCCCGCGGGCCTCTCCGGGCGCTCGGGCCGGCCAGGGGGAGGGAGGGAG autosomal
TGCCTCCACAGCCATCCCATCCTGGGCACCAACAGTACAGGCACAATCCA autosomal
GGACTGGGTCTGTGGTTCTGGCTGGGACTGGTCTGTGGTTCTGGCTGGGA autosomal
GCCATGTTGCAGTGCTAGCAGGCAGCGCAGAGGCGGCGGGCGGCAGCGCA autosomal
AGAGCAGGCAGGAGAGGCACATCCCGGTCATGCTGCCCGCGGCGCGTCCC autosomal
ATCTCAGTCCTGCTCTGTCACAGGAACTGTCAATGTGCATCCAGGAGACC autosomal
CTGTAGGCAGCACGGGATCGGCAACTTCAAGGAAAGCCTTGCCCTCCTGA autosomal
CGGGGCCGGAGAGGGCAGGCGGCGCGGGAAGGCGGCTCCGCCGGCATGGA autosomal
GCAGCTGCAACTGGGAATAGGGTCAGGGCCAAGAGGAGCGGTGGTGCTCC autosomal
TCCGGCCGGGAATTCCTGCGGGATCCGGGCTTGGCTAAGCTCGGTCTAAA autosomal
AGGAGGTGGCCAAGATGGCGGAGGCGGCGGCGGAGCTGCTGGAGCGGGCG autosomal
CCATTCCAGGATTTTATTATTCTAGTCTAGTGTTCCATCTTACCAGAGAA autosomal
TAATATATTTTTCCATGTACTTATCACAGAAGTCAGCGGCTGCTGCCCCA autosomal
AGTACAAATATAATGTCAGGTGGCTGAAAATTTGACTATCAAAATGTCAA autosomal
GCCGCCATCCGCACCGCCATCCTCCTCCTCCCCGGTGCCGTGCACCCTCA autosomal
GATGGCGGGGGACGAGGCGGGAGTGACTCTGGGGCAGCCGCACCTCAGCC autosomal
GGCCGGTGCTGCCACAGCGGCGGCCCCATGTTTTCCCCCGGCCAGGAAGA autosomal
ACTTCTCCACTGCACTTATATGAGGCTGAAGTTGCAGTCTGAGGGGGAAT autosomal
AGTTCTAGAATATGATTAGCCCCTGCTAATCCCTAATTGGCAAAAACAAA autosomal
CAGCCTCTCCTGGAGCGGGGATGTGGGGACAGAATTGGGATCAGCGGTTC autosomal
GGAAAATTCACCATCTGTTTAATTGGTTTCTGGCTTGTTCAATTGTAAAA autosomal
AACCCAAACCCTGCAAAACAGCACTGCTCTGGAGCCAGGAAAGCAGTGCT autosomal
CGTGCGATGTTTTAACCTCGGTGCCCCCGCACCCTGTGCCCGAGGTTCAA autosomal
ATATCAACTGATTTCCTTGTTAAGCTCTAATCAGAGTATATGATCTTTGC autosomal
CAACGGCACTGGCAGCGGGACCGGGACGGCGGCCGGGAGCGGAGCGGCGG autosomal
GCCAGTTTGGGATGTAGGCCAGTCTGAGAGAGGTTCTGGTGGCTCCGTGA autosomal
CACGGGCGAGCCGGCGGCCAGGGCCCGCTGCCGGCCCGACACCGCCTCCG autosomal
CGCGGAGGAGGCGCAGCAGCGCCAGGCGGGGCTGGTGCGACAGCTGCAGA autosomal
CGGCCGGTCTCGCCTGATCTCGGAAGCTAAGCAGGGTCGGGCCCGGTTAG autosomal
CCTACAGCAGAAATACAGGCGGCGGCAGTGGCGCCTTCCAGGGCCATAGG autosomal
CACAGTCTCTGGGAAGCAGCGTAGAGGAATTTTGTCACCTGGACACTGCA autosomal
CCGCCATGACCACCACGGCCACGTTCTCGGGCATGGACCCCAATGGCAGG autosomal
CGGGGGCACCGGCACCAGCTCCAGCCGCTCCACACGCCACACCTGCAGCC autosomal
CTTCGCCGCCCCCGCCGGGCCCGGGCGGCGGCGTCAACGTCTTCGCCAAC autosomal
AGCACCAAGCATAATTGCCAAATAAAGAAAAGAGTGATATTCAACAGAGG autosomal
AGCATTCCCGGGAAATTCGCTGCTCCTTTCCTGTTTTTCCAAAAAATTCC autosomal
CGAGCCGGGGCCGCGCCGCCTCTGCCGCAGCCGCAGCGCCGGAGCCGAGA autosomal
AGTTTGGAGAAGATGTTCGCCTTCTCCAGGGGAGACCTCTGCATGGTGAG autosomal
GCGGACTGGACACATTTTACACCCTGAATACCTGCAGCCTTTACCCTCCA autosomal
CAGATCCCCCGCGCTCGGCAGCTTCGCCCACCGCAGCCGGGCGCCGCCCG autosomal
TCCTGGTGTGTTCAGCACTTGCAGGATGGAGCAGGGACTGCTCTCCTGCA autosomal
CCGCAGGGGCAGCGGGGCGCGGTGCACAGTCGGGCCGGATCCCCGGGGAG autosomal
GGCCGCCCAGCCCCGCTCCCCTCTGCCCCTCCCGGGCCCCTCACGGACCC autosomal
AGCGGCGTTGTTTGGGTTCGCGGCCGCGGAGCGGAGAAGCTGCGGCGGGG autosomal
ATACGGAGAGCTGGCATAGCCGTACACTGGCTAAAGGCCGCGAAAGTACC autosomal
CTACCAGCCCCAGGGAGCCGTGGCAGCCCCCAGCGCGGCGGACGCCCACC autosomal
GCCAAGGACTGTTCCCCGGCGGCGCTGCCGCTGCCCGCTCGGGCCCGTTA autosomal
AGCAAGTCTCCAGGGGGCTGAAGGGGGATGCGGACGCCCCGCGGCACCGG autosomal
TATGTTTGTGACAGCAGAGAACTGGAAGACTGGTTGATTGACATACTAAA autosomal
CAAGCCTGTATGGGCAGTCTAGTGGGCCTGAGACAGCTAAAATCTAGACC autosomal
GCACGGCCTCGCCTCCCAAAACCGAGGCCGAGCAGCCAGCGGGGCCTGGC autosomal
CACCGCAGTACCACCTCCACAGCGGCCCCAGCACCTGTCCGCGCCCGCCA autosomal
AGTAGTTTGTCACAGATAATTCTTTTTTTTTTAGAGAAGTGTTTTTTGCA autosomal
CGCGGGCCGGGCCCGCGCAGAAGAAGCAGAGAAGGAGCAGCAGCAGCAGC autosomal
CCGTGGGGCTCCTGGCGGCCCTCGCCTACTTCCTCACCTATGTGGCCTCC autosomal
CAACAACCACATGGCCAAGGTCCTCACCCCGGCGCTCTACCAGAAGCTGC autosomal
ATCCCATCCCAGACCCCAAATCCCATCCCAGCCCCCCAAAATTCCATCCC autosomal
CCACTCGGCGGCGGCGAAGCTCAACGAGGAACGGACGGGAACGGACCCGA autosomal
CAGGGCACAGAGCGGGGGGCACAGCGGGGCCCCCCCGCCGCCGAAACCGC autosomal
AAGTAAACACAGAGCTTTTTTCTCTTTCTTTAATAGGTAAATGGCACAAA autosomal
CGCGCGCACCAACCGCCGCCGCTCGCGCGCCGCCGCCGCCTCCTCCTGAC autosomal
CCTCCACCGGCACCACCGGCCCCGCCCCGCCCCTTGACGTCACAACACGA autosomal
GCCTCGGCTTTGCGAGCTCCTGCGTCCAATCTGGGGACAGAAACATTTGA autosomal
GCGGCCGCCATATGCCGCGGCTGCCGCGGCGGCTCCGAGCGGCGCTGCCC autosomal
CCGCCGGCCCGAGTGGCTGCTGGCCGCGCAGCTGGTGCAGCCCGAGGAGA autosomal
GCAGCAGCCTTTGCAGTGGCAGACATCATCGTGGTGGCTCTGTACTTCGC autosomal
GAAACCTTGGAGACACCCAGAGCAGCAGTGTTTCTCCCAGCACAAAACAA autosomal
GGCTGCGTGCGCCGTCTCAGCTGAGCGCCCCTCGGGCTCGTCCCGGGAAC autosomal
CGGGTCGAGGCCCAGTTCGAGGCCCAGCTCCGCACGCAGCAGCCCCAGCC autosomal
CGGCCCCGAAGCCCTTGAAGGCCGGGCTGGGCCGGGCCCGCGCCGCCTCC autosomal
GGCTGCCGAGCACCGCGCCCGGACCCCATCGGCCCGGACCCCGCTGAACC autosomal
GCTGTGGCTGCTTAATATTTACTCAAAGCCACAATCACCTTCTGATCTGA autosomal
GCTCGCCCGCGCAGCGGCTCCGCCTCGGCCTCACGCGCGGCGGGCACGCC autosomal
AGCAGGACCTACTCTGGGCTTTAAAACCTGCGAACTCTGCCTCCAAACTG autosomal
AAAACACAGCCTTGCCGGGGGCTCGGTGCAGTCCCGTGCTTCCCTCCTGC autosomal
CAGCTCGAATCACTTTCGGTCCTATAGGAGGGTCAGAGCTAGGGACAGAG autosomal
TCGCTGTTCCAGAGGTGTCCCTGGACGTGGACTGGAGCCGGAGCGGCCGA autosomal
GCTCTGCTCTCTTCTTGCAGCCTGGAGGAGCCTGTGGCAGCGCGGGCCCC autosomal
CAGCGCAGGAGGGGCCCTGGGCGCGGGCTTTGGGGGCAGCTATGGGGCCG autosomal
ATGAAGCATATAGTTTGGGCAATCCAATAAAGAGGCAAGTCTGTCCTGTC autosomal
AACTCAAGCCACAGGTTCAGAAACAAGCCTGTGCCTGTGGGAAGGAGGGC autosomal
CCATGTTTCATGCAACTGTTTGCAATATCCATTCCTTTAATCCTCTAGAA autosomal
CACCCGACCGGGGCTCCGCCCGCCCCGCACCGCCCCAACATGTCATGGGG autosomal
GCCCGGGCGGGCGGCGGCTGCAGACACAGCGCCAGGAGCAGCAGGACGGC autosomal
GAGCGGCACCGGCAGCCGGGGCTCCGCGGCGGGACTGGAGCGGGACCGGC autosomal
CTGCGGCGGGAGCCGAGTTCAACATCCTCCTCGCCACCGACTCCTACAAG autosomal
GTGGCCGAGCTGGGGCTGCCGCAGCTGGAACTGCTCAAAGGGCAGCTGGA autosomal
AACCAGAGTGGCTGTGCCAGGGCTGGGGTTTGGGAATGACCCTTGTGAGA autosomal
CTGCAGCCCCTGCTGAGGTACCGCTCCTTCGCCATCCTCTTCCTCACGCC autosomal
GCTCCCATTGCCTCCTTCCCACTGGCTTCAAAGTGGAAGCGGCAGCCCCA autosomal
GGTTTTTTGGGGGAAAAAAAGCCCCAAATAGTTAGGCGGTATTTGAGATA autosomal
CCGGTGCCAGTTCCCGGCTGTCAGTGTCCGGTTCCCGGTGCCGGTTGCCG autosomal
ATCATTTTACAAAAGAAAAAAACCCAAATAAATTGCATTTTTAAATGGTA autosomal
AGATTTTTGGATAAAGATGCCCCTGAAATTTTCACAGGTAGTGCAGGTAT autosomal
ATTTCTTGCTATCTGTAATGAATGACTCAGTTCCTGCCATGTTAGATGCA autosomal
GAGGCCAGCGGGGGAGGGCGGGCGGCCCGTGCCCGCCGCGGCAGGTGCGC autosomal
GGGGCAACTTCTCCCCAATCATGGAAGGGATGGAGGACATCCGCGAGACA autosomal
CGGAGCCCAGCACAGCCGGGCCGGCGGGGAAGGAGCCCTCTCCGCAGCTC autosomal
CTGGCCTCGCTCCTGGCTGGAGGAAGAGGGAATTTGAGGGGCCCAGCCTC autosomal
AGAGCCGGAGCGGAGCGGGACCGGGCGGGACCGGGTACGGAACCGGGTAC autosomal
AATGTCCAACTCCAAGGAGCTGACCTTACGGATTCACTACAAGCACGTTC autosomal
AAATTCCCAAAATTTTACCACAAAAATCCCAAATTTTACCCCAAAATTCC autosomal
AGGTGGTAGTGCACTTCAGAGTAAGCATTGACTGCCTCCCATCATTGGTG autosomal
GGGACGGTCGGGACTCGCCGGCCGCAGGCAGCGGCCCTGGGGACCGCCCC autosomal
TCTAATAAATATCCTTTAGTGATAATGAAAGGAAGAAGACACAGGAAAGA autosomal
AAATAAAAACCTTCCATTACAATTTATTTCGCCGTCTTTCTACGGCACGA autosomal
GACCCCCGAAGCTGCAGCCATGGGTAAGGGACCCCCCGGCCTCGCCCCGC autosomal
AAGTTCTCGGTAGGAAGCTAAATTGGCAAGAAAATACCAACTTTATGCAA autosomal
AGGCATAGCTGGTTCCTTCTCTATCCCTCCACTAATGCATCTGACAGCTG autosomal
AAGAAGCACCTCTTGAAATGTCTGGAATTGATCCTGGCAAAACAGAGGAA autosomal
CCCCGGCTGCGCACCGGCGGTCACGGCGCTCGGGAACGGCAGCGCGCCCG autosomal
CGCTCCCGGAACGCAGGGTAGAGGCGGAGCAGGGCCGCGCCGGGGGCTCC autosomal
GATGAGGTAAGAGGAGCGTGCTCAGCCTGGGCTGAGCAGCGCTGCTGAAA autosomal
GTGTGGTCTTTGTGCAGTTCCAGACCAGGAGGTCAGAAGAACCAGGCAAC autosomal
AGCGCCGTGTAGGTGCGGAGGCTGGGCCAGGGGAAGCGCTCCAGGAACAG autosomal
CGGGGACAGGAACCGCCGCGGGGCCGGCCGGCGGCCGCCCGGGCCGGGGA autosomal
CCGCGCTCGGGGCGCCTCGGGCCGCTTCTCCCTCCTCTTCCTCCCCAGCA autosomal
ACAACAGCGACAGCAGCCAGGGCCTGGGCACAGGCATGAAAGCACCTTTG autosomal
ATCCAGAAGAAAAGAAGAGGAAGGATCGATTTTACCGATCTATTTTGCCA autosomal
ATGCAGCAGGTGAGCGAGCAGGAGGCTGGCGGCGGGCAAAAGGATTTTGG autosomal
GCCAGATCACATTGTACAAATCGTATGTAAGACATGCAACCCAAACAACA autosomal
CAAATGGTCTTTCTTGGTCTTTGCAGTGAAGTCGTCTTACAGTCACCAGG autosomal
GACAGCAAAAACAAGGTGGCACAGGTAGCTCTCCCTCAGGGGGGACGGCA autosomal
AGCGCCAGCAGCTGCCTGCCGGCCATGGCGGGGGGAACCGGCGCCGGCAC autosomal
AGGCGCCGCGCACTTGTGCCGCTTGCCCGCCGCCTCCGCTGCGGAGCGGC autosomal
GCCTTGCCATCCAGTGATGGCTTCTTGGGAAATAACACTCTTTATGATGA autosomal
CGGCTATTGTCTTGTAAACGAGTAAGGAAACATCACCCGGAGCACGCTGC autosomal
CTTTCCAGGTTTACTCTTATGCATACAGTATCTTTACCAAGGCTGGGATC autosomal
ACCTGGAAACGGGGAGAAAAACAAAAGCGAAACTTGTTTACTTGTGGCTC autosomal
CGGCCCCAGCGCCGCGGACAGCCCCGGGCGGCGCAGGAAGCCCCGCCGGC autosomal
GCCCGGTCCCGGCCGCCCGCAGAGCCCAGCGCCGGCCGCCCAGCCGCAGC autosomal
CCCCGCCGAGGAGGACGGGACGCGGGCTCACACGGCGAAGAGGAAGAGAA autosomal
TCAGCGCGGGTTCCATCGGCGGCACAGCTCGGCACTCGCAGCGCCCGCCA autosomal
AGAGCGGCGGGAGAGGCCGGGGGCACCGGTATCGCCTCCATGGCGTCGGA autosomal
GACATCCTCCTGGTTAGTGTTTGGGGTTGGGACAAGATGCCCACATCAGA autosomal
AAGTAGCTAATCAAGGATGAGCCAAACAAAAGGTACTTGCTACTTATCCT autosomal
AAACTTAAAAGTACAGTAGAAAAAATAAAAATAAGCCATCTCCAGAGTTC autosomal
AGAAACACTCGCTCTGAGCTGATACATCCCACAGATGTTATTTTCCAGGG autosomal
CTGCGGCCGCTCCCGGCAGCCCGCGCGCCGCGCGCGGGGTTTAAACCGGC autosomal
CGCCCGGAGCCGCTGCGGGATGCGGCCAGCCTTCCGGAAACGCTTCCCAG autosomal
AGCAGCTGCGGGCGCTGGCGCAGAGACCCCTGGCAGTGCCCGACCTGTAC autosomal
GATGTGGGTGAGCAGCTCGGGCTGGAAGGTGGCGGCGGCGCGCTCCCTCC autosomal
CTCGGGAGCAAGAGGAGCGGACAGCTCTTCATGGCCCCGATTCCCCCTTC autosomal
GGGCTGGGAGCGGGGGAGAGCGGCGGCAGCGTTGCTGCCGAGGGGGGGGA autosomal
CCGGCAGAAACGGAAGTGACGTATTCCGTACGGAAAGATGGCGGCCCTCA autosomal
CAAACGAGAACTTTTTTCATCCTCGCTGCTTTATTAGGCCGATTTGTAAC autosomal
CTTTTTGTATCATGTCCAGAAAATTTTGATGCATGAGGACTTGTAAATCA autosomal
AGGACCCGCCGCAGCCGCCCGTGAGGGAGCAACAGCCCAGCCCTCGGCGG autosomal
AATGGGGGGAAATTGAGCCCTTGAGGGGGAAATGGAGGGAAAATGGAGCC autosomal
CATGGCGGGCGGGCGGAGCGGCGCGCACCGGGCGGAGCACCGAGCACGGG autosomal
CATATTCACACAACAAAAACAGTGGCTTCTAAAATAATTTTCCCTGAAAA autosomal
CGCGCTCTGCCTCCTCCGGAGCCGGAGCCGCCTCAAACTTTTAACGTGTC autosomal
AAGGACTAAGCAAATATTCTGAGCTGGATAAATATCTCTATGATGGAGAT autosomal
CAGCAGCTCCAGCGCGGCGGCGGCGGCGGCGGCGGCGGCTTCGGCCTGAG autosomal
GGGCGGAAGCAGGTGCGGCAGGAGGAGCTGCGGCGCCTCATGAGGGAGAA autosomal
CCATGCCGGGCCTGCCTCGCCGCCGCCGCTTTGTTCCGACCTGGGCCGGG autosomal
AGCTGCCCCGCGCCGATGAAGCCCACGCTCATGGCCGCCGCCCGCCGCCG autosomal
TAGACAGCTTCACATTTTGATTAAAAAAAAAACGCCCTACAAAACTGAAA autosomal
CAGCTCCGGCAGCGGCAGTTCTTGCACTTGCAGGACCCGGCGCAGGAGCA autosomal
GGCTGCTCCAGGCCGGGCGCTACATCATGTCCCACAAGGCCTGGATGAAA autosomal
CCCCACTGCCAGCCTGGAGTGCCGGCTGAAGGAGCACGCGGCCCTGGAAC autosomal
ACCGCGGGAAGGGAACTGCCGCCGCTCCCGGGCGCGCTGGCGAGGCCGAT autosomal
TACTGATGGAGACCAGTGGCAACTGCACTAGCAGGGCCAGCACAAGGGGA autosomal
ATTTTCAGTATTCGTACCAGCATTTTGCCCCAGCTGAAGGCATGTCGGCC autosomal
AATATACAAATTTGTTATGTTACAAGAAGTTATTTCAATAATCCCTCACA autosomal
AACCCGTTCGCGGAGGACGAGGAGGAGGATGCGGCGGGTGCCGGCGGGGC autosomal
AGGCTTCAGATGCCTGCCCATACAGAGTAACATCACATCGCTTCAGAAGG autosomal
GACCCGGTGACACTGACCTGCCAGGGCTCGGGGACCGCCGGTGCCACCAC autosomal
AGTCTCATTTGAAGGGTGAGACAATACAGATGTTACAATTGGCACCATCA autosomal
CCTGCCCACCCTGCCAGGGAACAATTCCCAATTCCCAATCTCCCATCCAG autosomal
ACGGCATCTGTTGCCACCATAGCAGTTGGTGATGCAGGAGATGTCAAAGC autosomal
ATGAAATAAGAAATCTGCTCCTTCTCCTCTGCAGTCAGCTGAACCCCATG autosomal
CCTTCCCCTGTGCTGGTCACCCTGCCAGGACCCATCATGACCTCCTTCCC autosomal
CCCTTGATGTTGGCTCCGCCTGTCCCCAGCGAAACAAATCTGTGGGCTGA autosomal
GGCTTGAGCCCGGCAGTCACAGGATGGGCTGTCAGCTTCTCTGCAGGCAC autosomal
CCCCTCTCTCTTCCTGATGTGAGGAGATCACACTTGAAGGGTAATCTTCA autosomal
AGTTTCACGAGTGCATGCTGATGACTTTTGTGAGGTAACAACAAATTGGA autosomal
ATTGCTGGGTCTGTAAAACCTCTGAAGCAAGCACTGTTTCTCATTGTGAA autosomal
GAGGTCAAGTTTTTTCTCCCATCTCCAAAACAACTTGGAGGTTCAGGAAA autosomal
CCGACCGTCTCCAGGAGGGAGTGAGGAGGAGGAGGAGGAAGAGGAGGAGG autosomal
GACCGAGACCGGGCCGGGACCGGGCCGGGGCACGACCGGGCCGGGGCAGC autosomal
AGAGTTCTATCACATCAAATCACTCTCTTTAATTAAATCTTAGAAAAAAC autosomal
ATAAACTGCCGCAGGGAGCGGCTGCGCGGCTGCCCGGGCAGCCCCCGCCG autosomal
CAGGGCCGGGCCGCCGGCGCCGCTCCGCTGCTGCGGCTGCTTCCCCCGCC autosomal
TCCAAATGCCACCCAGAGGGCACCTGATGGGCACCATGGGGGTGTTCCCA autosomal
TAAACTCACTCTGGCATCATCATTTTCTGCTCTTTCACAATAAGCCACAA autosomal
CCGCGGGCTGGGCGCTGCTGGCCCTGGCGCTGTGTGTGAGCGCGGCGGCC autosomal
GCAAACTTGGTCAAAAGCTTGTCTTTGCATAGTGCCTCAGGACAAAGCAA autosomal
ACTCGCACTCCGCTCGCCCTTATCCATCTCCCTCCAGCCCCTTCCTTCTC autosomal
CTGCCAGCACCAGCTGCAGGCAGAGTCCTTCGGGCAGCAATGTGCCAGCA autosomal
CAGGAACGCAGCCCCGCAGAGCGGCTTCATGGCTGGGGCGGGCGGCGGAG autosomal
CACAGACACGATGGCCGGAGCCTATGGGAGAGCCACCACCATCGAGTTCC autosomal
CCGGCCCGGCCGCTGCTCCCGCCCCTGTCACCGGAGGGTGGCACAAAAGC autosomal
CACGACCCCTCATTTCTTTATGAAGTACAACTTCTCAGTGAAGTTTGAGG autosomal
CCAGGGATTTGCAACAGGAGCTCTCAAAGCAGAGATGTAATTAAACTAAG autosomal
AGGCGGCCAATCAGGGGAGCGGAAGCGGCGCGGCGGCGGTCACGTGATCG autosomal
GGAGGGACACGTTCCCTTGGAACTCTTTCGTAGTCATATCGCCCTTCAGA autosomal
CCGTGATTGCTCCTGAGCCCCCATCACTGTCCCTGAGCCCCATCACTGTC autosomal
CACGGTGAGAGTGGCGGTACCGCGGGGCCGGCCTGGGGCTCGGAGGTCTC autosomal
CGGCGGTCCCGCTGCTCCTCCTGCTGCAGGATCTCGGCGCGCGCCGCCGC autosomal
AATGCGGTAAAAGGGGTTTGGGATCATGGGAGGTGACATTCCTGGAGGCC autosomal
TCACCTCTGCATGATGCACTGGAAATTAAGAGGACAGCAGGAGTGAGTCA autosomal
GATTACTTTTACAGGGAGATGAGTAAATGATCTGAAAAAAAAAGAAGAGA autosomal
ACCGGTCCCGGCCCCGAAGGAGGGGACAGCGCGGTGCCGGGGAAAGCCAC autosomal
CCCCGTGGACACCCGGGACAGTCTGAGGACACCCGGGATAGTCCTGAGGA autosomal
CAAAGAGCAGCAGTTAGAAGGAGAGTGTTCAGGCTCTCCATTGTGTTATG autosomal
ACGTGGCCGTGTGTAACCTGGCGTTCGCGGGGCGCCTCGAGGAGCTGCGG autosomal
AGCAACACAGGGATCTGCCTTAGAATATAGACAGGGAAGGAGATTAAAAA autosomal
CCTCCAGGGCTCCATTTACCTGCCAGGAGCTCATTGACCCCTCTGGGCTC autosomal
GACAACTGCTGTGCAGCTCCTCCACCCTACAAGACGTTTGGTTGATCTAA autosomal
CCGCCCCTGCCCGCGGTGGGGAGAGCGCCGGGAGCGGAGCCGCTATCCCC autosomal
CCCGTGCGTGTCGGCGGGCGGCCAGGATGGATCACCACCAGCCCGTCAGC autosomal
GAAATAAAATTTCTCTCCACTGATCCTCTCTATATGCCATCTGAAGACAC autosomal
GATGTGTGGCTGCTGTGGAAGATCAGTGCTGAGATGGCACCAGTGGAGCA autosomal
GGCGCATTGCGCGCAGGTTGCGCGCACTCGTGGGAGGTGCGCATTTGAGA autosomal
GCGCGTCCGGTTCGGGCCCAGCCCCACAGGTAACCGACCCCTCGGCAGCC autosomal
GGGCAAAGGGAATGGATTGGGATGGAGCAAAGGGAATGGATTGGGATGGA autosomal
CCCTCGCGGCCGCGCCGCTCTCGCGTCCTCCGGGGGCCCGCGGGGCTGAG autosomal
CTCCACATGCAGGGCGCGGGCGGCGGAGCCGGGCGGTAACGCGGCGGGAC autosomal
GGACAATCTCCTCGGTGTTGCTGTAACTGCGACTTTGTCTTTTTTGGATA autosomal
AGGTACTCCATCTCCTGCCGGCACTGCGCCGGGCCCTTGGCCCAGGTCAC autosomal
ATGCCTGGTGGGGACCTTGTGAATTTAATGAGTAACTACGATGTTCCAGA autosomal
CGCCCGCACCGGGCTGAGCAGCAGCAGCGCGGCCAGCGGCAGCGCCCGGA autosomal
CGGCTGAAGCCGAAGCGATGGCGGATGAGGCTGAGCAGGTCGGTGACGAG autosomal
CTTCCTTTTGCTGCTGCTCATCCAGCTCCAGTCCAGCAGAGCCAACCCCA autosomal
CAGGATACCGATAAACGGGGAGTCTGGGGGGGCTTTTGCCTTCCCTCCGC autosomal
AGAGACAATACAAAACTTATTATTTTCCTTTATCCTTTTCAGTGTTTTAT autosomal
CACACAGACAGGTTCCAGTCTGTTCCCTTGATGCCTTAAGGAGCTGCAGC autosomal
ACGCCCATGGCGGGCGCTCCGGCAGCAGCTCCCGCGGCGGCTCGGCCCGA autosomal
CCGGCAGGCCCCATAGCGCTACGGCGGCCGCCCGGCCGCCATCTTGCAGC autosomal
GAGCCGCCCAGGCGCCCGCGCCGCACGCACCGCGCCAGGCCGCGCCGCGC autosomal
ATCCCGATCCCGATCCCGGTCCCGGTCCCGGTCCCGGCCTCGTCCCGGTC autosomal
AAAAGAAGTTGTTTTGAGCCATGCTGCACCTCAATTTCAAAACTAATGCT autosomal
GAATCATTATATATATTTCTTTTAATCATCTTTGTCATCTTATTTCAGTC autosomal
CCAGTTTGGCATAAACTATTTTATGAAATGAAAATTGAAAACAGACATTA autosomal
CCGGGACAAGGCCCCGAGGCGCAGCCCGCGGGCACAGCGCGCCCAGCCCC autosomal
CGACAGGCTCGGCTCCTGCCTCTTCTCCCGCACGCCCGCCGCGATGTCCG autosomal
AGACCGCGCCGGGAAGCCCCGAACGGCGCGGGGAAAGCTCCGGGCGGCTC autosomal
CACAGGCTATAAAGGAAATCAATATGTACGTGGAAACAAAAACACATGGC autosomal
AAAGTCCTGCAGGGACTGGGAGGGGCAAGCATCAGGCATCAGCTCTGCCT autosomal
CGGCCCCGTTCCCGCTGCAGCCATGGCGGACGTGACCGCCCGTAGCCTGC autosomal
AAAGCTTGATTTAAAAAATGGAGAGAAGAGTCAATCCTCCATAAACGCAG autosomal
CCGCCCCCATCAGCTGGGGGTGTGGCCCGGAAGCGCGGCGCCTGAGGGTC autosomal
AAAAGGGGCGAAAATGGGGAAAAAAAGGGGAGTTCCACAGCAAATGGCTG autosomal
ACTGCTTCTGGGCAGGAGGACAGGGAAAAATGCACTGGCTGCAAGCAAGT autosomal
CCTGCTCCGCCGCCTCCTCCGCGCTCAGCCCCATCGCGCCGCCGCTCCCG autosomal
CCCCCTCACAAAAATTGTGCTTCCGAAATCTCTTGATGTCGATTCCGCGG autosomal
CCAACGCCGCCATGAGCTCCGCCATCGCCGCCGCCAGCACCGCCCCTCGC autosomal
AGGATCCTCAGGTACTCTGACCCACTGAACCCCATCTTTGTGTGCTCTCA autosomal
ATCTTGCTCTGTGCTGAAAGTGCTTTTTAGCAGGTGTGCACTTCAAAATA autosomal
GATTAGGTTTCATTCTGCCCAGCTTCAGGTAAGGTGGTATCACTGGAGTA autosomal
CCTGGGCGCTGCCTCATGCCCGGCGGCCGGCGGGGCACGGTCTCATGCCA autosomal
GGGTACCATGCTGGTACAGGCTTCTCTTACTTTTCCATTTGGATAGCCAA autosomal
CCGCCGCCGCCGCCGCCGCCGCCACCGGGGCCCGGCGCGCTGCGCGCCCG autosomal
CCCGCACATCTACGCGGTGGCGCAGGCCGCGTACCGCAGCATGCTGATGA autosomal
CCGTGCGGCCGCCGCCCTGGGCCGCTGCCGCTGTGACCCGGCTGCGGGAA autosomal
AATCCCTGCGGGGCCCCACGGGGCCAGAGCGCTACAACGTCCTCTGCGAC autosomal
GCAGGGCACGGTGCTGTGCCCTCGTCCTGCGACTGCTTCGTGGCACTGCC autosomal
CCCTGAGGTGGGCTAGATAAGGGAACAGAGATTTTCTCTCTGTGCTGGCA autosomal
CGCTGCCGCTCCCGCTCCCGGTCCCAGCGGCCCCAGGCGCGCTGCCGCAG autosomal
AGATTTGCACAACCACTCTCTTCTTGTAGTGCAACTATGCAAAACTAACA autosomal
AGGGCTGGAACAGCCGGGATGCCCGGAGCAGCGCGGGTGGCTCTGTGCCA autosomal
AGCGCCTCCATCCCGCGCCCGCCGCCGCCCGACGCCAGCGGCCGCCGCCG autosomal
ACCGACAGCCACTGCGCCGAGTCGGTGGCCGCGGCCGCCGAGGCGGCAGC autosomal
GCGAGCGACACTCCGCACGATTTCATGGAAACGCAGCGTAATTAACTCGC autosomal
CTGCAGTAGAGGAGTGGGGATGTGCACAGTGGCTGCCAGCTTGTCCTGCA autosomal
AGGACCTGCTGCAGCCCATTCAGGTGGTGGGACAGGCGCTCCTCGAGCTG autosomal
ACAACAAGGGCCCGCAGTCCAGCGGCCCCGTGCTGCTCTCCCGCCGCCAC autosomal
CTGCACACAGAGGTGGCTTCTGCTCATCCTTCCCTTTCAACAGGTCACAC autosomal
AAAACTGCGGTTTTCAAACTGCGGTGTCCTTCTGCTTGTCGTCTTCCCAC autosomal
CTACTGGAAATGCTTAAAAACAAGGATTTGAAGAAAATGCTGTTAATAAA autosomal
GCGGGCGGGGACCCGCGGCCGCCTTGCGCCGCCGTGGCGGGGACGTCTGA autosomal
AGCAAAGTACGTTACACTCTCAGTGAGCATAAAACGTCCCCAGACGTCTG autosomal
CAGCAGCATGGCAGCGGCGGGCGGGCCGGCGGGCCGCGGCCCGGGGCTGC autosomal
GAGAGGGCGGGGCTTCGGTTCCCTCGGCAACGGCGGCGGCGGCGCGGGCC autosomal
CGGCTCGCTCGCCCTTCCCTGCCCGCCCGGAGTGCGCCTCGCTCCGCGCC autosomal
CGGAGCCGCCGGAAACCCGCTGGTGCTGCTGCCGCCGCCGCTCCGTGTCC autosomal
ACCCTGCCCAGCCCACAGAGAGCACCTGGCACACACCTGGGCAGTGTGCC autosomal
GCCGCCATAATTCCGCCAGGCACCCACAGTGCCCCGCGGCGCGCCCAGGC autosomal
CCCGGTGAAGGGCGGCGGGAGGGCGCGGGCCGCGCCCAGCCCGAGGCGGC autosomal
AGACAGTGTGGTGTTGTTTTGTGTTCCCCAGGCCAACGCTGCTCCAGACT autosomal
AGCACACTCAGACAATGAATAGAAAAGGAATCTAACAACCTTCAGCCACT autosomal
GATTTCTCTCTTTCCAACTCCCACAACCCAGGATAAATTTGGAAGGCTAA autosomal
CGCCGCCTCGCCGCGATTTCAAATCCGCCCGCCCGGACGCGGCCCGGGGC autosomal
ATCTGAGTGAAAAAGCAGAGACAGAAGCAGAGACAGTCTGTTGGGTCAGG autosomal
CACCGGCACCCACGCGCCCACCCGCGGCGGCGGCGCCCCCGCCGCGTCCC autosomal
AGCGCCGCCAAGGCCTCCATCGCCGGCTCTGGTGGGATCGGCTTCGTGGC autosomal
GGCTCCAAGGGCCGCACAGCAGGACCGAGGAGCCCCGGGGGCCCGCAGAA autosomal
CCCGGCGCTGCCGCCGCTCCCGGTGCTGCTCCCGCTGCTGCTCCCGCTGC autosomal
CAGGACAGGGAACAGAGGAGAGAAGGCGCTGCTGGGACCCTGCGAGGACA autosomal
AATTCCATGTCCTTTGATTTCTTTGGCCATGATTTGGCCTATCTGGATCC autosomal
CAGGACAGCCAGGATGCTGTGCCGGTTCTGCCAGCTGGCAACAGCCCCAG autosomal
TGTTGGTGTACTGACACAGACAGGATTATTTCACTCATGAGGTAGTTGAA autosomal
AGTATCTGACCAATTTCCCCCAAAGTGGTTTCATGATCCACCACACAGAA autosomal
ACGACGCTGAGCAGCACCAGCGGGTGCACCACCACCCTGTCCACGGCCAG autosomal
AGACAATCCATTCAGAGTCATGAGCCCCAAACGATGAACCTACAAAAGCA autosomal
CAGCGGCGTGCGGGAGGACCTGCGGCAGTGCCTGCTGGAGAGCCCCTGCG autosomal
AACTAAAGATTTGACCCAATTACAACAACCATTGCAATCATCCTTATCAG autosomal
GCGTTTTGGCAGCTTCAGAGGGAGCAAGAAGAGAAAGGAGCGATGCAAAA autosomal
AAGAACTGCCCGCTGGAGAGGTGCTGGAGCCCGAAGCTACGGGCGATCCT autosomal
ATGAAGATAAAATACCAAAATATTATTTCAATGTACAGTTGATGGCTTCA autosomal
CTCCACCACCATGACAGGCTCCTGGGAAAGAGAGGAGGGCGATCTGCTCC autosomal
ATGGATCAAAATATTCATGAACCAACCAGATCGGGAATGAGTATTTTTAG autosomal
AAAACAAGGACATATACAGTAAAAACCCACTCACTTGGAATTAATTTTAT autosomal
GTGCTGCAAAACCCGTGAAACACAGCGGGGTTACTGCCACCGAGCTGCCA autosomal
GGGTCGGGCGCGGCGGCGGCTCTGGGGCTCGGACGGCGGCGGCGGCACCA autosomal
AAAAGGATGGGATATCCTGAGGTGCTTATTGTCCCATCCCATTGTCCCAT autosomal
CGGGCCGCGCTCCCGCGGCAGCGTCGGGTCCCAGCGAAATGCGCCCGCCC autosomal
CACTCCGCTGCCCCGGCGCGTTCCTCGCGGGGGGAACTCGGGGATGCCGC autosomal
CCAGACAGGAATGTGTCATTTGCCTGCAGTCTTGTTCACCTCTTGTGAAG autosomal
GTGCCGCCGCTGCCGCCGCGGTACCGCTTTCGGGACTTGCTGCTGGGCGA autosomal
AGAGAAAGGAGACCAGGACATTGGTTAGAGCCGTGTCCCTCCATAGTCCC autosomal
AACACGCCTCAGATGCACTCCTGGCTCAGCACTGCCATCAGTGCCCCCAC autosomal
AATTGCCTTGGAATATATCAATAGCCTCTATAAACTGCCACAGGAAAGCA autosomal
CCCTGGATTTCTGGATGAACCAAAGGCTTATAGGCAGAAGGAAAACACAA autosomal
CATCTGTTACCACATAAACACACGCTAACGGGATGCTTTATGCTCCAGCC autosomal
TCAAAAGTGAACTGTCTTCACTTGGAACCATCTGTGGCTGAAGCTCTCCA autosomal
CCGCGCTGCCGCTGCTGCTGCTGCTGCTCGTGGCCGCCAGAGGGAGCCCG autosomal
GGCGCGGCCGCGGCGCTCGAGTTCCGCCGCTCCCGGGGCCGCCGCCGCCC autosomal
CGCGGAGCCGCTCCCAGCCCGTCTGCGGCAGCGGCGCGGGGCCGCCCAAG autosomal
CGGGAGCGTGGGCAAAGGGGCGGGGCCGAGGGTGGGCGCGGCGGGGGAGA autosomal
AGTTACTGGGATTTACTGGAAGGTCACTGGGAGTTACTGGGAGTTACTGG autosomal
CAGCCAGGGTCAACTCACACACAGATACAAAGCAAAGAGACAGAGAGACA autosomal
ACTAAGGTGTGCTCGGGAGCGTCATCCTCGCGGAGCTGGCGGGCCGTGAA autosomal
CTGATGGCCTCCGGCTCCCGCTCCTCGCCCTCCTCGGGCTCCCGCCGCTC autosomal
AGCTGAAGCGGCGCAACCTGGACATCACCGGCGTGAAGACGGTGCTGATC autosomal
CGCGCCGATGACGCCGCGGCCCCGCCCTCCCGGCGGGAAGCGGGAGCGGC autosomal
ACCCGGCGCTGGAGCTGCCCGCGATGCTGGAGCAGGAGCTGCGGGCTCAG autosomal
CAGCTCCGCGCAGAAGGGGCGGGCGGAGGGAGAAGCAGCGAGACCAGCGC autosomal
ATGGTAAAACTGAGCTCTGGTGGCAACATTTCCAGGTTAATGAATCCTTC autosomal
GAACCTTCAGATAAGTTAGAAGCTACTGTTCTTCCATCAATGGGGCTGCC autosomal
GGCTGGACAGGACAAGTTTAGAGAGGGCCGGAGGGCGGGGGAAATGGAAA autosomal
GGCGGGCGGCTGCGGGGCCGCCCAGAGCACGCGGGGCACGCTGCAGCGCA autosomal
CGATCAGCGCCCCCGGACCGCGGGACACCACCGACATGACCCACTTCAAC autosomal
AGTCGATGACACAACGCAAGAAGTCGTCGTAGGGGCCGTTGCGCATGACA autosomal
AAAGAACTTGAAAGTGTAAGTGAAGAAGAGAAAAACTTCAGGAAAATAAT autosomal
AAAAGGCTCAACTGGTTCCTCCCCTGCGTTTCGCTGTGCAAGGGCTGTGC autosomal
CCCGCCCTCGCTGTTTGCGGCCTGGCTGCTCTGCGGGGCACTTCGGGGCA autosomal
CAGTATTTTTTTTTTTTTTTCTAAATAGGTATGTGGGGCATTGCTCTGAC autosomal
ATCTGCGGCGGCAGCAGCGCGCGCCTGGCCCGTCGATGGCGGCCCGAGCA autosomal
GCGCTCCCACAGTGCCCCGCGCCCGTCCGCCATTACCGCCATTACCGCCC autosomal
GTTTTGTGTCTCTTCAAATACTAATGTCTATTTTAAGTGACACATTGACA autosomal
CCTCCCTCCCTGCCGGGAGCCGCTCCGGGAGCAGCTGCCTCGTCCCCCGA autosomal
AAGCACACGGTCACTTTCATCTCAGCGCGCCGCCATGCCCGCCCTGCCCG autosomal
AGAGGATGGAAGTAGGAAAAGAAAAAGAAAAAAAAAAAAAAAAGAAAAAA autosomal
GGCCTCGTACCGCCTGCTGGCCGGGCTCCGCGTCTGGGTGCTGGGGAGCA autosomal
ACCTCTCCCGCTGCAAACTTCACAGTTAAATGTGCCTCAGAGCAGAGAGC autosomal
GCAACACAGAAACAAAACTCACCCTTCCGTGTACTCCGCCTGCAGGAGGC autosomal
GCCACCATGGACGAACGGCTCTCCCGCATCCCCGTGCACTCCCGGCTCCA autosomal
CGCCGGTCCCGGGGAACCGGAGCGGGGCCCGGCGCGCCCGCCGCGTGACG autosomal
CGCGGGGGTGGTGGGCAGAGTCTCCTGTTCGTCCGCCGGAGTGCCCTTGC autosomal
GCACCATCGCCTGGTGCACGTGGAGGATGTGGCACTCCCTGCGGGAGGGC autosomal
GCGGAGCGCGTGGGCGCCGGCGCGCCGGTGTACCTGGCGGCCGTGCTGGA autosomal
ATGCTGGGCTCGTCCATCCCGCCGCGCCGCCGCCGCCGCCTCCCGCTGCG autosomal
CATGCCCGGCGTGGCTTTCGTGCCCGCGTTGCTCGTCAGCTGGTCCTCGG autosomal
GAAGACGTCCCACTCGCGGGGTGCCGCGGGCTGGCCGGCGGCGGGCAGTC autosomal
CCGCCGCCGCCGCCGCCGCCGGCCGAGGATTTACAGTCCGCGTAGGGCAC autosomal
CGCACACATCCGTGAGGCTCCCGGCCGAGGCGGCGGCGCTGGCGGCGTCC autosomal
AAAGGCGAGCAGAACGGGCAGGAGGAGAAATGGTGCGAGAAGGCGGTGAA autosomal
AAGAAAGGTGGCCGCCGGCTTGTAAACAATAGCCCGGCTCGCGGCGCCCC autosomal
ACCGTGCCAACCCAGCCGCTGCCTGGCAAGCCCAGAGCAGCGGGACCGCG autosomal
AAGCTTTCTGCCTTTTCAAGTTGTGTTCTTACCATCCTATGTAATACCCA autosomal
ACCCCGGCCGGTGCCGTGCCCGGGCGGACTCAGCCGCAGCCCTGCGAGCG autosomal
CCCCAAAAAGGCGCTCCCGGCCGCATCCCGGCCCGCGGGCACCGCGCCCG autosomal
AGCGGCCGCCGCCGTGTCCGCGCCGCCCCAGCCAGCGCGGCGGCGCTGGA autosomal
CAGTCCTGTTAAACACCTCAACAGGAGCAATTGAATCTGAATTCCACATG autosomal
AGTCAACTCAAGTATTCAGCACCCATCTAAAAAATCATTTAAGTATTTGC autosomal
AGCCGGGCAGGCACGGAGGGACGGAGGGAGGGCCCGAGCAGCGCCGGGGC autosomal
CCGATCCTTTCCGGGCGCTGGGCTCCTCCTCCCCTCCATTTCACCGCCCC autosomal
GAAGCCCCTGGCGTGGGCAGGTCACCCGTGCAGGTGAAGGGGAGAGAAGC autosomal
ACGGACCCGCGGCCCCGCCGCCGCCCGTGGGCACCGGAGCGGGCTCGGGG autosomal
CCGGCGGCGGCTCTGGCGCAGGGCCGGGGTCCCGGGGGCGGCCGCGTCCC autosomal
CCGCCGCTGCAGCTCCCGCTCGGGGCAGCCGGCGCGGGCCGGGGGCAGCA autosomal
GGCGGAGGCGCCATGGAGCCGGCGGAGGTGAAGGACCGCATCTTGGAGAA autosomal
AACATGGGAGCTGGCAGCAGAGGAAGACATGGGAAGTCCCAACTCCTCAG autosomal
CGATGCCCCGGGTCTCCGACGCACCCCAGGGTGCTGACCCCTGCAATGCC autosomal
CGGCGGCTCCTACTGCCAGCGCGGGGACGTGTGCTGCCGCGGCCGCGACG autosomal
GAGCGCGGACGGACAGACAGACGGACCCCGGAACTCGGCCGCACTTCCGC autosomal
GAAGGAATATAAAGTGTTTGTCACCTTTTGCAGGCTGATGATTTTGGCGA autosomal
ATAAACAACATTCATCAGCCCGGGACTTGCAATGGATCTAAAGCCGCTCG autosomal
AGGAGGCGCTGCCGGGCGCCGCCGCGCCCGCGCCGGGCTGCGGGCCGGAG autosomal
ACTCGGGCCGCGCCGGGCCCGGCCCCGCTCCCGGTTCCGCCATCGCTGCC autosomal
CTCCAGAGTCATCTCTGCAGCAGATTTGGTGGGAAAGATGGTTTGCCCAG autosomal
GATCATATTGACAGAGTTGGAAAATAAAAACAGTTTTCCAGTGTTCACAA autosomal
AAAGAGCTGCTGGTGCTGCTGCCAGCAGATCTCCCTGAGCTCCTCAGCCC autosomal
TCCCCCAAATCCGAGGCAAAGGCGTGTTTTCCCGGTTGCCTTCGCCTCCA autosomal
AGGGCAGGACATAATGCTTCAGGCACTGTTGAACAGCAGAAATCCTTCAG autosomal
CCCACACACATTCACAGCCCAGTTTTCTGGGCTGTACATCAAAGCACAGG autosomal
GCGCTGCCAGCGCCGGGAGCGGCCCCGCTCGAACACCCGGGGCGCGCTCC autosomal
CTCTCGCTGAAGTTGTAGGCCATCTCGGCGCTGGCGTACCGCGACACCAG autosomal
CAGTGTCCCCCCATTTTCTCCCCCTTCCCCCCGGTGTCCCCCCCCGTGTC autosomal
CTGCCAGGCAGTGCTGGCTTTCTCCTGGCTATTTGGGGGTGTCACAGCAG autosomal
AGAGGAGGAGGAAGAGCCGGAGCAGGGCAGGCAGCAGCAGACGTGACGCC autosomal
ACACCGCCTCCGCGTCGCCCACGCTGAAGCACTGCCCGGACGAGGAGCCC autosomal
AACAACTTTCTTCAGAAAATTGTCTCTAGCCACAGTGGCATCTCAGATGT autosomal
GGCTGCCGGGGGAGGGGGAGGCCGGAGAGGCCCTGGCTCTCCTCACTCAC autosomal
CGTGTCCGGCAAACGGGGCTGCTGCCGCTCCCGAAGGGCGCAGCAAACGC autosomal
ATCTTCAGGGCCCGGTCTCATGATGGCCATCACTTGCTGCCGTGCTCCTG autosomal
GCGGGGTCCCACCACCCTCCCATGGGCTCCCATGGGGGTCTCTGTGCCCC autosomal
CTTTCTCTTTCCATGTCCCCTCAGACCTCCCCCTTTGCCAGGTGCCACCA autosomal
AGGCGAGCGGGCCCTTTATGAGACTCTAATTACTCCAGCCAAAACCCACA autosomal
CACGTGGGGAATTACCGGCTGCTGAAAACCATCGGCAAAGGCAACTTCGC autosomal
CTCTTTTCCTTTCCTTCTGGGTGATACTTCTCCCTGGAACAGGAACACAG autosomal
GTCCAGATGCGGCTCTCGGCGGCTCTCGGCTCCGTCCCGCGGCTCCTCGA autosomal
GCTCCTCTTTGTCTTGGGCTTCGTCAGCCTTCAAGGACGGCGAGTTCTCA autosomal
CCGGCCGCGCACTTACCGCCTCTTGTTTTCCGCGGCTCTGCCCGCCACAG autosomal
AAAAAAGGAAATAATTATAGCAAATATAAACAGCAATACACACTTTATAC autosomal
GGACAAAAGAGGCCAAAGGGCTCTGGCCGAGTGCTCTGAAGGGATTTCTA autosomal
CCCGCCACAGCCGCCGCCGCCATTTTGGGCGCCCGCCCGCGTGACGTCAG autosomal
AGCCCAGCGATGGCAAATGGGGGTGGGGGCGCTGCGGGATCCCGCACTCC autosomal
CATCTGATACCCCCTTGTTCTTTTCCTGGGCGTACACCACCGAGAGTGCA autosomal
CAGGGGGCCGCGGCCACACAGGACCGGGAGCGCCGCTCGCTGCGTTGGGC autosomal
CCTGCTGCGCGCAGAGAGATGCAACAGCGGCAGCCCGGTCCCCTGGGGAA autosomal
CTCTCTGCCAGCTCCGTCCGCTCCGGTTGTGCGGCGGCGCCGCTCCCGCC autosomal
TGAACAGCAGAAGAGAATATCTCATTTTTACACCTGGAAAAATAGAAGCA autosomal
CCAACACGTCCCTTTGCAGATCTCCTTGATATTTTTCCCTCCAATTGTTA autosomal
CGGAAGAGGCGGGAGCCGTGGACGCGGGGGCGCTTCCGTCAGGGCCGATC autosomal
AAGGAGCGCAGAAAATACTCCGGGCTCATCCTGGAGGGCGGGCGGGGTGG autosomal
CGGCCGCGCGGCGCCGTCAGCCCCCGCCGGCCGCGTCACCGCCGGCACCG autosomal
CATCGCGCCCTGGCTATGCCCCGTGCTGGACACTGCCCACCCCACAGCCC autosomal
CCGGACGCTGCCCGGGACACGGCCGCTGTGGGGACGGTGAGGAGGGTGAG autosomal
CGGGCGGCTGCGGGCGGTGCGCGACCGCGTCCGCTCCTTCCCGGACTTCC autosomal
ATGCAGATCTCCTCGGCGCTGCGGCTGCCGCCGCCGTAGACGCGGCACCG autosomal
CGCCCCGGACCGTCGGGCAAGCGGGAGGGACGGACCCGCAAGCACCGCTC autosomal
ACCAACAGGTTTTAACACTGACATTGTTTAATAAAGCGTTAAAGGAAAGA autosomal
CCCTTACTACACATTCTAACTGTTCATAGTGACATTCTGGAGAAGATTAG autosomal
CAAGATGGGATGAGAATATGGGAATTCAGTTTCTAGTCTTCTTGATGCTA autosomal
AAGTGATTGTATTGTAAATCTTCATGCTTTACTGTAGCAATGGTATTTTA autosomal
AGCGGCGGCGGCTCGGCGGGGCGGGCCCGCCCCGCCATGGCTTCCTGCGC autosomal
CTACGGCCATACCACCCTGAGAGCGCCCGATCTCGTCTGATCTCGGAAGC autosomal
CATCTTGGGGCTGCGCAGTTCCGCCCGCCCGGCCCGCCCCGCCGCCGCCA autosomal
AGCCTCTTCTCTCGAAGCCGGGGGGAGTTCAGTACTGTTGTGTTTCAAAC autosomal
CGCAGACCACGGAGTAGAGGGCCATGATGGCGATGGCGGTAACCACGGAG autosomal
CGCGCAAAGCCGCCGGCCGCCGCCGCCGCGCCGGCACCAGCCTTGCCGAG autosomal
GCACCGGGGCTGGATGGAGCGGGGACACGGAAACTGGAGCAGGATGGGGC autosomal
TCCATGTTGTGGATAAATCTAGCAAGCAGAAACACATGAGAGGTGCAAGA autosomal
AGCCCGGCGCTTCCCCCTACTACAGGCCGCGTCTCATTGTGCTCCCGCCG autosomal
CCCTCCCCGCCTCCCCCCCCCTCCCTCCCGCCCTCCCTCCTCCCGCTCCG autosomal
GAAGTAATGTGGGAGAGTAATGAGGAAATATTTAAAGTCTATCATGATTA autosomal
TCTCAGTGCTATCCCCGTGCCGGGCTGTAAAACCGGGCTGTCCCTTTTCA autosomal
CCAAGATAGGCCCACGGAGGATACCTGAAATACAAATAATTCCTCTTTCA autosomal
AGCCGGCACGGAGCTCCGCCGGCGGCGGCCGCCCGCGCACGGAGAGGCCG autosomal
GTGTGGCACTGACACTAAAACCGCTATTGCCCACACTCCACAGGTTACAA autosomal
GCAGAAGCGAGAGGTGCCCGGGGCCGCTGCGATGCTGCTCCGCCGCTGCC autosomal
CCTTCTCCGCGTCCCTGTGCGGCGCCGCGGGGCGAGGATGAGGCTGAAGC autosomal
GACCGAGCCGCGGCCGCCGCCTCAGCCGTGGCCATGGCGACGCCACGCGC autosomal
CATGGAAATTCCAGGCCTGGGACACGGAAGTGCCAGGCCTGGGACATGGA autosomal
CAGAAATTTTCCATTTCACTGATAAGCCTTCTTTCACATCCCAAAAAGGA autosomal
AGTGAACGTAAAGATGAAGTAATGCGAAAGAGTGGAATGGGATTCTTGAA autosomal
ACGATTTCTCCCAGACCCAAGTTGCCCCCACCTCAAACTACTGCCGCCCT autosomal
AAGAGATCTGTACCACTAGTTGTTATCGCTGATTGTTCAAATCCATAGGA autosomal
GACCGGGACCGGGCGGTGCCATGGGCCCGGCCCGCCGCAGGGACGCGCTC autosomal
GGCGGGGGCCAGGCGCGGACTGCGGCTCCCGGCGGGCGCCGCGCAGGGGA autosomal
AGCCCCGCCCGGTCGCGGCTCCGGCGGGCGCAGAGCGCCGCGAGCAGCCA autosomal
CGGGGGCTCGGCGGGGAGGGCAGTCCCGGGGCCGGGCCGGCCGGGCCGCC autosomal
CAAAACAACCAGGGCAGAAGAACATGGGCTGGGGAGAAATGTTTGGTTGC autosomal
CCTTTCGCCGCCCGGAGACGATCGGCCGCCCAGCGCGATGTCTTTCCGAG autosomal
GGCCAGAGCTGGGTGAAGACGGCCGACGGCTGGACGCGCTTCCTGGACGA autosomal
CTCCTCTGCCACCTCCGTCACCTCCTCCTCCTCCTCCTCCTCCTCCACGC autosomal
CGGGGGCCCGCACGGTGCGTGGGGCCCGCACGGTGCGTGGGGCCCGCACG autosomal
AGCAGCATGGCTTGGGCTGCGCCGGCGGAGGAGAGGCGGCGGGCGAGCGG autosomal
CTGGGGCACTCCCGCATCTCCCCGGCGCAGGAAGGTGTGTGGCCGGAGCA autosomal
ACCAAGAGCTCTCTCTATAAGGCAAGGACTTCCTTTTCTGGCTCTGCAGA autosomal
CACGTGGGAACGGCGGGGCCGGGCCGGGGCGCGCCGGGATGACGGTGGCG autosomal
CCCATGTAGGCTGGCCGGCTGCTCCGGAGGGGTCAGCTGGGAGAGCCAGG autosomal
TCAACTCTTTTACAAGTTGGGGATATTTACTGCAAATAGTGTTTAAAAAA autosomal
AGTTCAGTTTTGCGGCTCCTCTCCTCGCCGGAGAGGACGAGATTGTTGGG autosomal
GCGACAATGGTGATGGTCCTGGGAGATGCCATAGAGCCGCAGGGATCCGC autosomal
AGGAGGATGCCGGAGTTGAGCGTCGGGAGTTTGTCGAAGGGCCGCAGCAC autosomal
CAGCCCCGCGCCCCCCACCTGCCGGGGCGCCCCCCGGTGCCACGGCCCCG autosomal
CCTCATCCCTTCCTCCTGTGGGTTTTGGGGCTTGTGCAGAGCATGGTTTC autosomal
AGAAGGTGCCTCGGGAGGTTCCCATGTCCTTCCCTTAGCCAGGGACAGAG autosomal
ATGTTTATTTGCTTTAAATCTTATTTAGCCATGGATGTTTTTATTATCCA autosomal
AGAAGGCGCGCACGGAGCGCAGCGAGGCCAGGTCCAGCTCGCGCACCACC autosomal
GCCTGAACCAGCTGCTTTGAAGAGATCTTGGGACTGAAGGACTGAGCTGA autosomal
CCCTCCTCCGCCTCCTCCTCCTCCTCCTCCTTCCTCTCCTCCTCCTCTCC autosomal
CAGCACCGAGAACTGCGGCGCGCACACGTAGAAATACGGACACAGCCGGG autosomal
CAGTGACCGCCCAGTGACCGACGAGTGACCACCCAGTGACCAACTGACCA autosomal
GGCGCGCACCCTCAGCACCAGCGCGCCCGCCGCGTTGTTCTCCGACAGCC autosomal
CCGCCCCCCCTCCGCGTGCGGCGCGCGGGGCGCGCCGGGACCTGCAGTCC autosomal
GCAATCCCGGCGTGATCCCGCTGCAATCCCGGTGTGATCCTGGGGTATCC autosomal
CGGGGCGAGGGCGCTCGGCCCGGCCTGGGTCCCGCGGAGGGGAAGAAGAG autosomal
CGCAGCAGCAGCCGCTCCCGCAGCAGGTTGCTGCCGTACGCGTAGTACAG autosomal
AGCCGCGTGGGTGTGCTGCCCCAGGGCTGGGAATGCCCCGTGGCAGCCCC autosomal
CGGGAGAGGCTGCCAGCCCAGCCCTGGCTGCCCCAGAGCATTAGCGCACG autosomal
CATAATATCACCTCTCCCAGCAGGGCAATGATGCAAACAACACTGAGCAG autosomal
ATGTGCACGCACGGACAGACGGACAGACGCGCGGGGGTGCGGTGCTCCGG autosomal
AAGCTGCCTGCTTTGGCAATCCCAACCCAACTTTCAACAGATACAGAACC autosomal
ATAAACAGCTTACTCAACTGATCCAGGTACAGTGACATGGATAGAGATGA autosomal
AGGAAGGGGGGTCCGGGGGGAGAGGAGCAGTGGTTGGGATCAGGGGTGCC autosomal
ACAGCAGTTTCTTTTCTTGCTAAGATGACTTCCGTCCTTCATGGAATAAA autosomal
ACGGCGAAGCGCTCCTCCAGCTCTCCGGGCTCGGGCATGGGCAGCTTCAG autosomal
CTGATCAAAAAAATTCACTTGTGTCCCATTTCCCTTTCCAGTTACTGCAC autosomal
GGGCTTGTCCTGTAGTTCCCAATACAGAGAAGCAGCACCTGGGACTGCAA autosomal
GCGCCCGGCATCACCGCCCGCGCCAGGTGGTCCCGGCGGGCGCAGGGGAC autosomal
CAGAGGCGGCGACCCGCCGTCGGCAGCCCGCACCGTCACGTTGTACTCCG autosomal
GCGAAGAAGCTGCGAAAAGCGTACCCCCCCCCGCTCCGCCGGCGCCGTCC autosomal
TATCCCTGCTGTCCCCGTATTCCCCAGTTTGGCCGAACCGAGGTCATCGA autosomal
AAAAAAGAAGATAAACAAAGGAGCTCAAACTCCCAACTCAATGAAGTGTA autosomal
CGTCCTCCCCCTCTTGGAAACCCTGGTCGTCGCCGTTCTCATCATCCTCC autosomal
CTGGACAGGGCGGCTTCGTGTCACCTCCAAAGGCAAAACTGCTTACATAA autosomal
GCCGCCGCCGCCGCCACCCGAGGCCATGATGCGATCCGGCCCGCCGCCGC autosomal
CTCTACCGCTCCAGCCTCGCCGCCTTCATCGCCGAGCGGGTCGAGGTGGC autosomal
AACCGTTAGGCAGGCATGGCCACAACAAATCCCTGGGAATCCAAGCAGCT autosomal
CCGCGGTTGCCGAGGCGACACCGGCGGCGGCTGAGGGGAGAGTGGGACAG autosomal
GCATCGCGGGAGTGGAGGACATCGACATCCAGGCCAACTCGGCCTACCGC autosomal
ACATGGCCCGGCCGCTGGCGCTCCTGCTGCTGCTGCTGCCCGTCCTCCTC autosomal
ATTCTCCGGGTGGCCGAGGGAAGAAGAAGGGCTCAGCCGGCTCCAGTTCC autosomal
CAGGACCGGGGTACGGGGGATCAGGGCTGGGGTAAGGGGGATCAGGGCCG autosomal
AGCAGCCTGAGGCGCGGCCCCGCCGCCCGCACCGAGCCCCGACACTCCGC autosomal
ACGTGCGGATTTCCCCCATCTTCGTGGGAAACCAAAGTGTAAATCCAAGT autosomal
CCCCGATCCCATCTCCGCACGGCGCCGGGAGCAGCCCCGATCCGATCTCC autosomal
CGCTGCAGCCCCACAGCGAGCCGAGGAGGAGAAGGACAGGACCCGGCTCC autosomal
CCGCGGGGGCCGTGCCAAAGCTCAGCCCTGCGGACGTCGCCTGCGGAGCC autosomal
ATCCCAAACTCCGCGCTGTGCGAGCAGCCGCGAGCAGAGAGGGCGAGAAA autosomal
GGATGCGGGGCAGGGAGGGGATGCGGGGCAGGGAGGGGATGCGGGAAGGA autosomal
AGCAGGAACGGGAGGAGCGGGCAGAGGAGCAGCAGGAGCGGGAGCAGTGG autosomal
AGAGTGCTCAAATACGTGGATACCAACCTGCAGAAACAAAAGGAACTCCA autosomal
CCGCGGATGGAGGCGGCGAGGGATGGAGCGGCGACCGGGAGCAGGGCCCG autosomal
GGGAGAAACGGGGCAAAAATGGACAAAAATGGCATAAAAGTGTCATTAAA autosomal
GGGATACAAATCACAGCCCTCGCAGGATTTGCACGGCACACCGGCCAGCA autosomal
GATTAGTAGCAGTGTGGAGTGATGCTGTTTCTCCTTTCCTCTGCAGTTCA autosomal
GCTGTGGAAATGTTTATTTGTAAGAACTCCAGTGCCTGTTGAGTTGTGCC autosomal
GCGATCCATGGCAGCCCCGCGGGCCGGCTCGGGGGTGGCGCTCCGGGGCA autosomal
CATTCCTCCTACTCCATCCTCTACCCTTCCTTCCTCCCCAGCCCACCTCC autosomal
ACATGAATGATGTGTGAAGTCAGCAGACACCCACTATATCTTCTGGAAGG autosomal
AAATGCTTTTAAAATACTTTTTTTGTGTGTGTGTATACTTTAAAATTGGG autosomal
CGGGCGGGCAGAGAGACCCGTACCCACATCTGGGCGGGTAGAGAGACCCG autosomal
GACAGGATCCCTGGGACACTCAGGAGGGTCCTGCTTTCTCTCTGCTGTGC autosomal
GACAGCCACTCGGCATGGCCGGGGACACCGGGATGGCCGGGAGGGTGGCA autosomal
AGAGCTTGTCGGGGAGAAATGTGGGAGAGTGTCTACCCTTCTTCTCTTGG autosomal
AGCGCGAGCGGGTGGAGGACCTCTTCGAGTACGAGGGCTGCAAGGTGGGC autosomal
GACAGCTGCTGGGAGCCAGCAGAGCAGCTGGTGCAGCATAAGGAAGTGGA autosomal
CGGTGGCGGCGATGAGCTTCGCGTGGCCCTGGCAGTACAGCTTTCCTCCC autosomal
ATGTTCCAAGCAGAGGATGGCTCCTGTCACCCCGGGCCCTGGGGTGCCCA autosomal
AGGGGCCGAGAGGAGCCGCCGGCCGCGGGGCCGTGCTCGCTCCCCGCGGG autosomal
GGGACCGCCCCCGCGCCGCCCCCAGCCCCAGCGCCCACCGCCCCCAGACA autosomal
GGCGGGGTCGGTGGGTCGGTGCCGCAGCTGGATGGGAGGCAAGGACAGGA autosomal
CGCCCCGGGGCTCCTCCCGCTGCTGCTGCTGCTCCTCTCCGCCGCCGCCA autosomal
ACGAGCCCTGCGTGCGGCAGTGCCCCGACTCCACGGTGGTCATCCAGCCC autosomal
CGGGTGGTGCTTGGCCATGGCGAGGCGACACCCGCCCGGCGCTGCTGCTA autosomal
CCGGTGCGGCTCGGCGGCCCCGGTGAGGCGGGATGGGCAAGAGCTGCAAG autosomal
CCCGGCCTGCCCGCCCCCACTGCGGAAGGCTGGGTGGCTGACCCGCAACG autosomal
ACTTCATGTGCGAAAGCACGGTAACACATATACAAAATATTAAAGACTAC autosomal
ACAGACTATAGAGTTGTAGTCATCCTCAAAGACTTGAATTTCTTAAACAT autosomal
GATGTGTCAGTGTCCCCGGGGATCTGTCACCATCATGAGGAGGTGACACC autosomal
AAAAACCACGTATGATGAAATATCATTCTACTTTTTTAGGTCAGAATTTC autosomal
AGGAGAAGAAGAAAAAGGGGCGAAAAGTGGGGTAGATGAAACTGGCGGAA autosomal
AGCAGGGCGGGCCAGGCGCGGCCCGGCCGGGCCAGCAGCGCCAGCATGGC autosomal
TCTAAGCCTTTCATGGGCTCTCCCTGCCCTGGTAAATCCCAGGGGTCCCA autosomal
AACCAGCATGGTCTTCTACTGAAAATATCCCCACTTATGCTAATCATGCT autosomal
GCCATCGCATCGTCCCCGCGGGGCAGCACCGGGCACGGGACACGCGACAC autosomal
CGTTGGACTGGCAGGATGCATCCCCTGGCACTGCTCGGGTGCCTTGTGGC autosomal
TCTTCACTTCTTCCTTTCCTGGGTTAAAAAATCTTTCTTTCAGTGAACCA autosomal
GAAGACGAAAAGGAGGTATTTGATACACTTGGTGCAACCTTCCACTCCCA autosomal
CGCCCGCTCCAGGACACGACGCCGCAGCCCCGGGCAGCTCCAGCGCCCCG autosomal
GCTGGGCTCGCCCGGCGCTGCTCCTGCTGCTCGCGGGGGTCCTGCGGCAC autosomal
CCTGCGCCGATCCACCGCCAGCAAGCGCCGGCTGCTGCCTCCACCGCTCA autosomal
CGCCCGGCAACGCGGCGGACGCGGCGGCACCGACCCGCGGCCATGGCCTC autosomal
ACTCCGGGCAGCTTGGAGTGGTCGATGCCGATGCCGGCCATGGCCGGCCC autosomal
GGCAGCTCCGGGATGTACACCAGCGGCTGCAGCCCGTAGAGAGCAATGAA autosomal
ATTACTTCAGAAGTTTTGTAATCTAGTGTTATGATGTGACTGCAGTATGA autosomal
ATTGGCCAATTTTGGACGCCAATCACGGAGCTGGCCCAATCGCGTGGCGG autosomal
CCCTGCCTCCTGCAGCAGTAAAGCTTTCCCAAGTCTATCCCTGTGTAGGA autosomal
CCGGAGGCGGCGGCGGCGGAGCGGAGGAGGCGGCGTCCCCCGGTGGCGGC autosomal
CGTGAAGAAACTGGCGTCGGACGCGGGGGTCTTCTTCTCCCGCGCCATGC autosomal
AGCGCGGGGCGGGAGCCATGGCCCGCGGCCTGGACGGCATCGACCTGGCG autosomal
CCGGCATCGGCGCCGTGGTGGCCTCCACCATCGGCATCGTCATCTTCGGC autosomal
AGGGGTGGCAGGGAGGTGGGGTTGTTGTTGGATTCCTTCCGAGATAGAGC autosomal
AAGAGTTATTATTTTTTCTCAGAGTGGTGCTCATGGCTGGACTTTGTAGC autosomal
AAGAGGCGGAGGAACCTGCTGGTGGTGCTGAGGCCGGCGGGGAGGGCGAG autosomal
CCGCAATTCCCGGAAAGCCCCGAGGGAGCCCAGGGAACCCCAGGAAATTC autosomal
GAGTGGAGACCCTCAGTTTGCAGGAGTCAAGATGGCCATCAACCAGCGGA autosomal
TCGGACCGGAGCGAGCCGGGCCGCGCCGCGCCAACCGACGGCCGATTCAA autosomal
GGATCCCATCATCCATGGGTATTCCATGTCCTGGGGGGTGTAGGATCCCC autosomal
AATCCCCCACAGGACCCCCCAAACCCCCCCAGGTCACGTGTCCCTCCCCG autosomal
CTGCTCCCGCCCGCCGTGGCGGCCGCTGCCGCCGCGCTCCCCGCCTCCTA autosomal
GACCGGGATCGGCACCGGGACCGGGATCTGAGCCGGGATCGGCACCGGGA autosomal
GCGCTGGCGGCGGAGCTGCGGCAGCGGCGGCGGGGCGGGATGCGCAGCCA autosomal
CCCCAGCCCGGAGCCCGCTCTCTCCACCCCCCGCCACCCTTCCCCTCCGC autosomal
TATCTGCAAAGTGTTTGACATTAAAACACAATTACAACAAGGAATTGTCA autosomal
CCCGGGCGGCCCCGCAAGATGGCGGCCCCGCGCCACGTCCGCACCCGGAA autosomal
GTTTCTGCTAGACAGAGCTTCAGCAAAAATAATCCAAAAATTGTCCGTAA autosomal
CCCCAAACCACAGCAGCAGATCCAGGCTTCTGGATTTCGGGAAAAGGGAA autosomal
GCGGGTCGCCGTCGGGGACATGGTGCCAGCCCGGTGTCGCCTCCCGCACC autosomal
CCGCCACCATGTCCGGGCGCGGCCACAACAAGCTGCCGACCACCGAGCGC autosomal
GGGCGGGCTGCGGCGCAGCGAGGCCCGCTTCATGGCAACCATGAGCCGCA autosomal
CGAGATCACGATCCCGCCCGCCTTGCCGCCCCCCGAGGAGCCGCCGCCGC autosomal
AGGAGCCTTTTTCAATAATACACATTTTAGGATACTTTTATATTAAAGTA autosomal
TCCAAAGGATCTGCTTCTCAAGGCCCAGAATGGTGTTACGGGCCGTAGCA autosomal
GACTCTTTTCGATATCCTGGATGATCGGCGGCGAGGCTACGTGCACCTAC autosomal
CTCTTCCAGTGAAACTGCTGCTGAGCTCTCACAGCTAGGTCTTGGTTTCC autosomal
GACTGAAACCGGCCGGGGCGTGGGGACTCCCGTGCCGGCCCCAGCACCCC autosomal
CTGAATTGCCGGGACACCGGCCTGGCGTGGGGGTGGATGCAGTGTGATCC autosomal
CGAGCCCCTTGGCATGAGTTAAGCACCAGCCATGGACACCAAACACTTCC autosomal
GGGGGCGGCTCCGCTTCCCCCGGTTCCCACTCGGCTGCGCTGCGGCGGGA autosomal
GATGGCCTCGACGTCGGCCAGGTCAGTGCAGATGCCCTGGCCGTGCATGA autosomal
CCCCGCGTGGGGGAGGGGCACAGGAATCCATCAGGGGGGGTCAGAGCCCA autosomal
CGTGCGGGCAGCGCTGGACGCGGCTCCCGGTGAGACCCCCGGGCCCTCCC autosomal
AAGGAGAGCTGACTCCAGTGATAAATAATTCTATCCACCCCATTAGTCCT autosomal
CCGCCGAGCCAGGCACGGATCAAACACGGCATCAGCCACGGAGCGATCCC autosomal
CCTAAAGGATGCTGCATAACTTCCTGAGTTTTGTGTTATGCATGGATGGC autosomal
GCGGGAGATGCGGCCGCTGACGGAGGCGGAGACGCGCGCGGTGTTCGAGA autosomal
GAGTTTGAGAAGATCAAGGTGTTCGTGTCGCGCGTGATCGAGGCACTGGA autosomal
CCGAGAACCCGTTACCTGCGACCCGTGCCCTCCCCGGCGGGGACAGGGCC autosomal
AGATATATAACTGCACAAGCACACACACAAACACACCAAAGCATAAATAT autosomal
GAGCCTCAGGTACCCCAGTCTGGTTTTCATGGTTCTGATCTTGCAAACAC autosomal
TTCATATCATATGACATATTCTTTGTGTTCTCTGTAGATAAGAAGACAAA autosomal
CACTGTGGTGGCTGGGCTGTTTCTCCCATGACTCTCTGCGTCTAGACCTG autosomal
AGGCGCCGGGAACCGCAGCCGCCCCCGGCCCGGGCCCGCCCCACGGCACC autosomal
AGGACTATCCGGGTCATCGATGCGCAGAACCAGCACTTCAGGGAGCAGGA autosomal
CAGACCATATTCATACAGCGCCGTATTATGCTGGCCTGATGCAGACAGCC autosomal
AAGAGGACAAAGCAAACCCCAAATTGCAGCCCCCCAGCCCCTTGCCCAGC autosomal
GACGCGTTTGCTCCCCGGCTCCGGCCCTCGCTCAGGACCTTGCGCTGCCA autosomal
CCCCTCCCCACCCTCCCCTCCCCCCCCCGCGGCCCCGCCCGGATTAAATC autosomal
CGCCTGCAGAGACACCACTGAGTCAGTCAGGCAGCCCCTGCCCCACCCAC autosomal
CCGAGCCCCGGTTACGCTGTCGGGCGAAGGGGAGGAGGAGGAGGAGGAGG autosomal
GTCCTCTCTTCCTTTGTCCTCTCCTTTTCTTTTCTTCAAGCTTTCTTCAC autosomal
CGTCAGTCAAGGGGCTCGGTGCCCTCAGGCGGAAGCGGCTCGCTCGGAGC autosomal
AACTGTGAAGAAGAGCCTTCATTCAAGATTCCCCTGTGAACCCTGCATTG autosomal
CGGGGCTCAGGATCCCGAACTGGACTCGTTTGATGGTGCGCAGCGGGCAG autosomal
GGTAGCAGCGCCCAGTGTCGCTCCCGGGGACCGGGGGATGCTCCGGGCCA autosomal
CAGCCTCCTGGACGGCCCTGGCCCAAGGCTCCCGTGCCCCACAGACCCCC autosomal
CCGCGCCTCCCGCCGCTGCTCCCGCCGCTCCTCCGCCCGCCCGCCGCCAC autosomal
CAGGGCAGTGCCAGGGCCGGCAGGGAAGGGCGCAGGGACGGCGCTGGCAC autosomal
CGCAGCTGGAGGACTCCAGGAGGAGCTGTCTGGGCCGGTGCGGCTCGTCC autosomal
ATCCATGTACTTCACCATGGTGGCAGCGTTCCTGGTCATCCTGGTGGTGG autosomal
CCAGAGATGTAACGGAAAGGTTTCCCATCCTTGACAAAGCAGTTGGAATC autosomal
AAATTAGCTAGTGCTGCTTCCCTGACAGAACTAATAAATGAGGCAGAAAA autosomal
ACATGAACAAAGAGAAGATGTTTCCCAGGAGATGCCTCTACAAGATGTGC autosomal
AGAGAAGATGGGATTATTTTGGAGTTCTTATCAGTTTTTCTCCTTAGTAA autosomal
CGGCCCGCGGCGATGCCCGGCTCCGGCCCGGAGACGACGAGAGCTCCCCG autosomal
CTTTCTGCTGATGTGGGAACGTCAGATCCAGAGGATAACAGGTGATGAGA autosomal
TGGAGTCTCTGCTGAAATCGGGAAACAGCTGACGTGCTCAGAGTGCAGAA autosomal
CCGGCGGCGCCCGCCTCCCCTCCCTCCTTCCTTCCCTCCCTCCCTCTCCC autosomal
CTGCCGCTGCTGCCGGGGCCGGGAGCGACTCCGAGACACCGCCGCCATGA autosomal
CACAGTTTGGGGTAAGCGAACACGTTGCTTCCATGCAGCTTGCTTTGTCG autosomal
ACACGCGGCCGCGGCGGCCCGGCCCGGCCCGCGGGGGGCGCGGAGGGGCG autosomal
ACTGCACAGCCTGGGACCCCCCAAACACCACCGAGGCGCTCGCCCCCCTC autosomal
CCCCGCGCCTCCTCTGCGCACCGCGGCCGCTGCCGCCGCCCGCCTGACAG autosomal
GCCCGGCAGCGCCCGGCCCTGCAGCTGCGCGCCGATGTCCTGCAGCGCCC autosomal
GCCAGTGTTGGTGTCGCGGTTGGCGTCGGTGCAGGTATCGCTGTCGGCCC autosomal
AGAATGTGCAGCACCTGTACCACGATGTGGAGTGGAGGCCCATGGAGGAA autosomal
AAAGAGCGGGGCTGAGTCTGGAAGTGGGTCTCGCCGCCCAGGACCCGCAC autosomal
CAGCAGAGGATGCAGGCGATCCCCGGCCAGTTTGAGCCGCGGCTGGTGGA autosomal
GTGACACAACCACCACGACCGTGGCCACCACCACGGGCAGGACATGGCCA autosomal
GAGGAGGAAAAAAGAAAAAAAAAACAAAAAAACCCGCCAACCAACCCAAC autosomal
CGGCTTCTGCCGCACCGAGCAGAGCTGTGTGTGCGCCCGCTGCCGCACCC autosomal
CCAGCTGGGCTCATGGCTCATGCAGATGCCACTAAAAGCAGGATGAGTTC autosomal
GACGTTTTTTTCTGCTGTTATTTCACCCCGGTGTGACGGCGCGAGGCCGC autosomal
AGATGTGCTAAAGATAATTGGCCCATATGCAACCTGTGGCTGTTTTGAAG autosomal
CGGTCCCGGGGCCGCGCAGCCGCCCGCGCCCGCCGCCGGCCCGCGGGCAG autosomal
ACAACGTGGACCACGGCGTGCTCAACAACGGCTGCTTCGTGGATGCGCTC autosomal
GATGCCAAAGAGCTATCAAAATGACAGGATAAATGCAGACCACTGGAACA autosomal
AGGCGGCCGCTCCTTCCCTCCCTCCCTCCCTCCTCCCCTTCCTCGCTCCG autosomal
CGCCCTCCGCCAGGCTCTGCAGGGCCTCCTGCAGCCGCTCGGGGCCGTCC autosomal
GAGCAAGGTGCTGCTGCTGACGCCCCACGCCACCAGCGAACGCGCCGTCA autosomal
CAGGGGAGATGATAACTCATTTCCTACCATCAGTCAATGTAACCACCTGC autosomal
GATGGAGGTGGTGCTGCTGCGCTCGGCGCCCCGCTCGCTGCCAACCCTGC autosomal
CTGGCGGAACGTGGGGCGCGCGTTGTACTTGCGGCCCATCTGCTTCTGGC autosomal
AAATGAGCCAAAGCTCAGCTACATCTCCATCTCCCCCACACTCAGCCCCG autosomal
CGGGGGCGGCGGCGGAGCCGAGCGGAGCCCGGGGGCGGCGAGGGGAGCGC autosomal
CATTTCCACTAGACCAGGTTGCCCTGTTCAGTCTGGCCTTGAAGACTTCC autosomal
GGTCTGAGAAAAGTATTTCAGAGTATTTGCAATGTCAGTTCCAGAGGGCA autosomal
AACTCCAGTTGAAATAAAGGCTGCTTGAGGACGACACCTCGAGCGACGGG autosomal
CGGTGGCCTCGCTCTTATCCCGAGCTCCCGGGGACAGCCCCCCCGCGACA autosomal
ACCGGCACCGGCACCGGCACAAGGTCCGGTGTCACCGGCACCGGGACTGA autosomal
CGCTCAGCCCCGTCCCCGCTCACCCCCGGTACCGCTCCTCTTCTTCTGCC autosomal
CACCCCATCAGGCTGGGCATGGAGGGAGCTCCTTGCCCCTGTAGGGCTGG autosomal
CCCTCAAGAGCGTTTCTCTCCTGATGCCCAACACAACGCCTGGTGCCTAG autosomal
TCCTCTTCAGTAGGGAACAATTAAAATCGATGGCAGGATGCAAGGTAACA autosomal
AAGTGAGTGCAAAGCACTTTTCCCAGATTTTCATTCTGAGATGAAAGGGG autosomal
CCCGCACGCCCCTGCGCATCCTTTGTGCATCCTGCGCGCATCCTGCGCGC autosomal
GCCCACCCTCGCAGCTCAGCCGCCACTCCGGCAGCTCCGTGGCCGCCGCC autosomal
ATTTCCCCGCGAGCTGGCGGTTCCGGGCGGGTCGCTGTTGGCTTCCGTGC autosomal
CCGAGTCCAGCTGGATCTGCGCCTTCTCGTGGCTCACCTGCTCCAGCGCC autosomal
CGCAGCACATGAGGCCGCTGACGGAGATGTTCACCAGGATGTAGTTGAGC autosomal
CCGTGCCCGCGGAGCTGGCCCGGTGTGGCGGCTGCGCCTGCTGTGCCAGC autosomal
GCGGGTCCGGGGCCGCCCCGTCGAGGCGCTCCCTCAGCCGCCGCCACGCC autosomal
AAGGATGGTGATACCAAGGCAAGACTGAAGCAGCGTAACTTTTACTTGGC autosomal
GAGGGAGGGATGAGGACGGGGCTGAGCGGCGGCGCCTCGTCCCCCACAGC autosomal
AAGAGGAGGAAGAAGGGCAGGAGGAAGAAGAGGAGGAAGGGCAGGAGGAG autosomal
CGGGGGCGCGCACGGCGGGCGCGGGGGCGCGCACGGCGGTGCCCAGCGGC autosomal
AATGTCGACCTGCTCCCCTCCACCACTCATGTTTGGTTCGTCCTTGATGA autosomal
GCCGGGGCTGGGGCTGCCGCCGGTGGCTCTGGAGCTCTTGCGGGAAGCCA autosomal
AGAAGCAGGCTGCCGGCACGCTGAAGTTCCTGATCAGCATCTCCACCAAG autosomal
AGCCGGCGCGGGCCGGGGGCAGCAGTGCCATCCCCAGCGCCATGCCCAGC autosomal
CCAATCCCGGCCTGCTCGCATCCCCCGGAAGCGGAACGGCCGCCGCCGCC autosomal
CAAGGCAAAGTGCAAGGTGCTGCATCTGGGTCAGAGCAATTCCAAGCTCA autosomal
CCGGGGGCCGGACCGGGGGCCGGACCGGGGGCCGGACCGGGGGCCGGACC autosomal
CCGCTCGGAACTTCGGCGCGGCACAAACAGACCGGAGCGGCGGGCGGGGC autosomal
AGGGGCAGCTCCTTATCAGCCTGTGAACTCCATTACCTGTGGGGCTGCTG autosomal
CAAAGCCCGGTCCCGCTCCTAACCACCCCCCCAGCCCCGCTCGGAGCGCC autosomal
ACCGCCTGCACCCCGTTCTGAAGCGCGGGACCGTCCTGCCTCCCCCTGGG autosomal
AGCGCTCCCGGGCCATCCCCGGGCTCCATGCCGACCCGCCCCGCCGCCGC autosomal
GGAAAGAATACCACTGCTCAGCAAAGCATGGGGAGAGGAGGCCACCGGGA autosomal
AAATGTCCCTCAGCGGCTCCCGTAGCGTTCGCGGCGGCGGTACCGGCGGC autosomal
CAGCTTGACCTAAAAGCTTTCCAGAAGTTGCCAGCTCTCTATGGAAATCC autosomal
CAGCGGCCCCGTCCCCGCGGGGCGCCGCCAACTTCGGCGGAAAAGGCAAA autosomal
GGGGGGACCGCGGTGGAGGCGGCGGGCGCGGGGCTCGGGTTACACGGGAA autosomal
GAAGGGGAGAGAGAAAAAGGAGGAGAAAAAAAAAAAAGGAACGAAAGAAA autosomal
AGGAGGTGGTGAACATGGCAGCGATAGTGCCCAAGGAGGACGGGGTCATC autosomal
CCTCCAGCGGGGCCCAGGCCAGGCAGGTACAGGCAGCGCTGAGGTGGGCG autosomal
GGTGCAGCTCCAGGTCCACACGCTTCTTCAGCCGTGACTCCATGATCCAC autosomal
ATCACATAGCTGAACTTCTGCACAGGCTGCCTCTGGATGGTGTAGTGGCA autosomal
CTGCCAAGCAATCCTGTCGAGATAGAGATTGAAACCCCAGAGCAGGTGAA autosomal
GAGGGATCCCGGGGTAACGGAGCCGGGAGATCCCTCGGGATAACGGAGCC autosomal
GGGGGGCAGCTCCTCGCGGGGCGGCGGCGGGTGCTCGGAGCCGGGGATGA autosomal
CTCACCTGGCTCTCATTCATTCAGCGGCCAGCGGGGCATCCCAGCGCGGA autosomal
AGGATTTTCCCTCCTGGCTCTCCCAGCTGACCCCTCCGGAGCAGCCGGCC autosomal
CAGGGCTCTCTCCTGGCTGCAGGGAGCCAGGGCTCTCTCCTGGCTGCAGG autosomal
CGGGTAAGAGGCTCAGCAGCAGCAGCAGCAGCAGCGCGGTGTGCGGCAGC autosomal
CGTATTGTAATGTGTTATGGAAGATGTTGACAAAGTGGAATTTCTTGAAG autosomal
AGATCGAAAGCAAAACAAGGAGAGGAAGCGGCGAGGCCGCCGCCGCTTGG autosomal
CCGGTACCCAGGCAGCGGTAGCCGTGCCGAATCAGCTCCCAGTGGATGCC autosomal
CTCCGGCCGGCCGGGCGGGCGGCAGCCGCTACACCGCTCCCACTGCCTCA autosomal
AGGAAGAACCGATGCAGACCTGCTCTGTGGAGAACCTCCCTGGTCCCTGC autosomal
AACAGAAAAATAAAGGTATCCTGAACTGGTTTGCAGATTTACAGACAATA autosomal
ACAGCATTAGGCTCCTTTTCAGATGTTCTGAGAAGGACTTCCTATGTAAC autosomal
AGCGGCCGCGGCGCAGTTTTCTGCAGCGGCGCCGATCTACGAGTGAGGGG autosomal
AGGTGAGGTTTCTCCTTAGTGTTTGAAGGGATAAGGACATCTTTTGAAAG autosomal
CCGCACATCAGTCGTCTCCCTCGGCAGCGGCACGGCCTGCAGGATTTACA autosomal
CGCCCGCTGCCCGCCCGCCGCCGCCTCCATGGCCGCGGCCCGGCCGCCCG autosomal
ACTGTAAACAAGGGCCTACCAGATTATTGTTTCCTGAAAAAAAATGAATA autosomal
AAGCCAGGAGCTACTCATTGGAAAAGTCTTTTTAATTATTGCAGAAAGCA autosomal
AAGAGAAAGGTGCTGGGTGGTTGTGTGCGCCCGGAGATATGGCTCTGCTC autosomal
GAAAGGAAAAAAAAAAAAAAAAAAAAAAAAAGAGGAGGGAAAGGAAAAAA autosomal
ACATCAAAACTCAGAAACGGTGCCTTTGTGTATGTGTGCCTCTGCTTCCA autosomal
CCCGGCTTCCGCCATGGCGCAGGCGGGCAGCTGTCACGTGAGGGGCAGGA autosomal
AGTCGCTGTGGCCGCTCAGGAACAGCAGCTTCTGCCGGATCGGGGCCGCC autosomal
CGGCAGGGAGCGCGGGGCGGCGGCGCCGAGCAGCAGGCGGGACACCCGTC autosomal
GCTTGATGGCTTCTTCACTCACATCTGTCCAGAAAACGATGCCTTGTGAA autosomal
CAGGCCTCTGCACTTGCAGAATGGCTCAAGAAGGTCTTCACAGCTGTATA autosomal
CTCGGTTTTAAGTTATTTCCCCCCCCTTAATTCTGTACTTTGCACGTAAA autosomal
CGCGCCAGGCCAGCCGCCCCCGCTCCTCGTCTAAGGTGACCTCCCAGGAG autosomal
CCAGTCCTGGGCTGGAGCTGGGAGAGGTTCAGCCTCCTGCCGAGCCCCCC autosomal
CCCGGGGAGGAGCGGGGCGATTCTGCCAGCCCCAGCGCCGCCACAGCCGC autosomal
ATGAAAGATTTCCTGATTTCACACCATCATCTTCCACTTTCAAGACTGCA autosomal
AGGACGCTGTGCCAGCGCTGCTTGCTGAGGGCCCCGCTGGCTGGCTGCGG autosomal
GCTCCCCGGGCGCTCTCCTGAGCGTGGCGGCCGTGGTGGTGGTGGCCAGA autosomal
AGTCCTGGCTGCAAGAGAGACCGGGGAAGGCTCACCCTCACCCTCCTCGC autosomal
CACAGACCCCGCCCCTCCCGGTTCTGCCATAAGCGACATCGCTCCGCATC autosomal
AAGCTACGCCCAGGTGTGCCAGGAGTGCCATCCCATGCCATGCCATGCCC autosomal
CCTCGCTCGGAGCGCTGTGGCCCTCGCCCGCTCGCTCGCTGGGACTGGAG autosomal
ACGCCGTACCGCGACATCGCCGCGCCCGCGCTCGCCGCCGCCGCCGGGGG autosomal
CCTCACAAACTTCAGTTTCCTCCTCTGTTGCGGGAAAAAAAAAAAAAAAA autosomal
TGTGGCTTCTCATCGTTTCCAGAGGCATCCTCAGATTTCTGATGAACCAA autosomal
CCGCCGCGGAGCTCCTCCGGCCGCTCCGGTGCAGCATCCAGCGCCCACCG autosomal
GCGGCGCGTGGTTTCACCTTCAGAGCGGCACGGCGCGCCCTTCCCCGAAC autosomal
CACGGAACACACCGGGCACCGGGCACGGAACGCACGGGGCACCGGGCTCG autosomal
GCCCGCGGGCACTGGGGGTTCTGTCCCCACCTCGGTGGCCCCGAGCCCGC autosomal
CGAGAGCGGGCTGGCGGAGGGCGCCAGCCCCGCCTTCGACGGGCCGCTCA autosomal
GGCCGGGCGGTACCGACAGGCGGCGCCGCGGCGGGGACGCGGCGGGCCCA autosomal
GCAGCAAGTCTCCAGGGGGCTGAAGGGGGATGCGGACGCCCCGCGGCACC autosomal
CGGAAGCGCGGCCGGCGCGGCGGGAGGGCCGCAGCGGCTCAGCGGGAGAG autosomal
CCAACAGAACTGTCTGCAAACTGTGTACCATTTAGTGAAACCTGGAGAAA autosomal
AAGGCAGGCACGAGTGCCACACGGAAGTCACGGCACCACTCGGTTCACAT autosomal
ATCGGGGCTGCTCCCGGCGCCGTGCGGAGATGGGATCGGGGCTGCTCCCG autosomal
AGAGCATCTGCCTACAGTGGTCCGGGACTGCGGCGGTCTGTAGCAATCCA autosomal
GCGAACCGCGGCAGCTGCGATGAGGAAGAGGAGGAGGAGGAAGGGGGCGA autosomal
CGAGCGTGACAGCGGCTCCGCCTCCCCGCGCGCCGCGTGCCCCAGCGCCA autosomal
ATAGGCACGGTGGAAACTTTCCACTGGCCTCAAAACCACGGGAAAACAGC autosomal
AAAATGGAGACCGAACTCAAGTTTTGTGACTGCCTGAATGCATGAATCTC autosomal
GCGGTGTGTCCGTCATGGCGGCGTCCATCTCCGGCTACACCTTCAGCTCC autosomal
AGAATAATCCGCCAGGTGGGCCTGGAGTGCGTTGCCCAGGGACAGAGCCT autosomal
CTCAGGGAGAGCTGCTGGGGTCTGGCTCTGCTCCCGGGGAACAGGGACAG autosomal
GCGGCCGTCGGGAGAAACTGCGGGGAAGAGGGAACTTCTGGAAAAGCGTA autosomal
GCAGCCCGAGGGCTACTCCCAGCCGGCCGAGGGCTACCCGGCGGCTCAGA autosomal
GCAGAGGCGGGTCCAGGCCGGGGAAACGCAGGAAGGGGCCGGGTCCCCAA autosomal
CTGGACGAGGTGGCGGTGCTGGAGCTGGAGGACGGCTGCGGAGAGGACGA autosomal
CTGCTTCCTATCCTCTTCACATGAATGCACAAATGGTTGGTGCGGGGGAA autosomal
ATTTTTTTACAGGCTGTTAAAGGATCCAACCTAACCTCATCTGAAGTGGC autosomal
CCCGGGCTCTCCTGGTCCTGCACTGCTCTGGCTCTCCCCAAAAACAAGCA autosomal
AGGGTAAAGATGGCGGCTCTGGACAGGGTCAAGGTGCTGGTGCTGGGCGA autosomal
ACAGAAAGGAGCTGGGCAGCGGCCACCCTGCGAAACGTCATCTTTTCCTC autosomal
CATCCCCTGCGTGGATCTCAGCAACAAGATGAAGATGCCCGCCCTGGGGC autosomal
GCCGCGCCGGGCTCCGCTGCGCCGCCCGTAACGTTAGTGCCGCTCGGAGC autosomal
CGCGAGTGTCCGCGGGCTCCGGGAACGGGCTATAGCGGGCAGGCCCCGCC autosomal
AACGTCTCCCCTCAACTTCAAGAAGCGCCTGTTCCTGCTGACGGAGAGCA autosomal
CCCACGCGGGGCACGAGGCGAAGGCTGAGGATCTGCTGCAGGAGCCCTCC autosomal
CCTCGCCCGGCACAGCCACCCCTGCGCCAGCCAGAGCCACAAGCCGGGCG autosomal
CCCCAGTCGCCCCCAGCTCCCCCAAAACTCCCCCAATCCCCCAGGAACCC autosomal
AAGAGGAGGAGGAGGAGGAAGAAGAAGAGAAGGAGGAGGGGGAGTGAGGC autosomal
CCGGGGGGGCTCAGCGCTCGCCCCCGCCGCCGCCGCGCATGGCCGCCCGC autosomal
ACGACGCACGACGTTCCCCTAAGGGAACGGAAGCCGCTTCACAACCGGGC autosomal
ATTTTTGGGCTGAAATTCGGAGGTTTTGGGCTGAAATTCGGATTTTTCAG autosomal
GTTTCTTTTACAGAAGAGCTTTCTGGCTTTCCTTATCGCAATGGGCATCA autosomal
CGCTGCCGGTGCGAGGGGGCGCTGGGCACCAGCGTCAGCAGGAACGGGGC autosomal
AGAGCGAGAGCTTCGCCCGCACCCGCCGCCACCGAACCACCGCCACCCCG autosomal
ACAAAATAGGCAAAATCCCACCACAAAACCCCCACCACGAGGTCCTTTGC autosomal
CAAAACTCGCGTTTCCCTGAGGGGGATGCACATCCCTGCCCGGGAAGCGG autosomal
GAGGATTTCGGGTCGTGGTGCTGGGAGCACCGAGCACGGATGAGCCGGCA autosomal
GCCTGATCCAAACCCCGATGAAGTCAATGGAAAAAGTCTCCCATTGACTA autosomal
AAATCCGTCTTTTCAGGTCGCTCAAGGAGCCGAGGTAAGAGATGCTGCCG autosomal
GAGTGACACATTAAGATGCCAGATGACAGAAGCTCTCTGAGCTGAGGATA autosomal
AGAAGCAGGTGCAGGCGTGCGTAGGAATGATAATTTCAGTGACTGTTTTG autosomal
GAGGAGGAGGAGAAGCAGAGGGGGACGGAGCGTGTCCGCCGGGCCGTGCC autosomal
ACGCGGGCAGCGCGGCGGCGGCGGCAGCGCGGAGCCCCCGCGCCATGGGC autosomal
CCCCGTCCACCGACCCCCGACACCCCCCGGCCCGGCCCGGCCCTGCCCGG autosomal
CGGGGCGCAGGCGGAGGCGCCTGAGCGCGGCGGGAGAGGGGGCGACATAG autosomal
CACGCGGCTATATCAGCGAGTGGGCGGGCGCGGGGCTTCCTTTGGTGCGC autosomal
CCAAATCCCGATATTTGCCCCAAATCCCGATATTTCCCCCCAATCGTCGG autosomal
GAGTAAATACTGATATAAACAAGATCATCAGACACAAACACAGTCTCAAC autosomal
GGCTGGGGCTGCCGCCGGTGGCTCTGGAGCTCTTGCGGGAAGCCATCGCA autosomal
GGCGCGCCCCCGCTCCCCGGTGCTGTGTCCCCCTTTCACAGCCCGCCGCC autosomal
GGCCCGAGGCGGAGCGGGGCACGGGCGGGCGCAGCTCCCCGAGCGCAGCC autosomal
AGAGAGGTTGTTCCTCATTTCTGTTCCCCATTTCCCCATCTCTGTTTCAC autosomal
GCTGGCGGCCGGTCCCGCCGGGATGCTGCAGCCCCGGGACACCCCCTCCC autosomal
AATTTGTGTTATTCTTGCTGCTTTGGTTTCTCTTTTTATTTGCAATCTGA autosomal
GACACCGGGACTGGGACAGCAGTGTTATGAACAAAACAGCCTGGCTGGGA autosomal
CATTCTGGCAGGAGAAAGCGATGTCAGTGCCGACCACAAAGCAAGGGATC autosomal
CCACAGGTGCCCAGGCCACCCAGCTCCTCGTGGAGCCCCCCTGGAGGCCA autosomal
AAAAAAAAAAAAGGAAAGGAAAGAAAAGAAAAGTCTCACTTTCTGCATTT autosomal
AGCGACCAAAGCCTGAGAGTTTGTGATTATGACCTTAGGTGACTGATGCA autosomal
CGGCCGCAGTCGCGCCGCAGAGGTGACCTCGAGCAGCCGGCGGATCCGCA autosomal
CCACAGTGAGGACCCCAAAACCACCCCGAACCCAGGAGCAGCCCCCCAAA autosomal
AGGGTCGGGGGGGGCTTTGGAAGCAAAAGCCTCTACAACGTTGGTGGCTG autosomal
GCCCCGCCCCGCCCCTCTCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCC autosomal
CCATGATCAGTGTCTGCAGAGGTTGGAGCTGATGGCTGAAAGGATACACA autosomal
GATGGATCGCCACACCTCCGACAACACGTGAATAAACACCGGTGTTTAAA autosomal
AAGCGGAGTCGTGACCGCTTCTACAGCACCCGCTGCTGCGGCTGCTGCCA autosomal
AACACGGCGCTGCCGGCGGCCAGCACGAACCGGTGGGCGGGGATGCGCTG autosomal
CCGCAGCCCCGCCATGGCCAAGGAGGGAGCGCAGCGAGCCGAGGAGACGG autosomal
CCCGCCCGGCACCCGCAGCCGCCGCCGCTCCGCCGTCCATCTGCCCCTCG autosomal
ACCCTCCCGGCCATCCCGGTGTCCCCGGCCATGCCGAGTGGCTGTCCCCA autosomal
AAGAGGTAGCAGGGGTCCCGCACGACGGGTTCCAGCGAGTCCTGGCGCAT autosomal
AGCGCGCAGGCGCGGGCAGCCCCGGCGGCCCTTGTTGTGGCCCGGCCGCT autosomal
CTTGAGGGCCTGGGCGATGAGCTGCGCCCCGCTGACCGCCTCGCCCTCCA autosomal
ACCCATCGCACCATTTGCAGCCGCTGCAGCGCCTTTTGTAGCCCTGGAGA autosomal
CCGCGCTCCATCGCCGCCGCTCCGCCGATTCGAACTCCCCCCGCCCGCGC autosomal
CCGAGGGGCTTAAATACAGAAGTTAACCTTAGCTCAAGAAGCCAGAGTGC autosomal
CGCGGGGCTGGCGGCGGGCGCGCGGCGCCATGTCTGTACCGGCGGCGGAA autosomal
CTACTCCAGAGTGCTCGGTAGCGTGGGCCGGCCGGGGCCCCATGTGGTGC autosomal
GAGGAAGCCGGGGAATGGGCGGGGGCCGGACCCTGCAGCCCCCCAGCAGC autosomal
GGGGAGGAGGGACCGCGCGGCGCGGTCCCACTGTGGCGGCGGCAGGAGGA autosomal
AACGGGCAGCTCGGGCAGAACGGGCAGCTCGGGCAGAACCGGTGGCTCGG autosomal
AAAATCACTGTGATAGTATTCAGTATAAGCCTCCTATAATGAAGCCAGTA autosomal
CCCTTCCACGTCCTCAGGTGTTTGCTCGGCACTCGGTAGCTCCTTTCGGA autosomal
CACAGCTGGAACATCTGGGGGGCAAAAGGGGGAAAAGGGGGGGTCAGTGC autosomal
AAGTTAAAAAATTAACTAGTTATTTCAAGGACGGAAAGAAAAAAATTATG autosomal
AATTTGCCTCGGAGGTTCTGCTTGCTCACGGTGATGCTCCCCTTGCTGCT autosomal
CCAAATCCCCCCAAATTCGCCCCAAATCCCCCCAAATTCCCCCCGAACCC autosomal
AGGTTTCTGCTAAGCAAACTTCCTCCATATTTTGTTGTCCAGTGGTCTGC autosomal
CCGTCCAGCTCCGCTTGGGCCCCGCAGGCCAGATCCACCCCAACTCCGCG autosomal
GAAAAATACCCAAGTGGACTCCTCAGGATCAAGAGCAGTTTGCCAGCCTC autosomal
CTCCCATTGCCGGAGCTGTAGATGATCAGCAACATGATCAGGGCAAAGAG autosomal
GCGGCGCGCAACATGGCGGCGGCGCTGCTGAGCGCGGCGCTCCGCGGGAC autosomal
AGGGCTTCGCAGCGGCCCTCTTCGCGCACGGCGAACACCTCCACCCTGCA autosomal
CATTGAGTGTCACTGCAGGGCTGATAAAATTACATCATCCCATTGTGGGA autosomal
CGGCGGTGCTGCTGGTGGCGGTGGCAGCTCCTGCGGGTCCCTGCAGCCAC autosomal
AGCATGTTTGTATTTTGATGGGAGATGAAAAAACATTGAACCCAGAAATC autosomal
CGCGGAAAGTAGGTGTGTGTTTTGCCTAGCAACCGTCACTAATGAGGTTC autosomal
CCATGGAAACTTGAACTCCGGGCAAATGCCACGACATTACATTCAGAGTC autosomal
CCCAACATGGCGCTGGCGGCGGCCGAGCGGGGCCGCGGCAGCCTCGGGGC autosomal
ATCTGCTTCTGGCTCAGCACCTCGAGCAGCGCGATCAGGCGCAGCCCGTC autosomal
GTGGGAAGGAGGCAATGGGAGCACGGGTAGTGAATGCCTCTCTCCGGCCA autosomal
AAATCCTTGACCTCCATTATACTCAACATGTCCAATGGACACTTTCCAGC autosomal
GGGCCGGCACCGGCGCTTTGCTTGGAAGTGGGATCCGTGTCCGTGTGCAC autosomal
CCCCCCGCCCACACGACCCCGAATGACCCCGCCCTGGCCACGCCCCCGCC autosomal
CTGTGAACAGCAGCTGGACTGGGCCTGCTGAGCCCTGGCACACCTGGTGA autosomal
ACCCTCTCGGAAAGGTGCTGTCACTGCCAGGACTATGGATCTGACCACCC autosomal
GGCGGCGGGCGCGGCCCTCACGGCCCCTCACGGCCCCGCACGGTCCCACA autosomal
CATGGCTCCGCGCCCCGCCGTATGCAAATCGCATGCAAATGACCGGCGGA autosomal
CTCCTTGTCCTGCAATGTCTGTTCCTTCAAACACAGCAGCTGCACCAAGA autosomal
GATTCAACACACCACAAAAGGCTACTGGTGTTTCAGAAGGGATCTGTCAC autosomal
CCCATCACCACCTGCATCCCATTTTCCCTGAATCCCATTTTTTCCCTGAA autosomal
TGACATGTGAAGACATCAAGATCTGATTTTAACAGTCAGATGAAGACTCA autosomal
CCCGCGCCCGGCGCAGGGTGTCCCGTGCGGGGGCGGGCGAGGCTGCCGAG autosomal
CCGCCGCCCCGGGTCTGCGTGGTGGGCAGCGGCCCCGCCGGCTTCTACAC autosomal
ATCCCCACGGACAACCCCACGGACACCCGGCGCTCATTCCCGCAGACAAC autosomal
CCCGGGAGGCACCGGGAGCGGCCTCAAACGGCCCCGGGACGCTCTGGCAG autosomal
TAATGGTGCAGCTGGCACTGATCTCGCTGGGAATATCCAGGATCCATGGA autosomal
CTGGCTCCGCCTGCTCCTGGCGCGGGAGGCCGGGACCGGCCGCCGCTCCC autosomal
ACCTCGTCGGGGTCCTTGATGACGAACTCGCCGTAGTCGCCCTGCCAGGC autosomal
CCCAGCAGCTCCCCTTCGGCGGGCATGGCGAGCGAGCGGCTCCGGCTGCG autosomal
GCGGGGAGCGGTACCGCGCCATCACGTCCTGCTCCTCTCCGGGGGCCGCC autosomal
TGATGATCTCCCCTTCACTGACTGTCAGCTCATTGTTTCCAGGCTCAGCA autosomal
CAAAACATGATAAACAGTTCCATAGTCTGAAACCAACTGCTGGATTTATC autosomal
CGCGCTGGCCGCCTCGCTGGCCGAGGGGCTGATCAGATCGCCGCGGCCGC autosomal
AATTCACCCAGGAGGATTTATCCTGGAGGAATTATCCAGGATTAATCCAG autosomal
CATTTTTCCCTGGATCCCATCTCCTCCAGCTCCCCACTTTTCCCTCCACC autosomal
GCCTCTTGCCATGCACCTCGCAGCTACTTTACAGGCAACTACACCCAGGC autosomal
CATGGAGAAGCTGCGGCGGGTGCTGGCTGGGCAGGACGATGAGGAGCAGG autosomal
CGGGGCGGGGGGGGGACAGCGGGGGGCCAGCATGGCGCGGGACAAGGAGA autosomal
GGAGAGCACCCGGCACTCCGGCTCCATGGCTGCGCCGTGCGCGCCTGCCC autosomal
GGACTCCGCGTACTGGGGTAGCTGCAGGGTCTTCAGCCACTCGTAGACTA autosomal
ACGATGAGCGGCACCGGGGCCGCCCTGCGGGGACACCACGCGGCGCTGCG autosomal
ACCTGGCCTTAGCTCAGGGATGAGCAGATGCTCACCAACTCTCAGCAGGA autosomal
GCCAGCAGCAGCAGCAGCGGCGGCGGCGAGGGGAGGAGGAGGCAGAGGAA autosomal
CCCCGCGCAGGGCGGGCGCCGCCAGGACACAGCGACCCAGCCCCGACGGC autosomal
GCTATTAAAATAAAAAGATATTAAGCAAAAGGCTTGGACATAATTCAGTA autosomal
AGCGGCGGGCGGGCGGGCGCTGCGCTGGGCGAACGGGCGGGCAGGGACCC autosomal
ATATTTTTTGTTATGATTTCCATGCAAATAGTGTAAATAATTGATAGAAG autosomal
CGTTCATGGCGGCGCGATGGGTGGCGACAGGCGGAAGGGATAGCGGGAAA autosomal
GGGAAGGGGCTGCGATGCTCCCGGCCGAGCGCCCCCCCGGAGCCGCCCCC autosomal
AAAATTCACGTGGAGGGCTTTTCTGCTACACCTCGCCTTCAGGTTCTTGG autosomal
AGGGCTCAGGGAGGAATTCACAGGTGCAAATAGCCTTGGTGCAACTCAAG autosomal
ACACCGAGCAGGAGAGCGGCTCTCGAGCAGGGCTGCACAGACCCGCGGGC autosomal
CAGGAAAGCTCGATTCTAAATTCATAATCCCAGTCTATTGAAATTACACC autosomal
AGCCATTCTGGGAAGATAAGAAAATGAAGATCTTTTATCAGCAATACCCA autosomal
ATTCCTGGTTTTGGTGATTCCAGCTGCTCCTCTCCCATTCCATCCAAAAT autosomal
GACAGCGGTGGCGGTGCTGGCAGTGCAGGCCGCGCGGTCTAGGGCGCCGC autosomal
CCGCCGCTGCGTCCAGGCGGCCAGACCGCCCAGCGCCCACAGCCGGACCC autosomal
GGGCTGCCACCTTCTTCCATGGGGCTGGAACCCTCCTTCAGGGCTGGCAC autosomal
AGATTTATTCAACAAAATTTCATCATTTCATGCTTCAACCAAATTTACAC autosomal
GGTGTGTGTAGGGGGGCAGCCCCGCCGCCGCCCCGCCGCGGGAAGGGGAA autosomal
CGCGACAAGGCCCGGCGAAGCGAAGCCCGGGGAAGTGGGAGGAATAGGGC autosomal
CGCGGCGCTCTCACGGCCGCCCCCGCGGCAGCCCCCGGAGGCCGGGCAGC autosomal
CATTTATTTCTTTGTTAGACTCTCATTCATCATTATTCTTATTTCCTGAA autosomal
AGCACCTCGAAGAGGCGGTGCAGGGACAGCATGCCGTAGAACTCCAGGCA autosomal
AGCTAACAAGATATTTTAGACGTTTCTTCTTTCCTTGAAAAGAAACATCA autosomal
AGCAGAACTCCATCAACAAACCTCACATCTGGAGGCACAGCATGGCCCGG autosomal
GCAGGGAGCGGACAAGAAGTCCCTGCAGAGCCTGCTGGAGGCCGCGGCGC autosomal
GACCGGCCCGGCGGCGGCGGGGCCGCCATGGACCCCGTACGCAGCTTCGA autosomal
CCTACCCTACTGTAAGCACCCTGAAACAGCAAGGGAAGGCCACCCTTTAA autosomal
CTCGGCGCGTCCTTGCCCGGCTCGGCAGCGCTGACAGCCGCCCGCGCGCC autosomal
CCTCCTCCCACACAACAATGATCCGACACCGCTGCCGCCGCCACCGCCGC autosomal
CTACCTGTTCCCTCCATTGCAGGAAAATTCAGCAGCATTTTGCTGGACAC autosomal
CCAGAAGGGAGCTCACGGTGAGGGGCTCCGAGACGGTACCCCCCACCCCG autosomal
CCAGTGCACTATGAAGACTGTTCACCAACTCAGAAGAAACCTCTTTAAAA autosomal
CCGCCGCCGCCGCCGCCGCCATGGAGCTCTCGCAGCCCTCGTCACCCCTC autosomal
ACACATCAGTTGCCTCACACGCAGGGTTTGCAGTTCAATAGCTCTGGAAA autosomal
ACTTGTGGCTGTGCTGCACCAGCAGCGGCCCCTCCATGGCCGGCGGCTCC autosomal
CGAGGCAAGGAGAGGCGCGGATGGAGCGGTCCCAAGCGCGGCCACCCCCC autosomal
CGCCGCCACCACCGGCCATCTTCCCGCTGCCGCGCAGCGCTCCCTCACTC autosomal
GAATCAAGCCCCATGTATTTTTCTTTACCAAAATCACATGTCATTTTAAA autosomal
CTCGCATCCGGCACCTGCGGCCGCCCCGCTCCCGGCAGCGCCCCGCGCCC autosomal
AGGGCGGCGGGCGGCGCTCGGCCGGGGAGGGCGAGCGGGACCCGCGGCTG autosomal
CTACCTAATTCATGATAGAGAACACAAAGACTGGGCTGAACAGAAGGAAA autosomal
ACTGCCGGGCCGGTTGTGAAACGCTGCCGGGGCGTGGGGCTGCCCGAGGG autosomal
AGGGGTGTGCGGGGCCACCTGGGGCTGGTGGGGGACAAGGTGGGTGGACA autosomal
CTCACACCGCTCCTCGCTCGGCGTTTCAAACCTCGCCGCCCGCCCGCTTC autosomal
CTCTGCTCCGGGCTCCGGGCTCCGGACAGTGCTCCGGGCCCTGCTGTGCA autosomal
CCGCCGCACGCCGGCTGCTCCCGCGGCCGCCGCCGCCGCCGCCCGCCGCG autosomal
AAATCCCCCCAAATTTGTAACATATCATAAGGTTTTGCAGGAGATAAGAA autosomal
GGTGCAGACAGGACACACACAGGACCACGGCAGGATGGAGACAGGCAGGA autosomal
CCCGCGGCCCAGGGGTGATGCCGAGAGCGGCGCCCGGGCCCTGTCCGCGC autosomal
CAGTGTAAATAAATTCTAGTAGAACTCCAAAAGTGTCTGCAACCATTCCC autosomal
AAAAATTAAGCTTCCTTTGAATTTCAAAACAAAGCAAAGAAGGAATCACT autosomal
CGGCCGCGGCCGAGCCATCCAGCAGCATGTGGAGTCCCACCGAGGAGGAG autosomal
GACAACACCAAAGGTGTGGTAGAGGCTCAGCACAGAACAACAGCTATGGC autosomal
AAACTGGGAATGCAGTCAGAGAGTTTAATATCCTTCTTTTCACTTCTCCA autosomal
GCCACCTTTGGGTCACTTTGGTGCCACCTTTGGGTCACTTTGGTGCCACC autosomal
AGGTTCGGGATTGCGGATCCGTGTCCCCCCCGTGCCCTCGGGGCGGTGTC autosomal
CGGGCGGGCCCCGAGGGGCCGGGCCGGGACCCGCCTCTGCCCGCCGCCCC autosomal
AGCGGGACCCGCCCGCCGGCAGCGGGGCCTGCTCCCGGCCCTGGGGGCGG autosomal
CAAAATTCGTATTTTTGGCCCCAAATCTCAAAGCTTTGCCCAAAATTCCC autosomal
GAACGGGGCGTTCGGCAGCTTGAGCTGCCCCAGCCAACACACCCACACTC autosomal
CTGCAACGAGCCCTGTGCCCTGCAATGCCAGGATTCCCGCGTCATCATCA autosomal
ATTTCGGCTGCCAGCTCTCCTCCTGCCACCGCACCGACCCTCTGCACCGC autosomal
AATGATCTCCTCAGAGGGGCTTTCACCGGGTGATGCATAATGCAGATCGA autosomal
AGCCGACACTCGCCGGGGCCGCGGCGGGAGCGCAGCCGGAGCCGCCGCAG autosomal
GCCCTCCCAGCACACCCCGCGGCCGCCGCTCCCATTGGCGGCTGCCGTCA autosomal
ACACCGCGCCCGGCGGGTGGCGGCTGCTCACACACGAGGGGCGCCGAGCC autosomal
CCGCCCGCGGCCGCAGTCCCGCACTTTGGCCACGAGGCGGCGCAGCTGCC autosomal
ATTGTGGTTTATTTATTTATCTGCTTCTTCTAGAATGGTTGCCTGGGGAA autosomal
CCTGGCTCTGGGCCCCAGTGCTCCCAGGCAGGATCCATGTCTGGGCAGGA autosomal
GGCTGCTGGCGGAGGGGACCCACTCCGACGTGACCTTCCAAGTCGGCGAC autosomal
AATGCGGAAGCGCAGGGGCTGAGGGGGAATAGGCGTGGCTTGGTGTCAGA autosomal
ACCACACGCACGAACATGCCGGGCAGCGACACGGCGCTCGCCGTGGACAG autosomal
ACTCCTGCATCCTACACCCTGTATCTCCCAGGCACTGGCATTCCTGTGAC autosomal
GGAGACAAAGATATGACTGGGGACAGGGATTTGGACAGTGATGGGTACAA autosomal
AGTGTCCCCATGTCCCTGTACTGGTATCCCCATGTCCCCAATGTCCCCAT autosomal
ACGGCCTGGCGCAGGGACGGCTGCTGGTGCTGGGAGGCTGCGGGCTGCTG autosomal
CACCTCTTTCCCTCAGAGCACAGCCGTGGGATCCTCTCTGTCAGCTGCTG autosomal
AGACCTCCCCGAGGGGAAGAGCCCCGGGAAGGGCCCGATGGCGTTACGTG autosomal
CCGTCCCGGCCCCGCTCCGTCCGCCCATGGGCAACGCAGAGTCCGTCCCG autosomal
ATCGCGGGCATTAGCTGGAGGCCGGCGGCACGGCCGCGGCCGCAGCAGCC autosomal
CACACCCATCCACACGCAGCTGGGTTTGAGCAGAGGAAAAAAAGTAAAAA autosomal
AGGTGATCTGATGTTACTCTGTGTGAGCAGATGCCTGATATCCTCTGATG autosomal
CACTTGCCATGGGGGATCCCAGCACTTTTCCCACCTGGCAGCTGTAGGGA autosomal
CTGGGCGGCCCCCGCCCGCGCACAGCCCCGCTGCCTCGCCATGGTGCTGC autosomal
ATCACTGTGGTCCAGACTTAATAAAAGCAGCTGTGGAGCTCTAGGGGGGA autosomal
GCATGGCGGCGGCGGCGGGTGCCCCTCAGTGCCTCTCGGTGCCCTCAGAC autosomal
GAGACGGAAAATGGCCGCCCGGTTGCCATAAGGGAACGGGGCCGCCGGGA autosomal
CCCACGCCCGCTCCGGGGGCGCGCGGCACCGCGGGCCACGCCCCCCGCGC autosomal
CTGTCTGTCTGGGCTCGGCTGTGCTCGGTGCGTGCGGGGCGGCGGCAGCA autosomal
CCTGCCCGCGCCCGGTGCCCCCCGCGCCCCCCGGTGCCGCCATGCCACAC autosomal
GACCTCTGGTGCAGACAGCAGGACTTGGGCAGAGCACTTCCCTTTGAATC autosomal
CTCTGGTTCTGTGTTTCAGAAAATGGCAGTGAATGTGTATTCTACTTCAG autosomal
CTTGCCCCGCACGGCGCAGTGCCCGCTCCCTGCAGCGCCGCCGGTCGCGA autosomal
CTCCAGCGCAGGTCCCTCCTCCGCCGGGAGGCTGACTCCCTCCTCCCCAA autosomal
AACCTCGCTGTGGGATAAGGATGCCCTGATTAGGAAGTCTCAGCTTTCTT autosomal
GCAGGACCAAGGGCTGTGTCTAAAAAACACTGCTGGCTACTGAGACAAGC autosomal
ACATCCCACCATTCATCACCCCTACCAAGAATCGGGAAACGGCAAAGAAT autosomal
GCCCGGCGGCGGGGCTGACGTCACGGGCCGCGAGGGATGCTGGGAAACCC autosomal
GGCAAAAACTACCAACTCAGGATGTCGTCTGAGGAGGAAGATCATCCAGA autosomal
CGTGCCCGTCTCCCCCGGCGCTGGGGCTCCGGCTCCTCCTGCCCGATGTA autosomal
CCCCGCGTCACGCTGGCCGCAGGGATCACGCCACAGAGGTCGGAGGGGAC autosomal
GGTTTTTTGGGGAGATGTTTGGAGAAGGAAGAACTGCGAAGCTGAGTGGA autosomal
ATGAGTAAAACTGTTCCCAGCCAGCATTCCCAAAGGACAGGAGCAGCACC autosomal
CCCGCCGCTCGCCTTCCGCAGGCGCGGCCCGGGACCGCGGCTCCGCCGGC autosomal
GAAGCAGTGGAGCAGCAGGGACCCAGCTGTGCCAAGGTGCTCCTCCAGCC autosomal
GGCTGGCGGAGCCCCGGAGCCCGGCATAGCCAGGCCTGGCCGGGCCCCAA autosomal
ACTGAGGGGGGCAGGGTGTGAAAAGGGGGGGCATGAGGACCCCAAAAGCA autosomal
GATGCAAAAATCATTTGATAGGAAATATGTTCCTCTTAATAGCTATGAGA autosomal
AGAGACAGATTCAAGAAATGCCCCAGTGGAGGCAGAAGGGTCGTGGCCTG autosomal
CATTTTTTTCACCCAGTTTTCCCCCCAAAAAGTGGAAAAATCCCATTTTC autosomal
AATGGAGCTTCCCGAAGCGGGGCGAGCCCTCCTTGCGCTCCTCGGGAAGC autosomal
ATTTTAGATCAGTATGTTCTAAACTTTTGAAAATTTCGAACATTTCTGGC autosomal
GCCCCGTTCTCCCCCGCATGATTTGCCCCAGGCTGGCCCTTCCCAGCCCC autosomal
CTGCTCCAGGTACTGCACTCGCGGCGCGGCGCCCTTCAGGTCCAGGTGCA autosomal
ATCCCAGCCCGGGGCATTCCCCCGGCAGGAGCCACGGGCAGCTTTCCTCA autosomal
CCGCCCGCCTGCTGGCCGAGCCACCGGAGACCTGGCGACCGTGTGCTTCG autosomal
GCTCTGGCGCCGCCGCCGCCGCCGCGCAACGCGTGCCTGACGTGCCCGCA autosomal
CCGTGCTGGTGACCTTGCCGGGCCCCATCCTCACCTCTTTCCCTCAGAGC autosomal
CAGCGGCGGTTGCGGGTCCGGTTCCGGTTCCAGGTCCGGTTGGTGGCGGC autosomal
GCCCGCAGCAGCCGCTCCTCCACGGCCGCGGGGCCGGGACCGCCGGGGCC autosomal
GGGGTCTCTCCGGGGAGCGGGGGGAGCCGGGGAGCCCCTCGTCCAGGTAC autosomal
CGGATCCCACGGTGTCACCCCAGCAAAGCCCCTGAGTGCGGCTGGCGCAG autosomal
CTCCTCTGAAGCTTTTCCCCTGCACATTTTGTTTGAACTATCTCCCAACC autosomal
GGCAGGGCGCTGCAGGGCAGCTCAGGAAGCACAGAAGGCATTTGGGCCAC autosomal
CTACACCCTTTGGATATGGGCTTCTGGATACCATACATCATCTGAAGTGC autosomal
GAATCACATAATATTCTGAGTTAGAAGGGACCCACAAGATTAATCCAGTC autosomal
ATAGCCCGTTGCATCTTCATATATCTCATACATGATGCATAAATTCCTTG autosomal
TTATAGACAAAAGTCTGAAACAAGCATTTTATCCACTGATCTGGAAGAAA autosomal
GCGCTCCAGACTCACCTGGACGCGCAGGGAGCGGGATCGGTATCGCTGCC autosomal
GCGCGTTGGTCTCCGCCGGCGTCCAGGACATCCCGCGGCAGGCAGCGGCC autosomal
CGCGCCCACCACGGCCACTCTCATCCCTGCAGGCTCTGCCGGGCTCCCAG autosomal
AGAAGATGCCACTAGCACCAGGCTTTGGTACAGCAGTGTGGGTTGGAGTA autosomal
CGTTCGCGCCCATGGGCGACTCGGTGTTCAGCGAGAGGCCGGCGCTGCGC autosomal
CCCCCCGGTACCCATGGTGCCCACAGCCGGTCCCGGTCCGCTCCCGGTAC autosomal
ACACTCTTCCGAGAAGAGTCAGAGTTTTCGGGCTCGTCAGGCACCTGAGC autosomal
ACAGTTTTGTACTGGATACTAACAATCCATCCAAAGTGATGTTATTACCA autosomal
CTGTGGTGTGGGACAGCCCCACGCCGTATCCGTGTGTTGAGGAATGATGC autosomal
GGTCGCGGGTGGCGGCGGGGGGTTTGCGGTGCCCCTGGTGGCCGAGGGAC autosomal
CCGCGCCCGTGGTCGCCGCCATCTTGCGCCGCCGCCGCCGGCCCCGCCCC autosomal
GCCAGGTCGATGCCGTCCAGGCCGCGGGCCATGGCTCCCGCCCCGCGCTA autosomal
GCTGCCCGGGAACACCCCGGGCACAGCCGGAGCCGGGGGAGGAACACTCC autosomal
GCTCCCCCCAACAACAGCAGCACCCCAATCCCAACGGGCAGCGCTGAGCC autosomal
CGCCGAGGAGCGAGGCCGAGAGCCCCAGGATAACATGGGGAACCACCTCC autosomal
AACGAGGCTCCACTTAGCCAGCCACCATGAGCCCAGTTCACAGCACTGCT autosomal
TCGGACGGCGACAGCGAGGAGCTGGTGCTGACCCCGGCACAGCTGATCCA autosomal
TTTACCAGGATAATTATTATCCTCAAATATTAATGTGATTTGAATTAAAA autosomal
CCGCCGCGCCGCCCCGCAGCGTCCCGCTCACCACGAACACCACGCGGGCC autosomal
GGGCAGCTTCACCAGGTACGGCGTCTCCTCCTCGTCGATGTGGTAGATGA autosomal
AGTGGGAGTGGGAATGGGAGTGGGAATGGGAGTTGGAATGGGAGTGGGAA autosomal
AGCTTCAGCAGCTGAATTTGGGGTAAAAAAATGGGATTTTGGGAAAAAAC autosomal
CCTACCAGACCGAAGGGGCGTGGGACAAGGATGGCAAAGGGCCGAGCATC autosomal
GGCTCCGGGCCGGGGGCGCCGAGGGGGCGGCGGGGGAACCGAGCGCGGGA autosomal
TGATTTTTGTCATTGTGCTTCCAAGGAGAGCAAACTGTTTGCTGGAAGCA autosomal
CTGAGGGCAAGATGGCAGAGCCCTCCTGAGGGATTAGTCCCTGCAAGCGC autosomal
TCATGCCAAGGGCCTGCCCATCCCCAGCTTTGCCCCTGGCACTGCTGGCA autosomal
CAGCGCGGGGCGGGAACGGCGGGGCGGGAACGGCGGGGCGGGAACGGCGG autosomal
AACTGAGCAGAAGGGCAGGATTCTCTACGTCGCCCTGCTGGCAGCGCTCT autosomal
AGGGCAGTGGGTGGGCGAGGGGCTGAGGGGAAGCTGAGGGGAAGCCGAGG autosomal
AGCAAACAGTTTGCTCTCCTTGGAAGCACAATGACAAAAATCATCCGAAG autosomal
GATGGAGAAGATGCCAGCTGCCTGTTCGTGGTCTCCAGGCTGAATGGACA autosomal
CTCCGAAAGCCACGTCGGAGCCTCCCCGCTCGCCGCTCCCGCACCTTCCC autosomal
ACCCCGCTGGTGGCCGCCTGCCTCTGCCTGGCCGAGGGCGGTGTCAACCT autosomal
AATCCCCGGATTCTGCCCCAAACTGCCCAAATTCCCGAGATTTCTGACCC autosomal
ATGGGGAAGAAAAAGAATAAAAATTGCCAGACGGAACCTCATGTACTTAG autosomal
CCGCCACCGTTCCATCATTCCATCATTCCACACCTCCCGCTCCTGCGCCG autosomal
CGCCCTCCGGCGGCGGCCGTGGCGGGCGGGCACCGAGGCCCAGCGCGGAG autosomal
TATTTGGATTGGCAAAAGGTAACACCAGCACACTGCGATGGACACTGAAA autosomal
CTTGTAGTTTGGCTTTACCCACTTAACTACCTGTTAGCTCTGTGGGATAA autosomal
TGTCAAGTCAACTCTTCTGTAAAGCAAATGGCAACAGTGATTCAGTAAAA autosomal
ACGGAACGCGGCGGCGCCTCCCGCTCGGTGCGGCGCCAGCGGCGGGGGAA autosomal
AGGTCCCGGCTGAAGATCGGCTTCACGGCGGCCGACACCACCCCTTTGCC autosomal
TGCCCGTCGGCTTATTTATCTCTCTTCAACGTCTCTCTGGGGTTTGTGAA autosomal
CCACGTCCCTGGCAAAGGGCCGACCTGCAGGGTAAAACTACAAATCCCGG autosomal
ATCCCAGATATTAACTGAAACCAACAAATATACCTTGAGACAAATTTTTA autosomal
CGTGAGGGGTTTGGTGCCGCAAGCGCTCCCGGCCATGGTAGCCAGAAGGA autosomal
GCCGTCCCAGCCTCCAGGCATCGCTCAGGCATAGGATGACAAAGGGAAGC autosomal
CAGCTGCTGCCAGCCCTGGTGCTGGCCCTGCTGCTGCTCCTGAGCAGCTC autosomal
AAAACAAGCTCTGGTCAGGAAACAAGCTTGGTGCTATGCACGCAGAAGAG autosomal
AGGCTGGACGGGGCTTGGAAACCCTGGGATAGTGGAAGGTGTCCCTGCCA autosomal
GCTGTCGGAGCGGCCTTTGGTGGCCGAGGCCGCCGCCACCTCCGCCTCCC autosomal
GCTCCCGCTCTCGAAATTTTCCCCCGTGGCAGAACAACTACCACCGCAGA autosomal
GCCCGCCGCCCCGGAAGGCGCTGCGCTCGAACCGGGGCCGCGGCGGCTCC autosomal
AGTACCTGCAGGATTTTGGAGATCGCCGTGGTGGCCCAGAGCACCCCAGA autosomal
AACAGAATAAATCTTAACATTCATCTGCATTCATTCTGTAATGTCACAGA autosomal
AGCTGCCAAGGGCACCTCACTTCCCCCGCCGGGTCCCGGGCAGCGGCTCA autosomal
GCAGCTCGCCCTCGCTCAGCGCCGCCTCGCCGTCCCCCGCCGCCGCGCCC autosomal
CGAAAGGTAACCTTCGCCAAGAGCCAGCCTCTCCAAAGCCCGCAGCTCCG autosomal
CGGGCATGGCGGCGCTGAGCCTCACGGTGGACGCGGGCAGCCCCCCGCTC autosomal
CTGGTCCTCTGTGGGCATCTTACTAGACAGTGCTGGATTTGCTGCCTCTA autosomal
AGCTGAGAAGACAAATTGCCCTCATCATTATCTCTGGGCTTGTCAATCAA autosomal
CGGCGCCCGCTCGCTCCTTCCCCGGCCGCCGGCAGCTGCTGCGGAGCCGC autosomal
CTCTTGAAAATAATCACAGTCCTGTAACAGGGCTTTTGTGTTTTTAACAG autosomal
GTGCTATGCTTTGTGCTGAGTTATCCCTCAATGGACCGGAGCCACCTCCA autosomal
CTCCAGCATCAAGAGAGTATCATCAGTCAGCAGACCAGACTTTATCACTC autosomal
TCACCTCTGCTCACTGCCCCGGAGACCCTGCTCCACCCCCACCTGCGCCA autosomal
GTTCCTGGTCCCGGCTGGTCGTCGTGAGGGGCGTGGGCAGGCAGACACCA autosomal
AGTGGCTGCAGTCCTCTTGGGATGGCAGATATGGTTGCTGTGTTTTCTCG autosomal
CCACGGCCTCGCACCGCCGCCCTGTCGGAAATGGCTCCGCCGTTACCGCG autosomal
CTCTGCCTACTGCAACAATTCTGTTCAACAGCCACAGTCAAAAGCCTCAG autosomal
CAACCTGGTCTTGTGGAAGGTGTCACTGCCCGTGGCAGGGGGGTTGAAAC autosomal
CCTCCCTCCGCGCCGGCGGAGAGGCGGCGGCTGCAGGAGCGGCGGCGGCA autosomal
ACCAGGCGCAGCTTGGCCGGCTGGTTCACCCCGGGCGGGATGTCGTAGCC autosomal
GCGGGCCTGAGGAGCGCCAGGAGGAGCAGCAGCGCCGAACCCATCGCAAC autosomal
AGATTTTCTTCTTTGGTGTTGTTGAATCCCTTGATGAAATTTACGGGAAC autosomal
CCCCGGCCCCTCCGCGGCCCAAGGAAACTTTCCCCACAGCGGGCGGAGGG autosomal
ATCCAGGTGGAGCACGACCGCAAGCGGCGGCAGTTCACCGTGCGGCTCAA autosomal
CGGCCTGCCTGCCCGTCCTGCCCTTCCTGCCGCCGCCTCCCGTGACGCCG autosomal
ACACAGCCCCGGTGAGTCAGCAGTCCCGAAAACAGCCCGCTGCCAGCGCC autosomal
GTGACTTCTTTCACAGAAAACCCCGTAATATAAATGGACTTTATTTGCCA autosomal
ACGAGAGGTCCAACATCATGGACATCCTCTACGTCAAGGACCTGGCCTTC autosomal
AATTCAAAAATTTTGGGAAAAAAAATAATCAAAAATTCCAAAGAAAATCG autosomal
TACGGCTCCTCCGCCGCCTTAGTCCCCCCACAGCCAACTGCCGTGCACAA autosomal
CGAGGGAGGTGCTGTGGCACTCCTGAGGAGCTGGCAGCAGCGGGTGGCAC autosomal
GGCGGCGGCGGGCGGCGGGGTGAGCCCGCCGTGCTCCAGCATGCCGCCCA autosomal
ATTTGTCTCTGAATTTGGGGGTTTGTCCCTGAATTTGGAGGGTTTAAAAC autosomal
AGAAAATGTGCTTAGAGGCAATTATCCCTTTTGTCCTTCTCAACTTGTTA autosomal
AGCAGGCAGCAGATAACTTTAATTTGCCCTTTAAACGTCCCGGGCCCCGC autosomal
AGGAGGGGCCGGGGGAGGGCCGAGGCTCCGGGGCGGGCGAGCGGGGCCGG autosomal
CATCCCCCGCAGAACGTGAGGCGGGCGCGGATCCGCCGCCATTTACGGGC autosomal
GCTCTTCCGCAGGGTCTCCTCCAGGAGCTGCAGCTGGGCTGGGCACCTCA autosomal
ACCGGCGGCGGGAGCGAGCGGGGCGGTCCCGGAGCATCCCGGAGCATCCC autosomal
CCGTGGCGGGCAACGCGCTGGTGATGCTGGCCTTCGTGGCGGACTCCAGC autosomal
CTTCTCGCCCTTCACAACCACAGACGCGGCGGGGGCCGGCCCAGCACGAC autosomal
TCCCCCGGCGGATGCGAGGCGGGCCGGTCGCGTGGCAGCGGCTGTCCCCA autosomal
GCCACATATCATTTGCTGTAAACCAGCAACTGCACTTTCTTGGAACTACA autosomal
CAAAGGGCTCTGTGTCCCGGCAGCGCTCCGGCAGCCGCGGAGCCGCTCCC autosomal
GGCTCTGCTGTAACCTCAGCTGCTCTAACCTCTGCTGCTCTGGGCGGCGA autosomal
AAAAAATAAAGAGCCACAACTGCCTTGAAAATCTCAGTCCCTATGTGTTG autosomal
CTCCACAATTTCAAATTAACAGGACTGAGGGGTTGGATACAAAGGACAGC autosomal
GGCGTATATTGCTAAGCCAGAACTTTGGGACAAACGGCGCTGGGAGTAAA autosomal
GATCTCGGACACCGTTTTCTGCACCGCCGGCATCGCCGGGGCGGCGGCGC autosomal
AGTTTCACAGACAAGAGGAAATCCCCAAACAGCGTGCAGCTCAGAGAATG autosomal
CAGGGTTGGCAGCGAGCGGGGCGCCGAGCGCAGCAGCACCACCTCCATCA autosomal
AAGACGATACCAAGCTCAGATCAACACAGGCTTACAAAATGCATTTCAAG autosomal
AATCTGAGGCCTAGACTGGAGTAGCTCAAATCTCATAACTCATGTCCTCT autosomal
CTGCTTGAGCTTGTCCTCGATCTCCCTCCTGCGGGCCGACACCTCCTCGC autosomal
AATCCTCTCCAGGTTGCCCTCAAAGTCCAGAGCCCACTGGTTAAGGGCGC autosomal
AAGTTCCTCTTCCTTCAAGTAGATTCATTTCCACAGAGATACAAGAAATG autosomal
ACTCTATTTCTAGAGTGCTACTGCTCAGCAATATTTTACCACTGGCACTC autosomal
GCGGAAAGAAGAAAGTAGCCCAGGTGCTCCTTCAGAAGGTATTATCGTAC autosomal
ACCTGGAGGCGGGGCCTGGTGTCGGCGCCATTTTAGCGACTTTGAGCCTA autosomal
TGTTCTTGGGGTGCTAGATATTACACTGTTTTAGAGAAAGAGCTCTTTAA autosomal
CTTCTTTGAATTCCAAGTGCAAGATGCTGACTATGAAAGCAAAACATGCC autosomal
AACAGATTAAATCATTACACGGAGTCAGATCAGCACACAAATAATATGAA autosomal
CCGCGGAGGGGCGCGGGGAGCGGGGAGGAGCCCGAGCCCGGGGGCCGCGG autosomal
CTCTGGCGGCCCCTGAGTTGTGGTTCCCGGGGGGAGTGAGAGGCTCACGA autosomal
ACACGTGCTGTCGGTCGCACAGGTCGCGGTGTGGGGCCTTCCCCGTCCTG autosomal
CTTTCAAAAACATAAACCCACAACTCGTCCTTTTCCACCGCCCGCGACGC autosomal
CCGCAGGAGGCGGGTCACGAACGCGGCCGCTGTGGAGATCTCGGTCCTCA autosomal
CCAGCGCCGGGCAGGACGGAGCCTCCCGCCGCTCCCGGGGGATATTCCCG autosomal
AGTTGCCAGAGCCCACGATGCAAACTTTCTTGCCACCCATGGTGCCGAGA autosomal
CGGGTGAAGGAGCAGCGGCTGCCGGGGGTCGAGTGGCCCCCTCAGCACCC autosomal
AGGACGAGGTGAGGACGCTGACCTACCGCAACTCCATGTTCCACAACCGA autosomal
AGGACATGTCACCTCTGCACAGGGAGGGGGAAACCTCATGAGAGTTTGGG autosomal
GGCCGGTCCGCTGCGGCCCTGAGGGGGCGGCGGCGCCGCTCCCCCTCCCC autosomal
GTGGACACAGACAAGAAGGTGGGCTTTGCTGTGACTACCATTACTGAAGA autosomal
CCCGGCCCCTGCCTCGGGCTCCGCGCGCGGCCCAGCCCGGGCTGCTCCGG autosomal
AGGGATTCCGGGAGGGATTCCGTGGAGCGATTCCGTGGAGCGATTCCCGG autosomal
ACGCAGCAGCGGCGGCGCGGGGGGGGCCGGGGGGGGCGGCCGAGGGACGG autosomal
GGCCGCGCTGCGGCGGGAGCTGCACCCGGCCTCGGCGGCCGCACCGCGGA autosomal
CAGCGCAGGGCAGAGCGCAGCGGGAGCCGGGGCCGTGCCGGGGCAGCTGC autosomal
AAGAAGAAAGAGCGGAACAAGGAGAAGCGGGGAAAGCAGCAGCTAAGCAA autosomal
GCCCCGGCCCCGCTGGAGGGGGAGCGAGGGGCGCTGGCCGCCGCCGTCCC autosomal
CAACACCTCCCAACTTCAGAGGGACGACAGGACAGCCTTGGAGCAGGCAG autosomal
GCTGGGCCCCGCCCCCAGCAAGGTGCTGCTGCTGCCCGCCACGCCCGGCC autosomal
CGGGCGCGGGCGGCGCTGAGGGCGGGAAGGCGCCGCCGTCCCGAGGGAAG autosomal
CACCCTCGTCGCCGCACCCGGGCGCCCACCAGCCCTCCGCGGGGCTCCTG autosomal
AAATTGACTCTGGGAAGTCCTGGTCAGAATACAGGGCAGCTACGAGTGGG autosomal
GAGCGGGGACGGGCGGCGGCAGCGGCGGCAGCGCCTCCTGCGCGCCATGA autosomal
CAGTCCGAAGGCTGCGCGAAGAAGCCCGGTTCTGTGCGGCTTCGTTCTTC autosomal
CTACTTCTGAATCTGGTGGCAAGCACTTATTTACAGGTACTAACGAAGTA autosomal
ACCTGTAACCCCTGTAACCCCTGTCACACCTGTAAGCCCTGTCACACCTG autosomal
AAATCCTCCCGCCGCCGCTGCTGCCGCCAAATCCTCCCGCCGCCGCCGCC autosomal
CTCACTGGAGATCTTGTGTTCAGGATCCCAAATCAAGTATCTCAAAACTC autosomal
CACCTTTAATTTAGCAGTGTCATAAATTTACAGTTACTCCTGCAAGGAAA autosomal
CACCGGGATCTCGCAGCGGGAGGCGGCGGGCGGGAAGATGGCGGCGTGGG autosomal
GGCCGGGCGGCGGCGGGGTCGCCGCCGGGCGCGCACTCGGCGATGGTGCA autosomal
AGATGATTTTCTACTCTCGAAGTTGGTGCATGTGCGGTTTTGGCCTCTGA autosomal
GGGATGACAGCCACACTCTTATTGACCAGGAGAAGCGATTAATGGCCAAA autosomal
AAACGCTTGAGGAGATGGGGCTAATCTAACATGACCACTCTGCGTCGCTT autosomal
GGCGGCGGCGGTGGGGTCTGAGCGCGGCCCCCATGGAGCTGCTGCGGAAA autosomal
CATTTTCTGAGATGATTTAAGAGGTGGCTGCTGAAGTAATTTGCGGTAAC autosomal
AAAAAATAAGAAGTCAAATAATATTGTTCACTCTTGTATCAAAACTAGAT autosomal
GTGAGGGAGCGGCGCCGCCATGGCGGGCCCGGCGCTGCGGGCGCTGCCCA autosomal
CAGCAGTACCAGGATGCCACAGAGGGCAACAAACCCCGAGAAGGAGCACA autosomal
GAGCGGGCACGGAGGAACGGGCACGGCGGGACGGGGAACCCAGGGCGGAA autosomal
AAATAGTATGACTGCACTTGAAAAAAAAACCCAAAGAGTATTTCCTGTCC autosomal
AGAGCTCTCCAGCTTTCCCCGCCCCGCCGGAGCGCGATGCCGTAGCGGCT autosomal
AAACTGCTGAGCTACGAGGAGGAGGCGCTGCGGCCCCATAACATGCGGCC autosomal
GACGGGATGGGCGGGGCGGCGAATTCTCGCGAGATCCGCAGCGAGCCTCC autosomal
ATCTCTATAAGAAATTTCAGACACAAAGTATTACACAACTTAATAAAAAC autosomal
GAAAGGACTGGCCATTCTCCAGAAGCTTGGTGTGGAAACAGCTCTCTAAA autosomal
GGCCGGGGCGGACCGGAGCCCCCTCCCTCCCTCCCTCCAGCTCTCCCGCC autosomal
TCATCTCTGAGGGGTTTCATCTTGTCTTTTTATTGTACACAAAAAAAGAA autosomal
CCCACCCCAAAAAACACCCAAAAAAACCCAAAATCCCCCCAAAAAAACCC autosomal
GAGCCGGCTCTGGGACGGCGGGGTGGGGGAGAGCCGAGGAGCGGAGCTGC autosomal
CGCGCCGCCCGGCTGCTGCATTCCTGAGCCGGCGCTGCTCCCGCATCCAC autosomal
ACCCTCCTGGTCACCTTCAAGCACAAGAAGCTCCGGCAGCCTCTCAACTA autosomal
CATGCGCGGGGAGGCCGCGGGGCGGGATGGTGGCGGCGCCCGCGGCCCCG autosomal
CCTGTTATCCAGTTATCCCAATATCCCATGGATTCCAATATCCCAATATC autosomal
CCGTGGCGCAGCTGGCGGCGGGGCTGGGCGCGCAGCCCCCCGCAGAAGCC autosomal
CCGGTGCATGTGCGGCAACAACATGTCGGCTCCCCTGCCTGCCATCGTCC autosomal
AGCTGAGGGCGGCGCGGCGGCGGCGCAGGAGCGGGAGGTGTGGAATGATG autosomal
GTTCTGAAGACCTGCTCGCTAGGCCACGCACGGAGGACTTCCGTTCCTCA autosomal
ACCAGCGGCTCCCGCCGGCAGGGCGGACAAAGCGGTGGGGCGGCGCGCCG autosomal
GCAGAACTGGCCCTGCAAGGACCTCAGGGACTCTTTCAAGGCTGGCTTTA autosomal
ACTGAGACCCACCAACCCCGCGCCCGCTCGCCTATAGCCGGCCTCGCGCG autosomal
AGGTCAGATCCCATAGGAGCAACAGGAAGGTGTTCAGCTGCTCTGTCCGC autosomal
ACCTTGAGCTCATCCCGCTGAGAATGTTCTCAGCTTTCTCAGAGCAAGCT autosomal
CCCAGATCCGCCGCGCAACCCGGTACGGAGCGATCGCAAAAGCCCTGCAC autosomal
ATCATGTAGAAAGAATTTGTTATAGGTGGATTTCTTCTCTTTCTTTCCAG autosomal
CTGTGCGAGCCCGGCTCTGTCCGTGCAGCGCTGCCTCTCTACCTGCCTCC autosomal
CCGCGGCAGCAGCTCCGCTCCTGTCCGGGCAGCGAAGCCCCGTCCAGCGG autosomal
AGTCTCTGTGCCGTGGGGATCCATGTCTGGCATGGTCTATAGTGCTCGCA autosomal
CCACGCCCCTCTATGGGCACCGCGCTCCTCGCCGCGCTCACTTTGAGTTA autosomal
TTCTTAAGAGCTGCCAGTGCGGAGACTGTCCAGCCCCAGGGCAGGGAAAA autosomal
AGGAGGCCGCGCGCGGCGGCGGCTCCGGGCTCGGACGGCGGCGGCTGCGG autosomal
GCCGGGAGCGGGCGCGGGGCTGACCCCGGGGCGGGCTCGTGAGCGGGGAC autosomal
ATCAGCCGTCAGGGACCCATGATAAATCGCAATGCATTATTGATAATAAT autosomal
CCATTTTGATTCCTTTTTCCGGAACAAGTTTGCGGCTCCCTCCCGTGCGC autosomal
GAGCGCTCCGCGGCCCGCGGTGCTGAAGGACAGCTCCCTGCCCGCGCCGC autosomal
CGCAGGACAGAAAGCCGGGCAGGCTGAGCATCCCCATCTCTGCCGCCGCA autosomal
CGCAGCAGGTTCTTGGACAGCTTGGTTTTCACATCCCCGGCCATGGCTGC autosomal
CAGGCCCGATGGCGGCCGCTGCCGCCATGTCGCTGGGCAATTACAGCAGC autosomal
CAGCCCAGTAAGTCGGTCACACGGAGGGCACAAGGTGCCCCATCGCTGCA autosomal
TTAGACCCTCCTGTATTTAAAAAAAAAAAAAAAAAAAATTGGGCTGGAAA autosomal
CAAGATGAAGAGCACTTGGTCGCTGTGTGTTGCCTTGGCCGTCTCCTTGG autosomal
GCAGGGGGGGGCCGGCGGTGCCGGGCAGGGCTCGGTGCGCGGCGCCCACC autosomal
GAGTGGCGAGTGCCACAGTGACCCCTGTCAAAAATCCAATTCTAATTTCA autosomal
CCCAACTTCGTGCTGGTGCTGGCGGACGATCTCGGCTTCGGGGATCTGGG autosomal
ACCTTAGCAAGATGCAAATGGTATTTTAGCAAGATTTTGCATGGAGATAT autosomal
CATTTCTCTGATTTTCACCTTCTCCCCTCGGGCATCCCTCCCGGAGCTGA autosomal
CATTAATCCAGTTGGAAACACAAATATTCGTTGCAGTGCCCACATTTAGC autosomal
CCTGTATATTGTGCTCAATAATGTTTTTTCCCTCGCAGATGCATCTGACA autosomal
CGGCCGATCCCGGGCGAGGGGCGGTGCGGGAGGGGAAGCTTGCCTGAAAG autosomal
GCCCAGCAGGACGCAGCCGGGGTGCGCGGCGCTGGTGACCACCACCCCCA autosomal
ACCGCGCACGCCACACGCGCCTCGCCCTCCGCCTGCCCCCTCCCCCGGCG autosomal
ATGAACCGCGGCGGGGCGGGGGCGGCGCCCGCCTTCCCCGGCCCCGTGCA autosomal
CCGAGGGGCTGCCGCGCCTCCAGCGGGGCCCAGGCCAGGCAGGTACAGGC autosomal
AGGAGAGCGAGGTGCTGGAGGAGAGTCCCTGCGGCCGCTGGCAGAAGCGC autosomal
CCCGTGACAGCTCTCAGATCAGAGGCAGCAGACCTCAGGCTAAGTGGGTC autosomal
AGAACTGTACAGATTACTAAGAAATCTATAGGAAAAAAGAAAAGCAGAAT autosomal
CGCCGCTGTCACCGTCACCGCCGCCGCCGCTGTCCCAGCCAGCCGGCCCC autosomal
CAGCTGCTGAAGGGTTATGCAGAAATCTCCCCCCAGCAGTGCAGCAGGAC autosomal
AGGTTCCCCAACTAAAAGCAACAGTAGAAATATCTGACATAGCTATTGAA autosomal
ATTTCACTAGTGCTTTTAGACTGCAGGACATCACTGGTGGAAAGTGGATC autosomal
GACCGGGACCGGGAACGGCACCGGGAACAGCGGCGGGAGCAACGGCGGCA autosomal
AAGAGCCTCCTGCTGCGGCGGCCGGCGGGAGCGGGAGCCGGGGCGCAGGG autosomal
ACGGGGACAAACTGGCCGAGAAGCTGACGCTGCTCAACGAGCGGGGCCGG autosomal
CTATTATTAATTTTTTGTTAATAGAATTGATCTTTAGAGTGAAATAGCAG autosomal
CAGGTGTGACAGCGATGTGGTGACATCTCTGTGGCAGCAGGGGTGACAGC autosomal
ATCAGAGCTGGGCTCTGCCTTTGGGCTTTGAGCTGCAGCCAGCACATGTG autosomal
AGCATCCACCTCGGAGTCAGGGACAGCGCCTTCCTCCGCCGCCCCTTCGG autosomal
CCGGCATCCCGGGCACCGGCACTGCCTTCTCAGAACCACCGAAGCACAGG autosomal
CACGACGGGCCCGCGCCCGTGGCCGCCTTCCTGCGGGCCCGGCCCGGCCC autosomal
AGATGCTGGGGAGCGGCGGGGTCCCAGCGGGATGGGGGCGCGGGTGGCTC autosomal
CCACCTCCACCTGGGCGGGCAGCGCCCGACGTCGCGCCACCGCCTCCAGC autosomal
GACTCTAGGGGGTCTTCTTTTGTTTCCCTCATTTTGTTTTTAGACACAGC autosomal
AGGCTACGATGTAAGGTGCTGCTGTGACCTGCTCATCTCCCACAGACCAG autosomal
CAGCCAATCGCCGCGCGCGGGGCGAGCCCTCGCGGCCAATCAACGAGGGC autosomal
CGGCGGCGAACGCAGAGGCTGGAGGCTACACGGGCATCCCCATCCCGAGC autosomal
ACATCTCCTCCTTCTCCTCCTCCCGCAGGACCTGCCTGCTGCGGTCCAAC autosomal
CTGCAGGCAGCCGAGTCGCCTCCAGGAGCTGGGAGGGGAGGAGGAGACCC autosomal
CCTCTTGACCTGCTCGGGGCTCAGCCCGACCCCTTCGCTCACCCCGAAAA autosomal
CCTCGCAGCCCTCACCGAGCCCGCGCCGCGGGGAGCAGAGGGATGCCCCG autosomal
AAGCGGCGCCCGGCGGCGGCGGCCGGGCGGGAGCCTGAGCCCCGGAGTGC autosomal
CCCCGCCCCTCGCCCCCTCCCCCCGCGGAGGGTGACGGGCGCGTCCCCGC autosomal
AGCCTCCATGCTTTCCCCATCTAGTTCCAAAAAGGTCCCATCCATCCATC autosomal
GACACACGGAAAATTAACCACAGCTTTCTGCGAGACCACAACTATGTGAC autosomal
ACAGGGTTGAACACGGATAAATTCAGAGTATTAAGAGAGCAAAAGCTCTC autosomal
GCGGCCGCTCCTTCCCTCCCTCCCTCCCTCCTCCCCTTCCTCGCTCCGCC autosomal
CCTTCAAAGTTGTTAAAAGGAGTAGGTTTATGCTCAGAAGTCAGCCAGCC autosomal
CCTGCAGCGCCCACCGGCCCCCTCAGCTCCGGCACGCCGGGGCTGCCACA autosomal
CCTGTACTAGGGGCAAGCTAAGTAAAACACGAGTCAGATGGAGAGCAACG autosomal
CGGGGCGCTGAATGATGTCATTTGGGGCTGCGGCTGCGGCTGCCGCAGCC autosomal
CGCCCCGCCGGCCGCAGCCGCTCCGCGCCGCGCTCTCCACCTCCTCCTCC autosomal
CCCACTTTGCGGCTCCGGATCAGCACGATGCGCGGCGTGTCGTACTCGAA autosomal
GGGCACCACGTCCCCGTCGGCGATGGTGCCCACCAGGCCCAGACTCTCCA autosomal
ACATAGCTTGGAGTTTACTGCAGATCCAAAGCTGTCTTGCCATTTTCATC autosomal
GTGCCGGGCTGGGCTGGACCGGCCGCTCCTTCTCCCCGTCGGCCGCCGGA autosomal
AACTAAGCCACGCCCCTTTAGCTTCCTCAGGCCCCTCCCCCACCCCATGG autosomal
GCTGTCAGGCTCTCTCAGGTTTTCAGGCAGAATTGTCTTTCTTTCCTCAC autosomal
CACACAGCTTCCTGGTAAATTCACATACATGGAAAAGGAATCAGCTAACA autosomal
CCTGTGGCTAAAAGCTGTGTCCAAGCTGTTTCTACCATGAGAGCAAGCAG autosomal
ACCAGCAGCAGCGGCACCGGCAGCGCCGCCATGGCCGCTCCGCTCCGCCC autosomal
ATGACGTCAGCGCGGCGGGACGCGCGCGGGCGGGGCGGCGCGGCGCGGCG autosomal
AGATGTAAAGCATTAATCACCTTTGTGATCAAGTCCCAAGGTCTCACAGC autosomal
CCCTAAAGGTTCATCGACTTTTAATGCGGTAGAGGTGCTGAAAACGGCTC autosomal
CCCTGTGCGGCGCCGCGGGGCGAGGATGAGGCTGAAGCTGCTGGGAGCGG autosomal
CCAGGCTCAGCCTTCCCAGCTAAAGCTGGTTGCCCGTGGATCGTGTAGCA autosomal
CCGCCGCCGCGATGGTGAAGGAGCAGTTCAGGGAGACCGATGTGGCCAAG autosomal
ACACCCCCATGGTGCCCATCAGGTGCCCTCTGGGTGGCATTTGGAGGGAT autosomal
AGTAGGCTCGGGCATCCTCAGCATGAAGAAGACGCGGAGTACGACCTTGC autosomal
TAATTCCAACTCAGGCTTATTTCGACTTGTTTTTGACTGACAGCGAGGGA autosomal
CGCAGCCCCTCCGCCCCCGGGCCGCCGCTCCCCGCTCCGGGTGGCGGGGC autosomal
ACAACCTGTGCTGCTCCCTGATGTGCCGTGGGTGCTGGGAGGACTGGGGG autosomal
AGTAGGCGCAAAAAATGGCAGAAATGGAGAAAGAAGGAAGACCTCCTGAA autosomal
GCCTCGGCGGGGAGGCGAGTGTGTTCCATGCAAAACCCCGGCGAGGAGAC autosomal
CCGGCCGCAGGAGCGCCGCGGTCCCCAGCGCCCAGCGCTGCCCTCGCCCC autosomal
CCACGGCCACGCCGCTGCACGGCGGTAAAGGCGGGGCCGGGGAGCCGTGA autosomal
CCAGGGGGAAAAGTAGAACTCACAAACATGCGTTATCGGAAGTTTCAATC autosomal
CCCCGTCCCCGCCCCGCCCGCCCCGCCGCGGTCTCGCCTCCGCCCGGCTC autosomal
TGAGAGCACCCAACCTCCTGAGCAAAGGCCTGAAATCCCAAATTTCCCCA autosomal
CGAAGGGCGCACGAAGGCTCAGCCCCGATTTTAGCGCTATCGGCGGCCCC autosomal
AAAAAGGGTCAGTTCTGGCTGTCTCCCTGTCCCCTAATGTCACCCCCCAA autosomal
AGAGCCCCTGGGTGGGCACAGTCCCCCTGCCTGGGCACTGGGGCCACCCT autosomal
AACCACTAACAGCTGAAATATACAGATTGTGTCTTCCACTCTGGCTAGGC autosomal
CGCGGGGCCGCGCCGCGCTCAGCCCGGAGCGGGGCGCAGCGCCCCCGCCG autosomal
TACAGAGGAGGAGAGCAACATCTTCAGCGCTGGGCTTTGGAGGGGGGGGA autosomal
ATGGCGGGGCTGCACCGGAGCGAGCGGGGCCGGGCCGGGCCGGGCCGGGC autosomal
CACGGCTCGGCTCCCCGAGGACTGTGCCGGCGGCGGGCGGAGCGCCGGGA autosomal
GGTAGATTTAAAAATTAAAAAAAAAAAAATAGAAGAAAAAGAAAATAGAA autosomal
AGTCATCAGCTCCATAATCCTGGCTGACAGACACGGTGTGGCCTGCAGTA autosomal
GCGTGATGCGCTGCGGGTACGCGCGCCGGCACGTCTCGTCGGGCAGCAGC autosomal
CTCCGCTCCGCCGCTTACCCCGCTCCTCCTGTTGCTCCGATCCTCCCGGC autosomal
CGCCGGGGAACGGCTGGCTCTACATGGCCCGCTCCCATTGGCTGGGCGGC autosomal
AAGAGCAGGGAGGACAAATCCCCGCGGCAGAACCTCGTGGAAGAGGCCAT autosomal
CAGGAACCAGAGCTGCACCAGGTCCAAACCGCATCAGTCCCGGCCCCAGC autosomal
CCATGAACCTGACGGCCGCCTCTCGCAGGGGCTCCTGTGGGCTCTGCAGG autosomal
GGCGGGCGGTGGCGGGCAGAGCGGGAGGGGGTTCCCGGAACGGCCCCGCC autosomal
TATCCAATACCAGGAAGGAGGATGCATCCAAATATCTCAGACCAGGAAAA autosomal
AGGACGAGCCCGAGCAGCAGCAGCAGCAGCAGCAGCGGGGCCAGGAGCCG autosomal
AACTTGGAAAGCAATAGTGTCGTCTTATCAGTCCTCCTAAAACCTGAAAA autosomal
ACGTGGCCCCGCTCACACGCGAGTGTTCCGGCACGCACCGCCCTGCGCAC autosomal
AGGCCCCACGCACCGTGCAGGGAGCAAGGAAAAGTAGTGGGTACCCTCAG autosomal
CCGCCCTAGCAGCACGTAAATATTGGAGTGTCAAAGAAACCTTCAACCCC autosomal
GAGCACGGCCTGGAGAAAGGGGGGAGAATCCCAAAAAAATCATCAGAGAA autosomal
ACCCCCGCAGCCGCCGCGGTGGGGGATGTGGCACGTCGCGGTGCTGCTGG autosomal
CTGTATTTATCAGATGAATGTTTTTCTTCAACATCACAAGGATGGGTGTC autosomal
CCGCGGGCCTGAGGAGCGCCAGGAGGAGCAGCAGCGCCGAACCCATCGCA autosomal
GAGAGCGCGGCCCGGAGCCCCCACAGGGCCAGGAGGGGCCGGCGGAAAGC autosomal
GATCCTGCGAATTCCCCGCGGGCTGCCCATGCCGCGGCCAGGCCGGAGGC autosomal
AGGAGGACTCGCCCCCCGGCGAGGAGGAGGAGGAGCAGCTGCTGCTGCAC autosomal
CAGGCAGAGCCCGCGGGGCCCCGGCATCCTGCGGCCGGGGCGAGCCGAGC autosomal
GGCAGCTTGGAGTGGTCGATGCCGATGCCGGCCATGGCCGGCCCCGCCGA autosomal
GAGCGCGGCCTCGGGCGGGCGGAGCGGTGGCGGTTCGGGGCCTCGGAGGA autosomal
AGCTGCCTCTTCAGCACTGACAGAAGCACATCAATAGAGGGAGATGAGGG autosomal
GCCCCGCCCCGCCCCTTGACGTCACAACACGAGCCCCGCCCCTTGGCCGC autosomal
CGGGCGGGCGGCAGCGGCCGTTGGTGGCGGGAAGCGGCGCGCGCGGACGC autosomal
AATGCCATTTCTGACAGCCCAGCCGTACCCCTGTGTGCTGGGAAAGGGCA autosomal
ACCTGCAAATCGCAGACCGCCGAGTCCCGAAAGCCGGAGCGCTCCTTAAC autosomal
AGAAGCGCTGGGCGTGGCCACGCTTAAAGCCCCGCCCACGCACGTGGGTC autosomal
CGCGGAGGGCTTTGCCCAGCGCCTGCCGCGCCTCAGGCGCCGCATCCAAC autosomal
CCGGCGCCGTCCAAACGCGAACTCGCCGCTCCGGAGCGCTCCGCACCGGC autosomal
CCGCTCCGTGCCCGCTCCCGCCGCGCCCCGACCCTGCGCCCCGTCCCTGC autosomal
CAGTGTGACCACCATGGCGACACGCGGCTGCGACTCTGCGAGAACACGGA autosomal
CTGACCGCGCGCTTCTCTCTGCTCTGCTCCATCCGCCTTTCAACCTCCTC autosomal
GCCGGGAGCCGCTGGCGGAGCAATGGCTGCTGCGGTGGCCATGGCGGCGC autosomal
AGCTCTGGAGTGACACATCATCTGCCCAGCTCTACGTGGTTCCTCTGACA autosomal
CTCCCGCCAGGGGGCGCCGCTCCGCCCGCCGCCCCTTCCGCCGCTGCCGC autosomal
CCGCCGCCGCGGCCCCGCCGCCGCTGGAGTCACCGCCGACCCGAGGAGGA autosomal
CTAATATTAAGGTCCAATGAAGGCAGGTTAGAATAACTCAGCTCGCCGAG autosomal
CCGGCGCGGCCGGGATTCGCGGCCAGCGGCAGCAGAAGGAGCCGCGCCGA autosomal
AAGGAGGCGATCCAGGGCCGGCTGGAGCGGCTGGAGGGCCGGGTCCGCCT autosomal
AGCCTCCCCGCCAGCCTGGTCCCCGCCAGCCTCCCCGCCGCCAGCCCGGC autosomal
CGCGGGCGCTGGCGAAGCAGGCGATGAGCAGGAGGATGCGGAGGGCGGGC autosomal
GGCAAGACAGCTTTGGATCTGCAGTAAACTCCAAGCTATGTGGCAGCTAC autosomal
GCCCCGAGGGTGGCCCTGCAGCCTGTGCTGAGGAGGCCAGACAAGGCAGA autosomal
TCCCAGATTTGCTTGCACAGGCAAAAAATATTTATGCAACAAGATGTCAA autosomal
GCGCGCGCGGGGAACTCCGTGGTTCACGCGCGGCGCTCCCGCAGCTCCGC autosomal
CGCCCCAGAGCCCCACGGAGGCCACGAGACCCCCCCCCGGATCCCTGCGA autosomal
CGGACGGTGCCGGCGCTGAGGCCGCTCCGGTCCAGCGGGGCCGGCCGAGC autosomal
CCTTTTAAATGCTGGGTTTTAAGCTTTTTTAGCGGGATGTAATGTGTGTC autosomal
AAGACTTTGTCTTGGAGTTAACTCCTGAGCATTTTGAGATCATTCATCAT autosomal
ACGCGCTGCGATGTGCAGGGCACGGGGGTGTCACTGACATCAGGGCAGCA autosomal
CGCCCGGGGCCGCCCCGGGGCTCCGCCGCCGCCGCTCCGCGCTGGGCCCC autosomal
AGCGGCGCGGATGGCAGCGGTGCTGCCGGGGACGGCGGGGCGCGGAGCCG autosomal
CGGGTAGGCCATGGCGGCGGCGCGGCGCGGAGAGCGCTCCGGGCGGAAAC autosomal
CGAGCTCATGGGCCGGGACAGGAACCTGGCCCCGGATGAGAAGCGCAGCA autosomal
GAAAAGGAGAAAAAACTAGGAAGCAAAAGTCCTGGATCCAAGAGAGCGCA autosomal
CGCTGGGCGCTGCCGTGGCTGCTCTCTACACGGCCACGCTGCCGCCCGCC autosomal
CTCCGCAGCGTGTGGGCGAGCAGGCAGCGGGCGGCCGCCGGGACAGCCGA autosomal
GCAAACAAAAGAGAGAGAAAAGCCACCTTGCTTTCATCTTCACTTGATGA autosomal
CAGCCCCGCGGCCATGGAGCCGGGCCGGCAGGCGCTGCCGCTGGAGAACG autosomal
GGCCGCGCCCGCCGGGCCGGAGCTGCCGGCGGGGAGCGGCCCCGTGCAGA autosomal
AAGACCTCCCAAAGAAACGGGCGAGCTCTGGGGTAAAGATGCCCTGTGTG autosomal
GCGGCCCGAGGGAGCGGCCCCTGCTCAGCACATCCCGAGGCTCGCAGCCC autosomal
AGCCGCCGTCTCTCCCAACCCCCGCGTGTATTGCTGATCGGAGGGACGGA autosomal
CAGCGAGCTGCCCCGGCCCGGGCAGAGCGGAGCCCCCGGGCAGCCCACAG autosomal
AGGAAGAACCATGAGAAAGGTCACTGGTGTTTAAAAGGCACCAGTCACTC autosomal
CACAGAGGCCATGCCGCAGAAGCACCATTTCTTGAAATCGGCACCAGGCA autosomal
ACACCAGATCTCCGAGCCTCAGACTCACGGCCGCCATCTTACCGACACAG autosomal
CAGCGCACCGCGGGCTGCGGAGCCCCCTCCGCCAGTGCAACTCACTCCTC autosomal
CATCTCTTGAGAAGCCAAGCGCATGCTGGAGGTGCCGCGCAGCTCCCACC autosomal
GCCGAGCCCCGCCGAGCCCCGGCCATGCCGCTGGAGAACCTGGAGGAGGA autosomal
CCGCGGCACCGGGAAGGGGAGCCTCACCTGGGTCTTGACAGGCACTTGCA autosomal
TCGTAGGCCACGGCGCCGTCCTGCTGCTGGTGCGGAGCGGGGTCCAGGCA autosomal
GCCACACCAGGAACGGCTCCCTTGTCTTTAGCCTGTAAGTAAATCTCGTA autosomal
AGGGACTACATTTCCCATAGGCCCCCGCGGGCGGTGGGGGGCGGGGCGTG autosomal
AGCAGCCGCGGGCCCCGCAGCGCTGCGCGGCTCATGGTGGCGGCGGCAGC autosomal
CAAAGGCTTTGAAGCGTCAACACAAACAAGTACACATGTATATATGTGCA autosomal
CTACCAGAATTTTGCTGATGAAATCCCCATCGATTACCAGTTCCTGGTGA autosomal
ATCTCCAATCGTGTGTTCTGTTTACGTTTGATATTATGTTCTGTGCTTTC autosomal
GCGGTGCCGCAGGTGCACCTGGCCCGGGCGGGGGCTGCCGCAGCCCCGCC autosomal
CAAGGTGGTGGTGTGCGGGCAGGCCTCGGTGGGGAAAACCTCCATCCTGG autosomal
ATGATTTTTTGGGGTTCTCTGATGATTTTTTTGGGATTCTCCCCCCTTTC autosomal
AGACTCTCCTTGCCTGCACTGGGCCTTTGGGCAAAGGGACTCCATCCTGC autosomal
AGCACAGCCCTGCAGCCCAGCTACTGCACTGAAGTCTCTGAGAACTCCAT autosomal
CCGGGCGGGCGGCGGTGTGTGCCGCTGCTGCTGCTGGGCGCTCGTTCTCC autosomal
GCTCCCGCCGCTGCCCCCGGGGAGCGCGGGCTGTGTGCGGCCGCCCGCCC autosomal
CCTGCATAGTGGAGGAGATCACGGCGGATGAGCTCAGCCCCTTCACCTCC autosomal
AAGCCGAGCGGGAGGAATGGCGGAGCTGCGGCCGCCGGGACCGCGGGGGG autosomal
CCCAACCGCACAGCGCCCGAGGGCTTCGCGGCACTTTCTTCTCACCTCGG autosomal
CTCCCACAACTACCCCCCCCCCGCCCCGCCACTATCATGGTTCATCCCCA autosomal
CGCCGCGGCCCCACCTTTCCGCAGCGCCGCGGCCGCCGAGGAGCCGGAGC autosomal
CTCTCCTAAGGATTTCTCAAAAAACGGCTTAATTATTTTCAGCTTTTCTC autosomal
CACCACTAAAGCATATTCCCAAGTGCCACATACACGTGTCTTTTGGGCAC autosomal
GGGGCAGGTAGATGTGTAGGAATGGTAATTTCAGTGCTTTCTTCATTAAA autosomal
GCGCGGTGGCGCAGGATGATGCGGCTGTGGCGCTCGGCGCTGCTGCGGGA autosomal
TCCCCCGCGCCAGGAGGCCGCGGGAGCCCCTCTGCGACCCCCGCCCCCAA autosomal
CGCCTCCCGCACCGCCCGCGGCTCCCGCCGCCTCCCCGGAGCCGCTCCCG autosomal
AGGATGCCGGCGCCTCGCCGCCCCTATAGCCGCGCACAGAGCGGGGCGGG autosomal
CAACGGGAGAAGTCGCTGCACTTCTCTTTCGCAGGATCGGTGACGGCGGC autosomal
AAACCCCAGAAAGCTTCCATAATTTAAATCTCTCTCAACACACAAACTTC autosomal
CCTCCTCTTCCTCCCCAGCACAAAGGCCCGGAGCTGCTCGGGAAGGACGC autosomal
GGAGGCATGTCCAAGGGCCCGGTGGCGGGCGGCCCTGCCGCGGCCGGGCC autosomal
CGGCAGACGGGCCGGAGCGGCGGAGGGTGCGGGACGCGGGGAACGGGCCC autosomal
AAAGTTACAACACTGCAACATAGCGATCCTACAAACAAACAAAAAAAAAG autosomal
GCGACTATTGCTGGAGACGGCGGCGGCGGCGCCCGGGCATGTCCGGCCGC autosomal
AAGGCTCTACGAAGCTTGCAGTTTTCATGTGAGCCGGCGATGTTCCCCGA autosomal
CCTCCCTCCTGGATGCTGGAAAGCCCAGAGCCAGAGCAGAGGGCTCGGCA autosomal
CGTATTTCGGTGGTGCCGAGGACCCCTCCTCGGCGGCCGGTGGGACCCCC autosomal
AACCTGAAGCCTATGACCTCAAGATCCAGAATGGTCTAGAAAGCCCAATC autosomal
ACTGAAGGCAGGTTCCACGACTGCTGTTAATCTTTTGTCTTGTTTATCAT autosomal
CGTGACCCGCGCCGAGCGCCGCTGCACTCCGGGGCTGCGCCGGGGGGACC autosomal
CGAGTGGGCGGTGAGGCGATTGGGGGAGGAGCATTGTGGGCACGCCTTCA autosomal
ACGAGGCGCAGCGCGGAGCGCGGCCGCAGCGCCCCGCGGTAGGGCACGTA autosomal
CACCGGGATCTGTTCGGGAACGGGCGTTTGGTCAGCGCGGCCGAGCTCAG autosomal
ACAATTTCTAGAACTGGTCCAGTGATTAATAGAAACAAAAATCATGAAGT autosomal
GGGGCGGCCCTTTGTCAGGATGCTCTGAGGAGGAGGAGGAGGAGGAGGAA autosomal
CTCGCGAGAGCTGGTCACTATTTATACTGCGCCGGAGCCACTTCCGCCTC autosomal
TGCCCAAAGTGGAGGTGCTGCGCCGTGACACCCTCAAACAGTGCAAAGAA autosomal
AACACACACCAGGCCATCTTACTTGGCTCAAGAGAGACCAGTGAGAGTGG autosomal
CACCTCTTAATGTTTAGTAATGTTCATCCTGTGCTTAGTACTGTGCGGAA autosomal
ACGGACATCCCCGGACCCCCCCGGAGCCCCGGGCCCCTCACCTTGTTGAG autosomal
ACTGACCTCTGTAGACACTAAACCACAGCAGAAAAGTCTCACATCTGGAA autosomal
AGCGGCAGCAGCTCCCGGCCGCCATGAGCAGGAAGGGGGGAAAGCTCCTG autosomal
CTGTTGGGAAGGGTAGATAAATATGATTAAGAACCACAATAGTACAGCCA autosomal
CGAGGCAGCTCAAGTGGCCGAGGGGGTGGTGAAGGCAGGCGCAGACTCTC autosomal
CTCCAAAGTGATGGTGACCGTCATCTACTCGGCTCTGTTCTTGGTGGGCA autosomal
ATTCAGCAGTCACACACTGGTGGTCAGGCCAAATAAACAGGAGAAAGAAA autosomal
CTCCAGGCTTCTCAGGAAACGCTGCTTTGTGCAGCCGAGTTCCTGAAGCA autosomal
ACGGCGTGAGGCGGGCGGGCTTTGGGCTTTCCGCTTCCGAGTCAGCGGGC autosomal
CGGGCTGAGCCCCGATCGCCGCCCCCGGAGGGACGGAGAGGGCTCCGAGC autosomal
GCCCCCGTGGTGCGGGCGGCGCTGACGTGTCGGTGGGAGCGGCGGCGGCC autosomal
AGCTGAGGATGTTGCCAACAGCAGCAGAGGTAGAAGATCCCACGGCGGTG autosomal
CGAGCTCCGCACGGAGGACGCTGGCCAGCGCCATCTTGGATCCTGGCAGC autosomal
TAAACCAAAAGGTGTTGGGGCAGAGGAGCCTTGCTGTGGGGAATGGCAAA autosomal
CATCGCGGCTCGGCTCCGCTCCGGCGGCTCCGCACCGAGCCCCGGCTCCG autosomal
ACAGATGCTGGCTGTGAATGCAGAGTGGAGCAGACCTTCCTTGCTTGTCC autosomal
CAGCAGGACCAGCCCCAGGCTCAACCCCACGGTCCTCATCTCGCCTCACG autosomal
CCCATATCCCCATGTCCCCTTGTCCCCGTGTCCCCATGTCCCCGTGTCCC autosomal
GGAGCAAGCGGACCATTCGCAGGCCTGCTTACTGGTTGGAAATGAGAGGA autosomal
CAGCTCGGCGGCGGTGCGGTCTGTTCTCCGCCCGCCGCGGCTCCACTGCA autosomal
CATGGGATGGGCCGGCGCTTCCCGCCGCCCGCGGGCCGGGCAGGAAGGGG autosomal
TCCCGTTGGGCTGGGCCGGCCTGGCGTGGGTCTGCGGCCGAGGCGAGGCA autosomal
CAGCTGATTTGTGCTGAAGGCTGAGGGAAATTTTAGAGAGTCATTTGGCA autosomal
CCCCGATTGGGGTGTCCCCCTGCTCTGGCACTCTGGCACATCCCCCCGGA autosomal
AAGGGGGGAAAGCAGGGAGGGAGCGCGGACAGGAGCCCCCAGAAAGGCGT autosomal
CCTCCCGCAGCCCCGCCCAGCCCCGGTGCGGGGCCAAAAGCAGCGGGAGC autosomal
CCTCCCCAGCTGTGCTGTCCTGACGGAATTCGCTCGGCTCCAGCTGCGCC autosomal
CTGCCCCGGCTGCCGCTGAGGAAGAGGCGGAAGCGACAGTCCCCGTTCTC autosomal
AGGGTACAAGGGACACTGGATCCCATCTCTCCAGACAGGTTTCCCACCTC autosomal
CTTCCTTATCCATGAATGATTTTGCATTCCTTAAGGACAGAAACATTTAC autosomal
ATTGACCGAAGTGGGTGCTGGGTGCACCCCGGCACAGGCCAGCGCCCCGA autosomal
CCTGCTTCTCGGGGAACCAGCACGCTCCTGAGGCCAGAAGGAATATAATA autosomal
AAACAGTAATTAAGATTTATGAAATAATTGTCTCACAAAAGCCTGCTGAA autosomal
AACGGCGGCACCGCCTCTCTCCGCCGGCGGCCCCGCGGCCGCTGCCGCCC autosomal
CGGCCCCGCCGCCGCCAGGCTCCGCCATGCCCGCGGCGCGGCGGCAGCCG autosomal
CGTGAGTCAGCCGAGCGGCGCGAGGGGCTGCGGGCCGCGCGCGGCTGCGA autosomal
CATCCTCATGGGGTGACCCTGCTCCAGGGAGGAATCTCCACACAGCCCCC autosomal
GCATGACGGGGGCTGTAGTCCGGCCCGCGCACGGGATGCTCATCCCCCGA autosomal
CCGGGGCGCTTCTAGAACGGGCGGCGGGAGCGGCGGCCGGAGCGGGAGCG autosomal
TGACCTGGAGAAGCAGGTGCTGTCGCGGGTGAACAGCCTGGAGGAGGGCA autosomal
TAACAATTCTGTGATTTTGTGATAAACTAAGCATAACAAAAGTGCTGACA autosomal
GCAGGAGCAGCATCTGCGGGGCTTGACCGGCGTGTCCCCAGGGAGAACAA autosomal
AATGAGCTCCTGTTTTTTGACAAACAGCTTTGGTAACTTAAATTTCTTGC autosomal
AAAAATCCATTGACATTTTTCCTGGTTGTCTAGTGTCCTGGGCAATAGGA autosomal
GCTGCCCTGGGGAAACCTGCAAAAGTGTCCTGGAGCCATGATGCTCTTCC autosomal
CAAAATCTCATCAGCTCAGTATTCCCTAGGGAAATGAAGGAAGAGGAAAA autosomal
CAAAGTAGACAGAAGGAGGAAGAGGGACTCCTATTAACTCCGTGAGGTCA autosomal
CCCTCCCTCCGTCCCTCCCTCCCTCCGGCCGCCGGGCCGCGGCTCCTCCC autosomal
GCGCGGCGCAGCTCCTCGGGAGTCAGCTGCAGGAACGCCGGCCGGCAGAA autosomal
CTGTAAAGATGACGACGAAAGCACCAACATTTACACAGCCGTTACAAAGC autosomal
ACGCGGCTCCCACTGAGCCGATCGTGACAACAAAACCAACTTGAGCGAAG autosomal
CAGGCCCGCTGCTCGCCCGCCCTCGCCATGGCCCCCGCCGAGATCCTCAG autosomal
AGGAGGAGCTGCCGCCGGGCTGGGAGGAGCGCACCACCAAGGACGGCTGG autosomal
GCCGCGGGCGGGACGGGGCAGGGTAGGCAGGCGGTGGGCAGGCAGGCAGC autosomal
CACCGCTCCTCCACCGCCCGTCACTTCCGCTTCCGGCGGCGCCGTCGCCA autosomal
CCAGGTCCACCTCTGAAGCCTTCTTCAGCTGCACTGAGATGAAGTTCGTC autosomal
GGGAGCGGCGGGGGAGGACCCGGGGCGGGGAGAGCGGCGGGGACGGGGAC autosomal
CGCTGCAGCAGCGGCAGCCACTCCGCGCCGCGCTCTGTGGTCCCGTGACG autosomal
GAAATCACGAACCAGGAAATGAGGGAGCGAGGAACCGAAACCCCGATTTC autosomal
CGACTGCTGCCTGCTGCCCTTCTTGCCGGTCTTCTTGGGCAGCAGCACAG autosomal
CAGCAGGGACCAGATGAAGCCCATCCATGAGAGCGGTGTCTGAGTGTTAA autosomal
CCGCTGTAGCGCTGCGAGGAGCCGCCCGCTCGCCCCGCTCCGCCGCGCTC autosomal
ACCCCCCCGCGCCCCCTTGCCTGGGGGGGTCCAAGCGGGAGAAGCGCCGC autosomal
AGCATATTAGATATTTCTTAATTTTAGTATTGCATGTATGTCTACTAAAT autosomal
CCGGCACAGCCGCGCCACCTCCGCCGCCTTCTGCGACACCGCCACCAGCG autosomal
TCAAAGGTCTCTTTCAACCTTGATGATTCTGTGATTCAGTGATTCGATGA autosomal
AAAAGCTTTCTGCCTTTTCAAGTTGTGTTCTTACCATCCTATGTAATACC autosomal
ACAACACTGCTGCTGCTGCTGCTGCAGACATTTGTTCTGTCCCTTGCCCC autosomal
CCCCACGGCAGGGATGTCACCGCTGGGAGTGCCACCAGGGCAGTGTCCCC autosomal
GCGCAGCCGAAGCCGCAGCAGCCGCTGCAATCGGCTCCGCCAGCGCCGCC autosomal
CACCCTCTGCGTGGCTGTGTTGGGTGACTGCGAGTCCTTGAGCAGCTGCA autosomal
GCTGTACACTGAGCTGGACACCAGACTGCAGTGAGACAGGACGTGTCACA autosomal
AGGTTGCACTGTCCAAGTCGAACCGAATTGAGACTTTCAGGATTCTCTGC autosomal
GAAAGTCTTTCATTTCCAGGCAAGAAAATTGCAGGAGTCAGATAGAGAAA autosomal
AAAATTCCCATACAGTAAATTCCATCTTCACTCTGGATGCTCCAAAGGCA autosomal
AAAAAAACAGGCTATTTAAAATAATGGGGGGGGGGGGGGGGAGGGGGGAC autosomal
CCCCTGGTTCTGGACCTTTACACAATTCCAGGACCCTGCCCTGATTCAGG autosomal
ACCTGGGCCACAACCTTCTGGGAGCTGTGGTCAGTTTGGTCTGGTTCCCT autosomal
ACTCCTGCACTTTAAGCCCTGCGCGAGTCCCGGGGGGCGCCGCGGGCGGA autosomal
ATAACCAACCTTCCTTGGAACCTTGTGAGTGCCCAGATGCCCCCCTTTGA autosomal
ACAGTACTCCAGTGATACCACCTTACCTGAAGCTGGGCAGAATGAAACCT autosomal
CCAACCAGGGAAAGGCCCTCCCCCTCCGGCACCGCAGCGCCCGCGCTCCC autosomal
ATAAATGCTGAAAGTGGGCAGATATTATTTATGTCATAACTAACTCATGC autosomal
ATGGCGGAGTGTTTACATTTGGCAGCCCAAAGCCTCTTGGATTACGGAAC autosomal
GCAACGCCCCGGCCCACGCGGCCCTCGCCCGCCACGCGCGACCTCCTGCC autosomal
CACACACAAACCCAGCACCAGCACAGACACACTTGCACCTAACAGCAAAA autosomal
AATATACCTTGAGACAAATTTTTACTGGAAATTTTTCTCTGCACCAATGC autosomal
AGCGGCGGGAGGGATCCGAGCCTGCCGTGGGGAAAAGTGACCTGAGGCGC autosomal
ATGCCCTGCAGGGTGACAAGTAGCCAACGAGTCTCTGTAGCCCGTGGTGG autosomal
CAGCCCCGGCCCCGGCCCCGCCACCGCCACCGGGCCCGGCCCCGGTCCCA autosomal
ATTGGTGCTGCTGCTGCCGGAGCTGCGGTGAGAACCGATCTCGATGTCCC autosomal
CCCGCTGCCGGCTCCATGAGCTTCACATCCTCCTGCTAAGGCTGAAAGGA autosomal
CATCCTCGCCCCGCGGCGCCGCACAGGGACGCGGAGAAGGCGGGGAACGC autosomal
AAGGGAGAAAAATGAGGGGGAAATGGGAAGAAAAAAGGGAGAAAAATGAG autosomal
AGGGACCCCGGGGTGCTGCGGGCGCTGCTGGAGCAGAACCGGTACCGTGA autosomal
GCCGCCGCCGCCGGAAGAGGCCGAGCACGGGGCCGCCCGCGCAGCCAGCA autosomal
AAGCGGCTTTCGAAGGAGCCCCGGGACAGGTACAGAGTGACAGAGCTGGG autosomal
CAATCCCGGTGGATCCGGACGATCCCGATCCCAATGGATCCGGACAATCC autosomal
CGGTGCAATACTCTTGCAGGGGACCGAGCTTTCTGTATTTGCTGCACGTC autosomal
CGTCTGCTGAGACTGCAGCGGCTGTCATCAGCATCATGGTGAAAAGGAAA autosomal
AGCACTACAGAATATGTTCCCCTAACAGACATTATTTGAAAGCAGCCAAA autosomal
AAAACAACACTAAAAAAAGAAATGAAACAAAAACCCCGGTTCCAGGCTGT autosomal
TGGGGAACTGCAGCACATCAGCTCAGGGCAATGTCTCCATCAGGCTGGAA autosomal
CTCTTTCTTCCAGGGCAGCGAGCGCCGAGCGCTGCTCGCCGCCTTCCAGA autosomal
GCCGCCGGCAAGAGCACACCGCGAAGGCAGGGTGGGATTTCCACCACCCC autosomal
AGCGCGGTCCGGGGCCAGGACGGGGGAAGGTCCTGGTTTGGGGATCCAGG autosomal
GAAGGACCGCAGCTAGAGGGAGCTGCTCCGGACCGCGTCTGCCCGTGCGC autosomal
AGACTTTCTCAGGTCCTTTGGTGCATGTTGCTCGCAAGCCCAGCTTCCAT autosomal
GCCTATAGGTGTGGTACATCCCTCAGTCCTGCCCGAGGATTTGGGATTGA autosomal
AATACACGGGTTACAAGCACACGCGGTTCTGTCCCGCTCCCGGGCCCGGC autosomal
AAACTGACGCCCTCTAAGATCAGAGGTGAACCAGTCTGGGATCATTTTAC autosomal
CAGCTGCGCTACCCGCCGGCGCAGACCCTGCGCGACTTCCAGCGCCGCCA autosomal
GCAGGTGAAAGCGGCTTCGAGCCCGAGGCCTTTGAGATTATAAAGTGATA autosomal
GATGGATCTGGCCCCTGCCTGGTTTTGACTGACAATAAGCAGCAGAAGGA autosomal
GCATGCCTTCTTCCTTTGTCTGCCTTCTATTTGCAGGAAAAGCACAAGAA autosomal
ATAAAATCTTGTTTTCAAAATGGACCGAAGTAAGCGGAATTCAATAGCAG autosomal
ATTTGTTTTTTCCTTAATTAATATTCTTTTAGCTCTTTAATTTCATGATA autosomal
GCCCCCGGCCCGTCCCAGTTGCGGGGCGCCCCCTCCCAGTACCGGGGGGA autosomal
AAAAGCATTTGATATTTAGACAAAAGTTATTTCTAAGACTATTAAATGCC autosomal
CCTGCCTTTGATGCCAACACCTTTGCCCCGGACGCAACTTCACCCAAGGC autosomal
ATGTTTCAATCATATTAAGCAGCTGCTGTTGTTATTGATTTTAAAAAGTA autosomal
GCCAGCTCCCGCATCTCGGCGGGCACGGAGTGCGCGGAGCCCATCCCGGC autosomal
AGCGCTCCCGGAGCGGCTGCGGGAGGGGAGCGGCAGGCTCCTGCTCCAGC autosomal
CCAGAATCCATATTCCAAATCCCAGGATCACAGCACCCAGGATCTGAAAG autosomal
CCCAGGGCCATTGGTGACGCTGTGGGGACAGGCCCAGGGCCATTGGTGGC autosomal
CGACGCATCCGCTCATGGTGCGCTGCGGGCGGCTCTGCCCGGCCCCGGCG autosomal
AGTCGGAGCTTCCTGGCACCAGCAGCAGCACTTTGGTCTCTCTACGTGGC autosomal
CTCACCGACATCCTCTTCAACTCCAGCTCGCCACGGCCCGCGGGCATCGC autosomal
CCACAGGAGTGGCTGTGCCAGCAGAGCAGCAGGAACAAGAGGCCAGGAGA autosomal
CCGCCGTTGCCGGGCGATGGCGGGGCCGGCCCCGGGCACAAGATGGCGCC autosomal
GCTGGCTGGAGCGGCTGCGGGCCGCCGGCAAAACGGCGCTGGTGCAGGAC autosomal
TCTGACCCTGCCATTGAGAGCAAGTAGAGAACCAAAGTGACAGCAACAGA autosomal
TGAAAAAGAGACTGAGTTTAAATTACTCCAGCTAATTCTTGCTGCCTCCA autosomal
AGGCTCCTCCTCTGCGCCGCCATCTTGCAGCGGGAGCGGCCGCCTCCCGC autosomal
CGGGGGTCCCGCCCGCAGGAGCGGCCGGGCGGCGGCCGGGCTCTCTCCCA autosomal
CAAAACTTCACCGGCCCCACGGGCGCCGCCATCTTGGGGTGAGAGGGCGG autosomal
CGTGGAGCCGGAGGAAGAGGCGATGTAGACCTTGATGACCATGCTGGGAG autosomal
AACTGCTCCTGGATGCGGTACGGAGTGTAGGGGAACGGGAACCGGCCCGG autosomal
AGCTCCAGGCCATGAAGGGCAGCTCCCAGCCTGACTGCTGTGGCCAGGAG autosomal
GATATGGTGTAACATCTCCCAAGAAACCTGTAGAATGTCTCCCTCTCCCA autosomal
AGGGCGGAAGTGACGCGGCGGCGGCGGAGCCCGGACATGGCGGGCGTGAA autosomal
AGGCTTTCAAAGGCCATTGTGCCTGGCTGTGGTGTGGTGAGGAAGAGGAG autosomal
CTAGCAATACATCATGTATTTCTGAAAATGAGATCCAGCTTTACGGAGTC autosomal
GCTCGGAGGCAGCTGGGCCGACAGCGCGGCCCTGCGAGCGGGGCGAGGGA autosomal
GTTCCCATTGTATTCTCAGATGGATGTTCAATGCACTTGGCTTACCTCAA autosomal
GCTCAATGCTCACGTTGGAGAGGGTGGATGCCCAAGGAAGCTGCAATCCA autosomal
CATTGGTGGCTGCCAGGGCTCTGCGTGTACAGCACACAGACTGCAGGGGG autosomal
CCCAGCCGCCAGCCGTGCCCGGAGGCCAGCCGAGCCGAGCCGTTCCGAGC autosomal
ACCTGCTCCTGCCCCAAGCTGCCAGACTCATCGCAGGTGTGGAGGATTCA autosomal
TCCTGGTGAACCATCTCGGTGCATCATCCGCCGCTGCCGCCCCGCCGGCA autosomal
CGGGCGGGGCCGGGCGGGGCGCGGAGCGCTGCCGGAGGTGCCGCCGTCCC autosomal
CGTGTGTCCCCCGTGTCCTGAGTGCGTCCCCGTGTGTCCTGCGTGTGTCC autosomal
CAGTCTTTCGACTTCTGGTGGAAACTACGAATGGCTTTGGAGTCACTTTC autosomal
AATAATAATAATCACAGCAGGATCTGCGGAGCAAAGATAGTAATAAAAGC autosomal
GCGGGTGCGCGGTGCTGTCGGGCCGCACGGCCGGGGCTGGACTTTGACCC autosomal
CAGCTTCTTCTCCAGCGCCGACTCCGAGAAGGAGGACATGGGGCCGGAGC autosomal
CCAGTGCGGAACCGCGGGAGGGGGGGCAATGGAGATGAAGAAGCGCATCA autosomal
GAGTTAAGCATTTCTTCCTGTCCTGAAAGAGAAGAGAAAATGGAAATTAA autosomal
CCCCCTCAGGCCGCCACGTCTCCCCCCGCCCGTTTCCCCCCCGTCCCCCC autosomal
AGCTGCGTGCCCTGTGCCCCGCAGAGAGCCGCGGAGAAGGAGAAGTTGCC autosomal
CAATAAGACCTACATGATGAGAAGAAGGTGACCCCTTGGTGTTCCTACTA autosomal
AGGCGGGGGCGGAGGCGCGAGCGGAGCATGAATGGGGCAAGATGGCGGAT autosomal
TGCCAATTCATATCATATGACATATTCTTTGTGTTCTCTGTAGATAAGAA autosomal
AGTCTTGACAGTGACTTTGCCTGATTCCCTGCTCTCAATTTTGCCTTTCA autosomal
CTGAGCTGCCTGACCTTGCGTGCAGCATGTGGTTACAAGTTTTCTCACAC autosomal
CCGTTCTGAAGCGCGGGACCGTCCTGCCTCCCCCTGGGCCGCCAGCCCGC autosomal
TATTAACCACAGCAGTTCAGTATCACTGTCCACACTGAATTTTTCCAACA autosomal
CCTGTGGCAGTCTGGGACTGCTGTGCAAGGTGTGTGGCAGTGCAGGTGTC autosomal
CAGCGCCCTCCCACCGCCCCTCAGCGCCGCGGCCGCCGCCATCTTGCCCG autosomal
ACCATCACTTTTTGGGGTGACATTTCTATTTTTTATTATTTTTCGCCGCT autosomal
GGCGCTGAGCAGAAAGAAGACGAGGCGCTGAAAGCGGCCCCATTCGCCCA autosomal
AGAGCAAAACTGTCATTGTGTGTCTCATCACCATGTTCTTCACCATGCTG autosomal
CGCGAGCGGCTCTGCCCAGGCCCGACGCAGCCCGGCCGCAAGGAGGCCCC autosomal
AAGCCTTTTCATTCCCAGACTTTGACTTCTGTTCTCAAAAATGTTTACAA autosomal
CCAGCAGCAGCAGCAGCAGCAGCAGCAGCATCACCGGCGCGTTCCTCATC autosomal
AACTAGTTCACATATTCCAGGAACTATTTTGCATGGCCCCTCCTTGGGTC autosomal
CAGCCCCAGGAGCCCAGGTGAGCAGGGGTCCCTTCCCTTGCTGCTGGAGC autosomal
ATAAAAATAAAATGAAATTTAAAAAATAACCCAAAGCACTGTGCAAAGCC autosomal
CCTCGCCGGTGGCGCGCAGGCAGCCGCCCTTCCGCACCTCGATGGTGGCC autosomal
GTCGGCCGGGGGGGGCGAGGCGGGGTGCGGGTCTCGCACACAACACACAC autosomal
CGCGGAGGGCGCCGGGCCCGGGCAGGAGCGCGGGGGCGGGGAACGGGAAC autosomal
CCGCTCCTCGTCCTCCATGGCGTCTGTGCGGGAGAGCAGGGTGTTACCGC autosomal
GCCGGGGCCGCCGCCGCTGCCGGCAGGTGCGGGCAGAGCCGCGGCCGCGC autosomal
CTCCGCTGGGAGAAGGAGGAGGCGCCCCGAGCCACGGGAGCTGGGAGCAA autosomal
CAGAAGAATCTGGAATAAATTTGTGAAATACATCCCAGATATTTTTTTAC autosomal
GCAGCTCCCCGGCCCGGGCGCGGCTCCGGCCGCACTCGGCCACGATCCGC autosomal
AGACAGAGCACTCTAAGGCTCTGACTCTCCGTGTTCACAGCGGACCTTGA autosomal
CGGAAGAGCTCGCGGGCCGCCAGCCGCGCGTCCGCGCCGTGCACCGTGTA autosomal
CGGAACGGAGCGGGGCGCGATGGGGGCGGCGGCGGCGCGGCCGCAGTGAG autosomal
AGAAAGTTTAGCTCTTTGAAAGTAGTATTCAAATTCAGAGCTTGTGGGTG autosomal
CCGGGGCCAGGAGCCGCCGCCGCTGCGCCGGGGCTGCCGTGGCCCGGCCG autosomal
CGGCTCCCGGGGCGCGTCTCTTCCCGTCTTATCTCCTTGTGCGCTTCCGC autosomal
ACATTTAAGAAGCCCAAGAATTTCAGATAATTATTCTGCTTGCTGCACAT autosomal
GGGACTGAAAGATACTTAAAAGTGTCTTGTTCTGCTTCATGTAACACCAA autosomal
CGCCACCATGGGGACAGCATCCCCCCGGCCCGGGCTGCTGCTGGCTGCGC autosomal
GGAGCGCAGCCCCACGGCGGGCAGGGAGCGGGAAGAGGGAGCCGAGGGAA autosomal
CATGGGGCCGCCGCTGTGGCAGCACCGGCCGCCCCCGTCCGCGCCGCCGC autosomal
CGAGGGGCGGCGAGGCCGGCGGCGTGCGGGGCGAGGAGGGGCCGGCGGAG autosomal
TAGGAAGATGGAGTGAATGATTATTTTAAGTTATTAATCTTGTTCTGTGA autosomal
ACCGTGCCGGGCCGAGCCGAGCGCCGCACGGGACCTGGCCATGGCCGAGA autosomal
CCCGGGGGAGCGGAGCGGGGAGCCTCCGTGAGGATGACCTCGGCTGCCAG autosomal
CCAGCACGATGGCCGCGCCGCACAGCAGCTCGGGCCGCCGCGCCATCAGG autosomal
GCCCCGCCGCGCCCCGCCCCGGGCGCCCGCCGCCGCCGCCGCCCCCGCCC autosomal
CCGCGGCGGGCGGCGGCGGGGGCGGCCCCGGCCATGCCGGTCAGGTGACG autosomal
CCACGTCCCAGTTCTGGCTCTTCAATGTCCTCTTCCCACCCACCACCACG autosomal
ATCTAGGAATCACCTATAAATAAGATGCCAAAACAAGGATGTTGCAAATG autosomal
CCGAGCCGGGCGCTGCCGGGCAGGAGCTCACCCGGCTGCCCTCCTCATGC autosomal
CCCCCCATCCCTCCTCTCCACCCACCCCTTCCCCCTTTTCGCCTTGTCGG autosomal
CCCCACTGTCCCCATTGTCCCCACCGTCCCCATTGTCCCCTCTGTCCCCA autosomal
CATTTCAAGGAGACATTACTGCAACTTTAATTATTAAACTGCTATGGCTC autosomal
CCAGCTCCTCTGCATGCACCGAGAGCTGGCTACACGCGTGCTGCATGCAC autosomal
CTGACCACAGCAGCGGTCAGCAGAGGGGCTCCGGACACCGCACTGACCAC autosomal
CATCACCAGGCTCCTCCTCTTCTGGCAAAAGCCTGTGTTTACAGAGCAGG autosomal
GTTTGGTTGGTGCTCACAAAGAAACACTTTTTTCAGCAGAGAAAGCATGA autosomal
AATAACGCCCCGGTGCACCGTGCAGCCCCCGCTGGCCACGAGCCCGCTCC autosomal
AAGCGGTACCGCCACCCGGCGCTGGAGGAGCGGCTGAGCCGGCGGCGCAT autosomal
CCTCGCCACCGCCGCCTCGACATGGCGCCCCGCTCCTCCGGCCCGCCCAC autosomal
GGGAAGGAAACCTTGGGGCTTGGTGTCTGCTTCCTGGGAGAAACAGCAAC autosomal
CCGGCCGGTGCCGAGCGGGCAGGCTGCGGGCGCTGCGCGGGGCTGGCGGC autosomal
GCCTCCAGCAGCTCTGGGGCTGCTGCGTGGAGGCAGATGCTGTTCAGAGC autosomal
CGCCCGAGGGGTTGGACTTCCAGCTGAGCCGCGAGGCCGTGCGCCACCTC autosomal
GGGCCCGGGGCCCGCAGCGGACATGGCAGCGGCGCCCGCGCTCCCCGCCC autosomal
CCCGTTCGCGCCCATGGGCGACTCGGTGTTCAGCGAGAGGCCGGCGCTGC autosomal
CATGGGCAGCATGGCGGCGCCCAGAGCCGCCCGCGCGCTGCGCAGCGGAG autosomal
GCCGGGGCGGGGCGGAGCGCGGCGGGGCCGGTGCGGGCAGTGCGCGGCGC autosomal
CTTCACACATGCATATTTTTATATAGAGTGATATATTATGGGTTTCTCTC autosomal
CCGGGCCCACTTCCGGCTCCCGCCCCGCCGCTCCCCGCCCGCGGCTCCCC autosomal
CCAGAGCACCCGCGGCAGCACCATCAGGCTGACCCGGCGCGGCGCCCCCA autosomal
ACAAAGACTGATGACTTGGCATCAAAAGGTTTGTTCTGAGCTGCAATTCT autosomal
AGGGAGCCGCCCCGGGACACTGCCTCCGTAAGGAAGAGACACTTCCACCT autosomal
ACACCCTTTTACCCCTTTGCCCGGCACTGAGACCCCCCTGCACCCCCTTA autosomal
CCTTGACGCCGCCGCCCTTCTCGGCCGGGCTCCTGGCCGCCATCAGCCAA autosomal
CCTGAGCCCTTCAGTGTGCTTGTTGTTAAAACATCACTAGAACTTCATAC autosomal
ACTTGAAACTTCCCAGTGTAGGCTGGGAGAGAAGCAAAATCACAAAGATG autosomal
CCCGTGGCATGGGAGCCCATGGCACGTCCCGGGCTCAGCGGCGGGGCTCG autosomal
AGCTCCTCGCTGAGTCGCGGCCCGAGGCACAGAGGCACAGAGCAGCGGGA autosomal
ATCGGCGGTGCCGGCCTTGGGCGCCCGGCCCGGCGTGATTCAGCGTTTCC autosomal
GCCCCCGTCAGCGGCGCCGGAACTTGTGCAACCCTTCGCCACCCGCTCTA autosomal
GAAACATGGCGTGCTACATGTGCTTGATGCAGGCCAGCATCAATTACCCA autosomal
CCAGCTCATCGTCGGACGCGTCCCAGCGGACATTGATGCGGCTGTACTGC autosomal
CGCCGCCGACTCCAACGCGGGGAGCTGGTAGAGGTTCCCACCGCCCCGGC autosomal
ACGCAGGGCTCGTTGCAGCTGTCAGCCAGAGGGGCCGGGGTGGCCACCCC autosomal
CCAGCCGCAGCTCCTCCAGCCCGAAGCGGGCGGCGCCGCCGTCCCCCGGC autosomal
GCGGGCGTGCGGCGGCCGGCAGCGAGCACGGAGGCAGCCAGCGTCCCCGC autosomal
GGCCCCGCTCCGGCCCCGCTCCGGCCCCGCGATGTCGCCGCGCTCCGCCC autosomal
GCGTCTGCGACCGCGCGCCCTCCCCCAAGCCCCCCCTCTCGGCCAAGGAC autosomal
GGCAGGACAGGAACAGGTAGGAAAACCTGAGCAGAAGAGGGGAGGGACAC autosomal
CACACTCACTAGATGCCCAGAGGTTTCAGTTTCTAAAGAAGACTTTTTCA autosomal
AAGCAGGAGCCCAGAGGAAAAGTCTCCCGGTCTGTTGGTGCTCCCATCCT autosomal
CCCTGGTGTCACCTGTCCCAATGTTCTCCATCCCTGGTGTCACCTGTCCC autosomal
GCCGCCGGCAGCGGCCCCCCGAGCCCGCGCTTCCTGGTGCCGCCGCCGCC autosomal
GAGCAGCCGGCACCACCCCCCGCCCCGGCACCCCACCATGAGCAACCTCA autosomal
AAATTCCTGAAAAAAAACCCACAAAACCTCAATTTTTTTTAAAGTCACAT autosomal
CCGCCCGCGCCTACCACCCCGACCACGGGATTACAACTTTCCAGCCCTGC autosomal
AACAAGCACCACTTCCCCAGTGGAGAAGGACAGAAATTTCCCTCCCCTCC autosomal
CAAACTTCGCCAAGTTTCGGCGGGATACGGGGCGCTCCGCCTGCCGCGCG autosomal
CGCGTATGTGCGGGGAGGGAAAATAAAGATGTCAGTGCTGAACTTTGTGC autosomal
GGGGCACCAGGCAGTGCCTGCAGGGAGGTGGACAGGTGGAAGTGGGGCAC autosomal
CCCCTCCTCTTCCATCCCCCCTCCTCCTCCTCCTCCTCCCTAAGCCCACC autosomal
CTGCAGGAAGTCGCGCGTTGTCGTGCCTCAGAGCGACGCCACATTGACCA autosomal
GGATGAAGAGCTGCGAAAGCATCTGAGGGGGGGAGGAGGAAAATCGGGGA autosomal
AATCCTTCCTCAGGCCACGAAGGTCCTTTAGGGAAAAGGACTCAGTATTG autosomal
AAACTTCTTCCTTATATTCAATCTAAAATGACCCCTATTCAGTTTAAAAC autosomal
GGCACCGCTGGATCACCACGGCAACTGCCGCGGGCTCCGCTCCTTCCCCA autosomal
GCTGGAGCCCCCTTGTCCAGGGACATCTGTAGCACCTGCTGAAATCCCCC autosomal
CCCCACCCTCCCAATCCCCGCCACCAGCCATGGCCGACATGAAGACCGGC autosomal
CGCGGCGGGCGGGCGACCGGAAACCAGCAGCCGGAGGATGCCGGCGCCTC autosomal
GGGCACGGCAGCTGCCGTGGCACCGTGTGCAGTGTCACTGATGCTGAGTA autosomal
AACACAAACAGCTTTTATTTGGTGAAGTTTAGCCCAGCACCCAGCAAGGA autosomal
CAGAGAGGGAGACTCCACACCTGCCCTGGGCATCTGTTGCAGTGCTCTGC autosomal
CACCCAGGTCAGCAACTGGTTCAAGAACAGAAGGCAACGGGACCGAGCGG autosomal
GGAGTCGAGGTCGCCCGTGGCATCTCGGACCCGCTGCTTCCCGGATGCAA autosomal
AAACTTAGTAATATTCATGTTGCAACAGAGATCTGGGCCTTGATGTTTGA autosomal
AGTGCGAGAGGTCCCCCAGGGTGGTGGCACCTCCCCCAGAAGGGTGACAA autosomal
GAGCCGGCGGAGGCGCGGCCGCCCCGGAGGCTCCGCGCGGTTCGGCCGCA autosomal
CAAGTGGTTGAGTCACGTGCTGCCGGTAGCTCAGCGGCTGCTCCTGAGGA autosomal
GCGGCACAGAGCCCGCGGCGCTACCCGGAGCCGGGCTGGGCTGCGGCACC autosomal
CCCGACCGGCGGCGAGCCCGCGACAGCGACAGCAGCAGGGCCAGGGGGAG autosomal
CCCAGTCAGATTTCTCTCTTTACACACCTGTCTGGCACCGCGGTCCCGTC autosomal
CCTCCCTGAACGAGTCCTGGGCCAACCCCTTCGTGCAGCCGCCGTGGCAG autosomal
GCAGTCCAGATGCTGCCAAACACAAGCAATCAATGGAAGGAATGGCACAA autosomal
GGAACCACCCCTGGGATGATCTCGGGGATTTGGGGGATCCAGTCCCGGGA autosomal
GTCGCGGGCTCGCCGCCGGTCGGGCTCGGGTGGCAGCGGGGAGCCCCGGA autosomal
CCTCAGAGAGCAGCACAAGATACATGAGGAGCTGACAGCAGAGCACCCTA autosomal
AAAGTGTGTATTGCTGTTTATATTTGCTATAATTATTTCCTTTTTTATCT autosomal
CCCCATGAAGTTATACATTTAAACACACACACACACGCACAAAAAAAAAA autosomal
CTGGTATCTCCTTCTCTAACAAATGGAGGAGCAAACTTCTGCAGGACAAA autosomal
ACGTGCTGTGCTCGGACAGCCCTCAGCATCTACCTGCTGCTGCTGACGGC autosomal
CACAAAGCAACGGCTCGCAGGGTTTTTATCCCCGTAAAGCAACAAAATCG autosomal
AGGAAAACCTGAAAATCAGGGGACCCAGCCCTGCCTCCTGAGCCTGTTGA autosomal
ATTTCTTCTCTTCGTCAGAACTACAGGTAGGATAATCATCCCCATCATAA autosomal
CAACGCGCTGCTCCGGAGGCGCCCGGAGCCGCTGCGGGATGCGGCCAGCC autosomal
GGGGAGCACCGTGGACTGTCACGGGCTGGCGCTGCGCGGCGTCCCGAGGA autosomal
CTGAGTGCTGGGCAGAGGCAACAAGCCCTGCCCCGAGCTTCTGGCAGTGC autosomal
AAAGGACACAGCCCAGATTTACTTCTAGAAACAAATATAACTAGGCTAGA autosomal
AGACGGATTTGATGGGATGCCTCCCTTTCTGGAGCCGGCGGTGCAAGCAG autosomal
AAGGATCATTTTGCAGTCCAGATGCTGCCAAACACAAGCAATCAATGGAA autosomal
CGCCCCCGGGGCGGGGGTGGTCCCGGGGCTCGGCCCGCGGGGCGGCGGCG autosomal
ACGGCGGCGCAGCACAGCGTGACCGGCTCGGCCGTCGCCAAGGCTGTGTG autosomal
GGAAGCAGCCTTGGAGCTTCGGCTTCTTTTTTTTTCTCCTGCTTTGGGTA autosomal
GAAGTTCTCAGAGAAGGATGCACTGCACCTGGCCAGGAAGTGCTGCTGGA autosomal
GCCCCCGGCAGGGACGCGGGGCCGGAGCCGGTCCCGCCGCCGCCAGGGCA autosomal
CCGGCGGCGTCGCCATCATGGTGGGCAGGGGAGGCTGGCGCGTCCCGGAG autosomal
AGAGGATGGCGGGGGTGAATGCACCTCCTTCTCCACAGCCGGATCCAGCT autosomal
CGAAATAAATTGTAATGGAAGGTTTTTATTTCTTCTAAAGGGCTGGCTGA autosomal
CCAACGCTTCAACTTGGCCGCGGCTCCCGAACGGAGCCTCCCGCTCCGCG autosomal
GGGAACATCGGATGCTGCGGAGCTCCCGTGCCAGCCTCCTCCCATGGGCA autosomal
ACGGGCGGGCCGGCCCGCCCTGCTGGTAGTGAGAGCCGGGGCGCGGAGGG autosomal
AGCGGAGCGGAACCGGGAGTACCGAGCCGAGCGGAACCGGGAGTACCGAA autosomal
AGCACAGCTTGATCCCTGGGCAGACAGACACGGGGATGGTGCCCTGGGCT autosomal
CCGCTCCCTCAGCGCCGCGCTCCCGCCATCGCCGCGGGACCCGCCCGCCC autosomal
AGAGTTGCTACATCATTGAATCTTTGTGGGATGGGAAAGAAAGAACAGGA autosomal
ACAAATGAGCGGGGTAGAGCAGCCGGCATCCTGGCGGCGGCGCGGCGTGG autosomal
AGCAGAACTCTCCAACCTGGAAACAGCAGAAGGACTCAAGTGTGCTGGGG autosomal
CAGTTGTTGCAGCTGGAATACAAAACAACTGCATCAAACCCCTCTGAAAG autosomal
CCGACCCACCGGGACCCCCGCCCCGGGACCCCCGCCCCGGGACCCCGGAC autosomal
CCCGCGCCACCTCCTCCACCACGAACTGGCCGGTGAAGCCCGAGGCGCCG autosomal
CCGTCCTTCCCCAGGGGACCGGGCTGCCGCTGTTGCATCTCTCTGCGCGC autosomal
CTGTTGGACACAGTTACATCCACAGGCACCAGAGAGAAATAATGTAGACA autosomal
ACCTGGCGCGGCTGCGTCCTTCTCCTCGCTGGGCACCTTCTGTTCGTCCA autosomal
GACCGTGACCCGCCCCGCCCCGCCCGTCCCTGAGGGGCCATGGCCGGGCC autosomal
AGTCGAAAGGGGAACTCAGGAAGCTCAGGCCGCTCCTCAGCCCCGAGAAG autosomal
GCCGAGCCTCGGGCACCGGCGCTTTGCCGGGGCCGGTGGGGCCGCAGACC autosomal
GGACCAGGAGAAGCGGGAGCAGGAGCGGGAGCGGCGTCCGCGGCCCCGCC autosomal
CGGCCCTACTTTTGCTATATTTAGATGTAATTTCCCCTTTCATTGTAATA autosomal
AGGGGAGCCATTAAAAAAAAAAAAAAAAAAAATTAAATAAATTAGCAGAC autosomal
AGCCCAACACGGTGAAGAGCTCCGGGGACGGCGCCGGGCTCGGGCCGCGC autosomal
AGAGTCAGAAATGTGAGGCTTCCTCATCTCCAGTAAAACAGCCGAGGAGG autosomal
CACCGCCGCCCCCACCGACACCTTCCACTCTAGCAGACGCAGCGGCCGCG autosomal
CCGGGACCGGAGGGGAGGTAAGGGGCTTCTCCTCGCTCGGCGGGCAGGGC autosomal
CCCGGCGCTGCGGAGCGGGAGGGCCCGGCAGCTGCAGCCGCAGCTCCGCC autosomal
AGTCAAAGGGAGTGTAGCACTATGTTGCCTTAGTGAAAAGGTGCTGAGGA autosomal
CAGGGGCGCGGCGGCGGCCGCGGGGCCCGGACACAGCACCAGCAGCGCCA autosomal
GGAGAGAGAGAGAGAGGGAGAGAGAGATGGGGGAGGAAGCACACGTGATA autosomal
CGGCTGTGGATTCCTGTCGGGGGTCAAACACGCCTGCGGGAAAAAAAAAC autosomal
AGCAGAGCGCTCGCAGGGCGGGCACTGGCCCTTCCCGCCGCCGGTAACGG autosomal
AATCCCTCACTATCTCCTTTAAAAGGTCTTCAGTGAGCAGCTCTCTGTCT autosomal
CAGAGCTCGCTGCCTGCCCGGGGAGGGGGCCGCACGCATGCCAGCAGGGC autosomal
AGGAAGGCTTCGCTCTGCATCTTTGAGCAGAACCTGGGCTCCCCTCTGAG autosomal
GGCTGGCACACCGGGGGACACGCACCCTGCGGGAACACAGCCACACGGAC autosomal
CCAGCAAAAGGCAGAGAAGTTCCCATTGCCTGAAACAGGAGGAAAACTGG autosomal
CCGCCGCCAGCCCGGGAAGCAGCGGCGGGGAGCCAGCGCCGAGCAGGAGG autosomal
GTGCCATCTGAAGGAATTTTGTTCTTCACTTGCAGGCCCCTGACAGCCAA autosomal
CGGTAACTACGGAGTGCCCCGGGACGAGCCCGACGCCTTCGGCCTGAGCA autosomal
AAAACGAGCAATTTACAGGCCCCTAAAGGTTCATCGACTTTTAATGCGGT autosomal
GCTGCGAAGTAGGGCTGGGAAGGACCGTAGACTTGGTACATAACATCCAA autosomal
CAAATCTACTGACTGGAATATTTCAACCTGAAAATAAATAAAGGAGGAAA autosomal
AAGGCTCAGACTTTTACTTGTTTTGTATTTTAAATTTATTTTCACTGATG autosomal
GCCGCTGTTGCCTGCCGGGGCAGGGCCGCTCCGCGCCCTCGGGTCCCGCC autosomal
CTCCCATGTCGCGACACAGCGGCGACACAGCGGCGACACAGCGGCCCCAG autosomal
CGCAGCACCCGGCGCGGCTGCTGCGGGCGCTCAGCTCGTTCCGGGAGGAG autosomal
TGAAATACTTTTAACAGCAATTTAAATGTTCTACCTATTGAATTTTCTAA autosomal
AACGTTTGCCATGTTTCAGAATGTCCAGAGTCAGCAGAACTTCTGGACTT autosomal
AGTCCTTCCTGCTCGCTCGGCTTCTCTTCGGTCACTGGGTGTTGATGCGG autosomal
GAAATCTCCCAGGGGAGCAGTGAATTTCCCTACTAGTGGAAAAATCAAGC autosomal
GGGGCCCGGCGCCTCCCCCCGCCGCTCAGCGCGCTCTTTGTTGCCGTGAA autosomal
CCTGCAGATCTGCCCCAGCCCTGAGGCTGGACAGGGCCACTGCTGGGAGC autosomal
GCTGGCCAACAGCTGCAATGAGTGCTGTGTCAGGCAGTGCCAGAGCTCCC autosomal
GACCCTCCCTCTAGAGCTGATCACGTCGTGCATCAAACTGGGACTTCACA autosomal
CGTGGGTGTGCTGCCCCAGGGCTGGGAATGCCCCGTGGCAGCCCCCGTGC autosomal
CGGGCTGGGGTACTGCCGGTACCGCCGGTACCGCGGGCTGGGGGGGCACG autosomal
CTGTCCCGCTCCCTCTCCAGCTGCTCCACGATCTCAATGCACTCCTGGAA autosomal
CATCTTGGTTTTTAATTTAAAGGCCCTTGACTGTGCCTCCATGGAAGAGC autosomal
AAGTGACTCCAAAGCCATTCGTAGTTTCCACCAGAAGTCGAAAGACTGGT autosomal
AAGAAGATGGAGTCAGGCTGTTCTCAGTGAGGTTGTGCAGTCTCTGTCAC autosomal
AGGCTGTCCTCTGACAATTTAAATTTGAGGGCTGAAGGATCTCTTGAAAT autosomal
GGCAGCCGCTGCCGCTCCGGGCTCGGCGCCCCTCACTGCGGCACCCCAGA autosomal
ATGGATCTAGCAATGAAAAATATTAAGTATCCTTAGTGAAGGTGCAATAA autosomal
CTGGGGCTGGAGGGCTCCGCCAACAAGGTGGGGGCGGGGGTGGTGCGGGA autosomal
CCCGGGCCCGCCGAGCCCCGGTCACCCCCGGAGCCACCACCGCGCCCAGA autosomal
CTCAGCTACATTTTGGTCTTCTGGAGATTCTTTATACTCCACTTATACCA autosomal
AGCATGTGGCCTGCATGCATGTTTACTTTGTATGTTTCCACTGTTTACGC autosomal
GGGGTGGCCGTCCGCTTCTTGCCTCCTCCCTCGGTCCGCGCCAGGGCCAC autosomal
CAGTTCGAGTTTAAACTACAAAATATTACTGCTGCTCAAGATACATTGGC autosomal
GGGCGGTTTGAGCGGCAGCGCCCGGCGCGGCGGCGGCTCCCGGTCCGGCA autosomal
CGGGCAGCGGCCCCGCGCCTCGCCCGGCAGCGGCAGCGGGGAGCGGCTGC autosomal
AAGCCGCGGTGGAGGAGGACGAAGAGGAGGAGAAAGCTCCGGAGGGTCTG autosomal
CAGGGGCCGGACAGCGGCGGTGGAGCGGGCAGAGCTGTGAGGCCGCGCCC autosomal
AGATTTATAAGTCAGACATTATAAAATGCAATTGTATTTGCACTTCAGTG autosomal
AGCGGCGCCGGGACGGGGAGAGCAGCATGGCGCCGCCGGGCCCGGAGGCC autosomal
CTGTGGGGCTGGAAGGCATCTCTTTAATAAGAATTTGTAAGGAGATCAAA autosomal
GGGGCGACCCCCGAGAGGCGCAGGAGGGCTGGGGGTGGGCGAGCTCCCCC autosomal
CTGTTTGTTCTTTCTTGCAGAGTATTCTGTGCTCACTGAGTGGGAGGGTC autosomal
GGGTCTCAGTCAGCTCTGAAAGCCCAGCTCTCCCTTTACGTGGAGGGCAC autosomal
GCGGCCAGCGGGTCCCGCCGCACCGTCTCCCTGGCGCCCGGGGCCTCCCC autosomal
CTACCTCTCTCACCCTCACTTTGTGCAATATGGCAGCATGTGCTGGGCTC autosomal
CAACAGAAGAAGAAAGGCATTGGAAAGACAGTGTGAGGACACTGATCTCA autosomal
AAGCTGTACTGGTTGTAGCCTCCCAGATCTGCCCTGAAGTAGTAGCGGCC autosomal
CAGCGGGCTGGGAGCCGGTGGAGGGCGGGGGTACGAACGGGAACCCCGGC autosomal
CCCCCGTCGGTGCTCCCTGCCCCCGCCTGCCCCTCAGGCTGCTCCGCCGC autosomal
ATGGACACTGTTCCGAGGGAATCTGTGTGCTGCACACCCCTCTGTGTGTG autosomal
CATGTAATGAAACTCAGGACAAATATTCACACATATATGCAGCAGGAATC autosomal
CGCCGCGCCGCCGCCCACCACCTGCCGCAGGAGCAGGCGGACCCTGCGCG autosomal
GCCCCCGCCGCGCAGGCGCGGCCCAAGGGCGGGGCCGGGACAGACCCCGC autosomal
ACACACAACCAGGCTCTCCTTCGCTCTTGTTTTCAGCACCGCGGAGACAG autosomal
GCACAGGAAAATCCTGCCAAAATATTAAAGTGAGATCATTTCTATTAGAA autosomal
CCCAGATTTTGGGGACACCGCTGACCCCCCAATCCCTTCCAGCTCTCTCC autosomal
CCGGGACCGGGCCGGGCCATGGCCCCGCACCCGCCCAGCGCCGGGCAGTA autosomal
GGGCTTGAATCAGCAGCGGGCGGAGGGGCCGGTCGCTCCCCTACATCGAA autosomal
AAAGAGTCAAGGAAAACTTTTCTCCAAAATAAGTAGTTCCATGTGACCAG autosomal
CTTATTCAGGGTGTGATGGGGAAAGGCAGCCCTCAGGCTGACCCCCAGCA autosomal
CCTCGCTAAGAGGTACTGCACACCCGCGAAAGCCTCCAGATCAAAAGCCC autosomal
GACAGGCGCCAAGCCGGGCAGGTAGAAGGCGGCGCCGAGAGGCGCCACCA autosomal
CAGGAGCGCGGCCGAGGAGCAGCGCCTCCGCCTCGAGCGCCTCATGAGGA autosomal
AGGGGGGCCCTGTGTGGGTCACGGTGGGGCTGGAGCTCAACCAGCTGATC autosomal
GAGTTCAGTTATTTTTTTCCACAGATTATTTCAGCAATGGAATAGGTTTA autosomal
AGCCAGGATCCCACAGATGAGTGTTTCCATGACTGCCACGACTCCTTTGA autosomal
GTGCAGCGGCTCCGCTCTCTGCCCCTGCAGCCTGGCCATGACCGTGCAGA autosomal
CCGGCTCCCCGAGGGCTGAGCTGTGTCTGTGCCGTTGCAGAGGGAGAGCC autosomal
CTTTAACCCCTCCCAGTCCCCTCCCAGTGCCCCCAGTTCCCTCCCAGTCC autosomal
ACATATTTACTTCTTCCAGAGTCCAGTAAAAAAATGAGGCTTCTCTGTCT autosomal
AGGAGCACCGCGATGCAGACCCTCATCATCCTCCGCTGGGTGTCGGCTGC autosomal
AATGGCCTCTGGCATAAACAACATTCATCAGCCCGGGACTTGCAATGGAT autosomal
CCCGCGTCCCCGGGGAGCTCGGCGGTCCCGGCCCCTCACGCCGCCGCCCC autosomal
CCGGAGCCTCCCGGCCCAGCCCCGCCGCTTTCTCCTCGCCGAGCGGCTTC autosomal
GCTGGTTCCGAGCGGGGCTGGCTCCGAGGGTTTCTGCTGTCCCAGCCGCC autosomal
CTGCATGGTAAGAACTGCAGGCCATAAGCAACCAGACTAAAATTTGACAC autosomal
CAGAGAGCGAGGCGGTCCCGCACGTCCGTGCCCGCGGGCGGCGGCTCCGC autosomal
ATTGAATCACATGTAAACTGATAATACAATGAGGTTTTTTTTTCTGTGTC autosomal
GCTGCAGCCGCGCTGGAAGCGGGTGGTGGGCTGGGCTGGGCCCGTGCCCC autosomal
GAGTTTTCTGCGGGATCGAGTCACTGAACTGACTCGCCCCGTGGCTGCAC autosomal
CCCCTGGCGGCGGCGCGGACGGGGGCGGCCGGTGCTGCCACAGCGGCGGC autosomal
CGCCCCGCTCCGTGCCCGCTCCCGCCCCGCTCCGTGCCCGCTCCCGCCGC autosomal
CTCCTCCATGCCCGGGATGCCCGTCAGGACAAAGGTGATGGGGTCGAAGC autosomal
GCCGCCGATCACCATGGCCGAGACCGACCCCAAGAGCGTCCAGGACCTGA autosomal
AAGTCCTACAAGGGCCGCCAGATCATCGGGCCCTTCCGCCGCTTCACCGC autosomal
CTCAGGTACAGGGAAATATTCGAGAGAGACGCACGTCGGGTGAAAAAGCC autosomal
CGGCGGCGCGGCGCGGCGCGGCGGGTGACTCGGCGGTGTATTTCAGCGGC autosomal
AGGACCCCCCCTGAACCCCCTTTTTTTGCCCCCCCAGCCCCCCATGGCCG autosomal
CACCGGACCCCCCATTTCTATGGAGACCCCTCCCCAAATTACACCGAACC autosomal
GAGCGCCGCTCCCGGGGTCTCCACGGGTGACGGCAGCGGCAGCGGGGCCA autosomal
TCCTTTAACAATTGTGGTTTTCATTTACCTTACTAATATTTTGCTTTTAA autosomal
AAGAGGCCGAGCCCCACCGCGGGGAGCTGCACCTCCCTCGGCTGCGGCGG autosomal
CGAGCCGCCCCGGAAGCGGCGGCAGCCCAAAGAGCTTCCGGGCCGCCGCC autosomal
GAGAACAACTACCAAAACAGCCTGGTGGGAAAGACGTGGGGCTGGAAGGC autosomal
CACAGCCTGGCCGGTGGGGGAGTGTGCAATTCCTGTCCGATGGTTCACTC autosomal
CTTGATGTGAGAGGCTTGGGTTTTTTATAAATTTCTTGCAGTTTCACAGC autosomal
GCCCGCCATGGAGGAGCCGCTGGCGCTGCTGGTGCGGAGCCCCGCGCAGC autosomal
ACAGCAAGTGTTCAACAGTTTACCAGCCTGGAAACACAGTGAAGGCCAGA autosomal
AGAGCTGGATTTGGGGTTTTTCGGCCATGCTGCGTGGTGGCTGCTGCTGC autosomal
AGCTCGGGGAAGGCGGGCTCCAGGCGCGGGCACACGGCCGACAGCTGCCG autosomal
AAGGAGTTCAGAAAGAGTTGCCTTTTATTACTTCAGTCACTGTAGTAATT autosomal
ATGGCCGCGACGCGGCTGGAGCTGAACCTGATGCGGCTCCTGAGCCGGTG autosomal
AGAAGCTGCTGGAGAGAGGGGCGGCGGCGGTAGAGTGCAGCCCCCTGCCC autosomal
TCGCTCCGGCGTGACGCGCGCGCTCGCCGCCCGGGCTCGCGCTGCGGAGA autosomal
TGCAGTCGGGAGGGCTTGTCCGGGCCTGGGACACAGATAGCGTAAAGTAA autosomal
GCTCGGGACCCCCCCCAGGATCAGCCCCCCCCGGTTTTGGGGGGTCCCGA autosomal
GCCTCGCGTCTGCTGTCGAGATCCCGCATCTCTTTGCCAGTGCTTTGGCC autosomal
CCGGTGGGTGTCGGGAGCCGAATTGGGGGTCCGGGAGGGTCTCGGGACCC autosomal
ATGGGGCTGAAGCAGGGGGGAACAGAGGGGGGCAGGTGGCTGCAGGCAGA autosomal
TGCTTTTTTCTAACATTTTATATTTTGAGTATTTTTTAATCTTTCAGCAA autosomal
TGCTGATGACCAGTCTCCTGGGTTATCTCTGGAGCACACTTTGCTATTAA autosomal
ATCGCGACAGAGGCGACAGCGACAGCGACAGCGGCGACATGGCCGGGCTG autosomal
AGGTGACCGAGCGCGACAGCCGCGCCAGGCGGGCGGAGCGCGGCGACATC autosomal
GATATTTGAGTCTGGAAGGGATTTGGGGGTCATTGAGGCGCTGAAGGGGA autosomal
ACTGGTTTCATTATACACTTGTGGCCTTTGCGTGGTTGGGAGTAGTACCT autosomal
CACGGCCGGGCGCACTCGGCCCCTGCGGCGGCTGCCCGGGCCCAGCAGGA autosomal
CATCCCGCTGGCAGCTCGCTGTACTGCACCCCGCACGGAACCGCCGGCAG autosomal
CTGTCTCTGCAGTCGGGACCTCCGGAGCAGTCGGTAGTAGTAGGACGGTC autosomal
ATCAGCAGCACCATCTCTCAGTCTGGAAAGCAAAAGGACACTATACAGCA autosomal
GCACGGGGCGTGCTGGGGCCGGCAGCGGGATCGGGAACGGGGTCGGGAGA autosomal
GTGCTGGTCACCCTGCCAGGACCCATCATGACCTCCTTCCCCCAGAACAC autosomal
CATCCTCCAACGCTGCTCCGGACCCCACCCCACCTAATCTGCGACCTACA autosomal
AGCCAGTGCGCGCCGGGCCCCGGGGGGGCGGGGCTCGGCCGGCTTAATTA autosomal
AAGATCTAAGGGAACAGGACTGCAGCATAAAGAAAAGCAATCCACCATCT autosomal
GCGGCGCCCATGGCGCGGCGTGCGCGGAGCTGAGCGCTCTCTCCGTGGCC autosomal
CCTGGAACCCAGGGGACATCCAGCACCCCAGGGGACAGCCAGGAACCCAG autosomal
CCCGGCCGCGGGTCCCGTGAGGGCGGCGGGGCCGGGGCGGTGCCGCCCCG autosomal
ATACAAAAGCTGTAGGACCCCACTAGCAGCAATGTCAGTAAGGTAATATC autosomal
AGGCATGTCAAAGAATGAGTCATTTTCGAGCCTGCAAGAGACAAAAAGAT autosomal
GGACGCGGGCTCCGGGAAGGGCCGGGGCTGGAAGTCACCGCCCTCCCTCC autosomal
ATGTGCAAGGCCTTTGGTATCTTGTGCACTGACAAGGGCCTTTTCCTGAG autosomal
ACACCGCAGGGAGGCGCGGGGCACGGGACAAAGCGGGAAATTTGGTGGCA autosomal
CGGCTCTGAGCGCTGCCTCCCCTCAGCGGCCTCCCCCACAGCTCCGGCTC autosomal
ATGAAGATCTCCTGGTGTCCAGCAGAAGTTCTTTAGAAGTTCTCCAGAAG autosomal
CCGGGCTCTGCCTCGGCCGCCTTCTCTCCCCACCCTCCCAATCCCCGCCA autosomal
ATTTGGCAGCCCAAAGCCTCTTGGATTACGGAACCCCCCCCAAACCCAAG autosomal
GACGACGAGGACGGGCGTGCGGGAGAAACCACCCCGCTGCTCAACGGTAC autosomal
CCACGGGAAAATGGAGCTTCCCGAAGCGGGGCGAGCCCTCCTTGCGCTCC autosomal
CGTGTAGCTGCCCTCAAGGCACCGTGCAGATCCACACAGGTGTCTTGGAA autosomal
CTGCTTCAGTTTAGCCAAGCTGAGCATTAAAAAAAAAAAAAAAAAAAAAA autosomal
CGCTCCGCAAGCACGAGCGGGCCAAGACCTACGTGCTGTGCTCGCAGCGC autosomal
CGATCTTGGTGGTTGTCATCACTTTTTTTCACAGCAAAAAATGATCATCA autosomal
GAGCTGCACAGCTTTTGTTTGCTCTCCTTTCCTTTCCTGTGCAACAAGGA autosomal
ACTCCAGCAATTCAATCAAAGACCCCCTGCCCGGTGTGTAGTGATCCACA autosomal
GGAGGCGAAGCGGCGAAGCGGCGAAGCCGAAGGCGGCGGCCGGCGGGGCC autosomal
CAGAGGGCTCCCCGGCTTGGAGGTCAGCGCAACTCCTGCTCCTCGTCGTC autosomal
AGCAGGGACATCTTCCGGATAATTAGAGCTCCATTCAACCTGAATTTGAG autosomal
AAGGAGCGGCGGGATAACGAACACCTCGGGGGGTGTCCCCGCTTCGGGCG autosomal
GCGGGTGCCGGGCCCTTCTGGATTTTGATCTTAGATTCCGTGCTGACTCA autosomal
ATGGGAGTGGGAATGGGAATGGGAGTGGGAATGGGAGTGGGAGTGGGAAT autosomal
GATGCGGCTCCTGAGCCGGTGCGAGGCGCTGGCGGCCGAGCGGCGGGACC autosomal
AGAGACTTTCTCCAGCCTATTAGAAACTTCCTGGCCAGCTAAAACTCATC autosomal
GAAAGAGAATTGTTCTGTAGATTTATATCCATCTTTTATGCAACACAATA autosomal
AAAGCAGCAAAAGGAGAGCATGCATTTGGAAGTGTTAGATGATCCAGTGC autosomal
CTGTGGTTCAGTGAGAAATTCAGTGTAGGATATAACCATATGGCAGAGGA autosomal
CCATCGGGGATCCAGCCAGACCCAAACCCCGCCAGTGTCAGGTGGGGACA autosomal
GGGTAACTTCTCCAGGGGGGGCAGGTAAGGGATGGGGTCCCGGGGGGCAA autosomal
TGTGGAGCCTCCTCTCGCCCTGACCTTCTTCTGCCACAGGAGCAGCCCAA autosomal
AGCCAGATGCGTCCTCAGATGAAAGAGAACCCGGGAGCAGAGGCAAACAC autosomal
ATGGCGGAGCCGGAGGCGCGCAGCCCGGGCGGCCCCCGCCGGGCCCCGGG autosomal
AAACCAGTAACCCAAAAATCCAATTTTAACCCTTTCCTTACCATATTTTA autosomal
AGGCTCTAGGCCTGTGCTACCATATTTTGAGTGCTCTTGTAGTACCTCGG autosomal
CGCAGAAGGGAACCATGCAATTCAGGATGAAGAATGGCAACCAGCAACAG autosomal
GGTGGATTTAGGATGGATTTGGGGTCTCCGTCACCCCATTATCTCCCCAA autosomal
CCAGGAACCAGAGCTGCACCAGGTCCAAACCGCATCAGTCCCGGCCCCAG autosomal
AAACAATACATCTTGAAATAGGTCAACAAGTAGAATACTAAAACGTACAT autosomal
GGAGCTGGGGGAGCCCATCCCCGTGCTGGCACTCCGGGAACCGCAGCCAC autosomal
CCTCCTCCTCCGTGCTGCTGCTGCTCCTGGTCGGGCGCCGCGGGCTCCAC autosomal
CCGTTTCCCCAGCTAATCCTTCGGCCCCTCCTATTCCATCATCCCTTCCC autosomal
GGGTGATCCGGCACTCGGGCAGGATCCACAGCCTCTCCACGGCTCTCTAC autosomal
ATTCATGGCGGCGCGCGGTGTCTCGGGGGGGTCTCTCGGCCGGGGCTGAG autosomal
CGGCGGCACCCGGCTCCGGCCTCCGCCCGGCTCCCGCAGCGGGCCCGGGC autosomal
AGGGTTTTTGGGGGGGTCTGGGGGGGTCTTGAGGGGATTTTTGGGGGTCC autosomal
TCCCTTCGCCTCCCTGCCTTCGCTCTCCCCCCAGCGCGAAGGAAATGAAA autosomal
GAATCTTGGGATATCCGCCTGTCAGCGAGCTCCTGGTGGGAGGTGGGAGC autosomal
AGGTGGAAGGTGTTGCCCAGGCAGATGCGGCAGCCCAGCGCCGCCAGCTG autosomal
AGCTGAGCTCCCTGGCATGCCTTTGGGAAGGGAGTTGAGCCCTGCTGCAG autosomal
GCCGCGCCGCGCTGCCGCCGAGCTCAGCCGGGGCTGGGGCTGAAGGGAGC autosomal
GATGGCGGGGCCGGGACCCCGGGACTGAGCGGCGGCGGCGGGAGCGGGGC autosomal
CGGCGGCGGCGGGCGGCGGCGGCAGGAAGCGGCGGAGGAAGCTCCGCTCC autosomal
GCGAGCGCGGCGCTCCGCGGTTCTCCCCCACGAGCCCCGCGCTCCGCGGA autosomal
CCGCCGCGGGCCCGCCTCGCCCCGCCCCCGCTGCCGTGGCAACCCCGCGG autosomal
GCAGTCTGTGCAGAGCTTGCAAGAGCCAGAAGCCAGCTGACAGCAGAGCA autosomal
GCTGCTGCTCTTGGCGCCGTTGGGGGCTGCCCGGCTCTTACCCCCCAAGA autosomal
AAATCTCCCCGGGGCGCTCTGAGGGCACTTCCGCCCAAATGTGGGCGTGG autosomal
ACACTGTTGAAAAAAGAGACCTTCCTAATGGCCGTTGGCTGAAGGCTAAT autosomal
CTGGTGGGGGCCAGGGATAGGAGCCACGCTGCTGATCCCGCTGGGCGCGC autosomal
CCAGCGAGCCATGGAAACGTCATTCGGATTTCTCCCGGCCGTCCCTCGGC autosomal
CAGAGATGCAGCGGGGCCGCCCCAGCGGTGCTGTGCCGTGGCAGTGGCAG autosomal
GCGCCACCGCAGCCCAGCACCGCGACTCGGAACCGCATTGTCCGCCCGCC autosomal
CGAATGCATCGCGCCGGGGACGCGGCGGTTCCGCCGCTGCTCGCCCAGCG autosomal
AGTGAGCCGAACAGCAAAAAAAAAGGAGGAGGAAAAAAAAAAGCCCCCAA autosomal
GCAAACATTTTACTGCTCTACAGCCCCAAATAGCCAGGTCCTTTTGGAAA autosomal
AGAGTTGTTGTTTTCTTTTTCCCCCTTCATGTCAGCTTCAGGAAGGGGTG autosomal
CCAGGCTGCCACTCAGGAAGCCCCCCATGAAGGAGGAGGGGGGGGCACTC autosomal
CTCACCTGGAAGGAGCCGGAAGCATCAGGCTGCGCCGGGGCGGACATCCC autosomal
ACCTTATCTTCAGCTCCTCCAGCTCCTGCTTGTAGCTCGTCAGGGGTAAG autosomal
CCGCCGGCGCTCCTCGCACCGACCTCAGCGGGCCGGCAGCCCCTGCGGAG autosomal
CCCCGGCCCCGGCCCCGGCCCTGCCCGCGCCCACCCCGGTCCGCACCGGA autosomal
GCTGTAGGGGCTGGGCGACACATCCCCGCCGCGTTCGTACGAGCTGTGCC autosomal
GCGAAACCATGGAGAAAATACACTATGTCAGCCACTACAACAAAAAAAAA autosomal
GAGAGAGGGCTGGGCGCGGCGCTGCCCAGGGTCCGGCGGGCCGAGCCGCC autosomal
AAAGGTGGAAGGGGAGTGAAGCTGGTATGGCAGTCACTCACTGCTGGTGT autosomal
GCGCCATGGCCGGAGCGGGACTCGAACCCGCGACCTCGACCTTTGGCACA autosomal
CCTGCCTTGCTGATTTATCTGATGTTTTCTTGTTTCTGTTTCAGCATTCA autosomal
AAGGGCCCGCGCGGCGCGGCGGCACGGCGGCGGCCGGCGGTAAGGCCCGG autosomal
CTCTACTCGTGGCAGCCCTGGCCCAGCCCCAGCCCAGACCCTCACTCACC autosomal
ACTGTGTCTTCAAGATAAGCAGAGGGAGAGCATTCTCAAGGATAGCACAT autosomal
AACGAAAGCATGATAATTTTCCACATGGTCAAAGAAGAGAAGAAAAAGAG autosomal
TCCACACGAGTTTTCAGCCATGAACCCCAACTGTGCGCGCTGCGGGAAGA autosomal
AAATGCAGGCCTTTAAAGCAGGGAGATGGTAAGATTAGAAAAGCTGCTCT autosomal
CGGCGCCCATGGGGCTGCGGGCCTGGCTGCGGTCGCTCGGCTGCTGCGGC autosomal
CTCTCCGGGCGGAGGCTGCCCCCGCTGAACCTGGGGGCCTCCGCCTTCCC autosomal
CAGAGCTGTAATCTCATCTGTTAATAGACAAACACAGCTGAGTCTGGGCA autosomal
AGGGAACGGAGCTCAAGGGAGGGGAAAAGAAAGCAGGCAGGGCATCCCTA autosomal
AGGAGCCAAGCACAGCGGCTTTATTATTTTCTTTTCCTGCAAAGAGCACC autosomal
CATTCTTCCCACTAAACACACATGTCCTGCTGTATGTGGATCCCATCAGC autosomal
CTGTTGCTTCGTGTAGACATAAAGCAGCTGCTACATATAGTTCAAAGTGC autosomal
CGGCGAGCGCGGCTTCACCTGGCAGCGGGCGGGCGGCGGCGGCCGCAGCC autosomal
CGCCTGCGGCCTCGCACCCCTCTGGTGCTTCCGACAGCCCCCCGGTACCG autosomal
CAGGGGGACAAGTGTCACCCGGTAGCCATCGGGAGGAACGAGGGGCTGGG autosomal
ACAGACCTTCCCAGAGATGCAATGCATCAGTTTAAGCCTTGCCAAAAATA autosomal
CTGCGCGCTCCGCGGGCGGGCAGCGGGACCGGCACGGCGCCACCGCCGCC autosomal
GGCTGGGGTAGCTCAACATCCCTGGCACAGTATCCTGCAGCCCTGTGACC autosomal
GCTTAAATATGTATGAAATAAGGATTCTTAGTCGTTTACTCTTATCTAGA autosomal
ATTCATTACCTGCTCTGTGCCTGCTCCCCAGCTGCTCAAAACCAGTGGTC autosomal
AACGTAGGCTGCGCCAGCCACATCGGGAAGCGAAAGGAAAACGAGGACCG autosomal
CAGGGGGGCTTCCCCAGGAGTACCAGGAGGTGCTGAACCAGCGGGAGCAG autosomal
GGCGAGCCGGGAACGGGAATGGGAACGGGAATGGATCCCGCGCGCAGGGA autosomal
GCGGGCGTGGCGCCGCAGCACCAGCAGATCCGCGATGAAGTGGCTGAGAA autosomal
AAAGAGTGATGGATCGATTGAACCTTGCGATTTTTTTCCAGCATCAACAC autosomal
CGGTGTCCCGGTCCATTCCCGGGAGTCCCGGCCCCGGTTGTCCTGGTCCA autosomal
ACCGCCCGGGCCCCGAGCGGCCACGGGCAGGGGAAGCGACGGGAAAAGGG autosomal
GGGAGGTGGTGTGCAGGCTGGGGGCAGCAAATGCGCATGGGAAGAGGCAA autosomal
GCCCCAGCTCTGCCTCAAGGCCCTTCGGGTGCTGCCGCAGCCGCCCCCCC autosomal
CGCTCGGTGTCGCTCGCTCGGTGCCGCTGCCGGAGCCCCTCCGGGAGCCG autosomal
AGTACAGACATTCCTGAAGATGTGTGGCTCAAACTGCTTCCAACTGTCTG autosomal
AAAGAAACAGTTGAGGAAAACTGGTTCTGGGATAAATTTTAAACAAAGCT autosomal
CCCCAGAGACTCCTGTTCCCCCCTCCAGAAACAGCCTAAGGACAGGACGC autosomal
CTCCTGAAGTGCGCGCCCTCCGCTCCGCTCGTCCTCGGCGCGCCGGAGAA autosomal
ACTAAAGACATTGCAAATGGGATGATGAACAAGGAAGGAAGAGTCTGAGG autosomal
AACTGATTCCCTTCCTCTCATTTCTTTCTTTACTAATTCTACAGAATTTG autosomal
GGCGCGGGCACGGCGGGGCGGGGCGGCGGGAGGAGGAGAAGGAGGAAGAA autosomal
CAAACCGGACAAAAACGGAGTAAAAACGGGAGAGGAGCGGCGGCCGCGGC autosomal
CTGAGGGCACCGAGAGGCACTGAGGGGCACCCGCCGCCGCCGCCATGCAC autosomal
GAGCGAGAGGTTGCGCGGACAAGCCCCGACTACAGATCCCAGCCTGCCCC autosomal
ATGGCGCTGCGCTGGCATGGTGGAATGCCGGCTCCAAGGAGGCTACGCAG autosomal
CCACAGAGACAGCAGCAGGAGGAGGAGGAGGACGCGTCCCGCTGCCGTGC autosomal
TCATCTGGGAAGCAAAGCAGGACAGGTGAGACCCTTCAGGTTATCTCAGA autosomal
CACAGGGGGGTGTGGGTTATTCCCAGTGGGAAGAGCTCTATAAGCTCTAA autosomal
CCCCCGGCGGGTTCGAGTTCGCCATCGACCGCGGCGGGACCTTCACGGAC autosomal
CCGGAGCTGCTCCTCCCGCAGCCTCCCCGGCACCCCGGAGCCCGCGGGGA autosomal
CCGCACATACCAGGCAAAAGGTAGCCCCGGCGGGGAGTGACAAAGCTTAA autosomal
GTCACAGCAGAGCTGCTCATGGCAGGCCCCTGCAGCTGATGATTTTGGCA autosomal
GGGGCCGCCATGGAGCCGGGCGGCCGCCGGGGCCGCCCCGCTGAGGAACC autosomal
AGCAAAAGCATCCCTTTAGCCAGATTCCCTTCCACAAGTACATTATGGAA autosomal
AACGTGAGCACACGGAACACACCAAACCAGGAACATCCTCGTGGAGCTTC autosomal
AGCGACGTGGCGTCCCGCAGCGCTTCCTGCAGCGCGGGGTTGTCGTGGAG autosomal
CAGAGCCTCTTTGTGCAGGGAGAGGAAGTCTGCACTGGCCAAAGCTGCTC autosomal
GGCCCTACGCCATGCTCATCCATGAGTAACCACACCAAGGAGAGAGTCAC autosomal
CAAAGCGAAGCTTTGGGGGGCAGAAAGCTCACACCCCCATCGGCGTGCGC autosomal
ACTCCTCGCTGCGCCACGTGTAGAGCAGCGGGTTGAGAGCCGAGAGCGAG autosomal
GCATTCAGATGAGGAACTTCACAATACAGAGCTGAGATCTTGCTGCTGGA autosomal
AGGGGTCCGCGGGCAGCAGGCAGCGTTTCTGTCACGCTGATGCCTGCAGG autosomal
CAACAAGATGATCAAAGAGACGCTGCCCAACGTCCGCGTGGCGAACGACG autosomal
AAAGATGGCTGTTAAGATTTTGACTCAAAACATCTCCCCCCCTCCCCACC autosomal
CTGCGGCGGCTGCTGCTGCGCCTCTCCCTCTGGGCGCTCATGGGCAGCTC autosomal
AAGGGGTTTCAGGCTGTTCCCAATAGCCGTGGTTCTTGTTTGCGTGTAGT autosomal
AAAAACTCGCTGCCACTTTATTCGGTCCCTTTTCTCCCCACGGACCGCAG autosomal
CCTGCCAGCCCTGCGGCCCCACCCCGCTGGCCAACAGCTGCAGTGAGCTC autosomal
TCCCAGAGAAGCTCCACAGGCTTCTCCCTCCCTCCCCGCCCCAACACCAA autosomal
CAACCGCGAGCGGCCCCCGGCACGCGGCCCCGCCCCCTCCGGGCCTCGCG autosomal
CGACCACACCAAGGGGCTGGAGTGCAACTTCGGGGCCAGCCCCGCCGCCC autosomal
CGGCCTCCCTGAGTGACCCCTGAGTGACCACCGACCTCCCTGAGTGACCC autosomal
GCCGGGCCCGGCGCTCCGCTCCCCACGGGCGGCCCCGGCGGCAGGGCAGA autosomal
CACCGACGTGATCGCTCTCACCAAGCAGGTGCTGAAGGGCTCCCGTAGCG autosomal
GGCCCCTCCCCCTCCCCCGGGGGGTCCTGGAACCAAACGCGGCGTCTGGA autosomal
AAAAGCATTTGTGGAACTGTGTTTCACTTGCTTTATTTTTTAATGTGTAA autosomal
CCAGGGGAGGTGGGGACCGGGGAATGTCCCGGGTGGGACGGGACCCACAG autosomal
AGTGAAGTCTACATCCACTCTTCTCACTGCACATGGAAGGAAAAAGCCAC autosomal
ATGACTTGCATGAAGATGTTGGTATCCTGCATCTGTTTCCCTGTTTTGCC autosomal
TCCGGTGCCGCTCCCGGTGCCGCTCCGGCCGCGATCGCCTCTCACCCGAA autosomal
GAGGCGCTCCGGCCGCAGCCGCCGCCCGAGGCACCGAGAGGCTCCTGCCC autosomal
AAATGGCCGACAGTGGGAACCAGAGCTCAGAACAAACCAAAATGGCCGAC autosomal
CCTCGAGCGCTACGGGGCCCTGCTGGACCTGCCCGAGCTGCCCTTCCCCG autosomal
GCGGCGCCGGGCCGAGCCCGTGGAGAACAACCTCTTCAAGCTGGTGGCGA autosomal
CCGCCGCCACCTCGTGCGCGCTCCTGGCGCCCGCCGCCCGCGCGCTCGGC autosomal
ACTGGGGGAACCGGCAGCCCCAAAACAGGGAGGCAGAGCCTCAAGCAGCG autosomal
ACCACGCAGGTGACTTCTTTGCTGAGGAAGCTTTCAGTCACCTGCAGCGA autosomal
GGCCGTCGGAAGCGGAGGGAGGGCTGGAGCTGCTCTCAGGAAGTTTGGAC autosomal
GGAGATCGCATTTGCAGGAGTCGTCTTCCAGCCAAAACTTCCTTCTGCCA autosomal
AAACCACAGGCACTTAATTTATAGCTTTCTTCAGCCAGCAGACATCTTAG autosomal
CGGCAAGGAGCGGCGCTCCAAGGCGCGCCTCCGCCTGCCCCACATCTCCC autosomal
ATTTCCGAGCAGACCCCGTGGCGGTCCTCGCTGTCGCCGAACACCCAGCC autosomal
CCAGCAGTGACAGTGGGAGCAGCAGCAGCAGCAGCTGTAGCAGCAGCAGC autosomal
CGGCCCCGGCCCCGGGCGGGCCCCCGCCGGGCGGCACCTCGGCGGGGGAC autosomal
CGCGGCTCCTCGCTGCCCGCGGGCTCGGTTCGCCGCCCCGCTCCGTCCCC autosomal
ACGAGCACGAGGACCAGGAGCTGCTCAGGCTGGTGAATTCATCGGAGAAG autosomal
CATTTGCTTGGGTTATAAAAAGGAAATACACTTTACCCACCTTGAATGAC autosomal
AAAACCTGGCAGAGCTAAAGCTGTATCCAAAAATCCCAGAATCCCAGAAT autosomal
GGTTGCAGAGATGATGTCTGCTTCAAAGTACCCGACGATAAGTATGGTGA autosomal
AAAAACATCATCTCCTTGGGTGCCCTTGGAAATAGGAGTTTCTGGTTTAG autosomal
CTCCCTCACACCCCGCGGGCGGCCGCTGCTTCTCACCACCGGTGCTTGGA autosomal
CCAACTCTCCTTGCAGAACGCCCCTCAGGGCTCTGTTACACCCCCTGGGG autosomal
CCAACAATCTCCCTCCTACCAAAATCAGCAGTTGTAAAGGAGAAGTTGGA autosomal
CCCGCGATGGCGAAGCGCCTGAGGAGCAGCGAGGTCTGCGCCGACTGCAG autosomal
ATCAAAAGCCACGGGTGTCCTGTCAGGCAGCCCCATGCCAGCCAGCCTCA autosomal
ATCTTTGGATTTCAGGGCTGGTGTTTGGTCTTTTCTCTGCCTTGTGACTG autosomal
GAGATCTTCCCTCACTACACAGAATGAGGATAAGCAGAACCTGCCACGGA autosomal
CGCCATGCCGGAGGATCACGACTGGGAGGCGTACAAGGTGCCTCCGACCC autosomal
CCTCCGCCGCCTTTGCGAGCTGTGCCGCCCAGCCCGAGCGGAGCCTTTCC autosomal
ACACCCCGAGCAGCGGCAGCGGCGGCTCCATGGCGCGGCGGGCACCCAGC autosomal
AGCAGCATCCCTTTCAGGCAGCTGGGTCATTTCAGGAAGCACCAAGGGCA autosomal
AGACTTGTTGGAATTGGAAACTAAGGGGGTCCCAAATGATGTGCTGGCCA autosomal
CTCCTCCTCCTCCTCCTCCCGCCGCGCTCCCGGCGCCGCCTCTCGCGAGA autosomal
GGCTCCGCTGCGCGTCCGTCCCGGCCGCGTCCGCCGCCGCCAGGCCGCCC autosomal
TGATTTGATGGTTCTCTCTGGGGCACCCTGCAGCCCTGGTTATTTCCACA autosomal
AGTCTGAACTAGCCCATGTGCAGTGGAGCAGCTCAAGGAGTGTCCACACA autosomal
ATCCCGGTGCCCATCCCGCATCTCTCGGTCGCGGCGGCCGCAGGCATGGA autosomal
GGGCACAGGGCTCCTCGGTCCCCCCCCGGCGGGGCAGTTGAGCCGTTAAA autosomal
GCTCCTTTCGGCGCGCTCCCCGCGGGGTTGTTTCGGAAAGACATGACCAC autosomal
AAGAGGAAAAATTACTCTTCCATTCAATTCCAGGTTGCAGCTAGACTTAG autosomal
CTTGAGAGCCCTGGCAGCAGGATGAGTGCCATGCATGCCTGGGAGCATGA autosomal
GATGATGATGAAAGAAGATTGTAACTAAAGAAGAGAGTGATTTACTGCCC autosomal
AGCAGGACAAGTACCTGCCCGAGCTGATGGCCGAGAAGGACAGCCTGGAT autosomal
CCTCCCGCAGCTCCCCCCGCGCCGCAGTCCGGCAGCGCCGCGCCGGGGCC autosomal
ACCTCGGCAACCCCCCGGGCTGGGGGCAGAGCGGCGGCGAGGCCGGGGCT autosomal
CAAGCAGCTTGACCTCTGGTCTGAAGCCTTAAATAAAGCTGGAATACTTC autosomal
CGCCGGTGAGGTTTTTACTCTGACCCAAGCCCTTGGGCTTCAGCGTCACC autosomal
CGGACGCGCTGGGCGTGCTGCCGCGGGGCGCTGTGGAAGCGCCACACGGC autosomal
ACTTCATCACCCTGGGCACCGAGCTGGCCCACGAGCAGCAGCAGCCCGGG autosomal
AGCAGAGGACTTCAGGAAATCAGCTTTTTTCTTCTTTAGTCAGTTCCTGG autosomal
AAAATTTCCCTCTCAGTACCTCCCCCAAATCCCCCCCTAAAATCCCCCCA autosomal
TTCAAATAATTATCACCTAGGCAGACATACCATCCTTCAAGTGATTTCAA autosomal
GAGGAGCGAGGCCAGCGCGGGTGGCAGGTGCAGGAAGCAGTCGCGGGTCC autosomal
CCGGCGGGAGCGCGTCCTGCGGGAGCCGCGAGGAGCGCGCGCGCCGGGCC autosomal
AAAGATTGCAGTGTGAAACACTCCTATTTCCCACTGACGTGGGACAAGCA autosomal
ACTGAGGAAATCGCAGTACCCTTGCCCCATACCCATTACAAACCTCTCCA autosomal
AGAAAGGCTCTTCTCACTCACTCTCTTCAGAGCAGTTGAACATTTTGCCA autosomal
AGGAGAAGCTGAGGAAAATGCATTTAGAAACCAAGGACAACACACAACAC autosomal
CCCTTTAGGAACCACTGATCTGGAATATGAAAAGACTGTACATGCTGAAA autosomal
GATGGGAACAGAGAGGACACAGAGCTGACTGCGAGGCAACAAGAGAGGCA autosomal
AAATTCCGGGATAGAGCAGCAGGATGGACACGGATAACCAGGATATCCCA autosomal
GCGCGGTGCGGAGCGGGAGCAGCAGCCATGGGGCCGGGGCAGAACAGCGC autosomal
ACATGGCACTCGTTGCTAATTTCTGGGAGCCTCACTCATGGCTTAGGACT autosomal
AGCTTCCCTGTGCCACCTGAGCTTGCGGGCGCGGGGCCGAGTGCGGAGCG autosomal
CCGGGTGCCTGCTGCTCCTCCTGCTCTGCTCCGCGCTGCCCGCCGAGCTC autosomal
AACTAAAATCACAAGTAGAAAACACAGGAAAAAAGGAAAAAAAAAAAAAC autosomal
GCCCGTCCCGTGTCCGCCTCACACCGACTGACCCACCGGCCCTACCACCC autosomal
CGCCCCAAGATGGCGGAGTACGTGCAGGTGCTGAAGCGGGCGCTGAAGCA autosomal
CCCCATCCCCCTCCCCGGGTCTCGTATTTGGGGAGGGGGATCCAAACCTC autosomal
CTGTGCCCGAGGGGAGCCTGGTCTATGTGCGGGAAGGGAGCAACGCCTTC autosomal
GCCGGACATGGCGGTCGGGAAGAACAAGCGGCTCACCAAGGGCGGCAAGA autosomal
GCCAGCGCTCATATAGGATGCGCGGGGATGGGACCGAGTCGGCCAGAGCA autosomal
GAAGAAGTGTGCATAATCAGTTTCCTATCTATTTTTTTGTTTTTCCTAAC autosomal
AGATCTCAGTGACAAGAATGAAACCTCTTAAACTTGGTGTTTCATTCTAG autosomal
CGCTGGGCGCGGGGCTGCTGAGCTTCCCCTGGGCCTTCGGCAGGGCCGGC autosomal
CGCCATCGCCTTTCCCTCCCCGCCGCAGCCGGCGGAGGCTGCGGGTCCCG autosomal
CTCGTCGCTGGTGTCCCCGCACACGGCGGCCGTTCCCTGTTTCTGCGCCA autosomal
CTCGCCCCTCCTCGGGTCCTTCATCTCTAAAAGATTGCCGCCCCTGCCCC autosomal
GGGAAACTCCCCCATCGCAGCACCATTAATTCACCCATTAATGGAGAGGA autosomal
ATTTGGGGGGGTCTCCCCGGATTTGGGGGGCTCCCCGGAATTTGGGGGGG autosomal
ACCGCCTCGGGGTCCGCATCGGGAACTGGCTGGAGGACGAGTACGCGCAG autosomal
GCTTGCTGTTGACTCCCCTCAGAATTTACAGTTAATATCAACCTTAAGAA autosomal
AAGTGGTTTCTTTTACCCTTAATGATTCTTCTTGGGACTCTGACAAAAGG autosomal
CCTTCTGCTGCAGAGCTCAGATCCCTGATTTACAGTGTCTTTCATTTCAA autosomal
GAGGGAAAAGAGCGGGGCGGAGAAGGAGCCGCTCGCTTCCCGCCGAACTA autosomal
GCGCTTCCGGGTGTCTCAGCCAATCACCACCCCTATCTAGCCCCGCTCAC autosomal
ATAGCAGGGTTTTTTTGGTTTATTTCCTGTGCATTTTCAAGCCGACAGAA autosomal
GCCGGGGCTGAGCCCTGCTGGCCTGGATCCTTCTCGGGTGCAGCGAGAGC autosomal
GCCGCCGCCGCCGGTGCAGCTGCGGCAGAAGCTGCGGGAGCTGCCGGCGC autosomal
ACACCCAGCGGCGGAGTGGCGGCGGGAGGTACGCCGAGCTGGTGTTGGAT autosomal
CCGCTCCCGGTGTCCCGGTACCGGCCATGCTGCGCCTCCCGCCCTTTGCC autosomal
CCAGCCACGCTGCCCTCACCCCGGTCCCACAGCGGCAACGACGGGCACGG autosomal
TGCGGCGATGCCGGCAGGTCAGCGGCTGGCTCCACCTCCCGCAGCTGCCA autosomal
AGCAGCCGCAGCACAGCTACGGCGGTGGCTCCGCGCCCGGCGCGGGGAAA autosomal
CCCCTTCCTTCCCTCCGGCCGGAGGCAGCGCCACCTCCCCGGTCCCGCGG autosomal
TCTGATGCTCATCGAGTTTTAAGAGGTAGGACTATTTATCTAACAGAACA autosomal
ATACCACCAGCTTTGATGGACAGGCTTCAACTCTGATGACTTATCACTAT autosomal
GCACCTTACTTTTAAAAAGGAAGATGTGCCTTGACAGCTTGCCAAATGCC autosomal
AGCTGACAGGCTGCCAGCGACGCTGGTAGGGGGTAGCGCAGTTGCCTCAT autosomal
AAAAAAGCCAACAGCCCCCCCACACCCCCGAGCCCAAAAGAGGGAGCGAG autosomal
CATGGCGCGCCAGCGGCAGCGCCATAGCAGCGGCTCCTGCTGCGGCTCCC autosomal
CCCCGGGAGCCGGAGCCGCACGGCAGCCAAAGAGCCCCGCCGGACCGGCC autosomal
AGTGACCCTGTCCTGGGCACTCTGTCCTGCGTGGCTGGTGGCCAAACTCC autosomal
CGCAGCGGGCGGCGTGTGCCGGGCACCTGCCGGTCATCCGCAGCTTCTTC autosomal
GCTCCATCCCTCCCCCGGCGCTGTCTGTGCTCCCTGCAGAAAACCCGGCC autosomal
CCCGGGCGCGGAGCTGGAGGCGGTGCGGGAGCGCGGCGCGGAGCCGCGGC autosomal
CCCAGTCTCTCACGGAGCTCCCGGGCCCGGCCCCTGTCCCTCACGGAGCC autosomal
ATCCCAATCACAAGAAGCCGCGAAGGGCAGGGCGGGCGGGCGCGGGGCCC autosomal
AAGAAATATCCGATATTTTTGTGTATATATCCAAGAGAAGGCATCCGAAG autosomal
GGCTGCGTCCAGCGGAGACAAAGGCTCGGCAAGCACAGGAAGTGAAAACC autosomal
AGCTCTCGGAGCACGTGGTGGCCACCGAGGTGGTCCCCAACGGGGACTGG autosomal
CACAAATAAAAGTCATCTTCGTCCGGGTAGAAACAAGGCTGCAGGGAGTC autosomal
CGCTCCCCATCTTGAACTGCATCTTTTCCTTCCTCTGTTGTGAATAGCTC autosomal
ATGACCGTCCTCCCCAAAATACCGGCCGCGGCCCAGGTGACGGCTCCTAG autosomal
CTCTCAGCAGATTATTAATCACTTATTATTATTAAAAAAAACAAAACAAC autosomal
GACTTCCACTTTAATTCTCTCTTTTCCTGGTTTCTCCAGTAGCAAGGATC autosomal
ACACACCGATAATGTCCTAATGACCCCCAAATATTCCCCTAATAGACACC autosomal
CCTCCCAGGTGAAGCGCCGCATCCCTCCCCGGACGGGCTCCGAACCCTCC autosomal
GAGGTGGGCCAGACAGTGATGACACATGCAAAAAAAAAAAAAAAAAAAAA autosomal
AAACAGCACCAAAGACATAAAGGAGACCCCCAAACTCAACAACCACCCAC autosomal
AGGCTCCTGGCAGTCCCAGCACCCCAGAAACAGCTGCAATGAGGGGGCTC autosomal
TAATGACAGGAAAACTCTTGAAACTGGGGCAAGCCTATCAGCTTCCCTCA autosomal
ACGATGATTTGTCACAAAGGGTAGCTGGCTCGGTGCTTTGGGCTGGAGCC autosomal
CTCTGCCCCGGGCGCTGCTGCTGATTCACGGCCCGGGCGGCGCGGCGTGA autosomal
CCAGAGAATCTAAAGCTCAGTTGATCAGCTTCTCACATTTCCTTACTTCA autosomal
CCGCCCTCCGCGCTGACCCCGCGCATCCCAGCCGCGGGCAGGGGGTCACC autosomal
GGAAAAGAGTCATTTCTCTACAACATCAGCCTGAAGTTCTCTGCCCATAA autosomal
GTGGGAAGGAGGGGGCGGGAAAGCGGGAACTCGCGGCGCCGGGACCGCCA autosomal
GCGGCAGCGGGAGCAGCGGGGCCGGGGGGCGCAGCTGGGCCTTAGCCCCC autosomal
AACACTTCATTTTGGTGCCTCACTTCTTCAATGCTGTGGAAAGCCAGCCT autosomal
GCCCAGCTCGTTGTTGTTCTCGAAGCTGGCGCGGACCGCCATGGCAGGAA autosomal
CAGCGAGGCGGCCAGCGCGGAACCGGGGCCGGCTCCGGGCCCTGCCGCCC autosomal
GGAGCAGCTCCGTGGCCTCCTCTGGATTTGCTCCAACAGCTCCAGGTCCC autosomal
AAGTGGTGACTTTCCTCTCCCTGAGCACTCAGCACTGGGAGGGTCAGTGA autosomal
GCGGCCGCTTCGCCTTCTCCCGCTCGGCCCTGCCGTCCGCCATCTTCCCC autosomal
CTATTGGACGGAGCCGGAAGGCCAAGGGATGCGATTGGCTGCCGGCCGGC autosomal
CACCCCCGAGGGCATGGCGCTGGCCTACGGCAGCCTCGTCCTCATGGCGC autosomal
AGGGAAAATGGAGGCGGCGGCGGCGGCGAGCGCGGGGGGCGGAGCGGGCG autosomal
AATTAATCATTTATATTTTAGCTTGTAGAGTTATGTATTAAATTTTAACC autosomal
AGCGTCTGAAAATCGGGCTCCCAACGGAACCGGCCAATTAGAGCGGGCGA autosomal
CGGCCTTGGCGATGCGCTGGAGCTCGGCGTATTTCAGCGCCTCCAGGGGC autosomal
AGGATCCGGATAAGGACCAAATCCCGGCCTGGATTTCATTTGGGATCAGG autosomal
AGTGGAAAAGCAACGATTCCTCCAGTGACATCTGTCGGTATCCCTACCAT autosomal
AGCCCGAGGAGGAGGCTGATATGAAAGCGGTTGCCACCTCGCCGGATGGC autosomal
CGCGGATGTCCCAGTACCCCAACACCGCCATGGCCGCGCGATCAGCGCCC autosomal
GCGGGGCGGGAGCGCCGAGCCCCGGCCCGGCTGACGGCGCGGCCCCTCCC autosomal
CTGTGATGTCTTAGCCATGGTGTCTGAACCTGGCTGAAGGATTCTTGTGA autosomal
AGCAGGGCTCCCCTGGCACTCGCTGGGCAAAGGGGCTCATCTCTGCCTAC autosomal
CTTCCTCCCCTCACACCTCCTCTTCTTCCTCCTCCTCCTCCTCCTCTTCC autosomal
AGCAGATCTGAACTAGCTGAAAGAACATGCTGTATCTTTGAAAAGGGGGC autosomal
CTTGTGGAAGGACACGTGCTCGTACTCCGGCTCCACCGCGGGCGTCGGGA autosomal
CCCGCTCCTCCTGCCCGGCTGCGACATCGCCGCCGCCTCCGCCGCCCGCC autosomal
CGCTGCTGGCCTCGCCGCGGCTGAATGCGTGGCTGGCTTTTCAGCCTCCC autosomal
AGAGCTCGACAGGTGACAGTCACGGCGTGGCAATGATCGTAATACATAGA autosomal
GAGCAGGCGAGCCCCGCGCCGCCGCGGCCTGCGATCCGCCCGCCGCGCAC autosomal
CACCATGCTAGAATAGAGGAGAAAACTGTTCCTGGTTTTGGGTTGGTTCG autosomal
GGCCCCGCCGCCCGAGCGGAGCCGGCGCCCGCCGCCGGGATGGAGAACAA autosomal
ACCGAGAGCGGCGGGGCAGGGCAGGAGAGCGGCCAGCGGGCATCCCACCT autosomal
AGGCCTTCCCGTGCCCGCCGCCCACCCAGCTGCGGGAGCGGCCGAACATG autosomal
CCCCGCGGCCCGCCCGGGCAGCCCCGGCCCGCCCCGGGAGCGCAGCGAGC autosomal
ACAGCGCCCGCACCTCCTCGGGCAGCGCCGCCGGCACCGGGCCCGGCTCC autosomal
CTGATGACACTTAGCTGGGAGCTGGGAAGGGCAAAGCTGGCAGACTGGAA autosomal
GCCGGCGGAGGCAGCCGCGGAGTCGGCAGGGGTCGGAGGCGATGCCCGGA autosomal
CATGGCCACAATCCTCTGTGTCCCTCCCTGCTGGGCACTAGATGCTGTGG autosomal
ATCATAGTCCTGCATCTGTGGCTTTGATGAGCAAAATGCCAACACCAATG autosomal
CCAATGAAGAATGAATGCTTTGATGCTTTCTTACTGAAAAATGCTAAAAA autosomal
CCGCTGCCGGGCGACGCTTGGCAGGAAGCGACCCCGCCTCCTTCCCGCTC autosomal
CCCCCCCCGGGACCCCCTCCTCCGGAGGGGGCCCTTCCTCACCCCCCCCA autosomal
AATTACCTTTGCAGGTGAGTTGAAAACTTCACCCAGGATTTGAGTTAGAG autosomal
CCAGAGCAGCCAGGGGAACTTTGGCCCCAACATCTCAGCATTCCACGTAC autosomal
ATTTTCTTGGCCACATCGGTCTCCCTGAACTGCTCCTTCACCATCGCGGC autosomal
CCTTGCTGCTGGCGACCTTGTGCGTGCCGGTGGTGGCCGTGGCAGTCATC autosomal
CTACGGGAGCCCTTCAGCACCTGCTTGGTGAGAGCGATCACGTCGGTGCC autosomal
CGGAGAGGGCAGGCGGCGCGGGAAGGCGGCTCCGCCGGCATGGACGGGCC autosomal
CTTGGTCCCCTGGCTTTGGTTCTGGGGGCTCATGTCAGTGTTTTTTCTGA autosomal
CGGGGCACCTGGAGCACCTGGCTCTCCTGGCAGATGAGGACCCTGGCCAG autosomal
GGGGGGAGGGAGAGCCCTTCAGAGCAGGAGCTCTGTGCCTGCAATCCCCA autosomal
AGAGACCTCCGGGAGGCAAGAGTAAGGATCCCAACACCTACAAAGTGCTC autosomal
CAGGCCCTGAGCTGCCATTCCAGGGCTGCCTCCTTCCCTGGGCTGGGTCC autosomal
AAAGCAGCCGAGACACTGCGGGGTGCTGCCATGCAGCCCCAGCCCGGCAG autosomal
GCATCCATGGATTTCTCCATGGCAGACGATGACCCACCACTCGACAGGGA autosomal
CCTCTGTGCCACCTCACACGCTGCTGGGGCACTGCTGGAGCTGCCGGGCA autosomal
CAGAGTATCAAGGGCTGTCTGGCACTGGTGTAAGCTCCAGTAGTTTCAAG autosomal
AATCCTTGAAAGCTGCTCTAGCAGATAGCCAAGGGGTGAAAATGCCAGCA autosomal
GGCCCGGGCCGCGCCGCGCACTGCCCGCACCGGCCCCGCCGCGCTCCGCC autosomal
GAACGAATCATCCAAAGTTGCGATCCAAAAAGTTGGATTTGCCCGGCTGC autosomal
GGGGCCGTCCCGCGGCGCCCGGCGGCTCCTCGGGTTGCGGGGACAGCCCC autosomal
ACAGGAAATTTTTTGGTAGGAAATTCTAGTATTTCTAAACTTTTGTTCTC autosomal
AACTCACAAACCCCGCCCCTTTACCCCACAAGCCACGCCCCTTTAACTCA autosomal
CATGTTATACATTTCAAGGACATGCCATGTCCCTGTTTATGCTAGGAACA autosomal
GCCGCCGCCGCCGCTCGGAGCGCGCTGATCCCGCCGATCCCCGACCCGCC autosomal
GAGGCCTACAGATCTTTTGGGTCGATAATATTGTTTTAGTTCTGGTGCCA autosomal
CTCGTGTCCCCTTGTGCTGCCATCCCCGCTGTCCCCTTGTTCTGCCATCC autosomal
GCCCGGGAGATGCGGAGCGGCTCCCGGCGCCTCGCAGCCCTCACCGAGCC autosomal
CTCTACAGGTAATTGTGAGATTGCTATAAAGACATCACACTTGCCTGCAG autosomal
CCCCTCTCACTGCATCTGCTTCACACCACGGCACCCACAGCAGCCTTTCC autosomal
CCCCCCCTTCCATGGCAGCCCCTCGTTCCATCCCAGCCCCAGGAAGGGCC autosomal
AAGCTGGAAATGGTCTGGAAAGCTGTGACAGGACAGACATGTAGTGACTC autosomal
GCTGGATGGGATTGATTATTTTCATGGAGTCACACGTGGAACAAGGCAGA autosomal
CACTGGCATTTGTTAAAATGCACTCAGAGCTTCACCACACAAAGCACAGA autosomal
AAGGGTGGGACTGGGAACACCAAGATGGGCGTTGGGGACACTGGGACGGG autosomal
ATCCAAATGGAAAAGTAAGAGAAGCCTGTACCAGCATGGTACCCTGTCAT autosomal
CATGGATTTCAATGTGAAGAAGCTGGCGGCTGACGCGGGCACCTTCCTGA autosomal
GAGCTCCGCTCCGCCCCGCACCGGGGGCTGGGCGAGGGGCGAGGCTTGCA autosomal
CACCGGGGGCTCCCCGCGGCGAGGCTGGGGGACAGTAGTTCCACCCGTTC autosomal
CCGCAACATGGCCTCCTCCTCCTGCTCCTCGTCCTGCTCCTTCCCCTCGC autosomal
GACAGCCGAAGCAGGCTGAGGTCGCGGCGGAAAGGCCCGAGGCCGCTGCC autosomal
GCAGCCCCGGGCCCAGGAGCAGCAGCAGCTCCAGCAGAACCTGCAGGGCC autosomal
GGGCTCCCCGAAGGCAATGAGCACCCCGAGAGAGGCTTCTGGAAATACCC autosomal
AATTTTTTTAAAGTTGATTTTAAGCCATTTAGGGTAACATCAAAATGTCC autosomal
GAGAAGGTTCACTTAAATGCAGCTGCAGCACTCCTGTGTGGTACCTGGCA autosomal
CAGGCCCCTTCCGGGGCGGGGCGAGGCGGGCTAAGTGACAGGCACGGCAG autosomal
GCTCACCCCGGGCTGCCGACTCGGTGCCTGGCTTCTCCCCCGCCGCAGCC autosomal
GCGGCAGGAAGTACAAGTTGAGCACATCAAGGTGTGCATTTGCAAACCAC autosomal
AGCGGTGGCTGCGCTATGGGCAGGAGGAGCCGCCGGGCCGCCGACAGCTC autosomal
CTGCAATCTCAGTGTGATTAAAATCAGCCCAGCCCCCCTTGGCTGTACAC autosomal
GCCTTGAAAGTCTTGTGCATCTACCCATGGCAGCATGATGATCTCTGCCA autosomal
CTGTTGGTTGAAGCTTCAGCCTTTTGCTGAGACGCCCTGAGGCAGATCTC autosomal
AGTCTTGACAGTGACTTTGCCCGATTCCCTGCTCGTGATTGTCCCTTTCA autosomal
CAGAAAGTCACCAAGGCAAAGGAAAAGAAATGAAGAGGAGCATCTCTGCA autosomal
CGGCGCGCGCTCGGCGGTGGCGCGTGCGCAGCGCGCGGGGCCGCGCAGTC autosomal
CGTCGAGACCCCACTTGTTGGTGTCCTCCAGCTCCTGGGGAGCAGAGGGA autosomal
CGGAGGTCGCGGAACGACATCGCCGCCACCGCCGCCACCACCGCGCCCAG autosomal
CTAAACATCTGGTTTTTTAGGACTACCCAATAAACTGTGCACCTGTGGCA autosomal
TCTGCAAGAAATAGGAATTGGTAGATGGGAAGAAAACTCTTTTACAGACA autosomal
CCTTTGTAAATATTTTTTTTCCTTCACCCCCTCCACACCCCTGTCAAGTA autosomal
GGTACGGCTCGGTACGGCTCGGTACGGCCCGGCTCCAGCCCGGCGCAGCA autosomal
AGATCCTGGTGCTTACCTACCCGCTGGTCGGTAACTACGGAGTGCCCCGG autosomal
ATCTCTTTTCTTTTTTCATTTCACATTTTCTGTTGTCATTGGTCACTCTG autosomal
ATGATTGGTTAAAGAGCATACCAAAGGTTCCTGCCAAGAGGTCAGCTGTC autosomal
ACCACCTTGTGCCGCAGCGCCCCCCGGCGGCAGAACAGCGGCCGCACCCC autosomal
CAGCAGCGGCAGCAGGAGCAGCGCCGGGAGGACGGCGAGCGCCGAGCGGG autosomal
AGGCTTGCTGCAGCTGCAACTGGGAATAGGGTCAGGGCCAAGAGGAGCGG autosomal
AAGCGCAGCTCCGGCTCGCGGTCCCGCTCTGCCGCCATGGCGGCTCCTGT autosomal
CGGCAGCCACCAGGTCCCCTACGGCCGCCGGGCATCGCCCTACGGTGAAG autosomal
GGCGGGCACCCCGCAGCCTGCAGGAGAGGCACAGGGGACAAGGGTGGCCC autosomal
CGGACACGTTCGCGAGAGAAAACCGTGAGGCACCGCCGGGGAGAAACAAA autosomal
AGCGCCGGCAGCAGCAGCTCCTCGGACAGCGGCTTCTCCCACGCCCGCCG autosomal
GGTCACTCAGTGGTCACTCAGTGGTCACTCAGGGGTCACTCACTGGTCAC autosomal
GAGCCTGTGTGGGGACACCGAGGTCACCCCTCCACTCCCAGCCTGCCCCA autosomal
AACCTCTCTCCCTCTCCTCTTCCAGGCTATGGGAAGTTCAGGAAGACCTG autosomal
AATATTAACCTCCCAGTTAGTTTATTGTGGCAGACTGGGGCACAGAAGTC autosomal
CAGCAGGTTCTTGGACAGCTTGGTTTTCACATCCCCGGCCATGGCTGCCA autosomal
CACGGCATCTCTGCTTCATAAGGTAGGGCCATGGCACGGGTTGACAGATC autosomal
CCAAACTGACCACTCCAAACCCAACTGACCACTCCAAACTGACCACTCCA autosomal
ACCAGGCTGAGACCCCCCAAAACACAGCCCAGGACCCCCAGAAATGAGAC autosomal
AAGCAGGCGGCTGGAGAACTCATAAACCAAGCATTTCACAGAATCACAGA autosomal
GCGGGCGCTGCCGGCACAGCCAGCATGTCCTCCATCCTGCCCTTCACTCC autosomal
CCCCAGGCCGTGTGTGGCTGTGGCTCCCAGGACTCTGTCCCCAGTGTCCC autosomal
CTCAGCCCCACGGGGAATCGCCAGAGCCGGCTCGGCGACGGATCCGGCAC autosomal
CCGCGCCTCCCACCGCCCCCGGGCCGCAGGGGCACGGACAAGCTGCCGGC autosomal
AGCTCCTGCAGCTGCGCCGCCGAGAACTTGGTGCGGGGCCGCCCGGGCGC autosomal
CCGAGGTGACCACACAGAGAGGTCCCACTTGGTTGGATGGAGTTGTTTGA autosomal
ACAGCAAAAAACTCCCACCCAAAACAACCAGGGCAGAAGAACATGGGCTG autosomal
CAGGGCCGGGGTTCTGCTGTCCCTGGGCGCCGCCGCCCTCCTGCTGTTGC autosomal
AAACCAGAGCCCACAGCCAAACCAGAGCCCACAGCCAAACCAGAACCCAC autosomal
ATGCCAGCTGAGCAGAGCCTGCTGCAGTTTCCCAGGGGATGAAGCACTAC autosomal
CGGCCCGGCCGGCCCTGGAGCCCGAGAGCCGCGGCTGCCCCGGCACCGGC autosomal
GAGGGCAACAATAGCTGCATGGTTTCAAGAGACAGCCAAAACAATCCTTA autosomal
CGGCGCGGGGAGAGCGCTCCTCCCGGGCAGGGACCAAAAACAACAACCAG autosomal
CGGCAGCAACCTGCTGCGGGAGCGGCTGCTGCTGCGAAACCCCTCGGCCG autosomal
GCCGGGAGCCCGAGCCGAGGGTCAGGGAGAACCAGCAAGTTCGGTAGAGC autosomal
ACGCCCCGCGGCGCTCAGCAGCGCCCGCTCCCCCGCGGGACGCGCCCGCC autosomal
CGGGCTCAGCCGCAGGAGGATGAGGGAGCTCATCCAGAGGGAATTCGCAG autosomal
CATTTCAATATAAGAAATAATTTAGAATGAAGCCAAGCTATGTTCTTAAC autosomal
TTCTCCTACAATGCCTTTTTGACAATATTATGCAGCCTCCTATTCCAGAA autosomal
CCCTGTAGCTCACTGAGCATGCCACAGCCTCTAAGGAAGCTGTTGTTGCA autosomal
CTCGCGGGGACGCCTGAGGGACACGATGTGGCCGCCCCAAAGGGCAGGCA autosomal
ATCTCTATGGGCTGCGGGGCAGGAAGAAGATCGACCATGTCTCCACTGAG autosomal
CCCGCTCTGGATATGGGATCTCGGCGCTGGCCAGCGGCTCCTGCGGCCCC autosomal
GCACATCTGGCAGCGGAGAGCGGGCTCGGGGCCACCGAGGTGGGGACAGA autosomal
CTCGCTGATGCAGCTGTAGGCAGAAGCCGACTGCAGGAAGAGCTGGGCCA autosomal
TTCCTTTTTCCTGATTTCTTACGCAGATATTTTGACTGATATGGGAAGAA autosomal
CGGGGGCGGCGGCGGAACCGGAAGCGGCGGGGCCGGGCGGACTCGCGAGC autosomal
CTTCCAGCGGGAAGCCGGTGCGGGGGTAGTTCTGCCCCGGCGCCGGGCGC autosomal
TCCAGAGAAAAGGCTAAAAAGCATGATATTGTGTTAGATAACTATGTTAA autosomal
ATGCTGGAGCCGGAGTGAGCGGCACCGGCCCCCCCTGGCCCCCACCCCGG autosomal
ATCCATTATGCACATATTGCACATAGCAAACAGAAAAAAATGTACTGCCA autosomal
ACCTCTCTATGATGGTCAGCTCGCCCTCTCTGATCCACGACATTTTTTAT autosomal
CACAGACGGCAGCGGGATCGGAGGCACCTCGCGGGGCCATGTCGGCGGAG autosomal
AGATGCCGAGCGCCAGCGGGAAGGCGGAGAGAACGTGAGCGGCCCGCGGG autosomal
AAAAAACCTGGAAGCAGAGATGCAGTGTAACTGACTATCAGTTCTCCATT autosomal
ATTTCCCGGACACCACAATACTCTGCTTGCACAGAGAGCAGCAGACAAGA autosomal
GCGTGGGGTGTATGACCGCGGCCGTGCGGCGGGTAGGGCAGGCGGCGGCC autosomal
AACATTCCGGGTTGGGGCTCTTCTTGCAGCGGCTTTTGTCAACACCGGCC autosomal
CGGGCGGATCGCAGGGCCCGGTCCCGCAGCACGGCCCCCGCCCGCCCGGC autosomal
GGATGTCGCTGTTGCTGCTGCCGCCGCCGCTCAGTGCGCGCAGGGCGGGA autosomal
AAAATAACTACTACATCTTTTGTGAACCTCAAATGCCACTTCCAGAGAAG autosomal
CTGGTGAGCGCCATCTTGTCCGCGCAGGCCGTCCGCCCGGCAGCCGAGGA autosomal
AAAGCAGCGGAGCCACGAGTGGGCCGTGTCACAGCCCCACGTGCTTACAG autosomal
GGAGCACCACTGGCCACGCTAGAGGGACGACGCCTTCCGAAGCCCGGGCA autosomal
ATCAAAAAGGGAACGTGTGCAGGATTCACCAAGGCAGCCCTGATACCACC autosomal
AGCTTCGCTCCGGGAGCAGGAGCTGCTGGAAATGCCACGAGATCTCCACC autosomal
AGGTTTAGGTTGGATATTAAGGAAAGATTTTTCATCCAGAGGGTGGTTGG autosomal
CCCTTGGTATAAAATTTCTCTCCATCGTTCTTTTCAACTTTCTCCAGGTA autosomal
AACAGGATCCGCTCCATCAGCCAGGGATTGACGTGGACCTGGAGTTCCTT autosomal
CTGAGCCAGCGCAGCAGCTGCACCAGCAGCGCCAGGAGAGCCCCTCCCGC autosomal
GTCCCGGGGCTCCTTCGAAAGCCGCTTGAGTGGGCGGCGGGGAGGAAGGA autosomal
ATGGCTGCCGCCGCCCAAGGTGCCCGCGGGAGCGGTGCGGCGGCTGCGCC autosomal
GCGGTTGTTGACCTCGAGCAGGATCATGTCGGTGCCGGGAGCGGCTCTGA autosomal
CCACAGTGCACTTCCCAGTCACTCTCTGTCCCAAAGTTTAATTACCAGAA autosomal
AGATCCCTCATCTCTACACAGCTTCTGTTTGATGGAACAGTTTAGAACCT autosomal
ATCACAGAGCGCTCCTGGCCCATCACAGAGCGCTCCTGGCCCGGCACAGA autosomal
CTGCCCCGGCACTGCTTGCTTTGGACCTCACAACCTCGTGTTTGTGTTAC autosomal
AGCTGCAGGCAGGTGGCCATGGCTCCAGCCGGGAATGCTGCCCGGTGCTG autosomal
GCGGGACCCCTCTGAGGCGGGGAGGGGCGGGAGGCACGGCCGGGACCCCC autosomal
GTAATTGCAGACCCCAGGGAAATAAAAGATGTCCCCATCAAAGGTCTTGA autosomal
AGGAAAAGACATTGAGTCCTTGTGGTTTTGTGTGTAAAGGGGGATTAGCA autosomal
CGCCGCCGCACACAGACAATATGGCGGAGGCACAAGGCTCGGCCGCCGCC autosomal
CTGGAAGCCAAGAGCAAACTGCAGCAACTGTGTTTTGCCGTCCCCTCTGC autosomal
CACCGGCAGCGGCACCGGGCCGGGGCAAGGACCAAAGCCGGGCATGGCAC autosomal
CACTGGTTTGAGCGCGGAGCCGCCCGCTGCTACCAAAACAGAGCCCGTGA autosomal
ACTTTCACCCCGGCCCCTGGCACAGCCGGGCGCTTTGCGGCAGCCGCTCT autosomal
AGTCATTGCCTCTGCTGCTGCTGCCGCCGCTGCTGCTAGGGAAGAACAGC autosomal
CGGCGGGGCTGGAGCCGCCTGCTCCGCGGCCACAGGAGGCAGGGACACCC autosomal
AGCCCAGCCCAGCCTAACCCAGCCCAGCCCAGCCCACCCGAGCCCACCCG autosomal
AGCGGCAGAATTTCATGTGACAACTCCTCTCGTCGTCGGCGCCTGCAGAT autosomal
CTGACACATGAGTCATTTTGGGAGTGGAGCAGGGACGTGAAAAGCCAAAA autosomal
CCAGAGGCAGCCGCTGGCTCCAAGCACCTCCTGCGCCTCCCGCTCCGAAA autosomal
GACACTCGGCGGACGCGCGGCGGCGGCGGCAGCAGCAGCGCGATGACGGC autosomal
CACACAGCTCATGGACTATGTGAATCAAATCACATAATTAGGCAGGTCTG autosomal
TTAATCCAACAGCTGAGCAGAGCAGTGACCACTTACAGCTGCATGGAAAA autosomal
TCGAAGCGCCGCAGCATCTCCATGAGCGCCGGGTCCGGAGGGGGCTGCGA autosomal
CAGGACAGGACAGGACAGGACAGGACACTCCCTTCCCTCAGTGGCAACAG autosomal
CCGCGGCGGCTCCGAGCGGCGCTGCCCCCCGGCATCCTCCTCGTCCTCAG autosomal
AGATACTTGGAAGATGCTCCCGGGATGCTGGGGCGACGCTGCCGGGATGC autosomal
ACTTTTCAAGCAGGGTCATCCTAGCGCATGTGGCATGGAATTGTGTCCAG autosomal
CGGTGTCCTCCCTGCGGGGGTGACAGCGCTGTCACCGCGCCACACGTCCC autosomal
CATTAGCAGGACCAGGGCTGTTCCACAGCTCGCTCACAGCCACTCCAGCA autosomal
ATAAAACACCCAAATAACAACAACGAAATTAAACTAAAGATGAATCAAAC autosomal
AAGGCCGCCAGCTCCTCCTCGCCCTCTCCCGCCATGGCCGGGCCGGAACG autosomal
ATAATAAATAATAATTTAGCCAGAGCCTGTTGGATCCTTTAATAGATGCA autosomal
CTTTCCAAATGCTCTCTCTCCTTCCGCTGCTTGCACAAGGAGTTTAAGCC autosomal
GACCCTGCTGCAAGAGCTTAGCTCAGCTTCCAAGCTCTTAACTGACTTTA autosomal
ATCCCCTTTCCCATTCCCATGGAATATCCCGGCTGGATCCCCTTTCCCGC autosomal
CAAGCCTATCTAGGAATTGGAGTGATTTGGACTTTAGCGTGTCTCATGTC autosomal
ACAATGTTTGGAGAGAGCAGAACTTGGGCAGCAGAATTTGGGAGAGCAGA autosomal
GGGAACCGGGCTACGGTTCTCTTATTGATTTCCCTAAGGTCATGCACCAA autosomal
AACCGTGCCGGGCCGAGCCGAGCGCCGCACGGGACCTGGCCATGGCCGAG autosomal
CGCAAACTTGAGCGCGGCCGTCCCGCGGGGCCGGCGGGCAGCAGCGCTCC autosomal
AGCCTGCACCCCCATACTCCTGGATCCCTGGAATCCCAAACCCTGCACCC autosomal
CGCGCAGCGCGGCCGTGCGCGGGGAGCGGCCCCGGGACCCCGGCACCCCC autosomal
ACCTGCCTGGGCAGCAGGTTTACAGGGAATGCCACACTCAGAGGAGAATG autosomal
CCGCCCCGCCGTTCCCGCCCCGCGCTGTCCGGTCCCTCCCGCCCCGCCGC autosomal
CCCGAGAAGTCGTAGCCGCGCACCGGGAGAGCCTCGGCCGGGAGGGCCCC autosomal
CGGGAGCGGGGCCGGGCGGCGGGGCCGGGACCTCCGGCTGCGCCCGCCGC autosomal
GAGCGAGCCGCTTCCGCCTGAGGGCACCGAGCCCCTTGACTGACGCGCCC autosomal
CGGCGCTGACGGTGAAAGCCTACCTGCTGGGCAAGGAGGAGACGGCCCGC autosomal
AATTTCCGCAGCGGGTTCCCGAAGTCCCCGCCCGACGACATGATGGAGGA autosomal
AGCGGGGCCGTGCGGCTCTCTCCACACAGCGCCCGAGGAACGGGGGTCCT autosomal
CATCAGTTAGATTGGAAAAGACTTCTGGCATCATCGAATCCAACCTGTGG autosomal
CCCCACGAACTCCAGCGCTGTCACCGGCGCCACCAGAGCCACCGACTCCA autosomal
CGCAGCAGCCGCGCCGCCCCCCACACGCGGCCGCGGCGGCCCGGCCCGGC autosomal
TGCGTGGACGGGATGTACCTGCCTGGGGACACGGGGACACTGTGGGGACA autosomal
CACATGGTTTTCTAATACATGGGAGTACTGTATTTTGTAACCACACGAGA autosomal
CCCAAAAATTTCCCGGAGGATTTTCCCGATGATTCCGAAGGGATCCCCGA autosomal
CTGTCTCACACCCGGTGCCAGGTGACACCTCCGTGGTGTCAGTGGCTTTC autosomal
CGTGGTCACGTGACGCCACCATCCGGGTCCTTTGCCTTCTCTGCCTCGTC autosomal
CGCTGCGGCAGCACGACCCCTACATCAGCGGCATCGTGGACGTGGCCAGC autosomal
AGGGGCCGGGCTGGGCACGGCTGAGGGGAGCCCGAATATCGGCACAGGGA autosomal
ACTCATTTAACATAAAATCCTCCAGCTGAGGACATAACAGATATTAAACT autosomal
CCACTTTCCCTGCAGCCTCCCCTGGCCTTGGGCAGCTCCCTGAGAGCTGC autosomal
CGGGGCTACCGAGGGCCGGTGCCACAGCCCGGGGCCCATCGGGGTTACCG autosomal
GCGAGCAGCATCCCGTCGAAGCGATCCTCCTGCTCCGCCGCCTCCTCCGC autosomal
GCGGCGGGGGCAGGCGGCGGCTGCGGCCGGGCGGGCACGGCCATGGAGCA autosomal
CATATCCATTTGAGCTGTAATGTCTGACACAGTGTTTTTCACAGCATTCA autosomal
CATGGCCGCCCCCGGGCGCCGCCGCCATTCCCGGGCGCGCCGCGCTGCCA autosomal
CTACGTGATTGATTTTTTTTTTCCCCCTGCGGCAACTCGAATTTTAATGA autosomal
ATGAAAATTACTCAATGAAGAACCTCTATTTTAGACTACTTATGACACCA autosomal
AAAAACTTTTGTTTCAGGGTCACCACTTGAGGAGAAGCAGCAGATTGATC autosomal
AGTTTGGTTTGATTCATCTTTAGTTTAATTTCGTTGTTGTTATTTGGGTG autosomal
TGGAATATTTCAACCTGAAAATAAATAAAGGAGGAAAGCATTGAAGCAAA autosomal
ATTTAAAAACCTTGATCTAGGTATCAGGACTCAAAACACCCGATTCTGTA autosomal
GGCCGGACACTGCGGGGATGCGAGACAGGGCACGGACACGTTCAGACCGA autosomal
GGAGGGCTGTGAATCACCACAGCTTCCCAGCAGGGCAAGAATTGCTGCGA autosomal
GAGCCCCGGGATAGAGCTCCGGGGATGGGGGTCCCGCCAACGCCTCCGCA autosomal
GCACGAACAGGCCCTCGGCGCCCTCAGGCCCCGCCGCGTCCGCCGCGCCC autosomal
ATCCTGGTGTCGCTCTCTGTTCTGCTGCTCGTGCACTTTTCCATTTCCAC autosomal
CGGAAGCCCCCGCGGGCCGCTCCCGCTCCTCCCGCAGCACCGGCGTCGTC autosomal
GCCCCCGGCCTCCTCTTCCCGCCCGTGCGGCCGCCGCTGCAGCAGGTTCC autosomal
CTTGAGCTTGAGCACCACCCGCTCGAGCTCCCGGTAGCTCTCGGCGCTCA autosomal
GCCGGGGCTGCGGCGGAGCCGGCGGGGAGCGACCATGGCCGGGCCCGGCC autosomal
CTTCTGCAGGTGCTTCGCTGCATCATCAACAGAGGGAGCCCGAGGATGTC autosomal
ATGTTCCACTATTTTTATACTTGACTGTCTCTCTCTTTGGCCTGACTTAA autosomal
CCAGTGCTGCCCTGCTGGATATGCTTGTGGAGGAGGGTCCTTCCAGCCCA autosomal
ACCGCGACCGAGGGACCGGGGACCGGCGACATGTTCCGCTGCCGCGCGGG autosomal
TCCTGGAACATCCCTCTTTTGTGTCTCTTTCACACCTTCCCTCCGGGAAA autosomal
ATCTTTGCTGGTGACGAAGGCCAGCAGCTCGTTGGCCAAGGCCACCGGGC autosomal
CCTGCAAAAGGCTCGTTAAAAGATCGCCTTCCTCGCTTCCCGCGCGGCCC autosomal
AGTGTTTCAAAGCCAGAGCAGGAATAAGTGCTCCTTCAACAGTACTGATG autosomal
ACCTGGGAGGTGTGCGGCTGCGGGCGGCCCGGCACCCGCCGCCCGGTAGC autosomal
CGTGTCCATCTCCCGGAGCAGCGAGGCGTTGCGCTGGATGTCCAGCGGCA autosomal
TAAGCCCAGAAATACAGACACTGACCAGAAGTCATGTAGCTATTACATAA autosomal
ATGCTAAAGGCGTCCACAAAAAATTCTCAACGCTTCTCTTAAGAACAGAA autosomal
CACTGGGAAATTGGAATCATGCGGAAATTCCCCCAAATTCCCCAAATCCG autosomal
AATCACATTGTATGTGGTTTCAGAGGCAAGTCCAAGGAATGTGGAAGCAA autosomal
CCTTGGCGCCGGGTGCCCAGCACCGCGTCCACGTGCAGAAGCAGGAGAAG autosomal
AGCTGCTGCAGGCTGCTGTAATCTTTGTTCTTGTGCCCACTCTGGCGCAG autosomal
GAACATTATGTTGACAGCAAAGTTGCAAATTTGACATTTGCTGTGAACAA autosomal
GACTGTTTACTTGCTTTTGGACAAAATGTACTCACAACTTGGTGGATACA autosomal
AACTTTCAACTTTTGGGATTCGCTCCCTCGGGGTTCGGGGGAATTTGGGG autosomal
GCCTCGGGCACCCCCAGGCTGCTGAGGGCCGACACCGCCGCCGCCATCGC autosomal
CGCGGCGCGCCGAGCTCCGCGCCACCAACCGCAGCCGCACAAAATGGCCG autosomal
CCGCCACACCGGCGGCACGGAGCGCAGCCGGCCGAGCCATGGCCCAGCAG autosomal
ACTTCCATAAAGTCTGCAGTGTCCAACCTGCCGGCCTCAGAGAGCTGTGG autosomal
ATTCTTCAAGGAACAGAACATGAAGCATGTATGTGTTAGAATGCGCTGAA autosomal
GAGTGCTACCACCGAGCTTTGGGTGAGTGAAGGGGATGCTCAAGTCAAAC autosomal
CCAGCGCCGGCAGCATGAGGAGCGGCGGCGCCGCTGCAGCCGCTGGGGCC autosomal
GGCTGACATAGTGTATTTTCTCCATGGTTTCGCCATCTGTGCTAATCAAA autosomal
CAGTGTGTTGCTCCATGAATCCATTCTGTGCTGAACCTCCCTGCTTTTGA autosomal
CCGGGGCGGGCGCAGGCTCGCACCCGCACCACCCCGCCTCGGCGGCCGGC autosomal
AAATTCACTTACTTTCGAAAGGTCCTGTCCAGCAGGACAAACATTGGCAG autosomal
AGCGCCTCGCCTCGGGCGGCGAGGGGCAGAGCCCCCGGCCCCGCCATGGA autosomal
ACCAGCGGGTGCACCACCACCCTGTCCACGGCCAGCTCCGGCATGGCGCC autosomal
CACGGCCCCCGCCCGCCCGGCCAGGGGCGCCGCCATCTTCGCGCTGTCCC autosomal
GCCGGGGCTGTGGGCACCCCGGCTCCGGTGAGCCACAGGCGGCAGGAGGC autosomal
CCGGCCCGGCCCCGCTCGGCTGCCGGCACGGCGGGCCGGGACTGCATCCC autosomal
CGGCTCCGTGGGTCCTGCCCAGCCGTGCCAGCCCGGAGCTGGTGGGGCAC autosomal
CACAGGGCTGATCCCATGGGAAGCTGGGAACACAGGCGGCCAATCCCATG autosomal
AGCCGGGGTATTAGTAAAAACCAAGCCTCCCTCCAGGAATGGCACTCGCT autosomal
AAATCCAGACAGGTGGCTCTTCATGAGAACCTGTCTCTACACCTCTGCAA autosomal
AGCCCCCCGCCGCCGCCGCCGCCTCCGCCGCCTCCCGCCCCCAGCTCGGC autosomal
CCCGGCACAGCCCGGCACGGCACAGCGAGCCCCTGCCCTGCGCCCCCCGC autosomal
CAAAAATATGCATACCAAATATGAATATAAGAATATATTTTGTTCTTATA autosomal
AAATAGAGCGATATTCCATTTGTCCAATTAATGGCCCCAGGTAGTAATTT autosomal
AGAGGCTGCCGGCTCTGCCCGCTGTCCCACCGAAGGAGAACGGCTGTGCG autosomal
ATAAGAAAAGGAGGAAAAGTAAAGAGTGAGACCAACTTTCTCAGAAGGTA autosomal
ACGGCAACCGCGGTGCCCTGCGGTGGCGGCTCCTCGTCCCGGCCGGAGCG autosomal
CCTGGAGAAATCCCTGGATCCAAACCTGGAGGTGGGAACGGAGAAATTCC autosomal
CTCAGTCTTCACCTCTTTAAATTAAATCAAACACAACCGCCTCAGAAACC autosomal
CCCTTCCTCTCATTTCTTTCTTTACTAATTCTACAGAATTTGCTCTGGGA autosomal
ACACCACCTGCATGTTGATGGAGTGGAAGTTGGCGGCGTTGCGGAACAGC autosomal
GAAATAAAGTTTTTGGAGCAGGTAGACCAGTTCTACGATGATAACTTCCC autosomal
CAATGGTGGTGTCCCCAGCTAGGCTGGTGGCCTCTGAAGGGTGACATTCC autosomal
CACCAGCCCGCTGACCCGAGAGCGCAGCTTGGCCGTGGCCAGCGGCCGCA autosomal
CGGGGCCGCCCTGCCGGGGCGCGGCGGCTCCTTCCGCCGGGAGCGGCGCC autosomal
GCTCGGGGCCGGGAGGAGACGGGCCCGGAACGGGCGGCGCCGAGCGCGGA autosomal
TACTCACGTGAGCAGTCGTCTCTATGTCAAAGGGACTACTCGGTGAGTAA autosomal
ATGCTGAGACGTGTAATTCAGGCTGGACATTAGGAGGAATTCCTTCATAG autosomal
AACCGGGGCTCGCTGCCGCGGAACCGGGGCTCGGTGCCGCAGGGTCCCGA autosomal
GCGCAGAGGCAGCAGGCGGCCAGGAGCCAGGGCAGGGCGGGCGGCGGCGA autosomal
AATGAGGATTGTACAAAGAAATATTTCTGCAAAGCACAGGAAAATTACTC autosomal
AGTTTCGGACCGTGGAAGTGCAGGATCCGCCGCTGCACCAGCCGTCCGCC autosomal
CAAAACGGTGTTGGCAACGATGTTTTCCAGCTCCATTGACGAGCTCGGGC autosomal
TATTCACATAATTCTCTCGGCAAGAAACCAAATCAAACTATTCTTTTTAA autosomal
CGCGTTTCTCCGCGGCTTCGCCCCGCTCCTCCCCGGGGCTCCCGCGCCGC autosomal
AAGTGGCCGCCGGGTTGGGTTTGTCGCCCGCCGATCTGCCCAACAGCAAA autosomal
CCGCCGTGCGGGGACACAACTTTCCCGGAGCCGGCCCCGGCACCGAGACC autosomal
ACACCAGTGACCCCCCAGTAACACCAGTGACCCCCCCCAGTAACCTCCCA autosomal
AAAATACTTGAAATTTAGGAAATCCAACATTTCTGCCGAAATATTTATAT autosomal
GGCCCGCCCCGCCGCCGCCGCCGCCGCGCACTAGGGCCCAGTCCCCGGCA autosomal
ATTCCCTTTTAGCATTCACCAAAGAAGTGGTCTATCATCAAATTGTACAC autosomal
GTCGCTGGCGCGGTCCATCACCGGCAAATGGCGTCCCGCCACGATCTTGA autosomal
GAGGTGCAGACCCTGTCGGGCAGGATGAACCCCCCGGCGGCCGGCAAGCA autosomal
CACCGGCTCCCGGCTCAGCCCGATCTGGAGATGGAAGGCGACGCCGCCGC autosomal
CGGGTGTCCCCAGGACTATCCCAGGTGTCCTCAGGGCTGTCCTGGGTGTC autosomal
CGCGCTCCTGGGCTCCCACGCGGTCGTACACCAGCTTGGTGCTCTCGGTC autosomal
AAGAATTGTGAGCCCTTTAACTGTAACAAGGCAAATCTATCTCCTCACAG autosomal
GAGGAGGAAGAAAAAAGAGAAAAGGAGCAGGAAGGAAATGAAGGGAAGGA autosomal
CCCTCCGCCATCTTGCCGGTGTGACGTCACCAATATTTACCGACCCCTCA autosomal
AAACCAGCTCTTTGTGGAGCACAAGCATAAATTTATCTACTGTGAGGTGC autosomal
ACAAAAATCAAAAATTCCCAGCTGGAATTTCCCATGAACATTCATGAATC autosomal
GCGGAGCCGGCGGAGAGCGAGCGCTGCCATGGAGGCGCGCGCCGCGGGCC autosomal
GCCCAGGCAGCAGCACAGGGCGCGGGCTCCGTCCCAGGCACTGCGGCCAA autosomal
CCCGGGGGCTCCGCGGGCAGGGTCAAAGTCCAGCCCCGGCCGTGCGGCCC autosomal
AAGTGGTGAAAACCGGCAGCGCCTGTGCCGCGCTCGCCTTTCCAGGGCGG autosomal
GAGGGTCCCTGGTGCCGGGGCTCCCGCAGAGGAGGCAGCTCCAGGTGGAA autosomal
GAAACCCTTCCGGGCGGGCGGGTCCCGCGGCGATGGCGGGAGCGCGGCGC autosomal
CCCTCGAGCGCCAGGGCCGCGTAGCGCTCGGCCAGGCACTGGCAGGCCCC autosomal
AGAAACAGCAGAGCTCTTGAGTCACCATCAAGTGGAATTAAAGCAAGAAT autosomal
CGCCTCCCTCCTCCTCCCTCCCCCGCATGCGCGCGCCCGACGCCGCCGCC autosomal
GATAACCAAGAAGAATGGAGAATGAAAGATGAAAATCTGGAAAATATACC autosomal
ATTGCTGTAGTAATGTTGGACAGATATTTATCTGATTCTTTTCTGAGGAG autosomal
GCGGGGGGAGGGCGGCAGTGCGCGCGCGCGGGCGGCGGCGGCTGAGGTGA autosomal
CGAGCGGGGAGCAGCGGCAGCAGCTGCCGAGAAGCGGCGGCGGGGATGAA autosomal
CGGCAGGCGGAACTCGAGGTGCTCCTGCGCCAGCAGCAGCAAGTAGCGCC autosomal
AATATTTCAAATACCAACTGTATGCTGGGAAGCTCCGGGAGGCATTGGGG autosomal
CGGGTGAGGGTGACTTGGAAGCCTCTGCAAGATCCTGGAACAGAAACTAC autosomal
TCACATTATGAAAGAAAGACGTGAACTACAAACCTGAATGCAACCTGGAA autosomal
CAGCAGGGCCACCAGAAAAGCCTTCATGGTTGGTCCTCGTGCCCTTGGAG autosomal
CCGCCGCCGCCGGCTGAATATGCTGTCTCACGGTGGACAGGCTCCTCCCG autosomal
GCGCCCCCGCTACCCGCCTCCCGCCGCCGCCATCTCGGGCCAGCACTCCC autosomal
ACGAGTGCATTGCCCACCTCACAGCGCTGGCACCGACCGACAAAGCCCAA autosomal
CAGCCCTGCTCCTCTTGTGCCTCTGAGCTCGGCACCTCCAGCCCAGCTGC autosomal
AGGGCTCGGGGATGCCAGGAGTGGCTGCACTGGGAGGGACTGGGCTCTGC autosomal
ATAGAAAAGCCAGGATGAACACAAAACCAATGGAAGTGCTGCTGTTCCAG autosomal
GCCGGGCCGAGCCGCTCCGGTGGGCGCAGGTGCGCGGAGCCCCCCCGGAC autosomal
CTGGGATGCTGAATGTCCTGGGGCATTCCCAGGTGGTTTTTTCCATGGCA autosomal
TCTCATTTAATTAACTGATTCACACAGACTAAAACTGAGTAGATTTTGCA autosomal
AAAATGAGCAAACCTTAGTGAGCCTTCTCAGGGTCTCTCCAGATGTTTGC autosomal
CGCGGGGCCCTCACGGCGCCCCCAGCCCCAAACCCCGGCCTGGCGCGGGC autosomal
CCCGACGCCGAGCACGGCTACGCCGCCGTCTGCCCTGCGCCGGCGCGCCG autosomal
GGTGGCCTTAGAGTGACCAGGAGTGACCAGTGGTCACTTTGAGGTGACCA autosomal
AGGTGGCCAGGGGACAGCGGGAGGTGGCCCGGGGACAGCGGGAGGTGGCC autosomal
GGAAGCTGCTGGCATTGCAAGCATCTTGGGTAGATCCTCTGACAAGAACC autosomal
AATCTGGTGGAAGAAGTCAATAAATTCAGCCAACAACAAAAAAGCCTCGT autosomal
AACTCTGTCCCTCTGGAGTTCGATTTACTCACTGCTACCATGCAGCTCTC autosomal
AGATGGCGGCGGCGCGGGCTGCGGGCGGGCGGGCCTGAGGCGGCTGCGGG autosomal
CCCGGGCTGGGACAGAACCAGTGCCCAGCCCCAACCCCTGCATGGCCGCG autosomal
ATGTGCTCAGAAGTGTTGAATTTGATGAGAGCTGCCCAGCTAGATGCCTC autosomal
TGGAGTGTGCTTGTCTTCCTTTCTCCAACCAAGTACCAGCAACCAATCCA autosomal
ACGGTTGATGCATTTACAAACCGACCCTTTTCTGGAAATCCTGCGGCAGT autosomal
CCCGGCTCCCGATTTGAAAATGCGGGAGCGGCTGCTGGTGCTCCTGTGCG autosomal
CAGGCCAGCTTGGGCACGCTCGCAGGTCTGTGCTCTGCGTCACTGCCTGG autosomal
AAGGCCGGGCACGGCGGGGGCGGACCGCGGGGTCCCGCACGGGCGGGCAC autosomal
CGCTGCAGCCGCGGCTCGGCGGCCAGAGCGCAGCCCAGCAGCACGGACAG autosomal
AGGAGCGGCCGGAGCGCGGAGCGGCGGGAGGCGGGCGCAGCTCCCCCGGG autosomal
GCAAATTTCTTTCTGTTCAGATATTTGAAATACATACATACACTTATATA autosomal
CTCTGGTCAGCACATGCCTGCTGCTCCTGGTGTGTGCTCCAGGCAGGCAC autosomal
ACGGCCTCCGGTGCCAGCGGGACAGGGCTGGCACGGCAGCGCCCCGGTGC autosomal
AAAAACAGACCTTCAGGAATCTAAGAGAGATCTATATTCAGTTGGCAGAG autosomal
CAGTGACCGCCCCGACACCCGCCACGGGCCCACCGCTCTGCCCCGGTCCG autosomal
CTTCTCCTGTGCTCACACACAGGCTGGGAGCCTTGCTGTACCATGATGAA autosomal
ACCCCCCAAAACCGCCCCGCCATGGCCGACACCCCCCCGGCCCTCACCCT autosomal
ACCCGTCGCGGTTCGCGGGGCCGGTGGCGGCGGAGCTGCAGTGCGGGCTG autosomal
ATCCCCGGAGCGGTGTCCTGGCGGGCCCGGCTGTGCCCCGAGCCCTGCGA autosomal
AGGCAGCAGATCCTCCAGAGCCCCGAGTGCGTGAGATCGCCCCGCGCCCG autosomal
CGCGGCCCCATCCGCGCCCCGAGCCGGGGGACCCCGGGACGCGGGGGGAC autosomal
CAGTCTCCATGGATGCAGCTTGGGATGCAGGCTGGAGCATGCCACGGGAG autosomal
CCGCTCCGAGCCGGGGGCCGGGGCAGGGCCGTGCCGGGGGCCGGGGCCGG autosomal
CTTCCTCAAACAATTTCCCAGGCATTGCTTCAGATACTGAGACTCCATCC autosomal
TCTGCGCTCACTATAAAAAAAGGCGACAGTGCGGCGCAGGCTTTTCAAGA autosomal
AGAAGAAGGCACAGACATTTTTCCTGCGTTTTGGAAAGGCCAGGCGGGCT autosomal
AGCTGTGAAGAAAGAGAAGCCTCTCATTCAGCATCCTATTGACTCTCAGC autosomal
CAAGAAAAAAGGTCTCTGTGGGCAGGGGCTGGTTATCCCAAAGTCTCCTA autosomal
AGGAGACGCGGTTCTCTGAAGGGCTGCGCACTGTGAGGAGCCGCCTCAGC autosomal
AAGTCTGTCCCAGCAGGATTCAATAACTACAGCCCCCTTACCGGAGGAAA autosomal
CTCGTAGCGGCGGCGGCAGCTCCCACCAAACATGTCGGCTCCCGCCGGGC autosomal
AGGGAGCCCGGGGCTGCCCTCGCTCACAGAGCCCGGACAGGTGAGTGGGG autosomal
CATCTAAGGGGAAAAAAAAAAAAAAAAACCCAAACCAACTATTCCTCAAA autosomal
GCCCCGGTCACTTCCTGCCCCGCCCCCGCCGCCGCCGCCGCTCCCGCCGC autosomal
GACTCTTGCTAATTGATGCTAATTGCTTCTGCGAGACGAGCAGCGGACGA autosomal
AATTCTTTCTTTTTCCTCCAATCTTCCCTTGTCATTTTCTTTGGCTCCTC autosomal
GGCGTCAGCGGGCTGGGCCTGGAGCTGCTGCCCCCCCCCGTGGGGTACCC autosomal
CCTTGCCAGCCCGCTGGCATTACCAGCCCACCTTGCGACAGCGCTGCGTC autosomal
GCGACGGCTCCCAGTTGCTTCTATCATCTGCGTGCTCCTGATACTGGCCC autosomal
ATGTACTTCCCCAAGCTCATACCTGGCTCATGTCATCTTGCTGCCTCTGC autosomal
GGATCGGAACCGGGAACGGGGACTGGGAAACCGGGAAACCGGAACCGGGA autosomal
GCCGCCTGGCCCGGCCATGGACACCAGCGACTTGTTCACCAGCTGCAAGA autosomal
ACAGACTATCTAACAACACGTGTACCCTTGCTGAAGAGCTGCTGATATTC autosomal
CCTCGGACAGCAACGAGGCCGAGGATGCCCAGCTCGAGGAGCGCCTGTCC autosomal
CTCACCCAAAAGCATCTCTTTCCCCAGCACTGTGTGTGCCATCCACCCTC autosomal
CCAGTCCCGTGTCCCGGTGTCCCAGTCCCGTGTCCCGGGGTCCCGCAGTC autosomal
TAGGAACACCGGGAACGCCGAGAGAAACACCGGGAATGCCGACAGGAACA autosomal
CATCCTGGCCCCCCGGGTTGCGAAGGGAAGAGGCCGGTGGGAAGCGGTGC autosomal
ACAGCGCCTCCCGCAACCACCGAAACGGTGAGAGGGTCAAAAGCCTGCGC autosomal
CAGGACTACAGCTCCCAGAGCCGCCCGCGGGGCGGTGCCGCGGCCGCTGC autosomal
GGGAGAGCACACAAACCGGCCTGCCAACACCGTCCCTACCACTCCGCAAC autosomal
CACAGATCCGGGGGCCGGGCGGGGACACAGTGGGAAAACACCTGGGGCGG autosomal
CCCCCCCGCCCCGGGGCGCTATGAGCCATGAAGCCGCCCGGCAGCAACTC autosomal
AACACCAGCCAGGCAGGGATGGGCATCACACAGAGACTCTGCAGGACCTA autosomal
CGTCACCGTGCGGCGGGGTGCGCAGCAGGTGCGGGTGGCGGCGCGAGACG autosomal
AAGTGAAGGCAGAGCAAGCAGCAGCTCACATCATGGCTCCCTTCCTGCAC autosomal
GGCGAGAGCGGCTGAGGCGGCGATGGCAGCGCCAACGACCCCTTCAAACC autosomal
CGCGCTCGCCGCCAGCCACTTATATTCCCCGTCCCGCTGCACGCCGGGGA autosomal
AGGTGGGGAAGGTGAAGGAAGAGCTGGAAAAGGGTAAAGAGATGCTGAAA autosomal
CTGCCGCCGGCAGCTGTAGCGTGTCCCCAGGAGCCGGGGACAGGCGGGCA autosomal
CCAGCAGCAACTGACCTTTTATCACACCACAACTGTCGTGTCCAACCTGC autosomal
GCCCGCTGCCCCGGCAGCTCTCCCGAGTGAGCCCCGCACTCCTCCCGAGC autosomal
AGCGTGGCTGCGGCTGGGCTGGTCCAGGGAGGGACAATAAAGCCAATCCC autosomal
AATACACACTTTTGGCCTTTTCTTGTAACAAGTGTGGCTACAGATTCCAT autosomal
CGCTTCCGGCCGGGAGCGAGCCCCCCGCGCGCGCGCGCGCGCGCACCACC autosomal
AACGTGTAGGAGTCAGTCATAGGTAAAAACCCCTATCACGATTAGCATTA autosomal
AAATGTTTTTGTCTTTATCACTGTTGTGGCAAAATCCAGTTTTATAGCAT autosomal
ACTCACTCTGTGCTGAACTGCAGCCATCAGTTCAGGTGCTTTTCTGTCTG autosomal
CCCGGTACTGCCCGGCGGCGGCGCTGCCCACGGGTCCGGAGCCGAGGCGG autosomal
CATCTGCCTGGCTGCAGTGATGGAGTACATGGCAGCAGAGGTGCTGGAGC autosomal
ACCTCTCTGCAACTATGATTATTCAAAGTCAGGGATGGAATCAAATGCAC autosomal
TGGTGGAAGGTCTGTGCACCCAGCAGACTTCTCCTGGTGGGATGTTCAAA autosomal
AACTGAACAGGATTTCTTATCTTCCATAATTTATCTATTTCATGTCTGAA autosomal
CGGAGAAGCCGCCGCTTCCGCCGCACCGCTCCCCGCCGCTCCCTCCTCCG autosomal
GGTGCCGCCGGGCCCCGCGCGCCTCCTTCCCCACGCCGCCATCTTGGAGA autosomal
ATGGAGGCTCCCGCCCGCCGGGACGCCCGCCCCAGCCTGGAATGTCCTGG autosomal
AGGTGGTTTTGCTGGTGATGGCATTCTTCTTTCTGGTGACGAGAAAGTCA autosomal
GCGTTCTGCCCGCTGCCACAGGGGCTGGCGCGGCTCCTCCGAGCGCGGCC autosomal
GAAGTTGGGGAATAATGAAGGACAGACTTGCCTGGGAGAGGATAGAAAGA autosomal
CGTCGGCTGGCGCGGGATAATCGGGATAATCGGGATAATGGCTGCGGAGC autosomal
ACACGCCGCCAAGCGGAGGAAGGTGCTGTGCTCCGAGTTCACCGCCATCA autosomal
CTACTCGGACATCGAGGAGCAGGAGGACGGGCTGCCCCAGCGCGGCGGGC autosomal
ATTTAGTTGTTCCACCTCAGTGATTCCTCACTCAGCACACCTGAAAGTAG autosomal
CAAGCTGAGCTCGGGGGGGATCCGGGGGGATTCACTGGGCTCCTTGGCAC autosomal
GCGTGGCCGTCTTCTCCCTCTACTTGATGCTGGACCGGGTACAGCATGAC autosomal
GACGCTGCCCGTTCTCTCTGTCCCCAGCGCACCCGCGGGTGTCCCTGGGC autosomal
GCCCCCCCGTACCCCCACCCCGGCCCTTTCCGCACCCCCAGTGCCCCTCC autosomal
ATGTGCCAATAGAGGCCTGCATCTCAGTGGGAATTGCAGCAGCAAGCAAC autosomal
AGAAGGCCCATCTGGAGGGGCGGCTCCCCCTCCTCGGCACTTGGTCAGAA autosomal
ACACCCTTTCCTTGGCCCCAACATCCCCAAACCCCTTCCCAGCCCTCCCA autosomal
CGCCGACGCGGATCTGGTGGTCGTGGTTCGTCAGGATCATCCCCTCCGAC autosomal
CGACCCCCATCCTGGGCAGCGGGGACTTTTCCAACAGGCAAAAAACACAC autosomal
ATCGCCGGGGAGCGGAGCGCGTCCGGCGGCGAGTGTTGCACATGCAGAAG autosomal
CGAGTGCATTTTCGTGCAGCGCTGCACACGCTGCCGGCCCGGCCCGGCTC autosomal
ATTCTGGTGAGGACTGTTTGAGCCTGATGGCCAATCCAATCCACCTGTGG autosomal
ATGCAGTCCCGGGCCTTGTAGTCTGTTTTCCTAAGGAAGTGAAGCTCCTG autosomal
CCACGGCCACGGCCATCGCGGTGCGGTGTCTGCGCTGCGCTGCCGCCCGC autosomal
GGTGCTCGGTCTGCTCACCTGCTGCTGGATTCGGGATCTGGACACACTGA autosomal
ACTCCCACCCAAAACAACCAGGGCAGAAGAACATGGGCTGGGGAGAAATG autosomal
TGCCAGTACCTGTACCAGTACCGGCGCGGTCAGTGCCGGAGGCGGTGCCA autosomal
CACCCGGAAACAACAGGAATTCACACCCAGGAAACTGGGATTTGCACCCG autosomal
GGTGGGCAGCGATCTGGTTGCACACACTGACACAGTATCGGAGCAGGTCA autosomal
TGAGTTTAAGATATCACCAAAAGCCACCTCCTACTTCCTCAATGCAAACA autosomal
CCGCGGGCCCCTTCAGCCTCAGGGAGGTTCTGGACGCCTTCCGGAGGTGC autosomal
GTGGCTATGCTTGTGGGATAGAGAAAAACTTGCCATGGTCTGAAGGAAAA autosomal
GTGTCCGGTGAGTGTCCGGTGGTGTCCGGGAGTGACCGGGAGTGTCCGGA autosomal
ACCAGAACTGTTTGGATGTCATCTCATCTGGAGGATGGCACAGGAAAACA autosomal
CGTCCAGGGGCTCCCTACCAAAAATCCTGCCTGGCCGAGCCATGCCGAGA autosomal
CTGCCCGTCTCCGCTCCGGGCCGCTCGGGCATTTTCTCTCTGCCTTAAAG autosomal
AGAGCCCCGCCGCCCGCCCGCCCTCCTCCCGCCGCCCGGCCCCGGCCCCG autosomal
CAGGTGCAGCGAGAGCTGCAGCAGCGCCAGCGCGCCCAACAGCGAGCTCA autosomal
CCGCAGCGTGAGCTGCACCAGCGAGACGTGCGAGGAGTCCATGCTCTGCA autosomal
CCCGCCGCCCGCATGGACGGCAGCGGGGGCAGCCGCAGCAGCAGCCGCGC autosomal
ACATCAGCGGCATCGTGGACGTGGCCAGCCAGGTGGCGCTCTACACCTTC autosomal
CATGGGAGTGGAACAAAGGGGATGCACCGAGCCAGGCCCGCTTTCGCCCC autosomal
CGGCGGAGCGCGGCCCCGGCGCGGCTTTTCACATGTTCGTGCTCATGGAG autosomal
CACATCCTGGTTCTCCACGTTCATCCCGGCGAAGTTGCGGTGCCCCGCGC autosomal
CAACCCAAATCTCTGTTACTTGTTCCCAAACTGGCTGAGCTATAAAGCCC autosomal
CCGGGAGCTGTCCGGCGCCTGGAGCCGGACGCGTTACGCTCTTCTTTGGA autosomal
CGGGGCCCTTCGGCAGCGGCGGCGCCGGCGAGAGCAGCGGCGGGAGCGGA autosomal
ATAAGTACAAGTATTTTCCTCAAGAGAAAAGCCCAAGCTATGCCTGTGAT autosomal
CCGGGGCTGGGTGCGGAGCCGGGACTCGGTGTGGAGCCGGGGCTGTGTGC autosomal
CCGCCGAGGGCAGCAAGCCCAGCCCGGCCGCCGCGGGCAGCGCCGGGCCC autosomal
CCCGGGAACCGGGGCCGTGGGGAACGGCGGCAGCCGGGGTGCGCCCGGGA autosomal
CAGCACAGATTCCAGGCCTGCAAGAGACAAGCCTCCCTGCTGCTGGATCA autosomal
CTCTCAAGGCAGTGATTTGGTCTTTAGGATCAATACGAGGTGGAAGGAAG autosomal
GCAGACATGAGGCTCCAGCTGCTGCTTTGGATCGTGGCTGTGCTCCTGGC autosomal
CGCCTCGCCTCCATCCCGGCCCGTCCGCCGCCACCTGCCCTCCCCGGCCC autosomal
AATTCCTTTGCCTGTTATTCTCAATGCTGCATCCAGACTGAAGCATCATC autosomal
CGCCGCCGCCGCCGCCAGCAGAGGATGGGCCCGGCTGCCTCACCGCCTCC autosomal
AAACCAAAACACCTTTTGGCTTCAAGCTATGAGTATATTTTTGTGATGAT autosomal
AGGCGGCCGCCGAGAGCCGCCGCTGCCGCCGGAGCCGCTGCGCCCGCCGC autosomal
AGGCGGGAAAAGGAGCAGGGAAAGGCAGGAAAAGGAGCAGGAAAAGGCAG autosomal
ACTGCCTGTGCCGCCTGCCCTACGACGTGACCCGCTTCATGATCGAGTGC autosomal
GGGATTGAGGCGTGGGATTTTGGGATTTGGGCCAGAATTTTGGGACCTGA autosomal
CTCCCCGGCCCCTGCTCCCGGCCCCCGCCGCGGGACGAGGAGGAGGGCTC autosomal
AAGGACTGTTTGACCATTTCCATGTGTGCCAAGGAGGACAAACACTGTGT autosomal
CACTCGGACTGAGGGACAGCGGCGGAAGGAACGAGAGGGCGGTGAGGGAC autosomal
AAAGCTTGAATCCGTTCAGAAGACTTGAAAAAGTAAAGCAGGAATATTAT autosomal
CCTCGGCGGCCTCGGGGCGCGGCCGGGCCGGCAGCGCGCTCACCTCCCGC autosomal
ACGCTGCTTCCCAGAGACTGTGGCTAAGTGGATGAACTCAGCCTTGAAAA autosomal
AGCTGACCACCAGGCTGGTCTTGCCCACGGCACCATCGCCCACCAGCACG autosomal
AGAAATAAAAAACAAAGGTCCGGAGACCTTAAATATTGCATTTAAGGATG autosomal
ATCATGAAGCGGCTCACGTCGTAGGGTTCGCGGCACACGCAGTACACGGG autosomal
AAAAGAGGGAAAAGGGCAAGAAAGGGGAAAAAGGTGAAAATGAGGAAAAA autosomal
CCCAAACTGGTCCCAAACTGGTCCCAAACTGGGATCGCTCCTCTCCATCC autosomal
ACACAATGTGTCAGTGAAAGTGGAGGCTCAGGGAGACGACTGGGACACGG autosomal
TTAAACTAATTAAAATAAAACTGGATAGAATTAATAGAAAAAGCCTCAAA autosomal
AACTATGAAAGTAGGGTGCTGTACACTACTTCCCATTCCTGAAAGCAAAT autosomal
CACACCTACTCCATGCGCTACGTGCTGCCCGCCGCCGTCATGATGGGCAC autosomal
AAGATGCAGATGCTGAAGCTGGACAAGGAGAACGCCTTGGACAGAGCCGA autosomal
GCGGCGTCACCGCCTCCACCAGCGCCTGCCGGCACACCGGGCACTCGGCC autosomal
GAGAGACCCGCACCCACATCTGGGCGGGGAGAAGGACCCGCACCCACACC autosomal
TAACAGCAGAGAGAGACAGGTCCTGAGCTTCAATGGTGACAGTCTCTCGA autosomal
GGGAGCCCCCCGGCCGCACAGGATGAAAGTCACGGTGTGCTTCGGGAGGA autosomal
GGGCGGCATGCCGGGGGCGGCAGGGCGGTAGTGGCGGAGCCGAGTCTGTA autosomal
CCGTCCCTCAGAGCGCCGCTCCCACTCTCTCGCCGTCTCTCGGCGTTTGA autosomal
CCGGCGGCGGCGGCGGCGGCTGGACGGGCCCGGGGCGCCGCCATGGAGAG autosomal
CTCTCGGTGAGGAGGAAGGCGGGATTCTGCCTGGGAAAAATGAGAGTAGC autosomal
CCGGCTGCTCCGCATTCCTGCCCGGCCGGGGAGAGGAGACGAGAGGAGAG autosomal
CCTGGGCACGGAGACGATCCCCGCGGTGAGGCACGCCAGCAGCGGCACCC autosomal
ATCGAGCCAATCAGGAAAGCAAGGAAGGTGAGAGCCCCTCAGCATCACTG autosomal
CAGTTCCCGCTGGGAGAGAAAGCCAGACTGGCCTGCCGGAGGGCGAAGGG autosomal
CTCGGCGGAGGACGAGGCCACCGAGGCGCTGTCCGAGTCGCGGCCGCGGC autosomal
TTAATGAGGAATTACTCTCTCCACAAGGATGATGTATGTAACTAGAACAA autosomal
CATCTCAGGACTCCGAGACCTGTGTATGGTCATGCACAGTCAAATGAAAG autosomal
AAAGTCTGTCACACAGCATTGAAAAATGAGATGTGTCTTTCTGGCCATCC autosomal
AGCTCCAAATCTTGACTTAGGTTGGCCCTATCTGATGCCTGGAATTTCTG autosomal
CCAGCCGCAGGTGGCAGCTCGGCGCGCTCCGGTCAGCCATGTCCACCCGC autosomal
CAAAGAGCTCTGGAGGAGGAGCAGGTCCTGTGTGACCGAGGTGGGCACCA autosomal
TTATAAGATTAAGGTAGACTACAGAGACACATACCTGAATTTTCCCTGAA autosomal
GCTACCAGCTCCTCAAGGCCATCAAGCCCATGGTGGAGAAAGGCCTGGCC autosomal
GACCGGGACCGCGGCCGGGGGACCTCCGGGACCACAGGGGACCTCGGGCC autosomal
CCTCTCCCTGAAGGCTTCACTGAAATAGAAGTGTTTGCCATTGGCACTGC autosomal
CGGAACGCGCGGTCCCGCTCCATGGCAGCCCCAGGGCAGCCCGGGCCGCC autosomal
AAGAGCGTTTGCTACCGCAATTACAACGACACCTGTGAGAACGAGCTGTC autosomal
ACAGTACAAAATTTTCCACCCACTCTTACGCTTTCAAAAATGGTCTCTAA autosomal
AGACAAGTATTTACAGAGGAAAAAATAATAGTTTTAAAATATTAAAGCCT autosomal
AAAACTTTTATACAACTTACATTTCTCTTTGAATCTTTTATTTCTGTAAC autosomal
CGGGCGGGCGCGGCGCTACGAGAGGCCGGGGCGGCGTGAGGCGGTCGGGC autosomal
GAACCTTCCGCCGGTTGCGGAACTGCCGCTCGCTGTGCTCCAGGCGGCTC autosomal
CCCGGCGTGCCGGAGCTGAGGGGGCCGGTGGGCGCTGCAGGAAGCCCGGC autosomal
CCCCGTTCCCAGCCGCTCCCGGTTCCGTTCCCTTTCCGCGCTCCCGGTGC autosomal
AGCTTGGGCAGCACCTCCTCTCTGTGGGGGCACAGAGAGGCACACTTGGG autosomal
ACGGCGGCGGCGGCCGCGCTTGGCGGCGGCGGAGCGGGAGCTGCCCAGAC autosomal
GCCGCAGCTGGGCCAGGTCCGCGGTGGCGGCCGCGCTGTGCAGGTCCGCC autosomal
CCCCTTGTCTCCTCGTCCTCCATCCCTCCTCCTCCTCCTCCTCCCCTCCG autosomal
CGGCTGCAGCGACTCCCCTTTGTGTCTGGAGCCGCCCGTGCTGTTGGGGC autosomal
AGGAGGAAAAGTAAAGAGTGAGACCAACTTTCTCAGAAGGTATTTTTACA autosomal
AAAAGTTAACTGTCAGTTTAAAACAGCCCTGTGAACACAGCTGCCTGTAC autosomal
GTAGGAATACACAATGTAAACAAATGTATTTAACTGGAAAACACATCATA autosomal
TTGAATTAGATAAATTTGATACAAATAAACATATCAAATAGAGCTGTAAA autosomal
CAGATTTCAGGGACCAGATCCAGCGTTTCGCCCTTTATTTCCCCCCTCCC autosomal
GGCCGCATCGCCCCCTCCCCCACTGCAGGGTCTGGGGGGCCGCATCCCCC autosomal
ACCCCTGACTCGCGCTCCACACGCGCACACACTCACACGCACACAGACAC autosomal
GCGCGGGCCCCGCCGCCGCCGCGATGGTGAAGGAGCAGTTCAGGGAGACC autosomal
ACTCCAAACCCGAATCGTATTTGAACATTCACACCCACATCTCCTCCCAC autosomal
CCGTCCCGGCCCCTGAGGAGCGAGCGGAGCCGCGCTCGGTTCCAGCGCCG autosomal
GGCAGCAGGAGCCCGAGCCCCGTCTCAGAGCTCCAGCGGAGCCCGCAGGA autosomal
CGGGTTGAGCCGGGGTGGAGTGATTGTGGCTAGCAGCAAACATGTCTCTC autosomal
AGGGCGTCGACCCGGATGCCCGCGGCCATGGCCGCCTCGTAGCTCCGCAG autosomal
ATTGACCAGCAAAATTCTCTTGGTTGCCCTGGCTGTGCACACACAGCATC autosomal
AAAGCATGACATTTTGGGATTAGTTATTTACTAAAGATCTTGCATTTAAA autosomal
CGCGTGAATGCTGCCTGAAGCAAAGGGGAAAGAAACGAGGCCGGGAGGAA autosomal
CTTGACGTAGAGCAGGGGGTGGCTGGCGGCGACGAGCCCCGCGCCCAGCA autosomal
AAACCTACAGGAGTCATTAAATGTAAAAAGAAAAACTTTTAGTACATGGC autosomal
CGCGTCCGCCGGGCTCCCTGAGCGCGCCGGGTCGGGCCAGGCCGGGCGGA autosomal
ATGATGACACTGCTTGAAGGGAAAGGCCACAGTATTCTAATGCAGGTAAT autosomal
ACAGAACATTTATCTAGATGGAAGAAATGGAGACGAACTAGCAGTAAATC autosomal
CAGCATTCTGGCAGGAGAAAGCGATGTCAGTGCCGACCACAAAGCAAGGG autosomal
AGGCGCGCTCCCGCCGCGGCCGGGGGCGCGCGTGCTCCGGGCCGGGCAAG autosomal
GCACCTGACCTTAAGCTAGAGAATGGCAACTTTTTAAGGATTACTCATTA autosomal
AATGATACATGGTGGTATGCACCAGTATAAACCAGTATAAACCAGTATAA autosomal
CGGGGAGCTGCGATTGCGCTGCGGGGGACGCGCCTCGCTCTTTCCCTGTC autosomal
GAAAAATGGGGAAAAACTGGGAAAACGGGGAAAAACGGGAAAAATGGGGC autosomal
ACTGCGAGCCGTAGTGGTGCGCCGCGGCCTTCAGCACGGCCGAGCTGACC autosomal
AGAGAGGAGCCAGCAGGACAGGAATGGGGAGCTCCTGGTGATCTGGGCAC autosomal
ACCGCGGCTTCTCTTCGCCGCGGCGCTGGAGGCGGCCGTGCCCGCAGCGC autosomal
GATAATATGCAGAGTGGCTGGTTGGAAGATGTCACCACTGCTGAATAGCC autosomal
CGGTCCCAGTCCAGTCCCAGTGCCAGTGCCAGCCCAGCCCAGCCCGGTCC autosomal
CCAGCTCCGTCAGCTGCAGCGCCGCGCTGAACCGCGCCGCCATGGCTGCC autosomal
GGGTGGTGCCGGCGGCCCCGGCAGGGTGTCGGCCTCCTCCCGGCTCGGGA autosomal
CCGCACAGGTACGGGGCGGGCCGCTCCCCGCTCCTCTCCTCCCTCTGGGA autosomal
TCCATTTAAACACTCATTTTAACTAATGACCCATGCAATTGCTTACAGCA autosomal
CACACTAATAGCACACTGTGGAATGTGGGATACAGAGGCAAGGGAGGGCA autosomal
CGCGGTTACGGCGGACGCCGCGGCCACAAAATGGCGGCGGCCGCCGCGCC autosomal
CTCGGTGGGGCCGGCGCTCAGCAGCTTGTGCTCTGCGGGACAGGGCAGGA autosomal
CGGTGCTGCGGTGCAGCAGGATGGTGTGGAGCATGGCCAGCATGGCCTCC autosomal
CAACCCACTTCTGACCACAGGCTCTGCCTCTCACCTCCAGTCCAGGTGGG autosomal
CCGCGCTCACGACGCCGGCAGTAACGGCGGAGCCAGCACCGCCATCTTCC autosomal
CAGCCCAGCTGCAGCTCCTGGAGGAGACCCTGCGGAAGAGCCTGCCCACC autosomal
GCCATGGTTATTACTCTGAAGTTTCTTCCTGGGTCTGGGGCTCCAGCAGC autosomal
CTTCTGTCTGCACACCTGCTAGCATTAACTTACATTCACTTCCTCTGGAA autosomal
CAGCTCCCGGGCCCGCTTCACCAGGAACTCACAGTCCCCCTGCGCCGACA autosomal
AGGCCTCACCCCCCGACCCCATCCAGGCCCGGACATTACCGGGACGCCAT autosomal
ACCCCGCTCCCTACTTCCCGCCTCCGCGGGTCACGCTGCCCTCCGGCCTG autosomal
CGGGGCGCAGCCTCCCGGGCCGCAGCGGGGATGCGCCGCGGATCCCGGCC autosomal
CAGCCCGTAAATCACCGGCGCGTCGTCCTCCATCGCGACACCCCCAGCCC autosomal
AGAGCCACCGGAGCATGGCCGGGGCGCGGAGCTGCCGTCCCCCCGCGCCG autosomal
GCTGCCTCTCCCAGCCCCAGAACCCACCTTTTCCTTGCCTCTGAGACCCC autosomal
ACGTGGTAGCCCTCGGTGCCGCCGCCGGGGATGTCGATGCTCTGCGAGGC autosomal
CGATGGCGGCGCGGAGAGCCCGGCGGCTCCTCGGCTCCTTGTGCATCGCC autosomal
ATCTGTCTGGCTCAAGTGTAGCAGTCGCAGTCTTTTACTATGTTTGCCTA autosomal
CCAGCTGCCCGAGCTGGAGCGCCGCGGGCTGCCCGTGGCCCGCATGGCGG autosomal
AGCTATTTGAGCAGGCTGCCAGGGAAATGATTTGCATTTAGTAGAACTGC autosomal
CCGGTCCGACCCGCCAGGGGAGGCCCCGGGAGGCCCCGACCCGGCTCGAC autosomal
ATTTTAATCACGTCTGTCTGCGTAAGCTCCGGGCAGCGCGATCCCGGCCC autosomal
CCACATTCCTGGGCGTTGTGGTGCCCACGCTGCTCTCCATGTTCAGCGTC autosomal
CTTCTCGGTGGTGAGTACAGTGCTCAGTCCAGGCTTGCCCTCTGTTTCCC autosomal
AGCGGAGGAGGCTGTTTTGGAGGTTGCCACCGCTCCTGATGGATGTTTTG autosomal
TGGGGAAAAAAAAGGAAAACACCCCAAAAAAACCCAGCAACAACAAAAAA autosomal
CAATGCTGGTCTATGGGCGGCGATAAGGGGCGATAAGGAGCGATGAGGAG autosomal
CGGCGGGCCCCGCTGGCCGCACACCCATGCCGCGGAAAGCGCTGCGCTGC autosomal
CCCCGCGCAGGCGCCCCGGCTGTCGCGGCCTCGGGGCCGCCGGTCCCCGC autosomal
CGCTCTGCAGGCAGGGAGAGGCAGAGCCCGGCTCTCCGTGCCACCACTCC autosomal
AGGGGTCGCGGGGTCCCCGGGCCGGCCTCGCCGCGGAGGCTCCACCAGCG autosomal
CTCCCCCATCGCAGCACCATTAATTCACCCATTAATGGAGAGGATTTCCC autosomal
CGCCCGGCCGGGGAGCGCGGCCATGGCGGGGCGGAACGCGGGCACCGAGC autosomal
CAGGATCCTTCAGCAGGAAGTTAGGTGTGGTCTGTAAAAGGAGAAAAAAA autosomal
AGGAGCAGAGTGGTGGGGCCTGGGGAGGCCTGCTCGGGTGGCAGTTCTGG autosomal
CTGGCCCTGCTGGCCCTGCTCCTGCCCGCCGCCGCCGCCGGCCCCGGGCC autosomal
CGTGTGAGTGGAGCCGTACGCTGTGGCGGGTGTTGAGCAGCTTCAGCACC autosomal
CCGGCCGCTCCCGGGGCCTCTTCGGCCGCCTCGGCCCCGCCGCGCTCCCG autosomal
CGACACTCGTGCCTGTTCCTCTCCACGGAAATCTTTAGTAAAAGGCGAAA autosomal
GCAGAGCCCCGCGGCGATGGCGCTGGTCCTGCCCACCATCATGGCGCCGC autosomal
CTGTGGCGGGGCCATGGGGCCGGGCAGCGGCAGGGCACGGAGCCCCCTTC autosomal
AGGGACTACTGGCAATTGTTCTGCTGTATTGTGCGGTCTTAATTTCTCTG autosomal
CCACCAGCAGAGCTGGGCTGGGGCTGCACACCCACGCCCTGCCCCGGCTC autosomal
ATTCCCACGCCCCTCCCGGGACCCCCCGGTTTGGGGGGGGTTTGGGCGGG autosomal
CCGCCGCCGGAACCGGAAGCGCTCCCGGCATCCCCCGCGCTCCCCCCCCC autosomal
GGCGGGGGCGAGGGGCCGGGGCCGCGGCGGTGCCGGGCAGCTCGGCGGGA autosomal
ACCCAAGACTGCATCTGGCAGGATTCTTCCTTTTCTGTCTCTCTAGTTTC autosomal
AGAGAAAGCTCAGTTGTGGTTTTCCAATATCAAAGCCTTCCCAAGGAGGC autosomal
AACAAAGCCACATACTGCCTGGAAATCATGATGAACCCTGTGAGCCAGTG autosomal
CCCCGGCACTGCGGCTGTCGGGGCCGGGCTGCTCGGCTGCCCCGGCCCGC autosomal
CACATCCACGCTGCTGCCTTTGACACGCTGGAGAATCTGCTGGAGCTAAA autosomal
CTGCATCCTCCCCATCCGTCCCGCTGTCTCCTCCCAGCTGTGAGCCCGCA autosomal
CCATGGCCGTGGGCGGCGGGCCACGATGACCGACTACAGCGAGGAGCAGC autosomal
ATCCCGTTCCAGCACCCCATCATGTTCACTCATCACAAGCCAAGTGGGAA autosomal
ATTAGTTTTTCTGATTTCACTATAAACTGTTTCAGTCCCCTTCTGTTCAG autosomal
CGCCGCCGCCGCGCCGCTGCCCTCCGAGGACATGGTGCCGAGGCAGCGGC autosomal
ACAAGTTTCTCCTCCCGCCCCCTCCCTCAGCCGCTCGGGCGACCTGTGCG autosomal
CCAGCACGGCCGAGACCAGCACCTGCTGCACGGCCGAAAGCGCCATGGCC autosomal
CTGTCCATAGCGCCAGAGCGGGAGCGGCCCGAGCGGCTCTGGCTGAGGGC autosomal
GCGAGCGGGCAGGACCGGGGACAGCGGGCAGAACCGGGCGCCCCGCGCGC autosomal
CTGCTCCTGTCCCAAGCTGTGGCCGAAGTAACCCATCATGCCAGGTCCCC autosomal
GGAAATGCAGTCCGGCCCCAATGGGAAATGCAGTCCGGCCCCAATGGGAA autosomal
AGCGACTTGTTGACAGCAGGGCTGTGGTGGTGACATCGCGGGGGAGTGTC autosomal
AAAGAGAAGGACCCGCGTTCGTGGTCCTGCAGTGGTTTTCCTGAGCCCCC autosomal
GCTCAGCCCGTCAGGACGAGCCTGTCCTGGAGCACTTTATCTCGCTGCCA autosomal
AAAAAAAGCCAAAAACTCCTTGACCCACAAGGAGCTCATGAGGAAAAGAG autosomal
AGGTGGCGCAGGCGGTCGGCGGTGCCGGTGGCCAGCAGCCCGGCGGAGGC autosomal
CCGTGGGGCCGCACTGGCGGAGCAGCCCCGAAGTTTGCGGGGCGGCCGGC autosomal
CGGCGGGGCGGTGCGCAGGCGCGGCGCGGGCGCAGCCTCGCCATGGCGGA autosomal
CAGATGGCGTGCGGGAAGAGGCTGCCCGCGAAGTCCAGCGCCACGCACTG autosomal
CAGAACCAGAAGAAAAGCAGAGGAAAGGTCAGCTCGTTCACCAGAGGAAC autosomal
AACGAGGAGTTCCGCCGCGGGCAGTACGGCCCGGCCGCCGAGCTCTACTC autosomal
TCAGCTATTTGATAGTTGGGAAATCTAGATGAGACTGTAAGTTATTCCAA autosomal
ACCGGCCCGGCGGCGGCGGCGCCCCCCTGCCCGACCCCTCCTTCCTGTGG autosomal
AGTTTTGCATAGTTGCACTACAAGAAGAGAGTGGTTGTGCAAATCTATGC autosomal
AAACCCCGGGACCCCAAAATTCGGCTTCGGCACCCCAAAAAACCCCCAGG autosomal
AGTGGGGCCGGATCGCCGCCGTCAGCGGCGGCGCGGGGGGCGCGGGGAGC autosomal
CGGGTCCGACTGCTCGCCCCGGGAAAGGACCACAGGGACAGTCGGGACCG autosomal
CAGCCACGACTCCAGGCTCTCCCCCTCAGCCTCCGCCATGTTGCCGGAGC autosomal
CAAGCACCGGCCCGGCGCCCTCGCCCGCCTCGACTTCCACCGCGAGCAGG autosomal
ACCTTCTGGGTCAGAAGATGCCCTGTACAAAGTACATGTTTGGCCCCACT autosomal
AGTGCTACATAAATGCACCTGAGCTGCACATCTGAATGTGCTGGAGCCTG autosomal
AGAGGTAAAATGTTTCTGTATAATGGCCTGGTCCTGCTGTCCCTGCTGCC autosomal
CAAGCTCAACTGCATCGACTTGTCACATCCCCAAGCTGAGGCTGAGCTGC autosomal
ATGTGCCTTCGTGGCTCAGCGACGGGTTTAGGTCTCCCCCTCCTGCCTGG autosomal
CGTCTCCACGCTGACCGCTGGCACCTTCCTGCCCTGCTCCTGCCTGGGAA autosomal
ACATGCCCAGCCTCACAAGGTGCTGTGGATTAGCTCAGTATTAGCTGGTA autosomal
CACACCCTCGCAGCTGCAGCAGTGCCGGGACCGCCGGAGCTGAGGCTGCA autosomal
CGATGCACGTGAAATTTTGAATTGTTCATGGATGCCAAACGTGTTCTTTA autosomal
CCCTAAGATTCCCTAAGCAATCCAGAATGGCCAGAGCCAAGTTTTATAGC autosomal
CAGCCCGCCTGCCACTTGGTACCAAAGTGAACTTGCCAGGATCCCTCCTC autosomal
ACTAATTGACCGAAGTTACTCTTTTGGTCTCCCGTGGCTCTGGTGAGAAG autosomal
ATGAGCTCCTTGTGATGCAAAAAACTACGAAGCACAAGATAGCAGTGGAA autosomal
GAGAGCACGGCGGGGGATGGCGGCGGCGGACCTGCAGGAGCTGCGGGCGC autosomal
CCGGCTGCGGCGGCGGCTGCTGCTGGAGGTGCCGTGGCGCTGGCGCTGCA autosomal
CATCGTGGCGCGTCCGCGGGGAGCGCGCGGACGGACACAGCGCCCTACCC autosomal
CCACACTCAGCCTCACACCTCAGCTTCAGCTGATTTTGTGTCACAGACAG autosomal
CGTTCTGCATTTCAGGAAAGAGATGGATTTTACGGTCAGAGAATGCTAAA autosomal
CGAGGCGGAGGGGGGAGCGGCGTGGGGCGCGCGCGGGTTGAAGTGCCGGC autosomal
AGTTTCCTTTTAATGTGTTTTCACTTGGTCAAATCTGAGTTTGATTAAAG autosomal
GCACAACCGGCCCCGTGCAGCGCCAGGGCCATGGCGGCACGGGCCAGGCC autosomal
ACAGCTTTGGAATCACCCTTGACTTGAGGTAGCTTCAAGTCAAGTTCAAA autosomal
ATGTCGGAGCCCGGCGCCCCCGCGGCCGGTGATAAACCGACCCGGCTCCA autosomal
CTGATTAGAAGGTTTCAGGCATCTGCCCATACAGAACACCAGCATACCAC autosomal
CAAGAAGGAGTCAAAGGAGCCCTCAGGGACACTCCACTGCAGCTGCACAG autosomal
ACGTGACGGTCCCGGTGCCGCCGCCGCCATGGCCGCCCGCCTGCTGCCCG autosomal
CAAGCCCAGGAATGGGCACACCAAACCCGGGAATGGGCAAACCAAACCCA autosomal
GGGAGCCACTGGGGACCCCCCCCAAAAAAACAATCCCCTCAGGGACCCCC autosomal
CTTGAATTTGGGGATGAATTTGTCGCCGCGCAGGATCTCGGCCTCGTTGA autosomal
GAAGGCAGAGCCGGTAGCAGCAGCAGCGGCGGCTGAGATTGCCCGGGCCC autosomal
AAACCAACGCCCAGAAGAGCAGCGCCCGTGCGGCCACCATCACCCGGCGG autosomal
ACGGGGGTCTCGCATGGGCGGCGCGCCGGGGGCTCCGGCGCGGCGGGCGG autosomal
CTGAATTTCTGAGAACCAAAGCTGCAATGGATTTAGTGGCAAGCCTTAAG autosomal
ACAGGAAACTGCCAAACGGCCAGTTAAACTCATTTTTGACATTCTCTGCC autosomal
ATTTCCCCATTTTTGGGGTCAATCTCCCCAATTTTTAGGTTCCCCATCCC autosomal
TCCCCTAAACGTGAATTTAAAACGCTTTCAAATTGACAACCTCCTTTTAA autosomal
ATGAAGTTCTCCGTGAAGCTCTTCCCACATTCTGAGCACATGTAGGGGGA autosomal
CTCTGCTTCCTGCTCTGCTCCTTGCCAGGTTACAGCCACAGCTTGTGCCA autosomal
ATCGCTTAATCCGCAGCAATTCTCGCTGGCAGCTCCAGCGCGTTTCCCTC autosomal
AGGGGGCGGCTGAGGGAGCCGCCGGTGCCCGTCGCGTCCATCGACCGCCG autosomal
CCCTTCCTCCTCTTCCTGCTGCTCCTCCTCCTCCTCCTCCAGCCCCTCGC autosomal
CGCGGGGCTGCGGCCCCGGGGCAGAGCGGCGCCGGTCCCTGTTACTGCTC autosomal
ACACTGGACCTTCCTGCCGAAAAATGGTCCCTGCACCACCACAAGTAATG autosomal
ATGTCATGGTAGGACAAGAGTGAATGTCCTTAAGCTGAAGGAAGCCAGGG autosomal
ACCTGGCAGCTCTTTTTCAAAGGGGAGCTGTGTTCTCAGAAATTTTTGGG autosomal
CCCGCCACAGCGCTGGAGACAGGGAATCACCTCAGGCAGGCACGGCCTCG autosomal
ACAGTGGCCACCTGCGCCCTTAACCAGTGGGCTCTGGACTTTGAGGGCAA autosomal
GTCTCCTCTTTAGCCACAAAAACATAGGAAAAAGTCACTGATGCTGGACA autosomal
AGAGGTGGGCTTTCTGCCATCAGTAGGCTTAGCAAGTGATGCTATAAGCC autosomal
TACTGTCACTGTGCTGCAAAATGTCTGATCTGCTGGCAGAGGGTGTCACA autosomal
GCCACGGCTGCAGCCCCGGAGACGCGATCCCAAGCAGCATCCCACAGAGC autosomal
AAACGAGCCCCCCGCTGGCGGCCGGTCGGAGCCGGGTCCTGCGGGGACGG autosomal
AGGACAATGAAGAAGGGGAGCCAGCACAGGATAAACATGCCAACCACAAT autosomal
GCCAAGAGCCTGCACGAACTCCCCGCTTGCTCCCGTCCATGGGAGTGGAA autosomal
TGCTCCCCACTGCTCTGCAAAGCCAGCAAGAAGAACACAGTGGAGGCCAA autosomal
AGGAGCATGGGCACTTTGCGGGATTTACAGTACGCGCTGCAGGAGAAGAT autosomal
AGTGACGGATGTGCCTGGCTCCGGAGGGACCTCGCAGGAGGCAATCCAAG autosomal
CCACGACGTGCGGAACACGCGCCATGTCTGCGCGCCCCATGGCCCAGCCC autosomal
GCGCTTCTTGCCGGCGTTCTGGCGCTGCTTCTCCCTCATGAGGCGCCGCA autosomal
ACTGGAATAAAAAGCAGCCAGGCTGTCATTCATTTCCTGGTCTAGGGACA autosomal
ACTGGTTTGTACTGGGCAGGGGCTGGGCCCCGAGCCTGCTCGGCTGGTCT autosomal
GTAAAAGCTTGAGCTAAACTTCACAAACAGCTTGAAGAAGCACCAAGAAA autosomal
ATCTCAGCATCCTGGGCAGCTTTTTGTACACCAGTCCCCCTCACATGGTC autosomal
ATTACATCCCCGAGCCCGGCGCGGAGGTCTACGGGCGCAGGGAGCCGGGC autosomal
CGAGCCCGGCCGCGTCCGCCCGCTTCGTGCGGTGCCTCTACGTGGTGGGA autosomal
AGGGCGGCTCGGGGCGGGGGGGCAGCCCCGCCGCTTCACATGGTGCAGCC autosomal
ACTCGGAGCCGGCTGTCCCGGCGGTGCCCCCGGCGCGCCCCGAGCCCCAG autosomal
GAGGGACGGGGGAAGGGACGGGAAGGAGGGAGGGAGGGAATGGGGGGGAA autosomal
CGCCACCGCCGCCGCTTTTCCCGCCTGCGCAGCGCGAACCGCGCGGGGCC autosomal
CTCCAGGGCTACAAAAGGCGCTGCAGCGGCTGCAAATGGTGCGATGGGTC autosomal
CTGGAAAGGAGGTGCAGTTTCAAAGTGGAGATGGGAGAGCTGCTTACTTC autosomal
TGTGGCTGCTTTGTGACTGGAGTTGGAATGCCTGTGTGGAACTTCTGAAA autosomal
GTGGGAAGAGGGGGAAAAAAAATATATATATATAAAAAAATCCGCGTAAA autosomal
GTCTGTGATGGCACACCCTTGGTTTTCTTTAAAATCCGGCAGCACAGCAC autosomal
CAAAGCCAGGGGGGATTTGTCCCTCAGCCTCATCATGGAGCACTGGTGGC autosomal
AAGGCGCAGGAGATCCTGGCGCGGGACGGCCCCAACGCGCTGACGCCGCC autosomal
GACCGCCGCGCCGGGGCTGGCTCCCTGCACCGCGCCATGGGACGCTTGGA autosomal
AGACATGGGAAGGAGTAATCATTTTCTGCATCCACTCCATTCATCAACCC autosomal
ACGTGAGAGGCGGTGAAATACGTGTGCGATAAATCGCAGTTTATCTAAAG autosomal
AGTACTGGTCTTCAGCCAGCCTGAGCTATGCTGTTACACCTTTCAGCTAG autosomal
GACATAATATTTATTTACATGCCCATGGTTCATCTGAAATTTGAGTGCTA autosomal
ACCTCGCTCCCCCCCAAAAAGGAAACTGAAAGGCAGGCGGTCACTTTGAG autosomal
GCCGCAGCCGCTCCGCCGCTCGCTCCCACCGCGCCCGGCCCGTCACTGCC autosomal
ATCATCAAGACTATGTATTTTCAGTTTAAAGGATACATCCACTTTTTCAT autosomal
CGTCGCTAATCAGCGGCGTGCGAGCGCGGGGAAATGCCACCCGAGGTGCC autosomal
GGGACGTGGGCCTGCATGCCCCAAAATGCTGCAGGAGGAAGGAAAAGACA autosomal
GGGGCTGTCAAAGGGCGAGGAAGTCCAAGTGGTGGCCATGTCGGGGCTCA autosomal
CAAGTATTCAAACTTTCTGTCCTACTTCTGTGTGAAGATTGCAATCTCCA autosomal
ATGTAGATCTGTTCTTTGCTTTGAGAGACCATCTGGAATTGCGAAGGGGA autosomal
GAGCGGGAGCCTCTCTCTCTGCCTGACGCGCGGAGCCCGCAGCCAGCCCA autosomal
GCCATGGGCGCGCTGCCGCCTCTGCCCACGCTCGGCGTGCCCGGCGTGCC autosomal
GCCGGTAAGCCAGGTGAGCCAGCTGAAGCAAGCAGGCGAGGACCAGCAGC autosomal
CGCCCGGCCGCTGCCCGCCTGGTTTGACGAGGCGAAGTTCGGCGTGTTCA autosomal
ACAAAAACAAACCTTCCTCAGGGATACCGCAGGGTAAATGCCAGCCCAGC autosomal
ATGGCATTTACACATTAATCCCGAGCTCTGGTAGGGCTTTGGAGATAACA autosomal
GCCTGCCTGCCCGTCCTGCCCTTCCTGCCGCCGCCTCCCGTGACGCCGCC autosomal
CGCAGCTCCGTGAGCACCGATTTCACCTTGTTCCGGGACAACCGGAGCAG autosomal
CTCTTCTCCAAGTACAAAGGCGGCGAGTCGCTGGAGCCGACCTACTACGA autosomal
AAGTGAAACCGCGTCCTGGAGCCCGGCGGCGCCGCGAGTTGCCACGGCAA autosomal
CACGGCAGCCTGGACAAGAGCATCACCCTCCCGCCCGACGAGATCTTCCG autosomal
GACGCGTAAATAATGGAGGACAAGCGGGATGAATGAGCGCAGCGAGCGGA autosomal
AGACAGAGGAGCTGCAGAGCAAAAGCTGAGTCAGGAACAGGCTGAGCCAC autosomal
CAACAGCCAAGGCCCCTGCCCCTACTGCAGCATGGGAAGTCCAGGTTTGC autosomal
CCTTCGTGACCCCGGCCCTGAGGAAGGTGTGCCTGCCCTTCGTTCCTGCC autosomal
CCACCTCTCCCCCAAAGCACCCCCATATCCCCCATCCCTGCCCTGGGACA autosomal
ATGTGGCTATGAATATCAATTTTCATTTTTGAAGTGCCAGAGGAGAAATA autosomal
CCGGCCTCGGGGGGGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGA autosomal
CTTTCAGTCATCTTTGGAACTGGCATGTTGCTCTGGAGTTGTGCTCATCA autosomal
AGAGGATTCACACCGATGAACGGCCCTATGAGTGTGGGGAGTGTGGGAAG autosomal
ACCTGTCTATTCTGCTGAGGTCCCCCATTGTGAACACTTGGATGCACAAT autosomal
ACCGGGTGTGATGCCCCAAAATTGGGTGTGACGCCCCAAAATTGGGTGTG autosomal
ATCCCCAAAGTCTATCTGGGAGCACCAAAATCCTTCCCAGGATCCCCAAA autosomal
CTGCCTTCATATTGCAAATGCGGGGCTGGGCTGGAGAGAGGGAGCGGAGA autosomal
AAAAAACCTTTTTATTGCCAAACATATTCAAAACCTGCCAATAATTTTAG autosomal
CCGCCAGAGCGTGGAACGAGGAGCAGGCGGTGGCCAGGGCGGCCGAGCCC autosomal
CGCTGGCGGGGCCGTGCGGGGCGCGAAAGAGCGGCAGGGCCGGGCAGGGC autosomal
GGAGAAGCGGCCCAGGAGCCCCGAGAGCTTGAACAGCTCCGAGAAGTTCA autosomal
GGAAGAAAAAAAAAAAAAAAAAAAGAAGAAAGAAAGAAAAAAAAAAGAAA autosomal
ACCTACACTAGTGCTGGCAGTGCCTGCTGCTCCACCACCCAACTTCTTTC autosomal
CAGCGCCTACCGCGCCCTCAGCCAGGCGCCCGGCGGGGCGGCGGGCACCG autosomal
ATACAATCTTGATCTGCTAGTTAGCACTAAAACAAGAAAACACTGGGAGG autosomal
CTATTTGAAGTTTGCATACTGGTATTTGACTTCAGGTCTTGGAAAGGAGA autosomal
CCCGGTTGTAGACGGTGCCGATCTCCTGGCCCAGGACGCAGTCCAGCAGC autosomal
ATCCTTGAGGGGCAGTTTTGGGGATGAGGGAACGATCCCTGAGAAGGATG autosomal
ATGCTCATAATGGAGCTACAGCAATTTAAAAGAAGTCACAGTCTGACCTA autosomal
CTCCACTCAGCGCGAATCAACCAGTCAGAGGCCGGGAAGAGCTCGGGCGC autosomal
GGAGCCGCTACCGGAGCCGGGCCGGTGTCCGGTGGCTCCGCACGGTGGCA autosomal
GAATTGTTGTGTGTAGTAGGTGTAATTCGCGCCATTTCCAGTGATATAAA autosomal
GAGATTCATGGATTTACTCTTTGGAGTCCACCTGCTCCTCATCAACCAAA autosomal
GAGCACGGGCGGAGGGACGCCGCAGCTCAGCGGCGCTCCGCGCCCGGCCA autosomal
CCCGTCCCGTCCCCTCCGGTCCCCGGCGGGTGGCGGCGGCCGCCCGCCCG autosomal
AGGCAGCGCTCACCTCTCCCGACCATCACTGCCTCCTGCTCGCTGCCCTG autosomal
CTCCAACCCCGAGGTGATCACCTGCTCCCAGTCCCACCAGGGCTTCAAGC autosomal
GCCGTGCCCGGCTCTCGCTCCGCCCCCCGGGGTCCGGCGGGGACGCAGCC autosomal
CCGCTAGAGCAGGCCCCGGTGCTCTCCGAGCTGTGCGGCGTCTGCAGCAG autosomal
TGCTCGTTTATTAAAGTGTCGAGACGGGGAGGGGAACTGAAAGCAGCACA autosomal
GAAGGCAGCAGCGATGAAGCAGGCGATGGAGCCCAGCCCCAGGACGATGC autosomal
GAGGTGCTGCCAAGGGGCAGGAGAAATCCCATAAATCTGAGCCGCCTTCC autosomal
GAGGCTTCTCTTTCTTCACAGCTGCTTTTCTGAAGCTTGTGATTCTGTCA autosomal
GCCACCTCTCTGGCTCCTTCCTCCCGGCTTTTCTTCTTCCCCGCTCCTCC autosomal
CAGTCTCGGCGCAGCCCTTGGGGATGTTGGTGGCCAGCGCCAGCTCCAGC autosomal
CAGACCAGGGCCGGGGCCAGCCCCGACACCACCAGGACGCTGGTGAAGCG autosomal
ACGGGGTTGGAGCCCTGCGAGTTGAAGGGCACGCGGTTAGGCCGGCTGTA autosomal
AGCCCTTGTTTTCACTTTTGTTCATGGTCCCGCTGGGTTGAAGCTTCCTC autosomal
GACAAATTTAGTTACCAGCTAAGTATATGTTCAATTCCTGTCAAACAAAC autosomal
ATCGCTCTGCATAGATTAGGCTGGGCTGTAAATCCTCCGAGGGGATGGGA autosomal
AACAAGTACATCCAGCAGACGAAGCCGCTCACGCTGGAAAGGACCATCAA autosomal
GCCCGGGCCCGTCAACGCCGGCAGCCGCCGCCGCATTTCGAAAGATCCGC autosomal
CTTGTGTTATTCCACTGAACAGATTTCACTGAGACTCTACAGGGGTAGTA autosomal
CCGGCGGTACCGGGCACCTGGGCGGGCAAGGCGGCGGCGGCGCCGGCGCC autosomal
AGCGGCGGGGAGGGCCGGGCAGAGCCATTTGCTGCTCGGCGCTCGGGGCG autosomal
CCGCCGCTCCGCTCCCGCGCTGGCCTCGCGCTCTCCCGGCCGGAAGTGAC autosomal
CTTCCTAAATTTTGTTATTCTAATCTTAGTTTGAACTAATGACAAATAAA autosomal
CGCCGCTCCTCGCCGCCGCCGCCGCCTTGCCGCCGCCCCGCCGCGCCGCC autosomal
AGCTGCTGGCGCCGCTGGTGCAGGAGGAGCGGGCGGCGGGCGCGGCGCGG autosomal
AGTTTCTCGATGATACCTTAATGTGTGGGTTTCATTTGCTGCTGCTCCCC autosomal
CTGAACGGATTCCACAGAGAGGCTCTAGAGTCTCCCTCACTGGAGATACC autosomal
ATGGTAACTCAAGCAGATTTCTTGTATGCTAATTTTCCAAATGAAAACAG autosomal
CCCCGCGGCTCCCGAGCCGAGCCCCGCCCGGCCCCGTGTCCCCGGCGCCG autosomal
AGTCCAAGGTGAAAGTTTCTTTTTTTCCCCTTCTCTTTCCTCCTGGGGAG autosomal
AAGTGAAGTAGGATGATGCTCCACTGACAAAAGAAGTGGGAATGCAGGAC autosomal
GGCTTTCACCCGGACCTGGTGGGCGCCGTCCCCGCCGAGGCTGCTCCCGA autosomal
CTGGAAGGTGGCGGCGGCGCGCTCCCTCCGCAGGTCCGCGTTCACCGACA autosomal
CCGGGCGGCCCCGCGCCCCTCAGCGGGCGGGACGGAGCAGCGCGGCGGGC autosomal
GAAGATGTTGCAGATGAAGGTGACGTAGCAGATCCAGGCCTGCAGCGAGC autosomal
TAGCCCGTGGAGGGAATGGGGCCTGAGGATCCAGACGGCTCTCCACAGGA autosomal
AATGCAGCTGGGACTGGCAGCTGGGACAGGGGACACAAGTAGGGGTGGCG autosomal
AGCGAAATTTCCAGTGGGTGAGGCTAAAAAATTCCAAAAATTCATCTGGA autosomal
GCCGCCGCCGTCGCAGCCGCAAGTGTCGCCATGCCGGTGGACCTGGCCAA autosomal
GATGCAACACAGCAGACAGGGAAGATGTTGAAAGTGAGTGTGTAAAGGCC autosomal
GGTTCAATCTAATGGGAAGGTGCCCGGGAATACTCCTTTAGGATGCTTAC autosomal
CATGCTCTTGCTCCTGCTGACTCTCAGGTTGGACTTGTCACTTCTGTCAC autosomal
AGAGCCACCCCAGCAGTGCCAGGACATTCCCCAGCTCCCAGAGCCACCCC autosomal
AAATGGAGGGGATCAGTCACAGGGAGCCTCAGAACAGGAAATGATTTGTG autosomal
ATTGTTCTACTGCCTCAATGGAGCCTTGGTGCCTTTCAGTGTGTGGAAAT autosomal
GCAGGGCGACGCGGGGCTTTCCGCCAGCGGGGCCGGGCAGCGCGACTCGC autosomal
CGCGGCGGGAGCGCGGCGGCGCGGGGCTGTATGGACGTGATGTCCCCGCA autosomal
AGACTACCTTTTTTTTTTTTTTTTTTTTTTTTTTACGCTTTGGAAACCAA autosomal
CAGGAGGAACGGCAAAAGAGAACTCCAGTGAAGGCTGCTCTACACTGATA autosomal
CCGGCCGCCCCACAGAGCCTTTTCCTTACGCTGCACAGGGACCTGGCGAC autosomal
GGCCCGCTGCGGCGCTCCGTGTGTGCCTCAGGGCAGCGCTGGCTGTCCCC autosomal
CCGCTGCCGGGAGCTCCTGAGGGAGCGCCGCCCCGCCCGCCATGGCCGCG autosomal
GAGAGCAGCAGGCGGCCTACGGTGGGCACCATGTGAGGAAACAGCGCCCA autosomal
GGGACACGGGGCTGGTCGCCATCGCCGGCTGTCCCCAGGGCCGCGCCACC autosomal
AAGTTTTGCAGCATCACGTTCTAGACGTGAGAGGAAAAATAGAAGAGGTC autosomal
AAAGGGGTATGGGCAGGCCGTCTCTTCCTGGGACCCCTCCGCCTGCCTTG autosomal
GCAGCGGCTCCGCGCAGGGCCGGGAGCGGCGGCGGCGGCTCCGAGCCCGC autosomal
AAGCACTGCTGGCACAAAAGACAAGGCTTAAAAACACCAGGAGACTGAGC autosomal
CTTTCCCCGCTGGGCCCGGCTGTCCCGGCCCCGCTGGGCCCGGCTGTCCC autosomal
ACACGTGGCACTGGGCTGCAGCTGCCCAGGAGTGCAGCTGGGACTGCCAG autosomal
CTCCTGCATCCCTGAGCACGTCAGGCGCCCGTCCATCCTCGGGGACAGGC autosomal
GCGGTGACGTCATCAGAAAAGAAAGAGATTACGTCATCGGCGGCGATGAC autosomal
TGCATGTTAAATGCATATTTTTTTCCCCAAGACTGATAGCATGTGTGCAA autosomal
ACCGGAGCGGAGCGATGGCCGTGCCGCACCTGCAGCAGCCCAGCTTCCTG autosomal
AAGCCCGGGTGCTGTGCGGGGCCACTGGTGGGATGTATGTAAATGACACG autosomal
AGCGGAGCGACAGCGGCACCAGACAGACCGCGGTACCAGACAGACCGCGG autosomal
GCGCCAACCTCCACGACCACCGCAGCGCCGCCGGCGCCGCCATGCCGGCC autosomal
CCGCCGGAAGCGCCCGCGCGGCAGCGGCGGTGCGCGGCCAAACGGGCCCG autosomal
ATTGTATAATCCTAACATTTCTGAACATGTGTTCATACAGCAGTTGATAG autosomal
CACTCAGAGGACCATTAAAGACTTTCTCGGTCGCTACATGTAGCTGAATG autosomal
AAGTCCCCAACCCAGCAGGGGATGTCCCCAAACCCACTGGGGCTGTCCCC autosomal
AGCCGCCGCTCGGCAGGGTTGTAGTCCAGCATGCTGAGGTAGCGGAAGCG autosomal
AGGTGGGCTCCGGGGGCAGGAAGGCGAGCTTGGCCGCGATGCGGCTGGGG autosomal
ACATCTGTTATTTCAACATCACATCCACCCCGCTATGCATTCTAAATAAG autosomal
CTGTGACAGGGCTGAGGAAGCTGCTCACGGGTCACAGCCTCCCTGCGTAA autosomal
GCTGCAGGGAGGCGCATTGGGTCTAATGGTGACGCTGGGACGAGCTGCCC autosomal
CCCTCACGCCGTGAAGGGACATTTGAGGGGACAGGAGCCCCCCGAGACCG autosomal
ACTGACGTGGCCGCAGCGCGCCGCCATCTTGTGCTCCAGGGCGGATCGCG autosomal
AAAGGCTGTGTTTTCATATAGATTAATCTTTTCTGTTTAAAAAAAGAAGA autosomal
CCACAGCAATCCTGCTCCTCTTCTGGTTTGGTGTCTTCACTGTGCACACA autosomal
AATTGAAATGATACTGTTGTCTGTTTTGTCTCTCAAATCAATGTTTGTCT autosomal
ACGCCGGAATTGTCTCAAGGGGGGTCGCAGGTGGGACAGGGCCCAGGGGG autosomal
CATCTCCATTTGCTTTTTTCTGTACTGCTCCCTCCTTTCATGAATTATCA autosomal
GCCCGCCCGCCTCAGCGCCGCGGGGCCGCGCCTGCCTCAGCCCGCGGCGC autosomal
TCTGAGCTCGGCACCTCCAGCCCAGCTGCCTCCTCTGCAGCCTGGGCACA autosomal
TCTGACAAGAACTCAAAGGCAGCGAAGTTGTGTTCTGTTAAGAACAGCAA autosomal
CCTGAGGCGGCGGCGGCGGCGGGGCCGGGACGGGACCTGACCGGACCCTC autosomal
GGGAAAATCACACAGCGTCCCGAAACGGGCGGGGAAAACTCGCGAAGAGA autosomal
AAAGTCATCAAATCCCATTTTGTCTCATCAGCAAAGCCAGAAGGTTGCTC autosomal
AAAGGGTGTTCTTTGATGTCGGATATTTGTGAGCTTTCACGCCTAATGAC autosomal
AATAACGTTCTATTATTTACTTCTGGCATAGTATAATCACACACATGCAT autosomal
GCATCTGAACCAAAAGAAAAAACAGGGGCAAAAAAAAACCAAAAAAAAAA autosomal
ATGTCCTCCGTGACTCCCAAAGACTCCCGTGTCAGGGATGGCTGCTGGCC autosomal
AATGTCAGCACCTCTGCTAGATTTCATCCCCAAACGACCCAGCATATTTG autosomal
ACCCAGGCGGTGACATCGGCGATGCTCTTGCTGGAGGTGACATCCAGCAG autosomal
GCGGCTGCGGCGTCCCGTCCGGGCGGGCACGGAGGCTGCCGTGCCGCTCC autosomal
AGGGAGGGGAGGGGGGCAGGTCCTGCCCGGCCGAGCCATGGCGGAGATCC autosomal
CCGGGCAGCGCGGTCCCTCCGCCCCGCACAGCCTCGTGCCTCGCCCGGAG autosomal
AGCCGGACCGTCCGCCTGCGCCCCGCGCCCACCTGGAAGGGGTTGATGTC autosomal
GCCGAGCTCAACATGGAGCCGGGCCCCGGCGAGGAGCCCCGCGCCTCCAC autosomal
CGACTTAGGGTTTGATCCCTTTGACATCACCCGCAAAGCCTTAGCAGACC autosomal
GAAGCTTGCAGTTTTCATGTGAGCCGGCGATGTTCCCCGAGACCCCTTCA autosomal
CACCCTGTGCCCAGAGCTCAGCATCCTCGGGAAACAGAGAGAGGCCCAGG autosomal
CCCGGCCGGCCGCACCATGCCGAACAGGGCCGGCCTGGACACCGCGCTGA autosomal
GCCACTGTCGGGACGGGGGGCGGCGACGGAGGAGGAGGAGATGGTGTCCC autosomal
GGGAGCACAGCAGGATGGAGAAGAGCAGGGCCACGCTGAGCACAGCCACC autosomal
AAGAGAAGCAGTCTCCAGTGTTTTCTTTCCATTGAGTGATCTTACTTTCC autosomal
CACGGGAGATGAATGAGCGGCAGCGGGAAGCGGCTGGAGCGGAGCAGCGG autosomal
ACCACGGGCGGCACCAGCCCGGCCACGGCCTCGGGGCCGAAGCGGGCGGA autosomal
ATTCCCGTCCCCATTATCCCCGTTCCCATTCCCGTGATTCCCATTCCCAC autosomal
TCTGTTCCTCGCCGTGCTCCTCGCTCTCCACGGCGCCCGCCTCGCTGGCA autosomal
TTATCTGGCCTCCACTCCAGAGCCATGACACAGACTCTCCTTCAGCAAAA autosomal
GCATGTATTATCTGAGCGGGGCTGATGTCTCTCACCGCTTTAGCTCTAGA autosomal
AAAAAAAAAAAGAGAGAGAGAGAAAAAAAAAAGTAAAGTTACAGCCTTCA autosomal
CCCCGCCATCCTGGGCGAGGCGGAGGCCGTCGAGCCGCCCTTCGCCGCCC autosomal
CAAGCCCCGTTTTTAGGGGGAGCCCCGTCAGTCTCCAGCCCCCCCTGGGC autosomal
CGCGGGGAGCGCGGCTGCTGGGGCTGCGTTCCCGGGGAGGGAGGAGGGAG autosomal
CTGCAGAGGACCGGAGATGCCCACCATTCGCCACGGGCTGCGAGCTGCAA autosomal
AGGGCGAGGTGCGCTGGGACGGGCTGTGCAGCCGGGACGCCGCCGCCCGC autosomal
TCACAAGGACAGTAACGGATCTTGCATTCCTGAAATGATTAGTCACCAAA autosomal
TGTTATTAGCATACACTTGAAAAACGTACAGCAAGTGATCTAACAAGAAA autosomal
CCTGGACAAGCAGAACAAAGTGTTAAAGTGTCGCTTCTGTTCCATCAGCA autosomal
ACCAGGCAGGAGGCTGAGAAATCGGAGTAAGCAGCAAAATCTGCTTTTTG autosomal
CAGACACTCGTCCCCGTCCCCGTCCCCATCCCCGTCCGGCGGCGCGGCCA autosomal
GCTCCATGTCCTGGTGTCCCTGTGTCCCTGTCCCCTGTCCCCCGCAGGGA autosomal
CCCCGCCCCACCTGCCCCCGGCGCCCGAGCACAGCCCCTCGCCCCACCTC autosomal
AGCTCCTCTTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTG autosomal
ACGTCCTCTCAACTACTTCAGACAACCAGGCGGAGCACCACTGGCCACGC autosomal
CGCCCGCGGGGTGGCCCTTGGTGGCCACGACCACCGGGGCCCCCAGCACC autosomal
CGGGGCTGCGCTCGCTCGCAGCGCGGGAAGGAGGGCGCGGGCTCCGCCGC autosomal
GTGCTGCCTGTTGCTCTGGGGCTCCAGCTGCAGGACTGCCTCAGAGAGCA autosomal
CGACATCGCTGCCCCGGGCCGCTCCCGGCCGCTCCGGGCTCCTCGAGCGC autosomal
CTTGCTCTTGAAAACACTTAAGATGTCTAAACTGAGCTGACAGCAAAATA autosomal
TACTGGGTGATCTGAGGGAGAACCGTGTTGTGACAGTGGTAACCCTGTGA autosomal
AAGAGGAGGAGGCGGAGGAGGAGGAGGAAGAGGAGGAAGAGGAGGAAGAG autosomal
GATGCTGAGTACAAATCAAAGAATTTGTTCCCTTTGAACATTCATTAGTA autosomal
TCTTCAGAATAGCATCACCTCACAAAAAAAAAAAAAAAAAAAAAAAAAAA autosomal
ATCCCCGCGCTCCGCCCCGCACGCCCCGGGGCGGGCCCGCCGCCCCACCG autosomal
CGCGCTTCTCATTGGTTGTTCCCTCAGGGTTGAGTTCCCGAACCACCTTC autosomal
AAAGAAACCTCATTTCCAAGGAAATTCCTTCCCGGCTCCCCCCACGCTGC autosomal
CGCGGCAGTTTCACTCCATCATTCCATCGGTTCATGTTTCTGTTTCCAGA autosomal
GCTCCGGGGATGCAATTCAGCGGCTGGGAGGCACGGCGAGTGACGAGGGA autosomal
ACAATATTATTGTTGTTTTTATTGTTTTTATCAGCCACCTGCCATGTACT autosomal
CGCTCGCCGCCCGGGCTCGCGCTGCGGAGAGGCGGAAACGGGTTAACGGC autosomal
CCAGGAACTTGGCGAGCACCAGCGCGGCGTCCCACACCACACAGCCCACG autosomal
GCCGAGCCGAGCCGGCAGGGGCAGAGCCGAGCCCAGCGGGGCAGAGCCGA autosomal
ACTCAGCATGTAAATGTGGGGAGAAGGAGGATGGGGGATGTTTGGAGTGA autosomal
CAGCCCCAGGCTGCCCAGCAGCCGTGCCAGCCCCTCGAAGGGCAGCGTCC autosomal
AAGTCAAGGGACTGGCTTCCAAATGCCTTTGAACAGAGCTGGTTATTAAG autosomal
CTCGAAGGCGTCCAGACCCTCGGGGGTGAGCTGCAGGTCCAGATCTTTGC autosomal
AACCAGCGACCGCCCCTGCTGGCCTCTCTGGAGGGGCTTGGAGCGGCGCC autosomal
CCGGGGCAGCAGGAGCGGCAGGAGGAACAGCAGCGGCCCCGCGCCCGCCA autosomal
CGGGGAAGGGAGGGGAAGCGGTAGGGACCAGCCACATGTCAAACATCCGC autosomal
AGGCGGGACTCCGCAGTTCCCGCTGGGAGAGAAAGCCAGACTGGCCTGCC autosomal
AATCATACAACTGCAAAGGAATAAACAGCTTCACCAGTGACAAATTTATC autosomal
CAGGTCTTTATTCAGCTCCTCCGAACGCTCTAGGACCAGCGTCACCGGTC autosomal
AGGGCCGCTGCTGGGCACCGGCCTGCCCGGGCCCGGTCGGGTCACCGCCA autosomal
CCCCTCCCTTCCGACCGCGGCACGCAGCTTCCCCGCCTGCGCACCAGCCC autosomal
GCTGCCCGGAGAGGCCGCAGCGTGCTGGCTGTGGCGGTGCGGCCGCTGCC autosomal
CACTTAGGAAAATATGAACATAAACAGGGAGTGTTGTCCTCTCTGAACTA autosomal
GAGTTTGTAGCAGTGTTTGTTCTCCATCAGACAGCCAAGGATGCCTCAAA autosomal
CCAAACACCCGGCCCTGAAAATCACCCGGCGCTATGCCTTCGCCCACATC autosomal
CCTGGGCACCCCGAAGCGCCGGGAGCGGCGGGAGCGGGGCGGTGCCGGCG autosomal
CTCCGCGGGGCGGCGGCGGCGGCTCCGGGCCCGGCGCTGGGTGCGCAGGA autosomal
CTAAATGCAGAATGATCTTTTTGAAAGCTTTGGAAAAGCCCAGAGTAAAC autosomal
CCATCCGTCCTTCTCTGGGCTCCTGCAGTGCGGACTGGGCGAGACCACCC autosomal
AATCTGATGGGGGAAACTTCCCAAGACAAGTTGGCCCTTTTTAGTGAGGG autosomal
CACTTGAATGATAATCTCACAGTTTTCCTTGACTGTACTGCTCTCTCGCA autosomal
CAAAATTGCCCAAAATCCCCGAAATTCACCCCAAAACCCCCTTTTTTCCA autosomal
ATGAATGATCAATAGACTGTGCAAGTGAGGAATATCAGCAAAAAGCTCTC autosomal
GTTTTTACATTTTTTTTATAAAAGTTTATTCTATGGCAATCTGTAAAAAA autosomal
GCGGGGCGAAGCGAACGTGAGCGGCGGCGGGGCCGGGACGGACACCGAGA autosomal
CTGAGGAAGGCCAGGTTCCCCGCCTCCAGCAAGCAGTTCTCCTGCAGCGC autosomal
CGCTCCGGCCTCCTCTCCGCCTGTGACCGCCCGCCTGGCGGCGAAGTGGC autosomal
CGCCAGCCTCGGGCAGGGGCCCCGCCAAGGCCCTGACTATGAGCTTGGCC autosomal
AGGTCATTAGTCATCCGCGGCTGCTGCAGGAGACACGGAGCGCTGAGCTG autosomal
CGGGCAGGGAGCTCCGCGAAGCGTCCCCGCCGAGTCACTGCGCGCCCGGC autosomal
GTCCCGCGGTCCGGGGGCGCTGATCGCAGGCGCTGACGGCTCCGGGCTGA autosomal
AGCCCTTGTCAGGAACTGTTCAACACAGAACACTCAAATAATAGGTCAAA autosomal
AGCGGGGCGAGCGGGCGGCTCCTCGCAGCGCTACAGCGGCGGCGCTCCGA autosomal
CCTGAGACCCCTCCCCAAAATCCCCCCAAATTCCCCCAAATCCCCTCCAG autosomal
TGCCCGCAGTGCCCTCCCTCAGACACTTCAGGATCTCTTCTGGGAGCCCA autosomal
GCGCCGCTCGCTCCGCAGCCCGGCGCTCCGACGGTGGCCGCGGGGAGCCC autosomal
CAGCTGCCTGAAGGGGAGTCACAAAGGTGGTGGAGCCAAACCCTTCCCAA autosomal
ATCGCGATCGATCCCGATCGGTCCCATCGATCCCCATCGATCCCGATCGG autosomal
CCAACCAAGCAGCAATAATGCTGTCCCACCAGTGCCCCACGTGACCTCCA autosomal
CTTGAGGCTGCCTGATGGGCAGTACGTGCACACCCATGGGTGCTGGGAGA autosomal
GCATCTGTTCCACATGTGCACTTCATGCCAAAATACTTCTTAATCCCAGA autosomal
GAGCACCGACGGGGGAGGCGGCGGCGGCGGGGCCGAGTCGGAGGGAGCCA autosomal
CGGCGGCGGCGGCTGCGGGCGCCGCTCCGGCCGCTTCGGCCCCTCGGTGC autosomal
ACTTCTCTGGGTTTCATCGCCTTGTCCTGTGGTCCAGAGCTTTCCTAGAG autosomal
CCCGCTCCCCCACAGGGCTTTGGGCAGGTTTCCCTTTTTGGGGGAAATCA autosomal
GCCGGGCTGTGCCGAGAGCTGCCGGGCTCTGCCGAGCTCTAGTCCGACCC autosomal
GGATGCTGACCCGCTCCCTTATCAGCTCAGCAGCTTATCACAGCCCTGTA autosomal
AGGGGAAATCAGAGCCCAGAGGGGTCAATGGGCTCCTGGCAGTTAAATGG autosomal
ATCTATGCCACCCGTGTGCCATTTCTGTCCCCCGTGTGCCACCCCTGTGC autosomal
CCCCCCGCCGCGGCCCCACCTTTCCGCAGCGCCGCGGCCGCCGAGGAGCC autosomal
CCCGCCGACGGGCCTCGAGTGAGCGGCCCGCCCCGCTTCCCGCGTGGGGC autosomal
AATATTACTTCAAAAGATTGTATGTGAAATAATAAAATAGCAGTGAAGGC autosomal
AAAGTGTTCTTCCCTTCTTATTGTTTCCTTTCATCAGAGATTTACATTTG autosomal
GCTCCGGGACGCTCCGATGGGACTTTGCGGGGAGGTTCAGCGGCGTCCGA autosomal
CGCGGGGCGGACATGGCGGACGGCAGCAGGCAGAGCCGGTTGGCCGCGGC autosomal
CCCTGCAGGATGCTGTGCCTGTCTTTTGACCCATCCAAAGACATCCCCAA autosomal
ATGGAGGGTGGCTGCTGCCTTTGTTCAGGGTGAGTAATGAGGCCATGGAG autosomal
CCCGTTAGAAGCAGCGCGGAGCCCGTGCGGATCCCCACCGGCGCAGGAGG autosomal
CCCGCACACGAGGAACACGGCTACGCTACAAAACACGGCGCCAAGCGACG autosomal
CCGCACACGGGCCTCGCCGCCTCTGGCTTCGCTCCCCGCCCGCCTGCATC autosomal
CATGCAGTAATATACTCACCAAGGGAGAAGCTGTCCAAGTTCTGATGATC autosomal
CACGAGGTGTTGGGCTGGAGGATGCTGGAGCATCCCAAAAACCTGCCCGG autosomal
GAGCAGGGCCGCAGGACGGGCCGTGGCGGAGCCGCCAGGCTCGGCTCGGC autosomal
GAGCAGCGCTGTGGTGGCAGCAGAGTCCCATGGGCCACCCCGTGTCCCCC autosomal
CCCTGGCGCGGAGCAGGCGAGTCCTCCTCCTCTTCCTCCTCCTGCCGCTC autosomal
AGCACCCGCTCTGGGGCGGGCGGGCCGGCGCCATCCCCGGTCCCGGCGCC autosomal
GCCTACCCCAGCGGCCTATCCCGGCCTATCCTGGGGCCCGTCACGGCCTA autosomal
CTGGATCGGGGTCCGCAGTCCTGAGCGGACACACCAGACGCTTTGCAAGA autosomal
AAGGACATTGGGGAACTGGGGGACATTGGGGACAGCGGGAGGATTTGGGA autosomal
AGGCCCTTGGCCTTAACAGGGTCTAAACCCCAGTGACCAAAGGCCCTTGG autosomal
CGGCCGCTCGTCCCCGCAGAGACCAAGGTGTACGTGGGGAACCTGGGCAC autosomal
GCAGTGTGCTGCTGATGCATAAAACACACATAGATAGTACACAAATACAC autosomal
ACACGCGTGTGCGACACCCGCGACACCGCGCTCCGATCCGCCGGTGCAGC autosomal
AACACATTTGAAAATTTATTGTAAGGCTCCTGGATGGATAAATTTTAAGA autosomal
AAAAACATGAGTGACTGCAAGTTAGATACTTCTAGAGCCAGCCACATTCC autosomal
AGAGAGAGAGAGAGGGAGAGAGAGATGGGGGAGGAAGCACACGTGATAGC autosomal
AGATGGCGGCGCTCAGGGGTGCTTCTGTGGCCGGGAATGGCGGGGAGTGA autosomal
ACACAAGAAAGTTCAATCATTCAACTCCTCTCACCCCCGTGCTCCCTCCC autosomal
GAAGTGGACAAGGGAAGTGAGAGACTCCCATGTGAATGCTCACCCCTGCA autosomal
CGCGGCACTCGAGGGCTGTCTCGGGGCAGCTTCCTGCAGATGGAGGAACC autosomal
GCCGGGCGGCCGCCGCTGCTTCAGCAGCTGCCGCACCACCAGCGACAGCA autosomal
CTGCGGCCGGCCATGGCCCGGAGCAGCAGCATCGCGGCGGCGGGATGGGA autosomal
CCGTCCCGGCCCCGGTCCCGTCCCTCCCCATCCCGCCGGCCCGGGCGGCG autosomal
AGGGAAAGGGAGAGGGCAAAACACCGGGAAGTTCTTGTGGTTTGTTTTTG autosomal
AAAAGGATAAGAGCTGCTAGATTTCTGTTAAGAATTTCTGCTTAGCCTCA autosomal
CGGCGGCCTCGCCAGTCAGTCAGTCCCTCAGCCTGCCCGTCCGTCCGTCC autosomal
CCGCCATCACGAGCCGCTCTGGGGGCAGCTCCAGCCGCAGCGCTGCTCGC autosomal
CACTCCCAGCAGCATCAACAGTCCTCAGGGCTCCCCATACATTTCAACAA autosomal
CTGCAAGAAGGCCAAATCTGATGATGTTGTGGATATGTGGCCAGTCAATC autosomal
GGCTCCTCCTTCAGGGGGACCCCCCCCCGGGGCAGCGCCTCCTGCACCGA autosomal
AAGCACAACTCTGGATTAATTACCCAATGGTCCACAGTCATGGAATCCAG autosomal
CACCGCGGCAGCGCCACTAACTTCTCACACCCTACCCGGCCGCGGCCGCC autosomal
CGCTGTGTCCCCTCCCCGCCCCGCCCGGCCGCCCCTCGCTGCTGCCGCCG autosomal
CGTCGGCCCCAGCGGCAGGCAGGATGCCGGGCAGAGGGCCCGCAGAGCAG autosomal
CGGGGTCCCGCCGCTCGGCCGCCAGCGCCTCGCACCGGCTCAGGAGCCGC autosomal
ACCACCCCCCCCCCCGGTGCCGGGGCTGTCCCAATCTTTGCCCACCGGGG autosomal
CTCACTGAAGTTGGGGGTGTAAAAATTGGGAAAAACAGGAAAAAAACCCA autosomal
ACCTCCCGCCTTCCCCACGTGACTCCCGGTAACCGAACAGGGAAGCGCCG autosomal
CCAGGTCGAGCAGGATTTTCAGTAAGTGAGTGTGGACATCGAATGACAGG autosomal
CCCGGCCCCGCCGCGCAGCCGTGCCCAGAAGCGGGAGCAGGAAGCGGCGG autosomal
CACCTTCGACACCATGGGCCTGCGGGAGGACCTGCTGCGCGGCATCTACG autosomal
CGTTTCTCTCCCGGAAGTCGCCCCCTGCCTCGCGCCGCTCACGTGACCCC autosomal
CTTTGGGGAGGCGGTGGCGGCGCCCGGGCTCGGCCGGGTGTGTGCCCTCC autosomal
ATGGCGTCCGGGGCGGCGGGCGAGCGGGGCCGGGAGCGGCGGGAGCGGGA autosomal
CAGGTGCCCGGCACACGCCGCCCGCTGCGATTCCGGTACGTTTTCCCCCA autosomal
CCCCTCCCCCGGCCGGAGCGGGGACCCCCGGCCTCGGGCCGGCTCCATGC autosomal
CAGCAGAAAATGGGGATATCCTTGGGCTTTCCAAACCTGGGACTGCTCCA autosomal
AAAAATCTATAAAAGCCACTTTGTTTTCCCACTAAAAACTGCCAACCATG autosomal
CAAACACATTTCCCGCTCCAGCTGTAGACTCTGGAACTGTGGGAATGGCA autosomal
ACCTTCCGGGTGCTCACCATATCCGTGGTCTGCTTTGCTGTCTGCTGGCT autosomal
GCGGCGGCGGAGCCGGCGGGAGCGGGCAAGAGGCGAGCGGGGGGAAGGAA autosomal
CCATTGACGAAGCCTCCGTGCGCCGGCCCGCCGCGGGGCAGCGGCCTCGC autosomal
CCCCGAAGGAAGGAACGGCAGCGGGCGGAGGTGCCGCGGGCGGCGCGGGG autosomal
GGTGCAGCACCCAGGGCTTGCTCCCAGGATTCCCTTCCTGCAGCACCCAC autosomal
GAACACTGAGAAGTTCATCGCGGGGTGGGGAATTCTTGTGGAATCTGGAA autosomal
GCCAGCGGCTCCGCTGCATGCCGGGAGCTGCAGTCCCGCCGCTCCGGGGC autosomal
ACTGTACAGAGCCCTTCCCTTGGTCCGACCCCTCCGCCATGACCACCACG autosomal
CCCCGGCCCGCGGGCACCTTCCCGCAGCCGGGTCACAGCGGCAGCGGCCC autosomal
GCCCGAAGCCGCTTGAAGAGGGTCTGGATCTCCGTCTTGCTCGGCTCCAC autosomal
GGGTTGTGGGGCAGAGCAGGGCCGTGAGGGGCCCGAGGGAACCGGGGGAA autosomal
GTGCTTGCGCCCCATCTTCTTCTGGCTGAGCACCTCGAGCAGCGCGATGA autosomal
ACCAAAAGCAGAAGTAACACTGAGGGACAAGTCTCTGATTTGGTCCTGCT autosomal
CTGCTCTGCTCTATCTGCCTTTAAACCTCCTCTTCCTCTTCCTGCCGCCC autosomal
AGCCAAGAAGATGCCACTAGCACCAGGCTTTGGTACAGCAGTGTGGGTTG autosomal
CGCAGGCACCGCGGAAGGGATGATCCGAACGGCGCTCGGTTGGGCTCGCA autosomal
AGATGGCGGCGGCGGCGGGCGGGTCGCGGCGCTGGGACCCGGCGGCGCTG autosomal
GTATTTGAGAGTTGGGCTCTCAGGAAAATAGAAATACAAATTGCAGAATA autosomal
CTCTGTTCTGCACTTCTCTTGTGGCAATTCAGAGAGGCCCAGGGTGGCAC autosomal
CGTTTTCACGTTGACGCTCACCTTGCGCACCTTCTCCAGCATTTTGTTGA autosomal
AAGAAACCGGTGGCATACCTATCAAAGCTGTTAGACCCTGTGAGCAGGGG autosomal
ACACCCAAGTGCGGCGCACCGGCGGCGGCGGCCTGGAGACCGTGCAGGGC autosomal
GAAAGATATGGAGAGTAATAAAAATAAAAAGCCCCCAGTCAAAACAAACA autosomal
TAACACGTAGTTTTTACAGTAGAAAAGCATAGATTTAAATAGCTATTGTA autosomal
CCCAAACTCGCTGGGTTTATAGCAGTGCTGGTGGGTGGGACAGGCCCCAC autosomal
CATTCCCGTCAGGGCCGTAGGCTGCCAAGCCGCTTCTCCGTCCCGCCTGG autosomal
ACTGGCGTCCCCAGCCTGCACAGAAACTGAGCTGACTGTTGTTGTAGAAG autosomal
ATGAGTCACCTACCCCTGGATTTTAAAAAAACCCAAACCATCAAGATGTA autosomal
CCGGGGCGGCGACAGCGGCGGGGCTGCGGAGCGGGGCTGCCAGCACAGCG autosomal
AAGGGCGACCGTTCCGTGGCGGGGCCGGCCTGTGTCCCCCAGAGGTGATG autosomal
CCTCCTGAGGGCTCTGTCGCGACATGGCGGGCGCGCTGCCGGGCACGCAC autosomal
CTCTTCCTCAACAAAGGGTTTGGGCTCCTCCAGGCCCTCTGGTGTATTGC autosomal
GCCGGCGCGGCGCGGCGCCCCCGCCGCCGCCGCCCGCTGCCGGATGGCGC autosomal
CTTTCTTCCCTGGAGCCTGGCATCAGAGTCCAAATGAGGTCATTAATCTA autosomal
GGACCCCCCAGACCCCCGAGACCCCCAGACTGAGACCCCCAAGACCCCCA autosomal
CTCGCCGCTCCGCTCGCCGCTTCCTGCCGCGCGCCCCGCCCGCCTTTACC autosomal
AGCCGCAGCAGCGGAGGCAGCGGCGCGCCCCGCCACCATGAAGGTGACCG autosomal
GAAATTTGTGATTGCTCGCAGTGACAGCTTGCCAGAGGAGAATGTCCTGA autosomal
AAGAAGCAGAAGAAAGCCAAGGGGGATCCCAAAAGTGGCCAGGAGGAGGA autosomal
CAATCCAATGCTGAGGAATGGAAATTAGTTTTGCTTTGGTTTATTCCTGC autosomal
CGCGGAGGCTGTGCCTGGGCTGCCGCTCCCGGCCGCTGCTGCAATTCCGA autosomal
CACTTTCCTGCATCATCTCGTGTCTTCCTTGGTCTGCCCTCTGGTGAACC autosomal
CCTGTGCATCTCCCCGTAGATCAGCAGGCCGCTGCCGCACACGTCCACGA autosomal
CGCTCGTTCCGGGCCGTGCCGGCGGCAGCGACGCTTGGTGATGCCGGCCC autosomal
CCTCTCAGCTTGCGGGTCTTCCTCAGCCTGGAGGGCTGCGGGGAAGGGGC autosomal
ATCATAAATCCTATCCCAAAAACAGCCCTGAGATCCCAAATCTGCTCCTG autosomal
CAGCGTGTAGGTGATGTAGATGAAAAAGACGCTCCACCAAACGCCCTCGG autosomal
CCTACTCCGGCAGCGCCGGCTCCTACAACCACCGCTCGCTGGCCGCCTAC autosomal
CGGGGCTCCGCCTTTTCGTTTGATGGCGGCGGCGTGGCGGTGATCCATCC autosomal
CAGATCCTCTCGCCGGTGCAGTGGGCCCGCTGGACCTGGTCGGCGGTGCG autosomal
ACAGGGCGCTCGCTCCTGCCCGGGCGCCTTAACCCAGGAACCAGAAGCGA autosomal
CCATATTCCCATTCCTGCCATTCCCACATTCCCATTCCTGCCGTTCCCAC autosomal
CCAGCCCCTGCGCCTGCCGCGCCATGGAGCGGAGCTGCGCCGGGCGGGAG autosomal
CCCTGCCCATGTCCCCCCCAGAGTTTGGTCCCTCCCCCCCTGCGGGTGCC autosomal
CACCGCCCCCGCGGGAAACGGGACGGAGAAGGAGGAAACCACCCCTTGGG autosomal
ACTCCCCTCCGCCCCGGGATCCCCCACTCCCCATTCCCAACACTCCCCTC autosomal
AAGTACCCGCACCTGCACACCAGCTCCGAAGCCATCCGCAGAGCCTGCCT autosomal
CGTCGGCCATGACGAACTTCATCTCAGTGCAGCTGAAGAAGGCTTCAGAG autosomal
GAGGAGCAGAGGGTTGGATCAGTAATAGCAAGACTATCGGAGGACGTTGC autosomal
CTGCCGGGACATGGCGGCGCGGCGGGGCCGTGCGGCCCAGAACCGGACTC autosomal
GACCCACACCCTGATCCTCCCCCGAGGGGCAGAACTGGCCCTGCCAGGAC autosomal
GAGCCCGGCCCAGCTCCTCCGGTCCCGCTCCTCTCCTGCTGCCCCGGCCC autosomal
CGGGTCGGCGGTGACTCCAGCGGCGGCGGGGCCGCGGCGGCGGAGCGCTC autosomal
AAAGGTGCTTTTTAGTGCTTGTCCTGTGTTCCCACTGCCCCATTTCAGGC autosomal
CATGGCGCTGCCGGGAGGGAGCACGGAGCGCCGGCCGGAGCAGCACCAAC autosomal
AGGAGCCGCGGGAGGAGCTGCGGGAACGGGGGGAGCGGCGGGACGGGGGA autosomal
CGGCCGAGGATTTACAGTCCGCGTAGGGCACCGCGGGCGCGTCCTGCTGC autosomal
ATGAATACTCCTGATCCCTTCTTGAAGCTTTGTGATTCCCAAGGATCCTC autosomal
CGCGGCCGGGAGGAGGCGGAGGAGCCAAGATGGACGCCGGGTTCTTCCGC autosomal
AGGAGCGATGTGGGGCTGAAGGGTGACAACGGGCGCGGAGGGTTTGGCCT autosomal
CCCCAGGGCCACCCCTGATGTCACCTGTGCCACCCCAGTGTTCCCAGGGC autosomal
CTCGGGGCGGCGGCGGGGCCATCATGCAGAAGATCAAGTCGCTGATGACC autosomal
GAGCTGGGGCCGGCCGCGGTGCCTCAGCGGCTCCACATCGATCCGCCCGC autosomal
GTTGAAGGCGTTCGAAAATGCGTGTTTCGGAGTACTCAGGGCTGCCGAAA autosomal
ACGGGAAGGTGACCGTGTCAGCAGAGCGCAAGGTGGAGAGCAGCACCGGC autosomal
ACACGGAGCCGCCCAGCCCACCGCGGGATCCCTTGTTCTCCCGGTCCCGG autosomal
AGAAAATTAAATGCAACTTTTTTTGGTCTAGCTTTTCAGCTGCTCCATCA autosomal
GTTCAGGAGAGCCTGAGCCAGAGGGAGAGAGCCCGAGGGCCTGGAAAGGA autosomal
AGGAAAGAACATGAATTAATATGCTTTCAGGGCACAGTCTGTGACATAAA autosomal
ATTTTCAAGGCTGAGTTCATCCACTTAGCCACAGTCTCTGGGAAGCAGCG autosomal
GCAGCCCGGCGATGGCCGCGCCGGAGGATGCCGCCGTGCCCGGCTCTCGC autosomal
CTCTGCCCCCAGCACCTGCCCCGCCGCCCTGCTGCCCTCACACCCGCTGC autosomal
CCCCGCCGCGCCCGCCCCGCCGCTCCCGCCCCGCCGTTCCCGCCCCGCCG autosomal
GAAAAAAAAAATCCATCCGTGTTTCCTCTGCTTCTCGTTTAGTGTCAGGA autosomal
CTCGGCCGCTGCGGCCCCCGCCGCCGCTCCGCCGCCGCACGGGCGGTGCC autosomal
GGCCAGGGCCCAGCAGCGGGACTCGGGGTGCGCCGAGATGCGGCACAGCA autosomal
ACTGGTTAAAAACTCTCAGTGCCGTTCCTTACATACACAGTCCTATCCAC autosomal
CGCTCCTCCCTCCGCTCTCGGCCGTGCCGCCGCCGCAGGCCCGCCCCCAG autosomal
TATTGTTAGAATAATGCTCTTCACAATGTTTCACACCTGGAGCAACATAA autosomal
GGCACAGAGAGGCAGAGCCAGATGCTTCTCCTGCCGCTGTGGCCCTGTCA autosomal
AAAGGTTGTTCTCCGTGAGTCAACAAGTTTTGGGACTCAACCATCCAGAC autosomal
GAGGCCCCCGTAGCCCCGGTAGCCGCAGGGGCTCCCGCAGTCGTAGCCCC autosomal
CCCGCCCGCCGCCCGCCGCGGCCCGGCGGCGCTGCCGTCAGCGCGAGGTC autosomal
TGTCCCTGCTCATTGCAGAGGAATGAATTAGATGGTCCCAGTCACACACA autosomal
AGCACCACGTCTCTTGTGTGGGAGCAATCCTTGGATATATGCAATTTTGG autosomal
CAATTTTTTCAAAGCTGATATGTCCTCATGATACATTATAAAGGATGCAG autosomal
GGCGGGGAGGCTGGCGGGGGGCACACTGGCAGGGACCAGGCTGGCGGGGA autosomal
CGGGACCGGGGGGATCGCCGGGATGGGGGGACACGGGGACAACTACTACG autosomal
TACCCCCCGTTCCCGTGAGGGGCCAGGGAACCCGGGAGCTGCAGGCAGAA autosomal
AGATGGGCTCTGTCCTTCCCCAGGGTCCCAGGCGCAGCAGGAGCGCCGGC autosomal
AGCAACACTGACAAAAATAAAATCAAGTAAGACCCGGCACAGACCTGGAA autosomal
CTTCCTTGTCCTGGATCTTGGCCTTCACATTTTCAATGGTGTCACTGGGC autosomal
AGATCCCCACCCGGCTGCCGCTGCTGCTCACGCACGAGAGCGTGCTGCTG autosomal
GAAACAGGGCCTCTTGTCCTCTCCCTGTATGATTTGTGCTCTTGGTGGTC autosomal
ACAGCATGAAGGAAAAACACCTGGAAAGTGCTAACAAGACATAACGGGTA autosomal
GCAGCGCGGCCCCCTCGCAGCCCCTCTCCGCCGGCAGCATGGCAGCGAGC autosomal
AAAGCCCTTTCCTGGGCGAGGATGCTCCGAGGGAGGGATACGGAGAATTC autosomal
CTGTTGTTTTAGAAATCCACAGATTCCATGCAGCTGATGCTACAGCGCAA autosomal
CATCCCCTACAGTCTCGTTGGAGAAAACACAAGAACCAAACAGAAAAAAG autosomal
CATGGGTCGGTCGGGGCCGGGGCTGCCGGCGGGGCCGCCGCGGCACTCGG autosomal
CCCAGGACCCTCAGCCCTCCAAGGTGGGACACGGCTTTGTTCCCCAGCCC autosomal
CGGCGCCGGGCCGGGCGCGCACGGCAGCGCCGGCCCCTCCCGCCGCTTCC autosomal
AGCGCCTGGTCACCATCCACGAGGTTGAGCGCAAGATCATGGATCACCCT autosomal
AATGTCTCTTGTGATTGCTTGCTCTTCCTGTAAGCAAAGTGAGCTGTCAT autosomal
CCGCCAGCCCCGCCGAGCCCTGCCCGGCCACGGCCAGCCCGCCCCGGCCC autosomal
TCCACCTCTTCCAGAGGACTGTCATATCAGCCTGAAAAACAAAAGGGAAA autosomal
GCGGAGCACCTGGCCGGTTCCAGCCGCTGCCGGGCTCGCCGAGCCTCGCC autosomal
CGCTGCTGTGGGGCCGCGCCGTGGCGGGGCTGGAGCAGATCGGCAGCACG autosomal
CGAGAGCTTCCAGCGCGGCCTGCGCCGCCCTCACGGCCGCCGCGCCGCCG autosomal
CGCAAAGGCCACAAGTGTATAATGAAACCAGTATCGTATTGCTGTGCCAA autosomal
AGCAGCATGGCAGCGCGGCGGGCGTGAGCACCGGCACCGGCACCCGGCCC autosomal
CCGGGCAGCCCCGACCGCCATGGCCCCGGTCCCGGTCCCGGCCCCGCCGC autosomal
GCACGGCGCGGCGCCGGCATGAGGGAGCCGCTGCCGGGCCCGGGCATGGA autosomal
GGGCCGGCTGCGCCACTGCCGGCTCCATCGGCATCTCCGCGCCGCCGCCC autosomal
ACCGAGCCCGCACCCCACGCCGCGCCCGCCCCGCTGCGCGGGCCCAAGCG autosomal
CCCCCATGGCCCAGGGCACGCAAGAGGAGCAGGAGGAGGAGGAGGAGGAA autosomal
CTGCAGATGACCTCCATGGCACCCAGGGCATGGTAGTCCGAGCCGCCCGC autosomal
AGGCCCTGCAATCACAGAACAGGGTTCTGGTAAGGGAGGCCCAAGGGGAA autosomal
GCACTGACTGGACGGAAAATGGAGAGCAATGAAGGAGTGGTTTTCTCTGA autosomal
TGAGGGTGCCAGGCAGTCAGCGTCAGGGATCCTCCCTTCTGTCACGGACA autosomal
ATTTTTCGGGGCCTCGGCGGCGGCGCCCGGCACAACCCGGAAGTGCGCGC autosomal
CCCGCGCAATCCGCCGCCATCCGCCGCGCCCCGCGCCCATCACCCGTCCG autosomal
CCGGTGCTCCCAGGCGTGGACTGGGAGGCCACCAGTATAAACCAGTAAGG autosomal
ACAGACCCACGGACACTCGGACAGCCCCACGGACACACGGACACTCGGAC autosomal
CAGCCAGCTGGGGCTCGGCCTCTTCTCCCAGGCAACCATCAGTAGAACAA autosomal
CCGCCCCCGGCCCGCGCGGCGCTGCGGACGGGCCTGTGCGGCGGCGGCGC autosomal
CCCGGCGGCGGCGGGCGGTGAGGAGGCGGCGGGGCTCAGCGCCGCGCCGG autosomal
CAAACATTAAGCTGTCACACTTCCCCAAAAGCAACCTTAGCACCAGCTCC autosomal
CTACTACCTGGAGAGTCACACCAACGAGGTGTACGCAGAAGAACCCCCCC autosomal
AGGCAGACAAAGGCCGTGGTTCTGCTGCTGTGGTGGCTAAGAGTGCCAGA autosomal
AGCTTCTGCAGGAAAAATAAGAGTTGGCAGAGAACAGCTACAAAGGCTGC autosomal
CCAATACGTGTCGGCGGTGCCGTCCCGGGGTGTGAGGCCCAGCACATGGC autosomal
CCGCGCGGCGCTCCCCTCACGCCGCCGCGCTCCCACAGTGCCCCGCGCCC autosomal
AACAGAGATTTTTGGCAGCACTCATTCTGAACCCCAGGGTGAGGAACAGA autosomal
ATCTCCCATCCCAAGCCAGGCAGCTCTCAGCACTCTCCCTACTAGAAGAG autosomal
ATAACCGGCCCCATAGCCGGCCCCATAAGCGGCCCCATAAGCGGAGCTGC autosomal
AGGTCACTTTTCCCCACGGCAGGCTCGGATCCCTCCCGCCGCTTCCCGTG autosomal
ACCCAGCCCCGCCGCCGGCCGGGGCTCCCCGTGGGCACGGGGCTGCCGGA autosomal
ACGTCTCCCTCCAGGGCGGCCCGCCCGGGCTCTTGTAGCGCGCCCGGTGC autosomal
AGGTGAATTTGGGATAATTTTGGGATGATTTTTGAATGACTTTTGGACTG autosomal
CGCCGGGCTGCAGCACGTTCTGCTCCACCGTCATGGCCCCCGCGCGGCTC autosomal
AAATGAAAAACTGAATTTAGGACAATTTAAATGAAACAAGATAAAATCTT autosomal
ATGGGGGCTGGGAACCGCGCTGGGGACACGGAGCAGCCGCGGCTCTGATC autosomal
AAAGGCTGGGGAGCTGCCCTGCCCTGGGAATATTGGCTAATCTTCTGGGA autosomal
AGGAGGAGGGCTCCGCGAAGGGCAGGCACGGAGGAAGAAGCGGGGCCGGC autosomal
AAAAAGGGGATTTTGGGGAAAAAAAAGGGGAATTTGGGGGGAAAAAAGTG autosomal
GATCCCGCACAGCCAAAAGCTGAAGAAGGTCTCCAACCCAAAAATGAGGA autosomal
AAAGAGCAGAAGGTTGTAGTCGATGAGCTTTCTAACTTGAAGAAGAACCG autosomal
CGAAGAGGCTCCACAGCTTGGCGAAGATTAGGCCCATGCCTGGCCTCGGC autosomal
GGGCGGAGCGGGAGGAGGGAGGGCGGGAGGGAGGGGGGGGGAGGCGGGGA autosomal
CGGGGGAGGCTGTTTAAAGTGGCGCTTGCGGGATGGCGGAGCCGGCGGAC autosomal
GCGGGCGGAGGGACGCGGCGATCGCTCATCACACACACGCACACACACGC autosomal
CCCGCGGAGAGGTGAGACTGAGGTTTCTCCGCCGCTCTGCGCTCCGATTA autosomal
ATTTAAATCAATAAGAATCAATACATGGCTTTAAAATTCTAAAATGTAGA autosomal
ATTTTTCTCTTTCGTGTTTGCATTCTGCAAGAGGGAGACAAACAATGCCC autosomal
GAATGAGGTTCTGCATCAGCTCCCAGCTGATCGTCCACCAGAGGATTCAC autosomal
GCTGTCGAAGAGGCCGTGCACGATCACCACGGGCCGGAACGGCGCCCCCC autosomal
CGCCTCCGGGAACCGGCCTGGGAGTACGGAGAGGGTGGGATCAGTGAGGA autosomal
AGGAGGAGGAAGGCGAGGCGCTGAGGCGGCGGCGGGAGCGGCGGCGGCTC autosomal
ACTGCCCTCAGGACAAAGCAAGAGGTCCACGGGAAATGGCCACAGATCTG autosomal
CGCGATTTGCTCCCGCTCGCCGACACCGCCACGAGCCCCGCGCCCGCCCC autosomal
ATATTTTATAACTGTTCTGCACCTGAAGTTTCTGGAATTGCCAACCTGGC autosomal
CCCCTCCGCCCATCCGTGCTGCTTCCTCTTATGCCCCCTTTCTTCTCCTC autosomal
GCTGGAGCTGTCAGAGAAGACTATTCAGGCTAAGCTGTTGGACTTTGCAC autosomal
ATTTATAACAATGTGTAATGACTGTAGCAAAGTCCTTGTTTCTGTATGTG autosomal
AATTCCCGGGCTCCCGGGGGCTCCCGGCGGAGCGGCCGCCGCTGTTCCCG autosomal
CACTTCCCAGCAGAGAGAAACGAAACCCCTTTCTGGACCTTAGATGAGCA autosomal
GCTTTCCATCTCTGTAAATAAGAAAAGGCTAGAGGGAATATATGCTGGGA autosomal
AGGCAGGAGCCCCAAGCCCCAGGCTGGCCACTAAGAAGGCCCAGAGGTAT autosomal
AGACTTCGTGGCCACCTTTACCTTAAAGGTGCTGGATCTTCTGGACCTCT autosomal
GCTCCTCCTGGGCAGCAGCGCTCGGCTGCACTTCCAAGGATTGCTTTCCA autosomal
TGCCTGGGTGACCTGGGGAGTCTTCCTCTTCCTCGCAGACTCCTTCTCCA autosomal
GTACGAGGCGGTGAAGGAGGTGCTGCACGGCAGCCGTGCCAAGAAGCGCA autosomal
GTCCCGAATTTATGTGAGGGTCCCGAATTTATGGGGCGGGAGGGTCGCGA autosomal
CCCGGCACAAGATGGCGGCCGCGACCCTCGCCCGCCGCATCGGCCGCTCA autosomal
CGAGGGGGGAGAAGGAAGCGGCCCTGGAGGCGCCGTCCGATCCCGCCCGC autosomal
CGCCGCCCGCCTGAGCCTCCCGGGGCCGGCCCGGCCCGGCCCGGGGCCGC autosomal
GGGGCAGACCTGACCTACCTGAGCCAGGCCCCAGGGACCTGCGACCCCAA autosomal
CGGGAGTGGCCCCGAGTCCCGCAGCGCAGCTCCGGCTTCCGAGCACGAGC autosomal
ACTCTACTTGTACCCAGTTATTGACCAACATTCAAATAAGAAGATAAAAG autosomal
CACCTTCTTCCATCTTTTCCAAACCTACAAACGGCGCCTCTTTTCCACCG autosomal
GCTGAAATGGCTCCTGTCTTCTCCATTCAGGGTGATGCTCTCATTTGCCA autosomal
AGCATATATGAGTTCTAGGCCTGCCAGACAGGCTGGATAAAGGCATCCCC autosomal
ATGGGCAAATAATAACTTTTCTTCAGGGCTATCCCATCATAAAGGGTAAC autosomal
ACGGAGCGGTGAGAGGGGGCAGCGAGGGGCTGGGGGGCGCAGGGGGGGTG autosomal
ATCCTGCATTTGACTACAACTACACGTTAAATCGTCCTTGTTGCTGGGAA autosomal
GATGCCTACCGATCCTGTATATTTCCTACAAAAATCTAAAATGTGGAGGC autosomal
GGGATGCGGAGGAGGAGGAAAAGAGGAGGAGGAGGAAAAGAGGAGGAGGA autosomal
ACAAACACTTGGCCCATCATTCAAACAGATTTGGGGTGTTTAGGTGACTC autosomal
GCAGCACTGGGGAATCTCCTCCTCCTAACCTTATCTAAAGAGATTTCATA autosomal
CCATTCCCTGTCCCTGCTGTCCCCAGGGTGCCACTCCTCCATGTCCCTGC autosomal
AAGGCGACCTGAGCGCGGAGGAGAAAGAATTGCTGGCAGTGATCTCCACA autosomal
GTAGTCTCTGATACAAGGCTGAAAATGATTCTGAAATACAACAGAAGACA autosomal
CTGCCCCGTCCTTCCCCGCAGGCTGCCTGTGCACCGTCAGCGTCCTGGTC autosomal
CTGCAGAGCAGGAGCAGCATCAGGCACATGAGAAGCAGTTCCTGTGCCAC autosomal
AGGGGAGAGGTGCCATGGTGGGGCTGTGAGGGGAGAGGTGCCATGGTGGG autosomal
CTGGCACGGACCCGGTGGTGACACTGACACGGCCCTGGTGGTAACAGCAA autosomal
AAGTTCCTAAATGCCCAAATCAGCCTCATTCTGATTTTTCAGATGTATCC autosomal
GGAGCACACTAGGCGGATAGCCCCGTGGATGGTTGTGTTGCTGCAGAAGA autosomal
CCCGGCCGGGCGGGGACACGGCGGCGGACGGGCAGAAGGCGGCGGCGGGC autosomal
CCGCCGCCACGGCACCACTTTGGGCGGCCTCATGGCGATCGAGCAAAGCC autosomal
CTGGGTCTGCTCATTTCATCATCACTATCCAGCGGCAGAATTTCATGTGA autosomal
CCGCGCGGCTTTGGCGGTGATTGGCAGGCAGAGAGGGGCGGGGCTCGGAG autosomal
CGCGCCGCCCGCAGCCCCTTCGGCCTCGACGAGCCACCCTGGGTGCCCGA autosomal
AATGCCTGGTCTCCAGGTAACTCAAAATAAGGGGTGCTGAGATAGATATG autosomal
GATGGGCACCGGGCGGGCTGGATCGCGCGGAACGGGGAGACCGAGGGAAC autosomal
AGCTCTGGGGCACAGAAATGGGAGTTGGGGACATTTGGGGACATCTGGGG autosomal
CCCGGCCCGAACGGGCCCGGCCCGGGCCTGGGACAGGGACAGGGACAGGG autosomal
CTGCGGGCAGCAGACTTGATAAACAAACTCCAGATAATGTAGACGTGACA autosomal
AAAATCCTGAAAAAAATGGCAAAAATACCCCCAAAAAATCCCCAAAAAAT autosomal
AAGAAAAAAGGAAAAACAGAGACAGAAAAAGGAAAGAGAAAGAGACAGAA autosomal
GCCGGTGCCAGCGGCCGGCCCGGCCCGGCCCCGCTCCGCCTCCTCCGTCA autosomal
CGGCCCTGGGCTGGGCCGAGGCGGCGGCGGGCGGCGGCGCGGGTCACGGC autosomal
CTGTGCAAAGCACACTCTAGACACTCCAGTCAAGGCCTTTTGCTGTGGTC autosomal
ACAGCCAGCTTTTGTGCTGGGTGTGATGGTGAGACCTTAGCCCATGCGTG autosomal
GCAGTAGTAGGACTCGTAGAGCCAGTCCCGGGAGCGGGACTGTTCGCCGC autosomal
GGGCAGGAGCGCTTCGGCATGGCCGGACCGACCCGCGCCCGCCCCGCCCC autosomal
TTTCTCACTCACTGAGAATTGCTCACGGGCTGTTTAATTTGTTCCGAAAA autosomal
CTGCCCTGCCAAGAATCATGTATCCTGTGATGACATTTCTCAATAAATAA autosomal
CTCCTTCCTTCCCTCCCTCCCTCTCCCCTCCCTCCCCGCCTCGGCCGCTC autosomal
ATCAGTGTCTGCCCTTCTGCTTCCCGTCTTGAGGAGGGGAGATGCGATGA autosomal
GGAAATTGTGGGATCTGGGAAACTTTGGGATCCGGGAAATTTTGGGATCC autosomal
CCCAGTTGATAGGCTGAGGAACACCAATGAGGGAACACAGGATCATATCC autosomal
GGAACTTGGACGCCTTGAAGCGGTTCATGGTGCTCCGGCCGTACCGCTCC autosomal
GGCGAGCGCGGCTGGCGGAGAGAGCGGCGCGGAGCTGGCGGGGATCCCCC autosomal
CCGGCGGGAAGGCGATGTACCGGACCGCCCGGCGCTGCAGCGCCGCCAGG autosomal
GCCCCAAAATCTGGCAGTGCTGGGGGACCCCAGAATCCCATGGAATCCCA autosomal
GATGTCCTGCGTGGAGCTGGAGGGGGTCCGGGCCATGCCGCCTTCCCGCA autosomal
ATGCTGTTGCTAAAAGTGAATGTTTTTATTTGCAGATGTGATTACTACAG autosomal
ACCACCACGGGCGAGGGCTGGATGACCACGCGGGAGTCCTGGCACTGCCG autosomal
CGGTGACAGATGCTGACAATCACGGCGGGCCGGGAGCGCGCAGGGCTCGC autosomal
AAAATATGAATAATTCCTTTTCTCCTTTCCCTGCCAATGTCCTGCAGGAG autosomal
GAAGCAGGGGGGAACAGAGGGGGGCAGGTGGCTGCAGGCAGAGAACACCC autosomal
AGGAGGAGGGGACCCTGACGCCCGTCCTGAGCCACGGCCACGTCCACTTC autosomal
AGCTAAAAAAAAAAAAAAAATAGGAAAGAAAGAGAAAAAGGATAGAAAGG autosomal
CAAACGCCGAGAGACGGCGAGAGAGTGGGAGCGGCGCTCTGAGGGACGGC autosomal
CCCGTCCGACGGCAGCGCCAGCGATGGGGACGGCGTGCGGGTCTCGTGCA autosomal
CCCGATCGATCCCATCCCAGCTGATCCCATCCCAATCGACCCCATCCCGA autosomal
CGCGCCTCCACGTGAGCGCCACATCAGCGCCGCTCCGCGCCTCAAAGTCA autosomal
ATGCTGCGGGCGGGCTGCCGCGCCGCGCTGCCCCGCCGCCCCCCGGGCTC autosomal
ACATGGCGCGGCGCTGAGGGACCGCCGGCGGCACAGCACGACGAGGAGGA autosomal
GCGGATGGCGCCGTACTTGTAGAACACGTCCTCGATGTCCTTGGTACGGA autosomal
AAGGTTCTGTGCGTGGAGCCCGTCATTTTCATCTACATTTTTGCGTCTTC autosomal
GATGTCGGAGAGCGTGGCCGAGGCGCCGGGAGCCGGGAGCCCAGCGGCGC autosomal
AGAGCCGGGCGGGCCCCGCTCCCGGTGCAGGTGGCCGGGCCCCAGCGGAC autosomal
AAACACCAGAGGAAGCAGCAAAGACCATATGCACATCCCTGATCTTTCAA autosomal
ACCCCTCCAGAAACCCAGGACTATCCAACCCAGCCCAGAGCAGATCTTCT autosomal
GATACATGTACGTTCACAAAGAAGAAGAACCCACAGTTAGACCAGCTTGA autosomal
CTTCTCTGCTCACTTGTCTTCAGGCAGCTCCAAAGCCAAAGGAGTGCTGC autosomal
CACAAGAGCTTGTCTGTTCAGCCTCCCTCTGGCAGGGAAACCCCAAAGGA autosomal
CCGCGGCGCGGCCGGAGCGCGGCGTCGGGCTGGGCGCGGAGCAGGCGGGC autosomal
GTTGTAGCCTACCTCGCCGGCTCCGGGATCGGCGCCGCTCGGGTCCCGCA autosomal
ATGATCGACAAGGAGGGCGGCAGGGAGGCGGCCGAGGGCGGCAGCCTGCG autosomal
CCTCGCCGGCTCTGGGCCCAGCCTGCCCCGGCAGAGCAGGGCGAAGCGAA autosomal
CCGGTCCCGCCTCAGCTCCCGCCCCGGCCCCGCGCGGTCCGCCCCAAGCC autosomal
CACTGTTCCTGCAGGTCACTTTGATTCCCTGCCACATCTGACTGCTCACC autosomal
ACGTTATAGCAGCGCACCGCGGCCGCCCACAGGAGCGTCCACAGCACCCG autosomal
ACCCAAAGTGACTTTCCTTAGGCTGAACTACAATAAACTATCTGATGATG autosomal
AAAGGCTGATAATTTTTGGGCACTGTACCAATACATTTTCCTTGACCTGT autosomal
CATTGTGTCTGGGACAAGAGCAAACCAGAGATGTTAATGAGGCTGGGTTA autosomal
CGCTCGGCAGCCACACAAAAGAGCGGCTGCGGCTGCCCCGCTGCTCGGGA autosomal
AGGCACGGCCAAGGAAATACCTGTGGTGTTCGTCACCGCAAAAATGTAAG autosomal
CCAGCCCGGGGATGTCGCCCATCGCTGGCGGCCGGCGGGGCTCCTCCGAG autosomal
GGAGGCGACGCCGGAGCTCTCGTACCGGGAGCAGCTCGACTTCCTGAACC autosomal
CGGAGGAGCGGCCGGGGCTGGGCGGCGCGGTGCGGCCGCTGCGCCGGTCC autosomal
GGGTGTGCACAGGAAGAAAAAAGAGAGAAAGAAAAGAGAAGAGACAAGAA autosomal
CCGCATCCCCCGGGCCGCCGCCGCTGCCGCCGCCGGTCCCGTCCCGGTCC autosomal
AGTGTTTGGTGAAAATGGCAATGTTGTTGTACTGTTACAACCAAAGCACA autosomal
AGCCCTCCGTCAGCTCAGAGAAACACTCGCTCTGAGCTGATACATCCCAC autosomal
AGAAGTTGAGTGGATAGTGGTGTTTGTGATGACTTTCATCAGTTGCAACG autosomal
CGCCATGGCGGGGAAGGCGGCCGCGGCCGGCGCCGGGGTGCTCCTGGTCA autosomal
TCCTTTCCTTCCCCATTAGCAGCAACAGAGTCTGTCATTTTTCACCCCCA autosomal
AGGAGCGAGTCTGCCTCCGAGTCGGCGGCAAGGTGTTCTGCACCGGCGAG autosomal
GCGCCTCCTCCTCGTCGTGCTGTGCCGCCGGCGGTCCCTCAGCGCCGCGC autosomal
CAGAGCCGCCCCCTCTCCGCCTCCCCACTGGCGCTTCCAGCGCCGGCAGC autosomal
GAAGCCCATTGTTTCAAAAATCTGCTCTTCCCTAGGAGAAAAAAAGAAGC autosomal
CTCCCGGTGCCTCCCGGTCCTTCCCGGCTCCTCCGGCCCGGCCGCGCCTC autosomal
GAGCCGGCGCGGCTGGAGCGGCTGGAGCGGCGCGTGCGGGAGCTGGAGGA autosomal
CAGTGAGGTGCGGGTAAAGGAAAGTGAAAGTACGCCTTGGGACTTGGGTA autosomal
ATGCTTGCCATTCCGCTCCTTCTCTTGCTTGTGCCAGGCCTCATCCTGTA autosomal
AGGCTCTGCCCCGCGTCCTCCCGGCCCGGGCACCCGCAGAGCCGCATCGG autosomal
CATTTTATATGCAAAGTGGGGCTTATGAATCGGTGTCACTGCCATAAGGG autosomal
GCTGGAAGAGAGGGATCGCCTGCTGGAAACGCTCCGCGAAACTCAGGAGA autosomal
AGCACCCCATGGCAGCCCTGGAGCGGGACCGGCTGTACCAGCACAAGGTG autosomal
AGTGCATCACACAGTCACACAGATTATTTCCCAGATGTAATGGATCACAC autosomal
CCCCTCCCCCGTCGGTAGCGGCTCCGCCGGGCGCCGCCGCGGCCATGGAC autosomal
CCCGGCTTGCAGAGGGCTGGCAGGGCTGACACCGAGTAGACGCTGAGGTC autosomal
AACTGTCAACACATCATTCTGAAGAATTGTGTGGAGACTTTGTGAACTGA autosomal
CTGCGGGACCTGCAGGCCGCCATCGCCGACGTGTGCTCCCGGGCCGGCGC autosomal
GCCCAGGGTCTCCACGGCGCAGGCGAGGCAGAGCGGCGGGCGGAGCGGCA autosomal
AGGGCTGGCCAGGCCGGGGGAGGGAAGAGATGGGAAGGGGAGATCGCCCC autosomal
CATTCAAGCAGCAAGAGCTGTTCTGCTGATGTCTGTGTCTGTGGGAAAGA autosomal
GCCGGCCGCGGGGCCGCGTACCCCGGGCCCCGGGTGCGCTCCGCTCCGCC autosomal
CAGTATAACCCAGTACAAACCAGTATAACCCATCTCACTGATGACGCTGA autosomal
CCCGGCGGAGCGCGGCCCCAGCGCGGCTCGGCTCCGCTGTGCTCCCGCGG autosomal
AATTTTTGAAATTATTATTTAGTTACTTAGTTCCTAATAAATGTTTGGTA autosomal
CTGCTTCTCCTGCTCCGAAACACAGCTCCTGGACTGGGTTTGGGATAGCA autosomal
GGCAGACGCTCCGCGGCGGCGGAGCCCCGGCCCGTCCCCCGCGCTCCGCC autosomal
CCGGGTGCAGCCCCGAGCCGGCGGTGCACAGGGCGGGTCCCGGAGCCCCC autosomal
TTCCCACAAATTCCGCCGAATTCCCCCAAAATTGTCTCCAAATTCCCAAA autosomal
CATTGCTTGCACACCAGGTGCCCGGCCTGGCACTGCAGGATGGGCGGCAG autosomal
AGAGCGAGCGCCGCGCTCACGACGCCGGCAGTAACGGCGGAGCCAGCACC autosomal
AGCCCGCTGCTGCCTCCGGCCCGGCCGAGCCTCGCACAGGCCCGAGCGCC autosomal
CCAGCGCGCAGCACAGCGCGCAGAGCAGCGCGGCCGCCGCCCGGGGCCGC autosomal
CACGCGCCGCCGGCAGCCATTGGCCGCTCGGGCGGTGCCCGCCGCGGGGC autosomal
CACTGAAATCAAACTGCTTCACCAGTCCTCTGAGCTCAGTAGAGGGAGGG autosomal
AAGCGTGCGGGGTGGGGGTAGGGGCTCAGCTGTTCACGGCTGCCTGTCCT autosomal
ATGGAAAAGACCTTTTGCAAAGAGGCAGTGTGAAGAGCTTTGCATAGAGA autosomal
ACCGCCCCAAATCAATCCCGAACCACGCTCCCAAAGCCCCGAGCAGCGGA autosomal
TTCATTAAAACCCCGCCCATTAATCTTAAACCCCGCCCATTGCCTCACAA autosomal
GTGAGAAGGAATGTTTTTCCCAAAGTGCGAAAACGGAACTCCCAGAAAAA autosomal
CTCTCGCAGGACACCAGCAGCCGGAGAACCAGCCCGAAGAGCTTCCCTGC autosomal
CTGGCGAGCGCGGCGCCGCGGGCCGCCTTGGCCAGCAGCAGGAACTGCTC autosomal
GGCTCCCCGCGCTGCCCCATGACGCTCCCGCCGCACAGAAGGACTCGCCA autosomal
CCGCGTCTCCATCTACAGCCTCCGCAAGCCCCTGCTGAGCCGCAGCAGCG autosomal
CGGGCGGGCGGCGAGAGCGGCGCCCCGGGCTCCTCCTGCGCGCCGGAACC autosomal
CGCGGTACGCGGCAAAAGCCGTCCCCCATGGGCGGCCGGTACGCCGCGCC autosomal
GTACAATACCTCTGTTCACTTCTGCCTCTCAGCTCTCTGTCCTCAGGGAA autosomal
GAGCCGCAGGGAGCCGAGCAGAGCTCCGGGGTCCCAGAGAGAGCTCTCCC autosomal
ATTTATTAGAGCTTTATTTCTGTTTCCTTCTATTTATTTATTGTATTATA autosomal
TAGAAGAGCAGACTGCTTTTCCATGGGCTGAGTTAGCAGGAGTCTGTCAA autosomal
CCGCCTCCGCCGCCTCAGCGCTGCCGGAGCCGGCGGCGCTCGGAGCGACC autosomal
AAAGATCATTCTGCATTTAGGCCATATGCTTGACAGTGTGTCTTTCATCT autosomal
ACTTATAAAGTATTGTGTTTTATTAGGAATGAAGAAGCAAAAGGCAAGAA autosomal
ATTTTCCTAAATTTTTTCCAATTTTTCCTATTTTTTCTTTCCAAATTTTC autosomal
CCCCCCGGGAGCAGCAGCAGGAGCAGCTGCGGATCGGGGAGAGCGGGCAG autosomal
GGGAACACGTTACCATGGCCTGCAAATCCCTGTTGCTTAGCTGAAGTACA autosomal
CATGGGGAACTGCTGGGCGCAGTGGTGCTGCGGGCTGTTCTTCCGGAGGG autosomal
CACATCCCCAGCCCTACCTGCTCTCCTCACAGAGCTCTCCTTCCCAGCCC autosomal
GCTGGGCGTGAGGCTCCTGGGTGACACAAGAACAGCTCCAGGTCACACAC autosomal
CAGCCACTCGGGCCGGCGGGGCCGCCATGCCCCGCAGGGGAAGGCCCAGC autosomal
CTGTGGATGTTAATTAAGCCACTCTTTATTTTTAGATTTTCTTCATATGA autosomal
CGCTGAAGGGGAGGAGGCAAGCGTGCGGGGCGGGGAAGAGAAGGGCGGCC autosomal
AGGAAGAAAGTTCTCAGCAACCACATCATCACGGCTCTTCTTAGGGCTTC autosomal
AGTTGTTGCCCTCACAGTAGCCCCCCAGCACGGCCATCCTGGCAGGTCAC autosomal
CACCGACACCGCGGCCATCTTGGACCGCGCCGCGCCCCGCCCACCCGGGG autosomal
AGTCCCGGCGGCACGGCCGCGAGCCCCCGTCCGGAGCAGTCCACGCCGCG autosomal
CATTATTTAGTGGCAATTCCCCTTGTCCTTGTCACAGCCAGAGACAAAAA autosomal
CCCGCTCCCGCCGCCGCCGCTCAGTCCCGGGGTCCCGGCCCCGCCATCCC autosomal
CGCGCTGGCGGCGGTGGCGGCCATGGCGGGGGTCCCGGGCCGCCCCCTCC autosomal
ATGGCCGCGGCGGGCGAGGAGTCGCTGCATCGGCTGTCGGGGACGAGCCC autosomal
GAGACAAGGGAAACCAAGACCTAGCTGTGAGAGCTCAGCAGCAGTTTCAC autosomal
CCGCTGGATCCATCCCTGCCGGAGAAGCAGCTGCGGGAGCCAGCAACCGG autosomal
GCCCGCCGGGATGGACGGGGAGCGGCGGGAGCCCGAGGAGGGCGAGGAGC autosomal
ATGGCAGAGGCTCCTCAGAGCCCCTGAGTGATGGCAGAGGCTCCTCACAG autosomal
CCAGATGTGTGGCAGGAGCTGTGGAGCAGAGGAAATGACAAGGACCTAAG autosomal
ACCGTACCACACTACAGGTAGACAGACAGACCGGGGCCAGCGGTAAGGCG autosomal
AACAAGCTCATGGCTGAAAATACCAGCTCCCACACTTGGAAAAAGTAGGT autosomal
CTGAGCTATGGGGCAGGATTCGCCCTGTGGACCGCGCTGGCCCTGACCAA autosomal
CTATGGGCACCACTTCTTTCCTGACGAGGGCCCAGAGTCTGCTCCGCGTC autosomal
CCCGGTGAGGCTCACCGGCCCGGAGGGGAACCAACAAAGGGTATATACCC autosomal
GAAGCGGAGGGGACAAAGCCCCGGGAAGCAGAGGGACAGAGCCCCGGGAA autosomal
CGGGGGCCGCACGCGCGAGTACCCGGCCGCGTCCATCGACCGCTTCGACC autosomal
CCCGCGCCGTGCCCGCTCCGCGCTGGCAGCCGCGGCGCCGGCCGGGGGAG autosomal
GCCGGACCGGGCCCAGCGCAGCCCCAGCCCGTCACGGAGCCTGCCGGCCC autosomal
CCTCCAGAGATGAAAAAAAGAAAAAAAAAAATTGTATATATAGAGATATA autosomal
AAATTGCCCTCATCATTATCTCTGGGCTTGTCAATCAAATATATTCCCTT autosomal
GCTCCGCATCCCCGCCGGGACCGGGGCCGGGACCGGGGCTGGGACCGGCC autosomal
GTCGGGGCGGTGTCGGTGCAGGATGGCGCAGAAGGCGAGGCCGTCGCGGA autosomal
CCTCGCCAACCTCGCCGAGGTGGTGGAGCGTGTCCTCGGCTTCCTGCCCA autosomal
GCCGCGCCGCTCCCGCTGCGGCAGCGCCCCCGCTCCGCTCTCCGCTCTCC autosomal
GGCCGGCGGCGCGCCCGCCTAGGCCGGAGCAGCATCCGCCGCCATCCGCA autosomal
AAAAGGGGGAAACACCGAAAAATTAGGGAGAGAACCCATAAATGGAGATG autosomal
CCACCTTGTCCAGGGTGAGTTTGTTGGAGAGAGACATGTTTGCTGCTAGC autosomal
AGCCGTGCCATTCTCCTGGAAGCAAAACTGGACCACGGAGTCACAGAGGC autosomal
CAGCCGGTGCGAGCGGAGCCCCGAGCCCAGCCGAGCCGACACCATGCCCA autosomal
ACGAGCAGCCGCCGCTCATCGGGAATGCCGGGACGGGCCATGGCGGCCGC autosomal
AACCATGGAATCCCAGACTGGCTTGGGATGGAAGAGACCTTAGAGCCCAT autosomal
GGAAGGGCTCCGTCCGTGGGAAGGGAAATTTTGGGTGTCGGGACTGAAAA autosomal
CGCTCGCCCATCCCTGCTCCCCTCCCACCGCAGCACCGGGACCGGGTCGC autosomal
CCGGACAACATGGATATACCGGTCCACAGGTGGCCCCGAAAACTTTCTGA autosomal
AGATGGGGTCCATACTCCTCCTGGAAGCCCTAATTGTTGAGGGGAGAAGG autosomal
AAGTGTTTGTCACCTTTTGCAGGCTGATGATTTTGGCGATATTGCAAGCT autosomal
AACGGGGCCGGGGCTCTCCCGCCTTCCGCGGGCTGCCTCTCGCCGTTCGT autosomal
ACAGGAAGTTTTTTTTTTGTTGTTTTCCTGAGAACACTTTCTGCTTTTTC autosomal
CCTCCAGCGCACCTGGCTGCAGGTCCTGCTGGTGCTGGGTCTCGTGCAAG autosomal
AGCTTGCAGGATTACCAGATCCTCAGTCTTGGAGGAAAAAAAAAAGGAAA autosomal
TGATGCGGCCACTTCTTGCACGAAGGCGTTGTCCATGTTTCAGCCCCAAA autosomal
GAGCGTTGAACACCAGGTAACAAAGGGTGCAGAACAGCCCCCGACTTTCC autosomal
AAAGAGGCTTTCCAAGCAGCATCTCTCCCAGAATACAGCCAATGCTCCAC autosomal
CGAGCGCCGCCCGCCGCCGCCGCGCCAGACGTGCCCCGCGAGTCCGCAGA autosomal
AGACGCGGCGGCCCCGCGGCGCCTCCTCCATGGCCGCGGCCCGGGACGCG autosomal
ACCCCGCCGCCCGCCGCCGCCGCCGGCCAGGGCTTGCACCCGGGGCTGCG autosomal
CTGCACCATGGATTTTCCATCCTGGAAGGCCAAGATTGAGAGTGTCCTGC autosomal
CAGGAGTGAAGGTGCCACAGTGACGAGCGGGGTCTCGATTCCCACACTCC autosomal
AAAATACACTAAAAATACTCTCCAGGACATGGCTTTTCCTGGCTGTGCCA autosomal
ACAGCCGTGTGGTCCCCATCGGAGGTGCACGTGCTGTGCTCTGGCCAGCT autosomal
CCAGCACTGCTGCTGAGTTGGCTTTGCTGGTTTCTTCCTTATCTTGGGAG autosomal
CGCGTTCGTCTTCTTCGCCTTGGGGCCGCCGCTGCCCGGGGCCCCGCCGC autosomal
GCAGCGTGCTGGCCCAGTCTCCTTGAGGGCCGCGCGTGTGTCCGCGGGCC autosomal
GGACAGCTCCATCTTCTCATTTTCTAAAGGAGGAACATACTTTGTAGGAC autosomal
GCGCTTCCTGCTGATCTCCCGCTTCAGGATGTCCATGGCGGCCTCGGGAA autosomal
CTGTCTGCCGTCAGGTTGGGGTGGAGGAGGCTGCCCACCATGTCACATAA autosomal
CCCAGCACCTTGGCTGGAAGATAATTTGGATCCAGAGGGTCTTCCCACAG autosomal
ACGGGATCGGCTGTAACGGGATCGGGGAATGGGATCGGGGGAATGGGATC autosomal
AGTCGGCAGCCGCGTCCATGGCTCCCGCTGCCGCCTGTGTCCCCGCCCGG autosomal
CCTTCATTTGAATTCAAGTAATTTTCAAGGACTCCAGTCTTTGAACAAAA autosomal
GATAGAGGCTGTCATCCTTGAAGTTACAGAAGTGGATGTGGAACGGATCC autosomal
AAGGGGGGAAATAGGGAAAAATGGGGAAAAAATGGGGGAAATGGGAAAAA autosomal
CTCGGCCCCGGCGATGGCGGCGGGCGGCGGGCGGGAGGCGCCGGGCGCCC autosomal
TCAGTGCTTCAATCTCTAAATACACTTACACACTAACCAGAAAGAGAGCA autosomal
AAGGTTTGGATCTCCAATTAATTGTATTTTCTCCTTCTCAAATTTGTGTG autosomal
GTCGGCGCCGGTAACGGCGGTGGGCGAAGGGCGCTCCGGGCGGAGCGGGA autosomal
GAGCCGCTCCCCAGGCTGCGGTGGGTGTGTGCTCCGGAAAACGCCTGGAA autosomal
GAAAGAAATAAAAGCACCTAAACACACAAGAACATCAGGACTGTACTTTC autosomal
TGCAGGCCCTGAGCGTGTCCTGGAGGGGGCTCTGCTTCTCCTCGTAAGAA autosomal
CGGCAGCAGCGGGTGGGAAGCTGGCGGAGGGCGAGAGGCTGGCACGCAGC autosomal
CCCGCCCGCCGAGCTCGGCCCGGCACCGCCCGGCACCGCCCGCCGCCGCC autosomal
CTGCTGGCAGTAGCTGTTCTGCTCCGTCTCATGGATGCGGAGCAGCAGGA autosomal
AAGGAAACATTTTACTTTAAGCAGGGGGAACGATAATACAGCACTGCACA autosomal
TTTTTGTTTCCCTTGGGGTAGAGGTGCACGCAAGGAAAAAAAAAAAAAAA autosomal
AGCACATCTGATGGTGAAACACAAGAGTCTGCGGCTGTAACTCTGCCTGC autosomal
AGAGCGGCAGGGAGATCCCGGGGACGCGCTCCGAGCCCGGCACCACCCCG autosomal
CACCCACCTATACCCGTATCACCCATGTCTCCTTCCATGTCCTTGGCTCC autosomal
AGGGAAAAAACCCTTCTGATCTCCAACCTAAACCTCCCCGGACACAGTTC autosomal
GATGTCACCGCCGGGATGTCGCTGCCGAGATGTGACAGCGCTGTCGCGCC autosomal
GCAGAAAGGAGGAGCATCTGCTGACTTGTTGGTCTTCTGAAAACTGACGC autosomal
CTGAGAGGAGCTCCCGCCAGTGCTGACAGCTGAGGGCATGTCACAGTTCC autosomal
CACGGCGGGGCCGGGGTCGGGGCCATGTCGCGGCGGGAGCGGGGCCCGGA autosomal
CGTGCCAGCCCCGGTCCGTGGCCATGGAGGGAGACACCGGATCCGGGGTC autosomal
ACCGGGGGGGGGGTTGCGGGGGTCTCATTGGCCGGTGCGCTCGCGCCGCC autosomal
CCTGAGGAGCACTTTTGGAGATGAGGGGGGCGATCCCTAAGGGGGCTGAG autosomal
AGGCGCTATGGGCAGCAGCACGGAGCAGCAGCGGATGAAAACAAGAGGAG autosomal
CAGGTGAGAGGCATGGAGAAATCACAGGTTGGAGAGATGGGATCCGGCAC autosomal
GAGGGGCCCGCCGGGCGGCAAAAGGGCGGCTCAAGGCAGGGACGTCGTGA autosomal
TTCCACGGCCGCTGCCTGCTCTTCACCGAGGGCATGTGGCTCAACGCCAA autosomal
GCATTACAGCTACTTATAGTCCTCCAGCTACATTGTAGCAAGAAAATAAA autosomal
CCCTGCTGGCCGCCGCCACCGCCGCGCTGCCCGCCAGCGCCGCGCCGCCC autosomal
CCCCGGGCAGCAGCAGAGCCTGGCGGCGCCGGGCGGGCCGGTGCCGGTGC autosomal
AAGTTGGGGATATTTACTGCAAATAGTGTTTAAAAAAGCCCCATGAGGAG autosomal
CTACTTGGAATGGAAGGCAAAGCTGGAGGAGCAGGCTTGGAAGAGCCCCC autosomal
CATGGCAGCTGCGAGGGACACGGCGCTGCTGGCCTGCGTCCTCTTCCTCG autosomal
CGGGGCCGGTCGCCGGTCGCCGCCGTGGCCATGGCGCATCGCCTGTTGCC autosomal
CACCACATGAAGAGGTCCCGGCTGAGCTGAGGCACTGCTGCGAGGCTGAA autosomal
GGGGAGTTGCCATAGAAACGGGGGGAAACCCAACTGGGGGGGGGGGGGGA autosomal
GCATGCCGGCCGTGACCCGCGCCTACACCACCGCCTGCGTGCTCACCACC autosomal
CCCCCCCGGGACCCCCCGGCTCAGCAGCGGCGCCCCCCCCCGCCCCCCGG autosomal
CAGCGGCTCGGGGAGCGCCGGAGCGCGGCGGCGGGAGCAGATGGAGCCGG autosomal
ATGTAAATGATGTAGGACAGCACCACCAGGCCGATGATGGCGAAAAACAT autosomal
ATAAAAAAAAAAAAAACACCACCACCACCAAAAACCCAAACCAACTGCAA autosomal
GGATCGGGTCACACACATCAAGTGTCGTAATCGCCAGGAGGTTTGGGAAC autosomal
ATCCTGCACGCTCAGCGGGATATCCAACATGCACATCTGCACGGGCTGCA autosomal
ATGGGCGTGCGGATCTCCGCCAGGAGCCCGCCCCGCCGCCGGGATCGCCC autosomal
GCGGGCAGCTGCTGCTCTCCAGCGGGCTGCCCTCCCTGGACTGTGTGCTA autosomal
CAAGCTGAGTCCGACACTCAGTGTGCAGAGTGTCAGTTTGTCAAATACCC autosomal
AGGTAGGGCTGGCCCCTCTCCACGCCCCCCACCACGATGTCGGCTGAGGC autosomal
CGCTCGGCCGAGGCGGCCCCGCGCCGGCCGCTGCTGAAGTTCTCCAGGAA autosomal
AAACTGCCAATCAGCTGGACAAGGACCATGCAAAAGGTACGAGGGGGACA autosomal
CATGCGCCGTGCGCGGACAAGATGGCGGCGCCCGTGGATCTGGAGCTCAA autosomal
CCGCCCTGAGAGCGGCCGGTCTCGCCTGATCTCGGAAGCTAAGCAGGGTC autosomal
ATCTATACAGTCCTTCCTGGTAGACTGGAAAAATCGGTAAATGAAATCTC autosomal
ATGATGGAGAGTTTGTACTGGAAGCGCAGGAAGATGCGGATGCCGAGGTA autosomal
CACGGACTCACTTAATATCTCTTCCTCTTTCACATTTGTTCCTAGGGGCG autosomal
CAAGACCCCCCCCAGGACCCCCCAAAATCCCCCCAAACCCCCCCAGACCC autosomal
ATTCCTGGTACCATGGAATTAGGGGCAAGTAGGCTGACATTGGCTTACAC autosomal
CGGGACCCCTGGGCCACCCTCAGCCCCACTCGAACCCTCCCGTGCCCCCC autosomal
AACCCGGGGCCGCGGCCCCAGTCAGGAAGGTCGTGCTCAAACATTCGTAT autosomal
CAGGGACGCCGCGGCCGCCATCGCCACCAGACAGGACGGACGGAGCGGCG autosomal
AGTTCCCAGACCAATCTTTTCTCAGTTGTATTTGGAAGCTGAACAGCAGC autosomal
AAAGGGACTTCAAGTACTCCTCCGGCTTGCGAGCGCTGCAACCAGCCCCC autosomal
CCAGAGCAGCGGCCGCAGGAACGCCTCCAGGATGAAGTACACGAGAACGG autosomal
CCTTCAGGGCAGCCCCGCCGCGCGAATGGCGGCGTCGGCGGCGACAATGA autosomal
ACGGCCGCGGGAGGAGGCGGCTGCCGGGTGCGCCGTGGGCTCTCAGCGAT autosomal
GGGGACTCTCCCCGCGCCGGGCCGGGGTCCGCGGGGCCCGCAGCCCGGCA autosomal
CGATGCCGCTGTGAGATGGCATCATTCTGCGCGGCGGCGGCGGCGGAGCG autosomal
CGCTCTGATGATGTGTGCAGCAAGGCTGATAATATGCTTTTTATAGCATA autosomal
GCCAGATGAAGCGTATGTCAACAAAGCATCAGAAAAATAATGTCAGCAGA autosomal
ACAAGCCCCGGCACAGGTGGCAGGACAAGACCAACACGGTCTAACAGGAC autosomal
CGGCAGCGGCAGCGCAGCTCCGTGAGCACCGATTTCACCTTGTTCCGGGA autosomal
CCCGGCTTGTGGCAGCCCCGCTCGCCGCCGATCCTTGGGCCTGAGGCAAC autosomal
CTGCTCCTGCCGCTCCTGCCGCTGCGCGCCCGCGCCGACGAGCACGAGCA autosomal
CCGGGCAGTTTCATTGCCGTGCCACCGCCGCCGCCCGGACGGGCATGGAG autosomal
ACGGGGGGCACACACGGGGGCACACATGGGGGGCACACACGGGGGGCACA autosomal
GCCGGCCCCGCGCCCTCCTCCTCCTCCTGCTGCAGCCGCCGCCCGGCGCC autosomal
GATGACCTATTTCAGCAATAAAATGCCAAATTCTAAAGCCAAGGCTTGGC autosomal
CGGAACCGAACGGAACCGAGCCCAGCCGAACGGAACGGAGCGGAACCGAA autosomal
CCCCGCCATCCCCGTTCCGTCCCGCCCCTGCCCGGCGCCGCTGAGCGCCC autosomal
GCGGTACGCGCCGCTCTGGCGGCAGCGGGCGGCCCAGCCGCCCTTGGGGA autosomal
GAGGGACAGAGGTACAGCCGGAGGGACCGACACACGGACAGACAGAGTTA autosomal
AGCGGCCCCGCCGGGGCGCGCAGCTCCCCCGGCCGCCGAGGGGCGCCGGG autosomal
TCCAGCGTGCCAAAAGAAGCTGCTTTGGGAAGAAGCCAAGAAGATGGAGA autosomal
AAGATGGCCGCCGGCGGCTTCGGCGTGCGCGGAGGTGGGAGGTGAGGGGC autosomal
AGGCTCCGCGCTCGCTCCCGGCCGCCGCCGCTGCCGCGCCGAGCGGAGCG autosomal
CCAGCGCCATCGGGCACAGCCGCGGCGGTGCGGACGAGGCTCCGCAGAGC autosomal
ATTACAAGCACCTTCCTTTCCAAGGCACCAATGTAGCTCCAGTGGAACAA autosomal
GCTCGCTCACCGGCTCTGCCGAGCCGCCCGCCCGCCCGGGCGGGGCCGCC autosomal
CCCCGGGAAGGAGTTTGGGAGTTGATGAGGATGCTGTTTATTTGTAGGAA autosomal
CAGGGGGGGCCCAGGTCGCTGTGGGGCTCCCCATGGGGGTCCCTTGGCTC autosomal
CAGGAGCCGGCGGGGGGGGGGGCTGAGGAAAGGGAAGAAACGCGGCGAGG autosomal
CCCCCTTTCCTCCACCACCTTCCATCCCCCCCTTTCCTCTTCCAGCGACA autosomal
ATGACATCAGCAGTCCACACACTCCATGGTTGGCAACCTAAGGTAGCAAT autosomal
CTTTGGCTTCACTGACACTTCACTGGTGTCTTCAAACCATTCCTTCCATC autosomal
CAAAACCAAATGTTCCTGGAAGTAGTAAGAAATTAATGTCAATTCTCTCC autosomal
AAGGAAGGAAAATTAATACATTGTATGTATTAACCCAGCAGTCAAAACAT autosomal
TCCAGAACCTTATTTTGGGGGGTTTTGAGGAATTTTGGGGTTTCGGAAGA autosomal
GGATGAACTCGTCGAGGCGCGGCGGGGCCCAGCCGGCCGCGGCCATGGCC autosomal
GCCCTCCAGGTAGCCCAGGGCGCTGCAGGTGGCCAGGAGCTCGCAGTTCA autosomal
CGGAGCGGAGCCGGGCCGAGCCGAGCCGAGCGCGGCCGAGCGGACCGGAA autosomal
CCCCCGGCTCCTCAGCACTCCCACTGCCCTGACCGCCCTTGCAGGAGCTC autosomal
CCCGGGAACAGCACCTGGAGGCGGGGCCTGGTGTCGGCGCCATTTTAGCG autosomal
GGGCAGCCGGGCGGGCAGCGACTCCATGGCCAGCATGGCGTGCGAGGTGA autosomal
CGGCCCGCGCCGGTGCCCGCTCCCACCGCCGCCGCCGCCGCCGCCGTGCC autosomal
AGGGGCCACGAAGAGGAACAGGCCAAACGTGCAGGTGGGTGCCCTGGTCC autosomal
CGGCCACGGGCCAGCGGCCGCCGCCATGTTTGTTGTGTGACGCCGCGCAA autosomal
CTGAATCATAATTAATTTACATGAAGAATTTTGGTATGTTATTGATGTAA autosomal
CAGCTGTGCCAGCCTGCTGATTCCCAAAGTCATTCCAAGGACCAAACTCC autosomal
AGGAAGCGGAGGAGAGGGGGCGGCGGCAGCGGTAACAGCCCCCGGCCCGC autosomal
CGCGTACCTGCAGCGGTACCTGAGCGGCCCCGCCGAGCCCGCCCGGGCCC autosomal
CCGCCATGGGGCGCGGCGGGGCGGCCGCGGCTCCGGTACCAGACCGAGCG autosomal
CTCTGTAAAACAGACATTGAGGGAAGGCTCTGGCTGCTCTTTCGGCCTAA autosomal
GACCACCCGCGTCCTCCCGAAGCACACCGTGACTTTCATCCTGTGCGGCC autosomal
CTCACGCAGCGGGGGGGCGGTGGCCGGCACCGCGCCACTTCCACCTCTGC autosomal
GGACATGGCGGACGGCAGCAGGCAGAGCCGGTTGGCCGCGGCCAAGAAGA autosomal
CAGCTCCCGGCAAGCTCCGCGCCCCGCCGCCGCGCTCCGCCGCTGGCCGC autosomal
ACTAGAATTGGGATAGCCCCCACTCAAAAAAAAAAAAATCGCCAAAAAAA autosomal
GCGCCGGTGCAACACCAAGAGAGAAGTAAGAACCATGTCCAGGCGAGAAA autosomal
CGGCGTCGGCAGCAGCGCGGCTCGCCACGCTCCCCTCCCGACCCGCAGAG autosomal
AAAGTGTTGACGAGGCTGTTGGTGAGGCGCGGGGACTCCGCGGGGCTGGA autosomal
AGCCCCCCTGAGCACCCCGGGGTCCCCCGTCCTCCACAGGGCTCTGTCCC autosomal
AGATGGCGTCGCTGCTGCAATCCGAGCGGGTGCTGTACCTGGTGCGCGGA autosomal
TCCCAATGCAGCAGAAAAACATACTGTGATCTTGGGAGAATCTTTCTGAA autosomal
GAAGCTGAGCATTTGCGGGAGGTGTGGAGCGCCGGCGGCTCGGAGGAGAA autosomal
TCAACGGTAGGACTATGTGTGACTGACACTTGGGATATATGTATATAGCA autosomal
CGAGCTCTGCCCGAAGCTCTGCCGGCACTCGCCGCACGTGTTGGGGACGC autosomal
CCAGCACGGCCGACAGCCCCGGCGGGCCGCGCACCGGCGGCTCCATGGCG autosomal
GCATTCAGAGCCGTCCTTGGGTGAGGGAGTGATGCTTGCAGAGGACCCCA autosomal
CCCGGTCGGGTGATGGGGCGGGGCGGGGGCGACCCGGCACAGCGGTGGAA autosomal
CGACGCGCGCAAGGCGGCCACGCTGCCCCCGCGGCCCCGGCCGCATGGCA autosomal
GCTGGCACGGCAGCGCCCCGGTGCCATCGGCCTCACCGTCCTCTCCTCCC autosomal
AAATGTGCGCAACCGAGCTCATTTAAAATTCGGTTTTAATTGCGCAGCCC autosomal
GGCTGCCGCGGCCCGAGCCATGGGTGTCCCCGCCGCAGGACCGCAAGCAC autosomal
ACACGTCCCGCTTGTCCTTCGAGGAGCGGCCCATGGCTGGTACGGGCACC autosomal
CCGCGGGCACCCGGGCACGGGGCTTCCACCCACCCACGCACCCACACCCG autosomal
AAATTATTACTGCTACTTAAGCTAACCTTTCTATATTCCACCCCACTGCT autosomal
CGCTGTGGCTGAGCCGCATGGAGAAGGAGCTGGGCGAGCAGGAGAGCCAG autosomal
ATCCCTGGGCTATCAGGGTTTGGGAGGAGTTGCCTTTGAAACTACCACGG autosomal
AGCAGCCTCATTACGCTGCTATTTAACTTTCTATGAGTATTTCAAGCAAG autosomal
GGACTAAGGCATGATGAAGAGGACAGGAATTCCACACTTCATTTCCATGA autosomal
ATCCCACCGGGCCGGTCGCAGCCGCCCGTCCCCTGCGGGCCCCGGTTCGG autosomal
GCCGCTTGAGCCGGGAGCGGATCGCCAGGCGCTCGGTCTCGGCGCGGAGC autosomal
CTCCGGGACGGGCAGAAGGCCGAGGCCGCAGGCGGGAGCGGAGGCGCGGA autosomal
CTTCCGCGGAGGCGGTGGCGGGGTCGCTCCTCCGCACAGGACGTTTGCGC autosomal
GCCCTTGGCCAGCGCGATCAGCTCCTGGTCGGCGGGGGAGCACATGTTGA autosomal
AGTCCCAAACCAGAGTGCCACTTGGGAATCAGCCCCTGTTTGCAGAAAGA autosomal
GACGACTTGGTGAGAGGCCTCCTGCAGAAAGCCCCGGGGCTGCCGAGCCA autosomal
CTGGCTTAAATTCAGTCCCATTCACTGTAATGGTGTGCTCAGGTGACAGC autosomal
CGGGACCTCTACGGGCTGCTGGGGATCGGCGAGAAGGCGTCCGAGAAGGA autosomal
AGCGGAGCCGGGCAGGGTGAAGGGCAGGCAGCGGCGGTCGCCGGAGAGCG autosomal
CCACACCGGGCTGTCCCTTCCCCTGCTGGACAGGGTGGCCAGGACACTGC autosomal
GGGGCCGGCAGCCTCACCGCCACGGCCCCTGCGCACCCGCGGGCCCGGCA autosomal
GCGCCGCTCTCCTCTCACCGCCTGGGCGCCGCCATCTTCCCGGCGCAACC autosomal
ACCGGGACAATCCTGCCCGCCTTCCTGCCCGCCCGCCCCGCCGGCCCCGG autosomal
CCGCCGGCTCGGGCCTAGGCAGCGCGAACCGGGCGCGCCCCCGGGACCCC autosomal
ACCCTTCCTGTGAAGAAATTTCTTCTTATATCCAGTATAAACAACCCTAG autosomal
CAGATGTCCGTGGCCTTGTCTGGGATCCAGGGGGCCGCGGGCTCCCTGCA autosomal
ACACCTTGGGCCCTCCATGCTCCAGTTCCCGCACAGGCACGTTGGATTCG autosomal
GCCCTAGCCTACACCTGTGTCCAATTCTTCATGACCCGTGAACCCCACCC autosomal
AAGGAGCAAGTTGAGCCCTGCATCCTGAGCATGGCAAGCCATGGAAGAGC autosomal
CGAAGCCGCTCGGCAGGTCAGGCAAAGGGCCCCGCGGCGTTTCCAGCGCC autosomal
ACAAACATCTCTAAAGGACTCTGGCTAGACTTGAAAACAACAGGAATGAC autosomal
TATGGCCTGCTCTGCAGGACTGTCACCAAGATAGTGATCTTTGTCAAGAA autosomal
AGGAGAAGAAGGAGGCGGAGGAGCTGGTGGAGGAGGAGGAGGCACCGCTG autosomal
CTGGGGGCGGCGGGCGGGGGGCGCCCGGCCATGGCGGCGGCGAAGGCAGC autosomal
ACGCTGCGCGGGCCCGGCCCCGGCGGCGGCGGCCCCGGGCTGTGCCTGGA autosomal
AGTCATCAAAAGATTAAAAGAATCATCTTTTTCACCCTCTTCTGGACTTG autosomal
GAGGAGGACATCTGCAGAGAAGTCAAGGACCTGGAAGCAGAATGAAGCCC autosomal
CCGGACAGCGCCGGCAGCCCCGCAGGCAGCGGGCAGCACCGGACAGCGCC autosomal
CTGGCGCAGGAGCGGCCCCAATATTTGCAAACACGGCGCGGACTCTGCGA autosomal
CCCCGAGCATCCTTCACGCCGGAGCATCCCCCTCGCCGGCGCCGGGAAGG autosomal
CGCGGTGCGCGATGCGGGCGGCGGCGCCGCGGGGCCGCAGGACGCGCTGC autosomal
AGAAATCTTGATTTTTTTTTTTTTCTGAAGCAGGATGTAGTTTTAGGCCC autosomal
ATGGTCCCAGTCACACACAGCCACAGTATCCTCTGTGAGCCCACAGTTCC autosomal
GGAGGGGCCACGCGCCCACCGCCCCGCGCGCCCGACATGCCCCGGCCGCC autosomal
CAGCAGCATCTCCCTGGCCGCAGAGGACCCCGTGCGCGCCCACTCGCCCC autosomal
GACTGCTGTGACACCCCCAAATAGCCAGGAGAAAGCCAGCACTGCCTGGC autosomal
ACCATGGCAAGTTTTTCTCTATCCCACAAGCATAGCCACTTAATCTAGAA autosomal
GCATCTTCGCCCACTCGCTCGGGCGGCAGCGTCGGGCAGGGAAGGGCGGC autosomal
GCAGCCCGGCAGGAAGCCGGCCGTGCCGGGGCAGCCGCAGCCGCCTCACC autosomal
CAGCTGGCTCCATGGAGCAGGATCCTCATCCAGCCCCTCTGCCACCCACC autosomal
AGCTGGGTTATTATTTGCTATTTAAGCGCTATTGTTTTATTCCGTGGATC autosomal
CAGCCTGGCAGAGTCTGAAATCTTTTCCCCCTACATCAACAGGAAAAGGA autosomal
CGCAGCCATGGAAGGGGACGGCGCGTACGAGCCGGGGTTCGTGGGGATCC autosomal
ACCGAGAACTGCGGCGCGCACACGTAGAAATACGGACACAGCCGGGCCCG autosomal
ATTTTGTATCCATTGAAATCAGATTTTCCCTCGCGCTGGGGGCAGCTACC autosomal
CCCGGAGCGGGGCTCGGCAGCCCGGGGCGGAGCGCGGCGCGGCGCGATGA autosomal
AGGGAAACTGAGGGAAGGAGGGCGGCGGCCCCGCGGCGGCCCCTCGGTGG autosomal
ATGGATGTGGATGTGGGCAAAGCACCAGGTTTATTTGGGCAGCTCTTTGG autosomal
GGAGCGGAGCCCGCGCGGGCCCGGGCCCGGTCGGGCCGCGGGACGCAGGA autosomal
GCTGGGCTGAGAGAGCCGCAGGAATCCCGCGGCTCCGGTGCTCCAAGCCC autosomal
ATGAGTAAAAATTGAGACAATCAGGGGGAAAATGGGGAAAAAATGGGGAA autosomal
AGAGAAACTCAGTGGTCTTCATAACAAACAAAAAAAAGAAGCTGTTTAAG autosomal
TGGGATGAGTGTGACAAGTGGGTTTGCATTTTCCAGCAGATAACCTGAAA autosomal
CCTGGGCTGGTCTCTGCCCCTGGAGCTGAAGATGAGGTTGCTATGGGAGC autosomal
GTCCAGGAAGCCTTTCAGCTGGCCCAGAAGCCTCGCCAGAACCACGCGAA autosomal
CTGCAGGGAGGGCAGCAGCGTGTCGGGCTCGGCCTTCCAGACGCTCCTGA autosomal
AGCAGCCTCTGGGTGTCCTGCTGTTCCCGCTCTCCGGCACTAGCATTCCA autosomal
CTGTTTATGCAGATGATCCATGGATTTGGGTGCTTGGTTTGGCATGGCCC autosomal
AAGCCATGCAGTAAAGAACTGGAAAATTACAAGGGGATATAGTGACCTGT autosomal
CTGTGGGAGGGCAGTGCAGGGAATCGTAAATTCTGCTGCACACTCCTCCC autosomal
CTTCATTAGGGGTTTTGAGAAATCCTATAGCAGAGACATGTGGAAGATGA autosomal
CCCTAGATGTTCAAATTGAATCAGGCCTTGGCAACAGCGAGTGGCGGGCC autosomal
CCGCGGCCGCGCCATGAAGAGCCTCAAGTCCCGGCTGAAGAAGCACGAGG autosomal
CGATAGTCCTTGGGCTTCAGTTCTAGGTAGTCACAGAGCTCCTGGAAAGC autosomal
CCAGTGCGCGCCCACGCAGCCCGAGTAGTGCCCGAGCTGCAGCGTGACCG autosomal
CCCGAGCTTGTTCCACATGTTCCTTTTATTGTGGGGGGGAACAGCCCCGC autosomal
AGAAACAGATAATTATGTCACCAGGTCCTGTCTTCTATTAGTCTAAGTGA autosomal
GCTCCGATGACTGTGTAGACGGTGGTGTGAGGGAGGGGTGGCGGCGGGCC autosomal
CACCCAGCCTTGCTCTGTGGATTATCATCGCTCTGGATCCGAGGCTCTGA autosomal
AGAAAAGGGAAATAGGAAATAGGAAATAAGAAACAAACCAGATCAAAATA autosomal
CAACTGCTAGTGAAAAGAGGAAGAAGAATTGGTTTGAACAAAAGTCTGTG autosomal
AAGGTGTTGTTTGGGATGTGACCCTGACTGACCTGGGGCAAGCTGTTTCA autosomal
CCACATGCCTGCCTTTGTGTCATTTATTGTGCCAAACTCACGTTCCAAAG autosomal
AGACGATTGTGTCCAGATTGTTCTGGAGTATCTCTAGTGAGGGGCGCTCC autosomal
GACAGATTCAGGGGTTTTTTCCCCTTCCTGTTTGCTCTCTCAAAGTCCCC autosomal
AATATAGCTGCACCGTTAGGATTTGATTCATCTGCTCCAGGTAACAAACA autosomal
GGGCGGCGCGAACGCGGCGCCTGTTCCGCTCCCCGCGGCCGCCGGAGCCC autosomal
CTCTGCTCTTCTCCCGCGGCAGCGATCAGCTCCTCTCCGGCGCTCTGCCC autosomal
CACGGAGCGGGGCGGGAGCGGGCACGGAGCGGGGCGGCGGCGGCTCCGCG autosomal
CTCTCCCCGGCTCCGGGCGGCGCCGCCCGCCTCACCGCCGCGCGCGCCGC autosomal
AAGAGACAGAAATAAAGCCTTCCAAGCCACCTGCCCCATGCTCCCAGCTC autosomal
GGAAAGAAATAGGAAACATATAATTGATTTTCCTGCTGGAGAAAAAACAC autosomal
AAAGCCTTGAATGCCATCAGCATAAGAAAGCTTTGAATACACCAGTGTGG autosomal
GCCGGCCGCCGCTCTGCCCCCGCCTCACCCCGAGCTCTCAGGGCGCTTCC autosomal
AAGGAGACATGGGTTTGGGGGCAGATCGAGCTGCTGCTTCGGCTTCCTTG autosomal
CCGGCGCTGCCCCCGCCCCGCCGGGCGGGCCCGGGGCCGCCCCCGCGCAG autosomal
CTCGCCGGGGTTTTGCATGGAACACACTCGCCTCCCCGCCGAGGCTGGGA autosomal
CCAGAAGGTGGGATGCTCCTCTGGAGTGGCTGCCCCCGCACCTGCGGGAG autosomal
CCGCAGCCGCCGCCGCCGCCCCGCGCAATCCGCCGCCATCCGCCGCGCCC autosomal
AGCCGGGTCAGGTGCTCGCCCGCTGGGCGCTCCGGCACCCTGCTCTCCGG autosomal
CCGCACGATTTCATGGAAACGCAGCGTAATTAACTCGCGGATCGCACCCC autosomal
TACAACTGCAACTGAGCTAAGAAAAGAGAAAAAAAAACTTGCATCATGGA autosomal
CGGCGCCGGCTTCGTGCGCTGCCCGCACGGCCGCCCGCGCCTCGGCCGCC autosomal
AGCCAGATCATGGGCATGCGGGGCACGGCCTCCATCCCGGCACGGCCCGG autosomal
AGATGCGCGGGGGGATGGAGGGTGCGCGGGGAGGGATGAAGTGTTTGCGG autosomal
GCCCTGCGGCCCCCGCCCGTGTCTCGCTCCGCCCCGGGTCTATGCGGCCC autosomal
CTCGCCATGGCCAACCCTGTCGTCTTCTTCGACATCGCCGCTAATGGCGA autosomal
CGCTGATTGACAGCGGGGCCCGGCCCGCAGCCCATAAAGGCGCGGGGCGC autosomal
CCCGGTAGCGATGGGGCCGCGGTGCCTCCCGCTGCTGGCGCTGGCCATCG autosomal
CTGTGCGCGGGGCGCGGGTGGTTCAGCCCCGCATGGCCGCTCCAGCGCCA autosomal
AGGGCGGCAGGAGGGAAGCCCCGGCACTCCCGCGGCCGGCAGCAGCCCCG autosomal
CCATGAGCACGCAGGCGCGGGGTCAGGGCGCGCGGAGAGCGGCCGATCCC autosomal
CCCAGCTGAACATCAGGTCATTCCCTTCCCAGATAAAACTTCCACCCTGA autosomal
GAGTGAAATTACAACCCAAAGGACCTATCGTACCTTCTTTTGGAGTAATC autosomal
GAGACAGCGCGGGGGGGGGAGAAGAGCTGTTGCCATAGCGACGGGGCCGC autosomal
CCTGGGCGCCGGTACCGGCCCCGGGCCGGGCTGCCCGTGGCACGGCGCCG autosomal
CTGGGCGCGGTGCCTGGCCCTGTCCCTGTGTCCCTGTGTCCCTGTGTCCC autosomal
CGGCGCTTCCCCCGCGCCCACTCGGTCTCTGCACGAGCAGCCTGTGGGAA autosomal
ATGGCGGGCGGGGGGGAAATGGGGGTCCTGGGGGTCCCGGGGGGTGCTGA autosomal
CATGGGGGAAGGGGAAGCCGGTTCGCCGCCGGCGGCTGAGAGGAAAGGGG autosomal
AGGGAACAGCGGCGTCACCGCGCCGCCCCCGCCGGGCCCGGGCCCCGCCG autosomal
GAGACAGCACACTGAATAATCATGTCTTTAGAAAAAAATTAATAAATGAA autosomal
AAATGGCAGAAAAAGGGAAAAGGAGATTTCTGGGCGGGAGGGACGATACC autosomal
CCGGGGCTCCCGCCGGGCACCCCCCTTCGCCCGCCCACCGGGGTGCCCGA autosomal
AGGCTGAAAAGCCTCATCCCCTACTTCCCCTCTAACAAACTGGCTGTACA autosomal
CTCCAGGTGCTGCAGCGGAGCCGCGCAGGAGGGGGGACGAGCCGCTGCAG autosomal
CTCCACCGCCGGCCGCCCCTCTCAGTGCCACATTGTCCCCGGCGGCGCCC autosomal
CACGGGCGACTGTCCGAAGGGGTTGAGGGTGGCGGGCAGCGGGGCGCTCA autosomal
CTGCCCAGGAGGCTCCTCGCTCGCTCGGCCAGCGCGCCCGGCACCTCGGC autosomal
CAGAGGCACAGAGCAGCGGGACTACAGGCGCACTCCCACCGCCGCCGCCA autosomal
GAGCGCCCGCCGCTGATTGGCTGCTCGTCTGCCAATCACTCCCGTTGGCC autosomal
CAGGGGGCGGCGCGGGGCGCGGCGCCCCGAGGAGACGCCGCCGCTGCCGC autosomal
CCCGCGGAAGCGGAAGCGGCAGCGGCGGGCGGGACGGGCCCGGCCGGGGC autosomal
CAGCTCCCCCCGCGCCGCAGTCCGGCAGCGCCGCGCCGGGGCCGCGCTGA autosomal
GAGCGGCTGTGGGGGACACACTCCGTGCGGCTGCGGGGGACACTCAGTCA autosomal
AGTCAGGAGGAGGGATGGGGGCAAAAAGCAAGTTAAAAAAACCACAAAAA autosomal
CTTCTCCTCCCGACACAGGCCCGCAGCCCCCCGCGGGAAAGGCCCAGCCC autosomal
GATCCCATCCCCATCCCCATCCCAACCCCGCTCCCGGTCCCGGCTCGGCC autosomal
CTCCCCGATCGCCCTGGGCGGCCGCAGCCTCTGCCCGTGCCCGCCTGCCC autosomal
CGGCGCTGCTGAGCGCGGCGCTCCGCGGGACCCGCGCCGGCCGCAGCTTC autosomal
GCACTGAAGGCCAAAGCTGCAGCAGAGCCCGAAGAACAGCTGGAAGGGAC autosomal
CGGGCGCGGAGCGGCCATGCAGCCCTCGCTGCCATAGCTGAGCTCGGCGC autosomal
ATCCTGCCGTGGTGTCCCGAGCTGAGTCTCCCTGAAATCTGCGCTGGCAG autosomal
TAGGCTTTAATGTAAACAAACAGGCTGTGGTACAAGGAGCTGTATTTCAA autosomal
CTTCCATCAGCCTTGGAGCAGCCAGGCCCTCTGCTTTCCTCACTCTGTAC autosomal
TTCTTTATTATCTTATTCTTAATTTCTTCCTTTATTCTGTCTTAGGAAAA autosomal
CTCAGGGAAGATCTTATTGCTCTCTACGACTCCTGACAGGAGGGAGCAGC autosomal
GCAGGTTGTGAGCAGGGTGCCAAGGCCAACAAGCTGCTGTTCCCCTGGGA autosomal
CCTCCGCCTGCTGCGGGCTCAGGTCTCCGACGCATCCGCTCATGGTGCGC autosomal
GACAACTCGGGGGCCGCCGGGCAGTCCCTCTACGTGGCCAACCACGCGTA autosomal
CCCTCACTCCATCGCCCAGCGCGGCGGCGGGGCCCGGCCCTTCCCCCGGC autosomal
AGGTTTCTGGAAGCTCTGTTCCAGAAAATAATCAGAAAGGACAACTGGCA autosomal
GTTCTGCCAGATTGAGCCAAGTTCAGTTGTGTGGGACACAGTAAGAGGAA autosomal
ATGTGCGGTGGGTGCCGGCAGCGATACCGATCCCGCTCCCTGCGCGTCCA autosomal
AAACTGCTCTGGCAGTGCCCAAGAACACCTCCAGCACCTAGGAAACAACT autosomal
CATCACTCTCCTTATTTCAAAGAGTTCTTCTCAGGATCTGGGATGCTGAG autosomal
CGGCAAGGCGCGCGCCAAGGCCAAGTCGCGCTCGTCGCGGGCCGGGCTGC autosomal
AGGCCGGGCGGGGGCGAGGGCGGCGGCAGGCCGGGCGCCGGGCCGCTCCG autosomal
AGGGTCCGCCGGGGCCGGGGCGGGGCCGGGTCAGCGCCCCCCGCCGCTCC autosomal
GGTCACGTCGTAGGGCAGGCGGCACAGGCAGTACACGGGCACCGAGGCCA autosomal
ATGTGTACTCGGCGGCGCTGGAGCTGAGCACGGCGCTGCGCTTCTACGGC autosomal
CGTGCGTTATCTGAGGACTGCCAGGTCTCTCGTCTTCCCCTGGTTCAGCC autosomal
AGCAGCGCCAGTTATGAGCAAGCGCCTCGCTGTAGCACCGCTGCTTGGCC autosomal
GAAGTCCCTGTGTCATCTGTTTCACTGGAAAAGGAACAGAAGTCGCTTCC autosomal
CGCCCAGACCCTCACCCTCCGCCCCGCCGCCGCCGGCCGCGCCGCTCCCC autosomal
AGGTCGATGGAGCCGGGGGAGAGGTTGTGCAGCAGCTGGCACAGCAGCAC autosomal
GAGTGGCCGTTCTAAAGCCCTCCGGGGAGAGACAGGAGCTGGAGGCCAGC autosomal
GCAAGTGGGTGCCGCGCAGCGCCCGGCTGCTGTGCCTGGGCAGCGCCGCC autosomal
ACTTGGCATTTAGGCAAGTGCAGGGAGCCTTTCCTCGCCGGTGCTGACGC autosomal
GCCGGCCGGCCCCGCGGCGGTTCCTGTCCCCGGGAGGCGGCGGCGGCACC autosomal
AGTGGCCGCGCGTTGTTAGCGCTGTGTTTTCCCCGGGACGAGCGGCCGAT autosomal
CTCCAGCGCCGAGGAAGCCGAGCCGGAGGCAGTGCTGAGCCGGATATGCA autosomal
AGCGCAAGGAGAGGAAGCGGCCCGAGTGGCAGGTGGAGCGGGAGAACATC autosomal
TCGTCCAAAAATGCAATAAGTGAGCCTGTTGATGCAGAGGAAGGCTATAA autosomal
GGCACGTCCAGCTCCGTGGGCCACGCGCCGGAGGCGATGCAGCCGAACAC autosomal
AGGACAACCACATGAGAGCCTCTGCTCCCCACCTGTTTCACCACCCTAGA autosomal
CCAAATAGAATAAAATTCTGCATTCCCTCAGCTGCAGGGGAGCGGGATGA autosomal
CTTGGGGTCACTCAGGGGTCACTCACTGGTCAGGGGTCACTCAGGGGTCA autosomal
CACATTTGGAATCCATTTCCTCCGCTGACCGGGGGACACCCGCCACCCAC autosomal
CGCTCTCGTAGCTCTCCTGCATCTCCACCCGGAATTCTGAGTTTATCCCA autosomal
CCACAGCCCCCAATATCTACCCCTGTCACCCCCAAAAACCACCACTCACC autosomal
GCAGCAAGCAGAATAATTATCTGAAATTCTTGGGCTTCTTAAATGTCTAA autosomal
AGCGGGCAGAGGGGGCTGTGTGGGGGCAGCCTCTCAGATATCATGCTTGG autosomal
GATTATAAGTGTAATTAAAAATCCTTAGGATTTGTCTCCCTGTCTTGAGC autosomal
AAAAATTTAAAAAAATCTGTGCCTTGTTGAGAACAGCTGCAGGAGTTGGA autosomal
ACTGGGGACAAGGATGGAGGGACAGGACACAGGGAATGGCTCCCACTGCC autosomal
GAAGTCGGGCAGCCTCACTCCCCCTCCTCCTTCTCTTCTTCTTCCTCCTC autosomal
GAGCGCTCCGAGGCACCGGGGCCTGTCCCGCCGGCACCGGGGCCTGTCCC autosomal
CCGCAGAAATCGCCGCTCGGGCCGTGCCCCGCCGTGCCCCGCCGTGCCAG autosomal
AGCATCAACAAACAACCCAAAGCAAATTACTCTGACATACAATTATCCAG autosomal
ACCCCCAAACATACACAGGGAAATGCCCACCCATTGAATCTTTCCGCAAT autosomal
CCACTCCACAGCAACCCTGGACACATGGCCTCACTGGGCCTGGACACACG autosomal
CCGCTCACATGCACCTCCCGCCCGGGCAGCGCCGGAGGCTCGACGCGTCC autosomal
CTGATGTTGCGAGATATTTAAGATCATATGGTGTTAAATCATACATGCCA autosomal
CGCGCCGCTGCCCGCCCGCGCCTCTCCCGGGCCAGCTCCTCCTCCAGCTC autosomal
CACCTCAGAGAAGAAACCAGAGCCAATTTTCTCACATGTGAAATCATCAA autosomal
AGGACTAGACATGGCACAGCTCGTGTTGTTTTAGCATCCCTCTTCTTAAA autosomal
CCCGTCACCCTCACACTGCGCGGCCTCGGCCGCATCCCGCTGGTCACAGC autosomal
ACGCGGGGCTGCTGGGGCGAAGCTTGCTGCCCTGCGCCCGGGAGGCGCTG autosomal
ACCACTGCCGCTCCGAGGAGAACCTCACCCAGAGCTACCAACTGCAAACA autosomal
AGAAGATGGCGGCGCGCTCGGTGTGCCGGGCGGGCAGCGCGGCCGGGCGG autosomal
AAAATTAAAAGCACAGTAAAAATTAAAAATGCACAGAACCCACCCTTCTA autosomal
CACACCGTAGTTCTGGGAAAGGATCTCTGCCAGGTTCAGTCGATGATCAG autosomal
CTGCCCACCTTTAAAGAGGCCCACAGAGAAAGCAAATTGTAGCCACACTA autosomal
GGCTTGCACAGGAATATTTATTCCCAGTCCCAGCAGCAGTACCACTACCC autosomal
CCTTCTAATGTCCCCTCCCTGTCCCCATCCTGTCCCCTCTCTGTCCCCAC autosomal
ATGGTTCGCTGGGGAAAGCCACGGGGTGAACAACCCGCTGGACAGAGACA autosomal
ACACACAAACAAAAGGGGGATGGAACTGACTCACTGCCTGCGCGGCTGAG autosomal
AACCGGAGGCAGCCGCTAATCGCTGACGCCTCGCTCGCCCACTCCGCTCC autosomal
CAGCCTCAGGCCTGGCTTGAGCAATGCAGGAGCTCCCTGCCCCGTTCCCC autosomal
GCGGGAGCGGCGGTGAGCAGCGCCCGTCCCGCCCGCTCCGCTCGCACCGC autosomal
CCTCTCTTTTCCCTTACAGGGAAGGACGCAGAGAAGACTTTCCTCCATAC autosomal
CTGGTGGCCGCAAGATGGTGGCCTTGTCCCCTCCTGGAGATCCAGGGGCC autosomal
AGGGCCCGGCGCAGTGCCGGCAGGAGATGGAGTACCTGCGCTTCGAGGAT autosomal
GCCAATGTCCCCCCTCTGCCCAGTCCCCTCTGCGCTGCCTCTGGGGAGGA autosomal
CCCTGCGGGGCCTGCGCAAGAACCGGCGGCGCGGAGGCCGGCGCAGGCCG autosomal
GCTCTACCAGACTTCGGCCACGGCACTGGCCGAGTTCCGGCGGCTGAAGA autosomal
CCTGATGGCAGAGCACAACTCCACCTGGTACCTGCCTGGAGAGAAGGCCC autosomal
CAGAGGGAAAGAAACCCACAGTTTGCTAATTTCACCTCCCAATCGGCCCC autosomal
AGTCCTCCCCCGGGTAGGCCATGGCGGCGGCGCGGCGCGGAGAGCGCTCC autosomal
AGAAAAGGCGGCGATGGTGGCGCTGAGGGTGAAGAAGATGAGGAGGGAAA autosomal
GTTGCATCCAGTTCTCTGGATAGAATTTGTCTTTTATTTAGTTTGGGAAA autosomal
TGGTATCTCAGATGCTACTAGCCAACTGTGAAAGACAGAAGGAAAGAAAA autosomal
AGCGCTCACGCCAGCGCTGTCCTGCCGCCTCCGGGCGCACAGAGGGCCCG autosomal
AAGGAAAGATGGAAGATAGAAGCTGTGCTCAGCATAATGTCCATGCTTGT autosomal
CAGAGAGAGACGAGGGCAGGCGGAGCAGAGCTCTCCTGCGGGAGGCATGA autosomal
CCCTGGTCACCAGCCCCTTTGCCCCTCCCCAGGAGACGCTGCTGGGGAAG autosomal
GAAGGGTTAGCACAGGTGATTGCTGGAGATCAAACTCCAGATAAAGCAGA autosomal
CGGGAACTGGTCTCACCCTTGACCACGATGCTCCATCCAGGACAGATTCC autosomal
CAGGAATGGTGACATGGCTGGCAGGACTGGCACATAAAGGTCTCAAGAAC autosomal
CAGCCTCAGCCGCTTCACGGAGGGCGATAGCTCCGACCGGGCGGCACGGC autosomal
GTGTGCAACATGAGAAAGTGCCACCAGTACATGCAGCTCCAACCAACAAA autosomal
TCTGCCCGAAAAAGGTCCGCTCGGCCCCCGATTAGTGCCTAGGAGAGGCA autosomal
AGAACCCCCCAAAAAACACGGAGCCCCCACCTCGGTCCTGCCCTCCACCT autosomal
CCGTGGGCAGAGTGGCGCTCGCTGGCTGCTGCTGTCACCTCGGAGCTGCG autosomal
CCAAAACCAGCATGTAATTGATGCAATTGTCTTTTACATTTCTCCAGAGA autosomal
ATGTGCTGTGTTGGAAGGAACCCACCAGGACCATGAAGCCCAACTCCCAG autosomal
CGGGCGAGCGGCGCCGGGGCCCGGCGGGGCTCTGAGGGCGGCGGTAGGGC autosomal
CATAATTACCCAAGCTGGAATTTTGCCCAGATACCCAAGTTAACAGCCTA autosomal
GGCGGGGCTGCTCCCTTCGCTCCGAGCCGCAGCCCCCGGCGCTTCCTCCC autosomal
CGAGTGCAGCAGTTACCTCAACGCCGACAAGGTGCTGGTGAGCGGGTTCA autosomal
CCCCGTGAGGAGAGCGGGGCGCTCCCCGGGCGCGCTCCCGGCCCCGCTCC autosomal
GAGAGGGGAGAGTGAGGGGTCCCCCTCCCGGCTGGTGTGTGGCGGGATGA autosomal
GGCTCTGTTCCCACGGCCACGCAGACCCAGAGCACCCCCACGGGGCAGAC autosomal
GACGGCGCTTTCCCTCGTGGGGTGGTGGCGGGGGAGATGGATCTGTCTTA autosomal
CGCCATGGCGCGAGACCGGGCTGCGGGTTCGGCGGGGACAGGCTGCGAGA autosomal
ATTAAATTGAACATCCTGCCTGAAATCTAGCAGTTATGGAATACCATACA autosomal
CCAGCAGCAGGAACAGCAGGAGCAGCAGCAGGAGAAGCAGGAGCAGCAGC autosomal
ACAGTTCCTCTGTTAGCTCAAAATTCAGGCTCTGGCACAAATGTCTCCTG autosomal
AACAACTAGTTGTTGTTTCACCAATAAAAAATCATCAGAACTGACAGGGA autosomal
CGCCGCTATGCTGAAGGTAATTTGGCAATCGGACATGGCTGGTGCCCAGC autosomal
TCACAGTCCCAGAGGCAAACAAGGGCACATTTGGGCACGGGACCGACGCA autosomal
CCACTCGAAATCCTCTCTCGCCACAGTGTTCCCCATGGCGGCAGCGCGAA autosomal
AGCTTTGTCTCTGGAAATGGTTCACAGTGGGGACGGCACTCGCTGCTGTC autosomal
AACTCATTTAACATAAAATCCTCCAGCTGAGGACATAACAGATATTAAAC autosomal
GAGAAATTTACTGAAGGAGTATCATATTTTCAGCCTTACTAAAAGGACCA autosomal
AGGGAAGGGACGGGAAGGGGTGGCCGCGCCGGGCACAGCATGGCTGCCAA autosomal
CGCCGCGACCCGAGAGCATCATCGTGGCCAGTATCACCGCCCGCAAGCCG autosomal
CGCGGCGGCGGCCCGGCGGAGGCGGCGAGGCCCCGCGTTCGTGCGTCGGA autosomal
GCCCAGGAGGGCGCCTGTGAGCCCCCGCCCCGGCCGAGGCAACCCGGCAA autosomal
CTAGTATGCACCCCCTTGTGAAACAATGAAAAGAGGGGATATTCCTGACC autosomal
ATGTCCTCTTCCCACCTCATCCCACCCCATTCCCATCCCACCACATCCAA autosomal
ACAGTCCAGCCACCTGCCCAGAAAGGCAACAATTATACTTAGAGATAGGG autosomal
GAGGCCCTCCTGGCTGCAGGCAAACCCATCTTGGAGGGTGATGCCTTGGA autosomal
ACGGTGTGCGGGCCTCCGACACCGGCGAGCTGGTGACGCACACCGGGCAG autosomal
CGATTGGCGGCGCCACGCCCCGGTCACGGCCGGGCCACGCCCCCTCCCCG autosomal
CTATAGCTTCATGCTTTCGTTGAGAATATAGATCCTATTTCCAGGAAGTA autosomal
ACGCGGCAGTCACGTTTTATTGCACTGTCAATCCAGTGGTCACTGCCATG autosomal
GTGACATCTATTGTATGATTATCTGTCTTTGCCACTCCTGATGAATTAAA autosomal
GAGCAGGGTCAGCTTTATAGAGACAGCAGTGGGTGTTTCAGGAGGAGTCC autosomal
TCCTCCCCAATTTCCCCCCAATTCCTCCCCATTTTCTCTGTTTCCCCTCA autosomal
CGCAGCGAGGAGGTGGGGAGGAAGCTGATGGAGAGGGAGCGGGGGACAAA autosomal
AAATTTATAAATATTTCGTTTCATTGTTCATGGTCTATACTTCAGTGAAT autosomal
AGTTCCAGACCAGGAGGTCAGAAGAACCAGGCAACAGAAAGGAAATACCA autosomal
ACCCAGCACACCCAGGGGTACAGCACCCAGAGCATCCAGGGGTACAGCAC autosomal
CCGGAGATCCACCTTAAAAACGCCACCAGCTCGCACACCGCACAAAAAAA autosomal
AGCTGGGACTTTTCAGAGAAGCCTGGGCCAGGACATAGTGGTGTGCTTTG autosomal
CGCTGCTGTAATAGGCCGCCCTGCGCTGGGCGCTGCGCGGCACCGGGCGC autosomal
ACACCCCCACCCTCAGCAGGCGCCTGCAATGCAGGGGCTGCGCGGGGGGC autosomal
AAGGTAAGCAGAGAAGAGCCACAAAATCACACTGGAAGAGATCTGTGATA autosomal
TACTGTTCTTCCATCAATGGGGCTGCCAAGCAATCCTGTCGAGATAGAGA autosomal
GGTTTTAGGTGATAAAATTATCCATCAGTAACGTGCATAATTTCCAGGCA autosomal
AATTCATTCATTCATGCCTTTTCCCATGGAAATGCAGATGAAATATGTGG autosomal
AGGCAAAGGACCCGGATGGTGGCGTCACGTGACCACGAGCGTCGCGCCCT autosomal
AAGAGTTTTTGGGATGCTGGAATGTGCAGGCTTAGAGGAACCCATGTTCC autosomal
CCGAGACAGCGGCGGCACCGGCACCGGCACCGGCTCCGGGCACAGTCCGC autosomal
CCGGTGGCGGTGATGGCCGAGAGCTCCGCGAGCTTCAGGCGGCTCCTGGA autosomal
AGGTCTTGCACATCCTGTTTCTCCGAAAAATCAGGGTGTTGACTCGCAGG autosomal
CCGGCGGCTGCGGCGGGAGCGGCGGCAGCATGCGGCAGTCCCTGACTCAG autosomal
ACCAATAAGCCTGCTCCTCTTCTGCCCACTTAAAAAAGTTCCAACAGTGA autosomal
GAGCTTCAGCGCCAGCCCCACGAGCACGTGACCGCCTCCCCCGCCGGCCA autosomal
GGACTGGCCGGGCTTCGTAGCGGCGGCGACTGCGAGCCGAGTGCGAAGCA autosomal
ATAGGAGGTGGTGTCCTGGTACATTTATTCCAGTGCCTGAATCAGCTGGG autosomal
CGGGGCCGCAGCAGCAGTGAGAGGCGCCGCGCCGAGCCCCTGCGATGACA autosomal
CAGCGCCGCTCGGCGGCGGCCAACAGCGGCACCCGGAGGCGCCGCCGCGC autosomal
CTCAGGCCGCCTCAGTCCCGCGAAGCCCTCCCAGCCGAACGTGCAGCACA autosomal
ATTCCCTCTTCCCAAATTCCCTACTCTTTTCCAAATTCTTTCCTCCCCAA autosomal
AATAGATTCAAGGAACAAAATCAGCAGGAAAATGTGCCTTGATGACTAGT autosomal
AGTGGAGTCCTGGTTTCCCCAGGGGTGGGATGGTTGTATCTCACAATCAG autosomal
ACGGACCCCCGGCTACGACCTGCTCAAGGCCGAGGGCCAGGCCCACCAGC autosomal
GCGGGGCGCGGGGGCTGCGCGGGCTCCGCCGGGGCTCTCACTCCCCTTCC autosomal
GCCGCGCTCGGGTGGAACTGCCCCGCACCAACTGCCGCAGCGCCCGCGCC autosomal
AAGACGCGGACGCTCCTGCCGCTCGGCACCAGGTGGGACGGCAGCGCAGA autosomal
CCGCCCGTCATCGCCGCAACTTCCAGCGGCGGCGGCGCGGGGGGCTCGGC autosomal
GGAAACAGAATTTTTCATTGCTGAGGAAATTAATGCTGCTAAAACTTTCC autosomal
GGCTTCCTCTCAGCTCACCACTGGAATGTACCAGCCACAGGCATCAGAAC autosomal
CACGCCGTCATGAACGGGCTGTCGATCAGCCAACTCTGCTGCCTGTTCTG autosomal
ATGGCCGCGCCGCTCATCCCGTCCGCACCATCGCCGCGCCTTCGCCTTCG autosomal
GGGTGTGGGAGATAGCAAAAATTTCCCTGCCACTCAGGGGGGAAAATGAA autosomal
CAAAACCTGGCTGGGACCATGTGGATGTGTGATGGGATGGATCGGGGTGG autosomal
TGTGGACATGTGGAGCATTGGCTGTATTCTGGGAGAGATGCTGCTTGGAA autosomal
CGGAGGATGCTCGGGCCGTGAGCCCGCAGCCGGCAGCCCCGGCGCGGCGC autosomal
AACGGCACCGAGCAGCGCGGCGGGCAGCGGCGGCGGCATGGCGGGCACGG autosomal
CTCCGCCGGTGGCTCCGGGCAGCGTCTCTCCGGCCGGCGGCGGCCCGACC autosomal
AGCAGTGGAAAATTCTTTCAGTGTGCATCCTGGAATGGTGTCTGCAGCGA autosomal
AAGAGAGGACAGACAATCCATTCAGAGTCATGAGCCCCAAACGATGAACC autosomal
AATAGCAGGAGAAAAGGTCGTGGTGTTCTCACTCCAGTCGAGTTCCTGCA autosomal
ATAAACTCAGAATTCCGGGTGGAGATGCAGGAGAGCTACGAGAGCGTCAT autosomal
CCGGGCAGCAGCGGCAGCGCCATGGCCGCCCCGCAACCGCCGCTGCGCCG autosomal
CGACGGCAGCGGCGACGGCGGGAGACAATGGAGGAGTGAAGGACGGACAC autosomal
CCAGCTCCAGCAGCGACTGGGTCCGCTCCGAGCTGCAGTGCAGGCACCAC autosomal
ATGGAGCTGGAGAACATCGTCGCCAACACCGTCCTGCTCAAGGCCCGCGA autosomal
GTAAATTGACAGCACCTCCCAGAAATGTTTTTAGCATATCCTTTTGAAAA autosomal
ACCAGATCACCGTGTCGGAGTTCATCGCCGAGACCACAGAGGATTACAAC autosomal
CCCAGCACATCATCCCCCTTGAAGATGTCACTCTGGAGACGCTGCCAGAC autosomal
CTAACGTCAGGCCCTTGTCCACGTCAACGTACACGGGCTCTGGGGTTGGC autosomal
CCGCCCGGCGAGGGCCGGCCCTGCGGGGAGCCGGCTGGGGAAAGTTGGAG autosomal
AAGACTGTCCTCTCTGAGACTGAAATTGTGCTCTGTAAACAATGGTATAT autosomal
GGGTAGCCAGGACTCGGGAAATGCCCCTTCCTCTCCCGTCCTCCTCACCC autosomal
TGGCGCTGTCCTCGCTGTCCCCGGACGTGTCGCGGCTGCCGCTGTCCCCA autosomal
GCGCGGGGCTCCGCCACAGGGCAACAAGTGAGAGGCGCTCCCCGCTCCCC autosomal
ATCTCCAATGAACTCCGCCTGGAAGGGAGATTCTGTGATGTGATCATCAG autosomal
AGACAATCTCCAGCTCCTTTGGTTTTGCCGTTCTGCAGTGGTGAGTGACG autosomal
AATTCAAACTGCTAAGTTCACACCCTAGTCTGCCCCACTGTAGGTTGCTG autosomal
ATTGTAATAAGTTAAAATCATACAATATGCTGAGTTGGAAGAGAGCCATC autosomal
AATAAATTTGATAAAAGAGACTTTTGAAATTACTATGTGCTGTACAAATA autosomal
TGTTAATCCACAAAGAGAATTGAGTATTGAACTCTATTATTCCCATTTAA autosomal
AGCGTGACTCAGGCGCTGGAGCCGCACACCCCGGGCAGCCGCACAGAGAG autosomal
GAAGGTCAAACGATACGTGCAAGGTCCTCAGGTAAACGACTGCAATGGGA autosomal
CATTTGCTTGTTATGAATGGAGCAGGCGACTTGCTGAGGCTCCGTCTGGG autosomal
ACCACTCGCCCCTTCTCCTGCCTGCCCTGGACATACCCGGGCAGAACACA autosomal
CCGCCCGCCGCCGCCCGGCACCGCGGCGGCGGCTCCCGCTGGCCTCGCCC autosomal
AAGAGCAGTTGCAGAGGAAGAGGATACTCCGTGTCACAAATGGCATGGTG autosomal
CTGATTCCCCCGGATCGCTCCGGTCCCCGGGCAGCAGCGGCGATGCGGCC autosomal
GTTTTTCCCAAAGTCTGCCAGAACATCATGCCTCAGAAGCCCTCACTTAA autosomal
CGCGCGGCGCCGTCAGCCCCCGCCGGCCGCGTCACCGCCGGCACCGCCCG autosomal
TCCAGAAGTGGAATACTGTAATTTTATCACAGAAGGTTCTAGATTCCAGA autosomal
CGGCAAACCCAGCCCGGCGTGCGGAGTCGCGGCGGCGCTGGGGCTGGAAA autosomal
CCTACAAAGCGCTAACAAGACACCATGTCAAGCCAGTGCCAAGGAGCAGC autosomal
CGGACCGGACCGGAACGGACCGGACCCACAGAACCGAACCGAACCCATAG autosomal
CGCCGGGAGGGGCCCGCCGGGCGGCAAAAGGGCGGCTCAAGGCAGGGACG autosomal
GCGGGGCTGCTGGTGGCCGCCTGGCGCTGGCTGCGCGGCGCGGCGCGGCC autosomal
CATGCGCCCCGGGCCGTGGACTGACCCGTGCCAGCCCCGGTCCGTGGCCA autosomal
GCTCCTGGCCCTCGGAGCTTTTCCTTTTCACCATGATGCTGATGACAGCC autosomal
AGCTCGGCGTAGGTGCGGTGCAGGAGGAACTCGATGAGGGTGCTGAGGCG autosomal
AGCACTTTCTCCTTTTTAACCAGGTCTTTGGGATTACTTGATTGCTGACC autosomal
CCTCGGCGGCGGGACGGGCCGGGCGTCAGGCGCCCATCACGCTCCGCCGC autosomal
CAGCAGCCCCGGGGAGCCCGGCCCACGCTGGGCTGGAAGGAAGGACGAGG autosomal
CCCGGCACCGGGCTACCTTCGCCTGCCGGCCTGAAGGACAGGCACAGCGC autosomal
CCCCATGGAGAGCCTGGAGAAGCAGCTCATCTGTCCCATCTGCCTGGAGA autosomal
GAAGAGAGCACAGCCTTACACTGGAGGCACCATGCAAGTCCTTCTCCTCC autosomal
CGGGGATGGGAGATCCAGCCCAGGCCAGAGGGACCCAGGGCAGCTTCTCC autosomal
GTCCACATTAAAATGAAAGAGCTTCACTCTGTGGTGACTCTGGACAGAAA autosomal
GAAATGTGTGTTTGTGTCATTTCAAGCTTGATCTAGAGAAGTTTCGCATA autosomal
GCTGAGGAGCAGCGGGACCTCATCTCTGACCGCGGCAGCGGTGTGCTCAA autosomal
CTCATTTACAGAGAGTTGGGACAAGCCTTAGGAAGATTAGCAGGGGTACA autosomal
CGCTTAAAGCGGGGCGGGCTCGCGTCACCGCGGCAACCGCCCCCGCCGCC autosomal
CAAAGCAAGAAAGGCAGCACCAGGCAAATCCAAACAGCTACTGGCTGCTG autosomal
CCTGCTGCGGGTTACATCAAGCCTGCAGAAAATCCCTCGGTTTTCTCATC autosomal
AAAGCGTTGGAAAGCACCGTGGCCAGGGTGACCAGCGCCAGGACGACAGC autosomal
GCGAGCACCAGGCGGCGCGGTCCTGAGCCGCCCGCCCACCATGGATTGCA autosomal
CGTCATCAACAAGCTGCAGGACGTGTTCAACACGGTGGGGGCCGACATCA autosomal
GCAGCACTACTAATTGGCCGTGCACAACACCCTACGTATCCCCAGCAACA autosomal
CACTTTATTCCCATTTTCCCCCCATTTATTTGTAATATTTTCCCCTCCCC autosomal
GACGCGTCACTTCCGCCGGCGGCGGCGGCGGCGGCCCGAGGATGTTTTAC autosomal
ACGCACAAAAAAACCCAAACCCTGCTACAAACCTTGAATTGAAACAAAAA autosomal
CCGGATTTGCCCTCTCGCTTCCCGCCGCAGCGCAGCCGAGTGGGAACCGG autosomal
GCCGCCGCCAATGGGCGCGCGGAGCCGCGGCGGGGGGCGTGGCCGGGCGC autosomal
GCGGTACCTGCAGCAGGAGGTGCTGCGCCGCTCCGCCGCCACCGCCGACA autosomal
GCCCCCGGGGGTCCGCACCGCCCCGCCACCGGTCTGAGCGGCGCCGCCGC autosomal
CACTGCTTCAGCGGGCTGCTGCTCTGCGCCGAGCGCGCCGACCTGCGCCG autosomal
CTTGGGGCTACGGGGACGGCTGTATCCCTCTCCGCTTCTCCTTCTGCTCC autosomal
GGCCCGAGTCAGCGACCCCCGCCCGGCGTCCCTCGCTCCTGCCCTCGGCC autosomal
CCTCCTCCTGCCAGTGGCCTCCATCCCTCCGCCACTTTAACCTGTCCAGC autosomal
AGGATGGGGAGAGAGGGACATGCTCTGAGTCAACTTTTGCTAAGTGCCTC autosomal
CCTGACTCCCACCTGTCCAACAGCCCAGGGCTGTGGGATGCCCTCCAAGC autosomal
CTTGGCCGTCCCGGGCGCCGAGTGCGGGGCGCAGTCGGGACATTCGCTAC autosomal
GATGGCCTGCTTATTTGCTTCTGTCTCTATTCTTGCTGTGTAAGTGTTCC autosomal
GAGTCTGGAGACTGTTGAATGAATCCTGCGGATATGGGGCTGAGGCCAGA autosomal
CCGCTGCCCCCATCGCCGCCGCCGGGCTCCTCGGGAAGCGAACGCCGGGC autosomal
GGCAGCGAGCCCCGCTCCGCGCCTCAGCGCCCACGGCAGAGCCGCAGGGA autosomal
AGGCAGCGCCACGTCTCGGGCAGGAGCCGGCGCCGGGCGGGCGGCCTCAG autosomal
GGGTGCGCGGCGCCGGCAGCCGCACGCAGCGGGGGCAGGAAACAATAGAC autosomal
CCCGGTGCTGTGTCCCCCTTTCACAGCCCGCCGCCATGCTGGCCGCCAGC autosomal
CCCCTCCGCCCCCCCGTGTCCCCGTCCCCGCAGGAAGCGGTGGCGCGCAG autosomal
ATCCTGGTGTGCAGCTCAGCGGCCGTGTCGGCCCTCCCGCTCCTCGCCAT autosomal
CAGGAGCTGCTGGAGGCCGCCCGCACCGGGAACCTCCCGGCCGTGGAGAA autosomal
ATTGTACCTAAACATGGACTGTGCACACATGCCAACATCCAAACCATCCA autosomal
CCTCCGTGATCACCTGCGGGCGGAGCGGCCGCCGCTGCCGCAGCCCCTCC autosomal
CAGCGCTTCGGCCAGGAGCAGCACGGCGAGGCGGCGAGCGGCGCTCATGG autosomal
GCGGCGGCGCGGGGAGAGCGCTCCTCCCGGGCAGGGACCAAAAACAACAA autosomal
CGTGTGTGGTGTGGTGTGCACTTACAAATTACCACTGAAAAATGAATTGC autosomal
ACCGGCTTCAGGCGCTCCCCCGTCGCCGAGCTGCGCGGCGGAACGTGGCC autosomal
CCACCGCGCTCAGCACTCGCCGCAGCCGGGCTGCATCCTGCGTCCTGCGC autosomal
CGGCTCTCTCTGCCGCACACGGCGGGCGGCACAGGCGGTAGCGCCGCTCC autosomal
CGAGGCGGGCACGATCCAGGCGTGGGGAAGGCTGCCAGCCGAAGGGAGCC autosomal
AGCAGCTCCAGGCCGTAGAAGAGGAGCAGGATGGCGCTCAGGAACGCTTC autosomal
TAGGGTCTCTCTGCTCATCTCTGAATTTCCACCAGTACCACTGAGGCACA autosomal
GAGTTGCCAGAAATCAGTTTCAATTCCTGGTAAACTCCTCCCCTTCCTGA autosomal
CAGCACCAGGTACGCGTCCCCAACGAAGAAGTCGCCGTGGCGGCTCGGGG autosomal
CCCCTTATCGCCGCCCATAGACCAGCATTGATACCCAGCACTGCCGCCCG autosomal
GGAGGAGCGGAGGGCGGGGCGGGGGCGTCGGGATGGCGGTGCCGAGTCGA autosomal
AGAGATTCTGGGCCAGACCCCCAGACTTGGCAGCGTCCAAGTGGCTGCAC autosomal
AACTTTAACGATATAGTCAAGCAGGGCTACGTAAAAATCCGCAGCAGGAA autosomal
CGCTCCCGGAGCTCCGGAGCCGCGGGATGGCCGGGGATGGAGCCGGGATC autosomal
GTGACAACATCTCTAACTACAAAGTGGTCTTCAACTCCTTTACTCCTTGA autosomal
GCCAGCTGGGCTCTCCTGACTTTGTTGCCGTCCTGTCAAAACTCGGCGAA autosomal
CAACAACCTGTCGTCCCTGCCCCACGACCTGTTCGCCCCGCTGCGCTACC autosomal
GGCCGCGCTCCCGGCTCTGAGGCCGCTGTCGCCCCCAGCATGAAGAGCCC autosomal
CAGTGCCATGCCATCCCATCCCATGCCATGCCATGTCATCCAAGCCATGC autosomal
CCGCCCGCGGCGGCCGCCCCTGCGCACCCACTATTTAACCGTAACGCGCA autosomal
TCCATCGCAGCCATGTCGGCCGCCTTCAGGAAAGCCGCCAAGGCGCGGCA autosomal
AGCAGGAACTGGCTCCCAGTCACGTTCGCTCCCCCGAGGGATGCTACCCA autosomal
TGCCTGCCCGCACGGGCAGCCGGCGGCAAGACGCAGCGGCTGGAGAGGAA autosomal
CAACTCAGCATGCCCTGGCCCACAATTTGAAAAATAAGTGTGCAGGAACA autosomal
AGCCCCGCTCCGTGCCCGGTCCCGCTCCGTGCCAGAACCCGCTCCGTGCC autosomal
ACTTCACTTCCGCTCTCCCCGGAACTGAGACGGCCCGCGCGTTCTCTGCG autosomal
CCCGTCCCACACGAACGCTCCGGCACCGAGCGCCGCCATCAGCCCCGTCC autosomal
CATAAGGCGGCGGAGCCGGCGCTGACCCTACAGCGCCCGACGCCATGGCG autosomal
CCTGGGTGTTGTTGTGGCACTGCAGACAGGTGTCCGTTGCATGCGGCCCG autosomal
ACCCGCGCGGCCCCGGGGCACCGCCGCCGCCCCGGGACTTCGGCGGCATC autosomal
CCAAAAGAGTGTTCTAGCTCTGACTGCCCAGGGCAGGATAATGCAGAGAG autosomal
AGAAGCTGCAGAGCCGCATGCAGCGGGTGCAGGAGGTACTGGCGGCGGCC autosomal
CAAGTACTCCCGGGAGGCCAACGAGGGGCTGGCGGCGGCCGACGGCAAGC autosomal
GGGACGAGCGGCCCGGGGGTCCCAGCCCGGCCTCCGCGGCAACTCTGCGA autosomal
CATGAGAGCCTTGTTTTGAAGAAGGGAGTATCCAAAGCTCATTTTTTTCC autosomal
AGTGATCTTCGGAGAGTTCTCCTGGCCCAAGAACGTCAAGACCAACTATG autosomal
AGCTGGAAGGGCTGGAAGGAGCTTTCAGTCGGATGTTTACAGCAGCAGGC autosomal
GATCACACTGAGTGAGGTGAACCCTGGCAGCTTGCGTGGGCTCTGAACAC autosomal
CTCTCGAGTTTGCACATTATTTCTTGCTCATCTGCCATGCTTTTTACTCA autosomal
AGTCACCAGCCTCAGGTATCTCTGAGTCAGGAGGGGAGCGCTGGATTTGG autosomal
CTCAGCGCTCGGTGCCCGCTGGGCAGGCGGGAGCCCGCCCGGGGCTGCGC autosomal
AGCTGGGGGTGTGGCCCGGAAGCGCGGCGCCTGAGGGTCGTTCCGCCGCC autosomal
AGGAGGAGGATGAGGATGAAGCGGCTGGGAAGAGTCAACCCTATAATAGG autosomal
CCTGCCAGGACCCTCGGGGACAGCCCCGCCGCTGCATGCCCGATTTCGAG autosomal
CTGCACCGAGGCGCTCGGCGCAGAGCCCCGCTCCCTATCCTACCTTCTCC autosomal
TCAGCTGCAAAAATTAACACTGCCCCAGCTGGAATCAGGACATCAGGAAA autosomal
GCGGAGAGCGGCGATGGGGCCATGGCGCCGGGCAGCGCGCAGGGAGCGCC autosomal
AGGTCCCGGGGGGGGCGCGGGGGAAACCGGGGGGGAACGGAGAGCGCGGC autosomal
AGATAAAGCTGCTTCAATAATTGTCGTGTTCATGTGACATTCTAATTAGG autosomal
GCTGACATAATCCGCCCGCAGGCCACGCCCCCTCCGCGGGCCACGCCCAC autosomal
CCCCCTCACGGCCGGAGTAGGCCGCGGCCTGTGGGCATGGCTGGCGCAGC autosomal
CACGCGGCGGGCGCGCCGGGCCCCGCTCCGGTTCCCCGGGACCGGCGGCG autosomal
GCGGGCGGAGCGGGCGCGATGGCGCAGCAAGTCGAGCAGCTGCGGGCGGA autosomal
CCTCCCGGCGCCTCCAGCCTCTCCTCCCCCGTATCCCGCGGCATTCCCGC autosomal
CCCTGATGCTCAGGGGAATCCCACAGAAAACGCAGTTGCGTCAGACACAA autosomal
AGGGGCCGCGTGACGCCATCGCGGCGCGACTCCATCTTTGTCAGTGAACA autosomal
AGAACTGAATTTTCTGCAAAGGAGCAGAAAATGAGTTCCCAGCAGCTCCT autosomal
CGCGGCTCCACCATCTTCCAGGCTGCCGGGGCTGTTGCTGCCGGTTAATC autosomal
ACTCCCATCTGTTTCTGTGGCATTAGTCATGTAGTCAATAAGCTGCTCCA autosomal
GGCCATGGCGATCTTCAGCGTCTACGTGGTCAACAAGGCTGGCGGCCTCA autosomal
AGGACAGTGTTGCTCCCCTTCCCTGGAAGCAGCAGTGTGTTCCACAGCAA autosomal
CCCAGCGAGACGGGGCCGAGCCGTGCCGAGCCTGCCGCGGCCTCGCCGAC autosomal
GCACACGCTGCGCTTCACGCCCTCCATGAGCAGCGGCCTGGACGCCGACA autosomal
ACTTATTATTCTATATGTTTCTATTATATTTTTAATTGAACTATCAGTGC autosomal
ACGGGGAGGGACACGTGACCTGGGGGGATTTGGGGGGGATTGGGGGGTCC autosomal
CCCCATGGAAAGGGCTGGATGTGGTGCTGGGGGTACTGCACCCCCAAATC autosomal
ACAGATTGCGCGTCAGCTTGCGAGGATCGACCTTCTGAGGGGTGGATGAG autosomal
CGGCCGCCGTCAGCGCCTCCTCCCCGAAGAGCAGCTCCTCGTCCTGGATC autosomal
TGGAGACGAGATCCAGCAGGGGGTACCGGGTTACTGTGGTGTCAGTGACA autosomal
CGGGGCACGGGGGGGACTCCGCTCGAAGTGGAATTTTCCCGGTAGCTGAG autosomal
GCGTCTCTCCACAAGCAATTCCTGGACACCTCCATTGCTGCGGATCTTGA autosomal
CCACTATTATCAACATCAGCAACACACAGACAGCCTTGGTCAAATTCTTC autosomal
CGCCTCCTCCATGCCGCCCGTCGCCCCCCGGAAACTTCTGGAGCCGCCCA autosomal
CTTGTTCAGTGTGTTCAGGAGGAAAAAAAAGAAAAGCCATGAAGCTGCTC autosomal
AGTGTCGCTCCCGGGGACCGGGGGATGCTCCGGGCCACGCGCGGGAGTGG autosomal
CCAGCAGCGGCCCTCACCGCCCCGGCCTTTTATAATGGGGGCGGGGCCTC autosomal
GCGGGCCGCAGGAACTGCAGGAGCCCCTCAGCAAAGAGCTCCCGCGCCCC autosomal
AACAGAACTCATCAGGATGAAGAGGATGATTATTTTCTGCATGCTTTTCT autosomal
AGACAGACAGCCCGGACAGCCAACCCGCGCACGATGCGCCGCGCAGCTCC autosomal
ACATAGCAAAACAAAAGCAAGGTGATGAAACTGATGTGTTTAACCGATTG autosomal
TCAGCCCGCCTCGTCCGGGGCGCGGAGACGCTGGTGAGCCCCAGCCCAGA autosomal
TACTGAGCTTTCCACTACAGCGACGGCTACTATGATTTATCACTGGGTCA autosomal
CAGCTACAACTGTGAGAGAGTTATTAACTGCTCACAGTTGCCAGCTGAGA autosomal
CGGCAGCTTTGCTTTCTCTTGGGGTATTTTTTTTTTAATATCAGCAAAGA autosomal
CACACAAGCTTGTATCTATAGGTCTGTGGCTGGCTGGCAAGAGCACCCCG autosomal
TCCCCCAAAAATTTTTGGCAGAATTTGCCTGAAATTTGTGGATTTCACCA autosomal
CCTCCTGCTCCTCGGGCTGCTCCTTTCGGCGCGGGGGCAGAGGCGGCGGC autosomal
AGCGCGGCGCAGAGGCAGATCAGAGGGAGGAGGACGGCGGCGCGGGGCCG autosomal
AGAGGAACAGGCACGAGTGTCGAGAAATTTTTTGAGGCTCCATTTCGGTG autosomal
CTTTCACATGCACTATACCCAGTATCGTCAGCAAGCTTTTGATTTTGAAA autosomal
AGCCTGGAGCAGAGCTCCCCACTGAGGAGCAGGGCTCAGCCTGGCCCGGC autosomal
AGACCATCACGTCCTCTGGGAGTCATGCAAGGGTATTGTGATGCCTGGCA autosomal
GCCGGCTGAGGCCCCGCTAGGCCGCGAACGCGCCGCGCCGAGCCGCTGCC autosomal
CCGGCTTGGTGTGCATGCTGAACCCCAGAAGAAATCCCACACAGAGAGAA autosomal
CGGCTGCAGCGCGACCTGCTGCTGCAGATCCAGCGCCTGCGCCGCCACAA autosomal
ACTGTGCCAAGTGACACCATCACCCTCCAGACTCCCTTTTTCCTCCTTGC autosomal
AAACACACATCTAAGGGTTGTAGGAATGGCCGATTTTCCTCCTTCCCTGT autosomal
CGGGACTCGGTGCCCCCAGCGACGCCCCCGGCTCTCTCGGCGAGAGGGAG autosomal
CGGCCGCGCCGCCCCCCGCGCCGGCCCCGGCCCCCGGCAGCGGCGGCGGC autosomal
CTCAGCTGAGAGCTAGATCTCTCAGACAGAGAATTCAAACCTGCCGTAAG autosomal
TATCTGATCACCCTGTGTGACTTTGCCCACACAGCAGAATAGGTATGGGA autosomal
GGAGTCAGACGCTGGGTTGGATGCACGGGGGCCTCTGACGCCATCATCCC autosomal
GGGGAGATTTGGGGCAAATCGGTTCAGGGGTTGGGACAGAGGGGCAGGAA autosomal
ATGATTTTGTGTCTGTCAGCATCTGTAGACAAAGTACACAAGAAAGGGGC autosomal
AACATTTTTCTGCCTTGGATTGAGCTGCTGCCTTCTGCGTGCTCCGAGCA autosomal
CACCTCGATTTCTTCCGCCTCCGAGCTGGCAGCCACAGCAGGGGAAGAGC autosomal
CGGCTGCAGCTGCTGCGGACCCCGAGCGTCTGACTCCAGACGGAGGCGGC autosomal
GGGTGCCGGGCCCTTCTGGATTTTGATCTTAGATTCCGTGCTGACTCACC autosomal
ATGACTATAATTAAGAGCATACACAGGAGTAGCCATGGGAAAAACAGATC autosomal
GAATCATCATCCCAGCCGGCTCTGCCCTCAGAATCATCATCCCAGCTGGC autosomal
GTGGTATCCGCGGGCGTAGACCCCCAACGCGCCGTACTCGGGGGGGTACA autosomal
CTGCCGCGCTGCCGCCGCCGCCCGCGGGCTCTCCCCGGCCCGGCCCGGCC autosomal
GCATCCCCGGCCCTAAATGTCCCCAGAGCATCCCTGGTCCCAAATGTCCC autosomal
AACTTCCATTAATATTCTGTGTCAGACAAGGAAATAACTTAGGATCAATT autosomal
ATTATAGCGGTGTATGTGTGGTGAGAGTCTAACATCTGTTATTTCACATC autosomal
GGAGCCGCGCGGCGGCCCCGGGCCCCCCCCGGCCGCGCCCGGAGCCGCCC autosomal
GCGCAGCCGGTAATCCTCGCTCACCTTCACCCTGTCCCCACGAGCCACCA autosomal
CCCGGGATCTTTTCCTGTGTTTTCTTTTTTTCTCAGTTTCTTCCTCAGCA autosomal
GCCGGCCCCACGTGCGTCAAGCTGGGCCAGTGGGCCAGCACCCGCAGGGA autosomal
GGGACACGGCTCCGCTCCGCAGCCGCCGCTTCCAGCCGCGCCGGCTGCCC autosomal
ATCCGTTCCTCTTCCCACGGGAATTCCGGAAAAATGACAGGGAATTTCAG autosomal
ATAAACAACCTTGAAACAGCACAGACCAATTATGGCTTCTTCTTTGGCAA autosomal
CTGGGCACCCCTAAAACTGGGCACCCCAAAAACCCGGGCACCCCAAACCC autosomal
GATGCCAACACCCCTCCGGTACTGCCCTGCGGTCGCCCTCGCCCGGGCGC autosomal
CCTGCTGGATGGATGCATGAGGAGGGGCCCGCATGGGGAGGGGACACCCC autosomal
CCTGACCCCGCCGCTCCTTTCCGGGTTACCGAGGGAGACTCGCAGCGCTC autosomal
AAAGGGCTTTCCCTGAATCCCGGCAGGAAAGGGCTTTCCCTGAATCCCGG autosomal
CTGGCTTCTTTCAAATCAGAACAAGCTAGCCCAGGGCCTGGGCAACAGTA autosomal
CACGTGCGGATGGGGCGGGCACGGAGCCCCGAGGAGAGCTGTGAGTGCGA autosomal
AAGCTTCTTGGGTAGAAGATTAAAGAATAGTTCACTGTTTAAAAAAAAAT autosomal
CACAGACCGCCCTGCCCGGGGTACAGACCCCACAGACCGCCCTGCTTGGG autosomal
CTTACCTCCCCTCCGGTCCCGGGGGAGGGGGCTGCTATCACGTGTGCTTC autosomal
CCCTGCCGCCGCCGCCGCTGCTGCCGCCGGGCTCCCCGTCCTATCGCCGC autosomal
AGAGTCAGAATTCAAGGGCACAAAGGTGTCTGAGGAAGCAAATGCTTGGC autosomal
GCGCTGGCCGCTCGAGCGGGCGGCCAATAGGTTGGGAGGAGCGGGAAGAA autosomal
ACCGTGCCAGCGGCGCGGGGGGTCAGGTGTGGGACCTGGCGCAGGCGCTG autosomal
GCTGAAAAATGATAGCCCTGATGTGCAATTAGGTTCATTAGTATTGATGA autosomal
AAGGAGTTTGACTGTGAGTATCTGTGATAGGAAGAACTGCACTCCTTGAT autosomal
GCAGGGTGTAGACGCGCTCCCCGCCCTCGTTCTCTTAGCACTGCAGGAAC autosomal
CCGCTCCTCCCGCGGCCGCGCCGGGCTCGGCCGGGCTCGTGTGCGCGCAG autosomal
ACTGCTTTTTCTCACCCAGCATTTTCAACACAGCCCTCAGCAGCTTTGCC autosomal
ACCCTGGGTTGGGGCATCTCGGGGATGGACACATGCTGGGAACACCCTAG autosomal
CCGGGAAGATGCTGGAGACGCTGCGGGAGCGGCTGCTGAGCGTCCAGCAG autosomal
CCCGGAGCCGGGCGAGCGTGTGCGCGCCTGCAACTCTTCAGGCCGGGGGA autosomal
CGGGGGGCGGGAGGCAGCCAGGGCCGCTCGGCAGCAGGAGCCCGCTGTGC autosomal
CAAAGGATCATTTTGCAGTCCAGATGCTGCCAAACACAAGCAATCAATGG autosomal
CGGGGCCAGGCGGGGACGGGGGCTCGCCCTGCTGCGGTGTCGGCCAGGGA autosomal
CCCGACAGGCCCGGCTCCGACTCCAGCGCCGCCATCGCCCCGTCCGCAGC autosomal
CGGCCGCCGCCAATTCAAAAACCGAGCCGCCGCACTCACACCGCCGCCCA autosomal
ACGCTTGCACATGCTGTTCTCTGCTTGCTCGCCTGGGTGTTTTGCTGAAG autosomal
CGGCGGGGTGGCGGCCGCCATCTCCAAGACAGCTGTCGCCCCCATCGAGA autosomal
GGTGAATTCATGCCAGCAAAACCAAAGGACTTGTGAAGAAACTTGAGGAA autosomal
CTTCGGCTTCCTTGGAGGCTGCCAGGCTGTGCAAGTAGAAATAAAGAGGA autosomal
CATGGCCCCAGGGGATGGCATGGCATGGCATGGGATGGGATGGGATGGCA autosomal
CGCTCTCCTGCTGTCGGCGGGCCCCCGCCGGGTCCGGCCCCCGCCGCTGC autosomal
CAAAATTCCATCCCAGACCCCCCCAAATCCCATCCAGGACCCACCAAATC autosomal
AGCGCCGTTCCCGAGCCCCCCGCGCGCCCCCGGAGCTGCTCCTCCCGCAG autosomal
CAACGGGGTTATGGGGTCAGCTATGGGGTCGGTTATAGGGTCAGTTATGG autosomal
ACCCTCCCTTGTGTTGTGTGTTGTCCTTGGTTTCTAAATGCATTTTCCTC autosomal
GAGCGGAGTCGAGCCGGCCAAGCCTCGAGCGGAGCGGCGGGGAGGGCTCC autosomal
CCGGCACGGGAGATCCTCTGCCGCCGGCGCCGCGGCTGCGCCCATGGGCG autosomal
CCACTGCCAGTTTGTGCTCCTGCCGCCGCCGCCGGGCTCCAGCCCGCAGC autosomal
CATCAGCGCCTCCATCACCTTGAACATGTACACCAGCATCTACTTGCTCG autosomal
GCCACTGACAGCACTCTGGCTTCTTGAGCTAAGGTTAACTTCTGTATTTA autosomal
CCAGTTATATTTGCTGTCATAGTACTCCAGGTGCAGTTCTTCTGAAAGAA autosomal
GCCTCCGGCCAAGCGGCTCAAGGCCGCGCCCCCCGGCACGCCGCCCCAGA autosomal
CGGCGGCGCCGCCATGGCGGCCGCCCTTAGCAACGGCGCGTTGCTAGGGC autosomal
CCTAATAGCAACTGAGCACATGGCCTTGGGTGCAAACCATGTTCACCCAG autosomal
CACACCACATGGTGGAATTTGTCACCGCTGCCTCATGTGAGGAAAGAGAG autosomal
CAGAAAGCAGAGTGGCTGGCAAGGGCACGGGCACAGCGTCCCACCCGAAC autosomal
CTGCAGCAGGAAGACCTGCACACAACTGGCTGGAGACTGGCTGGACACAG autosomal
AATATATAGTAACCTATAATCTAGATAATATACAATAACCATCATTATTA autosomal
GGGCGGAAGTGACGCGGCGGCGGCGGAGCCCGGACATGGCGGGCGTGAAA autosomal
CATTCACCATGCTGGAAGCATCTCCAGCAGAAGCAGGGCAAACAGGGAAG autosomal
GGGATAAATATTCCATTTCAAAATTCAAAATCAAATTATGAAAACAGAAA autosomal
TAGAAAATGTTAAATTGGTTTGTGGCAGGTCAGCATGCAAAATGTTAAAA autosomal
CGGCAACTTCAGAGCAAGGTGAAGTCTCCGGAGCCGGCGCCACCGGCCAG autosomal
GCGCGGCTCCCGGGGGAGCGGCGGAGCCCGAGGGACCCGCGCCGGGAAAC autosomal
AAGCTCGAGTCCCCTTCAGCCACATTTACCTCAGCCTGTGGGCATCTCAG autosomal
GGCGTGTGGGGAGAGCTGCCCAGTGAGAGAGAGATGAAGTGGCCAGCACC autosomal
ATGGCACCGGTTCTCAAGGCACCTCTCCACCACCTCCTTCCCCTCGGCGA autosomal
GCAGGGAGGAGGAGGAGGAGCAGCAGCAGGAAGGGGCAAGGGCAAAGCGC autosomal
CCACCTCTCCACAACGCCGCACGCAAACCCACCAGCCTCTCGCGCCGCCA autosomal
GTGGGATCGGGACGAGATGGGACAAGGAACGGGAGGAGATGTGACCGGGA autosomal
AATGGCTGAGCCTGCCGGCACTGAGCTCATCCCGCATCCTGCCGGCCAAA autosomal
AACTTCCTGGGGTGGCTCCAGTAGAGCTGCTGGTGTCCCATGGCTGTGTG autosomal
AGCCCCAGGCCGGGGCCGGGCTCGGGCCGCGCTGCCGCCCCCGGTGCCGC autosomal
AGAAATAAAACAAAAATATAAATAAAAATTATAAAACATCACATAATTGC autosomal
AGCCACGGGAGACCAAAAGAGTAACTTCGGTCAATTAGTTTAACTTTGAC autosomal
CAGGAGCAGACTGCCCAAGCCATGGAGCGAGAGCCAATGCGCATTAGGGA autosomal
AGGAGGGAAATCCTCTCCATTAATGGGTGAATTAATGGTGCTGCGATGGG autosomal
GGGGGCTCTGCTCCCTGGGACCAGGGCCTGGAGGAACCCTGCAGACACAC autosomal
CTCCTCATCCTCTCCTTCCTCCCCGCGCTGCTGCTCCGCCGGGCGCTGGC autosomal
GATCTGGCACGGACCGCAAACCCGGCACGGACCGCAGATCTGGCACGGAC autosomal
CCGCGCTGTCCCCGAAGGGGGACACGCCCCTCCCCCACCCCCGCCTGGCC autosomal
GCCAGGCAGGACAGCGGCACACAGGGGGTCCCCTCACCCCTGCAGCTGAC autosomal
ACGCGTCCTGCCCGGTGCGAGCGGCTGCCGGGGTACGGCCGGGTGCGCGA autosomal
CCTCCTCGTTGTCCGCGTCGTCCAGCAGGTCCCGGGCGGCCGGCGGGCCC autosomal
CACTTCATTGGTGTCATTCAGTTGTGTTAGACATCTAGCATAAGGAAACA autosomal
CGCTGGCTGCGCGGGGGTGTCCGCACCGGGGCCGGCTGGCTGGGACAGCG autosomal
ATGTCTGTTCCTAGATCAATAGATTCCATGGAGAAGAGAGTTGAATTTTG autosomal
AAAGCAGATCATCACTGGGATGAGCCCCAACGCAGGCCAAGCTGGTGGCC autosomal
CCCTATAGTTCAAGTTACTTGGATTTTTATATGTGCACAAATAATCTTAA autosomal
AAGGAAGAAGAGAGAAGAAAAAAAAGCCCCTCATCCCCTCGCCCCCTTCC autosomal
GATGGCCTCCGGCTCCCGCTCCTCGCCCTCCTCGGGCTCCCGCCGCTCCC autosomal
GAGCCGGATATTAGCTCAATCCCCCAGGATGCAGCTACGGTACCCAACTC autosomal
ACTGCTGCCCCTGGGGCTATTCTTGCTGGTTGTTCACACAGACACAGGTG autosomal
CGCAGCTCCAGCATCAGCGGTGAGATGTACAACCTGGAGAAGAGCGCGCG autosomal
ATGGTGTCACCCCTGGGCTGGTGTCACCCCTGGGATGGTGCCACCCAGGG autosomal
AAGCCAGGCACCGAGTCGGCAGCCCGGGGTGAGCCGCGGCCGCAGCGAGG autosomal
ATGTCACCTCTGCACAGGGAGGGGGAAACCTCATGAGAGTTTGGGAGAAG autosomal
GAGTATTTTTGTATGTGTTTCCAAGGCCTGCAAGCTCAGTGTAAGAACTC autosomal
GGCGGCGGGGGAAGGAGCGGCGGGGAGCGGCGCAGGCGGCAGCATGAGGA autosomal
AGTAAAATCAACGAGTCCTAGATAGCTGCTGGCTGTCCAGCTCTCCTCCC autosomal
CATGCGATTTCGGGCAAAGATCGTGGATGTCGCCTGCCTCAGCCACTTCA autosomal
AGCTGGAGAACGCCCTGGACCACGACGAGGGGCAGGGGCTGCAGGGGCAC autosomal
CAACTGCTTTGTCAAGGATGGGAAACCTTTCCGTTACATCTCTGGTAGCA autosomal
GCGACACCAGCCAGACACACGGCCCGCCGCGCTCCCGGCCCCCGCCACAC autosomal
CCAGGTCGTACATCTCCACGCCCGCGTCCGCCAGCGCCAGCGCGGCGGCG autosomal
TGCTTAACTCATCCCATCTTTGCCCAGAGCCTTGGTGTTTGAGCAGCCAA autosomal
AATCGAAATTCCGGCAATGGGATCCAGAGAAAGAATGACAGCACTGAGAT autosomal
CTGTCCCACGCTGCCTGGGAGTGGCCAGCAGAGCTGCTTCGGTCCTTGCC autosomal
CTTTCCTTTGACACATTTTGTGTTAGGAAAACATGAATGTCTTCTTCCGA autosomal
CCCGGCGGTGGATGCGGGAAGGGATGCGGCGGTGAAGAGCGGCGCGGGGC autosomal
CAAAGCAGCCTTGCCTGAAGCACATGTTAGTCAAAGCAGATCAAAGGATA autosomal
GGCGGTCCCGGGGGCGCTGGTCTTGGTCTGCCGCTGCCTCCTGCTCAGCC autosomal
GTTTTATTCCTATTCCTTGCACAACTGACAGTAGTGGAAGTTGAGAAACA autosomal
GTTTTAAAAACAGAGGTGGAAATCTGACACATCATAAGAATCAAGAACCA autosomal
ACGGCTGTAGGTCCGGCACTTACGGCCTCCTTGAGGCCCCCCTCTTCTGG autosomal
CAAGACCTCCTGCGAGGGCGAGAGGAGGCCGCAGAAAAAGATGATTCCAA autosomal
CGCACTGGATGCTGTAGGGTCTCAGCAGGACCAGGAAAGCCGCGGCAATC autosomal
CGCCTCCAAAGCCGGCCCCAAAGCCGGCCCCAAAGCCGGCCCCAAAGCCG autosomal
GAGTTGGCTTAATCTCAGCTGGCAACTGTGAGCAGTTAATAACTCTCTCA autosomal
CTCTTCGTAATATGTTTTCAAACAGTGTAAATGGTGCTAAGTGTCACCAG autosomal
CGCAGCCATGGCCGAGCCCTTGCGCCGCCGGCTGCCGCTGCTCCCGCTGC autosomal
AGTTCAGGCTTGTGCTGACACTTGTCTGTTTTAGAAGCCAAGCTGTCTGG autosomal
TCCTAGCATTTCAGCAGCTTTGTTATCCTCCTCTGGACACATTCAGTTAA autosomal
CAGGCGGCCGCTCTAGCCCGGCGCCCGCGCGCTCCGCGCCGCTGGGGCTC autosomal
CCCAAATCAATGGTATTTATTTACAGTAGCTGAAGCTCTGCCTCAGTGAG autosomal
CAGCGCCGCCTACGGTGCTTACTTCGAGAGGCTCTACATCATCCAGGAGG autosomal
CATGGCAAGCCATGGAAGAGCAGGGTGGCTGGGACAGAGAGGACACCTCC autosomal
GATGAGTTGCACTGTGGTGGAGCAATCATGTCAGGTGACATGGGCTCTGC autosomal
AAAACGGAGCAGTAAAGGCTTAAAATGCAGAGGAAATGGCATCCCCCAGC autosomal
AAGTCAGCAGGAGTTCGTTAGATTCCCCTGCTATTGGTAGACGACAGGTG autosomal
AGCAGCACGAGTGTCAGCATGGCAACATCATGCTCTGCTGATGGATCACT autosomal
CAGGGTCCAGAATAACTCTGGGAACCTCACACAGCCAGGACAGCAGGACA autosomal
AGGCCTCTGTAACAGCGCTGTGCAGGAAAAGCCCCAGTGCTCTGTGCAGC autosomal
GCTGCCCGGCTGCTGGCGGTGCTCGGCTGCGTCCTGACAGCGGAGGCCCA autosomal
AACGAACAAAACGTTCAGGTCAGGTATTGCACGTGGGGCTCGACGCCAGG autosomal
AATCACAGCTGCCTTAAGTTGTAACTGATACTGCCCTCCCTGCAGCGTAG autosomal
CTCGGTCCCGCCTCTCCCGGCCGCTCGCTGCCCGCCGCTGTGGCTGCGGA autosomal
GGCGCCGCTCGGGCCGGGGGGGCCGCGCCGCCATCGCCGCGATGCCGAAA autosomal
GACTTCAGACTATTTTATAGCTTTTCTGTAGGCTAATTCACCAACCTGAC autosomal
CTTCCTACTGCTGTTTCAGAGACACCACTGGAGATCTATGAGAGAGAGCA autosomal
CCGCCAACATTGCCGACCTCGCCATGTCCGGCGGCGGCGTCATCCGCGGC autosomal
CACACCCGCGGGGGCCGCTCCCGACCGCGCCATGAAGGGAGATGCTGGCG autosomal
GGTGCCGCTGCGGGTCTGTCACCAGGAGATCGTCAAGTTCGACCTGGAGA autosomal
CATGCCTTAATGTCACTCAGAGCCCTTTCTGTGCATGCTCTGCAATGCCA autosomal
AGCAGCAGGAGGGTCCGGGGCGCGCTCTGCCCCATTTTCTTCAGCCCCTG autosomal
CGTGCACCGCGGCGGCGTTTGAATGGCGCAGGCTCGGGGCGCCGGGCCCC autosomal
CAGGAACTAAACCTGAAATCAAAGCTGGCTCCAGAGATGTGCTCAACATG autosomal
AGTAACCCCTGTCTGGGAGCTACCTCCCCACCTACCAGAGCAGTACCCAG autosomal
CGCCATGGAGGCCTCGGCGGGCGGCGGCGGCGGCGCCGGGCCCGGGCGGC autosomal
ATCATCCAGCAATCCCTAATTGAAGCAGGGAGCGGTTCTGAAAGCTGACA autosomal
ATTTTGGGATGTAGCTGATGGATGATGGATGCAGCCATGTCCTGAACCCC autosomal
GTACGCGTTTCTCTCCACGGATTTATACGATCTGAAAAGAAACCGGAGGA autosomal
ACCAAGAACACAACTGTCATAATGATCTATCCTCATCAGTTCCTTGGCTA autosomal
CACATTGAGGGCGATGTAAGGGTCCAGCAAAAAGGTCTGTGGCCTGGGAC autosomal
CGGGCGCGGGGCGCTGCCGGGAGCGGGGCGGCCGCAGGTGCCGGATGCGA autosomal
GACAGAAGGTGAGGAACAAGCCCAGTACATGCATGTCGGGAGCTGCCAGC autosomal
GGGCCGCCGGGCCAGGCCAGGCCGGGCGGGGCAGGGAGGCCGCGCTGGGA autosomal
CATGGGCATCATGAACTCTTTCGTCAACGACATCTTCGAGCGCATCGCGG autosomal
ACCTTCTGTGTCCTTCCAGAACCTTCCATGGCCTTCTGACCCTTCCAGAA autosomal
CCTGGCCCGGCCCGGCCCGGCTCGGGCCCCGCCGATCCCGAAAAGCGTCC autosomal
CCACTTTGTGTCTCTGGTGGATTCTCCATGTTTTGTTCTTGTACTTTGGA autosomal
CCATATTTGTATTGATGTTGTCTTCTTAAACTTCCAAAGATGCTGCTGTA autosomal
AGAAACATTTCTTCATTTTTCTGTGTATAACATTTGTAAAATATTGAATA autosomal
CCCCGGGGCGGCGGCATTTCAAGTGCCGCCGTTGCCGGGGGAGCGGTGCC autosomal
AAGGCTGAAAGACGGAGACTCAGATTTGAAGCTTCCAGTCCTGTGTCCAT autosomal
CAGCTTTTTCCAGCAGTGCTTCCCCTGCAGGGTAGATGACTGTTTTGGGA autosomal
ATCTGCCGATTTTGAAGGGTCTGATCCCCTCGCTGAAACTCTGGGACCCC autosomal
AGGGCCCCTTGTTGAAGTGGGTCATGTCGGTGGTGTCCCGCGGTCCGGGG autosomal
AGCCCCCGGGGGGAGAGGAGGACAGAGAGTCCCAGCGGGGACGGTCTGAG autosomal
CCGGTGGCGGTGCCGGTGCCAGCCGAGCCGTGCGGGACCGACCGGCCGAG autosomal
CCCAATTATTATTTACTCCAAATTTTAGATAGCTTTTAGTTTTGGAGGCC autosomal
CCACATCTTCTCTGGGAAACGCGTTCCTGTGTCTCAGGGGCATCGCAGCG autosomal
CACAAAGGCACCCTACTATCCTGCTCTGCCCCACCTACCCCCCCCAGCTC autosomal
TAATACAAGGAAAGCTATGTAAAGCAGGTGCTCAGAGGCCACAGGAAAAA autosomal
CACTTTGTGAGCCCTCATCCTGAGGGAGGGAGCAGAACAAAGAGGAAGGG autosomal
CCAGGCATGCCATGCTGCAGGGAGTATGCAGCCTTCCATGGTGCTTGACA autosomal
CCTATGGAATCCAGGTGAGGACAGATATCCCTTGTATCCCCCATTTTCAC autosomal
CTCTTTGCTAGAGGGTGAACGAGCCTTCCGGGCCGGTCGGTGTTGGGAAG autosomal
CCGGGCTCCGCCGGCCCCGGGAGCGGCGCTGGCCTTCCTGCGGATCGCCA autosomal
ATCCCGCCATGGCGGCTTTCGGCTCCCAGGGTGGCGGCACCAAGAAGGAG autosomal
CAGGCTGGGAAGCAGTGCCCATGAGTGCTGGCAACACAGCAGGGGCTTCC autosomal
CTTTGGCTCGTCCATCAGTGCCGGCGCTCGCTCCCTCCTCCCGCGCTCCC autosomal
GGAGAATGTCCAGCTGCTTTGATTTATACTCAAGTTGTGCTGACAGTCAA autosomal
AAAACAGTCATCTACCCTGCAGGGGAAGCACTGCTGGAAAAAGCTGGATC autosomal
CCAGCAATGGTCGCCTGCGGTCCCCCTGCGCGGCGCTGAGCGAGGCCCCG autosomal
AGTGTATCTCCAGCAGAGCTGAGCTTGCATATATATACTTTAAGTTGTAT autosomal
CCTCCCCGCCTCTTCCTCCCCTGTCTTCCCCTCACCCCCCCGCCCGCCCG autosomal
GGAATTTCGGGAAGCGCTCACCCCTCTCATTTCCCCATTCCCACTGGGAA autosomal
AATGTGGGAAAAGCTTCAGGCAGAGCGCCACCCTGATTGTGCACCAGAGG autosomal
ACACGGACTGGTTGAACTGGGGCGCGTTGTCGTTCGCATCCAGCACCGAG autosomal
GGAAGTTTGAGCGCCGCGCAGCGCGCGAGCGGAGCTCCTCCGCGGGAGCC autosomal
CAACAACCAAATGGTTTTGGATATGATCCTGTGTTCCCTCATTGGTGTTC autosomal
CGGCCAGAGCCGCGTCCAGCCCGCAGCCCCCCGGGCCCGGCTCCGCCTGC autosomal
AGACGCGCGCGGCGGCGGCCCGGCGGAGGCGGCGAGGCCCCGCGTTCGTG autosomal
CCAGGCGCGGGGGGCATAGAAGGTGCCCACCTCATCGCCGTCGTACACCA autosomal
CAGCCACAAGCACTACGAATCGTTGTAGAATAATAAAAAGTCTTCTATGC autosomal
AGTGGGAACCGTGGGCTCCCGCGTGGAAGCGAGCGGGCACGGGATGCCCG autosomal
GGCGGGCCCGGGCCGGAGCTGCCCCCGCCCCGCGGCCTCGGGCCCGGTAC autosomal
CCGGCGGAAGGGCCGGGGCCGCTCCTTTTCCCGGCCCGGCTCGATTCTCC autosomal
CACCGCCACCGGCACTGGCACTGGTACCGGCACTGACCGCGCCGGTACTG autosomal
CCAGCCAGAACCCTGACCCAGTGCCAGCCAGAACCACAGACCCAGTGCCA autosomal
GGCCTGCTCGGGTGGCAGTTCTGGGCTCTGGCTGGAATCGCCGTCCTTCA autosomal
CCGAAAAGCTCCGCGGGGTGCTGCGGGAAACCGCCCGGCTCCCTGCGCCC autosomal
CCTGGCAGGCTGGGCCGTGCTGGTGGCACTGGGCGAGTGGCTGTGGGCCG autosomal
AAGGGTTAAGATCCAAAACGGGAAAAGGAGGAAGATTAAAAAAATAATAA autosomal
CCTGGGGGAAATGGCTTGTCCAGCCTCGGCCAGTTTGTGAATGGGCTCAG autosomal
AGGGGAAGGGAGCCCGGGGGGGCCTCGGCTGCGGGCCCCGGCAGCGGGGC autosomal
TCCTGGAGCATTTCCTCCTAAAACAACATCTAATGGGTAGATAATAGAGA autosomal
GGCAGAAATTTAAAGCCCCACAGCAACCATTTCTTCATCTGCTGTGGGCA autosomal
GAGTTGTAAAGCAGCAAAGGAAGCAAGCTCTACCACCCCCTCCACCCTCC autosomal
AAGTATCCATAGCATTCCAGCACCTGAAAAATCCTGTCTGAAAGACTCCA autosomal
AAAGGGCCAGGCTGGCATGGCCTGGGGGCTGGTTTGGCCGTGTGAAGACA autosomal
AGGTAGAAAAAAAAAATCCCGTAAAAAAGTCGGAGCTATCAAAAGGAAAG autosomal
CATGAGAGGTCCTTGTGGGTGTGTGCAGAGTTGGAGGAACAAGCCAGCTC autosomal
CATCTTTTCCTGCTGGTTTTTCCCAGGCCACCACAGCTCCTCCCAAGAAA autosomal
AGCCGCGTCGGCTTCCGACGGAGCATCGCCGCCAGAGACACCGCCACCAG autosomal
ACTATAACCCTGGAGTACTGTATTCTTCATTTGTATTTCAAGCTTGACCC autosomal
CCCCGAGCCCCGCTGAACGCCACCGCAGAGCTCCGTCAGAAGGTCCCGCA autosomal
ATTAGAAAAATTATCTCCAACTTTTGATAAAAAATTGAAATGTATAGATA autosomal
GAGGGGGAACCGCCCGGCCGCGGCCCGCGGGCCCGGGAACGGGTGTGGGC autosomal
GGAGGCATTTCAGAGGAAGCTTCAGAAGCTGCATACAGAGGACACATTGA autosomal
AGCTCGGCCCGCAGCGCCTCGTGCACCAGCCGGTGCCGCTGCAGCGGCGG autosomal
CCTCCTCCGCCGCCTCCAACGCCGCCAGCCCCGCACCTCAGCAACGCGCC autosomal
CCTCCCCCCACCCCCCAAAAAAAGCAACGACGGGAAGAGGAGGGGAGGAA autosomal
AAGTACCTGTCCCCGTTGCGGTAGAAGCGGGCTTTGCGCGCCTTCTTCTC autosomal
ATTACCTGCCTGCCTGCCCGTGCGGCCCCCCGCCTCCCTGCCCGCGGTGG autosomal
AAATAAAGCAGCCTGGCTAGCACAAGGAGCCTCAACAGTTCATGTAAATG autosomal
AATGCTTGCTCCTAGTCTCTGCTGAGCAGACAGTGCCCCTTCACCTGAGC autosomal
CCCTGCCCTGGCACCGGCAGCAAACCTGATTTCCCCAGGCACTGGCAGAG autosomal
TATAATATAGCTGTGCAGTGCTGTATTATCGTTCCCCCTGCTTAAAGTAA autosomal
ACAAACTTTGCATTTCTTGATCTGCATCTGGGGCTTGCCGAAAAATGAGC autosomal
CCTTGGAGGAGATGGAGCATCCTTGGAGGAGATGGAGCAGCCCTGGAGGA autosomal
GCGCGCTTCACCCTCACGTCCAGCGCCGTCCCCATCGCCGACACGTGACC autosomal
CATCAAGGGCGGCGGCTGCGGCGGAGGGCGGCGGCGGGCGGCTGTGGGGG autosomal
GCTCAGCCCCCCGCGATGCGCTGAGACCTTCCCCGCTCCTTCTCCCGGCC autosomal
GGTGGGGGTGGTGTAAAAATCACAAGGCATAAAATAATAAGAAAAATTGA autosomal
AGTTAAAGCATGAAAAGAAACGGTGGTACTAGATGCCAAAAGAAGTGTGA autosomal
AACGGGATGGGAACGGGGACGGGATAACGGGACAATAACGGGATAATAAC autosomal
AATGGGTTGTCTCCTTGGTTAAGTCTTAATTCAGAAAATCCTTGCTGGTA autosomal
TCCTGGGGCTGCTCCTGGGGCTCCTGGCGGAGCCGGGGGGCGCGACGAAA autosomal
AGGTGTGTTCCTGAGCGCTCTCACCCATCAGCTCCCACTGAGGAAAGGCA autosomal
ACGCCCTCAAGCGCCAGGGTCGCACCCTCTACGGCTTCGGCGGCTAAGCT autosomal
TCCCAAAAACTGAGATGACATGAAATCATATTGCCTTCCTCCTTTGCCCA autosomal
GGAGCCCCGACCTCTGGACCGAGCCAAACCTGGTGACGTTTTGCCCACAC autosomal
CGCAGAGCACAGCTGCCACTGGATGGCACCAGGACTCCGTACACGTGTGC autosomal
CACGGGCGCCGCTCTCCGCCGCCAGCAGCGTCAGGCTGAGCCTGGGGACG autosomal
AGCGCTGGCATGTATTATCTGAGCGGGGCTGATGCCTCTCACTGCTTTAG autosomal
AGACCCGGGGAAGGGAAGGGAAGGGGAAGGGCTCCTGCCCGCCCGCGGGG autosomal
AAAACACCCTTCCTCACTCTCCGTTTGGTATCCCCTTACATTTTTGCGGT autosomal
GCGGGAGCGGGAGTCGGGCTGGGCCAGCTCGCGGCAGCTGCGGCAGCAGC autosomal
CAGCTCATCAGCACATACACGTTGCAGAATTACAGATCCAGGTAGAAATG autosomal
AAGGAAGGAAGCCGGGCAGCAGCCCGGGGGCGGGGCCGCTCCCGCGGCGG autosomal
GTCAGGGAAGGGACACACACCCTCCCCTCGCTGCGCACACACCGCCTGCA autosomal
CCCAGATCCTGGCACGGGCGTTGGGCGGCTGCAGCGCGGGCCGCCAGTCC autosomal
GAAGGAAAGGATGGGAGCCCGGCCCCTCCCGGGATCTAGCCGGAGCCTGA autosomal
AAAAGCACTCATCCAACATCCCATACTGCTTAAATCAAATTTAATCCTTT autosomal
CTGTGTTTGTCCACATACCTGGGGGCAGCTGGTGTGTGGCAGGAGGGAGC autosomal
CCAAGCCATGGAGCGAGAGCCAATGCGCATTAGGGAGGGATACTTGGTTA autosomal
CTTTCTTGATTCAGAGAACTGATTTTATCAACTTGATTTACTTTCTGTTC autosomal
GCAAACAGAGGAGCTGCCGGAGCGGCGGCGGGCACAGCCCAACCCAGAGC autosomal
ACACTGAGGAAGACCAAACTCTCCAGCAAGCGCTGCCGGCCGGAGAGGAA autosomal
GGAGTTGTGGTGCTGCCACGGCCTGTGAGCAGAATCACAGAGTGTCCCGA autosomal
CAGGGATGGCGGTGCAGGGAGTGCCGGGCCGGGGGCTGCCTGGAGCAGAG autosomal
CGCCGCCGCTGAGCGCCGAGGAGGTGGCCAGGCGGCTGGCGAGCACCCGC autosomal
GCAGCTCCAGCAGGCAGCAGGGCAGCTCCAGCAGCGCCAGCAGCCGCAGC autosomal
ATGACCAGCTGGAGAGGGGGAACCCTGATGGCTCTGTGCCTCCTGCAGCA autosomal
CCGTGCACAGCCCTCTGCAGCGCAAGCAGGGCACGCCTCGTCCCCCCTGC autosomal
CGGCTGCCGAGGGGAGGACAGGGACGGGAACCCGCCGGTCGGGACTCGGC autosomal
GATTTCCCAGGCAGAAATAAAGGCTGAGGGTAACACAGGAGCCAGGATAA autosomal
ACACACAGCGACCAAGTGCTCTTCATCTTGCCTTCCCTTCTTTTGAAGAA autosomal
CGGGGAACGGAGCGGAGGTGTCGCACCTTTGTCCTTCCGCCCGCCCGGAA autosomal
ATGGAATTATTCTGATGTCACAAACATCACTAATCAAATGCTCATTGATC autosomal
CTGTTTCTCACTCTCTTTCTTGAAGGCCTGACTGTAGAAACATTCACAGA autosomal
GAGCAGCGCGCAGAGCAGCAGCGCCCGTGGCGAGGCGGCGGCGTGCAGCA autosomal
GCGGCACAGACAAAGCGCCGGGGCTCCCCCACGCGCGCCCCGGCCGCGCC autosomal
TAACCTAAAGGACACCACTGGCAAAAAAAACATAAATGGATAAAGAGCAA autosomal
GGGATGTGCTTTCAGAAATCTAGGACAGCTGAATATTTTGAAAGCCTTTA autosomal
ACCGGGGACGAGGCGGGAAAGGGACTCCGCCTCCCCCCCCGCGGAAGCGC autosomal
CTTCTAGGAGGACTCGCTACTGATGAAAGCAAATGCTCGGAGCAGCATGA autosomal
GCCAGGGGTCCCGGGACAGCGGGGCGGCCCCGGGCGGGTCCCCTCAGACC autosomal
GCAGCTATGGCAAGGAGGGCAGGCTGCTCTGCTGCCTCGGCGAGGGTGGC autosomal
ATTGACAAGACCACGGGCAGCTTCCTGTGCACAGCCACCCTGGCCGAGGG autosomal
ATTTGCAATACTCACAGGCAGTGTATCTGTCCCCCATGCATAACACTGTG autosomal
CCCGCTGAGGCTGCGGCAGGGCCAGCCGCGCTCGCTGCAGCCGCGCAGGG autosomal
TGAATGACAACGTGGGAGCTCTGGCACTGCCTGACACAGCACTCAGTGCA autosomal
GCCGAGCCTCGAGAGAGAAGCGGCCGCCGCCGCCGCGTCCCCTCAGCCGA autosomal
CCCGCGCCGCAGTCCGGCAGCGCCGCGCCGGGGCCGCGCTGAGCCCGCCC autosomal
CAGAGCAGGGCAGCCCCTGCTCCTTGGCCAGGGGGGGCAGCAGTGCAGGA autosomal
CCTCACGGCCGCTTCCAGCGCTGCCCCTGCGCCCCGCCGGGATGGCGGCA autosomal
AGCTGGAGGCATTTCACATTATTTTCTCTTATGTTGAGAAGAAAAGAAGG autosomal
AAGAGAAGGAGAAGGTCAACAAAGACACATTTAGTCCAGGCTCTGCACTG autosomal
GGAGCTCCACCAGACCGAGACAAGGGAATATTGCAAGTGCTGTATTTACA autosomal
CAGTTCCCATTTCCCATATTCACACAGATTATGAGGATGGAGGGAACCAG autosomal
CGAGCACCGCGCCCGGACCCCATCGGCCCGGACCCCGCTGAACCCCCGGC autosomal
ACTCGCCCTCACCCGCAGCCCCGGCACAGGAGCGGCGGGGCCGCCGGGGA autosomal
CGAGGCACCAGCAGCCGCCGAGGCGAGCGCCGCCAGCATGGGCCCCGACA autosomal
GGGGCCTCCTCCACAGCATCATGCCAGTCCCAGGGAGCTTCTGCAAGCAA autosomal
CCGTCAGGTTGGGGCCCACGGCGCGGATCCAGCTGGTGTCACAGTGGTGA autosomal
CCAATCTGCTGGCTGACAAAAGAGAAGATTTTCATGGCTCTGGCAGGAGC autosomal
CTTGACAAGATCAATCTCCCCAATCAGCTTTGGGATCACGTGCAGCCTGA autosomal
CGCGCTCTGCGTCTCCCGCCTGATCTCCATCAGGAACGCTCCCGCCATGC autosomal
CTGCGCTGTCAGTGCCGGGGGCGGCCGCGGGGCCGGAGCGCGGAACCGGA autosomal
GGCTCCGCGTCCCTGCTGCCCCACGGAAAACACACACAGTCCGCGGCACC autosomal
CGGAACACTGCTCGGAGTATCTGCCTGGAATACCAAGCTCTGAGTTTGCA autosomal
AAACCATCGGCAAAGGCAACTTCGCCAAGGTCAAACTGGCCCGGCACGTG autosomal
AGGGCGGCCGCGGCCTGGCGCTGCGCGGCCGGAGCGGGCGAGGAGCGGGA autosomal
CCGCACCGCTCCGCCGCCGCTTCCCTCGGAGCGCTGTCACATGAGCCACG autosomal
CCGCGGCTCCCCGCCGCCGCTGCCACGTCCGCGCTCCGCCCGCCGGGGCC autosomal
GGCGCTGCCCTCCGTGGCCCTGGAGAACGGGCTGGCGCGCACTCCCCCCA autosomal
CTTCCCTTTGCTAGCTAGCAGGTCTCTTCAACTTTGTCCCCTGCTGCTTA autosomal
AGTCTTTCCGCGACTGCGACGCCACGGCCCTGGTGGCCGTCGCCTGCCTG autosomal
GCACCTCTTCGCCGGGCTCCTTCACCGGCTCGCCGGGACCCGCCTCGCCC autosomal
ACAAGGTCTCCACAAGAAACTAGCTAATGGAAATTTGATGTCTGTTGTCA autosomal
GAAGCGCTGTAATCCATCTGGGAACGGGATCAGGCTTCCCCCTCGGAGCA autosomal
ATCCCGGCAGCGGCGAAGGTCGGAGGCGGGGGTACCGAGAGGGAGGGAAG autosomal
ACCAGCGCCCACAGCCAGAGGAAGCCCAGGGTGCGGAGGCGGCCACGGCG autosomal
GGGGCAGAGCTCCGCTGCCTTCTCCGAACCGGCGCGGACCCGCTCCAGCA autosomal
GTTAATTTGTCCAAATAAAGCATCAGTGCCTTAATTTCTGTTGTTTCAGA autosomal
CCATAGAGATGCACTCGAAGGCCCGCTTGTGGCACGCCCGCACAGTCTCG autosomal
AGAAGACCCACACCCGCCCCAGCCCGCCCCGCCCGGACACTCCAGCCGCC autosomal
CGCAGGCAGCCCAGCTCCCGGTCGCTGCCCGCCTGCTGCTCGCTCAGCCG autosomal
ACGGGAACGGGAACCGGGACCGGGACAGCCCCGGGCACGGCCCCCGCTCC autosomal
AAACACGTCTTCCTGTGTGAAGAAGGATGTATCAGTTTGAAAACTTCAAG autosomal
CTTATCAGACACATCTCCTCGTCCTATTCAAAATACAGCAAATCATGAAA autosomal
CCGGGGGTAGGAAGAGGCGGAGGAACCTGCTGGTGGTGCTGAGGCCGGCG autosomal
CCCGGCCCGGGGCCGGTACCGGCGCCCAGGCCGCGGAGCCCGCGCTCAGA autosomal
CGGCATGGTGTCCCGGGAATGGTGGGCAGCCCGCGGCCGGCCCGGAGCCC autosomal
GGGCAGGTTGCTTGTTGACTGGATCCCCATGCCAAATTCTGATCTTTCAA autosomal
GAGTGATGCTTGTTAGGGGCTCCTCCTTTGGGCTGAGGCTGAGTGAGTCC autosomal
CGGCGGCTCCGCGGGGCGGCGGCGGCGGCTCCGGGCCCGGCGCTGGGTGC autosomal
GAAGAAAAACCTTCTTATAAAGGCATGAGATCTGCAACTATTTCTGAAAC autosomal
GTCATCACGCCATCCTGAGCAGCAAGAGCTGACGCTGGACGAAGCTGCCA autosomal
AGTGTGCTGCTGATGCATAAAACACACATAGATAGTACACAAATACACTC autosomal
GCTTTCGCCAGCAGCCAACATGGCGGGCGGAAGGCGCGTACGGCGGGGCC autosomal
GGGGGTGCCTGGGTTGGGTTTTTTGGGGAGATGTTTGGAGAAGGAAGAAC autosomal
CGGTGCCTCCGGGGGCGATGGCCAGCGACTCCAGGGCCGGTGCCTCGGGC autosomal
ACCGCTACGCCACGGGCAGAGGGACGGGAGCGGCCGGGCCGGGCCGCCGC autosomal
AGGAAAAAAGAAGGGGAGAAGATCCGGAAGAAATACCCCGACAGAGTCCC autosomal
CTAGAAAGGAGCTTCCAGGTGCCCACAAAATGGTCACACATTTTGTCAGC autosomal
ATGAGTCGATCAGATAGGCGAGGCCACGGCCGCTGAGCGCCCTGCGATTC autosomal
CTGCCGCCTCCACCGCGGCCGGGTGGAGGGTACCGCGGTGCTACATGGCC autosomal
CGGTGGGACATTTCCTTCCTGGAAGGCAGGAAGTGATTATGTCTTTGCAC autosomal
CCTTCACTCTAGAGAAGCTGCAGGCTGTATAAAGGAAGTTTACCAGAATA autosomal
CTGTGCGTTTTCTGTGTGCTCTTTTAAGTATTACTCCTAGTGCTTATAAA autosomal
CCAGAGCGAGTCAGGACCGCGGACAGCGCCCCCCGCCCGCGCCGCCCCGC autosomal
CCACCTCCAAAACCAGTCCCTAAGCCACCACCAAAGCCACTTCCAAAAGC autosomal
CCCGAAAAAGCTTCAAAATCCTACAGAATTCCGCACAAAATCCCACAAAA autosomal
GAGCCATCAGCCCAGCGCAGAGGTGGAAGTGGCGCGGTGCCGGCCACCGC autosomal
AGGGGGACGCGCGCGCCCCCGCCTTGATGCGCGCGGCCAGCGGGCGGCTC autosomal
AAAAACTGCTACAAAACCTTCTCTTTCTGCTGCCAGTTGTGCAGCACTCC autosomal
GAGCCACGCTCGCTGGTATCAGGATGGAAATGCAGAAACTTTCATCATAA autosomal
GCTCAAGTTGGTTTTGTTGTCACGATCGGCTCAGTGGGAGCCGCGTTTCC autosomal
GCCTGTCCGGCTGCGGCCGGGCGGAGCGGGCACACGGCTGCGGGAGGCCC autosomal
CAAGTACACCGTGCGGCCCGTGGGCATGAAGAAGACGGGCGGCCGCGACC autosomal
CTGTCAACACATCATTCTGAAGAATTGTGTGGAGACTTTGTGAACTGAGC autosomal
ATACCATTGATTTGGGCTTTCACAGAGCTCCATAACAGAATATATTTAAA autosomal
CGGGCCCGCGGCCGCCGTGCCCTTAATAGGAAGTTTCGCCCCCCGCACTC autosomal
CCGCCGGAGCCGCCCGGGCCGCTCCGGTTAAGGTGGAGCCGGGCCGACGG autosomal
GTGCCATTTTTTGTCAAATTTGGGTCATTTTTGGGACATTTTTTGGGACA autosomal
AAAATGCATCTCAGTAGCTCGGAACGCATGGGAAATTTTTATATCTGAAA autosomal
ACAAGGACATGGAGATGCCATCACCAAAACATGTCCCTGTGTGTGGGGCA autosomal
CGATGGCAGCGGGCGGCGGTGACTTCTCGGACCTGCGGGAGATCAAGAAG autosomal
GACAGGAGACAGCGCGGTCGCCTCCCTCCCTGCCTCCCTCCGGCGGCTGC autosomal
ATGACTTGCGATAAAAACAGTCCTTAGTCCATCTTAGCTGGACTCAAAAT autosomal
GCAGAGGTGACTTGTAATTATCAATGAAGCTACAGCTTTGAAGCTGCACA autosomal
CCATGGAGCGGGCGCGGCGCCTCGGCCGCTGCGGCCCCCGCCGCCGCTCC autosomal
GAATCCACACTGTTGTCCTCCGCCATCCTCACAGCATGCAAGTCTTCCAC autosomal
CCCAGGGGTGTGGCCATGGGGACAGAGGGGGCGAGTCCCGACGCTGACAC autosomal
CCGGCAGCGCCCGGCGCCTCCCGGGGCTGCGGCTCCGCCGGTGCGCCGAG autosomal
CGATACCGGCAGCCGCCGCCCTCCCGGTGCAGCCATGAGCCGCCGTGACC autosomal
CGCTCCCTCCCACCTCCACTCCACCGCCACGTCCCGCACTGACCCCCCCC autosomal
GGCAGAGAGCAGGCAAGGCAGAGAGGGAGAGAGGGGAGAGAGAGAGCCCC autosomal
CCTGAAGAGCCTCATGAAGGCAGTGTAGATGAACCATATTGGGTATGTCA autosomal
GGGTGAGGGGATTTGAAGAGCTATCAGAGGAATGAGGCGACTGATCTGCA autosomal
ACTCTCTCTCTGCTCTGCCAAATTAGAAGGGGATTCTTCCATTTCTGAAG autosomal
CCTGCAGATTGCATTTGGACAGCACCAAAATGTCTTCTGGTACAGTGGGA autosomal
GAGACTTGCTTTCATCAAGCCTGAACCAGACAACTTCTGAAAGTCCTTCC autosomal
CTTCTTTGAGCATCTGGGCGAAGCCCGGGGCTTTGGGGACGTGCAGCGCC autosomal
CACGGCCGCCGCCACCGCCGCCCGTACGTGGCAGGGCAGAGAGGAGCGGC autosomal
AGGGGAGGTCGCCCACTGCAGCCCCCACGGTGCTCAGGAAGCGCTGGATG autosomal
CTGAAAAGGCAGGAGGTGAGAGAATAAAATAGGTATTGCTAGAAAGGCAG autosomal
CTCCAGGGCCAGCTCCAGAGCCTGCCTGTGGATGCAGCATTCCCTGCAGC autosomal
TCCCACGTTCTCCCTCTGCTTCCCTTTGGAATCCACAATGGGAACACCCA autosomal
GTAATTCTAGAGCTAAAGCGGTGAGAGACATCAGCCCCGCTCAGATAATA autosomal
CTGCGGCCCCACCCCGCTGGCCAACAGCTGCAACGAGCCCTGTGTCCGGC autosomal
GAGCCGGCGCTGACCCTACAGCGCCCGACGCCATGGCGGCCTTCGGCCTC autosomal
AGGACAAAGGGAGTGACCCCTGCCATCTTTAAGCACTGGATGGAGGAGAT autosomal
AACATTTGGGCCAGTAGTTGTAGCAGGAAAGACTGCAGCACACTACAGAG autosomal
CCCGGAGGGGCTCCCGAGGGTCCCGGGGAGCTGCCGGGGGGAGCCGGGCC autosomal
ATCAGCGACTGTATGGGAGGGGAGACAGAGAGAGGAGGGAGCGGTGACAG autosomal
GGTTAAGGGGAACACAAGAAGAATTACAGATCCCATATGAAATTATGTGA autosomal
AGAGGCGCGGGCGGGCAGCGGCGCGGGCCCGCATCGACACCATGAGCGCC autosomal
TCCAGCAAGGTGTTGCCTCAGTGTGTGACTGCCAGTGACAAGCAGTTCAA autosomal
CTTGGCGGGCGGCGGCGCGGCCGTGGTGAGGTCCGTGCGGTTGTAGTCCA autosomal
AGAGAAGTCTTTGGAGTCACCTAATTGTGGCCTTCCAGTACCTTTGAAGG autosomal
TGAGAGGGGCTCGGCTCTCTTCCGCCGCTCAGCCCGTTCCCCCACCCTCA autosomal
CATGGGGGCACTCCAGGAACGTCCCCTGGGGAGAAATGGGGCAAAAAGGG autosomal
GAGCAAGAGCATCCTGCCACAGAACATTCACACCTGATCTTCCATGTGAA autosomal
CCCAAGTCAGGGCTGGGCTCATGGATGGGACACAGCCCAGCACTGCAGTA autosomal
AAGGATTGGGAGGGGGAGGGGTGGGAAAAGTGGGAATGGAGGAGGAGATT autosomal
AAAAGTGCAAGTGCGCGCCTGGCTGTCCAGCCCCGGTGAGCAAACAGCAG autosomal
GGTGGGGGAGAGGAGGGGAGGGAGAGGAAAGGAGAGAAGGAGGAGGAGGA autosomal
GCGCGGCCCCACATGGCGCTGCGGGCCCGCCGGGCGCAGCTCAATGTCAC autosomal
CCCCGCTCCGCTCCGGGCGCGCTGCCGTTCCCGAGCGCCGTGACCGCCGG autosomal
ATGAGACTCGGAGCCGACCACTGGGATTTTGGAGTCGGAGCTACAGAGGG autosomal
GTCAGGAAGCTGAGGATGTTGTAGGGTGCCCAGCACAGGAAAAAAGCCAC autosomal
GGGCCCAGTGCTCCCAGTATGGGACTGGGATAGGCCCAGTGCTCCCAGTA autosomal
CTTGAGCTCCCAGGCTGTGCCCAGTGCTCTTGGCTTCATGGGTGCCACGA autosomal
ACCTGAAAGGGGAGAAAGCGGTATTTTTGCTGGAGTTCGCCTGAATATAT autosomal
CCTCGTGGCCCTTCCCCGCTTGCTGCCCGTTCCCCTGCATGGTGCCCGCG autosomal
GGCAAAGCTGGGACAAGGCTAGGATCAGGACCCAGGGCTCTCGGCACCCC autosomal
CGCAGAGAATTTCCCCTTTAATTTTTCTGCAGGAAGGGAAAGTACATTTC autosomal
GCGGGACCCTCAGTTTGAGCGGCAGGAAGCTCCGGGACTATCCGCGGGCC autosomal
GACAGAGCTGCGGCAGGGCAGCAGAACATGGTAGAGATAAACAGAATAAA autosomal
CCGAGCATCCCAGGCTCCGACGGGAGCGCACACATGTCCGCGCACCCCCC autosomal
CCAGGGACTGTCAGTGAGCGGCTCTCCGCGGTCCTCTTGTCCTGAGGGCG autosomal
GCAGCAGCAGCGGCCGGGCCCCGCCGAGGGTATCCATCGGCGGGGAGCGC autosomal
CAGACGTTGCCCAGACCAATAGCATAGCCCACACAGGACAGCAAGAAGTC autosomal
CCAGCGGCCCCGCGGCCTCGGGGCCGAGCTCGGGGCCCCGGGGGCCGGCG autosomal
CTGGAAGGTGCCCCCCGCGCTGGGGCCGTAGACCACGGTGGGTCTGCCCC autosomal
AAGGGGGGTTGGGCCACAGGGGCCGCAGGGCCGTGGGGGACAGGGTCTGC autosomal
AGCACCCAGACGCGGAGCCCGGCCAGCAGGCGGTACGAGGCCAGCGCCGC autosomal
GGGATGGGACCCGACCCTCTCAGAGGGGACCCCGACCCCTCAGAGGGACC autosomal
ATGTTTGAGTCTGGCTATTTGGGTATGATTTGGATGATATTAAGAAAAAT autosomal
CTTTTTTTTTTTTCCCCTAAATATGTACGCCAAAGTTTCTAAACTTGAGA autosomal
ATTTTTCACACAGAGTCTGTGGCTCTCCAAGGCTCGCTACCATGCCATGA autosomal
CACCTGGACTTGATGGAGGAGGACATCCTGTACCACCTGGACTTGGGAAC autosomal
CTGAGCAGCACATCCTACGAGCACAGGGAGCACACACAGCCCAGCAAGCA autosomal
CCCGCCCGGGCAGCGCAGCCTTCGCCTTCCTCCCCTTCTCCTTCCTCCTC autosomal
ACTTGAATCGAGTGAAATTACACAAAGGAGCGAAGCGGAGCCGCGGAGAC autosomal
CAGATTTCAGCTGGGAGAAGAAATGTGTTATATCCTCCACACCTTCCCAA autosomal
CCCCCATTAGGAGCAGCCCCTCATGCTGCCCCCCGCCCCGCGCGGGACCC autosomal
CCGCGGCGGGACCTTCACGGACGTGTTCGCGCGGTGCCCCGGCGGCCGCG autosomal
CCGCCCAGCTGGGCGCGCAGGGCCTCGCACTGGGAGATGTGGGGCAGGCG autosomal
CAGGGTCCCTAGCAATCCAGGCCGTTCCGTGGTTCCGTGATGGGAGGCTC autosomal
GCCGTGCACACGATGAAGCGACCTTGCGAGGAAACTACCTCAGACAGCGA autosomal
AGGTGCGGAAGGGCGGCTGCCTGCGCGCCACCGGCGAGGAGTACTGCAAC autosomal
AACACGGCGGCGGGGGGCGCGCGCCGTGCGGCCATGGCGGCGTCTCCTGC autosomal
ATAGATTCCTGGCAAGATACTTGCACCCGAGCACAGGTTGGGAGGAGGAC autosomal
GCCTTGGCTCATTTTGGGAGAAGGCCTTGGGAATGGCACCTCTGCCATCC autosomal
ATTTGAAAACAAGTCACTCCCCTGCCAAACCAGGTACTTCCATGGAACCA autosomal
GGATGAAGAAGAGGAGGGGAAGTGGTTCTGGTGGAGTGGCGCTGCCCGGA autosomal
GCCTGGTTTGCACAAGGGAACAAAGGGACTGCCCAGGTGAGCAAAGGAAC autosomal
GCCCCCGCCCCAGCCAGCCGCAGCCCTTTCCCTGGAGGGCTGGCACAGCC autosomal
GCCAAGAAGAGCTGAGGAACAAACTGCAGTAAAGGAGAGTGAGGAGAGAA autosomal
GCCGCTGCCACACGTAGGAGGCCAGGAGCGGGGCGAAGCGCAGCAGGGCC autosomal
ATGAACTTCCCGGTGAGTCTCAGACAAAGCGGATCACCGGTACACAGGTA autosomal
TCTGCTAAAAAGTAAAAGCCAAGCAGAAGGGGTTTAGCTGAAGTGGTCCA autosomal
GCTCGCATCCGGCACCTGCGGCCGCCCCGCTCCCGGCAGCGCCCCGCGCC autosomal
GCCGGGCTCGGCTCCTGCGGCTCCGCCGGGCTCGGTGCTCCGCTGCCCGC autosomal
CAGCATTTTCCGCACAACAGGAATGTTGCCATATTCTGCAGAATCGAGGA autosomal
CCCACCGTGCTGCTCGCCATCATCGCCCGCAACGCCGCGCACACGCTGCC autosomal
CGCTCGCTCATGAGTTGGTGCCACCGGCGTGGCGGAGGAGAGGAGGACAC autosomal
CTTGATGTCATTTTCCAGTGCTTGACGATTCATAAGCAAATAGTTTCTAC autosomal
ACCACCTTGGCAGGGAATTTAGAATCCAGGCCCTGTTTGATCTCCCTTAT autosomal
AGCCTCATTACGCTGCTATTTAACTTTCTATGAGTATTTCAAGCAAGTCG autosomal
CCCCTTCCCTTCCCTTCCTCCCTCCCCACCTCCATCCCTCCATCCCTCCC autosomal
CCTCCGAAAATCGGAAAAGGAGAGAATTGAGGCCCAGAATAAACCTTTCG autosomal
CGGAGCCGGGCGCTGCGGGCGGCGCTCGCCTCGGCGGCGGCGAGGGCGCC autosomal
CCGCTTCTTCCGCGCCCGCGGCCCCGGCGGGCCCGTGGCGCTGCCCGACG autosomal
ACGAATTATTGACTCAAATCAGTGATATTCAGCTTCAACAAGAATCCATC autosomal
AAGGCTGTGTGGGACTAGGTCTATTTCCACGTGGTGTTTTTCTTTTTTTC autosomal
AGGTCGAGCGCCATTCTGCCTTCTCGGCTTTGTGCTTCTTGTGCTTCTTC autosomal
CCAAGGTGAGGGGGTGCGCCGGAGGGGTGCCGGGTTGCTGCTTGGGGACC autosomal
CGCTCATCCTGAGGAGGCACACTGCTCTCTCACGCTTCTCGTGCTGGGAA autosomal
CTCCTCACGGTCGGGGACGCGAACGGGGAGATCCAGCGGCACCAGGAGCA autosomal
ACCAGCATTATCAACAGCAGCATGGGGAGGATGAGCATGAGGAAAATCTA autosomal
CTATTGCCCAGTTATTTTATCTGAATCTGATAACTAGTTTCCTGCTACAG autosomal
CCCGCTCGCGGCACGGCGGCCGCCGCCGCTCCCCGTTCCTCCGCGGCCGC autosomal
CTGCTGCACCCACAAGATGTGGACAGACAGAAAGGCAATTTTTTTTCCAA autosomal
TATGTTTAATTTCCGTATAAAACAGTGTACTGCCCGTTTTTCGTCGTCGA autosomal
ATTGCCTATCCTGTGCTTGCAGGTTATCCAGTGAGTCCCCAGGATGAGGA autosomal
CCCGCCGCCCGGCCTGCGCTGCCTGCCTTACGGCAGCTGTCGCGCGGCCC autosomal
GGAAAGTCTGTACCTTAATGTTTTGGTGATAGAATGAGATAAAATGGACA autosomal
GAAAAGCAGGTCCTTTGGAGGCATGGTACCCCTGAGAGGATTGAGTCAGA autosomal
CTGCTGTGCCAGCCCCAGGCCGTGCCATGCTGCGCTGTACCATGCCAGGC autosomal
CCCCCCGATCCCGGCCAGGAGGCGTTCCTGAAGCGCAGGAAGAGGAGGAC autosomal
TTTCCTTACTGAACAGGCTAAAAGAAAATATTTTATCATCAGAGAACAAA autosomal
CGTGAGGAGAGCGGGGCGCTCCCCGGGCGCGCTCCCGGCCCCGCTCCCGC autosomal
CAGCCTCCGGGAGCTGCCCCGGCCGTGCCACCGAGCGGGGCCGTGAGTGC autosomal
ACCGATCCCCGCTCTCCCCTCACCGTTCCCCGCTCTCCCCTCACCGTTCC autosomal
CCCCAAACACCCCACTCCCACCCCAGAAACCCCCAAACACCCTCAATGTC autosomal
GAGGGCCGCTGCTGGCGCTCACAAGATGGCGGAGGCGGCCAATTGCACCA autosomal
CGGGGCTGGGACCCCAAAACCGGGGCTGCTGTGGGCCGGGACCCCAAAAC autosomal
GAGGATCGGGAGTGTTTCAGTCAAAGAGTTCTTATAGCCTGGCCTCAGCC autosomal
AAGCACCGAGCTCCCTGTCGGAGGGGACGGGCAGGCTGGGATCTGCGAGC autosomal
CACAACCAGAGTGATCTGCACTGGATTCAGATGGACTTCCCAAATAAACC autosomal
TGCTCAGAGGGAGTCCTCAGCACAGCCCTGAAGATCTCCACATAGGAGAA autosomal
GCGGAGCCGGGACCGGGACCGGGAAACGCCACCGGGAGCGAACGGCCGCA autosomal
GGCATGGCCTGGGGGCTGGTTTGGCCGTGTGAAGACAAGAATTGTGCCAC autosomal
AGAGAGCGGCTGGCGCTGGGGTGGAGGAGGAGGAGGAAGAAGGCGGGCAG autosomal
CAAAGTCATACTCATAGTAGGACAGCTTGCTCTCCGTCAGCAGGAACAGG autosomal
AGAAACCACTCTCTCGCCACATTAATAGTTTTACTATGAATAGAGAATTG autosomal
GGAACAAATAGTTCAAAACCAGAAGGGAGTCCAAAATCCAAAAGCAAGTA autosomal
GGGCAGCGGCCGCCGCTGGCCGCTCGCCCGGCGCCCGGCGGGGCTGGCCC autosomal
AATTGCTGGGAAATGTACATGGATTCACTAGAAGCTCATGTAACAGGTTG autosomal
AAAATGGGATTTTTGGTAAAAAATGGGGTTTCCCCACGCGCATCGGCCGC autosomal
ACAGGCACAGCTTCCAGGGACAGTGCCCGGCGTGGCCCTTGACGGGCACC autosomal
TAATCCCGGCTACTTAACCCGGCGGGCGGCGGGGCTGAGCACCACCTTAA autosomal
TGATGTCATCTGCCAGAACATTCGAGTTTCCAGCCTGTGATGCTCCAGCA autosomal
CTTCCCTGTGGAAGACTAGTGATTTTGTTGTTGTATGGCTCATCCCACCA autosomal
CAGCCTTCTGAGGTGACGTGATGTTATTCTGTATGGACAGATGCCTGAAG autosomal
GGCTTTCTCCGGCGGCAGCGACATGGCGGCACCGCCACCCAGCGAGCCCA autosomal
AGAAAATAAAAAGAAACCCGTTTTGGAAAGACTTGGAAATTTGTTTGGTA autosomal
AACTGTCCAGCTATGCTGATAAGTGAAATAATTCTTACTCCTGCAGATAG autosomal
CCCGGCGGGGCTCGGCCGCCGCCTGCAGCTCCGGGCGGCGGCGCTGCTGA autosomal
GCGCCCGGCGGGGCGGGGCGGGGCGAGAGCGGCGCTTCCCGGCGCTCCGC autosomal
AACCGCCCCGTGAAAATAAATAAATACTCAACACAGCCGCCTGGATTACA autosomal
CGAAACTGCAGAAGCAGGCCTCCGGCTTTCAGGTGAAGAAGCAGAAGCAG autosomal
AGATGCTCATGTAAGCTCTTCTGTTCTCTATGCCAGAGTTATGTCAAGAA autosomal
TCTCTGTATATAAGCAGCCTGGCACTAAGTGAATTTAACATTTACTGTAA autosomal
CCAGCGGGGCCCCTGCAGAAGACCCCCATCATCCTGGCCAAGCCCCCGGC autosomal
AGCAGGAGGAGGCTGAGGAAGGAGCTCCGTCCGGAGCACGGGAGGAGCCT autosomal
CATCGAGCGGGCCACGCTGCAGGTGGAGCTGGGCAAGATTGGCGAGGAGC autosomal
ATAGGGCAGGATCTATGGATCGGGATCTATAGCGCAGGATCTATGGGGCA autosomal
GCACCTGCGGGGCTCGCCGCGGGCCCCGGGCCGGGGAGCGCTCTCCCCGA autosomal
CTGGGACTATTCCTCAGCTTCTACCTGCACAAAAGGCCATTTCCACAACA autosomal
ATGGCGGCGCGGGGCCGGGCGGTTCCGGCGGGGCCGGGACTCCGGAGGGG autosomal
AGCGGCCCGCGGCGACGGCCTGCTGCTTCTGGGCACCGGCGGCGCGGCCG autosomal
CGTCCCTGCGCATCACCTGGCCCCAGCCCCTCGTTCCTCCCGATGGCTAC autosomal
AGGCTGCTGTGGGTGCCGTGGTGTGAAGCAGATGCAGTGAGAGGGGCTGG autosomal
GGCTTTGTCCAGCAGCCGGATCTCAGCCAGTGCCTCCTCTTCTCCCAGCA autosomal
ACCAAGAGAGAGTCATTAAGCGTCAATTAGACACTAAGAACAAGAATGCT autosomal
ATGCCAAATTTGCTGCAAACATCTGCAGATTAAGTAGATTAAGATTCCTC autosomal
GCAGGGGGCTCCCGGCGAAGGGAGGCGGCGGTGGCCGCGGGCAGGCTGGC autosomal
AGGCAGCCGCCGCCGCGAGTGCCAGTGCAGCGCACGGTTACTCTCCCGTA autosomal
CCTCGTAGGCGGTGCCGTGGCGGTTCTGCGGCAGCAGCAGCGGGCAGTGC autosomal
ACCACACGTGGAGGATCAGGTGGGCTGTCCTCTGCCTCTGATGTGCATGG autosomal
AACTGCCAGGAGGAGGAGGACCCCATGAACACCTCTAGGTGTGCCCCATG autosomal
CTGCCTTATTAATACTGGAAGAGAAGCAATTGCTAATACAAATAACTGAA autosomal
CCACCAGCACTGCTATAAACCCAGCGAGTTTGGGGCACAGAGACACTCCC autosomal
TATTGAACATCGCCGGTGCTTTGACATCGTACCAGTCCTTCTTGGAGAAA autosomal
TAAACTGAGCTGTTAGATGGGTAAATGGGATCTACAGCAGAAAAAACAAA autosomal
GAGTTGTAGGTCATACTTTACATGCAAAGAAGAATTATGTGGTGTTAAGA autosomal
ACGCCCACGCGGCTTCGGCCAATGAGAACGGCCCGAGGGAGGCTCCGCCC autosomal
CCCGGGACCGGCCCCGGGCACTCCCGTCCTCCGTGTACCCGTGGCCGCGC autosomal
CATGGCCGCCGCCAGCACGGAGCCGCCGAGGCTGAAGCAGCTGCTGGAGC autosomal
ACCCCCCAGTGCCCATGGCATCCAGCACATCCAAACTTTCGATATTCCCA autosomal
CATCTGGGTCTGCACACACATGCACATGGACACACGAACACATAGGCATA autosomal
CGGCACTGGCCCCGGCTCCCATCCTCAGCCCCGCAGCCCTGCGGTTCACC autosomal
GGGGGCTGCTGCCAGCGGATCTAACGCCGTGCCCTGTCCCCCTGTCCCCA autosomal
AAATTAGAATAATAATATGGATTTATAGAAAAATAAGCGGCGGGATTTGT autosomal
TACTTAAAACACTTTCCTTTCATTAAAATGTTTCAAAGCTTGATATTTAA autosomal
CTGCAGAAAAGGAAGAGTTTCCTTGTCTGCAGTGACAACTGCTGTGCAGC autosomal
AAATTTAAAGTGGGTAACTGCGTTCATCAATTTCTTCTGTATTTTCTCAG autosomal
GCGGCGCTGAGCCGCCCCCGCCGCCCAGCGCTCCGCGGCCGGCGCTGCCC autosomal
CCGCTCCGCTCGGCGCGGCAGCGGCGGCGGCCGGGAGCGAGCGCGGAGCC autosomal
AGCCATGCCCAGTGTGGTTCCTTGGCGGTCCGCGCTGCTGAGGGCTGCTC autosomal
CAAATAATTTGTCCTTACTTTAGTGAAATACCATTAAATTACAATGAAAA autosomal
AAAGCTCTTTCCCAAAAGGCTTTGCTCAGAAATTGTCTCTGTATTTCACA autosomal
AGGCTCCGGGCGCGCCCGTCCCCGCGGCGGGCAGCAGCAGCAGGGAGAGC autosomal
CATGTGCAGATTGAAACCGCATCCATACTACGGGCGAGTGTCACTGGCAC autosomal
ATAGGGGCAGGGACGGGAGCGGCGGCAGCGCCATCGCCCGCGGCAGCCGC autosomal
CAGAAGAAAGGTTATGACTCACTCTCAACATACAAGCTTGTGTTTTTCCC autosomal
GCCCAGCTCTCTCGGCCTTTCCTCATCAGAGAGATGCTCCAGTCCCTTAA autosomal
CGGCGGCGGCGCGCTGGGGGCGTGGCCCCAAAGAAAGGGGCGTGGCCCCA autosomal
ACCGTGTAGGGCGTCCCGGCGAGCTGACACCGAGAGAGAAAGGGCGAGCG autosomal
GCCCCGCGGCCGGGCAGGGCGGCGGGCACGCGTGTCCCCCCGCGCTTACC autosomal
GGAGGCAGGCACACCTGTCTCCTACATCCCCAGGGACAGCAGCAGGGACA autosomal
CAGCTCCAGGGCGTGATTGACGAAGCCGTACTGCGGGGCAGGACGAGGCG autosomal
CGGCGCGGAAGCGGGCGGCCGCTGTGGTCATCTACAACGAGGCCCGCTTC autosomal
GGCGGCCGCTCCTCTGCTCGGAACATGCCCACCCCCGGCACAACACCGCC autosomal
GGCAAGCCGGGAGCAGCAGCGCGTTCAGCCCAGCAGCCCGCAGCTCTCCC autosomal
CGGAGCCCAGGAGCGGGGCGAGCATCCCTGCGGCGCGGCCCCGCGCCCGC autosomal
GCAGCTCCGCCGGCGTCCTCTCGGCTCGGCGCGGCTCTCCTCTCTCCGGA autosomal
AGCTGTCACCTTATGATTTGATGCAGCTATTAACCTTTTTTTTTACTTAA autosomal
GTGCTGGGAACGGGGAAGGGTCGTGAGGGGAGCGGGAGCGGGCGGCGTGA autosomal
AACAGAAAGTTACTCTAGTTTTCAGAGACTGGTGTGGTGTCCTCACTTTG autosomal
CAGAGCATCCCCCCAGAGCATCCCCGAGCACAGGTGACAGAGCATCCCCA autosomal
GACAGGATCTGAGAAATCTGTGCAAACATTTTTAAAAGCATCCATATGCC autosomal
GCCGCGCTCCCCGCGCGCGCAGATCGCCCCCTGGCGGTCGCGCAGGCGCA autosomal
GGAGCGGTTCCGACGCCATGGAGGCGATACCGGTGCCCCCGGCCTCTCCC autosomal
CCCTCTTCGGCCGGTCGGGCAGCTGACGAGCGGCGGCGGCGGCGACGGCG autosomal
CGGTGCCCATCCCGCATCTCTCGGTCGCGGCGGCCGCAGGCATGGAGCCC autosomal
TGGAAAAGGCCTCCAAGACTGAATCCAGCCTTTAAACAATCACTAAACCA autosomal
CACTCTCTTCTTTAGTTACAATCTTCTTTCATCATCATCATATTGGTGCC autosomal
ATGAGTATGTTAAAACCAAGTGGACTGAAGGCTCCTTCAAAGACCATCAA autosomal
CGTTCAGGGGCGTGCCCGCCACGAACACCAAGCCCATGAAGATGGTCTGC autosomal
CCAAAGTTAAACTGAAGAAAATATAAGCCAAAAATAGCTGTAGGAGTTTC autosomal
ATGTCAAATTGGTGCTAATTGAAATGCACAGGTTGTAAATCACTGCAGAA autosomal
CCCGTCTCCTTCCCTCCCCGCCGGGCTCGCTGGGTGCGATGTTTTGGCGG autosomal
AAAGGTGACTTTTCCTTGAACTTTTTCTTTGGGCATAAGCTGCTGATTCT autosomal
AGGAGGAGGAGGAGGAGGCGGCGGCGGCGGCACCAGGAAGGCCTCAGGCG autosomal
GCAGGGACAAGCGGGCGACGGCGGCGCGGCTGAAGGCGGCGCTGGGCGGC autosomal
GACATGCAGCAGAAACCCCTAAGAGTGCCCAAGCTGGCCGGGGTGGAGGA autosomal
ACTCGAGTGCTGTGCCAGATGCCTCATTGGGGCACCCTTTGCTTCCTTGG autosomal
CTATCGGCCTCGGCAGCGGCGCTGTGCCGAGGGCGGCAGCGCTGAGCCGC autosomal
AACATGGTGAATGACAGCTCTGCTGAACAGCATGCTCAGAGTGCCACCTG autosomal
CACCTTCCGGGAGGACATCCCGCTCGCCACCCAGCTGGCGGGGGTACACC autosomal
TGAGGTCCAGTGTGGGACTGGCATGGAACAACTGATTCTCCGGTCAAGAA autosomal
GCAGCGCCGGCCGCGAGAGCAGCCGCCGAGCGCCGAGGAGGGAGCGGAGC autosomal
CGCCGGGGTGGTGCCAGCAGAGTCGGAGGGCTGCGAGCCTCGGGATGTGC autosomal
CGTGCACAAACACACCTCCACTGGGCAGAGGGAGCCGACACTAATAAACA autosomal
GCAGAGAACGGACTCGTACTCCAGCTCGGCCGCCGCCATGTCGGCCGCGA autosomal
GGCGCGGGCCGGCGGTGACGGCGGTCCGGGCGGCCATGGCGCACCGGTAC autosomal
ATTGAACCATGGCGTGGGCCCCTCTTCTCTTCGTGGTGCTCGCCCACAGC autosomal
ACTTTATCTTGATTTTCAGATTTTTGGAGCCCTAGGGAAGTACTGTACCT autosomal
AGAGGCGGGGCTGAGGCGCGGCGAGCGCGCGAAGCCGCGGGGCGGGACCG autosomal
GCACCGTGTGCGACTGCGGCAGAGCTGCTGCGCCCCAGTGCGGTCCGGAC autosomal
AGCTTATACTACTCATTTGTCTATGCAAGTTAAAAGAAAAAAAAAACCCA autosomal
CACCTGGCAGCGGCGCCGCGGGCAGAAATCACGAACCAGGAAATGAGGGA autosomal
ACAGTCTGGGAGGTCTGAATCCACACTGTTGTCCTCCGCCATCCTCACAG autosomal
ATGTCAGAGGCCATACGCAAAGGCGGAAACACACCAAATACAACTGAAAA autosomal
GGAAAAGCTTCCAAAATCTGAACAGATGAAGATCAATTGATAAATCAACC autosomal
CAAAATCCCCCCAAATCCCCTCCCCCCCCCCGTACCCGCGGCTCTCATGG autosomal
CTGCCCCGGCCCGGCCATGCCTGCCCTACCTTACCCTGCCCGGGCCCCGC autosomal
TGAAACCTGGTGACAGTGTTTTTCAAGAGAGTAGTCTTGTTAGAGGTCAA autosomal
CCGCCTCCTCCTCCTCCTCCTCCGGCGGCGGCGGCGGCGCCGGGCTGCCC autosomal
CCCCATATCCGCAGGATTCATTCAACAGTCTCCAGACTCAGGAATCATCA autosomal
CCTTTGGCCAGTCCTTTCCAGATGGTGGGGGAATCCCCAGGGGATGCTTC autosomal
AAAAGCTTGGCATATGGCAAATAAAACTACAGAAGACAAGCCTTTAAGGA autosomal
CCTGGATGTGCAGAGGCTGGATGCACTCCCAGCCCTGCATGACAGAGCAC autosomal
GTCCCCACACTTGCTCCTGCAGCTGGATTTTGTTTTGGATGAGGTCTTCA autosomal
CACAAGGATGATGTATGTAACTAGAACAAGGTATTTTTCTAACACAGCTG autosomal
AGCGGGTGTTGACGCGTTGCCGGGCAACGGGAACATGGCGGAGCCGCCGC autosomal
AGCCCCGGCCCGCCTCCCGTGAAGGGCGAGGCCCCGCTGCTCCCGCGCCG autosomal
CGCTCGGACACTGCTCCGGGCAGGGCTGGCGGAACCGGCAGGGCCGTGAG autosomal
GCCGGGCCCGCCCGCCACGCGGCGGTGACAGCGGCCGGGACACACGTACA autosomal
CAGTCCGCCGCCGATGGCGCTGCCGGTGGCGCTCCCGTCACTGCGGCAAA autosomal
AGAGCTACAGCGACCAGGTGGAGTTCCTGAGCCACCGCGACACGCTGATG autosomal
ACCGGCGCTTTGCTTGGAAGTGGGATCCGTGTCCGTGTGCACTGCGTCCT autosomal
ATGAGTAAAAATGGAGAAAAGCAGAGCGAAAATGGCAGAAAAAAGGGGGA autosomal
TGAGCTGCTGCTTGCTCTGCCTTCACTTGGTAACAGCTACCATGGAGCCA autosomal
GTTACAGGGGATGGAAGAGAAGGGCTGCCCTGTGGTCTTACATGCTGGAA autosomal
CCAGCAGCGCAGGCACGTGTGGCCCCGCGCACACAGCCCGCTCGCTGCTC autosomal
GTACACAATGTACTAGGCAGGGTTTGTGTGAGAAGTTAAACATTCTCTAC autosomal
AGGGATGGCGCACGGCCCTTTGTCCGGCTCTGCCCGTCCTGGCACGTGTG autosomal
GAAAAGAGGCTCACTGCCGTCACCTGGGAAGGGTGAAATATTAAGAAACA autosomal
TCAGAGTAATTCTAGAGCTAAAGCGGTGAGAGACATCAGCCCCGCTCAGA autosomal
CGAATGCGGCGCGTTGGATGCGGCGCCTGAGGCGCGGCAGGCGCTGGGCA autosomal
CCCACGGAGCACCTGCGACTCCCGAAAGCAGCCGCGGGCTCGCAGCGCCC autosomal
TCTGTCTGGACTGATCTGCTCATCTGTTCAGGGACTCTTCTGACAAGTCA autosomal
ACTCGCCCCCCCCCCCCTTTCAGGACCCCCCCGGTTCTGAGCCCCCCAAT autosomal
ATGGGGGGGGGGACCCCAAAACCTCCTGAAGCCCCGGGAGGGGTGGGGGG autosomal
CCGCTCCGCAGGAAGGACGGCACGAACTCGGCGGCGTGGACGTTGGGCAC autosomal
CGGGGGCGCAGCGGGCAGGGATGGGATGCGATGGCGGCGCGGCGCGGCTC autosomal
AACCTGGATGCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGTGAGGT autosomal
AAAGCTGCGGGGCCGGTGCCGGGCGAGCCGGGGCGGCCGCGATGGGTGTT autosomal
ATGTTTCATGCAACTGTTTGCAATATCCATTCCTTTAATCCTCTAGAAGG autosomal
CAGAACCACCTCCCGCCCGCTCCAACCGTCCCCGCGTTTAAAAACGCCGC autosomal
CTGCCAAAGGCAGAGTACATGGAAAACTGGTCAGGAGATTGATTAGTCCC autosomal
CACGGCCACGGCCATCGCGGTGCGGTGTCTGCGCTGCGCTGCCGCCCGCC autosomal
ACCCCCGATGTTGCTCCCTGGGAGCGGGACACGGGCGGTGGTCTGAGGAG autosomal
GGAACACTTTGGAGACGCCTCCAACATCGGCAAACACTAAAGAGAACTGA autosomal
TAGAGAAACAGGTCAGGCAGGCCCAGGTAGCTCAGGAAGCAGGATACAGA autosomal
CCGCATCGTCTCCTGGAAGCTGGACGAGCTCCACTGCCAGTTTGTGCTCC autosomal
ACTCATCTCCCTGTAAAAGTAATCCCATCACATGCATTTGAAGGACTTCA autosomal
ATCCACCTTCTCCGAGCGCCCCTTCGGCCGCCGCTGAGCTTTTGTTTCTG autosomal
CCGGGCTGTACCTGGCGCTGCAGCTCCTGGCGCTGGAGCCCGCGGCGCCC autosomal
CGCAGGCACCGGGCGGGCAGCGGCCGCTCCTCTCCGGCCCTCTCAGCTCC autosomal
ACAGACAGGACCCACACAGCCTCTGTTTTGCCTCTGTCGTGACAAAGGAG autosomal
CCGGCCGCGCGGGACATGGCGGAGCGGGGCGGCCGCGCCGGCGGCTTCAG autosomal
CATGGTGCCAGACTCACTCTTCCCTGTGTGTGAGACTTTCTCCTTCCTCA autosomal
CTTTCTTGCCTTTTGCTTCTTCATTCCTAATAAAACACAATACTTTATAA autosomal
AGCTGGTGTCCCCCCCCGCTACAGGAAGGCTGTTTTTGTGGAGTACCCCG autosomal
ATGCGTATGGACGAATCGTCGTGAAAACAGCTCCCGACGTTTTCCCCTCA autosomal
CCCTGAGCGTGTCCTGGAGGGGGCTCTGCTTCTCCTCGTAAGAACGGCAC autosomal
AAAATAAACGAGAGGAGACCGCGGCTACGCTTGGTCTTGGGGTTTCTTTC autosomal
GACAGGGACAGGGACACGGGGTCAGCAGGGACCCCAAACCTCAGTGTCAC autosomal
AACTTGCAGCATAAGGACACTTTTACAAGCTTTGCATGGAGCAGCTTTTC autosomal
AGGGGAGAGGAGGAGCTCAGTCAGTGTCCCAGGTACAGACAACTGCCTGG autosomal
CAAAGAAGAGAAGAAAAAGAGAATGTTAATCCACCTTCAGCTTTGATGAC autosomal
CACTCAACGCCAGCCCTCGCCCGGGCCCACTCGGGCTCTCACTGCACCCA autosomal
ACACACACACCTGGGCATCGCACACACACCTGGGCATGGAGCACACCTGG autosomal
CTTGCTGCTTGTCCTCTCTGCCCTTGCATACTCTGATGTCTTGGCTCTCC autosomal
CAGTGTGACCACCATGGTGACACGCGGCTGCGGCTCTGCGAGAACACGGA autosomal
AAGAAGAGCTGTGCCCTTGTCTCCTGCTGAGCACATGGGCTGATGTTTTA autosomal
ACCATAGATTAAATTTAGGCTAGTGCGTGAGGAAGTCACTGGACTGGACG autosomal
CATTAATCCTTGTTTTAAATCATAGTATCTCAAATAGCAGCTGCTACTAG autosomal
AGGGGCACGGCGGGCCAGGCCGCCATGGCCGCGGCGGGAGCTGCCCTTGC autosomal
AGCCCCTTCAAGGAGGAGGAGGAGGAGGAAGCGCAGGACGGGGGCGCCGC autosomal
CGGCGAGTCTCCGCACCGTCACCAGCGCCTCCATCCGCCCCCGGCCGCCG autosomal
CCGAGCGCCGCTCAGCTGGGCCCGGCGGCGCCCGCCATCTTCCACACAGC autosomal
ACGTCGTCCACTGCCATGGCGATCTCGGTGCGGTGCAGCTTCAGCAGGCG autosomal
CCGGCGCCGCCGCCATGCTGCTGCCGCCCCGCCGCGCCACGGGCCGCTTC autosomal
CCGGCCTGTCCGGGGCCTGTCTTGCCCCGGGGCTGCGCCTGCCCGCGGCC autosomal
GCCGGTGCCGCTCCCGCCGCCGCCCCCCGCGGCCGCGCCGCCGCCGGACC autosomal
CTGCTCCAGCGTCGCCTCCATCGCCGCCCGCCTCCACTTCCGCACCGCCC autosomal
AAAATGTAGTGAGATCTGAGCTCCTATTTAAAGGAGAGGGTTCAGGAGCT autosomal
CCCCCTCCTGCTCGCCCACCCCCGGCCCGTGGCGGCGGGGCCGCGGATCC autosomal
TCGCTCAGCCACCAGCAGATCTCGGCCGAGCCGCGGGGTGAGGGGGCGCA autosomal
CGGCGGAGCGGGGCCATGGTGAAGATCGGCGTGCAGCAGCCGCCCGCGGC autosomal
CGCCGCTCCCGGCCGGGCACGTGTGGCTGTCGCCGCTGTCACCGCCGCCC autosomal
ACACTTGATGAGTCTCATCCATCTGCAGAAGAGATCCAGTCTGGCTGTGA autosomal
AACTCTTTCGTGCCTCTCATGGAGTGAAATCAAGACACTAAGAAAATGGC autosomal
TACATCAGATAGGGGCGAAGTATGTGTTCATCACAGGATATTCTGCTGAA autosomal
GACCTCTTTCTCCCCCAAGTTCCTTCTCTGTCTCATCCCACTGTGAGCCC autosomal
CCGGACCGGCTGAGGAGGAAGGAGCGGGGCTGGCGGGGCGAGCGGGGCGC autosomal
CAGCGCGCCGCTCGCCCCGCTCACCTCCACGCTCGCCCGCCGGCCCTGCG autosomal
GCAGCACGTGGTGGTAGCACTGGGACAAGACCTCCAGGGAACACTGGGCC autosomal
CCGGGGCAGCGCCAGCTCCGGCCGCCGCGCTCCGGCCGCCCCGCCGCCGC autosomal
CAGAGCTACTGCCCAAAGCCAACCCTGATGCCCTTCTTGCCTGGCATCTC autosomal
CGCCGCCGCGCACAGACACCGATGCGGGGGATAGCGGCGGGCAGACAGCG autosomal
GCCTGATTTTAGGTGTAGAGATGCTCAAGCTGAGTAACAAAATGGAGGGA autosomal
TGGGCAGGGGCTGCTCCCTGGTGTGTCCCTCTCCCCCCTCCCTCCACACA autosomal
TAAATTGGCCAGGCGGATTTAAGAGGAAGCAAAAAAAAAAAAAAAAAAAA autosomal
AGGAGCTGGAGGACACCAACAAGTGGGGTCTCGACGTGTTCAAAGTGGCC autosomal
ATCTGCACAGGAAAAAATCATCCACATGATATATACCCACATGTTCCTTA autosomal
CGGCGGCGGCGGCTGGACGGGCCCGGGGCGCCGCCATGGAGAGCGCGAAC autosomal
CATGGCTCCGCGGGGCTGCGCGGGGCTCCGCGGGCGCGCACGGCCCCTCC autosomal
AATTAGCGCTAATTACCCCCAGTAACCCCACGGCACCCCCTCGCTGCCGC autosomal
ATCAGGATGCCTTCAAGACCTGGAGTGCTGCTTGTGCCCAGAACTGGGCA autosomal
GCTGCCCCCCGCGGGCCCGCCCCCCGCCCGCTCCCACCTGCGCCGCCGCC autosomal
CGGCCGCTCCATGGAGTTCAGGATGGAGCCCAGCAAGTCCAGCTCCGCCA autosomal
GCGGGCCCGGCTGCCGGTGGCGCAGCGCCGCTGCCCCGCCGCCCGCGGAA autosomal
CTCCCTCCCCTCCCGCGGCCGCGCTCCTCCCTCACCGCGGAGGAGGCGGC autosomal
CCCGTTGCACCTGCTCCGCCGAGACTTGTCATCTGAATCCGGAGGAGAGC autosomal
AAAAAACTAAAGTCTTCATTGTCGCCCCCTTTTCCTCCGCTGCGCCAAGG autosomal
CAGACCCTCCTGGCGCCAATGGCGCCGCTGCCCGCCCACGGCCGCCCTCA autosomal
CTCCACCGTGCCCGTGAGCACCACGTTGGCCTCCTCCTCCCGCCGCTGCA autosomal
GCGGCTCCCCCGTCCCTCAGGTCCAAGATGGCAGCGCGGCCCGCCCGCCC autosomal
ACCCTGCCGCCCCTCCAGCGGCTTCTCGCAGCTCTCGCAGAGCACCTGGA autosomal
GTTCACGAAGCGGCTCAGCAAGCCGGGCACGGCGGCCGAGCTGCGGCAGA autosomal
CAGAAATATATCCAGGGAATCCTGAGAGACAGAGTGATGTCAGAATTAAC autosomal
GATAAGGGCGCGGGCACCGAGCGCGCTGCCCCCCGAACCCCTTCACCGCC autosomal
CCCTGCTGCTGGATCATCATTTCCAGGGGAGGAACACACCAAATAACTCC autosomal
GCCGCGTGGGCGGGCGCTGGAAGTGACCCCGCCCCCTCTGACGTCACGGC autosomal
AAATTAAAAAAAAAAAAAAGGAGAAAGGGACATCTGTATGTGCAGAATCT autosomal
AGGATGTCCCAGTTCAGGGTGTGTAAGAGATCAAGGGCCAAACAGAGGAA autosomal
CAAATCCAGAATTTTTCACAAGGGACACACAGGGGATTCACTGAGCAGGG autosomal
GGAATGAACTGGGAGGAACAGGGAAGAACTGGGAGTGAACTGGGAGGGAA autosomal
GGGGGAGAAGCCCGTGGGGAGCCTGGCGGGGATCGGGGACGTGCTGGGCA autosomal
TCCACGCTGGCGATGAGCTCTTGCATGGTGGCAGCTGGGGGCCGCCGGCA autosomal
GCTCAGGCCGAAGGCGTCGGGCTCGTCCCGGGGCACTCCGTAGTTACCGA autosomal
GCAGCACAGCGTGACCGGCTCGGCCGTCGCCAAGGCTGTGTGCAAGGCAA autosomal
CTCTGTCGCTCGCGGCGACACCGATCGCAGTGTCCGGAAAAGCTCCCAAC autosomal
GGCCTCCACGACGTGCCGGCAGGTGAGGAGCATCCTTGGTGCCAGCAGCA autosomal
CTGCCCCATCTCACTCAATCTACACCAGTCTGGTTCAGCTTCTACATTCA autosomal
AAAAATAAATGTAACCTTTAATGGATAAACATCTGCATATTTTATTCCTG autosomal
ACCAAGCCAGAAAGCTTCAAACGCCTGCTCACAGAGCACCATCCCATCCT autosomal
GTGTACAGGCTTTGATGTCTGGTGTTTTGGGTTAGCTGCTGCTGAGATCA autosomal
GCCCGAGGAGCAGCGCCCGGCGGCAGGAGCGAGGGAGGACTGGCGGGCAC autosomal
CCCCCGGGAGCGCGTCCCGCCGCCGCCTCCCGCCGCTGCCCTGCGCCTCC autosomal
GCCCTGCCCTGCTTCTGCAGGGCTGATTGATCAGCCCAGGGCTGCAGAAA autosomal
CCGTGCTGGTGGCACTGGGCGAGTGGCTGTGGGCCGCTGGGGAGGTGCCG autosomal
AAGGCTCTGCCATCAGCCTGGTTGCCAGGCAGTGTAGTTAGCTGATTGCC autosomal
GGAAAAGGCCGAATGCGCCTCACGACAGCCGGTGGGTGTTTGTGGGGGGA autosomal
GGCATCCCGCAGCTGGTCAGCAACATCAACGCGTGCCAGGTGATCGCCGA autosomal
CACACTCTTTTGCATTAAACCATGCTTGCTGGCTGCCTGAATGGTGATAA autosomal
CAATGAGGTGCTCCAGCACCGGCCCGGCCCCCGCCCCGCCCCGCGCTCCG autosomal
GAGAGCTCCTTTCCTCTGGGACCGAGCCCCGTGCCCCGGGTATAAATACC autosomal
ACACACCTGGGACACCTGCAACACACCTGGGACACACCTGGGACACACCT autosomal
GCGGGGGGCTCTCCCCGCGTTCTAGGGGGGTCTGCCAGCCCCCCGGCACA autosomal
CCCTGCAGCGGGCGGCGGAGCTGCTGACGGCGGCGCGGCTGCCGCTGCAG autosomal
CGGGGGTGCGATTCGGGGCTCGGTCCGGTCCGGGGGTGCGGTTCGGGGGC autosomal
GAAAAAAAACAAACAAAAAAAACCAAAAACAGCCAAAGGTGTCCTCAGAA autosomal
CGCCCACCAATATTGCACTCGTCCCGGCCTCCCGCCGCCGCGGGTTGCGC autosomal
CGGGTCACTGTCCTGTGCAGAAGTTACTCCTGTGTCCCTGCAAGCGAGCA autosomal
GAGGATGGGTTGGAAAATTGGGAGCCCAGAGAAGCTAACATGTCTGTGGA autosomal
GAGCTGTGGTGCAACCACACCACTGCTGTCCTGAGGGATAAAGGAATGAA autosomal
CTGGGGCCGAGCAGGGGCTGGGGGCTCGGGGACCCTCGCTGGTGTCCCCA autosomal
CCGCTTGGTGCGGGCCCGCTGCACCTTCTGCTGGAACTGGCGCTGCAGCC autosomal
CTCAAAGACCATAATTCCATCCTCCTCATGTCCCCTGGAGCCAGCAGAAC autosomal
GCGGCTTCACCCCGGGCACCACGGCCCGGCCCTCGATCTTAAACCGCTCC autosomal
GTGTTTGGTCTCCTCTCTTGCTGGTCTGTCTGCCTGTCTGTATCCCCAGA autosomal
CTCTTCTTCTTGGCCGGCATCTTGGACATGTTTCCTCCGCAGGAAGGGGC autosomal
CCCCTGAGGGCTCCGCGCCTCCATTTTAGAGGGGTTCGGGCCGCGGCTTC autosomal
AACCTCAGTAACAACCTGATTTCTGAACTCACTTTAACTACTTGTACAAA autosomal
CACGGCTGCTGCTGGCGCTGGGCATGGCGCTGGGGATGGCACTGCTGCCC autosomal
CCTCACTATGGCAGCAGCAGCGCGGCACAGCACCCTGGACTTCCTGCTCG autosomal
GCCGCGGACGGGGGATCACTCGCACCACCGGCCCGTCGGCCCCGCCGAGC autosomal
AAAATTTACCCCAACAATAATTACTTGAACTTAGCCTTGTCTTTAAAGGC autosomal
GTGCTCTTCAGCACTCTGGATATGCCAGAGGAGGTCGATACCTTCTGGAA autosomal
CCAAAATGGCCTCAGGTGCGGTAGCGAACGCCCCTCCTGCAGGGGGGGCA autosomal
CTCCCAGCCGTCCCAGAGCCAGGGCCGGTGCGCCTGCTCCAGGAGCCGGC autosomal
CCGCCATCCGCCGCCGCCACCGCCGCCGTGCCTGCCCGCGGGATGGCAGC autosomal
AGGGCTGTTCCTTGCCGCCCTGGTCCTCTGCGGAGCATCACTGCACCTCG autosomal
AGCCCCTTTGTCCCTTTTATTTTGGCTCCATCCAGCTGGAAGCACTGACG autosomal
CCCGGGGTGGGGGCCAGGGGGGGCCGGTGCCGCTCACTCCGGCTCCAGCA autosomal
CGGCGTTCTAGCCTCGGCTGCTCGGGCCTCGATCCCGCGCTCGGCGCCGC autosomal
CGATACGCTTTCTGTCGCCTTCCCAGGATGGGAATGCCTGGCCAGAAGAA autosomal
ATTTATTATGAATGGTTCATGTAGTTACTACACTGAACATCTTTCTAGGG autosomal
CAGCGCCTCCATCGGCTCCTTCTTGGGGTGGGTGCCGAGCGCCCGCGACC autosomal
ACATACTTCATGAGTACTGGACGGGACACTGCTGTTGATTAATTTTGTAT autosomal
ATAGTCACTGTACTGGCCCCATGCCACAGTCACCAGAGGCAGGAACACAC autosomal
AGACGCTGGTGGTCCAGCAGCGCGGCGTGCGCCTCAGCGACGGGGAGGAG autosomal
CCGCTTCAGCCGCCGGTCGAACGGGTTCAGCGCGCCCGGCGAGGCTCCGG autosomal
CGGTGAAACCCCTCGGTGCGGCCGCCAGACCTTTCCTGCTGCGATGGGAA autosomal
GCGGGAGGCAGGCGGCCGCGCTCGGTCCGTATGCCAGAGACACGGGTTAC autosomal
GCCCCTCCCCCACCGCGGGACCCAAAAATAGACACGGGGGGGGGAGGGGA autosomal
CCCGCAGCCCGAGATGCCGGACCTCAGCCACCTCACGGAGGAAGAGCGGA autosomal
CCACGGCGAGACACAGAGTGAGTCAGAAGAATGGGAAGACCAGCCAGGAG autosomal
GGGATATTGTCCTTTACTCCCCACTTCAGCCTCACCCTTTCCATCTAAGA autosomal
GCCACCAACCCCGGCTTCGTGGTGAGGATGACCCAGGCAGGCTTGGACTA autosomal
CCGGAACTTCCTCCGCCTGAAGTAGCTCCAGGCCTGGAACAGCGGCTCCA autosomal
AATATCGAGATTAAAAAAGATTGCTCAAAATTGAACAAATTATTTTATCT autosomal
ATCATGATAGCCACCGGGATATAAAAACTGATCAAGGAGGAGGAAATAGC autosomal
ACGGCGACAGCGGCGACAGCGGCGACATTGGCGACATTGGCCGGGCGGAG autosomal
AGGCTGAACCTGCAGCTCCCAGGTTTCATTAAAATGATAACAGTGTTCAC autosomal
CCAGGCCGCTCAATCGCTGCCGGAGCGCGCGGCCAGGGCGAGGCGCGGAG autosomal
ACAAGAGGGTCCGGCTCCCCGTCAACCTGCGCAGCGCATCGCCCTGGGCA autosomal
CCCACGCAGCCCCCGGCCCGCGTGGAGGAGGAGGAGGAGGAGGAGGAGGA autosomal
CATTACCATCACAGAGCTTCAGTGGCCCAGACACGATGGCACAAAGCAGA autosomal
GTCTCTGTTGACATGAGGATGTCCTGAGCCATGTCACCACCACCCACAAC autosomal
CAGCCCCAAAGGGAGATTCCAGGAGGCTGTAGGTGTGGTGGGGAGCAGGA autosomal
CCCACCGCCCTCCCGGGTCAGCGGGAACCCCCAGGGACCGGGCGCGCAGG autosomal
CCGCAGAAGAGGGGGTGCAGGCGGTGCCCCCCGCTCCACCCATCCCGGCA autosomal
ACCCGGGGAGGGAAGCGGGGAGGAGGGGAAGGGAGGAGGGACGAGGAGGA autosomal
AAAGGAAAAACAAATCAAGCAGGAATGCTTTTAGCGGTCTGCTTTGCTGG autosomal
CTTCCAGGCAACTAAGGCTTTCTTGGGTGAGGCGTGAGAAAACAGGGACA autosomal
ACTCCTGCTGAGGGAGGAAGGCAGCGTGCAACATGACTGGTGTTAAGGAA autosomal
GCAGGACAGGGAACAGAGGAGAGAAGGCGCTGCTGGGACCCTGCGAGGAC autosomal
AAAAAACCCAAAGCGCCCACCCGGTAGTTCATGGAGACCACCAAAACCTC autosomal
GTCTTGACAGTGACTTTGCCCAATTCCCTGCTCTGGATTGTCCCTTTCAC autosomal
ATTGGGATGTCCTGCCCTGCGCAGCACACCCCGATAATTCCACCTGGTGC autosomal
GGGGCTTCGGTAGCGGGATCGGGATCGATCGCGGCAAAAATAGATCGATA autosomal
CTCGTCCCGGGCCGGCCGCGCCGCGCCCCGCCATGGCCGGCGGCGTTGCC autosomal
ATAAACAAAAAATGCATACCAAGAAAACAAGATAAAAGAAGGGTGAATAA autosomal
ATCCTCAGCTGTGGCGGAGTGCCCATCAGCTCTGGGGGCTTTGACATCTC autosomal
AAGGGGGGGCTGGCAGCCACCAGGCACTGGGACGTTCTGTGATAGCCAGA autosomal
AATTCACGTGGAGGGCTTTTCTGCTACACCTCGCCTTCAGGTTCTTGGTG autosomal
TAAATTATTCTCCCAACAATGTTTACATGAACAAGATGCATGCCACATGA autosomal
GACGATTGAGACAAAAAAGAAGGTTTCGTCGAGAAATCTGAGGGTGAGAC autosomal
ACCCAGGCCCAGTCCTTAGCAGGCCAGATTGATGATACTAGAAGAAAATC autosomal
ACGGCCGGGACCGACCGGCGGCACCGGGCGGACGGGACGGGACGGGCGGG autosomal
GGGAAGCGGCGGGAAGGGCCGCCCAAGAAGAAGGACATTCGGGACTACAA autosomal
GAGTCAGAGCCCGCTCGGCTTCTCCATGGATCCCGCCGGCCTCCGAGCCC autosomal
AGTAAACATCTTTAAGGAAGAAAGCACTGAAAAGCGGAAGGACTTAACTG autosomal
AACAAAGCGCGGGGAGAAGGGGCGGGGGAGCGGCAGGAGGAGGAAGAGGA autosomal
ACATACTGACTCATGAAAATGATAACAGATGTGAAAAAATTACAGCTTTA autosomal
AGCTTGCCAGGCTGCTCTCCATCCTTTACCAGCAGCCCTGGGTGAGCAGA autosomal
CCGGCTCCCGGCCCCGCCGAGCCGCGCTCCGGCGGTGATGTCAGCGTCCC autosomal
GGCGGTGGGCGAAGGGCGCTCCGGGCGGAGCGGGAGGAGGGAGGGCGGGA autosomal
CGGAACCTCACCCGCGGCGCCGCGTCCCTTCCCGGAGCCCGCGGCCCGCC autosomal
CGGCCGAAGCTCCCGGGTCGCTCCCGCCGGGGGCGGTGATGGGGGGGAAA autosomal
CCCTCGAGGCCGCGCCCGGCCCTACAGCCCCTTCGGGGCACGGGAGCGCA autosomal
CTCCACGGCGCAGGCGAGGCAGAGCGGCGGGCGGAGCGGCAGCGCCCAGC autosomal
TGAGATGAGCTGTGCTCGTCCCACAGCACCTGGAGCCCAGCTGCCCCCCA autosomal
CCTGGGCCCCGCCGAGCCGCCACAGCAGCAGCACGAGCAGCAGCGGCGGC autosomal
GGGAACACCGACACCGCGGCCATCTTGGACCGCGCCGCGCCCCGCCCACC autosomal
CCCAGCCCACGGCTCCGACCCTGCAGGGAGATGCTGCCGGCCACGTCCAA autosomal
CCATGCGGCGGCGGCGGGGCTGCGGCGGCGCCCCTTCCCCGCCGCCCGCG autosomal
CAGGACATCTGGGTTAGCACTCCTACTACTGGGGAAGGCAGAACCTTCAG autosomal
GCAGCCCTGGGCTGGGCACTCTGCCCCACCATGGTGCCAGGCACAGCCCA autosomal
GGGCTCGTCCGGGATGTCGAGGCCATGCTGCGGACGCTGGGAGGAGAGCA autosomal
AGGAAGAGCGAGAGGGAGGGTGGGGAGGAATGGGAGAGAGGGAGAGGAGG autosomal
CGTGTGCCTGGCGGAGCGGGCGGCCGATGATGCCTTTTAATCTCCGTTCC autosomal
CTCGGTGTGGACACCTTAAAAATACATATATATATATATGTGTGTGTGTA autosomal
GCCGCTTCCCCCCGCTCCCGGCCTGCCGGCGTGCGGTGCCGCTTCTGCGC autosomal
GGCAGCGCTGCTGTAAGCATCCGCACCGCTGCGGGACAGGCGGGGTGACA autosomal
ACACATCATCTCCCCTTGAGGTCCTGCATCCCTCCTCAGCTTCGTCCTCT autosomal
GACTCTGCAAGACAATGTCCTTAAGAAGCTTAACAGTGTTTCCCAAGAAA autosomal
GGACGGACTGCGGGAGGTGATGCCCTACGCTCATGGACCTTCTGTGAGAA autosomal
CTTAACATCTATATTTATTTTAATATTCCTCTCTGAGACTCATGTTTTTC autosomal
GGCGGCACCGGCACCGGCGGTACCGGGGAGCCGGGCTGCAGCGGGCAGGA autosomal
TCATTGAAATATGTCAAAACGTCATTCTCTGTGGAAAAACCATCAATAAA autosomal
CGCTCAGGGACGTGCATGGTGGGGCGCGGTTACTGAGGGATGCCGGCTGC autosomal
CCCCGAGCCCCACCACACCGTTCGCAACAAAAACTCTCCGGCTCCCTCCG autosomal
GTTAAACATTGCCTGGTTTCACCTGACATGATCTGTAAGCCTGTAAAGCA autosomal
GAAGGGATTTGGGGGTTATTGAGGTGCTGAAGAGTAAATTTGAGTTGGTC autosomal
CTCTGAACCCCCTCTCTCCGCAGGCCGCTGCCGTGTCCGTGGGATGAGCC autosomal
CAACTTTGTACCTGCAACTGCTCACAGAATAGAGGGAGCCCCTTTCTCTC autosomal
GCTGGATCTGCATCCCTCCATCCCTCAGCTGGATCTGCATCCCTCCATCC autosomal
CTTCTCTGCACTGCTGCAATCATACACAAAGAGACTCTCATCACTGCAAG autosomal
TGTCCTGCAACTTTCTTGCCTTTTGCTTCTTCATTCCTAATAAAACACAA autosomal
CAGAAATCCTCGGCCATGGCGGGGCCGGGCCCGACCCCGCGGGCGGCTCC autosomal
CCTGAGCCGCTCCGAGCGGAAAGCGGCGGCGCGCGCCGAGATCCTGCAGC autosomal
CCCCGCGCCCGGCGCCCCGGCGTCTCCGCCGTGACCGGCCCATCTCGCCA autosomal
AACAACTATGCTCAAAAATTATTAAAAAAAAAAAAAAATCCAAAGAAAAA autosomal
CAAGTGGAAACACCAACTCCTTTTGTTTATTATCTGCTGACCAGGTGATG autosomal
AGTTTCCGTTATGAGGGGAAGGCTGCAGACGGGTGTAGTGGGACCCATGA autosomal
AGGGGCATCTTTATCCAAAAATCTTGGTGTAGTTTCTTCTGAAGAGCTTC autosomal
CTGGATATGACTGAATACAAGCTAGTTTTTCTCTAGTGACAGCTTGAAAA autosomal
CTGCTGCCCGCCTGCCTGCCTCTGGACTGTAGTTTGCCAGCTTTGCTGCC autosomal
ATGGTTCCTGTATAAACACATCAGCAACCACCAGGAATTGACCTAAATCA autosomal
CCAGCCCCGGGAATGCTTACAGCGATGGCCAGCGTGACAGAGGCCAGCTC autosomal
CCGAGCCCCTCAGCCCCGGCCGCGGAGGCCGCGCCTCGCGGCTCCGCTCG autosomal
GAGACCTCCCGCCGGCTCCGCGCCCTCCGCCACGGACCGCGCGCGCCGCC autosomal
CTGTTTCTTCTTCCATGGCATGCTTTGCTCCACAATTGGGTCAAGGCCTC autosomal
ACCAAAAAATAACTTGGCAGGTCTCTAATCTTTTCAATGCTGAGAAAATA autosomal
AGCTGTTGTGCACAGCTGCCCCTCAGGGCGCGCCGCCACCGCATCCTGCA autosomal
CACTTGTGTAAACTCTTCCTTCTGAAAGGCTGCTGCTGTTTGAAGCTCTG autosomal
GATAAAGGACAGCACCAGCCCAGGCAATTTCACTCACAGCGGGCACTTGC autosomal
AACTTATTGGGTCTTCTCCTCCGGAAGTGTGACGTTCTGGTGTCTTTTCT autosomal
CTGGGGAGAAATGGGGCAAAAAGGGACAAAAATGGCATAAAATTGTCATA autosomal
AAAGCAAAGAAATTCTCATTAGCATTAATATTTTAAGAAGTCACGTAAAG autosomal
CACAGCCCCAAGACTCACAGAATTCAAGGAGTGTTTGGGCAATGCTCTCA autosomal
ACACCCTGGGACTGCTGCAGACGCCGCACAGCTCGGAGAGCACCGGGGCC autosomal
AAGTTGCTACAGGAATGATTCAAAACATCTAATAAGGTACTTGGTCTTGT autosomal
GGACGGCCCCGAGCAAATATCTGCGGTCGGGCGCGGGGCCAGGCGGGGCC autosomal
GAGCGAGGGGCAGGCAGAACTCCCGGACCGCCGCCATGGCCGCCACAGCC autosomal
CTCATACTGTAAGACTCAGTACTGCCCATTTTCCAATAATTACATTTAAG autosomal
ACCGGCCGGCCAAGAAGCCACGGCACGGGGGGTTCATCCTGGACGAGGCC autosomal
GGCGCCGCCGCGCCAGAGCTTCCTTTCCGGTCGCCATTGTCGTGGCGGGA autosomal
AGCAAAGATGGCGCTGCCGACGGCGCTGCTGCGGCGCGGGGCCTTTGCGG autosomal
CCGAGTGTTTCCGCCCATCCCCGCGGGGCGGCTCGGGAGGGTCCCGGCGG autosomal
ACACCAGGACAGGGGTCCCCGGGGACACCGCGGGCACCGGGAGGAGACCC autosomal
CTGCCCGCGCCTCCCGCGCCTCCCGCTGCCACCGCGGGAGCCCGCGGCCC autosomal
GGCCGTGGCTATAAAAGGGGTAAAGGATGGAGGAGGGGCAGTGGCTGGGA autosomal
AAGAGCAATGCATAGAAATATGTTCAAGTGGCCAGCAGATGCTCCCAAAG autosomal
AAGCAGTAGGCCAGGCTCACTGGTGGAACACCTCAGTGGATGACACTGAT autosomal
AAATCGGTAGTAATTGACATTGTGCTCCCATTTCTTGATGGGGTAATGCT autosomal
AGCCCAACACCTCGGGGACACTCCCGCACCTCCCGCATCCTCCCGCCGTG autosomal
CGCAGTGGCTCCCGGGCGCTGCCCAGCGCGGCCCGGCGTCAATCACGGCG autosomal
AAGAAAAGAGGAGTTTCTGCATTGCTTAAACACACAAGAGCTACTGACCT autosomal
CCGCCCGGATGACGGTGCGGGTTCTGCCGGAGCCATGAGCTACGACCGCG autosomal
ATCATCTCTTAACTTCTGCTTTCAACTTGCATTTGAGCTGAATGTAAATA autosomal
CCGCCGCCGCCTCGCCCAGGGGGGGCGGCAAGAGGAAGGCGGGCGGCGGC autosomal
GCCCAGGCAGACGTCCTGGTCGTCAGTGAGGATAAGCACCACGTTGGGCC autosomal
AATGGGGTGACACAGCCCAGGGTCTGTGGGGTAGTGGCACTGCCTCTGAG autosomal
CGTCCCGCAGCGCCTGGGTGCCCCTTCCGCCACCCCCCGCCCGGGGCTGC autosomal
CGGAAGGTGCAGCATTGAGCAGCCTCCGTGCCGGGTGGTGCTCGCCGCTC autosomal
ACGTGGTTGGCGTTGGCCAAGTTGGGTTGTCCCATGGCTTGTCTCAACTG autosomal
AAAACAAACAAAAATTTGAGCTCCTCCACCAGTTTCTCAAATTTCCAGCA autosomal
GGCATGGCGACAGCGATGGCGGCCGCGGCAGCGCGGGCCCGGCGGCGGCA autosomal
CACCAGCCCTTTTCCTGGCGCGTCTCCGTGCTGGGCGGGACGGGCGGGCG autosomal
GACAGAAAAAAATAAACTTTGCTCAGACATCCATTACTGATTATAAGTAA autosomal
AGAGAGAGAGAGACCGGCCTGGGGACGGGAGAGATCAGCCTGAGGGGAGA autosomal
GGGGGCGATGATCCCACAGGTGGGGGCTGCGAATTCAGGCAGGGCTCGAC autosomal
AAGAAAAAAGGTGGGGGGGAGGATGAGGAGGATGAAGGGATGAAGGCCCC autosomal
ATACACTATATAAAAGGAGGATACTAAAACTACATACTACTTTTTCTGAC autosomal
GCCGGGGGATGACTTTGCTGTACAGCTCCTCTCTGGCAGCCATGGCGAGC autosomal
CGGCCCCGCAGCTCCCGCACGGCCCGGCCCGCAGCTCCGGCAGCTCCCGC autosomal
CCCCGGCTGCCGCCCCTCGCCCCATGGCAGCGCCGCACCGGCACCACCAG autosomal
CAATGGAGCCCATCACCAGCCGAGTTTCTCGGCTAAATCTGCTCTTTCAG autosomal
TGGAGCTCTGGAGATCCCAGAAACGTGTCAGGAAGGATTCCATCAACAAA autosomal
CCTTTCCGGTGTGGCGGCGTGAGGGCGGCGGAGGCGATGCCGGCGGGAGA autosomal
GACGGCAAGATCGTGTACTGCGAGTCGCACGCCTTCCGAGACATCCCCCA autosomal
AGGACCAGCGCGTCGCGCTCGGCCTGCAGCTTCTGCAGCGCCTTGAAGCG autosomal
AGGACGAGGAGAGCGAGCGAGCGGCTCTGCGGAGATTTGGAGTTGCACTG autosomal
AGAAGCTGCTCTTCTGCACAGCCGGGGTGCTGAGCCTGGCCTGCGCGCTG autosomal
TGATGAAATATTCATGCAAAATAGCTTATTTAGCAAAAGAAGTCTTTAAA autosomal
AGGGTGGGCTCGGGCTCGGGGCTCCGCTGCCGCTGCCGGCGGGGGCTTCA autosomal
ACGCCGACACTGCCCAGGAGAAGGAGAACCTGGTCTACCAGTACCTGAAG autosomal
ACCCTCGGTGTCCCACCCCGGTACCGGTGCCACCACCACGGTGTCACCCT autosomal
ACAACAGTGAGAGAAGCACAGACTTTCATCCTTGCTCTCCTCTCATGAAG autosomal
CCGTGCAGCGCCCAGGGTAGGCGGGAGGGAGGGCTGGCGGACAGCGAGCC autosomal
AGATTTTCGGGTTAAGACGTGCGGGGGAGCGCTGGGTGAGCGGGGGGGCT autosomal
ATCAACTGATATAAATAATCCACAGCTGCACACAAATCATGACTACTGAT autosomal
CAGGCCTGTCCCGTCTTCGTGCCAGTTCTCACTGTTGCAACCGGGACAGA autosomal
ATCTACTTGTAACAAGTGACTTAGGAAGTGTCAAGAAAATACACACTGTA autosomal
GGAATATCTTTTCATGCGTTGCCACAATCACTTGTGCCAGAATATGGTTA autosomal
CGAGCCGTGCCCGTCCGTGCCGGATCGCCGCCGTCCATCGCCCTCAGCAC autosomal
TATTTATCTGGCCTCCACTCCAGAGCCATGACACAGACTCTCCTTCAGCA autosomal
AGTTCAGTCTGACTGAGCTGACCACTCAAGAAAAGCATGATAGGAAGACC autosomal
GAGCTTTAGGAAATAAGATGTAATTTGCTCTTTTATGTACACAAAAACCA autosomal
CGGGCGCCGCTGCCATGTCCGCTGCGGGCCCCGGGCCCGGCTCCGGAGCC autosomal
CCCCTTCGCCCTGGGCACCGCGCTGGCGTGGCCGAGGTCACCTCCCCGTC autosomal
AGGACGAGGAGAGCATCATTTCCCTCCTGCTCTCTGACACAGAGCCCAAG autosomal
GTTGAGTTTGCAAGCCTGTGCTTTAATGAGGCTGCAGAGGATGTAGAAGA autosomal
CCGAGGCCGGGGGCTGGATGACCACCGTGGAGTCGGGGCACTGCCGCACG autosomal
CCGCCCGGGCTGCGCGCCTCCGGCTCCGCCATGCCGGGCCCGGCGTGCGC autosomal
TCAGTCAGGGTTGGTGCAGACACTGTCAGAAGCACCTCCAGCCCTGGAGA autosomal
CGGAGGTGGGTGCGCAGCGGCCGCGGCCCGGCAGCAGCAGCCGCCACATC autosomal
CGTGTTCCGGAATTTCAACGTGGAGAACCGGGCCCGCCGCGAGATCAGCA autosomal
AATCCCCATGTTGAAGTGTGTCCATTTACTTTCTGTAATAAAGAAAACAA autosomal
GGCAGATGTAATTCTTCGTACCTGGTGATGTAAATCCAAGGAAGCAAAGA autosomal
AGTATCCACCAGCAGCAATGTGCCTGGCTACTTGAACTATATTTAGAGAA autosomal
CCGGGGCGCCCGAGCTCACCCAGGCGGCGGCGGCGGCTCCCCCAGCTCGC autosomal
AAATCCTTCTCAATATGTCTGTGGTGCTTTTCTAGCCCTATTACTTGTAT autosomal
CGCCAGGCGACAGACAGCCCGCTTCCCATCCAGCCGTGCCCACACAGCAG autosomal
CATGGTTGCCCTCCTGGCCGCCCAGCGCTTCCAGCCCCGGCCCAGTTTGG autosomal
CCAGCCATTCCCACTCCTCCCACCCCCTTGCTCCCCTGCTAGAGAGGGCC autosomal
CTCCGCCCCGGTACCGGCGAGCGCGCCCCGCCCCGCCCCGCCCCGCGCCC autosomal
GGACCGGGGGGAACGGCGGCGCCGGCGGGGGCTCCCCTGGCCCGGGCTCC autosomal
AACATCTCATGTATTCAAGCTGATGCACACACACCGAGCCGATCTATGTC autosomal
GCCCGCCGCCGCCGCGGAAGTGCGGGCGGGCGGCAGCGCCCCGCCCCGCC autosomal
CTCCTTCCCAGGGGTGTGCAGGGAGCCCGCGGGGGCCAGAGCCACGTTCC autosomal
CAGACACAGCGCCAGGAGCAGCAGGACGGCACCGCCCCGCCCGCCCGCCA autosomal
AAAGAGAGGGAAAGAAAGAAATGAAGTGGAAGGGAGGAGGGGGGAAAAAA autosomal
GAGACCCGCCATCTTCCCGCTCCAGCCTGACCCTGGCTGCCTCCTGCTCC autosomal
CCGCTGCCCGGGGCTCCCGCCGCGCTCAGCCGCGGCTGCCCAGCCCCAGC autosomal
TATCTTTGTCTTAGGTTTGGAGATTTATTTGATTATGCTGCATATGGTCA autosomal
AGCTCCGCCGAGAGCCCAAAGGGCCCCGGGCCGGCCCCTCGCACACGGCC autosomal
ACTTTCCTCAAGGCTTTGGCCACAGCTCCTTACTCCTTCTCAGAGTGCTG autosomal
CCGGTGCGTTCGCTCCCGTACTCCCCGAGCCGGCAGCGGTCCCATGGCCC autosomal
CAGCCAGGGCCTGAGCGTGCTGGTGGGGCTGGGGCTCTGCGTGACCATGC autosomal
CCATCGGCACCGACTATTGGCTGTACGCGCGCGCCCGCGTCTGCAACGCC autosomal
GTGACTTAGCTACTGGTGCTGCTCAGTCTTCACCTCTTTAAATTAAATCA autosomal
GCGCTCCGTCAACACGCGGGAGCTCTCCGAGGTCGTGTTCAACAACCACA autosomal
TCCCAGGAAAAAGGGAAATGTCCCAGGAAAAAAGGGAAAGTGTCCCAGGA autosomal
CGTAGGCGGCGGCGAGGCGGGCGGCCTCGGCGGGGCCCCCCCGCACCCGC autosomal
CCGTTCCGCCACTCCCGGCCCGGTACAGTCTCTAACAACCCCCTCAGCGC autosomal
ATGGTGCCGCGGGCCAGGGGCGGCCGCAGCCTCGCCGGGAGCTCCGCCGG autosomal
AGCGACAGCAGCGGGTGAGGCCCCGGCCGGGGAGGGGGTGCCGAGGGCGG autosomal
ATTTTTTATTTTTTTGGATTTTTTTTTTTTTGTAATCAATAAAGTATTTA autosomal
CAGCGGCGGACAATCCCCGGGGCTGCCCCGGGCCTCGGCCGTGCACGAGC autosomal
TTGAACTTAAAATGCCAGCAATGCTTCTCTCCCTTGCTCTCAAGAGGAAA autosomal
AGCGCGGTGCCCGGGCTCGGAGCGGCGCCGCGCCATCCCGGCCCCGCTCC autosomal
AACTAAATTGAAAATGAAAACAACATTTTTGTTGGAGAATTAGATATGAG autosomal
CGGCTCGGCTCGGCGCGGCTGCGGCGTCCCGTCCGGGCGGGCACGGAGGC autosomal
GAGCTCCTAAAACCATTTGCCATTTGTTTTTCAGATTTTCAAGCAATTTA autosomal
CGCGGCGCCCAGGCCCGGGGGCGGCGGCGGCGCCTATTGTTCTCCGCCGC autosomal
GTGATGATGAGGACGGGGTGCCAGTTGAATTCCCCCAGGCTTCCGTCCCA autosomal
TGATGATCGGAGCCCCCTTGCGCTGGGAGCTGCACGAACACACGCCTGCA autosomal
CTCGTGTTTTGGATCATGCCTTGCTCTCCCCTTGCTGTGAGCAGGCAGAA autosomal
CAGCATTATTTTTAGTCTCTGCCAGCATTGGAGTCTTTTTTGCAGTTAAA autosomal
CGCGGCCGGCGGCGGAGGAGAACGACCACGAGCATTGCAGCGACTGCGAG autosomal
CCCCGGCCCAGCGGCGGCCCCAGCCCCCGGCCCGGCCCCGGCGCCCGCCG autosomal
GAGCGGGGAGGCAGGAGCAGCTTCTCTCCAGGGACAGCCACGGTGCCGCC autosomal
AAAAAAATCAACATATTATTTTTGGTAAAATAGCCGTCAATTTTAAATAT autosomal
ACCTCAAGGCTCATTGGTCTACAGCGCTGGTGGGCGGAGCTACAAGGAGA autosomal
CGGAGCCGCCGCTCTCCGCACAGCCACGGCCGGGCCGGCAGCCACCGCCC autosomal
TAGTTTCTGACATCTTTTAGGGCTTGGGACAATATGCAGAGTTTTTTCAA autosomal
TAGGGGGAGCAGGGCAGCAAGGAGGAGAAGACAACCAGGTGGCAGCTCCA autosomal
AGCTTCAGGGACTTGGGGCTGATAAGCGGCGACACCATGTAGAGGAGGAG autosomal
GCGAGGGGCACGGCTCAGGTCACGGCGCGATGTCCCACGCCACCCGCCCA autosomal
AGCTCCGCGGCCGTGGCCAGCGCGGAGCCGGCGGAGAGCGAGCGCTGCCA autosomal
GGAATGCAGCAGGAATGCTCCTGAGGCTGGGCCGGGAGGGAACACAACCC autosomal
AGAAAGTGATGGAAAATAGGGAAATAGCAGGAAAAAGGTGGAAAAAGGAT autosomal
GCGGCGGGCGGGACGCGCGCCCCGACACACCGGCAAAAGCGCTCCGAGCC autosomal
CGGGGCCGGCCGGGCTCGCAGGATGCTCCGGTCGCTCTGGAGTTTCCTCA autosomal
AGCATCAGCAGCGGCGGCGGGGCTCCGCGCAGGCTCCGCATGGTGCGGTG autosomal
CCTACAGAGCCTTCAAAACATCGGTAGCTCCAATGTTTAACCTAGGTAGA autosomal
GGGGTTGGCGCTCCGGGCACTCTGGGCTCTGGCCCTCTCCTCCCTCTCCA autosomal
CCGCCTCCTGCCCGCCTTCTTCCTCCTCCTCCTCCACCCCAGCGCCAGCC autosomal
CGGCTGGAGAAGGAGAAGGAGGAGGAGGAGAAGGAGGAGGAGGAGGAGGA autosomal
GAGAAGTTGAGTGGATAGTGGTGTTTGTGATGACTTTCATCAGTTGCAAC autosomal
AGGGGGGGCGGCGGCACCAGAACCAGAGCCCGGAACCGGAACCGGGACCA autosomal
AAAAGGAGGGAAAAGGAGCGGGAAAAGGAGGGAAAAGGCGGGAAAAGGAG autosomal
CGTATAACAAATTATATTGTTGAGAAACGTGAATCAACTCGGAAGGCATA autosomal
ACTCGAGGGCCACCGAGACGTTCTCCAGCTTCATCTGGCGGAAGTTGGGG autosomal
AGCGTACTATTTAAAATCCTGCATTACATATTTTTGAGAGGATGCTGAAG autosomal
GACGTTGGCGGTGACCAGGAGCACCCCGGCGCCGGCCGCGGCCGCCTTCC autosomal
ACTGTGAGCTGTTACTGGGAGCACTGGGAGCTACTGGGTATTACTGGGAG autosomal
ACAGCATCCTCTGAGGCCAGGGGACAAGAAGGAACATGCACAGCCCTTCA autosomal
AAAAAAAAAAAAAAAAGGGCAAAAATCCGGGATATCGGGAAAAAAAAGGG autosomal
CCCAGCCCCGGATCTGCAGGGATGCAGCTTTTTGGGATGGAAAGCTGCAC autosomal
GAAAATCAGAGAAGGAGAGAATTGCAGCTCAGAACAAACCTTTTGATGCC autosomal
ATTACAGAGACTCGGGGAAGGATGGGGATGGAGGCAGACATATCACACCG autosomal
ATCCTGGAAGTATGATGGTAGAGATGGGGGCCTAGGACAAGAGAGAGCCA autosomal
GCTCTTCCTGCCGCGCCGCGCGTTATTCATGGCGCGGGGCGGGCCGGCGA autosomal
CCCGGGGCGCTGGGGCTCAGCGAGGGCTCGGCATAGCGAGGGAGGGATGC autosomal
CCACCTCCGCAGCCACAGCGGCGGGCAGCGAGCGGCCGGGAGAGGCGGGA autosomal
CCGGTTTCCGCGCGTATCGCGATATCATCCTCAGCGCCGCCGCCCCGCCG autosomal
CCAGTGGCAAGCCTGGAGGCAGCAAGGATGCAGCAAGAGCCCCTGTCTCC autosomal
CACGGGACGCGGCGGCGGAGGCCGCGCGCATGCGCAGCGCGGGCGCGTCC autosomal
AAGGTTACAGGGATACTATCAGTGTTTCCTTTCCCTCTGAAGGCAAGACC autosomal
AAGATAGGAAGGATAATAGGTTCATGCATAGAGGATTACATTATTTCCTT autosomal
ACAGCCGAGCAGCCCAGGGCACACCAGCCACACACGGAGGGTGGCCCTGC autosomal
CCAGTTGGTAGCCAAGTTCTGGCCATAGCTTCACGGTCACTGTACAAACC autosomal
AAGGGAGGGGAAGGGAAGGGAAGGGAGGGACAGCGGGAACACCCAGGCTG autosomal
GGCGGAGATCGGGGACCCGGTGAGACAGTGAGGGACCGGTGAGACAGTGA autosomal
CATTGCCAGGCTCAAACCCATTGCCAGGCTCAGCCCCATTACCAGGCTCA autosomal
GCCGCCATATGCCGCGGCTGCCGCGGCGGCTCCGAGCGGCGCTGCCCCCC autosomal
GGAAAATTATTATGTATAATTTCAGAAATAGATAATGCACCCTTTTAGGA autosomal
CGCTGAGGCGGATCCCGCCCTGTGTTTTCGCCGCCATCTTCGGCCGCGGC autosomal
CCCCCCGGACCCCCCAAATCCCCCCGTACCCCTCCTCGGGCGCTGCGGGG autosomal
CGATGCTGATGCGCACCACCGGCACGCCCGCCATCTTGGAGCGCCCCCCG autosomal
CCCCCAAACCCCACAGCCCCCCCAAACCCCCACAGCCCCCCAAACCCCAC autosomal
CACATGCTCTGGATTATCTGATCTGATGAGTCATCAGAAATCATCCTGCA autosomal
AAAAAAAAAAAGAAGAGGAAAAATCTTCTTCGGGAAATTCAATATGCGGA autosomal
AGAAAACCCTCTTCATTGGGAATACAGGGAAGCACAGGCTGGCCGCAGCT autosomal
CGCGGTTTTTGTTCTCGCGAGGCGGGCGGTGAGGCGGCGCGCGCGGGAGC autosomal
AAAAGGCGCTCCCGGCCGCATCCCGGCCCGCGGGCACCGCGCCCGACCCC autosomal
CCGGGACCGGACCTTCACCCGCGCCCGCCGCAGGGCATGGGCACCGCGGC autosomal
AGCTGGAAATTCGGCTTTGAGAAGACAAGCAGGAAGGTCCAGAGCTTCAG autosomal
GCGCGGCGGGGCCGCGTTGCCATGAGAGCGGCGCCGGGCCCGCGCTGAGC autosomal
GGGCCATGCTGTATGATGCTGGGCCATGCAACATGAAGCATGGCCATGTA autosomal
ATGTCCACTCTGGGTCATGGGCGAAGGGAAGTGGTCCCAATGAGGCTGGC autosomal
GGCAACGGGTGGACAGCATCCCGAGACAGCTCCGCGGGAGCGGCGGTAAC autosomal
GCCCCGACTCGATCACCTCGTCCGCCAGCGGCAGCTTCAGCGCCCACGCC autosomal
GCCGGGCCGGGCGCGGGGCGCTTCGCTCCCTCCGTCCCTCCGTCCCTCGC autosomal
GGCCCAGGGGTTCCCTCACGGCCCCGCGCTCCCTCAGGGCCGGGCCGGCC autosomal
CGAGCAGGCCGGAGCCGGAGTGCCATGGCCGGGCTTCCCTTGGGCACCTC autosomal
GCAGGTCCCGGCAGCGGCCGCCCGGGCCACACAGGTAGCTGATCCGCGGC autosomal
GCCGCTTCTTCTTCTTCAGGGCGCTGCCACCGCCGCCGCCGCCCCCCAGC autosomal
AAGGGAACTTTGAAGTCATTCAAAGAGCTTTGGGAATGTATATTTTAATA autosomal
GCTGGCCGCCTCCCCGCTGCACCGCGGGACCCGTGAACATGTGGGAAAAA autosomal
GCCATTTACGGGAGGGGCCCGGGGGCGGGGCCAGCACAGGTGCGCGCACA autosomal
ACATTTCCTTCTGTAAGGCCAGATCCAAATTGCTGCAGGGAAGAGACTCA autosomal
CACCGCAGCATGGCCACGGAGCGCTGGCACCGGCGACGGAGCTGTCACCG autosomal
GCCACTGGAGACCGGCCGCCCTTCCGCCCTGAAATCCCGCAGCCACTAAC autosomal
AGAGGCGGCGGCCCCGGGGACGCCCGGCTCCCCCGCCGCTCAGCGCCCAC autosomal
ATCGCCGACCTCACCTTCAACACGGTGGCTTTCGCCGAGGTCATGGGCAT autosomal
CAGCCCCCTCCCAAGCATCAACCTCAGCCCCTCCATTCCCACCTCCACAG autosomal
GTGCCGGCCTCGGGTTTGTTTGGTGGCGGCGGCGGCGGCGGTGGCGTTTA autosomal
AGTTCCCACAGCTCCCAAAATTCCCACAGCTCCCAAAGCTCCTGCATCTC autosomal
CCTTTGCTAACACTGAAGCTCTACAGGAACATCCTCCTGTCCTTGAACAG autosomal
CGGCCGAGAGAGAGAGAGAGAGAGACCGGCCTGGGGACGGGAGAGATCAG autosomal
CCTGAGAGCAGCCGAGCTGTTCCAGCCAGGGGACGTGGCTGCTGTGCACG autosomal
AAATAAGCTTTTGGATGACTGTGTTGCCGAAGCGATGGCCTCACAAGAAT autosomal
GCGGGGCGGACATGGCGGACGGCAGCAGGCAGAGCCGGTTGGCCGCGGCC autosomal
GCTAGTTGTTAGAAGTGCTGAAGACATTACGTGGTACAAACAGGGTCTAA autosomal
ATGGTAATTCTTCACTCAGGTGTGGATGTGGCCTCATGGAAAGGCTAGAG autosomal
GCCCCCCCCACCTCGGGAGCATCCCGCCAGCACTTCGCCGCGGAGGCACC autosomal
GCAGCCAGAAGTGCCTCAGTTGTGCTGGCTTTCTGTAAAAATTATAGGCA autosomal
TAAGGGGCTCTGCAGGAAGAGCTCCAGGAGCTCGGAGACGGTCACGTCCA autosomal
CTTGCAGAGCCTGGTCCCGGCCGGGGTGGAGGCGGACCTGAGCCAGCTGA autosomal
AGGGCCCGGAGGAGTTCGAGGACGCGCCCGACGTGGAGCCGCTGGAGCCG autosomal
AGAATGAGCAGGATGGTAGTGGCGCCGTTCTGTCCCGCCATAGAGGGCTG autosomal
CCTGGATCCAATCCTGGAGAAATCCCTGGATCCCAACCTGGACAAATTCC autosomal
GCGGGAAGAGCGCGGCCCCCGCGCCCGGCGGCTCTCTCGTTGCTTTAACC autosomal
AACTCTCTGAAAAGTTAAATCTAGGTAGAAGAATGAAAAAAAAAAATGCT autosomal
ACTCCTCTTCCAGCCACCCAGCTATTTTCTCCTTGGCTAAATCATCTGAA autosomal
AGCTTGGGGCTGCAGGGGGGACATGCTCAGAGACAACACAGCCACCAGGG autosomal
ATGCGTGGAAAGTTTTTAATATCCATGCCTCCAATGAGGCAACAACAGCA autosomal
ATAACCTGGCAAAAGGGAAAATATTCACATAATTCTCTCGGCAAGAAACC autosomal
GGCCCCGGGCCGGCGGGGGCGGCGCCCGGCTCCTCATGCAGGAACTGGCA autosomal
CTCGGCCGCGCTCTTCCCCCCCGCCCCACCGCCGCTCTCGGCCCCTCGGC autosomal
AAAGCTGAAGGCATGTGGCACACAACAGATGATGCTGTGGCCACAGGGAA autosomal
AGGGAAAAAAAAAAAAAAGGGGGGGGAGGAATTATAATAAGAAGAAAGGA autosomal
CAACAGGGCCACGGCGCCGCGGGAGCGCCGGGGGCGGGCACGGCGGCACA autosomal
ATTCCTCGTTTCCATCCTCGCTGCTCATCCTGCCGCGTTCACTGAGCCTA autosomal
GCTCCATGGAGGCCGCGGCCGAGGCGCCGGGGGCGCTCAGCTGCTTCTCC autosomal
GCCCCACTGGCTCCCGCTGCCGCCGTCGTTCCCAACGCTGTTCCCGACGC autosomal
CTCAATTCCTTCTTGGAATAGCTGCTTAATAAATCCATGCATCCCAGAAA autosomal
CCAGTATTCCCTGGTCCGGGACGTGGTCTCCTCGCTGCGCCGGCACCGCA autosomal
AAAATTCCTCAGCTTTTTATGGCTTAGGATTTCCCTTTCACACCTCCTGG autosomal
ACCAGCTCCGCGAACACTCCCCGCAGGTTCCCGATGAGCTCGGCCACCTC autosomal
CCAGCTCCAGCGTGGTGGCGTCCATGGCCAGCGCCCTCCCGGTGCCGGCG autosomal
CGGGGAAGGCAAGGTCACGTCCTTCCCGCCGGGGAGCGCGCCTGCCGCCC autosomal
AGCGCAGCCGGGGCCGCATCGAGGGCTTGTTCGAGGTGCGGCTGGCCGTG autosomal
AGGACTTGGTGGCCATCTTCACTTTCTTGGCCCTACTGGAGGACATGCTC autosomal
CCCCTCCCGTGCCCGCTCACCACCACGGCGGTGACCGGCTGCCCCGGTAC autosomal
AGTACTTGTAATCTCAGCTTCAAATGTGCAAACTCTTCCACACAGTGGAT autosomal
CGGGAGAGCACACAAACCGGCCTGCCAACACCGTCCCTACCACTCCGCAA autosomal
CGCGGAGCTGCGCCGTCTGCGCCGCCACCTCGGGCTCCAGCACCCGCAGC autosomal
AGCCCGCCGGCAGAACTGTGTCCCGGCACTCGCCCCACCTGATGGGAGAG autosomal
GGGATGTGCGGGCAGGCTGACGGGGCCCAGGGATGAGAAGATGACGGGGA autosomal
CCCAGTAAGCCCTAGCATGTAACTGACTGGAAAGAGATGAATCTGGGAAC autosomal
AGGGTAGGAAAGAAGAACCTGCTTTGGAGCAGCATGGAAATAAGTAGCAA autosomal
CACCCACAGCAGCGGCACCCACAGCAGCGGCACCGAGCGCGCCATGGCGG autosomal
CCGTGCCAGCGCCGAGCAGGACAGGGTGACAGGAGAGGCAGGACAGGCAG autosomal
GCACAGGTGCCCAGAGTAGCTGTGGCTGCCCCTGGATCCCTGGCAGTGCC autosomal
CCAGGCAGACCCTGGGCAGGGAGCGCAGCAGCTCCAGGCCCCGCGGCACG autosomal
CAGCATTCCCAATTAATGGCAATATTCCAGCTCCATGAGCATTCCTGGGA autosomal
CGCCGGCCGAGGGCGGGCAGGGGAGAGCAGCAAGGAGGGGCAGCGGAGAC autosomal
AACTGGAAAAGCAACAGTCCATGATCCTTTCCTAAATGTATCACAGCAAT autosomal
CTGCCCGGGAACCCGGTCAGCGGCCCCGGCTGCCGCGGTCTCCGCCTCTA autosomal
CTTGTTCTGCTGCTTGAGCGGCCCGGGCCGGTGCGCGCCCGCCGCCGCCA autosomal
ATCCCCAAATGTCTCTCTTTTTCAGGTGTCTCCAACCTTGGACTGCATTG autosomal
AGAAGAAGGGATGGCAGCTGGAGCAGCTGGCAGGTTCTGGGGTAGGTTGC autosomal
GCACCGCTCCGCATCGCACGGACCTGCCGGCAGCCCCGGAGATGAGGAGA autosomal
AGAAGCCACTCATTCTGTAGTCCCTGCATCCACTCTGCCAGCATCCCAGC autosomal
AAAAACAGCCGGGTATTCTCACAGTGTTCTTGGTTTCTACAATGATCCCA autosomal
GCACTGCGTCCTGCAGCGCAAGTACTCCCGCTCCCTGCTGGAGGGGCACC autosomal
ATTTTTTTGGCCCCGAGTCCCTGAATCCGCGCCCTCAAAATAGAGAGCAA autosomal
GCGTGCCGTGCCTGGCCTGGTGCCTCCGCCGAGTCGGGGCCAGCGGCGAC autosomal
GAGCCTGGCCGTGGCCGACCTCATCGTGCTGCTGGCGGCCGGGCTGCCCA autosomal
AAAGCAACAATGATGCAAGGATGACTGATGAACATTCTTCAAAGATCTGA autosomal
GCGGCTCCAGCGGGGCGCGCCCAGGGCTGGCAGCGCTGCCTCCCGCCGCC autosomal
CAAACCCCGCCAGAATTCCCGAATTTATCCCATTTCACCCAATCCATGGA autosomal
CAGTCATTTGCTTTAAAGGCAGCAATTTATTTTAAAAGAGACTAGAAGAA autosomal
CTGGAAACACCCTCCCATGAGGAGTCCATGGAGGTGGGTTCAGGAAGGAC autosomal
CCTTTTGGAAGTCCCTTGTCCAGTTGTGCCACATCCCCGTGGCAGCGCAG autosomal
CGCGGGAGCGGGCCCGGCTGCCGGTGGCGCAGCGCCGCTGCCCCGCCGCC autosomal
AATTGGATGTGGTGGGATGGGAATGGGGTGGGATGAGGTGGGAAGAGGAC autosomal
GACGCCGCGCATGCGCGCTGGCGGCACCGGCGCGGCCATGGCGCACGGGC autosomal
GCCTCCCGCGGCACATTGGCGGCGCGGATCCAGCCCGGGCAGTGCCGGCA autosomal
AGAGGTACCGGCTAGAGGCGCCTTGGAGGGATTTGGGAGGTCCGGAGCTA autosomal
AGCGCGATCCCGGCCCCGCCGCTCGCCCCCGGCTGAGCGCACTCACAGCC autosomal
GGGATGACTGGCAGCAATGAGTCAAAGTGAAAAATCAAAAGACAAGGTGA autosomal
AAGCCCCCAGACCTCCAATTCCCCCCAGCGATACCTGGGAGGAGGAGGAG autosomal
GGTGCAGCTCTTGGGAGCCACCGCGCTGCGCTGAGCCGGGCATTGGCGAA autosomal
GCCATGGTGCCGTCCCCGCTCGCCCTGCTCCTGGCGCTGGGCGCCGCCGC autosomal
GCTTCTTGCCCATGGCGGCGGCACCGGCACGCGCGACCCCTCAGCGCTGA autosomal
GCATAAACTCCCAGCATCTGCCCTGGCCCTGTTCCTGGCAGCGTCCTTCA autosomal
AGAGAGGGAGAGCCTTCATCCCAGGTGTGGAGCCCCAAAGGGAGGGTGGC autosomal
AAAGATTCCCAGGGCCTCCTGGTTAGTCTGACTCTTGGTCTTTAGAATTA autosomal
GGGCCCGCCGCGCCCCGGCCCCGCCGCGGTACGCGGCAAAAGCCGTCCCC autosomal
AGGGCGCCAAGATGGCGGCGGCGGCGGGAGGAGGAGGCGGGGGGGGCCCC autosomal
CGTGTTATTGCTGCCCAAAGCCATTGCTTCTCCTGCAGAGTCACTGTAAG autosomal
CGGCGGCGGCCGCTTCGTCCTCATCGGCGAGCAGCGCTTCTTCATCCTCC autosomal
AGGGCTTTAAATAATACATTTTCTGGGCATGACAGTTGTAGCAGAAGAGA autosomal
GCTCGGGAGCTCTGCGGGGCCGCTCGGGCTCGGGGGCTCGGTCTTCGGCC autosomal
ATCCCAAAGGAGCAAGAGGTTCCAGGAAGCGCCGCTGATCTGCACAGACC autosomal
GCGTCACCGCTGGGCGGCGCCGCCATCTTTGTGCCGGGCACAGCCGCACC autosomal
GCTCCTCTTGACAGTGCTGCAAACAAACCTACTGCTGGCCACTGTAATCA autosomal
CTGCACCTGCAGCGCCTGCTGGGCCGGCAGGAGCTGCTGCGGGACCACCC autosomal
CAAGTTGTTCTGTGCCTCATGTTGAACTGGCAACAGAAAGGGTCTCAGAC autosomal
ATGGCGGGCACAGCGGGACGGGGGCACCTCCTGCACCCGCTACTTTTCCA autosomal
CGCAGGCCGGGGGCTGACGGTTCCCCTGCGGCGATACGGGGCCGGCTGAG autosomal
CGGCGTTGGGCCTGCGCGCCGCGTTGCCGTTGGCGGGGCCGGGGGGTGGC autosomal
AGAAACGTCTAGGACAGAGACAGTGACACCAGGGAATCATATGTCTGCAC autosomal
AGCCCGCGGAGCGGCCGCGCTCCCCCATGGGCGCGGGGCTGAGGGGCGCG autosomal
CACCATTTGGCCTCAGGCCCAGGATCACTCCCTGGCACTCTTCATTAGCA autosomal
GAGGTAGGCTACAACCGGCGCGACCGCGTCTCCCGCTCCGTCCCCCGCGC autosomal
GGGGCCAGGCTCGGGGAGGAGGATGAGGAGGAAAAGGAGAAGAAGGAGGA autosomal
ACCGCTGCCTCCTCTGCGATCTTCTTCTTCAGCTTGGCAAACATTTTACT autosomal
CGGGAGCCATGGGCTATTGCAGCGGCCGGTGCACGCTGGTGGCCGTGTGC autosomal
CACTGATTTCAGCCTTTTCTTTTCAATTTTGAAACTTCAAAAGTCAAACA autosomal
CCGAGCCATCCAGCAGCATGTGGAGTCCCACCGAGGAGGAGAAATACGGC autosomal
AGGAGCGGCTGGAGCATCCCCGCGCTGCCGCCGAGGCGAGGGGCAGCTCC autosomal
CTTCTGTGTCTTTCTGACCCTTCCAGAACCTTCCGTGACCTTCCAGAACC autosomal
GCGGCCACGGCCCCGCCGCGCAGCACCGCATCGCTCCCCGCTCCTCCGCC autosomal
CCGGGGCCCCCCCGACGCCCGCGGGGTCAACTTCGCCGAGGAGCCCATGC autosomal
AAACGGCGATAAACGGCGATAAGCGGCGACACTCCGGGACACAGCGGGAC autosomal
CGCTGGTCGGGGACAACCCGCGGCATGGTGGTGGGGCCGCCGCCGCCGGC autosomal
CTCCGCGCTCGCTCCCGGCCGCCGCCGCTGCCGCGCCGAGCGGAGCGGCC autosomal
CCCCTTGGGCACCTCGGCGGGGCCGCTGCCCGCGGCCGGGGCTGAGCGCG autosomal
ATCCCCCCCCATCCCCCCCTTTTTGTTTCTCTTCATTTTTTTTTGGCACA autosomal
CTTGGACCAGGCATCAGTGTCTGCTCAAGGCAAAGGGAGCTGGAGAGACC autosomal
GGCCGGGGCAGGCGTGCAGGGCGGCTCTCCTGCGCTTTTTGGGAGTGAAA autosomal
GGCCGGCACACCGTGCCATGGCCGCCCAGCTCTCCGTGCTGGCACAAACC autosomal
GAAGATGAGGGTGAGGATGAGGAGGATGAGGATAAAGATAAAGATGAGGA autosomal
ATGGCGCGCCCCGACCGCCGGCTCGGGCTGGGCTCGGCTGCCGAGCGCCG autosomal
CGCCATTTTGTGGCGAGGCAGCGAGAGGGACTGCGCGGGTGTGCTCGGCG autosomal
AGACGCGGAGGGCACCGGGGACATCAACATGGGGCCTCCGCCACCAGCGC autosomal
CCCCCCGTAAGCCTCTTCCTTCTCCCCGGTAGCAGGCGGCGGGCCCCGAG autosomal
ACATTGCAGAGGTAAATATGTTTTTTCTCTCGCAGAAGTTGTTACAGTGA autosomal
CGCCCCAGAAATGAGCCATTTACGGGGATTTTGGCGTCTTCTTGCAAATC autosomal
CCTGCTGTATCCTCACCCACTGGGATCCCTGTCCCACCTGAATCCACATC autosomal
CTCCAGGAATGCTGCAGAGCTTCAGGAGGATGCTGCTGCCTGAGCAGGAA autosomal
CCCCCGCGGTGCTGAGGGAGCTGCCCACAGCAGCTGACAGAGAGGATCCC autosomal
CGCGCGGCGGTGCCTCCTCCTCCTCCTCCTCTTCTCTTCCCTCTCCCCCC autosomal
CGAGCCCACGGCGGTCCGGTACCTGCCGCGCCCAGCCCGGGGCCGGAGCA autosomal
CCACTGCCAGATCCCCCCAGAATGCCCCCCTGCTCTCAGAGGACACACCA autosomal
CCAATGCATCTGTCCTGGCTGAGAGCCTACAGCACTCTGCGTGCACTATA autosomal
GGTGGTTTAAACCTGAAAGAGAAAAGCACACTTAGGGACCTGACTTAAAC autosomal
AACAGTACAATGTCTTCTATTTGCCTACACCTTTTGTTTGAGATTATCTC autosomal
TATTCCTGATTTTGAAAAAAATTTTAGTTTTACCTAAATCAACAACATGA autosomal
CCCGCGCCGCCGCCATCTTGGCTCCGGCCGGGCCCGGCGCCGCCATTGGC autosomal
CACCTGGGGGGTATTTTGGGCACACCTGGGCACATTCTGGGCACACCTGG autosomal
CCGGAACGCGGCGCTGCCGCCCGCCGCTGCCCGCACCGCCCCGTCCCTCA autosomal
CAAAGCTGGTGGAACACGCAGACCATCATGGATATCGTGATGGTTCCGGG autosomal
CCCGGCGGGGGGAGAGTTTGCTAAGAGAGCTCTGGGTGAGAGGGGAGCCC autosomal
ACTATTTCCATAGAAGTGGGTAGCTGGACCCAGTATTTCTTAAGCTGTCT autosomal
AGCTGGCCAGCGAGCAGACCCCGAGCACGGCCCCCATGGCGCCGCCGCCG autosomal
ACTCCTTGAGGCGGCCGTCGATCTCCTTGTGCTCCAGCAGCTTCTTGCGG autosomal
AATGGGGACTGTGCTCTGCACAGGTAACTTTTTTTTTTCTCACAGTGGTA autosomal
CGCCGCTCCCAGCGCCAGCGCTAGGCCCAGCGCCAGCAGCAGCGGCCGCA autosomal
CGGTCCCGGGCTCGGTCCCGGGGCCCCTCACGGCCCCTCACGGCCCCTCC autosomal
AAGCGTTTCGACGCTTTCCCTAAGACCCTGGAAGATTTTCGGGTTAAGAC autosomal
CAGGAGCAGCACGGCGAGGCGGCGAGCGGCGCTCATGGTGCGGGGCAGCC autosomal
AGAAGGAAAACATGGCCCAGGCCAAAATGCACCACCCCGTCTCTTGGGTG autosomal
GAGCCCTGCCAGAGGGTCCCGATGCAGGGGACGGCTCACCTTTGTCCTCA autosomal
CCCTGGCCCTGAGGGTCCTGTGGCGGGTGGCGCCGGGTTCGCGTAGGGAC autosomal
GCGCCCCTCGCTCCGCCGCTCCCGCCGCTCCCGCCGCTCCCGCCGCCGCC autosomal
GGGGGGCGTCCTGGCTGAGAGCGGCGAGCAGAGCCTTCTGGAATCCCCAC autosomal
CCCGCGCCGCGCCCCGGCCCGGCCCGTCCGCCGCCCGCCGCCGCCGGAAG autosomal
TGAGCCGCTGGATGCGGGGGGTGAACCTGAAGTTGTCGACCTCGACAGCA autosomal
ATTCTTTTTCCCTTTTCCACTCTTTTATCTCTTTTATATTTCCCTGGAAA autosomal
GCACCTGCCCGCCGGCTGCGCGCCGCATGGGGAGCCCCGGGCCGGGCGGC autosomal
GAAATGCCATGCTCTGACCAAAGCCTTTACTGGAAGTAGTATTGCTGATC autosomal
AGAACTGGAGCTCCCGCTGGTGGAGTTGGAGTTCTGCTCACTTTCAGTCT autosomal
AGGGCTCTGCCAGGGCAGCCTGCAGCCCCCAGGCTGACTCAGTTTCCCTG autosomal
ACAAGAAACTTCTTCATTTTGATTCTGCTTTCTCTCAGTCTGTTCCAAAA autosomal
AGCCCTGTGAACACAGCTGCCTGTACACTTTGTGATATTCTCACCGTTCA autosomal
CACGGGAGCGGGGCTGAGCGGGGCTGAGCGGGGCTGAGCTCGGAGCGGCG autosomal
AAAAGGATGGTCCCTTTCAGTTTCCCTCTGTCCAAGTGTGCACTTTGGGA autosomal
CGGGCAGGACGTGCCGGCCGCCCAGCACCAGCACCTGGCGGCTCCGCAGC autosomal
CGCGAACCGGCACAGAGCGCCGGGGTGAGAGCGCCCATTCCGTTCGGGAG autosomal
CCCGCCGGGGCCGCGGGGCGCCGCGGGGACCCTGCTCCGCTCCCGCACAA autosomal
AAATCATCCCAAAATTATCCCAAATTCACCTCAAAATTCATCCAAAATTA autosomal
GGTGCACCTGGGGCTACATTGATGCAGAGGGGATTTCAGTGCTCTCTCCA autosomal
ATGCACAGCTGGATGGACGGTGGGATGGGCACAGCGGGGATGGAGGACAC autosomal
AGTAAATGGACAGCTGTTTTCAGATCTCATTCCCAAGTATATGGCTTTCA autosomal
AAAAGAAGAAGAAGAAAGAAAGGGGGAGAGGAGGAGCGTTCTCGACGAGC autosomal
AGGAGGAGCCCGAGGATCAGCGGCCGCGCCATGGCTCCCGCTCCGCGCCC autosomal
GGGGCCGCCTCAGGGCACGGCGGAGCAAGGGCAGGGCAGGGCAGAAGGGA autosomal
AGAAGGGATGGGGGGAGCCTGGGGATCCAAACTGTACCAGCATTATCAAC autosomal
AGGAGGAGGAGGAGCCAGGGTGGGCAGTGTTGGCGCTGGCAGGGCCAGTG autosomal
GCTGGGCGTGTTTGGCTGCATTTCAGCACTTTTACTTTCCTAAATACCCA autosomal
CCGCGGAGCCCCGGCGCGGGCCCAGCACCGCCACGCCATGTTGGCGCCTC autosomal
GGGATGGCAATGAGGAGAGACAGCAGCCAGATGACAGCCACGCCGAGGAC autosomal
AAATATTCCTCAAAATTCTGTCAGCAGCTGTTTAAATCCACAAATTTCAG autosomal
CTTGGGTGGAGGCTCTGAGGATATAGCACAAAGTCAGCCTGGTATAGAAA autosomal
GCTCCTTCCTGCCTCGCTGCTGCCTGCGGGGCGCCGCTGCCCGGGGGCCA autosomal
ACGGCTGTGCCGCGGGACCGCGGGATGGAGAAGAGGATGCGCGGCCTGGG autosomal
GCCCCGGCGGACCCGTCCCCGCGTCCCGCCGGCACCGACGCGCTCCGGGC autosomal
CCCCCACGGTCCCCCGGCCGCACTTTGGAACTGATGATCTCGCGTCTCCG autosomal
CGGTGCCCGCGGGGCTGGCGGAGCTCTCGGAGCGTTGCGGGCCCGGGGGA autosomal
GCACGCCTGTATAAAATACCTCTGGAGTGTGCATCTACTCACAGGAAACC autosomal
AGCGACGAGTTCTGTCCTCTTCTCGGGGATGATGTAGAGATAAAATAAGC autosomal
GCCGCGTCACTGCCGGAGCGGCCCAACATGGAGCCCGGCGGCGGCGGGGA autosomal
ACCATTGCTGTCTTTGACCAGTATGCAAGGACTGATGGCAACAGGCAAAC autosomal
ATGGGTGGCCATGGACAGCTCTGCCACTCCCTTTCTGCTGCTGATGCCTA autosomal
CGGCGCCGGTGGGCTGAGCGGGGGGCTTGCAAGTGGAGGCGAAGGCAACC autosomal
CGTTGCTGCCGTACCGGTCTATGACCCAGCTGGGCATGGCGACCCGCGCC autosomal
CTCCCAGGAGGACATCCAGGTTTGCACAGTGAAGGCCGGCACAACCCTGC autosomal
CCCATCTCCATCCACGTGTGCCACCCCTCCTGTTGCCCCACCAGGGACCC autosomal
CCCAGTTCCCCCCAGTGCTCCCATGCTCCCATTCCCAGTACCCCCAGTGC autosomal
GGGAAGGGGCGAGTGGCGGCCCCGGCGGGGAAGGGGCTGAGCGCCGAACA autosomal
CCCTCGTCCGCCACTCCGCCAAGCCCAGCACCTTAAAGCATCCTCGTTCA autosomal
CAGGGTGTGGGGAGACGCCAATCCTTGGGAATGGGGGGAGGAGCGGCCGA autosomal
GCATGGGGAAGCGGCTTACGAAGAAATAATTAAATGCCGAGCTTTGTCCC autosomal
AGCGGGATGGCCGGCCCGCAGCAGGCCCCGCACCTCCACCTGGCCGAGCT autosomal
AACTCCAGGCAGCTCGAGGAGCACGAGACCCTCAAAGAAGCCAATATCCA autosomal
CAGGGCGCAGGCGCAGCGCCGCGGCCGCTCGGGCCCGGCTCCGGCCGCCG autosomal
GGCCTCTACGGCTCCCGCGGCCTCTACGGCTGTGGGGACCGCTACGGCTA autosomal
AGTTCCTACCGAGCCGAATAAAACCCACGGGCGAGCCGATCTCCGCCTCA autosomal
ATGGGCAGCCGCGGGGCCCGGCGATGAGCGCTCCCGCGGCCGCGACCCCC autosomal
CAGCTCCGGCGCCATCCAACGCAGCGGCAGCGGCGCAGCGCGCCCGGAGC autosomal
CCGATAACGGCGACTCTTTTCCCTCGTGGGTCACAGGGCTCCATGCTAGG autosomal
ATGCCCCGGGGCTGGGAGCGTTCATCGCGGCGATTACCGAAATTGCGGTG autosomal
ATAAGAATTTAAAGTGACAAAACCACTTGCCACACCCAGGAAACGATCAT autosomal
GGTCACCATAATCGACCCCTTGGTGTTCACTTGAAATCCTCTCTTTTTAA autosomal
CCGTACCGAGCCGTACCGAGCCGTACCGAGCCGGCCCCGCTCGGCGGCAG autosomal
CTGCGGGGGGACCCTGCGGTGCGAGAGTGAGACCCCCCCCACCCCCCCCC autosomal
ACGCAACTTCGCCGAGTTTTGACAGGACGGCAACAAAGTCAGGAGAGCCC autosomal
ATGCGCATTTGGACACACGGTAAAAGCTGGATGCACATCGGACATTACGG autosomal
CAAGTTTCCTCACATCCATTATTCTTCTATTTACTTCCTTTTGCAGGGCC autosomal
CTATTCTGCCTACTAAGGTCCACCTGCTACAATACAGGAATTATTTATTC autosomal
CAGCGCCTGCGGCAGAGCCAGAACATGACTCCGGTTTTTCCGCCGCTGCC autosomal
GCAACCAGGACGACTACCAGCTGGTTCGAAAGCTCGGCCGAGGGAAGTAC autosomal
CATGGAGGGCGGCGGGGAGGCGCTGCCCGCGGACCTGCGGGACCTGGCGG autosomal
AAAATGGGGAAAAAATGGGGAAAAAATGGGGGAAAATCGGGGGAAAATCA autosomal
CAGGAGGTCGCCAAGCACCGGCGTTATCCCGGTGCCATCCCGGCGTTATC autosomal
CTTGCATGGCTCAGAACAAGTCAGCCCTGCTCCTTGGGACAGGGCAGAGA autosomal
CCGCGGACGAGGCGGCGGCGGCCGAGGAGGAGGAGGAGGACGAGGAGGCC autosomal
TGACCCTTACACAGAGCAGGTTACCTTCATCTAACATGTTATAAAATACA autosomal
CCAAATAAGGCATATATTTTTCAGTATATGCCCACCAGGACTTGGTTGAC autosomal
CCCGCAGCTGATGGGGCCGGGCCAGCAGAGGATGCAGGCGATCCCCGGCC autosomal
AAAGGAGGTAAAATCCTCTTAATTCGAAGAGGGGCTGTCAGCGAGGAGGA autosomal
ACCCCAAAATCCAGCGCAGCACCCGCAGCTCCTCCGCGCTCGGCTCCGCC autosomal
CAGCCGGGGAGCAGCAGGGTGTTCGCGCTGCCACACTCGCCGGGCCACCA autosomal
ATCAGGCCGCTTTACCCGGCGGAGCGTCCGGGGAGCGGCGGCTCCCGCGG autosomal
TAATTTCAAATAAAAACCATCTTGTGTTTACAAGTACACTTTCAACCTGA autosomal
GAACCCATGGCCGCGGCAGCAGCTCCGCTCCTGTCCGGGCAGCGAAGCCC autosomal
CAGCGCCAGCCCCTGCAGCTTGTCCTTGTCCTTCAGCGTGGCGTTGAGCA autosomal
CCAGTCCCTGGCTGATAGCCGGGAGGAGGAACAGGAGCTCTGGCACCTGA autosomal
GCACAGCAGCAGGGCTACGAGCTGGTGCCGGGGTCGGTGGCGCCCAGGCC autosomal
AAGAAATAGAGATACGGAAGAAATATCCGATATTTTTGTGTATATATCCA autosomal
ACGCAAACCCACCAGCCTCTCGCGCCGCCACCGCCGCCGCCACCACCGGC autosomal
CTCGGGGACGTTTCCGTGCCCGCGGTTTGGGGGGGGCCCAGGACCCCCAG autosomal
CCCCGCGGGTCCGAGGGCACGAGACCCCTGGCGCCGCCCCTGGCAGCGCC autosomal
CGCCCTCTCTGCGCCGCCGGACAACGCCATGAAGCCGGCGGTGCTGGAAG autosomal
GTGAGGCAGAGCATGGCGTGCCTGCCAGGAGCAATAGATCCCAAAATGAA autosomal
AATCCAGCTGCTGCCACCCCGTTATTTTCCTGAATTTTTGATTTCACCAT autosomal
GGGACTGCCCGGCGGCCCCCGAGTTGTCCCCGCTGCCTTCGTACTTGCCC autosomal
CCCCGTTCCCGGCCCCCGCCCCCGCGCCCTCCGCTCCGGCGGGGCCGGGA autosomal
AATTTCCCCAGCTCGTGCAGGATCCCCCCTCTGAGACATGCAGGCCGTGT autosomal
AACTTCTGCATTGAAGCAGAGGATGCTTTCTGAAAGGAGACTGACACAGC autosomal
AATGCCTTTTGCCTGCTGAGACTGAGAATTTAGGAAGCTGTGCTGAGCAT autosomal
ATTTGTCCGCGCCCCTTGCCCGCTGAGGCGGGGCGCCCCCAGCCCGCGCC autosomal
AGCGGCCCCGGGCACCGTCCCGGTGTCCCCGGTGTCCCCGGTGTCCCCGG autosomal
CAGGCCCGAGGTCCCCTGTGGTCCCGGAGGTCCCCCGGCCGCGGTCCCGG autosomal
CGGCGCCGGGCGGGACCGGGACGAGGCCGGGACCGGGACCGGGACCGGGA autosomal
AAACCCCCCCAGGACCCCCCAAAATCCCCCCAAACCCCTCCAGGACCCCC autosomal
ACTTGAGGCGTTTGCGGGCGGCCCTGCGGGGCATGGCGGCGGCGGCGGGG autosomal
GGGGTGCGAGAACCGGGATGGGGAAAGGGAACCGGAGCGGGATGGGAGAA autosomal
GAGTGAGGGGCCGGCCGAGGGTCGGCGAGGCGGGGCTGCCGCTGAGTGCC autosomal
CCTCCACAGAGACATCACTGGGGGATGTGATGGCAGCAGAAGTCACCTGC autosomal
CGGGCCCCACAGCAGCGCCCGCCCGGCCGCGCTGCCCGCCCGGCACACCG autosomal
AAGAATGGCACGATTGAGGGCAAGAAGAGCAAGTTTAATCTGTTCCCAGG autosomal
CGGCCGCCGCCGAAGCTGCTGTAGGCCCGGTCGTCGTAGGGATCGAAATC autosomal
CCCATTTTTTCTTTATAAAGTCCTTCTTAAAGTGCTTTTCTCTTTATGAA autosomal
AGGAGGGGCTGGGGGTCCCTCGGCTGCCGGGGGTCCCTCGGCTGCTGGGG autosomal
CGCTCCCCGCCCCCCAAGCAACGCATCCCATTGGCCGGAGGCGAGCGGGA autosomal
AAATCCTGGTATATGGAGAACTGGAAAAAGTGGAAATGTTTAATTTCACT autosomal
TATGAGGCAGCGCCGGGAGAGGACCCCGAGGAGCTCCCGGCCACCGAGAA autosomal
GGGAAAACCAAAACATCCAGGTGGACTTTTTGCTGCCCACAGGCATATAC autosomal
AGGAGGAGAAAGAGAAAGGTGCTGGGTGGTTGTGTGCGCCCGGAGATATG autosomal
CCATGTCTCGCTGCAGCCCCGCCGCCGCCCGCCTGCTCGGCCGCTTCCTC autosomal
CGCAGGACAAGCTCCCCTCACCGCTGAGCCCCTCAGAACCACCTCCCGCC autosomal
AAGGAATGAGTAGTGGGAAAGAAACAGAGGCTTATTGTCAAGTTGCTGCA autosomal
GATGTTTTCGACTGAGACATACAGTTTTGCCTGAGATCAATGCACAATAA autosomal
CCCCCGCCGGCATCGCCTCCGCCGCCCTCACGCCGCCACACCGGAAAGGC autosomal
CCGGCCCAGCGCCTGCCACAGCAGCGCCAGCGCCAGCGCCATGGCCGCGC autosomal
GACGCGCGCAGCACAAGATGAGACCTCTGAGGAGCAGAGGAGCGGGAAGA autosomal
AGTCCCCGTTGGGGACCACCTCGGTGGCCACCACGTGCTCCGAGAGCTCC autosomal
GCGGCACGGCAGCCTCCGTGCCCGCCCGGACGGGACGCCGCAGCCGCGCC autosomal
CATGGAAGGCTGCATACTCCCTGCAGCATGGCATGCCTGGATACTTCTGC autosomal
GAGTGCCCTGGGCTTCCTTTGCCAGGCGTTTGCTGCCCTGCAGGAGCTGC autosomal
AGGGGGAAAGGGGCACTGACTTCCTCCTCACCTGCCTCAGTGTCCCAGGG autosomal
ACCACGGGCGAGGGTTCGATGATGACGGTGGAGTCCTGGCACTGCCTGAC autosomal
AAAAATAATGGCATCAGCTAAAATATTCATGAATGCTAGCTGAACACCCT autosomal
ATCCCCCGGGAAAAGCCGTGGGCGCTTGAGGAGGAATCTGCAGATGCTGG autosomal
AGGAGAAGAGGTGGGGAGCCAGTGGCAGCGGGTCATGGGTGAAGACGGAG autosomal
AATCCTCGTGCAGACCTCGCGCTGCCACGCTGAAACCATCAAGCTGGAGA autosomal
TTTGGTTTTTTTTCTTAGAAAAACAGACAAAAAGCCAAACCAAAAAAAAA autosomal
CAAACATAACACATAGCTGGCCTTTTATCTTCCTTTCATCATTCTGCTTA autosomal
CTGGGACCCCCCGAGGGACCCCCATGGACTCAGCCCCTCCCCCAGCCCCC autosomal
GGGGACCCCCAAAACCCCGCCCGGCCTCGCTGGAAGAACTCGGCTACGAA autosomal
CTCTCTCTGGCCACAATGCTACTATTTTGGGCTTTTCTTAAATGCCTAAA autosomal
CCGCGAGCTGGAGCGCGAGTTCTTCTTCAACGTCTACATCAACAAGGAGA autosomal
CTTATTTCAGGTCTGCTGCTCTTTTTGGGGGAATCAGGGACAGTGAGGAA autosomal
CAAGTGGAAAGAGTGTGGGAACTTGAGTGCTGAATGATATGAATGATATA autosomal
ATTATTTGCCTTCGACAAACAAATAAGAAAGTGGATGTTACTGATTACGA autosomal
GTTCAGACATAGATTAGCAACTGCATTTTTTTTTCCCAGCTCGCCACGGA autosomal
CTGTAGGGACTGCAAGCATATCCCAGTGGATACATAGATACATATATGTA autosomal
GCTGTTTAACTAGGTTCTTTAACTACTGAAGCTAATACATTATTCCAGAA autosomal
GTGCATTTCTACAGTATTCAGTGTTGCTATTCAGTTTCTAACTTAAAAAC autosomal
CAGCAAGAGAAGTGCTCTTACGGAGGATTTGTAGTTAAACCCCTTCAAGC autosomal
CGTGGCTCCTGGGGGAAACCTGACGTGAGCAGCGGGATCTCATTTCCAGA autosomal
GCACATGCACTATGGCAACCATGTTCACTAATTAAGAATATCCTGTCTCC autosomal
TAACGCATTTTTTAATTAAAAAAATGAAAATTAGCAGTATCTGCAAGCAA autosomal
CACCTGGGACACACCTAGGGTCACCTGGGACACACCTGGGGGCACCCGGG autosomal
ACCTGAGGAGTATTGCCATCTTCTGTACCTGTTTGCTCACTGACTGTGTA autosomal
ATTTATTTTAAGAAATGGGAGAGATTAAGTAAAAGGAAACCACTTAATAA autosomal
CTCCTTGTCACTGTCTCATCCCCCTGGTAACCCTTCAGGATTTCTCCCAC autosomal
TCTAATAGGTTATACTAAACATAATTACAAAAAGCCTCAGAATTTAAAAA autosomal
ACTGCAAAACTAAGTGGGCTCTGGACTAGGAATAGTGAAATTTATGCTCT autosomal
ATTTATATAAGACTTTAGAGAAGCTAGGTCAGCTTCTTGAGTCTAAAGAA autosomal
CGGGGGTCTGCCTCGTAGTACTCACCGGGGTAGGGCAGCAGCGGAGGGTC autosomal
CTTCAAAAATTTCCCCCCAAAATTTCCCAAATTTCTCCCCAAAAATCCCC autosomal
AGATAATCTGTTAGTAAATCCCCAGTATAGCTGCACAAAATGATCAGCAG autosomal
ATCCCCAGTCTGTGCTAAGCATCATGAACATAAAGAGAGATCCTGCTGAA autosomal
ATCTGCTTTGCATCACAGTAACTACTTCAGGTGGACTAGAAATCGCATCG autosomal
CAGTAACTGTAATGTAAGTCTAGCCAACACAAACTATTCACAAACTGCCC autosomal
CGGCGCTCTCGGGGGGCTCCAACTCCCGGAACGCCGCGTGGGACCCCAAA autosomal
GGCCATGAGAACTGCACAGTAATGCATGTGCCTGAAGGAAATCTGAATAA autosomal
CGGGAAGCTGCTGCAGACCCACCTCACCAAGGAGGGCGAGAGCGTCCGGC autosomal
AACACAGACAACACAGACATGCAGCCCTGCAGCTCTGCAGCAGATCCCAG autosomal
CGGCACCCACCCTGGGTGCCCCAGGGCCCGGCTCGCTTGGCCGGCCGCTC autosomal
ACGGAGGTTCTCCCAGCCAGGATTCCACTTTCTCCCTGCACGGCCACCCC autosomal
GAAAACTCCACAGTGGGCTTGACTGGGCTTGCTCTAGAAAGAGCGCCAGC autosomal
CCCCAGCTTCTTCTCATCTACTGGCATTTTAGCATTACTTAACTTCTCTA autosomal
TAAAATATAGTCACACCATTGAGAATTCATGGAAATGTATCTTGTTTGAA autosomal
GGGGGAGGAGTTGGCTGCTGTCACTGAAGCTGCTTGGCTGGAAGCTCAAC autosomal
ATCAAAAGTGGGTTGGTCTGAGAAGTTTCTCTGGCCTTTTAGACATTTGA autosomal
AAATGTGAACAGGAATAATTAAATACGTGTGTGGTATTAAGTGTGTGGCT autosomal
TTATAAAAAAAAATCTACATCAATTGAAGAAAAATATCTTTGAAAGCAAA autosomal
CCCGCGCCTTCGTCCCCGTCGCCGTCGGCCACCGCCACTTCCTGGTGGCC autosomal
ATAAAACCTGATGTACAAAACAGGATGTGAAATCACTACCATCAGTGCCA autosomal
AGAAAAAAAAAAAAAGTAATTCAAATATATTTCAACTATGATATACACCC autosomal
AGACGTGGAGGATCCCACCACGGTGTTCTGTGGGAAGGAGCTGAGGATGG autosomal
GAGTGCTGCTCAGGATGCAGAGGAGCGGGAGTTAAATGACACATCTTGAA autosomal
GAAAACCCACCACTTCTCCCATCTTTGTTTTTTAAAGCAAAGTGATTAAA autosomal
CCTTCCCCCTTTCTCTACTGCTGCTGAACGGCACTTCCAGGTGTTGCCAA autosomal
ATTCCCTCTACGAGTCCCCGGAGCCCATTTTCACCAGCAACAACTCCTGC autosomal
AATCCATGGAGGGGAATTCCATGGAATCCATGGAGGGGAATTCTATGGAA autosomal
GATCTTCCTGTGTGGCCATGGAACATGTCAGCTTTGTGGAGACCGAATGA autosomal
TTTTCTGATGTGGGGGCAATGCTAATAAAAACTTATTAGACTTTAAAAAA autosomal
ACGTGGGAGTCCTGCAGCCAAGAATGCTCAAAAAGGTCCTCCAAGGATGG autosomal
TCAACGCTCACCTGGCACAGGGCAGGGAGCAGCAGGTACTGCCGACCTGA autosomal
AATTTGAACACTGTTTGCACAATGGTATAATCAGTAATGATTTTTCTTCA autosomal
CTGTGAACCAGCCTGCTCAGAAACAGCTCCTTTTGTGCGTGGAAAGCTTC autosomal
ACAGGGGCTGCTCCAGTGCCCAGCGGCACTCGAACAGGGGCTGCTCCAGC autosomal
AAGGAGACCCTGCAGATGGAGTCTCCAGGATGGAATCCCTCGAGGTGGAA autosomal
ACTAGACAATTACCTGCTTTAAATGTGTTACAGTTTATTCAGATCCTCTC autosomal
AAAAAAAAGGGAAGTTGTCCCAACACATACACAGATTAGTTTCATAGGCA autosomal
TGCTACTAAAAATATCACTAGCTGAAATTTTAGTATTAGCAAAGTTACCA autosomal
CTAGAATGAGTTATTTAAACTGATTCTCATTCTCTTAATTCCATCTCAAG autosomal
ACAGGCTCTCAGCTTTTGACCAACAAGTTTGTGAGATTCCGTGGCCAGCT autosomal
AAAGATTACAATACAAAATACTTGTAAAACATTATTTTTTTTGTATTCGA autosomal
AGAAGGGCTGTGCAGGGCCAGACCCCCCCTCCAGGCTGTACTCGAGGCTG autosomal
CCGTGCAGAGACTCCCCCCTCACCCGTGTTTCTGCCCCCGCAGCGCGAGG autosomal
CTTGGGCTGGGTGCAATGCTGGAGTCACCAGGATTCACTGGAGTTCAGGA autosomal
ATTTTGGATCCAACCCCTACCCCCGCTGCTCTTCCTCCTCCTCCTCCTCC autosomal
ACCGTCTGAGAGCTTACAGATGGTCTGTTAGCCTCCAAAAGGGAATTAAT autosomal
ATCAATGCACACGGCCACTGAGCAGAAACAACCCTCTAGAGAATAGGGTA autosomal
TAAATCTGTTCCCAAATCTGCTCCCAAATCTGCCCCAAATTCACCCTAAA autosomal
CAGGCTGTGATGAGGTCCAGTGCCTGGTAAGTGGGAGCCTCAAGCTGTGG autosomal
ATCCTAACTGTGGAGTAAATTGCCACACCATATGCTGAGAAGAAAAGGAG autosomal
ACTCTCCTAGATGTGGGTTTCTTTTTTTTTTTTTTTTTTTATTTCTGGAA autosomal
GAAGGTGTCCCCACACACACCCTGAGGTGCTGAAGGTGACCCACACACAC autosomal
ATCCTCATACCCCAGCACACTCTTCAGTATCTCCACTGTGTGTTGTCCAA autosomal
CTCCCCATCCTCACCCTGGCCAGGATCTCGCCACTGTTATCTCCAAACTC autosomal
CGCGGGGGGCACAGGGGTGCCCGTTGAGCTGGGCGGGCGCTGCCGGGCTC autosomal
ATTTACAACTAACATAATGATGATAAGCATGGACCACTAATCCCACATAA autosomal
AGGTGATGGAGATGAAGATGATGAAGATGAAGAATTTTGGGTCAAAAAAG autosomal
ACGTAAGCACCGTGTCCATGGGGCTGCTCCTCATGAGACTGCTGGGAGCT autosomal
CAAACTGAAACTAAAATTGATGGCAGCCCAAATCTGGAAACCTGACTGCC autosomal
GAGGTGAGTCCAGGTGAAAGCCAGCTACCACAGTAGTGTCAGGATGACCA autosomal
CCTCCTAACCTGACCACAGAGCTGTGTCTTTGCCTGCCCAGCTACCTCCA autosomal
CAGATTGCTGACCATTGGCCTTGATCAAAAGTTTTGGATATACAGCCTCC autosomal
TATTTGTAACCCCATAGTGAACAAACCCAAACCCAAGGTGGAGCTGCCGA autosomal
AGTGTCCATGGTGTGCACTTGCGGGGACGACACTCGCACAGCGACGCGGA autosomal
CCCTCATTGCTTGTAGTCCAATTCAACATTCCGGTGCTGCACCCGCTCAC autosomal
ACCACGATCTCCTCGCAGGGGCTGCGGGGGCCCTGCACCCCCACCAGCAG autosomal
CTTCTATTTTTTTATGCCATACATATCTCATTCTAAATTTAGAGGTTTCC autosomal
ATCCAGGATCCGCCGCAGCTCCTTGACGCGCAGCTTGCGCAGGTCGGCGG autosomal
CCCCTGTTCCTACATGCAGCCCTTGCTACACAGCTCTGACTGATCCTGGC autosomal
ACTCACCTGACTTGGGCAGGATGGCCAGCATGTCCTCGGTCAGGCCCATG autosomal
GGTCCTCTCACCTGTGACCTTCACCTGTGATCCCTCACCTGTGACCCCCA autosomal
ATCTGACAGGTGTATTTTCCAGCACTGCTTATCTCTGTTTGCACAAATTG autosomal
GCTTCTGTTTGTAGCAGAGCACCAGAGCTTTGACTTTCTCATCCTGGAAA autosomal
AGCTGCTGAGCGGGGCCAGCAACCACGTGAACCATGTACTTGTGAACACC autosomal
AGAACCGGAGCTACTCAGTGGGAGAAAGCAAAAACAAAAATAAAAACAAA autosomal
CTGCATAACACCAAGCCTTGCACAGGCAAAGGCAGTGATCACCTCAAAAA autosomal
CTTGTAAATAGTTTTTTACTGTATTTTTAGAAAAGTACTTCCTCTACCTC autosomal
CCTCCCGCTCGGGCTGCAGGATTGAGCCTCTCCAGTGTCCTTGTCTGAGC autosomal
ACTGGGACAATGCTCTCGGGCACAGGGTGGTTCCTGGAGAGCCCCACACA autosomal
ATTCCTGTCTTTTTTCTCAGTGGTTTTCCGTTAATCCATTGGAAACTTCC autosomal
AGGAACATGGTGACTCCTGCTCTCCTGAGATATCCTCTCCCCAACATCAC autosomal
TGCAGCGAGCCTGGTAAGTGAAGATACAAAGACCAAGTTTTTGAACAAAA autosomal
ATCACATTGTCACCACCAATGGCCTGAACGAGGAAGAGCTGGAGCAGCTG autosomal
GAATCCTGTGTGGAGTCCGGGCTCTGCTCGGGAAGGCCAGTGTTGATGTA autosomal
ACTTCCTCGCCTGCATTTTTGTGGTTGTTATCTATTTTTTAAGGTATGGA autosomal
CTCCTTTTCCTCCTCCTCCTCTTCCTCGCTCTGCTCCCGGCTCAGCGCAG autosomal
AGCAAATCCCAGCAAGAAACCTTTCTGGTTTCCCCCTCAAGTCAAATCCT autosomal
GTCCTGCGTGGGATTCGGTAAGTGGGTGCTGCAGAGGCTCCGGCAAGGCA autosomal
TCTGTCCAGTGGCCTCGATGTAGCCAAAAAAGACCTCCTGAAATCCCCAA autosomal
ATAAAAACATTAAAAATTAATCTTTATGGGGATAACTTTTATCCCCACCA autosomal
ATCTAAAACCACTTGCTATCACTGATGAAGGAATAGAATTTGAGTGAGAT autosomal
ACAGAGTACATTAGCTAGCATTAGTACATTAAACAAGAAAAAGTTAGAAA autosomal
GTTAAAAGAGGTTATTGTTGAGAATAAAAACTTCCTGCCAGCAGATTTAA autosomal
CCCTGATGTCCTGAACCCCCCCCAGTGTCCCTGATGTCCCCAATGTCCCC autosomal
GACACCCCCAGTCCCCCCTGGAGGTGTGTGTGTCCCAGTAAATGCCACCC autosomal
GCAGGCTGTGAATTGTGTGGAAGGCCCTTCTGGGAGGAGGCACAAGAGAC autosomal
CTAAACCTAACCTCATCAAATTTAAAGGCAGTAACCCATGCCCTTGTAAA autosomal
ACCAGAGCACGAGGCCCACTTGGTGCTGTGAGGAAGGGGCTGCTTGGCCT autosomal
ATCTCCACTGAACATCGATAAAGTGGGGCTGACGTTGTCAAAATACACCA autosomal
CAAGACCCCTCAGAAAAAAACATAATTTACCTCTGGCTTTGGCGTTGCTG autosomal
CCAGCTCTGGATCTCCTGGAAGAGGGCATTGCCGGGGCAGTCGGTGCGGA autosomal
CAAATACAACTATTTTACTCAAAGGTGCTCTTAGAGATTGCTGTTTTGTA autosomal
CTTTATGTAAATATTACATACAGTAGTGATTCAAATCTTGTCAGAATAGA autosomal
GCTAGATTTTTACAAAATTATTAGTCACCTTTGCAATTAGATTTGAAATA autosomal
ACTTTGCCATCTTGTTAATTCTCCCTCGTCTTACAGATTCTAAACCTCAC autosomal
CTCCTCTGGACACATTCAGTTAACATCCTTTTTAATTTCGGGGTGAGAGA autosomal
ACTATTAGGAACTTACAGTCCTGCTGCCCTCACTGTACAGTCAAATCAGC autosomal
AGAATCTGTGCCTGTCCCAGTCCTGGGAATGTCCAAGGCCAGGTTGGATG autosomal
CGAGAGCGGTAGCGTTTTTATGAAGACATGTAATTAAAGGAAGCCATTAA autosomal
GCAGAAAGGAAGAGTAATGACAGAAATGACTGGGATAATTTGGGTTTTTA autosomal
TTTCATGGATCCAGCAAGCACTGCAGGACTGTCACTCAGAGACGAGGAAA autosomal
GGCAGAGGTGCTCCTGGACTGCAGGCTGGCAGGAGGGAAGGACGGACAGA autosomal
ATGAACAAATTTTATAACCAAATATGAGAAATCCGTGACTGCAATTAGTC autosomal
CGTGGGCTCGTGTGTGCCCCACAGCCAGGCAACCACCACACCCAGCTGCA autosomal
AAACTGCACATGCTTATTTAAGTGCAGTTACTTTTACACATGTTCCTTGT autosomal
CTCACCAAAAGCCACAACCTACCTTGGAGAAGTTCATATTGCCTAAAAGA autosomal
CAATGTTCAACTCTTTGTTAAGCCTCTTTGAACTCATTAAAGAGATGAAG autosomal
AAACCTTAAGTTTGTTTATGCATAGACAATACCCATTCCATTTCATTGTT autosomal
GAAACCACGGCCCGGATCTGTTCTTCCACCACTGGAGGGAAACATCTCGC autosomal
ACCGCCGCATCCTCGCCCTGCGCCGCGCCCAGCAGCCAGCGCTCCTCCAG autosomal
CAAATGTATGTGAAGACTTAGAAAGCATTTCAGGCTTTTTGGCCACAGAA autosomal
CCACTTCATCCGCAGATGCCAAATACGGTTCAAGCAAGCTGCAAACTGGG autosomal
ATGCTGAGAGCTTCTCTGTATTCTCAGTGTCAGACTTGGAGATTTCTTTA autosomal
ACAAAAGCAGTGCAGCTTTCTGTAACAGTGCAAACTTCTGATTAAAAGCT autosomal
AGGTGGAGATGCCCCCTCCATAGGACTCCTGTGCCTGCACTCATGGGGCA autosomal
AACTATCTTTCTATTTACTCAGCCTGCTTACGTAGCACCATTGCCATTAC autosomal
GGGCGGGGGCCTGCAGGGGACAGAGGAGGAAAACTCAGTCCACAGCCTCA autosomal
AAAGCTATGGACGTGGATCTCTTGCCAACAGATTGCTGCGGGAGGGACTT autosomal
ATTCTGGCCAGGATCAGCCCTGGGCTGTGGCTGCTCCATAGGGAGCGAGG autosomal
AGTGCATCAAGGACCACATGGCGCCTGCCTTCCGCACCCTCTCCTTCTTC autosomal
CGTCCTTGCTCCGAGGCCTCTGGGTGCGAGCGTCCTCCAGGGCGCTGTGC autosomal
GAAGGAAGAAGGCAGCCCTCTGCCTCAGGATGACACTGGCATCGTTCCTC autosomal
AACAAGAAGTCCAAAACAACATGCAACCCCAAAGCTAAAAGATAACAAAC autosomal
AAGAGGAAAGACAGTACACAAAGCCGTTTGATCAAAAAAGACTTCAAAGT autosomal
GTTTTAATATTGAGCTAGGATTTTCCATGCCTCTCCACAGCTTCATAAAA autosomal
GTGGATCTGAGGGGGGACCCCAGTGCTGAGTTCACTTGGACCACACGAAC autosomal
GGCACAGATGCTGACAGAAGCTTGTCTACTTCTCCTTTACAGTTTCTTGA autosomal
AAACTCCAGAGATGGAGCTTCTTCTTCCTCCAGAGATTGATCCTCTCCTG autosomal
CAGTGCAGGTGCACAGGTGCTGAACTCGCTACTCTTGTTTAATCCAAACA autosomal
AAACACCTCAAACACCCCAAACACCCCAAAAAGGAGTCCCAAACACCCCA autosomal
GCTCCTCGTGGGCGCACACGGTGCGGACGCAGATCTCCTTGTTGATGACA autosomal
GCCCGCTGCTCCCTGGGGACACCAAACGCATCCCAGGTGAGATCCCGGGA autosomal
CCTGAACTGGGGCTCCCCATCCCCTGAACTGGGGCTCCCCATCCCCTGAG autosomal
AGATTTGTGTAATATTTGGGGTTCCAGTGCTGCTCAGAAAAGTTTTCTAA autosomal
CCACCCTGGGACAGTCATGGCCCAGGGGCTGCTTACACTCCTGCCCCGAA autosomal
CCTGACCAGGAATGCTTTACCTAATGCCCCAGGACACATCCTGGCTGCCA autosomal
AGAGTGTACTTTGGAAGCAGCTTTCTAGACAGTCTATGTTACCACCAGTG autosomal
CCAAATTCCCGTTTTTTCACCCCAAACTGACCGTGACCGTGGCCGTGGCC autosomal
ATTAATAGCAAATGGCCATTCACTGGAATGTGCAGAATTAAGATCTCTCA autosomal
AATATATTTTAAAGGACAATTATAATCAGCATAATGCACTACTATGCTCA autosomal
GGGCTAGAGTTCTGCACAAAATCTGGGTGGTACTTTAGTACAGAAAGTAC autosomal
GACCCCCCAGGGGTTCTGGGATCCCCTAGCCCCAGCACTCAGGGGACCCC autosomal
AAAAGGCACAATACTGTCCTGACAGTGAGCATATTTAAAGCTTGGCTTTG autosomal
GGAGAGACAGCATGGTGGGTGCATTTCCCTCCCCCTTCCCCTGGGACTCA autosomal
ACCCACAGGATCCACGAGGCAGCCAAAGCTCACAAAGCCATGGAGCAGGA autosomal
AAGGACAGTGGACAAGACCTGGATCCATCATTATGGAAATCATCAGCAAG autosomal
AAGAAGAGAAACACCATAGATGATGCAAGAGGAGCAGAATGCTTTTACTT autosomal
GAGTGTACACAGCCCAAGAGAGGAGCCACCCCAGGGCTCATGGGACAGCA autosomal
AATGCCCCGGGAGCGTGGCACAGCCCTCCTGTCCTCTGGGAATGTCCTGG autosomal
AGCAGAGGAGGGCTGGTGGCAGATTGTGTGGTGGACACTCCCACAGGAGG autosomal
GCAAGTTTAGACTGGAAGATGTTGGCTTAACCTCAGACAGCAATTAAGCC autosomal
GCCTCCCGCTACTTATTGCTGGGAACGCACCGCGGCGGCGTTGGAACTAC autosomal
CCCGTGCAAAGCAGGAGGAAGGTTACATTTATTTTTCCCGTTCCAGCAGC autosomal
AGGATCCTGAAGTGGTGTCTCACCAGGGTACGACGTTCCCTTCCCAGTCC autosomal
GGCTTTCTAGGACAAGTTACTGAGAAACACTTGCTTTCTATATGCCTACC autosomal
ATTTCCTGCACTGCCAGTCTGCGTTTCCCCACACAAGGTGGGCTGCCTGG autosomal
AAGCTCTGGCCCGCTGCCCGTGGGCTCTGGACGCGGCCACTCGGCCCCTC autosomal
TAACTACCTTTTTAACACATGGAACTTGTAATAGTTTGACCTTATAACTA autosomal
AGGTCATTGACCTTGCGGGTGGCGGCGCGCCGCGGCAGCTCCTGGATCTC autosomal
AATAAGGGTTACACTGGCAGATGACAGTGAGGGACTGGGGCCACACTGTG autosomal
ATCTCTAATGGCCACTTAAGGGAACTCTCGAGAGTTTAATGCTTCTCCAT autosomal
AAATAACAGGAACTATCTCCAAGAATGATAGACTCCTTTTTCTAAGGAAG autosomal
AAGCAGTCCAGCTGGTTGAACAGTATTAATTTAATGACTATCTTGCAATT autosomal
ATGGGTCCCCTTGGGGACCCTCCTCGCCCCCCTCCCAGTGCAGACACACC autosomal
TCAGAAATGCATAACTCTGTCAGGAATTCTGCCTCTTCCCTTGAGTACCA autosomal
CGCCGCTGCTCCGGTTGCCGCGGGACCCCCGGGATGAAACCGCTGCGGAG autosomal
AATCCTAATATGCTCTTTCCCATTTAAACATAGGACTGGTGATGGTTTTC autosomal
ATGAGGCTGGGGCACATATTCAGAAGGAGAATCAACTGCAGGCAAATGTC autosomal
CTGCGAACGCCGAGAAGGAGAGCTGCGGAGCGGAGCCGTGCGTCCCCAAG autosomal
CCCCTCGGGGGTCCCGTCCAGGCCCCGCTGCTGCAGCTGCGCCCTGAGCA autosomal
AATCGGCGGCGGATTTGGGGAACAGCATCCGGGACGGGCGGTACCGCGAG autosomal
AGGTCATCTGGGATGGTGCAGAGTTCCTGACTGACAGCTAACCAAATGTA autosomal
ATTAAAAGAAAAAGAATCTGAATTTCTCCTCCTTTAGAAAGCAAGCACTG autosomal
AGAAAATAGACACAAACATCTGTCATAGAGAGAGGGAAATGTGTAAACCC autosomal
GTCCCGGGCCCGGGCGGGCGGCGCTGGCCGGAGCGTTCGGGGCCGCGGGA autosomal
AAGACCCCAACTTGGCCTTGCTGGATTTCCTCAGGAGGTTCTCACCAGCC autosomal
AAAAACACGGTTTTTAATAAACATTTATTGATGCAACCTCGTTACACCCT autosomal
AGCTGGATCCCATCCCCCGCTCCCCGCCCGGAATTCCTGGAGCCGCGGGG autosomal
AGGAGTGATAGTGAGTTTTCTATTGCGCTTTTTTCTGTTCAAGTCATTCA autosomal
TCTTTAACTTAATATTCTTTACAAATAACATTGGTAACTTAAGGCAATAA autosomal
CCACTGCAAAGGGAAACTGACGAACACAATAAAACCAGTTACAATAAACC autosomal
CCATGAGCATTTTAAATGTGAAACACATCCCTTACTTGTTTTGGGTTTTC autosomal
CAACGTGCTGAAGCTGAAGCAGATCATCCCGCTGCAGGGCAAGTTCCTGC autosomal
CTGGCACGGGGCAGGAAGGCTGGAGCACCCTCAGCCTCCCCCCCTCCTCA autosomal
TCCTTGACACCCACTTCATTTTTTTTTTTTTTAATCAGTCAACACTGAAA autosomal
CTATAGAGAAGTCACTTAAAGACACAGTGTTTATTTTCAAACCTGGGAAA autosomal
CAGGCCTGCTGCTGTGCCTGGGCTCGGCAGCCCGCTCGGAGCACCTGACA autosomal
AGGATCCTGGAAAGCCAGGCAGATGCGGGGTGGGCAGTGCTCATCGGGCA autosomal
TCCTTTTCCATAGATTTAGGGAAATCCAAAAGGTCCCTCTGGAGTTCCAA autosomal
CTTATGAATTTACTTTAAGTCTTCAGAAAAAGCAATAGGGAAACAGTAAA autosomal
CTGCTCAAAAAGGAAAAAAAAAAGGAAAAAAAAGCTTGTGTTGATACAAA autosomal
CACGTGCCCAGCAGAGCCTGCTCTAGCCTAAGAACGGGCCAAGTCAAGAC autosomal
AAGGTAGCCAAGCACTCCATCCAAGAGCATCCAACCTCCCCACCAAAAAT autosomal
GTGTGCTCAGCCGGGGCACACGGGTGCCACCGGGCACCAGAGGACTCTGA autosomal
ACCCAGGTGAATGAGGAATGCTTGACCCAGAAGTTCTTCATGGGATGCAG autosomal
AGGAGGGCGATGAGGAAGAGCAGGATGGCGCTCATCAGAGCCACGCAGAG autosomal
CTTGGTTCTAGAACTCCAGTTCTGTCTGATTTCTTTTTTTTTTTCTTTCC autosomal
GAAATGAGCACAACAAAATACACTGCAGACTTTGCTAACAAGGAAATTAC autosomal
CAGCACCTGCAGGTGCTGCCGCACCCGCAACCCACGGCTTCCGTCCCCGC autosomal
AGCACTGGGAGGGGTCACTGGGCAAACTGGGAGCACTGGGAGGGGTTACT autosomal
AGACCCATGACCACTTCTGGCTGGTGGGACTGGCCAGTTGGGGCAAGGGC autosomal
AAAATCTTTCACCATCTGATTGACCGAAGTTTGCCAAATAAAAATAGACA autosomal
CTGGGGAGATCCCTTCAGATGTTGCACTTGGAGCTTGGTGTTTGGTTTCC autosomal
GTGTCAAGATCCCATGGAACTGGTGTACAACTCTTCATCATCACTGACAA autosomal
ATCCTGCCCTAAGCCTGGCAGGTGTGAGGAGGACTCTAGACAACCCCTGG autosomal
CTCAATCTTTTCTCCATGGGACAAAGAGACTTTTTTCAGGTGCCCATTCC autosomal
AAGTCAGATGTTACAAGTATCTGCAGGCAAAAGGTTTTTTTCATGGACTG autosomal
CAAGTACTTTTCCAGCACTGTTAAGATCTGTTATTAAAAAAAAAGGGGAA autosomal
CGACATCGAGCTGGTGGGCGCCGGGTACCGCTTCTCCCTCATCAAGAAGA autosomal
CACTTGCCTTTTTACTCAGAGTACAGCATTTCACTAAATCACTGAGAAAC autosomal
GGTGTTTGGATCTGGTCTGGCAAGACACTCGAGTCCTGGAGGCGCTTCAC autosomal
CAAGCCCAGTGGAAGCCATCTCTCCAGTTCTGGGGCGCCTGGCCGAGTGC autosomal
GTGCTGCATCTTGGTTTATAAAGTTAGTTTACCTAGGGGCCCTGCAAAAA autosomal
ATGTATAGATCTCCTGTTCTCAGCATTGGAGAAAAGTTATTTTCCCACAC autosomal
CACACTTAATCCTACCCCAGTTCCAGTGGAAAAGGAAATGCCTCTCTGTG autosomal
ACCCCTCCCCCACCCCTTTTTTGCCCCTCCCCCACCTCTTGACCCCTCCC autosomal
AGCAGCACTGCCTGCGGTGTGCAGAACATCAGCAGAGCTCCGTGTTCCGA autosomal
GAGTGAGATCATTACTGATGCCACGGCAGGTGAGGCGGCACCTTGGCACC autosomal
CTTGCCCACCTGCCCTCCCTTGTTGGAGACCCTTTCTCCAAGACTGCTCC autosomal
CCCTACCTGGATACTATGACATCCAACTGCCTCTATGGGTTGAACCTGAC autosomal
TCCCGCCAGGAACCACAGCTCCGTGGGAGCGTCCCTGCCACACCAATAAA autosomal
CCCCCCGGGCCGCCTGAACCCCCCGGGACCCGGAGTGACCCCCAAGTCCA autosomal
AGCTCCTTACTCAGTAAATTCTTGTCCATAACTGATTCAATGTCAGTACA autosomal
AAAAAAAATACAAACATAAAATGTCTTTCTATTCCCCAAGCAGATTTTAA autosomal
AGGGCTGTGCCTAAATCCCCGTTCACCAACGGCACTGCACAGGAGGGCAG autosomal
GTGAATTCAGTTTATTTGTGAACATAGAGCAGAGTTCATACACTTTTACA autosomal
AGAGAACAAAAAACTTTCTTGGCTGCAGCTATCAGCTAATTTTTGGTTGC autosomal
ATGCAGCCAAACTGAGGGATCAGTGCAACAGCCACACACAGACCACAACA autosomal
TCCTAGAAGCATAAGCAGGATATTCCTCAAGCCAGCAAAAACAGGAATAA autosomal
GCAACAGCTGGTGTTGTGAATCAGGCCGTCACCAGTCGGAGAACGGCTAC autosomal
CAGCCACCAGGGCTGGCTGGCAGCGGGGACAGGCACTGGTGGCATTGTGG autosomal
GAGTGAAGAGCCGGGACATGCACGGCAAGAAGATAGAAGAGGAAGAGTGA autosomal
AAGTGATTCAAACTGACATGAACTGGTCCCAAACTGACCCGAACTGACCC autosomal
GAGTATGACTGACAGATGTGAGAAATTAAACTGCAACACTTTCCAAATCA autosomal
CGGACAGCCGCCGTTGGTCTTGCGCTTGCAGCCCTTGGTGTGCTGGACAA autosomal
AATTAGAGGTTCTGCCAACTTGTGTACTGTCTGTGCTAGAAACAAGTGTA autosomal
CGTCCGGGAGCAGCCGCTCTTCTCCGAGCTCTGAGCAGCACCCCAGGGCC autosomal
TCCCGTGCCTGGTCTCTGTACACTCCAAAACAAATGTTCCTAATGCCCAA autosomal
GAGAACAGGAAGTCAGGAGCAGGCACTGGCCTGTGTTCTGAGAAATAGCA autosomal
CCCGCAGCTCTACGTAGGTCACTGGGGGGTCCTGGGGTGTGGTGGCACGG autosomal
GGTTTGGGGTGGTTCAGGAGGATTTAAACAGTGCAGGGAAAAGTTGAACA autosomal
CTGTGCCAGGAGCCTGCCGGGGGTGAACCCCCCAAGAGTGCCCGGCTGCC autosomal
TAGTGATTCTGAAAGTGAACAAAATTAGTGTGTTTGTACTGCTCCTTTGA autosomal
CGCCCTCGGGGAAGAGGCGCGGGCAGCGCAGCGGCACCGCGCCCATGTCC autosomal
ACAGCACTTAGACATGACTGACTTAACCACTAGACTGAGCTATTAAATCT autosomal
CCCATCGCACCAAAGGATCCTTTCCAAGGTTCATAAATAATGAATTTGAA autosomal
CGGTGGTGCCAGGGTCAGCGCCTCGCCCGGGCCCATGGCCGTGCTGAGGA autosomal
ATCACCGGGTGGTTGTATTAAACTGTGCATAAAATTCTTCCGTTGGAATA autosomal
TGGAAATTATATCCTCCATCTGCAGATCAGTGATTCCATGGAAGATAACA autosomal
CACCAACCTCCAGCTCCAGGTGCTGCCACCGCCCCCAGGTGCCACCAACC autosomal
ACCACCACATGGAGCTGAACTGTTCACCTGGCTGCTCTGAATGCCACAAG autosomal
GGGAGGATACATCAAAAACTTCAGAGTTAAGCATCTGAGAGCTGCAGGTA autosomal
AAAATAATTTCTCTGTTTAGACTTTGTAATAAAGTTTTTTGTAATGTGCT autosomal
GCTCTGGTTCTCCCTAAATATTTTGTTGTATTCTTACAGGTCTGTCCAGA autosomal
AACGAAAACAAAAACATTTCACAGCATTTGCTGCTGATAAGAATTTGCTT autosomal
ACATAGTACTGACCCTATGTAGTGACATCAGCTGCTCTGGAGTTTTATAT autosomal
AATGTGTGAGTTCTCACAGGTACCAGGTGTCTGTAGAGCTCCCCAGACAG autosomal
TTGTATATGTCCTCCATAAAACTTTTGATTGGTTTAATGGCCATTGTAAA autosomal
AACAGGAAGAGAAGCACCTCCTCTCTCTTGAACCCCAGTCTTCACACTGG autosomal
TGGGGTGGAATTTGGGATTTTTTTGAGGGGAAATGGGGTTTTGGGGGGAA autosomal
CATTATTTGCCTTCTCCAGACATCTTCTGTTCTCTTCTGAGACTCACTTA autosomal
ACAATTCCACTTTGCTGTTCTACAGGATAAAAACAAAGTTTTCAGCCATC autosomal
CTCATTTCCATCAGTACTGCTCCAATGACTTGTGAATAAAATTGTGTATC autosomal
CCCTCTTCAGCTCTCTTTTAAATAGGCTCTGCAGATATTTTTATCTGACA autosomal
AAGTTTTTGGGATTTTCCCAACCCTTGGGTTGCTCCGTTCTTCCTCCTCC autosomal
CAGGCAGGGCAGGCTGGCACTCCGTGGGGCACAGCACCACAATCCCTGAG autosomal
AACTGCCACAACCCAGGTGGCAACAGGAGCAGCATGGACTGCCAGCAGCC autosomal
GGGCACTCGTGAAGTTCTGAGGTTTTGTTCCTCGGGGATTTATGTAGATA autosomal
CCCAGTGCCGGGACAAACCCCACAAACCACCAGGGGCAGGGGTCCCCAGA autosomal
GAAATTCCACATTCACCTGGCAAATCTGAAATTCCAAATTCACCTGGCAA autosomal
CTCCCAGGTTCCCTTCAAACTTTTTGCTTGCTTTTTTGAGCCTGGCAGAC autosomal
CAGAGCCCACATGTTCGTAAATCTCAACCAAAAGACCACTGAGGAAATAA autosomal
AGTATACCCATCACCCCCAGCCATAGGAGATTGGAACAGCTGCAGTTTTC autosomal
ACTGACCTCTTAAGAAAGGGGGTGTGTGAGGCAGATAGAGAATAAGGACC autosomal
CTCTGACTGCCAAAAGCTGATTGAGACTTGCTGGCTGGACGAAACCATAA autosomal
AAGCTGCTCAAAGAAATAGGTAGGAATTTAGTTGGGTGGTGATTTCTGCC autosomal
AAATGGATAATCAGGCAGTTTTAATTACAGCATCTTGATTGAATGATAAG autosomal
GGGTTTCAACACAGATAGCATCTTGAGATGTTAATTAAGTCCACTTGGAA autosomal
GAGGGTTTTGGGTATGACCTGAGGCAGAGGGTGTCCTACTGAAGCTTTTA autosomal
CTGCCGGGCACGGCCGACAGGTGAAGCTCATCGTTGGACTCGTGCGAAAA autosomal
TATGAGCACACACACAAGGTATCAAACACCAACACATGCAGGAATAGTGA autosomal
AAAAACACCATTTTTAAAAGTCTGAAAGGCACATAACTGGACCATAAAAC autosomal
CTTTAAGAGTGACATTCAAGATGAATATGGAAAGCAAATTATGAACAACA autosomal
AAATGAAAGAATTGCATGATTTTTGATGACCAGTACACCCGTGAATCTAC autosomal
CTTGGAGTAATTGGCACAGATGTTACTTTTATGTGTGGAGGAGATTTTAA autosomal
ACGTGTACAAGTTGGTCAAGGACTAGGGGCCCTTGGGGACAGGCAGGGGC autosomal
AATTTCAGGGAAGGATTTGGGACAGGATCCCAGGGGATCAGACCCCGGGG autosomal
AAAACTTCAGTGGTCAAAAATACCCAGGTGCTATGGAGTAACTAAATGTT autosomal
TTAATGGCTTTAAGGTGTTTCATGGAGGCTGAGTGATCTGAAAAAAAGAA autosomal
ACAAGATGTATAATTTCTAAAGTGTTTTATTGCTCCATTCTTGCAAGTTG autosomal
CTCCTCCTTGGCTGGTGTGGCGTTCAGAAACAATAAAATCGGTGCTCCCC autosomal
CTCCTCGCCTCATCCCAGACCCTTTCCCATCTCTCCTTGCCTCATTCCAG autosomal
AATCCTGGTGCAAATGCAGCTAAGATTTCTCCTGTGAAGCACCACTGGGC autosomal
CTGCTTCTTGGTGTTGTCTCCATCAGCTTTACTGCAGCCTCTCCTCTCCC autosomal
CAGCTGCGCCAGCACCGAGGTGGCCACGGCCTCGGCGGCCGAACGCGCGG autosomal
CGGGGGGGGTTGGGGACAACACGGGGACAGAGGGGACACCCCGGCGGGGC autosomal
GCCCCTCTGGAGCTGGAACATCCAGCCCAACTGGGAATCCCGCTCCCAAA autosomal
GCTGGTACTGCTGCGACTCGGGTCCTTCATGGCTGCCACTCCAATCCCAA autosomal
CATGGCCGTGGGGCCCTCGCAAATCTCCTCCAGCCTCTGCTCGATCATCA autosomal
ATCCTGAGTCAACAATGTAGAATAAAAAGTCAATTCAGGAAGCTTCACTC autosomal
AGGATAGCTTGCAGTTCACTGAGCAGCAGACAGGTCAGGACATTTGGCAG autosomal
TACCTTCTCTCCTGTTTTCAACTACTTGCTGTAGCTTTAATAGCAGCAAA autosomal
TCCTGTCCTGTTCTGAAGCAGCATCAGATGAACCCAGTGAGGGTTTCAGA autosomal
CTCGCTCCAGCCGGTCCGACCGGTACCGGCCGCGGGGCCGCGCCCGCTGC autosomal
CCCGCGGCTCCTCAGCGGGGCACAGCCCCGCCCCACCGTGTGCCCTGGCC autosomal
CCCAGATCAACCCAAGTTCGCCCCCAGATGGACCCGAGATCCCTCTGGGA autosomal
CACAGAGACGGGGGGCGGGCACCCCGGGGTGGGGGGGGCCGCACGCAAGC autosomal
ACATTGACCTTGGTGTGCTGGGGCTGCTGGTGTCCAGCGAGGGAGATGGC autosomal
CAGTCCCTACAAAGATGTGTTTCCCAGTTCCACTGTGCCAATGCCCTGAG autosomal
CAAACAAACAAACAAAAAAAAAAAAACCAAAAAAAAAGCAAATGCATCCA autosomal
AAAAAAGGCAAAATTCAGGTTTGTTTGCTCAGTCCAATTAAGAAATGGCC autosomal
CCATGGTGTGCAGGAAAGCCCAGGTGCTGCGGCCCAGCTGCTCGCTGTCC autosomal
CACAAGATAGCATGCCATGACACCCAGGCATTTCTAAAAACCCGGTTTTA autosomal
GGGTTCTGTAGCAGCAAGCAATAATGAACAGAGGAGGGAAGCAGCCAGAC autosomal
AGGAGGAATAGAGGGGAAAAGGAGGAAAAAGGATGAAAAAACAGAAAAGG autosomal
CGCTCCGCGCATCGTCCCGGTATTGCAGTGCCTCCAGGAACGGTGCACCC autosomal
TAATATGGAAATGTCACTCTGCTGATTTAATAAAAATATTCCGCAATCCA autosomal
CAAGGACTGCTACATCGTGCGGCGGCGCGGGCGGCTCTACGTGTGCTGCA autosomal
TATATATATATATATAATGAAACAAAGGGACTGTGATTTATTAAAATATA autosomal
ATTTGGATTTGATGGCTTAAAGTTTGATGACTTCATTGCCTCTCCCTCAC autosomal
AAAGAGGGCAGGGGGGAATTTATTTTTTTTTCCTTTCCTTTTTTTTTGTT autosomal
GTGCTGACAGCTGGGTATGGCATAGCTGTGACAGATTCTCTTTATCCACA autosomal
CATATTAATACATTCAATTAATCTCCTGTGTCAGTATATTTCAGTTACTA autosomal
CCCCAAACCCGGGGTCGCCCCCCACCCGCGGGGTTGCCCACAGCGCACCC autosomal
ATGAAGAAGAGTTGCTTCCATTAGAAATTAAAGTTGAGTTTTCAGTTTCA autosomal
AGCAGATAAAGATTTTATTTTTATTTAGCAATCAGTACAAGTGCTTTGTA autosomal
AAGGTGTGCCCCGACTACAACGCCCACAGCCGCCGGCCCTACTTCCCCTC autosomal
AATATATCAAGGTGGCATTTGAGCTGAGAGTTATCATTTTTTAAATACAT autosomal
GCATTTTCTGATGGGTCATCTGCAAACTCTCAATTTAAAAAAATTAGCAA autosomal
TAACTGAAAGACCAAGTTAATGACACAGAAAGAGAACCCAAGTAAATTCA autosomal
AAAATGTGACTGTTGGCAGTGCACATGCTTTTCTGGGATGATGCTACACT autosomal
ATCAGAATGAACGTGATGAGAGGCTTCTCTGTTGCAGGGTCTTTGGAAAT autosomal
CTCTGGGAAGTCCTCTCTTCCTTCTAAATCTGAAGTGAGAAGTCATTATC autosomal
AGATAATACCCTTCAACATCTCCATCACTGGCAGTGATGCTAACAGATTG autosomal
AAAAAAAAAAAAGAAAAAAAAAAAAAAGGGTTTAAATAACTTGTTGTTGT autosomal
ACATCTGAAGAGGTGAAGGAAGTGTTGTAGAGTGAACTTCAATGCCTTCA autosomal
ATGCTTCAAAGGCTACAAGCAATGAATTTATTTGGAAAGATTTATTTTAA autosomal
CCAGTTTTAAGCCTCCCAGATTTAAAAAGGCCCTTCCATTTATTTGTTAA autosomal
CAGCCACAGGTGGAGGATGGCATCTTCTGAAATCCATTCCAGCTGCATAA autosomal
CTCCCTGTCAGCGTTCTTGGTTTTCAAAGGGGAAGAGGACACAGGAAGGA autosomal
CCCCCGGACCCTCCCAGTTCATCCCAGTTTGTCCCAGTCCCTCCCAGTCC autosomal
AACAATACAGCTATCCTGCTTTGCTCTTGTCAGCTTGCAAAGAGAATATT autosomal
CTCATGTAAAGCTTAGGAATTGATGGCATTCCCTGGGTGGTGAGTAAAAG autosomal
AAGCACAATGTTACATTCCATCCTTTCCAAAAAGAACCAAACTTTGACAA autosomal
GGTACAAAGTCCCTGACACATAAGTGACAGGCCTCAGGTGGCAGGAAGGA autosomal
AAAATTTTTCAGTTAAAAGTAATATTTTACAGTCAGGACGAAATTTTAGA autosomal
CAGCAGCAGCTGTAGGGAACCACTGTCAGAGAGAGGATGGTGAGGGCCAG autosomal
ATTTTTTTACCAAGTGGAAAATGTTGAGTTATCACCAAAAAAAAAAAAAA autosomal
CGTCCCCAAAGGGGCTCCGGCCGCAGAACACGAGCTTCAGCATGCAGGAG autosomal
AAACCCCAAGTCCTCACCCACTGCTTCCGCTCCCTCGTCCAAGATGCCTC autosomal
CAAGAAGGTACAGTTGAAATCCAGCATTGGAATCAAGTGAATTTTGTGAA autosomal
AATAAATGTCCAGAACTTGTTGTGCTGTGTCTGGCAGCAGGAGATTCCTC autosomal
CGTCCTGCATGTGGGATGGGGAGGGGATGGTGTCTGGCCCCACTCCGCAG autosomal
ATCCCCTTTATAAATGTCAGAGAGACCCATGTCCAAACACAGTTGACTGC autosomal
ACAGAAATAAATTGATATATTCCGTGTACAAAACATGCTCCTGCAGGCCC autosomal
GCCCCCCCCCTGCAATTCCCCCGGTTGCTCCCAAACTTCCAAATCTGTCA autosomal
GTTTACACAAATCTTTATGCGGGAGGAAGGAGGACAGATGCAGCTGAAAC autosomal
GCAATTTATTTTTCCTTGATCTCCACATGCTTTATGCACAGTCATGTTTA autosomal
AGACTAGAGACGAGCTAAGGCATTTCTCTAGCAATCACCATAATTCTTTG autosomal
GAGCGATGGATTTTGAATAAACCAGAGTTTTACTCTCATTTTTTTTCCCA autosomal
AGCTGCACCGACCACCCCGAGCTCACCCAGCCTCCTGTTCTACAAGGACA autosomal
GCAAATACTTGTTTGGCTTTGGGGCGTTGGTTCAGACAGAGTTCACTCCA autosomal
AAGTTTTATGGCAAAATTGACATTAATTTATAGCAATTTTATGAATCCAT autosomal
AAGGGAGTTTTTCTTTCCTTCGGGCCAGCATTAGGATAACTAAACTTGTG autosomal
AGCACCCAGGAGAGAGAAAAAAGCCAGTCCTGAACACACAAAATCCCTTC autosomal
AGCTGTCGAAGTCCAGGGCCAGGTCGGGCTCGGCGTAGCGGGTGATGAGC autosomal
ACTCTCCCAAAAACTCAGGGCAGCCATTAAAAGCTGCAGACCTGAGATCA autosomal
AACAGGAAAGCTGCCTGTGAAAAGAACAAATGTGTGCTTTGCTTGCTTTA autosomal
AATTTCATTCTGAAGGACCAGCTCAGTCAGATTGCCATCCCTGTCATCAC autosomal
CTTGGCCATCAGGGCTGAGCATCCTCAAGCCCTGGTGCTGTCAGCAGATC autosomal
CCTGCTGGCCTGAAGGAAGCCTCTTCCCATGCTGTGCCATTCCCAGCTGC autosomal
CTCACTCTAAGGTTCCACTAGCAAAAAGACCAAGCTAGGCTTTGAATGGA autosomal
AGTACTGTATCAGATGGACCTTGGAGGGCACAAGACACTTCCTTCCCACA autosomal
GCAACTATACAGGCAAACAGTGGCTCAAGAATATTAGCATATTCATGTGA autosomal
AACCACTTTTGATGATGATATCAGCACAGCATGCCTAGGGCATTTATTTC autosomal
CTCCGTTCCCTTCCCTGGACACGCTCCAGCCCCTCCAGGTCTCTCCTGGC autosomal
ATGAGTGGAGGTGGAGGGTACCTCCTGTCTGGCATCACTGTTGTGTTGGA autosomal
CCTCCAGGGTGTCCTTTTTGTCTGATACAGGGCAAAAATTATTCGGGTAC autosomal
CTCTGGGTTAGCAAGGGTCAGCCCATGGCCAAGTTCCCCAGGGATTGGAA autosomal
ATCCCACAGAGTTTCCCCATGGCCAGGCCCACGTCGCCCTAAAAACCCCA autosomal
CGGTCTGAGCGTTACTTAGAAAAAAACCTTCCTGCCACCCCCACCCCCCA autosomal
GCACGTGGGGAAATGCAGGACTCGGTTCTCCTGGGAACACAATTCCCAGC autosomal
ACTGCACACAGGCTCTTCTCCAGGGGCTCTCCCTCTACTCTGCAAAAGCT autosomal
AGGAAGAAGAGGAGGAGGAGGAGGAGGAGGACGAGACCCCCAGCGCCGCG autosomal
CAACCCTTGCATACACTCCAGCAGTCCAAAGCCTGCAAGAGACCTTCTTC autosomal
GGTCAGATTGTGAGAGGTTTTTTTTTTTGTTTGCACAGATATCCACAGCA autosomal
AAAGGAGAACTTCCCTAAGCACTTGGTTATGGATATTAAAAATACACATC autosomal
CCCCAAAATACAAAATCACCCCAAAAACCCCAAATCCCCCCAAAATCCCC autosomal
ATTTTCATTTGTTTTTTGACCTGGAAGGTATGGAGTCACAAATAAACAAA autosomal
ACGAGCTCCAGTGGTTTTCTTATGAGAGAAAGTTTTTGTGCATTATGAAA autosomal
GTGGGCGCCGTGTTCGACATCTCCAACGCCGACCGCTTGGGCTTCTCGGA autosomal
ACCGCAACCACCCAGGAACTCTGAGGGATGGGAAACGGGAAAGACCTGCT autosomal
CCAAAGATCAGGTAATTAAAGAGAAAAACTCCCCAAAATTAAAGCCTGCC autosomal
GAGATAACATGGTGCACCAGTGTTGAATCTGACAGTGACAAAATCTGTCA autosomal
CATTTTACCCTCCCCAGGTGTGCCCAGGTGTGCCCAGGTGTGCCCCACCC autosomal
CGGTTCCTCCCCGGGTGACCCCGGCCGGTCCCTCCAGCCGGGCCCGCTCC autosomal
TTAATATTGCCAGGGAGCTTTTCAGTTGTTAAAAAATGCAGAAAATAAAA autosomal
CATCTAATCAGCAAAAGATAGCACTAGGCACAGTTTAGACAAAAACCTCA autosomal
GAGAGCACACAGCAGCCATGTTCCCACCCCAGTTGATTTTTTATGGTTCC autosomal
CATGCATACAGGTACATGTATTTTTTAGTTATATGTATAGATACAGTCTC autosomal
CCAGCCCATGCTCAGGGCAGGCACCGCGCTGAGGCAGCTCTGGGAAGGAC autosomal
CCAGACCCCCGTGTGGGGCCAGACCCCCGTGCACCCCTGGAGCCTCGAGC autosomal
CAATGACGGCCACCGAGTCGGAGGGGTTGACAAAGAAGCCGTGCTTGCCC autosomal
CAAGGATGAAAGCAATAATCTGATTCCTTACATACTTTAGTGATACGCAA autosomal
ATATAAAGATTTGTCAGCTTACAAAGGCTCTGGGCTGATTTTATTTCAGC autosomal
ATTGAGCCGTCTGCTGTGCTGGTGACCCTGCCCGGGCCCATCCTCAGCTC autosomal
AGGGAGAGGTGAGTGGCAAAGGCAATTCTAACATGAACTGTGACCTGGAA autosomal
GCGGCTCCAGCAGCTCCCGCACCCGCTGCTCCAGGCAGCAGCGCCCGCCC autosomal
ATTGTGGTGGGTAGGGTGTTATACTTGTATTTATCAGATTTATAAACCTG autosomal
CGTGGATAAAAGAGCCCACCAGAAATTGCAGAGCGGTTCAGGGGTGTAGA autosomal
ATCCCCAGTCACTCAGCTGGGAGGGGAATAAACAGCTATATCAGCGTGTG autosomal
GCGCTCCTTCCTGAACAGCAGTTTACATTCATTTTTGTCATAAAAAATGA autosomal
CACAGCGGGGCTGTTTGGGGGACAGGCAGCTCGTTCCCCTGGCTGGAGGG autosomal
GCTGGCTTCCTCTTCATCTCTGCACTCCTGCAGCTGCTTCATCTTCTCCA autosomal
TATGGAGTCTGTAAATGTTCATGCGCAGTGAATATCAGAAAACCAAACAA autosomal
GGCCTCTATATTCTCTTACCATTTTCTGCCTCTTAATTTTTCACAGCTCA autosomal
CAGTGTGGCATGGCAGGACGGGCACGGCAGGACGGGCATGGCAGGACGGG autosomal
AAAAGCAGCTGTGCAGGTGTTGGATGACATTGAGAAGTGCCTGGAGAAGA autosomal
AAAAGATTCACCTACAAATTCAACTTCAACAAACTGGTGATGCCCAATTA autosomal
GGCATTCCTTTGATTCTATTTTTCATTCTGCTGGTGGAGTTCACTTGGCC autosomal
GATTTCTGGGGTGCCTCACAGCAGGGTCCGGCCTCGCTGCGTTGGCAAAA autosomal
ACAGAGAAGAAATCAGTTATACCTCTGCCTCATCCTGTGAGACCAGAAGA autosomal
ATATTTTTGCAGTTTTACCTCAGTGAGACTTAGTTTAGTTTTGCTTAAAT autosomal
TCTTGTTTCTTTTGCACCAGCAATTTACAAATTAAAAAAAACCCCCAAAA autosomal
GTTGTGCAAGCTCTGCTGCTTCTGGCAAAATGTGCAAAGCTGATCCATGA autosomal
TCACTCTGCTGGGGGCTTGGTTGGAATTTGACTCCTTCAAATAGACAAAA autosomal
ACTAGTTTAGTATATTCTTCATAATTACAATCATTATTGTACCTTAAAAA autosomal
CGGGCCCGAAGTTCTTGGCGGCGCGGCGCTCGAAGGCGGCCACCATCTGC autosomal
CAACTGCACCTATCACTCTGGTTTTGTGAGACTGTGGTAAAACCTGAATA autosomal
ACCCACGGGGTGAACTGGTCAAATCCAGTGCCAAACAGCAGCAAGGCCAC autosomal
AAGCTTGACAAACGGCGCGGTCCGGGCGCAGCCTCTGTGGCTCCTCAAGG autosomal
CCTGCTCAGGAAAAGCAAAACTGTTGTGCAAGACTGTCTGAAAACTCAGA autosomal
AACTGAACAGTTTCATTAGTTGGCACAACTTCACAAGAAATACTAAATGA autosomal
GAAGACAGGGATAAAAGAAGAGGCATCCCCAAAGAGAGGAACATCATCAA autosomal
GAGGGAAGCCGCCAGACCTCTCCCTCCACAGCTGGGCAGTGCGGCACAGA autosomal
CCTGTGGGAGATATTTTCCTCGTCTTCAGCCAGCACCAGAGAAAGTGGTA autosomal
ACATGGACCAGGTTCTTGTAGTCCAGGTTGCCAGACATGTCTGGAGGGAA autosomal
AAATCCCTGGGACCCCCCAAAAATCCCCAGGGACCCCCAAAAACGGGGGT autosomal
AGTGCAGCTTAAGCTCAGGGCCCTTTTGACCATAGGGAGCTTTTTGGAAA autosomal
AAAATCCAGTTTATCAAGGCTGCCAAGGAGGGGCAGAGCCAGGAGAAGGT autosomal
CTGCGGCCGCTGCCTGATCACCTTCCCGGACGCGGCGTTCGCGGCGCGCC autosomal
TGGTACAGGGATAAACTTTGCAGTTTATTTATACTGTGAAATGCAATGAA autosomal
AGATACATAAAACTTCCCACCCAACTCTAGAATACACACCACATTCCAGG autosomal
AGGTGACACAGGGGGCTTGAAGGAACCACCTGGGGAACTGGATCTGGGGA autosomal
GGACAGGCCGGAGCTGGAGGAGATCTCGCGCCACCATTGGGTGTGGGGCC autosomal
GCACGGTAGACTTTGAGACAGTTAGCTTCAAGTTTCTTTAAATTACAAAC autosomal
CCCTGAAATCCCCTCCCAGTCCCTCCCAGTGGCTCCCAGTGCCCCAGATC autosomal
CATATTGTTCCCAAACTGACTACACTCATGAGCCGTTGTAAGACTAATGC autosomal
ATATTAAGGCCCTGTGTTCTCATAGCACCTCCCCACCTGCTGCAGAGCAC autosomal
AATCCAGAGGCCAGGTGTAAGATGCAGATGAGGGTGAGGCTTAGAAAAAC autosomal
CACAACAGCCTGACTCAGTGCCACTGGCAAGAGCTGAGCTCTCGCAGTGC autosomal
ATACTAAAACCAAATAGATTAGAGTGTTTTTATGAGAATAAATTAGAGGC autosomal
AGATGAATCCAAGTCCAAATTTTCCTTGTTGTCCCAGCGGTGGCTTCCTG autosomal
TGTAACTTGAATAGAAAACAAAATATATTTACCAGCTACTTTCTTGTTAA autosomal
CTGTGCTGCGGGCGAGGCCACAACACCCGGACTGAGAAGCGCAAGGAGAA autosomal
CAAATCAGACCACATGTCCAAAGTCAATCAGACTGCACACACAGTTGTGG autosomal
CTTCAAGTGCTGCCTCTGCTGCTGCCGCTGCTGCTTCTGCAAGAAGGGCA autosomal
AAACCCAGCTACCTGCAGCAGGCTGGGAGGGCCAGGATGACACTGACTGC autosomal
CTGGACAGCCCCGTGCAGGCCCTGTCCCCCAGCACCCCCTCGGCCGCCGA autosomal
CAGCAATAGCAGCGTGTGAATGCTTGGCAGGGCAGTGAGAGTCACTAGAG autosomal
CCTCTGGGGGATGCTCGGAGCCCCCCCTGCACTGCCCCAGGATCCGTCAC autosomal
AATTTATTGGCAATCGTTAACGAGGGGAGGGGGCGGGGCCTGGGTGGGGG autosomal
TGACAAATACAAGGATGCAATCAATTTTTCTAAGCATCTCTAAATTTGCA autosomal
CAAAGGTTTGCATTTATTTTCTCAAATGGCTTGTCATTTTGCACAGTTTA autosomal
ACTGGGATAAACTGGGATGGACTGGGAGGGACTGGGAGGGACTGGGATGG autosomal
AGGGATCCCACCCGTCCTGGGAACCCCCAGCCCGTGCTGCTGTGCCTCCC autosomal
ATAGTTCTGGGTATGAATGATAGTAATTTCTGGTAATTCCAGGATGACAT autosomal
AATTGTACCACTGAAACACAGGCACTTGTAAAGCCGGTTGGGCTGAAAGG autosomal
AAAGGCACAGGTATGCAGGAGAGGTGCTGGGGCAGAGCAGAGGTCCTGCC autosomal
TCAGTAGATATATGTGCTGCTACGTGGACTGAATACCCCAAAGATGTGCA autosomal
ATGTTGCACAGGGAGGTCTCACAGCAGCTGGTGGCGACTCCAGCTATGCC autosomal
CTGCCGGGGGATCTGCTCAGCGGGGAGTCCATCTAGGAGACACAACGGAA autosomal
GTAGGTGGATTTTTTTTCCATGTTAAATTTATAGGTAATTTACATAACTA autosomal
AAACAAAACCAAAGGGTGAGGTGAGGGGCACCATGTAGACCTCAGCAAGG autosomal
GCAGTGAGCTGGGACTCTGTTCAAAAGTGTGTATTTCATGATAGGCTGCA autosomal
AACACAGGTAAATGTGTAAAAAAAAAAAAAAAGAAAAGAATGCCTCAGAA autosomal
CCCAGAATTAGAGCTGAAGCATGGAGAGGACACAGATGTCAGTGTCCCAG autosomal
ACTTTTATTCAATAAATGTACTTTTATGATGGGGCTATAGCTTTTTCTCC autosomal
ACCCACAGCCATGTCCAAGAAAGCCCAGTGAGAGTGGGGATGGCCGGTAG autosomal
CTCAGCAGGGAGTTTGTCCATACTGGAGATGTTTAGCTTCTACCTTAAGA autosomal
ACTTCAGATCTGGCCAGTCTTCGGTCTCAACATGGCTAGAGACAAATGCA autosomal
AGTTCCAAAGAGAGCTGCCTACAACTGGTTATAGGAAGGGGTACTTAATG autosomal
TGTCCAACCCCAAACTCCAGCCCAGGAGGATTTGGAGTGTCCAACCCCAA autosomal
ACAGGCAAACATCTTCTAATGAGTTAGATTTCAGTCAGTTTTGGCTAGTG autosomal
AAATATAACTGTTCTTAACAACTTCCTGAGGGAAACCAATGCAAAGTAAG autosomal
AAAAAAAGAAAAAACTGACTAAGCCTTTACCTTCTCCAAGGCTTTTTCTC autosomal
AAGAAGTGAGTATGAGAATATATGATACCAACATTGGTTTTACCTGTATA autosomal
ATGGTCGGCAGCTACAGGAACTGTTGTTTCATTGCTTTTGCTGGATTAAT autosomal
AGGTTTCCATGCCTTTCCTGCTTCCAGTGTGTGCTCTGAGGTGAAGCAAC autosomal
CCTCAGTTCATTGTAGGTGCTTGTAAATTACCTTCTATAAGAATAAACAC autosomal
AAAATTCTGCTGCTAAAAAAACTCAGTTGAGTTCTGCACGATTCTCAGAA autosomal
GGGGGTTCAATGAATAAACACATACAAACAAAACATTAAAACTTAGGGAA autosomal
CAGTTGGGACCGGTCATGGGCAAAATAAATATTTTTTGTCCACTGTTGCA autosomal
ACAAAAGATAGCCTCTCATCAGTTGCAGAACATAATACTAGAGTCTGAGA autosomal
GGAGTCGGAACATCCAGCTGTGCTCTTGCTGCTTCTCACAACACACTGTA autosomal
ACAGCCAAGGAAGCCGAGCGGAGGGACCAGCGCAGCAGCGGCTCTCCTGG autosomal
ACAGCACAGGGAGAAAAAATGAAAAGAGATCACTCTGGCCAGCAGGGCTC autosomal
AAACCCTGTGCTGGAGTAACAGCAAGTCAAGGGTGACCTGAGTGTACCTA autosomal
AGTTGAATCAAGCAGAGCTCAACCACAGTTTTTGTTCTGTCCTGAGAAGG autosomal
AAGTCTTTCCTTACAGCTCCTAAATACCTGATAGGATGACATGGCTGGAT autosomal
ACAACTTGGATGCATGAGTTTCCTGGGTACCAAAACTGCTTTTGCTTTGC autosomal
GGGATGCACCTGAGTACAGCTGAGTAACCAAGTCATACCACATGAGTTAC autosomal
AGGATTCAATGAACTGGAAGACTATGGAGAGGGACCCCGATACCCTGAAC autosomal
ATGCAGGGGATGGAGACAGACCATCTACAGAAGGAGTAAAATAAATGATA autosomal
GGGCACGGGAAGCGCCCGAGGCCAGGCCCTCGGCGGTGCCAGGGAGGCCC autosomal
GGCTGTGGATGGGCCATAGGAGCAGAAGAGGAGTGGGGCAGATGGAGACA autosomal
GCAAGAGACATCCCGGAAGCTCTTCCACCCATCAAAGGTGATGCGGACCA autosomal
AGCTATTAATCTCATAAATACAATTCTGTAGCTGTGATATACACTTTGGG autosomal
TCAGATTTTGAGAAACTGCACAGGAATCTGCTGGAAGAATTTAGCGAAGA autosomal
ACTAAGAGGTGGCTGGAAGCCTTTAAAAGACATCACTTTCACCTTGAGTG autosomal
ATTCACACATGTACCCTGTGTAAATGGAGTGTTGAATTCAATACTTGTAG autosomal
GGCTGAGGTGGAGGTGATGAAACCCAAGGTAGCCAAACCGAAAGCGGCTA autosomal
GACCCAAGGCGCTCTCTAAGATCCTGCAGAAGACATGCCACTCATACTCA autosomal
CAGAAGAAATGATGAAATATACAGATCATAGTTCAGTTCAGAAAGGAGGC autosomal
ACATTATCTGAACATGCCCCATGGACAACATGGGAAAAAATACCTTTACA autosomal
TAAGAGTGTATTTTCATATGTTTTGCATTAAGGAACAATTGTGAAAGCAA autosomal
ACCAGAAATGGCTTTCCCTTTGTACATTTCTTCCTGAAGGCATTGATGTC autosomal
CATGAATTGCAGACTGTTGAAGATGGGATACCAATAAATTCCTTTTATCC autosomal
AAGTGCCTTGCCCTTAACAGAAATTATGGCAAGCAATTAAAGTTAGAGCA autosomal
ACACATCCGAGTGCGCCTAAGCCACCCTGCCGGCCCTTTGCTGGCTCCCT autosomal
AGCACACGAGGAGGGCTACCTGGCGCCCCTGGGAGGGCAGGATGCACCTG autosomal
ATCTGGTTGAGCCTAGACTTTTGAAAACATTTCTTTTAATTTAAAGTAGA autosomal
AGGGCCGGCTCGACGACTTCTTCAAGGTCACCGGATCCATCACCTCGGCC autosomal
AGAGGTTTTCCCAACCCCTGCCAGCAGGCTGATCCCAAGGAATGTGAGCA autosomal
AATGTTTTGGGTTTTTGTTTTGTGTGCAATGATCAATGGGGAGGGTCCCC autosomal
CCACAGCCTTTCAGACTATATTCCTGATTCTGCTTTATCAAATACATAGA autosomal
GCAGCCCATGGCCTCCCAGCTCAGTTGGTGAGGGTGATGAGAGCCTCCAC autosomal
CCAGTTCAAGTTTCCACCAGTACCAGAAGTTAGAGAGCTGATGTGATCAC autosomal
TCCTCCAGCGAGCTCCTGGGGCCGGGGGAGGCTGTAATTGGAAAGCTCCA autosomal
ATGTCTTGAATTGCCTTGATTACCTAACAAATTTGAAAGGTACAGAAATA autosomal
CCGCACTCACAGTTAAGCGTGTAATGCCTCAATGATAAGAATTACACGTA autosomal
TCAGGAAGTTCATTATGGACTGCAGTACTTGCACCTGGGGAGTGAGGAGA autosomal
ATTAAAAGCATTGGGTGTAGGAAGAACATTTCTTATTATCATTGTTTAGC autosomal
TAGTCAGCCACTGAACCTCGGCGCTGAGGGAAAAAGAGATGTGAGAGAAA autosomal
CCATAGAAAACAGAAGCAAAGTCTATTCAACCTTCAGTCCTGCTTTCCAA autosomal
AGCAGTTAAAGGGAGTCTCTAATTACCACCAGCCTCAGGTACTTTCTCAC autosomal
CAGACGTGTAAGGAGGAAACCCTAAAGGGGTGCAGAGGCAATAGTTATAG autosomal
ATGAGACAAATATCAGGTTTAAATATGAAAGGAAATGTAAAAAAAAATAA autosomal
CTCGGCCAGGCTGTAACACGCCTTGACCACCCCGATCCGCGCCGCGCCGC autosomal
ACTGTCCTATCACATTCCTAGTGACAAACCCACAGCTCTCATTAGAGCTC autosomal
CTTCATCGTCATCTTCCTCCTCCTCTTCCTCCTCGTCGTCGTCCTCTGAC autosomal
AATAATGTACTATTGTTCAGGAGGCAACAGACGTCTGGTCTGTTCAAAAA autosomal
CTTGCAGAGATGCACCTGTGGTTCCTCTGAGCCCATTGTCTCTGGCTGGC autosomal
AGAGGGGCAGCCCGGCCGGTGGTCCCAGCGCTGGCACAGCAGCTGCGGCG autosomal
ATGTTGTGTCCTGGTGAAATATTTGTGGTCAGGCTCTTCCATACTCCCCG autosomal
ATATTTGTTTGTGGGTATTCTGTTAATATTTTAATGCAAAATGTTTCTGA autosomal
AACCAAAGTTAAAAACCTCTAAGAACTATTGACAGACAAACATAAAATGG autosomal
AACCCTTCAAGGTCACGGGTGCCACCAAACCCTTTGGGGTCATGGGACCC autosomal
AGAACTCAGCCCAGTGTGATGTTTCACAGGGGTTGGTAACTCAGAAGTTG autosomal
CATATGTATTTATTTGAGCAGCTTTTACTGTGGATATTTCTGTACTCTTA autosomal
GCAGCAGCTGCTGCGGCCCCACGGCGTCGGCCTTGTTGAGCACCACGCGC autosomal
CTCGGTAGAGGTCATTTGCAGAAGTAAAAGGAGCATTCAGGAGAACGGTC autosomal
AAGGATTTTCTTTAAAGGAAGGTGTGAGAAATCCTGAAAAGGAACATTAC autosomal
AATCCCACCTCAATTTGCCTGTTCCCACCTCAAAAAAATTCAATCCCACA autosomal
GGCAAACGGTGAGGGAGCGACGCATACCGGGATTACCACCAAATTCCCAC autosomal
CCCATTCCCAAACCCTCACAGCCCAATGGGCAGCTGGAGCCTCATGCTGC autosomal
AGTAAAAATTCAGTGAGTCAGTGTGTGGACCTTCTTCCTTGTACACCCTG autosomal
GGAAGATCTTCTCCAGGGTATCACAGATCAGGACCAGGTGAACAAACTCC autosomal
ATGACATGGAAAAGAAGCTTCTCCCTGAAAGGCAGATAAGGGTAAATATC autosomal
AATGCAGGTGTGGACTTGCAGCACCTGGATTTAGGGAGGTGGAGTTGAAG autosomal
ACCATTTAATATTTCTACAAAAACATATACATGACAAAACCAGACACTAT autosomal
GGCTGCCCCACTGCCAGCAGCTGGGCCCCCATCCTCACTCAGGGCCCCCA autosomal
CCGGTGCCCCCCGGGCACGAGGTGCTGGCCCGGCGTCCCCCCCTGCGCTC autosomal
TGAATTATTTTTATTTCCTTCACATAGAAAACGTTTTCTTACATTTTCCA autosomal
CAAAATTATCCCCCAACCACCACCACCACCTTCCCGAGGAGCAGCACAGC autosomal
GCCGTGGGGACCCAGGGCTCCCTCCCCTATATACATATATAAATATAACC autosomal
AATAGCGTATGAGTGATCACTGCCATTCATTTAAAGCATTATCCTCACAG autosomal
AGGGGGAAGGGTCAAAAGAGAAAGCGCAAGAAAGGCCGGTACAAACCACT autosomal
AAATGCATCAGTCACAGCAGTTAACTGCAACAAAAACCTAGAAGAAGGTG autosomal
AACGGCGAGAAGGAAATCAAATCCAACACTCTGGATTTGCACGTGGATCC autosomal
AGCACCCTCGACTCACTCTGCACTGCCCCAGCCTCTCCTCCTCCCCGCCA autosomal
CTCCAAATCCTCGACGTTCTACAGGCACAGCCCGGCCAGGGAGCTGCACC autosomal
AAAAGGTTTCGGTAAATCTTCAGTCCATTTTTTGTGGGTCACTTGCAACT autosomal
CTTTGGGTACACCACAGATGCTGGCAGATCTTCAGGTGAATCCAGTCTAC autosomal
AGCCCTACCACATCCATCCCAGCATCAGTCAAGGCAGGGGGAGGACTCCA autosomal
AAACAGCTTATCTGATAATCCTGAGTATTTTCTGCTGCATTTATTGTGTG autosomal
AGAACCTAAAAAGTAATTAATATAGTAAATAAAACTGATTTCAGTAATTG autosomal
AAGTACAGTGCAGTAACAGGTACAAAAAAGAAAATTATCCCCATCCCAGC autosomal
CCCAGGCGGGGGGCCCCCCGCGCCCCCCGTACATGGCGGCCATGAACTCC autosomal
CTTCTTTCACCCTCCACTCACTCCCCATCCCATCCTCTTGTCCCACCCAC autosomal
ACAGAAAGGATTTTAAAGATCCATGTGCAATTAAATGAATTTGAACTCAG autosomal
CGGGGGGGCTCAGAGAACAGTGGGCACTTCCTGCGAGCTCCTCAGAGGTC autosomal
CCTGAGTCTTGCTCCTGTTGAAGTCAACACAGGTTCTGCTCTTGAGTTCA autosomal
AGCGTGGTCCCCAAACCCCTGCGGTGTCACAATGGATCCTTGGTTCCATG autosomal
CCCAACTTAATTAAATCTCTGCATAAATCTGTGCTTAGTTTATAATTAAA autosomal
CAGATATATTCTTATGTTGCTGGCCTCTGGTTGGAGATTGTACAAGGTTA autosomal
CAAAAACCCAAAAAAAATCCCAAAAATTCCCAAAAACTCCGAAAATCCCC autosomal
ATCCTGGGAAATCCCAGCCCCAGGAGATCCCGGGAGATCCTGATCCCAGG autosomal
CCAGAGACAGAATCATAAACATCAAATTTGGTTTCTTACAGAAATTTTCA autosomal
CTTTTTCCTTTTCTTGCAATTGCTTTGTGTGTTCAATGCTAGTTCTAATA autosomal
ACCCCTCCTTGACCCCCATGACCCCTCCCCATTTAACCCCACCCCTTTCC autosomal
AGTAATCTCAATAGTGAACATGGCTCATTTGTAAAAGAATACTTTTCCTC autosomal
ACCTTTCTGGTGCATGAAATACATACATAAAAAAACCAAAACAAGATCCA autosomal
CTCAAAGAAATGAAAACAAATATAATCTGGGTGAACAAACAAGTGGCCAA autosomal
GCATTGGCTGCCTTGGAAGAAATGAAATCACAGCAAAGAAAAGTTCAGCA autosomal
ACCCCCCTCCCACTGTCCCTCTCCCACTGCCTCTCCCCCACTTTGTACAA autosomal
GCAAGAGGGTTTGGGAAGCAGCTTCTCGGGATGATGCCTGCATCATACCA autosomal
CTGCTCTCCTGAAGGTCCACCACCCGATTCCTGCCTGGGCCACCAGGAGC autosomal
AAATGTGGCACAAACATCACAACTTCTATGCATGCCTTCATGTGTCTTCC autosomal
TAGAAAGTCTACAAAATACCAGAAAAATAGCAGATTATTTACACAAAAAA autosomal
CCTTAAGTTACATGTTTCAGACATAGTAAACTAGGTAATGCAGCAAGGTC autosomal
ACGTGCCTTCCTGCCCAGCAAAATGAGGAATGGCTCGGGCTGACAGCTCT autosomal
CCGGTGCGAGAATGTGGTTCCTTGTCTGCTGTGTGGTGTTCTTGGTGCCA autosomal
ATGGAGGTGCTGCCAGTCAGGAACCTTCCAGTGATGGCAGAGGAAAGCTG autosomal
GCAGCAGCCAAATAGAACATCACAAAGGTGAAGGACAGGGACGTGTGGCC autosomal
AGTGAATTTCCTCTCTAGCTAAAGCCAGTGTAATTGTATTTTGACTGCCC autosomal
CCTGCTCTTCAGCCCTTGGGCAGGGGACTCCTGGACCCCATGTCATCAGA autosomal
TAAAGAACAGAAATTGGCCTAAAGCATGACTTACCTGAATGATTACAGAA autosomal
AGGTGCAGAGGATGCTGCCCTGGGATGCTCCCCTGGGATGCTGCCCCACC autosomal
ATCTTTGTAGTGTAAGCACCTTCAGTTTTATGCTAAAACAATCAACATAA autosomal
AGCCAGAGTTCACTGCAGCAGGCGTCTGCAGAAGTGCCACCGAGCCCTTG autosomal
ACTCACCAGAGGAGATGTCCTCCAAGTTGAGCTTAATGGTGTCCGAGAGT autosomal
ATCCATGTCACTTGTGAATGGAGGCTGCCTCGCCTGCTGGGAATGTCCTA autosomal
GTGCTAAATTAAATTGTGGCTGTGAAGTTAGATCACATCAGAGGCAGCTA autosomal
AGTGTGGAGCAGCACAGCATCTGATTTAAAAACAAAACACCCCAAAAAAC autosomal
GCTGGCCACCCAGAAACCTGGTGGTGATGTGATGATGGTCTGGGTGTCCC autosomal
GAGAGGAGCTGATGGGCTCTGTTCAAATGGAAGCACAGGCTTTCTGCGAA autosomal
AGTGTAAAATAATATTTTTCTAAAGAATTGTATGTATTTCTGTGTTGATA autosomal
AGGTCATCAGATTGCTGCTGGCCTCACAGAGGAATAACAATTTTAAAAAA autosomal
ATTCTTCCTCCTTCTCCTCACACAGGTCTTGCTTCACCTCTTCCTCCCCA autosomal
AAGTCCAAATGGATTATCTTAATGCAAAAGTTACATTAATATATACATCC autosomal
CTGCTGCCCACTGCTGCCTGCCCGAGTTCCTCAAGTGTTTCTGCCGTTTA autosomal
GTTTGATTGAAAGACAAATACATCTTTTATTTCAGGGATTTCTAAAATAA autosomal
GCTTCGTTCTCCTGAAGCAGGTGTTCTAGCATTGCCTTTGTAAATTGGCC autosomal
CAAAGCAACAGGTATGGGAGACATTGACTGAAGCTTTTACCCTTCTCTTG autosomal
ACTAAATGTTATCTGGAGTGTGTGACACTTGTAAATCATCCTCTAGAGAT autosomal
CTTCAGGGATTAGGATGAGAATTAAACAATTTTCATTTGAAACCAAAAAA autosomal
CACTTCCTCAACTTCGCGCTGCTGCAGGAGGGGGAGGTTTACTCTGCCGA autosomal
AATAACCCAAACTAAGCTTTTGGACCACTGCACAAGGTCCCCTGGGAATA autosomal
AACCTGTGTCACCTAGCATCATCCCACCTGCACAAGTGACCACTCTGCTC autosomal
AACTTGTCTGCTTTCATTCAGTGCATGAGACTTTATCTGGTCCTAGGGAT autosomal
TCCATGAAGTCACAGCAAGAAGCTGAAGCTACCAGGGTTGTCCTGTGCCA autosomal
AAACGGCCCCGAGCGGGAAAAACCGCGGAACGGGGGAGGGGGGAGGGACT autosomal
AAGAAAACTTGAAGCTAAATTTGGGTGTGCTCTCTCTTTTGGAATACATT autosomal
GTGATGGAGAGAGCACACCCGTGGAACACGTGCGCTGCTTCCAGCCACCA autosomal
GATATGTATTACCTGGAGATTTTAGTTCCATTCACAAACCCACATGTTTA autosomal
CTCCACTTTTGGCGAAGGTATCCTGGACCATCTCCCTCTCCTCCTTAAGA autosomal
ACTTAAAAGCTAATCAATGAACTTGAATGAACAATTACTGGGTTTGTACT autosomal
GAGGATGTGCGTGCCAATGTGCCAGAAGAGCTGAGTGTCTGGATTGATCC autosomal
AAACTACATATTAATATATTACTCTTTGGAACAACATCTATTCTACAGGT autosomal
CACTCTGGTTCAAAAATCCAACAGAGGTTTTCCTGTTTCTCCTGGCCTGA autosomal
TCCTAAGTGGTACATCTCTCCTACTATACTTTTGCATTTGTCATCCTAAA autosomal
CTCCTGTGCCTCCTCTTCCTCTCCCAGGGCTGGAGCAGATGTGTGGGGGC autosomal
AGCATGACCTTCCTGCCACTCCTGGCCATGCTGCTCTGGAACCTGTATGG autosomal
AAACCTTCTGCATCTGGAGGATCCGGGTTTGCGGGACAGCCCCGGCTGTG autosomal
CTCAATCCCTGAATTCCCCATCCCTGAATTCCCCATCCCTGATTTCCACA autosomal
CTGTCTGGATTTGCTCTGCGTTGCTGTCAGCACCATGTGTCCCCAGGCCC autosomal
ACATTTTATTTATCAGAGCTGTACAAGTATCCAAAGGTAACATATAAAAC autosomal
ACAGAGTCCCAAGAGAAGCTGATCTGGACAGAAAACAGAACAATGAAACC autosomal
AATGGGAAAGAATAATTAAAAAAACCATGGGGAAATATCGAGGGATGTGG autosomal
AAGAAAAGTTCGGTGAAAGATGAGATGAGGCTGTAATAGGATTTCTCATC autosomal
ATTCATGACTATAAATGTCAACTAAGGTTCCTCATGGTAACCCTGCCAAC autosomal
GCAATGGAATATATCAGGAATAAATACATTTTCTTTTCTAAAAGTTCTCC autosomal
AGTCCAGGATCAGGACTGGGCCCAGTCCACCCCTCCAGCCCAGGACTGGG autosomal
AAAAAGTAATGAACTGCAAAGTACTGTTATCAACAAAACAGTATAAATGG autosomal
AGCATTGTCCTTGAGGTCTCAACCACGAGGGAGAGCTGGCCAAGCACTTC autosomal
AAAGCTTTCCTGCAGGATGTAACTGAGGCCAATAGCTTGGAAAAAGCTGT autosomal
AGAGAAGAAAGGCATCAAACAAAGCTTCAAGCTCAATTTACATATCTCCT autosomal
AAAGAGTTACCATCAAACAGTCACCACCCCAAGGTACATAATTCTCCACA autosomal
ACGTCCCTGATCAGCCACCATATCCTGGCTCCCACCTTCACCCTCCCTCC autosomal
GCAGCTGCAGAAGGAAAAGAGACTGTTCAACCAAGCAGAGAAGCTGAAGC autosomal
GGCTACGCCTCTCTTGATCCAGTGCTGCACTGGCTGCTCCGTGTTCAGCC autosomal
CTGCCCTTCCTGGGGAAGCCGAAGCTGCGGACACCGGGCTCCGCGGGGCC autosomal
ATCTCGGAAAGAACCTTCCAGAATGGAAGTATCCTCTTCAGAAGTCACTA autosomal
GAACTTGGCAGCACTGGCCACTGCCCACGCATGGCTGAGGCACCTGCAGC autosomal
TCCTGTGAATGCTGCATAAGCCTACCTTAATAGCATCCCGAGTCCAAACA autosomal
ACAGGAATGCCAGTGCAGGAATTCCCTCCATCACACTGGCATCCAGTGCT autosomal
ATTTACCCTAGTGAAACCCCTTTCATGTTCTCATAATCAATTGCTTGGTC autosomal
CACACCCACGGCTCCCGGTGTGACACCGTGGCCAGGCACACCCGCGGCTC autosomal
CAACATGAGGCTTAGGGCAGTTCCTAGTCATTGCTTCCAGAATGGGAATG autosomal
AATGAGGCTGTTGCTAGGTAACATGCATCATACAAATAAGATAACTTCAT autosomal
ACGGCGTGGGGGTCACCGAGCCCCGTTTGCCCTGAGATTCGGCGGGGGAG autosomal
TTAGACATGCACTGGTAGAAAACATCCTCTGTGCCACTAGAGATGTTAAA autosomal
CCAGTACCCAAAGGCCAGCTGAAGCAATACTTCTACGAGACCAAATGCAA autosomal
GCCAGCCTTAATCACTTCTTGAAGTCCCACCATGTCCCTTGCCACTGGAA autosomal
TGGAGTGGGGGGGGCACCGCTGTGGGTACCCCCAAATTTCCCCTCCCCCA autosomal
GACCCATGCCCCACCCAAACCCTCTCATAGTAAAAGGCCACCCCAAAACA autosomal
TGACCACACGGCGCGTAGAAACCGACGGTGACCGGAGTGGCCGTGTGGCA autosomal
ACTGATGTCCCTGTCGACGACAAGTCACTCACCCCTAGCAGGGAACCAAG autosomal
ACCCAGTCTGAGAAGGGAAAGGAGCAAACACACGTGCTGCCGTTTCCTCA autosomal
AATAATTAAATTTTTTGTTTGCTTCTGGAAAACAGTCACTTTTTTATTAT autosomal
AGCGCTGTCCCTGCCCTGCATCAGCACAGCCGTGGTCACCACGGGAAAGG autosomal
AGCTCAGACAGAGGATTTGTTGTGTAAGTAATGGGCAAGGAAGCTCTGCC autosomal
AGCACCGTCACGAAGGTGGCGTCGGGCGGCAGGAGCTGTCGCACCTCCTC autosomal
AGAATTCACTTGGATCAGAGCACACATTTCTATATAAAAGCCAGGCTCTA autosomal
TAAGATCCCACCAAGTATATAAAGGATAGATCCAGCCCAGCCTAAGTACA autosomal
TTGATTGCAGCCAGTATGTACTCTTCAGGAGACAGCTTGTGCATCAGCAA autosomal
CTGTGATGGCACTGATGCCATTCCTTCCTTTCCCCTGGAACTGCTGGAGA autosomal
CCTGGCTCCAGGGCCTCAGCCTGCTCCCAGCTGTTTAGTCCAGGAACACA autosomal
AAATAGTGAAAAACACCTTTATGACATTAGTGACCATTATTTGCTTATAT autosomal
ATGGCATCAAATCGCCCAATGTCCCCAAATGTCCCCAAAATGTCCCCAAA autosomal
CTGCAGCTGTTGGCCAGCGGGGTGGGGCCGCAGGGCTGGCAGGGCCGGCA autosomal
TCCATTTGACTTTTTTTTTCCCTCTAGATGGATAAACCAAATTCTGGCCA autosomal
GAGGGGGCCATGTGCCCAGAAGCACAGACCCTGCACATATCCCAGCTGAC autosomal
CCGAGCCCCGACAGACGAGGCCGTCTCCTCCATGCCCTGCGGAGCCGATC autosomal
ATCTCTGCCCCACTCCCACCCCATTCCCCTGGCACTAAAGCCTGAGCGGG autosomal
ATTATTAAAAATTGAATAGTTAAACCTAATAGAAATCCTGATCATAAATG autosomal
CCTCCAGCTGGCACACCTGTAAGCCCTGTCACACCTACTCCTGTCATACC autosomal
AATCCGGGAGCGCGGCTCGGAGCGTCCCGGGTCCCTCAGCTGCAGGGGAT autosomal
AACTGGCACAATGTGGCTGCTCTGCTCTAGAGCCTTCCCCTTATTTCTCT autosomal
AGCAGAGCCGCTCGGGCGGCCGGGCCAGGCAGGGCAGCCCGAGGGCGGCA autosomal
AATAAACTTGTTAAACTTGACTTCAAAACCAACAGCATGTCCTAACAGAA autosomal
AGCTGATATTATTTTAACTTTTCCCTCAGTCCTTAGTGCTGTTCTTAATG autosomal
GTGGACATGTCCAGTGTGATTCCAGGAGGGATTTTCTTGCTAATAGGTGA autosomal
GAGAAAAAATCAGATGTTTGTTGTAACTTGTCACCCTATCCTGTAAAAAC autosomal
CTCCCTTCTTTCTCCCTTTCCCCCTTCTTTCTCCCTTTCTCCATTCTTTC autosomal
ACCAAAGACCTTCATTGCGAGGCAGCCAGAGCAAGAGGTGAAGGAGGCTG autosomal
CCACACACCGAATTCTCACAGTACATTTATGGAGCGTAACAATCAACCAG autosomal
GAGGAAGCGGCAGCTGGACAAGGCGCGGGACGCGGCGGAGGCGGAGAAGC autosomal
GGAGGCTGGGGCCGCCCGGCTCCGCGCGTCCCTTGTCCCCCGCCACTCCA autosomal
ACTTCCTGGGAAGCAGGAAGTGATTGTTTGGGACAGTAAACACTATAAAA autosomal
AACTCACAAAGTTTTTTGGACTTAAGACACTTATGCACATTACTTTAACA autosomal
AAAAGATACAAACAAGTTATACAATAATGCCACAGATGGCAGAAACCAAA autosomal
GACATTCTCCCACCAGGAATTTGGATATTTCCCAGTAGCTGCTGCACTCA autosomal
GCCTTACTGAGAATTAATGCAAGAAGAGAACACATTCTCTGGAAGAAAAC autosomal
AAAAAGAGCCATGAAAACAGAATACTCCTCTCCAGACTGCACAAACTGGG autosomal
CATTGCAGTTTTTAAAGAGGAGTGGAAATGGCAATCAGGATGAAAAACCC autosomal
CAAGGTGGGTGTTCCCATCTCCTCTCCATCCCTCAGAGGGCTCCCACCAC autosomal
CACCCCTTCCAAGAGAGAGAATAGGAGACACATCAAAATGTGACCAGGAC autosomal
AAAAAAACCCAATCAGTTGAACTAAAAGTTTTATGAACTAAAAGTTGACT autosomal
GGGGCTGCCCATCGTGTGCGTGGGCTCGGTGTGGAACAGCTGGGAGCACC autosomal
AGCAGCGGAATGAGCTCTGCTGGCAACTCTCAGCTTTCCTGGGAAGAGGG autosomal
CAGTTTTATTGTCCTTTCTAGGAGCAACTGAGCAGTCACTGTTGTCTCCA autosomal
CCTCCATGCCGTCATTTCCAGTAGTGCCACATTTGTCAGAAACCAGAACA autosomal
CTCCCATACACACAGCTCCTGAGTGCTGCTGAGGGATGGGGAGGAGGAAG autosomal
CCAGAAGCTGCTGCCTGCAGCCTTGCTGGTTGCTGCCTTTTGGTGGGCCA autosomal
CCTCCAAGGGAGCCAGCAGAGGGGCTCTGCTGAGCCCAAAAGGAGATGCA autosomal
ATATTCTCTTTGGTGTTCAAAATTTTAAGTATTTACTGTGTGTCAGATCC autosomal
CCTGCATGACTTGTAGTACCAGAGCTAGCTTTGAACATACTGTGCTGATC autosomal
GTTTGCAAAGAGTAGAGAGATGGCCGTGGCTTGCCTTCTCCATCCATTGA autosomal
ACTGCACCTGTGACCTTTTCAGAACCAGGAGAGCTCTGGTGGCCAAAGGG autosomal
AATTTTTATCCAGAATGGCATCAAGCTTACCTTCATTTTCTTTTGTGTAT autosomal
GTTATGGGATACAGGCAAGTTTTAAAATAATAATTTTTAAAACACATTCA autosomal
CACTTTTTTTGGCAGTATCTTCATTATTAAATGTATCTATGAATAAATTA autosomal
AATGGGGCGTTAATGGGCCAATAACAGGGCAATTATGGGGCAATAATGGG autosomal
ATTTACATCTTATCTTACATGATAGCAGTTTCCAAAGAAAAAAAAATAAA autosomal
ACAAACCTTTGCACTGGATGTGTCGGTCTGTGGTGGGGTTGCTCATCCTG autosomal
ACAACTCAACCGTATCAAAAAAAAACCCCAAATTTATTTCCTACAAACAC autosomal
GATGCAGACCGAGCTGGAGCAGCGAGGCAGCGTTGGGGCGGAGAGGATGC autosomal
GGATCGACACCACCGTTGCTCAGGGCTAAAGCTGCTGCCAGCCTGATCCC autosomal
AACATCTTTAAAGTGTCCCAATGGACACCAATAGGAAACTTGTGCAGAAA autosomal
CTTTTCCCTGACTGGTATCCAAAATACCCAGCTTTCACTGCCCATTCTGA autosomal
ATCCCTGAGCTCCCAGCTGCAGCTGACTCAAAGAGTCCAAAAAGGACTGA autosomal
CATTTCTTTAGCAGGTGCTGTCACTTGTTCAGTCTTTGGAAAAGTTTTTA autosomal
CTGCGCCACCAGCAACGTGAGCGGCACCCCAAAAAATACCTGGGGGACCC autosomal
AGGGTTGGAGTTGGTGGCTGGTGACTTTCTCCAAGGTCTGAGAGAGAAAG autosomal
CTTCTTTACTAAAATCAACAGCAGGAGATTTAGCCCACCTTTCCCAGACC autosomal
AGCTGCATTGCTTGTTAAAAAGACAGGACATAAATCACTGCTAGTGATGG autosomal
AGCACAGAACTGAGAGAAGGTTTCTATTGCTATGAAGCAGTGCCTTTGGA autosomal
AGAGCGTAAGTAGTTGTATCTTAAAGATGAGAAAAAACACAAGTTCCGCA autosomal
ACCGGATTCCCCTTGTCAGCCCAGTGGGTGCTGCTTAAACAGGTCACCCT autosomal
GACACAGAGACATGAACTTTACTAAAGAGGGATCTCTCCTTTGGGGAGGA autosomal
ACCCCGACTGAGTGCCAGGGACGTTACAGTGTGTTCACTCTCAGTGCATA autosomal
CCCCCTGTGCCCTCCGTGCCCCCCGTGCCCCCCGTACTCCCCAGGACCCC autosomal
ATGAAATGGCGGATGAGGAGGAACAGCAGCCCCCCGAGGCCGGCAGCAGC autosomal
CCCATCCTCAGCTCCTTCCCACAGAACACTGTGGTGGGATCCTCCACCTC autosomal
AACAGCAGAAAGTTGGTCCCGAATCCTTCCCAGGCCTTCTAACATAGTGT autosomal
CCTCTTGCCCCTCCATTAATCTACTCTGGACATTCTTTCTGGTATTAATA autosomal
ATGCATAGCTGTGCAGCAGTACAGATGTTTTATTAATGAAAATGAATCCA autosomal
ATTCCGAAATAATTCCAAAATCCCAATGGGAACCCCAAATCCAACCCTAA autosomal
CCACAGCCCGCCCGTGCTGCTGCTCAAGGGCGTGGGCACCAAGTGCTGGG autosomal
AAAATCCACAAAAGAAATGAGAAATCCACCACCTACGAAATTCTGGAAAT autosomal
ACAGAACCATTTTGGAGCAGAATCTGGCACAACTTTATTTCAAGTTCAGT autosomal
AGTAGGTTACAGTGGAAGCCTGCACAAGGAGAGTAAGCCACTGAGATCTC autosomal
ATCCCCTCTCCCCCAGCCCAGCCCCACGGCTCCCTCTGCTCCCCTCCAGC autosomal
AGTGTGATTCCTCAGTTGTGTCTTTAGCTAACGTAAATGAAAATTCAACC autosomal
AATATTGAAAGTCCTTGGAAAGGTTGGGTCCACGCATGGGACCTTCAGCC autosomal
ACATTTTGGACATCTTCTGGAAAACAGTCATCCAGAGGATCCTCTTGACC autosomal
AAATCTGGTTTGCCACTGTTGCATAACAATGTAATTGAGCAGTAAATTCT autosomal
CAAGTGACAAAAAGGATGGAGAAGTGGCTAAAATACCAGACACAGCTGCA autosomal
GGGTTCCCTGCATGGATGGAGCAATCCAGAGGTACCTGGAGAGAGGAAGA autosomal
AACCCAAAAAACCTCAAATAAACCCCAAAAAACCCCAAAAGCGTCACCGG autosomal
GAGGGAAAGCAGCGGCCGGCGCGATGTCTTCGGTGCCGGCGGTGGCGTCC autosomal
CCTGGATCCCGAATCCCGGAGCCCGGAGATCCTTCCCAGGAGTTTTCCAG autosomal
AAGTTTTGCATCTTCCTTCCTGCTTTTGCAAGGAAATGTTCCAATTCTGC autosomal
TATTAGTGGCTACAATTTGGGGGGTGGGGGGGGAATTAAATAAGGAAAAA autosomal
ACCTCCTGGGAACACATCCACTTAAACAACCTGGGTACTTAGTCAAAGAA autosomal
ATGGATGGATGGGTGATGGATGATGGATGGATGGATGGATGGATGATGGA autosomal
CAGCTGACACCCCTGCGCCCCAAAGCACCCCCAGGACCACGATGCACCCC autosomal
AATTCAGGTCAGCTGTTGCCCCTTGTTACCCTAACAGGGTTTTAAAAATT autosomal
ATCCCAGGGGGAGCAAAACTCACTGTGAAAATCCAAAATTCACCCTGGGA autosomal
CAGGGAAGACCTCGCCTGTTGCTGTCTGCCACCAAAAGACACAGCCATGG autosomal
TCATGGCCTCTTCATATCTAATCTATTCCTAATTCTGCACTTCTCCACAA autosomal
AGGTAAGGACAAGCAACCATTTCAGTGTGAACAAAGGCAGGTATCTGTCC autosomal
CCCTTTATTGTCCCTGTCGCCTCCCACTCCGATGACGCCCGACGCCTCAC autosomal
AGATTATTTTTTCTTGTTCTTCCACCACACTCAACAGAGCTGTACCAGGG autosomal
TCGCCCGTGGTGGTCACCCTGCCCGGGCCCATCCTCAGCTCCTTCCCCCA autosomal
AATAATTCAGTCAGTGTAAAATAAGCCCCACTTGTCCAGAAGCTTTAATT autosomal
ATGTAGAAGGGGAGCCAGCAGAAGATGAAGACGGCGACCACGATGGACAC autosomal
CTAACAAATTGAAATTAAGATTTGAGCTTTCTTTCTGCAGTTTGGTTTAA autosomal
CACCCCAAATCCCATCACCCACAGCACCCTAAATCCCACAGCAGCCCAAA autosomal
AGGGGCGTGGGGAGGGGGTTTGGGGGGTTTGGGGGGTCCCGGGGGGCGTG autosomal
TTTGACACCATTCCAAAAAAAAAACCCAAAAAATCCCTCCACTTTCCAAA autosomal
CCATGACATGAAAAACAAGCTTAAATTAAGAAATATTGGGTTATACTGAA autosomal
CAGTAGATGCAGCTCTGGAAATGCACAGGGTGTAGGTGTGCTGATAGGAA autosomal
AGCCGGAGCTGGAGCGCAAGCAGGCAACTCTTAACAGCTGTTGGAGGAAG autosomal
CAAAAGGCTCGCAGACTCACTATTCTCCTCTTGCTGGTCTTCTATGTGTG autosomal
CTCTTTACCAGTTACGCACTTCTTCAGAAATTATAAAAAAAAAAAAAAAA autosomal
ATAAAAACAAAATCAAGTGCATCTTGTTTACAGTTGTTTCTGGTAAGCAA autosomal
GCTCCAGCTCTAACGTGGTGACTCTTGATTCTTTCGAAAGGGTGAAGCAA autosomal
GGGAGGGGGGAAAAAAAAAGCATGGTACCCAACCAATTCTCCACATTTCA autosomal
ATAGAGACTTGATGGAAGGCTTTAGGGACAGGGCTGCGGTGTAAATCAGA autosomal
CATACGTATGTCCTTTCAGTGTGGATATTTTGCATTATGCCTTGCTGCAG autosomal
TTCCCATTTCTCCACATTTAAAATGGTTGTACAATGCTCACTGGAATCAA autosomal
CAACATGTTTGAGATTGCAGACAGATTAATTGGGATTTATAAAATCAAGA autosomal
AAATGAAAGCTTCTTTACTGACTGTCTTAGAAGATGGCGCCTGTATGCAC autosomal
CATAATTATTGATGTGCGCAGCAGAGCGAGATAAGATTCTGACACAAGCC autosomal
CCTCCCACAAGAGCTACCCAATAAAAAGACTTTAGTCCCTGCACTTTGAG autosomal
GAAGGAGAGGAAGCCTTCTGCTGTGGATTCCCACACGGCCACGGGGAGGA autosomal
AGCTGCCCTGTATGTACAGGTATTTACATATGTACACGTATGTGCTCAGG autosomal
GGCTGGCAAACAGCTGGATATTCACCAGCATTTCCACAGCTGGATATTCA autosomal
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTAAAAACATCTATTAGAA autosomal
TAAATGTCTTTCAAATTCATTCAAACTGATGTTTTATTTAAATGTTACTA autosomal
AGAAATTAGGATAAAAAAGCTCTGCAGTCTTTAGGAATTTTTTTTATATA autosomal
AGACTCAGAGCGCTCCTCGGGGCGTCTTGAAGTTCATTCCCACTGTAGGC autosomal
AGCGAGGGGCTGCCAGGCTGCCCATGGTCCCCAAGAAAACACACAGCATC autosomal
CTGAACACTTAAATAGGAGGGTGGTTTGGACATGTTTAAATACACATTTA autosomal
AAACCCTTTTGGGGTTTTGTTTTGTGGGGGGGACCCAAATCCCCAAATAT autosomal
CCCAGCCGGGTGTTTGGTCCTGGGAAGCACTACACACTCTGGGAAGAGTC autosomal
GCATTGAAGGCACTGAACTTGCTCTGTTTCAAACATTCCTCACACATCCA autosomal
CGAGGCCAGGCTGAGGCCACAGGTGCTGCAGAGCTCCGCACTCTCCTCCC autosomal
ACGGTGACACCGAAGCCGCAGTGGAAGCGGTCCCTGCGGTGGTTCAGGAA autosomal
GGGGTGGCCCGGCAGGGGGCGCAGGGCGGAGTTGTCGAATTTCCAGTACA autosomal
AGTGGCCCCTGGTGGGGACATCAGCGACCAGCCACTGCAGCCTGCGGTCC autosomal
ATGAACCAGACAACTTTACTGCAAGGGAATTGTTGCCACCCACTGTAAAC autosomal
AAAGAAATTTATTTCCATCAACAAAAATACAGAATACAAAATGACACTGG autosomal
GATGTCCCCAGGCATGACCAAGTGCCACCCAGATGTCCCCAAGGTGTCCC autosomal
AGCCAGTGATCAACCCTGCTCAGAAAACAAGAATGGGTTCTATTTTTCAA autosomal
AGGGAGCGCAGCCCGAGCCTCTGCACTGTGAGCAGCCGCCTCCAGCATCG autosomal
AGCGGCCCAGCTCGCTGCTGGCCACCAACAACGTGCTGAAGCTGAAGCAG autosomal
CTCTCCAGTGGCACAGGAAGGTCCAGGAGCAGGATCTGTCCTGCAGGAGC autosomal
AGGTTCACCTCCACTTTCTTGCTTATTTAAACACAAAGCTTTAAAGCTGC autosomal
AGGTAAAGGACATGTTACATAGTGTGCAGCATTTGTTCTTATCCACTGAG autosomal
CCTCGAGGATGTTCAGGCGCCGCTTCTTTCGCCAGCAGCGGGCGGGGTAC autosomal
AAAGGGAAATAAGATTTTTCTCTGCAGTGAAGGAATTTACCATATTATGA autosomal
CTCCACCGTGGAGCCCGGCGCCTTCGCCGCCCTGCCGCACCTCAAGAACC autosomal
AATTTATGTAAACTTTGAAAGATACATAAAATCAGTACTTCTACAGCATA autosomal
AACAAACAACTAAAACAAAACCTTCAAGTCTTAATTTTCCAGAGGGAAAA autosomal
GGTGATGTAGGCGTCGTAGCCCAGGAGGACCCCGGCCAGGATCCCGAACA autosomal
TCAGGGGGCCTGGCAGAGCACTGGTGCCGCTTCTTCTGCATGATGGGCCA autosomal
ACAGATGCCCACTTTGCCTCTCGTCCAGCTGGAGCCCTTCCACAGGAACG autosomal
CAAGGGATTCCCGGGGAATTCCAATCCCAGCTGCAATCCCGAGGAAATTC autosomal
AGCCACCAACACCCTCTAAAGAGGAGGCCAAAACCCCAACAGTGAAATCC autosomal
ACCCTCCCTCACAAATGAGGGAGCAGGACACCCCCCAAAAAAATTTGGGG autosomal
CCTTTGTCACCATTCCTCTGAAGCCACTCCTGACTGGTTTTATCCTGTTA autosomal
CTTTTTTCCTGGAGATAGAAAAGCTACATTGGAACTTAGATGAAACTTCC autosomal
AGTATTAACATGCTGACAAAAAAGGTTACAATATTGATATCGTACAACAT autosomal
CCCTTCCAGTTCCCAGAGTCCTTGAGCCTCTTCTCTCAGTAGTGTTTTTA autosomal
ACGCCCCGCTCTGCCGGGAGAACTTCCAGGTGCAGCTCCTGGAGGCGTGG autosomal
CACACCATTCCCAGCGGCACTTCCGAGTCCTCCCCACAGCTCCCGGCAAG autosomal
CCTCAGAGTAATTCTAGAGCTAAAGCGGTGAGAGACATCAGCCCCGCTCA autosomal
AGCAGAGGTGACACAGGTGACAGCCAGGACAGTAACCTGACATTAGATGA autosomal
AGGAGCTTTTATACCGTCTATGTACAAATACAAGGAATAAAAGGAAATGG autosomal
CTGTCTTCCCAAAACTGGCCCAGGAGTTCTGAACGTGGCCAAGGTTACGC autosomal
CTCCTGGCACTCGTTGTTGTTGTTGTTGGGAGGGCAGAGGTGCGGCCGGC autosomal
CTAGGAATAGAACATCATCTACATTCAAGCCACCAAATACTATGACAGAA autosomal
CCTGGGCACTGCAGGTACTCACCCAGGCACCGGCTGGCAGCCGGATCAAG autosomal
CTAATATGTAATATTTTATTGTATACAGAGATTAAAAATGTACAGATGCC autosomal
GTCCCTCCCAGTCCCTCTGATGCTCCCAGTGCTCCCAGTCCCCCCCAGTA autosomal
GCCTCGAGCCAGGGGTAGCAGGATTTGGAGTGGCCACTGCCAGCTGTCGC autosomal
CGTGGAGTTCCTGCCAGCTGGGGACCTCTGGAATGCACCCTCCAAAATGC autosomal
AGCGCGGTGGCACAGTGGCAGGGAGTTGACAGGTGGGGAGGAAGGTGTCG autosomal
GCACAGGGAAAAACCCATGACCAAAACTCCTCATTGCAGCTGCCTCCGAC autosomal
AAACACGTGTGTGCCCAGGAGATCAGTGTGCTCCTGCCACCAGCTCTGCC autosomal
CCCGGCCCAGCCGGGGCTGTGCCAGCCCGCGGGCACGGGGCCTTTGGGGA autosomal
ACTTTTAATTCTGCTGAGTGGGTTAATTACAAGGTGGGAAAGCAAAAGGA autosomal
GGCTGGCCTAGAGCCAGTGTCTGTTACAGATATAAACCAGCAATACAGCA autosomal
AGCTGTTACCTGGAAACAAAGTCCAGGAAATTCAGGCATCAAGGTGAACT autosomal
CAATGCTATGGTGGATGCTCTAACATCTCCTGCACCCAAGGCACGTTACA autosomal
AACTGTGACCTGTAAACTAATTACCAAACCATCTACATGGTAGTACTGAG autosomal
CAAAGCCCTGGCAAAAGGTTTCAAAAAGGGCTGACAAGTTAAGGTGCATC autosomal
AACTATCTTAGACTTTGTCATGGAGAGTTGCAATCTGTTGCTGGTACTAA autosomal
CCCACCTGGACCAGGGAGACCGCAGTGTCCGTACCCCACTCAGCCCCCTC autosomal
AATTTCTGTTGGCCATCTTCATCTTCTCTCTCCTTGACACCTTCCTCACC autosomal
ACACGGATTGAGCCTCCCAGGGCTCTGCTGTCCCCGTGTCCCGCTGCTGC autosomal
CTGGCTGGTTAAATCTGCAGACCTCAGATTCAGCATCTTATTTCCAGCTC autosomal
GATCAAGTTGGAGTCCTTGGCACCTCCTGAGACAGGTGCTTCTAGAGTAA autosomal
GCTGTTCCGGGAGTGGCTGAAGGAGACGTGCGGGGCCAACGCCAAACAGA autosomal
GGGCTCAGCTCTCCTGCCGAAAGCGTTGGAAATGGAATCGCCGAGACCCC autosomal
TACCTGTGGGAAGGCCTGTGGCTGTAAATAAGCTGGATTCAAAACATTAA autosomal
ATCCTTTGCTGTCGCACACTTCCGACACTTGAGAGCTCATCGGCCAGAAA autosomal
GAGTTGCTGCTACAAATATATTTTTCAGGCACTGGCCTAAAACAGGACAC autosomal
AATGCATTTCAGGTTGAATTTGGAGTCTGGTAGAGAATTCTCTGAAGTCG autosomal
AGATGGGGAAGGGCACAGCCCCACTGCACTGCTAGGAACCATCTGGGATG autosomal
CCTCTTGGATTTCAGGAATGAGATGGGATGGTGTCCATGCTTGCTGTCCC autosomal
CTCCTCTGCTTCCTAAAAGAATGGAGTTTGGCATGTTTTTCACTCAAGAA autosomal
AAGACATCTAATATCACTGAAGCACTTTCAGTGTTCCTTCTTGTCTCAGA autosomal
AGCAAACCTGAACCTCACATGGACCCCTCCCTCTCATGGCTGCCAGCAGG autosomal
GCAGCCTGGATAACAGCCACCAGAGCTGGCCTGCTGCTGGACAGGACAGA autosomal
CCCGATCACCACCAGCACCGACAGCAGCGTGAGGAAGACCACGGTGATCA autosomal
AAATGGACCAGCCCTCCCCCCCTCCCCCGCCCGGGAAACTGAGGCATGGG autosomal
AAAATAAAAAGGGAAGTCAGAACTTCTCTGGCTATACCAAAAGCTTAGAA autosomal
AGGATCGAGCCCCGGTCCCGGTCCCGGTCCCGTTCCTTGTCCCGGTCCCG autosomal
ACATAAAACCTGGAGTGTTTTTCAGCCTTGAAAATCATCACGTACAAATA autosomal
CCTTAGGTTTTTTAAATATACATAGTGCAATAGTACTGTGGATAGTCTTA autosomal
GGGAAAACCCATAAAAATCGGGGGAAAATCAAAAAAATGGGGGAAAAACC autosomal
CTGCAGAATGTTCTGGAGGGGGTGGAGGTTAAAGAACAGACACCCAAAGC autosomal
GCCCTGCCGTCCAGCTGCCCGCCCGCCTACGTCCCCTACGCCGCCCAGGC autosomal
TAAATAAAAGGCAACATTAAGATGCCTTTGTATTACAATTTTTTCTATTA autosomal
CACTCAGGCCTAGCCCTGATGGTGATGCTGTTCAGTGCCAGCTGCTGCTG autosomal
ACAAAAATAAAGCAAACTTGGGTGCGAGGGGATGGTTGTTTCACAGAAGG autosomal
AAGGATGAGAAATTAAAAACTTTGTTTTGCAGCTCTGGGAATCACACACA autosomal
GCAGAGAAGGTCTATCAACTCCCCAGACACCCACTCAGGGAATCCACAAA autosomal
CACCGGCAACCCCCCCACCTCCCACCCGGACTCGCCCGGGGGCTCTGCTC autosomal
TGGAAGCAGTGTGAGCATGTGCGTGTATGTGCACGTATGTGCTGTGCACA autosomal
CCAATTTTCCCCCATTCTCCCCCCATTCTGCCCCCAATTTTCCCCCATTC autosomal
CAGTAACCCCTTTTCGGATATTTCCCCTTTTTGGGGAGCAGGAAATCAGG autosomal
CAGAAGCTTCCTAATACATTCCAGTTACACAACTGATACCAAGTCAAGAG autosomal
TAAGAGTTTCACAACAACACTTTATAGTTTCTAATAATGTAGTTGACAGA autosomal
TAACAAGTGCATCTTCTGTGAAAGATTGAAACAGTAATCACTGTTTCACA autosomal
ATCAAGAATGAGCTAGAGATAATAGTTTTCAACGTCTCACTCATAGCAAC autosomal
AAATGTATTTTAGGGAGCTAACTTGAGAGAATGAATTCGGTTTGTGCAGC autosomal
AGGGGGCGCCTCCGCCCCGCCCGTCCCGTCCCGTCCCGCCCGCGCGCTCC autosomal
CTGCACCCCAGAGATGGAGCCCTGCACCCCAAGGATGGAACCCTGCACCC autosomal
AAAGGAAAGTCACTCTGGGGCTCAGAGGGAGGAAATGGGAGGAAAAAAGA autosomal
CAGCACTGCAATTTGTTAATACAAGAAAGAGTTTTCCCATGTTAAGGGTC autosomal
CTGAGCCATCACCCAGCTCCAGGGAACAGCCACTGGCAATGGCTCGGCTC autosomal
AGGACGTTCCGCTTATTCACCACCTCCACCAGCTGCTTCAGGATCTCCTG autosomal
CCCACCCAAATCACCCCCCCCGGGACCCCCAAACTCACCCCACACCCCCC autosomal
CCCGCAGGACCTGGCGCTGATCGAGCGGGAGCTGAGCCGGGGCCTGCGGG autosomal
AAAAAAAAGAAAACAATCAAACAAGAAAACAAACAAAAAAAAGCAGAACA autosomal
CCCCCCGACCCCCCACCCCGATTTGGGGAGGTTTTGGGGGGGGTCTCAAG autosomal
ATCGCACTGAAGTTCCCATTTCTGACGAAACTTTAAAATAATCGTATGCA autosomal
GATTTTTCCTGTTTTTTTCTTTTTTCCCTCTTTTATTTGTCATTTTTCTA autosomal
CCCTTGCCCCAAACAAAACGTGGGTCCTTCTGCTGTATGAAAAATAGGAG autosomal
AAGGTCCCTCATGGCCCCCCTGCCCCGGCTCTGCCACTTCAGCCCGGTCT autosomal
TCCCCCATTGGAAAAAAATTAAAGATAACATGAAAAGAAGTAAAATTTCA autosomal
GCCTGGGAGGGGAGATGGGCTCTGCCCAGGGATGGGGGGCAGCTCTCCCA autosomal
GGATACAGCTCTCAACAGAATGGGCCTCTGGTTTGATTCTAAGACTATCA autosomal
AGAAACAACTGAAGCTTGGAAGTGAGTCAATTAATAAAAATAACATTTAA autosomal
AGCATTAAAAGAATGAGATGCTGACACCAGTCCAGCACTTAACAGAAGTG autosomal
ATTCCACAAAAAATCCCATTTTTAACACCTTAAAATGAAGATTTTTCGCC autosomal
AATGCTGAGTTTCTGGCACAGCACATCTGGTGGCTATTTTTTTCTTGCTA autosomal
GGCACTGGGAGATAGTGCAATGTGTGAGAGGTGGAATTGTTCAGCGTTAC autosomal
CAGCCCCGGGATGCGGGACGGGGACTCCCCCCCGCTTCCCCGGTTCCCCG autosomal
GGAAGGAGAAGGAGCCCCTGGAGAAGCTGTACCAGGTGGGGTAGGGGCTA autosomal
GATGTGTATTTAGTTCTGCTTAAGACCTAGCCCAGCAAAGACCTTTTCAA autosomal
AAAAAAAAAAGCAACAACTTTTATTTCTGTAAAAAAAATCTGGAATTGTT autosomal
AAATTCTTCCTGCTTTCTGGAATAGACCTTCAGATCATCCCATGCCTGGT autosomal
GGGAGACAGTTTTGATAAAGTATTCCAAACAAACAGTAACTTACAGTACA autosomal
AAACTTGGCTGAAAAGCAGTTCCAGCTGAGCTTTGTGTCTGAGATCTCAG autosomal
AAAACCTCTGGTTAAATTTGGGAATATTTACCTTTTTTTGCGTGTGTATT autosomal
ACTAGAAGACTGCTGTGGACTATTAATTTCAGACAATCACCTTTTGCTGG autosomal
CTGTGCCAGGACTGGACAACCCTTTTGGCGAAGAAATTTTCCCTAATATC autosomal
ACAAAGACAGAGCCTGGGGCAGAAAGGTTGACAGACTAGCATGAACCAAT autosomal
ACCAAATAAAATTATCGGTGACAGTATTTCAATGTGTATTTGAGAACATG autosomal
CCCCTCTGCCACAGTTCGAACCAACACCTGAACCTTCCCAGGCCTCCAAA autosomal
AGCCACGCTGCGGCCGCAGCTTCATCTCGGTGAAGGGGATGGAGACGTTG autosomal
AGAGCCCGCTGCAGCTGCATTAGCCCCGCACAGGGGCGGCAGGTAAGTGG autosomal
AAAAAGAAGAGGCTTTTGTTGTCATTGTAGGTGTCACTAGTACAGCTCAT autosomal
ATTTCCTTAATTTTTAAAGATTTTAAATGGAAAAATGTTACTTAGTTCTC autosomal
GGAACCCCTGGGGGACACTCGGTGACCAGGACACTCAGTGACAGGGAACC autosomal
CCAAGTGTTAATGCATTCCAACGACGTCGATACTTCAGATTAATACACAG autosomal
AACTTGATCTCCCTAAGTATTCATAGGAATAAAAGTAATAGCTGCTTCTT autosomal
CGCCGCGTTCCCAGCCTTGGCCACCTCCGTCCTCAGCCTGGTCCCTGCAG autosomal
CTGCCTTACAAAATGTGATGCCACAGGGGCACTTGACAGATTGGTGCTAA autosomal
GAAATTGAGGATCTGCGCGCCGGCCACACGCTCCAGTCGGCCTGGGAGAA autosomal
CAATTTTAAGGAGTTGGACTCTATTCTAGGCATGGCATATGAAGAGAACG autosomal
GGGAGGGCTTGCAGGTAGAAGTGAAGGAGGAGAAAAGTTATAGAACCAAA autosomal
AATGGCCAAACATCTCTGTGTGTGGTGGGATCTTGCTTCCCAATGTTGGC autosomal
AAATAACATGGTCAACATCTTTTCAGATTTCATAATCATTCAGACTGTAA autosomal
GGTTCATAAATAATGAATTTGAAATGCTTCTCGGCACCGAGGGCGGCAAA autosomal
CCTTCAGTCTTTCAATGTAGGTTAAATTTTTAATGCCTTTCTCCACTTCC autosomal
ACTTCCGAGACCCCGACGAGAACCTGGTTGAGGTTTCCAGGTACTGCACA autosomal
TTAACTTTACTTTTTATTTTTTTAAAGTTGACAGGTGCCTTTGCGGATAA autosomal
CAAATCCTCCTTTACAGTACAATGAAATACTACAAGTTCCAAAGGTGGAA autosomal
ACAGATAAGATAATGAGATCCAAGAACATTTATTTATTCAACTTCTTAAA autosomal
CGGATCCAGGCCGTGCCCAGCGGTGCCGCAATAAGAGCCGGAGATGCTCA autosomal
ATTTTGTGCTCCTTTTAGAAGGAAGCAAATTAAATATTGATAATAGTAGA autosomal
CCTGGGGTGGGGCAGGGGGGCCAGCACCGACACAGCTCGGCCAGTTCCAG autosomal
CCTCACACTGGAAGTACTGGTCAAACACGTCGCTGTAGCCATGGTCCCTC autosomal
AGATTGTGAGATCCCAACTTCTGTGCTGTTATCACACAGTGCATTGCACT autosomal
GCAAGGCGGAGCACCCGCCCCCACTTTTATACTCAAATACAAAAGGCAAA autosomal
CAACCCCTTTCTGCAGTGGAAGAAAAACACTAGGAGAGGTTCTGAGTTGG autosomal
TGGAGGGCCTGGGGCTCTTTCTTTCCTTGAAGGAAGTTAGAGAAAAACAA autosomal
AATAACTTCTTGTTTGTTTTTAAACCAAGACTGAGAACGTAGTTGATACT autosomal
TTTCAAGTCAGATAATATTGATTGGATAATACACATCTCAGTTAAAAAAA autosomal
ATTAGATTGTTAATAATCTAGAGAAAACATCACTAGACAACAGCAATAAT autosomal
CCCCTGCACATCTTCAACATGATAAAGGACATCGACATCAGCTTGATTGA autosomal
AGACTGACAATCAGAGATGCTGATAACCAAACACTCATTGCTGAGTTAGA autosomal
CTATCCCTTTTTCTAAGTCATAGGCTTTCTGTGATTTCAGACCACACAAA autosomal
AACAGCCGCCCCTCGCTCATCCTGGAGCCCGGAGTGCAGAGCTGTTTGAC autosomal
ACCCCGCCCCCTCCCCTTGGCCCCGCCCCCTCGGCAGAATTTAAAGAGAC autosomal
CTCGTGCATTAAATCAGTAGAGCATTATTTGCACAAGCAGAAAATTAACA autosomal
CCTCTGGGGAATCAAGCACTTTGCCATGTCTGAAAGTCTCTAGCACTTAC autosomal
GCCTATTCTGCACAATTGGAATGCGAATCAGTAACAAAACAAGGTAAAAC autosomal
CCCACGTCTGGGTTTGTTGCTGGAGGACCTCAGCCCAGAGAAATTGTGTA autosomal
CTTGCTGTCAGTATTTTGGTTTGCACAGAGAAATCTGTCAGAATTGTTGA autosomal
ACTAAATTAGCTTTCTATAAAAGCAAAGAGAATTTATCAGTCATCATGAA autosomal
CTCCCCGAGCCCCTCGTAGCGCACGGAGGCCAGGAAGGTGCGTATCTGCA autosomal
AAGAACAGTGTCCAAATCCTGTGCTCTCATGTGACCAGTTTTGGCTCCTA autosomal
AGACTTAACAAGACCACTGGATGAAACCTGAGTGAAAATGAGAAACCTGA autosomal
CTTTATTGCTGCCGGCAGCGGGGATCGGGGGCAGACAAGGGGGTGGGGGA autosomal
CTAGCAAGGTTCAGGAAAGGGACCTCTGTGCCATAACAGAATCAGGGCTC autosomal
CATTCTGAAGACAGAGGGAGCGTTTGGGCTTTACCGGGGTCTGGCACCCA autosomal
CCCCGATCATGTACCAAAGCCATGCTGTGCACCAACAAAACTGAACGCAA autosomal
AATAAAAATAGAAGCTTGAACTTACTGGGTCACTCGTGTCTGCTGGACCC autosomal
GGCAAGTTTTTCTCTATCCCACAAGCATAGCCACTTAATCTAGAAATTGA autosomal
ATTTACACTAATAACAACTTTCCTGAGGTTATCCTTTCTCAATCCTGGTA autosomal
ATGTGAGTAATAAACAGCTTCTAAAATCTTTTGGAAAATAACCCAGGAAA autosomal
CCCGGCACTGTCCCGGTGGTACCGGGCAATCCTGGGGGGTCCCGGGGCCA autosomal
TGATACCTATCTTGAAAGATGTATGAAACATCCCCGTGGAAAGCCTTACA autosomal
CCATGTGTGGTCAGCAGGGCACTCTCCGGCCGCCCGACTCCCAGGATGAC autosomal
GGTGAAGAGGAAAATTCAGTTCTTTTCTTTTTAAAATCCACTTTTCCTAA autosomal
AGGATGAGGAGTCCTAGGTGGGCTAAGTGTGGAAAAATAAAGAAAGATAG autosomal
CCGCAGCCGCCGCCAGCCTCGGACTCAGCCTTGCAACACAAGGATTGTAC autosomal
AAACCCCAAACCCACTACATATTGGCTTCCATTGATTAGAACTTGCAGGA autosomal
CTTTATTAGTAAAAGCATTTTCTTGGGAGAGAAGATCTGTCTGGATTTTA autosomal
ATGTGAAGAAAACTTCAATGTCTGTCTGTATGAATGCTTTCTGAACCTGG autosomal
AGCCACCCTCCACCCGTGGCAAGGTGGCACATGTCACCGTCCCCAAGGCC autosomal
ATTCCTTCTCTCTGCAGTTTGGTTATTGTGTTTTCACAACAGAAAAATAA autosomal
GAAAAGGGGAATAAAAGGGGGAAATTGGGGTAAAAAGTGGGGGAAGAGGA autosomal
GGGGGACATATTGGGGATCTCTCAGGGATCTCTGGGGGATCAGTTTGGGA autosomal
GTGAGATGGTCACATACAACAACTGTGCAGGCAGGCAGCAGAGAATGAGA autosomal
CACAGCCCAGGGGGGTTGCAGCCCCCACAAGCATTTGTGGGAGCCAGAAG autosomal
CAAGGTGCGTGCCCACGGCAAGAAGGTGCTCACCTCCTTCGGGAAAGCCA autosomal
GGATCACCCCGGCCATCACCTTCATGTAGGAGAGCGTCCCGGTGAACAAC autosomal
ACCACCCAGTGGCTTACTCAGGGCCATCAACCAACAGGCTGATCCTGAGT autosomal
CGATTTTATTGTTTCTGAACGCCACACCAGCCAAGGAGGAGCGAGGGGCG autosomal
ACCAGATCCCATCCTGTGTAGAGGTGAATGGTCTTTAGCTCTGACACCCG autosomal
CTTGTCTGTTTCCATTCCCTTTTCCTTTTTCCTGTCTACAGCTTCCTTAA autosomal
TAAAGTTGAAGGAATTGGTATGAAGAATCTTAATGATAAGATCTTTTGCA autosomal
CAATACAAAATAAAAAATAAAAAAAGAAACAAACTAAACCCCACCCCTAA autosomal
GAGCACCACCCAGAAAATGGAACTTCTTTTCTGATCATGAAAAACATCAC autosomal
TCACGACCTTCCTGTACATCCTCCATGCCTTCAGCATCTACTACCAGTGA autosomal
CTCTCTCTCTTTGGGGAATCTCAACCAGTTCCGAACTTTAGAACTTTAAA autosomal
AACTCTGAAGGCTGTGAGAGTAAAACTCTGATTTATTCAAAATACTGCAC autosomal
CAGCCCAGCCGGGTGAGCCAGCACCGAGTGCCAGGCACCCCCGTGTCCTG autosomal
ATCCTGGAGTGCTGTGCTGGGGTAGTGTCAGGGGTCTGTACAGAACTAAG autosomal
GTGATGTGGCAGTGCCTCCAACCACTCCCTCTGACTCTTGAGCAGCAACA autosomal
GAATTTTCCCCTTTTTCCACATTTTTCTCCAGTCTTTCCAGATTTTTTCC autosomal
AACATCAGAAATGTGTTTGTCTCATTATCTTTGAGACAGGGATAAAAGAA autosomal
GATCCCATGGGCTGCATGGACTTGCTTTGCCTTCCCCACGGCCCCCTGCC autosomal
CAGACATGTATGTGCTTGGAAAATTATTTGAATAAAGTAAATGTATCATG autosomal
ACATCTATAGCTGGAGCCATAGGAACAAAGGAAATAAAGCCATTATTCCA autosomal
AGTACTACGATGTGTGGCCTGAAATATCCCAGTTTTGCAGTTGTATAACT autosomal
CAAACACCGGGGAGGGGGGATGGAGAACCGAATGCTGCATCTAGACAAAC autosomal
ACCTTAGTGATACAGCTGTGAGATTTATAAAGAAACCATTGAACCTCTTG autosomal
GGACCCACTGACAGAGAGAGGTGCCTTCTCTGTCAAAGCCAAATATGTGA autosomal
AACCTCTATTATCTGAAATGACAGACACACCTACACCTCAGACCTAACTT autosomal
CTGGTGCCGCCCCCGTTCGTGCCGGACCCCCGGCGCGTCTACGCCAAGGA autosomal
CTTCTGATGCAATTTTTATACTTTTTATCATTTTTAGCATGAAGAGCAAA autosomal
TCAATGCAAATGGAGATGCTCAGGGGTTACTCTGGGAATACCAGAAGAGA autosomal
GATGCATGGGGAAGGGACAGAGATGCAGATCAGGTGAACAGAGAAATCCA autosomal
AAACTATTTCTGGTATTGCAAAGTCCTTCAGCAGAACTTCCAGCTGGTAC autosomal
ACCCCCCGGCCGCGGAACCCCCCCAGAATCCCACCGGAGCCCCCCCGGTA autosomal
AAGAGGTTTCCTGCAGATGGTAGGTTATTCTCTGAACTGTAACACCTCAG autosomal
AACCCCAACCAAACAACCCCAACCCAGGGTTTGCAAATCTACAGATCCAG autosomal
CATGCATAGTTGCATTCTTGACATGCAGCTCTCCAGGGAGATAAAAAACC autosomal
AATCAGTATTAAAACTTTAATTAGGCCTGTAATGATGCATGGTGGTTCTC autosomal
CCGGTGTCCTCAATGTGTCCCCAGCATGTTCCTGGTGTCCCCAAGGCTGA autosomal
GCATGGCAGATCAGGGGAAGCAGTAGCTGGAGAACTGCAGTGGAGCCACC autosomal
GGAAATCCTTTAGACCAGAGGGAGACAGGTCTTGTTCGTGTGCTTTATGA autosomal
AGGCCAGGAAAGGCTCTGGGCTGAGGCCACATCTCACTACACTCCCTAAA autosomal
AACATAAAATGCTTTCTAATTACATGAGGCATTATTTTATAATGGTCTTC autosomal
AATCCTGATCCTAATCCTGATCCTAATCCTGACCCTAGTCCTGATCCTGA autosomal
TAAATCAGGAGTTGGAACATAATTAATCACACTACTGTGTATTAATCTGA autosomal
CTCCCAAGTGGAGATAATGCTCAGTAGCAATTGCGGTGAAGAAACCCCCA autosomal
AGGACTGGCTTGAGTTGTGCATCGTGGCGTGTCCACCCGTGGACAGCCGG autosomal
AACCACCTGGCAGCCACCAAAGCTTGCCAGGCTTCGGTGGCACCTACATT autosomal
CGTTTGCTGAGTACCTCAGGCAGTGCTATAAAATCACAGCACCCTTCCTC autosomal
AACAAAAATCCCAAACTGCTTTAACCACAAACTCAATAAAGGAACTTCAA autosomal
ACGGTGGTGGCCCGGGACCGGGGCAGGCCGGCGCTGTGGAGCAGCAGGGA autosomal
CGCCTCGGTCCGCGCCCGCGCACGGCCGCGCCGTCTCCGCCGCTCCCGCG autosomal
AGCTGTGAGCACATGGGAGCCCAGCCAAACAAATCTTGACTAAGAAGCAA autosomal
AGGATGGGACCATTCCATAACCCAGGTAAAAGGAACAATTTACAGTGCAA autosomal
CCAGGCAGGCAAAGAAATCCCCTCCAATCCACCTGCCCACCCTCCCAGGC autosomal
CCAGAAGGGAGCTTCTGCCATGGGAAAGAGGGTTCAGGGGGACGGACACA autosomal
ACTGTAAATTTGTTTTTCTTAGTAAAGGGATCAAATTGCATGTACCATTG autosomal
ATTTACAGAGCATCGTTCCTTTTGGCTTTAAAATGCTTTGGGACATATCC autosomal
CAGAGCAGGGCAAGCCCTACAGCGCCCTGCCTGCCTGAGGGGTCCCCAGG autosomal
AAATAAATTTTGATCACTCAAAGTATTTTTGTTGGGGGGGTGAGGGTGAT autosomal
CAAGATGTGGAGGGAGAACCTGTGAACAGCTTTGGGCTCCAGAGCCAGGA autosomal
CTCTTGCTGCTGCTTCCTCTGTCCCACTACTGTAGAAACCCGGTTAAAAA autosomal
CTTGTAAAGTACTATTTTACCACTCAATAATAGTGATTTTTGGCAGGATC autosomal
AATTCTGTATTTTCTCTTCTCTAAGATTTCAGAAGTTGTTCAGCAAAACC autosomal
AAATGAACAATAGTTATGAGATGGCATCTGATGGCTGAGCAAAAAACAAC autosomal
TTTAATTTCCCAAAGCAAAGATCCCGGTGGTTTTACACCCAGGCTGCAAA autosomal
TGCAGTGTGTAGTGACTCTGGTCAATGAATTGCTTTGTTATCTTAGAGAA autosomal
GCCCATCCCAAAATTCCATTTATTCCCTATAAAAATCCATAAAAATCAGA autosomal
GAGATTCTTGGATACACAGTAAAGTTTAGTTTCACAGTAGATTGGAAGAA autosomal
CTGCAATTCAGTAAAGTCTGGGCAAATTTGCCATTCTACTGGAAAAGTAC autosomal
TACAGCTGAAGCAAGAACCAGAGCTTTTACTCTTTGTTCTCTAAAAGTGA autosomal
GAAAACCACTCAGGGCTCTGCTGAGGGCTGAATGAGCATCTTGCCACATC autosomal
AGAAAAGTCATTATCTAAGAAGGAAAGATGGTATAATTCAGGTGTTTGAA autosomal
CACGGCAGTGTTCTGTGGGAAGGAGCTGAGGATGGGGCCGGGCAGGGTCA autosomal
GGAACCTCAGCAACGCCTGGCACCGCGTCAGCGTCACTGTCACCCGCTGA autosomal
ACCAGCTGACTTTGGGAATGCACCTGGATGAGAGAGGTAGGAGCTTACTG autosomal
TCCTGGCTTCAGATGGGATAGAATTAATTTTATTCTCAGTACCTGGTACA autosomal
AAACCTCTTCCCACACTGGGGACACTCGTAGGGCTTCTCCCTGGTGTGGA autosomal
GTAGCAGAAAGCACACACTCCTTGTTGCCAAAAAGCAGATGCTGCATGAA autosomal
ATGCCTTGTCAAAAGCCTTTGAATCCTTAAGAATTGCTCTCATCCAAAAG autosomal
TGGACAGAAGTTGGAGTCCAGGGACTGGGATGTGTTTGTGCCTTTGTTAA autosomal
CATTATTTTTATATGAAGGATGAAAATATGGACAAACCCAACTGTTTTTA autosomal
ATTATCTAGTTCCTAAAAAAGAAACTATAAAAAAAATGGCAAGAGACTTG autosomal
CTGTCATTGGCTGTCTGGGAGAAGAGACTGATCCCCACCTGGCTACTCCC autosomal
GTTACCAGACCTGCCCACACCCAGTATGATCAATTGTCCTTCCCTGCCAA autosomal
GAAAAGACAAGTGGAACAGCAGCTGCCTCTTAGCAGTGTTAGATGGCTGC autosomal
CCCCAGCAAGCAGGGGGAAACACCAGAACCACAGGCAGAAACAGGGGAAG autosomal
AACTCTCCAACATGAAACCCAACATGCAAAATTTCCCTGACTAATGTTCT autosomal
ATGTCCCCAACTGTCCCCAAGTGTCCCCAAGGGTCACTGACCTCCCCAGC autosomal
GGTGCATCTTTCAGGAACAGCCACCAAAACTGCTGTGCTGCTGTGCATTA autosomal
CAACCTTTTCAGGCAATTTTTACCTCTTGATGTAAGCATTAGCTCTGGAG autosomal
ATAATTGGCTGGAAAGATGCCAGTTTTTCCTCCTATTCTTCCTTCCCACC autosomal
CAGCCGGCACTGCAGCGGTCCAGCCCCGCGAACTTCCAGGCGGAGTAGAG autosomal
AACAAACCCAATTTTTCGGGGTGCCCCCCTCACCTCGCAGCAGCTCCTCG autosomal
AGTGGAGGAGGCAAAAGAGATCGTCTTCGGAGGAATCAGAAAACGCACAA autosomal
CACTGGGAATGGGGAACTGGGAGCACTGGGAATGGAACTGGGAGCACTGG autosomal
AAATGATGTGTCTTTCCAATAAAATCATTTAGAAAAGTATTGATTTTCAA autosomal
ACACGTCCCCTCACAGTGCTGGAGTTCCTTTCATCACGTAGGAGCACCTG autosomal
CTGTCAGGCAACCACCTGAGGCTGCTGCCCACGGGGCTCTCCTGCTCCCC autosomal
ATCACAAAGGTTAAGAATGTTTAATTAGAGTATCTGAAAAATCAAAATAA autosomal
CAAGTGGCTTATTTGCTCACACAGCAAAACAATGTAGAGAAAGGAAAGGC autosomal
ATGAAGCAAATATTTTATAAATACCTGTTCCTTTCAGCAAGTCAAGCAGC autosomal
AGGCATCAGCTGGACAGTGGCACAAGCACTGCGACACACCGCAAGCCACC autosomal
ACACGACATCAGCTTGGGCCAACTGCTGCTGCATGATGTTATTTATAAAG autosomal
AAGAGGCAGTTTTGCAGTGTTTGTAGGTCAGTGAGCTGGAATGCCCAGAG autosomal
AATCATAGCTTTTTATTTCGAGGGCCCCTAAAAACTGCACAAAATAGATG autosomal
CGCAGTGCAGGGGGGACATCCAGGAGATCTCACTGCGCCAGAGCCACCCG autosomal
TATAAAGCAAGACCCTCTATAAACTCTAGAGTATAGTTCATGAATTTAAA autosomal
ATGAGTCCATGATAAATGTTTCAAAGTCATGGTCTAAGTCTGAAACAAGG autosomal
TACAAATTCTGAACTCATTGGGGGTTCTGCCATTTGACTGCACAAAGCAA autosomal
CCCCCGACGCCCCCTCAGGGGGCGGGGGAGGCCTGGAGGCCGCCCCGCGG autosomal
ATAAAACAATGTTTGCAAAGCAGCTGGCATGGCTAGATGATGCATGTAGC autosomal
TGGTAATCCATTCCATTGCTCAATACTGAAATGCTTTAGTTTAGAAGACA autosomal
AGGGTGAGCCAGGAGGGCCCGTGGAGGGAGGAAGGGCAAAAGGAGAAAAA autosomal
GCAACGACTCGCACACTAAGCACGAACGATGACGTGAACTTGAAGATACC autosomal
AGCTTAACACAACATAAACCTCACTGTTTTTAATGTTAGTAATAAAAAAG autosomal
AGCTCAGGCAGAGGCACACACACACCCTGACATCCTCTCTGACTCCCGAC autosomal
TCAAGCAGAGCTCTTTCAATCAAGATCAAACAGACAGGAGGTCAGCAAGA autosomal
ATTGGGATATTTCATCAGCAGAAGAAGACATTTTATTGATGAAAGATGAC autosomal
AGGGCCTGGAAGGGAGTGGGGCGTGCTTAAAGAGGTCAAGGAAAATGGGG autosomal
CCTGATGGAGCTGTCCTCGGGCAGCCTTTGCACCGCTTTGTAGAGCAATA autosomal
CGGCGCTGGGGGGGCTCTTCCTCACGCTGGGCATCGGCCTCGCCCTCGGC autosomal
CAAAACATTTTTAAAAGGAAGAGTAACAGTGGAAGCAGTAATGAATATAA autosomal
CTGAGACAGCTGGAGAGTGAGTGGCAGGATCAGCACAGGAATGGTAGATA autosomal
CAATTTTGAACTAAAAGCTGCTCTTTGAGGAAGGCACAGAGAACATAAAA autosomal
AAAATTAAGGGAATCCAATTTAGAAGACTTAGGGAAAGAAGCTTCTCCAG autosomal
CAGGAAGCAGAGAGAGCTCCATACTCCATCTTTGACAATCTGCATGATCG autosomal
GAGGGGGATACAGTTTTCCCTTCTAAATCTTGTTAAAAGCAGCAATATCC autosomal
AGGCAGGCCAAATATGTGCTTTAAATGTCACCTCTGCATCATAGTGCAGG autosomal
AAGCAGTAAAGGTTAAAGTAATCAAAAAGCAGATTCCAAACTGACAAAAG autosomal
CTGGAGCAGCCCCTGAGAAGCGCTGGGCTCTGCATCCCATTAGGGCTGCC autosomal
AACTTTTCTCTCTTCTGTGTGTCAGCTCAGACATGGAACTAGAAATAGAA autosomal
ACATGATACAAAAATGGTTAAATGGAGTACACAATCTGAAACTTGCTCAA autosomal
CTTATAATTATGTAAGTCTTGTCATAAAAGCATAATAACAGTTTCAGAAA autosomal
CCACACGTACTAACAGCGCTGCTCCTCAGGGCTCCCCTGCCCCGCCGGCA autosomal
ACTGAATAGATTTTTTAATTCCCTCCTGGGAGGGATGGAGGGTGTTTCCT autosomal
TAACTATTTTTGTTTATGACTAATTTATTTTTTATTATTGTGGAAAATAA autosomal
CGGTGGTCGCTCACCTGGACGCCGTCACCTGCCTGGCCCTGGACAGCAGC autosomal
CCGCGGCGAGGGCGGCGCCACCAACCCGCACGTCTTCCCCGAGGGCTCCC autosomal
CCTTCTTTTCAACCTTCTCTTTACTTTCTTCACGAAGACCACTTAAAACC autosomal
GTAGAATCAATACAGTTTTTGCAATATACCCAAATACTGTCGTTGTCATA autosomal
GTACCATGTACATAAGTAATAGTAATTTTAACTGAGGGGGAGGGGAAAAA autosomal
ACGCTAGCCAGCACGGTCAGGATGCCCCTCACGCTTTGCTCCACTGTCAG autosomal
GCGGCGTGGGAGCTTTGGGAGAGGAAGGCGAGGTCGGCGGGGAGCAGCGA autosomal
CCCGGTGTGGATCACCTGGTGCCTGATCAGGCTGGAGCTCTGTGAGAATC autosomal
CTTCTGTTATTTTCAGGTTCCTGGAACTAATTGAGGCCCCTGGAACCAAA autosomal
ACGCTTCTTTCCTGGTTGCTGAGACTTTGTGGTGAGTGGGACTCTCATCC autosomal
CCTCATAGGGTGCTGAGACCTGGAGGGGCAGAGGGGTGTCAGGGTGGGAC autosomal
AGCCTCTTACGGCTCTGCCCCCCCATGTTTGCACAATAATGTAGAAAACT autosomal
CTGGTGCTGACAGGTCATTTGGCCAGGATTGCCCTTTGCAGGCTTTGGGA autosomal
GGTGGTTCAAGTGAGGTCATGTGGCTGATGCTTCCAATACCATCCTATAA autosomal
AGAGGTTCAGCCACAGGGCTGAGCAGTAGAACCAGGAATGTTCCTGAAAG autosomal
AGCTTTTCAATCTTTTTCCTCTCTATTGGTGCTCCAGCCACGAGGTTCTC autosomal
CAGGAACAGAATCCAACTGAAGGGTCGGTGCAGAAGGTCACATAATCACA autosomal
TCTCCCCATAAACACCATCAACACAGGTGATAGAAACTGTAAACTTTAAA autosomal
TCCCAAACCAACCCAGGAACCCCCAGACCCACCCAAGGACCCCCCCCAAA autosomal
GCATTATGCAGCATTTTCCCCCATGTTTTCCCTCTGAAGTTGCACAGGAC autosomal
AACTACTCACAAGGAAAAACACCTTTTAAAAACCCAGTAACATTTATAGT autosomal
AGCCTCTAGCAACTGCAATCTAGGAGCAGGAGTCACTCAGAGTTAAGGGC autosomal
CCTGCTGGAGGGAGAACACTGGTTTTATCATTATTTTAAGCATGAGGGAA autosomal
AAAAATGGGGAGGGGGTCCCAAAAATGGAGGAGGGGAAACAAAAATGGGG autosomal
AAGGAGGAAGAGGAGGAAGCAGATGAAGAGGAGGAAGAGGAGGAGGAAGA autosomal
GTCCTCAGCCATGGCCGCCACCACGGCCATGGCCGGCCGCATCCCCACCA autosomal
GAAATATTGATCCATGGGAATGAAACCAGGAGCCAATCAATCAGAATAAA autosomal
ACCCTGTGACTCCGGCCATCCCAGCCACCCCTCTGGCCGCAGGCTGGCCT autosomal
AAGCTGGAATTATCCCAGGTGTGGCAGGGCAGGGCATGGCTGGAGGTTCT autosomal
GGAGCATCCCGGGGTTTGCTGGGTGGGGCTGGAGCTCTGCAGCCTCTCCA autosomal
AACTAGAATGATTCACTTTTATTTAGAATTAATTTCTTAACAGAATTTAA autosomal
GAAGACCATTATGCCTGATTGAGTTACTCCTCCCATCTTTATTAAACCCC autosomal
AAACGATTGACGTGCACCGGGATGGGCACCACGATTTTGGGGTTGCGGAC autosomal
GTGTGCGGAAGGCGGCGATGAAAAAGCCCATGTGAAAGATCAACTCTCCA autosomal
ACAAAATGGCATATGTGGCCAGACTCCTAAGAATTAAAAAAAAAAATTCA autosomal
GAACAACAAACAATTTTTACATTTGCCTCTGTCTCTTATCAGTTTTCATA autosomal
GACATTGCCAGCAATGTCTCTGAAAAATCCCCACCTTTCCCACTAACATA autosomal
CCTGTACTCCATACTCCTCGCTCCTTACTCCTTGGCTCTGTACTCCTCTC autosomal
ACTATTATTTGTATTTTATTTTTATAGTAAATAAAAAGGGGCCATCTTTC autosomal
ACATCTCCCAAGGCTACTGACAACCTGTTAGTCTTGAAAATGAACACTGA autosomal
CCAGCCTCTTCTGTAACCACTGCAGAAGGCCAGCACGAAGCAGTTACTGA autosomal
AGCTCTCCCAGAGTGAAGCCACCCCAGGAGCTCCTGACCAAGGACCTGCA autosomal
GAGGGACTGTCTATTTAAAAACTAATGAAAAAGAAGTATTAAATGTTTGC autosomal
CTTTTTTCGTGTTGGCTCCTAGTTTCTGTTAGAGTTTTATTTGAAAATAC autosomal
ATTTTTTCCTCTGACAAAACAAAAAAAAAGTTTGATTCTAACCATTGTAA autosomal
GGAGCAGGTGAGGATCTCTTTTACTTAGTAATTCTTTTTGCTGGCTTTAA autosomal
ATTAAAGTTCTGTCCACCTCTGCCCCCCCAGCCGCCTCCTTGACCTCCTC autosomal
AAATAAAGATATATTAAGATGTATTTTATGTCATTGTTAGTAAATAAATA autosomal
AGCACGACTCACACAAGAATCTGAAAAGAGTCTCTCATGTAAAGCTTTAC autosomal
CAGGATGTGACTCCTCTTGAGTAACATGAGCCTAGTAAAACATTGTCTGA autosomal
CCTCCTGGCTGGGGATAAGGCAGGTGAAGTTAAACCCAGGACTAAATAAA autosomal
AGTCCAAGCATTAAATGGCAAAAGTGAAGCTGAAAAGGGAATAGATTGGA autosomal
TGGGACTGAGCTCTCAAATGCATTTTACAAACTTGACCAACTCCCTCCAA autosomal
GCTCAGTTTAGCTGTAAAGCTTCCCCCATGTTCTCTCTTGGCCCCTTGAA autosomal
CCAGGGTGACCCCAACACTTTGTGGGGACCCGGGGGGTGACAACAGCCCC autosomal
ACCATGAGTGGGACCACCAAGGAGAGGAGACATGTCCCAGCACTACAGTC autosomal
CCTGTGATGCTCACCCTGTTTCCCTGGAGCGAGGGAACAGTCTGGCTAGA autosomal
ATTCCCCCGCAGTGCCTTACAAAAAGTCCCTTTGCGCGGTTTCTGGTTAG autosomal
CAACAACTTTGACAGAGAATTTCTGAGCGAGAAGCCAAAACTGTCTTACA autosomal
CGCGGGGCGCTCCGGGACTCTCGGGGACAGCTGTGGGGACACCGCTGGGA autosomal
GATGAGCAAGACGTGCATATGCATGACCCCCGGCTCATTCCCCTGAAAAC autosomal
AAATGGCAAAGGGAGGCAACATTCCAATCTTCCACACAACAGGTGGAGTA autosomal
GAGCCGAGCGCGACCAAAGGGCTCTGAGGGCTCTGCTCGAGGAGTGCTGC autosomal
CGATTCCCGCTTCCCTCTGATGGATCCACACCTTTCCTTTTAAGTGCTCC autosomal
CCGCGGGGACGGGTGGCGGCCGCGGCCGTCCCGGCTCCGGCTGCGCGGGC autosomal
CCCAGTGGTCTCTCATCCACCCCGGGCCCATGGTGGGACCCCAACACCCA autosomal
CAGTGAGTGTTTTGAGAGCAAGAATAAATAGGTGCTGTTGCATCTGTGAC autosomal
CCGCAGACTCAGGATGCCAAATCCACTTTTCACTATTCCTGTCCATGCCA autosomal
AGCTGCCAGTTTTGGAGGAGATGCTTTTGTACCTGGGTGTTGCAGGGGAC autosomal
AGTTAATTTTTTGTCTAATCCTCTTGGGATTTATCCTTCCCTTCTGAAAA autosomal
CCCAAATTCCACCCCAGGACCCCAAAAAACACCCCAGGACCACCAGGAGC autosomal
AATCCATTGTCACAGGCTCCTCTCCTTTCGCCTGAATTCCCAGCTGGGAG autosomal
AATAATGGCAATTAGAAAGCTGCTCATGCTGTCTGATTTTGCTATCAAAA autosomal
AAATCAGGAGCTGTTTGTTATGGAGTGTTCACTGGTCAGCTATCTTACAC autosomal
ACCACGATCTCCCCCGTGGGCACTTCGTGCAGAAGGAGACACTTGGTAAC autosomal
AATGAAGCTGGGAAGGGGGAGTGAGAAGAACAGGGGTTCACAGGCCTTAA autosomal
GGGACCTCCCCCTGCAAGGTGCTGGGAGGGCTCTGGGCAGCAGCACTGGA autosomal
CGGCCGCCGCCAGGTTCCCGATCAGGAAGTTGGTGGTGCAGTGCAGCTTC autosomal
AAAGATGATTAACCTTTATTATCCTGTGGGAAATAGGCACTGAAATGGGG autosomal
CCCCATGGAGAAGCTGCTGTGTGACATGTTCAAGAACTGAACCCCCTTCC autosomal
AGAACAAATGAAGTTCAATAAATAACACACAGGAACGTCTCATTTACGCC autosomal
GCAGTTCTTTTTTAATGCATTTTTTTCTTCTTTAACTGCAGAGAACTTAA autosomal
TATCCCTGCAGGCTGGGGATACTCTATCCTCATTTCCACAGTTTGGGAGA autosomal
GTGCCACCACGAGACCCAGGTGTGTCACCATGGACCCATGTGTGCCACCA autosomal
GCCGCCACCGGCCCTGTGGAGGGAAGGCTGGGATGGGGACCGGGATCTCC autosomal
ATTTTGGAAGCTGGTTAATATCTCTCTTTTTTCCTGCTGCACTGACTGAA autosomal
CAAACCATGGCCCACAGTCCCGGCAGGACGACGGCCGGAGGCTCACATCC autosomal
CCTGAGACATCACAAATAACGCTTTTTATCCCTGTTTATGTTTCTTTTCA autosomal
ATGGATTTTTTGGGCCGTTTCCCCCGTCCATTCCATGGATTTTTTGGGCC autosomal
CGATGCTGCCCGCAGGCTCCATGCCCTGGCCTGGGGGGCACGCTGAGTGC autosomal
GGTTTGGGGAAGGGGAATAAGACCTTTTTGCATGTTGCTCACTAAATGCA autosomal
AATTTGTCACCTCCTGAGGACACTGGGACAGAGGCCATCGTGGTGGTGGC autosomal
CATGTGGGGAGAGCCCAGCCCACAGAGATCAAACACCACGACATGGGGAC autosomal
GTAGTTCTTAACTAACCCAGGGACAACAAGCACAGAAAAAAAGAAAAACA autosomal
CTTAGTAGCACTTCACTTTTAATGCCTGCATTTAGAAAAGAAGCAGAGAA autosomal
CGGAGGAATCAGAAAACGCACAAAAATGGAATAAAGCGTCTAAAACGTCA autosomal
AACACCAGATACGCTATTAAATCCTTGGTATAAATATTTAGTTATCCCTG autosomal
CTGTGTGTACCGATGTTGTGAACTTGACCAGTCCACGTTCAAGCAAACAC autosomal
ACTGTGTTTGGCAAAAGACAGACAGCTGTTTTCACCTCCATCTTCAATTC autosomal
AGTATTATGTTGGTGGGGCAGAACATTATTTGCTTAAAAATTGCAACTGG autosomal
AGCACCAGGAGCTGCACCTCCCTGCCACCATCAGCCAGGTGGGCATTTCA autosomal
AAAACGAGCCCAATGCTGCATCTGTGGTACATGCATGGGGCCTTCCCAAG autosomal
GGGAAGCAAGGCTGATTTCTTTGCAGGGAAGAGCTGTATCCCTGCATGCA autosomal
GCATCAAAGAAAATAAGTTTTGCTGGTCCAAGGAAAGCCCTTTGTGCTGA autosomal
GCTCTTCCAGTTCTTCTATCCCCTGCTAGACTTTTCTTCCATTGACTTTA autosomal
GATGGTACTGTAGTGTACTTGGTATGCCCAAAATGAACAGACTACCTGCA autosomal
CAGTGGAGACTGGATTTCCAAAGGTCTATAATTCTTAGTTTCCTGCCACC autosomal
GTGCTTAAGCACAAAGGAGCCCCTAGGAAACCTCCTGGCAGGGGGCAGGA autosomal
ATTGAACAATTTTTTTTGTCAAATCAGTATGGAAAGCATCATGGTATTCA autosomal
AGTCAGCTCTGCCTGCCAAACTCCTTTGTCAGAGCCACCCCACAGGAAGC autosomal
CATAAGAACCTTCTCCTGCTAATCCAAAATGAGAGAAAAGGCTTTAAAGC autosomal
CTCCTGCAGTACTCATTGTTTAACCCTTGCCTTCTAAAAGATAACTTACA autosomal
TACTTCCAACACTGTTTGACAGAGATCTTTGCAGCATCTCTTGCAGGTAA autosomal
AATAACCACGACTCTCAGTCTGGACTAGGCACCGTTAGGTGCTGTGGGCA autosomal
CACATCAAGCAGAGAACCTGCCTATGTCATGCTCAGAGGCTGAGGCTACC autosomal
CCTGCTAACCCTTGTGGAGAGCTCAGCTCCACACAGCTGCTGTCTCACAC autosomal
GGAGTAGAGTTTAGTCAAGTTCCATCTGCAAACTCCCCTGCAATGAATGA autosomal
AGGCCTCTTAAAACTGCTGAGATGTCCATAAGGTGCATGATGAGTCCATC autosomal
AAATGCTGCTTCTTCTTCCTCAGTTTCCCTGAGCCCATGATACTGTAGTT autosomal
GTAGAACCAACAAGGAGTAGAAATGGTGAAATGGAGCCTGCACTTACAGA autosomal
AGGCAGGGATGAGGCAGAACTGTTTCAGCCCAGTCCCCGTCTCTGTCCCT autosomal
ATCCTGCTTACTTTGGTGTTGTGGCCTTTCTCCTCCAAGGACATGCTGAA autosomal
ACTGGGAATGACGGAATTCACAGACGGAAAAACAATGGGAATGACGGAAT autosomal
AATTTGGTCCCCCAGATTTTTCTTACAGGGCATCAATGTTCATAGAAAAG autosomal
AAGGAAGTGATGCATTAAGCAACATTTTGCAGAAAGCCCAGCAGCAGTTC autosomal
CTGCTCCTCGACAAGATCAAGAGCTACTATGGCCATGCCGAGCACCGCGA autosomal
CCAGCCCCTGGAAGGGGAGTCACGACACGGGAGAGACCTTCTCCCGCTGC autosomal
GCGAACAGGGCCAGTCCCTGGAAGAACAGCAATCTTTTTTATGTGCATAC autosomal
TTGATCCCTCTTGGCTTTTGGAGTGCAGAGAAATTGAGAAGAGAAAAAAA autosomal
CTGTACATCCAGCCACCCCAGTGAGGTACTGGTGCAGAGGGCAGTGCCAC autosomal
CAGACAGAGGAAGGAATCAAAACTGATGTGCTGCATAGAAAGCAGTATCG autosomal
CTGTATTGACCCAGTACGGTCTAATATTGCCACCAGAAGAAACACAGGCC autosomal
ATAGGGTGCTGCTTCACCTTTGTTTCAGCTGAAGAAAGCTTTGGGTAAGC autosomal
CAGATTACTTCTACCTGCTAATGTGAGCAAAGTGAAGCCATCTCCACCTA autosomal
GGGGGAAAAAGGGAAAATCCTGGGGAAAAAGGGAAAATTCTGGGGAAAAA autosomal
AGGTGGGATAAGCTTAAAAGGAGTAAGTGCAGATAGTGTCCAAAACTAAT autosomal
AACCCATTAGCAGGAAGGTGCTGTTAACAGGTTACGAACAGTGCCAACAA autosomal
AAGATTTGATTCTACTGCAATATGCAAACATATTCAAGAATACGTATTGC autosomal
AACATGGACATTCAGGGCAGTGTTGCTTTAAGGCTATTTTTAAGGCTGAA autosomal
GTGCTTTACACTGTGCCTGCCACCATCGTCATTGCCTGCTACATCTACGA autosomal
AGTGGTGATGTCACAGTGTTAAGCCAGTATCATACTTAGATCCCCCTGAC autosomal
ATGAAAATGCATTGAAAGAAGTCACTGTTGAGATATAGACCCATGGCTTG autosomal
AGAATGCTGTGATGTCAGATGGGGACTATTATCAGATCATCAACCCAAAG autosomal
CAACAAAAGGTGTGTTAAGAAGGTGTGTTTGACAGAACTGCTTTTCAACA autosomal
ACACCCTGCCAACGCTGCCTTGGAAAGACCTGTGCTCTGCGGTGTCCGGT autosomal
TAAAATGCAGTGATTGTAGTGTGATTTTCTCCTCTGCTTTGAGCTGGATA autosomal
GGCTTTCTCAGGATTTCTCCTGAGACAAGCTGTGAGAGAAGCAGAGAAAA autosomal
CTCTGGAGAATCAACGTCTACAACCAGCAAAAGTGTGTGTAACGGGGGGC autosomal
AGTCCCAGGGATGGGGAGCGCTGGGCACAGGGTCCAGCCTCATCCCAGGA autosomal
AGATTTTTCTCTTTACACTGTAGTTTCAAATTAGGTTTAACCTAATTAAT autosomal
CTGCTAACTTTAGCTTTCCCTCTGCAGGAACAAGAATCAGGAGGAGGGGA autosomal
AATTAATTTTAAAATTACTGTTCTGTGAGACTGTCAGTTGACCCCAGTAG autosomal
ATTAGTTTGAGAGTGTGTTACTTATATCATGGAAAAGTCTGTATAACAGC autosomal
AAATCAAAAAGCCTAAAAATTTTTACTAAATTACAGACCAAACCAAATTC autosomal
ACAGGGAGACAGTGAGGGGGGGACAGAGGTGACAGGGGAAAGGAGGAGCC autosomal
AGGTATCAAAAAACTATTAAAATAATCAAAAAGTTTAAAGGTGCAGCTAA autosomal
AATCTAAACAAAGCTTAAACAGTTCTTTTCTTATAGGTTTTTACATTCCT autosomal
AGAAGCCGTTCTGTTCCCTCCTGAGTTGATGCATGTGTTGTAGCCTATCC autosomal
GGCCATTTGCTGCCCACCCTGCCTGTCCCTCTGTCCCAGCCATGGGGCCA autosomal
CCCAAACTGGGAGCACTGGGAGCACTGGGAGCCTTACTGGGGATACTGGG autosomal
AGAGGTGTGTGCTTTCCCTGGAGCTGTGCCCTCTCCTCTCTGGTTCTCCT autosomal
CCCGGGAGCAGCCGGAGCCGCAGCACCGGGAGGGTTTGGTGCTGGCCAAG autosomal
CTGTTGGGTAATTGAACTAATCAATCCAAATAACTGAGGGTTTATCCCAA autosomal
CAACTGAGCTGGCTGCTCCGCTGCTGGGCACCCTGGCTTCGCGCTGCACG autosomal
GGAGCCTCCAGGTCAAAACCTCCTTTTGCCACCAAGAACATTCCCTTCCA autosomal
AACTACCTGGAGGGGGACCTGGGACGCTATGTTGTGAATGTCACGACAGC autosomal
AAAAAAAAAGAAAAAAAAATCAGCCAAATAATAACTGCAGTTACTCAAAA autosomal
ACGCCGAGCTCATCCGACGGCAGAGCAGGGAGGGCTCCTGAGGGTCGCCG autosomal
GCCTGCTGGGAATGCTGTGCTGTGGTCACCACCCTCGGGGGATGGGGAAA autosomal
GCTGGCTCCCTGGGAGCAGGGAGGTTAGTGGGGTGTTTCTCCTCTCAGAA autosomal
GGGTACGGGGGTACATCCAATGAAGGACGGACAGGTGGAGGGTCCCAGGA autosomal
AACCCTCTGCTTTTTATTTTGTAACTGGTAGGGTAGGAAGTACACTTCTG autosomal
GGGATCCGTGGGATGGGATTGGGATGGGATCAGTGGGATCAGTGGGGTTA autosomal
TAAAGAGGCAGGGGGTGGGGAGATGTTTCTCTCCTTGAAGCAACAACAGA autosomal
AGGTTACACGGGATTTCTGTACTTAACCGCTGGCAACAACAACAAAAAGA autosomal
CCAGACCATGTATCAAAGGAGGCCAAATCACTGATTCAGCAGGTGGGTGA autosomal
GAGGGCAACTTCATTCATAGACATAATTTGAATACAAAAATAATAAGCTA autosomal
AGAAGCTGCTCCAGTGCCTCACGTTGGGCGCCTGCAGCTCCCGGCAGAGC autosomal
CCGCGGCGTAGCGGCTGCGGGGACAGCGGGAGAGCAGCGCGTGTGTCGCG autosomal
AAAATCCTTCTAAGTCAAAAAAACCATTTCAATGTGAAATTTGTAAAATA autosomal
CCTGTCCCTGTTCCCCCCGTACAGGTGTTCTGGGTTACCTGTGTAACACA autosomal
GCCGCTCGGGTGCGGCTCCCACCGGGGTTTACACGAAAGGACAGAGGAAC autosomal
ATACAATATGTAACCTATGAAAATTATTATTGCTAGGCAGGCTGTGAAAT autosomal
GATTCAGCCACTGGTGGAGAGCAGCTCCCCCTGCCCAGGACACCCTCCCC autosomal
AGTGAGGGAGGTTTACTCTCACTAAATATGACTTATTTTTATTAAAGTTG autosomal
GGTTTTGTATGTTCAAAGCTGAGTAGAAATTAATACTAACACTGAAGTTA autosomal
CAGTTTGGAGTCATGTTTTGTCAAATCTTCTCTGAGACAGGGTGTACTTC autosomal
CTCTGGCTTTCAAAAAAGTGTTCAGGTAAACAGTCACCACATTTACATCA autosomal
GACAATCAGGCAAGAGCTCCGGCTGAAGCTCTTCCCACATTCTGAGCACA autosomal
CAGTACTCCTAAGTATCTGCTGTTAAAGGAGATTTTTGCTCATCACCCGG autosomal
CAGCATTAAACCCGAGAGGCTGGAGCGCCTTTCTGCAAGGAAAATCAAAC autosomal
GGATCAAGGGTGTTTTTTTAATGAGATGATTGTGGCAATTTGATTTTTCA autosomal
AGGAAAGCTGAAAGCCATCCCCCATCCTGTTGTAGGCGTCTGGATTTGAT autosomal
AAAATGCAATTTTGAAGACATAAAGAAAGAAGGGGGCAGGTAGGGTGGTT autosomal
AGTGGAGCATCCTGGGATGCACAGAGCAGTATTTAAGGGACTCTACTTAC autosomal
ATCATCTGAGGGAGACCAGGACAAGCCTTTTACAAAGTCCCGATGAGAAT autosomal
CATGTAAGCATTTAGAACAGCTTTCAGGGTTTATCTGAAACCACTTTCTC autosomal
ACAAAATCTGAATTATTTTCCCAAAAAATTTGAATTATTTTCCCACAAAA autosomal
GTGGCAGCAGGGGGAGGTTTGGGACCGACCAGCCCTGTGATGGGGAGGGA autosomal
TGACTAACAGTTGAACCACAGTTGGGATAGAGAAACTAATTTGACTGCAA autosomal
CGGCGCCGCGCGGTTGCAGGAGGAGGCGGCGGAGCTGCGGCGGCGGCGGC autosomal
ACTTTGGTAATATTTTTTCCTCAAACATGAATTTACTTTTAAGATTGAAT autosomal
GCACAAGGAGCTGGGGGAGGACGAGCTGGGACAACTGACCACAGCTGGCC autosomal
CTTCCAGAGACCTGAGCAGCAGCTTCCATGGAGGGAAACAGCACCCAGTC autosomal
GGGAATGGCGCAGGGATTTATGTGTCCCCAGGAGCAGTTATTCTACTTTA autosomal
GTTTTAGTTTTTTTTTTGTGATTCACGAGGCTTCCAACCGAGCGACTTCA autosomal
GCAGCACCTCGGGGTGGGACAGCAGCTCAGGCTGGCTCCAGCTACTCCAA autosomal
AGGTGTGTTACCTGGGTGCCAGGTGTGCCCAGGTGGGGTTACCTGGGTGC autosomal
CGCTGGGGCCGGACCCCCAGTATTTAACATTTCCAATAAAACATCGGTGA autosomal
ACTTTTTTTTAAATTTCTGCAGAATATTTTAGAATTTTATTTTGCAAATA autosomal
GAAGCTGGTGTTGCCTCGGAGTGCACCAGGACAGAACCTGTCCAGGGGAC autosomal
CCACAGATTGTTCATCTAAAGCATAAGATCCACTTACTGAGCCAGCAACA autosomal
CTGTATTACTTACTACAATATATTCTATTTCTGCTCCTCCTTTTGCTTAA autosomal
ACATCTTCAGGTATTCACCAACTTCTGGACACGGGGTAACTTGTGGAATG autosomal
TCCCCGGTGTCCCCTCCCCGCTCGGTCCCCGCAGGTGACAATAAATGCCA autosomal
ATCTCCAACTACTAATGAATGTTCCCAGAAAGTCTAACAAAAGAAAAAAA autosomal
AGGATGAGGAGGACTGCAGGAAGAACCTCAGAGTGATGGAAAAGCAGCAG autosomal
AAGAGGCCGGCTGTGAGGGGCCGCAGGCGGGAGCCTGTGATGCGGTTCAG autosomal
CCCATGACAGTTTTGAAATCCAGTTTTATTTTTCAGTTCTGCCAGAGCAA autosomal
AATAATAAATGTGAGATCCTGTTGAGCATCATTGTCTCCTGCTCCCTTCT autosomal
GACAGCTTTATAGACGATGAGGAGGAGGAGGAGTGTGAACCTACTGATGA autosomal
GCCAAAGGACGCTCTCTATCCCTATGGGAACATACAGAGGAGCCCATAGA autosomal
CTGAAAAAAAAACAAAGCAAAAAGCCTGGACAGTCATCCATAGCATCTAA autosomal
AGTGTTCACTGTCACTGTGGATCGGATCTCCTGCTGAGCAGCTTTCATGC autosomal
TAATGCTTTAGAATTTAAATCCTAAGTAAAGTCAAAATGGAGAAGGTGTA autosomal
ATTACTCTGCAAAATTTTTCACCTGAAAATACAAGCAGAAAGTATAACAG autosomal
CACACCATAACAAAGGCACCCTTCTGGAGTCTGACACTGCGATAGGCTGG autosomal
CATGCATAGTGCATAGTTTTTCTGTTACACTGCCTAAGTGGTAAAGCAGA autosomal
CTCCTAATGAGATTCTGGATTTTTTCTATGGCTATAGAGTGATACCAGAG autosomal
ATGAAATCCAAAACTGGTCAGGATGTATATGCCTAAGCAGGTAGGCATAA autosomal
CAACTTTTCACTGAATGGAACTTAATTTCCTCAGGATAGTAGCACAGGAA autosomal
GGCTATAGCCAGCTGCCCTCCCAAAGAACTGACAGGCACAGAAACAGCCA autosomal
AAGGATCTCCTGATGTTTGGTTGTCACCATGACACTGTCTGGCCACGGCG autosomal
CCAAGCGTCCTGGAAGTGCCTGGTGTTGGTTAAAGCCTGTTAGTGAGAGA autosomal
CCCAGGTTCCTATGTTAAGGGTTTATATGAAAAAGCAGGAGTTCTCCACC autosomal
GTGGTTTAAAAACTCCTCAGAATCCTTCAATAAATATGCAACTGCCTTCA autosomal
ACTCTAAATAAAGGTAGATCAGAGTTCTACTGTATACCAAGTACCTGATG autosomal
TGCCGCTCAACGTGGCCGACCTCATCTGAGCCAAAAAACGGGGCAAAAAA autosomal
GGAGGTGGGTGGGCTGCTTTACCATTGTCTGTGTTGGGAATCTTGGCCAA autosomal
TCCTGAGCTCCTTAACCAAAGAGTGGCTGCAGGGACAGTTTGACAGATAA autosomal
CACTATTTGCGCACCTAGCATCACAAGCCCCATACCAAGCCTGGCAGCGC autosomal
GTAAATAATGTAAATTTTTTTTTTTTGAAAGTATTAAAAATACAAAAATA autosomal
ACTCATTGGTCACTCAGGGTCACTCGGTGTCGCTGTCAGCGCTGTCCCTG autosomal
CTGCCAGCTTTTGGGTCATAACTCCCACTACAGAGCTCAAGAGCTCACAC autosomal
AATATGCAGAGGGCAACAGCAAAATAAAGAGGGAGTTCTAAACAAAATAG autosomal
TCAGATCTCCTGAGCAATGCAGATGAGTCTAATGCCTTCATTCTTCTCCA autosomal
CTTTTATAAGGAAGGTGCTGCTGTGTGATGGACAAGGCAGAGTGGTTTAC autosomal
CAGCCAGATTTGCAGCCTGAACCTGAGTAAAATAAAATCCTTCTGTATCA autosomal
AATTTGATAAGCTAAACACCTAATAATTGTTGCAAGAACTTACTGTACCC autosomal
ATAGTTTGCTTTAAAATGAAAAATACTTAGTAAACCATTCTTGATGCAGA autosomal
CTCATTTTCCCTCCGGCACGGCGGGGCTGGTTCTCTGCTCCTCCTGCCGC autosomal
GATGGACAGGATTTATCACAATTCTATTCCAATTAAAAATTGGGTTAAAA autosomal
ACACAAGTTCTATGGAACTTGTACCTGTACCTACTCCTGCCTGTAACCTA autosomal
TTACACTGGTCTCACAGTCAAATGGAAATCACCTCTTTCTTTAAAGAAAA autosomal
AATGCATGAATGACCTTGCTTATATTATGGGGAAAATGGAAAAAAACTCT autosomal
AAAGACAGTTGCTCTAGACAAGTAAGTTGCACACTACCAAATCTGCTGTT autosomal
AATGAGGCATTACACTTTGCTTGGAGAAATACCAGTACACCACTCCATAT autosomal
CGTTCACTGAAAAAACCTGAGCTTTTACTAAAGCAAACTACATGGAATAA autosomal
AAATGACACAGCTTTTTATTTAGATCACTAAAATGTTTAGTGAGATATAT autosomal
CAGGGAAGAGGAGCCAGTGTTTCCCAGGAGCTGCCCCGGTGCAGAGCCCC autosomal
CAGAGGATCGCCAGCACAGGCGACGAAGACGAGGCCTGGAGTGTGATGGC autosomal
TCAGTTTAAATGGGCTAATGATATACCAATGGCTAATGTTCTTTTCTGAA autosomal
CAGACCAGGGAGGAGAGGAGAAGCAGATCAGCTGTTGTGGCAGTGAGAGA autosomal
CGGTCTCTGGGCTGGCGTGTGCGGGCTCCGTCTGCCTCTGCCGCTGTCTC autosomal
GTTCAGCTTCAAATCGAATGCAAGTTTCACACCCTAAGCAGGGATGCCCA autosomal
GGGCATCATTTTCTCAGTGCTGATCTTGTAGGACTCGAGAACACTCTTCA autosomal
GCTCTTTGCTTTTTGCTTGAACACAAATCTGCTTAAACACAAAAGTCTCC autosomal
AGAAACATGAAAAATCTCTCATCCACTTCAGAGAGGAAAAAGCTCAGAAA autosomal
CTTCACAAGACATTTAAGGAATCTTTATCTCCTTCTGAATGACCACACCC autosomal
ATTCCCAAACTTCTCCCAGTTTCCCTCCCCCATTCCGGGGTTTTCCACAG autosomal
AGGCTTTAGGCAGCAGAAGAAACGAGGGGTGATGGAAATGCACATCAAAG autosomal
ATTTCCCCTTGCTCTGGCATGAATCTTCCAGGATGTGCCGTGCTCTGCCA autosomal
ACCTCTCTAACTCTCTGTGATTTGAATATGAGACCAAGCCAGAGTGCAGT autosomal
AAAGTGGCAGCATCGACACTGTTATTTCATGATTTCAGATTTGTCAAGGG autosomal
AATAGTACTGGAATAATAAATAAATTTTGAATATTCATTAAAAATTGTAT autosomal
CGCGCCGCCCTGGGGGTGAGCGAGGACAGCCACCTGCTGCTGGCCCTGGC autosomal
AGCAGGGACATACCTGTGGCGCTCAGAGGATGGTTTCCCGGCACACGCCG autosomal
GATCTAACCTACCAGCAGAATTTTCAGTCATCCTTAAGTATCCACTCAGC autosomal
CTGATTCTGTCGGTTCCTTCACATTTATTCAAGGCACTCAGTGGCAGGGC autosomal
AGCACTGGAATGGAACCCATTAGCAGGAAGGTGCTGTTAACAGGTTACGA autosomal
ATTATTATTATTATTATTATTATTATTATCTAAACAAAGAATCAAGATGG autosomal
GTGTATGAAATGCTGCTAACACTTTTCTGGCTTCTTAAAAACCTGTTCCA autosomal
AAAATAGATTTATTGTTGGTACAGAGCAAGGCATTTTTGTCAGGACTTGA autosomal
ACTGCCAATTTCTCTTTCCCACCAGGATGGCAGCTGGATTTTTAGTGCCT autosomal
TGCCTCTCACTATGTTTGTGGGTTCAGCATTCCTTTCAGTTCCTCTCCAA autosomal
ACATTTTGCTGTCTTCCTGCTCTAGTTTGTGTTGGCAGAGCTTGCCAGAA autosomal
AAAGTGGAATGAGTTACAGGAGTTAAATCCACACTGTAACTAGAAAAATG autosomal
ACAGCCAAAAGAAGTGTACCAGCAGCAACAGTTCAGTAGTGGTGGAGGAA autosomal
ACACACTTAGTCAATACTGCAATTTCTCTCCATCCATACGTTAAAAAATC autosomal
AAAAGGGGGACCCCCAAAAAGGGGATGGGGGCGGGAGGGGGAGAGAAATG autosomal
CATCTTAAAATATTTTGAATGACTAGCAGTAAATAAAGCTGTATGTTACA autosomal
AGGGGGGGGAGGGGCGAGAAATTGTGGCATGGGGGATGGGCAGTGGGGGA autosomal
AGGCCCTGTTCTTTTATCCCTTTAAAACGGGTCTGATGTTTCCCTTCTAC autosomal
CAACACTTTGCTAGAGAGGAATTTTTTTTCCCCTAATTGAAAGAAAATGC autosomal
ACAGAGCTGTTCAACTATTTTTGAGCAGTCTTAGGAATTCAGAGAGGTCC autosomal
AAATCTTAGGGATGGTTCTTGAAGGGGATTTAATCTGTAAATACTGACCT autosomal
GAATTCCCAGTGGGATTCCCAGTGGATTCCCAGGGGGATTCTCAGTGGGA autosomal
CATCAAACCAGCATAGAGGAGGTGAACTGAAGTATCGTTTTTAAGCTATC autosomal
ACTGCCCAAAACGGCCCAAAAGTGCCCCAAAAACACCAAATACAGCCCAA autosomal
TGCTGCATCCAATGAATTCGCATAAGAAAAAGAGCCAGCATCACCTCTAA autosomal
CCCCCGTGGCCTGCGGGTGGCTCTTTGTTTATCCCTGCAGCTGGAGCCTC autosomal
GGAGGGGGTCCAGGCTGTGCCTCAGTTTCCCCCTCCCTGCCCCCATCAAA autosomal
AATGAGTTGGGCATCTTAATCTGCAATTTCAAAGTGATTTACTGAGCCAA autosomal
CAGCGAGGCTGGCGCCCCAGCAGGCAGGGACCCTGCCTGTACTGCCTCGA autosomal
ATCACTGCTCTGACATATTGCACACAGCACACACGCTGTACCCACAACAG autosomal
AGAGCTCAGCAAGCAGGAGGAGAGGGGTGGTTGCTTTCCCCTCCCCAGAT autosomal
CAAGAATATCCCAAAAGAAGATGCTTTGTCATGAAGGGCAAGCAAGCCTC autosomal
CACCCTGGCTGTCCCTGGCCAAGAAGAAAGCCAAAGCATGGAGTGAAATG autosomal
CTGTAATTTAGGATCTGCACTGTTCAGACATGCACAAACTTTTGTACTAC autosomal
ACTGAATCTGTACACAGACTGATTTGAAAAGACAGTGTGGAGACTGTAGA autosomal
GGGTGCCCGGTTGTGAAGTGCCTGCGGGTGCAGGGGCATCGCACCGGGAA autosomal
CGGGGCCGGGTGGTTTTTCCTTGAAAGGTGGGCCCAAAAGCACCAAAAAG autosomal
AATACGATACACTGTACTGTTATATTCCCTTTGTGGAATCAAATAAGTGA autosomal
ATACATCTAACAGGGATTAATCTCTTTGAAAAGGCAAAATATAAATATAT autosomal
ACCTGTGCCAGGGGGCAGAGGCACCTCCACCTTGTGCTGCTCAGGAAAGG autosomal
GACTCCTTCCAGCCCTTCACTTCCCGGTGCCGGGGGTCCCACTCAGGGCA autosomal
AAGGGACTGAAGTGAGACTGACCAGCCTCAGTTCCTTGGGTTCTGCTGCT autosomal
CTCAAGTTCAGTATCTTCCACAAAAAATCCTGACCCCCCTCTGCCACAAC autosomal
AGAGGTTTTCTACCTGGACCGCCTGGCTGGGATGACGCTGGAGGAGGCCA autosomal
AATGGGGCAGAAAAGGGGTAGAAAAGGAACAGAAGAGAGTAGAAAAGGGA autosomal
AGCAGGCAACGTGGTGCTTCCTTTGGTTCACAGGGTAACAGGAACCCTTG autosomal
AAGGCATTTTTCACATTTTACTACAAACCATTGCTCTGAAAAATAAAAGT autosomal
GAAGTGTATTTTGTATTTGCTCACAATCAAAACAATCTATCCAATTCTCA autosomal
GAGTGCTGTGACTGACAAGGTGATGCTTGGTCACAGGTTGGACTCGATGA autosomal
ATGTTATGCTCCAGTCATAGTGGAGCCACCAGCAGACCTCAACGTCACAG autosomal
AGTATATTCTTGCCTTATGTTAAAGAAATATATTAGTTAAGCTTCAGAAC autosomal
CAGACTCTCTGCTTTCTGTGGTGATCAGCTACAGGAGTGGAAAAGAAGCG autosomal
CGGAAATTTCCCCCAAAATTCCCAAATTCCCTCACCGGGACTCCCAACTC autosomal
CCCGTCGGTGAAGATCGGCTGCCGCGGCCCCGACGTGTGCGCCAGCAATC autosomal
CCAAGGACACTTACGATGCTCTCCAAATGCAGCCTTTGCCCCCCCGCTAA autosomal
CTACGGGGGGCGCCCGGTGAACCTGATGGGCGTCAACGTGTGACACTGAG autosomal
CTTGCATACAAAATTGATTTGTAGAGGAATCTAATTTGACTTAAACAAAA autosomal
ACCCCTTTATTGTTGTGCCAGGAACCACAGCAGCGGCAAACACTGGGACG autosomal
ACCAAACAAAGCTAGCACTAAATAACATTTAAAATTGTATACCTTTTAAT autosomal
CAGCCTTCGTTTAAAAAAAAAAAAAAACAAAAACAAAAAAACAAACACAG autosomal
CACGGAGCCAACACCCTTCGCCTGCCCCCATTCCCAAAACAGTCAGCTGA autosomal
GGAACACGAGACGGAAAACCTGTGCAACTCTAACCAAGAGGCAGTTTTAA autosomal
AATTCAGTGATCTAGGGCAGACACAACATACAAATTTCCAGGAATTCTCT autosomal
ATTCTGAAACAACGTATACCAGACATCTTTCAAAAGAACCGTACAAACCA autosomal
CAGCCGCCGCCGCCCGCCGCGATGCCCACCTCTACTGGTCCATCCCCAGC autosomal
GATTCTTGCCTATGGACTTCTCTGGATTCTTTTAAATGTTGTGTTTAACC autosomal
AACCCCAAAAAATGCCCCATTACCCCCCAAATTGCCCCTCCCAGACCCCA autosomal
AATTGGGAGGGACCTTATCTCGTTTTGTTGACAACAGAAACAGCTGTCCG autosomal
GAACCACTCCACTGCCTTGATAATTCCTTAGGGAAGGATGAAATATCACC autosomal
CAGTGAGGAATAAAAAAGTAGTCAATGGTAAAATATCATCCAACCCAAAA autosomal
AGCCCTGAACCCCCTCATCTACAGCCTGAGGAACCAGGAGCTCAAGGCTG autosomal
AAACGACACTTGTGAATTGGAAAATAACTCTAAGGTCATAACTTCAATGT autosomal
CAGTTATTTTTTTTTGGCAGGAAATCACTGAAAAAAAAAACAAACCCCAA autosomal
AAAAAGAGGACCAGAAAATGGTACAAGCAGGAGGAAGAATGGAAAACAGG autosomal
AATTAGGGGTGTGAGATTGTCAGTAGTGAGCCTCAGGGTGGGGGTCCTGG autosomal
CCAGTATAAACCAGTATAAACCAGTATGGACCAGCATGGACCAGTAAAAC autosomal
AGGCCAGAGTGTCTTTCATGACAGACCTTGCTTACAAATTGAACTGCACA autosomal
AAACCTCCAAGTGTTTTTAATAATATAAATAGTGTCCACAAACTGACTTG autosomal
AATTCCTCCTCTTCCTAGTGGATGAGAATTCTGATTATAAGTGGGTCTCA autosomal
TACAGAACAAAACAGAAGAAGCTGCATGGCTCCTAAGAGGAAGATAAAAA autosomal
AAATATTTTTGTTCTTATAAAGTGGTTAAAAGAGAAATTATATATAAAAA autosomal
AAGTATGGCTTAAGAGCAATCTGGTTAAGGCAGAGTATGTGTTTTCAAAG autosomal
CCTCCAGCAAAAAGAGCATAAAAAGCCAAAGCCTGAAGAGTGCCACAGAG autosomal
GAGGAACCTCCCCGGCCTTGGTTGGGGTTTTGTTGTTTCCATGTGGCTCC autosomal
AGCAGTGGGAGCCTGCGTGGCCAGGCAGCTCCTGCTGCCCTTCCTCTGCA autosomal
CCAAAAAACACCACCACAGCAGCATGGATTGCTCCTGACACAGTGATGGG autosomal
CTCTGCACCTTGCTGCTCTGTGCAGAACTTTGTGTTGTGGGGTGTTGGGC autosomal
CACTGTCTTCCTATACTCAAGGATTTTTTTCCCCCCGATTTAAAAATGCA autosomal
AGGCGTTGTACAGAAATCTGCTTTTCTGACAGCATCCTGTGCTCAGGTGC autosomal
GATTTGAAAATATCAGCAGTCTCGGTGCTTTAACCGCCTGCCATGACTGA autosomal
CACCCAAAGCTATGCCTATGGAAAAATGGAATACTGTAATAAATTAAGGA autosomal
AAGGGCAAGCTCAGGACCTACTGGCTGCTGGGGGAGCGCGGGGGCAGCAC autosomal
TATTTCCATGGAGACACATGGGAGACCTGCACGGGCATGGCTGGGAGACA autosomal
ACTGTCGGGCCGTGTATTACACTGGAATGGGGGGACCCGCAGAGCGGCTC autosomal
GAGTTGCTTGAGAGATTCTGAAGGAAAATTTACAGCCTGGCCGTCATGTA autosomal
GACTAATTATTAAAATAGGAGAGATCTTATCAGGTGTTGTTTAAAATGAA autosomal
TAAAAGTTAAGTGGTATACAGGTTATCCCAGAGTGACTATAATACAGAGA autosomal
AAAAGAAGAGAAAGCATTCCTCCGATGAGTTCTGCTACAGAGGTAAGGTA autosomal
CAGCAACAATGCAAAAACTGAGAGTGGAGTCCAGAGAGAAAATCTGAAAC autosomal
CAGGCTCTGTGATGCTATAAAGGCTGGTTAACATATATATGAAAGCCATG autosomal
CCGCAAGGGGCCCGGCGCCTTCCTGTGCAAGGAGTTGTGTCTCTGCGGCA autosomal
AAGTTTGTCTTAATGCTCCAGACTCATCACAATAAAAAAGTTCTAAAAAT autosomal
AGGGACTGTACAATGTAAAAAACCCAGGTACTATTCACAGAATAAGCACT autosomal
CTGCCTCCCCAACCTGAAGCCCCCTCCCCAATCCCCCCTAACCTGAAGCC autosomal
TGGCTTGTAATTCTTCATACAAAGTTGGAAGTTTTTTCCACGGGCTAAAA autosomal
AACGGGCTGGCGCTGCTGGTGACCTTCCTGGGCTGCCGCGTGCTGCTCTT autosomal
TGCTCCTAGGGATTTTTAAGCTGCACTGATTCATGTCAGGTTTGGGACAA autosomal
ACCAGGGCGCCCCCCGGTGGCTCCTCCCGGAAGCGCCGCAGCCGCAGCCG autosomal
CACTGATTATTGCTCTAGAAAAACTGCATGAAAAATTCAAATACACACAG autosomal
CCCAGGGGGGTCCCCGGGGATTTTGGGGGGTCACCGGATGGCGATGAGCC autosomal
ATTGCTCTGTACACACATACACTTGACCCCCACAGGGCTCCCTGTGGCTC autosomal
CCCAAGGGCTGAAGAGCAGGCATCCCCCAGCCAAATTTGGGGATAGAACG autosomal
AAGCAATTGTAATCCTAACGCAGCTGCTCTAATTTTAGACAGTTGGAGGA autosomal
AAGATCTTATTTAAGTCAGTTGTATGACTGAACTCATCATTATTTCCATA autosomal
AGCTGAGCTGGATAGTCCATCTTCACCATGCTACAGTTCTGAACCTGAGC autosomal
CGGGGGGGTGCCCGAGGGGTCCCGGGGGGGTCCCACGCCCCCTCCCCAGC autosomal
AAGGAAGAATAATTTAATGCTGCTTTTCATAAAGTCAGCCCCCAGCCAGG autosomal
CCACAGAGACTTTTTGCAGCTTACAATACAGCAATGCAGGCACACTTCAG autosomal
CAAAGGAATTGCACAATACGGGAAGGAAGTGGTGTGCCAGCCTCCCAAGC autosomal
GCGGCGGCGGGGAGGTGGATGCCCTCGCCTACGTCCCAGCGGGGCGGACA autosomal
CATATACAGAAGTGTTCCTTATCCTGTGCCTTGCCTGAACCTGAATAAAC autosomal
CTTTATTAATTTAAAATTAAATGTATTTCAAAAGGATAAAAAGTGAAAGC autosomal
CCAAGTTGACTTACAAAGCTCTGCCTTCTGTCCAGCCTCCTCTTGGCTGC autosomal
AAGGTGATGTGCAGGAGTGAGTAAACAACCTTCCTGTTTACTCCTTAAAA autosomal
CCTACAAACTGCATGAATTTTACCACACCTACAGCAAAATAAGAAGATAA autosomal
CAGGAACATTCACACAGGCTGCATTTTCCACTTCCACAGGTGTTGTGTTC autosomal
CTGCAAGGTTTTGGGACGCTGATAATGAAAAAGTACAAACATGTTTTCAA autosomal
CTCGTCCTCCTCAGGACCATCTTCCTCCCTCTCTTCATCCTCAGCAACTA autosomal
CTTCCTGGGGCCATCCCAGTCTGCTCCGTGGATACTCGGACCCAAAGAGA autosomal
CAACAGCTCAAACACTAATGTGTAATCAGCATCGTTTGGGTCAAAAATCC autosomal
AAAAGAACAAAACAACTTAATTACAGTGATATACTGATAACACATACTAG autosomal
CCCTCCTGCCCACAGTCTCCCAGTAGACTGCTCAGTGCTCGAATGCATTA autosomal
GATGAGCCTTCGCAAAATGGAAATCTAAACGAGTTAAAAACCAAAATAGA autosomal
GCTCAGCAGCCCCCCGCTCCCCCCCCAAATCACAGAGCAGCAGCATTTCA autosomal
AATATTGCTTTCAGCCCCTTGTAATGGCAATTACTCGTGTATTCATCAAA autosomal
ACGCTGGAGGTGCTGCCCCTGCCCCCGGGACTCAAGCAGGTGCTGCACAA autosomal
CACACATATTATCCTGGCACTCCCCTTACAGGAGTGTGGGTACAGACAGC autosomal
CCGTGACCCCGCGCCCTTTGGCCGGGCCAGGGCGGATGTTCCCGCTGGAC autosomal
GGTGCTGGTGCTGGTCCCGTGGGGCTGGGGCCGGCGTGGGCACAGATCCA autosomal
ACTTTTTCCAGCTGCTGTTGGGATGTGCTGGTGACCTTGGTCCCTCTAGA autosomal
GGCCAGGGCTCACTTGTGCCTTGCCACGCACACGTCCGTGTTTGAGGGCA autosomal
TCATTCACTGGTGACAGGAGGCTACTGCTGGAGGACCTCACGCAGCACCA autosomal
CCCCAGCAGCGATGCCAAGCTCGTCCCTGCTCTCCCAGCACCCCGGTGGC autosomal
CTTTTCCCATTTCCTGTATTTTTATTTTGTTTTTCTCTAACTTCCTTCAA autosomal
AAGGGCCTGGGGCTGTGAACGTGCCGTGAGTGACGGGAGGGACACGGGCT autosomal
AAATCACCCCAAAAATAGCTCTGAAATCACCCCAAATATAGCCCTGAATT autosomal
ACCACCAGGCCCCCGAGGAGAGCGCGGCGCAGTTCTGGGCAAACAGGTCC autosomal
ATCTCATGTTAAGATCTGCTTTAGGCTTTGCAATTCAGTCGTGGGTCCAT autosomal
CTAAGCATCAGCCCTGCCCAGTATCGAAGGGACAAGTGCCAGAGCTTCCC autosomal
ACCGCCCCCCCCCGCCCCGGATACGGTAAAAAAACGAACGGAAACGGGAA autosomal
CATCGTGGGAGGCTTAAAGATCATCTCCTTCAAGATGACCTGATGGGCAC autosomal
CCTGCTCATATGCAACACCAAGTCCCAAACCATCAGGACTCTGAAGATAC autosomal
CATTCTTGTTTTCTCCCCTCTCACAAGTTTCTTTTTTGCCACATGTATAA autosomal
TAGGATTGACTACTGGCTAGTTTTAATTTCAAGCACGTTGCTATGGTGAA autosomal
AATCTCTCTGGTTTTTTTTCCCAATTTCTCTGTTTTTTTCCCAGTTTCTC autosomal
AAATCTCTCAGAATTCTAAACACCAAAAGAACAGAAGAAAACAAAAATGG autosomal
CTTATGTGCAGTAAAACCTGTTTCAGCTTGTTGGTGCAGCTGTTTCCAGA autosomal
CACAGCCAACACCCTGGCTAACATGGGGAGGGGGGATTATGTAACCCAGG autosomal
GAGGGAGAGGGTGGACTGAGACATGTGCTGGGAGTTTGGTCTGTAAAATA autosomal
GCAGGAGCTGAGCCCCCCCCCCGCCCCGGGGGGGTCCCGGCGGAACCCCA autosomal
CTGACCTTATACTGTGAACCTATGAGGTTCATGTGCCTGTAAAATTAATC autosomal
GGTGCAGAAGGATGACCCCTCAACGCCGTGTCGTTCTGACTATGCTCGTA autosomal
GCAAGAGTGAGAAAACACCAGCTATAACAGAAAAAAGAAGACCCGTCCCC autosomal
ACTTGGCAAAGCACTTTCCAATGTGCAGCTATGACCTGCTTTATTTTAAA autosomal
CTGGGCTACCCCGTCTACTCCTCACAGCTCCTGCAGCTGCCTCTCTTCTA autosomal
CAAGCAAATAAAAATAATCAACAAATTTGAATACACTGTATTTATTCGTA autosomal
TGTGAAAACTGGGATGGCTGCTGGAATCTGAGCCCTTTCCTTTCAAAAAA autosomal
AATCTGAAGCACGTTGTTTAGCAGAAAAGAAAGGCTCAGGCAAGAGCATT autosomal
AACTCTGAAATTTTGCCATGGATAACATAGCACTTGTTGTAACATTTAAG autosomal
TATTGTGGACATCTGTATAATACTGGAATAAAAATATTTAGAAATGCTAA autosomal
AGTCAATGAATTTAAAATAATTAAAACACCATTATTAACCAAGACTTATC autosomal
CAAGTAGGTATAGCACCTCAGGTCCCTATGCCTCTTTCAAGGCTTAGCTG autosomal
AGACAAACTCACTTAGGGAAGTTAAAATGTAAATTTGTTAATATATTAGG autosomal
ATGGGCAGGCAGGGAAGGGTAACTGGTTTCATGGAACAGTGTAAGCTCCA autosomal
AGGTTTAGGCGCACTGAGAGATGATGTTGGAGTTGCAGTCTAAGCTGTGA autosomal
TCTAAATCATGCTGAAAAAAGGAACTTTTTTTTTCTTTAATTATGAGTAA autosomal
AAATTGACTGCAAAGACATGAGGGACAAAGACAGCCATTTTCCTGATGTT autosomal
ACATACAATATAGGAGAAAAACAGTTTTCCAACAATATAGGAGAAAAAAG autosomal
CAAAAACTAGTATTTTAAGAAGTTGAATAAATAAATGTTCTTGGATCTCA autosomal
AAAAAAACCCAAAAAAACCCCCAGTCCATCAAAATCTCATTCCCTCCAGA autosomal
CCCTGGGGGATCCCCAAATCCCTGTGGAACTCCAGCTTTCAGGGAATCCC autosomal
AATTAATTCCATTATATACCAAAGGTGTGTTTCACTGTAACTGAAGTTAC autosomal
AAAATCACAGCTGCTGCTAATGAAATAATGGCTGCAAGGGGGTTGGAAGA autosomal
AATAACACCTCACCTCGGCATTAAAACAGACAAGGCCACCTACATGATAA autosomal
GCCGGAAGAAAGCGATTCCCGGGCAGGAATTCTGTCACGTCCACACCACC autosomal
CCTACAAACTCCCAAGGCCTTTTGCTTTCATGTGCAGATGAAAATGAGCA autosomal
ACTAAGTAATTTAGACAGGCTAGAAAGAATTTCTCATACTGCTCAGAGAT autosomal
CATAAAATCTGCTGTGCTGGTTGGTTTTTGATATCTTGCTTTCAAGAACG autosomal
AGTCAGAAGGAGAGTCCACAACCTGCAGCACATCAATAGGTGAGGCAGTC autosomal
AAACCTTTTTTTTTTCCTCAAAATCTCTTTGCAAGGTTGTCTTCATTTTG autosomal
ACCGAGTAGGTCGTGCCTCGGGCCGGACACGCAGGGACAGCGCCCGGTGA autosomal
CTTTAAATATATTTTATCTGCACACACAAATGCATGAATTACAGAATTTA autosomal
AACTACGACGTGAATTTCACCTTCTACCCCCGGCGCACCCCTCTGCAGCA autosomal
TCTCTCATGTGAAGATCCCTTGATGACATTTCTAATATCTTGATTTTGCA autosomal
AAATGCAATTTCACACAAAGGTTAAACAAAGGGAGATTGATAGAAACAGT autosomal
CCATCTGTGCCCGTGCTATAACTGGGACAGCAGAGCTCACAGGGGAGCAG autosomal
CACTCTTATTGCAGTCTCATGGTGGGGGCTGAGCCCTCTGCCCTGGGGCA autosomal
AGAGTTATCTGGGAGAAAAGTCCTAAATTTTAACACCACTAGCTCTTTTA autosomal
AGACAGGAGTGACGTGGTCATAAGGGCCCTTTCTGCAAGCATGCAAGCTC autosomal
AGCCCTTCTTGAGGTCCTGGAAACCAGTATGAAATGTCCAAGGTGAAGCA autosomal
AAGTCCTTGGATGATGTTCTCCAAACATCTCCAAAATCTTATCTTCTCTA autosomal
ACTGAAAGGCAAAATGTATCCTGAATATCTTTGGTTAATGTCATCTTGAT autosomal
CTGGCGGGTGCAGAAGGCGCTGCTGCAGAAATTCACCCCCGAGATCAAAG autosomal
ATTCATATGATGTTGGTGGTGTTCAACCCACAGGAGGAACAGAGGAGGAG autosomal
ACATGCCATTATCCTTGTAAAATTTTATTCCTTGTGAAGACGGTGACAGA autosomal
AAACCACCAAGTTCAAATAGTCACATCAGCATAGGAGCCTCATCTTCAAA autosomal
ACCAGGGACTCCATTCAACCCTCACCATTCTATCGTAAGCTGGTCTGCAT autosomal
AGATTGTACTGCAAAAACAGCAGTGTGTGCAGAAAAAAAGAGACTACTGA autosomal
AAGCAAAATAGCTTTCTTCCTAAAAGATTAACTTCATAACTTTAATCCAT autosomal
ATATAGTTTTATATATATATATATATATATATGTATATATATGTTTTTAA autosomal
TGAATGCTGCAAGCGAACATGCAGCTGTGCTGAAAATTATCATTCATACA autosomal
CACTATTGTAAAAACTTCATTTGGGTTTACACATTTCCCTCTCTCTATGA autosomal
CAAGGAGTTGGTAAACCGAAGAAAATTCAGGAAAGTGCTCTGAGAGTGAA autosomal
CACCTGAGGGAAGTTGATAGGCAATGCTAGGCATGGCAATTAGCTTACCC autosomal
CCAGTTCTGCTACTGAACCCGAGCGATGACAGTTTGGAGATCTGAGGAGG autosomal
CCCCAAACTCCCCCTGGAGAACCCCCCAGCCCCACAGCTGACCTGTGGCC autosomal
AGGTAATTTTCCTTTCTTTGTGCTCAGAGGATGAGCAAGGGAGGTAATAC autosomal
GATTTGTCCCTCAGGCTGGTCCCAGGAGGTGGCTCCTCGCTTTCGGTGGA autosomal
CTGCTCCAGGCAGCAGCGCCCGCCCACCACGGGCCCGAAGGGTTTGGGGA autosomal
CTGTTGCTGCAGGAGCTGCCTCCTCAGGATCTCGCGGTACTGTGGGCTCA autosomal
CATTGCAGCCACATAACCAGATTAAAGAATTGAAAATCACAGGAAACTGC autosomal
CCACCCTGGGGCTTATTCCGGCTTCTTCTTGACCAGACCCGGGAGTTTCG autosomal
GGCCCCCCAGCCTGGCTCCCCCCGGGAGCTCCCCGCAGGTACCGTGTAAC autosomal
CCTCCAAATTCTTCAGGTTCTGCTCCGACTCCATCAGTTTTCTCTTCAGG autosomal
AAATAGTGTGCCATACTAAAATTATGAAAGCTAGAAGTACAAAAGTCTTA autosomal
AATATTTAAAAATTTATATTGACTTCTCATCCAAATTTAGATGGTTTTAC autosomal
ATACTGTCATTTTGACTGTAAGACATTTTGAGGTTTGAATCTTAAATGAT autosomal
CCCCACCCTGTCCCTGCCGTCCCTCCCCGTCCCTCCCCGTCCCTCCCCCC autosomal
AATGGGAAAAATGACAGCAACACTTATATTTGGTTTACAATACTTTATTG autosomal
AAACCAACAACATCTACAAACTAGGTGTTCCTATAGACAAGGATGAGGAA autosomal
GGGTGCTCCCTACCATGAAACTCCCATGAAACGCAGAGAGAACCAACACA autosomal
AACCAGTAAAAAACAGTATAAACCAGTATAAACCAGTATAAACCAGTATA autosomal
ATATAGGCACATCTCTGTGTCATATAGGTTCACCTCTTCCTTCCCCTGAC autosomal
TGAAATGTAAACTTTGTTGTCCCTCCAACATACATTTTTTTTCCTTCCCA autosomal
ATAAGTAGGAAACCAGGCTTTATTAGTTTATAATCAGAACTAATAAAGCC autosomal
GCTAATCAGGGCCCAGCAAAAATGAAACAGAGAGAGAAGAGCCCCTGGAA autosomal
ATCAGCAAGGGACTGGATGTAGGCTAGGAAAAGGAGCCTACAAGAATGGG autosomal
CTTAGGTATGTTGATAGTGATACATTGACTTTATTGGTATAAATGGGAGC autosomal
CCTCAGGGCGGCAGGAGCCCTGGGCGAGCACGTAGCCGTGGTTGCAGGTC autosomal
CAAAACCCACCAGGAACTGATCAAAAGCTCATTAAAAAACCCCAAAAACC autosomal
AGCAAGAGCACTGCAAAGAGCTCCTGGGCCAGGGCAGCTGCACTTTCCCA autosomal
TCCCTGGTCTTTTTTTTTTGGAGATCACATTTTATTTTTGGGGTGCAGCA autosomal
AGCAGGTGCTTCCCAACCTTCCCAGCTGCCACCAAGAGGGTGGCACCACA autosomal
ACTGCAAATTTATCATTCTTTTTTTTTTCCTCAACACCATAATCTTAGAA autosomal
GGGCTACCAAGGAATGAGAGGAAGAACGTTTTCAACAAAATGTGTGGACA autosomal
AGTTATGTTTTTCATGGAAGGACTCAATTTGGTGGCCTTTGGTTGCTTGA autosomal
GTCAAGATTGTTCCACACACAGTAAAAATATCCTCTACAGAGGAGTCCTA autosomal
TGACCAACTTAGTAGAGGTCCTAGTTTCAAAAGTTTACATTTCAGAATCA autosomal
AGCCAGGACCTCCCAGGGGCATTTTGGAGCTCTCAGCCTCACACCTGGAC autosomal
AAGGCAACAAAAGGGCATCTCTGCAGAAAACTCTGCTGGGACATCCTTTA autosomal
AGATAAAAAGATACTTGGAGTTACTTTGTGAACTGTTAAAACCTATTCTC autosomal
CTGTGGCCAGCAGCAGGGCTGGGCTGAAGGAGGGGATGCTTGTGGCTGAC autosomal
CAAGTTTTTCACTGTCTTTTTCCTGAAATACCTGTTTGCACAGACACAAG autosomal
ATTGTACATACAGAACACAGCTCGATGCTTCTCGAGTCCACCAGTATAAC autosomal
AAAACATATCCCCTGTTTGAGAATTTTACTGTTATTTTCCAATTTATATC autosomal
AAAAACAGCAATGTCAGGAAATTCATGTGCATTTTAAAGTAGAGGTTGAC autosomal
AATTTATTCCAGCAGGATCGAAGGCTAGATATATTTTCTTTCAGTTCACA autosomal
AGAAAAAGAAAAACCCCAGTGTTGATGTCCTGTAGCATAAGTTTCTACAC autosomal
AAATTATTGATAAGGGGTTTGAGCATCCCTTAGTTGGAGCTGGCAGCTCT autosomal
CCTGACACTGCATTGCCTCAGAGCAGAACACTGTACAGAAGTGCCTTTTC autosomal
TCGGATCTGCCCAGCAAGAATGGCAAGGACCAGGCAGAGCAGGGTCCCCA autosomal
ATAAATAAAATAGTTAATATCTCACAAAAAATACATGTTCTGTTAACTGG autosomal
AATCTGTGTAGTATCACAAACTATGGCTACCTACCTAGATAATACAGCAC autosomal
AACCCATAATTAGGCATAAGTACCCAGGTCTTAAGTGGACCAGTACAAGC autosomal
AAAAACGTCAAAGAATTTGATGCTTTTGTGGAAACCTTGCAGTGAAGCTG autosomal
CCACAAGTGCTCAGAGTGTGGGAAGAGCTTCAGCCAGAAATGTGACTTGA autosomal
CCCGGGGTCGGAAGCGCCGCACCTTCCTCAGGAAGCGCCCGAAGCGGCCG autosomal
CACTCCTTGTGGGACAGCACTTAAAAGCCATAAAAACCCCTCAAACCCAC autosomal
TCCAATATGGCATTAAAATATAACATTTAACATTGAAGAAAATATGGTAA autosomal
GCCAAATATTCTAATTTCTCTGTATAATAAAAGGAATAAAAAGAAATAAA autosomal
CCCGGCTGGGGCGCGGGCCCGGCTTTGGCACACGGCACGAGTCACTCTTC autosomal
AAACTAAGGGGGTCAGTGCAGGGGAAGGAGCACACAGTGGCAGCCTCTCT autosomal
GCTCCGCGACAACGGGCTCCTGGCCAAGCCCACGCACGGCGACATCATCC autosomal
GGGGGACACCAGGAACAGAACGGCCTGAGCCACGTCCTGCGGGGAGCCCA autosomal
GGGGGAAAACCGCTGGATTTTGGGAAAAAAAAGGGGTTTTGGGGAAAACC autosomal
CCCTGCAGGGGAAAGTGCATTTCCCGCTCTGGAAAAGCACCAAAATCACG autosomal
GATGTGCATAGGTTTACAACTTAGTCAGAATAATATTTTGCTTTATTCCC autosomal
CCCAGTCCCGGCTCCCCCAGCCCCGGCAGCCCCGGCTCCGCGCCGCCTCC autosomal
AACCAATATCACAGCTGTTAAAAATTTGTGTACTTTTTTCCTAGTCCCAT autosomal
AGCTGGAGAAGGAGCTGCCGGGGGAGCGCCCGGGTAGGGACTTTTGGGGA autosomal
CCAGCTCTTCCTCCTGCCCGGCGGCATCGAGAGGCACCTCAAGATCAAGA autosomal
AGCCGGGCGGCTGCGGGCGCAGCTCGGCCCCGCGCGGGCCCGGCGGGCTC autosomal
AAAACTACCTCCAGCTGTATCTGAAGAACAGCCCTGAGGCATGTGATTAT autosomal
CGGCTTGTTACTTCATTCTGGAACAGAAAAAAAGTAAATAAAATGGGAAG autosomal
CCTACCACATGCTCAGTTTCTCTGAAAACACCAGCCAGCACAAAAGGAAG autosomal
TCCACCACCAGAGGTGCTCCTGCCGTGGCAGGAGGAGGAATTCCAGCCAA autosomal
GAAGGCTGGTGAACTGTTGTTCTTCACCAAGCTCCATGCTTGCACAGCCA autosomal
CGGGGGTGCAGGAGCCACCTCAGACATGAAGGAGTCACCCAGGGGTGCAG autosomal
AAATCACTGTATGCTCCTTGTAGGGATCCAGATCCTTCCACCAGCAGTTG autosomal
ATGAGCTCTCAGAATGTGGTCCCTTCTCTTCCAGGGGCAGTGGGAAGAGC autosomal
AAAAAAAAAAAGGAAGTGAAGAAGGCAATGTTCAAGAGCAGGATTTTGGG autosomal
ACCACTTTGCTCCAGCTTTCATCTTCTGTTTTCTTACTTGTCCTCAGTGG autosomal
ATAACGAAGAGTGTGATTTATTGGAACTCGCCATTTCCACATGATGGATG autosomal
CAGCATACCTTTCCCCACAGACAGAGGATGAAAAGGGCTCTGTGCAACAA autosomal
GCAGCTTGGCTCCTTTTACCTCCACAATACCACAGTTTATCTTAATTTAA autosomal
CCACCAGGATAAATAAAGGATAGGCATAAGGTAAAGTGAACACCATACAC autosomal
CCAAATTTCCCAAAACCTCTCGAATTCGCCCCAAATCCCACCCAGCAGGC autosomal
CCCTGGGCTCGCAGGCTCACCTGGCCAAGGAGGACAAGAACGGCCACGAC autosomal
AGACCCCCGGGCGACCCCCGGGGCGGCGGCAGCGGGCAGCGGTGAGGAGG autosomal
CCTTCTCCAGCTGGTGCAGGGCGTAGATCGTGGTGCCCCCGGGCGTGCAG autosomal
ACACCCGAGGCTGAAGCAAACTCTGGGGTGTCACTGCAGGTTGTCACTGG autosomal
GCCTTATTTATGGACAATCTGTTTGTCAGTTAGATTTTGTGCTAAGTGAC autosomal
ATGTTCAAGGACTAGGCAGGCAGACTAATGATTAAAGATACTTTATTGTC autosomal
CGCGGGTCCGCCCGCGCCGCTTTCGGGGGCGGCGGCTCCAGCGGCGGCTC autosomal
GGACCCCGGCCCCCCCCGCCTGGGACTGCAGCCTGGCCCCGCTGCAGCGA autosomal
AGGGGGAGAGACAGGTGAGGAATGGGACATTCCCGGTGGGATGGAGCTAT autosomal
AGCAGCTTTAAATTGGTGCATTTTTTTCATAAAGCAGTTTGCATACTCCT autosomal
AGTGGGTTTTGCTGACCACCCCTTGGCTCTCCAGCTCTCGGATCATCTTA autosomal
ATAATGAGTAAATTATCATGAACAGCAGAGTACAGAAAAAGTTTAAAATA autosomal
AAATCTAATGTCAGCATAAAGCCTTCTCAAATGGAGGGAAGATAAGGGAA autosomal
ACAAAAATCACCAATTTAGCAGTAGATTATTTCCCTCCCTTCCAAGGAAC autosomal
ATGTTGAAGACCACAATGAGGTCTCTCCTCAGTCTCCTCCAAGCTGAACA autosomal
CCCCCAAACTCCTGCCCAGTGTCCACCAGGACCCCCAGAACCCCATCCCA autosomal
GATAATGATCCAGCTCCATCTGGAACTCCAGAGGGACCTTTTGGATTTCC autosomal
AGTCTGCCCCGATTTCCTTCCTTTCTCCTCTGTTAACTAAATTGCCAGGC autosomal
GAAAAATTACTCTCACAATTGTGTCCTGGCCTGGCACATTTTTATAAAAC autosomal
CTGGATCTGTTGCCTGGTCACCGTCTTTTACTGGTGCATCCGAAAGCGGC autosomal
CACCATGCCCGAGTACCTGGGGCGGCGCTTCGGGGGCGGCCGGATCCGAC autosomal
ACTTAGCAGCTTGACCGCCTGAGCCAGCTGCTGCTGCTTGTAGTCGCCTG autosomal
AATCACCCAACATGCAGGACCTGAAGAGAAGGTTTAAGCAAGCTTTGTCT autosomal
ACCTTCTTAATTAGCACCTTTTCATAACAAATCAGTCAATTACCGCTCCC autosomal
TAAATATAACTTATGTGATAATATGAAATTAAATTAAAAATTCCAAATTA autosomal
AGCAGCTGGTGCTGACTGCTGTGGATGGTGGGGATCCCCCCAAATCCGGC autosomal
GAATAAAAACTGAGTATAGCCTGTGTAAGTTGTGAGAAGTGGAGGAGCAC autosomal
TACATCCAAGGCCTGGAGAAGGCTCCAAAGCTTGGCCGCAAGAAGTAGGA autosomal
AGTCCGGGCTGGGATCCACGTAGACCAGGTCCTCCTGGGTGGGCATGTTG autosomal
GGGGGGCTCCTGGAGGTCTATGTGACAGCCTGAGCCACGCTGGAACCCCA autosomal
ATCTGTCCCTGCGGTACAGCTTTGTCACACCCCTCACTTCCATGGTGGTC autosomal
GACTTGTTGGGTTTTTTTCACTTAGAGTCAATAAATATGGTAATCAAGAA autosomal
GATGGTGATAGATATGGTCTGCATGATACAGAGAATCCTTACAAGTTCAA autosomal
TCCCCCTAAGGTTCACACCGTGAGGGTTGTCTAAAAAAAAAAAAAAGAGA autosomal
GCGGAGGCTCTCGCAGTTCAACAAGACCGCGGTCCCCGTCCGCTACCCGC autosomal
ACTGATATTTTGAGTTTGATTTATGTTTAAGAATTATCCAACATTTTTCA autosomal
CACTCGCGCACCCTTATCAGTTCTCCGTCCAACAGTCAGAGTGCAGAAGC autosomal
GAGGCGAAGTCTGCGTTCTCCTCGGTGAGCTGCCGGGTCTCCATGCCAAC autosomal
AAAGATCCCAAATCAAGTGGTAGGACTTGTGTCCAAGAGGGTGGTGGCTC autosomal
CCTTCCTGGAGAAAAGCCATGTACACTCCGAGCTGCTGCTGGCAGAGCCC autosomal
TGCAGGATCTGAGGACTGGTTTGAGTCCTCAGAAGACACGGATACAGAAA autosomal
ATTTGGCAAGAGAAGCAATAAACCATCATCTCCATATCTGCAGCCTCTGA autosomal
TCTGGCTTTTCCTCAGCCTCTACTTTTGTATTAAAAATATGACTGAATAA autosomal
GGGACGCGCTGTCCAGCGGGGCCGGCGTGGCCGGAGTGGCGGCGCGGGAC autosomal
TAACTTCGTTCATGTTAAAAAAAAAATTAAAATTACAGCATCCTGAAATA autosomal
CTTTGGTAAACACTCACACACAAACTAATGTGTAATTCATGTTTTGCTTC autosomal
CAAGCCTGATCACATTCTCAGTACTGGTCTTAACAGGCTAGGTTTGTGGG autosomal
GTGTTGTGCAAAGAAACCTCTTCCGCAGACTGTTACTGTCTTTTGTGTCA autosomal
GAGGGAACCATGCACTGCCCTTGACACCAGGACCTCCTGCCACTGTGGGA autosomal
ATAAACTTCAGCCAAGAAAAGAAGTTACTATAGCTCTCTCCCTTCTCACG autosomal
AGGTACTCAAGGGGCTGCGCCTCTCGCAGGCGGGGGCGGGCGGGGTGCAG autosomal
AGACAGTGATATTTTTGTAAATATGGACAATCTTATTTATAAGCTGCTCA autosomal
TAAACAGAGGGCCCAGGAAGGCAGATGGCACATAAATTGTCATCAAACAA autosomal
AGAATTCACACCATTAGTAATTTTACAAGGGAAGATTAAAAACCCCTATA autosomal
ATGCAACTTTTAATAAAATATTTTTCCTACTACATTAAAAAAAATAATTA autosomal
ATCTAAAATGATGTGATTTGTCTTTTTAAAGGAAGGACAGAATGAATCCG autosomal
TGTCCATTGCAAAGATACATTCTACAGTAGGTACTGGATTGCATGCTAAA autosomal
AGCGTTTTACAGGTGTGATTTACTGAGCTCTCAAGTGCTGTCTATACTGG autosomal
TTCTAGACAGCAGACCATGGGGGGAGGTGAACCAGATGATAACAAGGCAA autosomal
AGGCTGACAGACAGGATCTTCACTCCACCTCCCTCTTGTTGCCATGGCAG autosomal
CTTACAGGTGACACACCCATAGAGAGTCATTTGCCCATGCCAGCAATAGA autosomal
CAAATACCTTGTGCAGATATTTTTTCATCAAGGGAAAATATTTATTCTGG autosomal
TACATGAAGGATTCAAGACCTTTGGCATTGTTAAGCCTTCTGCTGCCCCA autosomal
CACTCTTAGAAAGCAAGCTTACCTTTTTACAGCATAAGAACAACTTAAAA autosomal
CGAGTGGATGCTGTCTGTCCGCCTCGCTGGCTGCTCCCTCCACTGCACCC autosomal
TTTAAATATAAATTATTTGTTTTTAAAACCATTTCACAAAATACAGGAAA autosomal
CCAGCCCCTCCTTCTTATGACTGGGAAGATTATTCCCACTGCCTATCTCA autosomal
CCAGGATGCTCTCGATGCTGAAGCTGCGGCCCCGGGGAGCGCTTTTGAGC autosomal
CTGGGGTTTTGGAGCATCCCAGGGTTTCGGAGCATCCTGGAGGTTTTGGA autosomal
AGTATATAGTATGTTCATAAAAAAAAAAAATAAAATAATCAAAAACAGTG autosomal
GGAATAAATCATCCCTTTAGGATAACAACCATTGATCTGTTTGCAGTCTA autosomal
ACCCCAAAATCGGGCTCAGACCCGAACCTCGAAACAGCGCTGGCCCAGGA autosomal
ACTGTAGCGAGCTGTGAGCCACCAGCACACAGTCCCTAAAACACAGCTCA autosomal
CCAGTTGGAGCCTGTCACAATGTTTTGCTCTTGCCTTTAAATTATGAACA autosomal
ACAGAAATCTTTGCAATTCCTGATTTTCCCTCCTATTCAGGCATAAAAAA autosomal
GCCCTGGACGTGGTGACTCTGGTCCACGACATGGGTAAGGACGCCTCTGA autosomal
AAATCTATAAATCAAGGCAAGAATACATCACTCTGCTCCAAATTATTCCC autosomal
ACCCTGGGGACCCCCCCAATGTCAAATGGGGACCCCAGACCCCCCCCGGA autosomal
AGCAGCGCTCCTGAAACTGGACCTTTGCAAGGATTGCAGGGATTTGTTTC autosomal
TGGATTCCTCCTCTTATTTTGCTTTTATGCAAAGATTGTTCCCAGATGAA autosomal
GGGGGGTAGTTTTCACAGCGCTCATGCATCTGCTCCATCGGACTTTTATA autosomal
ATCTGTTTACAAATTATTACAGTATATTGGAGTAGGAAAATGTGAAAATA autosomal
ACCCTCCTGGAGCCCGGGGTGCCCCTGGGGCGGTACCTGCGGGAGCACGG autosomal
AGTCCCAGGTGGGATTTTGGGGCAGTTTTGGGGGGTCTCGGGGGGGGTCC autosomal
ATCCCCCAAATTCACCCCAAATCCACCTTGTCAGCGAACACCATGAGCCC autosomal
CCCTCCCCCTTTTAACACTGGACAGTAATTTTGGCCCCAACGGGCTGGAA autosomal
AAAGAAAATCCCTGATTCTGTACATTTTGATAATGGTTACTGTGGAAAGT autosomal
ATATTTTAATAGATATGTAAATATTCTAAAGAATCAAACATTGCCTTTAA autosomal
ATTCCCCCAATTTTCCCCCAAATTTCCCCCAAATTTCCCCCAAAATTCCC autosomal
GCTGGCAGAGTGAAATTCCCTAAAACAGCTCAGAAATACAGGCCAAATCA autosomal
ACCCCACGCTGTGCTTTCACCTCCCCAAAACCTTCTGCATCTGGAGGATC autosomal
CTCGACGCTGTTCCCTTTTTGAGGCAGCACATGCACCCCAAGCCCTGCTC autosomal
ATCCCACGCAGGCTGACAGAAGTGAGCTTGCTCTGTGGGGAAGGGAGATG autosomal
AAGGGCATATATGTTTTCAGAACTTTATTTTTTTTTCAAAACTGAAGTCC autosomal
GGCGGGGATGTCCCAGAGACCAATTACCTGTTCATGGGCGACTTCGTCGA autosomal
GGAAATAAGGAACAGAAGAACTGATGCTGCTATACGTATTCAGGCAGGTA autosomal
AGGAGCTTCCACTCCCCAACCCGGATGGAAGCTTGCACAGCCGTGTTCCA autosomal
TGCAGTATCTGATTAACCAAGCTTCTGCAGACTTTGTGATTCTCAGAACA autosomal
AAGGCCTCGGAGGCCGCCCCTTGCCGGGGCAGAGCCGGCGGCCGGGCCAC autosomal
CCCCTGGGCCACAGAGCTTCTGGTATCCCCACATCCCTCCCCCCAGACAC autosomal
GAGATTATACATTTTCCCCAATATGGAGAAAAATTAGTAGTAAGGAGGAA autosomal
GATCAATCTCATCCTGAACTCCTGCAGGAATGTGATGCCTGTGGATCTAA autosomal
GTTTACAGTTCCAAATATTTAAGATGAGAGTAACTTGGCATTTAGATGGA autosomal
GATCAGGGCCACACGCACCTTGCAAAATCAAGCTCAGAGTATTTGGTCCA autosomal
AGTCACAGCAAAATTGTCCAGCTGGCACATTGGTTGTATTTATACTACAA autosomal
CGGCAGGAGCCAAGGACTCAGCAGGAAGAGCCAGGACTTCGTCACACAGA autosomal
CAGCAGCAGCGGTGGGTCGGGACCCACATAAGGCACAGAGTTTGGGGGGC autosomal
CGGCATCAACTGGGCCCAGTGGAAGGGTTTCTACTACTCGCTCAAGCGCA autosomal
TGAAAATCATCCGGGGTCTGGCGTGGCCCCGGGTGAGATAACGGCGCCCA autosomal
AGAGACAGGTTTGAAGTTCACAGAGAAAGGCACTTTGAGGGGGGCCTCCC autosomal
TGTACATCCTGAGTTTCAAACGGCGGCAGAGGTTCCCTCCAGTAGGTGAA autosomal
AGCCTGATGAGCAACTTATGGCTCTATTACAACAATATCAGATGAACCTA autosomal
TGCTCCAGCCTGGGATGATCATGTGTCCTTTCTCACGGGGAGCTGGAACA autosomal
GGAGAAGCTTGCAGCTGAGTGAGAAGCAGGGATTCGTTATCCCAAACCCA autosomal
CTGCTCCTGGAGGAGACCTCGGCCTCGCTGCTGCACCTGGATCTCATGGA autosomal
GGGCTTGTTTGGAGTTTATAGCTGGTCTACTGTTTGCCTCTAAAACAAGA autosomal
GCCCCCCGGTGCACACAGGCAGCAGGGCCTGTCGCTCTTTGCACACTTAA autosomal
AAGCAGAGCAACGCGCTGGCCTCGCACGGCCGCGTGCACACAGGTGAGCG autosomal
ATTTTCAGATGATGGTAGTGAGGGACACTATTTATGCAGGTGCACAATGG autosomal
ACTTTCCACCCACAGATTTGGCTTGTTATCTGCTGCAGGTTTTTCTGATG autosomal
CCTCCTGGATCATCCTAAATCCATCCTGGGTGCTCCTAAATCCTCCTGGA autosomal
CTGTGTTTGGAGTGGGACTGGAGGCTTCAAAATTCAGGCTGGATTCAGCC autosomal
GATCACTTCTGCCACTCTTCTGCAAATAGCGAGACAAGAGCTGCTGTTTA autosomal
ATTCATTAAATTTGTACCAAAACCGTTCTGCCCCCGCGTGTCTGTTCGGG autosomal
AAAAAAAAAAATCAAAGCAGAGCTGTGGCTTACAAGAAGGTGAATAATGA autosomal
ATTGTTCTATTTTCTGCCAGTTGTGGAATGCATACTCAGGATGGTTTTCA autosomal
CACTCACAGTGTGGAACACACTCACTTTTGTTCCCAGTTTCTAACTCTGC autosomal
CCTAGCCCTCCCTCCCCCATGTGTACTCAGCCCTCAGCACCCTGACAAGC autosomal
GCCTGGCTGTGGGGCACACACGAGCCCACGCGTGGGCCTTCCTCCCCTCC autosomal
CCACTGCCCCAGTCCTTGGCAGGGACAGCTCCTGTGTCAGAATTTGTCAC autosomal
GACAGCAGCTCTGCGAGCAGCTCAGCAGGCCCCTGGCCACAGAGCTGTGA autosomal
AAGGCAACTTGTACTTCTCCAAGGTTTAACCCCCAACAGGAGACTCTGCT autosomal
ATGGCCCACCCATCTCAGTGTCCAGCCCCAGGGTAAATGCTCTGCCATGC autosomal
CATCCTAACAGCATAACTTACATTACAACCTATCTTTCATCCCAAATCCC autosomal
ACATCAAAGGAAGAAAAAAAGAAAAAAAAAAAAACAGGAAAAAAAGATTC autosomal
GGGCCATGCAGAGTTGTCCTGGCAGACCCAGAGATGACCAGGTTGGAATA autosomal
ATCACAGTGGTGAGACTGCCCAGGGAGCTGAGCACAAACCTCTCCCTGCA autosomal
ACAGGTACAGCTGTGGCTTTCTTCCAGGAAGGTCCCAGGCACGGTGGTCT autosomal
ACATCAATCGCACCGCAGCCGATGCCCTCAACACGGTCCCCGAGCACTTC autosomal
AAGTACAAACAACCCTTTCTAAGATAAACCAAATCCCCAAACAAAAAGCT autosomal
CTAGCTCATGCAGAACAGGACAGAGAGTTTAAATGGGAAGAAATAAGAAC autosomal
TCCTCTAGCTGGAACAGGAACTAAAACACTGCCACCTCAACAACCTAGCA autosomal
CTGGCTTAGGGTATAATCTCTTTTTTTTAAAGTAGATATACTTTTAAATA autosomal
AGCCCCCCGAGGCTCGGCCCCTGGAACAGGACACGCTCTGCTCTCCTGAG autosomal
ACAAAGGTGCCGAGCTCTTGGTGTCGGGATTTGGGAATGGAAATGGCCCC autosomal
AACTGGAGAACAGCCTACAGAAGTCAGTGATCAAGAACCAGATGATCCAG autosomal
CATAAGGTCTTTTTTTTTTTAGCAGTTATATTTTCAATATATTTGTGGTA autosomal
GCGGCCCTTCAGGAAGAAGGTCAGGAGCTCCCCCTTGCCCTTGACGTAGA autosomal
ATATTTTCAGACTCGGGTTGGGTGGTGCGTGTGGCGCTGGAGTGGCTGCC autosomal
GGCTGTACCTCCGGGTCAGGGCTTTGGTGTTTTTGGTGAGGTCTGTCAGA autosomal
GCGGCCGCGCCCCCCAAGGCGCCGGGCAAAGCGCGGCGTAACAAGGACAA autosomal
CTGTCCCAGCCCCACTCATTTTCCAAGTACACCTCTGACCCATGCATAAC autosomal
GGGGTGAAACACTGGCCCTTGGACAGCTGCTTCGGAGTAGTATTTCTCAA autosomal
AGTGCCCCGTCTGCCACAAGGCCTTCAAGCGCACCTGGGAGCTGCTGAGC autosomal
CACCCACTGCCTGCCTAAATGTCAATTATAATGAAACAGAAGAAGAAACA autosomal
AATGAGGGAAAAAAGCCAGGAAATGTGAGAGGAAAAGGGCAGAAAAAGGA autosomal
CTTTGGGAGAGGAAGGCGAGGTCGGCGGGGAGCAGCGAGCAGAAGGACAA autosomal
AGGATAAATGCCTGTGTGACAGAGCATCTTATTCCATGGATCATTTCCCA autosomal
CATGTGCAATGATTCTTCTAACTTGTGTCAACACAAGAGAGTACATTGTC autosomal
CCTGTTCGTGCTGTGCACGCGGGCGGTGCGGGCCCGGCTGCGGGGCCTGC autosomal
ATCCTTCCCCACCTTGTCCTCACTCTGGTGTTGCGCGGCCAAACCACTTC autosomal
TATAATGCTTCTAGGCAAAAAGTTGATGGCCTTTAGCTTTACTGTAAAGA autosomal
AAGTAGGAGGTGTTTTTCAGGGCTGGGCAGGTAGGGCTGCCCCTGCCTCA autosomal
AAAACCTCTTTGGTCCCACCAGCTAAGAGGCAACTTCAGGGTCTGCAGAG autosomal
CACAAAAACCAGGTGGGGCTTCCAAAAAATGAGGGTGGGGCTTCCAAAAC autosomal
CACACTCCCACCACAACCCCCAAGCCTTTTGTCTTTCCAGAGTGTCATTC autosomal
AACTTTTGGCAGATTTGGACATACTCTCTTTCTTTTTAATCTCCATTTTG autosomal
ACCTTTTCTCACAGAAGGCCATATCTGAAATTAATAAAAGAGAATACTTC autosomal
AACATCTCCGTGGCCACACAGAAAAAGGCAGCACATCCCTCCAGGATGAG autosomal
AACACATGATCACTACAACAGAGCTCTCTATCTTGCAACCACTTAACAAG autosomal
GAGATGCATTATTTCAGATATGACGAGTATGAGCGAAGCTGCCGTTCCAA autosomal
GATTCTTCAGTGTCTATTGACTGCTCCCTTTAGGAGGATTTTCTGGTTTA autosomal
TCCTCTCAGCCCTGCCACAAGGGAAGGGAGGGAGAGTGGGGAGCAAGCGA autosomal
CATGTTATGTCTCTAAGTGCCGACTGTAAAAAAAAAAAAAAAAGAAAAAA autosomal
CACCTAGGTCATTTTAGGGCTTACAGGAGTACTGGGAGACTTTTGGCAGC autosomal
GGTATGAAGTTCTTATTTCAAAAATGTCAAGAAATACTGCATTTGTCATA autosomal
CAGGTGATCGAGAACCACATCCTGAAGCTGTTCCGGAACAAGAAGAAGAA autosomal
CATGACTTATCTCTACCAGAATATAGACTGGCTTTATATTAAACCAAACA autosomal
GCTATATGGAAAATTAAGAAGTCAAGTTATGTATAGCAACACCTAAAAAC autosomal
ACAACAAAATAAAAAAACCCAAACAACCAAACAAAACAAACCCAAGCCCA autosomal
CCTCCCGCGGGAAAAAAAAAAAAAAAGAAAAACCACGAAAAGTGGGAAAA autosomal
ATGTATCTATGGTCACAGATAAAGGAATACACTTGGGGCAATATTTTTTA autosomal
GAACCGGTGCTGGAGCACAGAGGGGGACACGGACACGGCGTCTCCTGAGA autosomal
GGACTGCTGATGAAAGACATCTTCCTTCTTGTACCTCTCTGCTCTAGAAA autosomal
CCATCAGCTCCTCAGGGTCTGTGAACTCACTCAGGGTGATTTTGGGGGCA autosomal
TCCTGCATGGGGCTTTTTGTACAATTAAGAGTGAATGTGAAGAATAAAAA autosomal
ATTAACTGTCGACTGTTCCTGTTTCATTATCAACAATAAGATGCTCCATG autosomal
AGTGGAATTCACCTTACAACAGACAAGAACAAGTCTGCTACCTCTTCATC autosomal
TAAAATGGTAGCAGGGCAGCCATAAAAACTAGCAGTAAACTGACATAATA autosomal
CCTCGTACGTCCCAGATAGAACCAGAGCTTGCAGGGCTTTGTGCTGGGTC autosomal
CCGGGACCCCCCCAAACCCCCTCCAGGACCCCCCAAACCCCCCCGGCCCC autosomal
CATTTTAAGAAAAACAAATATGATCCCTTCCATGCCTATCTAATACAAGA autosomal
GATCAGCCAAGAGGATGCTTCAACAGCCTGCAGTCCTTCAACTGCTTTGA autosomal
GCTGGGACTGGGGGGCCTCTGCACCCCAGGAAGGGTTTGTGACCCTCCCC autosomal
CCATGTCTCCCTTCCCTCCGGCGGCAGCCGGCACCTGGGGCGAGCGTGGC autosomal
TGAGAACAAAAAAATCTTGCTTGTTTAAAATGCCAGTTGTGATGTTGTAA autosomal
GCCCTCTCAGCCCATTCTGCCCAACCTGCACCTGTGCAGAGCCCTGGAGA autosomal
ACCCACAGAGGTGTTTGCAGACTGAAGGGTGAAATCAAAGCGTGGCTGCA autosomal
CCTGGGTAGCGATGGTGTGAGGGCAGCGAGTCACGCTGCTTTTGGATTCC autosomal
AAAATACGAATTAAATCCAGGAGTATTAACCTCTGACTGATGAGACAAAA autosomal
CCCCACGGCCCGGGGGGGCAAGTGGTTCGAGAGCTGAGGTTCCCCCAGCG autosomal
GACCAGTGTTATAATATGGGCTGGTGTGGAGCTTCATTTGGTAATGTGTA autosomal
CACTGGCCAGGGCTGTGCCTGGCACCGGGCACGCTGGAAGGCTGTGCCTG autosomal
CCCCAAAAGTAGTCCCAAAAACAGCCCCAAAAATCCCCCAAAATCCCCAA autosomal
AGGATGAATCTGGTGGGGCAAAACCATGGCAGCACTTGGCCAGGTTTGAC autosomal
CCCTGCCAGGAGAAATCAGCTGTAGGGGAATGTGGAGATTAACCACAGCC autosomal
AAAGGAGATGAAAGATGGCTTTTTTAATCTTAAAAATATTCAAACTCAGC autosomal
AAGCTGCTAACTCTGCTTCAGAGCTCCTGCTTGTAACTTAGAAATAACAA autosomal
ACTGCAAAATCCAACCTGGAGAAAGCTGTGTCAGAGATGGCAGCAGCGTC autosomal
CAAGTCCAGTAGAAATATAGATTATGTATTACAGTTTCTTTAGCTGAAAA autosomal
GGTCTGTGGGGTTCCTCGTGGGGTTTGGGGGGTCCCAGGGGTGTTCAAAA autosomal
CCTGATTACCCCCGATGTGCTAAAACGGCGTTTTTCTGAAAGCTCAGCAA autosomal
CACCCAGCACTGCCAAGTTCACACAACCACTAAGCCATGTCTGCAAGGGC autosomal
AACAAGACAAGTTCATTCTTACTACTCCTCTGGCTTCTTGCCCCTCCTGC autosomal
AAAAAGAAAAAGAGATCATACTTCAGTATTTGCATACTTGATAGCAGCAT autosomal
GGGCAGCAGGGCTGCACTGGGGGGCAGCAGGGCTGCACTGGGGGGCAGTA autosomal
ATTAATTTTTCAGCTGTGAATAGGTCACAGGGCAGTGTGGAGTGGTGTGA autosomal
AGTAAAATATAGAGAAGGGGAAGCATATTTCTCCTTTTTCAAGTAGAGAG autosomal
CCACTCTGCACAAGCGACGGGCTCCCCGCTTCACTCAGGGATCAGCCCAG autosomal
CGCCGGGGTGCCGAGGCAGGGCTTGGCATCTCCCCCGAAACCCCGCTGAG autosomal
TAAAAGTGTTTTTTGCAAAACTAATATAAAGTGTTAGATAATTCATTTCA autosomal
GAAGGGGTTTTCTAGGGATCTCAGGAAGCCAGAGGGCAGGCAGGTGTTCC autosomal
AATGCCAAAAAAAAGAGAGAGAGAGAGTGAGAGAGAGCGAGCGAGAGCGA autosomal
AAGGTAGTTTGAACAGAAGTAAAGAAGATGTCACCGGGAGTCCAACAAAG autosomal
ACTCCCGCTCCTCTGCATCCTGAGCAGCACTCACATGCTGGAGACTGACT autosomal
GGGAGCTGCTCCTGAGCCGAATTCCCCGGAGCAGCCGGGGTCAGCTGCCC autosomal
ACTCACCTGGAACTCACCTGGGCACACCTGGACCTCACCTGGGCACACCT autosomal
TAATTCGTCTGTGCTGGTTTCAAGGTTGTTTATTCTGTTTATCTCTAACA autosomal
GAGCGGGAGCGGGACGCTCCTGCAGCGCCCGTGGCAAACGGGCAACGAAA autosomal
CAATTTGGACCCAGCAGCTCCCAAAAAATGGGAACTTTGGCACCCACAGA autosomal
GGATCTGTGGCACCTGCTTTAAAAATAAATCTCTTAGCTTTGTCTTCACC autosomal
AGCCTCACTGTGGCACAATCTCTGAGCAGCAAGAGCAGTGTAGGAGTTTA autosomal
AGCATTAAATTAATGGCAATAGGAAAGAGCTTCCCAACACAACTTCCTAC autosomal
GTTCAGAGCTTTCTGCAGTGATGCCTTTCCCAGATATATTTTCACTTTTA autosomal
CGCCAGCCACAACAACCTGGCGCAGCCGCCCGTGCCCCCCGTGCCGCCCC autosomal
AACAACCATTTATCTGTGAAGATACAGCCTGCCCTCCTCAATGACACAGG autosomal
AATTAAGTGCTTATGAAGTTAAAAAAAAAAAAAGAAAAAAAAAAAAAAAA autosomal
GGGAGGATGGGGGAGAGTGTGGAGGGGTGGCCGGGAGCGGGGAATGGAGA autosomal
GAATGGCCACTGCCCTCACACCCTCCATGAGCACCACTATGTCCCTTCTC autosomal
CTGACCTTTCTGATCTGTTTGTGCTTCCCATTCATTCTCCTTCCGTATAC autosomal
TAAGTCAACAAGGAATGTCGTGCTCATTTCATCTGGTAGCATTTGGTCCA autosomal
AAGTCTCTTGACATGGAGGGAGGCAGGGAGAGGGGAGATCCATTTAGAAA autosomal
AATTAAACAACTCAGATCATCTGGATGAAGTCCATAAACATTTATATCAT autosomal
ACAGAGAGGACTGAGCTCGACAGCTGATGTTATTTTTTTTTTTTTAATGT autosomal
ATTCAGCCCCCCCAAATTCCCGGTTTTCCCCCTTTTTTGGGGTCCCCTCC autosomal
AAAGCTAGTAGTTCCAGGGATCTGTGTCCCTCATTCTTTTGGGTTTTGGT autosomal
TGTGACCCCGACCCCCCCCCCACGTGTGACCCCCCCCGAGCGAAAACAAA autosomal
GAAACCAGGAAGAGAAAAATAGAATCTCTACGCCCTATGTACAAGGCCAA autosomal
CCGGCAACCGCACCCTCAGGTCAGTGCCTGCTTTCCAGATGCTCCAAATC autosomal
TACGAGATTTTAATTCCAAATTCTGCCTTTTCCCGTAATTTCATGTAAGA autosomal
AGGCCGCCTCCTTTGATGTGCATTTCCATCACCCCTCGTTTCTTCTGCTG autosomal
AAACTCTGCCAATGAAAAGATTACTGGCTTCAAGAACAGTGTTTAGACAC autosomal
CCGCCGGGGCTCGGGAGGCGAGGGGGGCTCATAAGGCACCGCAAACACCG autosomal
CAGGGGCTGGTCCCGGGCAGGAAGGAAAGGGGACATGCACACGGATCCGG autosomal
GTCTTTAGGAAGACCGAATTTCCTGGATAACAGATGCTCTTTTTAAAGAA autosomal
CGCGTGGGCAGGTCTGTCACCCGTGTCACCACGGGGTCACCTGTGTCACC autosomal
ACAGTGGTGGCAGGTGACAGCCCAGGCTGTCGGGGGGGACACTGCCCAGG autosomal
CAGAGCAACTCACCCCGACAATGCTGTTGAGCTCGCCCATGGTCACCTGC autosomal
AGCAAGGGTCTGGAAGGGACAGAGCCATGAGTGGCTCCCGCCACCCCCCC autosomal
CAGTGTCATGTCCTCATTTGCACCTGACTCTGTCACTGCCCAGGACCAGG autosomal
ATTACTTACTGTACAGAATTTTATTTAAAAAAGAAAAATCACAGCTCAAA autosomal
GCACGGGGCTTCTTCCTCCTGATAAAAGTTGGCAGCTTCTCCCCGTGGTA autosomal
GCCGGCAGTAGCGGTTGGCACGGCGGCACTGGGCACAGCAGTAGCCTCGC autosomal
GCCAGAACTTATAACCCACACACTCATAAAACCTACAAACTTTCAAGCAA autosomal
CAACATCTCTCCTTCCAGCCCCCAGTCCTGGACTTGGCCATGTCAGAAGC autosomal
ACAAGGTAACGCAAGACCATGCATCTGAGATTTTGAAATAGAAGTAGAAG autosomal
TCAGCCTTCCCTCGATCTTCGAAAGGAGGAGTCACACATTAAGCCGATCA autosomal
GCCTTCAGGGGCACAGGGTGGGGGGCTCTGGCCAGTTCAGCTGGGCCCCA autosomal
CTCCCTGGGCAACTTCGGCTTCCCTCACTGTCACCTGCACCCTGTGGTCC autosomal
ACTAGGTCTACAACTAATGGACAAATATGAGCTATTCTGCAACATTATCT autosomal
AATGAACCTCACATCCTGTCAATAGACAGAAAATTGCCACAGCCTGAAAT autosomal
ACAGTAAGTTAAATGAAGTAATGATAAGAAGTATTACGGAATGTATACTC autosomal
AGAATTCTTCACTCATCTAATCACTTTGCAAGTACCAGCTTGGATTTGCT autosomal
CTTATCTGGGGGTTGCGCGGCTGCTCGATGAGCGCATGGCGAGAGCAGCC autosomal
CCCCAATTTTCCCAAAATTCCGATTTTTTTACCCGAAAAGCTCCAATCCG autosomal
ATTCACCAGGATAAAAACAGCTGAGATGCAGTACTAAGGTCATCATGCTC autosomal
TGGATTGAAATAATCCAAAGCGAAAAAAAAAAAAAAAAACCTTTAAAACA autosomal
CCAAGACTTATAATCCTGTGCAATAGTGTCAGCCTCAGAAAACGGATGCA autosomal
AGGTGAGCAGAAGCTACAGCACCACAGGTCCACAGCCTCTACAGTGCCTA autosomal
ATACAACTATATTTTTTAAAAAAAAATATTTACAGAACTCCAATGAAAAA autosomal
CCCCCCAGGGGTTCTGGGATCCCCTAGCCCCAGCACTCAGGGGACCCCTC autosomal
AACCTCACCCTGCGGGACCCCCCCGCGCCCCCCCGGCGGTGGCAGCGGGA autosomal
CTTCAAGGAATCAATAAAACATCTGACAAAATATCAATAAAGTATCAACA autosomal
GGCAGAGGACTTCCTGCAAGCGAGCCGTCAGCAGCCAGTGGAGTACAGCA autosomal
CTCTGTAGATAGCTACAGATTCTTTGGGTTGTCCTTAGGCTGTAGAACTA autosomal
AGAAACCTGTGTGAGTGATGAGTGGGCGCTGCAGCTTAGACATCCTTCTG autosomal
AGAGTCAGTAAAAAATACCTCCCCCTGCTTTAACAGGCTAAATATCGATC autosomal
ACTGGTGCAAAGCTTTCAAATGAATTGAATTCTCTTGTGGGCAGAAATCA autosomal
AAATACTAGAAAGTTTATGCCAAGACTTAAAATAACCACCCTCCATCCTT autosomal
GAAGAGCTTGGGCGACAAAGAGGTTGTGCACAAGGTGCTGGATTTGTGGA autosomal
GACTGTAAAAACAGTAGAGTGAAGTTGTCTCCCTTTCCCTAATTTTTAAA autosomal
AATCTAAGCAGGATTGGGCCCAGTTAGTACTTGGATGGGAGATTGCCTGG autosomal
AGGACCAGCAGGGACCAGCAGGCACCAGTAAGAACCAGCAGGCACCAATA autosomal
AAAGCGAAAAAGCACATTGAAAATATAATATCAAGGCACAAAAAATACAT autosomal
AGGCCATGAGTGCCTTCCCTCTGCCAATTTATCAGCTCTGCATTACACAG autosomal
CTGACAGCGCAATCTTCAGGCAATTCATTTCAGAAAAGCTCGAAGAAGCA autosomal
CAGGCGAGTTGAAAAATATTTACAAAGCTATCTACAAGACACAGCTACAG autosomal
AAATTCCTCCTGCAAGGGGCTGTCCAGCCCTGGCACAGCTGCCCAGGGCA autosomal
CAGATTACATGTCTCATGTACAGACAATTGATATCAACAGCACACAACTC autosomal
ATGCATACTGAAAGTACTGATCCATTTACACTTCCTAGAGACAAAAGAAT autosomal
CTTTTTTGGAGCACTATTTAATGTCCTTGCCTTCTGGGTGTTCTCCTGCA autosomal
CCCTGGGACCTGTGCAATCTGGATATGACCTAGGGGGGGAGGGGGAGAGG autosomal
TCCCATTATACATAGATTAATCTTGCTTGCTAGAACATGACAATCCAGAA autosomal
AGGATGCGGCCGATGCGCGCCAGGCGGATCACGCGGAACAGCGTGGGCGA autosomal
AAATTTCCTAAACAATTGATTGAGAATACCTGATCACTGGGAGGTGTATT autosomal
CCGCCGGGGGCCGCCGGAGGAAGCGGCCGGTGCAGCGGGGCAAGCCCCCG autosomal
AAGAAAAGAAAAATCTTACAACACAGCCTCATAAAAATGGCTTTGCAACG autosomal
CTGAGACCCATCATTGGGGTACACCTGATCCTGGGGGTCCCCTCCACCTC autosomal
TCCTTTCCAATTTCAACCTGCCAGCCAATGACCCAACATACAGGTGCACA autosomal
CAATAAAATTCTGCTCACAGAAATTAAGCCTGTCCCACCTCTACCAGACC autosomal
AAAGAATGGAATAAAAAATATATGAAATGGAATATATTAAATAATTAAAT autosomal
CTCTTTCGATATCTAGTTGTGTTGAGCTCCACATTCCCAAGTGATCTTTA autosomal
TGTGAACAGCCACACAATGCATTCTAACAGCTTCTTTTTAAATAGATGAA autosomal
CCCAATGAAGCCAAAGAAAGGAAGCATAAGAACAAAGTGTTACTTTAAGG autosomal
CCGGTGGCTCAGCACCGCTGGGAATCAGGCGAGGGGGTCCCGGCAAGGGC autosomal
AACTTTTCAATTATTTTGTTGAGGGATTTTGGGGTTTTTTTCATGCAAGC autosomal
CGTGCCATGTGGCTTGAAATCTAGATGTGATAGAACGGACAAGTGATACA autosomal
AAAAAAGAAATAGTTGTGTGGATCAAACTGAGCTGTTTTGTTGTCTTTGC autosomal
AGTGTTGAGCTCCAGTGCAATGAAAGCTTGGTGTCTGGGGAATACATTGA autosomal
CCCGGGCCGCCCCCGCGCCCGTCCCCGCCGCACCTGGGGGCCCTGGGCGG autosomal
ATTTTTCAGGCACTGCCAGAAGTAGGGCTGAGATTGAGGATTAGTTGGCC autosomal
ATTGGATCTGCTTTCTAACCTGCCAGATGTCTTTGGGAAGAGCCATTAAA autosomal
ACGGTGGCCGGGGACAAAGCGTGGCTGTGACCGCGCTGTCACACACAGCG autosomal
ACTCCAAAACATAAGTTAATATAAGTTAAAACATAGTTAATACAAGGACA autosomal
GTTGCTTTTTCAACAAATAAATTTTTAAATCAATTAGATTAGTCACAGCA autosomal
CAGCAAAGCTCTAGCCTGGGTTTCCTCTCACCTTTGGTCTGTCCAGGATG autosomal
GGTGCATTCCTGAATGCCACCGGCAATGTCAGAGAGTGGACAGGTGGAAA autosomal
AAAAAAAAAAAAAACAAAAATAAACAAAAAAAAAACCAAAAAAAAAAGAA autosomal
CCCACTCCAGGTCCCCTTTGTGTGCTCCCTGCCTAGTCACTCGAGCAGAA autosomal
GACCAGGGATTCATCAGCAAGCGGTTAAGGGTGAATGTGAGCTCGACCGC autosomal
CTGTGAAAATCTCTATTGAGTCTTTGTATTTGAAGAGTTTACATGTAATA autosomal
CAGGGAAGCCAGCTCCTCATCTTTGATGGAGATCCTCTGACCTTTGTCGA autosomal
GCCAACAAGGAAGATTTTTTTTTGATCCTGGTTTCCTGAGCGTGGCCGGC autosomal
GCCCCTTCTCCAGCCCCCATACTGCTGGGAAGGTGTTCTGCACTCCCCAC autosomal
GCGGGAACTAGGGGCGATGGCGTCACTTCCGGTTGGCCTGAGCCGTGCCA autosomal
AAAAATCTGAATACACATTAAATAAATACTGAGTTATTAACAGCTTGGAC autosomal
AAGATGCTGACCCATCGCTGGGAGTGCTCCGGGTTCTGCTGCTTCCCATC autosomal
ACAGAGTGGTATGGGAGCTATGAATACGTGGTATGGGAACTATGAATACG autosomal
AGAAATTGCCCTTGTTGACACACAGTGCAGTATTTGTGGGACACAGGACT autosomal
AAAAGTCGGGAAGCGGCGGATCCGATGTTTTATGGAGATCTGGAGGTGGG autosomal
ACGGCTTTGCATTCCCAAAGACACGGCACTTCTTCTGTCTTGTTAGGATA autosomal
ACTCTGAGTGCTGGGGCTCACCCTGTCCATGAGCCCTGCTGTGGTGGGGC autosomal
GGCACGGTGTTCTCATCAACATATTTTAGATTGAGTTGGCTCTGTGCACC autosomal
TCCTTACAGTCTAAAATTACTACATCACCTGGGCATGGGGGAAGCAAAGA autosomal
GGTTTCTCACACACACAAAAAAAAAAGTTCACCTCATTTTCACATCTTTA autosomal
AGACCCTTGGGTCCAATCATTCCTTTCCTTCTCTACTAGTTCAGAAGTGA autosomal
TCCAGCACCAACTTTCTTTCAACAGCATCATTTAAAAACAGTAGCCAGCA autosomal
ACGTTCCAAGGCTCTGGAATTGCTGCCTCAGCCTGGAGCAATCTCCTCCC autosomal
GGGGCCCAGGAGGGTTGGCAGTGCCCTTCTGGAGCCGGGCAGGGAGCAGA autosomal
AGAAAACCCCAAAACCCCCTCACAAAAACCCAAAACCCCTTCATAAAAAC autosomal
GGAACGGGTTCCAGGCCCGGTACTCCACCGCTTCCGTGCCCTCCTAAACC autosomal
GACGTCGGAGGTCACAGCCCTCAGACGAGAGCCTCCTGACAGAGGTGGGA autosomal
TAATGTAAAATAATATTACCACTCTTGCAAACACCTTGCAGTTTGTGTCA autosomal
ACTAGAGTGAAATCAGAGTTGGATCTGAGGTCTTCACTGTAACCTAGGCA autosomal
GTGCAGACAAACACCAGAATCAAACACTTCCAAAATCAAGCAAGCCTTTA autosomal
CCCGGGTGCTCCACCAGGCCCGTGGGCACCGAGGAGCCCCCAGGACCTTC autosomal
GGAGAGGAGCCAGGAGAGGCAGAGGGGCGGGGGCTGAGCTCTCCCTGCCC autosomal
AAAAAAACCCACGTTATTTTGTTTCAAAATTAAAACTAAGTTTCAGAAGT autosomal
AGCAGCACCCGCAGCCCGCGGCCGCCGCCGGCCCCGGGCCCCGCCGGCGG autosomal
CCGGGCTGCCCTCCCCTCTCGTCTCTTCCTTGTGCTCTCCCTGTCCCCTC autosomal
ACAGGCAATGCTCAGTTGCAGATTACCAGGGCAGATGTCACACATCGTCA autosomal
AGGGGGAAAGGTGGTGATGGCATAAAACTGCATCACTTCTTCTTTGACAG autosomal
GGGGGTCTCCGGCAGATGCCGCGCCCGTGGCCTGCCAGGCGCCGATCACC autosomal
GGGGAATGCAGATCTGTGGTAAACCTGATGGCAGAACGAACAAGCTCTAC autosomal
ATGCCCCTGTCTTGGCTGGTTACTGTAACTCAGAGGTCTCTACGTGGAAT autosomal
CTACAGCCCATTTTTGACTGGTGTTGCTGCCTGGGGGCTGGCAGGGGAAG autosomal
TTCCTGGACGCCTACAACCGCTACTACACCGTCAACGAGCTGTCGGCCAA autosomal
CTGGCGTTTTTCCCCCCAACACTCCCTGACATCTGGACATGAAGATGTGA autosomal
GGGGGTGGCACAGGTGTGCATGGGGGTGGCACAGGTGTGGCTCAGTTGAC autosomal
CAAACTGCTAGCTTAATTTAGAAAAAAGGATCTACCTAATGGCTTCTGGA autosomal
ATAGACATTTAGCACCAGACCCACAGACCTAGCCTGGCTAAAACCTGCAA autosomal
CCCCCGCGAGGAACCGGGACCACCGGAGACGCTCCCACCCCATCAGTCAG autosomal
CACAATGGTATAATCAGTAATGATTTTTCTTCAAAGTCTGGGAATTTGAC autosomal
ACAGGGCAGAGGTTGGCCTCCAAGGAGCCAGAAGGTGTGTTTAAAGGTAT autosomal
CCGCCTCACCCCCGCCTCCGTATCCACTCCAGTCAGCCCCCCCTGTGAAC autosomal
CTAACACTGAAGGTGTCAGCAGAGTAATGACCTTGCCTGGTCACAGCCTC autosomal
CCATGATCGATGCCATGATGGTTGGCTGCATGTTCGTTAAGATCTCCCGG autosomal
CTAATGGAAAAGATTTGCAGTGAACTGCAAATTGATGCAGAATATCTCTC autosomal
ATTCAAGCCGGGAAAAGCAGCCCCTGCCCCAAAGACAGCGGGGCTGGCAC autosomal
TGTGACTTGTTAGGTCTTGCTTGGAGAAGCCGACAGAAAGGGGTGCTTAA autosomal
CCCCCAAAACGGGGCGCCCCTGGGGAAGGAAAGGATCCGGGAGCTGCAGC autosomal
CTCCAGAACCTGCTGCGCTATGTGGGCCTGAAGCCAGCCAGCAAGGAAGC autosomal
ATTCCAAGACTGGCGTGGCCCTGGCAAGGGACTCTGGGGTGGTCACTGTC autosomal
GAGTTGATAGTTGATGTAATTGTGGCTTGTTCTTGTAATTGTTAATTAAA autosomal
ACTGTCAGCAAACACTCTGCCAGCCACACCATTGCTGTGCCATGGCTGGG autosomal
AGACACAAGCTGCAGTGTGTCTGAATTGGAAAACGTGGCTAGAAGAGTAA autosomal
CTGCTGTGCTGCAGCCTTCAGATCCTCTGACCTCTCCTTTTTCTTCTGAC autosomal
CCAGGTTTTTATCCTGCAGAGATAAGTCAGCTAAGTTGTACTACCAAATA autosomal
AATGTACCAAGACAAGGAAGTCTCCCTCCCCGGTGAAGTTCACTTATGCT autosomal
CAGGCAGATGAGAGAGGTCAGCAGAGTTGGCCTTGCCAGGCACGACACCC autosomal
ATGATGGTGAATTTTTAACAGGGAGGGACAGGGAACGAGGGACTCATCTG autosomal
GGGCAGACTGGGGGGCAGTAACGCTGCATTGGGGGGCAGCAGGGCTGCAC autosomal
ACAATTCTGTCTCGTGCAAGGTCAGGCACGTGGCTGGAAACGTGGAGAAG autosomal
CCTTGTTCTCGCCAATAAATCCCAGAAGATCTATCATTCCTGCAGTGAAA autosomal
CGCTCTCCGTGCGGACTTGTCCCGGCTGAGCCCCGGGAAAGCAGCGGTGC autosomal
AGATCATCATTGTACAATGCAGTAGTTTCCATATGAGTACAATGTCCTTC autosomal
GTTTCTCAAGACTGTACTTGGCTGTAATTATAGATGTGGTGTAAAGATAA autosomal
CTGCCAAGAGCTCATGCCTAAATATTATTACTTCATACACCGCAAAATGA autosomal
GACCCCCAAAAATGGAACTGGGACCCCCAAAAATGGGTCAGGGACCCCAA autosomal
GTTTCACAAGTGGATATGGGAAATTCTCCTGCCACATTACAAGGAAGACA autosomal
GGACCCCAATAAAGCTCTGGGACCCCAATAAAGCTCCAGGACCCCAGTAA autosomal
CATGCAAGCTACATCCTACATGGGAAAAGAGACTGCAGCACTACTGATGA autosomal
CCCCAAGGCGCCGGGCAAAGCGCGGCGTAACAAGGACAAGGAGTATTACG autosomal
AAAATACATGTACCTGTATGCATGCACATTCAGGTCCCCAAAGCAACTCC autosomal
CCTAATTACAATATATTTTAAGCATTTCTTGGTCTATCAGCTTTAGTCAC autosomal
AAAGCATCAAATGCATCTGTGTCTCATTTTAAAAGGGGGCACAAGCCCGC autosomal
ATGTAGCTCTGTTGCTGTACAATCTTTTGTTATATAGGAGTATGATGTAA autosomal
ATTTATTCACACAACAGACAATACCAATGCAAGTTATCTTGCATCCACTC autosomal
TCCTCCTGCTCAGTGCGGCCTGAGGGCCCCGCGGGCGACACCTCCGCTCA autosomal
ACTGGATGGCCCACACTGTCAGAAAAGATTACAGGTCCTAGGAGATTCTG autosomal
ATACCTTTCTTCTTTTGGCTTCCCGTTTGATCTGTGGTTTCTATCTGCAG autosomal
AATAACCCATTAACAGCAGCTGGCTCCCTGGAGGGAGGATGGGTTGTGGA autosomal
CATTTGGTTTTGGTTTTTAGTTTCATTCCCAGGCGTGGCGAAGAGCATGC autosomal
AAACGTTTATTAGTGGATGTTCCCACCATCACCAGGCTTGCATGCTTCTT autosomal
TAGAAAACCTATGTTATATGGAGAAGCAATAGGTGACAGCATGCTTCTGA autosomal
ACCTCATAACTGCTGTACTCTGCAATTTTTTCTGCTTCAGCAATGGCAGA autosomal
CACCGGGAGAGGGAAGAGCCCGGCTGGAAGCACGAGCCGAGCCGCAGGCA autosomal
ATGCACTTGGGTGGATGAGCATGTCCCCTGTCCCTGGTGATGGCATTTGG autosomal
GCACTTTATGAGATTGAAGCAGGCAATAATGTGTCAAAACTATTGTTGAA autosomal
CAAGACTTGCAGTTCCATGGCCTCTTCTCCCAGCAGTTTCTCCCCAGCCA autosomal
CCGGCACAGAGGGGCCGGCCGTGCTGGGGCTCAGCCGCTGTGCGTGCCCA autosomal
CCGCCCCTTTCCCGCCGCCGCGGCCGCCAGGAGGATGAGGAGGGGCAGAA autosomal
TGAGAGTCATCAGAACTGGTACCACTTCTTGTCTTTGTACTTCAACATCA autosomal
ATGTCAAGTTAGTGTTCAACAATCTCTCAAGACATGAAAGGAATATTTAC autosomal
AACAATTTACACGTCAAAAAAGTTTTACACTGAAGTTTTCTCAGCAAAGA autosomal
AGAGCCACACCCCACTAGTGTTAATGTCTGTGTCCCCAGCACCGTGGGGA autosomal
CCAGCTCCCTAAATTCCTGAGAGAATATGCTTGTTTGTGTTTAGTTCCCA autosomal
ATACATCAGATCCATCTGGTCTGCCTCGATTTCAAAAGCCTTCCCAGTTC autosomal
GGCCTTGATGCCGGAGCGATCCCGGGAATCTGAGGGGGATCCCGGGGACA autosomal
CATAAAAGACTGATAGAATAGAGCTTGATTGATAGCTGGCATGATTGCAA autosomal
CACCGTGCACACCGTGGATGCTGAGTGCTGAGGGACCCACAGCCACCACC autosomal
AAAAATATGTAAAATATTAACACAAGGCCACAAAAATCCAAAGCTATGGA autosomal
GTATTTATCAAAAGGGTGCGAAGATGAAACTTGTGTATTAATTAAATTGA autosomal
ACATAATCAGCTTTTCTACCAAGTGTTGAGCCCTGTGAACGCAGAGCAAG autosomal
CTGCCGGATTCCCACCGGGGAGAGTTCAAATCCCTCAAAATCCCTCGAAA autosomal
GATCAGGGCTGGAGATATTTTTTTTAACAATTCACTCCCCAAAAATATAC autosomal
AATAATAAAATAATAATAATAATAATAATATACTGAAGCAAATCAAACAT autosomal
GGGGGGGGGGGGGGGACACTTCTGTAGCACTTACAGGAACTTCTTGGAGA autosomal
GTATTTGAACATAGCCTTGATACCACAGACTATGGGAACGCAACACTGGA autosomal
AACTTGCACTAGTAAAAAAAATGGTGTATTATTTAAGTGAAGATGATTAA autosomal
CACATTTTCCCTGATCAAAGACCAGATGACTCCATGGCTTCCACACAAAA autosomal
CTGGGCTTGCATTAATGGTGGTGTAACTGCCAGGCTTAGATTTGGAAACA autosomal
CCAGGGTGCCCAGGGAGCTGCCTGGGTGAGGGGTGCAGCGCGTGGGGTCA autosomal
GCCGGGTCCCCAGTCCGTGCAAGCCCGGGTGGCCCAGCAGTGCCTTTGCC autosomal
AGTTTTGGATTAATGCAAATGTATGGGCATCTCTTTTGCACTGAAAGCTG autosomal
CTTCCCATCAGTTCTATTTTTTTAATCTCGAATTACTCCTCTCCTTCCTC autosomal
CCAAAGTACAGTGCAGTAACAGGTACAAAAAAGAAAATTATCCCCATCCC autosomal
AAAAATCCCAACTCCCACCCAAATTTCCCCACCCAAAATCCCCTCAAACC autosomal
CCTGTTGCTTGGCTCTTTATTTTGGTGGAAGCTCGTAGCCTCTGTTCCAG autosomal
AATCAAATTAATTTAAAAAGTAGCTTTTAAAAATAAAAGCAATGCTTTAA autosomal
GGGTAAGAAGTTTACCCCATATTCAGAATGGGATTTAAGCCTTGGAGAAA autosomal
ACAAGATAAAAACCCCCTCAAAACAGTTTACAAAGCAAGTTAAGTGTTTG autosomal
CTGTAGTGTTCTGACAAACAGCACTGAAAAAATCTAAGCTACCACCCAGA autosomal
TCATCAGCCTGGACAGTTGGCTCAGCTGTGAGGCACAAGACTGTCTCCCA autosomal
ACACGGCTGCAAGCAGAGTGGGATGTGTTGGAGTGCAGCAGCTGCAGACA autosomal
ACCGGGGGGTGGGGGAGGGGCCCGTTCCCGTTGTGTCCCCCCGCGTCCCC autosomal
CTTTCTGGGCAAGTGACTACCAACAAATGAATTTATAAAGGTCCACTAGA autosomal
CATGGGGTCCAGGAGTCCCCTGCCCAAGGGCTGAAGAGCAGGCATCCCCC autosomal
ATTACTGATTATACCATTGTGCAAACAGTGTTCAAATTTGGGTCAAATCG autosomal
GGAAGCTGGTAGCAGAATAACTGCATTTTAGTTTTTGCAACAACAGAAAA autosomal
CCCATTATTCATCACTTTCTGTATCCGTGTCTTCTGAGGACTCAAACCAG autosomal
GTCGTGGTGTCCGTGGGAGCGGCCGTCTTCCTCTTCGGGGTGGTCATCAC autosomal
CATCGCTGCTGTTCTGGGAGCTGATGCTGGAAGCCCAGAGGGCCTGCTGA autosomal
ACGTCCCATTTATAATACTCAAAGAGATGGCAGAGTTACATCACCTGGAA autosomal
TCAGTATATGTTTAAGAGTAGCAAATCAATGTTAACTGATTTGCCTAAAA autosomal
AGCCAAGGCTGGAGCCGAGCAGAATAACTCTCTCACCATAGGATCCATGC autosomal
AGCACGAGCGCGGCGGGGCGGCCCCGGGGGCCCCCGGTGCCCCATCGTGG autosomal
GCACTGCTTGGCTGCCTCCCTTAACTGACTGAGGAGATTCTTCTCGTCCA autosomal
AACAAACCAAAAACGCCCAGTTCATCATCATCTCCCTGCGGAACAACATG autosomal
CTCTCCTGCAGCCATCGATACCAGTGACTCATCTGGAGTGGTCCTTGGTA autosomal
GACTTCCCCAGTGGTGTTTCTGTGTGATTCCTGCTCCCCACTCGTGGGAC autosomal
GATGTCGTTTTTATTTCCCACACATATTACTAATAAATAAGTTCCTCTAA autosomal
CTCCTGCCCGTCCGGGGCGGCTGCGGCCGCCTGGAGCTCCCGGCGGCGCC autosomal
ATAAGTTCTTTACAAATTTAATTCAATAGGACAAAAAACTACCAAGGGCA autosomal
AGCAGAGACCATGGCCAAGGGCATCAGCACCTGCCCCGCCACCGCCTGGC autosomal
AAGGTAAACAAAAAATAGCTATTCAGATAGAATGCAAAAAAATGCTCTGG autosomal
AGTTCCTCCTTCTCTTTCCCCTTAAAAGAAGCAAAACAAAATCCCAACAG autosomal
CATCCAGTTATGGAGAACTGCAGTTCAGGGTGTGCCAGACTCCCATGAAC autosomal
CTGTGTTGGATCCTCACACGTGAAACTTAAATCCAAGTTATACAGGCCAC autosomal
ACGGGCCGGCTGCAGCCCGCCCTGGCACACGGGCTGGCCCTGGGCGTCGC autosomal
CCTCAGGAGGGTTCTGGGGCTGGGGGGGAAACCTGGCTGGAGCAGACACA autosomal
CGTTTAAACTAGAGCCGGGGCTTTGCAAACTGCTGTAGCCGAAACTGGAG autosomal
CAAGAAAATAGAGCTTGCCTTATTCCCAAAGTATTTCCCTACGCATCTCA autosomal
ACAGCAAAACTTTTCCCCAGAGTATGATGTTACACTGTGTGCAGAATGAA autosomal
ACTTAATGCTGCTTTGGGTTCTGTCTTGTTTATATGAAAATAAAAACAAT autosomal
CCTGTCACAGCAGAACCAGATGAGTGCCTTCCCCCAGAGCCCACCCCTCA autosomal
ACAGACAGGAGCTTCGTGCTCTTCACTCCTTTTCCGTGGGAGAACAGGGG autosomal
CCACGGTCCTCTGCCTACGAGGGGCTGAATTCTTCACAGGAGAGAAGAAA autosomal
AGTCCTGTTTCCAGGTCAGCCTGGTGAGCTTGTCCTGGTGGCTGACAAAA autosomal
TAATTGTTGGAATACTAATGAATTTCAAAAGCTTACTAGCTGCCCACTCA autosomal
ATAGATCGGGGTGGGGTGTTCCTCCAGCGAAAGGTCCATTTGGGGTGCAA autosomal
GCTGGGCCATCCGAGGGGCTGCATCCACATTGTTGTAAATAAATATTATA autosomal
ACAGATGCTTGTGGTGAAGGTGACCCAGCTGCAAGACGAACATCTGGGCA autosomal
CATACATCTCCCCATTAAAACAAGGGTATGTTAGTTAGCCAAATGAGTAA autosomal
AGAAAGGGAGGGTTAGAAAGAGCCAAAATGAAGCAGATGAGAAAATTTCT autosomal
AAACCCTCCGAAAAAAATCCCAAAAAATCCCAAAAATCCCCAAATTCCCA autosomal
GATAACATCTTCTCACCAAGGGTTTCCATTGCATTACATGATTAATTAGC autosomal
AACAGTACAGAGAGGTTCACTACCAGGCTGAGCCGATTCCACTATTGTCA autosomal
ATCGCGACAGCGCTGGTGGCCGCGGGCATCGCCTGGTGAGGCGGGGGGGC autosomal
CTGAGGTGAGGCTGCTCCACACAGCAAAGGCAGTGTTGGTTTTTTCAGGC autosomal
GACTGCCACATTGTCTGCAGAACAGTACGAGTCTCTTCTCACGTTGTCGA autosomal
AGCTCTATTCCTTGGACACTGCTGCATGTTATTGTAATACTGGGTATCTG autosomal
ACCATGAAAATGGGCTTGTGAAATACAGATGGGTTATGACACCTGTTCAG autosomal
AAATTTACATTTACAAGACCCAAGTTACACTCACAGGACCTAAGTTTTCC autosomal
AGGGGGCAGCACACACGCCCTGCCCTGGAATGCCAGAGGATGGGTCCCCC autosomal
CGGCCGGGACCATGTTGGTGAGGTTCAGCATGTACCCCAGCGTCCAGCCC autosomal
AATAAACACTGATTTCCACCCCAGGTCAACCCATACCTTCTCTTCCTTGT autosomal
AATTAATGAGCAAAATGTATGTTTCATAGGTATTAAGTGATAAAGGCAGC autosomal
TATTTACAGAAACTGTGTGGGAAAGTTTCCCAATAGAATGTAAACTCAGA autosomal
AAAAAAAACCCACCAATGTGTGTGCATATACATACGTATACATACCATAC autosomal
AGCATCTCCTTTCCAGCAGCATCCAAAATCCCTTTCTTTTACCTCTCCCC autosomal
CAAGGCGGGCAAGCGGCCCTTTCCCCCAGTGCCCCGCCGAGCCGCGGCCC autosomal
AAGAACTCGCAGCTGGAGCAAGAAAACACGCTGCTAAAAACACTTGCCAG autosomal
ATACACAAAGAGTTGTTGTTTTTTTTTTTCTTTTTTTCTTTCCAAAAAAT autosomal
CCAATTAGCTGTGCAATAATTTCCGAAAACAATCATGATCAGTCATTGAC autosomal
CCAACCTCTGCTTCCCACCCCCCACCTGGGCCAGGTAAGGCAGCTCAGGA autosomal
ATGGCTCTTTAAACCCCATAATCTGGGAATTATCTGACCAGTCTCTGCTC autosomal
CTCAGTTTTTCACAATGGAACACAGTCTTTGAGCGTGAGTTTGAGTCCAC autosomal
CAACAAAGTCTTAAGAAAAAAAAAAAAAAGAAAATCTGGGTTGCTGCCTG autosomal
AATCTGATTGAAGCAGGAGAAAAATGGTATACACAGAATATACTTTTGGT autosomal
AAGCAGTTTTGTCCTTAGATCCTTTAAGAATATTCCAGTTATGTTTATAC autosomal
AATCAAGTGCAGTATCTCCTTGACAAATGCACCAGTCCTTTTGCTTTTTC autosomal
AATGACAAGGTTTTTGGTTTTGCAATAAATGAAGCTACAAGATTTTGTAT autosomal
CAAAAAAAAAAAAGAATCAAAACAGACAGACAAGTTACAAGTCAGATTTA autosomal
AGTCCCTCCTTGGCCACTCCAGATCATTCCAACCCATCCCAGGTCCCTTC autosomal
GGACAAATTGATGACCTAGAAGCACCAAATGGGATCAGAGGGGGCACAAA autosomal
AATGCTATCAGTCTCCCCAAAACAGGAAATTAAGATAAGAGGCAATTAAA autosomal
CCACGTACATCATTTTCAAGAGAGCAGCTACATATCAGAAAATCTTTTGA autosomal
AAGAGATGCCTTGGGTTTGGGGTTGCGTCAAAGTTGTCAGACGTGTCTTC autosomal
CCAATTCACAAATGCTTTCTGCTGGCACTGAGCATATGCAGAACGTAGGA autosomal
ACTTGGGGTTTTCCAGGGGTTTATACTCGTTCCAAAGCTTCCAGCATGAT autosomal
ATTTTCTTGTATCTTCCTTTCAGATCTCAATTCCTTAATGTGTTGGACAA autosomal
GAGAAGGGCTCAGAGACCCTAGATCCTGCAGCCCCTGCTGCCTGACAACA autosomal
AAATACCTTTGGGTGCATTTCTGGTGCCATCAAACATCCCGTGTGCGATT autosomal
CAGGGTGACCAGCACAGGGGAAGGGTTGATGATGACGCGGGAATCCTGGC autosomal
CAGGTGTCCTTCCAGCGCAGGGCCTTGAGCTGCGGCAGGGACAGCGCAGG autosomal
CGCAGAGCCCCAGGCCTGCCTCGGCTCCGGGGGCTCCCTGGGGGTTGCCC autosomal
ATAAATATTGTGTGCTTGATCGTGAGTGGGACCTCAGTGAGTATTGACTG autosomal
AAACACAACAAAAAAAAAAGTCAAAAACGGGAAAAAAAGGGAGGGGGAAA autosomal
CTCAGGGTTATTTTGGTCAGGGCTCCCTTCTTCTCTAGTGCAAGGTCCCC autosomal
ATTTCTTCATCTCCAGGACTGCACTTCCTGGCCCCCTGTGTTTGGCACTG autosomal
GAACAATTAAAAAAGACAACTGCAAAGACAGATTTAATTATTCCACGATA autosomal
AGTAGAAGAGGAAGGATGAAACCAAGGAAGACATTGGTAAACATCCTTAG autosomal
GAGCTTTTCCGGAGGGATCGGCCGCAATGGGAGCGGCTCCAGAGGGGGGC autosomal
GGACACAGTGTGATCATGGCAGACTGAATTATCCAAAATGTGTTATTCAA autosomal
TCCCCCAAAATTCCCCAAATGTTCCCCAAATTTCCCAAAAAAATCCCACA autosomal
AGGGCTATGCCCTGCCTGTCAGATAACTATACAATCTACTGTCTTTCCTG autosomal
AAAAAAAAAACCAGAAAAAAACCCTGTTCCTTTGAAGGAAACTTCTAATC autosomal
CTGCCCCTCCCCACTGCAGAGACACGAGCAGCCCATGGAATAAGTTACAG autosomal
TCCGTCCACCTGCACCACCCGTCCGTGCTGACCACGCACCACCCCCACCA autosomal
CCCCATGGAGCAGTCTCTCTTCCAGCTCCCCACCAAGAAATAGATGAAGG autosomal
ATGACTCACCTCATGGGAGTGCTGCAGTGGCTGGAGATAAGCTCTTTATA autosomal
ATGTAGTAAATCTGTAAAATCTTGCTTGCCCATTTTTAACTCATTGTGTG autosomal
GGTGAATAGCAGGTACATTAGGGTGAATTATACTGACATCCTGGCCAACC autosomal
AATCCCAACCCTACATAGAATGCCTCAAAACATTTCTCAGACTCTCAGAG autosomal
ATGCCACGGCTTCGTTGTATGACTGAATTGTCAGCATTCTGAGCCCCAAA autosomal
CCACCCCTTCTTCTTCTTCCTCCTCCACCACCACCCCCTCGCTCGCCACC autosomal
AGAAATGCATTGTTGGAGGGTTAAAACCCCCAGAAATGCATTTTTGGGGG autosomal
CCAGCCTGGAGAAGCCCCCTGAGCGCGGTGCTCGGTGTGCGGGCTGGCAG autosomal
CAGCATAACTGGCACAGAGTGCTCTATGCCAGACTCTGGGGGTGAACAGG autosomal
AACCCTGCCAGGGACTGCCACAATACCTGTGTCAGGGCTTCTGGAACTCT autosomal
CCCTTTTTTTAATGAGGGAAAACCTGATTCCGTGAGGTAAAAATCACCGA autosomal
AGGCCGGAGCTGGAGGAGATCTCGCGCCACCATTGGGTGTGGGGCCGGCG autosomal
AGAAGGGGTGGCCATGAGTTTATTTGCAGTGGGGTTTTTTATGGGGGGGG autosomal
GTGGAAGGATTTCTTTGGTCAAAGAGGTTTTTGGAGAAAGTTTGAATGAA autosomal
TAAGGGCTTAGTCCTAGAAGGCAGTTTCTATTGACTAGCAATTGGCATGA autosomal
AAAAACCAGGAAGAGAGGATGGGAATGGCCCAGGGGTGAAAGCTGGGATG autosomal
AAGCCCCCAAGGAGTGACACCGACCCCCAGCACTCACCTTTGATCGTGGT autosomal
CCTCTTCCTCCTCCTCCTCCTCCTCCTCGGTGGGACCGGGGGCTGGCAGG autosomal
CTCACCACAGGCCATGCAGTTCCTTCCAAACTGGACTCTGAGCCCTCTCC autosomal
CAACCTTCCATGTGCTCCCTTCTCCCACCCTACAGAGCTGGGATGTGACC autosomal
CCCACCTGCCAGGGCAGGGCTTGGCCCACATTTTATGTTCAAATAAAGTA autosomal
ATGCTGGTGGTTCTGTCTGTTGCGGGTGCTGGGAGTGCTGGTGGTGCTGA autosomal
AGGAGAACGTTCATCAAATGGGCTGCCAGGTCTTGTCAATGGTCTGAATG autosomal
CAAAGCCCAGAAGACACATTGCATCTGGGAAACCCTAGCGAGCCATGCAG autosomal
GGACATATTTCCTTTATACAGTTAAACATACCTTGTTTGTTTGTGTGCAA autosomal
CCCTGTCTTGGTGTAAGGACCCTCCCCTGTGCAAGGTGCCATCAGTGGAA autosomal
ATTGCTTTCCAATAAATCAACAGGAATGTGTGTACACAGGTAAAAGATAC autosomal
CCAAGTGAGATGAAGGGCACTTGTGGAGGGTTTCTGAGGAGTTCAGCTGC autosomal
CTCTGAGGGACTGTGGTCTCTGCTGTACCTGCCAAGGGGGTTTTATCATC autosomal
AAAGGATGCTGATTGATTGACTGAGACCTCAGTCTCACCTAAAATCAGCC autosomal
CCAAATCTGACCACCAGAAGATAAAACAATCTTCCAGGTGTCATGATTTA autosomal
AATACCTGCAGAGCATTTTTTTCCTAAGTAGTTTGATGAACAATCACCAC autosomal
CAGTTATATCATAGAAATTAAAAAAAAAAAAAAGTATCAGTATTCACTCA autosomal
AAAGAATTGGCCAATTGTTCACCCTGTGGTTAGCACAGACCCTGAAAGGA autosomal
ACATCCCACATATCCCTGGGGGTGCTCCTGGCCCCTTCCCTGCTCCTACC autosomal
CCAGTATAGACCAGTACAGACCAGTACAGACCAGTACGGACCAGTACAGA autosomal
GTGATGGTGAGGCAGCATAGAGTTGGATCCCAGAGGCCTCCCTTGATTAA autosomal
ACGGCCTGCCGCCCTGAGAGCGGCCGGTCTCGCCTGATCTCGGAAGCTAA autosomal
GCTACCCTGGAGAGCTGTAACTGCTTCTCCCACGCTCCTACCTGATCTAA autosomal
CTGTTAATTTAAAGCCATTCCCCTCCTCCTGTCCCTCCAGCCTCTTTCCC autosomal
CAGGACCTCCCGGACTGTACCCGTGTGCCGCAGCCCAGGGGATGTGGGCA autosomal
ACCAACAACCACTGGTGTTCTACATTGATGAAGTCTCACCCTGTATAAGA autosomal
GGAAGGTTTCACAGGAAGGAAAGCTAGTTGCAGCCAGATGAATCCAGGTA autosomal
GAAATAAGGAACAGAAGAACTGATGCTGCTATACGTATTCAGGCAGGTAA autosomal
CAAAGCTCCCCCATCCCTGCCCCGCACACACCTGGCCCCGGGCTGGAAGG autosomal
CCAGCACTGGGGTTAGGAGGGGCTAAAGGGAGCCAGGGCAGGGTGAGCCC autosomal
AAATTAGAGACATTTCAAGTATGCAATTAACCTCCTTTTGTGAAAACAAT autosomal
CTGAGGCCCTCACAGGCACCATTCAAGGACATTCAAGGCTTTCCAGAGGA autosomal
AATCATCCCAGGCCTTCTTTTCTCAGCTACAAGATCAAGTGAGAATGCAA autosomal
CATGCTGAGTCACAAATCCCACCAATTCTCTGAAAAGCATAGTTTTCCTC autosomal
CCAAAAATCCCAAATCCTTCATCCTAAATTCCCAAATCCTTCATCCCAAA autosomal
GACCTGCTGGGGCCAACCCGTCCGGCCCTTCAGCTTCTTCTCGCCGTGAC autosomal
CTCCAGGGATGAGGAATAGGTTGAGGTACTCAATGCCTGCTGGACCTCAG autosomal
ACACAGGATTTGCAAATGGAGGCATAAATTTAAAAAAAACTTCCTCAAGG autosomal
CTGGAAGCCTCAGAGCCTAGGAGTGAGTCTTCACAAGAATCCTTCAGCCA autosomal
ACCTGGTTTGCAAGGGGAAAGAAATGACTGTGAATCACTTCTGCATCTTC autosomal
GTGGGATGACAAATACAGAGATGTCATCGTAGGATGCCTCGTGGCTGTCA autosomal
TTAAATCTTATTGAAAGCAGCTACATCCATTGATTGTACATAGTCTTCAA autosomal
ATTACAAATAGGATTAACATGAACATAACATCACACAAGCTCGCAGACAA autosomal
CTTCAGTGGCCGGGGAGGGAGCGCTTCCAACGGCTCATCCTGCCTCTTCC autosomal
ACTTGAAGTCCCATCTCTCATTAAGTTGTGCATTGGCTTCAAAGAACACC autosomal
CTGCTCCCATGATGACATCCAAAGGTGATATTGAGAGATAGTCTGTAATA autosomal
ATATTTTTTCCCAAGACCCTAGAGCCAGTGTCACAAGAGGCAAAAGGAGC autosomal
AATGTTGCAATAATCACAATACAGGTCCTTTGGATATTTTTATAATGTAT autosomal
AAGCAGGAATTCCCCAAATCTGGCACTCCTTCACTGTCACTGGTGGCAAT autosomal
CGCCCCCGGTCACCGCGCGGGCGGGGCCGGGAGCTGTGGCCCCGCCTCCA autosomal
CAGAGAAGCTGTGGATGATCTATCCCTGGAAAGGCTCAAGGCCAGATTGG autosomal
AGTTGGATGCTGCCCCAGGACTCTGCAGATTAGAATTCAGCTGTTTGTAA autosomal
TGGATGACACTATACTCTTTATGGGAAAAATTGTGAACCCTCTGAAAAAA autosomal
GATTAGGACCTTCTCGTGTGTGTATATGCAGCCGTCTCTCAGATACAGTA autosomal
AAGACAGTCTGACACAAGCCCAGGAACAGGGCAACCTTCTCAGCTGAGGC autosomal
ACTGCTGGCAAGCAATATGCTGCTAATTCAGGCCTGACCATTGAATTCTG autosomal
GAATTGAAGTATTTATAAACAGAGTGATTTATTTAAGGAAAAGCTTATCC autosomal
AGGCTTTGTGTAAGAGTCCAGTTGCTCTTTTCACTGGAAAGGGAGGATTG autosomal
CAAACACTCGGCGCTGTAGCCGTGGCCGAGTGTGGGATGCTGAGGTCTAG autosomal
CCCTGAGCTGCGCCGGGTGCCATGACAATTTTGGCCTGTCTCCAGCTGGC autosomal
ACCCTGCCCCAGGCCCCTACCCGTCTCCTGGTGGCCACACGGCCACGGTG autosomal
AAGACATATTCCCAAACCTTTTGCTACAGTAATTGTATAACGACAATCAG autosomal
AAATGGCTTTTAGTGTTGTGGTACACAATATAAGAAAGCAGACTGTAATT autosomal
GTTCTCCAAAATAGAGCATTAGTTGCAAATTTAGTAAACCTGCCAGATTA autosomal
AGCTAAAATAATAATCTTCAAAATTATAGTCAGATAATACATGCCAAAAG autosomal
CACAAAGCCCAAACCCAGCACAAAGCCCAAACCCAGCACAAATCCCAAAC autosomal
CAGCTTCTACATTTATTATTACAGTTTAACACAGGCTTGGACAGAGGAGA autosomal
AAGTGATTGAAGCTTTGCCTGATGTTTCAGACTCAGCCAGGTCATAAATG autosomal
CCTAGCGGAACTGGAGCGGGCTGATGCGCAGCCCCAGAACGTCCTTCCCG autosomal
GTTGGATTTTCTGCTCATGTACTGTGTTAGAGCAGAAGTGGGAGAACCAA autosomal
CACGGGCCAGGACTTTGTCTTCTGCAGGAGACACAGCACAGCCCTGGGCC autosomal
TAGCCAGTGAGGATGCCACAAACGTGTGTTCGGATCACACCAAGCTCTCA autosomal
AGAAAAACAGGGAAAACGGGAAAAAATGGGCAAAACGGGGAAAAATGGGG autosomal
AAAAACCCGTGGATGCGGAGGCGGGATCCAGTTGTTTGACATTCTGTCTC autosomal
GTTTTATTTTTTGAGTTAGATTTTATTTTTTAAGCCTTTGGAATAAGATA autosomal
CGGACGAGTTCCACAGCCTGGGCGCGGACTCGCAGGTGTAACCTGGACCC autosomal
GAGCCTTGGCAGGTCCCTATGAACCCCTGGCAGGTCCTGGAAGGTCCCCA autosomal
AAAAATTAACTTTTCATGTGAGCTTTTGTGCAGGGATTTAAAAACCACAT autosomal
CAGCTTACTTGTGTCTCGATGGGTCAGTGCTTGTCACTGTGGGCCAAGCA autosomal
ACTCGTGGTTTTTGTCGCCCTCCGCCCTGTCTGTCACCTCTGGCTTTTCC autosomal
TATTTTTGAAACAAATGAACACAATTTACTTCTTTTTTTAATACATGAGA autosomal
AGTTTTTTGAAAGGGTAAGTTATGTATAAGGCTGGTATTTAGATGAATAC autosomal
GTCATAACTAGGAGCTGCTGCAGGGCAGGACCAAGAAGCCAGAGGGGGAA autosomal
AACAAAAAGATTATAACCAACATGTGGCAAAATACTGACCCACAAGGAGG autosomal
ATGTCATGGTGTGGTTCACAGCTTATCTTCACAGACAGTTTTGTTGACCC autosomal
ACTCTGAGAAACTTCACATTCCTGGCTTGCATATTGTCTTAATAAATCAC autosomal
AAACTAAGTCATTTACAATGAGCACTATAAAGCTGCCTGCTTTGGCAATC autosomal
GCAGCCACTCCAAAGGATGTGAAGGTGGGGGGAAGAAGAGTCAAGGAAGA autosomal
GTTTCTCAGATATAAGTAAAGTATTTAATTTGGTTTTGTTGGTGTTTTTA autosomal
ACTTTGACAACCTCTTTTGACCTTCCATGCCTTTCACGTAACCTTCACAA autosomal
CCGAGTGCGCCCGGCGGTGCAGCAGGAGGTGCCCGCGGTGCGGGAACACG autosomal
AAGTTCCCCTTTTCTGCACGGGTGCCTCCAAAAATCCTTCCTGTGTCTCG autosomal
CAGGCGAACATTCTCCTTTTTCTGATTCTGACGCTCTAGATCTCTGACCA autosomal
GGGCTGAATGTGGTTTCTCACACCAGCCTCCATCTCAGGTTATTCCAGCA autosomal
GTTTCAGGGCTTCCTGCAGGCAGCCCACATTCTTGCCTGTTGCCTGTGCA autosomal
CCCCAGCTACCCATCGGAGCAGGGCGAGGAGAACCAGCAGCCGCTGTCGC autosomal
AAAATATTACCTTTTCTTTCCTATTGGGGATTAAAGTTTCCTGGCGGAAT autosomal
CCTCAGAGACTAAAGCCCTTAGCAAGCCTGGCAGCTGTGGCTCTTTCACA autosomal
GCCTACGGCCATACCACCCTGAGAGTGCCCGATCTCGTCTGATCTCGGAA autosomal
GATGACCGTCGCCTCGCAGACCGGCCAGGACAGAGGAAAATAACCCAGCC autosomal
CACTTCCCTCCTTTCCATGCTCTGGGTCTGCCTGCCTCCTCAGTATTCCC autosomal
GAGCTAAAATAATAATCTTCAAAATTATAGTCAGATAATACATGCCAAAA autosomal
GAAAGAGAAAAATCCTAGGAAAATTGCCTTAAATTTTTACCAATCAGTAC autosomal
CAAGATCTTATGGAAATCCTCATCAATAATACTATTTACATTTTAGCTAA autosomal
AGTGGAGTTAAGAATTGCTTTAATGCATTCTGAAGGGTTTTCTGTGAAAA autosomal
AGGTACCAGTGAGATCTTTGTGAGGTTCTTTTCTGGCATGAAGCAGCACT autosomal
CCACGTGCCTTGATCTGAGGTAAAACCTCACCTTGCTCTGAGTTGCACAG autosomal
GGTCTCTTTCACCAGGCAGCAGCTGACAGAACAAGAGGTCACAGTCTCAA autosomal
GTGATGTGGTTGTCTACTTTCTGTGTATGAATATAACCTGGATTCCCAAA autosomal
AAATGCTTTATTTCAAATAGAAACAAACTAACTTACAACACAATGTACGA autosomal
ACTGAAGTTTTGTTGCTCTGAAATGTGCTGCTTTTAGTCCTTAATAGAAA autosomal
AAGAGTTCACAAGAGGAATTCAAATTTAAGATATTTTATTGCAGACCCTG autosomal
ACCCTGGAGCATCTGAGGGGGGTCCTGGGGGTCCCTTTTCCTCACCTTTG autosomal
CAGTGGAACCTGTTCCGCAGCATCCAGCAGCGCGGCCCCAGGGTGCTCCC autosomal
CCTCTTCCATGGATGAATGGGGGAATTGGTCACAACACTTGAAGATCACA autosomal
TCTAACTTCTAAAAGAAAATGAACAGCAGTAAAACAGTGAGTAAAACCCA autosomal
CAAAAAGGCAATCCAGTGAAATGTCCAGGAAAAGGCAGGTGTGCTCTTTC autosomal
CACTCCGAGAACACAATGGGGGAAAAGTCTTTGTAGGACAGAATTATAAA autosomal
CCCGCCCCCTTTCTTGCACTTTCCAACTCCTGGAAGAAATTTTCCAGCTC autosomal
CACTGGCAGATGGCTTTAGCTTCGTGTTAAAGTTCTCATCCGTATCAAAC autosomal
ACTAACTAATCCTATGTTTTTAACAAATAATCATCTACTCAATCCTAACT autosomal
GACTGGCAGAAGGAGGGGGTTCCTGGGCGAGGGACTGGTGTAAATCAGGA autosomal
CAGCCTGTGGATTCTGCTGAGGGAAATCCAGCAGCTACAAATTGCTGTTC autosomal
AAATAGACTGCATCTGGCATAAACCCACCTGAAATGACTTCTGGGAAGGT autosomal
CAGAGGAGCAGTGGGGTGCACACGATCCCCGTGTGGCCCCTCACGCCAGG autosomal
CACCACCACGCTGCGGCGCAAGCAGGAGGAGGTGTCGGCGGTGGTGATCC autosomal
TCAGCTGGGAATAACTTCCTCTGATACCTCCATCTCAAAGATACAGAAAA autosomal
AATGTCAACAGCAGGATCACCCTAAAAAAGCTGCTTTCTAGCTTTTGAGC autosomal
GGGACAAGGCTCCAGCCATGTCTGCATGTGTCACACACGGGCCACACAAA autosomal
AAAAAAAGGGATTTTAATGGTTTTAAAAATTTTCCTGTACAAAAGCTGAT autosomal
CTTCTAGTGTCTTCACTGGACACATTTGAAACTCCCTGATATTTACAAGA autosomal
TAGAGCTGAGAGTCCTGACGCACATGGTTACAGATCACATATACTGGATA autosomal
CCTGCTGCAGGTGGCTGTGGCCCCACACACAGCCCAAAGAGTGTGACAGG autosomal
TATAAACTCTAGATATGATTGATTAAAACAGAGCAAATCAGAATAAAACA autosomal
CGGTCATTGCACCATATGGAGTCCCAGTGCTGACTGACCATTTGCACAGA autosomal
CCAAGCAAGACAGGTTTTTGTAACTTAATACATTTTCAAAGCGGGGAGTA autosomal
AACCCGCTGATCATCAGTGAAATTGTTTCCTTTTATCAGTAGCTCACTTG autosomal
CCCAGGTGCCCCCAGGTGCCCCCAGGTGCCCCCCAGGTGTGCCAGGCGCG autosomal
CAGGTATGTGACCTCCTCTTTTACTGTTGACTGCACTGTGAAAATGGGGG autosomal
AAATATTCATTAGGAGAAATGAGACAGAGGCTTCCATGTTCTGCTAAATT autosomal
GAAGATGAGGGATTTTGGGTCAAAAAAAGGCCCAAAAATGGACAATTGGA autosomal
AAGGTCGTGTCACCGCCCCGGCCCCGGCCCCGCCGCCGCCCCCGGCCCCG autosomal
ACAACATGAAACTGCCAATCAACACAGCAGTTACTAATACACAACTACAA autosomal
GGGCCACAGGGCTCCCCTGTGGGCTGCAGCCATCACCTTCATCATCCTCA autosomal
GTCAGGATAAAAAGCGCCTGAAGATAAAAAGTCACCATTACCACAGCACA autosomal
TTTTATTGGACAAGGGCTTTAGAATCAAGCTCTAGTTTTGGGAATAAAAA autosomal
CTAACAGAGTGACCCCTATGAAACACATCCAAAAGTTTTATGATTTTCCC autosomal
GACATGGGAATGTTCCCTAAGTTACATAGTGTATGGCAGCAGCCTCTGAC autosomal
CTGCAAGGTTTCTGGATAGCATTTGTATAAAAGCAGGAATGCTCCTGAAG autosomal
ATGGATTTAGTGAGGAATGAAGGCTTGCATCCATTCAGTTCAGGTCTTCC autosomal
AACGGGGGTTACAGGCGCCTGGGCTTCCCAAATCCTGCTGGCCACCAGCG autosomal
CCAGTACATAATACATATTTTATCTCCTTGAAATGGCTAGAATCATGGAA autosomal
ATCAAGGATGTGAAAGATGAAATAACTAAGAGTTCAGATATTAATTGATC autosomal
AACATGCTGTGTGCAAATCACTGGAATAATACTGTAGCTAATTTTATGGC autosomal
CCATGAAATAGAATGTGACAATCCAGGTTTACCCCAAGAAAAAGACCCCA autosomal
ATTGTGCTTTAATTTATTTCCCTGGCTTGATGAAGTCTCTCTCTGCAGGC autosomal
TAATCTTTGCATAAATGATCAATATTGAAACTAGTTATTGAAGTTGATAA autosomal
CCCCAAATTCCCCCCACACTGGACCCCTGGAGCCTCCTTGGTGGTGAATA autosomal
TCGCTCCACGTTGCCACTGGTTGAGTTGCAGCCCATGAGGCCGATGCGCA autosomal
GGATCTGGCAACAGAGCAGATTCTGTTTTTCCATAAAGTGTCCATGTGAC autosomal
AGCCATGTCTGCATGTGTCACACACGGGCCACACAAACCCACAGTGTTCC autosomal
ACAGGCTTTTCCTACCAGCTCCCAGCAGTCTCATGAGGAGCAGCCCCATG autosomal
ATCCCGCCGGCTCTCCTCCTCTCATACGGTGGTCGCTGGCCCGTACTGGA autosomal
AAAGTTTGCATCTTAATGAATTCACGGGTTACTTCTTTGTTAATAAAACA autosomal
ATGAACCTCACAGAACAACCTTCTACTGAGTATTTCCATCAAATGCAGAA autosomal
AAAGGAATTTAATGTCAAGTATGTCAATAAAGGCTCATCCCATAAAATAA autosomal
AAGAACTGCTGCACACTTCAGATCTGGCCAGTCTTCGGTCTCAACATGGC autosomal
AGATACAGATTGTATTTTTGTGGGTTGTGTCCTTTTAGTGATTTTTTTAA autosomal
AGAGGTTTTGCTTGGCAGTGTCCAAACCCTTATTGAATCCTTAAAGGCAG autosomal
ATTATTTTGGCTACTGTCTTACTGAATCATTTGCCCAGTCTATCCATTTA autosomal
ACATTTGCCTTAAGAGTCAGGGGTGAGCCATGAGGTAAAACGCTGCTGAA autosomal
AAAAAGATGAAATGTTTTCAAACATTGAAAAATTATGTTTTTATAAAAAC autosomal
TACATTTAAAAACGGAATGTCCCGCAGGGCAATTAAAAATGCAAGAAAAA autosomal
AGAGGAGAGAAAAGAGGGAGATGCTCCCCCCAGCCCCCTATGGGGTTGGC autosomal
AAAAAAGGCCTATCACTATGTCATTAGTTAACAGTAAAGGATACCTCATG autosomal
ATTTTGGTGGACTTCGACCTTTTTTGGGGGGGATTTTGGGGTTTTGGGGG autosomal
AAAAGACAGAACATTTCAAGAGTATCCAACTGACACAGCAGCTTCTGTTC autosomal
AAACATAAATGCTCTATTAATATTAAAGTAGGATGAAAAAACACCCAAGC autosomal
CAAAGATTCTTGCAACCTGAATAACAAAAGTGAGAGTCAACTCCCATGTC autosomal
AGTCTGGGGTGGGGGGGGATAAAGGATAATGATCCGGACAAAAAAAAAAA autosomal
TCACTTGCTTTTTTTTAAATTATTATTATTTTATTTGTTTGTTTGTTTCA autosomal
ATAGTTTCTTTTCTGAAAGGTTTTTTTTTTTTAAGAACATGTCAAAAAAA autosomal
CATTTGCTAACTTTAGATGATTTAATTTTCTTTATGTCACGGCTTTGCAA autosomal
AGATGGCTTTGGAATGACACGATCACTCCCGCTGAGCCAGCAGCCAGAGA autosomal
ATCCATTGATCTTTGCTTGTCTTGACACATAGATCAAAATTGCAACTGCA autosomal
GGCAGTGCACCCCCATAATGTTAGCGCCAAGACAGTTATATAAAAAAAAA autosomal
AAGGTAAACCTGGAGGTTTTAGTTAGAAAAATCAAACCAAGGGAACCTCT autosomal
AGATCTCCCTTGCTGTGCTCCAGTTCATTTTTGACATCTCCCAGAGCACG autosomal
AAAGAGAAGGGAAAAGAGAGTGAAAGCAAACTTGATAAATCCCTGCAACT autosomal
ACACGGGCCATGGTTGGGGACAGCAGCGCCGTGGGGACAATCCGGGGGGA autosomal
GACCCCCAGAACCGCGGGACCCCCAGAGCAGCATCAATAAAGGATCTGCC autosomal
ACATTCATGAGGTATTTGTCATTCTTCTCAAAATCAAGATTCATAGTCAT autosomal
AATCTGTACAAACACATCAACAGTATGAATGAAAATGTATTGAAAGTGGC autosomal
ATTGTTAAAGCAAGTCACACACAGTCTGTTAGGAACACAAACAACCTCAA autosomal
CATTACTTCTGTTTTCATTCAAAGTGAGGTGATATTACTGAGAATAAAAA autosomal
CCAAAAATCCAGAAATTCTCCTCAAATTTTCTGGTTTTCCATCAAAAACG autosomal
AGCACATAGTTAAGTCTTGCTTGCAGTAGGGGTATATCCTCAGATAGGAG autosomal
CCCCCCAGTCCCTCCCAGTCCCCTCCCAGTCCCTCCCAGTCCCCCCCCAA autosomal
AAACTATAATATATTATTCTATTGTTAGTATCTTCAATGCTTGAAGCTTT autosomal
ACATCAGCATAAATTTCCAGCTGTTGTGAATTCTCCAGCTGCCAAGTACA autosomal
TAGTTTGGAAGGAGGCTGTGTTCTCTTTTCTAATTGTTTCAAGCCCAAAA autosomal
ACATTTCCAATTTGAATTAATAGTGTTAACAAGGTTTGCCAGCACACTTG autosomal
CCTCGTGCTCTCCTCTGTGTGCTCAGTCATACACAGAGTCTCTGCATTGC autosomal
AAAAATAACAGCTCTATCAAACCAAATCCTTCCCAGTCTCCACCGCTTCT autosomal
CAGAGCACTCAGTGCCATATCCAGTCACTCCTTGGACACCTCTAGGGACG autosomal
AAGTGGCGGTGGCCGACGGCGACAGGGACGAAGGCGCGGGGGGTGGGCGC autosomal
GCCAGCCCTGCCAAGAAGCTGCAAGCAGCCCTGCAGAGACTCCCGTCACA autosomal
ACATCCCGTGTCTGTCCTCAGGGGTATTTTGTTCCCTTTCCAAACACCTC autosomal
ATTTGTAGATGAGGAAGAACAGAGCATATTATGTACCTTGACTTTTGCAA autosomal
CAGGCAGGCCACTCTCAGCAAACAGCCCTAAGAATGGAAGATTCACTGGC autosomal
AGCATACTTTGTTCAAGTATAACTGAAGACCTGCAAGTCTGCTTTAGTCA autosomal
GGGGTGGCCTTGGGGCCAGCAAAGGCAGAAACTCACAGCCAGGGCAAGGA autosomal
ACCGGCACCAAACAACAGTTTATCATTTCTTTAACCTCCTGATTTTAAGG autosomal
TTATTTCATCTTTTTGTAATACCTTTAACTATGAGACAGAGCCAGGAAAA autosomal
GCTCCCAAAATAACTAACTGTTCTGGTAATGGACTCTTTGGACTCTCAGC autosomal
AAGAGTGGACTGGACAGTAGGGTGTAGCCCTCAGTTCAGCACTGCCAGCA autosomal
ATCCAGTCAAAAGTAGAAAAATCCATGGAATTCTGAGGGCAAAGCTGTGC autosomal
AAATAAATGTCTATTTGCCAGTACTCATACCAGCCACACTTCTAGTGGCT autosomal
CTGCTGTTAATGAATTTTTGAGACACTGCTGTTAAAAAAAAAAAAATCCA autosomal
AGCAATGTTATACAACCATGTGGATGGAGGAATGAGGCACTTCTAGGTTG autosomal
ATTGTCCTTCCTTCGTGTCATCACCGTCCCCTTTGAGGGCTCCTCCTCAG autosomal
ATACTCTGACAGAATGAGAATGCAGCCATATAAATAAAATAGAAGAAATG autosomal
CGCATAGAATTGTTTGCAACAGCTTAGCTGCCAAATTCTGAATCCAAATA autosomal
AGAAGCACAGTTACCTTTATACATAGATTTTTAAAATTTTTTAATGTTTA autosomal
AGAATGGGGAAGAGAAGGAGAAAAGGAGTTGAGATCAAAAGCCGTAAGAG autosomal
ACTCCACTGAATCCACCAGGCCTAGCAACAATGACCAGATGTTCACGACT autosomal
ATACAGTACCTAGTAACTAGGTATCTAGGAGAGCTGAATCTCTTGGGGAA autosomal
AGTTGGGCAAGTGGGAGGAGATGCCATGGAGAAAAAAGATGACACAACAG autosomal
CACTCCCACATTGATGTCACCCCCACATCGATGTCACCCCCCCATCGATG autosomal
AAAGCTACTTTGATAAGCTTGAAATGTTCAAGCAAATGAATCAAAGGCCA autosomal
AAGGGGGCAGGAGTGAAATGTCTGTGTTCAAGTATTCCATCACCAGTGGA autosomal
GCTCACCACCACCTTCCCACCAGCTAAATGACAGCTAGATTGCCCTCTCC autosomal
TAGGACTCATTTTAGCCATATAGCCAAGTTCAGCTACACCTCTAGTTTCA autosomal
ATGTGGCATAGAATTGGACAGCAAGAATCTTTCGTTGTGCTGGACTAGAA autosomal
ACGGCTTGTGCATACTGCCTAAGCTTAGGGAAAAATAAAACTTGCTACTC autosomal
GATGTTTGAGTTACATTTCAAATGATTGCTAAAGACATCATACTAGGAAC autosomal
AATCGAAGTGTAACCAAAGGATCTGTAAACACGCTTGTCACACAATCACA autosomal
GAGGGACGTGAGGGTGGGACCCTGGGGGAGGGGGGAGGTGACACCAGGAC autosomal
AGCAATGCTATCGTCTTCTGGGAAACAGCCTCAATGTACACGTGGTGGCA autosomal
CTGAGGATGGGCCCGGGGAAGGTGACCACCGAGGCCGGGGGCTGGATGAC autosomal
CCCCTCGGGCTCCATCCCCGAGCCCCTCCTGGTGGCCACGGGCGAGGAGG autosomal
GACTCTACTGAGCATGGCTGAACATCCCCTGCCACGAGCAGGAGCGAACA autosomal
AGAACTTTTTTTCCATTCCTTAAAGTTACAACAAGAAAAAAACCAAGGCA autosomal
GTTGTCTATTGTGGACATCTGTATAATACTGGAATAAAAATATTTAGAAA autosomal
TGGACAGGAAAACTATACTGATTTGTAATAGTAGGTTTTTAGTAAAAAAA autosomal
CCGAGGTCCCAAACCATTCTGGCACCCTCCTCTTAGCAGGGGGATGTGAG autosomal
AAAATTTAACAATGCACGTCACATTCACCTGCGTTCCTCCGCTGCCAGAA autosomal
AGAGCATCGTGGCCTCCAGGAGGAAGCTCGGGGAGCCGATGACTCTGTCG autosomal
AAAAAGCAACATCTGGACACTCTGCACTTACGGATATAATTAAATACTGC autosomal
GGTCAGGGGCCTGGGGACATTTTGGTGATGAAAACCCAGTTCTGCAGTAA autosomal
ATGGCCGCTGCACGTAGTTGTAAATCACCTCCGGCCTCCCGCCCGGCCGC autosomal
GCCCGTGGCGGTGCCCGGAAGGTTCCGCCGGCGCGCCGGGCGCCAGGAGC autosomal
ATTTCAGGCAAAGTCCCCCCAGGGCCTACACCCAACATGGATGATGGATC autosomal
ACATGTTTGAGTTGCTATTTAGCTCTTTTTCAAAAGAATTATAAAGCAAT autosomal
GCGATGGTAAAGAGGTGACTGGAGCTGGGACTCTCAGGAATTGAAAGCAC autosomal
ATAATTATTTAAACTTTTTAAATTATAATTTGTAATGAAGAAAAAGAGAA autosomal
GCCCCAGCTCCTACAGTGACCCTGATGGGGTGGGACTGGTGGTCAGACCA autosomal
GGACACGCCCACCTGGGGGACCCCCACCCACCTGGAGGGTCCCCAGACCC autosomal
ATGCCAAAACCTTCTTCTTAGCTTATGAAGATAAACCTCATCACAGAAGC autosomal
GAAGAGCTGTTTCTTAAAAAAAAACCCACAAAAAGTCCTGGTCCCTTGGA autosomal
GTTCCATCTTGCCAGAGCTGGTCAGTGCAACACATCTGAGAGCAGTTCAA autosomal
ATACAGTGGCACAGCCACCTTCTACCTCACCAAGCCCTCGGGAGGGGCAA autosomal
GGTGACAGCAGCGCCGGGGACAAGGCCACGGTGACCCAGGTGCTGCTGGA autosomal
TTCTTTAGGTTTTAAAACACTATTTGTGTACAAAATAAATGTCCTGAAAA autosomal
TACTTGGTCTAACTGTATTTTAATCATACAAAAGCAGCAAATACAAATCA autosomal
GATGTTTTTATTTTAATCGCAACCTTGCTAAAATACATTATATAGTTCTA autosomal
CTAGAAGATAAGAAATCACACCAGTTCTAATTGTTTTCTCAACAATTTTC autosomal
GGATGAGGAATAGGTTGAGGTACTCAATGCCTGCTGGACCTCAGCCTTTA autosomal
CTTCTATCAGATAAGGAGATTCCTATCAAAGGTGCGGTTTGTAGAACTGA autosomal
CAGAACAACATGCTGAGAACATTAAAATCAGACACAGAAATGAGAAAAAG autosomal
AGGTGAATGGGCCTTAAAATTTCCCCTCAGAAATGTGATTTTTTCCTCAC autosomal
ACATTTGGCCTTGGAAGCTTTCCCAGCCACAGCAGGACTGCTACTGTGTC autosomal
CCCCAGACCCCGCTCGGCAGTTTTTAGGCAGATTTTATCGCAAGGAACTC autosomal
AGCACGCAGGAGGGGCAGGGGCCCTCGGGGCTCACACAGCCCCACATCCC autosomal
CACTTCCATCTGAAAAAGAAGAAAGGGGAGATGAAATACCAGCACAGCAC autosomal
AGGGTGGAAGGAGGAGAAACAGTGGAATTTAAAAATTAGAGAAAAAAAAC autosomal
CATCCTCTGAGAACTGTCCACCTGGACCCTGGTACCTTTCTCGCAGTCCA autosomal
CAGGGGAGGGAGTCACTCAGGGTTAGTTATAAGGACAGCTGGACCAGATA autosomal
AGGTGGCCGAGGCAGCGGGATCACACCGGAATGGCCTTCCTCCTCCGAGG autosomal
CCAGGTTGTAGTCCTTGGGGTCGTAGAGGGACAGGGGGGCCGTGGTGCCG autosomal
TAGGTAATAGGGGAAAATATAGGGGAAAAACTGTAAACATTTAACACATA autosomal
AAGATCTTGCTTCTGCATGTGGATTCGACCATAAGTTGTACCAAGCACAT autosomal
GATCGGGGTGGGGGGAGACCCCCGAAATGGGGATCAGGGATGAAGCCCCC autosomal
AAGTACTGAGTGGAGATGTAGATTCCAGGACGCCTTGCTCTGGCACAGCC autosomal
CCAGCCCTGAGCCCTGAGAACAGAGGCACCGATAGAGAGCTGGGAAAGGA autosomal
ATATTGTTTAAAATGCAGTTTATGGTAACAGTGTAATGGATCTCCATTAC autosomal
ACTGATCATTTATCAGATAAACAGTTGGGCTGTGCTGGCTACTGGAGTGG autosomal
GCTGCCTCCATCCTCCAGCATCCTCTTCACTCGGCGTCGTCCCACGACAA autosomal
CACCACCGTCACTCTGTCGGGGTCCTGGGGGGGGCGGGACCCCCAAATTC autosomal
CATGGTTGCCTTTTTCTTAAGCATTTCAGCATCTCCTAAAAGAAAAAACC autosomal
ACTTTGATCATGACTTTGTTGCATTCTTCAGCCATGTTGAAAGCAGTAAG autosomal
GGAGCTGGTTTTGGTTCATGTCCAATATCCTGCAGCCTTCTCCAACAGCC autosomal
GTTGCAAAGCTGGTGGTGTGTGCCTGAGCAGCAGTGCTGGCTCCCTGGGA autosomal
ATCCATAATTATTTTACTTGGAATTAGTGTGCAACCTATGTAAGGAAAAA autosomal
GACCTGGCCCAGGTGAGGAGAGGTGACATGGCCAGGTGAGGTCACCTGGC autosomal
GATTCCTCACAGAGGGTTTGAGTAACACAGCAGTAACAGGAGTCACAAGA autosomal
AATGCCAAAGGATATTAAATATATACAATTCTGCCTTCCTCCTTTAGGTC autosomal
ATGGCTGCATCGTGAACAGGGCATTTGATCAAAATGAATACCCAAATACA autosomal
GCGAGCTCCATCCTTGCCTGGACACAGACAGCCAAGACCCACTCTGAGCC autosomal
AACAACTGCATGTCTTAATATTTGCAGTGGTCTTCAACGGAGGTGGGTCT autosomal
GGAAGGGGCGGGGCTGACTGGAAGCTCCGCCCACCGACGCAGCAGCGACC autosomal
CCCCTGCACCTTGGGCAGCTTCCTGGGAGCACTTGGGAATATTCCACTCA autosomal
GGGGTGTGGGGTGCCGACGTGCAGCGTGTAGAAGGCCCAGGGCTCGGGGA autosomal
AGTGGCTTCTGGCAGAGGGTCAACTACAAGCCCTGTCTGAGCTTGTCATC autosomal
ATGTTGGGACAGGACTTGTCATTAGTTTTTGGCTACTCCCTCCCCTCCAA autosomal
ACAAAACAAAACAAAAAAAACCAACCAAAAAAAAGCAAAAAAAACAACAA autosomal
CTACTGAATAGTTGGTGCCAACACTGACAAGCTATTCACAGTTCTTGGAA autosomal
CATCCCAGGCACACAGTGTTGGAACACTACTAAAGTGGATGTACATGAGA autosomal
CTGTTGTAACAAAGCTTTTATTTGCCTTTATAGGATAAATAAGGGAAAGA autosomal
CAGTATCCAGTCAAAGGCACTTGTTTTAATGTTAGAATATGTGTATGTAG autosomal
ACCCACCCCATGTCGCACGAGGGCCGCCGGGGAGACAGGTTGGTAAGGTC autosomal
CCTTTAGAGTATAGTAATTTGCACAGTTTTGCTCAAGGTAGCTACACTAA autosomal
ACCCTGGCGACCCCCGGGCTGTGCACCAGCTCCTGCAGGACTTCCTGCCA autosomal
GGCCTGGGCCTTCAGAAAAGCCACTGTGGTTGGTTCTATGATAAATACAA autosomal
AGCAAGCCACAGCCAGCATGACTTGGATTGAACTTGTCCTAGCTGTGGAC autosomal
ACCTCATAGGAGAGGTCTCAGCTCCAGTACTGCTGGATAAATATTCTGCC autosomal
CCGGCGGCCAGCAGCAGCAGCAGGGCCAGCCAGCGGCGCGCGCCCAGCCG autosomal
CTCGTGCTGCTCCCCCTCCACGCTCTGCGCCCCAAAACCGGGATGGGACC autosomal
CCCTCCCTGCCAGCAACTCCAAAGGACTCCAAGGTGTCTAAGCAGGCCAC autosomal
AGTTCGTAATACTTTATGTGTTTAAGAAAGTGTTATTTAGTACATGGTTC autosomal
CGCCTGCCCAACGTCTTCAGCTTCGACTTCCCCCGGCCCTGCCCGGAGCC autosomal
CACTTCTGTTCATGAATGTTCAGAACCAGGGCAAAATGTGGGCATTAATC autosomal
CCTACCCAAGCTGGATCCCTTGCAGCTATTTCTATTTCTTGGCTGACAAG autosomal
ACACACACATATATATACAGCCTTCTCTTGCAGAGACAGTTAAGTTGTTC autosomal
CACGAAGGAAAGTGAGGTGGCCAAAAGCTTCCCAGCAGAACAGAGGGCTG autosomal
CTTAACCCCAAGTGTGAAAACCACACCCCCATAAGGTATATATGCTAATC autosomal
AGTCCAAGTTAAAATCTTATTGACTACTTCAGTAAGGAAATGAAAACTAC autosomal
GAGCAAGCTACTGTGTTCAGCTGTAGTTTCTCCATTCCTCTCCTGCTTTA autosomal
TATTATTTTACACTAAAAATGCAACAACTCCTAATCCTGACAAATATACA autosomal
CACTATACAGAAAAGATGTTTAATGTCATTGATGACTAATCACAAAAATC autosomal
AAACACGTCCCAGGAGGAGAGCAGTCCATGCACAGCAGGGGCGAGGGAGA autosomal
AACATGTATTACAAAAGTTATTAAAACATCATTATACACTTATAAAAGTT autosomal
AGCTGAGCATTAGCTTTTGTTTTGAGAGAGAACAAACTTCCTTCAGAGGA autosomal
CAGCACTTTATCAGGTCTGTGTTTTCAGGGCACTGGAGGCTGGATTGTGA autosomal
CACGGCGGTGTTCTGTGGGGAGGAGCTGAGGATGGGCCCGGGCAGGGTCA autosomal
GCAGACCATCACCATCTTCGCTGCTGGTGTCCTCACGGCCTCGCTGACCA autosomal
GGGAAGGGAGACAAGAGATAGCAAGAGCTGGGGGACAACCCCTTAAGCCA autosomal
ATTGCAAAACAAAATGGACTCCAAACATCTGGAGAAATGAAGAAATTGGC autosomal
AACCCAGCTTGAGACACAGATCCCCAGCCCCTCAATCTCTCCAAGGAATT autosomal
CAGCGGCCAGACGGCGCCCGAGGGGCTGGCCCCGCCGGCCGAGGCCGCCA autosomal
CATTCCCAGTGGAGTAGCAATGGTGCCTTCAGCACGCTCAAGATATTCTA autosomal
GCCTTACTAATTTTACTGAATGATAGGCATCAAGTGGGTGTGGAAGGACC autosomal
ATTCTGAATTAGTGCTAGTGAGTGTATGTCACAATAGGATTTAGTAACTG autosomal
GAGATGCCTTCCATTTCTGAAATCCTCTCTCTCATGGTATTTTCACTGTA autosomal
GGTTCGGCTATAATGTAACATGGTATATCTGTGTCCTGTAGGATGCAACA autosomal
GCAGCTGTACTTTCTTTTTGTTCAAGACAAAAGTTCAGCATCTTCTTCAA autosomal
GAAGTAGCCCGAGCTGGGCTTGGCTTTGATCAGGTTGTCAAAAATCTCAA autosomal
CTGAAATACACCCCCATGGTTACTCCTAAGAAGATGAGGTAACATTGCCC autosomal
GTGTGTTAAGCACCTTTGGTGCGCTCACCTTTTGAAGTGTTCTGACAGGA autosomal
GGCCGGGGAGGGAGGGAGGGTCTGTCACTGCAGCCACAGCACCCCCTCCC autosomal
ATACTGGTGTTTCTGAGAATTTTCCTGACAAAAAATTGATTGACAATTTC autosomal
CATTATGTTGGGAAAATCTGGACTTCAAGGAGTTGAAAAGCAAGAATCAA autosomal
AAACCATGATGCTCTTTGGAAGCTTCTTTGGACCCTTTGTTGCTCTAAGT autosomal
AAAACAACCCAAGGAATTACAGAAGAGTTTACCCACTTTTTAAATAGAGA autosomal
CGGTATAGGTGGAACCCGATGAGCCCCAGCAGTGCTGGCACCAGCCCCAG autosomal
GCGTTTCCCTGCAGGATTACGAGCTCTTTGTGGAAGCGGTGGAGCAAAAC autosomal
CAGCATCCGCAGCCACCACAGCCAGCAGTCCTACGGCCCGCCCGGCCTGC autosomal
GGAAAGTCTTACAGCAAAACAAGGTTCATCACCATAGTTTCCAGAAGTAA autosomal
ACACCAGTGTGTAGGATTTGGAGTAGGCTCCGGCACCCTGTTTTTGAGAC autosomal
GCCCCATTCCTGCCCCATTTCCTGCCCCATTTCCTGCCCCATTTCCTGCC autosomal
GTGGAACTAACCATGCTCAGATATCACATTCCCCTATTACTCCAGCTACA autosomal
GAAGGCTGTGCAGGGTAGACCAGCCCCTCACCCCGCTCTGCCCCTTGGCA autosomal
CCAGGTCTCTTCCTGACCATCCCAGGTCCCTTTCCAACCACTTCCAGTCC autosomal
CAAAACAGAGGTTTCAAAAAGGTCTCCTGAAGTCAAGTTCCTATGGTTTG autosomal
AATACACAAGGCCTTGAATTGTATTGTTTTAATTGCAACTAACTGAATGA autosomal
CTCGAGTACCGCGAGAAGTTCCAGCCCAAGATCGAGGGCTTCGACCAGCA autosomal
CAAGGCATGTGGGAGCCATGTCACTACTCCATGGTTTTGTGGTTTCAATA autosomal
CCAGGCTGAACAGGATGCGACAGCCAACGTCCCCAAAGTACCACTTCTGA autosomal
CAAACGACTTATTTGGGAAAAAGGGGCTTATGTTAATTTTTTTAAGTTTC autosomal
CACCGCAGCCACCCTCTGGCTTCTCCTTCTCTTGTCCGCGGCAGCTCAAA autosomal
AAGAGGCCTGGCATAGGAAGAAGCCGTGTCCATCATGCAGGGTGCCCTGA autosomal
ACTTTTACCCACCATCCCTAATTTCCAGTCACAGAGATCCTGAGCTGAAG autosomal
ACCCCCCAAAAACTCCACAACAACAAAGATAATCTAATTCAAGCTTTGAC autosomal
CATCACCATGGTCTGTGTTCCATTCAACTAAGAACAATCGGCACCTTTCC autosomal
AACGCCGCCCGCACCGAGATCTGGTTCTCCTTCAGCCGCCGCGCCTCCCG autosomal
TCTACTTTCACAGAATAAAAATTTACCTCAGAATGATGCGTCTATGGAAA autosomal
CCCATAAAAACCCCATAAAATCCCCCCCAAAAAACCCAAAACCCAAAAAA autosomal
GAGAAGTCTTCAAAAGCCCTCTCTGGACTGGAAAAATCCAGTGCTGCAGA autosomal
AACGGATCCGGGCCCGGAACGCGGCGCTGGAGCTGCCCTACCCCTACCTG autosomal
CAAAGGTTCACACTAAGGTTTTGATTCTATCATCATTATCAGAATAAAAC autosomal
AGGACTGGGAACCGAACCAGCACCGGGACTGGGAATGGAACCAGGAATAG autosomal
AAAAAAAACAAAACAAGGAAAAACAAGAAATAAAGACTGATGGATGCACT autosomal
CCCCCCTCCCCTTTTATTGTCAAGGGGTTTAAAAGTACTGTATCTCTTAA autosomal
CCGACTGAATGCCAGCCCTCCCACATCCTCTGGAGTGGGTCCTGAATCTC autosomal
AAGCAATTGCAATTTCTTCTGACCTTGGGTTGTAATGTTGACCATTTTGG autosomal
TCCCCAGCCCTGCAGCACGGAGGTGACCTGTCCCCACGGGCTGCAAGGGA autosomal
AGTTGCTCCAAAAGCCATGTAGGCATGTTACCATACTCATATTTGATAGC autosomal
AACGCCAAGCCCCCCAAAATACCAAGCTTAGTGTGCCATCTGCTCAGGAT autosomal
CACACTCACGTGCCTCACCTCGCTCCCCTTCCCTCCCTTGCACACTCACG autosomal
AGAAGGAGACAATGCCATGAACCTTGTCCTTGAAGACCAAGGGTCCCCCG autosomal
GAGGTCCTCTGACAGTTCTGTGCCCTTGGCAGCCATGTCCCAGCAAACAC autosomal
GTGCGGGATCGCTCCTTTCCCTGCTCCTCCACACCCCAAAATTTAAGGCA autosomal
CTCACCATCCCCGAGGGCATCCCCGAGGACAGCGAGAGGATCTTCCTCCA autosomal
AGAAAGCAGAATGTATTCAGCAATATCACCAATAACTTCTCCGCATAAAA autosomal
CAAGCGGATTTGCAGGGGAATGAGGCCACCCCCCAACCAGCTGATGATAC autosomal
GAAGGTTGGGGGCCACAGAGTGTCAGGGCAAAACTGGTTTATTTTTGTAA autosomal
CGCTGCCGGGGGCGCCGGCGCTGAGCGAGAGCTCCTTCACCAACCCCGGC autosomal
AGATTTTTATTTCTCTTTTTGAGAAACTGTTGGTCATGTGAGTTAAAGAT autosomal
TTGCTCTTACTGTCCCATCTCTGTTCAACAGCCACCAAAGCATGAAAAAA autosomal
ATACTTCATCAGTTGCTTTTTTTTTGTTTTGTTTAGACAACTATTTTTTA autosomal
AAAGACTTGAAAAGCACATGGTGTGACAAAACACAGAGGGTTGATGAAAT autosomal
AGGGACCCTGGCTCCTCCTCTTGCCTACCTGGCTGGACTGCAACCCTGAC autosomal
CTGAAAAAATTAGGTAACTGTTAAATAAGGTAACTAATTTGATACAGCCC autosomal
AATGTGGATGGGCGGCAGGCGAAGCACTACGCCTGCATCAAGAGGAGCGA autosomal
AGAACCAACTGAGAAGAGTGGGGTATGGATAGACAGGACCAGTGACTCAG autosomal
GGGACGTGCCGCCCCCCGAGGACCCCCCCGAACCCTGAGGCCCCCCAATA autosomal
GCACAGAAAACAGCCCAAATTCCCCTTCCAACAGGCTGAAATAGCACTGA autosomal
AGCCGGGAGCAGAGCGAGGAAGAGGAGGAGGAGGAAAAGGAGGAGGAAAA autosomal
AGCGGCTGATCAAGGGGCCGGGCGAGAACGGCGAGGACAGTTAGATCCCA autosomal
GGTGACGTCATAGCAAAGGGCTGGGAGGATGGATGTGGTGGGGGAGGGGA autosomal
AGGAGGTGCTCCAGGCACCACAGCTGAAGTTCCTCTGCAGCCCTTGGTGA autosomal
AGTTTCTGCTCATCCTCATCACCTTCCTCAAGTTCAGTTTCTTCATCCAT autosomal
CCCACCTGGGAGCCCTGGAGTTTCTCAGGCTGAATGGGAACCCGTGGAGC autosomal
ATAAAAGCCTGAAGGAAGCACTCCCCAGCCTTTTCCAAGGAAAGGACAAA autosomal
CAGGAAAGTCCAGTTTCCTTACTCTAATAAATCTGGGGAAGTACATTACA autosomal
ACCTTTTCACTGGGACTATTTCTGAACATCTGGAATTTGGAAAACTGGCA autosomal
AAGGTTTCTTTATTTACTTTCCTCAGAACCTTTTTCCCCTCATTTTTGAT autosomal
CTATTTGCTTAGTAAATGCTACATGTGATGAATATCCCATCAGCTTTCCA autosomal
CTTCACTGGAATTCAGCCATAAGCGAAACCATGATGGGTATCATCACTGC autosomal
CCCTGGGAGCTCTGGACCATCAAGGTGAACGTGGTGAACCTGGCGAACGA autosomal
GATTCTGCTCCAGTGAAAGGCAGAGGGATGCAACTGCACAGGTCTAAGAC autosomal
ATAAGCCATGTGATAAGAACAAGGAGAAGAGCTCTGTTCAGTGTTCCTAA autosomal
GGAAGCAAAGCTCCTACAGGTTCTACTCCAGCTCCCTCCTCATCATTTAC autosomal
CGCAGGATGGAGAGCTGGCCCACGGCCAGGGACAGCACCTTCACGGAGCC autosomal
AAGACAACGATCTCAAGGGTTCTGTGTTGTTTTTTTAATTTTTTTTTAAA autosomal
CACTCGGAGTCGCTTCCCTCCTGCTTTGCTGATCCCACAGCCGACGCCAG autosomal
AGAGCGGGACCCACCGGGAACGGGAGTGGCGGGGACCGGGGATCAGCTCC autosomal
TGTGAGTTAGTATAGGTCTGCAGTGTGAAACTTTAACCACCTTAAGACAA autosomal
GAAAATAATATTGCTGCGTTAGCCTGCCTCTAAGCCTCTGCTAAAGAGGA autosomal
GCCATAAAGTTTGATTTTCTCTCTAGTTTTTCTTTGACAGAAGACATAAA autosomal
ACAAAACCTGATTCGAACAGAAAGGATCTTCTGATTTATATTTTTAAAAA autosomal
GGCTGCAGAGACAGCCCTGAGCAATCCCACAAATTCCAGCATTCCCTGCA autosomal
ACTTTGTTAGTATTGTGCAATACATTTATAAAAAATGGCTTCAAATTCCA autosomal
AAAGTTGAAGTTTTGCTGCACAGGCTGTTTGGGTCTGAAAAAACATACCA autosomal
AGCGAGACCCCTCCCCAAAATGGCACAGGGGTGTTCCCTGCCCGGCTCGG autosomal
GGTGCCGGGGGGACACCCGACCGCAGCACGACTCCAGCGGCGAGACCACA autosomal
AATGGTAAGCTCTAATTGTTCCACTGAGGACTCCTTTAAATATACTTTGT autosomal
AAACAGTCCCTATTTGATCCTCCAGAGAAGCCACCTTGTGTCAAAGACAT autosomal
GCCGACGCGTCCCGCCTGCACACCTGCCAGCCGCACTGAGCCACACCGGA autosomal
TGCTTTTTTTTTAATATATATATATTTATATATATACACACAAATACACA autosomal
CTAGATTCATTCTGACAGTGATACTAATAATTTTCTCAGTCTTGAGCAAG autosomal
AGCGGATTTCCTCTCCAGCATCAAGGCGGAGCGGCGCAGGAGGGGCCTGG autosomal
ACATGATATTGTAAATAGCTGCTGCAGACAGAGCTTTGGATGCTGAGCTG autosomal
TCCTAAAATTGAGAATCATGGTTATAATGGAGTTATTTCCAAAGTGGCCA autosomal
AGCGCCGTGATCAGGTTCTCAGGGGTGGCGTGAGGGCCCTCCTGATCCTG autosomal
CCCAGTGCCCCCCAGTATTCCCCAGTGCCCTCCCAATATCCCCCAGTGCC autosomal
AGCAGCGATGATCTGAGAAGAAGCACATCCGGCCCTACCAAATAAATAAA autosomal
CAGTTATTTCAGCATCTCGTCTCTCTATGTCCTCAAACGGAGTCCAGGAC autosomal
GAGAATTGTCTATGTTTTTGTCATACTAAATCCAAAACATGGCACTGTAC autosomal
GCCCAGACACACACACACACATGCACACCAACACAGGGAGCCTGACACAC autosomal
CTGGGGGAAGCAGTAAGGATACGGAGTGCACGAGACACAGGAGAGACACC autosomal
AACCCTTGATTTAGTTAAAATTTCACCCCTCCCAGCCCTGGGCACCAGGT autosomal
CTTTATTACATTTTTGTGTCATTCATTGCAACTATTTTTACTTGGAGCAC autosomal
CGGCAGAACCGTTACCATTACTAAACTCAGTAATGGTAACGGTTTCCCCG autosomal
CAAATACTTCAACAAGACTGTAAGTCATCAGCTGGTACTTGGGACATTTC autosomal
AGACACAATTAAAAGTGCTGTTTAGAAGTCATGTTATCAAACAGTGATAC autosomal
GGAGCCTGTGTGATACTTTGCCTTACGATTGGCTTGGGAGTAATAATTCA autosomal
CTTTCTAATATTTTTTTTATTTATAGTTGGAAATACAAAAATGTTATGCA autosomal
GTAGTGTTCCAATACAGGTATGTCCTTGTGAAGCTCTGTTTGAAAGACTA autosomal
ACCACCTCCATTGTTACCTATAAGCAAAAGTGTGTCATCAACTGGCAGCA autosomal
CCTCCACCTTCCAGCTCTGTGATCGGCTTCTCCAGAGTGCAAGATCTTCC autosomal
CCCATCTCCCATCCCAGTCTGAGCCCCTTCCCTGCCTCCAGACTCTCTCC autosomal
AACAACATCTAATGGGTAGATAATAGAGACGCGGAAAAGAGGCGCGGGGA autosomal
AATTTTTTTTTTTAATGGGCCCCACTCATCCACAAGTTACAGTTTTTGGA autosomal
AGCGAGGACATGGTGACACCAAAGACACAGTGGTGACAGCAAGGACATGG autosomal
AAGGCCTAAGGGCAATGAGCTGTCTATGCTGAGCACTGCCAGTGCTTGAC autosomal
AAAAAAATCTCTATTCTTAAATTGTTATTTTTTCCTTCCTTTGAGAAACG autosomal
TCCCGAATCCCAAATTCCCAAATCCCAAATTCCCAAATCCTGAGTTCCAA autosomal
ACACGGTTCTGTGAAAGTCCACGGCCGAAGTGGATCAGGCACAAAGAGCA autosomal
TAGCTGATGTGCCTTGTAGGGCAGATGCCCAGCAACTCCAACTCCAGTAA autosomal
CTTGTCATGACCTTTGTGTTGCTGTTTTATTTTTAGAGACGTTTATACTC autosomal
GATGATTTCAAACTGGTCTCGGCGCAGTGACTCGGCAGACATGTCCCAGA autosomal
AGTGGGGACCAGGAGCCCATCACATCCCCCTGCCTGGGGTCCTGTGTCAC autosomal
ACCGACCCCCCAATTCCAGCCCCCCAACCCCGACCCTGCCCAGTTTAACC autosomal
CAGGGTCCTGGAACTGGGTCTGGAACCATGGCAGGGTCCTGGAACTGAGG autosomal
AAACCATCCAGATTTCAGATCAGATGCTGCTTCCTTAGGTCAGTACGAGG autosomal
ATTTGGGGGGGCAGCAGTGGGGATTTGGGGTCCGTGTCCCCCCGAGCACG autosomal
AGACCCTGGGCCCATGCAGGTGCTGATAACAGTGTCCATCGCTGGCTGGC autosomal
CTCTGGCTCTGGCTCCAAATCCCCCTCTTCCATGCCGAAAAGCATTTTCA autosomal
ATCTGCTCAGACCAACCCTGTCCTGCTGGGTGACCTGCGCTTGTCCCCAG autosomal
GCGAGTGAGGACCCCCTGCTCCACCCCAGCACCCCCTGACCCACAGCAGC autosomal
GGCAATGATGTTATGAATTTCTTCACCTGAGCTCAAAGTGAAGAGCAAAA autosomal
AGAAACAGCCAATTTTTTTCTCTGGCAAATGTAAAGATTTGAATTTAAAT autosomal
GACCCCTTATCAGGGGGCTTCAAGGTGGGCTGGAACAAGACTTGGGCCAA autosomal
AGAAAGATAAATAACTAAAATGTTAAGACGTTCTCAACACATCATTATGA autosomal
CTAAACCTCGTGTGGGCACGTTCTGGAGCTTGTTGAATCTTTCATACCAA autosomal
TGCACAAAGGATCAGACAATTTTACATTGCAACAGTGAAAGACTAAGAAA autosomal
AGACCAGGCTGCTCTTACCTGGAACCCAACTGGAGACACTCAGCTTCCAG autosomal
CTCTGGCAAGAATTGGAGAAGAAAATTCCAGAAAGATGGTTTTGGCTCTA autosomal
CATAAAGATGCCAACCAGACAGCATAACGATAAAGTACATCTTAAGGCAA autosomal
GAGAGGAGGGGAATTTGGACAGCTTTTTCTGGATCTTGGATCTTCAGGAA autosomal
AGCGAGAGGCTGCTGCACTACATCGCCGTGTCCCTCATGTCCCGCCGGAG autosomal
ATGTGGATACCTAAAGCAGGGTGTGAATGGAAGGAAAAACCATGGGCTCC autosomal
ATGCATGAGGAGTATCGAAAGGTTTTTATCAAAAAAATATAAATAAATGC autosomal
ATGGCTCCCCTGCAGCAGGGGTGTGCCAGGGGAGCAGCTGCATCCGTGGA autosomal
CCACCTTGGAGTTTGAAGCTCCAGGAGTCCCAGCAGGATCAATTGAAGCA autosomal
CACTTAAAACTGCCCAATTCAGGCTTTCAAACTCATTAACCAAGCACCAA autosomal
CTACAAAAATATAGATACAGCCCGTGCCCCAGGCCTGATCTGGCCAAGGA autosomal
ACACATGGATTCCTTATCACTAAAAAGTGAAAAAACTCTGGAGTAGAGGA autosomal
ACTCACGGACCACCTCTGAGGCCCCCGGAACCCGTCTGATTCCCGGCTCC autosomal
AGCCTTCCCGGGGTGGGACGTGCTTCCAGCTGCTCCCCGAGGGAAGGGCC autosomal
GAGAGAGCATTGACTGGGGAACGCTGGTGGTGTACACTTGTGCTGAGAGC autosomal
ACAGGAGAACCTCTTTTCACAGGATGACACAACTATCAAGTTGCATTGCC autosomal
AGTATAGGATGCTTGCAACAGAGGCCACTTACAGTACAAATCAACTTCTG autosomal
AAATTACCAAAAAAGTGAGTTACCATTTCCCACTAAAATTTCCCGGTGGG autosomal
CCTCGGATCCTCTTGCCAGGGCCTGCTCTGGAAGAAGACCAATATCACTA autosomal
CTAGAACTGCTGTATTCAAAAGAGGATGGTGTGAGGCAGGGAAGGAACAG autosomal
ATTTATTTACTGATTGCCTTCTTCCCTCTCTCCAGCTGCTCCAGCCCTGA autosomal
TCCCTCCTGCTGCTCCTCTTGCTCTCTCAAGCTGTGCTCTGTCCCCTGCA autosomal
TGCCCCTGAAGGCACACTGACCCCTATTGCTTCCCCACCAGTTTGCTGAA autosomal
GCCAGTAAAATGGTCAAATATGGCTTCCAAAATATACAAATTGTGCAAGA autosomal
ACCTCTCCACCTCATCATTAGAGCTCTTACCTTTGTTTCCACCAAGTGGC autosomal
ATTAAATATAAAATTGAGTAAAAAATTCCCATTTTTGGGACACTCACCGA autosomal
CGTTTCCTTTTCTCCTCTGGATCTGACCCGAAGTCCCGGGACCCGATGCC autosomal
ATCAAGTGGTAGGACTTGTGTCCAAGAGGGTGGTGGCTCCGAGCTGGTAA autosomal
GTTAATCAAATTTGAAAAACAGCCCCTGTATTGCTCCCTGAGGCTGAGTA autosomal
TATGTCAATAGGAACACTTGCAAGCAGTCCACTAACTTAGCCATAACTGA autosomal
AAAACTTTATCCAAGAATGAAGCAAACTTTTCTGGCTGTCCAGGAGGAAA autosomal
CCCAAATATTGGGACATTTGGAATGGGGCGGACCCCAAAAAAGGGGTGAC autosomal
ATGACGGGCTACGGGATGCCCCGCCAGATCCTCTGAGCCCCTCCTGATGG autosomal
CTAAACATGACAGAAATCCCCATTAGCCACATTTACCCCAAATTCAGAAA autosomal
CACAATCAATTAAAAGCCAAGAGCACCAAGTGTGCAAAGCTCAGACTCAA autosomal
GAGAGATCAGTATGGAGACATTTGGGCTTTACATGAGGAAAGTTTCAGGA autosomal
TCACCCTTTTCCAGTCTGCTCCCTGTTGGTGTCTTGGGGTGCCCTCCCAA autosomal
AGGGATGGGACACAGGGATGGGACAGGGACAGGATGGAGACGGGGACAGC autosomal
CAGGGAAAACCAGGGACACAAACCTCGGCAATGAGTAACCACGCTGCAAA autosomal
ACAAGACCTACAGCTGACCTTAGTTTCTCCCTCCTAGTGCAGAAATGTAG autosomal
ATGACCCTGATGAGCGCCGCGTTCTCGTCCTTCAGCCGCTGGTTATCGGC autosomal
CCCGCAGGTGAACAGGCAAGTGGCCCAGTGCAACTGCGCCAAGCGCTTCC autosomal
AGAAAGCCCAGTGAGAGTGGGGATGGCCGGTAGGAACTGGCCTCTGGAAC autosomal
AAGCCACTGTACTCACAGAAATATTTTTGTGCTTGAGGGACATGTGTATT autosomal
AGGAGGCGTGTGGCACTCAGGGGTGGCAGGAGGCGTGTGGCACTCAGAGG autosomal
AGGGACGGGGCACGGTGAGCCACAGCACCCCGGGGCTCAGCAGCTCTGCC autosomal
AAGCTTTTGGAAAATCACCTTTGCTTCTGGAAGATTACTTTGATAGAAAG autosomal
AGCAGACAACAAAACAAAGATCCCTAAGTGCATTATTCTTTATCAACATC autosomal
TCTGAATTAGAATGGGTGGAAATTTAGAAAGGATATAAAGATGGGTAAAA autosomal
CAATGGATATAAACAACTCTTCTAGAATGTGATGAATAGAATTATATAAG autosomal
AGATGGATAAAAACAAAGATGGAGTTGTAACTCTAGATGAGTTTATTGAA autosomal
ACATATGTTCAGGCCCTGTTTGATTTTGATCCCCAAGAGGAAGGAGAGCT autosomal
ACCCAGGCTGGCCTTGGAGCTCTTGAGGTCGCCCTTGGAGCCGGACACCG autosomal
ACTGTTGGCTGAGGGGTTCTGCTCCCGCAGGCAGGGCCTGGTCTGCCAAA autosomal
GTGCTGCTCGCCCCACTTGACCACCAGCAGGTACTCGCCGCGCTCGCGCA autosomal
CAGTCATGGTTGGAGTAATGCATTTCATTTCCACCATAATTCTCTTGTAG autosomal
GAAACGCAAACCCCGGGGCTGGCGGATCAGCTGGGGAGCAGGACGTGCTC autosomal
AGGGGGGACCCCAAATCCCCCTCAGGGCCGGGGGTGTCCCCGGGCTCACC autosomal
GTAAAACTTCGATGCCATTGTAGTTTGTATTAAATACTTTGTGCATGTTA autosomal
AGGTGGTGGTGGTGGCCAGGCAGGGCTCCCTCAGGCTGGGCACTGCAGCA autosomal
TAAGGAGCAGGTTCCCAGCATGATGTGGGACTCCAGCATAATTTTTTAGA autosomal
ACAGCACCATAAAAAAAAAAAAAAAGAAAAAAGAAAAAAGAAAAAAAAGA autosomal
ATACCAGAGCAGAGCAAGGGTAAAACAAAGGTTTGCACACTCAGTATTAC autosomal
ACCATGGTGAGTGAAGACCTCCTTCCCTCATTAAAGTGGGCTTACAGTCA autosomal
GGATGGCCAGGACCAGGTGGTTGAGGAAGAACTTGGAGAGCATGGCCACC autosomal
CCAGCTCCTCAGCTGGGTGGGCAGCACATCTTCACTCAAGGCAACTTAGC autosomal
AAGGGGATTACCATCAAAAAAACCAAACTAGAGGTGAAGAGGACATTTCT autosomal
AATTATTTTGATTTTTTTTCTTTTTTTAATTGCATGTCAATGGTCAACCT autosomal
TCTTTCCCTGCCCATGCTGGGCACTGAGGGGTTGGGCTGGTGTCCAGTAA autosomal
AGGGTGCCACTGCAGAAGTATTGAGGAGTCTCAAGTCCTGCACACCAGAG autosomal
GTGAAGGGTTTCAGTTGGTTTTGTTATCTGTGGTCTGCTGCTAGCTTTGA autosomal
AAACCAAAACAGAACTGGACACCATGGTACACAGAAATGCCAACCCCAGC autosomal
ACTTATTCCTCAGCTGGGATATGTGGCTAATGGTATTCTGTCTGAAGCTC autosomal
CACTCTGGCCTGAGCTGTTTAAAGAAATCTGTGTAGAGTTCCATTTTATA autosomal
CGTCGTCTCTCCCCCAGCCTCCCTCCTCCCGCTTTCATCGTGTCCCTCCC autosomal
ACACGAACTTGCCCTGGCTCTGCCGCTTCTTCTGCCCCCCATCAGCGAAC autosomal
AAACTATATAAAACATTGTTTGATGGTTTCGGTGGGGTTTTGTCAGTATT autosomal
GTAGATTTTCAGCTAAATTTTATTATAATATGATGGTAGGAAATATATAA autosomal
CCCCACATAAAACCAGGATGCAAGGAAGTAGATCATCAGCAAAGAGATCA autosomal
ACGGGGGTGAAGCTGCCGGGTTTCCTGGAGCTGAAGGGGGACTTGGACTG autosomal
CATGCAGTCTGCATCTTCTAGGAGTCACTAACCAACACTCAGACAAATAC autosomal
ACATCAAATAAACTCTGTCAATAAAATACTGGTTTGCCTTTTAATTCAAA autosomal
CAGCAAATGCGAACTTGGAGCTTTCACGCTCTCGGAATCACACATGCAGC autosomal
ACGCTTGGGAGATGTCTGTGGCTCATTACTTGCCACATAACCTGCACCCT autosomal
AAACAAAAAAAAGCAAAACAAAAAGCAAACCAACAAAAATCCCACAGAAC autosomal
ACGTCAAAGTAACTACATAAAGCAGAAGATCAGTCAAAGGGAATTTTAAT autosomal
AGCACTTAAAAGGAAAGGTGTGGATCCATCAGAGGGAAGCGGGAATCGAT autosomal
AACCTGTGGAAAAATATCTGAAGAAAACCAAAATGCCAAATGTTGGTTGT autosomal
GGCAAACTTTTATAATTTTCTTTTTTTTTTTTTTTTGTTTAAATGATGAA autosomal
CCCACCCCCGACAGCGGCTGCCCCTCCCCCACCCGGCCCCGCCTTCCTGA autosomal
CCTGCGTGGGGGTCAGGTGGATCAGGCTGGCCAGGTGCTCCCGCTCCGGC autosomal
ATCTGGAAATTTCTGCATCCTCTTCGGTCTGGTAAAGAAAAGAAAAAAAG autosomal
AAGAGGATTTTTTTGTTTTTTTTCCCCCCTCTGGGAAGCTCTGAAGTCCC autosomal
CGGGGGCATTCTGAGCCCATCGTGAGCAACCACGAGTCAGTGCCTCCATC autosomal
AATGTTGAACATCACTTTTTCCTCTGTGAAATTTGTGGTTACTTTCTACT autosomal
AGGAACTTGGGGTGCCAGGGTCAGGAAGTTTTAGGGGGATAAGGCTCCAG autosomal
ACTGGACCAAGCCCACTGCATTGAACACCTTCTTGGAGCTCTACCTCCAG autosomal
AACAGCACCTCCCCAAGCTCAGGTTTTCTATGAAGTGGAGTTTATTACAA autosomal
AGTGTGTAACTCCACCTCGTCCTCACTGCAGGGGATGGGCAGCCCAAATG autosomal
ACCGCCCCCATCGCATGCCCTGCAATCCACGCCTGAGCCCTGTGCCCAGC autosomal
GCTAGTTCCACAATGGCTTGTTTGAGAAGAGGTGAATTCAAGTTTGCGAA autosomal
CCTGACACCTCTGTGCTGGTGATGCTTCACTTCTGTACCTGGCACCACTC autosomal
CCAAACTGATAGTACTTCAGTAATTACTGTGGGTTATTGTTGCCTGATGA autosomal
CCTTTTCCTCTGTCTTTCCATTTAATTACATTGTGTGATTATTTTTTATC autosomal
GGTGCCCCCCGACTCTAAATCCACTAAAATCTCAACAACAACAACAAAAA autosomal
GATGATGATATGTTCGAAAAATAAATATAGAAATATGAACAAGTCTACAA autosomal
AAACAAAAAGTTCAGAATAACATGCATTTCATATACATTTGACCTCCTTA autosomal
AGCTCTGGGACTTCTTTCTCTTAGCAATTAGAGCTTTTGAACAAAGAAAA autosomal
TCCCCTGAGGGCACCATGGTCTGCCTGGGTCCCCTCCGGAGCTCATCCCA autosomal
AGCCTGTTCCAGTGCCCAACCACCCTCTGAGTGGTTAAGCTTTTCCTGAT autosomal
AGAATAAATATTTTCCCTTGATGAAAAAATATCTGCACAAGGTATTTGTA autosomal
TATTTAAATTCTGAGTCAGTTCAGCTCAATGCAAGACAGACCCCATTAAA autosomal
AAGTGTCCCATCACGACATTGCCGAGCTGCAGGAAAAGTACCTGGAGTGA autosomal
CTCGCCCTGGATCCCAGAGGGGGGATTCTGGCCCGGCCTAGTGCTGCTTA autosomal
TGGATTTTTGTTGAGAGACCTTTATTTTACATTCATTGAAACAGTAAGAA autosomal
GATTCCCGGCAATCCCAAATTCTGCCTGGGGACACTGGGCAGTCAGTGCA autosomal
CATATGACCTTGTTTTCTTAAAAAAGTAAATTCTGCAAAATGAAGACCAA autosomal
CTGTATCCAGTGACAGCTTCAGAAAACACAAGGATGCAGATCTCTCAGTC autosomal
ATGTCCAGCAGCAGGTGGTTGTGCAGCTCTCTGCCCGCCGGCTCTGCAGG autosomal
CCTGGCGAACTTCGCGCGGCTGCAGGAGGAGATGGTGGCGGCGTTCCGCA autosomal
CAATGCAAACTCACACCTTCCAAATGTATTGTGTGTCAGAACGAACATAA autosomal
CAAAGGTGGAGGGAGAAGAAGGAGGAAGAGGAGGAAGCAGATGAAGAGGA autosomal
CCCACAGTGTTGTGGGGGACCCCACGGGCCTGTGGCCTCCCGGTCTGGGG autosomal
ACAACGGCTGCGCGCAGCTGAAGGCCCACCCCTTCTTCAGGAGCATCAAC autosomal
AGCTCTCGGACGTGACGCTCATCCTCTCCGTGTACAATAAGCGCAGCATG autosomal
AAAAATTGGGAAAATGGGGAAAAAATGAGGGAAAAAATTGGGAAAATGGG autosomal
CTCACAAGAGCTCCCTTGCTGCTCCATCTGCCTGGAGCCATGGGAAATGA autosomal
GAGAGACAGACATATTCATGCTCTTCATTTTCCAGACTGGTAAAGTTGAA autosomal
AAGTCCCCACACACATCACAGGGCTGTATTGTGGCAAGGGAGATGTGTCA autosomal
CAAGGGGCCAGGGGATGGAGCCCATTGCCAAGGCCAGGGCACAAGCACCC autosomal
ACCACATGCTCAGCATCCAACTCGGTGTCACCATGGTAAGTGCAGTGCAA autosomal
CTACTTTAGGCTCTTTGAGAACTAAATTTCCCATTTCAAGCTTTCGAGAA autosomal
CAGTGCGCCTCAGCTCTTGGGGGTGGAGTGACTTGCTAGGAGGTTGGACG autosomal
ATGCAAGCTTTGAGTGGTGCTAATTAAAGTGTTAGAAGTTCCATATTATG autosomal
GATGGCCCCCATGGCCCGCACAGGGTCACTCTCCCCAGCGTGGTCCTGGA autosomal
GAGTGGGTGTGGGAATGGGAATGGGAATGGGAATGGGAATGGGAATGGGA autosomal
GAGAATTGCATCCCTGGCACTGAGGGATGTGCAGGGAAGGAATTCCTGGA autosomal
CCGGTCGCCCTGACCCCCCCACCGGTCGCCCTGACCCGGTGTACCGGGGC autosomal
CAATTGCAAAATTCCCAAGCACCCAGAATCTGAAAGAACAGTGCACAGTG autosomal
CATGGAAGTTGGTGTGTCAGAAACCAGCTTCGGCTCCCGGTCGCGTGGGA autosomal
GTTTCTATTTTTAATTTGAGAAAATATTCCCAGTTCATTTAAATAAAAAA autosomal
CGCCGCTCCTGCAGGGAGAAGGACTGGCTGCGGATGCGCAGGGCCACCTC autosomal
CGGGGATGGCTCCCGGGGACGGCTCCGGGGACGTTTCCCGGGAACGGCTC autosomal
CCTGTGGATTCTCTTTGGGCATGGGATATCAAACACATGGAATGCAGCCA autosomal
AAAGTCCTTGCCTTTTTACAAGATCCATTTAAGCTGCCAGAAGAGTAAAG autosomal
AGTAGTTTATCTTTAAACAATAGCATAGATGCAGTTGAACCTTTACACAA autosomal
AGGAGGCGGAGGAAGGCGCTGAGCAGCAGCAGCAGCCACGCAGCTTTGAC autosomal
AGAGAAAGTTTTTGTGCATTATGAAATCCTTATTCTTGTGTCTAAATGTC autosomal
CCTGCTCCTAAATTTTCATTTCCTATTTCTGTAATGTGCAAAAAGTTTCC autosomal
AGGTTTTATTTTGAGTTCAATCCTATTGTCATGGTATCTTTTTTATTTCC autosomal
AATAGTTGATGTAATTGTTGATTTTTGAGTTGATAGTTGATGTAATTGTG autosomal
GAGAGCCCCGGCAGTGCCGCCCTCGAGTGCAGAGTCCCCCAGAGGATCCC autosomal
CTGGTAACATAGCAGTCCACACAGTGTACCAGAATCAGATTGTAGAGTTA autosomal
GCGTTTCTCCTTTAATTCCAGGAGAAGCCAAGGAGCAGTGTGGGTGGAAA autosomal
CGGAGGACGAGGAGAGCGATGTGTACCGCATGCACAGCCCCGACAAGCCC autosomal
AACAAAAGACAAAATCTTGTTTTGCACTGTTACAATTCGGTTTGGCAACT autosomal
ACTCGAAGATATTCTCCAGGCTTTCAGAACACAAGTGAACACTACAGTAC autosomal
CACCTGCACACCCGCACCTGGCTGAAACAAACTTCCCTGAAACTTTGCTC autosomal
ATGAGATAGGGGTCACGTACCCTGGACTACCCCTCCCTTCCTTCCTCTGA autosomal
AAACCATAGTTCTAGTACTTAGTTTCTATCTAGAGCTGTCTCCTAGAAAC autosomal
AGCGCGAGCTGGACGAGGCCCGGCTGGCTGGGAAGGAGCTGAGGTTCCAC autosomal
CTTCTATGGGCTCTCCTCTGGAGCAGTTCTCTGTATGGGAATAAAGCTGC autosomal
AATTCCTGGCACTGAGGAGCTTTGAAGATCCAGCACGGTGCGAGCCTGAG autosomal
CATCCCAGGTGTGTGGGGTGTCCCAGGATGGAGGTGCCACCCCACCTATC autosomal
GTGCGTGCAGAGAGAGGCCTTCTGGGATGAAATGCTGATTGTACCCACAC autosomal
CTGGCAGCATCATGGATTAATTCTCTCATAAAACAGCCCTTCTGATGTGC autosomal
CCGCCGTGGGATCCTCCACCTCCGCCGCCGTGGGCAGCATCCTGAGCGAG autosomal
AGCACTAATACAGCTCTGCAGGTTTTGGTATAAATATCTTTATATAGCAT autosomal
AAGGTATTTTAATTTCAGAAATTGCTTTGGTACACTGACTGTAGGGCTTG autosomal
AAGCAAAACCGGGGCTAGTTCTTGGCTATATTTACTAGTTTTGTAGTAAT autosomal
AACTGCTGCTCTGGGAAGGCACAGTTAAGATTTGCAGTTAATTGTCACTT autosomal
CACAGGGCATTTCTTGTGGGTCCCTATGGTAGCACATGTCCAGCTGCTGG autosomal
CACATTTTATTTACACGGAATTAGCTCGGGGCATTGTACATTATATACAG autosomal
GACACCGGGGGACAGCGGGTGGCAGCGGGTGGCACGGGGAGCGGGTGGCA autosomal
GCCCCCCAGGTGTGCCCAAGTGCCCCCAGGTACCCCCAGGTGCCCCCAGC autosomal
CAACCTTGCAGCCTCACAGGGCTGGAGCGAGTCCAGGAAAGGCTCAAAAG autosomal
ACAAGGCATGATGGCAAATGCTGCCACAGGCACTGGAGCTCAGGTTGCAA autosomal
AGACTTCTGTGTCTGCTGGAACCTAAGATACATATCAGGCAAGTCCATCT autosomal
GATGAAGCTGCAGAGCGGTGGGAAGAATTTGAACCTTAAGTCTGTCCATA autosomal
AAAAAATCTCCAATTTAAAGTGCATCACATTGGTATTTGCCTCATTTGCA autosomal
AGTGCTCTGCTGTAGTGTGGATTCATCTGTCCAAAAGCAGCAGATAAAGG autosomal
ATAAACAGGTTAAGAAAAAAAGCACATGTAGCTTAAACATGTGTGACCAT autosomal
AACCCTCAATATGATCACAATTCTGGCTTTAAAAGTGCTCGGAGAACAGA autosomal
ACATCACCGTACCCGTTCCTCCTCACCAGTGTTGCAGCGCCGTCCCTGTC autosomal
ATGCCCTGCTGCTACACCATCAGCAGCAACAACAGCGGCTGCTGCGGGAG autosomal
ACAAAACCAAAAAACCAAAAACACCACCCCAAAACCCCCAAAAACTCCAA autosomal
AAACATTCTTGGATTTTGTAGAAAATTTATGTAAACTTTGAAAGATACAT autosomal
AACTGTAATGTCTTTAGTACAGTTTCCCTCTTTTTTTGAAATGCTTTTTG autosomal
GCAGGAGCTGCACCTGTGCTGTGGGCAGCTCTGAGGATCCCTGTCAGACA autosomal
GGAAAAACCTGGACATGTGTCTCCCCAGCCCCCAGAAAAATAAACCTCCC autosomal
CTCGGGGTGCCCCCACTGCCCGCACCCCCAGCGGGTGACCCCCGCACTGA autosomal
CAGAGCGTGGATATTGCTGCTTTTAACAAGATTTAGAAGGGAAAACTGTA autosomal
CAAGGACAGCACACCAGCACGCTCCAGGAAGGAAGCTCCCAGCAGGCCAG autosomal
CCAGGCCAGACTGTAACATTCCATGGGTTCATAATGTACTTGTCAGTGTA autosomal
AGTCCATTTTGGGTTTTTTCCTTTTTTAAACCTTTTTTGAGACTTTTTCA autosomal
AAAAAAACTGCTATAATGCAGAAATGCAAGTATGAATATCTGCATATAGT autosomal
ACTTGTCTTTTGACAGGTTTATTCTTGCCATCTGTCAAGTGGACTGGAAA autosomal
TCTGAGAGGAGAAACACCCCACTAACCTCCCTGCTCCCAGGGAGCCAGCA autosomal
AAGTCTTTTCACAAGTAAACCAAATAAACCCTGAAGAAGAGCTGGTGATG autosomal
GAACCTGAAGACCAAGAAGCAGCAGCGAAAGGAACGTTTGTACCCAGCCA autosomal
CAAAAAATACCGAGTGCCATGTCAGCCGTCTGCCAGGGTTCTCTGTACAC autosomal
AAACACTGGACTGTGAGTTTGTAGGGAAGCATTTTACCACCCTGTGTCTT autosomal
AGGACGGTGAAGAAGAAATGGAAGAGGACACAGTGCCAAACGGATCGTAG autosomal
ATGGTAGTCTGTGGAAAGTTTGAAGTTTGTGAAAATTCCAGTAATATAAT autosomal
AATAAAAATAGTTACATGAAGAATACAAGGTATTGCTATGAAGACTAGAC autosomal
ACAGATTCCCTCAAGGGTATTTTCATTGCTGGGGACAAGTTTACATAATG autosomal
TATTGGCTGACCAAGGTTAGGGGCCTGGGAGTCAGGGTGGGCCACTTGGA autosomal
AGGTGAAGAGAGCATCCTGCCAGTTGGAGGTGAAGCTGTCAAAGATTATG autosomal
CTTGTGCTGCAGTAACAGAAAATGGTGTTTTCTTTTGCCTGTCAGCACAA autosomal
ATCCCCGAGAGCTGCTCCACGCGCGCCTTTCGCCCCACGTAGTAAACGAT autosomal
AAGGTCTAAAATCATTTTAGGGACTTATGTTTTGGCACCTGAATTTTTGT autosomal
CTGCACTAAGGACTGCATAGTAGAACTCACAGTTTTGCCTTGCACTGAAA autosomal
GGGCACTGTCCCTGTGCCTGTCCCTGTCCCTGTGCCTGCCAGCTGGGCAC autosomal
GGGCTTTCTTGTCACCCCCACACCACATCAGGTGTCCCTAACTACAGCTA autosomal
ATGAGCAGAGATCATTTTGAGTCTGTGGTTAGCCATCAGTCTACTGGAAG autosomal
AGCTGACTCCTCTCCACAGCTCCCAGAATGGCATGGAGAATCATCTCAAG autosomal
AATAAATGGTTTGACCTCTTCAATATACTGTGTTTATAGGGCCAGGTGTC autosomal
GTGTCGTAAGTCAGTGTTACTATATACATACTTTTCAGTAAGACAATCAA autosomal
CGAGAGCGAATGACTGCTGTGAATGTAAACATTTGTAGGAGAACTTGAAC autosomal
AGTTATGGGTGATTGTTCAATAGGCTGTGATTTGGCAATTGGCTTTAAAT autosomal
CATATAAATGCTCTTCTTTGTTATGTGCCTTGTGATATTCTTCAGAAAAA autosomal
GCAGAGTATATTTTGTCAGTGGAAAGAAGTGTTGCGCACACACACACACA autosomal
AGCAGTAACAGCTATGCCTCTGAAAACACAGGAGAACCTTTTTCTAACCC autosomal
ACCAGATGTAGCATCATGCACAGTTTCAACCTGCATGATTCTCTTGTAGC autosomal
CAAAACACAACTCAAACGTATTTTAAGGAAACAATAGATACATTTTGCAC autosomal
CCAATTATGCAGAGTGAAGCTCCAGCCCATCCAATGAACAAAGCTGCTCC autosomal
GTGAAATAGGCCCAGCAACTCGATGTGAACCCTGGATCACCACAGGTCCA autosomal
ATTGACCCCAAAATTGACCCTAAGCTTTCCAAGACCCCCAACCCCAACCC autosomal
AAAATCCAGAGGAGGCAGCCCTTGTTAGTGGGAGGATGGAACGTAGCTTA autosomal
GATTGCAAGAGTCTGAAGGAGCTTTAAGTAAGAGGGTAAAAGGCTTTAAA autosomal
AGCACCTGCACGCCCACCCACCTACTCAACCCACTCCCCCTGGAGCCTGC autosomal
TGCCTGGATGTGTCTGTGCTCTACAGCTGCTGCTCAGTGAGAGAACAGAA autosomal
AGTATATATGAGACTCCCCATAAGCGCAAAAACTGCCGCGTCTTCTGTGA autosomal
CACTGTCACCCTTCCCACCCCGCTGCAGGGCATCCCCACCATCCACAGCC autosomal
GATTTCAAAGGGAACAGGACTTGCTGGAAATTGAGTTTTGCTCTCCTCCC autosomal
GCGCCAAACCGTGGAGCTGCCGGATCTCCGATTGGTCGTTTATCCCTTCC autosomal
TGCAGAACTGTTCACATGGAATGGGAAATGCTGGGGACAGCCAGAACACA autosomal
CAGTGCAGGAGCTGCCCCCATCCCTGCAGGCCCCCCCGCCCGGGGGGTGG autosomal
ACAGAATTTTCTCTGTACTTCCTTACCCAGTCCTGGCCTAGGAAGCTACG autosomal
TAATGTGGAGATTTAGAATTTGTTTCTCATGTTATTTGTTCTCCATATGA autosomal
CATGTATTTTCTACCAGCAATGCTTGCATGCATGAATAACTGAATTGAGG autosomal
GAATTATGATTTGATAACTCTCTCCCCCTAGGTACTTAATTCTTATCAGA autosomal
TTTAAAGTCAATTTAAGGCTTATCTTTATGTATGGCTTAAAGATGACAAA autosomal
TACGGAGTCAGCTGTTGCAGTGGGTCTAGGGAGGTTATTGTACGCAGCAA autosomal
CTCCAGTGTGGAAGCCCAGGAAGAGCCCCCCACCTGACTGGTATCTACCA autosomal
CTCACTGTGGACTTCAAAAGTTTTAAAGCCACCTGGACTGAGGTGGTGCA autosomal
AAAGTTGTCTGCTTCCTTTACAAATGTTTACTCTTCTGAACTGTACTGTA autosomal
ACACTAGATATGTTAGGGGTAAAGGGGTGATGTTTTCTTTCTCTGCAATA autosomal
CGGGACGGCAGCGCCGGCACCAGGAGCCCGCGCGGGTCCGCCCGCGCCGC autosomal
GGGGGCAGTGCCTGGCAGCACAGAAAGTCTGGAATTCTCAGCAGCTTCCA autosomal
TAAAGATATCTTCTAGTGATTTGTATATACACTGAAGGAATTCTTTACCA autosomal
AGTGCCATCAGAGCAGGTCCCAGCGCTGGGGACTGCACCCCCAGCCCCCC autosomal
CTTTAAATAGCTCGTCCTCTCTCATGTCGGAAGAGGTGAAAATGAATTTA autosomal
GGTGCCAGTTAGATGAGCTGCATCCTGCGTTGTAAGAGTGCCAGCCTGGA autosomal
AGGTCATTAGTCACTTAAGTCACGTGGTATTTGCATTGCCCCCTTATTGG autosomal
AATCAACTGGTCATAATATATAAGTGCAGGTGAAGATACAAATAAAATAG autosomal
AGTGATATAAAAAAATCTTACAGAAAACTAAAGTAGTGTCCTGCATCAGC autosomal
AGGTACCTCTTTATTTACAAACACAGAACCACCACCGCTGCGGGAGCTGA autosomal
CAGAGCAATGATCCAGGCAGGACCACAGAAACAAAAAGAAATGTTTTAGA autosomal
AATTACATTTACTTGTCTAAATAAGTACATTTCTGTTAATAATATGCATC autosomal
GCCTCCAGCCCGAGGGTTCCCCCCCAAATTCCCTTTTCCCATTTCCCCAA autosomal
CAGTGCAGAAAAAAGCACGGAGACTGGCTGAACCGTGACTTTAGCTACAG autosomal
AGTATACGTGGCTCTGATTTTCATGCTGATTAAGAAATTGCTACCAGTTG autosomal
AGGAAATCCACGCCAAAATCCACGTAACCCCGGCAGGAAATCATTCCTTG autosomal
AAAAGGCACATCTAGGGAAAAATGGGAAAAGAATCGCGGTATATGTATTG autosomal
CACAAAAAAAAAAAAAAAAACAAAAATAAACAAAAAAAAAACCAAAAAAA autosomal
CAGCCCTGGGGGGACACCGCCGGCGCTGCAGCGTGGGCTACCCCGTCTTC autosomal
ATCAGTGGCTGTTAGCTGTCCCAGGAATGAAGGATGGGCTCCAAATCCAT autosomal
ATGCAGTCTCAGCTTGATGCTGCTAGCATTTTGTGGGGCTTCAGCAGGGA autosomal
CTAGATTTTTATTTACTTTGTACAATACATTAAACTACTTGGTTAAAACC autosomal
ATAGTACCAAGGAGTAATATCAGGCACAGTACTTGGCTATACCGTTTACC autosomal
CAGCAAAAGCCAAGCTGGTCTTGCATAAATTCTCTGGTGGTTTAGGCCGG autosomal
AAGTTGTTGCGAAGCGAGCTCCGAGCGGGAGGAGGCTGCGGAGAGAGGGG autosomal
GGAATTCACTTTGGCCCCTGTACTTAGAAAAATACTACTTTGATTTTCAA autosomal
GGCAGTGCTGGGTAGTTCTCATCTTGGTGTGAGTGCAGGTAGCTGAGGAC autosomal
CATGACAAAGTGAATGCAGTATTTTTAGAATATAAACCAAAACTCATGGG autosomal
GTGCTGTACAGACATTTAGGGTGTTTAGGGTGTAGGTAAGGCTCATAGGA autosomal
ACCAAAAGAGGGAGGCCTTCCTACATAAAAAGCTAATCAAGGGTCCCCTG autosomal
AGCAATGGTTCTTTTTCCATGGCCTGTGGCAAGGCAAGAGAGGCTGCTTA autosomal
ACAGACCCCTGAGTGGAAAGGTGCAGTGGCCAAAGCGTTGGGCCAGTGGT autosomal
CTCTTGCTTGGCTGTTTGCTCTTCCTCTACTCCTAGGGCTGCATGAGAGA autosomal
AGGGAAGAAGGAAGTATATCCAGTGTCCTGCTGCAAGGAGTCAGCAGCAT autosomal
CCCCTAAAGATCTTCAAGAAGCCCAAGAAGTAGGGGGGGACCCCTCCGGA autosomal
GTCCCATATTCTTTTTTGTCCTTTTCAAGAAAATAAAAAAATAATTTAAA autosomal
AAAAAACAAGATTTTTTCATCAGGACAAAATTAAACAGATGTGATTGATG autosomal
CCAGATGAGGTGTGTAGCCAGGAAAAGAGGGCAAGTTCCACCTCTCACCC autosomal
CCAGAGGATCCGGCGCTGCCGGAACCGCCACAGCCCCGAACGCCCCACGG autosomal
ATTTGGGGTTTTTGGAGTTTTTTGGGGATTTTTTGGGGGTTTCTGGGAGA autosomal
AAGCACTTTGGACAGGTCCCTGAGACCTCAGGGACTTAATGTTCCTCTTC autosomal
CCGTCGCCTTCTTCCTCATCAAGTTCATCAAGTCAAAGGACAGCACCTAC autosomal
AGGACTGCTATGGCAGTGAAAACTAAATTAACATGTAAGCAAAAATTCAT autosomal
ATGGAGTGATTGTTATTGATTTGAAAAGCAACATGCTGTATTTACCTTAG autosomal
CCACCTCGTAGTCGGGGCCGTAGGGTTCGGCCTCCTCCATCTCGGAGAGC autosomal
CAGGGCAGCGCCCTCAGATCTCCACGTCACTCTCCTTGTCATTGTCGTGG autosomal
ATTATTTGTGGTGGGAGAGGCCGACCGGAGCTTCAACAGCAAGCTCTTCG autosomal
AAGTGCATTACTGCAGAATAGGAATCATACAAGGTTACTGCTACGGCTCA autosomal
GCATCCACCTCACTTTTTGGATCCACATCAGCCCTCCTGCACAGGGAGGA autosomal
GGGACAGATACTGGAAGATTGCAAATGAATCAAGCTGTCTTCCTCCTGTA autosomal
GAAGTGAACACCTGTGGGGATGGTTTGCTCCTGCCTCTTCAGGGGAGTGC autosomal
ACTTGACAATGAACATGAGGCTGCCTCAGCTTTCTCAATATTCTGACATG autosomal
CCATCTAAAATGAACAGATGTTCCGCAGATGGTATGCTCCACTCACCTCC autosomal
GAATAGAGGTCAGTGGTTCCTGTCCGAGGACTCCAGCACACCAGGACCAC autosomal
TCCCGAGCACCTCCACCAGCAAGCTTCGTATCAACTTGGAATTTTTCACA autosomal
CCGGGCCCAACAGCAGGCAAAGTTCACCTGTAAAAAACCACCACGAAGCA autosomal
GCAGTGCAGCAGCAGCAGCGCAGCAGCAGCGCAGCAGCCCCGGCCCCGGC autosomal
CACATTCCGGATGGTGAAGGAAGGGGATGAATTAATGCTCCTGCTATGAA autosomal
TTTATTTAGTTACCAAATGTAACAGTAGAAATTCACTTGGAATTCTAAAA autosomal
ACTAATGTAGATAACGTCTCTTTATCATCCATGAACAATTACAACAAAGA autosomal
AAAAAGTTCAAAAGGAAATATATTGCCCATTATTTCTTTCCTTTGGGGTA autosomal
CCTCAGAGCCCCATGAGGCACCAGGCAGGGCTCCAGAACCATCTGCCCAG autosomal
AATCATTCCAGATACTCGATCATCCCTAGGCACATAACACTCCCCACCCA autosomal
AAAAAAATTAAAAAAGGATACCAAATGGTGTGGAAGGAACTTCCAAGCCT autosomal
ACCGCTCCTCCATTTCCATGCAGCTCAGAACGCTTTACTTCTTCTTAGTA autosomal
ACTGATGCTACCAGATTGTACACCGTCACTTGGAGAGACAAACTTTAAAT autosomal
AAGTATACTACTGGAAATACAGAAATCTTCATTTGAAAAGAATTAGGAGA autosomal
CACCGCAACGGCGACCCCGAGCGCAAACGCAAGCGGGAGGGGAAGGACGC autosomal
GATCATCCACAGAGCAGGTTTAGTGTTTGCTGGTCAAACACTCCCAGGTA autosomal
AGCAGAAATAGCAGCGAAAACGGCTTCACGCCAAACGCGGGTCGAGAGAG autosomal
GCACAGCAGGAGCCAGTGATGGTTTCTGATACTCAGATGAGCTTTGTGGC autosomal
TATTATCCACCTTCAAAGTTAGAAAGTTTTGCCAAGCATAAGTCAATAAA autosomal
CACCAGGCACCTCCAACCAGAAAAGGGTTTTTATTGAGTGGAGATACACA autosomal
AGATGAACTGGTGCAATTAACACCTCACTCGGGTGGTGCAGGCGCCAGGG autosomal
TCTCAGGGAGGGATGCACTGGCACACTCACACATCTTCTTTACATTAACA autosomal
CCCCATGCATACAGGTAGAAGAAGATAAAACTATCTCCCTAAGGTATTTA autosomal
AAGGGGTTTAAAACACAACAAAACCAAAGACAAAATGGCACCCTCCTTTC autosomal
CAACATTGAGTTTTCCATTTAAGAATGTTTTGATCCTTTGTTCTCTCCTC autosomal
CAACTCGGATTAAAAAAAAAAATCTATATCTTCATTGCATTAATAATAAA autosomal
GGCCTCCAGCTGTGGGGATATCTTCGCCACCTGGATAGACAGGAGGAGAC autosomal
GGGATGACTGAGTGCAGATGTGAACTGCTCACCTATAGGTGAATGCCCCA autosomal
GGATTTTCCTGATGGTGGCCAAATATTCCAGGTTTTTAATTAAACCAACC autosomal
CCTGCGGAGCCTCGGCCGGCGCCTTCGGGGCTCCCCACGCTGCCTCCAAA autosomal
CTCTGGAAACTGTGTTGAAATGTTATTATTGTAACTTCTTAGAGCACTAC autosomal
ACCCGCCCGTGCTAACGCCTCCCGACCAGGAAGTCGTCGGGAACATTGAC autosomal
AAGGGCAGAAATAAAACCACCAAGCATCCAACCCAGACAGAAAGAAGACT autosomal
ACTTCAGTTCTGTGTAACTCTAGCACAAGTGGAAGCATCCTTATCAGCAC autosomal
TGACAAGAGCACGAGGGCTCTGAAAGGTCTGTTTTGACGTGGCTCTGCCA autosomal
CCTGGGGTCCGGGGCTCTCCCTCCCTCCCCTCCCTGGGGCTGTGTCCCAG autosomal
CAAGGGCATGCAGACTGCCAGGGAGGGCAGCCACTCCGTCACGGCCTCCG autosomal
GGCTGATGCTTCTGGAAAAAGCTCTGCCTTGTGGCCTTTAAAATAAATAA autosomal
GTAAAGCAAATGGGACCAGAGCATTTGTATGAGGAAGAAAGAAGCAGTGA autosomal
ACACAGCGGGAGTTCTTTTTCTTTAAATGAATTTAATCTTTTTAAAGTAA autosomal
ACATTTTCTTTCTTTTGTGGTTTCTCATACATTGATACTATATTAAAATG autosomal
AAATAAGAAGTGTTTTAGTTCTGCTCAGTTCAGCCTTCATGCACATAGCT autosomal
CAGAGCTCTGCCCATTCCCTGGGAGCAGTGCTGCAGGCTGGGACCTTGAA autosomal
CTGGTGCCTGGGGAGGATTTTGTGGCTGTTGGGAATCTGTGGTTTGACCA autosomal
ACATATTCTGTAAGGAGGTAACAGGGATCCATCTCCTTTTAGTCAACTGA autosomal
ACAAGCTTTACATCTACTAAATCTCAACAGGATATAAAATGCTATTTAAG autosomal
TAGGTCTTAGATCTTGCAAACTGACTCTCCCTGAAGGATTAGCGTTTACA autosomal
CTCCTCGTCCCCTCCTGCCCTTCCGGGGGGGGTCCGAGACCCCCCCCCCA autosomal
GCAGGCTCCGCCCCTGGGCGTGAACCCCGAAATTTCCCAAATTTTCCCCA autosomal
CACCAGTGCTGTTTTATCATCTGACACGCAGCAGCTCATCTGGTGCCACC autosomal
CATTTAAAGCTGGGAGCCAAGGGATGGGCTGAGCACCTGCAAAGCTGGAC autosomal
ATAGTGAATTCCATAGTAATTCCTGATCCAGGGTAGCAGCGAGCTATCAG autosomal
AAGAATGGAGTGACTGATGTATAAGAAAAGTGACACATGCTGGAAGGCCT autosomal
CCTTCCCCTTTCTCTGCATTGACAGCTACACACACATAACTAACAATTCA autosomal
GTTGTAGAAACTCCCTCACATATCTACTTAAATGTCTTTAATTTCTGAAA autosomal
GTCGGTTCTCTGGCTGATCCCAGGGCTGGGTGCCCGGCATTCCCGTGTCA autosomal
ATCCTTTTTCTTTTTGGAGGCCACTGTCACCAGAGTCTCACTCTCCAGAC autosomal
GCATCCATCTCTCTCCCAGCGATCAGCCAAGGACCCTGGAGGCGGATGCA autosomal
CTTGGTTGGCCTAAAATATCTATTTTTCCTCCTTTTATATAACAAGATAC autosomal
GCCAGGGTCAGCGGCTGCCAGCAGAGACAGATCATCTGCAGGACAGTGCC autosomal
ACCCCATCCCAACCCATTGAATCCCATCCCATTGATTTCCATCCAATTGA autosomal
AGGGGCGGGCGCTCCCAGTGGGATCTCAACCCACGGCCATAAAGGACAAA autosomal
AAGGACCTCGAGGCTCAACTGGAGCTGCTCCGGCGCTTCGGGACCCCCCA autosomal
TTAAATGCTGAATGATGCACATTAAGAGAGGTGGGAGGAGCAGGTAATAA autosomal
CCTGTCCCCCCAGCCCGCACAGCGGGGCGCTGGTCCCGGCCCCCCTGAGC autosomal
ATTTCCACACTCCAGCCACCGAGCTCCCCCTCAGCCCCCTGCCCCTGGGA autosomal
GATTAAGAAGCCCTTTCTGCTTATTGCTGGCTACATTCCCTCTCCTGCCA autosomal
AAAACATTTCTGCAATTTTCTGTTGCATAAAACATGCACAAAATTGGTCA autosomal
AATTACCAGAATCAGCACTGACTAAAAGTCAGAATGCTATTTTTCTTACC autosomal
TTCTGCTCCTATGAGAAGATTAACCCTCAAGGCGGTTCCCATAACAAAAA autosomal
GCTCGTTTATTGTTAGAGATTAAGCAAGCCAAGGAAAAGAACTTGCAACA autosomal
GGAGAGAAGCGTCGGCAGTTGGTTGTTATAAATTAAAATTTGTCCAGCCA autosomal
CACTTTATGATCAGTGTTCGAGCTACCAGGCTCACAGCTCTGCCTCCCAA autosomal
AAGATCTGACTATTTCCTTGGGTTCAAATAATGGTTGTGGGGAAGAGGAT autosomal
AGTTTCTATCAGTGCATGCTCTGTCATTTTTCCAATCACTCATTCACTGC autosomal
ACTGCATTTGTTGTTGCTGGCTCAGTAAGTGGATCTTATGCTTTAGATGA autosomal
CTACACTGAGATATTTTATATGAATTTATTTCAGTATTCCAGCTCAGTCC autosomal
TTGGCGTTGAAGTTCAGCTGCTCGGGGTGCCAGGGCGGCCCCTCGGTAAA autosomal
GCTGCGGCTCTTCCCGAGCTCAGGGGAGTCCCGCCCGCCCCTCCCCTGCC autosomal
AGGAGTTCTGTGGATAGGTGTTTTTTTTTTTAAACATTGCTACTCTGGTC autosomal
GCCCCAGGAAGCCTCAGCCCCTGGTGAGCGCCGTGCCTACAGTCAGCACC autosomal
GCAGATGAGTATACAATGTGCAACAGCTGAAATGAAAATCTCTGAGAGCC autosomal
GCTGGCTGTCCGTCTGTCTGTCTGCACACAGCAGGGCCCTCTGTCTGCCC autosomal
CTGGGAAATATGTTGCCAAGTAATGTTGGACGTGAGGTTTATGTTATGGC autosomal
CCGGTGCAGCGCCCCCTCGCGGGCGAAGCTCCGCCCACACTCGGTGCAGC autosomal
CACTGCGGGAACCCGCGGGGGTCGGTGCCGGCGTCCGCCAGGGGCGGGTC autosomal
ACAAAAGGGAGCTGTAGTCTACAAAGGAAGGTAATTCGTGCACATATCAC autosomal
TGAATTTCTGAAAAACAGATGGCAAACAAAACCTAATTCAAACAGAGGAA autosomal
AAGATGCACTATCCCTTTTTGATGAAGCTGAAGTCAGATTTCAAAGAAAA autosomal
AGTATAATTTAAAGTACTGCTAAGTGGGAATGCCGTTAGGCTTTTAAGGC autosomal
TTTTATAAACCTTGTCTTTTTCTCCTCCCAATTTTAGTTTGCTTCCAAAA autosomal
AGCTAAAAAAACAGAAATGACACTTAGTGGAGCAGCCCTAGGTTTTCTTG autosomal
AACATCAGATGTGCCTTCACACAGCACTCTTCACCTGACACTCTCTGCCA autosomal
CTCACTCTGCAGAGTTCTTCAGTTTCCTTGCTTTGTTTTAGCTGCCTTTC autosomal
TGCCAGACCTCCACCCAGCACATGCATCAAGTGGGCACCTGGGGAATTAA autosomal
ATATAGTTTTAGTATAATATAGTATAATAAAGTCCTTAATTAGCTTTTTG autosomal
CAAGTTTTCTGGTTTGGGGTAGCCAAAGAGTACAAAATCTGCTTCATAAA autosomal
CGGGGTGGGGGAGGGGCGCGGCGGTGGCGCTCGATGTAGAGTTGAACGGC autosomal
GCAACATTACTTCATCTTCTTTTAACATGCTGACAATTTCCAGCTAGCCC autosomal
AATACTGTGTGTGTAGGATGGCATTTCTTTGGGTATAGGTAAAAAATAGG autosomal
ACTCACAACTGAATGACTTGCATTAATATTATTTTTAACATGCCAGCTTA autosomal
AGCTTCCGAGATCAGACGAGATCGGGCGCTCTCAGGTGGTATGGCCGTAG autosomal
CTGTCAGATGAGGCATGTCAGTACCACCACACTTGTAGTTGCCTCCACAC autosomal
TAAGGCACCCATGTGCCTAATAATATACTTTGTACATAAACTTGTAAAAA autosomal
CGCAAGAACCGCCCGGCCATGAACTACGACAAGCTGAGCCGCTCCATCCG autosomal
AGGGGACCTCTGAGCCCTTCCACCTCCCTGGGGCAGGAAAATCCATCCTG autosomal
TGATGATCATGCCCTCTCAGTCTTTTACACCGAGACGCTGGGGGAGGAAA autosomal
ATAGCTCACCATCTCTTCTTCCTCATCTGGCTTGGTGTCCTACCTCTTTC autosomal
GTTTAATAATAATAAAATGGTTATCCAAATAATTAATAATAATAATAATA autosomal
CAACTTTACAAATAAAAACCCCAAGTCATGAGAAACTAGTCTGAGCGAGA autosomal
ATGTGTCACATTCAGAGTGTCAGCATTTCAGGCCTCCTGTTTTCATGGAC autosomal
AGTACTCTGCTTTCTGTCAGCTCCTTGCCAGGTGTTAGCCTTGTGCTCTG autosomal
GTGTGCCTTGATCCCCCCCTTGGGGTCCTGAGCCCACCTGGGGGTCCTGA autosomal
ACATTTTATTGAAGTAGTCCATTCAGATCACAGCATTTAGATTTGTGGCT autosomal
GCTGCTCCCAGCAGTGGGAGAAGCCAGAGAGGAGGCCAAGCATGGCAGGA autosomal
CTTTTGAACATTAGATCTGGCTAGACATATTTACTATTTATAAAAAAATA autosomal
CCACAACTATGTACACAGACAGCTGGGGAGAAGCAGCCACCCCACACCTC autosomal
GGACTTTAGCATCAGATCTCCAGCCCCTCCCTTCCCTCAGCCCAGGCAAA autosomal
AGCTTCCAAAGACAGACAATGATTCACCTCTGGGTAAGGCAGTTACCCAG autosomal
CCTCGGCACATACTGCAGCGGACGGAGAGCCGCCGGAGAGCCCCGGTGCC autosomal
AGGAGAAGGAAAAGGAAACGTCTGGCTAGCATGAAGAGAAGCACCTCCAC autosomal
CCCAGAGGAAGAAAGCACCAATTCTGCTGAAATTAGTTAAGTCTGGTTAC autosomal
CCAGAGGTGACCCCAAGAGTGACCTCAAGACTCAAAAAATTACCCCAAAA autosomal
GAGCCAAAAGAGACTCCACAATGTCCATGGTTATTACAGAAACTGAGTAA autosomal
ATACATAAATCAATAAATACACAAATATGAACCAACCAAAAGCCTCAATC autosomal
GTGAGAATGGTTAAGGCTTTAAAACCAGATATCACCGTGATTGTTGGGGA autosomal
AAAGCGCCGCTGCTCCTCCCGCGGCTCCCCGGCACAAAGAGCGCGGCCGG autosomal
ACAAAACTACAGTGATGCTTTTTGGTCTTAAAATATCTATTTATTAAAGC autosomal
AAAACCAAGGAATAAGAAATTTGTGACTTGCTTTTTTACCCACTCAGAGG autosomal
AAAATGTTTTATACATGTATATTACAAAACTTGGTATTTCTTTAAAATAT autosomal
GAACCTGGCTTCGTGCTCTTGGCACCTTTCCTTCAGATAATCGTTGATGA autosomal
ATTCCAATCCAAGGATTGATCCCAGCCCTGCTCCAGAGCTCTCTGCTCAC autosomal
TATTTGTATTAAGAACTACTGCATATTCCTGGTGAGTTAATGCTAATTCA autosomal
GTGGAGGGACATCTACCTGCCAGGAGAGGGGCATCTCTGGCTGGACACCA autosomal
ATAGCAGGAGTGGATGCACATGTCCTTCATCTGGCATTTGGGTGTCAGCC autosomal
AAGTCTAAGAAGATGGAATATCTGTACAGAACTGTAGTTGGAATAATTCT autosomal
GCGGTGACCGCTCGCCGCTGGCCGGGCGCGGCTGCGGACAGACGGACACC autosomal
TGCAGCCATATTTTCCATTCTTGTTCTCATTTCTGCTTTCAACTTGGCAA autosomal
AGAATACAATGTTGGTTGTAGAACAGTATTATACTATATCCAGTGATACC autosomal
GTTCTGCTCCTCCCTTCTCCAATGCACACATCCTTCTGCTTCTCCACAGA autosomal
ATCGGCTTCTGGAACACCCTGGAGCCTGGATCTCCTGGCTTCTCCTTATC autosomal
ATCATCGAACCCTCGCCCGTGCTGGTGACCCTGCCTGGCCCCATCCTCAG autosomal
AAAAGACAACTTATTTCTCAATTTTCTTCAGTAGAAAAGACTATAAGAAA autosomal
AAATACATGTAAGACTTTGGGATTAATTTACATATTTCTTCCAAAAATGT autosomal
GACCCCAACAGGCACTTGGGGCAGCCAAGGCACAAAACTGCAGGTCCCCA autosomal
CAAGTGTTGGAAAAAGAATCGAGCAAAGCAAAGGCGAGGCTGCCAAGCTG autosomal
CCTCTTCCAGCCTTTGCTTGGGTGAGTGTTCTTAGTGTGAGGGATCAGAG autosomal
AGAGAGGGCTGACGTAAGCAAGACAAGTCTGAAAAACTACTGAAATACAT autosomal
ATAGATAGATAGATAGATAGATAGATAGATAGATAAGTAAATATCCCTGA autosomal
GTGGATACATGCCTCAAATGTGTGTGCATACACACAAACCTGTGTGCACA autosomal
CCTTCTCCAGGCCCGTGTTTGAGTGCAACAGCCTGTGCTGCTGCGGGGAG autosomal
GGGAGCGCGGCTCCCGCCAGCCCCGCTCCGCCCGCACGGGCAGCGCAGAC autosomal
AGCCTGGCAGGCGGGCGTGAATTCCTTGCCGAAGTGGGAGGCCAGGACGA autosomal
AGCAGTGCAGGCAGCCAGCCCCACAGGAGGTGCTGAGCTGTGCTCACAGG autosomal
CTGAAAAATTAAAAAGCAATTAAAGGTATTCAACTACTCTTGAAGTTTTA autosomal
CTTCTAGTTAAGCCATGCAGTGTAGAATATGAAGCTTTTTAAACAAAAAC autosomal
ATTTTTTTCTGTTAATGTTTTTGACAGTTTTAAAGGGGCAGCCTTTTGGC autosomal
CCTGGGTTTCAGTCAGAACCTGCTCTGTGTTTTTCCTCTGTAACTGTTGA autosomal
GAAGGGTGGGAGGAGGAAATAAAGAAGGAGGAAGGGCAGGAAGAGGAGGA autosomal
ATTGCTGTGTACAGTTTTAATTCCCTCCTTGCATTAGCCGTCAAAATTTA autosomal
ATGTGTTGTCTTAAGTGAGAATTTTGAGGCTGAGGGTGTCCAGCCTCAAA autosomal
AAACTCGGTGGAGTGTCTTTGCAGTGGTGGAGGGGGACCCTTACGCGGAT autosomal
GCACCTGTGCTGCTTCACTTACTTTGGGAATTTTACCCCTTTCTTTCCCC autosomal
CATATTTTTTCATTTCCTCAATCTATGATTGTTTCAGAGGCATAATTCAC autosomal
GTACATTTGAAAATACAAACAAAAGTATCAATGAAATAGGGTGAAGCTGA autosomal
CTTTTTAAACAGGGTGGGGAGGGCATCTTCTGAAGCCTAAGAAAATGTAC autosomal
CATCTCATCTTCTGCAGGTAAAACAAACCATCTCTGTACCTCAGGCAGTA autosomal
CAGGAGCGCGGGGAGCTCAGCTCTCCCCGCCGCGCAGCACCGCAGCCCCA autosomal
GAGCAGGATCTGTCCTCCACACAGAAGCCAGCAAGCTCTGCATGCTCATC autosomal
CAGTATTCAAAAAAAAGGAAGAGAGTAAGGAAGTAATTTTAGTCAAACTA autosomal
ATTCCCAGCTCTGCACAGTCCCACTGACATTTCCATTTGTTGTCCCCTCA autosomal
TGGAGGTGGGTCCGACAGCCAGTCCAGGTTCCAGTAACTTTGGTCCGTAA autosomal
CCTCCTCCTCTTCTTTATACCAGGAAAACATTCAGCCGATGTCTTCAGGA autosomal
AAAGTTGCATTGCTTCAGAGTTATCTGGCAAAAAGGAGACCAGGATGATA autosomal
GACTGCCAGAGGAGGATGTCTGTCTCTTGATGTCTTCAAGTTCAGCCAAA autosomal
CTAGAAGACATCTCAGTGGCTGCACCAAAAAAGACTAATGCAGAAATGGA autosomal
ACTGTGAAATAAAGACTTCCCCATTTGTGGCATTTTGAGCATTCCTAGCT autosomal
CCGGGGAGGGCGGCGCGGCGAGCCGGGACCCCCCCGCACCCGCCCGGCCC autosomal
CTGCGGTCACTCACTGCTCCATGGCCATGTCCCGGGTGGTCACTGTGGTC autosomal
AGTGAGGCTCCCATTCCCTAAGGAATGTACCCAAGTGCCAAGGAATAAAT autosomal
GAGTGGAAACAGGCACTTGTATTTGTGAATTGGGTATTCATATGCAGTGC autosomal
TCCCACAAAAACTGAATTTTCCCGGGAATTCTGAATTATTTTCCCGGGAA autosomal
ATTTGTGGATTCACCTCCACCTGCAAACCGAAGCGTTCAATGGGCTAATG autosomal
ATGGTTTCAGACTTGTAGCCTTTGGTTTGATTCTTCTTCCTATTAGAATA autosomal
CCCGGGATGAGCGCTGGCATGTATTATCTGAGCGGGGCTGATGTCTCTCA autosomal
ATAGAACATTCTGTTAAAAGTCATTTGACATTCATTTAATTCAAAGGAAT autosomal
CACAGAGGTGGGTGACCCCAGAACAGCCCCGGGGGACCCCACAATCCCTC autosomal
CCAGTGTTTGGGAGCTTCTATGCTGCATCCCACTGCCTTTTGCATGAGGA autosomal
AACGAGATTACATACTTTTACATCTGTTTTTACATCCCATGGGATCCAGA autosomal
AGCTGAGTGACTCTTAGAAAAAGCTCATATTGTTTCTGCTCATCAAAGGC autosomal
GGGGGTTTGGGGGGTCCTGAACCCCTCCAGGGGCACCCCAAAATCCTGGA autosomal
ATTCCCCCAAAATCCCTCAAATTCCCTCAAATCCTCCAAAATCCCTCAAA autosomal
GTCAGTTCATTAACACAAGATGTGCACTTCATTATTTCTTTTTACTTTCA autosomal
GCATAGCAGGGCATCGCGGGACGAAGCACTCGCCATGAGCGACAGCCCGA autosomal
CACTGGAATTGGGTAAAAGTGAAGACCCTTTGACTTGTGCCCAAGACTAA autosomal
GACCACCCTGTTCCTCACCAGCTCTCAGCAGCACAGTTGTTGCCATCAAC autosomal
GAGCTTCTCCCTCGGGCTTTGCAGGCACCCTGTCCTTGCCTGGCTCCCCA autosomal
CCCGTGGGTGCGGTTTGGGAATTGGGGCGCAATGCCGATGGGGGAACCCC autosomal
AGGATGTTCCACAACGCCATGGAGTGGTGCCTGCGCTGGCCCGACGGGGA autosomal
GGCAAAAAGGGTAAGAAACCTAATGTTCTCAATTTTTGCCTGTTTTAGTA autosomal
GAGAGGCTGTGGTGAGTCAGTGGGAAAACCCAGGTTTTGAATGCCAGATA autosomal
CTGTGCAGAGCCACAAGGTCCCCCCTGAGCTCCTTTTCTCCAGGCTGAGC autosomal
CCTGGACAGCAGCTCAGCCCCACAGACCTGCTTGTCTACTCTTCCCTATC autosomal
AGGGATAACAGTTATGGAATCAGTACACTGATGTCAACATTTAAGTTACA autosomal
TACCTTATTATCAAGTCACTTTGTTATTTCTCCTTTAAAATCAGTTCGAA autosomal
GCACAGATTTGTGATGCTTTAGGATGCAATATTTATTGGACACAAGTACA autosomal
AGGAGCTTGTAAAGTACAACATGGCCATGAAACCCCATCAGCTTCCTGCA autosomal
CAGAACAAGGAACAGACAGGTGTCTCTGCCTTTTCTCTCCTTCCTTTCTA autosomal
AGGCTTAATTAATTCATGTTTTTGTAAAATGCTTTGACAATATAAGCTAG autosomal
GACTGGCCGGGCCAGACCAGTGGCCATGGGGCTGGGCCTGAGTCACATCA autosomal
CCTTTTGCTGGGTGGGTTGGTTTTATTTTTTCCTCTTTAGCCTGAAGTGC autosomal
CACTTGAACGCTGAAGTCCATTTTAGATTGCAGCACCTCATCTGCTTTTC autosomal
AGGCTTGCTGCTTCATTTTGATCTTTCGCAGCATTCATTGACTGCTTAAT autosomal
ATCATCTGCTGATGATATGTTTGGAGTTGGGAATCAAAAAGCTAACTCTG autosomal
GGGGTCTGAAGTAGATGTTTGTGGGTTTCATTTTTAGACTTATGTCTGAA autosomal
AACATTTATGATTTGAAATAGATTTAAGGAATATCTAGATCCCATTTCAC autosomal
AGGACGGCCCTCCCACTCCGTTCACTGGGGGGACTTCTTTGCATTGCCAG autosomal
GCAAGTCAAACCGTGGCCAGGGGATTCCCCAGCCTCCTGCAGGTGCTGCA autosomal
ACTGCAGCTACAGAAGAAGAAGTGCAAGAGAGATACAGCTGAGTTTTAAA autosomal
GAGCCCAGACTGACCTTCACCTGGTCCTGACAGTGAGCAGAGAGCCCAGA autosomal
AGCAGTTCCAGAAGTTCTGACACCTGTGGGGACAGGCTGGGAGGAATAAA autosomal
AATGGACAGCATGAGATCTCTTTCAGTGTGGCTGACACAGAAGTGACCTC autosomal
CTGTGCCAAGGGTGGGGGTCCCCAGGGGAGATGTGGCAGCACTCAGGGGA autosomal
CCTTGAGAAAGCAATGTGAATTGAAACTAACTTCTGTGCAAAGGCCGCTC autosomal
ACCTCGTCCTGGATCTGATCGGCGTCGGCGGAGCGGCGCAGCGGGTCCCG autosomal
GAGTTTTTCCATGCTAGTGAGAATGTGCAGACATCCCTATTTTGTCCATA autosomal
GGCTCACCAGGAGAGCACCTAGCTGATTGCAGTCCCACAGACAAGGTCAC autosomal
GTCTCTTCCTTCAGAGCGTGCCTCCATGTCATGCAGCTGCCTGTACAGGA autosomal
GGAGGAGCTTTCTTGAAGGCCCGAGAGCCAAGCCCCTCGTCCCTGCGGCC autosomal
TCTGTATCACAGGCAATTAAACTTCTGAAACAGACAGACTATGTAGACAA autosomal
CAAAAAAGCCAAGAAATCTCTAATAGGTGGTAATCATAGTAAAATTGTAG autosomal
CCCCCAGAGATACACAACATGCCTTTAGTCACAGCATGCTTTTTCACAAA autosomal
AATAACCCAAATAAACCTTAAATAACCCAAACCCCCTCAGGGATCCCCTA autosomal
GGGGTGAGTAGAGGGGACACACACCTGCACTGGGACACCTCCCTGGGAGA autosomal
CCGTGGCCTCTGCCGTCGGGGACTCTCCTGGCGCCGGTTTTGGGGCGCTC autosomal
GAAAATTGAGGAGTTTACTCCTAAATATTAATTGTCTTAACATAATCAAC autosomal
GCCTCCAGTCTCTGTGGAGAGAAGCCACGAGTGTTGGCCACCCCTGTGAA autosomal
AGTACATCGTGCACAGGATGAGCCCCAGTGGGTCCCTGCAGTATGGATAT autosomal
ACCTTCTTGCAGCTGGAAGCCCTGTGGTGGCTGGGATTTTGTACCACCAG autosomal
CCCACTTGTCCCTTTGGGTGAGAAACCACCATGTCAAAAGCCAAAGGAAA autosomal
AATTTTTAAGAACCCTGGATTGATGGAGTGGGGCATTAAAACAAAAGGAA autosomal
AAATTCACAGGGGAAAATTCATACTGCATAGGAAAATATAGTATTATAGA autosomal
GAAAGTGAAGAAGAGCTTCAGTGTTAAACAGCAAGCCCTCCTGAGCCCCA autosomal
AAACCTTTTGTCACAAAGATTAAATAATTCCCCTGCAGTTCACAATTTCA autosomal
ACGCCCGGGGGGTGGCCTGGGCCACCACCTGCCCTTCTTCACCAGGTAGC autosomal
GTTATCTCTAAACTGACATGGGTATTGGTTCACCAGGAATTTTTGGAAAA autosomal
GCCAAGTACCACCGGGAGCATTTGGCCCCCATCGGGCAGCACGGGACTCA autosomal
ATTCCCTCCTTGCATTAGCCGTCAAAATTTAACATTAATTAGCATCGGAA autosomal
CTTGAGGTCAGCCCAGCGCGTCCGCCCGCTCGCCCAGCGCCCGGCCCCGC autosomal
CAGCCACCAACTCTGCACCAAAGCCATGCACCGGCAGCTCCGCGGATCCC autosomal
AAAATCTACATGGTATTGCTTTGTATTTTCACAGTTCTCACAATTACATC autosomal
GCTAACATGTTCAGAATAATGCCCAAACCCAAAACTGGGATGTAAACACA autosomal
CACGACAGATATATGCAACAGCAATACAAGTATCTTTGACACTGGCTAAA autosomal
CGGCGCGGGGCTGCGGCACGCTGGGGGCTCGCTGGAGCACCGGGACGGCA autosomal
ACTGAGAGCTTTTTCTTCCCTTACTCTGTGCTTAACTCAGTCACTGTTAA autosomal
ATTTGACTCAGAAGCCATAAACCTCCTGGCTAGACCTGTTTTGGTGTCTC autosomal
TAATGTGTGACCTTTATCAGATTCCTGGTATGAAAGTCCTTCCTTCTTCA autosomal
AACCACAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATACTCT autosomal
CCGTGTCCCCCCAGGTCCTACGACGCCTTCTCCACCTTCTTCCTCAACTC autosomal
CTGTATGTCAGAAAGTTGTAGTTTCATAATATGGCTTCTAAAAGTATTGA autosomal
AATAGAGTGAGACCACTGAAGCAGTCAGGCAGTATGTTCTGTACCTGAGC autosomal
AGCTCCACAGCTGCCTCCAGCCAGGCTGCCACCCACCCGCCTGGCTCACA autosomal
AGAAGGAGACCCCTCCCCAAATAACGGGGGGGGAGGGGCAGGGGGAGACC autosomal
GACAGACCCAATGTTGTATTTGGATTTTTTACAAATAACTGGTATTAGAA autosomal
ATTTTGTATTGTGCATTTGCTTTCTCTCATATTAAACCATATTGAAGGAA autosomal
CCCCATTTTGGGGGTCCCGGTCCCCATTTTGGGGGTCCCCATTTTGGGGG autosomal
ATGTCTATGGGTGCTTTCTTTTCCTGATACTTGTAACATCAGGTCCTGTA autosomal
ACCATCGTGTCTGAGATCCTAATGGGAGATTCTGGAGAAGTGCAGGGAGT autosomal
CATTCTCCTCCTTCTTTGTCCCTTCCTCTTTCACCTTTTACCCCCCCTCA autosomal
ACCCCCAGTCCGAGAGGGGACAGTGGGGGGGCTGGAGCCCCCCAGGGGAG autosomal
ATCTTGACAGAGGTACTTAATGAGATGTACTCAGAGGTACTCAGTGAGTG autosomal
AAAAGCTTTACTTGCCCCTCATATTTCTTGCTCTTTTTATGATTTAGCTG autosomal
AAAGAGCCACTTTTCTAATTGGTTAATACTTTGTTCCTTTAGCTTCTCAT autosomal
GTCTGAGCATATCCATACTGCAGGGACCCACTGGGGCTCATCCTGTGCAC autosomal
TAAAAAACATAATTGTAGATTAACTCATTTGGAGCTTTCATGCTCTTCCA autosomal
TTCCTTTCTTTTTTATCTGGTCTTCCTTAATTAGAGACATGCTTAACAAA autosomal
TAATTTTGTCTCATATTCACTAAATATAGAGTTTGTGCTTAGTTTTAGAA autosomal
ATTGATAAATAACCTAGAGGTACACTATTAGTCTGTTTGGTGCTCCTCTG autosomal
AGTTGTTTGTTCAAAATAAATGACCACCTCAGAAGTCTTATGATTAAATC autosomal
GACACTGACCACCCATCACTGACCGTCCCCCTGCGCGGGGTGCTGGGGCA autosomal
CCTTGGTTTGAAACTGGGTTTAGGGGGGGGAAAAACAAATAAATAAATTC autosomal
AGCCCTCGAGTCCCCTGGGTCATGGTGCAGAGGGCAGTGCCACAGCTCTC autosomal
CAAAATACTTAAAGCCTTTATATGTGCTTATATACAGCTGATACACAAAG autosomal
CACTTGCAGAACCACAGCTTTACTTTGTGCTGAATTTATTAATGGTGACC autosomal
ACTTCAGCAGCCTCTGTCTCAGCTGAAAGTGAAATTAGTGACCCAAGTCT autosomal
AAAAAAAACACAAAAACACAAAAAACAAACAACAACAAAACAACCAACAA autosomal
GGATATCCAGAAGGTTTTGGAAACTATTCAATGCAAATATTCACAACAGA autosomal
GGATATGTGCAAACCACACCAGCCTCCCCACTGCCTTCAGGAACTGCTGA autosomal
CAAAGTGTGACTTAGTGGTACATCCTCACCTGGTGCTTAAAAAGCTTTAC autosomal
AGTTTGGGCTTTTCTTTTTATTTTAATTACTCTGTGGTTTACAATGAGAA autosomal
ATTTCCCCCCATATTTCCCCATTTTTCCCCATTTTCCCCCATTTTCCCCA autosomal
CGAACCCTATTAAAACAGCCTGCAGCAAAGCCCTCCAGCACACCCTGCAC autosomal
GATCAACCTCATCGTGGCAGACACTTCCCTGCTCTTCACCCTGCCTTTCC autosomal
CCACTAGTTCCTCAAACCAGAAAAAATCCAGCTCCCCTACCCCCAAACAA autosomal
CTGGGCCCACCTGAGACTGACTTGAACCCACCTGAGCTCACCTGGGCACA autosomal
ACAAGTTCCCCTCAGCGCCTTGGTAGGCTGACGGGCTGGGCTTTGTTTTC autosomal
GAACTTCTTTACTCTCCTGTTGAGGTAAAGTTAGAAGCATTTTTTTATTA autosomal
ATACCAACTGCATCACAAGAGTCCTTTAGCAGAAGCACAACTAGAAAGCA autosomal
ATGAACTGTAGTGGGATACATCCACCCACAGCATTTTTTGCTGTTTTTAA autosomal
ACAGTGGAGTTTTTGTACATCTTGAACTTATTCCCACAGTGTGCACTACA autosomal
TCAGGACGATAATTTTTATCAAGTTGGACAAATCACTTAAATGTCATCCA autosomal
CGTGCCCACGCTGCGAGCGGCGGCAGCGGTACCAGCGGCAGCTGGAGGCC autosomal
GCTTCCAGATCGGCATGAAGCGCCTCAAGGTGCAGCTCAAGAGGCCCAAA autosomal
GTTATACCCAGAGGTTTATATGTTGAAAGTTTATTGCTAATGTAATAATA autosomal
CCCTGTCACAGCTGTTCCTTAGGGACACACCGTGCTGCCAGTGTCTAAGA autosomal
AATTAGCTTCTACATCCCCGTGGCCATCATGATAGTCACCTACACCAGGA autosomal
AGCAGAGACTCCTCCTCACCCTGCTCCCCCCAGGTACAAGACAACGTGAG autosomal
AAATGTTTTACAAAAATACTGTCTGCACAGAACAGCTATAAAAATCAGTT autosomal
CCTCGATTATTATTCAGATGGGCTCCATCTATATACATATGTATAAACCA autosomal
CCATCCCTCTGTCCCCCTGTCCCTCTGTCCCCCTGTCCCCTCTGTCCCTC autosomal
AGCCTCCTACAGAGGCTTCCAGTTGCACAGGGAGCCCCAAGGCCCCCCAG autosomal
CAGCATGTCCTCCCCCAGCCTCTCCCTCGTGCAGGTGCACAGCAGCTCCA autosomal
CATCCAGCCCGGATCCTCCCATGGGGAATGGAGCTGCAGCAGCGCACCAA autosomal
TAGGATGTGACTGAATCCTCTTTAGAGGTTTTTAAGGACAAAGAAAGATA autosomal
AATCAAATAAAAATGAATATACGCCCTTAGGAATCTTTCAAACCTTCATA autosomal
TAAAACCTTAGCTCCTTGGTGAAGGTAAGTCCCATTTTTGACCAAGGAAA autosomal
TCCTTCTGCTGCCTTTGCCCAGCCAGGCAATGTCCACCCCTGCTCCGTCA autosomal
AGTAATCCATATTGCCGTGTGTCAGCTTCTAACATCTAATTTTACTATAT autosomal
AAACTTATTTTGTATGTTGTATTTTATTTAACTGCCTATACATTTTCGGT autosomal
GCGAACAGCCCAAAAAACACCGCAGGGAGCCCCGAACACACCAAAAACCA autosomal
ACTCGGGTGCTTGTCGCAGTTCCTGGTGATTCTCCGGGATGCGGCGGCAG autosomal
CCGGGGAACACGTGGAGCCGCGCCCGGGTCAATGGCGGGGGCGCGACCCC autosomal
GCCTGAGGCGTGTGGAATAGGGCAGAGGGCAGAGGATGTTTGGCCCCTCC autosomal
AATTGATTGTATTGTGGATGAAACAGCAGATTAATCATTTGGTCCCCAAA autosomal
AATATTTTTGGTAATTTAAGGTAATTGTGTCATATTTTTGTTTCCCAATT autosomal
TACAGCAGCTCCCCACAGCCTCGCCGGGCAGGTACAGCAGCTCCCCGCCA autosomal
ACCGGCCTTGGCCATGTGTACAGCACCACTGCCTAATAAAGCGGTGCATG autosomal
CACAGCTAATTGGCTATTAACATCATTCCCTCGTTAACATACATCCTGCA autosomal
TGACTAAATCCATTCATCCTTTCCTTAATCCCCATTAATAGTTACTACCA autosomal
CAGAAATTGCCCTTGTTGACACACAGTGCAGTATTTGTGGGACACAGGAC autosomal
AAATTTGGAATTGGTAGGAAAAAAAAACAAACTCTATAAAACTTATCTGG autosomal
AGGGAACCTTGAGCCACCATGGATGCAGTGAGAAATCATGTTAACTTGTC autosomal
AAATGGATGTGCTGCTGTATTATATGGATTGCACAGTGACCTAAGATCTT autosomal
GCAAGAAGCAGAACAACTTCGCCGTGGAGGAAGAAGAATTCTGAGTGTCC autosomal
CTGGCCTGGCTGGGGACAGCAGGGTCCCCTCCCTGCCCGTGCAATAAAGA autosomal
CAATGCCTGAAACATCCCCACCTGGGACTCCAAAATCCATCTTGGGACCC autosomal
AGGAGGGCGTTGACCAGGACGGGGTGACCGCGGTGGCACTCGGCCATGGC autosomal
CCATTCTGGGAGAAGGTCTGGCCCATTGTCCGGCCCATCCCATTGTCCGG autosomal
AAGAGGCCAAAGCTTTTGAAAATGAAGAGCGGATCATTTGCTTTTGAATG autosomal
AATGACCTTTTGTAACAAGATAGATGTGGTCCATATACCCCGTGCACTAT autosomal
ATGTGGAACCTTGATGAATTAACCATTGTTTTCCTTTCCCTTTGGTGCAG autosomal
GCTGCCAAGTCCGTGACCGAGGCAGACTGGAAGGCGGCGATACCAGCAGA autosomal
GGAGGGAAAAACCTCGAGAGTGACATAACCTCTGCTAAAATGCACCATCA autosomal
GTGCTTTGCGTAGTGTTGTGTACTGTCAATACTTTGAAGCTCCCTTCCAC autosomal
AATTAATGAAATATAATGACATGAGCTAACAGGAAATAATTTAGTGGTTC autosomal
AAAATTCCATTAAAATAGCCAAAATCCCATTAAAATCCCATAAAACTGCT autosomal
CGCTTGAGCCCATCATCGGGTCAAGCCTTTATTCAAGTAGGGAAATAAAG autosomal
AATCTGAGTCCACTTGTGGGAAGCCAGAATCCTGTGTGGAGTCCGGGCTC autosomal
CAGAGGGACAGAGAGGGATAGAGGGACAGGGGGGGACAGAGGGACAGAGA autosomal
GGAGGAAAATAACCTGGGAGCAGGAGGTGGGGTCCCCATCAGTGTCCACA autosomal
TCCCAAAAATATCGACAAAAATTACCCAAATATTCCCCAAAATATCTGCA autosomal
CCCTTGGAGGGGCTTCAGGATCAAAACAGCCTGTTGTTCCCTAGAGTTCA autosomal
AGGGAACACCAGGAAAAGTGGAGGGAACACCAGGAAAAGTGGAATTTCTC autosomal
GGGTCTAGCAGCTGCCTACTGTCCTCCCCTCTGTGCCTGCTTTCAGCAAA autosomal
ATTTCCATGCCATTTGTTTTAGCAATTTTGTTTTTCCAAAAGGCATCCTA autosomal
TCAGCTCTCAAGTAAGCACCTTTTATAGCAAGATGGAAAACCTTTCCACA autosomal
CCTCTTCAAAATCATCATCCTTTAACTTATTTTCAGCTCCTTTGTAAGAC autosomal
AAAAATCTCTTTTCCTTCTTTTCTCTCCTTTTTTCCAGCCTTTTTCCTCC autosomal
AAGCCAGGGCTGGAGCTGGGACTGCTGTGGCACTGGAGGATCTACAGAAA autosomal
CGATCATTCAAGCATCTATTCCTAGCACATGTTTTGCTATGTTTGAGGAG autosomal
ATGATCACTTCATTCCACAGAGAACAGATACCTGACCTTTCCAACACTTC autosomal
AGATGAAGGGCACTTGTGGAGGGTTTCTGAGGAGTTCAGCTGCTGTGCAG autosomal
AAAATTAAGCTCAAGGACACTTCATTTATGCATCCAAAACAACAGAGTTG autosomal
AACCCCCTCCCAGTCCCTCCCAGTATAAACCAGTAACCCCAAACCCCCTC autosomal
GATTTTTTTTTTTTTTAAACTGGGAATTACGGAAAAAACAAAGAAAACAA autosomal
CAAGTAGCCTTGAGAGAGTCTTTCAGAGTCACCTAATCCCTTACACCCCA autosomal
ATAATGTATGCAAACAGAATCATGTTTAAAATCAAAGTCAAATACTACAT autosomal
CAATAATGAGCTCTCCACTGCCTTGAGCAGAGAAATCTACAGGCAACATC autosomal
AAATACCATTTCTGCTTTGAAACAGGAAAAGCCTCTTTAAAAAAAAAAAA autosomal
GTACATTTTCGCTGTATTTTTAAGTTATTGACGGTCTAAATACAGTAATA autosomal
AACAGTAGGCTATTTGGAGATGGCATAACATGAACATGGTTATCCCCACC autosomal
TGAACCTCTTGGTCGCTTTCCTTCTGCCATGAGCCTTTGTACCCACCTCA autosomal
ACAATTGAGTTTATGACTGGACTATAGCTTTTTTTATTAAAACTGTAACT autosomal
CCAGAACCCCCAAAATTGGGGATGGGGGGGTGGGACCCCCAAAATTTGGG autosomal
AGTCCACCAGGCCATCACCATTGAGATCTACATCCTTGAGGATCTCATCC autosomal
GGAGACAAAAGATAAAAATCTGTTTTGTTGGAAAGTTACAGCAGTTGTGA autosomal
ACTTATATATTCTATCACTTATAAGTTAATGCTATGAAATATCTTTAAGA autosomal
AGGTTGCGGAGGCGCGTGCCGGGCCCGCTCTCGGCCGCCATGGCGTTGAT autosomal
AAGCCCAGTCCTCCCTTCCTCCCCCCACTTCCAGAAAAAAAGCAAAATGG autosomal
GAACTGTGCAGAAGAAAAGGGAGTTTGGTTTTTTAATCCTGTTGCCTTGA autosomal
GGGCCGGCAGTGCTTCCCGGTACCGGTACCGGCAGGGAAAGGGGAGCCCC autosomal
GCAGCTCTGGGCAGAATTTAAATCACTGAGCTCAGGGATCTGAACTATGA autosomal
GAAGCCCATTCCTCATTGTGTCTCCACTGTTTGAATGGAAAGCATTCCCA autosomal
CTTTACATCAACAGTTTCCACCCTTGGCTTGATAACGTTGCAGTCCTCCC autosomal
CCCCGATCCCAAATTTGGGGTTTTTGGGGTCGCCCCGATTTCGGGGACCC autosomal
CTGTTTCCTTGGTGCATTTTTAATATATTCAAAACAAAAGAAATGAAGGA autosomal
GAAGTTGGGCTTGGTTCGAGTAAACGGCCACGAGTGGCGGAGGAAAGGAC autosomal
AACTATCACTCTGGTTTCTGCACCAAGGGTGTACAATCTCAGACACATGA autosomal
CCCCGGTCACCGGGCACCGGCCCAGGGTGGCACGGCCACCGGCAAGGAAG autosomal
TAATCCTACTTGGTGGTTCTCTCTTCCATAATTGTCCATCCTTACTTCGA autosomal
TATTGGCCAACAAGCAAAGCCTCGTTAAAGTGGTGAAGGGAAGGTAAGGA autosomal
AGCCTCAGAGCCAGAAAGAATCTTCACTAGAGTCCTTCAGCCAGGTTCAG autosomal
CACCGGCACCGGCTCCCGGCGGCTCCCGGCGGCTCCCGCGTCGCACGGAC autosomal
GCTGTGAGACTGCAAACCGATGGGTGAGAGGGAGCCTGTTTTCCTGCAGA autosomal
TACATGGTACCCCGGAGCAGCTCAGGCGCAGGATTCCTGAGCACTCTGCA autosomal
CAGTGCAGGACTGGCATTTCTGGCAAGAGAATTCGCTGCACTGCTTGTCA autosomal
CCTTCCACTGACTTTGCATTTGTGTCATACATGGGGTTTTCAAAAGCAGC autosomal
ACTCAGTCAGCAGTTCGCAGAGTATCAGCAAGGCAATTAACCTAATGCCA autosomal
CACCAGAGTCCAGGGAGATGCCTGTAACCACCATGGGCTCAGCACAGGAG autosomal
CCCTGGGGGCAGACTGACCCCTGGGGCCGTGGCTCAGTCTGGCCACTGCC autosomal
CCCCCACCCGCGGGGTTGTGCTAAACCACGCCCCTTAACGGCATCGCGGG autosomal
AAAGGATTTATGCCGTCCCTGCTCAGAGGGGATCCTCAGCACGGCCCTGA autosomal
AGGCTAGGAGTGGGCAAAGAGACTAAGGGGATATTCTCAGGTTGTTGGTG autosomal
AAGCCACTGCTGTAAACTTTAACCAGGCGCAACGTATGTTATGCTACAAG autosomal
CCATTTCTGTAGAGATCCATCTCCATCCTCACATACGCCTGGTTTTCAAC autosomal
ACCCAGGCCTCGGGGGGCCTCTGCACCTTTGGCAGAGCCTCCGCTGCTGC autosomal
CTGTTCTTTCTCCCTGTAACCTGCAGTGTTCTACATGGACCCATACGGAA autosomal
CTCCAAAGATGTTTTGCCAGAGCCATCTAAGGGACCTGGCATTGACACAC autosomal
GGCAGGTCAGTCTTTATTACTGAATAAATAATCGTATAAACCTTGTGCAA autosomal
TCCTGTGAAGGAACGAGAATTTCCTCAGTTTTTGCTCTTTTCTCTACTAA autosomal
GAACAGTTTGCCCCCTGCCCTCAGCACAACTGTCCCTTCCCTGCCAGGGC autosomal
AAATGATTACTCCTTCCCATGTCTCCCAAATCCATTTCATATAAAATCTT autosomal
CGGGTGACACCTGAGCCACCGAGGGCACACCTGAGGGCACACCTGAGCGC autosomal
AAGCACAGTTCAGTTTTTCAGCTTTAAGGTAGCTCTGTATTGGGAAGGAA autosomal
CGGTGGGGGAGGGGCAACCCCCAAATTTTGGGGGATCCCAACACTCGAAC autosomal
CGGGAACAGGGGACAGGGATGGCCGGGAATGGCCCGGGGGATCCCAAACC autosomal
GCTTTCTGAAGTCCAGATAGTCTACAGAGGGCTGAATAAAATCTAGGACA autosomal
ATTTTCTGCAGTGTTGGGAGCACAGGGTGATTGATTAGAAAGAACCGCAA autosomal
CTGAAAAAGAGGGTCCCAAATCTCCCTTAAAGCCTCAAAATTGGTGTCTC autosomal
AAAATTAGTTTCCTTATCCTTTGGATTACACTGGAAATAATCACCAGTAC autosomal
CTCCCCGTTGTGTCTGTGTGAGACTGTAAATCCCTGTCTCCCACTCCTCC autosomal
GGAGAGGTTGTTGAGTTGGGAGGATAAGAAAATAAAACATGAGTTCAAAA autosomal
ATTTTATAACAACCTTTGTACCTTTCTGTAGCTCCATTATTTCCTGTTGA autosomal
AAAAGTTATCAGAAGCTACTGCTGCATCCAGAGATTTGTGATAAATGCTA autosomal
GAGTCTGGTCCTCCCTCTGAGCTAACTATACAATCTACTGTCTTTCCTAA autosomal
AACCCTGCTCAAAGTGTACACACATACCAACACTTCTGACACAGGCTACA autosomal
CAACAGTAATTTTGTGATTCCTCAAGGTGTAAGACAAAGAAAGATCAGGA autosomal
AAATGTGCAGTGAACATACCAATCAACACCTGTATGTGCGGTCCAACACA autosomal
ATTGGGGAGGGGATCCTAAAAATGGGGAGGGGGACCCCAAAAATGGGGGA autosomal
AGAGAGCAGTCAAATAGCAAAAAAAATTTGAGGCAATGAAAGCAAGAATA autosomal
CATTTACCTTGTATAACTTGTGTACAGAGAGATTAACAGGGACATGGGGA autosomal
AATGGCACTGGGTAAGAAGTGATTTGTTTGGCTGTAAATCTGAAATGAGA autosomal
ACACAGGCCCATGTCTCCTTCATATGTTGCTTCAGGTCAGAGCTCTAACA autosomal
ACACCTAGATTTCAGCTGCACCAAGTTGTGCTCCCCGTCAGCAGGGCAAG autosomal
ATTTTATTTCTCATTAAAAATTAAAATGTATACTTTAAATGATAAAAGGA autosomal
ACGGAGGAGCAGCGGGGCCGACAGCGGCCGGGAACGGGGCTCTTCCCCCG autosomal
GCCTGGGGTTTTGCTCTTTGATTTGAGCTGTCCCCCCATCCAGGCTGGAC autosomal
AGGGGCCCCGACGTTGCTGTCCTTGGTGGTGGTCAAGGTCCTGAGAGGTG autosomal
CCACCGCCCGCCAGTGCCTGCAGCACCCCTGGCTCCGCCCCTAGCCCCGC autosomal
CCATTCCCCGGTGTGGATCATCTGGTGGCAGATGAGGTTGTTGCTCTGCC autosomal
AACTGACTGATCCAAGAGCAGCACATGGAAAAAGAGACACAATACAAGCA autosomal
ACGGGCAGGCAGGAGCTGCGGTCCTGCGTGGCCGGGTTACACGTGAGCCA autosomal
AAATCACGTGCTAGCTATCTTCATCACTACTGCACAGCGAAGTACATTAA autosomal
ACGCAAATCTTTGATTTGCATAAAATCTAGAGTGTTTTGACTTTATTAGT autosomal
ATTTTTATTATATAAAAACAAATATATTATGTTACTATAAAAATACTTGA autosomal
ATTTTTGGGGTTCCGCCTTTGGGACCCCCCAAAATCCCCCTCAGGGGTGG autosomal
GCACGTCACTCAAAGGTTTCCCATCGCTTTCTGAGCTGCTCCACCTTACC autosomal
AAACAGAGAATCATAAAGACCAGCACCAGGCCAGCCCTGCTGCTGTAAAC autosomal
GTGAGCAAGTTTCCTGGCATTGCTGTACCAACCAGTCTTCCAGCTGGCAC autosomal
AGGAGTATTTTATAGTGCTGCTCATTTCAAACCTCCTACGAGTTCCCCAG autosomal
AAGCACTGCTCAGACAGTCTGAATAGGCATGACCTTCTGCGCTGTCAGGC autosomal
AAATTTAAGGGGTTTAGGGGAAAAATTTGGGGGGTTTTGGATAAATTGGG autosomal
GGGAAAGAAAATGAAACAAGAGTGGGGTATGATCATTACCTTAAACATGA autosomal
CAGGATGCGCTCCTTGTTCTTGATGATGCGGCAGATTTGGGGCTGCGACA autosomal
CAATTTAGTCTAATGACTAAAGACCGTAGATTCCTTCGCATAAAAAGCAG autosomal
CCCAAAAGGGGAATTGGGACCCCAAAAAGGGGGGTTGGGACCCCAAAAAG autosomal
ATTGGTAGGAAGCCTTGATGGCAGGTGTAGCAAAAGCTGACCCATGACCA autosomal
CAGAGACAGAGCTTCCCTCCATTTTCTAAATGGGCTGTCCCCTTAGATCC autosomal
AGTCCCTGCTGGCAGCATAGGAGTAGGCTTTGCCCAGCACCAGGCGGTCC autosomal
AGTAATCCTGTATCTTGCATATTTAAAAAAAAAGGTCCAGTGAAAGCTTA autosomal
CTTAAGCTAACGCAGACCTTGGCTAAACTGTGACTACTCTTGGGCTAGCC autosomal
AATTGTTTGAAAATTTATAAAGAGAAACAATAAGGATCAGCAACATGGAG autosomal
AACTCCAGGCTGATGTGCAGAAGGGCAGGAAAAAATTGCCTTCCAGATGA autosomal
GAGGAATAATTAAGTATTGTCCGTGGAAGGAGCAGGAGGGGGCAGGTCCC autosomal
GGTTTGTAATTTGGCTATTAGTACGTTATTAATTAAATGCTATAGCTGGA autosomal
GTCCCCTTCACTTGCTCCAGTTCTCACCTTCATCCTCCTAATCCTCCCCA autosomal
CAGAGTGGAGATAGCAGCTGTGTGACTTTGTCCTTCTCCTTTCTTGTTTC autosomal
ACAGAGAGGCAGGTACTGGTGAGTGTGAAGGCTACCTGACAGCTTTCAGG autosomal
CTCCCCAGTGAGGCAGGAGAGGGAAGGTGTTTGATGGGGGATATGCATGA autosomal
CAAATGTGGGAGATGAAAGCAGAGCACCGAGAGCTCTGTTTGAGTTCCAA autosomal
GTAAGAAAAGTGATTTGATTTGTTACGAAGTGAAATAAAGCAAGCAGAAA autosomal
CTGCTCCGGTTTCCAGAGAAGGACAAGTTTGACGCCTCATGGTACAGAGA autosomal
CCCCCTCTGCCCCTCCCCCACCTGGGCCACGCCGAAGCCGTGCGGGTGCA autosomal
CAAAGGCTCTGTGGGTGTTTTCTGATGACAGCAGGTACTCCAGCGCGCCG autosomal
AAAATTTAATAAATAAATACAGCAAATTAAAGAGAGGCAGGGAGAATAAC autosomal
CATATCCAAAATCAGTCATTAGGATTCCAATTTCACCAGATTAAGAGTAG autosomal
ACACCTGGGAATAGCCATGCCAAGGGGATTCCAGGGGCTTGGAACATCGT autosomal
AAAGCTGCGGAACATTCATGATACAGGCAGAGGTTGTGAAGCACTTAAGG autosomal
AGTAGTGATTCAAATCTTGTCAGAATAGAAAAGGCCAGAGATTGAGTAAC autosomal
CCAATAAGAGGGGAGGGGCGTGGCCAGTAAAAGGGGGCGTGGCCTAAAGA autosomal
GGGCAGGGGGCTCGCTGCACGTCCCACCCTCTGATCGCTATTTAAAGTAC autosomal
AATTCTTAGGAGACCACTTAATTCTTATTTTCTGCTTCCAGCATTTCTCT autosomal
CCGGCCACCCCCGCGAAGGCCATCAGAACGTTCCGGACGCTGCCCTCCAG autosomal
GAGGTCACATTCCCACCCCGGGAATGCTGGACATGGTGCCCAGCAGATCC autosomal
CATGGCAGCACTGGGGCCTGACAAGGGTTGGGCCATTCCCCTCCCTGCTA autosomal
AATTAGGAAATGGGCTGAAGCATTTATCAAAGTAAGAGCTTTCCAGTCAA autosomal
GACACGGCCCCCTGTGAAGTCTGCCTTGGAAAATCCTCTACAAGAGAAGA autosomal
ACAGGCGAGGTCTTCCCTGGTGCTCTGAGCCCTGTGAGCTCTCAGGATTG autosomal
GTGGCCAGGACACAGAGGTCATTCTACACCACCTCACAACACTGCTGGGA autosomal
CAAACACCACCAGCTTCAGAGGAGCAGAGGGACATGTGGCACCTGTCTGG autosomal
AAAATGTATTGGCAGTACAGTCTGAAATGGACTTTTCATGAAGAGTTGAT autosomal
CACCTGCAACCAGCTAATACAGACAAAAATAACTACTCCTCACTTGCCTG autosomal
GTCATGCAAGCAGAGCCTCTGCAGGATTTCAAGCCACTGGGTGGTCTGCA autosomal
AAGACCTGCTTTTTTTTCTGAAACTGCTTTATTTAGTAAAAGTGTTTAGG autosomal
AGAAGCATTGACAGCTCACAGGAATTCTTCCAGAGGGGTGGAAGGATTTG autosomal
CACACCAGGAAAATCACACACACAATCAACTCCCATGAAACCTGTGGTTA autosomal
ACTCCCCTCAGACAAGCCCCAGAAACACTGGATAAATCGAGGTGTGGCAG autosomal
ACTGTTTGAAATGCCTGTTTGAAATCCTGCATATCTACATCTAGTGATTC autosomal
ATATATATCAATTTCTAACATCACTTGATAAAGTCTGATCCTGAAGTGTA autosomal
ATTAAAGATAAAAAAAAATCCCCACATGGTTACTCCAAAATGTTCAAGGG autosomal
AAAAACAGTGATATGAACACCGATGCTTCTGTTTGGGTTTCTTTCTTTGG autosomal
AAAGCTCAGGGTTAAAAAGCTCGTCTGTTTTGCTCTTCACTTTGAGCTCA autosomal
GCTACTGGCCAATCTGAAAGAGCATATTTTTGCAAACCGTTAAAATATAA autosomal
ATACCAAGTTCCTGTGTGTTTTATTTTTTCAGATAAGGAAAAAATAAAAA autosomal
TCGTGGCCCACAAAGCCAAGAGTCACCCTGAAGTGCTCATTGCTGAAGCA autosomal
CTGTCTGGCAACGATATACTTTGCATTTTTGATCCTCATGCGAGATATGC autosomal
ACTCTTCCTCCTTTTTCGACCACAAGATCGGTATTCAGATCTGATGGGAA autosomal
CCTGACAAACTGCCTCCCCTGGAGCACACACAGCTCAGCCCAGCGCTTCC autosomal
ATATTCAAAATACAATTTCAATTAAAATAACAAACGAAATAAAACAAAAT autosomal
AAGCTTCTAAACAAGAATGGAACTGTCAAGAAAGTGTCCAAATTGAAGCG autosomal
ATGCCGAGGGAGGAGAATACCCGTGGGGGGATGCCCGAGAAGGGGGTGCG autosomal
ATTGGGTCAAATTTGGGGTTTTCGGGGTCGTCCTCGGAAAGGTCCCAAAG autosomal
GAAGATTAGAAAGTTTGGGAGAAGGACTGAGAGTCTCTCTCCTCCTGATC autosomal
CAGCCTAAGCTATGCCAACAGCTGCTTCAACCCTCTCCTGTACACCTTTC autosomal
AGAATGAAAAATCAGTCATTAAAAATCCTCTCACAGTTAATATCCCACAG autosomal
ATGGAAAGGACGGTGCTGAAGGGAGATGGGGCTGTCTGCTGACAGCTCCC autosomal
CTGGCCACTGACTTGTTCCAGGAGGAGAGTGAACCATTGATCCCAGTATA autosomal
ATGAAGTCAACTACAAGCAATGAGTTAATGTTTGACTGGGACCACACAGG autosomal
ATTAACCGAAACCAAGAAAAAGGAAGAAACTGTTGCCTTCAGATTTCCTG autosomal
GTCTCCTGGGGCGTGGTCCCCGCCTGCCGCCAGCGCCGCAGCCCCGCCCA autosomal
AGATTGGGGACATTGGGGACATCGGGGACATCGGGGGGATTTGGGGACAT autosomal
CAAGGGAACTCCTGCACAGGATGCAAATTCCTTTGTCTGAAATCAGACAA autosomal
GAAAAGGTGCTATTAGCTTAAGACTTCTTATTCATTCACATGCCTCACTC autosomal
AACAATCCAGTGAAATTCTGAATTATGTCTTTCTTCCTGCTCAAATCTGG autosomal
TCAAAACATAACTTCCACAAGAACTATTGTTACTGCTGTTTTGCTCAAGA autosomal
CAGGGATGATTCTTTCTCTAACCAATGGTTTGCACTACTACTAACTTGGA autosomal
AAGCATATAAAAAGGTATTAAAAAAAGCAGGTTCACTTGTACTATGGTTG autosomal
AATTACTATGAAACTGATCTAGCAGCCTCTTCCTCTCTTTGTCAGAGAGC autosomal
CGGCCGAGCCCGAGCGGCCCCGGCGTGTGCAGCACCACGGCGGCACCGCC autosomal
GTTTTACAGCCACAAAGTAGAGAGTGTGGCTGTCCTGCTCCAGCTGACAA autosomal
ACATAACTCTTCATCAAAGGAAACCTTGACACTGTTTAGAAAGTCTTACA autosomal
ATTTTCTGTTATAAGCTTTCGTGTACATATAGGCAAATACCAAACCCCAA autosomal
CGGGGCAGCTCCTCGGCCGGGTTGGCCGAGCCGGCCAGCGCCACGTTGAC autosomal
ACATACAGCAGCTTTCATATTCATCCCCCTCACCAAGAAAATCTGTGCAG autosomal
CACGGGGACACAGGAGACAGCCCAGCTGGGACAGAGGCAGCTGTGGCAGC autosomal
AACCCCGGTAACCCCGGTAACCCCAGTAACCCCGGTAACCCCGGTAGCCC autosomal
GTTGTGGCTTCACCATGGTACACTAGGTTTTATGAACCCTGGGGAGCTCA autosomal
GTCTGAAGTGCCAACACCTGAAGAGCCTGAAAAAGACCAGCAGTTCTCCA autosomal
CAGCAGGACACAGGCGTCCCACCAGCCTCCGCCACAGCCCGGCCCCGGGG autosomal
TGCTGCTTTGTATGGGGTCAAGTGTAAACTTTTCTTTCTGTGCAATGCAA autosomal
CCAATGGGAAACCTGTTGCCAGGCAGAGAGCTCATTTGAATGGCCCAATC autosomal
CCCTTTGCCTGGGCCTCTCAGTCCTTGGTGCTGTCCTGTGGCTGCTGTCA autosomal
AACCAAGAGCACTCCAGTGGGATGGTTCCTCTTGCAACAGGGATAGAAAA autosomal
CCGGCGGCGCGAAGCCGGCGCTCAGCGCATCCTCGTAGAAAGTAGGCTCC autosomal
GGAGAAGGGCCCCGAGGAGGGCTGGGCCCGGGACGGCGCCTTGCAGGGCC autosomal
AGCCCTCACCCTGTCTGCTTGTGATGATTGACAGCCACCCAGAACATCCA autosomal
AGCCTTAAGGACTCACATCCGATGGCAACCTGTTCCTGAGGCAGTAAATA autosomal
CTAGATCAGAACTGGTTTGTGGTAAGGAGTCTGAGGTGTGTAAGTCCCAC autosomal
CATGCTAAATCCAAAGATTTCCTTGAGAAAGCTGGAGCTTGGCAACTCCA autosomal
AGCCCCCTGGAGCATCCCCAGACCCCCGGAGCATCCCCAGCTCCATCTGA autosomal
ACATTCCATCCTAGCACACGCACAAAAGCCCTAAGGCTAGCAAAAAAAGA autosomal
AGCAGCTGAACGATGATGCCTCAGCCATGTCTGAGCTGCCTGGTGGCCTC autosomal
AATAAGGGGCACCTTGAACTTCTTGCTCACATGGCGTATGTTACCATTGC autosomal
GCCCCGCCCCGCCCCCCAGTCCTGCGGGAGGAGCTGGAGCCGCCCTGGCC autosomal
AACCAGTCAAAAACTAGCCTACGGTTTCAGAGGCTTCCCCGTTCAAAAAA autosomal
GGGGACACCCCAGGACACCCAGGGGGACACCCAGGGGATGCCCAGGGACA autosomal
CACATTCAAATTCCCTGATTGATGTTTTTATGAAGACCACTATGAGGAAA autosomal
GGAGTGGCCCCTGAACGGCACATTGGATGCCTCGGTGATAACCCCCTTAA autosomal
AAGTCAAGCTTTGAGTTTTTTCTGAGCCTCAATCCTGGTGCTCCTGCTCC autosomal
GCCTGATGGACGTGGTGCAGGCCACGCTGGGCCGGGCGGCGCTGGGCGCC autosomal
CACTTACTGTTCATACTTTAGCTAGAAAGGCATCAATCAAAAAAAATTGA autosomal
GCCCGCGGCCGCGCAGCCTGGCCGAGCGCCTGGCCGCCCTCAAGGGAGAA autosomal
AAGCAGAAACAATGTCTTGTCTTGATGGAGATTAAAGACTTGTGTGGATT autosomal
ACCATGGTGTAGCACAGAAAAACTCCACAGAAGCAGCCAGACATTGAACA autosomal
CGAAGGAGAAACTACCCTTCCTACAAAGCTGATTTTTAAGAAAGTTAAAA autosomal
CAGGCTGTCTCCCCTGCAGGGACCTGCTCTCCCTGAAATGCCCCGGCCCC autosomal
GGAAGCACTTGCACAGACCAAAAGCATTATCAAAATATTGCCTTAGGCAA autosomal
ACAGCTATGAACACAAGTTCTGAACTCAATGGAACACACTTTTCAGCTCC autosomal
TCAAAAACAGATGTGTAAAAGGAAGTATTTTGTATTACAAAGATATAGGA autosomal
ACAGCTGCGAGTTCCTCCAAGCACAAAGGCCAAGACAGACCACAGTGCCA autosomal
ATGCAGCATTTTTTAGTTACTGTTCAGATGAAATACTTCAACTGGCTTGA autosomal
GCTCCCTTCCTACTCCTGCAGAGTCATGCTGTGCCATCACCTTTTTACCA autosomal
AGTTCCAGGATGAGGTCTGCTGCCAGGCCAGGCAGTCATTACAGTCCTAG autosomal
TATTCATGATCAAAACATACAGGAACACGATTCTTTAAAACTTCATCAGA autosomal
GCTGTGTGTTGCTACGTCCCTGGGGCAAACCTGGTCCCCATGGGATGGCA autosomal
CACTTTCCCTGTATCCACCTGCTTTTCCCTGACCTGCTCTTGGCATTTCA autosomal
GTAAGGCATTTTGGTAAGTTAACCGTAAGGTCCAGAGTGAAGATTCATCA autosomal
TTCAGTAAAGATTTGGAATGAGAAAATTCAGTTTGAGTGAATAAATTAAA autosomal
GGATGGATGCCAGACCTGGGTTCATGTGCACAAGTATTTTGGAGACTCAA autosomal
ATCTTACGTGGTGAACTGTCCTTCCATCTTTGTGATGGGGACACGAGGGA autosomal
AGCAAGTTAAAACTTGGGGCTCTCCTGCCACTGAGGAAAGTAGAGAAGAA autosomal
CAGTTCCTCTGCCTGGGGCTCAGGTCTGTCACCAGCTGTCCTGGCCCTGC autosomal
AAAGACCTTCCTCCCTATTCTCTCTTTTTAAAGAAACAAAACCATTTTTA autosomal
TGTAATAAATGCCTCTCATACTAAAGAATAAACTTAGTTTTGCCTCTGAA autosomal
ACAATTTCTTCGAGCCCCAGATCTTTGTCATCTTCAACGATGACCAGAGC autosomal
CCCCGATTCCTGGAGAACCCCCCCAGATCCTTGGGGACCCCCCCAGATTC autosomal
GCCGCAGCAGCGCAGGTAGCTCCCCACCGCTGCCGACGCCGTGGAGCCCA autosomal
TATTGCAGTGAATTTTAATCTGTACACTGACAATAGAGTTTGGCCCCTGA autosomal
TTGAAGCAGATGCAGCCAGGCATTTTGATCCAACTTTTAAGATGGAAAAA autosomal
AAATGCAAGCAAAAGAGAAAAAAAAACCAAAACCCAAGGTTTTCTATTGA autosomal
CTGTGGACTTTATTAGTAACCTTGAGGCCTAATGTGTACGTAAGTTTGCA autosomal
GGGTGTTTGGGCTAAAAAAAAAGTCTCAGAACATGAACATTTTGCTCCTA autosomal
CTTCAGTTTCTTTATGTCAGGGTCCTCACAAATTCCAAAGTATTCAAGAA autosomal
AGCTGTCCAGAATGCTCAACCTCACTGACCGGCAAGTTAAAATCTGGTTC autosomal
AGCTGCAAAGGGTGTGGGCAGGGAAGGTGAATGGCAGGAGCTATGGTGGG autosomal
AAAAGTCCATCCAAATGCAAATGCCTAAGTGAGCGGAACACAGAATTTGG autosomal
GCCCCTGCGCTCTGTGGGGAGTTCCTCCCTGTCCAGCTGTTTGGAGATCA autosomal
CCTTGCTGGGTATTAACATGTTAAGAGTTTGTTCTGTTCCCTCATCGTGC autosomal
ATGGAAAGATGTGTGGCCACAAGTCAGAAGCAGGGAGCAGGAATGGCTCC autosomal
TCCAGGCCGCCTCAGAGGTGATTGGCACAGAAGCACAACTCCTCCTGGCA autosomal
ATTGTAAACTGAAGTGGAGTTTACATGCAGCATCAAAATTAGCTTTCCAA autosomal
ATATTGTCTCTTCTCACATTTGTCTTGATGTGCTTTATCTCACAAAAGGG autosomal
CGGGACGACGCGGGCGGGCCGGGCTGTGAGGGGCTGACGCCGCTGCACGA autosomal
AAATCACAAATGGTACATAATGGTGATGGAATTCTGCAGGAGAAGGACAC autosomal
CCTCTTTCCGGCAGAATTCAGCCACAGAGCGTGCAGACAGCATTGAGATC autosomal
ACAAAGGACTGTGTTGGTAACGTTGATGCCACACTTCACACAGGTGGGAA autosomal
CGAGCAGGCCAGGCCAAACCCATCCGTGGATGGATGCCAGACCTGGGTTC autosomal
ATAGTAAAAGCTTCTGTTCGGTCTTCTTTCCAAGTTCTGGAGCATATTAA autosomal
AGAGGAGAAATGTGGAACAAGGAGAGTGACCTGTGGCAGCATTTGTCACC autosomal
ACACAGCAAATATCACTACAAACACCACAGTGTGGACCAGGCTCCCCACT autosomal
CCCTTGCCGGCACAAGAATTGGGCTTTTAGATCCTCTCCATTTCCAAACA autosomal
ATTTCTGTGGAAAGGGGTGGAAGACATGAGTGCCTGTTTTTACCCAATCC autosomal
CTGGAAATTAACTTATGGCAGAGTGATTTTTGTCCCCTTGTGTTCTTTTC autosomal
CACAATCGTCTCAGGGCAATTATACTAAAAATAAAATCTTAAGAAAAAGG autosomal
GAGAGAACCAAGCCTTGGTGAGAATCCACACTGACTGCACACAGCAAGAA autosomal
ATCGATTATTGGATGGCTTTAAGTTCTGCAGGCACTTTCACAGTGCTCCC autosomal
CAGCACTCATAGATGAAACTGTCTGCCATCTTGCTGAGTTTCATTTTCTC autosomal
TCCTACATATTTAATGTCCATTTTTTCCCAAATACTATTCTAATGCTGCA autosomal
AAAGCAGCCCCTGGAAGGCACCTGGACAGATATTTTAACCTTCTTGTCCA autosomal
AATGTGAAAGGTCGATCTGCTTTGAAAATAGGTGTTCGAGATCTTTTCAG autosomal
GCCGGTTCCCCCCGGGCCACACGAAGGTCCGCGTGTTCCCGAAAAGCAAC autosomal
CAAACGCCACAGGCATGAGTGGATGCTGCTGCCATTCAGATGCCTGGAAA autosomal
TCGGGAACCCCCGGAGACGTTCGGCAACCTCCGGCAAGACCTCTCGGGCA autosomal
ACCCCTGGAGCCTCCTTGGTGGTGAATAAAGCCATCCCTGTGGCTCCCCC autosomal
AATGTGTATTGTGTGGCTGGCATAAAATAAAGCTGATTATGAGAGCTGAA autosomal
CTGGAAGCACTGCGCTGGCACCGTCACCAGGGAGAATGCCAGGCTCAGCC autosomal
GAGGATGGCCGAGGCTCTGCAGCTCCCCTTGCACAGGTTGCCCCATGTCA autosomal
CTGGTAGAGAGCGATGATCTGTAGATTCAACTGCTGCTTCCATCATTTTC autosomal
CCCTAAAAATTCACCATGGTGGACTGTAAATTCAGTTCGGATTTTACGAC autosomal
ATAACCAATTTTTATGTTCCCCCATAATAAAGCTTTTGCAAATGCTGTAA autosomal
AACCTCAAATGGAAATACTGCAGAAAACAGTCCCAGTATCTCACCTAGTT autosomal
CCAACCCCTACCCCCGCTGCTCTTCCTCCTCCTCCTCCTCCTCCTCCTCC autosomal
ATTTGCAGCATACTGCATGGTTCTGTAGAACTTCAACTGTAGATAAATCA autosomal
CATGGAGCTTTACATTTTTTTAATGTCTTTTACATGTAGGTCTTTGGTAA autosomal
ATCGCTCCTCGGATCCGCCGCCGTGCCCCTGCCCCACCAGGTGCTGGAGA autosomal
AAAGACATATTGTAGGACAATACCAGAGATCCTGAAGTACTGAAAAAAGA autosomal
ACAGCACGGAGGGGATGGACCTCCACAAAGCTCTCAATGTTCTCCACGGG autosomal
AAATCAAGGAAAACTGAGGAAAACTCATGGATTTGTGTGAGGAAAATGTC autosomal
AACTTCTTACGCATCTTCCCGAGGTGCATGGCAAAAGCCTTCAGAGGACC autosomal
TCTTGCAGTCTAATTATGGCTGTAGCAGGTCCAAATCCAGCTGTTCCACA autosomal
GCAGGCTTGCTGCCACAACACTTGACTTGCATATATCCATTTGGATAGAA autosomal
CCTGCAGCAGCAGCAGCGGGAGTTACAGGGTGACTCATCTTCCCCAAGGA autosomal
CATGTGTTCCCTTCCAAGTGTATCTCCTTCAGGACCCTGGACTCTGATTA autosomal
CTGCCCCAGGGAACAGGGGTTGGGTGGGGGAACAGGTCCCTGCCCTGCCC autosomal
GGTCTGTGGGATACACAGTTATCCCAGCGCAGACTGGGCAGGTAAGGAAA autosomal
CATGCCAGGAACCTTCCCTCAGCAGAAATGGCCTGTTTGCTTCCCTGCAA autosomal
AAGACAGCAGCCGAGGAGGCACTGAAGAAGATCCCTGCCATCAGCCAGAC autosomal
AGGAGCAGAAGGGACCCGTGACCGCCCTGTGCCACTGCCACGGCTACCTG autosomal
TTTAAACATAGCCTTTGATCCAAAAAGTCCATTAACAATTCTATAACAAA autosomal
AAAAAAAAAAAACCCAAAAAACCCCCCAAAAAAACCCCATAAAACCTCCC autosomal
AGACCTCAGTGACTCCTCTAATGGAAAGTCATCGACCCTCCTTATATGAA autosomal
GTTTGAAGAGCTTTCTTTTTTTAACAAGAAAATGTTATTCTAATACTTTA autosomal
GAAATTTAGGTCACTTGCTAGGAAAAACAAGGTTGGTAAGACTAGCAAAA autosomal
CGAGGGCGAGACCGAAATTGAAGCGGCTGTGGTGGCCCCGGGCCAGGAAC autosomal
CGGTGGGCGGCGAATTTTTCTTCTGCTACGACGCGTCTCCGTGGGCGCCC autosomal
AGGACTTTAAAGCCTTATTTTCACAATTAAAAAACCAGAGGCATGACCAG autosomal
CACCTGTGACCCCTCACATGGGTCCTCTCACCTGTGACCTTCACCTGTGA autosomal
AATATCATCAAAGCAAGGAGTAGGGTCAATGACTGATCATGATTGTTTTC autosomal
CCGCAGCGTGCTCCAGCTGCGGCCGCCGTCGGCGCTGGTGGCGAAGCAGA autosomal
ATCTTTTGCAGGGGTCTTCAGTTGGTGGGAAGGATTGAGCTGGACCAAAG autosomal
ACAATCCTCCATCCTTCGGGACATCCAACCACCCACCAAGAATGCACCAT autosomal
ACTGGGAAAATGTGAACCCATTGCTGAATGAGACAGGGCCTGGTTGACAC autosomal
AATAGGTAATTCAGATTCCCTAGATGTGGCATCTGCATTTGCTGGTTTTA autosomal
AGTCTCTGGGCAATCAGGATGTGACCCAAAAACAGGAAGAAGAGTTATGA autosomal
AATGCTGGCCAGCAGTGAGCAGTGGCCAAAGGATGTCTTGATGGACCATC autosomal
CCTCGATGCCACCGAGGTTTTGTACCGGGAAATCCTTGACATCATGAAGA autosomal
CTGAGTACTGCAAGATCTTCCAACCAACAGCCAAAAGAGCACACTGAAAG autosomal
AAATTGTCATCGCTCTCCCTTCAGTAGCAGAACTGGACAAAGGTATCATC autosomal
GCTCTTGGGCTCCTTGTCTTTTTTTTTCTTTGTTTTATTTCAAAGTGGCC autosomal
AAATTTCTAATGATATACAAATATATATATATATATATTTGCAATCTTAA autosomal
GTCGGCAGCGGGGCTGTCCTGCAGCTGGGGGCCGTGCTGGGCTGGGAGAC autosomal
AATTTTCTGTATTGATGTCATGGCAGTGTGTTCCAGAGTGTGCAGCTGCA autosomal
CACGGTGACCTACAGCGTGCGGGAGCGCGGCGAGTACGTGCTGCTGCTGC autosomal
CGCGCTGCGCGAGGCCAACGAGGAGCTGCGCTGCGCGCAGGTGCAGCAGA autosomal
AACCCCCAGCCCCACCACTTATAATAGCTGAGTGTAGGATGTTTACAGGA autosomal
TGGATGCATCCTGACAACTGCAGAAGGGCCTTCCAGAGGTTCTTGACACA autosomal
ATTATTGTATCTGTAAAAGTTTCTTTGTAAATACTGTGAGGTGTGTCTAA autosomal
AGAGGCTGTCAGTGGTGCTGTGCATCCGTGTTGTTGTGGGCTGGGACAGA autosomal
ATAGATGGGGAAACTCAAGAAAGAGACTGTGGATTGCTGTTTATTTTATA autosomal
ATAATCTTAGATTTGCAACTAAGCTTCTCAGCAACAATTTTGTACTTCCA autosomal
ACGTGCCAGGAGGTGAGGGGCTCTGGGGGGCTTCCTCCTCCTCCTCCTCT autosomal
ACCTAAGGACAGGCTCCCGTGGCTCTGCACAGCACCTGGCACCTCCCTGA autosomal
AATTTGGGGGAAAAATTGCGGAATTTGGGGGGAAATTGGGGGATTTTGGG autosomal
TACAGGCAGTCCCATGTAGCGTTTCTGCACAGCAGGCGTAAGGACCAGCA autosomal
ACACCGTGAGAGCGGGGACACCGGGACTGCGGGGATACCGTGACTGCGGA autosomal
ACCCCCCCTCAGCCCAGCGTGTCCTTCCAGGGTCTTTTTGGGGGTTCTGA autosomal
AATGGGGAGGAATGGGGGGGAAATGGGGGTGAGAATTGGGGGGGATGGGG autosomal
CAGACAGCAATGACAGCTCTCTTGTGATTTGCCGAGCAGGAGCGGCACGG autosomal
AGTTATGAAGTAGGTAAGTTTAATCAGTCAACTACAAAAGCTAAAAGTGC autosomal
AAATACCAGTTTTTCTTTGGGAAGCTTCTTGAATTAAAAGGTTGAGATTT autosomal
CACCATGCCAAGGGATCACCAGGTAAAAAAGAAAGGGTATAGGCCAGACA autosomal
AACTACTAAAGTAAAGCTATGAAGAAATCTTTGCAGAGAATTTAAATTTG autosomal
GGCTGAATGAGGATTTTAGGACTGACTTAAGTGAATATCTTAATTTTAAA autosomal
AATTTAATGTTCTGATGGAAGTCATCCCTAATTCCTGATAGGAGTTACAC autosomal
CCCCACGCCGACGACGTCTACCACAACTTCCTCCACCACCCCCTGTGAAC autosomal
TCTGCGGGCTCCCCCCAAGCCCAAACCTCCTCCTGAGCAGACAAAAAAGA autosomal
CAGCTACATTGCAGTTCTCTGGGTTTTGCTGAGCTGATGAAAGTAAAATA autosomal
AAGCAGACCTGGTAGCCGAGCAGGAAGCAAGGCTGGCAGCAGGTCGAGCA autosomal
ATGTCATCAACAAGGAGATCTGCGTCCGCACCGTGTGCGCCCACGAGGAG autosomal
AATGTTGTTTCCAAAATAACTGCAGTTTTGGGTAGTCACCAGTACTGACA autosomal
ACAATAGTTACCAAATAATGAATACACTTAATCAGTTATGTTAAATTTCA autosomal
AAACTTGTTTCTACTTGCAAGCTATTTCATGCCCCCTCTGAAATAAGAGC autosomal
CACCGTGGCTCCGTGCTCTTCGTCTCGGCCAACGAGAGCATCTCCCTGCA autosomal
TGAATACGTTAGCTGAGCTACAACTTTCCATCTCAAGCTAAAGCTCACAA autosomal
GGATCCTCCAGCCCCCTCCTGGCTCCTCCAGACTCTGCTGGGATCCCCCA autosomal
TTCTCGGAGCCGCACTGGCACGGGAAATATTTGCTCTTGATGTCCCAAAA autosomal
AGCAATATTTTCCTCATGACAAGGGTTAGAACAAAAGAAATTAATCTCCC autosomal
ACTACTGAAAATGGTGAAGACTTGCAGCTCACATTTCAACTTTCTTGAAT autosomal
TTACAGTACTGATTTTTAAAATCAAGTTCTTAATGTTTTCATAAGAAAAA autosomal
AAACCAAATTTTGCATTTTAAAGTTAAGGTAAAGATAATGAACTTACCAC autosomal
TATTGATGAAAAAGTATTCACCAAGGAATTGCAAAGAAGGAATAGCAGCA autosomal
AATCCAATTTTCATTGCTCTCATCTCCCATGCTGCAGCCACAGCCATCCT autosomal
AGTGATGCCAGAGATATCTGTCAGGTCCTAATACCTCATTTCCTGAATAA autosomal
CTAGTGTGTGCTACGGGCTGCTGTGGCGGGAGGGGAAATCAGCTGGCAGC autosomal
AACTGTCAGCAATCTCTTCCCCAATCACAGCTCTACTATGGCATGATAGA autosomal
CTGTATGTTGTAAAATTATAATTTTATAATTTATGTTTCTGCACTTTTAA autosomal
ACTGGAAGAACCACTTCACCGTGGCCCAGAACGAGCGCTTTGACCAGGAC autosomal
AGTTGCTGCGGATGGTGTCCGAGATCATCTTGCCTCCCGACTGCCCGATG autosomal
CCTTGTGGTGGCAGTGAGGGAGGAGAAGCCTGGGATGGGCTCAGCTGGGC autosomal
CTCACCCCTGAGTCTTCTGCTTGGGACCAATATTGCAGTTCCTGAGCTCC autosomal
AAAGACAGGGCTACAAGGCGACCTCCAGGCCTCAGAAACTTCTCAGCTGT autosomal
AATGGGTGGAGGCATACAGTGAAAAAAAAATCTTATCTATTCCACAAGAG autosomal
AACACCCAAAGCCTCCCCGTGCCTCCCTTTTCCTGTGCAATTCCTGCCTC autosomal
AGAGCCCCATTGTCAATGGATATTTATGAATGGCCTCTGCTCACTTTCAG autosomal
CCATACAGGGAAAGGAGTCTTTCCTTTTTGAAGGCTGGGATGTACTGAGC autosomal
GAATATACTCCATATCCCTCTTTTCTTTCCTAAAATGCTTGTTTTGTGCC autosomal
CCCTCAGCCCCCCGCCCCTGCCTTGGCCCCCCCCCTCCCCCCCGGTCCCC autosomal
CATCTCTTCCCATGCATTCCCCAGGCCTGGAAACAAGGAAATCTTCTCCA autosomal
GTTTTAATTTTATTATTACAAAAGCTACAGAGTAGTATAGCCCTTGGAAA autosomal
CGGGCTCTGGCGCCGTGCCGGGGCCTGGCCCGCGCCACCCCCTCCCCATA autosomal
AACAACAACAAAAAGAAACCTGCATTTTTTTTTTTCCCCGATATGTTACA autosomal
AGGGGCGGAGCCGGCTCTGCCCGTGACGTCACTGAGGGGGCGGGGACTGA autosomal
GATGGTCCCCAGGCTCTGTGATTATGTTTTCCAGGGTGTATTTATTTCCC autosomal
ATCTGTTCTCTATAGAATGTAAACCTGAGATCATCTAAACTCAGCAGCAA autosomal
CTGGCTCCGTAGGGATCAGGAACAATTCACTACACAGGGTGAGAGACTTC autosomal
AGGCACTGCAACCTCCATCTATGTCTGGAGAGTGTTCTTAGGCACCCTCA autosomal
CTCCAGGGCCGGGGCTGCCGTGCCCTGCTGCTCCGAGGCCGTGCTGGCCA autosomal
ATCCTGGCGAAAATCCGCCCTCACATTTTCTTTGATGACCAGATGTTCCA autosomal
GGAAAGCCTCATTATCTTAGCTGGTTTGAGAGAAGGGTGGAAACTCCCCC autosomal
CTGCGCCGCCTTCAGCAGCTCCACCGCGCGCTCGTGCTGCTCCCCCTCCA autosomal
CAATAGCAGCTAAACTGGAAGCTGTGAAGGGTGGCCAGTCTCTGGGAGTG autosomal
CCCTGCGCAAGGTCCAGCCCGACGGTGAGGGGGGGGGGAATTTGGGGAGG autosomal
CAAATACAACCAGAATTGATACTTCTGGCCTCTAAGGTTGAAATCAATTA autosomal
AACGTTAACATCTGAGCAGAGATCTGCAAGCACACAGGGATAATCATTCA autosomal
AAAGGCAGGAAAAAAGCACTGGAAAAAAACCAATTAAGAGATTGAAGCAA autosomal
AAAAGCAGGATGTGTAACCTCCCTCCTTCAATATGTGATGCTGGTTGCAG autosomal
GCTCTTGGTGCTCTGAACTTGGTAACACCTCTGGCATCCCGACACCACCC autosomal
GGGGGCAGAGATGATCACACGCTTGGCACCACCCTTCAGGTGAGCCTGGA autosomal
GCAGCACCACCCACCCCAGGAGCTCCCTGGCAGGGCTAGAGGGACCTCCA autosomal
CTCCAGGTTACACCTGGCCGAGGGAACACTGCAGGAGAACCTGAGGAGAA autosomal
GAAGCCTGCAGCCTTTTTTTCGTTTGATTGTTTTTTTCTCTTAAAGCAGA autosomal
GAACAACTCACTCCTATTGTATGATCTTTAGTAAGTCAATAGCCTGCTGC autosomal
CACGCTGCTGAGCATGGAAATGAAGCTGAGGCTCCTGGACTTGGAGAACA autosomal
TCAGAGATCCTTTATCTGAAAGTGTTACAGAAACGATCCATGGAGGGTCA autosomal
AAATCCCCCCCGGGATCCCCAAAAAAATAACACCCAGGAAGCCCCAAAAT autosomal
ACACGAGAATGCACAACGCGAGCCACTTGCCACTTTGCAAGGTAAAAGAG autosomal
CTACACTCTGCAGTGCTTCCATTTTTTTATTTCCTTATTTCTTTGATTGC autosomal
AGGAGAACCAGCACATTTTAGATGCGTAGTTTGCAGTTCAGTGTGCCCAT autosomal
CATTTGCAGAGAAATCTGGCTCCACCAAGTGACAACTGTTGTGATTGCCG autosomal
CAACGTGCGGTGCCAGTGCCCGCCGGCCTACACGGGCATCCTGTGCGAGA autosomal
CCCCAAATCCCCCCAGAACGCCCCCAGACCCCCTGACCTCCTTTGGGGGC autosomal
ACCTGTCAAAGCGTAACGCAGGTGTCCTAAGGCGAGCTCAGGGAGGATGG autosomal
GCTTTATCATATCCATTCCAGGCAGCTGGTTTGCAAAGAGATTGCCTCCC autosomal
ACAACTGGACAACAATTCCCAGTAAGAACAGTGTTCATCACTCATTTTAT autosomal
CACCTGTCCCAGCGCCGGTTTCACGGACCTGGCTGAGATCGTGTCGCGCA autosomal
CTCCCAAATCTCCTCTTTTTCCCCAGATTTTTCACCCAAAAGCTGGTCCA autosomal
CTTCTTCCTGGCCAAATGGCAAGTGGACAAAAACCGCCTTGAGCAGCTCA autosomal
AGCCCCCCCCGCGCTCCGAGCCGGAGCCTTCGGCCTCGTCCTCCTCGCTC autosomal
AAAGAGGTGCCCATGGCATGTTAAAATAAGGAGGTATTTTCCCATTGTGG autosomal
ACATATCTTCTGAGAGATTTTCATGGTCTCTTCTTCCAGCTTGTCTTCTG autosomal
GAACACGCAGACCACGTGGACGACTTTGCAGCTGGCAGGAAACACTGTTC autosomal
CCTTCAGTGCGTACTTATTCTTGTTTGGTAATTGTCATTCATTGCACAAA autosomal
ATCACACATGCACACGTTCAGGTATTTTGAAACAAAAGTGCACACAGAAG autosomal
ACAGTGACCAACTCCAAGATCCTGCTGGTTTTATTTTACCCTGTCAACTC autosomal
AGGGCCACAAGATGTCAGATTGAGTTTTCAGCCATCAACTTCCCTTGTGA autosomal
AGTAATGACCTATCAAGCACGGGCTGCACCACAAGTCCATTCATGTGCCC autosomal
ATAAATGAAAATTTTCTGTCCACTTAGTCATGTAAAAAATGAGATCAATA autosomal
AATCTTTTTTTAAAAGTGTAGCAAAAATGGAATCTATTTACACAGTAATT autosomal
CGGCCGCAGCCGCTCCCCGCGGCCTCGGGCCCGGCCGGGACCCCCCGCTC autosomal
CACCGACAGCGGGTCCGTGTCTTCGGGCAGCTGGCACTTGTGGGTGAAGG autosomal
GGAACAGCGTGGGCGACACGAAGTACTTCTCGATGATTTCCGCCAGGAAC autosomal
CCCTTTTTTCCCCAGATTGTCCCATCCTTGTCAAGACTGGACTGACAACG autosomal
TAGCCTTTAGTTATCACCAGTTACATTTCCAGCTGTTCTATTTCATCCTA autosomal
ACAGCTAAAACACAGCAGGTAAAAAACCAGAGTCCGGTGTGCACCAGCTG autosomal
ACTGCGTCCTGTTCGTGCTGTGCACGCGGGCGGTGCGGGCCCGGCTGCGG autosomal
AGCTGAAGGCCTTTGTCACCCTGGAGCGCTTCGAACAAATCTACAGCTCC autosomal
CCTGGTGCCCTCTCCTCTTCCCTGACTCACAAGAGCTTGTGTGGATGAGC autosomal
AAAAAAAAAAAAAAAAAAAAATCTGTCTTACTGTAACGGTACCAACAAAA autosomal
CCTTTACACACAAAACCACAAGGACTCAATGTCTTTTCCTGGGATCTCAC autosomal
ATCAGGGCCAGCAATAAGGGTCACTGAAGCTTCTTTCTTCTTTGGCTCAC autosomal
CAGAGCAAGAAGGGGCAGGAGAGAGGTGGGAGAAGGCCAGGCAGGTAGAG autosomal
CGCAGCGTGTGCAGCGCGTCCGCCAGGGTCCTCATGCGGAGCTTCTCCCG autosomal
AAGACATTTGTCCCTCAGTTCCAGGAGGCAGCATTTGCTAATGGGAAGCT autosomal
TGGAAGAAGAGGAGGCAGGCAGACGTTTGTGCATTCTCTGGTGATGCACA autosomal
CATGTGCTCGCCCAGGACTGCAGAGCCGGCCATGCTCGTACTCCTCGAGG autosomal
GCAGTGAATTCTGGTTTTCACACTTGGCAGGGCCACCTTCCACGATCCCA autosomal
ATTGGCCAAAAAATGCCCCAAAACGAGCCCCGCCCGCGCCAGCCGCTGCC autosomal
ATGCTCCACAGAAGTGTCAGCAACAACTGCGATTTTCTTCATTGTGGGAA autosomal
AATTTTCTTCGTGTTGATTTTCTTTTTTTTTCTTTCAGTTGTTATGATTA autosomal
TGACCAGGCTAGAGGAAACAGAGTGGAGAGTTCAATCATGTGTAGTGACA autosomal
CAATTCCAGCTTTTACAATGGGATTGGAAACATCTGAGGTTTCAGAAGAG autosomal
CCAGAGGGGACAGCACAGTGCCGAGCCCTTGCCTCGCACCGGGAGCCGCG autosomal
ACAAACTCTGTTCTTTTTTTAAATCAATCGATCCAATAAACAGTGGGATA autosomal
GAGTGGTTCCTTTCTGATACAGTTCAAGTTCCCCCTCTCTCCCCCTAAGC autosomal
GAATGGAAAGAGCAGGATGTATCCCCCAGCTCCAATAATTTGCTGTGGAA autosomal
GAGCCTAACTGCAGCCAGTGACCTAAAAATCACATGGCAGTAAAACCAGA autosomal
AGGAATCCATCAGGGGGGGTCAGAGCCCAGTGCTGCCATCATGGGGGGCC autosomal
GCTCAAACAAAATTACAAGACATGGCATTAATGAAGGATTTCACTTTTCC autosomal
AGCTATACTGACCTAGTGCACCTTTTCTCATTATTTAGATAGTTTCTTCC autosomal
AGCAGTGCTTTTTAAGAGCACGTATACAGCAACCTCCCTGTCCACCTAAA autosomal
AGCAATAACAGTCTAATTTTTGCAAGGAGAGCAATTATTTATTGCATCAC autosomal
TGCATTTCATCTTCAAAGCATCAAACAAACATTAATTATTTACCCAGGCA autosomal
CTCCACGCCCCCAAAACGGGGGACCCAGGCAATGGGGGACCCTGCTGCCC autosomal
AGTTCAAGCTGTAACATCAGGAACATGAACAGGTCTGCAGAGCCAGGGCA autosomal
CCACCGAGCCCCCAGAAGTTTGCGGGGCTCCGTCCGCAGCTGGCTGGGAG autosomal
AATTAGGTTGTTGATGCCGTGTTCAGCATTTTAGACTGATGAATAAATAT autosomal
AATTACTACAAAACAGATAAAATTGACTAACTCAAGGATATATTAGATAA autosomal
AAGCACCATATAAATTTACATGCATACATGTTATACTGTTCTGTTACAGT autosomal
GGGGTCCAGGCCCCTCCGGGGGATCACTGGCAGGTGTTGTAGATCTGGAC autosomal
CCTGGGGGAGGGCAAAAAGCCCCCATGGGGGGGAGTTTGGGGGCCTCAGA autosomal
CGGACCCCCCCGGGCCGCTCCGGGACCCCCCGAACCCCCCCGAAGCCCCC autosomal
GCCACAAACTCTTCAGGATTTGTCCAAAAGCCATGTGCATGTGTCAAAAA autosomal
CTGGAAGAGGGAGAAGCCGCCGAGCAGCGCGTAGAGCCCCGCGGCGATGA autosomal
CTGCAGCCCTGTCCCGGAGACTGCAGGCAAGGAGAGGCCAGGAAGTGTAA autosomal
ACTGGGGAGGTCCTTCCCAAAAAATTGGGGGCCCAGGGGGGGTTTGGCCT autosomal
AGGATCTGCAAGGACATCAGGACATCACCTCTGGGTAGGACAGAAAGAGA autosomal
AACTCACTAGGGATTTGGGGCACCTCAGTTCTCATCTTTACAGGGTCACA autosomal
AACTTCATTTTGGGGGGGGCAGGGGCAGTTCTGGGGGACCCGCTGTGCAA autosomal
ACCCCGGCTCCATCCCGAGCTCCGTGTCCCCATTTCCCTGCCACCCCAGC autosomal
CTTGGAAAATACAGGGGAAAAGGCTAATCTGTCATGGATGAAACACACAC autosomal
TCATGCTGACCTCCTGTTACGTTGGGGTGGTCTCTACTGAACGTGTTTCA autosomal
CCCTTGCACGCCCGGGCGGGGGTCCGGGCGGGGGTCCCGGCGCAGGCGGC autosomal
CTTATTTGAAAGTGCAAACAGGCTGTATTATAAAAAGTATGAAGCGAGAC autosomal
CCCTGGCAGGTCTGGGACCCTGGCAGGGGTCAGGAACCCCCCTGGACAGA autosomal
CGGCCTGCACAACGACGCGCTGCTGCGGGAGATCCGCGCCGCCCAGCAGC autosomal
AAAAACCACAAAAACTATCCAGGCAAAACCATCCCAAAATATAATTATTT autosomal
AAAAGCTGAATGTTGTGAGCAAGAAGAGATGTAGTTCATCTTTGTCAAAA autosomal
ACTGGCTCTCATTACAAGCTGATCTTTGTGCAGACTTTGGTTGGTAGAAC autosomal
GACCCCCACCCATGGGTGCCAGGACCCCCACCTCTCTCAGGACCCTCTCC autosomal
ATATCTCCTTACACTTTCTAGCACCCATAAAAACATCTAATTGCTTATGC autosomal
ACGGCGACGGCGGCCGCGGCAGCCTGGCGCACGTGGCGCCCAAAGCGGAC autosomal
ACCCCCTGACGTCACTCCCCGCTGGCCACGCCCCGCTGGGCACCGCCCGG autosomal
ACCCTAAAAAATTAAAAACCAGTAGAACAATCCCAGCATTTGAAATAGGA autosomal
ACATGGGTCATCTTTATAGAATACGCAAGCCTTATGAGTGATAACTTTTC autosomal
AGCCTTGGGATTCTCCGCGGGAGGCAGGAGTCGGGTTTGGAGGAAGCACG autosomal
CGGCAGCTCTGTGGAGGGTGGTTTGCACGGGCGGGAAATGGGGTGTGCAA autosomal
CGGGGGGGATTTGGGGGGGATTTAGGGGATTTTTGGGGACAAAAGGGGGA autosomal
CGCTGGGCACGTCCAGGCGCTGCCGGCCGTGGATGGTGCCCGGTGGGCAG autosomal
AAAAACACTGAAAGATATGCTTAGTTCAAAGCAGAAATATTTTCAACAAA autosomal
GCAAGCTTCAGATTTGTTATGCACAAGGCTGATGAATGAAATTAAAAAAA autosomal
CAGGAGCTCCTGGCTGCCGCAGGACGAGGAGCAGCGGCCGCTGATGTCCC autosomal
CCACAGAAGCACAAGACCATTCCAGGATAATGATGGGACAGAGCTGCAGC autosomal
CGAGAAACCCGGGCTGTCTCCAACACCGCCGTCATCCCCAAAGCGGGTAC autosomal
CGGGAGCGCGCGGGCGGGACGGGACGGGACGGGCGGGGCGGAGGCGCCCC autosomal
CCAAAAAAACCCAAAAGACCCCCAAAAATATAAAAAAAATCCATGGAAAA autosomal
CATTTTTGTAAATTTTAACATCCAGTATCTATGGATGCTATTCATACATA autosomal
GCAGAATTTCCTGAGCCTTTTTGTCTGATGAAGGATTTCAGGATCAAGTA autosomal
ACAGTGCTGATAAAGTTCATTAGCAAAAATTCAGTATTATCAGGATGTTA autosomal
GTGAAAGGGGAGGTGGATAGAAACCTGCATGTACAACTTCTAATAATGTA autosomal
ACTAACACAGAAAACCAAACAATAGAATAGAAACTACAATAAAAATCTCA autosomal
TCTGGTTTTGACCGTTTGGGTTTTTATAAGCAAAAAGTGCTTAGCTGCCA autosomal
GCCCCTCAGTCCCCTGGTTCTCTCTGGTTCCCCTCATGCCCCTGGCTCCC autosomal
AGGGGACTCGTATGAAGTAGAACTGCACATGAAGAAATACTGCACTTACA autosomal
GAGCAGTCATTCTCGGTGGAGAAGACCTTGCTGGTGGAGAGCAGTGAGTA autosomal
CCTCTCCATCAGCTTCCCTGACTCCCAGGAGCTGCACCTACCGCGGATCC autosomal
ACGGCCAGCAGGGCCACCACGCACACGGCCAGGGCCACTGTCACCCACAG autosomal
CACCACCGAGGCGCGGGTGCCCACGCACTCCAAAGTGGGGGGCTCCAGGG autosomal
AATCAACCCCAGCCACCATTTGGAGTGAAAGGGCCTGTTGTGCCAGGGGG autosomal
CTCACACCTTAAGGAGGTCATTTGACTCTTGTAAAAGTAAAAGCAATGTC autosomal
CACCGGGGAGGTGAAGGGTTTAATCTCATCCCAGTGACTATATATGGTCA autosomal
ACAAAGCCACCACTTCACCCTGTCCTCCCCCATGGAGGCTTTTCCAACCC autosomal
CTGGAGAGGATGTGGCCATGGAGGGGACAGCCCAGCCCGGAGCCACCAAC autosomal
CTGTCCTCTTCAGAAAGATGCATTAAATACTGTCCCACAAAACATCTTGA autosomal
ACTTCATTGGTCCGTGTTTCTGAAACACATGATTGTGTGGAAGTTCTGAT autosomal
GAGAGAAAAGCTGCCAGGCACAGCTTGAAATGAAACTGATACAGCACCAA autosomal
CACAGTCCTTGTCTGGAAGAAGTCAAATCAGTATTTCCCTTACTAAGAAC autosomal
AATGGGGGAAAATTGGGGGCAGAATGGGGGGAGAATGGGGGAAAATTGGG autosomal
CACATCTTCTTGCCACTTGTGAGTCTTTCAAACACTCAGGAGGAACCACG autosomal
CAGCTTCATTCACTGCACGCTGCCATACTATCCACCAGCTGTGAAATGAA autosomal
GCCCATTACAGTAATGGGACACGTAGCACTTGGAAACAAGTAAAAAGAAA autosomal
CTATCTCACAATATTCAGATAAAGAATAAAAGAAGCTGTACAACATCACC autosomal
CAGTTCTACTGGGGAAGAAATCTTGTCTAGTGTTCACTGGCATATGTTAA autosomal
ATCGTAGATGGTGGAGATGACAACAGAAGTGTCAGCACGGGGCTTCTTCC autosomal
GCAAGACTCCTTCCATTAACACTTCAGCTTTTATGGATACAGAGAGAAGC autosomal
GGCTCGGTGTTCCGTCAGGGGCTCGGTGTCCCTCAGGGGCTTGGTGTCCC autosomal
AATAAATATCTACTTAATAAACTCAGACAGAATACCTCCAGCCAGCACTG autosomal
AGTTCTTCGGGGAAGTTCTTTCTCATTATATTGTTGCATCTCAGGGAGAC autosomal
GGCCGCTACCTGGGCGAGCTGGAGCCCGGCCACTTCACCTGCTACGCGCC autosomal
ACTGAGAGACCCAAAGAACACAGAGTGCACCAGAGACAAGTGACAGAACA autosomal
ATAAGTAACTAAATGCTATATATACTATACTTGAAGTTACAAGAGTTATA autosomal
TGGAGCAGGCTCTACATGGAGAGTCTCAGGCAGTCCTCTCACAAATCCAA autosomal
CCCGCGGCCATCGGCACCGAGACACAGCTCAGGTGACAGCGGGGCACGGG autosomal
CAAAAAGTGATTTTTTTCAGCACATCCTGCAGAAGTTTGGATGGCAAGCA autosomal
AGTCCATCGTTGGCTCCATGATCGATGCCATGATGGTTGGCTGCATGTTC autosomal
ACAGCCCAGAATTGTTTCCTCTCAGAGCAAACAGCCCAGATCTCTTGCTG autosomal
TCTGCTCTCTCCCACCTCCCCCTTTTCAAGGACTAAAACCTCAAAATTAA autosomal
GTCAATTGGAAATGAAATTATTTTCTTGTTATTTTAATGCCAGTTAGTCA autosomal
CTTTTCTGGAGATCTGGACATACCCACACCCCAACAATACATGGTTCTGA autosomal
CAGAGCCCATTGTAGTCAATGGGAGACTTTTTCCATTGACTTCATCGGGG autosomal
AGCAGACACCCCTCCTTGGCCCTTGTTCACATCGCTGATACATGCCCACA autosomal
ATATTGTGATAACTCTGAGACAAAGAACTTGTTGGCTGACAACTAAACAT autosomal
CAGCAAAGGCAGAAACTCACAGCCAGGGCAAGGACAGCCGTGTGGTCCCC autosomal
AAATATGTGGCTCTTATTTTGAGTCTGCATTAAACTGTAAAACAGTATAT autosomal
AAGGAGTCTGTGAAGCAGTTCCGGAACACGGACATCTTGCTCCCATGGCA autosomal
ACCGTGGTGCCGCTCTGCTCCCTGCTCCCACTCACTCTGCTCCCTGGCCT autosomal
GGAGTAGCTGAGTCTCAGCATCCTCACCCACACTTCCCAGCAGGCACCTA autosomal
AACTTTCTAAAGATTGCAACTGATGGAACATTAAAATGAAAACTAAGGAG autosomal
AAGGCACCTCAAGCCTGAGAGATGGGAGGAAGGGTTGGAATCGTCTCCCT autosomal
GGAAACTGTCATATGGCATTATCTTCTTTATGGGATCTCCTGTATGAAAC autosomal
GAGGCTGAGGGACAGCGCCAGGCTGAGGCGCTCGCAGACCGACAGGTACC autosomal
AAATTGCTTCTCACGCTTCAGACTTGGATGGAACATAACAGTGCTTAAGT autosomal
AAATTTCAATTTACATTTTATTCAGTTGTGTTAAATGTTACCGCGCTGTA autosomal
TGAATTGTATTAAAGTGTGTGTTTTTTCTTGTAAAAGTGGAGGCCTTGCA autosomal
CATACTTGTATGTGTATATGTTCGCTGCCACATTCTTAATTTTTTTTATA autosomal
GCACAGCCCCTCTGGGCTGGGAGGGGGCACACCCAGCCCCCAAGGCACCC autosomal
GCGGTGCCGCCAGTGCAGCGACGCGTAGGTGTTGTAGCCGTTCTCTTCGA autosomal
CCAATGTCACCGGGAGGCTCCGAATGTCCCCAATGTCACCGGGCAGGAGC autosomal
ATACAAAGCTGGGAGTTTTGGGGTGGAATTTCTGTGTGTCCCTGTTTCTC autosomal
AGAAAAAAAGTGCTGTTCTCCCCTTCCAATGCAATGAGACTCTGTCTGCT autosomal
ACTTTCATTGAGGCACATGAACACACTTCATATTTACCAGCTCTTAGAAA autosomal
CTTCCCCCAGAACACCGCCGTCGGATCCACCTCCTCGGCTGCTCTGGGCA autosomal
CTGTGGCTTCTGGGCAAAAAAAAAATTTCATCATCACCCCCGAGAGAGGC autosomal
AATTTTGGCTACTTAAATGTTTTTCTTTGCAGTTTTTGCATACTTATTTC autosomal
ATATATATATATATACATATATATATATTTATATTAAATTAATTTTTTGC autosomal
CTGCTGGGGAAGACAGAGCAGAGAGAGCAGCAAAAGCTGTAACCACCTGC autosomal
AACCATGAAGATGGGAAGTTTGCCAGGATACCTGAAACTCATTCCTACCT autosomal
CCGGCGAGTTCGTCATCGCCGCCGGGCAGGAGGGCGAGGTGGAGGTGCAG autosomal
AAAGCAATAAATATTAATGTTATGAAATATCTGAGTACATTTTTATCACA autosomal
ACCCACACCTCAAGATCAATTGAAAGAGAAAGGTACTTTTACCATTACCA autosomal
AAAAAGGCTCCTTCCCCTGCTAAGGCTGCTCCTCCCCAGGAAAGGCCTCC autosomal
CCTACTGTTCCCAAGTCTGCTCAGCTTTTAAATCCCACACAGTCCAGCCA autosomal
AATCTTTGGATTTGGGGAATTTGGGATTTTGGGATCTTGGGAAGGAATTC autosomal
ACGACCCCCGGCACCCCCCCGGACCTTCTTGCGCAGGTAGAAGCCGAGCC autosomal
GAAGAGGATCAGAGCCAGGGAGATCGTCTGGTGCCACTTCTCCGAGGAAA autosomal
TGCCAGAGGAGCTGAGCCCAGGGACTGCTCCTCAAGGCTGAGGCCTCCCA autosomal
ACCTGTTAAAGAAGTAACAGCCTTCATCATGTGTCCTTCTCCCAAGAGGA autosomal
AAATTTTCATACATGTAAATAAGTAAAATGCAGAAAATTAAGTGACCTGA autosomal
ATATCCAAAACAATCCAAATGTAAAAATAATAGCTGGAATTTTAAATTTA autosomal
TATACTGTATTTGTATACTTTAGTTCTCACAGGAGTCAAAAATTAGAAAA autosomal
GGAGGAGGAGGAGAAAGCGGCCGAGTGAACGGCGGAATAAAAAAAAAAAA autosomal
ACTTGTCTGTGCAGGTTGAGTCTTGTCCTCATGAGACACGTGCAAAACCG autosomal
ATTGGCTTGCATCATACCCTTAAAAATGGCAAATTTAACATCACCCTTCC autosomal
GGTTCTTTCCTTATTTTTCCTTATGCTTGAAATGTCTAACTATAAAGAAC autosomal
GCCCGGAACGCGGCGCTGGAGCGGCCCTACCCCTACCTGGACCCCGAGAA autosomal
CTCAGGATGGGTCCCCAGCCAGCTGTGACACCTGCCCCCCGTCAGCCCCC autosomal
ACAAACAGGAGAGCACCCTCTCTGTCTGCTTGGAAAAGCTGGTTCTTTTG autosomal
AAAATCCCGTTCAAAACCAGGGAAAATTAATTTTCCACCTTATTTTCCTC autosomal
AAAAGGACGTGTACAAAGGACTATAAAGCAAGGCAAAGAAATCTCACCTC autosomal
AATATTATAAAAATTATATTATAAAAATATCTGTGCCTTTATTTATTTTA autosomal
AAGGGCAGGTACCTGCAGACCAAAGCCAAGCGGCAGGCGCAGATGCAGCA autosomal
CAAGGGCCGGCCCAAGGCCATGTAGGGGCTGCAGCCCCCCACTCCCGCTG autosomal
CCATCCATCCTGGCCAAGGGAGAGACTATTTATGTGGAAAAAAGTGTGTA autosomal
ATCCCACAGCATGAACTGAACAGCACAGACACAGTGATAGCATACCCCTA autosomal
TGCAAATTTTCTAGATACTGGGTAACAGCCTCTATCTCTGCAAACTCCAA autosomal
CTGAAAGCCAAAGGGGGGCTCAGCTCTGTGATTTCAGGACATGCATCCAA autosomal
AAGGAAAAAAAGACCCAGCTACTTTCTCTAAGAATTCAAAGACTTCATAG autosomal
CAACGAGTTGGGTTTTCCGTCTCGCCTCCTGCCGGTTTGCAGCGCCCGCC autosomal
ATACTATATTTTGACTTGATACAGCATAGTCATCTGAAGTTAATTTAAAT autosomal
ACAGTGCTGTCTTTTCCTAATAACAGGAGAATTTGCTGAAGCAACTTAAC autosomal
AGGGCAGGGGGGGCCCGTTGACGCCGGGGTGGTAGAAGGCACAGTTGTTC autosomal
ATTCTTTTAAATCACTCTTGACGCTGTAACTGAAAGCTAGGAATTCAGAC autosomal
CATAGTCTCTGTTCCCTCCTACCAGTGACGCTGTGCACAGCTGTGAGAGC autosomal
GTGACACGTGGTAGTAGCAATCTGCCGGATTGCACCTCCCGTTGGGTCCA autosomal
CTTGAACAAAGTCGTTTAAACTATTCCCCTTCCGAAAGTAAAAGTCTAAA autosomal
CCCTCAGTGTTAGCTGGAGTAAATATAATCCAGCCAAAACAGAGTGCCTC autosomal
CATTGTGTGTGATTTCAGAACGTTAAGATTAGCATTGGAAAAGCACTTAA autosomal
ACAGGGCAATGAGCTACTCAGCCTTCTCCACGGAGTACAACACACAAGGA autosomal
AGTGATAGCAAGATAGCCACTAACTGAAAAAGTGCAATTCATTTGAGAAG autosomal
CAGGGTGGGACAAGGGGCAGGGGATGGGATTTGGGGTGGGATTTGGGGCA autosomal
GAGTGAATGTAAGGAGAGCCCAGCTGGCTCTCCGTGAGCAGCCCACGTGC autosomal
GGGGCGGGCAAGGCTGCCGCTGCCCTTCGGAAAAAGAACCTGAGCAACAA autosomal
CCCACGCGCCCCCCCGGCTGCAGGTCCAGGACGTGGGCGCGGGCCCGGGG autosomal
ACAAAATCCCTTATAATGTAAACAAAATAACTTTTTTACTAAACTTCTTA autosomal
TCCAAGCCTTAATAAGAGCTTGACACAAATTTCAGAATTCTCATAAACCA autosomal
CTGGAGAGCAAATGCCAGTAAGCCTACCTAGATTCCAGCAGAGACCAGCA autosomal
GTGTGCATGTTGTTATTGTATCCTTTTCAAAGCAGTAAAATGGGAACAGA autosomal
CTGTCACTGGGAGGCTCCTGCAGCCTGTGCTTAGCAAGAATTGCTCACTC autosomal
CAGGGGTTTGGGCGCTGTGCCCCTCTGTCCCCCTCTCCACACTCACACCA autosomal
CCCCAGCCTCGGGGGCAGAGGGGAGACACCCTGATGCTTTGCTTTGCCTC autosomal
CAGAGGTTTATTTGTCAGTGTTACCAGGGCTGGACAGGAATATTTTGTGA autosomal
AGGATTCAGTGTCCCCAGCACAGCAGGGTGGCAGCTCGTGGGGCCGGGGC autosomal
AATAGGAGACAGATCCATGAGCTGGAGCAAGGATTCAATTGTTAATGACA autosomal
CTGTACTGTGCCCAAGTGAGCTGCCTATGCTGACCTGTACTGATGTCACC autosomal
CTGAAGCTCAAGTCCAGGCCATAATACAGTTGCAGGTTGATGAGGACAAA autosomal
ACCACGGCCAAGTCCATCCTCAAAAATAAAGTCATCAAAAACAACCGCCT autosomal
CAGAACTCTTCTCCCTGGACTGCTGGATAATCCTTAAGTTTCGACAGATG autosomal
AAGTCCAACAAGGATCATGGCCTCTTCAGTACTCCACAGCTCCAGGTACA autosomal
GCAAATTTTTCTTTTTCTGCCAACATATTTGTAAAGGCTGATATCCACAA autosomal
ATTTTGGGCTCTGGGTTACTTATTGTCAGTTTGTGCAAGGTCTGAACAGA autosomal
CTTTCACACAACCTGGGGGAATGAGTCCAGGGATATGGCCGGCTCCAAGA autosomal
CTTTTTTGGGGAGAGGTTTTGGCACCAGAGGGCACCACAGGGATGCTCAA autosomal
TAGAGTGACATCACTTGGAATCCAGCAGGGATTTGTATGTGATGCCCAAA autosomal
GGTAGGTAGATCCCTTTGGCTTTGGGGATGATCCCTGCCACCTGATGTGA autosomal
CTTCCGCAGCGAGAAGGGACGGATGTTGAAGTGCCGGCTCAGCTGGCTCA autosomal
AGGGGACACAGGCAGGGGAGCCTCGTGGCTGGGCTGGACCCTGACACTCC autosomal
CCCCAGCCTCAGCATCTGGCTTTCAAATAGCAAGTGTAGTTAAAAACCAA autosomal
CCTCAGGAACAAAGAGGTAAAATGTGCCCTAAAAAGAGTGATCAGCCAGG autosomal
CATTCCTGAGAATACTGTGACATTTTCCCAGTTCTACTTGTGCAGAAAGA autosomal
GATGGTTCTTCCACTCTATTCAGCAGGTGCTGAAGTGCTTAGCTTTTGAC autosomal
AATTTTTACTGCTCCTAGGTAAGTCAAGTTTTTCAGACTAAGCAAGCTCT autosomal
AATGTGCAGTACAAATGTAAGCTCCTTGGCCACAAACTCTAATTGTGTGC autosomal
AGTTACAGTAAGTCACCTTGTTTAATTGTTGTCTTGCATTTATTTTTTCA autosomal
AAGGCACAGGCTGTGCAGCTGGGGGCGCAGTCTGAGCGTCTGACCATTCC autosomal
CTGCTGGGCTGCCCCTGGGTCCCTGGCAGCGCCCAGGCCAGGCTGCACAG autosomal
ACGCTGGAAAATCTCCTGCCAGCAGCAATGGGGTCACCAGTGCTCACCAG autosomal
CGAGGTCCGCGTGGCCGATTTGGGGGGGCTGGCGGCCGCCTCGGGGCTCC autosomal
CTGTTGTTAATTCTAACAATTTGTAATTAATTTAATAGTAATTCTGGAAG autosomal
AACTGCACAGCTATGACTTGGTGAATCGACCACTATTGCTGCTCTTAGAC autosomal
GCTCAGTAAGTGCTGGCTGCAGACCAGTGCAGTGTATTTACAAAGTTTGA autosomal
AAGATTGATGGCAATTTACTGGTTCAGCTTACAGAAGAAATCCTATCAGA autosomal
CCATACTTATTTTTGCATCAAAAACTGTATCACTGCCTGCTTTCAACTAC autosomal
GCAGGAGCAGCACTGGCACAGAACACCAGCCCAGAGCAGGGTGCCAGAGC autosomal
GCAGACCGGGCGAGTGCGACGGCGACTCGAAGTTCATCCACACCCAGCGC autosomal
CAGGGAATGTTTCCCAGGGGTTCAGCACACCTGCATCATCATGGAGTTCA autosomal
CAGAAAAAAAACCCTTGTCAGATTCAATGAAAACAATAGGAAGTAGTTCC autosomal
GGCTGCTCCTCATCTGCAAATGCTGTTTGTGGTGCAAATGGGCCCCTCAA autosomal
ACCATGGGGGGATCCAGGGGGTCGTGGGGGGATTTTGTGGGACCACCTCC autosomal
CACGGACGTGTCATGATGTAGATACAGCTCAGCCGACTGACTTGGGCCTC autosomal
AATAGAATTGTTGCTCCTAGCTAAACTGTTTGAATTATACATTAATTCAA autosomal
GAAGGGTGAGATCAAATTCCTGCCTCTTAGCAACAGGGGAAATCCACACA autosomal
CCTGGCTGTTCACGTGCCTGCAGCCCAGCTCCCTCATGGCCTCAGCAGTC autosomal
AAGAGCATTTAGCACAACTTGAGACTGAATTCCTTACGACACTCTCTCTG autosomal
TCATCCGTGAGGAGGTGGGCCTTTGCAGAGAGGGGGGAGTGGGGAGGGAA autosomal
AGAAAAGAAAACTGAATCTAGTAGACAGCATATGTGCCTTGAGAATGCAC autosomal
GAACAAGGTTTAAAAACATCCAGCTTATTAAAAATAAACAAGTGTTTTAC autosomal
AACAATGCAAAAGAGGATTTATTGAAACCATTCCGGTTAGAGCAAGTCCT autosomal
TCAGATGCCCTGCACAGGACTGTGCAGGCACGACATGAAATCTTCACCCA autosomal
AATCCACTTTGAATGTGACTAATCTGCCTCCTTCCTCAGGACAGGCTGAT autosomal
ACACAGCCGAGAGGCCCTTCCGCTGCCCTGACTGCGGGGAGGGCTTCAAG autosomal
ACACCCGGCCCCCTTCCTGCCCCCCGGCCCGGGAGAGGCACCCACACACC autosomal
CAGTTCTGGCAGCCAGTGAGCACTTTACTTGTGAGCCAGGGTGAATGACA autosomal
ACTGATAGAAAAATTAGATATTCTACACTATGAACTTGCAGAAATAACTC autosomal
ACCTGGTCCTGGCAGAGAAGGAGATGTTACAGGCACCCAGCTGGGATTCA autosomal
TCTTCTGTTGAACTCAAGAGCAGAACCTGTGTTGACTTCAACAGGAGCAA autosomal
CTTCCTTTGAATTACTGAGCACCCCTCCTTCCCGCTCAAATCTCTTGCCA autosomal
AGCTTTCTCCCGGGCACCTTCCCCTAAAATCTGAAAACTCCCGGCAGTGC autosomal
CACCTTCTCCGGCTGGTTCCTGGGCTGGGACGATGACTACTGGGCTGTGG autosomal
AAGGCAGGGGGCTGCTCACTGCTGAGGTGCAGCAGCCTCACTGCTCATTC autosomal
TATATCATGATGGCACCAAAATTATGCCCTAGAGCACACTCTTTCTGAAA autosomal
ATGATACTTGCCCCTTCTGCCCAAGCCTCAAATGACGGCTGCTGGGACAA autosomal
AAGCGTGGAAAAAATGGGATTTTTAAACGGAAAAAAAGAAAAAAGGGATT autosomal
CCAACAAGGACCACAAGCTCTTCAACAGGTTAATCTGAAAGTAATCCCCC autosomal
AACATCCCCCTGTGTGCATTGGGAACATCCCCCTGTGTGCATTGGGAACA autosomal
AGGAAGTGTTTGTATTTTGCTTTTGCAACCTGGGCAAAATCACTGGACAT autosomal
AAAGAAAAAAAAAAACAACAAAACCCCAAAACAAACAAAAAAAAACCCCC autosomal
CTAAAGAGCAGAATTAAATCCCCAGTTGGTTCCATTTGATACTTTTGTGA autosomal
AATTGGGTTGAGCAAATTATTCCAGCCAGCGGAGGTGGTGATCTGAAACA autosomal
CTTTTTGCAAATATATCATTTGTCTCCCTTAATTACATATCCTTATAACA autosomal
TCACATGGATGAGAAGCTTTTCTGCTGCCCCGACTGCGGGAAGGGCTTCA autosomal
AGGATTATCCATGCCAGCAGAGCGTGTGAAGTGAATACCAGGAGAGCAGA autosomal
AGGTGGGGGACACACAAGTGGAGGCAAGTTATTGTTATGCCGATGGGAGG autosomal
CAACATTGTCGCTCTGATGGGGAAAAAATTCAGTCATCACTTACACCAGC autosomal
CAAACAAAAACCTTACCTACTGTAATAGTGCCCTTTCCTGCTGGCTTTCC autosomal
AAAGTCAATGAAAACCACCCCAAAGAACTAAAATGTAGGACAAAGTAGAG autosomal
GCTCGCCCAGCTTCATGCGGCGCTGCGTGGACAGGCTGACGTTCTTGGCC autosomal
GTAACTTCTCTGACTAAGATAGCTTCAGACAAGCGTTTGGCTGAACTTGA autosomal
AGTAAACATCCTGCAGCCAAATGCCTGACAAGAAAGACTGAGCCAAAAAA autosomal
GGGGGTGGCACCGGGACGGCGACAACTGCCACAACGGTGGCACCGGGACA autosomal
AAACGAAAAGTTTCGCCTCCTACAGTGTACAGAGCCCCATTCAGGGATGT autosomal
GAGAGGGTTTTTTTATGCTCAGTTGTATTGCATGAGATATCTAGGGTTGC autosomal
AGAAGATAATGTTAATGATTAAGGACATGAGTGAACTGGTGCAGGAACAA autosomal
ACTTGAATTTGTCTTGTAACATTTGAGTGTCATGAGATGCTCTCTCTTAC autosomal
AAACCTCACTGCTAGGGATGGAAAATGCCCAGTGCTACATCCCCAGGCTT autosomal
AGGTGTCGGGGGTGCCCAGGGCTGCTCGGGGTCCCCCGTCTCACCGGTGC autosomal
ATCCTCTTCTTGGAAGTGAAGCTGCCCCATATTCCAGACTGTGGCAGGAT autosomal
AGGTTTTTTTCAATATCTGCTGTCAGTGCAAACATCAGACCCATACCTGA autosomal
CCCTCAGCTGTCCCCTGTCCCTCGGCTCTGTGGAGCTAGGGGTGGCAGCA autosomal
AGGTCTCTCAGTGGTCACTCCGTGGTCATTCGTCACTGGTCACCCAGCGG autosomal
ACCGGGACCGGGCACCGGGACCAGGCACCGGGACCGGGACCGGGCACCGG autosomal
CATCCTTCAGAAGCAAGGCAGAGCCAATATTCAGGTTCAGGATAATGCAG autosomal
CATTTGAAGACGGAGACAAGTGGTTTTTGGTTGGTGTAATATCATTTGGA autosomal
ATGCCTTTGTCTGCAGAGAGAGAGTCTGGACTAGGAATACGCATGAACTG autosomal
GACCTGGTTACTGTTGGTTCATTTATTCTGGTGGAGGAAGGAATGAAGTA autosomal
GGTGTTGTGATCTTCCACAGAGGAGAGGTCGAGCAGAGCCGGCTGGAACC autosomal
ACAGTGCTGCAGGGCGGGCGTGTGCGACAGCTCCTCCTGCTGCCACTCAC autosomal
CCCTGGCCTCTGCCATGAATGATGCATCCACCATGGATTATGAACTGCTC autosomal
GTGAGCCCCGGGACCGGGTGAGACCCTTCCCCAAATTAATAACCCTGATA autosomal
CTGGGCTGCAAGTAGCTCAGTGGGATCATATGTTCCCTGATCCTGGTGTA autosomal
AAATTGAAACTGCAAGGACTTCTTGTATCAAAACACGTATACTGAAATGT autosomal
CCAAGGATTCTCTATCCCATCGTGCACCTTCCAGAAAAAGGCCTCTCACA autosomal
AGCACATCCTGACTCCTGTGCAAGCCAACTATGGATGATGCTTTTCCCAG autosomal
ACCGGGACAGTGCCGGGACCCACGGGGATGTCCCCGGGACCCACCGGGAT autosomal
CTATATGACTGTGTTGACATTTGCTCTCACAGAAGCGAGCCTGCTGCATC autosomal
AACAGCACGGGGAGGTGGCACACGTGGCACAGCCAAACCAAGCAGAGGTA autosomal
CCATGAGTCAAGTCACAGATTGTGACTTAGGTCTGATACTTTGGAGAACA autosomal
CAGCACAGTGATGGCATTAGCGGGAGCCTCAAGGCAGTGAACGGTGAGAC autosomal
CAGAACTGTGAGCCCTGAACTTGGGGCCTTTCCCTACTTCAGGCAGCACC autosomal
GCCAGGACTCAAAACTTAACTTGAAAGTATCACAGAATCAGTTTTGGTGA autosomal
TCACTCATCCCTACACTTCCCTCTAACACTTCCCAAGGCCGTTTTTCACA autosomal
AACGTTCCTTTATGAAATTACGGTGTTGATGTGAGATGGTTCTTTCCTCA autosomal
AGTTTTAGCTTGTTTGAAATCCTGCTGTGAATCTCTGTGCAGCTTTGATC autosomal
ATTAGCAAAACAACTGTAATATGGATGTGGGTGAGTTTGGTTTTTTTTTG autosomal
CAAATTGAAATACATTAAAGGACAAATGCTGTACCCTCCAAAGCTTGACA autosomal
TCCTTAGGCATTCCACTAAGTAGGGGAAGAAATTCCGCTAAGTAGGGGAA autosomal
CACAAAGAGCCAAACAAAAACCCAAACAGCTTTGCTCGACAGAACACCTG autosomal
AAAAATCCTTGGATCTCTGCTAATTAAACAGCTGAAGGTGAAGTTCACCA autosomal
ATTCTGATCTTGCTCTCCCCCTAGACAGATCACAGCAGCTCTAGAACAAC autosomal
CCCACTGAGCGCATCTTGCCCTTTGTTAGCTTGAAATGGGAAGAAACTCC autosomal
GCAGTAATTCAACAAAGGTTATAGGAAATATTAGAACAAATGTTATAGGA autosomal
AGCCCACTCTTTCAGAGAAGGAATGCGTGGCAGGCGTGTGGGAAGGGCCC autosomal
AGTCCCCGATGTCCCCAGGCCGTGCAGGAGCTGCTCCTGCCCCAGGGACC autosomal
AGGTTAAAATTGCAATAATGGCAAGTACTGGTATAAAAGCATAGAGTATG autosomal
AGATCAGTCACAAAAATCTCCCATTGCTTTGCTTCCTTTTTTTTTTTTTC autosomal
CACTGCCCCAGCCCTTCCAGGAACAGCCCAGGCCAGCAGCTGCCAAAAGC autosomal
TCAATCGCACCGCAGCCGATGCCCTCAACACGGTCCCCGAGCACTTCTGA autosomal
CTTCCCTGTGTGATGCATTAGAAGCCCAGAGCTAACACTGAAGTCATATA autosomal
ACAGGGGCACACTGGACTGTCACAGACAGTCTACATGTCCTGTCTGTGGC autosomal
ATTTAAATAGGGATTTTTGCATACGAGCCGGGAGAAAGCTCCAGCTACAG autosomal
AAATTAGATGTAGAAACTGAGAAGCCTAGATAAGATTTCAAAAGACCACT autosomal
ATTTTGGAGCAGCAGAAATCCTTCCCAGATTTTTTTTCCATGGAAAAGAC autosomal
ACTTCCACCAGCACCACCAGCCCCACGCCGACAACGTCTACCACAACTTC autosomal
CCTTATGACAACTTCTTGGCTTCGAAGCCGGCTAGTTCAATCTTGAAGGA autosomal
TAATTGTAATATTTTGGGGTTATTTTTTATATTAGGATTTAAAATTAAAA autosomal
ACCTCGCAGATGCCCAGGTTGTGTGCAGGCAGGTGGGATGTGGCAGGGCC autosomal
AGCTCAGCCCGACCCAAACGTGTTGGAAACAGCAACTCCTTTATTTACAC autosomal
CCAGAGATAATGTTGTAAAATCAAACAAAATTGATCAAGAACCTCAGATA autosomal
CCGCTGGGCCGCCGGCGGGGCCGTGCTGCTGGCCGGGCGCCGCGACGGGA autosomal
CCACAGCTCTCCAAAGAATTAAGGGTTCATTAATAAAAACAAAAAGGTAA autosomal
CCCCTGACCAGTAAATTTGGGTTTTTCAATTTCTCATCTGAAGGCAATAA autosomal
AGTTGGTATTGGAAGGGGCCTCTGGTCTAGTCTCACCACCCAGCTTGAAG autosomal
AAAAGTGACCGTTTATTGGAAGCAAACCCGGGGGGGGTTGGGGACAACAC autosomal
AATATTTTATTTATTGCAAACAAAAGCTGTGATAACATTGCACAATACTG autosomal
ATTATCTAATGTTTTGCTTTCTGGAAAAATACTGAAAAACAAACTTTACC autosomal
GTTCTGTGGGAACAACAGGTTATATGGGGAGGGGGCTCAGGAAGAAGGCA autosomal
CTCATTCTACAATAAAAAAAATCTCCCAACAGTGACCCTGAAATGCCATC autosomal
GGCCCGCCCCCCTCCCCGCTGAATCCCGAACTGCTCGGCAACCTTGCTAC autosomal
CAGAGGAGAAGGGAGGCGAAGGGGCGGCACGGCGGCGGTTATCCCAGGTA autosomal
CAGCCCCTGGCCTCTGCCTGACCCCCTGAGACATCCTGAAAGACCAAAAA autosomal
GACGGCCTGGCCGGAGCGATGACCAGTGGTCAGCTGGAGGACGGCCCGGC autosomal
AAATCTTTCAGCTCACACATGCCAAACATGCAGCCAGGATCAAAGAGCAT autosomal
AAAACCCAGCTTCAAACGGAGACGACCTGTGCGCTGACCCTGCAGCAGGC autosomal
CATTTTCATTTTCTACAGGTTCTACACTATCTGTCTCATTCATTTCAGCC autosomal
CTCTGCTTTCAGCTGGAATCTGATCTCTTCCCCCTCTCTCCTCCACTGCC autosomal
ACAAGAAGAGGATAAGAAACTTCTTTTTTTTTTTTTTCTGGGAACACAAT autosomal
CACAGCACCGCCGTCACCGAGCGCGTCACTCGCAACCAGGTGCAGACCTC autosomal
GACAGAGAAAATTCCTTTTCCTTGCCCCCACTCTGAAAAACCACAAAGGC autosomal
AAGACTCCGAGGACGCCCTGGGGGAGTTCGACTTCCTGGGGACACCTGGG autosomal
AAGGAGTTTAATGCAGACAGAGCAAAAATGTGCCTTTTGGAAGCATTTCT autosomal
AACGTCCTGCACATGACAGACCTCCACGGCAGCCCCCAGCTCGTGCAGCT autosomal
AGATGTGAAACTTCATATTTAGAAAAGAAAAAGTACATCAACTGAATAAT autosomal
TCTCCCGGCTCTTGGCTCGGAGCTTGTTGACCTGTGACTCTGCAATGTCA autosomal
GGGTGAGGGGCATGTGGAAACCATCCATGCACCAAGGTGTCCTGCAGCGA autosomal
AGGTCCTTGGGCATTCCTGTCCTTGCCAGCTCAGGTGGCTCTGCTGACAG autosomal
ACGTTTCCAGTGAAGGAGCAGGAAATGAACTGTTCAGAGCAGTGTCCCTA autosomal
CCCCTAATTTACAGAGTGCACTTACCTTTCTTCTCCTTTCCTCTCTAGCC autosomal
GAAATCAATGAATACTAAAGATGAGAGTAAACATGCCAGTTGCCGACAGC autosomal
ACCTTTGGGTGCTGCTGGCTGCCCTTGGCCGTGTACGGGCTGCTGGGCGA autosomal
AAAAAAATCTTTGTTGATATTAAATGGAAGGTTGTTTTGATCTAGTCATT autosomal
CATGTGTGCAGGCTGGCTGCAGGGCTAATTCCCTCATCTTTCCCAACCAG autosomal
AAAGACCCATGAGCAGTGTCAGCCCTCCAAGTAAAAACCACCTTGTAGTG autosomal
CATCCTGGGGTGGGAGTAGTAGCGGCACTCGCGGGGCGGCTGCAGCTCCA autosomal
AAGCCTGTGTAACAGAGTGGTATGGGAGCTATGAATACGTGGTATGGGAA autosomal
AAGTCATGTTTGGCCTTTTGCCATGGCCAGGTTACGCCTCTGCCTTGGGC autosomal
CCACCATCATGTGTAAGTGCCCTAACACATGTTTCTGGAGAGCCAGATGG autosomal
CTGTGTCTCAGACATGAAGGTATGTGACAACATGAAAAATTATCTGTATA autosomal
CCTTTGTGGGAAAAGTACACTTCAGCACCAGCTGGCTTAAAATAAAAGGA autosomal
ATGGAGTTGTGCTTGTCAACTTCTGGAATATCTGTTAAGTGATGAAAAAA autosomal
CTTGGGGTGGAGGGCAGGTTCTAGCAATGCTGCTCTGGAGCCCCAAGGAC autosomal
GCTACTTTGCACAATAGTTATTACATATTTATAAACTCAGTAACTTTGTA autosomal
TAGAAGCCAAGAATCTGTATTTCTAGGGCAGTTCAAGTTAAGATCAGGAA autosomal
CGCTGCGCGTCTTCGGCGTGGCGCAGACGCTGCCGGTCATCAACATGGAG autosomal
TCATGTGCCAGCTGATCAGAGCCTAGGAGATGTAAACCATATTAAGAACA autosomal
AATATTCTGTACAATTGTGTTCATAATTGAATAATCTAGGTTTTACTTGC autosomal
CACTCAGATGTATCAATGAATTATACCAAGATGTAACCCGTTTCAGCCTG autosomal
AAGTAGTGGCAGTGGCAGCATTTTTCTCCAGCTCTGGTGTGGCTCTGGAC autosomal
CACACAACTATGTCAATGATGTGGATTCAAGACCCAGGTTTTATAAGAAA autosomal
GACCAGCAACAGGACACAGAAAATGTCCCTACCCATTCTCCTTCACTGCC autosomal
AGCAAAGGTGAAAAATCAAAGGAGAGGAGCAACACGTAGGGACACAGCCA autosomal
CCTCTAAGTGCAGCCACTCCTCTCCCCAAACCACAGCACATCTGCCTTCA autosomal
CACCATAATATATTTCAGGAACATCTACATCAGGGTAAAAATCAAAAGAA autosomal
TGTTAGTTTCATAAGGTAAGTCTGCTGGCAGAGGTGGAGCCACAGGAACA autosomal
ACAGAGTCCACCGGCCACTGGCACAGCCAGGCTGGGATTGTTTCAGCCCT autosomal
CAGTTAAATATTGTCAACATGCTATACCTCAAATCACAAGTACTGTTTAA autosomal
AGGAACTCGGGGCTCCCTCAGCCTTTTCCTGGCACACAGGGGCAGCCAGA autosomal
CAGAAAAACTTCATTCCCCTTTCCAAGGAAATTAAAGGGATCTGAATAAG autosomal
GCTCTGACAGAGCCAAAGGCAGGAGTGGCTGGACACTGGTTAACGGTGCA autosomal
ACGCCTCTTAAAATTTAATGGACAGTCGTTATTATGGCGTTCGTGTTACC autosomal
CTGTCACTCTCTCCTGAGAGTCAGGCAGAGCTGGCCAAGGCTTTGCAATC autosomal
CTTGTAAAATCCAAAATGTTAGAAGTAGTAAGAGCTTTAGAGCCAATGGA autosomal
CGCTGGCTATGGAAACCCCAGTCCTTGGGAAGGAGTGGAACATTTTTACA autosomal
CAGGCTGATTTCAAGCCAGTGAGATGCAGATCGAGGGAAGAGAAGTTAAA autosomal
CAGACCCACCCAGGACTGCCACGGACCCCCCGAGACACCCCAGGACCCCC autosomal
ACCCCCACCCCACCCCCTTATTTATCAGCACCCCCAGCCCTCGCTGTCCC autosomal
GCCACAAAGTTTCTGTGATTTGCAGGTGTCAAGATTCTTTCTCTGGGAAA autosomal
AATGTAGTGTTAAAGGATAAACTTGAGTGTCTCCTGCATGTGCCCCACAC autosomal
AACTGATTATCCCTCCCTTCCACACAGGCTGGATATCGAGAAGATGACTG autosomal
AATTTGTATTGATCTGAGCTTTGAAGAATTGCTGACCTACCCCCCATGAA autosomal
AATTATGGCTTCTTTGGCAGTGGGGCTGACAGACAGAGACTTTCTACAAT autosomal
AAAAACGGGGGTCCCCAAAACCCCTGGGACCCCAAAATACCCCGGGACCC autosomal
GTAGTTCAATCAAACTATGTTTAATTTTCTCTACAAAGTTTTTACTAATA autosomal
ATGGTTCAGAACCTGAAACAGATCATGTGTTGACTAGAGCTTTCAATTAA autosomal
CTCCAAAAGGAAGGTGTCAGAATGCCCTTTGGTAATGGAATTTCCTCTGC autosomal
AGCCAGCTGAAGCAGATGGCAGCAGTATACTGGACAAAAGCCAAATGGAC autosomal
AAGCAGCAGGTGGGGGTAAGAAGCTGCATCAGGAAATGAAACATGAGATG autosomal
CCCAGGACCACCAGGAATGGCTGAGGCTCGAGGGGGAGTGGGGATGCACA autosomal
GAGGAGGATACAGTACCTGCATCCTGCTGATCCCATCACCTCATTGCCCA autosomal
CAGGATCCCGTCTGTGACAAATTCTTCAAGGAGGTGTGGATTGCCACAGC autosomal
TATGAACTCAATACTCCTATTCGATCCACTGCCTTTGAAAGGAAAGTCCA autosomal
AAACCAGTGGCTCACCTGGCTGGAAACTGCTGAAGAAGAAGAATCTGAAG autosomal
AGATTTTCTGCATGAGTTAGACTTGTTCACTGCATAGATGAGGGGAAGAA autosomal
GAGTGCCTCCGCATATCATTGACTCATATATGCGTGAAGTGCAGGCAGAC autosomal
AAGGAGGGGAGGAGAAGGCCTTTGTTTGGGACTTTGAGAGTAAGACAAGA autosomal
ACTTGTAGAAGGCATCCTCCGAAATGACCTCCTCGTCATACAGGCAATCA autosomal
ACAAAAAGCTTTCTGCCATGGCCGTGCAGTGCAGTGGAGGTGGGAAGGGC autosomal
ACTCCAAAGCAGAACATTAGGTTTCAGGAGATATTTAATGAGAAAATGAA autosomal
CCTTCCACGTCGATTTCCACGGTTTTATCTGACCTCGCAGACTTGCGGAG autosomal
AGCAGTTCCGGCACTGAGGGGGACCATGGCAGTGCCAGCGCTGTGGGACC autosomal
GAACAAGACAGACTCCATCAGTAATGAATTATAAGGAGCAATGGGATGGC autosomal
ACCTATTAATGACTGTAGATTTGGAATGTCTTCAGTTTACTTTGGAATAT autosomal
CTAGGTGCCCTTCCCATGGGCAGGAGAAGAGCGGGCACGTGCAGGGGACC autosomal
GTCCTGAACATGATGGAAAATGTTCAATTAAATGAAAATCTTCCTGTCTA autosomal
ACCATTGTATCACTGTTGCTTGCTGCGGGACAGATTTCTCTGGTAAGAAA autosomal
AGTGCTTAGTTTAATTTTGAGTGGCAAATGTCTAATGCAAAAGGCTGGTG autosomal
AGTATAGTCACAGATGAAGAACTCATTCACAATAGCAGATGTTCAGTAAT autosomal
GTAACAGTTATCTGCTAACCTTGTGCCATGGTCACTTGTTGGCTCACTGA autosomal
AGTATTGTCATTATATTTTACCTTATTTCAGTTATTGAACTCGTCTTATC autosomal
AAGTTTTGTGGCAAATATTTGTCATCCGAGGGATACCAAGTACACAGAGT autosomal
GAAATTGTGTATGCAAATTGTTATCAGAGGTTTGCTGGGACATTTACCTA autosomal
AACTCATTCTCTTGGAAGTGCTCTGCATCAGCCTGTAGGGCTGGGAAAGA autosomal
CCAGGCACTGCCAGAACGTGGGTTGTTCTAAAAGCACAGCTAAAGCACAG autosomal
GTAATTTCATTAAGTGCTTAAGTAGACTGCATGGATCACAGCAACTTTCA autosomal
GATGTTGCAATCCAGCACCTTTCACAGGCATTAAATTCCCTCTAAATTAA autosomal
TACCCAAACAGGAGAGAGACAGGCTTTTGATATGATGGCTTCTACAATAA autosomal
AGTCGAATAAATCGTGTAGGAAATTTGATCTGTGTTTACAGCACACGTCG autosomal
CCTCTGGGTTTCTGAAAAAGGAAGACATACATGTATTCATTCCTTAAGTA autosomal
AGTATCACTGTTTGAATGAGAGAGAAGTGGACAAGGTCTTATGCTCTTGG autosomal
CTTGGTCAAGATCTGTTCAAATTTTGGGTTAATAAAAGAAAATCCATCAA autosomal
CTGCCTGTTGTGGGGCTAGCCACTATGCTACAGTAAAATGTACAGGAATC autosomal
GTGATCTTTACATACTTCTGGATTAGACTGTGCATACCCCCTCTGGGCAA autosomal
ACCACTCAGTCCGTGCTCTCTCCCTCCCGAGCCCCGCCGCGGGGGCCGGG autosomal
AGAACAAGTGCTGGCGGAAGAGGCGCGAAGCCGGGGAACACGTGGAGCCG autosomal
AACACCCCAAAAACACCCCGAAATACCCCAAAAAATACAAAAAAAGCCTA autosomal
CTCAATTTTTATATGTTTACTTTAAATCAAAGTGAGTCTGTTTGTATAAA autosomal
CAGAAAAAGAGATTGTTTTGCATTTCAGTCACCAAGATTTAAAGCAAAAA autosomal
AGCCAGTGTGGCCCCAAACCTCTGGGAGAGCTCCATGACCCTGCCGGAAT autosomal
AACACAATGACGTCACTCCCGCACAGTGACGTCACCCCAGCGGTACAAGA autosomal
CGGGGGGGCTGTGGGCCGGGGGGGCCCCTCGCCGCTGCCTGAGTGGTCCA autosomal
AGGGTGAGTAAAAAATATTTTTTTCTGGAAGACCTTTGGCTAGTACATGC autosomal
GTCCTGTCCCCTGCCACCCCCTTGGCATCTTTAGTCTTCACAACAACAGA autosomal
AACAGTGTCTAGAGAAAAACTTGCAGCTTTTAACCAGCAGTTAGGAAGGA autosomal
TTCATCCCCAGCCCAACAGTTGGTGGAGAGTGAAGAACTTTGAAAAACAA autosomal
AAACAGAGAGTGAAACTCCAAACATAATCTGTGCTCCCACCTATGTTTGG autosomal
ACAGCATCCTGTCTAGAGTCCTCTGAGAACTTTAAGGCAGAGTTTCCTGT autosomal
AAACAAAGAGAATTGTACAGTACTTATAACATTATAAATCATGGGCGAGA autosomal
TCAGCCAGGTCTCCACTGGCAGGATGGGTTTGCTACTTGTGGATAATAAA autosomal
CTCTTTCCCTGAACATTCCAGCACAGCCATCAAGCATCCAGGGGAGCCAA autosomal
GAGCACTGAGTGATGCCCAGGAAGGCCCAGGTCAGGTCACCCTGCACGGC autosomal
AGTGCAGCCGCCTTCTCTCGCCCCAGTTCGGCTCACTGCAGGTCCTTCAC autosomal
GGGCTCTGCTCAGAATTTCCCTGATGACAAAACTAAGTGCACAGGGGCCA autosomal
GGATTCCAGGAGCAGGATTTAAGATTCCTGAAGGAGGATTTGGGATTCCA autosomal
AAAAGGAAGGAAAAATTAAAGGGGAAAGGAAAAAGGGAGGGAAAAAGGGA autosomal
AGCACAGCTATTTCAAACAGTTCAGCCTATGGAGAAGGAAGTGTCTAAGG autosomal
TATTCCTAAAGAAACCCATGCTGTGAAATATATAGACTCTCCTACTGACA autosomal
CCAGTGATTTCCTCTTCTGGATTCTGCAAAACTCAGTGTGAACTGGATGG autosomal
CAGGAAAGCTGGGGGAGAACAGGATGGGGGCTGGAGCAGCTGGATGCCCC autosomal
AATATATCAGAGTCCCAGTCCACCTGTCTGGCGTGTTGTAATGCTCACAG autosomal
AACCACTTTCTAGAGGAAAGTTGTGTGATAGTTCTTGAAAATAAAATGTA autosomal
AGGCGCTGGATGTAGAGCTGCACGGGGAAGGTGCTGAAGTGGGACCAGAT autosomal
AATTTTTAAAGACATTTTTGCAAGAACTAAGAATATATTTAAAGGTAAAT autosomal
CCTGTGTAAGCCTAACCTGACTGGCAGCTCTGTGTACAAATATTTATTTA autosomal
CTGCGAATGCAAGTGCGAAGAGACTTGAAAATAGGGAGGGTTATTTTTGC autosomal
CCTGTACTCGGTGGCAGTCTATGGTGGCCTGGTGCTCTTTGGCATGTTCC autosomal
AAGCGGTGAGAGACATCAGCCCCGCTCAGATAATACATGCCAGCGCTCAT autosomal
GGCGTCGCCCAAGGCGCCCCATTGGCCGCGGCGGGTCTGGAACAGCCCCA autosomal
ATTCAAGCCTCTGAACACTTTCCGAATGAGACTCCAGAGTGTGACTAGCC autosomal
GCACTGGGCTTCCCTGGTCTGGCAGGGGGAGAGTGGGGCAGCTTTTGGGA autosomal
ATCTATTTTGTTCCTTTGGAACAAAACTGGTACTGGGCATGGCCTAGTCA autosomal
GCCAGGCAGATAAAAATTAAACCAAGAAAAAACATGTAAGTATTCATGCA autosomal
ATCTTCTTAATGGCTCAGAGTTCTGCCTCCTACAGAGTCCATCTTCCTAA autosomal
TCTCTCCCACTGTCTGTGCTGCAGACAACACAGTCCAGGAGAAGGAGCAA autosomal
GTACTGTAAGAGACAAATTTGACAGGTCTTGGTATTTCTCCAAATCAAAA autosomal
ATATAAATGCTTGGAACAACTCTGAAACCCCCCCTCAACGATTAAACAAG autosomal
GAGCCGGAACTGGGGGAGGGGGAAGGAATTCGGGGTACTGGGAGAGCCAC autosomal
CCCCATTCTGTTTCCTTTGCTGGATGGAATAACCCCAGCACTGGTCCCAA autosomal
AGGACTGTCCTGCTAATGCTGAGACTAAATTCCAGGCATGAAGAAATGGA autosomal
CGGGGGTCCTGGGGGGTCCCCATGTGCCAACCCCCCCCCCTCGGGGGTCC autosomal
ATAAAAAAATGACCATTGATGGCACCAGCTTTCTTTTGTCTTTTTTCTCC autosomal
AAAGATGCTCAATACAAAAAATGGATTGAGCATGTTTGGATGGGCAATTG autosomal
AACCAAGCACAGCAACAAAACCTCTGCTTTGGTTCTCTCTCTGGTGCAAG autosomal
AAAATATCAAAATTATAACATACAAAACATCATTATGAAAAAAATATCCT autosomal
GCATCCCCAGAAATGAGCCCCACATCGTGGGGGAGCCACGCTCGGGGACA autosomal
ACCTGCAGGACACCTGCACAGCTGTACCCAGAACACCTACAGAACACCTG autosomal
AAGTAGCACAATTTTAAAAATCATTATGTTTGGAAATATGACTGAAGTAG autosomal
ATCCCAGCCCCTCGGTGACATCCAGGGGGGTCACAACTGACAGTCCCCCA autosomal
CCTCGCCCCAAGTCCTCAACGCTGGGGAGGGGGCAGTGCCTGTGGTCTCC autosomal
ATTGGAAGGGGTTGGCTTCTTCTGAAGAGGGATGAGTCAGTGATTTGAAA autosomal
CCTGAACTGAGGCATGTATTTAAAATCTATTGAAAATGGAACAATAAAAC autosomal
CACTGTGACGTCTTGCTGGTCAGATCAGCAAACAGCCTTTGCATATGTTA autosomal
ATTTAGCATTGAGATAGCTCTCTGTTTCATCCCATCTGTAACCATTAGGA autosomal
CAGTGCCTGACTTGCTGAACAGGTTGCCTGTGGTTAAGACAGCCGGTGTA autosomal
AATATTATAACTGAACAAATATTTTACACTCTTCCATAATAGTATTTACA autosomal
CTGAATCCTGTCTTCCATCTTCTATTGCTCAAAGTTGTATCTTGTGTCCC autosomal
CCCCGTCCCCAAGAGCACCACGACCACCATCGCTACCTCGGAGCAGAGCA autosomal
GGAAAGCAAGCAGTCAAAGGAGGTCATCTTTGGCAAGGCAGAGCTTTCAC autosomal
TAATAGGCATTGGGGAAAAACTGTACCCATGTAACACGTAATGTACCATA autosomal
CGGCCGTGCCTCACATTTTACCAATCACTTGAGCAGTGCCAGTGAATATC autosomal
GCTCCCTCAGTTGCTTTGCTGCGGTGATCAGAGGGGTCAGGCTGGAGAGA autosomal
CCCACCAGGGCCGTGCCTGCAGCGTGGACCCCGCGCTCTCCACCGAGCCA autosomal
ACATAGCCTTTGCAAATGCTTTACAGTAGCATAGCATTAGACTGTCTCCT autosomal
AGTCCTCTAAGAAACTAAAGGAAAGCAGCAGCAGATCTGTTTTACTACAG autosomal
AATTCCCTCTATTTCCTTTTCATCCAAACACAGATTATCCATGGTATGCA autosomal
AAAATACAAGAATTTGCTCTTAGCTAGAACTTAGTGTCCATAATATCTTC autosomal
ACACCAGTCAAAAAAAGCCCCAAAGCATAGGGCACAAGTAAGCCGGGCCA autosomal
GGAGCGAGGCCGGGGGTCGGGCCGGCCCCCGCCGCTCCCCTCCGCCCGCC autosomal
AAAACTAGAAAAAAAAAAGGAAAAAACAGATCCTGAGAAATAAAATTAGT autosomal
AAGTTCTGGTCACTTGGTGTCACTAAAATTTCCAGGCCATGTGGCAGCAT autosomal
AGAGGAAGATGCTTGCAGAAAAGCTAAAAGAAGAAGTAATTAATAAGCGG autosomal
CCGCGGCTGGACGAGGCGCCGCGCGCGGGTAAATGCGCTCCGCGTGGCCC autosomal
GCACTAAATGGTTTTCCAGCAGTTGGCCAACGATTTTCTTAATGGAAAAA autosomal
CACCATCTCCCAGTGTCCTTCCAAAGCCTCCCAGCCACTGGGTGGGTGGC autosomal
GGGACCCCAATAAAGCCTTGGGACGGTGCTGGCCGTGCTGCTGTGGGACA autosomal
ATCCCGGCTGCCAGGATCTGCAACTTACCCAGTGAGACTGACAAATCCAG autosomal
AAGAACTATCTTAAGGGCAGAAACAAATCTATGCTTGTGCCACAGGAGTG autosomal
ATGGAACAAAAACCAGACAGAAAGAAACTACAGATGCAGCAGGGAAGACC autosomal
AAAGTCCTGCATGAGTCATGTAAGTTCTCTCTAAATCTTTCATTACTCTC autosomal
ACTGCCATTTGCACATTCCTAAAGTCTTTTTCATTTTACAGTTTAAAAGC autosomal
CTGCTCAGTGCAGCACAGATAAGATCGCCCGTGCATCTTCCTTCCTTCCC autosomal
AGAGTCTGAACCTCTGAGGTTAATCCAAAGAACTGTGTTTATTTGTAACA autosomal
AATAAATGACCCTGGGCCATCCCATAATGGCAGCCAGGGACACACAGGTA autosomal
ATCAACGACAAGGAGAGGGTGGCAGCAGCCATGGAGAACCCGAACCTGCG autosomal
TTATCTTCATGAATTTAAATAAGTGAGAAACAATTTTGTAAGCCTTGAAA autosomal
CAGGTGCTCTGCTCCATCATCCCTACTGGCCCTCTTCTGAACCTCTCTTC autosomal
AATTTAGAGTAATTGCAAAGAATGCTGCAGGTGCAATAAGCAAACCTTCT autosomal
CGGTGGCAAAGCCGGGGGGCACAGGAGGGGTCACTGGGGGGGACTATCAC autosomal
CTAGATTCACCAGCGCTTTACAGGAGACCCAAACAATGCTCTCAAGAAGC autosomal
AAGAAGAGTGCTAGTTTATCTTAATTAAAAAAACAAACAAACCATAAAAC autosomal
ATTCTACCATACATTTCTCCTGTCACTTCTTACGTACCTGAAATAAATCA autosomal
CTGCAGAAGTACTACCAAGCTGAGCCAGATCCCGTGATGACCGTGCCAGC autosomal
AGACATCCTGGGTATGAACAAAAACTCCAAGGGCTCCAACGCAATCATCG autosomal
CTTGGGAGTAGTTCAGTGCTGAGCAGGGGAGCAATACCTCCAAAGGGCTA autosomal
AGGGGCACGTGGTGGTTATGAGTCCTTGCTCCACCCTGGGGTCACCTGGA autosomal
ACTTTCCAAGTTGGAGGCGAACTACAAACTACTATGATACTTCATCTGGA autosomal
CTGCCCCCAGGTGCAACAAGCCATCCAGATGTTTTAAAAAAGGAATGAAA autosomal
TGCCAGGCCAGACCTTTTGAAGCTTGGTGTGTGGCAGCCTTCCCTCACAA autosomal
AAGAGAAAGTTGCTAATGTATAACTGACGGAAGAAAACAAGTGCACTAAA autosomal
ATTTATTGTCCAAGGACTTTGAGCTCAGTATGGGTAAAGAGGTAATCATG autosomal
TCAAACCAGAGAGAGCTTCCTCATCATGAGCCAGCCACCTGCACTATGAA autosomal
AGCTATTGGTTGGTCTCTCTTCAGAATAATCTTGGGAGGCAGTGAAGGAG autosomal
ACGGCATGAAAAGCTTAGGTTTATACACCAGATAAGGAAGGGGTATTGCT autosomal
CTGCCAAAAAGAAGACTAGTTTTGAAATTGCTGAGCTTAAAGAAAGACTA autosomal
AGAGGCAGCGCCTGCAGGGCCGGGCACAGCTCGGGGGCAGCCCCATCGAG autosomal
CCTGTGACTTGCCTAGAGGTAATCAGGCAATCAGAGTGCAAGGAAGGCCA autosomal
AGTAATGAGTAATTGCTGCACTGGTTTCCTTCAGTGACTGAGAGGCTGAC autosomal
AGCACTATGCTAACTGCCTTTTTATAATGAAATTTTTGATAGAAGATAGA autosomal
AAGTCAATGTTCTGAATGGGATACTTACTACAAAAAAAGAAAAAAAAAAA autosomal
GAAAGTATGCCTCATCAGCGAGAGCTGCTGGCTGATACAGACCATGCTCC autosomal
CTATCCCAATATCCCAGCTCTGGCTATCCCAATATCCCGGCTCAGCTCCC autosomal
CATTGCAGGGCACAGGGCTCGTTGCAGCTGTTGGCCAGCGGGGTGGGTCC autosomal
CCCTTGTAAGGGAGAGAGTCAAATCTTGTTTACCATCTGAGTAACTTCAC autosomal
AGACCTAAAACCTGCCAGGGAATATTCCAGTTACACAGATATGGAATTGC autosomal
GGAAGAAGTTTGCTGTTAGTTGTACATAACCAACAGAGCTCTACAGTACC autosomal
AGCAAGTGTGTACTTCATTATAGTGATCTCCAAATTCAAACCTGACGTAA autosomal
CAGGTGCTGATTTTGGTGCTGTCAGGTGCCCTGTTCAGGGGGGCTGTGCC autosomal
TAACTGACAAAATATTATTAGGATAATTTTGCATTAATTTTTTATTCCAA autosomal
AAACGCAATAAGAAAAATCAGCCTGTCTGTTTATTCCAGTTCTTCAGGAT autosomal
AATCTTATCGTGACCCCCAGAGTGTCCCCAAATCCTGTCGTGACATCCAG autosomal
AAGATCTTGCTTCCTGATCCTTCAGTCAAAGCCTGAAGTCGTATCTTTGC autosomal
CAGCCCCTGGCTCTATGTCCCCATCGTCGTCACCGCGCCGGGGTTGATGG autosomal
TGAGTTACACAAAACACCTGAAACAGAGATTGTGTTCTCATGTAACCCCA autosomal
ACCACAGAGAGGGGTATGATGGGAATCCAACTTTGCTCCAGTGTGGAAGC autosomal
GGTGCAGTTGGGATGAAGCTTTTTTAACAGCTTGATGACTAGGCAGTGCA autosomal
CTGGTCCTTTCCCCTGTGCACAGGTGTGACAATACCAGACTCTGGTCCCC autosomal
ATTTCCAAGTGTTAAAAGTGGCTGCTTCTTCGAGAACACAAAAGCCTTTA autosomal
AGCTGGATGAAAAAATGGGAGGAATGTGCCTTGTTTTCACATAAGGACTG autosomal
AACATTCTTATCTGTCGTACTCGATGCGGGGACGCTTCGGGTGGTGTTAA autosomal
ACAGTGGCCAGCTCAGGCAAGATTACAGATTTCATTAATGAATTCTTTTC autosomal
CCACACCTATTCTTTTGTAAGAATACAACTGTTGCAATAGTTCCTGTTTC autosomal
CTGTGCATCACGCCGGGGTAGGTTTTGAACTGCACCTTGGCGGGGGTGAC autosomal
AACCCCCGACCTGGACAAGTCCCAGAGTTCTGACTCTTTTGGCCCAGAGA autosomal
CAGGCCTTAAACCAGGAGTTAAAATTAAACCAGGAGTTCAAATTAAACCA autosomal
CCGGGCGTCTTGGTGTCGCAGGTGTTGCTGCCCCAGGAGACGATGCCCAC autosomal
AAATTCAGATACAGATAAATTTAATAATGGTTTTACTTTTGTCAACTGTT autosomal
AAGGGGAGAACATTGAAACCAAATTTTCAGTGGGATTATTTTTAATTTTG autosomal
CATAAGGAACTGGAATTGCTTTTAAAAAAGGCAAAAACAAACAGCAGTGG autosomal
AGAGGCCTGAGCGCCAGCAGCATGGACCTGTCCTCCCACAGCTCCCTGCT autosomal
GAGCCAAACCCTCAGGCACAGGTGAGACACACATGCAGCTTTTTTTTCCA autosomal
AGTCTCGTGTTCTTACATTGTGCCGCGTTATTGGACTGCATCTCAAAACT autosomal
AATCCCAAAATCCCGAGGTTTTCCCTCAAAATATTCCCGTTTTGAGAGCG autosomal
ATTGTGCCTTGTATTCTATTATTTCTTGCATCCTTACTAAAATTAAGTTG autosomal
AGCCCATGTGTTTGTAAGAACACACGCTGGTATTCCACAGACCTATGTTC autosomal
ATTTTGTGGGGGGAGTTATGTGTTTTGGGGTATAATTAAGTTTAAATCTG autosomal
TAAGTGTGGAGCTGTAGGGTTTTTTTACTTAGATAGCAACACTTTAAGGA autosomal
CCCAGCCTCGGATGGAGCAGGAGGAGCCCTTGAGTGGAACCCCCTCCCCA autosomal
AGACGCTGCTGCCATCTCTGACACAGCTTTCTCCAGGTTGGATTTTGCAG autosomal
AATACAGTTTAACGTAAACAACTGATAAGCAAAACTGCTGCAGAGAGTCG autosomal
CGCGCCCTCGGGCGCCGACGGCGCGGCCGCCTCGTGGCCGCCGTAGGGCA autosomal
GAGCGAGACGCCCAGCATGTTGGCGAAGATGGCGAGCTGCACGTCCGTGA autosomal
AATGCACCTTCCTTGAATTTCATTTTGACTCTGCCTCTTCATCCATGAAT autosomal
ATATTGCAGGCAAGCTGACAGACGCCCTCGCTGCTCGTGCGGCCAAGCGC autosomal
ATGTCCACCTGGAGACCTCAGAACTGCCCAGTGTCCACCTGGAGCCCACC autosomal
ATGGGATGCCCATCAGCCATTTTGGTGAACTACATTCCCACTCTACCCTC autosomal
CTGAGTGCTGGGGCTCACCCTGTCCATGAGCCCTGCTGTGGTGGGGCTGC autosomal
CCTTCCTGGAGTCCCGCAGCTGGCGGGGCCTGGAACAGCAGCTGGGACAG autosomal
ACAGCTGGAGTAGAAATACAGTGGGGGCAGAATTGTGGTTCCATGGGAGA autosomal
CTGCCAGTAGAATGAAAACATTTTAAGTATATTCAGCATCATTCCCCAAG autosomal
GCGGAGGCTCTGCCAAAGGTGCAGAGGCCCCCCGAGGCCTGGGTGGCGCC autosomal
AACCTGACAGCCCTGGCAGCCATCGGCCCCCGCAAGAAGCGGAAGCTGGA autosomal
ATTTTGTAAGCAGATTACATTAATCAGTGTCTCACTGCCATACGTTATGA autosomal
ACATTAAACATTTATTAAGGGCTCCACAGAGAGCAGAGGGAATGTTGTAC autosomal
AGTGAGCCCCCAGAGAGCCCCGGTGAGCCCCGGTGAGCCCCGGTGAGCCC autosomal
ACCCGTGTGCCCCGGCTGAGCACACTCCTGCACGGCTTTCTGCAGCTGCA autosomal
CCATCGATTCCCGCGGCCGGCTGCGATCTCCAGCGCCGGGAGCGCTCCGG autosomal
GAGACAATGATGCTCAACAGGATCTCACATTTATTATTGAGAAGTGATTA autosomal
ACTGATCAAAACTAAACATTACTTTAAATGTTTTATCAGTATATGTGTAT autosomal
ATAATAAAAACCCATAATATTCACATACAGCAAAAATGTCAGAATATGAA autosomal
AGCCCACCCTTCCCTGTGCCACCTCCCGCGCCCCGGTGCCACCGTAGGAG autosomal
GAGTTCACCCGCCGGGCATTCGCCCACGGCAAGCTGGACCTGACGGCGGC autosomal
ACATGGATCAAACGTCAATAAATCCTTTTCCAAGTCAGCACAGTTAATCA autosomal
CCCCAGCCTCGTCAGGCCCCACAGCTGGCAGCAACCCCAGCTGGCTCCTC autosomal
ATGTGCAACCCAAACCCAGCCCTGTCCCCTGGGCCAGCTGTCAAAAGCTC autosomal
GGTAAATTCTTCACAAAAAGAAACCAATCCTTTTATTTTCTTCTCCTTAC autosomal
AAAAAAACAAACCGTGTAAACTAAAACATAAGTTTTCAAACAAAGCTGAA autosomal
CTGCGATCGGCCGAGGAGCAGGTGGACACACAAATGGAGCTGGGAGAGGA autosomal
ACAGTCAAAGCATCAGTGGCTCCTGCTTGCAGCAGCTCCAAGAACGCAGT autosomal
ACATCCCGGCGGGCACAGCCGTGCTCTGGGACTATGGGATGGGCATTCCC autosomal
CTCCAAATTAAGGCACTGCAGTCTGTGCTGTCCTCATCTGATGTGAATTC autosomal
GTCTGTAGAGAGTAAAGAGTGGCTGAGTACTGAGCAGTCCACACTGAAAA autosomal
GAGTCCTTTTTATTACCTTCCACTAATAATATATTCTCTATTTTGCTTAA autosomal
CCTGCTCCCAGAGGCACTGAGTGACAAGCAGTGCCCGGCAGCTGGAAGAA autosomal
ATTTTTCCTTCCATTTACACTATCATAAATTACAAAGCATATTTCACTTC autosomal
CCCTGGGACTATTTTTTTAAAAGGAAGGTCCTGACAGTAATCACATTCTA autosomal
AATCACAGGTGCTACAAATTCAATGCCAAAGATGAAGAGAAAATATGATT autosomal
ATGCCTGCAAGTATTTTGAGATTTCCAGACCAGGTTTTCTGGAGTCCCTG autosomal
GAGTTATAGTGGAGGAGATAACTTGTGCTCCATTCACTCAACTTCTAACA autosomal
GGCGGGGGTGTATCCTCACATAGCGGGCAAAGAGAGGGGACTCCAGGGTA autosomal
TGTGAAAGTGTATTTTAAATATGCTGCTGAAGTACTGAACTATTGGGAAA autosomal
GGGATGGGGCAGCCTCTTCCCCACAGACAGGGATGGATCAGCCTCAGCCC autosomal
AGTAAAGCCCTTTAGGTTTTACCTTGTGGAACCCCACAGGGAGTACACAA autosomal
CAGCCGGGCACCTCCTCCCCAGCCTGGCACCAGGCCCATGTGCTTGTGGA autosomal
AAAAAGAAAAGCAATACACATTATTAAACCACAGATGCTGTGGCTTTCCT autosomal
GATGACCAAGGATACCTCCACAGTGAGTCCAGAGGGTCTGAGACCCCCCC autosomal
ACCTGTTTAAAAAACATTTAAAAACTACTTCTGAGTGTAAGAAGTACAGA autosomal
CCCGTGGTGGTGACCCTGCCCGGGCCCATCCTCAGCTCCTTCCCACAGAA autosomal
ATAAGGAGTAAATATCATGCTGGTATAAAATCCATGTAAAGGAAAGAAGG autosomal
CCCCTCCGCCACCGCCGGGTCTCGAACTCGTAGAATTTCTTCTCGTAGAG autosomal
AGCACCGTGGCACTGCTGAGGTGAGTGTTCACACGTTGTACCCAATGAGG autosomal
CAGGTCAGCATTAGTCTGAGAAGCTGTGGCATATTACTCAGATGGAAACG autosomal
CTGTCATTGGTTCACCATTTCTGGCCTAGCATAAGCAGACTGTCCCAGGC autosomal
AGCAGAAATGTTTAAAGTGAAACTTAAATCCCTCTAACCTCTCCCAAGAT autosomal
TACAGGAAGGTGATAAATTAAAAACTTCAGTCAGTTTATTGGAAACCCCA autosomal
ATGGTCATGCTGTTGATGGCTGTGGTGGGATTCCTTGAGCCAAATCTTTC autosomal
CAGCTATCAGAGATGGAAGGTCTGATGTCCTGTAAACTCCAGTCCTCATC autosomal
AAATATCCTGTATTTGGATATGCAAATAAAATTATATTTTTGTGGATACA autosomal
CCCCAGGGCTGGAGCACTATGAAATCTGGTTGTTGAGCTGACCTGGGTAC autosomal
GTCTAGCCTCCCCTGATCACAGAAATATCAGGACAGCGAGAATATTCGCA autosomal
AAGTCCTCCCCTGAAACATTCCAGCTGCCTTGATGAAAGTTTTCTCGAGT autosomal
ATGATGAGAGCAAACAAACAACCCTTTAATAGGTTAAATAAACAGTGCCC autosomal
AAAGTAAATATTTTTCTCCTTAACTTTACAAATCTTGTTCCAAAGTCTCT autosomal
CTTTTTTTAACTTTAAGAAGCTAAAGCTCCCTTGAGCTTTCTAACAAACC autosomal
CTACCTGGGGCCCGAGGACCCGACGCGGCCCAGTATCTGGCTGAGCTGGC autosomal
AATTTGTATATTAGTTATGAAATAGCCAAATTTCACTGTAGACATCTCAG autosomal
GCCGGTGTCAGACCCCCGCCGGTGAGAGACCCCCGCCGGTGAGCGACCCC autosomal
AGGAGAACTGCTACGACACTTCTGGTCCTGCTTCCCTGTTAACACACCAT autosomal
ACTTTGCTTTTGTGTTTTTTTCTTCTTTAAACCGCTCGGCTTGTGTGCAA autosomal
GCTTGGGGACATTGATGGAGGTCATCGGCTTGGGGACATCGGTCAAGGCC autosomal
GAGGAGGCCCGGCTAGGGCGCGAAGTGCCACCACTGGAAGGCGAAGGGCC autosomal
GTCGCCCATGTTGGCGATCAGGATGTCCCCGTTGGGCAGCGGGTGCGTGA autosomal
ACATCCTTCACTCCCTTGTACCACGCTGTTACCCAGAGGAAGGTGAAGTG autosomal
GGGAAGAGGGTGGCAGCAAGGCAAGGATGTTCCGTGGAATGCATTGCCCC autosomal
GGGATGGCTTTACAATTTAAACAAAAAAAAGAAAAAAACCAAAAATAAAC autosomal
CCCTGGAGCACGGGAACCCCTTCCCACGGGACCCGGTGGGGCCGCCCGCC autosomal
CACTTCAAAGTACCGGAGACGAAAGGAAAGTCCTTTGAGGAGATTGCAGC autosomal
CCCCTCCGAGTTTGCTCCTTTTGTTAGCAGGGAGCGTGCTGGGGACCACG autosomal
AGCTGCCCCCATCCCTGCAGGCCCCCCCGCCCGGGGGGTGGCCGGTGCCC autosomal
GACGGACAGGTGTTACTAGCTGTGGGAAGTGTGACAAGTGGTGAAGTGAC autosomal
AATAGTTGTTCTTCAGAAATAATAATTGTCTTGAAACTTCTATTAAAATT autosomal
AATTTATGCTGATGTGTCAAACAGCTTCTCAATCATCTCCCCCACCTGGT autosomal
TACCTACTCTTCTTGTTTGGGATAGGTTTCCATGGAAGGAGAAAAGGAAA autosomal
CCATGAGTATTCATCTTTCTCAGAGACTGTTCCTGCTAAGGGGATGAAGC autosomal
AGTGCTCCTCCTCCGGGAGGACGGGTGGGATCCTGCTGGACAGCAGGGTG autosomal
AGGCTGTGCCGGGGCCGGCGCTGAGCTCCGCGGGCGCGGCGGCGCAGGCG autosomal
AGAGAGAACAACAAAGCCATTGCATGACCTTCTCTGCTCAGACAGGACAG autosomal
GCTACCATGGAATAAATTAGCACAAAAATGGAAGTCTTATAACTGTTCAC autosomal
CTTGGTTCCCAAGCATCTTCTGACCCATTTCCTTTTTTAAAAGGGTAAAG autosomal
AGGAAATATTCTTTTTCCTCTTTTTGTAAATAGCAAAATTTATAATGACT autosomal
CTTCTTTCCATCACTCATCTTGTTCTTCTCGATCAGCTTTGTGATTCGGA autosomal
AACAGTGCCTCATCGTTCGACGAGTCTGGCGTCGGAGCCCCCCACAGCAT autosomal
ACAGCCCCATTAAACCAGAGAAAACTATTTTTGTGCCAGTGTGGAATTTG autosomal
AGAAGATACATATATACTTCCAGGACAGGCTTTCATATATTTTCTTGTAT autosomal
AATAATAATGTAACTTTTTTTAAAATGTACCTGTACTGCTCGTAGCTTCC autosomal
CTGGGACGCCAAGCTGCTCTACATCCCCCTCAGCTACCTGCCCTCAGCCC autosomal
ATTGCAATTGCCCAAGTACTGAAAAAAACCAACAGGGAAGGGACGAGGAA autosomal
ACCTCCTGCTGTCCCGCAGCGCGGATTTCCACCGGCAGCTCCGCGTGGTG autosomal
AAGGCGCTCGGGAGCCGCGGCTCCCAGCCGGGAGGCCCGGGCGGGCTCGG autosomal
CACTCCAGAGGAGGGGGAAATTCTGTACACCCATGTTGTGAGCACCAAAC autosomal
CAGTGGCCTCCTGCTCACAATTCAAGGGCAGAATAGGTCTTCAGTTTTCC autosomal
AAATGGCATCGCCAGGCACAGGACGGAGGGACGGCGTCCCCAGGGCTGCT autosomal
CAGGGAGATCTACGAGGAGCGCAGTCGGCTCAGCAGCCTGGAGGATGACA autosomal
CCTGGAAATTATTCATTACAAATCAGTAGTATTCCACTCTATAAAAAGAA autosomal
GCAGTGGACACAGCAGCTTCCCGTGGCCTTCACAGATACAGGAACCAGCC autosomal
GGGAAAACAGGCAAGCAGAGTATTTCCTCACACCAATCCTACTTTCCCCC autosomal
GATGTACTGCACCCTGTGTTTAATCACCTTTGAATATGTCATGTATAAAA autosomal
GAAGTCAATAATTTTAAGAATATTATTTCCTCTCCTAAAAGCAGATCAAC autosomal
CCACCAAGGCTTGCCCCTGGCTTTGGAGGGGGTGGGGAGCAGCCCCAGGG autosomal
AAATGTTTAGGTAACTACATTTAAAAAAATTACTGTTTCTTAGTCATCAG autosomal
AGTTGGGAATTCCAGGATTTCAGGGGGAATGGGGTGGTGAGGGAAAAATG autosomal
CATCTCCGCCAGCCCAAACTATAGATGGTGTCTCCTGTATCCTGTTTGTC autosomal
GGGACCTGTTGGCAACAAACACATCTTCTGTCCCCAAAGCCACACACTGA autosomal
ACATTTTGGGGTCCCCCTTGTGCCCTAATACTGTGGCTGGTACAGACACT autosomal
CTAGAGGGAGCCCCTCTCCTGGTGTTAGCGAAAACCCTGCCATCCTTTGC autosomal
CTGTCCATCAGATCAGATCTATCTATGTAGGCCAAAGCAGAGAGGGCAAA autosomal
CACTGGCACTCCCAAGCCTACTGTTCTTCTTGCTCATTGCTGTTGTGAAG autosomal
AGGACTGTTAAATAAAAAGGAACAATGACAAGTCTTCAGGTATGAAAACC autosomal
GCAGCTGCTCCTGCTGGCTGCTGCTGGGCTGGAGGCCTGTGGTGCCAGCC autosomal
CAGGAATTAAAAAGGTACAGCAATTTGTACCTAGGGAAGTTCAAGTTAAA autosomal
TCATATAGGACATGGGAAAGCTAACTTGGCTAACACCCAGAAATGCAGAA autosomal
ACTAAATAACACTTTCTTAAACACATAAAGTATTACGAACTTACCTAAGC autosomal
GTGCCAAGGGGGGCGTCCCCCGCACCCTCTCCCGCTCCCTCTCCCACGAA autosomal
TAATAAACAATACATTTGGTTCTTAAGGCCCTTGAGGATGTAAAATGCCA autosomal
CTTTAAGGAGAGAATCTTTGCTCTGGAATGTTGGAAAAGGAACACTTGGA autosomal
CCCTCCGGACCCTCCTTCAGGTAGTTGGGACCCAGCCAGTAGCTCTTCAC autosomal
AATCAGCCTGGATGCATCTGTGAAGGGAGGGGATGGGGCTTTGTCCTTGG autosomal
CTCTGCACGCTGCCAGCTTCTTCCCAGATAATTTCCTATTTCTCCACTAA autosomal
CGTTCCCACATGGAATTTGGGCATTCCCACACGGAATTTCGGTGTTCCCA autosomal
ATTTCAGATTTTTGGAGTCAGGACCCCCTAAATTTCGGATTTTCAGGCTC autosomal
CCCAGCACGGGCAGCCTCAGGTGGCACAGGTACGGGCACCTGGGGGGCCG autosomal
GCGGAGCAGAGGCGGGGCGGGCCGCGGAGCGAAAGTGCCGGGAAGGGGAA autosomal
GCCACCGCTTCCCCAGAATCTCCACTGAAGAGATTTCTAAGACTTACAGA autosomal
AAGATGCTGGGAAGCTCTATACTGGTGTTAGAGATCTGGGGGCTCCAAGC autosomal
CTGAGAAGTGCCAAATTACTCAGCATCTTTAAAAACATGGGTTTTATTAC autosomal
ACTATGTTTTTTGTAGGAATTTGCATTCGACTGATTGTTACTTCTATGCA autosomal
ACAAAGAGCAGGCAGAGTTGCATCAGACTACTGGAGGAAGGCAGTGGAAT autosomal
ATTTCAAACCTTCATTTTGATGACATATGGGGCTGTGAAGTGTTAGATAA autosomal
TTCACATTTATTCAATATGCAACTCAGCACATCTCAAATTTAAATCAAAA autosomal
ATTGAAATATGTGCACACAACTCTAAGTATTGAAATGCTGCTTCAAGCTC autosomal
ATCCATCCATTCATTCCTCTGGGAATTGTCCCCTGGAGGATCTGAATGGA autosomal
GGGTGTTATCATCCTTCTTTGTCCATAGAATTACAAAACCATTCAAAAAC autosomal
ATCCAGCCCGGATCCTCCCATGGGGAATGGAGCTGCAGCAGCGCACCAAG autosomal
ACAAAGGGATGTTGGGCTGGTTAAAAAGCTCTCAGGAGGGCTCTCCCCAG autosomal
CTCATATAAGTGACTATTAAAAGCTGAGCTACACTTAAAAATTACCCTTA autosomal
AAAGGGAATATAACAGTACAGTGTATCGTATTGTTAGTGTTACATTATGC autosomal
CGGGAGCGGAGATCGGCACAACCCGGACTGGAGCAGGAGCAGGAGCCGGA autosomal
ACAGATCGTATCTCCCAGAGGCAGGAAGAAAAGTTCAAGTTTTTCACTCC autosomal
CATGGAGTTTTCAGAAATCACTTCTGTCCACTACTCTTATACTGAAACCA autosomal
GAGCCTTCGCAAAATGGAAATCTAAACGAGTTAAAAACCAAAATAGAAAA autosomal
AAAAAAACACCAACAAAACCCCTAAAAACTCAACACAAGCCAAACACACA autosomal
GCTGCTGCTGGGATCTCCTGGGGGTGCAAATTGTCCTGGTTTGTCCCAAA autosomal
CTCTTTGGAGTCAAAACTTGTCTATGTTTCTGTCATTTTGTCACTTTTAA autosomal
ATTGATCCAGATCTTCTTATTTTTGAGAAACTGAAATCCCAAGGGCCAAA autosomal
ATGGGGACAGCTGTGCAGAGCACAGGAGCCAGCTTGTCCCCTGTAGGAGA autosomal
AGCTGAAAATAATCACATTATCCCAGCACCAGCCCAGCCTCACAAAGACT autosomal
GTCTCGCTGTGCACGCGCAGCCAGCGGTGCTGCCGGCTGAAGTAGTTGTA autosomal
CACAGTTGTTCTCGTACCTGCAGCTGCCCTTGAGCATGAAGTGGCGGCAC autosomal
AGAACTGCACCAGTGATTTGTCAATCCTCCTGTGTGGCAATAAACAGTTG autosomal
AGAAAATGAAACTAGCTTAATCTGTGTGTGCCTGCCAGTAATGTGATCAT autosomal
ACTCGGGAAGGTAAGTGATGGCACTGTAGAGCACTGCCCAGCAGCAGTGC autosomal
AAAATGTAAAAAAAAAAACCCTTCCCCCCCCCCCCCCCCCTTAAGCTGTA autosomal
GAGAGCATTAAACAAAGAAACAAATAAAAACACCCAAGGTGGTTGTTTAC autosomal
ATATAAAGACAGATGTACCAATTACAAAACACACAAGACTAAACAACAAT autosomal
TCACCAGTGCAAAACACAGAATCTTTAATTAAACCTACAACATGGGGGGA autosomal
CCCGGTGGGCCGGGCTGCGGGGGATCTCGGGGCAGCGCGGTGCACGGCTC autosomal
ATACTGGTTTGTTACTGGTTTGATTGGTGTTCATACTGGTTTTACTGGTC autosomal
CTCTCAAAATGACAAGAAAACACTTCTCTGAAATTAACGCAGACATAGCA autosomal
CTATGAAAATCACCAAGCCACCCCAGTTATTCGAAAACAAGCAGGTAGTA autosomal
AGCAGGGATTTAAAGAGCTGCCCAGGAAGGGGTGATATCCCAGAGCCTGG autosomal
AGAATAACACTGCCCTACCTCACCCGGAGCTGGCTGTCAGGTGGAGCTCT autosomal
CGGCGGGGAGGGATGCCGGCCGGGCTGGGAGCGCTGCCAGCCTCCTCCCC autosomal
ATGAAACTTCCTGCCAAATTCTGAAAGTATAAATAACAATGTGAAAAGGA autosomal
ACTGTGTTTAAGCCTTATTTCCTGTGATGGCAATTTTTTGCCACTCAATA autosomal
CTGCAGCAGCTGAGGAGGAGGAGGAGGGGGAGGAAGCTTCTACTCAGCTC autosomal
CCCCCAAACTGCCCCCAGAGACCCAAAACTGCCCCCAAACTGCCCCCAGA autosomal
TAGCTTTTACTTCAAAAGACATATTCTTTCTTACACTTCAAGAATTTATA autosomal
TAAAAGCCTGCAGTAAGATGGGTTAATGACATCTGGTCACTGCATTCAGA autosomal
AGAGCTCCAAAATATTCATATCCAAATGGAAGATTTTCTATGTCTGCTGC autosomal
CGGACCTTCTCCAGCGCCCGCCGGTCCAGCACGCGCTGCCGCAGCACCAC autosomal
CTCGAGCTCGGCGCTGGCCCAGCGGCAGGCGGGCACCTCTGCCCAGGACA autosomal
AAACTGCTGAGTTGGTTACCATTAATGCAATGTGACACTGTATTTTTGTA autosomal
ACAGCACCCTCTCCCACTCTGCCTATTCTGTGGCTGGTGCAGAGCTCCCC autosomal
AAAGGAACGCTTGCCATTCTTTCTTGGTGGAATGTCCCAACGGTTCCTCT autosomal
ATTCCACCTCCACCCCAGTGCTCCTGAGGCAGAGGCTGGTGTGGAACCTG autosomal
GCCCAAGGTGCGCCCCCGGCGGGACCACAGGCCGGGCAAGCGCCCCTCGC autosomal
GAAATGCAAGCTGTGTGGTCCTGCACAGGCAGGCTGGCAGCCTTGGCTGA autosomal
AGCTGGAAGGCACTGGGTGGTGGGAAAGGCAGCAGGACCCTCATGTGGAC autosomal
AAATTGGGACACTGAAATGGGGCACCCCAAAACTGGGGATACCCCGGAAC autosomal
AAGTTCAATTACCCTGTAGCAAATCAATCAAATGTGCGTGCAGCAAGCCA autosomal
CTGAGTGGGCTGGCCTGGCTGCAGAGACCCTGGTTCCAGGGGTGCTGGCA autosomal
CAACCAAGTTTTTGAAGATATTCACAACAAGCTCTTAAACTGCTCATAGG autosomal
TCTGCTTGTTATGAATTTTAAAAATCCACTTTCCTCTATGGAAGACAAAA autosomal
AAGCCCCCAAAGTTGCTGATCTACTCCAAAAATTACTGCAGACCAACACA autosomal
GCGAATGCATCTGTTCAGCTGCTCATTAGAATCCAGACTGTGTTCATGGA autosomal
AGGGCTGCCCCCTGCCCAAGCCCAAGGGCCCCAAGGTACCAGGGGGTCTG autosomal
CACCTGCTGGTCAGGCTGCTGCTCCTGAACTGCTCACACATCCACAGCAG autosomal
CTGAACCCCGCTGTCCCGAGTGTAATGAATTCTGGTCTTGTGATACCCCA autosomal
ATGGGGGGCAGCTCCCCGGGCACTGCATGCGGTACCCCCGCTCCACCTGC autosomal
ACCAGCTCCAAGTAGGGCGTCTCGGACTGTCACTTATAACCCAAAGGCTC autosomal
AATGGTTGCTCTACTTTTTTCTGTTTCATGATCAGTTCTGGGGAGGATGA autosomal
AGTGTGCTTCCCCAACCGGCATGGCTACCACAATATCAACTACATAAGCA autosomal
ATGACTTGTAGTCCAGTGCTTAACCGAGGATGAACTGGCAGAAAGGCAGC autosomal
GTGATGTGAGCACATCACAGAACTGGCAACTGGAAGTAGGGCAGCTGTAA autosomal
CGCCCCTTTGAAAAGGGTCACATCAGAAAATGAATGAAAAACACTGAAGA autosomal
CTCAGCATTGAGCTTTCCCACCTGCACTAACAACTCCTGCAGAGTGAGGA autosomal
TAAATGTGGTTTTTTTCCAAAGGAAAATTAAATAGGGCATACAGAGAAAA autosomal
CCAGCCCCGGCTCGGGGTGCGGGCTCCCGGCCGGGCTCCCCAAACCCGTC autosomal
CGGGGTGTGTGTGTGTGGAGGTTTTTTATTTCTTCATTCCTCAGCCCAAC autosomal
TGTGAAAATTTCTTACCCCTCGCAGGTAATAGTGTGGTAATCATCAAAAA autosomal
GCAGGTGCCTGGCACGGTTGCAGCACAGCACATTCCCTACGGCATACACA autosomal
AGCTCAGTACCAAGCTGTAGCCGACGGTCAGAGTGCTGCCAGACGGTGCA autosomal
GCTAGGAAGCAGTGCCCATCAGGTCATCTTGAAGGAGATGATCTTTAAGC autosomal
CACACTGGGCTGTGTCCCCAAGTGTTCTGGGCCCAGCCAGCTCTGCTGCC autosomal
GGAGCTGCTGGTGGGGCTATCAGAGCTTCCCAGGTCAGGCAGGACACACA autosomal
ATTATTTTCAACGGCAATATCCCCAGTTAATATCACTGCATATTCCTAAA autosomal
GACAGTGACATTCCCTGCAGGAAAGCCACCTTGTTCCTGCCAGCCTCTGC autosomal
ATTAATGACATCTTGTGCAGATCTCTGATATCTAACCTGTGTGCACACTG autosomal
CTGTCCCCGTCCCTGTCCCCTGTCCCCATCCCTGTCCCCTTTCCCCTGTC autosomal
ATCTATGTACATTTTTGGGGAAGGCTGCCCGTTTCTCCAAGGCCATCTGG autosomal
CAGCGGCCCTGGAGAACATGGGCTCTGTCTGCGGCGCTGACGTCTCGCGG autosomal
CCCCCTCCCCCAGCAGCTGGCACTTGTCCTTGTCCCCGTGGGGACATCGG autosomal
AATAGAAGACCTGATCCCATGCCCCTAAATTCATTCCTAGGTTTAATGAA autosomal
CATGGACCCCCTTATCCAGTCCAAGTTGAGATAGCATTCTCTTCTCTCCC autosomal
AGGCTTGTTTTGGTTTATTTTTATTGCCTAGAGTCCTGCTGAATTTTTTC autosomal
CTTCCAGACCAGATTCTATGGACTCCAACAAGCTCACTGTGTTTCATTTC autosomal
CACCATGTCAGTCTTGGTCACCATCAGACGACTCCTCCTCTGCCTCCTCC autosomal
CCCGTACAAAGCTTCTACTTTTGTGGCATCCAGCCCCCTGAGATCAGATA autosomal
AACAAGCTGTTGCTTTGGGGCAACAATCCACAAGCACGGGAAAACCTGGA autosomal
ACAGCTTCTGTAAGTGACAAAAATTATGTTGATAAGACAGAAGAAAATTA autosomal
CCTTGGGAGCCGCTCTGTGTCCAAGGAATATTACAGCCAGACTGGCCGCA autosomal
ATTATAATATATATTATTTACAGTGTATGGATTTGCATCACTGTGCATAG autosomal
AAGGTTCTTTCTTTAAGGACAACCCTCGCTTAAGGAAAAAGTCCGTTTCC autosomal
GAGAATTACACAGGAGCTCGTTGTGAGGAAGTTTTGCTGCCCAGCATCAA autosomal
GGCTCTCTGGATTTTACTTTAATTTTAAATGAGCAAGAAGGAGAGATCTA autosomal
AGGCTTTTCAAAATGCCCTTTGGAGTATTGAAATGTTAAGGAAATAAATG autosomal
GCTCCAGATGCTTGTGGTGCAGCACAAGCAAAAGCCTCTGTGTATTTGAA autosomal
GAGAAAGGTAACCTTGGCTCATCCCCCGAGGCTCACCAGATCCTCCAGCC autosomal
CCTGGGGCTCTGTCCCTGCCAGCGCCGCATTTGGGGTCCCCTGGGAGTCC autosomal
CAGACCATCCATCTGTGCTGGTTAGATGCCACCCACGCGCTCAATGTCAC autosomal
CAAGTTTTCAGGCAACTCCTTCCATTAGGTAATTGCTGTGAGCGCAGTAA autosomal
AAGAAGAAGAGAAGAAGATCTCTGTTCTTAGACCCTCGGCCCCAGGGGAA autosomal
ATCATTGAAGATGACATCTGCAGAAGGATCCAGCAATGCTGCCTTTCATC autosomal
AACCTTGCATTACATTATTGCTGTTTTTTATTGACTTGTGGATGCCCCGT autosomal
AGCTAGTACAAAAATGCATGTTTGCACTTACAGTTTGCTGGAAGGAGGAA autosomal
CGCGCTGCCCGAGAAGGTGCGGAAGTTTTTGGGGCAGCAGGTGCCCTTCC autosomal
CTCAAGAACCCATCCTGTAAACCCACAAGCCTCTCCTCAGCTGAGGGTGC autosomal
CCAAGCACTGCCAATCCCTGTGGTGAAGAAAATGAAGTTGTGAGGACACC autosomal
AGGAGACAAGTGGGGTGGTGAGCTATCCCTGCATGGGCAGGAGCTGAACT autosomal
AACGCAAGGTTTGGGGATCTTCCCATATCCTGGTGGGATTCAGGAGGGCG autosomal
CAGTGTGCTCACCAGTACACTGTTTAGCCAAGAAATTGCTAGAGACATAA autosomal
CCTCCTGCCCTGCCCGGGACACCACCACCGCCTACTCCAGCGCCTACCAG autosomal
AGTACCTGGCGGAGGTGCAGAAGTACAAAGCGCATCAGTGCAGCGACGAC autosomal
ATGAGGTAAAGGGAGCACTGCATGGTGTTTGCTCAAACAGAATAGTCATG autosomal
AGTTTTAAAAGGGTAAAGAGCATTTCAGGTCATTGCTTATTCCAAAGAAG autosomal
CAACAGCCACTGCTGAACCTGCAGATGCAACAGCTTGTAAGTAAAATTGC autosomal
ATCTTCAAGCTGTCACTCCACTGAGGTCTTGGATGTAGCCCCAGGAACAA autosomal
GACCAGAGCTGCCCCTGGACACTGCCACCATGTGCAGCATTCCCCGGGAA autosomal
CAATATTTATGAAAGCTGATGGAGATTTTCAGTTTTTTTACTAGGTTTCA autosomal
CCCCTCCCCCCTCCGGCAGCGCCACCTCTGCTCCAGCTCCTGAGCCCCTC autosomal
ACACTCTGCTACATCTGTGTTATCATTACTGAGGTGGAGGAATGGAAGGG autosomal
AGCTGAAAAGGCAGAAATGCAGGAAAAAGGCCAAGCAGGTTGACCCCAGC autosomal
GAACACATGAGGAATATTGCTAAGAACTCGTAAGGAACTGTTTTTGTTGC autosomal
CCGGTGGCAACCCCTGACCGGAGCTCCGGTCCGGTCCTGTCCGGTGTCAC autosomal
GCTCGGAGCTGGTGGTCCCTGAGCAGCATCATGATGGGGAGAAGCCCTAC autosomal
CTGCCAGGATATAGCCACGGCTGTGCCCGGCCCTGTGCACCCCCGTGCCC autosomal
AATGAAGTCAGAACTGGAATGTGAAAGTAAAGCTAAGACTAAACTACAAA autosomal
AGGTCTGCCAACCCACAATTTACAGATAAAGAGTTTAAAAAAATTTTCTC autosomal
ATTGTGTGGGTTGTCATTGAGAAGATTCAAAGCCAAATACAAAGTCTCTA autosomal
GAGGCCAGTAAACCATTCTGTTTTGGGCCCACCACCAAGTCCTGGAGAAA autosomal
AAAATGAGACAGACAAAATACCATCTACTGGAAAAGGGAAGGAAGCAACT autosomal
AATTATTTCAAATTTTAAAATCAAGGACATGACGCATGGAAGGTTTGTAC autosomal
AATGGTTTTAAAATTTTAAAATTCATCTGGTTCCAACCCCCTTGCCATGA autosomal
AAGGAAGCAGATGTGCAGCACCATCCTTTCTCTTCCAATATAGTATTTAT autosomal
GTTTTTCCCTGATGCTGCTCAGCTTTGCTTCAGTGTGCCCAAAATAAAGA autosomal
TCCTGCGTGAGACCACGGCTATCCGCCAGCTCCTGGAAAAACGGGAGGAA autosomal
AAGATAAAGAAGAATTTCAGATGTAGACTTCAATAGTAAATATAGATATG autosomal
CGTATCCGCATGGGCCTGGTACCCAATGGCCACCTTCTGTGACAGCCCCA autosomal
CTTTTGAATATTTAAATAAACTTTTTTAAAGATCCCCCTAGCTCTTGAGC autosomal
TCACTGACAAGAGTGTCTAGAATGGGTAACATCAAGCCCAAGAGTATAAA autosomal
ATATTTATCATGAGCTTCTCATCTTTCTTATCTTTCTCATCTTTCCTTCA autosomal
ATTTGCGGTTTTGAGTCTACCAACAAAGAAAATTTGCTGGATCATATGAA autosomal
AAGCCTGCAGCTTGCTAGCAGTTACTGCAGAGGCACATAAACAGCGAAGG autosomal
ATTAGCTCCCATCACCCGCAGATGGAGGAGGAAAGGGACAGGCCCCTTCA autosomal
ACTCAGGCCAGTAGAAATTATTCATAACTTACTCTTCAGGCCTTTTAAGC autosomal
TGTTTTGTTTAAAAATAAATGGAACTGTGACAAAGCTCTAGTTTCAGAAA autosomal
CGCACTCACTCTCGTAGAACTCGAAGCACTTGGCGGTGGGGCTGCTGCTC autosomal
CCATGTGTTGTGTTAATAGTTCAGTTGTTTCACCACCTGGGCATTTTCCA autosomal
AGCTTCTCTGACATCCGTAGTCTCTCCACTGTTGAGATCAATCAGCTCCT autosomal
ACTCAGGATCCTCCTCTGGATCTGCTTGGTCCTCACCCCGTAGATGATGG autosomal
AGCTTGATCCTGCTCCAGTGGTAAGGTTTCACTAAAAACCTTAGCACTGG autosomal
CCCAGCCAGCTCCTGTGTCCTGCACTGCCTGAGACCTGGGACAGCGGGCA autosomal
ATCCTTTACACTTTTGCTTTATGTACTACATGTCATTAAAAATTAAGATC autosomal
GAGGCTTTTTCTGATAGGATCTGCTAAATAGAGACCTGACATAATTTCCA autosomal
GTACAGTGACAAGTGCACTGTGCAGAAGCATCATCCCAGCACAGTTTCCA autosomal
GGCAGGAGGAAAAGCCAGTTCTCCGTGCAGTCCCTCTTAGAGACACAGCA autosomal
CAGCAGCTTTAAATAATGGGTGTGGAAGAGCCCACTCTGTTACTAAGAAC autosomal
TACTTCAGGGGATTTATAGTACAGTAAGAAGTGCTTTCCCTTTAGCTAAA autosomal
AGTTCATTCCAATATTTTTAAACCTTTCAGTAAAGAAATTTTTGTGATGA autosomal
AATACAATAAAAGGCATACAAGAAATGTAACATATGCATAATAATTAAGA autosomal
CAGCAGAAGTAAGGAAAGAATGTAATCCCAGAGAGCCAACAGCTGTGTCC autosomal
ACAAAATCTAATACATAAATCATTCATCAGTGGCCTTCAGCACGTACATG autosomal
AGGGATTGTCAGGTCTCACTGCTGTCCCAGGAGGCCTTTCCATGCCCTGG autosomal
ACTGCCCAGGGTTGATTCATCCACTCAATGGGACTGCAAGAGAGAAATCA autosomal
ATATTTTTGAAAGAAAACACACAACAGGTTGAATTTTAGCAGTTTTTTAA autosomal
CAGTGGTCAAAATTTGCAGCAACATAGCATGCTCATAACTTGTTTCATAC autosomal
CTCCCCGATGTGGGTGCGCTGGTGGGTGGCAAGGGTGGAGTTGTGCTTCA autosomal
ATCCACAAGGCCCAACAACAGAAGCAAATACTAGAATGTCCCTAAGGTAG autosomal
AGGTGCCCCGGGGCGGGGCTGCAGAGGGGCGGCCCCCACCTGGAGGCCTC autosomal
ATTGGGAAATTCACCCCCAAAAACTCCGGGAATTTGAGGCTTTTTTGGAA autosomal
AACTCGTTTTATTTAGACTTGAAGGTAACTGCGGCCCAGTGGGACCGTGA autosomal
AAAAACAAGTAGGACATGCTTACTTTGGGACTCAAGGCTCAGAGCAGATA autosomal
ACTTCTGGGGGCTCGGTGGAACCGGTTCGGCCGTGGAGGTGGCGGGCCGG autosomal
ATCTCCCAAGAGACTAAAAGCTACATTTTGGAAAAAAAAAATTTAAAAAT autosomal
GAGCTCGTCAGCGCGGCTGCTGGAGCAGACAGCCCGGCTCTGCGCCCTCA autosomal
TAGTATCTCCAGTGGAAATCCCATTGAGAACTTCAGACTGAAAACCTGCA autosomal
ACTGGACCAGTCTGGGCAATTTCAACATATTAAAGATAAAAATTAAAAAG autosomal
ATGCTAAGTACCTGAAAGTCAACCAAGCTATGAAATATGAATGTCATTCC autosomal
GAACAAGTGATTTGGAAAAAACCCTGTTCAATGATACCACTGGCTCCTCA autosomal
GACTTCAATTTTCACATCATGATTTAACACTTGTTAAATATACCTAGAAA autosomal
AGCAATCAAGAGCTGTCAGCAGCCTGGGGAGATGCAGTTGACACTTGTTC autosomal
CAAAATGAAAGATTATAATTAAACAAAACAAAAAAAAGCTAATGACAACA autosomal
CAAAGCGAGACCCGAACCCCCCTGGCCACCCTGGGGCACCCCCTGATCTG autosomal
CCATAAAATGCTAAAAAGCAATGTTGAGAAGCTGACTAATACTGCTTATA autosomal
CTTTATTAGCAATAAAAGAGCACTCTGCCACAGGGCTGCTGCTCTCCAGA autosomal
CACACACATAGAATAGATTTTGTCTATTCTAGGAAAGCTACTGTTTTCCA autosomal
CTTTTCTTACAATGTTTTCTTAATATAAATCCAAATCTAGGGACCTGATC autosomal
AAAGACATTAGGTTTCTAACGGCCAAGTTATATTTCACATGGAGCCTCCT autosomal
CAAGGGCCATGGCTCCTCTGACCAGACCAGTGGAATTGTTCTGCAGAGAA autosomal
AATAGACTGCTTGCTATCTATTGCATTTGTGTGACTGCAAAGACCCTCTG autosomal
ATGGCACGGCTGGAAGGGCAAGCAGGACCATGGGAAATGAGTGGTTTTCC autosomal
AGGGAGGGGGTTGGTTTGTTTTTTAAACCCCTGTAAGGATGAATTCTTGG autosomal
ATCTTTACTAAAAAAAAATATCTGATTTTTTTCCATTTAAGTTACATCAA autosomal
GAGCGCAGCTGAAACTCCCCCCACCTTTGCCTCCACAGACAGCCCCCAGC autosomal
ATAACTGAACATAGTCAAAGGAAAAAAAAAAAAACAGAATGAGGCTGTGG autosomal
AATAGTGTTTCTTACAAGTTGCCAGTGCAGTCGTTTCAGTTTGTTTACCT autosomal
AAAACATCTAAGAGAAATTTGAAATTATATTTTGAGAAGGAAATTGAGTT autosomal
GACTCCACGGGCGAGGAGCTGAACCTGTGGCAGAAGATGTGCCAGTACCC autosomal
AGGCAGATAAATAAGAAGACTTCCAAGCATAAACAGGAAAGCGTAAGCAT autosomal
AATGGGGACAATTCTGGTCTCCTTGAGTTGCCTTATTTTATAAACTATAT autosomal
AATTTCCCTGTAGCAGTGTTAACTGAACTTGGCCTTGTGCTGGTTGGTTG autosomal
CTCTGCTTCACTGACAGCATCCTGTGCTTGGCAGCTGAAGAAACCTCCTA autosomal
CGACTGCGTGTTCACCACCGAAAACTGCACACTCACCTGCCCTCTGCAAA autosomal
GACTCCAGCTTCTTGGAATCAGCCACTTTCCTGACAGCTTTCATGAAATC autosomal
TGAGACCCCAGACCAAATTCAGAATGGGATAACCCAGCTCTGAGACCCCA autosomal
ATGAAGTCTCGCGTCCTGGACATCTTCCGCGGCATCGACAGGGACCAGGA autosomal
CACACGGGGGGAACTTCCTCCTCCTCCTCTCCTGAGCATTTCTTGCCTAC autosomal
ACAAACTGGTTTTATTGTGCTGGAGCCTGGCTTCAAACTGCCCAGCAGAA autosomal
CTTGCTTGGTAGAATTTGGGGGTCCTCGACCTTTAGATGATTCCAGGAGA autosomal
AGAGCCTCCCCTCATTTCTTCACCCTGAGCCCCTTACACTGAAATTTCGG autosomal
CACAACCGCAGCAAGCAGCCCTGCTCACGGGTGTTTCAGCAAAATATAAA autosomal
CCCCAAAATCCCACCTGGGACCCTCAAAATCCCACCTGGGACCCCCAAAA autosomal
CCACAATCCTGAATTTTCTAGTCAGGAAGAAGGAGATAAAAACCCTAGAA autosomal
AGAGCTGAAAAAGAGAGCACGTCTCACCACTGTGGTTAATTGACTTCAAA autosomal
GCGTCCCACGGGCTGCGACAGCGTCCTGCGGGATGGGGACATGGGGACAC autosomal
GGTAAAAGATACAAGCCCAGGTGGGTAACTATTGCACTGAGCATGATTCA autosomal
CAGTCTGTTCCAGAGATTTAAGAGAGTTCTGACTTAGATTTAAAGTTTGC autosomal
CCATCATCCTCGTGGGCACAAAGCTGGATCTCCGTGATGACAAGGACACC autosomal
ATTCCCAGCGGGAATGCCGCGGGATACGGGGGAGGAGAGGCTGGAGGCGC autosomal
CGCCGGCAGCTCGCCACGGCCGCACACTGCCTTACGGAGCACCGCTTCCC autosomal
CCAGTAGTAGGCTGCAGAAGGAATAGAAATCCCTGCTTCATAGATAAGAA autosomal
CATAAAAGTTGCAGTAACAAGCTGGTTCCTATAATATTTCCTGCCTTTGC autosomal
AAGTCGGCCTCGGCCGTGGACCGGCAGCGCGAGTATCTCCTGGACATGAT autosomal
CAAATTTGAAAAGCTTTAAAAAATGAACAGTGTATAGTTGTACTTTCACA autosomal
AAGATCTGCATCCCACCTCTGAGGCGCAGCACGAGATGCAGAGTAGATTC autosomal
ATCGATCTGTTCCTCAGAGTCAGCCTGCCCAGCCAGCTTCCACAGGGACC autosomal
AAGCTCCTGGTGGTTTTTCTCTGGAAGAGCTGGGTTTGAATTCCAGGCAG autosomal
AATTTCCAGGTTTTTAACACCGATTTCAGTCTGATATGCAAAGGAGGAGC autosomal
GCTCAGAGAGGGCACCAGGAGCTGCCACTAGGATCCATTGGGGGTGTCCC autosomal
ACACTGAGCTCTCCCCAGGGGATAACAAGAGTGCCTTGGAGCTGTCCCAA autosomal
GTAGTGTAAATTTGATTTCTGCTTTTCATTTCTTAAAACAAGAAAAAAAA autosomal
ATCAGCATTTCCTGATTCTCCTGCTTTGTGGAAAATACTCTCACATTTAA autosomal
GCAGCAAGAGCCCCCTCAAACCTCCATGCCAGGCGCCTGCCCCAGGCCCA autosomal
AAAATGTGGATTTAACACCAGGAATTCCTGGGAAACCTCAGGAAAATCGG autosomal
CCCCAAATTTGGGGGGTCCTGGGGGGGTGCCAGGGGGCCCCGGAGCTCAG autosomal
AGGTTTCACAGCTGGCTGCTGCCATCAGAAGTACCTCTGCTATTTGAATC autosomal
ATAGTCATAAAATTGTCTTCTCCTGGACTATTACTTGGTCTCCTCAGCTC autosomal
TGAAGGTACTTGCAGTAGAGACTATTCCATGGTAGAAGCACATGGATCAA autosomal
AGCTTTCAAATGGTTGAAAACTCAATTTTGGTAACAGAGAACGTGAATAA autosomal
AATAATAAGAAAATAAAACACCAAGTGAAATATTGTGTAGGGACTTCGAG autosomal
CCCCGGCACGCCGGTTCCCCGCCGGATGATCGCTGTACTTTATTTTATTA autosomal
CAGCCATGCGGCCAACGCGGCCCCACAGCCCCCCGAGTGCAGCAGGGCCC autosomal
AGCAGTTGCCCAGAATTGCACATCCTGCCAGGTCTTTCGTTCTGCTCACT autosomal
CTGAAAAGGCATTTGTATGATGATAGTGAGGCTGTCAGTGCCAGTCTCGC autosomal
TTGATGGTCTTGTGCTTGATTCGGACAATGCCTTTATCCTCCTCTCCCAA autosomal
AAGGATGTAAAGGAGGTGGATTCTGATTGGGTCCATGAGCCCTGACCAAG autosomal
TAAGTAGTATTGACTGTGCAGTTCTATTAATTTCTGAAGGACTAAAATCA autosomal
ATTGCATTTTGCCTTTGTGGAGCTATACACAATCTTTCCTTCTTCAACTG autosomal
CACTGTCACCTGGGCTTGTCCCCAACTGTCACTTGGGCCTGTCCCCTTTC autosomal
AAAAAATCTCTATTGAAAAATACAAAGTTTTTAATAATATTCCAGTGCAA autosomal
TGGCAGCAGCATAAACATCTAGAAGGGTTTTTTTTTTCTTGCACTTTTAA autosomal
GACCTTGGGAACCTTCCATGACCACATGGCCTTGATGGAACTCCATGACC autosomal
ACTAAACAAGATCTTAATTTATTTTACTTGAATAAAACCTTTGATACTCA autosomal
ATATCAACCACAATGGAAGAAGGATTGGGGTGGTATTTTGTAATAGGGGG autosomal
AAGCATTTAAACCATCTTTGGAAGGTTCTTCTGGAAAATGCCTGATGCTG autosomal
TCTGCCTGGTAACACCAAGAGTGAAACCAGCTGCAGAGCAAACCACTTCA autosomal
GCCAGCCAGGATGTTTGCGATTTGCTCCTCTTCTTGCAATGCCCTAAACC autosomal
CCGGGAACACGAAAGCCCAGCCCGCTCCCCAGCAGGCTCTCCCCGGCTGC autosomal
CAGAGGAAGAAAAGCATGGGGGGACGTGAGGGCTCCATCACCAGCGCCAC autosomal
ACCTCCTCCCTGTTTTGTAGCATATCTGGGGTTTTTCCCTTCTGTACCCA autosomal
CTCCAACCCCAAACTTCCCTTTTAATCCCAAAATTTGGGGAAAATCCTAA autosomal
ATGGATCCAATGGCTCCAATGGCTCCAATGGCTCCAATGGATCCGATGGA autosomal
AGTACAAGCACGTCCGCGAGTGGGGGTCCCACGCACAGACGGGCCAGGTG autosomal
ATACACCTCCAGATAGACCCGGAATAAGATCTCTCACAACCCTCTTTCAT autosomal
ACATTAGGAACAACTTCATGTAATTGGGCTTTCTGGAGTGTGACCAACAA autosomal
CGCCCTGGAGCCCGGCCGCGCCCTGCAGCCCGCCCAGGAAGGCTCCGGCC autosomal
ACCAGCAATAACGTCTCTTGCTTTGCTCTAGATCAGGCTTTGGGGGCATG autosomal
AGTGGATGCACCTCCCCTCCCTGCACTGCAAGGTTGAAAAACAGAGAGTA autosomal
GGGCTGGGAAGAGCTTCCCGTGCCCATCCATCCTCCGGTTCCAGCCACAA autosomal
GGATCTCTATTTGCAACAGACTGTGAAGGTTATAAATATGATTCAGAGTA autosomal
AAATAAACCCCCAGGCAGGCGTGGGGTCCGGCACTGAGAGCCGGGATTTC autosomal
AGGGCTGTGCTGAGGTGCCTCCCCAGCGGAGGAGGAGGCTGGCAGCTTTG autosomal
CTCACACTCAGCACCCGGTAGCTCTTGTTCTGCTGGCATTCCACACGAAA autosomal
GGTGTAACTGAAATGAAAAGCTTCGTTTCCAAGTTTCCATGAAACAGATA autosomal
ACCGCCGCAGGAACGCGTCCTCCAGTGCCCGCTGCGCCGCGCCCGCCTCG autosomal
ACATAAACCAGGACATTGCTCTGTCCATAACGGGGTCCAGCCACAAAGAT autosomal
ATAGTTGTTCGTGGTGTCAATGCTGGTTTAAAACAAAAGACAAGGAGCAA autosomal
ACTAAGAACAAATGGAAGTTCTACTTAAAAGATGGAGTGATGTCCATTGA autosomal
ATGAAACATAGTTAAACTGAAATTAATGATGTAATTCAGTTCCTTCGTCA autosomal
GTGTGAGCAGCAATTCTCAGATCACCTCTTGGCTGTGGGTGGTGCAGGGA autosomal
CACCGTGTCGGGGAAGTAGATCCTCTCCAGCTGCGCACGCAGCTCACGGA autosomal
ATTTTGGGCATGCCCAGGTGCGCTCACCTGTGTCACCTGCTGGAAGCCGG autosomal
TGTCACCAGCCAGGCCTCGTGTCACCAGTGGGTCTCAATGTCACCCCAAA autosomal
ACCTCCCCTCACCCCGATGCCCGGCCAAGGTGGCCTCTCCCAAAGGGCTG autosomal
ACATCAACATTTGTTTTTTTCCATATAAAGCTCTACTGCTCCTTTTACAC autosomal
CCAGAACCGTGTAGGTGGACGCCAAGTCCCCGGCCCGCGAGGGCTCCGGG autosomal
AATGAGGCCATCCCACAGCAAGCAGGACAGCCTTGTTTTGCTGTCAGTGT autosomal
CAGAGGCCTTTGGTGCTGGGGCTGTTCCTCCTGGATCTGCTGCACGATGG autosomal
CATCTCCTGAAGTTGCTTACAAATTTAGAAGTCCACTTTAAAAAAAAGCA autosomal
AACCCCACCCAGTCAATGACTCAAGCTCTGTCAGCAAAAAAGGGAATTTC autosomal
GACAGGATGCATGCTCTTCTCCTGGCCACGCTCCAGCCTGGTGTCCCCAA autosomal
CCTTTTTTCTCCCTTTTCCCTTCTTTCTCACTTCTTCCTTCCTTCCTTCC autosomal
CATACTTGACGTAGCCCACCCTGTCCACCTGGTAGCGCGGTGTCATCCTC autosomal
GGCACGGCCCCGGGCGGGGGCTCAGTTCACGCGGCAGGCCCGGATCATGA autosomal
CCCTGATGAGCGCCGCGTTCTCGTCCTTCAGCCGCTGGTTATCGGCACGG autosomal
CCCCGCGCCGAATGGCGTTGAGCATATCCTCCCCCTGCGGGACATCGCCG autosomal
CACACAGAACTGAGCACTTTGGAAGCAAGTCTTTAATATTTTAAGAGAGA autosomal
AATCTTCGCCCTGTCCTTACACATCTTTCCGTAGAAGAGCCTGGAGTCAG autosomal
AAGTTCATGTTTTCCCAGTTTAGATCCATCCTCCCCCCCACCCTTTCCAT autosomal
CTATTTTCTCCTTCATTCATCTCGAGATTTCTTCTGGTAATTTTAAGCAA autosomal
GTTGGCGAGCCAGAAGAACATGAAGACGTTGAAGAACTGCAGCACGATGA autosomal
ATACTGCTTAATACACTGATACTTCTGCCCATTAAGAGCATCTTAGTACA autosomal
ACATTGGGGTGGCACTTGGGGACATCGGGGTAGCGCCCGCGGCCATCGGC autosomal
CTGTGCCAGGGCCTCCCCACCCTCACAAGATAAAAATCCTTCCTGATATC autosomal
TACACATAGATACAATAGAGAGAACATTAACCAAGTTTCACACTTTACAA autosomal
AAAGAGAACTTGAAGCCCTGCTGCACAAGCTGGGTTCCCTGGGCAAGCTG autosomal
CGCCGCCTCCCCGCACCCCCACGCCTGCCTCCCTGACGGACCCCAGGGCA autosomal
GGACGTCCTTTATTGTCCCCACGGGGGGGATCTGGGGACACTCTGGGGAC autosomal
CAGAGCTGCTGTGGTTATTAACTCATTGGAGCCTCACAGGGGATGAGGTA autosomal
GAATAGCTCCCAGGAGGATCTCTATAATCTTCCTGTGGGAGTTAAAAACA autosomal
CAGAGTGAAACCTGTACAAGCAGAATATTAGCTATCATTTTAAACACGTA autosomal
AATGGAACTATGCTTTTCAAATTGCATTAAGAATCTTTTTTATTTTAAAA autosomal
GTTGCAAGACAGAAGTGTTTAGGAAGAAAGATCATTGATTTTTGGATTCA autosomal
ATTGCAAATTAGCTGATGTAAGTAGTTGAAATGACACTCTTTTATCTCTA autosomal
CCCATGGACATGCTCAAGCTCGAGGAGACACTCACTAGCTCCTAGCACTA autosomal
CCGCGGGGTTCTGCCAGTCTAGTGCCAATACTGCCTTCCTTGTGTAATAG autosomal
CTGACCATTAAATGCAGAACTCAAAAACAGACACCTACTGCACCGATCCA autosomal
AAGGTGCTGTACTTGTTGGTGTTGCCGCCGTGCACTTTGCCGCCGTCCAG autosomal
AGGCTGGTCCCCACAGCAGCCAGTCCCCAGGACCCCAGCAGTCCTGCAGC autosomal
GAAGGGAAGATCCCAGAGGTCGCGTTTCTCAAGTGAACCTTGGAGATCCC autosomal
CTGCAGCACTGGGAGCAACGGTGCTTGTTCTCCTGCTTTGACTGAAAGTA autosomal
CACGACACACAAATGAGCACGTGCTCAGCAGTTCTGAGCTAAAGACAGAA autosomal
ACTGAAAACAAACAGTCTACTAAAAAGCAAATCTTACTCTAGGTGCCAAT autosomal
AGCAGAACAACTTGAAGGAGAATGGAGGAAAATGCTCCAACATCCATCAC autosomal
ATAATCTTGGCACTTATCAGAGGGACAATTCTCCTTGGAAAATGATGAGC autosomal
CAGGCACCACTCCATGGCGTTGTGGAACATCCTGAGCCAGGGCCCGCTGC autosomal
GATCTTCTGAGAGCTGAGAGATCTTAGAATGAGAGAGAAAAATAATTGCC autosomal
AGCACCATTTTTAGACAGCCAAGGAAATATCTGCTCCTGAGGCAAACCAT autosomal
AGCTTCTGGCGGGATGACAACTGTACAAATCTCCAGGAATCAAAGCTGAG autosomal
TATGTATAAATATACATACATACATATATATATACACACACACAAACTAA autosomal
AAGCTGTCCAATGCCATCCGAACACCCTGAAGAGAAAAGTGGGATGCATT autosomal
AGCTTAGAAGTCTGCAAGGCACTTTTCACACTCCTGACTCAAACTAAAGA autosomal
AGGGAGCCCTGTGCAACTCTTGGCCCCCACTGCACCCCGGGAAGGGCTCA autosomal
CCTGCATCCCAATCCTACAGCTGGAGCCCGGCCCCACAGCTGAATCTCAG autosomal
AGCGCTGTAAGAACTCAGCAAGTGAAGCTGACTTAATGGATTCTGATTTA autosomal
AGCGGGAGCGGGCGGGCGAGCACGGAGGGAAGCAGGACGGGCTGCGGGGA autosomal
AGTCAGTGAAAAACCAAATAACTTAAAGTTTCAAACGTGATGCATAAAAC autosomal
TTTCAAACCCTTTCTCCCTTCCCTTCCCACAGCAAAAATTAAAAAAAAAA autosomal
AAGGAAAAGCATGGGGCTGCTGAATATATTACTTTGGGCAGGATTTATCT autosomal
GTTTTGTGTATATGTAAACCTTGCACTCTCTTGACACTCATAATGAAATA autosomal
TCAGGGTTTTGCTCAGCTCTGAGCTGGAAAGATGCCTCAAATCTCAAGGA autosomal
ACGCAGCCACTGCCCAGGCTGTGGGGCCCAGGACGTGCTGCACCAGTGAT autosomal
TAAATGTCCTAATACCATAATTAGAAAAGATGGGTTGTGAATGATAGCAA autosomal
CAGCTGCCCCAGCCAGAGCAGAGCTGTGCAGGACAGAGCTGCTGCCCTCA autosomal
AAGGAGGACATTTCCTTAAAAAAAAATAATAATAACAACAAGACAGCAAA autosomal
AGGGCTCTCATGTTCCTCCAGACATGAGGCTGAAGTATGGGAAGTGGGTG autosomal
CACTTTATTTGCAAAAAGTACTTTGGAAATTCAACCTTAAGAAAAATATG autosomal
ATTAACAACAGTTTTTTCAAACTTCCCTACTGTAAGTTTTGTGCTGGAAC autosomal
CTGTGGTGCTCCGTGGCGTGGCAGAGCCAGGGCTGTCACCCCCACGTGCA autosomal
GACCTTCTAACACAGTAACCTCCCAATAACCTTTAACATTCATTTTAAAA autosomal
AATCTCGCACAAAAGGCATGCCTGTATAGAAATACCCAAAGTTGCTGTAG autosomal
CTCTGTCCGCTGGTTTTTGCTACAAAGAGGAAAATTCCGTGGTTCTAAGA autosomal
ACTGATGTGTGAGCTGCAAGAGGCTCCCACTGCTGTCTTCAAACACATCT autosomal
CTTCATTTTTCATCATATCTTGATACACTGATTTGTAAAGACTTATATCA autosomal
AGCAGGGGAGCCAGGGCTGGGATAGCCAAATGGACACGGTGCTCATCACC autosomal
AACTGATTTATTTTTAAGAGTTAATGACTGAAAACTATAAAAAGAGTTAA autosomal
CATGTGTGTTGAGAGATAAATGTGAGGGAATTAATGAACAGCTAGCATGA autosomal
CTTGGCACATTCACAGCCTGACCCTCAAAGCCCTGCTCAGCAACACCCCC autosomal
CTCTAAAAGCTGCTGCATTTGTTGTTCTATTTCTCAGTTTCCTTGTTTTA autosomal
CTACAGCCCATGAGCACATCCCAGGACCCAGAACAAGGAACTCTGGCACC autosomal
CACGCTTATGACTTCTCTCCCTCGTTTTGTTTTTGTATTATAGAAATAGC autosomal
ACTTTGGGGAGGACAGAGGGTGCTCAGGACACAGTGGGAATGTCACAACA autosomal
ACTCCCACAGGTCCTGTATCGAAGATTATCTCTTTGGCCAGTGGTGTGTC autosomal
GCTAATATGTGACTGAATATTAGCCATGTCTTAATCCTTGCTTATGATAC autosomal
TATAACCAGTAATATGTTAGATATTTTATATATATAGTTTGCCAGCAGGA autosomal
ATCCAACGGCTCCCTCCATCCAGCCCTGGATGAAGCGTGGCCCGCGCTGC autosomal
TACAAATGCTACTGCAATGGCAGCAGGAGTCTGGACAGTCAGAAAAAGAA autosomal
AAACACTGGTGCTACAGACCAAGAACCAAGTACCTTAGTGAAGGATGAAT autosomal
GGCCGAGACCACTTTGCCAAGAGGGAGATTGGCAATCTGGGACACTGGCA autosomal
AAGAGGCATCTCACAAGGCTAAAATGAGCTCCTCGTTCCCAAGAGTGTCA autosomal
CAGAACCTTTATCCTATCCATGTTTTGGTTTTTCCTCCTGGATTAAACAC autosomal
AAGACAGGGCAGCCCAAGGTGTGTCAGTATTATAATGAGACCAAGGCAAA autosomal
AGACAGACAAATCCAAATTAGCAGTATTTGAAAAAAGTGCACTCAGGAAC autosomal
ATGTTACAGAAATGGGTGACAGCCCTGCATGACCACTGGGTCTCTATTTC autosomal
AGGTGACATTAAACTGGACAAGTGGATCTTACAGAAATGTAAGATTGCAA autosomal
AAATATGTACAAGATTTCTAATCATCATCACCCTGAGGATCATCACCCTC autosomal
ATCCAAGGAAGGAACTTGGACCAACACCAGTCTTTCGACTTCTGGTGGAA autosomal
CCAGACCCCCCAGTTCCCACCCCCAGTCCGAGAGGGGACAGTGGGGGGGC autosomal
CCAGTTCCCCAGCCACGTCTCCAAGAGCGGCCGGTCCCAGAGCGACAGCA autosomal
CAAGGAGTGTGTGCTCTTAATTCAGACCTGTTGTTTATTTTAAACAAGTA autosomal
CCCCCCAGTTCCCACCCCCAGTCCGAGAGGGGACAGTGGGGGGGCTGGAG autosomal
AAACTGTTTTCTTTTAACTTCAGCTAGATCTTCTGAAACTGCTTGTACCA autosomal
CAGTCCCCTCTAGATGTGTAGGGAGTTTACAGTCCCCGTTCCCAGCTCGC autosomal
CTTCAATTTAACTTTGTGACTTCCAATATCAATGGTTAAAATGATGCAGC autosomal
AAGCTCAGTGTACATAAGATATATGTAAACAGAACATTTCATAGTAGAAA autosomal
CCATCAGCAGCAGGGCGGCGTGTCCCCAGAGTAACGCGAGAGGACTGCCA autosomal
CTCCTGGCACCGGTCCGTTGGCCAGTTGGTGATGGAGGTATGAGTACTCC autosomal
CTCTGGAGCCGCCAGGCCGGCACAGTGACACCTTCCTGGTGCTGGGATGA autosomal
AAGAGTATAAATTCAAGTACTTTATGTACAGTTTGCAACTACCTTTTGTG autosomal
TCAGTCAATGATTAGTTCTTCCTAGACTTAGAAAATAAGCACAGAGCTCA autosomal
AAATGTAAGTACTCCCTCTCGTTAACAACCGAACATTTAACTTTGGAGCC autosomal
ATGCTCCCTGGAAAAAGTTGCCACTCATGTACATGGGGGTGGCTCATCAA autosomal
AGGATGGTCTGAAGGCAGCTCAGAGGTTTCTCTAGGAGCACTGCCCGCAG autosomal
ATGTTACAGAAGAGTGTGCAAACTTACAGACACCATCAAAAGAGAAAAAA autosomal
AATATTTACTCCAAATTTTGGTGGCCATTAAATCTACATTTAAAATAACT autosomal
TAAAAAAAGGATAAACAAACTTCATTTCAACACCATTTGGCTTGTAGCCA autosomal
AGACCTTCCTGCTCTTGATTTCCAATTTAATGAATTTAATACCCAAGCAA autosomal
CAGGACAGTTTGGAACTTTTCTGAACTACTGGACACCCCTGTCTATGAAA autosomal
CATAGTGCTCCAGCCCTGGGGAGACAGGCATCTCCCTCCCTCACCCCACA autosomal
CAAGGGACATCCCTCCCCACCAGTTGCCAAGCTGGACCAGGCAACATCCA autosomal
CCCCAATCCCCGCCCCATTCCCATCCCATTCCCATTCCCATCCCTGCCCA autosomal
AGGCTCTCAGATTCAGAGATGAGTCTAACTCAACTCCAAATCCAATTTTA autosomal
GAATTGAATTTAAGGACTGTTCTTATTCCTCAGATCTCATGAAATCTCTC autosomal
AACTGTAAACAAGATGCACTTGATTTTGTTTTTATGCTGTGATTTTCCTT autosomal
ACACTTTCTCTCCAGTTTTCTAGTTCCCATCTGAATTGAAGTGATAAATA autosomal
GATCAGTCTTCTGGGACGATGAACTGCTATTGACTGTAAGAGTTCACTGC autosomal
AGTATTTATGCCTCTCTTTCTCCCCATTCCAGCTCAGCATCTTCTGTTCC autosomal
AAGCCGCCAATCCCAAAACAGCATCATCCCAATTTTTCCTGTCCCCATCC autosomal
CTAAATGTTTATGGTAGTATTGAAAAAGAAGAAATAATTGCCTGGCTTTA autosomal
CAGCTGATGGGGACACTGACCCATGGCAGTGCCAGGGACCCCGTGGTGGC autosomal
AAAAATTAAATCCAGCTTGCCTGAGGACCCAGACTTTGGGCTTTTTTAGC autosomal
ATTTGTTATTGGAATCGTTTCATAACCATGATGAGTTTTTCTCTCTTTGG autosomal
AGCCAGAAGAGCTTGCAGGAGCAGTTGAAGGGGTTGTGGAAGAGCTGCAG autosomal
AAGAAAATTATTTGAATTTTTAGGTTAGTTTGCTGGTATGCACATACTTG autosomal
CTCCACTCTCAGGCATGCAGAGTGCTGCCAAAACCTGGCACCACTGAGCA autosomal
CATTCACATCTATCACTGGGGAACACAGGCTGCTTGCTTGACAAATCGAA autosomal
GCGCGGTGACGGCCAGAGCGCCCGGCAGCGCCGAGGCCAGGCTGCGCTCC autosomal
AAACCTTTTTCAGCTTCTGTGCACTTTCTATCTTGGGTATAGGCTCATCC autosomal
ACCACCTCGTCTTCTTCTAGAACACAGTCCAAGAAAGAAACCAGCAGCTA autosomal
AATGCCCAGCATCAGGCATTTTCCAGAAGAACCTTCCAAAGATGGTTTAA autosomal
ATGGCTGAAATTTCACCCCTGGTATTTCAGGAACAGTTACTTTTGATCAC autosomal
AGATTGTTTCAAATGCCAAAAAGAACATTTAACAATGAACAGTGAAGGCA autosomal
AATTTACTCTTTTGTTACGTTTTTCTCTCTTCCTTCAGAAATACTATGTC autosomal
CAGCTCAAGCCTGTTTCTGGTTTCTTCACTGACCTTTGCACCACTGTGGA autosomal
AATCTGTTAGTCTGCTCAGCACTTCTGGGAGGTGGAATTCTCCACCTAGC autosomal
AAGGGCCTCCACAAGAAGGGCCTGGGCAAGGGCTGCTTCGGGCTCAAGCT autosomal
AGGATTTTCCAGAATTGTGAGGCAGGGCTGCTGGTGGAGCTGGTGCTGAA autosomal
CCGTTGGGCTCCAGGACAGTCAGGTTTCCTCTGGCATCCTGGTCCATTTC autosomal
ACTCTGGGGACAGAGGATTCTCTGCTAGTGAACCCTGTTTTTAAGTGAAT autosomal
CTCACAAAGCTGTTCTGAGTTTCATATAGATTGATTGACAGATGAAAAAG autosomal
AAATAGAAAAAAAAGGAAAAATGGGGGAAATGGGGGAAAGGGAAAAAATA autosomal
AATATCTGAGGCGTATCTGGCCTTGAATACTTTCCTTATTATGCTGTGGC autosomal
ACACACTGTCAATAGTTATTTTTTCCCATGAAAGTGTCAGCTGCGCTTTC autosomal
AGAAAACAAAAGAACTCTGCATGGGACTCACTCATGGATTTTTGCTGCCT autosomal
ACCACCGACAGCACGCGAGCGGAGGAGCTGCGCTGTGGCACGCTGCAGGG autosomal
CACAAAAAGTGCCCCAAAAACCGGGACCCCAAAAATGGACATGGCCCCGA autosomal
AGGACAGCCCCGGGACCACCGGAACCGGGACCCCCCTGGGACCACCGGAA autosomal
CGAGGCAGGCAGCGTAGGCCATGGCATGGGCGATGTAGTGCTGCTCCTGC autosomal
AGTCTTAGGAGACAAAAAAAAAAAAAAAAAAAAAAAAAAGGAAAAGAACA autosomal
AAAGCTGAAGGGATCATAAAGTGGGGATAGTTATTTTGTCAGAGGAAATG autosomal
CATCAACCTACACTAGTCTGTGCTGTATTTTTACAAACCCTTTGAAAAAG autosomal
CACAACATTGGCCTTGTAATTTTATCTTACTATGGAAATCCAACTAGTCG autosomal
AACAGCCTGCTGATCGTTTCAGACGATGACATGTCATCTGCTATTTCGTC autosomal
TGAGAATGGAGCACCTCTGGGAAGCTGATGATCTGTCATCAAGATCTAAA autosomal
CTCAGCCAGCCAAGCCTGAACACCTTGGCAAACTGAAAAGTGGCTCAGCC autosomal
ATGAGGGCGATGCCGGCGGTGTCGGCAAAGGCAGAGCCCAGCCCCTGCAG autosomal
ACCATGATTCTAAGCATAGCCCATTAGGATTTGCTGTGTAGTGTCTAACT autosomal
AATTCTGTAAGGTGGGAAAAGTCATTTATTAAATCTTTCTAAAAAGATTG autosomal
CAGTGTCCACATGCTGCTGTCCCTGCTGCTGAGGGACCCCCGAGGAGCCG autosomal
AAAGATTATTGCTGCCTGCATAGATACTTGTGACTGGCCTTCCCTCCCAT autosomal
GAGAGATTACTCCATGTCTGTTTTAAAGGAAGTTTTCTCATGTTTCTCCA autosomal
AGCAGATACACCAGTGAGGATTCATCTGGGGAAGTGTGAATAAACAGAAG autosomal
GAACTTGTGGATTCTTCACTGCCAAACCTTGTAAATAGGAAAGGGTGTGA autosomal
TCAGGGTTCAAAGAGTACATTGAAGCCCTCTCCATCCTCGTTTTCTAGCA autosomal
ATGGCATACGGAACTGGGAGTAAATGCACAGGTACTGATAAAGCAAATTA autosomal
CCAGGCTTCCTGTCAAGCCACTGATGGGAGAGCTGCCACCGTTGCCCAGG autosomal
CATTTGTGATCCAGCTTGGGATGTCAGCTGACACCGAAATGAATGTCCTA autosomal
CACTTATTCCAGTAGTGAGAGCACAGGTCAGGATCCATGAAATGCGGATG autosomal
ATATTCTGCGGGAGTTCGTGTCCATCTCCTCCCCGGCGCACGTGGCCACA autosomal
TACCATTATTTACTGCACAGAATTCTGTGTTAATTAGGTTAGAACTGAAA autosomal
GTAGTTGTGCCGGCAGTACGTGTCCACCGCAGCCCGTCTGCTCTCCATGA autosomal
CATTTTGATGTTTTGAATACTAAAGACCACTAGGTGCTTTTAGACACAGA autosomal
TACTGGTCCAAGTGCAGTTCGGCTGGCAAAAACACATCTTGATTTTTCTA autosomal
AGAGGAGAGCTCCATTGGTAAATTTCCCAGATGTACAACAGTTGATTTCA autosomal
ATTTACAGTTATCAGATGCCTATAAAAATCAAGCTTTTTTCCCTACCTAA autosomal
TAGTCCCTGCATGATTCACTCTTCCTCCTGTTTCCTTGATTAACCCTTGA autosomal
CCACCAGTTACTTGTCTTGGAAACTTCAGTTGTCCTGTGGATGACACAAC autosomal
CAGAAAGGAGTCATTCCTGCTGCCAGAAAGGAAAGGAGTCATTCCTGCTG autosomal
ACAGGATCAATGTCTGCAACCTGAGCAGCATGGCTGTGTTGATGAGGGAG autosomal
GCTCCCGCTGTCCCGGCAGGATCCCCTGGGTGCAGCCCCTTGTGCCTGGA autosomal
GATACATTTAAAGACACCGCCAGCCTTGTTAAAGAGGACTCTGTGGTGTA autosomal
AAAAAAAAACCCAAATGCTGTTCACAAGAGGCTCCACCCACAAACGCTGC autosomal
TGAGGCTTTTTCTTTCTTCTGCTGGGAGTTCTATCTGTGTTGGTTTGGAA autosomal
AATATGTCAGAGAAATTTTCTACAATTTATATGCTTTTATTTTAATTGAT autosomal
GATTTAAATATATATAAGAGTTACGTATCTAATACCTACACAAAGGCTGA autosomal
GTTTATCTCAACTGAACAGTGGCAGCCAATAAACACCTGCCCTTTTTCTA autosomal
ATGTCTATCATCTCCATCTCTAGCTCCTTCACCTGCAATTCTCTGGCAAA autosomal
CCTGCCCCTTGCTGCTCATGCCCGGCCATCCCCCTACCCACCAGGGGCAC autosomal
AGGTGTGCCCAGGTGTGTCTCTCAGTAGTAAAGCTCCCGATCCCACCAAC autosomal
CCCCCAACCCCCCGAGCAGACGAGGAGCGGGAGAAGGGCAGCGAGAGCGA autosomal
CTCCAAAGCTCCCCGCGGCTGCTGCGCCTTTTTCCCGTCGCCTGCGGCCA autosomal
CCTGCATTCCTACTGTCCTTCAGCAGGCACTGTGACTTGTTAGGTCTTGC autosomal
ATGCACATGCACAAAAAGAGAGGGTACACAATGAACATTTAAACACAAAA autosomal
AGTGTGATTTTTTGTTGGCTGTTTGACAGGTTTTATATCAAGCCTGGCTA autosomal
GATGTTGATTCGCCTATTTTTATGTACAGAAAACCATTTACATAGTTTAA autosomal
GATGGATGGGTGTTTCCTTCCCATTTTCGTGTTCTAACTGAAATTGTTGA autosomal
AAATGCAGCTAAGGCAGCTCTGACAAGCTAAAACAAAGGATTTGTCTCTT autosomal
CTGGTGAAGAAGCAGATAAAGATTTTATTTTTATTTAGCAATCAGTACAA autosomal
AAAAGAAGAAAAACATGTCCCCAGAATTTTAAGGAAACATGAGGAATCAT autosomal
CAGGTACTCACATTTGCATTTTACTAGCTAATTTTATGTGGAAATCTCCA autosomal
GAATAGAATAGACTCCCTCACTGACAAGATAGTGCAGATGCCCCACAGGA autosomal
AACAGGGTAGGAAGCAATAGCACAGAATTCCCTCTATTTCCTTTTCATCC autosomal
AGAGCAGGGTCCCGCTTCCCCACCCTTCTACCTGGAATCCCAAGGACACT autosomal
AAAGATCCCATGTTGAATCCATTGTTATTGAAAAAGAAATTAAAATTCCC autosomal
ATGCAACGCCGAGGGGCTGCCTGAAGGCTGAGCACCTTTATTTCAGCAGG autosomal
GGGAAATGGCGGGGAAACGGCGGGGAAATGGCGGGGAAACGGCGGGGAAA autosomal
GCAGCTCACCGAGGAGAACGCAGACTTCGCCTCGCGGGACCGCTATCACC autosomal
ACCAGTGGCTTCGCACCTGCCTGGCACTCGCAGAGATCACAAAAAGCCAA autosomal
CATTTGAAGAGCCATAATTGTTTGTTCCACAGCTTCTTGGTGAGAGTTGG autosomal
AGTCACCGTGATAGAAGTAGCAGAACAAGACCAAGGACTGAGAGGCCCAG autosomal
GAAGAAATTTTGACTCAGGCCTCTGAGGAGAGAGGCTCGGATGAGGACTC autosomal
CTGCCACCCACAGTCCTCCTGCCTGCCCTGAGATGGCGGGACACACGGCA autosomal
ACTTCTACTGAGCCCCTGGTAGTGATTTCTTTGGGGAAGGACAGAGGTTG autosomal
AGTCTCTATCTGTGTCATGTCTGGAGATAAATTTCAGGTCCCCTGACTTA autosomal
AGGGTAATTTATTAGTACTGTAGCACTAGAGAAAGCTTAAAGCAAAAACC autosomal
AGCGCATCGCGGGTGAGGCGTCGCGCCTGGCGCACTACAACAAGCGCTCC autosomal
AAGGAAGTCCGCTTCGTGGTCCGCAGCGTCAGCGCCCGCAGCCGCTCCCC autosomal
AGACGCCCAAAAAGCCAAAAAAGTGTCCTGCAAATGGGGCAAAAGCAAAA autosomal
CATCCATCCATGGTCATCTTTATCCTGCTCCACTCTTTCCCTACACAACA autosomal
AAGTTTAGAATAAGATTTTATCTGGCGTAAACTGTTTTGTCCCTTTTCCT autosomal
AGTGAGCTCCAGTGCTGACAGAACACCACCACAGCCCTCTCTGCCTCCCC autosomal
CATTGTTGTGGTAACTATGCTGAAGACCGGGAAGTGCAGACATGATTGAA autosomal
AGCCTTATAATTTACCTAGAGACAATCTTAAAAATTATAAATAATAACAA autosomal
GGTTTCTTTGAGCATATATGAACATTTATTTTTCAATCTATATTTGAAAC autosomal
ACACCCAGGGGACACCCCAGGGCACTCCAGGACACCCAGGGGACACCCCG autosomal
AAAATACAAATCTGCTTTTCCCCAGGTGCCCTTTCCTCATCCTAAAGATT autosomal
TCGTCTAGTGCAGTAGTGAGAAGAGGGGAAAACAGGAACAGGGAGATGAA autosomal
AAAAACCCCAAAACAGACAAACCCCCCCCCCCAAAAAAAAACCCCATGGA autosomal
CAGGAGTAATAAAAACCCCTCCTTAGGGCTCCATCCCCCTCCTAGGACCC autosomal
CTTGAGCCGGTGGGTGCCAGGCTCCCGCAGCGCCCGCAGGGTGGAGATGA autosomal
CTCCCTCCCCACACAGGCGTGGGGGCCCCCCCGGAGGCAGAAGGAGCCCC autosomal
TGTGCGGAAGGCGGCGATGAAAAAGCCCATGTGAAAGATCAACTCTCCAA autosomal
CACAATGCAAAGGAAAGGAGTAAGGTTGAAAAAATAGTATGATAGGAAAA autosomal
TGTACCTCTAACTGAAACACAATTACATCACTAAGCCTGTTAGTTTGAAA autosomal
ATCAGCATTTTGGGAAAAACCTGGAATTTCCCTGATTTATTCCCCACTCC autosomal
CACTTCCTCAAGGTGCTGCGGGAGCTGCTGGCCTTTGTGCTGTTCAGCTA autosomal
AAACATAAAACGAGGGTTTTTTTGTGGAAGATAATGATCATCTATTGTAT autosomal
CACTAACATTTCTACATATTAAAATTGTAGTTATGCTAAACAAGGTCAGA autosomal
AGCAGGGCCTTTCCTGATCCTGCCAGAGGCGTCATAGTGGGAGCCGTGGC autosomal
CCCAGCTCTGCACTGACCCGGCTCTGCACAGACCCAGCTCTGCACAGACC autosomal
GCTCTGTTCCCTTCTGCATAGTGAATAACTAGAAAAATGAAATGGTGTCA autosomal
AAGGAAGTGTAATACTCAGCTGGCCAAAGAAGAGACTACTTTCAAGGCCC autosomal
AAACTCAACGTGCTCATCCCTTGTTTTCCCCAAACCAGGATTTCCCATTC autosomal
CCTTAAATTAAACTCAGTGAAGATTGCTTCCTGTTTTGGCAACATAGATC autosomal
GAACAAAGAAGTCCATGAACTCATTCAATAGTAACAATTCTAATGCTGTA autosomal
CCCCGCCCCGCGCCCGCAGCAGCCCGGAGCGGCACCGGGCCGAGCCGGAC autosomal
ATGAATGACCTGTGCCAATCCAGCCATGCACAACAATTTCCAACAATTAA autosomal
AAAACCTTACCCACATGGCTGGAGTAAATCACCTGTAATTCACACCTCTT autosomal
AGCAAGTGAACAAAACACCCTGAGCCCTGCGTTGTGTTTCCTGTACCGAG autosomal
AGTTTTGGTCTGTGTAACATTTCTTACCTAACAAGTGAACTACAGCACTA autosomal
AGCCAGCAGCTAAACCAGACAGTGAGCCTGGGCTAGCAGCTAAACCAGAC autosomal
AGGGCTGGATTAGATATTTTTCCTGCTGCTGTTCACGTTTTGCAGGTACT autosomal
ACCGGAGAAGAGACAAGAGGACGGGAAAAGTGACTTGGACTCTGACAGCT autosomal
AAATGCCATCATGATTTGAAAGCAGTGACTCATACAGTACTGTAGCAAGA autosomal
CATTCATAGTACAGCTACATCCATTCAAACAAATGCTTCCTTTCTTCCAA autosomal
CAAATAAAGACAAAACTATCTCAATTATAATGTTTCACTTTCAACATTTC autosomal
CCCGCTGCAGCTCCCCGGCGCTGCGGTCCACCTGCGAGCGCAGCTCCTCG autosomal
CTTTAAGCGGGTGTGATTCATTTGTATGACTTTGGCTGCTTTGGGGAACC autosomal
ACCCATGGATTGCCCCCCACCCATGGCGGTGCCCCCCACCCACGGAGCTG autosomal
ACTCTCACTAGAAATATATTGGATTATCTACTGCTAACAAGCACATTCTG autosomal
AGTTGCTCCCAGTTTTCCCCAGAGACAGGGAAGAGGGACAGCTACTCACG autosomal
CTCCACCTCGCATGCGTGGTTACGCAAAGCTCGGTGCGGACGTGGACCAG autosomal
GAGAAGTCCAGGGCCCTCTGGCTGCTCCCTTTGCCAGCCCTGGTCCCTGC autosomal
TACCAGTAGGTGACCATCTTTAAGGAAGTTGAGGGATAAGAATTGAGGAA autosomal
GACCAGCACCCAAACCATGAGAGATGGCAGCACAGCTTTGCATCACAACA autosomal
AAGCAGCGGCTGGTGTGGCTGAAGGAGCAGCTGGCCGAGCTCTTGAAGAA autosomal
ATCCCGAAGCACACATCCCTCAAGGTGGAAATCCCAAAACACGGAGCCGG autosomal
CATAACAATGAGTGGTGTTGCTTTTTGTTTACAAACATGGCCCTTTTTTC autosomal
CACTGATCTGAGCAAGGAAGTATGTGTCTGAGGCAACCTGGAGTCAGGTA autosomal
ATAAAGGCTGTTCAGCCTCTGACTTGTTTGATAGTTTATTACAAAAATAA autosomal
AAATTCTCTTTCCTTTCCCCCCCCCCAAATCCAGGAGGAGGCGGAGCCCA autosomal
TGGAAATGGTGCCACATTGAACAAAGTTTTATCCTTTTAAACAACTGCAA autosomal
ACAAGGAACGACCTAGACACGCTGCTCAGCATGGAGATAAAGCTACGCCT autosomal
AGACATTACATATGTGTATGTTTTACTTCAGACAAACTGCAATTTACTAT autosomal
ATTAAGTTCCTTTACCTTTTGAGTCCCAGTTAAAATTAGCATAATAAATG autosomal
CAGTGGTAACACCCTTTTAAGCAGCATTTAGTTCAGACACTTATTTCCAG autosomal
CTATTTTTATAGATGCCTGTTTAATCTGGGAGAACTGAATGTATACTCTA autosomal
ATTGCTCAGAGGATCCGCATTCAGTTATTGCTTAGAGAAATGGATCCATG autosomal
AATTACTGGCTGAGTAGCAAAAAAGGGATTGACAAAGGCCACAAATCCCC autosomal
AGTGTTTTTTCCCTCCTCAAAGACAGTTCATAGCAGTACTGAAGCAGAAG autosomal
CGCGAGATCTCCTCCAGCTCCGGCCTGTCCGCAGGGTGCTTGGCCAAACA autosomal
GCCTGAAGCTGATCGCCAGCAACAGCACCATGGAGCGGCGCTTCAGCCCC autosomal
CACCAATACAACAGCACTGGTGCTTGAGGTCCCATGTGCTGAGTGCTTTC autosomal
ACGCCTCCACCTACGAGTACATCGACATCCCCTTCCAGAACAAGTATTCC autosomal
AAATCAGTATCCAGCTTTTCTCTGCATTCCATGTTATACCAACTTTCCTA autosomal
CAATAGGAATTAGTGTGAATTAAACAAACAAACAAAAAGTTTAAATATTG autosomal
GAGAGCGGGAAGTACTGCAGCCAGTTGTCCAGGTGCTTGGCGTAGATGCC autosomal
CAGGACAAACTATACTTACTGTTCTAATGCTGCCATTCTCAGAGCCTGAG autosomal
AGATTAAATAAAAACCGATCTTGTATTTGGTTGCACACCATTAATTGGAT autosomal
ACGCCCCGAGGAGCGCTCTGAGTCTGTCCCTGTGTGTCGCTTTTACAATA autosomal
ATGGGGGAAGTGTTTGGCATCGTCTGACACGGCTTCGATGTTTCCAGGTC autosomal
AGGCTGCAGTTGGCAGGGCCGCAGTCCAAGGTGTCGCAGGCGGGACCTGC autosomal
CCTGCAGTGAAGAGCCATCTGTTCCTGTCACTGGAATGCTCCTGTACCAC autosomal
AGCTCCTTTGACAGACACCTGCTTTTTCCTGAGCTGTCTCTGTTAAGCTG autosomal
CCCCAAGGATTGAGCTCTGACCCCAAAGATGGAGCCCTGCACTCCAAGGA autosomal
ATCTTTGTAAGAGCTACATTTGGAAATAACATTGAAAGTTGAGACTGAAT autosomal
GCCACAGCACCTGTTCCCACCTCTCTGGCCGGGGGCTGAAGCCCCACTGA autosomal
CTTCCTCCATTTCCTCCTCCACTTCCTCTTTTTCTTCTTCCTCTTCCTCC autosomal
AAGATGGAGGACTCTTCTGCTACTCTGGTTTAGCCTCAGCTAAAAACTTA autosomal
TCAGATAAAAAAGTGGAAATGAAAGCCTGTATTGTCGTGGTCCTCAAGCA autosomal
AATTCCTCTGATGATCAGCCTATCCCATGAAACCCACGCCCCTCTCCACT autosomal
AATCTCTGTAGCTTTTCTTCCTAAGGTACTACTGAGTGACTGCTTACTCA autosomal
AGTCAGCTCACAATGGTCAGGAGACTCTTTTAAAGTTTTACAGCCTTCTA autosomal
GGGCACTGATAATGTTTGCTGGGATGATCCCATACAGAACATCAGGAGAC autosomal
ACTGAAAGGAAATCAACCTGGTAAATATTGTTTTCCTTCATTACAACATG autosomal
AGGAATTCTTGGCCTTATCCAGGTGACTCTGGGAAAACAAAACCCACCAG autosomal
AGGTGTAAGTCATTTGACAAGCATTATCCACTTCTTAACAGAAAACCAAG autosomal
CATCAACCCCCAAATAAACTAGTTCCTTTCTGGGCAGATCACCAAAAGTA autosomal
GCAAACTCTTTGAACACAATGGTCTCAACCAGCTCTTGGAGCTTCTGGGC autosomal
ATCTGAGGTCCCTTATGGCCTCAGCTTCTGCAGAGTTTTGCTTGAGCCAC autosomal
AAGGGGTTGTAAAAGACCATGTGGGTCCAAACCTTCTGCAGTGGGTGGGG autosomal
CCATCTGTGTCCACAACTCCTCTCTCTTCGCCCTTCAGAATCTCCAGCCG autosomal
AAAGAGAGGGGAATAACCAGTATGGGGGAAATCAACCTCCTCTGATCCTG autosomal
CTTCCTTAGACTGGCATTGTGTGCTGAGTTGCTACCGAAAGACTACATAA autosomal
AGCTTCTACTCACTTAACAAATTGCTCTTAAGGACTATTGAAAATAGGCC autosomal
CTCGCCTGACTGGGAGCCATCAGGGTTGGGAACATGAAGTCCAGATCCAG autosomal
GATTTGAAGTTTGGGTTCCTGAGCTTGATACTGGAGAGGGGAAAGGGCAA autosomal
GCTGGTTTCACTTTCCTGTGTCTGTGCAGTTGGATCCTCTCTCTGCAAGC autosomal
ATATATATACATAAATACATTTATATATACAGAGACACATAAAGACCAAG autosomal
ACTACCTCCAGAAAACAGCTCAAATCCCAGAAAAAACTATCTATATAAAC autosomal
TACTATTTTGTAAAGTTTCAAATATTATATAAATCAGTTTGATATGTAAA autosomal
GTGCACACAGCCAAAGAAAGCAATGTTCTTTGATAAAAACTGGTACATTA autosomal
CCCCCTCCGTGTCCCCAGTCCGTCCTCCAGCCTGGCACAGCAGCGTGGCA autosomal
GCAACTGCTAAAAATCTACTTTGGATACAAATTACAATGGAAAATGGCAA autosomal
AACAGAAAGACTGAAACTTTCATAAATGGTTTTCAGACTTTTCAGTTCAT autosomal
CAAGCAACATAAACGAGGATTTATTCAGTTTGCTCAGTTCAACGGAAAGA autosomal
TCCTCTTGGGAAATTTTATAGGTAGAACTCGATATCCTCCTGTCCAGGAA autosomal
TCACCTCTGAGACTTCTTCAATAGTAGGGCTTCTGCCCAGCTTCTCTGAA autosomal
GCCTGCCGCCCTGAGAGCGGCCGGTCTCGCCTGATCTCGGAAGCTAAGCA autosomal
CACCAAAACCTCCCGCTAGAAGCCTTAAAGACATCCTTTGTGCCACCCGG autosomal
ACAGACAGCTGGTACCAATCAGGATCCGTTTTAATCATTGTTGCAGTGTG autosomal
CACCCATGGGTGGGGGTCCTGAGAGAGGTGGGGGGCACTGGCACCCATGG autosomal
CCCTTTGCGAGTCACAGATTCACAGGCAATACCCAAGGCCCAGTTTCTTC autosomal
TGTTAGAACAATTAAAACTTTGCAAAGGCAACTAAGAAAGCAAATAGTAA autosomal
CAGATGCAGTGTTACAATCTTATCAGCAAGTTCTGGGTGTGCTAGAACCC autosomal
GATTTAATAAATTTGGTATCAGGAAAAAATTTTGCTCTTCTCTGGTGAAA autosomal
GCCTCAAGCAACAATTCAGGAGTTTGTTTTGGCAGCAACATTTAGCAATA autosomal
ATGCTGCTCACACCTGAGGCACTGAATTCCCATAATCTTGTTTCTTCTTA autosomal
AAGGGACAGAAGAGTCTGGGGGCACAGGGAGGGCATTTATGGGGGACAGG autosomal
GGAAAGTAGATGAGTCAAACCAATGAAGAAAACCAGTCTTTTACCTCAAC autosomal
AGTTTGCAAGTCAAACCGTGGCCAGGGGATTCCCCAGCCTCCTGCAGGTG autosomal
CAGTGCTCCCTCGCTAAGCGCTCCCCTACCACGGCTGCTGTTCCTGGCTC autosomal
CCAGGGCACCTTGGGGGCTTCTCCCATCATCCCCAACAGAGATAAAACCC autosomal
ACATTCTCCCATCTACATCCTTCCATATTTGTCCTTTCATCCCCTTTGTC autosomal
CCCACAGCCGAGGGGCTGGAGCACATGGAGATAAAGATACAACCCTCCAC autosomal
GTTAACTAACAATGGAGGCTCAGTAAAAAGAATACAAGGCAAAGACTAGA autosomal
CTCAAATCCACTCACATGAATGGTGCTTTTTGGAGTTTTTTTTTCCTTCC autosomal
AACATTTTGGCAGGTAAAATCTGAATTCAGTGGCTCCCTGTACTGGGACA autosomal
CGGCGCCTGTGTCTCGCCCGGAGCCTGGCGGATGGCAGAGTTAGTTCGGC autosomal
ATAGTTACACAGACAAGCTGGGAATAGAATTCAGAACCATCATCTCCTAC autosomal
GGGATAATGTCCAGTTTTTGAGAACAATGTTCAATTGCCTTAGCCTTGAC autosomal
AGTAGCAGAATATCTTTAGGTGCTCATCAGCTGTCTTATGGGATTCCCTG autosomal
CCTGCAGATCTGTATTTCTTTAGAACAAAACATTATACACTACCTTGAAA autosomal
CATGCGGATGTACATCCCGTTCTCCGCCTGCCGGAAGTACGCGGCCCGCG autosomal
GAGCGGGATTTGAGTTAGCCGAGCGCTCCAGCTCCAGTCTCACTTCATCC autosomal
CACACAGTCACCATATGCCTAGGAAATACACTTTGTTCTGCTGACCTCCA autosomal
CTGAAGAAAAAAACAGACCAAAACAGTTCAAGGAAAGAAAAAACCAAAAA autosomal
GTGTAGACGCCGGGCCGGCGCGGGGTCCCGCAGCGCTCCATGCCCCACGA autosomal
AAGAGCAGGGGATGGTGGGGTGCAGGGGCAAAGGAGCAGGTTGCAGGGAC autosomal
AATAAAAGCTGAGGAGAAATTTGAGAAAAGCAGGGAATGGGAACAGAGAA autosomal
CCGGCTCCGTTTGCTTCGGGCAACTGCGGGGGATGGGCGACAGCCTGAGC autosomal
ACACTAGCAAAGAACTATAGAAAGAAACAGTTCTGCTCTACAGGCAGACA autosomal
CTGCTCCTGCCCCGTGCCAGCGAGGCGGCGAGCCAGGCCAGGGGTGTGCC autosomal
ATTTCTTACACCGGCAGGGTGACCCTTGCCTGTCTCATGCTGTATATGTG autosomal
AGTAGACTGAAGCTCTGAGCAAGGGAATAAATGGCTAGAAAAGCCCACAG autosomal
CAGTTTTGGAGTGGACAGAGAGAGAGAGCTGAGGAGGGTGTGAGGATGCC autosomal
AGTCTGCAGACACTGCTGTCCTTTCAAAAACCCTTCCCACTCCTCAAGTA autosomal
CTCACAGCTTTTCACTGAGCTTATTGAAATACCGGCTCATTACTTCACTA autosomal
AGGAAGCAGGTGGAGCAGAAGGAGCGGGGCCGGCCCCTGGCCCCCGCCGA autosomal
ACGCTGCCGCTGGCTGAGGATGGCGGCCCTGGCTCCTGCCCACGCGCCCG autosomal
CTCTACAGCTGCCAAATCCTGCCTGGCCTCTGCCGGGGAGCCCCAGGCCC autosomal
TAGCTGTATCCAGGGAAGATTATTTTATTCTTGACTATGATAAATGGAAA autosomal
CTGGTGTAAGTGATGACTGAATTTTTTCCCCATCAGAGCGACAGTGTTGA autosomal
CATTATTCAGTGATGAGTATAAGAGCACTTCAAAGATATGCTAGAGTACC autosomal
CTACACAGTTTCTATATCCCTAAGTAAGACAGGACAGATTATGCAAGGAA autosomal
ACTCCAATAGCGCTTCCCAAAGCCCGCGAGGGTCCAGCGGGAAGCGCTAG autosomal
CGGCCGCCTGCAAGGTCAGCAGCTACCTGGTGTTCGTCAACATGTACGCC autosomal
TCCAGCAGGGTTTCGGAACCAGAGAGTGGAAGTCGGGGTGGTGAGAGGCA autosomal
CAGGAAAAAGAAATTCCCTACACCTGATTAAGTAAAGCCAGAACAACAGA autosomal
AGGGAGTGGGGAAAGGGGGAGGATTGCTCGATTTCTTTTTTCAGTTGCCA autosomal
ATTTACTCCAACGTAGTCATGACTGAAGTAGGGTGGGCATTTGGCTATCC autosomal
GAGCTTTGACAAGGTCATAACTGCACCCCATAGTGGATGACGGAGTCCCA autosomal
ACACTCCCAACCCCCATCCTGCCCCCCACAATTTGCGGCGAGGAGCAGCC autosomal
TAAATCAAGCTTTTTTCCAGGGTAGGTTTTTTTTTTCATCTTAAATTCCA autosomal
ATCCCTGCAGAAACTCTTCAAAAACTCCGGGGACAAGAAGGCGGAGGAGA autosomal
ATCGTTAAATATAGTCTAAAGAGTGTATGTTTAATAAAGCTTTTTTAAAA autosomal
ATGTAAACAATCAATTATCTTGCTTTCTGTTCATATTGTTTATAGATACG autosomal
ATTGTATCTGAAAGGCAGCTGCTTTTATGGGATTATTCATAAACCTTCAG autosomal
ATTTAAACTTTCTGCAAAGGCTCTGAACTGACCCTAGAAGCTATTTCAAA autosomal
AAACCCCAGGACTGCTGCTGCATGGGGCTGGGGGAACACCACCACCGACA autosomal
GCTTTGCTCAGTGTGAGTTTAGGATCAGTTCTTGAGACACCTGACAGAGA autosomal
AGATTGGAGCACTGTGTCTGTTGCTGGCAGTGGACACTGCTCTTATTCTC autosomal
ATATCACAACTGCTTTCTCCATTACTGGATAATTCATGCCTTTCAAGGAT autosomal
CCCTGTCTTTTTTGGTACTGTATCCTGAGCTTTTCCAGCTGCTCCACGCA autosomal
ACATTCAGATAAAATTATTGGTATACTTTAAAAAAATAATAAAAAAATAG autosomal
AAGTAACGCTCCACTGGCAGATCCTGGAGCAGAAATTCTGTGAGAGGGAG autosomal
GCCCTGGATTGCAAGAAGTTTATATAGTTAGGGCATATCTACTATGCTCC autosomal
AACCGGAGTCCGAATAGTCGGCGACCAGGGACGGGGCGGGGGCGGCGGCA autosomal
ACTGTGGTGCCCAAAGCTGTGCCAGGGGTGGGTGGATTCCTGCAAGCTGG autosomal
AACTGAGGGATATGCCAGGTCACAGCTGGAAGGAAGGGCAGAGCAGAGAT autosomal
CTTGGTTCCCTCCGGTGCTTGAGGGCAGGATTGGGCCCCGCTCTGCTTCC autosomal
TTGGGACAAAATCAACTTTTTGGGGTCAAAAACCATTTCCTCAGCTCAAA autosomal
ACAAGTGCTGTGACCCCACAGGACAACCACAAAGGTAGGGTGAACACCTC autosomal
AAGGCCATGTCCATCGGGCGCCAGGGTCGGGTACAGGTTGAGGACATCGT autosomal
TCTTCTCTGGGGACAATGGGGCAAAACCTCCCTGGGGGGGGTCCTGGCCA autosomal
AATTCAGTAATTTTAAAGTATGAGGCAATATACCTTCGCTTTGTTTTTAA autosomal
GATTCCTCTTGAAACAAATAAATATTTTCTTACCTATTTATATTAAAGCC autosomal
AAATATGCAAAAGATCTTATCATTAAGATTCTTCATACCAATTCCTTCAA autosomal
AAAGTGCAGTGCAGCCTTTGGGGTGACATCGGGGCTGGGGGGGGGTCCCC autosomal
TCAATTGTTTCAAGAATTAACTACATTAATTTACAAAACCCTTTATTCAA autosomal
ACACACCTTTTGTTGCCTTCCTTGGCCAGATGTTTAATTCTGTGACATGA autosomal
AAGTTTCTCTAATTTAGCAATATGGCACCCTAACAAACCAAATGAATTTA autosomal
AGCTGCGGCACCTGACGGCGCCGGAACCGGAGCTGGAGCCGGGACCCCCC autosomal
ACTGCTCTTTTTCAGTCTCTTGCAAATGTAAAACCATTGCATTATAGCCT autosomal
AAAAATGGGATTTTGATTGGACAATCAAATATTGTCGTAGTATCAAATTT autosomal
GAGCCCTCAACACCGACCCCCCAATTCCAGCCCCCCAACCCCGACCCTGC autosomal
GGCCCGCTCTCGGCCGCCATGGCGTTGATGCCGTTGCATTCCTCGCCGGA autosomal
GACCAGGCAGCCCCCGTGCAGAGCGAAGTCGTCCAGCTCCCCCACCCAGC autosomal
ATTCCCTTTCAGTAGGTGCTAGATTTGGTAACTGTTGGAGCTGGTGCTAA autosomal
AAACTGATTTAAAGGAAAAAAAAATCAACCAGATCAAAATTTTATGAAAA autosomal
CTTGGGAGGATATGGGGGGACACTCTGAGAAGGGGAGGCTCAGGGGGGGC autosomal
ATAAAATACATGTAAAATACCCACAGTATGAGTTTTAATCACAGAACATC autosomal
CCAATGAAGGACGGACAGGTGGAGGGTCCCAGGACGTCTGCCTATCGCCC autosomal
GAAAAAATTACACTAACAATAAATACAAACACCTCCTCTGAGGATCAGAC autosomal
ACCTTGGCCAGAGAGGCTGGGGCTGCTGGGGCTCACAAGGCATTCACCAG autosomal
AAATTAAATTAAAATTCAGAGAATTTGTGAGATTTAGTCTCCTCACATGA autosomal
ACTCTCTTTTTGCTTTGTGGGTAGAGATGTTTTCAGCAGAAGAACATCCA autosomal
ATGACAGCGACCTCACCATATCTGTTCCCAAAAAGAGAGGTAAGGAGGCA autosomal
AATCCTTCCAACACTAGTCTTTGAACACATCAACTCTAAAACAGTCATGT autosomal
AAAGTTCAATTATTATTATTCTTGAGAAATCTTCACCAGCACCTACATAT autosomal
CTGACCGGGGAGAGGTCCTGGTGCCGAGCACAGCCAGAAGGACAGAGCTC autosomal
GTATTCATTTTACTGTTGAGTACTCCTTGCAAGCAAAGATTGGTAGAGAC autosomal
CTTGTCCCTGTCTCCTGTGTCCTCAGCCTTAACCAAAGCTGCCATCTGGC autosomal
AGAGGAACATTTTCAGGATGTACAGTTTTTGTTTTGTTTTTCTCTCTCCA autosomal
GGTTCTGGCATCCCCAGGGGATCCCACGGATCCCAGACCATGGTGTAGCA autosomal
AGCTCCGACCAGGCAGGGACCCCCACCCTGGCTGCCCCCCGAGCACGGAG autosomal
GACTTTCAAAGAAGCTGCTTGTGGCTTTATTAAGAACACTGTTCAGGGAA autosomal
GAGGGAGCTGTTGTCCCTGTAGATGTGCTGCCTGGGGCTTGAGTGGGCCA autosomal
GCTTCCTAAGGACTGTGACATTTTCTTTTGATGGCAATTTCCAGTGTGTA autosomal
CCATGAGATCCAGGTGCAGCAGCGAGGCCGAGGTCTCCTCCAGGAGCAGC autosomal
GAATCAAATCCACTGGGCTCAGTTAGTTCCATTTTCTGTGCTCTAGCAGC autosomal
TAGCATGAACTTCTCCCATGTTCATCTGTATAATTTATTAAAAAAAAGAA autosomal
ACCACTATTAAAAACATTTATCCTTCATATTTTTTGAAGATGAGGCACTG autosomal
AAATGAGCCCAAGACCATTGCATGTTGCCTGTGTCGCTGTTGAGGCAGGA autosomal
AGGGGGCAGAAGTCCCTCACCAAGGCCTATGACGTGCCCTGCTTTCCTGC autosomal
AATAGGCCAGTCCCTGGAGCGGCCGCGCCGGAGCGTGGAATTTGTCCGAG autosomal
CCTTTTATGGGATCTGCCTTTTATGGGTAGAAAGAAGCAGGTGGTGAGCC autosomal
AACACTCCTGTGTTGTCCAAAGGAATTAATGAGTGTATCTCATGGAAAAT autosomal
AAAGACAAGTACTCAGGGAAAAAAATACAGCTGAGTCCCCTTAGGGAGAT autosomal
AAGCTTAGATAATGCAGGATGAAAAAATAAAATACTCTCTTTCCCAGTCT autosomal
AAAAATACTGTTTTCAGTCTGACAAATTTTCAACAAGGTGAGAACTGAAT autosomal
AAATGCATTTTGAAAATTGCTGTTCAGACCAGGAATTTAAAAACGATCAA autosomal
TGCAATGAGTTGAAATGTTGATTCATCCAATGTTTTTCTGACACTTCTAA autosomal
CTGATTTTATGCCAGCTGCAAGTGGTAGGCAACACCTGATTTAATGTGAA autosomal
AGTAATACTGCAGCACTGGCATCACAAGGACTGATGAAGTCTCTGCCTGC autosomal
GGCATCTACAATTCCCTGGAGAAAACATTTGACAAAGTGCACATAAGCAA autosomal
GTAACCCATGGTGGTCAGGAAATTCCACCAACAGGTTTAAAAATAGTGCA autosomal
CCTGTTGTGGTTTTTTATTTTTTTGAGCATAGGGGTTTTACTGCTGTTTC autosomal
ATGATGAGTATCTTCCTGAAGAGAAGGCAAAGGTAAAGAGTTCTCTTCCC autosomal
AACCAACATTCCATCATTATACAAATGTCACCCCTAATTTTGTATTTTAT autosomal
GTTTTCTTCATGGGCAAGTAAATAGTTTCAAACTCACGGCCTGCTATTGA autosomal
AGCTTTCATTGCACTGGAGCTCAACACTGCCTAATGTGTCCTGGCTGTGG autosomal
AGTGGGGGAGGGGTGGGGGAGGGGGATTCACTCCCCTCCCCCTCCCCAAA autosomal
ATTGGCCTATAGAAGTGACAGGCAAATGCAAAAGACAGTCTGTCAATTCA autosomal
ACCCTTATTCCTAATATTGTTTTCATTGCTGTTTCCGTTGCTTCGTTAGG autosomal
ACTGAAAAAACACATCACCTTTTTTGGGAAAAAAATGCAGTCTTCTAACT autosomal
ACTGCAACAGCCCAAACCACATAGGGCTGAGCCAATGACAGCCCGCTACT autosomal
GCTCTGAGCTGAGCCTCACCCTCTGTAGCAGCTGCCCCTTCCAGAACCCA autosomal
CTGACCTGGAATGGAGGAGCTCCTTCCTCTGGGGAAGGGCACAAAAACCA autosomal
CCAATAGCTTCAATAAAAACTAAAATGGCAGCAAATACTTGATGATGTTA autosomal
ATTAAGACAAACTACACAGAAAGTACAGTTAAGGCAATGTTTCCATTTGG autosomal
CAAACTGACACTCTGCACACTGAGTGTCGGACTCAGCTTGTCAAATACAC autosomal
CTGCAGAATTTTCCAGAGATTTTAAGAAAGATGGACCTACAGGGACACAA autosomal
AAGTTCATATAATAGGCATATGTACAAGACATATGTTATTTTTATTATAC autosomal
AGGACCGTGGCAAGAACTGGTATGACTTGGAGGTATACAGCTAATGCCTG autosomal
AAAGATACCTTTGTGTCATAAAGACTTTCCTAACACAACTCTAATGAAAT autosomal
CTGCAGAAACAAAAATCCCTAAGAATTCCACCCCAAGCCCCTTCCCACCC autosomal
GGCAGTGCCGGGAGACTGTGGTGAGGTGGGGGAGAAGGGTGAGCATCGCA autosomal
AATGTTCTGTTTCCAAAAATTAAACACCATCTAAAGATCCGTCTCTGCAG autosomal
CACTCAGGACCTGTGTAATGCTTCCCAGCTCAATTGTGCCTCCTAAAGTG autosomal
GAAGAGTTACCATTGTTTTTTAAGCTGTAATGGGGGTATTTTTAGCAACA autosomal
CAAACAGCATTTCAATTTAATGATGGAGAGAGCTGGAGAGACGGGGGGTG autosomal
ACCGGGAACTGGGATGTTCCCAGTGCTCCCAGTTGAGAATGTGTGGAAGA autosomal
AAGGCATGGAGAAGGCGGCCAGAGCTGTGGGGGCCGTCCCCAGCCCCAGC autosomal
CGACAAGCGCCTGCTCCTCAGCACCGTGTCCTCCCTGTCGGCCCTGCACA autosomal
CAATATTGCACCCTCTCAGTCATCCAGCTGGCACAGGGCTGCCACACCTC autosomal
GTATAGTGTATTTATGACTATATGTAAAAACAAACAACATTGTAGCAAAA autosomal
AAGAACACAGGGAAGGAAGGACTTAAGTCTGCAGCTTGGATCACTCAAGT autosomal
GCCCAAACCTTCTGCTGCCAAACCTCCGTGGGGAAGACTCTGCGAGCAGA autosomal
AGCCCAGACCATTCCTGGGGACACTGGGGGCTGTCGGGTGTCCCCTCCCC autosomal
AGCTGGTCACGTCCTGGTCAAGGATAATGGGCTGGGATGCAAAGACCTGG autosomal
GTCATCTGCTGGATTCAGAGAACCACGATCCCAAGAAGAGTACCAGGAGA autosomal
AGTTGTTTATTTGAAACATTAAAGTGCCAGGTTTATGTACAAACAATTAA autosomal
AGTGTATTGAGAAGTGTTCTTCCTCCAGAGCATGCATGACCAAGGCATCA autosomal
GGCAGGCCCCAGCTTCAGCCCCATGTACTTCATCATCATGTCGCTCCGCA autosomal
CTTTGTACCGGTGGTTTGAAGTCTCCACTCCTTCCAGATCTACACACACA autosomal
ATACAGTTACTGTTTTACTCCCTGACCACAGGGAGAGGGCTGAACAAAGC autosomal
AGGAGGAGGAAGAATACGAATACATGAACCGCCAACGGGGGGGAACCGGG autosomal
GCTCTTTGTACAGTATTTTAACTGCTGTCTGGAGGTTAGTGTTAATTGAA autosomal
AATGGGAAAGCTCAGTAAAAAGGCCTTCTAACACAGTACAGATTCCAGCG autosomal
GCTCTGCTAGCAGCAAAGCATGCAGCAGCAGCAGCAGCCAAGAGGACCAC autosomal
AAACGCGTTTTGCTTTTCAAACTCTGTCCCACCTGCACTGCTCCAAGAAA autosomal
CATGACCGTGGCTATACAAGAAGTTAGACAAACGGGGAGGGGAACATTCA autosomal
ACCCAGCTTCGGAGAGGGAGTGGAACCCTGGCTGGCACCGGTCACACTTG autosomal
GCTCTGGGCCAGATACTGGCTTTTCACTGCAGGTACTGAGCCCTGTTTGA autosomal
ACAATGCAGCACATCCACATTCCAGCCCCACGGCCTTTCCCCAGGAAAAC autosomal
AGAACCAAAGTGCTTGAGTATAATTAAAGAATTGTTCTGCCTATGGCTAA autosomal
CCCAAAAAGGTTTTGTGCCATTCATGTATGTACCTGACACATCCTTTTTC autosomal
TCTCCATAGTTTCCCTGGTGACAACCAAGATATTGAAGGTACATGTCCCA autosomal
ACCATGGTTTGATTTATTGATGTTGGTTAAATAACCCAGTTTGAGATTAT autosomal
TATGAGACTTGCAATGTCTTTGCAGCTGTTATTTTTATCTCAAAACAATA autosomal
CCTCCTGGCCCTGAAACTGCCGGCGCTCAGTAGGGGAAGGCGGACACGGC autosomal
AGCTCCGCCTCCAAGCCATCCAGAGCAATGTCAACCATCACAGCCTGAGG autosomal
GCCGCCGCTGCCAGGACCGCCAGGACCTCTATTACCTGGCGGGCACCTAC autosomal
AGGGAGAAGAACAGCCTGAGGAGTGAGATTGAAAGGCTGCAGATGGAAAT autosomal
CTCAGGATGAGGAGTCTGTTTTTTGGACTATACTTATTGGAATCTTGAAA autosomal
AGAACACTTGTGTTAGCTCTTTTTCTACACTATAATAGATAAATATATGC autosomal
CTGAATCAGAAGCCATTCTGCAAGCCTTTTTCATATGTAATTGAAACTCC autosomal
AGGCGAGGGCCGGCTGTCCCCAGGTGTCCCCAGGTGTCCCCAGGTGTCCC autosomal
GTCACCCCAATGTCCCCAATGTCACCCCAGACCCTCCCAATATCCCCCCA autosomal
GAAAGCCAGCAGGAAAGGGCACTATTACAGTAGGTAAGGTTTTTGTTTGA autosomal
GCTTTCTACTATAAGAGGAGAAAGACGTTCCGCGGTGACTACTTTGCTAA autosomal
AAGGATCAGAGAAAGGCAGAGCTGCTTCCAGATGGGTGGCACGTTGCTCC autosomal
AACAACCCCGAAATCCAAACCCCAAAATAAAAAGGAGCTCTCTTCCCTGC autosomal
AAAAACAGCACTTCAACACATTAAAATGGTGCAACCGTTTTGAGAGCGAT autosomal
CCGGCGGTCCAGCTCCCGCTCCACCGAGCCCCGCTCCCGGGACATGTCGC autosomal
CATCCGTTTCGCTACATCGTACACGTAGGTGATGTCTGGGCGCTTCTCCG autosomal
CAGCCAGGCAGGACCGGGACTTGTGGGGCTCCTCTGCTGTCACCAGGGTC autosomal
CTCCACTAGATTAAAAAGATCATAGGGAAGGATACTGAGCAATATAAAAC autosomal
CAGCGGCCGCTCCAGCGCTCGGCCTCGGCGATGTCCACGCTGTACCCGGA autosomal
AGTTTCCAGCTTATGGCTGGATATGTAATTAAATAATGAATTTAATTAAA autosomal
AGGAATTTAGGGAGCTGGAGCAGGAGGGGTCCTGCTGGGAAACACAGAGC autosomal
GAGGGGGGAAAAAAAACCCCAGAAAATCCCTGGAGGAAAAAACAAAAAAA autosomal
AATACACGGCAAGCAGGACGGACAGGTGTTACTAGCTGTGGGAAGTGTGA autosomal
GGACAACATCGTGGCACACCTGAAGCAGCTGTACCGGCTGCTGCAGAACC autosomal
AATTTTCTTCTCGTGCGAATCCATCAGCTGCCATGGAGATTTGTTGGCAG autosomal
TCAGGTCTGCATAGAGCTGTAAAAAAAAACCAATGGTACTCTGCAAATCA autosomal
GAAGTTGTTCTGGCTTATGGAACAGTGCAATATCCTGGAGATGCCTGCTC autosomal
AGAGAAAGAAGAATAATCTTTGTTTGGAGATATTGTATCTCGCCACTGTA autosomal
AGTAGAAGGGCAGAACCAGATCCCTCAACCTGCTGGCCACACTGCTTTTA autosomal
GCAGCTGCAGGTGAGCCCAGCCCGGGTTGGGGTTTCCAGCAGTACCAGGA autosomal
AGGATCCGCTGCGCCCGCCGCCGCGCCGCCGCCAGGCTCCGCCGGTTCCA autosomal
AGGCAAATGATACACCGAAAAGACGTTGTGACTGTAGAGTCTCTCAGATA autosomal
AATAAATTAAAACAAATACCCGACTTAGGGTTGAACACTCCCACGAATAT autosomal
CTTTTTCGGATTGAGTTCTCTTTTGGAGAAACCAGGTTTTAGAAATGAAC autosomal
AGCACCATAATAATGTCAAAATCATGTTTAATTGTGAATGCAGACATAAC autosomal
CTTGCACAACTTTTTTTTTTTTTTTTTTTTGACAGAACTGGAACTACAAG autosomal
CCTGGTGAGGGCCCTGGACAGAGCAGGGGTGCAAAAGGTGCCGCCCCTGC autosomal
GACAAGCTAAGATTAGTTCAGCCTTGTGTAAGAGCTTGTAATAACTGTGA autosomal
CACATCAGCTCACGTCCATCGTCATCCATGTTTGCCCCACCTCAGCACCG autosomal
TCAATCTATAGCACTGTCTGCCAGGTGCAGTTATTTTTGAGAGTGTGACA autosomal
AATGATCTGCAGTTCTCTTCATTTTCATAGAAAATCCCCCTATCATTCTC autosomal
ATGTTCCTTTATACCTTTCTCCCAACCCGAAGTGCAGCTACAAGTTACTC autosomal
GGATGCAGAAATTCTTCATTCACACACACCAACTCTGTGTAAACTAGGGA autosomal
AGACAAAGATCAGGACCAAAGGATTAGTCTCCTTGACAGCTGTAGTAAAA autosomal
ATAGCTCTCTGAGCTGGGGGTTATATCAGAAACCACGCAGGAGAGCAATG autosomal
CCTACTCAATTCCCAGACTGTCAGGAGAATTATCAAACTCTTAAAGGCAG autosomal
CAAACCCTCCCAGGGCTGGGAGCCGCCCCCCTCCGCATCCTTCCGCTGTC autosomal
ACTGCCCCGGGAGGCTCCCAAGCTCCTGCTCCATCTCTGGAGTGGTGCCC autosomal
CCACAGGGGGCCCCCGTTGTGGTGCCAGCGCCCGGCGCTGGGGCCGGGGC autosomal
CAAAACCACCCCCAAAAACCCCCCAGGACCCCCAGAATTCCCCCCCAGGA autosomal
GAAATGTATTTTTATTTAAGTTCATGTGAATAAACCACCCAGCATTGCCA autosomal
AAGACCCACCGAGGAGGAGATTTGGCGGCGCAAAGCTCGGCCCCCGCCGG autosomal
CAGTGGGATGTGCAACGGGGCAGCCGTGGGGTGAAATGGGGTGGCTGTGA autosomal
CGAAACCAAAAACACAACAACAAAAAAAACCCAAGGGCCTTGTTCTTCTC autosomal
ATAGATCTCCTCTCCCTGTGACCATGGATATTGTGTTCAGCATCTGAAAG autosomal
GTCCCCAAGGATACTCTGCTATCAACTTATAGCTTTGATTATTTTACTAA autosomal
CATGGAAAGAGATACATATAAAATTATGCTTTCTTTGTAATACTGAAAGA autosomal
CCCCGTGCCCTGCCAGCCCCCCGTGCTGCGCCCGCCGCCGGCTCCGCTCC autosomal
CACACCTGTACACACATGTACACCCCTGTGCACCCCTGTGCACACCTGTA autosomal
TTGGTGTCTCTTTCAATCTATGGACGTTTCCTTGTTTCCAGCAACTACAA autosomal
CCATCCCCGTATTGACTTCCTTTGGGGCCAGGAACTCCTCCATCTCATTC autosomal
AGCTGAGGATGTTGCCAACAGCAGCAGAGGTGGAGGATCCCACCACAGTG autosomal
GCAGTCTTAGATTTGCCTTTTTATATTATTTATATATTTATATATATATA autosomal
ACCGCACCCCAAAAATGCGGCCCCGCCCCCCCCCCCCAAAATTCCAGAGC autosomal
CGTCACTTGGTCATGGAAGGGGACTGGTGCTGGCTGCATCCCAGCTGGAC autosomal
AAAAAAAATCACTTTAATATGTTTGAAATGTTTTCTGTTTTTTTCCTTTT autosomal
ATACTCTGTCTGGATCGGGGGCTCCATCCTGGCCTCCCTGTCCACCTTCC autosomal
ATCTTTACAGCAAATGCACTGGCTGGTGAGATCTGATCTTGTAAGTGATA autosomal
CTGATAAGAGAGGTATGATATTGTCTGAGGAGACATATCTTAGGCTGACA autosomal
TGTATGCCACAGCAATGTGTCCCACAATGTGTGCCACAATGTGTGCCACA autosomal
AGAACGTTGAGTGATCCTAGAAGCTGCTGAGGTCTCTTCATCCTTCAACC autosomal
AGACGCGCTGGATGGCAGCAGGAGCCGGCGACCCTCTGCCCAGGCGGCTC autosomal
GCTCGGTGCCCAGGGTTCGGTACCCAGGGTTCGGTGCCGAGGGTTCGGTA autosomal
CCCGTCCCCTCTCCCTTCTCCGTGCCCTGAACAGCAATAAAGTGTCCTCG autosomal
CGTGGTCAAAGTGGAGCGGCAGGTCAGGAGGGGACATGGTGGCAATGTCC autosomal
TATCCATAATTTTAAAGAGACTGACTGCAAATAATATAAAAAAATAAAAA autosomal
ATTTTCTGTTTCATATATATAAAATATAGAAAATAGGGCTTTTACAACAG autosomal
CAGGGCAGGAGAAGCTGCCAGCCCTCCCTACCAGGAAGAGCAGGGTAAGG autosomal
ACAGGATGATGTACTGAAATAGGGCAGTTATGCTACAACACATTCCCTTC autosomal
AGATGAAATACAAAACCAGAGCTGCTGCTCACCTTGCTGCTTTTAACCCA autosomal
CTGCATCTACAACGACCGCCCCTTCCAGGAGCATGACATTGAAGGCATTC autosomal
TTCATTTGACAACAAAAAAACATATTAAAAATGTTGTGTGGGGGGTGCAA autosomal
CCACGTGTGTGTGAAAGTAGATGTAGAGAGCTAGGTGTAAATGTAATATC autosomal
GAGCAGTTCAGATTTAATAGGAATAGTTATGAACATTAGCTTCTGAATGA autosomal
TCCCAAGGCAGTAGTAACATTCACCCCATAAAAACATGGAAATTTAAACA autosomal
GGCTACGCCTATTGTAATTGTGAAGTATTACCATGTGAGTGTTATGATAA autosomal
CCGGGATGAGCGCTGGCATGTATTATCTGAGCGGGGCTGATGTCTCTCAC autosomal
ACCTGTGAATAAATCCATAAGATAAACACCAATTTTCTTTAAAAGTGATA autosomal
ATTCTTCCCTTTTTAAAAAACCCCAACATTTGTTATTTATAAACCTCTTG autosomal
ACTTAACTAAATCTTAAGCCTTCGAGACCCTTCATTATTGCCTTCCCCCG autosomal
CCTCTCCACCTGTATTCTTTTCCAAGGCTATTCTTGCTGAAGTGTCTTTA autosomal
CCTTCAGAGCAGAGCAATTACACGGAGGGTCAGCGAGGGGGGGAAGAAGG autosomal
CTTGTGGCCACCTGGATTTTTACCCAAATGGTGGGAAGAGGATGCCAGGA autosomal
TCAGAACTCAAACTGCACCGCAGCTCTGGGGTTTGGCTTGCAGATGTTCA autosomal
GATTTGATATAGTTCATGGAATTGCCAAAACCCCCATTTATTCCCAGCAC autosomal
AACTAACGGATGTCCCATTGTTTTCCATATTTATATTTCAGAGGCTTGCA autosomal
CAGCATCTCTGCAAACACCTGGGCAGTGCAGGGAAATAAAGGTGTGGATG autosomal
TCCCCTAGTATTTTGTGCTATTTTAAAGGAAGAGGCATCAATGCTGAGAA autosomal
CTTTCCCTGTGTAACGCCGATAGGATGACACTACAGTTAGGTTTGTCACC autosomal
CTCCTCCCTGAAGCCACAGCTGGAGCACACCTTCCTTGTCCCTAAAATCA autosomal
GCCCGAGGAGAGGAGGGTCCCCACCCCAAACTCCGGGCTCCCAGCACACC autosomal
ATGGGGAAGAGAACCCACAACCCAGAAACAATCAGAAGAACAAATTCCTG autosomal
AGCGGCCCGGGGGGGTCCGGGGGTCCCGGGGGGGGTCGGGGGGTCCCGGA autosomal
TTTATAGTGACAGATTTTATTGCATTGCCAGCTGTGAATCTAAAAAAAAA autosomal
CTGAGACCCCATGTACCATAGATTTCATTTTTAAAAAAATCATATTTATA autosomal
AGACATAACACTGGTTTTTATCAAGTCCTCCATGAAGTCAAGTGTTTGAC autosomal
AAAACATCGTCACCGCCACGAAACACGCACGCACGCACCAAAGAGCAAAC autosomal
GGCTGGAAAAACATCGGGATCAGGGGGAGAAATCCCAAAATGAGATAAAA autosomal
GGTATTTTTGGAAGTGTTACACTGTAATATTTAAGCACTAACTTGCAGCA autosomal
AAACCTAGTATCCTCTATAGATGAAAGGTGCAGATGCATGCTTTTTGGTG autosomal
CCTGTGAGTCTCCAGTTCCTGGGAAACTCTGGATCCCTGGGCATGCTCAG autosomal
ACACAGCAAAGACTTTGGGGTATTCATCAGTTTGGAGGTTACAACTTCAA autosomal
ACCCACCTCAGCCAACCCCATCTGGGGGTTGTTGGTGCAGCTGGAGCCCT autosomal
CAAGTTAAAACTTGGGGCTCTCCTGCCACTGAGGAAAGTAGAGAAGAAAG autosomal
GGCGCAGGCCAGCGCCTCGGGCCGCAGGCGCAGCAGCGCCGTGCCGCGCA autosomal
ACAGGAATGTGTTAGAAATGTATAGCAAATTCTATTATGTTTTGTAACTG autosomal
TGATACCTCAGATACCAAGAGTACAGAAAGCATAAAGAAGAAATAAAAAA autosomal
ACTCCACTCTAAGTAAAGCCTGGGGCTTTGGCTTTTTGAGAGCCTACAGT autosomal
GAGAATCTTGGCTGTACCTGTGAAATGCCTGTCCATTTCCACCACAGCTC autosomal
CACGGGCCGGGGGCTCGGCTGGGCCGGGCTTTGGGCAGGGACAGCCTGGG autosomal
ACAGCTGCCAAAACAAGGGGATCTGCAAGGTAAAATCAGAGAACGGATCT autosomal
ATTGCTGCAGAAAATCAGAGAATGGTATGTCAGGAAGTTGGATACCAAAC autosomal
ACCCCCGGAGCACCCCCCAAAAGCTCCGGACCAGGTGCTCACGTGAGGGG autosomal
AGGAAAAACACACTTCAATTCAGCCTACATTTGAATAAAACTGAGAGAAG autosomal
GCAATATATGAAAGGAAAAAAATCCATACTATATAGAATATGTAGACTGA autosomal
TATTTATTTACATCCTGTATACACATTACAAAATTCAACTTTGCATCCCA autosomal
ATAAGGAGACAGACAAAAGTAAGTTTTTGTTTTTAAAAACCTTATGTTCA autosomal
AAGAGATTGGGGTGTGTATGTATATATATATTTATATACATATATGTATC autosomal
CCCTAGCAGGGCTTGCTGCGGGTCTGGCAGCGCTTCACAGGCAGCGGCAG autosomal
TATCAAAAAGTCATCTGTAACTTATGTTTTCCAGTGTTGTGTCATTAAAA autosomal
GAGCTCCATGCCCCTCCAGGACGGGAATGTGCTGGAGGATGGTGCCTCGA autosomal
AAAAACTTGGAACAACAGACATGTTCTAGGAGTAGAGGCAGTATAAATAA autosomal
CCACCAAGAAGATCTCAGCCATGGTATTTTAATGGTGATTTCATGTGAAC autosomal
ATTTTATGATCTTTAAAAACTGGCCTCTTCTTAAGGTAAATATTAATATG autosomal
GTCCAGGTAGTTGGGGTCAGGGTAGCCATGGCCACTGAGGTTTGAGTCCA autosomal
AAGTACCAGCAAATATCAAAAACCCTCGTTTCTTGGGAGTTCAGAAAAGT autosomal
AATGCATTTGTTAAATTCTCATAATCTGCAGGGATACTGGGTGACATTGG autosomal
CCGTCGAGGACTCCTTCCGCTCCGACCGCCTCCAGTGAGCCCGGGGAGGC autosomal
CACTGCCATGGACTGAGGTTCTTGTACAAAGACTGGACCAAGTGACAAGG autosomal
CCTGAGTCCAAGAAGAAATTTAGGCCTCAAACAGCTCTTTGTACATTTAG autosomal
CTGAGGGGTCTCTGCCTCTCCTGTCCTGGGAAAGGCACTTTACATCGACC autosomal
CACACACCTGACCTGGCAAGAAACCGATACAGCTGGGAGGATACTGGGAC autosomal
AGAAGGCTCACCCCAGAAAGGAAGAAGCAGTACAGGACAGAATCCTCCCC autosomal
AACGAAGTGTCTTTGATAGAGGTGGTTTTGACTTGCATGTGTGGTGGTCT autosomal
CAGCACAATCTGCTGTCTTGAGGACTGTAACATACATGATGTGACAATGC autosomal
ACCTGGACTACAAGAACCTGGTCCATGTCATTACTCACGGTGAAGAGAAG autosomal
TTGCATAACATTTTTGTATTTCCAACTATAAATAAAAAAAATATTAGAAA autosomal
ACAGCTATCGCAGGCTGCAGCTGGGGCTGTTGGTACATCTTGGCCCCTGT autosomal
AGCATTTTCATTTGCTTGTATCTCAGTCTTCTTGCATCTTTCCTGTTACG autosomal
AGCAGCCTCTGGGAGATGGCAGAGCCCACCTCCCCCACAGCCATGAGTGC autosomal
TAAGTGCCTTTGCTTTATGGTCTTGAATGAGGTGAAGCTGAACAGACAGA autosomal
CCGTTGTCGAGTCGTCGGCCTCCAGCAGCCTTCGCTGCCTCTCTTCAATA autosomal
CCTCTTCTTTTCCAACACCTGCATCTCATCCCTGGTTGCCTCCTGCTCCC autosomal
GAGGAAGAGGAGGAGGAGGAAAAGGAGGAGGAAAAGGAGAAAAAAACAAC autosomal
GGTCTAAATTAATTGAATTAAGTTCAAATCAAAAAGTGGGAAATTTGAGA autosomal
CAGGGCAGAGAGATGGGCCGGGATGGTTATTCAAAGCGACGGGAACAAGA autosomal
AGCTGCTGGGACTGGCTCCTTGTGGCCTCTTTGGTGTTCCTCCTTCCGTA autosomal
CCCTGCAGCGGTACCTGCCATGGCCCCGGGTGGGTGGAAGGTCCCGGCCA autosomal
GGATTTAAAATACTACTTGTGCAGCGTTAATGTTACTGTTCACTTTATTA autosomal
CGGAGCACAGCCCTCACCTTGGCCGAGCTCCCAGCGCCGGGGAGAGCGAG autosomal
CTTAGCCAAAGTGTAATACATCCAGACCTCCTTAAGCCTCCCCAGAATGA autosomal
GTGCAATGAAATCCACACGGTGTCCCACCTTATTTAATGATGGTACAATA autosomal
CTTGCGCCTCCTGCACACCTCCCTGGAAAGCATCGCCAATCCCGAAGACC autosomal
CCGACCCCCTCAAAGGAAGAAGCCAAGACTCCAGCTGTCAAATCCCCTGA autosomal
GACAGTAACTACAGGACACCTGAACAACACAGAACTGGAGAGGACAGTGA autosomal
GAGCTGCGCCGCGCCGCCCGGCGCCCCAACCTCCCGCTGAAGGTGAAACC autosomal
TGCAACAAGCAGAGTCACAGAAACCAGAGCTGAAATGTGAAACTACAAAA autosomal
CTCATAATTTCCTGAGAAGACGGCTTACTTTGTTCTCCAAAGTGCCTCTC autosomal
ACAAATTATCTCAAATCTGTAATGCCTGAACTCCACTGCAAAGGTGCCAA autosomal
AAAAGGCTGACACGAAGAATGGCAGCAGAATTACCCTCTGCACCTCAGTA autosomal
GTAGTTCCTTAAGTAATGTATGCAGTCACCCAACACTAATGTGTTCAGCA autosomal
AAATAAAAATTAAACTGAGATGTTGTTGCAGGATAAGGAATAATCTCTCA autosomal
ACTGACAGCAGTTAGGAGAAGACAAACATCCTTCAATTATCTTCTCTGGA autosomal
ACTGGGCAGTTTTCTTCATCTCTTCTACAACCAATCCTCCCTCCTGGAAA autosomal
AAAGCTCTAACAATGTGTGTCAATAGATATTTCTAAATCTAAAGGAAAAA autosomal
CCCACCAACCACGCAGTTATCCAGACATTAATGAACTCCATGGACCCTGA autosomal
AAGCCTTTTTTATCCTTATATTTGATACTGAGCAGTTTGTGTTCCCTTCA autosomal
AGCTGGGGTGCCACTGCCCCAGCCCTTCCAGGAACAGCCCAGGCCAGCAG autosomal
AAGGTGCTGTCCAAGGAGAGGATCAGGCAGTTCCTGGCGCGGCGCAAGTG autosomal
CATGCATGACTTGACTTCTAAACTGCAAGAGGTCACCTGACACACAGGTC autosomal
GGTCAACTGTATCACACTAGGCAGCTGACTGGGATTTTATCAAAGCAGGA autosomal
GATAAGGGCCACTGTGGGGTGACAGAGAATGTTTTGTTCTCGTGTCCCAA autosomal
ACTAGGGAGCATGAATTTGTTGAACTTTATAGCTTTCTTGCCTGTTTTAT autosomal
ACCCAAACTGATGAGCAAACATTAAGAAGTTTATAAAATAACAACTGATC autosomal
AGGTTCAGTATTTTTGAACATACAGAAATGAACATTCATCTAGGATGTAA autosomal
AAATCTGGGAATTGCTGAGTAGATATTGGTGGGAGGAAGGTACCATGGAT autosomal
GAAAGAGCTTCAGTCCCAGGGTGACTGACAGAGTGGCTTCTGGATGGTCA autosomal
AGGAAGTGACACTGTCACTTGTGCAGTCTTTGTTAAGGTCAACTTTTATA autosomal
GTAAGAAACCATCTGGGTAGCTGCATGGTAGGATACAAGAAAATTCTAAA autosomal
AAACCAATTGCTGTGTGTGTGGCTGTAGTGAGAGACACACCTGGGTCATA autosomal
TGCTGCTCAGAGCTCGGAGAAGAGCGGCTGCTCCCGGACGCTGCCCAGCA autosomal
AGAGTGAGTCACTCCTGCTGCAGCTGCCATCCTGCTTCAGGGCTTCTCAG autosomal
CCCCCACGTGCAGCACATGTCCTTGCACAGGCATTGGTGGCCGGAGGAAG autosomal
CTCCTTTGGAATCCAGATAGGCACAGCTGCCAGAGTCTTTTACTTCAAAC autosomal
CAGAAAAAGAACTGTGCAGCAAAATTGAATAGAAGTGGATTCAGTTCCAA autosomal
AGCGGGCAGGGGCCGCAGGGCTGGCAGCAAGGGTTGCAGGGCTGGCACTG autosomal
GAATGGTTTGGGTTGGAAGAAACCTCAAGGGTCACATAGTTCCAACTGCC autosomal
CTATGTGGGAGTGATAAGACAGAGCTTGTTTTGGGGGGAAAACTTGTAAC autosomal
TATCTTGAAAAATGCACTGCTGTTCTCCCTCTTTAGCTAAAAAAAATTAA autosomal
AGCCAGGGCGACGCCGGCGCCAGCTGCCCCCTGCGACGGGCTCTCTTCAA autosomal
CCGAGGACGAGGACCTCTCCCCCCATGCTGTGTAATGGGGGGGTGACCCC autosomal
TACTTAAAAACCAGTATCCAGTGTCTCAGTCAGGAAAACACATCAGGTGA autosomal
CACTGAGTTCAGGGTAGTGGTGCTGCAGGTCGGAGGTCCTGCAGCACTGG autosomal
GCAGGTGCAGCTGCTGGTGGTGGTGGTGGGTTGATTCCCGAAATAAATAA autosomal
CAGCTGCCCCTGCCACTGGCAATAAGAAAACCCACCTGACAGAGCTGCAG autosomal
CCTGGCCTGACCAGGGGATGATTTGCAGAAGCAATTCAAAGCCAGAACCG autosomal
ATTTTTCAGACAGTGTATCATTAAGCTGAAAAACTACATGTTACACAGGA autosomal
AAACTACATTTCTTTCAAAGTTTTGCATGAGCATTACCTGGGAACTCTTA autosomal
ATGATTATCTTGCTCTCATCATGCTCAGTACACTTCAAGCACTTAGTGCA autosomal
CATGTTGAACTGAACTGGAATAAATCTAAAGGTCTGATATATTTTAAACA autosomal
CGCCGCATCCACACCGGGGAGAGGCCCTACGAGTGTCCCCGGTGTGGGAA autosomal
GAATTTTGGGCTGAAACCCCGGGATTTCGGGGCCCTCCAGCCCCGATCCA autosomal
GAAGCTTTCTCCATGGATGAAGGTTAAAAGCAGTGCTCTCCTGGGGATCA autosomal
AGGTGGCTGTGACGTGCTGGTCAGGTCCCGGCTGGCACTTGGGGACGGTG autosomal
CCTTCGTCACCAGCGGGCTGAAGCAGCTGTACAGCTCGAACTTGCTGGTC autosomal
CGTGGCCGTGGCCGTGGCCGCCGTGCCGCACCAGAACCCCATTTTTTGCC autosomal
AATCACCAGTTAACTGCATTTATGTTGTAACTGTCTCTTAGAAGTGTGAG autosomal
GCTGTCCCTGAGCCGTGGGGCCGGGCAGCCGCCCCTGCCTGGCACTGCCA autosomal
AAATCCTAAATGATTCCGTACTGAGCCAGCTCGTGCAGCTCCAGGTGGCT autosomal
ACATTCGGCCTCTCCCCTTCGGCATGGCCTTTCCCCTCTCCCTCCCTCGC autosomal
GTGGTATTCGAAGAGCCAGAGCACTGTGCCCCACACCAGGGCAGCCAGCA autosomal
AATATGTTTTCTCTTTTATGAAGGGTACCACACAAAATTTTTTTCAGACA autosomal
TCTTCTCAAATTCTAGTTTAGAGGTAGAAAACCACTATGAAAGTCTCAAA autosomal
GTCACCCCCCCTTGCCACCTGCTTGCTCCTTCCAGCACCTTTGCAGAGCA autosomal
ATTAGCTTCAGGGAAATGCTAAAAATACTCTGTTTTCTTTAGGTTTTAAA autosomal
GAACGGGAGAGATGAGCACCTCACCTGGCCCTGCATCCCCACGGAGGAGC autosomal
CTGTGACAGCGGGCATGGCTGGGTTATTTTTCCAGCACCTTTAACCAGAA autosomal
TGGCAATAAGGCATCCATCCACCAAAAAACAGGTTTCTTCCCCATTCAAA autosomal
AATGTGATTTCTTGTTCTTTTACCAGCATTGTTTAACCAGGTCTGACAAA autosomal
GCTCTGCTGGCAGTTCTTGTTATGTTTTACTATGGAGGAATGAAAACAGA autosomal
AGCACTTCTGTACTGCATCAATGCTGAAAGAGGTTTCTTGGAAAGCTTAA autosomal
ACACTTTGTTGCACAAATGTACAGTAGTTGATCTTGAGCAAATAATTCTC autosomal
CAGGCCGCCCCCCCGCCCGCCGCCCGCTCCCCGAGCCGGGCCAGCCTCAA autosomal
AAATGCACACAAAGTGACTGCCCACCAGGTCTTTATGTTCCTAAGGGACT autosomal
CTCCATGAGTTGGTGGCCCTCCTCTGGAGTTGCTCCAGTTTGTTTATGCA autosomal
CCTGTGCCTGACACTTGGCCCCCTCCCTGCATTCACACATCCTCTCTGAG autosomal
AAAATATTTGCACAAAAACCATTTTGTTTAAAGATCTGCAATATAAATAT autosomal
AGTAACTTGTGATAATAGTAATATTATTATCTTGTGTAATAATAGTATCC autosomal
GCAGGACGGGTCTGGGTGGGAGCCCAGCTGCTTGGTGCCCTCTGCACACC autosomal
ATGTTATGTCAGCAGTTAACTACATGAATTTCAGGTGATTTTTAAAATAC autosomal
AAGCCTTATATACAGAACAATTTTATACATGGATTCAGCAAAATACATAA autosomal
GGTTTTGCTGGGCCCACAGAACCAGGCTCCAAACCCTCTGCACCACGAGA autosomal
GTCAGGCATGCATTTAAAGAGAGAAACATAAGCAATGATGCAGCTGAACA autosomal
GTTTTCAAAGTCAGACTGAAAACCAGCGCAGATTTCCTGTGAAAAATGCA autosomal
GACAATGATAGATAATCTCCCCAGTGACATTCAGGAATAATGCATTTTCA autosomal
AACCCCAAAAACCCCAAAATCCCCAAATCCCAAAAACCCCAAAAACCCAA autosomal
ACGGGGCCCGACCCTGCTTAGCTTCCGAGATCAGGCGAGACCGGCCGCTC autosomal
CAGCTGTCAGTGCTGAAGGAGGAAATGGTTCTGAAATTCCTTATAACAAA autosomal
CAGAGTCTTCTGAGATAAGGCAAACCATGCCTGCCAAGTGCTAAGGAGAC autosomal
GGCAGGGATCCATCCCTAGAGGCCTGTGTGCTCCTGGATCCAGTCTCGCA autosomal
GACGCAGTCGGGCGAGTTGCTGCGGATGGTGTCCGAGATCATCTTGCCTC autosomal
GAGGAGGTTAAAAATTCACTGCAGCACAGGACAAACAAAAGAACTTATGA autosomal
ATTTCTTCCCTGAGTCAGGGTCACCTTTTTTACTGTACAAACCCAGTCAG autosomal
CCATAACTAGGTGAATTCTTGGAGTAGCCCTTGTAAGACTTTTCTTATGG autosomal
AGTGAAATCAGTCTGTCTCAGAAATGGCTGTTTATACAGCCAATACGATC autosomal
GGCTGTTCCTTCCTCCACACACCCACAGGGGAAGGCTCTGGCTGCCTCAC autosomal
ACCTCCAGATGCTTTTGGAAGTTGTTCCAGAAGAGGAAGTTATTGAATGA autosomal
AAAATTTAAAATGTCTGGAAGTATATCTCTCAATCTGGTCTAGTTGCCTG autosomal
GAGAGAATTGGAATTGTTCAGCCTGGAAAAGAGGTGGCTTCATGGTGACC autosomal
TCAGGACGCAGATCGTCCCCTCCAGCCGTTGGCAAACGCTTAAATAAAGA autosomal
ATTTGTGTGACAATTAAAATGATAGAAGAGAGTGGATTTCCAGAGATTCC autosomal
CACACAGATATAAACTCTGAGAATAGCTTAAATTGGGTTGGAAATTATTA autosomal
CCATCCCCATGTTTAAGGCTGTTCCCATGTTCTCCTGGAGCAGAGGTGCA autosomal
GCTACAGTAACAGGTATTATCTATGCTATCATACACCCTTTTTGGAAGAA autosomal
AGGGGCCACACCAGAGCCAGTGGAAGGGGGACTCCTGGAGAGGCCAGGCA autosomal
AGGGAGCACACTGCAGCAAAGGGATGCCTTGGCCTTCTGCAGCCCCAGGG autosomal
TATCCAAATTCAAGAAAGACTTGAGCAAAGTGTTCTCATAGTTAACAAAA autosomal
TGCATTCGACTGATTGTTACTTCTATGCAAAAATGATGACATCGCAGGAA autosomal
AGAGCAGCAGTTTCCCGTTGCGGTGGATTTTGAGGATCCGGCCCAGGCGC autosomal
GTCAACCAGAACTATAATTTTTCCAGAAGTTTTGGAAGACTTAATAAAGA autosomal
CCATTCCAAGGGAGGCTCCTGCCTTCCTCAGCAGATACCTGTCTTTTCAA autosomal
CCCGATGAGCCTTCGGAAGCACTCAGCTTCCCTCCCTTAGGAAAGGAGGA autosomal
TAAATGAAAACTAGTTTATTAAAAAAGATTCTATGAAGCTGGAGGAGACA autosomal
AATCAGTAACAGCTGAAGGTAATTAATGCCTCCACTACACACTAAAACAC autosomal
ATGATGAAGACCCAGGGGTCAACGATGGAGTTGACGGAGAGGAAGCGCAG autosomal
GTTTTTTTGGTTTTATTTTATTTTATTTTTTTTCTTTTCAGTTCTTTTTA autosomal
CCTTTCTAGGGAAGGCTGAAATACAAAGCTTGAGCTTCTGAAAGGTCAAA autosomal
ACAGCTTCCCCGGGAATCTGGGATAGCAGACCTGAATCATCTCCAAGTCC autosomal
AGCAGCGGAGCGCCGCCGCCACCGCCGGGCTCCTGCAGGCACACCGGTGG autosomal
TGGGGAAACTGTACTAAATAAAAGGTGCTGTAATCTTCATTCTTGTCAAA autosomal
TAACATTATTTTATAAGTCCGAGTCAGTTATTGCTGAAAATATAGAATTA autosomal
AGGAGAATGTTTGATTAACCACATTGGTTTGGATCTGCGTTTGTCCTGTC autosomal
ACTTCCAATACTTGCAGGATTTACCTTCTATAAAGACACATTCTTTACCA autosomal
CGCGTCCGCTTCAGCGACAAGGTGCTCTACCACGCCCTGTGCTGCGATGA autosomal
CTGTTTCCTTCTGGGACCAGGAAGGGCAAAAATATCCACACACAAACACA autosomal
CCCATGTCCCGTTGTCCGCATGTCCCGGTGTCCCCGTATCCTCATGTCGC autosomal
AAAAATAAACTTCAAGTCAAAGTGCAAGCCACCTTGTTTCAGCCCTTCAT autosomal
CTGGCTTTCACACAATGCCCAGTGTCCTCCATGGGGCCTTTCTGGGTGTC autosomal
GTATCAGCCTGGTTGGTAGTTGCTGTATGATGTAACTACAAGTATTTCAA autosomal
CAAATAAAGATGAGGTGCCGTATCTCCGGAAGGGCATGGCAGGGCGGCCC autosomal
GAGCTCACATCCCAGCTCACATCCCAGCTCACATCCCAGCTCCTGCTGCA autosomal
TAATGAGCTGTAGTGAGAAGATGCACTAAAATAAAGGCTTTTTTTAAAAA autosomal
AACTTGTTGAAATTACTGTGCTAAACATGAAATAAGGTTTAACCAGAAGT autosomal
ACTGCTCAACGTCACCGGTCAGGGACACCGGGGGCATTTGGGGACATTTG autosomal
ATGTGTAAGGCTAATCTCAGCAATAGCAATTCTGGAACATGTATAAAGGA autosomal
CACTCTAGAGAATGGAGTGGTCCAGCTGAGAAGCAGAGACACCACCATGA autosomal
CCCCCCTCACCCAAAATGCCTCCTACACCCCCCAAATTATCCTCTCAGGA autosomal
ACTAATTAAAACATACCTTAGGCTCAGAGGCTGCTACCCACACAAGTTCT autosomal
AATGCTTTCTGTTCTCTGTTGGGAAATTATATCTTCAGGAAGTTTAATTC autosomal
AACCTGTATAAGTAATGTAACTTGCATCTTTGTCATCAGAACCTTTTCTC autosomal
AAGTTATGTAGAGTCACACGTTCTACTCACATCAAAACCAGCAAAGATGC autosomal
ATTTCCTTCAGTATTTGTTTATGGCTCAGTTGTGTATGCGGGTTTTTAAC autosomal
GGCTGGCCAGGAGGAGAGCTGGACACTGTGGTGCCATTTCTGCCCCTCCC autosomal
GTCTGCAGGAGTAAGCCAATATATTGCCGTGACAAATAATGGCAAATAAC autosomal
CTTTCATTTGAGGTTCTTATTTGATATTGAGGTCTAATAGTTAATAGGTC autosomal
CGGATCCCAAAATTCCCTTTTTACCTTTTTTTTTGTTTTTTTTTTTTTTC autosomal
TATCTTTTTTATTGACATTGGGGGAGAAAAATCTTTCACCATCTGATTGA autosomal
CAGGATGATCTTCCAGTCAAGAACAAGTGACAACACATTTTCTTTTACAC autosomal
CAGTCCCCTCCCTGCCTGGGGGGCCGGGGCAGGGCCCGCCCGGTGCCCCC autosomal
TAGAGAGAAAAAAGGCAAGATTTACTTTGTGACAGAAATGGGCAGTAGAA autosomal
AGAGGCAGAAAAGGACTTGTCACTGTGCAAGTGCTTCTCAGCAGTAATGA autosomal
CGGAAAGTAGATGAGTCAAACCAATGAAGAAAACCAGTCTTTTACCTCAA autosomal
AGCGGGCAGGCGCAGCGAAGCTGACCACGCTGCCCTGGCAGCCCCCCGGC autosomal
CAGGACTGTCCTGTGTACCACCAGATACACTGGACCAGCTGCACCTCAGC autosomal
TATATGATGAGTAAAACAAAAAATCACCATCTTTCGGCTGACAAGTGTGA autosomal
CTTCTATAAAAAAGGTAAGTCAAAAATCTATGTCTATTATGTCTCTCTCC autosomal
AGAGACAGGAACATTTCTGTTGGAAGCCTGTATTTTTGGTGGTTATGAAG autosomal
TAACTGAGCAGCCAGAAGCTCCCCAAACGCTGGGCTGGTGTGGATGGGGA autosomal
AAAAGAGTTCTAAGTCCCTGTTAGAAACATGAAGCACAATCAAAGATATT autosomal
TAGACATCTGAGGAGAACAATACAATACAAAAGCTTACGGGTCTTTGCAA autosomal
TAAGGCTCAGTGGAAATGATGAGATTTCACAAGCTATATTCAGCTTGCTA autosomal
GTTAACACGTAAAGTGATCTGGTACAGTCGAGGGCCTCGTGCTTGGGGGA autosomal
GCCCCATGGCCTCCTGCGAGGTACGATCTCCACACAGATCCTGGTTCTTA autosomal
AGGCACCTGCCCATATAGAGTAACATCACACCACTTCAGAAGTCTGTAAG autosomal
GCTTGAAAATAAAAATCTCTTTAGCTGTGTGGTCACAGTTTCTGGCCAGA autosomal
AGTATAAACCAGTATGGACCAGTATGGACTGGTACAGACAGTATAAACCA autosomal
AAACCAAGGAATAAAAAACCCACTAAAACCACAATTTTAGTCCAGTAAAT autosomal
AAAAAATATTAGAAAGAAATTACAAAATAGCATTGAATGGACCAGAACAG autosomal
AAGTCACAGAGCAAGATGGTGTTGCAGAGGATGACAGTTCTCTACCCAGC autosomal
TGTATCTCTCAGCACCTCTCATTGAGTGTGAGTGCTTCTGACAAAGGTAA autosomal
TGGCTTCATTCATCTGAGCATTGTTTTGGTTTGCTGAAGTATTAAATAAA autosomal
AGCAATAATCCGAGAAATCCTCGTCCACGTAATTGGCGGGAAACCAACCG autosomal
CCTAGGGCCATCAGACTGCCAAGCAAAGGACACTTGGCTGGCAGTCTAAA autosomal
CGGCCTGGGGCCATTTTGGGGGGATCCCTCAGACACGTTCCGGGGGCCCC autosomal
CCCTCATCTCGGTGTAGCCGTCGTGTCCCGGTGCTCCCGGTACGGCCCCG autosomal
AGAAGAGCTATATTTCCAAACAATTTCAGGGAAATAATTTTGTAAGTTAT autosomal
TGGTGACAAATGGAGTCTAAACTGTAAGAATGAAATCAGAAGGTGTCCAA autosomal
AATAGGAAGGGGGCAAGGGAGTTTGTCATATATGACCTGGCACACATCAA autosomal
GAAACCATAGTTAAATTTAAAGAACATAGAAAAATCACAATACTATTAAA autosomal
CGCCGGGAACGCGCCCTGGGGGTCCTGACCTACCTGGGGCAGAGCGCGGC autosomal
CTTCCTCAGATCAAACAGCATTAGACATTTGTATGTATAACTGGCTTGAC autosomal
TTAGATGTTATCTGTTAGTTTTAATGCTGATTTGTGTCCTAGAATGGAAA autosomal
GCCCACCATCCAACCCACCCTCACAAGCAACGGAGGCAGAGGTGTTGAGC autosomal
AGAGCTGCTCCAATGCCACATTTCCCTGCACTTCCTGAGCAGAGCAGTCC autosomal
TAACCCTGCAGCACTGGTGCCACAGGGAAGTGCAGTGCAAGGGGCTGGCA autosomal
AGATGCCCTGCTTCATGAGCAGCTGCTCGGGGCTGTCGAATTCCACAATC autosomal
GAATGTCTGCTCAGGAAACACATGATAGGAAAGGTTAGTGCCAAGCAGTC autosomal
AAAAAAAAACAAAAAAAAAAAAAAACAAAAAAATAAAAAAAAAAAGAAAA autosomal
CCCACAAGCAAACTCAAAAATGCCTGGAAATGGTCTCCTGGAAAAAAACA autosomal
CCGGGCGCAGGAGATCGACGGGCAGGCGCTGCTGCTGCTCAAGGAGGATC autosomal
AGTCACATTCTGGCTGTTCAATAACCCACCAAGCAACATGAGCTGAGCTA autosomal
AAATAAATACTAAATTTGGAACCCCTTTCCCAACTGTCCATTAGAAAAGG autosomal
AGCTGCTGCTGGCTGTCACGCCGAGGGGCTGCCGGGACCTGCCCCACCTG autosomal
AAAAAGCGTTTTATTGTCTCGGGGGGGGGGGGGGGTGTCATGGCAGTGGT autosomal
AAAATCATCTGGGAAATAATCTGTTGGTTACAGTACTGACAGTGGCAATC autosomal
AATAAGATACTTGTCTAAAATCTACATCCAGGCAAGATTACTCAAAGATT autosomal
CTCTCTGTCCTTTGCTCGCCTCCCCCCCTCAACTACAGATCTTGTCAACC autosomal
GAGGTACGGCAACCACGAAAGCCAGCGGCAAAGTCAAAGTGTTTGTCTAA autosomal
CCTGGTGGGATGAGCACGTGGCAGCTGTGTCACTACACGTGGTGTTCAGA autosomal
CAACGTCCACCAGCACCCAGGGAGAAGCCGTGGTGACAGTGGCAGTGGAA autosomal
CCTAATGTGGGAGGCCTGATTTCTGTAAGGAATTTACTCCTCAGGAAAGC autosomal
AGCCCCAGGAAGGCGCAGGGTGGTTCCTGAAGGGGGTCCCCAATCCCCTG autosomal
ATTCTCAGTTCACCCCTCTGGAGGGCAGCTTGGCCGTGTAAGGGCTACAA autosomal
TGGCAGGACTCTCACTGATTTCAATAAGAGCAGAATTGGGCCCCAAGAAA autosomal
AAAATAGAACTGTGTGGTGTCCAAACTGTTAGTCCTCATTGCTGCCATTG autosomal
AACTGACACAAAAAGGGCACGTACATTAAATTTACACACACACAAAAAAA autosomal
CCACTGCCACCAGCATCAATCCATGAGGGGACATGGCACATTTCAGGCCA autosomal
ATAACGTATTTAATAGATTTGCATTGCAAATGCTGCAGTATCCTCCTTTG autosomal
TATCTCCCATGTGTTCTACTATATACCAATTTTTACATTTTTATTAGTAA autosomal
AACTTTGTCCCGGTCTTGATGGCACAAAATATGGCCTTGAACAACTAAAT autosomal
AACCATCTGTTGCCTACTAGGAATACACAAGTCATAGGCATTGTTGCCCA autosomal
CCTGCTGTCCCCGAGTGTCCCCGAGTGTCCCCAAGTGTCCCCAAGTGTCC autosomal
GCATTTCTCTCAGCTCATACATTGCACATGTTGTTTTGCTTTAGTTCACC autosomal
CATGGAGTTCTGTTAACCAGACTTTGGAAACTATGAATGAAATACTGCAG autosomal
ACAGTGTCTCTCTGCTGCTGAGAAACGCCCCCACGCTTTTCTGGCTCCTC autosomal
AAAACTCCGGTTTATGAGGAAGTTCACATAGACTCCTATGTTGCCTTGCC autosomal
AGTGCATCATGTTGAGTCTTTCATGCTAGGGGAAGAAATGCTAGATGAAA autosomal
GGAGCCATTGGCCTCTCTTTAGCATGGGTGGACTGGGGTCTGCCTTAGCA autosomal
ACCCACTGAGTGAATGGAGTGCCATCCACATCCCCCAGGTCTCCATCCCT autosomal
ATGTGATAATATTCTGGCATCTGGAAAACATTGGCTTATAGTTTATTTTA autosomal
GCACGGCCGGTGGCTTGGGCGGTGGCGGGGTGGGGACAGTGGGGGACACC autosomal
TTACCAAAGAACCCTGTAATTTGGTCCTTGGCACATGCATTACTTGTCAA autosomal
ACACTGGGGACACTTGGGGACACTGGGGACAATGGGGACACTTGGGGACA autosomal
AGCACACTGTTCTCAAATCCTCCATTTTCAGCAGTAAATATTAACCCAGG autosomal
GATGCTCTTAATAACACCTCACAAGTGCAAACTTGGCTGAATTTGTACAA autosomal
AGGCTCAGGCCAGATTTCCAACTGGCACTTGCTCAAAACCCTTTTTTTAG autosomal
CTGGGCACACCTGGACCTCACCTGGGCACACCTGGAACTCACCTGGGCAC autosomal
CTTTTACTATTCAAGCAGTATATTTAATCCTTGCATGGTTCAAGAAGTCC autosomal
AGAAATGGGGTGAAAAAGGAGCAGTTTGGGGTGGAGAACATCCTTGGGCT autosomal
AAGAGACACCTTGTGCAGTGGCATCTCACAAAGCTGTGTAATTAGTTCAG autosomal
ATCCTGATCCCGATCCCGATCCCGATCCCGATCCCAATCCTGATCCCGGC autosomal
CAATGTGAGACCTCTGTTTTGAGACAGCCTTTGGTTCCACAAAGATCATG autosomal
GTCTACAGCGGCTGCCAGGGCAACCTCAACCGCTTTGACAGCAAGGAGGA autosomal
CTTCTTGCTATTTCTGCAGTTGGAGCACTGGGCTTGGCTCTTTTTGCATA autosomal
AAAAGCAGCTCCCCAGGGAGAGCCTGTCCTGCCTCTGGGTAAAGTGTTTG autosomal
GGATTGCATTTTGTATCATTACATGGATGATGTCCTTGTTTGTGCCAACA autosomal
GTGAAGACCTTTGCTGGTATAGGGACTGCTGTGAGGCTTGCAAGGTATAA autosomal
CTGCTCTATCTAATATGTAATCTTTCCATGGGATACCATCAAAGACAGGC autosomal
CATGCCCGCCGGTGGGACTGCCAGGGCTGGCGCAGCTCTGGCACGGCCGA autosomal
GGTCACTGCAGTGGCATGATTAATATACAAATTTACAACTAAATATATTA autosomal
CCGGGGACGGAGTTTTGTGGGCAGCAGAGCTCGGAGGTGGCACTGAGAGG autosomal
GCTACATATTTTACTTTATTTCCTTGTTAATCCACGCAGCAGCGCCACAA autosomal
CGAGCCATTTCTCCTACTGCTGCCTCACTAGTCTTATTTGCTTCATCTCA autosomal
ACAGACTGTGGCCGCTCCCTGTACACCCACCACGGCTCCTGCCTGTCCTA autosomal
AGACAATATGCAAGCCAGGAATGTGAAGTTTCTCAGAGTTTCACATCTAA autosomal
AATCCTGGGAAATCCCGGAGGATCCTGGAGGATCCCAAATCCCGGGGAAT autosomal
CTCCTTCTCCCTCCCAGAGCCAACAGCGGTCAGCATCCCACTGCTCCCTC autosomal
GAGCAGTTCTTGGGAGCAGCCAGCAGCTTTGAACCCTTCTGGGATGTCAC autosomal
CAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAAAAGAAAAACCAAACGA autosomal
CACAGCAGGCTGCCACAAGTCCCTGCCACGCCTTTGGGACTCCAAAGCTC autosomal
CCCCGGCCGCCTGCTCTGCTCCGTGCTGGATTTCTACCCTGCCCCGATCC autosomal
ATAAACAGTTTTGATGCATTTTGATTGTAACAGAATATTGCTAAAGTTCA autosomal
ATTATTTGTGTCTCCCTGTCTGAAACACTTGGGAAAATACATGTAGGAAG autosomal
AGACCTGGGGCGTTGTCAGAGGATTTGAACAGCTGAGGAAGGGCTGTGTG autosomal
CACGTTCCTCCTCAAGGAGGGAGCCTGGAGCCCAAAAGCCACCCCAGCAC autosomal
AAACCTGCTCAGGGCCACCCCAAACCTGCTCAGGGCCACCCCAAACCCGC autosomal
GACACACACCATGTGTCTCTCATGGGAGAGACAGTCGCAGTCGGTGTGTA autosomal
GAATGACTCTGTACTTACTGTTCTGGCTTTTGCACAAGCATTTCTTTCCA autosomal
CTCCCCCTTGAGCAGCAGCTTCTTCCCACGGGGCACCCGCCCCTCCCCCC autosomal
AAAATTTGGGAATGAAAAGAGGGAAAAGTGGGAAAAAAGGAGGAAAAATG autosomal
GTTCTTTGGAAACAAGATCCAAAAATGGGTCATTCTCTGGTGTAGAACAA autosomal
CCGCCAGCGCGTTGCGGCCCAGCGAGAGCTCGCTGAGGTTGCCCAGGCGG autosomal
ACAGGGCTCCAGCCCAGCAGCAGCCAGCAGGAGCAGCTGCCACTGCTGCT autosomal
GCACCTAAAAGAGGAGCACTGCCAGCAGAGAGAGGGGCTGAGCAATGATA autosomal
CAGAAATCAATGAGCTGCACTTGGACTAAAGAAAGGGAAAAGAGCAAACA autosomal
AATACTTTGCTGCAGGCCATACAGCAGAAATTAAAGCAACATATAAGTAA autosomal
GCGGGCTGTACTCTGAGAACAGGAAGGTGCTTTGGGCAGTGCCCATGTCC autosomal
GCATTCCCAGTTTCACACGGAGCATTCCCAGTTTCACAGGGAGCATTCCC autosomal
AGCCCCAGCAGAAATCCTGCAAAAAAAAAAAAAACGGATACAAAGCATAA autosomal
AGCTGAGCCCAGGGAGTTGAGCTCTGTTTAGCACAGCCCAGGGATTTGAG autosomal
CCTATGTTGCCACTGCTGCTGCTTTGAACTTTGTGATTTGCTTGCAAGGA autosomal
CGGCCCGGCTGTCCTGGACGTAGCCGTAGCATTCAGTTTACATTCAGCAC autosomal
GACTCCAGAGGATGGATGAATCAAGATATGAAGACAGATTTTGAAAAAAA autosomal
CTATATTAGACTTCCTATAATAAACAAAGTTTTCATGTATTACATAAAAA autosomal
CTTTGACCATGGCAGAAGATCTTTAATGCTCATATAAATCCAGGAATGGA autosomal
ACTCCAGGTTCATCATGAGCATGGACTTGAGCTGTGTCTTTGCTCTCTCG autosomal
AAGTTTTTAATGTAGTGATGATGCTGATGGTTATTTTGATGGTACTATTA autosomal
CAGTTTTTACAATGTCACTTTTCAAGGGCTCGGCTGTGCTGCTTGGGTTA autosomal
AACCGAGAAACAGCTGCAGCTGGGGGGAACCTACTGAATACCACCGAGGC autosomal
CAGTATTGTCCCAGCAAAAAGGGGACAGCCCTGCTGGAGTCCAGGAGTGG autosomal
CTGCAAGAACGAGAGTGACATCACATGTGTTAATGAGGTATATATTGCCA autosomal
AACTGTGACAGTGAAGGCAGATCCCACACAAATGGAAAAAAAAGTCAATC autosomal
CAGAGAGGAGGCAGAGAAATGCAACTACTTCATCTTTCAGTGGTTAGGCC autosomal
CCCGCTGCTCTTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCC autosomal
AACGAGATGGCCGAGATGCGCAAACAGAGCGTGGCCAGAGGCAAGATCAA autosomal
CCCCCAGTGCATCCCAGTTCAGCCCAGTTCAGCCATCCCAGTACATCCCA autosomal
ACAACCGATGTAACTTTTGGGAAAAGCAGACACTGAGTTCGTGGGGCACG autosomal
GTAGCTGCAGGTCTCCAACAACGTGCCAGAGCAATGGGAAGGTCTTTGAC autosomal
ATGTACCAATAAACCAGAAAAAAAGGTCTTGCCCAGGTGGGATATGAAGC autosomal
CCCGGCCTCACGCACGCACGCACACGCTGCCTCTGCGCGCCCCAGCCTGC autosomal
AGTGCTCATTTTCTCAGTAGGACTATCTTCTGCTACGAGGATCACAAAAC autosomal
CCAGGTCAGTTTGAAAGCATGCTTCTCTTTATCTCAGATCAGCTCCTGTA autosomal
CCTTTTCTCTAACAGTCCCATGCTGTTCCCCTGCACGCTTTTACACGTCA autosomal
ATTCTCTGCTACAAGTCCCTGTCGTCATAGTGCCTTTTAGCTCCTACAGA autosomal
AAACAACAAGACTTTGACCAAGCTTGATCTCCGCCATGCAGAGGTGGACC autosomal
AAAGCATTGCTTCTCCTTAGGAAAAGGGTGGGTGAGCAGTTCCAAGCTCC autosomal
AGGATGGAGCAGCTCTGCTGGGAGAGCTGGGAATGTTCACCTGGAGAGGA autosomal
ACCTGCACTGTGATGGTTGGTCCAAAGAGCCAAGGAAAGCTCCTGCCTCT autosomal
ATGATTCTTTCCCAGTTTTGCCTCCTTAAGGGATAGAGGAATAGGCTCTA autosomal
ATTTGCACTTTTGGCATCTCCTTTTCCTTCCTGAAAATAGATCCATGTCC autosomal
AGTGCTGCCCTGCTGGATATGCTTGTGGAGGAGGGTCCTTCCAGCCCAAA autosomal
TCTTTGGCGTGTGCTTCATCAGAACATAATTAATGAAAAGAGCAGACAAA autosomal
AAGCATGCTATCACCTACTAAGTAGATATGGTACTCTGGATCCTATTAAT autosomal
ATTTTAAAATCTTTATGTAATAATTATTTTGAAGTCTGCGTCCTAGTCCC autosomal
ACTCTGAGTAAGGAATATAATACATATATATATAGAGAGAGAGAGAGAGA autosomal
CTCAATTTATAGATTTACTATTTTAAGTCAATTGCATTAAAGTGCAGTAA autosomal
CTCGGTGGCTGTCATCGCCGCGCAGCACTTGTGGCGGTAACTCACTGGCA autosomal
CTAAGAACAGCATTCAGTCCTCTGCATTTCATGTGACCCAGAAGACTGCA autosomal
GGTTACATGATTGTATTATTTCCTTCAATTCTATTTGCCAGAATGCTAAC autosomal
TTCCAGAGTTCAAAAAGATGTGTTGATAATAGCACATATGCTACTGAGAA autosomal
CAGAGCAGCTCCAGCACAGGCAGGGACACCCGGCTGGGGACAGCAGGATG autosomal
GGAGAGTCGAGGAGGGTGGCACACGACTGGCTCACAGAAGCACGCATGAC autosomal
AGGCTCAAACCTCCCTTCAGCCTCATCCTTCATTTTATACTTCAACAGCC autosomal
TGCATAAAATGCAGTCACCATACCTGGGAGGAAAAGACCTGGCTTTCCCA autosomal
CCGAAGGCGCGGCAGTGCCGGCGGATGACCCCGGCCAGCGCCGCGGAGCC autosomal
CAGCCATCTCCACTTCCCTGGAAAACCTGCTCCAGCCCCGGGCTGTACCA autosomal
TAAACTTGTTTTTCCAGGACTTCTAGGGGCTTCAGGAGGAAACCATGACA autosomal
ATGCAGGTGCTGGATGGAAATCCCAAAAATTTCAGGGTTTTTTTCCCACC autosomal
CCTGCAGATGCAAGAAACCTTTTAGTGCAGGTTAAAGTACTGTACATTCA autosomal
CTTTTACATCAATGGCAAATTCAAGGATGCAAATGTAGAATTTTCTTCCA autosomal
ATTCCAGGAGGACGTGCTGCCCACTTCATCCTTCCACAACAGGGAAGCAG autosomal
GGGGAGTCCCCCTGACTGCTGCCCTCCTGGCTGGGGATAAGGCAGGTGAA autosomal
GTGAATAAGATGTTCCCAGCACTGATGACAGCGAAGAACAGGAAGGGCAC autosomal
GCCTGGACAACCTCTGTCGGATGGACCCCGCCTGGCACCCCTGGCTGTGA autosomal
CACACCAGTATGTTGTGTCAACAACAGCTTCCTGAACCACAGTCAGCCTG autosomal
CCCACCCCGCTGGCCAACAGCTGCAGTGAGCTCTGTGTCAGGCAGTGCCA autosomal
TCCCTGAGCATCCCAGGAGGGGATTCCCCCTCAGGACACCCTTTCCAGCA autosomal
AATTAATTCTTCAGCCTGCAGACAGGATTAGTATGGAGAGGGTTTTTTCT autosomal
GACTTCTTGTATATAAAGTGTTGCACATGTATTATGTTGTCTGATACTAA autosomal
GATGTTCAAGTTGCTCACTAGAAAGTAATTGATTTCTCAAGAGCAAATAA autosomal
AGATAAAAGAAATTGGCTGTTTGCTACTGTAGAATAAGATTATATGTATA autosomal
AAAAATGCTTTGAGGTGCAATATAGGTTGTTACAATATGGCATAACCCTG autosomal
AGTGAGAGCACTCTGCACTGTTTGCAGGAAAAGGTGAGATGAAAAGGTAT autosomal
CCGATGAGCGCCAGCACGATGCCGAAGAAGACGTAGGAGGCGGTCTCCAG autosomal
ACCCCCCAAAGCTTCACCTCATCCTTGGCCTGCAGCAGGAACTCGCTCCC autosomal
ATTAACTGTGTCCTGAAGCCATGCATAAACGTATTCATAAACCAAAAGCA autosomal
ACTTTCACATGTCATAATTAAGGTGGCATTAAAGCTTAAGTCCCAGTAAT autosomal
ACTGTTTTTTATAATCTTGCTTTAAATGAAATATTCTATAACCAAAGAGG autosomal
CTCCGCGAGGAGGAGGAGGAGGAGAGACAAACGAACCTGCCCGAGGAAGA autosomal
AGGTGTCAGAACTTCTGGAACTGCTTCTTGGTGCCCGCAGCCTTGGTCAC autosomal
CCAACTCTAAATTTGGATAAAAGAGGGAGAGCAATTTTTTTATCACCTGC autosomal
ACTAGGCTTCAAACAGATCCTAGGACTCAGACTATTGCACTCTTCATCTC autosomal
AATTTACAGCTTTCCAGCCCAAATGAAATTGGTAATTTATTAATTTCTGT autosomal
AAACCATTTCAATGCTTGTTTAGGAGGATTTATAGGCTAGAAAATAACAA autosomal
GCCCCCTCCTGATGGGCTGCCAGGCTTCAACAGTGGTGTTCTGCTCCTGA autosomal
ACTCCTGACTCAAACTAAAGAAGAAAACAAAGTTTATTTGGCGTGTTTCA autosomal
ACAGCTATTGCAGCATCCAAATGCCCCAAAGCCCTGCACGGCCCCAGCAC autosomal
ATTACAATAACTTTTAAGTACTTGCACAGACATTCCTAACTACACCGAGA autosomal
CGCCGGCAGGATGGCACGGGGCGCCCGGCGCCCACCCGGGACCGCCCGCG autosomal
CCAAAGGATCAGAACTGAGCTCTATGTTAGTAGAGAAGGTTCCTATGAAA autosomal
ATAAATCTATCCAGCAAAGTAACATGTTGATATTGATTGTATATAACATA autosomal
GACATGAGGGGGAGACAGGGAAGGGGATCCTGGAACGGGTCAGGATCCTC autosomal
GTGCTCTGCACCAGTGGATGGAAGCTGTGCCCACGGAACTGACTGGGACA autosomal
GGAGGGGGAAATCTTTTATTTATTTATTTATTTATTTATCATTTCTTTTA autosomal
CGGTGGCGCGGCGCGCAGGCTCGAAGGCCAGCATGGGCCGCAGGAAATGC autosomal
AAAGTGTCTGGGGACGTGGAAGCTGCTCGGCACTACAGCTCCAAGGCACG autosomal
ACAACCATGTTTCCTCTTCTCTTCTGAGTGTTGCTTTTCCCTGATGGCTC autosomal
AAGGCTATCTGATTACCTTATCTTATTTACATTAAAAGAATAGACACCCA autosomal
TAGTCCCATTCCTTCATGAGCTGCTAAGTCCAGAACTACAGCATTTAAGA autosomal
CCACCGTGGAAGCTGCGGCCGCGCGGTACCGGCAACTCCTGCGGCAGAAA autosomal
GTCAACGCCTTCTCCTGCCTGAGGATGCTGCCCGTGGGAACATACTACTA autosomal
CAAAGTGGGACACTCCCCTCTTATTTAACCTTGCAGCAAATAGCTTTAAA autosomal
ATTTCCACTTTTATTCCCCAAAACTTGACAATTTTTTTTCCCCAAATTCC autosomal
CTTTCTGTATATATTCCCCTCTTCCCTCTATCATTCTCTACCACCTCTAC autosomal
ATAGGCACAGCAGAGACACAGGTTTGCTATGCAGGCTTCCACCAGAATGA autosomal
CAACTGGAGCCCTCACAATTATTGCACAGCACAGCAATTAAAATGCCGTC autosomal
AGTTGTAAAATTTCTGAACTTTTTTTTCCCCTGAAAAAGTGTTTTTTCAA autosomal
ACTGTTCCAACCTAGGATTACTGTCATGCTACTTGTGGTCAGGGCACTTC autosomal
AAAGACTCTCCTGGAGCTGTCTGCTGTCACCACCCATGGATGGAGAATAA autosomal
CACTCCACCGCCGGAACCTCCAACTTGGAGTAGACCGAGAAGGTCCCGAC autosomal
AAATGTTAAATTACGGGAATTTGTAAAGACAGAAGTACTCACTATGAAAA autosomal
ACACTGAAAACCCACAATTCAAAGAGAAATCCAGGTCTCTGCATTCTGAA autosomal
CCTGGTGCGTGACGAAGGCCCCGTCCAGCACCGCGAAGCGGAACCCGGCC autosomal
GACTGTGCTGTTGTCAGCCCAGGTTGGGAGTTCAAAAAAAAAAAAAAAAA autosomal
GCAGGCTTTGTGTCCTGTGCTCCAGATATTATCTCCCTCAGGCACATCAA autosomal
CTCCTCGCCATCCCAAAATCCACCCCGTGCTTGGAGATGTTTGGACATGA autosomal
CCTTTTCTAAGGTGCACATTGCAAACACTATGGACATATTTACTTCCAAG autosomal
CCCCCAGACCCCCTGACCTCCTTTGGGGGCTCTCCAGGGCCGCTCCCGGC autosomal
AAGGGGAACCTGGCCCGGTTCCTGCAGCGCTTCGAGGTGGGCAGGGCAGG autosomal
AATTACCATTTGCACCGGTACATCTTATGCTTTATATACATATATCTTTA autosomal
ATAGAATAAAACTGAAATGTAGTGACATGTTTTTCCACTGTTCAAGCCAT autosomal
GCTTTCAGTGTCGGTGAAATGACAGCTCACTTTGCTTACAGGAAGAGCAA autosomal
AGTCTCAGATATATCTAAAGGTGGGAGAAAAATCACTTTAGATTTCTCTG autosomal
AAAAAAAAAACAACCAAAGCCAAAGAACCAAAAATAAAAAAAAAAAAATC autosomal
GCACCCCCTGAACCCCCAAATTCGGGTGGGCTCGGGGTGGTTGTCACCCC autosomal
CACCTGCTGTTTTTTTGCAGTCCACTATCTCCATCCAGGATTTCTAACTC autosomal
AGTTTGTCCCAGCCCAGCCCAGTGCACCCCTGGTGTTTCCCCAGAGACCA autosomal
AATTCAAACTGGGAATGGGACCCCAAACTGGGACCCCAAACTGGGAATGG autosomal
CCTCTACCAGCAGCGTTCAGCTTGCATGGAAAAAGGGAATTTAATTTTCC autosomal
AAACCTGGGGAGGTCTGAGAGTGTTTGTTGAATTTCCTGTGTGTCCTATT autosomal
AGTGTCTGCTATACCTGGAAGTATCTTTTCTATTTCTATGTCCTTTGAAA autosomal
GAGATATTGAATTGCCTTGTCCCTCAGGCCGAGGCGATGCCGGGCCCAGC autosomal
GCTAAACATTAACTATACAAAAGTAACTGAAGTTGGGAGTGGGCTAACCC autosomal
CTGCCTGGACTAGTAACACTACAAGAGGGATGTGAAAGTGTGGCTGTCCC autosomal
ATGCCTGGTGGAAACAGAGCCATGCTCCCACCTTCTCTTGCACTCATCTG autosomal
CCAAGCTGAAAATGATGGCAGAAAATCCAGACGCAGAATATCCTGCAGCA autosomal
GCGGGGGGCTCCAGTACAGCCCCCCCAAAGTCTGCCAGATCTTCCTGGCC autosomal
AATGCCAGCAGGTCTATTGGTTCTACCTCCTGAAAAGAGAAAAACATTTG autosomal
AACCTTCAGGAAGAATGGACAGAAGTTTGGTTTTGTGCTGCACTGTCAAT autosomal
CACAGGCTGGGTGTTTTATTACACTGCTATGTTGTAAATGCAGGCAAGCC autosomal
GGGAACCTTATCTGCTGCAGTTTTCTCTGAGTTTAGCTGGAGAATTAGCA autosomal
GAGTGGAAGCAAATAGCTCTGCTTGGGTTTATAATTTGATTATTCAGCTA autosomal
CCTTATGCTTACACTGAATTTGTACAGCTTTGACTCCTGGTGAGCGGATC autosomal
GAAGAAGAGTCTGAATTTCACTCCACACTCTACCATATGCTCAAGGCTTC autosomal
AGGAAAAGAAACTGCTATCTGATTCCCTCAGCTTCAGGAAGCCACAGCAG autosomal
GCAAGGAAAGCTGCTATGATCAGGATCAACAAAATGCTCCAGCCAAGTGC autosomal
TCCTCAAATATTACAGTTTCTTTTATTCATATTTTTCCTCAAAGTATAAA autosomal
ACCTCTCCCTTCTGTCACGGACAATTTGGAAGTGAACCAAAGGACCTTTG autosomal
AAAGAGTCACGTAACAGCTCAGCTCCCCCACATTAATTTCCAGTTTCTAA autosomal
GTTCTCCTAGATTATGTATTTATGAGTTTTGCTCAGTACAGAAATAAATA autosomal
GAGGCCCCCAGCGGCCCCGAGCCGCCCGACCATCATCCGCCCGGCCGAGC autosomal
CTCTGTGGGTGTGTAGCAGTTCCCTTCCCTGGTTGGGGCATGCCATGAGC autosomal
AAAAGAGTGCAGTATTTTGAATAAATCAGAGTTTTACTCTCACAGCCTTC autosomal
TGCTTCACAGTAAGCTCTCCCAGCTGCGTGAGTCCCGGGAGCAATACCAA autosomal
GGCAGATAGCTTTTCCCCTCTGTCCTGGAATCAATGATGCAGCTCCAGAC autosomal
CAGCACGGAGCAGAGCAGGCGGCCGGGGCCGGGCTGGGAGCTCGAGGGCA autosomal
AACTTCTTATTCTGAAATGCCATCATTATGGATACACATTATAGACAAAC autosomal
CGCCGCCCCCCAGCCCCAGCTCGGCCGGCAGCTCCTCCTCGCTCTCCTCC autosomal
TGGAGGCACGGCGAAAGCGCCCTGAATGCCGCGTCTCAACAGCAGTAACA autosomal
AAAACTGTCATGGCCACAACTCACCACTGGACAGTTCAGTGAGCACAAGG autosomal
CAGAGCCCCCCACTCTGGGGAGCCATGTGAGCAACCAAGTGAATGAGGAC autosomal
CCGCCTGCTGGGGGGCTCTGCCCCGCGCCCCCTCCCCCGTGCCCCCTCCG autosomal
ATAAGAACCAGGATCTGTGTGGAGATCGTACCTCGCAGGAGGCCATGGGG autosomal
ACTAGATCAGGGGTCCAAGAAAAGACTATGCACAGGTCAACTATGTATAC autosomal
AAAAGCCATTTAAACCTTGAAAGACTGGGAAGACATTTTAAAAGCCCCCA autosomal
ATATTCCAGCAGGAGGACATCTGAATTTATTTATAAAAAAATGATTAAGA autosomal
AAAAAAATGCAAAACCCCTTTACCCACCCCCTTCCCCCCATTTCTCTACT autosomal
GATCCTTTTGAGACATCTAGGTTTTTCCATTCAGAAAAGAGAATTAACAA autosomal
GCTGGGAGCAAGCTTCAAACACTGTGTCAGCACAAAGGATTCTGCCCTGA autosomal
TAAAATATTATTTCCTCTTATAATAAACTGTGCTTTTCTCATAGTGTGGA autosomal
CCATGCTGGAGCCCCTGGAGCAAAGGTGGGGGCTGGGGGGGCACTGAGGG autosomal
ATACTTGAGGAGATTATTGCTTTTATTGTTTTGGGTTCCCCCACACCAAT autosomal
CAGTATCAAAACACTCACAGAGGGAACCACAAAACGGAGGTTAAGGCTGC autosomal
AAGTGATGTTTATGTGTTCTCTAGGAAGCCCCCTTGTAATGAATCTGTCT autosomal
TCACAAGGAAATTCAGCTGGAGGACTGCATAATGCACTCAATTTTTCAAA autosomal
ATAAACACTGAAACCTCCCCGTTTCTTGTTCCTCCCACTCTCCCCACCCA autosomal
CGGGTGACAGCAGGATTGGTGATAATGTGCCGGAAGAAGTTGACGTGGGA autosomal
GGGGAATTTTCCATTGGTTTGAGGTGTTTTTTATGGAATCCCAGTTGAAA autosomal
AAGCTACAGGGAGAAGCAAGACAAAAGACTGTGCAGGACAACAAAGTCCA autosomal
ATAGATTTTTTCTTTTTTTTCTTTTTAAGAAGGGAAAGAAAGGGGTGGGG autosomal
AATCAAGGGGAAACTTTGTAAATCTCTGGAAATGTTCCATTGTGAATTTC autosomal
CTAATGCCCTTGGGCAGACTGAAGAGCACGGCTGTGCGTGCTGTTCCCTC autosomal
ACTTCCATATGAATGGAAGCTATGTAGCTTAATCTCATTTCAGTATAGCT autosomal
AGCTGGTGCTGGCTGGCAATAACAGCCTGCCTGCCATGCAAATATTCACC autosomal
AAAAAAAACAAAACTTTTTTTAAATTGTTAGTATTGTAGTGTGAATAAAT autosomal
AAACTAAGCCAAAAATCAATATCGGCAGTTCTTAAGTGCCCACACAAAAG autosomal
ACTCTCATCCACGTGGTAGGACCCTTCGTCTCGATTCCTGTACTTGTACA autosomal
CTGGCAGATGGGGGTGAAGCAACTGCATTTATTCTTCATTACCCACATCA autosomal
AGCTTCTGTTCCATAACCTCACAAAAACTAGACCATTAAAAAAATTACTA autosomal
ACCTAATGGAAGGAGTTGCCTGAAAACTTGTCTATTTTTTCTAGCTATAT autosomal
ATCTTTGTTTTTTTCAACTCAGTATTTTGATAAACATACTTAGAGTTGTA autosomal
CCATCAACGGTGGCGCGCGGCCGGGCGGGAGCAGCTTGGCCATTTGGGAG autosomal
AGGTGTCTGGCTCCTTCCTTACACCAATTACCATAAATCTCCTTGCTGCC autosomal
GGGGGGCGACCCCTCCCCCCCACTGCCCCTCCCCCCATCCGGATTCAACC autosomal
ATTTTTATCAGAAAGAATTTAGTTAGATTTTTTTTATAATAGCTGTGGCA autosomal
GAGCTGATGGTGCATTTTAGCAGAGGTTATGTCACTCTCGAGGTTTTTCC autosomal
ATCAGCAGAGAGATCTGGAACAAGAAAAGAGTGGCAGCAGCCAAGTCAGG autosomal
AGAGCTAATAATAATAATAAAAAAGTCATATTTGAAGAAAATGTAACCTG autosomal
CCAAGAAGCAGTTCCAGAAGTTCTGACACCTGTGGGGACAGGCTGGGAGG autosomal
AAGGAATCCTCTCCCTGGAGGAATCCCTGGCTGGAGAAATCTGAGGATCC autosomal
AAACAAACAAAAAAACCAAACAAACCCAACAGGAATTCCCATTCCCAACT autosomal
AACTTGTATATAAAGAGGGCACAGACCACCAACAGCAACAGCAGCTCCTC autosomal
CCTGCTCCACCAAGGTCAAATGAAGGAAATGATAGCTACATACCACACTA autosomal
GGGCAGTAAAATTGAACTGTGCATCTTCGTTCTAGTTTAAAAAAAACAAC autosomal
ACACTAGTCTGCCCCACGCACTGATGCCACTGTGAATTACACCTGAAAGG autosomal
CATCACATATTGAAGGAGGGAGGTTACACATCCTGCTTTTTACCACCCTC autosomal
CCTTAGAGGCAAGGAAATTCCTGCTGCCCGGGAAAAGTTTCCCATTTTAA autosomal
CAAGAGGATGGTGAGTGTGGTGCCCCCAGTGGGGTCCTGAGTCTGGTTGG autosomal
CCCGCATGGCAATCTCGCTCGTCAGCCGCTCAAAGTACTCGGGCAAGTCA autosomal
AAGCTGGTCACAGATGCTACTTCATGCTAACGAGCCCGGCGAGCCAGGCA autosomal
AGGATCCCCTCTGAGCAGGGACGGCATAAATCCTTTTCCACCTGCCTCCC autosomal
CTGTGTTGTTTCCCTGATTTCTGTGTTTTCCCTGTTTCCTGTTTTGTTTC autosomal
AAAAATAAATTTATTTCTCAACAGTGGAAACGGATTTATTCAATATCTAC autosomal
GACAGATAATCAACACCCAGTCCATGGACAGATAATCAACACCCAGCCCA autosomal
ACCTGGACAACCTCAAGGGCACCTACTCCAAGCTGTCGGAGCTGCACGTG autosomal
GCTCTGCCCAGGGCTGCTCCAGGTGAGAGGGGCCTCGCTCACAGCCTGGA autosomal
CAGGGACCCCAAAATTTGGGAATTTTTCCCCTGGACCCCCCAAAATTTGG autosomal
ACTTGTGTGTTGCATGCTGATGTGGAAGTTCCTGCAGGGTGGTTCACAAG autosomal
AGGGAAGTGGCGCTCCCGGGATCCGCTGCTCCGAGGAGGATCCGGTGCTC autosomal
CCGGGGGCACCACGATCTACGCCCTGCACCAGCTGGAGAAGGGAGCGCTC autosomal
GAATAAGTCAATAACATAACACAGAATTATGTAATTTGTAATTTCTGTGA autosomal
ACATACAGGCTGACCCTCATCCTTGCACAGTCCAGAAAACTTTTGGAGAG autosomal
GCCTCGGACTCAGCCTTGCAACACAAGGATTGTACAGAGGAAACACTAAA autosomal
CTCAGGCCGCACGGGGTTTGGAGAGAGCTGGGCAGCCCAGCCAGTGTGAC autosomal
AATTCTGGTTTTAGCATTCTGGATTATTTCCTTCTTTTTCATAAATGCGG autosomal
AAAGGAAGAAGAGTGGCAACAGAGAGCCAATATTTTACTAAAAGAATTTG autosomal
ACATCTAAACAGTACTTCTTTAGATTAACTCTGTAAAATAAAAGCAAAAT autosomal
CCCCTCCAAACCAATGCACAGTTACCTTTGTAACAAGCACATATGAATTC autosomal
AATCTCACCCCCTTTGATCTTCTTGCGGGTCATATGGCCACGGAAACTAG autosomal
GACCTCATTTGGGTTGTTTTTTTTTTTTTTTTTTTAGGAATAAAAAAGCC autosomal
CTGGGAGTGCAGTGGTGAACAGGAGTTGGATTATCATTTTCCTGTAAACC autosomal
AGGGGGCGTGGCTTGGGGGCGCGGGGTTTATGAATGGGGGCGCGGGGGTC autosomal
GGGGACCCCAAAATCCTGCACTCCCCTCCAAGGGCTGCACCCAAGGGGAC autosomal
AATTCCCCTCAAATTCGTCCCAGGACCCCCAGAATCCCTAGATCTTTCCC autosomal
ACTAAAAGTAAGTATACAAAGACCCTGCTCTGCACTGAGACCAGGAGCCA autosomal
AGCGGGAGCGCAACCGCGTGCGGCTCGTCAACCTGGGCTTCGCCGCCCTC autosomal
GTTGCAGATGGACAGTGCTGCATGTGTGTACATTCATGATCCTATAAACA autosomal
AGCTGAGAGTTGCCAGCAGAGCTCATCCCGCTGCTCCCACCTGTTGCAGC autosomal
CCACAAACCCAGGGGGAGCAGGAGGGGAGTTTCTGGGGAAGTGGTGACAA autosomal
CCGTCCCTGTGTGGTTTCGGTGCAGGTTCGGTTCCATTCCCATTCGGTGC autosomal
ATATATTTATACAGAAATTTTATGAAAATTAGGTGGTTTTTATTGTACAT autosomal
GAGCCCCACAGCTCTGCTGAGGTGGCGGTGCCAGGAGCAGGTGGCACACC autosomal
GCCTCTAAGCAAACAAAATCAGCAGTAACCCCCAGCTATTTCCACCTACA autosomal
AAATTAGTAGAAATGGCTTTGCAAAGCCACTCCTAAAGGGGGTTTGCATT autosomal
CGCCAACAGTAGAAGGTGGTCAACACTGTGCCTGAATCACTCCTTGAGCA autosomal
AGAGTCCCCCCACCCAGCCATTCCTCTATTGTACAATAATAAAATCTTTA autosomal
ATTCCAGGAAAACGCCCCAAAATTGGGATTTTTGTCTCATTTTGATGTTC autosomal
ACTCCTCCTTCCTCATCCTCCTCCTCCTCCTCATCGTCGCCGGTCGGCGC autosomal
AGGGCATGAGAATCCCCAGTAATCTGTCATTCACAAATAGGGTTTTCTCC autosomal
ACCCGCTGCTTCTGGGGCTGGGTCTGCTGCTGGCTGGAGCGGGGGGCCGG autosomal
GTTCCAGGCATTACTTGAAACAAAGTATCACATATATTGTATTCATTTTA autosomal
CTCCCAGTTGTCCTTGGTCTTTGGAACCCGTGAAGGCAGGGGTTTGTACA autosomal
TCCAAATGGAGTGTTGTCTGGAAATAACAAAAAGGAAGTTAAAAATACCA autosomal
GCATCTAAGCTGACAATTACGAAACAGAACTTCCATATGAATGGAAGCTA autosomal
AGCAGCATTCCCCAGCAGCCGAGCTGGAACTCGAGTCCTTATTTCTGAAT autosomal
AGATTCAAGCAGTGTGACCCTGCAAGACTCACCTGTCCCTGCTGCAATCC autosomal
GAGCAGATATTTCAGGAGCGTCAGATCAAAAAGACTCTCTCTAAAGCAAC autosomal
CTGGGCGAGGTGCTGCAGGAGGTCCAGGCACTGAAGCTGGAGCTGCTTGC autosomal
GGGACATCGGGGACACTGGTGTCACTTCCCCGCCAAGGGCCACAGGCTCA autosomal
GAGCTTGGTTATTTTGTCTTAGCAGATGTCAGTGCATATGCATCGCTCCA autosomal
CCTGCTTTTTCTCACCTACCATGACTTTCCATCCACAAGTGCTGGGTCCA autosomal
AGGATTTTACATAAGAACCTTCTCCTGCTAATCCAAAATGAGAGAAAAGG autosomal
ACCTCTTGCCCTGATGGAGCAGCCAAGTCAGTATCTGTGTGGCATTTTGG autosomal
CCGTGTTCAGAACACTGCACAGACTGTGAGGTCCTCTCCAAAGTTTCATA autosomal
AAGCCATTTGTCTTACCACCCTGTTTCATTTGCTTACAAACTTTAGATGA autosomal
GAGTTGCAGTAAAAGCTCTTTTTCACACGTGTTGAAGACCATTACAATTA autosomal
GGACAACCGGGACAACCAGGGTCGGGACCCCCGGGAATGGACCAGGACAC autosomal
AAATCAAATCAGAGACAAAAAAGAGGAGAGAAGGAACCGGGGGGATGGGG autosomal
AGTGACAGACACCAAGTGTGGGCACAACCCGGGGATCGATAGAGAAATCA autosomal
ATTTCTAGACAGGAGAAAAAAGCGCTGTTATTCCTAAATTCCATCATTTA autosomal
AAATAACGTATATAGTTTTAAGGGAAAGGGATAGCTCATACAATACCACT autosomal
GTGTCCTGGGCTCCTTCTCCCTTGCCCATGAATGAGTTTACTGGGGGAGA autosomal
TCTGTGAAAGGAAAAAGATACATCCTGTAAAGAAATGTCACAAAGAACAA autosomal
ATACTTGCAGATAAGTCTACAACAGAAGAAAGACAGAAAGTTGAAAGAAA autosomal
CTGTCAGTTTACATACATTTAGTTGATTTTATCACAAGACTGTAGGTAAA autosomal
CCGCCCGCCCCCACCGCCGTCACCGCCGCCGCCGCCGCCGCTACCGAGCC autosomal
AAGAAGCAGGGCTCTTCACCAGGCACTGCCAGCTGAGGTTTGGTATCCCC autosomal
ACAAATAGAGCAACTTCTAAGGCTTTTCATAAAGTCCTTTATCTTCAGAG autosomal
GGGATGCAAGCACTGTATAGCTACAGTGAAGTGCTGAAAGCATGCCAGAC autosomal
CAAGGGAGCCCCGGGCAGCAATGGACACTCTACCTGGACAGCTGGAGCCC autosomal
ATTTCCTTTCTTCTAGTTGTGGCTACGACCATCCTGAAGATTTTGTCACG autosomal
CCCCAGCCAGGCACAGGGACACTCCCAGCATGGTGAGCAGCATTCCTGCC autosomal
AAACAATGATTGTTTTGGAACTGGACAGAGAAATCCTCATCAGGAGGCAC autosomal
ATCAGCCCTTTTCTTTGAAGTGACTCTTCTAGGAAGCTTAAACTTACCAA autosomal
AGCGCATTTACCGCCTGTACGAGCAGGTCAGCTACAACTGCTTCATCGCC autosomal
CCAGGTGAGCTTTGGGGAGATTTGGGGGTTTTGGGGTCCCAGGGGGAGTC autosomal
GTGCAAGATCTTCCAGCACTGCAGTGCACAGGAGGGGCTGCAGCTGGGAA autosomal
TTGTCCCTTGAAATGGGTCGGTGGTCCCTTTCATGGGGAGGGGTCCCAAA autosomal
CCAAACAGTCTAACAAGAGGAGTGTTCTCTTAGCCATGCCTTCAACTGAG autosomal
CACTGGCTTCTGTCATCAGCTGCCACTGGGTAAGGTATTGCATTCAAGTC autosomal
GTGATCTCTTTGATGTGCAGATATTAAATTATTAGATACTATGTCAACCA autosomal
AAGGATATCTCTTCAAGGAATTATGTGGACACCTTAAAAAAAAAAGGGAG autosomal
CAGGCTGGCTGAGGCACTGCAGTAATGAGCAAGACAAGCCTCACTTGGAC autosomal
AAATTCCATTAAAATAGCCAAAATCCCATTAAAATCCCATAAAACTGCTG autosomal
GGGAAAAGGAAAAAAAAACCAAACCAAACCCAAAAGAGTGGTTGTTACAA autosomal
CCAAACATCCCAAAATCCCACAGGGATCACATCGCTCTTTCCAAATCTCC autosomal
AAATGGAGTAAAAAATACTGTGAGCAGTAATTTAAAACAAAAACAAAGGA autosomal
ATGCTTCACTTTGTGTGCATTTTTATAGTGTGAGACTATATACGGAGAGC autosomal
TCAGAAAACTGTAATGGTGGTAAAAGTTATCATCACTCTCTTGGTCAAGA autosomal
CTGAGGATGAGCAGTGTTGATTTGCATGACTAGATGCAGGAGAAGGAATA autosomal
CTAACTCAGCCAGCCTGAGGAGCTCTCAGAGCTGTAACTTCAGATCCCAA autosomal
AAAAATATATTTTAGCTTTTCAGATTTTATTAAAATGAGATTTTAGATCA autosomal
CCGGGGGCTGGATGACCACCGTGGAGTCGGGGCACTGCCGCACGCAGGGC autosomal
ACCTTCCCAACGTGTTCGTGAGGATGGAAGGGTCTCCTGCTGCCTGCCAG autosomal
AAGCACAGCTTAAATACCTGGATTTTGTGTTTATGTGTGTTGCAGCCTGA autosomal
ATTCTTTATGAAGGGATACCGTAACAGTTCTGCAATGAATTTTTTAGATA autosomal
CCAAAGTGGATGTGCTGGAGCCAGGGGCGGTGCTGCAATGTTCCAGACAC autosomal
AAAGGAGAGAAGATCAGCACTCCCCTTGAAAAAGATGGAAGGGGCCCTTG autosomal
ACCTAATTTAGGAAGTCTCTGAGGTTTAGGAAGGCATATGGAAGGAGGGA autosomal
CTGCCGCACCCCCACAGCCCGTCCCAGGAGCGGCTCTGGCGTCTCTCGGC autosomal
CAGACACGTTGTTATTTGTGAGTCCCCTGAAGTGGTCGAACTTCTGCTCC autosomal
GCTCTTCACAAAACTAGAGAGAAATGGCACCCAGTCAGCGCCCCTGAGCC autosomal
CTGTGCTGCTGGTGCCAGAGACCGGCCCTGAGCATCACCCCCACGGATGA autosomal
CTTGTTTTTACCTGAATTTCTTGTTCAATGATTTTGATTTCAGAAAGCAC autosomal
CCATGCAGGAAGGGAGTGGCTGTCAGGCTCCGCAGGGATGTGCATTGCAG autosomal
AGGTCCCCCCTGTCCCCTCACCAGGCAGGGTGGGCCACATGCAGGGGGCC autosomal
AGACTCGCTCCCCCTTTCCCAACAAGGGCTAAGTCGAGTTAATGCAATCT autosomal
GGCTCGGCAACGCGCCCGCAGCGCCCCTGGCGGCCAGAGGCGGGAACTGA autosomal
GAAATGCTTGTTATGTGGTGCACACTGGCCGAGGGCAGACTCATGCCACC autosomal
ACATGCCCACTCTACCTTGTCCCATTCAAGTTACATTAATAAAAAGGCAA autosomal
ACTGACCCCCGAGTGACCCCGAGTGACCCCGAGTGACCACTGACCCCTGA autosomal
AAAAAAATAAAACGGGGGGGGGGGATAGGAACGAGCTTGGAGGGCCCCCC autosomal
AGCAGCCCCTCCTTTGCCATGAAGAGGCCAAACAAGAGCTGGCAGCGCTG autosomal
ATTACACTAGCTGCAAAACAAAATTGGGCATGTTTCCTACTGCTGTCAGC autosomal
AGCCTATAAAAATACAGTATGGACAAATTATTTTCATTCCCTGACATAAG autosomal
AAGGGCTGGAAGATGGTGGGAGAAGACTCCAGCCTGGGACAAGGGGCAGG autosomal
ACCAGCACTGGGTATCCAGGTACACAGTGGTATCTCTGTGTGTACCTCAC autosomal
ATAAAAACCGGGGGGGGTGAGGGGGGCACGGCCACACCTGTGCTGTCACG autosomal
TATTGTTCATATCGCTCATCTTTAACCTTCTAATAACACATCACATTTAA autosomal
TAAAACTTCTCTGTGGTGGAAGTATATTTAATAATTGTTGGGTCTCATTA autosomal
GGCAACTGGAACACTGTTCCTGTCCCCTGGTGCATAGTTTTATTTTTACA autosomal
ATAAATCTCATTAACATTGTGCTTTGTTTAAATATAAAAATCATTCCCAA autosomal
TCTTCAGCTTATCCTTTCTGATGACAACCACAGAATCCTCAAGGTTGGAA autosomal
AGGTACATATGTACATGGAAAGAAAAAACAAAGCTGACCTCCACAGCTGG autosomal
GATCTGCTTGGAACATCCTTAAACCCCAAAATAACAGAATCCCTCTGTAA autosomal
CCTCTTCCCTCTTCCCAGGAAAGCTGAGAGTTGCCAGCAGAGCTCATTCC autosomal
TAAAGGCAAAAATCAGGATGGCAGATTGGCAATGGAAGGAGAGCGATCCA autosomal
AAAGCAATTTAAATATACAGAGCCTTGTCTTTATATACATATCCAAAATG autosomal
GACTGTCCCCATGTCCCACACTGAGATGGACAGAGCAGCACCAGCCCAGC autosomal
TACCAAAACTGGAACGATACAGAGAAGATCAGCATGGTTCCTGCACAGAA autosomal
ACCCCCCGAGATGCCGGCGGGGCCCAGCAGGAGGAGGTTGAACTCCTCGT autosomal
AAAGCATTAGACTTCTCAGGAATAAAACACATGGTAAACCGACAAATTTG autosomal
GATGAATCTTCTCTAACTGCTGCATAAGGCTGAGTGCACTATGCGGATAC autosomal
GTGCAATCTCTACTTACACCTTATGCAGATTTTTTTCAAATTATTTTTGA autosomal
GTGTTGTACGGGGATCCCCGCCGTGTCCTCGGCCCCTGTGTTCGGCTTCA autosomal
TCCCTAGTATGTAAATTGAGGTGTATAAAACATTTGAAATTGTAAATAAA autosomal
CGGGATCCCCCAGGCGCGAGGGGAAGGGCACCTGCTGCCCCAAAAACTTC autosomal
AGGCCACCCCAATGCCCAGGAAAACGTTCACAGCGTTGCTCCCGGTGACG autosomal
AGAAATAATGTGTCAACATCCACAAATATGTAAGGAAACAAGAGTGCGGA autosomal
GAACATAAGCCATCTAGGTGTGTGCCCCAGGACCTTCTGGAGAGCCTTGA autosomal
TAAAATCAAGGAGGAGATCTGAGGTCAGCAGTGTAAGATTCCTTGTAGGA autosomal
AGGAGATACTGTGTTCACTGCAGCACAAACCTGATTGCTGGCCCATGTAG autosomal
GCAATATCAGCCTAATCATGTTGCTGCTTCGCTGCTGGCTGTGCTGGGAA autosomal
AGCTCCTTTTGTGTGTTCTGTAGGTTACCCTGCTCCCAACCATACCAGCA autosomal
AGCCGCACCGTGTCCAGCGCCTCCTCCAGCCCCTCGTCCTGCGCCAGCTC autosomal
GCCCCTCACGTCCCTGCGCCCGGTCACACCCCACCTTGGGCACTGACCCC autosomal
TGCAGTTTCACCTCATTCATGTCTGCTTTTACTCAAAGTGTAACATAGCA autosomal
AAATTCCATACTATACACAGCTTTAAATTTTAAATATTTTTAGTATTCTA autosomal
ACGAGCTCCTTACTGCTCCAACAAAGAGCCTTATTTCTACCTGTTAAACA autosomal
AGCCCCGAGAGCGTCAAACACTGAGAGGCCAAATTCAGCGCCGGGCTCAG autosomal
TAAAAGCTGTCCTTGCCCGTGTCAGAGGGGTGGACTAGACAATTCTTAAA autosomal
ATAGCCCTCAGGCTCTACTTCCTGAGTGGGCAGCTCTGAGGCTGTGGCCC autosomal
CTGAGCAGAGGGCTTGTGGCACCTTGGCACTGCGCAAAGGGAGGTGCCAG autosomal
AAAAAGCAGAATCAAGGAACAAACAGGTTACAATAAAACCCATTTTTCCA autosomal
AGAAGAAGAAGCCTGGTTGCAGCAGTGTGTTCAGCGAATAAATGATGAGC autosomal
AATTGGTTTCCTATGTATAAATCCTTTTGAACATTAGATCTGGCTAGACA autosomal
GACATTTCTGGAGATCGTCCTAATCCAGCACCTTGGAGCCAAATGAATCA autosomal
ACACGGGGACTTGAGAGTTGCAGTTGTCCCCAGGGCATCCTGCACTGCAC autosomal
CCCAGCCATCCCCCTGGGAATGGCTTTGGAAAGGGGCCCTGGAAACCCAC autosomal
AAGCCAGTTATTCACACCACTTGTGCTATCACTCAGAGCTACTCAGAGCT autosomal
TCTGAAAAAGAAAAAAAACCAACTAATGAGATCTTTGTTTCTAGTGTGAA autosomal
AATGCAAACCATCGTCTCCTTGTGATTTGTTAGAACAAACACAAGAAACC autosomal
GCTGAGGAGCTCTGCCATTAGTAGGGCTTAGGGAAGGGAAAACCAGAAAC autosomal
AATAACCATGGCATGGCATGATTATGGTTAAAATGCATTATCCATCACCT autosomal
GAGAAAATTGGGGGAGAAAATGGGTGGAAATGGGGGGAAATGGGAGGAAA autosomal
CAGCCATTACTCCAGAGAGCAGGGATGTAACTGCATGCTGAGGGAGCTGA autosomal
AGGAGCAGTCAAAATGCAACCAAAAGCAGAAGAGCTGAAGTTTGTTACTA autosomal
CTTAGATATGACTGATCATGAAACCAATTATAGAGAAAACTGATGCTGTA autosomal
AACACCTCCTCCCAGGTATAATCTGCCAGGTTCACAGGCTGGCACAGCCA autosomal
ACGAAAACTTTTCTCCTTTTAGGTATTCTCAGACTCTAGTATTATGTTCT autosomal
AAAGCTAAGAACTTTGATTAAAGCATAATTTTTAAACTTTGTTTTCTAAC autosomal
GGCTGTGGGACAGAGGCTCCTGTGCCTGCAGCCTGGCTCACCTCTGCCCA autosomal
GTATCTGATCCTGAAGGACCGGGGATTTGCCTTCGACTACCGTGGAGAAA autosomal
AACCCCCAAAACCTGCCCAAATCCAGCCCAAAAATTGCCCAAAACCACCC autosomal
CAGCAGCGGTGACGTCATAGGCGATGACGTCATCGCCAGGCTCCGCCTCC autosomal
AGTAAATAATCAGCTGTTCTGGAAGTACAGTGCTCTGTAACTGAGGGAAG autosomal
CCTTGTGCAATCAGGCTCCGGTTTGAAGCAGGTAGCTTTAGGGAAACCAC autosomal
TCCCGAAGGGTTTGGGATTTCCAGCCCTCGGCCACACGGTTCCATAGGGA autosomal
CAGCTGCAGAGACCAAGCTAACTGGGTTGCTGGTGAGCAGAGAAAGGTTC autosomal
CCCTAAACTGGCAGCAGATCTGTTTATTGTAAATGGGTGACACCTGAAGG autosomal
CAAATGGAGCAGAGCTTCTAAAAGTGTCAGACCATGTGACCAGTTGTGCA autosomal
GCTGGGGGCAACAGTGAGGGGAAAATGACCACCTCCAGCAATCTGCACTA autosomal
AGGGGAGGAGCCATTTGGCTACACTCTAAAGTTTTTGGAGAAAGAAGGAT autosomal
CCCACCCCAGGAGGAGGAGAGAAGTAGGATTTGAAACTCAGGTTGAAAAA autosomal
ACTTCAGGTTGCAAGGCGTGATGGAAGGGACACTGAACAGTAAAACCTAC autosomal
CCTGCACCGCCATCCCTGGGACAACCCGCTCAGGGAACCTCGGCTCGGCA autosomal
CCAGGCGTCCCGCTGCAGGCGGCGCAGCGAGGGCAGCGTGTGCAGGTAGC autosomal
CACTACCCACTGTACCCCATCTGTTAGGCAGTCCCTCCACATGGATGGGG autosomal
AAATCCCAAAATTATGGGGGAAAAAAAAATCCCAAAATTTGGGGAAAAAT autosomal
CTCACGCCGCTGTCTGCATTCAGCTGGCGAAGCTCATTAACAGAGGTGGC autosomal
CTTTGATTGAGACATTCCCAAGTTCAAAGAATGAACATAAAACCTCCACA autosomal
TGTTGAGGTGTGCTGCAGAAGTGGGATGGGCAGTCTCAAGTCTCTTTTAA autosomal
AGCAGCTTCTTGGGCTCGGGGACGGCCGTGGGGGCTGGCATCAGCTGTGG autosomal
ATGAGTTCAGTGACTTGTGGACTGGTTTGCTGCACTTTGCATGTGAGAAC autosomal
GAACCCCCTGGAGGAGCCAAAGTCCTATGTGTTGGAAGGGGATGGATAGA autosomal
CACACAGGGCCGGAGCAGCCCACAGGAGAGCAGCTCCAATGTCAGCAGAA autosomal
CGAGCATGGTGATGATCTTCTCCTGGCCGTGAATAGCAGCCAGGTGCAGC autosomal
CAAATTGAGTGCAGTTGTGGAGATCAAGCCTTTGCACATTATATGCAGAA autosomal
ATAAGGTCTTGAGAAATTTTTTTTAAGTCCTGGTGGTAGTATCAGTTTCA autosomal
CTCTGAGACCAAAACAAGTCCACCATGGAACAGGCACTGTGAGAGGAGGC autosomal
AAAAAAAAGAGGAAGAAGTTCCCACTGTGTCCGGAAAAGTGGACAAGGCT autosomal
CAAATGGCTAAAAAGCAGATCACAGCAATGCACTGTGAAGGTAACCAGAG autosomal
CACATTCTTTAGTAGTCCCCCGCAATGATCTGCTTTCACTGGTTCAGAAA autosomal
TCCGGCCAGGCCACCTGGGGGAGGGGGAGAGAGGAAAAACACGCAAAAAA autosomal
CAAGAAGATCTTTGTCCAGAAATGCTCCCAGTGCCACACGGTTGAAAAGG autosomal
AAACAGTATTTTTATTATGGATATTCTGTCAAGGCTTTACAGAGCAGTTA autosomal
TAAATATAAAAGTACCATCTTTCTAGTCACCCTCTTTTGTACACCCACCA autosomal
AAACCCACCAAAACCACCTGAAAACCACCTCAAAACCACCCAAACCACCT autosomal
CAGAAGTGACACATTTCCTCCTGATGTCAGTAGATGCAGCTCTGGAAATG autosomal
CAAATAAGCTGCTGTTTTGTTGATGTTGTACCAGGAAGCAGTGGTAGCTG autosomal
CAGGAGCGCTGGGAGATCTCGGAGCGCTTCAGCCGCTGCTTCTCCTCGTA autosomal
GCCACGGGACGATGGGTGCTGGCACAGTGCTCGGGTATCGACAGATCCAC autosomal
GTATATCCTCAAGTGTCATATAAAGAGATTGAGAGTGGAGACCAGAGGCA autosomal
AGTCCTCAACTCTGCTCCCAGTCCCAGGCAGGGCACCTGCTCCTTTGCCA autosomal
GGTCATCAGTGTTGCATCATCTTTGACATAACTACCTCAGTTATGTCAAA autosomal
CTACAGAACCACTGCTTTCAACAGGACTGCAACCATCACTTCAACAGGAC autosomal
TGTCCTGAATTAGGGATATTTTACAAAGAGGGTCCTCCATGCCAGCTAAA autosomal
GACGAGGACCCCAGCGCCTACTCAGGGGAGGTCTCAGACCTGTAGAGCCA autosomal
AGTAGCCAAGAGGTGGCTTTGGTTCACTTCCAAGGGGCAGATATCCAGCA autosomal
ACACGGGATGGAAATGGGAATTTCAGGGTAGGGAGTGGGAATGGGTTCTG autosomal
CCACCCCTGCCCCACAACAACGGGGCTACTGAGGGCCTGCACGTGGCTGA autosomal
CAAAGGACTGTGAATATCCTACATTGTTCTTCCTCACCTCTCAATAAGCA autosomal
CAGCTGGCTAAATACAATTCAACATACAGGGCTGCCTTTGTAAGCTGGGG autosomal
CAGGCTGGAAGAATCCTGGAGGCAGCAGTGGTGACTACAGGGAGAAGACA autosomal
ACTACAAAAACTCCTACTTACATTACTAAGGGTTTTTGGTGATCAGACAT autosomal
CCAGCAGTGGCATGGCCCCTTTAGGACTCCCACACCTTGGTTTGCAGCAC autosomal
AACAGAGTCATCTTTCCCAGAAGAAACATAACCCACAGCCCTGATCAACC autosomal
CACCCCCTGCCCCACCTCTTGGTCCCGCTGGCTGCGGCCGCAGTCCGTGA autosomal
AATCCAAAAGTGGTCATGAATGCAACAGCAGAGTAAAATATGCTCAAACT autosomal
CAGCTCATTTAAATACCCCATTAAAATTCATTAAATCCTCATTTAAATGC autosomal
ACTGCTTAAGAGGAAGGGCTGCCACTGCCTAACAGCCCAAAATAAAGGTG autosomal
CACTGATACTCCCCCTCTTCCAGAAAAGTCAATGTCTTATGACAGCCCAA autosomal
AGAAGCACCATTGGACAGTTCCAAATTGAGAAGGGGAAAGAAGGAGAGCT autosomal
ATATCAAGAAATGGGCTATTTAATAAGAAAGTGAGAAGTCTCACCACTGA autosomal
ATACCCCTATTTTCTTCCACGTTCTGAAAAGCTGTAGCAGACTCCATGTA autosomal
ACGTTGGTGACCACAGGGGTGGAGGGTGGCCCAGGGAGGAGATCAGGTGC autosomal
AATGAATCAAAGAAAATAAAATTTTGAAAAAATTGAAGAAAATAAAGAAA autosomal
TAGAACATATCTACAGAAAAATATGTACACATAACTTCCATAGTAACGAA autosomal
GAAAGTTATGAATTTGGGAAGTGCAGTTGTCCCGCCCTGCTTTGTGTTCC autosomal
GCCAGCGTGGCCTCACAGGGCTGGGGCACGGCAGGGCTGCTGCTCCTGCC autosomal
CCCCCGAGGTGCCCATGGGGGGGTGGCACATCTCCATGTGGGGGACAACA autosomal
TACTAGGCTGAGCCCAAAGCTTTGGGGAGGGAACCGGACGGTGAAAAGGA autosomal
AAAAACCTAAATACAGAAGTAAAAGTAAAAAAAAACCCATTCTAATTTTG autosomal
TAATTATTAGCAGAAGCTTAAGCAAATCAGTGGCTAATTTCAAAAACAGA autosomal
AGGAGCATACAAAGCTTTTATCATGAATGTGTATAGCCATGCAGTGGGTG autosomal
AGTATCATTTAGCTACAAAGTGGGATGTCTTTCTGCAAAGAAGCAAGGGC autosomal
CTCTCTGGGGACAGTGTCACCTCCACTAGGTTTAGTGCTGTGCTTTAAGA autosomal
CATCCCTACTGGAGGATTTCTTTGTTCCTTCCCTGCACCATCTTTTTGTA autosomal
CAGAGGTGGCTGCGTGTCCCCGAAAAGCCCGGCGGCATCGGCCGGTGCTC autosomal
AAAGAACTCAATGCGCTTTCATTAGCGCTGCTGGAAATTGCTCCCAAGGG autosomal
ATGTTCTTGGAACCACTCACTATTTTTTTTAATTAAACAAAAGAACAATA autosomal
GCTCAGATGAGCGAGTGACTGTGCACCCTCATGTCTGAACATCAGGAAAA autosomal
GATGCTTCCACATCCATCTGCAACCACCAAGAGAAAACACAGACAAACCA autosomal
TCCTGTGAGCCCTGGCAAGGCCTGGCAGAACACACCTGGTCCTGGGCACA autosomal
TGAAATCCTGTTTTTAGCTTGTTTTTATGTTTGTAAGTATAAAAACAAAA autosomal
TACTGTATTGTGTGTCAAATTCCCAGACTTTGAAGAAAAATCATTACTGA autosomal
AATCAATAAACATTAGATGAGAGTCAGAAATCAGAGAACAATCTTACACA autosomal
GGAAGCTGCTGCAAATAAAACCAGAACAGATAAGACCTTCAGGAATAATA autosomal
TCAGCATCTACTGACTCCACCAAGACACCCTGCACCCCTCCATGGAGCAA autosomal
CTTTATGAGTTCATAAAAGGACCCTTTCAACTTTAAAACACCATGGTAGC autosomal
CATTGGGGGGTCCCGAAGCGCCGGAGCAGCTCCAGTTGAGCCTCGAGGTC autosomal
AACTAATGGACAAAACATGTCATGGAGATCAGTTCAGTTTAATTTATGCC autosomal
TAACGAAAATTTATTCTTTCAGTTAGTCACAGCCAGCTCTTATGCGACCA autosomal
TAAACTTTATCTGCATTTGCTGATTTGTAAAATAAAATCTGAAAAAAAAA autosomal
ATTTTCTGCTTCAGAATAGGTCTGCAATATTTATTTAATGTTATTGCTGA autosomal
ATATTGATCAAAAAACAAAGTAAGACATACAGTTTACTCTTAAAGCACCC autosomal
ACCCCACTGAAAACCAGTAGAGAATGTCGAATGCTAATTGGAGAACTGCA autosomal
GGAGAAGGTGACTTCACCCGCCTGGATGGGGATGAGGAAGGGTACGAAGA autosomal
GTCGAAGCAGCCGCAGATGTCGCAGAAGAGACGCGGCTTCTTCTTGGACA autosomal
TATATATATATACACATACATATATATGTACGTATGTATAAAGTTACAAA autosomal
AACTCTCCTGCTGCAGCCGGACCACGGACGGAACCGAGTCACAGCCACGG autosomal
GAGGGGTCCCTGTGGGGTTTGGGGTGCACAGGACCCCGGGGACATCAACC autosomal
CTGGCAAAGTCTCATGCAAACCTGTTTCCAGTGAGCCAGCCACACGCCAG autosomal
AGTCATGTAATAAAACATGCTAGACATTAAAAGGCAAAAATCCAGTTCAC autosomal
CCTCACCGGGCGCTTGGTGATGTAGCGCGTCCCGTCGCTCCTGACCTTGA autosomal
GCCCTTGTAAAAAGTCCCTCTTCAAGTCTCATATGTTCCTTTTATCTGTA autosomal
AGTCCTTCATACCCAACTCACCAGCGCTACAGTCGGCAGACGAGTGAGAA autosomal
AGCAGCGACTTCGTTTCTAAGCAAATTCCAGACCTGCACCAAAGTTTTGA autosomal
TCCAGATTTACTGAGTCTGAGTTGCTTACTGAATTCTTTTCATGGAAGAA autosomal
AAACACCTCCGCGCTTCCCCCCACACCACCCCGGCCCCCTCAGAGCCCCC autosomal
ATCACGGCCATTATGCTATATAACTATTACATAACCCCCCAGTGTGAAAC autosomal
GAATAGTACTACCTTGTGTGCTAAAGTTTATTAGTCACTAAAGAACAAAA autosomal
CCCCCTTTCTACCTTAATTGTGCTGGGTGTGAATGAACAGACTTTACTCA autosomal
CCGAGAACAACTTCAAGCACACGGTGACCAAGGTGCAGCTCCGTGTCCTC autosomal
CAATTACTCCTTTGTATCTAACTAAAGGTGGCAAAACAACATTCTGGAGA autosomal
GGCAGCTTGCAATAGTCCCTCTGTGCAGATGCACTGGATGGGGTCACTGA autosomal
AGCTCATCAAAGCAGAAATCATTACAAAGCCCAAACCATACAGACCAAAA autosomal
CCTGTGGTCCCGGGAGCAGTTCCTCCCCAGCCACCCAGCTGAGCAAAGGC autosomal
AACTGCAGATCACTCCACACTTGGACATGGCCCACGACTGCTTGTCAAGT autosomal
AACAGAATAATAGATGTTAACAACTCTCAGTCAAATTATCAGCACTTCAG autosomal
CCCTTCACTGTCCACCTCAAAAGGCAGCATCCCCACGTCTTTGCTCTTAA autosomal
GCCCTGCTCCATCCCCAGCCCTGCTCCATCCTCAGCCCTGCCAATATTCC autosomal
AAGCTGAGTTTGTAAACAGCAGCACCTATTGTAATCTAAGTTTGCAACAC autosomal
CTGTGAAATTGTTCAACCTACTTTGTAACCAAAGAAGCAAAGCTGTATAA autosomal
CTATGCACTTTTACTATTCAAGCAGTATATTTAATCCTTGCATGGTTCAA autosomal
ACAGTGAAATGGAAATTGAAAATACAATGCACTGCTCCTTGAATAACTAG autosomal
ACTACATCAACAAGATCTCCTCCACTCTCTACCAGTCCACAGCGCCCGTC autosomal
CACGTCTTCTTCCCAAGGCAGGAGGCAGTGCTCCCTCCTCACTGCTGGAA autosomal
CATTGCTGCCTGGAAACTGGTCTTTCAGATGCTGAACACAATATCCATGG autosomal
AATATTTTTTAAGTTGTATATGGACAAATGCAGAGAGTAACTATGAGCTG autosomal
ATTATACTATAATATTGTTTTGTAAGAAAAAAATGTAACATATTTATTTG autosomal
AAAGACACTTCACATACAGAATATGGTATTTCTCTCTGTCCTTTCTTCAG autosomal
CAGAGGATCCGGACGAGCCGTCCCAGGGTCTCGGCCGCCTTGATCCGCAC autosomal
CCACTGCTGGGTTTGGGCTGCTGGGTTGCTCTCAAACTCTGATTCCTTAG autosomal
GCAGTGCCCGGTGCTGCGCAGCTACGTCTGCCCGCAGTGCGGGGCCACGC autosomal
ATGACTTAAGAGCATACATATTTTCTTGTCTTTGACAATGTAAGACAAAT autosomal
AAGAATTGGAGGGACCAGTCAAAGTTGCAGTCTCTAGCGGATGCTTGACG autosomal
TGCTATTAGAGACTCTCAAGCTGTTTTCCCTCCAGATTTGGAGAGTATAA autosomal
TGCCCAACATCCAGGCCGTGCTGCTGCCCAAGAAGACTGAGAGCCACAAA autosomal
GTCAGGGAGTGCCTGGCAGAGACAGAGCGAAACGCCCGCACGTAACGGCA autosomal
AAAATCCCGTTTTTGAGTAAAAAACCCCATTTTTGAGGTAAAAAATGCCA autosomal
AAGAGGAAATCAAACTCATAGTCCAGAAATCCGATGGCTTTTCTGGGGCA autosomal
CTTGGTCTTGCAGACCTCCATGTGAATCTTGAAGCTTTGACATTGCCAAC autosomal
ACTTGTTGGTGTTGCCGCCGTGCACTTTGCCGCCGTCCAGGCGCACGCAG autosomal
ATGGAGGCTGGACCAGAGTCAGTGTGAGGGGAAAACCCTTCCCAGCCCAG autosomal
CTCTCTTTCCTTACATCAAGATCAGTGCTTTTAAAATCCATGTTCAAAAC autosomal
AGTCCCACCTGCCTGTGCAGAGCACTGGTAAGTACCTGCTGGTTCATTCC autosomal
CCTCATCACCTCAGTGGCCCATCCAGGTGCCAAGTCTGTGCCCCCCAAGC autosomal
GCCCCACAGACCCCCGTGGGCCCCCCAAGCCCCCCAGCTGGGACCAAAGC autosomal
CCAAAAACTCCAAAATGAGACCCCAAAAACACCCAAAAAACCCCGAAACC autosomal
GTCATAAATGGGACATTAAACCTTTTTTTAAAAGGCCCTTTCTCCCTAAA autosomal
AAAATAAAAGTATCAGAAAATCTATTGCAAGAGAGAAACAAATATAAATA autosomal
AACAGTTAGCTGCGATCAGAGCCTGCTCCACAGAAAGTCTTTCCAAAGGG autosomal
AAACAAGGATGTGTGCAGGGTATGGAACCTCTGACTATGGAAGAATCCAA autosomal
AAATGAGAATTTGTGTGCTGTCCACCAACTTTGTGGTGTGGGGACAGGGC autosomal
CCCCTGAGGCTCACTGGCCCAGGCAGTCCTCGGTGACACCCTGGGCAGCC autosomal
ATACATAGTGTTACGTAACAGCTCTTGAGTACAGTACATGCAGCAGAATA autosomal
CCCAACATGCATCCCTCAGTTTGTGTTTGGTTTTTGCTCAGTGTGAGCCA autosomal
TAAGACATTTTTAGCCTGAAAAAAGTAGCAGATTGTTTTAAAAGAGCTCA autosomal
CCTGGTAAATCCCAGGGGTCCCAAAAGGCATCTGCTGTTTTGGTCTCTGC autosomal
CACTCTGGGCCTCTATCCCTGTACTCACAGAGCTGGAAGTAGAGCAAAGA autosomal
GCTGAGAGAAAAGGTGGACAGGCAGAAAATTCCTCATGGGACGAGAAAAA autosomal
AAGGCCGTGAGGGGGAAAATGGGCGTGAGGGGGAAAAAGGCCGTGAGGGG autosomal
CCAAGCAGGCAGGACTATTGTCTGGACCCCTCATCCACTAACAATTCTAA autosomal
AGCAGCCATCTTTCTGTACATAACTTAGACAAAAGTCCTGAAATTGAACT autosomal
GCCGCCGATCCAGGGGCTGAAGCGCCGCTCCATGGTGCTGTTGCTGGCGA autosomal
AGCCCTGCTGCCCACCCTGGCTTTCCTGGTGGACGTGCGTCACGTCTCTG autosomal
AGTGCTAAAGAAAAGCCAGCCTGAGAGGAAAGCTACAGGAAAATATTTTC autosomal
AAGGGTCTTGTTCTCATTGTGGTGGTGGTTCTGGCAAGAGGCTACAGATC autosomal
CAAAAATCTCAGCGTGTCTAAAGCTCCAGGAGGCTGAAAAGGAACAATAC autosomal
GTTATCAAATGTGGTAAAAAATAATATTTCAGTGGGGTTTTTTCTCCAGA autosomal
AAAGAGAAGACTCTTTCTCGCTGCAGTTACTTTTACCACAGCCAGTGTAT autosomal
GTACTTCACAGCCTTTTTGGTGTCAGCCACGGCCCGTTCCACGAATCCCA autosomal
AACCCAGTCCCCTCCCAGTCCCTCCCAGTTCCCTCCCAGTCCCTCCCAGT autosomal
TATGGGCTCCACGTCACCACCATTCATCACCTTCCCATTGCCAGTGGAAA autosomal
AGTTCAGAGCTATGGAAACCTCAAGAGTTTTCTTCCACTGCACAGCAATG autosomal
CAATGAACATCTGGAGAAAAATGTCTGGTAGCAGGAGCTTGCATCATGAG autosomal
AGCATCACACTTCTCTACTGACAGTTCACTAGTTGATCCTTGTCCTTTTC autosomal
ACAAGAACTGCTGTTTTCCTCAGCAAAAAAAAGGAAAATGAAAATATGAT autosomal
CCCGCTCGGCCCGCGGCCCCTCGTGGGTGCGCCGGCGGCGGGCTCGGCGC autosomal
AGAAAATATGTGATTACTTGAAGTTTAGTTGTGTAATTCTATGAATCCTG autosomal
GAATTTCCTTACTTGTGTGCAAAGCTGGAGAAGATGTGGCTGCATAGCTA autosomal
ACTGCAGCACGTGTTTCACAGCGCGGAGCGGCACCTCGCAGGCGGCCGCG autosomal
AGCTGACATTTCTGCATTTTTATATGTACTATTTATATAGTGGCTTCATA autosomal
AGGACCAGCACGACGTAGTGGTAGGCGGTGTACATGCAGTAGAAGTCCGC autosomal
CGTAATTTCTGGTATTTAATGTTTGTAACATCCCACTGAGGGCAGAGCCC autosomal
AGTCTTGTCCTCCAGCAAAAAAAGAAAAACATCTTTGTGCAGCACAGGAC autosomal
AAATTGGGCCTTTCCCAAAGATACACATTCTCCCCATCCTCTCTCTCATT autosomal
CCCGGGATGGGGACCCCCACGGAACGGGAGCCGGTGTGGCGGTGTCCCCG autosomal
CAGAGAAGAACCTTATGATGGCAAACAGCTGCAAGGGTCTACAGTGCACA autosomal
CTTTTTATAACCCATCCCTAATTACTCTGCATAATGTATTTCAAAATAAA autosomal
CATTGTATGTATCTTCTAAGGCAAGTTCTGAAACTCAGTGTGCTCAGCAG autosomal
GAGAAAACATCAGACCCTGAAAGGAAAAATTAAGATGAATTTCTAAAAAC autosomal
CACTGAGCCAGAATGAGCTGGAATTGAAAGAGATCTGGGGGAAAAGTGGA autosomal
GTGTGAAGCACCTTGCTGTACACACAGAGAGGTGCAATACAGAGGTCCTA autosomal
GACTTTCTTGTCCAAAAGACACAGAACAGTTTTTATTTGTGTAGTACTCA autosomal
CCTCTGGCCGGGCTTTGACTCCTCGCCCGTTAAACCGCTTTTACAGCTCA autosomal
CCCTCCAGGGAGAGCCGGTGACACTCCGGCCGCACGGGGCAAGCCTGGGA autosomal
CCCGTGCCCCCCGCCACGGGGCTGTAGGAGCCACCCCCGGCCCCCCCCCC autosomal
ACTCGTGGGCGTGGCCCGGCGCTGGCTCCGCCCACTCGAGGCTCCACTCG autosomal
CTGCTCAGGTGACACCACTGCCCACACCTGGCCTCCCTCCCTTCCCAGTC autosomal
GCCCATCCTAGCTGCAAATTTGGTGTAATTTTGCCCTTTCAGCATCCCCC autosomal
AAAATTATAACATCAGGCTGTTGTCACCTACACCACCATGCTGAAGCATG autosomal
TATTATATTTTTTTATCTCTTGTTGTATTTTTATAAAAGAAAGAATAAAA autosomal
AATTATTTCTTCGCCTTCGCCGCGCTCAACTCGGCGGCCAACCCGGTGAT autosomal
AAAAGAAAGACACGGGGCAGAAAAGACTCTAAGTGGGAGCAAAGTACTTG autosomal
CCTCCTTTTTTCTTCCTTTTTCCTTCCCTTTTCCCTCTTTTTCCCCTCCA autosomal
AAATAATTTCCTTGCGCTTTCTGCCTGCCTGACTGTGGCAGCCCAGATTG autosomal
AATTTATTGCTTGATTCGTGGATCTGGAACACTGGCACCAAACCAAGTTG autosomal
CCATGAGCAGGGAGGAGTTCCTGAGGAAAGCCACAGCGCTGTTCATAGCG autosomal
GATTTTATGGGATTTTAATGGACAAAGGCACCCTAGAAAGAATAAAAAAA autosomal
ACTGAGGATTCAGCTCAGAGTGGACACTGTCAAGACTCTGCCGAGACAGG autosomal
GTGGGTTTTGGGGGCATTTTGGGGGTTCCCCCACCCCAAAAGGCTTCAAA autosomal
GGTGCTCTGGCAGAGATAAGCATAATCTGCAATGACATCTAGGCTACACC autosomal
AGGTGTTTCAGGAGTTTAGGACCATCCTGTTGTCCTTCCCCTCTTCTCTC autosomal
GATTCTGTCTGTTGGCTGGCCACTATTCTTTGCATGCATCCCGTTTTTCA autosomal
CGATGTTTTATTCCACCGCCCAGAGTTGACCCGATGCTTCGGTTGTGGGC autosomal
ATCTTTACCTTAACTTTAAAATGCAAAATTTGGTTTGCAAGGACAGCGTA autosomal
AGAAAGGAACTTTGCACAAAAATTGATGACCTCTTATATTGCAATAGAAT autosomal
CTGCAAGTGTGCAGGGGGAAACGTGAGTGCAAGTGAAGGGGACTCTGTGA autosomal
CACATGGGAAATGATCCTTTTACTGCTGGAGCACTGGCTTAAACACCACA autosomal
AGAGTCCATTGTAAGGCAAATGGAAAAGGCACAGCAGCGGAATGGGGGAG autosomal
AATGCAACTTTTAATTAGCCAAATAAAGTCACGCCCCTTGATTTATGGGT autosomal
AGTGAAGGGCAGTGCTGGCGCCAGGTTTGCTACTCCTGCCAGTCTCATCA autosomal
CAATAATGGGGAATATTGAATGCACGGAGGCATTGCGTATGGTTAACACA autosomal
GTAACTGAATGCTGACAAAGCATATTTCCACATCCCTTTCTGGTATTTTA autosomal
CGCCGAGCCCGCCGGAGCCCCAAGCACCAGCGTTCCCGCAAGAACAAAAA autosomal
CAGTTCTGTACTTCCTGCAATGCATCTCCAATGCACATGGGAGAGTGAAA autosomal
GGCGAGTTGCTGCGGATGGTGTCCGAGATCATCTTGCCTCCCGACTGCCC autosomal
AGGCCACCATCTGTAGAAACAGTTTTGCTCACTGTGTAGATTAACTGGAG autosomal
ATCCAGTATCCTTTTATACTTTCACATCAAAGAACACTTGATGTTAAACA autosomal
AGAACAGAGGCACCGGTGTTTGAGAGAATTTCTCTGGCAGCACTGATGAT autosomal
ACCCCAGCGGCGGCGAACATGAAGGACCACCCGTAGTAGACGTGCACGGG autosomal
CCCAAGCCAGGCATTCGTCCCAAAATAAAAAATTGGCAACCAGCTATGAA autosomal
TCTGGTTTTTATCTGACCTGGTTTGGTATGGTGGGCATAAAACTGGAAGA autosomal
AGATTGAAGGATATCCCCTATTTTTGGCTGACAAAAATTAAAAGAAATTC autosomal
AAAGGAATCTTGATCCTGAGAACTGAGTCCTTATGCCGAGAAACCAACTC autosomal
TAATAAGTCTGCTGTTGTCTGTGGGGTCTCTGTGAAGGATGGCTGCTTAA autosomal
CAGTTCTCCTGTGGTCCTGGGCAGGGATTAGCTGTTCCCTAGCTTTAAGC autosomal
CTCCACCTGGAGCCCTCTGGCAGCCCAGGGTTCCCTCGGCTGGCTGGCAA autosomal
GCGCAAAAAAGAGGAAAAAAAATATTGCACCTGAGGCAGAACTTGACCCA autosomal
TTAAAAAGTGTTGCAACACCAAGTCTTAAACCACCAGAGAGAAGTAAAAA autosomal
TAAAACAGAATCTAAATTTCCTGGTTTCAGTTCTGGAGGGTTCTGTAGCA autosomal
CGGTCTGAGTGAGGCTGAGGTGCCCAGTATAACCAGTTCACTGTGCCAGC autosomal
AATGAATCTGGCTCTTGGCTGGCATCACTTTGTCAAAGGGATAGCTGGAA autosomal
AAAACCAGTTCTACTGCACCCTAAATAGAATATATCACTCCTTGGCCTCA autosomal
CAAGTGTCCCCAAGTGTCCCCAAGTGTCCCCAAAGTGTCCCTGATGTCCC autosomal
AAATATAATTAAGGACAACAGGGTTTCTGTATTTTTTTTTTTCTTCCAGA autosomal
CCTCCAGAAACCCCAAAATCCTCCAAAACCCAAAAATTCCCCCAAAACCC autosomal
ATAGGCAAAACAATGCTAGCTCTCAGACTGTCTTCATGAGGTTCTTGTGG autosomal
AATACAAAACCAAAACTCTGCCCCCGCTTTGTCCCATTTTCCCTCTTCCA autosomal
CACCAGACAGAAAGCTTGGGACATGGTCAATGAGCAACAGTGGGACTCTG autosomal
AGAACAAAAGGAGGAGAGAGCAAAGCCTGCCCTGAGACCTTCACAGTGCT autosomal
CATGGCATATAAATGCAAGGATCCAGAATATTCTTTTCAACTTCAGACAC autosomal
CCTGTGGTCAACACATCATCAGTTAAAAATGTTAACGTGAAACCTGTGTC autosomal
GACCCGTGCCCGTGCCAGGTGAGGGTGGTGGGGCTTCATCTGCTGAGGGC autosomal
AAAAATGAGGTGGGGCTTCTAAAAAATGGGGTGGGGCTTCCCAAAAAACC autosomal
AGCCAGGCACTGGTTGTCACCAAATGGTGTGAGCTGCACAGGACAGCAGG autosomal
GCCTGCCCCACAGGTCTCTGCCTCGCCAGTTCTGTCTGGATCAGTGCAGA autosomal
CCACAGGTGCAGATCACGGGCGTGTCCCACCCGACTCCGCCCCCCTCCTC autosomal
TCCCCGCCCAGGCTCACGACCTGGCTGGGAACCCTCCACAAACTGCTCCA autosomal
AACTGGCCAGGCGAGAGACCATTTTCTTCTTCCTTCCCATCTAATTTCCT autosomal
AAAGCAGATGGATGGATGTGTTGGAGGGCTTCCCCTGATGATACAGGCCT autosomal
AGGTGAAAGAGTTCACAGTACATGATGGGCTGTGGTCAGAACCTGTGGAA autosomal
CCAGCACCCACGGGGAAGGTAGTGCTGGAACCCCAGAAGGAATTGACCTC autosomal
ATCACTATCCTGATCAGGTATTGAAAATGACACATAATTTAACATGATAA autosomal
ATCAAATGCATGAATACCAAATGATCTGGTGATGCTAACACAGTGAGCTG autosomal
CATCCTTCCACACTTGAAAAAAAAAATGGTTTTATGATAAATGTTTTAAG autosomal
CTGATGTTTAATATCCACATCTGAAAAGTGTAGCTAGCAGCACTCAGTGC autosomal
AAAGCAGGGACTTTTGGGAACCTGGACTCTCTCCCTGCAAGAGCAGAGGT autosomal
AGCTAAACTATGCTGAAAATGGTGCCTTCACTAGACAAAGAGTTTTTGTA autosomal
CATGGCCGCCCTGCCTGGGATTAAACAGTGCGAGGGGCTCTAATCATTAA autosomal
AGGCAAGCGGAGACAAACAGTACAGGAAAGTGTCTGCGGAACGATGACAC autosomal
AAAAAAGCTTTTTCTCCCGGTCTGTGGTTCTCCCGCACTGGCTGCTGACA autosomal
AGAGAGAAGAGATTATCAAGCAGATGGTGGTAAGACTGCTTTTTGTATAG autosomal
AAGGATGAGTATTGGTACATTGAGTGGTACCAAAACACAGACTTGTTTCT autosomal
GATAGGCCTCTCCCTCAACCTGAATGTTCATCTCCGCTTGATTTTCATTA autosomal
AATCAAATGTTGCTGACATCTGGCTGAACTGAGCCTTGGAATTAAGAACC autosomal
AAAAAGGAAACAAACAACATGAACACAGCATTTAACTGCACATCCCCCTC autosomal
CCTGAGCTTCTTTGTCCTTTTTCCTGGATTCCAGCAGCTGCAGGATCTCA autosomal
CTACACTTTTTTCCCATCTCTGTCTGAAGAGCATGCAGAGCCAATAAAAG autosomal
AATATTCATAGGTATTTAATTCTTTATTTACAAAATACTATCCTGAGAAT autosomal
CCCGGAGCCCCCCGGGCCCAAACGGCGCCGCCGAGACCCCCGGGGGGGGC autosomal
GGAATGTCCCGGAGGTTTTGGAGAATTCCAGGGGTTTTGGAGCATCCTGA autosomal
ATGTGCCCCACAACTATTTCTCCTGCTAATGCTGAAGATAAACTAGCAAC autosomal
GGGCAGACAAAGAGCACTTGGCCAGCTCCTCTATGCCAGGAAGACACACA autosomal
ACAGTCATTGTTCACCCTGCAAAGCACAGCGTGTACATCCCCGCCGTCGG autosomal
CAAATCCTCTATCAGCTGACACTGAGCCCTTGTTTGACACTGTAGTGAGG autosomal
TGATGAGCAGGTGCAAATAGTAGTATCAATAAAAATGAATGCTTTTAAAA autosomal
ACTTGTTTTGCTTTGTGGTTTTTGGTGTGTTTTGTTCCACTTTTTCTTCC autosomal
CGAGACACGGGAGAACATGGGCAGGACCACGCTCACCACACTGCAGGGCC autosomal
ACCCCAACACAGATACCCTGGTTTCTGCCTATGGAGCACCGGCACAGCAA autosomal
GGGACCCGTCTCCCAAGGAGCTGGTGATGTTCCTGCACGCCCTGCGCTAC autosomal
CTCCGTTTGTCCTTTTTTCAGGCCACTCTTTCTGGCCAATTCTCTATTTA autosomal
CCTCAGCACCTGGGGTGCTTTTTTTTTTTGGGAAATCAGAAAAATCCTGC autosomal
ACCCCCCCAACCCACAGGTGACCCCCCCCCACCCCCCCCATACCGGGACA autosomal
ACTAAATTCTGCCACATCCACTGATTCTGCTTCTACAACACAAGAATCAG autosomal
CAGAAGGGTGAGGGAGAGGATTCTGCCCCTCTGCTCTGCTCTGGTGAAAC autosomal
CAAGGTGGGTTCCCAGGAATAGGCTGCTTGGGAGAAACTTCAACGCACAC autosomal
GCACCGGGGGCTTTTCCACGCGCCGCCTTCTCCGCTGTTTTTTCCACACC autosomal
GCTTCCTTAGAGTGTTACAGATGTTCAGCTTAATCCTTCCTTCTCCCAAA autosomal
GATGAAAAACCAGGGGATGAGGGGGAGGATAAGAGACCAATGGCTGTTCC autosomal
CCCTGCCCGTGCCAGGTGTCGCAGGAGCGGTGATCCGTGCCCGGCTGTGC autosomal
GGAGGCACAGGCGGCCAGCCCACACATGTTCTTGCCTCGTTCAATAAGGA autosomal
GTGACGTCACCGACCCGGCACCCCCCTGGTGTGACGTCACCGACCCGGCA autosomal
TGGAGTAGATTGTTATTATGTGTCAACTCTTTGTTGTTTTGCAGAAGTAA autosomal
CAAAACCTGATCAACTTCACGTAGTAAGACCCAGGACAGAGAACCAGACA autosomal
GAGCATTGGGTGGAGATGAAGGAGATGAATATGACAGACCCACCTCTCCC autosomal
GTATTTTCTGAAGGCTTCTCACCCCATGTTCTACAGCTGCCATTTCCTAA autosomal
AATTATTTTGAATTTCCTCCAATTTTGGGTTTTTTTCCCAAAATTTTGGG autosomal
AAGAGGTCCTTCCTTCTTGATTGGAATATTTTTTTACACATTGATAAAGA autosomal
CAGTCCTACCAGTCCACAGACTCATCAGAAGCTTCAGGATGTGTTTGGGG autosomal
ATATGGTGAAAAAAAAGTTATTTGAAATTTTAGTACAACATACCACAGGA autosomal
GTTTTCTTGAAAGAAAAGCAGCTCCTCCCTCCTTGTTTTCCATGGAATAA autosomal
GGAGTGAACTACACATTGACTTAACTCCAGTGTTTTACCTGTAGAAACAA autosomal
ATGTAGCCACCCCTCCTGCCATAGCAGCCCAGGCCTCCCAGCCCATAGCC autosomal
TGAGGAACAGGACAAGATGTCCTTCCTTTAGATTCTTCTAGGAATTTCCA autosomal
AGGCAGCAGAAAAAAAATTAAAAATAATAATAATCACAAAACCAAAGCCC autosomal
AAGTAACAATTCAGAACTGAGAGCATTTGTCTTTTCTTCATCTGTAGGAA autosomal
CTGCTTGTTCTGTCCCTTAGAAGAGACCTTCACATAAAAATTCAGCATAA autosomal
AGCACAGTGACCTGTGCCTTTAATGGTAATACAGGACTTGGGGAGTTAAG autosomal
CAAGACATTATCCTAAAGTAAATAATTGCTATTGCTAGTATATTATTTGA autosomal
CAGACACGGACACAAACAGCTCTCCCTGGGCACCAGCTGTGCTCTTCTCA autosomal
CAGGCAGCTTCCTTTGGCTGCAACCATGTCTGCATTTCTTTAATAACAAG autosomal
AGCTGCCAGCCAGCTCAGTGTAGCTTTTGAGGATCACTCCATCTCCCTCC autosomal
TGTCATCTTTTATATTTTCAGATTATTTCCACATTCAAATTCATATAAAA autosomal
CAGGTTCTGTGTGCTAGGAACACAGCAGGTTTTAAGATTCATGGGTTTCA autosomal
CAAGGATCCAGCTCATAAAGGGACTCATTCCAAGCACCTTGTTCCCAGTA autosomal
ATTGGGGTAGCACCCGCGGCCATCGGCACCGAGACACAGCTCAGGTGACA autosomal
CTCAATCTCTTAAGATTTTAGTTTTTGTTTTCAACTATTTTGGTTCCAAG autosomal
CACCGCTGCCAGGGCCGTGCTGGTTTCCTGGTCGGAAATATCCAGCGCAA autosomal
AGAGCTTCAGCTTGCTGCTTAAAGCAGTCTGATGGAGGTGTGGCTTCCAT autosomal
CAGAACTGGGACATGGGGACAACCACATGGCACCATGGAAAAAGGAATAA autosomal
TTCTTTCTGGTGGGAATAACAAGTACTGCCAAAGAGGTACAAGATGGAAA autosomal
ATGATCTAATGAGAGGACATTGAATTGAGTGTGGAGACACAACAATTGGA autosomal
CGTGCTTCCAAAGCAGCAGGAAAAGGAGTGAAAGATGCTTGGTGCTGTCA autosomal
CTTCCGAGATCAGGCGAGACCGGCCGCTCTCAGGGCGGCAGGCCGTAGGC autosomal
GGACCCCCCAAAATCCCCTCCAAACCCCCCCAAAACCCCTCTCAGCCCCC autosomal
ACCCTTCTGAAATCAATGTGAGATGAGGGAAATGTGATCACAAGGGATGA autosomal
ACAGATTTACAGCCCGGGATCAAGCCAGTCAAATAAAGGTTTTATTTTAA autosomal
TCCACCTGCCAGGTGGAGCACGTCAGCCTGGAGCACCCCCTGAGCCGGAA autosomal
CCAAGCTCTTCCCTCACTCTCTTCCCTCACTCCAAGCTCTTCCCTCACTC autosomal
GGGACACCCTGGGGACACACCAGGGACACCCCAGGGACATGAGGGGACAC autosomal
GAGGGGGCTGGGGGGGACTGGGAGGGGGCTGGGAGGGAACTGGGGGGCAC autosomal
CCTCCAGAACCATATGTACCCATGAACAGAAGTTATCCCAGTAAACTAGC autosomal
GATATATTAAGGAAAAAAAACACCTTTTGTCATTACAATAGAGATATGAA autosomal
TTACCACTGAGACTTTGGGTCCAATTCTGTCATCTCCTGCCTTTCTACAA autosomal
CAATTCTGGTTTTCCCGTTTCTCTGCAGAAATTTTAAGCAATCTGCAGGC autosomal
AATGTACCAGACTGGAGACTGCAAGTCCTTTCTGGCCCAGCTCTGGGGCT autosomal
AACGCTGTCCCCACACCCTGCCCTTTCTGGCCTCCCACCCCACCCTTTTG autosomal
ACCACCCCTCACGTGAGCACCTGGTCCGGAGCTTTTGGGGGGTGCTCCGG autosomal
GCGACAGCCCACGGTCCCGTCCTGTCCCATCCCCTGCTGTCACCGGGCCC autosomal
AAGGCAAAGGAAGAAATACACCTGCTAAGCACGGATCATACAGTGACTCT autosomal
AGAGACATTTCAAGTATGCAATTAACCTCCTTTTGTGAAAACAATGTATA autosomal
ATTTACCCATTTAACAGATTTCTTTGATTCTCAAAGATTGCTGCCAGGAA autosomal
TCTCCCTGCAATTCCATTCCTCTCCACCTTGGGGAGGGCAGAGATGAAGA autosomal
CTTCATCTTCTTCTTTGGTGCTCTTTTTCCAAAGCTGCCCCACAGATTCA autosomal
AGTGTTTTCAGTCCACATATAGAAACAGCAGTGAAAAGTATAAAGGAGAT autosomal
GCCTCCAGAAAGTTTACCTGAATAGTACTAACCTGCAGTCTCTCCCTGCA autosomal
GGGCTGGCGCTGCTGGGGCTGCTGGTGCTGGCGCTGCGCAAGGTGAGGCA autosomal
AATTTCTCTCCACTGATCCTCTCTATATGCCATCTGAAGACACTATATAT autosomal
GGGAATGGGAACGGCAAAGGGAACGGGAACGGGGCGGGACGGGACGGGAA autosomal
AAGCGGAGTGTGCTGGTGAGGGGGCACAAAGCAGAGCAGTCACCTCAACC autosomal
CAATACATGGAAGGGGCCAGTCTGAGGTACAAAAACAACCAACAAGCGAG autosomal
ACCTGGCTGAAGGATTCTTGTGAAGACTCACTCCTAGGCTCTGAGGCTTC autosomal
ATAATTTGCTCTTGGATCAAAGATTTTTGAGTACAAAAACAAGTTCCAGG autosomal
CTCCACGATTCCAGCTCTCTGGGCTGCAGGGTGCACAACTGACTTGTGCC autosomal
ACTGTGTCCCAATTATGCAGTTTGCAGTTTAACCATTATTTGTGTGTAGA autosomal
GCTGCCAGGCAGGCTGGGGTACTGCTATCTGCCCCTCCAGGCAGTTTTAC autosomal
AACGCAAAAAAATAACAAAGCCACGCCCCCCTGCCTCATTTGCATACCCC autosomal
CAGCTGTGTAGTCTTTCAGCAGAGGAGGACAAGTAGCTGCCCTCAGGAAA autosomal
GTGTTGAATCGGAACAGAGGGATCTCATTCTTCCTGGACAGAAACTGGGA autosomal
CTGCAGTCTGCCTTTTGCAAAAAGTAAGAAATACACAGAAGTGTGTGAAC autosomal
AGCCATGCCAACGGGAAGAACGTCCAGCCGCTGCGGATCAACACTGTCCG autosomal
ATCCTATGTACATATTAAAGGGGAAGGGTATCATAAATGAAATTCATTTA autosomal
GCCATGTGCCCCTTGATCCAATCCCTAAATCTCATGTAAATTTCAGCAGA autosomal
AGATCACCTTGGGTGTGGAAGCCACGTCACCCAGAGCCACCCCATCAGCT autosomal
TCCTCTCAGATTGCTGCAAGGGGAAGGGAGAGACATGGCTAGAAAATACA autosomal
CTACCCCGGGAACCACCACGACCACTCCAGGGACCACCACCACCATCCCA autosomal
CGGTCAAGGACCACCGCGGGATCATCCCCAACCGCGGCTTCCTGCGCCAG autosomal
AGATGAGAAACAGAAAACATCACTTTTATCCAGATTCGAAGCAAACCTCA autosomal
CCCCAAAATCCCACAGATTCCCAGTAAAACCCCTTCAGAATCCCAAAATA autosomal
AGTAACCCTGCTGAAACCACTTGAACAACTTGCTTTCTAAGAATTCCAGA autosomal
AGAAGGTGCCAAAAGTATTCAAATGTTAATCAGAAGAGCTGTCAAAGTGG autosomal
AAACTGGCCGCAGTGACCACTGCAGTGACCACAGTGACCATCAGAGTGGC autosomal
GGAGCATCATCCTACTTCACTTCATTCTTTAAAATGCCAGAGCACATCAC autosomal
GATGCCATCGTGGGTCAGGGTGGCCCTGACCAGCAGGGGATCCACGTCCA autosomal
GAGGGGCTGGTGTGCCTCTTTTCCTTTTACTTTTTGAGTGGCTGCCTGAA autosomal
AAAAATTATTTTCTTCCCCAAATATACAAATTTTCTCTTTAGATAGTTTA autosomal
ATGCTTGAATCCTTTCCTGTACGCTTTCCTGGACGACAGTTTTCGGAAAA autosomal
CACCTTGCAGTCAGTGATACTCACAGAGTGGCACTCTTTGAAACTGACAC autosomal
CCAACTCATCACTGTGGTAGTAATTTTGCATACCCAGCTTCAATTTTATC autosomal
CCGTGTTCCTCCTTGGCGATCCTCTCCGCCTCTTCCATCAGCAACATTCC autosomal
CAGCTCCTGGAGAGTTCCTGTGGGCACAGCCAGTCTCTCTTCATGCAGAC autosomal
ACCTTGCTCGACTTTGCAAGTCAGCCAAGTGTTCATACCTCACTTTTTTA autosomal
AGGGAAATGGCAACCTTTCCTGAAAAACCACAGCAGCCTGTAGCAGTGGA autosomal
TACGCAGCCAGGGCAGCTCCCACCACTCACAAGGGCTTGATTCCTTCACA autosomal
TCCAGGTGAGCAGAGTCTCTGTCCCACTCTGTGTCAGCCCTGCAGTGCCA autosomal
AAAGTCTTTTTTTCCTTGTTTGGGAGTCATGGTGAAGCTTTCCAGTATGG autosomal
AAACTACAATTTAGCTTCTTGCATAAAATCCCCAAGCATCACAGTAATCA autosomal
CAGCCACCAGAGCTGGCCTGCTGCTGGACAGGACAGAGATTTGGACATCA autosomal
GAAAGACTCTTCAACTGAAATGTATAAACTTAATTTATTGCATTTAAGTA autosomal
CCCCGCGGTGCCAGCGTCCCCGTGGTGCCAGTGTCCCAGTGCCAGCATCC autosomal
CAAAAAACTGCAAGACTGGAGCAATGGAATTTTGACGTAAAAACCTTAAA autosomal
CCTGCAAGACTGAATGGTTCAGCAGATGATGTGAAGGGAGTGAATGCCAA autosomal
CGCCCGTTCGCTTGCTTTACGCTTTGTTGGAGCAAAGTGGAGAGCGTGGC autosomal
AGAACAGCTGGAACTCTGCACAGAGCCACACACCTCTGCCCATCCTTCCT autosomal
CTCTTCCCTCAATTGTACAATTATATACAAATCTGCTGAACTTCCTCAAG autosomal
AGTGTGTAGTCACAGAGAGATTAAATTGTTAAGTGGCCAGTTTAATAAAC autosomal
ATAGTTGACATGAAATGTGTTTCTGTTTTTTATTGCTTGGATAATTGGAA autosomal
CCGCTCGTGCTCCTTGCGCAGCTCGAGTAGGAGTGGGAGAAGGTGTGGAA autosomal
GCGGGCACCGCTACTTCCAGGACCTGCACTCGCCCCTGCGCCCGCCCAGC autosomal
GAGGGAGAGGAGGATCAGGCAGAAGATGAGGGTGACCAGGACAATTAAAA autosomal
CACCTGGGGGACACCTGGGGGACCCCAATACACGTGTCACCGCGTGTCAC autosomal
CGGACGGGCAAACGCTCGTCGCGGCTCTTCTGCGACGTGAGCTTCAACGA autosomal
ACCCAAGGGCTTAAAGCTGGAATTTCCCCATGTGCCAGCTACAGAAACAG autosomal
GTGGGATGTACAAACATTAAATACCACAAACTACCTGTGCTGGATTTACA autosomal
TTCAAGAAAAAAGTAAAAATTTTCACTAGTAGGAAAAACCAAGAAAGAAA autosomal
GCTGATTTTGGGGGGTCCTGTGTCCCCCCAGCCCTGCTGTCACTCTGCCC autosomal
AAAACAACCACAACAGACTCGACTGTCTCAGTGCTCCCTCGCTAAGCGCT autosomal
AGAAATGTTGGTTTTGGGCTTTCAAATACCCTGGTTTCTACCATCTGGAG autosomal
ACATAACAAAAATTCAATTTAGTTTTGATACATATTAAAATTTTAGTCAG autosomal
AGAGAAGGCAATACCTAAACACAATCTGAGATCAGGGATCCACCTTGCAC autosomal
AAGAGAGCGTGAGGGAAGCCTGCAGTGGGAAGGATAATGCAAAATATTTA autosomal
AGTTAAGTGTATTTACAGCATGAATAAGTTACATAGTTGTCAGAATAAAA autosomal
CTCGCTTCGCAACAACTTCCAACCCCTGCAGCCCCCGAGGATCGGCTTCC autosomal
ACCAGTCAGGAATGCGGCCAGTCTGGCTGTAATATTCCTTGGACACAGAG autosomal
GTTTTCCATAATCAAAGGACTAAAATATGTTTTTATATGTTACTTTCTGA autosomal
GGGACCACCAGCATCACCCCCAGTTCTGCCAGTTCTGCAGCAGGGACCCA autosomal
CAAGCGCTGGAACAGCGACCCGGAATTCATGGAGAGCAGACGGGCTGCGG autosomal
GTAAATGTTTTTTTTTAAAAGGCCAATGTATATATTTTAAATGTGATTTA autosomal
AAAGACTTCTGAATTTCTATATCTGCATTTTGAAAAGAAAGAAGAAAAAT autosomal
CTCTCATATTCTCAAGGTCATTCCTAACCTTAACAGAATCATTCTGAAGA autosomal
ACGTTCATAGAGATCAAACAGGTTACTTTTACTGCATCAAATATCTTTTC autosomal
AAGCTAAACTACCACTGTAGGTTTCAGTTTAGTTTGTAGTAGAATCTCCA autosomal
AGGATCTGCCACTAAAGACAAAGTATAAACATAATCCATTGACATTCCAC autosomal
AAAAAATTGGGGTTCATTGGGGAAAATTTGGGGTTCATTGGGGGTTTATT autosomal
CAGCATGAAGGTGATCCGGTCCTGCGCCAGCCGCACGTCCCTGCAGTACC autosomal
ACCTGCAGCGCTGTCTGGCCCAGGCGGCACCGGGCGCCCTGGCTCAGGAC autosomal
TTTTTTTTGCAAATAAGAGTAATTGGTGCCAGAGGTTGGACAAAAAAAAA autosomal
AAAAAGCCTCTCTGGGTTTTTTTTTTTGTTGTTGTTGTTTGTTTGGGGTT autosomal
ATGTGTCCCAGCACAGAGCAATCCTGACCCAAACCAGTCCTTTAGCCCCA autosomal
AAATGAAATCATAGGAAAACAACATGCCATAATAGAAAACTTTATTATTA autosomal
CATCCCAGTATATCCCAGTTCATCCCAGTCCATCCCAGTCCATCCCAGTC autosomal
ATGTTCTGGAAAGACTCTAGAGAAGAAGGCTTCCTTCCCAGCCTGTGGTG autosomal
ATAAAGCCATAGTGATTATCATCCTGTGCCTTAATTTGATTTGCTATTTA autosomal
AATTTTACCCTGGCCAAGGACTGCAACAGAATCTGCATTTTGAATAGTAG autosomal
GCCTTGCCAGAACAGCTGCTTTTAGCAAAACACAGAACTCAGGTGTGACC autosomal
AACTGTTGTTCTGTATCACCACCAAATGGTTCAAAATAAGCCACCCACTG autosomal
GCAATAATCCGAGAAATCCTCGTCCACGTAATTGGCGGGAAACCAACCGA autosomal
AAACACAGATATATCAAATTAACAGCTCATGTGAAAAAACATTCAGCAGA autosomal
AACCATCCCAGTCATAGTAGAAAACTGACATGTACAAAAAATAGTAGCCA autosomal
CTCCTGCGTGACGCGGCCCACGGAGGCCACGCGTGCCGCCAGCGCCGCCA autosomal
ATACTTTGAAAAAAACTTCTGAACTGAGCAACATTCTTCAACACAAGCAT autosomal
AAGATCTCCTTCAACAGTCCAGCAATTTTCAGCATCTGGCTTAACTCTCA autosomal
ATTACAAACCACATTCTAAGAAATGGAGGCTTGGACTTGCTGCCAAAATG autosomal
CAGTTCCACAGCAGGCAAGATTGTGACATCAGTGTGTGTGATTCAGACAA autosomal
GCAGCTGCCACAGCCGAGCAGAGCGGTGCCACCTCGCAGAGTTCCACCCC autosomal
ATTAGAGCCTTAATTGCTTAATTTGCCTTTATTAAAAAAAAAAGAAAAAA autosomal
TGTTCACTTATTTAGAATAAAAACTCATTAAATAACATTTTGTAGTTTAA autosomal
ACTGTGTTTCAAAATACCTCTGCACAGAGCACCAAATTTTTTTTGTATGG autosomal
AGAATGATTAACTTGCTAAATGGCAAGTTTTCAGCTACCTACTCATCTGC autosomal
AAATTAGTGTAAACAGTAAATTTTTTCCTTTCTTGTACAGTTGTACAGTC autosomal
AGAATTACAGAACGATTATCTGCCAAAGGCTGAACATATGAACACAACTA autosomal
CCGACAGCATGACCTCCATGAGCACCCCGTCCGAGCCCGGCATCTGCCGC autosomal
ACGCCGTCCCCAGGGCCCCCCTGATGTGACACTGCCGCCGCTCCAGCACC autosomal
TAATAAAGTTTTACTTCTCTTTCAAATTGCATGTATTTGACAAAATCTGA autosomal
AGGACCGCTATGGAAAACATGTTCACATAGAAGAGCTGGAAGACACCCCA autosomal
AAACTCCAAGCACACTAGGGAGAACAGCAGAGGTGAGTGCAGTATAACCA autosomal
AGATACACTGTGGAAAATTCTACCACATATATTAAACTTCATCCTGTCAC autosomal
TAAACTCTTTTAAAATATTTTTCTCTTGGTTGAAAGCAGATTGCTGGGTA autosomal
GCTTCCACGGCTGCTGCTGCCCGACGCCGCTCCGGAGATGAGCCAGCTGA autosomal
CATTTATACTGTATGTTTTCAAATAAAAAGGCATTAAGAAATATAATAAA autosomal
ACTGCTACTTGGACATCGGTGTTACTAAGAATACATTTTAGAGGGGAAGC autosomal
AATCCCCCACCTGAGGGGTTTCATAAAAGCTCACACACAATGTGGTGTAT autosomal
GGCACAGGTGAGTGGAGTCTCATGCTGGAAAACTCATTCCATGGCTCAAA autosomal
CCTTGGGGGAGTTTTGAGGGGATTCTTGGGGGGTTGAGGAGGGTCCTTGA autosomal
CGCTGCCTTCCGCACCATCAGTGTGTGAGGGCTGAATTTGGGGTGAAATC autosomal
AATTGACAGAGGTTGCTCTTTATAATTAATTATGATTTATCTCTACATAC autosomal
CACTTTCCCCATACTGCAGTATTCCACAAAGACCAGTCTTAGTGCAGATA autosomal
ACCCCCCCTGCCCGGGGGGCGTTTGCATAGCGAGAACGGGGGGGGGGGGA autosomal
ACAGAGCATTGGATTCTCCTTTTGTTCAAGGATTTGTGCATATGTGTTCA autosomal
AAGTAATGGACTGGCATGAGGTTGAGCATGACTGTGGGACCTCACTGTGG autosomal
AGCTGGGCTGTGGCACGGGTCATTCCCATCTGGCAGAGGGGTGTGCTGAT autosomal
AAAGGCTCGAGCCTGGCCTGAGCTGGGGCAGACAGAAGGAGAGCCAGCCT autosomal
AATTGGAATGTGTCCTTTTTTCTTTTAGAAAAATTTTGCGAGCAAGCAAA autosomal
GCCCAGAGGGGCGAAGGGGACCCCGGGGCTGCGGGAAAAGGCGTCAGTGA autosomal
GTAATGTCTCCATACACCAACGAGGTTCATGTACAGGGCACTACCATAGA autosomal
AACTGAGGATGTTGGGCAGGTCTATCAATCAGTCAATGTCTTGTTGCAAA autosomal
CATGTACATAGATCCCTGGAAACTGCATGGATCACAGCAGAGACAGGTTC autosomal
GCTACAAGTTGGCATATTTGCAGGAGCATTGAATTCTGGCATGCAGTCAC autosomal
AAAAATAAATGTTTATTAGGTAAGCTAAGAGTTCCAAAGGTTCATCTCCA autosomal
GACAACGCCTTTGACCGAAAGGAAGGGGGCAAAGACAGGGACGAGGGTGA autosomal
GAAATCACTAAGTCTGAAAGTTTTATTTGCTATCAAATACATCCCAGCCA autosomal
AACACTCTTTTGGAGTGAGGAGGAAAATTGTCCAGTACATCCCGTATGTT autosomal
GGCGGTGTTCTGGGGGAAGGAGCTGAGGATGGGCCCGGGCAGGGTGACCA autosomal
ATGTATGATACCTGCCACACAATAATGTGGCTCCGTTCAGCCTTGGAAAG autosomal
AGACATCGCACCTGCAGCTCCAGCCGCTCTACACGTGAGTCTCGGGGTGC autosomal
GTACAAAAAATAAAAATAACAACAAATAAAACAACAACAACAACAACAAA autosomal
AATTAGGATACTGTTCATGTGGCCTCTGCCACTGGTGTTCGTCCTGCCGC autosomal
AGCCACCCAAGCACAGCGGGCTCCAGGGATGCCGGCTCCGTGTTTTGGGA autosomal
CGGAACAGTTGAGTACTTGACATTTTCTTGCCTTCAAAGTGACTCCCAAA autosomal
CCTGGAGCTCTGCTGTGGGAGGCAGGGAGGGCTGAAGGACATCCTACCTA autosomal
GATGCCAGTTGCAGCCATATGAGAGAAAATGAGAGAATTTGGCCATTACA autosomal
CTTTCAGACTGTCTGTTACCGAGTATCTTAAAAAAATCACTGACTACAGA autosomal
ATCCCAAGCACGCTCTGCCAGGCCCCAGCACCACTTGGAGCTGGTGCCAC autosomal
CGTGAGAGCTGACCAGACATATCACTTGATTGAACAAAAGTCAGTACCTC autosomal
AATTCCAAAACCTTTACTCAAACATGCACATACCTCACTGAAACCAGTGG autosomal
ATGTCTGAATTCAGCTAAACCCAGATTTTGTCTCTTCCAAATACTAAGTG autosomal
GAGAAGGCTGTATATATATGTGTGTGTGTTTATTGAAAGGTCTTACTAAA autosomal
AGATGTGGTCTGGGAGAGCCAGGCCTGGTTCAGTGGATTCACAAACACAG autosomal
AGGCCCCGTGCGAGGAGGTGCACGTGAAGCACGAGGGGAACCGCGTGTAC autosomal
AATGGACCTGAATGGTTCCGACAGGGCCCGAGCGGGTCCGAACGGGTTTG autosomal
GAGGTATGTGAGGGTGATGTCCAAAGGCACTGCCCCAAGGAATGTGTCCA autosomal
GACTGTGTGTAGTTTATAATGATCAGAGGTTTGATTAAATCTCGAGCACA autosomal
ATAGAAACCTTTCCTTCCTCCATAGAAACCTTTCCTTCCTCCATGGAAAC autosomal
CCAGCAGCGGAGCGCTCTCCTGGTTTCCCCGTGGAGCAGCGCGTGGCGGG autosomal
AGGGACGGGCCGGGGGAGAGGCCAGCCGGAGCAGAAGGAAGGAAGGAAGG autosomal
GGAAAGACAATTAAGAAACAAGTAATCTTGATTTCCACATTCAACTGAAA autosomal
CAAATTTTTGGGGTTAGAGCGTCGCGTATTTTTGAGGGTGATGGCCCCTG autosomal
CTAAAGTAGAGAGACTATCAGGTCATTATAACAACACAATTGATGAAAAA autosomal
CCTCCAATTAAACATTTCACTGCATTGCTAGCTCTGTTTCAAATGGGCAC autosomal
AGGCCGTCTCCTCCATGCCCTGCGGAGCCGATCATGCAGGTTGTCAAAGA autosomal
CTGTGTTTATGTAAAGTACTATACTTTGAAGTCTGTTGTTTCCTGTTTGC autosomal
GACACGTATAATGCATATCTGGTGATATTTGAATTTGTCATTTCCTCTCC autosomal
GAAACACATTACAACAAATCCTAGCAAAAAGCCATTGACAGCTACGGGCC autosomal
AGTGACAGCTGGAGCTGTAACCCAGACCAAGAAATGCAAAACAGAAACCA autosomal
AAACTTAGCAGTCTTCAAAATTTGGATGGAAAACACTATCAGATTCTGTT autosomal
ATCCCAGTAAGCGGCCGTACTCGGCCAGGGCTGAGGATTTCTTCACCCCG autosomal
ATTTATTTTTATTTCTATTTTATACTTTTATATATCTTTGTATACATTGA autosomal
ATAAAAAATTGAAGGTGAAGACAAAGCAAGTAAAATTACTAGCATCAAAC autosomal
AAGAAAGTGTACGGTAGATGCAAAATAAAATAAAATTTAAAAAAAAAATC autosomal
ATTCCCACTTGGCTTTTTCCCCTTTTTTGCCGTTTTCACCCCAAAATTCC autosomal
TCCAAGGATTCTCCAAATCCTAGCCAAGCATTTAGGTATATACACACACA autosomal
CTGTTGGAAAGTGGTTTTTTCTTCATTTATTTTGAATAAGTGTGAAAACA autosomal
TCCCTTTAGGCTGCTCCTACCCCCAACTTACCCTAGGATGTTTATATTAA autosomal
GACCAGTTTGATACTGGTCTTATTTATATCATCTTCCTACAGCTGGGGGC autosomal
GAAGGCAATGGTGCAGAGCCACAGGTAGCTTTTAATCCTGTATAGTGAAA autosomal
AAAAAAGAAAAAATAATAATCAGAATTTCCCCGAGTGCTCCAAGCTGAGG autosomal
ACTTGATCAAATAGCTTCTTCTTTTTTCACTTTTTCTTTCTTGTTTTTAT autosomal
GGGCCAGTGGTGGTAGGGACTGAGAGACACCCTGTGGTGATGGGAAGGAA autosomal
GCTGTGTTTTAGCTTGTCCAGCTTAACTGGAATCCTGATGGTAAAGTCAC autosomal
ATCCATAGTGTGATGGATGTGGGCATTACTTTTAGTAATACAATTATAAC autosomal
AGAAATGTGAATATGTGTTTGCCCTATTCTTTTGTACTCTTTTAGGTAAA autosomal
AAATTTCCCAGCCAGCTGCATGAGACAGCCTCAAGTTACACCAGGGCAGG autosomal
AAAATGATGATACTGCCTCTATATTGCCTAGGTTACAGTGAAGACCTCAG autosomal
AACATATACATTTTGGCCATTGAGCACTCTTTGGGCTATGCTGGAGTGTC autosomal
ATTTCTACAATACATTTACATAGACGTGTTTATGTTTGCATTTTAGTCCA autosomal
ACTTCTCAAGGAGATTGACAGCTAAGGTTTTCCTCTTTCTAGGACACCCT autosomal
CCAATATGTTGGGGATGAGGAAGTACCTGAGCCCCTACGACCTGCAGCAC autosomal
AAATATTTTATGAATTTCCACTATGTGTGTCCAGATAAGCCTATTAATAT autosomal
GCCCAGAGCCTTAAACAAATAAAAACCCCACAACAAAAAGTTAAAAACAA autosomal
ACAGCAAGGCTGCAGCTGACAGCAACTCTTGCCTCCAGTGACAAGGCCTC autosomal
AACGGGGAGGGCCCCGCGGGGCGAAGCGGCACTTCTGGAACACGTCCCGA autosomal
AGGAACACCAACAGCCCCAGCCCGAGGCACAGCCGGTAACGCCGCGGGAC autosomal
GCATGCCTTTAGTGAAGCAGAAGGCTCTGGAGAGACCTACTGGATGGAAA autosomal
AGCTCTCGGCCTTCCCCTGCAGCCCCAAAATGTGAAGCCTCAGCGCTCAT autosomal
CCGGTGCCGTTCGGATCCGGCCTGGCCCCCGAAGGAGCCCCGCCGCTGGC autosomal
TTCTTATGAGAAAAAAACCATCCATCTCCACCAGGCACCCATGGCCAAAA autosomal
ACCAGCGCACCCACATCGGGGAGAAGCCCTATCAGAGTCCACAATGTGAG autosomal
ATACCCTCCTCCCCATCCCGCAGTCTCTGCTGTTCCCGGGACCAGGCTTG autosomal
CATTTATAAGAAAGATTCTGTAATCTGGAAATGTCTTGAACAGGATATCA autosomal
GCCCCCTCCCCCGTGCCCCCTCCGCTTTGGCAGGGGATGCCACCCGGCCA autosomal
CATGTAAGTGTGAGTTGCATTGTACAAATATTGAAAGCTAGAAGCCCTTA autosomal
AGAACCTGTTGCGTTTCCAGTTCCCCTGCCGTCGGAGGGCGGTGCGGGCA autosomal
TTATTTTCAAACTTTCATTGAGGATGATCAGAGCTTTACAAAAAAAAAAA autosomal
ATGGGTTTTTAAGGTTTTTTTCTTAAATTAGGAATTGTACAAACGAAACC autosomal
ACCAGAAGTCGAAAGACTGGTGTTGGTCCAAGTTCCTTCCTTGGATGTCT autosomal
GATCTTGATCTGCTGAGCAATCCTGGGTATTTATTTACCCAAGTGCCAAA autosomal
TCTTTCTTTCCATACCCATAAAACACAGGTACAACAAACACAGCACCGAA autosomal
CCGCGGCCCCGCCCCCTTTGTACGGCCCCGCCCCCCAATTTCAATAAAGC autosomal
AGAGATGCTCTTAAAGATTTAGTTTGCTTTTTGATTATTAAATTTGCCCA autosomal
GTTTTATAGCATGCTATGTGCTTCAGAGAAGACATTTCTGTCTTATAAGA autosomal
CCTCCCACCCCATGGCTGTTCACCAGAGCTGCCTTCCCCAGTGTGCTTCC autosomal
GAATTCTGAATTCCAGGATAAAAATTTCCTCATTAGGAAGGAAAACCCAA autosomal
AGCTGCAGCTGTAGTTTTATTTCCTTTTGTGAAAAATAACAGGATTTTGA autosomal
AGTGCAGATGTTTCACAAGGACCCTCAGACCCCTTCTGGGTTCTCAGAAT autosomal
AACTCCAGGGCAAGGGGTGGGGAAACAGCAGCCCTATCCCTGCCTGCAAC autosomal
AGTGGTCAGCAGAGGAAAGAGGAACGTCTCTGTCATTTTAGGTAGAAAAA autosomal
TCCTTGTTTTATATTAAATTTTTTTATTTTATTTTTCCCTGTCTTGCAAA autosomal
AGAACCGGGATGGAGCGGGGACAGCACCGGGAGAGAGCGGGGACAGCACC autosomal
ACAGCATTGAAAGAAAACAGGAAATATTGTGTTTGGAATATCCCAGGGCA autosomal
GGAGGAAAAGGACAAGGCACACCCAATTTCCTCCATCTTGTCCCCTCTGA autosomal
AGGGAGAAGCTTGAAGCTGCCAAAAAGAAGACTAGTTTTGAAATTGCTGA autosomal
AAGTCAGTTCCTGCTGCCCGATATCTTTTAGATCGCCCATGTTGTGAGGC autosomal
ATAAAACAAATCTATAAATACTTACTGCAAATAACCTGCTTGGGTAGAGC autosomal
AAACATTTCCTTGACTAGACATCATTTATCTTGTAAAGACACAGACTTGA autosomal
ATCCCATGGAAAGGCTCCCTGAATGCCATGGAAGGACGCCCTGAATGCCA autosomal
CACTTTGCTTACAGGAAGAGCAAGCAATCACAAGAGACATTCATCATCAA autosomal
AAAAAGAAGGAAAAGAAACAAACAAAAAACAAACAATACAAATTGTTATG autosomal
AAGGAGAAATACGACAGCGCCGCCGCCATGAAGCTCAACAGCCGGGGGAA autosomal
ATCCAGGTCAAGGTTTCTGCCCTCCCAAAGCCCGGCAGAGGCTCCTGTGC autosomal
AACACGGAGCCCTTCAGTGCCTCAGAATATGCATTACATCTACATCCAGA autosomal
TAGGCTTATTTACTATGCAGTTTGAAAATTACTTTGAGTTAATAACATGA autosomal
AAGGTTGGACTCAATGATCTTAGAGGTCTTTTACAATCTGAATTATTCTG autosomal
ACACAGACCATCAACACAGTGTCCTACCATGCAGAGCCCACCTCTGACCA autosomal
AGGGTAACTCACAGCAGCCTCACTGTCTTTCCAGTCACAGTCAGGAAGTC autosomal
AATTCCCAGACTTTGAAGAAAAATCATTACTGATTATACCATTGTGCAAA autosomal
GAACTTAAACCCTTCTTACAAAGGCTACATTGTTTTCAGGTCCTAGCACC autosomal
ATTTAAGGTATTGTAAATAGAGTCTTGAGCCTTTCAACATGATACTGACA autosomal
CTGGCCCAGCTCCACTCGCCAGGTGCCACTGGTTTGTGCTGCACCATAAG autosomal
CAGAGGAGCTGAATGCCACCAGCCCCTCAGGATGCTTCCACCCCCACAGA autosomal
CTGATGGGATAGAAAATATGAACAGGATTGGGTGGCTGCAAGCACATTAA autosomal
CCAGCAGCAGTGAGAATTGCAGTTTTACAGCCATCAACAGCTTGGCATGG autosomal
GATAAAATGGATTATAACACTGTCTTTAGGTTATTTCCTCCCTGAGTGAA autosomal
AGCAAACTTTTTAAGCACAATTCCAGCGATGTGAACAGGAAGAAAACAAG autosomal
CTTATTGCTCTGAGTGGCCCAGCATTCACTGGAAGCCAGATGTTAGCAAC autosomal
CCCTGTGCCACAGCCCTGCTTGATTCTCACCTGCTGGAGCACCTCTTGCA autosomal
GCTTGGGCATGTTCCACCCTCTGGGAAGATGTGATGAGTGGGAAGGGAGA autosomal
GCCAGGTCACACCGACACCTCTCCCAGGCACGGCCACCCCGCAGAGGGGA autosomal
AACACTGACGTCACTTAACATCACACTTGACATCCTTATTTGTCAAGACA autosomal
AATCACCAGGAAGAAGATCAAGACGACGAAATAGATGAAGGTGGCGAAGG autosomal
TAGTTTCTAGATGAAGGCACCTGAAAAGGGTGTGCTATGATGAAGTTTCA autosomal
GCATGGGTGCACGTCAGAAATCACCAGGAAAGCCCAGCAAACTCCCCCCC autosomal
GAGGAGGTACCTATGGTAAATGGGGAGAGAAGTGCCCAGGTAATACTCAA autosomal
AAAAAGAAAAAGACCCCTATTTTTGTTTATTAAGGCAGTACCTGGGGCTT autosomal
ACTGCCACTGCCAGGGGACACAGCAGCAGCCACCTCCTGCCTCTCTGCAT autosomal
ACAGAACTACTAAATATCCTAAACACAATGCTATGCTATATGCCACATCT autosomal
AAGATGGAAGGAGACAGAGAGAATCAGTGAGGTATGAGAGGGAGAGAGAG autosomal
AGGCAACCTTGCTGCTGGACTGTAGGGTACTGGGCAAGTGAGGACAAGAT autosomal
AACTGCAATGTCTACCTGAACCCAACAGAAAGAAGGCAATCTCCATTATA autosomal
ATCTGCCTTCAGCTGGACCACTGGGGAAGTCCAGGCCACAGGTGGAGGGC autosomal
AATTGGGGAAGTCTTGAACTTGGAGCGGGGAAGACACAGGAAAGCGAAAG autosomal
AACAAATTCCTTGCTTTTCAAAGGCAGAATAGAAACCTGGTGTTTTGGTG autosomal
CACCTGGGGGAGGTGGTGCAGGTGAGTGGGGCACACCCTGGGCACACCTG autosomal
GATTCCTCCACTGACTGACTCGAAAGTTAAATAAATACGTAAATAAATAA autosomal
CACAGCCCCAATTTAGACGATTTTGGACAATCTGGAGAGAAGTCATAATA autosomal
AATCTAGTGTTTGCAGCTTACAAGCATAGCACACCTTTGTTTGCTGTGGA autosomal
CATTTTTTGAGCGGCTGTAATGGCCATCTCACCAAATTGCTCTTCTATAC autosomal
CTCCATGCCAAGGCCTGTGATGCAGCTGCAGTGGTGCTGACGTGTGCCAG autosomal
CAGCAGTTCCCTTCTCACCCAAAGGACCTAGTCCGTCCATGACCTTCCCC autosomal
AATAATGTACACAGCTGTGTAATTAATGTAGGTTTAGAAACAGAGCTCTA autosomal
GTTGAGCAGGCAGCTGATGGAAGCCATGTAGATATCAGAGAACCGCACCA autosomal
CTCCGAATTAAAATTCTATATTTTTTTTTTGTTAAAATGAAAACAAAAAA autosomal
CCGCAGAGCCGCCCTGCCAGCCCCAGCCCCATGGCACCCCACGGCACCAC autosomal
CCCCTTTGTTCCAGACTTGAAAAGAATAAAAACTTTCTTGCTTGAATCTC autosomal
CCAGGTTAATTCTGTTCATGCAATTGCAAATTCTGTATCGTTGTCCATTA autosomal
AGAGGCCGCCAAGGCACCAGGTACATGCAGAGGATGAGTCCCTGGACCTG autosomal
GATGGTTCAGGAAATACTAAATAGACTGCACATCATCCATAATAATAACA autosomal
AAATTAAAGTGTTATATAAGTGTTATTATAACATCATCAAGTATTTGCTG autosomal
CAGTCACTTGGTGTTGGCTGACATTGGGAGTTAAGTCTTGTGATTCCTAG autosomal
ACCTTCCCTTCCCAGTCCAGAAAAGCCCCAGTCTCCTTCTCAGAGATGGA autosomal
CCAAGCTGGTTCTGCCAAAGGGATCCAGCCACTGCGTGGTTATAGATGGG autosomal
TACCTATATCTGAGGTTTCATTGGATGTGGAGCTTTAGCTGTTCAGCCCA autosomal
GTCCTGGATGGACAAGCTATCCTGGTATTTTGATGAAGGCCCAGTTTGGA autosomal
AGAAACAGCACTTACACCTAACTTAAGCTTAGCTTAAAACTGAACCTTAA autosomal
ATTACAGTAGGTCCATTTCCAAGCTACCTGCACTATGAGCACTTTGATAC autosomal
CAAAAAAAACATCAGCGGCGGGAAAACCTTGGAGAGGAAGAAGACTTTCC autosomal
ACTGAAGGGCCTTACCCCATAGTCCTTCTTTCCTACAATTTAGTGGTAAA autosomal
GTTTAATTTTATTTCAGTCTTGAGAATTTTGGTCATCAAAGCGTGCTTCA autosomal
CCCATCAGCTGCACTCTGTGAATTTGCTCAGGGGCTGCATTAATGGGTAC autosomal
ATTGGCTATTAACATCATTCCCTCGTTAACATACATCCTGCAAGAGGAAG autosomal
CAGCTCCTCGTGTCCCAGCATTATCTCCAGGAGTTCAGGGAAAGCCTGGA autosomal
CCCAGAAAGAGGCACAGATAAGCAGAAGCTTGAGCACCAAAGGCTTCCAG autosomal
TCAGTCCTTTAACAGTATTAATGTCACAAGTTCTCTGGAGTAGGGATTAA autosomal
AGCAAACACACTTCGGTAAGAATGAAAAAATGACAGTGGGAAAAGCAGAG autosomal
CCCCTGGCCACGGCGCTCCCCACGCTCCAGGACTTGCCATTCCCTAGGTA autosomal
CTTGAACATGAGTTAATTACTGGCTGGTAAACGCAGCATCCTGCCATAAC autosomal
GATAAGGCAGCGTACAGAGAAAATGAGGCTTGCATTGTGAAGTTCCTCCA autosomal
AGCTGAGCAGGGAAAGGGGTGCACAGGTTTACCCACTATGACGTCTGTTG autosomal
GTTGGGACCCCCTGACAACTACTCGGGAGCCAAGCCACGCTGAGGAAAAC autosomal
AATTGTTGCAAATGGTGAATTTTTAACCATAAGATCCTGGTGGTAAGAGC autosomal
ACTCATGGCATATGTTGGATGATGCCCATCATTTGACAAATATGCAGGAC autosomal
GCAGAAATTCACCCCCGAGATCAAAGACGGGCAGCGGCAGTTCTGCGCCA autosomal
GATGGATACACAGAAGTGCATTGAATTTTTCCTGCTTGTATTTCTGTGTA autosomal
GCCAGGCGGGACGTGGGGAGCGCGGGGGCCGAGAGGAGCGCGGGGGCCGC autosomal
TGGACCTGGGGGGGCACAGGGTGACACGGGGTGACTCAGGGTGACGACAA autosomal
TACCCAAAATCCCGGAATTTCCACCCAAAATCCCGGAATTTACACCCAAA autosomal
AATATATACAGCAGATTATAAAACAATCCCTTTAAACACAACTTTCACAG autosomal
AGCTGCTGGTCCTGCCCAATGCCTTCATGATCCACATGCCCCATGCCCCC autosomal
GCCTCACGTGCGCACGGACGGCCAAGGACCCGCAGCGCTGCCCTCCCCCC autosomal
GACAGCAATTGGGACAGGAGGCTCCTGCATTAGAGCGCTTCAGGCATACA autosomal
CCCACAGTCAACCCTAATACCTTTAAACACACCTTCTGGCTCCTTGGAGG autosomal
GAAGGTAGAAAGACTTTCCCTTCATTGCTAAGCTCTTGTTTGCCCAGTCA autosomal
ACTGGAAACAAACCGTGTTCTACATGGAGGGAAAAACAGCCGAAAAATGG autosomal
AATGGGAAGGAAACACCCATCCATCTTGGAAAAGCTCTAAATACCACCCA autosomal
TTCCCCAAAACCTGTGTTCTGAGCTGCACCAGCTGCCAGCACCACAGAAA autosomal
GCTGGTGGGGGCTGCCTGGGGCAGTGGAGACCACCCTCTCCTGTGCCCCC autosomal
AAATTCAAATTTTTCTGTTTCTAACAAGTGCAAAGGAAAATGACACAAGC autosomal
AGCCAGGTCAAATGGGTCTTCCAGAGTTGGGGTCTTTTTGTGTTTTGGAT autosomal
ACAGAAAAGGAACAGTGTTTTAAACTCCATATGCCTTTGGCTATGCAGAA autosomal
CACATTCACCATGCCTGGAAACTCATCTGTTTGGGTTTTTTGGGCTGTCA autosomal
CTCACATAATAGAAACCTGGTTTCAGAGGCCTGACTTAAATGCTGCTTGA autosomal
CAAGACAGATACATTACATTTCTTCATTATCACTCAGAACAATTTACAGC autosomal
ATCAGGGTCCTCAGGAAATCAGCAGGAATTTCTCCATGGAAAGGGAGGAA autosomal
ATCAGTAAACAGGCCCTGCAGCGTAGCTGGTGGTTTGAAGTTCTGCTCAG autosomal
CCAACCTGTGCAATCTCATCTCACCCCTTCAAATCCTTTCCAGGCTCATC autosomal
CTGAATTCCATGGGTTGTAATTGAATCTGCTGTCAGACCCATGGGGCTCA autosomal
AAGTTTCTTTTATCACCATCTTCCAGAAGAGATCTATAAATAAATGTTTA autosomal
GTTTGGGGGGGAAGCAGCAGTTTTTGGGGGTGCAAAGGGAGTTGGGGGAA autosomal
CACAGGATTCAGCAGATTCTTGACACGAGCACAGTCTTTGCGTTTTTTGC autosomal
TATTTTTGTTAAAAAAAGGGGGAAAAAAGACCAAAAATATATGCATTAGA autosomal
CACATAAATTATCAAGCTTTTGCCATTATGTTTAGATCTACACAGATGTC autosomal
CCGGGGGTCCCCGAGTCCCCGGGGCCGCCCCCGAAGGGCCCCGAGCCCCC autosomal
AGGGTCTCTCTTTCCGTCACATCCCGAGATCTTCCGTTCGCCTGTCCCTA autosomal
AAAAGGCATCAGAAATGCAACACTGAACAGTCTGTGGCTGCATTATCCCT autosomal
ATTATGTGTCATTTCCTGCACTGAGCCCTTTGGAACTGGATCTCCTGACA autosomal
CCTTCCAGCCCCTTGGAGCACACTCCCAGCCCACAGCCACCCTCAGCTGC autosomal
CAAACAGTGTTCAAATTTGGGTCAAATCGTACTGCTTTTCCTTCCACTGA autosomal
ATGGTTTTTGTGTGTGAGATTTTGGGATGCAACATTAATGCTTCATCGTC autosomal
CAAGTCTGCTGCCTTTAGGAAAACAAGCATGTGAACTCTCCTGTATGTAA autosomal
CCTGTTCCTCTTAAAAAAGAACAACTGCTTTTAAGCTCTAATAAAGCCCC autosomal
CGTGGGGAGTTTTTATCTTTCTCCTCCTGCTGCTGCAAAGAGATAAGCCA autosomal
AAATCCTCTCTCTCCCCTCATCAACCCCATTTTCCCCTCACAGCCCCATC autosomal
CAGGAGGCCACCTGCTTTCTCTCAAGGCTGGCAAGCCCTGACAGCAGAGG autosomal
AATCATACTACTTATTCTTAAAGTGCTACTTATAAAAAGCTGAGAACATT autosomal
TGGAAGCAAATAAGATAATACTGTTAAATGGTCATAAACATCGCTTTTAA autosomal
AATCGGATTAGAGCGACCGTGGGGGCCGGGGGAAGGGGGCTGGCTGGGGG autosomal
CACCCACCCTCCATAGGTGCAAACAGCAGCAGCTGCAGCATCCACGTTGG autosomal
TCATGCACCAGTGTCAACTTGCTGCATGCTCTGAAACAGCACAGCTGCCA autosomal
GGGATGGGGGATGCTGAGTGCTGGAAATGGGTGTTGGACAGAAGAATGGA autosomal
CAGGGGTAATATTTTACCCACCATTATGAAGCCCACAGTTTTGGGCTGAA autosomal
GCTGGTTTGGAATCCCTGCAGAAACTGCTGCTGTACTGGACAGATGGTCC autosomal
ACACCATATCTACACACATATACATATCTACACATGCAGATATATACACA autosomal
CAGTTTTGTTCCAGTTGAATCCAAAACACCCTGGTCAGGCTTCAAATCCA autosomal
CTCTCAGTGAGAGAAAACACAGTGAGAAAAATCTGTGGACCTTGGAGTGC autosomal
GCACACAAGAGGCTGGTGCCAGCACAATTTGTTTTGTGGGGGACAACCAA autosomal
ACTTGTAAGCAGCTACTCATACTGGTGTTATCTAAGGATTTTCTCTGGTA autosomal
CAGGCATTTATTTGTGGTCCATTGAATCTTATCCATATCATTATCTAACC autosomal
CCACTAAGCAGTATAGTCTTCATTAATCATTTTCAAAGCCAGAATTGCCC autosomal
CCTCCCTTGCACCAAGGTTCCTTCAGAGGACTCCAGGGGATAGATGCAGA autosomal
GATCCCGCCCGGAATTTCCCGGATCCGCGGGACTCAGGCGCGCTCGCCGC autosomal
CTCCCATCCAAAATAACCCACCCCAGAAACTCAATCTGTTGGATGTGCAC autosomal
AAAACCCTTGTTTTGGGGTTTTTTTTTGGTGGGAGGATTCCAGTTTTGGG autosomal
CAACAGAAATACATGAAAATTGTTTCACTTCAGCAAAATGTTTTGTTGCC autosomal
GTCCTCCCCCCTTTTATCCGAAACTCAGAACCGTTCCTACCCCTCCCCCA autosomal
AGACAAATGCCTCTAAATCATCCAATGAGCAGGACATCCTGGCCAAGGCA autosomal
CCCGCGCTCATCCGCTCGGCCCGCGGGCGTCTTGGCGGGAGGGTGCGAGG autosomal
ACTTTGAGCTGCTCCTTCCGAAGGCTGGCCTGGTACGCTGCCTGCTCCTG autosomal
TACTGAAAGCCTTCAATAAATACCCACTTTTATTCTCTTAAATTTGGCTA autosomal
ACAGTCCAACTCCACGTCGATGTCTCCAAATTTCAGCTGGCAGGACTCAT autosomal
GTTAACATCAACCTTGAGACTGACCAAGTTGGTTTTGCTCCCAAATGGTA autosomal
ACTGGTGTTTTATAACTTTCTTTGGAGGTAGAGGACACAACAAAGAACAG autosomal
AGAACAGGGATGGTTCCACCCATCCCTCACTGCCCCAGCCCTGAGCCTCA autosomal
ATGTACGTGAAGCAGTTGGCAGGAAACAGTTGTGGAACTTCACCCCCGGA autosomal
CAAAACACGTATTCATAGTTCCCATACCACGTATTCATAGCTCCCATACC autosomal
ACTCTCCCTCTTCTCCTCACCCCAACATTCCTTCCCTTCCCACACACACC autosomal
TTGAGGGCTACGGGGGTTCTGACTACAACCCTATTGACTTGAAATCCAAA autosomal
GAACCAGCGCAGCACCCCCAGGAAGTCGTAGCCTGGAGGAAAATGGGGGA autosomal
CTTCAGAAGTACTCAAATGCTATCAGTGTCATGGTCACAAATGTACATAA autosomal
AGTTTATTAATAGATGCTATAAAAATAAATATTAATTTTTATCTTTTTCA autosomal
CACGGGCTCCATTTCCCTCATTTTCCCCTCAAAGGCTCAATTTCCCTCCA autosomal
CCACAAACAGGTAATTGAACATGGAGCACACGGCACAGCCCCGCCCGGAC autosomal
GACAAGAAAGAAAGCCCCATGAGGTCCAGCAGTATCCTCAGAGATCCACC autosomal
CCCGCGGTACAGCAGGCAGCACGCCATGTACTTGCCGTGCCGTGGGTCGC autosomal
AATCAGGTGCTCAACTCCTATTTAGGCACCAGCCTCCCACTGAAGTCTGA autosomal
CCACTCTCTCTATAGATGTGGGATCCTTCACCTGGGGACAGCTACAGCAG autosomal
AGGGAATTGGAGGAATGAGCTCAGCTAGGGAAGGTGGTCAGGAGAGGCCA autosomal
AGCATCTTGTATGCATTAATGAGTTTTGACATCCTGCCAATTACAGGCCT autosomal
GTATTCAGTTCCATAGAGATTCCTGTAGTTACACAGTGGCTTAGTTTCAA autosomal
TAACTGGTTACTTTTTGAACTAGAGAAGTGTCAGGCTTTTTTGCTTTGGA autosomal
CACGGCCACCGCCGCGGGGACAGCAACGGGGACCTGCCGGGGACACCGGG autosomal
CACCGCGGTGCCCACATCATCCTCCTCCAGGATGAGCAGCGGCTCGGGAG autosomal
CGGACGACTGGGCTTATGATCTTGGCATTAAATATTCTTTTACCTTTGAG autosomal
AAAAGTAGGGGAAATGCTTTATTTTCACAGTGTTTTTAAAATGAAGAAAA autosomal
CACCAACAGACAGGGAGACTTTTCATCTGGGCTCCTGCTTGAAACCAACG autosomal
TCTCCATCGTGGTTCGTGGAAGCTATTTCGGCAGAAGCTTGTGCATTCAA autosomal
CAAGCATTCAAGAATTGCATTTATAAAGAAATCTATTAGACGGGCATAAC autosomal
CTTGTTGAGGTTCAGCTGGATTTTTCTATTTGGTTGAAGGGGTAGGTGGC autosomal
AACTATACACTGCCTCTGCATTCTCTATAAACAACATATGGTAGTTTACT autosomal
GGCATTCTGGGCATCAGCCAGGGCAGCCCCGCTGCCCACGATGCCCACAC autosomal
GGGAGTCGATCATCCAGCGGTACGCCTGGGGACAGGGACAGGGCTGGGGA autosomal
AGTTTATCCCAGTGCCCCCCAGCACCTTTCTCCACCACGGCCAGCCGCAG autosomal
AGCTCTGTAAATCTGTGCTTTCCACCTGCCAAACAATGGGAAAATAAATG autosomal
AATGGTGGATGAGTTCCAGAAGAAGGTCAGTCTCCTTGCCAGATGGGTAT autosomal
AAACCCAGCAGCGGGCCTGATCCAGGTGAGGGTCACATCCAAGGAGCTTT autosomal
ACCCAGCCCCACGCTGACCCCTCACCATTGTAGTATCTCTCAGTGCTCCC autosomal
AAGACAGAATATGGAAAATCCAGTCCTAGGAAAACAAAATCTGTTCAGAA autosomal
ATTTTTGGTTTTTAATTAATTGTAGGACACCACAGTTTCTCATGCCGATA autosomal
AAACCTTTTTGGGAAGGACATTAAGGTAATGTGGACACCAGCCCACGCTG autosomal
CAAGTCCAAATCTGTAACAAAATACCTTATGGTTACTGGAGTAAAGAGCA autosomal
GTCCTGTTCCCTCACAAACCGGCACCTGCAGCAGGGAAAATCCCGTGTTA autosomal
ATCATTAATATCTCATCCTTGGCAGGTGAGAAAATTTTCTGCATAGACAA autosomal
ACAGAAAAGGTCAGCATGAACTTACGTAGTTTGATGCAAGATCTGGATGC autosomal
CAACCTGTCCCTCAAGTCGTCCAATCTGTAAACCCAAACAAGACAAAAAG autosomal
ACGGAGCGGAGCGGCCTCGGCGCCGGTGAGCGGGGCGGGGGTCGGGACCG autosomal
ATAATGCATTCCTTCAATTTCTTACCTTGCCCTTCTGGAGTTTCACCAAA autosomal
CAAGCGGGCAAAAATAAGCTAAGTGGTATGTTTTAATACTGGCTGTGAAA autosomal
GAAAATGCCATTGCTCAAGTTGCACGTAAGATTGACTTTCAGTTAAATAC autosomal
AGGGCTGTCGTGCTTTTGCTTCCAGAAGGCGAAGATCGTCGGGGAGTGGA autosomal
GAGACCCCCTTTCCTCTTCCCACAGGGAGCAGGCTGCAGTGGAGCACAGC autosomal
GTTGTGTTTCTTTGGCATTTTTCAGAGCGTCCTCTGCATTATACAGAGAA autosomal
ACAGCTGAATATCTGACATACTATGGTAAGTAACAGTTCGTGTCCATATG autosomal
ACAGAGCATTTCCCTGAGCACTTACATCAGTTTTGGATTTGCAGGTCTCT autosomal
CGGCAGGACCTTAACTTTGGGCAAGGTAATGTGTTGTACTAAGCTGCAAC autosomal
AAATGACCCAAAATTCCGCCCCCAGGAGCGCGTGGACCCCGCGGCCGCCG autosomal
CTAAGGGACGGATCCCGGCGGAGAGGTAAAGCTCCTGTGCTCTCACTGCC autosomal
AAAAGAGAGACAGATTATCTCTTACCTCGAAGATGACACATTTCCCAACC autosomal
GGAAGACCCTTCCTGCTCCTTGTACCTGCCCAAAGGTCGTGTAAACAAAC autosomal
GATTGCAGACTATAGCTTTCCTTACCTTAAAGTCATCTGGGAGCAGTAGC autosomal
TTAAGTCTTTTATTCCTTTATTGAGGTCTTTTGGATGAGCCTATACCCAA autosomal
ACGGGTCCTTGCTCAGTTGTTTATGCTGTGAACACAAAGCAGGGTATCCT autosomal
CCCGCACAACGTGGTGTTCGTCACGGTGAGGGGGGATTTGGGGGGGAAAA autosomal
AAGCTCAATAAAAGAGGGAACATACCCACAGTGCCATCCCACACTCCAGG autosomal
CATTTTTTTTTTTTTGTCCTTTCAGTATTCAGGACCAGGATAAGAAGCTC autosomal
CTGCCAGAGGATGCTCTGAGATGTGCTGGGAGAGGAGAGGGTTAACCTGA autosomal
CAGGTGTTCTAATGTGAATATTCACCTGTCCATCTGCTACAGAACCAGAG autosomal
GAAGTACACCCCTATGGAGTTCAAGGTAGGGTACTTGAGGAGAAATACCA autosomal
CTGACCCCCCGGTGCCCCCCAGGAGATCCGCTTCCCCAAGATGGTGACCA autosomal
TCTGGAGCCACTGTTTGTTTTGCATGGAGCAGCTACCCTGTCCCTTGTCA autosomal
AGCAGCCCCTAGGGCAGCACATTACCTCGGCTCCTCAGGAAGCTCTTCAA autosomal
TCTGTGGGAAATCCGTCAGGGAACGGTAAGGACTTGCCTGACTACTTGAA autosomal
CCTTCGGCCAGAGCCAATGCAATAGGTGAGCTCAGCCCTGTGTATGTGTC autosomal
GGCAGCGACGGACAGAGCTGCCACGGTGAGGGGACAGGTGGGACAGGGAC autosomal
CCTCACAAAAACCGCCAGGACCCACCTGGAGCGCTTGCGGTCCTTGTCCC autosomal
CCTTACCTCCATGTTCTTGGTGATGCTGGCATTCACAGATTGGTTTAGAG autosomal
AGGAAGGGACTCAGCAATTACGCTGGTAAGAGCAGTGACTTTATTGCCAT autosomal
TAAGAATGATTTCATAAGCTAAATTCTGGAACAAAACAGAAACAGTTAAA autosomal
CACCACCAGTCAGTATGAAAAATACCTGGTACATTCCAGCTCTTCAGGCC autosomal
CCCCAGGGGTGACTCAGGGACTCACTGGCCTCAGTGTAGACCTGGCCGAA autosomal
CAGAGGAAGCTGCCCAGGAAAACGCGTAAGTGTGGAACCCCTGGAGGTGA autosomal
AGGAAGCACAAACCAAGCCTCTTACCTTCTTCTCCTTCTTGCCAAAGCTG autosomal
CCTCCCAGTCCGTGAATATAAATGTCTGTGGGAGACAAAAATGGTGTGTC autosomal
AAGATTTGGATTTCTCTGCTATTTTCTGTTAAAAGGAAAAGAAAAAAAAA autosomal
GTGAATACCAAAAAGGGATCGGTACCTGCTTTGTAAGTCGTCTAGGTGCA autosomal
CTGAAGCCGGCGATGCCCGTGCCCCCCGCCGCTCCTTAGCATGGCCCCGC autosomal
CTTATGTGTTTGCTTTCCTGTGTAGACTTGGAAAGATTTTGGAGATTGAA autosomal
ACGATGGGGCAGTTGCTGGCACGAGGTACTGTGTGCTCTGAACCCCAGCC autosomal
AGAGAACGAGCCCCAGTCTCCCAACTGCCTCAGCCCTCCCCCAGCAGTGG autosomal
CCTAGCTCACCCTCACAAATCCCAGTTCCCTGTCTAAATAGGTTTTTCAC autosomal
CCTGCGCCGATGGCCTCACCTACAAGTGCGGGTGACCCCCACCCCAAAAC autosomal
AGTAAAATTGCCCCGATTTTCTTACCTCCCATTCACTTGCAAGCTTCACA autosomal
CATCTCCTCTCTCCGTGCCCTGCAGGCCTGGCCCCGGTCCGAGCATCAGC autosomal
CGAGGTGCCGGGCCAGGAGCTGGAGGTGGAACTGTTCGACAAAGACCCCG autosomal
AGGGACCCCTCCTGTCGCGACAGCCCTCTCTGCGATGGCTTCGAGGCCAC autosomal
ACCCCGTTCCTCACGGAGCGCCGAGGTGAGCGCGGGGCAGAGCGTGTCCC autosomal
CACCATCGGCACCCTCAAGGAGCAGGTACGGACACCGGGGACACCGGGGA autosomal
ATGCTGTTTTTGGGTTTTGTGTTAGAGAATTTGTTTTAATACACCACTGG autosomal
AAGAACTAGTAGCTTAGAGAGAGAAGTAAGTTTTAAATAGCACTGAAAAG autosomal
ACAGCAGTCTGAAGTAACAGCTTACCTGGGGAAAAAGAAACAAACTTGTA autosomal
CATGGTACCACATCCACAAAAGCTACTGAAGGAAAGAGATAGAATGCAAG autosomal
GAGATCCGCCGGGCTTTGAACAAAGGTGGGGACACCTCCGGGGACCGCCA autosomal
CTGCTGGGTGCAGTTTGCACCATTCCTGATTCACTCCAGGTGAGGAGGCC autosomal
GCCCTTCCCTGCCCACCGGCTGCAGTGTGCCCGTGCCACCATGGAGACGC autosomal
CCCTCTGTTTCAGTTCCTTCAGCCTCTGCAAGAAACAGCCACATAATGCA autosomal
AGAAACCCAAGATGATCTCCTGGAGGTGAGTGGGGTGCTGGCATTGGAGG autosomal
CGAACCGAGCCCGCTCCGACTGCAGGTATGGGAACAACGGGGAGCGGTGA autosomal
AATAGAAACAAAAAGTAAATCTTACCTGAGATAACTCGTTAGTATCCACA autosomal
TCTTCTCCTGAAGTTTAAGAAACTCCTTAAAACAAGACAAACAAAGGAAA autosomal
ATCGAGATCATTTCCCACTGCTTACCTGTAAGCTTCCTTCAGCCTCTCCA autosomal
GGAGTGCATGCAGCGCACCAAGCTGGTGGGTGAGCGGGGACACGGCTCGA autosomal
CTTCTTCACAAAGATTCCTTCGAGACTGAAAAACAAAGGAAGTCCCACAA autosomal
AGAGCTCTTTCTCTTTGATCTTCAGAAACAGAACCATCCGAATGGTCTGC autosomal
GAATGTCGGTTCTTCTAGAGCTAAGGTAGGGAAGAGAAAGGCTAAAGTGA autosomal
AACTATGCTGATGAGCTTTGAACTGGTATGTAGCAACATTTCCCTACTGG autosomal
GATCCAGAAAGAACATTTGGTGAGCAGACAGATCTGTCTGTAACAGTACC autosomal
CAGTGACGGAGCAGCCTGGTAACCGGTAAGAGGAGGACGGCGCCCAGCAA autosomal
CCGCCCCGGTGCCCCAGCCGCTCACCGTTGTCGCTGTCGTAGCCCCACAC autosomal
ACAGGTGCACCTCAAGGAACCTCGACTACGAGAGAGATTTGTTCTGTTTG autosomal
GCATCTTTGTGATTTTTACCGTGACCTAAGAAAGAACAGAAATGTAAGTA autosomal
GGGCTCGCTGGCCTTCTCCACGGCTGTGAGTGCCCAAAACACCCTAAAAA autosomal
AATTTTCAGTATCTATTAAAATAAGGTAGGTCTAACTTAAATGCTATTTG autosomal
CATTTTCCCCTGTTTTTTCCCCCAGAGCTGTCCATCTCGGACGTCACCGC autosomal
AACTCCATTCCTTCAATGTCTACTTCTAAAGGAAACATAAGAAGGCACAT autosomal
CAGCATAAACTCTTGGATTGAACTGGTATTTTCCTTTTAATGTCCTGGGG autosomal
GTCTTAACTTCAAAACATCATGAGGGTAAGAGGAAGCTTTGTGAATATTA autosomal
ATAGAGCAGAGCAGCTTTTCTTTACCTCTTTGGGAGCCTCCTTTTCAATG autosomal
CCATGAACGGCTCTGCAACAGACTGCTTCAAAGCGGTGTAAGAAATGACA autosomal
ATAAAATATTTATGTTTGTCCTCAGGATGACACCCCAGGAACACCCAAGA autosomal
ACCAGCCTTTGAAGAGATAACTCACTGTTCTGGGGATGGGTGGCGACAGA autosomal
AAATATATGTTTTTTTTCCAAACAGAAACTGTGAAGGGTACCTGTTGGCA autosomal
ATGCAGATGTCCCTGCAGGGCGCCGGTGCGTGCCGCCGGGGAACACCGGG autosomal
ATGTGCTTGTCTCTCCTCTCTGCAGGCTCGTTACCCCCATCTCATCAGCA autosomal
AGAAGACACTATCCCCAAGTCTGGCGCCACTCTCCAACCCCAAGAGCTGG autosomal
GTAGACTGCTTGCTTTTTCCATTGCCTATGAAAACAAACAAACTTCTTAA autosomal
CATGTCTCCACTGAGGTCATGACAGGTAGGGAAGGGGAAAGGTGGGTGAA autosomal
CCTTTTTCTTCCTAATAAAAATTACCTTGCTTCGACGGATGCGGATCAAC autosomal
ATCCCTGTGAATCCTGGTGTTGCAGAGAGCCCACCAGCTCCCGGGGCAGC autosomal
TCCCGATCCCAAGAACTTGATTGTTCTGCAAATCAAAGAGAGACAGAGGA autosomal
GTCTGATTTGTTTTTATCCTTTCAGGTAAAAAATGCACCTATGGCAATAA autosomal
TCCCACCTCCTTAGAAGGTACATACCATTCTGAGTTAACTTGGTTGAACA autosomal
AACGGGGGATGGGATCCGGGAAAACCTGGGATAGTGGCACTCAATGGGAA autosomal
CACATCTTTCCAGTGTTTTGCATACCTGCTACTGATCCATGCTTGAGGTC autosomal
AGTCTCAGTTGAAAGACAAACCTACCTTTTAAAGAAGCTTTCTTCAACAC autosomal
ACTGCTATACAGTCTGATCTCACACCTGAAATGCATCCAAGAGGCAGCAC autosomal
TCACCACCTGCTTGCGGTACGAGTCCTGCAACACACGGGCACCTGCATGA autosomal
CTCTGCCTTAATGCGACTTGGCAAGGCAGGGAGCGCTGCGAAGCTCGCAA autosomal
AAGTCTCCTGCTTCTACTAGTTCAGGTAAAGCAAGCAAACAACAACAACA autosomal
CTCGGGGCCCGACTTCATCACCGTCCTGGGGACACGGGGACATTGGGGAC autosomal
CCGCCGCCGCCGCCGCTCCACGCACCGGAAGTCGGCGCCCCGCCACGCCG autosomal
AGAGCCATCTTCTGTCTCTTCACAGACAGGGAAGGAGTGGACCGCACCAG autosomal
AAACAATTTTTCTTCTCATCAACAGGTCACAACATACCAATTTAAATATG autosomal
ATTATTCCATCCAGCACAAACTTACCTACATTTGGCTGGCCATCTGTTAA autosomal
ACTTTCTTTTCAGCTCCCCCTGCACCTAAAAGAAAATGCACAATATGAGC autosomal
ACCAGCAAGGCCATGGAGTGCGGATGTGAGTTTTTTTTGGGGGGAAAATG autosomal
CCGGCCCGCGGCGGCGGGCACCGAGGTAAATAAAGCCGAAGCGGCCGCCG autosomal
AGCGCTCATCCTCTAGACACTTTACCTAAATGGAAAAAAAAAAATAAAAC autosomal
TGGAGGTGCAGAGACAGATCTCACCCTATCAAAAAGAAAGAAACAAACAA autosomal
AACCATTGCCAAAACAGCTACATACCCTTCTTCTCTTGTCCATTGTCTCA autosomal
ATACTGATCAGAGCAACTTCCTCACCTGTAATGCTCTTGGGTGCTCAGAG autosomal
GTTGCTCACACCTCCCTGCCCACAGCGATGGCTCCGTGGGGCCGTGGGTA autosomal
CCTGTCTGACACAGCTCATACTCACCTGGAGAAAGAAGCCCCAGCAGAAA autosomal
CTTTCATGGATGGAGATAAACTTACTTCAATAGGGACAGCTGTTGGAGGC autosomal
CAAAGATGAGGTTATCAAGAATGTGGTGAGTTGAAAAACATCTTTATTTA autosomal
CTTTCTGACAGCACCTCCCCCACAGTGGAGTTCCCAGCCCCCAAGAGTGA autosomal
AGCATAACCACACTGCTGCAGACCTGTAAGTGAATGCCTAAGGCCCAGGG autosomal
TTGTGCTTAACTTTGGGAGAAACAAGTAAGAAGTGTTTCCTTCACTTAAA autosomal
ATAAAAGCTCAAAGGCCCCAGAATGGTAAGTGCTGAATTGCTGATTGCAG autosomal
GAAGAGGGAAGAGATTCCGAGAAAGGTGAGTCGGGAATTCCAGGAAATTC autosomal
AGAGACTTGCAATATTTTTCTGCAGGATGTTGAATCTGGTTCTGAAAGTG autosomal
AGAGGGGGACAGCGCTGTCCCTTACCGTGGTTTGCTCCTCCTCTGCGTCG autosomal
TGCAACACAAAACATGCCAACTTACTTCTTACACCGTTCACAGCTGTACA autosomal
GCCGCACCGGGAGCACCGGGACCCCCGCCCGGGGCCAGGAGCCGCTGGCA autosomal
ATAACAAGATTACGAAAAGAAAATGGTAACTTTTTTCTTTTTCTTGTGTA autosomal
ACAACAAATGCAGAACGAGTAAAAGCTAAAAAGGCACAAGGTTACAAATA autosomal
CAGAAAAAATCGATTTTCATAGCAGGTAAGTTAAATTATATTGTTTTAAA autosomal
AGGTGGAAGCTGAACGTTCACTTACACTGCCTTAAATGTCTCTTCCTTCA autosomal
CGCAAAATGAGCATTTCCCACTTACTTATCATCGTGCTCATAAATATTCA autosomal
AAACATATTTCTGCAAACTTTGTAGCATAAATGCAGTTCACGATACAGTG autosomal
CTCGCGGGCCCCGCCCGAGCTGCAGGTGAGCCCCAAACCCCCAGGTGTGA autosomal
GCAAAGCATTTGTCCAACCTGAAATCTGAACAGCAAGATTACTTAGGTAA autosomal
GCTTTCAGCACAGTTCAGTACTTACGGGCTGAGGGGTGGCTTTTGGTTCA autosomal
ACTCAGCAACAACTCCGTGGTGGAGGTGGGGTCGGGGGGTCTGGGGGGAT autosomal
CCCACCACGCCGGCGCACACCGGGCCTGCGGGCCACCCGTGCCTGTCACC autosomal
GAATTTCTCCTTGGCAAAGCATGGGGTGAGCTGCCCACAGCCCTAAAATA autosomal
CACTGCCATACACAGACTCACAACCCTGAAACAGTAAAAAAAAAAACCAA autosomal
ACGCCGAGTTTGCGGGTTGTTCTAGATCAATGGGGTAGACATGACAGAAG autosomal
TGTTTCACTTCTGCCTCTGTTTCAGGAGTGTAGGTTGCACAGTGGTAGAA autosomal
AGGAGCCCCCGGAGCACCCCCGGGTCTGCGGCAGGGGACATTGGGGACAT autosomal
ATGCTGGGGTCTTTGGCCACCACACCTGATGGGGGACACGGGGGTGTCAG autosomal
GGGTCAGAATCAGTGCAAGACCCCCCCCCAATTTGGGATTTGAGCCAGAA autosomal
ACTGTACCAGATCTGTTGTACTTACATTTACTTTCAATAACTTGCTGTTC autosomal
CGGGAGTCTCTGTGGCAGAAGGTAAGTGGTTCCCCGTGCCAGGGGAGAGC autosomal
AACAATCGTCCTGGCAGGTGCAGTGCTGCAAAACAGCCCAAATTCACCCA autosomal
GATGAAGAAGAAAATGATGATGAAGGTAAAGAACAAGCATTTCTGTGAAC autosomal
CAGCCCAAATTTGGTGCCCAGGTACCTGCGAACCGCTGGTGGCTCTCGTA autosomal
AAGAAGAGCCCTGCTTGGGAAATGGGTAAATTTTCTCTTTAAATAAATAT autosomal
TGCCCAGCTGCCCAGGACTTTGTCCCTGAGGTGGAAAAGAGTTCACAGCA autosomal
ATTTTCCATCCCTTGGTCCTTCCAGGCATACAAGAGGAAAACAGAAGCTG autosomal
CAGTTTTGTCTTGCTGTCACTCTACCTGTAGGGAGGCCTTCGTTTCTCCC autosomal
TCTGAACTTGTCCATTCTCTTACAGGTATTTGTTCATTCACAAAAAAAGA autosomal
CACTGCAGCTTTTCAAGCTTTCTAAGTAAGTAACCTCATTTTGATTTAAA autosomal
CAGTGTCCCCCTCCCCAAATTCCAGCCTGGCCTGCCTGTTCCTGAAGCGG autosomal
AGAGGGGGAGCGTCACGGTGCTCAGGTAACTCGCCCGCGTTGCCGAGGCT autosomal
CACGCGCTTCAGCCAGTTCATCCAGGTACCCCAAACGCCCCAAAACGGGC autosomal
ATCTCGGACCCCATCCATGACAGCAGTGAGTGTGGGGCCAGTCCAGAAAA autosomal
GTTATATTGCTGACTGTTCGGATACCTGTGTAAACAAGATGGAGATAGAA autosomal
AGAAACTCCTTTGATTACATGAACCCTAAAAAGAAAAACAGACAATTGTA autosomal
TAGATGCTCTGTTGCTTTTTTCTAGAGCTATGCTTGAAGCTACTTCTTCA autosomal
TGATTTTGCTACTTACCACTTGGACAGCAGCTCTCCCCACGTTTCAAGAA autosomal
CCATCTGCGCTTGTTTCCCCTGCAGGTTCTTGCAATGGCTGAGGATTTGA autosomal
ACTTGGGGTCCAGGTCCTCGCCGCCCTGCGCCCCGAAACCGGTCACCCCA autosomal
ACAATAATGTCCTGTTTCCCCACAGATCACGTTTAGGCTGCCAAATCTGC autosomal
AAGCTCTACCTCCTTCTCCTGCAAGGCCTCAATCAGGGGCTGAATTTGAT autosomal
CCACTGAACTCAGCTTGATTGGTGTCTGCAACAATGAGAGGGAAAGCACA autosomal
ATTTCAGCTGATTTTCTCTTTGCAGGGCTGTGATTCATGGGAGCCTCTGG autosomal
CACGCCCTCCTCCCTGCCCTCTTACCGTGGGAGAGGCTGACCATGCCCTC autosomal
ACCATCAAGTCTTCAAAGCCTCTGCCTGAAAGAGAAAGCATGAAAGCTCC autosomal
GCCGAGCCGAAGAACATCCCGGTGGCTGCGGAGAGAGCGGGGTCAGGGCA autosomal
AAGCAAAGAGCTCCACGCCATCAAGGTGGGCCTGGGGGCTGGTCCGGGGG autosomal
ACCTGTGCAATCCAGAGCCTTGGGCCTAGAGAAACACACAAGAAAATCAG autosomal
CCAGGTGTAACCCAGGTGTGCCCAGGTGTGCTGCTGTACCGCGGGTACCC autosomal
AATCTCACCCTACTCGGGAAGTGCAATATCCTTTTCAAAAGATGAGTGAT autosomal
TACATCTCCTGGCCTTTGGGGCTCCCTGGAAAAAAAATAATCACATAAGA autosomal
ACAAAGCATTGCCGTTAGTACATACCATGGCCTTGGACCTACTCAGAGGA autosomal
CCCAGCTGTGCCCAGGTGTGCTCACCAGGTCGAAGAGCTGCGGCCGTGCC autosomal
AAACACTAAAAAGATTTGTACTTACCACAATATCTTTTCCAGCCCACTTG autosomal
AACCGGGCAGGGCGGCGGTGCTCACCGTTGTAGTAGTAGCCCTTGATGAG autosomal
CTGGTCTTTTACTTCATTTTTAAAGAAAAATGATAAAATTGAACAGTTGA autosomal
AATTCTGACAATAAAGGCAGTTTACCTGCTAATGCCCAGTAGGCTGTACC autosomal
CCGCTGACCCCCCTGTGCCCCCCAGGCTCGTCCGGCGGGCAGAGCGGCGC autosomal
AAAAAATATTGTTAAACCCTTTGAGGGGAAGATTTAAGCCTATCCTGGGA autosomal
CAAAGAAAAAACACCCATTTCTTACCTGGGACAGCAGAAAAGACAGAGTA autosomal
CGGGGTGGAAGCAGGAGAGGAGCACCTGATATTGTCACGAGGACGTTGAG autosomal
AGTAAATTTGAATGAAAATAAAGAGGTAAGAAGCAAGGACTTTTTTACAT autosomal
ACTACATCACAGATGTCATAAAAATCTAGGGCATGACAAGAACAAGGTCA autosomal
GCCCGGCGCCGCGGCGTCGCGGGAGCCCCCCGGCCCCTGCCGGGTGAAGA autosomal
ATCTGCTGCGTCCAGCTGGGCTGGGCTGCAAGGCAAGAGGGAGGGAAGCC autosomal
CAAATGTCTTCTTGGTTGTGTTAAGGTTGAAGCTCTCTCCAAGTCCCTCC autosomal
AGGGAGAAATGGATGTGAAGTCCAGGTAAAATCTCTACTTCTCTGCTCTC autosomal
AACTGAATGTTCTGTTTGTGTGCAGCAACCTCATCAAGCATAGACAGAAG autosomal
CGTGGAGAGCCTCTCCCCGAGATTCCTGAGGGTGGGAAGAGGGTCAGGAC autosomal
AGCCCTTGGCATAACTCTCATAAAGGTACAATAAATACTGTGCATTAATA autosomal
CCTCACTCCTGCTGTCCCCAACAAGGTAAAAGCAGTCCATGTTTGGCTCA autosomal
GACGGGCAGCGGGGGCTCGGCGGCGGCACCGGCGGGGACGCGGCAGCGGA autosomal
TCTTATTTTCTTTTTTCTCCTCCAGTTTCTATTCTTCCTGATTCTGGTCA autosomal
AAAAACTTTGTCTAAAGCAAGCCAAGTAAGTGGATAAGTACCTGTGCTCA autosomal
ACAAGAAGTCCAGATAGTCCAAAAAGTAAGGGAACTCATAACATTCTGGC autosomal
ACTCGCTGCTGTTGTTTGCATCACACTGACAAGCACAGAGGAGAAAAAGC autosomal
AAAATCCCCCCAAATTTCCCCTCACCCCTTGAAGTCCTCCTCAGTGAAAG autosomal
CCGGGCAGCTGTCATCTTCTCCTCTCTGCAAGACCAGGGAGAATTAGCAA autosomal
CTCCCTTTGCTCTGCCCTTGGCCAGTCCTTCAGCCTGAAGGCGCAGGTGA autosomal
CACCGCCGCTGTCTTGTCGTTGCAGGGGTTTCTCCTCTGTGGTGGCCCTG autosomal
ACAGAAAGAAATAACCCCTTTTTACCTTTCTGACAGGAGGTTTTACAATG autosomal
AGCCTGGAAGTTGGCCAAAACTCACCAAACCATTTGATATTTGGTTCCAC autosomal
GCTGCTTCCTGTTTCCAGTGAAGTCCTGAGGTGACAGCAAAAGAATAAAA autosomal
AATGAATGAATAACTAAAAACTTGCTTTGTCAGGCTGTAAGGATGAGGGA autosomal
AGAGCAAGGCCAGCATGTGTTGATGGTAAGAAGCAAAAATCTATTCAATA autosomal
AACTCCCCAAACATCACAAGTCAGCAAAAACCTCCTCCAAAACATATTCA autosomal
CTCCGGGGATTTTTGGGGTACTCACGATGCTGCGTTGCTGTGGGGGGGGA autosomal
AATGTAGCAATTTTGCCTGTTGAAGTTGTCTTCTGCTGATGAAAGGAAGT autosomal
GTTGTTTTTTCACCCTGACCTCCAGGACCTCATGCTGCGTCATGGCTGGA autosomal
AGGCAGGTTCAGGACATTTCCTTACCTTTCTTCACTTTCTTCTCCTCGTC autosomal
TTGAATTTTTTTCTGTTTTCCTTAGAAACCATCATGGTGGCCCTTTGAAA autosomal
GGCAGGGGAGGATGCCGGTGCCCACCTTGAGAAGCAGGCGATACCCGTAA autosomal
AAGTTGATAATCCTGATCCTGATAAGTAAGTCAAATAGTGTCCAAGTATT autosomal
GTTGGGGGGCTTAAAGTAGACTTACCTTGAAGTAAGGACTCCTCTGGTAA autosomal
CGTTCTTTATGGATCCCATATACAGGTAAAAGACTCTCTGCTGCCTTCCA autosomal
GATCCACAAGAACCTGATACCTCAGGTAGTGTGCGGGGAAGGATGGGGGA autosomal
CGGATCTGCTTCAATCTTGATAATGGTAAGACCACACCTTTCCCAGACAG autosomal
CCTTTTGGGTAAGAGTCTCCCATTTGAAAAAAAAAATAAAATAAAAACCA autosomal
AGCGTAGTACTCAATCTCTGATTTTCTGAAATCCAAAAATTGGGTGTTAA autosomal
ATGTGGCATTTCCCTTTTTACCCAGATGTATTGCAGCTCTGTCCGTGGGC autosomal
GGGATGGGAAGGGAGGGTCACTCACATGGGGTTGGAGGTGACGGGGTGCA autosomal
GCCGCAGGAAGGAGCAGGGACCCACCTGGTCCGTGCACCAGTACCACAGC autosomal
AATAAGCATCATGCCTTACACCCACCTGTGCTGCTGCTGGTTTCCTTGCA autosomal
TGAAAAGGGTGATGGAATTAGCCAGGTTTGTATCAACATCCATCCTTTCA autosomal
CTAAATGTTTTGATCTCTTTCTAAGTGTGGTTGAATTCAAAGACGAAGAA autosomal
GGCCAGGCTCCATGGTCCAATGCAGGTAGGGTCCAGCAGCAGGGAACACC autosomal
CTGCCGGGCAGGCCGCGGGCGGCGGGTGAGTGGCGGCCGGCGCTGACCCC autosomal
CAGCCGGGAAGATTGCCTTCATAATGTAAATATTAAAGTTACACATAGGG autosomal
ACAGCTCATTCCAGATGGTGTTGAAGTGAGTGGTTTCTCCTTTCTGATGG autosomal
CTGCAGGACTACATGGACTATAGAGGTATGTTCTGCACACTTTGATAGGA autosomal
GTGACTTGCCATTTCCTTCCCACAGGGTCTCAGTCAGCAGAGCCATCAAA autosomal
CATCTCCAAATCTGTGACACAGCACAGCTCCATCTGGATGGCCCCTTCCC autosomal
CTACAGATACTTCTTCATCACCCAGGTAGGAGTGACTTGGGAAGCTCTTC autosomal
TAGTTCAAACAGCAAACAGCATCACCTGCTTCATTTGCTGCATCTCTGCA autosomal
ATCATCTTCTAGGTCATTCTGGAGCATTCTCATGCCATGAATTCCTATAA autosomal
AGCTCTTGGAAAGCAGACACTCCAGGTAGGCACACCTCCCTGCTGCTGCA autosomal
GATGGGAATTGTTGGGATTTTCCAGCTGGTGGCCTCGGGGGAGCTGATGA autosomal
ATGACCTGGAGAAGAAGCAGCGGAGGTGGGGACTGCGCGCTGGCAGTGGG autosomal
CACGGCGGTGCTCACCTGTCCCCAGAGTACCTGAACTACGAGGACGGGAA autosomal
ACAGAGGGGACAGGGCTGGCCCCACCTGCTCCTGGAAGGCCCCGGCCTGC autosomal
CCACCTGCAGAACCTATCCATAGAGGTAAATGCTTTGGGGAGATCTGTTC autosomal
AAACTACCCATGCCTCAAGGACCAGTGCCCAGAAGTGATAAGTACGAACA autosomal
ATTCCCAGAATTCCCTTTCCCTAAGGTAAGAGCAGCGCTGCTTTTCCCCA autosomal
GAACCTGTCCTGTAATTAAACATACCTTTCTTCATGAGTTTGCAGGGCAC autosomal
AAGTATCTCCAGCAAGCCAGGAAAGGTACTGGTTACAGCCTGCTTCTGTG autosomal
CCTCGACCGCCATGGCCCCGCCGTGCTGCGGGAGCCGCCGCTCAGCACCG autosomal
GATGACAAGGATGGTTTGAACTAACCTTGACATTCACCAGGGTAAATGGC autosomal
GCCCTGGTGGGGGCCAGGCACTCACCAGCGGGACGTCGGCCATGGAATAC autosomal
AGAAGAGTGAGAACAATTCACTTACCGGGATTTTGTTTGGATGCTGCTCT autosomal
CAAACTGGACTCATTGGTTTGACACCTGCAAAAAAAATCCAAAACAAACG autosomal
CCCGGTGCCGGGTCCCGTTACTCACCCGCTCGGTGACCCCGTCCAGCTCC autosomal
CGCTGCCTCCCTCTACCCCACACACCTTCAAATTCCGCACGCATTCCGGA autosomal
AGACATATTTTAATACCAATGAAAGGCTACTGGTAGAAGACCTCAATATC autosomal
ATGCTGCTGGTATGACAGCCCTTACCTGCAGGCCTGGCCAATAGGCCTCC autosomal
CACCCCGTACCCCACCAGTGCCCACCTGCCCGCTGGCTGCCGGGGATGGC autosomal
TCCATCGGGAACAGCGAGGACTGACCTGAAGAGGGGGTTGGAAAAAAAGA autosomal
ATTTCATCTCCGTGTCCCTTGCCAGGTTTGACTGCTACGGGGGCCTGTCC autosomal
GCTCCTGAACAAGCTCATTGAACAGCTGCAGAGAGAGTTCGGAAGTTGAC autosomal
ATGACGTAGCTGTCAACTGCACCATGTGAGTGTTGGGTGAACCATCCAGG autosomal
CCCGCGCCGGGTCCCGCACACACACCCTGAGCGAGCGGTCGTAGGAGGCG autosomal
TGCCCAAACTGCACATTGTCAAGGTAAAACCTGGGGAGTGGCAAGGGAAA autosomal
CATCAGGAGCCAAAGCAACTGTTACCTTGCACTGGATGAAGGGCCGAAGG autosomal
CCATGTAACAAGAGTTACGACTTACTTCTTGAGTGATTGCTGGTCGGAAC autosomal
GATGCCGCTGCATTTCTCACAGTACCTGAGTCTCTTCCCTGTGGGTTTGA autosomal
AGGGCGATGCCAGCAGCGATCCGTCCTGAGGGGAGAGCACCGTGAGGCAC autosomal
CCAGTATTCCCTGGAGGCCACCCACCTGCACAGATGACACTGGCGTCCTC autosomal
AGCTGAGCCCACGCAGGAAACACGCCTGGGGAGAGACGGGACAGGATGGA autosomal
CCCTCGCTGTCACCGAACACGCTGCAGCTGCACGGGACGTTCCTGGGGAA autosomal
CTTGTTCTTTCTGTAGTACCCACAACTGAACTGGAATGGGTTCCCCTGGA autosomal
ATGTTTCAGTGCAAGAAGCAGAAATGTAAGTCACACCTATTAGTAATAGA autosomal
AACAGCCCACAAATAACCTGGTTACCTTGGAAATGTGCGCACCCAAACTC autosomal
CGCTCCTCACCGCTCTCTCCTGCAGACGTGGGAAACGATGAATTGGGCCG autosomal
CCCCCTTATTAAAAAAGTAACACACCTGAATAAAACTGAACTCCCTCCAG autosomal
ACAGCGCTGTCGTCGTTCTCCATGCCTGGGGACAGCAGGGTGGCACTCAG autosomal
CTCATTCTTAAACTTCCAAACTTACCCTTTATTGGGCTGAAGAAGTTAAA autosomal
CCATTTCTGCAGAGGGATTTATCCGCTGGAGAAAAAGGAAAAATGCAACC autosomal
CTGCTGCCCCACAGGGAACAGGTCAGTGGAATGTTTTCCTTCCTCCCTAC autosomal
GTGGGAAATAAATGGTGCTACTTACAGATTGCACTTGGAGCTGCAGGTCA autosomal
CACCGTGGCCCCCCTGCCCTTGCAGAGCACATCGACGAGCGCAGGGTCTG autosomal
ACACAGAAACATGAAGTCTCGTTACCTTTGAGAACGGAAATGTGCTGGCG autosomal
ATTTGATGTAGCAGAATACTTCCTCCTAGGATTCAATACCAGGAGAGTTA autosomal
AAAATAAATGAAAGAAAGAATGTACCTTTGAATCCAAGCCTCATAAGAAC autosomal
TCATATTCATTACAGTGAAAATGACCTTAGAAAATTAAGGAAAAAACAAA autosomal
CACATCTCATTACTCTGTACAGAACCTGCAAAATTAAAAACACAACTGAG autosomal
CGGTGCGTGACACCAACACAGCAACCTAAGAGAGAGGAGGTGATCAGAGA autosomal
CACCGAGCTCTGCCTCTCTTTCCAGTTCCCCCCAGCATCGAAGTGCGCGC autosomal
CCCAGCCCCGCATTCCCGGCGGTACCTGCAGTCGGGTGCAGGGCACCAGC autosomal
GTGCTGATTCTTCAACTCTCTGCAGGAGGATCGTCAGCTGAATACACAAA autosomal
CAAGCAAAGAGATATCTTTCCTCTGGTAAAGTTCACACTAACAATTTCTA autosomal
TACGCCCACTCGGGGAACGCGAAGCCTGAAAGGGACAGGGGACAGCATCA autosomal
CCACGGTCACCCAGGCCACCAGGTCCTGGGGGGACACACCACGGCCTCGG autosomal
CATCGACAGCATCTCTCTCCTTTCCCTGTCAGGGAAGCAGAAAAGAACAA autosomal
CAAAGTCTTCTGATCCGTTCAGCAGGTAACATCGAAAGGTGCTGGCTTGA autosomal
GGAGAGTAAAATTGCAGTGTTTGTTCTGGAGACAGACAAGAAGCAATAAA autosomal
AGATGTACACGATGGGCTGCAGGGGCTGCGGGCAGGGATTTGGGGTTTGG autosomal
CATTCTGGTCGTGGTTGAACTACAACTGAAGATGAGAAGATCCACAGGTC autosomal
TGCAGCCCGTTGGCCGCGATGGCAACTGCGAGGGAAAGCACATGCACAAA autosomal
AAGCTTAAATGGGCCCTTCTCTAAGGTTGATATATTGCTGCTCTGTAAGT autosomal
AAGTTTCATGCAGACAAAAGGTTACCTGTAATACAAAAACTTAGAAAGTA autosomal
CTTTCCAAGCTTTCCTGGACAGACACTAGGGAAAAAAAAAAAAAAAAAAA autosomal
ACAAACAGGAAAAAAGCAAACTTACTTTGTATGGGCAAAGAGGATCCTGC autosomal
AACCCCCACAAGGAGCCTGTGGAAGGTAAGGGAGGGCTATGGGGTCTAGC autosomal
ACGTCTGGGAATGCTGGGATCCCATATGGGAATGCCCAAATTCCATAGGG autosomal
ATTGCAGCACATCAACTGTACTTACCAAAGAAGGTTGCAACAACTGTGGC autosomal
CCCTTTTTCCCCGCCCGGGGCTTACCCCCAGCCGCTGGCACTGGAAGAGC autosomal
ATTAAAACTTATTTTTGGTCCTTAGGTGTAATGACTACTCTTCTGAGATG autosomal
CATAATTCCACATGTGCTGCTGGATCTGTAGAAGAGGAGAGAAAAATGAG autosomal
AGCTGCGGGACATCGGCGGGCAGCGGTGCGGGACACGGCAGTGGGCTGTC autosomal
GAGAAGGGTTTGGACAGAAACATACCTCCATTCATCATTTTGTCTTTGGC autosomal
AGATCCCCTCGGGGTTTCTTTGCAGGTCGCACATCTTTTGGGTGGACAGA autosomal
AGATAGTCATCTTCTAACTACTGACCTTGAAATGGTTGATCAGATCATAG autosomal
ACGTCCCTCCCAGCCCGGGGCTCACCGGGAAGGCGATCTGGCACAGCTTC autosomal
CACCAGCCCCCAGCCCCACCGGTACCTTGCACTTGAACGGCTTCACCGGA autosomal
GCTCAGCGAGGCTGCCATGGCTGGGCTGGGCAGGCTGCGGGGAGGACGCA autosomal
CTTTTTGTTTCATCCTCTCCCACAGAAGCTAGATGAAGAGAGCGAGGCAA autosomal
GCCCTGTCCATGCTGCCTCACTTCAGTGGGCACCTCATTCCCTTTCTCCC autosomal
ATATGTGTTTGTTTTTGCTCTACAGGTAATACTTTAACTCCAATATGGGA autosomal
TGATGTTCACAGCTACCAGGGAAACCTGCAGAAATTCACAGAAAATGGAA autosomal
CGGGGAGACTCACACCGGCACCGATCTGAAAGCACAGCGTGCTCGTGGAG autosomal
CGACAGCCCCGACGCCTTCGTCAAGGTGCGGTCGGAGAAGGGCGGGGAGA autosomal
ATTTTTTGCCATAAATTCCCGAATTTTTGGGAATGAATTCCCAGATTTTC autosomal
CCCAAAAATCCCTTCCCTTCCCCAGGGCCGCCGCTCCCGCCGGCAGCGCC autosomal
GCAGTGCCAGCAGGATTCAGGCTGTGCCAGTAGGATTTGGGGTGCCCAGC autosomal
GCCGAAGTATGGCCAGTAAGCAGAAGTAAGTGTATTTTAAATAATCCACA autosomal
AAACCAGTAAAAAATGGTAAAAAACCCATATAAACCAGTATAAACCAGTA autosomal
CCGCTTCACCGCTCTCTCCCCGCAGATGGCGGCTGACATCCGGGAGGCCG autosomal
GCAACAATCATGCAACAAAACCTACCACTTCCACGTAAGGCTTCATTTCC autosomal
CGCGGCGGCGCGGGCGGCGCCTCACCGGTGTGGGGGCGGCTGCGGGGGCC autosomal
AAAAAATGATGAACATCTCTTCTAGGATGGCTTCGACTTGGATTCAAATA autosomal
AGCGTTTAGAAGAGTCTCTCAAAGAGTAAGTATGCATGTCCTGCACCATG autosomal
GTTTAAGCAGGAGGAGCACACTCACCCAACCACCACATGGGGATACTTCA autosomal
GTAACTGTAATTAATAAATTTTTACCTCTATAATCTTGTTCCAGATGGGA autosomal
ACCCCCAGCCCCTTTTGCTCCCCAGGTCACCAGCAGTAGGCCCACACGCC autosomal
CCCGGGATAGCCAGCTCCAAACACCCTGCAGAGGGACAAAACCAGCCAAA autosomal
ACACACTCTCTTGCATCTGTTGTAGGTTGATTACATGGAAGAAAATGAGG autosomal
CAAAGCTTCAGCAGTGTTTTCTTTCCTGAAATATTTGATTACTATTAGCC autosomal
GACGATTTGTTTAATCATTTAACAGCTGACACAAGCCATGTCCCTAACAA autosomal
GAAGATGAAACAGAGAGATAAGAAAGTATGACTTTCTTCATCTACTGGAC autosomal
GTGTGCTGTCTCTGCTCTGTGAAGGCTGTATTAAAGAAAAAAAGACCAAC autosomal
CCGAGACGGCCCCGGACACCCCACGGTGAGTGAACCCCAAAAAAATCCCC autosomal
ATGTTATTAATAAGAAATTAAATACCTTGTGGCTATTTTAAAAACTTCCG autosomal
GGAGGAGAAAATCTCCGTGCTCAGGGTGAGAAAAATACACAATTTTTTTA autosomal
ACGTGGCCAACGCTGGTGACAGCAGGTACAGCCCCACAGGGCAGCCCTCA autosomal
CCTTTCATCCCGTATCAGCTGGCAGGTGAGTTAGCATCTTCTTTTTTTTA autosomal
ATTTGGGGGATTTTGGGTCACTCACCCCACACTTGCTCAGTGCCACGTAC autosomal
ACGCCATGCTGGCTCATAAAGCCAACTGCAGGTGGGAAGGGGAAAAAGGA autosomal
GAAGTTGTGCTGTGGGCATCAGAATCTGCAGGGCAAAGAAGAAATGCAAA autosomal
AACCAACCCTCGCTATTTATCATACCTCAGATTATGTTTTATGAAGCTGC autosomal
AGGGCTCAGTTCCAGCAGCTGAGTCCTTAGGGTAGAGGACAGCTCTTCTA autosomal
CCCGCTGACCCCCCCGGCCCCGCAGGGACCCCTGGCGCAACATCTCGGCG autosomal
TCCCAGAGGAAAGCCACCTACTTACTTAAGTCTTCGTCTTCATGCTGAGA autosomal
CCCCTCGGGGCCGCTCTCGCGAGATCTGGGAGGAGAAAAAAGGGTTAAAA autosomal
CTGTTGCCCTAAAAAGAAGTGAGACATAGGAGAAGTAGATGCCTATAAAA autosomal
ATATCTCACCTGCAGAAGAGCCCAGGTAAGGACACGGTGACCAGCAGCTC autosomal
GGATTTGGATTTGGGCAAATAAAGCCTGAGAAGAAGAAAACACATTTTAA autosomal
CATTGCTGTGGCATACATTGCTGTGGCACACATTGCTGTGGCACATGCCA autosomal
ACACAGGGAACACAGGGACTGGGAACTCTGGGAACACAGGGATTGGGAAA autosomal
CTGGGAGGGAACTGGTTTATACTGGGTTATACTGGGAGGGGTCCCGCCCC autosomal
GATCCATGAAAGTACTGGGAGGAGTGTAAGTGTGGAAAAGTGGTATTTAC autosomal
AGGATTGGATTTTTTTTTTCTTTAGGCAGAAGCTCAGAGAACAACATTCA autosomal
ATGGGTTGTTTCCATCTCCTTGCAGTGGCTGGATTGCAGCGATTTCCTTC autosomal
GGATTTGTGCTATGGCTGCGTGTTTCTAGAATGAAAAAATCAGAGATGCA autosomal
AAGATGGCAACAGCAGTCTCAGTATCTGTGAAAGCTGAGTTTGGAAAAAC autosomal
CTTGTAGTCGGAGCCGCCGAACAAGCTGCGGGGACACGGGCACGGCTGCA autosomal
CATCCCAACAACCAGGGCTGCATACCCAACTCACGTTGCTCCTCGATGTC autosomal
TCCACTTGCCCATTTCATTTTGCAGGTCCTGCTCCTGAAGCCATCACAGA autosomal
CCGCCCCGAGGGGCCCCGGCCGCACCTTCGAAGTCGGAGAGGATCCCGTC autosomal
GTGCCCACTGCCAGCCCCCGGAGTGGTGAGTAGCAGGTGGGGGGCACCGA autosomal
CATTGGTACTTGTCCTGTCCTACAGGGAAGCTTGCATCTCACCCTGTTCC autosomal
AAAAAGAATCAATTGCCAACCCAAGGTACTTTAATTCATTCTATTATTTG autosomal
CCAGCGCTTGGTCACAGGTCCTTACCTGGGTGTGTTTGGGATAACCCATC autosomal
CCAGGTAAATCACAGTCTGTTGTGCAATTTGTGCTGTTTCTTTAGATACC autosomal
CTTCCTGCTGTCTGGGGAAGCACTCCTGCAAAAACAGAGGCAAAATTTAA autosomal
ACCACAAGGACCCTTTTCCGTTCACCTGCAATGAAAAAACACAGCAAATC autosomal
ATCTGGTGTAATTTTCTTGTTACAGATTCAGAATATGAACAACATAATCA autosomal
AAACGTGTAATTTGTCAGAGGATACCTGTAAGGAGAAGAAAAAATGTTAC autosomal
ACCTGCTGAAACAGCAGGACTCCATCTGGGGGAGAAAAAGGAGCAAGCTA autosomal
CCTCCCCCGTGTCCCCAGGCCTCACCTGAGCGATGGCCTCGGCCAGGGGC autosomal
CCCAGGTGCCCCCAGGTGTCCCCACCTTCAGCCACTGCTTCTCGGTCAGG autosomal
AAAGTTGATACAAAACCCCCAAAGTACCAGTTATCCAAAAAAGCCATGTT autosomal
AACAAAAATCAAAAAATCCCTTTACTGACCTCCAAATATTTGATGACAGA autosomal
GAGGCTGCTGGTGATCCCCATGGAGGGCAGCCACTGGCTCAGCATGAAAA autosomal
CCTGCGGTGTCCCCAGCAGCTCCAGGTAGGCGCAGGCCGCTCGGGGGACC autosomal
ACCTCCCATCTCCATGAACTTTGAGGTGAGTACCTGTCTGCCTTTCAGGA autosomal
AAAAAAATCTTGAGTCTGCAGTTACCTCCATGTTCAGCAAATTTTGGGTT autosomal
GCATTTCCTTTTCCTTTTTCCTTAGCAGTGAAAGTAAAGCTGTCCAAGAA autosomal
CCGAACAAGGATTTATATTCCTTACCTTGCAATTTTTCCACCAGTATTTC autosomal
ACCAAAGTATCTGCTGCCATTTCAGGTAAGACATGTTCTACAGTGCTCTG autosomal
CATCTGCTCCCTGCCCCATACTTACCCATGTGAAGAGGGCAGTGAGACTC autosomal
GTGCGAGAGCAGGTGGGAATTCTTGCTGAAGCTCTTCTCACATTCCAAAC autosomal
ACTGACAGGACCCCTCTGCCCCCAGACCAGGTTGGCCTCCCCGATTTCAA autosomal
CTCAGTGAGGTGCCCCAAGCACAAGGTAAGAATCCTCTCCTAGATTATAC autosomal
GTCTTTTTTTTCTTTGTTAACACAGATTGGAAACCTCCAGCTGCACAAAC autosomal
TACTAAAGGGTCTTTGCTTGCTTACCTTAGCTGCAACAGGCAGGGAAAGA autosomal
CATCCCTCTGGGAACTGTATCAATGGTAAGTGTAAAACACTGCTCTGGCA autosomal
CAGCTCCACCTCCACTGCATTCTTCCTGCAGGGACAGAAATCTGGGCATG autosomal
AACATATTCATCAATCACACAGTCTCTAATTAAAACATTTGTTTGTGGGC autosomal
CGTGTTCCTTGATATAGTTTCTCACCTTTAGAACAGAGGCAGAAAAATTA autosomal
GACTCTTCATTTCAAATTTGTTAAGCTGCAAAACAAACCAAGGAAAAAGA autosomal
ACCAAAGAAGGGGTAATGTATGTAGGTAAGAGAGAACTAGTTTTGATCTA autosomal
AAAGTGGAATGGAATGCTGTTCCCTGTAAGTTTGAACTTCTTGGTATCAT autosomal
ACTGTCTACGTGTAGCCACACTCAGGTGTCTGATAGTAACAACAGCACCC autosomal
ACCCCAAATCTTCCAATGCTGTGACCCCAAATTCCCAGTGCCATGACCCC autosomal
GTGTCTGGGTCCAGGCAATGTTCACCTGTTAAAACAAGACATTCAGAAAA autosomal
TCTTCTGTCCAAACAGACAATTCTTCTGCAGGAAAATCAAAAATAAAAGA autosomal
ATGTTTAGAAGCCTGTGGTGTTGGAGCTTGTCGGAATCTGTGGGTGTTGG autosomal
AGCCACGTTGTCTGTGTCTCCTCAGGTGACGTTATCCGCACGGTTGTGCC autosomal
ATCTTTCTTTCTTGCTCATAATCAGATGAATCCTAGGCAATGGAGCCATA autosomal
AGATTTCTGTTTCCCCCTTTAATAGCTGCTGTCCTGCCTGGAGAAGAGGG autosomal
GCCGAGGTTGAGGCATCCATCCAAGGTAATGGATCTTCTGCTTGTCAGGC autosomal
GCAACCTGGAATGCCATTGTTCATGGTAAAAATAGCTCAGGATTCAGAAC autosomal
CTTAAGAGGCATTTTGACCTTTCAGAAAAGAAGAGACAGAAGAAAGTGAA autosomal
GAGCTGTTCCCTGCTTTTCCCACAGGGAGGTGCGAGCAGACACCAAATAC autosomal
ATGTGGCCTCTCCCACTCTGCGCAGGTAGGCACCAAACTCCTCGGTTGTG autosomal
TCCACATGTGCTTTTCTTCCAACAGAATATGGAGCACCTGAAGAAGGAGA autosomal
CCCCCCGTGGTGGGTCAATGCCGATCTGTGGGGAGGGAGAAGGTCCTCGA autosomal
CCCAGCGAGCGCAAGCCCAGGGGCCCTGAAATGGAACAAAGGCACAGCTC autosomal
GCCTGGAGTCTTCAAGGGGATAAACCTGCAACACAAACAACCAACCCAAA autosomal
ACGGGCTTCACAACAGAGACTGAGAGTAAGTAGTACTTTATTTCAAAAGT autosomal
TACACAAAAAGCACATGCAGCTTACTTCAGAGGATACATCCTTAGAGCAA autosomal
ACGCTGTAGGCGCGGCGCGACCCACCTTGCCCGCTCGCAGCGTCTGGCTC autosomal
GGGAAGAGTTTAAAATTCAACCCACCTTTTCATAATATTTATTGCATCCA autosomal
CTGGACTCACTTTTTTCACCATCACCTGAAAAGAGAATTCAGTGAGTATC autosomal
TGGGTCTTGCAGTCAAGTTCAACAGGTAACAAATCCTCTGTCTTTGGAAA autosomal
ATTCAAAGAGAAAAATTATCTTGAGGTAACATATCAGAGGCTGAAGAAAG autosomal
CCCTCCCGTGCCCTCTGTCCCGCAGAACTCTCCGGATGCTGCGGGAGAAC autosomal
CAGCCACTGTGGCTTCCACCACGAGGTTTTTCTTCATACCAGTGGATACA autosomal
GGCCCAACCCCCCCTGCCCCCCCAGATGTCCTGGCCGGGTACAACGGGAC autosomal
ATGCCCATCCTCCCTGGGGACTCACCGTGTTGAAGTTGGGGAAGAGGTTG autosomal
ATTGAAAATCATTGAGATTTTGCAGGTAATAATGAGGGGTGCTATATTAC autosomal
ACAATGTCTTGGGGGTTTGTGTTGCCTTGGAAACGTGAAAAATAAAGCAC autosomal
CCCGACCCCCCTTGAGTTTCACAAGGTTTGTGTCGCCAAGGGTGGGTGTA autosomal
AAACAAGCTGTCCGTCCCAACTCACGTGTCACTCCAAGGGCCGTTCCACT autosomal
CCTGCCATGGCCGCTTCGTCTTTTGCTGGGGAGGAAAACAACAGAGTTTC autosomal
ACAAGAGCACAAACTTGAACTCCACCTCCTCTCGGAAAGATGCATCCCTG autosomal
CTACATTTTGAACTTGCAGACGAACCTATAAAAAGTTGTGTGAGATACCA autosomal
TGAACGGGAGTCCTTGCTAGACCAGGTAATCGCAGGGCTAGTGAAGAACA autosomal
ACAATCACAGGTCGAGTGTAACTGACTAATAAACATAAAGGAATAATGTC autosomal
CTCCATCTCACGTTGAGTTTTCCATGGATTTCTCATTTTTGGGAGTTTTC autosomal
AAGTTAGAAGGTTGTATCTACTTACATCATCCTGAATATCCAGATCACAA autosomal
CGTGCCGGGCGCGCTGTGCCCTCACCTTTCCGTACTTCTTGAGGCGCTTC autosomal
ACATAAAAACATTTCAAGCGAATACATGAAAGTTGATTTGTATTCCAGAT autosomal
AGTATATTCTCACTGCATTGCTCACCTGATCTTTGCAAAATGGTTGAGAA autosomal
CCCACAAGAGTAAAGGAGTGTCTGGCTGGGTGCCAGCCTCCAGGGAAAGA autosomal
CAAACTCCCCAAATCCCCTCCAAACCCCCCAGAATGTTCCCAAACCCCCC autosomal
AGGCCATGGGAGAGGACCCACGGACCTGATTTGCCTGAGTGTGTCAACCT autosomal
ATCCCTGTGTTCTTCATAAGCTGAGCTGCCAGAGGGCAAAACACACCAGC autosomal
CAATTTTCCACAGTCCATTACTAACCTGCTGCTGAGAATTGTAGTCAAAA autosomal
ACAAGCTCATAGAGATGAAGAGTAGCTGGAAAAAAAAGCAAAACATCACA autosomal
AACTTCATTCTTCGTCTGTGCAAACCTGTGAAGGAAGCAAAAGGCAATTA autosomal
CCAGAAAGATACACTGCAGATTTACCTTCACTCCAACTCCACCATTCTTC autosomal
ACAGTTTCTTCTTCCTTTATCTTTTGCATAGTGTATTGAGTAACTGTTAT autosomal
GCTGTCCCCTCGGTGTCCCCTCCAGGCCATCATTTACGAGGGGCAGGACA autosomal
ATAACATCAGCTCATTTAATTCCAGGTTTTCCTCTGGGATATGGATAAAT autosomal
TTTCAGATTCCCTCTGAAATATTACCTTTTGCAGTATCATAGATCCCAAA autosomal
CATGGGGTGCTGCTCTGTGGGGCAGGACGAGGAGGAGAACGGCGCCGGCA autosomal
CCCAACGCTCTCCAATAAGGAGAAGGTACTTGCTTGTTGTTGGAAGATAC autosomal
CTTCACAAAGATCTGCATTGTTGACCTGAAAGGCAAACAGATGTTTCAGC autosomal
CATCTGACTGTGCCTCCTAGACTCAGTAAGTGAAATAAGCAAGATTTGAA autosomal
CTCTTTTCTCTTCTTACTGTCTTAGTAAGTGCTGTGGACACAATGAGAGA autosomal
CAAACCTCGTGTGGGCAGGACTCACGGTCGTTTTCATCCTGCACTGATGA autosomal
CCGGAATTGGGTCTGGGTCCCGGAGGCGCCGTACCACGAGCGGCAGCGGC autosomal
AGGTGAAACAGTTCTGTTAAGTGCACTGGAACTTGAGCTGGTGATCTCTA autosomal
GGGTATGGCAGCTTGGCACCATCTGCTAAAGGAACAGAGAATCTGCTTGA autosomal
ATCTCCTGCAACCCCCTCTAATGAGGTAAGTATAATGTTATGTAAATGTC autosomal
ATCCTTTTTGTAGAACAGCTTGCACCTGTGGAGAAAAAAATAAAACCCAA autosomal
AATGGTGCCATCCTGTGCCATGCAGCTCTCAGGGAAGTGGTTCCTGGTCG autosomal
CTTCTTCACCCAATTCTTCTTGTAGGACTTCATTACAGAATTGCTCAGTC autosomal
CCAGAAAAGGCACAGCAGTGAATACCTCAGCATCGTTGGGCTCTTGGAGA autosomal
GAGGAGCACGTGACCTGCGTGCAGAGTGAGTGACGTCAGCGATGACGTCA autosomal
CAACAGCCTACGTTCATCCCTACAGGTAAGTGTGTCCTTGCTTTCCTATC autosomal
AGAACCACCAACACACTCTTGCCATCTGCTGGGCAGCACAAGGCACGGCG autosomal
TAAACACTTAAATTGCTCTTTTCAGGATTACCTGGCATCCAGGGGTCTGA autosomal
TAGCTCTGCGGTTTTTGAACCAGACCTGCAAGAGAGAGAGAGGGAGGGCA autosomal
AAGGACATCCAGGTCATCGTGAACGGTGAGGGGCTCAGAGCAGCACCTCA autosomal
ATGCTGCTGAAAGGCCCCAGCTTACCTGCTCCTGTGCCCGGTTCAACATG autosomal
CTTCAGCATATGAAAACCATTTCACCTGTAACACACAGAAGAAAATCAAA autosomal
TGGGCTCGATCCTGTTCCCATAGAAGTAAGTATCTATATTTGTGTATAAA autosomal
TAACTATGGTTTTGTTTCTTCACAGCTCTGCTCTCAGCTACAGCTGTCAA autosomal
CCCTTGCCAAGGCTTCCCAGGTTACCTTCAGCAGCGGTGTCTGGCTGAGC autosomal
AGACTCAATTTGGGAACCCCCAGACCCAATTTGGGAGCCCCCAGACCCAA autosomal
CATCAACAGGCAAAGCTGCTCCAACCTATGAAAGAAAAAGATATTCAGTA autosomal
GGAATGTGGGTCACCAGGGCTGTGCCCAATGTGGGTCCTCCAGTGTGGGA autosomal
CACCCGGCTCTGTCACACAGTAAGCCTGGAAGAACAACCCCCAGATCCCA autosomal
ATTTTCCCCGCCGAGGCGAAGAGACCTGCTAGGAGAGAGCAGTTGGGCGC autosomal
AGACAGAATCGCTGTTTACGATGCTCTGAAAAGAGGAAACGGTAAGGGAG autosomal
GCTAGCAAGAGCAATGCCCAATACCCTTCTGTCATGGTTTGACGCTGGCA autosomal
ACAGTACTGGAATTTCTTAAAATATCTGGTTGTGAGAAATAGATGAGAGA autosomal
AAACAACCCCCACTGGTACCTGAAGGTAAGAAGCAAGGGGCTGTTGGGCT autosomal
GAGTCAGACACTGAGAAACACCCACCTTCTTTGGTCTTTGTGCTAGCTGC autosomal
AGCTGTTCCTGTTTTTGCCTTGCAGGGCTGAGACGGAGAGGGGCCTGTCC autosomal
ACTTGAAAAGGTGACCAGGAGAATGGTAAGTTGGCCTCTTAACATGTCTA autosomal
TAACTTTTTTTAGACCTTCCAAAACCTGAAAAAATACAAAGATTGGGATA autosomal
GGGCCTGCTTCAGCTCAGTTTTGACCTGAGATCCCAGAGAAGAAATCAGA autosomal
GATTCTTTTTCAAAGGGAATATTACCTGGAGTTTGGAAGTTCAGAGCCAC autosomal
AATTTATTTTTCTTGGTTTTTACAGTTCCACCAAGTGAGAAGAGTGATGA autosomal
GTAAACATTTCTCTTCATTTTGTAGGACAGTGAAGTCCCAGAAACAGCAA autosomal
CTTCTAAGTCTGTAGACATATTCACCTGGAAAATCAAATGGGAGCAGTTC autosomal
ATCGCCCGCGACTTCAGCGACGGGGGTTGGCCTTGCGGGGACACGGCGGG autosomal
GTGGTCACACGGTACCCGCTGATGCCTGAAATACGAAGGCCATGTCAGGA autosomal
AGGCTGGCTGGCCTTGCACCTGTGTCTGGAGGGAAAAAAAAAAGACAATC autosomal
AGAATGTTTGGCATAGCTTCTTTAGGTAAGATTGGTGATTTATATTATAT autosomal
GGAAATCTCCAGCTCCATCTGGAACCTGTGGAAACACATGAAGCAGATCA autosomal
AGCCTTCCATCGTCAGAGTTCTCAGCTGAATTCATGGGAAGCACAAAAAA autosomal
AGGTGTCCCCTGTCCCTCCTGGCAGGTACAGCAATGACGTGACGTCGCTG autosomal
AACATGAAGTGACGCTTCAAATGCACTGGGGAAAAGGGGGAAATGTCATT autosomal
AACCCCCATTTCTGTCTCCCCACAGCTACGCCCGCCGGGACAGCCCCACC autosomal
CTTCAGTAGAAATTATTAAGCAAAAGTAAGCTGTTATTTTGTTAAACTTA autosomal
AATGGGAAAACTTGAAGCTGATTTCGTGAGTTTTTAACTTAATACATAAA autosomal
GGATCAGAGGAAGATATTAGAGAAGGTGCTTATATGATTTTTTTAGGACA autosomal
AGTGCAGATTCCCGGGGAAGGACGCCTGCAGGAGACACACAGCACTCACC autosomal
GCGCGGGGCCCGCGGCGGTCCCTACCTCCGTGTCGTAGACCCGCAGGTCC autosomal
GTCCTCCTGAGCCTGTAATGCCTTCCTGGTGGGAAGCAGAGAGGAGAGCA autosomal
CTTGTGGGTCAGAGAAGGGCCTTACTTTGCCAGGGAATTGTGAGCCTCAA autosomal
CTCCCTCCCCAGCTGCAGGATTTACCTTGGCACAGGAGTGAGTGAATTTA autosomal
CAGAGACTCCAGTGTTTAAACCTACCTTTTGGGAGATGTAAGACTGCAAA autosomal
TACCACCTATGATTCTTTAACAAAGGTAAAGCAATAACAGAAAAATGGAA autosomal
AGAGCCCTGGCCAGGCTTTGGGAGAAAGCTGACAGGAAAGTGAAACTAGA autosomal
CGCCCGCCGCGCCCCGGGCACCCACCTCACTTTGGCCGCCACGGACGACA autosomal
AGGTCCCCGCGTTCAGTGCAGGCAGGTATCAAACCTCATCAGTGTCTTAG autosomal
AAACTTTATGTGCCCAAAAGTTTACCTGGTAATGTTGATTCTGAATCAGG autosomal
AAAAAAACAAGCATTATTAGCACACCTGGTCCTTGATATGCCTGTGGATG autosomal
CCCCAGGTGACCGCGCTGTCCCCAGGTGAGGTGCGGATGCCCTCGGGCAA autosomal
AAGAAGTAATTTTCAGAAGAAGTATCTTTCACCATATTGTACAGCAGATG autosomal
CTGGAATTTATTCCAATATCTGTAGGTACAGAATTTTCCAAAATACCAAG autosomal
TGGTGCTGATCTCCTGTGGAGAAACCTGTAAAGAGCAAAGGCAACAAACA autosomal
CCCCCGCTGACTTCTGTCCCCAGAGGTGACAATGAGGGTGACAGTGACAC autosomal
GCCAGTTTCTGGTATTCTTCAAACACTGAAAGACAAGAATTTATATTTGA autosomal
GGAACAGCAGCGACGGTGGTGGTCCCTGCAGCCAGACAGACAGGCATAAA autosomal
GCTCTCGTTACTTCGGCAGAACACGGTAGGTGTTGAAATAAAACTTCCAA autosomal
ATTCACTGTAACTGGCTGAGTTTGTCTACAGAAGAAATTTATTGGTAAGA autosomal
GCTTGGGCCTTGTAATAGTTGCTATCTGAAAATACCATACCCATATTAGA autosomal
GCCCAGGAACAGGGGCAGTGCTCACTCTCAGCAGCAAGGTCCCGGCTGAC autosomal
TGTGCTTGATGTGTTTCCACAGTTTCTGCAAGCAAAACAAGCAGGGAAAA autosomal
AAAGCATTTTTAAAACACGACTTACATGTTTCAGATGTCATGGAAACCGA autosomal
CCAACCATCCTCTTCCTCCCCAAAGGTGAGACGGGGCTGCTGGTGATAAA autosomal
CCCCAAAATCCCAAATTTCCCCAAATCCCCCCAAAATCCCCCCAAATCCC autosomal
TATTCTATTCAGAATTTACCTGAAGGTATATCCTGAAAGTATTTTGAAAA autosomal
GCTTTTTTGCTTTATCCCATTGTAGGAAGCAGTTTGGTTCCTTTCCAATA autosomal
AGCTGGTCATCCAGATCACTTAGAACTGCACAGAGGGGGAAAAAAAAAAG autosomal
GAGGAGAGCTGTGGAAAAACTCAAGGTACCTAAGACATTTTACTGCCTGA autosomal
GCAGTATCTTGCGTCCAGATGAAAAGTACCTATAAATTATTTGATGCATA autosomal
CCACAACAACAGCAGGCAGAGAGCTCTGGTAGGCAGTGCCAGCCAAGGAA autosomal
CTGTGGGTTTCCTCAAATGCTCAGGGTAAGTTTAGACACTTCTTAACTGA autosomal
CCATTGCTTTCTCAATGTTCTTTCCAAAGCGATGAGAATCCTTTAAAAAC autosomal
CTGTGGTAGCTGCAAGAGGTGGCATCTCCACGGGAACAGTCTCTTTGGCC autosomal
AAAGGGACAGAAAGCCTCCTCTTACCAGTTCCAACGACAGGGCATGGGAA autosomal
AGCATAGAGAGCCAGAATCCCTCACAAAACGCCAGCCGGAACCCGCAGAG autosomal
CCAGAGAAGAAATCCTGTCCAACACCTGTGGGATAAACGGGAGGCACTGC autosomal
ATCTTTCCAGAAGGAGCTGATGACGGTGAGTCTGAGGCCTGGCTCAGGGG autosomal
AGGAGGACGGGGAGCTGCCACTCACCCATGACCCGGAGCTCTGTCCCACA autosomal
CGGGGGTGACTTTGAGAGGGAACTGGTTTGTACTGGGACGGACTGGGACG autosomal
GCTTCTTAGGGGCAAAGAGACATACCTCAAAGAAATCAAATATCAATTCC autosomal
ACCCTCACCTGCACCGTGTCCCCGCTCTGGACGGGCAGGTCACTCCTCCT autosomal
AATGTAATGGTCTCTGTCTTTCTAGTACATGCCAGCCACAACAGCTATGC autosomal
CAATCTGTCCAGCTGCAGACACACCCTGTAAAAACCAAAAAAAAACAAAA autosomal
TAGCTGTCCAATTCATTTTTTTCAGTGAAAAAGAAAAGAAATTGGCATAA autosomal
CAGTGCTCCCAGGCTCCATGCTTACCTTCCACAATGCCCCAGGGATAGAG autosomal
CAGTTCTGCTTGTTGTTTCTTTCAGTATCTTTGTGTCGTTCATCTTGGAA autosomal
GATTCGCCTTGATGGTTTGCTTTTGCTGAAAAGAAGAGAAACAATTCCAC autosomal
AATATCCTAGAAGTCAAGTACTTACATATACATGGGCTGTAGCTGTAAAT autosomal
CATCGCCACGCTCATGGTGGATGATGTGAGTTGAGGCCAGCCCGGCCTTC autosomal
CCAAAATCGGGTTTTTTTGCCCCAGGACGGCGTACGAGCAGAGCGTGACG autosomal
ACTGCATTCTCAGTTCTGTTCCCAGAAATTGGGATGGCCAGAGAGGAGGG autosomal
GGCCTTAGAGAAGAGTTTCCTGGAGGTCAGTGGTCCTGGTGCTGTGCTCA autosomal
CACAATGAGGCTCAGGGCCACATACCTGGTTCTTCAAGGCCATGGTGAGG autosomal
ATAAATACTTTTTACATCACTGTAGGAGCAGTACACTGGACTTCAATGAA autosomal
AGATCCTGACATCGCTGTGACCTACATTGCTCTTCCCATTGCAGCTCCCG autosomal
AAAGTAGTACTTTTATTGGACATACCCTGTTAGCTAAGTTGTCATCTAAG autosomal
AGGAGACTCTCCCTCCTGTACTCACCAATCCTGTCCAGCCTGTCCAGAGC autosomal
TACTGGAACATTCTCTTCCACTCACCTGGTAAGCTTCCATTGTGGAAGCA autosomal
ACAAGAATTAATTTCAAATAGTTACCTCTTTGAGGCAGCCCATGAAGTTA autosomal
CGCGTTCCCGCGGTTCCGGCCCGAGGTGAGGGGGGGCGGTTCCCATGGAA autosomal
CCACCAAATCATTTTCTAAAGGACCCTGCAAAATAATGACAAAATCGTTA autosomal
GCTGACTGGGTGCCCTTGGTTGCAGTCTGAGGAGGATTTCCTGGAGAGGA autosomal
GCTGCATATGGATACACAATTACAGGTAACAGTATGAGTGAGCCCTGTAA autosomal
TCCCTTCTCCTGCTTTGCCCAACAGCGGAAGGTTATGCTGCATTTCAAGA autosomal
AGCAGGCTCAGAGTGAACCGGGCAGGTTGGGACTCTAAAGGGTCAGACCC autosomal
AAGTCTTAACAGTTTTATCAGCAAGGTATCCCAGGTCTTTTCATAGAATG autosomal
GTCCAAGTTGTACTGTGCAAATGCACTACAAGAGAAAAAAAAACAACAAA autosomal
CTGTGTCTGTGTTTGTGTCTGGCAGATTCGGGCCGGGAGCTGGTGATCAC autosomal
CGATCAGGAGGTGACACTTCTCATTCTGAAAACACATCACCAAACACAAC autosomal
CTAATTGTGGCATGTGTATTTTCAGTTTTGACAGCTATTGGAGGCACTGC autosomal
AGATTCACCAAAAGGGTTTGTGCGTCTATCAAAAATGAAAACATTAAAGC autosomal
AAAATTTACTTTGCTTGTGTTTTAGGATATAGAAGCAGCAGAAAAAAGGC autosomal
AATAAACCATGGAAGCCCCACTGACCAAAGGAGCAGGCTGGAGGAGACGG autosomal
CTTCCTGCCCATCCAGATCCCCAAGGTAAGGGGTACCGGGGGTCTCCCCA autosomal
CACTCCATGCCAGAGAAGGCATCCTCTGCACAACAGAGAAAGTAAATTAC autosomal
TTCATGCAGCGAGGAACACACAGTGCTGAGGAGTGGGAAGAGCAGAAAAA autosomal
ACCAGAAGGAGGATTTGGAGGAGGGCTGGGGAGGGAAGAGGAGAAAGCGA autosomal
CATTCCCTTCCCCCTCATCCTACAGAAAGATTCACCTGTTCTCCTGAGGG autosomal
CCGCCCCTTTTGGCCCCGCCCCTACCGAGCTGGCGGAAGAGGCGTGGCTC autosomal
AATCTTCCCTCAATTTATCCCACAGGGAAGTGCAAGCGAGGCCACCCTGA autosomal
CATGTACAAAAGGAGCAATGAGTTTGTAAGTACCTGTTCAGCATCTCCAG autosomal
GGTGTAAATCCCGGTGAACGTGTACCTGGCACGGGAAATGAAATGAAATA autosomal
AACACAAAGAAGCTGGCACCAGTCACTGCAATAACAACAACAGGAGAGAT autosomal
CCCCTCAGCCGGGCTGTCCTTGCAGGTGGAGGCCTTTGTGACATCCCTGA autosomal
CAGGTGCTGCAGCAGCGCGCTGGAGCTGCGGGACAACAGCACTGTCACAC autosomal
GCCTCCCTTCCTCTCTTCAGAGCAGGTCTGGCACCACTGGCTCGTGTTTA autosomal
CATGTACTTACTGTTTGCCTTTTAGGCGTTTAAAGCAAGGATAAGCAGCA autosomal
AAACACATTACAGGAGTCAAGTTACCTGGGGTTGATCGGACATTTCCATC autosomal
ACGGGGTGCTGCGGGGCCACTACCGGTGAGTGCAGGGCCCGGCCGGGCTC autosomal
CCATTCCAATAGCCACTGCTAAAACCTGAAAACAAATAAATTGATAATTA autosomal
AGAGGCTGCCATACTGGGGGAGGGGGTTTCCCTGTCACACTGTCCTCGTC autosomal
CCCGGCCCCGGCCTGCCCCACTCACGCTCCACGTCGTGCAGCTTGGCCCG autosomal
GCTCATGAGCCTGTCAATTCTCCAGTGCAGGACCTGTGGACCTACACCGA autosomal
GTTTTTCTGTCTCTTTTTTCCACAGCCAAATTTTGGTGCTTCTTTACATA autosomal
GGAGCTGACCCCCACCCCCCTGCAGAGCGCCCGGCCCCCCGTGCCCGGCC autosomal
AGAACTCAAACTCTATTTTGCTCAGGTAAAAAAAAAGCTTGTTTGGATTA autosomal
GAATTGCCGGAATTTTGGGATTTACCTGTTGAGGAACTCGATGATGGTGA autosomal
CAGTGCTGGCCATTGCCCCTCCCAGACCATGAAGGCCCACGGCGTGAGGA autosomal
GCTGTTTTCTATTGTTGCTTTTCAGTTTGAGGAAGAATTCATAGAGACAA autosomal
AGGAAGGAGACTTTTTTTCTCACAGAGTGGCTTCTGGTGTAGACCAGGCA autosomal
AACAGCAGAAAAAGATAAACCATACCTATCTGAAAGCAGAAAAGGACAGA autosomal
AGCCCCCCGTGCTGGCCGTACTCACCATGGCATGGTGCACCAGGTACTCC autosomal
GAACACAGAGCAATGAGAACAGTACCTTTCTTCTGGGTGTTACTGATGCA autosomal
GAGGAGCCCAGTGACAACTCCAACTGTAAGTTCCTGAGCTAATGAGCACA autosomal
ATTGCGCATAAATTGTCTTTGCTAGGTGGTGCGCATGAGGGTCTCCAGCA autosomal
ACTGGAGCTACCAGCTGCTGGTGCTGCTGGAAACCCCCCCCGGCGCGGGC autosomal
ATAAGAAAGCTGGGTCACAACTTACCTCGATCTGTGTCATACAGGAAAAC autosomal
CATGACAGAAAAGATACCAGCTCACCTGAGCTCAGTTGATAGATCCATGA autosomal
ATAATTCCTAATTTTAATAATCCAGGTTTATAGGTACTGGCATCAAAGTG autosomal
CCGGTGCCGAGGGGCGCTCGGCCCGCTCGGGCCGCGGCTCCCCCGGGCCC autosomal
CACCATCCCTGCACAGCCTCCTCACCTTGCTGAGTGCTGGCAGGCCCGCC autosomal
CTGGCCTTCTTTGCCAGGATTTGGGGCAGAGCTGGGCTCTGTGGGGTGGC autosomal
AGGCGCTGCTGGTCGGGGGGGATCCCTGCGGGACACAAGCACCGTGCTGG autosomal
GTAATGAAAATTTGCTTAATTTCAGGCAGATGTGTGCCATGCGTACCAGA autosomal
GGCATATGGCGACCAGCTGCTGCGCCTGCGGGACAAAGCCGGGGATCAAA autosomal
AAATTGATGCCTTTTTCAGGGCTACCTAAAACAGAGGACAGACAAAATTA autosomal
GCTCTTTGACTTGAAAGTGTATTTTCTGTAAATTAAAAACATGGCTATAA autosomal
GGGATTTTGGGGGTTTTTTCCTCACATTTCTGCTCCTCGGAGCGCTGGGA autosomal
CAAAACTCATTGTCTCAGGTAAGTTGTATGTATATTATTCATAGAATAAG autosomal
CCTGACCCTTCCCCTCCTCCCCCAGTTCGCCATCGGCTCCTTGATGGACG autosomal
AAGGCCTCTGCTCTATGACAGTAATCTCCCTCTCCCATAGTAAGAAAATG autosomal
ATGAGCCAGCCACAGCCAGGGGTACCTTGTGTCCGGAAGGTCTTGCCGCA autosomal
AATGAGCTGTGTCCTCTGTCTGCAGGTGTTCCGTGGACGCTGCACACGTG autosomal
ACCATAAAAATCATCTCCAGGGCCTCTGCAATGAGAACAGACAGGAGGTG autosomal
CAGTTTTAGCTCAATGAATACTTACAGTCTCACTGTCACTCAAGGGTTCC autosomal
AGTTGTGCTCGTCTTTTAATTTTAGGGCATCTATCGTGTGAATGGAGCCA autosomal
ACTGCCATCTCCAAATCATACCAACCTCCATCCTCTTAATTCCCCCAACT autosomal
ATGATGCGTTTTCTGACTTTTGCAGACTGGCTATGTGATTTCAAATAGCA autosomal
ACTGGGTGGGGCTTCCAAAAATGAGGTGGGGCTTCCAAAAAATGAGGTGG autosomal
GAACCATATGTCCTTCTCTTTCCAGGTCTGGTGTGTCCTCTGGAGGTGTC autosomal
ATTAATTTTGTGTTTATTTTGACAGTGTGATGCCATCAGTGTTCTGGAAA autosomal
CCCCGCGCAGGGCGCCCGGCCTCAGGTCAGCCCGGCCCCGGAGCGCTCCG autosomal
AAAACATTTATTTTATTATATACAGGTATTTGGAAGAAAGTATATCCGTC autosomal
GATGATTTTCCACTTCGTAAAACGGGTGAGTTAGCGTTGTTTATTTGAGC autosomal
GAGAATTTTTTTTTTTTTTTTTCAGAAGGATTTGGCAGGCCCAGCAGTAC autosomal
CGCATCTCCTTAAACCTCGACACAGGTGAGAGGCGGCCCGGCCCGGCGCG autosomal
CTTCCCTCTGCCTGTCATGTCCAAGGTAAGCAATGCTATTGCAGAATTCA autosomal
CCCACAGCCACGCTCCTCCCCCTACCCCGTTGTATCCCCATCGTCGCCGC autosomal
AATGCCTACCAGAATATGCTAACAGGTAGGGACCTTCTGAAGGGACCCCA autosomal
AGGGTCAACCAAAGAGTTCTTCAGAGTAAGTTGGCGCGTCCAATAGAGCA autosomal
ACAATAATGTGCTTTATCCTGGCAGATTTGCAGAGTGCCAGGCACAGGGC autosomal
GATGCAAAACTGGTTTAGAAAGTACCTGATAATTTCCTTTTAAACTTCCA autosomal
CCATTCCCCGTTCCCGTTCCCGCAGGCCGGGACTGCCTGGGCTGTGCCCA autosomal
AGGTGAATGACTGTTGTCATTTCAGAGCTTTCCCAGGGGGGCTGCATGAG autosomal
CACTACTACCAGACCAGACTTTTACCTCATCTACTTGGTGCTGAGTTTGC autosomal
AAGACATTTCCTTGAAGACTCCTACCGTGTGAGCAGCAGCTGAAAGTGGC autosomal
CCCTGCTTTCCCTTCTTCCCTCCAGTTCGTCGTGGATGCCTCCAACCCCA autosomal
AAAATACACAAAAGAACTCATACAGGTACGGTAACCTTCTCTGTCGCTTT autosomal
ATGAACTTTGTGTGTTCATTTAAAGATACATGGCAGTATTATGCCACTCG autosomal
AGTTCCACGTGGAGAGCAAACCCACTGGGGCAAACACACAGTTCCACGTG autosomal
AAAGAAGAGTGTGAAATGATCTCATCTGTAAAAGGAACAAATGCATATTT autosomal
GGGGCAGGACGGGACCAGGGCTCACCCAGAGCCTGCAGCACCCCGCTGAC autosomal
ATCGTAGGAAAGACTCATCAGCTCCCTGGAAAACAGCCACAGATGACTCC autosomal
AAGTTCTTTCCCATGTTTTTTTCAGATTTTAACGGACAACTCCCCCAGTG autosomal
GATGGATCCCACTTTTGTTTGCACTGTGAGTATTGCATTGGTTTTATTGA autosomal
GCAGTGGGTGGAGAAAACACGGTACCTGCGTCATCTTCTCTCTGTTGGCC autosomal
CCAGGTTGGAGTTGGCCTGCTGCTCCTGGGTAGGGAGAGGGGAGTGAGGG autosomal
ACTTCCTTTTCTGTGTTTAATTAAGGGTTACTTGATTGGTAATCACTTGC autosomal
GGCTCCAGAGCATGAACTACGAGAGGTAAGTCTTTGTTTTGTGGAAACAC autosomal
CCAAGTCTCTTTGTTTTCATTGCAGTGCCACAAATCTCAAAGCCACTCCA autosomal
CCTGAGCAGTATTTTGTTTCTTTAGGCTACTCTGAAGATGCTGTTGGATC autosomal
CAAATATTAATATGTCTTTCCACAGGCAACATGCAAACTTGGCTGGTACA autosomal
CAAAAACCGGCCGCTTCCAAGAAAGGTAAGGGGCAGCGGCAGCTTCCTTG autosomal
AATGAGTCGGAGATTTGCAGCAATACTAAAATAAAGAAACAGTACTTAAA autosomal
TCTCCAAGGCCCAGCTTCACACCCCCTGAAAGAAGTGGAAAAAGAAAACA autosomal
ATGTTTTTCTGCTTTACTGTTAAAGGTTCATGCTACGCACTTACCTATAA autosomal
GCCTTCTTCTGCTGCTGGGCCCCAGGTGAGCAGAGAGTTCCTCCCACAGC autosomal
GCCTCCTGATGCCCGCAGCCGCATCCTGTGCAGGAAGGGAGGGTCAGACA autosomal
GAGCGGGGCTGACGGTGTCCCGCAGGAATGGGCGTCTCCACGGTCACGGC autosomal
ACTCAACTGCCAGGCCTGCCCAGCGGTGAGTGGGGCAGCCTGGGGGGAAT autosomal
GCAGGGCACCAGCACTGTCACTTACTGGGGTTATGGCTCCACAGACACCC autosomal
CAGCAGGTAAGAAGCTAAGATGGACCTTTGAAAAGAGGAAGAAAAATAGA autosomal
AGAAGGAAGATAATGCCACTCTTACCATGACACTCTTCACATAGCCAGCA autosomal
GCACAAGATAAGTGAATCCTCGAAGGTTCGTACGATTTGTGTCCCCTGCC autosomal
ACCTCCCCGTGCACATGGCAGCTCTCTGCTCAAGAAAGATACAGGGAGGT autosomal
TACTAAAAATGCCTTTAATTTTCAGATGACTGCAAAATGGAGGTGGATAA autosomal
CTCTGAATCTTGCCCTGGTATCCAACTGAAAATTGAAGACAATATATTAA autosomal
CAAATCATTGAGTGTTTTCGATCAGGTAGGAAACCATGCCTTACCCTTAA autosomal
CAGAGGCAGTGACATTAGTTGGTACCTGTATGTAGAATGGAATTCCTGCA autosomal
CCCACGAGCCGCTGGGGGGTCGCAGGGGGGGAAGGAGCACCTGATGCGCG autosomal
TATATATGAATCCAGAGGTGTTTACCTGAGCTGGATAAATCCCCAAGGAA autosomal
ATCTTGTTGTGCCTCTCTTTGGCAGGTCATGCTCCTAATAGACATTGAGC autosomal
GATATATGGTGACAAGACTACTCAATTAATTAATTAGAAGCCTTGGTGTA autosomal
AGCACTCAGTAACACTTTAGCTGAGCTGAAAAACAAATAAACCAGCCTTC autosomal
TCCATGTTCTCCAGGATCCTGGCAGCTGCAGCACACACACACACTCTGCA autosomal
CTGGCCCGCGGCCGCCGCCCCTCACCTGGGCCGCCCGCCGGCAGAAGAAG autosomal
AAAGGAACGATCCCTTTCATAAGTGCTAGAAATAAGTCACACAAAAAAGG autosomal
CCATCCCAGTTCATCCCAGTACTAACCAGTTCCATCCCAGTCCCTCCCAG autosomal
AGGTGCAAACTGGCCACGTACTCATCTGGGAATGGGAACAGGGAAAACGG autosomal
AAATTAGTCATAAGGCAGTTTTTACCACTTGCAGTCCTGTATTCTGGTGC autosomal
AATGCAGCTAATGTGGGTTTAGCAGGTATGTTTTTCTGTCAGATAAGTCT autosomal
GCCCCTACTGACAAAATGCCCCCAGGTGAGGTGCGGATGCCCTCGGGGAA autosomal
CTTTCTTCATGTCTTTCTTTATTTCCTGCAGAAGACAGGTAGAAAGGGAA autosomal
CCTCGCCGCGGCTGAGCGCGCTGACCTTTCCCGGCGCTTCCCGGCCTTGC autosomal
CCAAGATCTGGGGCTGAGGCCTTACCCTGAGCAGGGGCTGGTGATGGGAC autosomal
AAATCAAGTTTCCAAGAAACTTTACCTTTTACTCAGGCCTCGTTGTGGAG autosomal
TTCACCTTGGGTACTGTTCAGCCTCCTAAGGCACAAAGGAAAAACAGCAA autosomal
AACAAATGATTCGTTTTCCTTTCAGACAGGACTGATGTACTGGCCTTTTG autosomal
AAAAACTCTTTAAGAAACGGCTTACCAGCATTTCTTCAGTGGCTTGCTGT autosomal
ACGTGCCCCAGGAGGAGGTGCCCGTGTGAGTGGGGGTCCTGGGGGGTCCC autosomal
CAGGGAGGGTGAGCAGTGCACTTACACCACACACTCGTAGCGGTTCTCTC autosomal
GGCACGTCTCACCCATGGGTGCAAGGTGAGCAACTGGTGAATGGTAGCCC autosomal
CCAAAAGCACTTTAAAATTGCCTACCTAATACTTGCTAATAAGAAGAAGG autosomal
CTTGGAACAAGAACAGAGCCAGCATCTTGGGCACCGCCGTGGTGGGGAGC autosomal
GGCATCATCAGGACCGCCACCTAACCTGTAGGAGGCAAAATAAGTAATTA autosomal
AGCTCTTCCTCAACATGTACAATGGGTGAGTGCTCCAGGCAGCCCCACTG autosomal
CCCTGCAGTCCCACCTGAAACTCACCAAGCAGGAAAGATCCAGTAGAGAC autosomal
CAAAGAGTGGACCAAAAAATGGAACCTGAATAAAAAATTAAGAAGTTCAA autosomal
GCGGAGCGGCGGCGGCGCTGAAGATGTGAGTGCGGGGCGGGGGATGCACC autosomal
ACAAAAGACATTTACTATGTCTTACCTTGCTCAGGTCCCTCTTCATCACT autosomal
CCGTGGCGGTGCCCGCGGTCGGTACCTGCAGGGTGGACGTTGTCATCGCA autosomal
CTGATAAGATTTGCCTGTCTGTCTCCTGGGGGAGAAAACCACGGGATTAA autosomal
CAGGAGCCGGGAGCTGCGTGCAGAGGGGCTCGGCAGTGCGGGACACCTGC autosomal
CCCAGGGTGCTGCTGGGGTGCTCACCTGTGCTTGGGCTTTAGGCCATAGA autosomal
CCTCCAGCATCCTTCGGGAACTCACCTGGCTTCCCACAGTCCGCACACAA autosomal
GGGACCCCTCTGGCCTCGGGCATGGGTGAGCGACCCCAAATCCTACAGGA autosomal
AACAGTATACAGAAGAGTTTAAAAGGTGAGCTTCTTTTTATAGGTAAAAG autosomal
CAGCTCCTTGTGGAATCTTTTCCAGGCAGCAGCTGCCAACAAACGCCTCA autosomal
AGTCCCCCCTGCCTTCTGCCCGCAGGTGAACCGGGAGATCGTCTGCGGGC autosomal
GTTTTTTGCAAGCTCTTGACAAATTCTGTGAAGGAAAGTTTGGAAGATAA autosomal
GTTAATGTGTTCAAAAACATACTCACTGAAAAAGAAAAGAGAGAAAACAA autosomal
AAGAACTAAAATTTTAAGATTTTACCTTTTCCCAGTGGGTGAATCTTGGC autosomal
CACTGTGATTTTTTTCCTTGAACAGTAACAGTAGCTGATTATATATCACG autosomal
ACAAGTCGTCCCTGTTAGGAAGAAGGTGGGTGCTGCCCCTTTCCAGTTCA autosomal
AGCCCCAGGAGAAGGTGGCACTCACCCCCTCGGCCGCATCGATGAAGAGC autosomal
GGGCCCCAGCGCTTTTGTGTCACCCCTGGGGAAAAACACAGAGAAAAGAA autosomal
CCCCCTGAGCCCCCCGCTGCCCCAGGTTCAAGGAGGTGTCGGCGCGGAGC autosomal
CTAATGAGAGTATCTTTAATTACAGAAGAAGCACTTGGCTTCATTAGCAG autosomal
CAGATGCTGCCAAGAATCCTGTCAAGTAAGCATTTACTACTTCATCTTTC autosomal
AATATCCATTTGCTTGTTTTTATAGCACTTGTGCCTATGGAAAGCTGAGC autosomal
GGAGGATTTCGTGGATGGGCTGCAGCTGCAGGGAATGGAGATGGATGGCA autosomal
GTGGCATTTTCATGGCTTAAGAGCTCTAGGGAAAAACAGAGGCTGCTTTA autosomal
GTACATTCCCCTCTTTTGCAAAGACCTAAGAAAGAATGATAAAAAAAATA autosomal
GATCTGCCCTCGTCCTTTTCCTGCACCTTCAAACGAAGCTCTCAGTTAGC autosomal
CTTTCTACAGCCCTCAGTCTAGCAGGTAAGGCAGTGTAACCCTCGTACCA autosomal
CGATGGCAGCTTTCAGGTTTGCACACTGTGGAACACAAAGTTCTGCTCGA autosomal
CCAGGAATTCCAGGTGACAACACCGGGAATTCTGGATAACAACACCGGGA autosomal
AGACACCAAGGAGCTGGAGCCCCTGGTGAGTGCCTGGTGGGGCTCTCAGG autosomal
CAGCATCCTGCTGGAAAACTCCTACCTTCAGAGACTTCAGTGTCTGCAGC autosomal
CAGCCCGCAGAGCCCGGCGTCACGCCTGCAGTGAGAGCGCGGTCAGTGCC autosomal
ATGGACAGGGTAGGGCAACGCTTTTCTGGAAAAGGAAACAGAGACTTATG autosomal
CAGAGCAGTAACATGAGGGCAGTACCTTCTGGCTTGAGTTTCTCCAGGAA autosomal
GAGAGTGTTTCTTTATGCATCTTACCTCCTCCAGCTTGGTCTGTTTGCAC autosomal
AATCACTATTCCATCCTTGTCTTACCCAGTCAGCATTTTTCAGTTCATCA autosomal
CTACATAAAATAAAATCATCCTCACCCTGCTTCAACTTCATCTGTTTTCA autosomal
CAGAGAACTTTGTGAAGAAAACCTGGTATGTAATTTTTTCTACTAGATAC autosomal
CCCCTGCGGAGTCAGCTTGCGGCCCCTGGGCGGGGAAAAATAGGGAAAAA autosomal
AAACGACGGGGCTTCAAAAAATTCAGTAAGTGGCCACGGGACAGGGTGGG autosomal
ACGCGGGACTTGCTGAGCAGAGGCACTGCAGAGAAGGAACACACAGGCAA autosomal
GGCAGACGGGCCGGAGCGGCGGAGGGTGCGGGACGCGGGGAACGGGCCCC autosomal
CAAGGGCCGGAGCCCACAGCTTCCTCTGCAAGGAGAAAGCCATTTCCATC autosomal
AGTCCTGTTTTGCCTATTTTTGCAGGGTTGCCAGATGACACCATCAAAAT autosomal
AAGTTTTTTTCCTTTCATTTTACAGGAGAAAAATGGCTCAACTTCTTGCA autosomal
CTCCCAGCAATTACTGGAAAAATACCTGCCAGCATCTCGTGCATCACTCA autosomal
GAACATAATGCCAATAGGTACATACCTGTGTAAATGAAAAATTGGCTGTC autosomal
GTCATTCTCAGTGAAAGAGGAGCAGCTGAGGAACAATGGAATATTATTAA autosomal
ATCTCGTGTTGCAGAAGAGGAGGAGGTAAGGTGGGGAATTAATTATTGTG autosomal
ACAAGAATGTGTCCCAGAAGGACTGGTGAGTGAGTGTGAGCAAGCAGCCT autosomal
GCTATACTTCCCAAACCATCAGCTGCTGCAAGGAAGTAAACATGCTGTAA autosomal
AGCCAAGGAATGATGAGGTACTCACTGATGAATTGCTCCGGGCTCACAAC autosomal
CTTTGCACAGCTGATTTAAATCGAGGTAGAATCCTGCTTTATAATTGCCA autosomal
CAGCCCCTCCTTGCCCTCACGGCAGGTGACCAATGTGATCATGCCTGTGC autosomal
CCTTCCCCAGCCCAAGCATCTGGGACTGCCCAAATGAAATTCCAACACAA autosomal
TCGGCTGATGGACAGGACCCCTCAGGTAACAGGAGGGCAGCAAAGCCTCA autosomal
AGGGAGGGTCTGGGGGTTGATGTTCCTGCGTGGACAGACAGGATTCAGAG autosomal
CCAATGCTGCCTTTGTCGTGTCCAGAAATGAGCTGCACCATGGAGAAGGC autosomal
AACCATGCTTGTTTATTCTTTTTAGGACTGTGACTCTAGACCATGCAACA autosomal
CTGGACACCGGCAGCGCCCCCAAAAGTGAGGATTTCTGCCCAAAATCCCC autosomal
CGAAGTAGCGGATGCTCGAGTCGCCCTGGGGACACGCCGTTAGGGGGGAC autosomal
AAATTTCCTCTTGTCCTGCAAACAGGAGGAAGAGCTGGAAAAAATGAGGG autosomal
GGACACCAGGGCTGCACGGCTCTACCTGTGTGTTATAAACAGCCACATCA autosomal
CACCCGGACCTTGATGAGGTGCAGGCTGTGAACAACAGCAAAGGCTGGCA autosomal
CCTAGAAGACTTCAATGAAACCCAGGTAAGGGTTCACTTACTAATCTGGA autosomal
AGCTGACTGCACTCACAAGGGATGCCTGTGAAATCATATAGATGCAAACA autosomal
AACACGTACGAAACCAACCCCAGCCCTCCCCACCCCAACCTGACCCCCCC autosomal
CACCAGGACCCACCCCACCATCCGCGTGAGTCCCCCAGTACAAACCAGTA autosomal
CCCGAACCGTCGGCGGGTCCCGAACCGGCGGCGGGTCCCGGAGCGGCCCC autosomal
CCCGTCCCCGACGCCTTGCACTCACCGGACCGCCCGCAGCATGAAGTAGA autosomal
ACTCTTTCCCATCGCTGAGAAATCCATGGAAAACTCGCGGTGGGATGGAG autosomal
AACGGGCAGGGCCTGCTGCGGCTCCGTAAGTACGGACCACCCTCACCCTG autosomal
CTCCCAGCAGAGAGCTCGTGTGGATCTGTGACGAGAAATTAATGTCAGGA autosomal
CCAGCAGCCACACACCCCTACTTACTTCGATCTGAGGCATTCAAAAGAGC autosomal
ATCGATTTCACAGTTTCCAACAAAACTAAAACAAAAAACAAAGTATACAT autosomal
CTAACACGTTGATTTACATTTTCAGGTGTCAATGGTACTCAGATATGCCC autosomal
GCTGCTGAACCTCAGCGACCGCCAGGTGAAGATCTGGTTCCAGAACCGCC autosomal
CATCTCTGAATCGCACCCAGTTCTGGTGAGTAAAAAAAAAACAAACCCTA autosomal
ATCCCGCAGCCGGCCGCAGACAGCGGTGAGTGCCCGCGGGCCGGGCCGGG autosomal
GGCGTCCCGGAGTTCCCGCGGGCAGGTAAGGCAGAGCTGGCGGGGCAGGA autosomal
ATGGCGGAGGCCGGGTGAGGCGCGGGTGAGTGCCGGGGTCTTCCTTGCCC autosomal
GAGGGACATTTTTTCATGTACTTACGGTCATTGCATAATGGTCCACTAAA autosomal
GTGACTTCTTTTTATGATATCCCAGGTAATTTTCACAGCATTTTCATTAA autosomal
GCCCCTTCCAGACAGCGGATGCTGGCTGCAGGCACAGGGACAGAGGGACA autosomal
AGAGCCATCCTGCCCTGCATCAAAGGTGAAACCAGTATAAACCAGTATAA autosomal
AGCGCTCGGCTCGTTTCTGCATCCGCTGGCAAGTCCCAAAATCCCAACAA autosomal
CTGAGCCCGGAGCTCCAGCACTTACCTTTCCTGCCATTCCCAGCCCCAGC autosomal
AAATGGGGTCTTGCATTCCATCAATGTGAGTGGATATTTTTCTTCCATTA autosomal
CAGGTCGAACACGTAGTGGATGTACCTGCCAAGGGGGCGTGGCCTCGTGG autosomal
AATCCCATTTTTTCCCCGGACCCACATGCCGTCGGGTTTCTGGGCGTCCC autosomal
AATGTTTAGAAAAGTCCATGTACCTGTAAGTTTCTACATGAAAAGTACTA autosomal
AAGATGGAGTGGAATGCTGTTCCCTGTAAGTTTGAACTTCTTGGTCCCAT autosomal
CCCCATCCCGACAGAGAGGAGAGAGGTGAGAGGGTGCCTGGTGTCAGCGG autosomal
CCACAGATCCCTCTGCCCCACTCACGCAGAGCCGTGGGTCCAGCAGCGCC autosomal
CCCAGCTCTGCCTTCCATGGGCCAGGCAGCTCCGACGGGCTCTGCTGCCG autosomal
AGGATGACATCAGAACTTTATGAAGGTAATATCACTGGGAAGGAGGATGG autosomal
CATTTGCTACTCTTTTTCCCCCTAGGAAACTGTTTATGACAAAGATCAAG autosomal
ATTGCCTGTGTAAAGCCCAACAAATCTGGAGGACAAACCAAGCAAGAAAA autosomal
CCCAGTTCTGCTCTTTTCTCCTCAGACTGAGTGCTTCAACTTCATCCGAG autosomal
GGGAGCCCTGGATGGGAGCCCCGAGACCTCCGGTCCCCGCCACCGATCCC autosomal
CTAATCTCCTTCCTCCTCTCTCCAGGAGGCAAAAGTGGTGGCAACAAGAA autosomal
AGAGCCTCCCCACTGACATTGGGAAGTGAGTATGGCCTGTTCTGGCAGCG autosomal
CCAGTCTTCTTGAAAAATTCAAACGGTAACATTAATTTAAAATTTGATGG autosomal
GGCTTCTGTTGTGGAGCTGTACTCACTAAAAAGACAAAAATAAATCGTAA autosomal
AAATTCAGCTTTGCAGGGTTGTAACAGCTGAGGACAAAACCCAGGGATCC autosomal
ACAGTGGGCAAACAGCTCCCACAGGGTAAGCTTCCTGTGTTTGTGTGACC autosomal
ACCCACTGGGCTGGTGTTCCCACAGGGTGACATGAAAGCCATCAGAGCAC autosomal
TCCGGATATTCAAGGCTCTGTAAAACTAAGATACAGAAAAGAGATTATAA autosomal
AGGCCGCAACCCCAGCATGCACCAGGTGAGTCTGGATCGGGGCAGGGCAT autosomal
ATACCAGTTGTGGCAACTGGCACCATCAAGTGGCAACATCATTCACTTAC autosomal
CCTCCCGTCCCTCTGCCCCCGGTACCTGCTCTCCTGGGCGCTCCTCCCTC autosomal
CCGGCACCCAGGCAGGAGCCCTCACCTGTGCCACACGCTGGTTCTCATCA autosomal
ACATAAAGAGCAAATTGTTTCTTACCTTCTTGGTTTGCAGCTGATTTTAG autosomal
GGTGATGTAATTTCCCCTGTAAATAGTTTTTCTTATCCCTTCTGTTGTCA autosomal
CGCCCGCCCGGCCCCGAGCACTCACCGGCCCGGTCCAGCCCTGCTCCAGC autosomal
ACACTTGTGTTCTAGCTGACATTACCTTTGTTGCTTGTCGGGATTTCTCA autosomal
GCCCGAGCCCCGCCAGCGGCCGCACCTTCACCCTGCCGCCGGAGTCAGGC autosomal
GAGAATTCACATTCCCAGTGCTTACCATGGCCCACTGGCGAGCTTTGATC autosomal
AAAGCATCCAGTCATCAGTGTCCACACTGCAGCCTTGAGCTCCTGGTTCC autosomal
AGGATCTCCTCCTCTGTCTCACCACCTGCACAGGGGGGTCAGCACTGGGG autosomal
ACCTCGGACAGCGCGGGTGGCACCGGTCAGTGTCCCCCGCGGCCGCGGCT autosomal
AAATAACTCCTTCCAGGTGGCCTCGGTGAGCTGAGCCCAGAGCTGGGATG autosomal
GCAGTCCAGGGATTGTCTCAATGCCCTGTGATGGCAACAGGCAAAAAGCC autosomal
CGCACTTTGATGGCATCGCTAGAATCTGGTTCAGAAAGAAACAAGGGCCA autosomal
CCTGGATTCCACCCTGGGGAAAAGGGTACGGCCTGGGGGGGCGTGGGGGA autosomal
AGGATGCGCACAGAAGAGCCGGCAGGTACCGCGCCATCGCGTCCCCGCTC autosomal
CACCCCCACTCGCCTCGCCGCTTACCTGTGGGGAGGTGCCAGGTGCCCGC autosomal
GCATTGAACAAGTGGTTCTTCTTACCTTCAGCACAGCAATGAATGGTACA autosomal
CTCTGGGGGATGCAGGGAAACCTACTGTTTAGCCTGGTTGACGTGGACGC autosomal
ATATTAACATACAGCTTCCTTTCAGAATCAGAAACAACGCCTGCCAAATC autosomal
GATTAAATACAGCAGGGAGAGTGAGGTGAGAACACCCTGTGGTGAGAACA autosomal
ACGCATCTCTTTTGTCTTGTTTCAGGTTGAAGAAACTTCTTGAGCAGGAA autosomal
CAATGATGACTGCAATAAAAACATTCTGGAGAATGAAAAAGAAAGAATGG autosomal
CCCAGCCCCACTGACATCCCAGAGACTGATCCCAGCCCCACTGACACCCC autosomal
CTCCACGGTGGGCATCGACTTCAGGGTGAGTGCCCGGGCCTCGGCCCTGC autosomal
TGCTGCCCAGGACTGCAGTCCTTACCTGTTCCCCTCGGAGGCTTGCTCCA autosomal
GGCGGATGAAGTTGCCGCACTCCCCCTGGGAAGCGGAGGAGAACGCGTCA autosomal
GATGACATCCGGTCCATGGCCTTGGCTGAAGAGGAGCAGAGATGGCAGGA autosomal
GCTGGTGCTCTTGAGACTGGCTCACCTAAGAAAAGACAATAAAAAGTTCA autosomal
AGGCACAAAGAAGAGGCTGCCTTACCTTTTTGCCTGTGCCTGTTTAAACG autosomal
AGTGCTTTTTAAAATGAATTTCCAGTTCCAGGCTAACCCCGACTACCAGC autosomal
TCTGGGAACACAGGGATTGGGAACTCTGGGAACACAGGCATTAGGGAACA autosomal
ACCTGAGCCAGGTAACCGCACTCACGCTGTGGTTGACAAAGTGCGAGATG autosomal
GCTCTATCACAACTGGGTTTGCATCCTAGAGGTGGGAAGAAAGAGAAAAA autosomal
ATATGTGTGACTGTTCCATGTGTAGTTCTTCTCACCTCTGAACCCTGTAA autosomal
CAGGGAAGGCGCAGAGCAGTCTCACCTCGTTGGTGTTTTGGAAGCTGAGG autosomal
CTTCCACCTGCTGGATGCCACAGCCGTGAGTATTGCAGCACGTGGAGTGA autosomal
ATTTCTTGAAAAAAACCCCAATAATCTGAAAGAAAACAAAGCTGCATCAA autosomal
AAAAGCAGACATTGGTGTGCTGAGGCTAAGCACAGAATAATAATGGTTTA autosomal
ACTGCATCCAGCAGTATGTGTCCAGGTGAGTGGGGCATCCAAGGAAAACC autosomal
ACCCCGGGGACAGGATCCATTCCAGGTGAGTGCCTTGTCCACATGGTTCT autosomal
GTCTGGACTGGCAAAGACTGCCAGACTCCTGCTCTGTCCTCTGCCACCAC autosomal
GAGGCTGATTTCTCATTTGTTTCAGGAGAACTTGCATTCTTACCCTGCCA autosomal
CCCGCAGCTGTTGGCCAGTGTGTTCCTGCAAGGGGGCACAAAACCCGAGC autosomal
CTGTAGATAATCTTCCTGGTTCTTTCTTGAAACAGCAAAAGAGCAGATAA autosomal
ATATAATAAATTCTGCCATCCTTACCTGTTCAATGCAGATATGAACACAG autosomal
ACGGACCCCCCTCTCTCTCCTGCAGGATAAGCAGCTCACGGAGGTGCTGG autosomal
AGTTAAATCAAGTTTCTCTCTGCAGGCATCACCACAGTATTGACCATGAC autosomal
CAGCCGCCCGGTCAGCAGCGCGGCCCTGCGGGGACAGCGGGACACGGTGA autosomal
AGTCAGCCCCTTCCGTGTGTTGCAGGTGAACATATCCCAGGCAGACATGC autosomal
AATCAACGTAAGACATTTCTCCTACCTTCCAGATGGTCATGAGTAACTAG autosomal
AATTAAGACTCCACCTGCTACCCACCTGACGAATACCAGGGTATTTCTCT autosomal
CCGAGCTCTTTGAACATATGTGCAGGTAAATTAAGTTCAGAAACATTCGA autosomal
ATCCTAATCCCAAATAAGTTAAGGTCTGGCAAGAGGAGAAAAAAGAAAAG autosomal
CCCTGCGGGGGACCGTGTGGCCGAGGTGAGCCCAGTGCTCCCAGTTCCGC autosomal
ACTGTTTCCTCTGTGCCTCCTGCAGCCATGACTACGAGAAGCCCCAGGAG autosomal
AGGTCAGAGCACCCACCCTGCGGCACTGAGAAACAAGGAAAGGAGGAAGA autosomal
AAAAATAGGTCCCCATAAACAAGAGTTCACCTTTTTGGTAGACACTGGGG autosomal
GGAGGAGGAGGTGGCGGAGCAGGGGGTAGGACGATGCCGCCGCCTCGTAA autosomal
AAATCCATATTTCTCTCCAATACAGGGGACAATCAGAAGAGAAGGGGTAG autosomal
CCGGAGCCACCCGGGGGGTACTCACGGAGGCACTCGTGGGCAGCCTCGGC autosomal
ACCTGCGTCACCTCGTTCTCAGACCCTGTGGGCGGTGGGACACGGTGAGG autosomal
AGCTCAGAGTGGTGGCATTTGCAGTCTGAAAGGGAAAGCAGGGTCAGCAC autosomal
AGAAAACACTTTTCTTCTCAAATTTGTAAGTAGCTTTTGCAACTGTAACA autosomal
GCAGGAACTGCACCAGCTCACTCACCTGTGGGGGAAGGAGCAGGGAAGGC autosomal
CACCACTATCATGTGTTCAGTGAAGAGGAGAGCAGCTGTGGGAGCTTTGA autosomal
AATGACGGTCGCATCGACTTTGATGGTGAGCAATGGCCCCAGACAAGCAC autosomal
AAAGGCAGAGGAACTGGGGATGAACCTTGCAGTTAATGTGGTCCTTGATG autosomal
GACAGCCGGAACCCCGCGCAGACCGGTGGCTGGCGGGAGCAAAACGGGAC autosomal
ATTCTCTTCTTTTTTCAACAACTAGGGCAAACCTCCTTACGCTGCTTCAG autosomal
TCACCAGAGACGTCCGGGACCCCGCGTAAGGAGCACCCTGGGGTGCTGCA autosomal
CAGCTTGCCCATGGCCAATCACGTGCTGCAGAAAGGAAATCACACCACAG autosomal
ACTCTGGAGAACACTTTCTTTGGGACTGGAAATGAAAATGCAATCCGTCA autosomal
ATTTCTTCTCATCAATGATGAGTTTCTGAGGCAGAATATCAAACAGAGAA autosomal
ATTTTTTCAGCCACACCTGGTCTCCCTGTCCAGAATCACAGAATCAGAGA autosomal
CACCAGCCCGTGTCCCTTGTGCCACCTGGCCGTGCCCCAGCAGGAACAAA autosomal
TTAGTGCAACAGTTGCACACCTCTCCTGCACATTTCTCCCAAGTGTGAAA autosomal
CGGCGTCCTTTTCTGTTATATCCAGCATCCGGACGTCCAACAACAGCCAA autosomal
ACTACTGTTTTTGTTTTTAAACTAGTACAGGCACTTAAAGAACATATCCC autosomal
CTAAAATGACCTTTTCCTTCTACAGGCTTGACAGATGGCTCTATGCTGCA autosomal
AATGACTTTTATTTTTATCTTTTAGTCTCCCACAAAAGCAGTGTATAATG autosomal
CATGTGCCAGCTCTCTGCATGACAGCTGTGTGCCATCTGTGTGACAGCCG autosomal
ATTCTTCTAAAACTCTTTTCCCCAGCAAGGCTAAGCAAATGTTGCCTATA autosomal
ACATCCAAAAACATTCTGATGGGAGGTAAGAAGCTTGCATTTTGCTAGCA autosomal
CGCTCCAGCACCCGCTGCAGCCTGGGTACGGCCCTGCACCCCCGGGACCC autosomal
GTGGCAAAGCACAGCAAGGCCTTACCTCTCTGTCCCTGCTAAATCCAGGA autosomal
CAAATCAGTTTGATTTGTTTCTCACCTTGCGATCTGCTGGAGCAGCACTG autosomal
AACTCGAGAGCATCAAGGAGATCAGGTATGTTTGCTTTGTGCCCCATCGT autosomal
ACTTGCCTATTCTTTTGGTTTCTAGGTCCAAGTTTCTGATGGTGAATATG autosomal
CAGTATTCTAAAGGGTGTTTTGAAGGTAACCCTTTCTCTTTCTTGACTGA autosomal
CCCCCAGGTACCCCCCCCCCCTCACCCAGGTGCCCTTTCTCCATCAGCGG autosomal
GTGCTTTTATGTTGGTATTTTATAGATGAATGTAGGACATTGACGCAAGA autosomal
CTTCCATTGATGGGGGCATTTTTAGGATAATCTTTTTGAATGGCACTTCA autosomal
CATCATGTTCAGCACCTGGCAGTCCCTGGAAGGGAGGGAAAAACCAGGAA autosomal
ATCCAGTTTAGAAAACATTTCCTACCTTAGCAGGATATGAAGGTAAGAAC autosomal
AGCTCGTCAACTTTTGATTTTATTCCTTAAAATAGTTAGATCAAAAATTA autosomal
CATCACTTCTCTGTCTATTGGGAACCTTTCAGAGAGAAACAAATCACTGC autosomal
CTGCCCTGACCCAGCCACCCAGCACCTGAATCTGAGGGAGCAGTTCTGCC autosomal
AGGGGCACCAGTGCTGGGGGACCAACTGGAGGGACAAACAGAGTCAGGAA autosomal
CCCTTCCTTTGTGCTCCCCTGCCAGGTGCTGTATCCCGTGTGCCATGTGC autosomal
CACAGCTGCACTGTCTGCAACGCCTGTGAGTGCTGGGATGGGGGGAAAAA autosomal
CAATTTGGGGATTTGCAGCTGCGCCCTGGCAGGCAGAGCGCTGCAGAGAG autosomal
TGGCTCTCACTCCAAGTTAGCAAAACTCTTGACACATAACTTTCAAATAA autosomal
ACCGCGACCTCCCGGCCCCTTCCAGGTGTACGGCGGCATGAGGGGCATGA autosomal
CAGAGACAGAAGATTTCCATGGACAGTAAGTAAAATAAGCTTAAGTTTGA autosomal
AATTTGTTTTCTGTCCTCTGCCCAGGACGTAGAAGTGGAGGGTCGGTGCC autosomal
CCTTGGGCGCCTTCTCCACGATCACCTGCAGGGGAAATTCCCGGAATTCC autosomal
ATAGCGGAGAGCCCGTTTTGCGGCACTAAAACAGAACGTGTTTAAAACCC autosomal
CGCGGCCCTCCCGCCCGGGCCCTACCTTTGAGGAGCCGCCGGAAGATCTC autosomal
ACGATGGACGCCAGGTCCCGCCGCGCTGGCGAGGGACAAAACACGCGGGA autosomal
CAAATGAAGAGAAATTTATGGGAGTCTAGAGGAAAAACAAAAGCTTATGA autosomal
GCAGAAGATCTTCACCTTCCTGAAGGTGGGTGCTATGGCAAGGGGAGATA autosomal
GTTGGAGCTCCTTGTACGGGCACAGGTACGGTACTGGGGCTGGGGCCGCA autosomal
CTGGGTCCCTTCTGCTGTTTCTCACCTTTGGAGGTTCTTTGTAGGGTTCA autosomal
CTAGTACAACCTGCTGCTGCCTTACCAAAAACGAACATGCTGCTCCCGTA autosomal
CCCTCCAGAATTCCATACCAAATACCTAGAAACAAGAGAAATGTCAACAA autosomal
ATTGTATTGCTACTGAGTACATTCCCTTAGTTTCTTTAACATGGCTTTCA autosomal
CCCGGCTCCTGATAAGGCTCCGGACGCGATAAGGGCAGGAGGCGCTGCCG autosomal
CAGCCCTGCAGGGCCCAGCACTCACCATGTTCATGACGGTCAGCACGTAC autosomal
AACCCAAAGTTTGCTGTACAAATACCTTAGGATTCTCATGGTCAAGAAGA autosomal
GATTTTAATATTAATACTTTTGTAGTTTTAGTCTGCCGAAGTGTGGTAAA autosomal
CCTCTTTGCTAGACAAGCCTTGCAGTGAGATATCTGGAAATACACATTTA autosomal
CCCGCGGCCCCCGGGCCCCGCTCACCTCGTGGCCCGTGAGCAGCCGGTAG autosomal
GGGGTGGCCGGGGCCTTGAAATATCCTACAGAAGAAAGAAATAGTTTTGA autosomal
AACTGCTCTGAAGGCTGATTTCAACCTTGCAAAAATGAGAAAGGGATGGT autosomal
CTCATCGAGCTGTCCCAGCAGATCAGTATGTGGTGGGGCAGCAGATGCCC autosomal
CAAGGATTTCATTGTCTACTTTTGCCTAAAGGGCAAAGACAGAAGATAAA autosomal
AGTGCATATCCAGACCAACACAGACCTTTTCAGTGAATGAAGACACCAAA autosomal
GGATGAGCTCGAAGGGAGCGAAGAGCTGTGGGAGAGGAGATCTGGGCTCA autosomal
ACAGTTACAGGGCTTTGTCACTCACCTGGTGGCAAAAGGCAGGTGTCCTC autosomal
AAGGACTGGGGGCTGAGGCCGCTTCCTAAAACAATAAGCAGAATTCAGAG autosomal
GCAGCAGCAGCTGTGGCACTGGTACCTGCATTCCCAGGGACGCTGAGCAC autosomal
CACTGTGGCTGGGAGTATCCGAGTGGTAAGAACTTGTTGGCCTCTGATCA autosomal
GCGCTCAGCCCCCTGTCACCCGCAGGGCTCTCCGTGCTGCGGGTGGCCTA autosomal
AAAAAAAAAGAGAAAATGGAGTTGGGTGAGTTTTTAAGCCACTTTTGTGT autosomal
TTAAAAGGAATAATTTTGCTTCTAGCACTCCAACACAGTGAGATACAGAA autosomal
AGATGGAAAACCAAAATTTTCAAAGGTATTGTGTTCTTAAATTGTCTTTC autosomal
AACTGGAGCATCGCCCGCTTCAATGGTGGGAATCAGCCGGGGAGGGGGGG autosomal
CAGAGTCTGGCCCTCCAGGGTGCCGCTGGCTGTGGGGACAGGAGGGGTCA autosomal
CCAGAAGTGAAAGGGAGGATCCAGGCTACTGTTTCTCCTGCACAAATACA autosomal
AACTTCACTTCAGGTGAGAACTTACCATTAAGCTGTTTCTTGTCTTCAGA autosomal
TCTTCAACAAAACAGGGAACTCCAGGTAGGAATTTATGAAGACAGTTAAA autosomal
GAGCGTGATGGGCAGGGTGGCTGAGCTGCAGGACAAGAAACGGGCAGTAA autosomal
CCCAGCCCTGTATTTATCAACATACCAAGAGAAGAATTTCTGAAGGACTC autosomal
AGCCCCGGGGCGAGCCCCGCCTCACCGAAGAGCAGGTTGAGCAGCACCTC autosomal
ATCCTATATAGTGCAGGATATTTACCTGGTGGGGGAATCAGAGGCGGAGC autosomal
GGATGTTGGGAGCATAAACCTCAGCCTGGAGTGAGGGGAAAGGGCTGTTA autosomal
AGCTTCTCACAGATCCATGACTTACATCCGTGATCTTGGGGTTGGTGCAC autosomal
CCCTGCCCTCCCCGGGACCCTACAGGTAAGGCCAGGAGCCCCAAATCCCG autosomal
ATGGAGGACACCCATTGTTCTGAATCTGCAACGAAGACTCAAGTAACCAG autosomal
ACCATCAATTGTGATCGGAGAAAACCTACCGAGCAAAAAGAGGGGTCTAT autosomal
AGCGTGTCCCCGCCTGTCCCCGCAGGTGGAACAGCTGCAAGCAGAACAAA autosomal
ATGAAATGCATTTCCCTCTCTGCAGATGAGCTGGAGCAGGCATTCACAGA autosomal
GTAAATGAAAACCTTGATCCTCCAAGTATGTATATTAAAGCAGGTTTTTA autosomal
ACTGTTGCATTTCAAATCCTCTTAGGACACAGCAGAGCTGTTTTTTGAAG autosomal
CAGGCAACTGATCTGCTATCCTCAGGTGAAGTAGTGCACTTGTTTTCTGG autosomal
AGAGTAGCTGTACTTTTAGTAATACCTTGTCAAAGACTCGGAATGCCTCA autosomal
CTGCTCACCGGGGACGGCCGCGGCTCGCCCCTTTCAGCTGCGAGAGAAGA autosomal
ATTCTGGAAATCCCTTCAGGACCTGGAAAGACAAGCATAAAGATTTCATG autosomal
ATTATTTGCTTTTATGTTTTTCAAGGAGTGGCTTTCAAAAGGACATGGAG autosomal
ACCGATTCACACAGACAGCTTTTGTGTGAGTAGCGTTTATATTATTTTAT autosomal
CTGCTGAGAGGGGCCAGCTCAGTACCTTGTTCCCGTTGGAGTACATGGCC autosomal
TATTGTTTGTAATTTATGTTTGTAGAGGACATAGTTTTCAGAACAGCAGA autosomal
CGCCTCGTCGGGGCGCCGGCCGCCGCTGTCGGCCCCGCGGGACCGGGCTC autosomal
ACCCAATAATTTCTTCAGGTAACTCCTAAAAAGAATGTAAGAATTAAGAG autosomal
ATGGAAGAACAAACATACCTGTCAGGTACAGTGTCATCAAAAGGTCTTGC autosomal
CAGGGGATATGATTCTCTTTGAACCCTAGAAGAGGTAATCAAAATGGTAC autosomal
CAGAAGGCAGGGTCGCATGTTGTCCCTGCAAGAAAACAGTCCCCGTGAGC autosomal
ACCTGGGACTCCTCCAGAAGCTCTCCTGTTGTGGGCAACAGAAGGATGCT autosomal
TCCTCCACGCTGGGCCCGGTGGCACCTGTGGGGACATTGGGGACGCGTCA autosomal
CCCCCTTTCCCCTCCCCCCCCCCAGGTGATTTCGGCCCCTCGGAGCCCCC autosomal
GGGCTGGCACTGCCACTGTCACACGGTGGGGACATTGGGGACATTGGGGA autosomal
GCCGGCCCGCGCCCGCCGCGCTCACCTGCCCTTCAGCGCCCTCACACACA autosomal
GTTCTGTATTGATATGCTGACTTACTTTATCAATTCCAGGCATCAGCCTA autosomal
CCTTACCCTTCTGCAGACTTCCCAGGTAAGGCGTGTGCCTGGCAGGGCAG autosomal
AGATGCCCATGTCCCCAAAAGTCGGGCTAATGAGGAGCACCGTAGATCAG autosomal
AAAAAAGAGAATGCTGCAGCCTTGCCTTTGATAACTGAGGAGAAGCAGTG autosomal
CAGACTTCTGCATTTTAACCTTTAGGTGTTCACAAATTTAAACTGAGGAC autosomal
GATAAATTTGCTTTCTTTTCTCTAGGACTGCCTTAAAGCTTGTCAGGAAC autosomal
ATAGCATTTCTTCTTTCCTTTTCAGTGTTTTGTGTTAGCAATGACATCAG autosomal
AGAAGATGGTGGCAATGTCAGAGTTCTGCAGGAACCAGGAAAGAGATTCT autosomal
AACCTATCCCATTGGATGAAGAAAGGTAAGTGCTGCTGCACTCAGTGAAG autosomal
CAGGACATCTTTGACATAAATGAAGGTCTCAATTTTTTTCTATAATTTTC autosomal
GTGGAACCTGAATAACGACACCGAGGTGAGGCGGCTCGGCGGCGGTGGGA autosomal
TCCCTGTGAGGGTGGTGAGGCACAGATTTCCCCATCCTTGGAAATGTCCA autosomal
AAGTTTGATTCCTTTTTCCTCACAGGGCAGGAGCCACCTGAACCACGAGA autosomal
CAACGTGGAGGATCTCATCGGCCGGGTGAGGCCCCGTGCCCGGGACATCC autosomal
CAAACCTTTCTGTCTCTCTGCCCAGGTGTGAGCGCCCAGGCGGGTCAGGA autosomal
ACTGCTGTACCCCACCAGGTCTTACCTCCCAGCCAGGACTGAGTCTCCAA autosomal
TAATTTTGATTTTATTAATGTTTAGGTCCTGGTTGATGCTCCTTGTTCAA autosomal
AAGAGCTCCTGATCTGCCTGCTTACTGTGATCTTTTCCTTGTCCTGCAGC autosomal
ATGCAGGCAGTCAAATCAGTGGTACCTGAGCACACAACACCAGCATCTTC autosomal
AGGGGAGGGAAGTTGTTCACCTTTTCTGCAAGAAAAATTTCACTGGTGTC autosomal
CTCTGAGGCTCGCTGTCCCCCGCAGGGGACCCCGCTGCGGAGGAGTGGTC autosomal
AGGAGCCAGGAGTTTCCCAAAAAGCCTGCACTGTACAACGGTTCTATAAT autosomal
GATTTGCTCTCCTCTCGCCCCACAGCGCCTGCAGCTCGAGTTTTTTCGGC autosomal
AGGCAAGAAGTATCGCAAACAATTCCTGTGCAGGAAAACAAAATGCAAAG autosomal
ACAGTGTGAGCAGGCGGTATACCAGGTACACCAATAAGCTTAGACTACTG autosomal
AAAAACACAGCAGCATGTCACTTACTGGTGTTGTGGTCTATGTAATAGAC autosomal
ATAATCATAAAAGTGGCAGCTTTTGGTATGTATTCATATTCTGAGCAATA autosomal
CTGGTAGACAACTGCTCTTCCCTCAGTAAGTTGGGAATTTTGTCTGTGCC autosomal
AGAAGGGATTAAATTGTTTCTGTACCTGAGATTCAACACTCTCTCCAAAT autosomal
CAGCATTGTCTGTTGCCTCTTTCAGACATCCTTCAGCCGTGGCTTCACCA autosomal
ACTCAGAGCCCCTGTGTGTCCCCAGGTGGGAGCAGCGGCGAGGGAGATGC autosomal
ATATGTAAAAGGATGAAGGTGGTAGGTAAGTTGAATGCATTAGGTATTCA autosomal
CAGGGTGCAGCTGGAGCTCACTTACTGCTTTCCTCTTGAGGATGCAGTCC autosomal
CACGTCGTCGTAGGTGATGAGCATGCTGGGGACACGCGCTCAGCGCCACA autosomal
TTTCTGAAGGCCACAAGCACCCCTCCTGAAATGTGGAAGAAAACAACAAA autosomal
CCTTGGTCTGGCAGTTGATGAGAAGGTAGGACCCCTCTCAAACACGTGAA autosomal
AACGGCCCCAAAACCCGTGGCTGACCTCCACCAGCCCCTGCATGACGCGC autosomal
AATTGACCTTTTCTTTCGTTTTTAGCCCCAAAACGCCGCGGGCCCGCCCG autosomal
GTTCCGCACCCTTACAAAAACATTCTTCTTGGCTGGGCCCTGTACTGCTA autosomal
GCTCTCCCGAGGAGGGGGCGCTCACCAGGGCAGGGGGCTGCCGATGAGGA autosomal
CACAGACTGGGCACCCTGGGGACACGGACTGGGCACAGACAGGGACACGG autosomal
AAGTAGCAGCATCATCTGGAATTACATCTCTTATTGTAAGAACACACCGC autosomal
AGGCTTCTATTACCATCTGGGAATCCTGGAATGGGACAGACCCAACACAA autosomal
CAGGGGATGAGCAAGGAGAATAAAGTCAAAGTAAACACAACACAGGCAAG autosomal
AGGTCTCTGCGCACCCACAGACCCGGTGAGGGGATGGGGCGGAGGGCGGG autosomal
CCAGGGCAGCCCCAGCAGCCGCATCCTGGGGGCCGTGGGGACGGGGGTCA autosomal
GCGCCCGTCTGCCTCTCCCGCCTACCTCTGCCTTCACCCTCCGCACTGTA autosomal
AACAATGTTGTCTGACATAATCAAGGTAAGCAACAAAAACAAGGTTGAAT autosomal
CTGCTGTTGTGTGTTTTATCTTTAGCCATGCATCAGGGAGCAGCTGGCAA autosomal
AGGATGCGCAGGGGCACCCTCTTCTCTGGAAGAGCAGCAGAGAGGGGTCA autosomal
AAAACACAGGTCTGCTCCATCCATACTGCAGGTAAAAAGAGGCAAAAATG autosomal
CCCCCCAGATGTTTTAGGGCCCCACCTTGATGAGCGGCAGCGCGATCCCG autosomal
CTCGGTCAGTGTCTGAAGGAGATCCCTGAAAATAAAGAAATACACACATC autosomal
GGCTGCCGGAACCGCGCCGGGATGGCTGCAGGGAAACGAGAGCTATGACA autosomal
CTTTTCCCTTGCATTCCCCATCTAGTGCCTGAACATTGAAAATGATAATC autosomal
AACTATGTTTAAAATTCTTTACTAGGCTGAAGATGGTCATGCTGTGGCAA autosomal
CCTTCTGCAGATCCCATATGAAAAGGTTATTTTCCTAATTTTAGTGGTAG autosomal
ATGGGGCTGAGTCAGAGGACATTCGGTAACCTTTACACTTTTTTCCTATC autosomal
TGCTTATTTTTGAATGTCTTTGCAGCGTGACAGAATCACAAGCTTCAGAA autosomal
CTTCGTGTTCGCCTGCCGCAGCCCCGCCTGCTACCGCCCGGCCGGCCCGC autosomal
ATCATCAACCCCGGCAACCCCACCGGTACCCGCTGTGGGGCGGGGGGTGG autosomal
CCCTCCTTTTGCATATAAAGGAAATCTGATGGAAAAAAAAAAAAAGGGAA autosomal
CACGCTGCTCTACTTCTACCAGCAGGTCAGCGCTGCTCCCAAATCCCCAA autosomal
TGCTCCAGGGGGGAATCCCCGCGGCCTGGAAAAATGGGAAAGAAAGGGAA autosomal
CAAAGGGGCGGGGTTTAGCAGCAAGAGGCGTGGCTTCAGAGCAAAGGGGC autosomal
AGGAAGAGTTCTACATATCTGTGTTCTGGAAGAAGAAAGTTTTCCCATGA autosomal
CCGGCTGACAGCGAGGGCCGAGGAGGTAGGTCCTCAATTCTCTGGATGCC autosomal
AAAGTATTTAACACCCCTGAAGGAGGTATGAAATGAAAAACCAAGATATT autosomal
AGCGCACCGGGGCTGCCCGCGGGGCGGCGCCTGGGGGCGGTGGCGCGATG autosomal
ATGCATTGAAGCCATGGAGCAGCACCTGGGAGAAAGAAGGGCGTGGCACC autosomal
ATTCCAGGTTAATGTTTGGACTCACATTAGCAGTCAGCTGAGTTGTCAGA autosomal
CTGGGGGCTGCCGCCGCCGCTGCTGCTTCCGCCGCCCCCGCCGCCCCCGC autosomal
GGCCAGGTTCTCCTGGTGGCCCTCGCTATGGGGGCAAAAAAGGGATGGGA autosomal
ATCCCAAACAGAGAGATTGGATGAGGTAACAAAACTCCTGAGTCCTTGAG autosomal
CAGGTGCCAGTCCCACCTCCATTACCTTGGTCCAGCTCTGTCCCCCGAAA autosomal
AGAAGGCCATGCCATCAGCGTACTCCTGGGGGAGGAGAAGTGGAAAGCTG autosomal
TAATGAATGTAAGAATGCCTTTCAGGTAGGTATAGCTGTATTTTGTCTCA autosomal
AGCTCCCTGATGGATGTAATTGCAGGTTCTCCGGAATATGGTGCACTGTG autosomal
AAAACCAACTCTGTAAAAGGCAGAGGGAAAATGTTTTACATCTGCACGGG autosomal
CAGTCCCTCCTTCCCTCCTTCCTACCCTGCTCCCCTCCTTCAGTCCCTGC autosomal
CTGGCTGAGGAATTTGCCAAAAACGGTAGGAATTT
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