>ALU Human ALU interspersed repetitive sequence - a consensus GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAA >MIR mammalian-wide interspersed repeat (MIR) - a consensus ACAGYAYAGCATAGTGGTTAAGAGCACGGRCTCTGGAGCCAGACTGCCTGGGTTCGAATCCCGGCTCTGCCACTTACTAGCTGTGTGACCTTGGGCAAGTTACTTAACCTCTCTGTGCCTCAGTTTCCTCATCTGTAAAATGGGGATAATAATAGTACCTACCTCATAGGGTTGTTGTGAGGATTAAATGAGTTAATAYATGTAAAGCGCTTAGAACAGTGCCTGGCACATAGTAAGCGCTCAATAAATGTTRGYTATTATT >MIR2 Repetitive element - a consensus TTNTTTATTGTCTGTCTCCTCCACTAGANTGTAAGCTCCATGAGGGCAGGGATTTTGTCTGTYTTGTTCACTGCTGTATCCCCAGCGCCTAGAACAGTGCCTGGCACATAGTAGGCGCTCAATAAATATTTGTTGAATGAATGAATGAAT >L1 Human L1 interspersed repetitive sequence - full length copy GGCGGTGGAGCCAAGATGACCGAATAGGAACAGCTCCAGTCTATAGCTCCCATCGTGAGTGACGCAGAAGACGGGTGATTTCTGCATTTCCAACTGAGGTACCAGGTTCATCTCACAGGGAAGTGCCAGGCAGTGGGTGCAGGACAGTAGTGCAGTGCACTGTGCATGAGCCGAAGCAGGGCGAGGCATCACCTCACCCGGGAAGCACAAGGGGTCAGGGAATTCCCTTTCCTAGTCAAAGAAAAGGGTGACAGATGGCACCTGGAAAATCGGGTCACTCCCGCCCTAATACTGCGCTCTTCCAACAAGCTTAACAAATGGCACACCAGGAGATTATATCCCATGCCTGGCTCAGAGGGTCCTACGCCCATGGAGCCTCGCTCATTGCTAGCACAGCAGTCTGAGGTCAAACTGCAAGGTGGCAGTGAGGCTGGGGGAGGGGTGCCCACCATTGTCCAGGCTTGAGCAGGTAAACAAAGCCGCCTGGAAGCTCGAACTGGGTGGAGCCCACCACAGCTCAAGGAGGCCTGCCTGCCTCTGTAGGCTCCACCTCTAGGGGCAGGGCACAGACAAACAAAAGACAACAAGAACCTCTGCAGACTTAAATGTCCCTGTCTGACAGCTTTGAAGAGAGTAGTGGTTCTCCCAGCACATAGCTTCAGATCTGAGAACAGGCAGACTGCCTCCTCAAGTGGGTCCCTGACCCCCGAGTAGCCTAACTGGGAGGCATCCCCCAGTAGGGCGGACTGACACCTCACATGGCTGGTACTCCTCTAAGACAAAACTTCCAGAGGAATGATCAGGCAGCAGCATTTGCGGTTCACCAATATCCACTGTTCTGCAGCCACCGCTGCTGATACCCAGGAAAACAGCATCTGGAGTGGACCTCCAGTAAACTCCAACAGACCTGCAGCTGAGGGTCCTGACTGTTAGAAGGAAAACTAACAAACAGAAAGGACATCCACACCAAAAACCCATCTGTACATCACCATCATCAAAGACCAAAGGTAGATAAAACCATAAAGATGGGGAAAAAGCAGAGCAGAAAAACTGGACACTCTAAAAATGAGAGTGCCTCTCCTTCTCCAAAGTAACGCAGCTCCTCACCAGCAATGGAACAAAGCTGGGCAGAGAATGACTTTGACGAGTTGAGAGAGGAAGGCTTCAGAAGATCAAACTACTCCAAGCTAAAGGAGGAAGTTCGAACAAACGGCAAAGAAGTAAAAAACTTTGAAAAAAAATTAGATGAATGGATAACTAGAATAACCAATGCACAGAAGTCCTTAAAGGACCTGATGGAGCTGAAAACCAAGGCAGGAGAACTACGTGACAAATACACAAGCCTCAGTAACCGATGAGATCAACTGGAAGAAAGGGTATCAATGACGGAAGATGAAATGAATGAAATGAAGCATGAAGAGAAGTTTAGAGAAAAAAGAATAAAAAGAAACGAACAAAGCCTCCAAGAAATATGGGACTATGTGAAAAGACCAAATCTACATCTAATTGGTGTAGCTGAAAGTGATGGGGAGAATGGAACCAAGTTGGAAAACACTCTGCAGGATATTATCCAGGAGAACTTCCCCAATCTAGCAAGGCAGCCCAAATTCACATTCAGGAAATACAGAGAACGCCACAAAGATACTCCTAGAGAAAAGCAACTCCAAGACACATAACTGACAGATTCACCAAAGTTGAAATGAAGGAAAAAATGTTAAGGGCAGCCAGAGAGAAAGGTCGGGTTACCCACAAAGGGAAGCCCATCAGACTAACAGCTGATCTATCGGCAGAAACTCTACAAGCCAGAAGAAAGTGGGGGCCAATATTCAACATTGTTAAAGAAAAGAATTTTCGGCCCAGAATTTCATATCCAGCCAAACTAAGCTTCATAAGCATTGGAGAAATAAAATCCTTTACAGACAAGCAAATGCTGAGAGATTTTGTCACCACCAGGCCTGCCCTACAAGAGCTCCTGAAGGAAGCACTAAACATGGAAAGGAACAACTAGTATCAGCCACTGCAAAAACATGCCAAATTGTAAACGACCATCAAGGCTAGGAAGAAACTGCATCAAGGAGCAAAATAACCAGCTAACATCATAATGACAGGATCAAATTCATACATAACAATACTCACCTTAAATGTAAATAGGCTAAATGCTCCAATTAAAAGACACAGACTGGCAAATTGGATAAGGAGTCAAGACCCATCTGTCGTTATGTATTCAGGAAACCCATCTCACGTGCAGAGACACACATAGGCTCGAAATAAAAGGATGGAGGAATATCTACCAAGCAAATGGAAAACAAAAAAAGGCAGGGGTTGCAATCCTAGTCTCTGATAAAACAGATTTTAAACCAACAAAGATCAAAAGAGACAAAGAAGGCCATTACATAATGGCAAAGGGATCTATTCAAGAAGAAGAACTAACTATACTAAATATATATGCACCCAATACAGGAGCACCCAGATTCATAAAACAAGTCCTGAGTGACCTACAAAGAGACTTAGATGCCCACACAATAATAATGGGAGACTTTAACACCCCACTGTCAACATTAGACAGATCAACGAGACAGAAAGTTAACAAGGATATCCAGGAATTGGACTCAGCTCTGCACCAAGCAGACCTAATAGACATCTACAGAACTCTCCACCCCAAATCAACAGAATATACATTCTTTTCAGCACCACACCACACCTATTCCAAAACTGACCACATAGTTGGAAGTAAAGCTCTCCTCAGCAAATGTAAAAGAACAGAAACTATAACAAACTGTCTCTCAGACCACAGTGCAATCAAACTAGAACTCAGGATTAAGAAACTCACTCAAAACCACTCAGCTACATGGAAACTGAACAGCCTGCTCCTGAATGACTACTGGGTACATAACAAAATGAAGGCAGAAATAAAGATGTTCTTTGAAACAACGAGAACAAAGACACAACACACCAGAATCTCTGAGACACATTCAAAGCAGTGTGTAGAGGGAAATTTATAGCACTAAATGCCCACAAGGGAAAGCAGGAAAGATCTAAAATTGACACCCTAACATCACAATTAAAAAACTAGAGAAGCAGGAGCAAACACATTCAAAAGCTAACAGAAGACAAGAAATAACTAAGATCAGAGCAGAAGTGAAGAAGATAGAGACACAAAAAACCCTTCAAAAAAATCAATGAATCCAGAAGCTGTTTTTTTGAAAAGATCAACAAAATTGATAGACTGCTAGCAAGACTAATAAAGAAGAAAGGGGAGAAGAATCAAATAGACGCAATAAAAAATGACACGGGGTATCACCACTGATCCCACAGAAATACAAACTACCGTCAGAGAATACTATAAACACCTCTACGCAAATAAACTAGAAAATCTAGAAGAAATGGATAAATTCCTCGACACATACACTCTGCCAAGACTAAACCAGGAAGAAGTTGTATCTCTGAATAGACCAATAACAGGCTCTGAAATTGAGGCAATAATTAATAGCTTATCAACCAAAAAAAGTCCGGGACCAGTAGGATTCATAGCCGAATTCTACCAGAGGTACAAGGAGGAGCTGGTACCATTCCTTCTGAAACTATTCCAATCAATAGAAAAAGAGGGAATCCTCCCTAACTCATTTTATGAGGCCAGCATCATCCTGATACCAAAGCCTGACAGAGACACAACAAAAAAAGAGAATGTTACACCAATATCCTTGATGAACATCGATGCAAAAATCCTCAATAAAATACTGGCAAACTGAATCCAGCAGCACATCAAAAAGCTTATCCTCCATGATCAAGTGGGCTTCATCCCTGCCATGCAAGGCTGGTTCAACATACGAAATCAATAAACATAATCCAGCATATAAACAGAACCAAAGACACAAACCATATGATTATCTCAATAGATGCAGAAAAGGCCTTTGACAAAATTCAACAATGCTTCATGCTAAAAACTCTCAATAAATTAGGTATTGATGGGACATATCTCAAAATAATAAGAGCTATCTATGACAAACCCACAGCCAATATCATACTGAGTGGACAAAAACTGGAAGCATTCCCTTTGAAAACTGGCACAAGGCAGGGATGCCCTCTCTCACCACTCCTATTCAACATAGTGTTGGAAGTTCTGGCCAGGGCAATCAGGCAGGAGAAGGAAATAAAGGGCATTCAATTAGGAAAAGAGGAAGGTGAAATTGTCCCTGTTTGCAGATGACATGATTGTATATCTAGAAAACCCCATTGTCTCAGCCCAAAATCTCCTTAAGCTGATAAGCAACTTCAGCAAAGTCTCAGGATATAAAATCAGTGTGCAAAAATCACAAGTATTCCTATGCACCAATAACAGACAAACAGAGAGCCAAATCATGAGTGAACTCCCATTCACAATTGCTTCAAAGAGAATAAAATACCTAGGAATCCAACTTACAAGGGATGTGAAGGACCTCTTCAAGGAGAACTACAAACCACTGCTCAATGAAATAAAAGAGGATACAAACAAATGGAAGAACATTCCATGCTTATGGGTAGGAAGAATCATATCGTGAAAATGGTCATACTGCCCAAGGTAATTTATAGATTCAATGCCATCCCCATCAAGCTACCAATGACTTTCTTCACAGAACTGGAAAAAACTACTTTAAAGTTCATATGGAATCAAAAAAGAGCCCACATCACCAAGGCAATCCTAAGCCAAAAGAACAAAGCTGGAGGCATCACGCTACCTGACTTCAAACTATACTACAATGCTACGGTAACCAAAACAGCATGGTACTGGTACCAAAACAGAGATCTAGACCAATGGAACAGAACAGAGCCCTCAGAAATAATGCCGCATATCTACAACTATCCGATCTTTGACAAACCTGAGAGAAACAAGCAATGGGGAAAGGATTCCCTATTTAATAAATGGTGCTGGGAAAACTGGCTAGCCATATGTAGAAAGCTGAAACTGGATCCTTCCTTACACCTTATACAAAAATTAATTCAAGATGGATTAAAGACTTAAACATTAGACCTAAAACCATAAAAACCCTAGAAAAAAACCTAGGCAATACCATTCAGGACATAGGCATGGGCAAGGACTTCATGTCTAAAACACCAAAACGAATGGCAACAAAAGACAAAATGGACAAACGGGATCTAATTAAACTAAAGAGCTTCTGCACAGCTAAAGAAACTACCATCAGAGTGAACAGGCAACCTACAAAATGGGAGAAAATTTTTGCAATCTACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAACAAACAACCCCATCAAAAAGTGGGCAAAGGATATGAACAGACACTTCTCAAAAGAAGACATTTATGTAATCAAAAAACACATGAAAAAATGCTCATCATCACTAGCCATCAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCACACCAGTTAGAATGGCGATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAACAGGAACAACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAACCATTGCGGAAGTCAGTGTGGCAATTCCTCAGGAATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGGTAGATACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCAGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAACGATAGATTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAGCTGGAAACTATCATTCTCAGCAAACTATCACAAGGACAATAAACCAAACACCGCATGTTCTCACTCATAGGTGGGAATTGAACAATGAGAACACATGGACACATGAAGAGGAACATCACACTCTGGGGACTGTTATGGGGTGGGGGGCAGGGGCAGGGATAGCACTAGGAGATATACCTAATGCTAAATGACGAGTTAATGGGTGCAGCACACCAACATGGCACATGTATACATATATAACAAACCTGCCGTTGTGCACATGTACCCTAAAACTTGAAGTATAATAATAAAAAAAA >L1PA2 3'-end of L1 repeat (subfamily L1PA2) - a consensus sequence CTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGCGAAGGACATGAACAGACACTTCTCAAAAGAAGACATTTATGCAGCCAAAAAACACATGAAGAAATGCTCATCATCACTGGCCATCAGAGAAATGCAAATCAAAACCACTATGAGATATCATCTCACACCAGTTAGAATGGCAATCATTAAAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACTGTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTCAGTGTGGCGATTCCTCAGGGATCTAGAACTAGAAATACCATTTGACCCAGCCATCCCATTACTGGGTATATACCCAAAGGACTATAAATCATGCTGCTATAAAGACACATGCACACGTATGTTTATTGCGGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAATTGGAAATCATCATTCTCAGTAAACTATCGCAAGAACAAAAAACCAAACACCGCATATTCTCACTCATAGGTGGGAATTGAACAATGAGATCACATGGACACAGGAAGGGGAATATCACACTCTGGGGACTGTGGTGGGGTGGGGGGAGGGGGGAGGGATAGCATTGGGAGATATACCTAATGCTAGATGACGAGTTAGTGGGTGCAGCGCACCAGCATGGCACATGTATACATATGTAACTAACCTGCACAATGTGCACATGTACCCTAAAACTTAAAGTATAATAAAA >L1PA7 3'-end of L1 repeat (subfamily L1PA7) - a consensus sequence CTAATATCCAGAATCTACAAGGAACTTAAACAAATTTACAAGAAAAAAACAAACAACCCCATCAAAAAGTGGGCAAAGGATATGAACAGACACTTCTCAAAAGAAGACATTTATGYAGCCAACAAACAYATGAAAAAAAGCTCATCATCACTGGTCATTAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCAYGCCAGTTAGAATGGCGATCATTAAAAAGTCAGGAAACAACAGATGCTGGAGAGGATGTGGAGAAATAGGAATGCTTTTACACTGTTGGTGGGAGTGTAAATTAGTTCAACCATTGTGGAAGACAGTGTGGCGATTCCTCAAGGATCTAGAACCAGAAATACCATTTGACCCAGCAATCCCATTACTGGGTATATACCCAAAGGATTATAAATCATTCTRCTATAAAGACACATGCACACGTATGTTTATTGCAGCACTATTCACAATAGCAAAGACTTGGAACCAACCCAAATGCCCATCAATGATAGACTGGATAAAGAAAATGTGGCACATATACACCATGGAATACTATGCAGCCATAAAAAAGGATGAGTTCATGTCCTTTGCAGGGACATGGATGAAGCTGGAAACCATCATTCTCAGCAAACTAACACAGGAACAGAAAACCAAACACCGCATGTTCTCACTCATAAGTGGGAGTTGAACAATGAGAACACATGGACACAGGGAGGGGAACATCACACACCGGGGCCTGTCGGGGGGTGGGGGGCTAGGGGAGGGATAGCATTAGGAGAAATACCTAATGTAGATGACGGGTTGATGGGTGCAGCAAACCACCATGGCACATGTATACCTATGTAACAAACCTGCACGTTCTGCACATGTATCCCAGAACTTAAAGTATAATAATA >L1PA11 3'-end of L1 repeat (subfamily L1PA11) - a consensus sequence CTAATATCCAGAATSTACAARGAACTTAAACAAATTTACAAGAAAAAAACAAAMAACCCCATCAAAAAGTGGGCAAAGGACATGAACAGACACTTCTCAAAAGAAGACATWTATGTGGCCAATAAGCACATGAAAAAAAGCTCAACATCACTGATCATTAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCAYRCCAGTCAGAATGGCAATTATTAAAAAGTCAAGAAACAACAGATGCTGGYGAGGCTGTGGAGAAATAGGAATGCTTTTACACTGTTGGTGGGAATGTAAATTAGTTCAACCATTGTGGAAGACAGTGTGGCGATTCCTCAAGGATCTAGAACCAGAAATACCATTTGACCCAGCAATCCCATTACTGRGTATATACCCAAAGGAATATAAATCATTCTATTATAAAGACACATGCAYGTGTATGTTYATTGCAGCACTATTCACAATAGCAAAGACATGGAATCAACCYAAATGCCCATCAATGATAGACTGGATAAAGAAAATGTGGTACATATACACCATGGAATACTATGCAGCCATAAAAAAGAATGAGATCATGTCCTTTGCAGGAACATGGATGGAGCTGGAGGCCATTATCCTTAGCAAACTAAYGCAGGAACAGAAAACCAAATACCGCATGTTCTCACTTATAAGTGGGAGCTAAACGATGAGAACACATGGACACATGGAGGGGAACAACACACACTGGGGCCTGTCGGAGGGTGGAGGGTGGGAGGAGGGAGAGCATCAGGAAAAATAGCTAATGGATACTGGGCTTAATACCTGGGTGATGGGATGATCTGTGCAGCAAACCACCATGGCACACGTTTACCTATGTAACAAACCTGCACATCCTGCACATGTACCCCGGAACTTAAAATAAAAGTTGAAA >L1PA15 3'-end of L1 repeat (subfamily L1PA15) - a consensus sequence CTAATATCCAGAATSTACAARGAACTTAAACAAATTTACAAGAAAAAAACAAAMAACCCCATCAAAAAGTGGGCAAAGGACATGAACAGACACTTCTCAAAAGAAGACATWTATGTGGCCAATAAGCACATGAAAAAAAGCTCAACATCACTGATCATTAGAGAAATGCAAATCAAAACCACAATGAGATACCATCTCAYRCCAGTCAGAATGGCAATTATTAAAAAGTCAAGAAACAACAGATGCTGGYGAGGCTGTGGAGAAATAGGAATGCTTTTACACTGTTGGTGGGAATGTAAATTAGTTCAACCATTGTGGAAGACAGTGTGGCGATTCCTCAAGGATCTAGAACCAGAAATACCATTTGACCCAGCAATCCCATTACTGRGTATATACCCAAAGGAATATAAATCATTCTATTATAAAGACACATGCAYGTGTATGTTYATTGCAGCACTATTCACAATAGCAAAGACATGGAATCAACCYAAATGCCCATCAATGATAGACTGGATAAAGAAAATGTGGTACATATACACCATGGAATACTATGCAGCCATAAAAAAGAATGAGATCATGTCCTTTGCAGGAACATGGATGGAGCTGGAGGCCATTATCCTTAGCAAACTAAYGCAGGAACAGAAAACCAAATACCGCATGTTCTCACTTATAAGTGGGAGCTAAAYATTGAGTACACATGGACATAAAGAAGGGAACAACAGACACTGGGGCCTACTTGAGGGTGGAGGGTGGGAAGAGGGAGAGGATCAAAAAACTACCTATCGGGTACTATGCTTATTACCTGGGTGATGAAATAATCTGTACACCAAACCCCAGCGACACGCAATTTACCTATATAACAAACCTGCACATGTACCCCCTGAATCTAAAATAAAAGTTAAAA >L1PB1 3'-end of L1 repeat (subfamily L1PB1) - a consensus sequence CTAATATCCAGAATCTATAAGGAACTCAAACAAATCAGCAAGAAAAAAACAAACAATCCCATCAAAAAGTGGGCTAAGGACATGAAYAGACAMTTCTCAAAAGAAGATATRYAAATGGCCAACAAGCATATGAAAAAATGCTCAACATCACTAATTATCAGGGAAATGCAAATCAAAACCACAATGCRATACCATCTTACTCCTGCAAGAATGGCCATAATTAAAAAATCAAAAAATAATAGATGTTGGCGTGGATGTGGTGAAAAGGGAACACTTYTACACTGCTGGTGGGAATGTAAACTAGTACAACCACTATGGAAAACAGTATGGAGATTYCTTAAAGAACTAAAAGTAGAACTACCATTTGATCCAGCAATCCCACTACTGGGTATCTACCCARARGAAAAKAAGTCATTATAYGAAAAAGAYACTTGCACACRCATGTTTATAGCAGCACAATTYRCAATTGCAAAAATATGGAACCAACCCAAATGCCCATCAATCAAYRAGTGGATAAAGAAAATGTGRTATATATATACCATGGAATACTACKCAGCCATAAAAAAGAATGAAATAATGGCATTTGCAGCAACCTGGATGGARYTGGAGACYATTATTCTAAGTGAAGTAACTCAGGAATGGAAAACCAAACATYRTATGTTCTCACTTATAAGTGGGAGCTAAGCTATGAGGATGCAAAGGCGTAAGAATGATACAATGGACTTTGGGGACTCGGGAGATCGGGRGAAAGGGTGGGAGGGGGGTGAGGGATAAAAGACTACAAATTGGGTACAGTGTACACTGCTCGGGTGATGGGTGCACCAAAATCTCACAAATCACCACTAAAGAACTTATTCATGTAACCAAACACCACCTGTTCCCCAAAAACCTATTGAAATAAA >L1PB3 3'-end of L1 repeat (subfamily L1PB3) - a consensus sequence CTAATATCCAGAATCTATAAGGAACTCAAACAAATCAGCAAGAAAAAAACAAACAATCCCATCAAAAAGTGGGCTAAGGACATGAAYAGACAMTTCTCAAAAGAAGATATRYAAATGGCCAACAAGCATATGAAAAAATGCTCAACATCACTAATTATCAGGGAAATGCAAATCAAAACCACAATGCRATACCATCTTACTCCTGCAAGAATGGCCATAATTAAAAAATCAAAAAATAATAGATGTTGGCGTGGATGTGGTGAAAAGGGAACACTTYTACACTGCTGGTGGGAATGTAAACTAGTACAACCACTATGGAAAACAGTATGGAGATTYCTTAAAGAACTAAAAGTAGAACTACCATTTGATCCAGCAATCCCACTACTGGGTATCTACCCARARGAAAAKAAGTCATTATAYGAAAAAGAYACTTGCACACRCATGTTTATAGCAGCACAATTYRCAATTGCAAAAATATGGAACCAACCCAAATGCCCATCAATCAAYRAGTGGATAAAGAAAATGTGRTATATATATACCATGGAATACTACKCAGCCATAAAAAAGAATGAAATAATGGCATTTGCAGCAACCTGGATGGARYTGGAGACYATTATTCTAAGTGAAGTAACTCAGGAATGGAAAACCAAACATYRTATGTTCTCACTTATAAGTGGGAGCTAAGCTATGGGTATATACGGGCATATAGAGTGGTATAATAGACAYTGGAGACTCAAAAGGTGGAGGGTAGGAGAGGGGTGAGGGATGAAAAATTACCTATTGGGTACAATGTWCACTATTCGGGTGATGGGTACACTAAAAGCCCAGACTTCACCACTAYACAATATATCCATGTAACAAAAAKGCACYTGTACCCCCTAAATYTATAAAAATAAA >L1MA2 3'-end of L1 repeat (subfamily L1MA2) - a consensus sequence YTAATATCCAGAATMTATAAGGAACTCAAACAAATCAACAAGAAAAAAACAAATAATCCMATTAAAAARTGGGCAAAAGACATGAAYAGACATTTCTCAAAAGAAGACATACAAATGGCCAACARGYATATGAAAAAATGCTCAACATCACTAATCATCAGAGAAATGCAAATCAAAACYACAATGAGATATCATCTCACCCCAGTTARAATGGCTTTTATTAAAAAGACAAAAAATAACARATGCTGGYGAGGATGTGGAGAAAAGGGAACTCTTAYAYACTGTTGGTGGGAATGTAAATTAGTACARCCAYTATGGAAAACAGTTTGGAGRTTYCTCAAAAAACTAAAAATAGARCTACCATATRATCCAGCAATCCCACTRCTGGGTATATAYCCAAAAGAAAGGAAATCAGTATATYAAARAGATACCTGCACTCCCATGTTTATTGCAGCACTATTCACAATAGCHAAGATTTGGAATCAACCTAAGTGTCCATCAACRGATGAATGGATAAAGAAAATGTGGTACATATACACAATGGAGTACTATTCAGCCATAAAAAAGAATGARATCYTGTCATTTGCAGCAACATGGATGGAACTGGAGGTCATTATGTTAAGTGAAATAAGYCARGMACARAAAGACAAACAYTGCATGTTCTCACTTATTTGTGGGATCTAAAAATCAAAACAATTGAACTCATGGAGATAGAGAGTAGAAGGATGGTTACCAGAGGCTGGGAAGGGTAGTNGGAGGATTGGGGGGNGGKGRRGAGGGATGGTTAATGGGTACAAAAAAATAGTTAGAAAGAATGAATAAGACCTAGTATTTGATAGCACAACAAGGTGACTATAGTCAATAATAATTTAATTGTACATTTTAAAATAACTAAAAGAGTATAATTGGATTGTTTGTAACACAAAGGATAAATGCTTGAGGGGATGGATACCCCATTTTCCATGATGTGATTATTACACATTGCGTGCCTGTATCAAAACATCTCATGTACCCCATAAATATATACACCTACTATGTACCCACAAAAATTAAAA >L1MA5 3'-end of L1 repeat (subfamily L1MA5) - a consensus sequence TTAATATCCAAAATATATAAGGAACTCAAACAACTCAACAAGAARAAAACAAATAACCCAATTAAAAAATGGGCAAARGACCTGAATAGACATTTYTCAAAAGAAGACATACAAATGGCCAACAGATATATGAAAAAATGCTCAACATCACTAATCATCAAGGAAATGCAAATTAAAACCACAATGAGATATCACCTCACACCTGTTAGAATGGCTATTATCAAAAAGACAGAAAATAATAAATGTTGGYGAGGATGTGGAGAAAAGGGAACTATTGTACACTGTTGGTGGGAATGTAAATTAGTAYAGCCAYTATGGAAAACAGTATGGAGGTTCCTCAAAAAAYTAAAAATARAACTACCATATGATYCAGCAATCCCACTWCTGGGTATATATCCAAARGAATTGAAATCAGTATGTYGAAGAGATAYCTGCACTCCCATGTTTAYTGCAGCAYTATTCACAATAGCCAAGATATGGAAWCAACCTAAGTGTCCATCAAYGGAWGAATGGATAAAGAAAATGTGGTATATATACACAATGGAATACTATTCAGCCATAAAAAAGAATGAAATCCTGTCATTTGYARCAACATGGATGAACCTGGAGGACATTATGCTAAGTGAAATAAGCCAGGCACAGAAAGACAAATACCGCATGTTCTCACTCATATGTGGAAGCTAAAAAAGTTGATCTCATAGAAGTAGAGAGTAGAATAGTGGTTACTAGAGGCTGGGAAGGGTAGGGRGAGGGGGGRATAGGGAGAGGTTGGTTAAWGGRTACAAAATTACAGTTAGATAGGAGGAATAAGTTCTAGTGTTCTGTAGCACCGTAGGGTGACTATAGTTAACAAYAATTTATTGTATATTTTCAAATAGCTAGAAGAGAGGATTTTGAATGTTCCCAACACAAAGAAATGATAAATGTTTGAGGTGATGGATATGCTAATTACCCTGATTTGATCATTACACAWTGTATACATGTATCGAAATATCACACTGTACCCCATAAATATGTACAATTATTATGTGTCAATTAAAAA >L1MA9 3'-end of L1 repeat (subfamily L1MA9) - a consensus sequence TTAATATCCAAAATATATAAGGAACTCAAACAACTCAACAAGAARAAAACAAATAACCCAATTAAAAAATGGGCAAARGACCTGAATAGACATTTYTCAAAAGAAGACATACAAATGGCCAACAGATATATGAAAAAATGCTCAACATCACTAATCATCAAGGAAATGCAAATTAAAACCACAATGAGATATCACCTCACACCTGTTAGAATGGCTATTATCAAAAAGACAGAAAATAATAAATGTTGGYGAGGATGTGGAGAAAAGGGAACTATTGTACACTGTTGGTGGGAATGTAAATTAGTAYAGCCAYTATGGAAAACAGTATGGAGGTTCCTCAAAAAAYTAAAAATARAACTACCATATGATYCAGCAATCCCACTWCTGGGTATATATCCAAARGAATTGAAATCAGTATGTYGAAGAGATAYCTGCACTCCCATGTTTAYTGCAGCAYTATTCACAATAGCCAAGATATGGAAWCAACCTAAGTGTCCATCAAYGGAWGAATGGATAAAGAAAATGTGGTATATATACACAATGGAATACTATTCAGCCATAAAAAAGAATGAAATCCTGTCATTTGYARCAACATGGATGAACCTGGAGGACATTATGCTAAGTGAAATAAGCCAGGCACAGAAAGACAAATACTGCATGATCTCACTTATATGTGGAATCTAAAAAAGTCAAAYTCATAGAAACAGAGAGTAGAATGGTGGTTACCAGGGGCTGGGGRAKGGGGGAAATGGGAAGATGTTGGTCAAAGGGTACAAAGTTKCAGTTATGTARGATGAATAAGTTCTRGAGAYCTAATGTACAGCATGGTGACTATAGTTAATAATACTGTATTGTATACTTGAAATTTGCTAAGAGAGTAGATYTTAAGTGTTCTCACCACANACAAATGGTAACTATGTGAGGTGATGGATATGTTAATTAGCTTGAYTGTGGTAATCATTTCACAATGTATACATATATCAAAACATCACGTTGTACACCTTAAATATATACAATTTTTATTTGTCAATTATACCTCAATAAAGCTGRAAA >L1MA10 3'-end of L1 repeat (subfamily L1MA10) - a consensus sequence TTAATATCCAAAATATATAAAGAACTCYTACAACTCAACAAAAAAAAAACAAACAACCCAATTAAAAAATGGGCAAARGACTTGAATAGACATTTCTCCAAAGAAGAYATAYAAATGGCCAATAAGYACATGAAAARATGCTCAACATCAYTAATCATTAGGGAAATGCAAATCAAAACCACAATGAGATAYCACCTYACACCCATTAGGATGGCTATTATYAAAAAAMCAGAAAATAACAAGTGTTGRYGAGGATGTGGAGAAATTGGAACCCTTRTRCATTGCTGGTGGGAATGTAAAATGGTRCARCCACTRTGGAAAACAGTATGGHRGTTCCTCAAAAAATTAAAAATAGAATTACCATATGACCCAGCAATYCCACTYCTRGGTATATACCCAAAAGAATTGAAATCATGTTCYYAHAAAGATAYTTGTACACCMATGTTCATAGCAGCATTATTCAYAATAGCCAAAAGGTGGAAACAACCCAAATGTCCATCAATGRWTGAATGGATAAACAAAATGTGGTATATACATACAATGGAATATTATTCAGCCTTAAAAAGGAAGGAAATYCTGACAYATGCTACAACATGGATGAACCTTGARGACATTATGCTAAGTGAAATAAGCCAGTCACAAAAGGACAAATACTGCATGATTCCACTTATATGAGGTATCTAAAATAGTCAAACTCATAGAARCAGAGAGTAGAATGGTGGTTGCCAGGGGCTGGGGGRAGGGGGAAATGGGGAGTTGCTGTTCAATGGGTATAAAGTTTCAGTTATGCAAGATGAATAAGTTCTAGAGATCTGCTGTACAACATTGTGCCTATAGTTAATAATACTGTATTGTACACTTAAAAWTTGTTAAAAGRGTAGATCTCATGTTAAGTGTTCTTATCGCACAACAAAAAAATGGGGAACTTTTGGRRGTGATGGATATGTTCATTATCTTGATTGTGGTGATGGTWTCACGGGTGTNTACATATGTCAAAACTCATCAAATTGTACACWTTAAATATATGCAGTTTTTAGTGTATAATTATACCTCAACAAAGCTGTTTT >L1MB3 3'-end of L1 repeat (subfamily L1MB3) - a consensus sequence TTAATATCCAAAATATATAAAGAACTCYTACAACTCAACAAAAAAAAAACAAACAACCCAATTAAAAAATGGGCAAARGACTTGAATAGACATTTCTCCAAAGAAGAYATAYAAATGGCCAATAAGYACATGAAAARATGCTCAACATCAYTAATCATTAGGGAAATGCAAATCAAAACCACAATGAGATAYCACCTYACACCCATTAGGATGGCTATTATYAAAAAAMCAGAAAATAACAAGTGTTGRYGAGGATGTGGAGAAATTGGAACCCTTRTRCATTGCTGGTGGGAATGTAAAATGGTRCARCCACTRTGGAAAACAGTATGGHRGTTCCTCAAAAAATTAAAAATAGAATTACCATATGACCCAGCAATYCCACTYCTRGGTATATACCCAAAAGAATTGAAATCATGTTCYYAHAAAGATAYTTGTACACCMATGTTCATAGCAGCATTATTCAYAATAGCCAAAAGGTGGAAACAACCCAAATGTCCATCAATGRWTGAATGGATAAACAAAATGTGGTATATACATACAATGGAATATTATTCAGCCTTAAAAAGGAAGGAAATYCTGACAYATGCTACAACATGGATGAACCTTGARGACATTATGCTAAGTGAAATAAGCCAGTCACAAAAGGACAAATACTGTATGATTCCACTTATATGAGGTACCTAGAGTAGTCAAATTCATAGAGACAGAAAGTAGAATGGTGGTTGCCAGGGGCTGGGGGGAGGGGGGAATGGGGAGTTAKTGTTTAATGGGTACAGAGTTTCAGTTTGGGAAGATGAAAAAGTTCTGGAGATGGATGGTGGTGATGGTTGCACAACAATGTGAATGTACTTAACGCCACTGAACTGTACACTTAAAAATGGTTAAAATGGTAAATTTTATGTTATGTATATTTTACCACAATTAAAA >L1MB7 3'-end of L1 repeat (subfamily L1MB7) - a consensus sequence YTTGTATCCAGAATATATAAAGAACTCTTACAACTCAACAATAAAAAAACAAACAACCTAATTAAAAAATGGGCAAAAGAYTTGAATAGATATTTCTCCAAAGAAGATATAYAAATGGCCAATAAGCACATGAAAAGATRCTCAACATCATTAGTCATCAGGGAAATGCAAATYAAAACCACAATGAGATAYCACTTCACACCCAYTAGAATGGCTAAAATTAAAAAGACAGRMAATAMCAARTGTTGGYRAGGATGTRGAGAAAYTGGAACHCTCATACAYTGCTGGTGGGAATGTAAAATGGTACARCYACTTTGGAAAACAGTTTGGCAGTTCCTCAAAAAGTTAAMAATAGAGTTACCATATGACCCAGCAATTYCACTCCTAGGTATWTACCCAAGAGAAATGAAAACATAYRTCCAYACAAAAACTTGTACACAAATGTTCATAGCAGCATTATTCATAATAGCCAAAAAGTGGAAACAACCCAAATGTCCATCAATRATWGAATGGATAAACAAAATGTGGTATATCCATACAATGGAATATTATTCAGCMATAAAAAGGAATGAAGTAMTGATMYATGCAACAACATGGATGAACCTTGAAAACATTATGCTAAGTGAAAGAAGCCARRCACAAAAGRCCACATATTGTATGATTCCATTTATATGAAATGTCCAGAATAGGCAAATCCATAGAGACAGAAAGTAGATTAGTGGTTGCCAGGGGCTGGGGGRAAGGGGAAATGGGGAGTGACTGCTAATGGGTACGGGGTTTCTTTTTGGGGTGATGAAAATGTTCTAAAATTAGATAGTGGTGATGGTTGCACAACTYTGTGAATATACTAAAAACCACTGAATTGTACACTTTAAAAGGGTGAATTTTATGGTATGTGAATTATATCTCAATAAARCTAT >L1MC2 3'-end of L1 repeat (subfamily L1MC2) - a consensus sequence YTTGTATCCAGAATATATAAAGAACTCTTACAACTCAACAATAAAAAAACAAACAACCTAATTAAAAAATGGGCAAAAGAYTTGAATAGATATTTCTCCAAAGAAGATATAYAAATGGCCAATAAGCACATGAAAAGATRCTCAACATCATTAGTCATCAGGGAAATGCAAATYAAAACCACAATGAGATAYCACTTCACACCCAYTAGAATGGCTAAAATTAAAAAGACAGRMAATAMCAARTGTTGGYRAGGATGTRGAGAAAYTGGAACHCTCATACAYTGCTGGTGGGAATGTAAAATGGTACARCYACTTTGGAAAACAGTTTGGCAGTTCCTCAAAAAGTTAAMAATAGAGTTACCATATGACCCAGCAATTYCACTCCTAGGTATWTACCCAAGAGAAATGAAAACATAYRTCCAYACAAAAACTTGTACACAAATGTTCATAGCAGCATTATTCATAATAGCCAAAAAGTGGAAACAACCCAAATGTCCATCAATRATWGAATGGATAAACAAAATGTGGTATATCCATACAATGGAATATTATTCAGCMATAAAAAGGAATGAAGTAMTGATMYATGCAACAACATGGATGAACCTTGAAAACATTATGCTAAGTGAAAGAAGCCARRCACAAAAGRCCACATATTGTATGATTCCAACTATATGACATTCTGAAAAAGGNAAAACTATGGAGACAAGTAAAAAGATCAGWGATTNCTAGAGKGASTRGGARRGGGAGGGAAGAATAGGTGGAGCNCAGGGGATTTTTAGGGCAGCGAAACTATTCTGTATGATACTATAATGGTGGATACATGACATTATACATTTGTCAAAAYCCATAGAACTGTACAAYACAAAGAGTGAACCCTAATGTATGGACTTTAGTTAATAATAATGTATCAATGTTGGTTCATCAATTGTAACAAATGTACCACATTAATGCAAGATGTTAATAATAGGGTAAACTRTTGTGTGGGGGAGGGAGTATATGGGAACTCTCTGTACTTTCTGCTCAATTTTTCTGTAAACCTAAAACTGYTTCAAAAAATAAAGTCTATTAATAA >L1MD1 3'-end of L1 repeat (subfamily L1MD1) - a consensus sequence YTTGTATCCAGAATATATAAAGAACTCTTACAACTCAACAATAAAAAAACAAACAACCTAATTAAAAAATGGGCAAAAGAYTTGAATAGATATTTCTCCAAAGAAGATATAYAAATGGCCAATAAGCACATGAAAAGATRCTCAACATCATTAGTCATCAGGGAAATGCAAATYAAAACCACAATGAGATAYCACTTCACACCCAYTAGAATGGCTAAAATTAAAAAGACAGRMAATAMCAARTGTTGGYRAGGATGTRGAGAAAYTGGAACHCTCATACAYTGCTGGTGGGAATGTAAAATGGTACARCYACTTTGGAAAACAGTTTGGCAGTTCCTCAAAAAGTTAAMAATAGAGTTACCATATGACCCAGCAATTYCACTCCTAGGTATWTACCCAAGAGAAATGAAAACATAYRTCCAYACAAAAACTTGTACACAAATGTTCATAGCAGCATTATTCATAATAGCCAAAAAGTGGAAACAACCCAAATGTCCATCAATRATWGAATGGATAAACAAAATGTGGTATATCCATACAATGGAATATTATTCAGCMATAAAAAGGAATGAAGTAMTGATMYATGCAACAACATGGATGAACCTTGAAAACATTATGCTAAGTGAAAGAAGCCARRCACAAAAGRCCACATATTGTATGATTCCATTTACATAACATTCTTAAAATGACAAAATTWTAGARWTGRAGARCAGATTCCTGGTTGCCAGGGGTTAGGGACGGGGGTGGGGGTGGAGGGAGGTGGGCATSSTGGAGTTCCCTGTGGTGATGGAAATGTTCTGTATCTTCACTGTCACTGTATCAATGTCAATATCCTGGTTGTGATAYTGTAYTATAGTTTTGTAAGATGTTACCATTGGGGGAAGCTGGGTGAAGGGTACACGGGATCTCTCTGTAYTATTTCTTACAATTGTCTGTGAGTKTAYAATTATTTCAAAATAAAGTTTAATTTAAA >L1MD2 3'-end of L1 repeat (subfamily L1MD2) - a consensus sequence YTTGTATCCAGAATATATAAAGAACTCTTACAACTCAACAATAAAAAAACAAACAACCTAATTAAAAAATGGGCAAAAGAYTTGAATAGATATTTCTCCAAAGAAGATATAYAAATGGCCAATAAGCACATGAAAAGATRCTCAACATCATTAGTCATCAGGGAAATGCAAATYAAAACCACAATGAGATAYCACTTCACACCCAYTAGAATGGCTAAAATTAAAAAGACAGRMAATAMCAARTGTTGGYRAGGATGTRGAGAAAYTGGAACHCTCATACAYTGCTGGTGGGAATGTAAAATGGTACARCYACTTTGGAAAACAGTTTGGCAGTTCCTCAAAAAGTTAAMAATAGAGTTACCATATGACCCAGCAATTYCACTCCTAGGTATWTACCCAAGAGAAATGAAAACATAYRTCCAYACAAAAACTTGTACACAAATGTTCATAGCAGCATTATTCATAATAGCCAAAAAGTGGAAACAACCCAAATGTCCATCAATRATWGAATGGATAAACAAAATGTGGTATATCCATACAATGGAATATTATTCAGCMATAAAAAGGAATGAAGTAMTGATMYATGCAACAACATGGATGAACCTTGAAAACATTATGCTAAGTGAAAGAAGCCARRCACAAAAGRCCACATATTGTATGATTCCATTTATATAACATTCTTAAAACGACAAAACTATAGAGATGGAGAACAGATTAGTGRTTGCCAGGKGTTAGGGATRCAGGRAGGAGGTGGATGTGRYTATAAARRGGTAGCATGAGRGAATYTTTATGGTGATGGAACWGTTCTGTATCTTGAYTGTGGTGRTGGTTACACGAATNTATACATGTGATAAAATTGCATAGAACTAAATACACACACACACATAAGTACAAGTAAAACTGGCGAAATCTGAATAAGATTRATGGATTGTAYCAATGTCAATTTCCTGGTTKTGATATTGTAYTATAGTTTTCCAAGATGTTACCATTGGGGGAAGCTGGGTGAAGGGTACACGGGATCTCTCTGTAYTATTTCTTACAATTGTCTGTGAGTKTAYAATTATTTCAAAATAAAGTTTAATTTAAA >L1ME2 3'-end of L1 repeat (subfamily L1ME2) - a consensus sequence YTTGTATCCAGAATATATAAAGAACTCTTACAACTCAACAATAAAAAAACAAACAACCTAATTAAAAAATGGGCAAAAGAYTTGAATAGATATTTCTCCAAAGAAGATATAYAAATGGCCAATAAGCACATGAAAAGATRCTCAACATCATTAGTCATCAGGGAAATGCAAATYAAAACCACAATGAGATAYCACTTCACACCCAYTAGAATGGCTAAAATTAAAAAGACAGRMAATAMCAARTGTTGGYRAGGATGTRGAGAAAYTGGAACHCTCATACAYTGCTGGTGGGAATGTAAAATGGTACARCYACTTTGGAAAACAGTTTGGCAGTTCCTCAAAAAGTTAAMAATAGAGTTACCATATGACCCAGCAATTYCACTCCTAGGTATWTACCCAAGAGAAATGAAAACATAYRTCCAYACAAAAACTTGTACACAAATGTTCATAGCAGCATTATTCATAATAGCCAAAAAGTGGAAACAACCCAAATGTCCATCAATRATWGAATGGATAAACAAAATGTGGTATATCCATACAATGGAATATTATTCAGCMATAAAAAGGAATGAAGTAMTGATMYATGCAACAACATGGATGAACCTTGAAAACATTATGCTAAGTGAAAGAAGCCARRCACAAAAGRCCACATATTGTATGATTCCATTTATATGAAATTCWAGAACAGGCAAAACTAATCTATAATGNTAGAAATCAGAATAGTGGTTGCCTCTGGKGAGGGTRAATGACTGGRAAGGGRCATGAGGGAATTTTCTGGGGTGATGGAAATGTTCTATATCTTGATCGGGGTGGTGGTTACACGAGTGTATACATTTGTCAAAACTCATCGAACTGTACACTTAAAATCTGTGCATTTTACTGTATGTAAATTATAYCTCAATTTTAAAAAA >L1ME3a 3'-end of L1 repeat (subfamily L1ME3a) - a consensus sequence YTTGTATCCAGAATATATAAAGAACTCTTACAACTCAACAATAAAAAAACAAACAACCTAATTAAAAAATGGGCAAAAGAYTTGAATAGATATTTCTCCAAAGAAGATATAYAAATGGCCAATAAGCACATGAAAAGATRCTCAACATCATTAGTCATCAGGGAAATGCAAATYAAAACCACAATGAGATAYCACTTCACACCCAYTAGAATGGCTAAAATTAAAAAGACAGRMAATAMCAARTGTTGGYRAGGATGTRGAGAAAYTGGAACHCTCATACAYTGCTGGTGGGAATGTAAAATGGTACARCYACTTTGGAAAACAGTTTGGCAGTTCCTCAAAAAGTTAAMAATAGAGTTACCATATGACCCAGCAATTYCACTCCTAGGTATWTACCCAAGAGAAATGAAAACATAYRTCCAYACAAAAACTTGTACACAAATGTTCATAGCAGCATTATTCATAATAGCCAAAAAGTGGAAACAACCCAAATGTCCATCAATRATWGAATGGATAAACAAAATGTGGTATATCCATACAATGGAATATTATTCAGCMATAAAAAGGAATGAAGTAMTGATMYATGCAACAACATGGATGAACCTTGAAAACATTATGCTAAGTGAAAGAAGCCARRCACAAAAGRCCACATATTGTATGATTCTATTTGCATAAAATACAAAACCAGGCAAAACTAATCAATGNTGTTAGAAGTCAGGATAGTGGTTGTTCTGGGAATAGTAATGACTGTAAGGRARCATGAGAGGGCTTTCTGGGGTGCTGGTAATGTTCTGTTTCTTGATCTGGGTGCTGGTTACACGGCTGTGTTCARTTTGTGAAAATTCATYAAGCTGTACACTTATGATWTATGCAYTTTTATGTATGTATATTATAYYTCAATAAAAA >THE1b consensus sequence TGATATGGTTTGGCTGTGTCCCCACCCAAATCTCATCTTGAATTGTAGCTCCCATAATTCCCACGTGTCGTGGGAGGGACCCGGTGGGAGGTAATTGAATCATGGGGGCGGGTCTTTCCCGTGCTGTTCTCGTGATAGTGAATAAGTCTCACGAGATCTGATGGTTTTATAAAGGGGAGTTYCCCTGCACANGCTCTCTTGCCTGCCGCCATGTAAGACGTGMCTTTGCTCCTCCTTCGCCTTCYGCCATGATTGTGAGGCCTCCCCAGCCATGTGGAACTGTGAGTCCATTAAACCTCTTTYCTTTATAAATTACCCAGTCTCGGGTATGTCTTTATTAGCAGCATGAGAACGGACTAATACA >MSTa consensus sequence TGATATGGTTTGGATCTGTGTCCCCACCCAAATCTCATGTTGAATTGTAATCCCCAATGTTGGAGGTGGGGCCTGGTGGGAGGTGATTGGATCATGGGGGCGGATTYCTCATGAATGGTTTAGCACCATCCCCTTGGTGCTGTYCTCGTGATAGTGAGTGAGTTCTCATGAGATCTGGTCGTTTAAAAGTGTGTGGCACCTCCCYCCTCTCTCTCTTGCTCCTGCTCTCGCCATGTGACGTGCCTGCTCCCCCTTCGCCTTCCGCCATGATTGNAAGCTTCCTGAGGCYTCCCCAGAAGCCGAGCAGATGCCAGCGCCATGCTTCCTGTACAGCCTGCAGAACCGTGAGCCAATTAAACCTCTTTTCTTTATAAATTACCCAGTCTCAGGTATTTCTTTATAGCAATGTGAGAACAGACTAATACA >MSTc consensus sequence TGCTACGGTTTGAATGTTTGTCCCCTCCAAAACTCATGTTGAAACTTAATCCCCAATGTGGCAGTATTGAGAGRTGGGGCCTTTRAGAGGTGATTGGGTCATGAGGGCTCTGCCCTCATGAATGGATTAATGGATTAACGTATTAATGGATTAATTGGTTATCACGGGAGTGGGATCGGTGGCTCTATCATAAAARYCATTTTGNCTCTCGNRTGNGCCCCTTCTTGCCCTTTCACGCCTTCCGCCATGTTATGACAGAGCACAAGGCCCTCACCAGAAACCAGATGCAGCCGCCATGATCTTGGACTTCCCAGCCTSCAGAACCGTGAGCAAAATAAACCTCTTTTCTTTATAAATTACCCAGTCTATGGTATTCCGTTAAAGCAGCACGAACGGACTAAGACA >MLT1a (MLT1a subfamily) - consensus sequence TGCTATGGACTGAATGTTTGTGTCCCCCCAAAATTCATATGTTGAAGCCCTAATCCCCAATGTGATGGTATTAGGAGGTGGGGCCTTTGGGAGGTGATTAGGATTAGATGAGGTCATGAGGGCGGGGCCCTCATAATGGGATTAGTGCCCTTATAAAAGAGACCYCAGAGAGCTCCCTTGCCCCTTCCGCCATGTGAGGACACAGTGAGAAGGCGCCGTCTACGAACCAGGGAATGAGCCCTCACCAGAAACTGAATCTGCCGGCGCCTTGATCTTGGACTTCCCAGCCTCCAGAACTGTGAGAAATAAATTTCTGTTGTTTAAGCTACCCAGTCTATGGTATTTTGTTATAGCAGCCCGAACAGACTAAGACA >MLT1b (MLT1b subfamily) - consensus sequence TGTTATGGGCTGAATTGTGTCCCCCCAAAATTCATATGTTGAAGTCCTAACCCCCAGTACCTCAGAATGTGACTGTATTTGGAGATAGGGTCTTTAAAGAGGTAATTAAGTTAAAATGAGGTCATTAGGGTGGGCCCTAATCCAATATGACTGGTGTCCTTATAAGAAGAGGAAATTWGGACACAGACACGCACAGAGGRAAGRCCATGTGARGACACAGGGAGAAGGCGGCCATCTRCAAGCCAAGGAGAGAGGCCTCAGAAGAAACCAACCCTGCCGRCACCTTGATCTCGGACTTCYAGCCTCCAGAACTGTGAGAAAATAAATTTCTGTTGTTTAAGCCACCCAGTCTGTGGTACTTTGTTACGGCAGCCCTAGSAAACTAATACA >MLT1c (MLT1c subfamily) - consensus sequence TGTTATGGGTTGAATTGTGTCCCCCCAAAATTGATATGTTGAAGTCCTAACCCCTAGTACCTCAGAATGTGACCTTATTTGGAAATAGGGTCWTTGCAGATGTAATTAGTTAAGATGAGGTCATACTGGAGTAGGGTGGGCCCTAAATCCAATATGACTGGTGTCCTTATAARAAGAGGAAATTTGGACACAGACACGCACACGGGGAGAAGGCCATGTGAAGACGGAGGCAGAGATTGGAGTGATGCAKCTACAAGCCAAGGAACGCCAARGRYTGCCAGCAAACCACCAGAAGCTAGGAAGAGGCAAGGAACAGATTCTCCCTCACAGCCYTCAGAGGARRCCAGCCCTGCCGACACCTTSATCTCGGACTTCTGGCCTCCAGAACTGTGAGAGAATAMATTTCTGTTGTTTAAGCCACSCAGTTTGTGGTACTTTGTTACGGCAGCCCYAGGAAACTAATACA >MLT1d (MLT1d subfamily) - consensus sequence TGTGGTAGGCWGAATAATGGCTCCCCAAAGATGTCCACGTCCTAATCCCCAGAACCTGTGAATATGTTACCTTACATGGCAAAAGGGACTTTGCAGATGTGATTAAGTTAAGGATCTTGAGATGGGGAGATTATCCTGGATTATCCGGGTGGGCCCAATGTAATCACAAGGGTCCTTAWAAGAGGGAGGCAGAGGGTCAGAGTCAGAAGAAGGAGATGTGACGATGGAAGCAGRRAGNGAAAACTCAACGTTGCTGGCTTTGAAGATGGAGGAAGGGGCCATGAGCCAAGGAATGCGGGCAGCCTCTAGAAGCTGGAAAAGGCAAGGAAACGGATTCTCCCCTAGAGCCTCCAGAARGAACGCGGCCCTGCCGACACCTTGATTTTAGCCCAGTGAGACYCATTTTGGACTTCTGACCTCCAGAACTGTAAGATAATAAATTTGTGTTGTTTTAAGCCACTAAGTTTGTGGTAATTTGTTACAGCAGCMAYAGGAAACTAATACA >MLT1e (MLT1e subfamily) - consensus sequence TGTGGTAGGCAGAATTCTAARATGMTCCCAATGATCCTCGCCTCCTGGCGTAATCTCCTTGAGTGTGAGTAGGACCTGTGACTTGCTTCTAGCCAACGGAATATGGCAAAGGTGATGARATRTCACGTGATTACGCGTACGTGATTATGTAASATTCAGTCTTTGMCGTCATTCTTGCCGAGAGACTCTCCTSCTGGTYTTGAAGAAGTAAGCTGCCACGTCATGAGNNNNCNNANNAGARYGCCGCAAGGCAAGGGNNTCTAGAGCTGAGAGTCGCCCTTACTGATGGGCAGCAAGAAGCAAGCCACCTCAGTCCTACAGCCGCAAAGAACTGAATTCTGCCAACAACCTAGTGAGCTTGGAAGCAGATCCTGCCCAGTCGAGCCTCCAGATGAGANCGCAGCCCTGGCTGACGCCTTGACTGCAGCCTTGNTAGACCTTGAGCAGAGGACCCAGCTAAGCCGTGCCCAGACTCCTGACCCACAGAAACTGTGAGATAATAAATGTGTGTTGTTTTAAGCCGCTAAGTTTGTGGTAATTTGTTACGCAGCAATAGAAAACTAACACA >MLT1f (MLT1f subfamily) - consensus sequence TGTGGTAGCCAGCCTCCAAGATGGCCCCCAATGATCCCTGCTCCTGGTATTCACAYCCTTGTATGGTCYCYTCCTACATTGARYYAGGGCTRGTCTGTGTGACCAATAGAATAGGGCAGAAGTGATGGCGTGTSACTTCCAAGAYTARGTCAYAAAWAACACTGTGGYTTCTGCYTTGNTCTCTTCGGGCTACTCACTCTGGGGGAAGCCAGCTGCCATGCTATGAAGACACTCAAGCAGCCTATGGAGAAGTCCACGTGGSAAGGAACTGAGGTCTCCTGCCAACAGCCAGCTTCGACYTGCCAGCCATGTGAGTGAGCCATCTTGGAAGCGGATCCTCCAGCCCCAGTYAAGCCTTCAGATGACTGCAGCCCCGGCTGACATCTTGACTGCAACCTCATGAGAGACCCTGAGCCAGAACTACCCAGCTAAGCTGCTCCTARATTCCTGACCCACAGAAACTGTGAGATAATAAATGTTTRTTGTTTTAAGCCACTAAGTTTTGGGGTAATTTGTTACGCAGCAATAGATAACTAATACA >THE1BR THE-1B Mammalian LTR retrotransposon internal sequence - a consensus GTAAATTGGTACCAGTAGAGTGGGGCGCTGCTGAAAAGATACCCGAAAATGTGGAAGCGACTTTGGAACTGGGTAACAGGCAGAGGTTGGAACAGTTTGGAGGGCTCAGAAGAAGACAGGAAAATGTGGGAAAGTTTGGAACTTCCTAGAGACTTGTTGAATGGCTTTGACCAAAATGCTGATAGTGATATGGACAATAAAGTCCAGGCTGAGGTGGTCTCAGATGGAGATGAGGAACTTGTTGGGAACTGGAGCAAAGGTGACTCTTGTTATGTTTTAGCAAAGAGACTGGCGGCATTTTGCCCCTGCCCTAGAGATTTGTGGAACTTTGAACTTGAGAGAGATGATTTAGGGTATCTGGCGGAAGAAATTTCTAAGCAGCAAAGCGTTCAAGAGGTGACTTGGGTGCTGTTAAAGGCATTCAGTTTTAAAAGGGAAGCAGAGCATAAAAGTTCGGAAAATTTGCAGCCTGACAATGCGATAGAAAAGAAAATCCCATTTTCTGAGGAGAAATTCAAGCCGGCTGCAGAAATTTGCATAAGTAACGAGGAGCCGAATGTTAATCCCCAAGACAATGGGGAAAATGTCTCCAGGGCATGTCAGAGATCTTCGCGGCAGCCCCTCCCATCACAGGCCCGGAGGCCTAGGAGGAAAAAATGGTTTCGTGGGCCAGGCCCAGGGTCCCCGTGCTGTGTGCAGCCTAGGGACTTGGTGCCCTGCGTCCCAGCCGCTCCAGCCATGGCTAAAAGGGGCCAACGTACAGCTCGGGCCGTGGCTTCAGAGGGTGCAAGCCCCAAGCCTTGGCAGCTTCCACGTGGTGTTGAGCCTGCGGGTGCACAGAAGTCAAGAATTGAGGTTTGGGAACCTCCGCCTAGATTTCAGAGGATGTATGGAAACGCCTGGATGTCCAGGCAGAAGTTTGCTGCAGGGGCGGGGCCCTCATGGAGAACCTCTGCTAGGGCAGTGCGGAAGGGAAATGTGGGGTCGGAGCCCCCACACAGAGTCCCTACTGGGGCACTGCCTAGTGGAGCTGTGAGAAGAGGGCCACCGTCCTCCAGACCCCAGAATGGTAGATCCACCGACAGCTTGCACCGTGCGCCTGGAAAAGCCGCAGACACTCAACGCCAGCCCGTGAAAGCAGCCAGGAGGGAGGCTGTACCCTGCAAAGCCACAGGGGCGGAGCTGCCCAAGACCATGGGAACCCACCTCTTGCATCAGCGTGACCTGGATGTGAGACATGGAGTCAAAGGAGATCATTTTGGAGCTTTAAGATTTGACTGCCCCGCTGGATTTCGGACTTGCATGGGGCCTGTAGCCCCTTTGTTTTGGCCAATTTCTCCCATTTGGAATGGCTGTATTTACCCAATGCCTGTACCCCCATTGTATCTAGGAAGTAACTAACTTGCTTTTGATTTTACAGGCTCATAGGCGGAAGGGACTTGCCTTGTCTCAGATGAGACTTTGGACTGTGGACTTTTGAGTTAATGCTGAAATGAGTTAAGACTTTGGGGGACTGTTGGGAAGGCATGATTGGTTTTGAAATGTGAGGACATGAGATTTGGGAGGGGCCAGGGGCGGAA >MSTAR MSTa-Mammalian LTR internal retrotransposon sequence - a consensus GAAWATTGGTACTGAGGAGTGGAGCATTGCTATAAAGATACCTGAAAATGTGGAAGCGACTTTGGAACTGGGTAACAGGCAGAGGTTGGAAGAGTTTGGAGGGCTCAGAAGAAGACAGGAAGATGAGGGAAAGTTTGGAACTTCTTAGAGACTTGTTAAATGGTTGTGACCAAAATGCTGATAGTGATATGGACAGTAAGGGCCAGGCTGACGAGGTCTCAGATGGAAATGAGGAACTTATTGGGAACTGGAGCAAAGGTCACTCTTGTTATACATTAGCAAAGAGCTTGGCTGCATTTTGCCCCTGCCCTAGAGATTTGTGGAAGTTTGAACTTGAGAGTGATGATCTAGGGTATCTGGCGGAAGAAATTTCTAAGCAGCAAAGCGTTCAAGATGTGACCTGGCTGCTTTTAACAGCTTACAGTCATATGCGAGAGCAAAGAAATCACTTAAAGTTGGAATTTATATTTAAAAGGGAAGCAGAGCGTAAAAGTTTGGAAAATTTGCAGCCTGGCCATGTGATAGAAAAGAAAAACCCGTTTTCTGGAGAGAAATTCAAGCAGGCTGCGGAGCGACCGTTTGCTAAAGAGATTAGCATAACTAAAAGGAAGCCAAGTGCTGATAGCCAAGACAATGGGAAAAAGGCCTCGAAGGCATTTCAGAAATCTTCGAGGTGGTCCTTCCCATCACAGGCCCAGAGGCCTAGGAGGACTGAATGGTTTCGTGGGCCAGGCCCAGGGCCCCGCTGCCCTGTGCAGCCTCGGGACACTGCTCCCTGCATCCCGGCTGCTYCGGCTCCAGCCGTGGCTCAAAGGGCCCCAGGTACAGCTCGAGCTGCCGCTTCGGAGAGTGCAAGCTATAAGCCTTGGTGGCTTCCACATGGTGTTAAGCCTGCAGGTGCACAGAATGCAAGAGTGAAGGAGGCTTGGCAGCCTCCACCTAGATTTCAGAGGATGTATGGGAAATCCTGGGTGCCCAGGCAGAAGCCTGCTGCAGGGACGGAGCCCTCACAGAGAACCTCTACTAGAGCAGTGCCAAAGGGAAATGTGGGGTTGGAGCCCCCACACAGAGTCCCCACCGGGGCACTGCCTAGTGGAGCTGTGGGAAGGGGGCCACTGTCCTCCAGACCCCAGAATGGTAGAGCCACTGGCAGCGTGCACCGCCAGCCTGGAAAAGCCGCAGGCATCAGACTCCAACCCGTGAGAGCAGCCACGTGGGCTGTGCCCAGCAAAGCCACAGGGGCGGAGCTGCCCAAGGCCTTGGGAGCCCACCCCTCGCACCAGCGTGCCCTGGATGCGAGACACGGAGTCAAAGGAGATTATTTTGGAGCTTTAAGATTTAATGACTGCCCTGCTGGGTTTCGGACTTGCGTGGGGCCTGTAGCCCCTTTCTTTTGGCCCATTTCTCCCTTTTGGAATGGAAATATTTACCCAATGCCTGTACCACCATTGTATCTTGGAAGTAAATAACTTCTTTTTGATTTTACAGGCTCATAGGTGGAAGGAACTTGCCTTGTCTCAGATGAGACTTTGGACTTTGGACTTTTGAGTTAATGCTGGAATGAGTTAAGACTTTGGGGGACTGTTGGGAAGGCATGATTGTATTTTGCAATGTGAGAAGGACGTGAGATTTGGGGGAACCAGGGGCAGAA >MLT1R MLT1-Mammalian LTR retrotransposon internal sequence - a consensus GATTTTGGCACTAGGAAGTGGGGTGCTTACGTAACAAATACCTAAAAATGTGGAAGCGACTTTGGAACTGGGTAATAAGTAGAGGCTGGAAGAGTTTTGAGGTACATGYTAGAAAAAGCCTAGATTTCCTTGAAGAGACTGTTGGTAGAAATATGGATATTAAAGGYAATTCTGGTGGGGGGCTCAGAAAGGAAGWGGAGAGCTATAGAGAAAGCTCCCGTCGTCTTAGAGAATACAAAAATCGTCATGAACAGAATGTTGCTAGAAATATGAATGTTAAAGGTGCTTCTGGTGAGGTCTCAGACGGAAATGAGGGAGATGTTATTGAAAATTGGAGGAAAGGTGATCCTTGTTATAAAGTAGCAAAGAACTTGGCTGAATTGTGTTCATGTCCTAGGGCTTTATGGAAAGTAGAACTTGYAAGTGATGAACTKGGATATTCAGCTGAGGAAATTTCTAAGCAAAGTGTTGAGGGCGCAACCTGACTTCTCCTAACTGCTTATAGTAAAATGTGAGAGACATAAAGATGGAANTGTTGAGTAAAAAGGAACCAGAACGTAAAGATTTGGAAAATTCTCAGCCTGATCATGTAACAGAAANNNCAATAGCGTTCTCTGGAAAGAANACCAAGGATGTNNCCGNGCAACCGTTTGCTAAAGAGATTAGRATCGTGACTCGTGGGTCCAATCAACCATCTCAGCARAARCCARGAATAGAGATGRGGTTATTTAGGAAATATCTGTGGAGGACTCTCTTATCTGATGGCTCGAACCCCTATGACTTNCATAGGAGACCGACAAGGNTTTTGAGAATNTTACACCAGCAGAAACACTGCCAACTTGGACTRAAGGGRACAGAGACGAGAAAAAATGAAGGAAGRGTGGCAGACCGAAGGTGGGGCTGTCTCGTTTCAGAGCATGGKGTCACCCCAGCGGGCCCGGAAGATGAATCTCAGGACTCAGAGGCATTAGCCTCCAGCCTTAAGATCTAATGAAGTTTGCCCTGCTGGGTTTTGGACTTGCTTGGGACCNGTGACTCCTTTCTTYYYTTCYATTTCTCCCTTTTGGAATGGGAATATCTATCCTATGCCTGYCCCACCGTTGTATTTTGGAAGCAGATAACTTGTTTNATTRCACAGGTCCACAGATGGAGAGGAATTTTGCCYCTGAATGAATCTYACCCTGAGTYTCTNCCAYACYTGATGYRGRTGATATTTCGCTGAGATTGTGGACTAAGAGTTGGTGCTGGAAGGGGTTAGACATTGGGGAGATGTTGCTATGGGATGCAGGGATTTTGCATGTGAGAAGGACATGATTATGGGGGGAGCGGAGGGCAAAC >MLT2A1 Interspersed repeat MLT2A1- a consensus TGTGATGGTTAATACTGAGTGTCAACTTGATTGGATTGAAGGATACAAAGTATTGATCCTGGGTGTGTCTGTGAGGGTGTTGCCAAAGGAGGTTAACATTGGACTCAGTGGGCTGGGGAGAGGCAGACCCACCCTTAATCTGRGTGGGCGCMATCYAATCAGCTGCCAGCGTGGCTAGAATATAAAGCAGGCAGAAAAATGTGAAAAGAGAGACTGGCCTAGCCTCCCAGCCTACATCTTTCTCCCGTGCTGGATGCTTCCTGCCCTTGAACATCAGACTCCAAGTTCTTCAGTTTTGGGACTCGGACTGGCTCTCCTTGCTCCTCAGCTTGCAGACGGCCTATTGTGGGACCTTGTGATCGTGTGAGTTAATACTTAATAAACTCCCCTTTATATATATCTATTCYATTAGTTCTGTCCCTCTAGAGAACCCTGACTAATACA >MLT2B2 Interspersed repeat MLT2B2 - a consensus TGTGATGGTTAATTTTATGTGTCAACTTGACTGGGCTAARGGGTGCCCAGATAGCTGGTTAAACATTATTTCTGGGTGTGTCTGTGAGGGTGTTTCCAGATGAGATTAGCATTTGAATCAGCGGACTGAGTAAAGAAGATTGCCCTCACCAATGTGGGCGGGCATCATCCAATCCGTTGAGGGCCTGRATAGAACAAAAAGGCAGAGGAAGGGTGAATTTGCTCTCTCTCCTTGAGCTGGGACATCCATCTTCTCCTGCCCTTGGACATTAGAACTCCAGGTTCTCGGGCCTTCGGACTYCGGGACTTGCACCAGCAGCCCCCCAGATTCTCAGGCCTTCGGACTCGGACTGARYYACGCCACCGGCTTCCCTGGTTCTCCAGCTTGCAGACGGCATATCGTGGGACTTCTCAGCCTCCATAATCACGTGAGCCAATTCCCCTAATAAATCYCYTCTATCCATCCTATTGGTTCTGTCTCTCTGGAGAACCCTGACTAATACA >MLT2C2 Interspersed repeat MLT2C2 - a consensus TGTGATAGTTAATTTTATGTGTCAACTTGGCTAGGCTATGGTGTCCAGACGTTTGGTCAAACAYCAGTCTAGATGTTGCTGTGAAGGTATTTTRTAGATGTGATTAACATTTAYAGTCAGTTGACTTTAAGTAAAGGAGATTACCCTCCATAATGTGGGTGGGCCTCATCCAATCAGTTGAAGGCCTTAAGAGCAAAGACTGAGGTTTCCCGAGGAAGAAGAAATTCTGCCTCAAGACTGCAACGTGGAAATCCTGCTGNTTTWCCAGCCTCCAAGCCTTCGGACTCGAACTGCAACATCARCTCTTSCCTGGGTCTCCAGCCTGCCGGCCTACCCTGCAGATTTCGGACTTGCCAGCCTCCACAATCGCGTGAGCCAATTCCTTAAAATAAATCTCTCTCTACACACACCCTATTGGTTCTGTTTCTCTGGAGAACCCTGACTAATACA >MLT2D Interspersed repeat MLT2D - a consensus TGTGATAGTTAATTTTATGTGTCAACTTGGCTAGGCTATGGTGTCCAGACGTTTGGTCAAACATTAGTCTGGGTGTTTCTGTGAAGGTTATTTTTTGGATGAGATTAACATTTAAATCGGTAGACTGAGTAAAGCAGATTACCCTCCCTAATGTGGGTGGACCTCATCTAATCAGTTGAAGGCCTGAATGGAAAAAAAGGGCTGACCCTCCCCCAAGTAAGAGGAAATTCTGCCTGCCTGATNGTCTTCGAACTGGAATATCAGCTCTGCGGATTTTGGACTTGCCAGCCTCCATAATTGCATGAGCCAATTCCTTATAATAAATCTATCTACTCTCTCTACACACACCCTATTGGTTCTGTTTCTCTGGAGAACCCTGACTAATACA >LTR1 LTR from human endogenous retrovirus-like sequence (HUERS-P2). TGATATGGGAGTGCTGGGAAGGGAAGAGCGTGGTCCCTTTAAATGATACAGAAGGGGGAAAGGAAGTGCTGTGTGGAGGAGGATGTGGTCCCTGGCTAGTACTCCAACCACACAGACCTAGGTTAAGGACAGGCATTTTTGTTGCATTTCCCAAGACCACCCTGGCCTGCCATGCCCCCATCCTGTGCCTATAAAAACCCAAGACCCTAATAAGGCAGAGATAGAAGCAGCTGGACGTCATGAGGAACACATCAGTGGAAGAGCACACAAGCGGCTAGTCATCAAGAGCTCACCAGTGGAAGAGCAGCCCGATAGGCACTGGCACGCAGGCAGGTACCGGCATGCCAGCAGGCCATCGACTGGCAAAATGATGCCGAATTTGGCTGGAGTGGTCAGAGAAGAGCCAGGTCACTGAGCTGCCGGACTCCAGGGGAAAACCATCTCCCTTCTGGCTCCCCCATCCACTGAGAGCTATTTCTACTCAATAAAACCTTGCAGTCATTCTCCAGGCCCACATGTGATCTGATTCTTCTGGTACATCAAGGCAAGAAACCCCAGGATACAGAAAGCCCTCTGTCCTTGTGACAAGGTAGAGGGTCTAACTGAGCTGGTTAACACAAGCTGCCTGTAGATGGCAAACTAAAAGAGCACCTTGTAACACATGCCCACTGGAGCTTCAGGAGCTGTAAACATTCACCCCTAGACACTGCCATGGGATTGGAGCCCCACAGCTTGCCTGTCCAAATGCTCCCCTAGAGGTTTGAGCAGCAGGGCACTGAAGAAGTGAGCCACACCCCCATCACATCCCCTGTGAGGGGAACAAGGGAACCTTTCCTATTTCA >LTR2 LTR from human endogenous retrovirus (4-14), 3' long terminal repeat TAAGGAAGGAGACCACCTCTCCCATTGTCTCCTGTTTCATGAGAAAGCAAAAAGTTAAAAAAAGAAGCAGAAGTGAGATCAATGGCCAGATGGTTTAGTGCCAAGAACCAGGCCTGGTAGTTAAACATCAACTCCTGACCTAACCGCTTGTGCTATCCATAGATTCCAGATATTGTATGAGGAAGACTTGTGAAACTTTCTGTTCTGTTCTGCTAGCCCCCATCACTGATGCATGTAGCTCTCAGTCATGTAGCCCCCACTTGCACAATGTATCATGACCCTTTCACGTGGACCCCTCAGAGTTGTAAGCTCTTAAAAGGGACAGGAATCTTTACTTTGGGGAGCTCGGATCTTGAGACGCGAGTCTACCAATGCTCCCAGCTGATTAAAGCCTCTTCCTTCATAGAACCGGTGTCTAAGAGGTTTTGTCTGTGACTGTTCCTGCTACA >LTR3 LTR from human DNA related to mouse mammary tumor virus (MMTV) 3' LTR GTTGGAGGCCGAAAGAATAGGGTCGTGACCAACTCAGTATACCACTGGAGGCTATATGAGCAAACAGCAAACTGTTCTCATGAATGCAGGATGCTGGCAAGCTGACAACTGCATCTGCCACCAGAAGGAATGCTGAGGGCAGTCATACCCCACGTGCAGTGTTCCTTGTGGTTATCTATAGGAATATCTGGAGGCTGTTGTATAAAGAAAGCAATTATGTGAGCCCGTGATAAATCAAGCAGCTGACCAACCATTACCTCTTCCTCCCTGTTGATTCTACCTAATAAATACAAAGGGCTGTAGAAGCTCAGGGCCCTTGTTCCCTAGAAGAAAGGAGCCGCCTGTCTCCTTCTTTAAAACAGATCTTTTTGTCTTTGTCTTCATTTCTGCATTTGTTCTCTTTTGTTCAGTCCCAAACCGACAGCCATA >LTR4 LTR from human endogenous retrovirus ERV3, POL-ENV-3'LTR region GAAGCAGGAAATATAAAAGGAAAAACAAGTAAAGGGAAAACAAGTCCTTTCCTGACCAGTCTGACTCACTCCAAAGTCCTGCTGGAGCTATGATAATTATCTGCAAGGCCAGGCAGGGGCTCCGAAGGAGGGCTCCAGGAGCAGGGATGAGAAAAACAAGTTCTCCTTATCAGTTTCCCTGTTTGAAATTCTCTCCCCATAACATTATTCTTTGTTCTGCTCTCACAACTATTTTTGTAACTATTTCTGCAAGTCTGTAAAGATTTTGTAAGTTCTTGTTTTTCTTTCTGTAGCATGGCAAGGTCACAAGACATGTTTAAGTAAGGTAGGCTCATGTTGCAAATCCTGTTGTAAAACCTGTCACGGTATGATTAACTGCCTTTGTTCTGCTTCTGTAAGACTGCTTTCTCACCTCGCAGGTTTTGCGCCAAAAACCCGACTTGCCCCTGCCTGATGCATGTATAAAAGTCAAGCCCGTCTTTGTTCCGGGCTCAGCCTTTGGATGTTAATCCGCTGGGCCAGTGGCCACCTAAATAAAACCTTCCTGTTGCACCCAGTGATCTCTCCGGCCTCCTGATACCCACAACA >LTR5 LTR from human endogenous retrovirus 5' LTR, clone HERV-K18 TGTGGGGAAAAGCAACAGAGGTCAGATTGTTACTGTGTCTGTATAGAAAGAAGTAGACATAGGAGACTCCATTTTGTTCTGTACTAAGAAAAATTATTCTGCCTTGAGATGCTGTTAATCTATGACCTTACCCCCAACCCCGTGCTCTCTGAAACATGTGCTGTGTCAAACTCAGGGTTAAATGGATTAAGGGCGGTGCAAGATGTGCTTTGTTAAACAGATGCTTGAAGGCAGCATGCTCATTAAGAGTCATCACCACTCCCTAATCTCAAGTACCCAGGGACACAAAAACTGCGGAAGGCTGCAGGGGCCTCTGCCTAGGAAAGCCAGGTATTGTCCAAGGTTTCTCCCCATGTGAGAGTCTGAAATATGGCCTCGTGGGAAGGGAAAGACCTGACCGTCCCCCAGCCCGACACCCATAAAGGGTCTGTGCTGAGGAGGATTAGTATAAGAGGAAAGCATGCCTCTTGCAGTTGAGACAAGAGGAAGGCATCTGTTTCCCACCCATCCTTGGGCAATGGAATGTCTCGGTATAAAACCCGATTGTACGTTCCACCTACTGAGATAGGGAGAAACCACCTTAGGGCTGGAGGTGGGACATGCAGGCAGCAATACTGCTTTGTAAAGCATTGAGATGTTTATGTGTATGCATATCTAAAAGCACAGCATTTAATCCTTTACCTTGTCTATGATGCAAAGACCTTTGTTCACGTGTTTGTCTGCTCACCCTCTCCCCACTATTGTCTTGTGACCCTGACACATCTCCCTCTCAGAGAAACACCCACGAATGATCAATAAATACTAAGGGGACTCAGAGGCTGGTGGGATCCTCCATATGCTGAACGTTGGTTCCCCGGGCCCCCTTATTTCTTTCTCTATACTTTGTCTCTGTGTCTTTTTCTTTTCCAAGTCTCTCATTGCACCTTACGAGAAACACCCACAGGTGTGGAGGGGCAACCCACCCCTTCA >LTR6 LTR from human SSAV-related endogenous retroviral LTR-like element TGGCCAGATTCCTGCTTAGATTCATCACTCACATCAAAAAGGCCAACAGAGCCCAACAAGAAACATAGGTCCCCAAGCATAGGCCAGGCCCCTTAAAACTGTGCCTAAGTCGAGTGAAGCCTTTAGATTAATTCTTTTTATTTATCTCTCTTGTTTATTTCCACCTGTTATGCCCTCCGTGCCTTCCTATTCTTCTCACTTCTTTCACGACAGGACGTGTATTTGCAAACACTACTTGGAAGGCAAGAACCTCCAAGAAAGTCTCTTTTGCAGTCGATTTATGTGCTTTGTTCCCAGAGCCTGCCCATAACCTTGAAGAACAATGCAACCTGCCGGTCATAGAAGCGGGGAACATCAACCTTGCTACAGGGTTCGGACACACAGGAAGCCGGACTGGATGTAAAAACTCTAAAAGTGAAAAAAAAAGGACTCCAGAGCATTGACTTTTACCTCTGTCCTAAAAATCACCCTGACTCTAGTTGTCACGATTCTTACCAATTTTTCTGCCCTCACTGGTTTTGTGTGACCCTAGCCA >LTR7 LTR from human endogenous retrovirus RTVL-H2 TGTCAGGCCTCTGAGCCCAAGCTAAGCCATCACATCCCCTGTGACTAGCACATATACGCTCAGATGGCCTGAAGTAACTGAAGAATCACAAAGAAGTGAAAATGCCCTGCCCCACCTTAACTGATGACATTCCACCACAAAAGAAGTGAAAATGGCCGGTCCTTGCCTTAAGTGATGACATTACCTTGTAAGAGTCCTTTTCCTGGCTCATCCTAGCTCAAAAATCTCCCCTACTGAGCACCCTGCGACCCCCACTCCTACCCGCCAAAGAACAACCCCCCTTTGACTGTAATTGTCCTTTACCTACCCAAATCCTATAAAACAGCCCCACCCCTATCTCCCTTTGCTGACTCTCTTTTCGGACTCAGCCCGCCTGCACCCAGGTGATTAAAAGCTTTATTGCTCACACAAAGCCTGTTTGGTGGTCTCTTCACACGGACGCGCATGAAA >LTR8 region TGAAACCGTCTTTGCAAAATTATAACTGAGATAGTGAAAGAGATTTAACTTAACTGCTTTTATCTTGCTTTTAACCTTTAAGCTGTCCTTGTTTATTCCTGGGTGTGGGCTGAACTAACTTTTGGAGAAACTTAGTTTATAGTTTATAGTTTAAACAAAGACAGTAACAGCCCTTTCCCAAGCAGACCTCCTTCATGCCTGGGGACTAGATTGCTTCTGTAGGACTAATGTTAGCGACCAAATTAAAAATTATGGTTTAGGAGTTATGCAGTTTGAGGCTACAAAATTTTAACCCTCTCTAAACTGCTCCTAAGATCAGTGCTTGAGATATTTTGCAGACCCTGCCCTTGACGGATCAGCTGGCACCAACCAGATCAATCAACTGGCTCATCTGATCTTGCGGCCCCCACCCAGGAACTGACTCAGCGCAAAAAGACAGCTTCAACTTCCTATGATTTCATCCCTGACCAATCAACACTCCTGGCTCACTGGCTTCCCCCCACCCACCAAGTTATCCTTAAAAACTCTGATTCCTGAATGCTCAGGGAGACTGATTGGAGTAACAATAAAACTCCAGTCTCCCACACAGACGGCTCTGTGTGAATTACTCTTTCTCCATTGCAATTCCCCTGTCTTGTTGAATCGGCTCTGTCCAGGTAGTGTGCAAGGTGAACCCCTTGGGTGGTTACA >LTR9 LTR from human endogenous retrovirus-like sequence (HUERS-P3) AAAGAATAAATCACTGATATAAGAGTTAAGAAAAAATCACTTAGGCAGAGAGCAAGGGTATGGGAGTCCTCAGTAAGGCTTTTATTTTTAATGAAAAGCAGCCCCAAATCATTTTCTAACAAAAAGCACCCTGCAAGCTGGAAGTTTGCACAGGTGGATGCTGGCAGGAACTAAGGATTAGATATGTTCAAGATGGTGGTTCCATCTTCCCTTCTTTGCCAGCCAGGTGTACTGTAAAGGAGCAGACAAGATGGCGCTAATCAACTGGAAAGCCCAGTTGCATAAAAAGATTAGGCTTCCCTGCGCACCATGCAAACGTCATATCTGATCAAACCAATCTATGAGCTCTATGTAAATCAGACACCACTTCCTCAAACTGGACTATAAAACTCGATGGATTCACCACCAGCTGGTCTTTTCCGCTTGGAGACCCCTTCCTCTATAGAGGAAGCTGTTTCTCTTTGTCTTCTCTCCTACCCATTAAACCTCTGCTCCTAAACTCCTCATGTGTGTCCATATCCTAAATTTTCCTGGCACGTGACAACAAACCCCAGTGTATACACACCCCAGACAACATAGCCACTTCAAAATGGGGGCTCGTCTGGGAT >LTR10 Human DNA sequence 5'-flanking minisatellite PMS32 TGTTGTAAATAAATTTTTGGTGCTGCAAAAGAAATACCACTCAAACATAAGTTTAATTTTCTCAGCAAGGCAATTTTACTTCTCTAGAAGGGTGCGACTCGCAGATGGAGCAATGGCCAGAGCACACCTGAACAAGGGAGGGGAAGGGGTTCTGATTCCTGACACAGGTAGCCCCTACTGATGCGTCGTTCCCGTATCGGCTAGGGTTGGACTGCACAGTCTAAGCTAATTCCGATTGGCTACTTTAAAGAGAGCAGGGGTATGAGCCAGAGTGGCGGGGTGAGTAGTTTGGTGGGAAGGGTGGTT >LTR11 LTR from human HTLV-I related endogenous retroviral sequence (HRES-1/1) TGTGTTTCTGCAGGATGTACAGCCCTCCCAGCACGGTGCTCGCTTCCCTAATGCCATTCCACAGTATTTGTTGCAGAGAAGGAAGGCAGCATGCCAGGACAGATGGAGACAGGACTAATTTGGCCTGAGGTATGTAATTTTGAACTTGAGCCTCTCTCTGGGACTGTAAAACTCCAAATCAAAGCTAATCTGAGAATACATACATCTGAAAGATGATTAGGACTGTAAACATCTATTAATATTCAACTCTGATACAAAGTACAAGTTGTTTATTCTTACCACGCAAGGCCAAAAAAGGGGAGAAAAAAAAAAAAGCACACAGCATATGCACTGGAAAGTTTCGCTTATTCAAAACAGTATTTGTCAAGCACCTCCAGTCTGGTGCTGCAGGGGAAACAAAGATTAAACAGCCAGGCGGACACTGCTCTGCTTCCAAGGTGCTTACGGTCTTAAGAAGGAGACAAGACATGTTTATAAATAGCCAAAATGCAACCCAGAAAAGGCTAAAAAACACTGAGAGGGAGGGAGAAATAAACGAAGCAAGAGGTCTCCGGAGGAAGAGATGAATGAATTAGCCTATTAATAACTCCGTCACTGTAATCCCAATGTAAAGCAAGAATTCCAAACCAGGAAAGGTCAAACTGAAGTATTTGAGGAACACAGGCGTCGCCTAAGCCCTTCACA >LTR12 LTR from human ERV9 endogenous retroviral sequence (HRES-1/1) TGTATCTAGTTAATCTGGTGGGGAGTTGGAGAATCTTTATGTCTAGCTAAGGGATTGTAAATACACCAATCAGCACTCTGTATCTAGCTCAAGGTTTGTAAACACACCAATCAGAACCCTGTGTCTAGCTCAGGGTTTGTGAATGCACCAATCAGCACTCTGTATCTAGTTAATCTGGTGGGGACTTGGAGAATCTTTATGTCTAGCTAAGGGATTGTGAATGCACCAATCGGCACTCTGTATCTAGCTCAAGGTTGTAAATGGACCAATCAGCACTCTATGTCTAGCTCAGTGTTTGTAAATACACCAATCGACACTCTATCTAGCTAATCTAGTGGGGACGTGGAGAACTTTTGTGTCTAACTCAGGGATGTAAATGCACCAATCAGAACCCTGTCAAAATGGACCAATAGCTCTCTGTAAAACAGACTGACTTTCTGTAAAATGGACCAATCAGCAGGATGTGGGTGGGGCCAGATAAGAGAAGAAAAGCAGGCTGCCTGAGCCAGCAGTGGCAACCCGCTTGGGTCCCCTTCCACACTGTGGAAGCTTTGTTCTTTCGCTCTTTGCAATAAATCTTGCTGCTGCTCACTCTTTGGGTCCACACTGCCTTTATGAGCTGTAACACTCACCGCGAAGGTCTGCAGCTTCATCTGAAGCAGCGAGACACGAACCCACCAGGAGGAACAAACAACTCCGATGCGCTGCCTTAAGAGCTGTAACACCGCGAGGTCTCGAGCTTCACTCCTGAGCCAGCAAGACCACAAACCCACCAGAAGGAAGAAACTCAGGAAAACAGCCGAACATCAGAAGGAATAAACTCTGGACACACCACCTTTAAGAACTGTGACACTCGCTGCGAGCGTCTGTGGCTTCA >LTR13 LTR from a putative human endogenous retrovirus TGTGGGCCGCAAGCCAGGGAGCTGCCCAGGCAAGAGCCTGAAGGCACAAGCTGTTCCAGTACAGCAAAGAAAATAATTAGAATAAGAAAAGTTTTACTAGAGATAGGAAACGGATAGGATTATATCTGACTATTATTAATCATTAGTTTGTAGCATCACTCTTTGTTCTATTACCATAATGATCTCTGTTCTATTATGATTACCTTGGGGGAAACCAGGCCACACAGAGTTAGGAGCTGAAGGGCCACAGTGAGAGGTGACCAGAAGACGAGAGTGTGAGCCCTCATTCACGCCCAGAGAAGGGCCGCTGGAGGGCTCCTTGGCCTAGCGGTAATGCCAGTGCCTGGGAAGGCCCTGGTTACTTAGCAGGCCTTGGTCTAGCGGTGGCCCCAGTGCCTGGGAAGGCACCCGTTACTTAGCAGACCCGGAAAGGAATCTCCCTCTCTCCAGGGGAGACAGAGAACGCTCCGCTCCACCACCTCTTGTGGGAGGTCTGACATTAGCCAGGCCGGGCCGAGTCATCCGGAGGCTCCAACGTCTGTCTCCCTGTGATGCTGTGCTTCAGTGGTCACGCTCCTTGTTCACTTTCATGTTCAGCCTGTGCACCTGGCTCCTCCTTTTAAGTTCTTAGAAGACAGCAGTAGCAGAACTAGTAGGAGTACCACAGTCTTCGATCTTTCTGATAAGTGCATAGAAGAAACGCTGACGTTTGCTGTCCTCCCTCTCCACCTCGGCTACCACAAAGGGAAAGGCCCCCTGTCCAGTGGACACGTGACTCGCGTGACCTATCGATCATTGGAGATGACTGGCACTCCTTACCCTGCCCCCTTGCCTTGACTACAATAAATAGCAGCGCCTCCAGGCACTCGGGGCCACTACCTGTCTGTCTCCGCGCTTTGGTGGCAGTGGTCCCCCGGGCCCAGCTGTCTTTCTTCCTATCTCTTTGTCTTCTGTCTTTATCTCTTCGATCTCTCGTCTCCGCACACACGCGAAGAGAAAACCCACAGACCCGGTAGGGGTGGACCCTACA >MER1A Nonautonomous DNA transposon CAGGGGTCCCCAACCCCCGGGCCACGGACCGGTACCGGTCCGTGGCCTGTTAGGAACCGGGCTGCACAGCAGGAGGTGAGCGGCGGGCGAGTGAGCGAAGCTTCATCTGTAKTTACAGCCGCTCCCCATCACTCGCATTACCGCCTGAGCTCCACCTCCTGTCAGATCAGCGGTGGCACTAGATTCTCATAGGAGCGCGAACCCTATTGTGAACTGCGCATGCGAGGGATCTAGGTTGCGCGCTCCTTATGAGAATCTAATGCCTGATGATCTGTCGCTGTCTCCCATCACCCCCAGATGGGACCGTCTAGTTGCAGGAAAACAAGCTCAGGGCTCCCACTGATTCTACATTATGGTGAGTTGTRTAATTATTTCATTATATATTACAATGTAATAATAATAGAAATAAAGTGCACAATAAATGTAATGCACTTGAATCATCCCGAAACCATCCCCCCCCCCTGGTCCGTGGAAAAATTGTCTTCCACGAAACCGGTCCCTGGTGCCAAAAAGGTTGGGGACCACTG >MER1B Nonautonomous DNA transposon CAGGGGTCCCCAACCCCCGGGCCGCGGACCGGTACCGGTCCGTGGCCTGTTAGGAACYGGGCTGCACAGCAGGAGGTGAGCGGCGGGCGAGTGAGCATTACCGCCTGAGCTCCGCCTCCTGTCAGATCAGCGGCGGCATTAGATTCTCATAGGAGCGCGAACCCTATTGTGAACTGCGCATGCGAGGGATCTAGGTTGCGCACTCCTTATGAGAATCTAATGCCTGATGATCTGAGGTGGAACAGTTTCATCCCGAAACCATCCCCGCCCCCCGGTCCGTGGAAAAATTGTCTTCCACGAAACCGGTCCCTGGTGCCAAAAAGGTTGGGGACCACTG >MER2 Nonautonomous DNA transposon CAGTCGYCCCTCCGTATCCGTGYGTTCCACATCCGTGGATTCAACCAACCGCGGATCGAAAATATTCAGGYAAAAAATTGYATGGTTGCGTCTGTACTGAACATGTACAGACTTTTTTNCTTGTCATTATTCCCTAAACAATACAGTATAACAACTATTTACATAGCATTTACATTGTATTAGGTATTATAAGTAATCTAGAGATGATTTAAAGTATACGGGAGGATGTGCGTAGGTTATATGCAAATACTACGCCATTTTATATCAGGGACTTGAGCATCCGCGGATTTTGGTATCTGCGGGGGGTCCTGGAACCAATCCCCCACGGATACCGAGGGATYACTG >MER3 Nonautonomous DNA transposon CAGCGCTGTCCAATAGAACTTTCTGTGGTGATGGAAATGTTCTATATCTGCGCTGTCCAATACGGTAGCCACTAGCCACATGTGGCTAYTGAGCACTTGAAATGTGGYTAGTGCGACTGAGGAACTGAATTTTTAATTTTATTTAATTTTAATTAATTTAAATTTAAATAGCCACATGTGGCTAGTGGCTACCATATTGGACAGCGCAG >MER4A a consensus TGTGAAAGGAAAATAAATCTCGGGRCCCCMAAATCACTAAGCCAAAGGGAAAAGTCAAGCTGGGAACTGCGTYAGGCAAACCTGCCTCCCATTTTATTCCTAAATAAGATAGCTACAAAGATAAAAGGCTACATACCTCTCTCACAATTTYCYACAAGGAAATTCCTTGCGGACCTCAAGATCTTTACCCTAAAACAGTTCTGYTGAMYTTCACCTTGGCAWTGYAAATGGRTACAGGACAAAGGTACAGAACTGAAAGTCATCCCTCTGCTCACCTGAGACAAATGCATATCTGATTGCTTCCTCTGCCCTATTGTTTATGTAAAAATGCAGATTCACTGAGCCAGACTMAATTGTGTATTCAGTGAAARGCTGATCARRGACTCAAAAGAATGMAGCCWTTTGTCTCTTATCTACCTATGACCTGGAAGCCCCTRCTTCGAGTTGTCCCGCCTTTCCAGACCGAACCAATGTACATCTTACATATATTGATTGATGTCTCATGTCTCCCTAAAATGTATAAAASCAAGCTGTRCCCCGACCACCTTGGGCACATGTCGTCAGGACCTCCTGAGGCTGTGTCACGGGTGCGTCCTTAACCTTGGCAAAATAAACTTTCTAAATTGAYTGAGACCTGTCTCAGATACTTTTGGGTTCACA >MER4B a consensus TGTAAACCAAAAATAAAATTCTAAGKCCCCCAACCGTCTGAATGGACYCCTCCTCTYGGCCAAGGGCAYTCCAAAGYTAACCTGRAAAACTAGTTCAGGCCATGATGGGAAGTGGGGGTCGGACACGCCTCATTATACCYTCCYYCTTCTGGAATTCAGGCACAACTGACCAGCATTAACATCAACACAGACNTTAAGTCTGATAAGAAACAGTTTACAAYCTRTTCTCTCTGAAGCCTGCTANCTGAARGCTTCATCTGCACGATAAAACTTGGTCTCCGCAACCCCTTATNTCATAACCCGGACATTCCTTTCCATTGATCTYAANTCTTCAACCARTTGCCAATCAGAAAATCTTTGAATCTACCTATGACCTGGAAGCCCCCGCTTCGAGTTGTCCCGCCTTTCCGGACCGAACCAATGTACATCTTACATGTATTTGATTGATGCCTCATGTCTCCCTAAAATGTATAAAASCAAGCTGTRCCCCGACCACCTTGGGCACATGTKGTCAGGACCTCCTGAGGCTGTGTCACGGGTGCGTCCTTAACCTTGGCAAAATAAACTTTCTAAATTGAYTGAGACCTGTCTCAGATACTTTTGGGTTCACA >MER4C a consensus GTTRGNGTTRGNGATTGCNNNTGTGAAAGGAAAATAAAAACTTGGGACCCNAATTCACTNTGCCAAAAGGAAAAAATTAAGCTGAAANCTGAGTCATGCAAGAAACTGCCTTTCCTTTTNTTCCTAAGCAGATANCTACAGATAAAAGGTTAAATATCTCCACAGRCAGTGACTCTATGTTCACCTTYCYTATGTAAAGTGKCGATTTACTGAGCACGMKAKGRATAGATAATTGACTATTCCCCTACCTGCTCCTTTTCTCTTGCAACATGTGGATTACCAYAMCCTYYYTCTTTCCCCTCCAGCCTACYTTTCCCNTTTAAATATTGAAGCCCTCAAANTCATCNCTGGAGAAAGGCACAGACCACAGAMTSTTTYTGTRAYTYCGTGTTTCTCCTNGGCATGTCCTTAACNTTGGCAAAATAAACTNCTAAATCGATTGAGACCTGTYTCAGAYACWTTTKGGTTTACA >MER5a a consensus CAGTGGTTCTCAAAGTGTGGTCCCCGGACCAGCAGCATCAGCATCACCTGGGAACTTGTTAGAAATGCAGATTCTCGGGCCCCACCCCAGACCTACTGAATCAGAAACTCTGGGRGTGGGGCCCAGCAATCTGTGTTTTAACAAGCYCTCCAGGTGATTCTGATGCATGCTCAAGTTTGAGAACCACTG >MER5b a consensus CAGTGGTTCTCAACCYTGGCTGCAYATTAGAATCACCTGGGGAGYTTTTAAAAATCCNGATGCCCGGGCCACACCCCAGACCAATTAAATCAGAATCTCTGGRGGTGGGACCCAGGCATCAGTATTTTTTAAARCTCYYCAGGTGATTCCAATGTGCAGCCAAGGTTGAGAACCACTG >MER6 Nonautonomous DNA transposon CAGCAGGTCCTCGAATAACGCCGTTTCATTCAACGTCGTTTCGTTATAACGYTGATGAGRAAAAAAATCGATTCCCGGCCGGGGCCACTGTCTGTGTGGAGTTTGCACGTTCTCCCCATGTCTGCGTGGGTTTTCTCCAGGTACTCCGGTTTCCTYCCACATCCCAAAGATGTGCACGTTAGGTTCAYTGGCGTGTCTACATGGTCCCAGTCTGAGTGAGTGTGNNTGTGTGTGTGAGTGTGCCCTGCGATGGGATGGCGTCCTGTCCAGGGNTGGYTCCCGCCTTGCGCCCTGAGCTGCCGGGATAGGCTCTGGCCACCCGTGACCCTGAAMTGGAATAAGTGNRTTGRAAAATGAATRAATGAATGARTACGAATTATTATAAAATAAAAATTTGTAAAGTCTATGNTAATCTTACACATACATGACAATACATGAAATGGTAAGAAAGTGATCAGTGAGCCTGCCATATATGTTATTGCTTGTTTCTGAACTGAGTGGTGGGAGGAGGTGTTCCTAACAATGTTCACTTTGCAGACATTTATTTCTTTATTTAATCCATTATCACTATGACCACTGTCATTCAGTKATTCWCCAAAAATTGGGTAAATAATTATCWTRYTTGTTTTTATTAATCTTTCTTAAATGTATGTATAGCTCACATTTATTTCAGTGTTTAATATTAGAAGTGTTTTGGGTCTTTATTTAGAAGTTTGGTGATGTTTTTGTGACCAGAAATATGCCATAGGAACTTAACTCTTGTTTATATCAATTAGCCTRTGGTAAAATTGGTTTCGTTATACGTCGTTTCACTTAAAGTCGCAGTTTCCAAGAACCTATCAACGACGTTAAGTGAGGACTTACTG >MER7A Nonautonomous DNA transposon CAGTCATGCGTCGCTTAACGACGGGGATACGTTCTGAGAAATGCGTCATTAGGCAATTTCGTTGTGCGAACATCATAGAGTGTACTTACACAAACCTAGATGGTATAGCCTACTACACACCTAGGCTATRTGGTATAGCCTATTGCTCCTAGGCTACAAACCTGTACAGCATGTTACTGTACTGAATACTGTAGGCAATTGTAACACAATGGTAAGTATTTGTGTATCTAAACATAGAAAAGGTACAGTAAAAATACGGTATTATAATCTTATGGGACCACCGTCGTATATGTGGTCCATCGTTGACCGAAACGTCGTTATGCAGCGCATGACTG >MER7B Nonautonomous DNA transposon CAGTCATGCGTCGCTTAACGACGGGGATACGTTCTGAGAAATGCGTCATTAGGCAATTTCGTTGTGCGAACATCATAGAGTGTACTTACACAAACCTAGATGGTATAGCCTACTACACACCTAGGCTATRTGGTATAGCCTATTGCTCCTAGGCTACAAACCTGTACAGCATGTTACTGTACTGAATACTGTAGGCAATTGTAACACAATGGTAAGTATTTGTGTATCTAAACATAGAAAAGGTACAGTAAAAATACGGTATAAAAGATAAAAAATGGTACACCTGTATAGRGCACTTACCATGAATGGAGCTTGCAGGACTGGAAGTTGCTCTGGGTGAGTCAGTGAGTGAGTGGTGAGTGAATGTGAAGGCCTAGGACATTACTGTACACTACTGTAGACTTTATAAACACTGTACACTTAGGCTATACTAAWTTTATWWWWWWWWWWWWWYTTTTTCAGCAATAAATTAACCATAGCTTACTGTAACTTTTTTACTTTATAAACTTTTGCATTTTTAACTTTTGACTCTTTTGTAATAACACTTAGCTTAAAACACAAACACATTGTACAGCTGTACAAAAATATTTTCTTTCTTTATATCCTTATTCTATAAGCTTTTTTCTATTTWWAAATTTTTWATTTTTTTATTTTTTAAAANATTTTTGTTAAAAACTAAGACACAAACACACACATTAGCCTAGGCCTACACAGGGTCAGGATCATYAATATCACTGTCTTCCGCCTCCACATTTTGTCCCACTGGAAGGTCTTCAGGGGCAATAACATGCATGGAGCTGTCATCTCCTATGATAACGATGCYTTCTTCTGGAATATCTCCTGAAGGACCTGCCTGAGNCTGTTTTACAGTTAACTTTTTTTTTTAATAAGTAGAAGGAGTAYACTCTAAAATAATAATAAAAAGTATAGTATAGTAAATACATAAACCAGTAACATAGTCATTTATTATCACTATCAAGTATTATGTACTGTACATAATTGTATGTGCTATACTTTTATACAACTGGCAGCGCAGTAGGTTTGTTTACACCAGCATCGCCACAAACGCGTGAGTAMTGAGTRATATGTTGCACTACAACGTCACTAGGCGATAGGAATTTTTCAGCTCCATTATAATCTTATGGGACCACCGTCGTATATGTGGTCCATCGTTGACCGAAACGTCGTTATGCAGCGCATGACTG >MER8 Nonautonomous DNA transposon CAGTTGTCCCTCTGTATANNCGGGGGATTGGTTCCAGGACCCYTGTGTATACMAAAATCCGCGCATACTCAAGTCCCGAAGTCGGCCCTGCGGAACCCACGNATATGAAAAGTCGGCCCTCCATATATACGGGTTTCGCATCCCGCGAATACTGTATTTTCAATCCGCGTTTGATTGAAAAAAATCCGCGTATAAGTGGACCCACGCAGTTCAAACCCGTGTTGTTCAAGGGTCAACTG >MER9 a consensus TGCGAGACCAGCTCGACTGGGGACAGCCTAACCCAGTGGCACTAGAGGAATTAAAGACACACACACAGAAATATAGAGGTGTAAAGTGGGAAATCAGGGCCTCACAGCCTTCAGAGCTGAGAGCCCCAAACAGAGATTACCCATGTATTTATTAACAGCAAGCCAGTCATTAGCATTGTTTCTATAGATACTCGATTAACTAAAAGTATCCCTTATGGGAAAAGAAGGGATGGGCCGAAATGAAGGGGTGGGTCTGGCTAGTTATCTGCAGCAGGAACATGCCCTTAAGGCACAGATTGCTCATGCTATTGTTCATGGTTTAAGAACGCCTTTAAGCGGTTTTCCGACCTGGGTGGGCCAGGTGTTCCTTGTCCTCATTCCAGTAAACCCACAACCTTCCAGCGTGGGCGTTANGGCCATCATGAACATGTCACAGTGCTGCAGAGATTTTGTTTATGGCCAGTTTTGGGGCCAGTTTATGGCCAGATTTGGGGGGGCCTGTTCCCAACA >MER11A a consensus AGGTGTTGCGGGAAGTCAGGGACCCCGAATGRAGGGACCGGCTGRAGCCATGGCAGARGAACGTRRATTGTGAAGATTTCATGGACATTTATCGGTTCCCAAATTAATACTTTTATAATTTCTTATGCCTGTCTTTACTTTAATCTCTTAATCCTGTTATCTTCGTAAGCTGAGGATGTATGTCACCTCAGGACCACTGTGATAATTGTGTTAACTGTACAAATTGATTGTAAAACGTGTGTTTGAACAATATGAAATCAGTGCACCTTGAAAAAGAACAGAATAACAGCRATTTTTAGGGAACAAGGGAAGACAACCATAAGGTCTGACTGCCTGCAGGGTCGGGCAAAAAGAGCCATATTTTTCTTCTTGCAGAGAGCCTATAAATGGACATGCAAGTAGGGAAGATATCGCTAAATTCTTTTCCTAGCAAGGAATATTAATATTAATACCCTGGGAAAGGAATGCATTCCTGGGGGGAGGTCTATAAACGGCCGCTCTGGGAATGTCTGTCTTATGTGGTTGAGATAAGGACTGAGATACGCCCTGGTCTCCTGCAGTACCCTCAGGCTTACTAGGGTGGGGAAAAACTCCACCCTGGTAAATTTGTGGTCAGACCGGTTCTCTGCTCTCGAACCCTGTTTTCTGTTGTTTAAGATGTTTATCAAGATAATATGTGCACCGCTGAACATAGACCCTTATCAGTAGTTCTGTTTTTGCCCTTTGCCTTGTGATCTTTGTTGGACCCTTATCAGTGGTTCTGCTTTTGCCCTTTGTCCTGTTCCCTCAGAAGCATGTGATCTTTGTTAGACCCTTATTAGTAGTTCTGCTTTTTGCCCTTTGAAGCATGTGATCTTTGTACCCACTCCCTGTTCTTACACCCCCTCCCCTTTTGAAACCCTTAATAAAAAACTTGCTGGTTTGAGGCTCAGGTGGGCATCACAGTCCTACCGATATGTGATGTCACCCCCGGCGGCCCAGCTGTAAAATTCCTCTCTTTATACTGTCTCTCTTTATTTCTCAGCCGGCCGACACTTAGGGAAAATAGAAAGAACCTACGTTGAAATATTGGGGGCGGGTTCCCCCGATACTAATTNTCTT >MER11B a consensus TGCAAGTAGGGAAGATATCGCTAAATTCTTTTCCCAGCAAGGAATATTAATAATTAATAGCCCTGGGAAAAGAATGCATTCCTAGGGGGAGGTCTCTRAAATGGCCGCTCTGGGAATGTCTGTCTTATGTGGTTGTAGATAAGGGATGAAATACGCCCTGGTCTCCTGCAGCACCCCCAGGCTTACTAGGATGGTGGGAAATTCCAGCCTGGTAAATTTTAGTCAGACCGGTTCTCTGCTCTCGAACCCTGTCTCCTGTTAAGATGTTATCAATGATAATGCGTGCCCGAAACCTCATTAGCAATTTTAATTTCGCCTCCATCCCTGTGGTCCTGTGATCTCGCCCTGCCTCCATTTGCCTTGTGATATTTTATTGCCCTGTGAAGTATGTGATCTCTGTGACCCACACCCTGTTCGTACACTCCCTCCCCTTTTAAAATCCCTAATAAAAACTTGCTGGTTTGACGGCTCGGGGGGCATCACGGAACCTACCGACATGTGATGTCTCCCCCGGACGCCCAGCTTTAAAATTTCTCTCTTTTGTACTCTKTCCCTTTATTTCTCAGRCCGGCCGACACTTAGGGAAAATAGAAAAGAACCTACGTGAAATATTGGGGCTGGTTCCCCCGATACTAATTNTCTT >MER20 Nonautonomous DNA transposon CAGTGGTTCTCAACCGGGGGTGATTTTGCCCCCCAGGGGACATTTGGCAATGTCTGGAGACATTTTTGGTTGTCACAACTGGGGGGGGGGRATGCTACTGGCATCTAGTGGGTAGAGGCCAGGGATGCTGCTAAACATCCTACAATGCACAGGACAGCCCCCACAACAAAGAATTATCCGGCCCAAAATGTCGATAGTGCCAAGGTTGAGAAACCCTG >MER21 a consensus GCCCTYCTRTTKCAGRAAAACCTCTCTCAAACCATGTTTTYCCTCTGCTSTCATACCACGACAACAGTCGTCAACACAGAAGACTTCTGTGACCAAATGTGTGGAGGATTTTCCCCACACACCAAGCAGCAGACACCAGCTGGGCGTCCTCCAAYTCAGTTCCGACACTGTCTACCTGGAGATAGCGTCAGATCCCACAGGTTGAGGTCTCAGTCCCCAAGACTGNCCCCACCTTCAGAYACAGTTGCAAGYCCGGGYCTCTGGAACTTCTGACCAACTGGCTTCAARTTGGGGTTCCCACGACACCTCTTTAGGTTCGAYTAATTTGCTAGAGTGGYTCACAAAACTCARRGAAACACTTATTAWGTTTACTGGTTTATTAATAGATGATATTTCAAAGGATACAGATGAAGAGATACATACGGGGCGGTCTGGAAGRKCCCAGCGCAGGAGCTTCCGTCYTGATAGRRTTGGGGTTACACCCTCCAGATTCTTCACCTTCTGTYAGCCTCCACGTGTTCAGCTCTCCAGAAGCTCYCTGAACCCTGTCCTTTGGGCCTTTTATGGAGAYCTCATTGGNTGTCCATGACTGAAGCATGGACGAYTGNNAWAATGTGATTGGRCAAAAAGGGTCTGATCTAATCCCAGCAAGGYCTGTCCAGATTCTTCTTGGTCTCTTTGTGCAGCATTCCTTCCTCCAGGGTATGGGGCAGGACCYCCTCTGGAATGAGGGTCTTACGACCCACAATCAGATTATAGAGTCCTGCCTTGGGCGGMTGAAARGAGGRCARGAGAAGGYCAGAGARATATTCTGTTTCCTGAGGCCTAAAGCACCTCTACATTATAGCGAAAGACTGTAACCATGGTCATGTGAGTTATGGACAAGAACCATGGACAAAAACACATATACAATCATATCCCACCTCCCAACGC >MER21B a consensus TCAACACACAACACTTCTGTCACCAAACGTGTGGRRRTTTTTCCCCACACACAAACAAKTCTTCAGTTCTGCGGCGGACACCARCTGGGTGTCCTCCAATTCARTTCAGTTCTGACACTAWCTACCTRGAGATAGCGTCAGATCCCACAGGTTTAAGGGCTCAGTCCCACAAGACTGCCCCCACTTCAGATRCCAGTCGCAAGTCTRGGTTKTCACCCGTACTTCTGACCAACTGGCTATAAATTGTTCCCACGACCCCTCTTTAGGTTCGATTAATTTGCTAGAATRGCTCACARAACTCAGGGAAACACTTATATTTAYCGGTTTATTATAAAGGATATTACAAAGGATACAGATGAACAACCAGATGAAGAGATRCATAGGGCGAGGTMTGGGAGAGTCCNGGGNNCAGGAGCTTCCGTGCCCTCTCTGGSTNNRCCACCTTCCWGGCACCTCCACGTGTTCACCAACCCGGAAGCTCTCCGAACCCTGTCCTTTTGGGTTTTTATGGAGGCTTCATTACGTAGGCATGAYTGATTACATCANTGGCCATTGATTATCAACTCAACCTYCAGCYCCTCTCCYCTCCCCAGAGGTTGGAGGGTGGGGCTGAAAGTTCCAACCYTCTAATCTGCCTTGGTCTTTCTRGCGACCAGCYCCCATCCWGRAGCNTNCTAGGGGCTGCCCRCCAKGAGTCGMCTCATTAGMACAAAAGRNCRTYNCTATTACCCAGGARATTCCAAGGGTTTTAGGAGYTCTGTGTCAGGAACCGGGGTCAAAGACCAAATATTAGAT >MER22 Human SSTI moderately repetitive DNA sequence family GAGCTCTGGGCTTCCATACCTGTGTGGGACAGGGAAGCTCTCTCGGTCTCCATGGCCCAAGTGATGGCTGCACGCTCGGTCCAGGAAGAGGCGGAGGAAGCCCACCGCTCCTGACATTGGCCTTCTAGGAAAGGCGGTGTTGCATCCCACCTGCACTTCCTCTCTGATTCTTGAGGGCCAACCGCTTCCTCCGCTCCTGGGGAAAGTGCCTTCTAGCACCGAATCTTTTGGCTGCCACGGATGTCAGGGAGCCAACGGGACTGGGTTTTGGCTGGGTGCAGGGGAGGTTGCGTCAGGGGTACTAGCCGGCGGCGGGCTGGGGGTGGGGTGTACTTTGTCCAAACTCCCGGCTCCTCTGGCGGGCCTCCCTGAACGTGGCGTGGACTCGCGCACAGGCCCTGTCTCGCAGGTTTTCAGGTGCGCTTGGCTTTTCCTCCGCTTTGTGGGGCAGGTCTCCAGTGCCCCCGGCGCACGCCTGGACATCACTGTCCGTCTCGTCGTCGCCCCTACGGCCTCAAAGACACACGCTGCCTGCATGTGCTCTTGGGGGACGACAGTGCACATGTGGACACACTGGCTCCAGCTCGGACTCGCCTCTGTCTCTCTTTGCCCGTGTCGCCGGAAGCCGCCTCGGGTTGCCGGAGCCCTCGGGCCTTGGAGATGAAGGCAGGCCCCTGCTCCTGCCAGGAAGGAGGGAGGCAGTGGGCTCATGGGTCGGTGCCTTTGCAGCCGACAGCACGTGCGGCCCTGGGGATCTTCCTGTGCCCCGGCGAGACCCTTTCCGCCTCACTGCATTGGAACCCCATTCCCGATCACCCGCTGGGATCCATCATCGGACTCCAAGAGGAGTCCGCGCAGCCAGCCGGCACCCCGAAGCTCCTCCTTCAGCGGGAACCGAAGCAGAAGAGCGATCAAGGAGGTCCTCACCACAGGACTCCTATGGGTCCGACCCTGGGTCTCCCGCAGGCCCCTCTGGCAGTCCTCTTCCCACCCGCCGCCTCGGCTTCGCCGCCGCCGCCGCAACCTCCAGCACCGCCCCCCAGGCCCCGCAGCCGCCGTCGCCGCCATTTTTTAAAGGGTCGCAGCCTGACTCTGCGGAGTAAGGGGGGGTGGAGCGGGGGAGTCGCTCGCCAGCATGCGCGAGCCCGAGCCGCCGCTTGGGTCACAGTGAAAGCCACCGTTGCCCGGGGATGGGTCCCTGACACTTGGGGAAGTAGGAGCCCTGTGTGATCGTGCGTCTGAGTCTGGGCTGAGACCAGTCCTGGCCAGGGCAGTTACCAGGACGGTCTCGGAGGCCGGGATTCGCGGAGGGTCCAGCAGCAGGAAGAAACCCCAGGAGGAAGAAACCTCAGACAGATCGCCGGCGAGGCAGCGCGGGATCCCAGCCTCAGGCGTGCGCGGACGGTGTGCGGGTGAGTCTCCCCAAAAGTGGAGCCCTTGTGATGACGAGCACAGGTCCGCCTGCGTGCCCGTGGGCGGCTCTCTCACCGGTGGCTCTCAGTCGCGGAGAGCAGAACCCGCAGCTTCAGGGGCTGCTGCGGGAGGGTGTTCCCTGCTGTACGT >MER25 Older LINE1 5' end region - a consensus ACAAANTAGGGAAAAATGGCGGATAGGAGGCAGGACTAAATTGCAGCTCCCACTCGGATGGACAGAGCAGCATGTGGAGACTCACATCGTGAACTTTTGCTCCAAGAACCACCGCAGGAATATAYCAAGAAAGCCGAGAGAATYCACAGACCCTCTGAAGGAAGCAGATTGCTCCTGCARGAYCCAGGAAACGGCCCAAAAACTGTGAGTGCCCAAAGTGTGAGAAGGGRAAAATCTGCCCCCGAACACACATCCTYACTGGGGAACCTGAAGATCCAGATCACAGGAGAAGGATTTGACCTTACCTGGAGCTGAGACAATTTAGAGGGCCGAGCAAAATACAGGGGTAGAGGAAGCAGCGGGAAAAGCCCCGTGGGCACTCCCAGTCYYYAGNNAARCCCAGGGAAGCCATTTCTGACTTATCTCACAGGGGTCCCTTGGGAGGGCAGCCGGAGGAACTGGGAAAGGGSCACAGGGAAAAGAAAACCTCCAGCTGAACTTTGTAATAATTCCGACCGAKAGAGAAATTTCCTGGCCAGAACTMAGGGCAGGGCGRCGKAAGTGCTGGTGGGAGACCAGAAGTGCTGTTGGGGGGGACACGGTRGGAGTGAGACYTGCCTTTTGAGCTGCATGGGAGCTGGGTGAGGCCTGTNACTGCCAGCTTTCCCCCACTTYCCTGGTGACCTGCATGACACAGAAGAGGCAGCCATAATCCCCCTGGGAACGTAACTCCATTRGCCTGGGAACTACACCCCCATCCCTCACAGTAGCCGCAGCAAGCCCCGCCCAAGGAGACTCTGAGCTCAGACATGCCTAACCCTGCCCCCACCTGATGGTCTTTCTCTACCCACCCTGGTAGCCGAAGACAAAAGACATAAWCTCTTGGGAGCTCTAYGGCCCCACCCATCGCCTGAGAAACWGAAATAYTTAYCYWGGCMAMCTTAGGGCAAGCTTRTATCCWCCCTATACTRTCGCAGCTGATGCCCTCTTGAAAGCGCCACCTCTTGGCTGGAGGCCAACCAACTCAAGACATTACAGCAAYTCAYRACAGAATAACCCTGCCCCTARRRAAGGAGAAAACGACAGCTATCACCACTGCCTGCAACATCCTGGCTAACCAGAGGTCCTGAGTCTGTCCACGTGAYAASTTCACTRCTAKYATAACCAGCATTCGAGAAARCCAGCACACTAAGTCTATCTACAACCAAGGAATCTCACAGAGTCTAYTTCACTCCCCTGCCACCTCCATCAGAGCTGGTGCTGGTATTCACCGCTGRGAGACTTGAAGACAGGTCACATCACWGGATYCYTTGCAGACATTCCCCAGYACCAGCCCGGAGTCTGGTAGCTCCACTGGGTGGCTAGAYCCAGAAGAGCAATAACGATCACTGYAGTCCGGCTCTCAGGAAGTCCCATTCCTAGGRGAAGGGGGAGAGCACCACATCAAGGGAACACCCTGTGGGACAAAAGAATCTGAACGGCAGSCCTTGAGTCCCAGATCTTYCCTCTGACATAGCCTACCCAAATGAGAAGGAACCAGAAAAAYAATTCTGGTAATATGACAAAACAAGGTTCTTTAACACCCCCAAAARATCACACTAGCTCACCAGCAATGGATCCAAACCAAGAAGAAATCYCTGAATTGCCAGAAAAAGAATTCAGAAGGTCGATTATTAAGCTACTCAAGGAGGCACCGAGGAAGGTGAANACCAACTTAAAGAAANTTANAATATAATACAGGATATGAATGRARAAATCTYCAGWGAAANAGATAGCATAAAKAAAAAACAATCAMAACTTCWGGAAATCGAAGYACACTTATAGAAATGCGAAATGCWCTGGAAAGTCTCARCAATAGAATNGAACAAGCAGAAGAAAGAACTTCAGAGCTCGAAGACAAGGYTTTCAAATTAACCCAATCCGACAAAGACAAAGAAAAAAGAATAAGAAAATATGAACAAAGCCTCCAAGAAGTCTGGGATTATGTTAAACGACCAAACCTAAGAATAATCGGCGTTCCTGAGNAAGAAGAGAAATCTAAAAGTTTGGAAAACTTATTCGNGGAAATAATCGAGGAAAACTTCCCCGRCSTTGCTARAGAYCTAGAYATCCAAMTACAAAGAAGCTCWAWRAACA >MER28 Nonautonomous DNA transposon CAGTTGACCCTTGAACAACATGGGTTTGAACTGCGTGGRTCCACTTATACGCGGATTTTCTTCCATCTCTGCCACCCTGAGACAGCAAGACCAACCCCTCCTCCTCCTCAGCCTACTCAACNTGAAGACGANGAGGATGAAGACCTTTATGATGATCCACTTCCACTTAATGAATAGTAAATATATTTTCTCTTCCTTATGATTTTCTTAATAACATTTTCTTTTCTCTAGCTTACTTTATTGTAAGAATACGGTATATAATACATATAACATACAAAATATGTGTTAATCGACTGTTTATGTTATCGGTAAGGCTTCCAGTCAACAGTAGGCTATTAGTAGTTAAGTTTTKGGGGAGTCAAAAGTTATACGTGGATTTTTNACTGCGCGGGGGGTCAGCGCCCCTAACCCCCGCGTTGTTCAAGGGTCAACTG >MER30 Nonautonomous DNA transposon CAGGGGTGTCCAATCTTTTGGCTTCCCTGGGCCACACTGGAAGAAGAAGAATTGTCTTGGGCCACACATAAAATACACTAACACTAACGATAGCTGATGAGCTWAAAAAAAAAAAAMAATCCCAMAAAAATCTCATAATGTTTTAAGAAAGTTTACGAATTTGTGTTGGGCCGCATTCAAAGCCATCCTGGGCCGCGTGCGGCCCGCGGGCCGCGGGTTGGACAAGCTTG >MER31 a consensus CACCCTGCGTATCTGAYCAGGTTCCTCARTCTCCGCCGTCCCCCAGGTAATGTTTGRTCACCTGGCCTGCCTTCAGCTAGAATCCTRTTAGGTCAGTTTAGCAGAATCTCCTTACTCCTGATGTTTCCTCTTRGTAATTTTCCATCCACTGCCCCCGYACTCTGCTCYTTGGCTATAAATCCCCACTTGTCCTTGCTRTATTCGGAGTTGAGYCCAATCTCTCTCCCCTACCGYAAGACYCCATTGCAGTGGTCCCTGTAYCTRTCGNRATGGTCCTGAATAAAGTCTKCCTTACCATGCTTTAACAAGTRTYATTGAAWAATTTTTTTT >MER33 Nonautonomous DNA transposon CTGCGCTGTCCAATACGGTAGCCACTAGCCACATGTGGCTATTGAGCACTTGAAATGTGGCTAGTCCAAATTGAGATRTGCTGTAAGTRTAAAATATACACCAGATTTCAAAGACTTAGTACGAAAAAAAGAATGTAAAATATCTCATTAATAATTTTTATATTGATTACATGTTRAAATGATAATATTTTGGATATATTRGGTTAAATAAAATATATTATTAAAATTAATTTCACCTGTTTCTTTTTACTTTTATTAATGTGGCTACTAGAAAATTTAAAATTACATATGTGGCTCGCATTRTATTTCTATTGGACAACGCTG >MER34 a consensus TAGGGGAGTGAGAGATCACCTCCAACCCTCCCTCCCCTTTGCTCTTATGTGGGCTCTTTGGTGAATCTAGGAACCAAATTGACACAAGGCAGATTAACAAGAGAAAAGCATACAAATTTCATTAGTTTTACATGTGCATAGGAAYCCTCACAAAAGTCAAGYCCAGAGAAGCGGCCAAAGTAAGATGCYTTTATACTTTTTNNACAAAGNACAATAARYTNNRRAARTGTCAGAAGAAAGGGGATCTGGCTAGGGGCAGTAAATTTCTCGCGGAGTCATTAGGAGAAAAGTGTGTGTGTTGGGGTGTAAACTTAGTGGAAGATAACGGTTACTTCGGAAAGTATATTCAGGTCCAAAGCAGCCCCCAGTTTCGTCTCTGGTGATAGGTGCTATTTTCTCCCTCTGGTAAGGGACGGGTACTCCAGAGGAATCCTGGAGGAAGCTTTATGCGCTTGCTGCATGCAGGAAGAGATAGGTCATCAAACCTTTTCTGAAACTACAATTTCTCCAATATTTTCAACTCGAAATAATCAATGTACCAATTCCATATATTTTTGGGATGGCACATCCATCAGTCCTTC >MER35 a consensus GATGTGGCGTTTGAGTGGACACGGGGGAAGAAACAAGTAATATGAATAACATGGTGAGACAGAAAGAGTTGTGGACAGAGCTGTGGGAAATATGAGAGATAAGGAGAGAGATACTGAAAAGAGCGTTAAGAGAGATGAAGATAGGGTGTCTGGCCCATGAAGGCCCTCGTGAAGAGCAATGCTGAATAGATGAATGAACCTCAATGCCCAGCAGTGGTGGGATGAAAAGGGGATCCTGTGCAGAAACCACACTACCCATCAGAGAAGCAACTCTGCTCGTTTCCCCTTGA >MER39 a consensus GGGCATTANNNCTGTAGGGGCAGAAAGGTGTGATNCCTTCCCTACCCATCATAAGGGTCACGGCNNACACTCCTATAATAAAANAYAGGTTAGCAAGAGAAAAGCATAAYAGATTTATTTAATCAAAGTTTTATGTGACATGRGAGCCTTCAGAAATGAAGACMCAAAKACTCAGGGAAAACTCTATTTTTATGYTTAGATTTGATGAAGAATGGANAGCTGCGCAGAAATGTGATTRGACAAAAGGGGWATGATCTAATGGTMATARACTGRGTGTGGRAACCCAGCAAGGCTTGTCTGTTCGTATTCTTCTTGGTCTMTCTGTGCGGCATTCCTTCCTCCCGGGTATAGGGCGGGACCCCTTCTGGAATGAGGGTCTTATGACCTACWATCAGACGAGATAGGTCAGAWAATTTCTTTACGGSCAGCYCYAAGACAGAAAGGCGGGKRAWGATTAGAGGGCNAGAGAAGGTCAGAAAATGANNTTCTGTTTYCTGAGGNCTGCTTCTGAGGCTTAGAGCGCCCCAACATTNTAACAAAAGNCTGTCCNTCACCTTTACCGCTCTGAAGCTGTTCCAAAGCTGCTACATGAACCAAGGACAAAAAGCCANATANTTCAACAAAAGATATNCTTATNGTTTTAGTCACTCAGGAAACAGCAAGGCTTATAGGAGCTGAGAACCCGGAATTATG >MER41 Medium reiteration sequence MER41 AACCTGCCAAGAACAGAAACTGGCAGAATCTGTCACAAGAAAAAGTCCCAATCAGACTTCAAGAGAGGGTTCTTGGATCTTGTGCAAGAAAGAATTCATGGGGAGTCTGAGTAAAGTGAAAGCAAGTTTATTAAGAAAGAGGAATAAGAGAATGGCTACTCCAAAGACAGAGCAGCCCTGAGGGCTGCTGGTTGCCTATTTTTATGGTTATTTCTTGATTATATGCTAAGCAAGGGGTGCATTATTTAAGCCTCCCCTTTTTAGGCCATATGGGGTTATATCCTGATGTTACTATGGCATTTGTAAACTATTATGGTGCTGGTGGGAGTGTAGCAGTGAGGACGACCAGCAGTCACTCCCATGGCCATATTGGTTTTGGTGGGTTTTAGCCGGCTTCTTTCTGCAACCTGTTTTATCAGCAAGGTTTTAAGGACCTGTATCTTGTGCTGACCTCTTATCTCATCCTGTGACTTAGAATGCCTTAACTGTCTGAGGATGCAGCCCAGTAGGTTTCAGCCTTATTTTACTCAGCTCCTATTCAGGATGAAGTTGCTCTAGTTCATATGTCTTAGACATTTCCTCCTTCCCTTT >MER42a MER42 repetitive sequence: subfamily MER42a - a consensus ATGTAYAGKAGGATTGATCAAATAAGTAAACGTATTNAAGATAATGGGAGCCAGGTTTCTCACTGTCGGAGAAGGGAGTTACAAATATGGAAAGGGRGAAGRCTAGAATGAACCCTGTGGTATTRGATTRGAATTGGAGGTATCAGTRTGAACTCATGRTTTTTAATATAYRYRYRYRYRTTTTTCCTAGTCCTGTCCACTGAGAGGGCCTAGAAGCAACGACACCCCAGTAGCAACGAGCACACCTAGCACCCAGATCTTGGTTTCTAATACCATTCTCCAATAAAAGGAACCAGGGCTCCTTGGAGAAATGGCTGATTCTAGGACTAGGGCAGGAAATATACAAGATGAGCCTGGAACATCTTGTARTGCCAGAAAATAAGGAAGTGCTCAAAAAACGATRRGGGTATGTCAAARGGACACAGAAGCCAACTGAAAGAGCTCCCAATGGCCAAAGCTGGAACAATTTGAGCAACAAAATAAATTATRGTAGTATTGGATTATAACTCAAAGTATAAAATAAATATCCATGAGTTCATACTAATACAAATAAATGATTAAATAAATAAATAAATTGAGAARATAAATAAGTCTTTCTTGCAGAAGAATTTCAAATAATTTATGTAGATARCCTCCCCTCAAGGAAGTGGAGCGTAAYTCCCCACTCCTTAAGTGTGGGATGGRTATAGTGACTTCCTTCYAGAAAGNATAGTNTAGGACGGAARAAAAAGTAAATTTACAGTAGAGAAACCTGACAAACACTACCTTAGCCARRTAATCAARGTTAGCATCAACGATAATARGTCATGYTGATARTATATANCCTTRATATGATGTGATAAGAATGGCACTTTACCTCCGTGGTCTTCCTCCCAAAAACCCATAACCCCAGTCTAATCATRAGAAAATATCAGACAAATTCCAACTGAGGRACATTCTACAAAATACCTGACCAGTACTCCTCAAAACTGTCAAGGTCATCAAAAACAAGRAAAGTCTGAGAAACTGTCACAGCYAARAGGAGCCTAARGAGACATGACAACTAAATGTAATGTGGTATCCTGRATGGGATCCTGGAACAGAAAAAGGACATTAGGTAAAAACTAAGGAAATMTGAATAAAGTATGTACTTTAGTTAATAATAATGTATCAATATTGGTTTATTAGTTGTGACAAATGTACYATANTAATGTAAGATGTTAAYARTAGGGGAAACTGGATGTGGGGTAYATGGGAACTCTCTGTACTATTTTTGCAACTTTCCTGTAAATCTAAAACTATTTTAAAATAAAAT >MER42c MER42 repetitive sequence: subfamily MER42c - a consensus ATGTAYAGKAGGATTGATCAAATAAGTAAACGTATTNAAGATAATGGGAGCCAGGTTTCTCACTGTCGGAGAAGGGAGTTACAAATATGGAAAGGGRGAAGRCTAGAATGAACCCTGTGGTATTRGATTRGAATTGGAGGTATCAGTRTGAACTCATGRTTTTTAATATAYRYRYRYRYRTTTTTCCTAGTCCTGTCCACTGAGAGGGCCTAGAAGCAACGACACCCCAGTAGCAACGAGCACACCTAGCACCCAGATCTTGGTTTCTAAATACCATTCTCCACTAAAAGGAACCAGGGCTCCTTGGAGAAATGGCTGATTCTAGGACTAGGGCAGGAAATGTACAAGATGAGCCTGGAACATCTTGTTRTGCCAGAAAATAAGGAAGTGCTCAAAAAACGATRRGGGCATRTCAAAAGGACACAGAAGCCAGCTTGAAGGGGCTCCCACTGGCCAAATCTGGGACAATTTGAGCATCAAAATAAATAATRGTAGTAATGGATTATAACTCATTGAATAAAATAAATATCCATGAGTTCATACTAATATAAATAAATGAATAAAAWAAATAAATGAGAARGGAAAGCTCTTCTTACAGTNGAATGCCAANTAATAAATNTAGAARGAATAATAATAGAAAAATCACCATTAGGCAAAYACCGCAGTAATAACTGTTTYAGGCAAGATCCATCGATAGATGCTMTAATTAGTGGGCGAAARTTTGATGAGAAACGGRATATTTGCATAGTCTCAAAGTATCTCCTCACAAGATATTTATTAATTACAAAGGGAAAAAYAGTGACTTTACAGTAGAGAAACCTGGCAGACACCACCTTAACCAAGTGATCAARGTTANCATCACCAAAAATGAGACAAAYTGACATCATGCGCYNCCTGATRTGATGCGCCGAGAAGAACAACATSGCTTCTGTGATATTCCTGCCAAAGATGCATAACCTGAATCTAATCATRAGAAAATATCAGACAAACCCAAATTGAGGGACAKTCTACAAAATAACTGGNCTGTACTCATCAAAARTGTCAAGGTCATAAAAGACAARGAAAGACTGAGGAACTTTCTACNTTTGACGGAAGACTAGARNCATGACAACTAAATGCAACGCGGGATTCTGRANTGGATCCTGGRTCGAGAAATAGTGGGAGTTTKTAYCTATAAAGGACATTATTGGGACANTTGRCGAAATTTGAATANGGTCTGNAGATTAGATAATAGTATTGTATCAATGTTAATTTCCTGATTTTGATAATTGTAYTGTGGTTATGTAAGAGAATGTCCTTGTTTTTAGGAAANACACACTGAAGTATTTAGGGGTAAAAGGNCATSATGTCTGCAACTTACTCTCAAATRGTTCAGRAAAAAAAATNNATATAYATAARYAGAGAATGATAAAGCAAATGCGGYAAAATGTTAACAATTGGTGAATCTGGGTGAAGGGTATACGGGWGTTCTTTGTACTATTCTTGCAACTTTTCTGTAAGTTTGAAATTACTTCAAAATAAA >MER43 Homo sapiens clone DOE1-35 MER repetitive sequence - a consensus CCCAAGCCCAGTAACGCTGTGGCTCTTGCAGACTCNTAGAGGTACTGCCTTNRTGGTCTTGGATAAGATCTGGAAGAATTCCCTGGATTACCAGGCAGAGACTCTTGTTCTCTTCCCTTACTTTCTCCCAAACAAACAAATGGAGTCTCTCTCTCTNTCTGTGCTGAGCTGCCTAGANCTGNGGGWGGGGTGACACAAGCACCCCTGTGGCCACCACCACTGGGACTGTGCTGGGTCAGACCTGAAGCCAGCACAGCATTGGGTCTCACCCA >MER44A Nonautonomous DNA transposon CAGTAGTCCCCCCTTATCCGCGGGGGATACGTTCCAAGACCCCCAGTGGATGCCTGAAACCACAGATAGTACCGAACCCTATATATACTATGTTTTTTCCTATATATATATACCTATGATAAAGTTTAATTTATAAATTAGGCACAGTAAGAGATTAACAATAACTAATAAAATAGAACAATTATAACAATATACCGTAATAAAAGTTATGTGAATGTGGTCTCTTTCTCTCAAAATATCTTATTGTACTGTACTCACCTATTTTCGGACCGCGGTTGACCATGGGTAACTGAAACTRCGGAAAGTGAAACCGCGGATAAGGRGGGACTACTG >MER44C Nonautonomous DNA transposon CAGTAGTCCCCCCTTATCCACGGGGGATACGTTCCAAGACCCCCAGTGGATGCCTGAAACCACGGATAGTACCGAACCCTATTGCTATCAGTCTTTTGGAACATGTTTCTGTTCATGTCTTCTGCCCACAAATTTAATGCCTCTTCCACCTCAACTAAACACGTATCATGCACTCCGGCCATCACTTTTGCAGTTTGAGGTATGACATCAAAACTAGCATGAATTTATTTTTCCTTCTTCACAATTCCAAAGATGGAAGATTCTTTCTTACCGTAGATCTTAGCAACCTCAGCATACGATTATTTTTCYTTTCTTTTTAAGTCAAGAACTTTCACCTTTTCGCTTAAAGGAAGCACTTTACAGCTTCTYTTTGGCATGTCCGAATTGCCACCAACACTACTCTTGTGCTTTTGGGCCATTATTAAGTAAAACGGGAGTTACTTGAACACAAGCACTGTGATACCAAGACAGTCGGTCTGATAACTGAGATGGCTACTAAGTGATTAACAGGCAGGTAGCGTANACGGCGTGGATACGCTGGACAAAGGGATGATTCACATCCCGGATGGGACGGCGCGAAATTTCATCACGCTACTCAGAACGGCGCGYAATTTAAAACTTATGAATTGTTTATTTCTGNAATTTTCAATTTAATATTTTCGGACCGCAGTTGACCACGGGTAACTGAAACCACAGAAAGTRAAACCACGGATAAGGGGGGACTGCTG >MER45 Nonautonomous DNA transposon CAGGACCGGCTACATAATTTGCGGGRCCCAGTGCAAAATGAAAATGCGGGGCCCCTTGTTCAAAAATTATTAAGAATTTCAAGACGGCGACAGCAGAGCATTAAACCAAGCACGGGGCCCTTCTRAGCGCGGGGCCCTGTGTGACTGCACAGGTCGCACGCCCATGAAGCCGGCCCTG >MER46 Nonautonomous DNA transposon CAGGTTGAGTATCCCTTATCCAAAATGCTTGGGACCAGAAGTGTTTCGGATTTCGGATTTTTGGATTTTGGAATATTTGCATTATACTTACCGGTTGAGCATCCCAAATCTGAAAATCCGAAATCCAAAACGCTCCAATGAGCATTTCCTTTGAGCGTCATGTCGGCGYTCAAAAAGTTTCGGATTTTGGAGCATTTCGGATTTCGGATTTTCGGATTWGGGATGCTCAAYCTG >LOR1 Human low copy repetitive sequence - a consensus TGTTACTGAACACCAGGGGTTCGGTCTAGGTCCTGCTGCTCGCCACACAGAAAGCCAATCACTGAGACAATAAGTATTGCCAAGGAAGAAGGCTTTAATCGGGTGCTGCAGCCGAGGAGACGGGAGATCAGTCTCAAATCCATCTCCCTGACCGACTAAAATTAGGGGTTTATATAGCAGGGAAGAAATGTAACCGTGTGTGGGAAAACAGGAATTAGGGAGGGGTAAGGAAGAGAATTTGGTCAACAGGAAGCAGGTGGTCAGTTAGGCAATCATGATGGGTGAGGGGTCTGACGTCTCATTGTCCGGATGCAGTGATCTGGTAAGTTTCAGCTCCTTGATACTATCTGGGAGGCCTGATGGTTGGTTTCCTGAAAAAGGAACTCAGATAAGACAAATGTAACTTTCTCGAGTTTTAAGACTGGGAGAATCARTTTCTATGTTTATTCAAAGAAACCATAAACATCAGTTCTATGGGACAATTGGGTCAGTTTCAATTG >SVA Composite retroposon CTCCCTCTCCCTCACCCTCTCCCCATGGTCTCCCTCTCCCTCTCTTTCCACGGTCTCCCTCTGATGCCGAGCCGAAGCTGGACGGTACTGCTGCCATCTCGGCTCACTGCAACCTCCCTGCCTGATTCTCCTGCCTCAGCTTGCCGAGTGCCTGCGATTGCAGGCGCGCGCCGCCACGCCTGACTGGTTTTCGTATTTTGTTAGTGGAGACGGGGTTTCGCTGTGTTGGCCGGGCTGGTCTCCAGCTCCTAACCGCGAGTGATCCACCAGCCTCGGCCTCCCGAGGTGCTGGGATTGCAGACGGAGTCTCGTTCACTCAGTGCTCAATGATGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCGCTACAACCTCCACCTCCCAGCAGCCTGCCTTGGCCTCCCAAAGTGCCGAGATTGCAGCCTCTGCCCGGCCGCCACCCCGTCTGGGAAGTGAGGAGTGTCTCCGCCTGGCCACCCATCGTCTGGGATGTGAGGAGCGTCTCTGCCCTGCCGCCCATCGTCTGAGATGTGGGGAGCACCTCTGCCCGGCCGCCCCGTCCGGGATGTGAGGAGCGTCGCTGCCCGGCCGCCCCGTCTGAGAAGTGAGGAGACCCTCTGCCTGGCAACCGCTCCATCTGAGAAGTGAGGAGCCCCTCCGCCCGGCAGCCGCCCTGTCTGAGAAGTGAGGAGCCCCTCCGCCCAGCAGCCACCTGGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCGCCCGGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCAGCCCGGCCAGCCGCCCCGTCCGGGAAGTGAGGGGCGCCTCTGCCCGGCCGCCCCTACTGGGAAGTGAGGAGCCACTTTGCCCGGCCAGCCACTCTGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCGCCCGGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGGATCAGCCCCCCGCCCAGCCAGCCGCCCCGTCCGGGAGGGAGGTGGGGGGGTCAGCCCCCCGCCCGGCCAGCCGCCCTGTCCGGGAGGTGAGGGGCGCCTCTGCCCGGCCGCGCCTACTGGAAAGTGAGGAGCCCCTCTGCCCGGCCACCACCCCGTCTGGGAGGTGTGCCCAACAGCTCATTGAGAAGGGGCCATGATGACAATGGCGGTTTTGTGGAATAGAAAGGGGGGAAAGGTGGGGAAAAGATTGAGAAATCGGATGGTTGCCGTGTCTGTGTAGAAAGAGGTAGACCTGGGAGACTTTTCATTTTGTTCTGTACTAAGAAAAATTCTTCTGCCTTGGGATCCTGTTGATCGGTGACCTTACCCCCAACCCTGTGCTCTCTGAAACATGTGCTGTATCCACTCAGGGTTGAATGGATTAAGAGCGGTGCAAGATGTGCTTTGTTAAACAGATGCTTGAAGGCAGCATGCTCCTTAAGAGTCATCACCACTCCCTAATCTCAAGTACCCAGGGACACAAACACTGCGGAAGGCCGCAGGGTCCTCTGCCTAGGAAAACCAGAGACCTTTGTTCACTTGTTTATCTGCTGACCTTCCCTCCACTATTGTCCTGTGACCCTGCCAAATCCCCCTCTGTGAGAAACACCCAAGAATGATCAATAAAAAAAAAAAAA >ALR Human alpha repetitive DNA - a consensus AATTCTCAGTAACTTCCTTGTGTTGTGTGTATTCAACTCACAGAGTTGAACGATCCTTTACACAGAGCAGACTTGAAACACTCTTTTTGTGGAATTTGCAAGTGGAGATTTCAGCCGCTTTGAGGTCAATGGTAGAATAGGAAATATCTTCCTATAGAAACTAGACAGAAT >MSR1 Human 37 BP minisatellite repeats, specific to chromosome 19 AGTCAAGACCCCCAGCCCCTCCTCCCTCAGACCCAGGAGTCAAGAACCCCCAGCCCCTCCTCCCTCAGACCCAGGAGTCAAGAACCCCCAGCCCCTCCTCCCTCAGACCCAGGAGTCAAGACCCCCCAGCCCCTCCTCCCTCAGACTCATGAGTCCAGACCCCCAGCCCCTCCTCCCTCAGACCCAGGAGTCCAGACCCCCAGCCCCTCCTCCCTCAGACCCAGGAGTCCAGACCCCCAGCCCCTCCTCCCTCAGACCCAGGAGTCCAGGCCCCACCCCTC >TAR1 Human telomere associated repeat sequence, complete sequence GATCAACAGTGAGGAGGTCCCACAAGGCTAAGTGGGGCAAGTCGGGGACCTAAGGCAGTAGCAGGAAAACCAAAGAAAACAGGCGGAGACTTGAGACAGAGGCAGGAATGTGAAGAAGTCCAAAATAAAAATCCCTGCACAGGACTCTTAGGCTGTTATCATGCACTATCAGCCTACTCCTCCCTATTTTTGTACAATAAGCTCTTTACACTGTATTTCTTTTCAATGAAGTTATCTTCCATCTTTGTACTGCCTCTTGGTGAAAAGCTGTCTTCCAAGTTAATAACTGGGACATCAGCTCTCTGCAGTAATAGCTCCTTTTCAGTTTTAATTTGCAGAACTGATGGGGATTAATAACTGGCGCTCTGACTTTAAGTGGTGCAGGAGGCGGCCAGTAGGGGACGCCAGCCGTTACGCCGGGAGCAAGAGGGCCCTGCGTAGTCCCCATCTGCCTGCATGTGGCGTGCAGCCACGACAATGGCAGCAAGAGGGCCCGGCAGTGTGCCCAGCTGCCAGCAGGCGGGTGTGCTGCCACTATAATGTGAGGAAGAGGGCCCTGCAATGTCCCTAGCTGCCAGCAGGCGGCGTGCCACCACTATACTGCGAGCAAGAGAGCCCTGCCGTGCCCCGGCGCCAGCAGGGGGCGCTGGACAGCACTGTAAGCAAGAGGGCCCTGCAGTTGTCCTAGTCGCCAGTAGGGGACGCAATGGCAGAGCACCGTGGGCAAGCTGGTCCTGTAGTGCCCGGCTGCAAGCAGGGGGCGCCCGAAACGGGCTTTTCAGATTACTCAGGTTCCACTCGTCTCTGCGCCGCCGGGGACGTGTGTCTCTGCGCGTGCACCGCGCCACCCCCGCGCTCCCCGCCCGGCGGCGCGCGACTGTGCGACTGCAACACTCCCCGCCACCCTCAGCCCAGCGACGTGCGTCTCTGCGCCTGCGCCGCGCCTCACTCCCGCCCGCTCAGCGACCCCTCCCTTCCGGGGAGGCGCCGGCGTGCGTCTACGCCCTGCGCCGCGTCTCCCCAACAGCGGCGCGCCTCTCTGCGCCTGCGCCGGCGCGCCGCGCCTCTCTGCGCCTGCGCCGGCGCGCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCCCCGCGCCTCTCTGCGCCTGCGCCGGCGCGCCGCCTTTGCGAGGGCGGAGTTGCGTTCTCTTTAGCACACACCCGGAGAGCATCGCGAGGGCGGAGCTGCGTTCTCCTCTGCACAGACTTCGGGGGTATTGCGAAGGCGGAGCAGAGTTCTTCTCAGGTCAGACCCGGGCGGGCGGGCTGAGGGCACTGCGAGGGTGGAGCTGCGTTCTGTTCAGCACAGACGTGGGGGGCACCGTAAAGGCGGAGCAGCATTCTTCTCAGCACAGACGTTGGGGGTACTGCCTGCCTTTGGGATAACTCGGGGCCGCATCGAGGGTGAATAAAATCTTTCCCGTTTGCTGCCCTGAATAATCAAGGTCAGAGACCAGTTAGAACGGTTTAGTGTGGAAAGCGGGAAACGAAAAGCCTCTCTGAATCCTGCGCACCGAGATTCTCCCAAGGCAAGGCGAGGGGCTGTATTGCAGGGTTCAAGTGCAGCGTCAGAACTCAAATGCAGCATTCCTAATGCACACATGACACCCTAAATATAACAGGCATATTACTCATGGAGGGTTAGGGTTCAGGTTCGGGTTCGGGTTCGGGTTCGGGTT >CER Human D22Z3 repetitive DNA (centromeric DNA) CTGCAGAACACTACTTCCAGGGTCTAAATGTCTGTCCTTCACATAGGATTCCAGAACACTGCTACGAGAGTGTGAATGTTTGTCCTTCACATAGCATTTCACAACTGCCATGGTCTGAATGGTTGTCCCTCACATAGTATTCCAGAACACTGCTATGAGGGTCTGAATGTTTGTACCTCACATAGGATTCCAGAACACTGCTATGAGGGTCTGAATGTTTGTACCTCACATAGGATTCCAGAACACTGCTATGAGTGTTTGAAAGTTTGTCCCTCACATAGGATTCCAGAAGACTGCTGCTGGGGTCTGAATGTCTGTCCCTCACATCGGATTCCAGAACCCTGCTGCTGGGGTTTGAATGTCTGTCCCTCACATAGAATTC >BSR Human beta satellite DNA - a consensus GATCAGTGCAGAGATATGTCACAATGCCCCTGTAGGCAGAGCCTAGACAAGAGTTACATCACCTGGGT >HSATII Human satellite II DNA ANTCCATTCGGGTCCATTCGATGATGATCACACTGGATTTCATTCCATAATTCTATTCG >HSATI Human satellite I DNA HinfI fragment GANTCNGCTCNNGACACAACTCTCTGAGCCTTCGGTGACCTTTCNGTCTNGTGTAANNGCACTCNTGTCYYCCTGGCAGCAGTTGGACCTCGCGATGTGGATTGTGCCCTCACCCAGCNNTNTTTATGCCCTNTCNCCATGGTGACNGGATTAGGGGTCTCCTGCTCTTCNNTCCTAAGGACCACTGTCTGTGCTGTGTCTTTCAAAGGTCAGAAGAGATTGNACCTTTGTGTTTTTATTTTCCCTGTGTTTGCTTTTTCTCNNTGGGGAACCTGTGTTGCTGCTTTGAAGGTATATTCATACTGGCCNNTCANNTGNNCAACATCNNCAAANTNACTAGTTANGGCTTTCAAAATATGNTATTTCAAAAAATTANCCGTCTGTATTTTCCATATGCAGTTATAAGTAGGTTTCATCGGTTATGTTTTATTCCTCAGTTTATACATTTGATTATTGTACCAAGCAGAGTACCTTTGAAATTTTTTTTCATTTAAAAAATATGGATCTTTAAAAAAAAATTATATATGATATATATTACATGTTATGTGCTATGCCTTATNTGTAACATATAACCTCATATATTTTNTATGTCATAGTATATAATATTTATCCTGTGTCATCTTATATATAC >R66 A 66bp tandem repeat - a consensus ACAGAGTGCTGATTGGTGCRTTTACAAACCTTTAGCTAGACACAGAGCGCTGATTGGTGCGTTTTT >SAR Human satellite I DNA ACATAAAATATCAAAGTACATCAAATATATATTTTATTCTGT >SN5 Human centromeric SN5 satellite DNA sequence CTTCCCTTCAGGGACCTCAAAGTGACCAGCTTCCCCTTGAAGAATGACTCTCCAAGGCCCAGGAGCCCAGCTTCTGGGCCTCCAAGCCAGGCCATCTGGCGAGGGAGTCGGTGGACGTGCCCTGGCTTCTTCCATGTTGAGTTGGTACTACCCACCAAGGGGGGTAGAGAGGCGAGCAGATGTTGTCTCTGGCCTGTGTCTTGTTATCATGGTGCTGACTAGGCCTGGTACAGGGCCCTGATGGGGTTGTCCTGGGTGGTCACGGGGGTGATGAGAAGAAGATGCAGAATGGATTGCTGTGAGGATGAATGAGACGACTGTCAGTACAGACAGGCACACGGTGAAGTGTTCAGGGATTCCCCTCAGTAGCTGCCCAGACCCAAAACCTGACTCCTGAGTCACGTTACTGTCCCACTATACGTTAAGAGGAGGGAAAGCTGGGTCGCGCAGGTCCC >HY3 Ro(hY3) pseudogene - a consensus TAGTCAANTGAAGCAGCGGGAGTGGAGAAGGAACAAAGAAATTTGTAACTGGTTGTGATCAATTAGTTGTAAACANCGCTGCACTCCAACCAGCC >HIR Human HINF family repeat DNA GATTCCCAGGTGCACAGAGATCCTAATCCGCATCCATCGAAATCTCACAAAGTGTCCATAAATCACTCAGGGAGGGCCCCCATGGATACAGGGCCGTAGTAGGATGCTCCTATAGTGGGCATTAATATGAGAATGACCGAAAAGTGCATTTAGGACCATATTATAATTTTCGGGTTCCCAGGTGCACGTTTCCAATAACCAGGTGCACGGATGTATAGGGTCCCCCCCATGGATAGAGGTCCGTGTTAGGGTGCTCCATATCGGGCATGAATATCAGGAACACCGGCATGTGCACTTAGGACCATGTTTTAATTTTTCA > satellites 2 and 3 GGAATGGAATGGAATGGAATGGAATGGAATGGAATGGAATGGAATGGAATGGAATGGAATGGAATGGAATGGAAT >IVR Repetitive sequence from human involucrin gene - a consensus CAGGAGGGGCAGCTGAAGCACCTGGAGCAG >7SK Human family A3 repeated element DNA; 7SK RNA pseudogene GATGTGAGGGCAATCTGGCTGCGACATCTGTCCCCACTGATTACCAGGGTTGATTCGGCTGATCTGGCTGGCTAGGCGGGTCTCCTCTTCCTCCCTCAGCCCTCCATGTGTGTACCTCCTGAAGCGGACTGGTCTTCAGTCAAGGGTAGACGAGTAGCTGTGCTCCCCTGCTAGAACCTCCAAACAAGCTCTC >KER Human K element interspersed repeat DNA AGCTCATCTGTCCACTGAAGATGCTTGGACAGAGTTAGGAATGCTTCCTGGGAGAGGTAACATTTGAGACTTTCCTGGAAGAATGGTCAGAGTAAACCAAGTAAGTAGGAATGGAAAGAGGATGGGAGGCCCCAGCTTCCCAGAGGCATAAGGTGAGGANGNCCCTATGCATTCAGATGTGGCCCACCCTGGGGTCTGGTGGACTAAAGNCTTGGACACCCCAGATCAGCCTTAGTGGGATGAGGCAGGAAAGACAGCTGAGGGTCAGAACCCAGGCAGGTCCAATGCCAGGGTGGGCATTTCGAGTTGGTGAGACATTTCACCCTGGTGCCAAGCT >XTR Repetitive element X-2 from human alpha-fetoprotein gene TTAATTTGAGAGAAATTAATTATTCTGCAACTTAGGGACAAGTCATGTCTTTGAATATTCTGTAGTTTGAGGAGAATATTTGTTATATTTGCAAAATAAAA >XBR Xba repetitive element copy A, from human alpha-fetoprotein gene AATTGATAGGTCACGTTCTCACTCTATTTGCCTTTAAGGGAAGAAAGCAATCAAGTTAATATGTTTTCCTTCATTGTATAGTATGTAACTACGGACACTATTAGAGGAGGGATTTGTGTAGCACTTAGGACATTATACTTGATAATTTCCAAGGGTCTTTCTAGATTTAAAAGTCTGATTCTAACGTAGTAATAAAAATAAAGGCCCAATTTTCTCTTTAATATTGCCTGAAGATATTACTCTATTATTGCATTAAAATTAAACATTCACACATTGTTTGCACTGCTAAATAAAATTATGTAA >MARINER1 Human mariner TTAGGTCGGTRCAAAAGTAATTRCGGTTTTTGCAYTGTTGGAATTTGYCATTTGATATTGGAATACATTCTTAAATAAATGTGGTTATGTTATACATCATTTTAATGGGCATTTCTCGCTTTACGTTTTTTTGCTAATGACTTATTACTTGCTGTTTATTTKRTGTTTATTTTAGACTATGNAAATGATGTTAGACAAAAAGCARATTCGAGCGATTTTCTTATTCAAGKTCAAAMTGRRTCGTAAAGCGGCGGAGACAACTCGCAACATCAGCAACGCATTTGGCCCAGGAACTGCTAATAAACATACAGTGCAGTGGTGGTTCAAGAAGTTTTNCAAAGGAGACGAGAGCCTTGAAGATGAGGAGTGTAATGACGGGCCATCAGAAGTTGACAACGACCAGTTGAGAGCAATCATCGAARYCGATCCTCTTACAACTANACGAGAAGTTGCTGAAGAACTCGACGTTGACCATTCTACGGTCGTTCGGCATTTGAAGCAAATTGGRAAGNAAAAACTCGATAAGTGGGTGCCTCATAAAGTGAGCAAAACTTTTTNAAATTGTCATTTTAAAGTGTCATCTCTTATTCTATGCAATAACAACGAACCATTTCTTGATCAGATTGTGACGTAGAACGAAAAGTGGATTTTATACGACAACCGGCGACGACCAGCTCAGTGGTTGGACCGAAAGAAGCTCCAAAGCACTTCCCAAAGCCAAACTTGCACCAAAAAAGTCGCGGTCGCGGTCTGGTGGTCTGCTGCCAGTGTGATCCACCACAGCTTTCTGAATCCTGGCAAAACCATTACATCTGAGAAGTATCTTCAGCAAATTGATGAGATGCACCAAAAACTGCAATGCCTGCACCTGGCATTGGTCAACAGAAAGGGCCCAATTCTTCTCCACGACAACGCCCGACCGCACGTYGCACAACCAACGCTTCAAAAGTTGAATAAATTGGGCTACGAACTTTTGCCTCATCCGCCATATTCACCTGACCTCTCGCCAACAAACTACCACTTCTTCAAGCATCTCGTCAACTTTTTGCAGGGAAAACGCTTCCACAACCAGCAGGATGCAGAAAATGCTTTCCAAGAGTTCGTCGAATCCCAAAGCACGGATTTTTATGCTACAGGAATAAACAAACTTATTTCTCGTTGGCAAAAATGTGTTGATTGTAATGGTTCCTATTTTGATTAATAAAGATGTGYTTGAGCCTAGTTATGATTATGATTTAATGGCCAAAACCACAATTACTTTTGCACCAACCTAA >Made1 Human mariner derived element 1 - a consensus TTAGGTTGGTGCAAAAGTAATTGCGGTTTTTGCCATTACTTTYAATGGCAAAAACCGCAATTACTTTTGCACCAACCTAA >Tigger1 Autonomous DNA transposon CAGGCATACCTCGTTTTATTGCGCTTCGCTTTATTGCGCTTCGCAGATACTGCGTTTTTTACAAATTGAAGGTTTGTGGCAACCCTGCGTTGAGCAAGTCTGTCGGCGCCATTTTTCCAACAGCATGTGCTCACTTCGTGTCTCTGTGTCACATTTTGGTAATTCTCGCAATATTTCAAACTTTTTCATTATTATTATATCTGTTATGGTGATCTGTGATCAGTGATCTTTGATGTTACTATTGTAATTGTTTTGGGGTGCCACGAACCGCACCCATATAAGACGGCGAACTTAATCGATAAATGTTGTGTGTGTTCTGACTGCTCCACCGACCGGCCGTTCCCCCGTCTCTCTCCCTCTCYTCGGGCCTCCCTATTCCCTGAGACACAACAATATTGAAATTAGGCCAATTAATAACCCTACAATGGCCTCTAAGTGTTCAAGTGAAAGGAAGAGTMRCACATCTCTCACTTTAAATCAAAAGCTAGAAATGATTAAGCTTAGTGAGGAAGGCATGTCAAAAGCCGAGATAGGCCAAAAGCTAGGCCTCTTGCGCCAAACAGTTAGCCAAGTTGTGAATGCAAAGGAAAAGTTCTTGAAGGAAATTAAAAGTGCTACTCCAGTGAACACACGAATGATAAGAAAGYAAAACAGCCTTATTGCTGATATGGAGAAAGTTTTAGTGGTCTGGATAGAAGATCAAACCAGCCACAAYATTCCCTTAAGCCAAAGCCTAATCCAGAGCAAGGCCCTAACTCTCTTCAATTCTATGAAGGCTGAGAGAGGTGAGGAAGCTGCAGAAGAAAAGTTTGAAGCTAGCAGAGGTTGGTTCATGAGGTTTAAGGAAAGAAGCCATCTCCATAACATAAAAGTGCAAGGTGAAGCAGCAAGTGCTGATGTAGAAGCTGCAGCAAGTTATCCAGAAGATCTAGCTAAGATCAYTGATGAAGGTGGCTACACTAAACAACAGATTTTCARTGTAGATGAAACAGCCTTCTATTGGAAGAAGATGCCATCTAGGACTTTCATAGCTAGAGAGGAGAAGTCAATGCCTGGCTTCAAAGCTTCAAAGGACAGGCTGACTCTCTTGTTAGGGGCTAATGCAGCTGGTGACTTTAAGTTGAAGCCAATGCTCATTTACCATTCTGAAAATCCTAGAGCCCTTAAGAATTATGCTAAATCTACTCTGCCTGTGCTCTATAAATGGAACAACAAAGCCTGGATGACAGCACATCTGTTTACAGCATGGTTTACTGAATATTTTAAGCCCACTGTTGAGACCTACTGCTCAGAAAAAAAGATTCCTTTCAAAATATTACTGCTCATTGACAACGCACCTGGTCACCCAAGAGCTCTGATGGAGATGTACAAGGAGATTAATGTTGTTTTCATGCCTGCTAACACAACATCCATTCTGCAGCCCATGGATCAAGGAGTAATTTCGACTTTCAAGTCTTATTATTTAAGAAATACATTTTATAAGGCTATAGCTGCCATAGATAGTGATTCCTCTGATGGATCTGGGCAAAGTAAATTGAAAACCTTCTGGAAAGGATTCACCATTCTAGATGCCATTAAGAACATTCGTGATTCATGGGAGGAGGTCAAAATATCAACATTAACAGGAGTTTGGAAGAAGTTGATTCCAACCCTCATGGATGACTTTGAGGGGTTYAAGACTTCAGTGGAGGAAGTAACTGCAGATGTGGTGGAAATAGCAAGAGAACTAGAATTAGAAGTGGAGCCTGAAGATGTGACTGAATTGCTGCAATCTCATGATAAAACTTGAACGGATGAGGAGTTGCTTCTTATGGATGAGCAAAGAAAGTGGTTTCTTGAGATGGAATCTACTCCTGGTGAAGATGCTGTGAACATTGTTGAAATGACAACAAAGGATTTAGAATATTACATAAACTTAGTTGATAAAGCAGCGGCAGGGTTTGAGAGGATTGACTCCAATTTTGAAAGAAGTTCTACTGTGGGTAAAATGCTGTCAAACAGCATCACATGCTACAGAGAAATCTTTCATGAAAGGAAGAGTCAATTGATGCGGCAAACTTCATTGTTGTCTTATTTTAAGAAATTGCCACAGCCACCCCAACCTTCAGCAACCACCACCCTGATCAGTCAGCAGCCATCAACATCAAGGCAAGACCCTCCACCAGCAAAAAGATTACGACTCGCTGAAGGCTCAGATGATCGTTAGCATTTTTTAGCAATAAAGTATTTTTAAATTAAGGTATGTACATTGTTTTTTAGACATAATGCTATTGCACACTTAATAGACTACAGTATAGCGTAAACATAACTTTTATATGCACTGGGAAACCAAAAAATTCGTGTGACTCGCTTTATTGCGATATTCGCTTTATTGCGGTGGTCTGGAACCGAACCCGCAATATCTCCGAGGTATGCCTG >Tigger2 Autonomous DNA transposon CAGTTGACCCTTGAACAACACGGGTTTGAACTGCGCGGGTCCACTTATACGTGRATTTTTTYCAATAAATATATTGGAAAAAWTTYTGGAGATTTGCAACAATTTGAAAAAACTCGCAGACGAACCGCGTAGCCTAGAAATATTGAAAAAATTAAGAAAAAGGTATGTCATGAATGTATAAAATATATGTAGATACTAGTCTATTTTATCATTTACTACCATAAAATAYACACAAANCTATTATAAAAAGTTAAAATTTATCAAAACTTAYAYAYAYACTTACAGACTGTACGTGGTACCATTCGAAGTNGAGAGAAATATAAACAAACNTAAAGATGCAGTATTAAATCACAACTGCGTAAAATTAACTGTAGTACATACTATACTACCGTAATAATTTTGTAGCCACCTCCTGTTGCTATTGCAGCGAGCTCAAGTGTTGTGAGTACCTGCTTAAAACGCTSKGTGATGCTAATCATCTCCGCGCGAGCAGTTYATCTCTCCAGTAAATTGCGTATTGCAGTAAAAAGTGATCTCTCACGGTTCTCGCGTATTTTTCATTGTGTTTARTGCAATATTGTAAACCTTGAATAACACCATGGGACCCATACGAAGTGCCACTAGTGATGCTGGAAGTGCTCCCAAGAAGCAGAGAAAAGTCATGACATTACAAGAAAAAGTTGAATTGCTTGATATGTACCATAGATTGAGGTCTGCAGCTGGGGTTGCCTGCCATTTCAAGAYAGATGAATCCGGCGTAAGGACCGTTGTMAAAAAAGAAAAGGAAATTCGTGAARACCGTCGCTGCAGTTATGCCCAGCAGGCACAAAAACTTGTNACTTTTTGCGAAATACCTTTTTATGTTGTATTGAAAATGCAGCTTTTNTGTGGGTGCAGGATTGCTATAAGAAAGGMATACCTANAGACTCTAATATGATTAGAGAAAAAGCGAAGTCATTATGTGANNACTTAAAGCAAAARRAAGATGAMRGATCTAAAGCTGGANAATTTAATGCCAGCAAAKGATGGTTTGACAATTTTAGAAAGARGTWTGGCTTAAAAAATKTCAAGAKAACAGGAGAAGCASYTTCTGCTGACCAAGAGACAGCAGACGAGTTNCCAGATGCCATTAACAAAATCATTGAGGAGAAAGGATATCTGCCTGAACAGGTTTTTAATGCAGATGARAGTGCCCTATTCTGGGGGGAAAAAATGCCACAAAGRACATTTATTAGTAAGNAAGAGAAGCGAGCACCAGGATTTAAGGCARGAAGGGATAGGCTAACTCTACTGTTTTGTGCAAATGCAGTTAGGTTTATGATCAGGACTGCCCTTATCTATAAAGCTGCTAACCCCCGAGCCTTGAAGGGAAAAGATAAACGCCAGCTGCCAGTCTTTTGGTTGTACAACAAGAAGGCCTGGACAACGAGAACCCTTTTTCTGGATTGGTTCCATTKATGCTTTGTCCCTGAWGTCAGGAAGTACCTTGCCAGTAAGRGACTGCCTTTTAAAGTTCTTTTGATATTGGACAATGCCCYTGGCCACCCAGAACCCCATGAGTTCAACACCGAAGGTGTCGAAGTGGTCTACTTGCCCCCAAACACAACGTCTCTAATTCAGCCTCTAGATCAGGGGGTCATAAGGACCTTTAAGGCTCATTACACACGGTACTCTATGGAAAGGATTGTCAACGCTATGGAAGAGAACCCCGATAGARAGAACATCATGAAAGTCTGGAAGGATTACACCATTGAAGATGCCATTGTTRTTATAGAAAAAGCCGTGAAAGCCATCAAGCCCAAAACAGTAAATTCCTGCTGGAGAAAACTGTGTCCAGATGTTGTACATGACTTCACAGGATTTACGACAGAGCCAATCAAGGAAATCATGAAAGAGATTGTGGATATGGCAAAAAAGTTGGGGGGTAAAGGGTTTCAAGATGCGAATCTTGGAGAAATTCAAGAGCWAATAGACACCACACCAGAGGAATTAACAGAAGACGACTTGATGGAGATGAGTGCTTCCGAACCAGTGCCAGACGATGAGGAAGAAGACATNGAAGAAGCAGTGCCAGAAAACAAATTGACATTAGACAATCTRGGCAGAAGGGTTCCAATTATTCAAGACTGCTTTTGACTTCTTTTACAACATGGACCCTTCTATGATACGGGCACTGAAACTAAAGCAAACAGTGGAAGAAGGATTGGTAYTATACAGAAACATTTTTAGAGAAATGAAAAGGCAAAAAYRTCAGACAGAAATTACGATGTATTTCCGTAAAGTTACACCGAGTGTGCCTGCCTCTCCTGCCTCCCCTTCCACCTCCTCCACCTCTTCCACCTCTGCCACCCTGAGACAGCAAGACCAACCCCTCCTCCTCCTCAGCCTWCTCAATGTGAAGACGACGAGGATGAAGACCTTTATGATGATCCACTTCCACTTAATGAATAGTAAATATATTTTCTCTTCCTTATGATTTTCTTAATAACATTTTCTTTTCTCTAGCTTACTTTATTGTAAGAATACGGTATATAATACATATAACATACAAAATATGTGTTAATCGACTGTTTATGTTATCGGTAAGGCTTCCAGTCAACAGTAGGCTATTAGTAGTTAAGTTTTKGGGGAGTCAAAAGTTATACGTGGATTTTTNACTGCGCGGGGGGTCAGCGCCCCTAACCCCCGCGTTGTTCAAGGGTCAACTG >PTR5 Human PTR5 mRNA for repetitive sequence GAATTCCGAAGCTTTGTTCTTTAGCTCTTTGCAATAAATCTTGCTGCTGCTCACTCTTTGGGTCCACACTGCCTTTACGAGCTGTAACACTCACCGCGAAGGTCTGCAGCTTCACTCCTGAAGCCAGTGAGACCACGAACCCACCAGGAGGAACAAACAACTCCAGATGTGCTGCCTTAAGAGCTGTAACACTCACCGCGAAGGTCTGCAGCTTCAGTCCTAAGCCAGCAAGACCACGAACCCACCAGAAGGAAGAAACTCTGAACACATCCAAACATCAGAAGGAACAAACTCTGGACATGCCGCCTTTAAGAACTGTGACACTCACCACGAGGGTCCGTGGCTTCATTCTTGAAGTCAGTGAGACCAAGAACCCACCAATTCCAGACACATTTTGGCAACCACAAAGGGACTATCACCTATTGCCAAGCGGTGAGACTATCGCCAAGTGGTGAGACCATCGTCTATCGCTGAGCAGCAAAACAATCGCCTATCGCCAAGCAAATCGAAGCCATCAAGCTACAGATGGTCTTACAAATGGAACCCCAAATGAGTTCAACTAACAACTTCTACCGAGGACCCCTGGACCGACCCGCTGGCACTTCCACTGGCCTAGAGAGTTCCCCCTTGAGACACTACAACTGCAGGGCCCCTTCTTCACTTCTATCCAGCAGGAAGTAGCTAGAGCAGTCATCGGCCAAATTCCCAACAGCAGTTGGGGTGTCCTGTTTAGAGGGGGGATTGAGAGGTGGCAGTGTGCTGGCAGCCCTCGCAGCCCTCGCTCACTCTTGGCTCCTCCTCGGCCTTGGCGCCCACTCTGGCCATGCTTAAGGAGCCCTTCAGCCTGCCACTGCACTGTGGGAACACTGGCCAAGGCCAGAGCCAGCTCACTCAGCTTGTGGGGAAGTGTGGAGGGAGAGGCGCAGGCGGGAACTGGGGCTCGATGCGGCGCTTGCGGGCCAGCGTGAGTTCCGGTGGTTGGTGGCTTGGCGGGCCCCAGACTCGGAGCGGCTGGCCTGCCCTGCTGGCCCCAGGCAGTGAGGGGCTTAGCACCCAGGCCAGCAGCTGTGGATGGTGCGCTGAGTCTCCCAGCAGTGCTGGCCCACCCCACCAGCACTGCACTCGATTTCTCGCCAGGCCTTAGCTGCCTCCCCGCAGGCAGGCCTTGGGACCTGCAGCCCACCATGCCTGAGTCTCCCCTGCTGCCGCCGTGGGCTCCTGCGTGGCCCAAGCCTCCCCGACGAGCACTGCCCCCTGCTCCCCGGTGCCTGGTCCCATCGACCCCAAGGGCTGAGGAGTGCAGGTGCATGCTGCGGGACTGGCAGGCAGCTCCACCTGCGGCCCCATGCAGGAAGCCAGCTGGGCTCCTGAGTCTGGTGGGGACTTGGAGAATTTTTATGTCTAGCTAAGGGATTGTAAATACACCAATCAGCACTCTGTATCTAGCTCAAGGATTGTAAATACACCAATCAGCACCCTGTGTCTAGCTCAGGGTTTGTCAATGCACCAATCGGCACTCTGTATCTAGTTAATCTGGTGGGGAGTTGGAGAATCTTTATGTCTAGCTAAGGGATTGTAAATACACCAATCAGCACTCTGTATCTAGCTCAAGGTTTGTAAACACACCAATCAGAACCCTGTGTCTAGCTCAGGGTTTGTGAATGCACCAATCAGCACTCTGTATCTAGTTAATCTGGTGGGGACTTGGAGAATCTTTATGTCTAGCTAAGGGATTGTGAATGCACCAATCGGCACTCTGTATCTAGCTCAAGGTTGTAAATGGACCAATCAGCACTCTATGTCTAGCTCAGTGTTTGTAAATACACCAATCGACACTCTATCTAGCTAATCTAGTGGGGACGTGGAGAACTTTTGTGTCTAACTCAGGGATTGTAAATGCACCAATCAGAACCCTGTCAAAATGGACCAATAGCTCTCTGTAAAACAGACTGACTTTCTGTAAAATGGACCAATCAGCAGGATGTGGGTGGGGCCAGATAAGAGAAGAAAAGCAGGCTGCCTGAGCCAGCAGTGGCAACCCGCTTGGGTCCCCTTCCACACTGTGGAAGCTTTGTTCTTTCGCTCTTTGCAATAAATCTTGCTGCTGCTCACTCTTTGGGTCCACACTGCCTTTATGAGCTGTAACACTCACCGCGAAGGTCTGCAGCTTCATCTGAAGCAGCGAGACACGAACCCACCAGGAGGAACAAACAACTCCGATGCGCTGCCTTAAGAGCTGTAACACCGCGAGGTCTCGAGCTTCACTCCTGAGCCAGCAAGACCACAAACCCACCAGAAGGAAGAAACTCAGGAAAACAGCCGAACATCAGAAGGAATAAACTCTGGACACACCACCTTTAAGAACTGTGACACTCGCTGCGAGCGTCTGTGGCTTCATTCTTGAAGTCAGTGAGACCAAGAACCCACCAATTCTGGAC >PAB Human pseudoautosomal boundary-like sequence. CCTTACCAGCCCCCTACTGTGGCAGGCCAGGTCCCACTAACACAGGCCTCCATAACAACTGTTTCAGCTCTGACTGAGTGGTTAAGTTAAATACTAAAAGCCGAGAGAGCCAGTCCCCTTATACAGAGGCTGGAATGTAACAAAAGCCCACCAAGAGTTTTGCCTAGGCCTTTCCTGGGCCTTGAAGCATGACAAAATAACAAAAGAATTCTTAACAGAATCTATTTAGGATTAAACAAGTTTTACTGGGGGTTCTGAAGAAACTCCCCAGTCCTCCACAAACAAGTTTACTGGGGTCTGAAAGAACTCCCCAAACCTCCATGATTTAGCAGGAGACAAGATAAGGGTAATCACCCCAGCACCTGGACCCAGCTAGATTTAGTCAATTTACTGAGGCTACAAAGGAAGGTCTTCAGGACTCAGACCTCAGTTATAGATTAGAAGAAGTTAATCACTTATGTCTTTAGATGATTGCACACTTACACATAGACATATAGCTTAGAAGGTGTATAAGCTCTGGAAAACTTTGTAATTTTGAGTTGGTCTGGTGATATTTTCCAGGCCTTCTCCCTATACCCGGTTACAGAAATAAAAACTTTCTTCCTCCCCAGTTCATCTGCATCTTGTTAATGGGCTGCCAGAAATAGCAGCCCAACCCTCAGTTAGGTCTGGGAACACTACCCCCCAACACACACACACACAC >TARE Transposable element GAATTCCGCGCCCGTCCCGTCGCCGCCGCCGCCGCCGCAGACCCCTCGGTCTTGCTATGTCGAGCTCACCCGTGAAGCGTCAGAGGATGGAGTCCGCGCTGGACCAGCTCAAGCAGTTCACCACCGTGGTGGCCGACACGGGCGACTTCCACGCCATCGACGAGTACAAGCCCCAGGATGCTACCACCAACCCGTCCCTGATCCTGGCCGCAGCACAGATGCCCGCTTACCAGGAGCTGGTGGAGGAGGCGATTGCCTATGGCCGGAAGCTGGGCGGGTCACAAGAGGACCAGATTAAAAATGCTATTGATAAACTTTTTGTGTTGTTTGGAGCAGAAATACTAAAGAAGATTCCGGGCCGAGTATCCACAGAAGTAGACGCAAGGCTCTCCTTTGATAAAGATGCGATGGTGGCCAGAGCCAGGCGGCTCATCGAGCTCTACAAGGAAGCTGGGATCAGCAAGGACCGA >A Primate simple repeat pattern AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA >C Primate simple repeat pattern CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC >AC Primate simple repeat pattern ACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACACA >AT Primate simple repeat pattern ATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATA >AG Primate simple repeat pattern AGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGA >CG Primate simple repeat pattern CGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGC >GCC Primate simple repeat pattern GCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCC >TAA Primate simple repeat pattern TAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAA >CAA Primate simple repeat pattern CAACAACAACAACAACAACAACAACAACAACAACAACAACAACAACAACAACAACAACAACAACAACAA >GCA Primate simple repeat pattern GCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCA >CTA Primate simple repeat pattern CTACTACTACTACTACTACTACTACTACTACTACTACTACTACTACTACTACTACTACTACTACTACTA >GGA Primate simple repeat pattern GGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGA >GAA Primate simple repeat pattern GAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAA >TCA Primate simple repeat pattern TCATCATCATCATCATCATCATCATCATCATCATCATCATCATCATCATCATCATCATCATCATCATCA >CCA Primate simple repeat pattern CCACCACCACCACCACCACCACCACCACCACCACCACCACCACCACCACCACCACCACCACCACCACCA >TAGA Primate simple repeat pattern TAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGATAGAT >CAAA Primate simple repeat pattern CAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAAC >TAAA Primate simple repeat pattern TAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAT >GAAA Primate simple repeat pattern GAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAG >TCCA Primate simple repeat pattern TCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCATCCAT >CGAA Primate simple repeat pattern CGAACGAACGAACGAACGAACGAACGAACGAACGAACGAACGAACGAACGAACGAACGAACGAACGAAC >TGAA Primate simple repeat pattern TGAATGAATGAATGAATGAATGAATGAATGAATGAATGAATGAATGAATGAATGAATGAATGAATGAAT >CGGA Primate simple repeat pattern CGGACGGACGGACGGACGGACGGACGGACGGACGGACGGACGGACGGACGGACGGACGGACGGACGGAC >GGAA Primate simple repeat pattern GGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAG >TACA Primate simple repeat pattern TACATACATACATACATACATACATACATACATACATACATACATACATACATACATACATACATACAT >TCAA Primate simple repeat pattern TCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAAT >GACA Primate simple repeat pattern GACAGACAGACAGACAGACAGACAGACAGACAGACAGACAGACAGACAGACAGACAGACAGACAGACAG >CCTA Primate simple repeat pattern CCTACCTACCTACCTACCTACCTACCTACCTACCTACCTACCTACCTACCTACCTACCTACCTACCTAC >GCCC Primate simple repeat pattern GCCCGCCCGCCCGCCCGCCCGCCCGCCCGCCCGCCCGCCCGCCCGCCCGCCCGCCCGCCCGCCCGCCCG >TTAA Primate simple repeat pattern TTAATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAAT >GGGA Primate simple repeat pattern GGGAGGGAGGGAGGGAGGGAGGGAGGGAGGGAGGGAGGGAGGGAGGGAGGGAGGGAGGGAGGGAGGGAG >GGCA Primate simple repeat pattern GGCAGGCAGGCAGGCAGGCAGGCAGGCAGGCAGGCAGGCAGGCAGGCAGGCAGGCAGGCAGGCAGGCAG >GCCA Primate simple repeat pattern GCCAGCCAGCCAGCCAGCCAGCCAGCCAGCCAGCCAGCCAGCCAGCCAGCCAGCCAGCCAGCCAGCCAG >CAAAA Primate simple repeat pattern CAAAACAAAACAAAACAAAACAAAACAAAACAAAACAAAACAAAACAAAACAAAACAAAACAAAACAAA >TGGAA Primate simple repeat pattern TGGAATGGAATGGAATGGAATGGAATGGAATGGAATGGAATGGAATGGAATGGAATGGAATGGAATGGA >TAAAA Primate simple repeat pattern TAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAAATAAA >GCCCA Primate simple repeat pattern GCCCAGCCCAGCCCAGCCCAGCCCAGCCCAGCCCAGCCCAGCCCAGCCCAGCCCAGCCCAGCCCAGCCC >GCTCA Primate simple repeat pattern GCTCAGCTCAGCTCAGCTCAGCTCAGCTCAGCTCAGCTCAGCTCAGCTCAGCTCAGCTCAGCTCAGCTC >GAAAA Primate simple repeat pattern GAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAA >TACAA Primate simple repeat pattern TACAATACAATACAATACAATACAATACAATACAATACAATACAATACAATACAATACAATACAATACA >CTCCA Primate simple repeat pattern CTCCACTCCACTCCACTCCACTCCACTCCACTCCACTCCACTCCACTCCACTCCACTCCACTCCACTCC >TCTAA Primate simple repeat pattern TCTAATCTAATCTAATCTAATCTAATCTAATCTAATCTAATCTAATCTAATCTAATCTAATCTAATCTA >TAGAA Primate simple repeat pattern TAGAATAGAATAGAATAGAATAGAATAGAATAGAATAGAATAGAATAGAATAGAATAGAATAGAATAGA >GGAGA Primate simple repeat pattern GGAGAGGAGAGGAGAGGAGAGGAGAGGAGAGGAGAGGAGAGGAGAGGAGAGGAGAGGAGAGGAGAGGAG >TTAAA Primate simple repeat pattern TTAAATTAAATTAAATTAAATTAAATTAAATTAAATTAAATTAAATTAAATTAAATTAAATTAAATTAA >GCCCC Primate simple repeat pattern GCCCCGCCCCGCCCCGCCCCGCCCCGCCCCGCCCCGCCCCGCCCCGCCCCGCCCCGCCCCGCCCCGCCC >GCGCA Primate simple repeat pattern GCGCAGCGCAGCGCAGCGCAGCGCAGCGCAGCGCAGCGCAGCGCAGCGCAGCGCAGCGCAGCGCAGCGC >GGGGA Primate simple repeat pattern GGGGAGGGGAGGGGAGGGGAGGGGAGGGGAGGGGAGGGGAGGGGAGGGGAGGGGAGGGGAGGGGAGGGG >GGCCC Primate simple repeat pattern GGCCCGGCCCGGCCCGGCCCGGCCCGGCCCGGCCCGGCCCGGCCCGGCCCGGCCCGGCCCGGCCCGGCC >TCCCA Primate simple repeat pattern TCCCATCCCATCCCATCCCATCCCATCCCATCCCATCCCATCCCATCCCATCCCATCCCATCCCATCCC >CCCCA Primate simple repeat pattern CCCCACCCCACCCCACCCCACCCCACCCCACCCCACCCCACCCCACCCCACCCCACCCCACCCCACCCC >CCCTAA Primate simple repeat pattern CCCTAACCCTAACCCTAACCCTAACCCTAACCCTAACCCTAACCCTAACCCTAACCCTAACCCTAACCC >CCCGAA Primate simple repeat pattern CCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCC >TATACA Primate simple repeat pattern TATACATATACATATACATATACATATACATATACATATACATATACATATACATATACATATACATAT >TCACCA Primate simple repeat pattern TCACCATCACCATCACCATCACCATCACCATCACCATCACCATCACCATCACCATCACCATCACCATCA >CCCCAA Primate simple repeat pattern CCCCAACCCCAACCCCAACCCCAACCCCAACCCCAACCCCAACCCCAACCCCAACCCCAACCCCAACCC >CAAAAA Primate simple repeat pattern CAAAAACAAAAACAAAAACAAAAACAAAAACAAAAACAAAAACAAAAACAAAAACAAAAACAAAAACAA >CCCTCA Primate simple repeat pattern CCCTCACCCTCACCCTCACCCTCACCCTCACCCTCACCCTCACCCTCACCCTCACCCTCACCCTCACCC >GCCCCC Primate simple repeat pattern GCCCCCGCCCCCGCCCCCGCCCCCGCCCCCGCCCCCGCCCCCGCCCCCGCCCCCGCCCCCGCCCCCGCC >GAAAAA Primate simple repeat pattern GAAAAAGAAAAAGAAAAAGAAAAAGAAAAAGAAAAAGAAAAAGAAAAAGAAAAAGAAAAAGAAAAAGAA >GGAGAA Primate simple repeat pattern GGAGAAGGAGAAGGAGAAGGAGAAGGAGAAGGAGAAGGAGAAGGAGAAGGAGAAGGAGAAGGAGAAGGA >CCCCCA Primate simple repeat pattern CCCCCACCCCCACCCCCACCCCCACCCCCACCCCCACCCCCACCCCCACCCCCACCCCCACCCCCACCC >TAAAAA Primate simple repeat pattern TAAAAATAAAAATAAAAATAAAAATAAAAATAAAAATAAAAATAAAAATAAAAATAAAAATAAAAATAA >GGGAGA Primate simple repeat pattern GGGAGAGGGAGAGGGAGAGGGAGAGGGAGAGGGAGAGGGAGAGGGAGAGGGAGAGGGAGAGGGAGAGGG >GCCCCA Primate simple repeat pattern GCCCCAGCCCCAGCCCCAGCCCCAGCCCCAGCCCCAGCCCCAGCCCCAGCCCCAGCCCCAGCCCCAGCC >GGGGGA Primate simple repeat pattern GGGGGAGGGGGAGGGGGAGGGGGAGGGGGAGGGGGAGGGGGAGGGGGAGGGGGAGGGGGAGGGGGAGGG >GAGACA Primate simple repeat pattern GAGACAGAGACAGAGACAGAGACAGAGACAGAGACAGAGACAGAGACAGAGACAGAGACAGAGACAGAG >A Primate simple repeat pattern TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT >C Primate simple repeat pattern GGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG >AC Primate simple repeat pattern TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT >AT Primate simple repeat pattern TATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATAT >AG Primate simple repeat pattern TCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCT >CG Primate simple repeat pattern GCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCGCG >GCC Primate simple repeat pattern GGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGCGGC >TAA Primate simple repeat pattern TTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTA >CAA Primate simple repeat pattern TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG >GCA Primate simple repeat pattern TGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGC >CTA Primate simple repeat pattern TAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAG >GGA Primate simple repeat pattern TCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCC >GAA Primate simple repeat pattern TTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTC >TCA Primate simple repeat pattern TGATGATGATGATGATGATGATGATGATGATGATGATGATGATGATGATGATGATGATGATGATGATGA >CCA Primate simple repeat pattern TGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGG >TAGA Primate simple repeat pattern ATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTATCTA >CAAA Primate simple repeat pattern GTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTG >TAAA Primate simple repeat pattern ATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTA >GAAA Primate simple repeat pattern CTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTC >TCCA Primate simple repeat pattern ATGGATGGATGGATGGATGGATGGATGGATGGATGGATGGATGGATGGATGGATGGATGGATGGATGGA >CGAA Primate simple repeat pattern GTTCGTTCGTTCGTTCGTTCGTTCGTTCGTTCGTTCGTTCGTTCGTTCGTTCGTTCGTTCGTTCGTTCG >TGAA Primate simple repeat pattern ATTCATTCATTCATTCATTCATTCATTCATTCATTCATTCATTCATTCATTCATTCATTCATTCATTCA >CGGA Primate simple repeat pattern GTCCGTCCGTCCGTCCGTCCGTCCGTCCGTCCGTCCGTCCGTCCGTCCGTCCGTCCGTCCGTCCGTCCG >GGAA Primate simple repeat pattern CTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCC >TACA Primate simple repeat pattern ATGTATGTATGTATGTATGTATGTATGTATGTATGTATGTATGTATGTATGTATGTATGTATGTATGTA >TCAA Primate simple repeat pattern ATTGATTGATTGATTGATTGATTGATTGATTGATTGATTGATTGATTGATTGATTGATTGATTGATTGA >GACA Primate simple repeat pattern CTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTC >CCTA Primate simple repeat pattern GTAGGTAGGTAGGTAGGTAGGTAGGTAGGTAGGTAGGTAGGTAGGTAGGTAGGTAGGTAGGTAGGTAGG >GCCC Primate simple repeat pattern CGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGCGGGC >TTAA Primate simple repeat pattern ATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAATTAA >GGGA Primate simple repeat pattern CTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCC >GGCA Primate simple repeat pattern CTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCC >GCCA Primate simple repeat pattern CTGGCTGGCTGGCTGGCTGGCTGGCTGGCTGGCTGGCTGGCTGGCTGGCTGGCTGGCTGGCTGGCTGGC >CAAAA Primate simple repeat pattern TTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTG >TGGAA Primate simple repeat pattern TCCATTCCATTCCATTCCATTCCATTCCATTCCATTCCATTCCATTCCATTCCATTCCATTCCATTCCA >TAAAA Primate simple repeat pattern TTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTATTTTA >GCCCA Primate simple repeat pattern GGGCTGGGCTGGGCTGGGCTGGGCTGGGCTGGGCTGGGCTGGGCTGGGCTGGGCTGGGCTGGGCTGGGC >GCTCA Primate simple repeat pattern GAGCTGAGCTGAGCTGAGCTGAGCTGAGCTGAGCTGAGCTGAGCTGAGCTGAGCTGAGCTGAGCTGAGC >GAAAA Primate simple repeat pattern TTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTCTTTTC >TACAA Primate simple repeat pattern TGTATTGTATTGTATTGTATTGTATTGTATTGTATTGTATTGTATTGTATTGTATTGTATTGTATTGTA >CTCCA Primate simple repeat pattern GGAGTGGAGTGGAGTGGAGTGGAGTGGAGTGGAGTGGAGTGGAGTGGAGTGGAGTGGAGTGGAGTGGAG >TCTAA Primate simple repeat pattern TAGATTAGATTAGATTAGATTAGATTAGATTAGATTAGATTAGATTAGATTAGATTAGATTAGATTAGA >TAGAA Primate simple repeat pattern TCTATTCTATTCTATTCTATTCTATTCTATTCTATTCTATTCTATTCTATTCTATTCTATTCTATTCTA >GGAGA Primate simple repeat pattern CTCCTCTCCTCTCCTCTCCTCTCCTCTCCTCTCCTCTCCTCTCCTCTCCTCTCCTCTCCTCTCCTCTCC >TTAAA Primate simple repeat pattern TTAATTTAATTTAATTTAATTTAATTTAATTTAATTTAATTTAATTTAATTTAATTTAATTTAATTTAA >GCCCC Primate simple repeat pattern GGGCGGGGCGGGGCGGGGCGGGGCGGGGCGGGGCGGGGCGGGGCGGGGCGGGGCGGGGCGGGGCGGGGC >GCGCA Primate simple repeat pattern GCGCTGCGCTGCGCTGCGCTGCGCTGCGCTGCGCTGCGCTGCGCTGCGCTGCGCTGCGCTGCGCTGCGC >GGGGA Primate simple repeat pattern CCCCTCCCCTCCCCTCCCCTCCCCTCCCCTCCCCTCCCCTCCCCTCCCCTCCCCTCCCCTCCCCTCCCC >GGCCC Primate simple repeat pattern GGCCGGGCCGGGCCGGGCCGGGCCGGGCCGGGCCGGGCCGGGCCGGGCCGGGCCGGGCCGGGCCGGGCC >TCCCA Primate simple repeat pattern GGGATGGGATGGGATGGGATGGGATGGGATGGGATGGGATGGGATGGGATGGGATGGGATGGGATGGGA >CCCCA Primate simple repeat pattern GGGGTGGGGTGGGGTGGGGTGGGGTGGGGTGGGGTGGGGTGGGGTGGGGTGGGGTGGGGTGGGGTGGGG >CCCTAA Primate simple repeat pattern GGGTTAGGGTTAGGGTTAGGGTTAGGGTTAGGGTTAGGGTTAGGGTTAGGGTTAGGGTTAGGGTTAGGG >CCCGAA Primate simple repeat pattern GGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGG >TATACA Primate simple repeat pattern ATATGTATATGTATATGTATATGTATATGTATATGTATATGTATATGTATATGTATATGTATATGTATA >TCACCA Primate simple repeat pattern TGATGGTGATGGTGATGGTGATGGTGATGGTGATGGTGATGGTGATGGTGATGGTGATGGTGATGGTGA >CCCCAA Primate simple repeat pattern GGGTTGGGGTTGGGGTTGGGGTTGGGGTTGGGGTTGGGGTTGGGGTTGGGGTTGGGGTTGGGGTTGGGG >CAAAAA Primate simple repeat pattern TTGTTTTTGTTTTTGTTTTTGTTTTTGTTTTTGTTTTTGTTTTTGTTTTTGTTTTTGTTTTTGTTTTTG >CCCTCA Primate simple repeat pattern GGGTGAGGGTGAGGGTGAGGGTGAGGGTGAGGGTGAGGGTGAGGGTGAGGGTGAGGGTGAGGGTGAGGG >GCCCCC Primate simple repeat pattern GGCGGGGGCGGGGGCGGGGGCGGGGGCGGGGGCGGGGGCGGGGGCGGGGGCGGGGGCGGGGGCGGGGGC >GAAAAA Primate simple repeat pattern TTCTTTTTCTTTTTCTTTTTCTTTTTCTTTTTCTTTTTCTTTTTCTTTTTCTTTTTCTTTTTCTTTTTC >GGAGAA Primate simple repeat pattern TCCTTCTCCTTCTCCTTCTCCTTCTCCTTCTCCTTCTCCTTCTCCTTCTCCTTCTCCTTCTCCTTCTCC >CCCCCA Primate simple repeat pattern GGGTGGGGGTGGGGGTGGGGGTGGGGGTGGGGGTGGGGGTGGGGGTGGGGGTGGGGGTGGGGGTGGGGG >TAAAAA Primate simple repeat pattern TTATTTTTATTTTTATTTTTATTTTTATTTTTATTTTTATTTTTATTTTTATTTTTATTTTTATTTTTA >GGGAGA Primate simple repeat pattern CCCTCTCCCTCTCCCTCTCCCTCTCCCTCTCCCTCTCCCTCTCCCTCTCCCTCTCCCTCTCCCTCTCCC >GCCCCA Primate simple repeat pattern GGCTGGGGCTGGGGCTGGGGCTGGGGCTGGGGCTGGGGCTGGGGCTGGGGCTGGGGCTGGGGCTGGGGC >GGGGGA Primate simple repeat pattern CCCTCCCCCTCCCCCTCCCCCTCCCCCTCCCCCTCCCCCTCCCCCTCCCCCTCCCCCTCCCCCTCCCCC >GAGACA Primate simple repeat pattern CTCTGTCTCTGTCTCTGTCTCTGTCTCTGTCTCTGTCTCTGTCTCTGTCTCTGTCTCTGTCTCTGTCTC