>gi|1238415392|ref|NM_001354394.1| Homo sapiens diphosphoinositol pentakisphosphate kinase 1 (PPIP5K1), transcript variant 20, mRNA
ACCGCAAAGAAGTCGCGCTTTGATTGGGCCGCTGTCAGGTGTCGCTGCCTGCAGGTTCGGCTGCGCGAGCGGAGGGAGGCGGGACTCAAGAGTAGCCTTCCTCGAGGACCTGCCTTTCCCATTTGCTGCCTGAAGTTAATGTTTCTTGCTGGCCAAATCAGGGACATGCCGGCATTAGCGGGATGAGTGGGTGTTCCGGCAGGGATGTGGTCATTGACGGCCAGTGAGGGCGAGAGTACCACGGCCCACTTCTTCCTTGGAGCTGGAGATGAGGGGCTGGGCACCCGTGGAATAGGCATGAGGCCAGAAGAGAGTGACAGCGAGCTCCTTGAGGATGAGGAGGATGAAGTGCCTCCTGAACCTCAGATCATTGTTGGCATCTGTGCCATGACCAAGAAATCCAAGTCCAAGCCAATGACTCAAATCCTAGAGCGACTCTGCAGATTTGACTACCTGACTGTTGTCATTCTGGGAGAAGATGTAATCCTTAATGAACCTGTGGAAAACTGGCCATCCTGCCACTGCCTCATCTCTTTCCACTCCAAAGGCTTTCCTCTGGACAAAGCTGTTGCTTACTCCAAGCTTCGAAACCCCTTTCTTATCAATGATCTGGCCATGCAGTATTACATCCAAGATAGGAGGGAGGTGTACCGGATCCTGCAGGAAGAGGGTATTGATCTGCCTCGATATGCTGTGCTCAACCGTGATCCTGCCCGGCCTGAGGAATGCAACCTGATAGAAGGTGAAGACCAAGTAGAGGTCAATGGAGCTGTCTTTCCCAAGCCCTTTGTGGAGAAGCCAGTGAGTGCAGAAGACCACAATGTTTACATCTACTACCCCAGCTCAGCTGGAGGAGGAAGCCAGCGTCTCTTTCGTAAGATTGGCAGCCGAAGCAGTGTTTACTCTCCTGAGAGCAGCGTCCGAAAGACGGGGTCGTACATCTATGAGGAGTTTATGCCAACAGATGGCACAGATGTCAAGGTGTATACAGTGGGGCCAGATTATGCCCATGCTGAAGCTAGAAAATCTCCAGCTTTGGATGGGAAGGTTGAACGAGACAGTGAGGGGAAAGAGATTCGATATCCAGTCATGCTGACTGCCATGGAAAAGCTGGTGGCCAGGAAAGTCTGCGTAGCTTTCAAGCAAACAGTTTGTGGATTTGACCTTCTTCGTGCCAATGGTCATTCCTTTGTGTGTGATGTCAATGGCTTTAGTTTTGTCAAGAACTCGATGAAATACTACGATGACTGTGCCAAGATTCTGGGGAACACCATAATGCGGGAGCTTGCCCCACAGTTCCAGATTCCATGGTCCATCCCCACGGAGGCTGAGGACATTCCCATTGTTCCCACCACATCTGGCACTATGATGGAACTTCGTTGTGTCATTGCAATTATTCGTCATGGGGATCGTACTCCCAAGCAGAAGATGAAGATGGAAGTGAAACACCCAAGGTTTTTTGCTCTGTTTGAAAAACATGGTGGCTACAAGACAGGGAAATTAAAACTCAAGCGACCTGAGCAGCTCCAGGAGGTGCTGGATATCACAAGGCTGTTGTTGGCTGAACTGGAGAAAGAACCAGGTGGTGAGATCGAGGAGAAGACTGGAAAACTAGAGCAGCTGAAGTCTGTACTGGAGATGTATGGTCACTTCTCAGGTATAAACCGGAAGGTACAATTGACTTACTACCCTCATGGAGTAAAAGCTTCTAATGAGGGGCAAGATCCACAGAGGGAAACTCTGGCCCCATCTCTGTTGCTGGTACTGAAGTGGGGTGGAGAACTGACTCCTGCTGGCCGTGTTCAGGCTGAGGAGCTGGGGCGAGCTTTTCGCTGCATGTACCCTGGAGGACAGGGTGACTATGCTGGCTTCCCTGGTTGTGGGCTGCTTCGTCTCCATAGCACTTTCCGCCACGATCTCAAGATCTATGCCTCTGATGAGGGTCGTGTTCAGATGACTGCTGCTGCCTTCGCCAAGGGCCTTCTGGCTCTAGAAGGGGAGCTGACACCCATTTTGGTGCAAATGGTGAAGAGTGCCAACATGAATGGGCTACTGGACAGCGATGGGGATTCCTTGAGCAGCTGCCAGCACCGGGTGAAGGCTCGGCTGCACCATATTCTACAGCAGGATGCGCCCTTTGGCCCTGAGGACTACGATCAGCTGGCTCCCACCAGAAGTACTTCCCTGCTCAACTCCATGACTATCATCCAGAATCCTGTGAAGGTCTGTGATCAGGTATTTGCCCTGATCGAAAACCTCACCCACCAGATCCGGGAACGAATGCAGGACCCCAGGTCTGTAGACCTGCAGCTCTACCACAGTGAGACACTAGAGCTAATGCTACAGCGTTGGAGCAAGCTGGAGCGTGACTTTCGACAGAAGAGTGGGCGCTATGATATCAGTAAGATCCCTGACATCTATGACTGTGTCAAGTATGATGTGCAGCACAATGGGAGTCTGGGACTTCAAGGCACAGCAGAGTTGCTCCGTCTCTCTAAGGCACTGGCTGATGTGGTCATTCCCCAGGAGTACGGGATCAGTCGGGAGGAGAAACTGGAAATTGCTGTGGGCTTCTGTCTTCCACTGTTGCGGAAGATACTACTTGACCTGCAGAGAACCCACGAGGATGATGAGAGCCATGTCCACTCCCTGCTCAGTGTCTTCCGTTATGGAGGACTTCTTGATGAGACCCAGGATGCACAATGGCAGCGAGCTTTGGATTATCTTAGTGCCATCTCAGAGCTTAACTACATGACCCAGATTGTCATCATGCTTTATGAGGACAACACACAGGATCCCTTATCAGAGGAACGGTTCCATGTGGAGCTACACTTCAGCCCCGGAGTGAAAGGTGTTGAGGAAGAAGGCAGTGCCCCGGCTGGCTGTGGATTCCGTCCAGCCTCTTCTGAGAATGAGGAGATGAAAACCAACCAAGGCAGTATGGAGAACCTGTGTCCAGGAAAGGCATCAGATGAACCAGACCGGGCATTGCAGACTTCACCCCAGCCTCCTGAGGGCCCTGGCCTTCCGAGGAGATCACCCCTCATTCGTAACCGAAAAGCTGGTTCCATGGAGGTACTTTCTGAGACTTCATCCTCGAGGCCTGGTGGCTACCGGCTCTTTTCATCTTCACGGCCACCCACAGAAATGAAGCAGAGTGGCCTAGGCTCACAGTGCACAGGGCTGTTCAGCACCACAGTGCTGGGTGGCTCCTCCAGTGCCCCGAATCTTCAGGACTACGCCCGCAGCCATGGCAAAAAGCTACCACCTGCCAGTCTGAAGCACCGAGATGGGTTTGAAGGGTGTTCCATGGTGCCTACCATCTACCCTCTGGAAACACTGCATAATGCCCTTTCCCTACGTCAAGTGAGTGAATTCTTGAGTAGAGTCTGCCAGCGCCACACTGATGCCCAGGCACAGGCATCTGCAGCCCTCTTTGATTCCATGCACAGCAGCCAGGCCTCAGATAACCCATTTTCTCCACCACGTACTCTTCATTCACCTCCCCTGCAACTCCAGCAGCGCTCTGAGAAGCCCCCTTGGTACAGCAGTGGCCCTTCTAGCACTGTGTCCAGTGCTGGTCCTTCTTCCCCTACTACAGTAGATGGTAACTCCCAATTTGGCTTCAGTGATCAACCCTCCCTAAATTCACACGTGGCTGAAGAACATCAAGGCCTTGGGCTGCTCCAGGAGACCCCTGGGAGTGGAGCACAAGAGCTCTCCATAGAAGGGGAGCAAGAGCTTTTTGAACCAAATCAGTCCCCACAGGTGCCACCTATGGAAACCAGCCAGCCATACGAGGAGGTCAGCCAGCCATGTCAGGAGGTCCCTGACATCAGCCAGCCATGCCAGGACATTTCTGAGGCGCTCAGCCAGCCATGTCAGAAGGTCCCTGACATCAGCCAGCAATGCCAGGAGAACCATGACAATGGTAACCACACATGCCAGGAGGTCCCTCACATCAGCCAGCCATGCCAGAAGTCCAGCCAACTGTGCCAGAAAGTCTCTGAGGAAGTTTGCCAGCTATGTCTGGAGAACTCCGAGGAGGTCAGCCAGCCATGCCAGGGGGTCTCTGTGGAGGTTGGCAAGCTGGTCCATAAGTTCCATGTAGGGGTTGGTAGCTTGGTCCAGGAAACCCTTGTAGAAGTTGGCAGCCCAGCTGAAGAGATCCCTGAGGAGGTCATCCAGCCATACCAGGAGTTCTCTGTGGAGGTTGGCAGGCTGGCCCAGGAGACTTCTGCGATCAATCTGTTATCTCAGGGCATCCCTGAGATTGATAAACCATCCCAAGAGTTCCCTGAGGAGATTGATCTGCAGGCCCAGGAGGTCCCTGAGGAGATAAATTAGAAGTCCTGGGTGGTCCCTGAAGTGATTGATCAGCTGCCTGGAGAGGGTATTCCTCAAGCCCAGCATCCATCTGGTGATCCAAACCCTCAGAGCCAGTCTCTAGCCCATGACCAGCACTCACCCCTTCCACCAGCAACATGTGATTAATTTTCTCATTAGTGGTATCACACTATACCAGCCATTTGAGCCAGCAACCTTTTCTGTTGGCTAACTCACTGGCCAGCTCTCACCAGCGGTGTCTGGGGAAGTAGTTCTCTTTGTATGAAGCATACCTGTGCCAGAGCTGTGGTTGAGGAGGAGCCAGTTTTAGGTTCGAAGAAGCCATTGGCTCCTCACTTAGCCATTAGACTTGAATAGGATTTCCTTGGGGTGGGTTGGTCTGTCATTACCCAGCCTTCTCTGAGCATCCTAGGAAATCACAGATTGTTAAAGGAAATGCCGCTTCACTGCTGAAGACACCATCTGGCGACAGCAAATGCAAAAGAGGGGACTCTAGGGTCTTCACTTTTCTGGGGAAATGTTCACGACTTCTCAAGGTACGCTTAGACCATATGTGCATTCAGGGGACTCTTGTCTTTGCCAGCACTCCTCAGGTGAGCCCGGGATGGCTATCTGAAATGTCTGGAAAATAGAGTCCCTTCCCCAAACATCTGACATGGCCACTAAATCTTTAGACTTGCCTTATAGATCCTTCCATATCATCCCCAAGTGCCCCTTCTGCCTCAGTCCTGTTCCTCTGGGCAATAGCTCTAGGGAAAAGTAGGTATTAGACTGCTGTGCAAAATTCAGAGCAACTACTTAAAATGCTCTAGAGGATTCTTAGCCAGTCTGTGAAAGTGGGCCTCCTCTGTGGTGGGGCTGTTTGGCTTAGGAGATGCTGTAGTAGTAGAGATAATCAGGTTCTATTTTAAGCAATCAGCAGAGATCAATATTGTACAGATACAAGCAAAGGTTTAATAAATATATATATATATATTTATTTCTGTAGTTGTGCCAGGGACAGACTGGCCAAAGACCAAACACTGCAGGGTCCCCAAGAAATTTGTCCTTATATCATTGTGTCTGAGGGCCAGATATGATTATGAAGCTTTTTCCAAAGATCCAGGGATGGGAATGGGAGTGGGTAGGAGGGGTAATGCGGTCATTGGAGTCGGGGGCTGGAACATTATGAGTGCTCAATAAATATAAACTAATGAGAATGGTGGTGATGGA
>gi|1238280249|ref|NM_001354928.1| Homo sapiens valosin containing protein (VCP), transcript variant 3, mRNA
GCGGCGGCGCGCACCGGGACCAGCCGCGCAGGGTAGGCCCGGCGGGGCCTGGCCGTGGGCGCGTCAGAGAGGTGGAGACCAGGAAAGAGGGAAGGGAAGCTAGGGGGCGAGTGAGGGGCCGTGGACCCGGCAGGCCCGGCTGGGGCCAGCTGCGCACCCGCGCGCCCCCTAGGCGGGGCTTGCGTTGGGTCCGGGTCGGAGCCTGGGCCGGATCGTGCTGTGTCATGCAGGCCCCGGCCCGCCCGATTGGCTCCCTTAGAACGGACGTCTGGGCCTGGCCAGGTCTTCCGGCCCACTCCGCCGGCGCGGCGCCCCGGGGCTTTGGGGCGCCAGTCTGCCGTCCGGCCTACCACCCGCCGAAAGCCTTTGGTCCCCGGAGAGAGCAGGCCCCGCGAGCCCGAGGCCCCAGCCGGGCCCGGTGGGCGTGGACTTTGCGCCATGTGAAGGCCTCAGGAGCTCTGCCACCGAGGCGGAGCCCGGGGTCGGGGAAGGCCCGCCGAGCTCAGGGAAGCTCACAGCCGCCTTTTTGGAGCCGGGTCGGCGGGGCCGGAGTTCAAAAGGTGATGACCTATCAACAGCCATTCTCAAACAGAAGAACCGTCCCAATCGGTTAATTGTTGATGAAGCCATCAATGAGGACAACAGTGTGGTGTCCTTGTCCCAGCCCAAGATGGATGAATTGCAGTTGTTCCGAGGTGACACAGTGTTGCTGAAAGGAAAGAAGAGACGAGAAGCTGTTTGCATCGTCCTTTCTGATGATACTTGTTCTGATGAGAAGATTCGGATGAATAGAGTTGTTCGGAATAACCTTCGTGTACGCCTAGGGGATGTCATCAGCATCCAGCCATGCCCTGATGTGAAGTACGGCAAACGTATCCATGTGCTGCCCATTGATGACACAGTGGAAGGCATTACTGGTAATCTCTTCGAGGTATACCTTAAGCCGTACTTCCTGGAAGCGTATCGACCCATCCGGAAAGGAGACATTTTTCTTGTCCGTGGTGGGATGCGTGCTGTGGAGTTCAAAGTGGTGGAAACAGATCCTAGCCCTTATTGCATTGTTGCTCCAGACACAGTGATCCACTGCGAAGGGGAGCCTATCAAACGAGAGGATGAGGAAGAGTCCTTGAATGAAGTAGGGTATGATGACATTGGTGGCTGCAGGAAGCAGCTAGCTCAGATAAAGGAGATGGTGGAACTGCCCCTGAGACATCCTGCCCTCTTTAAGGCAATTGGTGTGAAGCCTCCTAGAGGAATCCTGCTTTACGGACCTCCTGGAACAGGAAAGACCCTGATTGCTCGAGCTGTAGCAAATGAGACTGGAGCCTTCTTCTTCTTGATCAATGGTCCTGAGATCATGAGCAAATTGGCTGGTGAGTCTGAGAGCAACCTTCGTAAAGCCTTTGAGGAGGCTGAGAAGAATGCTCCTGCCATCATCTTCATTGATGAGCTAGATGCCATCGCTCCCAAAAGAGAGAAAACTCATGGCGAGGTGGAGCGGCGCATTGTATCACAGTTGTTGACCCTCATGGATGGCCTAAAGCAGAGGGCACATGTGATTGTTATGGCAGCAACCAACAGACCCAACAGCATTGACCCAGCTCTACGGCGATTTGGTCGCTTTGACAGGGAGGTAGATATTGGAATTCCTGATGCTACAGGACGCTTAGAGATTCTTCAGATCCATACCAAGAACATGAAGCTGGCAGATGATGTGGACCTGGAACAGGTAGCCAATGAGACTCACGGGCATGTGGGTGCTGACTTAGCAGCCCTGTGCTCAGAGGCTGCTCTGCAAGCCATCCGCAAGAAGATGGATCTCATTGACCTAGAGGATGAGACCATTGATGCCGAGGTCATGAACTCTCTAGCAGTTACTATGGATGACTTCCGGTGGGCCTTGAGCCAGAGTAACCCATCAGCACTGCGGGAAACCGTGGTAGAGGTGCCACAGGTAACCTGGGAAGACATCGGGGGCCTAGAGGATGTCAAACGTGAGCTACAGGAGCTGGTCCAGTATCCTGTGGAGCACCCAGACAAATTCCTGAAGTTTGGCATGACACCTTCCAAGGGAGTTCTGTTCTATGGACCTCCTGGCTGTGGGAAAACTTTGTTGGCCAAAGCCATTGCTAATGAATGCCAGGCCAACTTCATCTCCATCAAGGGTCCTGAGCTGCTCACCATGTGGTTTGGGGAGTCTGAGGCCAATGTCAGAGAAATCTTTGACAAGGCCCGCCAAGCTGCCCCCTGTGTGCTATTCTTTGATGAGCTGGATTCGATTGCCAAGGCTCGTGGAGGTAACATTGGAGATGGTGGTGGGGCTGCTGACCGAGTCATCAACCAGATCCTGACAGAAATGGATGGCATGTCCACAAAAAAAAATGTGTTCATCATTGGCGCTACCAACCGGCCTGACATCATTGATCCTGCCATCCTCAGACCTGGCCGTCTTGATCAGCTCATCTACATCCCACTTCCTGATGAGAAGTCCCGTGTTGCCATCCTCAAGGCTAACCTGCGCAAGTCCCCAGTTGCCAAGGATGTGGACTTGGAGTTCCTGGCTAAAATGACTAATGGCTTCTCTGGAGCTGACCTGACAGAGATTTGCCAGCGTGCTTGCAAGCTGGCCATCCGTGAATCCATCGAGAGTGAGATTAGGCGAGAACGAGAGAGGCAGACAAACCCATCAGCCATGGAGGTAGAAGAGGATGATCCAGTGCCTGAGATCCGTCGAGATCACTTTGAAGAAGCCATGCGCTTTGCGCGCCGTTCTGTCAGTGACAATGACATTCGGAAGTATGAGATGTTTGCCCAGACCCTTCAGCAGAGTCGGGGCTTTGGCAGCTTCAGATTCCCTTCAGGGAACCAGGGTGGAGCTGGCCCCAGTCAGGGCAGTGGAGGCGGCACAGGTGGCAGTGTATACACAGAAGACAATGATGATGACCTGTATGGCTAAGTGGTGGTGGCCAGCGTGCAGTGAGCTGGCCTGCCTGGACCTTGTTCCCTGGGGGTGGGGGCGCTTGCCCAGGAGAGGGACCAGGGGTGCGCCCACAGCCTGCTCCATTCTCCAGTCTGAACAGTTCAGCTACAGTCTGACTCTGGACAGGGGGTTTCTGTTGCAAAAATACAAAACAAAAGCGATAAAATAAAAGCGATTTTCATTTGGTAGGCGGAGAGTGAATTACCAACAGGGAATTGGGCCTTGGGCCTATGCCATTTCTGTTGTAGTTTGGGGCAGTGCAGGGGACCTGTGTGGGGTGTGAACCAAGGCACTACTGCCACCTGCCACAGTAAAGCATCTGCACTTGACTCAATGCTGCCCGAGCCCTCCCTTCCCCCTATCCAACCTGGGTAGGTGGGTAGGGGCCACAGTTGCTGGATGTTTATATAGAGAGTAGGTTGATTTATTTTACATGCTTTTGAGTTAATGTTGGAAAACTAATCACAAGCAGTTTCTAAACCAAAAAATGACATGTTGTAAAAGGACAATAAACGTTGGGTCAAAATGGAGCCTGAGTCCTGGGCCCTGTGCCTGCTTCTTTTCCTGGGAACAGCCTTGGGCTACCCACCACTCCCAAGGCATTCTTCCAAATGTGAAATCCTGGAAGTAAGATTGCACCTTCTTCCTCTCCTGATCAACATCGGTATGATGTCTCCTGTTGCCTCACCCTTTGTCTGCAGTATCACTGGATAGGACTGGTGGAAAGGGAGCAGCCTGACAGAGCTCCAAATGTGGAGAATATGGCATCCCTCCACCTATATTTGATGTGGACGGTAAGGCTAGGCCTGCAGGATCCCTTATCCTGACCAAAGACTGTGTTGGGGTGCCATTTGAAAATCGCAGGGTTGCAAAAGAATACAATCTTACTTGCAGGTGGATATTCTCTATACTCTCTTTTAATGCATCTAAAAATCCCAAACATCCCCTGGTTGGTGATCACTTACAGTTGTGTCCACCTTTATTTTATGTACTTTGATTAAAAAAAAAAAACTTTTTGTTAATATAAAAAAAAAAAAAAAA
>gi|1237937914|ref|NM_002467.5| Homo sapiens MYC proto-oncogene, bHLH transcription factor (MYC), transcript variant 1, mRNA
GGAGTTTATTCATAACGCGCTCTCCAAGTATACGTGGCAATGCGTTGCTGGGTTATTTTAATCATTCTAGGCATCGTTTTCCTCCTTATGCCTCTATCATTCCTCCCTATCTACACTAACATCCCACGCTCTGAACGCGCGCCCATTAATACCCTTCTTTCCTCCACTCTCCCTGGGACTCTTGATCAAAGCGCGGCCCTTTCCCCAGCCTTAGCGAGGCGCCCTGCAGCCTGGTACGCGCGTGGCGTGGCGGTGGGCGCGCAGTGCGTTCTCGGTGTGGAGGGCAGCTGTTCCGCCTGCGATGATTTATACTCACAGGACAAGGATGCGGTTTGTCAAACAGTACTGCTACGGAGGAGCAGCAGAGAAAGGGAGAGGGTTTGAGAGGGAGCAAAAGAAAATGGTAGGCGCGCGTAGTTAATTCATGCGGCTCTCTTACTCTGTTTACATCCTAGAGCTAGAGTGCTCGGCTGCCCGGCTGAGTCTCCTCCCCACCTTCCCCACCCTCCCCACCCTCCCCATAAGCGCCCCTCCCGGGTTCCCAAAGCAGAGGGCGTGGGGGAAAAGAAAAAAGATCCTCTCTCGCTAATCTCCGCCCACCGGCCCTTTATAATGCGAGGGTCTGGACGGCTGAGGACCCCCGAGCTGTGCTGCTCGCGGCCGCCACCGCCGGGCCCCGGCCGTCCCTGGCTCCCCTCCTGCCTCGAGAAGGGCAGGGCTTCTCAGAGGCTTGGCGGGAAAAAGAACGGAGGGAGGGATCGCGCTGAGTATAAAAGCCGGTTTTCGGGGCTTTATCTAACTCGCTGTAGTAATTCCAGCGAGAGGCAGAGGGAGCGAGCGGGCGGCCGGCTAGGGTGGAAGAGCCGGGCGAGCAGAGCTGCGCTGCGGGCGTCCTGGGAAGGGAGATCCGGAGCGAATAGGGGGCTTCGCCTCTGGCCCAGCCCTCCCGCTGATCCCCCAGCCAGCGGTCCGCAACCCTTGCCGCATCCACGAAACTTTGCCCATAGCAGCGGGCGGGCACTTTGCACTGGAACTTACAACACCCGAGCAAGGACGCGACTCTCCCGACGCGGGGAGGCTATTCTGCCCATTTGGGGACACTTCCCCGCCGCTGCCAGGACCCGCTTCTCTGAAAGGCTCTCCTTGCAGCTGCTTAGACGCTGGATTTTTTTCGGGTAGTGGAAAACCAGCAGCCTCCCGCGACGATGCCCCTCAACGTTAGCTTCACCAACAGGAACTATGACCTCGACTACGACTCGGTGCAGCCGTATTTCTACTGCGACGAGGAGGAGAACTTCTACCAGCAGCAGCAGCAGAGCGAGCTGCAGCCCCCGGCGCCCAGCGAGGATATCTGGAAGAAATTCGAGCTGCTGCCCACCCCGCCCCTGTCCCCTAGCCGCCGCTCCGGGCTCTGCTCGCCCTCCTACGTTGCGGTCACACCCTTCTCCCTTCGGGGAGACAACGACGGCGGTGGCGGGAGCTTCTCCACGGCCGACCAGCTGGAGATGGTGACCGAGCTGCTGGGAGGAGACATGGTGAACCAGAGTTTCATCTGCGACCCGGACGACGAGACCTTCATCAAAAACATCATCATCCAGGACTGTATGTGGAGCGGCTTCTCGGCCGCCGCCAAGCTCGTCTCAGAGAAGCTGGCCTCCTACCAGGCTGCGCGCAAAGACAGCGGCAGCCCGAACCCCGCCCGCGGCCACAGCGTCTGCTCCACCTCCAGCTTGTACCTGCAGGATCTGAGCGCCGCCGCCTCAGAGTGCATCGACCCCTCGGTGGTCTTCCCCTACCCTCTCAACGACAGCAGCTCGCCCAAGTCCTGCGCCTCGCAAGACTCCAGCGCCTTCTCTCCGTCCTCGGATTCTCTGCTCTCCTCGACGGAGTCCTCCCCGCAGGGCAGCCCCGAGCCCCTGGTGCTCCATGAGGAGACACCGCCCACCACCAGCAGCGACTCTGAGGAGGAACAAGAAGATGAGGAAGAAATCGATGTTGTTTCTGTGGAAAAGAGGCAGGCTCCTGGCAAAAGGTCAGAGTCTGGATCACCTTCTGCTGGAGGCCACAGCAAACCTCCTCACAGCCCACTGGTCCTCAAGAGGTGCCACGTCTCCACACATCAGCACAACTACGCAGCGCCTCCCTCCACTCGGAAGGACTATCCTGCTGCCAAGAGGGTCAAGTTGGACAGTGTCAGAGTCCTGAGACAGATCAGCAACAACCGAAAATGCACCAGCCCCAGGTCCTCGGACACCGAGGAGAATGTCAAGAGGCGAACACACAACGTCTTGGAGCGCCAGAGGAGGAACGAGCTAAAACGGAGCTTTTTTGCCCTGCGTGACCAGATCCCGGAGTTGGAAAACAATGAAAAGGCCCCCAAGGTAGTTATCCTTAAAAAAGCCACAGCATACATCCTGTCCGTCCAAGCAGAGGAGCAAAAGCTCATTTCTGAAGAGGACTTGTTGCGGAAACGACGAGAACAGTTGAAACACAAACTTGAACAGCTACGGAACTCTTGTGCGTAAGGAAAAGTAAGGAAAACGATTCCTTCTAACAGAAATGTCCTGAGCAATCACCTATGAACTTGTTTCAAATGCATGATCAAATGCAACCTCACAACCTTGGCTGAGTCTTGAGACTGAAAGATTTAGCCATAATGTAAACTGCCTCAAATTGGACTTTGGGCATAAAAGAACTTTTTTATGCTTACCATCTTTTTTTTTTCTTTAACAGATTTGTATTTAAGAATTGTTTTTAAAAAATTTTAAGATTTACACAATGTTTCTCTGTAAATATTGCCATTAAATGTAAATAACTTTAATAAAACGTTTATAGCAGTTACACAGAATTTCAATCCTAGTATATAGTACCTAGTATTATAGGTACTATAAACCCTAATTTTTTTTATTTAAGTACATTTTGCTTTTTAAAGTTGATTTTTTTCTATTGTTTTTAGAAAAAATAAAATAACTGGCAAATATATCATTGAGCCAAATCTTAAGTTGTGAATGTTTTGTTTCGTTTCTTCCCCCTCCCAACCACCACCATCCCTGTTTGTTTTCATCAATTGCCCCTTCAGAGGGTGGTCTTAAGAAAGGCAAGAGTTTTCCTCTGTTGAAATGGGTCTGGGGGCCTTAAGGTCTTTAAGTTCTTGGAGGTTCTAAGATGCTTCCTGGAGACTATGATAACAGCCAGAGTTGACAGTTAGAAGGAATGGCAGAAGGCAGGTGAGAAGGTGAGAGGTAGGCAAAGGAGATACAAGAGGTCAAAGGTAGCAGTTAAGTACACAAAGAGGCATAAGGACTGGGGAGTTGGGAGGAAGGTGAGGAAGAAACTCCTGTTACTTTAGTTAACCAGTGCCAGTCCCCTGCTCACTCCAAACCCAGGAATTCTGCCCAGTTGATGGGGACACGGTGGGAACCAGCTTCTGCTGCCTTCACAACCAGGCGCCAGTCCTGTCCATGGGTTATCTCGCAAACCCCAGAGGATCTCTGGGAGGAATGCTACTATTAACCCTATTTCACAAACAAGGAAATAGAAGAGCTCAAAGAGGTTATGTAACTTATCTGTAGCCACGCAGATAATACAAAGCAGCAATCTGGACCCATTCTGTTCAAAACACTTAACCCTTCGCTATCATGCCTTGGTTCATCTGGGTCTAATGTGCTGAGATCAAGAAGGTTTAGGACCTAATGGACAGACTCAAGTCATAACAATGCTAAGCTCTATTTGTGTCCCAAGCACTCCTAAGCATTTTATCCCTAACTCTACATCAACCCCATGAAGGAGATACTGTTGATTTCCCCATATTAGAAGTAGAGAGGGAAGCTGAGGCACACAAAGACTCATCCACATGCCCAAGATTCACTGATAGGGAAAAGTGGAAGCGAGATTTGAACCCAGGCTGTTTACTCCTAACCTGTCCAAGCCACCTCTCAGACGACGGTAGGAATCAGCTGGCTGCTTGTGAGTACAGGAGTTACAGTCCAGTGGGTTATGTTTTTTAAGTCTCAACATCTAAGCCTGGTCAGGCATCAGTTCCCCTTTTTTTGTGATTTATTTTGTTTTTATTTTGTTGTTCATTGTTTAATTTTTCCTTTTACAATGAGAAGGTCACCATCTTGACTCCTACCTTAGCCATTTGTTGAATCAGACTCATGACGGCTCCTGGGAAGAAGCCAGTTCAGATCATAAAATAAAACATATTTATTCTTTGTCATGGGAGTCATTATTTTAGAAACTACAAACTCTCCTTGCTTCCATCCTTTTTTACATACTCATGACACATGCTCATCCTGAGTCCTTGAAAAGGTATTTTTGAACATGTGTATTAATTATAAGCCTCTGAAAACCTATGGCCCAAACCAGAAATGATGTTGATTATATAGGTAAATGAAGGATGCTATTGCTGTTCTAATTACCTCATTGTCTCAGTCTCAAAGTAGGTCTTCAGCTCCCTGTACTTTGGGATTTTAATCTACCACCACCCATAAATCAATAAATAATTACTTTCTTTGA
>gi|1236498657|ref|NM_001354810.1| Homo sapiens fibroblast growth factor receptor 3 (FGFR3), transcript variant 5, mRNA
GTCGCGGGCAGCTGGCGCCGCGCGGTCCTGCTCTGCCGGTCGCACGGACGCACCGGCGGGCCGCCGGCCGGAGGGACGGGGCGGGAGCTGGGCCCGCGGACAGCGAGCCGGAGCGGGAGCCGCGCGTAGCGAGCCGGGCTCCGGCGCTCGCCAGTCTCCCGAGCGGCGCCCGCCTCCCGCCGGTGCCCGCGCCGGGCCGTGGGGGGCAGCATGCCCGCGCGCGCTGCCTGAGGACGCCGCGGCCCCCGCCCCCGCCATGGGCGCCCCTGCCTGCGCCCTCGCGCTCTGCGTGGCCGTGGCCATCGTGGCCGGCGCCTCCTCGGAGTCCTTGGGGACGGAGCAGCGCGTCGTGGGGCGAGCGGCAGAAGTCCCGGGCCCAGAGCCCGGCCAGCAGGAGCAGTTGGTCTTCGGCAGCGGGGATGCTGTGGAGCTGAGCTGTCCCCCGCCCGGGGGTGGTCCCATGGGGCCCACTGTCTGGGTCAAGGATGGCACAGGGCTGGTGCCCTCGGAGCGTGTCCTGGTGGGGCCCCAGCGGCTGCAGGTGCTGAATGCCTCCCACGAGGACTCCGGGGCCTACAGCTGCCGGCAGCGGCTCACGCAGCGCGTACTGTGCCACTTCAGTGTGCGGGTGACAGACGCTCCATCCTCGGGAGATGACGAAGACGGGGAGGACGAGGCTGAGGACACAGGTGTGGACACAGGGGCCCCTTACTGGACACGGCCCGAGCGGATGGACAAGAAGCTGCTGGCCGTGCCGGCCGCCAACACCGTCCGCTTCCGCTGCCCAGCCGCTGGCAACCCCACTCCCTCCATCTCCTGGCTGAAGAACGGCAGGGAGTTCCGCGGCGAGCACCGCATTGGAGGCATCAAGCTGCGGCATCAGCAGTGGAGCCTGGTCATGGAAAGCGTGGTGCCCTCGGACCGCGGCAACTACACCTGCGTCGTGGAGAACAAGTTTGGCAGCATCCGGCAGACGTACACGCTGGACGTGCTGGAGCGCTCCCCGCACCGGCCCATCCTGCAGGCGGGGCTGCCGGCCAACCAGACGGCGGTGCTGGGCAGCGACGTGGAGTTCCACTGCAAGGTGTACAGTGACGCACAGCCCCACATCCAGTGGCTCAAGCACGTGGAGGTGAATGGCAGCAAGGTGGGCCCGGACGGCACACCCTACGTTACCGTGCTCAAGACGGCGGGCGCTAACACCACCGACAAGGAGCTAGAGGTTCTCTCCTTGCACAACGTCACCTTTGAGGACGCCGGGGAGTACACCTGCCTGGCGGGCAATTCTATTGGGTTTTCTCATCACTCTGCGTGGCTGGTGGTGCTGCCAGCCGAGGAGGAGCTGGTGGAGGCTGACGAGGCGGGCAGTGTGTATGCAGGCATCCTCAGCTACGGGGTGGGCTTCTTCCTGTTCATCCTGGTGGTGGCGGCTGTGACGCTCTGCCGCCTGCGCAGCCCCCCCAAGAAAGGCCTGGGCTCCCCCACCGTGCACAAGATCTCCCGCTTCCCGCTCAAGCGACAGCAGGTGTCCCTGGAGTCCAACGCGTCCATGAGCTCCAACACACCACTGGTGCGCATCGCAAGGCTGTCCTCAGGGGAGGGCCCCACGCTGGCCAATGTCTCCGAGCTCGAGCTGCCTGCCGACCCCAAATGGGAGCTGTCTCGGGCCCGGCTGACCCTGGGCAAGCCCCTTGGGGAGGGCTGCTTCGGCCAGGTGGTCATGGCGGAGGCCATCGGCATTGACAAGGACCGGGCCGCCAAGCCTGTCACCGTAGCCGTGAAGATGCTGAAAGACGATGCCACTGACAAGGACCTGTCGGACCTGGTGTCTGAGATGGAGATGATGAAGATGATCGGGAAACACAAAAACATCATCAACCTGCTGGGCGCCTGCACGCAGGGCGGGCCCCTGTACGTGCTGGTGGAGTACGCGGCCAAGGGTAACCTGCGGGAGTTTCTGCGGGCGCGGCGGCCCCCGGGCCTGGACTACTCCTTCGACACCTGCAAGCCGCCCGAGGAGCAGCTCACCTTCAAGGACCTGGTGTCCTGTGCCTACCAGGTGGCCCGGGGCATGGAGTACTTGGCCTCCCAGAAGTGCATCCACAGGGACCTGGCTGCCCGCAATGTGCTGGTGACCGAGGACAACGTGATGAAGATCGCAGACTTCGGGCTGGCCCGGGACGTGCACAACCTCGACTACTACAAGAAGACAACCAACCTGGTCCTTTGGGGTCCTGCTCTGGGAGATCTTCACGCTGGGGGGCTCCCCGTACCCCGGCATCCCTGTGGAGGAGCTCTTCAAGCTGCTGAAGGAGGGCCACCGCATGGACAAGCCCGCCAACTGCACACACGACCTGTACATGATCATGCGGGAGTGCTGGCATGCCGCGCCCTCCCAGAGGCCCACCTTCAAGCAGCTGGTGGAGGACCTGGACCGTGTCCTTACCGTGACGTCCACCGACGAGTACCTGGACCTGTCGGCGCCTTTCGAGCAGTACTCCCCGGGTGGCCAGGACACCCCCAGCTCCAGCTCCTCAGGGGACGACTCCGTGTTTGCCCACGACCTGCTGCCCCCGGCCCCACCCAGCAGTGGGGGCTCGCGGACGTGAAGGGCCACTGGTCCCCAACAATGTGAGGGGTCCCTAGCAGCCCACCCTGCTGCTGGTGCACAGCCACTCCCCGGCATGAGACTCAGTGCAGATGGAGAGACAGCTACACAGAGCTTTGGTCTGTGTGTGTGTGTGTGCGTGTGTGTGTGTGTGTGTGCACATCCGCGTGTGCCTGTGTGCGTGCGCATCTTGCCTCCAGGTGCAGAGGTACCCTGGGTGTCCCCGCTGCTGTGCAACGGTCTCCTGACTGGTGCTGCAGCACCGAGGGGCCTTTGTTCTGGGGGGACCCAGTGCAGAATGTAAGTGGGCCCACCCGGTGGGACCCCCGTGGGGCAGGGAGCTGGGCCCGACATGGCTCCGGCCTCTGCCTTTGCACCACGGGACATCACAGGGTGGGCCTCGGCCCCTCCCACACCCAAAGCTGAGCCTGCAGGGAAGCCCCACATGTCCAGCACCTTGTGCCTGGGGTGTTAGTGGCACCGCCTCCCCACCTCCAGGCTTTCCCACTTCCCACCCTGCCCCTCAGAGACTGAAATTACGGGTACCTGAAGATGGGAGCCTTTACCTTTTATGCAAAAGGTTTATTCCGGAAACTAGTGTACATTTCTATAAATAGATGCTGTGTATATGGTATATATACATATATATATATAACATATATGGAAGAGGAAAAGGCTGGTACAACGGAGGCCTGCGACCCTGGGGGCACAGGAGGCAGGCATGGCCCTGGGCGGGGCGTGGGGGGGCGTGGAGGGAGGCCCCAGGGGGTCTCACCCATGCAAGCAGAGGACCAGGGCCTTTTCTGGCACCGCAGTTTTGTTTTAAAACTGGACCTGTATATTTGTAAAGCTATTTATGGGCCCCTGGCACTCTTGTTCCCACACCCCAACACTTCCAGCATTTAGCTGGCCACATGGCGGAGAGTTTTAATTTTTAACTTATTGACAACCGAGAAGGTTTATCCCGCCGATAGAGGGACGGCCAAGAATGTACGTCCAGCCTGCCCCGGAGCTGGAGGATCCCCTCCAAGCCTAAAAGGTTGTTAATAGTTGGAGGTGATTCCAGTGAAGATATTTTATTTCCTTTGTCCTTTTTCAGGAGAATTAGATTTCTATAGGATTTTTCTTTAGGAGATTTATTTTTTGGACTTCAAAGCAAGCTGGTATTTTCATACAAATTCTTCTAATTGCTGTGTGTCCCAGGCAGGGAGACGGTTTCCAGGGAGGGGCCGGCCCTGTGTGCAGGTTCCGATGTTATTAGATGTTACAAGTTTATATATATCTATATATATAATTTATTGAGTTTTTACAAGATGTATTTGTTGTAGACTTAACACTTCTTACGCAATGCTTCTAGAGTTTTATAGCCTGGACTGCTACCTTTCAAAGCTTGGAGGGAAGCCGTGAATTCAGTTGGTTCGTTCTGTACTGTTACTGGGCCCTGAGTCTGGGCAGCTGTCCCTTGCTTGCCTGCAGGGCCATGGCTCAGGGTGGTCTCTTCTTGGGGCCCAGTGCATGGTGGCCAGAGGTGTCACCCAAACCGGCAGGTGCGATTTTGTTAACCCAGCGACGAACTTTCCGAAAAATAAAGACACCTGGTTGCTAACCTGG
>gi|1233267548|ref|NM_001354669.1| Homo sapiens peroxisome proliferator activated receptor gamma (PPARG), transcript variant 9, mRNA
GGCGCCCGCGCCCGCCCCCGCGCCGGGCCCGGCTCGGCCCGACCCGGCTCCGCCGCGGGCAGGCGGGGCCCAGCGCACTCGGAGCCCGAGCCCGAGCCGCAGCCGCCGCCTGGGGCGCTTGGGTCGGCCTCGAGGACACCGGAGAGGGGCGCCACGCCGCCGTGGCCGCAGATTTGAAAGAAGCCAACACTAAACCACAAATATACAACAAGGCCATTTTCTCAAACGAGAGTCAGCCTTTAACGAAATGACCATGGTTGACACAGAGATGCCATTCTGGCCCACCAACTTTGGGATCAGCTCCGTGGATCTCTCCGTAATGGAAGACCACTCCCACTCCTTTGATATCAAGCCCTTCACTACTGTTGACTTCTCCAGCATTTCTACTCCACATTACGAAGACATTCCATTCACAAGAACAGATCCAGTGGTTGCAGATTACAAGTATGACCTGAAACTTCAAGAGTACCAAAGTGCAATCAAAGTGGAGCCTGCATCTCCACCTTATTATTCTGAGAAGACTCAGCTCTACAATAAGCCTCATGAAGAGCCTTCCAACTCCCTCATGGCAATTGAATGTCGTGTCTGTGGAGATAAAGCTTCTGGATTTCACTATGGAGTTCATGCTTGTGAAGGATGCAAGGGTTTCTTCCGGAGAACAATCAGATTGAAGCTTATCTATGACAGATGTGATCTTAACTGTCGGATCCACAAAAAAAGTAGAAATAAATGTCAGTACTGTCGGTTTCAGAAATGCCTTGCAGTGGGGATGTCTCATAATGCCATTCGTTATCTATGACATGAATTCCTTAATGATGGGAGAAGATAAAATCAAGTTCAAACACATCACCCCCCTGCAGGAGCAGAGCAAAGAGGTGGCCATCCGCATCTTTCAGGGCTGCCAGTTTCGCTCCGTGGAGGCTGTGCAGGAGATCACAGAGTATGCCAAAAGCATTCCTGGTTTTGTAAATCTTGACTTGAACGACCAAGTAACTCTCCTCAAATATGGAGTCCACGAGATCATTTACACAATGCTGGCCTCCTTGATGAATAAAGATGGGGTTCTCATATCCGAGGGCCAAGGCTTCATGACAAGGGAGTTTCTAAAGAGCCTGCGAAAGCCTTTTGGTGACTTTATGGAGCCCAAGTTTGAGTTTGCTGTGAAGTTCAATGCACTGGAATTAGATGACAGCGACTTGGCAATATTTATTGCTGTCATTATTCTCAGTGGAGACCGCCCAGGTTTGCTGAATGTGAAGCCCATTGAAGACATTCAAGACAACCTGCTACAAGCCCTGGAGCTCCAGCTGAAGCTGAACCACCCTGAGTCCTCACAGCTGTTTGCCAAGCTGCTCCAGAAAATGACAGACCTCAGACAGATTGTCACGGAACACGTGCAGCTACTGCAGGTGATCAAGAAGACGGAGACAGACATGAGTCTTCACCCGCTCCTGCAGGAGATCTACAAGGACTTGTACTAGCAGAGAGTCCTGAGCCACTGCCAACATTTCCCTTCTTCCAGTTGCACTATTCTGAGGGAAAATCTGACACCTAAGAAATTTACTGTGAAAAAGCATTTTAAAAAGAAAAGGTTTTAGAATATGATCTATTTTATGCATATTGTTTATAAAGACACATTTACAATTTACTTTTAATATTAAAAATTACCATATTATGAAATTGCTGATAGTA
>gi|1233267519|ref|NM_001354670.1| Homo sapiens peroxisome proliferator activated receptor gamma (PPARG), transcript variant 10, mRNA
TTGGTGGAAGGTGGGTGTGTAGTCGTGGTACTTTACGCCTCGGTGTTTAGGGAGGAGCCTAAGGTAAGGAGTCAGAAACGGGGAGTAACCGAGCTGCGGCTTTTATATAAGGTCAGTGGTAGGTAAGGAAGGGGCCTTAACCTCTGCTGGTGACCAGAAGCCTGCATTTCTGCATTCTGCTTAATTCCCTTTCCTTAGATTTGAAAGAAGCCAACACTAAACCACAAATATACAACAAGGCCATTTTCTCAAACGAGAGTCAGCCTTTAACGAAATGACCATGGTTGACACAGAGATGCCATTCTGGCCCACCAACTTTGGGATCAGCTCCGTGGATCTCTCCGTAATGGAAGACCACTCCCACTCCTTTGATATCAAGCCCTTCACTACTGTTGACTTCTCCAGCATTTCTACTCCACATTACGAAGACATTCCATTCACAAGAACAGATCCAGTGGTTGCAGATTACAAGTATGACCTGAAACTTCAAGAGTACCAAAGTGCAATCAAAGTGGAGCCTGCATCTCCACCTTATTATTCTGAGAAGACTCAGCTCTACAATAAGCCTCATGAAGAGCCTTCCAACTCCCTCATGGCAATTGAATGTCGTGTCTGTGGAGATAAAGCTTCTGGATTTCACTATGGAGTTCATGCTTGTGAAGGATGCAAGGGTTTCTTCCGGAGAACAATCAGATTGAAGCTTATCTATGACAGATGTGATCTTAACTGTCGGATCCACAAAAAAAGTAGAAATAAATGTCAGTACTGTCGGTTTCAGAAATGCCTTGCAGTGGGGATGTCTCATAATGCCATCAGGTTTGGGCGGATGCCACAGGCCGAGAAGGAGAAGCTGTTGGCGGAGATCTCCAGTGATATCGACCAGCTGAATCCAGAGTCCGCTGACCTCCGGGCCCTGGCAAAACATTTGTATGACTCATACATAAAGTCCTTCCCGCTGACCAAAGCAAAGGCGAGGGCGATCTTGACAGGAAAGACAACAGACAAATCAGTTAGTTCTCTTCTGCTGTCTTCATTGGGGGAGGCGGGAAGTTGTTTTGGGTTTTTGTTTCTTTGAGTAAATGGTTTACTGCGCTACAAATGCACACACAGAATATTGTTCAACTGTTGGCTGTTAACATATTGCAGGCTGAGTCTGAAACGCAGGAAGTGTTTTCAGATAGCACAAGTCAACATTATTTTGAAAAGGGAGAAAAGTCCATAAAGTTTTTGAGAATAGTGTAACAATGTATTGGTCATCCTAACTTTAATGAATGAACTTAAGCCCCCTGAGCCTATCACCCTCTTTTAGGATCCATCTCCTTTCTCGGCATCAAAATAACTGGCCACAGCAATATTCATTCAAGCAGCCTTGCTTTCCTCTGGGAAGAACCCGACCTAGGTTTAGAAAAGGTATTGAATCCCACTATTTCACCTTTCAGGAGAACTACCAGAGTTACCTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGTCGTCTCACTTTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACCGCAACCTCCGCCTCCCAGGTTAAAGCGATTATCATGCCTCAGCATCCCGAGTAGCTGGGATTACAGGTGTGCACGACCATGCCTGGCTAATCTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTGATCAGGCTGGTCTAGAGTTACCTCTTAAGAAGTTCAACATGAGGCATAAAAATAGATTCTAGATATTATGTTACCTTTCTTTCCTTGTAGCATTCTTGATTATTCCGGGGCAACTAGAAGCTCTATCCTTTTATTACATATGTGAATTTTATCTTCTGCAAGGCTCTGAGCTGCCTGGACTACTTCAGTGGACTCTCCAACATCTGTTCACTCATTGAGCAGCACTGTTTAGAAAACCCAGAATGGGTTGTAATTGTTACTGAGTTAGGTTTTCCAAGCAGCAGAGCTCTTCTCTGACTGGAAACTGAGAAAACAACATGGAATTATAGAATAAAATTGTACCTGAATTCTAGTCCCAATTCTGCCATCAGCTTGGATGACCTGGATCATGTCTCTGTACCTCAGTTTGTTGTTGTTGTTGTTGTTGTTGTTTTGAGACAGAGTCTTGCTCTGTTGCCAGGCTGGAATGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCACCTCCCTGGTTCAAGCAATTCTCCTGCGTCAGCCTCCCGAGTAGCTGGGATTGCAGGCGCATGCCACCATGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGTTTTCACCATGTTGGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCTGCCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCTTTGTAGCTCAGTTTTTAATGACAGGGTTTGGCTTTGATTCTGATGTCTGCACAACGCTCCCAGGGCTGTAAGAACTGCAGAACACACTGAGAAGACACCGTCCCAGCCATGGAAAGCCCTTCTATGCAGTCATTTATTTTCACATGAACACCTCCCAGAGAGCTATGCAATGACTTGATAGATATGTGTAACTTTTCCCCTATTCAGATATATTGTTAGGAAAATCTCATTAACCTTTCATGTATTTTGATGACTATCTCAAGATGGTAGTTCTTCTGTTTAGCTAAACTAGTAAGAGTAGAATCAGTTAATAGAAAAAGGAAACTTATGGCATAAAGCCATATGGTAATAAGGACAATGAGTTTTCTGATTTGAAAATAGGTCTTTGATACCTCAACAATAATATACCTGGATTCAATTCTTTACAGTATAAAAAAAACCTTGCACATTTGTTAGGTTCGAGCCACATGCACCTGACTACTGCTATTATTATCCTCTTTATTTTAGAGATGAGGAAAATAAAGTCCAGAGAGGTTAAACATTTTGCCCTAAGACCCCACAGCAAGTGGGTAGAAGACCTGGGACTATAATGCAGGTTTTCTGGCCTCTAGTTCAGAGCATTCGTAGCATGCTAGCCCCTCAGTAGCATAGTACTTTAGGAAGCTAGTCTTTCCCACTTGCTGGTAGTAAGCCAGGGAGACATAATACACTAAGAAAGCTTCGGTCTGAGAAAACTTTCCATGATTGTTTTTTCTCAATTTTTAGAACAGTAGGAATTCTTCACCTCATCTGCTATCCCAACATATTCACAATTGGAAAATTTTTGTGCTGTTCTGTTCTTTTCAAATTACAAAAGTCCTTGACTAGGACTGCTGGCTTTTACATGCACAGGACTGCACAACACTGGTGTTTATAAAGCTCATTCGTTCAATGATAAAATTGGCCATAGCAAATCAAAAATAAATGAAGACCTCTGCGTAGCTGATTGGACTACAGAAAATAAGCCATTCATATCCAGGAAGAAAAAATTAAAAGGATTGCTGAAAAGGAAAGAGCCCTAAAGCAAACTATCTACAGTTTTGGTTAGTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTTTGAGGTGGGGTCTTGCTTTGTTGCCCAGGTGGGAGTGTCTTCTTATATTGGTCAGGCTGGCCTTGAACTCGGGGCTCAAGCCGTCCTCCCACCTCAGCCTCCCAAAGAGCTGGTATTACAGGTGTGAGCCACCAGCCATGGTTAGTTTTCATCAACTGCTTTCTCACCTTCTTTTCATCCTCTAATTCATACCTGCAATCCTTATTAGAAATCCTGTCAACTTAATAGTACCAGAAAGTCAGGCAAAAGACTGATAAAAAAAAAGCCTCGGTGGTCAAGAACTTAAAATTACACTACTGGTGTGCAACGTGCTCTTATCTGTGTTACTGGAGGACACCCTCAAGATACCTCACTCCAGTTGACTCCTTGGCTCTAAATCTTTGAGTTAAAAAATAAGGAGGTTCTTTATGGAATAAACAGGTATTAAGCTATTTAAAGGAGAGGGCTGCGAAATGCTTGATTATGGGCTTTTCAAGTTCAGAGGCCAAGCGTTTGTCATTTTCTTCCAGTAACTAGGACTGTGTCTTGCCCCTAATAGTTACTCAGACTATATTTGCTTAATTGAATTAAACACAGTTGCCTATGCCCTTTGAAATTCTGGACTTTCAACAGAGGGCCTCTAGCCCAATATTTGCTTACCAAACTGGACATCATTGATGATCTGGATTCAGGCAGGGTCTGGAAAAAGAGAGACTGGGCCAAATTAAAATAATCCATTCACTGATGACACAAAACTAAACTACAATTGTTTGGCACCCTCTCTTCTCCTTATCTTGCAAAATCAAATTAAGCACTAGTGGAAAGAAACAGTTCAGAGAGGAATATGGGAAAGGAAAAAAAAAAACCAAAATGTGATTTCCAACGAGACTAGAGATTTGTTCTTTATCTACATGGTCATGTTACTCATTTGATAGCATCTATCTCAGGGGTATTATGTTATCTCTTGGCCAGGACTCATGAAAGTTAAGATTTGCATTGATAGGAAAAGTTTTGCAGAAATATGGACTCTTGAGAGGGTGGGAGGTATATAAAAGTGGCTATGGCTGTGCAGCAGAGCAATTTGCATTTCTTATACACCCTGCTTGAGACTGATGTCATTAGTGTTGGTTAGGCCAAGGCTGGGGGAGGCTACTCAGAATAGTGGGTGACCAATTACCCAGAACCTTTGGAAAAGGAAATGACTTGATTGAAGAGGCCATTCTTTAAATGTATCTTACTGCTCAATTTCACCATTGCCTATTGTAGAATGCGCCCTGCCCGCTCAGCATTTGCCTCTAGGCAGACCAGGACTCCTTCCCCTCCCCAACTAATCTTCCTTCTCCTGTATCTTATTCCCTAGGGCCACTTGCACCTTTCAAAATGGATAAATTAAATTCCCCTGCTCCCCTTCTACCAACTTTAACATCATATCCTTGGTGTATGATGCCCTACTTTTCATTGTTTTGCCTAAATAAGAGTATGCTTGGGAATTTTAGGCTTAGGGCTGGGAAAAGATGGGATATGGAATCGTCAGCTATAGATTGCCGGACAAGAAATTTTAGGAGCAGTAGACCTTTCAACCGCCCTCAATAGGATGGAACTGACTGTCCCCACAACCTATTTCCCTTTCAGTGGCTTGCTCCAGCCAAGGCCCCTTATTTAAGAGATCTTTGTGCGCTCTGAAAACCATGCATATGCCAGAACTAGGTGCTCTGTTTCATGAAGGCAGTTTGATAACTGAATGGACTTTGGAAGTGCCCAGTGTTTGACTATTACCCTGGTGCGATGATCACACTGGGCGTATCATTGTCACATGATCCCATGTTTGTTGATGAAAATAAACAGTGGTTTTCAAAAACCA
>gi|1233267477|ref|NM_001354668.1| Homo sapiens peroxisome proliferator activated receptor gamma (PPARG), transcript variant 8, mRNA
TTCAAGTCTTTTTCTTTTAACGGATTGATCTTTTGCTAGATAGAGACAAAATATCAGTGTGAATTACAGCAAACCCCTATTCCATGCTGTTATGGGTGAAACTCTGGGAGATTCTCCTATTGACCCAGAAAGCGATTCCTTCACTGATACACTGTCTGCAAACATATCACAAGAAATGACCATGGTTGACACAGAGATGCCATTCTGGCCCACCAACTTTGGGATCAGCTCCGTGGATCTCTCCGTAATGGAAGACCACTCCCACTCCTTTGATATCAAGCCCTTCACTACTGTTGACTTCTCCAGCATTTCTACTCCACATTACGAAGACATTCCATTCACAAGAACAGATCCAGTGGTTGCAGATTACAAGTATGACCTGAAACTTCAAGAGTACCAAAGTGCAATCAAAGTGGAGCCTGCATCTCCACCTTATTATTCTGAGAAGACTCAGCTCTACAATAAGCCTCATGAAGAGCCTTCCAACTCCCTCATGGCAATTGAATGTCGTGTCTGTGGAGATAAAGCTTCTGGATTTCACTATGGAGTTCATGCTTGTGAAGGATGCAAGGGTTTCTTCCGGAGAACAATCAGATTGAAGCTTATCTATGACAGATGTGATCTTAACTGTCGGATCCACAAAAAAAGTAGAAATAAATGTCAGTACTGTCGGTTTCAGAAATGCCTTGCAGTGGGGATGTCTCATAATGCCATCAGGTTTGGGCGGATGCCACAGGCCGAGAAGGAGAAGCTGTTGGCGGAGATCTCCAGTGATATCGACCAGCTGAATCCAGAGTCCGCTGACCTCCGGGCCCTGGCAAAACATTTGTATGACTCATACATAAAGTCCTTCCCGCTGACCAAAGCAAAGGCGAGGGCGATCTTGACAGGAAAGACAACAGACAAATCAGTTAGTTCTCTTCTGCTGTCTTCATTGGGGGAGGCGGGAAGTTGTTTTGGGTTTTTGTTTCTTTGAGTAAATGGTTTACTGCGCTACAAATGCACACACAGAATATTGTTCAACTGTTGGCTGTTAACATATTGCAGGCTGAGTCTGAAACGCAGGAAGTGTTTTCAGATAGCACAAGTCAACATTATTTTGAAAAGGGAGAAAAGTCCATAAAGTTTTTGAGAATAGTGTAACAATGTATTGGTCATCCTAACTTTAATGAATGAACTTAAGCCCCCTGAGCCTATCACCCTCTTTTAGGATCCATCTCCTTTCTCGGCATCAAAATAACTGGCCACAGCAATATTCATTCAAGCAGCCTTGCTTTCCTCTGGGAAGAACCCGACCTAGGTTTAGAAAAGGTATTGAATCCCACTATTTCACCTTTCAGGAGAACTACCAGAGTTACCTCTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGTCGTCTCACTTTGTCGCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCACCGCAACCTCCGCCTCCCAGGTTAAAGCGATTATCATGCCTCAGCATCCCGAGTAGCTGGGATTACAGGTGTGCACGACCATGCCTGGCTAATCTTTGTATTTTTAGTAGAGACGGGGTTTCACCTTGTTGATCAGGCTGGTCTAGAGTTACCTCTTAAGAAGTTCAACATGAGGCATAAAAATAGATTCTAGATATTATGTTACCTTTCTTTCCTTGTAGCATTCTTGATTATTCCGGGGCAACTAGAAGCTCTATCCTTTTATTACATATGTGAATTTTATCTTCTGCAAGGCTCTGAGCTGCCTGGACTACTTCAGTGGACTCTCCAACATCTGTTCACTCATTGAGCAGCACTGTTTAGAAAACCCAGAATGGGTTGTAATTGTTACTGAGTTAGGTTTTCCAAGCAGCAGAGCTCTTCTCTGACTGGAAACTGAGAAAACAACATGGAATTATAGAATAAAATTGTACCTGAATTCTAGTCCCAATTCTGCCATCAGCTTGGATGACCTGGATCATGTCTCTGTACCTCAGTTTGTTGTTGTTGTTGTTGTTGTTGTTTTGAGACAGAGTCTTGCTCTGTTGCCAGGCTGGAATGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCACCTCCCTGGTTCAAGCAATTCTCCTGCGTCAGCCTCCCGAGTAGCTGGGATTGCAGGCGCATGCCACCATGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGTTTTCACCATGTTGGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCTGCCCGCCTCTGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGCGCCCGGCTTTGTAGCTCAGTTTTTAATGACAGGGTTTGGCTTTGATTCTGATGTCTGCACAACGCTCCCAGGGCTGTAAGAACTGCAGAACACACTGAGAAGACACCGTCCCAGCCATGGAAAGCCCTTCTATGCAGTCATTTATTTTCACATGAACACCTCCCAGAGAGCTATGCAATGACTTGATAGATATGTGTAACTTTTCCCCTATTCAGATATATTGTTAGGAAAATCTCATTAACCTTTCATGTATTTTGATGACTATCTCAAGATGGTAGTTCTTCTGTTTAGCTAAACTAGTAAGAGTAGAATCAGTTAATAGAAAAAGGAAACTTATGGCATAAAGCCATATGGTAATAAGGACAATGAGTTTTCTGATTTGAAAATAGGTCTTTGATACCTCAACAATAATATACCTGGATTCAATTCTTTACAGTATAAAAAAAACCTTGCACATTTGTTAGGTTCGAGCCACATGCACCTGACTACTGCTATTATTATCCTCTTTATTTTAGAGATGAGGAAAATAAAGTCCAGAGAGGTTAAACATTTTGCCCTAAGACCCCACAGCAAGTGGGTAGAAGACCTGGGACTATAATGCAGGTTTTCTGGCCTCTAGTTCAGAGCATTCGTAGCATGCTAGCCCCTCAGTAGCATAGTACTTTAGGAAGCTAGTCTTTCCCACTTGCTGGTAGTAAGCCAGGGAGACATAATACACTAAGAAAGCTTCGGTCTGAGAAAACTTTCCATGATTGTTTTTTCTCAATTTTTAGAACAGTAGGAATTCTTCACCTCATCTGCTATCCCAACATATTCACAATTGGAAAATTTTTGTGCTGTTCTGTTCTTTTCAAATTACAAAAGTCCTTGACTAGGACTGCTGGCTTTTACATGCACAGGACTGCACAACACTGGTGTTTATAAAGCTCATTCGTTCAATGATAAAATTGGCCATAGCAAATCAAAAATAAATGAAGACCTCTGCGTAGCTGATTGGACTACAGAAAATAAGCCATTCATATCCAGGAAGAAAAAATTAAAAGGATTGCTGAAAAGGAAAGAGCCCTAAAGCAAACTATCTACAGTTTTGGTTAGTTTTCTTTTCTTTTCTTTTCTTTTTTTTTTTTTTTTTTTGAGGTGGGGTCTTGCTTTGTTGCCCAGGTGGGAGTGTCTTCTTATATTGGTCAGGCTGGCCTTGAACTCGGGGCTCAAGCCGTCCTCCCACCTCAGCCTCCCAAAGAGCTGGTATTACAGGTGTGAGCCACCAGCCATGGTTAGTTTTCATCAACTGCTTTCTCACCTTCTTTTCATCCTCTAATTCATACCTGCAATCCTTATTAGAAATCCTGTCAACTTAATAGTACCAGAAAGTCAGGCAAAAGACTGATAAAAAAAAAGCCTCGGTGGTCAAGAACTTAAAATTACACTACTGGTGTGCAACGTGCTCTTATCTGTGTTACTGGAGGACACCCTCAAGATACCTCACTCCAGTTGACTCCTTGGCTCTAAATCTTTGAGTTAAAAAATAAGGAGGTTCTTTATGGAATAAACAGGTATTAAGCTATTTAAAGGAGAGGGCTGCGAAATGCTTGATTATGGGCTTTTCAAGTTCAGAGGCCAAGCGTTTGTCATTTTCTTCCAGTAACTAGGACTGTGTCTTGCCCCTAATAGTTACTCAGACTATATTTGCTTAATTGAATTAAACACAGTTGCCTATGCCCTTTGAAATTCTGGACTTTCAACAGAGGGCCTCTAGCCCAATATTTGCTTACCAAACTGGACATCATTGATGATCTGGATTCAGGCAGGGTCTGGAAAAAGAGAGACTGGGCCAAATTAAAATAATCCATTCACTGATGACACAAAACTAAACTACAATTGTTTGGCACCCTCTCTTCTCCTTATCTTGCAAAATCAAATTAAGCACTAGTGGAAAGAAACAGTTCAGAGAGGAATATGGGAAAGGAAAAAAAAAAACCAAAATGTGATTTCCAACGAGACTAGAGATTTGTTCTTTATCTACATGGTCATGTTACTCATTTGATAGCATCTATCTCAGGGGTATTATGTTATCTCTTGGCCAGGACTCATGAAAGTTAAGATTTGCATTGATAGGAAAAGTTTTGCAGAAATATGGACTCTTGAGAGGGTGGGAGGTATATAAAAGTGGCTATGGCTGTGCAGCAGAGCAATTTGCATTTCTTATACACCCTGCTTGAGACTGATGTCATTAGTGTTGGTTAGGCCAAGGCTGGGGGAGGCTACTCAGAATAGTGGGTGACCAATTACCCAGAACCTTTGGAAAAGGAAATGACTTGATTGAAGAGGCCATTCTTTAAATGTATCTTACTGCTCAATTTCACCATTGCCTATTGTAGAATGCGCCCTGCCCGCTCAGCATTTGCCTCTAGGCAGACCAGGACTCCTTCCCCTCCCCAACTAATCTTCCTTCTCCTGTATCTTATTCCCTAGGGCCACTTGCACCTTTCAAAATGGATAAATTAAATTCCCCTGCTCCCCTTCTACCAACTTTAACATCATATCCTTGGTGTATGATGCCCTACTTTTCATTGTTTTGCCTAAATAAGAGTATGCTTGGGAATTTTAGGCTTAGGGCTGGGAAAAGATGGGATATGGAATCGTCAGCTATAGATTGCCGGACAAGAAATTTTAGGAGCAGTAGACCTTTCAACCGCCCTCAATAGGATGGAACTGACTGTCCCCACAACCTATTTCCCTTTCAGTGGCTTGCTCCAGCCAAGGCCCCTTATTTAAGAGATCTTTGTGCGCTCTGAAAACCATGCATATGCCAGAACTAGGTGCTCTGTTTCATGAAGGCAGTTTGATAACTGAATGGACTTTGGAAGTGCCCAGTGTTTGACTATTACCCTGGTGCGATGATCACACTGGGCGTATCATTGTCACATGATCCCATGTTTGTTGATGAAAATAAACAGTGGTTTTCAAAAACCA
>gi|1233054967|ref|NM_001354611.1| Homo sapiens euchromatic histone lysine methyltransferase 1 (EHMT1), transcript variant 5, mRNA
GCGCGGGAGGGGCGGGGCCACGCTGCGGGCCCGGGCCATGGCCGCCGCCGATGCCGAGGCAGTTCCGGCGAGGGGGGAGCCTCAGCAGGATTGCTGTGTGAAAACCGAGCTGCTGGGAGAAGAGACACCTATGGCTGCCGATGAAGGCTCAGCAGAGAAACAGGCAGGAGAGGCCCACATGGCTGCGGACGGTGAGACCAATGGGTCTTGTGAAAACAGCGATGCCAGCAGTCATGCAAATGCTGCAAAGCACACTCAGGACAGCGCAAGGGTCAACCCCCAGGATGGCACCAACACACTAACTCGGATAGCGGAAAATGGGGTTTCAGAAAGAGACTCAGAAGCGGCGAAGCAAAACCACGTCACTGCCGACGACTTTGTGCAGACTTCTGTCATCGGCAGCAACGGATACATCTTAAATAAGCCGGCCCTACAGGCACAGCCCTTGAGGACTACCAGCACTCTGGCCTCTTCGCTGCCTGGCCATGCTGCAAAAACCCTTCCTGGAGGGGCTGGCAAAGGCAGGACTCCAAGCGCTTTTCCCCAGACGCCAGCCGCCCCACCAGCCACCCTTGGGGAGGGGAGTGCTGACACAGAGGACAGGAAGCTCCCGGCCCCTGGCGCCGACGTCAAGGTCCACAGGGCACGCAAGACCATGCCGAAGTCCGTCGTGGGCCTGCATGCAGCCAGTAAAGATCCCAGAGAAGTTCGAGAAGCTAGAGATCATAAGGAACCAAAAGAGGAGATCAACAAAAACATTTCTGACTTTGGACGACAGCAGCTTTTACCCCCCTTCCCATCCCTTCATCAGTCGCTACCTCAGAACCAGTGCTACATGGCCACCACAAAATCACAGACAGCTTGCTTGCCTTTTGTTTTAGCAGCTGCAGTATCTCGGAAGAAAAAACGAAGAATGGGAACCTATAGCCTGGTTCCTAAGAAAAAGACCAAAGTATTAAAACAGAGGACGGTGATTGAGATGTTTAAGAGCATAACTCATTCCACTGTGGGTTCCAAGGGGGAGAAGGACCTGGGCGCCAGCAGCCTGCACGTGAATGGGGAGAGCCTGGAGATGGACTCGGATGAGGACGACTCAGAGGAGCTCGAGGAGGACGACGGCCATGGTGCAGAGCAGGCGGCCGCGTTCCCCACAGAGGACAGCAGGACTTCCAAGGAGAGCATGTCGGAGGCTGATCGCGCCCAGAAGATGGACGGGGAGTCCGAGGAGGAGCAGGAGTCCGTGGACACCGGGGAGGAGGAGGAAGGCGGTGACGAGTCTGACCTGAGTTCGGAATCCAGCATTAAGAAGAAATTTCTCAAGAGGAAAGGAAAGACCGACAGTCCCTGGATCAAGCCAGCCAGGAAAAGGAGGCGGAGAAGTAGAAAGAAGCCCAGCGGTGCCCTCGGTTCTGAGTCGTATAAGTCATCTGCAGGAAGCGCTGAGCAGACGGCACCAGGAGACAGCACAGGGTACATGGAAGTTTCTCTGGACTCCCTGGATCTCCGAGTCAAAGGAATTCTGTCTTCACAAGCAGAAGGGTTGGCCAACGGTCCAGATGTGCTGGAGACAGACGGCCTCCAGGAAGTGCCTCTCTGCAGCTGCCGGATGGAAACACCGAAGAGTCGAGAGATCACCACACTGGCCAACAACCAGTGCATGGCTACAGAGAGCGTGGACCATGAAGTAAGCACGTTTGTTTTCATTTAAAGCAGCCACGAGGAGTGAGTGAGAAAGCCCAGCCCAGCAGGGGCCCCGACAGCCCCTCGAGTGAGTTGTGCTGCGTGACCAGGGCGGGAGCCTGAGTGGATTCTGCGCAGAACCAATCGAGCAGATCCCAACAGTGAAATCACGGCAGATGATGAAACACAGGTCTAGAGCTTGTTAAAAAGGAGGACTGTGTAGACAAAGTCTTTGAATGAAAATGGCCTGTTGTATTTCTTTTTTATGATCATGGTTTTGTCAAGGTTTTTCCTACCTTGCTATAAACAAAGTGAGTAGATTGAGGCAGGATAGTCACACCAAGGTGAGTCCAGAACTGCCCAGAACTGTGGTTTCCTGCAGGGCAGGCCCCGCAAGGGCCGGGCCTCGGCCACCTCCCTCCTTTCACCGGGGATCACAGACTCAGAGGGTTCAGCACGTCCCGTCTCTGCTGCCTCTGGGACAGGAGGGGGGATCAGGCAGAGCACAGACGGAATTAATGTTTTCTGAGAATTTCTCCAGTTCTTTTTAACACGATTTCTTTCAGCCCTCAGAGCCTCGTGACCATGGCTGGCCATGGTGAGGGTCTGAGCAGGAGGCTTGTTGGCACCAGGCCGAGAGGCACCACATGCAGTCACACTGCTCAGGTGTCTGGCTGCCCCGGGCTTGCATTTGCTGTGGCCGAAGTCAGCACGTGGCCATTAGTGTCGTCTGCTTCCTGAGGGGTGTGTCAGGCTGTTGCTTCCACGAGTTTCCTGGTCTTATTGGCCAGCGGATCCATCTTCAGCTCGATTATTGCGTCTTAGCTGCACATTGTGGAAGTAAGTGAGCTGTGAACAGGACAACCATCCGTGTAGCAATGCTGGGCATTATTCCAAGCCTTTTGCGTAGGGCGCTCCTCCAGGTCCACGGCAGCCTGTGCAGCATCGGCCGTCGCCCAGGTGATACAGGTGAGGCCCGTGAGAGGGGCCAGGTGGCGCCTCCAGACTCACTGGCCTGCTGTGAGGAAGGCAGGAATGGGAGCCTTGTTCCAAAGGTCAGGCCCGACCGCTGTGTCGGGGAGCATGGGCAACACCCGGGAGGAGCGGGCAGAGCCCTGGAACAGGCCAGTCAGTTTCGCCCATGGCCCTCACCCTGGTGCCTGTTGGCGTGGCCGGGGTTTCTGATTCAGCAGGTCTGGCCTGGCTGGGATTTTGCTTTTCTAAAGTGTTCCCCGTTTCTCCTGATGCTTCTGGTCCAGGGACCACACTTTGAGAACCACTGGTTCGCCTCCTCTTCTCCTTCTCCGTAGGTGTTAAACAGGATCCAGTGGAGTCAGATCCCCGTGTGACACGTGCTTCCCTGTGACTTTTCTCTCTGTATCTCCACGTTTCCGGTGCACATGCCTTTACTCAGACTCCGACACTGGCGTTGCTTTTGTCTCATCCCAGCTAGGCGACGTCTGCGTCAGCGCCTCTCATCTGTGGCACGTGTGCCCAGCGGGCTCCCTATGTGACGGCTTTTCCCACCTCTGAGTGTTCATGTCACTCGCTGCATGTTCTGCCACACTCGGCCCCTCTGCAGAGCCTCTCACTTGTTTCAAAAGAACTTTCCATAGTGACAAGTGAGGGCGCAGTTAGCCTTTGGAACCCTCGACTCGGCTCCTCTGTCACCAGCGTTCTCTCCCACCCTTCTTTCTTGGTTTTGAACTACTTACTGTTTTAAAACAAACCCCATTTTACTACTGAATAGCACAGTGTGTTTCTATTAAGATCAAAAATGGACCATTGTCTCACATAACAGCAATGCTTTTCACATGTAACAAAAATAACAATTTCCTGTTATTATTTAGTGCCTAGTCCATGGTCAAAGGTCTGTTGACAAAATGCCTTTTACTTTTTTTCTCTCTTTCTAATTGGATCCAAACTGGTTCCACTCATTAAATCAATCTGCTGCAATGTC
>gi|1231802390|ref|NM_004333.5| Homo sapiens B-Raf proto-oncogene, serine/threonine kinase (BRAF), transcript variant 1, mRNA
TTCCCCCAATCCCCTCAGGCTCGGCTGCGCCCGGGGCCGCGGGCCGGTACCTGAGGTGGCCCAGGCGCCCTCCGCCCGCGGCGCCGCCCGGGCCGCTCCTCCCCGCGCCCCCCGCGCCCCCCGCTCCTCCGCCTCCGCCTCCGCCTCCGCCTCCCCCAGCTCTCCGCCTCCCTTCCCCCTCCCCGCCCGACAGCGGCCGCTCGGGCCCCGGCTCTCGGTTATAAGATGGCGGCGCTGAGCGGTGGCGGTGGTGGCGGCGCGGAGCCGGGCCAGGCTCTGTTCAACGGGGACATGGAGCCCGAGGCCGGCGCCGGCGCCGGCGCCGCGGCCTCTTCGGCTGCGGACCCTGCCATTCCGGAGGAGGTGTGGAATATCAAACAAATGATTAAGTTGACACAGGAACATATAGAGGCCCTATTGGACAAATTTGGTGGGGAGCATAATCCACCATCAATATATCTGGAGGCCTATGAAGAATACACCAGCAAGCTAGATGCACTCCAACAAAGAGAACAACAGTTATTGGAATCTCTGGGGAACGGAACTGATTTTTCTGTTTCTAGCTCTGCATCAATGGATACCGTTACATCTTCTTCCTCTTCTAGCCTTTCAGTGCTACCTTCATCTCTTTCAGTTTTTCAAAATCCCACAGATGTGGCACGGAGCAACCCCAAGTCACCACAAAAACCTATCGTTAGAGTCTTCCTGCCCAACAAACAGAGGACAGTGGTACCTGCAAGGTGTGGAGTTACAGTCCGAGACAGTCTAAAGAAAGCACTGATGATGAGAGGTCTAATCCCAGAGTGCTGTGCTGTTTACAGAATTCAGGATGGAGAGAAGAAACCAATTGGTTGGGACACTGATATTTCCTGGCTTACTGGAGAAGAATTGCATGTGGAAGTGTTGGAGAATGTTCCACTTACAACACACAACTTTGTACGAAAAACGTTTTTCACCTTAGCATTTTGTGACTTTTGTCGAAAGCTGCTTTTCCAGGGTTTCCGCTGTCAAACATGTGGTTATAAATTTCACCAGCGTTGTAGTACAGAAGTTCCACTGATGTGTGTTAATTATGACCAACTTGATTTGCTGTTTGTCTCCAAGTTCTTTGAACACCACCCAATACCACAGGAAGAGGCGTCCTTAGCAGAGACTGCCCTAACATCTGGATCATCCCCTTCCGCACCCGCCTCGGACTCTATTGGGCCCCAAATTCTCACCAGTCCGTCTCCTTCAAAATCCATTCCAATTCCACAGCCCTTCCGACCAGCAGATGAAGATCATCGAAATCAATTTGGGCAACGAGACCGATCCTCATCAGCTCCCAATGTGCATATAAACACAATAGAACCTGTCAATATTGATGACTTGATTAGAGACCAAGGATTTCGTGGTGATGGAGGATCAACCACAGGTTTGTCTGCTACCCCCCCTGCCTCATTACCTGGCTCACTAACTAACGTGAAAGCCTTACAGAAATCTCCAGGACCTCAGCGAGAAAGGAAGTCATCTTCATCCTCAGAAGACAGGAATCGAATGAAAACACTTGGTAGACGGGACTCGAGTGATGATTGGGAGATTCCTGATGGGCAGATTACAGTGGGACAAAGAATTGGATCTGGATCATTTGGAACAGTCTACAAGGGAAAGTGGCATGGTGATGTGGCAGTGAAAATGTTGAATGTGACAGCACCTACACCTCAGCAGTTACAAGCCTTCAAAAATGAAGTAGGAGTACTCAGGAAAACACGACATGTGAATATCCTACTCTTCATGGGCTATTCCACAAAGCCACAACTGGCTATTGTTACCCAGTGGTGTGAGGGCTCCAGCTTGTATCACCATCTCCATATCATTGAGACCAAATTTGAGATGATCAAACTTATAGATATTGCACGACAGACTGCACAGGGCATGGATTACTTACACGCCAAGTCAATCATCCACAGAGACCTCAAGAGTAATAATATATTTCTTCATGAAGACCTCACAGTAAAAATAGGTGATTTTGGTCTAGCTACAGTGAAATCTCGATGGAGTGGGTCCCATCAGTTTGAACAGTTGTCTGGATCCATTTTGTGGATGGCACCAGAAGTCATCAGAATGCAAGATAAAAATCCATACAGCTTTCAGTCAGATGTATATGCATTTGGAATTGTTCTGTATGAATTGATGACTGGACAGTTACCTTATTCAAACATCAACAACAGGGACCAGATAATTTTTATGGTGGGACGAGGATACCTGTCTCCAGATCTCAGTAAGGTACGGAGTAACTGTCCAAAAGCCATGAAGAGATTAATGGCAGAGTGCCTCAAAAAGAAAAGAGATGAGAGACCACTCTTTCCCCAAATTCTCGCCTCTATTGAGCTGCTGGCCCGCTCATTGCCAAAAATTCACCGCAGTGCATCAGAACCCTCCTTGAATCGGGCTGGTTTCCAAACAGAGGATTTTAGTCTATATGCTTGTGCTTCTCCAAAAACACCCATCCAGGCAGGGGGATATGGTGCGTTTCCTGTCCACTGAAACAAATGAGTGAGAGAGTTCAGGAGAGTAGCAACAAAAGGAAAATAAATGAACATATGTTTGCTTATATGTTAAATTGAATAAAATACTCTCTTTTTTTTTAAGGTGAACCAAAGAACACTTGTGTGGTTAAAGACTAGATATAATTTTTCCCCAAACTAAAATTTATACTTAACATTGGATTTTTAACATCCAAGGGTTAAAATACATAGACATTGCTAAAAATTGGCAGAGCCTCTTCTAGAGGCTTTACTTTCTGTTCCGGGTTTGTATCATTCACTTGGTTATTTTAAGTAGTAAACTTCAGTTTCTCATGCAACTTTTGTTGCCAGCTATCACATGTCCACTAGGGACTCCAGAAGAAGACCCTACCTATGCCTGTGTTTGCAGGTGAGAAGTTGGCAGTCGGTTAGCCTGGGTTAGATAAGGCAAACTGAACAGATCTAATTTAGGAAGTCAGTAGAATTTAATAATTCTATTATTATTCTTAATAATTTTTCTATAACTATTTCTTTTTATAACAATTTGGAAAATGTGGATGTCTTTTATTTCCTTGAAGCAATAAACTAAGTTTCTTTTTATAAATTTTGAGTGCAGGTGACCAAAAATATTGCTGAGGAGTGGCACGTTTGACATGAGTAAAATGTCTTAACTTCGGATTTTTAGCGGGAAAATGTTATAAATTGGAGTTTCTTTTAAATAGCTTTTTTTAAAATACATTAAGGATGTCTCGCTCATGTAGAAGTCAAATTTTGTTGCAAACGCATTGCTCCCTTCACACCCAATCTCTCCCCTGCAAAAAATCTTCACAGAATTCTGTGAGAACTTTTAGGTGTGTTTTTCTTTGAGATACCTCTGGTTGCCAAACACCAGGTAATAGATTTTTTAAAGTTGTTATTAGATTATTCTTACCTCTCATGATGCATATTTTAGCAATCACCTTATCATTGTGTCTCATGTTCTGTCCTCCTTATATTCTTTGCCCAGCAAGATTCTACTTATGATGAATGAATGCTCTTCTCCTTTTTTCATTCAATGGTATGAAGTATTTGTTAGGGTTCTTTAGTACTTACACTTTGTTGTGTAGAAAATGACTGTAATGTGGTGGTCAGTGTATTCTTACTGTGATTCAGAGGGAATCAAAAGTAGAAAGCAACAGCACGTGGTCCTATCAAAGATTTGGCCATCTCTGCTTCACTGTCAGCCTCTTAACTATATCTTCACTTACTCAATTTGGTTTTGTCATGATTTTTAAATGTAGCCAATAGATCAAGGTTCTTCCAGTAAACACATATCTGCATAAATGCCTCCTTGAAGTCAATAAAGAAGGAAATTGAGAAGACTTTAAATTAATGATAATTTAGTTTTTAAGTACCCACAAATAAATTTTTGAAACATTTTCTTTATTTGAATACTTAGATGTCATCCAGGAAAATCACTCAATAATAATTACGGCAAATCTTTAACCCCTCATTTGGGTAGCTTAAGATAAGTAATGCCATTATGAATCAGAATTGATTCATGACTTTAGTTAAGAAAATGAAAAGGAACATTTCACGTATTTTTAAAAATGATACTAAGGAATAAAGAAGTACAACTATTGGAAAATATCTAAGTATATGATTTTTAAATCCTCCAGTGGCATTAAATATATGATTATTAGTAATTGTTAGATAGGGTTTTATTCATTCACAAATAGAAGACTAGCAAGCATGTAACTAACAAAGTTTTTACAAAATTGACTTTGTGGAATGCTCCAAATGTTTGGCCATTTTGAGGCACAAGGTCAGGGGTCTCTTTATTGATAGAGCTCCTTCTATAATTTCCCAGCATACCTGCCTCACAGTTATCTTCCTTTCATTGTTCACTCTCTTTTTCTTCTCAATGCCATCCTGCCTAGGCTCCCATCATCTGCATCTGACACCTTTCCTTTCTTTCTTTACTAGTCTCCTTTGCGATGGGTGTGGCTAAGCTCTGTAGAGCCACTCAGAAACTCATTGTTCCATTCTGTAGCCAGTAAAACATGCCTCCAAA
>gi|1227523081|ref|NM_001354044.1| Homo sapiens WD repeat containing planar cell polarity effector (WDPCP), transcript variant 4, mRNA
ACTGCGCTCTGCGCCGATTGCAAAGTAGTCCCTGAGGATGAGCCCCTGTGATTGGAGGACGACAACAAACGGATGGTTTGGGCTCAGGAGGAAAGGACCTGCCTGATGGAGCCCGGCAATTGGCGGGAGAGATAGCGTGTGTAACTCTAGGGAGGGGAGAATCACCCCTTAGCGACATCACCCCCACGCGCGTGACTGAGACTGCATCCTCCCATGAGGGTAAACGTGGGAGGTAAAGAGACCTTCCGCTGCGTAAAGCTGGATCGACCCGGAAACAAAATCTTTTAAAAAACGATTGACACTCTGGAGGGGCGGGGGAATTGATAAGTTGGGACGACCGGACAGCTTCTCAGGTTGCTAAGCGACGAGGCGGGAGCGCACGCACACCCTGGCTGCTTTGTAGCACCTGAGGAAACTGTGGCGGCGGCGGCGGCGTCCTGGAGACCCAAGAGACCAAGCGAGCGTGTCGCTCCCTCTCGGGTCCGAGGACCTAGCCTAGGAACCTTCTGCCCGGGGTAGTGTCTGGTGATGAGGCGAGAGTTTTGCTGGGACGCCTACTCCAAAGCGGCCGGGAGTCGCGCTTCTTCCCCACTCCCGAGACAGAAAACCATGATAAATTCTGGACAAAATACAGAAAACCCACAACTCTCTGAAGGCACTGGAGAGTGACCATAGCAGGCATAAACTGAAAGGAAGTCTATACTTGGAAAGAGGGAGTATCACCGAATAAACAAAAATGAGGTTTTGTTGCCAGCAGACCTTCACTGCAAGAAATGCTAAAGGAAATTCTTCAGGCTGAAAGGAAATGATACCAGATGGAAACTTGGATCTGAGGAATGGAGAACTCCAGAAATGGATAGAGATTCCTTCTGCCATCAGATGTCTTTCTGCTTGACTGAACTGCACCTGTGGTCTTTGAAGAATACCTTACACATTGCGGATAGAGACATTGGGATCTACCAGTATTATGACAAGAAAGATCCACCAGCGACAGAGCATGGTAACTTAGAAAAGAAGCAGAAGCTGGCAGAGTCACGAGATTATCCTTGGACGCTCAAAAACAGACGCCCAGAAAAACTCCGAGACTCGCTCAAAGAGTTGGAGGAGCTGATGCAAAACAGTCGGTGTGTGCTGAGCAAATGGAAGAACAAATATGTCTGTCAGCTCCTTTTTGGTTCAGGTGTGCTGGTGTCTCTAAGCCTTTCTGGGCCGCAGCTGGAGAAAGTGGTGATTGACAGAAGCCTGGTGGGGAAGCTCATCTCAGACACCATCAGTGATGCTCTTCTCACAGACAGTTTTATCATCTTATCATTTTTGGCACAAAACAAACTATGTTTTATTCAGTTTACCAAGAAGATGGAGTCTTCTGATGTAAACAAAAGACTGGAAAAACTCTCAGCCTTGGATTATAAGATTTTCTATTATGAAATACCCGGCCCAATAAACAAGACAACAGAGCGACATCTAGCTATCAACTGTGTTCATGATAGAGTTGTTTGCTGGTGGCCACTGGTCAACGATGATGCTTGGCCTTGGGCCCCCATTTCTTCTGAGAAGGACAGAGCCAATCTACTCCTCCTGGGTTATGCTCAAGGAAGACTAGAGGTTCTGAGTTCTGTCCGCACAGAATGGGACCCACTGGATGTTCGCTTTGGCACCAAACAGCCTTATCAGGTGTTCACAGTGGAGCACTCCGTAAGTGTAGACAAAGAGCCCATGGCTGACAGCTGCATCTATGAATGCATTCGGAATAAAATCCAGTGTGTGTCAGTCACCAGAATACCACTAAAGTCAAAGGCCATCAGCTGCTGCAGGAATGTTACTGAAGACAAACTGATTCTGGGCTGTGAAGATTCTTCGCTAATTCTTTATGAAACTCACCGTAGAGTGACTCTCTTAGCACAGACTGAACTTTTGCCTTCATTAATAAGCTGCCACCCAAGTGGTGCCATTCTGCTAGTTGGCAGCAACCAAGGGGAGTTGCAAATTTTTGATATGGCTCTATCCCCTATTAACATCCAACTGTTGGCTGAAGACCGCTTACCCAGGGAGACTCTGCAATTCAGTAAATTATTTGATGCCTCCAGCAGTCTTGTTCAAATGCAATGGATAGCTCCTCAGGTTGTTTCTCAGAAGGGTGAAGGTAGTGATATCTATGATCTCCTCTTCCTCAGGTTTGAAAGAGGACCTTTGGGTGTGCTGTTGTTTAAACTAGGCGTCTTCACTCGAGGACAGCTGGGCCTGATAGACATCATCTTCCAGTACATTCACTGTGATGAGATCTATGAGGCAATAAACATCCTGAGCAGCATGAACTGGGACACTCTGGGCCACCAGTGCTTTATCAGCATGAGCGCCATTGTAAACCATCTTCTTAGACAGAAGCTCACTCCAGAGAGAGAAGCACAGCTTGAGACAAGCCTTGGAACCTTCTATGCTCCAACAAGACCACTTCTGGATTCCACTATATTGGAATATAGAGATCAAATCAGCAAATATGCAAGGAGATTCTTCCATCACTTGCTCAGGTACCAGAGGTTTGAAAAGGCATTTCTCCTAGCTGTTGACGTTGGTGCTCGTGACCTCTTTATGGATATTCATTACCTTGCACTAGATAAAGGTGAATTGGCACTAGCTGAAGTGGCAAGAAAAAGAGCTAGTGACATTGATGCAGAATCAATAACCTCTGGGGTTGAACTCCTGGGACCCTTGGACAGAGGGGATATGCTAAATGAAGCATTTATTGGCCTGTCTTTAGCACCTCAAGGAGAAGACTCATTTCCAGATAACCTCCCTCCCTCTTGCCCAACCCACAGACATATTTTACAACAAAGAATACTGAATGGCTCTTCTAACAGACAAATAATTGACAGAAGGAATGAACTTGAAAAAGACATCTGTTCTGGATTTTTGATGACTAATACCTGTAATGCAGAAGACGGAGAACTGAGAGAAGACGGCAGAGAACAGGAAATCAGAGATGGTGGTTCTCTCAAAATGATTCACTTTGGTCTGGTGTAAACATTAAGAAAAAAAGAAAACTGCCTTCTTCATATCTAAACTTTTCATGGCCTGATACAGACTTAAAATCCCCCGTGTGGATTTTTAACAAGAGACAGTATGAATCATATAAATTAGTTAAGAGTTTTGAGTTGAGTGTTTGTTTTCAAAATAAAGTTTTATTATTTCAAAAACATGCAGCATAACAGCAAAGTGATCGTAAGTAAAAGTCTTCAACCTACTTATTTTCAATAATGTAAAATTTTGAAAGTGTCTTAAATTGTATGTTAATTAGGTGCTACAAAAATAGAATATTTAAACTTTGTTCTCCCAGGTACTTTAAAAAAGGGGCAGTAGGGGGCAGGCATAGTGCTCATGCCTGTAGTCCCAGTGCTTTAGGAGGCCAAGGCTGAAGGATCACTTGAGCCCAGGAGTTCAAGACTAGCCTGTGCAACATAGTGAAACGCTGTCTCTAGAAAAAATTTTAAAAATTAGCCAGGCATGGTGGTACATGCTTGTGAAGCTGAGGCAGAAGAATTGCTTGAGCCCAGGAGTTCAAGGCTACAGTGAGCTGTGATCGCGCCACTGCACTCTAACCTGGGCAACAGAGAGTGACCCTGTCTCCAAAAAAAAAAAAAAAAAAAAAGAAAGAAAAGAAAGAAAGAAAGTCCTCTTCTGCTCTTGTTTACATTATTAATTTACATTACAAATACAGTATTTATTATGCAAATTTTTCAGCCCAGATCCATTGTTAGAAGACAATTCTCCATGGTTCTCTCGAATTACTGCTATGAGTAATTTGCCCTGACTGCCCCTTAGAACACAGATACTGTTTCCCTCTGGAGAAAGGGGCAGGCATGCTTATCAACTTTTATATGAGATTTGAGTTCTTTAAACTCAGAATGCCTCTCCTTTACACTGCCCATTGAGTGTGCAGGTGTCATCTAGCCCTCTTAACATTGCTCTATAGGAATAGGGCTCAGAGAATCCATGAAGAAAAGAAAAAAATGCCGATACCCTGGTTACTATCATTTGTCTCTGACTCAGGAGTCTCATGTCTTCTAACAGCATCCATGAAACTATAGTGTGGTAACTTGTTAGCTAGTAAGTAGGGTAAAATCTCATACCCTTCACAGTTATTGACACCCATTCTTTAGCAGATAACTGATATTTCACAATTATAGACATCTATAGGCCAGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGAATCACGAGGTCAGGAGATGGAGACCATCCTAGACAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAAAAAAAATTAGCCGGGCGTGGTGGCGTGCACCTGTAGTCCCAACTACTTGGGAGGCTGAAGCAGGAGAATGGCGTGAACCCGGAGGGCGGAGGCTGCAGTGAGCTGAGGTCGCACCATTACGCTCCAGCCTGGGTGACAAAGTAAGACTCCGTTGCAAAAAAAAAAAAAAAAAAAATTATAGACATCTATAATAATAATCAACATTGTTTAATATTAGACAATAATTACATTATATAATTAAATCTTAGAGTTCAAAGTTAATCAGACTGAAGGCTTTTATACTTCAAATTTTTCTTTCTACTTCCCATTTATCTGTACCTCTACCAGAGGGTATGACAAAAAAAGGTGAAACTCAAATTAGATTTTTCATTTTGTTATTGCTCTGAAAAAATTTTAATAATGCATAACATGTAAGCCAAACTGAGTTACCAGCAAATTTTCATTCTCCTATTCCCAACCTTCTTTATCACACAGATAATCAAAAGTTAACTAATTTTTAGAGAAAAAATTGTATTTAAAAAAATAGGGTTTTGTCAAGATTGCAGAATTTTCTCCAGATTTTCCGGGTAAATAGTCATTAACCCAAAATACCTTTCCTGTGAGATACTAAAGATAAAATATGGATATTGATACATCTATGTTTTTCTACATAATGATAATAATAATGAAAATGTTTGCCAGTTATGTAGGTGAAAATTAAACAAATCATAGTTCTTAAAGTACCCATTTTCCCCACTTCACATACCTCTAGAAAAGTTAAATGTACAGAAAACCAAGTTTAGATAGTAAGAATATATTATGAATGATCTTTGATAATGTCCATGATTTATAAATGCTGTTATTTCCCAGATGTTGTAAATCTGAGAATATTAATTAAATTGATATTCCTCCTCTGCTAGAACCTGAAAGGATTATGAAGGGGCTACCATAGCTCTAAAGTAAGAAGAGTGGTATAGGCAGGAACAGCTAGGTAGTATCTGTCCTAGCACTGACAGGTTCACAGGTTGTCCTTTAGGAATAGACCCATGAGCTTTTTCAACTATTTTCCAGATTTCTCAGATCTGAGGTAATTTCCACAGTAATTTATATTAGCTGTCACATTGTGTCTTATTGCTAGAATAAACTTTGCTTGGAATGCTAAAAAAAAAAAAAAAAAA
>gi|1189690174|ref|NM_001351338.1| Homo sapiens interleukin 1 receptor associated kinase 4 (IRAK4), transcript variant 6, mRNA
CCCGCCCCTTCGCGGCGCTTCCTAGTTCGGCTGGTTCTTCTGTCGCCGGCTTCAGCAGCCCGCGCCCGGGCAGGTAAGGCATTCCCCGCCTTAATGCCTCGGTCAAACGTCGTCCGAGGTCCGCTTCCAGGCCTCGGCACCTCTGCCCCAGGGTTGCTGGGGTCGGCTGCGGAACGGAAATCTCTTTATCATCCGTGAGAAAAGTTAGAGAGGAAGTGGGTTCCTTTGACAGAGCTTACTCCAGAAGAAAGACTTGGGTAGGTCCCCGGTAATCAAGAAGTTCGTCGGCCCTGAGGAAGAGCCTGAGGCTTGGAGGGACGTCACCCAGCTGTTCTGGGGCGCAGTCGGACCTCAAGTTTCTCACCTCTCAGGCCCTGGATTCCGTGAACCCGACTGCGAAATGAAGTCTCTTTTCCCCAGAACCAGGAAGTCAGGCCAGCACCTGACAGATGCCTGTGGCGCCAGCAGCTCGCTGAGCCTCCACACGATTGTAATTCGCTTGTTTCTCCGGCCTCCAAGCTTCCAGGGAATTAGAAAGTGGAGGCGGCTTATGGGATCAGATGAGTACATTCGCAGATGGGGGAAAAAAGTGTACCTGTCAGCTTGGAAGCCAGAGGGAGACAAAGGGATAAAAGCAAACCCTGTCCAGGGGCCTGGAGCAGTATCTAGCACAAAGTAGACACTCAGTAAATATTTGGAATAGAAGATGAACAAACCCATAACACCATCAACATATGTGCGCTGCCTCAATGTTGGACTAATTAGGAAGCTGTCAGATTTTATTGATCCTCAAGAAGGATGGAAGAAGTTAGCTGTAGCTATTAAAAAACCATCTGGTGATGATAGATACAATCAGTTTCACATAAGATGCTGTTCCCAAAACTGCTAATACACTACCTTCTAAAGAAGCTATAACAGTTCAGCAAAAACAGATGCCTTTCTGTGACAAAGACAGGACATTGATGACACCTGTGCAGAATCTTGAACAAAGCTATATGCCACCTGACTCCTCAAGTCCAGAAAATAAAAGTTTAGAAGTTAGTGATACACGTTTTCACAGTTTTTCATTTTATGAATTGAAGAATGTCACAAATAACTTTGATGAACGACCCATTTCTGTTGGTGGTAATAAAATGGGAGAGGGAGGATTTGGAGTTGTATATAAAGGCTACGTAAATAACACAACTGTGGCAGTGAAGAAGCTTGCAGCAATGGTTGACATTACTACTGAAGAACTGAAACAGCAGTTTGATCAAGAAATAAAAGTAATGGCAAAGTGTCAACATGAAAACTTAGTAGAACTACTTGGTTTCTCAAGTGATGGAGATGACCTCTGCTTAGTATATGTTTACATGCCTAATGGTTCATTGCTAGACAGACTCTCTTGCTTGGATGGTACTCCACCACTTTCTTGGCACATGAGATGCAAGATTGCTCAGGGTGCAGCTAATGGCATCAATTTTCTACATGAAAATCATCATATTCATAGAGATATTAAAAGTGCAAATATCTTACTGGATGAAGCTTTTACTGCTAAAATATCTGACTTTGGCCTTGCACGGGCTTCTGAGAAGTTTGCCCAGACAGTCATGACTAGCAGAATTGTGGGAACAACAGCTTATATGGCACCAGAAGCTTTGCGTGGAGAAATAACACCCAAATCTGATATTTACAGCTTTGGTGTGGTTTTACTAGAAATAATAACTGGACTTCCAGCTGTGGATGAACACCGTGAACCTCAGTTATTGCTAGATATTAAAGAAGAAATTGAAGATGAAGAAAAGACAATTGAAGATTATATTGATAAAAAGATGAATGATGCTGATTCCACTTCAGTTGAAGCTATGTACTCTGTTGCTAGTCAATGTCTGCATGAAAAGAAAAATAAGAGACCAGACATTAAGAAGGTTCAACAGCTGCTGCAAGAGATGACAGCTTCTTAAAACTTTATTGGAAAAGACTCTTGACTTTTTATATACACCTATCTCAACCATTTTTTTAACTGATTTTTTTCCTAAATATTCTTCTTTACCTTTAACAAGGCATAGGCTGTTGCAGGACAGTGGTTATTAAAGCATGGGTTGAACTTCCAAAATATAAAAATAGAGCCACCATATCAACACTTAGCCCTACCCATTAGTATCACCCCCAGTTCTTACAGTAATCCCTGAGAAATCTCCTTCAAGCATCACCAAACACAGTTTGAAAATTACAGGGTTAGCAAAAAGAGCCTGGGCTGTATGTAGGGTGGAAACACTCTGATCTGAAGCCCAGCTGACTCCACTACTAATTTGCTGTAAAGCTTTGGACATACACTTAGCTGCTGTGAGCCACTAATAACATTGGGCTAATATCTGCTGTGCTTCTCTGACAGGTAGTCATGAAAATCAAATGATGCAAAATATATACAAGCACTTTGTAAATTGTAAAATGATACAAAATTTAAAGTTTATAGAGCCAGTTACAAAATCCTATTAGTCATATATTTATAGATTGTGTTCACAGCAATCATTTAACCACAAATAAAATATCCCTTGATGATACTGCCATAATGATATGTCCATTATTAGATTATGTTACATGACAAAGTTGAAGGAATTTGGCAGATGCAGTTAAGGTTCCTAAACAACTCACTTTGAGACTGTTGAAAGGGCCTGACCTAATCAAGTGAACCCTTGCAAGAAGAATTCTCCTTGTAAGCCTTGAAGAAGTATGTGAGAGGGCCACATTGGCTAAAACCTAAAGGTGGCCTCTAGGAGATGAGACCTACCTTCCAGTTGTCAGCAAGCAGGAAAAAAAAATTGGGACCTCAGTTGCAACCACAAGGAACTGAATTCTGCCAAAAATCTGAGTCAGCTTAGAAGAGTACTCCAAGCTTCAGATGATAACCACAGCCTGGGCTGACACCTGGATTTCAGCTTTGCATGATCCTCAGTATGAGAATCTATCTGTTCTGTGCTGGACTTCTAATATATAGAACTGTGAGATAATGGGTCACATTGGCTGGATGTGGTGGCTCATACCTGTAAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACCTGAGGTCAAGAGTTCAAGACCGGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGACGAGCGTGGTGGTGGACACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGACTAGCTGGAACCAGGGAGGTAGAGGTTGCAGTGAGCTGAGATCGTGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCCATCATAAATAAATAAATAAATAAATGGGTCACATTAAGCCTTTAAGTTTGTGGTAATTTATTATTCAGTAATAGAAAACAAATACAGATACTCTCCCATGATGTTTTTCCCATGATGATTTCCCATGATATTTACAGGTTTTGCCCACATTTGAGGGGTATGTGGAAATTATACAGAGCATGTACAGCGGGAGGCTTATAGTGTACGTACTGAAATGTGGGGTTGGAGCCCCAACACAGAGACCCCAGCAGGACACTGCCTAGTAGAGCTATGGGAAGGGTGCTGCCACCCTCCAGACTTGAGAATTGTAGAGCCACCAGCAGCTTGCACTCTGAGCTTGGAAAAGCCACAGGCACTCAACTTCAACCATGAGGGAAGCCACGCACCCTGCAAAGCCACAGGAGTGGAGCTGCCCACGGCCTCGAGGGCCCACCCCTTGCACCAGTGTGCCAGGATGTGGGACATGGAATCAAGGAATATGTTAGGGCTTTTTTTTTTTTTTTTTTGAGACGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAGCTCTGCCTCCCAGGTTCACGCCATTCCCCTGCCTCAGCCTCCCCAGTAGCTGGGACTACAGGTGCCCGCCACCATGCCCAGCTAATTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACTGTGTTAGCCAGGATGGTCTTGATCTCCTGACCTCGTGATCACCCGCCTCGGCCTCCCAAAGTGCCAGTATTTAAAGTTTAATGTCTTCCCAGCTGGGTTTCAGACTTGCCAGGATCCTGTTGCCCCTTTCTTTAGCCAATTTCTCCCTTTTGGGACAAGAATGTTTTACTTATTGCCTGTACCACCAACTGTATCTTGGAAATAAATAACTTATATTTTATTTCAGAGGCTCATAGGCGGCAGGAACTTACCTTGAGTCTCAAATGAGACTTAGGACTTTTGAGTGATGCTAGAATGAGTTAAGACTTTGGGAAGGGATGATTATATTTTGCAATGTGAGAAAGACATTAGATTTGGGGGGCTGGGGGTAGAATGACATTGTTTAGATGTTTGTCTCCTTCAAATTTCATGTTTAAATGTAATCCCCAGTGTTGGGGGTGGAGGTGGGGCCTGATGGGAAGTGTTTGGGTCATGGTGGATGATCCCTCATGAATGGCTTAGAGCCACTGGTGATGAGTGAGTTCTCACTCAGTTCGTGTGAGATCTGGTGGCTTAAAAGAGTCTGCTCCCCCTTTGCCTTCCATTGTGATTGTAACCTTCCTGGGGCCTTCATCAAAGGCCAGGCAAATATTGGTGCCGTGCTAGTATGGCCTGCAGAACCGTAAGCCAAAACAAACCTTTTTTCTTTATAAATTACCCAGCCTCAGTTATTCCTTTATAGTGATGCAAAACGGGCTAACTATATAAATTTGTAATTTTTAAGTTATAGATTGTTTTTATTAAACACTTATGAATACTGTT
>gi|1179685224|ref|NM_001350413.1| Homo sapiens regulating synaptic membrane exocytosis 1 (RIMS1), transcript variant 9, mRNA
CTCTCCCGCCGCGCCTCCGCCTGCCCGCCCCCGCCGGCCGAGGCTGGGCTGCGGGAGGCGGCCGGGCGGCCCCGAGCTTCGCTAGGGCGACCAAAACAAAGGCAGCATCCGGGGCTGGGTGGATGCAAACAACCATGAAAGACTGGGTTCTCGCTCTCCCCGGCTCTGCTGCTGCTGCTGCTGCCGCCGCCGCCGCTGCTCCTCCTCCTGCCGCCGCCGCTAGGGCTCCGCTGTGAGGGGGAAGCAGGGGCGCAGCTGCTGGGCGTGCATCCGAAAGGTGAGAGCCAGAGAGCGAGCAGAGGGGGCGGGCAGGCCACGAAAATGTCCTCGGCCGTGGGGCCCCGCGGTCCTCGCCCACCCACGGTGCCTCCCCCCATGCAAGAGCTGCCCGACCTGAGCCACCTGACCGAAGAGGAGAGGAACATTATCATGGCAGTGATGGACCGGCAGAAGGAAGAGGAGGAAAAAGAAGAAGCCATGCTCAAGTGTGTTGTCAGGGACATGGCGAAGCCTGCTGCCTGCAAAACACCAAGAAATGCTGAAAACCAGCCCCACCAACCTTCACCGAGATTGCATCAACAGTTTGAAAGCTATAAGGAACAAGTGAGAAAAATAGGGGAAGAAGCGCGGCGTTACCAGGGCGAGCACAAAGACGATGCTCCGACTTGTGGAATCTGTCATAAAACAAAGTTTGCTGATGGGTGCGGTCATCTCTGCTCCTATTGTCGCACTAAGTTCTGTGCGCGCTGCGGAGGCCGCGTGTCTCTACGGTCAAACAACGAGGACAAAGTGGTTAGAATCCATACTTTCTTTTCTATCATTTGTTATTGTATTGTTGTGAACTTTATTAAGTGAATGTTGCACCTAGTATTGTTAATAACTATATTTCACAAGAAATTATATACTAGGAAGAGCTCATTTCCAGCTCTCATGAAAAAAATAAACATTTAGGAGCATTACAGAGTTTGATATTAATAGATAAAGTCTGGATAGTTTGAGTTCATGATGACAGTGAAATTTTAATATAATTTATATCATTGCAAGCTCATTTATCTGCTTGACTCTGAGTTTTGATGATTATTCCAACTGCTTTCAGAAACAATAAATTCTAATGGGCTCTACCTTTTTCAGCATGCAAAGGCAGGTGATTTGAAACTTTATTGCAGAAGGAATGGAAAACACTTAGTAAAGGGAATGGATCAAATTCAAGTAAAGAGGCCAAAGTATAATTATTTTTCTATAGAACACAAGTAGCAGAGTTGTCATACTGAACCACATTTTGCCTTTTTCTTCTCTCCTATGAATATGAATAACTTGTTAGGAGAGTAAAAGGTCACTTTTAACTCTTATCAGCTGTAGAAACCACAGAGGCTCTTTGTGCCTGGGAAGATAGGCTCCAAGTAGAATGTTCAGTCAGCCTTTCCTTTGTATAAACACTATACACCTTCATTTGGTGTAAATTTTATACATACTATACACCTTCATTTGGTATGAATTACACCTTCATTTGGTGTAAACTTCCTCGCAGCTCATTAATCTACCAATATGAGAATGAGACAATGAGTATTTCAGGTTTAATATATCAACTGAGCTGCCTTTGTTCAAAAATTTTAAAGCTTATATGATACACTGCAGTGCATAATTAGCAAGTGTGACATTAAACTGAACATTAATCTGTGTTTCTAAATTTACGCTAGGATATGCTTATTGATTTTTTCTATGAAAAAGAAATAGAGTTGAAAAATTATATAGGATAATCTATTTTTGGTATTTATTTTTGTCTGTACCATTGACTGTATGTGGGATAATTTTAGGGGATATTATTATAATGCCAATTTCATCAATATTATTACTTTGGATGAGTTCACAGTTGAAACGTGGGTAAAGTTCCTTTAAAGAGTAAAAGTGTAAGTAAATAATGCTGGTGTTTAGGCAGATTTGGTGATAAAATTTAAACTGCTCTCCTGTAGGGCTGGCCAAACTCACTATCCCTTTGACAGCGTTACCCATAATGGTAGGTTATTTGTGCTTGTTATGATTATAGTGTAATGAGAATACAGGTGGGTTTTGTGGACTCAGACTAAAAATAGAGTGGAAAGACCTGTAAAATATAATCACTTTCAATTATTTTCTTCACTTTGGTTAGAATGTATATATCTATCACTTTATTTTTAAGTACTCTGTCATAATTTCTTTAAACACCATTTTAGCTTATTGAAGGAGTTCAATGAATGGCCTTTCTAGCCAAGGGAAACTGAAGCCACATTTTGTCTTAGCCATGTTAAAGAGAATAACTGACTATTAAATGAAATACTTTATTGCCAGTTCTTTCCCTATTCCTCTAATCTCTTTTATTTTTAGTAGAGAAATTATAATTTACATGTGTGTGGTGTTGGTATGGGTGGAAAGGGAAGAGAGATAAGGGTGAATAAAACTTTTCTAAAAGTAATCTTCATCTTGATCAATATAATAATAATACATTCTACTTGATCTGTTAAATTGGTGAAGAACTGTGATTAAAATAAAGGAGTATGTGATATGAAGTCCTAAGAATAGCTAATTTATAAATGTTTCCT
>gi|1178431656|ref|NM_001350332.1| Homo sapiens target of myb1 like 2 membrane trafficking protein (TOM1L2), transcript variant 9, mRNA
AGAGACGCGGCAAGGGGGCGGGGCCAAAGGCCCTAAGCTCGGCGTTCCAGAGAGTGGGGAGGGGGCAAGTGTCAGTCAGGACGGGAGTCCGGCGGGTTACAGCGGAGGCCTAGGTGGCAGACAGGGGGCCCGGGCCGCTGCGTGTTGTCCACCCAAGATGGAGTTCCTCCTGGGGAACCCGTTCAGCACACCAGTGGGGCAGTGCCTCGAAAAGGCAACAGATGGCTCCCTGCAAAGTGAGGATTGGACGTTGAATATGGAGATCTGTGACATCATCAATGAGACGGAGGAAGGGCCAAAGGATGCCATTCGAGCCCTGAAGAAGCGGCTCAACGGGAACCGGAACTACAGAGAGGTGATGCTGGCATTAACAGTGCTGGAGACATGTGTGAAGAACTGTGGCCACCGCTTCCACATCCTTGTGGCCAACCGAGATTTCATCGACAGTGTTCTGGTCAAAATTATATCTCCCAAGAACAACCCTCCCACCATTGTACAGGACAAAGTGCTTGCTCTGATCCAGGCATGGGCTGATGCCTTTCGAAGCAGTCCTGATCTCACCGGCGTTGTGCACATATATGAGGAGCTGAAGAGGAAAGGGGTTGAATTTCCCATGGCAGACTTGGACGCTCTGTCTCCCATACACACACCACAGCGGAGTGTCCCTGAAGTGGATCCAGCTGCGACCATGCCCAGGTCCCAATCACAGCAGAGGACAAGTGCTGGTTCCTATTCCTCGCCGCCTCCTGCTCCCTACTCCGCACCGCAGGCCCCAGCTCTGAGTGTGACTGGCCCCATCACAGCCAATTCAGAACAGATTGCCAGGCTGCGGAGTGAACTGGACGTCGTTCGAGGAAACACAAAAGTCATGTCTGAGATGTTAACAGAAATGGTCCCTGGACAGGAGGATTCATCTGATCTGGAGTTGCTGCAGGAGCTCAACAGGACCTGTCGGGCCATGCAGCAGCGCATCGTGGAGCTCATCTCCCGCGTGTCCAATGAGGAGGTCACCGAGGAGCTGCTGCATGTGAACGATGACCTCAACAACGTCTTCCTTCGATACGAGAGGTTCGAACGATACAGGTCTGGCCGATCCGTTCAAAATGCCAGTAATGGAGTACTGAATGAAGTAACCGAAGACAACTTAATAGACCTGGGGCCAGGGTCTCCAGCCGTGGTGAGCCCAATGGTGGGGAACACAGCGCCCCCATCTTCCCTCTCCTCCCAGCTTGCAGGCTTAGACTTGGGGACAGAGAGCGTCAGTGGCACCCTCAGTTCACTCCAGCAATGTAATCCCCGTGACGGCTTTGACATGTTTGCCCAGACGAGAGGAAACTCCTTGGCTGAGCAGCGCAAGACGGTAACCTATGAGGATCCTCAGGCTGTCGGAGGACTTGCTTCTGCACTAGACAATCGAAAACAGAGTTCAGAAGGGACTTTTCTGTCCTCGGCCCAGAAGAGAGGTAGAGGTGGGGAGTCTGACCTGGAGCCCATAGACAGCTGGCTTATAACCCAAGGAATGATCCCCGTTGCGCAGCCATCTGTCATGGACGACATTGAGGTGTGGCTCAGGACCGACCTGAAGGGTGATGATCTGGAGGAGGGTGTCACAAGTGAAGAGTTTGATAAATTCCTTGAAGAAAGAGCCAAAGCTGCTGAAATGGTTCCCGACCTCCCCTCGCCCCCCATGGAGGCTCCTGCCCCAGCCTCAAACCCTTCTGGCCGGAAGAAGCCAGAGCGGTCAGAGGATGCCCTCTTCGCCCTGTGAGCAGCTCTGTGGTTTGCCTCCCCAGATGGCGGGTCCCCGCTCGCACCCCGTGGACACCGGGCACTGGCCACTCCTACATCCCCAGCTCCACACGGCCTGCACACCTGTGTTTCCATGGAAATGCCACCGTGTCTGCTCCCAGGCCTCCCACTAGTCAGGACCAGCTTCAGCCACTTCTTTTCTCTGAGTGGTGGGACAACTGCAGCCAGAGACTCTCTCCCCTCCCACCATGGGCCCCTCTGCCCATGTTTCCTCCCAGGAAGAGCGGGCAGAGTGGCCCAGCCCCAGGCAGTGCTTCCTGAGCAGACCACCCGGACTGTCTTTCCTCCACCCGCCCATGGAGAAAGAGCACGCCCGGCCCCGCCCTGTGCTCACCTCTGCCTGGCTCAGCGACCTTCTCAGGCATTCTGCCCTCCTGGGCCCCTCTCTCCCTGAAGGGGCTTTGTGGCATCTCTGGAAGAGCAGGGTGTGCTGCACTCATGGGCCTGGTCTCACTCCTTGGACTTGTCACCTTGTGACATTTGGCTTATCAGCATTTGAGAAGGCTCTGCTGGGTCTCCATGGTGGGGGTCTCTCACCTTCTTGACCCTCTCTCCATCATTCAGCTGCCAGCCCAGGCTTCACACCCAAGCTGGCTCAGCAGCCGAGCCTGGCACCGAGGGTCCCTGCAGGCTCCCTGGGCAGGGAGAGGGCCAAGGACAATTGGGAGGGCAGCAGGCAGCCCGCAGATGGTGGCCATGTGGCACGCTGCTGAGACGACACTACCAATAAACCAAACTGCCACGCACACACTGCAGGCTCACACCCGCACACCTGGTCCTGGCTTGTGGAGGGACTTGCACTGGAGGTATTGCTCTGGCTTGCCTGGGGAAGTGTCACAGATGTGCACATGGGCCACACTCAGTGCTGTGGCCTGGCCTGCCGTAGCCTCACACATCTGCCTCAAGAGCCAGCAGCAAACAGCTTTGTGGCATCCTTGGAGGTTCCCAGTGACTGAGAGGCCTGGGCAGCACTAAGGCCCCTGCTCTGCTCCCTGGCATAGGCCTTGGCCTCCTTGCACAGACTCTCCTGACAGTCTGGCCTCCTCCCACCTCAGAGGTCCTCTGGCCACCAATTTATACTCTCTCCCCAAGCTGATCCTGAAGGCAGGCAGAGCAGCTAGGGGCTGGTAACATGTATTCCCATCCCGTGTCCTCACTGGTGTGTCTCCTGGCCATGGGCAAGGGACTCGGGTCATCCCAGGCCCTGGTCCAGCCAGACACCTGGCCCCACACCTCCCACCAGGCTGCTGTTGCTCAGAAGGAGAATACTGCAGCTGTATGCATCCCCGTGTGTCTTGGGCCCAGCTCGCTGGGTCAGTCTGCTCCTGTCCCCTCCAGCATGCACTGCCTAGGTCAGCACAGGTTCCTGATCCATGGTGTAGTTAGCCCTTCCCACCTGGCAGGACGGCCCAGACCACCAGCCAAGCAGGGAAAGGGGGCTGGGCTTGACGGGAGAAGAGACCAGCGACATGGTCGTTGGGGAGCATTCAGGATGGCGACTTCAGCTGGGGGTCATGCTGAGCACCAACAGGAACTATTCCAGTGAAGAGCAAGTGCTGCCCGACCCAGGACCCTGTGCCAGGCTAGCAGCCCTCCAGCTCCCTCCAGAGAGGAAACCTCTGTCTGGCTGAGGGTGGGACTAGCTGGGATGTCTCACTCCAGTTGCTCAGGTTCACCCAGGAAGCTCCTCCGTGGAGTGGCCAGCCTGATTCTAGCCCTGTCCTCTCTGGCAGCACATGCCACACCTGCCTGGGCCTTCTGCTCCCTGATGCTTGATGAGCCCCTGCCTCCTCAATGTTTCTCAAAGACAGACCCCCCTGAGGCCAGCTTGAATGTGAAGACTGCTGAAGTTAGCTGGCTTCACTTGAGCTGCAGAAAAGGTGGCTGGGATGGCCCAGGTGCACCCAGAGGCCCCAGCCCTTTGGCTGCCTTTGGGTTGTGACTTGGGTTGTCTCTGAGGCCCTGCCAGAGCTGGGCCTGCGGGTGGTGGGCGGTCCGACCTCGGGCAGTCAGTGCTCCGCAGCCTCAGCACTGCATCCCAGACCCAGTGTCCTCAGAGGGAAGAGCCAGCCTCCCTGCCTCATGGAACCAGGAGTCCCAAAAAGTCAGGAGCCTGGAGGCTCTGAAAGGAGCAGGGATTCCATAGTGCGTGAAGCTGAAATAGGCGCCCTCCTGGGGAGCCCCCAGCAAAACTGTTTTTCATACCCACTCCCAGAACTGCCCCGCTCCAGCTCCAGCGCCAGCGCCAGCTGGTTGCCAGGCATCATTGGAGAGGCCTGGCTGCCCCAGGGGCAGCAGGGAGTGGTGGACCTGTATGGGCTGGCAGGAGGCCATTGGCCATGCTGACAAGTGTCACCTGCCTTCCTAGCCTGGAGCCACCCCTCAGGTGGCCTGCTTGCACCTCCTATCCGGAGGTAGCCTGCCCCACCTGTAGGCAGAGGGGGCTCTTGCTTGAGGCCTGCACAGGAAGCAAGTATAGCCCCGGTGCCCCAGAGTGGGTTCCACTTAGCCCTGGCGAGATGGCCTGTCCTGAGATCTCTGCTCCCAGACCCCACCATCTGGGGAGCACAGTCCTTAGGCTGCCTGGTCCAGGAAGGGGGTGCGGCTCTGTCAGGAAACCTGGACTCTCAAGGCCCACCAGCCTCTCCGTGAGTGTTAGAAATCACAGATACAGTATATACTTAATTACACTAAATTATTGCTGGGATTCCTTATAAGCACTAATTATACCTGATTATAGGTTAAAATATTTATTTTGTCAAAATATTTTCTTGGGAATGTGTTTAACCCTTTCTGCGTTCATTGTTGCTGAGATGTGAAAACTAACCATTCCCTCCTGCCTACCTTTTTGGCCACTGGGCGGCAGAGAATGGCGCTATGTGCAGTTGGGCCCCTGGCACCATGGGCCTTTGGCCTGCCTGCTGCAGAGTAGCCCTGCCTGGGCAGTCTCCAGGCACTGAGCAGGCCATCTGTGGCCAGGCTGAGAGAATGACTGGCTCGCTTACCAGCGTGCATGGGACAAGGAGCTTTGGAGCCTCAAGGGGTTGTTGCTGGCCTGGGCTAGAGGGAAAGGTGACCATCCGTCTGTCCTCCTGTCTTTCTATTAGCGCCTCCATGTGAGTGATGGTGCCTTGGTTCACTAGCCTTCCCCCACCACCCCACCATGCCACCTGGTGGTCTTGGGGCCTGTGCTGTCACTCCAGCCCCTGGGGAGGAGAGGACCCAGCCCGGAGAGTTGGGGCAAGGGCTCCACATGGCCCAAGGGCAACAGATGCTCGCAGGGCAGCTGCTGCCGATGCTCACGCTCCTGCCCCCCTCCTTCCCGCTGCCACACCCCACCCTGGGCCCCCGCAGACACGCATCTCTAACTCAGTTGGGCCCAGCCTTCTGGATGGCTTGGGGTAGGCCATGGGCCCACCTGGGGCCAGGCCAGCCCCTGGGGCAGCTCTGGAAGAGCAGTGTGGAGGAGCACTTGCTTGCAGCCTGGCTTCAGCCTCTGGCACTGCTGGAGTGGTCCCTGGGAGCTTCTGCACTGTCGGCTTTGGGGACGTCTCACCCACTTGGGTTACAGTAGGCCTTCCCCACCCAGAGAGAAGTGTTTCCACCCCAGAGACATTGTCTGTCAGCCCCTGAAGTGCTCGCCTCCCCCAGTGCCCGTCACCAGCCCTTCCTATCTGTGGGGTCCAAGTCAGGCTTCCCCTGCGGCCACCAGCCATAGGGAGCAGCCATCAGCCCCCGAGTCAGAACTGCTTCTGTCTGTCCATACCTCCAGGCTCTCCCGGAGAGGGGGACGGATATTTATTTCCTAAAGTTTGCACTTAATTGTGAGGATTCTCAGGATTGTTGGGGGCTACTGAAAAGAGGAATGTGTTGAATGTCGCGTTTGCTGTCCACTCGTCCTAGAAGTTTAGTGTTTTTGTCACTGTCATGTGTTTCTGTGGGCAGAGCTGGTTCTGGAGGGTGGGTCAGTGCACCCGAGGCTCAGAGCATCCATCCACCCCACTGGCCCTCCTTCCAGATACCCTCTCTCTAATTGGGTTCTTGCATGTAAAATACTCCACAATAAATAAATAATTGAACAAATTAAAAAAAAAAAAAAAAAA
>gi|1174097906|ref|NM_001350077.1| Homo sapiens polybromo 1 (PBRM1), transcript variant 8, mRNA
GCACCTGCCGGCAGGGACAAAGGCGCACTACGGGTCGGAAACTCCCCGCGCTCCTCTTTCCCGCTCGTCGCGGGGCAGCTTCAAAGCTGTCAACGTTTCCCTCAGTCCCCAATACCAGTGACAGGTCGCCCATATTTGATTTTGAGCTCCAAAATGGAAGATTGGAAAATATGTTTTGAAGAGCTTGCCAACACTTGGTGTCACATGTGAGCCTCCCACATGTATTCACTCTCCATTCCAGCTCTGTGATTGAACTCTGCTCTTATTGACTAGGGGGCAGTTGGGCAGGCATGCCTCATTCCTGGAATTGACAGTCATTCCTAATTTTTGAATATACTAACACTGAATCAGCACTTCTAAAGCCCTTCCTTCTCCCACTGGCTTCACTTGGCTTTCAGACATAATGAGGAGACTGGCTTTTCGAGGCGCTGGTTGTGCTCTGAAGAAGTTGGATTCCATGGGTTCCAAGAGAAGAAGAGCTACCTCCCCTTCCAGCAGTGTCAGCGGGGACTTTGATGATGGGCACCATTCTGTGTCAACACCAGGCCCAAGCAGGAAAAGGAGGAGACTTTCCAATCTTCCAACTGTAGATCCTATTGCCGTGTGCCATGAACTCTATAATACCATCCGAGACTATAAGGATGAACAGGGCAGACTTCTCTGTGAGCTCTTCATTAGGGCACCAAAGCGAAGAAATCAACCAGACTATTATGAAGTGGTTTCTCAGCCCATTGACTTGATGAAAATCCAACAGAAACTAAAAATGGAAGAGTATGATGATGTTAATTTGCTGACTGCTGACTTCCAGCTTCTTTTTAACAATGCAAAGTCCTATTATAAGCCAGATTCTCCTGAATATAAAGCCGCTTGCAAACTCTGGGATTTGTACCTTCGAACAAGAAATGAGTTTGTTCAGAAAGGAGAAGCAGATGACGAAGATGATGATGAAGATGGGCAAGACAATCAGGGCACAGTGACTGAAGGATCTTCTCCAGCTTACTTGAAGGAGATCCTGGAGCAGCTTCTTGAAGCCATAGTTGTAGCTACAAATCCATCAGGACGTCTCATTAGCGAACTTTTTCAGAAACTGCCTTCTAAAGTGCAATATCCAGATTATTATGCAATAATTAAGGAGCCTATAGATCTCAAGACCATTGCCCAGAGGATACAGAATGGAAGCTACAAAAGTATTCATGCAATGGCCAAAGATATAGATCTCCTCGCAAAAAATGCCAAAACTTATAATGAGCCTGGCTCTCAAGTATTCAAGGATGCAAATTCAATTAAAAAAATATTTTATATGAAAAAGGCTGAAATTGAACATCATGAAATGGCTAAGTCAAGTCTTCGAATGAGGACTCCATCCAACTTGGCTGCAGCCAGACTGACAGGTCCTTCACACAGTAAAGGCAGCCTTGGTGAAGAGAGAAATCCCACTAGCAAGTATTACCGTAATAAAAGAGCAGTACAAGGAGGTCGTTTATCAGCAATTACAATGGCACTTCAATATGGCTCAGAAAGTGAAGAAGATGCTGCTTTAGCTGCTGCACGCTATGAAGAGGGAGAGTCAGAAGCAGAAAGCATCACTTCCTTTATGGATGTTTCAAATCCTTTTTATCAGCTTTATGACACAGTTAGGAGTTGTCGGAATAACCAAGGGCAGCTAATAGCTGAACCTTTTTACCATTTGCCTTCAAAGAAAAAATACCCTGATTATTACCAGCAAATTAAAATGCCCATATCACTACAACAGATCCGAACAAAACTGAAGAATCAAGAATATGAAACTTTAGATCATTTGGAGTGTGATCTGAATTTAATGTTTGAAAATGCCAAACGCTATAATGTGCCCAATTCAGCCATCTACAAGCGAGTTCTAAAATTGCAGCAAGTTATGCAGGCAAAGAAGAAAGAGCTTGCCAGGAGAGACGATATCGAGGACGGAGACAGCATGATCTCTTCAGCCACCTCTGATACTGGTAGTGCCAAAAGAAAAAGGAACACTCATGACAGTGAGATGTTGGGTCTCAGGAGGCTATCCAGTAAAAAGAACATAAGAAAGCAGCGAATGAAAATCTTATTCAATGTTGTTCTTGAAGCTCGAGAGCCAGGTTCAGGCAGAAGACTTTGTGACCTATTTATGGTTAAACCATCCAAAAAGGACTATCCTGATTATTATAAAATCATCTTGGAGCCAATGGACTTGAAAATAATTGAGCATAACATCCGCAATGACAAATATGCTGGTGAAGAGGGAATGATAGAAGACATGAAGCTGATGTTCCGGAATGCCAGGCACTATAATGAGGAGGGCTCCCAGGTTTATAATGATGCACATATCCTGGAGAAGTTACTCAAGGAGAAAAGGAAAGAGCTGGGCCCACTGCCTGATGATGATGACATGGCTTCTCCCAAACTCAAGCTGAGTAGGAAGAGTGGCATTTCTCCTAAAAAATCAAAATACATGACTCCAATGCAGCAGAAACTAAATGAGGTCTATGAAGCTGTAAAGAACTATACTGATAAGAGGGGTCGCCGCCTCAGTGCCATATTTCTGAGGCTTCCCTCTAGATCTGAGTTGCCTGACTACTATCTGACTATTAAAAAGCCCATGGACATGGAAAAAATTCGAAGTCACATGATGGCCAACAAGTACCAAGATATTGACTCTATGGTTGAGGACTTTGTCATGATGTTTAATAATGCCTGTACATACAATGAGCCGGAGTCTTTGATCTACAAAGATGCTCTTGTTCTACACAAAGTCCTGCTTGAAACACGCAGAGACCTGGAGGGAGATGAGGACTCTCATGTCCCAAATGTGACTTTGCTGATTCAAGAGCTTATCCACAATCTTTTTGTGTCAGTCATGAGTCATCAGGATGATGAGGGAAGATGCTACAGCGATTCTTTAGCAGAAATTCCTGCTGTGGATCCCAACTTTCCTAACAAACCACCCCTTACATTTGACATAATTAGGAAGAATGTTGAAAATAATCGCTACCGTCGGCTTGATTTATTTCAAGAGCATATGTTTGAAGTATTGGAACGAGCAAGAAGGATGAATCGGACAGATTCAGAAATATATGAAGATGCAGTAGAACTTCAGCAGTTTTTTATTAAAATTCGTGATGAACTCTGCAAAAATGGAGAGATTCTTCTTTCACCGGCACTCAGCTATACCACAAAACATTTGCATAATGATGTGGAGAAAGAGAGAAAGGAAAAATTGCCAAAAGAAATAGAGGAAGATAAACTAAAACGAGAAGAAGAAAAAAGAGAAGCTGAAAAGAGTGAAGATTCCTCTGGTGCTGCAGGCCTCTCAGGCTTACATCGCACATACAGCCAGGACTGTAGCTTTAAAAACAGCATGTACCATGTTGGAGATTACGTCTATGTGGAACCTGCAGAGGCCAACCTACAACCACATATCGTCTGTATTGAAAGACTGTGGGAGGATTCAGCTGGTGAAAAATGGTTGTATGGCTGTTGGTTTTACCGACCAAATGAAACATTCCACCTGGCTACACGAAAATTTCTAGAAAAAGAAGTTTTTAAGAGTGACTATTACAACAAAGTTCCAGTTAGTAAAATTCTAGGCAAGTGTGTGGTCATGTTTGTCAAGGAATACTTTAAGTTATGCCCAGAAAACTTCCGAGATGAGGATGTTTTTGTCTGTGAATCACGGTATTCTGCCAAAACCAAATCTTTTAAGAAAATTAAACTGTGGACCATGCCCATCAGCTCAGTCAGGTTTGTCCCTCGGGATGTGCCTCTGCCTGTGGTTCGCGTGGCCTCTGTATTTGCAAATGCAGATAAAGGTGATGATGAGAAGAATACAGACAACTCAGAGGACAGTCGAGCTGAAGACAATTTTAACTTGGAAAAGGAAAAAGAAGATGTCCCTGTGGAAATGTCCAATGGTGAACCAGGTTGCCACTACTTTGAGCAGCTCCATTACAATGACATGTGGCTGAAGGTTGGCGACTGTGTCTTCATCAAGTCCCATGGCCTGGTGCGTCCTCGTGTGGGCAGAATTGAAAAAGTATGGGTTCGAGATGGAGCTGCATATTTTTATGGCCCCATCTTCATTCACCCAGAAGAAACAGAGCATGAGCCCACAAAAATGTTCTACAAAAAAGAAGTATTTCTGAGTAATCTGGAAGAAACCTGCCCCATGACATGTATTCTCGGAAAGTGTGCTGTGTTGTCATTCAAGGACTTCCTCTCCTGCAGGCCAACTGAAATACCAGAAAATGACATTCTGCTTTGTGAGAGCCGCTACAATGAGAGCGACAAGCAGATGAAGAAATTCAAAGGATTGAAGAGGTTTTCACTCTCTGCTAAAGTGGTAGATGATGAAATTTACTACTTCAGAAAACCAATTGTTCCTCAGAAGGAGCCATCACCTTTGCTGGAAAAGAAGATCCAGTTGCTAGAAGCTAAATTTGCCGAGTTAGAAGGTGGAGATGATGATATTGAAGAGATGGGAGAAGAAGATAGTGAGGTCATTGAACCTCCTTCTCTACCTCAGCTTCAGACCCCCCTGGCCAGTGAGCTGGACCTCATGCCCTACACACCCCCACAGTCTACCCCAAAGTCTGCCAAAGGCAGTGCAAAGAAGGAAGGCTCCAAACGGAAAATCAACATGAGTGGCTACATCCTGTTCAGCAGTGAGATGAGGGCTGTGATTAAGGCCCAACACCCAGACTACTCTTTCGGGGAGCTCAGCCGCCTGGTGGGGACAGAATGGAGAAATCTTGAGACAGCCAAGAAAGCAGAATATGAAGGTGTGATGAACCAAGGAGTGGCCCCTATGGTAGGGACTCCAGCACCAGGTGGAAGTCCATATGGACAACAGGTGGGAGTTTTGGGGCCTCCAGGGCAGCAGGCACCACCTCCATATCCCGGCCCACATCCAGCTGGACCCCCTGTCATACAGCAGCCAACAACACCCATGTTTGTAGCTCCCCCACCAAAGACCCAGCGGCTTCTTCACTCAGAGGCCTACCTGAAATACATTGAAGGACTCAGTGCGGAGTCCAACAGCATTAGCAAGTGGGATCAGACACTGGCAGCTCGAAGACGCGACGTCCATTTGTCGAAAGAACAGGAGAGCCGCCTACCCTCTCACTGGCTGAAAAGCAAAGGGGCCCACACCACCATGGCAGATGCCCTCTGGCGCCTTCGAGATTTGATGCTCCGGGACACCCTCAACATTCGCCAAGCATACAACCTAGAAAATGTTTAATCACATCATTACGTTTCTTTTATATAGAAGCATAAAGAGTTGTGGATCAGTAGCCATTTTAGTTACTGGGGGTGGGGGGAAGGAACAAAGGAGGATAATTTTTATTGCATTTTACTGTACATCACAAGGCCATTTTTATATACGGACACTTTTAATAAGCTATTTCAATTTGTTTGTTATATTAAGTTGACTTTATCAAATACACAAAGATTTTTTTGCATATGTTTCCTTCGTTTAAAACCAGTTTCATAATTGGTTGTATATGTAGACTTGGAGTTTTATCTTTTTACTTGTTGCCATGGAACTGAAACCATTAGAGGTTTTTGTCTTGGCTTGGGGTTTTTGTTTTCTTGGTTTTGGGTTTTTTTATATATATATATAAAAGAACAAAATGAAAAAAAACACACACACACAAGAGTTTACAGATTAGTTTAAATTGATAATGAAATGTGAAGTTTGTCCTAGTTTACATCTTAGAGAGGGGAGTATACTTGTGTTTGTTTCATGTGCCTGAATATCTTAAGCCACTTTCTGCAAAAGCTGTTTCTTACAGATGAAGTGCTTTCTTTGAAAGGTGGTTATTTAGGTTTTAGATGTTTAATAGACACAGCACATTTGCTCTATTAACTCAGAGGCTCACTACAGAAATATGTAATCAGTGCTGTGCATCTGTCTGCAGCTAATGTACCTCCTGGACACCAGGAGGGGAAAAAGCACTTTTTCAATTGTGCTGAGTTAGACATCTGTGAGTTAGACTATGGTGTCAGTGATTTTTGCAGAACACGTGCACAACCCTGAGGTATGTTTAATCTAGGCAGGTACGTTTAAGGATATTTTGATCTATTTATAATGAATTCACAATTTATGCCTATAAATTTCAGATGATTTAAAATTTTAAACCTGTTACATTGAAAAACATTGAAGTTCGTCTTGAAGAAAGCATTAAGGTATGCATGGAGGTGATTTATTTTTAAACATAACACCTAACCTAACATGGGTAAGAGAGTATGGAACTAGATATGAGCTGTATAAGAAGCATAATTGTGAACAAGTAGATTGATTGCCTTCATATACAAGTATGTTTTAGTATTCCTTATTTCCTTATTATCAGATGTATTTTTTCTTTTAAGTTTCAATGTTGTTATAATTCTCAACCAGAAATTTAATACTTTCTAAAATATTTTTTAAATTTAGCTTGTGCTTTTGAATTACAGGAGAAGGGAATCATAATTTAATAAAACGCTTACTAGAAAGACCATTACAGATCCCAAACACTTGGGTTTGGTGACCCTGTCTTTCTTATATGACCCTACAATAAACATTTGAAGGCAGCATAGGATGGCAGACAGTAGGAACATTGTTTCACTTGGCGGCATGTTTTTGAAACCTGCTTTATAGTAACTGGGTGATTGCCATTGTGGTAGAGCTTCCACTGCTGTTTATAATCTGAGAGAGTTAATCTCAGAGGATGCTTTTTTCCTTTTAATCTGCTATGAATCAGTACCCAGATGTTTAATTACTGTACTTATTAAATCATGAGGGCAAAAGAGTGTAGAATGGAAAAAAGTCTCTTGTATCTAGATACTTTAAATATGGGAGGCCCTTTAACTTAATTGCCTTTAGTCAACCACTGGATTTGAATTTGCATCAAGTATTTTAAATAATATTGAATTTAAAAAAATGTATTGCAGTAGTGTGTCAGTACCTTATTGTTAAAGTGAGTCAGATAAATCTTCAATTCCTGGCTATTTGGGCAATTGAATCATCATGGACTGTATAATGCAATCAGATTATTTTGTTTCTAGACATCCTTGAATTACACCAAAGAACATGAAATTTAGTTGTGGTTAAATTATTTATTTATTTCATGCATTCATTTTATTTCCCTTAAGGTCTGGATGAGACTTCTTTGGGGAGCCTCTAAAAAAATTTTTCACTGGGGGCCACGTGGGTCATTAGAAGCCAGAGCTCTCCTCCAGGCTCCTTCCCAGTGCCTAGAGGTGCTATAGGAAACATAGATCCAGCCAGGGGCTTCCCTAAAGCAGTGCAGCACCGGCCCAGGGCATCACTAGACAGGCCCTAATTAAGTTTTTTTTAAAAAGCCTGTGTATTTATTTTAGAATCATGTTTTTCTGTATATTAACTTGGGGGATATCGTTAATATTTAGGATATAAGATTTGAGGTCAGCCATCTTCAAAAAAGAAAAAAAAATTGACTCAAGAAAGTACAAGTAAACTATACACCTTTTTTTCATAAGTTTTAGGAACTGTAGTAATGTGGCTTAGAAAGTATAATGGCCTAAATGTTTTCAAAATGTAAGTTCCTGTGGAGAAGAATTGTTTATATTGCAAACGGGGGGACTGAGGGGAACCTGTAGGTTTAAAACAGTATGTTTGTCAGCCAACTGATTTAAAAGGCCTTTAACTGTTTTGGTTGTTGTTTTTTTTTTAAGCCACTCTCCCCTTCCTATGAGGAAGAATTGAGAGGGGCACCTATTTCTGTAAAATCCCCAAATTGGTGTTGATGATTTTGAGCTTGAATGTTTTCATACCTGATTAAAACTTGGTTTATTCTAATTTCTGTATCATATCATCTGAGGTTTACGTGGTAACTAGTCTTATAACATGTATGTATCTTTTTTTTGTTGTTCATCTAAAGCTTTTTAATCCAAATAAATACAGAGTTTGCAAAGTGATTTGGATTAACCAGGAAAAAAAAAAAAAAAAAA
>gi|1169100662|ref|NM_001349822.1| Homo sapiens major facilitator superfamily domain containing 2A (MFSD2A), transcript variant 7, mRNA
AGAACTATAAGAGGCGCGGAGGGGGCGTGCAGCAGAGTGCGTTCCTCGTCTGCCAGCCGGCTTGGCTAGCGCGCGGCGGCCGTGGCTAAGGCTGCTACGAAGCGAGCTTGGGAGGAGCAGCGGCCTGCGGGGCAGAGGAGCATCCCGTCTACCAGGTCCCAAGCGGCGTGGCCCGCGGGTCATGGCCAAAGGAGAAGGCGCCGAGAGCGGCTCCGCGGCGGGGCTGCTACCCACCAGCATCCTCCAAAGCACTGAACGCCCGGCCCAGGTGAAGAAAGAACCGAAAAAGAAGAAACAACAGTTGTCTGTTTGCAACAAGCTTTGCTATGCACTTGGGGGAGCCCCCTACCAGGTGACGGGCTGTGCCCTGGGTTTCTTCCTTCAGATCTACCTATTGGATGTGGCTCAGGTGGGCCCTTTCTCTGCCTCCATCATCCTGTTTGTGGGCCGAGCCTGGGATGCCATCACAGACCCCCTGGTGGGCCTCTGCATCAGCAAATCCCCCTGGACCTGCCTGGGTCGCCTTATGCCCTGGATCATCTTCTCCACGCCCCTGGCCGTCATTGCCTACTTCCTCATCTGGTTCGTGCCCGACTTCCCACACGGCCAGACCTATTGGTACCTGCTTTTCTATTGCCTCTTTGAAACAATGGTCACGTGTTTCCATGTTCCCTACTCGGCTCTCACCATGTTCATCAGCACCGAGCAGACTGAGCGGGATTCTGCCACCGCCTATCGGATGACTGTGGAAGTGCTGGGCACAGTGCTGGGCACGGCGATCCAGGGACAAATCGTGGGCCAAGCAGACACGCCTTGTTTCCAGGACCTCAATAGCTCTACAGTAGCTTCACAAAGTGCCAACCATACACATGGCACCACCTCACACAGGGAAACGCAAAAGGCATACCTGCTGGCAGCGGGGGTCATTGTCTGTATCTATATAATCTGTGCTGTCATCCTGATCCTGGGCGTGCGGGAGCAGAGAGAACCCTATGAAGCCCAGCAGTCTGAGCCAATCGCCTACTTCCGGGGCCTACGGCTGGTCATGAGCCACGGCCCATACATCAAACTTATTACTGGCTTCCTCTTCACCTCCTTGGCTTTCATGCTGGTGGAGGGGAACTTTGTCTTGTTTTGCACCTACACCTTGGGCTTCCGCAATGAATTCCAGAATCTACTCCTGGCCATCATGTCAGCAGTGCCATTTCTCATCTTGGTGGCCCTCATGGAGAGTAACCTCATCATTACATATGCGGTAGCTGTGGCAGCTGGCATCAGTGTGGCAGCTGCCTTCTTACTACCCTGGTCCATGCTGCCTGATGTCATTGACGACTTCCATCTGAAGCAGCCCCACTTCCATGGAACCGAGCCCATCTTCTTCTCCTTCTATGTCTTCTTCACCAAGTTTGCCTCTGGAGTGTCACTGGGCATTTCTACCCTCAGTCTGGACTTTGCAGGGTACCAGACCCGTGGCTGCTCGCAGCCGGAACGTGTCAAGTTTACACTGAACATGCTCGTGACCATGGCTCCCATAGTTCTCATCCTGCTGGGCCTGCTGCTCTTCAAAATGTACCCCATTGATGAGGAGAGGCGGCGGCAGAATAAGAAGGCCCTGCAGGCACTGAGGGACGAGGCCAGCAGCTCTGGCTGCTCAGAAACAGACTCCACAGAGCTGGCTAGCATCCTCTAGGGCCCGCCACGTTGCCCGAAGCCACCATGCAGAAGGCCACAGAAGGGATCAGGACCTGTCTGCCGGCTTGCTGAGCAGCTGGACTGCAGGTGCTAGGAAGGGAACTGAAGACTCAAGGAGGTGGCCCAGGACACTTGCTGTGCTCACTGTGGGGCCGGCTGCTCTGTGGCCTCCTGCCTCCCCTCTGCCTGCCTGTGGGGCCAAGCCCTGGGGCTGCCACTGTGAATATGCCAAGGACTGATCGGGCCTAGCCCGGAACACTAATGTAGAAACCTTTTTTTTTACAGAGCCTAATTAATAACTTAATGACTGTGTACATAGCAATGTGTGTGTATGTATATGTCTGTGAGCTATTAATGTTATTAATTTTCATAAAAGCTGGAAAGCAGCTGCCTGTTTC
>gi|1134612241|ref|NM_012154.4| Homo sapiens argonaute 2, RISC catalytic component (AGO2), transcript variant 1, mRNA
CGGCCGCCCCTCGGCCCCGGAGCCCCTCGGCGGCGCCACCATGTACTCGGGAGCCGGCCCCGCACTTGCACCTCCTGCGCCGCCGCCCCCCATCCAAGGATATGCCTTCAAGCCTCCACCTAGACCCGACTTTGGGACCTCCGGGAGAACAATCAAATTACAGGCCAATTTCTTCGAAATGGACATCCCCAAAATTGACATCTATCATTATGAATTGGATATCAAGCCAGAGAAGTGCCCGAGGAGAGTTAACAGGGAAATCGTGGAACACATGGTCCAGCACTTTAAAACACAGATCTTTGGGGATCGGAAGCCCGTGTTTGACGGCAGGAAGAATCTATACACAGCCATGCCCCTTCCGATTGGGAGGGACAAGGTGGAGCTGGAGGTCACGCTGCCAGGAGAAGGCAAGGATCGCATCTTCAAGGTGTCCATCAAGTGGGTGTCCTGCGTGAGCTTGCAGGCGTTACACGATGCACTTTCAGGGCGGCTGCCCAGCGTCCCTTTTGAGACGATCCAGGCCCTGGACGTGGTCATGAGGCACTTGCCATCCATGAGGTACACCCCCGTGGGCCGCTCCTTCTTCACCGCGTCCGAAGGCTGCTCTAACCCTCTTGGCGGGGGCCGAGAAGTGTGGTTTGGCTTCCATCAGTCCGTCCGGCCTTCTCTCTGGAAAATGATGCTGAATATTGATGTGTCAGCAACAGCGTTTTACAAGGCACAGCCAGTAATCGAGTTTGTTTGTGAAGTTTTGGATTTTAAAAGTATTGAAGAACAACAAAAACCTCTGACAGATTCCCAAAGGGTAAAGTTTACCAAAGAAATTAAAGGTCTAAAGGTGGAGATAACGCACTGTGGGCAGATGAAGAGGAAGTACCGCGTCTGCAATGTGACCCGGCGGCCCGCCAGTCACCAAACATTCCCGCTGCAGCAGGAGAGCGGGCAGACGGTGGAGTGCACGGTGGCCCAGTATTTCAAGGACAGGCACAAGTTGGTTCTGCGCTACCCCCACCTCCCATGTTTACAAGTCGGACAGGAGCAGAAACACACCTACCTTCCCCTGGAGGTCTGTAACATTGTGGCAGGACAAAGATGTATTAAAAAATTAACGGACAATCAGACCTCAACCATGATCAGAGCGACTGCTAGGTCGGCGCCCGATCGGCAAGAAGAGATTAGCAAATTGATGCGAAGTGCAAGTTTCAACACAGATCCATACGTCCGTGAATTTGGAATCATGGTCAAAGATGAGATGACAGACGTGACTGGGCGGGTGCTGCAGCCGCCCTCCATCCTCTACGGGGGCAGGAATAAAGCTATTGCGACCCCTGTCCAGGGCGTCTGGGACATGCGGAACAAGCAGTTCCACACGGGCATCGAGATCAAGGTGTGGGCCATTGCGTGCTTCGCCCCCCAGCGCCAGTGCACGGAAGTCCATCTGAAGTCCTTCACAGAGCAGCTCAGAAAGATCTCGAGAGACGCCGGCATGCCCATCCAGGGCCAGCCGTGCTTCTGCAAATACGCGCAGGGGGCGGACAGCGTGGAGCCCATGTTCCGGCACCTGAAGAACACGTATGCGGGCCTGCAGCTGGTGGTGGTCATCCTGCCCGGCAAGACGCCCGTGTACGCCGAGGTCAAGCGCGTGGGAGACACGGTGCTGGGGATGGCCACGCAGTGCGTGCAGATGAAGAACGTGCAGAGGACCACGCCACAGACCCTGTCCAACCTCTGCCTGAAGATCAACGTCAAGCTGGGAGGCGTGAACAACATCCTGCTGCCCCAGGGCAGGCCGCCGGTGTTCCAGCAGCCCGTCATCTTTCTGGGAGCAGACGTCACTCACCCCCCCGCCGGGGATGGGAAGAAGCCCTCCATTGCCGCCGTGGTGGGCAGCATGGACGCCCACCCCAATCGCTACTGCGCCACCGTGCGCGTGCAGCAGCACCGGCAGGAGATCATACAAGACCTGGCCGCCATGGTCCGCGAGCTCCTCATCCAGTTCTACAAGTCCACGCGCTTCAAGCCCACCCGCATCATCTTCTACCGCGACGGTGTCTCTGAAGGCCAGTTCCAGCAGGTTCTCCACCACGAGTTGCTGGCCATCCGTGAGGCCTGTATCAAGCTAGAAAAAGACTACCAGCCCGGGATCACCTTCATCGTGGTGCAGAAGAGGCACCACACCCGGCTCTTCTGCACTGACAAGAACGAGCGGGTTGGGAAAAGTGGAAACATTCCAGCAGGCACGACTGTGGACACGAAAATCACCCACCCCACCGAGTTCGACTTCTACCTGTGTAGTCACGCTGGCATCCAGGGGACAAGCAGGCCTTCGCACTATCACGTCCTCTGGGACGACAATCGTTTCTCCTCTGATGAGCTGCAGATCCTAACCTACCAGCTGTGTCACACCTACGTGCGCTGCACACGCTCCGTGTCCATCCCAGCGCCAGCATACTACGCTCACCTGGTGGCCTTCCGGGCCAGGTACCACCTGGTGGATAAGGAACATGACAGTGCTGAAGGAAGCCATACCTCTGGGCAGAGTAACGGGCGAGACCACCAAGCACTGGCCAAGGCGGTCCAGGTTCACCAAGACACTCTGCGCACCATGTACTTTGCTTGACATGTTTTAGTGTTTAGCGATTGTGTACCGAGTGGGATTCACGAGACCAGCTACACTCAGACCAACAGATGGCCAGCCCTTCCGTGACAGCCAGCATCGAACATGAGACGTCATTGATTTTATTAGATTCTCCGTTTTCCAGAATGCCTTCCGTCCCAGATTTCAAACTTGGATTTTGAACTGCAGACCTGTATGAGAACCCAATGTCATAGGAAATATGGTTTGCTAAAATCTATAAGCTGCTTATTAAAACAGAGTCCCGTGTGTCCTAAAAATCTCCTAAAACCAGTCTATGAACTCAGGGCTTTAAAACATTTTTAATTTATTTGGTCATTCAATTTACTTGTTTTTAATACATGATTCTCTATGAAATTGATGGGCTCAAACTAGCTGTGAATCTTCTGAGAGTGAAAGCAACACAAAACACAAGTGTGGTTTTAAAGCCTTGAACATTCTGATGTTGTCACTAAAGTTGATTTCCAGGCGATGCTCGTGTGCCCCTGGCGTGGCTCACCCAAGTTCCTCGACTGAGGGCCGGTGGCCATGCAGAGGCGTCCGCAGGTGCCGTGTTCTGCCAGCACCGCCCTTCACCCGGCCTGAACTAAGGAGCAGTGGCAGAAGGTGGGCCCCGTGTGTTTACAGCATTTCCAGGTCCAGAGAGGTTGGCAGACAAGTGCCATTTTAATAAAAAATGTATTTAAAAAAAGAAAAAAGACAATATACTGACAGTCTAATCATCAGATTTGTCCTATAGGACTGTGACATTTATTTTCCAAAGTTTTTAAAGAATACGGGTCTGTGGTGATAAATACAGTACAATCCTTTTTCACTGTTATGTCTTTAATGTAAGAGAAGAATATATATATCTGGTTTGCAGTATTAATGTGATAGATAGATGCTGTTTTTTCATTTTATTGACTATGGGGTGCTTCTGTGATCTGTTTGGCATATCAAGAGTGTTTTGGAGCCTGGAGATGGGACCGCCTCTCAGTTCTTAGTGCTTAAGGACAGGAATATGCAATTGACTTAATGTGACAGCAACCCGCTTCCCCCGTGGAGACTGTGCAGCGTGTACCCATGGGAGGGACGGATGTGCCCTCCGCGCCGCTCGCCACCCTCCCTGCCGCCTCATCCCCGTGTGTCACTCACTCAGCTGATGAAGCACAAGTGGAAATTATTTATTCTTGCATTGCTGGGAAACATTGATGTGTGGGGACTCACTCCTCTCCGTGTGCTCTTTTGTCAGATGACTTCCATAGATCTATGCACTGAGATTCGTAGAAAGCTGTTGGTGGTGGCTCTGCTGGGCGTGAGGCCGTCGGTCACAGCGAAGGAGCTTGCCTGGCCCTGGGAGGCCCAAGGATAGCAGGGCCAGCAGAGGGCATGGGCCGTTCTTCTGGGGTTTGCATTTGGGGCCCCAGACTTGGGTTTGCCAATCTAGAAACTGTTGCACTAAGAGTGACACCACGGACGATTTTGAAGGCTAACAACAGACAACTCTGTTTGTGCTGAGTGGGCTTTTTGTCTCTGTACACAGTTTTAGTAAGACTCAAATCCATGTTCCGTGTAGAGGCGTCAGGAAGGAGGCGAGCCTCCCCTAGTGCTGCTGTGCGCTCCGTAGGTCCCCTCTTCCTGCTGCTGTTCCCTCCCCGGCCCTGCGCGACACTTACCTCGGCACTGTGGTGGGGTGGGGTGCCAAAGGAGCTGCCTCCTGCTCAGCGGCACCCCCCCCCCCACCTTTGTGCTCAGCTGCTTTGGAGGCAGCAGGAGGGGCAGCAAGCCGCAGGTCGGGGGTCTCCCGATACCTCGCCTGGATATTGGCGGCAATGACAAAGGGATGACTATTATTTGTGAAGATGTGTACTCAGAGTGGTGTGTGTGTGTGTGCATGCGTGTGTCCCTGTGTGTGAGTGTCTTATTAATGGCATTAGTCTCTTCTGGCTGTATTTTTTTTTAATCTTTTTAAATGACAGAAGCTCCCACTCTAAGAAATGGCAGTTCCTTTTGTTTTAGTGGCAAGTGGCACTTTCTCCTGTTTTCAGAAGGATACAGACATGCTCGTAGCTTAAATTAATGGATGCATTCAAGCTAAGGAGGGAATCTTGTGACTAATAACTTTTCAAATCTGAAATTAGATTAGTTTCCAGCCATTTTTACAATCATCTGGAACCATGTGTCTCAAAGGTGTGTTTCTTCCACCTGCGTCAGGCTGTCTGGGGGATGGCGGTTCTTGTTTAACATGCAGATTTGTGGGCCTGCTGCCACCTCCTGCGTGCGGTACTTCAGGGATGGCCAGGGCATCTGTGTCTAAGCGATGGCCTGCAGCCCTGGGCTCCCTGGGGTCTGAGGACCCAGCTCTGGTGGCACCCAGCAGGGAGGAGGTGCTTCCTGAGCAGATGCCTGAGACAGACTGGGCTGGCAGAAAAGTAGGACTACAATTTTTGTTTTTTTTAATCATTTTGAAGGAAAACTTTCATTTTTAGTGGGCCAGAGTACTTCGAAAAGGGTACTTTTTTATAGCCCTATGCTTGTTTTATAAAACTTTTAATACTAAAAACATTAATAGACCAAACATCTCCAGCTGGGTCAGCTGCACACCTTTGTACATGTCTGATGATTCAGAGTTTAAATGGCTGTAGTTACAATTTCTCAGGTAAACAATTGTTTTCTCAAATTTTTACCAATCCCTGCATTATTAGGATAAATTTTGAGACAGTGTAAAAACCTCAAAGTACAGTAGGGTAAGTCCCAGCCCTGTTCACGTGAAAGCCAGAGGTGGCCCTTCCCCGGCATCTGATCGTCTGATCATGTGGGTGCCTGGGGCCTTGCCACCCTTCCCTGTCCACTGCTGCCCCCCTGGGCCTGTCAAGATTTGAGGGGTGCCCACTCGCTGGCTTTGTCCCCATCCCACTGTTAAGTAAGGTGTGCCTTGCTTTAAGCAAACTGAATGTGAAAATTATGTGTAGAAGTCTGGGTTTGTTTAAAAGAAAAACTGGGATTTTATCTCATCTCTTTAAAAGAGGTCTCCCAATTCGATTTCTGTACTGGGACTCTTCCTGGTGTGTTTTTACATGTTCACTTTTTAAAAACATTGATGTACTCCCATCCTTTTACCACTACCCTATCACATTTGACAAGTTCTTGCTGTAATGACGACGCAATTAACGAACACCAGGGGAGCGGTGGAAAGCTGCCCTCGTGTGTGAGCCCTTCGGTGACGCAAAGCCACCGTCCTGTTGTTTTGTGTGTCCTAAGCTCAGATTTTCCTGGTTTGGATAAATTTTGTAAAACTGGGCATAGCTGTACTTTTAGAAAGGGATCGTTTTCCTTAAGTTTTGGTTTTCTCTGGTTCAAGCAGTCTTTACATGCAGCCTTTTGATTGCACATCAGGGTCTCCCTTTTCTTTTCCAGATGATGTTGCTTTTCGGTGGTGGTCTCACACTCCTTTGAATGAATGTTTGCACTCTAGAACCACAAACGATGCGTGACCATTGTACAGCTTGCCCAAGAGGGAACTGTTGGAAGCAGGCAGTGACCTCCACGCTGTTTGTTTGAGGCTGACCTAAACTGCTATCACTAATGTTTACCCCCGTGACGGAGTGCCCATTAGAACAGATCATGTCAGTTCAGTTCCTGTAGTGGGGTTAGTAGGTGGGGGGTTTTATTGTTGTTGTTATTTGTTACTTTTATTGCTGTTAAATGCAAATATTGCTATTTATTTTTTCCTTTCTGCTCTGGTTTGGTTTGGCCGACACAGATATTCCAGTGCATGTGGTACCTAATGGATATGATAGAAATTATTTCCCCAACTTTTATAAATTGCCTAATGTTTACCTTCAAGTTTGCTGGATGATTTATTTTTGAAAGCCACAAATGTGATTTTTCTGGATGAATTGTTTTTCTTATATATGCAGCAATGTAATTTTACATTGATCTGCGGGGTGGTTTAAATTTTATTTTTACAAGGCAGTTTTTCAGTCAAATTATATATTTGATACAATACGCTAGGATAGACCGGCCACACGTCAGGCAGCCGGGACACCGGAGTGTCCCCAGGAGGCCTTTGGGGCTGGGGTGGCCCGTGGCTTGTTCCCTGCGCCTCTGGGAACTGGATGAGTCCTTCGGCGGGACTGTGACCCGCTGGACAGTTAAAAGGATTTTTCATGGGCATTTTCCTACACATAAGGCAGTTCCATTAGGAGGAGCTTTAGAAGTCGACATAATCCAGACAGTGGACAATCCCAGTGGCCCAGACAAGCCATACGACATTTTCCTGTGACCTCTCTCTGACCCATCTCTCACGCTCATGAGAAAAGGAATGTACAATAAATAGAAACAGAAACTTCCTCAGTGCTCATGCGCCTCACTTGCAGAACGTGAGTATTTCATTTATGTTTGAAGCCCTTCCCCAAAGTGACCGAGGAGTTGCACTCTAGCTGCCGTGCCAGCAGTCTCGTCTGCTGTGACGCTTCTCGGTGCGGATGCAGTGCACCTGTGACTTTGTCATGGGGGTGCCCCTGTTACACACACACACGCTGACTCTTTTTTATGAGGAAAATCTTCGACTCAAAATAATTGCACTGATTTTTTGACAACTTCTTTTTACGATGTCCCACTTCGCATCTGCTGTACTTGTTTGAGATGATTGTAAATAGATTTGTGGTAGGAGAAGTGACATGAATGCAACACGTGGCTCTGTTGTGGAGACACTGCCTCGTATTCAGTATTATGTGTTAAAGTTGTGTGGACTTAACTCTGTTCCGCCCTTTAGCTTCGTGTCTGTTGACCATTTATGAAGGACAAGTTCGCCTCATTTTCTTTTTCTTCTGAAGGGAAGTTCTAGATCGGTTACTAGGAGAACATGGTCTCTTGGTGCCTGATGATTTAGTCCTAAGCAGACTCGTTGCAGTCTTGTGAACACTGTTGTGGTCTGTTTGATTCCTCGTCGCTTACCGTGGCTCTCCAAAGCATGGTCTTTGAGTTCCACCCAGCCTGGGACAGTCCAGACGGGAGGCATCTGCTCCGCCTGCTACTAGGACGCAAGGGCCTCCTTGCATCTCTGTGGTCAGAGTCATCTTAAAGCCATGAGGTTACTGTCGTGTCAAAGCTGTCATTTGTGCCCGTTATTTTGCTGGAGTAGCAGCGTGTGCTGTAGCCCCCGTGTGTCACTCTGTGGTCAGGCTACCCTGTGTCACACCCAGCAAGAAGTTTTTCAGCCCCAGACCAGTCTGTGTGTGTGTCCGAGTCACACCAGTGCCATTACGGTGCCCTCGCTTATGCTTCTTTCAGTATGTTTTGCCATGTTATTGTCTAAAGTGAATGTATTGGCTTAGCCAAATCACTACAGAAGGTGGTTCCTAAATACCTTTTAGTTTAAAAAAAAATGCAGATAAAGGCTACCTCTGAATTCTCAATAGATTCATCATGTTTGCTCTTAAGTGTAGCTGTCCACACTGAAAACAGCCAATATGTTGCCTGAATAAACTGAATTGTGAACATCTATCTGTTCAGTTCTGGCTTGAAAATGTGTGTGCCATACTGTGACCCACGGGCAGCCCCTCCTCCTCTACTGTGTCAGGTGGACCAGGGTCACCTCTGTTCTGCGCAGCTTTGAGATTCTAGGATTCTACGGCCGGCACGAATGGCATGGGAGGGTTCTCTGCACGGGACGGCATAACGGCATGCCATCCTTCAGGCTGGCAGGAGCCTGCGCAGGTGTGGCAAAATCTTGAAACAGCCTGTGTCCTGCCTGGCTTTTCACTTTCCTATTTAATATAAGAAAGCACTTTTTTTTCTGCTTTACCTACAAATGGGTTGAAAATGGCCTCCTCTGTCCTCTCCTCTCTTTTATACACTCTGTAAAATCACAAAGGTGCTTCAACACCGACTGTCATGCAAATAATACATTTAAAATAGTTGCATGGTTTCAAAGACAATGCAGACGTAATTGGCCTTTGACTTTGGGACCTCGGGTTACTCTCACTCCCTACTGCAAAACAAACTAAGGGTTGAAAGCAAAGCATTCTGTTCAAATCCAGGGCCCTTTGTTTGAAAAGAACACAGGGCCCACAGCTGGTGTTTTGAAGTAGAAGTTCCCACTAGTGGCGCAGTGGACCGTCTGATGCAGACTTGCAGGAAGTCGGTCCTGGGAGGCTCTGAACACCCCTCCCTGTGATTAACCACTTTGCTGTCAGAAATGTCATTTTCCCATACACTGTGCTGTGGGCCCGGGGCCTCCTTCGCTTCTTTCTTTGGGTTCCATATGTTGCCCGATCTTGAGGTTAGCGCTCGCCCCAATTTCTCCATGAGTTTACTCTGAGTTGACAGGCGATGATCTGACAGTTGGAGGTGTCTGGGTGTTTGGAGGTGGCCCCGTTCTCATGTTGGCTGCTCATCAGACATTGAGTTTGGCCCCGGCGGTTCTACTACGTCACTACCTGGAAGCAATTGCCTTTAACACTCTGCTGTTTGGGGTTTCGATGCTTTTTATGCTGCGTTGCGTGCTTTCATTCCGGAAGAGCTAAGTGTCCTTTGCAGTCTCTCTGAGAATGTTTTGTAATTCTGCCGCCACGCTGTTCTGTGCGGACCGACCTCAAGAGGCTTGGGCCCCCGTGGGTGTCCCACTGCCTGCCGGCCCAGGGTACAGGCTGCTTGGGTCCGCTGGGCTGGCCTTGGGCTGTCAGAATCTGGTCCAGGGTGTTTCGAGGGGACACTGCACAGCCGCTCGCCCCTCGACTCAGTCATGGGAGCTGCAGCACGCAGATCCACCGCAAGCTTCCTGCACGCGCATCTCCGGAATGCTGCGCTGGGCCCTCCCACCATCTTCGCGTTTGTGAGAATTTACTCAGAAGTGAGAGAACTGAAGATTCCTGGTGCTTTTGTTAACACGTTTCTATCTTATTGGTTGGTGTGGAAATGTTAGATGTGTTGTTAGGTTTTTAAATGCTGTGGGTGGTATGATTAAAGGGTTAAGTCCTCACCTCAGCCCCCAGCCCCCTTTTGGGGGGTAGGAAGAGGCTGAGTTATCTCCTATTTAAAACCTCCTTGGATTTAAGTAGTTCAGAGTTAAAGCTAAAACACCAAATATTAACTCTTTCCCCCAAGTGTCTCCAGGAACTGGACGTTGGGGCCATTCTTATTCAGTTCTTTCTGTAGCTCCAAGGTCCTTAAAATGAGTGAGTTGATCCCAAGAACACCCCACAGCACCAACCAGCAGGGCACAGTGCAAGCGACTTCATAGATCGGGGTGCTCGTGTAGGGGTCCGGGGCTCCTTTGAACTCTGGGAGTTGTGTGCGCAGTCTTGGGTGGGAGACGGCAGGTCCCTCTGTCCCAAGAAGCTGGTGGTGCCAAGGCCTTCCTCTGTCTCCATCAGTGCCAGCCTGATCGCGTTCTGGAAGACCCAGTCTCAGACTCTGTGCCTTTAAAGTCCGGTCCTCAGTGTCCTTTCAGAATCATGTTGGGGCTGCGTTTCTCTGGGGAACTAAGCCTGTGCCATTCCACAAGGCAGGCGTGGACCTCCAGCCTTGGAAGCTTTCTTTCCGCTCCTCAGCCCCTGACTTGTAAACTGTGATGCCATGCAGTCTGGAGCCGCGGGGGACGCACTCGGTCTCATTGCGGAAAACACTTGGTTCCAGTCGTGTGGTTTCTCCCATACCCTGACCAAGTCCACCTCTGCCAGGATTGCAGGAGATTGGTGCAAGACCCATCTCTTATGCATTGACCATGACCATCAGCAAAGCCTGGTGGTCTTGTTCTCATAGTCACTCGAGAAGAATATTTATTGTAATGGAAGTAGATTTTTTAAAAAAGGAATTGGAATCATGTCTTTGTAGAATGTGTGTGTGTGAAGTCCTCAGCTGTAAGGTGCTATTCAGTCCTGTGACCCTTATTTTGGAATGCTCTTCATTACTGTTGCTCTGTTTTGTGACTTCCTGGGAAACCGCTTACTTTGGTGTGGTGTCACCTTGAGCTGTGCACATAGGACACCAGTTTTGACTTAACCTAACAGGCAGTTTTTATCTCTAGCTTTTTCAAGCCAGGTATTGAGCAGTTTCTTGGCCAATGGCCTGAGAAACCACCTGTCCCTGTCAAGGGGTGATTTTATTGGTTTTAAGTGGGGAAGTAATCCCATGTACTTATTTCTTAAATACCTAGGAAGTTCTTCTTGGTGGCTCCTCTTGGCCCTCCCCTCTTTCTCCCCCAACCCACCATCCTGCAAGGCAAGGAATGGCCTCTCCCTCCACAGAGGCAACGGCTGCAGAGGGAGCACTGTGGCTGCCATCCCAGTTCCTCTTCAAAGCCAAACAGACACGCGTGACTCAAATCCTACAGTATGGAGGGTGGCGTTGCATTGAAATTCCAGGCCTGAGTTTGATAGTGGATTTTAATGTAGTTGTTAAAGGTATGAATTCATGTTTTATAACTGTAGAGGCAAGCAAGTTTTTATTTTTTAAAAAGTTTTGAGAGAATAATTTATAAGTTTCTGTGCAGCAAAGTGGCTAATTACTCATTAAATACAGGAAAAGAATGTAGTATCTAAATCCAGCTTTTTCTTACCTCTGGTACACTTCAGATTACTTACCTAATACATATTGAGGGCTTTTAACCCTTAGTTTTATCAATTTTTCTAGTTTTATTTTATTTTTATAAAATAATTGAAAAAGAACCAAAAATGAATTCAGAAGTTCCATAGATGGATTTTTGCCCCTTCTTAATTTTCTCCCACAATGAAAACATTTTAGAAGACATTTTGAATCAAAATGTATTATGACCATTGAAAGTTCTCTATTTTCTAAGAAGCTGAGCAGCTCCAAGGGCCTCGTTTCAGGTGGTACTCTATGTATTGTCTGTGGGCTTGTTTCTACCTGTACAGTGGAACCATGTGACCATGTCTTGTGCTTGCAATATAGAAACCATGCAGTGCTGTTTTGTGAATTGGCAGTTTCTGTATAAACTCTTATTTATATACATTGGCCTCTCTGTATGATTTTCCATTTGCTACATGAATTGTAAAATTAATTATAAAATTATAGTACCTGCTAAATACAATTCTGAGGCTTCATGTCATTGTCTTTAGTTGAATACCATGCTGTGTGTCTTGAAGATGTCCACGCTTGCATGATGCTAGGTGGCAATGCCACTTTAAATTAAGCCTTAATCAGATGTTAAATTTGTGAGTTTCAGAGTATGCAAAAATATTAGGCAGAGTGAGTGTAAACTGTTCAGATCAAGATGCTGTATCATAATTCAAGTTATTTTTTTCTGGAGTTAAAGGGAAGCATTCAGTGATACACCTCTCTCTCTCTCTCTCTCTCTCCCCCTCTCCCCCCTCCCCCTCCCTCTCTCTGTCTCTGTCTCTGTCTCTCTCTCTCTCTCTTGTCTAGCTTGGCTATGGCCATAGCTTGATGAAAATGGACCATTGTGCATTTCTGTGACAGTCAAAAAGACCTGTTCTAAAAGTCTTGCGACTTTTTCAGGGTTTTTTTTTTTTTTCATGTTTCTTTTTTTTTTTCCCCTCCAGTCTGAGATTTCTGTGTGGCTGATGGAGAGTGTGATTTGGGCGTAGGTCTTATTTGCAAACCTGCTCATGTTCTAAGCTTTCTTCAGGTAGTACCACCTGTCATCGCTTCTGCATATGATTTAAATGGATTTTTGTTTTTATAAAAGTATCATAAATTTAGAGATAAAATGGAGGGGACCCAGCTTTCTTTACAATGTGGATCTACCTCAGTTAAACAGTTGGGTGCTATTACTAAGTCTGTCAAATTAAATTGGAAAAAGTAACCAAACAGTGAGATACAACTCCACATGAAACTTGAAATTGTAATTTCCGTTTATTTAATGATATTTTTATTTATTTGTGCCTTTTATGTTGAACCCCAATGCATTGAAAAAATTCAGTATGAAACAGTACATATTTTATTTATATTACAGGTGGGAGAAAAGTCCAATTGGTCATGGAATTTGATAGACTTTTCCCCAGCCAACTGCTACAGTGTATTATAATCCCGACTGCCCCCCTGTGAAAAGAAAAAAAAAAATGTCCAAGAGCAAATTTAACATTTTACAAACAATAAAGTCCAAACTCCTCTATGCACATATTTATAGCTTATCACTTCATTTTCTGTGCCAGTGAAGGGGTGGCCAGAAAAAAAATCCCAAGTACCCTCATCATTGCTTTTCTAGCCATTCATGCCCCCTCTTCCTCTGGCACATTTTCTAAGAGTTTATTTCATAAGCAGCAAACGGACTGTTGTCGATTTCATCTCTCCTGACCTACCTGGTGGAGGTGCTAATGGCCATGGACAGAAAGGGGCGAGCCAGAGCTCGTGGCTTTGTGGAGGCAGAGGCCTGCATTCAGCAGCGGCCCTGTGTGCCTGTAAGTTAGGAAGGCTTTCTGACAGGTAAGAAAATGAGATAGGTTGATGACTTACCATGCTTTTATATTTGGCAGTTTACAATTCTAGACTTTTCCTACTATGGCGATCTTTTTTTACTTAATTCTTTGGAGGTAACAATATTTTGGAGTCTTAAGAATTTGATTTTATACCAATAAGAAATAAAAATTAGGGATCTTTCCTGTAGTATATAGTTTTACTATTTTAAAGAGATCTCTGAATTTTACAAGAGAACCAACATTCCTTAATGGCAGAACTTTGAAAGTTGATTTGGGAGGCTTTTTGCTGCAGGATCTCAAAAATAGAGAGAGAGATGATTCTACTTAAATGTTTTTAATTTTCTAACTTCCATCAGGTTGATACTTAAGCTCTATTTTGTAAAGAGTAAATCATCCTTTAGTATGCTGCATAAGATGATCAGCATTCTTGCACTTTCTCAGTAATAAGACGTGCCGGGCAATTGGCTCCCCAGGACGCATTGTGTTTTTAACCTAACGAGAGGACTTTGGGGCAGGTGATTAAATTTATATAGGTACCTCAAGAAAAAGAACCTGAATATGCTGCATTTTCTTTCTTTAGCTTTTACATGTAGCATTTTGTTTTGCTTTTGTTATTTTTGTTTTGATATATGCTTTTTGGACCCCAATAGACTGTTGAAAGAAATTTAAAAATTACTCTTGTAGGGATATAGTATCCTTAAAAAATAAAAATTTAAAAAAATTTAAAAAAATTGCTGCAATATCTGGCTCGAAGGTTGCCCTATATTAGAATAATACTTTAGCCAAATACACCTGAGGAGGCAGACACTGTGTTTATAAGCAGACAATAATGTTCTGAATCCTTCCTGTTCATGCTGCTTTCTTAATTCATTTCTCCATGTCATCAAGAGGTTGGATAACTTATTTCTAAGCTCAAGGTTAAAAATCATGTCACCTTTTTTTTTTTCCCCCAACACAGACCTCAGAAAAATTGCGATTGAGGAAGTAGCATGATCCTAAATGTGTTGCTGAAATCAGGCAGCCCGAGCCTCTGGTCTCTCCAGAGAGCCCGTCTTCACATTTCTCTATTCCTCAGCACTCACCCGAAACTGAACAGATGGGGAGTGGTCTTGATTGTCAAGATAAAACTGGTGAAGAAAGCTAAATGCTGAGAAACTGAGCATCTATTGTCGTGTTTAAGCTTAGCTGGGTCCTTTCTAGTTTGTTTTTACAGCTTACTAGGTGAAGTAGTTTGCACTATTTTTGCAATAAATTCATGGAAAACCTAACAGTTACTTGTTTTGTTTCTTACTGTGTGTATATAAACTAATACTAAAAGTTTGGCATAGTGTTTTTTCACCTCCTTACATAACCCCTAACATGCACAGAATGCTGTAAATCTGATAAAATATGATGTGAATGATATTTTATAAAGTTATTTTGTATGGTGTCAATTTTGTTTTGCCTCATAGTATGTCAGCAAAAAATTAAATAAAAGTCCTCCTATTTACAGCTGC
>gi|1060099157|ref|NM_001330491.1| Homo sapiens BCL2 interacting protein 3 like (BNIP3L), transcript variant 2, mRNA
AAGAAAACTTTTCGTGTTTGCCTGTAGCTGATGTGCAGTTGTTTCTGCTCCCAAATCAACAGGGTTTAATGAAAACCCTAGAAAGTAGAAACCCGTGGGAGAGAAAAGAAAAAAGACAAGTTCACAAGGTTCCTGGGTGGAGCTACCCATGAACAGCAGCAATGGCAATGATAATGGCAATGGGAAAAATGGGGGGCTGGAACACGTACCATCCTCATCCTCCATCCACAATGGAGACATGGAGAAGATTCTTTTGGATGCACAACATGAATCAGGACAGAGTAGTTCCAGAGGCAGTTCTCACTGTGACAGCCCTTCGCCACAAGAAGATGGGCAGATCATGTTTGATGTGGAAATGCACACCAGCAGGGACCATAGCTCTCAGTCAGAAGAAGAAGTTGTAGAAGGAGAGAAGGAAGTCGAGGCTTTGAAGAAAAGTGCGGACTGGGTATCAGACTGGTCCAGTAGACCCGAAAACATTCCACCCAAGGAGTTCCACTTCAGACACCCTAAACGTTCTGTGTCTTTAAGCATGAGGAAAAGTGGAGCCATGAAGAAAGGGGGTATTTTCTCCGCAGAATTTCTGAAGGTGTTCATTCCATCTCTCTTCCTTTCTCATGTTTTGGCTTTGGGGCTAGGCATCTATATTGGAAAGCGACTGAGCACACCCTCTGCCAGCACCTACTGAGGGAAAGGAAAAGCCCCTGGAAATGCGTGTGACCTGTGAAGTGGTGTATTGTCACAGTAGCTTATTTGAACTTGAGACCATTGTAAGCATGACCCAACCTACCACCCTGTTTTTACATATCCAATTCCAGTAACTCTCAAATTCAATATTTTATTCAAACTCTGTTGAGGCATTTTACTAACCTTATACCCTTTTTGGCCTGAAGACATTTTAGAATTTCCTAACAGAGTTTACTGTTGTTTAGAAATTTGCAAGGGCTTCTTTTCCGCAAATGCCACCAGCAGATTATAATTTTGTCAGCAATGCTATTATCTCTAATTAGTGCCACCAGACTAGACCTGTATCATTCATGGTATAAATTTTACTCTTGCAACATAACTACCATCTCTCTCTTAAAACGAGATCAGGTTAGCAAATGATGTAAAAGAAGCTTTATTGTCTAGTTGTTTTTTTTCCCCCAAGACAAAGGCAAGTTTCCCTAAGTTTGAGTTGATAGTTATTAAAAAGAAAACAAAACAAAAAAAAAAGGCAAGGCACAACAAAAAAATATCCTGGGCAATAAAAAAAATATTTTAAACCAGCTTTGGAGCCACTTTTTTGTCTAAGCCTCCTAATAGCGTCTTTTAATTTATAGGAGGCAAACTGTATAAATGATAGGTATGAAATAGAATAAGAAGTAAAATACATCAGCAGATTTTCATACTAGTATGTTGTAATGCTGTCTTTTCTATGGTGTAGAATCTTTCTTTCTGATAAGGAACGTCTCAGGCTTAGAAATATATGAAATTGCTTTTTGAGATTTTTGCGTGTGTGTTTGATATTTTTTACGATAATTAGCTGCATGTGAATTTTTCATGACCTTCTTTACATTTTTTATTTTTTATTTCTTTATTTTTTTTTCTCTAAGAAGAGGCTTTGGAATGAGTTCCAATTTGTGATGTTAATACAGGCTTCTTGTTTTAGGAAGCATCACCTATACTCTGAAGCCTTTAAACTCTGAAGAGAATTGTTTCAGAGTTATTCCAAGCACTTGTGCAACTTGGAAAAACAGACTTGGGTTGTGGGAACAGTTGACAGCGTTCTGAAAAGATGCCATTTGTTTCCTTCTGATCTCTCACTGAATAATGTTTACTGTACAGTCTTCCCAAGGTGATTCCTGCGACTGCAGGCACTGGTCATTTTCTCATGTAGCTGTCTTTTCAGTTATGGTAAACTCTTAAAGTTCAGAACACTCAACAGATTCCTTCAGTGATATACTTGTTCGTTCATTTCTAAAATGTGAAGCTTTAGGACCAAATTGTTAGAAAGCATCAGGATGACCAGTTATCTCGAGTAGATTTTCTTGGATTTCAGAACATCTAGCATGACTCTGAAGGATACCACATGTTTTATATATAAATAATTACTGTTTATGATATAGACATTGATATTGACTATTTAGAGAACCGTTGTTAATTTTAAAACTAGCAATCTATAAAGTGCACCAGGTCAACTTGAATAAAAACACTATGACAGACAGGTTTGCCAGTTTGCAGAAACTAACTCTTTTCTCACATCAACATTTGTAAAATTGATGTGTTATAGTGGAAAATAACATATAGATTAAACAAAATTTTTATCTTTTTTCAAGAATATAGCTGGCTATCTTTAAGAAAGATGATATATCCTAGTTTTGAAAGTAATTTTCTTTTTTCTTTCTAGCATTTGATGTCTAAATAATTTTGGACATCTTTTTCCTAGACCATGTTTCTGTCTTACTCTTAAACCTGGTAACACTTGATTTGCCTTCTATAACCTATTTATTTCAAGTGTTCATATTTGAATTTCTTTGGGAAGAAAGTAAATCTGATGGCTCACTGATTTTTGAAAAGCCTGAATAAAATTGGAAAGACTGGAAAGTTAGGAGAACTGACTAGCTAAACTGCTACAGTATGCAATTTCTATTACAATTGGTATTACAGGGGGGAAAAGTAAAATTACACTTTACCTGAAAGTGACTTCTTACAGCTAGTGCATTGTGCTCTTTCCAAGTTCAGCAGCAGTTCTATCAGTGGTGCCACTGAAACTGGGTATATTTATGATTTCTTTCAGCGTTAAAAAGAAACATAGTGTTGCCCTTTTTCTTAAAGCATCAGTGAAATTATGGAAAATTACTTAAAACGTGAATACATCATCACAGTAGAATTTATTATGAGAGCATGTAGTATGTATCTGTAGCCCTAACACATGGGATGAACGTTTTACTGCTACACCCAGATTTGTGTTGAACGAAAACATTGTGGTTTGGAAAGGAGAATTCAACAATTAATAGTTGAAATTGTGAGGTTAATGTTTAAAAAGCTTTACACCTGTTTACAATTTGGGGACAAAAAGGCAGGCTTCATTTTTCATATGTTTGATGAAAACTGGCTCAAGATGTTTGTAAATAGAATCAAGAGCAAAACTGCACAAACTTGCACATTGGAAAGTGCAACAAGTTCCCGTGATTGCAGTAAAAATATTTACTATTCTAAAAAAATGAGAATTGAAGACTTAGCCAGTCAGATAAGTTTTTTCATGAACCCGTTGTGGAAATTATTGGAATTAACTGAGCCAAAGTGATTATGCATTCTTCATCTATTTTAGTTAGCACTTTGTATCGTTATATACAGTTTACAATACATGTATAACTTGTAGCTATAAACATTTTGTGCCATTAAAGCTCTCACAAAACTTTTAAAAAAAAAAAAAAAAAAA
>gi|1040064758|ref|NM_003048.5| Homo sapiens solute carrier family 9 member A2 (SLC9A2), mRNA
AGGGCCTGCCGCTGCGGCTGGAGAGCAGCGCACCGGCATGGGCAGGCGGCCGGCGGCGGAGGGCGGCTGAGGGCTGCTGAGGGTACGCGCAGCGGCCTCTCGTCGCCCTGCACGTGCCTCGCCAGGCAGTGCGCCTGCTCGCAGCGAGGACCTAGCCCTCTGGTTGCAGAGACCCGGTGCCGCAGCAGCGGCGGGTGGCTGTCGCTGCCCTGCCCTGCACGGGGCAGGGCGGAGCGGGCTGAGCAGCCCGGGCGCGATGCGTTGAGCGCTCGGAGGGCCAACCGCCGGTCCCCTTGGCGGCAACCGGCGGCACCCATGGAACCACTGGGCAACTGGAGGAGCCTGCGGGCGCCACTGCCTCCGATGCTGTTGCTGCTGCTCCTGCAGGTGGCGGGGCCCGTGGGCGCCCTGGCGGAGACCTTGCTGAACGCGCCGAGGGCCATGGGCACCAGTTCCAGCCCGCCTAGCCCTGCGAGCGTGGTGGCTCCCGGAACGACGCTGTTCGAGGAGAGCCGGCTGCCTGTGTTTACGCTGGATTACCCCCACGTGCAGATCCCCTTCGAGATCACCCTTTGGATCCTGCTGGCCTCCCTGGCCAAGATTGGCTTCCATCTGTATCACAAGTTGCCCACAATAGTGCCTGAGAGCTGCCTTCTTATAATGGTTGGACTTCTACTAGGTGGGATTATTTTTGGTGTTGATGAGAAGTCTCCCCCTGCAATGAAGACTGATGTATTTTTCTTGTACCTCCTCCCACCCATCGTGCTGGATGCCGGCTATTTCATGCCCACTCGCCCATTCTTTGAGAACATTGGCACGATTTTCTGGTATGCTGTGGTAGGGACACTTTGGAATTCCATTGGCATTGGGGTGTCTTTGTTTGGTATCTGCCAGATCGAAGCATTCGGCCTCAGCGACATCACTTTGCTCCAGAACCTGCTCTTTGGCAGCTTAATCTCAGCTGTCGATCCTGTGGCTGTGCTTGCTGTCTTTGAGAACATTCACGTCAATGAGCAGCTCTACATCCTGGTCTTTGGAGAGTCCCTGCTGAATGATGCAGTAACAGTGGTCCTGTACAACTTGTTCAAGTCGTTTTGCCAGATGAAAACCATTGAGACCATTGATGTGTTTGCAGGAATCGCCAACTTCTTTGTTGTGGGAATCGGTGGGGTGCTGATTGGCATCTTCTTGGGCTTTATAGCGGCATTTACTACTCGATTCACCCATAATATCCGAGTGATCGAGCCACTGTTTGTTTTCCTGTACAGTTATTTGTCCTACATCACAGCTGAAATGTTTCACCTCTCAGGCATCATGGCAATCACTGCTTGTGCAATGACTATGAATAAGTACGTAGAAGAAAATGTATCTCAGAAATCCTACACGACCATCAAGTACTTCATGAAGATGCTGAGCAGTGTCAGCGAAACCTTGATCTTCATCTTCATGGGTGTGTCTACCGTGGGCAAGAACCACGAGTGGAACTGGGCCTTCGTCTGCTTCACCCTGGCCTTCTGCCTCATGTGGCGAGCCCTGGGTGTTTTTGTCCTGACTCAGGTCATTAATAGGTTCCGGACCATTCCCCTGACCTTTAAGGACCAGTTCATCATTGCCTATGGAGGACTTCGAGGTGCCATCTGTTTTGCGTTAGTGTTTCTCCTTCCTGCTGCTGTGTTTCCTCGGAAAAAATTGTTTATTACGGCTGCCATTGTTGTCATATTCTTTACTGTCTTCATTCTGGGAATAACTATTCGACCACTGGTGGAGTTTCTTGATGTCAAGAGGTCCAATAAGAAACAACAAGCTGTCAGTGAAGAAATCTATTGTCGGTTGTTTGATCATGTGAAGACTGGAATTGAAGATGTTTGTGGACATTGGGGTCACAACTTTTGGAGAGACAAGTTTAAGAAGTTTGATGATAAATATCTGCGGAAGCTTTTGATTCGGGAAAACCAACCAAAGTCAAGTATTGTATCTTTATATAAAAAGCTTGAAATAAAACATGCCATTGAGATGGCAGAGACTGGGATGATAAGTACTGTCCCTACATTTGCATCTCTAAATGATTGTCGTGAAGAAAAAATAAGGAAGGTCACGTCCAGTGAAACTGATGAAATTCGAGAACTCTTATCAAGAAATCTCTATCAAATCCGTCAGCGAACTTTATCCTACAACAGACACAGTCTGACAGCCGACACAAGTGAGAGACAAGCCAAGGAGATTCTGATTCGCCGGCGACACAGTTTGCGAGAAAGCATTAGGAAGGACAGCAGCTTGAATCGAGAACACAGGGCTTCCACTTCAACCTCCCGATATTTATCCTTACCTAAAAATACGAAGCTTCCAGAAAAGCTACAAAAGAGGAGGACTATTTCTATTGCAGATGGCAATAGCAGCGACTCAGACGCAGATGCCGGGACCACCGTGCTCAATTTGCAGCCCAGAGCCAGGCGCTTCTTGCCAGAACAGTTCTCCAAGAAATCCCCCCAGTCCTATAAAATGGAATGGAAGAATGAGGTAGATGTTGATTCTGGCCGAGATATGCCCAGCACCCCCCCAACACCCCACAGCAGAGAAAAGGGCACCCAGACGTCAGGCTTACTACAGCAGCCCCTTCTCTCTAAAGACCAGTCTGGCTCAGAGAGGGAAGACAGTTTGACTGAAGGCATCCCGCCCAAGCCGCCACCACGGCTGGTCTGGAGGGCATCGGAACCTGGAAGCCGGAAAGCCCGATTTGGGAGTGAGAAGCCTTAAGAGAAGCAGCGAAAGCAGATCTGAGTGTCTGACCCAGGACAGCTGTGGTTTGTCACTCTGAAACCTGATGCAACAGTGGAATCCATGTAAAACTCTCTGTGCATCTAAATACTTCTGGAGGGCGACAGATTCATGCCACGGATAAATGAGGCAAATCCGAAGAAAAGGAAAATCGAATAAAAAATAGTCCCACAAAATACCTTTTGTGACTAATGGGTAGCAATCGTATTATTTGCTGGCCTGAAGAGAAAAAATGGTAATGTGTGCCTTTATTGAACTTGAATGACAGAACTTGAAATTTTTAACACATCCTTCTTGGTGAAGATTTTAATATATTACTTATATGCTTCAAATTTTATTTATGAAAAAATATGTATATCTGTAATCAGTTGTTAAGTGAATGGCACTAAAAGTATCGAGAACAGCTTTCTTTCCCAGGGGTGAAGGATGGCGCTCGGGGGTGACTCCTAAGCTCAGCGTGGAAGCTTTTCCCTGTCCTGACCCGATGGAGCAGCCGGTAAGTGAAGAGCACAGCTGGAAGCAGAGACACCTTATGACTCAAACTGGGCAAACAATCGGAACGTCATGCAGAAGGAATGGCCTGACTCCTGCAGTGCAGATTGGAGGCCCCAGAACTCCTATGAACTACTGAGAGTCTACTGGTTTTTAACTTGTTCCTCTGTCTACTGTGTGTTTGGGGGTGACATCTAAATTCCATTTCTTCTTCTTGTTTAAATGGTGCAGAGAGAAAGGTTGCCCAGACATCCACCAGCTTACTGTGTTGACAGATTTGGGAGCAGCTTTTGATGAAGTTCCACCCATGAGGGTCCATGTGGCAAGTAGGGCCACAGGGCAGCACCTGGTTACAACTTGCTGGTGGGTTTTATGTTGTGCAATACTAGGAGGAGGAGGCAGGTGATCTATGCTGATCTATGATCACCTGCTTCAGTAGAATTTTTCTGTAGAGTGTTGTTTGAATTTTGAGCCTCCAGGTTAGAGGCTCCAAGCAGACAAAGAAGAAAGTTTGTAGACACAATATTCTAACATTGCACAAGTTGATGAGATATCAAGTTTTGAATATTATTCAGGAAGCACTTTGGAGAATGTGGGAGTCCTACTGTTTTGCACTAGTCTGTAATTTGTTACCTCTCCCCATTCGATAATATAGTAACTCAGAATTTTCATATAAAATTGAATTCTACTCATTAGAGTACTTTTTAAAAGTACAGCAGAAAGAAAAGAAGTGGAACATAAGCATTCAAGATTAATATTTGATTCTCTATCTCTTAACTGTAGATTTTATTGGCCTGTTTTTTTTTTCTAAATAATTCTTTAAAACTTGACTGGAACATGCCTCTGCATTTCTGAGTGTAGAAATTAAATGAAGCCACTCACAGTCCTTTGATTTCCCACTGAAGATACCCCAAAGGATGCAAGTGCCTACAGTATTATCAGGAGGAGAACATGAAAATATTAAGACAAAAATCCTCAGCAGTTGTTCTCCACCCCTTCTCCACCTCCACCAGCAAGGAGAAGTCAATCTACACTTTTTTCTCATGTTCTAAAGTCTTAGAATACTGCTGGATTGTTGAGCATGAGACAGAGCAAAGGTTAGATACACAAGGTACAAGTTCATAGGAGCACAATTCCTTGATTCAGGGAAAGTAGCACAGAATGCAATTTGAAAACTACAGGCTTAGGACTCTGTGCCAAAAATCTCTATTTTAAATGAAAATATTTATATAAAAATACATTTATTCTGCTTAACACAAATTAAAACTGACATAAAATTTTATGATAATAACATGATTCAAGAAATGTGATGTAGATTTTTGAGAATGCCAAAAATCAGGTTTCAGAAAAGCTACAGTATGAAATCTGAAAAGCAACAGAAATTGAAAGTGACCTTAAAGAATAAATTTCCTAATTTTTCCCAGTTTCCTATGTTTATAACTATTATAAAGAGTTTAACTTTCTGGAACTGAAGGAGAAAACATGAAAATGTTTATATTGCTTCTTGTTAAGCAGGTAGACCAAATTCCGCTTTCAGTAATTCATCCATACAGAATTTGGATGACTATGTATAAAGGAAAACTTAAATCTTAATTATTATCAGTTTAAATTTTTTTTGTTTGTTGAATGACAAAGGCAATAAAAATAAATTTGACTTTAGCTTTTTTTCTATACTTTCCTCTTTTTGTAATTCTTAAATTCTAGTCACTAGTCATTATGAGAGTATTGACTAAATATTTTCACAATCTAAATATTGTCACAATCTAAATTTCTGTAGTAGAGAGAGCCGTAGCCCTTTGTAAAGGCTTTCGTTCGTCCAAACAACACTTGATCCAACCAAAGTTCCAATGTGACTGTGGATCTTTGATAGGTCTTTGGTGTTGGTTGTAACAAAATTTGATTTGAACTACCTATAAATGAAAAGTCGGGGTTTATTACTTTATATGTAATGCTGAGAGGAGACTGTTGGGAACAGTTATGTCAATGAGCAAACTAGAAATTGGCTTCAAAGTCTAATACTTTTAAAAGCATGTGTTTTGTGTATATGCTCACAAAATGTCTGTGAAGAGATTTCTTTCAGCTTTTGCTCAGCTTTATGGTGGGGTGTACTGTTTTATCTGGGCGGTGAGGGTATTGATTTACATAAAAACTGTAGACAAACACAGTACGAGTCTCAGCACGTTTTGCATTTATTGTACTGCCCAAATTGTTTTTATGTTAAAAGTCACGTTTCATAATCTGCAATATTTTTGTCAAAGTGCACACTGTACTTTCTTCTTAAAAACGTGATTAAAGAGATCACTTTGTCCGGATGAAGCAGCTGTTGGCATTATCCGCTGAGGCTTGAAAAAA
>gi|1023301031|ref|NM_001324236.1| Homo sapiens inosine triphosphatase (ITPA), transcript variant 7, mRNA
GCAAATCGGACGCTGTGGGCTAGGCCGCCACCGCGAGCCCACTCGCCCGATACGCGCCTTGGGGTCCGGGTCGGCTTTCCCCGGGACCCCTGGCCGGAAACTGAGCCGTTCACTTCCGCCACCAGCCGGAAGTTTTCTGTCACTGGACGCCAAGGAGTTTTCGGTGGCTCAGCTGGGTAACCGGGGATCACCATGGCGGCCTCATTGGTGGGGAAGAAGATCGTGTTTGTAACGGGGAACGCCAAGAAGCTGGAGGAGATGGTTGGATTTCTCTGTCTTCCTGTGACCTGACTTTCTGTGTGTCTGTTTCCCTGATAAGTGCCGGAGTACCAGGGGGAGCCGGATGAGATTTCCATACAGAAATGTCAGGAGGCAGTTCGCCAGGTACAGGGGCCCGTGCTGGTTGAGGACACTTGTCTGTGCTTCAATGCCCTTGGAGGGCTCCCCGGCCCCTACATAAAGTGGTTTCTGGAGAAGTTAAAGCCTGAAGGTCTCCACCAGCTCCTGGCCGGGTTCGAGGACAAGTCAGCCTATGCGCTCTGCACGTTTGCACTCAGCACCGGGGACCCAAGCCAGCCCGTGCGCCTGTTCAGGGGCCGGACCTCGGGCCGGATCGTGGCACCCAGAGGCTGCCAGGACTTTGGCTGGGACCCCTGCTTTCAGCCTGATGGATATGAGCAGACGTACGCAGAGATGCCTAAGGCGGAGAAGAACGCTGTCTCCCATCGCTTCCGGGCCCTGCTGGAGCTGCAGGAGTACTTTGGCAGTTTGGCAGCTTGACTTCTGCAGCTGGAGGAGGCCCCTCAGGCCGGGGATCTGGGGAGGGCTAGCCCAAAACCTCCCGCATCGGGCAGGCACCCCCTGAAGTACTTCCTTCAGGGTTTCCCCTTTGTGAGGGTGTCGAGTAGCCTCACCGGCCTGTCTGGAGGAGCAGCTGGCTCTGCTCTGAGAAACTCTGGCAAGTGGACGCCATTCTCTTGCCCTTAGGATTCACTGCTCTCTCCTACAGCCGCCAGGCCTGGGGTCCTGAAAGGACCTTGGGTGGTAAAGCTGTACTTGGTGGGAGTGAGGGCGTGGGGAGGAACCATGCAAATCGCCTTCCATGGTTTTTAAATGCAGTAAATAACATTTCTGGATGAGACTTGTTTCCAAAATAAACCAGCTATATCTGTTTTGAACCCTGCCCCAAAAAAAAAAAAAAAAAA
>gi|1022438505|ref|NM_018283.3| Homo sapiens nudix hydrolase 15 (NUDT15), transcript variant 1, mRNA
ATTCCCCAACCTGATAGCCCTCCGCGACGCATTACGCACCGCGGACAGCTGGAGAGGCCGAGGCGCTCTCGCTTTGATTTCGGCGCCTCCGCCCTCGCGGGGAGAGATTGGCTGCGGCCGCGGGACGGGGTAGTGAGCGCGTCACTTCCTGCCGCTGCCAGGCGCGTCCTCCCGCGCGCTATGACGGCCAGCGCACAGCCGCGCGGGCGGCGGCCAGGAGTCGGAGTCGGAGTCGTGGTGACCAGCTGCAAGCATCCGCGTTGCGTCCTCCTGGGGAAGAGGAAAGGCTCGGTTGGAGCTGGCAGTTTCCAACTCCCTGGAGGTCATCTGGAGTTCGGTGAAACCTGGGAAGAATGTGCTCAAAGGGAAACCTGGGAAGAAGCAGCTCTTCACCTGAAAAATGTTCACTTTGCCTCAGTTGTGAATTCTTTCATTGAGAAGGAGAATTACCATTATGTTACTATATTAATGAAAGGAGAAGTGGATGTGACTCATGATTCAGAACCAAAGAATGTAGAGCCTGAAAAAAATGAAAGTTGGGAGTGGGTTCCTTGGGAAGAACTACCTCCCCTGGACCAGCTTTTCTGGGGACTGCGTTGTTTAAAAGAACAAGGCTATGATCCATTTAAAGAAGATCTGAACCATCTGGTGGGATACAAAGGAAATCATCTCTAGGTGGCCGAGAAGATTTGATTTTCTTTAAAAAGACAAGAATAAGGTCTGGTTAGGGAATGAAAAATGTATACATTTCGGAACAACTCCATTTTATCTAAAAAAGTTCTTGTGATTGCCAGTTTATTTGCAGTCTCTTAATGTATCCCCCACTCTTTCAGCCAGTACTTGAGAAAATTTTTCTGAAATATGTCATTGAATTGTATTCCAGACACAGAATACATGATAAATACTGATATTATGGGTAATCTGCTTTCCATATTTACCTATGATATTTACTGTGCAGTTTGTCATTACTAGCTTGCATGGAGTAGGATGCAGTCAAATTTGCCTTAGTGTTTCTGTTCAAATAGAGACCTGAATTCAAATATTGTAGTTTAGGTTCAAACAGAGTATGGCTGTTGCAAAATTTACCAAATTTGTTGATTACCTCTTTTATTAAAGAAATGTTGGGGAGAGGGTAATATATTGTGACAATTTTTGCAACTTACAGGGAATAGGACAGGTCATTAGGGTGTATTTCCCAGGTTTCCAATTGAGAATCTAAACCAAGAGAAGTGAGACAAACCATCTAATATCTGTATCATGCTATTAATAGGCTGTGATGTTGAGTTTCTCACTTACTCTTTCTGAGGTCCAGGGTCCTTATATGAAGAGATTCATATATATGAAGAGATTCGTCTAGAGCAGTGGTTGTCAAAGTGTGGTCTGGGGGGGCCTCAAGAGCCTTTCAAGGGTATTCTAGGTCAAAGCTGTTTTTATAACACTAAGACATCATTTCACTATTTATAGCTTTTCCTTTTTTTTATTTGAGAAGGAGTCTTGCTCTGTTGCCCACATTGGAGTGCAGTGGCACGATCTCAGCTCATTGCAGCCTCCGCCACCTGGGTTCAAGCAATTCTCCTACCTCAGCTTCCCGAGTAGCTGGGATTATAGGCACCCACCACCACACCTGGCTAATTTTTGTATTTTTAGTGGAGACGGGGTTTCACCATGTTGGCCAGGCTGGTCTGGAACTCCTGAGCTCAAGTGATCTGCCCATCTCAGCCTCCCAAAGTGCTGGGATTACAGGTATGAGCCACAACGCCCAGCCATCATTTATCTTTTTCACTCATTTTTTCATGAGTATGCAGAGGAGTTTTCAAGAGGCTATCTGGTGTGATATTGTAATAGGCTGAATGCAAAAGCAGATACAAGATTCCAGCTTTCGTCTGTCATCAGACATTGAAGAGATTTGGAGAAATGTAAAGCAGCAGTACTCTTCTCACTAATTTTTGTTGTGGTTAGTTAGAAAAATGGTTATTTTTAGTGGGTTTTAATATGTGAAAAAAATAAAATTAGCTATTTGCCAAAAATGTTTTTATGTGTTTATATATACTTGGTTCTTGTTACTTGCAAATGATTAATAAAAATTTTAAGAAATTTCTCAGTTAAAAAAAAAAAAAAAAAA
>gi|1021294624|ref|NM_005290.3| Homo sapiens G protein-coupled receptor 15 (GPR15), mRNA
GATCTTTAAAGGGAGGGGAAAAAAGAGAGAGAGAGGCAGGCACTGTATAAAAGAAGCTTCCTTGAGGTTTCTAAAATTTATACAAAAACATCATATGTAAGTAAACTCACCAGATTTGGCATCTGCTCTTTGGTGATGGACCCAGAAGAAACTTCAGTTTATTTGGATTATTACTATGCTACGAGCCCAAACTCTGACATCAGGGAGACCCACTCCCATGTTCCTTACACCTCTGTCTTCCTTCCAGTCTTTTACACAGCTGTGTTCCTGACTGGAGTGCTGGGGAACCTTGTTCTCATGGGAGCGTTGCATTTCAAACCCGGCAGCCGAAGACTGATCGACATCTTTATCATCAATCTGGCTGCCTCTGACTTCATTTTTCTTGTCACATTGCCTCTCTGGGTGGATAAAGAAGCATCTCTAGGACTGTGGAGGACGGGCTCCTTCCTGTGCAAAGGGAGCTCCTACATGATCTCCGTCAATATGCACTGCAGTGTCCTCCTGCTCACTTGCATGAGTGTTGACCGCTACCTGGCCATTGTGTGGCCAGTCGTATCCAGGAAATTCAGAAGGACAGACTGTGCATATGTAGTCTGTGCCAGCATCTGGTTTATCTCCTGCCTGCTGGGGTTGCCTACTCTTCTGTCCAGGGAGCTCACGCTGATTGATGATAAGCCATACTGTGCAGAGAAAAAGGCAACTCCAATTAAACTCATATGGTCCCTGGTGGCCTTAATTTTCACCTTTTTTGTCCCTTTGTTGAGCATTGTGACCTGCTACTGTTGCATTGCAAGGAAGCTGTGTGCCCATTACCAGCAATCAGGAAAGCACAACAAAAAGCTGAAGAAATCTATAAAGATCATCTTTATTGTCGTGGCAGCCTTTCTTGTCTCCTGGCTGCCCTTCAATACTTTCAAGTTCCTGGCCATTGTCTCTGGGTTGCGGCAAGAACACTATTTACCCTCAGCTATTCTTCAGCTTGGTATGGAGGTGAGTGGACCCTTGGCATTTGCCAACAGCTGTGTCAACCCTTTCATTTACTATATCTTCGACAGCTACATCCGCCGGGCCATTGTCCACTGCTTGTGCCCTTGCCTGAAAAACTATGACTTTGGGAGTAGCACTGAGACATCAGATAGTCACCTCACTAAGGCTCTCTCCACCTTCATTCATGCAGAAGATTTTGCCAGGAGGAGGAAGAGGTCTGTGTCACTCTAAAGGGAACTGTGACATTTCAAGCTCTGTTGGTGGGTTTAGGAGTTAATTTTTGTCAGCAACAAAGAAGGAAGTGTTAATGATAGGATTCACATTGCTTCATAGATGCAAGGAAGAGTTCATTTTTAAAGAGAGGACTGAAAAATCCCTGTGTTGTGGATATAATTAGGCCATGTGCTGTTTTCTCAGCTAAGCAGCCTTCTTCGACCCTTGCCAATCAAGTCCACCAGACAAAATCCAATTCCCATCTGTCCTTGAACTCCTGGATAAAGGCTCCTGCTTGAACCAGTCCCTTTCTTCATGATTGTTAATGCACATTTGGGCCTTTCCTCTCTCAAAAACCATGGTACCTTCATCCCCACCACCCTTCATACTGGGCTCTAAATTGGACTACATTTAAATGATTCTGCCTACTTTCATCTGATGAGAAATGCAGTAACAATGCAGGTAACAAAAATATAATATACCTGCACTGTGCAATTAATTGTTTCTGAGTTACTAAGCTAGATTCTGACCTCAATCTTTAAAGCTTTGTATCGTGATTCTTCATCATCTTCCAACATTGTGCTTCATCCTATGCCTATTCACAATGGCTTTGGACTGGCAAAAAAAAACTCATGGGGATTTTGTATTGTGTTTATGATTTGGGACTTACTTTATCATATGGTCTTCTAGTATTTTAATACATAAGCATATGGCAGGATTCAACATCTATTTGCTTTATAAGATATTGATAAAAATGTATCTCATTCATAATGGTGTAGCAACTACTTTTTAATGGGGTTTTACTATGCTCTTTTGTTTCCATTGGCTTTATAAATTAGGATTTGACTTTGCTTTAATTACATGTTTTTAATTACCCAGTTATCTAGTTATCAAATGAAAATGTTATTACTAATATAATTGGAACTCATAAAATGCTTAGCTGTACCCCGATGCAGATTATCATTTTGTATTTTAATTAAAATGTTAGTGCTACACATTCCCTATAGTATCATTTGCTTGGTGCCTATAATTTCAAGATAAGATCCAGTAATATAGGGAGACAGGCTGCTCTGTATTCAGCCAAAGTAGAAAATCTCTAACAAAGATCTCACTAGTATTTTATATATATTTTTTCCATACCCAGAAACCTTCTTGAATTCCTTTACCCAATAAATATTTATTGAGTCAATTTGTACCTATATTCCTTTTGAAGACTTTGATGTGAAAAACATGTAATTAGTGGCAACCACAAAAGACTCTGCAGCAGCAAGCATGCTATTGTAAACATCTTTTGATTCAAGGGAAAGCGGGTTATGTTTTTACCTCCACTGTTGACTTGAATGAATTACCATTTTACTTCTAAATATTAGATTTGAAAATCAGAAAAAACTTAGAATCCTTTCAAAGACTAGCCAATTTAATTTCATCTCATGTATCTTTCACATGAAGAGAAACCTCAAATATCGGACATCTCCTTGTAGCCTAATTAGAAGCTGAAAATACAGTTTTTGGTTTTATAAATTGGCTAACTTGTTAATTTTTCTTAAACTGTTATTAAATAAAAATATAATTTCCTTACAT
>gi|1016470339|ref|NM_016270.3| Homo sapiens Kruppel like factor 2 (KLF2), mRNA
ACAGAGCCGTCCCCGCCCGCCCGCGCCCCGACCAGCCCGGCCTCGGGCAGCCACTCACCGGTGTCCCCGTCCGCGTCCTTCCTCCCCGGGTCCCGGCCATGGCGCTGAGTGAACCCATCCTGCCGTCCTTCTCCACTTTCGCCAGCCCGTGCCGCGAGCGCGGCCTGCAGGAGCGCTGGCCGCGCGCCGAACCCGAGTCCGGCGGCACCGACGACGACCTCAACAGCGTGCTGGACTTCATCCTGTCCATGGGGCTGGATGGCCTGGGCGCCGAGGCCGCCCCGGAGCCGCCGCCGCCGCCCCCGCCGCCTGCGTTCTATTACCCCGAACCCGGCGCGCCCCCGCCCTACAGCGCCCCCGCGGGTGGCCTGGTGTCTGAGCTGCTGCGACCCGAGCTGGATGCGCCGCTGGGGCCCGCACTGCACGGCCGCTTTCTGCTGGCGCCGCCCGGCCGCCTGGTCAAGGCCGAGCCCCCTGAAGCGGACGGCGGCGGCGGCTACGGCTGCGCCCCCGGGCTGACCCGTGGACCGCGCGGCCTCAAGCGCGAGGGCGCCCCGGGCCCGGCGGCTTCGTGCATGCGAGGTCCCGGGGGCCGCCCCCCGCCGCCGCCCGACACACCGCCGCTCAGCCCCGACGGCCCCGCGCGCCTGCCCGCGCCCGGTCCGCGCGCCTCCTTCCCGCCGCCTTTCGGTGGCCCTGGTTTCGGCGCGCCCGGGCCCGGCCTGCATTACGCGCCGCCTGCGCCCCCAGCCTTCGGTCTCTTCGACGACGCGGCCGCCGCCGCGGCAGCCCTGGGCCTGGCGCCCCCCGCCGCCCGCGGTCTCCTCACGCCGCCTGCGTCCCCGCTGGAGCTGCTGGAGGCCAAGCCAAAGCGCGGCCGCCGCTCTTGGCCCCGCAAACGCACCGCCACTCACACCTGCAGCTACGCGGGCTGCGGCAAGACCTACACCAAGAGTTCGCATCTGAAGGCGCATCTGCGCACGCACACAGGTGAGAAGCCCTACCACTGCAACTGGGACGGCTGCGGCTGGAAGTTTGCGCGCTCAGACGAGCTCACGCGCCACTACCGAAAGCACACGGGCCACCGGCCATTCCAGTGCCATCTGTGCGATCGTGCCTTCTCGCGCTCCGATCACCTGGCGCTGCACATGAAACGGCACATGTAGCCGGGACGCCCCCGCCCACCTGCGCGCGGCCGTGGCGGGTCCCACGCGCCGGGCGCGGCCCCCTCCCAAACTGTGACTGGTATTTATTGGACCCAGAGAACCGGGCCGGGCACAGCGTGGCTACAGAGGGTCTCCCTCGATGACGACGACGACGACGCCACCACCCCAGCCCCCGTCTGTGACTGAAGGCCCGGTGGGAAAAGACCACGATCCTCCTTGACGAGTTTTGTTTTTCAAAATGGTGCAATAATTTAAGTGGCATCTTCTCTCCCACCGGGTCTACACTAGAGGATCGAGGCTTGTGATGCCTTGTGAGAAATAAGGGCCTTAATTTGTACTGTCTGCGGCATTTTTTATAATATTGTATATAGTGACTGACAAATATTGTATTACTGTACATAGAGAGACAGGTGGGCATTTTTGGGCTACCTGGTTCGTTTTTATAAGATTTTGCTGGGTTGGTTTTTTTTTTAATTAAAAAGTTTTGCATCTTTTAAAAAAAATCACAGCACTGGTCTGGTTGCTTGGAACTGGGGCCTTGGGGCACTTGGGAGGAGGGGGGAGCGGAGAGTTTGATGGAGGGCAGCCCCACTAAAGCATCGTGTGCAGTGGGTCCTGCGTCTGCCAGCACCGGGACTGCCAGCTGCTGTGCCTGCCTGCCAGGAACCTGTGGGTTTTTCTGTAAATTTAGACACTGCATTTTAGGACTGAGGGAGGGTTATTTTAAGGTTGTTCTTTGAGCCATAAATTGCCTCTTTGCCCCACAGCTGGGGAAAGTGCTGGTCCCACTGACGTGGCCTCCTCTACGTTGAAAAAAATAAAACTACTTACCTCTTCCTGGAAGCCTCTGAGGTTTTAGCCAAATTTCTGGAGTGCCAGCTCTATATTTTTATTTTTATTTTTAAAGGGGGTTAACCTGCTGAGTTTCTGGCATGTTCTGCCCTTTACTCGTCTCGACATTTAGCAAGTCTTTTCTTAAGGGGTGAGTTCCCCATTCTGCTAGCGGAAAACAGTGAAACCTGCATTCGAGGGCCATGCATGAAGCTCTTTTCCAGATGAGGAAACGGAGGCCCGGAGAGGTAGCGGCAGGGTGGTGGAGTTGGGTTGTTAGCCTGCTCTGTCTGCCTCCAAGGGTCCCTGAACCCCACTGGAAGGGAGTGGTAGCTTTCTACAATGACCCACCTGTTGTGTGCATTGGAAGGCTAGGAGAGCCTCCTCCCCTGTAGGTCTCCTGGTGCAAAAAATTCACTGCCTCAATGGTAGGAGGTGACCAGTCTGGAAACCCACCTGGAGAGCAGAGGAGACCCCTAAATCCCACCACCCCAAGTGTCTCAGGCAAGGAGGTATCTCTCCCCCCAGATTTCACCTGCCACCCCTCACCTTCCCCATTCTCAGGGGCCCCGGGTAACCATGACCACCAACCATTGCACAAGTTTCCAGAAAGTGAAAATAGCTCGTAAGCAGCGCCTGCTTTAAAACACTCTCACCCCGTTGCGACAGAGGCTGGGATTTCCTCCCTCCCTGCATCCTTCCTCCTCCCCAACTACGGCAGCCCTGGAAACAGCTGAGAGGTGTTTGGTAATCCACGAAAAGCAGAAATACGATTTGACAATCTGATTCATTTTCCGAGAAAAAAAAAAAAAAAAAA
>gi|1003701538|ref|NM_001141945.2| Homo sapiens actin, alpha 2, smooth muscle, aorta (ACTA2), transcript variant 1, mRNA
GCAGGCTCTCTCCCCGCCCCCGCGGGGCGGCGCGCACTCACCCACCCGCGCCGGAGCGGACCTTTGGCTTGGCTTGTCAGGGCTTGTCCAGGAGTTCCGCTCCTCTCTCCAACCGGGGTCCCCCTCCAGCGACCCTAAAGCTTCCCAGACTTCCGCTTCAATTCCTGTCCGCACCCCACGCCCACCTCAACGTGGAGCGCAGTGGTCTCCGAGGAGCGCCGGAGCTGCCCCGCCTGCCCAGCGGGGTCAGCACTTCGCATCAAGGCCCAAGAAAAGCAAGTCCTCCAGCGTTCTGAGCACCCGGGCCTGAGGGAAGGTCCTAACAGCCCCCGGGAGCCAGTCTCCAACGCCTCCCGCAGCAGCCCGCCGCTCCCAGGTGCCCGCGTGCGCCGCTGCCGCCGCAATCCCGCACGCGTCCCGCGCCCGCCCCACTTTGCCTATCCCCGGGACTAAGACGGGAATCCTGTGAAGCAGCTCCAGCTATGTGTGAAGAAGAGGACAGCACTGCCTTGGTGTGTGACAATGGCTCTGGGCTCTGTAAGGCCGGCTTTGCTGGGGACGATGCTCCCAGGGCTGTTTTCCCATCCATTGTGGGACGTCCCAGACATCAGGGGGTGATGGTGGGAATGGGACAAAAAGACAGCTACGTGGGTGACGAAGCACAGAGCAAAAGAGGAATCCTGACCCTGAAGTACCCGATAGAACATGGCATCATCACCAACTGGGACGACATGGAAAAGATCTGGCACCACTCTTTCTACAATGAGCTTCGTGTTGCCCCTGAAGAGCATCCCACCCTGCTCACGGAGGCACCCCTGAACCCCAAGGCCAACCGGGAGAAAATGACTCAAATTATGTTTGAGACTTTCAATGTCCCAGCCATGTATGTGGCTATCCAGGCGGTGCTGTCTCTCTATGCCTCTGGACGCACAACTGGCATCGTGCTGGACTCTGGAGATGGTGTCACCCACAATGTCCCCATCTATGAGGGCTATGCCTTGCCCCATGCCATCATGCGTCTGGATCTGGCTGGCCGAGATCTCACTGACTACCTCATGAAGATCCTGACTGAGCGTGGCTATTCCTTCGTTACTACTGCTGAGCGTGAGATTGTCCGGGACATCAAGGAGAAACTGTGTTATGTAGCTCTGGACTTTGAAAATGAGATGGCCACTGCCGCATCCTCATCCTCCCTTGAGAAGAGTTACGAGTTGCCTGATGGGCAAGTGATCACCATCGGAAATGAACGTTTCCGCTGCCCAGAGACCCTGTTCCAGCCATCCTTCATCGGGATGGAGTCTGCTGGCATCCATGAAACCACCTACAACAGCATCATGAAGTGTGATATTGACATCAGGAAGGACCTCTATGCTAACAATGTCCTATCAGGGGGCACCACTATGTACCCTGGCATTGCCGACCGAATGCAGAAGGAGATCACGGCCCTAGCACCCAGCACCATGAAGATCAAGATCATTGCCCCTCCGGAGCGCAAATACTCTGTCTGGATCGGTGGCTCCATCCTGGCCTCTCTGTCCACCTTCCAGCAGATGTGGATCAGCAAACAGGAATACGATGAAGCCGGGCCTTCCATTGTCCACCGCAAATGCTTCTAAAACACTTTCCTGCTCCTCTCTGTCTCTAGCACACAACTGTGAATGTCCTGTGGAATTATGCCTTCAGTTCTTTTCCAAATCATTCCTAGCCAAAGCTCTGACTCGTTACCTATGTGTTTTTTAATAAATCTGAAATAGGCTACTGGTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|1003701536|ref|NM_001320855.1| Homo sapiens actin, alpha 2, smooth muscle, aorta (ACTA2), transcript variant 3, mRNA
GCAGGCTCTCTCCCCGCCCCCGCGGGGCGGCGCGCACTCACCCACCCGCGCCGGAGCGGACCTTTGGCTTGGCTTGTCAGGGCTTGTCCAGGAGTTCCGCTCCTCTCTCCAACCGGGGTCCCCCTCCAGCGACCCTAAAGCTTCCCAGACTTCCGCTTCAATTCCTGTCCGCACCCCACGCCCACCTCAACGTGGAGCGCAGTGGTCTCCGAGGAGCGCCGGAGCTGCCCCGCCTGCCCAGCGGGGTCAGCACTTCGCATCAAGGCCCAAGAAAAGCAAGTCCTCCAGCGTTCTGAGCACCCGGGCCTGAGGGAAGGTCCTAACAGCCCCCGGGAGCCAGTCTCCAACGCCTCCCGCAGCAGCCCGCCGCTCCCAGAATCCTGTGAAGCAGCTCCAGCTATGTGTGAAGAAGAGGACAGCACTGCCTTGGTGTGTGACAATGGCTCTGGGCTCTGTAAGGCCGGCTTTGCTGGGGACGATGCTCCCAGGGCTGTTTTCCCATCCATTGTGGGACGTCCCAGACATCAGGGGGTGATGGTGGGAATGGGACAAAAAGACAGCTACGTGGGTGACGAAGCACAGAGCAAAAGAGGAATCCTGACCCTGAAGTACCCGATAGAACATGGCATCATCACCAACTGGGACGACATGGAAAAGATCTGGCACCACTCTTTCTACAATGAGCTTCGTGTTGCCCCTGAAGAGCATCCCACCCTGCTCACGGAGGCACCCCTGAACCCCAAGGCCAACCGGGAGAAAATGACTCAAATTATGTTTGAGACTTTCAATGTCCCAGCCATGTATGTGGCTATCCAGGCGGTGCTGTCTCTCTATGCCTCTGGACGCACAACTGGCATCGTGCTGGACTCTGGAGATGGTGTCACCCACAATGTCCCCATCTATGAGGGCTATGCCTTGCCCCATGCCATCATGCGTCTGGATCTGGCTGGCCGAGATCTCACTGACTACCTCATGAAGATCCTGACTGAGCGTGGCTATTCCTTCGTTACTACTGCTGAGCGTGAGATTGTCCGGGACATCAAGGAGAAACTGTGTTATGTAGCTCTGGACTTTGAAAATGAGATGGCCACTGCCGCATCCTCATCCTCCCTTGAGAAGAGTTACGAGTTGCCTGATGGGCAAGTGATCACCATCGGAAATGAACGTTTCCGCTGCCCAGAGACCCTGTTCCAGCCATCCTTCATCGGGATGGAGTCTGCTGGCATCCATGAAACCACCTACAACAGCATCATGAAGTGTGATATTGACATCAGGAAGGACCTCTATGCTAACAATGTCCTATCAGGGGGCACCACTATGTACCCTGGCATTGCCGACCGAATGCAGAAGGAGATCACGGCCCTAGCACCCAGCACCATGAAGATCAAGATCATTGCCCCTCCGGAGCGCAAATACTCTGTCTGGATCGGTGGCTCCATCCTGGCCTCTCTGTCCACCTTCCAGCAGATGTGGATCAGCAAACAGGAATACGATGAAGCCGGGCCTTCCATTGTCCACCGCAAATGCTTCTAAAACACTTTCCTGCTCCTCTCTGTCTCTAGCACACAACTGTGAATGTCCTGTGGAATTATGCCTTCAGTTCTTTTCCAAATCATTCCTAGCCAAAGCTCTGACTCGTTACCTATGTGTTTTTTAATAAATCTGAAATAGGCTACTGGTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|998614202|ref|NM_004160.5| Homo sapiens peptide YY (PYY), mRNA
GCCCCTGGAGGAACTGAACCCACTATCGGTCATGGGGCCGAGACTAAATGTGGCGGGTTGTCTTTAATCTGCTGCCAAGAGGAAACTCATTCAGGCAAGTTCAGCCCTTTATGAGGAATTCCCCTGTGGTCACATTCCAATTCCTGGACCTGCTGCCACCCTCAGAACTGCATGCTCCTTCTTCAGACTTTCTAAGAATGACTCAGGTCATTGGTGGAGTGAAGTCAAGATTTCCAACTCAGTCACCTGAAGAGATGGAGATACCATTCATGGAGCTGGAGGTCCCTGGAGATTTGGGAATTCAGATAACAAGCTAAGATAAGGAGTTTGCCTACCTCTGTCCTAGAGCGAAGCCTGAGCCTTGGGCGCGCAGCACACCACAAGTATCTGTTACTGTGTTTTGCAGAAGCTTCAGGCGGGGATATAAGCCCCACAAGGAAAGCGCTGAGCAGAGGAGGCCTCAGCTTGACCTGCGGCAGTGCAGCCCTTGGGACTTCCCTCGCCTTCCACCTCCTGCTCGTCTGCTTCACAAGCTATCGCTATGGTGTTCGTGCGCAGGCCGTGGCCCGCCTTGACCACAGTGCTTCTGGCCCTGCTCGTCTGCCTAGGGGCGCTGGTCGACGCCTACCCCATCAAACCCGAGGCTCCCGGCGAAGACGCCTCGCCGGAGGAGCTGAACCGCTACTACGCCTCCCTGCGCCACTACCTCAACCTGGTCACCCGGCAGCGGTATGGGAAAAGAGACGGCCCGGACACGCTTCTTTCCAAAACGTTCTTCCCCGACGGCGAGGACCGCCCCGTCAGGTCGCGGTCGGAGGGCCCAGACCTGTGGTGAGGACCCCTGAGGCCTCCTGGGAGATCTGCCAACCACGCCCACGTCATTTGCATACGCACTCCCGACCCCAGAAACCCGGATTCTGCCTCCCGACGGCGGCGTCTGGGCAGGGTTCGGGTGCGGCCCTCCGCCCGCGTCTCGGTGCCCCCGCCCCCTGGGCTGGAGGGCTGTGTGTGGTCCTTCCCTGGTCCCAAAATAAAGAGCAAATTCCACAGAAACGGAAAAAAAAAAAAA
>gi|974987432|ref|NM_002423.4| Homo sapiens matrix metallopeptidase 7 (MMP7), mRNA
GAAAACACCAAATCAACCATAGGTCCAAGAACAATTGTCTCTGGACGGCAGCTATGCGACTCACCGTGCTGTGTGCTGTGTGCCTGCTGCCTGGCAGCCTGGCCCTGCCGCTGCCTCAGGAGGCGGGAGGCATGAGTGAGCTACAGTGGGAACAGGCTCAGGACTATCTCAAGAGATTTTATCTCTATGACTCAGAAACAAAAAATGCCAACAGTTTAGAAGCCAAACTCAAGGAGATGCAAAAATTCTTTGGCCTACCTATAACTGGAATGTTAAACTCCCGCGTCATAGAAATAATGCAGAAGCCCAGATGTGGAGTGCCAGATGTTGCAGAATACTCACTATTTCCAAATAGCCCAAAATGGACTTCCAAAGTGGTCACCTACAGGATCGTATCATATACTCGAGACTTACCGCATATTACAGTGGATCGATTAGTGTCAAAGGCTTTAAACATGTGGGGCAAAGAGATCCCCCTGCATTTCAGGAAAGTTGTATGGGGAACTGCTGACATCATGATTGGCTTTGCGCGAGGAGCTCATGGGGACTCCTACCCATTTGATGGGCCAGGAAACACGCTGGCTCATGCCTTTGCGCCTGGGACAGGTCTCGGAGGAGATGCTCACTTCGATGAGGATGAACGCTGGACGGATGGTAGCAGTCTAGGGATTAACTTCCTGTATGCTGCAACTCATGAACTTGGCCATTCTTTGGGTATGGGACATTCCTCTGATCCTAATGCAGTGATGTATCCAACCTATGGAAATGGAGATCCCCAAAATTTTAAACTTTCCCAGGATGATATTAAAGGCATTCAGAAACTATATGGAAAGAGAAGTAATTCAAGAAAGAAATAGAAACTTCAGGCAGAACATCCATTCATTCATTCATTGGATTGTATATCATTGTTGCACAATCAGAATTGATAAGCACTGTTCCTCCACTCCATTTAGCAATTATGTCACCCTTTTTTATTGCAGTTGGTTTTTGAATGTCTTTCACTCCTTTTAAGGATAAACTCCTTTATGGTGTGACTGTGTCTTATTCATCTATACTTGCAGTGGGTAGATGTCAATAAATGTTACATACACAAATAAATAAAATGTTTATTCCATGGTAAATTTAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|974005375|ref|NM_001004196.3| Homo sapiens CD200 molecule (CD200), transcript variant 2, mRNA
GTCAGTTTCCCCAGCGGTCACCTTTGAAAAGGGAAAAATGTCTGAAAATAGACAAAGCTGAATATAAACATCATTTAATTCCCCCCACACAGACAGCCTCCGCTCCTGTGAGGGCGTGGGGAAAACGGAGTGGGAGAAGGGGGCTAGCGAGGAGGAAGAGGCGGGAGGTGCGGCAGGGGCACAGGTGACGCTCCTCCCGCCTGCCTAGCAGAGCTCCAGGCGCACATCCGCAGTCAGCCACCTCGCGCGCGCCTCCAGGAGCAAGGATGGAGAGGCTGACTCTGACCAGGACAATTGGGGGCCCTCTCCTTACAGCTACACTCCTAGGAAAGACCACCATCAATGATTACCAGGTGATCAGGATGCCCTTCTCTCATCTGTCTACCTACAGCCTGGTTTGGGTCATGGCAGCAGTGGTGCTGTGCACAGCACAAGTGCAAGTGGTGACCCAGGATGAAAGAGAGCAGCTGTACACACCTGCTTCCTTAAAATGCTCTCTGCAAAATGCCCAGGAAGCCCTCATTGTGACATGGCAGAAAAAGAAAGCTGTAAGCCCAGAAAACATGGTCACCTTCAGCGAGAACCATGGGGTGGTGATCCAGCCTGCCTATAAGGACAAGATAAACATTACCCAGCTGGGACTCCAAAACTCAACCATCACCTTCTGGAATATCACCCTGGAGGATGAAGGGTGTTACATGTGTCTCTTCAATACCTTTGGTTTTGGGAAGATCTCAGGAACGGCCTGCCTCACCGTCTATGTACAGCCCATAGTATCCCTTCACTACAAATTCTCTGAAGACCACCTAAATATCACTTGCTCTGCCACTGCCCGCCCAGCCCCCATGGTCTTCTGGAAGGTCCCTCGGTCAGGGATTGAAAATAGTACAGTGACTCTGTCTCACCCAAATGGGACCACGTCTGTTACCAGCATCCTCCATATCAAAGACCCTAAGAATCAGGTGGGGAAGGAGGTGATCTGCCAGGTGCTGCACCTGGGGACTGTGACCGACTTTAAGCAAACCGTCAACAAAGGCTATTGGTTTTCAGTTCCGCTATTGCTAAGCATTGTTTCCCTGGTAATTCTTCTCGTCCTAATCTCAATCTTACTGTACTGGAAACGTCACCGGAATCAGGACCGAGAGCCCTAAATAAGTCACACAGCACCCTGAAAGTGATTCCCTGGTCTACTTGAATTTGACACAAGAGAAAAGCAGGAGGAAAAGGGGCCATTCTCCAAAGGACCTGAAAGAGCAAAAGAGGTGGGAGCGAAAGCCTTAAGGATCCCACGACTTTTTACTGCCATCTGAGCTACTCAGTGTTTGAATCCCAAGAGGAAGTCAGTTTACCTCTCAGGTCTGTTGTAGGACTTGATTTTGTAAAGCAATGCCATGTTATGTGGTTGAAAGGGCACTGGACTTAGTTAGTATCAGGAGCACTGAGCTCACAGACTGACTTGGGCTCCTACTGGTGGGGACCTCTGTTAGTCACTTTACCTCATCCAAAGTATAAAGGAATTGGACCAAATAATTTACCACATAGCTCTAAAACTTAATTTAAAATGTAATTCCAGAAAAAAAAAGGGAATAAGCAAAGGGGGAAGAATTGAAAGAGAGAGAGAAGAAAGAATACAGAGAGCTTACCTTTTGCCTTTCTGTTGATGTTACATCTCTTCTTCCTATGTTCTTAGGTCTATGAGTCTGTTTCCCCATCATTTGGTATCTAGTCCAGTTCCTGCTTACTGCTTTGCTAATAGCTGGCCTTGCTAGAATCCTTGGTTTCACTGCTGTTCTTCATGTGCTTCTATGAGATTTACTCCAACACAAATAGGACTGAATTTATTGTGAAGTAACATTGGCAATCTTAACTTATTCATTTAACTTATTTTTATAGCTAGATAAATATTGTTAGTCTTAGACAATAGCTCACATTTTTTGAGAAGCATGCCCTCCCTGTCCATTTGTCTTATAACATGACCCAGCCCTATTTTACGTCATTCTAAATTCAGCCTCATATAATGAAAATACATTATGAAAACAGATGTTTAGGAGATTTCCTGTATAGCAGTCAGCCAATTCATATGCTTTGTCTCTGCTGGCTTCTTTTTCCATGCGTTAACTTTTCCCAATAGCAGAGGAGGCAAATATGAGCATACAATCCCTTTGTTCTAAAGATATTGTTCCAGCTAGTGGAATGATGTTGAATCTTTAATAACCATAATTAGTTGCTTTTTCAGTATCTTCTGCTTTGTCTGTGTCTATCCAGTGGCCTAGGAATTAAAGTGTAAGTTGTTTTCGCTGTTAAATTGGATATTTATATATATATATAGCAAGATTTTCATGTGTTATTTAATTCTGTATTGTTTCTTATATTTGTAGTAAAATATTGAACAATTAAAAGTGTTGACTCCAAAAAAAAAAAAA
>gi|974005372|ref|NM_005944.6| Homo sapiens CD200 molecule (CD200), transcript variant 1, mRNA
GTCAGTTTCCCCAGCGGTCACCTTTGAAAAGGGAAAAATGTCTGAAAATAGACAAAGCTGAATATAAACATCATTTAATTCCCCCCACACAGACAGCCTCCGCTCCTGTGAGGGCGTGGGGAAAACGGAGTGGGAGAAGGGGGCTAGCGAGGAGGAAGAGGCGGGAGGTGCGGCAGGGGCACAGGTGACGCTCCTCCCGCCTGCCTAGCAGAGCTCCAGGCGCACATCCGCAGTCAGCCACCTCGCGCGCGCCTCCAGGAGCAAGGATGGAGAGGCTGGTGATCAGGATGCCCTTCTCTCATCTGTCTACCTACAGCCTGGTTTGGGTCATGGCAGCAGTGGTGCTGTGCACAGCACAAGTGCAAGTGGTGACCCAGGATGAAAGAGAGCAGCTGTACACACCTGCTTCCTTAAAATGCTCTCTGCAAAATGCCCAGGAAGCCCTCATTGTGACATGGCAGAAAAAGAAAGCTGTAAGCCCAGAAAACATGGTCACCTTCAGCGAGAACCATGGGGTGGTGATCCAGCCTGCCTATAAGGACAAGATAAACATTACCCAGCTGGGACTCCAAAACTCAACCATCACCTTCTGGAATATCACCCTGGAGGATGAAGGGTGTTACATGTGTCTCTTCAATACCTTTGGTTTTGGGAAGATCTCAGGAACGGCCTGCCTCACCGTCTATGTACAGCCCATAGTATCCCTTCACTACAAATTCTCTGAAGACCACCTAAATATCACTTGCTCTGCCACTGCCCGCCCAGCCCCCATGGTCTTCTGGAAGGTCCCTCGGTCAGGGATTGAAAATAGTACAGTGACTCTGTCTCACCCAAATGGGACCACGTCTGTTACCAGCATCCTCCATATCAAAGACCCTAAGAATCAGGTGGGGAAGGAGGTGATCTGCCAGGTGCTGCACCTGGGGACTGTGACCGACTTTAAGCAAACCGTCAACAAAGGCTATTGGTTTTCAGTTCCGCTATTGCTAAGCATTGTTTCCCTGGTAATTCTTCTCGTCCTAATCTCAATCTTACTGTACTGGAAACGTCACCGGAATCAGGACCGAGAGCCCTAAATAAGTCACACAGCACCCTGAAAGTGATTCCCTGGTCTACTTGAATTTGACACAAGAGAAAAGCAGGAGGAAAAGGGGCCATTCTCCAAAGGACCTGAAAGAGCAAAAGAGGTGGGAGCGAAAGCCTTAAGGATCCCACGACTTTTTACTGCCATCTGAGCTACTCAGTGTTTGAATCCCAAGAGGAAGTCAGTTTACCTCTCAGGTCTGTTGTAGGACTTGATTTTGTAAAGCAATGCCATGTTATGTGGTTGAAAGGGCACTGGACTTAGTTAGTATCAGGAGCACTGAGCTCACAGACTGACTTGGGCTCCTACTGGTGGGGACCTCTGTTAGTCACTTTACCTCATCCAAAGTATAAAGGAATTGGACCAAATAATTTACCACATAGCTCTAAAACTTAATTTAAAATGTAATTCCAGAAAAAAAAAGGGAATAAGCAAAGGGGGAAGAATTGAAAGAGAGAGAGAAGAAAGAATACAGAGAGCTTACCTTTTGCCTTTCTGTTGATGTTACATCTCTTCTTCCTATGTTCTTAGGTCTATGAGTCTGTTTCCCCATCATTTGGTATCTAGTCCAGTTCCTGCTTACTGCTTTGCTAATAGCTGGCCTTGCTAGAATCCTTGGTTTCACTGCTGTTCTTCATGTGCTTCTATGAGATTTACTCCAACACAAATAGGACTGAATTTATTGTGAAGTAACATTGGCAATCTTAACTTATTCATTTAACTTATTTTTATAGCTAGATAAATATTGTTAGTCTTAGACAATAGCTCACATTTTTTGAGAAGCATGCCCTCCCTGTCCATTTGTCTTATAACATGACCCAGCCCTATTTTACGTCATTCTAAATTCAGCCTCATATAATGAAAATACATTATGAAAACAGATGTTTAGGAGATTTCCTGTATAGCAGTCAGCCAATTCATATGCTTTGTCTCTGCTGGCTTCTTTTTCCATGCGTTAACTTTTCCCAATAGCAGAGGAGGCAAATATGAGCATACAATCCCTTTGTTCTAAAGATATTGTTCCAGCTAGTGGAATGATGTTGAATCTTTAATAACCATAATTAGTTGCTTTTTCAGTATCTTCTGCTTTGTCTGTGTCTATCCAGTGGCCTAGGAATTAAAGTGTAAGTTGTTTTCGCTGTTAAATTGGATATTTATATATATATATAGCAAGATTTTCATGTGTTATTTAATTCTGTATTGTTTCTTATATTTGTAGTAAAATATTGAACAATTAAAAGTGTTGACTCCAAAAAAAAAAAAA
>gi|973353088|ref|NM_002026.3| Homo sapiens fibronectin 1 (FN1), transcript variant 3, mRNA
GCCCGCGCCGGCTGTGCTGCACAGGGGGAGGAGAGGGAACCCCAGGCGCGAGCGGGAAGAGGGGACCTGCAGCCACAACTTCTCTGGTCCTCTGCATCCCTTCTGTCCCTCCACCCGTCCCCTTCCCCACCCTCTGGCCCCCACCTTCTTGGAGGCGACAACCCCCGGGAGGCATTAGAAGGGATTTTTCCCGCAGGTTGCGAAGGGAAGCAAACTTGGTGGCAACTTGCCTCCCGGTGCGGGCGTCTCTCCCCCACCGTCTCAACATGCTTAGGGGTCCGGGGCCCGGGCTGCTGCTGCTGGCCGTCCAGTGCCTGGGGACAGCGGTGCCCTCCACGGGAGCCTCGAAGAGCAAGAGGCAGGCTCAGCAAATGGTTCAGCCCCAGTCCCCGGTGGCTGTCAGTCAAAGCAAGCCCGGTTGTTATGACAATGGAAAACACTATCAGATAAATCAACAGTGGGAGCGGACCTACCTAGGCAATGCGTTGGTTTGTACTTGTTATGGAGGAAGCCGAGGTTTTAACTGCGAGAGTAAACCTGAAGCTGAAGAGACTTGCTTTGACAAGTACACTGGGAACACTTACCGAGTGGGTGACACTTATGAGCGTCCTAAAGACTCCATGATCTGGGACTGTACCTGCATCGGGGCTGGGCGAGGGAGAATAAGCTGTACCATCGCAAACCGCTGCCATGAAGGGGGTCAGTCCTACAAGATTGGTGACACCTGGAGGAGACCACATGAGACTGGTGGTTACATGTTAGAGTGTGTGTGTCTTGGTAATGGAAAAGGAGAATGGACCTGCAAGCCCATAGCTGAGAAGTGTTTTGATCATGCTGCTGGGACTTCCTATGTGGTCGGAGAAACGTGGGAGAAGCCCTACCAAGGCTGGATGATGGTAGATTGTACTTGCCTGGGAGAAGGCAGCGGACGCATCACTTGCACTTCTAGAAATAGATGCAACGATCAGGACACAAGGACATCCTATAGAATTGGAGACACCTGGAGCAAGAAGGATAATCGAGGAAACCTGCTCCAGTGCATCTGCACAGGCAACGGCCGAGGAGAGTGGAAGTGTGAGAGGCACACCTCTGTGCAGACCACATCGAGCGGATCTGGCCCCTTCACCGATGTTCGTGCAGCTGTTTACCAACCGCAGCCTCACCCCCAGCCTCCTCCCTATGGCCACTGTGTCACAGACAGTGGTGTGGTCTACTCTGTGGGGATGCAGTGGCTGAAGACACAAGGAAATAAGCAAATGCTTTGCACGTGCCTGGGCAACGGAGTCAGCTGCCAAGAGACAGCTGTAACCCAGACTTACGGTGGCAACTCAAATGGAGAGCCATGTGTCTTACCATTCACCTACAATGGCAGGACGTTCTACTCCTGCACCACAGAAGGGCGACAGGACGGACATCTTTGGTGCAGCACAACTTCGAATTATGAGCAGGACCAGAAATACTCTTTCTGCACAGACCACACTGTTTTGGTTCAGACTCGAGGAGGAAATTCCAATGGTGCCTTGTGCCACTTCCCCTTCCTATACAACAACCACAATTACACTGATTGCACTTCTGAGGGCAGAAGAGACAACATGAAGTGGTGTGGGACCACACAGAACTATGATGCCGACCAGAAGTTTGGGTTCTGCCCCATGGCTGCCCACGAGGAAATCTGCACAACCAATGAAGGGGTCATGTACCGCATTGGAGATCAGTGGGATAAGCAGCATGACATGGGTCACATGATGAGGTGCACGTGTGTTGGGAATGGTCGTGGGGAATGGACATGCATTGCCTACTCGCAGCTTCGAGATCAGTGCATTGTTGATGACATCACTTACAATGTGAACGACACATTCCACAAGCGTCATGAAGAGGGGCACATGCTGAACTGTACATGCTTCGGTCAGGGTCGGGGCAGGTGGAAGTGTGATCCCGTCGACCAATGCCAGGATTCAGAGACTGGGACGTTTTATCAAATTGGAGATTCATGGGAGAAGTATGTGCATGGTGTCAGATACCAGTGCTACTGCTATGGCCGTGGCATTGGGGAGTGGCATTGCCAACCTTTACAGACCTATCCAAGCTCAAGTGGTCCTGTCGAAGTATTTATCACTGAGACTCCGAGTCAGCCCAACTCCCACCCCATCCAGTGGAATGCACCACAGCCATCTCACATTTCCAAGTACATTCTCAGGTGGAGACCTAAAAATTCTGTAGGCCGTTGGAAGGAAGCTACCATACCAGGCCACTTAAACTCCTACACCATCAAAGGCCTGAAGCCTGGTGTGGTATACGAGGGCCAGCTCATCAGCATCCAGCAGTACGGCCACCAAGAAGTGACTCGCTTTGACTTCACCACCACCAGCACCAGCACACCTGTGACCAGCAACACCGTGACAGGAGAGACGACTCCCTTTTCTCCTCTTGTGGCCACTTCTGAATCTGTGACCGAAATCACAGCCAGTAGCTTTGTGGTCTCCTGGGTCTCAGCTTCCGACACCGTGTCGGGATTCCGGGTGGAATATGAGCTGAGTGAGGAGGGAGATGAGCCACAGTACCTGGATCTTCCAAGCACAGCCACTTCTGTGAACATCCCTGACCTGCTTCCTGGCCGAAAATACATTGTAAATGTCTATCAGATATCTGAGGATGGGGAGCAGAGTTTGATCCTGTCTACTTCACAAACAACAGCGCCTGATGCCCCTCCTGACCCGACTGTGGACCAAGTTGATGACACCTCAATTGTTGTTCGCTGGAGCAGACCCCAGGCTCCCATCACAGGGTACAGAATAGTCTATTCGCCATCAGTAGAAGGTAGCAGCACAGAACTCAACCTTCCTGAAACTGCAAACTCCGTCACCCTCAGTGACTTGCAACCTGGTGTTCAGTATAACATCACTATCTATGCTGTGGAAGAAAATCAAGAAAGTACACCTGTTGTCATTCAACAAGAAACCACTGGCACCCCACGCTCAGATACAGTGCCCTCTCCCAGGGACCTGCAGTTTGTGGAAGTGACAGACGTGAAGGTCACCATCATGTGGACACCGCCTGAGAGTGCAGTGACCGGCTACCGTGTGGATGTGATCCCCGTCAACCTGCCTGGCGAGCACGGGCAGAGGCTGCCCATCAGCAGGAACACCTTTGCAGAAGTCACCGGGCTGTCCCCTGGGGTCACCTATTACTTCAAAGTCTTTGCAGTGAGCCATGGGAGGGAGAGCAAGCCTCTGACTGCTCAACAGACAACCAAACTGGATGCTCCCACTAACCTCCAGTTTGTCAATGAAACTGATTCTACTGTCCTGGTGAGATGGACTCCACCTCGGGCCCAGATAACAGGATACCGACTGACCGTGGGCCTTACCCGAAGAGGACAGCCCAGGCAGTACAATGTGGGTCCCTCTGTCTCCAAGTACCCACTGAGGAATCTGCAGCCTGCATCTGAGTACACCGTATCCCTCGTGGCCATAAAGGGCAACCAAGAGAGCCCCAAAGCCACTGGAGTCTTTACCACACTGCAGCCTGGGAGCTCTATTCCACCTTACAACACCGAGGTGACTGAGACCACCATTGTGATCACATGGACGCCTGCTCCAAGAATTGGTTTTAAGCTGGGTGTACGACCAAGCCAGGGAGGAGAGGCACCACGAGAAGTGACTTCAGACTCAGGAAGCATCGTTGTGTCCGGCTTGACTCCAGGAGTAGAATACGTCTACACCATCCAAGTCCTGAGAGATGGACAGGAAAGAGATGCGCCAATTGTAAACAAAGTGGTGACACCATTGTCTCCACCAACAAACTTGCATCTGGAGGCAAACCCTGACACTGGAGTGCTCACAGTCTCCTGGGAGAGGAGCACCACCCCAGACATTACTGGTTATAGAATTACCACAACCCCTACAAACGGCCAGCAGGGAAATTCTTTGGAAGAAGTGGTCCATGCTGATCAGAGCTCCTGCACTTTTGATAACCTGAGTCCCGGCCTGGAGTACAATGTCAGTGTTTACACTGTCAAGGATGACAAGGAAAGTGTCCCTATCTCTGATACCATCATCCCAGCTGTTCCTCCTCCCACTGACCTGCGATTCACCAACATTGGTCCAGACACCATGCGTGTCACCTGGGCTCCACCCCCATCCATTGATTTAACCAACTTCCTGGTGCGTTACTCACCTGTGAAAAATGAGGAAGATGTTGCAGAGTTGTCAATTTCTCCTTCAGACAATGCAGTGGTCTTAACAAATCTCCTGCCTGGTACAGAATATGTAGTGAGTGTCTCCAGTGTCTACGAACAACATGAGAGCACACCTCTTAGAGGAAGACAGAAAACAGGTCTTGATTCCCCAACTGGCATTGACTTTTCTGATATTACTGCCAACTCTTTTACTGTGCACTGGATTGCTCCTCGAGCCACCATCACTGGCTACAGGATCCGCCATCATCCCGAGCACTTCAGTGGGAGACCTCGAGAAGATCGGGTGCCCCACTCTCGGAATTCCATCACCCTCACCAACCTCACTCCAGGCACAGAGTATGTGGTCAGCATCGTTGCTCTTAATGGCAGAGAGGAAAGTCCCTTATTGATTGGCCAACAATCAACAGTTTCTGATGTTCCGAGGGACCTGGAAGTTGTTGCTGCGACCCCCACCAGCCTACTGATCAGCTGGGATGCTCCTGCTGTCACAGTGAGATATTACAGGATCACTTACGGAGAGACAGGAGGAAATAGCCCTGTCCAGGAGTTCACTGTGCCTGGGAGCAAGTCTACAGCTACCATCAGCGGCCTTAAACCTGGAGTTGATTATACCATCACTGTGTATGCTGTCACTGGCCGTGGAGACAGCCCCGCAAGCAGCAAGCCAATTTCCATTAATTACCGAACAGAAATTGACAAACCATCCCAGATGCAAGTGACCGATGTTCAGGACAACAGCATTAGTGTCAAGTGGCTGCCTTCAAGTTCCCCTGTTACTGGTTACAGAGTAACCACCACTCCCAAAAATGGACCAGGACCAACAAAAACTAAAACTGCAGGTCCAGATCAAACAGAAATGACTATTGAAGGCTTGCAGCCCACAGTGGAGTATGTGGTTAGTGTCTATGCTCAGAATCCAAGCGGAGAGAGTCAGCCTCTGGTTCAGACTGCAGTAACCAACATTGATCGCCCTAAAGGACTGGCATTCACTGATGTGGATGTCGATTCCATCAAAATTGCTTGGGAAAGCCCACAGGGGCAAGTTTCCAGGTACAGGGTGACCTACTCGAGCCCTGAGGATGGAATCCATGAGCTATTCCCTGCACCTGATGGTGAAGAAGACACTGCAGAGCTGCAAGGCCTCAGACCGGGTTCTGAGTACACAGTCAGTGTGGTTGCCTTGCACGATGATATGGAGAGCCAGCCCCTGATTGGAACCCAGTCCACAGCTATTCCTGCACCAACTGACCTGAAGTTCACTCAGGTCACACCCACAAGCCTGAGCGCCCAGTGGACACCACCCAATGTTCAGCTCACTGGATATCGAGTGCGGGTGACCCCCAAGGAGAAGACCGGACCAATGAAAGAAATCAACCTTGCTCCTGACAGCTCATCCGTGGTTGTATCAGGACTTATGGTGGCCACCAAATATGAAGTGAGTGTCTATGCTCTTAAGGACACTTTGACAAGCAGACCAGCTCAGGGAGTTGTCACCACTCTGGAGAATGTCAGCCCACCAAGAAGGGCTCGTGTGACAGATGCTACTGAGACCACCATCACCATTAGCTGGAGAACCAAGACTGAGACGATCACTGGCTTCCAAGTTGATGCCGTTCCAGCCAATGGCCAGACTCCAATCCAGAGAACCATCAAGCCAGATGTCAGAAGCTACACCATCACAGGTTTACAACCAGGCACTGACTACAAGATCTACCTGTACACCTTGAATGACAATGCTCGGAGCTCCCCTGTGGTCATCGACGCCTCCACTGCCATTGATGCACCATCCAACCTGCGTTTCCTGGCCACCACACCCAATTCCTTGCTGGTATCATGGCAGCCGCCACGTGCCAGGATTACCGGCTACATCATCAAGTATGAGAAGCCTGGGTCTCCTCCCAGAGAAGTGGTCCCTCGGCCCCGCCCTGGTGTCACAGAGGCTACTATTACTGGCCTGGAACCGGGAACCGAATATACAATTTATGTCATTGCCCTGAAGAATAATCAGAAGAGCGAGCCCCTGATTGGAAGGAAAAAGACAGACGAGCTTCCCCAACTGGTAACCCTTCCACACCCCAATCTTCATGGACCAGAGATCTTGGATGTTCCTTCCACAGTTCAAAAGACCCCTTTCGTCACCCACCCTGGGTATGACACTGGAAATGGTATTCAGCTTCCTGGCACTTCTGGTCAGCAACCCAGTGTTGGGCAACAAATGATCTTTGAGGAACATGGTTTTAGGCGGACCACACCGCCCACAACGGCCACCCCCATAAGGCATAGGCCAAGACCATACCCGCCGAATGTAGGACAAGAAGCTCTCTCTCAGACAACCATCTCATGGGCCCCATTCCAGGACACTTCTGAGTACATCATTTCATGTCATCCTGTTGGCACTGATGAAGAACCCTTACAGTTCAGGGTTCCTGGAACTTCTACCAGTGCCACTCTGACAGGCCTCACCAGAGGTGCCACCTACAACATCATAGTGGAGGCACTGAAAGACCAGCAGAGGCATAAGGTTCGGGAAGAGGTTGTTACCGTGGGCAACTCTGTCAACGAAGGCTTGAACCAACCTACGGATGACTCGTGCTTTGACCCCTACACAGTTTCCCATTATGCCGTTGGAGATGAGTGGGAACGAATGTCTGAATCAGGCTTTAAACTGTTGTGCCAGTGCTTAGGCTTTGGAAGTGGTCATTTCAGATGTGATTCATCTAGATGGTGCCATGACAATGGTGTGAACTACAAGATTGGAGAGAAGTGGGACCGTCAGGGAGAAAATGGCCAGATGATGAGCTGCACATGTCTTGGGAACGGAAAAGGAGAATTCAAGTGTGACCCTCATGAGGCAACGTGTTATGATGATGGGAAGACATACCACGTAGGAGAACAGTGGCAGAAGGAATATCTCGGTGCCATTTGCTCCTGCACATGCTTTGGAGGCCAGCGGGGCTGGCGCTGTGACAACTGCCGCAGACCTGGGGGTGAACCCAGTCCCGAAGGCACTACTGGCCAGTCCTACAACCAGTATTCTCAGAGATACCATCAGAGAACAAACACTAATGTTAATTGCCCAATTGAGTGCTTCATGCCTTTAGATGTACAGGCTGACAGAGAAGATTCCCGAGAGTAAATCATCTTTCCAATCCAGAGGAACAAGCATGTCTCTCTGCCAAGATCCATCTAAACTGGAGTGATGTTAGCAGACCCAGCTTAGAGTTCTTCTTTCTTTCTTAAGCCCTTTGCTCTGGAGGAAGTTCTCCAGCTTCAGCTCAACTCACAGCTTCTCCAAGCATCACCCTGGGAGTTTCCTGAGGGTTTTCTCATAAATGAGGGCTGCACATTGCCTGTTCTGCTTCGAAGTATTCAATACCGCTCAGTATTTTAAATGAAGTGATTCTAAGATTTGGTTTGGGATCAATAGGAAAGCATATGCAGCCAACCAAGATGCAAATGTTTTGAAATGATATGACCAAAATTTTAAGTAGGAAAGTCACCCAAACACTTCTGCTTTCACTTAAGTGTCTGGCCCGCAATACTGTAGGAACAAGCATGATCTTGTTACTGTGATATTTTAAATATCCACAGTACTCACTTTTTCCAAATGATCCTAGTAATTGCCTAGAAATATCTTTCTCTTACCTGTTATTTATCAATTTTTCCCAGTATTTTTATACGGAAAAAATTGTATTGAAAACACTTAGTATGCAGTTGATAAGAGGAATTTGGTATAATTATGGTGGGTGATTATTTTTTATACTGTATGTGCCAAAGCTTTACTACTGTGGAAAGACAACTGTTTTAATAAAAGATTTACATTCCACAACTTGAAGTTCATCTATTTGATATAAGACACCTTCGGGGGAAATAATTCCTGTGAATATTCTTTTTCAATTCAGCAAACATTTGAAAATCTATGATGTGCAAGTCTAATTGTTGATTTCAGTACAAGATTTTCTAAATCAGTTGCTACAAAAACTGATTGGTTTTTGTCACTTCATCTCTTCACTAATGGAGATAGCTTTACACTTTCTGCTTTAATAGATTTAAGTGGACCCCAATATTTATTAAAATTGCTAGTTTACCGTTCAGAAGTATAATAGAAATAATCTTTAGTTGCTCTTTTCTAACCATTGTAATTCTTCCCTTCTTCCCTCCACCTTTCCTTCATTGAATAAACCTCTGTTCAAAGAGATTGCCTGCAAGGGAAATAAAAATGACTAAGATATTAAAAGTATTTGAATAGTAAAAAAAAAAAAAAAAAAA
>gi|970259879|ref|NM_032562.4| Homo sapiens phospholipase A2 group XIIB (PLA2G12B), transcript variant 1, mRNA
GAACAGACAGATTGAATGTTCCAGATAATCCCTTTCCCAGTCCTGCCTGACATCTGGGTAGGGGGTTTGTCCCTGGAATTCTGGGACACTGGCTGGGGTTTGAGGAGAGAAGCCAGTACCTACCTGGCTGCAGGATGAAGCTGGCCAGTGGCTTCTTGGTTTTGTGGCTCAGCCTTGGGGGTGGCCTGGCTCAGAGCGACACGAGCCCTGACACGGAGGAGTCCTATTCAGACTGGGGCCTTCGGCACCTCCGGGGAAGCTTTGAATCCGTCAATAGCTACTTCGATTCTTTTCTGGAGCTGCTGGGAGGGAAGAATGGAGTCTGTCAGTACAGGTGCCGATATGGAAAGGCACCAATGCCCAGACCTGGCTACAAGCCCCAAGAGCCCAATGGCTGCGGCTCCTATTTCCTGGGTCTCAAGGTACCAGAAAGTATGGACTTGGGCATTCCAGCAATGACAAAGTGCTGCAACCAGCTGGATGTCTGTTATGACACTTGCGGTGCCAACAAATATCGCTGTGATGCAAAATTCCGATGGTGTCTCCACTCGATCTGCTCTGACCTTAAGCGGAGTCTGGGCTTTGTCTCCAAAGTGGAAGCAGCCTGTGATTCCCTGGTTGACACTGTGTTCAACACCGTGTGGACCTTGGGCTGCCGCCCCTTTATGAATAGTCAGCGGGCAGCTTGCATCTGTGCAGAGGAGGAGAAGGAAGAGTTATGAGGAAGAAGTGATTCCTTCCTGGTTTTGAGTGACACCACAGCTGTCAGCCTTCAAGATGTCAAGTCTTCGAGTCAGCGTGACTCATTCGTTCTTCCAACAGTTTGGACACCACAAAGCAGGAGAAAGGGAACATTTTTCTACAGCTGGAAAGTGAGTCCTATCCTTTGAGGAAATTTGAAAAAAGACATGGAGTGGTTTGAAAGCTACTCTTCATTTAAGACTGCTCTCCCCAACCAAGACACATTTGCCTGGAAATTCAGTTCTTAGCTTAAAGACTAAAATGCAAGCAAACCCTGCAATTCCTGGACCTGATAGTTATATTCATGAGTGAAATTGTGGGGAGTCCAGCCATTTGGGAGGCAATGACTTTCTGCTGGCCCATGTTTCAGTTGCCAGTAAGCTTCTCACATTTAATAAAGTGTACTTTTTAGAACATTTGGAAAGAGATGAATGAATTCCATTATCACCAATGTGCTTCCATTTCACTTAGAAGAGACCAAAACTGAACCTGGTAAGTTCCACCAATGACCACAGTTATTCCCACTGATGCTAAACAGAGAAAAACAGGTGGGCAGGCTCAGAGGCTTACCTGATTAAGGCCAACGGAGGGGAAGGTCAGATGGAATTAGGTCTCTGAGGATTCATTTTTCCCTCCGGTGACCTACCCCATTGGTATTCCCAGTTACTAAATGGTGTTAGAGTCATGCTAAGATCTGAGATGTACTTGCTAAGAGTTACTGATGGAGCTAGCTAGGAAAAGTCCCTGCAGCCTGTCGGGAGTGAGAGACAAGTGGCCATTCCCTAACTTGCGGGTCTCAAGCCTAACTATGGATTAGAATCACCTGAGGATCCTTT
>gi|950426352|ref|NM_030782.4| Homo sapiens CLPTM1 like (CLPTM1L), mRNA
GGCGCGCGGGGCCGGCGAATCCCGCGGCGCCAGGTGGGAGCGGGGCCGGAGCATGCGGGGCGGCCGGCGGTCTGCGGCGCGCGGCGCATTCGTTCCCCCGCGGCGGTGGCGGTGGCGCGCGGCGGCTCTCCAGTGAGCGGCGGAGCCCGGAGCGGCGGGCTGGGCGCCGGGCGGGCGGGGCTCGCGGCTGAGAGGCGGGCGGGCCGGGGGCGCCGGGCGCGGGGCCGCCATGTGGAGCGGCCGCAGCTCCTTCACCAGCTTGGTGGTGGGCGTGTTCGTGGTCTACGTGGTGCACACCTGCTGGGTCATGTACGGCATCGTCTACACCCGCCCGTGCTCCGGCGACGCCAACTGCATCCAGCCCTACCTGGCGCGGCGGCCCAAGCTGCAGCTGAGCGTGTACACCACGACGAGGTCCCACCTGGGTGCTGAGAACAACATCGACCTGGTCTTGAATGTGGAAGACTTTGATGTGGAGTCCAAATTTGAAAGGACAGTTAATGTTTCTGTACCAAAGAAAACGAGAAACAATGGGACGCTGTATGCCTACATCTTCCTCCATCACGCTGGGGTCCTGCCGTGGCACGACGGGAAGCAGGTGCACCTGGTCAGTCCTCTGACCACCTACATGGTCCCCAAGCCAGAAGAAATCAACCTGCTCACCGGGGAGTCTGATACACAGCAGATCGAGGCGGAGAAGAAGCCGACGAGTGCCCTGGATGAGCCAGTGTCCCACTGGCGACCGCGGCTGGCGCTGAACGTGATGGCGGACAACTTTGTCTTTGACGGGTCCTCCCTGCCTGCCGATGTGCATCGGTACATGAAGATGATCCAGCTGGGGAAAACCGTGCATTACCTGCCCATCCTGTTCATCGACCAGCTCAGCAACCGCGTGAAGGACCTGATGGTCATAAACCGCTCCACCACCGAGCTGCCCCTCACCGTGTCCTACGACAAGGTCTCACTGGGGCGGCTGCGCTTCTGGATCCACATGCAGGACGCCGTGTACTCCCTGCAGCAGTTCGGGTTTTCAGAGAAAGATGCTGATGAGGTGAAAGGAATTTTTGTAGATACCAACTTATACTTCCTGGCGCTGACCTTCTTTGTCGCAGCGTTCCATCTTCTCTTTGATTTCCTGGCCTTTAAAAATGACATCAGTTTCTGGAAGAAGAAGAAGAGCATGATCGGCATGTCCACCAAGGCAGTGCTCTGGCGCTGCTTCAGCACCGTGGTCATCTTTCTGTTCCTGCTGGACGAGCAGACGAGCCTGCTGGTGCTGGTCCCGGCGGGTGTTGGAGCCGCCATTGAGCTGTGGAAAGTGAAGAAGGCATTGAAGATGACTATTTTTTGGAGAGGCCTGATGCCCGAATTTCAGTTTGGCACTTACAGCGAATCTGAGAGGAAAACCGAGGAGTACGATACTCAGGCCATGAAGTACTTGTCATACCTGCTGTACCCTCTCTGTGTCGGGGGTGCTGTCTATTCACTCCTGAATATCAAATATAAGAGCTGGTACTCCTGGTTAATCAACAGCTTCGTCAACGGGGTCTATGCCTTTGGTTTCCTCTTCATGCTGCCCCAGCTCTTTGTGAACTACAAGTTGAAGTCAGTGGCACATCTGCCCTGGAAGGCCTTCACCTACAAGGCTTTCAACACCTTCATTGATGACGTCTTTGCCTTCATCATCACCATGCCCACGTCTCACCGGCTGGCCTGCTTCCGGGACGACGTGGTGTTTCTGGTCTACCTGTACCAGCGGTGGCTTTATCCTGTGGATAAACGCAGAGTGAACGAGTTTGGGGAGTCCTACGAGGAGAAGGCCACGCGGGCGCCCCACACGGACTGAAGGCCGCCCGGGCTGCCGCCAGCCAAGTGCAACTTGAATTGTCAATGAGTATTTTTGGAAGCATTTGGAGGAATTCCTAGACATTGCGTTTTCTGTGTTGCCAAAATCCCTTCGGACATTTCTCAGACATCTCCCAAGTTCCCATCACGTCAGATTTGGAGCTGGTAGCGCTTACGATGCCCCCACGTGTGAACATCTGTCTTGGTCACAGAGCTGGGTGCTGCCGGTCACCTTGAGCTGTGGTGGCTCCCGGCACACGAGTGTCCGGGGTTCGGCCATGTCCTCACGCGGGCAGGGGTGGGAGCCCTCACAGGCAAGGGGGCTGTTGGATTTCCATTTCAGGTGGTTTTCTAAGTGCTCCTTATGTGAATTTCAAACACGTATGGAATTCATTCCGCATGGACTCTGGGATCAAAGGCTCTTTCCTCTTTTGTTTGAGAGTTGGTTGTTTTAAAGCTTAATGTATGTTTCTATTTTAAAATAAATTTTTCTGGCTGTGGCATTTTTCTTGACCTGGTATAATGAAAGTATTTCGGATATTTGAGTTTAACCCTTTTCCAGAAAGTAATACATGATATGGATTTATTTATGCATTAAAAGAGCAAATTTAAAGAGCCCTTTGCAAAAAAAAAAAAAAAAAA
>gi|950426250|ref|NM_000863.2| Homo sapiens 5-hydroxytryptamine receptor 1B (HTR1B), mRNA
GAGCTCCGGCGCGAGGCGCGGCGCAGCGCTGCTCCTAGACTTCACCCCACCCAGCTCTGGCGGCCGCTGCAGCCCCCCAAAAGTGCCCCAGCTTGGGGCGAGGGGTGGGAATGCAAGATCTCGGGACCTCTCGCTGGCCTGCAAGCTTTGGTCTCTACACCTAGGAAACTCCTGTGGGCAAAGTCTGCAGATCCAAAAGCGTCCAGGTTAGGAGACGCTCAGCCTCAAGCAACTGGGGTAAGAGATCCCATTTGGTCAAAGCCTTCTCCTCAAGCAGTACTTCACCCTCCTGCACTAGACGCCTCCAGGGAGCTGGAGCGGAGCAGGGCTCGGTGGGCCAGCTCTTAGCAACCCAGGTCTAAGACCCGGTGTGGAGAGGAACAACCACAGACGCGGCGGCTTAGCTAGGCGCTCTGGAAGTGCAGGGGAGGCGCCCGCCTGCCTTGGCTGCCGCACCCATGACCTCTAGTTTCAGCTGTGAACCTGGGCGGAGGAATAATTGAGGAACTCACGGAACTATCAACTGGGGACAAACCTGCGATCGCCACGGTCCTTCCGCCCTCTCCTTCGTCCGCTCCATGCCCAAGAGCTGCGCTCCGGAGCTGGGGCGAGGAGAGCCATGGAGGAACCGGGTGCTCAGTGCGCTCCACCGCCGCCCGCGGGCTCCGAGACCTGGGTTCCTCAAGCCAACTTATCCTCTGCTCCCTCCCAAAACTGCAGCGCCAAGGACTACATTTACCAGGACTCCATCTCCCTACCCTGGAAAGTACTGCTGGTTATGCTATTGGCGCTCATCACCTTGGCCACCACGCTCTCCAATGCCTTTGTGATTGCCACAGTGTACCGGACCCGGAAACTGCACACCCCGGCTAACTACCTGATCGCCTCTCTGGCGGTCACCGACCTGCTTGTGTCCATCCTGGTGATGCCCATCAGCACCATGTACACTGTCACCGGCCGCTGGACACTGGGCCAGGTGGTCTGTGACTTCTGGCTGTCGTCGGACATCACTTGTTGCACTGCCTCCATCCTGCACCTCTGTGTCATCGCCCTGGACCGCTACTGGGCCATCACGGACGCCGTGGAGTACTCAGCTAAAAGGACTCCCAAGAGGGCGGCGGTCATGATCGCGCTGGTGTGGGTCTTCTCCATCTCTATCTCGCTGCCGCCCTTCTTCTGGCGTCAGGCTAAGGCCGAAGAGGAGGTGTCGGAATGCGTGGTGAACACCGACCACATCCTCTACACGGTCTACTCCACGGTGGGTGCTTTCTACTTCCCCACCCTGCTCCTCATCGCCCTCTATGGCCGCATCTACGTAGAAGCCCGCTCCCGGATTTTGAAACAGACGCCCAACAGGACCGGCAAGCGCTTGACCCGAGCCCAGCTGATAACCGACTCCCCCGGGTCCACGTCCTCGGTCACCTCTATTAACTCGCGGGTTCCCGACGTGCCCAGCGAATCCGGATCTCCTGTGTATGTGAACCAAGTCAAAGTGCGAGTCTCCGACGCCCTGCTGGAAAAGAAGAAACTCATGGCCGCTAGGGAGCGCAAAGCCACCAAGACCCTAGGGATCATTTTGGGAGCCTTTATTGTGTGTTGGCTACCCTTCTTCATCATCTCCCTAGTGATGCCTATCTGCAAAGATGCCTGCTGGTTCCACCTAGCCATCTTTGACTTCTTCACATGGCTGGGCTATCTCAACTCCCTCATCAACCCCATAATCTATACCATGTCCAATGAGGACTTTAAACAAGCATTCCATAAACTGATACGTTTTAAGTGCACAAGTTGACTTGCCGTTTGCAGTGGGGTCGCCTAAGCGACCTTTGGGGACCAAGTTGTGTCTGGTTCCACAGGTAGGTCGAATCTTCTTTCGCGGTTTCTGGGTCCCAGCGAGGCTCTCTCTCCTGGGCAAGGGCAATGGATCCTGAGAAGCCAGAATAGTCCTGAGAGAGAGCTCTGAAAGGAGAAGTGTTGAAACTAAATGTAGAGCTTCCCTGCCCAGGAGGAGGCTCACTTCCTCCCCTCAAGCCCCGGGCTCAGCACTGACCCTGCGGCAGCCAATCCCAAAGGGGGTTGCAACTTTTAAAAATTGATAATGGAAGGGAATCCCTGCCCTGCTTTGGTATCGTGGATAATGCCCACTAGAAGCAGTGTACTTGTAATTGTTGTCTGAAGCCTGTCTGAGACAGATCTACATACAGCCTGGCAGTACTTGAACTAGACGCTTAATGCCCTGTGTTTTTGGGGGGAGAACTTTGTGTTACAGCTTAATTTAAGAACAGTTACTTTGGCATCATTCAGTCTTCACTTTTTGTCTATTTAAACTTGGTTGGAGAAACTTGTGGATTTGGTGCTTCAAACCCTATGTGTGGCTTGGATGGCGCAGAGAAACCTTGAAGAGTTAACAGCAAAATTCTGATGCTGAGATCTCTATTTTTATTATACTTGAAACTATATGGGGGTGGGTGGGTGGGAATGGGAGATGAGGAGTGTTAAACTGAGAATCAACACCTATGATTGTTTGTTTTCTGCAGATTTACAATTTTGTAATTCCTGTTTAGCGATTGTCAAGCCACAACTCTAACAAACAAACCATTATGTGTGCTAGTGCCGAAGTCTGCAGACTGCTTTATTTTTTCTCTTAATTTCATGTACCTGTCACTTTACACATTTAAATCCCCATAAATGAAGGGTATGATGGGTGACTCAGCCCACACTGCTGCTATATTTCTTACTAATGCAATTGGTAAAACCGATTAGTATTGGAAATATACTGTTTCTTAACAAGAAAAGTGTCTTTATTTCTTATCCAATTTAGTGAGATGTGAAGGAGACTGATGACATGGGGATAGTTCTTACACAATTGAGGAATGGGGTGGGGGCAATAGGAGGATGTATATTTTGACTTGTAAAAAAATCTTAAAATGCATGAAACTTTTATCTGATAGTCATTTGCACTCTCCTTCCCATCTGTGATTCCTTGTGTGCTAACATATAAAGAAACCAAGAGAACTATCTTCCTTCTCCAGAAACCTTAAAAATACAGTTAAGGGCCCTAAAAACGATATTGAAAAGAAAATAAACTTGTTTCTTTTTTGTTGTTGTTGTTATTGAAGTTTGGGCAGGAGAAAAGATTGCTAGAAAATGACATATAAGAACTTTAGAAAAGCTT
>gi|948549896|ref|NM_004675.3| Homo sapiens DIRAS family GTPase 3 (DIRAS3), mRNA
ACACAATCGGGCTTCCTAGCCGCTGGCGGACCCGATGGGGCGTCCTGCGAGGGTTCGGCGAGGGTTCTGCCAGGATAGTAGCATTGCGCCCAAGGAGTGAGAGGCACCCGGGGCTACTGGAGCCAGACCCTCAACCCGCCCTAGTGGGAGGCGAAGAACAACGAAAGCCTCGTATTCCCATTTCTCTAATGGCTAATGACATTAAAGTATCATTTGTGGAAAAGATTATCTGTCCTGCATTAAACTGCTTTTGGACTTTCGTCTAAAATCAGTTGGACCGGTTTTTGTTGGCAAAGTTTTGCCTGAAGCTTATTCCAACAGATGCCAAGCGGACCTCGCGCCGCTCTGCGTTGGGCCAGCCCCTCACAGCTGGTTTCTTACCACGTATTGCGCAAGCGGAATCTATGCCTGTTACCCACACTCCCTGCGCCCCCGCACCCCGCTCCTGTGCGCAAGTCGGAATATAAAACCGCGGAGGAGTGAGCTCTTGGGGTGTCCAGTTGGTTGCCGCGGCAGTCTCTCCGAGCAGCGCATTTGTCTTCTAGGCTGCTTGGTTCGTGCCTCCGAGAAAGGGGTCTCCTGCTGCCAGCTAAGTGTGGGAGAACTTGTGCACGTATCTCCCCTCCGAATCCCAACGATGGGTAACGCCAGCTTTGGCTCCAAGGAACAGAAGCTGCTGAAGCGGTTGCGGCTTCTGCCCGCCCTGCTTATCCTCCGCGCCTTCAAGCCCCACAGGAAGATCAGAGATTACCGCGTCGTGGTAGTCGGCACCGCTGGTGTGGGGAAAAGTACGCTGCTGCACAAGTGGGCGAGCGGCAACTTCCGTCATGAGTACCTGCCGACCATTGAAAATACCTACTGCCAGTTGCTGGGCTGCAGCCACGGTGTGCTTTCCCTGCACATCACCGACAGCAAGAGTGGCGACGGCAACCGCGCTCTGCAGCGCCACGTTATAGCCCGGGGCCACGCCTTCGTCCTGGTCTACTCAGTCACCAAGAAGGAAACCCTGGAAGAGCTGAAGGCCTTCTATGAGCTGATCTGCAAGATCAAAGGTAACAACCTGCATAAGTTCCCCATCGTGCTGGTGGGCAATAAAAGTGATGACACCCACCGGGAGGTGGCCCTGAATGATGGTGCCACCTGTGCGATGGAGTGGAATTGCGCCTTCATGGAGATTTCAGCCAAGACCGATGTGAATGTGCAGGAGCTGTTCCACATGCTGCTGAATTACAAGAAAAAGCCCACCACCGGCCTCCAGGAGCCCGAGAAGAAATCCCAGATGCCCAACACCACTGAGAAGCTGCTTGACAAGTGCATAATCATGTGAGCCCTGGGCCTTAAGAGCCAGCTCTTCCTATCCTGTAGCGTGTAGAAAACGTGGACTCATTTCACTATGTTACATGTACATGGTTGATTTTGTGCTGTTGTTTGGACTGTAACATCCATGTTGTCAATACGTATACCTTGTAAGTGGATAACTTTTCTTTTTCCCAGGCCAGAGAATTCAAATTGTTAAAACATTGGCATTTGAAGAGGAGAACAAAATGTAGCATGATGTATTTAAAGTAAGGCCTTTAGTAATGAATGTAATGAGAGAAAATGTTTTGAAAAGAACAAAACATCAAAATGAATAGAAAGAAAAATTGGAAGGCGTCCTTTTGGTAACCCGATTATTGTGTATTACCTTTAAATATTTCACATCCTGTAAGTGCTTAATCATATCTTTTAATTGTGTATTTAAGAAAAGTGTTTTCACAACAAAAGCTTTTGATAAATTGCTGCGTGACATATACTAAATAAAAAAATGAATATGTTGATCATTAGGGGTGTGGGAGCAGAGAAAATTGTGAAAGTGACTCTCACTAAAGATGTTAGTAGTTTCTCATGTCATTTAAAAATGTTTGAGTATTCTGCATAGCAGTTTGTAAAAGTGTAACAGCTTATTGACTTAATAAAGCTTTTCCTGCATGCAAAAAAAAAAAAA
>gi|927640386|ref|NM_001313954.1| Homo sapiens aurora kinase B (AURKB), transcript variant 8, mRNA
CGGGGCGGGAGATTTGAAAAGTCCTTGGCCAGGGCGCGGCGTGGCAGATTCAGTTGTTTGCGGGCGGCCGGGAGAGTAGCAGTGCCTTGGACCCCAGCTCTCCTCCCCCTTTCTCTCTAAGGATGGCCCAGAAGGAGAACTCCTACCCCTGGCCCTACGGCCGACAGACGGCTCCATCTGGCCTGAGCACCCTGCCCCAGCGAGTCCTCCGGAAAGAGCCTGTCACCCCATCTGCACTTGTCCTCATGAGCCGCTCCAATGTCCAGCCCACAGCTGCCCCTGGCCAGAAGGTGATGGAGAATAGCAGTGGGACACCCGACATCTTAACGCGGCACTTCACAATTGATGACTTTGAGATTGGGCGTCCTCTGGGCAAAGGCAAGTTTGGAAACGTGTACTTGGCTCGGGAGAAGAAAAGCCATTTCATCGTGGCGCTCAAGGTCCTCTTCAAGTCCCAGATAGAGAAGGAGGGCGTGGAGCATCAGCTGCGCAGAGAGATCGAAATCCAGGCCCACCTGCACCATCCCAACATCCTGCGTCTCTACAACTATTTTTATGACCGGAGGAGGATCTACTTGATTCTAGAGTATGCCCCCCGCGGGGAGCTCTACAAGGAGCTGCAGAAGAGCTGCACATTTGACGAGCAGCGAACAGCCACGGTCCGGGCGGATCATGGAGGAGTTGGCAGATGCTCTAATGTACTGCCATGGGAAGAAGGTGATTCACAGAGACATAAAGCCAGAAAATCTGCTCTTAGGGCTCAAGGGAGAGCTGAAGATTGCTGACTTCGGCTGGTCTGTGCATGCGCCCTCCCTGAGGAGGAAGACAATGTGTGGCACCCTGGACTACCTGCCCCCAGAGATGATTGAGGGGCGCATGCACAATGAGAAGGTGGATCTGTGGTGCATTGGAGTGCTTTGCTATGAGCTGCTGGTGGGGAACCCACCCTTTGAGAGTGCATCACACAACGAGACCTATCGCCGCATCGTCAAGGTGGACCTAAAGTTCCCCGCTTCCGTGCCCATGGGAGCCCAGGACCTCATCTCCAAACTGCTCAGGCATAACCCCTCGGAACGGCTGCCCCTGGCCCAGGTCTCAGCCCACCCTTGGGTCCGGGCCAACTCTCGGAGGGTGCTGCCTCCCTCTGCCCTTCAATCTGTCGCCTGATGGTCCCTGTCATTCACTCGGGTGCGTGTGTTTGTATGTCTGTGTATGTATAGGGGAAAGAAGGGATCCCTAACTGTTCCCTTATCTGTTTTCTACCTCCTCCTTTGTTTAATAAAGGCTGAAGCTTTTTGTACTCATGAAAAAAAAAAAAAAAAAA
>gi|881717123|ref|NM_001310462.1| Homo sapiens sonic hedgehog (SHH), transcript variant 2, mRNA
TGAAGCCTGGAGTGGGGTCCCGAGCCGCTACACTAAATAGATTTAATGTGCGCTCTGGGGCCGCCAGGAAAGACGCTCAGGCCTCGCTAGGAGCATCGGCTGTTTCAGGACCTGGAGAAAGGCCCCCAGCTCTACCCTGAGAGGACGTGCTCCTCCACGCTCCTCCGCAAATGCTGTCCCTCTTCCCCAGCCCAGGGCCCGGCTCTTCGAGGTGTAAGGACAAGTTGAACGCTTTGGCCATCTCGGTGATGAACCAGTGGCCAGGAGTGAAACTGCGGGTGACCGAGGGCTGGGACGAAGATGGCCACCACTCAGAGGAGTCTCTGCACTACGAGGGCCGCGCAGTGGACATCACCACGTCTGACCGCGACCGCAGCAAGTACGGCATGCTGGCCCGCCTGGCGGTGGAGGCCGGCTTCGACTGGGTGTACTACGAGTCCAAGGCACATATCCACTGCTCGGTGAAAGCAGGCAAGGAAAGGAAACCACTGCTTAGAGACACTAGGTACAGGGCATCAAGAGGGTGCAGCCCAGCCCCGCCAGGACGAGGCGCCGACTTCTCATTCAGGGTTGACGGAGCCAAGAGTTTGTGCAAAATGTATGCATGGTGGTTGCTGCCAGCCTCCCTCATGACTAAATGCATATCTATTCCTGTCAAAACGTGTATCACAATGTACTTGAAACTGTTATCTTTGTGCTCTATTGTTTGAATAATTAAAGAAATTACAGAGAC
>gi|878295638|ref|NM_002567.3| Homo sapiens phosphatidylethanolamine binding protein 1 (PEBP1), mRNA
GCGCCCTTCATTTTCATTTCTTGAAACAACAGCCTTGCAGGCCGAGCCGCTGTTCCCGAGAACTCGGCAGCCACAGGGAGCAGGTTGCATGGACCCAGGAGCGCGAGAGGCCCTGCTCTGCCAGCTTCGGCCAATCAGAGGCCAGGGAGCGGTGGGCGTGACGTGGGGCGGTGCGCGGGGCTGGGCGGCGGCTGAGGCGCGTGCTCTCGCGTGGTCGCTGGGTCTGCGTCTTCCCGAGCCAGTGTGCTGAGCTCTCCGCGTCGCCTCTGTCGCCCGCGCCTGGCCTACCGCGGCACTCCCGGCTGCACGCTCTGCTTGGCCTCGCCATGCCGGTGGACCTCAGCAAGTGGTCCGGGCCCTTGAGCCTGCAAGAAGTGGACGAGCAGCCGCAGCACCCGCTGCATGTCACCTACGCCGGGGCGGCGGTGGACGAGCTGGGCAAAGTGCTGACGCCCACCCAGGTTAAGAATAGACCCACCAGCATTTCGTGGGATGGTCTTGATTCAGGGAAGCTCTACACCTTGGTCCTGACAGACCCGGATGCTCCCAGCAGGAAGGATCCCAAATACAGAGAATGGCATCATTTCCTGGTGGTCAACATGAAGGGCAATGACATCAGCAGTGGCACAGTCCTCTCCGATTATGTGGGCTCGGGGCCTCCCAAGGGCACAGGCCTCCACCGCTATGTCTGGCTGGTTTACGAGCAGGACAGGCCGCTAAAGTGTGACGAGCCCATCCTCAGCAACCGATCTGGAGACCACCGTGGCAAATTCAAGGTGGCGTCCTTCCGTAAAAAGTATGAGCTCAGGGCCCCGGTGGCTGGCACGTGTTACCAGGCCGAGTGGGATGACTATGTGCCCAAACTGTACGAGCAGCTGTCTGGGAAGTAGGGGGTTAGCTTGGGGACCTGAACTGTCCTGGAGGCCCCAAGCCATGTTCCCCAGTTCAGTGTTGCATGTATAATAGATTTCTCCTCTTCCTGCCCCCCTTGGCATGGGTGAGACCTGACCAGTCAGATGGTAGTTGAGGGTGACTTTTCCTGCTGCCTGGCCTTTATAATTTTACTCACTCACTCTGATTTATGTTTTGATCAAATTTGAACTTCATTTTGGGGGGTATTTTGGTACTGTGATGGGGTCATCAAATTATTAATCTGAAAATAGCAACCCAGAATGTAAAAAAGAAAAAACTGGGGGGAAAAAGACCAGGTCTACAGTGATAGAGCAAAGCATCAAAGAATCTTTAAGGGAGGTTTAAAAAAAAAAAAAAAAAAAAAGATTGGTTGCCTCTGCCTTTGTGATCCTGAGTCCAGAATGGTACACAATGTGATTTTATGGTGATGTCACTCACCTAGACAACCAGAGGCTGGCATTGAGGCTAACCTCCAACACAGTGCATCTCAGATGCCTCAGTAGGCATCAGTATGTCACTCTGGTCCCTTTAAAGAGCAATCCTGGAAGAAGCAGGAGGGAGGGTGGCTTTGCTGTTGTTGGGACATGGCAATCTAGACCGGTAGCAGCGCTCGCTGACAGCTTGGGAGGAAACCTGAGATCTGTGTTTTTTAAATTGATCGTTCTTCATGGGGGTAAGAAAAGCTGGTCTGGAGTTGCTGAATGTTGCATTAATTGTGCTGTTTGCTTGTAGTTGAATAAAAATAGAAACCTGAATGAAGGAAAAAAAAAAAAAAA
>gi|858437576|ref|NM_199173.5| Homo sapiens bone gamma-carboxyglutamate protein (BGLAP), mRNA
GATTGTGGCTCACCCTCCATCACTCCCAGGGGCCCCTGGCCCAGCAGCCGCAGCTCCCAACCACAATATCCTTTGGGGTTTGGCCTACGGAGCTGGGGCGGATGACCCCCAAATAGCCCTGGCAGATTCCCCCTAGACCCGCCCGCACCATGGTCAGGCATGCCCCTCCTCATCGCTGGGCACAGCCCAGAGGGTATAAACAGTGCTGGAGGCTGGCGGGGCAGGCCAGCTGAGTCCTGAGCAGCAGCCCAGCGCAGCCACCGAGACACCATGAGAGCCCTCACACTCCTCGCCCTATTGGCCCTGGCCGCACTTTGCATCGCTGGCCAGGCAGGTGCGAAGCCCAGCGGTGCAGAGTCCAGCAAAGGTGCAGCCTTTGTGTCCAAGCAGGAGGGCAGCGAGGTAGTGAAGAGACCCAGGCGCTACCTGTATCAATGGCTGGGAGCCCCAGTCCCCTACCCGGATCCCCTGGAGCCCAGGAGGGAGGTGTGTGAGCTCAATCCGGACTGTGACGAGTTGGCTGACCACATCGGCTTTCAGGAGGCCTATCGGCGCTTCTACGGCCCGGTCTAGGGTGTCGCTCTGCTGGCCTGGCCGGCAACCCCAGTTCTGCTCCTCTCCAGGCACCCTTCTTTCCTCTTCCCCTTGCCCTTGCCCTGACCTCCCAGCCCTATGGATGTGGGGTCCCCATCATCCCAGCTGCTCCCAAATAAACTCCAGAAGAGGAATCTGTGGGCCTGTGAAAAAAAAAAAAAAAAAA
>gi|756398243|ref|NM_199286.3| Homo sapiens developmental pluripotency associated 3 (DPPA3), mRNA
TGGAGCTCCGGTTTTCAGCCTCTTTCCGGGCTACCTGGTAGCAATTTGAGGCTCTGTCATCAGTTTCTGCTACGTTTCAAAGATCCTGGAGAAGCCTAGTGTTGTGTCAAGACGCCGATGGACCCATCACAGTTTAATCCAACCTACATCCCAGGGTCTCCACAAATGCTCACCGAAGAAAATTCCCGGGACGATTCAGGGGCCTCTCAAATCTCCTCCGAGACGTTGATAAAGAACCTTAGTAACTTGACTATCAACGCTAGTAGCGAATCTGTTTCCCCTCTATCGGAAGCTTTACTCCGTCGAGAGTCTGTAGGAGCAGCAGTCCTCAGGGAAATCGAAGATGAGTGGCTTTACAGCAGGAGAGGAGTAAGAACATTGCTGTCTGTGCAGAGAGAAAAGATGGCAAGATTGAGATACATGTTACTCGGCGGAGTTCGTACGCATGAAAGAAGACCAACAAACAAGGAGCCTAAGGGAGTTAAGAAGGAATCAAGACCATTCAAATGTCCCTGCAGTTTCTGCGTGTCTAATGGATGGGATCCTTCTGAGAATGCTAGAATAGGGAATCAAGACACCAAGCCACTTCAGCCATAAATCTTATTCTTGCACCTTTTTTTCTTGGTAGTAATTTTATATAGCAGGTTGAGAAAGCTACTCTATGCTAGTATAGACTATACACCAATAATTTTGATAATGAGTTCTAGGATGTATTTTTCTTGTATCTTTTTCTTCCTACTATGATACTAGTAATTCATAAGGGATCTGTGTAATCTGAATGTATTTGAATAACTTTAGCTCTACTGTTTGATTTGACCCAAAGAAGCCAAGATGATATAAGTATTCCCATGTGTCTTAGAAGCCCAAAGTCAGTGAGATGAAACCCAACATCAAGAAATTGAAGCAAAGTTACTTATGGATAAAGAAAGCATTAGGTAGTTGGGCTATAGCATAATTAGATTTTCTGGCTTTCAAAAATTTGGATTGCAATCACAGCAAACTTTGTTATTTTTACAGTTTTCAGTACAAAAGTGTTTATATAGAAACAATAAAGTTGACATTTGAGTACCTTTTAAAAA
>gi|754169468|ref|NM_001304745.1| Homo sapiens nudix hydrolase 15 (NUDT15), transcript variant 2, mRNA
ATTCCCCAACCTGATAGCCCTCCGCGACGCATTACGCACCGCGGACAGCTGGAGAGGCCGAGGCGCTCTCGCTTTGATTTCGGCGCCTCCGCCCTCGCGGGGAGAGATTGGCTGCGGCCGCGGGACGGGGTAGTGAGCGCGTCACTTCCTGCCGCTGCCAGGCGCGTCCTCCCGCGCGCTATGACGGCCAGCGCACAGCCGCGCGGGCGGCGGCCAGGAGTCGGAGTCGGAGTCGTGGTGACCAGCTGCAAGCATCCGCGTTGCGTCCTCCTGGGGAAGAGGAAAGGCTCGGTTGGAGCTGGCAGTTTCCAACTCCCTGGAGGTCATCTGGAGTTCGGTGAAACCTGGGAAGAATGTGCTCAAAGGGAAACCTGGGAAGAAGCAGCTCTTCACCTGAAAAATGTTCACTTTGCCTCAGTTGTGAATTCTTTCATTGAGAAGGAGAATTACCATTATGTTACTATATTAATGAAAGGAGAAGTGGATGTGACTCATGATTCAGAACCAAAGAATGTAGAGCCTGAAAAAAATGAAAGTAAGAGAATTATATATAATCATGCATTTTTCTTTCAGGAGAGCAAGTGGTCTGGAGGAATATTACAGTATGTTGCCATATGAAGAGAATGCTATTGTCTGAATGCTTGTGTTCCCCCAAAATTCTATGTAGAAATCCTAACTCCCATGACGAGGTTTTAGGAGGTTGGGGCCCTTGGGAGGTGATTAGATCATAAGATAATGAATGGGATTCATGCCCTTATAAAAGAGACCCCTGACCCCTTCCATGATGTAAAGATACAGAGAGAAGATCGTTGTCTGTGAACCTGGAAGTGGGCCCTCCCCAGATATGGAATCTGCCAGTGTCTTGATCTTGGACTTCCCAGTCTCTAGAACTGTTGAGAAATAAATTTCTGTTGCTCATAAAAAAAAAAAAAAA
>gi|751130501|ref|NM_001304450.1| Homo sapiens ST8 alpha-N-acetyl-neuraminide alpha-2,8-sialyltransferase 1 (ST8SIA1), transcript variant 2, mRNA
GGGGGGGGTTGCCTGGCGGCGCAGCAGCGCGGGAGGCGGCGAAGGGCGCAGGAGCATCGCTCGGAGGGGACAAGGGGACGCCACGGGCCACATGTTTAGGAGGGAGCCGAGCCTTCTCCCGGACCCTCGCCGAGGGCGACCGTGATGCTGCAGAACCGGCGGGAGCGACTCGCCGCCGCCGCTCTCTGCGCACTCGGAGACCCCAGCGCCCGCCTTCTGCAGGGGAAGCGACCATGGCCATAGATCGTGACTTCACCCCCAGCCACTTCCCCTAGAAAGAAATCCTTGGAAAAGTTGCATTTGAAAAAATCCTTGCGCTGACCTTTGGGGCCGACGGGGCCGAAGAAGCGTGCGTGCGTTTGCAAGTAAGAGAACCAAAGGTGTGTGTGCATGGGGGGCTGGCGGTGGGGGACCCTCCGCTGCCACTTCGCCTAGCTTTGTGCTGAGGCCCCGGCCCCCGCCCCTGGGACGCCGGGGCTGCGATGAGCCCCTGCGGGCGGGCCCGGCGACAAACGTCCAGAGGGGCCATGGCTGTACTGGCGTGGAAGTTCCCGCGGACCCGGCTGCCCATGGGAGCCAGTGCCCTCTGTGTCGTGGTCCTCTGTTGGCTCTACATCTTCCCCGTCTACCGGCTGCCCAACGAGAAAGAGATCGTGCAGGGGGTGCTGCAACAGGGCACGGCGTGGAGGAGGAACCAGACCGCGGCCAGAGCGTTCAGGAAACAAATGGAAGACTGCTGCGACCCTGCCCATCTCTTTGCTATGACTAAAATGAATTCCCCTATGGGGAAGAGCATGTGGTATGACGGGGAGTTTTTATACTCATTCACCATTGACAATTCAACTTACTCTCTCTTCCCACAGATGCAATCTCCCTCCTTTGTCAAGTGAATACACTAAGGATGTTGGATCCAAAAGTCAGTTAGTGACAGCTAATCCCAGCATAATTCGGCAAAGGTTTCAGAACCTTCTGTGGTCCAGAAAGACATTTGTGGACAACATGAAAATTTATAACCACAGTTACATCTACATGCCTGCCTTTTCTATGAAGACAGGAACAGAGCCATCTTTGAGGGTTTATTATACACTGTCAGATGTTGGTGCCAATCAAACAGTGCTGTTTGCCAACCCCAACTTTCTGCGTAGCATTGGAAAGTTCTGGAAAAGTAGAGGAATCCATGCCAAGCGCCTGTCCACAGGACTTTTTCTGGTGAGCGCAGCTCTGGGTCTCTGTGAAGAGGTGGCCATCTATGGCTTCTGGCCCTTCTCTGTGAATATGCATGAGCAGCCCATCAGCCACCACTACTATGACAACGTCTTACCCTTTTCTGGCTTCCATGCCATGCCCGAGGAATTTCTCCAACTCTGGTATCTTCATAAAATCGGTGCACTGAGAATGCAGCTGGACCCATGTGAAGATACCTCACTCCAGCCCACTTCCTAGGAACAATGGAAGAAGAAAGGACTGAACCAGGGTATTTTTGTTAGGTTTTCTATGTGACTCCAAGAGGGAATGGTCAAGTTGTTTCATGAGTTTGCATGGGCCCTTGGAAAAACAGGAAAGGAGCAATGAAGATCCAAGCAAAACTTTACTTTCAGCGTTGGCTTGGAGGACAAATAAGAAATGAAACATCCTATGAAATACTTTATAGCACATGGCAGATTTGCAACTAGTAAAATGCTGGTGAAATGCTGTTGGTAAAGCACATGGTTCAAATCTAGAAGATGCAGTTCAAAAACAAGACAGACTCGAGTTGTTAGGGCTGAGGAACCAATCAAGGTAGAACAAAGAAAATGTTGGGGTAAAAGTGTTGCTGATTGTCAACACAAACTGGCTTAATAATATTAATAAGAACCTGTCTTATTAAGACTGGCTTTAGAACCGTAGGTTTTTTTAAAAAATTATTATTTATTTTTGCCCTCTTTGGGGAAGTGGGTGGGTAGATTTAAAAAATCCCTTCCTGAGTAATAAAGATACAAAATGTTACTGCTGATAATTGTGATTTGTTGAGCCACGTCTATATTAACTATAGCTCCCCTCTATTTTTAAAATTTTACATAAGAATTGCTTCTTCCTCTTTTGTCAAGTCCACAGAGACAATGTGAAGCATTATTGAATTTAGACTGTGTTGCTTCATAGTCTGGATAACAGGAGCCACTTTCCTTCCTCAGAATTTAGGACATAAACCCAATTTTAGGTCTGCATTATGTAAGCCTGTTTGCATTGTCATTTTTATTTTAGTGCAAAAGACTACCAATATGAGTGAATTATTTGTTTGTAAATTGGCATAATTGTCTTCATAATTTAATGTTCAGAAATGCAGTAAAGCACGTTGATGAAAAGCTTAGTCTCTGTGGAAGACAGACCAGAAGACAAATCCCTTTTCTATCTACTGTGGCATATTCACTGCAAGGTAAAGGACATGTATGCATACATGCAAGAATGAATTGAGCGAAACTTTGAATATGTTTCCTCTTTTGAGCTATTGTTATTTAGTAGTTACCTAAAAAAGAATACATTTTTACTAGTATACCATTAAAAATGTAAAAGGCTTAACATGTATGCATACATGTAGACACACATACACACACACAAAGTTAAACAAAGCTCATTACTGTGCAACTATGAAAGCTGAACTCATATGACCTGGTATGGCAAAAATTTGTAACCAGTGTTGGAGAATCACAAATGTGTTATGCACTATCCATTACATGTTGATATAAGACAACCGAGCTCACTGGTTGCCGCACATAATACCCATAGCAGCACAAGATGCAAGTCTTACCCCCAAATGCTTACCCGGAATGAGCAGAATTGTCTTACTCATCCTGATTTTACCCAAAATCTCATGAATGGGCTTGCTGTTGAGCGTGGTCACACAAGGTATAGTTTGTACAAGTAAAGAAATGTGAATTAGTAGCTATTTATTTCCTTAGTAGCAGGTAGGACTACTTAGCTTGTTACAACAGCTTTGATACACAGTAAGAAAACTCTACTGACAGATTACAAGCAGCCAAATGTGTTTACATTTCAGAGAAGGGTAAGGGAAGCCTCTCGTTGTCTTCATACTTTGGAATGTCTTAAGCTAAAATGTGACACTAGAGTTCAATTTCTTTTTTATTTTAAATGTCACTAAATTGTAGGTAAACTGTACCAAAAAGTTCTAGTTTAATTTTAACAGTAAAAACTCAGCATACCATGTTACCACGTAAACAATAATGGCTGGTATTTTCTGTGGGTTAATTTAACATGACATAAACATAGGAAAGCCCTTGGCAAAATTCTACATCATTGAAGTAGACCATTTCTAAATGCAATTAAATAGTGAGGTTATTATAAAAATTAGAATTTAAAATATGACTTGTTGATAGTGCAGATTATAATGTTACTTAGAAAGTTAAGAATTCGAGAGTAATGATGCTATTGGAGAACTGGTTTGCTATACGGCAGCAAAAACATAATGAGAATGTACCATGAAGAAATTGTGTTAAATATTCACTTTGAGTGAAACTTTAAATATGTTTCCTCTTTTGAGCTACTGTTATTTAGCAGTTACCTAAAAAAGAATACATTTTTACTAGTCTACCATTAAAAATATAAAAGGCTTAACAAAAACGCATATAAAAGTTAATAAAATGTTACTCAGATTAGTACTTTAATTGTTAAAATGTAATTAATGAGCTCCATAGAGCCCATACATCACAGTTCCATTGAAAATATCATCTGGACTAGAATCTCTTAAACCCAGGAAGTGGAGGTTGCAGTGAGCCAAGATGGTGCCACTGCACTCCAGCCTGGGTGACAGGGCAAGACCCTGTCTCAAAAAAAAAAAAAAGAAAAGAAAAAGAAAGAAAATATTATGTGGAAATTTTTCATCTTTTTATGATGCCTGGGATAGATTTATGCAGTAGATTTATATATAATGTTTAGTTTACAAACTTGTGAAACTATTTCATGTGGGTTCTGAAAGGCAAAACAGAAATGGCCAGTGCTGGTGATGTTTGATTAGACCAGCTCTTCTCAGCTGGGGTGATTCATTATCCCTCTCTGGTGACATTTGGCAATGTCTGGAGACCAGAGACATTTTTTATTTTCATGACTCAAGGGTGCTAATAGCATGTACTTAGTAGAGGTTAGGGATCCTGCTAAAGATCTTACAATGCACAAGTCAGCCTCTCACAGCAAAATAATTATCCAGGCTGAGATGTCAGTAGTATCAAGGTTGACATCTCAGACCTGGATTAGACCTGGATTAGACCAAAATGAAATTTTGATTGTTCCACCTTGTCTTCACTTAAAGATAGATATACATGCTCACAGCATTCAAAATATGACTACAATTTAATGAAAATATTTTCTTATGGTAGATTACAACTCACTAGATACACCATACATATGCCTTTTGGACATAATTGGTTAGATAGGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGCATGAAGTTAGGCATCTCTATCCTTAACTGTGCTATGTGTTCCTAAGTAAGGACCTCGCTAGAATCATCCTGTAGAGTGCTCTGGAATACTCTATTATTAAGATCTTCAATTCTAAGCTCCCATTATCTTTCTTTGTTTATCTGAAATTAAGACCTTCAGAATTAGGCCTGGTACTTTTCCAGATTTGATCAGTTACATTTTGATATAACTGACTCTTAAAATTCAGCTTAGAAGACATTCAATAAGAAAATCTTTAATCACTTTTGGTGATGCACCTGCCAAGAGGGGGCATCACTTTGTACCATCAGACTAATTAAAAAAATTGTTGTGTAGTCATAAAAATTAGGCTGATCCATAGGGGCAAAAGGAAGGGTGAAGAGACTAAAAACTAGTACCCTGATAGAATTTTAGTTTTTATTAGCCTCGATTTGAGAACTGCATTGATTCCAAAGATCATGAAGGTAGGTGAAGGATTAAGTCATTCCATAATTAAGAAAAGTAATGTTTATATGAAAGATTTTTATATGGACAATGACTCACAGACACATATGCTTTGTATAGAGGATTTTGCCAAAAGTTTATACAAAATTGCACATCTAAACTGCATAATTCTCATACAAGAAGTTAAGGAAGTGCTCACTGGATTTTGCTTCTGTATAGTTCACTTTTATCTGTCTTCACAAGGGTAGGAAGTAAATGATCTCAAATGGCACATGTTCAGACAATACTGTGTTTGGCTTTGTGATGTCTCATGTCTTTCTCTTGGCTAAAAAAAATTGTTTAGGCTATATATAACTTGTACCTGAAGCAATCTGGACAACATGGCTTAAAATGGAAAATAACTGAAAAAATCCTGGGATTTTAAATTTGCCAAAAATACCCTTGGATTAGTCAAAGGCTTTACAAGAGTGTTATAGATGATCCAAAATGGAAACAATATTGATAACATTTCTTTTCGTCAGCAGCTACATATTCCAGTTTTATAACTTTATTATATACATTTTTTGATTATTAATAGAAAGTCAGCCATCCAGAGTTTTAACTTCTGTGGTTGAAATATTGACTTTGTGAAATTTTTCACTGACAAATACTTGTTAGGAGGGACCTAAGGGGGAGGGGAATGTTACCAGTCCACTGAAAACTTTAGGAAATGTTCATTGTGTTGTGTAAATACTTTCCCACCAGCACCAGGTAATATATTCTCTATGTTTGTAGAATTCCAAAGATCAAAAGCTGTAAGGACGTTTATGTGAACTTGACGCAAACTTGTGGAGGAATAAGGACTGAGAGTAATGTTGTGCTTTTTCTTTATCTTCCCGTCGTATAGGTCGACTCTCAGGTTATATGACTTTTATTGGGCACACGTCAGGGGTGGAAGTGGTAGAAGTGGGTTAACAATTTCAAGGCCTGGCAACCTAGGTCAAAACCTCTAATAAAGTCAGCAGTAAACATAACTAGCAACTTCATTCCACTATGTGCTAGGAGGAGGGTGAGGCAAGTTGAAAGGAGATGACCCTATCCCCACACTCTCAGGATGTAAAAGGGCAGAGTGCTCTCTACCCTTAACCTTGGCTTTTTAGCACCGTCAGTCTCTGTCCTCTCCCAGGAGAGCTGCCTTGGCTCCAGAGTTGAGCTAGTAGCATTGTGACTAGAGAGGTAGTGTGGAAATTCGCTGAGGACCTCAAAATTTTACACTGCCTTAAACTGTTTTGTTTTTGCTTAAACTCGTGCTGTCTAAATGTGGGTGTTTTGTGGCAGAGTCTGATCACCCCGACCTAGTTATAGCCCTGCCAGTGATTCTAAAGTGGAACTTTTCCCCCTCATTCATATGGATAGTCTGAGTCCTTGAAGCTAGGGAGATATCAAATATTCTACCAGTTCCTACATAGCTTCTTTAAAAGTCCTAGAGACTAACTCACAGGAAGTCTGAAGCCCAGAGCGTCTGTTTATAAACTCCTAAATATGAGGCCACAATATTTAGGTTGAGCACTAGAAAATTTCTATTTTGCAAGTGGAAGGAGACTTGAATCTATAATTGCTGTAGCTTTTTTTCCCTTCTATCATAAGAAAATGGATACCATCTGCTTTACCCTCAGCCCAGACTTGTCTTTTGAATTTTTTACATACATCTTAGGGGTGAGAGATTGAAACAAGTGCATGAATGAAAAGCTTATTGAAACATAACACAGCCCCTGCTCACCATTTCAGTAAGGGAAAATACATGTTTCTGTTTCCCTCTAATTTGTTTTCTCTGGTGCCAACATTTCTGATTTCTTCTGTCTCTAATACATAAGGAATAAATACCATATTTTAAATTGACTTACATGCCTGCGAGCATTTGCCAGATAATCAAAGCCTATGACTCTAACTTTTTAAAGCACAGAAGAGGAATTATATTTTATGGTCACTCCTCTGTGTTTCTATTGATCTCTATATTGTGCTAAAATTCTTTCAGGTAATTTTTTTCTTGTTGAAGCTGTGGGATATAATCAATGATGCCAAGCTGTCTGAGAATTTTATAGAATAATATCCAAATATATTGATCCTGCCTCTTTCTGCTTCTATGTAATTAAACTTTCTTTTGATGTTTATTTTTAAAATGTATGCTTCACACAACACCAATAAACATCTAAGAGATGTGATATAATCCAAGGCAAAGAAAAGTAAGAATCAGTTAATGTCTATTTTATCTGCACAGCATTACGAACAGAAAATTGTAATAAAAAAAGGTTTAACCAAACTGAAAAAAAGAGAGACAAAATCTTGGTTTTAATTTGAAAAGATGATTGGGAGTGATCTCAGAAGAGAGTTCAGCAGGAAGCAAGGAAGAGGCTGTTGACCTTGAGTGCAGCCTCAAGAATGGAACCTTTTTGAAATATTTTAAAGGAAATATCTTGTCATCCAGCTGTTATGGTTAATAATGAATAGTTTTCTCTGGGTGAAGCTTATCCATTGCACACCTGATGTGCTGGCCCCTGCGATTTCCCCAAATGTTGGAATGTTGCCTGCATAATTTGTGGTAATGGGGGACTGTGTTCCTGCTTTTACCTGGTTACAAAAAACAAAACAAAACAAAACAAAACAACAAACAGAAAAAAAAAGAGAGAAAAGATGCTAGAGGAAGCAGTGTGACAGACAGATCATGAGATGCTGACGGAGAGAACAGAGTGGTACCTGTTTACCCACTTGGACCATGACAGTATCAAGGCTCCACCCCTTGCTGTCCCTTCCCAAGAGGTGCTCTCCTGGGAGTTTGATCACAGTGAAACAACACTCCCGTTTTCTTTTTCCTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTTTTTTGTTGAGACAGAGTTTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCGGCTCACCGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCGTGCCTCAGCCTCTGGAGTAGCTGGGATTACAGGCATGCGCCACCACACCCGGCTAATTTTGTACTTTTAGTAGAGATGGGGTTTCTCCATATTGGTCAGGCTGGTCCCGAACTCCTGACCTCAGGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCGAGCCCAGCCCCACACTCCTGTTTTCATAGCCCTTTTTTGTCTGTACTTTGGTACATATTCCCCAAATAAGATTATTATTTACATCTGTCATGATGAGGCAGTGATAGCAGCAAGTGTCACTTTGACCCTCACCCTTGGAAAGTGGGCTATGCATAGCTAGAGTTAGAACAGGAGGTTCTAATCCTGCTTCCACAATTACTTCAGTAACAGGCTTTTGTATCCATGATTACTTAAGCTGACTTAGATGCATTTTCTACCCTGTATTCTAGTGTACACAACACAAACACACATAAGCCCTTTACCTGTGGAGAAGAGGGAGATGGTTGATTCAGTGGGAGTGGGGAGTGGCAGAGGGTGCCTTAACTTTTTCTGGCTTGACCCCTACTTCCTTATGTGTTTCCTTCATATACCTCTGTCACTTTAGAGATGTAATCATGTCTGTTCCAAGTTGTATCGTTATTATCAAGAAGTCCTATAAATGTAGCAAATGTGACTATTTTATAGAAATGCACAATAGTTTATAGGCCTTGGAGAAGTCTGATAATAGTATGTAAATATCCTTCATTGAAGTCATAGAACCTTCTAGTAGGAAGCTCCATAGGTGATAACTGCAAGAGGATTAATGTTTGTTTCTCCAGTAAACACCGGAAGCAAGGAATCAATCTGTCACTGTTTATCATTCAGTCTTGAGCACCGTTGGGTGTTGATAGGTTACTATAGACACTCCCCTTATAATTAATATACAGGACTCACAATTTAGGATGTCTGATGGCCACTAGGGTACATCATAGAGACACTAGAGAGAAGAGAACAAATATAGCTCCATCAAAAAGCCTGCTTAATCTTTAACAAGTCTGAAATATTACTAAAATTCCAGTTACCGTGCAGCATAGTCAGTCTAAAAAGCACTGGGGAAAAAGGTGTCTTTTTGGTCTCTTTAATTCTATTATGGCACATTTTAATATTATTCCACATGTGTGCAAACTATTTCTCAAGAGCAAAGTTTGAGGCTGGAGTTAAGAAAATAGAAAAATTAAAACATTATTTTTTCTCATATAATATAATCTGACTACTAGTTCATGGATATAATAATTCTGGGAAAAATTTTAGATTAAACTATAAAATTGAAATCACCTTTGAAGAGTATATGGAATTGCTTCTTTCTATTAAAGCCAACCTACATTGGCAAAAAGTGTGGAGAAAATCAGTGTGCTCAATTCTTTTTGTAGAGTTTCATCTAAAATGTTGCAGGTAAAAAAGAAAACTTTAATTGGTACTTTCTACGGTGTGATTAGAAAAATTAGTATCTATCTCTGTTGGTTCTGCTGACTTGCTTCTTTCCACCGAATCTAAATGCAATGTCATAGGAGGAGGTTTGCTGTAAAAACATGTCTTTTTCTTTGGTGTATTCATTGTAATTATGGCTGGCAGTGAGAAGGTTCGGTAAGTCTCAATTTCTCTACCTCCTTTACTTGGAGAAAATTTGTAAATGTACCCTGTGAATAAAATGATTTTTTATAAAAAAAAAAAAAAAAAAAAAAAA
>gi|746816051|ref|NM_025069.2| Homo sapiens zinc finger protein 703 (ZNF703), mRNA
GCTATTTGACGTGCGGCTCGAGGAAGGCGAAGGTTTTTGTGTTGCTAGCCGGGGCCAGCGGCGGTGGCGGCGGCGGCGGAGGCGTCGGTGGAGGAGGGGAGGCGGCGAGGAGGCGCAGCTCCCGCTGCACCGCGATCGACGCTGCGGAGCGAGCCCACCCGCCCCGGGAGCTCGCCTCCCCGGTGCTCCCCCGCCCTCCCCGCCCCCCCAGCGGCGCTGCCTCCTCCAAATGAGCGATTCGCCCGCTGGATCTAACCCAAGGACACCCGAAAGCAGCGGCAGCGGCAGCGGCGGCGGCGGGAAGAGGCCGGCGGTGCCGGCAGCGGTGTCCCTCTTGCCACCGGCGGACCCCCTGCGCCAGGCGAACCGGCTCCCGATCAGGGTCCTGAAGATGCTGAGCGCTCACACCGGTCACCTCCTGCACCCGGAGTACCTGCAGCCGCTGTCCTCCACTCCCGTCAGCCCCATTGAGCTGGACGCCAAGAAGAGCCCCTTGGCGCTGCTGGCTCAGACCTGCTCGCAGATCGGCAAGCCGGACCCGCCGCCCTCCTCCAAACTCAACTCGGTGGCGGCGGCGGCCAACGGGCTGGGAGCGGAGAAGGACCCCGGCCGCTCAGCCCCGGGCGCCGCCTCCGCAGCCGCGGCCCTGAAGCAGCTGGGGGACTCACCGGCCGAGGACAAGTCCAGCTTCAAGCCCTACTCCAAGGGCTCCGGCGGCGGCGACTCCCGCAAAGACAGCGGCTCCTCCTCGGTGTCTTCCACCTCCTCCTCGTCCTCCTCGTCCCCGGGAGACAAGGCGGGCTTCAGGGTCCCCAGCGCCGCCTGCCCGCCCTTTCCCCCGCATGGAGCGCCGGTCTCCGCATCCTCGTCCTCGTCGTCGCCCGGCGGCTCCCGCGGCGGCTCCCCGCACCACTCTGACTGCAAGAACGGCGGCGGGGTTGGCGGCGGGGAGCTGGACAAGAAAGACCAGGAGCCCAAGCCCAGCCCGGAGCCGGCAGCCGTGAGCCGCGGCGGCGGTGGGGAGCCCGGGGCGCACGGTGGCGCCGAGTCCGGGGCCTCCGGGCGCAAGTCCGAGCCGCCCTCGGCGCTGGTGGGGGCCGGCCACGTGGCGCCGGTGTCTCCCTACAAGCCGGGCCACTCGGTGTTCCCGCTGCCGCCCTCCAGCATTGGCTACCACGGCTCCATCGTGGGCGCCTACGCCGGCTACCCGTCTCAGTTCGTGCCTGGCCTGGATCCTAGCAAGTCCGGCCTCGTGGGAGGCCAGCTGTCTGGGGGCCTGGGCCTGCCGCCGGGCAAGCCCCCCAGCTCCAGCCCGCTCACCGGGGCCTCCCCGCCCTCCTTCCTGCAGGGATTATGCCGCGACCCCTATTGCTTGGGAGGTTACCACGGCGCCTCGCACCTCGGCGGCTCCAGCTGCTCCACCTGCAGCGCGCACGACCCTGCCGGGCCCAGCCTGAAGGCGGGGGGCTACCCGCTGGTGTACCCCGGGCACCCGCTGCAGCCCGCCGCGCTCTCGTCCAGCGCCGCCCAGGCCGCGCTCCCCGGCCACCCGCTCTACACCTACGGCTTCATGCTGCAGAACGAACCGCTGCCGCACAGCTGCAACTGGGTGGCAGCCAGTGGGCCGTGCGACAAGCGCTTCGCCACCTCGGAGGAGCTGCTCAGCCACCTACGGACCCACACGGCCCTGCCGGGAGCCGAGAAACTTCTGGCCGCCTACCCCGGGGCCTCGGGCCTGGGCAGCGCCGCCGCCGCCGCCGCCGCCGCCGCCTCCTGCCATCTGCACCTCCCCCCGCCCGCCGCCCCCGGCAGCCCCGGGTCGCTGTCCTTGCGGAATCCACACACTTTGGGCCTAAGCCGGTACCACCCCTATGGCAAGAGCCACTTATCCACAGCGGGGGGCCTGGCCGTGCCGTCCCTCCCCACAGCCGGACCCTACTATTCGCCATACGCGCTGTATGGACAGAGACTAGCTTCAGCCTCGGCGCTGGGATACCAGTAACTACAGCTCTTCCTCCACCCCAGCCCCCTCACCCTCCTCCCTCTCCCTCCTCCTCCCTCCCCACCTGCCGTCGCCGCTGCAACCTCCACTACTGCTTGACCCTGCCGGGATTCCCCACCCAGCCCTTCCCCACCGGACTGTGTATTTATTTACTATAATGTTAGCTTACAAGCTGGGAATATAAGTGCATTAACGGCCCACATGAGTCAATGGTATGCAAAAAGTCTGTGTTCTCCCAAATAATAATATTAATCCCACAAATAACGACATGATCCCCGCCCCTGTTCCTTTCTGTTATTTTTTCTTAGATATAAGTTTTACATTTTTTATTCCTTTTCCTCTTTTTTTGGTTTTGATTGGTTTGGTTTGAGGGAGAGTTGGGGTCTTTGGGTTCTTCTAGACGTTTTGTTTTCCCTTCCTGGGGAGTTTCTTGCATGAGTCTTAACTTAAAACTACGTTTCCGCCTTCTCTTTTTCCCTCTTCCCCCTTCATTCCCTCTTGTTTCCTTCCATTTGCGGTTCTGTTTTTGTTTTTTGTTTTGTTTTGTTTTGTTTTTTCCTTTGTTGTACAAGTAACAGAGAGGAGGTTTTTTTTGTAACTCATTTTGGGGGTGGAGGGGGCCACCTGGGTGGCAGGGGCCCTGGAGCTCTATTGACCTGGTACACTGCTCCGGGACTCCTCCCCCGCCACCCTCCGCGCATAGGGTCCTTGGTCTGGACCCTGCCCCCCAAAAGTAGGGCCTTGCTCCTCTACCTTGCTCTGAGCACGGAGAGCCCTGACCCCACCAGTAGGCTCGCCCCCAGAAGGGCCCAAGTGGCCGTCTACCGTCACCTTCCAGACTCCCGCCCCTAACACCCAGTGGCTACAGTGCGCCTGTCGGGGCACCTGGAGCGCTCACCTGGTTGAATTCAAAGTCCCAGAAGGCCCCGCTGGCGTGAAGCCGGCCCCTTACATTTTGCGAAGTGCATTATAGTCCTTGTTTTTCTCTCCCTCGTGGGGGCAACGACCCCTCCCCTGGCAGTAGGGGTGGGGTAGGTGACTCTCGCTAGATCCCTCCAAAGCAGACCGGTGGCGATGTCAGCGGATGTCACGAGCTCGTTAGCTGCGTTCGGGGAAGGTTGGGGCGTCAGGGAGCTCTCGGATCACAGCAGCCCCCGCCCTCTCCTAGGCCTGGCCCGGCAGAGCCCCCAGAGTGGACCCCCCAGCGACTGGGGTCTTCTCCCCACTCCTCCCTCCTTCTGGTCTGATGCGGCAGCGCGGGGGCTGCGGGGCCTGTTTGGGACGAACAGAGCTCTCCCTTGGTAAGACTTATTTTGTTAATAAATGGAATACTTGGCTATATTCACAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|731441382|ref|NM_018949.2| Homo sapiens urotensin 2 receptor (UTS2R), mRNA
TCTCAGGGAGTGTCCACCCAGCCCTGAGCCCGTCGTGAGGGGTCAGAGATGGCGCTGACCCCCGAGTCCCCGAGCAGCTTCCCTGGGCTGGCCGCCACTGGCAGCTCTGTGCCGGAGCCGCCTGGCGGCCCCAACGCAACCCTCAACAGCTCCTGGGCCAGCCCGACCGAGCCCAGCTCCCTGGAGGACCTGGTGGCCACGGGCACCATTGGGACTCTGCTGTCGGCCATGGGCGTGGTGGGCGTGGTGGGCAACGCCTACACGCTGGTGGTCACCTGCCGCTCCCTGCGTGCGGTGGCCTCCATGTACGTCTACGTGGTCAACCTGGCGCTGGCCGACCTGCTGTACCTGCTCAGCATCCCCTTCATCGTGGCCACCTACGTCACCAAGGAGTGGCACTTCGGGGACGTGGGCTGCCGCGTGCTCTTCGGCCTGGACTTCCTGACCATGCACGCCAGCATCTTCACGCTGACCGTCATGAGCAGCGAGCGCTACGCTGCGGTGCTGCGGCCGCTGGACACCGTGCAGCGCCCCAAGGGCTACCGCAAGCTGCTGGCGCTGGGCACCTGGCTGCTGGCGCTGCTGCTGACGCTGCCCGTGATGCTGGCCATGCGGCTGGTGCGCCGGGGTCCCAAGAGCCTGTGCCTGCCCGCCTGGGGCCCGCGCGCCCACCGCGCCTACCTGACGCTGCTCTTCGCCACCAGCATCGCGGGGCCCGGGCTGCTCATCGGGCTGCTCTACGCGCGCCTGGCCCGCGCCTACCGCCGCTCGCAGCGCGCCTCCTTCAAGCGGGCCCGGCGGCCGGGGGCGCGCGCGCTGCGCCTGGTGCTGGGCATCGTGCTGCTCTTCTGGGCCTGCTTCCTGCCCTTCTGGCTGTGGCAGCTGCTCGCCCAGTACCACCAGGCCCCGCTGGCGCCGCGGACGGCGCGCATCGTCAACTACCTGACCACCTGCCTCACCTACGGCAACAGCTGCGCCAACCCCTTCCTCTACACGCTGCTCACCAGGAACTACCGCGACCACCTGCGCGGCCGCGTGCGGGGCCCGGGCAGCGGGGGAGGCCGGGGGCCCGTTCCCTCCCTGCAGCCCCGCGCCCGCTTCCAGCGCTGTTCGGGCCGCTCCCTGTCTTCCTGCAGCCCACAGCCCACTGACAGCCTCGTGCTGGCCCCAGCGGCCCCGGCCCGACCTGCGCCCGAGGGTCCCAGGGCCCCGGCGTGAGCACGCGGAGGGGCGGCTGGAGTCCAGGCGGGGACGCGCCCCAAAGCCCCAGCCACTCCCGGGAGCCCCCCCAACTCCCAAATCACAGGCCC
>gi|729719229|ref|NM_001297417.2| Homo sapiens solute carrier family 45 member 2 (SLC45A2), transcript variant 3, mRNA
GCCAGGCTCCACGTCAAATCCAGTTTGAAACACAGACCCTAGGACCACGCAGGAGGTGGTGGGCTCGCAGGAAGGTTCCTCTCCCAGTGGCCATGGGTAGCAACAGTGGGCAGGCTGGCCGCCACATCTATAAATCCCTAGCTGATGATGGCCCCTTTGACTCTGTGGAGCCGCCTAAAAGACCCACCAGCAGACTCATCATGCACAGCATGGCCATGTTCGGAAGAGAGTTCTGCTACGCGGTGGAGGCAGCGTATGTGACCCCAGTCCTGCTCAGCGTAGGTCTGCCCAGCAGCCTGTACAGCATTGTGTGGTTCCTCAGCCCCATCCTGGGATTCCTGCTGCAGCCCGTGGTCGGATCGGCCAGCGACCACTGCCGGTCCAGGTGGGGCCGCCGGAGACCCTACATCCTCACCCTGGGAGTCATGATGCTCGTGGGCATGGCTCTGTACCTCAATGGGGCTACTGTTGTAGCAGCTTTGATTGCTAACCCAAGGAGGAAGCTGGTTTGGGCCATAAGTGTCACCATGATAGGTGTCGTTCTCTTTGATTTTGCTGCCGACTTCATTGATGGGCCCATCAAAGCCTACTTATTTGATGTCTGCTCCCATCAGGACAAGGAGAAGGGCCTCCACTACCATGCCCTCTTCACAGACTCGCAGGGCAATGACATTAAAGTCACTGCTGAGAGCACTGGTGAACATGCCTCCTCACTACCGCTACCTTTGCATCAGCCACCTCATTGGATGGACAGCCTTCCTGTCCAACATGCTGTTCTTCACAGATTTCATGGGCCAGATTGTGTACCGCGGGGATCCCTATAGTGCACACAACTCCACAGAGTTTCTCATCTACGAAAGAGGAGTCGAGGTTGGATGTTGGGGCTTCTGCATCAACTCCGTGTTTTCCTCACTTTATTCTTGTAAGTCTTTCTCTCTCCTAAGGATGTCTTCTAAAAGTTTCTGGTCTAGCACAACTTGGATTTGATATTTCTATGTGTATTTCCTACTGTTTAAAATACCAGATTCTTAATAAATCTATGGACGTCAGGAAAAACTATCACCTTAAAAAAAAAAAAAAAAAAA
>gi|667667714|ref|NM_001301175.1| Homo sapiens ubiquitin specific peptidase 30 (USP30), transcript variant 2, mRNA
ATCCCCATTGTTGCATAGCTGGGAAAGGGAGCTGGACAACCTGGTACCTTTTCGATTATGGATTCAAATGTCTCTGAAGTATTGACAGGATTTCACCATGTTAGCCAGGATGGTCTCGATCTCCTGATCTCGTGATCCACCTGCCTTGGCCCCCCAAAGTGCTGGGATTACAGGCGTGAACCACCACACCAGCCTAAAGCAGCATTTTTTGGTGTGTCTGTAAGGGTGTTTCAAGAGGAGATTGCTGTGTGAGTCTGAGTGGACAAAGTTCAGGAAGATCTGCCCTCGATGTGTGAATGAGCACCATCAAATCAGCTAGAGGCCCAGACAGAACAGAAACAGAGGAAAGAGACAGAGTCTTGCTATGTAACCCAGGCTGGTCTCGAACTCCGGCTTCAAGCAATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGATTATAGACCGGACACTAAGACCCAGCGCTGAGGACAAAAGGAAGCAAGCTCTGCATATTTGAAGTGTTGCAAACTAGGGTCCATCCTCTGGGCCAGCCCTCTCCTCTAGTGACTTACTCAGAGTGTGTTGGATATAAAGTCATGAAGAACTGGGGAGTTATAGGTGGAATTGCTGCTGCTCTTGCAGCAGGAATATATGTTATTTGGGGTCCCATTACAGAAAGAAAGAAGCGTAGAAAAGGGCTTGTGCCTGGCCTTGTTAATTTAGGGAACACCTGCTTCATGAACTCCCTGCTACAAGGCCTGTCTGCCTGTCCTGCTTTCATCAGGTGGCTGGAAGAGTTCACCTCCCAGTACTCCAGGGATCAGAAGGAGCCCCCCTCACACCAGTATTTATCCTTAACACTCTTGCACCTTCTGAAAGCCTTGTCCTGCCAAGAAGTTACTGATGATGAGGTCTTAGATGCAAGCTGCTTGTTGGATGTCTTAAGAATGTACAGATGGCAGATCTCATCATTTGAAGAACAGGATGCTCACGAATTATTCCATGTCATTACCTCGTCATTGGAAGATGAGCGAGACCGCCAGCCTCGGGTCACACATTTGTTTGATGTGCATTCCCTGGAGCAGCAGTCAGAAATAACTCCCAAACAAATTACCTGCCGCACAAGAGGGTCACCTCACCCTACATCCAATCACTGGAAGTCTCAACATCCTTTTCATGGAAGACTCACTAGTAATATGGTCTGCAAACACTGTGAACACCAGAGTCCTGTTCGATTTGATACCTTTGATAGCCTTTCACTAAGTATTCCAGCCGCCACATGGGGTCACCCATTGACCCTGGACCACTGCCTTCACCACTTCATCTCATCAGAATCAGTGCGGGATGTTGTGTGTGACAACTGTACAAAGATTGAAGCCAAGGGAACGTTGAACGGGGAAAAGGTGGAACACCAGAGGACCACTTTTGTTAAACAGTTAAAACTAGGGAAGCTCCCTCAGTGTCTCTGCATCCACCTACAGCGGCTGAGCTGGTCCAGCCACGGCACGCCTCTGAAGCGGCATGAGCACGTGCAGTTCAATGAGTTCCTGATGATGGACATTTACAAGTACCACCTCCTTGGACATAAACCTAGTCAACACAACCCTAAACTGAACAAGAACCCAGGGCCTACACTGGAGCTGCAGGATGGGCCGGGAGCCCCCACACCAGTTCTGAATCAGCCAGGGGCCCCCAAAACACAGATTTTTATGAATGGCGCCTGCTCCCCATCTTTATTGCCAACGCTGTCAGCGCCGATGCCCTTCCCTCTCCCAGTTGTTCCCGACTACAGCTCCTCCACATACCTCTTCCGGCTGATGGCAGTTGTCGTCCACCATGGAGACATGCACTCTGGACACTTTGTCACTTACCGACGGTCCCCACCTTCTGCCAGGAACCCTCTCTCAACTAGCAATCAGTGGCTGTGGGTCTCCGATGACACTGTCCGCAAGGCCAGCCTGCAGGAGGTCCTGTCCTCCAGCGCCTACCTGCTGTTCTACGAGCGCGTCCTTTCCAGGATGCAGCACCAGAGCCAGGAGTGCAAGTCTGAAGAATGACTGTGCCCTCCTGCAAGGCTAGAGCTGATGGCACTGTCTGCACTGTCCAGGAAAAAAGTAAAACTGTACTGTTGCGTGTGCAAGCGGCCCCACTAGAGCCTTCCAGCCTTCTGGTGTGTTCTAAGAGCAGGCTCCACCTGGGAGCCAGCCCCAGTTCACACCAAACCAGGCTCCCTGAACAGTCCTGTTCATGTGTGTAGGTGGTTCTGTTGTGTTAAGAAAGCATTCATTATGTCCGGAGTGTCTTTTTACTCATCTGATACAGGTAATTAAAAGAACTCAGATTCTTGAAGCCACCGTTTTCATATTGTAATGTTAGGTGTTCTCAGAGGGGAGGTACCTTTGTCTAATCAACGTTTCCACTTAGATCTTTTATTTTTAATAAGCAGGCCCATAAAAATTGTTGACAAGAATTAATGAAATTATTAAAGGCAACAATTTAGAAGAAAAAGTGCCTTTCACTTTCGATTGCTTTTGTAGCACGTCCATTGTGAAATATTCCTTCCAGGCTACTCAAAGGATAGCAAGAGAACAGGTAAATGATGCCTAAAGAACACCTTCCTTTTTCTATGCCTTTTCTAATCTTTCAATTCTTTCTATGGAGTAAAGGCTCATCTGCCAAATCTGCCCCCTGGGGAAACTCTTTCACTACTTTGTCAGTTATAAGTGAAGAGCTTACTTGTTGCTTTTATCTTTTGTATATTGGACTGAGATGTAATTACACTGTATTATAAAACTCTGTGAATAGCCAGAACTGAGCTGGATCTTTGCAACACCTGATTCCTCTGCTCTGTGGAAAACTTTTTCTTACACAAGGATCCACTGTGGACGGTTACTTTCATCTGTTTATTTATTGCCCATGCAGAGCTCTTAAGGTTTACAGGTGGGAGCTTGGGGCTGTATAAAAAAATAATCCCTGCCCTGAGTTGACACCTGGCTTAGGAAGGAAGGGCTGACTATGGGGCTGCAGTCTCTCTGAACCTCAGTTTCCTCATTTGTGAAGTGAAGGGTTAGATTTGATGACCACCAAAGTTCAGCCCTTTTCACGAAAAGGAGAAAGCAGCTTTTGACTTTTTAAAAAACATATAACTACAGCTGGCATCTAGTATTGTCATGTTGCTCTAGGTCCATATTCTGAATTTATTCATTTCCAATAGCCTAATACAAAAAGTATATATTGAGCACTTTCTTCCCTTTTCAGGTAAGTCTCTGAATGCAGCCCAGGGCCAAAGGAATTTTGATGACACAGTAGTACCTATGTTTTAAGCTATATTTTTAATTTAGAAAAATGGATACCAAATTCAAACCGACTCATCAGAGGTAAGATTTGGAATCAGACCTTTCCAAAAGGTCATCTGAGGTAAGGCTAAGACCGCACTTCCTCTGCTGGGGGTGAGCTGGCAGACACACCAAACAGTGCCTTGGCAGCAGCTCACAGTGCAGGAAGCCCAGGTGATCACTCTTCTGCTGGGCCCAGGCTGCACCCTGAGGACTCAGTAACTCACTCTCAACAGAATATTCTGTGCAGGCTCTCCAGGCTCTGGGCGTCAGGGTGCAAGGGGCAGCTTGAACTGTACGGTCCGTCCTGCACTCACCCGATGCAGACCTTGACTTTGATGTTGAAATGAACACACTTGTTTTACCCAAGTCTGGTGGAACAAATGCCCAATCATGTGACCTTAAAGTGTACTGCAAAGCTGTAGCTTTAAGTAATTGCTGTTCTGCCACTGCTTACTCTGAAATCTACCATCAAAGAAAGATAGAGAAAAGGGGCTGAGCCTTGGAATATATGGTTATAAGCAGATCTTTCTTTGGTCAGAGACCAGGGTTTGAGCCAAGGCTGTAAATGTGAACAATAGCTGTGCAAAGCCTTTTAACCTGACTTCTTCATTTTGTAAATTATTATGCATTAAGTAGCAGCCCAATAATCTGATTTCTAGTTTTATTTTCAAAGTAAGTAGCTTCTTTTGGGAAAAACCTAAGTTAAACTAGTAGTTTTGCCATAATAACTGCTGATTTATGTATTTGCTAAAGGTACTTTTGTATCTGCTGTGTATTATAGCAATAAAATAATCATTTTGTTAGAAAAAAATCAAAAAAAAAAAAAA
>gi|665821283|ref|NM_001300987.1| Homo sapiens polypyrimidine tract binding protein 2 (PTBP2), transcript variant 3, mRNA
AGAAAGGCGCGCGAAGGCGCGGAGGAGGCGTCGGCTGCGGCGCCCACTCCCCCTAGTCCCAGCGCCCTGCCGCTCGCCTCCCGCTGCCGGGCGCCGGCGCGCTCGGCTCTTTCCGCCGCCGCCGCTGCCGCGCGGTGGCCCGTGCGCCTCGGCACCTTCGGCAATTTCCGTCGGGCCCCAGCCGCCATTTTCTCGCCGCTTGTGTGGCTCGCTGGCTGCGTGGCTCGGTTCTTGTGAGCGAAGCTTTGTCCGGTTCGGCAATGGACGGAATCGTCACTGAGGTTGCAGTTGGCGTGAAGAATATCTGATCTGGACTTCTGTGGATTTATGGAAGAGCTGGCTTTATTTCTCTATCCTGTGGGAGGGGCAAACTTTGATTTTGTATGTGGAGTAACTTGACCTTCAGTTTTTTTGGTCTGAGAACAAAGGCCAAAAAATATGTAACAGTTAATAACAGAGGATCTGACGAACTACTCTCAGGCAGTGTTCTCAGTAGTCCGAACTCTAATATGAGCAGCATGGTAGTTACAGCCAATGGTAATGATAGTAAAAAATTTAAAGGAGAAGATAAAATGGATGGTGCTCCTTCTCGTGTACTTCATATTCGAAAATTACCTGGGGAAGTAACAGAAACTGAAGTTATTGCTTTAGGCTTACCTTTTGGTAAGGTGACCAACATCCTTATGCTGAAAGGAAAAAATCAGGCATTTTTGGAACTAGCAACCGAGGAAGCAGCTATTACTATGGTTAATTACTATTCTGCTGTGACACCTCATCTTCGTAACCAACCAATATATATCCAGTACTCGAATCACAAAGAACTAAAGACAGATAATACATTAAACCAACGTGCTCAGGCAGTTCTTCAAGCTGTGACAGCTGTCCAGACAGCAAATACTCCTCTTAGTGGCACCACAGTTAGCGAGAGTGCAGTGACTCCAGCCCAGAGTCCAGTACTTAGAATAATTATTGACAACATGTACTACCCTGTAACACTTGATGTTCTTCACCAAATATTTTCTAAGTTTGGTGCTGTATTGAAGATAATCACATTTACAAAAAATAACCAGTTTCAAGCTTTGCTCCAGTATGGTGATCCAGTAAATGCTCAACAAGCAAAACTAGCCCTAGATGGTCAGAATATTTATAATGCCTGCTGTACCCTAAGGATTGATTTTTCCAAACTTGTGAATTTGAATGTAAAATACAACAATGATAAAAGTAGGGATTATACTCGACCTGATCTTCCATCTGGGGATGGACAACCTGCATTGGACCCAGCTATTGCTGCAGCATTTGCCAAGGAGACATCCCTCTTAGGGCTTCCTGTTGCAGCTGTTCCAGGAGCTCTGAGTCCTTTGGCCATTCCAAATGCTGCTGCAGCAGCTGCTGCAGCTGCTGCTGGCCGAGTGGGTATGCCTGGAGTCTCAGCTGGTGGCAATACAGTCCTGTTGGTTAGCAATTTAAATGAAGAGATGGTTACGCCCCAAAGTCTGTTTACCCTCTTCGGTGTTTATGGAGATGTGCAGCGTGTGAAGATTTTATACAATAAGAAAGACAGCGCTCTAATACAGATGGCTGATGGAAACCAATCACAACTTGCCATGAATCATCTTAATGGACAGAAAATGTATGGAAAAATTATTCGTGTTACTCTGTCTAAACATCAGACTGTACAGCTACCTCGAGAGGGACTTGATGATCAAGGGCTAACAAAAGATTTTGGTAATTCCCCATTGCATCGTTTTAAGAAACCTGGATCCAAAAATTTTCAAAACATTTTTCCTCCTTCTGCCACCCTTCACCTATCTAATATCCCTCCATCAGTAGCAGAAGAGGATCTACGAACACTGTTCGCTAACACTGGGGGCACTGTGAAAGCATTTAAGTTTTTTCAAAGAGATCACAAAATGGCTCTTCTTCAGATGGCAACAGTGGAAGAAGCTATTCAGGCCTTGATTGATCTTCATAATTATAACCTTGGAGAAAACCATCATCTGAGAGTGTCTTTCTCCAAGTCAACAATTTAAAAATGGGAAGATGAAGATTGGGGGTGAATCACATTGTTCAATGTCATCACCTATTTGACTGTTCAGAAAAGTGGGGACCAGAGTTTGATTTTTTTTGTTTTTGTTTTTTTGGGGTTTCTTTTTTTTTTCCATGCTGTTATCATTCCTTGGTTATAAAATGAAATGGCATATGTAAAGGCAGAGTTGTTAACTGCTATATTTCATCTGTTCTATAGGGAAGCCATTTTGTCTGTTTAAAATTTCAGTTTAATTTTGCTTTTTTTTTTTTTTTTTTTTTCCTTTCAACTTAGTTGACATACGTGCCTTAAAAAGGAAAACTAGTGTTGCTATTGTGCATTTACTAGAAAAAAGGAATTGGTTGTTTAGGGCACACTGTTATATGGGAATTAAAATATGTTTAGGCAGGGGTGTGTAAAAAGGTTAAGTTTTTGTTTCTCCTGCTTGGAACTTATTTTGAATTACTGGCTTGTCACCTTTTTTTCTATTTAATCAAATAAGATACATGATATTGAAAGAATAAAGCAGCATTTTTAGTTTTTACTACCTTAGGCTTTATTGCTTTGAAAACAACATTGGCCTTTTGTATCTCACAATTCTGGTCTAGATTCAGTTATGAATGTAGGCATTAGTTAAAATTAACAAGATGCAGAGTATTAATTTCTTAAGACAACAAAGTGATTTCTGTAAGTTTGAGCCCTATGTGGAAAGCATTGTGGAATCTTAACCTTTTCGTACACACTCTTGTGGGACGTATCATATAAATGTCAGCACTAAGTAATGTCTTGTTTGTGGCTGAATATTTTTCGTAGATGTTTTTGAAGTTGACATGACTTACGTGCATTTAAATATATATTGCCATCCTTAGTTTGTAATTAAGATTTGGAATATGGTTGTGGATTTCTGAGCATGTGCAGACTGGTCTAGCTAGTTCAGGAACTGGTGCATGTATTTTTCAAAGATAAAGAAAGTGTACTGCGAAAATATGCAGGAAGATTAATTTTGTGGCAGTTTTCTAAAACTGACAACCAGGTGGGACCAAAGTTTATGTGCCTTTAGTCTTAATTTACCTTGCATTGTAATATTCAGTTTTAATAAATCTTCAAAATATTTTGTATTTAGGAATAGATCTGACTTTAATAAAAACATGGCTCAGAATCTACAGGTCAAATTAATTTGAACAGTTCTTGTCAATCCGAATTGTTGATTCTGTTTAAATGACCAATACTTTTTGAAATTGATGTACTTAGTTTCAAGATTCATAGATTCTGTTATCTATGTAGACAGAATGGTCATGTATATTTTCTATTAGTTGAGTTTTTACATCTTTAGAAATGTAAAATTCAGTATAGTTTGAAAGCGGCACAATTAAAAATTAATTTTCTAACAAAGTTGGGAGGTTTGATGGTTGTTTAATTTCATTTTGTGTGTACTCTGCTTACCCCTGTAGCATGCTCAATAAACACTTCTGTAGCTCTATATTCACCTTTTCTGTCTTTCTCTGCTGCCTTTTCTCTCTCCTCTTCTTTGTTTTCACTCCACTGTGCTTCTGAATTCATGTTTATTCTCTGCCAGGGTGGGAAAGGAGTAATAATATTACAATTCTATGGCTTTATACCATAAATAAATCTAGATGCTGTGAAAATAAAAAAAAAAAAA
>gi|662033887|ref|NM_001297549.1| Homo sapiens UPF1, RNA helicase and ATPase (UPF1), transcript variant 1, mRNA
CACGGCGACGGCGGCGGTGGCGGCAGTTCCTGCTCTAGGCTGCGAGCGGCTGGCGGCTTCGAGGGGAGCTGAGGCGCGGAGGGGCTCGGCGGCAGCGGCGGCGGCTCGGCACTGTTACCTCTCGGTCCGGCTGGCGCCGGGGCGCGCGGTTTGGTCCTTTCCGGGCGCGCGGGGGCGACAGCGGCAGCGACCCGAGGCCTGCGGCCTAGGCCTCAGCGCGGCGGCGGGCTCGAGTGCAGCGCGGAACCGGCCCGAGGGCCCTACCCGGAGGCACCATGAGCGTGGAGGCGTACGGGCCCAGCTCGCAGACTCTCACTTTCCTGGACACGGAGGAGGCCGAGCTGCTTGGCGCCGACACACAGGGCTCCGAGTTCGAGTTCACCGACTTTACTCTTCCTAGCCAGACGCAGACGCCCCCCGGCGGCCCCGGCGGCCCGGGCGGTGGCGGCGCGGGAGGCCCGGGCGGCGCGGGCGCGGGCGCTGCGGCGGGACAGCTCGACGCGCAGGTTGGGCCCGAAGGCATCCTGCAGAACGGGGCTGTGGACGACAGTGTAGCCAAGACCAGCCAGTTGTTGGCTGAGTTGAACTTCGAGGAAGATGAAGAAGACACCTATTACACGAAGGACCTCCCCATACACGCCTGCAGTTACTGTGGAATACACGATCCTGCCTGCGTGGTTTACTGTAATACCAGCAAGAAGTGGTTCTGCAACGGACGTGGAAATACTTCTGGCAGCCACATTGTAAATCACCTTGTGAGGGCAAAATGCAAAGAGGTGACCCTGCACAAGGACGGGCCCCTGGGGGAGACAGTCCTGGAGTGCTACAACTGCGGCTGTCGCAACGTCTTCCTCCTCGGCTTCATCCCGGCCAAAGCTGACTCAGTGGTGGTGCTGCTGTGCAGGCAGCCCTGTGCCAGCCAGAGCAGCCTCAAGGACATCAACTGGGACAGCTCGCAGTGGCAGCCGCTGATCCAGGACCGCTGCTTCCTGTCCTGGCTGGTCAAGATCCCCTCCGAGCAGGAGCAGCTGCGGGCACGCCAGATCACGGCACAGCAGATCAACAAGCTGGAGGAGCTGTGGAAGGAAAACCCTTCTGCCACGCTGGAGGACCTGGAGAAGCCGGGGGTGGACGAGGAGCCGCAGCATGTCCTCCTGCGGTACGAGGACGCCTACCAGTACCAGAACATATTCGGGCCCCTGGTCAAGCTGGAGGCCGACTACGACAAGAAGCTGAAGGAGTCCCAGACTCAAGATAACATCACTGTCAGGTGGGACCTGGGCCTTAACAAGAAGAGAATCGCCTACTTCACTTTGCCCAAGACTGACTCTGGTAATGAGGATTTAGTCATAATTTGGTTAAGAGACATGCGGCTCATGCAGGGGGATGAGATATGCCTGCGGTACAAAGGGGACCTTGCGCCCCTGTGGAAAGGGATCGGCCACGTCATCAAGGTCCCTGATAATTATGGCGATGAGATCGCCATTGAGCTGCGGAGCAGCGTGGGTGCACCTGTGGAGGTGACTCACAACTTCCAGGTGGATTTTGTGTGGAAGTCGACCTCCTTTGACAGGATGCAGAGCGCATTGAAAACGTTTGCCGTGGATGAGACCTCGGTGTCTGGCTACATCTACCACAAGCTGTTGGGCCACGAGGTGGAGGACGTAATCATCAAGTGCCAGCTGCCCAAGCGCTTCACGGCGCAGGGCCTCCCCGACCTCAACCACTCCCAGGTTTATGCCGTGAAGACTGTGCTGCAAAGACCACTGAGCCTGATCCAGGGCCCGCCAGGCACGGGGAAGACGGTGACGTCGGCCACCATCGTCTACCACCTGGCCCGGCAAGGCAACGGGCCGGTGCTGGTGTGTGCTCCGAGCAACATCGCCGTGGACCAGCTAACGGAGAAGATCCACCAGACGGGGCTAAAGGTCGTGCGCCTCTGCGCCAAGAGCCGTGAGGCCATCGACTCCCCGGTGTCTTTTCTGGCCCTGCACAACCAGATCAGGAACATGGACAGCATGCCTGAGCTGCAGAAGCTGCAGCAGCTGAAAGACGAGACTGGGGAGCTGTCGTCTGCCGACGAGAAGCGGTACCGGGCCTTGAAGCGCACCGCAGAGAGAGAGCTGCTGATGAACGCAGATGTCATCTGCTGCACATGTGTGGGCGCCGGTGACCCGAGGCTGGCCAAGATGCAGTTCCGCTCCATTTTAATCGACGAAAGCACCCAGGCCACCGAGCCGGAGTGCATGGTTCCCGTGGTCCTCGGGGCCAAGCAGCTGATCCTTGTAGGCGACCACTGCCAGCTGGGCCCAGTGGTGATGTGCAAGAAGGCGGCCAAGGCCGGGCTGTCACAGTCGCTCTTCGAGCGCCTGGTGGTGCTGGGCATCCGGCCCATCCGCCTGCAGGTCCAGTACCGGATGCACCCTGCACTCAGCGCCTTCCCATCCAACATCTTCTACGAGGGCTCCCTCCAGAATGGTGTCACTGCAGCGGATCGTGTGAAGAAGGGATTTGACTTCCAGTGGCCCCAACCCGATAAACCGATGTTCTTCTACGTGACCCAGGGCCAAGAGGAGATTGCCAGCTCGGGCACCTCCTACCTGAACAGGACCGAGGCTGCGAACGTGGAGAAGATCACCACGAAGTTGCTGAAGGCAGGCGCCAAGCCGGACCAGATTGGCATCATCACGCCCTACGAGGGCCAGCGCTCCTACCTGGTGCAGTACATGCAGTTCAGCGGCTCCCTGCACACCAAGCTCTACCAGGAGGTGGAGATCGCCAGTGTGGACGCCTTTCAGGGACGCGAGAAGGACTTCATCATCCTGTCCTGTGTGCGGGCCAACGAGCACCAAGGCATTGGCTTTTTAAATGACCCCAGGCGTCTGAACGTGGCCCTGACCAGAGCAAGGTATGGCGTCATCATTGTGGGCAACCCGAAGGCACTATCAAAGCAGCCGCTCTGGAACCACCTGCTGAACTACTATAAGGAGCAGAAGGTGCTGGTGGAGGGGCCGCTCAACAACCTGCGTGAGAGCCTCATGCAGTTCAGCAAGCCACGGAAGCTGGTCAACACTATCAACCCGGGAGCCCGCTTCATGACCACAGCCATGTATGATGCCCGGGAGGCCATCATCCCAGGCTCCGTCTATGATCGGAGCAGCCAGGGCCGGCCTTCCAGCATGTACTTCCAGACCCATGACCAGATTGGCATGATCAGTGCCGGCCCTAGCCACGTGGCTGCCATGAACATTCCCATCCCCTTCAACCTGGTCATGCCACCCATGCCACCGCCTGGCTATTTTGGACAAGCCAACGGGCCTGCTGCAGGGCGAGGCACCCCGAAAGGCAAGACTGGTCGTGGGGGACGCCAGAAGAACCGCTTTGGGCTTCCTGGACCCAGCCAGACTAACCTCCCCAACAGCCAAGCCAGCCAGGATGTGGCGTCACAGCCCTTCTCTCAGGGCGCCCTGACGCAGGGCTACATCTCCATGAGCCAGCCTTCCCAGATGAGCCAGCCCGGCCTCTCCCAGCCGGAGCTGTCCCAGGACAGTTACCTTGGTGACGAGTTTAAATCACAAATCGACGTGGCGCTCTCACAGGACTCCACGTACCAGGGAGAGCGGGCTTACCAGCATGGCGGGGTGACGGGGCTGTCCCAGTATTAAAAGGTGGCGGCGGAAGAGCTAAGCAACGTGGCTTAGTCCATCAGCATCTTATTCTGGGTAATAAAAAATAAAAATAAACGGATACCTGTTTTCCACTGCTAAAACTGAAGCACCACTGTGTGAGCAACAGGAAGGGAGAGCGCACGAGGGAGAGGAGCCGAGGCCGAGCGCCCCCTGCTGGCCCGCGGCGGCGAGGAGCAGAGGGAGCGGAGGAGGGGCCGGCCCGCGGGAGCCGCGGCCACCAGGAGGCCCCGCTCCGTCCCATCGGGGCTGCGGCCAGGGCGGAGGGAGGAAGACCCTCATCTCAGAGTAGCCCTTTCCTCTGTTCTTTTATTTCTTTTTCTCTTTGATTGAAAGGGGACTACGTCTTAGCAGGAAAAAAAACTTCGCATTTCTGTGCCCGAGCAGGCTCCTTGCAAAGACAGCAGCGTGCGGGGCAGAGCCCCGGGAGGGCGCGTCTGTCCACGCCTACCGGACGCGCCGAGGTCGCGCTGCCTGTGTTCTCCGAGGGCCTTCATTTAAAGAAAATAAGGGTGTTTTGGGTTTTTCTCTTTGTTTTTTTCAAGATTCTTTTAAAGGAGTACTGAAGAATACTTTCCTAAGTTTGTCTGTAAAATCTTAGCGGTGGACCTGGGAGATTTGAGAAGCTTCCAGAAACAGTTTAAACAAGCCAGCGCTACTGGAGAAGAGGAGCAACACCTGTGCCGCGGCCGGAGGAGTTTTGTTGTTGGTTTTAGCTTCCAGTGGCTTCTTTCTGCGGGGCATCAGGCTGCTGGGGTAGCCGCCCGCCGAGCCTGGAAGCTGCTCGTTCTCCGCTGGACTCAGAAGCCAAGCTGCTTCCCGCCTAGACTCGGCGCAGGGCCCCGCACCGGTGAGGAAGGTGCTTTTGGCCCCATTGCGAGGGGCCTTGGCCAGGACTGGCCCTGTGGCCAGGAGGCGAGAAGGTGGCTGTTCCCGGATTGACGGCTTTTTCCCGGGGGCCTTTGGAAGATTTGGTGGAAGGACAAGAGGGCCTGTCCCTGTCCCCGTCCCCAGGAGGTACCGACAGTCCCTGTGCTGGTTAGACACGGAGCGCTGCACACCGAAAGCCCAAATTGGGAGCTCTGCCTGCCGGCAACTTTGCTGATGGGGTGATTGCTGCTTCTGGGGGGTAAGGAAACAAGTTACAGAAATTACCGCGTTCTGTGTGAAGGGACTGAGGGTGTGGTGTCATTGGCAGAGGGTCATTTTAGGAGAGCTGCCCCAGCCCCTCGAACGCCTGGCTTGGGGTGTCATTCTGCCTGGCGGCCAGGCCTCCAGCTTCCCCTGCCCCGGGCCTGGGGCTGTCACTGGCCCTGATCCGAACACCTCCAGATTCCGGCTTCTACATGGGACAGACGGGGACGCACAGGCCACCTTCCTTCTGGCAGGGACTCTTATTTATTCCCATTGCTCTAGGGCTTTCGGTTTCCCCTTCTTCCGGTAGGCCGCGTAGAGGCATGCACCGGGTAGGTTTCCGCGGTGACCCCGCGGCGGCCTGAGGGACGCTCCCTGCCCCATCCCGGCTGTTGGGCTGGGCCGCTTTGCCTCTGCTTCGCCCTGTGCTGTGTTCTCCAGCTTTGTAGCAGCAGCCTTGACAAACCCAGGCGCACTGTACCAAGGCAATGTAACTTTTGATTTTCGGTCAATTTAAGTTCTTTTGTCACCAAATATTAATAAACAGTTTTGACTTCACAAAAAAAAAAAAAAAA
>gi|652698533|ref|NM_001293643.1| Homo sapiens placental growth factor (PGF), transcript variant 3, mRNA
CCTCGCACGCACTGCGGGCTCCGGCGCTGCGGGCTGGCCGGGCGCTGCGGGCTGACCGGGCGCTCCGGGAACTCGGCTCGGGAACCTCGTCTGCGGTGGGCGGGGCCGGCCCGGAGCCCCGCCCCGGCTCAGTCCCTGAAACCCAGGCGCGGACCGGCTGCAGTCTCAGAAGGGAGCTGCTGTCTGCGGAGGAAACTGCATCGACGGACGGCCGCCCAGCTACGGGAGGACCTGGAGTGGCACTGGGCGCCCGACGGACCATCCCCGGGACCCGCCTGCCCCTCGGCGCCCCGCCCCGCCGGGCCGCTCCCCGTCGGGTTCCCCAGCCACAGCCTTACCTACGGGCTCCTGACTCCGCAAGGCTTCCAGAAGATGCTCGAACCACCGGCCGGGGCCTCGGGGCAGCAGTGAGGGAGGCGTCCAGCCCCCCACTCAGCTCTTCTCCTCCTGTGCCAGGGGCTCCCCGGGGGATGAGCATGGTGGTTTTCCCTCGGAGCCCCCTGGCTCGGGACGTCTGAGAAGATGCCGGTCATGAGGCTGTTCCCTTGCTTCCTGCAGCTCCTGGCCGGGCTGGCGCTGCCTGCTGTGCCCCCCCAGTGGGCCTTGTCTGCTGGGAACGGCTCGTCAGAGGTGGAAGTGGTACCCTTCCAGGAAGTGTGGGGCCGCAGCTACTGCCGGGCGCTGGAGAGGCTGGTGGACGTCGTGTCCGAGTACCCCAGCGAGGTGGAGCACATGTTCAGCCCATCCTGTGTCTCCCTGCTGCGCTGCACCGGCTGCTGCGGCGATGAGAATCTGCACTGTGTGCCGGTGGAGACGGCCAATGTCACCATGCAGCTCCTAAAGATCCGTTCTGGGGACCGGCCCTCCTACGTGGAGCTGACGTTCTCTCAGCACGTTCGCTGCGAATGCCGGCCTCTGCGGGAGAAGATGAAGCCGGAAAGGAGGAGACCCAAGGGCAGGGGGAAGAGGAGGAGAGAGAAGCAGAGACCCACAGACTGCCACCTGTGCGGCGATGCTGTTCCCCGGAGGTAACCCACCCCTTGGAGGAGAGAGACCCCGCACCCGGCTCGTGTATTTATTACCGTCACACTCTTCAGTGACTCCTGCTGGTACCTGCCCTCTATTTATTAGCCAACTGTTTCCCTGCTGAATGCCTCGCTCCCTTCAAGACGAGGGGCAGGGAAGGACAGGACCCTCAGGAATTCAGTGCCTTCAACAACGTGAGAGAAAGAGAGAAGCCAGCCACAGACCCCTGGGAGCTTCCGCTTTGAAAGAAGCAAGACACGTGGCCTCGTGAGGGGCAAGCTAGGCCCCAGAGGCCCTGGAGGTCTCCAGGGGCCTGCAGAAGGAAAGAAGGGGGCCCTGCTACCTGTTCTTGGGCCTCAGGCTCTGCACAGACAAGCAGCCCTTGCTTTCGGAGCTCCTGTCCAAAGTAGGGATGCGGATCCTGCTGGGGCCGCCACGGCCTGGCTGGTGGGAAGGCCGGCAGCGGGCGGAGGGGATCCAGCCACTTCCCCCTCTTCTTCTGAAGATCAGAACATTCAGCTCTGGAGAACAGTGGTTGCCTGGGGGCTTTTGCCACTCCTTGTCCCCCGTGATCTCCCCTCACACTTTGCCATTTGCTTGTACTGGGACATTGTTCTTTCCGGCCAAGGTGCCACCACCCTGCCCCCCCTAAGAGACACATACAGAGTGGGCCCCGGGCTGGAGAAAGAGCTGCCTGGATGAGAAACAGCTCAGCCAGTGGGGATGAGGTCACCAGGGGAGGAGCCTGTGCGTCCCAGCTGAAGGCAGTGGCAGGGGAGCAGGTTCCCCAAGGGCCCTGGCACCCCCACAAGCTGTCCCTGCAGGGCCATCTGACTGCCAAGCCAGATTCTCTTGAATAAAGTATTCTAGTGTGGAAACGCT
>gi|649572334|ref|NM_022162.2| Homo sapiens nucleotide binding oligomerization domain containing 2 (NOD2), transcript variant 1, mRNA
GTAGACAGATCCAGGCTCACCAGTCCTGTGCCACTGGGCTTTTGGCGTTCTGCACAAGGCCTACCCGCAGATGCCATGCCTGCTCCCCCAGCCTAATGGGCTTTGATGGGGGAAGAGGGTGGTTCAGCCTCTCACGATGAGGAGGAAAGAGCAAGTGTCCTCCTCGGACATTCTCCGGGTTGTGAAATGTGCTCGCAGGAGGCTTTTCAGGCACAGAGGAGCCAGCTGGTCGAGCTGCTGGTCTCAGGGTCCCTGGAAGGCTTCGAGAGTGTCCTGGACTGGCTGCTGTCCTGGGAGGTCCTCTCCTGGGAGGACTACGAGGGCTTCCACCTCCTGGGCCAGCCTCTCTCCCACTTGGCCAGGCGCCTTCTGGACACCGTCTGGAATAAGGGTACTTGGGCCTGTCAGAAGCTCATCGCGGCTGCCCAAGAAGCCCAGGCCGACAGCCAGTCCCCCAAGCTGCATGGCTGCTGGGACCCCCACTCGCTCCACCCAGCCCGAGACCTGCAGAGTCACCGGCCAGCCATTGTCAGGAGGCTCCACAGCCATGTGGAGAACATGCTGGACCTGGCATGGGAGCGGGGTTTCGTCAGCCAGTATGAATGTGATGAAATCAGGTTGCCGATCTTCACACCGTCCCAGAGGGCAAGAAGGCTGCTTGATCTTGCCACGGTGAAAGCGAATGGATTGGCTGCCTTCCTTCTACAACATGTTCAGGAATTACCAGTCCCATTGGCCCTGCCTTTGGAAGCTGCCACATGCAAGAAGTATATGGCCAAGCTGAGGACCACGGTGTCTGCTCAGTCTCGCTTCCTCAGTACCTATGATGGAGCAGAGACGCTCTGCCTGGAGGACATATACACAGAGAATGTCCTGGAGGTCTGGGCAGATGTGGGCATGGCTGGACCCCCGCAGAAGAGCCCAGCCACCCTGGGCCTGGAGGAGCTCTTCAGCACCCCTGGCCACCTCAATGACGATGCGGACACTGTGCTGGTGGTGGGTGAGGCGGGCAGTGGCAAGAGCACGCTCCTGCAGCGGCTGCACTTGCTGTGGGCTGCAGGGCAAGACTTCCAGGAATTTCTCTTTGTCTTCCCATTCAGCTGCCGGCAGCTGCAGTGCATGGCCAAACCACTCTCTGTGCGGACTCTACTCTTTGAGCACTGCTGTTGGCCTGATGTTGGTCAAGAAGACATCTTCCAGTTACTCCTTGACCACCCTGACCGTGTCCTGTTAACCTTTGATGGCTTTGACGAGTTCAAGTTCAGGTTCACGGATCGTGAACGCCACTGCTCCCCGACCGACCCCACCTCTGTCCAGACCCTGCTCTTCAACCTTCTGCAGGGCAACCTGCTGAAGAATGCCCGCAAGGTGGTGACCAGCCGTCCGGCCGCTGTGTCGGCGTTCCTCAGGAAGTACATCCGCACCGAGTTCAACCTCAAGGGCTTCTCTGAACAGGGCATCGAGCTGTACCTGAGGAAGCGCCATCATGAGCCCGGGGTGGCGGACCGCCTCATCCGCCTGCTCCAAGAGACCTCAGCCCTGCACGGTTTGTGCCACCTGCCTGTCTTCTCATGGATGGTGTCCAAATGCCACCAGGAACTGTTGCTGCAGGAGGGGGGGTCCCCAAAGACCACTACAGATATGTACCTGCTGATTCTGCAGCATTTTCTGCTGCATGCCACCCCCCCAGACTCAGCTTCCCAAGGTCTGGGACCCAGTCTTCTTCGGGGCCGCCTCCCCACCCTCCTGCACCTGGGCAGACTGGCTCTGTGGGGCCTGGGCATGTGCTGCTACGTGTTCTCAGCCCAGCAGCTCCAGGCAGCACAGGTCAGCCCTGATGACATTTCTCTTGGCTTCCTGGTGCGTGCCAAAGGTGTCGTGCCAGGGAGTACGGCGCCCCTGGAATTCCTTCACATCACTTTCCAGTGCTTCTTTGCCGCGTTCTACCTGGCACTCAGTGCTGATGTGCCACCAGCTTTGCTCAGACACCTCTTCAATTGTGGCAGGCCAGGCAACTCACCAATGGCCAGGCTCCTGCCCACGATGTGCATCCAGGCCTCGGAGGGAAAGGACAGCAGCGTGGCAGCTTTGCTGCAGAAGGCCGAGCCGCACAACCTTCAGATCACAGCAGCCTTCCTGGCAGGGCTGTTGTCCCGGGAGCACTGGGGCCTGCTGGCTGAGTGCCAGACATCTGAGAAGGCCCTGCTCCGGCGCCAGGCCTGTGCCCGCTGGTGTCTGGCCCGCAGCCTCCGCAAGCACTTCCACTCCATCCCGCCAGCTGCACCGGGTGAGGCCAAGAGCGTGCATGCCATGCCCGGGTTCATCTGGCTCATCCGGAGCCTGTACGAGATGCAGGAGGAGCGGCTGGCTCGGAAGGCTGCACGTGGCCTGAATGTTGGGCACCTCAAGTTGACATTTTGCAGTGTGGGCCCCACTGAGTGTGCTGCCCTGGCCTTTGTGCTGCAGCACCTCCGGCGGCCCGTGGCCCTGCAGCTGGACTACAACTCTGTGGGTGACATTGGCGTGGAGCAGCTGCTGCCTTGCCTTGGTGTCTGCAAGGCTCTGTATTTGCGCGATAACAATATCTCAGACCGAGGCATCTGCAAGCTCATTGAATGTGCTCTTCACTGCGAGCAATTGCAGAAGTTAGCTCTATTCAACAACAAATTGACTGACGGCTGTGCACACTCCATGGCTAAGCTCCTTGCATGCAGGCAGAACTTCTTGGCATTGAGGCTGGGGAATAACTACATCACTGCCGCGGGAGCCCAAGTGCTGGCCGAGGGGCTCCGAGGCAACACCTCCTTGCAGTTCCTGGGATTCTGGGGCAACAGAGTGGGTGACGAGGGGGCCCAGGCCCTGGCTGAAGCCTTGGGTGATCACCAGAGCTTGAGGTGGCTCAGCCTGGTGGGGAACAACATTGGCAGTGTGGGTGCCCAAGCCTTGGCACTGATGCTGGCAAAGAACGTCATGCTAGAAGAACTCTGCCTGGAGGAGAACCATCTCCAGGATGAAGGTGTATGTTCTCTCGCAGAAGGACTGAAGAAAAATTCAAGTTTGAAAATCCTGAAGTTGTCCAATAACTGCATCACCTACCTAGGGGCAGAAGCCCTCCTGCAGGCCCTTGAAAGGAATGACACCATCCTGGAAGTCTGGCTCCGAGGGAACACTTTCTCTCTAGAGGAGGTTGACAAGCTCGGCTGCAGGGACACCAGACTCTTGCTTTGAAGTCTCCGGGAGGATGTTCGTCTCAGTTTGTTTGTGAGCAGGCTGTGAGTTTGGGCCCCAGAGGCTGGGTGACATGTGTTGGCAGCCTCTTCAAAATGAGCCCTGTCCTGCCTAAGGCTGAACTTGTTTTCTGGGAACACCATAGGTCACCTTTATTCTGGCAGAGGAGGGAGCATCAGTGCCCTCCAGGATAGACTTTTCCCAAGCCTACTTTTGCCATTGACTTCTTCCCAAGATTCAATCCCAGGATGTACAAGGACAGCCCCTCCTCCATAGTATGGGACTGGCCTCTGCTGATCCTCCCAGGCTTCCGTGTGGGTCAGTGGGGCCCATGGATGTGCTTGTTAACTGAGTGCCTTTTGGTGGAGAGGCCCGGCCTCTCACAAAAGACCCCTTACCACTGCTCTGATGAAGAGGAGTACACAGAACACATAATTCAGGAAGCAGCTTTCCCCATGTCTCGACTCATCCATCCAGGCCATTCCCCGTCTCTGGTTCCTCCCCTCCTCCTGGACTCCTGCACACGCTCCTTCCTCTGAGGCTGAAATTCAGAATATTAGTGACCTCAGCTTTGATATTTCACTTACAGCACCCCCAACCCTGGCACCCAGGGTGGGAAGGGCTACACCTTAGCCTGCCCTCCTTTCCGGTGTTTAAGACATTTTTGGAAGGGGACACGTGACAGCCGTTTGTTCCCCAAGACATTCTAGGTTTGCAAGAAAAATATGACCACACTCCAGCTGGGATCACATGTGGACTTTTATTTCCAGTGAAATCAGTTACTCTTCAGTTAAGCCTTTGGAAACAGCTCGACTTTAAAAAGCTCCAAATGCAGCTTTAAAAAATTAATCTGGGCCAGAATTTCAAACGGCCTCACTAGGCTTCTGGTTGATGCCTGTGAACTGAACTCTGACAACAGACTTCTGAAATAGACCCACAAGAGGCAGTTCCATTTCATTTGTGCCAGAATGCTTTAGGATGTACAGTTATGGATTGAAAGTTTACAGGAAAAAAAATTAGGCCGTTCCTTCAAAGCAAATGTCTTCCTGGATTATTCAAAATGATGTATGTTGAAGCCTTTGTAAATTGTCAGATGCTGTGCAAATGTTATTATTTTAAACATTATGATGTGTGAAAACTGGTTAATATTTATAGGTCACTTTGTTTTACTGTCTTAAGTTTATACTCTTATAGACAACATGGCCGTGAACTTTATGCTGTAAATAATCAGAGGGGAATAAACTGTTGAGTCAAAACAAAAAAAAAAAAAA
>gi|632794851|ref|NM_001291920.1| Homo sapiens retinoid X receptor alpha (RXRA), transcript variant 2, mRNA
ACAGATGCCCTGTGCATGGGGTGGGGATGAAGGAGGGCTGGGGGCTCCGTGACAGACAGTGGGAGGGGAGGCTGGCTGTCCTGTGGTGAGCTGCTTCTGGGGCACCCTGAGATGGGGCCTCCCTTCACTTCCTGGCCATCCAGGCATCTGTGTCTGTGTCCGGGAAGTGGAGGAGGGCCCCCAGGACCGAGTCGCTGCCCATCACTGACCGTCTGTGGCAGGCACTGCCAGTGGCCGTGGCCCAGGGTCTTGGTGGCTCGGCCTCATGGGGGGCTTGCTCCAGGCCTTGGGTGATGCTCCTGTGCTCCCTGACAGCCGCAGGGTCTCACCCTCCTGCTCCAGCCCCTCTCTGACCCCACCCTGCGGTCCTGGGAGGTAGCAGGACAGCCCCAGTATGCGGATGAGAAAACCTGAGGCCCAGCCTGGGCGGGTTCGTGGGTCCAGCTCAGCCCCTCTGTGCCTGTGGTCTGTAGGGACCTGGGCCCAGCTGCCCCTAAGGATGGAGCTCAGTCTTCCCCAGCTCCAACCCTGGGGCCTTGTGTGGGAGGGGCAGTGGCCCTGGGATCTGGCCTTGGCGGCTCCAGCCCCCTCTCCAGTATGGCAGAGCCTGGAGGCCTGCTGGTCTCTGGGTCTGAGACTCTGGCCTCCCAGCCTGCTCCCCTGGGGGTTGGTGGAGGCCTCGGGGCTGTCGGAGCTTCAGGATTAGGGACTGAAGCCCAGCAGGGGCTCCCTTTTCTGTGCCCCCTGCCTGAGCACAATCTTCCTGCCCTCTCCCCTGCAGCCCCTCTGTTGTCGTGGTCAGTCGTGCCGCCTGAGGGCCAAGTGTGGCCTTGGCACTGCCACCGTCCACCAGCGGCAAGTCAGGGCAGATTTCTCCACCCAGGTGAACTCCTCCCTCACCTCCCCGACGGGGCGAGGCTCCATGGCTGCCCCCTCGCTGCACCCGTCCCTGGGGCCTGGCATCGGCTCCCCGGGACAGCTGCATTCTCCCATCAGCACCCTGAGCTCCCCCATCAACGGCATGGGCCCGCCTTTCTCGGTCATCAGCTCCCCCATGGGCCCCCACTCCATGTCGGTGCCCACCACACCCACCCTGGGCTTCAGCACTGGCAGCCCCCAGCTCAGCTCACCTATGAACCCCGTCAGCAGCAGCGAGGACATCAAGCCCCCCCTGGGCCTCAATGGCGTCCTCAAGGTCCCCGCCCACCCCTCAGGAAACATGGCTTCCTTCACCAAGCACATCTGCGCCATCTGCGGGGACCGCTCCTCAGGCAAGCACTATGGAGTGTACAGCTGCGAGGGGTGCAAGGGCTTCTTCAAGCGGACGGTGCGCAAGGACCTGACCTACACCTGCCGCGACAACAAGGACTGCCTGATTGACAAGCGGCAGCGGAACCGGTGCCAGTACTGCCGCTACCAGAAGTGCCTGGCCATGGGCATGAAGCGGGAAGCCGTGCAGGAGGAGCGGCAGCGTGGCAAGGACCGGAACGAGAATGAGGTGGAGTCGACCAGCAGCGCCAACGAGGACATGCCGGTGGAGAGGATCCTGGAGGCTGAGCTGGCCGTGGAGCCCAAGACCGAGACCTACGTGGAGGCAAACATGGGGCTGAACCCCAGCTCGCCGAACGACCCTGTCACCAACATTTGCCAAGCAGCCGACAAACAGCTTTTCACCCTGGTGGAGTGGGCCAAGCGGATCCCACACTTCTCAGAGCTGCCCCTGGACGACCAGGTCATCCTGCTGCGGGCAGGCTGGAATGAGCTGCTCATCGCCTCCTTCTCCCACCGCTCCATCGCCGTGAAGGACGGGATCCTCCTGGCCACCGGGCTGCACGTCCACCGGAACAGCGCCCACAGCGCAGGGGTGGGCGCCATCTTTGACAGGGTGCTGACGGAGCTTGTGTCCAAGATGCGGGACATGCAGATGGACAAGACGGAGCTGGGCTGCCTGCGCGCCATCGTCCTCTTTAACCCTGACTCCAAGGGGCTCTCGAACCCGGCCGAGGTGGAGGCGCTGAGGGAGAAGGTCTATGCGTCCTTGGAGGCCTACTGCAAGCACAAGTACCCAGAGCAGCCGGGAAGGTTCGCTAAGCTCTTGCTCCGCCTGCCGGCTCTGCGCTCCATCGGGCTCAAATGCCTGGAACATCTCTTCTTCTTCAAGCTCATCGGGGACACACCCATTGACACCTTCCTTATGGAGATGCTGGAGGCGCCGCACCAAATGACTTAGGCCTGCGGGCCCATCCTTTGTGCCCACCCGTTCTGGCCACCCTGCCTGGACGCCAGCTGTTCTTCTCAGCCTGAGCCCTGTCCCTGCCCTTCTCTGCCTGGCCTGTTTGGACTTTGGGGCACAGCCTGTCACTGCTCTGCCTAAGAGATGTGTTGTCACCCTCCTTATTTCTGTTACTACTTGTCTGTGGCCCAGGGCAGTGGCTTTCCTGAGGCAGCAGCCTTCGTGGCAAGAACTAGCGTGAGCCCAGCCAGGCGCCTCCCCACCGGGCTCTCAGGACACCCTGCCACACCCCACGGGGCTTGGGCGACTACAGGGTCTTCGGGCCCCAGCCCTGGAGCTGCAGGAGTTGGGAACGGGGCTTTTGTTTCCGTTGCTGTTTATCGATGCTGGTTTTCAGAATTCCTGTGTGGCCCTCCTGTCTGGAGTGACATCTTCATCTGCTCTGAATACTGGTGCCCAGCCAGCCCGTGACAGCTTCCCCCTAATCAGGAGGGGACAGCTGGGGGCGCAAGCTGGTGTGTCATCAGCAAAGACCTCAGCCGCCTCGGGGATGAGAGGGGACTCGTGGGGCAAGCAAGCTGCCCTGTGCTCTGAGTGAGGGGGAAGGTAGCCCCTTTTTCCAAAGATAACTCACAGTTTTGCCCTCGAGCCAATGAGAACATGAGCTGCCCTCTGTGCAAGGTTTCGGGGCCACCTCCAGGCTGCAGGGGCGGGTCACTCACCCCCCTGTTTTCTCTCTGCCTTGGTGTTCTGGTTTCAGACTCCCGACTCCCCGTTCAGACCAGAGTGCCCCGGCCCCTCCCCAGCCTGAGTCTTCTCCTTGCTCTGCGGGGTGGGCTGAGGCTTGTCCTTGTTTCCTGCAGGGCTGGCCCTGGCTCGGGCAGGGTGGGGCATCACCACCTCACTGGCCTTGCTGGAGGCACAGGGCTCTGCGGACCTGCAGCCATCTGTGAGGCCCGCGGGGATGGGAGGGGAGGAGGGTGGCCTGTTGGTTTCCCTCAGAGGGGGCAGGTGGCCTGGAGAGAGAGGGGCTCAGGAACTGGGAGCCTCGTGGGTGGGGCAGATGCTCCGCGGCCTGGAGTGGCTCTGCCGGGGCATTGGTGGGACCCCTGCTCAGGCCTTCTCTCTGGCTGCCAGTTGTGTCTAAAAGACTCTTGGAATCTGAGAACCCGGAGTCGCAGCGCCCTCGGGCCTGGGCCACACGCAGGCCCTGGTGGGACCACCCAGCCTGGTATTGTCCACGGACAGCGTTGTTCACCCAGAGCCTTACTTGGGAGCCTCACTGAACGCCTGCTCTGGTTGAAGGTGGGGTGGGGGCGGGGCTTGGGGCCTCCCTGGCTCAGCCCAGTGCGGCCTGGCGCTCCTCCCGCAGGCTCTGCCCCCGGGCTCCGGTGGTGCGGGGCCCTCTCAGGTTGAACTCGCCTCTTTTGCACTGGAAGGCCCTCCCTTTGGCCTGAGTACTTTTCCCGTTCACGCCTCAGTCCCGTGGACCCAGCCTTTGTCAGTGGCAGGTGCCTGAACAGAGGGTGGATGGGGGGGATACCGGAGGGGGTCTTGTCTTCCCAGCCGCAGTCTAGGAATGATGCGGGGGGGTGGACGCCTTCTCCATAGTCTTTCCCCACCTGGAGCAGGGGCTTCCTCAGTGGTGAGGGGAGCTGCCTACAGGTTGGACCGGGAGGCAGTGGCTTGGAGAGGCAGCTTTCCAGCCTTGGTGGGGAAGAAAGTGTCCATTCTTTGCCTTCCTGGAGCTCCCAGCCAGAGCTGAGCTTAGGCACCCGAGTGGAGCCTGCAGCTGAGTCTGTGCCCGAGACAGGCTGTCAGAGATTCCAGAAGCCTCTCCTCCCCGCCGCCCTCCACCCCTGCCTTTCAGCGTTGTGGATCCCTAGAGGTGGCCCCCTGCCCGATCCACCGTCCTGAGGCAGAGTGTTGAGCCTCATACCTGTACCAGGTCCCCGGCCAGCTGGGCCCCTCCCAGGCACTGCCAGGAAGCCCCAGCTGCCCCTGGCGGGTGTGGTGGAAATGGCAGGAGGGTGCAGGTACTCTTGGGGCCCCAGCGGTGGGAGTGCAAAAGACCCAACGCCAACACCTGGTGCCTTCTGCAGCCAGCGCCCACCCATCCGTGCCCGGACCCTTGGGAATGCCCGCGGCTCCAGAGGAAAAAGCCCAGGGACGGGGCCTCCGTTGCGGGGGGTCGGCTGCTTCTTGGGAACTTTGTCGTTTCCGGCGCTGGCTGGCTGGCTGGCTGGCTGTAAAGCACTGAAGCCCCCCGGCCGCCAACCCCTGAAAGCAGAACCTGGCCTCCCTGGCCACAGCAGCCTTACCCACCGCTCTACGTGTCCCGGGCACTTCCCGCAGCCTTCCCGTCCCTTTCTCATCGGCCTTGTAGTTGTACAGTGCTGTTGGTTTGAAAAGGTGATGTGTGGGGAGTGCGGCTCATCACTGAGTAGAGAGGTAGAATTTCTATTTAACCAGACCTGTAGTAGTATTACCAATCCAGTTCAATTAAGGTGATTTTTTGTAATTATTATTATTTTGGTGGGACAATCTTTAATTTTCTAAAGATAGCACTAACATCAGCTCATTAGCCACCTGTGCCTGTCCCCGCCTTGGCCCGGCTGGATGAAGCGGCTTCCCCGCAGGGCCCCCACTTCCCAGTGGCTGCTTCCTGGGGACCCAGGGCACCCCGGCACCTTCAGGCACGCTCCTCAGCTGGTCACCTCCCGGCTTTGCCGTTCAGATGGGGCTCCTGAGGCTCAGGAGTGAAGATGCCACAGAGCCGGGCTCCCCTAGGCTGCGTCGGGCATGCTTGGAAGCTGGCCTGCCAGGACCTTCCACCCTGGGGCCTGTGTCAGCCGCCGGCCCTCCGCACCCTGGAAGCACACGGCCTCTGGGAAGGACAGCCCTGACCTTCGGTTTTCCGAGCACGGTGTTTCCCAAGAATTCTGGGCTGGCGGCCTGGTGGCAGTGCTGGAGATGACCCCGAGCCCCTCCCCGTGGGGCACCCAGGAGGGCCCTGCCGGAATGTGCAGCCTGTGGGTAGTCGGCTGGTGTCCCTGTCGTGGAGCTGGGGTGCGTGATCTGGTGCTCGTCCACGCAGGTGTGTGGTGTAAACATGTATGTGCTGTACAGAGAGACGCGTGTGGAGAGAGCCGCACACCAGCGCCACCCAGGAAAGGCGGAGCGGTTACCAGTGTTTTGTGTTTATTTTTAATCAAGACGTTTCCCCTGTTTTCCTATAAATTTGCTTCGTGTAAGCAAGTACATAAGGACCCTCCTTTGGTGAAATCCGGGTTCGAATGAATATCTCAAGGCAGGAGATGCATCTATTTTAAGATGCTTTGGAGCAGACAGCTTTAGCCGTTCCCAATCCTTAGCAATGCCTTAGCTGGGACGCATAGCTAATACTTTAGAGAGGATGACAGATCCATAAAGAGAGTAAAGATAAGAGAAAATGTCTAAAGCATCTGGAAAGGTAAAAAAAAAAAATCTATTTTTGTACAAATGTAATTTTATCCCTCATGTATACTTGGATATGGCGGGGGGAGGGCTGGGACTGTTTCGTTTCTGCTTCTAGAGATTGAGGTGAAAGCTTCGTCCGAGAAACGCCAGGACAGACGATGGCAGAGGAGAGGGCTCCTGTGACGGCGGCGAGGCTTGGGAGGAAACCGCCGCAATGGGGGTGTCTTCCCTCGGGGCAGGAGGGTGGGCCTGAGGCTTTCAAGGGTTTTCTTCCCTTTCGAGTAATTTTTAAAGCCTTGCTCTGTTGTGTCCTGTTGCCGGCTCTGGCCTTCCTGTGACTGACTGTGAAGTGGCTTCTCCGTACGATTGTCTCTGAAACATCGTGGCCTCAGGTGCCAGGGTTTGATGGACAGTAGCATTAGAATTGTGGAAAAGGAACACGCAAAGGGAGAAGTGTGAGAGGAGAAACAAAATATGAGCGTTTAAAATACATCGCCATTCAGTTCGTTT
>gi|631226405|ref|NM_001291896.1| Homo sapiens RAP1A, member of RAS oncogene family (RAP1A), transcript variant 3, mRNA
CAACCACGCCCGCGGACCGACCCGGTCGACTGTAGGCCTGCGGGAGACCGTCGGGAGGGGCCCCGGCCGGCTGTGGGAGAGAAAGAGGACATTGTGTCCCCCACCCTTCAGCTCCCCGAGGTGTCATAGCACAAGCCCATTTCCCTCGCCGTCTCCCCAGACACGGTGCCCTCGTACCTCACTGCCTGAGAGAAGTAGAAGATCGTCAGTATTTAAACAGATCACATCATGCGTGAGTACAAGCTAGTGGTCCTTGGTTCAGGAGGCGTTGGGAAGTCTGCTCTGACAGTTCAGTTTGTTCAGGGAATTTTTGTTGAAAAATATGACCCAACGATAGAAGATTCCTACAGAAAGCAAGTTGAAGTCGATTGCCAACAGTGTATGCTCGAAATCCTGGATACTGCAGGGACAGAGCAATTTACAGCAATGAGGGATTTGTATATGAAGAACGGCCAAGGTTTTGCACTAGTATATTCTATTACAGCTCAGTCCACGTTTAACGACTTACAGGACCTGAGGGAACAGATTTTACGGGTTAAGGACACGGAAGATGTTCCAATGATTTTGGTTGGCAATAAATGTGACCTGGAAGATGAGCGAGTAGTTGGCAAAGAGCAGGGCCAGAATTTAGCAAGACAGTGGTGTAACTGTGCCTTTTTAGAATCTTCTGCAAAGTCAAAGATCAATGTTAATGAGATATTTTATGACCTGGTCAGACAGATAAATAGGAAAACACCAGTGGAAAAGAAGAAGCCTAAAAAGAAATCATGTCTGCTGCTCTAGGCCCATAGTCAGCAGCAGCTCTGAGCCAGATTACAGGAATGAAGAACTGTTGCCTAATTGGAAAGTGCCAGCATTCCAGACTTCAAAAATAAAAAATCTGAAGAGGCTTCTCCTGTTTTATATATTATGTGAAGAATTTAGATCTTATATTGGTTTGCACAAGTTCCCTGGAGAAAAAAATTGCTCTGTGTATATCTCTTGGAAAATAAGACAATAGTATTTCTCCTTTGCAATAGCAGTTATAACAGATGTGAAAATATACTTGACTCTAATATGATTATACAAAAGAGCATGGATGCATTTCAAATGTTAGATATTGCTACTATAATCAAATGATTTCATATTGATCTTTTTATCATGATCCTCCCTATCAAGCACTAAAAAGTTGAACCATTATACTTTATATCTGTAATGATACTGATTATGAAATGTCCCCTCAAACTCATTGCAGCAGATAACTTTTTTGAGTCATTGACTTCATTTTATATTTAAAAAATTATGGAATATCATCTGTCATTATATTCTAATTAAAATTGTGCATAATGCTTTGGAAAAATGGGTCTTTTATAGGAAAAAAACTGGGATAACTGATTTCTATGGCTTTCAAAGCTAAAATATATAATATACTAAACCAACTCTAATATTGCTTCTTGTGTTTTACTGTCAGATTAAATTACAGCTTTTATGGATGATTAAATTTTAGTACATTTTCATTTGGTTTGTGTGTTTTTGTTATTGTTTATAGATTAAAGCGTTTATTTTATAATGACCACATTGTTTTAAATGCGACAGTAGCTCCTTTCTGCCTAGTATCTGCAGAACACTGGCTTTAAACTATACTAAGTAACTGGTGATTTCTCTAGGAACAGACCTCGCACTTTCTGTTCTAAATATATTTATTCCTACTATACAGTAAAATACATCAGACAACATAGAATAGTTTTGTATATTCTCTCTTGATCTTAAAGATTGTATCTTATTGAATATCCCACTGTATATTATTTTTATATGTAAAAAGATAAGTTTAATACTGTATCAGGGTTTAACTTTTACTATTTCAGATCTTCCACAGCTTGTAATTTCATCAAGGGAATCCTTTTGCATTGTTAATTTGTTGGGTGTGAGTCCACCAATGAAGTGTTATGTGAAAAATTTCAAACTTGCTTTATAATAGATTGAAGAATTTGAGAGAAGTGAGAGAAAGTTAAAACACATAAAAGGAATGTGTTACTTTTGCTTAAACTACTTATGAAATAGTATGGTAGTAGTAATATGGAAGAGATTGCTAAGTTAAAATTGTAGCTTCCTATATAGTGGTGCTTTTTCTTTTCCTTCCCAGTTATTTTCCTCTTTACAAAAGATAGGGCTTAAGTAAGACATGGACCCAGGGTGATACTACTTATGTAGTCTCTATAAAGAGAGGTAGAACAAAAAGCTTGTTAGCCAATTAAGTTCTGGAAAAGGAAAGAAACAAGCTTAGAAAACCCTGTGCCTTGTCCTCAAATATTAAGGAGGAGACAGACCAGTCCTAGAAAGTCTAAGTCATTGCTCAGGGATCTCTAGATACTGTCTCTTTGCAACTAGGTATGAAGAAGTGTTCATGCCTTGCTGAGATTTTCCAGGCATGTGGTCAGCCTGTCACTTACTAAACTGAAATTTTAAAATCAGGTTTCAAATGTTAAGCTTTGACCAACCTGAGAAAATGTTAAAGTATTGTTTTTAAAAAAATGGAAATTTTTTTTGTTTGTGTTTTTGTTTTAGTTTCGAATAAACTTAGTTACCTTACACTTCCCTTCTACTTATCCAATTATGCATATGTCTGGGATTGAGGGGCCAAAACTATAGCGAACTTGAATGAAGTATTAGGGCCAGTTGTCAGGTCAGGGTGGCATCTTTTATTTTAAGGTCCTCTAAAGTCATTCTGCTTTAAAACACCCCTCAAACATACCTTTAAACTTAAGATCATAGACAGACATCTCATCAACCAGTAAAACTTTCTAAATACTACCTTGTCACATCTATTGTGTAGTTATTTAACAGATTAAATAGAAGTCATTTAATAAGACTCCAAGTCTCAGTCTGCTTGACTAGTAGCATAAACTCAGTCTATTCTATTTTAGAATGTGGTGGAGAAAGATGATAGTTATTAGATTCCTTTGTCACATCTTATACAGTCCACTTGGGTTAAAGGTGGAACTGTCAAGAAAAACGCCTTTCTGGCACACAGTGATATGCAGAGCAGGACCAGCTGAAGTCAGATGTGCAAGGAAATCTGTGGTTGCTGAGCAGGATGAAAAGTATCCTGTTAGAAAGTGAGATAGGTGTGTTTTTATATTGTCCTAATGTGAACTCCTTAGTCTTGGTTCCAAAGGGAAGGGTACCTGAAAATAAATGTATTTTTATAGCTGAAAAATCAAGAGTTTCTAGGATATTGTGTGAATGTCAAATGATAAATATCTAGAAACTGATTTCATATTAGTATGTGTGGCTATTTAAAGTATAATGACTTTGGTTTGGTTATATGAGTGACACAGAATTTAAGGAGGCTTCATGCCATAGTTCATAGTTTGCTCTAATGGCTTGGTGGTATCCCTGAACAGTCTACTTTTAGAAATTAACAGTAAATACACAATCCAGCTGTAATCTTACCCTCCACCAGGGGGAGCTTCAACATCGGTTAATACTTTTTTTTTTTTTGAGATGGAGTCTCGCCCTGTCGCCCAGGCTAGAGTGCAATGGCTCAGTCTCCGCTCACTGCAACCTCTGCCTCCCGGGTTCAAACAGTTGTGCCTCAGTCTTCCAAGTAGCTGGGATTACAGGCACCCGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCATCATGTTGGCGAGGCTGGTCTTGAACTCCTGACTTCGTGATCCGCCCCCCCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCCGGTTAATACTTTCATAAGCATTGAAGTAACTATTTAAGTCCTAGTACATAAACACTGTGTGGTTCACAAAAAGGCATAGAGACATTCTCTCAAGAGTTTACAATCTAATTGGGCAGGGAAGATACTACAGTTCATCAAAGATATGAATAACACCCTAGTTTTCTGAACTGCAGCTGCATGGGTAATTATCTTAAGAACTTTTGGCAAAATATGGATGTTGGTGTGTTACTCTCTTCTCCCTACAACTCTGAACTAATCTGTGTTTGGCACCTTGATTTGCCATCATAAATGGCCACCATTTACTCCTCACTGAAATATTCTTCTTCTTTGAGGTTATAATGTACTTGGAAAAGTTAATACTTATAGAAAATAATGATCTTTATTACCAACTTTATTAAAACAGGCTTGGAACATTTTTCTCCATAGAAGAATAGTAATAAGACATTCTACATTTCCTGGACATGGCCAGTTTAAAATATTTTGCCCCATTACCCTTGTAGATACACATGTATTTGTCAGTTTATGTGCCTCAGTTTTGTCTTAGGCACTGAGGGACAGAAAGAGAAATAAGGAATACCTTGGTATTTTCCTTTGCAAGCAATCACAGCAGAATGCTAGAAAACATAAAATATACTCTTATAAATTGTATGTGTGTTGAAACCAAAGTGTGAAGAAATTGTCAGGTATTTGGAGGAGGAAAATAATTTGTAAAATAACCTTTTTAAGAATTTGGATTTTGTACTTATTTAAGGTGCTAAATATGTGTTAAAATATCCCCTCTTGAATCAGCTCCAGGCTTAAAAGGGCAGAGTGGTTTGGATTCTTGTCCAGGGTCTGGAAAGAGCTCATCTTGCCGAGAGGGAAATAAATGTGAGCTTTGAGGCGGTCTAACTACCCAGCTTTTAGTATTTATGTTCCCCAAAATGTAAAAACTGTAAGTTATTCTTGAAAATGTAGTCCAGACATTTCTTTGATCCTGGATTTTACTGCAGTTTCATCATGGGTTTGTTGAATGTGCAGTCCATTTATTGCCCTGTCTTGCTTAAATATTCTTGTTGAGAACAGCTGGAGGCTTTGACTGGGTTCCTAGTTCTGTTTTCTGGGAAGGCAACGTGGATTCTGTTTTGTAGACATTAATGAGCTTTAAATGGGAATTGGGGATGATGTATGTTCGTTGGGCATGCTGAGAAGCGGCCTCCTGTGGTTCTGGGCCCAAGGTGTGACATACATTTCCCACTAATTGCTTCTCTCAAGAAGCAAGAGATTGGCTGTTCCTCTTGAGGAAAAACCTTAATAAACCTTCCCATTTTAAACAGT
>gi|631226404|ref|NM_002884.3| Homo sapiens RAP1A, member of RAS oncogene family (RAP1A), transcript variant 2, mRNA
GGCGCCGCCGCCGCTCCCGAGGCCCCTGCCGCCGCCGCTCCCGCTGCTGTCGCCGCGCAGAGCCGGAGCAGGAGCCACGGCCGAGAGGAGGGAGGAGGAGGAGGAGGAGGTGGAGGAGGTGGAGGAGGTGGAGGAGGCGCCGGACCGGGGGGATCGTCAGTATTTAAACAGATCACATCATGCGTGAGTACAAGCTAGTGGTCCTTGGTTCAGGAGGCGTTGGGAAGTCTGCTCTGACAGTTCAGTTTGTTCAGGGAATTTTTGTTGAAAAATATGACCCAACGATAGAAGATTCCTACAGAAAGCAAGTTGAAGTCGATTGCCAACAGTGTATGCTCGAAATCCTGGATACTGCAGGGACAGAGCAATTTACAGCAATGAGGGATTTGTATATGAAGAACGGCCAAGGTTTTGCACTAGTATATTCTATTACAGCTCAGTCCACGTTTAACGACTTACAGGACCTGAGGGAACAGATTTTACGGGTTAAGGACACGGAAGATGTTCCAATGATTTTGGTTGGCAATAAATGTGACCTGGAAGATGAGCGAGTAGTTGGCAAAGAGCAGGGCCAGAATTTAGCAAGACAGTGGTGTAACTGTGCCTTTTTAGAATCTTCTGCAAAGTCAAAGATCAATGTTAATGAGATATTTTATGACCTGGTCAGACAGATAAATAGGAAAACACCAGTGGAAAAGAAGAAGCCTAAAAAGAAATCATGTCTGCTGCTCTAGGCCCATAGTCAGCAGCAGCTCTGAGCCAGATTACAGGAATGAAGAACTGTTGCCTAATTGGAAAGTGCCAGCATTCCAGACTTCAAAAATAAAAAATCTGAAGAGGCTTCTCCTGTTTTATATATTATGTGAAGAATTTAGATCTTATATTGGTTTGCACAAGTTCCCTGGAGAAAAAAATTGCTCTGTGTATATCTCTTGGAAAATAAGACAATAGTATTTCTCCTTTGCAATAGCAGTTATAACAGATGTGAAAATATACTTGACTCTAATATGATTATACAAAAGAGCATGGATGCATTTCAAATGTTAGATATTGCTACTATAATCAAATGATTTCATATTGATCTTTTTATCATGATCCTCCCTATCAAGCACTAAAAAGTTGAACCATTATACTTTATATCTGTAATGATACTGATTATGAAATGTCCCCTCAAACTCATTGCAGCAGATAACTTTTTTGAGTCATTGACTTCATTTTATATTTAAAAAATTATGGAATATCATCTGTCATTATATTCTAATTAAAATTGTGCATAATGCTTTGGAAAAATGGGTCTTTTATAGGAAAAAAACTGGGATAACTGATTTCTATGGCTTTCAAAGCTAAAATATATAATATACTAAACCAACTCTAATATTGCTTCTTGTGTTTTACTGTCAGATTAAATTACAGCTTTTATGGATGATTAAATTTTAGTACATTTTCATTTGGTTTGTGTGTTTTTGTTATTGTTTATAGATTAAAGCGTTTATTTTATAATGACCACATTGTTTTAAATGCGACAGTAGCTCCTTTCTGCCTAGTATCTGCAGAACACTGGCTTTAAACTATACTAAGTAACTGGTGATTTCTCTAGGAACAGACCTCGCACTTTCTGTTCTAAATATATTTATTCCTACTATACAGTAAAATACATCAGACAACATAGAATAGTTTTGTATATTCTCTCTTGATCTTAAAGATTGTATCTTATTGAATATCCCACTGTATATTATTTTTATATGTAAAAAGATAAGTTTAATACTGTATCAGGGTTTAACTTTTACTATTTCAGATCTTCCACAGCTTGTAATTTCATCAAGGGAATCCTTTTGCATTGTTAATTTGTTGGGTGTGAGTCCACCAATGAAGTGTTATGTGAAAAATTTCAAACTTGCTTTATAATAGATTGAAGAATTTGAGAGAAGTGAGAGAAAGTTAAAACACATAAAAGGAATGTGTTACTTTTGCTTAAACTACTTATGAAATAGTATGGTAGTAGTAATATGGAAGAGATTGCTAAGTTAAAATTGTAGCTTCCTATATAGTGGTGCTTTTTCTTTTCCTTCCCAGTTATTTTCCTCTTTACAAAAGATAGGGCTTAAGTAAGACATGGACCCAGGGTGATACTACTTATGTAGTCTCTATAAAGAGAGGTAGAACAAAAAGCTTGTTAGCCAATTAAGTTCTGGAAAAGGAAAGAAACAAGCTTAGAAAACCCTGTGCCTTGTCCTCAAATATTAAGGAGGAGACAGACCAGTCCTAGAAAGTCTAAGTCATTGCTCAGGGATCTCTAGATACTGTCTCTTTGCAACTAGGTATGAAGAAGTGTTCATGCCTTGCTGAGATTTTCCAGGCATGTGGTCAGCCTGTCACTTACTAAACTGAAATTTTAAAATCAGGTTTCAAATGTTAAGCTTTGACCAACCTGAGAAAATGTTAAAGTATTGTTTTTAAAAAAATGGAAATTTTTTTTGTTTGTGTTTTTGTTTTAGTTTCGAATAAACTTAGTTACCTTACACTTCCCTTCTACTTATCCAATTATGCATATGTCTGGGATTGAGGGGCCAAAACTATAGCGAACTTGAATGAAGTATTAGGGCCAGTTGTCAGGTCAGGGTGGCATCTTTTATTTTAAGGTCCTCTAAAGTCATTCTGCTTTAAAACACCCCTCAAACATACCTTTAAACTTAAGATCATAGACAGACATCTCATCAACCAGTAAAACTTTCTAAATACTACCTTGTCACATCTATTGTGTAGTTATTTAACAGATTAAATAGAAGTCATTTAATAAGACTCCAAGTCTCAGTCTGCTTGACTAGTAGCATAAACTCAGTCTATTCTATTTTAGAATGTGGTGGAGAAAGATGATAGTTATTAGATTCCTTTGTCACATCTTATACAGTCCACTTGGGTTAAAGGTGGAACTGTCAAGAAAAACGCCTTTCTGGCACACAGTGATATGCAGAGCAGGACCAGCTGAAGTCAGATGTGCAAGGAAATCTGTGGTTGCTGAGCAGGATGAAAAGTATCCTGTTAGAAAGTGAGATAGGTGTGTTTTTATATTGTCCTAATGTGAACTCCTTAGTCTTGGTTCCAAAGGGAAGGGTACCTGAAAATAAATGTATTTTTATAGCTGAAAAATCAAGAGTTTCTAGGATATTGTGTGAATGTCAAATGATAAATATCTAGAAACTGATTTCATATTAGTATGTGTGGCTATTTAAAGTATAATGACTTTGGTTTGGTTATATGAGTGACACAGAATTTAAGGAGGCTTCATGCCATAGTTCATAGTTTGCTCTAATGGCTTGGTGGTATCCCTGAACAGTCTACTTTTAGAAATTAACAGTAAATACACAATCCAGCTGTAATCTTACCCTCCACCAGGGGGAGCTTCAACATCGGTTAATACTTTTTTTTTTTTTGAGATGGAGTCTCGCCCTGTCGCCCAGGCTAGAGTGCAATGGCTCAGTCTCCGCTCACTGCAACCTCTGCCTCCCGGGTTCAAACAGTTGTGCCTCAGTCTTCCAAGTAGCTGGGATTACAGGCACCCGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCATCATGTTGGCGAGGCTGGTCTTGAACTCCTGACTTCGTGATCCGCCCCCCCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCCGGTTAATACTTTCATAAGCATTGAAGTAACTATTTAAGTCCTAGTACATAAACACTGTGTGGTTCACAAAAAGGCATAGAGACATTCTCTCAAGAGTTTACAATCTAATTGGGCAGGGAAGATACTACAGTTCATCAAAGATATGAATAACACCCTAGTTTTCTGAACTGCAGCTGCATGGGTAATTATCTTAAGAACTTTTGGCAAAATATGGATGTTGGTGTGTTACTCTCTTCTCCCTACAACTCTGAACTAATCTGTGTTTGGCACCTTGATTTGCCATCATAAATGGCCACCATTTACTCCTCACTGAAATATTCTTCTTCTTTGAGGTTATAATGTACTTGGAAAAGTTAATACTTATAGAAAATAATGATCTTTATTACCAACTTTATTAAAACAGGCTTGGAACATTTTTCTCCATAGAAGAATAGTAATAAGACATTCTACATTTCCTGGACATGGCCAGTTTAAAATATTTTGCCCCATTACCCTTGTAGATACACATGTATTTGTCAGTTTATGTGCCTCAGTTTTGTCTTAGGCACTGAGGGACAGAAAGAGAAATAAGGAATACCTTGGTATTTTCCTTTGCAAGCAATCACAGCAGAATGCTAGAAAACATAAAATATACTCTTATAAATTGTATGTGTGTTGAAACCAAAGTGTGAAGAAATTGTCAGGTATTTGGAGGAGGAAAATAATTTGTAAAATAACCTTTTTAAGAATTTGGATTTTGTACTTATTTAAGGTGCTAAATATGTGTTAAAATATCCCCTCTTGAATCAGCTCCAGGCTTAAAAGGGCAGAGTGGTTTGGATTCTTGTCCAGGGTCTGGAAAGAGCTCATCTTGCCGAGAGGGAAATAAATGTGAGCTTTGAGGCGGTCTAACTACCCAGCTTTTAGTATTTATGTTCCCCAAAATGTAAAAACTGTAAGTTATTCTTGAAAATGTAGTCCAGACATTTCTTTGATCCTGGATTTTACTGCAGTTTCATCATGGGTTTGTTGAATGTGCAGTCCATTTATTGCCCTGTCTTGCTTAAATATTCTTGTTGAGAACAGCTGGAGGCTTTGACTGGGTTCCTAGTTCTGTTTTCTGGGAAGGCAACGTGGATTCTGTTTTGTAGACATTAATGAGCTTTAAATGGGAATTGGGGATGATGTATGTTCGTTGGGCATGCTGAGAAGCGGCCTCCTGTGGTTCTGGGCCCAAGGTGTGACATACATTTCCCACTAATTGCTTCTCTCAAGAAGCAAGAGATTGGCTGTTCCTCTTGAGGAAAAACCTTAATAAACCTTCCCATTTTAAACAGT
>gi|631226403|ref|NM_001010935.2| Homo sapiens RAP1A, member of RAS oncogene family (RAP1A), transcript variant 1, mRNA
GGCGCCGCCGCCGCTCCCGAGGCCCCTGCCGCCGCCGCTCCCGCTGCTGTCGCCGCGCAGAGCCGGAGCAGGAGCCACGGCCGAGAGGAGGGAGGAGGAGGAGGAGGAGGTGGAGGAGGTGGAGGAGGTGGAGGAGGCGCCGGACCGGGGGGGATAGATTCCCAGAAGTGGGATAACTGGATCAGAGGGTGATTACCCTGTGTATAAGAGTATGTGTCTCACTGCACCTTCAATGGCATTGAGTAGATCGTCAGTATTTAAACAGATCACATCATGCGTGAGTACAAGCTAGTGGTCCTTGGTTCAGGAGGCGTTGGGAAGTCTGCTCTGACAGTTCAGTTTGTTCAGGGAATTTTTGTTGAAAAATATGACCCAACGATAGAAGATTCCTACAGAAAGCAAGTTGAAGTCGATTGCCAACAGTGTATGCTCGAAATCCTGGATACTGCAGGGACAGAGCAATTTACAGCAATGAGGGATTTGTATATGAAGAACGGCCAAGGTTTTGCACTAGTATATTCTATTACAGCTCAGTCCACGTTTAACGACTTACAGGACCTGAGGGAACAGATTTTACGGGTTAAGGACACGGAAGATGTTCCAATGATTTTGGTTGGCAATAAATGTGACCTGGAAGATGAGCGAGTAGTTGGCAAAGAGCAGGGCCAGAATTTAGCAAGACAGTGGTGTAACTGTGCCTTTTTAGAATCTTCTGCAAAGTCAAAGATCAATGTTAATGAGATATTTTATGACCTGGTCAGACAGATAAATAGGAAAACACCAGTGGAAAAGAAGAAGCCTAAAAAGAAATCATGTCTGCTGCTCTAGGCCCATAGTCAGCAGCAGCTCTGAGCCAGATTACAGGAATGAAGAACTGTTGCCTAATTGGAAAGTGCCAGCATTCCAGACTTCAAAAATAAAAAATCTGAAGAGGCTTCTCCTGTTTTATATATTATGTGAAGAATTTAGATCTTATATTGGTTTGCACAAGTTCCCTGGAGAAAAAAATTGCTCTGTGTATATCTCTTGGAAAATAAGACAATAGTATTTCTCCTTTGCAATAGCAGTTATAACAGATGTGAAAATATACTTGACTCTAATATGATTATACAAAAGAGCATGGATGCATTTCAAATGTTAGATATTGCTACTATAATCAAATGATTTCATATTGATCTTTTTATCATGATCCTCCCTATCAAGCACTAAAAAGTTGAACCATTATACTTTATATCTGTAATGATACTGATTATGAAATGTCCCCTCAAACTCATTGCAGCAGATAACTTTTTTGAGTCATTGACTTCATTTTATATTTAAAAAATTATGGAATATCATCTGTCATTATATTCTAATTAAAATTGTGCATAATGCTTTGGAAAAATGGGTCTTTTATAGGAAAAAAACTGGGATAACTGATTTCTATGGCTTTCAAAGCTAAAATATATAATATACTAAACCAACTCTAATATTGCTTCTTGTGTTTTACTGTCAGATTAAATTACAGCTTTTATGGATGATTAAATTTTAGTACATTTTCATTTGGTTTGTGTGTTTTTGTTATTGTTTATAGATTAAAGCGTTTATTTTATAATGACCACATTGTTTTAAATGCGACAGTAGCTCCTTTCTGCCTAGTATCTGCAGAACACTGGCTTTAAACTATACTAAGTAACTGGTGATTTCTCTAGGAACAGACCTCGCACTTTCTGTTCTAAATATATTTATTCCTACTATACAGTAAAATACATCAGACAACATAGAATAGTTTTGTATATTCTCTCTTGATCTTAAAGATTGTATCTTATTGAATATCCCACTGTATATTATTTTTATATGTAAAAAGATAAGTTTAATACTGTATCAGGGTTTAACTTTTACTATTTCAGATCTTCCACAGCTTGTAATTTCATCAAGGGAATCCTTTTGCATTGTTAATTTGTTGGGTGTGAGTCCACCAATGAAGTGTTATGTGAAAAATTTCAAACTTGCTTTATAATAGATTGAAGAATTTGAGAGAAGTGAGAGAAAGTTAAAACACATAAAAGGAATGTGTTACTTTTGCTTAAACTACTTATGAAATAGTATGGTAGTAGTAATATGGAAGAGATTGCTAAGTTAAAATTGTAGCTTCCTATATAGTGGTGCTTTTTCTTTTCCTTCCCAGTTATTTTCCTCTTTACAAAAGATAGGGCTTAAGTAAGACATGGACCCAGGGTGATACTACTTATGTAGTCTCTATAAAGAGAGGTAGAACAAAAAGCTTGTTAGCCAATTAAGTTCTGGAAAAGGAAAGAAACAAGCTTAGAAAACCCTGTGCCTTGTCCTCAAATATTAAGGAGGAGACAGACCAGTCCTAGAAAGTCTAAGTCATTGCTCAGGGATCTCTAGATACTGTCTCTTTGCAACTAGGTATGAAGAAGTGTTCATGCCTTGCTGAGATTTTCCAGGCATGTGGTCAGCCTGTCACTTACTAAACTGAAATTTTAAAATCAGGTTTCAAATGTTAAGCTTTGACCAACCTGAGAAAATGTTAAAGTATTGTTTTTAAAAAAATGGAAATTTTTTTTGTTTGTGTTTTTGTTTTAGTTTCGAATAAACTTAGTTACCTTACACTTCCCTTCTACTTATCCAATTATGCATATGTCTGGGATTGAGGGGCCAAAACTATAGCGAACTTGAATGAAGTATTAGGGCCAGTTGTCAGGTCAGGGTGGCATCTTTTATTTTAAGGTCCTCTAAAGTCATTCTGCTTTAAAACACCCCTCAAACATACCTTTAAACTTAAGATCATAGACAGACATCTCATCAACCAGTAAAACTTTCTAAATACTACCTTGTCACATCTATTGTGTAGTTATTTAACAGATTAAATAGAAGTCATTTAATAAGACTCCAAGTCTCAGTCTGCTTGACTAGTAGCATAAACTCAGTCTATTCTATTTTAGAATGTGGTGGAGAAAGATGATAGTTATTAGATTCCTTTGTCACATCTTATACAGTCCACTTGGGTTAAAGGTGGAACTGTCAAGAAAAACGCCTTTCTGGCACACAGTGATATGCAGAGCAGGACCAGCTGAAGTCAGATGTGCAAGGAAATCTGTGGTTGCTGAGCAGGATGAAAAGTATCCTGTTAGAAAGTGAGATAGGTGTGTTTTTATATTGTCCTAATGTGAACTCCTTAGTCTTGGTTCCAAAGGGAAGGGTACCTGAAAATAAATGTATTTTTATAGCTGAAAAATCAAGAGTTTCTAGGATATTGTGTGAATGTCAAATGATAAATATCTAGAAACTGATTTCATATTAGTATGTGTGGCTATTTAAAGTATAATGACTTTGGTTTGGTTATATGAGTGACACAGAATTTAAGGAGGCTTCATGCCATAGTTCATAGTTTGCTCTAATGGCTTGGTGGTATCCCTGAACAGTCTACTTTTAGAAATTAACAGTAAATACACAATCCAGCTGTAATCTTACCCTCCACCAGGGGGAGCTTCAACATCGGTTAATACTTTTTTTTTTTTTGAGATGGAGTCTCGCCCTGTCGCCCAGGCTAGAGTGCAATGGCTCAGTCTCCGCTCACTGCAACCTCTGCCTCCCGGGTTCAAACAGTTGTGCCTCAGTCTTCCAAGTAGCTGGGATTACAGGCACCCGCCACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCATCATGTTGGCGAGGCTGGTCTTGAACTCCTGACTTCGTGATCCGCCCCCCCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCTGGCCCGGTTAATACTTTCATAAGCATTGAAGTAACTATTTAAGTCCTAGTACATAAACACTGTGTGGTTCACAAAAAGGCATAGAGACATTCTCTCAAGAGTTTACAATCTAATTGGGCAGGGAAGATACTACAGTTCATCAAAGATATGAATAACACCCTAGTTTTCTGAACTGCAGCTGCATGGGTAATTATCTTAAGAACTTTTGGCAAAATATGGATGTTGGTGTGTTACTCTCTTCTCCCTACAACTCTGAACTAATCTGTGTTTGGCACCTTGATTTGCCATCATAAATGGCCACCATTTACTCCTCACTGAAATATTCTTCTTCTTTGAGGTTATAATGTACTTGGAAAAGTTAATACTTATAGAAAATAATGATCTTTATTACCAACTTTATTAAAACAGGCTTGGAACATTTTTCTCCATAGAAGAATAGTAATAAGACATTCTACATTTCCTGGACATGGCCAGTTTAAAATATTTTGCCCCATTACCCTTGTAGATACACATGTATTTGTCAGTTTATGTGCCTCAGTTTTGTCTTAGGCACTGAGGGACAGAAAGAGAAATAAGGAATACCTTGGTATTTTCCTTTGCAAGCAATCACAGCAGAATGCTAGAAAACATAAAATATACTCTTATAAATTGTATGTGTGTTGAAACCAAAGTGTGAAGAAATTGTCAGGTATTTGGAGGAGGAAAATAATTTGTAAAATAACCTTTTTAAGAATTTGGATTTTGTACTTATTTAAGGTGCTAAATATGTGTTAAAATATCCCCTCTTGAATCAGCTCCAGGCTTAAAAGGGCAGAGTGGTTTGGATTCTTGTCCAGGGTCTGGAAAGAGCTCATCTTGCCGAGAGGGAAATAAATGTGAGCTTTGAGGCGGTCTAACTACCCAGCTTTTAGTATTTATGTTCCCCAAAATGTAAAAACTGTAAGTTATTCTTGAAAATGTAGTCCAGACATTTCTTTGATCCTGGATTTTACTGCAGTTTCATCATGGGTTTGTTGAATGTGCAGTCCATTTATTGCCCTGTCTTGCTTAAATATTCTTGTTGAGAACAGCTGGAGGCTTTGACTGGGTTCCTAGTTCTGTTTTCTGGGAAGGCAACGTGGATTCTGTTTTGTAGACATTAATGAGCTTTAAATGGGAATTGGGGATGATGTATGTTCGTTGGGCATGCTGAGAAGCGGCCTCCTGTGGTTCTGGGCCCAAGGTGTGACATACATTTCCCACTAATTGCTTCTCTCAAGAAGCAAGAGATTGGCTGTTCCTCTTGAGGAAAAACCTTAATAAACCTTCCCATTTTAAACAGT
>gi|630044894|ref|NM_001291878.1| Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 7, mRNA
GCGGGCGGTCCCGGCGAGGCGGGAGGGGCCGGGGCAGAGGGAGGGTCTTCGCCTCCCCACCCCCAGCCCCGTTTCCGGAGCCCGCGATGGAGCTTTGTGAAGATGCAGGCGTTGGGGCTGCTCGGCGATGATGACATCATCGTGTCACACACAGGAGCCGGCTGCCGGGGGGTTTAAGAGAAGAGCCTTTCGGACCACACCGGCGCTCACGCTCATACCCGCACGCCCCGGGCAGAGCCGCGCACGCCGGCCACACTCGGGCGCGCGCCGGCCACACTCGCGCGCACACATACGCGGCGCTCGCCCCCCGGCCCCCGGCTCGGGCCGCGAGTCGCAGCTCCCTGCCGCCGCTCCCGCCGCCACGGATGCCCGCAGCTGCTCCCCTCTGCAGTGCAGCAACCCCGGCCGCCGGCCGGCTCGCCCCGGCTCCCGGCTGCAGGAATCGCGCCAGGACGCTGGCCCCGCTCGCGGCTAGCTTGCACGCCAGGGCACAGCGAGGATGGGAGGGTCGCAGTCCCTGCAGCCAGCCCCAGCCAGCGACCTGAACCTGGAGGCTTCCGAGGCAATGAGTTCCGATTCTGAAGAGGCATTTGAGACCCCGGAGTCAACGACCCCTGTCAAAGCTCCGCCAGCTCCACCCCCACCACCCCCCGAAGTCATCCCAGAACCCGAGGTCAGCACACAGCCACCCCCGGAAGAACCAGGATGTGGTTCTGAGACAGTCCCTGTCCCTGATGGCCCACGGAGCGACTCGGTGGAAGGAAGTCCCTTCCGTCCCCCGTCACACTCCTTCTCTGCCGTCTTCGATGAAGACAAGCCGATAGCCAGCAGTGGGACTTACAACTTGGACTTTGACAACATTGAGCTTGTGGATACCTTTCAGACCTTGGAGCCTCGTGCCTCAGACGCTAAGAATCAGGAGGGCAAAGTGAACACACGGAGGAAGTCCACGGATTCCGTCCCCATCTCTAAGTCTACACTGTCCCGGTCGCTCAGCCTGCAAGCCAGTGACTTTGATGGTGCTTCTTCCTCAGGCAATCCCGAGGCCGTGGCCCTTGCCCCAGATGCATATAGCACGGGTTCCAGCAGTGCTTCTAGTACCCTTAAGCGAACTAAAAAACCGAGGCCGCCTTCCTTAAAAAAGAAACAGACCACCAAGAAACCCACAGAGACCCCCCCAGTGAAGGAGACGCAACAGGAGCCAGATGAAGAGAGCCTTGTCCCCAGTGGGGAGAATCTAGCATCTGAGACGAAAACGGAATCTGCCAAGACGGAAGGTCCTAGCCCAGCCTTATTGGAGGAGACGCCCCTTGAGCCCGCTGTGGGGCCCAAAGCTGCCTGCCCTCTGGACTCAGAGAGTGCAGAAGGGGTTGTCCCCCCGGCTTCTGGAGGTGGCAGAGTGCAGAACTCACCCCCTGTCGGGAGGAAAACGCTGCCTCTTACCACGGCCCCGGAGGCAGGGGAGGTAACCCCATCGGATAGCGGGGGGCAAGAGGACTCTCCAGCCAAAGGGCTCTCCGTAAGGCTGGAGTTTGACTATTCTGAGGACAAGAGTAGTTGGGACAACCAGCAGGAAAACCCCCCTCCTACCAAAAAGATAGGCAAAAAGCCAGTTGCCAAAATGCCCCTGAGGAGGCCAAAGATGAAAAAGACACCCGAGAAACTTGACAACACTCCTGCCTCACCTCCCAGATCCCCTGCTGAACCCAATGACATCCCCATTGCTAAAGGTACTTACACCTTTGATATTGACAAGTGGGATGACCCCAATTTTAACCCTTTTTCTTCCACCTCAAAAATGCAGGAGTCTCCCAAACTGCCCCAACAATCATACAACTTTGACCCAGACACCTGTGATGAGTCCGTTGACCCCTTTAAGACATCCTCTAAGACCCCCAGCTCACCTTCTAAATCCCCAGCCTCCTTTGAGATCCCAGCCAGTGCTATGGAAGCCAATGGAGTGGACGGGGATGGGCTAAACAAGCCCGCCAAGAAGAAGAAGACGCCCCTAAAGACGATGGTTGAAGATGTGATGTCTGTGTGTTCTCTGTTTGACACATTTAGGGTGAAAAAGTCGCCAAAACGGTCTCCTCTCTCTGATCCACCTTCCCAGGACCCCACCCCAGCTGCTACACCAGAAACACCACCAGTGATCTCTGCGGTGGTCCACGCCACAGATGAGGAAAAGCTGGCGGTCACCAACCAGAAGTGGACGTGCATGACAGTGGACCTAGAGGCTGACAAACAGGACTACCCGCAGCCCTCGGACCTGTCCACCTTTGTAAACGAGACCAAATTCAGTTCACCCACTGAGGAGTTGGATTACAGAAACTCCTATGAAATTGAATATATGGAGAAAATTGGCTCCTCCTTACCTCAGGACGACGATGCCCCGAAGAAGCAGGCCTTGTACCTTATGTTTGACACTTCTCAGGAGAGCCCTGTCAAGTCATCTCCCGTCCGCATGTCAGAGTCCCCGACGCCGTGTTCAGGGTCAAGTTTTGAAGAGACTGAAGCCCTTGTGAACACTGCTGCGAAAAACCAGCATCCTGTCCCACGAGGACTGGCCCCTAACCAAGAGTCACACTTGCAGGTGCCAGAGAAATCCTCCCAGAAGGAGCTGGAGGCCATGGGCTTGGGCACCCCTTCAGAAGCGATTGAAATTACAGCTCCCGAGGGCTCCTTTGCCTCTGCTGACGCCCTCCTCAGCAGGCTAGCTCACCCCGTCTCTCTCTGTGGTGCACTTGACTATCTGGAGCCCGACTTAGCAGAAAAGAACCCCCCACTATTCGCTCAGAAACTCCAGAGAGAGGCTGCTCACCCAACAGACGTCTCCATCTCCAAAACAGCCTTGTACTCCCGCATCGGGACCGCTGAGGTGGAGAAACCTGCAGGCCTTCTGTTCCAGCAGCCCGACCTGGACTCTGCCCTCCAGATCGCCAGAGCAGAGATCATAACCAAGGAGAGAGAGGTCTCAGAATGGAAAGATAAATATGAAGAAAGCAGGCGGGAAGTGATGGAAATGAGGAAAATAGTGGCCGAGTATGAGAAGACCATCGCTCAGATGATAGAGGACGAACAGAGAGAGAAGTCAGTCTCCCACCAGACGGTGCAGCAGCTGGTTCTGGAGAAGGAGCAAGCCCTGGCCGACCTGAACTCCGTGGAGAAGTCTCTGGCCGACCTCTTCAGAAGATATGAGAAGATGAAGGAGGTCCTAGAAGGCTTCCGCAAGAATGAAGAGGTGTTGAAGAGATGTGCGCAGGAGTACCTGTCCCGGGTGAAGAAGGAGGAGCAGAGGTACCAGGCCCTGAAGGTGCACGCGGAGGAGAAACTGGACAGGGCCAATGCTGAGATTGCTCAGGTTCGAGGCAAGGCCCAGCAGGAGCAAGCCGCCCACCAGGCCAGCCTGCGGAAGGAGCAGCTGCGAGTGGACGCCCTGGAAAGGACGCTGGAGCAGAAGAATAAAGAAATAGAAGAACTCACCAAGATTTGTGACGAACTGATTGCCAAAATGGGGAAAAGCTAACTCTGAACCGAATGTTTTGGACTTAACTGTTGCGTGCAATATGACCGTCGGCACACTGCTGTTCCTCCAGTTCCATGGACAGGTTCTGTTTTCACTTTTTCGTATGCACTACTGTATTTCCTTTCTAAATAAAATTGATTTGATTGTATGCAGTACTAAGGAGACTATCAGAATTTCTTGCTATTGGTTTGCATTTTCCTAGTATAATTCATAGCAAGTTGACCTCAGAGTTCCTGTATCAGGGAGATTGTCTGATTCTCTAATAAAAGACACATTGCTGACCTTGGCCTTGCCCTTTGTACACAAGTTCCCAGGGTGAGCAGCTTTTGGATTTAATATGAACATGTACAGCGTGCATAGGGACTCTTGCCTTAAGGAGTGTAAACTTGATCTGCATTTGCTGATTTGTTTTTAAAAAAACAAGAAATGCATGTTTCAAATAAAATTCTCTATTGTAAATAAAATTTTTTCTTTGGATCTTGGCAATAAAAAAAAAAAAAAAAAAAAAAA
>gi|629266053|ref|NM_001004334.3| Homo sapiens G protein-coupled receptor 179 (GPR179), mRNA
GTCCTGAGAGCTGCCCCAAGGATGGGCACCAGGGGAGCGGTCATGCCCCCTCCTATGTGGGGGCTGCTGGGCTGCTGTTTTGTCTGTGCCTGGGCTCTGGGGGGTCCACGGCCCATCCGCTCTCTGCCCCCTCTGTCTTCCCAAGTCAAGCCAGGATCTGTACCCATGCAGGTGCCCCTAGAGGGGGCCGAGGCCGCCCTCGCTTATCTCTACTCTGGAGATGCCCAGCAGCTATCACAGGTGAATTGCAGTGAGCGCTATGAAGCGCGTGGGGCAGGAGCCATGCCAGGGCTCCCCCCAAGCCTACAGGGGGCAGCGGGCACCCTTGCCCAGGCCGCCAATTTTCTCAACATGCTGCTGCAAGCCAACGACATCCGTGAGTCCAGTGTGGAGGAGGATGTGGAATGGTACCAGGCACTGGTCCGCAGCGTGGCCGAGGGGGACCCAAGAGTGTACAGGGCTTTGCTGACCTTTAACCCTCCACCAGGGGCCAGCCACCTACAGCTGGCCCTGCAGGCCACCCGGACTGGGGAGGAAACCATCCTGCAGGACTTGTCTGGGAACTGGGTGCAGGAGGAGAACCCTCCTGGGGACCTGGACACCCCTGCCCTGAAGAAGCGAGTGTTGACCAATGACCTAGGGAGCCTCGGCAGCCCCAAGTGGCCGCAGGCAGATGGATATGTGGGGGACACGCAGCAGGTGAGGCTGTCTCCTCCTTTCCTGGAATGCCAGGAGGGACGGCTCCGACCTGGATGGCTGATCACACTCTCTGCCACCTTCTATGGACTCAAGCCAGACCTCAGCCCAGAAGTCAGGGGGCAGGTGCAGATGGACGTAGATCTCCAGAGTGTGGACATCAATCAGTGTGCAAGTGGCCCAGGCTGGTACTCTAACACACACCTGTGTGATCTCAACAGCACCCAGTGTGTCCCCCTGGAGAGTCAGGGCTTTGTTCTTGGCCGCTACCTCTGCCGCTGCCGACCTGGATTCTACGGGGCAAGCCCCTCTGGGGGGTTAGAGGAGAGTGACTTCCAGACTACCGGGCAATTCGGGTTCCCAGAAGGCAGATCTGGGAGACTGCTGCAGTGTCTGCCATGTCCTGAGGGCTGCACCAGCTGCATGGATGCCACACCGTGCCTGGTGGAAGAGGCCGCGGTGCTGCGGGCCGCTGTGCTGGCCTGCCAGGCCTGCTGCATGCTGGCCATCTTCCTGAGCATGCTGGTCTCCTACCGCTGCCGCCGGAACAAGAGGATCTGGGCATCTGGAGTGGTCCTGCTGGAAACTGTCCTTTTTGGATTCCTGCTGCTTTACTTTCCTGTCTTCATCCTATACTTCAAGCCCAGTGTATTCCGCTGCATCGCTCTTCGCTGGGTGCGGCTGCTGGGTTTTGCCATCGTCTACGGCACCATCATACTCAAGCTTTACAGAGTGCTGCAGCTGTTTCTGTCTCGAACGGCCCAGCGGAGTGCCCTTCTGAGCAGCGGGCGGCTGCTGCGGCACCTGGGGCTGCTCCTGCTACCTGTGCTGGGCTTCCTGGCTGTGTGGACCGTGGGCGCCCTGGAGCGAGGCATCCAGCACGCACCTCTGGTGATCCGAGGCCACACTCCCAGTGGCCGCCATTTCTACCTCTGTCACCACGACCGCTGGGACTACATCATGGTTGTGGCTGAGCTGCTGCTGCTGTGCTGGGGCAGCTTCCTCTGCTACGCCACACGGGCTGTGCTCTCGGCCTTCCATGAGCCACGCTACATGGGCATCGCCCTGCACAATGAGCTACTGCTTTCCGCTGCCTTCCACACAGCCAGGTTTGTGCTGGTTCCCTCTCTGCACCCGGACTGGACCCTCCTCCTCTTCTTCTTCCACACCCACAGCACAGTCACCACCACGCTGGCTCTGATCTTCATCCCTAAGTTCTGGAAGCTGGGGGCTCCTCCCCGGGAGGAGATGGTGGATGAGGTGTGTGAGGACGAGCTGGACCTGCAGCACTCAGGCTCCTACCTTGGCAGCAGCATCGCCTCAGCCTGGAGTGAGCACAGCCTGGACCCTGGAGACATTCGGGACGAGCTGAAGAAGCTCTATGCCCAGCTAGAGGTCCACAAAACCAAGGAAATGGCCGCAAACAACCCCCACCTGCCCAAGAAGCGAGGCAGCTCATGCCAGGGACTGGGCCGCTCCTTCATGAGGTACCTGGCGGAATTCCCCGAGGCCCTGGCCAGGCAGCACTCCCGGGACTCAGGATCCCCAGGCCACGGCAGCCTGCCCGGCTCCTCCCGCCGCCGGCTCCTCAGCTCCAGCCTCCAGGAACCCGAGGGGACACCAGCTCTGCACAAGTCCCGCAGCACCTATGACCAGCGCAGGGAGCAGGACCCGCCTCTTCTTGACTCACTGCTGAGGAGGAAGCTGGCCAAGAAGGCCTCTCGAACAGAGAGCCGGGAGTCGGTGGAGGGGCCCCCTGCCCTGGGCTTCAGGTCAGCCAGCGCCCACAACCTGACGGTGGGAGAGAGGCTACCCAGAGCCCGGCCCGCCTCTCTGCAGAAGTCGCTCAGTGTGGCCAGCTCCAGGGAAAAGGCCTTGCTCATGGCCAGCCAGGCCTACCTGGAGGAGACCTACCGGCAAGCAAAGGAGCGGGAGGAGCGGAAGAAGGCCAAGGCAGCCATGGCCAGCCTGGTGCGGAGGCCATCAGCCAGGAGGCTGGAGCGGCCTCGAGGGGCCCCCCTGTCAGCTCCACCTTCCCCTGCCAAGAGCAGCAGCGTGGACAGCTCTCACACCTCTGGGAGGCTTCATGAGGAGGCTAGGAGAAGGCTGCCTCATCCACCCATCAGGCACCAGGTTTCTACCCCCATCTTGGCCCTGTCTGGGGGCCTGGGAGAGCCAAGGATGCTATCTCCCACCTCCACCTTGGCTCCAGCTCTGCTGCCAGCTCTAGCTCCAACCCCAGCCCCTGCCCTGGCACCAGTCCCAGTATCCCCACAAAGCCCCAACTTACTCACCTACATCTGCCCCTGGGAGAACGCAGAACTGCCAGCCAAGCAAGAAAATGTGCCCCAGGAAGGCCCCTCAGGGCCAGAGCGAGGCCACCACTCCCCTGCCCCAGCTCGAGCCAGGCTCTGGAGGGCCCTCTCTGTTGCAGTAGAGAAAAGCAGGGCTGGGGAGAATGAGATGGACGCAGAGGATGCACATCACCAGAGGGAAGCTAATGATGTGGACGAAGACAGGCCCAAGATCTTCCCTAAATCCCACAGCCTCAAGGCCCCTGTTCAGCAGGGTTCCATGCGCAGCCTGGGGCTGGCGATTAAAGCTCTGACCCGTTCTCGGAGCACCTACAGAGAGAAGGAGAGTGTGGAGGAGAGTCCCGAGGGGCAGAACAGCGGGACTGCGGGAGAGAGTATGGGGGCACCCTCCCGATCGCCCAGGCTAGGCCGGCCCAAGGCGGTGAGTAAGCAGGCCGCTCTTATCCCCTCCGATGACAAGGAGTCCCTCCAGAACCAACAGAACGCTCACACCAGCAGGATGCTCCAAGTCTGTCAACGGGAGGGCAGCAGGGAACAAGAAGACAGAGGCAGGAGGATGACCCAGGGTCTAGGGGAACGGAAAGCTGAGAGAGCAGGTAAAACAGGGCTTGCCATGCTGAGGCAAGTTTCCAGGGACAAAAACATCAAGCAATCAAAAGAAACCCCTGTCGGGTGGCAGGAACTGCCCAAAGCTGGCCTCCAGTCCCTGGGCAGCGCTGACCACAGGGTGGCAGAGGTATGCCCCTGGGAGGTCACTGAATCAGAAACGCGTCAGCCAGACAGTGGCAACAAGGCCGAAATCTGCCCCTGGGAGACGAGTGAAGGAGCCCCAGAGTCGAGGGCACTAAGACAAGACCCAGGTGACTCCCAAAAAAAGAGAGGGGAGGCCCGGGGAAAATCAGAGCCCATAGATGTGGTTCCCATGATGCGGAAAAAGCCAGAGAGGCTGGTGAGGGAGCAGGAAGCAGTGTGTCCCTGGGAGAGTGCCGATCGAGGAGGTCTGTCCCCTGGGTCAGCTCCTCAGGACCCTGGCAGAATCAGAGACAAATCTGAGGCGGGGGACAGTGTGGAGGCCAGGAAGGTGGAGAAGCCTGGGTGGGAAGCTGCTGGCCCAGAAGCTCATACCCCTGACATCACCAAGGCAGAGCCGTGTCCCTGGGAGGCAAGTGAAGGAGGCGAGGATGGGAAACCAGCCCAAGAGGCAGTGAAGGATCTCCCTCAGGAAAAGCAGAAAACCAGGAAAGCAACCTTTTGGAAAGAACAGAAACCGGGAGGAGACTTGGAGTCTCTTTGTCCATGGGAGAGTACAGATTTCCGGGGCCCCTCAGCAGTCTCAATTCAGGCCCCAGGAAGCTCAGAGTGTTCAGGGAGTTTGGGCAGTGGCATTGCTGAAGTGTGTCTGTGGGAGGCAGGAGATGCTCCTGCTATCCAGAAAGCAGAGATCTGTCCCTGGGAGCTGGATGATAACGTGATGGGGCAGGAAATGCTGAGTCTGGGGACAGGTAGAGAATCTCTTCAAGAAAAGGAAAAAGCCTCCAGAAAAGGAAGCTTTGGAGAGATGGGGGAACAAACTGTGAAAGCAGTGCAGAAATTAAGTCAACAGCAGGAGTCAGTTTGTCCCAGGGAGAGCACGGTCCCTGGGCACTCCAGCCCATGTCTAGACAATTCCTCATCCAAAGCTGGTAGCCAATTCCTATGCAATGGAGGAAGCAGAGCAACGCAGGTGTGTCCACAGGAAGATCTCAGGCCGGAGGCACAGGAAGCAACACCTGCCAAAACAGAAATCTGTCCCTGGGAGGTAAATGAAAGAACAAGAGAGGAATGGACATCAGCACAGGTGCCAAGAGGAGGAGAATCTCAAAAGGACAAGGAGAAAATGCCTGGAAAATCGGAAATCGAAGATGTCACAGCTTGGGAAAAGCCTGAGGGGCAGATCCAAAAGCAAGAAGCGGTCGGCCCCTGGGAGAGTGTGGACCCTGGCAGCTTCTCCCCACAACCACGTCCTCAAGACACAGAGAGACCCCAAACCCTTCTCCAGATGTCAGGCAGTGTGGGAAGCAAAGCTGCCGACATTTGCCCTTTGGATGTGGAGGAAAACTTGACTGCTGGGAAGGCAGAAATCTGTCCCTGGGAGGTGGGTGCTGGAGCAGGGGAGGAAAGGGCTTTGGGAGCTGAGGCCATTAGGAAATCTCCAAATGATACAGGCAAGGTTTCTGCAGATCTTGGACCCAGGGAGAGAGCTGTTACTGCTCCAGAGAAGCCACAGAAGCCAACCCCAGAGTGGGAGGTGGCTTGTCCCTGGGGGAGTGTGGGTCCAGGGGCCTGTTCTCAGCATCCAGGTACTCTAGATGCTGATGGACCAAAAGCTGGGTTCCAGGAACTGGATCATATGGGCTGCAGGCCAGGTGAAGTGTGTCCCTGGGAAGCACAGGAAGCTGCTACCAGTGAAAAAGCCAAGATCTGTCCCTGGGAGGTAAGTGAAGGAACTACTGGGAAGGGATTGGACCAAAAGGCAGGGAGTGAATCAGCAGAGCAGAGGGAGAAAGCTCTAGAAAAGGGGAGACTCACTTCCCTGGGAGAAGACGTATCAAAAGGGATGGCAAAACTGTGTCAACAACAGGAAACTATTTGTATTTGGGAGAACAAGGACTTGAGGGAATCCCCTGCTCAGGCCCCCAAGATCTCAGACTTGCCCAGCAGCATGAGTAGTGAAGTGGCAGAGGGACATTCCTTGGAAGCAACAGAGAAGGGGGACCTGAGACAAGACCCAAAGACAGGTTCCTTCCCAGAACACATAACCCAAGAAAAAGCTCCAGCTGCAGACACAGAAGAATTCACTACTGAAGATGGGGAAAAAACAAGCCATGAGCTACAATCCGTCTGTCCATGGGAGACCACTGCCCCAGCAGATTCCGTCTCTCACCTAGACAGACAGCGCCCTGACCAACCTAAAGCTAGCTCCCAGAGACTGGTCAGCACTGGGGGCAGGGCCGCTGACGTGTGCCCATGGGATGTTCCTGATGCAGGTGTGTATAAATCTGACAGCAGTGCCAAGGCTGAGACCTGTCCCTGGGAAGTGACTGAAAGAATCCCTGTCAAAGGGGTGTCAAGGCAGGATGGAAAAGGGGACTCTCAAGAAGAGAAAGGCAGAGCCCCAGAAAAATCAGAGCCAAAAGGTGTGCCAGTTCAGAAAAAGCCAGAGATGGCAGACTTCAGGCAGCAGGAGGCTGTGTGTCCCTGGGAGAGTCAAGATGGCAAGGGTCTGTCCCCACAGCCAGCCCCAGATGCTTCTGACAGAAGCAGAGGCAGTTCTGAGGCAGCAGGCAGTGTGGAGACCAGGGTAGCGGAAGTGTGTCTGTGGGAAGTGGTAGAGGCTCCCTCTGCCAAGAAAGCAGAGATCTGCCCTTGGGAGGCGGGTGGAGGAGCAGCAGAGGAAGGGGAACAGGAAAGAGAATCACAAGGGCAAGGAGAGATGTTCCTTCAGAAGGCAGGACCTGGAGGGACGGAAGAACACTTCTCAAAAGCAGCAGCAAAGCCCAGAGAGCAGGAGGCAGTCTGCCCTGGGGAAGGCACAGGCTCAGGAGGGCTCTTGCCCCAGTCAGGTGCCCTGGACCCAGAACTCAAAGTCAGCCCCAAGGAAGCAGGCAGCATGGGAAGCAGGATGGCAGAGCTGTGCCAATGGGAAATCACAGATCCAGAAGGAAATAAAATAAAGGGTACCATGGCAGACATCTGTCCTGGGGAGGAAACTGGAGTCCCATCTGAGGAATCTGGCCTCCTGGCTTTAACAGCAACTCGGAGAGAATTTTTCCCCACAGCTCCTGAAAAACCACTATGCCTTTTAGTCCATGGGCCTCTGGATCACTTCTTTCCAGAAAGCAAAATCCCCTGCCCCAAGGTAAGCAGGCCAGCCAGTACTTTCACTCTAGAAGGTGTCAGAGAACTACAAGGACCTTCAGGGCTTGAGCCAAGGACCAGCTTAGCCCCAGAGCCAAGTCTCCAGGAAGCTGAGTCTCAGTCTTCGTCCTTAACTGAAGACTCAGGCCAAGTGGCTTTTGAAGCTCAGTATGAAGAATTCACCCCTCCCACTGTCTATCCTTGGGATTGGGAGTAACAGCCTTATTAGGTGAGGTCAAACACAGAGCTAGCTTTCAGGAGCCAAGGCCCTTTCCAAGTCCAGGTGTTCCCAAAGAGCTGAATCAAAGACAGCTTGGCCACTTCCCCTCCTTGAGAAGACCAGAAGTCAACCCATCCCAAAGACAAACTGCATGAAAAGGGTACAGCTTAGACCCCAATGGGAAGGCCCACCCTCTCTTTACTTCTAACTTTTCTTCCTGTTTGAGGAAACAAAGACTGGACACTCTACTTCTAAGGACGCCTCCCATCCACCTACAGTACTCACAACACAAACCACCCGAGTCTGGACACTCACCCACAAAGCCACTGTTAGGGATGAAAAAAGTCAGTTGTGCCCAGCCTACCTTCTCTCACAGGGGGACCCAATTCTCTGAAGTCTACGATGGAGCATTTTTTGAGAAGAAACTAAACCATACAAAGTGTTGGCAACGTAGGGATGGTGGACCACAGAAGGCTATAAAGGCCACCATAGAAAGCTGAAGAGCCATTTAATTGAAGCGGAAGATAAATTGGGGGAAAAGCTAAAATGACTCAAAATAGGGGCCTGAAAATGCTTTAAGGACCTTGTCATTTTGACTTTGAATCTCCTGTTTCTGCTTTATTGCTTCTCATACCTGCCCTGCTTGACTGCTGAAGCAGAAACAATCAGGCACGCTGACACCCTTATCAGCATCTGGCATCCAAAGCAACATCAGAGAGAGAGAACACAGAAGAAAAGCAATTGCCCCAGGTCCTCCCCACAGTCAAGGGAGCTCTTCCTTCCAGACATCCTTGTGTGCCTCTTGCTAGTTTTTTAGGGGGTCTCCCCCTCTTCCTGCCCTAGCTCTCACCA
>gi|613410182|ref|NM_178172.5| Homo sapiens glycosylphosphatidylinositol anchored high density lipoprotein binding protein 1 (GPIHBP1), transcript variant 1, mRNA
CCTTCATCCCACTTACCGCAGCTCCAGAGCCCTGCGGGAGGACTCAGAGTCAGGGACACAGCAGCGTCCGGCGAGATGAAGGCGCTCGGGGCTGTCCTGCTTGCCCTCTTGCTGTTCGGGCGGCCAGGGAGAGGGCAGACACAGCAGGAGGAAGAGGAAGAGGACGAGGACCACGGGCCAGATGACTACGACGAGGAAGATGAGGATGAGGTGGAAGAGGAGGAGACCAACAGGCTCCCTGGTGGCAGGAGCAGAGTGCTGCTGCGGTGCTACACCTGCAAGTCCCTGCCCAGGGACGAGCGCTGCAACCTGACGCAGAACTGCTCACATGGCCAGACCTGCACAACCCTCATTGCCCACGGGAACACCGAGTCAGGCCTCCTGACCACCCACTCCACGTGGTGCACAGACAGCTGCCAGCCCATCACCAAGACGGTGGAGGGGACCCAGGTGACCATGACCTGCTGCCAGTCCAGCCTGTGCAATGTCCCACCCTGGCAAAGCTCCCGAGTCCAGGACCCAACAGGCAAGGGGGCAGGCGGCCCCCGGGGCAGCTCCGAAACTGTGGGCGCAGCCCTCCTGCTCAACCTCCTTGCCGGCCTTGGAGCAATGGGGGCCAGGAGACCCTGACCCACGGCCCCTCCCCACCCCCACCCGGCTCACCCCCGGCCCTGCCAGCACTCTGTCTGGTACCTTCCCCTCCTGCCCCTGCACCAGCTTTGGAGAATGGATTTGGAGTGTCTTGGGCGATCCAGCCAGCGCAGGCCCCCCGGCCCGGTTGCTTCCTCAGTTCCCGGCTGTGTCCTTGGTGTCCTTTCTCCACCACCTGTGAGCAGCAAGACTGCCGCACGTGGGCGCTGGGTCCAGACCTCGGCTGCCACGCCCCAGGACCTGCAGCCCTCATGGGGGCTGGGGATCCCCATCAGCACAGCCAGGCAGAGATGATACCCACCACACACCTGGGGGCCCCCACACCCAGTCCTCACCCTTAACTTCTGCCATGGGAATTCCTCCATCTGCAGCGGTCACACGGGCCCACCCTGCCCTTCCCCAGGTCGGCCTCTCCGCTGTCTGGAGGGAAGGGGATTTGGAGGGAGGCTGTCGTCGCCCCCAGGAAAGACGGGCCTGGGGGAGGCGGGACAGTGGGAGAGGCGCGCTGAGGATGAGAGGGCACAGGGAGGTGGGTTGGGGTGAGGCCACATGCGGAGGGGCGGGGCGGGGGGGGGCTGGGGGGACAGGCACCAAGTATGAAGAGGATGGGGCCAGCGGGGCCTGTCTGGCTATGGCGTGAGCACCGCTATGGGAGACCCTGGCTTGGAAAGTGAACTTGCAGCCTTGGATGGGGAAGGGCCAGATGCTGGGTGGGTGCCTGTCACCTTGAGGTGACCATCTAGGGTCAGTACCTGCTGGGCTTAGGACAGCGCCTGAGGCTGGGAATACCTGTCTCTGCTCTAGCAGAGGCTAAAGCAGGCTAGAGCAGTGGAGGGGTGGAGTTGATGAAAGGAGAGGAGTAGATGAGATGGAATTTTTCCAGCCTCATCCTGGCCTGCCCTCTAGACTCCAGTCCCCAAGCCCTCAGCCTAGTGGGTGTCATGGATGGATCTGGGGGTGTCAGACAGGCTACCCTGTGCCAGGGAGGGGGCAGAATGGGCCTGCAGCTTCCTGCAGAGGAAGCAGGACTGGGTAGCAGAGCCGGGAAGGTGGGTGGCCCATTACAGGGGGGTCCCCAGGGTGTCCTCTGGCAGGGCTGTGACTGCTGCAAGCTCTGCCTTCACCAGTAGCTGGTGCCAGGACAGAGCTCTGGGACAGCAGGCAGAGGCCGAGCCTGGGCCACAGCTCAGCCACTGACTTGGGTATCAGTTTCCCCTTCTGAGAAGTACAGAGTGAGACTTAAAGAACCCCTAGATCCCCACCAGTTCAACACTCCATTAACTGGGAAGCCCAGAGTCCTGTCCGGCCTGCCAAGTTCATCCTGGTGGACAGCGGGAGGCCTCCGCTAACTGTTCTCTTCTTTTCCTTATTAATAAAACACACAATGCCTAGCTGGGGGGTCGGAAGGCAAATGCCCTAGATGGTGGGGTCACGTCTTTCTCCTTCTCCTTCCTCCTTCTGCTGGCTGAAGTGATGACTGGAGCTCAGCAACCACTTTGCACCATGAGGCAGCACTGAGCACGGTAGGGCAGCCTGGTGAGAGGGGCCTAGCTCGCTGCCGACAGAAGTCACTGCCTACCTCAGGGTCCCCTTACCTGGGTGGGAAATAAATTTCTGCTGTGTTGAAGCTAAAAAAAAAAAAAAAA
>gi|612149796|ref|NM_001278398.2| Homo sapiens leukocyte immunoglobulin like receptor B1 (LILRB1), transcript variant 5, mRNA
CTCAGCCTGGGCGGCACAGCCAGATGCGAGATGCGTCTCTGCTGATCTGAGTCTGCCTGCAGCATGGACCTGGGTCTTCCCTGAAGCATCTCCAGGGCTGGAGGGACGACTGCCATGCACCGAGGGCTCATCCATCCACAGAGCAGGGCAGTGGGAGGAGACGCCATGACCCCCATCCTCACGGTCCTGATCTGTCTCGGGCTGAGTCTGGGCCCCCGGACCCACGTGCAGGCAGGGCACCTCCCCAAGCCCACCCTCTGGGCTGAACCAGGCTCTGTGATCACCCAGGGGAGTCCTGTGACCCTCAGGTGTCAGGGGGGCCAGGAGACCCAGGAGTACCGTCTATATAGAGAAAAGAAAACAGCACCCTGGATTACACGGATCCCACAGGAGCTTGTGAAGAAGGGCCAGTTCCCCATCCCATCCATCACCTGGGAACACACAGGGCGGTATCGCTGTTACTATGGTAGCGACACTGCAGGCCGCTCAGAGAGCAGTGACCCCCTGGAGCTGGTGGTGACAGGAGCCTACATCAAACCCACCCTCTCAGCCCAGCCCAGCCCCGTGGTGAACTCAGGAGGGAATGTAACCCTCCAGTGTGACTCACAGGTGGCATTTGATGGCTTCATTCTGTGTAAGGAAGGAGAAGATGAACACCCACAATGCCTGAACTCCCAGCCCCATGCCCGTGGGTCGTCCCGCGCCATCTTCTCCGTGGGCCCCGTGAGCCCGAGTCGCAGGTGGTGGTACAGGTGCTATGCTTATGACTCGAACTCTCCCTATGAGTGGTCTCTACCCAGTGATCTCCTGGAGCTCCTGGTCCTAGGTGTTTCTAAGAAGCCATCACTCTCAGTGCAGCCAGGTCCTATCGTGGCCCCTGAGGAGACCCTGACTCTGCAGTGTGGCTCTGATGCTGGCTACAACAGATTTGTTCTGTATAAGGACGGGGAACGTGACTTCCTTCAGCTCGCTGGCGCACAGCCCCAGGCTGGGCTCTCCCAGGCCAACTTCACCCTGGGCCCTGTGAGCCGCTCCTACGGGGGCCAGTACAGATGCTACGGTGCACACAACCTCTCCTCCGAGTGGTCGGCCCCCAGCGACCCCCTGGACATCCTGATCGCAGGACAGTTCTATGACAGAGTCTCCCTCTCGGTGCAGCCGGGCCCCACGGTGGCCTCAGGAGAGAACGTGACCCTGCTGTGTCAGTCACAGGGATGGATGCAAACTTTCCTTCTGACCAAGGAGGGGGCAGCTGATGACCCATGGCGTCTAAGATCAACGTACCAATCTCAAAAATACCAGGCTGAATTCCCCATGGGTCCTGTGACCTCAGCCCATGCGGGGACCTACAGGTGCTACGGCTCACAGAGCTCCAAACCCTACCTGCTGACTCACCCCAGTGACCCCCTGGAGCTCGTGGTCTCAGCAGGCCCTGAGGACCAGCCCCTCACCCCCACCGGGTCGGATCCCCAGAGTGGTCTGGGAAGGCACCTGGGGGTTGTGATCGGCATCTTGGTGGCCGTCATCCTACTGCTCCTCCTCCTCCTCCTCCTCTTCCTCATCCTCCGACATCGACGTCAGGGCAAACACTGGACATCGACCCAGAGAAAGGCTGATTTCCAACATCCTGCAGGGGCTGTGGGGCCAGAGCCCACAGACAGAGGCCTGCAGTGGAGGTCCAGCCCAGCTGCCGATGCCCAGGAAGAAAACCTCTATGCTGCCGTGAAGCACACACAGCCTGAGGATGGGGTGGAGATGGACACTCGGAGCCCACACGATGAAGACCCCCAGGCAGTGACGTATGCCGAGGTGAAACACTCCAGACCTAGGAGAGAAATGGCCTCTCCTCCTTCCCCACTGTCTGGGGAATTCCTGGACACAAAGGACAGACAGGCGGAAGAGGACAGGCAGATGGACACTGAGGCTGCTGCATCTGAAGCCCCCCAGGATGTGACCTACGCCCAGCTGCACAGCTTGACCCTCAGACGGGAGGCAACTGAGCCTCCTCCATCCCAGGAAGGGCCCTCTCCAGCTGTGCCCAGCATCTACGCCACTCTGGCCATCCACTAGCCCAGGGGGGGACGCAGACCCCACACTCCATGGAGTCTGGAATGCATGGGAGCTGCCCCCCCAGTGGACACCATTGGACCCCACCCAGCCTGGATCTACCCCAGGAGACTCTGGGAACTTTTAGGGGTCACTCAATTCTGCAGTATAAATAACTAATGTCTCTACAATTTTGAAATAAAGCAACAGACTTCTCAATAATCAATGAAGTAGCTGAGAAAACTAAGTCAGAAAGTGCATTAAACTGAATCACAATGTAAATATTACACATCAAGCGATGAAACTGGAAAACTACAAGCCACGAATGAATGAATTAGGAAAGAAAAAAAGTAGGAAATGAATGATCTTGGCTTTCCTATAAGAAATTTAGGGCAGGGCACGGTGGCTCACGCCTGTAATTCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGTTCAGGAGATCGAGACCATCTTGGCCAACATGGTGAAACCCTGTCTCTCCTAAAAATACAAAAATTAGCTGGATGTGGTGGCAGTGCCTGTAATCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCAGGGAGTCAGAGGTTTCAGTGAGCCAAGATCGCACCACTGCTCTCCAGCCTGGCGACAGAGGGAGACTCCATCTCAAATTAAAAAAAAAAAAAAAAAAGAAAGAAAAAAAAAAAAAAAAAA
>gi|612149788|ref|NM_006669.6| Homo sapiens leukocyte immunoglobulin like receptor B1 (LILRB1), transcript variant 1, mRNA
AAATGAGTTTTAAAAAGGCTTGTCCAGGAAGCACATATGGGAGCTGGTCACTCTGCATTTTGGGCCCTCCTGGAGGTGTTTAGACCTTCCGAGAGAGAAACTGAGACACATGAGAGGGAAGAAATGACTCAGTGGTGAGACCCTGTGGAGTCCCACCCACAACCAGCACACTGTGACCCACTGCACAAACCTCTAGCCCACAGCTCACTTCCTCCTTTAAGAAGAGAAGAGAAAAGAGGAGAGGAGAGGAGGAACAGAAAAGAAAAGAAAAGAAAAAGTGGGAAACAAATAATCTAAGAATGAGGAGAAAGCAAGAAGAGTGACCCCCTTGTGGGCACTCCATTGGTTTTATGGCGCCTCTACTTTCTGGAGTTTGTGTAAAACAAAAATATTATGGTCTTTGTGCACATTTACATCAAGCTCAGCCTGGGCGGCACAGCCAGATGCGAGATGCGTCTCTGCTGATCTGAGTCTGCCTGCAGCATGGACCTGGGTCTTCCCTGAAGCATCTCCAGGGCTGGAGGGACGACTGCCATGCACCGAGGGCTCATCCATCCACAGAGCAGGGCAGTGGGAGGAGACGCCATGACCCCCATCCTCACGGTCCTGATCTGTCTCGGGCTGAGTCTGGGCCCCCGGACCCACGTGCAGGCAGGGCACCTCCCCAAGCCCACCCTCTGGGCTGAACCAGGCTCTGTGATCACCCAGGGGAGTCCTGTGACCCTCAGGTGTCAGGGGGGCCAGGAGACCCAGGAGTACCGTCTATATAGAGAAAAGAAAACAGCACCCTGGATTACACGGATCCCACAGGAGCTTGTGAAGAAGGGCCAGTTCCCCATCCCATCCATCACCTGGGAACACACAGGGCGGTATCGCTGTTACTATGGTAGCGACACTGCAGGCCGCTCAGAGAGCAGTGACCCCCTGGAGCTGGTGGTGACAGGAGCCTACATCAAACCCACCCTCTCAGCCCAGCCCAGCCCCGTGGTGAACTCAGGAGGGAATGTAACCCTCCAGTGTGACTCACAGGTGGCATTTGATGGCTTCATTCTGTGTAAGGAAGGAGAAGATGAACACCCACAATGCCTGAACTCCCAGCCCCATGCCCGTGGGTCGTCCCGCGCCATCTTCTCCGTGGGCCCCGTGAGCCCGAGTCGCAGGTGGTGGTACAGGTGCTATGCTTATGACTCGAACTCTCCCTATGAGTGGTCTCTACCCAGTGATCTCCTGGAGCTCCTGGTCCTAGGTGTTTCTAAGAAGCCATCACTCTCAGTGCAGCCAGGTCCTATCGTGGCCCCTGAGGAGACCCTGACTCTGCAGTGTGGCTCTGATGCTGGCTACAACAGATTTGTTCTGTATAAGGACGGGGAACGTGACTTCCTTCAGCTCGCTGGCGCACAGCCCCAGGCTGGGCTCTCCCAGGCCAACTTCACCCTGGGCCCTGTGAGCCGCTCCTACGGGGGCCAGTACAGATGCTACGGTGCACACAACCTCTCCTCCGAGTGGTCGGCCCCCAGCGACCCCCTGGACATCCTGATCGCAGGACAGTTCTATGACAGAGTCTCCCTCTCGGTGCAGCCGGGCCCCACGGTGGCCTCAGGAGAGAACGTGACCCTGCTGTGTCAGTCACAGGGATGGATGCAAACTTTCCTTCTGACCAAGGAGGGGGCAGCTGATGACCCATGGCGTCTAAGATCAACGTACCAATCTCAAAAATACCAGGCTGAATTCCCCATGGGTCCTGTGACCTCAGCCCATGCGGGGACCTACAGGTGCTACGGCTCACAGAGCTCCAAACCCTACCTGCTGACTCACCCCAGTGACCCCCTGGAGCTCGTGGTCTCAGGACCGTCTGGGGGCCCCAGCTCCCCGACAACAGGCCCCACCTCCACATCTGGCCCTGAGGACCAGCCCCTCACCCCCACCGGGTCGGATCCCCAGAGTGGTCTGGGAAGGCACCTGGGGGTTGTGATCGGCATCTTGGTGGCCGTCATCCTACTGCTCCTCCTCCTCCTCCTCCTCTTCCTCATCCTCCGACATCGACGTCAGGGCAAACACTGGACATCGACCCAGAGAAAGGCTGATTTCCAACATCCTGCAGGGGCTGTGGGGCCAGAGCCCACAGACAGAGGCCTGCAGTGGAGGTCCAGCCCAGCTGCCGATGCCCAGGAAGAAAACCTCTATGCTGCCGTGAAGCACACACAGCCTGAGGATGGGGTGGAGATGGACACTCGGAGCCCACACGATGAAGACCCCCAGGCAGTGACGTATGCCGAGGTGAAACACTCCAGACCTAGGAGAGAAATGGCCTCTCCTCCTTCCCCACTGTCTGGGGAATTCCTGGACACAAAGGACAGACAGGCGGAAGAGGACAGGCAGATGGACACTGAGGCTGCTGCATCTGAAGCCCCCCAGGATGTGACCTACGCCCAGCTGCACAGCTTGACCCTCAGACGGGAGGCAACTGAGCCTCCTCCATCCCAGGAAGGGCCCTCTCCAGCTGTGCCCAGCATCTACGCCACTCTGGCCATCCACTAGCCCAGGGGGGGACGCAGACCCCACACTCCATGGAGTCTGGAATGCATGGGAGCTGCCCCCCCAGTGGACACCATTGGACCCCACCCAGCCTGGATCTACCCCAGGAGACTCTGGGAACTTTTAGGGGTCACTCAATTCTGCAGTATAAATAACTAATGTCTCTACAATTTTGAAATAAAGCAACAGACTTCTCAATAATCAATGAAGTAGCTGAGAAAACTAAGTCAGAAAGTGCATTAAACTGAATCACAATGTAAATATTACACATCAAGCGATGAAACTGGAAAACTACAAGCCACGAATGAATGAATTAGGAAAGAAAAAAAGTAGGAAATGAATGATCTTGGCTTTCCTATAAGAAATTTAGGGCAGGGCACGGTGGCTCACGCCTGTAATTCCAGCACTTTGGGAGGCCGAGGCGGGCAGATCACGAGTTCAGGAGATCGAGACCATCTTGGCCAACATGGTGAAACCCTGTCTCTCCTAAAAATACAAAAATTAGCTGGATGTGGTGGCAGTGCCTGTAATCCCAGCTATTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCAGGGAGTCAGAGGTTTCAGTGAGCCAAGATCGCACCACTGCTCTCCAGCCTGGCGACAGAGGGAGACTCCATCTCAAATTAAAAAAAAAAAAAAAAAAGAAAGAAAAAAAAAAAAAAAAAA
>gi|605052026|ref|NM_012268.3| Homo sapiens phospholipase D family member 3 (PLD3), transcript variant 2, mRNA
GCATCCTCTCACCGCCGGAAGCTGAACTGACTCGTCCGCGGCCGCTCTACCCCAACAGGCCGCCACCAGCGAGAGTGCGGCCATAACCATCACGTGACCGCCCACCGACACCAGCGAGAGTGCAGTCGTAACCGTCACGTGACCGCCCACCGTCGGCCCGGCGCTCCCCTCCGCCCGAAGCTAGCAAGCGGCGCGGCCAATGAGAAAGGCGCATGCCTGGCCCCCGCCGGCCTGCAGTCTAGCCGTAGTGCGCCTGCGCGCGGCTAGGAGGGGCCGTCAGGCGGGGATACAGCCTGGAAGGTGCGTGTGGGGCTGGGTCTCGGAGTGGGAGACGTGGAGTGCAGGCTGGAGCGACCGTGTCTGGGGAGCCGAGCCCCGCTTCTCGCTGCGGTGAGCCCGGACTGGGGCACGCACTGCGCAGACTCCCCGCTGCAGTGGGCGGAGCTCCCACAGGCCCCGCCCCCTCCTCCCACCCTCGTTCAGCCTGTCCAGACAGAAGCTGGGGCCCACCGGAGGTAGCTGCAGACGCCTGAGAGCGAGGCCGAGGCCCCTCAGGGTTTGGAGACCCTGACACACCCACCTTCTCACCTGGGCTCTGCGTATCCCCCAGCCTTGAGGGAAGATGAAGCCTAAACTGATGTACCAGGAGCTGAAGGTGCCTGCAGAGGAGCCCGCCAATGAGCTGCCCATGAATGAGATTGAGGCGTGGAAGGCTGCGGAAAAGAAAGCCCGCTGGGTCCTGCTGGTCCTCATTCTGGCGGTTGTGGGCTTCGGAGCCCTGATGACTCAGCTGTTTCTATGGGAATACGGCGACTTGCATCTCTTTGGGCCCAACCAGCGCCCAGCCCCCTGCTATGACCCTTGCGAAGCAGTGCTGGTGGAAAGCATTCCTGAGGGCCTGGACTTCCCCAATGCCTCCACGGGGAACCCTTCCACCAGCCAGGCCTGGCTGGGCCTGCTCGCCGGTGCGCACAGCAGCCTGGACATCGCCTCCTTCTACTGGACCCTCACCAACAATGACACCCACACGCAGGAGCCCTCTGCCCAGCAGGGTGAGGAGGTCCTCCGGCAGCTGCAGACCCTGGCACCAAAGGGCGTGAACGTCCGCATCGCTGTGAGCAAGCCCAGCGGGCCCCAGCCACAGGCGGACCTGCAGGCTCTGCTGCAGAGCGGTGCCCAGGTCCGCATGGTGGACATGCAGAAGCTGACCCATGGCGTCCTGCATACCAAGTTCTGGGTGGTGGACCAGACCCACTTCTACCTGGGCAGTGCCAACATGGACTGGCGTTCACTGACCCAGGTCAAGGAGCTGGGCGTGGTCATGTACAACTGCAGCTGCCTGGCTCGAGACCTGACCAAGATCTTTGAGGCCTACTGGTTCCTGGGCCAGGCAGGCAGCTCCATCCCATCAACTTGGCCCCGGTTCTATGACACCCGCTACAACCAAGAGACACCAATGGAGATCTGCCTCAATGGAACCCCTGCTCTGGCCTACCTGGCGAGTGCGCCCCCACCCCTGTGTCCAAGTGGCCGCACTCCAGACCTGAAGGCTCTACTCAACGTGGTGGACAATGCCCGGAGTTTCATCTACGTCGCTGTCATGAACTACCTGCCCACTCTGGAGTTCTCCCACCCTCACAGGTTCTGGCCTGCCATTGACGATGGGCTGCGGCGGGCCACCTACGAGCGTGGCGTCAAGGTGCGCCTGCTCATCAGCTGCTGGGGACACTCGGAGCCATCCATGCGGGCCTTCCTGCTCTCTCTGGCTGCCCTGCGTGACAACCATACCCACTCTGACATCCAGGTGAAACTCTTTGTGGTCCCCGCGGATGAGGCCCAGGCTCGAATCCCATATGCCCGTGTCAACCACAACAAGTACATGGTGACTGAACGCGCCACCTACATCGGAACCTCCAACTGGTCTGGCAACTACTTCACGGAGACGGCGGGCACCTCGCTGCTGGTGACGCAGAATGGGAGGGGCGGCCTGCGGAGCCAGCTGGAGGCCATTTTCCTGAGGGACTGGGACTCCCCTTACAGCCATGACCTTGACACCTCAGCTGACAGCGTGGGCAACGCCTGCCGCCTGCTCTGAGGCCCGATCCAGTGGGCAGGCCAAGGCCTGCTGGGCCCCCGCGGACCCAGGTGCTCTGGGTCACGGTCCCTGTCCCCGCGCCCCCGCTTCTGTCTGCCCCATTGTGGCTCCTCAGGCTCTCTCCCCTGCTCTCCCACCTCTACCTCCACCCCCACCGGCCTGACGCTGTGGCCCCGGGACCCAGCAGAGCTGGGGGAGGGATCAGCCCCCAAAGAAATGGGGGTGCATGCTGGGCCTGGCCCCCTGGCCCACCCCCACTTTCCAGGGCAAAAAGGGCCCAGGGTTATAATAAGTAAATAACTTGTCTGTACAGCCTGAAAAAAAAAAAAAAAAAAA
>gi|588480519|ref|NM_004879.4| Homo sapiens EI24, autophagy associated transmembrane protein (EI24), transcript variant 1, mRNA
CCCTTCGGCTCTGGGCCCCGCCTCGTGGTGCCGGCTGGTTCTTCGCGCTCGCCCGACTTCCCAGCGGCCCCGTGCGGCCCGGGCATGCCCAGTGCGGGCGCAGCGGCCCCGGCCCTGGAAGCGCCCCGGCGGAGCTGGCCTGCGGTGGGCTAGGGGCAGGGCCGGAGCCGCGGCGGCGGAGCTGTGGATCCTTCATGATGAGAGATTTGGGGACACTTCTCTCTCCTGTGTGTAGTTGATAGTTTGGTGGTGAAGAGATGGCTGACAGTGTCAAAACCTTTCTCCAGGACCTTGCCAGAGGAATCAAAGACTCCATCTGGGGTATTTGTACCATCTCAAAGCTAGATGCTCGAATCCAGCAAAAGAGAGAGGAGCAGCGTCGAAGAAGGGCAAGTAGTGTCTTGGCACAGAGAAGAGCCCAGAGTATAGAGCGGAAGCAAGAGAGTGAGCCACGTATTGTTAGTAGAATTTTCCAGTGTTGTGCTTGGAATGGTGGAGTGTTCTGGTTCAGTCTCCTCTTGTTTTATCGAGTATTTATTCCTGTGCTTCAGTCGGTAACAGCCCGAATTATCGGTGACCCATCACTACATGGAGATGTTTGGTCGTGGCTGGAATTCTTCCTCACGTCAATTTTCAGTGCTCTTTGGGTGCTCCCCTTGTTTGTGCTTAGCAAAGTGGTGAATGCCATTTGGTTTCAGGATATAGCTGACCTGGCATTTGAGGTATCAGGGAGGAAGCCTCACCCATTCCCTAGTGTCAGCAAAATAATTGCTGACATGCTCTTCAACCTTTTGCTGCAGGCTCTTTTCCTCATTCAGGGAATGTTTGTGAGTCTCTTTCCCATCCATCTTGTCGGTCAGCTGGTTAGTCTCCTGCATATGTCCCTTCTCTACTCACTGTACTGCTTTGAATATCGTTGGTTCAATAAAGGAATTGAAATGCACCAGCGGTTGTCTAACATAGAAAGGAATTGGCCTTACTACTTTGGGTTTGGTTTGCCCTTGGCTTTTCTCACAGCAATGCAGTCCTCATATATTATCAGTGGCTGCCTTTTCTCTATCCTCTTTCCTTTATTCATTATCAGCGCCAATGAAGCAAAGACCCCTGGCAAAGCATATCTCTTCCAGTTGCGCCTCTTCTCCTTGGTGGTCTTCTTAAGCAACAGACTCTTCCACAAGACAGTCTACCTGCAGTCGGCCCTGAGCAGCTCTACTTCTGCAGAGAAGTTCCCTTCACCGCATCCGTCGCCTGCCAAACTGAAGGCTACTGCAGGTCACTGAGTTGCCTGCCATCCAAAGGGGATGGGCGGGATTGGAAGAAGCTGTGGCAGCTCTTTTCCCTGTTCACCTCCCGCCTGCCAGGGAAGGCAGGACCCGCTCTGCCAAGGGCCCTCTGCGTATTCCCTTCTCTCTGAGGAATTGAAATTTTTGTCTCTGGTGCACGTAAGGCAGAATGTTCCCTGACACCAGTGTGTGGATTTTTAACATCACCGTGAGTCTGAAAGGACCACAGGTTTTTCTGCAGCTATTTTCTAGCATTTGCCAGTCCCTGTGCCTGGACTGATTGGAACACTTTGTTTTTCTCCCTGTGCCATTTACCCTTCCACCTTTCCATCCTGCCTTCTACCACCCTTGGATGAATGGATTTTGTAATTCTAGCTGTTGTATTTTGTGAATTTGTTAATTTTGTTGTTTTTCTGTGAAACACATACATTGGATATGGGAGGTAAAGGAGTGTCCCAGTTGCTCCTGGTCACTCCCTTTATAGCCATTACTGTCTTGTTTCTTGTAACTCAGGTTAGGTTTTGGTCTCTCTTGCTCCACTGCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGCCTGAAGAGATGAGATAGGAGGAAAGACCTCACAGCCAGATCTGCTGGGTTTTGAGGAGTGATTTTCTTTCTTCCCCTTGAAGGGGAAAAAGCTATTTTCATTGGTACATTTAAAGTCCCCCAACTATGGGGAGGTACCAATTCTGGACAAGTGCCACTACAACAACACTAAACCTGAACTTTTCAACTCCGTTGGTGGTGGGAGGCAGCGGGCAGAAATTTACTGTTGGCCACTGCCAGGTCTATTTCATATTTCAAAGGAATATTGGGTGCTGCATATAGGAACTGAAGGGGTCAATGTATTAAACCTGTGATTGGTTGTTTTCCTGTCATTTTGAGAGACTAAATGTGGGGGGCAGATGTCAAAATACCTGTACAATTTTAAAATGTCACAATTAAACATGAGCTGGTTTCCCACAAAGTGTC
>gi|586946406|ref|NM_032595.4| Homo sapiens protein phosphatase 1 regulatory subunit 9B (PPP1R9B), mRNA
CACCATGATGAAGACGGAGCCACGGGGGCCCGGGGGTCCCCTCCGGAGCGCCTCCCCGCACCGCAGCGCCTACGAGGCGGGCATCCAGGCGCTGAAGCCGCCCGACGCGCCCGGGCCCGACGAGGCACCCAAGGGGGCCCACCACAAGAAATATGGCTCCAACGTCCACCGCATCAAAAGTATGTTCCTGCAGATGGGCACGACGGCGGGGCCCTCGGGCGAGGCGGGCGGCGGCGCGGGCCTGGCCGAGGCCCCACGGGCGTCCGAGCGCGGCGTGCGCCTGTCGCTGCCGCGGGCCAGCAGCCTGAACGAGAACGTGGACCACAGCGCCCTGCTGAAGCTGGGCACCAGCGTGTCGGAGCGCGTGAGCCGCTTCGACTCCAAGCCCGCGCCCTCCGCGCAGCCTGCGCCGCCGCCGCACCCGCCGTCCCGGCTGCAGGAGACGCGGAAGCTGTTCGAACGGAGCGCCCCAGCGGCCGCAGGCGGCGACAAGGAGGCCGCGGCGCGGCGGCTGCTGAGGCAGGAGCGCGCCGGCCTGCAGGACCGGAAGCTGGACGTCGTGGTGCGCTTCAACGGCAGCACCGAGGCGCTGGACAAGCTGGACGCTGACGCCGTGTCCCCCACGGTCAGCCAGCTCAGCGCCGTCTTCGAGAAGGCCGACTCGAGGACCGGCCTCCACCGCGGGCCCGGGCTCCCCAGGGCCGCAGGGGTTCCCCAGGTCAACTCGAAGCTGGTCAGCAAGCGGTCCCGGGTGTTCCAGCCCCCGCCGCCGCCGCCGCCCGCCCCGTCGGGGGATGCCCCGGCCGAGAAAGAGCGATGCCCCGCAGGGCAGCAGCCCCCGCAGCACCGAGTGGCCCCTGCCCGGCCGCCCCCCAAGCCCCGGGAGGTGCGCAAGATTAAGCCGGTGGAGGTGGAGGAGAGCGGGGAGTCGGAGGCCGAGTCGGCGCCCGGGGAGGTGATCCAGGCCGAGGTTACGGTCCACGCGGCCCTGGAGAATGGCAGCACCGTGGCAACTGCAGCCAGCCCCGCGCCCGAGGAGCCAAAGGCCCAAGCGGCCCCGGAGAAGGAGGCGGCGGCGGTAGCGCCGCCAGAGAGGGGGGTGGGCAATGGCCGGGCCCCGGACGTGGCCCCTGAGGAGGTAGATGAATCCAAGAAGGAGGACTTCTCGGAGGCGGACTTGGTGGACGTGAGCGCCTACAGTGGGCTCGGGGAGGACTCTGCGGGCAGTGCCCTGGAGGAGGACGACGAAGACGACGAGGAGGATGGGGAGCCCCCCTACGAGCCCGAGTCGGGGTGCGTGGAGATCCCGGGGCTGTCGGAGGAGGAGGACCCAGCCCCGAGCCGGAAGATCCATTTCAGCACGGCGCCCATCCAAGTGTTCAGCACTTACTCCAACGAGGATTACGATCGTCGCAACGAGGATGTGGATCCCATGGCAGCCTCTGCTGAGTACGAGCTGGAGAAGCGTGTGGAGAGGTTGGAGCTGTTCCCTGTGGAGCTGGAGAAGGACTCCGAGGGCCTGGGCATCAGCATCATCGGCATGGGCGCCGGGGCAGACATGGGCCTGGAGAAGCTGGGTATCTTCGTCAAGACCGTGACGGAGGGTGGTGCGGCCCATCGGGATGGCAGGATCCAGGTGAATGATCTCCTGGTGGAGGTGGATGGAACAAGTCTGGTGGGAGTGACCCAGAGCTTCGCGGCGTCTGTGCTCCGGAACACCAAGGGCCGAGTGCGGTTTATGATTGGCCGGGAGCGGCCGGGAGAGCAGAGCGAAGTGGCCCAGCTAATTCAGCAGACTTTGGAACAGGAGCGATGGCAGCGGGAGATGATGGAGCAGAGATACGCCCAGTATGGGGAGGATGACGAGGAGACGGGAGAGTATGCCACTGACGAGGATGAGGAGCTGAGCCCCACGTTCCCGGGTGGTGAGATGGCCATCGAGGTGTTTGAGCTAGCGGAGAACGAGGATGCACTGTCCCCTGTGGACATGGAGCCCGAGAAGCTGGTGCACAAGTTCAAGGAGCTCCAGATCAAGCATGCGGTCACTGAGGCAGAGATCCAGCAGCTGAAAAGAAAGCTGCAGAGCCTGGAGCAGGAGAAGGGGCGCTGGCGGGTGGAGAAGGCGCAGTTGGAGCAGAGTGTGGAGGAGAACAAGGAGCGCATGGAGAAACTGGAAGGCTACTGGGGTGAGGCCCAGAGCCTGTGCCAGGCTGTGGACGAGCACCTGCGGGAGACTCAGGCGCAGTACCAGGCCCTGGAGCGCAAGTACAGCAAGGCCAAGCGCCTCATCAAGGACTACCAGCAGAAGGAGATCGAGTTCCTGAAAAAGGAGACTGCACAGCGTCGGGTTCTGGAGGAGTCGGAGCTGGCCAGAAAGGAGGAGATGGACAAGCTCCTGGACAAGATCTCAGAACTGGAAGGAAACTTGCAAACACTGAGGAATTCCAATTCTACTTAACAGGAATCATTCCATGACTGGACAATAATTAACCCCCCTCCCATTGTCCTCCCTCCCCTGTCCTCAACACCCCACCCCTCCCCCTTCCAGCCTGGGGACAGGTGCCCCGACTCCCCCCACCCCTCCACCCCACCTCCCCCAGCTTCAGGGACCAGAGGGCTCATATCACAGGCCCCCTTAAGATGGCCTGGGCAGACAGAGGTGGCTAGAAGGGCAGCCTCTTTCTTGCCCCATGGGGCTGAGGCACAGAGGCCGAGGGCTGCCGAGGGCTGGCCTGGTGGTCGACGGACACAAGCACCTGCAGATCAAACTGCCAGACTTTACACACTCCAGCTTTTGTCTCTGGACTGGAACGGGGCTGGGGCTCTCCCAGCATCTGCCAACTGGGGGCTGCTCCCTGCCCATGGGGCACCTGGGTGGCCCCTGGGCCTCTTGACTTGAGATTCTACCTTCTCGGCCCTTCCCTCTCCCCCCATCATTGTGCCGTCTCTGTTGCATTCTGACCCTCCCGCCTGGGGGGTGGGGGCGTTGCCTCAACACCTCCCCCATCCCTGTTCCCTGTCCTGGGAGGGATAGAGTCCACCCCAGAGCCCGGAGGCTGGGCCTGGCCCTGGCCCTGCACTGATTTCTCATGTGTCCTTCGGGAAAAGGGGGAGTGAGAGTGGGAAAAAGGGAGAGTTCAGGACACCTGGTCCCCAGCTCCCCATTGCCTGGGGCAGCAGCCCTCAATTTCTCCTTGTGCCTCCCCTCTTCCAGGTGCCAAATAGCCATAACCTCGTCTTGGAACTGTTATGTGGCCTCTCTGGGGTCCAGGTTTCCTGGTCAAGCCTGGGAATGCCAGGGAGGAAAGGGGGTCTGGCTACAGCGACCCTGGTCTTAGGCAAGGGGAACATTTCTCCCTGGAGAGTCAGGTCCTATCCTGTGCTGCCCTGTCTGCCCAGCCCAGGGCGATGCCTGGAAGCCTACTGACATTGCAGGGAGTCAGCCTCGCCCCCACCCCCTACTGGTTTTCCAATGTTTTGACTGGAGGGCAAAATTTTACTACTACTCATCTTTTTGGAGACCAGGGCTGCCCTGCTGGCAGCCTGCCTTCTAAGTGAAATCGACTCTGTTTCCCCACTTTAACCCCAAATTGGGGCTTGGACCAAGGGAGGTGAGACCACCTCCCCCAGGTCCCCTCCCCTTTCAAAATCCATCTCATTTTGCCACTTCATGCCCCTGCCCTAACTGGGTTTTTGTTCATTTTTTAAAAACAGACCACCCATCCCATCCGTTTTGGCTTCTTGTCCCCTGTAAATAGACCATGACTTCGATCAGTATTTCTTGTCCCCACCCCTTCCTATCCCCAGATGTGCCCCCATCCCCTGAAGGAGCTGGCTGTCTCAGTCCTGGGCTCGCGCACTTCACCCCGGCAGATGGAGGGGGCGGAACCGGGTGGGCGGGGCCGCTTCGGGCTGCTTGGGCCAGCGGCCACCCCTGCCCAGCCGTCGGGAGGGCCGCATCTCTGTATATAATATATATATGTATGTATTGTTCCCGGTTTTGTACGGACCATGCCCTCTGTCAGGTCGTCCCCATAAAAGCAGCCCCCAGAGCAAAAAAAAAAAAAAAAAA
>gi|565324218|ref|NM_001287337.1| Homo sapiens calcium binding protein 39 like (CAB39L), transcript variant 1, mRNA
CCGCAGTGGCGCCCGAGCGCGCCGCCTCCCGATTGACTGCTAGCGCTCTCGGCTTGTCTCGCGCACTGTAGCTGAGCCAATGGAGTTACTCGTAGTCGAGAGGCCGGCATCACTGGAGTGGTGGCGCAGCTGTTTCCTCCGGATATCCATCAAATATTGAGAAGAAAGAATATCAGGAGCAAAGTGTTCTAAGTTGCTGTTCAGAACGTAAAGATGCGAACCCCAAATCAGTGGTTTGTTCATTCTTCATGCAAGAGCAATGCACTAAAGGAGAGAAGCAAGCTGTGGTGATCAGTGACTTTGGTGAAAGCTAAGAAGGTTCAAACAAATTTGCAAATGATATACAACTTCTAAGGAGGCAACCTCTATTAAATGGACGATAAAGGCTACTTCATCTAAAGTGCTTTGAGCTCAAGAAAGAGCTGTCTTCAGCACCTCACCATGTGTCTACATTTTGTTGCTTAGAAAAGCCTAGGCATTTCTGTAACATTTGCATTCCATATTGGAAGAAGAGATTTCTACACATGAAAAAAATGCCTTTGTTTAGTAAATCACACAAAAATCCAGCAGAAATTGTGAAAATCCTGAAAGACAATTTGGCCATTTTGGAAAAGCAAGACAAAAAGACAGACAAGGCTTCAGAAGAAGTGTCTAAATCACTGCAAGCAATGAAAGAAATTCTGTGTGGTACAAACGAGAAAGAACCCCCAACAGAAGCAGTGGCTCAGCTAGCACAAGAACTCTACAGCAGTGGCCTGCTAGTGACACTGATAGCTGACCTGCAGCTGATAGACTTTGAGGGAAAAAAAGATGTGACCCAGATATTTAACAACATCTTGAGAAGACAGATAGGCACTCGGAGTCCTACTGTGGAGTATATTAGTGCTCATCCTCATATCCTGTTTATGCTCCTCAAAGGATATGAAGCCCCACAGATTGCCTTACGTTGTGGGATTATGCTGAGAGAATGTATTCGACATGAACCACTTGCCAAAATCATCCTCTTTTCTAATCAATTCAGAGATTTCTTTAAGTACGTGGAGTTGTCAACATTTGATATTGCTTCAGATGCCTTTGCTACTTTCAAGGATTTACTAACCAGACATAAAGTGTTGGTAGCAGACTTCTTAGAACAAAATTACGACACTATTTTTGAAGACTATGAGAAATTGCTTCAGTCTGAGAATTATGTTACTAAGAGACAGTCTTTAAAGCTGCTAGGGGAGCTGATCCTGGACCGTCACAACTTTGCCATCATGACAAAGTATATCAGCAAGCCGGAGAACCTGAAACTCATGATGAACCTCCTTCGGGATAAAAGTCCCAACATCCAGTTTGAAGCCTTTCATGTTTTTAAGGTGTTTGTGGCCAGTCCTCACAAAACACAGCCTATTGTGGAGATCCTGTTAAAAAATCAGCCCAAACTCATTGAGTTTCTGAGCAGCTTCCAAAAAGAAAGGACGGATGATGAGCAGTTCGCTGACGAGAAGAACTACTTGATTAAACAGATCCGAGACTTGAAGAAAACGGCCCCTTGAAGAGCTCCCCGGCCCCTGTCACAGTCAGTCGTCTCATTTGTCCAGTTTGTACAGTGTGTCATTTCAGAAAGTCATCATTCTTGGGAAGACTTTGGAGGTGCCTATTTTTTCTGCTGTAATTGTTCTGGGTAGATGGAGTATAAACATTTGAATGGAAAAAAATTAACCTAGAATAATATATTCATTTTAGTCAAGTCTGTGATTATTTATGTGAAATGAGAACCATTGTATCAGATGTTGATAAAAGCAATTTTAACTTGCAGATGTGAGCCCCTGGGCACAATGAGCCGCTAAATGGGAGCTCAATTGACAGGCATCACCAAGTCTTCAAGGAGGACTGAGTTCTCAGGGGAGAACTGGGAATGGGGCCAGGGTGCAAAAATGCTTTGCCCATCTGTAGGTAGACACACAGATCGCTCAGGGCACTGAGAGATCCCAGAAGGTAACGTTAATGTTTTCAGTCATTGTGTGTCCTTTGTTGCTGCCAATGTCTTTGGACTGTAATCAGTGCATCCACACCTCCCAGGATCCAGTGCTCCCTCTCAGCTCAGTCTCCCCTCTCTCCCTGTCCTGCATTCCATCCCAGCTCCTCAGCATGGCCTCAGTGGGCGCACCCATGCCTCCCGCAGTCCAGGTGAGCAGGGGAGCAACTGAGCAGGAAGAGGATGGATCAACAAGGGTCACGGGGAATAGGGGACCCACGGGGTGTGACCTGCTTGCTAGAGAACTGTGAACATGTGGCTCTGGATAGAGTGACTGCTGCTCCATATTAGCTTCCAGAGGGTGAGTGAGGGACAGAATATTTCCTTCATAATGGTCATGGGTGAATGCTTTCTGCTGTAAGTGTCTTTTAGAGTAGGAATCAGCATAGTGGGATGCCCAGCAGGCACAAACCATGGGTCCAGGGAGTCTCAGCGGGGAACTTCTATCAGTATCAATAACCATTGGAAGGAGAAATGATTCATGTGTGAAAAAATTCTCAGATCCATCAATAAATTTTTTTCAGAGCCATTGTATCAGATGTTGATAAAAGCAATTTTTTTCTAATAAGCTGTCATTCTATAATTGCCCATCACAGTCTTTAGTGAACACATAGAAAGCCTATACAGTTTTGGTCCTGAATAGTCTCTTGTGACTAGGATGATTGAGGTGTTAATTCCTCTTCCTTATAAAAAGGCTTGGAATCAAAAATATTTTAAAAGGCCGTGGTTTCGTTTCAGACATCAACCATCTAAAACGGGATTTTAAAGCGATATTTTACAAGAATGAAAGGCACAATTGTTGATCTGTATTTTTTACACTTCAGTTTCTAAATCATGAATCGTTGCCTTCCACAGGAACCCTCCCTTATACATTACTTGAGTGTTGTGTAGTTTTTCTTCAGCCAGGTATTTCTCTGCCTAGAGAGGGGAAGAGAAATGTGTTCTCCAGGACTGATCCCCTTTGTAGATTTTGTACCTGAAGAGTTACCTGGCAGGGCACCACCCTTGGCTAGGCCCAGGTGTGTGTTTCTTTCTTGCCTGGCATGGACCCCGAGGCAGGTGATGTGGGGCCTGGCGCACCTCCCCGCTTTGGCAGCTGTGGCCTCCCTGGCCAGTGCCCTTGCAGGAGGCCGGCCGGCAGCCTGATGACCCGTACTCTTTAGTCACTGACGTCAGATTATTTTTATAACGTTCCCTGACAGTTCAGAGTCCCTTCGAATTGCACTTTTCTGGTTTCGCTTATTTAATTAAAAGAGATGAGTGTAAGTATAAAAAATGAAGGTGAAATAACCATTGGAATTGTATTTGGTTACTTAATACTGTTCCACAACATCTTGGGACGTCTGTTTTCCTTTGGAGAGTGAGGCCTTGTTATTATTCTTTTCTGATAAAGAAAACATTTTATTTCCTTTGGGCTTGCATTAGCTCTTTCCTAGCAACCCATTATCCCAGCTCAGTACCTTTCAAACAGAAAACTAGAGTCTGGGGTTTTGTTGTGATCTGAATTTGTAAGTTATTAATGTGAAAGGGGGAGCAGGAAGCTCCCCCTTTGCACAAAGGGGGATTTGTTTGCACAAAGTTCACTGTAAATACTGTGAGAATTGAATTCTGAAAAGGTCATATTTAGTGATTTCAAAAGCACACATTTAAATGAAGACTGACTAAATAAAAGGTACCACACAAAAAAAAAAAAAAAAA
>gi|564730690|ref|NM_001287248.1| Homo sapiens Bloom syndrome RecQ like helicase (BLM), transcript variant 4, mRNA
AATCGGAATAGGCAAGCTTCCGGCGGGAAGTGAGCCAGGGCTTGGCGCGGCGGCCGTGGTTGCGGCGCGGGAAGTTTGGATCCTGGTTCCGTCCGCTAGGAGTCTGCGTGCGAGGATTATGGCTGCTGTTCCTCAAAATAATCTACAGGAGCAACTAGAACGTCACTCAGCCAGAACACTTAATAATAAATTAAGTCTTTCAAAACCAAAATTTTCAGGTTTCACTTTTAAAAAGAAAACATCTTCAGATAACAATGTATCTGTAACTAATGTGTCAGTAGCAAAAACACCTGTATTAAGAAATAAAGATGTTAATGTTACCGAAGACTTTTCCTTCAGTGAACCTCTACCCAACACCACAAATCAGCAAAGGGTCAAGGACTTCTTTAAAAATGCTCCAGCAGGACAGGAAACACAGAGAGGTGGATCAAAATCATTATTGCCAGATTTCTTGCAGACTCCGAAGGAAGTTGTATGCACTACCCAAAACACACCAACTGTAAAGAAATCCCGGGATACTGCTCTCAAGAAATTAGAATTTAGTTCTTCACCAGATTCTTTAAGTACCATCAATGATTGGGATGATATGGATGACTTTGATACTTCTGAGACTTCAAAATCATTTGTTACACCACCCCAAAGTCACTTTGTAAGAGTAAGCACTGCTCAGAAATCAAAAAAGGGTAAGAGAAACTTTTTTAAAGCACAGCTTTATACAACAAACACAGTAAAGACTGATTTGCCTCCACCCTCCTCTGAAAGCGAGCAAATAGATTTGACTGAGGAACAGAAGGATGACTCAGAATGGTTAAGCAGCGATGTGATTTGCATCGATGATGGCCCCATTGCTGAAGTGCATATAAATGAAGATGCTCAGGAAAGTGACTCTCTGAAAACTCATTTGGAAGATGAAAGAGATAATAGCGAAAAGAAGAAGAATTTGGAAGAAGCTGAATTACATTCAACTGAGAAAGTTCCATGTATTGAATTTGATGATGATGATTATGATACGGATTTTGTTCCACCTTCTCCAGAAGAAATTATTTCTGCTTCTTCTTCCTCTTCAAAATGCCTTAGTACGTTAAAGGACCTTGACACCTCTGACAGAAAAGAGGATGTTCTTAGCACATCAAAAGATCTTTTGTCAAAACCTGAGAAAATGAGTATGCAGGAGCTGAATCCAGAAACCAGCACAGACTGTGACGGGTCTCACTGTGTTGCCCAGGCTGGTCTTGAACTCCTGGACTTAAGCAATCCTCCTGCCTTGGCCTCCCCAAAGGGCTGGGATTACAGTCATGAGCCACCATGCCTAGCCAAGACTTTTTTTTTTTTCCCTCAAAGAAAAATATTAACAACATAATTATTTTATAGCTAGACAGATAAGTTTACAGCAGCAGCTTATTCATGTGATGGAGCACATCTGTAAATTAATTGATACTATTCCTGATGATAAACTGAAACTTTTGGATTGTGGGAACGAACTGCTTCAGCAGCGGAACATAAGAAGGAAACTTCTAACGGAAGTAGATTTTAATAAAAGTGATGCCAGTCTTCTTGGCTCATTGTGGAGATACAGGCCTGATTCACTTGATGGCCCTATGGAGGGTGATTCCTGCCCTACAGGGAATTCTATGAAGGAGTTAAATTTTTCACACCTTCCCTCAAATTCTGTTTCTCCTGGGGACTGTTTACTGACTACCACCCTAGGAAAGACAGGATTCTCTGCCACCAGGAAGAATCTTTTTGAAAGGCCTTTATTCAATACCCATTTACAGAAGTCCTTTGTAAGTAGCAACTGGGCTGAAACACCAAGACTAGGAAAAAAAAATGAAAGCTCTTATTTCCCAGGAAATGTTCTCACAAGCACTGCTGTGAAAGATCAGAATAAACATACTGCTTCAATAAATGACTTAGAAAGAGAAACCCAACCTTCCTATGATATTGATAATTTTGACATAGATGACTTTGATGATGATGATGACTGGGAAGACATAATGCATAATTTAGCAGCCAGCAAATCTTCCACAGCTGCCTATCAACCCATCAAGGAAGGTCGGCCAATTAAATCAGTATCAGAAAGACTTTCCTCAGCCAAGACAGACTGTCTTCCAGTGTCATCTACTGCTCAAAATATAAACTTCTCAGAGTCAATTCAGAATTATACTGACAAGTCAGCACAAAATTTAGCATCCAGAAATCTGAAACATGAGCGTTTCCAAAGTCTTAGTTTTCCTCATACAAAGGAAATGATGAAGATTTTTCATAAAAAATTTGGCCTGCATAATTTTAGAACTAATCAGCTAGAGGCGATCAATGCTGCACTGCTTGGTGAAGACTGTTTTATCCTGATGCCGACTGGAGGTGGTAAGAGTTTGTGTTACCAGCTCCCTGCCTGTGTTTCTCCTGGGGTCACTGTTGTCATTTCTCCCTTGAGATCACTTATCGTAGATCAAGTCCAAAAGCTGACTTCCTTGGATATTCCAGCTACATATCTGACAGGTGATAAGACTGACTCAGAAGCTACAAATATTTACCTCCAGTTATCAAAAAAAGACCCAATCATAAAACTTCTATATGTCACTCCAGAAAAGATCTGTGCAAGTAACAGACTCATTTCTACTCTGGAGAATCTCTATGAGAGGAAGCTCTTGGCACGTTTTGTTATTGATGAAGCACATTGTGTCAGTCAGTGGGGACATGATTTTCGTCAAGATTACAAAAGAATGAATATGCTTCGCCAGAAGTTTCCTTCTGTTCCGGTGATGGCTCTTACGGCCACAGCTAATCCCAGGGTACAGAAGGACATCCTGACTCAGCTGAAGATTCTCAGACCTCAGGTGTTTAGCATGAGCTTTAACAGACATAATCTGAAATACTATGTATTACCGAAAAAGCCTAAAAAGGTGGCATTTGATTGCCTAGAATGGATCAGAAAGCACCACCCATATGATTCAGGGATAATTTACTGCCTCTCCAGGCGAGAATGTGACACCATGGCTGACACGTTACAGAGAGATGGGCTCGCTGCTCTTGCTTACCATGCTGGCCTCAGTGATTCTGCCAGAGATGAAGTGCAGCAGAAGTGGATTAATCAGGATGGCTGTCAGGTTATCTGTGCTACAATTGCATTTGGAATGGGGATTGACAAACCGGACGTGCGATTTGTGATTCATGCATCTCTCCCTAAATCTGTGGAGGGTTACTACCAAGAATCTGGCAGAGCTGGAAGAGATGGGGAAATATCTCACTGCCTGCTTTTCTATACCTATCATGATGTGACCAGACTGAAAAGACTTATAATGATGGAAAAAGATGGAAACCATCATACAAGAGAAACTCACTTCAATAATTTGTATAGCATGGTACATTACTGTGAAAATATAACGGAATGCAGGAGAATACAGCTTTTGGCCTACTTTGGTGAAAATGGATTTAATCCTGATTTTTGTAAGAAACACCCAGATGTTTCTTGTGATAATTGCTGTAAAACAAAGGATTATAAAACAAGAGATGTGACTGACGATGTGAAAAGTATTGTAAGATTTGTTCAAGAACATAGTTCATCACAAGGAATGAGAAATATAAAACATGTAGGTCCTTCTGGAAGATTTACTATGAATATGCTGGTCGACATTTTCTTGGGGAGTAAGAGTGCAAAAATCCAGTCAGGTATATTTGGAAAAGGATCTGCTTATTCACGACACAATGCCGAAAGACTTTTTAAAAAGCTGATACTTGACAAGATTTTGGATGAAGACTTATATATCAATGCCAATGACCAGGCGATCGCTTATGTGATGCTCGGAAATAAAGCCCAAACTGTACTAAATGGCAATTTAAAGGTAGACTTTATGGAAACAGAAAATTCCAGCAGTGTGAAAAAACAAAAAGCGTTAGTAGCAAAAGTGTCTCAGAGGGAAGAGATGGTTAAAAAATGTCTTGGAGAACTTACAGAAGTCTGCAAATCTCTGGGGAAAGTTTTTGGTGTCCATTACTTCAATATTTTTAATACCGTCACTCTCAAGAAGCTTGCAGAATCTTTATCTTCTGATCCTGAGGTTTTGCTTCAAATTGATGGTGTTACTGAAGACAAACTGGAAAAATATGGTGCGGAAGTGATTTCAGTATTACAGAAATACTCTGAATGGACATCGCCAGCTGAAGACAGTTCCCCAGGGATAAGCCTGTCCAGCAGCAGAGGCCCCGGAAGAAGTGCCGCTGAGGAGCTCGACGAGGAAATACCCGTATCTTCCCACTACTTTGCAAGTAAAACCAGAAATGAAAGGAAGAGGAAAAAGATGCCAGCCTCCCAAAGGTCTAAGAGGAGAAAAACTGCTTCCAGTGGTTCCAAGGCAAAGGGGGGGTCTGCCACATGTAGAAAGATATCTTCCAAAACGAAATCCTCCAGCATCATTGGATCCAGTTCAGCCTCACATACTTCTCAAGCGACATCAGGAGCCAATAGCAAATTGGGGATTATGGCTCCACCGAAGCCTATAAATAGACCGTTTCTTAAGCCTTCATATGCATTCTCATAACAACCGAATCTCAATGTACATAGACCCTCTTTCTTGTTTGTCAGCATCTGACCATCTGTGACTATAAAGCTGTTATTCTTGTTATACCATTTGAAGTTTTTACTCGTCTCTATTAATATTTAAATAAATGCTGGGGGGTGATAGTTCTTCTTTTTAAAATAAACATTTTCTTTTGAATAAGCA
>gi|544711233|ref|NM_001282931.1| Homo sapiens chromosome 19 open reading frame 12 (C19orf12), transcript variant 7, mRNA
GTGATCATGCGTGCGCGTGGGAGAAAGGCAGGGCTGGGCCTGCGGGAGCGCGGCCTTGCGGTTCCCAGGACTCTTCTCCGGGCGCCTCGTCTCCTTACGCCACCCGCAACCCAAGCCAGGGCCCCGGTGACAGCGGCGGGGTGGGCCAGGACCGGGGAGGGGGTGCCCAGCAGCGACCCCCGGCTCCCCCTAAGGCCGGGCGCAGCTCGGAGCCAGGAGCTGGCCCGGCGCGTGGCTTCCCGGAAGGCCCGGCGCAGCCGGAAGGTGGGACGGAGGGCGGGGCCAGCGCCGGGGCCGCCACCAAGGCCTGCGCGACCCTCCGCGGGGCTGGGGAGCTGGGCGGGGAGCCCGGGGCCTGCCAGGCCCGGGCTGCAGCCGCGTCTGATCGCCGAGCGCGCCGCGTAGACCTCCGCTCCCCCAGGCCCGCCACGATGACTATCATGGTGGAGGACATCATGAAGCTGCTGTGCTCCCTTTCTGGGGAGAGGAAGATGAAGGCGGCTGTCAAGCACTCTGGGAAGGGTGCCCTGGTCACAGGGGCCATGGCCTTCGTCGGGGGTTTGGTGGGCGGCCCACCGGGACTCGCCGTTGGATCCAGTCTAAGACACCGCATTGCATTGAATCGCCTGCTTTCTTAGTCTCCTCTGGCCTTTAACACTTTCTCAGACTTGCCTTGTTCACAGCCTTGATAGTTTTGAGGAGTACTGGGCAGGGGGGGCTGTCGGGGGGCTGTTAGGTGCCTGGATGACAAGTGGACAGTTTAAGCCGGTTCCTCAGATCCTAATGGAGCTGCCCCCTGCCGAGCAACAGAGGCTCTTTAACGAAGCCGCAGCCATCATCAGGCACCTGGAGTGGACGGACGCCGTGCAGCTGACCGCGCTGGTCATGGGCAGCGAGGCCCTGCAGCAGCAGCTGCTGGCCATGCTGGTGAACTACGTCACCAAGGAGCTGCGGGCCGAGATCCAGTATGATGACTAGGCCGCACCTCCGGGGAGGTGGGGGGCCCCTTTAAATGACTCTGTGATTCTGAAGAGGTGGCTTGGGAGTTGGGAGAAGCCCAGCGGATGCCCCCTGGGGAATCTCCACATCATCAGTGTATTACTAGTAATGTCCCGCTGGAGAGGCCACCGCTGTGCAGTGTCATGTTCCAGAAATTACTGATGAAGCAGCATGTGTTGGTGGCATGTGCACTGGCCTGCCATGACAGCCCTCTGACTGGCCCCCCAGTGAAGAGTAAAGGCCTGCCTGCCGCAGGCTTCGGAGGCGTCTGCTGAGTCCTCTCACCCGCATGGGTCTGGGGAAGTGATCACGCTCAGCCGACGGTCTGACCACACTTCATCCTCCCCCCGGGGCCTTCTCATCTTGGGAGATGACTCCTCTTCAGAGCACCTGCTGCAGGACTGGATCCCACCCCCCTGCAGGTCCTGGGGTCTCAGGGCCTTGGAGCAGCCCATGCTGGAATCATGTTTACCTCCTAGTGCAACCGTCCCCTACCCAGGGACTGTCGAATGGCCCCACGGAGGGGACGGGCGGCCTGCTGAGTGAAGCCACAAATACCGAGTGGACTTGACCCCGGCCCCCACTAGGCTGCACACCTAGACTCGCCCTGCCAGGGCCTCGCTCTTCCCATCTGAAAAGTCCTGGTAGTTCTTGAGGTTTACTTCTCAAATGAAATATTTTTAGTAAAAAGTACAGGTATATCTCGGAGATATTGTGGGTTCAGTTCCAGACCACCTCGGTAAAGCCAACATCACAATAAAGCAAGGAAGCGCATTGTTTTAGTTTCCCAGTGCATCTAAGTCATGTTTACTGCATATTGCAGTCCACTAAATGTGCAATAGCATTATGTCTAACAAATGTACAAACCTTAATTTAAAAATATTTACTGTTCAAAATGCTGACACAGAAACGCAAAGTGAGCACATGCTGTTGGAAAATGGTGCCAAATAGACTTGCCTGATGCCAGGCTGCTACAAACCTTCAATTTAAAAAAAAAACACAGTATTCACAAAGCATAGTAGAATGAGGTATGCCTGTATTGCTCTTTCTGAAGTGGTGTGATATAAACCATCTCTAAGAAATGTTTCTACCCTAAAGATTTCCCCAGTACAGTCAGCTCTCCGTAACTGTGGTCTCCACATTTAGATCCAACCAGCCTTGGATAGGAAATATTTGAAAAAAGAAATTGCATTGGTACTGAACACGTACAGACCTTTTTTTCTTGCCATTATTCCCTAAACAATATGGTGTAGCATATTTACATAGCATTTATATTGTATTTGGTATTATAAGAAATCTAGAGATGATTTAAATTATACAGGAAGGTGTGCGTAGGTTACGTGCAAACGCTATGCCATTGCCCATCAGGGACTTGAGCATCCTCAGATGTCGGTGTCTGAGGGTTGAGGTTGCAGTCCTGGAACCCATCCCCCATGGATACTGAGGCATAGCTGTACTGTGTGTTTTCACTTTGCTTTCAGAACTACGACTTGAATGTGATCGATTACAATAAATGTTTTTCTAAAAAGCCATTTTCCCACATATTATGTGTAAAATATCTCTAATATTCAAAGTCTTACAAATGGAACAAGAGGGAAGGTACCAGATTTGTGGCTTTAAAGAATGCAAGAGTAGGTCAGGTGAGGTGGCTCATGCTTGTAATGTCGGCACTTTTGGAGGCCAAAGTGGGAGGATCGCTTGAGGCCAAGAGTTTGAAACTAGCCTGGGCAATATAGTGAGACCTCCATCTCTACAAAAAATGTTATTCCTTGGTCCCCAGGTCCTGGGGCAGGGCAGGGACTTGGGGCTCTCCTCTCAGGCCCTGGAGGCTCGGAGGGAGGCACTTCTGCTGAGGCCCTGCTTATAGGAAAGCTCAGTATCCTGGCACCTCCATGTGTGTAAGGACGTCAGGGTGAATTATAACCCATGGTGATTAAGGAAGGGCCGAGCCTTTCTCTTGCAGAGCGATTGCTCTTCTGCTGGCCTCGTCTAGCACAAATCAGGTGCCCTAGCACAGGCCACACTCCTGGAGTTAATGAAGCCACTTTAATCATTTATATGCCACTTAAGTTGATGGGGGACAGGGCAGGGGTGGGAAGGAGGGGTTGTCTGTCTGTGAAAACTGAGTGTGGCTTTTCTTGTTGAACTGATCATTCCTGCTCTTCCTGCAAATAAGTCCTGCATACGGACCCTGGAACTAAAAATGGAAAATCAGAGCATGCCCCCTCCCAATTTTGTATAGCTTTAGTGGGCTCTAAAGTTGCCCGTTTTTAGTGTGAAGGAAAAAACGTTGATTTGCAGATATCGTGAGAATGAAACCTCAACAAAGATGTTTGGTTCAGTGCTTCAAAGTTGGGGGACACTTTTTCCATGTTGAACAAATGCCAACTTCTCCGGTTGCTTACAGCAAATCCTTCTGGAACAATCGGGGCTGAAATTGAGTTGCCTTTGTTAGGCGATTGGGCCCCATTCATTCTTACTCGTGCATCAGGTCCTGGTCTGTGTCAGGCCCAGGGGACACAGGTGGTCCCAGCTCAGAGGCCCAGTGTCCACTGCAGCCCCTCCCACAGCCTGCCCACCCCTACTGCAGGGAAAAATGCCCAGGGAGGAGATGGTCCAACTCCTGATCAGTTTTGTGTCCGATGGAGCAGGCCTTGCTGAGTGAAGACACTGGAACTAGCTGGGTCCTGGGGTGACTTGGAGGCTTTGGGCCTAAAAGGGCAGCCTGAACCTGGAGTCTTATCTCCCCCAGGAGCCGAAAGCACTTTTCTTGATTTCCCCCAGGAAATCAAGCGCTGCTTCTCAGCTCCTGTGGTTTTAGTATTTATATATCTGTATCTTCTTTGTAGAAATTTATTTATTTTTGAATAAGTAATACCTGCCTGGTACAAAATTTAAAAGGTACGGGAGGGCGCAAGCTGCAAGGGAAGGCCTGCTCCTATGCCGACCCCAGAGGCAGCCACTGTTACCAATTTCATGTGTATTCCTTTAACTCTGTTTTAAAGTAAGTCTCTGAAAACTGTTCATTTCCTTTTGTCAGTATTTGTTGCTGAAAACCTAGAAAAACCCAGAAAATATAATGAAATAAAAACTACAAATTTCACAACCCAGAAAACTGCTGGTAACAGATTTGGTGTCTTTCCTGCAATTGTTTTAATGCTATGTAGGTACACATATATTTTTTTCTTTTTTTCTTTTTTTTTTTTTTGAGATGGAGTCTCGCACTGTCGCCCGGGCTGGAGTGCAGTAGCGCGATCTTGGTTCACTGCAAGCTCTGCCTCCTGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTTTGACTACAGTCGCCCGCCACCATGCCCGGCTAATTTTTATTTTTTTATTTTTTTTTTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCAATCTCCTTACCTCGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCCGGCCTATGTATGTATATTTCTAACGTACTTGCCTTCTTATCCTATATGCCCCTTTGAACACCTGTATCAATGAATGTTAAATAATATTTTTGATGTAATTTAAAATTCCTTGTAAATATTTGTAATGGCTGCATAATATTCCACTGTGCCTAACCATGTGCCTGGTGTGAATTCCATTTGTGGATTTTTACTACTGTAATGCTGAAGTATTACAGTAATACTGTGTTAATATTCTCTTTATTGAATTCTGGTATATAGTCTTTGGGATTCATTCCTCAAAGTGAAATTGCTGGATTTAAAAGTA
>gi|544063459|ref|NM_006667.4| Homo sapiens progesterone receptor membrane component 1 (PGRMC1), transcript variant 1, mRNA
TCCCCGGCTAGTCTTTGGCCGCCGCCGAACCCCGCGCGCCACTCGCTCGCTCAGAGGGAGGAGAAAGTGGCGAGTTCCGGATCCCTGCCTAGCGCGGCCCAACCTTTACTCCAGAGATCATGGCTGCCGAGGATGTGGTGGCGACTGGCGCCGACCCAAGCGATCTGGAGAGCGGCGGGCTGCTGCATGAGATTTTCACGTCGCCGCTCAACCTGCTGCTGCTTGGCCTCTGCATCTTCCTGCTCTACAAGATCGTGCGCGGGGACCAGCCGGCGGCCAGCGGCGACAGCGACGACGACGAGCCGCCCCCTCTGCCCCGCCTCAAGCGGCGCGACTTCACCCCCGCCGAGCTGCGGCGCTTCGACGGCGTCCAGGACCCGCGCATACTCATGGCCATCAACGGCAAGGTGTTCGATGTGACCAAAGGCCGCAAATTCTACGGGCCCGAGGGGCCGTATGGGGTCTTTGCTGGAAGAGATGCATCCAGGGGCCTTGCCACATTTTGCCTGGATAAGGAAGCACTGAAGGATGAGTACGATGACCTTTCTGACCTCACTGCTGCCCAGCAGGAGACTCTGAGTGACTGGGAGTCTCAGTTCACTTTCAAGTATCATCACGTGGGCAAACTGCTGAAGGAGGGGGAGGAGCCCACTGTGTACTCAGATGAGGAAGAACCAAAAGATGAGAGTGCCCGGAAAAATGATTAAAGCATTCAGTGGAAGTATATCTATTTTTGTATTTTGCAAAATCATTTGTAACAGTCCACTCTGTCTTTAAAACATAGTGATTACAATATTTAGAAAGTTTTGAGCACTTGCTATAAGTTTTTTAATTAACATCACTAGTGACACTAATAAAATTAACTTCTTAGAATGCATGATGTGTTTGTGTGTCACAAATCCAGAAAGTGAACTGCAGTGCTGTAATACACATGTTAATACTGTTTTTCTTCTATCTGTAGTTAGTACAGGATGAATTTAAATGTGTTTTTCCTGAGAGACAAGGAAGACTTGGGTATTTCCCAAAACAGGTAAAAATCTTAAATGTGCACCAAGAGCAAAGGATCAACTTTTAGTCATGATGTTCTGTAAAGACAACAAATCCCTTTTTTTTTCTCAATTGACTTAACTGCATGATTTCTGTTTTATCTACCTCTAAAGCAAATCTGCAGTGTTCCAAAGACTTTGGTATGGATTAAGCGCTGTCCAGTAACAAAATGAAATCTCAAAACAGAGCTCAGCTGCAAAAAAGCATATTTTCTGTGTTTCTGGACTGCACTGTTGTCCTTGCCCTCACATAGACACTCAGACACCCTCACAAACACAGTAGTCTATAGTTAGGATTAAAATAGGATCTGAACATTCAAAAGAAAGCTTTGGAAAAAAAGAGCTGGCTGGCCTAAAAACCTAAATATATGATGAAGATTGTAGGACTGTCTTCCCAAGCCCCATGTTCATGGTGGGGCAATGGTTATTTGGTTATTTTACTCAATTGGTTACTCTCATTTGAAATGAGGGAGGGACATACAGAATAGGAACAGGTGTTTGCTCTCCTAAGAGCCTTCATGCACACCCCTGAACCACGAGGAAACAGTACAGTCGCTAGTCAAGTGGTTTTTAAAGTAAAGTATATTCATAAGGTAACAGTTATTCTGTTGTTATAAAACTATACCCACTGCAAAAGTAGTAGTCAAGTGTCTAGGTCTTTGATATTGCTCTTTTGGTTAACACTAAGCTTAAGTAGACTATACAGTTGTATGAATTTGTAAAAGTATATGAACACCTAGTGAGATTTCAAACTTGTAATTGTGGTTAAATAGTCATTGTATTTTCTTGTGAACTGTGTTTTATGATTTTACCTCAAATCAGAAAACAAAATGATGTGCTTTGGTCAGTTAATAAAAATGGTTTTACCCACTAAAAAAAAAAAAA
>gi|544063411|ref|NM_206915.2| Homo sapiens brain expressed X-linked 3 (BEX3), transcript variant 2, mRNA
ACCGAGAAGAGTGACAGGGCTGTGCGCTCTGGGGCACCTCATGCAGACGGGAGTAGGGAGGCTGTTTTTTGCGCGTGCATATGGCGGTGGCGGGTGGGGGGAAGGGGGAGATCCTGCTGCACTGGCCGCCCAAGTTGGGGGGCGAGCTCGGTGGTGACGCGCGGCCCTCACGTGACCCAGAGCTGCAGAGCGACGCAGCCTTCGGTGCAGTCGTCACTCGCGTCTGGCTACCAGCTCCCCGCTGCCCTGAGCTCGGCGGGCTGGCATTCGGCCCGGGGAAAAGCGGAGCAGGTCTGCGAGGCTAAGTGTCTCCGCGGCGCACCTCGCGGCGAGAATCCGGAGGAGAAGGAGACTGCAAGGATAGGCCCAGAAAAACAACCAGAAAAAAAAAATCTCATCATGGCAAATATTCACCAGGAAAACGAAGAGATGGAGCAGCCTATGCAGAATGGAGAGGAAGACCGCCCTTTGGGAGGAGGTGAAGGCCACCAGCCTGCAGGAAATCGACGGGGACAGGCTCGCCGACTTGCCCCTAATTTTCGATGGGCCATACCCAATAGGCAGATCAATGATGGGATGGGTGGAGATGGAGATGATATGGAAATATTCATGGAGGAGATGAGAGAAATCAGAAGAAAACTTAGGGAGCTGCAGTTGAGGAATTGTCTGCGTATCCTTATGGGGGAGCTCTCTAATCACCATGACCATCATGATGAATTTTGCCTTATGCCTTGACTCCTGCCATTTATCATGAGATTAATACTGTGATTCCCGCTGTTTTCTTTTTCCTTGCATTTTCCTAATATGCCTTTACTGATCCGTTTGCTGTGAACCCTATGTTATTTCCATGTGTCAAGTGGGTCTTGTGTTGCCAGCTTCTATTTGAAGATTGCCTTTGCACTCAGTGTAAGTTTCTGTCAGCAGTAGTTTCACCCATTTGCATGGAAAAATTTAAAGCTAATAAAGCAATTTAAAAAGCAATCTATACATTTATTGTCTCATTAAAAATGTATACTTACATATAACAGATGAACTAAAAAAAAATCTGAGATTAAATACACTAGAGTGTTAA
>gi|538260593|ref|NM_001282383.1| Homo sapiens pituitary tumor-transforming 1 (PTTG1), transcript variant 3, mRNA
CGCGGGTGGTTAGTTGAGCCGGCTCCGGCGGGGAAGGAGGCGGGCTGCGGCTGCGGCTGGGGCTGAAGCTGGGGCTGGGGTTGGGGGACTGCCCGGGGCTTAGATGGCTCCGAGCCCGTTTGAGCGTGGTCTCGGACTGCTAACTGGACCAACGGCAACTGTCTGATGAGTGCCAGCCCCAAACCGCGCGCTGCTCGGGACCTTAGAGCCTCTGACTCAGGCTGGAAGATTTGAGAGCTGGATTAAAATAATCCAGAATGGCTACTCTGATCTATGTTGATAAGGAAAATGGAGAACCAGGCACCCGTGTGGTTGCTAAGGATGGGCTGAAGCTGGGGTCTGGACCTTCAATCAAAGCCTTAGATGGGAGATCTCAAGTTTCAACACCACGTTTTGGCAAAACGTTCGATGCCCCACCAGCCTTACCTAAAGCTACTAGAAAGGCTTTGGGAACTGTCAACAGAGCTACAGAAAAGTCTGTAAAGACCAAGGGACCCCTCAAACAAAAACAGCCAAGCTTTTCTGCCAAAAAGATGACTGAGAAGACTGTTAAAGCAAAAAGCTCTGTTCCTGCCTCAGATGATGCCTATCCAGAAATAGAAAAATTCTTTCCCTTCAATCCTCTAGACTTTGAGAGTTTTGACCTGCCTGAAGAGCACCAGATTGCGCACCTCCCCTTGAGTGGAGTGCCTCTCATGATCCTTGACGAGGAGAGAGAGCTTGAAAAGCTGTTTCAGCTGGGCCCCCCTTCACCTGTGAAGATGCCCTCTCCACCATGGGAATCCAATCTGTTGCAGTCTCCTTCAAGCATTCTGTCGACCCTGGATGTTGAATTGCCACCTGTTTGCTGTGACATAGATATTTAAATTTCTTAGTGCTTCAGAGTTTGTGTGTATTTGTATTAATAAAGCATTCTTTAACAGATTCTTAAAAAAAAAAAAAAAAAA
>gi|538260591|ref|NM_001282382.1| Homo sapiens pituitary tumor-transforming 1 (PTTG1), transcript variant 1, mRNA
CGCGGGTGGTTAGTTGAGCCGGCTCCGGCGGGGAAGGAGGCGGGCTGCGGCTGCGGCTGGGGCTGAAGCTGGGGCTGGGGTTGGGGGACTGCCCGGGGCTTAGATGGCTCCGAGCCCGTTTGAGCGTGGTCTCGGACTGCTAACTGGACCAACGGCAACTGTCTGATGAGTGCCAGCCCCAAACCGCGCGCTGCTCGGGACCTTAGAGCCTCTGACTCAGGCTGGAAGATTTGAGAGCTGGATTAAGTACTTGTTGGCTCACGCCCGTGACTGTTCCGCTGTTTAGCTCTTGTTTTTTGTGTGGACACTCCTAGGATAGAAAGTTTGGTATGTTGCTATACCTTTGCTTCTCCCACCTTCCCCAATATCTAATATGTATTTCTCATTCTTAGAATAATCCAGAATGGCTACTCTGATCTATGTTGATAAGGAAAATGGAGAACCAGGCACCCGTGTGGTTGCTAAGGATGGGCTGAAGCTGGGGTCTGGACCTTCAATCAAAGCCTTAGATGGGAGATCTCAAGTTTCAACACCACGTTTTGGCAAAACGTTCGATGCCCCACCAGCCTTACCTAAAGCTACTAGAAAGGCTTTGGGAACTGTCAACAGAGCTACAGAAAAGTCTGTAAAGACCAAGGGACCCCTCAAACAAAAACAGCCAAGCTTTTCTGCCAAAAAGATGACTGAGAAGACTGTTAAAGCAAAAAGCTCTGTTCCTGCCTCAGATGATGCCTATCCAGAAATAGAAAAATTCTTTCCCTTCAATCCTCTAGACTTTGAGAGTTTTGACCTGCCTGAAGAGCACCAGATTGCGCACCTCCCCTTGAGTGGAGTGCCTCTCATGATCCTTGACGAGGAGAGAGAGCTTGAAAAGCTGTTTCAGCTGGGCCCCCCTTCACCTGTGAAGATGCCCTCTCCACCATGGGAATCCAATCTGTTGCAGTCTCCTTCAAGCATTCTGTCGACCCTGGATGTTGAATTGCCACCTGTTTGCTGTGACATAGATATTTAAATTTCTTAGTGCTTCAGAGTTTGTGTGTATTTGTATTAATAAAGCATTCTTTAACAGATTCTTAAAAAAAAAAAAAAAAAA
>gi|532691751|ref|NM_001282224.1| Homo sapiens ATPase copper transporting alpha (ATP7A), transcript variant 2, mRNA
CCGCCGCGGCGGGGGGTGGGAAAAGAGAAGCAGAGGGAGGAGTTGTTGCTGCCGCCGCCGCAGCCGCAGCTACTGTGACTTCTCCGATTGTGTGAGCTTTGTTGGAGCCTGCGTACGTGGATTTATCGCTGCCACGGTCTGCGTAGCTCCAGAGGTTTAACCATAGGATAGAGAAACCAGGAATGTAATGAGGAAATCAAAATGGATCCAAGTATGGGTGTGAATTCTGTTACCATTTCTGTTGAGGGTATGACTTGCAATTCCTGTGTTTGGACCATTGAGCAGCAGATTGGAAAAGTGAATGGTGTGCATCACATTAAGGTATCACTGGAAGAAAAAAATGCAACTATTATTTATGACCCTAAACTACAGACTCCAAAGACCCTACAGGAAGCTATTGATGACATGGGCTTTGATGCTGTTATCCATAATCCTGACCCTCTCCCTGTTTTAACTGACACCTTGTTTCTGACTGTTACGGCGTCACTGACTTTGCCATGGGACCATATCCAAAGCACATTGCTGAAGACCAAGGGTGTGACAGACATTAAAATTTACCCTCAGAAAAGAACTGTAGCAGTGACAATAATCCCTTCTATAGTGAATGCCAATCAGATAAAAGAGCTGGTTCCAGAACTCAGTTTAGATACTGGGACACTGGAGAAAAAGTCAGGAGCTTGTGAAGATCATAGTATGGCTCAAGCTGGTGAAGTCGTGCTGAAGATGAAAGTGGAAGGGATGACCTGCCATTCATGTACTAGCACTATTGAAGGAAAAATTGGGAAACTGCAAGGTGTTCAGCGAATTAAAGTCTCCCTGGACAATCAAGAAGCTACTATTGTTTATCAACCTCATCTTATCTCAGTAGAGGAAATGAAAAAGCAGATTGAAGCTATGGGCTTTCCAGCATTTGTCAAAAAGCAGCCCAAGTACCTCAAATTGGGAGCTATTGATGTAGAACGTCTAAAGAACACACCAGTTAAATCCTCAGAAGGGTCACAGCAAAGGAGTCCATCATATACCAATGATTCAACAGCCACTTTCATCATTGATGGCATGCATTGTAAATCATGTGTGTCAAATATTGAAAGTACTTTATCTGCACTCCAATATGTAAGCAGCATAGTAGTTTCTTTAGAGAATAGGTCTGCCATTGTGAAGTATAATGCAAGCTCAGTCACTCCAGAATCCCTGAGAAAAGCAATAGAGGCTGTATCACCGGGGCTATATAGAGTTAGTATCACAAGTGAAGTTGAGAGTACCTCAAACTCTCCCTCCAGCTCATCTCTTCAGAAGATTCCTTTGAATGTAGTTAGCCAGCCTCTGACACAAGAAACTGTGATAAACATTGATGGCATGACTTGTAATTCCTGTGTGCAGTCTATTGAGGGTGTCATATCAAAAAAGCCAGGTGTAAAATCCATACGAGTCTCCCTTGCAAATAGCAATGGGACTGTTGAGTATGATCCTCTACTAACCTCTCCAGAAACGTTGAGAGGAGCAATAGAAGACATGGGATTTGATGCTACCTTGTCAGACACGAATGAGCCGTTGGTAGTAATAGCTCAGCCTTCATCGGAAATGCCGCTTTTGACTTCAACTAATGAATTTTATACTAAAGGGATGACACCAGTTCAAGACAAGGAGGAAGGAAAGAATTCATCTAAGTGTTACATACAGGTCACTGGCATGACTTGCGCTTCCTGTGTAGCAAACATTGAACGGAATTTAAGGCGGGAAGAAGGAATATATTCTATACTTGTGGCCCTGATGGCTGGCAAGGCAGAAGTAAGGTATAATCCTGCTGTTATACAACCCCCAATGATAGCAGAGTTCATCCGAGAACTTGGATTTGGAGCCACTGTGATAGAAAATGCTGATGAAGGAGATGGTGTTTTGGAACTTGTTGTGAGGGGAATGACGTGTGCCTCCTGCGTACATAAAATAGAGTCTAGTCTCACAAAACACAGAGGGATCCTATACTGCTCCGTGGCCCTGGCAACCAACAAAGCACATATTAAATATGACCCAGAAATTATTGGTCCTAGAGATATTATCCATACAATTGAAAGCTTAGGTTTTGAAGCTTCTTTGGTCAAGAAGGATCGGTCAGCAAGTCACTTAGATCATAAACGAGAAATAAGACAATGGAGACGGTCTTTTCTTGTGAGTCTGTTTTTCTGTATTCCTGTAATGGGGCTGATGATATATATGATGGTTATGGACCACCACTTTGCAACTCTTCACCATAATCAAAACATGAGTAAAGAAGAAATGATCAACCTTCATTCTTCTATGTTCCTGGAGCGCCAGATTCTTCCAGGATTGTCTGTTATGAATTTGCTGTCCTTTTTATTGTGTGTACCTGTACAGGGCAAAACATCAGAGGCTCTTGCAAAGTTAATTTCACTACAAGCTACAGAAGCAACTATTGTAACTCTTGATTCTGATAATATCCTCCTCAGTGAAGAACAAGTGGATGTGGAACTTGTACAACGTGGAGATATCATTAAAGTAGTTCCAGGAGGCAAATTTCCAGTGGATGGTCGTGTTATTGAAGGACATTCTATGGTAGATGAGTCCCTCATCACAGGGGAGGCAATGCCTGTGGCTAAGAAACCTGGCAGCACAGTGATTGCTGGTTCCATTAACCAGAACGGGTCACTGCTTATCTGCGCAACACATGTTGGAGCAGACACAACCCTTTCTCAAATTGTCAAACTTGTGGAAGAGGCACAAACATCAAAGGCTCCTATCCAGCAGTTTGCAGACAAACTCAGTGGCTATTTTGTTCCTTTTATTGTTTTTGTTTCCATTGCCACCCTCTTGGTATGGATTGTAATTGGATTTCTGAATTTTGAAATTGTGGAAACCTACTTTCCTGGCTACAATAGAAGTATCTCCCGAACAGAAACGATAATACGATTTGCTTTCCAAGCCTCTATCACAGTTCTGTGTATTGCATGTCCCTGTTCACTGGGACTGGCCACTCCAACTGCTGTGATGGTGGGTACAGGAGTAGGTGCTCAAAATGGCATACTAATAAAAGGTGGAGAGCCATTGGAGATGGCTCATAAGGTAAAGGTAGTGGTATTTGATAAGACTGGAACCATTACTCACGGAACCCCAGTGGTGAATCAAGTAAAGGTTCTAACTGAAAGTAACAGAATATCACACCATAAAATCTTGGCCATTGTGGGAACTGCTGAAAGTAACAGTGAACACCCTCTAGGAACAGCCATAACCAAATATTGCAAACAGGAGCTGGACACTGAAACCTTGGGTACCTGCATAGATTTCCAGGTTGTGCCAGGCTGTGGTATTAGCTGTAAAGTCACCAATATTGAAGGCTTGCTACATAAGAATAACTGGAATATAGAGGACAATAATATTAAAAATGCATCCCTGGTTCAAATTGATGCCAGTAATGAACAGTCATCAACTTCGTCTTCCATGATTATTGATGCCCAGATCTCAAATGCTCTTAATGCTCAGCAGTATAAAGTCCTCATTGGTAACCGGGAGTGGATGATTAGAAATGGTCTTGTCATTAATAACGATGTAAATGATTTCATGACTGAACATGAGAGAAAAGGTCGGACTGCTGTATTAGTAGCAGTTGATGATGAGCTGTGTGGCTTGATAGCCATTGCAGACACAGTGAAGCCTGAAGCAGAACTGGCTATCCATATTCTGAAATCTATGGGCTTAGAAGTAGTTCTGATGACTGGAGACAACAGTAAAACAGCTAGATCTATTGCTTCTCAGGTTGGCATTACTAAGGTGTTTGCTGAAGTTCTACCTTCTCACAAGGTTGCTAAAGTGAAGCAACTTCAAGAGGAGGGGAAACGGGTAGCAATGGTGGGAGATGGAATCAATGACTCCCCAGCTCTGGCAATGGCTAATGTGGGAATTGCTATTGGCACAGGCACAGATGTAGCCATTGAAGCAGCTGATGTGGTTTTGATAAGGAATGATCTTCTGGATGTAGTGGCAAGTATTGACTTATCAAGAAAGACAGTCAAGAGGATTCGGATAAATTTTGTCTTTGCTCTAATTTATAATCTGGTTGGAATTCCCATAGCTGCTGGAGTTTTTATGCCCATTGGTTTGGTTTTGCAGCCCTGGATGGGATCTGCAGCAATGGCTGCTTCATCTGTTTCTGTAGTACTTTCTTCTCTCTTCCTTAAACTTTACAGGAAACCAACTTACGAGAGTTATGAACTGCCTGCCCGGAGCCAGATAGGACAGAAGAGTCCTTCAGAAATCAGCGTTCATGTTGGAATAGATGATACCTCAAGGAATTCTCCTAAACTGGGTTTGCTGGACCGGATTGTTAATTATAGCAGAGCCTCTATAAACTCACTACTGTCTGATAAACGCTCCCTAAACAGTGTTGTTACCAGTGAACCTGACAAGCACTCACTCCTGGTGGGAGACTTCAGGGAAGATGATGACACTGCATTATAAAAGGCCATGGAGAGTGCTGCCAGTTTAACTTGTCATGCACTGACACAGCATTCATGATGTTACCTTCACTTTTCAAAATATTGTAGAAGGATTTTTCTCATGCTCTTATATTAGGGATTCTATTTGAGTTGCGTTTATCTGTTGGCAAAAATATCTTTTTCAAGGCATCAGCTCTGAACCTAGCTTTATTTAAACTGAATTTCCAGTATATTTTTGTTTTCACTAACAACAGATAAGGTAGAGCAGTGAGGTTTACAACAAGCCCTACAATTAGAGATTGCTGAACTGCTGCTAAAGTGATTTTTTTTTTATTTGACCAAAAAAAAAAAGGCCCAAGAAGAAGAAAATGAAAAATTTGAAGATTTGAGAGCATGAAGATATTCATGCTTTTGAACTCAAAATATTGAAGATACTCTCAAGCCTGTATCCCTGCCCCACTGGGGAGCAATGACTTTCAAAGCACTGTGTATAAAACATCTAGTTTTAGAAGGGAAACAGTTGAAACTGTTTAAAAATAGATGTGCCTTATTTATTGCAGGCTTTCTTTCCCCCATTCTCCCTGCATCCTTGTCCTTGCAGGTGCTTTTTTAGATGCTCCAATATGTCTTCTTTTGTTATTTTCTTTCGAGCTAACCAAGTTTAGGTGGTTTTTCATTGATTAAAAATAACTGACAACTGTTCTAATATTTTGCTCCTTTTTAAATTTTGTAGCTCAAAAGACCTTAAAGGTCTGTAGGGTTCCCTGCCTCCCATCTTTCCACTGTTGTAAAAAGTATATCAAATTATTCCTTCAAGTTTCCTAGCTCTGTGCTCAGTTTCAGTTCACTCCTGCCAAGTTGGACTCTAAGTTATTCTTCATGTAGTCTGCTGATCTCAGTCTGGAAACTTAACATTATGAGCCTTTTCTGCTCAAAAAATTTTCAAAGATTAAAACTATTATACATATACAGGTCATATAAAATTACCTGGATTCACTAAATTTGTTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGAGACAGAGTCTTGTTTTGCAGCCCAGGCTGGAGTGCAGTGGCACCATCTTGGCTCACTGCAACCTCTGCCTACCGGATTCAAGGAATTCTCCCTGCCTCAGCCTCCTGAGTAGCTAGGATTACAGGTGCCTGCCACCACACCCGGCTAATTTTCATATTTTTCAGTAGAGACGGGGTTTCGCCATGTTGGCTAGCCTGGTCTTAAACTCCTAACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCTCCATGCCCAGCCTAAATTTGTATTTTTTGAATTGAGTATAATCACTTTGCTAGTATATATAATTTAATAGATTTTATTTATCTTTTAGTGTTTCAGATAACCTCTCAAAAAGACTTTAAAATAATGCTATTACACAAAGCTGCATTTACCAAAAAATACAGTAAAATCATAATACAGAAACTAAAATTTCCCTAGGTTATGACGCTTTTTAGCTAAATATATACTCTTCTCTAGTTTAAAACATTTGAACTTGCCTAGTTAGTGTGGTTGGCAAATTTAGGAGCTTGTTCCCATTGCCAAATGGATTTAGAAATTCCCTTGTGAGTGCCTGGTAGCTAATACACTGGTCAGAGATCTGGTACTTGTAAGACTATTTAAATTTCTTTGTTAGTTGCAAGATGGATTTCATATGCAGAATATGTAAATGAAGAGGACTCATAAGTAAATTCCTAACATTTTGTTCCCATTACCAGAAGCAAAGCTGCTGCTAACCCAACATCTGGCACATAGGATTTGTACTCGGTAAATGTTAGTTCTTTTCTCCCCTTGAGGTCAGTAATAAATACAAAAAAATCATTTTTCTAGAGCAGAGTCTTAAAATCAGGTGGGGGTAGGGGATGGAGTTCTTCCTTTCCTACCCCTTTTCTCTTTTATCCTTTCATATATACACATGCAAAGTTTACAACCTTATTCCATGCTGTCTTTCAGATTTAGAAAAGATCTAATTTCTGTCTCAGCTGTCTTAAAGAGAGAACTGAAGCTTTTGATGAAGGTGCTATTAATCTAGAAAGGCAAACCCATTTCACTGAAATATCAATGGGTTTGCATATCTAGGCCCTTTTTTTAGACCAATGCCTATGCCATCCTCCATGCTTTCAGTTTGAGTTTTATTATTTATTATTTTAATTCCAGTGGCCCATCTTATAATACAACTTGTTTCTTCTAGAAGACAGAGCTGATAGGGTAAATGTTGAAAAAAGAAGCATGCCTCCTTCTCCCTCCCACCCACCTCAAGCAGTTGAACACAGCCAGTTATTCTTCCATTATTATGTGTACCTTGGAGTCATCCTCTTGGTCTTGTATTCATATTGTGGGACAGTGGGAATAGCAGCTTGTAGTATTGAAATAATCAAAGAGATAATTTCAGCTCTTACAACAAGAACAGAAAACATGCTAATTAGAAAAAGTCCTGCTTTAAGTAATATGTAGCCACATTTGAATCCTCTACCACAAGTCTTTTTTGCAATCTTGAACTTTCATTAGCTTCAAAGAGAAGCTGTATTTACAGGAGAAAGAGGTGATTATGGAGGGAATCAAAAATACTGCTTTCAGTTAGTAGCTAGCTTTAAGTCAGGAGTTAGTAATGAGAAATTTTATAAATGTGTATTTCTGTGTATTCACATACATATATATATACACACATATATATGTACATACACATACATACATATTACCATACTGAAGGGAAATGGATTTATATTTGAATTTGATATTTGAATATTTGAAGTTCTCTATTTATATTTCATTTATCACTCTTCTGTATTCACTCAGCAACCATGCCCTTAGTCTGAAGATAACAAGGATACTTTAATATCCAGTGCCGGTTCAGACTCACCTATGTGGCACCTTAAACTTAAATATCCAAAGATGCCTTTTGAATTTCAAAGATTAAAACACAGCTAGAGTAGTAGTATTGTAGTCTCAAGATGTATGGTGTGTCATTTGTGAAAATAGAAACGTTATTTTTCCTAGTTTAGTATCAACATTTTAGAATGTCAAATTTGATGCCTTGTGAACAAGTAATTTTATATTGTGCTTTAATTTTTTAAAAAGTATTCTTTATTCATATGTATAGAATGCTTAAAATAGCACTGTAGACAAGATGTTTCCAAAACTTTAAGTGCGCATATCTTTTCTGTATACAGCTTAAAATCAAAAATGTATGTTAAGAGAATTTTTTCTATTACTTATGGATCATGCTTTAAAATGATTTTTCTTGATATTTATTTTACTCCATTTTGTTTTTTTCTCTGGGTGAGGCATCTGGTTACTGGTTATTTTAAAAAGAATAAAGACATTCCTGGAATCACTCCTTTTGGGTTTTTGTTTGTTTTGTTTCTTTTCTACATTTTTAAGTATTATTTTACAAAATAGAAAAAATATAGATTCATGCCAAATTATTACCTATTTTTACACTAACTTTCTGCAGTCCCTCCATCTGGTATGAGTAACCAGATAGAGCACAAAGCATGAGTTCTTGTTCTTCAGTTAAAAGAGCTTCTTTCACAGTGTTGATAACAAATGCCTTTTGTAGCCAAAACCAGGCGTCTCAACCTTACGTTTTTAGTTAAAGAAATGTTTAGCTAAACGTTGTTGAACATTGATTGTTTGGTACCGAAAACAGCAGTGGACGATGTTGTGCAATATCCATCTACTGTAGTTAAGATATTCAGTAGTTTGTTTTTCATAAGCATGTAATTGATCATATTTCTGCCAAGGATGTGCCTTCAACTTTATAATTATAGTGTTGTAAAATAAAAAAAAAAAA
>gi|532691749|ref|NM_000052.6| Homo sapiens ATPase copper transporting alpha (ATP7A), transcript variant 1, mRNA
CCGCCGCGGCGGGGGGTGGGAAAAGAGAAGCAGAGGGAGGAGTTGTTGCTGCCGCCGCCGCAGCCGCAGCTACTGTGACTTCTCCGATTGTGTGAGCTTTGTTGGAGCCTGCGTACGTGGATTTATCGCTGCCACGGTCTGCGTAGCTCCAGAGGTTTAACCATAGGATAGAGAAACCAGGAATGTAATGAGGAAATCAAAATGGATCCAAGTATGGGTGTGAATTCTGTTACCATTTCTGTTGAGGGTATGACTTGCAATTCCTGTGTTTGGACCATTGAGCAGCAGATTGGAAAAGTGAATGGTGTGCATCACATTAAGGTATCACTGGAAGAAAAAAATGCAACTATTATTTATGACCCTAAACTACAGACTCCAAAGACCCTACAGGAAGCTATTGATGACATGGGCTTTGATGCTGTTATCCATAATCCTGACCCTCTCCCTGTTTTAACTGACACCTTGTTTCTGACTGTTACGGCGTCACTGACTTTGCCATGGGACCATATCCAAAGCACATTGCTGAAGACCAAGGGTGTGACAGACATTAAAATTTACCCTCAGAAAAGAACTGTAGCAGTGACAATAATCCCTTCTATAGTGAATGCCAATCAGATAAAAGAGCTGGTTCCAGAACTCAGTTTAGATACTGGGACACTGGAGAAAAAGTCAGGAGCTTGTGAAGATCATAGTATGGCTCAAGCTGGTGAAGTCGTGCTGAAGATGAAAGTGGAAGGGATGACCTGCCATTCATGTACTAGCACTATTGAAGGAAAAATTGGGAAACTGCAAGGTGTTCAGCGAATTAAAGTCTCCCTGGACAATCAAGAAGCTACTATTGTTTATCAACCTCATCTTATCTCAGTAGAGGAAATGAAAAAGCAGATTGAAGCTATGGGCTTTCCAGCATTTGTCAAAAAGCAGCCCAAGTACCTCAAATTGGGAGCTATTGATGTAGAACGTCTAAAGAACACACCAGTTAAATCCTCAGAAGGGTCACAGCAAAGGAGTCCATCATATACCAATGATTCAACAGCCACTTTCATCATTGATGGCATGCATTGTAAATCATGTGTGTCAAATATTGAAAGTACTTTATCTGCACTCCAATATGTAAGCAGCATAGTAGTTTCTTTAGAGAATAGGTCTGCCATTGTGAAGTATAATGCAAGCTCAGTCACTCCAGAATCCCTGAGAAAAGCAATAGAGGCTGTATCACCGGGGCTATATAGAGTTAGTATCACAAGTGAAGTTGAGAGTACCTCAAACTCTCCCTCCAGCTCATCTCTTCAGAAGATTCCTTTGAATGTAGTTAGCCAGCCTCTGACACAAGAAACTGTGATAAACATTGATGGCATGACTTGTAATTCCTGTGTGCAGTCTATTGAGGGTGTCATATCAAAAAAGCCAGGTGTAAAATCCATACGAGTCTCCCTTGCAAATAGCAATGGGACTGTTGAGTATGATCCTCTACTAACCTCTCCAGAAACGTTGAGAGGAGCAATAGAAGACATGGGATTTGATGCTACCTTGTCAGACACGAATGAGCCGTTGGTAGTAATAGCTCAGCCTTCATCGGAAATGCCGCTTTTGACTTCAACTAATGAATTTTATACTAAAGGGATGACACCAGTTCAAGACAAGGAGGAAGGAAAGAATTCATCTAAGTGTTACATACAGGTCACTGGCATGACTTGCGCTTCCTGTGTAGCAAACATTGAACGGAATTTAAGGCGGGAAGAAGGAATATATTCTATACTTGTGGCCCTGATGGCTGGCAAGGCAGAAGTAAGGTATAATCCTGCTGTTATACAACCCCCAATGATAGCAGAGTTCATCCGAGAACTTGGATTTGGAGCCACTGTGATAGAAAATGCTGATGAAGGAGATGGTGTTTTGGAACTTGTTGTGAGGGGAATGACGTGTGCCTCCTGCGTACATAAAATAGAGTCTAGTCTCACAAAACACAGAGGGATCCTATACTGCTCCGTGGCCCTGGCAACCAACAAAGCACATATTAAATATGACCCAGAAATTATTGGTCCTAGAGATATTATCCATACAATTGAAAGCTTAGGTTTTGAAGCTTCTTTGGTCAAGAAGGATCGGTCAGCAAGTCACTTAGATCATAAACGAGAAATAAGACAATGGAGACGGTCTTTTCTTGTGAGTCTGTTTTTCTGTATTCCTGTAATGGGGCTGATGATATATATGATGGTTATGGACCACCACTTTGCAACTCTTCACCATAATCAAAACATGAGTAAAGAAGAAATGATCAACCTTCATTCTTCTATGTTCCTGGAGCGCCAGATTCTTCCAGGATTGTCTGTTATGAATTTGCTGTCCTTTTTATTGTGTGTACCTGTACAGTTTTTCGGAGGCTGGTACTTCTACATTCAGGCTTATAAAGCACTGAAGCATAAGACAGCAAATATGGACGTACTGATTGTGCTGGCAACCACCATTGCATTTGCCTACTCTTTGATTATTCTTCTAGTTGCAATGTATGAGAGAGCCAAAGTGAACCCTATTACTTTCTTTGACACACCCCCTATGCTGTTTGTGTTTATTGCACTAGGCCGATGGCTGGAACATATAGCAAAGGGCAAAACATCAGAGGCTCTTGCAAAGTTAATTTCACTACAAGCTACAGAAGCAACTATTGTAACTCTTGATTCTGATAATATCCTCCTCAGTGAAGAACAAGTGGATGTGGAACTTGTACAACGTGGAGATATCATTAAAGTAGTTCCAGGAGGCAAATTTCCAGTGGATGGTCGTGTTATTGAAGGACATTCTATGGTAGATGAGTCCCTCATCACAGGGGAGGCAATGCCTGTGGCTAAGAAACCTGGCAGCACAGTGATTGCTGGTTCCATTAACCAGAACGGGTCACTGCTTATCTGCGCAACACATGTTGGAGCAGACACAACCCTTTCTCAAATTGTCAAACTTGTGGAAGAGGCACAAACATCAAAGGCTCCTATCCAGCAGTTTGCAGACAAACTCAGTGGCTATTTTGTTCCTTTTATTGTTTTTGTTTCCATTGCCACCCTCTTGGTATGGATTGTAATTGGATTTCTGAATTTTGAAATTGTGGAAACCTACTTTCCTGGCTACAATAGAAGTATCTCCCGAACAGAAACGATAATACGATTTGCTTTCCAAGCCTCTATCACAGTTCTGTGTATTGCATGTCCCTGTTCACTGGGACTGGCCACTCCAACTGCTGTGATGGTGGGTACAGGAGTAGGTGCTCAAAATGGCATACTAATAAAAGGTGGAGAGCCATTGGAGATGGCTCATAAGGTAAAGGTAGTGGTATTTGATAAGACTGGAACCATTACTCACGGAACCCCAGTGGTGAATCAAGTAAAGGTTCTAACTGAAAGTAACAGAATATCACACCATAAAATCTTGGCCATTGTGGGAACTGCTGAAAGTAACAGTGAACACCCTCTAGGAACAGCCATAACCAAATATTGCAAACAGGAGCTGGACACTGAAACCTTGGGTACCTGCATAGATTTCCAGGTTGTGCCAGGCTGTGGTATTAGCTGTAAAGTCACCAATATTGAAGGCTTGCTACATAAGAATAACTGGAATATAGAGGACAATAATATTAAAAATGCATCCCTGGTTCAAATTGATGCCAGTAATGAACAGTCATCAACTTCGTCTTCCATGATTATTGATGCCCAGATCTCAAATGCTCTTAATGCTCAGCAGTATAAAGTCCTCATTGGTAACCGGGAGTGGATGATTAGAAATGGTCTTGTCATTAATAACGATGTAAATGATTTCATGACTGAACATGAGAGAAAAGGTCGGACTGCTGTATTAGTAGCAGTTGATGATGAGCTGTGTGGCTTGATAGCCATTGCAGACACAGTGAAGCCTGAAGCAGAACTGGCTATCCATATTCTGAAATCTATGGGCTTAGAAGTAGTTCTGATGACTGGAGACAACAGTAAAACAGCTAGATCTATTGCTTCTCAGGTTGGCATTACTAAGGTGTTTGCTGAAGTTCTACCTTCTCACAAGGTTGCTAAAGTGAAGCAACTTCAAGAGGAGGGGAAACGGGTAGCAATGGTGGGAGATGGAATCAATGACTCCCCAGCTCTGGCAATGGCTAATGTGGGAATTGCTATTGGCACAGGCACAGATGTAGCCATTGAAGCAGCTGATGTGGTTTTGATAAGGAATGATCTTCTGGATGTAGTGGCAAGTATTGACTTATCAAGAAAGACAGTCAAGAGGATTCGGATAAATTTTGTCTTTGCTCTAATTTATAATCTGGTTGGAATTCCCATAGCTGCTGGAGTTTTTATGCCCATTGGTTTGGTTTTGCAGCCCTGGATGGGATCTGCAGCAATGGCTGCTTCATCTGTTTCTGTAGTACTTTCTTCTCTCTTCCTTAAACTTTACAGGAAACCAACTTACGAGAGTTATGAACTGCCTGCCCGGAGCCAGATAGGACAGAAGAGTCCTTCAGAAATCAGCGTTCATGTTGGAATAGATGATACCTCAAGGAATTCTCCTAAACTGGGTTTGCTGGACCGGATTGTTAATTATAGCAGAGCCTCTATAAACTCACTACTGTCTGATAAACGCTCCCTAAACAGTGTTGTTACCAGTGAACCTGACAAGCACTCACTCCTGGTGGGAGACTTCAGGGAAGATGATGACACTGCATTATAAAAGGCCATGGAGAGTGCTGCCAGTTTAACTTGTCATGCACTGACACAGCATTCATGATGTTACCTTCACTTTTCAAAATATTGTAGAAGGATTTTTCTCATGCTCTTATATTAGGGATTCTATTTGAGTTGCGTTTATCTGTTGGCAAAAATATCTTTTTCAAGGCATCAGCTCTGAACCTAGCTTTATTTAAACTGAATTTCCAGTATATTTTTGTTTTCACTAACAACAGATAAGGTAGAGCAGTGAGGTTTACAACAAGCCCTACAATTAGAGATTGCTGAACTGCTGCTAAAGTGATTTTTTTTTTATTTGACCAAAAAAAAAAAGGCCCAAGAAGAAGAAAATGAAAAATTTGAAGATTTGAGAGCATGAAGATATTCATGCTTTTGAACTCAAAATATTGAAGATACTCTCAAGCCTGTATCCCTGCCCCACTGGGGAGCAATGACTTTCAAAGCACTGTGTATAAAACATCTAGTTTTAGAAGGGAAACAGTTGAAACTGTTTAAAAATAGATGTGCCTTATTTATTGCAGGCTTTCTTTCCCCCATTCTCCCTGCATCCTTGTCCTTGCAGGTGCTTTTTTAGATGCTCCAATATGTCTTCTTTTGTTATTTTCTTTCGAGCTAACCAAGTTTAGGTGGTTTTTCATTGATTAAAAATAACTGACAACTGTTCTAATATTTTGCTCCTTTTTAAATTTTGTAGCTCAAAAGACCTTAAAGGTCTGTAGGGTTCCCTGCCTCCCATCTTTCCACTGTTGTAAAAAGTATATCAAATTATTCCTTCAAGTTTCCTAGCTCTGTGCTCAGTTTCAGTTCACTCCTGCCAAGTTGGACTCTAAGTTATTCTTCATGTAGTCTGCTGATCTCAGTCTGGAAACTTAACATTATGAGCCTTTTCTGCTCAAAAAATTTTCAAAGATTAAAACTATTATACATATACAGGTCATATAAAATTACCTGGATTCACTAAATTTGTTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGAGACAGAGTCTTGTTTTGCAGCCCAGGCTGGAGTGCAGTGGCACCATCTTGGCTCACTGCAACCTCTGCCTACCGGATTCAAGGAATTCTCCCTGCCTCAGCCTCCTGAGTAGCTAGGATTACAGGTGCCTGCCACCACACCCGGCTAATTTTCATATTTTTCAGTAGAGACGGGGTTTCGCCATGTTGGCTAGCCTGGTCTTAAACTCCTAACCTCAGGTGATCCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCTCCATGCCCAGCCTAAATTTGTATTTTTTGAATTGAGTATAATCACTTTGCTAGTATATATAATTTAATAGATTTTATTTATCTTTTAGTGTTTCAGATAACCTCTCAAAAAGACTTTAAAATAATGCTATTACACAAAGCTGCATTTACCAAAAAATACAGTAAAATCATAATACAGAAACTAAAATTTCCCTAGGTTATGACGCTTTTTAGCTAAATATATACTCTTCTCTAGTTTAAAACATTTGAACTTGCCTAGTTAGTGTGGTTGGCAAATTTAGGAGCTTGTTCCCATTGCCAAATGGATTTAGAAATTCCCTTGTGAGTGCCTGGTAGCTAATACACTGGTCAGAGATCTGGTACTTGTAAGACTATTTAAATTTCTTTGTTAGTTGCAAGATGGATTTCATATGCAGAATATGTAAATGAAGAGGACTCATAAGTAAATTCCTAACATTTTGTTCCCATTACCAGAAGCAAAGCTGCTGCTAACCCAACATCTGGCACATAGGATTTGTACTCGGTAAATGTTAGTTCTTTTCTCCCCTTGAGGTCAGTAATAAATACAAAAAAATCATTTTTCTAGAGCAGAGTCTTAAAATCAGGTGGGGGTAGGGGATGGAGTTCTTCCTTTCCTACCCCTTTTCTCTTTTATCCTTTCATATATACACATGCAAAGTTTACAACCTTATTCCATGCTGTCTTTCAGATTTAGAAAAGATCTAATTTCTGTCTCAGCTGTCTTAAAGAGAGAACTGAAGCTTTTGATGAAGGTGCTATTAATCTAGAAAGGCAAACCCATTTCACTGAAATATCAATGGGTTTGCATATCTAGGCCCTTTTTTTAGACCAATGCCTATGCCATCCTCCATGCTTTCAGTTTGAGTTTTATTATTTATTATTTTAATTCCAGTGGCCCATCTTATAATACAACTTGTTTCTTCTAGAAGACAGAGCTGATAGGGTAAATGTTGAAAAAAGAAGCATGCCTCCTTCTCCCTCCCACCCACCTCAAGCAGTTGAACACAGCCAGTTATTCTTCCATTATTATGTGTACCTTGGAGTCATCCTCTTGGTCTTGTATTCATATTGTGGGACAGTGGGAATAGCAGCTTGTAGTATTGAAATAATCAAAGAGATAATTTCAGCTCTTACAACAAGAACAGAAAACATGCTAATTAGAAAAAGTCCTGCTTTAAGTAATATGTAGCCACATTTGAATCCTCTACCACAAGTCTTTTTTGCAATCTTGAACTTTCATTAGCTTCAAAGAGAAGCTGTATTTACAGGAGAAAGAGGTGATTATGGAGGGAATCAAAAATACTGCTTTCAGTTAGTAGCTAGCTTTAAGTCAGGAGTTAGTAATGAGAAATTTTATAAATGTGTATTTCTGTGTATTCACATACATATATATATACACACATATATATGTACATACACATACATACATATTACCATACTGAAGGGAAATGGATTTATATTTGAATTTGATATTTGAATATTTGAAGTTCTCTATTTATATTTCATTTATCACTCTTCTGTATTCACTCAGCAACCATGCCCTTAGTCTGAAGATAACAAGGATACTTTAATATCCAGTGCCGGTTCAGACTCACCTATGTGGCACCTTAAACTTAAATATCCAAAGATGCCTTTTGAATTTCAAAGATTAAAACACAGCTAGAGTAGTAGTATTGTAGTCTCAAGATGTATGGTGTGTCATTTGTGAAAATAGAAACGTTATTTTTCCTAGTTTAGTATCAACATTTTAGAATGTCAAATTTGATGCCTTGTGAACAAGTAATTTTATATTGTGCTTTAATTTTTTAAAAAGTATTCTTTATTCATATGTATAGAATGCTTAAAATAGCACTGTAGACAAGATGTTTCCAAAACTTTAAGTGCGCATATCTTTTCTGTATACAGCTTAAAATCAAAAATGTATGTTAAGAGAATTTTTTCTATTACTTATGGATCATGCTTTAAAATGATTTTTCTTGATATTTATTTTACTCCATTTTGTTTTTTTCTCTGGGTGAGGCATCTGGTTACTGGTTATTTTAAAAAGAATAAAGACATTCCTGGAATCACTCCTTTTGGGTTTTTGTTTGTTTTGTTTCTTTTCTACATTTTTAAGTATTATTTTACAAAATAGAAAAAATATAGATTCATGCCAAATTATTACCTATTTTTACACTAACTTTCTGCAGTCCCTCCATCTGGTATGAGTAACCAGATAGAGCACAAAGCATGAGTTCTTGTTCTTCAGTTAAAAGAGCTTCTTTCACAGTGTTGATAACAAATGCCTTTTGTAGCCAAAACCAGGCGTCTCAACCTTACGTTTTTAGTTAAAGAAATGTTTAGCTAAACGTTGTTGAACATTGATTGTTTGGTACCGAAAACAGCAGTGGACGATGTTGTGCAATATCCATCTACTGTAGTTAAGATATTCAGTAGTTTGTTTTTCATAAGCATGTAATTGATCATATTTCTGCCAAGGATGTGCCTTCAACTTTATAATTATAGTGTTGTAAAATAAAAAAAAAAAA
>gi|532164734|ref|NM_001282187.1| Homo sapiens cysteinyl leukotriene receptor 1 (CYSLTR1), transcript variant 1, mRNA
GTTTCTATTCTTCCTTCCTCTTTGACCCTTCCCCTCCCCCACTTTGCACCAGAGAAGTCAGACTCCGGGAGTGCTTTAACAGTTTGAAGGCTAATCTGAAAGAGGAAGAAGAATCTGTATATCTGTATATATTGGCTAGCAAATGTGCCCTGCTCTCTCCCCTCTTAAAAATAGCAGCAACCCATCTTTGCAAAGAAGCTTGCCTATAGAGCAGGCACTCTGTGAATGGACTGTGCTTTTACGACCCTACAGGGTATCAAGATACTGTGCAGCTCGCCAACAAGGATTAATTGCAAGGACTGGTAGATCGAATTTACTGAAGACTTGGAGCTTGCTTCTGAGAACAAACGCAAAAGGACAGTAAACTGTGGACCTTGAAGTTAGCAGCAGAAGGAAGGCATCTATTTTGGACTTGCAAGCTGTGCAGCCTGGGATAAGAAGAAGGATGATATAAGCGCTCTCTTGGCCTGCGTGGGCTTCCTCTAATATTACACCGTAAAAGGCATTGATCACCATAAGAAGGAACATTTGTGAAGGTACTCCAGTGCCAGAAAGAGGCACAAAGCAGACATTCGTAGAGAAACATGGATGAAACAGGAAATCTGACAGTATCTTCTGCCACATGCCATGACACTATTGATGACTTCCGCAATCAAGTGTATTCCACCTTGTACTCTATGATCTCTGTTGTAGGCTTCTTTGGCAATGGCTTTGTGCTCTATGTCCTCATAAAAACCTATCACAAGAAGTCAGCCTTCCAAGTATACATGATTAATTTAGCAGTAGCAGATCTACTTTGTGTGTGCACACTGCCTCTCCGTGTGGTCTATTATGTTCACAAAGGCATTTGGCTCTTTGGTGACTTCTTGTGCCGCCTCAGCACCTATGCTTTGTATGTCAACCTCTATTGTAGCATCTTCTTTATGACAGCCATGAGCTTTTTCCGGTGCATTGCAATTGTTTTTCCAGTCCAGAACATTAATTTGGTTACACAGAAAAAAGCCAGGTTTGTGTGTGTAGGTATTTGGATTTTTGTGATTTTGACCAGTTCTCCATTTCTAATGGCCAAACCACAAAAAGATGAGAAAAATAATACCAAGTGCTTTGAGCCCCCACAAGACAATCAAACTAAAAATCATGTTTTGGTCTTGCATTATGTGTCATTGTTTGTTGGCTTTATCATCCCTTTTGTTATTATAATTGTCTGTTACACAATGATCATTTTGACCTTACTAAAAAAATCAATGAAAAAAAATCTGTCAAGTCATAAAAAGGCTATAGGAATGATCATGGTCGTGACCGCTGCCTTTTTAGTCAGTTTCATGCCATATCATATTCAACGTACCATTCACCTTCATTTTTTACACAATGAAACTAAACCCTGTGATTCTGTCCTTAGAATGCAGAAGTCCGTGGTCATAACCTTGTCTCTGGCTGCATCCAATTGTTGCTTTGACCCTCTCCTATATTTCTTTTCTGGGGGTAACTTTAGGAAAAGGCTGTCTACATTCAGAAAGCATTCTTTGTCCAGCGTGACTTATGTACCCAGAAAGAAGGCCTCTTTGCCAGAAAAAGGAGAAGAAATATGTAAAGTATAGTTTAAACCCATTTCCAGTCCAAACCAATGAAAATAGTTTCCCAAATAAGTATTTTGTCAAATCATTTACAAAAAAAATAAAAATTTTACTTAATATTTTACAAATACTTAACTATTTGGGCCTACAACTCTATCTCATTTATGCATCCACATGATTAGATATTTATAGATATTTTAAGTGCTAAAAATTCGGTCCACAACTATGAACTGAATTATAAATAATTTTGACCACTCACCAGAATTTGGAGAATATTTTTATCTTTGCACTATAAAATATGTCTTATATTAAAGTTTTCCTCTTCAAATAAAAGCTTTACAAACGATAAAATATATAAAATTAGTCAATAAAAATACATGCAAGCTAAAAGTTATAAAATATAAAACTAGATATAAAATTGGCAAATAGTTCTGAATCATTCTAACATATTCCTTTGCATGCATGCCATCAGATGAGAACTGGAGATGACTCAGGAGCTACATAAAACGTACTGTCACCCTTCTTTGTAGTACTGATTCGCTAGGCAAATTAGGGCCATTTCTTCCAAAAGAGAATGTAAAAGTGCTAGAACAGACTAGTATTCAGCTAAAGGGTCCTAAAAGCACCATACAATGTTCAATATGGCAACAGGAGAAATCTGGTCAAAAGCCAGTTTGTCTCCAGTTTTCTTCTGCCTTTGCCTCAGGCTCCCAAAATTGAATAGTGGAGTTTTAGCTGCTCAGTGAGGTTCCTGTAGAGATTTCTCTCCATCCATGACATATAATTCTTCCTTAAGAAGCCAGACAACTGGCACTCCTATATATAAATAGAAGTAATTAAAAACTTATCTGAAGAAGAGAAAAGGAAAAGGAATCTACTTTTCTATATGCCAATTGCTGGGATCAAAATAAACTACAAAGGATTTATGAAGAAAATTGTGAATGTTCACATTACAAATTCTTTTAAGAAGTGCATACATTTATGTATATGTATACAACTATATGTAAGAGATTTTGCTGTATGATATGCATTATGGGTGAAAGTTCACGATAAGTTTTATTATTGCTTTATTACTTTTTATTGGTATGTTGACAGGAATATCATGGATATGTTTACAGTGACTTTTATATTACAGTGGACGCTTTGATCTTAAAACAGCCACAACAACTCATCTACGGCTGAAATATAATATGCGTGGACAAGCTTTTGCTGAAGTGTAGTGTGTCCTTTAAGTTTGTTTTTTAAAAAGTAACTTACCTCAGAAGAAATAAATAACTATAAAGAAAAAA
>gi|527498293|ref|NM_004265.3| Homo sapiens fatty acid desaturase 2 (FADS2), transcript variant 1, mRNA
GGAACCCGAGGCGGGGGGAGCCGGAGGGGCGGGCAGAGGAGGTGTCGAGGCCCTGAGCTCCCGGGGAGTTTTTACTGGAGGCAAAAGTCCATAGCGGGAGGGCTGAGGGAGGGGCGGAGGAAGGGGACCGCTTGGGGGCACTGGGAAGCCAGGGATCCTCCGCCAGGAAGGCAGGGACACTCCCGAGCGCAGGCGAGAAGGCTGGGGGAGGGGGCGCGGTGGGAGGAGTAGGAGAAGACAAAAGCCGAAAGCGAAGAGGGCCCGGGCTGCACACACCGGCTGGGAGGCAGCCGTCTGTGCAGCGAGCAGCCGGCGCGGGGAGGCCGCAGTGCACGGGGCGTCACAGTCGGCAGGCAGCATGGGGAAGGGAGGGAACCAGGGCGAGGGGGCCGCCGAGCGCGAGGTGTCGGTGCCCACCTTCAGCTGGGAGGAGATTCAGAAGCATAACCTGCGCACCGACAGGTGGCTGGTCATTGACCGCAAGGTTTACAACATCACCAAATGGTCCATCCAGCACCCGGGGGGCCAGCGGGTCATCGGGCACTACGCTGGAGAAGATGCAACGGATGCCTTCCGCGCCTTCCACCCTGACCTGGAATTCGTGGGCAAGTTCTTGAAACCCCTGCTGATTGGTGAACTGGCCCCGGAGGAGCCCAGCCAGGACCACGGCAAGAACTCAAAGATCACTGAGGACTTCCGGGCCCTGAGGAAGACGGCTGAGGACATGAACCTGTTCAAGACCAACCACGTGTTCTTCCTCCTCCTCCTGGCCCACATCATCGCCCTGGAGAGCATTGCATGGTTCACTGTCTTTTACTTTGGCAATGGCTGGATTCCTACCCTCATCACGGCCTTTGTCCTTGCTACCTCTCAGGCCCAAGCTGGATGGCTGCAACATGATTATGGCCACCTGTCTGTCTACAGAAAACCCAAGTGGAACCACCTTGTCCACAAATTCGTCATTGGCCACTTAAAGGGTGCCTCTGCCAACTGGTGGAATCATCGCCACTTCCAGCACCACGCCAAGCCTAACATCTTCCACAAGGATCCCGATGTGAACATGCTGCACGTGTTTGTTCTGGGCGAATGGCAGCCCATCGAGTACGGCAAGAAGAAGCTGAAATACCTGCCCTACAATCACCAGCACGAATACTTCTTCCTGATTGGGCCGCCGCTGCTCATCCCCATGTATTTCCAGTACCAGATCATCATGACCATGATCGTCCATAAGAACTGGGTGGACCTGGCCTGGGCCGTCAGCTACTACATCCGGTTCTTCATCACCTACATCCCTTTCTACGGCATCCTGGGAGCCCTCCTTTTCCTCAACTTCATCAGGTTCCTGGAGAGCCACTGGTTTGTGTGGGTCACACAGATGAATCACATCGTCATGGAGATTGACCAGGAGGCCTACCGTGACTGGTTCAGTAGCCAGCTGACAGCCACCTGCAACGTGGAGCAGTCCTTCTTCAACGACTGGTTCAGTGGACACCTTAACTTCCAGATTGAGCACCACCTCTTCCCCACCATGCCCCGGCACAACTTACACAAGATCGCCCCGCTGGTGAAGTCTCTATGTGCCAAGCATGGCATTGAATACCAGGAGAAGCCGCTACTGAGGGCCCTGCTGGACATCATCAGGTCCCTGAAGAAGTCTGGGAAGCTGTGGCTGGACGCCTACCTTCACAAATGAAGCCACAGCCCCCGGGACACCGTGGGGAAGGGGTGCAGGTGGGGTGATGGCCAGAGGAATGATGGGCTTTTGTTCTGAGGGGTGTCCGAGAGGCTGGTGTATGCACTGCTCACGGACCCCATGTTGGATCTTTCTCCCTTTCTCCTCTCCTTTTTCTCTTCACATCTCCCCCATAGCACCCTGCCCTCATGGGACCTGCCCTCCCTCAGCCGTCAGCCATCAGCCATGGCCCTCCCAGTGCCTCCTAGCCCCTTCTTCCAAGGAGCAGAGAGGTGGCCACCGGGGGTGGCTCTGTCCTACCTCCACTCTCTGCCCCTAAAGATGGGAGGAGACCAGCGGTCCATGGGTCTGGCCTGTGAGTCTCCCCTTGCAGCCTGGTCACTAGGCATCACCCCCGCTTTGGTTCTTCAGATGCTCTTGGGGTTCATAGGGGCAGGTCCTAGTCGGGCAGGGCCCCTGACCCTCCCGGCCTGGCTTCACTCTCCCTGACGGCTGCCATTGGTCCACCCTTTCATAGAGAGGCCTGCTTTGTTACAAAGCTCGGGTCTCCCTCCTGCAGCTCGGTTAAGTACCCGAGGCCTCTCTTAAGATGTCCAGGGCCCCAGGCCCGCGGGCACAGCCAGCCCAAACCTTGGGCCCTGGAAGAGTCCTCCACCCCATCACTAGAGTGCTCTGACCCTGGGCTTTCACGGGCCCCATTCCACCGCCTCCCCAACTTGAGCCTGTGACCTTGGGACCAAAGGGGGAGTCCCTCGTCTCTTGTGACTCAGCAGAGGCAGTGGCCACGTTCAGGGAGGGGCCGGCTGGCCTGGAGGCTCAGCCCACCCTCCAGCTTTTCCTCAGGGTGTCCTGAGGTCCAAGATTCTGGAGCAATCTGACCCTTCTCCAAAGGCTCTGTTATCAGCTGGGCAGTGCCAGCCAATCCCTGGCCATTTGGCCCCAGGGGACGTGGGCCCTGCAGGCTGCAGGAGGGCACTGGAGCTGGGAGGTCTCGTCCCAGCCCTCCCCATCTCGGGGCTGCTGTGTGGACGGCGCTGCCTCAGGCACTCTCCTGTCTGAACCTGCCCTTACTGTGTTTAACCTGTTGCTCCAGGATGCATTCTGATAGGAGGGGGCGGCAGGGCTGGGCCTTGTGACAATCTGCCTTTCACCACATGGCCTTGCCTCGGTGGCCCTGACTGTCAGGGAGGGCCAGGGAGGCAGAGCGGGAGGGAGTCTCAGGAGGAGGCTGCCCTGAGGGGCTGGGGAGGGGGTACCTCATGAGGACCAGGGTGGAGCTGAGAAGAGGAGGAGGTGGGGGCTGGAGGTGCTGGTAGCTGAGGGGACGGGCAAGTGAGAGGGGAGGGAGGGAAGTCCTGGGAGGATCCTGAGCTGCTGTTGCAGTCTAACCCACTAATCAGTTCTTAGATTCAGGGGAAGGGCAGGCACCAACAACTCAGAATGGGGGCTTTCGGGGAGGGCGCCTAGTCCCCCCAGCTCTAAGCAGCCAGGAGGGACCTGCATCTAAGCATCTGGGTTGCCATGGCAATGGCATGCCCCCCAGCTACTGTATGCCCCCGACCCCCGCAGAGGCAGAATGAACCCATAGGGAGCTGATCGTAATGTTTATCATGTTACTTCCCCACCCCTACATTTTTTGAAATAAAATAAGGAATTTTATTCTCAAAAAAAAA
>gi|526479850|ref|NM_001281435.1| Homo sapiens mitogen-activated protein kinase kinase 4 (MAP2K4), transcript variant 2, mRNA
GGCCGTGCGAGAGGCCGAGCTTGCTGCATTGCAGCCGCCGCGGCGCCGCTCGGCTCTTCACTCCCAACAATGGCGGCTCCGAGCCCGAGCGGCGGCGGCGGCTCCGGGGGCGGCAGCGGCAGCGGCACCCCCGGCCCCGTAGGGTCCCCGGCGCCAGGCCACCCGGCCGTCAGCAGCATGCAGGGCTTTCAGATAAACTTCTGTGAAAAGGCACAAAGTAAACGCAAAGCACTGAAGTTGAATTTTGCAAATCCACCTTTCAAATCTACAGCAAGGTTTACTCTGAATCCCAATCCTACAGGAGTTCAAAACCCACACATAGAGAGACTGAGAACACACAGCATTGAGTCATCAGGAAAACTGAAGATCTCCCCTGAACAACACTGGGATTTCACTGCAGAGGACTTGAAAGACCTTGGAGAAATTGGACGAGGAGCTTATGGTTCTGTCAACAAAATGGTCCACAAACCAAGTGGGCAAATAATGGCAGTTAAAAGAATTCGGTCAACAGTGGATGAAAAAGAACAAAAACAACTTCTTATGGATTTGGATGTAGTAATGCGGAGTAGTGATTGCCCATACATTGTTCAGTTTTATGGTGCACTCTTCAGAGAGGGTGACTGTTGGATCTGTATGGAACTCATGTCTACCTCGTTTGATAAGTTTTACAAATATGTATATAGTGTATTAGATGATGTTATTCCAGAAGAAATTTTAGGCAAAATCACTTTAGCAACTGTGAAAGCACTAAACCACTTAAAAGAAAACTTGAAAATTATTCACAGAGATATCAAACCTTCCAATATTCTTCTGGACAGAAGTGGAAATATTAAGCTCTGTGACTTCGGCATCAGTGGACAGCTTGTGGACTCTATTGCCAAGACAAGAGATGCTGGCTGTAGGCCATACATGGCACCTGAAAGAATAGACCCAAGCGCATCACGACAAGGATATGATGTCCGCTCTGATGTCTGGAGTTTGGGGATCACATTGTATGAGTTGGCCACAGGCCGATTTCCTTATCCAAAGTGGAATAGTGTATTTGATCAACTAACACAAGTCGTGAAAGGAGATCCTCCGCAGCTGAGTAATTCTGAGGAAAGGGAATTCTCCCCGAGTTTCATCAACTTTGTCAACTTGTGCCTTACGAAGGATGAATCCAAAAGGCCAAAGTATAAAGAGCTTCTGAAACATCCCTTTATTTTGATGTATGAAGAACGTGCCGTTGAGGTCGCATGCTATGTTTGTAAAATCCTGGATCAAATGCCAGCTACTCCCAGCTCTCCCATGTATGTCGATTGATATCGCTGCTACATCAGACTCTAGAAAAAAGGGCTGAGAGGAAGCAAGACGTAAAGAATTTTCATCCCGTATCACAGTGTTTTTATTGCTCGCCCAGACACCATGTGCAATAAGATTGGTGTTCGTTTCCATCATGTCTGTATACTCCTGTCACCTAGAACGTGCATCCTTGTAATACCTGATTGATCACACAGTGTTAGTGCTGGTCAGAGAGACCTCATCCTGCTCTTTTGTGATGAACATATTCATGAAATGTGGAAGTCAGTACGATCAAGTTGTTGACTGTGATTAGATCACATCTTAAATTCATTTCTAGACTCAAAACCTGGAGATGCAGCTACTGGAATGGTGTTTTGTCAGACTTCCAAATCCTGGAAGGACACAGTGATGAATGTACTATGTCTGAACATAGAAACTCGGGCTTGAGTGAGAAGAGCTTGCACAGCCAACGAGACACATTGCCTTCTGGAGCTGGGAGACAAAGGAGGAATTTACTTTCTTCACCAAGTGCAATAGATTACTGATGTGATATTCTGTTGCTTTACAGTTACAGTTGATGTTTGGGGATCGATGTGCTCAGCCAAATTTCCTGTTTGAAATATCATGTTAAATTAGAATGAATTTATCTTTACCAAAAACCATGTTGCGTTCAAAGAGGTGAACATTAAAATATAGAGACAGGACAGAATGTGTTCTTTTCTCCTTTACCAGTCCTATTTTTCAATGGGAAGACTCAGGAGTCTGCCACTTGTCAAAGAAGGTGCTGATCCTAAGAATTTTTCATTCTCAGAATTCGGTGTGCTGCCAACTTGATGTTCCACCTGCCACAAACCACCAGGACTGAAAGAAGAAAACAGTACAGAAGGCAAAGTTTACAGATGTTTTTAATTCTAGTATTTTATCTGGAACAACTTGTAGCAGCTATATATTTCCCCTTGGTCCCAAGCCTGATACTTTAGCCATCATAACTCACTAACAGGGAGAAGTAGCTAGTAGCAATGTGCCTTGATTGATTAGATAAAGATTTCTAGTAGGCAGCAAAAGACCAAATCTCAGTTGTTTGCTTCTTGCCATCACTGGTCCAGGTCTTCAGTTTCCGAATCTCTTTCCCTTCCCCTGTGGTCTATTGTCGCTATGTGACTTGCGCTTAATCCAATATTTTGCCTTTTTTCTATATCAAAAAACCTTTACAGTTAGCAGGGATGTTCCTTACCAAGGATTTTTAGCCCCAAATCTCTCATATTCGCTAGTGTTTAAAAGGCTAAGAATAGTGGGGCCCAGCCGATGTGGTAGGTGATAAAGAGGCATCTTTTCTAGAGACACATTGGACCAGATGAGGATCCGAAACGGCAGCCTTTACGTTCATCACCTGCTAGAACCTCTCGTAGTCCATCACCATTTCTTGGCATTGGAATTCTACTGGAAAAAAATACAAAAAGCAAAACAAAACCCTCAGCACTGTTACAAGAGGCCATTTAAGTATCTTGTGCTTCTTCACTTACCCATTAGCCAGGTTCTCATTAGGTTTTGCTTGGGCCTCCCTGGCACTGAACCTTAGGCTTTGTATGACAGTGAAGCAGCACTGTGAGTGGTTCAAGCACACTGGAATATAAAACAGTCATGGCCTGAGATGCAGGTGATGCCATTACAGAACCAAATCGTGGCACGTATTGCTGTGTCTCCTCTCAGAGTGACAGTCATAAATACTGTCAAACAATAAAGGGAGAATGGTGCTGTTTAAAGTCACATCCCTGTAAATTGCAGAATTCAAAAGTGATTATCTCTTTGATCTACTTGCCTCATTTCCCTATCTTCTCCCCCACGGTATCCTAAACTTTAGACTTCCCACTGTTCTGAAAGGAGACATTGCTCTATGTCTGCCTTCGACCACAGCAAGCCATCATCCTCCATTGCTCCCGGGGACTCAAGAGGAATCTGTTTCTCTGCTGTCAACTTCCCATCTGGCTCAGCATAGGGTCACTTTGCCATTATGCAAATGGAGATAAAAGCAATTCTGACTGTCCAGGAGCTAATCTGACCGTTCTATTGTGTGGATGACCACATAAGAAGGCAATTTTAGTGTATTAATCATAGATTATTATAAACTATAAACTTAAGGGCAAGGAGTTTATTACAATGTATCTTTATTAAAACAAAAGGGTGTATAGTGTTCACAAACTGTGAAAATAGTGTAAGAACTGTACATTGTGAGCTCTGGTTATTTTTCTCTTGTACCATAGAAAAATGTATAAAAATTATCAAAAAGCTAATGTGCAGGGATATTGCCTTATTTGTCTGTAAAAAATGGAGCTCAGTAACATAACTGCTTCTTGGAGCTTTGGAATATTTTATCCTGTATTCTTGTTTGAATTCCTCCTCTATTTAAGATATATACATGGAATCGAAGTGTTTATGTAATAGTTCTATCCTTTTGCCTGCAGGTCAGTTGTAATAAATCTAGGATGTGATGATGACTTTGTAATTTGATTTTCTGAAATCAGACCCTGAGAGGGGAAAATCTTAAAGTAAATTACATTAAATTATCTGTGCATTTCACACCAGGGAAAATGA
>gi|526479849|ref|NM_003010.3| Homo sapiens mitogen-activated protein kinase kinase 4 (MAP2K4), transcript variant 1, mRNA
GGCCGTGCGAGAGGCCGAGCTTGCTGCATTGCAGCCGCCGCGGCGCCGCTCGGCTCTTCACTCCCAACAATGGCGGCTCCGAGCCCGAGCGGCGGCGGCGGCTCCGGGGGCGGCAGCGGCAGCGGCACCCCCGGCCCCGTAGGGTCCCCGGCGCCAGGCCACCCGGCCGTCAGCAGCATGCAGGGTAAACGCAAAGCACTGAAGTTGAATTTTGCAAATCCACCTTTCAAATCTACAGCAAGGTTTACTCTGAATCCCAATCCTACAGGAGTTCAAAACCCACACATAGAGAGACTGAGAACACACAGCATTGAGTCATCAGGAAAACTGAAGATCTCCCCTGAACAACACTGGGATTTCACTGCAGAGGACTTGAAAGACCTTGGAGAAATTGGACGAGGAGCTTATGGTTCTGTCAACAAAATGGTCCACAAACCAAGTGGGCAAATAATGGCAGTTAAAAGAATTCGGTCAACAGTGGATGAAAAAGAACAAAAACAACTTCTTATGGATTTGGATGTAGTAATGCGGAGTAGTGATTGCCCATACATTGTTCAGTTTTATGGTGCACTCTTCAGAGAGGGTGACTGTTGGATCTGTATGGAACTCATGTCTACCTCGTTTGATAAGTTTTACAAATATGTATATAGTGTATTAGATGATGTTATTCCAGAAGAAATTTTAGGCAAAATCACTTTAGCAACTGTGAAAGCACTAAACCACTTAAAAGAAAACTTGAAAATTATTCACAGAGATATCAAACCTTCCAATATTCTTCTGGACAGAAGTGGAAATATTAAGCTCTGTGACTTCGGCATCAGTGGACAGCTTGTGGACTCTATTGCCAAGACAAGAGATGCTGGCTGTAGGCCATACATGGCACCTGAAAGAATAGACCCAAGCGCATCACGACAAGGATATGATGTCCGCTCTGATGTCTGGAGTTTGGGGATCACATTGTATGAGTTGGCCACAGGCCGATTTCCTTATCCAAAGTGGAATAGTGTATTTGATCAACTAACACAAGTCGTGAAAGGAGATCCTCCGCAGCTGAGTAATTCTGAGGAAAGGGAATTCTCCCCGAGTTTCATCAACTTTGTCAACTTGTGCCTTACGAAGGATGAATCCAAAAGGCCAAAGTATAAAGAGCTTCTGAAACATCCCTTTATTTTGATGTATGAAGAACGTGCCGTTGAGGTCGCATGCTATGTTTGTAAAATCCTGGATCAAATGCCAGCTACTCCCAGCTCTCCCATGTATGTCGATTGATATCGCTGCTACATCAGACTCTAGAAAAAAGGGCTGAGAGGAAGCAAGACGTAAAGAATTTTCATCCCGTATCACAGTGTTTTTATTGCTCGCCCAGACACCATGTGCAATAAGATTGGTGTTCGTTTCCATCATGTCTGTATACTCCTGTCACCTAGAACGTGCATCCTTGTAATACCTGATTGATCACACAGTGTTAGTGCTGGTCAGAGAGACCTCATCCTGCTCTTTTGTGATGAACATATTCATGAAATGTGGAAGTCAGTACGATCAAGTTGTTGACTGTGATTAGATCACATCTTAAATTCATTTCTAGACTCAAAACCTGGAGATGCAGCTACTGGAATGGTGTTTTGTCAGACTTCCAAATCCTGGAAGGACACAGTGATGAATGTACTATGTCTGAACATAGAAACTCGGGCTTGAGTGAGAAGAGCTTGCACAGCCAACGAGACACATTGCCTTCTGGAGCTGGGAGACAAAGGAGGAATTTACTTTCTTCACCAAGTGCAATAGATTACTGATGTGATATTCTGTTGCTTTACAGTTACAGTTGATGTTTGGGGATCGATGTGCTCAGCCAAATTTCCTGTTTGAAATATCATGTTAAATTAGAATGAATTTATCTTTACCAAAAACCATGTTGCGTTCAAAGAGGTGAACATTAAAATATAGAGACAGGACAGAATGTGTTCTTTTCTCCTTTACCAGTCCTATTTTTCAATGGGAAGACTCAGGAGTCTGCCACTTGTCAAAGAAGGTGCTGATCCTAAGAATTTTTCATTCTCAGAATTCGGTGTGCTGCCAACTTGATGTTCCACCTGCCACAAACCACCAGGACTGAAAGAAGAAAACAGTACAGAAGGCAAAGTTTACAGATGTTTTTAATTCTAGTATTTTATCTGGAACAACTTGTAGCAGCTATATATTTCCCCTTGGTCCCAAGCCTGATACTTTAGCCATCATAACTCACTAACAGGGAGAAGTAGCTAGTAGCAATGTGCCTTGATTGATTAGATAAAGATTTCTAGTAGGCAGCAAAAGACCAAATCTCAGTTGTTTGCTTCTTGCCATCACTGGTCCAGGTCTTCAGTTTCCGAATCTCTTTCCCTTCCCCTGTGGTCTATTGTCGCTATGTGACTTGCGCTTAATCCAATATTTTGCCTTTTTTCTATATCAAAAAACCTTTACAGTTAGCAGGGATGTTCCTTACCAAGGATTTTTAGCCCCAAATCTCTCATATTCGCTAGTGTTTAAAAGGCTAAGAATAGTGGGGCCCAGCCGATGTGGTAGGTGATAAAGAGGCATCTTTTCTAGAGACACATTGGACCAGATGAGGATCCGAAACGGCAGCCTTTACGTTCATCACCTGCTAGAACCTCTCGTAGTCCATCACCATTTCTTGGCATTGGAATTCTACTGGAAAAAAATACAAAAAGCAAAACAAAACCCTCAGCACTGTTACAAGAGGCCATTTAAGTATCTTGTGCTTCTTCACTTACCCATTAGCCAGGTTCTCATTAGGTTTTGCTTGGGCCTCCCTGGCACTGAACCTTAGGCTTTGTATGACAGTGAAGCAGCACTGTGAGTGGTTCAAGCACACTGGAATATAAAACAGTCATGGCCTGAGATGCAGGTGATGCCATTACAGAACCAAATCGTGGCACGTATTGCTGTGTCTCCTCTCAGAGTGACAGTCATAAATACTGTCAAACAATAAAGGGAGAATGGTGCTGTTTAAAGTCACATCCCTGTAAATTGCAGAATTCAAAAGTGATTATCTCTTTGATCTACTTGCCTCATTTCCCTATCTTCTCCCCCACGGTATCCTAAACTTTAGACTTCCCACTGTTCTGAAAGGAGACATTGCTCTATGTCTGCCTTCGACCACAGCAAGCCATCATCCTCCATTGCTCCCGGGGACTCAAGAGGAATCTGTTTCTCTGCTGTCAACTTCCCATCTGGCTCAGCATAGGGTCACTTTGCCATTATGCAAATGGAGATAAAAGCAATTCTGACTGTCCAGGAGCTAATCTGACCGTTCTATTGTGTGGATGACCACATAAGAAGGCAATTTTAGTGTATTAATCATAGATTATTATAAACTATAAACTTAAGGGCAAGGAGTTTATTACAATGTATCTTTATTAAAACAAAAGGGTGTATAGTGTTCACAAACTGTGAAAATAGTGTAAGAACTGTACATTGTGAGCTCTGGTTATTTTTCTCTTGTACCATAGAAAAATGTATAAAAATTATCAAAAAGCTAATGTGCAGGGATATTGCCTTATTTGTCTGTAAAAAATGGAGCTCAGTAACATAACTGCTTCTTGGAGCTTTGGAATATTTTATCCTGTATTCTTGTTTGAATTCCTCCTCTATTTAAGATATATACATGGAATCGAAGTGTTTATGTAATAGTTCTATCCTTTTGCCTGCAGGTCAGTTGTAATAAATCTAGGATGTGATGATGACTTTGTAATTTGATTTTCTGAAATCAGACCCTGAGAGGGGAAAATCTTAAAGTAAATTACATTAAATTATCTGTGCATTTCACACCAGGGAAAATGA
>gi|513788267|ref|NM_003585.4| Homo sapiens double C2 domain beta (DOC2B), mRNA
GCGGAGCGGGCAGCGGCCAAGTCAGGGCCGTCCGGGGGCGCGGCCGGCGATGCCCGCAGCCCCCGCCGCGCCCCGCCGGGCCTGCTGAGCCGCCCCCGGGCCGGGGTCGCGCCGGGCCGGGCCGCGCCCGGGGCGGGGCGGCGCTGCCTGCATGACCCTCCGGCGGCGCGGGGAGAAGGCGACCATCAGCATCCAGGAGCATATGGCCATCGACGTGTGCCCCGGCCCCATCCGTCCCATCAAGCAGATCTCCGACTACTTCCCCCGCTTCCCGCGGGGCCTGCCCCCGGACGCCGGGCCCCGAGCCGCTGCACCCCCGGACGCCCCCGCGCGCCCGGCTGTGGCCGGTGCCGGCCGCCGCAGCCCCTCCGACGGCGCCCGCGAGGACGACGAGGATGTGGACCAGCTCTTCGGAGCCTACGGCTCCAGCCCGGGCCCCAGCCCGGGTCCCAGCCCCGCGCGGCCGCCAGCCAAGCCGCCGGAGGACGAGCCGGACGCCGACGGCTACGAGTCGGACGACTGCACTGCCCTGGGCACGCTGGACTTCAGCCTGCTGTATGACCAGGAGAACAACGCCCTCCACTGCACCATCACCAAGGCCAAGGGCCTGAAGCCAATGGACCACAATGGGCTGGCAGACCCCTACGTCAAGCTGCACCTGCTGCCAGGAGCCAGTAAGGCAAATAAGCTCAGAACAAAAACTCTCCGTAACACTCTGAACCCCACATGGAACGAGACCCTCACTTACTACGGGATCACAGATGAAGACATGATCCGCAAGACCCTGCGGATCTCTGTGTGTGACGAGGACAAATTCCGGCACAATGAGTTCATCGGGGAGACACGTGTGCCCCTGAAGAAGCTGAAACCCAACCACACCAAGACCTTCAGCATCTGCCTGGAGAAGCAGCTGCCGGTGGACAAGACTGAAGACAAGTCCCTGGAGGAGCGGGGCCGCATCCTCATCTCCCTCAAGTACAGCTCACAGAAGCAAGGCCTGCTGGTAGGCATCGTGCGGTGCGCCCACCTGGCCGCCATGGACGCCAACGGCTACTCGGACCCCTACGTGAAAACATACCTGAGGCCAGATGTGGACAAGAAATCCAAACATAAGACAGCGGTGAAGAAAAAAACCCTGAACCCGGAGTTTAATGAGGAGTTCTGTTACGAGATCAAGCATGGGGACCTGGCCAAGAAGTCCCTGGAGGTCACCGTTTGGGATTACGACATTGGAAAATCCAACGATTTCATTGGTGGTGTGGTTCTGGGCATCCACGCCAAGGGGGAGCGCCTGAAGCACTGGTTTGACTGCCTGAAGAACAAGGACAAGCGCATCGAGCGCTGGCACACGCTCACCAGCGAGCTCCCAGGGGCTGTGCTCAGCGACTGACGCCCACCCGCCACTGCTACCCCTGCCGCCACCTGCGCCCAGCACGGCCGGCCCCGGGCTTCCCCAGCAGCCACCAAGGCCTGTGGCCCCCACACTGGGGGAGATCCAGAACCCCTGCTTGGACACAGAGCCACTGCAGTCCCCGCTCGGAGGATGTGGAGGGCTCAGCCACTCTGGGACGGGGAGGGCAAGGAGCTGGGGTGGGGGGCTCTCAGCTCTCTGGGGCCCAAGAGGCCGGTGGTGGAAAGAGACCTCAGCACCTGCCCAGGGGAAGGGGACACGCCCATCTGGGAGCAAAGACCCTTCTAGAGGCCAGCCCCGGCTGAGAGGACAGGAGTGTGGGGGCGCCTTGGCGGACAGTGGGAACAGAGGAGGGAGGTGGTGAGCAGACAGACAGGTGGAGGATGGGACCTTGAAGACTGGCTGCTCCAGCCCAAGAAAGCCTAACTGCATCCCTCATCTCCTTCGCTGCTGGACAGATGGAAGAAGCGGGCCTGCCGGCCGAAAGTCTGCCAGAGTTCCCGGAGGCTCCTGATGATGGGTAAATTGGCACATGCTTCACTCAATGATTCCACAAGCCCTGGGGGTGAATGAGACACAGGGCCTGCCCTCAGGGAGTTCCCATCTAGTCAGGAA
>gi|469832258|ref|NM_176072.2| Homo sapiens purinergic receptor P2Y2 (P2RY2), transcript variant 1, mRNA
GGAACAGCGCAGGGAGGTGGGTAGCCGGGCTCCCAGGCACGTGGGTCTCTGCGGCTGCGGCGGGACCCGGGCACTGGCACCCGGGAGCGGCGGCGACGGCACCCTGAGAGGAGAAGCGCAGCGCAGTGGCGAGAGGAGCCCCTTGTGGCAGCAGCACTACCTGCCCAGAAAAATGCTGGAGGCTGGGCGTGGCCCCAGGCCTGGGGACCTGTTTTTCCTGTTTCCCGCAGAGTTCCCTGCAGCCCGGTCCAGGTCCAGGCGTGTGCATTCATGAGTGAGGAACCCGTGCAGGCGCTGAGCATCCTGACCTGGAGAGCAGGGGCTGGTCAGGTTCCAGAGCTTGGAGGTTCCAGGTCCAGATCCAAGTCAGATGGCAATGAAAGCCCTGGTCAGGTGGCTGTGTCAGGTCCCCTAGGGGCGCTCCGGCCACAACCCTGATGGCCCCACCCCTCCCTTCCCTGCAGGGCGATGGCAGCAGACCTGGGCCCCTGGAATGACACCATCAATGGCACCTGGGATGGGGATGAGCTGGGCTACAGGTGCCGCTTCAACGAGGACTTCAAGTACGTGCTGCTGCCTGTGTCCTACGGCGTGGTGTGCGTGCTTGGGCTGTGTCTGAACGCCGTGGCGCTCTACATCTTCTTGTGCCGCCTCAAGACCTGGAATGCGTCCACCACATATATGTTCCACCTGGCTGTGTCTGATGCACTGTATGCGGCCTCCCTGCCGCTGCTGGTCTATTACTACGCCCGCGGCGACCACTGGCCCTTCAGCACGGTGCTCTGCAAGCTGGTGCGCTTCCTCTTCTACACCAACCTTTACTGCAGCATCCTCTTCCTCACCTGCATCAGCGTGCACCGGTGTCTGGGCGTCTTACGACCTCTGCGCTCCCTGCGCTGGGGCCGGGCCCGCTACGCTCGCCGGGTGGCCGGGGCCGTGTGGGTGTTGGTGCTGGCCTGCCAGGCCCCCGTGCTCTACTTTGTCACCACCAGCGCGCGCGGGGGCCGCGTAACCTGCCACGACACCTCGGCACCCGAGCTCTTCAGCCGCTTCGTGGCCTACAGCTCAGTCATGCTGGGCCTGCTCTTCGCGGTGCCCTTTGCCGTCATCCTTGTCTGTTACGTGCTCATGGCTCGGCGACTGCTAAAGCCAGCCTACGGGACCTCGGGCGGCCTGCCTAGGGCCAAGCGCAAGTCCGTGCGCACCATCGCCGTGGTGCTGGCTGTCTTCGCCCTCTGCTTCCTGCCATTCCACGTCACCCGCACCCTCTACTACTCCTTCCGCTCGCTGGACCTCAGCTGCCACACCCTCAACGCCATCAACATGGCCTACAAGGTTACCCGGCCGCTGGCCAGTGCTAACAGTTGCCTTGACCCCGTGCTCTACTTCCTGGCTGGGCAGAGGCTCGTACGCTTTGCCCGAGATGCCAAGCCACCCACTGGCCCCAGCCCTGCCACCCCGGCTCGCCGCAGGCTGGGCCTGCGCAGATCCGACAGAACTGACATGCAGAGGATAGAAGATGTGTTGGGCAGCAGTGAGGACTCTAGGCGGACAGAGTCCACGCCGGCTGGTAGCGAGAACACTAAGGACATTCGGCTGTAGGAGCAGAACACTTCAGCCTGTGCAGGTTTATATTGGGAAGCTGTAGAGGACCAGGACTTGTGCAGACGCCACAGTCTCCCCAGATATGGACCATCAGTGACTCATGCTGGATGACCCCATGCTCCGTCATTTGACAGGGGCTCAGGATATTCACTCTGTGGTCCAGAGTCAACTGTTCCCATAACCCCTAGTCATCGTTTGTGTGTATAAGTTGGGGGAATTAAGTTTCAAGAAAGGCAAGAGCTCAAGGTCAATGACACCCCTGGCCTGACTCCCATGCAAGTAGCTGGCTGTACTGCCAAGGTACCTAGGTTGGAGTCCAGCCTAATCAAGTCAAATGGAGAAACAGGCCCAGAGAGGAAGGTGGCTTACCAAGATCACATACCAGAGTCTGGAGCTGAGCTACCTGGGGTGGGGGCCAAGTCACAGGTTGGCCAGAAAACCCTGGTAAGTAATGAGGGCTGAGTTTGCACAGTGGTCTGGAATGGACTGGGTGCCACGGTGGACTTAGCTCTGAGGAGTACCCCCAGCCCAAGAGATGAACATCTGGGGACTAATATCATAGACCCATCTGGAGGCTCCCATGGGCTAGGAGCCAGTGTGAGGCTGTAACTTATACTAAAGGTTGTGTTGCCTGCTGAGCTGTGCCCTATTGTGTGGTCGGGGGATGAGGATATGGCAGGGAAGCTTTCACCAGCCACACAAGGGTCCTTTCTCCAATCCGTTCCCTTCTGCCACCTGCCTTCTCACTAGCTGTCTCAGGAGTAGTCTCATATCAGGGATCCTCTCTCCAGGCCCCAGGTCATCCCCCACTGTAAAGCCAGTTGGCTTCTGTGCCTGACTCTGTGCTGAGCACAGAGAAAAGTCAGGTGCAGTCCCAGTCCTTGAGATTTCCCAGTTTAGGTGATGGCCAGTCATGTGCTGGTAAATGTTAAGCCATTTAACTGGAGCTCCGATTTAACTGGGAACCCCTTCTTTGTAGAACTGCCCATTTCCATGGTGCAAAAACTCTTATGGCCAAATTCAAACTATAAACATGATGTCAACTTCCTTGTAAAATTCCTGAAAATTTAACAATTGGTTCTTGCAAGCAGGTACAAGTCACTCTAGCACACCACTGGATAATGCCGAGTGGCTGGGGCTGTGAGCCAGGGGGTCAGGGAAGGGTTCCTGGAGTGGGAGACTCCTGAGCTGTAGCTTCTGAGAAAAGCAGCTCACCGGAAGAACATCCACACACAGGATGCATCCCAGGCAAAGACATGGGGCAAGAGGGCAGGGTGTGCATGAGCCATAAGCAGGCTGGACAGCTGACTCCAGGCTCAAGGCAGGGTTGGGGCTGGGTCACAAGGAGGCCAAGTTAGGGCTCCCTCCTTGCCCTGACCCTGAGGCTTCCTTTGCACTGGGGGTAAATATGAAAGAGATTCACTCCTCCTCCTGTCCATCGTCTGCCTTCTGGGAAAATCCCAGAATGGCAGGGTGGTGCTCAGGCTGGGTCAGGACTTAGTATGGGGGAGATGGGTCTCACCTATGATAGGTTCTGAGTCTAGCCAGGACCACTCTGGGCTGACGTGTGGCGCTCAGCTGGACAGGGCCCCGCCCTAGCCTTTGGAAAGGGACAGGGCAAAGCTGACAGGCCTCACTCTTGATCTCAAGGACAGGGACTCCCTCCTCTCCCTCTGGGAGAGCCCTCGCCCTGTGGCCCACTCTGCCTGCCCCCTCTGACCTCTCCACCCTTCCCACTCTGCCTTGTGAAAGGCAGGACATCCCCAAAGCTTGCTGTATTTGGAGCCTGACTCCACAGCGCCCTCATGTGACAGAGACCCATCACAGACCATGACCCAAATGATTACTCTGTACTGTGCCAGGTGGGTGACCTGCCCAGAATAGTGTGAGCTATTCACCTCTCACCTTCTAGGTTCTATACTTCTGTTAATGTAGCCGATGTCCTTCTGAGTTTTTTTTTTCTTTTTGAGACGAAGTCTTGTTCTGTCACCCAGGCTGGAAGTGCAGTGCTGCGGTCTTGGCTCACTGCAACTCTCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGTTTCCCAAGTAGCTGGGATTACAGGTATGCGCCACCACACCTGGCTAATTTTTGTATTTTTAATAGAGACAGGGTTTCGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTGATCCACCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGTATGAGCCACCGCACCCGGCCCCTCTTGAGCTTTCTTAATGATTGCCTGTTACAAACCACCCTTGAGCCTTTCCCACAGGCCCGAGCCACTCCACAAGGACACAGGAGGGGCTCGTTCACCATCTAATCCTGTGGCAGGCACAGGTGGGGGTGGATACTGGAGACCCTGGGTGAACCAGGGGCACCTCTGGAACCCAGTTGGACTGCCTGGCCCCTTGGTATGCACGTCCCACCTTGCTGCTCAGTGCCCAGGCCACTTGCCTTGTGGGTGAAGTTCCTGCCCTGATGCCTCATGCTATTTTCAGCCCAAGTAAGACCATAATTTTCCACTCCTGGCCCCAGACCATTGTCCAGCAGTGACGTGAGGGGATCTGCCTGCCCTCAAAATATCTCCTATTACCCTCCAATATTCCCTGCCCCCTTCACACCTCCCTAACCTGACATCACTTCCTGGGCTGTTGACTCATGAAGGCCACTGTGAAAGGGCACGTGAGTTGCCCATCCACTGAGCAGACCCCAGGGATTATCCAGCCCAGCTGCAGACTCAAGGCCAGAGATGGGCAGGGCTGAGCCCAAGGTCATTCAGCAGGTCAGCGTGGCGCCTGGATGTAAGCAAGTGCCTTGGTGACGATCCTGCTGTCACTCACACTGCCCAGCTCTTCCTGCCCAGGGTGACTGGGATGGAGCCATAGACCTGAGGCCAGGGACAGGACAGGGATGGGAGGAAAGGGAGGGTAGAGAGTTGAGTGTCAGGGAGTAAATGTCTGCTGATGTGCCTGCAGCAGCTGTTCTCAATGAACTGCATGACATCAGGGCAGGGTCCCTGGCACACAGGGGTCTCTGCCCTGGGTGGCAGGTGTCCCAGGGTCCAGGAGGGATGGAGGAACCCCAGGGTACATTCCCACTTTCACCCCCTGAGGTTAGAAGAGGCCCTAAGCAACATGTTATCCACACATGGTTGCTCCAGGTCAAGTCACCAAAGCTACCTCTCTGTCACCCTTGTCATGGCAGATTTGGGCTGCTCTGTTTAGAATCAGGCACATGAGGGAGGGAAGTCGTGTATTGACCCATGTCCCACGCACCCTCTCATCTATGTTATATGGTGGATGCTTCACAGAAGCCCTGGGAAGTAGATGCTATGATCCTATTTAGCAGATGAGGAAACAGGAGAAGGGCGTGAGAAGTGAGGACTTGTTCCAGGTTATCCAGGCTGTCAGGGTGAGTCAGAGTGAGTCCAGGTTCACCTGATGGCCAGAATCATGCCCTTTATAGTGCCCCACGACACTCACAGCCCTGCAGGGCAGAAGGGTCTATAAGTGGCCCCTCGCATGATTCAAGATGACAGAGGCAGTGTAGCAAGGATGTGAGAACACAGATGCTCCACCCAGACCACCTCAGTGTCAATATTGTCCCCACTTTCCTGGCTGGGGTCTCTTGGGCAAGTTACCTAATCTTGCAGCACCTCAGTTTTCCCATTTCTAAAGTGTGCTGCTACCTTCCATGCAGGGCGTTGAGGGGCTTCCCTACGTTATTACGCACAAAGTCCTCCTCACAGTGCCTGGTGTGTGGTCAGCATTTATATGCCTGGCACCAGGCCGGGGGCTATGGAGGCAAATCAGCTGGGCCCTGCCCTCACAGAGTTGACATCACTTAGTACGTAACCACATTGGGATACATGTTTTGAAGGAGAGGACAGTGTGTCTGGCCAGTGAGCAACAGTGGGCCATACGTCTCCAGGGAACCCCCGTGGGGTGTGGGAGGAGGGAAGCAGGTCTGTCCTGGGGGAATGTGTGGGACCACCTCTGCCCTGCTTGGCAGTAGGTGGATTTCAGGACCATGGGCCTGTGCTGTTTACAGAACCTTGTCCAGGTGCCCAGCTGTGGGAGGGCAGCATGGAGAGGAGGAAGAGGGGGCCCCTAGTAGCAAGCTTCAGAAACTTGCCACTTCAGGCTAGAGAGCTCGCACCCTCCCACGGCAGCAGGGTAGCCATTTCTCCCTGACTGGGGTGTCCACCATGGTGCTCTGCAGCCACCTCTCACTTCATTAAGAGTCCACAGATCTAGGAGCAGAGGACTGGTCTGGAGCTGGGCAAGGGCAGGCAGCAAATGGGGAGTTTTTGCTGTGTGACCTGAGGTCACTTGCCTGCCTTCTCTGGACTGCACTGTAGGGCCTGGAGACCTGTTCCCCTGTTCCAATTTCCCCACCTCAGTGAAGGCACAACCAACAGCTGCTCCCCGGGCATTTCCAAGACCCTCCAGGCCCCCAGCTCTGAGGACTAGGGTGGAGGCAGTGTTTCTCCCCAGCATCAAGTGACCAGAGAAGTGAAGTGACCCCACTGCCGCCACACAGAGCCACACAGTGCGATGTCTGGAGCTCCTGCCTCCTGCAAGGTGGAGGGTGGGGCTTGGCCAGGAGTGACCAGACTACAGAGTGAGGGGTGTGCTTGTGGGGGTGAAGGGTTGGGGTGAGAACTGAGCCCGAGTCGAACTCATCCTCCTCTGCCCTGATGCACTGTGCAACTTGGGGGAGTCACTGTCCCTCTCTGGGCCTCGCTTTCCCCATCTTCGATAGGACTTGGCTCTGCCTGGCCACTCCTCCTCCAATGGGGGAATTCCTGGGCTTGCCTCTGTCTTGGCTCCAGCTCAGGTGTCAGTCTCAGCCCTGTCCCAGCCAGGAACAATGGGCCAGGCAGGGCCAGTCACCCCCTGTCCCTGGGGGCTCCACCCACGGCCCTGGACTATTTTCAGCCCTTGCAGATGGAGTCAGAAGAGGATTTTCCACTCCCAGTACAATGACTGCCCTGGACCATTGTCCAGCAGTGACGCGGGGGACCTGCCTGCCCCAAAATATCTCCTGCCCCTAGTTTCCAAGCCTCTTTGCCCTGCTCCTCACCTCCTGGCCCTGCTCCTTACCTCCCCACCCTGATGTCATTTCCTGGGGCTCTTAACTCCTGAAGGCCATTGTGAAACATCACGTGAGACTCCTGGGAGACACAACCAGTTGGAATGAGTTTTCCCTCCTGGCAGGGACCCCAGGGATTGTTTGGCTGCTTAGTGGGACTGGTGGCCCAGAGAGGGCTGTGCCTTACCCAGTCACACAGCAGTCAGTGTGAAGCTTAGGTGTAAGCCCAGGGCTCTTTGGCTGCTCCCACTGCCTCAGCCAACTTCATTAGCTCCAGTCTGTGGCTCCTGGACTGGAGCTACAGTGGTGAGAGCTCACCACTGAGCTTCCTGGGATGGGCACCTGGGATAGCAGCCCAAGTGGTGTGGGTGGAGAGGTGCAGCTCATGCTCTGACCTTGGAGTGAGCCCAGTGCAGGGGCCTGACCTTAAACCCTTTCTCCCCACTGAGTCCCATTTTTACCAAATGTGGCTGTTAGGAACTGAATGTTTGTGTCCCCCGCCCCACAAATCCATATGTCAAAATCCCAACTGCCAAGGTGATGGTATTAGAAGGTGGGGCCTTTGGGAAGTAACCAGGTCCTAAGGGTGCAGCCCTCATGAATGGGTTTAGTGCCCTTACAGAATGGACCCCAGAGAGCTCCTCACCCTCTTTCCACCATGTGAGGATATAATGAGAAGTTGGCAGTCTGCAACCTGGAAGAGGTCCCTCACCAGATCCCAACCATGCTGGCACCCCGATCTTAGACTTCCAGTCTTCAGAATGGTGAGAAATAAATGTCTCTTGTTTCTAATCCACCCAGTCGGTGGCATTTTGTTATAGCAGCCCACGCTGACTGTGACTGAACTCAGGGTGACAGAGCAGCAGCTCTGGGGCAAAGGGGAGGGTGGGGGCCACAGGGCAGCTGATGCAGGAGCAGGGCTCTGGCACAGTTCAGCCATCACCAATTCTGGGACTGCAAATTCAGTTTCTTCATCTGGAAAATTGAACTGGTAATACCAATACCTCTTTTCCCGGTTTACTAGACAGAGACAATGCAGTGAGGCACAAACATGCAACTGTTTGATTTTCCTCCCACCCATGCTCCCTGCTCAGTGACGTGTGATTTTCCTTTCCCATCCATAAACTGCGCATTTGGCAAACTCCAAACTTTTGAGTCACTTTTGGGTAACAAAGTCAGGTTTAAGATTTCCATCGCCTGCTTAATTGAATGCTCACCTGTCCTCTTCCCCCATGCTGTGAGGACCTTCATCACTCCTCTTCTGGGTCCCTCTCTCCTCTAGGTGTTGGGGCAGGGTGGGGAGGAAAGGGACCAATGTGTCTTTCCTGGTGATGCTACAGCCCTCTCTTGCTGACCTTGCTTCCTGGGCCATCAGTGCCCCCTGCACAGAACTCTCCAAACATCAGTCCACACCTTTGTAAAAACAGTCTCTCCGCTAAGCTATCCCAAAATGACCTGATTAGAGTGTGCAACGTCTTTCCTGCTGGGACTCTGACTGATACCCTGGTCTCCCTGAGTGATTTTCCTGCACACCCTGCTGGGGATGTGGAAGCCTGTCCCCCTCCCACCCCACACCCCACACTTGGCTGAGATCTCACAGTGGCAAAGATGTCTTTGAATCCATGGTGCCCAGGGTTCAGCGTGTAGAGTGAGGTGGGGTGTGTAGAGAGCTGGGGCAAGGAACCCTGAGAAGATGTCTTACCCCAGTTGTTTCCAGGTTTCTTTAGAAAGCGGGCTATTTTACCCCATGTGTCCTCAGATTTATGTCCTGGAACCAAATTCCAAATCAGCAGCCACATGAAAAGTCCCCTCCTCTCTGGCGTGGAATTAAACTGTTAGACCTGCCTTTGTGACCAAAGCAATTGTAAAACGTGGGGGAGGAAATTAAAAGCCTGCCACCTTAGTCCACACAGTGTGTGCTGTCTCTGTGTGTGTGCACGTGTGTTTATGTGTGTGTTGAATGATCACATGTTCCAGGGAGGATGGTGAGGGGCGAGGGG
>gi|469608415|ref|NM_001277227.1| Homo sapiens leucine rich repeat containing G protein-coupled receptor 5 (LGR5), transcript variant 3, mRNA
AAAAAACGAGCGTGCAAGCAGAGATGCTGCTCCACACCGCTCAGGCCGCGAGCAGCAGCAAGGCGCACCGCCACTGTCGCCGCTGCAGCCAGGGCTGCTCCGAAGGCCGGCGTGGCGGCAACCGGCACCTCTGTCCCCGCCGCGCTTCTCCTCGCCGCCCACGCCGTGGGGTCAGGAACGCGGCGTCTGGCGCTGCAGACGCCCGCTGAGTTGCAGAAGCCCACGGAGCGGCGCCCGGCGCGCCACGGCCCGTAGCAGTCCGGTGCTGCTCTCCGCCCGCGTCCGGCTCGTGGCCCCCTACTTCGGGCACCATGGACACCTCCCGGCTCGGTGTGCTCCTGTCCTTGCCTGTGCTGCTGCAGCTGGCGACCGGGGGCAGCTCTCCCAGGTCTGGTGTGTTGCTGAGGGGCTGCCCCACACACTGTCATTGCGAGCCCGACGGCAGGATGTTGCTCAGGGTGGACTGCTCCGACCTGGGGCTCTCGGAGCTGCCTTCCAACCTCAGCGTCTTCACCTCCTACCTAGACCTCAGTATGAACAACATCAGTCAGCTGCTCCCGAATCCCCTGCCCAGTCTCCGCTTCCTGGAGGAGTTACGTCTTGCGGGAAACGCTCTGACATACATTCCCAAGGGAGCATTCACTGGCCTTTACAGTCTTAAAGTTCTTATGCTGCAGAATAATCAGCTAAGACACGTACCCACAGAAGCTCTGCAGAATTTGCGAAGCCTTCAATCCCTACATCTCCATAACAATAGAATCCACTCCCTGGGAAAGAAATGCTTTGATGGGCTCCACAGCCTAGAGACTTTAGATTTAAATTACAATAACCTTGATGAATTCCCCACTGCAATTAGGACACTCTCCAACCTTAAAGAACTAGGATTTCATAGCAACAATATCAGGTCGATACCTGAGAAAGCATTTGTAGGCAACCCTTCTCTTATTACAATACATTTCTATGACAATCCCATCCAGTTTGTTGGGAGATCTGCTTTTCAACATTTACCTGAACTAAGAACACTGACTCTGAATGGTGCCTCACAAATAACTGAATTTCCTGATTTAACTGGAACTGCAAACCTGGAGAGTCTGACTTTAACTGGAGCACAGATCTCATCTCTTCCTCAAACCGTCTGCAATCAGTTACCTAATCTCCAAGTGCTAGATCTGTCTTACAACCTATTAGAAGATTTACCCAGTTTTTCAGTCTGCCAAAAGCTTCAGAAAATTGACCTAAGACATAATGAAATCTACGAAATTAAAGTTGACACTTTCCAGCAGTTGCTTAGCCTCCGATCGCTGAATTTGGCTTGGAACAAAATTGCTATTATTCACCCCAATGCATTTTCCACTTTGCCATCCCTAATAAAGCTGGACCTATCGTCCAACCTCCTGTCGTCTTTTCCTATAACTGGGTTACATGGTTTAACTCACTTAAAATTAACAGGAAATCATGCCTTACAGAGCTTGATATCATCTGAAAACTTTCCAGAACTCAAGGTTATAGAAATGCCTTATGCTTACCAGTGCTGTGCATTTGGAGTGTGTGAGAATGCCTATAAGATTTCTAATCAATGGAATAAAGGTGACAACAGCAGTATGGACGACCTTCATAAGAAAGATGCTGGAATGTTTCAGGCTCAAGATGAACGTGACCTTGAAGATTTCCTGCTTGACTTTGAGGAAGACCTGAAAGCCCTTCATTCAGTGCAGTGTTCACCTTCCCCAGGCCCCTTCAAACCCTGTGAACACCTGCTTGATGGCTGGCTGATCAGAATTGGAGTGTGGACCATAGCAGTTCTGGCACTTACTTGTAATGCTTTGGTGACTTCAACAGTTTTCAGATCCCCTCTGTACATTTCCCCCATTAAACTGTTAATTGGGGTCATCGCAGCAGTGAACATGCTCACGGGAGTCTCCAGTGCCGTGCTGGCTGGTGTGGATGCGTTCACTTTTGGCAGCTTTGCACGACATGGTGCCTGGTGGGAGAATGGGGTTGGTTGCCATGTCATTGGTTTTTTGTCCATTTTTGCTTCAGAATCATCTGTTTTCCTGCTTACTCTGGCAGCCCTGGAGCGTGGGTTCTCTGTGAAATATTCTGCAAAATTTGAAACGAAAGCTCCATTTTCTAGCCTGAAAGTAATCATTTTGCTCTGTGCCCTGCTGGCCTTGACCATGGCCGCAGTTCCCCTGCTGGGTGGCAGCAAGTATGGCGCCTCCCCTCTCTGCCTGCCTTTGCCTTTTGGGGAGCCCAGCACCATGGGCTACATGGTCGCTCTCATCTTGCTCAATTCCCTTTGCTTCCTCATGATGACCATTGCCTACACCAAGCTCTACTGCAATTTGGACAAGGGAGACCTGGAGAATATTTGGGACTGCTCTATGGTAAAACACATTGCCCTGTTGCTCTTCACCAACTGCATCCTAAACTGCCCTGTGGCTTTCTTGTCCTTCTCCTCTTTAATAAACCTTACATTTATCAGTCCTGAAGTAATTAAGTTTATCCTTCTGGTGGTAGTCCCACTTCCTGCATGTCTCAATCCCCTTCTCTACATCTTGTTCAATCCTCACTTTAAGGAGGATCTGGTGAGCCTGAGAAAGCAAACCTACGTCTGGACAAGATCAAAACACCCAAGCTTGATGTCAATTAACTCTGATGATGTCGAAAAACAGTCCTGTGACTCAACTCAAGCCTTGGTAACCTTTACCAGCTCCAGCATCACTTATGACCTGCCTCCCAGTTCCGTGCCATCACCAGCTTATCCAGTGACTGAGAGCTGCCATCTTTCCTCTGTGGCATTTGTCCCATGTCTCTAATTAATATGTGAAGGAAAATGTTTTCAAAGGTTGAGAACCTGAAAATGTGAGATTGAGTATATCAGAGCAGTAATTAATAAGAAGAGCTGAGGTGAAACTCGGTTTAAAAACCAAAAAAGAATCTCTCAGTTAGTAAGAAAAGGCTGAAAACCTCTTGATACTTGAGAGTGAATATAAGTCTAAATGCTGCTTTGTATAATTTGTTCAGCTAAGGGATAGATCGATCACACTATTTAAGTGAGCCCAGATCAAAAAAGCAGATTGAAATTTTCTTTAGAAAAGATTCTCCATGATTTGAATTGCATTCTCTTTAAACTCACCAATGTAATCATTTTGGGAGGAGGGAGAACCCACTTGCTTTCCAAATGGGTTTATTTAAACCCACAAACTCAAGAGGTTGTTGGGGGAATTAGGAAAATAAGGGTTTTCAATGACCTACATTGCTAGGTAGAGGCTGTGATCCATGGGATTTCATTCTAATGACCATGTGAAGATGTTTGAGTCCTCCTTTGCCTTTCCTCAGAAAGAATCCTTCTAAGGCACAAATCCCTTAGATGGATAATGTAAGGTATTGTTAACTCACTCATATTGAGATCATTTTTAGAGATACCAGGTTTTATGTATCAGCACTAGATGGTTCCACCCTCATGGGATAAAACTGCTTACAAGTATTTTGAAAGAAAAACTGACCAAAATTCTTAAATTGTTACTAAGGCAATCATGCACAGGTGACGTATGTCTTATCTGATTTGTTTTTAACTCCTTGGTGCCCAAAGCTCAGAAGGGAATTCCACTGCCAGCAATGAACATACCTGGAAAAGAAAGTAAGCAATCTGGGATTTTTTTTCTGGGTTAGTAAAGAATTTTTGCAATAAGTTTTATCAGTTGATTCAAACTGATGTGCATCTTAATGATCAAATGTGCACATTACATAAATTAAGTCCACTGATACAACTTCTTACACATGTATCTCTAGTAGCTCTGGCAAACCCAATATCTGACACCACTTTGGACTCAAGAGACTCAGTAACGTATTATCCTGTTTATTTAGCTTGGTTTTAGCTGTGTTCTCTCTGGATAACCCACTTGATGTTAGGAACATTACTTCTCTGCTTATTCCATATTAATACTGTGTTAGGTATTTTAAGAAGCAAGTTATTAAATAAGAAAAGTCAAAGTATTAATTCTTACCTTCTATTATCCTATATTAGCTTCAATACATCCAAACCAAATGGCTGTTAGGTAGATTTATTTTTATATAAGCATGTTTATTTTGATCAGATGTTTTAACTTGGATTTGAAAAAATACATTTATGAGATGTTTTATAAGATGTGTAAATATAGAACTGTATTTATTACTATAGTAAAGGTTCAGTAACATTAAGGACCATGATAATGATAATAAACCTTGTACAGTGGCATATTCTTTGATTTATATTGTGTTTCTCTGCCCATTTTCTTTAAATTCATTAACTGTATATATGTAAATATATAGTACTTGTAAATAGATTCCAAATTTGCTTTTCTATTGGGTAAAAAATAAATTTGTAATAAAATGTGTGACTATGAAACAAAAAAAAAAAAAAAAAA
>gi|469608413|ref|NM_001277226.1| Homo sapiens leucine rich repeat containing G protein-coupled receptor 5 (LGR5), transcript variant 2, mRNA
AAAAAACGAGCGTGCAAGCAGAGATGCTGCTCCACACCGCTCAGGCCGCGAGCAGCAGCAAGGCGCACCGCCACTGTCGCCGCTGCAGCCAGGGCTGCTCCGAAGGCCGGCGTGGCGGCAACCGGCACCTCTGTCCCCGCCGCGCTTCTCCTCGCCGCCCACGCCGTGGGGTCAGGAACGCGGCGTCTGGCGCTGCAGACGCCCGCTGAGTTGCAGAAGCCCACGGAGCGGCGCCCGGCGCGCCACGGCCCGTAGCAGTCCGGTGCTGCTCTCCGCCCGCGTCCGGCTCGTGGCCCCCTACTTCGGGCACCATGGACACCTCCCGGCTCGGTGTGCTCCTGTCCTTGCCTGTGCTGCTGCAGCTGGCGACCGGGGGCAGCTCTCCCAGGTCTGGTGTGTTGCTGAGGGGCTGCCCCACACACTGTCATTGCGAGCCCGACGGCAGGATGTTGCTCAGGGTGGACTGCTCCGACCTGGGGCTCTCGGAGCTGCCTTCCAACCTCAGCGTCTTCACCTCCTACCTAGACCTCAGTATGAACAACATCAGTCAGCTGCTCCCGAATCCCCTGCCCAGTCTCCGCTTCCTGGAGGAGTTACGTCTTGCGGGAAACGCTCTGACATACATTCCCAAGGGAGCATTCACTGGCCTTTACAGTCTTAAAGTTCTTATGCTGCAGAATAATCAGCTAAGACACGTACCCACAGAAGCTCTGCAGAATTTGCGAAGCCTTCAATCCCTGCGTCTGGATGCTAACCACATCAGCTATGTGCCCCCAAGCTGTTTCAGTGGCCTGCATTCCCTGAGGCACCTGTGGCTGGATGACAATGCGTTAACAGAAATCCCCGTCCAGGCTTTTAGAAGTTTATCGGCATTGCAAGCCATGACCTTGGCCCTGAACAAAATACACCACATACCAGACTATGCCTTTGGAAACCTCTCCAGCTTGGTAGTTCTACATCTCCATAACAATAGAATCCACTCCCTGGGAAAGAAATGCTTTGATGGGCTCCACAGCCTAGAGACTTTAGATTTAAATTACAATAACCTTGATGAATTCCCCACTGCAATTAGGACACTCTCCAACCTTAAAGAACTACATTTCTATGACAATCCCATCCAGTTTGTTGGGAGATCTGCTTTTCAACATTTACCTGAACTAAGAACACTGACTCTGAATGGTGCCTCACAAATAACTGAATTTCCTGATTTAACTGGAACTGCAAACCTGGAGAGTCTGACTTTAACTGGAGCACAGATCTCATCTCTTCCTCAAACCGTCTGCAATCAGTTACCTAATCTCCAAGTGCTAGATCTGTCTTACAACCTATTAGAAGATTTACCCAGTTTTTCAGTCTGCCAAAAGCTTCAGAAAATTGACCTAAGACATAATGAAATCTACGAAATTAAAGTTGACACTTTCCAGCAGTTGCTTAGCCTCCGATCGCTGAATTTGGCTTGGAACAAAATTGCTATTATTCACCCCAATGCATTTTCCACTTTGCCATCCCTAATAAAGCTGGACCTATCGTCCAACCTCCTGTCGTCTTTTCCTATAACTGGGTTACATGGTTTAACTCACTTAAAATTAACAGGAAATCATGCCTTACAGAGCTTGATATCATCTGAAAACTTTCCAGAACTCAAGGTTATAGAAATGCCTTATGCTTACCAGTGCTGTGCATTTGGAGTGTGTGAGAATGCCTATAAGATTTCTAATCAATGGAATAAAGGTGACAACAGCAGTATGGACGACCTTCATAAGAAAGATGCTGGAATGTTTCAGGCTCAAGATGAACGTGACCTTGAAGATTTCCTGCTTGACTTTGAGGAAGACCTGAAAGCCCTTCATTCAGTGCAGTGTTCACCTTCCCCAGGCCCCTTCAAACCCTGTGAACACCTGCTTGATGGCTGGCTGATCAGAATTGGAGTGTGGACCATAGCAGTTCTGGCACTTACTTGTAATGCTTTGGTGACTTCAACAGTTTTCAGATCCCCTCTGTACATTTCCCCCATTAAACTGTTAATTGGGGTCATCGCAGCAGTGAACATGCTCACGGGAGTCTCCAGTGCCGTGCTGGCTGGTGTGGATGCGTTCACTTTTGGCAGCTTTGCACGACATGGTGCCTGGTGGGAGAATGGGGTTGGTTGCCATGTCATTGGTTTTTTGTCCATTTTTGCTTCAGAATCATCTGTTTTCCTGCTTACTCTGGCAGCCCTGGAGCGTGGGTTCTCTGTGAAATATTCTGCAAAATTTGAAACGAAAGCTCCATTTTCTAGCCTGAAAGTAATCATTTTGCTCTGTGCCCTGCTGGCCTTGACCATGGCCGCAGTTCCCCTGCTGGGTGGCAGCAAGTATGGCGCCTCCCCTCTCTGCCTGCCTTTGCCTTTTGGGGAGCCCAGCACCATGGGCTACATGGTCGCTCTCATCTTGCTCAATTCCCTTTGCTTCCTCATGATGACCATTGCCTACACCAAGCTCTACTGCAATTTGGACAAGGGAGACCTGGAGAATATTTGGGACTGCTCTATGGTAAAACACATTGCCCTGTTGCTCTTCACCAACTGCATCCTAAACTGCCCTGTGGCTTTCTTGTCCTTCTCCTCTTTAATAAACCTTACATTTATCAGTCCTGAAGTAATTAAGTTTATCCTTCTGGTGGTAGTCCCACTTCCTGCATGTCTCAATCCCCTTCTCTACATCTTGTTCAATCCTCACTTTAAGGAGGATCTGGTGAGCCTGAGAAAGCAAACCTACGTCTGGACAAGATCAAAACACCCAAGCTTGATGTCAATTAACTCTGATGATGTCGAAAAACAGTCCTGTGACTCAACTCAAGCCTTGGTAACCTTTACCAGCTCCAGCATCACTTATGACCTGCCTCCCAGTTCCGTGCCATCACCAGCTTATCCAGTGACTGAGAGCTGCCATCTTTCCTCTGTGGCATTTGTCCCATGTCTCTAATTAATATGTGAAGGAAAATGTTTTCAAAGGTTGAGAACCTGAAAATGTGAGATTGAGTATATCAGAGCAGTAATTAATAAGAAGAGCTGAGGTGAAACTCGGTTTAAAAACCAAAAAAGAATCTCTCAGTTAGTAAGAAAAGGCTGAAAACCTCTTGATACTTGAGAGTGAATATAAGTCTAAATGCTGCTTTGTATAATTTGTTCAGCTAAGGGATAGATCGATCACACTATTTAAGTGAGCCCAGATCAAAAAAGCAGATTGAAATTTTCTTTAGAAAAGATTCTCCATGATTTGAATTGCATTCTCTTTAAACTCACCAATGTAATCATTTTGGGAGGAGGGAGAACCCACTTGCTTTCCAAATGGGTTTATTTAAACCCACAAACTCAAGAGGTTGTTGGGGGAATTAGGAAAATAAGGGTTTTCAATGACCTACATTGCTAGGTAGAGGCTGTGATCCATGGGATTTCATTCTAATGACCATGTGAAGATGTTTGAGTCCTCCTTTGCCTTTCCTCAGAAAGAATCCTTCTAAGGCACAAATCCCTTAGATGGATAATGTAAGGTATTGTTAACTCACTCATATTGAGATCATTTTTAGAGATACCAGGTTTTATGTATCAGCACTAGATGGTTCCACCCTCATGGGATAAAACTGCTTACAAGTATTTTGAAAGAAAAACTGACCAAAATTCTTAAATTGTTACTAAGGCAATCATGCACAGGTGACGTATGTCTTATCTGATTTGTTTTTAACTCCTTGGTGCCCAAAGCTCAGAAGGGAATTCCACTGCCAGCAATGAACATACCTGGAAAAGAAAGTAAGCAATCTGGGATTTTTTTTCTGGGTTAGTAAAGAATTTTTGCAATAAGTTTTATCAGTTGATTCAAACTGATGTGCATCTTAATGATCAAATGTGCACATTACATAAATTAAGTCCACTGATACAACTTCTTACACATGTATCTCTAGTAGCTCTGGCAAACCCAATATCTGACACCACTTTGGACTCAAGAGACTCAGTAACGTATTATCCTGTTTATTTAGCTTGGTTTTAGCTGTGTTCTCTCTGGATAACCCACTTGATGTTAGGAACATTACTTCTCTGCTTATTCCATATTAATACTGTGTTAGGTATTTTAAGAAGCAAGTTATTAAATAAGAAAAGTCAAAGTATTAATTCTTACCTTCTATTATCCTATATTAGCTTCAATACATCCAAACCAAATGGCTGTTAGGTAGATTTATTTTTATATAAGCATGTTTATTTTGATCAGATGTTTTAACTTGGATTTGAAAAAATACATTTATGAGATGTTTTATAAGATGTGTAAATATAGAACTGTATTTATTACTATAGTAAAGGTTCAGTAACATTAAGGACCATGATAATGATAATAAACCTTGTACAGTGGCATATTCTTTGATTTATATTGTGTTTCTCTGCCCATTTTCTTTAAATTCATTAACTGTATATATGTAAATATATAGTACTTGTAAATAGATTCCAAATTTGCTTTTCTATTGGGTAAAAAATAAATTTGTAATAAAATGTGTGACTATGAAACAAAAAAAAAAAAAAAAAA
>gi|469608412|ref|NM_003667.3| Homo sapiens leucine rich repeat containing G protein-coupled receptor 5 (LGR5), transcript variant 1, mRNA
AAAAAACGAGCGTGCAAGCAGAGATGCTGCTCCACACCGCTCAGGCCGCGAGCAGCAGCAAGGCGCACCGCCACTGTCGCCGCTGCAGCCAGGGCTGCTCCGAAGGCCGGCGTGGCGGCAACCGGCACCTCTGTCCCCGCCGCGCTTCTCCTCGCCGCCCACGCCGTGGGGTCAGGAACGCGGCGTCTGGCGCTGCAGACGCCCGCTGAGTTGCAGAAGCCCACGGAGCGGCGCCCGGCGCGCCACGGCCCGTAGCAGTCCGGTGCTGCTCTCCGCCCGCGTCCGGCTCGTGGCCCCCTACTTCGGGCACCATGGACACCTCCCGGCTCGGTGTGCTCCTGTCCTTGCCTGTGCTGCTGCAGCTGGCGACCGGGGGCAGCTCTCCCAGGTCTGGTGTGTTGCTGAGGGGCTGCCCCACACACTGTCATTGCGAGCCCGACGGCAGGATGTTGCTCAGGGTGGACTGCTCCGACCTGGGGCTCTCGGAGCTGCCTTCCAACCTCAGCGTCTTCACCTCCTACCTAGACCTCAGTATGAACAACATCAGTCAGCTGCTCCCGAATCCCCTGCCCAGTCTCCGCTTCCTGGAGGAGTTACGTCTTGCGGGAAACGCTCTGACATACATTCCCAAGGGAGCATTCACTGGCCTTTACAGTCTTAAAGTTCTTATGCTGCAGAATAATCAGCTAAGACACGTACCCACAGAAGCTCTGCAGAATTTGCGAAGCCTTCAATCCCTGCGTCTGGATGCTAACCACATCAGCTATGTGCCCCCAAGCTGTTTCAGTGGCCTGCATTCCCTGAGGCACCTGTGGCTGGATGACAATGCGTTAACAGAAATCCCCGTCCAGGCTTTTAGAAGTTTATCGGCATTGCAAGCCATGACCTTGGCCCTGAACAAAATACACCACATACCAGACTATGCCTTTGGAAACCTCTCCAGCTTGGTAGTTCTACATCTCCATAACAATAGAATCCACTCCCTGGGAAAGAAATGCTTTGATGGGCTCCACAGCCTAGAGACTTTAGATTTAAATTACAATAACCTTGATGAATTCCCCACTGCAATTAGGACACTCTCCAACCTTAAAGAACTAGGATTTCATAGCAACAATATCAGGTCGATACCTGAGAAAGCATTTGTAGGCAACCCTTCTCTTATTACAATACATTTCTATGACAATCCCATCCAGTTTGTTGGGAGATCTGCTTTTCAACATTTACCTGAACTAAGAACACTGACTCTGAATGGTGCCTCACAAATAACTGAATTTCCTGATTTAACTGGAACTGCAAACCTGGAGAGTCTGACTTTAACTGGAGCACAGATCTCATCTCTTCCTCAAACCGTCTGCAATCAGTTACCTAATCTCCAAGTGCTAGATCTGTCTTACAACCTATTAGAAGATTTACCCAGTTTTTCAGTCTGCCAAAAGCTTCAGAAAATTGACCTAAGACATAATGAAATCTACGAAATTAAAGTTGACACTTTCCAGCAGTTGCTTAGCCTCCGATCGCTGAATTTGGCTTGGAACAAAATTGCTATTATTCACCCCAATGCATTTTCCACTTTGCCATCCCTAATAAAGCTGGACCTATCGTCCAACCTCCTGTCGTCTTTTCCTATAACTGGGTTACATGGTTTAACTCACTTAAAATTAACAGGAAATCATGCCTTACAGAGCTTGATATCATCTGAAAACTTTCCAGAACTCAAGGTTATAGAAATGCCTTATGCTTACCAGTGCTGTGCATTTGGAGTGTGTGAGAATGCCTATAAGATTTCTAATCAATGGAATAAAGGTGACAACAGCAGTATGGACGACCTTCATAAGAAAGATGCTGGAATGTTTCAGGCTCAAGATGAACGTGACCTTGAAGATTTCCTGCTTGACTTTGAGGAAGACCTGAAAGCCCTTCATTCAGTGCAGTGTTCACCTTCCCCAGGCCCCTTCAAACCCTGTGAACACCTGCTTGATGGCTGGCTGATCAGAATTGGAGTGTGGACCATAGCAGTTCTGGCACTTACTTGTAATGCTTTGGTGACTTCAACAGTTTTCAGATCCCCTCTGTACATTTCCCCCATTAAACTGTTAATTGGGGTCATCGCAGCAGTGAACATGCTCACGGGAGTCTCCAGTGCCGTGCTGGCTGGTGTGGATGCGTTCACTTTTGGCAGCTTTGCACGACATGGTGCCTGGTGGGAGAATGGGGTTGGTTGCCATGTCATTGGTTTTTTGTCCATTTTTGCTTCAGAATCATCTGTTTTCCTGCTTACTCTGGCAGCCCTGGAGCGTGGGTTCTCTGTGAAATATTCTGCAAAATTTGAAACGAAAGCTCCATTTTCTAGCCTGAAAGTAATCATTTTGCTCTGTGCCCTGCTGGCCTTGACCATGGCCGCAGTTCCCCTGCTGGGTGGCAGCAAGTATGGCGCCTCCCCTCTCTGCCTGCCTTTGCCTTTTGGGGAGCCCAGCACCATGGGCTACATGGTCGCTCTCATCTTGCTCAATTCCCTTTGCTTCCTCATGATGACCATTGCCTACACCAAGCTCTACTGCAATTTGGACAAGGGAGACCTGGAGAATATTTGGGACTGCTCTATGGTAAAACACATTGCCCTGTTGCTCTTCACCAACTGCATCCTAAACTGCCCTGTGGCTTTCTTGTCCTTCTCCTCTTTAATAAACCTTACATTTATCAGTCCTGAAGTAATTAAGTTTATCCTTCTGGTGGTAGTCCCACTTCCTGCATGTCTCAATCCCCTTCTCTACATCTTGTTCAATCCTCACTTTAAGGAGGATCTGGTGAGCCTGAGAAAGCAAACCTACGTCTGGACAAGATCAAAACACCCAAGCTTGATGTCAATTAACTCTGATGATGTCGAAAAACAGTCCTGTGACTCAACTCAAGCCTTGGTAACCTTTACCAGCTCCAGCATCACTTATGACCTGCCTCCCAGTTCCGTGCCATCACCAGCTTATCCAGTGACTGAGAGCTGCCATCTTTCCTCTGTGGCATTTGTCCCATGTCTCTAATTAATATGTGAAGGAAAATGTTTTCAAAGGTTGAGAACCTGAAAATGTGAGATTGAGTATATCAGAGCAGTAATTAATAAGAAGAGCTGAGGTGAAACTCGGTTTAAAAACCAAAAAAGAATCTCTCAGTTAGTAAGAAAAGGCTGAAAACCTCTTGATACTTGAGAGTGAATATAAGTCTAAATGCTGCTTTGTATAATTTGTTCAGCTAAGGGATAGATCGATCACACTATTTAAGTGAGCCCAGATCAAAAAAGCAGATTGAAATTTTCTTTAGAAAAGATTCTCCATGATTTGAATTGCATTCTCTTTAAACTCACCAATGTAATCATTTTGGGAGGAGGGAGAACCCACTTGCTTTCCAAATGGGTTTATTTAAACCCACAAACTCAAGAGGTTGTTGGGGGAATTAGGAAAATAAGGGTTTTCAATGACCTACATTGCTAGGTAGAGGCTGTGATCCATGGGATTTCATTCTAATGACCATGTGAAGATGTTTGAGTCCTCCTTTGCCTTTCCTCAGAAAGAATCCTTCTAAGGCACAAATCCCTTAGATGGATAATGTAAGGTATTGTTAACTCACTCATATTGAGATCATTTTTAGAGATACCAGGTTTTATGTATCAGCACTAGATGGTTCCACCCTCATGGGATAAAACTGCTTACAAGTATTTTGAAAGAAAAACTGACCAAAATTCTTAAATTGTTACTAAGGCAATCATGCACAGGTGACGTATGTCTTATCTGATTTGTTTTTAACTCCTTGGTGCCCAAAGCTCAGAAGGGAATTCCACTGCCAGCAATGAACATACCTGGAAAAGAAAGTAAGCAATCTGGGATTTTTTTTCTGGGTTAGTAAAGAATTTTTGCAATAAGTTTTATCAGTTGATTCAAACTGATGTGCATCTTAATGATCAAATGTGCACATTACATAAATTAAGTCCACTGATACAACTTCTTACACATGTATCTCTAGTAGCTCTGGCAAACCCAATATCTGACACCACTTTGGACTCAAGAGACTCAGTAACGTATTATCCTGTTTATTTAGCTTGGTTTTAGCTGTGTTCTCTCTGGATAACCCACTTGATGTTAGGAACATTACTTCTCTGCTTATTCCATATTAATACTGTGTTAGGTATTTTAAGAAGCAAGTTATTAAATAAGAAAAGTCAAAGTATTAATTCTTACCTTCTATTATCCTATATTAGCTTCAATACATCCAAACCAAATGGCTGTTAGGTAGATTTATTTTTATATAAGCATGTTTATTTTGATCAGATGTTTTAACTTGGATTTGAAAAAATACATTTATGAGATGTTTTATAAGATGTGTAAATATAGAACTGTATTTATTACTATAGTAAAGGTTCAGTAACATTAAGGACCATGATAATGATAATAAACCTTGTACAGTGGCATATTCTTTGATTTATATTGTGTTTCTCTGCCCATTTTCTTTAAATTCATTAACTGTATATATGTAAATATATAGTACTTGTAAATAGATTCCAAATTTGCTTTTCTATTGGGTAAAAAATAAATTTGTAATAAAATGTGTGACTATGAAACAAAAAAAAAAAAAAAAAA
>gi|410444378|ref|NM_001271608.1| Homo sapiens LIM and SH3 protein 1 (LASP1), transcript variant 2, mRNA
GCAGTCAGCCTGAGAGCGCTGAGGCGCCAGCACCGCGGGCCCCGCCGTCCCCCCAGGAACCCGCCCCCGCGCAGCCCCACGTCGCCCGGAGAGCGCGCCTCGCTGCGCGTGCCCTTGCCCGCGCCCGAGGCGCGTGCCCGCCCCAGTGCAGCCCCTCCTCCCCGCTGTGTTTATTAGGGGAAGGAGGGCGGAGGCGGAGGCCAGTTCCCCAGCTCCAGCCGCCGTCGCTGCTGCCTGTGTAGTTGCAGCCGCGGCCGCCTCCCGCCAGCTCGCCTCGGGGAACAGGACGCGCGTGAGCTCAGGCGTCCCCGCCCCAGCTTTTCTCGGAACCATGAACCCCAACTGCGCCCGGTGCGGCAAGATCGTGTATCCCACGGAGAAGGTGAACTGTCTGGATAAGTTCTGGCATAAAGCATGCTTCCATTGCGAGACCTGCAAGATGACACTGAACATGAAGAACTACAAGGGCTACGAGAAGAAGCCCTACTGCAACGCGTGCGCTACAAGGAGGAGTTTGAGAAGAACAAGGGCAAAGGTTTCAGCGTAGTGGCAGACACGCCCGAGCTCCAGAGAATCAAGAAGACCCAGGACCAGATCAGTAACATAAAATACCATGAGGAGTTTGAGAAGAGCCGCATGGGCCCTAGCGGGGGCGAGGGCATGGAGCCAGAGCGTCGGGATTCACAGGACGGCAGCAGCTACCGGCGGCCCCTGGAGCAGCAGCAGCCTCACCACATCCCGACCAGTGCCCCGGTTTACCAGCAGCCCCAGCAGCAGCCGGTGGCCCAGTCCTATGGTGGCTACAAGGAGCCTGCAGCCCCAGTCTCCATACAGCGCAGCGCCCCAGGTGGTGGCGGGAAGCGGTACCGCGCGGTGTATGACTACAGCGCCGCCGACGAGGACGAGGTCTCCTTCCAGGACGGGGACACCATCGTCAACGTGCAGCAGATCGACGACGGCTGGATGTACGGGACGGTGGAGCGCACCGGCGACACGGGGATGCTGCCGGCCAACTACGTGGAGGCCATCTGAACCCGCAGCGCCCCCATCTGTCTTCAGCACATTCCACGGCATCGCATCCGTCCTGGGCGTGACCCGTCCATTCTTCAGTGTCTCTGTTTTTTAAAACCTGCGACAGCTTGTGATTCCTACCCCTCTTCCAGCTTCTTTTGCCAACTGAAGCCTTCTTCTGCCACTTCTGCGGGCTCCCTCCTCTGGCAGGCTTCCCCCTTGATCGACTTCTTGGTTTTCTCTCTGGATGGAACGGGCATGGGCCTCTCTGGGGGAGGCAGGGCTGGAATGGGAGACCTGTTGGCCTGTGGGCCTCACCTGCCCCTCTGTTCTCTCCCCTCACATCCTCCTGCCCAGCTCCTCACATACCCACACATTCCAGGGCTGGGGTGAGCCTGACTGCCAGGACCCCAGGTCAGGGGCTCCCTACATTCCCCAGAGTGGGATCCACTTCTTGGTTCCTGGGATGGCGATGGGGACTCTGCCGCTGTGTAGGGACCAGTGGGATGGGCTCTACCTCTCTTTCTCAAAGAGGGGGCTCTGCCCACCTGGGGTCTCTCTCCCTACCTCCCTCCTCAGGGGCAACAACAGGAGAATGGGGTTCCTGCTGTGGGGCGAATTCATCCCCTCCCCGCGCGTTCCTTCGCACACTGTGATTTTGCCCTCCTGCCCACGCAGACCTGCAGCGGGCAAAGAGCTCCCGAGGAAGCACAGCTTGGGTCAGGTTCTTGCCTTTCTTAATTTTAGGGACAGCTACCGGAAGGAGGGGAACAAGGAGTTCTCTTCCGCAGCCCCTTTCCCCACGCCCACCCCCAGTCTCCAGGGACCCTTGCCTGCCTCCTAGGCTGGAAGCCATGGTCCCGAAGTGTAGGGCAAGGGTGCCTCAGGACCTTTTGGTCTTCAGCCTCCCTCAGCCCCCAGGATCTGGGTTAGGTGGCCGCTCCTCCCTGCTCCTCATGGGAAGATGTCTCAGAGCCTTCCATGACCTCCCCTCCCCAGCCCAATGCCAAGTGGACTTGGAGCTGCACAAAGTCAGCAGGGACCACTAAATCTCCAAGACCTGGTGTGCGGAGGCAGGAGCATGTATGTCTGCAGGTGTCTGACACGCAAGTGTGTGAGTGTGAGTGTGAGAGATGGGGCGGGGGTGTGTCTGTAGGTGTCTCTGGGCCTGTGTGTGGGTGGGGTTATGTGAGGGTATGAAGAGCTGTCTTCCCCTGAGAGTTTCCTCAGAACCCACAGTGAGAGGGGAGGGCTCCTGGGGCAGAGAAGTTCCTTAGGTTTTCTTTGGAATGAAATTCCTCCTTCCCCCCATCTCTGAGTGGAGGAAGCCCACCAATCTGCCCTTTGCAGTGTGCAGGGTGGAAGGTAAGAGGTTGGTGTGGAGTTGGGGCTGCCATAGGGTCTGCAGCCTGCTGGGGCTAAGCGGTGGAGGAAGGCTCTGTCACTCCAGGCATATGTTTCCCCATCTCTGTCTGGGGCTACAGAATAGGGTGGCAGAAGTGTCACCCTGTGGGTGTCTCCCTCGGGGGCTCTTCCCCTAGACCTCCCCCTCACTTACATAAAGCTCCCTTGAAGCAAGAAAGAGGGTCCCAGGGCTGCAAAACTGGAAGCACAGCCTCGGGGATGGGGAGGGAAAGACGGTGCTATATCCAGTTCCTGCTCTCTGCTCATGGGTGGCTGTGACAACCCTGGCCTCACTTGATTCATCTCTGGTTTTCTTGCCACCCTCTGGGAGTCCCCATCCCATTTTCATCCTGAGCCCAACCAGGCCCTGCCATTGGCCTCTTGTCCCTTGGCACACTTGTACCCACAGGTGAGGGGCAGGACCTGAAGGTATTGGCCTGTTCAACAATCAGTCATCATGGGTGTTTTTGTCAACTGCTTGTTAATTGATTTGGGGATGTTTGCCCCGAATGAGAGGTTGAGGAAAAGACTGTGGGTGGGGAGGCCCTGCCTGACCCATCCCTTTTCCTTTCTGGCCCCAGCCTAGGTGGAGGCAAGTGGAATATCTTATATTGGGCGATTTGGGGGCTCGGGGAGGCAGAGAATCTCTTGGGAGTCTTGGGTGGCGCTGGTGCATTCTGTTTCCTCTTGATCTCAAAGCACAATGTGGATTTGGGGACCAAAGGTCAGGGACACATCCCCTTAGAGGACCTGAGTTTGGGAGAGTGGTGAGTGGAAGGGAGGAGCAGCAAGAAGCAGCCTGTTTTCACTCAGCTTAATTCTCCTTCCCAGATAAGGCAAGCCAGTCATGGAATCTTGCTGCAGGCCCTCCCTCTACTCTTCCTGTCCTAAAAATAGGGGCCGTTTTCTTACACACCCCCAGAGAGAGGAGGGACTGTCACACTGGTGCTGAGTGACCGGGGGCTGCTGGGCGTCTGTTCTTTACCAAAACCATCCATCCCTAGAAGAGCACAGAGCCCTGAGGGGCTGGGCTGGGCTGGGCTGAGCCCCTGGTCTTCTCTACAGTTCACAGAGGTCTTTCAGCTCATTTAATCCCAGGAAAGAGGCATCAAAGCTAGAATGTGAATATAACTTTTGTGGACCAATACTAAGAATAACAAGAAGCCCAGTGGTGAGGAAAGTGCGTTCTCCCAGCACTGCCTCCTGTTTTCTCCCTCTCATGTCCCTCCAGGGAAAATGACTTTATTGCTTAATTTCTGCCTTTCCCCCCTCACACATGCACTTTTGGGCCTTTTTTTATAGCTGGAAAAAACAAAATACCACCCTACAAACCTGTATTTAAAAAGAAACAGAAATGACCACGTGAAATTTGCCTCTGTCCAAACATTTCATCCGTGTGTATGTGTATGTGTGTGAGTGTGTGAAGCCGCCAGTTCATCTTTTTATATGGGGTTGTTGTCTCATTTTGGTCTGTTTTGGTCCCCTCCCTCGTGGGCTTGTGCTCGGGATCAAACCTTTCTGGCCTGTTATGATTCTGAACATTTGACTTGAACCACAAGTGAATCTTTCTCCTGGTGACTCAAATAAAAGTATAATTTTTACCTGCGGAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|410110897|ref|NM_006148.3| Homo sapiens LIM and SH3 protein 1 (LASP1), transcript variant 1, mRNA
GCAGTCAGCCTGAGAGCGCTGAGGCGCCAGCACCGCGGGCCCCGCCGTCCCCCCAGGAACCCGCCCCCGCGCAGCCCCACGTCGCCCGGAGAGCGCGCCTCGCTGCGCGTGCCCTTGCCCGCGCCCGAGGCGCGTGCCCGCCCCAGTGCAGCCCCTCCTCCCCGCTGTGTTTATTAGGGGAAGGAGGGCGGAGGCGGAGGCCAGTTCCCCAGCTCCAGCCGCCGTCGCTGCTGCCTGTGTAGTTGCAGCCGCGGCCGCCTCCCGCCAGCTCGCCTCGGGGAACAGGACGCGCGTGAGCTCAGGCGTCCCCGCCCCAGCTTTTCTCGGAACCATGAACCCCAACTGCGCCCGGTGCGGCAAGATCGTGTATCCCACGGAGAAGGTGAACTGTCTGGATAAGTTCTGGCATAAAGCATGCTTCCATTGCGAGACCTGCAAGATGACACTGAACATGAAGAACTACAAGGGCTACGAGAAGAAGCCCTACTGCAACGCACACTACCCCAAGCAGTCCTTCACCATGGTGGCGGACACCCCGGAAAACCTTCGCCTCAAGCAACAGAGTGAGCTCCAGAGTCAGGTGCGCTACAAGGAGGAGTTTGAGAAGAACAAGGGCAAAGGTTTCAGCGTAGTGGCAGACACGCCCGAGCTCCAGAGAATCAAGAAGACCCAGGACCAGATCAGTAACATAAAATACCATGAGGAGTTTGAGAAGAGCCGCATGGGCCCTAGCGGGGGCGAGGGCATGGAGCCAGAGCGTCGGGATTCACAGGACGGCAGCAGCTACCGGCGGCCCCTGGAGCAGCAGCAGCCTCACCACATCCCGACCAGTGCCCCGGTTTACCAGCAGCCCCAGCAGCAGCCGGTGGCCCAGTCCTATGGTGGCTACAAGGAGCCTGCAGCCCCAGTCTCCATACAGCGCAGCGCCCCAGGTGGTGGCGGGAAGCGGTACCGCGCGGTGTATGACTACAGCGCCGCCGACGAGGACGAGGTCTCCTTCCAGGACGGGGACACCATCGTCAACGTGCAGCAGATCGACGACGGCTGGATGTACGGGACGGTGGAGCGCACCGGCGACACGGGGATGCTGCCGGCCAACTACGTGGAGGCCATCTGAACCCGCAGCGCCCCCATCTGTCTTCAGCACATTCCACGGCATCGCATCCGTCCTGGGCGTGACCCGTCCATTCTTCAGTGTCTCTGTTTTTTAAAACCTGCGACAGCTTGTGATTCCTACCCCTCTTCCAGCTTCTTTTGCCAACTGAAGCCTTCTTCTGCCACTTCTGCGGGCTCCCTCCTCTGGCAGGCTTCCCCCTTGATCGACTTCTTGGTTTTCTCTCTGGATGGAACGGGCATGGGCCTCTCTGGGGGAGGCAGGGCTGGAATGGGAGACCTGTTGGCCTGTGGGCCTCACCTGCCCCTCTGTTCTCTCCCCTCACATCCTCCTGCCCAGCTCCTCACATACCCACACATTCCAGGGCTGGGGTGAGCCTGACTGCCAGGACCCCAGGTCAGGGGCTCCCTACATTCCCCAGAGTGGGATCCACTTCTTGGTTCCTGGGATGGCGATGGGGACTCTGCCGCTGTGTAGGGACCAGTGGGATGGGCTCTACCTCTCTTTCTCAAAGAGGGGGCTCTGCCCACCTGGGGTCTCTCTCCCTACCTCCCTCCTCAGGGGCAACAACAGGAGAATGGGGTTCCTGCTGTGGGGCGAATTCATCCCCTCCCCGCGCGTTCCTTCGCACACTGTGATTTTGCCCTCCTGCCCACGCAGACCTGCAGCGGGCAAAGAGCTCCCGAGGAAGCACAGCTTGGGTCAGGTTCTTGCCTTTCTTAATTTTAGGGACAGCTACCGGAAGGAGGGGAACAAGGAGTTCTCTTCCGCAGCCCCTTTCCCCACGCCCACCCCCAGTCTCCAGGGACCCTTGCCTGCCTCCTAGGCTGGAAGCCATGGTCCCGAAGTGTAGGGCAAGGGTGCCTCAGGACCTTTTGGTCTTCAGCCTCCCTCAGCCCCCAGGATCTGGGTTAGGTGGCCGCTCCTCCCTGCTCCTCATGGGAAGATGTCTCAGAGCCTTCCATGACCTCCCCTCCCCAGCCCAATGCCAAGTGGACTTGGAGCTGCACAAAGTCAGCAGGGACCACTAAATCTCCAAGACCTGGTGTGCGGAGGCAGGAGCATGTATGTCTGCAGGTGTCTGACACGCAAGTGTGTGAGTGTGAGTGTGAGAGATGGGGCGGGGGTGTGTCTGTAGGTGTCTCTGGGCCTGTGTGTGGGTGGGGTTATGTGAGGGTATGAAGAGCTGTCTTCCCCTGAGAGTTTCCTCAGAACCCACAGTGAGAGGGGAGGGCTCCTGGGGCAGAGAAGTTCCTTAGGTTTTCTTTGGAATGAAATTCCTCCTTCCCCCCATCTCTGAGTGGAGGAAGCCCACCAATCTGCCCTTTGCAGTGTGCAGGGTGGAAGGTAAGAGGTTGGTGTGGAGTTGGGGCTGCCATAGGGTCTGCAGCCTGCTGGGGCTAAGCGGTGGAGGAAGGCTCTGTCACTCCAGGCATATGTTTCCCCATCTCTGTCTGGGGCTACAGAATAGGGTGGCAGAAGTGTCACCCTGTGGGTGTCTCCCTCGGGGGCTCTTCCCCTAGACCTCCCCCTCACTTACATAAAGCTCCCTTGAAGCAAGAAAGAGGGTCCCAGGGCTGCAAAACTGGAAGCACAGCCTCGGGGATGGGGAGGGAAAGACGGTGCTATATCCAGTTCCTGCTCTCTGCTCATGGGTGGCTGTGACAACCCTGGCCTCACTTGATTCATCTCTGGTTTTCTTGCCACCCTCTGGGAGTCCCCATCCCATTTTCATCCTGAGCCCAACCAGGCCCTGCCATTGGCCTCTTGTCCCTTGGCACACTTGTACCCACAGGTGAGGGGCAGGACCTGAAGGTATTGGCCTGTTCAACAATCAGTCATCATGGGTGTTTTTGTCAACTGCTTGTTAATTGATTTGGGGATGTTTGCCCCGAATGAGAGGTTGAGGAAAAGACTGTGGGTGGGGAGGCCCTGCCTGACCCATCCCTTTTCCTTTCTGGCCCCAGCCTAGGTGGAGGCAAGTGGAATATCTTATATTGGGCGATTTGGGGGCTCGGGGAGGCAGAGAATCTCTTGGGAGTCTTGGGTGGCGCTGGTGCATTCTGTTTCCTCTTGATCTCAAAGCACAATGTGGATTTGGGGACCAAAGGTCAGGGACACATCCCCTTAGAGGACCTGAGTTTGGGAGAGTGGTGAGTGGAAGGGAGGAGCAGCAAGAAGCAGCCTGTTTTCACTCAGCTTAATTCTCCTTCCCAGATAAGGCAAGCCAGTCATGGAATCTTGCTGCAGGCCCTCCCTCTACTCTTCCTGTCCTAAAAATAGGGGCCGTTTTCTTACACACCCCCAGAGAGAGGAGGGACTGTCACACTGGTGCTGAGTGACCGGGGGCTGCTGGGCGTCTGTTCTTTACCAAAACCATCCATCCCTAGAAGAGCACAGAGCCCTGAGGGGCTGGGCTGGGCTGGGCTGAGCCCCTGGTCTTCTCTACAGTTCACAGAGGTCTTTCAGCTCATTTAATCCCAGGAAAGAGGCATCAAAGCTAGAATGTGAATATAACTTTTGTGGACCAATACTAAGAATAACAAGAAGCCCAGTGGTGAGGAAAGTGCGTTCTCCCAGCACTGCCTCCTGTTTTCTCCCTCTCATGTCCCTCCAGGGAAAATGACTTTATTGCTTAATTTCTGCCTTTCCCCCCTCACACATGCACTTTTGGGCCTTTTTTTATAGCTGGAAAAAACAAAATACCACCCTACAAACCTGTATTTAAAAAGAAACAGAAATGACCACGTGAAATTTGCCTCTGTCCAAACATTTCATCCGTGTGTATGTGTATGTGTGTGAGTGTGTGAAGCCGCCAGTTCATCTTTTTATATGGGGTTGTTGTCTCATTTTGGTCTGTTTTGGTCCCCTCCCTCGTGGGCTTGTGCTCGGGATCAAACCTTTCTGGCCTGTTATGATTCTGAACATTTGACTTGAACCACAAGTGAATCTTTCTCCTGGTGACTCAAATAAAAGTATAATTTTTACCTGCGGAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|387849236|ref|NM_002613.4| Homo sapiens 3-phosphoinositide dependent protein kinase 1 (PDPK1), transcript variant 1, mRNA
GCGGCGCCGGGGGCGGGGGGCGGCGGGCGACGGGGCGGGCGCAGGATGAGGGCGGCCATTGCTGGGGCTCCGCTTCGGGGAGGAGGACGCTGAGGAGGCGCCGAGCCGCGCAGCGCTGCGGGGGAGGCGCCCGCGCCGACGCGGGGCCCATGGCCAGGACCACCAGCCAGCTGTATGACGCCGTGCCCATCCAGTCCAGCGTGGTGTTATGTTCCTGCCCATCCCCATCAATGGTGAGGACCCAGACTGAGTCCAGCACGCCCCCTGGCATTCCTGGTGGCAGCAGGCAGGGCCCCGCCATGGACGGCACTGCAGCCGAGCCTCGGCCCGGCGCCGGCTCCCTGCAGCATGCCCAGCCTCCGCCGCAGCCTCGGAAGAAGCGGCCTGAGGACTTCAAGTTTGGGAAAATCCTTGGGGAAGGCTCTTTTTCCACGGTTGTCCTGGCTCGAGAACTGGCAACCTCCAGAGAATATGCGATTAAAATTCTGGAGAAGCGACATATCATAAAAGAGAACAAGGTCCCCTATGTAACCAGAGAGCGGGATGTCATGTCGCGCCTGGATCACCCCTTCTTTGTTAAGCTTTACTTCACATTTCAGGACGACGAGAAGCTGTATTTCGGCCTTAGTTATGCCAAAAATGGAGAACTACTTAAATATATTCGCAAAATCGGTTCATTCGATGAGACCTGTACCCGATTTTACACGGCTGAGATTGTGTCTGCTTTAGAGTACTTGCACGGCAAGGGCATCATTCACAGGGACCTTAAACCGGAAAACATTTTGTTAAATGAAGATATGCACATCCAGATCACAGATTTTGGAACAGCAAAAGTCTTATCCCCAGAGAGCAAACAAGCCAGGGCCAACTCATTCGTGGGAACAGCGCAGTACGTTTCTCCAGAGCTGCTCACGGAGAAGTCCGCCTGTAAGAGTTCAGACCTTTGGGCTCTTGGATGCATAATATACCAGCTTGTGGCAGGACTCCCACCATTCCGAGCTGGAAACGAGTATCTTATATTTCAGAAGATCATTAAGTTGGAATATGACTTTCCAGAAAAATTCTTCCCTAAGGCAAGAGACCTCGTGGAGAAACTTTTGGTTTTAGATGCCACAAAGCGGTTAGGCTGTGAGGAAATGGAAGGATACGGACCTCTTAAAGCACACCCGTTCTTCGAGTCCGTCACGTGGGAGAACCTGCACCAGCAGACGCCTCCGAAGCTCACCGCTTACCTGCCGGCTATGTCGGAAGACGACGAGGACTGCTATGGCAATTATGACAATCTCCTGAGCCAGTTTGGCTGCATGCAGGTGTCTTCGTCCTCCTCCTCACACTCCCTGTCAGCCTCCGACACGGGCCTGCCCCAGAGGTCAGGCAGCAACATAGAGCAGTACATTCACGATCTGGACTCGAACTCCTTTGAACTGGACTTACAGTTTTCCGAAGATGAGAAGAGGTTGTTGTTGGAGAAGCAGGCTGGCGGAAACCCTTGGCACCAGTTTGTAGAAAATAATTTAATACTAAAGATGGGCCCAGTGGATAAGCGGAAGGGTTTATTTGCAAGACGACGACAGCTGTTGCTCACAGAAGGACCACATTTATATTATGTGGATCCTGTCAACAAAGTTCTGAAAGGTGAAATTCCTTGGTCACAAGAACTTCGACCAGAGGCCAAGAATTTTAAAACTTTCTTTGTCCACACGCCTAACAGGACGTATTATCTGATGGACCCCAGCGGGAACGCACACAAGTGGTGCAGGAAGATCCAGGAGGTTTGGAGGCAGCGATACCAGAGCCACCCGGACGCCGCTGTGCAGTGACGTGGCCTGCGGCCGGGCTGCCCTTCGCTGCCAGGACACCTGCCCCAGCGCGGCTTGGCCGCCATCCGGGACGCTTCCAGACCACCTGCCAGCCATCACAAGGGGAACGCAGAGGCGGAAACCTTGCAGCATTTTTATTTAAAAGAAAAGAAGAAAAAAAACACCCAACCACACAAAGAACAAAACCAGTAACAAACACAAAGGAATTCAGGGTCGCTTTGCTTGCTCTCTGTGCTCCGTGGAGGCCTCCGTGTGCCCTCGTTGCCGTGGGGACCCAGCTCCATGCACGTCAACCCAGTCCCGCCCAGACTAGTGGACAGACCTGGTGTCACCAGTTTTTCCTAGCATCAGTCCGAACCATGCGCCCGCCCTGCCCCAACTGTGTGCTGGTCCTGCTGTGGCCGAGGGGACCGGGTGTGTTTGGCTCTTTATGCCCCTCCCGCTGTGGTCCTGGAACTCTTCACCAGGGAGGGAGCCCTGCGGGGGCCGCAGCTTTGTGGAGGGAGCCGCCGTGCTTCTGTCACCTGCTCCCTTTCTTGCGTCTCCCTGTGATGGGCCCTTAGGCCTGGCTGGGCCCATTACATATCCCTGTGGTGGCTCTGGTGGCAGCTTTCTGTGGCCCCTGCTGTGTTGGCAGGCAGGTTTGCGTGGTGAGGAGCGGGAGGGGTTGGAGTGGTGCGGGAGCAGGCTGCCGAGTGGAGGGTGCCATCGAGGGCTCCGGATCCCTTATCCTACTTAGCAGTGTTGGTCTCTGGGGCTGGAAGCCGAGCGCATGCTGGGAGCGGTACTGTCAGAAGTGAGCCCAGTTAGTACCCCGCTGGCTCACTGCACGAGAGAGTCCTGCCCCGAGCCCTAGGTGGGGCCAGGAGGTGCCTTGGAGAAGCCAGCCAGAGCAGAGAGGGCTGCTGACTTCCGTGTGGAGCAGAGAGGCCTGAGGGCCTCCTAAAAGGTTTAAATGTCCACGCCTCTCCAGTTGCTGAAGTAGGGTCTGAGAGAACCCTGGCATCAGCAGACCCAGGGTGCTTCTGTCTCCTGCAGACCACGCCAGGGAGTGCAGACACCACCGTCACACACGCCCCTTTTGTGTTTTGGTTCAAGTTTCTCAGAGCCCCTCAGAGCTTCTACATCTGTGCATCAGAAATCTCACAGCCTTCTCATGCTGCCGGCTCATCTGGGCCCATAGAGTGGGCTTTGCCAGTTGCTGTTGCACAGGAGGCGAGAACAGCACACTTCAACCCCAGCTTGCTGGTCGGCTTTCCTCTAGAGAGAGCCGGTTTTGGGGCCATTTCCCTTTGATGCTTTGGTGGCCTTGCCCCGCTCTGCAGCACAGACAGGCCAGATGCATTTGTCCTTTGCCTAGCTACTCCCCAGGTAGAGAGTGCTCCTGGTGGCCTGGCAGGTCTGGGCCCTTCTCTCCCTGCCCAGGTTGTCCCTGGAGGGCAGCCCTCACTCCCTTTGGGGGAGAGGCAGACATTGCTGCCCACAGACCTGCCTCTGACTCAACTGTGTCCACCCTCCCTGGTCCCTACCCCCAAGTCACAGGTGACTCAGCAGTGACCCTGTGTGCCAGGCCAGATCCAAACTGAGAGGGAAGGTGTCGTTTTTACACTGCTAATGACGAGAGTGGCTCTTTTTAGCTAGGCGAGTACAGACGGGGCCTGGGAGGGGGCAGAGATGTTCCCCAGGCCCTGCCTGTGGTTCCTGCCTGGGCCTTGGCTGCTGCTGTGTGAGAGCTGCATGTGAGCCTGTGACCGTGAGCTGGGGTGAGCTGGGCCGCACCTACCCTGGGGCCCCAGGGAGCAGGACGCTCCGGGGCCCAGCACGTTGCCCTGGGCCTGTGGCCGGAGTCGGAGTCCTCTCTCCTCCTCCTGGCTTTTGGAAAGGCTTGGCTGTGTTGGGGAGTCTCTCTTAGCCCTTTCAGGAATTTCTGTTCAGGCTTCCTCCTCCTCATCAGCTATTTTACCCATCTCAGAACGTCCTGTGTCTCCATGTAGGAGAGTGGCTCTCTCAGATCTCTCAGGGCGTCTGGTTATAGGGAAACAAGTGGAGCAGGGACGTGGCTTTAATTGGAGCACTCGGCTGGGCTGCTTGGGGAGACTCTTCCGTGCGTTCTTCCTCTGGATAGAACCACCACCTCCTGGGCGTCACTGACAAGCTCCATCTTAACCTCCAAAGCCACAGAACTAGGGGCTCAGAGCCAGAGCTGGCAGCCGCCAGCCAAAATGATGCCATTGCCTGAGCTGACAGCCAAGCCCTTCTGTGGGTCACCTTTCTCCTCACCCAGCCCCTTGCTCTTCCCTTTTGAAAGGCCCGTGTGTTTTCTTTCCTTACCCTGTGCTTGCTCATGTCTACTCCGGTTTTCTCTACCACATCCTTAGAGCCATCACCTGGCACGCAGGCGCCTTACATTCTACGGTAGAACGTGGGGTACTGTGTGTGCACATAGACACACTTACGTGGAATTACAGTTGTGGGTTTATCCAAGATGAGGAAGATTTCACCTGCTGTTTAATAGACTTGGGGCCATGTGCCTCCCCACACATGGGCAAGGACAGGTGGAATGTCGGGACCACACTGTGCGGCTTCTCGGCACAAAGCGGAGGGAGGCTGTGGTCGCTGCCGGCCTAGGTGTCCCAGGTGCCCCGCCTTTCTCTGGGACACAGTTGGGGGCTGGCTTCTGAGGGATTCCTTTCTCCCCTCTTTGTGTGGCCCCAGCCAGGGCGGTGGGCAGTCCTGGTGTAGAGCACAAGCCTCTCCACCCTAGAGAAATGCCTCTGTACCACGGCTACCATGTGGAACCTTAACTTGCAGAAGGCTTGTTAACAATTGTTTTGAGAGAGATGGCTGGTCATGCCACAGCTGCTGGGGACTCCGCCTACTCCAGCCCTCTTGGGACACACTGTGGGATTTGTGGCCCTTCCCCAGAGGAATTGTGGAGACTGTCCCATGGAACAAACCCTCAGGCACCAGCACAGGGCTCTGGGTGACTCAGTAAAACTAACGTTTGTCTCTGACAAGATCAGCTGTAGGCTCACCGGCCAGAGAAGACCACTGTGAGCATTTTGCCGTATATCCTGCCCTGCCATTTGTTCACTTTTTAAACTAAAATAGGAACATCCGACACACACCGTTTGCATCGTCTTCTCCCTTGATATTTTAAGCATTTTCCCATGTCATGAGTTTCTCAGAAACATGTTTTTAACAATTGTACTATTTAGTCATTGTCCATTTACTATAATTTATCTGACCATTTCCCTACTGTAAAATACTTAAGACGGTTTCTGATTTTTCCACTATTTAAATAATGCTGTGATGAATATCTTTAAAATCTTCTGATTTCTTACTTTTTTCCCCCTTAGATGCCTGGAAGTGGTATTTTGAGGTGAAAGAGTTTGTTCATTTTGAAGATATTTCTGTCTCTCTCTCGACCTGATGTGTAGACGCTCACTTCCAGTAGCAGAACCACCTTAGTTGTGTCTTACAGATTCTGAACAAATCGGTTTCTGATAAGCCATGTGTTCCAAAGAATGTCTGAATAAGACCGCTCTTTATTTAAATGCTAAGAGGATGTCACTACTGCAATCCATCTGTGGCCGATTTTTTCCAAGAGCCAATTTCCTTGTTTTGGTTGCAAGAACCTGGCTCTGCCTGCATGTCAGCTCTCTGCCCTCCCTGCTGCCGTGGCTTTCAAGCGCTTGGCAGAATCTTGTACTTCGTGTCCACAATGGTACTGAATTTGCATCTGCACAGTCAGCAGAGATAACAAGTGTTGAACTGACCTTGCCACATGCTTAGTGAGTGATTTGTAATTAAGTTTATAGACTCAGAAGGTATATTAGGACATTTGGAATCAGTAGCAGAGCAAAGCCTCTTTGAAAAAAACCACGTAGCTGATTGGGTTTTACAAGAGTGCATTTGTCTCCCCCTTCCACCCGTGGGGCCCCACCTTCAGGTCTTAGTGGTTCACAAGAGCCCAGCAGCCAGGCTGGCTTTTTCATTGTAGGGCGTGGTTGTCCCAGCTGGTGTAGATTTCAGGCCGCCCCCCCCAACTCCCTGCCCACAGTGTTGCAGATTGCCTGGCTGGCAGCAAGTCCAGACCACCCAAATTTGGTTGGATTCTTCATTTCTCCACTGTAGTTGGGGTCCATTGATTGTGCAGGGGAACGTGCAGGAGGTTTTTCTAGGCACCGTGTTCAGTGCTGCTTCACTCTACCAGAGATTATGGCCAAATTGCACGGAATTTGGTTTCTTGCCCTCTGAAGCCTGAGGGCCCCCCCTTGCCTGGCTGGTTGACAGACCCGGGGTGGTCACTGCTGAGACTTCAGAGATCGCAGCTGCTGTGAGAATACGGTGAAGGTACTTTGTTCTGGAAGATGTTGTCATACACTTTTCCCCAGTTATTTTCAAACTTGACATGAGCCTATGTTGACTCACTGGGTGGGGGTCCCTTCTTACGCAGCACACGTGGCAAGTGCCTGAATCGGGGCTGGAGGCACTTCAGAGCCTCTGAGGGGCCACCACTTCTGGCCCAAAATTGCAGGGTTGTAGATGAGGCTGCCTGTGGAGAACTGGTGTGAGGAGGAAGCTGTTTCCAACAAAGAGCACTTTCATCTGTTGAGATGGCTGTGGTGAGCAACTGAACGAGCCTACGTGTGTACCTGAATTTTCCCCGTAACTCATTTCTTCCATATGAAGAAACACCAAACTATGTACAGAGAACTTTTTACAAAAGGCAGACCTTTTTTAAGCTGTGTAACCCACATAGCCTAACCACCTGGCAGAATGACTACGAATAGGGGTCATTGTGCTGGTAAAAGCCTCTATTACGACTGTAAGTAAGTTGGATGTTGGCAAAATTAAATTGTTACAGTATTTAGAGCTGCTGTAGCTGTTCCTTCACAACATAAAATAGGATAAATGACTAGTACGTCTTTCAGGTGGGTGGCAAGCAGAACATGCGTAATATTCTCTACCTGGTCTGTAGCTGTAACTGTGATGTACAGACAAAGCAAAAATTAAAAGAACTTATGAAAACAAATGCAATGATACTAGGATATACACTTTTGTATTTTTATTCTTATATAAGGTTATTTGCTGGCTATTGTTGGCCTCTAGTTCAGTCTGTGTTATTTAAATTCTAATATATGAATTATTTGAATTGAATTCATGTTCGGGGCCACGTTGTTGTATGTATTGATGTACAGCCTTGAATGTGAATAATTATTGTAAACTATATTTTACAACTTTTTTTCTGGCTTTATTATATAAATTTTCTATTGGGTCAGTGATTTAATCATATAATTTAATGAATCTGTTTATCCTTTTTTTTTTTCCAAATACTTGTGCTTTAGGTGTAGTTACCAGATGATGAATTTTCCTCGTATGGTCAGTAGTCTTGTAATAAAAAGCATGTAGAGTGTAGA
>gi|366039932|ref|NM_014417.4| Homo sapiens BCL2 binding component 3 (BBC3), transcript variant 4, mRNA
GCGGCGCGAGCCACATGCGAGCGGGCGCCTGGCGGCGGCGGCGGCGGCACCAGCGATCCCAGCAGCGGCCACGACGCGGACGCGCCTGCGGCCCGGGGAGCAGCAGCAGCCACAGCCACAGCAGCCGCCACTGCAGTTAGAGCGGCAGCAGCAGCGACAGCCACAGCAGCAGCCGCCGCGGAGAGCGGCGCTCGGCGGGCGCGCCCTCCTGAAGGAAGCCGCCCGCCCCCCACCGCCGCCCCCTCCGGCGTGTTCATGCCCCCGGGGCCCCAGGGAGCGCCATGGCCCGCGCACGCCAGGAGGGCAGCTCCCCGGAGCCCGTAGAGGGCCTGGCCCGCGACGGCCCGCGCCCCTTCCCGCTCGGCCGCCTGGTGCCCTCGGCAGTGTCCTGCGGCCTCTGCGAGCCCGGCCTGGCTGCCGCCCCCGCCGCCCCCACCCTGCTGCCCGCTGCCTACCTCTGCGCCCCCACCGCCCCACCCGCCGTCACCGCCGCCCTGGGGGGTTCCCGCTGGCCTGGGGGTCCCCGCAGCCGGCCCCGAGGCCCGCGCCCGGACGGTCCTCAGCCCTCGCTCTCGCTGGCGGAGCAGCACCTGGAGTCGCCCGTGCCCAGCGCCCCGGGGGCTCTGGCGGGCGGTCCCACCCAGGCGGCCCCGGGAGTCCGCGGGGAGGAGGAACAGTGGGCCCGGGAGATCGGGGCCCAGCTGCGGCGGATGGCGGACGACCTCAACGCACAGTACGAGCGGCGGAGACAAGAGGAGCAGCAGCGGCACCGCCCCTCACCCTGGAGGGTCCTGTACAATCTCATCATGGGACTCCTGCCCTTACCCAGGGGCCACAGAGCCCCCGAGATGGAGCCCAATTAGGTGCCTGCACCCGCCCGGTGGACGTCAGGGACTCGGGGGGCAGGCCCCTCCCACCTCCTGACACCCTGGCCAGCGCGGGGGACTTTCTCTGCACCATGTAGCATACTGGACTCCCAGCCCTGCCTGTCCCGGGGGCGGGCCGGGGCAGCCACTCCAGCCCCAGCCCAGCCTGGGGTGCACTGACGGAGATGCGGACTCCTGGGTCCCTGGCCAAGAAGCCAGGAGAGGGACGGCTGATGGACTCAGCATCGGAAGGTGGCGGTGACCGAGGGGGTGGGGACTGAGCCGCCCGCCTCTGCCGCCCACCACCATCTCAGGAAAGGCTGTTGTGCTGGTGCCCGTTCCAGCTGCAGGGGTGACACTGGGGGGGGGGGGCTCTCCTCTCGGTGCTCCTTCACTCTGGGCCTGGCCTCAGGCCCCTGGTGCTTCCCCCCCTCCTCCTGGGAGGGGGCCCGTGAAGAGCAAATGAGCCAAACGTGACCACTAGCCTCCTGGAGCCAGAGAGTGGGGCTCGTTTGCCGGTTGCTCCAGCCCGGCGCCCAGCCATCTTCCCTGAGCCAGCCGGCGGGTGGTGGGCATGCCTGCCTCACCTTCATCAGGGGGTGGCCAGGAGGGGCCCAGACTGTGAATCCTGTGCTCTGCCCGTGACCGCCCCCCGCCCCATCAATCCCATTGCATAGGTTTAGAGAGAGCACGTGTGACCACTGGCATTCATTTGGGGGGTGGGAGATTTTGGCTGAAGCCGCCCCAGCCTTAGTCCCCAGGGCCAAGCGCTGGGGGGAAGACGGGGAGTCAGGGAGGGGGGGAAATCTCGGAAGAGGGAGGAGTCTGGGAGTGGGGAGGGATGGCCCAGCCTGTAAGATACTGTATATGCGCTGCTGTAGATACCGGAATGAATTTTCTGTACATGTTTGGTTAATTTTTTTTGTACATGATTTTTGTATGTTTCCTTTTCAATAAAATCAGATTGGAACAGTGGAAAAAAAAAAA
>gi|363543334|ref|NM_145178.3| Homo sapiens atonal bHLH transcription factor 7 (ATOH7), mRNA
CTGCACTCTCCGACAGCTACTGCGCTAAAAGCGCTCCTTCCCTGAGCTTCGGGAAAGAGTTCATCTTCCTGCAAAGGAGTCTCAGGCTTTCCCAGAGGACTTGAAAGGCCTTCCTCGAACCAGCCACACCAAACTCTGCTGCAGAAGGTTTCCTTCTCTTTTTCAACTTCATGTTGAGAAAATGACTTTCTCTTGAGCATCTCATTTTCCCCTAAATTTGGGCAAGTGAAGAGATATCAGCCTGGTCATCCAGTAGAACAGAAGGCCGAGTCCCGCACTCCCCCACTGTAAACTATTTGATTGCACGTGAGTTGCTTTGTTTATGACTTATTTGCTCAGAAGAGGCACGTTGGGAAGCGGCTCGAGAGACCAGCCCACGCGCAGGTCCTGAGCGGGCGGGCGTGCGAGGTCGGCGCCTCGCTGCTTGGGGCCGGGGATGAAGTCCTGCAAGCCCAGCGGCCCGCCGGCGGGAGCGCGCGTTGCACCCCCGTGCGCGGGCGGCACCGAGTGCGCGGGCACGTGCGCCGGGGCCGGGCGGCTGGAGAGCGCGGCGCGCAGGCGCCTGGCGGCCAACGCGCGCGAGCGCCGCCGCATGCAGGGGCTCAACACTGCCTTCGACCGCTTACGCAGGGTGGTTCCCCAGTGGGGCCAGGATAAAAAGCTGTCCAAGTACGAGACCCTGCAGATGGCCCTGAGCTACATCATGGCTCTGACCCGGATCCTGGCCGAGGCCGAGCGATTCGGCTCGGAGCGGGACTGGGTGGGTCTCCACTGTGAGCACTTCGGCCGCGACCACTACCTCCCGTTCCCGGGCGCGAAGCTGCCGGGCGAGAGCGAGCTGTACAGCCAGAGACTCTTCGGCTTCCAGCCCGAGCCCTTCCAGATGGCCACCTAGGGCGCGCGCCTCCGCGGGGGTGGGTGTCCGGCAGCCGCTCCGAGCCTCGGCCCTGCCCCAAGTAGCCCAGAAGCCTCCGGCGGCCCAGGATTCTAAGGATGCAATCCTCGAGGAAAATTAGTCGATTCTCAGATTACCTTTATTCGCATCATCAGACCTATGGACGCAATCATTTAATTGCCTTTCTTTTCCCCTCCTCCTTTGTATTTTGTAGATTTCATTAATGGATCTTGTGAATGGGTTGATTGCTGTGAAAATAATGCCCCCTTTCCCCTTTTCTGGGCTACTTTGAGGGAAAACAATCTTAAGAAAAATAGGATTAAGCTATTCTGTTCCAGTCCTCAGAGAAATAATCACTTTCTTAAACTTTGTGAGTTTGTCCTGTTCGGGTGAAGTTACAGTATCCATTACTTGTGTTTGCTCACAACAGAGCTACCTTCCTGTTGTGTAAATGCGTTTTTGCTTTAGTGCATTGTGTGTGCAAGCATGAAGTAGAAACACTTTTTTTTTCTGGGTACAGTACATGGGTATCGGTGCTCTGTATTTTTTTAAACTGTGTACACATTATTAAAATATACATTTTATAAAATATAAATAAAAACGTGGATTTGTTTTTCATGCCAAAAAAAAAAAAAAAAA
>gi|345461082|ref|NM_002123.4| Homo sapiens major histocompatibility complex, class II, DQ beta 1 (HLA-DQB1), transcript variant 1, mRNA
TTTTTATTCTTTCTGCCAGGTACATCAGATCCATCAGGTCCGAGCTGTGTTGACTACCACTGCTTTTCCCTTCGTCTCAGTTATGTCTTGGAAGAAGGCTTTGCGGATCCCCGGAGACCTTCGGGTAGCAACTGTCACCTTGATGCTGGCGATGCTGAGCTCCCTACTGGCTGAGGGCAGAGACTCTCCCGAGGATTTCGTGTTCCAGTTTAAGGGCATGTGCTACTTCACCAACGGGACGGAGCGCGTGCGTCTTGTGACCAGATACATCTATAACCGAGAGGAGTACGCGCGCTTCGACAGCGACGTGGGGGTGTACCGCGCGGTGACGCCGCAGGGGCGGCCTGATGCCGAGTACTGGAACAGCCAGAAGGAAGTCCTGGAGGGGACCCGGGCGGAGTTGGACACGGTGTGCAGACACAACTACGAGGTGGCGTTCCGCGGGATCTTGCAGAGGAGAGTGGAGCCCACAGTGACCATCTCCCCATCCAGGACAGAGGCCCTCAACCACCACAACCTGCTGGTCTGCTCGGTGACAGATTTCTATCCAGGCCAGATCAAAGTCCGGTGGTTTCGGAATGATCAGGAGGAGACAGCCGGCGTTGTGTCCACCCCCCTTATTAGGAATGGTGACTGGACTTTCCAGATCCTGGTGATGCTGGAAATGACTCCCCAGCGTGGAGATGTCTACACCTGCCACGTGGAGCACCCCAGCCTCCAGAGCCCCATCACCGTGGAGTGGCGGGCTCAGTCTGAATCTGCCCAGAGCAAGATGCTGAGTGGCGTTGGAGGCTTCGTGCTGGGGCTGATCTTCCTTGGGCTGGGCCTTATCATCCGTCAAAGGAGTCAGAAAGGGCTTCTGCACTGACTCCTGAGACTATTTTAACTAGGATTGGTTATCACTCTTCTGTGATGCCTGCTTATGCCTGCCCAGAATTCCCAGCTGCCTGTGTCAGCTTGTCCCCCTGAGATCAAAGTCCTACAGTGGCTGTCACGCAGCCACCAGGTCATCTCCTTTCATCCCCACCCCAAGGCGCTGGCTGTGACTCTGCTTCCTGCACTGACCCAGAGCCTCTGCCTGTGCATGGCCAGCTGCGTCTACTCAGGTCCCAAGGGGTTTCTGTTTCTATTCTTTCCTCAGACTGCTCAAGAGAAGCACATGAAAAACATTACCTGACTTTAGAGCTTTTTTACATAATTAAACATGATCCTGAGTTATCTGTATTCTGAACTTTCTTAATTGAGAAGAGGCAGGAAATCACTGCAGAATGAAGGAACATCCCTTGAGGTGACCCAGCAAACCTGTGGCCAGAAGGAGGATTGTACCTTGAAAAGACACTGAAAGCATTTTGGGGTGTGAAGTAAGGGTGGGCAGAGGAGGTAGAAAATAATTCAATTGTCGCATCATTCATGGTTCTTTAATACTGATGCTCAGTGCATTGGCCTTAGAATATCCCAGCCTCTCTTCTGGTTTGGTGAGTGCTGTGTAAATAAGCATGGTAGAATTGTTTGGAGACATATATAGTGATCCTTGGTCACTGGTGTTTCAAACATTCTGGAAAGTCACATCGATCAAGAATATTTTTTATTTTTAAGAAAGCATAACCAGCAATAAAAATACTATTTTTGAGTCTAAATGAAAAAAAAAAAAAAAAA
>gi|345461080|ref|NM_001243961.1| Homo sapiens major histocompatibility complex, class II, DQ beta 1 (HLA-DQB1), transcript variant 2, mRNA
TTTTTATTCTTTCTGCCAGGTACATCAGATCCATCAGGTCCGAGCTGTGTTGACTACCACTGCTTTTCCCTTCGTCTCAGTTATGTCTTGGAAGAAGGCTTTGCGGATCCCCGGAGACCTTCGGGTAGCAACTGTCACCTTGATGCTGGCGATGCTGAGCTCCCTACTGGCTGAGGGCAGAGACTCTCCCGAGGATTTCGTGTTCCAGTTTAAGGGCATGTGCTACTTCACCAACGGGACGGAGCGCGTGCGTCTTGTGACCAGATACATCTATAACCGAGAGGAGTACGCGCGCTTCGACAGCGACGTGGGGGTGTACCGCGCGGTGACGCCGCAGGGGCGGCCTGATGCCGAGTACTGGAACAGCCAGAAGGAAGTCCTGGAGGGGACCCGGGCGGAGTTGGACACGGTGTGCAGACACAACTACGAGGTGGCGTTCCGCGGGATCTTGCAGAGGAGAGTGGAGCCCACAGTGACCATCTCCCCATCCAGGACAGAGGCCCTCAACCACCACAACCTGCTGGTCTGCTCGGTGACAGATTTCTATCCAGGCCAGATCAAAGTCCGGTGGTTTCGGAATGATCAGGAGGAGACAGCCGGCGTTGTGTCCACCCCCCTTATTAGGAATGGTGACTGGACTTTCCAGATCCTGGTGATGCTGGAAATGACTCCCCAGCGTGGAGATGTCTACACCTGCCACGTGGAGCACCCCAGCCTCCAGAGCCCCATCACCGTGGAGTGGCGGGCTCAGTCTGAATCTGCCCAGAGCAAGATGCTGAGTGGCGTTGGAGGCTTCGTGCTGGGGCTGATCTTCCTTGGGCTGGGCCTTATCATCCGTCAAAGGAGTCAGAAAGGACCTCAAGGGCCTCCACCAGCAGGGCTTCTGCACTGACTCCTGAGACTATTTTAACTAGGATTGGTTATCACTCTTCTGTGATGCCTGCTTATGCCTGCCCAGAATTCCCAGCTGCCTGTGTCAGCTTGTCCCCCTGAGATCAAAGTCCTACAGTGGCTGTCACGCAGCCACCAGGTCATCTCCTTTCATCCCCACCCCAAGGCGCTGGCTGTGACTCTGCTTCCTGCACTGACCCAGAGCCTCTGCCTGTGCATGGCCAGCTGCGTCTACTCAGGTCCCAAGGGGTTTCTGTTTCTATTCTTTCCTCAGACTGCTCAAGAGAAGCACATGAAAAACATTACCTGACTTTAGAGCTTTTTTACATAATTAAACATGATCCTGAGTTATCTGTATTCTGAACTTTCTTAATTGAGAAGAGGCAGGAAATCACTGCAGAATGAAGGAACATCCCTTGAGGTGACCCAGCAAACCTGTGGCCAGAAGGAGGATTGTACCTTGAAAAGACACTGAAAGCATTTTGGGGTGTGAAGTAAGGGTGGGCAGAGGAGGTAGAAAATAATTCAATTGTCGCATCATTCATGGTTCTTTAATACTGATGCTCAGTGCATTGGCCTTAGAATATCCCAGCCTCTCTTCTGGTTTGGTGAGTGCTGTGTAAATAAGCATGGTAGAATTGTTTGGAGACATATATAGTGATCCTTGGTCACTGGTGTTTCAAACATTCTGGAAAGTCACATCGATCAAGAATATTTTTTATTTTTAAGAAAGCATAACCAGCAATAAAAATACTATTTTTGAGTCTAAATGA
>gi|345110650|ref|NM_001076684.2| Homo sapiens upstream binding transcription factor, RNA polymerase I (UBTF), transcript variant 3, mRNA
GCTTTTCGCCGCGAGGAGCAGCAGGCAGCAGCCACAGCCGCCGCCGCCGCCGCCGCCGCCACAGCAGCAGCAGCCGCCGCCCCAGCGCCGCCGCCTCGCCCGGAGGAGGAGCCGCTGCCGCCGCGGGAGGGAGCTGCGGCTGTGCCCGGCCGAGCGGGGGAGGGCGCCGCCACTCAGAGCCAGGGAGGGAGCCGCTGGAGCGGGAAGCCCGGAGGCCGCGCTGCGCCGGGGTGAGGTGGCTTTGACCCCGGGTTGCCCGGCCAGCACGACCGAGGAGGTGGCTGGACAGCTGGAGGATGAACGGAGAAGCCGACTGCCCCACAGACCTGGAAATGGCCGCCCCCAAAGGCCAAGACCGTTGGTCCCAGGAAGACATGCTGACTTTGCTGGAATGCATGAAGAACAACCTTCCATCCAATGACAGCTCCAAGTTCAAAACCACCGAATCACACATGGACTGGGAAAAAGTAGCATTTAAAGACTTTTCTGGAGACATGTGCAAGCTCAAATGGGTGGAGATTTCTAATGAGGTGAGGAAGTTCCGTACATTGACAGAATTGATCCTCGATGCTCAGGAACATGTTAAAAATCCTTACAAAGGCAAAAAACTCAAGAAACACCCAGACTTCCCAAAGAAGCCCCTGACCCCTTATTTCCGCTTCTTCATGGAGAAGCGGGCCAAGTATGCGAAACTCCACCCTGAGATGAGCAACCTGGACCTAACCAAGATTCTGTCCAAGAAATACAAGGAGCTTCCGGAGAAGAAGAAGATGAAATATATTCAGGACTTCCAGAGAGAGAAACAGGAGTTCGAGCGAAACCTGGCCCGATTCAGGGAGGATCACCCCGACCTAATCCAGAATGCCAAGAAATCGGACATCCCAGAGAAGCCCAAAACCCCCCAGCAGCTGTGGTACACCCACGAGAAGAAGGTGTATCTCAAAGTGCGGCCAGATGAGATCATGAGAGACTATATCCAGAAGCACCCAGAGCTGAACATCAGTGAGGAGGGTATCACCAAGTCCACCCTCACCAAGGCCGAACGCCAGCTCAAGGACAAGTTTGACGGGCGACCCACCAAGCCACCTCCGAACAGCTACTCGCTGTACTGCGCAGAGCTCATGGCCAACATGAAGGACGTGCCCAGCACAGAGCGCATGGTGCTGTGCAGCCAGCAGTGGAAGCTGCTGTCCCAGAAGGAGAAGGACGCCTATCACAAGAAGTGTGATCAGAAAAAGAAAGATTACGAGGTGGAGCTGCTCCGTTTCCTCGAGAGCCTGCCTGAGGAGGAGCAGCAGCGGGTCTTGGGGGAAGAGAAGATGCTGAACATCAACAAGAAGCAGGCCACCAGCCCCGCCTCCAAGAAGCCAGCCCAGGAAGGGGGCAAGGGCGGCTCCGAGAAGCCCAAGCGGCCCGTGTCGGCCATGTTCATCTTCTCGGAGGAGAAACGGCGGCAGCTGCAGGAGGAGCGGCCTGAGCTCTCCGAGAGCGAGCTGACCCGCCTGCTGGCCCGAATGTGGAACGACCTGTCTGAGAAGAAGAAGGCCAAGTACAAGGCCCGAGAGGCGGCGCTCAAGGCTCAGTCGGAGAGGAAGCCCGGCGGGGAGCGCGAGGAACGGGGCAAGCTGCCCGAGTCCCCCAAAAGAGCTGAGGAGATCTGGCAACAGAGCGTTATCGGCGACTACCTGGCCCGCTTCAAGAATGACCGGGTGAAGGCCTTGAAAGCCATGGAAATGACCTGGAATAACATGGAAAAGAAGGAGAAACTGATGTGGATTAAGAAGGCAGCCGAAGACCAAAAGCGATATGAGAGAGAGCTGAGTGAGATGCGGGCACCTCCAGCTGCTACAAATTCTTCCAAGAAGATGAAATTCCAGGGAGAACCCAAGAAGCCTCCCATGAACGGTTACCAGAAGTTCTCCCAGGAGCTGCTGTCCAATGGGGAGCTGAACCACCTGCCGCTGAAGGAGCGCATGGTGGAGATCGGCAGTCGCTGGCAGCGCATCTCCCAGAGCCAGAAGGAGCACTACAAAAAGCTGGCCGAGGAGCAGCAAAAGCAGTACAAGGTGCACCTGGACCTCTGGGTTAAGAGCCTGTCTCCCCAGGACCGTGCAGCATATAAAGAGTACATCTCCAATAAACGTAAGAGCATGACCAAGCTGCGAGGCCCAAACCCCAAATCCAGCCGGACTACTCTGCAGTCCAAGTCGGAGTCCGAGGAGGATGATGAAGAGGATGAGGATGACGAGGACGAGGATGAAGAAGAGGAAGATGATGAGAATGGGGACTCCTCTGAAGATGGCGGCGACTCCTCTGAGTCCAGCAGCGAGGACGAGAGCGAGGATGGGGATGAGAATGAAGAGGATGACGAGGACGAAGACGACGACGAGGATGACGATGAGGATGAAGATAATGAGTCCGAGGGCAGCAGCTCCAGCTCCTCCTCCTCAGGGGACTCCTCAGACTCTGACTCCAACTGAGGCTCAGCCCCACCCCAGGGCAGCCAGGGAGAGCCCAGGAGCTCCCCTCCCCAACTGACCACCTTTGTTTCTCCCCCATGTTCTGTCCCTTGCCCCCCTGGCCTCCCCCACTTTCTTTCTTTCTTTAAAAAAAAAAAAAAATACGGTGGGGGTAGGGGGCTGGAGGAGCCCAGGCCAGGACTCTGCAGCCTCAGAGACATCAGCCCTTGGGGGTCCTCCTCCAGGGACAGCAACTATCAGACTAAGCCAGCACCGGACCAGCCTGGCCCACCCCACCCACTTCTGCACTTGCGGTTCCGGCATGGACAATGGACCGGAGAGTGGGGGTGGGGGGTCCCAAAGAGTTTGATGAGGCCCTCCACACCTGCGGCCCAATCCAAGGTGGGGTGGAAGCTTGGGGAAGACCCATTCCTTCCCAGAGGGGCCTGCCACCTGGACCCCTGCATTGGAACTGGAGGCAGGGAACATGGGGAGGAGGAGGGTCGGTGCCTTCAAGAAAACAGGCACTGCCCTGGTGGCCCTCTCCCCTGCCCCCTGCAGGAAGGAGCTGCCTGGACCCGTTCATGGGGGAGGGGGCAGAAGTGTTTTTTATATATGTGTATATATTTTTTTTTAAGCTCTGAGCTGTCAACGAGACGTTTCCTACCGATCTCGGCTGCCGTCTCTGTTGTCATTTCTGGGAGAGGGAGGGTTTAGGGGTAGATTTGGAACCTTTTAAAAATGGTCTTGATGTATGTGGAAGAGAGTATGTGTATGTGTGTTCCTGTACATAGCATGGGTGCAGCTGTGGATGTGTGCAAAAGAGTGTGAGTGTGTGTGTGTGTGTGTAAAGGGGTCTGTCCTAGAGCCCACATCAGTTTGTTGTGAATCTGGAAAAAGGGTCGGTGAGGGCCGGGAGATGTTGACCCTGGTGGGAGCAGGCTGAGGCTGCCCCGTTCTCCACATCCTCTGTTTTGCCCAGTCTCTGATTCCATTAGGGGGAGTGTGCTGAAGCCATTCTCGGATGCTTCCCAGACCAGGCTCCCTCTGCCAGAGTCACATGCATCCGAGCTGCTGGTCTCCATTGTCCAGCAGGAAGGCGGAAAGGCAGGCAAGATGGTGTGAAGCTTAAAGCTTGTATTTGATGGAAAAGGTCTCCCCTGTTCATCTGAGAGGCCAAGCCTGGCCACCCCAGGCTCAGAACCTGGGCTTCAAGAAATGTGCTGGGAGCTCCTAACTTACACATCCCTCCAGCCTTCCTTGAATCCTCCCACCACCCCCTATTTCCTTTAATTTCTCAGGTCTGCTCCCTCCTCCCCCAACCCCACAGCTGGGCAAGAAGTCTGCAAAAGCTGCATCTGCAGCTGTCTCTAACTCTTCCCAGCCATCTCCCGTATTTTTTGGTACCTTGATTCCTTGACTCTTAATAAGCCAAGCCACCTTATCTCTGTAGTTCTTATTTTTTTGTTGACTAAATTTGGGGGGTTCTTTTTTATGGTCATGTCACTGACCTATTAAATTGGGGCTTGGTGCTTTTCCACCTTCCCCCTCTGAATGAAAGCCAAGGAATGGGGGAAGAGCGGGAACTCTGCCGCGGAGGTGGAGCAAGAACGGTGAAGGGCCCTGGTCCCAGAGAGGCTGGTGGGTCCCTCTCCCAAAGGAAGGCAGACAGTCTCTGCTTTGCCTTGGACCTTGGTGCTGGGGGTGGGGAGGCCTGGGGGGGACACTCCCCACTCCCATTCCCCTTCCTTTGTCCTAATCCTGGAATTAAGTACAGGGGTTTATAGGTTCTATTTCTTCCCAAGAGCCCTGCAAAGAACCCCAGTTTCCTATTTGGATGCCCCTACACTGTTGTGTTTCAGTGGAATGTATTTTCATTTAAAAACAACTTTGAATGGGGCACTTTTTCTTTCCTGTTTTAAAAATTGAAAAATTCTTACAGTACAAACAGGACTGTCAGGGTGGGGGTGTTGGTGCTGTAAGAGGTCACTCTTGAGTGCATTTTGGCACTGGGATGGGATGGCTGGGGTGGGAAGACCCCCATCCCCACCCCCAACTTCTTTTCTAATATTTAAGGAGTGTTTTGTAGGATTCAACAACCACCACAACTTGAATTTGTATCATGGGAGGTGGGAGGGAGTGGCTTAGAGGTGTCTGCCTATGCTTAAAGCCAACTGTGGAAGTTTTGTTTTCCCTTTTTTGTATAATAAAGTGAAAAACAAAGGTTTGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|345110649|ref|NM_014233.3| Homo sapiens upstream binding transcription factor, RNA polymerase I (UBTF), transcript variant 1, mRNA
GCTTTTCGCCGCGAGGAGCAGCAGGCAGCAGCCACAGCCGCCGCCGCCGCCGCCGCCGCCACAGCAGCAGCAGCCGCCGCCCCAGCGCCGCCGCCTCGCCCGGAGGAGGAGCCGCTGCCGCCGCGGGAGGGAGCTGCGGCTGTGCCCGGCCGAGCGGGGGAGGGCGCCGCCACTCAGAGCCAGGGAGGGAGCCGCTGGAGCGGGAAGCCCGGAGGCCGCGCTGCGCCGGGGTGAGGTGGCTTTGACCCCGGGTTGCCCGGCCAGCACGACCGAGGAGGTGGCTGGACAGCTGGAGGATGAACGGAGAAGCCGACTGCCCCACAGACCTGGAAATGGCCGCCCCCAAAGGCCAAGACCGTTGGTCCCAGGAAGACATGCTGACTTTGCTGGAATGCATGAAGAACAACCTTCCATCCAATGACAGCTCCAAGTTCAAAACCACCGAATCACACATGGACTGGGAAAAAGTAGCATTTAAAGACTTTTCTGGAGACATGTGCAAGCTCAAATGGGTGGAGATTTCTAATGAGGTGAGGAAGTTCCGTACATTGACAGAATTGATCCTCGATGCTCAGGAACATGTTAAAAATCCTTACAAAGGCAAAAAACTCAAGAAACACCCAGACTTCCCAAAGAAGCCCCTGACCCCTTATTTCCGCTTCTTCATGGAGAAGCGGGCCAAGTATGCGAAACTCCACCCTGAGATGAGCAACCTGGACCTAACCAAGATTCTGTCCAAGAAATACAAGGAGCTTCCGGAGAAGAAGAAGATGAAATATATTCAGGACTTCCAGAGAGAGAAACAGGAGTTCGAGCGAAACCTGGCCCGATTCAGGGAGGATCACCCCGACCTAATCCAGAATGCCAAGAAATCGGACATCCCAGAGAAGCCCAAAACCCCCCAGCAGCTGTGGTACACCCACGAGAAGAAGGTGTATCTCAAAGTGCGGCCAGATGCCACTACGAAGGAGGTGAAGGACTCCCTGGGGAAGCAGTGGTCTCAGCTCTCGGACAAAAAGAGGCTGAAATGGATTCATAAGGCCCTGGAGCAGCGGAAGGAGTACGAGGAGATCATGAGAGACTATATCCAGAAGCACCCAGAGCTGAACATCAGTGAGGAGGGTATCACCAAGTCCACCCTCACCAAGGCCGAACGCCAGCTCAAGGACAAGTTTGACGGGCGACCCACCAAGCCACCTCCGAACAGCTACTCGCTGTACTGCGCAGAGCTCATGGCCAACATGAAGGACGTGCCCAGCACAGAGCGCATGGTGCTGTGCAGCCAGCAGTGGAAGCTGCTGTCCCAGAAGGAGAAGGACGCCTATCACAAGAAGTGTGATCAGAAAAAGAAAGATTACGAGGTGGAGCTGCTCCGTTTCCTCGAGAGCCTGCCTGAGGAGGAGCAGCAGCGGGTCTTGGGGGAAGAGAAGATGCTGAACATCAACAAGAAGCAGGCCACCAGCCCCGCCTCCAAGAAGCCAGCCCAGGAAGGGGGCAAGGGCGGCTCCGAGAAGCCCAAGCGGCCCGTGTCGGCCATGTTCATCTTCTCGGAGGAGAAACGGCGGCAGCTGCAGGAGGAGCGGCCTGAGCTCTCCGAGAGCGAGCTGACCCGCCTGCTGGCCCGAATGTGGAACGACCTGTCTGAGAAGAAGAAGGCCAAGTACAAGGCCCGAGAGGCGGCGCTCAAGGCTCAGTCGGAGAGGAAGCCCGGCGGGGAGCGCGAGGAACGGGGCAAGCTGCCCGAGTCCCCCAAAAGAGCTGAGGAGATCTGGCAACAGAGCGTTATCGGCGACTACCTGGCCCGCTTCAAGAATGACCGGGTGAAGGCCTTGAAAGCCATGGAAATGACCTGGAATAACATGGAAAAGAAGGAGAAACTGATGTGGATTAAGAAGGCAGCCGAAGACCAAAAGCGATATGAGAGAGAGCTGAGTGAGATGCGGGCACCTCCAGCTGCTACAAATTCTTCCAAGAAGATGAAATTCCAGGGAGAACCCAAGAAGCCTCCCATGAACGGTTACCAGAAGTTCTCCCAGGAGCTGCTGTCCAATGGGGAGCTGAACCACCTGCCGCTGAAGGAGCGCATGGTGGAGATCGGCAGTCGCTGGCAGCGCATCTCCCAGAGCCAGAAGGAGCACTACAAAAAGCTGGCCGAGGAGCAGCAAAAGCAGTACAAGGTGCACCTGGACCTCTGGGTTAAGAGCCTGTCTCCCCAGGACCGTGCAGCATATAAAGAGTACATCTCCAATAAACGTAAGAGCATGACCAAGCTGCGAGGCCCAAACCCCAAATCCAGCCGGACTACTCTGCAGTCCAAGTCGGAGTCCGAGGAGGATGATGAAGAGGATGAGGATGACGAGGACGAGGATGAAGAAGAGGAAGATGATGAGAATGGGGACTCCTCTGAAGATGGCGGCGACTCCTCTGAGTCCAGCAGCGAGGACGAGAGCGAGGATGGGGATGAGAATGAAGAGGATGACGAGGACGAAGACGACGACGAGGATGACGATGAGGATGAAGATAATGAGTCCGAGGGCAGCAGCTCCAGCTCCTCCTCCTCAGGGGACTCCTCAGACTCTGACTCCAACTGAGGCTCAGCCCCACCCCAGGGCAGCCAGGGAGAGCCCAGGAGCTCCCCTCCCCAACTGACCACCTTTGTTTCTCCCCCATGTTCTGTCCCTTGCCCCCCTGGCCTCCCCCACTTTCTTTCTTTCTTTAAAAAAAAAAAAAAATACGGTGGGGGTAGGGGGCTGGAGGAGCCCAGGCCAGGACTCTGCAGCCTCAGAGACATCAGCCCTTGGGGGTCCTCCTCCAGGGACAGCAACTATCAGACTAAGCCAGCACCGGACCAGCCTGGCCCACCCCACCCACTTCTGCACTTGCGGTTCCGGCATGGACAATGGACCGGAGAGTGGGGGTGGGGGGTCCCAAAGAGTTTGATGAGGCCCTCCACACCTGCGGCCCAATCCAAGGTGGGGTGGAAGCTTGGGGAAGACCCATTCCTTCCCAGAGGGGCCTGCCACCTGGACCCCTGCATTGGAACTGGAGGCAGGGAACATGGGGAGGAGGAGGGTCGGTGCCTTCAAGAAAACAGGCACTGCCCTGGTGGCCCTCTCCCCTGCCCCCTGCAGGAAGGAGCTGCCTGGACCCGTTCATGGGGGAGGGGGCAGAAGTGTTTTTTATATATGTGTATATATTTTTTTTTAAGCTCTGAGCTGTCAACGAGACGTTTCCTACCGATCTCGGCTGCCGTCTCTGTTGTCATTTCTGGGAGAGGGAGGGTTTAGGGGTAGATTTGGAACCTTTTAAAAATGGTCTTGATGTATGTGGAAGAGAGTATGTGTATGTGTGTTCCTGTACATAGCATGGGTGCAGCTGTGGATGTGTGCAAAAGAGTGTGAGTGTGTGTGTGTGTGTGTAAAGGGGTCTGTCCTAGAGCCCACATCAGTTTGTTGTGAATCTGGAAAAAGGGTCGGTGAGGGCCGGGAGATGTTGACCCTGGTGGGAGCAGGCTGAGGCTGCCCCGTTCTCCACATCCTCTGTTTTGCCCAGTCTCTGATTCCATTAGGGGGAGTGTGCTGAAGCCATTCTCGGATGCTTCCCAGACCAGGCTCCCTCTGCCAGAGTCACATGCATCCGAGCTGCTGGTCTCCATTGTCCAGCAGGAAGGCGGAAAGGCAGGCAAGATGGTGTGAAGCTTAAAGCTTGTATTTGATGGAAAAGGTCTCCCCTGTTCATCTGAGAGGCCAAGCCTGGCCACCCCAGGCTCAGAACCTGGGCTTCAAGAAATGTGCTGGGAGCTCCTAACTTACACATCCCTCCAGCCTTCCTTGAATCCTCCCACCACCCCCTATTTCCTTTAATTTCTCAGGTCTGCTCCCTCCTCCCCCAACCCCACAGCTGGGCAAGAAGTCTGCAAAAGCTGCATCTGCAGCTGTCTCTAACTCTTCCCAGCCATCTCCCGTATTTTTTGGTACCTTGATTCCTTGACTCTTAATAAGCCAAGCCACCTTATCTCTGTAGTTCTTATTTTTTTGTTGACTAAATTTGGGGGGTTCTTTTTTATGGTCATGTCACTGACCTATTAAATTGGGGCTTGGTGCTTTTCCACCTTCCCCCTCTGAATGAAAGCCAAGGAATGGGGGAAGAGCGGGAACTCTGCCGCGGAGGTGGAGCAAGAACGGTGAAGGGCCCTGGTCCCAGAGAGGCTGGTGGGTCCCTCTCCCAAAGGAAGGCAGACAGTCTCTGCTTTGCCTTGGACCTTGGTGCTGGGGGTGGGGAGGCCTGGGGGGGACACTCCCCACTCCCATTCCCCTTCCTTTGTCCTAATCCTGGAATTAAGTACAGGGGTTTATAGGTTCTATTTCTTCCCAAGAGCCCTGCAAAGAACCCCAGTTTCCTATTTGGATGCCCCTACACTGTTGTGTTTCAGTGGAATGTATTTTCATTTAAAAACAACTTTGAATGGGGCACTTTTTCTTTCCTGTTTTAAAAATTGAAAAATTCTTACAGTACAAACAGGACTGTCAGGGTGGGGGTGTTGGTGCTGTAAGAGGTCACTCTTGAGTGCATTTTGGCACTGGGATGGGATGGCTGGGGTGGGAAGACCCCCATCCCCACCCCCAACTTCTTTTCTAATATTTAAGGAGTGTTTTGTAGGATTCAACAACCACCACAACTTGAATTTGTATCATGGGAGGTGGGAGGGAGTGGCTTAGAGGTGTCTGCCTATGCTTAAAGCCAACTGTGGAAGTTTTGTTTTCCCTTTTTTGTATAATAAAGTGAAAAACAAAGGTTTGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|334358884|ref|NM_017780.3| Homo sapiens chromodomain helicase DNA binding protein 7 (CHD7), transcript variant 1, mRNA
GCGGCGGCGGCGGCGGCGGCGGCGGCAGCGGCGGCGGCGGCGGCGGCGCGGGGGTTGAGTCGTGGTGGTGCGGACGCGCTCGTGCTCGGGAACTATCGGATTAAACTTGAATCGAGTGAAATTACACAAAGGAGCGCCGCGGAGGAGGCGGCCCGGGGACCCGGACACCCTGAAACTCACCAGAGACCCGTTCGCCCCCGGCCAACTCCGTGCCCGTGGATTCAGCCCCCTGGCCGCAGCTGCCGAGCCAACTCCGGAGCCCGCTCTGCGTTTTGTTTTCCCCTCGGCACTAGGCAGCGGAGGAGCCCGACCGACCCGGACCTATATCCAGACTTTGCCTGACACTGCAGGGTCCAAGAGAATTAAAGAAATATGGAATGACATGAAGAAGATTAGTTAAGGATTATAGGCTTTGAGGGCAAACACCTCAGTGAAGTGAAGCACAGGCAAGCTCCTGAGCTGTGGTTTGGAGGAGCCGTGTGTTGGAAGAAGATGGCAGATCCAGGAATGATGAGTCTTTTTGGCGAGGATGGGAATATTTTCAGTGAAGGTCTTGAAGGCCTCGGAGAATGTGGTTACCCGGAAAATCCAGTAAATCCTATGGGTCAGCAAATGCCAATAGACCAAGGCTTTGCCTCTTTACAGCCATCCCTTCATCATCCTTCAACTAATCAAAATCAAACAAAGCTGACACATTTTGATCACTATAATCAGTATGAACAACAAAAGATGCATCTGATGGATCAGCCGAACAGAATGATGAGCAACACCCCTGGGAACGGACTCGCGTCTCCGCACTCGCAGTATCACACCCCTCCCGTTCCTCAGGTGCCCCATGGTGGCAGTGGTGGCGGTCAGATGGGTGTCTACCCTGGCATGCAGAATGAGAGGCATGGGCAATCCTTTGTGGACAGCAGCTCCATGTGGGGCCCCAGGGCTGTTCAGGTACCAGACCAGATACGAGCCCCCTACCAGCAGCAGCAGCCACAGCCGCAGCCACCGCAGCCGGCTCCGTCGGGGCCCCCTGCACAGGGCCACCCTCAGCACATGCAGCAGATGGGCAGCTATATGGCACGTGGGGATTTTTCCATGCAGCAGCATGGTCAGCCACAGCAGAGGATGAGCCAGTTTTCCCAAGGCCAAGAGGGCCTCAATCAGGGAAATCCTTTTATTGCCACCTCAGGACCTGGCCACTTGTCCCACGTGCCCCAGCAGAGTCCCAGCATGGCACCTTCCTTGCGTCACTCGGTGCAGCAGTTCCATCACCACCCCTCTACTGCTCTCCATGGAGAATCCGTTGCCCACAGTCCCAGATTCTCCCCGAATCCTCCCCAACAAGGGGCTGTTAGGCCGCAAACCCTTAACTTTAGTTCTCGGAGCCAGACAGTCCCCTCTCCTACTATAAACAACTCAGGGCAGTATTCTCGATATCCTTACAGTAACCTAAATCAGGGATTAGTTAACAATACAGGGATGAATCAAAATTTAGGCCTTACAAATAATACTCCAATGAATCAGTCCGTACCAAGATACCCCAATGCTGTAGGATTCCCATCAAACAGTGGTCAAGGACTAATGCACCAGCAGCCCATCCACCCCAGTGGCTCACTTAACCAAATGAACACACAAACTATGCATCCTTCACAGCCTCAGGGAACTTATGCCTCTCCACCTCCCATGTCACCCATGAAAGCAATGAGTAATCCAGCAGGCACTCCTCCTCCACAAGTCAGGCCGGGAAGTGCTGGGATACCAATGGAAGTTGGCAGTTATCCAAATATGCCCCATCCTCAGCCATCTCACCAGCCCCCTGGTGCCATGGGAATCGGACAGAGGAATATGGGCCCCAGAAACATGCAGCAGTCTCGTCCATTTATAGGCATGTCCTCGGCACCAAGGGAATTGACTGGGCACATGAGGCCAAATGGTTGTCCTGGTGTTGGCCTTGGAGACCCACAAGCAATCCAGGAACGACTGATACCTGGCCAACAACATCCTGGTCAACAGCCATCTTTTCAGCAGTTGCCAACCTGTCCTCCACTGCAGCCTCACCCGGGCTTGCACCACCAGTCTTCACCTCCACACCCTCATCACCAGCCTTGGGCACAGCTCCACCCATCACCCCAGAACACCCCGCAGAAAGTGCCTGTGCATCAGCATTCCCCGTCGGAGCCCTTTCTAGAGAAACCAGTGCCGGATATGACTCAGGTTAGTGGACCGAATGCTCAGCTAGTGAAGAGTGATGATTACCTGCCATCAATAGAACAGCAGCCACAACAAAAGAAGAAGAAAAAGAAAAACAACCACATTGTAGCAGAGGATCCCAGTAAAGGTTTTGGTAAAGATGACTTCCCTGGTGGGGTAGATAACCAAGAACTAAATAGGAACTCACTGGATGGGTCCCAAGAAGAAAAAAAGAAAAAGAAAAGGTCAAAGGCAAAAAAAGACCCGAAGGAACCGAAAGAACCCAAGGAGAAAAAAGAGCCCAAGGAACCCAAGACCCCGAAAGCCCCTAAGATTCCCAAAGAGCCAAAGGAAAAGAAAGCAAAAACTGCCACGCCAAAACCCAAATCCAGCAAAAAGTCAAGTAATAAGAAACCTGACTCAGAAGCAAGTGCTTTGAAGAAAAAGGTCAACAAGGGAAAAACAGAAGGTTCTGAAAATTCAGACTTAGACAAAACACCCCCACCATCTCCTCCTCCTGAAGAAGATGAGGACCCAGGTGTTCAGAAGAGACGGTCCAGCAGACAGGTGAAGAGAAAGCGCTACACTGAAGACCTGGAGTTCAAGATTTCTGATGAGGAGGCAGATGATGCAGATGCTGCTGGGAGGGATTCCCCCTCCAACACCTCCCAGTCAGAACAGCAGGAATCTGTTGATGCAGAAGGCCCAGTGGTAGAAAAAATTATGAGCAGTCGTTCAGTAAAAAAGCAGAAGGAATCTGGAGAGGAGGTAGAAATTGAGGAATTCTATGTGAAATACAAAAACTTCTCTTATCTTCATTGTCAGTGGGCATCTATAGAAGATCTGGAAAAAGATAAGAGAATTCAGCAAAAAATTAAACGATTTAAGGCAAAGCAGGGCCAGAACAAGTTCCTTTCAGAGATTGAGGATGAGCTTTTTAATCCAGATTATGTGGAGGTTGACCGGATAATGGACTTTGCACGTAGCACAGATGACCGGGGAGAGCCTGTGACTCACTATCTGGTGAAGTGGTGTTCACTTCCTTATGAAGACAGCACGTGGGAGCGGAGGCAGGACATAGATCAAGCAAAGATCGAGGAGTTTGAGAAACTAATGTCCAGGGAGCCGGAAACAGAGCGTGTGGAGCGACCTCCTGCTGATGATTGGAAGAAATCGGAGAGTTCCAGGGAGTATAAAAACAATAACAAACTCAGGGAATACCAGTTGGAGGGAGTAAACTGGCTACTTTTCAATTGGTACAACATGCGAAACTGCATTTTAGCAGATGAAATGGGTTTGGGAAAAACTATCCAGTCCATTACATTTCTCTATGAGATATATTTGAAAGGAATCCATGGCCCTTTTTTAGTAATTGCCCCATTGTCCACAATCCCCAACTGGGAAAGGGAATTCCGAACCTGGACAGAGTTGAACGTGGTTGTGTATCATGGGAGTCAAGCTAGTCGTCGGACCATTCAGTTGTATGAAATGTACTTCAAAGATCCCCAGGGTCGAGTGATAAAGGGGTCCTATAAGTTTCATGCCATCATCACTACATTTGAGATGATTTTGACTGATTGTCCTGAGCTGCGGAATATTCCATGGCGCTGTGTAGTCATTGATGAAGCCCACAGGCTGAAGAACAGGAACTGCAAGCTGTTGGAGGGACTCAAGATGATGGACTTGGAACACAAAGTGCTGCTGACGGGAACCCCACTCCAGAACACTGTGGAAGAACTCTTCAGCTTGCTTCATTTCTTGGAACCAAGTCGCTTCCCTTCAGAAACCACATTTATGCAAGAATTTGGTGATCTAAAAACAGAAGAGCAGGTGCAAAAACTTCAAGCTATTCTAAAGCCAATGATGTTGAGACGTCTCAAAGAGGATGTAGAAAAGAACTTGGCCCCCAAAGAAGAAACTATTATTGAAGTTGAGCTAACAAACATTCAGAAGAAATATTACCGAGCCATCCTTGAGAAGAATTTCACATTTCTTTCCAAAGGCGGTGGTCAAGCTAACGTACCTAACCTATTAAACACTATGATGGAATTGCGGAAGTGCTGCAATCATCCGTACCTTATCAATGGTGCTGAAGAGAAAATTTTGGAAGAGTTTAAAGAAACACACAATGCAGAGTCTCCAGATTTTCAGCTCCAGGCAATGATCCAGGCTGCTGGCAAGCTAGTGCTGATTGACAAGCTGCTGCCAAAACTGAAGGCTGGTGGCCACAGGGTGCTTATCTTTTCCCAGATGGTGCGCTGCTTGGACATACTGGAAGACTACCTCATTCAAAGACGGTACCCATATGAAAGGATCGACGGCCGAGTAAGAGGCAACCTCCGCCAGGCAGCTATCGACAGATTCTCCAAACCTGATTCTGATAGGTTTGTTTTCCTCCTGTGTACAAGGGCAGGAGGTTTAGGCATTAACCTCACTGCTGCTGATACCTGCATCATCTTTGATTCAGACTGGAATCCCCAAAATGACCTCCAGGCTCAGGCTAGATGTCATAGAATAGGACAGAGCAAATCTGTGAAAATCTACAGGCTGATTACAAGAAATTCCTATGAAAGGGAAATGTTCGACAAGGCTAGTTTGAAACTGGGCCTGGATAAAGCTGTGCTACAGTCTATGAGTGGAAGAGAAAATGCTACCAATGGGGTACAACAGCTTTCCAAGAAAGAAATAGAGGATCTTCTACGAAAAGGGGCCTATGGTGCACTCATGGATGAGGAGGATGAAGGGTCTAAATTCTGTGAAGAAGATATTGATCAGATCCTCCTACGTCGAACCCACACCATTACCATTGAGTCAGAAGGGAAAGGTTCCACATTTGCTAAGGCCAGTTTTGTTGCATCTGGAAATAGGACAGATATTTCCTTGGATGATCCAAATTTCTGGCAAAAGTGGGCTAAGAAGGCTGAATTGGATATTGATGCCTTAAATGGGAGGAACAACCTGGTTATTGATACTCCAAGAGTGAGAAAGCAGACCAGGCTCTACAGTGCAGTGAAGGAAGATGAGCTGATGGAGTTCTCAGACTTGGAAAGTGATTCTGAAGAAAAGCCCTGTGCAAAGCCACGGCGTCCCCAGGATAAGTCACAGGGCTATGCAAGGAGTGAATGTTTCAGGGTGGAGAAGAATCTGCTTGTCTATGGTTGGGGACGGTGGACAGACATTCTTTCCCACGGACGCTATAAACGCCAACTCACTGAGCAAGATGTAGAAACCATCTGCAGAACCATCCTGGTGTACTGTCTTAATCATTACAAAGGGGATGAGAATATCAAAAGCTTCATCTGGGATCTGATCACACCCACAGCGGATGGCCAGACTCGAGCCTTGGTCAACCATTCCGGTTTGTCAGCTCCTGTGCCAAGGGGAAGGAAGGGAAAGAAGGTGAAAGCCCAGAGCACACAGCCGGTGGTGCAGGATGCCGACTGGCTGGCCAGCTGCAACCCAGATGCCCTGTTCCAGGAGGACAGCTACAAGAAACACCTGAAGCATCACTGTAACAAGGTCCTGCTGCGTGTCCGCATGCTGTACTACCTAAGACAAGAAGTGATAGGAGACCAGGCGGATAAGATCTTAGAGGGTGCTGACTCAAGTGAAGCCGATGTGTGGATCCCTGAACCTTTCCATGCTGAAGTTCCTGCAGATTGGTGGGATAAGGAAGCAGACAAATCCCTCTTAATTGGAGTGTTCAAACATGGCTATGAGAAGTACAACTCCATGCGAGCTGACCCCGCGCTGTGCTTTCTGGAACGAGTCGGTATGCCTGATGCCAAGGCCATAGCTGCCGAGCAAAGAGGAACAGACATGCTAGCAGATGGTGGTGACGGGGGAGAATTTGATAGAGAAGATGAAGACCCAGAATATAAACCAACCAGAACACCGTTCAAAGATGAAATAGATGAATTTGCAAATTCTCCTTCAGAGGATAAGGAAGAATCCATGGAAATACATGCCACAGGCAAGCACAGTGAGAGTAATGCTGAGTTAGGCCAACTTTACTGGCCTAACACTTCAACCCTGACTACACGTCTGCGCCGGCTCATTACTGCCTATCAGCGCAGCTATAAAAGGCAACAGATGAGGCAAGAGGCCCTAATGAAGACTGACCGGCGCAGACGGCGGCCTCGAGAGGAAGTGAGAGCTCTGGAAGCGGAAAGGGAAGCTATTATATCTGAGAAGCGGCAAAAGTGGACAAGAAGAGAAGAGGCTGATTTTTACCGTGTGGTATCCACCTTTGGGGTTATTTTTGACCCTGTGAAACAGCAATTTGACTGGAACCAATTTAGAGCCTTTGCCAGGCTTGACAAAAAATCTGATGAGAGTTTGGAGAAATACTTCAGTTGTTTTGTGGCCATGTGTAGGCGAGTATGTCGAATGCCCGTCAAGCCAGATGATGAACCGCCCGACCTCTCCTCCATAATTGAGCCGATCACAGAGGAGCGAGCCTCTCGAACTCTGTACCGCATTGAGCTGCTACGGAAGATCCGCGAGCAGGTTCTCCATCACCCCCAGCTGGGAGAGAGGCTTAAGCTCTGCCAGCCAAGCTTGGATCTGCCAGAGTGGTGGGAGTGTGGACGGCATGACCGAGACTTGCTGGTTGGTGCTGCTAAACACGGGGTCAGTCGGACGGATTATCACATCCTCAATGACCCTGAGTTATCCTTCTTGGATGCACATAAAAACTTTGCTCAAAACAGAGGGGCAGGTAATACATCTTCCTTGAACCCACTGGCAGTTGGATTTGTCCAGACTCCTCCAGTCATCTCATCTGCTCATATTCAAGATGAGAGGGTACTGGAACAAGCCGAAGGCAAAGTGGAGGAGCCTGAAAACCCAGCTGCCAAGGAGAAATGTGAGGGCAAAGAAGAGGAAGAAGAAACCGATGGCAGCGGGAAGGAGAGCAAGCAGGAATGTGAGGCAGAGGCCAGCTCTGTGAAAAATGAACTGAAAGGTGTTGAGGTCGGCGCAGACACTGGGTCCAAATCTATTTCAGAGAAAGGTTCCGAAGAGGATGAAGAGGAAAAGCTGGAGGATGACGATAAGTCGGAAGAGTCTTCCCAGCCCGAAGCAGGAGCTGTCTCTAGAGGGAAGAATTTTGATGAAGAAAGCAATGCTTCCATGAGCACTGCTAGAGATGAAACCCGAGATGGATTCTACATGGAGGACGGAGATCCTTCAGTAGCTCAGCTCCTTCATGAAAGAACATTTGCCTTCTCGTTTTGGCCTAAGGATAGAGTAATGATAAACCGCTTAGACAACATCTGTGAAGCAGTGTTGAAAGGCAAATGGCCAGTAAATAGGCGCCAGATGTTTGATTTCCAAGGCCTCATCCCAGGTTACACACCCACCACAGTGGACAGCCCCTTGCAGAAGAGGAGCTTTGCTGAGCTCTCCATGGTCGGCCAAGCCAGCATTAGTGGGAGTGAGGACATCACTACGTCTCCTCAGTTGTCAAAGGAAGATGCCCTCAACCTCTCTGTCCCTCGCCAGCGGAGGAGGAGGAGGAGAAAAATCGAAATTGAGGCCGAAAGAGCTGCCAAGAGGCGAAATCTCATGGAGATGGTTGCCCAGCTTCGAGAGTCTCAGGTGGTCTCAGAAAATGGACAAGAAAAAGTTGTAGATTTATCAAAGGCCTCAAGAGAGGCAACAAGCTCTACCTCAAATTTTTCATCTCTTTCTTCAAAGTTTATCTTGCCTAATGTCTCAACACCAGTGTCTGATGCCTTTAAGACTCAAATGGAACTGCTCCAAGCAGGCCTTTCGCGCACACCCACAAGGCATCTCCTTAATGGCTCCCTAGTGGATGGAGAGCCTCCCATGAAGAGGAGGCGGGGAAGGAGGAAAAATGTGGAGGGACTTGATCTGCTTTTCATGAGCCACAAACGGACGTCATTGAGTGCAGAGGATGCTGAGGTGACCAAAGCTTTTGAAGAAGATATAGAGACCCCACCAACAAGAAACATTCCTTCTCCCGGACAGCTGGACCCAGACACACGGATCCCTGTTATCAATCTTGAAGATGGGACTAGGCTGGTGGGGGAAGATGCTCCTAAAAATAAGGATTTAGTTGAATGGCTGAAGCTGCACCCTACTTACACTGTTGATATGCCAAGTTATGTACCAAAGAATGCAGATGTGCTGTTTTCCTCATTTCAGAAACCGAAACAGAAACGACATAGATGTCGAAACCCTAATAAATTGGATATAAACACTTTGACAGGAGAAGAAAGGGTGCCTGTTGTCAATAAACGAAATGGGAAGAAGATGGGTGGAGCTATGGCGCCTCCAATGAAGGATCTACCCAGGTGGCTGGAAGAAAATCCTGAATTTGCAGTTGCTCCAGACTGGACTGATATAGTTAAGCAGTCTGGTTTTGTTCCTGAGTCGATGTTTGACCGCCTTCTCACTGGGCCTGTAGTGCGGGGAGAGGGAGCGAGCAGAAGAGGAAGAAGGCCCAAAAGTGAGATCGCCAGAGCAGCCGCGGCCGCCGCTGCTGTGGCCTCCACGTCAGGGATCAACCCTTTGCTGGTGAACAGCCTGTTTGCTGGAATGGACCTGACGAGCCTTCAGAATCTCCAGAATCTCCAGTCGCTCCAGCTGGCAGGCCTCATGGGCTTCCCTCCAGGACTGGCAACAGCTGCCACCGCCGGAGGCGATGCGAAGAACCCTGCTGCTGTGCTGCCCCTGATGCTGCCAGGAATGGCGGGCCTGCCCAACGTGTTTGGCTTGGGCGGGCTGTTGAATAACCCTCTGTCAGCTGCTACTGGAAACACCACTACTGCTTCTAGTCAAGGAGAACCGGAAGACAGCACTTCAAAAGGAGAGGAGAAAGGAAATGAGAATGAAGACGAGAACAAAGACTCTGAGAAAAGCACAGATGCTGTTTCGGCTGCTGACTCTGCGAATGGATCTGTTGGTGCTGCTACTGCCCCGGCTGGATTGCCCTCAAACCCGCTAGCCTTCAACCCTTTCCTCCTGTCCACAATGGCCCCGGGCCTCTTCTACCCATCCATGTTTCTACCTCCAGGACTGGGGGGATTGACGCTGCCTGGGTTCCCAGCATTGGCAGGACTTCAGAATGCCGTGGGCTCCAGCGAAGAAAAGGCTGCTGACAAGGCTGAGGGAGGACCCTTTAAAGATGGAGAGACCCTTGAAGGCAGCGATGCCGAGGAGAGCCTGGATAAGACTGCAGAGTCCTCCCTCTTAGAAGACGAAATAGCACAGGGTGAAGAGCTAGACTCACTTGATGGGGGGGATGAAATAGAAAACAATGAAAATGATGAATAACCAGTACCAGTTCCAGTTCAAGTGTTTAAAACTTTTGACAAGTGGTAGTCCTACTGTTTACACTCACAGTTAATGTTCATACCTAGTTTTATAAGCTGTTCTGTAACATAGTGTAGCAAAAAAAAAAGTTCAAGTCATGTTATACAGGTGTGTCAAAAGGTATCTTGGTCATTAAGTATTGTGCAGTGCATTATTTATTATCCCTAGGAGAGATGAAATTTGAGAGGTGATCATGTCTTTTTAAGGAAACTTACATAATGCTCTGCTTTTTTTTTTTCTCTTGGTACCATTGGTATTATAATAAAGAGCAATTTGTAACTGAGTGGCACTAATGGAAGAAAGTGCTGCTCAAAGGAAGTATGAAGTTATATATTTAATTTTTTAATTTTAATTTTTAATTTTTTTGCTGTGAAGGTCAAGCTGAAATTTACCATACATATCATACTTGCTCATTTGTTTCCCTTTTTGACTGTATGGGGGTTCCCACACTCGTGCATACACACACATCCATACACTCTGACAATCTCCACGCTAGTGTGAACGCCTCTGTCCCGAGGCGCAGCAATAATAAGGCAGCTGTTGAATGTGAAGGGTCCCTTTGGAAAATTAACCTACTGGGAGGGTTCTTGCCAGACAGAACTACAGTTCCATTGTCTCGTGGTCTTGTAATGCACTGGTAAAAACAAAATAAATAGATGAATAAATAAAGAGTGAGAGAAGAGAGAATCAGGTACCTTTTTTAAATTAAAGGACTTTGTTACTTTAGCCACAAAGCTAAAACAGCATTACCTCAGCTCTAAACTAGCCTTGAAGTTTACAGACATGACTTTGTAAATGTATTGTTTTTCTTTGTTGTGATGTCCTTTTATTTTTTTCTTTGAAAACTGCTATCATGTAAGATAAAATGTAAATTGCTGCCAACTGTAGTAATGATGCTTTTAATAAAAGTGACCCATGATATGCAGAGATGTAATTATAGAATGTAGTATATAGGGAAACTGGTGTTCACTCTATTTTTTTTGTATTCGCAATAGATGCAAATACAGCATTCTGGCTTTTGTACAGTTTCTTGATATATCCTCTTATACTAGATTAGCTTTTGGTAAGACACTAAACTGTCTCGAAGACTAGACAGGAAGGAAAACCTTGAATTACTCTCACATAATTCCACTCCAGATATCTCAACAGAAATGCATACAAAAAGCTCCTATTACTCCCTCAAAAGGGCATCTGAGACCGAGAATACTTAGAAATGTGTGCAGCGTGTGATAATGTGGTACACTGAAGAACAAAAGGGCAAAAGAAAAATGAGGCTTTAACAGGCACAATATCTAGGTCATTTATCCTTGGTTAATGGGTAGAAAAACACAATGCGGTAGTGTCAGCAAGGGACACAAAGGCACTCTGGTGTCCTGCAGACCAGCGCTCGATGCCAGAAACCAGTGTGTGGAAAAACCCATGTGGAATTGAAACAGACCCACTTAAGCACGCACGCGCGCACGCACGGTCTCAGGAGCTACTGATTTGTGGACCCCTTTTTGACCTTTGGTATTTAAAGTAAAATATAATTTGAGATCTACTGTTTTCACCTTTTTATGTCACCTGAACCAACACAAAGCCATATTTCCATCCAGTTAAAAAGCAGGGGAAGGGATGTGGACGAGAGTGTTTCGTGTGTGTTGCCTTCCTCCACACCCTTCCCCCAGGACGTCCGCACACAGTCCACCTCCAGCCAGTGTGCTGCCAGACAGGTGGTCTAAATTCCTCCCAGACTGTGAGATTCAGTTCGTTTATGCCCCAAGATGAAAATATGCCCCTTAATGATTCTGGGAAAGAAACAACCTGAACCCTCCACCTTACAGATCCTGTGATTGCTTTTATTTATCATCGTCGTTGTCTGCTGAAAGTGAATGGGCCGTGCACACTGGAGGAAAGTGCCTTGAAGAGAATATTTTTTGAAAGGGAATTATTTGAACACGGGAAAGTGAAACTAGGTCTGCATGAAGTATAGGAAATTTAAGTATTTAAGTAACAAAGATGTTAGCAGGGAGAATTTGCTTAATAAAATGAGTCATTAAAGGGTGTTTTTTTTAAAAAAAAAAA
>gi|333033783|ref|NM_002632.5| Homo sapiens placental growth factor (PGF), transcript variant 1, mRNA
CCTCGCACGCACTGCGGGCTCCGGCGCTGCGGGCTGGCCGGGCGCTGCGGGCTGACCGGGCGCTCCGGGAACTCGGCTCGGGAACCTCGTCTGCGGTGGGCGGGGCCGGCCCGGAGCCCCGCCCCGGCTCAGTCCCTGAAACCCAGGCGCGGACCGGCTGCAGTCTCAGAAGGGAGCTGCTGTCTGCGGAGGAAACTGCATCGACGGACGGCCGCCCAGCTACGGGAGGACCTGGAGTGGCACTGGGCGCCCGACGGACCATCCCCGGGACCCGCCTGCCCCTCGGCGCCCCGCCCCGCCGGGCCGCTCCCCGTCGGGTTCCCCAGCCACAGCCTTACCTACGGGCTCCTGACTCCGCAAGGCTTCCAGAAGATGCTCGAACCACCGGCCGGGGCCTCGGGGCAGCAGTGAGGGAGGCGTCCAGCCCCCCACTCAGCTCTTCTCCTCCTGTGCCAGGGGCTCCCCGGGGGATGAGCATGGTGGTTTTCCCTCGGAGCCCCCTGGCTCGGGACGTCTGAGAAGATGCCGGTCATGAGGCTGTTCCCTTGCTTCCTGCAGCTCCTGGCCGGGCTGGCGCTGCCTGCTGTGCCCCCCCAGCAGTGGGCCTTGTCTGCTGGGAACGGCTCGTCAGAGGTGGAAGTGGTACCCTTCCAGGAAGTGTGGGGCCGCAGCTACTGCCGGGCGCTGGAGAGGCTGGTGGACGTCGTGTCCGAGTACCCCAGCGAGGTGGAGCACATGTTCAGCCCATCCTGTGTCTCCCTGCTGCGCTGCACCGGCTGCTGCGGCGATGAGAATCTGCACTGTGTGCCGGTGGAGACGGCCAATGTCACCATGCAGCTCCTAAAGATCCGTTCTGGGGACCGGCCCTCCTACGTGGAGCTGACGTTCTCTCAGCACGTTCGCTGCGAATGCCGGCCTCTGCGGGAGAAGATGAAGCCGGAAAGGAGGAGACCCAAGGGCAGGGGGAAGAGGAGGAGAGAGAAGCAGAGACCCACAGACTGCCACCTGTGCGGCGATGCTGTTCCCCGGAGGTAACCCACCCCTTGGAGGAGAGAGACCCCGCACCCGGCTCGTGTATTTATTACCGTCACACTCTTCAGTGACTCCTGCTGGTACCTGCCCTCTATTTATTAGCCAACTGTTTCCCTGCTGAATGCCTCGCTCCCTTCAAGACGAGGGGCAGGGAAGGACAGGACCCTCAGGAATTCAGTGCCTTCAACAACGTGAGAGAAAGAGAGAAGCCAGCCACAGACCCCTGGGAGCTTCCGCTTTGAAAGAAGCAAGACACGTGGCCTCGTGAGGGGCAAGCTAGGCCCCAGAGGCCCTGGAGGTCTCCAGGGGCCTGCAGAAGGAAAGAAGGGGGCCCTGCTACCTGTTCTTGGGCCTCAGGCTCTGCACAGACAAGCAGCCCTTGCTTTCGGAGCTCCTGTCCAAAGTAGGGATGCGGATCCTGCTGGGGCCGCCACGGCCTGGCTGGTGGGAAGGCCGGCAGCGGGCGGAGGGGATCCAGCCACTTCCCCCTCTTCTTCTGAAGATCAGAACATTCAGCTCTGGAGAACAGTGGTTGCCTGGGGGCTTTTGCCACTCCTTGTCCCCCGTGATCTCCCCTCACACTTTGCCATTTGCTTGTACTGGGACATTGTTCTTTCCGGCCAAGGTGCCACCACCCTGCCCCCCCTAAGAGACACATACAGAGTGGGCCCCGGGCTGGAGAAAGAGCTGCCTGGATGAGAAACAGCTCAGCCAGTGGGGATGAGGTCACCAGGGGAGGAGCCTGTGCGTCCCAGCTGAAGGCAGTGGCAGGGGAGCAGGTTCCCCAAGGGCCCTGGCACCCCCACAAGCTGTCCCTGCAGGGCCATCTGACTGCCAAGCCAGATTCTCTTGAATAAAGTATTCTAGTGTGGAAACGCT
>gi|331028574|ref|NM_001822.5| Homo sapiens chimerin 1 (CHN1), transcript variant 1, mRNA
CGCCTCTCCGCCAGCCACTGCGCCGCGGCCAAGCCTCCTGCCTCGCAGGTACCTCCTCCCGCGCGCACGCTCCGCGCCTGATGGCAGCGACAAGTGCCGGCTCGCGGAGAGCTAGCGGGGCTCCCTGGGCCCGGTGCGCCCGACAATAACGCGTGAATAACTTTTTCTTGCAGCGGTCCCCCGCGTCCCGGCCTGCAGCCTCCCCGGGCGCCGGCGCCCCCAGCACGCCCCATCGGGCACCCCACTCTCTCCGAGGTGTGGGTGCGGCGGGCTGATGAGGTGATCCCTAGCCCGCCTGGGAGGAGCGCCTGGACTCGCGGGCGGCGGCGAGCGCCTTTACAATGGCCCTGACCCTGTTTGATACAGATGAATATAGACCTCCTGTTTGGAAATCTTACTTATATCAGCTACAACAGGAAGCCCCTCATCCTCGAAGAATTACCTGTACTTGCGAGGTGGAAAACAGACCAAAGTATTATGGAAGAGAGTTTCATGGCATGATCTCCAGAGAAGCAGCCGACCAGCTCTTGATTGTGGCTGAGGGGAGCTACCTCATCCGGGAGAGCCAGCGGCAGCCAGGGACCTACACTTTGGCTTTAAGATTTGGAAGTCAAACCAGAAACTTCAGGCTCTACTACGATGGCAAGCACTTTGTTGGGGAGAAACGCTTTGAGTCCATCCACGATCTGGTGACTGATGGCTTGATTACTCTCTATATTGAAACCAAGGCAGCAGAATACATTGCCAAGATGACGATAAACCCAATTTATGAGCACGTAGGATACACAACCTTAAACAGAGAGCCAGCATACAAAAAACATATGCCAGTCCTGAAAGAGACACATGATGAGAGAGATTCTACAGGCCAGGATGGGGTGTCAGAGAAAAGGTTGACATCACTTGTTAGAAGAGCAACTCTGAAAGAAAACGAGCAAATTCCAAAATATGAAAAGATTCACAATTTCAAGGTGCATACATTCAGAGGGCCACACTGGTGTGAATACTGTGCCAACTTTATGTGGGGTCTCATTGCTCAGGGAGTGAAATGTGCAGATTGTGGTTTGAATGTTCATAAGCAGTGTTCCAAGATGGTCCCAAATGACTGTAAGCCAGACTTGAAGCATGTCAAAAAGGTGTACAGCTGTGACCTTACGACGCTCGTGAAAGCACATACCACTAAGCGGCCAATGGTGGTAGACATGTGCATCAGGGAGATTGAGTCTAGAGGTCTTAATTCTGAAGGACTATACCGAGTATCAGGATTTAGTGACCTAATTGAAGATGTCAAGATGGCTTTCGACAGAGATGGTGAGAAGGCAGATATTTCTGTGAACATGTATGAAGATATCAACATTATCACTGGTGCACTTAAACTGTACTTCAGGGATTTGCCAATTCCACTCATTACATATGATGCCTACCCTAAGTTTATAGAATCTGCCAAAATTATGGATCCGGATGAGCAATTGGAAACCCTTCATGAAGCACTGAAACTACTGCCACCTGCTCACTGCGAAACCCTCCGGTACCTCATGGCACATCTAAAGAGAGTGACCCTCCACGAAAAGGAGAATCTTATGAATGCAGAGAACCTTGGAATCGTCTTTGGACCCACCCTTATGAGATCTCCAGAACTAGACGCCATGGCTGCATTGAATGATATACGGTATCAGAGACTGGTGGTGGAGCTGCTTATCAAAAACGAAGACATTTTATTTTAAATTTTTAATTTGAGGGGAAAAGAAATGTTTTACAGATGAAGGAATGTTTTATAGTAATTTAATTTGCTCCTGTAGCTGCATTATTTCTTGATTAGAGGTTTGGGCATATAACCAGATTAAAGTGAAGGAACTTTCTGTTGTTTTTGTAGCACCGCTCAGCTGTCTTGTAAAACAGTGAACACACGCTTTCTGGTTCTAGTAATCCTGGGTGTTTATCACGTTCAGAGAAACTCAAGCTATTGCATGATTAGCCCCCTATCTGGCAAGGAAACCCCATACAGAAGAAACAACAAACCTGCGCCTGCACCGCCTCTGCGTCCTGGGTAGTCTGTGCTTGTAATCCAGCATGTTTCACAGAGTAAGCCTGTTGTGACTTTGCTTTTGGGGTCTATGTCATTGGTTTCTGATGCTTGTACAAACACGCACACACAAATGGATAAAACAGCACCTCTGGCTGTTACATTACCATAAACCATATCACATGCCTACATTTTACAAATGATTTCTGGTTTCTCTTAGTTCTTCTCTAACATAGTACTTTCTTTCCAGCAAAAGCAAAATGTGTTTTCAGATTTGTTACTTTAATAAAGGTTATCCATACCAATAAAAAGTGTACAACACAGCATTTTCTGTTAAATTATTATTGGTTTTCAGTTGTAATTTGGTATTTTTTCTGGCATGCGTTTATTAATTTATTAAATTGGCTTTTAGAAATAAAAAATATTGATAGCTTACTTTTTTCTCATAAGAATATTCGGGAAAATGTGTTTGGCCATTTATTAAATACTGAGTACTTCTTCTG
>gi|327365332|ref|NM_017442.3| Homo sapiens toll like receptor 9 (TLR9), mRNA
GGAGGTCTTGTTTCCGGAAGATGTTGCAAGGCTGTGGTGAAGGCAGGTGCAGCCTAGCCTCCTGCTCAAGCTACACCCTGGCCCTCCACGCATGAGGCCCTGCAGAACTCTGGAGATGGTGCCTACAAGGGCAGAAAAGGACAAGTCGGCAGCCGCTGTCCTGAGGGCACCAGCTGTGGTGCAGGAGCCAAGACCTGAGGGTGGAAGTGTCCTCTTAGAATGGGGAGTGCCCAGCAAGGTGTACCCGCTACTGGTGCTATCCAGAATTCCCATCTCTCCCTGCTCTCTGCCTGAGCTCTGGGCCTTAGCTCCTCCCTGGGCTTGGTAGAGGACAGGTGTGAGGCCCTCATGGGATGTAGGCTGTCTGAGAGGGGAGTGGAAAGAGGAAGGGGTGAAGGAGCTGTCTGCCATTTGACTATGCAAATGGCCTTTGACTCATGGGACCCTGTCCTCCTCACTGGGGGCAGGGTGGAGTGGAGGGGGAGCTACTAGGCTGGTATAAAAATCTTACTTCCTCTATTCTCTGAGCCGCTGCTGCCCCTGTGGGAAGGGACCTCGAGTGTGAAGCATCCTTCCCTGTAGCTGCTGTCCAGTCTGCCCGCCAGACCCTCTGGAGAAGCCCCTGCCCCCCAGCATGGGTTTCTGCCGCAGCGCCCTGCACCCGCTGTCTCTCCTGGTGCAGGCCATCATGCTGGCCATGACCCTGGCCCTGGGTACCTTGCCTGCCTTCCTACCCTGTGAGCTCCAGCCCCACGGCCTGGTGAACTGCAACTGGCTGTTCCTGAAGTCTGTGCCCCACTTCTCCATGGCAGCACCCCGTGGCAATGTCACCAGCCTTTCCTTGTCCTCCAACCGCATCCACCACCTCCATGATTCTGACTTTGCCCACCTGCCCAGCCTGCGGCATCTCAACCTCAAGTGGAACTGCCCGCCGGTTGGCCTCAGCCCCATGCACTTCCCCTGCCACATGACCATCGAGCCCAGCACCTTCTTGGCTGTGCCCACCCTGGAAGAGCTAAACCTGAGCTACAACAACATCATGACTGTGCCTGCGCTGCCCAAATCCCTCATATCCCTGTCCCTCAGCCATACCAACATCCTGATGCTAGACTCTGCCAGCCTCGCCGGCCTGCATGCCCTGCGCTTCCTATTCATGGACGGCAACTGTTATTACAAGAACCCCTGCAGGCAGGCACTGGAGGTGGCCCCGGGTGCCCTCCTTGGCCTGGGCAACCTCACCCACCTGTCACTCAAGTACAACAACCTCACTGTGGTGCCCCGCAACCTGCCTTCCAGCCTGGAGTATCTGCTGTTGTCCTACAACCGCATCGTCAAACTGGCGCCTGAGGACCTGGCCAATCTGACCGCCCTGCGTGTGCTCGATGTGGGCGGAAATTGCCGCCGCTGCGACCACGCTCCCAACCCCTGCATGGAGTGCCCTCGTCACTTCCCCCAGCTACATCCCGATACCTTCAGCCACCTGAGCCGTCTTGAAGGCCTGGTGTTGAAGGACAGTTCTCTCTCCTGGCTGAATGCCAGTTGGTTCCGTGGGCTGGGAAACCTCCGAGTGCTGGACCTGAGTGAGAACTTCCTCTACAAATGCATCACTAAAACCAAGGCCTTCCAGGGCCTAACACAGCTGCGCAAGCTTAACCTGTCCTTCAATTACCAAAAGAGGGTGTCCTTTGCCCACCTGTCTCTGGCCCCTTCCTTCGGGAGCCTGGTCGCCCTGAAGGAGCTGGACATGCACGGCATCTTCTTCCGCTCACTCGATGAGACCACGCTCCGGCCACTGGCCCGCCTGCCCATGCTCCAGACTCTGCGTCTGCAGATGAACTTCATCAACCAGGCCCAGCTCGGCATCTTCAGGGCCTTCCCTGGCCTGCGCTACGTGGACCTGTCGGACAACCGCATCAGCGGAGCTTCGGAGCTGACAGCCACCATGGGGGAGGCAGATGGAGGGGAGAAGGTCTGGCTGCAGCCTGGGGACCTTGCTCCGGCCCCAGTGGACACTCCCAGCTCTGAAGACTTCAGGCCCAACTGCAGCACCCTCAACTTCACCTTGGATCTGTCACGGAACAACCTGGTGACCGTGCAGCCGGAGATGTTTGCCCAGCTCTCGCACCTGCAGTGCCTGCGCCTGAGCCACAACTGCATCTCGCAGGCAGTCAATGGCTCCCAGTTCCTGCCGCTGACCGGTCTGCAGGTGCTAGACCTGTCCCACAATAAGCTGGACCTCTACCACGAGCACTCATTCACGGAGCTACCGCGACTGGAGGCCCTGGACCTCAGCTACAACAGCCAGCCCTTTGGCATGCAGGGCGTGGGCCACAACTTCAGCTTCGTGGCTCACCTGCGCACCCTGCGCCACCTCAGCCTGGCCCACAACAACATCCACAGCCAAGTGTCCCAGCAGCTCTGCAGTACGTCGCTGCGGGCCCTGGACTTCAGCGGCAATGCACTGGGCCATATGTGGGCCGAGGGAGACCTCTATCTGCACTTCTTCCAAGGCCTGAGCGGTTTGATCTGGCTGGACTTGTCCCAGAACCGCCTGCACACCCTCCTGCCCCAAACCCTGCGCAACCTCCCCAAGAGCCTACAGGTGCTGCGTCTCCGTGACAATTACCTGGCCTTCTTTAAGTGGTGGAGCCTCCACTTCCTGCCCAAACTGGAAGTCCTCGACCTGGCAGGAAACCAGCTGAAGGCCCTGACCAATGGCAGCCTGCCTGCTGGCACCCGGCTCCGGAGGCTGGATGTCAGCTGCAACAGCATCAGCTTCGTGGCCCCCGGCTTCTTTTCCAAGGCCAAGGAGCTGCGAGAGCTCAACCTTAGCGCCAACGCCCTCAAGACAGTGGACCACTCCTGGTTTGGGCCCCTGGCGAGTGCCCTGCAAATACTAGATGTAAGCGCCAACCCTCTGCACTGCGCCTGTGGGGCGGCCTTTATGGACTTCCTGCTGGAGGTGCAGGCTGCCGTGCCCGGTCTGCCCAGCCGGGTGAAGTGTGGCAGTCCGGGCCAGCTCCAGGGCCTCAGCATCTTTGCACAGGACCTGCGCCTCTGCCTGGATGAGGCCCTCTCCTGGGACTGTTTCGCCCTCTCGCTGCTGGCTGTGGCTCTGGGCCTGGGTGTGCCCATGCTGCATCACCTCTGTGGCTGGGACCTCTGGTACTGCTTCCACCTGTGCCTGGCCTGGCTTCCCTGGCGGGGGCGGCAAAGTGGGCGAGATGAGGATGCCCTGCCCTACGATGCCTTCGTGGTCTTCGACAAAACGCAGAGCGCAGTGGCAGACTGGGTGTACAACGAGCTTCGGGGGCAGCTGGAGGAGTGCCGTGGGCGCTGGGCACTCCGCCTGTGCCTGGAGGAACGCGACTGGCTGCCTGGCAAAACCCTCTTTGAGAACCTGTGGGCCTCGGTCTATGGCAGCCGCAAGACGCTGTTTGTGCTGGCCCACACGGACCGGGTCAGTGGTCTCTTGCGCGCCAGCTTCCTGCTGGCCCAGCAGCGCCTGCTGGAGGACCGCAAGGACGTCGTGGTGCTGGTGATCCTGAGCCCTGACGGCCGCCGCTCCCGCTACGTGCGGCTGCGCCAGCGCCTCTGCCGCCAGAGTGTCCTCCTCTGGCCCCACCAGCCCAGTGGTCAGCGCAGCTTCTGGGCCCAGCTGGGCATGGCCCTGACCAGGGACAACCACCACTTCTATAACCGGAACTTCTGCCAGGGACCCACGGCCGAATAGCCGTGAGCCGGAATCCTGCACGGTGCCACCTCCACACTCACCTCACCTCTGCCTGCCTGGTCTGACCCTCCCCTGCTCGCCTCCCTCACCCCACACCTGACACAGAGCAGGCACTCAATAAATGCTACCGAAGGCTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|324120933|ref|NM_001204387.1| Homo sapiens discs large MAGUK scaffold protein 1 (DLG1), transcript variant 4, mRNA
ATCAGCTAACAAAAGAACAGCTTTTGGTTCCTGCAGACGCTGGTGAAAAAATAATCATGAGAAAGAAATCCACCTTATGTCGTCTTTTTTGTCTGCAAAAATAAACTCAGCCATCATACAGCTAACAGGTACAGAGGGAAGATACGAGCTCTTTCATAGGAAGAAATCACTGAGAAAATGAGCATCATTTCTCAAGGTTTTTATTTTCACTGATCTACAAGTGATGCTGCTGTAATTGTAGCTGCAGTTTTTACCGATCATTCACCACTCAGCAGCTGGTAGAGAAGTAAGCCTGCTTGGCAACCACCTGCAGGGCTGCAGAGATGAATTACATTTTCGGAAACAACACACTTCTATACTCTCGCGGCAGTCGAGGAGGCAATACTAGCTCTAGCCATGGCTCAGCAGGCCCAAAGCAGAAACACTGGGCAAAAAAGGGCTCGTCAGATGAACTGCAAGCTGAGCCAGAACCTTCACGCTGGCAGCAGATAGTTGCATTTTTCACTCGAAGACACAGCTTTATTGACTGCATCTCGGTAGCCACCAGCTCCACCCAGGCAAATCCTCCCCCAGTACTGGTCAACACAGATAGCTTGGAAACACCAACTTACGTTAATGGCACAGATGCAGATTATGAATATGAAGAAATCACACTTGAAAGGGGAAATTCAGGGCTTGGTTTCAGCATTGCAGGAGGTACGGACAACCCACACATTGGAGATGACTCAAGTATTTTCATTACCAAAATTATCACAGGGGGAGCAGCCGCCCAAGATGGAAGATTGCGGGTCAATGACTGTATATTACGAGTAAATGAAGTAGATGTTCGTGATGTAACACATAGCAAAGCAGTTGAAGCGTTGAAAGAAGCAGGGTCTATTGTACGCTTGTATGTAAAAAGAAGGAAACCAGTGTCAGAAAAAATAATGGAAATAAAGCTCATTAAAGGTCCTAAAGGTCTTGGGTTTAGCATTGCTGGAGGTGTTGGAAATCAGCATATTCCTGGGGATAATAGCATCTATGTAACCAAAATAATTGAAGGAGGTGCAGCACATAAGGATGGCAAACTTCAGATTGGAGATAAACTTTTAGCAGTGAATAACGTATGTTTAGAAGAAGTTACTCATGAAGAAGCAGTAACTGCCTTAAAGAACACATCTGATTTTGTTTATTTGAAAGTGGCAAAACCCACAAGTATGTATATGAATGATGGCTATGCACCACCTGATATCACCAACTCTTCTTCTCAGCCTGTTGATAACCATGTTAGCCCATCTTCCTTCTTGGGCCAGACACCAGCATCTCCAGCCAGATACTCCCCAGTTTCTAAAGCAGTACTTGGAGATGATGAAATTACAAGGGAACCTAGAAAAGTTGTTCTTCATCGTGGCTCAACGGGCCTTGGTTTCAACATTGTAGGAGGAGAAGATGGAGAAGGAATATTTATTTCCTTTATCTTAGCCGGAGGACCTGCTGATCTAAGTGGAGAGCTCAGAAAAGGAGATCGTATTATATCGGTAAACAGTGTTGACCTCAGAGCTGCTAGTCATGAGCAGGCAGCAGCTGCATTGAAAAATGCTGGCCAGGCTGTCACAATTGTTGCACAATATCGACCTGAAGAATACAGTCGTTTTGAAGCTAAAATACATGATTTACGGGAGCAGATGATGAATAGTAGTATTAGTTCAGGGTCAGGTTCTCTTCGAACTAGCCAGAAGCGATCCCTCTATGTCAGAGCCCTTTTTGATTATGACAAGACTAAAGACAGTGGGCTTCCCAGTCAGGGACTGAACTTCAAATTTGGAGATATCCTCCATGTTATTAATGCTTCTGATGATGAATGGTGGCAAGCCAGGCAGGTTACACCAGATGGTGAGAGCGATGAGGTCGGAGTGATTCCCAGTAAACGCAGAGTTGAGAAGAAAGAACGAGCCCGATTAAAAACAGTGAAATTCAATTCTAAAACGAGAGATAAAGGGGAGATCCCTGACGACATGGGATCAAAAGGCCTGAAGCATGTAACTTCTAATGCCAGCGATAGTGAAAGTAGTTACCTAATCTTGATTACAGATGAGTATGGCTGCTCAAAAGGTGGTCAAGAAGAATACGTCTTATCTTATGAACCAGTGAATCAACAAGAAGTTAATTATACTCGACCAGTGATCATATTGGGACCTATGAAAGACAGGATAAATGATGACTTGATCTCAGAATTTCCTGACAAATTTGGATCCTGTGTTCCTCATACAACTAGACCAAAACGAGATTATGAGGTAGATGGAAGAGATTATCATTTTGTGACTTCAAGAGAGCAGATGGAAAAAGATATCCAGGAACATAAATTCATTGAAGCTGGCCAGTATAACAATCATCTATATGGAACAAGTGTTCAGTCTGTACGAGAAGTAGCAGAAAAGGGCAAACACTGTATCCTTGATGTGTCTGGAAATGCCATAAAGAGATTACAGATTGCACAGCTTTACCCTATCTCCATTTTTATTAAACCCAAATCCATGGAAAATATCATGGAAATGAATAAGCGTCTAACAGAAGAACAAGCCAGAAAAACATTTGAGAGAGCCATGAAACTGGAACAGGAGTTTACTGAACATTTCACAGCTATTGTACAGGGGGATACGCTGGAAGACATTTACAACCAAGTGAAACAGATCATAGAAGAACAATCTGGTTCTTACATCTGGGTTCCGGCAAAAGAAAAGCTATGAAAACTCATGTTTCTCTGTTTCTCTTTTCCACAATTCCATTTTCTTTGGCATCTCTTTGCCCTTTCCTCTGGAGTCTTTCTTGAGTACTGATTTCATGTTGAATTGTATCCCACACATCATGGTCTGCAGCTTCTTTTTCACATGTAGTGTCTCCTTCAAGTTACATCGTGTGTATTATTTAATGTCACTATTGGTTAGTGGCCATTTTTCAGAACTGAAGATGGAATGGCCTGACCAGCTATTAAGAACGTGGGGAGACGCAGAAATTGTGGTAAAATTCCTTAATGTTTAAGGGAAAGTAACTTTAAGAGATTTTTGGAAAAGCTTTATATACATTCTTTTCAAATTTCAGTACAAATGAAAAAGTGGTTTTAATCAGTGATTTAGTAGACTTTGAGCAACTGTGCACGCTTCAGTTTAATAGCATGGTTTGGCCAGTGTATTACTCTCAAGTCCTTTTCTCAATCAACTTCTATCATCAAAGCAATTGTTTCATTATAGATAAATAAGGACATTTTTTAATTTAAAAATTCATGTCTGAGTTGACTTTCATAAGGGATTTCATTTTTTCCTCAACATTCTTAAAGCCTTTTAGTATTTGACGGTTCTTTTTTCCCAGGACATTTGCTAGGAATAACAACGTTTCAATGTTTTTAATCTACTTGAGCAACACTATCGTGTCTTACAAAAGTTGTTCATATGTAAATGATCATCACATTTCGTGAATTGAGGCCATGTTCAGGTGCTAAGGAAGTTCGCCTTTTACACAGAAGATTGAGAAAATTTCCTAGATATAAATACAGATAAATCAGACGTTACAGTGGTGACGTAGTAACCATCATGGCAATGGAAAGGAGTCCAATTCATAGCCTAAAACTTCAAATGTATTCTTAGGAGTCAGATTTTACTGAATATTTTACCCACAATAGCTGCCTATTTTGTTATAATAAAATATATATAAATATATATATAAAACTTTCTTTAAACTGTAACTATGGGAATTATTTTCTTTACATAGTTGCGCACACACACAAACATATATATATATTTAAAATATATTTTGTTTCTTTTGCCACCTACTCCTAACTTTTTGTTTGGTTTTTAAATTAAATATTAATTGAATAGACTTATCTTCCTTAATCATGTGAACTGAAAATGGGGGCATGGTGGTCATGAGGAGGAAACATTTAGGGAAATTAGATTATAAGTAAAAGTGTGGGCATATTCTCCTCTTTTCTACAAAGGTTTTCAAATGGTTCCTGAGGTTTTTTGTTGTTGTCCGTGTTGTTACTGTTGTTCTTGTCATCAGGTTTGATTTTGGTCCTTGCCCTTTCCTTCTAGTTCTCCTTTTATTAATAGGAAGGCAGGCAAAAGCCCCATTTATGTGTGTGTTTTCCCCTCAGACAGCTTTCATCCACTGCTCTGCACTAGAATTGCACAAATCTTCATGGTGAGCAATTTTAAGAAATGTTAGTGAAAGGTAGAAATTATTTCACAAATCAGTTTCTCTGGTCCTTCATATTAATAATAATATTTGGCTTCCCATTGCTCTTTGGAGTTGTTTATTAAATATGTGTTTTTGACAACCTCCTCATTAGTTTCTTAAATGAGTACTGGTTTGTAAAGAATTATCAACATTATCCATTCCATTTATGAAGAAGAGGAGAACAGCTAATAAACTGTATTGTAAAATCCATATGTTAAGTGTGTCTTGAATTTTGAAAGAAAAAATATATTTTGCAAGCTAACATTTTCTTGAAACAATTTGAGGCATCATGTAACTTATAACCGAATCCAAGAGCCGTTAGGCAGCAGAGTGTGTTACCACATTGAAATACACAGTGCTGCTGTTAGACTAAATGTCGTAGGTTGTTAACCACATAGAAACACACTAGTATGAAGAAAACTGTTGTAAAATCTCAAGAGCTTCAGAAACTGCCTTACAAGACCGCAGCATAAGCTATTTTGAAGTATTTACCAAATAGTCACATGTTGTAAAATATCAAGTGGTTATAAAAGGATGCCATTTATATATTAAAATTTACATAACATTGTTTTCTGGAAAAAAAAAA
>gi|322506100|ref|NM_001203249.1| Homo sapiens enhancer of zeste 2 polycomb repressive complex 2 subunit (EZH2), transcript variant 5, mRNA
GACGACGTTCGCGGCGGGGAACTCGGAGTAGCTTCGCCTCTGACGTTTCCCCACGACGCACCCCGAAATCCCCCTGAGCTCCGGCGGTCGCGGGCTGCCCTCGCCGCCTGGTCTGGCTTTATGCTAAGTTTGAGGGAAGAGTCGAGCTGCTCTGCTCTCTATTGATTGTGTTTCTGGAGGGCGTCCTGTTGAATTCCCACTTCATTGTGTACATCCCCTTCCGTTCCCCCCAAAAATCTGTGCCACAGGGTTACTTTTTGAAAGCGGGAGGAATCGAGAAGCACGATCTTTTGGAAAACTTGGTGAACGCCTAAATAATCATGGGCCAGACTGGGAAGAAATCTGAGAAGGGACCAGTTTGTTGGCGGAAGCGTGTAAAATCAGAGTACATGCGACTGAGACAGCTCAAGAGGTTCAGACGAGCTGATGAAGTAAAGAGTATGTTTAGTTCCAATCGTCAGAAAATTTTGGAAAGAACGGAAATCTTAAACCAAGAATGGAAACAGCGAAGGATACAGCCTGTGCACATCCTGACTTCTTGTTCGGTGACCAGTGACTTGGATTTTCCAACACAAGTCATCCCATTAAAGACTCTGAATGCAGTTGCTTCAGTACCCATAATGTATTCTTGGTCTCCCCTACAGCAGAATTTTATGGTGGAAGATGAAACTGTTTTACATAACATTCCTTATATGGGAGATGAAGTTTTAGATCAGGATGGTACTTTCATTGAAGAACTAATAAAAAATTATGATGGGAAAGTACACGGGGATAGAGAATGTGGGTTTATAAATGATGAAATTTTTGTGGAGTTGGTGAATGCCCTTGGTCAATATAATGATGATGACGATGATGATGATGGAGACGATCCTGAAGAAAGAGAAGAAAAGCAGAAAGATCTGGAGGATCACCGAGATGATAAAGAAAGCCGCCCACCTCGGAAATTTCCTTCTGATAAAATTTTTGAAGCCATTTCCTCAATGTTTCCAGATAAGGGCACAGCAGAAGAACTAAAGGAAAAATATAAAGAACTCACCGAACAGCAGCTCCCAGGCGCACTTCCTCCTGAATGTACCCCCAACATAGATGGACCAAATGCTAAATCTGTTCAGAGAGAGCAAAGCTTACACTCCTTTCATACGCTTTTCTGTAGGCGATGTTTTAAATATGACTGCTTCCTACATCCTTTTCATGCAACACCCAACACTTATAAGCGGAAGAACACAGAAACAGCTCTAGACAACAAACCTTGTGGACCACAGTGTTACCAGCATTTGGAGGGAGCAAAGGAGTTTGCTGCTGCTCTCACCGCTGAGCGGATAAAGACCCCACCAAAACGTCCAGGAGGCCGCAGAAGAGGACGGCTTCCCAATAACAGTAGCAGGCCCAGCACCCCCACCATTAATGTGCTGGAATCAAAGGATACAGACAGTGATAGGGAAGCAGGGACTGAAACGGGGGGAGAGAACAATGATAAAGAAGAAGAAGAGAAGAAAGATGAAACTTCGAGCTCCTCTGAAGCAAATTCTCGGTGTCAAACACCAATAAAGATGAAGCCAAATATTGAACCTCCTGAGAATGTGGAGTGGAGTGGTGCTGAAGCCTCAATGTTTAGAGTCCTCATTGGCACTTACTATGACAATTTCTGTGCCATTGCTAGGTTAATTGGGACCAAAACATGTAGACAGGTGTATGAGTTTAGAGTCAAAGAATCTAGCATCATAGCTCCAGCTCCCGCTGAGGATGTGGATACTCCTCCAAGGAAAAAGAAGAGGAAACACCGGTTGTGGGCTGCACACTGCAGAAAGATACAGCTGAAAAAGGGTCAAAACCGCTTTCCGGGATGCCGCTGCAAAGCACAGTGCAACACCAAGCAGTGCCCGTGCTACCTGGCTGTCCGAGAGTGTGACCCTGACCTCTGTCTTACTTGTGGAGCCGCTGACCATTGGGACAGTAAAAATGTGTCCTGCAAGAACTGCAGTATTCAGCGGGGCTCCAAAAAGCATCTATTGCTGGCACCATCTGACGTGGCAGGCTGGGGGATTTTTATCAAAGATCCTGTGCAGAAAAATGAATTCATCTCAGAATACTGTGGAGAGATTATTTCTCAAGATGAAGCTGACAGAAGAGGGAAAGTGTATGATAAATACATGTGCAGCTTTCTGTTCAACTTGAACAATGATTTTGTGGTGGATGCAACCCGCAAGGGTAACAAAATTCGTTTTGCAAATCATTCGGTAAATCCAAACTGCTATGCAAAAGTTATGATGGTTAACGGTGATCACAGGATAGGTATTTTTGCCAAGAGAGCCATCCAGACTGGCGAAGAGCTGTTTTTTGATTACAGATACAGCCAGGCTGATGCCCTGAAGTATGTCGGCATCGAAAGAGAAATGGAAATCCCTTGACATCTGCTACCTCCTCCCCCCTCCTCTGAAACAGCTGCCTTAGCTTCAGGAACCTCGAGTACTGTGGGCAATTTAGAAAAAGAACATGCAGTTTGAAATTCTGAATTTGCAAAGTACTGTAAGAATAATTTATAGTAATGAGTTTAAAAATCAACTTTTTATTGCCTTCTCACCAGCTGCAAAGTGTTTTGTACCAGTGAATTTTTGCAATAATGCAGTATGGTACATTTTTCAACTTTGAATAAAGAATACTTGAACTTGTCCTTGTTGAATC
>gi|321400141|ref|NM_001202557.1| Homo sapiens CD44 molecule (Indian blood group) (CD44), transcript variant 8, mRNA
GAGAAGAAAGCCAGTGCGTCTCTGGGCGCAGGGGCCAGTGGGGCTCGGAGGCACAGGCACCCCGCGACACTCCAGGTTCCCCGACCCACGTCCCTGGCAGCCCCGATTATTTACAGCCTCAGCAGAGCACGGGGCGGGGGCAGAGGGGCCCGCCCGGGAGGGCTGCTACTTCTTAAAACCTCTGCGGGCTGCTTAGTCACAGCCCCCCTTGCTTGGGTGTGTCCTTCGCTCGCTCCCTCCCTCCGTCTTAGGTCACTGTTTTCAACCTCGAATAAAAACTGCAGCCAACTTCCGAGGCAGCCTCATTGCCCAGCGGACCCCAGCCTCTGCCAGGTTCGGTCCGCCATCCTCGTCCCGTCCTCCGCCGGCCCCTGCCCCGCGCCCAGGGATCCTCCAGCTCCTTTCGCCCGCGCCCTCCGTTCGCTCCGGACACCATGGACAAGTTTTGGTGGCACGCAGCCTGGGGACTCTGCCTCGTGCCGCTGAGCCTGGCGCAGATCGATTTGAATATAACCTGCCGCTTTGCAGGTGTATTCCACGTGGAGAAAAATGGTCGCTACAGCATCTCTCGGACGGAGGCCGCTGACCTCTGCAAGGCTTTCAATAGCACCTTGCCCACAATGGCCCAGATGGAGAAAGCTCTGAGCATCGGATTTGAGACCTGCAGGTATGGGTTCATAGAAGGGCACGTGGTGATTCCCCGGATCCACCCCAACTCCATCTGTGCAGCAAACAACACAGGGGTGTACATCCTCACATCCAACACCTCCCAGTATGACACATATTGCTTCAATGCTTCAGCTCCACCTGAAGAAGATTGTACATCAGTCACAGACCTGCCCAATGCCTTTGATGGACCAATTACCATAACTATTGTTAACCGTGATGGCACCCGCTATGTCCAGAAAGGAGAATACAGAACGAATCCTGAAGACATCTACCCCAGCAACCCTACTGATGATGACGTGAGCAGCGGCTCCTCCAGTGAAAGGAGCAGCACTTCAGGAGGTTACATCTTTTACACCTTTTCTACTGTACACCCCATCCCAGACGAAGACAGTCCCTGGATCACCGACAGCACAGACAGAATCCCTGCTACCAGAGACCAAGACACATTCCACCCCAGTGGGGGGTCCCATACCACTCATGGATCTGAATCAGATGGACACTCACATGGGAGTCAAGAAGGTGGAGCAAACACAACCTCTGGTCCTATAAGGACACCCCAAATTCCAGAATGGCTGATCATCTTGGCATCCCTCTTGGCCTTGGCTTTGATTCTTGCAGTTTGCATTGCAGTCAACAGTCGAAGAAGTTGAAGAGATTCAGGTTATAGCATAAGAAGAGCACTGTTTCATCGTCTTCTTGCTGTTAGGAGGTCTATGAAGCAGAGAAGAACTTTCCTTTGGAAAACAACTAAATGAAGACAGTCACCTCGCTAGAACTGACACATGGGCTGTTTTTATATTCTTGAAGGCCACTCTCTCCCTACCTGAACCAAGACCTATAGGTTTACATGTTATTTACATTTTATATATAATATATATATATATATATACACATACATTATATATACACAATAGTAATTCTAGCAACAGAGGAAATGACCTTTAACAGGGGTATAAATCTAAATTTATAAAAGTATAAATCTAAATTTCTTACCCAAGACACTTTAAAGATACATTATTTTTCTCCAGGACGTAATTCATAGGAATATTAAGCCTTTTGTAAATGTCCCTTTAGATGGTTTCTCATAAGGTAAAAGAAACTTATTTCCAAGCAGGACCACCTTTATTGTGTCCCCAGATCACCTCACAGGGCAGAAAAATGCCCCTCAGTCTGGGAGAAGACCTAGAGAGAATTATGGACTCCTTACTGGTTTTTGGAAAGCAACCAACAGCTAATTCCAACACCATGGGCAGCCCATACAGTCTCTAATTATCTGAGAAAATCAAATGATGCTGTTACAATAATTACGCTGGTACAAGTTAATAAAAGTGCCATGTTACAGTCAAACAGCTATGTTGCTATCTATACCATTGAGGGCATAGTTTTAAAAAGTAGTTATGCTACCTGATTGTATAAGGAACAAAACTGAGAGAAAAAATCTAAAAGGCCGCCTATGATTGAATGGAAAGATTTTTTTTAGTTGAATTTAAATAATGTGACTTGGGGGAGCCTTTACAAAGAGTCTTTATACCTCCCTTCAGCTTCCTCATTTTCCCTTGGATTACTTTTGCTCAATTAAATATGAATTTCCT
>gi|319918877|ref|NM_001113324.2| Homo sapiens TEN1, CST complex subunit (TEN1), mRNA
CCCGCCCCTTCTTTCTCCGTGGCCCTTTGGCGCGTGAGTGACAGCGGCCCAGACAGAGGGGGCGATGTCCGCGTCGTGGCTGGGGCCGGTCGCGGGGCAGACTAATCCCCTGCTCCTGGCCAGGGGAGGCTCCCGAGCGGATCCTCGGGAAAGGGGCTCCGAAGGTCAAGAAACTGCCCTGCTGGGCGTCCGGGGAGTGGGAAAATAAAGCACTTTTTGTATCCCGCCCCTCCCCCGTCACGTGACCACGCGAGGCGGAAAGAAGAAATCCGAGGACCGGCGACGCCTAGAACAGGAGCCCATGATGCTGCCCAAACCTGGGACCTATTACCTCCCCTGGGAGGTTAGTGCAGGCCAAGTTCCTGATGGGAGCACGCTGAGAACATTTGGCAGGTTGTGCCTCTATGACATGATTCAGTCCAGAGTAACACTGATGGCTCAGCACGGATCCGATCAGCACCAGGTTCTTGTCTGTACCAAGTTGGTGGAGCCCTTCCACGCCCAGGTGGGCTCCCTGTACATCGTCCTCGGGGAGCTCCAGCATCAGCAGGACAGAGGCTCCGTGGTGAAGGCGCGCGTGCTGACCTGTGTGGAGGGGATGAACCTGCCCTTGTTGGAACAAGCCATCCGGGAGCAGAGACTGTACAAGCAGGAGCGGGGCGGCAGCCAGTAGGAAACAGCAGCCTAGCAACACCCTCACCTGCTTCAGAGCCCGAACCCTCTGGAGCTGCAGGAGCCCGGGAGAGCACAGACGCCTCCCCAGCGACGGCCTTGTCTGGAGCTCGAAAGCCGAGGGGCGGGTGATGAATCCAGCCCCTTCCCCTACTTTGGGATTGGCTCAGCAATGAGAACCCAGAAAGCATGCCATAAATCCGACAGCCCCACCCCAGGAGACTGCAGGTGGCCGAGCTTGGGCGCCGGGGCCGTGCTTGGTGTGGGGCCATGGAGGGTTCCAGAAGGTCCTGGTGAATAAAGGCCCAGGGGGCGTGCTCTTGAAAAAAAAAAAAAAA
>gi|315075295|ref|NM_000396.3| Homo sapiens cathepsin K (CTSK), mRNA
ACACATGCTGCATACACACAGAAACACTGCAAATCCACTGCCTCCTTCCCTCCTCCCTACCCTTCCTTCTCTCAGCATTTCTATCCCCGCCTCCTCCTCTTACCCAAATTTTCCAGCCGATCACTGGAGCTGACTTCCGCAATCCCGATGGAATAAATCTAGCACCCCTGATGGTGTGCCCACACTTTGCTGCCGAAACGAAGCCAGACAACAGATTTCCATCAGCAGGATGTGGGGGCTCAAGGTTCTGCTGCTACCTGTGGTGAGCTTTGCTCTGTACCCTGAGGAGATACTGGACACCCACTGGGAGCTATGGAAGAAGACCCACAGGAAGCAATATAACAACAAGGTGGATGAAATCTCTCGGCGTTTAATTTGGGAAAAAAACCTGAAGTATATTTCCATCCATAACCTTGAGGCTTCTCTTGGTGTCCATACATATGAACTGGCTATGAACCACCTGGGGGACATGACCAGTGAAGAGGTGGTTCAGAAGATGACTGGACTCAAAGTACCCCTGTCTCATTCCCGCAGTAATGACACCCTTTATATCCCAGAATGGGAAGGTAGAGCCCCAGACTCTGTCGACTATCGAAAGAAAGGATATGTTACTCCTGTCAAAAATCAGGGTCAGTGTGGTTCCTGTTGGGCTTTTAGCTCTGTGGGTGCCCTGGAGGGCCAACTCAAGAAGAAAACTGGCAAACTCTTAAATCTGAGTCCCCAGAACCTAGTGGATTGTGTGTCTGAGAATGATGGCTGTGGAGGGGGCTACATGACCAATGCCTTCCAATATGTGCAGAAGAACCGGGGTATTGACTCTGAAGATGCCTACCCATATGTGGGACAGGAAGAGAGTTGTATGTACAACCCAACAGGCAAGGCAGCTAAATGCAGAGGGTACAGAGAGATCCCCGAGGGGAATGAGAAAGCCCTGAAGAGGGCAGTGGCCCGAGTGGGACCTGTCTCTGTGGCCATTGATGCAAGCCTGACCTCCTTCCAGTTTTACAGCAAAGGTGTGTATTATGATGAAAGCTGCAATAGCGATAATCTGAACCATGCGGTTTTGGCAGTGGGATATGGAATCCAGAAGGGAAACAAGCACTGGATAATTAAAAACAGCTGGGGAGAAAACTGGGGAAACAAAGGATATATCCTCATGGCTCGAAATAAGAACAACGCCTGTGGCATTGCCAACCTGGCCAGCTTCCCCAAGATGTGACTCCAGCCAGCCAAATCCATCCTGCTCTTCCATTTCTTCCACGATGGTGCAGTGTAACGATGCACTTTGGAAGGGAGTTGGTGTGCTATTTTTGAAGCAGATGTGGTGATACTGAGATTGTCTGTTCAGTTTCCCCATTTGTTTGTGCTTCAAATGATCCTTCCTACTTTGCTTCTCTCCACCCATGACCTTTTTCACTGTGGCCATCAGGACTTTCCCTGACAGCTGTGTACTCTTAGGCTAAGAGATGTGACTACAGCCTGCCCCTGACTGTGTTGTCCCAGGGCTGATGCTGTACAGGTACAGGCTGGAGATTTTCACATAGGTTAGATTCTCATTCACGGGACTAGTTAGCTTTAAGCACCCTAGAGGACTAGGGTAATCTGACTTCTCACTTCCTAAGTTCCCTTCTATATCCTCAAGGTAGAAATGTCTATGTTTTCTACTCCAATTCATAAATCTATTCATAAGTCTTTGGTACAAGTTTACATGATAAAAAGAAATGTGATTTGTCTTCCCTTCTTTGCACTTTTGAAATAAAGTATTTATCTCCTGTCTACAGTTTAATAAATAGCATCTAGTACACATTCAAAAAAAAAAAAAAAA
>gi|311771538|ref|NM_002896.3| Homo sapiens RNA binding motif protein 4 (RBM4), transcript variant 1, mRNA
ACTTTCTTGAGTGGCCAATCCGGTTGTAGGCTCACCTCCCCCTTCTACTCAGAGCACTGCTGCGGCCGCCGCCATTTTAGCGTTTTGTCAGAAGCGTCCGCGCCGCGAGGAGGAGGCCCTGCTGGTTTCTGTGCGGGCTCTTGTCAGGATGGTGAAGCTGTTCATCGGAAACCTGCCCCGGGAGGCTACAGAGCAGGAGATTCGCTCACTCTTCGAGCAGTATGGGAAGGTGCTGGAATGTGACATCATTAAGAATTACGGCTTTGTGCACATAGAAGACAAGACGGCAGCTGAGGATGCCATACGCAACCTGCACCATTACAAGCTTCATGGGGTGAACATCAACGTGGAAGCCAGCAAGAATAAGAGCAAAACCTCAACAAAGTTGCATGTGGGCAACATCAGTCCCACCTGCACCAATAAGGAGCTTCGAGCCAAGTTTGAGGAGTATGGTCCGGTCATCGAATGTGACATCGTGAAAGATTATGCCTTCGTACACATGGAGCGGGCAGAGGATGCAGTGGAGGCCATCAGGGGCCTTGATAACACAGAGTTTCAAGGCAAACGAATGCACGTGCAGTTGTCCACCAGCCGGCTTAGGACTGCGCCCGGGATGGGAGACCAGAGCGGCTGCTATCGGTGCGGGAAAGAGGGGCACTGGTCCAAAGAGTGTCCGATAGATCGTTCAGGCCGCGTGGCAGACTTGACCGAGCAATATAATGAGCAATACGGAGCAGTGCGTACGCCTTACACCATGAGCTATGGGGATTCATTGTATTACAACAACGCGTACGGAGCGCTCGATGCCTACTACAAGCGCTGCCGTGCTGCCCGGTCCTATGAGGCAGTGGCAGCTGCAGCTGCCTCCGTGTATAATTACGCAGAGCAGACCCTGTCCCAGCTGCCACAAGTCCAGAATACAGCCATGGCCAGTCACCTCACCTCCACCTCTCTCGATCCCTACGATAGACACCTGTTGCCGACCTCAGGAGCTGCTGCCACAGCTGCTGCTGCAGCAGCAGCCGCTGCTGCTGTTACTGCAGCTTCCACTTCATATTACGGGCGGGATCGGAGCCCCCTGCGTCGCGCTACAGCCCCAGTCCCCACTGTTGGAGAGGGCTACGGTTACGGGCATGAGAGTGAGTTGTCCCAAGCTTCAGCAGCCGCGCGGAATTCTCTGTACGACATGGCCCGGTATGAGCGGGAGCAGTATGCCGATCGGGCGCGGTACTCAGCCTTTTAAAGCTTGAGGTGGGATGTGTGTGGGCTGAAATTCCGAGCTGCGGTTGTGCATGAGAATACACCCTTCGTGGTACCCCATCTCCGGGACGTTCTCGGCTCTGTGCGTTCAGTCCCTCAGGAACCGTGGACCTTAATTTACCTTGCTAAGTTCAGACCTTCTCTTCCTTTCCTTTCCTTTCCTCTCCTGCCCATTTTCCTGTTCTTCTGTCCTTCAATACTTCTGTAGCTTCCCATTCATGTTCTCTTCTCCCAGCAGGCCTCATTGTGTGCAGAAACTGTGGTGGGGGCTGTGCTGTCTCCTCCCTGCCTCCTGCCTCCTGCGGCTGTTGGATTTGGGAATGACCTTGGTGAGAGTCTCACTGCTCCAGGGTCTCTTTTTGGTCCAAAGGCTAGACCTATAGAGTTGGATCACTTTTTTTCTTTCCGGTGAAATAAATGGTTTTTCAACTTAGGGTAAAAAAAAAAAAAAAAA
>gi|307574689|ref|NM_003243.4| Homo sapiens transforming growth factor beta receptor 3 (TGFBR3), transcript variant 1, mRNA
GAGAGCCCCCGGTGGGGCCGGCGGAGGAGCGCCCTTCCCCCCGCGCGCTGATTGCTGTGGCGTCCTGCCCGTCCCCGCCCGCGTGTGTGCGAGGGAGGGCGAGTGCGCCGGGTCGGCCTGATGGGGGTAATCGAGGGTTTCGGGGACGCCGAGCGGCACTTTCCTCTTCCCAGCGAGTGAAGGAGGGCAGTCGGCGGCTCTCGCGCCCCGGCCACTTTCCCTGCGCGATTCCCGGAGCTCCCTGCAGGAGGTGAGAGTCCCCAGCGGGTCCGGATGGCGTAGTTTTGCCGCGGCGCAGCAGCTGCCGGAGCTCGCCGCCGCCGAGCGCTGGGCGGGGAAACTTGCCGCCGCTTTCCTCCAACTTGCTGCGGGTGGATCTCCGCTGGACACACCGCCTCCGAGGCAGTTTGAAAATTGCAAGGAGGGACTTTAAGACTACTTCTGATTTGCAAAGATTGTCTGTGCTCTGAGCAGGCTGAAGTGACTGGACGAGACGCACTGTTGGAGAAATAAAAATGACTTCCCATTATGTGATTGCCATCTTTGCCCTGATGAGCTCCTGTTTAGCCACTGCAGGTCCAGAGCCTGGTGCACTGTGTGAACTGTCACCTGTCAGTGCCTCCCATCCTGTCCAGGCCTTGATGGAGAGCTTCACTGTTTTGTCAGGCTGTGCCAGCAGAGGCACAACTGGGCTGCCACAGGAGGTGCATGTCCTGAATCTCCGCACTGCAGGCCAGGGGCCTGGCCAGCTACAGAGAGAGGTCACACTTCACCTGAATCCCATCTCCTCAGTCCACATCCACCACAAGTCTGTTGTGTTCCTGCTCAACTCCCCACACCCCCTGGTGTGGCATCTGAAGACAGAGAGACTTGCCACTGGGGTCTCCAGACTGTTTTTGGTGTCTGAGGGTTCTGTGGTCCAGTTTTCATCAGCAAACTTCTCCTTGACAGCAGAAACAGAAGAAAGGAACTTCCCCCATGGAAATGAACATCTGTTAAATTGGGCCCGAAAAGAGTATGGAGCAGTTACTTCATTCACCGAACTCAAGATAGCAAGAAACATTTATATTAAAGTGGGGGAAGATCAAGTGTTCCCTCCAAAGTGCAACATAGGGAAGAATTTTCTCTCACTCAATTACCTTGCTGAGTACCTTCAACCCAAAGCAGCAGAAGGGTGTGTGATGTCCAGCCAGCCCCAGAATGAGGAAGTACACATCATCGAGCTAATCACCCCCAACTCTAACCCCTACAGTGCTTTCCAGGTGGATATAACAATTGATATAAGACCTTCTCAAGAGGATCTTGAAGTGGTCAAAAATCTCATCCTGATCTTGAAGTGCAAAAAGTCTGTCAACTGGGTGATCAAATCTTTTGATGTTAAGGGAAGCCTGAAAATTATTGCTCCTAACAGTATTGGCTTTGGAAAAGAGAGTGAAAGATCTATGACAATGACCAAATCAATAAGAGATGACATTCCTTCAACCCAAGGGAATCTGGTGAAGTGGGCTTTGGACAATGGCTATAGTCCAATAACTTCATACACAATGGCTCCTGTGGCTAATAGATTTCATCTTCGGCTTGAAAATAATGCAGAGGAGATGGGAGATGAGGAAGTCCACACTATTCCTCCTGAGCTACGGATCCTGCTGGACCCTGGTGCCCTGCCTGCCCTGCAGAACCCGCCCATCCGGGGAGGGGAAGGCCAAAATGGAGGCCTTCCGTTTCCTTTCCCAGATATTTCCAGGAGAGTCTGGAATGAAGAGGGAGAAGATGGGCTCCCTCGGCCAAAGGACCCTGTCATTCCCAGCATACAACTGTTTCCTGGTCTCAGAGAGCCAGAAGAGGTGCAAGGGAGCGTGGATATTGCCCTGTCTGTCAAATGTGACAATGAGAAGATGATCGTGGCTGTAGAAAAAGATTCTTTTCAGGCCAGTGGCTACTCGGGGATGGACGTCACCCTGTTGGATCCTACCTGCAAGGCCAAGATGAATGGCACACACTTTGTTTTGGAGTCTCCTCTGAATGGCTGCGGTACTCGGCCCCGGTGGTCAGCCCTTGATGGTGTGGTCTACTATAACTCCATTGTGATACAGGTTCCAGCCCTTGGGGACAGTAGTGGTTGGCCAGATGGTTATGAAGATCTGGAGTCAGGTGATAATGGATTTCCGGGAGATATGGATGAAGGAGATGCTTCCCTGTTCACCCGACCTGAAATCGTGGTGTTTAATTGCAGCCTTCAGCAGGTGAGGAACCCCAGCAGCTTCCAGGAACAGCCCCACGGAAACATCACCTTCAACATGGAGCTATACAACACTGACCTCTTTTTGGTGCCCTCCCAGGGCGTCTTCTCTGTGCCAGAGAATGGACACGTTTATGTTGAGGTATCTGTTACTAAGGCTGAACAAGAACTGGGATTTGCCATCCAAACGTGCTTTATCTCTCCATATTCGAACCCTGATAGGATGTCTCATTACACCATTATTGAGAATATTTGTCCTAAAGATGAATCTGTGAAATTCTACAGTCCCAAGAGAGTGCACTTTCCTATCCCGCAAGCTGACATGGATAAGAAGCGATTCAGCTTTGTCTTCAAGCCTGTCTTCAACACCTCACTGCTCTTTCTACAGTGTGAGCTGACGCTGTGTACGAAGATGGAGAAGCACCCCCAGAAGTTGCCTAAGTGTGTGCCTCCTGACGAAGCCTGCACCTCGCTGGACGCCTCGATAATCTGGGCCATGATGCAGAATAAGAAGACGTTCACTAAGCCCCTTGCTGTGATCCACCATGAAGCAGAATCTAAAGAAAAAGGTCCAAGCATGAAGGAACCAAATCCAATTTCTCCACCAATTTTCCATGGTCTGGACACCCTAACCGTGATGGGCATTGCGTTTGCAGCCTTTGTGATCGGAGCACTCCTGACGGGGGCCTTGTGGTACATCTATTCTCACACAGGGGAGACAGCAGGAAGGCAGCAAGTCCCCACCTCCCCGCCAGCCTCGGAAAACAGCAGTGCTGCCCACAGCATCGGCAGCACGCAGAGCACGCCTTGCTCCAGCAGCAGCACGGCCTAGCCCAACCCAGCCCAACCCGGCCCAACCCAGCCCAGCCCAGCTCAGCTCAGCTACTGCCAAGGGCAGGACCAATGGCTGAGCCTCGTGTCCAGACTCAGAGGGCTGGATTTTGGTTCCCTTGTAAAGACAGAGTGAATTTCAGTATAAAGATCACCCGTTGTATTCACCCCACACCCAGGGCTAGTATAAACATGACCCTGGGCTTCTGTACCACACTAGAATTCATGTGAGAAAGCTAAAATGGTGGTCTTCTCCACCAGCCCCTCACAGGCTTGGGGGTTTTCAATGTGAAACACATGCCAGTTTTTAAAATGCTGCTTTGTCCAGGTGAGAACATCCATAATTTGGGGCCCTGAGTTTTACCCAGACTCAAGGAGTTGGTAAAGGGTTAATAGCCAGATAGTAGAACCAGTGAGGAGATGCGGCCAAAGATTCTTTATATCTGAACCAAGATGTAAAACAAGAAATGCTTTGAGGCTTTCTAAGCGATCCTCCTGTCTAATTTGCACCTTTGTCTGGATGCACACTTCTGACCTTGCTGCCACAACCTGTGGGGTCTGATGTGTCCCTTGATGGGTGCTGCCCTCAGGGACTGCACCCTGACAAGTGTTAAGGCAACATTCCTTTCTTGTGCCCTGGGCCAAAACCAATGCTGATGACCTTATCAGCTTCCTGTTTCTTCCCATACTTGCATACACCACTGCAAAATGTCTTAATGCAAATTTTGTATTTCTTACAGGCCTACAGAAATTGAAAATGACCAAAATCAGGAACCACAGATTTGTGCCCATTCCTAATATTTTGTTCTGCAAATTAATGTATAATTTGAGGTGAAATTCAGTTATAAAGTCAAGGACGAATTTGCACAGTGATATATTTCTATGTGTATGCAAGTACAAGTATATAATATGTCACCTGGCACATTCATTTTCTCAGTTGAAGAAGAGAAAATTTGAAAATGTCCTTATGCTTTTAGAGTTGCAACTTAAGTATATTTGGTAGGGTGAGTGTTTCCACTCAAAATATGTCAACTTAAAAAAAAATAGGCCCTTTCATAAAAACCAAACTGTAGCAAGATGCAAATGCATGGCAAATCCTGTCGGTCTCCAGTTGGTTATCTGAATAGTGTCACCAATTCCACCAAGACAGTGCTGAGATTGGAAAAGGGCACTCATTTGGATTGCCTTACTTCTCTTGCCTTAAATATATCCCATATATTTAATATGTCAAAAAGGGCTTGAGGTGAATTTCATTAAATGGAATAATATGATGCCACTTTGCAGCTAAAATAAGCTCAGTGATACCTCCTTGTTAAAAAAAAAAAAAAAAAAAAAGAATGCCAGGGGGGAATTATCATGCTAAATTATTTTACTGCTGAAGATAGCTTCATTGCAAATTATTCTTTTTCCAGAATTTCCCCCAAACAACTTAGAATTCCATAAGTAGAACAAGATAGATTCTACCCCCAAAATATTCATAAGCAAATCCCACTGCCCTTAAAATAAGGAAGTTATGCCTGGTTGTCTGTGAATGGAACCTCAGTAGGTAATCCTGATGAAGCTTAAAACCTTAGGGCAGTGTCTACATGGGAAACAAGTATGTGGAAATTGACAATCATTTTTACCAAATCGTTGAGTAATAATATGACTTACCTGATAGATATACACATTCAATAAGGAACATTTTTTTTTTTCAATAAGGAACATTTTAACTAAAACATTACTTTAGGGCTGAGATTTCCAGGCTATCTACATTGATCTACTGAAAAATTTCTAGATTTCCATATACAAACGAAGAAGACATGAGTTTAGAGAATTTTTTTCCTTTAATTTTTTTTTAACAGAAGGGTATCAGAGTGGAGGACCTAGATTACGCTACCTGTGTTTGAAAATATTGCGCTTTGCCTAACCTTCGGTGGAATGTATTGTTTCAGCATATTCTATGTATAAAAAAGTTTAAAGATGTCTTCAAAGAAGACTAGAGTCTTTAAGTCACTTATAGCTATATTTTACTACAAAATTTGTGTATAAAGATATATTTAAGTGTTTTAGATAAATTTAAGTTACTCCATATGAAATGTTTAATTTCAGCTACTGTGAATTCTTTCGATCAGTCCTTTGCTTTTTTAAAAAATCTTTTCCATCGTGTTAAAAAGAAAATTAGCTATTAGGAGATATTAAAAGATTGATGTCTTAGAAGGACAGGGTTAAAACCTTCTGTAATATATTTAAATATATATTTTTAAGAGAGATGCTACATTGCCAATGATTTTATAAATAATTTAAAATTAATTTACAAATTTATAGATGCAAACCAAAAGATCTTTTTAAAAGAGAGAGAGAGGAAAAAAATCACCTTTTATTTGTTTGGGTCTCATTGTCAGAATTATTATTCAGATCAAGAAATCTGTGTCGATAAAACCTAATCTCATATTGGAGAGTGAATGTCGTTAAGTATTTCTGAAATGTTTCTAAAAAATGAACATGAAAAAAATAAGGTATTTTCTCCCTAGCTTCTCATTACAGTATTTCTAATTGCTTCACACTTTACAGTTTTAATACAAAGTACAAGCTCTACTTTTATAACGTGTACTACAAGTTTCTTTAAAAGTATTGTTGTATTTCAGCTGAACTCTTGTATCTGCAGTCTTTTGTTATTTCTGCAGGCTACACCCTTAATTTGCAGAGGCCATTTTGTTGTTTGTTTGATGCTGAAGCTGTTGTTAAAATGCCCCAAACTCCAAGGCAGATTGTCTGTATAATACGCTATAGCTTTTCACCATGTGGTGTTTACCAGCTGTTACTCTGTATTTTAAAAAGCCAGAGATTTCTTCTGTCTAAACTGTTTCTATAGCATTTTCTAAACAAAAAAAATGGTTTTTTTCTTTGCCTTGTAATAAGATTGTAAATCCATTTCCTGCTTGTGTTCTTAGTGGGCATGATTGTGAGTGTGTGTGGGGTGCTCACACGCGTGCCAGTCTTTTTGTACTGTAACTACCTCATGGTTTGAATGATGATTGTACTGCTGGTTGTGTTAACAGAGCACATTTTGTTGGGTGAGTCCTATGTGATTTTTTTCATGTTTGTTTTATCTGGGGGTTGTTCATGAAACTGACAGATGTTTTTCTAAAAAGGACTATTATCAGTTTCCAAATACAATACTTCTCTCTTCTGGTTTTTCCTGAATGAGCCTGATTTTGTTGCTGGTTTTCATCATCTATGAGGGTAAAACGAGTACCCTTAAAATCCCTGTGGCCAGTTTGAACACCCCTGTTGTATTCTTTTCTCTGTTCAGTGTGTCAGCTATTTTGTGAAGATGCTTAGATGTATAGTTTTGATAACCACAGTTTTAAATCTTTTATCTGTGCATAATAAAAAGATATATATCAGTTATTAAAAAAAAAA
>gi|306774088|ref|NM_001195479.1| Homo sapiens TRK-fused gene (TFG), transcript variant 4, mRNA
TTCCTAAATCCCGTCATCCAGTGAGAAAGCAGGGACTCTTCGGCCTAGGCAGCCGGGACCCAGCCAGCCCTGCGCCTCGCGCCGTCGCGCATGCGTCCTGGGTATGTCCACGCGCAATAAGGAGGGGCGAAAGGACATTTTTTTTTTTCTTGCTCCCGCCTCTGTTCTTCCCCCACCTGCCACGTACAGAGCCCAAGTTCTCGCTAGGCTTGTTGGGTCAGCGCGATTGGCCGGGGCCCGCGCGAGCCTGCGAGCGAGGTGCGGCGGTCGCGAAGGGCAACCGAGGGGGCCGTGACCACCGCCTCCCCGCGACGCCCCAGTCCAGTGGCCTCGCGTCCGCCCATTCAGCGGAGACCTGCGGAGAGGCGGCGGCCGCGGCCTCCGCAAGCCGTCTTTCTCTAGAGTTGTATATATAGAACATCCTGGAGTCCACCATGAACGGACAGTTGGATCTAAGTGGGAAGCTAATCATCAAAGCTCAACTTGGGGAGGATATTCGGCGAATTCCTATTCATAATGAAGATATTACTTATGATGAATTAGTGCTAATGATGCAACGAGTTTTCAGAGGAAAACTTCTGAGTAATGATGAAGTAACAATAAAGTATAAAGATGAAGATGGAGATCTTATAACAATTTTTGATAGTTCTGACCTTTCCTTTGCAATTCAGTGCAGTAGGATACTGAAACTGACATTATTTGTTAATGGCCAGCCAAGACCCCTTGAATCAAGTCAGGTGAAATATCTCCGTCGAGAACTGATAGAACTTCGAAATAAAGTGAATCGTTTATTGGATAGCTTGGAACCACCTGGAGAACCAGGACCTTCCACCAATATTCCTGAAAATGATACTGTGGATGGTAGGGAAGAAAAGTCTGCTTCTGATTCTTCTGGAAAACAGTCTACTCAGGTTATGGCAGCAAGTATGTCTGCTTTTGATCCTTTAAAAAACCAAGATGAAATCAATAAAAATGTTATGTCAGCGTTTGGCTTAACAGATGATCAGGTTTCAGGGCCACCCAGTGCTCCTGCAGAAGATCGTTCAGGAACACCCGACAGCATTGCTTCCTCCTCCTCAGCAGCTCACCCACCAGGCGTTCAGCCACAGCAGCCACCATATACAGGAGCTCAGACTCAAGCAGGTCAGATGTACCAACAGTACCAGCAACAGGCCGGCTATGGTGCACAGCAGCCGCAGGCTCCACCTCAGCAGCCTCAACAGTATGGTATTCAGTATTCAGCAAGCTATAGTCAGCAGACTGGACCTCAACAACCTCAGCAGTTCCAGGGATATGGCCAGCAACCAACTTCCCAGGCACCAGCTCCTGCCTTTTCTGGTCAGCCTCAACAACTGCCTGCTCAGCCGCCACAGCAGTACCAGGCGAGCAATTATCCTGCACAAACTTACACTGCCCAAACTTCTCAGCCTACTAATTATACTGTGGCTCCTGCCTCTCAACCTGGAATGGCTCCAAGCCAACCTGGGGCCTATCAACCAAGACCAGGTTTTACTTCACTTCCTGGAAGTACCATGACCCCTCCTCCAAGTGGGCCTAATCCTTATGCGCGTAACCGTCCTCCCTTTGGTCAGGGCTATACCCAACCTGGACCTGGTTATCGATAAGGAGGCTCCTCTACACCAATTAATGTAGCTGCTAGCTATTGGCCTCCCAAAAGACTCCAGTACTATTTTAATTTGTATTGAAGAAGTTCAGAAATTTAAAAGCAGAGCATTTTTTATGATATCATTGTTGGTGTTAATTGAAAGTATAATTTGCTGGAACACAAAGACCAAAATGAAAGTTTTTTCCTCCCTGCTTAAAAATGTAGCAGCTTCTTAGTTACTTTGGAACACTACTCTTACATGTATAAAGTGATTGACTTGACTTTCTAGCTTCCCTTGTCCGGAGGATATTAAAATGCTAGGGTGAGGTTTAGCCATCTTACTTGGCTTTTTACTATTAACATGATGTACTAAAGTAGAGCCCTTTGAGAATACAAGATATTATGTATAAAATGTAACACTGATGATAGGTTAATAAAGATGATTGAATCCATTAAAAAAAAAAAAAAAAAA
>gi|306774085|ref|NM_006070.5| Homo sapiens TRK-fused gene (TFG), transcript variant 1, mRNA
TTCCTAAATCCCGTCATCCAGTGAGAAAGCAGGGACTCTTCGGCCTAGGCAGCCGGGACCCAGCCAGCCCTGCGCCTCGCGCCGTCGCGCATGCGTCCTGGGTATGTCCACGCGCAATAAGGAGGGGCGAAAGGACATTTTTTTTTTTCTTGCTCCCGCCTCTGTTCTTCCCCCACCTGCCACGTACAGAGCCCAAGTTCTCGCTAGGCTTGTTGGGTCAGCGCGATTGGCCGGGGCCCGCGCGAGCCTGCGAGCGAGGTGCGGCGGTCGCGAAGGGCAACCGAGGGGGCCGTGACCACCGCCTCCCCGCGACGCCCCAGTCCAGTGGCCTCGCGTCCGCCCATTCAGCGGAGACCTGCGGAGAGGCGGCGGCCGCGGCCTCCGCAAGCCGTCTTTCTCTAGAGTTGTATATATAGAACATCCTGGAGTCCACCATGAACGGACAGTTGGATCTAAGTGGGAAGCTAATCATCAAAGCTCAACTTGGGGAGGATATTCGGCGAATTCCTATTCATAATGAAGATATTACTTATGATGAATTAGTGCTAATGATGCAACGAGTTTTCAGAGGAAAACTTCTGAGTAATGATGAAGTAACAATAAAGTATAAAGATGAAGATGGAGATCTTATAACAATTTTTGATAGTTCTGACCTTTCCTTTGCAATTCAGTGCAGTAGGATACTGAAACTGACATTATTTGTTAATGGCCAGCCAAGACCCCTTGAATCAAGTCAGGTGAAATATCTCCGTCGAGAACTGATAGAACTTCGAAATAAAGTGAATCGTTTATTGGATAGCTTGGAACCACCTGGAGAACCAGGACCTTCCACCAATATTCCTGAAAATGATACTGTGGATGGTAGGGAAGAAAAGTCTGCTTCTGATTCTTCTGGAAAACAGTCTACTCAGGTTATGGCAGCAAGTATGTCTGCTTTTGATCCTTTAAAAAACCAAGATGAAATCAATAAAAATGTTATGTCAGCGTTTGGCTTAACAGATGATCAGGTTTCAGGGCCACCCAGTGCTCCTGCAGAAGATCGTTCAGGAACACCCGACAGCATTGCTTCCTCCTCCTCAGCAGCTCACCCACCAGGCGTTCAGCCACAGCAGCCACCATATACAGGAGCTCAGACTCAAGCAGGTCAGATTGAAGGTCAGATGTACCAACAGTACCAGCAACAGGCCGGCTATGGTGCACAGCAGCCGCAGGCTCCACCTCAGCAGCCTCAACAGTATGGTATTCAGTATTCAGCAAGCTATAGTCAGCAGACTGGACCTCAACAACCTCAGCAGTTCCAGGGATATGGCCAGCAACCAACTTCCCAGGCACCAGCTCCTGCCTTTTCTGGTCAGCCTCAACAACTGCCTGCTCAGCCGCCACAGCAGTACCAGGCGAGCAATTATCCTGCACAAACTTACACTGCCCAAACTTCTCAGCCTACTAATTATACTGTGGCTCCTGCCTCTCAACCTGGAATGGCTCCAAGCCAACCTGGGGCCTATCAACCAAGACCAGGTTTTACTTCACTTCCTGGAAGTACCATGACCCCTCCTCCAAGTGGGCCTAATCCTTATGCGCGTAACCGTCCTCCCTTTGGTCAGGGCTATACCCAACCTGGACCTGGTTATCGATAAGGAGGCTCCTCTACACCAATTAATGTAGCTGCTAGCTATTGGCCTCCCAAAAGACTCCAGTACTATTTTAATTTGTATTGAAGAAGTTCAGAAATTTAAAAGCAGAGCATTTTTTATGATATCATTGTTGGTGTTAATTGAAAGTATAATTTGCTGGAACACAAAGACCAAAATGAAAGTTTTTTCCTCCCTGCTTAAAAATGTAGCAGCTTCTTAGTTACTTTGGAACACTACTCTTACATGTATAAAGTGATTGACTTGACTTTCTAGCTTCCCTTGTCCGGAGGATATTAAAATGCTAGGGTGAGGTTTAGCCATCTTACTTGGCTTTTTACTATTAACATGATGTACTAAAGTAGAGCCCTTTGAGAATACAAGATATTATGTATAAAATGTAACACTGATGATAGGTTAATAAAGATGATTGAATCCATTAAAAAAAAAAAAAAAAAA
>gi|302058312|ref|NM_018310.3| Homo sapiens BRF2, RNA polymerase III transcription initiation factor subunit (BRF2), mRNA
CCGTCGCGCTGGCCGGAAGACGGGGGTGCAACCCTTTGAAGTGTCCCCTCCTACTTCTTGCTGCCTCACGGTTGCTGTTGCAGACCCAGGAGTCTCTGAAGGCTTCCGCGGCTTTGGGGCCGGTTGTGAGATGCCAGGCAGAGGCCGCTGCCCGGACTGCGGCTCCACGGAGCTGGTGGAAGACTCGCACTATTCGCAGAGCCAGCTGGTGTGCTCCGACTGCGGCTGCGTGGTCACCGAGGGGGTCCTTACCACTACCTTCAGCGACGAGGGCAATCTCCGAGAGGTAACATATTCCCGAAGCACAGGGGAAAACGAACAAGTTAGTCGCAGCCAGCAACGAGGTCTCCGGCGAGTGAGAGACCTTTGTCGAGTTCTGCAGTTGCCACCAACATTTGAGGATACCGCGGTTGCCTACTACCAACAGGCATATCGGCACTCTGGCATCCGAGCGGCCAGGCTGCAAAAGAAGGAGGTGTTGGTTGGGTGCTGCGTCTTAATCACCTGCCGACAGCATAACTGGCCCCTAACAATGGGGGCCATCTGCACGCTGTTGTATGCAGATTTGGATGTGTTTTCTAGCACTTACATGCAGATAGTGAAGCTCCTGGGACTGGATGTGCCATCTCTGTGCTTGGCAGAACTGGTGAAGACCTATTGCAGCAGCTTCAAACTGTTCCAAGCTTCACCTTCTGTGCCAGCCAAATACGTGGAAGACAAAGAGAAGATGCTGTCTCGAACAATGCAGTTGGTGGAGCTGGCAAATGAGACGTGGCTGGTGACCGGGAGGCATCCCTTGCCCGTCATCACTGCTGCGACTTTCCTGGCTTGGCAGTCGCTGCAGCCTGCAGATCGGCTTTCATGTTCCCTTGCCCGATTTTGTAAATTGGCAAATGTGGACCTGCCCTACCCGGCGTCCTCCCGCCTGCAGGAGCTGCTGGCTGTGCTGCTGCGGATGGCTGAGCAGCTGGCCTGGTTACGAGTTCTGAGACTTGACAAACGGTCTGTGGTGAAGCACATCGGTGACCTTCTCCAGCACCGCCAGTCACTGGTCCGCTCTGCCTTTCGGGATGGGACAGCAGAAGTGGAGACCCGAGAGAAGGAGCCACCGGGGTGGGGACAGGGGCAAGGAGAAGGGGAGGTGGGAAATAATTCCTTAGGTTTACCCCAGGGGAAGCGGCCGGCCAGTCCTGCCCTTCTCTTGCCACCCTGCATGTTGAAGTCCCCGAAGCGGATCTGCCCTGTACCCCCTGTCTCCACTGTCACTGGAGATGAGAACATTTCTGATAGTGAAATAGAACAGTATTTGCGTACCCCTCAGGAAGTTAGGGACTTTCAGAGAGCCCAGGCTGCTAGACAGGCTGCCACGAGTGTCCCTAACCCTCCCTGATGGATATCCACTGGGAGCACTTCATCCTGTTCTGACAGCTTGATAACATTCCTGTTATAACCAAGGATGGAAGTGTACACCAGTCCGTAGGTATTGCTTTTCTTGTTTGAAGGAACCAAGAGGGGCTCTGCCATTAGTTGGACCCTGGGTCCTGGAGTAAAGTCAGGAGTGCAGGGATGACTATAGGTAGGAGAGATTCCCATCCCTTGGTGTGGGAGAGCAAGTTGCCTATGTCCATGTTCTGTGAGATGGCTTTCCTCATAGATGGATGGGAAAATGTCAGGCTCTTTGCTGCTGGTTTGAATTGGACACACTGCTGCGGCTCCTCCTGCAGGCCTGAGGGGGCTTCCCTCTGCTTGTGGAGTGGTTGGCATTCCCAGCAGTATCAACCCTCAGAGGAGCGGGAACTGGGGAATTCTGGCCCTACGTGCATTCACAGGCAATGATGGGTTTGTGTGTATGGTGTCATGAGATCCTCTACCTCATAACAAAAGGACAGTGGGTAGACTAAGGCAGTAGCTCAAAGGGCTTTGCAAAATTTTAATATATTAAAACAAGAGGCATCTGCTAGAAAACATTCTATTGTATAAAACCCGAGTTCTTAAAAACAAAAAAAA
>gi|300795832|ref|NM_012240.2| Homo sapiens sirtuin 4 (SIRT4), mRNA
GCAAATGCAATCAGACGGTCCCACTGTGGGGTGTGAAGTGTCCGTAGAGCTGTGAGAGAATGAAGATGAGCTTTGCGTTGACTTTCAGGTCAGCAAAAGGCCGTTGGATCGCAAACCCCAGCCAGCCGTGCTCGAAAGCCTCCATTGGGTTATTTGTGCCAGCAAGTCCTCCTCTGGACCCTGAGAAGGTCAAAGAGTTACAGCGCTTCATCACCCTTTCCAAGAGACTCCTTGTGATGACTGGGGCAGGAATCTCCACCGAATCGGGGATACCAGACTACAGGTCAGAAAAAGTGGGGCTTTATGCCCGCACTGACCGCAGGCCCATCCAGCATGGTGATTTTGTCCGGAGTGCCCCAATCCGCCAGCGGTACTGGGCGAGAAACTTCGTAGGCTGGCCTCAATTCTCCTCCCACCAGCCTAACCCTGCACACTGGGCTTTGAGCACCTGGGAGAAACTCGGAAAGCTGTACTGGTTGGTGACCCAAAATGTGGATGCTTTGCACACCAAGGCGGGGAGTCGGCGCCTGACAGAGCTCCACGGATGCATGGACAGGGTCCTGTGCTTGGATTGTGGGGAACAGACTCCCCGGGGGGTGCTGCAAGAGCGTTTCCAAGTCCTGAACCCCACCTGGAGTGCTGAGGCCCATGGCCTGGCTCCTGATGGTGACGTCTTTCTCTCAGAGGAGCAAGTCCGGAGCTTTCAGGTCCCAACCTGCGTTCAATGTGGAGGCCATCTGAAACCAGATGTCGTTTTCTTCGGGGACACAGTGAACCCTGACAAGGTTGATTTTGTGCACAAGCGTGTAAAAGAAGCCGACTCCCTCTTGGTGGTGGGATCATCCTTGCAGGTATACTCTGGTTACAGGTTTATCCTCACTGCCTGGGAGAAGAAGCTCCCGATTGCAATACTGAACATTGGGCCCACACGGTCGGATGACTTGGCGTGTCTGAAACTGAATTCTCGTTGTGGAGAGTTGCTGCCTTTGATAGACCCATGCTGACCACAGCCTGATATTCCAGAACCTGGAACAGGGACTTTCACTTGAATCTTGCTGCTAAATGTAAATGCCTTCTCAAATGACAGATTCCAGTTCCCATTCAACAGAGTAGGGTGCACTGACAAAGTATAGAAGGTTCTAGGTATCTTAATGTGTGGATATTCTTAATTAAAACTCATTTTTTTTAAATAAAAAATTGTTCAGCTTTAAAA
>gi|299890844|ref|NM_001002274.2| Homo sapiens Fc fragment of IgG receptor IIb (FCGR2B), transcript variant 3, mRNA
AGAACATTTCTTTTTCACTTCCCCTTTCAGACTCCAGAATTTGTTTGCCCTCTAGGGTAGAATCCGCCAAGCTTTGAGAGAAGGCTGTGACTGCTGTGCTCTGGGCGCCAGCTCGCTCCAGGGAGTGATGGGAATCCTGTCATTCTTACCTGTCCTTGCCACTGAGAGTGACTGGGCTGACTGCAAGTCCCCCCAGCCTTGGGGTCATATGCTTCTGTGGACAGCTGTGCTATTCCTGGCTCCTGTTGCTGGGACACCTGCAGCTCCCCCAAAGGCTGTGCTGAAACTCGAGCCCCAGTGGATCAACGTGCTCCAGGAGGACTCTGTGACTCTGACATGCCGGGGGACTCACAGCCCTGAGAGCGACTCCATTCAGTGGTTCCACAATGGGAATCTCATTCCCACCCACACGCAGCCCAGCTACAGGTTCAAGGCCAACAACAATGACAGCGGGGAGTACACGTGCCAGACTGGCCAGACCAGCCTCAGCGACCCTGTGCATCTGACTGTGCTTTCTGAGTGGCTGGTGCTCCAGACCCCTCACCTGGAGTTCCAGGAGGGAGAAACCATCGTGCTGAGGTGCCACAGCTGGAAGGACAAGCCTCTGGTCAAGGTCACATTCTTCCAGAATGGAAAATCCAAGAAATTTTCCCGTTCGGATCCCAACTTCTCCATCCCACAAGCAAACCACAGTCACAGTGGTGATTACCACTGCACAGGAAACATAGGCTACACGCTGTACTCATCCAAGCCTGTGACCATCACTGTCCAAGCTCCCAGCTCTTCACCGATGGGGATCATTGTGGCTGTGGTCACTGGGATTGCTGTAGCGGCCATTGTTGCTGCTGTAGTGGCCTTGATCTACTGCAGGAAAAAGCGGATTTCAGCCAATCCCACTAATCCTGATGAGGCTGACAAAGTTGGGGCTGAGAACACAATCACCTATTCACTTCTCATGCACCCGGATGCTCTGGAAGAGCCTGATGACCAGAACCGTATTTAGTCTCCATTGTCTTGCATTGGGATTTGAGAAGAAAATCAGAGAGGGAAGATCTGGTATTTCCTGGCCTAAATTCCCCTTGGGGAGGACAGGGAGATGCTGCAGTTCCAAAAGAGAAGGTTTCTTCCAGAGTCATCTACCTGAGTCCTGAAGCTCCCTGTCCTGAAAGCCACAGACAATATGGTCCCAAATAACCGACTGCACCTTCTGTGCTTCAGCTCTTCTTGACATCAAGGCTCTTCCGTTCCACATCCACACAGCCAATCCAATTAATCAAACCACTGTTATTAACAGATAATAGCAACTTGGGAAATGCTTATGTTACAGGTTACGTGAGAACAATCATGTAAATCTATATGATTTCAGAAATGTTAAAATAGACTAACCTCTACCAGCACATTAAAAGTGATTGTTTCTGGGTGATAAAATTATTGATGATTTTTATTTTCTTTATTTTTCTATAAAGATCATATATTACTTTTATAATAAAACATTATAAAAACAACATTCTGTTTACCTTTTCAAGGCTGTATTGGTTGGAGTGTAGACTGAACTGCCTGGGGTCTGTTTCTCTTCAGTGATGAGACTCTTAGGAAGGCAGGAATGGATAGGATAGGGGGAGGAGAGGAGAGATGGGGATTTAGAATGTAGAGTGAGTGCCCCTTTTCTTAAAACTGAATACAGTCACGCACCACATAATGATGTTTAGTTCAACAACAGACTGCATATATGATGGTGATCCCATAAAATTATAATACCATATTTCTATTGTACCTTTTCTATTCCTATGTTTAGATATATGAGTACTTACCATTGTGTTACAATTGCCTAAAGTATTCAGTACAGTAGCATGCTGTACAGGTTTGTAGCCTAGGGGCAATAGGCTATACGCTACAGCCTAGGTGTGTAGTAGGCCACACCATTTAGGTTTGTATAAGTACCTGCTATGATGTTCACACAACAAAATTGCCTGCATTTCTCAAAATGTATCCCCATATTTCAACAATGCATGACTGTACTCTTCTGCCAATGACCTTGTATTCTTGTTTCCATGTCTTCTTCTCTTTCCTCCTATGGCAAATAAAACACTGTTTTGCAACACAAAAAAAAAAAAAAA
>gi|291042663|ref|NM_001164692.2| Homo sapiens leukotriene B4 receptor 2 (LTB4R2), transcript variant 2, mRNA
ACCCTCTGCAAATGTGATAGGCACAGGACAGGAGTAGGCACCTCGCCTACTGCTGCTTAACCTTTCAGCTTCTCCAGGCCCCCAATCCTGCTTGCTCCCAGCTTGGTGGGGTTTTGCCCCACCCCTGAACGCCCTCTGTGGCGCCTTCCACCCACCTGTAGGCCCAGAAGGATGTCGGTCTGCTACCGTCCCCCAGGGAACGAGACACTGCTGAGCTGGAAGACTTCGCGGGCCACAGGCACAGCCTTCCTGCTGCTGGCGGCGCTGCTGGGGCTGCCTGGCAACGGCTTCGTGGTGTGGAGCTTGGCGGGCTGGCGGCCTGCACGGGGGCGACCGCTGGCGGCCACGCTTGTGCTGCACCTGGCGCTGGCCGACGGCGCGGTGCTGCTGCTCACGCCGCTCTTTGTGGCCTTCCTGACCCGGCAGGCCTGGCCGCTGGGCCAGGCGGGCTGCAAGGCGGTGTACTACGTGTGCGCGCTCAGCATGTACGCCAGCGTGCTGCTCACCGGCCTGCTCAGCCTGCAGCGCTGCCTCGCAGTCACCCGCCCCTTCCTGGCGCCTCGGCTGCGCAGCCCGGCCCTGGCCCGCCGCCTGCTGCTGGCGGTCTGGCTGGCCGCCCTGTTGCTCGCCGTCCCGGCCGCCGTCTACCGCCACCTGTGGAGGGACCGCGTATGCCAGCTGTGCCACCCGTCGCCGGTCCACGCCGCCGCCCACCTGAGCCTGGAGACTCTGACCGCTTTCGTGCTTCCTTTCGGGCTGATGCTCGGCTGCTACAGCGTGACGCTGGCACGGCTGCGGGGCGCCCGCTGGGGCTCCGGGCGGCACGGGGCGCGGGTGGGCCGGCTGGTGAGCGCCATCGTGCTTGCCTTCGGCTTGCTCTGGGCCCCCTACCACGCAGTCAACCTTCTGCAGGCGGTCGCAGCGCTGGCTCCACCGGAAGGGGCCTTGGCGAAGCTGGGCGGAGCCGGCCAGGCGGCGCGAGCGGGAACTACGGCCTTGGCCTTCTTCAGTTCTAGCGTCAACCCGGTGCTCTACGTCTTCACCGCTGGAGATCTGCTGCCCCGGGCAGGTCCCCGTTTCCTCACGCGGCTCTTCGAAGGCTCTGGGGAGGCCCGAGGGGGCGGCCGCTCTAGGGAAGGGACCATGGAGCTCCGAACTACCCCTCAGCTGAAAGTGGTGGGGCAGGGCCGCGGCAATGGAGACCCGGGGGGTGGGATGGAGAAGGACGGTCCGGAATGGGACCTTTGACAGCAGACCCTACAACCTGCTGCCCTTCCCTGTCCCTTTCCACCCCCCACCCACCCTCCAGAGGTCAGTGTTCTGGGACATTTGGGGACCCTTCTTTGACTAGAGTTTGGATCTGGCTGGGTAGGATTACTATACACTTGGGGCAGGCCCAGGCTCCTCCAAACTGAGGGATTATGAGGGTGGTGATGGTCCCTGTTAAGGACTATTGTGTGCTTGCAAGTTGGCATGTACCCATGTGCCAGCATTGCTTACTTGTTGCCAATAGCTGTTATTGTGAAATACACTGGGAAGCCATTAGATGATGACTTAAGT
>gi|285026518|ref|NM_003194.4| Homo sapiens TATA-box binding protein (TBP), transcript variant 1, mRNA
GGCGGAAGTGACATTATCAACGCGCGCCAGGGGTTCAGTGAGGTCGGGCAGGTTCGCTGTGGCGGGCGCCTGGGCCGCCGGCTGTTTAACTTCGCTTCCGCTGGCCCATAGTGATCTTTGCAGTGACCCAGCATCACTGTTTCTTGGCGTGTGAAGATAACCCAAGGAATTGAGGAAGTTGCTGAGAAGAGTGTGCTGGAGATGCTCTAGGAAAAAATTGAATAGTGAGACGAGTTCCAGCGCAAGGGTTTCTGGTTTGCCAAGAAGAAAGTGAACATCATGGATCAGAACAACAGCCTGCCACCTTACGCTCAGGGCTTGGCCTCCCCTCAGGGTGCCATGACTCCCGGAATCCCTATCTTTAGTCCAATGATGCCTTATGGCACTGGACTGACCCCACAGCCTATTCAGAACACCAATAGTCTGTCTATTTTGGAAGAGCAACAAAGGCAGCAGCAGCAACAACAACAGCAGCAGCAGCAGCAGCAGCAGCAACAGCAACAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAACAGGCAGTGGCAGCTGCAGCCGTTCAGCAGTCAACGTCCCAGCAGGCAACACAGGGAACCTCAGGCCAGGCACCACAGCTCTTCCACTCACAGACTCTCACAACTGCACCCTTGCCGGGCACCACTCCACTGTATCCCTCCCCCATGACTCCCATGACCCCCATCACTCCTGCCACGCCAGCTTCGGAGAGTTCTGGGATTGTACCGCAGCTGCAAAATATTGTATCCACAGTGAATCTTGGTTGTAAACTTGACCTAAAGACCATTGCACTTCGTGCCCGAAACGCCGAATATAATCCCAAGCGGTTTGCTGCGGTAATCATGAGGATAAGAGAGCCACGAACCACGGCACTGATTTTCAGTTCTGGGAAAATGGTGTGCACAGGAGCCAAGAGTGAAGAACAGTCCAGACTGGCAGCAAGAAAATATGCTAGAGTTGTACAGAAGTTGGGTTTTCCAGCTAAGTTCTTGGACTTCAAGATTCAGAATATGGTGGGGAGCTGTGATGTGAAGTTTCCTATAAGGTTAGAAGGCCTTGTGCTCACCCACCAACAATTTAGTAGTTATGAGCCAGAGTTATTTCCTGGTTTAATCTACAGAATGATCAAACCCAGAATTGTTCTCCTTATTTTTGTTTCTGGAAAAGTTGTATTAACAGGTGCTAAAGTCAGAGCAGAAATTTATGAAGCATTTGAAAACATCTACCCTATTCTAAAGGGATTCAGGAAGACGACGTAATGGCTCTCATGTACCCTTGCCTCCCCCACCCCCTTCTTTTTTTTTTTTTAAACAAATCAGTTTGTTTTGGTACCTTTAAATGGTGGTGTTGTGAGAAGATGGATGTTGAGTTGCAGGGTGTGGCACCAGGTGATGCCCTTCTGTAAGTGCCCACCGCGGGATGCCGGGAAGGGGCATTATTTGTGCACTGAGAACACCGCGCAGCGTGACTGTGAGTTGCTCATACCGTGCTGCTATCTGGGCAGCGCTGCCCATTTATTTATATGTAGATTTTAAACACTGCTGTTGACAAGTTGGTTTGAGGGAGAAAACTTTAAGTGTTAAAGCCACCTCTATAATTGATTGGACTTTTTAATTTTAATGTTTTTCCCCATGAACCACAGTTTTTATATTTCTACCAGAAAAGTAAAAATCTTTTTTAAAAGTGTTGTTTTTCTAATTTATAACTCCTAGGGGTTATTTCTGTGCCAGACACATTCCACCTCTCCAGTATTGCAGGACAGAATATATGTGTTAATGAAAATGAATGGCTGTACATATTTTTTTCTTTCTTCAGAGTACTCTGTACAATAAATGCAGTTTATAAAAGTGTTAGATTGTTGTTAAAAAAAAAAAAAAAAAA
>gi|268834883|ref|NM_000905.3| Homo sapiens neuropeptide Y (NPY), mRNA
GCACCCCATCCGCTGGCTCTCACCCCTCGGAGACGCTCGCCCGACAGCATAGTACTTGCCGCCCAGCCACGCCCGCGCGCCAGCCACCATGCTAGGTAACAAGCGACTGGGGCTGTCCGGACTGACCCTCGCCCTGTCCCTGCTCGTGTGCCTGGGTGCGCTGGCCGAGGCGTACCCCTCCAAGCCGGACAACCCGGGCGAGGACGCACCAGCGGAGGACATGGCCAGATACTACTCGGCGCTGCGACACTACATCAACCTCATCACCAGGCAGAGATATGGAAAACGATCCAGCCCAGAGACACTGATTTCAGACCTCTTGATGAGAGAAAGCACAGAAAATGTTCCCAGAACTCGGCTTGAAGACCCTGCAATGTGGTGATGGGAAATGAGACTTGCTCTCTGGCCTTTTCCTATTTTCAGCCCATATTTCATCGTGTAAAACGAGAATCCACCCATCCTACCAATGCATGCAGCCACTGTGCTGAATTCTGCAATGTTTTCCTTTGTCATCATTGTATATATGTGTGTTTAAATAAAGTATCATGCATTCAAAAGTGAAAAAAAAAAAAAAAA
>gi|262331543|ref|NM_002520.6| Homo sapiens nucleophosmin 1 (NPM1), transcript variant 1, mRNA
AGAAAGGAGTGGGGTTGAAAAGCGCTTGCGCAGGACGGCTACGGTACGGGGGTGGGAGGGCTTCGGAGCACGCGCGCGGAGGCGGGACTTGGGAAGCGCTCGCGAGATCTTCAGGGTCTATATATAAGCGCGGGGAGCCTGCGTCCTTTCCCTGGTGTGATTCCGTCCTGCGCGGTTGTTCTCTGGAGCAGCGTTCTTTTATCTCCGTCCGCCTTCTCTCCTACCTAAGTGCGTGCCGCCACCCGATGGAAGATTCGATGGACATGGACATGAGCCCCCTGAGGCCCCAGAACTATCTTTTCGGTTGTGAACTAAAGGCCGACAAAGATTATCACTTTAAGGTGGATAATGATGAAAATGAGCACCAGTTATCTTTAAGAACGGTCAGTTTAGGGGCTGGTGCAAAGGATGAGTTGCACATTGTTGAAGCAGAGGCAATGAATTACGAAGGCAGTCCAATTAAAGTAACACTGGCAACTTTGAAAATGTCTGTACAGCCAACGGTTTCCCTTGGGGGCTTTGAAATAACACCACCAGTGGTCTTAAGGTTGAAGTGTGGTTCAGGGCCAGTGCATATTAGTGGACAGCACTTAGTAGCTGTGGAGGAAGATGCAGAGTCAGAAGATGAAGAGGAGGAGGATGTGAAACTCTTAAGTATATCTGGAAAGCGGTCTGCCCCTGGAGGTGGTAGCAAGGTTCCACAGAAAAAAGTAAAACTTGCTGCTGATGAAGATGATGACGATGATGATGAAGAGGATGATGATGAAGATGATGATGATGATGATTTTGATGATGAGGAAGCTGAAGAAAAAGCGCCAGTGAAGAAATCTATACGAGATACTCCAGCCAAAAATGCACAAAAGTCAAATCAGAATGGAAAAGACTCAAAACCATCATCAACACCAAGATCAAAAGGACAAGAATCCTTCAAGAAACAGGAAAAAACTCCTAAAACACCAAAAGGACCTAGTTCTGTAGAAGACATTAAAGCAAAAATGCAAGCAAGTATAGAAAAAGGTGGTTCTCTTCCCAAAGTGGAAGCCAAATTCATCAATTATGTGAAGAATTGCTTCCGGATGACTGACCAAGAGGCTATTCAAGATCTCTGGCAGTGGAGGAAGTCTCTTTAAGAAAATAGTTTAAACAATTTGTTAAAAAATTTTCCGTCTTATTTCATTTCTGTAACAGTTGATATCTGGCTGTCCTTTTTATAATGCAGAGTGAGAACTTTCCCTACCGTGTTTGATAAATGTTGTCCAGGTTCTATTGCCAAGAATGTGTTGTCCAAAATGCCTGTTTAGTTTTTAAAGATGGAACTCCACCCTTTGCTTGGTTTTAAGTATGTATGGAATGTTATGATAGGACATAGTAGTAGCGGTGGTCAGACATGGAAATGGTGGGGAGACAAAAATATACATGTGAAATAAAACTCAGTATTTTAATAAAGTA
>gi|257471009|ref|NM_001164619.1| Homo sapiens glypican 3 (GPC3), transcript variant 4, mRNA
AGCCCCGCCCTGCCCCGCGCCGCCAAGCGGTTCCCGCCCTCGCCCAGCGCCCAGGTAGCTGCGAGGAAACTTTTGCAGCGGCTGGGTAGCAGCACGTCTCTTGCTCCTCAGGGCCACTGCCAGGCTTGCCGAGTCCTGGGACTGCTCTCGCTCCGGCTGCCACTCTCCCGCGCTCTCCTAGCTCCCTGCGAAGCAGGATGGCCGGGACCGTGCGCACCGCGTGCTTGGTGGTGGCGATGCTGCTCAGCTTGGACTTCCCGGGACAGGCGCAGCCCCCGCCGCCGCCGCCGGACGCCACCTGTCACCAAGTCCGCTCCTTCTTCCAGAGACTGCAGCCCGGACTCAAGTGGGTGCCAGAAACTCCCGTGCCAGAGGCCTTTGAAATTGTTGTTCGCCATGCCAAGAACTACACCAATGCCATGTTCAAGAACAACTACCCAAGCCTGACTCCACAAGCTTTTGAGTTTGTGGGTGAATTTTTCACAGATGTGTCTCTCTACATCTTGGGTTCTGACATCAATGTAGATGACATGGTCAATGAATTGTTTGACAGCCTGTTTCCAGTCATCTATACCCAGCTAATGAACCCAGGCCTGCCTGATTCAGCCTTGGACATCAATGAGTGCCTCCGAGGAGCAAGACGTGACCTGAAAGTATTTGGGAATTTCCCCAAGCTTATTATGACCCAGGTTTCCAAGTCACTGCAAGTCACTAGGATCTTCCTTCAGGCTCTGAATCTTGGAATTGAAGTGATCAACACAACTGATCACCTGAAGTTCAGTAAGGACTGTGGCCGAATGCTCACCAGAATGTGGTACTGCTCTTACTGCCAGGGACTGATGATGGTTAAACCCTGTGGCGGTTACTGCAATGTGGTCATGCAAGGCTGTATGGCAGGTGTGGTGGAGATTGACAAGTACTGGAGAGAATACATTCTGTCCCTTGAAGAACTTGTGAATGGCATGTACAGAATCTATGACATGGAGAACGTACTGCTTGGTCTCTTTTCAACAATCCATGATTCTATCCAGTATGTCCAGAAGAATGCAGGAAAGCTGACCACCACTATTGGCAAGTTATGTGCCCATTCTCAACAACGCCAATATAGATCTGCTTATTATCCTGAAGATCTCTTTATTGACAAGAAAGTATTAAAAGTTGCTCATGTAGAACATGAAGAAACCTTATCCAGCCGAAGAAGGGAACTAATTCAGAAGTTGAAGTCTTTCATCAGCTTCTATAGTGCTTTGCCTGGCTACATCTGCAGCCATAGCCCTGTGGCGGAAAACGACACCCTTTGCTGGAATGGACAAGAACTCGTGGAGAGATACAGCCAAAAGGCAGCAAGGAATGGAATGAAAAACCAGTTCAATCTCCATGAGCTGAAAATGAAGGGCCCTGAGCCAGTGGTCAGTCAAATTATTGACAAACTGAAGCACATTAACCAGCTCCTGAGAACCATGTCTATGCCCAAAGGTAGAGTTCTGGATAAAAACCTGGATGAGGAAGGGTTTGAAAGTGGAGACTGCGGTGATGATGAAGATGAGTGCATTGGAGGCTCTGGTGATGGAATGATAAAAGTGAAGAATCAGCTCCGCTTCCTTGCAGAACTGGCCTATGATCTGGATGTGGATGATGCGCCTGGAAACAGTCAGCAGGCAACTCCGAAGGACAACGAGATAAGCACCTTTCACAACCTCGGGAACGTTCATTCCCCGCTGAAGCTTCTCACCAGCATGGCCATCTCGGTGGTGTGCTTCTTCTTCCTGGTGCACTGACTGCCTGGTGCCCAGCACATGTGCTGCCCTACAGCACCCTGTGGTCTTCCTCGATAAAGGGAACCACTTTCTTATTTTTTTCTATTTTTTTTTTTTTGTTATCCTGTATACCTCCTCCAGCCATGAAGTAGAGGACTAACCATGTGTTATGTTTTCGAAAATCAAATGGTATCTTTTGGAGGAAGATACATTTTAGTGGTAGCATATAGATTGTCCTTTTGCAAAGAAAGAAAAAAAACCATCAAGTTGTGCCAAATTATTCTCCTATGTTTGGCTGCTAGAACATGGTTACCATGTCTTTCTCTCTCACTCCCTCCCTTTCTATCGTTCTCTCTTTGCATGGATTTCTTTGAAAAAAAATAAATTGCTCAAATAAAAAAAAAAAAAAA
>gi|257471007|ref|NM_001164618.1| Homo sapiens glypican 3 (GPC3), transcript variant 3, mRNA
AGCCCCGCCCTGCCCCGCGCCGCCAAGCGGTTCCCGCCCTCGCCCAGCGCCCAGGTAGCTGCGAGGAAACTTTTGCAGCGGCTGGGTAGCAGCACGTCTCTTGCTCCTCAGGGCCACTGCCAGGCTTGCCGAGTCCTGGGACTGCTCTCGCTCCGGCTGCCACTCTCCCGCGCTCTCCTAGCTCCCTGCGAAGCAGGATGGCCGGGACCGTGCGCACCGCGTGCTTGGTGGTGGCGATGCTGCTCAGCTTGGACTTCCCGGGACAGGCGCAGCCCCCGCCGCCGCCGCCGGACGCCACCTGTCACCAAGTCCGCTCCTTCTTCCAGAGACTGCAGCCCGGACTCAAGTGGGTGCCAGAAACTCCCGTGCCAGGATCAGATTTGCAAGTATGTCTCCCTAAGGGCCCAACATGCTGCTCAAGAAAGATGGAAGAAAAATACCAACTAACAGCACGATTGAACATGGAACAGCTGCTTCAGTCTGCAAAGGCCTTTGAAATTGTTGTTCGCCATGCCAAGAACTACACCAATGCCATGTTCAAGAACAACTACCCAAGCCTGACTCCACAAGCTTTTGAGTTTGTGGGTGAATTTTTCACAGATGTGTCTCTCTACATCTTGGGTTCTGACATCAATGTAGATGACATGGTCAATGAATTGTTTGACAGCCTGTTTCCAGTCATCTATACCCAGCTAATGAACCCAGGCCTGCCTGATTCAGCCTTGGACATCAATGAGTGCCTCCGAGGAGCAAGACGTGACCTGAAAGTATTTGGGAATTTCCCCAAGCTTATTATGACCCAGGTTTCCAAGTCACTGCAAGTCACTAGGATCTTCCTTCAGGCTCTGAATCTTGGAATTGAAGTGATCAACACAACTGATCACCTGAAGTTCAGTAAGGACTGTGGCCGAATGCTCACCAGAATGTGGTACTGCTCTTACTGCCAGGGACTGATGATGGTTAAACCCTGTGGCGGTTACTGCAATGTGGTCATGCAAGGCTGTATGGCAGGTGTGGTGGAGATTGACAAGTACTGGAGAGAATACATTCTGTCCCTTGAAGAACTTGTGAATGGCATGTACAGAATCTATGACATGGAGAACGTACTGCTTGGTCTCTTTTCAACAATCCATGATTCTATCCAGTATGTCCAGAAGAATGCAGGAAAGCTGACCACCACTATTGGCAAGTTATGTGCCCATTCTCAACAACGCCAATATAGATCTGCTTATTATCCTGAAGATCTCTTTATTGACAAGAAAGTATTAAAAGTTGCTCATGTAGAACATGAAGAAACCTTATCCAGCCGAAGAAGGGAACTAATTCAGAAGTTGAAGTCTTTCATCAGCTTCTATAGTGCTTTGCCTGGCTACATCTGCAGCCATAGCCCTGTGGCGGAAAACGACACCCTTTGCTGGAATGGACAAGAACTCGTGGAGAGATACAGCCAAAAGGCAGCAAGGAATGGAATGAAAAACCAGTTCAATCTCCATGAGCTGAAAATGAAGGGCCCTGAGCCAGTGGTCAGTCAAATTATTGACAAACTGAAGCACATTAACCAGCTCCTGAGAACCATGTCTATGCCCAAAGGTAGAGTTCTGGATAAAAACCTGGATGAGGAAGGGTTTGAAAGTGGAGACTGCGGTGATGATGAAGATGAGTGCATTGGAGGCTCTGGTGATGGAATGATAAAAGTGAAGAATCAGCTCCGCTTCCTTGCAGAACTGGCCTATGATCTGGATGTGGATGATGCGCCTGGAAACAGTCAGCAGGCAACTCCGAAGGACAACGAGATAAGCACCTTTCACAACCTCGGGAACGTTCATTCCCCGCTGAAGCTTCTCACCAGCATGGCCATCTCGGTGGTGTGCTTCTTCTTCCTGGTGCACTGACTGCCTGGTGCCCAGCACATGTGCTGCCCTACAGCACCCTGTGGTCTTCCTCGATAAAGGGAACCACTTTCTTATTTTTTTCTATTTTTTTTTTTTTGTTATCCTGTATACCTCCTCCAGCCATGAAGTAGAGGACTAACCATGTGTTATGTTTTCGAAAATCAAATGGTATCTTTTGGAGGAAGATACATTTTAGTGGTAGCATATAGATTGTCCTTTTGCAAAGAAAGAAAAAAAACCATCAAGTTGTGCCAAATTATTCTCCTATGTTTGGCTGCTAGAACATGGTTACCATGTCTTTCTCTCTCACTCCCTCCCTTTCTATCGTTCTCTCTTTGCATGGATTTCTTTGAAAAAAAATAAATTGCTCAAATAAAAAAAAAAAAAAA
>gi|257471004|ref|NM_004484.3| Homo sapiens glypican 3 (GPC3), transcript variant 2, mRNA
AGCCCCGCCCTGCCCCGCGCCGCCAAGCGGTTCCCGCCCTCGCCCAGCGCCCAGGTAGCTGCGAGGAAACTTTTGCAGCGGCTGGGTAGCAGCACGTCTCTTGCTCCTCAGGGCCACTGCCAGGCTTGCCGAGTCCTGGGACTGCTCTCGCTCCGGCTGCCACTCTCCCGCGCTCTCCTAGCTCCCTGCGAAGCAGGATGGCCGGGACCGTGCGCACCGCGTGCTTGGTGGTGGCGATGCTGCTCAGCTTGGACTTCCCGGGACAGGCGCAGCCCCCGCCGCCGCCGCCGGACGCCACCTGTCACCAAGTCCGCTCCTTCTTCCAGAGACTGCAGCCCGGACTCAAGTGGGTGCCAGAAACTCCCGTGCCAGGATCAGATTTGCAAGTATGTCTCCCTAAGGGCCCAACATGCTGCTCAAGAAAGATGGAAGAAAAATACCAACTAACAGCACGATTGAACATGGAACAGCTGCTTCAGTCTGCAAGTATGGAGCTCAAGTTCTTAATTATTCAGAATGCTGCGGTTTTCCAAGAGGCCTTTGAAATTGTTGTTCGCCATGCCAAGAACTACACCAATGCCATGTTCAAGAACAACTACCCAAGCCTGACTCCACAAGCTTTTGAGTTTGTGGGTGAATTTTTCACAGATGTGTCTCTCTACATCTTGGGTTCTGACATCAATGTAGATGACATGGTCAATGAATTGTTTGACAGCCTGTTTCCAGTCATCTATACCCAGCTAATGAACCCAGGCCTGCCTGATTCAGCCTTGGACATCAATGAGTGCCTCCGAGGAGCAAGACGTGACCTGAAAGTATTTGGGAATTTCCCCAAGCTTATTATGACCCAGGTTTCCAAGTCACTGCAAGTCACTAGGATCTTCCTTCAGGCTCTGAATCTTGGAATTGAAGTGATCAACACAACTGATCACCTGAAGTTCAGTAAGGACTGTGGCCGAATGCTCACCAGAATGTGGTACTGCTCTTACTGCCAGGGACTGATGATGGTTAAACCCTGTGGCGGTTACTGCAATGTGGTCATGCAAGGCTGTATGGCAGGTGTGGTGGAGATTGACAAGTACTGGAGAGAATACATTCTGTCCCTTGAAGAACTTGTGAATGGCATGTACAGAATCTATGACATGGAGAACGTACTGCTTGGTCTCTTTTCAACAATCCATGATTCTATCCAGTATGTCCAGAAGAATGCAGGAAAGCTGACCACCACTATTGGCAAGTTATGTGCCCATTCTCAACAACGCCAATATAGATCTGCTTATTATCCTGAAGATCTCTTTATTGACAAGAAAGTATTAAAAGTTGCTCATGTAGAACATGAAGAAACCTTATCCAGCCGAAGAAGGGAACTAATTCAGAAGTTGAAGTCTTTCATCAGCTTCTATAGTGCTTTGCCTGGCTACATCTGCAGCCATAGCCCTGTGGCGGAAAACGACACCCTTTGCTGGAATGGACAAGAACTCGTGGAGAGATACAGCCAAAAGGCAGCAAGGAATGGAATGAAAAACCAGTTCAATCTCCATGAGCTGAAAATGAAGGGCCCTGAGCCAGTGGTCAGTCAAATTATTGACAAACTGAAGCACATTAACCAGCTCCTGAGAACCATGTCTATGCCCAAAGGTAGAGTTCTGGATAAAAACCTGGATGAGGAAGGGTTTGAAAGTGGAGACTGCGGTGATGATGAAGATGAGTGCATTGGAGGCTCTGGTGATGGAATGATAAAAGTGAAGAATCAGCTCCGCTTCCTTGCAGAACTGGCCTATGATCTGGATGTGGATGATGCGCCTGGAAACAGTCAGCAGGCAACTCCGAAGGACAACGAGATAAGCACCTTTCACAACCTCGGGAACGTTCATTCCCCGCTGAAGCTTCTCACCAGCATGGCCATCTCGGTGGTGTGCTTCTTCTTCCTGGTGCACTGACTGCCTGGTGCCCAGCACATGTGCTGCCCTACAGCACCCTGTGGTCTTCCTCGATAAAGGGAACCACTTTCTTATTTTTTTCTATTTTTTTTTTTTTGTTATCCTGTATACCTCCTCCAGCCATGAAGTAGAGGACTAACCATGTGTTATGTTTTCGAAAATCAAATGGTATCTTTTGGAGGAAGATACATTTTAGTGGTAGCATATAGATTGTCCTTTTGCAAAGAAAGAAAAAAAACCATCAAGTTGTGCCAAATTATTCTCCTATGTTTGGCTGCTAGAACATGGTTACCATGTCTTTCTCTCTCACTCCCTCCCTTTCTATCGTTCTCTCTTTGCATGGATTTCTTTGAAAAAAAATAAATTGCTCAAATAAAAAAAAAAAAAAA
>gi|255652943|ref|NM_000271.4| Homo sapiens NPC intracellular cholesterol transporter 1 (NPC1), mRNA
GAAGGGCAACACGGGGACCTTGAAGCGGGGTCGCGGCGGCGCCCCAGCCCGGGCCAGGGAGTCCCGGCAGCGGCACCTCCCAGAAAGGGCGGAGCCGACGACGCCTTCTTCCTTCCTGACCGGCGCGCGCAGCCTGCTGCCGCGGTCAGCGCCTGCTCCTGCTCCTCCGCTCCTCCTGCGCGGGGTGCTGAAACAGCCCGGGGAAGTAGAGCCGCCTCCGGGGAGCCCAACCAGCCGAACGCCGCCGGCGTCAGCAGCCTTGCGCGGCCACAGCATGACCGCTCGCGGCCTGGCCCTTGGCCTCCTCCTGCTGCTACTGTGTCCAGCGCAGGTGTTTTCACAGTCCTGTGTTTGGTATGGAGAGTGTGGAATTGCATATGGGGACAAGAGGTACAATTGCGAATATTCTGGCCCACCAAAACCATTGCCAAAGGATGGATATGACTTAGTGCAGGAACTCTGTCCAGGATTCTTCTTTGGCAATGTCAGTCTCTGTTGTGATGTTCGGCAGCTTCAGACACTAAAAGACAACCTGCAGCTGCCTCTACAGTTTCTGTCCAGATGTCCATCCTGTTTTTATAACCTACTGAACCTGTTTTGTGAGCTGACATGTAGCCCTCGACAGAGTCAGTTTTTGAATGTTACAGCTACTGAAGATTATGTTGATCCTGTTACAAACCAGACGAAAACAAATGTGAAAGAGTTACAATACTACGTCGGACAGAGTTTTGCCAATGCAATGTACAATGCCTGCCGGGATGTGGAGGCCCCCTCAAGTAATGACAAGGCCCTGGGACTCCTGTGTGGGAAGGACGCTGACGCCTGTAATGCCACCAACTGGATTGAATACATGTTCAATAAGGACAATGGACAGGCACCTTTTACCATCACTCCTGTGTTTTCAGATTTTCCAGTCCATGGGATGGAGCCCATGAACAATGCCACCAAAGGCTGTGACGAGTCTGTGGATGAGGTCACAGCACCATGTAGCTGCCAAGACTGCTCTATTGTCTGTGGCCCCAAGCCCCAGCCCCCACCTCCTCCTGCTCCCTGGACGATCCTTGGCTTGGACGCCATGTATGTCATCATGTGGATCACCTACATGGCGTTTTTGCTTGTGTTTTTTGGAGCATTTTTTGCAGTGTGGTGCTACAGAAAACGGTATTTTGTCTCCGAGTACACTCCCATCGATAGCAATATAGCTTTTTCTGTTAATGCAAGTGACAAAGGAGAGGCGTCCTGCTGTGACCCTGTCAGCGCAGCATTTGAGGGCTGCTTGAGGCGGCTGTTCACACGCTGGGGGTCTTTCTGCGTCCGAAACCCTGGCTGTGTCATTTTCTTCTCGCTGGTCTTCATTACTGCGTGTTCGTCAGGCCTGGTGTTTGTCCGGGTCACAACCAATCCAGTTGACCTCTGGTCAGCCCCCAGCAGCCAGGCTCGCCTGGAAAAAGAGTACTTTGACCAGCACTTTGGGCCTTTCTTCCGGACGGAGCAGCTCATCATCCGGGCCCCTCTCACTGACAAACACATTTACCAGCCATACCCTTCGGGAGCTGATGTACCCTTTGGACCTCCGCTTGACATACAGATACTGCACCAGGTTCTTGACTTACAAATAGCCATCGAAAACATTACTGCCTCTTATGACAATGAGACTGTGACACTTCAAGACATCTGCTTGGCCCCTCTTTCACCGTATAACACGAACTGCACCATTTTGAGTGTGTTAAATTACTTCCAGAACAGCCATTCCGTGCTGGACCACAAGAAAGGGGACGACTTCTTTGTGTATGCCGATTACCACACGCACTTTCTGTACTGCGTACGGGCTCCTGCCTCTCTGAATGATACAAGTTTGCTCCATGACCCTTGTCTGGGTACGTTTGGTGGACCAGTGTTCCCGTGGCTTGTGTTGGGAGGCTATGATGATCAAAACTACAATAACGCCACTGCCCTTGTGATTACCTTCCCTGTCAATAATTACTATAATGATACAGAGAAGCTCCAGAGGGCCCAGGCCTGGGAAAAAGAGTTTATTAATTTTGTGAAAAACTACAAGAATCCCAATCTGACCATTTCCTTCACTGCTGAACGAAGTATTGAAGATGAACTAAATCGTGAAAGTGACAGTGATGTCTTCACCGTTGTAATTAGCTATGCCATCATGTTTCTATATATTTCCCTAGCCTTGGGGCACATGAAAAGCTGTCGCAGGCTTCTGGTGGATTCGAAGGTCTCACTAGGCATCGCGGGCATCTTGATCGTGCTGAGCTCGGTGGCTTGCTCCTTGGGTGTCTTCAGCTACATTGGGTTGCCCTTGACCCTCATTGTGATTGAAGTCATCCCGTTCCTGGTGCTGGCTGTTGGAGTGGACAACATCTTCATTCTGGTGCAGGCCTACCAGAGAGATGAACGTCTTCAAGGGGAAACCCTGGATCAGCAGCTGGGCAGGGTCCTAGGAGAAGTGGCTCCCAGTATGTTCCTGTCATCCTTTTCTGAGACTGTAGCATTTTTCTTAGGAGCATTGTCCGTGATGCCAGCCGTGCACACCTTCTCTCTCTTTGCGGGATTGGCAGTCTTCATTGACTTTCTTCTGCAGATTACCTGTTTCGTGAGTCTCTTGGGGTTAGACATTAAACGTCAAGAGAAAAATCGGCTAGACATCTTTTGCTGTGTCAGAGGTGCTGAAGATGGAACAAGCGTCCAGGCCTCAGAGAGCTGTTTGTTTCGCTTCTTCAAAAACTCCTATTCTCCACTTCTGCTAAAGGACTGGATGAGACCAATTGTGATAGCAATATTTGTGGGTGTTCTGTCATTCAGCATCGCAGTCCTGAACAAAGTAGATATTGGATTGGATCAGTCTCTTTCGATGCCAGATGACTCCTACATGGTGGATTATTTCAAATCCATCAGTCAGTACCTGCATGCGGGTCCGCCTGTGTACTTTGTCCTGGAGGAAGGGCACGACTACACTTCTTCCAAGGGGCAGAACATGGTGTGCGGCGGCATGGGCTGCAACAATGATTCCCTGGTGCAGCAGATATTTAACGCGGCGCAGCTGGACAACTATACCCGAATAGGCTTCGCCCCCTCGTCCTGGATCGACGATTATTTCGACTGGGTGAAGCCACAGTCGTCTTGCTGTCGAGTGGACAATATCACTGACCAGTTCTGCAATGCTTCAGTGGTTGACCCTGCCTGCGTTCGCTGCAGGCCTCTGACTCCGGAAGGCAAACAGAGGCCTCAGGGGGGAGACTTCATGAGATTCCTGCCCATGTTCCTTTCGGATAACCCTAACCCCAAGTGTGGCAAAGGGGGACATGCTGCCTATAGTTCTGCAGTTAACATCCTCCTTGGCCATGGCACCAGGGTCGGAGCCACGTACTTCATGACCTACCACACCGTGCTGCAGACCTCTGCTGACTTTATTGACGCTCTGAAGAAAGCCCGACTTATAGCCAGTAATGTCACCGAAACCATGGGCATTAACGGCAGTGCCTACCGAGTATTTCCTTACAGTGTGTTTTATGTCTTCTACGAACAGTACCTGACCATCATTGACGACACTATCTTCAACCTCGGTGTGTCCCTGGGCGCGATATTTCTGGTGACCATGGTCCTCCTGGGCTGTGAGCTCTGGTCTGCAGTCATCATGTGTGCCACCATCGCCATGGTCTTGGTCAACATGTTTGGAGTTATGTGGCTCTGGGGCATCAGTCTGAACGCTGTATCCTTGGTCAACCTGGTGATGAGCTGTGGCATCTCCGTGGAGTTCTGCAGCCACATAACCAGAGCGTTCACGGTGAGCATGAAAGGCAGCCGCGTGGAGCGCGCGGAAGAGGCACTTGCCCACATGGGCAGCTCCGTGTTCAGTGGAATCACACTTACAAAATTTGGAGGGATTGTGGTGTTGGCTTTTGCCAAATCTCAAATTTTCCAGATATTCTACTTCAGGATGTATTTGGCCATGGTCTTACTGGGAGCCACTCACGGATTAATATTTCTCCCTGTCTTACTCAGTTACATAGGGCCATCAGTAAATAAAGCCAAAAGTTGTGCCACTGAAGAGCGATACAAAGGAACAGAGCGCGAACGGCTTCTAAATTTCTAGCCCTCTCGCAGGGCATCCTGACTGAACTGTGTCTAAGGGTCGGTCGGTTTACCACTGGACGGGTGCTGCATCGGCAAGGCCAAGTTGAACACCGGATGGTGCCAACCATCGGTTGTTTGGCAGCAGCTTTGAACGTAGCGCCTGTGAACTCAGGAATGCACAGTTGACTTGGGAAGCAGTATTACTAGATCTGGAGGCAACCACAGGACACTAAACTTCTCCCAGCCTCTTCAGGAAAGAAACCTCATTCTTTGGCAAGCAGGAGGTGACACTAGATGGCTGTGAATGTGATCCGCTCACTGACACTCTGTAAAGGCCAATCAATGCACTGTCTGTCTCTCCTTTTAGGAGTAAGCCATCCCACAAGTTCTATACCATATTTTTAGTGACAGTTGAGGTTGTAGATACACTTTATAACATTTTATAGTTTAAAGAGCTTTATTAATGCAATAAATTAACTTTGTACACATTTTTATATAAAAAAACAGCAAGTGATTTCAGAATGTTGTAGGCCTCATTAGAGCTTGGTCTCCAAAAATCTGTTTGAAAAAAGCAACATGTTCTTCACAGTGTTCCCCTAGAAAGGAAGAGATTTAATTGCCAGTTAGATGTGGCATGAAATGAGGGACAAAGAAAGCATCTCGTAGGTGTGTCTACTGGGTTTTAACTTATTTTTCTTTAATAAAATACATTGTTTTCCTAAAAAAAAAAAAAAA
>gi|254750683|ref|NM_203447.3| Homo sapiens dedicator of cytokinesis 8 (DOCK8), transcript variant 1, mRNA
GACAGACGAGGTTTGCGCTTGGCTGGGCATGTTCCGCGGCTACTCTGCGGCGCGCCAGGCCCCCGCTTTCCGCACCCCGCGACCCTAGAAGCCACCGAACCGCCGGCGGGCCATGGCCACTCTGCCGAGCGCAGAGCGCCGCGCGTTCGCGCTCAAGATCAACAGGTATTCTTCAGCGGAAATAAGGAAACAGTTTACTCTCCCACCAAACCTTGGCCAGTACCATCGACAGAGCATAAGTACCTCTGGCTTCCCCTCTCTTCAACTACCTCAGTTTTATGACCCTGTGGAGCCAGTGGACTTTGAAGGACTTCTGATGACACACCTGAACAGCCTGGATGTGCAGCTTGCCCAGGAGCTCGGGGACTTCACTGATGACGACTTGGACGTGGTGTTCACGCCAAAGGAATGTAGGACTTTGCAGCCCTCTTTGCCGGAGGAAGGGGTTGAACTGGACCCTCATGTCAGGGACTGTGTTCAGACCTACATCCGTGAGTGGCTAATCGTGAACCGGAAAAACCAAGGAAGTCCAGAAATCTGTGGCTTTAAAAAGACTGGATCTCGAAAAGATTTTCACAAGACGCTTCCGAAACAGACGTTTGAGTCGGAAACCTTGGAGTGCAGTGAACCCGCTGCTCAGGCAGGCCCCCGCCACTTAAACGTGCTGTGCGACGTGTCTGGGAAAGGCCCCGTCACTGCCTGTGACTTTGACCTCCGCAGCCTGCAGCCTGACAAGCGGCTAGAAAACCTCCTGCAGCAAGTGAGTGCCGAGGACTTTGAGAAGCAGAACGAGGAGGCCCGGAGGACCAATAGGCAGGCCGAGCTCTTTGCCCTTTACCCATCAGTGGACGAGGAGGATGCTGTGGAAATACGTCCAGTACCAGAATGTCCCAAGGAACACCTGGGCAACAGAATATTGGTCAAGTTGCTGACCTTGAAGTTCGAGATTGAAATTGAGCCCCTGTTTGCCAGCATTGCCCTCTACGATGTTAAAGAAAGGAAAAAGATCTCAGAAAATTTTCACTGTGACCTGAACTCTGACCAGTTCAAAGGATTTCTGCGAGCTCACACGCCTTCAGTGGCCGCATCAAGTCAGGCGAGATCTGCAGTCTTCTCAGTCACCTACCCGTCCTCAGACATCTACCTGGTAGTCAAGATTGAAAAAGTCCTGCAGCAGGGAGAGATTGGAGACTGTGCAGAGCCCTACACGGTTATCAAAGAAAGTGATGGTGGAAAGAGTAAAGAAAAGATTGAAAAACTAAAACTCCAAGCTGAATCCTTCTGCCAGCGTTTGGGGAAATACCGGATGCCCTTTGCCTGGGCACCCATAAGCTTATCAAGCTTCTTCAATGTCTCCACCCTTGAGAGGGAGGTAACTGATGTGGACTCTGTGGTTGGGAGAAGCTCAGTGGGTGAACGGAGGACATTGGCCCAATCTAGAAGGCTTTCTGAAAGAGCCCTCTCCTTGGAGGAAAATGGGGTTGGATCCAACTTCAAAACCTCCACTCTGAGCGTTAGCAGCTTTTTCAAGCAGGAAGGAGATCGCCTTAGCGATGAAGACTTATTCAAGTTTTTAGCTGACTACAAAAGATCATCATCCTTACAGAGACGAGTCAAGTCAATTCCAGGCTTGCTAAGACTGGAGATTTCTACAGCTCCAGAGATCATCAATTGCTGTCTGACTCCTGAAATGCTGCCCGTGAAACCCTTTCCTGAAAACCGGACACGCCCGCACAAAGAGATTTTGGAATTTCCAACACGAGAAGTATATGTCCCTCACACTGTGTACAGAAACCTTCTCTATGTCTACCCACAGAGGCTGAACTTTGTAAACAAACTAGCATCAGCCCGGAACATTACAATAAAGATCCAGTTTATGTGTGGAGAAGATGCTAGCAATGCGATGCCGGTCATCTTTGGAAAATCCAGCGGGCCTGAATTTCTGCAGGAAGTGTACACAGCTGTTACATACCATAATAAGTCTCCTGACTTTTATGAAGAAGTGAAAATTAAGCTCCCCGCTAAGCTCACAGTAAATCACCACCTCCTGTTCACCTTCTACCATATCAGCTGTCAGCAGAAGCAAGGAGCCTCCGTGGAAACTCTCCTGGGATATTCATGGCTGCCAATTCTCTTAAATGAACGTCTTCAAACTGGATCCTACTGTCTCCCAGTTGCCTTGGAAAAATTGCCACCCAACTACTCCATGCATTCTGCTGAGAAAGTCCCATTACAGAATCCTCCCATTAAGTGGGCTGAAGGACATAAGGGAGTATTTAATATTGAAGTGCAAGCTGTTTCTTCTGTACACACCCAGGACAACCACCTGGAGAAGTTCTTCACCCTCTGCCACTCCCTGGAGAGCCAGGTGACCTTCCCCATCCGCGTGCTGGATCAGAAAATCAGCGAGATGGCGCTGGAGCATGAGCTGAAGCTCAGCATCATCTGCCTGAACTCCTCCCGCCTGGAGCCGCTCGTGCTCTTCCTGCACCTGGTGCTGGACAAGCTCTTCCAGCTGTCCGTGCAGCCCATGGTCATCGCTGGCCAGACAGCCAACTTCTCCCAGTTTGCCTTCGAGTCCGTGGTGGCCATCGCCAACAGTCTGCACAACAGCAAGGACCTGAGCAAGGACCAGCATGGGAGGAACTGCCTGCTGGCTTCCTACGTGCACTACGTCTTCCGCCTGCCAGAGGTGCAAAGGGATGTGCCCAAGTCAGGCGCTCCCACTGCCCTCCTAGACCCTCGGAGCTACCACACGTATGGCCGCACATCAGCTGCTGCTGTGAGTTCAAAGCTGCTGCAGGCCCGGGTGATGAGCAGCAGTAACCCAGACCTCGCGGGGACACACTCCGCAGCAGACGAGGAAGTGAAGAACATCATGTCTTCAAAGATCGCCGATCGCAACTGCAGCCGAATGTCTTACTATTGCTCTGGCAGTAGTGATGCTCCAAGTTCACCTGCAGCCCCAAGGCCAGCCAGCAAAAAGCATTTCCATGAGGAGCTTGCCCTTCAGATGGTGGTCAGCACCGGAATGGTGAGAGAAACAGTCTTCAAGTATGCCTGGTTCTTCTTTGAGCTTCTGGTGAAAAGCATGGCCCAGCACGTACATAACATGGACAAACGGGACAGTTTTCGGAGGACTCGTTTTTCTGACCGTTTCATGGATGACATAACTACTATTGTTAATGTGGTCACCTCGGAAATTGCAGCCCTTTTAGTAAAACCACAGAAGGAAAATGAACAGGCGGAAAAGATGAACATCAGCCTGGCTTTCTTCTTGTATGACCTTCTCTCCCTCATGGATCGGGGCTTTGTGTTTAACCTCATCAGACATTATTGCAGCCAGCTGTCAGCCAAGCTCAGTAACCTTCCAACGCTCATTTCCATGAGGCTAGAGTTCCTGAGAATCCTCTGTAGCCATGAGCATTACCTCAATCTGAACCTTTTTTTTATGAATGCTGATACTGCTCCAACATCTCCTTGTCCTTCCATATCTTCCCAGAACTCAAGCTCCTGCTCCAGCTTCCAGGACCAGAAGATCGCCAGCATGTTCGATCTGACTTCCGAGTACCGCCAGCAGCACTTCCTCACCGGGCTCCTCTTCACAGAACTGGCTGCTGCCCTGGATGCCGAAGGGGAAGGAATCAGCAAAGTACAAAGGAAAGCTGTCAGTGCAATTCACAGCCTGCTAAGTTCTCACGACCTGGACCCACGCTGTGTCAAACCAGAGGTGAAGGTCAAAATCGCCGCCCTTTACCTACCTTTAGTTGGCATCATTTTGGATGCTTTGCCACAGCTCTGTGACTTTACAGTTGCAGATACTCGCAGATACCGCACCAGTGGCTCGGATGAAGAACAAGAAGGAGCCGGTGCCATTAACCAGAATGTGGCTCTGGCCATAGCAGGGAATAATTTCAATTTGAAAACAAGTGGAATAGTGCTGTCTTCCTTGCCCTATAAGCAGTACAACATGCTGAACGCGGACACTACTCGCAACCTCATGATCTGCTTCCTCTGGATCATGAAAAATGCTGATCAGAGCCTCATTAGGAAGTGGATTGCTGACCTGCCATCAACGCAGCTCAACAGGATTTTAGATCTACTTTTCATCTGTGTGTTATGTTTTGAGTATAAGGGAAAACAGAGTTCTGACAAAGTCAGTACCCAAGTCCTGCAGAAGTCAAGGGATGTCAAGGCCCGGCTGGAAGAGGCTTTGCTCCGTGGGGAAGGGGCCAGAGGGGAGATGATGCGCCGCCGGGCTCCAGGGAACGACCGATTTCCAGGCCTAAATGAAAATTTGAGATGGAAGAAAGAGCAGACACATTGGCGGCAAGCTAATGAGAAGCTAGATAAAACAAAGGCCGAGTTAGATCAAGAAGCCTTGATCAGTGGCAATCTGGCTACAGAAGCACATTTAATCATCCTGGATATGCAGGAAAACATTATCCAGGCGAGCTCGGCTCTGGACTGTAAAGACAGCCTGCTGGGAGGTGTTCTGAGGGTGCTGGTGAATTCTCTGAACTGTGATCAGAGTACCACCTACCTGACTCACTGCTTTGCAACACTCCGTGCTCTCATCGCCAAGTTTGGAGACTTACTCTTCGAAGAGGAGGTGGAACAGTGTTTCGACCTATGTCACCAAGTCCTGCACCACTGCAGCAGCAGCATGGATGTCACCCGGAGCCAAGCCTGTGCCACCCTTTACCTCCTCATGAGGTTCAGTTTTGGAGCCACCAGTAATTTTGCAAGAGTAAAGATGCAAGTAACCATGTCCCTGGCATCTTTGGTGGGAAGAGCACCAGACTTTAATGAAGAGCACCTGAGAAGATCCTTGAGGACAATTTTGGCCTATTCAGAAGAGGACACAGCCATGCAGATGACTCCTTTTCCCACCCAGGTGGAGGAACTTCTCTGTAATCTGAATAGCATCTTATATGACACAGTGAAAATGAGGGAATTTCAGGAAGATCCTGAGATGCTTATGGATCTCATGTACAGAATTGCCAAGAGTTACCAGGCATCTCCTGATCTGCGGCTGACCTGGCTCCAGAACATGGCAGAGAAACACACCAAGAAGAAGTGCTACACGGAGGCTGCCATGTGCCTGGTGCACGCCGCTGCGTTAGTGGCTGAGTATCTGAGCATGCTGGAGGACCACAGCTACCTGCCCGTGGGCAGTGTCAGCTTCCAGAATATTTCTTCCAATGTGCTGGAGGAGTCTGTGGTCTCTGAGGACACCCTGTCACCTGACGAGGATGGGGTGTGCGCAGGCCAGTACTTCACCGAGAGTGGCCTGGTAGGCCTCCTGGAGCAGGCCGCGGAGCTCTTCAGCACGGGAGGCTTATATGAGACAGTTAATGAGGTCTACAAGCTGGTCATCCCCATCCTAGAAGCGCATCGAGAATTCCGGAAGCTGACACTCACTCACAGCAAGCTGCAGAGAGCCTTCGACAGCATCGTTAACAAGGATCATAAGAGAATGTTTGGAACCTACTTCCGAGTTGGTTTCTTTGGATCCAAATTTGGGGATTTGGATGAACAGGAGTTTGTCTACAAAGAGCCTGCAATTACCAAGCTTCCTGAGATCTCACATAGACTAGAGGCATTTTATGGTCAATGTTTTGGTGCAGAATTTGTGGAAGTGATTAAAGACTCCACTCCTGTGGACAAAACCAAGTTGGATCCTAACAAGGCCTACATACAGATCACTTTTGTGGAGCCCTACTTTGATGAGTATGAGATGAAAGACAGGGTCACATACTTTGAGAAGAATTTCAACCTCCGGAGGTTCATGTACACCACCCCGTTCACCCTGGAGGGGCGGCCTCGGGGAGAGCTGCATGAGCAGTACAGAAGGAACACAGTCCTGACCACTATGCACGCCTTCCCCTACATCAAGACCAGGATCAGCGTCATCCAGAAGGAGGAGTTTGTTTTGACACCGATTGAAGTTGCCATTGAAGACATGAAGAAGAAGACCCTGCAGTTAGCAGTTGCCATTAACCAGGAGCCGCCTGATGCAAAGATGCTTCAGATGGTGCTGCAAGGCTCTGTGGGAGCTACTGTAAATCAGGGACCACTGGAAGTAGCCCAAGTGTTTTTGGCTGAAATTCCTGCTGATCCAAAACTCTATCGACATCACAACAAGTTGAGGTTATGCTTTAAGGAATTCATCATGAGATGTGGTGAAGCTGTAGAGAAAAACAAGCGTCTCATCACGGCAGACCAGAGGGAATATCAGCAGGAACTCAAAAAGAACTATAACAAGCTAAAAGAGAACCTCAGGCCAATGATCGAGCGGAAAATTCCAGAACTGTACAAGCCAATATTCAGAGTTGAGAGTCAAAAGAGGGACTCCTTCCACAGATCTAGTTTCAGGAAATGTGAAACCCAGTTGTCACAGGGCAGCTAAGAAAAGCCATCTTCATTCGTGGAGACTGTGGCCCTGCAACCCTGGAGAAGGACTTGCTGGTACTTAAAAAATGGGACATTTGCCACCCAGGACTGACTGTACACTCCCTGATCAGCCAGCACTCTGGAAGCTTTGGGATCCCAGGAACCATGGAATTATTCCCAAATGGACTCTGACCAGATTTTTGCCATACTGGGGGGTGGCGGGATGGAGGATGGGTACTCAGGCATGACTGCGTATTTATTAAAGTGTGTTTTTCCACAATGTACCAAACAAGGCATAAGCAGCTTCTCCTGCTGACTGGCCAATCACTGCCCATCTGAGAGATGATTTCCTCTGGCCCATATTTGAATTTATTGGAGTAACTCAAATTGCCTGAGGAAAAATGGAAAAATTATCCACCAGTCGATTCAAACTGAATTTCACTCTTTATAGGAAGGCAGGGCAAACTTGTAGGAGTACGAAACATTTTCAATAAATCTACAAAGGGAAGCCTTACTACAATTCCAAAAATCATCATGGTTGGAAATTTGGGAGGAGATTATTTGTGAACTTGTTACCCTTTTGGTAATGGTGGACTAATTGCTGTATAGTTATTTTTGTTTTATTATTACTGTTACATTAATTTAACATGCATTTATAGAAGAATACATTCAAAGCACTGATGTAGGAGATACACGGTACTTGGAGCAGTCAGCCAGAAATCACAGATACTGCTTTCACTTAAATGGAAACAATTCTCCGATAATGCTTTGCTTTTTTTCTTATGTCACTCTTGTGTACTATCTATTTTTCTCCTCTCTGGGACCAAGTTTCTTTTTATAAAGCAATAATATCTCTGTTTTCATTTCAGAACATTGTGCTGTCTGTCAGCATATGTATATCAGCTACAAAATATATTCAACTTTGACTTCTTTTGACAAAGGACTTTAGGAAAAAGAGGAACAAAGACATTATTTGAGAATTAAATTATATATTTTTAATATGACTGTGACCTTGACTGATAATAAAGATGTAATAAGAATTGCAAGCTAAATGTTAAAAAAAAAAAAAAAAAA
>gi|239735487|ref|NM_001161656.1| Homo sapiens MYB proto-oncogene, transcription factor (MYB), transcript variant 4, mRNA
AATATCAACCTGTTTCCTCCTCCTCCTTCTCCTCCTCCTCCGTGACCTCCTCCTCCTCTTTCTCCTGAGAAACTTCGCCCCAGCGGTGCGGAGCGCCGCTGCGCAGCCGGGGAGGGACGCAGGCAGGCGGCGGGCAGCGGGAGGCGGCAGCCCGGTGCGGTCCCCGCGGCTCTCGGCGGAGCCCCGCGCCCGCCGCGCCATGGCCCGAAGACCCCGGCACAGCATATATAGCAGTGACGAGGATGATGAGGACTTTGAGATGTGTGACCATGACTATGATGGGCTGCTTCCCAAGTCTGGAAAGCGTCACTTGGGGAAAACAAGGTGGACCCGGGAAGAGGATGAAAAACTGAAGAAGCTGGTGGAACAGAATGGAACAGATGACTGGAAAGTTATTGCCAATTATCTCCCGAATCGAACAGATGTGCAGTGCCAGCACCGATGGCAGAAAGTACTAAACCCTGAGCTCATCAAGGGTCCTTGGACCAAAGAAGAAGATCAGAGAGTGATAGAGCTTGTACAGAAATACGGTCCGAAACGTTGGTCTGTTATTGCCAAGCACTTAAAGGGGAGAATTGGAAAACAATGTAGGGAGAGGTGGCATAACCACTTGAATCCAGAAGTTAAGAAAACCTCCTGGACAGAAGAGGAAGACAGAATTATTTACCAGGCACACAAGAGACTGGGGAACAGATGGGCAGAAATCGCAAAGCTACTGCCTGGACGAACTGATAATGCTATCAAGAACCACTGGAATTCTACAATGCGTCGGAAGGTCGAACAGGAAGGTTATCTGCAGGAGTCTTCAAAAGCCAGCCAGCCAGCAGTGGCCACAAGCTTCCAGAAGAACAGTCATTTGATGGGTTTTGCTCAGGCTCCGCCTACAGCTCAACTCCCTGCCACTGGCCAGCCCACTGTTAACAACGACTATTCCTATTACCACATTTCTGAAGCACAAAATGTCTCCAGTCATGTTCCATACCCTGTAGCGTTACATGTAAATATAGTCAATGTCCCTCAGCCAGCTGCCGCAGCCATTCAGAGACACTATAATGATGAAGACCCTGAGAAGGAAAAGCGAATAAAGGAATTAGAATTGCTCCTAATGTCAACCGAGAATGAGCTAAAAGGACAGCAGACACAGAACCACACATGCAGCTACCCCGGGTGGCACAGCACCACCATTGCCGACCACACCAGACCTCATGGAGACAGTGCACCTGTTTCCTGTTTGGGAGAACACCACTCCACTCCATCTCTGCCAGCGGATCCTGGCTCCCTACCTGAAGAAAGCGCCTCGCCAGCAAGGTGCATGATCGTCCACCAGGGCACCATTCTGGATAATGTTAAGAACCTCTTAGAATTTGCAGAAACACTCCAATTTATAGATTCTGATTCTTCATCATGGTGTGATCTCAGCAGTTTTGAATTCTTTGAAGAAGCAGATTTTTCACCTAGCCAACATCACACAGGCAAAGCCCTACAGCTTCAGCAAAGAGAGGGCAATGGGACTAAACCTGCAGGAGAACCTAGCCCAAGGGTGAACAAACGTATGTTGAGTGAGAGTTCACTTGACCCACCCAAGGTCTTACCTCCTGCAAGGCACAGCACAATTCCACTGGTCATCCTTCGAAAAAAACGGGGCCAGGCCAGCCCCTTAGCCACTGGAGACTGTAGCTCCTTCATATTTGCTGACGTCAGCAGTTCAACTCCCAAGCGTTCCCCTGTCAAAAGCCTACCCTTCTCTCCCTCGCAGTTCTTAAACACTTCCAGTAACCATGAAAACTCAGACTTGGAAATGCCTTCTTTAACTTCCACCCCCCTCATTGGTCACAAATTGACTGTTACAACACCATTTCATAGAGACCAGACTGTGAAAACTCAAAAGGAAAATACTGTTTTTAGAACCCCAGCTATCAAAAGGTCAATCTTAGAAAGCTCTCCAAGAACTCCTACACCATTCAAACATGCACTTGCAGCTCAAGAAATTAAATACGGTCCCCTGAAGATGCTACCTCAGACACCCTCTCATCTAGTAGAAGATCTGCAGGATGTGATCAAACAGGAATCTGATGAATCTGGAATTGTTGCTGAGTTTCAAGAAAATGGACCACCCTTACTGAAGAAAATCAAACAAGAGGTGGAATCTCCAACTGATAAATCAGGAAACTTCTTCTGCTCACACCACTGGGAAGGGGACAGTCTGAATACCCAACTGTTCACGCAGACCTCGCCTGTGGCAGATGCACCGAATATTCTTACAAGCTCCGTTTTAATGGCACCAGCATCAGAAGATGAAGACAATGTTCTCAAAGCATTTACAGTACCTAAAAACAGGTCCCTGGCGAGCCCCTTGCAGCCTTGTAGCAGTACCTGGGAACCTGCATCCTGTGGAAAGATGGAGGAGCAGATGACATCTTCCAGTCAAGCTCGTAAATACGTGAATGCATTCTCAGCCCGGACGCTGGTCATGTGAGACATTTCCAGAAAAGCATTATGGTTTTCAGAACACTTCAAGTTGACTTGGGATATATCATTCCTCAACATGAAACTTTTCATGAATGGGAGAAGAACCTATTTTTGTTGTGGTACAACAGTTGAGAGCAGCACCAAGTGCATTTAGTTGAATGAAGTCTTCTTGGATTTCACCCAACTAAAAGGATTTTTAAAAATAAATAACAGTCTTACCTAAATTATTAGGTAATGAATTGTAGCCAGTTGTTAATATCTTAATGCAGATTTTTTTAAAAAAAACATAAAATGATTTATCTGTATTTTAAAGGATCCAACAGATCAGTATTTTTTCCTGTGATGGGTTTTTTGAAATTTGACACATTAAAAGGTACTCCAGTATTTCACTTTTCTCGATCACTAAACATATGCATATATTTTTAAAAATCAGTAAAAGCATTACTCTAAGTGTAGACTTAATACCATGTGACATTTAATCCAGATTGTAAATGCTCATTTATGGTTAATGACATTGAAGGTACATTTATTGTACCAAACCATTTTATGAGTTTTCTGTTAGCTTGCTTTAAAAATTATTACTGTAAGAAATAGTTTTATAAAAAATTATATTTTTATTCAGTAATTTAATTTTGTAAATGCCAAATGAAAAACGTTTTTTGCTGCTATGGTCTTAGCCTGTAGACATGCTGCTAGTATCAGAGGGGCAGTAGAGCTTGGACAGAAAGAAAAGAAACTTGGTGTTAGGTAATTGACTATGCACTAGTATTTCAGACTTTTTAATTTTATATATATATACATTTTTTTTCCTTCTGCAATACATTTGAAAACTTGTTTGGGAGACTCTGCATTTTTTATTGTGGTTTTTTTGTTATTGTTGGTTTATACAAGCATGCGTTGCACTTCTTTTTTGGGAGATGTGTGTTGTTGATGTTCTATGTTTTGTTTTGAGTGTAGCCTGACTGTTTTATAATTTGGGAGTTCTGCATTTGATCCGCATCCCCTGTGGTTTCTAAGTGTATGGTCTCAGAACTGTTGCATGGATCCTGTGTTTGCAACTGGGGAGACAGAAACTGTGGTTGATAGCCAGTCACTGCCTTAAGAACATTTGATGCAAGATGGCCAGCACTGAACTTTTGAGATATGACGGTGTACTTACTGCCTTGTAGCAAAATAAAGATGTGCCCTTATTTTACCTAC
>gi|237649116|ref|NM_001031709.2| Homo sapiens renalase, FAD dependent amine oxidase (RNLS), transcript variant 1, mRNA
AAAGCTCAGGGCCCAGGTCGGCCCAGGGAGCACGGAACCAAAGAGCGCTAGCGCCGGTTCGGCCGCCTTTCCAGAAAGCCCGGGCCGAACGGCCCCGCCGCAGAGACTCAGCGCGGATCGCTGCTCCCTCTCGCCATGGCGCAGGTGCTGATCGTGGGCGCCGGGATGACAGGAAGCTTGTGCGCTGCGCTGCTGAGGAGGCAGACGTCCGGTCCCTTGTACCTTGCTGTGTGGGACAAGGCTGAGGACTCAGGGGGAAGAATGACTACAGCCTGCAGTCCTCATAATCCTCAGTGCACAGCTGACTTGGGTGCTCAGTACATCACCTGCACTCCTCATTATGCCAAAAAACACCAACGTTTTTATGATGAACTGTTAGCCTATGGCGTTTTGAGGCCTCTAAGCTCGCCTATTGAAGGAATGGTGATGAAAGAAGGAGACTGTAACTTTGTGGCACCTCAAGGAATTTCTTCAATTATTAAGCATTACTTGAAAGAATCAGGTGCAGAAGTCTACTTCAGACATCGTGTGACACAGATCAACCTAAGAGATGACAAATGGGAAGTATCCAAACAAACAGGCTCCCCTGAGCAGTTTGATCTTATTGTTCTCACAATGCCAGTTCCTGAGATTCTGCAGCTTCAAGGTGACATCACCACCTTAATTAGTGAATGCCAAAGGCAGCAACTGGAGGCTGTGAGCTACTCCTCTCGATATGCTCTGGGCCTCTTTTATGAAGCTGGTACGAAGATTGATGTCCCTTGGGCTGGGCAGTACATCACCAGTAATCCCTGCATACGCTTCGTCTCCATTGATAATAAGAAGCGCAATATAGAGTCATCAGAAATTGGGCCTTCCCTCGTGATTCACACCACTGTCCCATTTGGAGTTACATACTTGGAACACAGCATTGAGGATGTGCAAGAGTTAGTCTTCCAGCAGCTGGAAAACATTTTGCCGGGTTTGCCTCAGCCAATTGCTACCAAATGCCAAAAATGGAGACATTCACAGGTTACAAATGCTGCTGCCAACTGTCCTGGCCAAATGACTCTGCATCACAAACCTTTCCTTGCATGTGGAGGGGATGGATTTACTCAGTCCAACTTTGATGGCTGCATCACTTCTGCCCTATGTGTTCTGGAAGCTTTAAAGAATTATATTTAGTGCCTATATCCTTATTCTCTACATGTGTATTGGGTTTTTATTTTCACAATTTTCTGTTATTGATTATTTTGTTTTCTATTTTGCTAAGAAAAATTACTGGAAAATTGTTCTTCACTTATTATCATTTTTCATGTGGAGTATAAAATCAATTTTGTAATTTTGATAGTTACAACCCATGCTAGAATGGAAATTCCTCACACCTTGCACCTTCCCTACTTTTCTGAATTGCTATGACTACTCCTTGTTGGAGGAAAAGTGGTACTTAAAAAATAACAAACGACTCTCTCAAAAAAATTACATTAAATCACAATAACAGTTTGTGTGCCAAAAACTTGATTATCCTTATGAAAATTTCAATTCTGAATAAAGAATAATCACATTATCAAAGCCCCATCTTAAGTCTTCGGATGTGTCCTTGAATCAATATTTTTGCAAATTATACAAAACAAGATTTTTCCAAAATGTAGGTAACAGAGTGTAATTCTTATTTCTCATTTATCCCCCAAGTTATTAAGTGATCCTGAATTGTAGGTCATATATGTCATCATCTTAGTGTGGAGGGCAACTTGACTGATAAAGAGACCTTCCTTCAGATTTTCAGAAAGTATAAGATTCCACATGATTTTCCCAGCCACACAGTACTTTTTAACTTTCAAACAAATTCCAGTCCTAATATGAAAGATAAAAATTAAATAGAAACAGAGAGAAAGTATATCGATCCTTACCTTTTGCTATATTTTATAGCTGTTGCTGTTACTTTATGGGTTCTCCAGTATGTGCTGTGGCATTTAGACTGTGTCGAGTTTAATGAATTTAACACAACAAAAAATTTACTGAACCAGAAAATAGATGCACTTAAAATAGTTCAATATTTGCCAAGTTGGTGGTTCAGCATATCACCCACATGCTTCAGTGACCTGACCCCACGACTTGCTAGCTGGAGAGAAATCAATCTCCAGCCTTCCAAACCAGCTACCTGTTGCTAATTTGAAAAGCAAAATGATGAGTTCTATTTCAGCATTTTGAAAGGAGAAAAATCATTGCAGCCTCTCAAACTAACAAAAGTTCAACAAAAGACTTCTTACTGTAATAGTGTTTAAAGTTTCACACTTACATGTCCACTGTCATACATACACATACACAGGCACAGGCAGAACTTGCTTCTATAGCTGCAAAGTGGGTTTTATGACCCTATAGCATATTATTATATGTTTCCTCTTAGCAATAAATTGGTGAAAAACTTAAATGCCAAAAAA
>gi|226371645|ref|NM_030578.3| Homo sapiens B9 domain containing 2 (B9D2), mRNA
AGGGGAGGAGCCTGCTGTTGCCCCAGCAACAACCACGGAAACCAAGACGAGCGCGGTCGCGGAAGTATCGCGGCTTACATATCTCGCAGCCAGGCGGGTCCTGGGAGAGGCGCGAGCCAGGCCTGGTCGGCGCCCGCGGAGAAAAGAAGCAGTCAAGCCCATGAACTACAACCCCGGTTGCCGCTTTCTCCTCTCCTAACCGTTAAGTGCGCTAAGGGCCATGGCTGAGGTGCACGTGATCGGGCAGATCATAGGGGCCAGCGGTTTCTCGGAAAGTAGCCTCTTCTGCAAGTGGGGCATTCACACAGGGGCGGCATGGAAGCTCCTGTCAGGCGTGCGGGAGGGCCAAACGCAAGTGGACACCCCGCAGATAGGGGACATGGCTTACTGGTCCCACCCCATCGACCTGCACTTCGCCACCAAAGGTCTTCAAGGCTGGCCCCGGCTCCATTTCCAGGTGTGGTCCCAGGACAGCTTTGGCCGCTGCCAGCTTGCAGGCTATGGATTTTGCCATGTGCCCAGTAGCCCGGGCACCCACCAGCTGGCCTGCCCCACGTGGCGGCCCCTGGGCAGTTGGCGAGAACAGTTGGCACGGGCTTTCGTGGGTGGTGGGCCGCAGCTGCTGCATGGGGACACCATCTACAGTGGGGCCGACCGCTATCGCCTGCACACAGCTGCTGGTGGCACCGTGCACCTGGAGATCGGCCTGCTGCTCCGCAACTTCGACCGCTACGGCGTGGAGTGCTGAGGGACTCTGCCTCCAACGTCACCACCATCCACACCCCGGACACCCAGTGATGGGGGAGGATGGCACAGTGGTCAAGAGCACAGACTCTAGAGACTGTCAGAGCTGACCCCAGCTAAGGCATGGCACCGCTTCTGTCCTTTCTAGGACCTCGGGGTCCCTCTGGGCCCAGTTTCCCTATCTGTAAATTGGGGACAGTAAATGTATGGGGTCGCAGGGTGTTGAGTGACAGGAGGCTGCTTAGCCACATGGGAGGTGCTCAGTAAAGGAGAGCAATTCTTACAGGAAAAAAAAAAAAAAAAAA
>gi|223029439|ref|NM_001145102.1| Homo sapiens SMAD family member 3 (SMAD3), transcript variant 2, mRNA
AAATATGAGCTTGTGCTTGCTGGAGGAGGATGACAGAGGAGCCTGCTGCTGAGTTCACTGGTGCTGGGGTTAGGTCACTGCTGGGCTGAAGCGCACTGACCATAAGAGCAACATGTGGGCAAGAGCCGCGGCACTGGGGTAATTTATTGCCGCCGCTCGCTTCACCAGGAACCCCACACGCTGGGTTCCCACAGGATGCGACATTCCCACAGGATGGGACAACTGCATGGAAACCCACACTCGGGCCTGTGTTGAGCAACCACGTTTGAGTCCCTGGATGGCCGGTTGCAGGTGTCCCATCGGAAGGGGCTCCCTCATGTCATCTACTGCCGCCTGTGGCGATGGCCAGACCTGCACAGCCACCACGAGCTACGGGCCATGGAGCTGTGTGAGTTCGCCTTCAATATGAAGAAGGACGAGGTCTGCGTGAATCCCTACCACTACCAGAGAGTAGAGACACCAGTTCTACCTCCTGTGTTGGTGCCACGCCACACAGAGATCCCGGCCGAGTTCCCCCCACTGGACGACTACAGCCATTCCATCCCCGAAAACACTAACTTCCCCGCAGGCATCGAGCCCCAGAGCAATATTCCAGAGACCCCACCCCCTGGCTACCTGAGTGAAGATGGAGAAACCAGTGACCACCAGATGAACCACAGCATGGACGCAGGTTCTCCAAACCTATCCCCGAATCCGATGTCCCCAGCACATAATAACTTGGACCTGCAGCCAGTTACCTACTGCGAGCCGGCCTTCTGGTGCTCCATCTCCTACTACGAGCTGAACCAGCGCGTCGGGGAGACATTCCACGCCTCGCAGCCATCCATGACTGTGGATGGCTTCACCGACCCCTCCAATTCGGAGCGCTTCTGCCTAGGGCTGCTCTCCAATGTCAACAGGAATGCAGCAGTGGAGCTGACACGGAGACACATCGGAAGAGGCGTGCGGCTCTACTACATCGGAGGGGAGGTCTTCGCAGAGTGCCTCAGTGACAGCGCTATTTTTGTCCAGTCTCCCAACTGTAACCAGCGCTATGGCTGGCACCCGGCCACCGTCTGCAAGATCCCACCAGGATGCAACCTGAAGATCTTCAACAACCAGGAGTTCGCTGCCCTCCTGGCCCAGTCGGTCAACCAGGGCTTTGAGGCTGTCTACCAGTTGACCCGAATGTGCACCATCCGCATGAGCTTCGTCAAAGGCTGGGGAGCGGAGTACAGGAGACAGACTGTGACCAGTACCCCCTGCTGGATTGAGCTGCACCTGAATGGGCCTTTGCAGTGGCTTGACAAGGTCCTCACCCAGATGGGCTCCCCAAGCATCCGCTGTTCCAGTGTGTCTTAGAGACATCAAGTATGGTAGGGGAGGGCAGGCTTGGGGAAAATGGCCATGCAGGAGGTGGAGAAAATTGGAACTCTACTCAACCCATTGTTGTCAAGGAAGAAGAAATCTTTCTCCCTCAACTGAAGGGGTGCACCCACCTGTTTTCTGAAACACACGAGCAAACCCAGAGGTGGATGTTATGAACAGCTGTGTCTGCCAAACACATTTACCCTTTGGCCCCACTTTGAAGGGCAAGAAATGGCGTCTGCTCTGGTGGCTTAAGTGAGCAGAACAGGTAGTATTACACCACCGGCCCCCTCCCCCCAGACTCTTTTTTTGAGTGACAGCTTTCTGGGATGTCACAGTCCAACCAGAAACACCCCTCTGTCTAGGACTGCAGTGTGGAGTTCACCTTGGAAGGGCGTTCTAGGTAGGAAGAGCCCGCAGGGCCATGCAGACCTCATGCCCAGCTCTCTGACGCTTGTGACAGTGCCTCTTCCAGTGAACATTCCCAGCCCAGCCCCGCCCCGCCCCGCCCCACCACTCCAGCAGACCTTGCCCCTTGTGAGCTGGATAGACTTGGGATGGGGAGGGAGGGAGTTTTGTCTGTCTCCCTCCCCTCTCAGAACATACTGATTGGGAGGTGCGTGTTCAGCAGAACCTGCACACAGGACAGCGGGAAAAATCGATGAGCGCCACCTCTTTAAAAACTCACTTACGTTTGTCCTTTTTCACTTTGAAAAGTTGGAAGGATCTGCTGAGGCCCAGTGCATATGCAATGTATAGTGTCTATTATCACATTAATCTCAAAGAGATTCGAATGACGGTAAGTGTTCTCATGAAGCAGGAGGCCCTTGTCGTGGGATGGCATTTGGTCTCAGGCAGCACCACACTGGGTGCGTCTCCAGTCATCTGTAAGAGCTTGCTCCAGATTCTGATGCATACGGCTATATTGGTTTATGTAGTCAGTTGCATTCATTAAATCAACTTTATCATATGCTCTTTTAAATGTTTGGTTTATATATTTTCTTTAAAAATCCTGGGCTGGCACATTGACTGGGAAACCTGAGTGAGACCCAGCAACTGCTTCTCTCCCTTCTCTCTCCTGAGGTGAAGCTTTTCCAGGTTTTGTTGAAGAGATACCTGCCAGCACTTCTGCAAGCTGAAATTTACAGAAGCAAATTCACCAGAAGGGAAACATCTCAGGCCAACATAGGCAAATGAAAAGGGCTATTAAAATATTTTTACACCTTTGAAAATTGCAGGCTTGGTACAAAGAGGTCTGTCATCTTCCCCCTGGGATATAAGATGATCTAGCTCCCGGTAGAGGATCACCGGTGACAACTATAGCAGTTGTATTGTGTAACAAGTACTGCTCCCAGCAGCAATTAGGGAGAAAACTAGTCTAAATTATTTCAACTGGAAAAAAGAAAAAAGAGTCCTCTTCTTTTCCCAGCCTTTTGCAGAACACAGTAGACAGAACTGCCACCTTCAATTGGTACTTTATTCTTTGCTGCTGTTTTTGTATAAAATGACCTATCCCACGTTTTTGCATGAATTTATAGCAGGAAAAATCAAGGGATTTCCTATGGAAGTCCTGCTTTATTCCAGGTGAAGGGAAGGAAGTGTATATACTTTTGGCAAGTCATACAGCTCAAATGTGATGAGATTTCTGATGTTAGAGGGAGATGGAGAGGCTTCCTGATGCCTCATCTGCAGGGTCCTGTGCCTCTGAAGTTCTAGCCATGAGGTTTCCAGGTAGGACAGCTGCTCCCCAAGCCTCCTGAGGACACAGGAAGAGACGGAAGGAGCACCTTGACAGACTTGTGTGAGTCTTCTCGAAGGAGGGTTGACTCAGAACCCAGAGACAATACAAAACCCCTCACTTCCTCTGAGAGGGCCAAATGCTGTGAGTCTGAAGTATGTGCCTGGTGTGAAATGATCTATGGCCTGTTTCTTACACAGGAAGCCCCCTGAACCTCCTGTACATGTGTTCATGTTCCCAGCCAGCTCTGAGACCCAGGAACCAAATATTCCATTTTGGCTTCTGCTAGAGCAGTCATGGTTCCTCTCCTAAAAGCCATGGGCAGCAGTTTCCGAGGGCCTGCATGATCCACCTGCTGCACGATCCTATGAGGGCTTCCTGTGGCACACAGCCCTCTGGGTGCTTGGGAACTAGCTTCAGGCACAGCCTGATTCTGGTGATCCAGTGATCTATGGAAGTCGTGTCTTACTCCAGGTGAAGGGGGAAAAAAAAAGCCTATACTTTGGCAGGTTATGAACTTTGAATGTGATGAAATGACACGTTTGGCTGCATTTGGATGGTGTCTTAGAACCCTCATTGCTCAGACCTGAAGGCTACTTCTAGGAGCATGAAGTTTGAGTTTTGTGTTTTTCCAAAGGATACTTCCTTGGCCCTTTTTCTTTATTGACTAGACCACCAGAGGAGGATGTGTGGGATTGTAGGCAAACCCACCTGTGGCATCACTGAAAATAAATTTGATCATACCTAAGAGGTTAGGAAATGGTGCCATTCCCACCTTAGAGTGCTACATAGGTGCTTTGGGCGTATGTAACATTAGTGTCCTTCCTTGAAGCCACAAGCTAGTTTTCTTAGTTTTAAAATCCTGTTGTATGAATGGCATTTGTATATTAAAACACTTTTTTAAAGGACAGTTGAAAAGGGCAAGAGGAAACCAGGGCAGTTCTAGAGGAGTGCTGGTGACTGGATAGCAGTTTTAAGTGGCGTTCACCTAGTCAACACGACCGCGTGTGTTGCCCCTGCCCTGGGCTCCCCGCCATGACATCTTCACCTTGCAGCTTGTGCTGAGACTGACCCAAGTGCAGCTAGCACTGGGACACAGATCCTTGTCTTCAGCACCTTCCAAGGAGCCAACTTTTATTCCCTTTCCTCTCTCCCCTCCCCACCTCGCTTCTTCCCAATTTAGTAACTTAGATGCTTCCAGCACATACGTAGGTAGCTACCCCAGCCGGTTTGGATTACAGGCCTGTGCTGGAACATCATCTCAGTTGGCCACCTTCCTGGCAGGCTGTAGACCTGACATTTTGAGACAAGCCTAGAGTCAGGAGCAGGGACTTTGACTCTTAGGAAGAGCACACATGAGGGCAAGGCTGCTGGCAGACGTCTCCATTGTCCTTATGTTGTCTGTGTTGTATTTTTTTTTTTTTATTGACCATGGTGATTATTTTTTTAAACCATCGTTAATATACTGAAGTGAGCTATAGCACATATCATGTGCTTAGTTTGTTTATTTTTCTCCATCTCCCCTTGGCTTCCTAGAGTTTGGACATATTCCAGGCTAAATGCTTTTACTCAAGACTACAGAAAGGTTTGAAGTAGTGTGTGCATGGCATGCACGTATGTAAGTAATCTGGGGAAGAAGCAAAGATCTGTTTCATTCTTAGCCTCAGGCCTCATGAGGGTCTCCACAGGGCCGGAGCTCAGGTTACACCACTCCTTCGTCCTTACAGGAGATGTAGGGAGAAGAATCTGCAGGCTGCTTGTAGGACTGTTCACCAAGGGGGATACCAGCAGCAAGAGAGTGCACCCGTTTAGCCCTGGACCCTGTTTCTTACTGTGTGACTTGGCTAGAGTTGGGAGTTCCCCCAAAATAAACGTGTCCCCATTTTACCAGAACCAAACCTCAACACAGCGAAGCTGTACTGTCTTTGTGTGGCAAAGATGTTCCCTTGTAGGCCCCTTTCAGGTAACCGTCTTCACAATGTATTTTCATCACAGTTTAAGGAGCATCAGCCGCTTCTCAAGTGGGTAGGGAAAGCAGAAAAACGTACGCAAGAGGACATGGATCCAAAATGATGATGAAGCATCTCCCATGGGGAGGTGATGGTGGGGAGATGATGGGCTAAACAGGCAACTTTTCAAAAACACAGCTATCATAGAAAAGAAACTTGCCTCATGTAAACTGGATTGAGAAATTCTCAGTGATTCTGCAATGGATTTTTTTTTAATGCAGAAGTAATGTATACTCTAGTATTCTGGTGTTTTTATATTTATGTAATAATTTCTTAAAACCATTCAGACAGATAACTATTTAATTTTTTTTAAGAAAGTTGGAAAGGTCTCTCCTCCCAAGGACAGTGGCTGGAAGAGTTGGGGCACAGCCAGTTCTGAATGTTGGTGGAGGGTGTAGTGGCTTTTTGGCTCAGCATCCAGAAACACCAAACCAGGCTGGCTAAACAAGTGGCCGCGTGTAAAAACAGACAGCTCTGAGTCAAATCTGGGCCCTTCCACAAGGGTCCTCTGAACCAAGCCCCACTCCCTTGCTAGGGGTGAAAGCATTACAGAGAGATGGAGCCATCTATCCAAGAAGCCTTCACTCACCTTCACTGCTGCTGTTGCAACTCGGCTGTTCTGGACTCTGATGTGTGTGGAGGGATGGGGAATAGAACATTGACTGTGTTGATTACCTTCACTATTCGGCCAGCCTGACCTTTTAATAACTTTGTAAAAAGCATGTATGTATTTATAGTGTTTTAGATTTTTCTAACTTTTATATCTTAAAAGCAGAGCACCTGTTTAAGCATTGTACCCCTATTGTTAAAGATTTGTGTCCTCTCATTCCCTCTCTTCCTCTTGTAAGTGCCCTTCTAATAAACTTTTCATGGAAAAGCTCCTGTGCCAGGAGCTCAGTCTGA
>gi|222352114|ref|NM_177435.2| Homo sapiens peroxisome proliferator activated receptor delta (PPARD), transcript variant 2, mRNA
GCGGAGCGTGTGACGCTGCGGCCGCCGCGGACCTGGGGATTAATGGGAAAAGTTTTGGCAGGAGCGGGAGAATTCTGCGGAGCCTGCGGGACGGCGGCGGTGGCGCCGTAGGCAGCCGGGACAGTGTTGTACAGTGTTTTGGGCATGCACGTGATACTCACACAGTGGCTTCTGCTCACCAACAGATGAAGACAGATGCACCAACGAGGCTGATGGGAACCACCCTGTAGAGGTCCATCTGCGTTCAGACCCAGACGATGCCAGAGCTATGACTGGGCCTGCAGGTGTGGCGCCGAGGGGAGATCAGCCATGGAGCAGCCACAGGAGGAAGCCCCTGAGGTCCGGGAAGAGGAGGAGAAAGAGGAAGTGGCAGAGGCAGAAGGAGCCCCAGAGCTCAATGGGGGACCACAGCATGCACTTCCTTCCAGCAGCTACACAGACCTCTCCCGGAGCTCCTCGCCACCCTCACTGCTGGACCAACTGCAGATGGGCTGTGACGGGGCCTCATGCGGCAGCCTCAACATGGAGTGCCGGGTGTGCGGGGACAAGGCATCGGGCTTCCACTACGGTGTTCATGCATGTGAGGGGTGCAAGGGCTTCTTCCGTCGTACGATCCGCATGAAGCTGGAGTACGAGAAGTGTGAGCGCAGCTGCAAGATTCAGAAGAAGAACCGCAACAAGTGCCAGTACTGCCGCTTCCAGAAGTGCCTGGCACTGGGCATGTCACACAACGCTATCCGTTTTGGTCGGATGCCGGAGGCTGAGAAGAGGAAGCTGGTGGCAGGGCTGACTGCAAACGAGGGGAGCCAGTACAACCCACAGGTGGCCGACCTGAAGGCCTTCTCCAAGCACATCTACAATGCCTACCTGAAAAACTTCAACATGACCAAAAAGAAGGCCCGCAGCATCCTCACCGGCAAAGCCAGCCACACGGCGCCCTTTGTGATCCACGACATCGAGACATTGTGGCAGGCAGAGAAGGGGCTGGTGTGGAAGCAGTTGGTGAATGGCCTGCCTCCCTACAAGGAGATCAGCGTGCACGTCTTCTACCGCTGCCAGTGCACCACAGTGGAGACCGTGCGGGAGCTCACTGAGTTCGCCAAGAGCATCCCCAGCTTCAGCAGCCTCTTCCTCAACGACCAGGTTACCCTTCTCAAGTATGGCGTGCACGAGGCCATCTTCGCCATGCTGGCCTCTATCGTCAACAAGGACGGGCTGCTGGTAGCCAACGGCAGTGGCTTTGTCACCCGTGAGTTCCTGCGCAGCCTCCGCAAACCCTTCAGTGATATCATTGAGCCTAAGTTTGAATTTGCTGTCAAGTTCAACGCCCTGGAACTTGATGACAGTGACCTGGCCCTATTCATTGCGGCCATCATTCTGTGTGGAGGTGAGTGAGAGTGGGGCAGGTGGGCTGGCCTGGCACACCCAGTCGTCCTGGGGGTTGGCCCTCACTGCAGGGCACTGTGCCTGAGCTCTGACAGTGTGGGGAAGTGTCCCTGTGATCTTGGCAGTGGAACATGCAAGGCACTGACTGAGCATGCAGGATCAGCTCCATCTCATTATGTACGTAGATAGAGGTGGAGACAGGAAAAAGACTAAGCCAGACGTGGTGGCTCACACCTGTAATCCCAGCACTTTGGCAGGCCGAGGCGGGTGGATCACTTGAGGTCAGGAGTTCGAAACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCAGATGTGGTGGCACGCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGCCAGGAGAATCGCTTGAACCCGAGAGGTGGAGGTTGCAGTGAGCCAAAATCCCACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCCTGTCTCAAAAAAAAGGAAAAGGACTAACAGGCAGTATGCTGTCATGTTAATGTGGGGTGGAAAAATTGTCTGCATTTTTTCTGCATTTTTAAAATTCCAACACAATAAATACAATAATAACTATGCTAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|222080098|ref|NM_006340.2| Homo sapiens BAI1 associated protein 2 (BAIAP2), transcript variant 3, mRNA
CTCTGTGGTTCGGGTCCGCTTTCGTCTCCGTCCTGCTGCCGTTACCGCCGCTGCTGCCGCCGCTTGCGTCCCCCGCTCCGGTCTGTGGTGCAGCCGGGACCCAGGACCATGTCTCTGTCTCGCTCAGAGGAGATGCACCGGCTCACGGAAAATGTCTATAAGACCATCATGGAGCAGTTCAACCCTAGCCTCCGGAACTTCATCGCCATGGGGAAGAATTACGAGAAGGCACTGGCAGGTGTGACGTATGCAGCCAAAGGCTACTTTGACGCCCTGGTGAAGATGGGGGAGCTGGCCAGCGAGAGCCAGGGCTCCAAAGAACTCGGAGACGTTCTCTTCCAGATGGCTGAAGTCCACAGGCAGATCCAGAATCAGCTGGAAGAAATGCTGAAGTCTTTTCACAACGAGCTGCTTACGCAGCTGGAGCAGAAGGTGGAGCTGGACTCCAGGTATCTGAGTGCTGCGCTGAAGAAATACCAGACTGAGCAAAGGAGCAAAGGCGACGCCCTGGACAAGTGTCAGGCTGAGCTGAAGAAGCTTCGGAAGAAGAGCCAGGGCAGCAAGAATCCTCAGAAGTACTCGGACAAGGAGCTGCAGTACATCGACGCCATCAGCAACAAGCAGGGCGAGCTGGAGAATTACGTGTCCGACGGCTACAAGACCGCACTGACAGAGGAGCGCAGGCGCTTCTGCTTCCTGGTGGAGAAGCAGTGCGCCGTGGCCAAGAACTCCGCGGCCTACCACTCCAAGGGCAAGGAGCTGCTGGCGCAGAAGCTGCCGCTGTGGCAACAGGCCTGTGCCGACCCCAGCAAGATCCCGGAGCGCGCGGTGCAGCTCATGCAGCAGGTGGCCAGCAACGGCGCCACCCTCCCCAGCGCCCTGTCGGCCTCCAAGTCCAACCTGGTCATTTCCGACCCCATTCCGGGGGCCAAGCCCCTGCCGGTGCCCCCCGAGCTGGCACCGTTCGTGGGGCGGATGTCTGCCCAGGAGAGCACACCCATCATGAACGGCGTCACAGGCCCGGATGGCGAGGACTACAGCCCGTGGGCTGACCGCAAGGCTGCCCAGCCCAAATCCCTGTCTCCTCCGCAGTCTCAGAGCAAGCTCAGCGACTCCTACTCCAACACACTCCCCGTGCGCAAGAGCGTGACCCCAAAAAACAGCTATGCCACCACCGAGAACAAGACTCTGCCTCGCTCGAGCTCCATGGCAGCCGGCCTGGAGCGCAATGGCCGTATGCGGGTGAAGGCCATCTTCTCCCACGCTGCTGGGGACAACAGCACCCTCCTGAGCTTCAAGGAGGGTGACCTCATTACCCTGCTGGTGCCTGAGGCCCGCGATGGCTGGCACTACGGAGAGAGTGAGAAGACCAAGATGCGGGGCTGGTTTCCCTTCTCCTACACCCGGGTCTTGGACAGCGATGGCAGTGACAGGCTGCACATGAGCCTGCAGCAAGGGAAGAGCAGCAGCACGGGCAACCTCCTGGACAAGGACGACCTGGCCATCCCACCCCCCGATTACGGCGCCGCCTCCCGGGCCTTCCCCGCCCAGACGGCCAGCGGCTTCAAGCAGAGGCCCTACAGTGTGGCCGTGCCCGCCTTCTCCCAGGGCCTGGATGACTATGGAGCGCGGTCCATGAGCAGCGCCGATGTGGAAGTGGCCAGATTCTGAGCCGCCTGACTAGAGTTAGAATCCCTTTGCCCACGTCCAGCTGAAGCCGACAGTGACCAACGACAGGTCTGCCCCCCTCCTCAGCTGATGGCCACATCTGCAGTGCTGCCCATCTGGTGGCTTCCCCCGCCCTTCCCATGTAGCCTGTTCTGTCATCATCTGTGCGTTCCTGTGTAGAGAACATCCAGGCCCCGGCTGCCTGGTCTTGCCCCACTTGAGTCTGGCCTGGACTGGATCCCAGCTGTTCTAGGCAGGGCCGGGCAGAGTGGGGCGCAGGCCCCTGAAGGGCGAGACCCAGTGGCTGGGCTGCCCAGGGCTGAGGGGCCGCCTCTTGAGGGTACACGCCTCTGGTCACATGGCCATGGAGCCTTGGGTACCCCTGAGTTAAGGGAGGACATTTGGCCAGCTGGTGGCTGGGAGGGGAGCCTGGCTGCCCTGCTGCTTCTCCTGCCTAATAAACAGGCTTCTCCTGCACCAGGTGTGATCTGTCCGCCCAAGGGCCAGAAGGCCGGGAGCACGGGGATGGGAGCGCCCGCACCCTGGCTGGAAGATGAACTTCCCGTAAGCACGTAATTCCCTGCAGGTCCGGCAGCTACACCTGGAGTGTGGGGCCTGGTCCCTCCCCATGCCCCTCGGTGGGGCTCTCCTGGGCCCCTCACTCCCACTGGCAATGTCACAAGGGCCTCCCCAGGCCCCTCCTGCCTCGGGCAGGCCCCAGCCCTCCTCCTTACCCAACCTCCCATCCAGAACCTTGCTGCCAGGGCCTCCCAGCTCGCTCCTGCGGCCAAAGGCCAGCTGTCAGGTGCTATGCGGGGTCACCAGCAGAGTGCCCGCTGGCAGGTGGGGGCTTCCCCGCTTCCGGGGTCTGCCCCAGGACTCCTGGGTGGACCTCCCCCCCCCACCTCCGCTGACTCCTGCAGGCACTGGGGAGCTCTGCTGGAATTGGGGGTTTTAAAACTTCATTAGCAGATTTGTGCTCTTCCATACTGTTTGTTTGTTTGTTAGGTGAAATACAGTGTGGTGAGCTGCACTGGTGACAACAGCCCTTACCTGGCTGGGGAGGTGTCTCCAGCAGAGCTCACTCCCGCCTACAGCCACTCACACCCCGGGGACAGGAAGCTGTAGAGTTGGCGGGCCAGGAGGGCAGTTGAGAGCTGGCCAGCGGAGGGTGCAGGGAAGCCCAGCTGTGCTCAACTCTCCTGCCTCCGCCTTCCACCCTGGGCCCAGGGACAGACAGACATTGCCCTCAGAAGGGCAGGGAGGAGGCTGTCCTGGAGAGGCCTGTAGGTCCATTCTTCACCCGTCCCTACCAGGCCAACTCGGCCTGCAGGAAGGGAGACCTGCAGGGCGCTACCCCTGCGCCCCCACACACAGTAGGGCCAGAACACCATCCCCTCCACCGGGGTGTGCCGAGGACAGTGGGGAGGAGAGGAGAGGGGCAGCTTCCTCCTGGCCCCAGGAAGGGCTGGCATCGGGTTCCTGGCACAGCCCCTCCTGTCCAGGACTTTATCATCGGCAGACCTCAGAAGACAACACACAAAGGTTTCTTTTGTCTTAGCTTCATTTCTCTTAAAAAACAAGGAACAAGAAAACATTGCACCAGCGTTCTAAGCCTCAAACAAAACACAAAACAAATCCCCCTGCGAAGCAACAATAAACTTTACATCTCTTTGGCAACAAT
>gi|222080097|ref|NM_017450.2| Homo sapiens BAI1 associated protein 2 (BAIAP2), transcript variant 1, mRNA
CTCTGTGGTTCGGGTCCGCTTTCGTCTCCGTCCTGCTGCCGTTACCGCCGCTGCTGCCGCCGCTTGCGTCCCCCGCTCCGGTCTGTGGTGCAGCCGGGACCCAGGACCATGTCTCTGTCTCGCTCAGAGGAGATGCACCGGCTCACGGAAAATGTCTATAAGACCATCATGGAGCAGTTCAACCCTAGCCTCCGGAACTTCATCGCCATGGGGAAGAATTACGAGAAGGCACTGGCAGGTGTGACGTATGCAGCCAAAGGCTACTTTGACGCCCTGGTGAAGATGGGGGAGCTGGCCAGCGAGAGCCAGGGCTCCAAAGAACTCGGAGACGTTCTCTTCCAGATGGCTGAAGTCCACAGGCAGATCCAGAATCAGCTGGAAGAAATGCTGAAGTCTTTTCACAACGAGCTGCTTACGCAGCTGGAGCAGAAGGTGGAGCTGGACTCCAGGTATCTGAGTGCTGCGCTGAAGAAATACCAGACTGAGCAAAGGAGCAAAGGCGACGCCCTGGACAAGTGTCAGGCTGAGCTGAAGAAGCTTCGGAAGAAGAGCCAGGGCAGCAAGAATCCTCAGAAGTACTCGGACAAGGAGCTGCAGTACATCGACGCCATCAGCAACAAGCAGGGCGAGCTGGAGAATTACGTGTCCGACGGCTACAAGACCGCACTGACAGAGGAGCGCAGGCGCTTCTGCTTCCTGGTGGAGAAGCAGTGCGCCGTGGCCAAGAACTCCGCGGCCTACCACTCCAAGGGCAAGGAGCTGCTGGCGCAGAAGCTGCCGCTGTGGCAACAGGCCTGTGCCGACCCCAGCAAGATCCCGGAGCGCGCGGTGCAGCTCATGCAGCAGGTGGCCAGCAACGGCGCCACCCTCCCCAGCGCCCTGTCGGCCTCCAAGTCCAACCTGGTCATTTCCGACCCCATTCCGGGGGCCAAGCCCCTGCCGGTGCCCCCCGAGCTGGCACCGTTCGTGGGGCGGATGTCTGCCCAGGAGAGCACACCCATCATGAACGGCGTCACAGGCCCGGATGGCGAGGACTACAGCCCGTGGGCTGACCGCAAGGCTGCCCAGCCCAAATCCCTGTCTCCTCCGCAGTCTCAGAGCAAGCTCAGCGACTCCTACTCCAACACACTCCCCGTGCGCAAGAGCGTGACCCCAAAAAACAGCTATGCCACCACCGAGAACAAGACTCTGCCTCGCTCGAGCTCCATGGCAGCCGGCCTGGAGCGCAATGGCCGTATGCGGGTGAAGGCCATCTTCTCCCACGCTGCTGGGGACAACAGCACCCTCCTGAGCTTCAAGGAGGGTGACCTCATTACCCTGCTGGTGCCTGAGGCCCGCGATGGCTGGCACTACGGAGAGAGTGAGAAGACCAAGATGCGGGGCTGGTTTCCCTTCTCCTACACCCGGGTCTTGGACAGCGATGGCAGTGACAGGCTGCACATGAGCCTGCAGCAAGGGAAGAGCAGCAGCACGGGCAACCTCCTGGACAAGGACGACCTGGCCATCCCACCCCCCGATTACGGCGCCGCCTCCCGGGCCTTCCCCGCCCAGACGGCCAGCGGCTTCAAGCAGAGGCCCTACAGTGTGGCCGTGCCCGCCTTCTCCCAGGGCCTGGATGACTATGGAGCGCGGTCCATGAGCAGTGGCAGCGGCACGCTGGTGTCCACAGTGTGAGGACGCTGACCCCGGGCAGCCGCTGCTCTGAAGAGCTTCCGCGCCTTCCCCCTGGTCTCGTCCGTTTTCCTCCTCAGCTCTCGCTGGTTTGTTCTTGGGTTGTTTTTCTTTTCCACCTGCCCCATGCCTTTTGGTTGGTGACCCCAGACTCTGTGATCCCCCAGGGTCCATGGTGCTGCTCCATCCGCCCCCCCTCCCCTGTGTTTACGCGCCCCATCCTGTGTGTCCCAGCCTTTTGAGCAGAAACTGCCAGGCAGGACCTGCTGGGCCGTGCGGGGCACCCTCGGCCTCACCCTGCAGTGTCTGTGGCACTCACTGCTTTTCTAAGGCTCGCCGTGAGCCAGGTCTAAAGTTTGAAGAAAAAGAAAAATCTTAAAAAAAAAAAAAAAAAAAAAAAGAAAAAAAGAAAAACAGGAAAAAGGACTTTTTTTTTCCTGAAAAACAAAAACCGATCTGCATGGACTCCGGTGTGCGCTGTTATCTCGCATCCGACTTCCCCGGTGCGATGGCCTCTGTCCGGACAGGGAAGGTGCTGGGGTCCCTGGCCGCCCCGGCCCCTGTGGAGGGGTGCACAGAGAAAGGGGGCTCGTGCCAAGCTCGAGGGGCCTCCTGAGGAAGCCGGCCGCTCCTGTGAGGGAGGCCGGGCCCGGGCACCTGAGGGCTTCTCCCTCTGGACACTGCGGGCCAGGTGTACATAGAGCAGCGCGGCACAGTGGCCTCACCTCCCGTCGGGCACTGGCGGGAGCAAGGTCGGGGGCAGGCGCTGCCCAGCTGGCCGCACACGGACATTCCAAAGACCTCCAGAGACCACCCCACCCCCACATTCCTTTGACCAGCCTTGTGAGGGCATCGATGCTGCCCCGGGCTACCTGGCTGCTCTGGGCAGGGTGTGCGGGCCGGGCCCGGCTGGGGGAGGGCAGCTCTGGGCACGCCGCACCCACGCCCCCCACCTGGGGGAAACAGGCGGTTCCTGCCCGGTTCTTCCTAAACGCTCTCGTCTTTTTGTGTGTCTTGGTGACTTTAGAAACAAACACAGTGGACTCAGTGGCTACTGGTATTGTCTCTTCCCACACTGAACTCTGGGGAATTGAGTGCAGGGCACAGCCCGGCTCAGCCTGCCCGCTGGTGGGAGCCCCTGGGAAGCTGCGGCGCTCCTTTATCTGATGTGGTTTAGTAAAAGCCTCCCACACACCTCCCCGTGGCCTGGGACGTGGCTGGTAGTGTTTGTGTGGGAAGCAGCTCAAGACGCGGACCGCGTGACATTAAGGAGAGCTCAAGGGCGGACCGGGCCCTGTGTAGAGACCCTTCCGCGCCGGCGTTCCCGCTCCGCTAAAGATTTCAAATCCAGGGGATTCCATGCTCAATGGATGAATGTAGACACAAAACAGCAACACTTGTATGAAGATGTAAAGTGCTGAACATATTTTTTTCCTGTTTCCTTTCCTTTTTTTTAAAAAATCTGAATTGTGCCCTGTACTGCAGTTACTTGTTTGAATAAAAGTTTTATTTATTGC
>gi|221316670|ref|NM_021999.4| Homo sapiens integral membrane protein 2B (ITM2B), mRNA
CTCCCAGGGGATGTGCGAGCAGTCTCCGCCCTCGCGCGGGAGCTGGGAGGCTGCGAGATCCCTACCGCAGTAGCCGCCTCTGCCGCCGCGGAGCTTCCCGAACCTCTTCAGCCGCCCGGAGCCGCTCCCGGAGCCCGGCCGTAGAGGCTGCAATCGCAGCCGGGAGCCCGCAGCCCGCGCCCCGAGCCCGCCGCCGCCCTTCGAGGGCGCCCCAGGCCGCGCCATGGTGAAGGTGACGTTCAACTCCGCTCTGGCCCAGAAGGAGGCCAAGAAGGACGAGCCCAAGAGCGGCGAGGAGGCGCTCATCATCCCCCCCGACGCCGTCGCGGTGGACTGCAAGGACCCAGATGATGTGGTACCAGTTGGCCAAAGAAGAGCCTGGTGTTGGTGCATGTGCTTTGGACTAGCATTTATGCTTGCAGGTGTTATTCTAGGAGGAGCATACTTGTACAAATATTTTGCACTTCAACCAGATGACGTGTACTACTGTGGAATAAAGTACATCAAAGATGATGTCATCTTAAATGAGCCCTCTGCAGATGCCCCAGCTGCTCTCTACCAGACAATTGAAGAAAATATTAAAATCTTTGAAGAAGAAGAAGTTGAATTTATCAGTGTGCCTGTCCCAGAGTTTGCAGATAGTGATCCTGCCAACATTGTTCATGACTTTAACAAGAAACTTACAGCCTATTTAGATCTTAACCTGGATAAGTGCTATGTGATCCCTCTGAACACTTCCATTGTTATGCCACCCAGAAACCTACTGGAGTTACTTATTAACATCAAGGCTGGAACCTATTTGCCTCAGTCCTATCTGATTCATGAGCACATGGTTATTACTGATCGCATTGAAAACATTGATCACCTGGGTTTCTTTATTTATCGACTGTGTCATGACAAGGAAACTTACAAACTGCAACGCAGAGAAACTATTAAAGGTATTCAGAAACGTGAAGCCAGCAATTGTTTCGCAATTCGGCATTTTGAAAACAAATTTGCCGTGGAAACTTTAATTTGTTCTTGAACAGTCAAGAAAAACATTATTGAGGAAAATTAATATCACAGCATAACCCCACCCTTTACATTTTGTGCAGTGATTATTTTTTAAAGTCTTCTTTCATGTAAGTAGCAAACAGGGCTTTACTATCTTTTCATCTCATTAATTCAATTAAAACCATTACCTTAAAATTTTTTTCTTTCGAAGTGTGGTGTCTTTTATATTTGAATTAGTAACTGTATGAAGTCATAGATAATAGTACATGTCACCTTAGGTAGTAGGAAGAATTACAATTTCTTTAAATCATTTATCTGGATTTTTATGTTTTATTAGCATTTTCAAGAAGACGGATTATCTAGAGAATAATCATATATATGCATACGTAAAAATGGACCACAGTGACTTATTTGTAGTTGTTAGTTGCCCTGCTACCTAGTTTGTTAGTGCATTTGAGCACACATTTTAATTTTCCTCTAATTAAAATGTGCAGTATTTTCAGTGTCAAATATATTTAACTATTTAGAGAATGATTTCCACCTTTATGTTTTAATATCCTAGGCATCTGCTGTAATAATATTTTAGAAAATGTTTGGAATTTAAGAAATAACTTGTGTTACTAATTTGTATAACCCATATCTGTGCAATGGAATATAAATATCACAAAGTTGTTTAACTAGACTGCGTGTTGTTTTTCCCGTATAATAAAACCAAAGAATAGTTTGGTTCTTCAAATCTTAAGAGAATCCACATAAAAGAAGAAACTATTTTTTAAAAATTCACTTCTATATATACAATGAGTAAAATCACAGATTTTTTCTTTAAATAAAAATAAGTCATTTTAATAACTAAACCAGATTCTTTGTGGATACTATTAAAGTAACATTTAAGCCTCAACCTTG
>gi|221316571|ref|NM_003860.3| Homo sapiens barrier to autointegration factor 1 (BANF1), transcript variant 1, mRNA
CCAGTGTTCCCAGTTCCCACCAGTCCAACTGCGAGGAGTGCGACGTGAGTCTGAGTCTGATCCCTCCGAAAACCGTACTTCCGGCGCTGTCTCGGAGGCCTCCCGTCCCCTCCCTTGTCCGTCTTCTAACTCTTCCCCACGCCAGGTCCGTCAAGCCTAAGTCCTTGAGTTCCGGGTCCGGGCAGCAGAGAAAGGAAGTCCTCTCCCTGGAGGCCTATCTCCCTCAGAACTGCGCGAGAAGCGAGACCTTAGAAGGCAGGGCTTCCCGCGAAGGACCGGAAAGGAGCGCCTACTAAGGACGCCGTCGAGGTCCGGGGCGCCTCAACTCTATAGCTCTAACTGGCTAGAAGTGCCCAACGTGGAATGTTTCTTTTTTAAAGGCGGCTCTTGAAGCGACCCGGAAGCGGAAGTGGAAGAAAGTTCTAGTGGCTTGAGGTATCCGCAGGAGCGGCCGGGTGGCGGGAGGAACCGTTACGGGAACTGAAGTTGCGGATTAAGCCTGATCAAGATGACAACCTCCCAAAAGCACCGAGACTTCGTGGCAGAGCCCATGGGGGAGAAGCCAGTGGGGAGCCTGGCTGGGATTGGTGAAGTCCTGGGCAAGAAGCTGGAGGAAAGGGGTTTTGACAAGGCCTATGTTGTCCTTGGCCAGTTTCTGGTGCTAAAGAAAGATGAAGACCTCTTCCGGGAATGGCTGAAAGACACTTGTGGCGCCAACGCCAAGCAGTCCCGGGACTGCTTCGGATGCCTTCGAGAGTGGTGCGACGCCTTCTTGTGATGCTCTCTGGGAAGCTCTCAATCCCCAGCCCTCATCCAGAGTTTGCAGCCGAGTAGGGACTCCTCCCCTGTCCTCTACGAAGGAAAAGATTGCTATTGTCGTACTCACCTCCGACGTACTCCGGGGTCTTTTGGGAGTTTTCTCCCCTAACCATTTCAACTTTTTTTTGGATTCTCGCTCTTGCATGCCTCCCCCGTCCTTTTTCCCTTGCCAGTTCCCTGGTGACAGTTACCAGCTTTCCTGAATGGATTCCCGGCCCCATCCCTCACCCCCACCCTCACTTTCAATCCGTTTGATACCATTTGGCTCCTTTTTTGGCAGAACAGTCACTGTCCTTGTAAAGTTTTTTAGATCAATAAAGTCAGTGGCTTTCAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|218505830|ref|NM_001142761.1| Homo sapiens kinetochore localized astrin/SPAG5 binding protein (KNSTRN), transcript variant 2, mRNA
ATTAGCTCCATTCAAGCCTACAAATTGCATCACCCTCCTCCTCTGCCCAGACCTGGGGGCTCCAACACCTTTCGCTAGGTCTGGCTCTGGCCTCTGAGCGAACCTTCCGTACAGTATGGCGGCTCCCGAAGCCCCGCCCCTGGACAGAGTTTTCCGTACAACATGGCTGTCTACAGAGTGCGATTCCCACCCACTTCCGCCTAGCTACCGGAAGTTTCTATTTGAAACCCAGGCGGCCGACTTAGCCGGTGGCACGACAGTTGCTGCAGGGAATCTTTTAAACGAGAGCGAGAAGGACTGCGGGCAGGACCGGCGGGCTCCTGGGGTTCAGCCGTGCCGCCTCGTTACGATGACCAGTGTGGTTAAGACAGTGTATAGCCTGCAGCCCCCCTCTGCGCTGAGCGGCGGCCAGCCGGCAGACACACAAACTCGGGCCACTTCTAAGAGTCTCTTACCTGTTAGGTCCAAAGAAGTCGATGTTTCCAAACAGCTTCATTCAGGAGGTCCAGAGAATGATGTTACAAAAATCACCAAACTGAGACGAGAGAATGGGCAAATGAAAGCTACTGACACTGCCACCAGAAGGAATGTCAGAAAAGGCTACAAACCACTGAGTAAGCAAAAATCAGAGGAAGAGCTCAAGGACAAGAACCAGCTGTTAGAAGCCGTCAACAAGCAGTTGCACCAGAAGTTGACTGAAACTCAGGGAGAGCTGAAGGACCTGACCCAGAAGGTAGAGCTGCTGGAGAAGTTTCGGGACAACTGTTTGGCAATTTTGGAGAGCAAGGGCCTTGATCCAGCTTTAGGCAGTGAGACCCTGGCATCACGACAAGAATCCACTACTGATCACATGGACTCTATGTTGCTGTTAGAAACTTTGCAAGAGGAGCTGAAGCTTTTTAACGAAACAGCCAAAAAGCAGATGGAGGAGTTACAGATTGCTTGGATGAATCATGGGATATTGCACCAAATGTAGAGGATTTCATCGTTCCAGTTTAGATACAGGAGTCTAGTCCCTCTCTACTACTAGAGGGACAATTCCTAAAACCAGTGCATAGAAATAAAATCTAAAATAGAAGATACAGTCTGTTGATACTCCAGTGGTCTTCCTTAGTGGAATAGGAGCATAATGTTCTGATGTGGGAATTGTGTTTCCTGTTAGTCAAGAGTTTTGTGTATGTGTTGTTTTCTTTTGGAATGTCTTTCCATGCAGGCCTTAAAGGTAAAGCTGGAGATGAAAGAGGAAAGAGTCCGATTCCTAGAACAGCAAACCTTATGTAACAATCAAGTAAATGATTTAACAACAGCCCTTAAGGAAATGGAGCAGCTATTAGAAATGTAAGAAGAAGCAAGTGGCCAGATGGCTCCCTCTTGGGCATAAAATCTCAGAGGAAGCTACTTAGGACATCATCTTGGCCATGATCTTCTGGGACTCACCATCTCCAGAATGAAAACAATTTCTACAGTAGACTTAAGGACAGTTTATGCTGAAATGGCAATTCCTCATTTAAGCAAGTTTTCCCAACCTTCAGGTTGGTCAGCCCTCCTGAGCCTCACAGGTGGATAATTGAGGCCTACAAGAGAGGGGAGCCTAGGAGCTTGGATTGACCTTCTAGTCAACCACCTGACTTCAGCACACCATTACAATCGGGAGACTAAACCAACAACCAGAGGATCTAAAATGTCACATTCAGATTTTCAGGAAGAAAATCTTCATTACAGTGGAGCACAAATGTTCCATACAAGACATCATTGAGGAGCCATGCTGTCCCCTTCTAACCTGAAACACATTCTTTCCCATCCTGGTTGGGCTTCTGTACCTCCTTATTAATTTATGAACCTGAAGTTGCTTGAAGTGTTTTGGGCTTAATAAATGGGGTGAAAGTATAGGTAGCAGTAACACCTACATGAAACAATACACCTTGGATCTTTTAATCTAAATTACTTTTCTTTTTTAAGTCTACTTTTAAAATAAATACTTCTGTAAATATTCTGACTGTAACATTGAGGAATGAAAATAGCCTTTTAACCTAAAAAAA
>gi|217272879|ref|NM_182965.2| Homo sapiens sphingosine kinase 1 (SPHK1), transcript variant 2, mRNA
AGTGCCCTCCCCGCTCCGCGGCGCCGGCTGCGAAGTTGAGCGAAAAGTTTGAGGCCGGAGGGAGCGAGGCCGGGGAGTCCGCTCCAGCGGGGCGCTCCAGTCCCTCAGACGTGGGCTGAGCTTGGGACGAGCTGCGTTCCGCCCCAGGCCACTGTAGGGAACGGCGGTGGCGCCTCCCCAGCAAACCGGACCGACTGGGTAGGGCCGCCCACCCTGCCTTCGCGCCGCTCGTGGCTCCTGTGCGGCCCGCCCTCGCGGGGCCCCGGGAACTGGGCCACTTGTCGCTTGGGCGAGAGCAGGCGGCAGCTGGTGGCCCGGTTCGGGCTTGGCTTTGGCGCGACCCGGGAGCGGCTCCCACGAGCGCCGCGCGCGTCGCAACGGAGCGGGGCCCTGAGAAGCGCGCGCCGCGGCTCCCACCGCTCTGGAGCTCCGGGCAGGGGACACGGCAACCTGGATGGCTGGGGCAGGGATCCTCTCCCAGAACTTCGTGCCCAGCAATGTCCGCTCAAGTTCTGGGATTTTTACGCAGCTGGACTCCCCTCCCCCTGGCAGCCCCGAGGGGTCCAGCCGCCGCAGGGAATGACGCCGGTGCTCCTGCAGCCACGGCTCCGGGCGGGGAAGGCGAGCCCCACAGCCGGCCCTGCGACGCCCGCCTGGGCAGCACCGATAAGGAGCTGAAGGCAGGAGCCGCCGCCACGGGCAGCGCCCCCACAGCGCCAGGGACCCCCTGGCAGCGGGAGCCGCGGGTCGAGGTTATGGATCCAGCGGGCGGCCCCCGGGGCGTGCTCCCGCGGCCCTGCCGCGTGCTGGTGCTGCTGAACCCGCGCGGCGGCAAGGGCAAGGCCTTGCAGCTCTTCCGGAGTCACGTGCAGCCCCTTTTGGCTGAGGCTGAAATCTCCTTCACGCTGATGCTCACTGAGCGGCGGAACCACGCGCGGGAGCTGGTGCGGTCGGAGGAGCTGGGCCGCTGGGACGCTCTGGTGGTCATGTCTGGAGACGGGCTGATGCACGAGGTGGTGAACGGGCTCATGGAGCGGCCTGACTGGGAGACCGCCATCCAGAAGCCCCTGTGTAGCCTCCCAGCAGGCTCTGGCAACGCGCTGGCAGCTTCCTTGAACCATTATGCTGGCTATGAGCAGGTCACCAATGAAGACCTCCTGACCAACTGCACGCTATTGCTGTGCCGCCGGCTGCTGTCACCCATGAACCTGCTGTCTCTGCACACGGCTTCGGGGCTGCGCCTCTTCTCTGTGCTCAGCCTGGCCTGGGGCTTCATTGCTGATGTGGACCTAGAGAGTGAGAAGTATCGGCGTCTGGGGGAGATGCGCTTCACTCTGGGCACCTTCCTGCGTCTGGCAGCCCTGCGCACCTACCGCGGCCGACTGGCCTACCTCCCTGTAGGAAGAGTGGGTTCCAAGACACCTGCCTCCCCCGTTGTGGTCCAGCAGGGCCCGGTAGATGCACACCTTGTGCCACTGGAGGAGCCAGTGCCCTCTCACTGGACAGTGGTGCCCGACGAGGACTTTGTGCTAGTCCTGGCACTGCTGCACTCGCACCTGGGCAGTGAGATGTTTGCTGCACCCATGGGCCGCTGTGCAGCTGGCGTCATGCATCTGTTCTACGTGCGGGCGGGAGTGTCTCGTGCCATGCTGCTGCGCCTCTTCCTGGCCATGGAGAAGGGCAGGCATATGGAGTATGAATGCCCCTACTTGGTATATGTGCCCGTGGTCGCCTTCCGCTTGGAGCCCAAGGATGGGAAAGGTGTGTTTGCAGTGGATGGGGAATTGATGGTTAGCGAGGCCGTGCAGGGCCAGGTGCACCCAAACTACTTCTGGATGGTCAGCGGTTGCGTGGAGCCCCCGCCCAGCTGGAAGCCCCAGCAGATGCCACCGCCAGAAGAGCCCTTATGACCCCTGGGCCGCGCTGTGCCTTAGTGTCTACTTGCAGGACCCTTCCTCCTTCCCTAGGGCTGCAGGGCCTGTCCACAGCTCCTGTGGGGGTGGAGGAGACTCCTCTGGAGAAGGGTGAGAAGGTGGAGGCTATGCTTTGGGGGGACAGGCCAGAATGAAGTCCTGGGTCAGGAGCCCAGCTGGCTGGGCCCAGCTGCCTATGTAAGGCCTTCTAGTTTGTTCTGAGACCCCCACCCCACGAACCAAATCCAAATAAAGTGACATTCCCAGCCTGAAAAAAAAAAAAAAAAAA
>gi|216547843|ref|NM_173794.3| Homo sapiens FUN14 domain containing 1 (FUNDC1), mRNA
GCGGAGACAGGACTACGCGCCTGGAGTAGGAGAAGGAGGAAAAAAGAGACCATAGACTTCCATCCTGGCCTAGAGCGGCCCTTAAAGTGCCAGGGAGAGGAGGGCGGGTGGGGACCACTCCAGAATTGGCCGCTGGCGGTATCATGGCGACCCGGAACCCCCCTCCCCAAGACTATGAAAGTGATGACGACTCTTATGAAGTGTTGGATTTAACTGAGTATGCAAGAAGACACCAGTGGTGGAATCGAGTGTTTGGCCACAGTTCGGGACCTATGGTAGAAAAATACTCAGTAGCTACCCAGATTGTAATGGGTGGCGTTACTGGCTGGTGTGCAGGATTTCTGTTCCAGAAAGTTGGAAAACTTGCAGCAACTGCAGTAGGTGGTGGCTTTCTTCTTCTTCAGATTGCTAGTCATAGTGGCTATGTGCAGATTGACTGGAAGAGAGTTGAAAAAGATGTAAATAAAGCAAAAAGACAGATTAAGAAACGAGCGAACAAAGCAGCACCTGAAATCAACAATTTAATTGAAGAAGCAACAGAATTTATCAAGCAGAACATTGTGATATCCAGTGGATTTGTGGGAGGCTTTTTGCTCGGACTTGCATCTTAAGGACATGAATATTCTCCCATAACGGATTCAACTATGAGAAGAGAAGTGGCAGCAATAAGGCAGTCTCTCAAAAGTCATACTGCCAGAGTCTCTAGGGCAAGGAGAAACAACTAGCTGGACAATACTCAATTCACAACTTAGCATTTTGCCATCTGAAGCTTGGCAAACTAGTATCTGCTGTAAAACAACCTATATGGTATGTGAACCGTAGTATTCCTGAGCAAAACGTGGCTTTCATCGCTTTGTAAAAATTTGCATCTGTTTAGAAACTAGCCTATAAAATATCACCATTGGATGTAGATATGGAGAGAAAAGAAATATGTTGGGTTTATTGCTTAGCGAAATATTCTCTTTTTATTTAAATAAAATGTTCTTCATTGTGTTTTATGGTATGTGTCCATAATTTAAAATTCATGTTATAGTTTCAGTATTAAGGCTGACTTTTTTTTTTTAAGATATGTTTGCAATAAGTTAAAAAACTGTAATACCCTTTTGTGGAAAGCTTTAGAAATGATATAATTATTAAAGATATTAAACAGACTCTGCTGATGTAATATGA
>gi|209862753|ref|NM_004343.3| Homo sapiens calreticulin (CALR), mRNA
GCGGCGTCCGTCCGTACTGCAGAGCCGCTGCCGGAGGGTCGTTTTAAAGGGCCCGCGCGTTGCCGCCCCCTCGGCCCGCCATGCTGCTATCCGTGCCGCTGCTGCTCGGCCTCCTCGGCCTGGCCGTCGCCGAGCCTGCCGTCTACTTCAAGGAGCAGTTTCTGGACGGAGACGGGTGGACTTCCCGCTGGATCGAATCCAAACACAAGTCAGATTTTGGCAAATTCGTTCTCAGTTCCGGCAAGTTCTACGGTGACGAGGAGAAAGATAAAGGTTTGCAGACAAGCCAGGATGCACGCTTTTATGCTCTGTCGGCCAGTTTCGAGCCTTTCAGCAACAAAGGCCAGACGCTGGTGGTGCAGTTCACGGTGAAACATGAGCAGAACATCGACTGTGGGGGCGGCTATGTGAAGCTGTTTCCTAATAGTTTGGACCAGACAGACATGCACGGAGACTCAGAATACAACATCATGTTTGGTCCCGACATCTGTGGCCCTGGCACCAAGAAGGTTCATGTCATCTTCAACTACAAGGGCAAGAACGTGCTGATCAACAAGGACATCCGTTGCAAGGATGATGAGTTTACACACCTGTACACACTGATTGTGCGGCCAGACAACACCTATGAGGTGAAGATTGACAACAGCCAGGTGGAGTCCGGCTCCTTGGAAGACGATTGGGACTTCCTGCCACCCAAGAAGATAAAGGATCCTGATGCTTCAAAACCGGAAGACTGGGATGAGCGGGCCAAGATCGATGATCCCACAGACTCCAAGCCTGAGGACTGGGACAAGCCCGAGCATATCCCTGACCCTGATGCTAAGAAGCCCGAGGACTGGGATGAAGAGATGGACGGAGAGTGGGAACCCCCAGTGATTCAGAACCCTGAGTACAAGGGTGAGTGGAAGCCCCGGCAGATCGACAACCCAGATTACAAGGGCACTTGGATCCACCCAGAAATTGACAACCCCGAGTATTCTCCCGATCCCAGTATCTATGCCTATGATAACTTTGGCGTGCTGGGCCTGGACCTCTGGCAGGTCAAGTCTGGCACCATCTTTGACAACTTCCTCATCACCAACGATGAGGCATACGCTGAGGAGTTTGGCAACGAGACGTGGGGCGTAACAAAGGCAGCAGAGAAACAAATGAAGGACAAACAGGACGAGGAGCAGAGGCTTAAGGAGGAGGAAGAAGACAAGAAACGCAAAGAGGAGGAGGAGGCAGAGGACAAGGAGGATGATGAGGACAAAGATGAGGATGAGGAGGATGAGGAGGACAAGGAGGAAGATGAGGAGGAAGATGTCCCCGGCCAGGCCAAGGACGAGCTGTAGAGAGGCCTGCCTCCAGGGCTGGACTGAGGCCTGAGCGCTCCTGCCGCAGAGCTGGCCGCGCCAAATAATGTCTCTGTGAGACTCGAGAACTTTCATTTTTTTCCAGGCTGGTTCGGATTTGGGGTGGATTTTGGTTTTGTTCCCCTCCTCCACTCTCCCCCACCCCCTCCCCGCCCTTTTTTTTTTTTTTTTTTAAACTGGTATTTTATCTTTGATTCTCCTTCAGCCCTCACCCCTGGTTCTCATCTTTCTTGATCAACATCTTTTCTTGCCTCTGTCCCCTTCTCTCATCTCTTAGCTCCCCTCCAACCTGGGGGGCAGTGGTGTGGAGAAGCCACAGGCCTGAGATTTCATCTGCTCTCCTTCCTGGAGCCCAGAGGAGGGCAGCAGAAGGGGGTGGTGTCTCCAACCCCCCAGCACTGAGGAAGAACGGGGCTCTTCTCATTTCACCCCTCCCTTTCTCCCCTGCCCCCAGGACTGGGCCACTTCTGGGTGGGGCAGTGGGTCCCAGATTGGCTCACACTGAGAATGTAAGAACTACAAACAAAATTTCTATTAAATTAAATTTTGTGTCTCCAAAAAAAAAAAAAAAAAA
>gi|209862740|ref|NM_006875.3| Homo sapiens Pim-2 proto-oncogene, serine/threonine kinase (PIM2), mRNA
AACTGGCTCCGATTGGCTGTGGTACAGCAGGTGCCGCGTCCGGATTGATCAAAGCCAGGTGGGCGGGGCTGTCGCCCAGGGTGACTCTCCCGGGAGGCGCGTGCCCAGGCTCAGTAGCATTGGGGCTGGCGCGCGCGGCGAATCTCAACGCTGCGCCGTCTGCGGGCGCTTCCGGGCCACCAGTTTCTCTGCTTTCCACCCTGGCGCCCCCCAGCCCTGGCTCCCCAGCTGCGCTGCCCCGGGCGTCCACGCCCTGCGGGCTTAGCGGGTTCAGTGGGCTCAATCTGCGCAGCGCCACCTCCATGTTGACCAAGCCTCTACAGGGGCCTCCCGCGCCCCCCGGGACCCCCACGCCGCCGCCAGGAGGCAAGGATCGGGAAGCGTTCGAGGCCGAGTATCGACTCGGCCCCCTCCTGGGTAAGGGGGGCTTTGGCACCGTCTTCGCAGGACACCGCCTCACAGATCGACTCCAGGTGGCCATCAAAGTGATTCCCCGGAATCGTGTGCTGGGCTGGTCCCCCTTGTCAGACTCAGTCACATGCCCACTCGAAGTCGCACTGCTATGGAAAGTGGGTGCAGGTGGTGGGCACCCTGGCGTGATCCGCCTGCTTGACTGGTTTGAGACACAGGAGGGCTTCATGCTGGTCCTCGAGCGGCCTTTGCCCGCCCAGGATCTCTTTGACTATATCACAGAGAAGGGCCCACTGGGTGAAGGCCCAAGCCGCTGCTTCTTTGGCCAAGTAGTGGCAGCCATCCAGCACTGCCATTCCCGTGGAGTTGTCCATCGTGACATCAAGGATGAGAACATCCTGATAGACCTACGCCGTGGCTGTGCCAAACTCATTGATTTTGGTTCTGGTGCCCTGCTTCATGATGAACCCTACACTGACTTTGATGGGACAAGGGTGTACAGCCCCCCAGAGTGGATCTCTCGACACCAGTACCATGCACTCCCGGCCACTGTCTGGTCACTGGGCATCCTCCTCTATGACATGGTGTGTGGGGACATTCCCTTTGAGAGGGACCAGGAGATTCTGGAAGCTGAGCTCCACTTCCCAGCCCATGTCTCCCCAGACTGCTGTGCCCTAATCCGCCGGTGCCTGGCCCCCAAACCTTCTTCCCGACCCTCACTGGAAGAGATCCTGCTGGACCCCTGGATGCAAACACCAGCCGAGGATGTACCCCTCAACCCCTCCAAAGGAGGCCCTGCCCCTTTGGCCTGGTCCTTGCTACCCTAAGCCTGGCCTGGCCTGGCCTGGCCCCCAATGGTCAGAAGAGCCATCCCATGGCCATGTCACAGGGATAGATGGACATTTGTTGACTTGGTTTTACAGGTCATTACCAGTCATTAAAGTCCAGTATTACTAAGGTAAGGGATTGAGGATCAGGGGTTAGAAGACATAAACCAAGTCTGCCCAGTTCCCTTCCCAATCCTACAAAGGAGCCTTCCTCCCAGAACCTGTGGTCCCTGATTCTGGAGGGGGAACTTCTTGCTTCTCATTTTGCTAAGGAAGTTTATTTTGGTGAAGTTGTTCCCATTCTGAGCCCCGGGACTCTTATTCTGATGATGTGTCACCCCACATTGGCACCTCCTACTACCACCACACAAACTTAGTTCATATGCTCTTACTTGGGCAAGGGTGCTTTCCTTCCAATACCCCAGTAGCTTTTATTTTAGTAAAGGGACCCTTTCCCCTAGCCTAGGGTCCCATATTGGGTCAAGCTGCTTACCTGCCTCAGCCCAGGATTCTTTATTCTGGGGGAGGTAATGCCCTGTTGTTACCCCAAGGCTTCTTTTTTTTTTTTTTTTTTTTGGGTGAGGGGACCCTACTCTGTTATCCCAAGTGCTCTTATTCTGGTGAGAAGAACCTTACTTCCATAATTTGGGAAGGAATGGAAGATGGACACCACCGGACACCACCAGACACTAGGATGGGATGGATGGTTTTTTGGGGGATGGGCTAGGGGAAATAAGGCTTGCTGTTTGTTCTCCTGGGGCGCTCCCTCCAACTTTTGCAGATTCTTGCAACCTCCTCCTGAGCCGGGATTGTCCAATTACTAAAATGTAAATAATCACGTATTGTGGGGAGGGGAGTTCCAAGTGTGCCCTCCTCTCTTCTCCTGCCTGGATTATTTAAAAAGCCATGTGTGGAAACCCACTATTTAATAAAAGTAATAGAATCAGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|209447069|ref|NM_001135805.1| Homo sapiens synaptotagmin 1 (SYT1), transcript variant 2, mRNA
ATCTCGGCTCCACCGCACCCTTCGCGGGAAGTCCCCAGGCTTCCAGCAAAGCTCAGCTTATCCCGCCCCCGCTTCCAACCCGGAACCCCAGAAGAACAGCATGATGAGCCTCCGGCAGCCAGGTGGGCCACCTCCCCGCGGCTCAGTTTGAGGACACTTGTGCGGAACCCTTTCACATCCCCACCCTACCCAGCTTTCACAACTCCGCCGGGTTAAATGGCCAAAGACAAACTTCTACCTCTCCTGTCCCCGGTCCCAGCTTTTCAAAAACCCACAGCTGGCGAACCCACACACATCGAAACTCCTAGGTCGCTGTTGCAGTCTGGGCATGCTCAGTATCAGGGCTGCCCCTCCAAGAGCGGAGGCAGCGAGAGTACGCGTGTGCCTCGCGCCGGTCCACGCGGGGAGAGCACTGGGGACCGAGACCCGGCACCACCTCCCGGTCCGCCCTCCAGGGAAAACGGGAAAACTAGCAAGAGCTAGCAAGAACTAGCAAGAGCTTGAACAAACGCCTGGACTCAGATTGGAAGACTGCTCATTTGTCTACTGCCTCATTCCTGGAAATTGCACTGGAACTGTCTGATTAAGAAAAACAGAATAATTCTGAAAGAAAGAAAACAAAGAAAAACATACTCCAGAATTCCTAATAGAACACTTCACCTGAACCTAAAATGGTGAGCGAGAGTCACCATGAGGCCCTGGCAGCCCCGCCTGTCACCACTGTCGCGACTGTTCTGCCAAGCAACGCCACAGAGCCAGCCAGTCCTGGAGAAGGAAAGGAAGATGCATTTTCTAAGCTGAAGGAGAAGTTTATGAATGAGTTGCATAAAATTCCATTGCCACCGTGGGCCTTAATTGCAATAGCCATAGTCGCAGTCCTTTTAGTCCTGACCTGCTGCTTTTGTATCTGTAAGAAATGTTTGTTCAAAAAGAAAAACAAGAAGAAGGGAAAGGAAAAAGGAGGGAAGAATGCCATTAACATGAAAGATGTAAAAGACTTAGGGAAGACGATGAAAGATCAGGCCCTCAAGGATGATGATGCTGAAACTGGATTGACAGATGGAGAAGAAAAAGAAGAACCCAAAGAAGAGGAGAAACTGGGAAAACTTCAGTATTCACTGGATTATGATTTCCAAAATAACCAGCTGCTGGTAGGGATCATTCAGGCTGCCGAACTGCCCGCCTTGGACATGGGGGGCACATCTGATCCTTACGTGAAAGTGTTTCTGCTACCTGATAAGAAGAAGAAATTTGAGACAAAAGTCCACCGAAAAACCCTTAATCCTGTCTTCAATGAGCAATTTACTTTCAAGGTACCATACTCGGAATTGGGTGGCAAAACCCTAGTGATGGCTGTATATGATTTTGATCGTTTCTCTAAGCATGACATCATTGGAGAATTTAAAGTCCCTATGAACACAGTGGATTTTGGCCATGTAACTGAGGAATGGCGTGACCTGCAAAGTGCTGAGAAGGAAGAGCAAGAGAAATTGGGTGATATCTGCTTCTCCCTTCGCTACGTACCTACTGCTGGTAAGCTGACTGTTGTCATTCTGGAGGCAAAGAACCTGAAGAAGATGGATGTGGGTGGCTTATCCGATCCTTATGTGAAGATTCATCTGATGCAGAATGGTAAGAGGCTGAAGAAGAAAAAGACAACAATTAAAAAGAACACACTTAACCCCTACTACAATGAGTCATTCAGCTTTGAAGTACCTTTTGAACAAATCCAGAAAGTGCAGGTGGTGGTAACTGTTTTGGACTATGACAAGATTGGCAAGAACGATGCCATCGGCAAAGTCTTTGTGGGCTACAACAGCACCGGCGCGGAGCTGCGACACTGGTCAGACATGCTGGCCAACCCCAGGCGACCTATTGCCCAGTGGCACACCCTGCAGGTAGAGGAGGAAGTTGATGCCATGCTGGCCGTCAAGAAGTAAAGGAAAGAAGAAGCCTTTCTGCATTTGCCCATATAGTGCTCTTTAGCCAGTATCTGTAAATACCTCAGTAATATGGGTCCTTTCATTTTTCCAGCCATGCATTCCTAACACAATTCAGTGGTACTTGGAATCCTGTTTTAATTTGCACAAATTTAAATGTAGAGAGCCCCTAAGTCCTTCATCATACCACTGCCCTCCAAATCTACTCTTCTTTTAAGCAATATGATGTGTAGATAGAGCATGAATGAAATTATTTATTGTATCACACTGTTGTATATACCAGTATGCTAAAGATTTATTTCTAGTTTGTGTATTTGTATGTTGTAAGCGTTTCCTAATCTGTGTATATCTAGATGTTTTTAATAAGATGTTCTATTTTAAACTATGTAAATTGACTGAGATATAGGAGAGCTGATAATATATTATACGGTAAATATAGTATCGTCTGCATTCCAGCAAAAATATCAACTCGTAAGGCACTAGTACAGTTAAACTGACATCTTAAAGGACAACTTAAACCTGAGCTTTCTATTGAATCATTTGAGTACCAAGATAAACTTACACCACATACTTGGTGGGTGAATCCAATTTTGTAGAATTCCTACACAGGCAAAATAGCATGATCTGAGCAGCAGCATCCAGGCTGACCTCAAGGAAGCATAGCCACAAAACAGAATAGCACCTGTCTGTACATATTTACAAAGCTAAAATAATGGCTTCACTCTTATATTTGAGGAAGCAACTGAACAGGAGTCAATGATTTCATATTACTGCATATAGAATAACAACAAGGTGTTCCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCACATTTGTTTGGGGATGGGGGAGAAGAAGCTAAGGGGAGAAGTCAACATTTATGAAATATTGCCTGACTATTTAAAAAGAAAAAAGTAGCTCTCCATTATCACCTTTATACAAAATGTACATCCTGTGAATTCTGTTCCAGATTTCACACCTACAATAATTCCAAAAGGTTTGCACATTAGAGTTTGTAACAAAATATTTTATTATATAAAACCAGGTTAGAAGGAATGCAGGATATTTTTAACACAACAATCTGTGCTTATTACACAAAATTACTTTGTGGTAAACAGACAGTATTGTAATCCCATCAAAAGATGAAAGAAAAACAAAAACAAAAACCAACAACAATTAGCCATAGTTCTGAATGCACTTCAATTAAGCCAAAACAGACAGCTAGTGATCTTTTTATATGCTCTTTTTACTTAAGTTTTAATTTGTCCTTTAAAAAAAGGTGAAACAAACCAAGAACAAGTTCTAGAAAACTGAAGCAACCTCTTATGTATACTAGATGCTTGATTTAGGAGGAGTTTTTAAACGTTTTCAATGTTATTATGTAGTAAATGACACTATTATGAAGCTACTAGTCATTCCATAAGAGTCTTAAAGGACTGCTCTGTGTAACACTGTGACTGCCGTGTGTGCTTAGACCCGTAGTTTCCTCAGTGGATAGCACTCAATTTATTCCGTAGTGATATTGTAACAATACTGCCATTCCCTTCTACTGCACTGCCCAAGGTGTGTGTAGCACAAACAGTTCTCATTACAAAGGACCAATTCAGAACTGAAAAGCTATGCATAGGACAAGGAAGATACATAGAATGGGGTGGAACACAGCATTTTGTCAAGCACTGTGCAATATTCCATATTTTTCCCCACTATGGTAGACAACCATTTCGTGGAAGGGCAGCCTATTATCCCACACTGCATCTAGCCTTTTGTCCCATTCACTTCTGTGATCCATTTTAATTTCCAGGCCACAAGACAGTAGTGATGCTCTGAAATGAAAGTTTGTCTTCACAAATATCAAAACAAAATGGAGGAAAACTAAGCATTGGCCTCATGTTCAGTCTTCAGGATATCACACCACGTCTTTTCAAAAACTAAAGAGAATTCAAAAAGGGCTGATGGTAGGCTTTGAACATGGGGTTGGCTGTTTCCCAGTAAAACTGGAATTCCTGTCGTTACTGTTTCCTTATCAAAGAAGGGGCAAGCTCTTTTGCCTTTTAGGCCAGACATAGCAAACGCTTTATAATTGGCATAGACATAAAGGATAAAAGGAAAATAACCGTCTGCCGATGGTCCGTACTTCTTAAAAAACATAGGTAATAGAAAATATACACAAGTCAGAATGTGAAATTAAATAATGGTTTGAACAGAAAATTCAAACAAGACTCTTTCCAATTTAAAGGGCCAAACCCTACCAAAGAGAGGGAGTTGACTGGCTTTTAAAAAGTATTTAAATACCACAAATGACATTTAATTTCACTGTATTCAGCTTTAAGTTGTTCACAATGAAACCACACTTTCAAACAAGCAGGTTCAAGCTGCTGAATAGACATTATTTCTTGCATTAAAATACCACTAATGCATTCTCTTGCAACACTGCCAGACATGGGATTGTCACCATAGAATTAGTTGGTACTATGCCATCTTTCACTCTTTCACAAGTCAGTGATGGAACCTGCTTTATGACCAAGATTCATCCTCAAATAAGCCACATGTACCCTTCTGACAAAGCTGTGTAAAGTATTAGAATCTGATGCTCTAGAAAGATCCTAGTTGCCTTTGTGTATATTTACTGCCTGCTTGAGTGTTTCTATGTGTGGGTTTTCCCTGTATCTTGTAGAAATGTTGGGGTGTTTTCCTCTGCCATATGGCTCGTGGCCTGCGAGCCAACTATTTCAGCTGTATTTTACCTTCATTTTTGATGAGGTGATTTAAATTTTGTTTCACTTTGTGTAGTGAATTCCACAGTAGTTTTCTGATTGTTGTTAAAAATGACTTAACATATTACACAGATATTCAATAAAAATGTTTTATTTCCTGTTGAAAAAAAAAAAAAAAAAA
>gi|197927146|ref|NM_001134738.1| Homo sapiens B-cell CLL/lymphoma 6 (BCL6), transcript variant 3, mRNA
GTTTTGAGCAAAATTTTGGACTGTGAAGCAAGGCATTGGTGAAGACAAAATGGCCTCGCCGGCTGACAGCTGTATCCAGTTCACCCGCCATGCCAGTGATGTTCTTCTCAACCTTAATCGTCTCCGGAGTCGAGACATCTTGACTGATGTTGTCATTGTTGTGAGCCGTGAGCAGTTTAGAGCCCATAAAACGGTCCTCATGGCCTGCAGTGGCCTGTTCTATAGCATCTTTACAGACCAGTTGAAATGCAACCTTAGTGTGATCAATCTAGATCCTGAGATCAACCCTGAGGGATTCTGCATCCTCCTGGACTTCATGTACACATCTCGGCTCAATTTGCGGGAGGGCAACATCATGGCTGTGATGGCCACGGCTATGTACCTGCAGATGGAGCATGTTGTGGACACTTGCCGGAAGTTTATTAAGGCCAGTGAAGCAGAGATGGTTTCTGCCATCAAGCCTCCTCGTGAAGAGTTCCTCAACAGCCGGATGCTGATGCCCCAAGACATCATGGCCTATCGGGGTCGTGAGGTGGTGGAGAACAACCTGCCACTGAGGAGCGCCCCTGGGTGTGAGAGCAGAGCCTTTGCCCCCAGCCTGTACAGTGGCCTGTCCACACCGCCAGCCTCTTATTCCATGTACAGCCACCTCCCTGTCAGCAGCCTCCTCTTCTCCGATGAGGAGTTTCGGGATGTCCGGATGCCTGTGGCCAACCCCTTCCCCAAGGAGCGGGCACTCCCATGTGATAGTGCCAGGCCAGTCCCTGGTGAGTACAGCCGGCCGACTTTGGAGGTGTCCCCCAATGTGTGCCACAGCAATATCTATTCACCCAAGGAAACAATCCCAGAAGAGGCACGAAGTGATATGCACTACAGTGTGGCTGAGGGCCTCAAACCTGCTGCCCCCTCAGCCCGAAATGCCCCCTACTTCCCTTGTGACAAGGCCAGCAAAGAAGAAGAGAGACCCTCCTCGGAAGATGAGATTGCCCTGCATTTCGAGCCCCCCAATGCACCCCTGAACCGGAAGGGTCTGGTTAGTCCACAGAGCCCCCAGAAATCTGACTGCCAGCCCAACTCGCCCACAGAGTCCTGCAGCAGTAAGAATGCCTGCATCCTCCAGGCTTCTGGCTCCCCTCCAGCCAAGAGCCCCACTGACCCCAAAGCCTGCAACTGGAAGAAATACAAGTTCATCGTGCTCAACAGCCTCAACCAGAATGCCAAACCAGAGGGGCCTGAGCAGGCTGAGCTGGGCCGCCTTTCCCCACGAGCCTACACGGCCCCACCTGCCTGCCAGCCACCCATGGAGCCTGAGAACCTTGACCTCCAGTCCCCAACCAAGCTGAGTGCCAGCGGGGAGGACTCCACCATCCCACAAGCCAGCCGGCTCAATAACATCGTTAACAGGTCCATGACGGGCTCTCCCCGCAGCAGCAGCGAGAGCCACTCACCACTCTACATGCACCCCCCGAAGTGCACGTCCTGCGGCTCTCAGTCCCCACAGCATGCAGAGATGTGCCTCCACACCGCTGGCCCCACGTTCCCTGAGGAGATGGGAGAGACCCAGTCTGAGTACTCAGATTCTAGCTGTGGTGAGAAACCCTATCGTTGCAACATCTGTGGGGCCCAGTTCAACCGGCCAGCCAACCTGAAAACCCACACTCGAATTCACTCTGGAGAGAAGCCCTACAAATGCGAAACCTGCGGAGCCAGATTTGTACAGGTGGCCCACCTCCGTGCCCATGTGCTTATCCACACTGGTGAGAAGCCCTATCCCTGTGAAATCTGTGGCACCCGTTTCCGGCACCTTCAGACTCTGAAGAGCCACCTGCGAATCCACACAGGAGAGAAACCTTACCATTGTGAGAAGTGTAACCTGCATTTCCGTCACAAAAGCCAGCTGCGACTTCACTTGCGCCAGAAGCATGGCGCCATCACCAACACCAAGGTGCAATACCGCGTGTCAGCCACTGACCTGCCTCCGGAGCTCCCCAAAGCCTGCTGAAGCATGGAGTGTTGATGCTTTCGTCTCCAGCCCCTTCTCAGAATCTACCCAAAGGATACTGTAACACTTTACAATGTTCATCCCATGATGTAGTGCCTCTTTCATCCACTAGTGCAAATCATAGCTGGGGGTTGGGGGTGGTGGGGGTCGGGGCCTGGGGGACTGGGAGCCGCAGCAGCTCCCCCTCCCCCACTGCCATAAAACATTAAGAAAATCATATTGCTTCTTCTCCTATGTGTAAGGTGAACCATGTCAGCAAAAAGCAAAATCATTTTATATGTCAAAGCAGGGGAGTATGCAAAAGTTCTGACTTGACTTTAGTCTGCAAAATGAGGAATGTATATGTTTTGTGGGAACAGATGTTTCTTTTGTATGTAAATGTGCATTCTTTTAAAAGACAAGACTTCAGTATGTTGTCAAAGAGAGGGCTTTAATTTTTTTAACCAAAGGTGAAGGAATATATGGCAGAGTTGTAAATATATAAATATATATATATATAAAATAAATATATATAAACCTAAAAAAGATATATTAAAAATATAAAACTGCGTTAAAGGCTCGATTTTGTATCTGCAGGCAGACACGGATCTGAGAATCTTTATTGAGAAAGAGCACTTAAGAGAATATTTTAAGTATTGCATCTGTATAAGTAAGAAAATATTTTGTCTAAAATGCCTCAGTGTATTTGTATTTTTTTGCAAGTGAAGGTTTACAATTTACAAAGTGTGTATTAAAAAAAACAAAAAGAACAAAAAAATCTGCAGAAGGAAAAATGTGTAATTTTGTTCTAGTTTTCAGTTTGTATATACCCGTACAACGTGTCCTCACGGTGCCTTTTTTCACGGAAGTTTTCAATGATGGGCGAGCGTGCACCATCCCTTTTTGAAGTGTAGGCAGACACAGGGACTTGAAGTTGTTACTAACTAAACTCTCTTTGGGAATGTTTGTCTCATCCCATTCTGCGTCATGCTTGTGTTATAACTACTCCGGAGACAGGGTTTGGCTGTGTCTAAACTGCATTACCGCGTTGTAAAATATAGCTGTACAAATATAAGAATAAAATGTTGAAAAGTCAAACTGGAAA
>gi|197116388|ref|NM_001134232.1| Homo sapiens transmembrane protein 106B (TMEM106B), transcript variant 2, mRNA
AGGCGCGGACGCAGGTTACAGCAGCGCTTGGCCTCTGCTGATGCCGTCGTTATCCTACCCCTCCCCCGTCCCAGCTCTACGGCGGCCGCGCGCTCCAGGCCGGTCGCTCCACCCCCCGGCTCCCGGGACTGTGGACTCCACGACCCTGTCCTCGGCCCTGTCCGCGCCGAAGCAGCCCGGGACTGCGCAGCGCCCCGCGTGCCGACATGGGAAAGTCTCTTTCTCATTTGCCTTTGCATTCAAGCAAAGAAGATGCTTATGATGGAGTCACATCTGAAAACATGAGGAATGGACTGGTTAATAGTGAAGTCCATAATGAAGATGGAAGAAATGGAGATGTCTCTCAGTTTCCATATGTGGAATTTACAGGAAGAGATAGTGTCACCTGCCCTACTTGTCAGGGAACAGGAAGAATTCCTAGGGGGCAAGAAAACCAACTGGTGGCATTGATTCCATATAGTGATCAGAGATTAAGGCCAAGAAGAACAAAGCTGTATGTGATGGCTTCTGTGTTTGTCTGTCTACTCCTTTCTGGATTGGCTGTGTTTTTCCTTTTCCCTCGCTCTATCGACGTGAAATACATTGGTGTAAAATCAGCCTATGTCAGTTATGATGTTCAGAAGCGTACAATTTATTTAAATATCACAAACACACTAAATATAACAAACAATAACTATTACTCTGTCGAAGTTGAAAACATCACTGCCCAAGTTCAATTTTCAAAAACAGTTATTGGAAAGGCACGCTTAAACAACATAACCATTATTGGTCCACTTGATATGAAACAAATTGATTACACAGTACCTACCGTTATAGCAGAGGAAATGAGTTATATGTATGATTTCTGTACTCTGATATCCATCAAAGTGCATAACATAGTACTCATGATGCAAGTTACTGTGACAACAACATACTTTGGCCACTCTGAACAGATATCCCAGGAGAGGTATCAGTATGTCGACTGTGGAAGAAACACAACTTATCAGTTGGGGCAGTCTGAATATTTAAATGTACTTCAGCCACAACAGTAAAAACTGGAAGAGATGGATTTAAAGAAGAAATATCTATTGATATTTCCTATACTCTCAATGAAGAGGTATTTCCTAATAGGAGACCTTAAATTGAACAAACCTAAAGTTTACACTTCTAAGAGTACAGTTAAAAGTATGTGGACCTGCAGTTCTTGTAACTCTCCACTCTGTGTTAATGATATATTTGTACTAGGATCTTTTACTTGAATCTAAATTTACTGGTTGATTTCCTTCTCCAGCCTATCCCCTACAGGGAAAAGCTGATACTTCCCCTATAGTACAATAAATAATTATTTAAAAGTCATAGCTCCAGTCACTACTGAAAACATAATTTTGGTGATAAACATAATTTGAGAAACTTAATTTCTGAATGTTTTTATAGAAAATTACTGAAAGTCTATTACTCATGGAAGACTTTTAAAGAATAACCTTTTTTCCTGTTTTATAAATTCCCATTGTTATATGGTAGTATTTCAGCTACACAATATTTTAGCTTTTAGCTAGACATTTATAGCTTTTCATTTGTTGAAATGGTAATCATCTGCATGTTTTTGTCACTTATTTCAGGTTAGTGATTGCCTAACACTTATAAGCCAAAATAATCTTTGCAAAATTCCATACCTAAAATTTTGAAAGCCCCTAATGTTTTCACACATCTTTCTGTATTAGTTATAGTTTTGTGAAATCTTTGTGTGATCTTCAAACATTATCATTTAATGTACAATACTGTAAATAAACTGTGCATGGCTTTTATACAGCTTTAGTAAATGTCAAATAAAGTGGTACAGACTCATTACAACAAGTTTCTCATAAAAATACAATAAATAGGAAAATGAAATTCAGAAACCCATAGACTGGGAATAGGTTCCAGTTACAGCTTGGATCTGGCATAAAATAAATTTGAAATAAAATATTTTGATGCTCCATTTTTTTATGTTGCTTTTCATACTAAAGAATGGTGTAGACATGTTTTGCAACTGTTAGGTACCCAGTTATCAATTTTATCAATGTTTTAGAGGAGGAAATTATTTTTTTGGTAGAAATTGTTCAAGAAATCCTTAATTGAATGTCATTAAATGATGGTGGCCAAAATAAAACCTATTTAGAAATTTAATCACTTTGCACATCACTTGGAATATGATGCCTCTAGTAGTTACTTTTTTATAGTTTTCTACTTTTGGTTTTATTTAAAATTGTTTTCAAATATAGATTATTGACTTATTCAACTTTGCTGTTTTATATTTTCAGTATCATTTTTCATTTTTTTTTTTTTTTGTCTTTTCACTTACCAAGTTCTAGGGACATTTAAAATATGTACTAAGTGTAGGAGTGGTTATGATACCAAAAAATGTAGCTGGGTTGAGATTAATTTCGTTCTGTTTTCTCATGACAGAAATCAGGTTTCCCTTTCCCCACCCCTAAGTGCCTAACTTAGGTCTGAAACAGCCTGTTTATTAGTCTGACTCTCTCAACCATAAAACATAAGCTTTATTTAATTCTGCCTTTAAACACACTCAGGTTTCCCCTTAATTTTCATATTATTTTCTGCAAGTTTTCTTGAGTATCTTCAATTCGTTGAATGTGGTTTTTGGTTTTTTTTTGTTTTAACACTAGTCTTCCCTTAATTCATTGCTAACTCAAGCCATCCTTACTATTAAACCCAAATCAGTCCTTTAAGTTCATTATGGCCTTTCTAGTATTTAAAAAAAAAAAAATCATTTTCATTTTTCTTCTGCTACGTTTCCTGACTACTACTGCATACTTCTCTGATACAGGTTCTGTTTGTATTTTTTATATCATTCTCATTTTCTCATTTGACATGATCTATGTCTATATATGATATAGGTCCCCTTTTGTCTCAAAATTTTTAATTATGTGACTTCAAAAATCACCTGTATCTGTAGTAGGGCTTCCAAATCTGCTTCTCCATATGTGACCAGTCACCTGTCTGCTTTCACATTTAGCTAGTGAACTACACATTTACTAAAATGTGTAAATTTTACACATTTAGTGACTGTGTAAAATAAAAAAAAAGTTATTTTATCATATCCTTTCTATTATGTTCCCATCCTGTCCTCATGTCCCATTTACTTTATTATCACCATTCATTTCTTCAAAATTATCTTTTAGATACGCTCATACAAAAATCAATCCTTGTTTTCTTGCTTGTGTCTTTTAACCTTGGAAAATTACATCGTGTAAATTAAACAGATTTTTCTGATGATCTGTGCTTCTTATATACTATTAGAGTGCATGATAGTATCTCCTGAAAAGGATGGAAAGTAGAAGCATTTGCTTTTAGTCACTTAATTTTGAATCTTTTTTCTTCATCTTTTGAATTAATTTTTTTTATTATATCTACTTTTAGTGGAGTTTGAGTCAGAAAAAAACAAGAATTTGAAACAAGTAAAAAGATAGAAGAGAAATAAAGATGGTATGTGACTACTTTCAGAGAGAGTTAAGTAACTGTCAGAATAAGCCTGGAACAAAACAGGCTGTAAATTAATAAAACTACAAACACACATTCAGGTGAAGCAGAAGTATAGCCATAAAACATCTAGAAAGAGTGAATGAGGCTTTTAGCTTTTCTTAGGTCAATGTCCAGTGTGCTTTTTTCCATGGGAATAGGATAGGTATTAATACGCTTTTCTAAACTGCTCTCAGACCTTATCCAGAGGACATGGTAAAGATATGTTACAGAAATTTTTCTGATACTTCCTGGAATAACTTTAAGTTACACCCTAGTAGACTGGTCATTCTAATAAAATCCAGTACTATAACAAACCTCTGTATGTTGATAGCACATTGGCCCTTTTTAGAGTTCTTTCCTATGTTTTTCTTACGTGATTTCCCACAGTTCCATGAGTCCAACAAAGGAGAGTGATAGGCTCCTTATCTTTTAGAAGAGGAAGGAAAGGCATGAAGAAGTTGAGGGACTGGCTGAAGATCACGTACTTACTAAGTAGTACAACTGGAGCAAGATCAAGTATCTCTGTCTCCCATATCTGTGTTCTATCATTTAAAATATATATTGGAAATCCCTGCTGACTCAGATTGGTATGATTAAAAATGAGAGGAAAGTTCAAATAGTTAGTAGTGACAAACTAATACTGCTGGACTAAGATTTTGGTAGCATTGTTTTCTAAAATATTTTAAATGGAGAATGAACACTTATAAAATGCTTTGGAACATAATCTTTAGCTTAATTTTCTGTTAAAATTTAGTACCCCTTCATCATTCCAATAAAGATAAGACTGATCCATTGTCTAAGGAAATTATTTATAAATAATAGAGATTAATTTATTTGAGATTTGAAATAAGAATAGTATGAAAATATTAGATACCACATAAATTGTTTGAAATTACTGAATAACCATCTTAAGTATGGAACATTTAAATGGCTATATTTTATTTGTGTACAGTTTTTCTGTGCCTTGTTAGGCCAGTGAAGCAATTATTTTCTCTAAGAAAATGACAATAAAATATAACACACTTCAGATTGTCTGATTTACAGTTTGGAAAGGACACCGCAATGTTCAAATAGGTAGGAGACCATCAAAAACACAATTAAAGTAACATATTAGGAGACTTGAAACTTCAGCCTAATAAATCCTTCATGGTTCTTAGCCTTATTATTGTGATATAATTCTAGATATTTTCTTGGAGGGCATGTGCCCAACTCTCCCGCACCCCATTTTGTTTGTCTTTTAAAGTTCTTAGAATAAACAGTTCTTTATATAATAATTATATTTTATTTAAGAAAATAGTTTGTTAGGTACTTTTTAAAAGATGTAAATTTTTAAATTTACAAATACATATGGGTCTTTGATAAGCAATAGGAATTGAATTACAAGTTACTAGGGTTATAAGCAAAAGGTTGCTTACCATAATGTCATTAGGTCACGATTTTTAGCTCACATCTGGAAGCAGCAACTACTTGGCTCAAGTACATATAAGAGTAATTAGTTTTATTCTCTCTTTTTTATAAAATCGGGTTTCAGATGAGATGTTTATCTTAGACTATTTTAGGGAAAAATTTTACATGTTTGAGATGGTGGAGTAAAAAGACTGTTAAACATTTCTTTTAAAAAATTATTTTTACATTACAACAATATATTTATGATGTGTTCAGATCAAAAATTTAACTTCTGTGTCCCAGATCTACTTTCAAAGTGAGATTTTCACTTGTCAGCTTAAATTTCTGACTAGAACTAACATTTGTGTATTTTTGTGCTTAGTCGGAATACAAATTTCACAGTGGATTTTTGAAGTTTGTCCTTAAATTGGATAAAATCAAGTGATTAAAGTTACTAAAGAGATAAAAATGGTAATTTCCATTTTTAAAAGTAATTTGGTTGTGTTTATAGTTATTTGTACAAGTATTTATCACAGACTCTAAATTGAAAAATGTAGTATGATCTATATTTGACCCTAAAAATGTTGGATTAATTTAACAAATATGGCAGATTTTTCATAACTAAGTCTTAAGTCTTCTAAAAGGAAGCTGTTACCCTTCTGTTTTTAATTACATTAATTGAAATGTGTTTTAAGAGATACAATTTCAGCATATTTTATATATTAAAAAACAAAAAAGGATTAGTATTGAGCCAGTGGCCAAAAGGTAATATTACTACCATGTAGACTGTTATAGTTCAAATTGTCCCACTTCACCCAGAATTTTAGAAACTAGAAGTCTGGGAGGTACTATATCAGCTGTAGTTGGGTAATTCCAAGTGCTGATAGTACTATTCATCTTTTTTATTATTGTGTCAGATGAAACAAATGCCAAGTTGCAAAATATGCAGATTTTTATTATATAATGGTTTTAGGCATAAATTATTAACAAGCCATGCCTTATGTGTTTCATCTTATATTTTTCTTTAGAACTAAACTATAACAGATTTTGGAAAATGATTTGACGTGCTTGCTCACTTGATTGACTTGGTCAGATATTTGAATGATGGTATTACCTAGATTCTAATCCTTGATTCTAGTTATATAATAAATAATATAGAATATGAAAATATGTTTGGGCATTTACTGTTTATATTATGTAGTAGCCTCCATCATGACACACTTACTACATTTATGAATTGAGCAGTTCTGTAATTGTAATTATTATTGCTGTTCATGTAACAAAACATGCTTATAATAGCAAACAAATAGAAATGCCCCCAAAATGCTATTTTTTTAATTCAGTTATAACTGTTACTCTTGTAGTTGTGTATGACGCAATAAAATTTGTAAAAAAATTTCAGCATGAAAAATAAAATTTGTATCACTTATGTA
>gi|197116387|ref|NM_018374.3| Homo sapiens transmembrane protein 106B (TMEM106B), transcript variant 1, mRNA
AGGCGCGGACGCAGGTTACAGCAGCGCTTGGCCTCTGCTGATGCCGTCGTTATCCTACCCCTCCCCCGTCCCAGCTCTACGGCGGCCGCGCGCTCCAGGCCGGTCGCTCCACCCCCCGGCTCCCGGGACTGTGGACTCCACGACCCTGTCCTCGGCCCTGTCCGCGCCGAAGCAGCCCGGGACTGCGCAGCGCCCCGCGTGCCGATCTTTTCCTAATTCAGCAGCGATTTAACCAAGAGCCTGGAATATTTTAAGGAGTAATAAGAGACATTTACAAACTATTCTCTCTGAAGCCTGCTACCTGGAGGCATCATCTAGATAATCAGAACCTTGGCTTCCACATCCTCCTCCCTTGTCTTAACTACAAACATTTCTTTCTGCTGACTTCAACTCCTCAGACATGGGAAAGTCTCTTTCTCATTTGCCTTTGCATTCAAGCAAAGAAGATGCTTATGATGGAGTCACATCTGAAAACATGAGGAATGGACTGGTTAATAGTGAAGTCCATAATGAAGATGGAAGAAATGGAGATGTCTCTCAGTTTCCATATGTGGAATTTACAGGAAGAGATAGTGTCACCTGCCCTACTTGTCAGGGAACAGGAAGAATTCCTAGGGGGCAAGAAAACCAACTGGTGGCATTGATTCCATATAGTGATCAGAGATTAAGGCCAAGAAGAACAAAGCTGTATGTGATGGCTTCTGTGTTTGTCTGTCTACTCCTTTCTGGATTGGCTGTGTTTTTCCTTTTCCCTCGCTCTATCGACGTGAAATACATTGGTGTAAAATCAGCCTATGTCAGTTATGATGTTCAGAAGCGTACAATTTATTTAAATATCACAAACACACTAAATATAACAAACAATAACTATTACTCTGTCGAAGTTGAAAACATCACTGCCCAAGTTCAATTTTCAAAAACAGTTATTGGAAAGGCACGCTTAAACAACATAACCATTATTGGTCCACTTGATATGAAACAAATTGATTACACAGTACCTACCGTTATAGCAGAGGAAATGAGTTATATGTATGATTTCTGTACTCTGATATCCATCAAAGTGCATAACATAGTACTCATGATGCAAGTTACTGTGACAACAACATACTTTGGCCACTCTGAACAGATATCCCAGGAGAGGTATCAGTATGTCGACTGTGGAAGAAACACAACTTATCAGTTGGGGCAGTCTGAATATTTAAATGTACTTCAGCCACAACAGTAAAAACTGGAAGAGATGGATTTAAAGAAGAAATATCTATTGATATTTCCTATACTCTCAATGAAGAGGTATTTCCTAATAGGAGACCTTAAATTGAACAAACCTAAAGTTTACACTTCTAAGAGTACAGTTAAAAGTATGTGGACCTGCAGTTCTTGTAACTCTCCACTCTGTGTTAATGATATATTTGTACTAGGATCTTTTACTTGAATCTAAATTTACTGGTTGATTTCCTTCTCCAGCCTATCCCCTACAGGGAAAAGCTGATACTTCCCCTATAGTACAATAAATAATTATTTAAAAGTCATAGCTCCAGTCACTACTGAAAACATAATTTTGGTGATAAACATAATTTGAGAAACTTAATTTCTGAATGTTTTTATAGAAAATTACTGAAAGTCTATTACTCATGGAAGACTTTTAAAGAATAACCTTTTTTCCTGTTTTATAAATTCCCATTGTTATATGGTAGTATTTCAGCTACACAATATTTTAGCTTTTAGCTAGACATTTATAGCTTTTCATTTGTTGAAATGGTAATCATCTGCATGTTTTTGTCACTTATTTCAGGTTAGTGATTGCCTAACACTTATAAGCCAAAATAATCTTTGCAAAATTCCATACCTAAAATTTTGAAAGCCCCTAATGTTTTCACACATCTTTCTGTATTAGTTATAGTTTTGTGAAATCTTTGTGTGATCTTCAAACATTATCATTTAATGTACAATACTGTAAATAAACTGTGCATGGCTTTTATACAGCTTTAGTAAATGTCAAATAAAGTGGTACAGACTCATTACAACAAGTTTCTCATAAAAATACAATAAATAGGAAAATGAAATTCAGAAACCCATAGACTGGGAATAGGTTCCAGTTACAGCTTGGATCTGGCATAAAATAAATTTGAAATAAAATATTTTGATGCTCCATTTTTTTATGTTGCTTTTCATACTAAAGAATGGTGTAGACATGTTTTGCAACTGTTAGGTACCCAGTTATCAATTTTATCAATGTTTTAGAGGAGGAAATTATTTTTTTGGTAGAAATTGTTCAAGAAATCCTTAATTGAATGTCATTAAATGATGGTGGCCAAAATAAAACCTATTTAGAAATTTAATCACTTTGCACATCACTTGGAATATGATGCCTCTAGTAGTTACTTTTTTATAGTTTTCTACTTTTGGTTTTATTTAAAATTGTTTTCAAATATAGATTATTGACTTATTCAACTTTGCTGTTTTATATTTTCAGTATCATTTTTCATTTTTTTTTTTTTTTGTCTTTTCACTTACCAAGTTCTAGGGACATTTAAAATATGTACTAAGTGTAGGAGTGGTTATGATACCAAAAAATGTAGCTGGGTTGAGATTAATTTCGTTCTGTTTTCTCATGACAGAAATCAGGTTTCCCTTTCCCCACCCCTAAGTGCCTAACTTAGGTCTGAAACAGCCTGTTTATTAGTCTGACTCTCTCAACCATAAAACATAAGCTTTATTTAATTCTGCCTTTAAACACACTCAGGTTTCCCCTTAATTTTCATATTATTTTCTGCAAGTTTTCTTGAGTATCTTCAATTCGTTGAATGTGGTTTTTGGTTTTTTTTTGTTTTAACACTAGTCTTCCCTTAATTCATTGCTAACTCAAGCCATCCTTACTATTAAACCCAAATCAGTCCTTTAAGTTCATTATGGCCTTTCTAGTATTTAAAAAAAAAAAAATCATTTTCATTTTTCTTCTGCTACGTTTCCTGACTACTACTGCATACTTCTCTGATACAGGTTCTGTTTGTATTTTTTATATCATTCTCATTTTCTCATTTGACATGATCTATGTCTATATATGATATAGGTCCCCTTTTGTCTCAAAATTTTTAATTATGTGACTTCAAAAATCACCTGTATCTGTAGTAGGGCTTCCAAATCTGCTTCTCCATATGTGACCAGTCACCTGTCTGCTTTCACATTTAGCTAGTGAACTACACATTTACTAAAATGTGTAAATTTTACACATTTAGTGACTGTGTAAAATAAAAAAAAAGTTATTTTATCATATCCTTTCTATTATGTTCCCATCCTGTCCTCATGTCCCATTTACTTTATTATCACCATTCATTTCTTCAAAATTATCTTTTAGATACGCTCATACAAAAATCAATCCTTGTTTTCTTGCTTGTGTCTTTTAACCTTGGAAAATTACATCGTGTAAATTAAACAGATTTTTCTGATGATCTGTGCTTCTTATATACTATTAGAGTGCATGATAGTATCTCCTGAAAAGGATGGAAAGTAGAAGCATTTGCTTTTAGTCACTTAATTTTGAATCTTTTTTCTTCATCTTTTGAATTAATTTTTTTTATTATATCTACTTTTAGTGGAGTTTGAGTCAGAAAAAAACAAGAATTTGAAACAAGTAAAAAGATAGAAGAGAAATAAAGATGGTATGTGACTACTTTCAGAGAGAGTTAAGTAACTGTCAGAATAAGCCTGGAACAAAACAGGCTGTAAATTAATAAAACTACAAACACACATTCAGGTGAAGCAGAAGTATAGCCATAAAACATCTAGAAAGAGTGAATGAGGCTTTTAGCTTTTCTTAGGTCAATGTCCAGTGTGCTTTTTTCCATGGGAATAGGATAGGTATTAATACGCTTTTCTAAACTGCTCTCAGACCTTATCCAGAGGACATGGTAAAGATATGTTACAGAAATTTTTCTGATACTTCCTGGAATAACTTTAAGTTACACCCTAGTAGACTGGTCATTCTAATAAAATCCAGTACTATAACAAACCTCTGTATGTTGATAGCACATTGGCCCTTTTTAGAGTTCTTTCCTATGTTTTTCTTACGTGATTTCCCACAGTTCCATGAGTCCAACAAAGGAGAGTGATAGGCTCCTTATCTTTTAGAAGAGGAAGGAAAGGCATGAAGAAGTTGAGGGACTGGCTGAAGATCACGTACTTACTAAGTAGTACAACTGGAGCAAGATCAAGTATCTCTGTCTCCCATATCTGTGTTCTATCATTTAAAATATATATTGGAAATCCCTGCTGACTCAGATTGGTATGATTAAAAATGAGAGGAAAGTTCAAATAGTTAGTAGTGACAAACTAATACTGCTGGACTAAGATTTTGGTAGCATTGTTTTCTAAAATATTTTAAATGGAGAATGAACACTTATAAAATGCTTTGGAACATAATCTTTAGCTTAATTTTCTGTTAAAATTTAGTACCCCTTCATCATTCCAATAAAGATAAGACTGATCCATTGTCTAAGGAAATTATTTATAAATAATAGAGATTAATTTATTTGAGATTTGAAATAAGAATAGTATGAAAATATTAGATACCACATAAATTGTTTGAAATTACTGAATAACCATCTTAAGTATGGAACATTTAAATGGCTATATTTTATTTGTGTACAGTTTTTCTGTGCCTTGTTAGGCCAGTGAAGCAATTATTTTCTCTAAGAAAATGACAATAAAATATAACACACTTCAGATTGTCTGATTTACAGTTTGGAAAGGACACCGCAATGTTCAAATAGGTAGGAGACCATCAAAAACACAATTAAAGTAACATATTAGGAGACTTGAAACTTCAGCCTAATAAATCCTTCATGGTTCTTAGCCTTATTATTGTGATATAATTCTAGATATTTTCTTGGAGGGCATGTGCCCAACTCTCCCGCACCCCATTTTGTTTGTCTTTTAAAGTTCTTAGAATAAACAGTTCTTTATATAATAATTATATTTTATTTAAGAAAATAGTTTGTTAGGTACTTTTTAAAAGATGTAAATTTTTAAATTTACAAATACATATGGGTCTTTGATAAGCAATAGGAATTGAATTACAAGTTACTAGGGTTATAAGCAAAAGGTTGCTTACCATAATGTCATTAGGTCACGATTTTTAGCTCACATCTGGAAGCAGCAACTACTTGGCTCAAGTACATATAAGAGTAATTAGTTTTATTCTCTCTTTTTTATAAAATCGGGTTTCAGATGAGATGTTTATCTTAGACTATTTTAGGGAAAAATTTTACATGTTTGAGATGGTGGAGTAAAAAGACTGTTAAACATTTCTTTTAAAAAATTATTTTTACATTACAACAATATATTTATGATGTGTTCAGATCAAAAATTTAACTTCTGTGTCCCAGATCTACTTTCAAAGTGAGATTTTCACTTGTCAGCTTAAATTTCTGACTAGAACTAACATTTGTGTATTTTTGTGCTTAGTCGGAATACAAATTTCACAGTGGATTTTTGAAGTTTGTCCTTAAATTGGATAAAATCAAGTGATTAAAGTTACTAAAGAGATAAAAATGGTAATTTCCATTTTTAAAAGTAATTTGGTTGTGTTTATAGTTATTTGTACAAGTATTTATCACAGACTCTAAATTGAAAAATGTAGTATGATCTATATTTGACCCTAAAAATGTTGGATTAATTTAACAAATATGGCAGATTTTTCATAACTAAGTCTTAAGTCTTCTAAAAGGAAGCTGTTACCCTTCTGTTTTTAATTACATTAATTGAAATGTGTTTTAAGAGATACAATTTCAGCATATTTTATATATTAAAAAACAAAAAAGGATTAGTATTGAGCCAGTGGCCAAAAGGTAATATTACTACCATGTAGACTGTTATAGTTCAAATTGTCCCACTTCACCCAGAATTTTAGAAACTAGAAGTCTGGGAGGTACTATATCAGCTGTAGTTGGGTAATTCCAAGTGCTGATAGTACTATTCATCTTTTTTATTATTGTGTCAGATGAAACAAATGCCAAGTTGCAAAATATGCAGATTTTTATTATATAATGGTTTTAGGCATAAATTATTAACAAGCCATGCCTTATGTGTTTCATCTTATATTTTTCTTTAGAACTAAACTATAACAGATTTTGGAAAATGATTTGACGTGCTTGCTCACTTGATTGACTTGGTCAGATATTTGAATGATGGTATTACCTAGATTCTAATCCTTGATTCTAGTTATATAATAAATAATATAGAATATGAAAATATGTTTGGGCATTTACTGTTTATATTATGTAGTAGCCTCCATCATGACACACTTACTACATTTATGAATTGAGCAGTTCTGTAATTGTAATTATTATTGCTGTTCATGTAACAAAACATGCTTATAATAGCAAACAAATAGAAATGCCCCCAAAATGCTATTTTTTTAATTCAGTTATAACTGTTACTCTTGTAGTTGTGTATGACGCAATAAAATTTGTAAAAAAATTTCAGCATGAAAAATAAAATTTGTATCACTTATGTA
>gi|197102727|ref|NM_001040649.2| Homo sapiens acid phosphatase 1 (ACP1), transcript variant 4, mRNA
ACTGCGCAGGCGCGCGGGGCAAGAGGGTGGCAGTGCGCCTGCGCCGCGTCGGCGTGCGGAACGCCGCGGTGTCTCGGCGCCTCTGCGCGCGGGAAGATGGCGGAACAGGCTACCAAGTCCGTGCTGTTTGTGTGTCTGGGTAACATTTGTCGATCACCCATTGCAGAAGCAGTTTTCAGGAAACTTGTAACCGATCAAAACATCTCAGAGAATTGGAGGGTAGACAGCGCGGCAACTTCCGGGTATGAGATAGGGAACCCCCCTGACTACCGAGGGCAGAGCTGCATGAAGAGGCACGGCATTCCCATGAGCCACGTTGCCCGGCAGGTACCGTCCTTGGACTTGAAGTTGTGTGTTTTGTGTTTCAGTGGGTCATTGACAGCGGTGCTGTTTCTGACTGGAACGTGGGCCGGTCCCCAGACCCAAGAGCTGTGAGCTGCCTAAGAAATCATGGCATTCACACAGCCCATAAAGCAAGACAGGTAGACAAGCTCTTGTTCAATTTCTAATATATAGAGTCCAGTAACTTGAGAAGTAGCGAAAGGATTAACCAGACTTGTATATTAATGAATGTGTTTATTTAGGGTGAGCTTAACCAGCTATGGTGTGTCCATTTTGTTTCACTTCTGGTTGCACGGTGTTGAAAGACTTGCCTGAC
>gi|196114950|ref|NM_002835.3| Homo sapiens protein tyrosine phosphatase, non-receptor type 12 (PTPN12), transcript variant 1, mRNA
GGGGAACGAGCTGGGGAAGACGGAGCGGGCTCTGTGCCGGGCGGGCGGGCGGCGGGGGGGCCAGCGACCGCAGCCGGGGGGACGCGGGAGGATGGAGCAAGTGGAGATCCTGAGGAAATTCATCCAGAGGGTCCAGGCCATGAAGAGTCCTGACCACAATGGGGAGGACAACTTCGCCCGGGACTTCATGCGGTTAAGAAGATTGTCTACCAAATATAGAACAGAAAAGATATATCCCACAGCCACTGGAGAAAAAGAAGAAAATGTTAAAAAGAACAGATACAAGGACATACTGCCATTTGATCACAGCCGAGTTAAATTGACATTAAAGACTCCTTCACAAGATTCAGACTATATCAATGCAAATTTTATAAAGGGCGTCTATGGGCCAAAAGCATATGTAGCAACTCAAGGACCTTTAGCAAATACAGTAATAGATTTTTGGAGGATGATATGGGAGTATAATGTTGTGATCATTGTAATGGCCTGCCGAGAATTTGAGATGGGAAGGAAAAAATGTGAGCGCTATTGGCCTTTGTATGGAGAAGACCCCATAACGTTTGCACCATTTAAAATTTCTTGTGAGGATGAACAAGCAAGAACAGACTACTTCATCAGGACACTCTTACTTGAATTTCAAAATGAATCTCGTAGGCTGTATCAGTTTCATTATGTGAACTGGCCAGACCATGATGTTCCTTCATCATTTGATTCTATTCTGGACATGATAAGCTTAATGAGGAAATATCAAGAACATGAAGATGTTCCTATTTGTATTCATTGCAGTGCAGGCTGTGGAAGAACAGGTGCCATTTGTGCCATAGATTATACGTGGAATTTACTAAAAGCTGGGAAAATACCAGAGGAATTTAATGTATTTAATTTAATACAAGAAATGAGAACACAAAGGCATTCTGCAGTACAAACAAAGGAGCAATATGAACTTGTTCATAGAGCTATTGCCCAACTGTTTGAAAAACAGCTACAACTATATGAAATTCATGGAGCTCAGAAAATTGCTGATGGAGTGAATGAAATTAACACTGAAAACATGGTCAGCTCCATAGAGCCTGAAAAACAAGATTCTCCTCCTCCAAAACCACCAAGGACCCGCAGTTGCCTTGTTGAAGGGGATGCTAAAGAAGAAATACTGCAGCCACCGGAACCTCATCCAGTGCCACCCATCTTGACACCTTCTCCCCCTTCAGCTTTTCCAACAGTCACTACTGTGTGGCAGGACAATGATAGATACCATCCAAAGCCAGTGTTGCATATGGTTTCATCAGAACAACATTCAGCAGACCTCAACAGAAACTATAGTAAATCAACAGAACTTCCAGGGAAAAATGAATCAACAATTGAACAGATAGATAAAAAATTGGAACGAAATTTAAGTTTTGAGATTAAGAAGGTCCCTCTCCAAGAGGGACCAAAAAGTTTTGATGGGAACACACTTTTGAATAGGGGACATGCAATTAAAATTAAATCTGCTTCACCTTGTATAGCTGATAAAATCTCTAAGCCACAGGAATTAAGTTCAGATCTAAATGTCGGTGATACTTCCCAGAATTCTTGTGTGGACTGCAGTGTAACACAATCAAACAAAGTTTCAGTTACTCCACCAGAAGAATCCCAGAATTCAGACACACCTCCAAGGCCAGACCGCTTGCCTCTTGATGAGAAAGGACATGTAACGTGGTCATTTCATGGACCTGAAAATGCCATACCCATACCTGATTTATCTGAAGGCAATTCCTCAGATATCAACTATCAAACTAGGAAAACTGTGAGTTTAACACCAAGTCCTACAACACAAGTTGAAACACCTGATCTTGTGGATCATGATAACACTTCACCACTCTTCAGAACACCCCTCAGTTTTACTAATCCACTTCACTCTGATGACTCAGACTCAGATGAAAGAAACTCTGATGGTGCTGTGACCCAGAATAAAACTAATATTTCAACAGCAAGTGCCACAGTTTCTGCTGCCACTAGTACTGAAAGCATTTCTACTAGGAAAGTATTGCCAATGTCCATTGCTAGACATAATATAGCAGGAACAACACATTCAGGTGCTGAAAAAGATGTTGATGTTAGTGAAGATTCACCTCCTCCCCTACCTGAAAGAACTCCTGAATCGTTTGTGTTAGCAAGTGAACATAATACACCTGTAAGATCGGAATGGAGTGAACTTCAAAGTCAGGAACGATCTGAACAAAAAAAGTCTGAAGGCTTGATAACCTCTGAAAATGAGAAATGTGATCATCCAGCGGGAGGTATTCACTATGAAATGTGCATAGAATGTCCACCTACTTTCAGTGACAAGAGAGAACAAATATCAGAAAATCCAACAGAAGCCACAGATATTGGTTTTGGTAATCGATGTGGAAAACCCAAAGGACCAAGAGATCCACCTTCAGAATGGACATGATTCAGGGAGCTAGAAGACACTTTAAGTTATACTGGAAAATTCAGGTGCCACTGAAAGCCAGATTTATAGTATTCCATCTTTAATATGTGGGACTAACAGCAGTGTAGATTGTTACCTTAATATTTTTTGCTGGGACCATCTACCTGCCTTATACTACACTTAGGAAAAAGTATTACATATGGTTTATTTTGAAACTTCAAGTATTATTGCCTTAATGTCTCTTAACCCTGTTACACGCTGCTTGTAGACATGTTAATATAGTAATACCTTTATGATATATTGAGTTTAAGGACTACTCTTTTTCTGTTTTATCATGTATGCATTATTTTGTATATGTACAGGGCAAGTAGGTATATAATTTGATAAAGTTGCAATTGAAATATTATTAACAGAAGATGTAAGAAATTTCTGCATGGTCTAAATCTTTGTGTACTTTATTTGTAAATTATTTGCCCTGGAGTTTTAGAAAATAGTTTCTGAATTTTAAACTTGCTGGATTCATGCAGCCAGCTTTGCAGGTTATCAGAGATCAAAGATTGTAATAATAATTTTGTAAATTGTAAGCAAAAAGTTATTTTTATATTATATACAGTCTAATTGTTCATCCTAATTGTTCCTGTTTTCATCTAGTCAGAGATTCAGTAAGTGCCTTGGAACAATATTGAATTCTCTTAGCTTGTGTGTGTTTCTTTAATATTTGAACTCAAGTGGGATTAGAAGACTATCAAAATACATGTATGTTTCAGGATATTTGACCTGTCATTAAAAAAAACAAACAGTTTTACAGTGCCAAAAAAAAAAAAAAA
>gi|195927024|ref|NM_001130851.1| Homo sapiens cyclin dependent kinase inhibitor 3 (CDKN3), transcript variant 2, mRNA
ACAGAAGGACGAACCAGTGAGCTAAGCTGCGGGGCGCGGGCTCGGCCGGGGCACCGGTGAGTCGCCGGCGCTGCAGAGGGAGGCGGCACTGGTCTCGACGTGGGGCGGCCAGCGATGAAGCCGCCCAGTTCAATACAAACAAGTTGTAAATTTAAAGATGTTAGAAGAAATGTCCAAAAAGATACAGAAGAACTAAAGAGCTGTGGTATACAAGACATATTTGTTTTCTGCACCAGAGGGGAACTGTCAAAATATAGAGTCCCAAACCTTCTGGATCTCTACCAGCAATGTGGAATTATCACCCATCATCATCCAATCGCAGATGGAGGGACTCCTGACATAGCCAGCTGCTGTGAAATAATGGAAGAGCTTACAACCTGCCTTAAAAATTACCGAAAAACCTTAATACACTGCTATGGAGGACTTGGGAGATCTTGTCTTGTAGCTGCTTGTCTCCTACTATACCTGTCTGACACAATATCACCAGAGCAAGCCATAGACAGCCTGCGAGACCTAAGAGGATCCGGGGCAATACAGACCATCAAGCAATACAATTATCTTCATGAGTTTCGGGACAAATTAGCTGCACATCTATCATCAAGAGATTCACAATCAAGATCTGTATCAAGATAAAGGAATTCAAATAGCATATATATGACCATGTCTGAAATGTCAGTTCTCTAGCATAATTTGTATTGAAATGAAACCACCAGTGTTATCAACTTGAATGTAAATGTACATGTGCAGATATTCCTAAAGTTTTATTGACAAAAAAAAAAAAAAAAA
>gi|194578914|ref|NM_006620.3| Homo sapiens HBS1 like translational GTPase (HBS1L), transcript variant 1, mRNA
AGGGAGGCGGACAGTGACCCTGAGGCATTGCCGTCGCGCGGTGCACAGCTAAGACGTCGCGCTTGCGCAGGCGCTCGGCGCAGAGGCCTGCGGGAAGCCAAGATGGCGCATAGGGGTTCTCCAGGCTGCAGTTGGCGCCTTATCAGTATCTAAGCGGAGTGTTTTGGAAGGAGTTAAGGGGCTGTGGCAAACGCCCTCTCCGCCGTCATGGCCCGGCATCGGAATGTTCGAGGCTATAACTACGATGAAGATTTTGAAGATGATGATCTCTACGGCCAGTCTGTAGAGGATGATTATTGTATTTCGCCGTCAACAGCTGCTCAGTTTATTTATTCACGGCGTGACAAACCTTCCGTTGAGCCTGTGGAAGAATATGATTATGAAGATCTGAAAGAATCTTCCAATTCTGTTTCAAACCATCAGCTCAGTGGATTTGATCAAGCTCGTCTTTATTCATGCCTTGATCACATGAGAGAGGTACTTGGAGATGCTGTGCCAGATGAAATATTAATTGAAGCAGTTCTGAAGAACAAGTTTGATGTGCAGAAGGCTTTGTCAGGGGTTCTGGAACAAGATAGAGTGCAGAGTTTGAAGGACAAGAATGAGGCAACAGTATCTACAGGAAAGATAGCAAAAGGAAAACCAGTAGATTCCCAGACATCGCGAAGTGAATCTGAAATTGTGCCAAAAGTTGCTAAAATGACTGTATCTGGAAAGAAGCAAACTATGGGATTTGAAGTGCCTGGAGTATCTTCTGAAGAAAATGGTCATAGTTTCCACACACCTCAAAAAGGACCGCCCATTGAAGATGCCATTGCTTCTTCCGATGTTCTTGAGACTGCTTCTAAATCTGCTAATCCACCCCACACGATTCAAGCATCAGAAGAGCAGAGTTCAACCCCAGCACCGGTGAAAAAGTCTGGCAAGCTGAGGCAGCAAATAGATGTGAAGGCGGAACTGGAGAAGCGGCAAGGAGGGAAGCAGCTACTCAACTTAGTGGTCATTGGTCATGTTGATGCTGGGAAAAGTACTCTGATGGGCCATATGCTTTATCTTCTGGGTAATATAAACAAAAGAACTATGCATAAGTATGAACAGGAGTCTAAAAAGGCTGGCAAAGCTTCGTTTGCATATGCATGGGTCTTGGATGAAACTGGCGAAGAAAGGGAAAGGGGAGTAACCATGGATGTTGGTATGACAAAGTTTGAAACCACAACCAAAGTTATTACATTAATGGATGCTCCAGGCCATAAGGACTTCATTCCAAATATGATTACAGGAGCAGCCCAGGCGGATGTAGCTGTTTTAGTTGTAGATGCCAGCAGGGGAGAGTTTGAAGCTGGATTTGAGACTGGAGGACAAACACGAGAGCATGGACTCTTGGTCCGTTCTCTGGGAGTGACGCAGCTTGCAGTTGCAGTTAATAAAATGGATCAGGTTAATTGGCAACAAGAAAGGTTTCAAGAGATTACTGGAAAACTTGGGCACTTTCTTAAGCAAGCAGGTTTTAAGGAGAGTGATGTAGGTTTTATTCCTACAAGTGGTCTCAGTGGTGAAAATCTAATCACAAGATCTCAGTCAAGTGAACTCACAAAATGGTATAAAGGACTATGTTTATTAGAACAAATTGATTCCTTTAAGCCTCCCCAGCGATCTATTGACAAACCTTTTAGATTATGTGTGTCCGATGTTTTCAAAGATCAAGGATCTGGATTTTGCATAACTGGTAAAATAGAAGCTGGTTATATCCAAACTGGTGACCGACTACTGGCAATGCCTCCTAATGAAACTTGTACCGTGAAAGGAATCACTCTGCATGATGAACCTGTCGACTGGGCGGCAGCAGGCGATCATGTTAGTCTTACTTTGGTTGGGATGGATATCATCAAAATCAATGTTGGCTGCATATTTTGTGGCCCCAAAGTACCCATTAAAGCTTGCACTCGTTTCAGAGCCCGAATCCTCATCTTTAATATTGAAATTCCTATCACTAAAGGATTTCCTGTGCTGTTACACTACCAAACTGTCAGTGAACCCGCCGTTATTAAACGATTGATTAGTGTCTTAAACAAAAGCACGGGTGAAGTCACAAAGAAAAAGCCTAAGTTTTTGACTAAAGGCCAGAATGCATTGGTAGAGCTACAGACACAAAGACCAATAGCTCTTGAGCTATATAAAGACTTTAAAGAGCTGGGGAGGTTCATGCTACGTTACGGTGGTTCTACAATAGCTGCTGGTGTTGTCACTGAGATAAAAGAATGATGGGTCAGAATTTCTACCACGTTTCTGGATACAGTGAAATAGCTAACCTCTGTTTCAAGAATGCAGTTATTAAGTCAAAGGAACAATGTGCAATTGATATGTTTTTAGATGAGAGAGAAAAATTAAAGCTAAAATTAGCTGCAAAGAAGTATTAATAATCACCTCTGCAAAAATTCTAAGTTGCCAACTGGCAAAGAAAGTCTAATGTTAAAAACAACTTTGCCTTTGAAACGTTAATAAATGGATTTACTTTGCTAAGATTTATGGCAAGTGTCAAAAATAGTATCTGAAGATACTGAATCATCATGAAATGAACTCTACTTCTGGCCAAAGCACAATGTATTTGCAGTTTTCTCTTTTGATTCAATTATACTGCACATGTTTTAAGGAAAAGTAACTTAATTGGGTTTTTCAGGCAGTTGATATTTGACCTAAGCTTTTTTTTTTTTTTTTTTTCCAGTTAATGCTAAGAAAAGATTTGGGGAAGGTTATAATAAAAGTATTTTGTGGTGACCATAAGAATGTCCCTCCCCAAACAAGTAAACTTGTGAAAGTTTAATTTGGAATTAGTGGAAGCTGTTCCTTTGAAAGCCAAGATATTATTTAAGTTGTAAAGCCAGCTAATAAAATGCCTTAGTTTGAGCATAATACAAACTGTGTTTTGTTCTTTAGACATTTATGAGATTCTCTGCCACTAACAGTAAATATGATTTAGGGGTTTTGTGGGATCTTTTTCACCTAAGAGTTTCCTAGCTCTGTCACATGAATTCTTTTTTATCCTAATGGCAGATCCAATTTCATCTCATTCATTTTTTTAACCATAACTTGCTTTTCCCATTCTCACTTTTAGAATTATACCTATGATGGCCCTTTCTTTATCTTGCTTACCTTATAGATTATAAGTCCCCTGTGAGTAAGTAAGAGTCATGTTTTTCTTTAAAGTTTCAACAACAAACCCCAAGGTTTATTTATTTAACAACAGGTATTCGTTGAGGTGCCTTCTGGGTGCAAGGAGCTTTAGAGTAGATTTTGACCTCAGCTGAACCTGGAACTCTGATCTGATAGACTGTTTATGATAAGCTTTTTTTTTTATTAGCAGCGTGATTTGTATATCGATGGCTTAACATATACAACAGCATTTCTTCTCCCTGCACCTTTTCGTGAACCTGACATTTTGAACATAAGCAATAACATCTGTATGGTAAAGTAGGCAGATTATACATGTGTTGCTTAGTGAATGATTACCAAGTGAACACACTTGGTATATTGCTTTACCAAAATACATGTGTAGTTGTCACTTCAGATTCACTGAGTTAAGAAAGTTTTATTTAAATATTAATATTAATCAAGAATTTAACAGATATATGTGACAGAAATCTAACTTCAAGTGACTGAAGCAGAAAGAAAAATTTTTGAATGACATAACTGAGAAAATTAGAGGTAGCTCTAGCTTTGATTCCATTTAGATCGAGCAGCTCACACAATGTTAGCAAGGACTCATCTCCACTCTGCCTTCCCTGGTGCTGGTTTTGCTCTCAAACTCTATATAGAACTCTCGGCCGGGCGCGGTGGCTCACACCTGTAATCAAAACACTTTGGGAGGCTGAGTCGGGAGGATAGCGTGAGCCCAGGAGTTTGAGACCAGCTAAGGCAATATAGTGAGACCATGTCTCTACAGAAAAAATTTAAAAACAGATCAGCTGGGTGTGGTGCCACATGCCTGTAGTCCCAGCTTCTCAGGAGGCTGGGGTGGGAAGATCACTTGAGCCCAGGAGGTCGAGGCTGCAGTGAGCCATGATCACATCACTGCAGTCCAGCCTGGGTGACAGAGCAAGACCTGTCACCCTGCCACCCATAAAAAACCTCTTCTGTAATGCCAGGTTCTTGACAAGATGTGATAATTCCACACTTACATCCTCAGATCTCCCATCCAGGGCAAGGACAGACTAAAAGAGCATATCTTCTCCAGAAGTCCTAGAAACATCTCATCATTGACTATGATTGAATTTTATTTATTAATACTTCCCTAGGATATCCTGTGTTTGAGTGTGAAGTTAATATCACACAAAGCATGTAGCTAACAGTTGTGTGAGGGTTGGAAATTCAGGGTGCTGTTAGGAAGGGGAAATGGATTGGGGTTTAAGGTAGGGGGAGTAAAAACAAGAAACCATCCACTCTGTATATTATATAAGACTGTGATCGAATTAAGAATTTTAGTTTACAGTTTAGCATAAACAAATAGTAGTAGAAATGAATGCATTTATTCATTCCTTCCTTCTCCAATAGTGTTTAAGTACAATCTTTTTATTTGCATTTTATTGATGATTGATTGTGGTTGAAAGGAGTGGTGATATTATTTCGAGGATCCACTGTGTAAGAAGACTGTTGGCAGTGGAAGGCTCGAGTTGATTAAGTGACAAAGAGGTAAAGCAGACATGCCCAAGCTTGGTTATGCTCTGATTTCCTACCCTGTTACTTTCATCCATAATTTATAGTACATCCATTTTGTGTCATTTTGCTTCAGGTATTTCTTGTCCTGACTGTCTTCTTTTTTATGATTTTACTGTTTCTTCACACTAATGGCTTTGTCCTCTGACTTTGACTCTTTGTGAGATTCTTCTGAGCAGTTAACCTCTAGGATAATGTGGCTTGAACACATTACAGAACTATGTTTTGACTTGTTAGTATTATTCACACATTCATGACAATTGAGCCTCTCTACTGTGAGAAATGTTTTAGAGGCCAGTTTCTAGGCATAGCTGTTTTTCTCCCATGAGTATGCAAATCAATAGTTTTAACCATTGTTAAAATGCAATCATAGTGACTTCAGAAAATTTGGAAAATACAGAAAATATAGGGAAGAATAAAATTAACCCACAGTTCTGTCACCTAAAGGTAACTGCTGCCAATGTTTTCATGTATTTCTTTTCTGTCTCTCCAATGCATTTTTTTACATAGTTGTGAGCGTTAGCCAAGTTATTTTCATGTTGTTATGTAATCAATATTTTTCAATAGAAGTATTAGAGGTTTTTTTTATTGATATAAAAATAACAATTACAGATCCTGATATATAGAAGTTATTCAAAATTATACAGTTTTCAAAAAATCAAGACAAGTAGGCCCAATACAAACTACTGAATCATCTTCTAATTTCCCTCTAAAATATTTATAGAAATATGTAAGTAGAAAAACATTCATCCTTTCCTCGTCTAATTATGATCCTGCCATATTCCAGGCACAAGAGAAAGCTCTGGGGCTTGAGTCTTAATAGGGCTGATAGTCCAACCAGGGGACAGGGTATCATAAAGAGATAATTCAAAACTTTAAGATTGGAGGGTAGGTGATGGTAGAAAATTCTGCGGCAAACATTTGTTGATGCTCATCATTTGTTGATGTCATCAAAGATCACCAGGGCATAATTATAATCAAAATTAGTTTTATTGATGCTTGCTGCAGCAAGAGAGACTGCACACCACTGGGGTCTATGGGTGCTTCTCAGTGGGAAGGTGTAAGGAGGGGCTTGCTAAGAATTTGAGCACATGTAGCTAATTTTAAGGAGGGCTCAAGTGAGCAAGGGTTTCTTCTGGATTGAGTGCTGTCAGAAAGTGGATTGAGTGCTGTCAGAAAGTGGGAGTGATTTTGCAACTGGGTATCTTAATTTTTATGTTGTGGGTGGGAGGAAAGGAAAGAAGCAACAGTCACCCATGTTAGCCACAAGAAGAGGTTGGCTGTTTATGGTTTGCACAGTGACTTTGTTTTTATCTGTGCTCAGGCATGATTACAGTATCTCATTTTATCCGGATTACAGTGACCTCATCTGATGTTAGAGATTTGAGAATTGTTAAATGTTCAGCAGGAGAACGCCACCGCCTAGTGTGAATGCTAGGTCAGAAGCTGCTTTTTCACACTGAAACCATTTAAGTATGTACAAATAAGTTAATAGTGTAAATGTAGGTGTAAAATACAATGCAAAACAAAATAATGAAGTAAGTGAATTAAATTATTGCACCAAATATGGGGATATGAAATAGGGAAAGAAAAGCATTAAGTTACTTATAGTCCATAAAGGGACTACATTATTTTGTTACTCTGATAATCCCATAAAACAAAGTTTTAAGAATGTTTACAGTAACCATGAATGGAATTAGTGAAACTATTCATATCAATGCAAAAAAAAAAAAAAAAAAAGCAAAGAAACTAAGTCTGTACAGCAAAAGATGGAAAGGAAACAAGAAAATTAAATGAAGACAAAGGTTGTGATTATTACAGTAAATGAAAATAGGTTTTTATCTTTAAAATGTAGACTCAAACTGCAAAGCTAATGATATGCTATCTGCAAAATATTCCTATTTTGTAAATAAATAAAACCATAGATTTAAAGAAGAAAGGGCACAGATGTACTGGGGAGACAAAAATAACTGATCCGTTGGGTGTATACCATGTGCCAAGCAATTTTCATATACTCATTTAACATGACATATCTATAATTATATGAGGCAGATATTATTAACCTCAGTCTATAGATGAGAAGACTAAAGCTCAGAGGGATTGCTAAAAACTAGTAAATAAATTATGGAACCATGATTTGAATTTAGATTTAAGTCTGACTGAGGCATGTTCAGAGACACTACACTGCCTCTCCAGAAATCAGGAGTAGCAATATTAACACTGGACAAAGAATTTAAAGCAAGTAAAAAAAAATTAAGAGAATTTCATATTAATAACAAGTATAATGCACAATAAAACTGTACCAAATGACATAAAAATGCATAATGAAATTTATTAGAAATTAAAAATTAAAGGGCATAGTTACAATTATTGAGGAATTCTCATAGCTCTGCCTTATAGATCATGTAAACAAACAAGGTCATAGAGGACTTAAATAGCAAAGCAGAAAAAAA
>gi|194328728|ref|NM_001130173.1| Homo sapiens MYB proto-oncogene, transcription factor (MYB), transcript variant 1, mRNA
AATATCAACCTGTTTCCTCCTCCTCCTTCTCCTCCTCCTCCGTGACCTCCTCCTCCTCTTTCTCCTGAGAAACTTCGCCCCAGCGGTGCGGAGCGCCGCTGCGCAGCCGGGGAGGGACGCAGGCAGGCGGCGGGCAGCGGGAGGCGGCAGCCCGGTGCGGTCCCCGCGGCTCTCGGCGGAGCCCCGCGCCCGCCGCGCCATGGCCCGAAGACCCCGGCACAGCATATATAGCAGTGACGAGGATGATGAGGACTTTGAGATGTGTGACCATGACTATGATGGGCTGCTTCCCAAGTCTGGAAAGCGTCACTTGGGGAAAACAAGGTGGACCCGGGAAGAGGATGAAAAACTGAAGAAGCTGGTGGAACAGAATGGAACAGATGACTGGAAAGTTATTGCCAATTATCTCCCGAATCGAACAGATGTGCAGTGCCAGCACCGATGGCAGAAAGTACTAAACCCTGAGCTCATCAAGGGTCCTTGGACCAAAGAAGAAGATCAGAGAGTGATAGAGCTTGTACAGAAATACGGTCCGAAACGTTGGTCTGTTATTGCCAAGCACTTAAAGGGGAGAATTGGAAAACAATGTAGGGAGAGGTGGCATAACCACTTGAATCCAGAAGTTAAGAAAACCTCCTGGACAGAAGAGGAAGACAGAATTATTTACCAGGCACACAAGAGACTGGGGAACAGATGGGCAGAAATCGCAAAGCTACTGCCTGGACGAACTGATAATGCTATCAAGAACCACTGGAATTCTACAATGCGTCGGAAGGTCGAACAGGAAGGTTATCTGCAGGAGTCTTCAAAAGCCAGCCAGCCAGCAGTGGCCACAAGCTTCCAGAAGAACAGTCATTTGATGGGTTTTGCTCAGGCTCCGCCTACAGCTCAACTCCCTGCCACTGGCCAGCCCACTGTTAACAACGACTATTCCTATTACCACATTTCTGAAGCACAAAATGTCTCCAGTCATGTTCCATACCCTGTAGCGTTACATGTAAATATAGTCAATGTCCCTCAGCCAGCTGCCGCAGCCATTCAGAGACACTATAATGATGAAGACCCTGAGAAGGAAAAGCGAATAAAGGAATTAGAATTGCTCCTAATGTCAACCGAGAATGAGCTAAAAGGACAGCAGGTGCTACCAACACAGAACCACACATGCAGCTACCCCGGGTGGCACAGCACCACCATTGCCGACCACACCAGACCTCATGGAGACAGTGCACCTGTTTCCTGTTTGGGAGAACACCACTCCACTCCATCTCTGCCAGCGGATCCTGGCTCCCTACCTGAAGAAAGCGCCTCGCCAGCAAGGTGCATGATCGTCCACCAGGGCACCATTCTGGATAATGTTAAGAACCTCTTAGAATTTGCAGAAACACTCCAATTTATAGATTCTGATTCTTCATCATGGTGTGATCTCAGCAGTTTTGAATTCTTTGAAGAAGCAGATTTTTCACCTAGCCAACATCACACAGGCAAAGCCCTACAGCTTCAGCAAAGAGAGGGCAATGGGACTAAACCTGCAGGAGAACCTAGCCCAAGGGTGAACAAACGTATGTTGAGTGAGAGTTCACTTGACCCACCCAAGGTCTTACCTCCTGCAAGGCACAGCACAATTCCACTGGTCATCCTTCGAAAAAAACGGGGCCAGGCCAGCCCCTTAGCCACTGGAGACTGTAGCTCCTTCATATTTGCTGACGTCAGCAGTTCAACTCCCAAGCGTTCCCCTGTCAAAAGCCTACCCTTCTCTCCCTCGCAGTTCTTAAACACTTCCAGTAACCATGAAAACTCAGACTTGGAAATGCCTTCTTTAACTTCCACCCCCCTCATTGGTCACAAATTGACTGTTACAACACCATTTCATAGAGACCAGACTGTGAAAACTCAAAAGGAAAATACTGTTTTTAGAACCCCAGCTATCAAAAGGTCAATCTTAGAAAGCTCTCCAAGAACTCCTACACCATTCAAACATGCACTTGCAGCTCAAGAAATTAAATACGGTCCCCTGAAGATGCTACCTCAGACACCCTCTCATCTAGTAGAAGATCTGCAGGATGTGATCAAACAGGAATCTGATGAATCTGGAATTGTTGCTGAGTTTCAAGAAAATGGACCACCCTTACTGAAGAAAATCAAACAAGAGGTGGAATCTCCAACTGATAAATCAGGAAACTTCTTCTGCTCACACCACTGGGAAGGGGACAGTCTGAATACCCAACTGTTCACGCAGACCTCGCCTGTGGCAGATGCACCGAATATTCTTACAAGCTCCGTTTTAATGGCACCAGCATCAGAAGATGAAGACAATGTTCTCAAAGCATTTACAGTACCTAAAAACAGGTCCCTGGCGAGCCCCTTGCAGCCTTGTAGCAGTACCTGGGAACCTGCATCCTGTGGAAAGATGGAGGAGCAGATGACATCTTCCAGTCAAGCTCGTAAATACGTGAATGCATTCTCAGCCCGGACGCTGGTCATGTGAGACATTTCCAGAAAAGCATTATGGTTTTCAGAACACTTCAAGTTGACTTGGGATATATCATTCCTCAACATGAAACTTTTCATGAATGGGAGAAGAACCTATTTTTGTTGTGGTACAACAGTTGAGAGCAGCACCAAGTGCATTTAGTTGAATGAAGTCTTCTTGGATTTCACCCAACTAAAAGGATTTTTAAAAATAAATAACAGTCTTACCTAAATTATTAGGTAATGAATTGTAGCCAGTTGTTAATATCTTAATGCAGATTTTTTTAAAAAAAACATAAAATGATTTATCTGTATTTTAAAGGATCCAACAGATCAGTATTTTTTCCTGTGATGGGTTTTTTGAAATTTGACACATTAAAAGGTACTCCAGTATTTCACTTTTCTCGATCACTAAACATATGCATATATTTTTAAAAATCAGTAAAAGCATTACTCTAAGTGTAGACTTAATACCATGTGACATTTAATCCAGATTGTAAATGCTCATTTATGGTTAATGACATTGAAGGTACATTTATTGTACCAAACCATTTTATGAGTTTTCTGTTAGCTTGCTTTAAAAATTATTACTGTAAGAAATAGTTTTATAAAAAATTATATTTTTATTCAGTAATTTAATTTTGTAAATGCCAAATGAAAAACGTTTTTTGCTGCTATGGTCTTAGCCTGTAGACATGCTGCTAGTATCAGAGGGGCAGTAGAGCTTGGACAGAAAGAAAAGAAACTTGGTGTTAGGTAATTGACTATGCACTAGTATTTCAGACTTTTTAATTTTATATATATATACATTTTTTTTCCTTCTGCAATACATTTGAAAACTTGTTTGGGAGACTCTGCATTTTTTATTGTGGTTTTTTTGTTATTGTTGGTTTATACAAGCATGCGTTGCACTTCTTTTTTGGGAGATGTGTGTTGTTGATGTTCTATGTTTTGTTTTGAGTGTAGCCTGACTGTTTTATAATTTGGGAGTTCTGCATTTGATCCGCATCCCCTGTGGTTTCTAAGTGTATGGTCTCAGAACTGTTGCATGGATCCTGTGTTTGCAACTGGGGAGACAGAAACTGTGGTTGATAGCCAGTCACTGCCTTAAGAACATTTGATGCAAGATGGCCAGCACTGAACTTTTGAGATATGACGGTGTACTTACTGCCTTGTAGCAAAATAAAGATGTGCCCTTATTTTACCTACAAA
>gi|190341105|ref|NM_052978.4| Homo sapiens tripartite motif containing 9 (TRIM9), transcript variant 2, mRNA
CGGGATGGGGGAGCTCCAGGGCACGGCGTCAGCGGATTCACGGAGAAGGAGAAAAGCCCCACTGCCGTGCAGAAGCCTAGGCCCGGGTGAGACGCCTGCGAAGGCTGCCAGCAGCGGAAGAGAAGGGGCGTCCTCCGTGCTGCGCAGCACTCGCCCGCGGTAGGTGGGCGCGGAGCTCAGAGCTGGGAGCCAAACGCAAACGCTGGCGAGAAGCCCCAGCCCCCTCCGGCAGCCCACTCGCTGCGGGGAGGGGTTTCTCACGCCCCCAGCTCCTGGGAGACTGCACCGGAGGTCGGAAGTAAGCCGGGCGAGGATGAATCATCCCGCCTAACTCCTCCTTCCCGGTCCCCTAGCCTCCGCACGCCGGCCCCCTTCAGAGATCTTGCAGCCGCGAGCGAAGACTGCCCTATCCTCAGACTCTACCGAACCCCCTGTGGCCTGCGGAGACGAGGAGACGGACGGGTCTGGTGGCCAATGAGAGCTTCGATCTCTTGCCCCCCGCCCAATGGGCCGCTGCTCATGGGCCGGGGCGGGACTAGGAGGGCAGGTAGGGGCGGTCCGGGCTGGCGCGCGGCGCGGCGGCTACGCGGCTGCGGCTCACAGAGCTAGCGCCTCTCTGGGTGTCCGTGCCAGTGCTGCGCGGGAAGGCACCACCACCACAGCCGCCGCCGCTGGCCAGGGTGCTGGACAAGACGGGCCCGTCGGCCACCTCGCCAGCTCAGGCACCCGCTGCAGCCGTCGCTGTCTCCTCCCAGACCGGTCCCCATGGAGGAGATGGAAGAGGAGTTGAAATGCCCCGTGTGCGGCTCCTTCTATCGGGAGCCCATCATCCTGCCCTGCTCTCACAATTTGTGTCAGGCGTGCGCCCGCAACATCCTGGTGCAGACCCCAGAGTCTGAATCCCCCCAGAGCCATCGGGCCGCGGGCTCCGGGGTCTCCGACTATGACTATCTGGACCTGGACAAGATGAGCCTATACAGCGAGGCGGACAGCGGCTATGGCTCCTACGGGGGGTTCGCCAGCGCCCCCACTACCCCGTGCCAGAAGTCCCCCAACGGCGTCCGCGTGTTTCCCCCGGCTATGCCGCCACCGGCCACCCACTTGTCACCGGCCCTGGCCCCGGTGCCCCGCAACTCCTGTATCACCTGCCCCCAGTGTCACCGCAGCCTCATCCTGGATGACCGGGGGCTCCGCGGCTTCCCCAAGAATCGCGTACTGGAAGGGGTAATTGACCGCTACCAGCAGAGCAAAGCCGCGGCCCTCAAGTGCCAGCTCTGCGAGAAGGCGCCCAAGGAAGCCACCGTCATGTGCGAACAGTGCGATGTCTTCTACTGCGATCCGTGCCGCCTGCGCTGCCACCCGCCCCGGGGGCCCCTAGCCAAGCACCGCCTGGTGCCCCCGGCCCAGGGTCGTGTGAGCCGGAGGCTGAGCCCACGCAAGGTCTCCACCTGCACAGACCACGAGCTGGAGAACCACAGCATGTACTGCGTGCAATGCAAGATGCCCGTGTGCTACCAGTGCTTGGAGGAGGGCAAACACTCCAGCCACGAAGTCAAGGCTCTGGGGGCCATGTGGAAACTACATAAGAGCCAGCTCTCCCAGGCGCTGAACGGACTGTCAGACAGGGCCAAAGAAGCCAAGGAGTTTCTGGTACAGCTGCGCAACATGGTCCAGCAGATCCAGGAGAACAGTGTGGAGTTTGAAGCCTGTCTGGTGGCCCAATGTGATGCCCTCATCGATGCCCTCAACAGAAGAAAAGCCCAGCTGCTGGCCCGCGTCAACAAGGAGCATGAGCACAAGCTGAAGGTGGTTCGAGATCAGATCTCTCACTGCACAGTGAAATTGCGCCAGACCACAGGTCTCATGGAGTACTGCTTGGAGGTGATTAAGGAAAATGATCCTAGTGGTTTTTTGCAGATTTCTGACGCCCTCATAAGAAGAGTGCACCTGACTGAGGATCAGTGGGGTAAAGGCACACTCACTCCAAGGATGACCACGGACTTTGACTTGAGTCTGGACAACAGCCCTCTGCTGCAATCCATCCACCAGCTGGATTTCGTGCAAGTGAAAGCTTCCTCTCCAGTCCCAGCAACCCCTATCCTACAGCTGGAGGAATGTTGTACCCACAACAACAGCGCTACGTTGTCCTGGAAACAGCCACCTCTGTCCACGGTGCCCGCCGATGGATACATTCTGGAGCTGGATGATGGCAACGGTGGTCAATTCCGGGAGGTGTATGTGGGGAAGGAGACAATGTGCACTGTGGATGGTCTTCACTTCAACAGCACATACAACGCTCGGGTCAAGGCCTTCAACAAAACAGGAGTCAGCCCGTACAGCAAGACCCTGGTCCTCCAAACGTCTGAGGGTAAGGCCCTTCAGCAGTATCCCTCAGAGCGAGAACTGCGTGGCATCTAAAGTGGCTGGCAAGCCCGGAGGTAACCCCACCACTGCCCACATTCCTGAAGTGTTTCCATGACTTGCTCTGCATTCTGCACAGAGCCGCTGTTCCTCTCCTGCCTTTAGAGAGCCTATGGTATGTGGATGTGATCAAACCAAAGATTCCACATCGGCAGTTCCAATGGCTTGGGCCGGCGGCTTCCTTTGATAACAATCTAAATAAGCTGCAGTTGAAGAAGCTGAAAAATGAAGGCCTGAATGTGCCCCTGGTGTGTAAGACAAATGTATCTAGGCTCTAGAGCAGGCTCCCATTCTCCACCGATACACATCATGTGCCAGTTTTGCCCAGATGATTCTAAATTACTCTGTAGTACTTGCTTGTTCTGAGGGTGGGACCTAGGTTCTTTCCAGTCGTGGATTTGTATGACTGAATGTGTTTCAAATGGGTGGTGGGGTGCTAGAGCTGTTTAGAGAGGGCCTGTTGGCTGCTCCTGGCTTACCCACTTAGACTGCCTCCGTTTCATACCCAAAGCGGAGGCCGTCAGCACCAGGATTGAGACTTCCTGTGGGCACCAAACAGGAAGAGACCAGCAACTTCGCATTACCCGCCATTTTCATCTTTGCCAGTCCCTTCAGTCTTGGCTAGGCTACCGAGAGCCACCATACAAGGTTCATCTCTAGAGAATTTTTGCTTCTTAGCTATACTTTAAATATTTTGGTCATCAAAGACAAGTAATGTGTCTCAGATGAGAGGCTTGAATTTGATGGCCAGATATAACCTCTGAGGCTTTTAACATTTTCATTTTAAGAGTAAGCAAGACACATGAAATTAAACCTACAAGGAGGTATTTGTGGCTGGTGCCAAAGCATTCTGACACTTTGGGGTGTCATTTTAATCAAAGAAATCACCCCCCCACCTCACCGGGATTCTCCATAACTTCCCTCTGCAGAACTAATTATGTTGATTTTGTTCAAGTTCAAGATGTTAGCTAAAAGAACTATGGTGGTGTTTTTTTTCCCACTTCCCACAAACCTCAACATGTGCCAGTCACCCTAAAATGCTTCACATGGTTAAAAACAAGCACAATTTTGAATCCTACAGCAAGGATGAAAGGCCCCTAGCCGTGAAAACAGTGCTTTGGGGAGCAGTTGTCAGTCTAAGTGATGCTATTCCAAGAGAAGGATATGCTGAGGGAAAATGCCCACATGACCTGTTCCCATTTGGAGTACAGTGATGTGGTAGCTACAGCTTCCCCCAGAATTATCATTTTAGCACCTTCTCTCAGGGATGACCTATCAGTTTGAGAGCAGTTGCCTCTTTTCTCAAAATACCATACTAACTGCTAAAGCCCTCCAAGAGTCTTTCCTAGATGCAACGCAGAAGGCCCTTGCTGGTGATGGCCTCATTTCCCATGTGTGTACAAGGTGGTTTGATTGAAGAGTGAAGTGCATGCCTGCAGAGCAGAGAGAAATTTGTAGCAATGTTGCTAATATGTGTTATCAGATCTGCGGGAAAACTATTTCTATTCATAATACATCATGGGAATCATACTATTCTGGTAAAAATCAGTTATTAGCATAACAGCCTGAGCACTTATGTCTCTCGTTTCATCCTGCAGGAGGATGTAGCGCCTCAGTTTATTTTAATGTTCATAAGATTATGGTGTCTAATTTAATAAATTACAGGATTGGAACTGCGATCCTTGGTACCACAGTCACAGAACTGGGGGTCATTTTCTAGATGAAACAAACGGAACAAGTTCTCTTCCAACAAAGAAACTGTACTGTAGAAATTAATTTCCTCCATGAATTTTATATATTGTGTACAAATATAAGGTATGTATCTGAATACAAAGAAAAGCCTATCATCATATAGATATCAGTATTCTCTGTTACTGCACAGAAGTAATTTTCTCATGATGAAATAAAGTTCACACACATACTTTCTCCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|190014575|ref|NM_002775.4| Homo sapiens HtrA serine peptidase 1 (HTRA1), mRNA
CAATGGGCTGGGCCGCGCGGCCGCGCGCACTCGCACCCGCTGCCCCCGAGGCCCTCCTGCACTCTCCCCGGCGCCGCTCTCCGGCCCTCGCCCTGTCCGCCGCCACCGCCGCCGCCGCCAGAGTCGCCATGCAGATCCCGCGCGCCGCTCTTCTCCCGCTGCTGCTGCTGCTGCTGGCGGCGCCCGCCTCGGCGCAGCTGTCCCGGGCCGGCCGCTCGGCGCCTTTGGCCGCCGGGTGCCCAGACCGCTGCGAGCCGGCGCGCTGCCCGCCGCAGCCGGAGCACTGCGAGGGCGGCCGGGCCCGGGACGCGTGCGGCTGCTGCGAGGTGTGCGGCGCGCCCGAGGGCGCCGCGTGCGGCCTGCAGGAGGGCCCGTGCGGCGAGGGGCTGCAGTGCGTGGTGCCCTTCGGGGTGCCAGCCTCGGCCACGGTGCGGCGGCGCGCGCAGGCCGGCCTCTGTGTGTGCGCCAGCAGCGAGCCGGTGTGCGGCAGCGACGCCAACACCTACGCCAACCTGTGCCAGCTGCGCGCCGCCAGCCGCCGCTCCGAGAGGCTGCACCGGCCGCCGGTCATCGTCCTGCAGCGCGGAGCCTGCGGCCAAGGGCAGGAAGATCCCAACAGTTTGCGCCATAAATATAACTTTATCGCGGACGTGGTGGAGAAGATCGCCCCTGCCGTGGTTCATATCGAATTGTTTCGCAAGCTTCCGTTTTCTAAACGAGAGGTGCCGGTGGCTAGTGGGTCTGGGTTTATTGTGTCGGAAGATGGACTGATCGTGACAAATGCCCACGTGGTGACCAACAAGCACCGGGTCAAAGTTGAGCTGAAGAACGGTGCCACTTACGAAGCCAAAATCAAGGATGTGGATGAGAAAGCAGACATCGCACTCATCAAAATTGACCACCAGGGCAAGCTGCCTGTCCTGCTGCTTGGCCGCTCCTCAGAGCTGCGGCCGGGAGAGTTCGTGGTCGCCATCGGAAGCCCGTTTTCCCTTCAAAACACAGTCACCACCGGGATCGTGAGCACCACCCAGCGAGGCGGCAAAGAGCTGGGGCTCCGCAACTCAGACATGGACTACATCCAGACCGACGCCATCATCAACTATGGAAACTCGGGAGGCCCGTTAGTAAACCTGGACGGTGAAGTGATTGGAATTAACACTTTGAAAGTGACAGCTGGAATCTCCTTTGCAATCCCATCTGATAAGATTAAAAAGTTCCTCACGGAGTCCCATGACCGACAGGCCAAAGGAAAAGCCATCACCAAGAAGAAGTATATTGGTATCCGAATGATGTCACTCACGTCCAGCAAAGCCAAAGAGCTGAAGGACCGGCACCGGGACTTCCCAGACGTGATCTCAGGAGCGTATATAATTGAAGTAATTCCTGATACCCCAGCAGAAGCTGGTGGTCTCAAGGAAAACGACGTCATAATCAGCATCAATGGACAGTCCGTGGTCTCCGCCAATGATGTCAGCGACGTCATTAAAAGGGAAAGCACCCTGAACATGGTGGTCCGCAGGGGTAATGAAGATATCATGATCACAGTGATTCCCGAAGAAATTGACCCATAGGCAGAGGCATGAGCTGGACTTCATGTTTCCCTCAAAGACTCTCCCGTGGATGACGGATGAGGACTCTGGGCTGCTGGAATAGGACACTCAAGACTTTTGACTGCCATTTTGTTTGTTCAGTGGAGACTCCCTGGCCAACAGAATCCTTCTTGATAGTTTGCAGGCAAAACAAATGTAATGTTGCAGATCCGCAGGCAGAAGCTCTGCCCTTCTGTATCCTATGTATGCAGTGTGCTTTTTCTTGCCAGCTTGGGCCATTCTTGCTTAGACAGTCAGCATTTGTCTCCTCCTTTAACTGAGTCATCATCTTAGTCCAACTAATGCAGTCGATACAATGCGTAGATAGAAGAAGCCCCACGGGAGCCAGGATGGGACTGGTCGTGTTTGTGCTTTTCTCCAAGTCAGCACCCAAAGGTCAATGCACAGAGACCCCGGGTGGGTGAGCGCTGGCTTCTCAAACGGCCGAAGTTGCCTCTTTTAGGAATCTCTTTGGAATTGGGAGCACGATGACTCTGAGTTTGAGCTATTAAAGTACTTCTTACACATTGCAAAAAAAAAAAAAAAAAA
>gi|189095257|ref|NM_000209.3| Homo sapiens pancreatic and duodenal homeobox 1 (PDX1), mRNA
GGGTGGCGCCGGGAGTGGGAACGCCACACAGTGCCAAATCCCCGGCTCCAGCTCCCGACTCCCGGCTCCCGGCTCCCGGCTCCCGGTGCCCAATCCCGGGCCGCAGCCATGAACGGCGAGGAGCAGTACTACGCGGCCACGCAGCTTTACAAGGACCCATGCGCGTTCCAGCGAGGCCCGGCGCCGGAGTTCAGCGCCAGCCCCCCTGCGTGCCTGTACATGGGCCGCCAGCCCCCGCCGCCGCCGCCGCACCCGTTCCCTGGCGCCCTGGGCGCGCTGGAGCAGGGCAGCCCCCCGGACATCTCCCCGTACGAGGTGCCCCCCCTCGCCGACGACCCCGCGGTGGCGCACCTTCACCACCACCTCCCGGCTCAGCTCGCGCTCCCCCACCCGCCCGCCGGGCCCTTCCCGGAGGGAGCCGAGCCGGGCGTCCTGGAGGAGCCCAACCGCGTCCAGCTGCCTTTCCCATGGATGAAGTCTACCAAAGCTCACGCGTGGAAAGGCCAGTGGGCAGGCGGCGCCTACGCTGCGGAGCCGGAGGAGAACAAGCGGACGCGCACGGCCTACACGCGCGCACAGCTGCTAGAGCTGGAGAAGGAGTTCCTATTCAACAAGTACATCTCACGGCCGCGCCGGGTGGAGCTGGCTGTCATGTTGAACTTGACCGAGAGACACATCAAGATCTGGTTCCAAAACCGCCGCATGAAGTGGAAAAAGGAGGAGGACAAGAAGCGCGGCGGCGGGACAGCTGTCGGGGGTGGCGGGGTCGCGGAGCCTGAGCAGGACTGCGCCGTGACCTCCGGCGAGGAGCTTCTGGCGCTGCCGCCGCCGCCGCCCCCCGGAGGTGCTGTGCCGCCCGCTGCCCCCGTTGCCGCCCGAGAGGGCCGCCTGCCGCCTGGCCTTAGCGCGTCGCCACAGCCCTCCAGCGTCGCGCCTCGGCGGCCGCAGGAACCACGATGAGAGGCAGGAGCTGCTCCTGGCTGAGGGGCTTCAACCACTCGCCGAGGAGGAGCAGAGGGCCTAGGAGGACCCCGGGCGTGGACCACCCGCCCTGGCAGTTGAATGGGGCGGCAATTGCGGGGCCCACCTTAGACCGAAGGGGAAAACCCGCTCTCTCAGGCGCATGTGCCAGTTGGGGCCCCGCGGGTAGATGCCGGCAGGCCTTCCGGAAGAAAAAGAGCCATTGGTTTTTGTAGTATTGGGGCCCTCTTTTAGTGATACTGGATTGGCGTTGTTTGTGGCTGTTGCGCACATCCCTGCCCTCCTACAGCACTCCACCTTGGGACCTGTTTAGAGAAGCCGGCTCTTCAAAGACAATGGAAACTGTACCATACACATTGGAAGGCTCCCTAACACACACAGCGGGGAAGCTGGGCCGAGTACCTTAATCTGCCATAAAGCCATTCTTACTCGGGCGACCCCTTTAAGTTTAGAAATAATTGAAAGGAAATGTTTGAGTTTTCAAAGATCCCGTGAAATTGATGCCAGTGGAATACAGTGAGTCCTCCTCTTCCTCCTCCTCCTCTTCCCCCTCCCCTTCCTCCTCCTCCTCTTCTTTTCCCTCCTCTTCCTCTTCCTCCTGCTCTCCTTTCCTCCCCCTCCTCTTTTCCCTCCTCTTCCTCTTCCTCCTGCTCTCCTTTCCTCCCCCTCCTCTTTCTCCTCCTCCTCCTCTTCTTCCCCCTCCTCTCCCTCCTCCTCTTCTTCCCCCTCCTCTCCCTCCTCCTCTTCTTCTCCCTCCTCTTCCTCTTCCTCCTCTTCCACGTGCTCTCCTTTCCTCCCCCTCCTCTTGCTCCCCTTCTTCCCCGTCCTCTTCCTCCTCCTCCTCTTCTTCTCCCTCCTCTTCCTCCTCCTCTTTCTTCCTGACCTCTTTCTTTCTCCTCCTCCTCCTTCTACCTCCCCTTCTCATCCCTCCTCTTCCTCTTCTCTAGCTGCACACTTCACTACTGCACATCTTATAACTTGCACCCCTTTCTTCTGAGGAAGAGAACATCTTGCAAGGCAGGGCGAGCAGCGGCAGGGCTGGCTTAGGAGCAGTGCAAGAGTCCCTGTGCTCCAGTTCCACACTGCTGGCAGGGAAGGCAAGGGGGGACGGGCCTGGATCTGGGGGTGAGGGAGAAAGATGGACCCCTGGGTGACCACTAAACCAAAGATATTCGGAACTTTCTATTTAGGATGTGGACGTAATTCCTGTTCCGAGGTAGAGGCTGTGCTGAAGACAAGCACAGTGGCCTGGTGCGCCTTGGAAACCAACAACTATTCACGAGCCAGTATGACCTTCACATCTTTAGAAATTATGAAAACGTATGTGATTGGAGGGTTTGGAAAACCAGTTATCTTATTTAACATTTTAAAAATTACCTAACAGTTATTTACAAACAGGTCTGTGCATCCCAGGTCTGTCTTCTTTTCAAGGTCTGGGCCTTGTGCTCGGGTTATGTTTGTGGGAAATGCTTAATAAATACTGATAATATGGGAAGAGATGAAAACTGATTCTCCTCACTTTGTTTCAAACCTTTCTGGCAGTGGGATGATTCGAATTCACTTTTAAAATTAAATTAGCGTGTTTTGTTTTG
>gi|188536099|ref|NM_021117.3| Homo sapiens cryptochrome circadian regulator 2 (CRY2), transcript variant 1, mRNA
GTCATAGGTCACTGGGCGGGCTATGGGCGGGGTCCACGTCGCCTACCGGGGCGGAGCGGGGGTGGCTGGAGCAGTCTGGACAGTCATGGCGGCGACTGTGGCGACGGCGGCAGCTGTGGCCCCGGCGCCAGCGCCCGGCACGGACAGCGCCTCTTCGGTGCACTGGTTCCGCAAAGGGCTGCGACTCCACGACAACCCGGCGTTGCTGGCGGCCGTGCGCGGGGCGCGCTGCGTGCGCTGCGTTTACATTCTCGACCCGTGGTTCGCGGCCTCCTCCTCAGTCGGGATCAACCGATGGAGGTTCCTACTTCAGTCTCTGGAAGATTTGGACACAAGTTTAAGGAAACTGAACTCCCGCCTGTTTGTAGTCCGGGGACAGCCAGCCGACGTGTTCCCAAGGCTGTTCAAGGAATGGGGAGTGACCCGCTTGACCTTTGAATATGACTCTGAACCCTTTGGGAAAGAACGGGATGCAGCCATCATGAAGATGGCCAAGGAGGCTGGTGTGGAAGTAGTGACGGAGAATTCTCATACCCTCTATGACCTGGACAGGATCATTGAGCTGAATGGGCAGAAGCCACCCCTTACATACAAGCGCTTTCAGGCCATCATCAGCCGCATGGAGCTGCCCAAGAAGCCAGTGGGCTTGGTGACCAGCCAGCAGATGGAGAGCTGCAGGGCCGAGATCCAGGAGAACCACGACGAGACCTACGGCGTGCCCTCCCTGGAGGAGCTGGGGTTCCCCACTGAAGGACTTGGTCCAGCTGTCTGGCAGGGAGGAGAGACAGAAGCTCTGGCCCGCCTGGATAAGCACTTGGAACGGAAGGCCTGGGTTGCCAACTATGAGAGACCCCGAATGAACGCCAACTCCCTCCTGGCCAGCCCCACAGGCCTCAGCCCCTACCTGCGCTTTGGTTGTCTCTCCTGCCGCCTCTTCTACTACCGCCTGTGGGACCTGTATAAAAAGGTGAAGCGGAACAGCACACCTCCCCTCTCCCTATTTGGGCAACTCCTATGGCGAGAGTTCTTCTACACGGCAGCTACCAACAACCCCAGGTTTGACCGCATGGAGGGGAACCCCATCTGCATCCAGATCCCCTGGGACCGCAATCCTGAGGCCCTGGCCAAGTGGGCTGAGGGCAAGACAGGCTTCCCTTGGATTGATGCCATCATGACCCAACTGAGGCAGGAGGGCTGGATCCACCACCTGGCCCGGCATGCCGTGGCCTGCTTCCTGACCCGCGGGGACCTCTGGGTCAGCTGGGAGAGCGGGGTCCGGGTATTTGATGAGCTGCTCCTGGATGCAGATTTCAGCGTGAACGCAGGCAGCTGGATGTGGCTGTCCTGCAGTGCTTTCTTCCAGCAGTTCTTCCACTGCTACTGCCCTGTGGGCTTTGGCCGTCGCACGGACCCCAGTGGGGACTACATCAGGCGATACCTGCCCAAATTGAAAGCGTTCCCCTCTCGATACATCTATGAGCCCTGGAATGCCCCAGAGTCAATTCAGAAGGCAGCCAAGTGCATCATTGGTGTGGACTACCCACGGCCCATCGTCAACCATGCCGAGACCAGCCGGCTTAACATTGAACGAATGAAGCAGATTTACCAGCAGCTTTCGCGCTACCGGGGACTCTGTCTACTGGCATCTGTCCCTTCCTGTGTGGAAGACCTCAGTCACCCTGTGGCAGAGCCCAGCTCGAGCCAGGCTGGCAGCATGAGCAGTGCAGGCCCAAGACCACTACCCAGTGGCCCAGCATCCCCCAAACGCAAGCTGGAAGCAGCCGAGGAACCACCTGGTGAAGAACTCAGCAAACGGGCCCGGGTGGCAGAGTTGCCAACCCCAGAGCTGCCGAGCAAGGATGCCTGAGACTGCAGAGCCCTTGCTCCGTGAGCAAAGCCTGGGTGCCCAAGCAGCCACCGCAGCAGCAGAGTACAACCTGCAGAGAAGCTGATCACCGGGCAGAGATAGAGCGAGCATGTGTGTGTGTGTGCGCGTGTGCAGAGGAGGGAGTGGTGTGCCTGTTTGTGTGTGCATGCATCTGTTGACACTCATGATTCTGAATGTTGCCTGGGCTGGGGGAGTACCTGTAGCACGCCAGTGCTGTTTCCCGGCCTCCAGACACAAGGCTCGAGGTTATGGCAGTGACTTTCAGCTGAGACCTGTTCCTGCAAGCCAGCTGCCTTGTCTGAACAGAACGTAGTGGTAGGACCCTAGCTGGGATTCTGGCATCTGCCTCCCTAGACCTCCTTCCCTCCCTCCTCACGTCAGGCTGTGGAGCAGGAGCACAGCAGTTCTGGCTGTTGTCCAAAGCATGGGATTCTGGAGGCAGCCAGAGCCCTGCTGAGTTCCTGCTTTCTGACCTGGAGGCTGAGCAGGCCGGAGTGGATGGATGCTGTCCAGACGTAGCCACCTGGCCTCTGTTTCTTATTTTAAAATTCTCTGCTACTGGGCTCAGTCCCAGGCCCTTCCTTGGGCTTCTGGGACTGAGCATGAGGCCATAGACAGATCTAAAAAGTTTCCACCACCCTACAGAAGTACACACAGATACCTGACTGGTGTGGGGTATGCCTGGTACTGTAATAGGAGCCTAAGACAGCACACCTACCTTTTCAGGATTTAGAACCTAAAATTAGAAAGAGAATCCCAGCTGTCATTGTTCCTTCCCCAGAAGCTAAGAGCCAGCCTCAGAGCCTACCCAGGAGCTGTGAAGGGGCAAGGGTCAAACTGACTCACTCTACCAGGAGGAGACCAGGTTGCAGTGGCGTAAGGCCCCCTGGTTTCTCTGGCCACACTCCAAGGCACCACAGTGCTGCCAGTGAGGACAGCTGACACCCAGCCAGGGAAACCATTCTAGTCTTTATTCTGTTGGCTTCCAGGGCCTGTCCTGGACTTGTCAGCATCCAGACTGCCATGTCAGCTATCCCAGTAGCTGAGCTCCAAGGACTCAGGCAGAGGGACTCAGGGATGGGGACTGCCAGGGGCAGTTGGCAAAAGTCCAAGTAGAGATTACACCCAGAACACCATTCCTTCCAGGAGCAGTAGGTGGGAGGTTTGACCCAGAGAAGCCAATCCTTGCATTCCAGGAGTGGCCTGTGCCTCCCACCTCTTCCTTCCCACTGCCAAAGGCCTGTGTTGAGAAAGATGTCATGCAAAAGGACGACGGTGGCCAACTAAAGCAAGTCTTCCTTCCACCCTGTGGCCTGCACTTGAGCCACAAAGTGTGTGTGTGTGTGTGCGTGTGTGGTACGTGTGTGTGTGTGTGGCTATGAGGCTGATTCCTGTTTGGATTTTTGTCCTCACGTGTATCATTAAGCTGGCCTTTGGGCCTTTTCCTTTCTACCTCCCCTGTGACCTTTCCTAGCCTCAGATCTGTTAATTCTTTTGGCCCCAGCCCTGTCCCTCACTGTCCTCTGTCCTTGGACCAGAACCCTGGGGTCAGACCCATCTCCTGTAGCTGTCCATCACACTGACAGGCTTCTTCCTGAGATATCCTCAGGTTTTCTCAGCCAGAGAGCTGCCTTTAGAGTCCAACTGTTGTACGTATGTCACCTTCACTAGAAATGTCCCATCATCGTGGGAGGGGAGCAGGGCACAGGGGATGGTGTGCATTCAGAGCATTGGGTTGGGGGCTTCCCTGTTCCCTCAGCCCCAGTCGAGAGGAAAGAGAATCGGGCCACTGCCAGAAAGAGAGTCAAGCAAACCTGGAAGGGCAAATCTGAGAGTGGGAAGGCCAAAGGCCGAGGCCCAGATTTAGTATTCACTAGCAGCGCCTTCGGGTAGCAGGATGATTCCTTTTCCTGCCTGTCTGCTGCTGGCTCTCTTCCCTAAGGTACAGGTTGGCAGGACCACCTCCGCCTACTTCTCCACCATCCCTAGCATGTCAGCCCGTTCCCAGATCAACCTGCCAGTGGAGTCAGGCAGTGCACTCCTGGAGCCAAGAGGGAAGGGCAGGGTAGAGAGGGTATGTCCAGTAGCCTGGAGCTCCATGGTGGCTTCATGCCTCCCTTCTCCCAGCTCAGGTGGCCCTGAGGGCTCCCTCGGAACAGTGCCTCAAATCCTGACCCAAGGGCCAGCATGGGGAAGAGATGGTTGCAGGCAAAATGCACTTTATAGAGATTTTCTATTGCTGGGAAGGTGTGTTTCTCCCACAATTTGTTTGTGAATATTCACTTGTTTTATAAATGTCTGACCTGTCTTGAGTAA
>gi|187761312|ref|NM_014140.3| Homo sapiens SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1 (SMARCAL1), transcript variant 1, mRNA
ATCATTCTTACTTTTGGAAGCGAAACTGCGGCCGCGTTGCCTGCTGGGAAATGTAGTTCAGCGGTGGCCTAGCCCTTCAGGCCTGGCCGCTACAATAAGGCTGGCGAACTCGCAGCGCTTGAATACCCGTGGCCTAACCGTCCACTCGGAAGACCGGTCCCGCTCGGGAGGCTCTGCAGTCGCGCCTGGGGTCAGGGCCGGGGGCGAATGTGGCTCGCGTTCTAGGCCTCCCTGGGTTGGAAAAAGACTATGTTAGCAAGTGTCACGCCATGCTTTTGCCAACTTTCCAATTAAAGGTTGACATTCCTGCATAAGCATTTCTCTGTGAAAATGTCCTTGCCTCTTACAGAGGAGCAGAGGAAAAAGATTGAAGAGAATCGACAAAAGGCTCTGGCCCGCAGAGCTGAGAAGTTATTGGCAGAACAGCATCAGAGGACTAGCTCGGGCACCTCCATTGCTGGCAACCCATTCCAGGCCAAGCAAGGCCCATCCCAAAATTTCCCAAGGGAGTCTTGTAAGCCAGTGAGCCATGGTGTCATTTTCAAGCAACAGAATCTCAGTAGCTCATCTAATGCTGACCAAAGACCTCATGATTCCCACAGTTTTCAGGCAAAGGGAATATGGAAAAAGCCAGAAGAAATGCCCACAGCCTGCCCAGGCCACAGTCCACGTAGTCAAATGGCTCTCACTGGAATCTCTCCTCCCTTGGCACAAAGTCCTCCAGAGGTCCCTAAACAACAGCTCTTGAGTTATGAGTTAGGTCAAGGTCATGCTCAGGCTTCACCTGAGATCAGGTTCACACCCTTTGCTAACCCAACTCATAAGCCTCTGGCCAAACCAAAGAGTTCCCAAGAGACACCAGCTCATTCCTCTGGACAGCCTCCCAGGGATGCTAAGTTAGAGGCCAAGACAGCAAAAGCCTCCCCTTCGGGGCAGAACATTTCTTACATCCATTCTAGCTCAGAGAGTGTAACGCCCAGGACAGAAGGAAGACTCCAGCAGAAGTCAGGGTCCTCAGTCCAAAAAGGAGTGAACTCTCAGAAGGGAAAGTGCGTAAGGAACGGCGATCGTTTCCAGGTGTTGATTGGGTACAATGCGGAACTCATTGCAGTGTTTAAGACCCTGCCCAGCAAGAATTATGATCCTGACACCAAGACGTGGAACTTCAGCATGAATGACTATAGTGCCCTGATGAAAGCAGCCCAGAGCCTCCCCACGGTCAACCTGCAGCCTCTGGAATGGGCCTATGGCAGCAGCGAGTCACCCTCCACCAGCAGTGAGGGACAGGCCGGCCTTCCATCAGCTCCATCCCTTTCATTTGTCAAAGGGCGATGCATGCTCATCTCCAGGGCCTACTTCGAGGCAGACATCAGTTATTCACAGGACCTTATTGCGCTTTTTAAACAGATGGATTCCAGAAGATATGATGTCAAGACCAGGAAGTGGAGCTTTCTCTTGGAAGAGCACAGTAAACTAATTGCAAAGGTGCGCTGCCTCCCACAAGTTCAGCTGGACCCTCTGCCCACGACTCTCACCCTGGCGTTTGCTTCTCAGCTCAAGAAGACATCTCTCAGTCTCACGCCAGATGTCCCAGAGGCAGACCTTTCTGAAGTGGACCCCAAGCTCGTGTCTAATCTGATGCCCTTTCAGAGAGCTGGAGTCAATTTTGCCATAGCCAAAGGAGGCCGCCTGCTGCTCGCTGACGACATGGGCCTGGGGAAGACCATCCAAGCCATCTGCATCGCAGCCTTTTACCGGAAGGAGTGGCCGCTCCTGGTGGTGGTGCCATCCTCCGTGCGCTTCACCTGGGAGCAGGCCTTCCTTCGGTGGCTGCCATCTCTGAGCCCAGATTGCATCAACGTCGTGGTGACTGGGAAGGACCGCCTGACAGCTGGCCTGATCAACATTGTCAGCTTTGACCTTCTTAGCAAGTTGGAAAAACAGCTAAAAACCCCTTTTAAAGTTGTCATCATTGATGAATCTCACTTCCTCAAAAACAGTAGGACTGCCCGCTGTCGAGCAGCTATGCCGGTCCTAAAGGTTGCCAAGAGGGTGATCCTGTTGTCGGGCACACCAGCCATGTCCCGGCCCGCAGAGCTCTACACGCAGATCATCGCAGTCAAGCCAACTTTCTTCCCCCAGTTTCATGCCTTTGGACTTCGCTACTGTGATGCCAAACGGATGCCTTGGGGGTGGGACTACTCAGGTTCCTCCAACCTGGGAGAGCTGAAGCTCCTGCTGGAGGAAGCAGTCATGCTGCGGCGCCTCAAGTCCGACGTCCTTTCCCAGCTGCCTGCCAAGCAGCGCAAGATAGTGGTGATTGCCCCAGGACGGATCAATGCCAGGACCAGAGCTGCCCTGGATGCTGCAGCCAAGGAAATGACCACCAAGGACAAAACTAAACAGCAGCAGAAAGATGCCCTCATTCTCTTCTTCAACAGAACAGCTGAAGCTAAAATCCCATCTGTCATTGAATATATCTTGGACCTACTGGAAAGTGGAAGAGAGAAGTTTTTAGTATTTGCACACCATAAGGTGGTCCTGGACGCAATTACGCAAGAGCTTGAGAGAAAGCACGTGCAGCACATCCGCATCGATGGCTCCACCTCATCAGCTGAGCGGGAGGACCTGTGCCAGCAGTTCCAACTGTCGGAGAGGCATGCTGTGGCCGTGCTGTCCATCACCGCTGCCAATATGGGCCTCACCTTCTCCTCGGCTGACCTGGTGGTGTTTGCTGAGCTGTTTTGGAACCCAGGGGTGCTGATCCAGGCTGAGGACCGCGTGCACCGCATTGGACAGACCAGCTCCGTGGGCATTCACTACCTCGTGGCAAAGGGCACAGCTGATGACTACCTTTGGCCCCTGATTCAAGAGAAGATTAAAGTTCTGGCAGAAGCCGGGCTTTCTGAGACCAATTTTTCAGAAATGACAGAATCCACTGATTACCTCTACAAGGACCCAAAGCAGCAGAAGATCTACGACCTATTCCAGAAGTCCTTTGAGAAAGAAGGAAGTGATATGGAGCTCCTGGAAGCAGCAGAGTCCTTTGACCCAGGAAGTGCTTCAGGAACATCTGGAAGTAGTTCCCAGAACATGGGAGACACCCTGGATGAAAGCTCATTGACAGCCAGTCCACAGAAGAAAAGGAGATTTGAATTTTTTGATAACTGGGACAGCTTTACGTCTCCCCTGTAAAAGGGGCAAAAAGAAAAAAATAAAAAGCATTTTAAAATCATGGAATTGAAATAAAATAATGTATTTTGTTTTAAAAAAAAAAAAAA
>gi|170295803|ref|NM_001122742.1| Homo sapiens estrogen receptor 1 (ESR1), transcript variant 4, mRNA
ATGGTCATAACAGCCTCCTGTCTACCGACTCAGAACGGATTTTACCAAAACTGAAAATGCAGGCTCCATGCTCAGAAGCTCTTTAACAGGCTCGAAAGGTCCATGCTCCTTTCTCCTGCCCATTCTATAGCATAAGAAGACAGTCTCTGAGTGATAATCTTCTCTTCAAGAAGAAGAAAACTAGGAAGGAGTAAGCACAAAGATCTCTTCACATTCTCCGGGACTGCGGTACCAAATATCAGCACAGCACTTCTTGAAAAAGGATGTAGATTTTAATCTGAACTTTGAACCATCACTGAGGTGGCCCGCCGGTTTCTGAGCCTTCTGCCCTGCGGGGACACGGTCTGCACCCTGCCCGCGGCCACGGACCATGACCATGACCCTCCACACCAAAGCATCTGGGATGGCCCTACTGCATCAGATCCAAGGGAACGAGCTGGAGCCCCTGAACCGTCCGCAGCTCAAGATCCCCCTGGAGCGGCCCCTGGGCGAGGTGTACCTGGACAGCAGCAAGCCCGCCGTGTACAACTACCCCGAGGGCGCCGCCTACGAGTTCAACGCCGCGGCCGCCGCCAACGCGCAGGTCTACGGTCAGACCGGCCTCCCCTACGGCCCCGGGTCTGAGGCTGCGGCGTTCGGCTCCAACGGCCTGGGGGGTTTCCCCCCACTCAACAGCGTGTCTCCGAGCCCGCTGATGCTACTGCACCCGCCGCCGCAGCTGTCGCCTTTCCTGCAGCCCCACGGCCAGCAGGTGCCCTACTACCTGGAGAACGAGCCCAGCGGCTACACGGTGCGCGAGGCCGGCCCGCCGGCATTCTACAGGCCAAATTCAGATAATCGACGCCAGGGTGGCAGAGAAAGATTGGCCAGTACCAATGACAAGGGAAGTATGGCTATGGAATCTGCCAAGGAGACTCGCTACTGTGCAGTGTGCAATGACTATGCTTCAGGCTACCATTATGGAGTCTGGTCCTGTGAGGGCTGCAAGGCCTTCTTCAAGAGAAGTATTCAAGGACATAACGACTATATGTGTCCAGCCACCAACCAGTGCACCATTGATAAAAACAGGAGGAAGAGCTGCCAGGCCTGCCGGCTCCGCAAATGCTACGAAGTGGGAATGATGAAAGGTGGGATACGAAAAGACCGAAGAGGAGGGAGAATGTTGAAACACAAGCGCCAGAGAGATGATGGGGAGGGCAGGGGTGAAGTGGGGTCTGCTGGAGACATGAGAGCTGCCAACCTTTGGCCAAGCCCGCTCATGATCAAACGCTCTAAGAAGAACAGCCTGGCCTTGTCCCTGACGGCCGACCAGATGGTCAGTGCCTTGTTGGATGCTGAGCCCCCCATACTCTATTCCGAGTATGATCCTACCAGACCCTTCAGTGAAGCTTCGATGATGGGCTTACTGACCAACCTGGCAGACAGGGAGCTGGTTCACATGATCAACTGGGCGAAGAGGGTGCCAGGCTTTGTGGATTTGACCCTCCATGATCAGGTCCACCTTCTAGAATGTGCCTGGCTAGAGATCCTGATGATTGGTCTCGTCTGGCGCTCCATGGAGCACCCAGGGAAGCTACTGTTTGCTCCTAACTTGCTCTTGGACAGGAACCAGGGAAAATGTGTAGAGGGCATGGTGGAGATCTTCGACATGCTGCTGGCTACATCATCTCGGTTCCGCATGATGAATCTGCAGGGAGAGGAGTTTGTGTGCCTCAAATCTATTATTTTGCTTAATTCTGGAGTGTACACATTTCTGTCCAGCACCCTGAAGTCTCTGGAAGAGAAGGACCATATCCACCGAGTCCTGGACAAGATCACAGACACTTTGATCCACCTGATGGCCAAGGCAGGCCTGACCCTGCAGCAGCAGCACCAGCGGCTGGCCCAGCTCCTCCTCATCCTCTCCCACATCAGGCACATGAGTAACAAAGGCATGGAGCATCTGTACAGCATGAAGTGCAAGAACGTGGTGCCCCTCTATGACCTGCTGCTGGAGATGCTGGACGCCCACCGCCTACATGCGCCCACTAGCCGTGGAGGGGCATCCGTGGAGGAGACGGACCAAAGCCACTTGGCCACTGCGGGCTCTACTTCATCGCATTCCTTGCAAAAGTATTACATCACGGGGGAGGCAGAGGGTTTCCCTGCCACGGTCTGAGAGCTCCCTGGCTCCCACACGGTTCAGATAATCCCTGCTGCATTTTACCCTCATCATGCACCACTTTAGCCAAATTCTGTCTCCTGCATACACTCCGGCATGCATCCAACACCAATGGCTTTCTAGATGAGTGGCCATTCATTTGCTTGCTCAGTTCTTAGTGGCACATCTTCTGTCTTCTGTTGGGAACAGCCAAAGGGATTCCAAGGCTAAATCTTTGTAACAGCTCTCTTTCCCCCTTGCTATGTTACTAAGCGTGAGGATTCCCGTAGCTCTTCACAGCTGAACTCAGTCTATGGGTTGGGGCTCAGATAACTCTGTGCATTTAAGCTACTTGTAGAGACCCAGGCCTGGAGAGTAGACATTTTGCCTCTGATAAGCACTTTTTAAATGGCTCTAAGAATAAGCCACAGCAAAGAATTTAAAGTGGCTCCTTTAATTGGTGACTTGGAGAAAGCTAGGTCAAGGGTTTATTATAGCACCCTCTTGTATTCCTATGGCAATGCATCCTTTTATGAAAGTGGTACACCTTAAAGCTTTTATATGACTGTAGCAGAGTATCTGGTGATTGTCAATTCATTCCCCCTATAGGAATACAAGGGGCACACAGGGAAGGCAGATCCCCTAGTTGGCAAGACTATTTTAACTTGATACACTGCAGATTCAGATGTGCTGAAAGCTCTGCCTCTGGCTTTCCGGTCATGGGTTCCAGTTAATTCATGCCTCCCATGGACCTATGGAGAGCAGCAAGTTGATCTTAGTTAAGTCTCCCTATATGAGGGATAAGTTCCTGATTTTTGTTTTTATTTTTGTGTTACAAAAGAAAGCCCTCCCTCCCTGAACTTGCAGTAAGGTCAGCTTCAGGACCTGTTCCAGTGGGCACTGTACTTGGATCTTCCCGGCGTGTGTGTGCCTTACACAGGGGTGAACTGTTCACTGTGGTGATGCATGATGAGGGTAAATGGTAGTTGAAAGGAGCAGGGGCCCTGGTGTTGCATTTAGCCCTGGGGCATGGAGCTGAACAGTACTTGTGCAGGATTGTTGTGGCTACTAGAGAACAAGAGGGAAAGTAGGGCAGAAACTGGATACAGTTCTGAGGCACAGCCAGACTTGCTCAGGGTGGCCCTGCCACAGGCTGCAGCTACCTAGGAACATTCCTTGCAGACCCCGCATTGCCCTTTGGGGGTGCCCTGGGATCCCTGGGGTAGTCCAGCTCTTCTTCATTTCCCAGCGTGGCCCTGGTTGGAAGAAGCAGCTGTCACAGCTGCTGTAGACAGCTGTGTTCCTACAATTGGCCCAGCACCCTGGGGCACGGGAGAAGGGTGGGGACCGTTGCTGTCACTACTCAGGCTGACTGGGGCCTGGTCAGATTACGTATGCCCTTGGTGGTTTAGAGATAATCCAAAATCAGGGTTTGGTTTGGGGAAGAAAATCCTCCCCCTTCCTCCCCCGCCCCGTTCCCTACCGCCTCCACTCCTGCCAGCTCATTTCCTTCAATTTCCTTTGACCTATAGGCTAAAAAAGAAAGGCTCATTCCAGCCACAGGGCAGCCTTCCCTGGGCCTTTGCTTCTCTAGCACAATTATGGGTTACTTCCTTTTTCTTAACAAAAAAGAATGTTTGATTTCCTCTGGGTGACCTTATTGTCTGTAATTGAAACCCTATTGAGAGGTGATGTCTGTGTTAGCCAATGACCCAGGTGAGCTGCTCGGGCTTCTCTTGGTATGTCTTGTTTGGAAAAGTGGATTTCATTCATTTCTGATTGTCCAGTTAAGTGATCACCAAAGGACTGAGAATCTGGGAGGGCAAAAAAAAAAAAAAAGTTTTTATGTGCACTTAAATTTGGGGACAATTTTATGTATCTGTGTTAAGGATATGTTTAAGAACATAATTCTTTTGTTGCTGTTTGTTTAAGAAGCACCTTAGTTTGTTTAAGAAGCACCTTATATAGTATAATATATATTTTTTTGAAATTACATTGCTTGTTTATCAGACAATTGAATGTAGTAATTCTGTTCTGGATTTAATTTGACTGGGTTAACATGCAAAAACCAAGGAAAAATATTTAGTTTTTTTTTTTTTTTTTGTATACTTTTCAAGCTACCTTGTCATGTATACAGTCATTTATGCCTAAAGCCTGGTGATTATTCATTTAAATGAAGATCACATTTCATATCAACTTTTGTATCCACAGTAGACAAAATAGCACTAATCCAGATGCCTATTGTTGGATACTGAATGACAGACAATCTTATGTAGCAAAGATTATGCCTGAAAAGGAAAATTATTCAGGGCAGCTAATTTTGCTTTTACCAAAATATCAGTAGTAATATTTTTGGACAGTAGCTAATGGGTCAGTGGGTTCTTTTTAATGTTTATACTTAGATTTTCTTTTAAAAAAATTAAAATAAAACAAAAAAAAATTTCTAGGACTAGACGATGTAATACCAGCTAAAGCCAAACAATTATACAGTGGAAGGTTTTACATTATTCATCCAATGTGTTTCTATTCATGTTAAGATACTACTACATTTGAAGTGGGCAGAGAACATCAGATGATTGAAATGTTCGCCCAGGGGTCTCCAGCAACTTTGGAAATCTCTTTGTATTTTTACTTGAAGTGCCACTAATGGACAGCAGATATTTTCTGGCTGATGTTGGTATTGGGTGTAGGAACATGATTTAAAAAAAAACTCTTGCCTCTGCTTTCCCCCACTCTGAGGCAAGTTAAAATGTAAAAGATGTGATTTATCTGGGGGGCTCAGGTATGGTGGGGAAGTGGATTCAGGAATCTGGGGAATGGCAAATATATTAAGAAGAGTATTGAAAGTATTTGGAGGAAAATGGTTAATTCTGGGTGTGCACCAGGGTTCAGTAGAGTCCACTTCTGCCCTGGAGACCACAAATCAACTAGCTCCATTTACAGCCATTTCTAAAATGGCAGCTTCAGTTCTAGAGAAGAAAGAACAACATCAGCAGTAAAGTCCATGGAATAGCTAGTGGTCTGTGTTTCTTTTCGCCATTGCCTAGCTTGCCGTAATGATTCTATAATGCCATCATGCAGCAATTATGAGAGGCTAGGTCATCCAAAGAGAAGACCCTATCAATGTAGGTTGCAAAATCTAACCCCTAAGGAAGTGCAGTCTTTGATTTGATTTCCCTAGTAACCTTGCAGATATGTTTAACCAAGCCATAGCCCATGCCTTTTGAGGGCTGAACAAATAAGGGACTTACTGATAATTTACTTTTGATCACATTAAGGTGTTCTCACCTTGAAATCTTATACACTGAAATGGCCATTGATTTAGGCCACTGGCTTAGAGTACTCCTTCCCCTGCATGACACTGATTACAAATACTTTCCTATTCATACTTTCCAATTATGAGATGGACTGTGGGTACTGGGAGTGATCACTAACACCATAGTAATGTCTAATATTCACAGGCAGATCTGCTTGGGGAAGCTAGTTATGTGAAAGGCAAATAGAGTCATACAGTAGCTCAAAAGGCAACCATAATTCTCTTTGGTGCAGGTCTTGGGAGCGTGATCTAGATTACACTGCACCATTCCCAAGTTAATCCCCTGAAAACTTACTCTCAACTGGAGCAAATGAACTTTGGTCCCAAATATCCATCTTTTCAGTAGCGTTAATTATGCTCTGTTTCCAACTGCATTTCCTTTCCAATTGAATTAAAGTGTGGCCTCGTTTTTAGTCATTTAAAATTGTTTTCTAAGTAATTGCTGCCTCTATTATGGCACTTCAATTTTGCACTGTCTTTTGAGATTCAAGAAAAATTTCTATTCTTTTTTTTGCATCCAATTGTGCCTGAACTTTTAAAATATGTAAATGCTGCCATGTTCCAAACCCATCGTCAGTGTGTGTGTTTAGAGCTGTGCACCCTAGAAACAACATATTGTCCCATGAGCAGGTGCCTGAGACACAGACCCCTTTGCATTCACAGAGAGGTCATTGGTTATAGAGACTTGAATTAATAAGTGACATTATGCCAGTTTCTGTTCTCTCACAGGTGATAAACAATGCTTTTTGTGCACTACATACTCTTCAGTGTAGAGCTCTTGTTTTATGGGAAAAGGCTCAAATGCCAAATTGTGTTTGATGGATTAATATGCCCTTTTGCCGATGCATACTATTACTGATGTGACTCGGTTTTGTCGCAGCTTTGCTTTGTTTAATGAAACACACTTGTAAACCTCTTTTGCACTTTGAAAAAGAATCCAGCGGGATGCTCGAGCACCTGTAAACAATTTTCTCAACCTATTTGATGTTCAAATAAAGAATTAAACTAAA
>gi|169790920|ref|NM_000230.2| Homo sapiens leptin (LEP), mRNA
GTAGGAATCGCAGCGCCAGCGGTTGCAAGGCCCAAGAAGCCCATCCTGGGAAGGAAAATGCATTGGGGAACCCTGTGCGGATTCTTGTGGCTTTGGCCCTATCTTTTCTATGTCCAAGCTGTGCCCATCCAAAAAGTCCAAGATGACACCAAAACCCTCATCAAGACAATTGTCACCAGGATCAATGACATTTCACACACGCAGTCAGTCTCCTCCAAACAGAAAGTCACCGGTTTGGACTTCATTCCTGGGCTCCACCCCATCCTGACCTTATCCAAGATGGACCAGACACTGGCAGTCTACCAACAGATCCTCACCAGTATGCCTTCCAGAAACGTGATCCAAATATCCAACGACCTGGAGAACCTCCGGGATCTTCTTCACGTGCTGGCCTTCTCTAAGAGCTGCCACTTGCCCTGGGCCAGTGGCCTGGAGACCTTGGACAGCCTGGGGGGTGTCCTGGAAGCTTCAGGCTACTCCACAGAGGTGGTGGCCCTGAGCAGGCTGCAGGGGTCTCTGCAGGACATGCTGTGGCAGCTGGACCTCAGCCCTGGGTGCTGAGGCCTTGAAGGTCACTCTTCCTGCAAGGACTACGTTAAGGGAAGGAACTCTGGCTTCCAGGTATCTCCAGGATTGAAGAGCATTGCATGGACACCCCTTATCCAGGACTCTGTCAATTTCCCTGACTCCTCTAAGCCACTCTTCCAAAGGCATAAGACCCTAAGCCTCCTTTTGCTTGAAACCAAAGATATATACACAGGATCCTATTCTCACCAGGAAGGGGGTCCACCCAGCAAAGAGTGGGCTGCATCTGGGATTCCCACCAAGGTCTTCAGCCATCAACAAGAGTTGTCTTGTCCCCTCTTGACCCATCTCCCCCTCACTGAATGCCTCAATGTGACCAGGGGTGATTTCAGAGAGGGCAGAGGGGTAGGCAGAGCCTTTGGATGACCAGAACAAGGTTCCCTCTGAGAATTCCAAGGAGTTCCATGAAGACCACATCCACACACGCAGGAACTCCCAGCAACACAAGCTGGAAGCACATGTTTATTTATTCTGCATTTTATTCTGGATGGATTTGAAGCAAAGCACCAGCTTCTCCAGGCTCTTTGGGGTCAGCCAGGGCCAGGGGTCTCCCTGGAGTGCAGTTTCCAATCCCATAGATGGGTCTGGCTGAGCTGAACCCATTTTGAGTGACTCGAGGGTTGGGTTCATCTGAGCAAGAGCTGGCAAAGGTGGCTCTCCAGTTAGTTCTCTCGTAACTGGTTTCATTTCTACTGTGACTGATGTTACATCACAGTGTTTGCAATGGTGTTGCCCTGAGTGGATCTCCAAGGACCAGGTTATTTTAAAAAGATTTGTTTTGTCAAGTGTCATATGTAGGTGTCTGCACCCAGGGGTGGGGAATGTTTGGGCAGAAGGGAGAAGGATCTAGAATGTGTTTTCTGAATAACATTTGTGTGGTGGGTTCTTTGGAAGGAGTGAGATCATTTTCTTATCTTCTGCAATTGCTTAGGATGTTTTTCATGAAAATAGCTCTTTCAGGGGGGTTGTGAGGCCTGGCCAGGCACCCCCTGGAGAGAAGTTTCTGGCCCTGGCTGACCCCAAAGAGCCTGGAGAAGCTGATGCTTTGCTTCAAATCCATCCAGAATAAAACGCAAAGGGCTGAAAGCCATTTGTTGGGGCAGTGGTAAGCTCTGGCTTTCTCCGACTGCTAGGGAGTGGTCTTTCCTATCATGGAGTGACGGTCCCACACTGGTGACTGCGATCTTCAGAGCAGGGGTCCTTGGTGTGACCCTCTGAATGGTCCAGGGTTGATCACACTCTGGGTTTATTACATGGCAGTGTTCCTATTTGGGGCTTGCATGCCAAATTGTAGTTCTTGTCTGATTGGCTCACCCAAGCAAGGCCAAAATTACCAAAAATCTTGGGGGGTTTTTACTCCAGTGGTGAAGAAAACTCCTTTAGCAGGTGGTCCTGAGACCTGACAAGCACTGCTAGGCGAGTGCCAGGACTCCCCAGGCCAGGCCACCAGGATGGCCCTTCCCACTGGAGGTCACATTCAGGAAGATGAAAGAGGAGGTTTGGGGTCTGCCACCATCCTGCTGCTGTGTTTTTGCTATCACACAGTGGGTGGTGGATCTGTCCAAGGAAACTTGAATCAAAGCAGTTAACTTTAAGACTGAGCACCTGCTTCATGCTCAGCCCTGACTGGTGCTATAGGCTGGAGAAGCTCACCCAATAAACATTAAGATTGAGGCCTGCCCTCAGGGATCTTGCATTCCCAGTGGTCAAACCGCACTCACCCATGTGCCAAGGTGGGGTATTTACCACAGCAGCTGAACAGCCAAATGCATGGTGCAGTTGACAGCAGGTGGGAAATGGTATGAGCTGAGGGGGGCCGTGCCCAGGGGCCCACAGGGAACCCTGCTTGCACTTTGTAACATGTTTACTTTTCAGGGCATCTTAGCTTCTATTATAGCCACATCCCTTTGAAACAAGATAACTGAGAATTTAAAAATAAGAAAATACATAAGACCATAACAGCCAACAGGTGGCAGGACCAGGACTATAGCCCAGGTCCTCTGATACCCAGAGCATTACGTGAGCCAGGTAATGAGGGACTGGAACCAGGGAGACCGAGCGCTTTCTGGAAAAGAGGAGTTTCGAGGTAGAGTTTGAAGGAGGTGAGGGATGTGAATTGCCTGCAGAGAGAAGCCTGTTTTGTTGGAAGGTTTGGTGTGTGGAGATGCAGAGGTAAAAGTGTGAGCAGTGAGTTACAGCGAGAGGCAGAGAAAGAAGAGACAGGAGGGCAAGGGCCATGCTGAAGGGACCTTGAAGGGTAAAGAAGTTTGATATTAAAGGAGTTAAGAGTAGCAAGTTCTAGAGAAGAGGCTGGTGCTGTGGCCAGGGTGAGAGCTGCTCTGGAAAATGTGACCCAGATCCTCACAACCACCTAATCAGGCTGAGGTGTCTTAAGCCTTTTGCTCACAAAACCTGGCACAATGGCTAATTCCCAGAGTGTGAAACTTCCTAAGTATAAATGGTTGTCTGTTTTTGTAACTTAAAAAAAAAAAAAAAAGTTTGGCCGGGTGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGGGGATCACAAGGTCACTAGATGGCGAGCATCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAACACAAAAGTTAGCTGAGCGTGGTGGCGGGCGCCTGTAGTCCCAGCCACTCGGGAGGCTGAGACAGGAGAATCGCTTAAACCTGGGAGGCGGAGAGTACAGTGAGCCAAGATCGCGCCACTGCACTCCGGCCTGATGACAGAGCGAGATTCCGTCTTAAAAAAAAAAAAAAAAAAGTTTGTTTTTAAAAAAATCTAAATAAAATAACTTTGCCCCCTGCAAAAAAAAAAAAAAAAA
>gi|167466197|ref|NM_000201.2| Homo sapiens intercellular adhesion molecule 1 (ICAM1), mRNA
CAAGCTTAGCCTGGCCGGGAAACGGGAGGCGTGGAGGCCGGGAGCAGCCCCCGGGGTCATCGCCCTGCCACCGCCGCCCGATTGCTTTAGCTTGGAAATTCCGGAGCTGAAGCGGCCAGCGAGGGAGGATGACCCTCTCGGCCCGGGCACCCTGTCAGTCCGGAAATAACTGCAGCATTTGTTCCGGAGGGGAAGGCGCGAGGTTTCCGGGAAAGCAGCACCGCCCCTTGGCCCCCAGGTGGCTAGCGCTATAAAGGATCACGCGCCCCAGTCGACGCTGAGCTCCTCTGCTACTCAGAGTTGCAACCTCAGCCTCGCTATGGCTCCCAGCAGCCCCCGGCCCGCGCTGCCCGCACTCCTGGTCCTGCTCGGGGCTCTGTTCCCAGGACCTGGCAATGCCCAGACATCTGTGTCCCCCTCAAAAGTCATCCTGCCCCGGGGAGGCTCCGTGCTGGTGACATGCAGCACCTCCTGTGACCAGCCCAAGTTGTTGGGCATAGAGACCCCGTTGCCTAAAAAGGAGTTGCTCCTGCCTGGGAACAACCGGAAGGTGTATGAACTGAGCAATGTGCAAGAAGATAGCCAACCAATGTGCTATTCAAACTGCCCTGATGGGCAGTCAACAGCTAAAACCTTCCTCACCGTGTACTGGACTCCAGAACGGGTGGAACTGGCACCCCTCCCCTCTTGGCAGCCAGTGGGCAAGAACCTTACCCTACGCTGCCAGGTGGAGGGTGGGGCACCCCGGGCCAACCTCACCGTGGTGCTGCTCCGTGGGGAGAAGGAGCTGAAACGGGAGCCAGCTGTGGGGGAGCCCGCTGAGGTCACGACCACGGTGCTGGTGAGGAGAGATCACCATGGAGCCAATTTCTCGTGCCGCACTGAACTGGACCTGCGGCCCCAAGGGCTGGAGCTGTTTGAGAACACCTCGGCCCCCTACCAGCTCCAGACCTTTGTCCTGCCAGCGACTCCCCCACAACTTGTCAGCCCCCGGGTCCTAGAGGTGGACACGCAGGGGACCGTGGTCTGTTCCCTGGACGGGCTGTTCCCAGTCTCGGAGGCCCAGGTCCACCTGGCACTGGGGGACCAGAGGTTGAACCCCACAGTCACCTATGGCAACGACTCCTTCTCGGCCAAGGCCTCAGTCAGTGTGACCGCAGAGGACGAGGGCACCCAGCGGCTGACGTGTGCAGTAATACTGGGGAACCAGAGCCAGGAGACACTGCAGACAGTGACCATCTACAGCTTTCCGGCGCCCAACGTGATTCTGACGAAGCCAGAGGTCTCAGAAGGGACCGAGGTGACAGTGAAGTGTGAGGCCCACCCTAGAGCCAAGGTGACGCTGAATGGGGTTCCAGCCCAGCCACTGGGCCCGAGGGCCCAGCTCCTGCTGAAGGCCACCCCAGAGGACAACGGGCGCAGCTTCTCCTGCTCTGCAACCCTGGAGGTGGCCGGCCAGCTTATACACAAGAACCAGACCCGGGAGCTTCGTGTCCTGTATGGCCCCCGACTGGACGAGAGGGATTGTCCGGGAAACTGGACGTGGCCAGAAAATTCCCAGCAGACTCCAATGTGCCAGGCTTGGGGGAACCCATTGCCCGAGCTCAAGTGTCTAAAGGATGGCACTTTCCCACTGCCCATCGGGGAATCAGTGACTGTCACTCGAGATCTTGAGGGCACCTACCTCTGTCGGGCCAGGAGCACTCAAGGGGAGGTCACCCGCAAGGTGACCGTGAATGTGCTCTCCCCCCGGTATGAGATTGTCATCATCACTGTGGTAGCAGCCGCAGTCATAATGGGCACTGCAGGCCTCAGCACGTACCTCTATAACCGCCAGCGGAAGATCAAGAAATACAGACTACAACAGGCCCAAAAAGGGACCCCCATGAAACCGAACACACAAGCCACGCCTCCCTGAACCTATCCCGGGACAGGGCCTCTTCCTCGGCCTTCCCATATTGGTGGCAGTGGTGCCACACTGAACAGAGTGGAAGACATATGCCATGCAGCTACACCTACCGGCCCTGGGACGCCGGAGGACAGGGCATTGTCCTCAGTCAGATACAACAGCATTTGGGGCCATGGTACCTGCACACCTAAAACACTAGGCCACGCATCTGATCTGTAGTCACATGACTAAGCCAAGAGGAAGGAGCAAGACTCAAGACATGATTGATGGATGTTAAAGTCTAGCCTGATGAGAGGGGAAGTGGTGGGGGAGACATAGCCCCACCATGAGGACATACAACTGGGAAATACTGAAACTTGCTGCCTATTGGGTATGCTGAGGCCCCACAGACTTACAGAAGAAGTGGCCCTCCATAGACATGTGTAGCATCAAAACACAAAGGCCCACACTTCCTGACGGATGCCAGCTTGGGCACTGCTGTCTACTGACCCCAACCCTTGATGATATGTATTTATTCATTTGTTATTTTACCAGCTATTTATTGAGTGTCTTTTATGTAGGCTAAATGAACATAGGTCTCTGGCCTCACGGAGCTCCCAGTCCTAATCACATTCAAGGTCACCAGGTACAGTTGTACAGGTTGTACACTGCAGGAGAGTGCCTGGCAAAAAGATCAAATGGGGCTGGGACTTCTCATTGGCCAACCTGCCTTTCCCCAGAAGGAGTGATTTTTCTATCGGCACAAAAGCACTATATGGACTGGTAATGGTTACAGGTTCAGAGATTACCCAGTGAGGCCTTATTCCTCCCTTCCCCCCAAAACTGACACCTTTGTTAGCCACCTCCCCACCCACATACATTTCTGCCAGTGTTCACAATGACACTCAGCGGTCATGTCTGGACATGAGTGCCCAGGGAATATGCCCAAGCTATGCCTTGTCCTCTTGTCCTGTTTGCATTTCACTGGGAGCTTGCACTATGCAGCTCCAGTTTCCTGCAGTGATCAGGGTCCTGCAAGCAGTGGGGAAGGGGGCCAAGGTATTGGAGGACTCCCTCCCAGCTTTGGAAGCCTCATCCGCGTGTGTGTGTGTGTGTATGTGTAGACAAGCTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGTGCAATCATGGTTCACTGCAGTCTTGACCTTTTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGGGACCATAGGCTCACAACACCACACCTGGCAAATTTGATTTTTTTTTTTTTTCCAGAGACGGGGTCTCGCAACATTGCCCAGACTTCCTTTGTGTTAGTTAATAAAGCTTTCTCAACTGCCAAA
>gi|163854302|ref|NM_000397.3| Homo sapiens cytochrome b-245 beta chain (CYBB), mRNA
ATTGGAAGAAGAAGCATAGTATAGAAGAAAGGCAAACACAACACATTCAACCTCTGCCACCATGGGGAACTGGGCTGTGAATGAGGGGCTCTCCATTTTTGTCATTCTGGTTTGGCTGGGGTTGAACGTCTTCCTCTTTGTCTGGTATTACCGGGTTTATGATATTCCACCTAAGTTCTTTTACACAAGAAAACTTCTTGGGTCAGCACTGGCACTGGCCAGGGCCCCTGCAGCCTGCCTGAATTTCAACTGCATGCTGATTCTCTTGCCAGTCTGTCGAAATCTGCTGTCCTTCCTCAGGGGTTCCAGTGCGTGCTGCTCAACAAGAGTTCGAAGACAACTGGACAGGAATCTCACCTTTCATAAAATGGTGGCATGGATGATTGCACTTCACTCTGCGATTCACACCATTGCACATCTATTTAATGTGGAATGGTGTGTGAATGCCCGAGTCAATAATTCTGATCCTTATTCAGTAGCACTCTCTGAACTTGGAGACAGGCAAAATGAAAGTTATCTCAATTTTGCTCGAAAGAGAATAAAGAACCCTGAAGGAGGCCTGTACCTGGCTGTGACCCTGTTGGCAGGCATCACTGGAGTTGTCATCACGCTGTGCCTCATATTAATTATCACTTCCTCCACCAAAACCATCCGGAGGTCTTACTTTGAAGTCTTTTGGTACACACATCATCTCTTTGTGATCTTCTTCATTGGCCTTGCCATCCATGGAGCTGAACGAATTGTACGTGGGCAGACCGCAGAGAGTTTGGCTGTGCATAATATAACAGTTTGTGAACAAAAAATCTCAGAATGGGGAAAAATAAAGGAATGCCCAATCCCTCAGTTTGCTGGAAACCCTCCTATGACTTGGAAATGGATAGTGGGTCCCATGTTTCTGTATCTCTGTGAGAGGTTGGTGCGGTTTTGGCGATCTCAACAGAAGGTGGTCATCACCAAGGTGGTCACTCACCCTTTCAAAACCATCGAGCTACAGATGAAGAAGAAGGGGTTCAAAATGGAAGTGGGACAATACATTTTTGTCAAGTGCCCAAAGGTGTCCAAGCTGGAGTGGCACCCTTTTACACTGACATCCGCCCCTGAGGAAGACTTCTTTAGTATCCATATCCGCATCGTTGGGGACTGGACAGAGGGGCTGTTCAATGCTTGTGGCTGTGATAAGCAGGAGTTTCAAGATGCGTGGAAACTACCTAAGATAGCGGTTGATGGGCCCTTTGGCACTGCCAGTGAAGATGTGTTCAGCTATGAGGTGGTGATGTTAGTGGGAGCAGGGATTGGGGTCACACCCTTCGCATCCATTCTCAAGTCAGTCTGGTACAAATATTGCAATAACGCCACCAATCTGAAGCTCAAAAAGATCTACTTCTACTGGCTGTGCCGGGACACACATGCCTTTGAGTGGTTTGCAGATCTGCTGCAACTGCTGGAGAGCCAGATGCAGGAAAGGAACAATGCCGGCTTCCTCAGCTACAACATCTACCTCACTGGCTGGGATGAGTCTCAGGCCAATCACTTTGCTGTGCACCATGATGAGGAGAAAGATGTGATCACAGGCCTGAAACAAAAGACTTTGTATGGACGGCCCAACTGGGATAATGAATTCAAGACAATTGCAAGTCAACACCCTAATACCAGAATAGGAGTTTTCCTCTGTGGACCTGAAGCCTTGGCTGAAACCCTGAGTAAACAAAGCATCTCCAACTCTGAGTCTGGCCCTCGGGGAGTGCATTTCATTTTCAACAAGGAAAACTTCTAACTTGTCTCTTCCATGAGGAAATAAATGTGGGTTGTGCTGCCAAATGCTCAAATAATGCTAATTGATAATATAAATACCCCCTGCTTAAAAATGGACAAAAAGAAACTATAATGTAATGGTTTTCCCTTAAAGGAATGTCAAAGATTGTTTGATAGTGATAAGTTACATTTATGTGGAGCTCTATGGTTTTGAGAGCACTTTTACAAACATTATTTCATTTTTTTCCTCTCAGTAATGTCAGTGGAAGTTAGGGAAAAGATTCTTGGACTCAATTTTAGAATCAAAAGGGAAAGGATCAAAAGGTTCAGTAACTTCCCTAAGATTATGAAACTGTGACCAGATCTAGCCCATCTTACTCCAGGTTTGATACTCTTTCCACAATACTGAGCTGCCTCAGAATCCTCAAAATCAGTTTTTATATTCCCCAAAAGAAGAAGGAAACCAAGGAGTAGCTATATATTTCTACTTTGTGTCATTTTTGCCATCATTATTATCATACTGAAGGAAATTTTCCAGATCATTAGGACATAATACATGTTGAGAGTGTCTCAACACTTATTAGTGACAGTATTGACATCTGAGCATACTCCAGTTTACTAATACAGCAGGGTAACTGGGCCAGATGTTCTTTCTACAGAAGAATATTGGATTGATTGGAGTTAATGTAATACTCATCATTTACCACTGTGCTTGGCAGAGAGCGGATACTCAAGTAAGTTTTGTTAAATGAATGAATGAATTTAGAACCACACAATGCCAAGATAGAATTAATTTAAAGCCTTAAACAAAATTTATCTAAAGAAATAACTTCTATTACTGTCATAGACCAAAGGAATCTGATTCTCCCTAGGGTCAAGAACAGGCTAAGGATACTAACCAATAGGATTGCCTGAAGGGTTCTGCACATTCTTATTTGAAGCATGAAAAAAGAGGGTTGGAGGTGGAGAATTAACCTCCTGCCATGACTCTGGCTCATCTAGTCCTGCTCCTTGTGCTATAAAATAAATGCAGACTAATTTCCTGCCCAAAGTGGTCTTCTCCAGCTAGCCCTTATGAATATTGAACTTAGGAATTGTGACAAATATGTATCTGATATGGTCATTTGTTTTAAATAACACCCACCCCTTATTTTCCGTAAATACACACACAAAATGGATCGCATCTGTGTGACTAATGGTTTATTTGTATTATATCATCATCATCATCCTAAAATTAACAACCCAGAAACAAAAATCTCTATACAGAGATCAAATTCACACTCAATAGTATGTTCTGAATATATGTTCAAGAGAGAGTCTCTAAATCACTGTTAGTGTGGCCAAGAGCAGGGTTTTCTTTTTGTTCTTAGAACTGCTCCCATTTCTGGGAACTAAAACCAGTTTTATTTGCCCCACCCCTTGGAGCCACAAATGTTTAGAACTCTTCAACTTCGGTAATGAGGAAGAAGGAGAAAGAGCTGGGGGAAGGGCAGAAGACTGGTTTAGGAGGAAAAGGAAATAAGGAGAAAAGAGAATGGGAGAGTGAGAGAAAATAAAAAAGGCAAAAGGGAGAGAGAGGGGAAGGGGGTCTCATATTGGTCATTCCCTGCCCCAGATTTCTTAAAGTTTGATATGTATAGAATATAATTGAAGGAGGTATACACATATTGATGTTGTTTTGATTATCTATGGTATTGAATCTTTTAAAATCTGGTCACAAATTTTGATGCTGAGGGGGATTATTCAAGGGACTAGGATGAACTAAATAAGAACTCAGTTGTTCTTTGTCATACTACTATTCCTTTCGTCTCCCAGAATCCTCAGGGCACTGAGGGTAGGTCTGACAAATAAGGCCTGCTGTGCGAATATAGCCTTTCTGAAATGTACCAGGATGGTTTCTGCTTAGAGACACTTAGGTCCAGCCTGTTCACACTGCACCTCAGGTATCAATTCATCTATTCAACAGATATTTATTGTGTTATTACTATGAGTCAGGCTCTGTTTATTGTTTCAATTCTTTACACCAAAGTATGAACTGGAGAGGGTACCTCAGTTATAAGGAGTCTGAGAATATTGGCCCTTTCTAACCTATGTGCATAATTAAAACCAGCTTCATTTGTTGCTCCGAGAGTGTTTCTCCAAGGTTTTCTATCTTCAAAACCAACTAAGTTATGAAAGTAGAGAGATCTGCCCTGTGTTATCCAGTTATGAGATAAAAAATGAATATAAGAGTGCTTGTCATTATAAAAGTTTCCTTTTTTATTCTCTCAAGCCACCAGCTGCCAGCCACCAGCAGCCAGCTGCCAGCCTAGCTTTTTTTTTTTTTTTTTTTTTTTAGCACTTAGTATTTAGCATTTATTAACAGGTACTCTAAGAATGATGAAGCATTGTTTTTAATCTTAAGACTATGAAGGTTTTTCTTAGTTCTTCTGCTTTTGCAATTGTGTTTGTGAAATTTGAATACTTGCAGGCTTTGTATGTGAATAATTCTAGCGGGGGACCTGGGAGATAATTCCTACGGGGAATTCTTAAAACTGTGCTCAACTATTAAAATGAATGAGCTTTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|163792206|ref|NM_003034.3| Homo sapiens ST8 alpha-N-acetyl-neuraminide alpha-2,8-sialyltransferase 1 (ST8SIA1), transcript variant 1, mRNA
GGGGGGGGTTGCCTGGCGGCGCAGCAGCGCGGGAGGCGGCGAAGGGCGCAGGAGCATCGCTCGGAGGGGACAAGGGGACGCCACGGGCCACATGTTTAGGAGGGAGCCGAGCCTTCTCCCGGACCCTCGCCGAGGGCGACCGTGATGCTGCAGAACCGGCGGGAGCGACTCGCCGCCGCCGCTCTCTGCGCACTCGGAGACCCCAGCGCCCGCCTTCTGCAGGGGAAGCGACCATGGCCATAGATCGTGACTTCACCCCCAGCCACTTCCCCTAGAAAGAAATCCTTGGAAAAGTTGCATTTGAAAAAATCCTTGCGCTGACCTTTGGGGCCGACGGGGCCGAAGAAGCGTGCGTGCGTTTGCAAGTAAGAGAACCAAAGGTGTGTGTGCATGGGGGGCTGGCGGTGGGGGACCCTCCGCTGCCACTTCGCCTAGCTTTGTGCTGAGGCCCCGGCCCCCGCCCCTGGGACGCCGGGGCTGCGATGAGCCCCTGCGGGCGGGCCCGGCGACAAACGTCCAGAGGGGCCATGGCTGTACTGGCGTGGAAGTTCCCGCGGACCCGGCTGCCCATGGGAGCCAGTGCCCTCTGTGTCGTGGTCCTCTGTTGGCTCTACATCTTCCCCGTCTACCGGCTGCCCAACGAGAAAGAGATCGTGCAGGGGGTGCTGCAACAGGGCACGGCGTGGAGGAGGAACCAGACCGCGGCCAGAGCGTTCAGGAAACAAATGGAAGACTGCTGCGACCCTGCCCATCTCTTTGCTATGACTAAAATGAATTCCCCTATGGGGAAGAGCATGTGGTATGACGGGGAGTTTTTATACTCATTCACCATTGACAATTCAACTTACTCTCTCTTCCCACAGGCAACCCCATTCCAGCTGCCATTGAAGAAATGCGCGGTGGTGGGAAATGGTGGGATTCTGAAGAAGAGTGGCTGTGGCCGTCAAATAGATGAAGCAAATTTTGTCATGCGATGCAATCTCCCTCCTTTGTCAAGTGAATACACTAAGGATGTTGGATCCAAAAGTCAGTTAGTGACAGCTAATCCCAGCATAATTCGGCAAAGGTTTCAGAACCTTCTGTGGTCCAGAAAGACATTTGTGGACAACATGAAAATTTATAACCACAGTTACATCTACATGCCTGCCTTTTCTATGAAGACAGGAACAGAGCCATCTTTGAGGGTTTATTATACACTGTCAGATGTTGGTGCCAATCAAACAGTGCTGTTTGCCAACCCCAACTTTCTGCGTAGCATTGGAAAGTTCTGGAAAAGTAGAGGAATCCATGCCAAGCGCCTGTCCACAGGACTTTTTCTGGTGAGCGCAGCTCTGGGTCTCTGTGAAGAGGTGGCCATCTATGGCTTCTGGCCCTTCTCTGTGAATATGCATGAGCAGCCCATCAGCCACCACTACTATGACAACGTCTTACCCTTTTCTGGCTTCCATGCCATGCCCGAGGAATTTCTCCAACTCTGGTATCTTCATAAAATCGGTGCACTGAGAATGCAGCTGGACCCATGTGAAGATACCTCACTCCAGCCCACTTCCTAGGAACAATGGAAGAAGAAAGGACTGAACCAGGGTATTTTTGTTAGGTTTTCTATGTGACTCCAAGAGGGAATGGTCAAGTTGTTTCATGAGTTTGCATGGGCCCTTGGAAAAACAGGAAAGGAGCAATGAAGATCCAAGCAAAACTTTACTTTCAGCGTTGGCTTGGAGGACAAATAAGAAATGAAACATCCTATGAAATACTTTATAGCACATGGCAGATTTGCAACTAGTAAAATGCTGGTGAAATGCTGTTGGTAAAGCACATGGTTCAAATCTAGAAGATGCAGTTCAAAAACAAGACAGACTCGAGTTGTTAGGGCTGAGGAACCAATCAAGGTAGAACAAAGAAAATGTTGGGGTAAAAGTGTTGCTGATTGTCAACACAAACTGGCTTAATAATATTAATAAGAACCTGTCTTATTAAGACTGGCTTTAGAACCGTAGGTTTTTTTAAAAAATTATTATTTATTTTTGCCCTCTTTGGGGAAGTGGGTGGGTAGATTTAAAAAATCCCTTCCTGAGTAATAAAGATACAAAATGTTACTGCTGATAATTGTGATTTGTTGAGCCACGTCTATATTAACTATAGCTCCCCTCTATTTTTAAAATTTTACATAAGAATTGCTTCTTCCTCTTTTGTCAAGTCCACAGAGACAATGTGAAGCATTATTGAATTTAGACTGTGTTGCTTCATAGTCTGGATAACAGGAGCCACTTTCCTTCCTCAGAATTTAGGACATAAACCCAATTTTAGGTCTGCATTATGTAAGCCTGTTTGCATTGTCATTTTTATTTTAGTGCAAAAGACTACCAATATGAGTGAATTATTTGTTTGTAAATTGGCATAATTGTCTTCATAATTTAATGTTCAGAAATGCAGTAAAGCACGTTGATGAAAAGCTTAGTCTCTGTGGAAGACAGACCAGAAGACAAATCCCTTTTCTATCTACTGTGGCATATTCACTGCAAGGTAAAGGACATGTATGCATACATGCAAGAATGAATTGAGCGAAACTTTGAATATGTTTCCTCTTTTGAGCTATTGTTATTTAGTAGTTACCTAAAAAAGAATACATTTTTACTAGTATACCATTAAAAATGTAAAAGGCTTAACATGTATGCATACATGTAGACACACATACACACACACAAAGTTAAACAAAGCTCATTACTGTGCAACTATGAAAGCTGAACTCATATGACCTGGTATGGCAAAAATTTGTAACCAGTGTTGGAGAATCACAAATGTGTTATGCACTATCCATTACATGTTGATATAAGACAACCGAGCTCACTGGTTGCCGCACATAATACCCATAGCAGCACAAGATGCAAGTCTTACCCCCAAATGCTTACCCGGAATGAGCAGAATTGTCTTACTCATCCTGATTTTACCCAAAATCTCATGAATGGGCTTGCTGTTGAGCGTGGTCACACAAGGTATAGTTTGTACAAGTAAAGAAATGTGAATTAGTAGCTATTTATTTCCTTAGTAGCAGGTAGGACTACTTAGCTTGTTACAACAGCTTTGATACACAGTAAGAAAACTCTACTGACAGATTACAAGCAGCCAAATGTGTTTACATTTCAGAGAAGGGTAAGGGAAGCCTCTCGTTGTCTTCATACTTTGGAATGTCTTAAGCTAAAATGTGACACTAGAGTTCAATTTCTTTTTTATTTTAAATGTCACTAAATTGTAGGTAAACTGTACCAAAAAGTTCTAGTTTAATTTTAACAGTAAAAACTCAGCATACCATGTTACCACGTAAACAATAATGGCTGGTATTTTCTGTGGGTTAATTTAACATGACATAAACATAGGAAAGCCCTTGGCAAAATTCTACATCATTGAAGTAGACCATTTCTAAATGCAATTAAATAGTGAGGTTATTATAAAAATTAGAATTTAAAATATGACTTGTTGATAGTGCAGATTATAATGTTACTTAGAAAGTTAAGAATTCGAGAGTAATGATGCTATTGGAGAACTGGTTTGCTATACGGCAGCAAAAACATAATGAGAATGTACCATGAAGAAATTGTGTTAAATATTCACTTTGAGTGAAACTTTAAATATGTTTCCTCTTTTGAGCTACTGTTATTTAGCAGTTACCTAAAAAAGAATACATTTTTACTAGTCTACCATTAAAAATATAAAAGGCTTAACAAAAACGCATATAAAAGTTAATAAAATGTTACTCAGATTAGTACTTTAATTGTTAAAATGTAATTAATGAGCTCCATAGAGCCCATACATCACAGTTCCATTGAAAATATCATCTGGACTAGAATCTCTTAAACCCAGGAAGTGGAGGTTGCAGTGAGCCAAGATGGTGCCACTGCACTCCAGCCTGGGTGACAGGGCAAGACCCTGTCTCAAAAAAAAAAAAAAGAAAAGAAAAAGAAAGAAAATATTATGTGGAAATTTTTCATCTTTTTATGATGCCTGGGATAGATTTATGCAGTAGATTTATATATAATGTTTAGTTTACAAACTTGTGAAACTATTTCATGTGGGTTCTGAAAGGCAAAACAGAAATGGCCAGTGCTGGTGATGTTTGATTAGACCAGCTCTTCTCAGCTGGGGTGATTCATTATCCCTCTCTGGTGACATTTGGCAATGTCTGGAGACCAGAGACATTTTTTATTTTCATGACTCAAGGGTGCTAATAGCATGTACTTAGTAGAGGTTAGGGATCCTGCTAAAGATCTTACAATGCACAAGTCAGCCTCTCACAGCAAAATAATTATCCAGGCTGAGATGTCAGTAGTATCAAGGTTGACATCTCAGACCTGGATTAGACCTGGATTAGACCAAAATGAAATTTTGATTGTTCCACCTTGTCTTCACTTAAAGATAGATATACATGCTCACAGCATTCAAAATATGACTACAATTTAATGAAAATATTTTCTTATGGTAGATTACAACTCACTAGATACACCATACATATGCCTTTTGGACATAATTGGTTAGATAGGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTAGCATGAAGTTAGGCATCTCTATCCTTAACTGTGCTATGTGTTCCTAAGTAAGGACCTCGCTAGAATCATCCTGTAGAGTGCTCTGGAATACTCTATTATTAAGATCTTCAATTCTAAGCTCCCATTATCTTTCTTTGTTTATCTGAAATTAAGACCTTCAGAATTAGGCCTGGTACTTTTCCAGATTTGATCAGTTACATTTTGATATAACTGACTCTTAAAATTCAGCTTAGAAGACATTCAATAAGAAAATCTTTAATCACTTTTGGTGATGCACCTGCCAAGAGGGGGCATCACTTTGTACCATCAGACTAATTAAAAAAATTGTTGTGTAGTCATAAAAATTAGGCTGATCCATAGGGGCAAAAGGAAGGGTGAAGAGACTAAAAACTAGTACCCTGATAGAATTTTAGTTTTTATTAGCCTCGATTTGAGAACTGCATTGATTCCAAAGATCATGAAGGTAGGTGAAGGATTAAGTCATTCCATAATTAAGAAAAGTAATGTTTATATGAAAGATTTTTATATGGACAATGACTCACAGACACATATGCTTTGTATAGAGGATTTTGCCAAAAGTTTATACAAAATTGCACATCTAAACTGCATAATTCTCATACAAGAAGTTAAGGAAGTGCTCACTGGATTTTGCTTCTGTATAGTTCACTTTTATCTGTCTTCACAAGGGTAGGAAGTAAATGATCTCAAATGGCACATGTTCAGACAATACTGTGTTTGGCTTTGTGATGTCTCATGTCTTTCTCTTGGCTAAAAAAAATTGTTTAGGCTATATATAACTTGTACCTGAAGCAATCTGGACAACATGGCTTAAAATGGAAAATAACTGAAAAAATCCTGGGATTTTAAATTTGCCAAAAATACCCTTGGATTAGTCAAAGGCTTTACAAGAGTGTTATAGATGATCCAAAATGGAAACAATATTGATAACATTTCTTTTCGTCAGCAGCTACATATTCCAGTTTTATAACTTTATTATATACATTTTTTGATTATTAATAGAAAGTCAGCCATCCAGAGTTTTAACTTCTGTGGTTGAAATATTGACTTTGTGAAATTTTTCACTGACAAATACTTGTTAGGAGGGACCTAAGGGGGAGGGGAATGTTACCAGTCCACTGAAAACTTTAGGAAATGTTCATTGTGTTGTGTAAATACTTTCCCACCAGCACCAGGTAATATATTCTCTATGTTTGTAGAATTCCAAAGATCAAAAGCTGTAAGGACGTTTATGTGAACTTGACGCAAACTTGTGGAGGAATAAGGACTGAGAGTAATGTTGTGCTTTTTCTTTATCTTCCCGTCGTATAGGTCGACTCTCAGGTTATATGACTTTTATTGGGCACACGTCAGGGGTGGAAGTGGTAGAAGTGGGTTAACAATTTCAAGGCCTGGCAACCTAGGTCAAAACCTCTAATAAAGTCAGCAGTAAACATAACTAGCAACTTCATTCCACTATGTGCTAGGAGGAGGGTGAGGCAAGTTGAAAGGAGATGACCCTATCCCCACACTCTCAGGATGTAAAAGGGCAGAGTGCTCTCTACCCTTAACCTTGGCTTTTTAGCACCGTCAGTCTCTGTCCTCTCCCAGGAGAGCTGCCTTGGCTCCAGAGTTGAGCTAGTAGCATTGTGACTAGAGAGGTAGTGTGGAAATTCGCTGAGGACCTCAAAATTTTACACTGCCTTAAACTGTTTTGTTTTTGCTTAAACTCGTGCTGTCTAAATGTGGGTGTTTTGTGGCAGAGTCTGATCACCCCGACCTAGTTATAGCCCTGCCAGTGATTCTAAAGTGGAACTTTTCCCCCTCATTCATATGGATAGTCTGAGTCCTTGAAGCTAGGGAGATATCAAATATTCTACCAGTTCCTACATAGCTTCTTTAAAAGTCCTAGAGACTAACTCACAGGAAGTCTGAAGCCCAGAGCGTCTGTTTATAAACTCCTAAATATGAGGCCACAATATTTAGGTTGAGCACTAGAAAATTTCTATTTTGCAAGTGGAAGGAGACTTGAATCTATAATTGCTGTAGCTTTTTTTCCCTTCTATCATAAGAAAATGGATACCATCTGCTTTACCCTCAGCCCAGACTTGTCTTTTGAATTTTTTACATACATCTTAGGGGTGAGAGATTGAAACAAGTGCATGAATGAAAAGCTTATTGAAACATAACACAGCCCCTGCTCACCATTTCAGTAAGGGAAAATACATGTTTCTGTTTCCCTCTAATTTGTTTTCTCTGGTGCCAACATTTCTGATTTCTTCTGTCTCTAATACATAAGGAATAAATACCATATTTTAAATTGACTTACATGCCTGCGAGCATTTGCCAGATAATCAAAGCCTATGACTCTAACTTTTTAAAGCACAGAAGAGGAATTATATTTTATGGTCACTCCTCTGTGTTTCTATTGATCTCTATATTGTGCTAAAATTCTTTCAGGTAATTTTTTTCTTGTTGAAGCTGTGGGATATAATCAATGATGCCAAGCTGTCTGAGAATTTTATAGAATAATATCCAAATATATTGATCCTGCCTCTTTCTGCTTCTATGTAATTAAACTTTCTTTTGATGTTTATTTTTAAAATGTATGCTTCACACAACACCAATAAACATCTAAGAGATGTGATATAATCCAAGGCAAAGAAAAGTAAGAATCAGTTAATGTCTATTTTATCTGCACAGCATTACGAACAGAAAATTGTAATAAAAAAAGGTTTAACCAAACTGAAAAAAAGAGAGACAAAATCTTGGTTTTAATTTGAAAAGATGATTGGGAGTGATCTCAGAAGAGAGTTCAGCAGGAAGCAAGGAAGAGGCTGTTGACCTTGAGTGCAGCCTCAAGAATGGAACCTTTTTGAAATATTTTAAAGGAAATATCTTGTCATCCAGCTGTTATGGTTAATAATGAATAGTTTTCTCTGGGTGAAGCTTATCCATTGCACACCTGATGTGCTGGCCCCTGCGATTTCCCCAAATGTTGGAATGTTGCCTGCATAATTTGTGGTAATGGGGGACTGTGTTCCTGCTTTTACCTGGTTACAAAAAACAAAACAAAACAAAACAAAACAACAAACAGAAAAAAAAAGAGAGAAAAGATGCTAGAGGAAGCAGTGTGACAGACAGATCATGAGATGCTGACGGAGAGAACAGAGTGGTACCTGTTTACCCACTTGGACCATGACAGTATCAAGGCTCCACCCCTTGCTGTCCCTTCCCAAGAGGTGCTCTCCTGGGAGTTTGATCACAGTGAAACAACACTCCCGTTTTCTTTTTCCTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTTTTTTGTTGAGACAGAGTTTTTTGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGTGATCTCGGCTCACCGCAACCTCCGCCTCCCAGGTTCAAGCGATTCTCGTGCCTCAGCCTCTGGAGTAGCTGGGATTACAGGCATGCGCCACCACACCCGGCTAATTTTGTACTTTTAGTAGAGATGGGGTTTCTCCATATTGGTCAGGCTGGTCCCGAACTCCTGACCTCAGGTGATCTGCCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACCGAGCCCAGCCCCACACTCCTGTTTTCATAGCCCTTTTTTGTCTGTACTTTGGTACATATTCCCCAAATAAGATTATTATTTACATCTGTCATGATGAGGCAGTGATAGCAGCAAGTGTCACTTTGACCCTCACCCTTGGAAAGTGGGCTATGCATAGCTAGAGTTAGAACAGGAGGTTCTAATCCTGCTTCCACAATTACTTCAGTAACAGGCTTTTGTATCCATGATTACTTAAGCTGACTTAGATGCATTTTCTACCCTGTATTCTAGTGTACACAACACAAACACACATAAGCCCTTTACCTGTGGAGAAGAGGGAGATGGTTGATTCAGTGGGAGTGGGGAGTGGCAGAGGGTGCCTTAACTTTTTCTGGCTTGACCCCTACTTCCTTATGTGTTTCCTTCATATACCTCTGTCACTTTAGAGATGTAATCATGTCTGTTCCAAGTTGTATCGTTATTATCAAGAAGTCCTATAAATGTAGCAAATGTGACTATTTTATAGAAATGCACAATAGTTTATAGGCCTTGGAGAAGTCTGATAATAGTATGTAAATATCCTTCATTGAAGTCATAGAACCTTCTAGTAGGAAGCTCCATAGGTGATAACTGCAAGAGGATTAATGTTTGTTTCTCCAGTAAACACCGGAAGCAAGGAATCAATCTGTCACTGTTTATCATTCAGTCTTGAGCACCGTTGGGTGTTGATAGGTTACTATAGACACTCCCCTTATAATTAATATACAGGACTCACAATTTAGGATGTCTGATGGCCACTAGGGTACATCATAGAGACACTAGAGAGAAGAGAACAAATATAGCTCCATCAAAAAGCCTGCTTAATCTTTAACAAGTCTGAAATATTACTAAAATTCCAGTTACCGTGCAGCATAGTCAGTCTAAAAAGCACTGGGGAAAAAGGTGTCTTTTTGGTCTCTTTAATTCTATTATGGCACATTTTAATATTATTCCACATGTGTGCAAACTATTTCTCAAGAGCAAAGTTTGAGGCTGGAGTTAAGAAAATAGAAAAATTAAAACATTATTTTTTCTCATATAATATAATCTGACTACTAGTTCATGGATATAATAATTCTGGGAAAAATTTTAGATTAAACTATAAAATTGAAATCACCTTTGAAGAGTATATGGAATTGCTTCTTTCTATTAAAGCCAACCTACATTGGCAAAAAGTGTGGAGAAAATCAGTGTGCTCAATTCTTTTTGTAGAGTTTCATCTAAAATGTTGCAGGTAAAAAAGAAAACTTTAATTGGTACTTTCTACGGTGTGATTAGAAAAATTAGTATCTATCTCTGTTGGTTCTGCTGACTTGCTTCTTTCCACCGAATCTAAATGCAATGTCATAGGAGGAGGTTTGCTGTAAAAACATGTCTTTTTCTTTGGTGTATTCATTGTAATTATGGCTGGCAGTGAGAAGGTTCGGTAAGTCTCAATTTCTCTACCTCCTTTACTTGGAGAAAATTTGTAAATGTACCCTGTGAATAAAATGATTTTTTATAAAAAAAAAAAAAAAAAAAAAAAA
>gi|163659848|ref|NM_138761.3| Homo sapiens BCL2 associated X, apoptosis regulator (BAX), transcript variant alpha, mRNA
TCACGTGACCCGGGCGCGCTGCGGCCGCCCGCGCGGACCCGGCGAGAGGCGGCGGCGGGAGCGGCGGTGATGGACGGGTCCGGGGAGCAGCCCAGAGGCGGGGGGCCCACCAGCTCTGAGCAGATCATGAAGACAGGGGCCCTTTTGCTTCAGGGTTTCATCCAGGATCGAGCAGGGCGAATGGGGGGGGAGGCACCCGAGCTGGCCCTGGACCCGGTGCCTCAGGATGCGTCCACCAAGAAGCTGAGCGAGTGTCTCAAGCGCATCGGGGACGAACTGGACAGTAACATGGAGCTGCAGAGGATGATTGCCGCCGTGGACACAGACTCCCCCCGAGAGGTCTTTTTCCGAGTGGCAGCTGACATGTTTTCTGACGGCAACTTCAACTGGGGCCGGGTTGTCGCCCTTTTCTACTTTGCCAGCAAACTGGTGCTCAAGGCCCTGTGCACCAAGGTGCCGGAACTGATCAGAACCATCATGGGCTGGACATTGGACTTCCTCCGGGAGCGGCTGTTGGGCTGGATCCAAGACCAGGGTGGTTGGGACGGCCTCCTCTCCTACTTTGGGACGCCCACGTGGCAGACCGTGACCATCTTTGTGGCGGGAGTGCTCACCGCCTCACTCACCATCTGGAAGAAGATGGGCTGAGGCCCCCAGCTGCCTTGGACTGTGTTTTTCCTCCATAAATTATGGCATTTTTCTGGGAGGGGTGGGGATTGGGGGACGTGGGCATTTTTCTTACTTTTGTAATTATTGGGGGGTGTGGGGAAGAGTGGTCTTGAGGGGGTAATAAACCTCCTTCGGGACACAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|157688563|ref|NM_001105540.1| Homo sapiens diacylglycerol kinase zeta (DGKZ), transcript variant 4, mRNA
TGCTAGCTCTCCAAACTAGGACTTGCTCAGCAGAGGCCGCCAGCCCGGAGCTGGATCCAGAGCCCGGCCTTGGGGACCCCAGCTCCCACCTGCGCCCTGCCTTCCAGATCAGCCAACCGCCTGCCATGGAGACTTTCTTTAGGAGACATTTCCGGGGGAAGGTGCCAGGCCCTGGAGAGGGGCAGCAGCGGCCCAGCAGCGTGGGGCTGCCCACAGGCAAGGCCCGGCGTCGCTCCCCCGCTGGGCAGGCCTCCTCCTCACTGGCACAGCGGCGCCGCTCCAGCGCCCAGCTCCAGGGCTGCCTCCTGAGTTGCGGGGTGAGGGCCCAGGGTTCCAGCCGCCGGCGCTCCAGCACTGTGCCCCCTTCCTGCAACCCCCGCTTCATCGTGGATAAGGTGCTCACTCCACAGCCTACCACCGTGGGGGCCCAGCTTCTGGGTGCACCCCTGCTGTTGACCGGGCTTGTGGGCATGAATGAGGAGGAGGGTGTCCAGGAGGATGTGGTAGCCGAGGCATCGAGCGCCATCCAGCCAGGCACCAAGACACCAGGGCCACCCCCACCTCGGGGCGCCCAGCCGCTGTTGCCCCTACCCCGCTACCTGCGCCGAGCCTCCTCCCACCTGCTCCCCGCGGATGCCGTATATGACCACGCTCTCTGGGGCCTGCACGGCTACTATCGGCGCCTCAGCCAGCGGCGGCCCTCAGGCCAGCACCCTGGCCCTGGGGGCCGAAGAGCCTCAGGCACCACCGCCGGCACCATGCTGCCCACCCGTGTGCGCCCACTGTCCCGCAGGCGCCAGGTAGCCCTACGGCGCAAGGCGGCCGGACCCCAGGCCTGGAGCGCCCTGCTCGCGAAAGCCATCACCAAGTCGGGCCTCCAGCACCTGGCCCCCCCTCCGCCCACCCCTGGGGCCCCGTGCAGCGAGTCAGAGCGGCAGATCCGGAGTACAGTGGACTGGAGCGAGTCAGCGACATATGGGGAGCACATCTGGTTCGAGACCAACGTGTCCGGGGACTTCTGCTACGTTGGGGAGCAGTACTGTGTAGCCAGGATGCTGAAGTCAGTGTCTCGAAGAAAGTGCGCAGCCTGCAAGATTGTGGTGCACACGCCCTGCATCGAGCAGCTGGAGAAGATAAATTTCCGCTGTAAGCCGTCCTTCCGTGAATCAGGCTCCAGGAATGTCCGCGAGCCAACCTTTGTACGGCACCACTGGGTACACAGACGACGCCAGGACGGCAAGTGTCGGCACTGTGGGAAGGGATTCCAGCAGAAGTTCACCTTCCACAGCAAGGAGATTGTGGCCATCAGCTGCTCGTGGTGCAAGCAGGCATACCACAGCAAGGTGTCCTGCTTCATGCTGCAGCAGATCGAGGAGCCGTGCTCGCTGGGGGTCCACGCAGCCGTGGTCATCCCGCCCACCTGGATCCTCCGCGCCCGGAGGCCCCAGAATACTCTGAAAGCAAGCAAGAAGAAGAAGAGGGCATCCTTCAAGAGGAAGTCCAGCAAGAAAGGGCCTGAGGAGGGCCGCTGGAGACCCTTCATCATCAGGCCCACCCCCTCCCCGCTCATGAAGCCCCTGCTGGTGTTTGTGAACCCCAAGAGTGGGGGCAACCAGGGTGCAAAGATCATCCAGTCTTTCCTCTGGTATCTCAATCCCCGACAAGTCTTCGACCTGAGCCAGGGAGGGCCCAAGGAGGCGCTGGAGATGTACCGCAAAGTGCACAACCTGCGGATCCTGGCGTGCGGGGGCGACGGCACGGTGGGCTGGATCCTCTCCACCCTGGACCAGCTACGCCTGAAGCCGCCACCCCCTGTTGCCATCCTGCCCCTGGGTACTGGCAACGACTTGGCCCGAACCCTCAACTGGGGTGGGGGCTACACAGATGAGCCTGTGTCCAAGATCCTCTCCCACGTGGAGGAGGGGAACGTGGTACAGCTGGACCGCTGGGACCTCCACGCTGAGCCCAACCCCGAGGCAGGGCCTGAGGACCGAGATGAAGGCGCCACCGACCGGTTGCCCCTGGATGTCTTCAACAACTACTTCAGCCTGGGCTTTGACGCCCACGTCACCCTGGAGTTCCACGAGTCTCGAGAGGCCAACCCAGAGAAATTCAACAGCCGCTTTCGGAATAAGATGTTCTACGCCGGGACAGCTTTCTCTGACTTCCTGATGGGCAGCTCCAAGGACCTGGCCAAGCACATCCGAGTGGTGTGTGATGGAATGGACTTGACTCCCAAGATCCAGGACCTGAAACCCCAGTGTGTTGTTTTCCTGAACATCCCCAGGTACTGTGCGGGCACCATGCCCTGGGGCCACCCTGGGGAGCACCACGACTTTGAGCCCCAGCGGCATGACGACGGCTACCTCGAGGTCATTGGCTTCACCATGACGTCGTTGGCCGCGCTGCAGGTGGGCGGACACGGCGAGCGGCTGACGCAGTGTCGCGAGGTGGTGCTCACCACATCCAAGGCCATCCCGGTGCAGGTGGATGGCGAGCCCTGCAAGCTTGCAGCCTCACGCATCCGCATCGCCCTGCGCAACCAGGCCACCATGGTGCAGAAGGCCAAGCGGCGGAGCGCCGCCCCCCTGCACAGCGACCAGCAGCCGGTGCCAGAGCAGTTGCGCATCCAGGTGAGTCGCGTCAGCATGCACGACTATGAGGCCCTGCACTACGACAAGGAGCAGCTCAAGGAGGCCTCTGTGCCGCTGGGCACTGTGGTGGTCCCAGGAGACAGTGACCTAGAGCTCTGCCGTGCCCACATTGAGAGACTCCAGCAGGAGCCCGATGGTGCTGGAGCCAAGTCCCCGACATGCCAGAAACTGTCCCCCAAGTGGTGCTTCCTGGACGCCACCACTGCCAGCCGCTTCTACAGGATCGACCGAGCCCAGGAGCACCTCAACTATGTGACTGAGATCGCACAGGATGAGATTTATATCCTGGACCCTGAGCTGCTGGGGGCATCGGCCCGGCCTGACCTCCCAACCCCCACTTCCCCTCTCCCCACCTCACCCTGCTCACCCACGCCCCGGTCACTGCAAGGGGATGCTGCACCCCCTCAAGGTGAAGAGCTGATTGAGGCTGCCAAGAGGAACGACTTCTGTAAGCTCCAGGAGCTGCACCGAGCTGGGGGCGACCTCATGCACCGAGACGAGCAGAGTCGCACGCTCCTGCACCACGCAGTCAGCACTGGCAGCAAGGATGTGGTCCGCTACCTGCTGGACCACGCCCCCCCAGAGATCCTTGATGCGGTGGAGGAAAACGGGGAGACCTGTTTGCACCAAGCAGCGGCCCTGGGCCAGCGCACCATCTGCCACTACATCGTGGAGGCCGGGGCCTCGCTCATGAAGACAGACCAGCAGGGCGACACTCCCCGGCAGCGGGCTGAGAAGGCTCAGGACACCGAGCTGGCCGCCTACCTGGAGAACCGGCAGCACTACCAGATGATCCAGCGGGAGGACCAGGAGACGGCTGTGTAGCGGGCCGCCCACGGGCAGCAGGAGGGACAATGCGGCCAGGGGACGAGCGCCTTCCTTGCCCACCTCACTGCCACATTCCAGTGGGACGGCCACGGGGGGACCTAGGCCCCAGGGAAAGAGCCCCATGCCGCCCCCTAAGGAGCCGCCCAGACCTAGGGCTGGACTCAGGAGCTGGGGGGGCCTCACCTGTTCCCCTGAGGACCCCGCCGGACCCGGAGGCTCACAGGGAACAAGACACGGCTGGGTTGGATATGCCTTTGCCGGGGTTCTGGGGCAGGGCGCTCCCTGGCCGCAGCAGATGCCCTCCCAGGAGTGGAGGGGCTGGAGAGGGGGAGGCCTTCGGGAAGAGGCTTCCTGGGCCCCCTGGTCTTCGGCCGGGTCCCCAGCCCCCGCTCCTGCCCCACCCCACCTCCTCCGGGCTTCCTCCCGGAAACTCAGCGCCTGCTGCACTTGCCTGCCCTGCCTTGCTTGGCACCCGCTCCGGCGACCCTCCCCGCTCCCCTGTCATTTCATCGCGGACTGTGCGGCCTGGGGGTGGGGGGCGGGACTCTCACGGTGACATGTTTACAGCTGGGTGTGACTCAGTAAAGTGGATTTTTTTTTCTTTAAAAAAAA
>gi|157419153|ref|NM_003005.3| Homo sapiens selectin P (SELP), mRNA
GGCAGTGAGACTGTAAGCAGTCTGGGTTGGGCAGAAGGCAGAAAACCAGCAGAGTCACAGAGGAGATGGCCAACTGCCAAATAGCCATCTTGTACCAGAGATTCCAGAGAGTGGTCTTTGGAATTTCCCAACTCCTTTGCTTCAGTGCCCTGATCTCTGAACTAACAAACCAGAAAGAAGTGGCAGCATGGACTTATCATTACAGCACAAAAGCATACTCATGGAATATTTCCCGTAAATACTGCCAGAATCGCTACACAGACTTAGTGGCCATCCAGAATAAAAATGAAATTGATTACCTCAATAAGGTCCTACCCTACTACAGCTCCTACTACTGGATTGGGATCCGAAAGAACAATAAGACATGGACATGGGTGGGAACCAAAAAGGCTCTCACCAACGAGGCTGAGAACTGGGCTGATAATGAACCTAACAACAAAAGGAACAACGAGGACTGCGTGGAGATATACATCAAGAGTCCGTCAGCCCCTGGCAAGTGGAATGATGAGCACTGCTTGAAGAAAAAGCACGCATTGTGTTACACAGCCTCCTGCCAGGACATGTCCTGCAGCAAACAAGGAGAGTGCCTCGAGACCATCGGGAACTACACCTGCTCCTGTTACCCTGGATTCTATGGGCCAGAATGTGAATACGTGAGAGAGTGTGGAGAACTTGAGCTCCCTCAACACGTGCTCATGAACTGCAGCCACCCTCTGGGAAACTTCTCTTTTAACTCGCAGTGCAGCTTCCACTGCACTGACGGGTACCAAGTAAATGGGCCCAGCAAGCTGGAATGCTTGGCTTCTGGAATCTGGACAAATAAGCCTCCACAGTGTTTAGCTGCCCAGTGCCCACCCCTGAAGATTCCTGAACGAGGAAACATGACCTGCCTTCATTCTGCAAAAGCATTCCAGCATCAGTCTAGCTGCAGCTTCAGTTGTGAAGAGGGATTTGCATTAGTTGGACCGGAAGTGGTGCAATGCACAGCCTCGGGGGTATGGACAGCCCCAGCCCCAGTGTGTAAAGCTGTGCAGTGTCAGCACCTGGAAGCCCCCAGTGAAGGAACCATGGACTGTGTTCATCCGCTCACTGCTTTTGCCTATGGCTCCAGCTGTAAATTTGAGTGCCAGCCCGGCTACAGAGTGAGGGGCTTGGACATGCTCCGCTGCATTGACTCTGGACACTGGTCTGCACCCTTGCCAACCTGTGAGGCTATTTCGTGTGAGCCGCTGGAGAGTCCTGTCCACGGAAGCATGGATTGCTCTCCATCCTTGAGAGCGTTTCAGTATGACACCAACTGTAGCTTCCGCTGTGCTGAAGGTTTCATGCTGAGAGGAGCCGATATAGTTCGGTGTGATAACTTGGGACAGTGGACAGCACCAGCCCCAGTCTGTCAAGCTTTGCAGTGCCAGGATCTCCCAGTTCCAAATGAGGCCCGGGTGAACTGCTCCCACCCCTTCGGTGCCTTTAGGTACCAGTCAGTCTGCAGCTTCACCTGCAATGAAGGCTTGCTCCTGGTGGGAGCAAGTGTGCTACAGTGCTTGGCTACTGGAAACTGGAATTCTGTTCCTCCAGAATGCCAAGCCATTCCCTGCACACCTTTGCTAAGCCCTCAGAATGGAACAATGACCTGTGTTCAACCTCTTGGAAGTTCCAGTTATAAATCCACATGTCAATTCATCTGTGACGAGGGATATTCTTTGTCTGGACCAGAAAGATTGGATTGTACTCGATCGGGACGCTGGACAGACTCCCCACCAATGTGTGAAGCCATCAAGTGCCCAGAACTCTTTGCCCCAGAGCAGGGCAGCCTGGATTGTTCTGACACTCGTGGAGAATTCAATGTTGGCTCCACCTGCCATTTCTCTTGTGACAACGGCTTTAAGCTGGAGGGGCCCAATAATGTGGAATGCACAACTTCTGGAAGATGGTCAGCTACTCCACCAACCTGCAAAGGCATAGCATCACTTCCTACTCCAGGGGTGCAATGTCCAGCCCTCACCACTCCTGGGCAGGGAACCATGTACTGTAGGCATCATCCGGGAACCTTTGGTTTTAATACCACTTGTTACTTTGGCTGCAACGCTGGATTCACACTCATAGGAGACAGCACTCTCAGCTGCAGACCTTCAGGACAATGGACAGCAGTAACTCCAGCATGCAGAGCTGTGAAATGCTCAGAACTACATGTTAATAAGCCAATAGCGATGAACTGCTCCAACCTCTGGGGAAACTTCAGTTATGGATCAATCTGCTCTTTCCATTGTCTAGAGGGCCAGTTACTTAATGGCTCTGCACAAACAGCATGCCAAGAGAATGGCCACTGGTCAACTACCGTGCCAACCTGCCAAGCAGGACCATTGACTATCCAGGAAGCCCTGACTTACTTTGGTGGAGCGGTGGCTTCTACGATAGGTCTGATAATGGGTGGGACGCTCCTGGCTTTGCTAAGAAAGCGTTTCAGACAAAAAGATGATGGGAAATGCCCCTTGAATCCTCACAGCCACCTAGGAACATATGGAGTTTTTACAAACGCTGCATTTGACCCGAGTCCTTAAGGTTTCCATAAACACCCATGAATCAAAGACATGGAATTACCTTAGATTAGCTCTGGACCAGCCTGTTGGACCCGCTCTGGACCAACCCTGTTTCCTGAGTTTGGGATTGTGGTACAATCTCAAATTCTCAACCTACCACCCCTTCCTGTCCCACCTCTTCTCTTCCTGTAACACAAGCCACAGAAGCCAGGAGCAAATGTTTCTGCAGTAGTCTCTGTGCTTTGACTCACCTGTTACTTGAAATACCAGTGAACCAAAGAGACTGGAGCATCTGACTCACAAGAAGACCAGACTGTGGAGAAATAAAAATACCTCTTTATTTTTTGATTGAAGGAAGGTTTTCTCCACTTTGTTGGAAAGCAGGTGGCATCTCTAATTGGAAGAAATTCCTGTAGCATCTTCTGGAGTCTCCAGTGGTTGCTGTTGATGAGGCCTCTTGGACCTCTGCTCTGAGGCTTCCAGAGAGTCCTCTGGATGGCACCAGAGGCTGCAGAAGGCCAAGAATCAAGCTAGAAGGCCACATGTCACCGTGGACCTTCCTGCCACCAGTCACTGTCCCTCAAATGACCCAAAGACCAATATTCAAATGCGTAATTAAAAGAATTTTCCCCAAAAAAAAAAAAAAAA
>gi|156071469|ref|NM_001194.3| Homo sapiens hyperpolarization activated cyclic nucleotide gated potassium and sodium channel 2 (HCN2), mRNA
GGCCGGCGGCGGCGGCGGCGGCTCCGCTCCGCACTGCCCGGCGCCGCCTCGCCATGGACGCGCGCGGGGGCGGCGGGCGGCCCGGGGAGAGCCCGGGCGCGACCCCCGCGCCGGGGCCGCCGCCGCCGCCGCCGCCCGCGCCCCCCCAACAGCAGCCGCCGCCGCCGCCGCCGCCCGCGCCCCCCCCGGGCCCCGGGCCCGCGCCCCCCCAGCACCCGCCCCGGGCCGAGGCGTTGCCCCCGGAGGCGGCGGATGAGGGCGGCCCGCGGGGCCGGCTCCGCAGCCGCGACAGCTCGTGCGGCCGCCCCGGCACCCCGGGCGCGGCGAGCACGGCCAAGGGCAGCCCGAACGGCGAGTGCGGGCGCGGCGAGCCGCAGTGCAGCCCCGCGGGGCCCGAGGGCCCGGCGCGGGGGCCCAAGGTGTCGTTCTCGTGCCGCGGGGCGGCCTCGGGGCCCGCGCCGGGGCCGGGGCCGGCGGAGGAGGCGGGCAGCGAGGAGGCGGGCCCGGCGGGGGAGCCGCGCGGCAGCCAGGCCAGCTTCATGCAGCGCCAGTTCGGCGCGCTCCTGCAGCCGGGCGTCAACAAGTTCTCGCTGCGGATGTTCGGCAGCCAGAAGGCCGTGGAGCGCGAGCAGGAGCGCGTCAAGTCGGCGGGGGCCTGGATCATCCACCCGTACAGCGACTTCAGGTTCTACTGGGACTTCACCATGCTGCTGTTCATGGTGGGAAACCTCATCATCATCCCAGTGGGCATCACCTTCTTCAAGGATGAGACCACTGCCCCGTGGATCGTGTTCAACGTGGTCTCGGACACCTTCTTCCTCATGGACCTGGTGTTGAACTTCCGCACCGGCATTGTGATCGAGGACAACACGGAGATCATCCTGGACCCCGAGAAGATCAAGAAGAAGTATCTGCGCACGTGGTTCGTGGTGGACTTCGTGTCCTCCATCCCCGTGGACTACATCTTCCTTATCGTGGAGAAGGGCATTGACTCCGAGGTCTACAAGACGGCACGCGCCCTGCGCATCGTGCGCTTCACCAAGATCCTCAGCCTCCTGCGGCTGCTGCGCCTCTCACGCCTGATCCGCTACATCCATCAGTGGGAGGAGATCTTCCACATGACCTATGACCTGGCCAGCGCGGTGATGAGGATCTGCAATCTCATCAGCATGATGCTGCTGCTCTGCCACTGGGACGGCTGCCTGCAGTTCCTGGTGCCTATGCTGCAGGACTTCCCGCGCAACTGCTGGGTGTCCATCAATGGCATGGTGAACCACTCGTGGAGTGAACTGTACTCCTTCGCACTCTTCAAGGCCATGAGCCACATGCTGTGCATCGGGTACGGCCGGCAGGCGCCCGAGAGCATGACGGACATCTGGCTGACCATGCTCAGCATGATTGTGGGTGCCACCTGCTACGCCATGTTCATCGGCCACGCCACTGCCCTCATCCAGTCGCTGGACTCCTCGCGGCGCCAGTACCAGGAGAAGTACAAGCAGGTGGAGCAGTACATGTCCTTCCACAAGCTGCCAGCTGACTTCCGCCAGAAGATCCACGACTACTATGAGCACCGTTACCAGGGCAAGATGTTTGACGAGGACAGCATCCTGGGCGAGCTCAACGGGCCCCTGCGGGAGGAGATCGTCAACTTCAACTGCCGGAAGCTGGTGGCCTCCATGCCGCTGTTCGCCAACGCCGACCCCAACTTCGTCACGGCCATGCTGACCAAGCTCAAGTTCGAGGTCTTCCAGCCGGGTGACTACATCATCCGCGAAGGCACCATCGGGAAGAAGATGTACTTCATCCAGCACGGCGTGGTCAGCGTGCTCACTAAGGGCAACAAGGAGATGAAGCTGTCCGATGGCTCCTACTTCGGGGAGATCTGCCTGCTCACCCGGGGCCGCCGCACGGCGAGCGTGCGGGCTGACACCTACTGCCGCCTCTATTCGCTGAGCGTGGACAACTTCAACGAGGTGCTGGAGGAGTACCCCATGATGCGGCGCGCCTTCGAGACGGTGGCCATCGACCGCCTGGACCGCATCGGCAAGAAGAATTCCATCCTCCTGCACAAGGTGCAGCATGACCTCAACTCGGGCGTATTCAACAACCAGGAGAACGCCATCATCCAGGAGATCGTCAAGTACGACCGCGAGATGGTGCAGCAGGCCGAGCTGGGTCAGCGCGTGGGCCTCTTCCCGCCGCCGCCGCCGCCGCCGCAGGTCACCTCGGCCATCGCCACGCTGCAGCAGGCGGCGGCCATGAGCTTCTGCCCGCAGGTGGCGCGGCCGCTCGTGGGGCCGCTGGCGCTCGGCTCGCCGCGCCTCGTGCGCCGCCCGCCCCCGGGGCCCGCACCTGCCGCCGCCTCACCCGGGCCCCCGCCCCCCGCCAGCCCCCCGGGCGCGCCCGCCAGCCCCCGGGCACCGCGGACCTCGCCCTACGGCGGCCTGCCCGCCGCCCCCCTTGCTGGGCCCGCCCTGCCCGCGCGCCGCCTGAGCCGCGCGTCGCGCCCACTGTCCGCCTCGCAGCCCTCGCTGCCTCACGGCGCCCCCGGCCCCGCGGCCTCCACACGCCCGGCCAGCAGCTCCACACCGCGCTTGGGGCCCACGCCCGCTGCCCGGGCCGCCGCGCCCAGCCCGGACCGCAGGGACTCGGCCTCACCCGGCGCCGCCGGCGGCCTGGACCCCCAGGACTCCGCGCGCTCGCGCCTCTCGTCCAACTTGTGACCCTCGCCGACCGCCCCGCGGGCCCAGGCGGGCCGGGGGCGGGGCCGTCATCCAGACCAAAGCCATGCCATTGCGCTGCCCCGGCCGCCAGTCCGCCCAGAAGCCATAGACGAGACGTAGGTAGCCGTAGTTGGACGGACGGGCAGGGCCGGCGGGGCAGCCCCCTCCGCGCCCCCGGCCGTCCCCCCTCATCGCCCCGCGCCCACCCCCATCGCCCCTGCCCCCGGCGGCGGCCTCGCGTGCGAGGGGGCTCCCTTCACCTCGGTGCCTCAGTTCCCCCAGCTGTAAGACAGGGACGGGGCGGCCCAGTGGCTGAGAGGAGCCGGCTGTGGAGCCCCGCCCGCCCCCCACCCTCTAGGTGGCCCCCGTCCGAGGAGGATCGTTTTCTAAGTGCAATACTTGGCCCGCCGGCTTCCCGCTGCCCCCATCGCGCTCACGCAATAACCGGCCCGGCCCCCGTCCGCGCGCGTCCCCCGGTGACCTCGGGGAGCAGCACCCCGCCTCCCTCCAGCACTGGCACCGAGAGGCAGGCCTGGCTGCGCAGGGCGCGGGGGGGAGGCTGGGGTCCCGCCGCCGTGATGAATGTACTGACGAGCCGAGGCAGCAGTGCCCCCACCGTGGCCCCCCACGCCCCATTAACCCCCACACCCCCATTCCGCGCAATAAACGACAGCATTGGCGCCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|151101234|ref|NM_012461.2| Homo sapiens TERF1 interacting nuclear factor 2 (TINF2), transcript variant 2, mRNA
CTCTTACCGCCCTTTTCCGGGGCAAGGGAAGCTAGTAGCGGAGCCGGAAGTGAGGCACCCTCGGGCTCGAGACAGCGGCGACGTTTAAAGCTGAGCGACCCAGTGCCACTGGAGACGGTCAGCTTCTCCACTCAGGCTCCTCCAGCCCGAGCCAGAAGACCCCCTCCCCCAGAATTCTGGGGGCCGATGGAAGGGAGCCGAGTCAGATCGCGAGGTACCCAGAGCCGACAGACCGGAGCGACAGGGAGTTGCCAGAAGCCCCGCCCCTAGGAGTGATCGGAAAGCCTCACCCATCCGGGTGAGGAACCCGGAGGGACCGCCTCCGGGCGGAGCCCGCCGACCATGGCTACGCCCCTGGTGGCGGGTCCCGCAGCTCTACGCTTCGCCGCCGCGGCTAGCTGGCAGGTTGTGCGCGGACGCTGCGTGGAACATTTTCCGCGAGTACTGGAGTTTCTGCGATCTCTGCGCGCTGTTGCCCCTGGCTTGGTTCGCTACCGGCACCACGAACGCCTTTGTATGGGCCTAAAGGCCAAGGTGGTGGTGGAGCTGATCCTGCAGGGCCGGCCTTGGGCCCAAGTCCTGAAAGCCCTGAATCACCACTTTCCAGAATCTGGACCTATAGTGCGGGATCCCAAGGCTACAAAGCAGGATCTGAGGAAGATTTTGGAGGCACAGGAAACTTTTTACCAGCAGGTGAAGCAGCTGTCAGAGGCTCCTGTGGATTTGGCCTCGAAGCTGCAGGAACTTGAACAAGAGTATGGGGAACCCTTTCTGGCTGCCATGGAAAAGCTGCTTTTTGAGTACTTGTGTCAGCTGGAGAAAGCACTGCCTACACCGCAGGCACAGCAGCTTCAGGATGTGCTGAGTTGGATGCAGCCTGGAGTCTCTATCACCTCTTCTCTTGCCTGGAGACAATATGGTGTGGACATGGGGTGGCTGCTTCCAGAGTGCTCTGTTACTGACTCAGTGAACCTGGCTGAGCCCATGGAACAGAATCCTCCTCAGCAACAAAGACTAGCACTCCACAATCCCCTGCCAAAAGCCAAGCCTGGCACACATCTTCCTCAGGGACCATCTTCAAGGACGCACCCAGAACCTCTAGCTGGCCGACACTTCAATCTGGCCCCTCTAGGCCGACGAAGAGTTCAGTCCCAATGGGCCTCCACTAGGGGAGGCCATAAGGAGCGCCCCACAGTCATGCTGTTTCCCTTTAGGAATCTCGGCTCACCAACCCAGGTCATATCTAAGCCTGAGAGCAAGGAAGAACATGCGATATACACAGCAGACCTAGCCATGGGCACAAGAGCAGCCTCCACTGGGAAGTCTAAGAGTCCATGCCAGACCCTGGGGGGAAGGGCTCTGAAGGAGAACCCAGTTGACTTGCCTGCCACAGAGCAAAAGGAGTGAGTGGAACAGAGTTGCTTCTTACTAGGAGCACATTCTTTGCCTGCCTTCCCTTCATCCTATCCTCTTTGCTTGCTCTCACCTCAGGAATTGCTTGGATTGCTACATGGACCCCCTGAGACTATCATTATTACCTCCTAGGGCCAGGAAGCCAGGTAGGTAGTCTGAGTCAGGATTGGATCAACAGCCTCCTCTCTTGGGGACTCTCAAGAGCCTGTGTTCATCTAGAAGTAGTAGTTTGATTCTGGTTTCCCTCCTACAGTGTGTCCTCCGTCTCTGTGCAGCTCCGTCATTACCATAGGGGACTTGGTTTTAGACTCTGATGAGGAAGAAAATGGCCAGGGGGAAGGAAAGGTGAGTGGGAAGGAGCAGAAAGCTGGGAAAGGGGATGGGTAGAACAAGACTGAGAAATCCACATGCTTCAGAATTCAGAGGGTTCAGGGAATGGTTTCGGATAGTAGGCTCTCCCTGCTCCCTTCTCTACAGGAATCTCTGGAAAACTATCAGAAGACAAAGTTTGACACCTTGATACCCACTCTCTGTGAATACCTACCCCCTTCTGGCCACGGTGCCATACCTGTTTCTTCCTGTGACTGTAGAGACAGTTCTAGACCTTTGTGATAGAACTAAAATGCTCTCTGTACTCTAGTCTCCTGCCTCCTCAGCTCTGCAAGTAGTTTAGTAGGAATGAAGTGGAAGTCCAGGCTTGGATTGCCTAACTACACTGCTAAAAATATTTGTAATCCTTAATAATTAAACTTTGGATTTGTTAAAAAAAAAAAAAAAAAAAAA
>gi|148470399|ref|NM_001098207.1| Homo sapiens heterogeneous nuclear ribonucleoprotein F (HNRNPF), transcript variant 6, mRNA
ACGCGTTTCCCATTGGTGACATCTTGGCGGGCCCGGCAATGGCACTTCCTCCTCTGCACCCCGTGACCCACGTCCGGCTGCCGGTCTTGGATCACGAGGCCTCCGCTTCCCGGACTCCGGACCCCGCGCCTCCTCGGGGCCGACGGGCCAGTCCCTGGCGTGGTTGAGAACAAAAACATGCACCTGGAGTTTCCCCGGAGCCCTCTGCGTGGTTGAGCTTCGGTGGAATTTCGGGGCTCTTGGCTGCCAGCCGCGCTTGCCTGGTAGCAACAGAAACCAGTCCTGCTCGCCTCCGTGGACATTTCATTACCATCCAGAAGTGTCTCCCACTGAAGGCATCCGTGGTTGTTTTTAAGCCACAAAAAAGCCACACCCAAGATCACCTGACACCCACCCTGACAAGTGTCCATGATGCTGGGCCCTGAGGGAGGTGAAGGCTTTGTGGTCAAGCTCCGTGGCCTGCCCTGGTCCTGCTCTGTTGAGGACGTGCAGAACTTCCTCTCTGACTGCACGATTCATGATGGGGCCGCAGGTGTCCATTTCATCTACACTAGAGAGGGCAGGCAGAGTGGTGAGGCTTTTGTTGAACTTGGATCAGAAGATGATGTAAAAATGGCCCTGAAAAAAGACAGGGAAAGCATGGGACACCGGTACATTGAGGTGTTCAAGTCCCACAGAACCGAGATGGATTGGGTGTTGAAGCACAGTGGTCCCAACAGTGCCGACAGCGCCAACGATGGCTTCGTGCGGCTTCGAGGACTCCCATTTGGATGCACAAAGGAAGAAATTGTTCAGTTCTTCTCAGGGTTGGAAATTGTGCCAAACGGGATCACATTGCCTGTGGACCCCGAAGGCAAGATTACAGGGGAAGCGTTCGTGCAGTTTGCCTCGCAGGAGTTAGCTGAGAAGGCTCTAGGGAAACACAAGGAGAGGATAGGGCACAGGTACATTGAGGTGTTTAAGAGCAGCCAGGAGGAAGTTAGGTCATACTCAGATCCCCCTCTGAAGTTCATGTCCGTGCAGCGGCCAGGGCCCTATGACCGGCCCGGGACTGCCAGGAGGTACATTGGCATCGTGAAGCAGGCAGGCCTGGAAAGGATGAGGCCTGGTGCCTACAGCACAGGCTACGGGGGCTACGAGGAGTACAGTGGCCTCAGTGATGGCTACGGCTTCACCACCGACCTGTTCGGGAGAGACCTCAGCTACTGTCTCTCCGGAATGTATGACCACAGATACGGCGACAGTGAGTTCACAGTGCAGAGCACCACAGGCCACTGTGTCCACATGAGGGGCCTGCCGTACAAAGCGACCGAGAACGACATTTACAACTTCTTCTCTCCTCTCAACCCTGTGAGAGTCCATATTGAGATTGGCCCAGATGGAAGAGTGACGGGTGAAGCAGATGTTGAGTTTGCTACTCATGAAGAAGCTGTGGCAGCTATGTCCAAAGACAGGGCCAATATGCAGCACAGATATATAGAACTCTTCTTGAATTCAACAACAGGGGCCAGCAATGGGGCGTATAGCAGCCAGGTGATGCAAGGCATGGGGGTGTCTGCTGCCCAGGCCACTTACAGTGGCCTGGAGAGCCAGTCAGTGAGTGGCTGTTACGGGGCCGGCTACAGTGGGCAGAACAGCATGGGTGGCTATGACTAGTTTTGTTAGGAACATTTGAGTTACTTCAATCATTTTCACAGGCAGCCAACAAGCAATTAAGAGCAGTTATAATAGAGGAAGCTGGGGGACCCATTTTGCACCATGAGTTTGTGAAAAATCTGGATTAAAAAATTACCTCTTCAGTGTTTTCTCATGCAAAATTTTCTTCTAGCATGTGATAATGAGTAAACTAAAACTATTTTCAGCTTTTCTCAATTAACATTTTGGTAGTATACTTCAGAGTGATGTTATCTAAGTTTAAGTAGTTTAAGTATGTTAAATGTGGATCTTTTACACCACATCACAGTGAACACACTGGGGAGACGTGCTTTTTTGGAAAACTCAAAGGTGCTAGCTCCCTGATTCAAAGAAATATTTCTCATGTTTGTTCATTCTAGTTTATATTTTCATTTAAAATCCTTTAGGTTAAGTTTAAGCTTTTTAAAAGTTAGTTTTGAGAATTGAGACACAATACTAATACTGTAGGAATTGGTGAGGCCTTGACTTAAAACTTTCTTTGTACTGTGATTTCCTTTTGGGTGTATTTTGCTAAGTGAAACTTGTTAAATTTTTTGTTAACTAAATTTTTTTCTTAAAATAAAGACTTTTTCACAATGACTGGCACAGATTACTCAGCAAAAGATAGCAAAACGGGTGGTTGAAGATAATTCATTTTAATCGTAATGTATTTTAGTGTGAATTTAAAAATTTCATACATCAAATCTATGATCTCCCTTATATTCTTATGATGAGGCTAAATAAAAGTCTAATAAAAATGTTAAATATGTGAATGGTGGAAATGGTGACTAGCAGCACACATTCTGGGAAGCATCAAATAGACACACGGCCCCAGCCACCTGCAACTTATGTGCACTGTTGTAAACCATTCAGAATTTTCCTGCTAGGCCCTTGATGCTGGAGTCACATCTGTTGATAGCTGGAGAACTTTAGTTTCAAGTACTACATTGTGAAAGCAATTATTTTGTTTCTAGTTTTTATAAAATGCTGATTTAAACTTTTAAAAAAAAAAAAAAAAAA
>gi|148470396|ref|NM_001098208.1| Homo sapiens heterogeneous nuclear ribonucleoprotein F (HNRNPF), transcript variant 1, mRNA
CGCCGCTCGCTCCGCCCCCCGCCCGGAAGCTCCCGCCCGAGCCCGCGCAGGCCCTGGGGCCGACCTTCCTGCCGGGCCGGGCGGTCCGAGGCTGCTGGAGTGCCGTGAGCAGGCCGCGGGAACGTCGCCGTCACCTTGTCTCGGGGCCTCGGCGCTGCTTCCCGCCAAAACACGTTTACCGCGCGCCCGGGCCTCCCACCTTGCGGAAGGGACCCCACCACCACTTGGATTTCTGTTGCAGGTTGAGAACAAAAACATGCACCTGGAGTTTCCCCGGAGCCCTCTGCGTGGTTGAGCTTCGGTGGAATTTCGGGGCTCTTGGCTGCCAGCCGCGCTTGCCTGGTAGCAACAGAAACCAGTCCTGCTCGCCTCCGTGGACATTTCATTACCATCCAGAAGTGTCTCCCACTGAAGGCATCCGTGGTTGTTTTTAAGCCACAAAAAAGCCACACCCAAGATCACCTGACACCCACCCTGACAAGTGTCCATGATGCTGGGCCCTGAGGGAGGTGAAGGCTTTGTGGTCAAGCTCCGTGGCCTGCCCTGGTCCTGCTCTGTTGAGGACGTGCAGAACTTCCTCTCTGACTGCACGATTCATGATGGGGCCGCAGGTGTCCATTTCATCTACACTAGAGAGGGCAGGCAGAGTGGTGAGGCTTTTGTTGAACTTGGATCAGAAGATGATGTAAAAATGGCCCTGAAAAAAGACAGGGAAAGCATGGGACACCGGTACATTGAGGTGTTCAAGTCCCACAGAACCGAGATGGATTGGGTGTTGAAGCACAGTGGTCCCAACAGTGCCGACAGCGCCAACGATGGCTTCGTGCGGCTTCGAGGACTCCCATTTGGATGCACAAAGGAAGAAATTGTTCAGTTCTTCTCAGGGTTGGAAATTGTGCCAAACGGGATCACATTGCCTGTGGACCCCGAAGGCAAGATTACAGGGGAAGCGTTCGTGCAGTTTGCCTCGCAGGAGTTAGCTGAGAAGGCTCTAGGGAAACACAAGGAGAGGATAGGGCACAGGTACATTGAGGTGTTTAAGAGCAGCCAGGAGGAAGTTAGGTCATACTCAGATCCCCCTCTGAAGTTCATGTCCGTGCAGCGGCCAGGGCCCTATGACCGGCCCGGGACTGCCAGGAGGTACATTGGCATCGTGAAGCAGGCAGGCCTGGAAAGGATGAGGCCTGGTGCCTACAGCACAGGCTACGGGGGCTACGAGGAGTACAGTGGCCTCAGTGATGGCTACGGCTTCACCACCGACCTGTTCGGGAGAGACCTCAGCTACTGTCTCTCCGGAATGTATGACCACAGATACGGCGACAGTGAGTTCACAGTGCAGAGCACCACAGGCCACTGTGTCCACATGAGGGGCCTGCCGTACAAAGCGACCGAGAACGACATTTACAACTTCTTCTCTCCTCTCAACCCTGTGAGAGTCCATATTGAGATTGGCCCAGATGGAAGAGTGACGGGTGAAGCAGATGTTGAGTTTGCTACTCATGAAGAAGCTGTGGCAGCTATGTCCAAAGACAGGGCCAATATGCAGCACAGATATATAGAACTCTTCTTGAATTCAACAACAGGGGCCAGCAATGGGGCGTATAGCAGCCAGGTGATGCAAGGCATGGGGGTGTCTGCTGCCCAGGCCACTTACAGTGGCCTGGAGAGCCAGTCAGTGAGTGGCTGTTACGGGGCCGGCTACAGTGGGCAGAACAGCATGGGTGGCTATGACTAGTTTTGTTAGGAACATTTGAGTTACTTCAATCATTTTCACAGGCAGCCAACAAGCAATTAAGAGCAGTTATAATAGAGGAAGCTGGGGGACCCATTTTGCACCATGAGTTTGTGAAAAATCTGGATTAAAAAATTACCTCTTCAGTGTTTTCTCATGCAAAATTTTCTTCTAGCATGTGATAATGAGTAAACTAAAACTATTTTCAGCTTTTCTCAATTAACATTTTGGTAGTATACTTCAGAGTGATGTTATCTAAGTTTAAGTAGTTTAAGTATGTTAAATGTGGATCTTTTACACCACATCACAGTGAACACACTGGGGAGACGTGCTTTTTTGGAAAACTCAAAGGTGCTAGCTCCCTGATTCAAAGAAATATTTCTCATGTTTGTTCATTCTAGTTTATATTTTCATTTAAAATCCTTTAGGTTAAGTTTAAGCTTTTTAAAAGTTAGTTTTGAGAATTGAGACACAATACTAATACTGTAGGAATTGGTGAGGCCTTGACTTAAAACTTTCTTTGTACTGTGATTTCCTTTTGGGTGTATTTTGCTAAGTGAAACTTGTTAAATTTTTTGTTAACTAAATTTTTTTCTTAAAATAAAGACTTTTTCACAATGACTGGCACAGATTACTCAGCAAAAGATAGCAAAACGGGTGGTTGAAGATAATTCATTTTAATCGTAATGTATTTTAGTGTGAATTTAAAAATTTCATACATCAAATCTATGATCTCCCTTATATTCTTATGATGAGGCTAAATAAAAGTCTAATAAAAATGTTAAATATGTGAATGGTGGAAATGGTGACTAGCAGCACACATTCTGGGAAGCATCAAATAGACACACGGCCCCAGCCACCTGCAACTTATGTGCACTGTTGTAAACCATTCAGAATTTTCCTGCTAGGCCCTTGATGCTGGAGTCACATCTGTTGATAGCTGGAGAACTTTAGTTTCAAGTACTACATTGTGAAAGCAATTATTTTGTTTCTAGTTTTTATAAAATGCTGATTTAAACTTTTAAAAAAAAAAAAAAAAAA
>gi|146260267|ref|NM_144775.2| Homo sapiens Smith-Magenis syndrome chromosome region, candidate 8 (SMCR8), mRNA
GACACCAGGAGTCATGTGATGTCAAGATGGCGGCGCCGCGGTAGCAGGATCCGGGTTGTGGCGTCCTAGGAGCCGCGACGGTTTCTGCCCTCGGGCAGTGAGGGGCAGCAGCGCTTGGCTGACCCCTGCGGCGTCCCGTAGCCTCGCGTTAAGCCTTGTTCAGAGCGGGGGCTTTTGCTGTCGCAGTGGGTTCCGGAGAGTGCAGGTGATTTCGCAGCAGGTTTCTTGTGCTGGCCGCGCTCGCCGGACGAAGAAGAGAAGGGCAGTTGGGCCTGCGGCCTTGGCGTTCATGAGGCCTCAGAGAGCTCCGGAGGAGCTACAACTGTGAGGGGGCTGCTAGAGTTCTTCTCCTCGGGTGTGTGAGAAGCAGCCTAGGACCCCGGGTTCGGGGAGTCGCAAAGAAGGCCGTAAGGGCTTCACTTCCTTCTCCGGAGGCCTGCCTTCTGCGCGTCGATTAACACCGCATTCTTTCCCACTTCCTCTCAATGTTTTCTTCATATATCTGGAAATATGATCAGCGCCCCTGACGTAGTGGCCTTCACCAAAGAGGAAGAGTATGAAGAAGAGCCTTACAATGAGCCGGCCCTGCCTGAGGAGTACTCGGTGCCGCTCTTCCCCTTCGCCAGTCAGGGTGCTAACCCCTGGTCAAAACTGTCCGGGGCCAAGTTTTCGAGGGACTTCATTCTTATTTCCGAGTTCTCTGAGCAGGTGGGACCCCAACCCTTACTGACCATCCCCAATGACACCAAAGTTTTTGGCACTTTTGATCTCAATTACTTCTCCCTGCGTATCATGTCTGTGGATTACCAGGCTTCCTTCGTGGGCCATCCTCCTGGATCTGCCTACCCCAAGCTGAACTTCGTGGAGGACTCCAAGGTGGTGCTGGGAGATTCTAAGGAGGGCGCCTTTGCATACGTGCACCACCTTACCCTATACGACCTGGAGGCCCGTGGCTTCGTGAGGCCGTTTTGCATGGCTTATATCTCTGCAGACCAGCATAAAATCATGCAGCAGTTCCAGGAGCTTTCAGCCGAATTTTCCAGAGCTTCTGAGTGCTTGAAGACTGGCAACAGGAAGGCATTTGCTGGGGAACTTGAAAAAAAGCTGAAAGACTTGGATTACACCAGGACAGTGCTACACACAGAAACGGAGATCCAGAAGAAAGCCAACGACAAAGGCTTTTACTCATCTCAGGCAATTGAGAAAGCCAATGAACTGGCCAGTGTGGAGAAGTCCATCATTGAACATCAAGACCTGCTGAAGCAGATCCGCTCATACCCTCATCGGAAGTTGAAGGGGCATGATTTGTGTCCTGGTGAGATGGAGCACATCCAGGATCAGGCCAGCCAGGCATCCACTACCTCTAACCCTGATGAGTCTGCCGACACAGACCTTTACACCTGCAGACCAGCCTACACCCCAAAACTTATCAAAGCAAAGTCCACCAAGTGTTTTGACAAGAAGTTGAAGACCTTGGAGGAGCTCTGTGACACTGAATATTTCACCCAGACCCTGGCTCAGCTCAGCCACATTGAACACATGTTCAGAGGAGACCTGTGTTACCTCCTGACCAGTCAGATTGATAGAGCACTTCTAAAACAACAGCATATAACAAACTTTCTCTTTGAAGACTTTGTGGAGGTCGATGACAGGATGGTGGAGAAACAAGAAAGCATACCCTCTAAGCCCAGTCAAGACAGGCCGCCTTCCAGTTCTCTAGAAGAATGCCCAATTCCTAAAGTGTTAATTAGTGTTGGTTCTTACAAGTCCAGTGTGGAGTCTGTGTTGATCAAGATGGAGCAGGAACTGGGAGATGAGGAGTACAAGGAAGTGGAAGTGACTGAGTTGAGCAGTTTCGACCCCCAGGAAAACTTGGACTACCTGGATATGGATATGAAAGGGAGTATCAGCAGTGGTGAAAGTATTGAAGTTTTGGGCACGGAGAAATCCACCTCCGTGCTTTCTAAATCTGACAGCCAGGCAAGCCTCACAGTACCATTGAGCCCCCAGGTGGTCCGGAGCAAAGCAGTCAGCCACAGGACCATCAGCGAGGACAGTATTGAAGTCCTCAGTACCTGCCCCTCTGAGGCCCTCATCCCTGATGACTTTAAGGCCAGCTACCCAAGTGCCATTAATGAAGAAGAATCATATCCAGATGGCAATGAAGGAGCCATCCGCTTCCAGGCAAGCATCAGTCCTCCAGAACTGGGTGAGACAGAGGAAGGCAGCATAGAAAACACCCCATCACAAATAGACTCCTCCTGCTGTATTGGGAAGGAGAGCGATGGTCAGTTGGTGCTGCCCTCCACTCCAGCCCACACACACTCTGACGAGGATGGGGTGGTGAGCAGCCCCCCACAGCGCCACAGGCAGAAGGACCAGGGGTTCCGTGTAGACTTTTCAGTGGAAAATGCCAACCCTTCTTCCCGAGACAACAGTTGTGAAGGGTTTCCCGCTTATGAGCTGGACCCGAGCCACCTGCTGGCTAGCCGGGACATCAGTAAGACCAGCCTGGACAACTACTCAGACACCACCAGCTACGTGAGCAGTGTAGCGTCCACCAGCTCAGACAGGATCCCCTCTGCTTATCCTGCTGGCCTGTCTTCCGATAGGCATAAAAAGAGGGCTGGCCAGAACGCCTTAAAATTCATCCGCCAGTACCCCTTTGCCCACCCAGCCATCTACTCCCTGCTCAGTGGGAGGACACTTGTGGTCCTGGGGGAAGATGAGGCCATAGTCAGGAAACTCGTGACTGCACTGGCTATCTTTGTCCCCAGCTATGGCTGCTACGCTAAGCCCGTGAAACATTGGGCCTCCTCCCCTTTGCACATTATGGATTTTCAGAAGTGGAAGCTTATTGGCTTGCAGAGAGTGGCCTCCCCTGCCGGTGCCGGTACCCTCCATGCCCTGAGCCGCTACAGCCGCTACACGAGCATCCTGGACCTTGACAACAAAACCCTGCGCTGCCCCCTTTACAGAGGCACCCTGGTGCCCCGCCTGGCAGACCACCGCACACAGATCAAGCGGGGCAGCACCTACTACCTGCATGTCCAGAGCATGCTCACCCAGCTCTGCTCCAAGGCCTTCCTCTACACCTTCTGCCACCACCTGCACCTGCCTACCCACGACAAGGAGACAGAGGAGCTGGTAGCCAGCCGCCAGATGAGCTTCCTAAAGCTGACCCTGGGTCTGGTGAATGAGGATGTTAGGGTGGTCCAGTACCTGGCTGAGCTGCTGAAGCTGCACTACATGCAGGAATCTCCAGGGACCAGCCACCCCATGCTCAGGTTTGACTATGTCCCCAGCTTTTTGTATAAAATCTGAGGTCGGTCCCAGACACTGTGACCAAGACCTGTGACTCAGGGTATGGGGAGGGGAGGGGTTGGCATGACCAAACAGTTGCCTGAGCTGGACTGTTTAAGTTTCTGGTGTCTGGCAGCATGGTTCCCACGTGGCTCCTAGTAGTTTTTAAGTTGGACATGGGCAGAAGTGGAGCCTGGCTCCCTCTAAAGGCGTCTGGAGGGATGGTGACAGCTACATTTGGCTCCCTGGTGAAGAGTGGCCCCTGGATATGGAGGGGGCCTTGGTTTTCTGAGGACTGGCAGCCAGGGCAGAAGGGAAGCCACCAGTCCCTTGGTGGGGCAGGGTGAGGGCAGGAAGGCCAAAGCCTGATGGGAGGAGCACACTGGCTGTATTCAGCATTGCCGGACACTTGAGTGGCAAAATGAACGAGGGTGACAGCCAGGTAACTGTTGTGGTTTGGTGGAAAACAGGAGGGCAGAACACCCATCGCCTCCTTCAGACCCAGATGCAGCCCTTTATTTGCTTCCTGGAGCCCACTGTCCTAGGGGAGGCCCTGGACCAGCCAGTGGGGGTGAGAAAGGCTGCCACCCTCTGGGTCGTGGGAAACATGCGACCTTGGCCTCAGGGCCACAGAGCGTGAGCAGCACCCTGTCCGCTGTCCTCGCCACCTTTACCTGGGAGAGAAGTGCCTGTGAGCGGGCCTTGGGACTCACTCCCCATACTCTTTCACCAGGAACGAGCAGAGTGTTCACTAGTCCTAGTGTGAAGCGGGCACAAGTGACCAAAGCCAATGGTGAGGACCACCTTGGGGGCTGGAGAGCACAGCAGGCAGAGCAGGGCTGAGGCGCCATGAGGCCATCACCACCATGCAAGGGAGGAGCAGCCAGCAGCTCTCCTGGGTGGCCCACTGGCTCCTGCCGGCCAGAGCGCATGAGCACTGACCTTCCTCGTGGGGAAGGTCTGCAGACCCGTGTGAACATGGCAGAGGCCACACTCCAGCTCCCACCCACATAAACCTTTGCAACCACTTCACTACCTCTCACTGGGTCTCGTGGGCTTGGGACAGCAACGGTTCTGTTTAGTCAGCTGGTGCAGGTGGTTGGCCCAGCCGATGAGAACTCAAATAGCACGGATTTCCTGGATGAGCTACCACGTGGCGCTCTTCAGGTTCTGCCTCTGGGAGGCTGTGTGCACCTCAGTCACCACAGCTCACGGCCGTCCCCAGTTGAGTCCCCCTTCTGAGGACAAGTTTGAAACTGGGAAGGAGACACCCCCTGGTTCCGCCAGCACCTATCCCACTGATAGTGATCCCCTGGCCTCCCCGAGCCTCCTTAGGCAATGGCCACTGGTTTGTAGACAGAGAGTTTCTTGCAGCCTTGAAAATTTTATTCCCTAAGTGGGGACAGCTCTGGTATTACTGCTTCTTTAATTTGTTCCACAAAAATTATGCTGAAATGGACCTGAATCAGCCCTGGGTGTGCTTCTGTTGGCGCCTGCTGCTGAGGCCCGGCCTGCCCATCGGCCTGTAGTACGCCATCGAGGTCATCATGGAGCCAGCCAGCTTCTCTTCTCATCAAGGAGGCAGAGACCCCTGGTGGAAGCCAAGAGTGACCGAAGAGGGCTTGCATCACGTCACTCCAGTGGTTCCCTCCTTGTCCAAGTCCTCGTTTTAAGGGCATGGCCCGTTGGCTCCAGCCGTTGGCTTCTGTTCAGGGTCCTTGCTCCCATCAGAGGTGTTTGATTTTGCTCCTGGGGCTGCGATGGAGAACCTTTTGTGGCAGATGGTGCTGCCTACATCTCATTGGTTCTCTGTACCTGTGCCCGTTGCGCATGTTCACAGACAGGAGAGTCGCCAGCAATACCTTGGCAGCCTTTAAATGTGAAACGTCTGTTACTTGCGCTGGAGGCAGAGGCTGTGCAGGGAGCCTGCTTCTAATCGTGGGCTCCCTTATCTGTTACGGTTCCCTCCCCTCCTGTTCTAGATGCTGATTCGTTTTCTCACTGGCTGGTTAATTGCTGTCTACTTAGGCCTCCAAGGCCATAACTGTGCAACATTTTATCTGAGAAGGAAGGAAGGTCAGAAAGTGATCACTGGCACCACCACTGTGGCATTCCTGTCACACCAACACAGAAATTCACAGCTCATACTGTTCTCACCTGGGAAACTTGGGAAGGGCTGATGAGTTTGGGGCAGATCCTGAATTGCAGCCACACTTGGCCTTCTAGAAGCTGAAGTTGTGCCCTCAAGTGGTCCTAAGTAGAAGTCCACTTGAGGTATTTGCTGGCACACACCCTCAAGGGTGGTTCAGAAGGTCCTGAAACCTAAGGCAAAAGGCTGCTGGGGCATGAACAGAACAGACCGTCTCAGGGGCAGCCATGTAAGTGGCAAGCAGGGCTGGTCTCCCTCAAGGTGGTTCTTCATTAAGTAAAGATGGCTTCGTGACTAGTGTTTAGCTCCCAGATTTATATTTGGGTTAAAAACTAACTTTTCAATGTGGCAGTTTCAAAGGATTACTTGATGCAAAGTATGTTTCCTTTCAAAGGGATCTTGACGTGGTACCAGGACTGAGTCATGATTTGGGCAGAGGCAGTTAACACTGGGAAGCCCTGCCCCTCCCTATGCCCCCTTCACTCCGGGGAACTGAAACCTACTCTGAGTCTCACATCTCTAAACCTCAGTGCTGAGACCTATGCAGTGGGACTAATCTCATCAAGAATTTTCAGTTGAGGCCGGGCGCAGTGGCTCACGCCTGTAATCCCAACACTTTGGGAGGCCGAGGTGGGCGGATCACCTGAGGTCAGGAGTTGGAGACCAGCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAGAAAGTTAGCCAGGTCTGGTGGTGCGTGCCTGTAATCCCACTTACTCGGGAGGCTGAGGCAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTACAGTGAGCCGAGATCGCGCCACTGCACTCCACCCTGGGCAACAAGAGCGAAAACTGTCTCAAAAAAAAAAAATTTTTCATTTGAGGTATTCTTCCAGTAGAAGGTTAGTAAGTTTTTAATGAAACCATTAAAAATTACACTTCCCAGAAAATAGATGACATCAGTGCCCCTTGCTACTTTCTCAGTCCTCACTATTGCTTTGAGGGCCCAGGTACTGAAACTGGTTGTCTTGAGTTTTGTGTCAGCTTTTTCTCCAGTCCATTATCCCCCTCCCTTGCTTCTGAAGCAGTCTAGGTTAAACTAGCCAGGCAGGTAGTTGTGGACTGGTGATTTTCAAAAGCCCCACTTTAGAGATCAGGCCACAGCTTTTTATATCGCACAGGACACATCAGCCTGAGCTGCTGCCTCATGCCTGTTTCCCCAGGAACCTCACTCCTTTGGTAGAACCTTGGGATTTTAGAAATTGTGGCTTTTCCATAACTCATTTACTCCAACAGTTGAAGTTACACACATTGCTCCCAAATTTGGAAATAGACCACAGTACCTTACCTTTCATTCCCCATCTGGCCTTTACCTTCTTTGCTTCAGTGGTTGAAAACAGTTGCCATATTCAAAGTATAGTAGATTTCAACCTCACACAAATGACAAGTCCCATTTTACAATCCTAGGAAGGCCCACCAATTTCATTTCACGCGCCAGGGCGGCTGCAGTTGGAGGCCGAGGGCAGCCCTCTGCTCACTGAATGTCTTGCATGTGCTGACTGCTGCCCGCAGTGCTGAACATGCCCCACCGCCCAGGCCCAGCACTGCTTGTTGGGTCAGCATCTAGTGCTGCTGTCACATCTTTGTCTGCACAGCCAGTAGGATTGCCTCAGCCAGGGGGTTTATCAGAAGGTGTGCAAGGCCTTTGGGGGAACTGAGCCCCTATAGTGGGCAGTCTCCTTTACCTTCCCACCTCCCTGAAAAGCACAGAAGACAGTGCCTTGGTTTGTGTTTTGAAGCAAACAAGTCAGCTTTCTGGCTTTGCCCCAAAACTGTGATGGAACATAATAAAACTGGAGATATGGTTTTTAACACTGCAAAAAGGAAAAAGCATCAAGTTTCTACTTCTGGCTGGAAAGCAAAACCAATCTCAGCTGACAAGGCTGGGCAAACTAAGTTTTCCTGAGCCCATTTTCCTTTGAGCCCTGACCTAGCCTGGCCTTACCTCATTAAGGTTTGGTTAAAGCAGTGGAAAGGAGGAGGAGGCAGGGGTGGATGGGGGTGTGGGGAGGGGATGAGCACTCTGCAGCCGATTAATCTGTTGGTAGGGGCCCAGCTTCTTGGGAGTGCTTATTCAGCCCAAGAGTGGAGGCTGTTTACAGCGAGCCCTGGAGATGGCAGCTTGTCTCCAGCTGGGGAGGGGTCAGGCCCCTAAATTGAAGACCACTTTGGTAGCAGAACTGTAGGGACTGGTGAGTCAACTCACAGATTCTGCAGCAGCTGCTCCACCCACAATAAAGCAAACGCCGACAGGCTAGACCCCAGATTGCAGGGGCTGCCACCTACAAGGTGGGACCACAGGCTGCCTCACCGGGATTGTCTGCCACTAAATAGCTGGAGTCACAGATTGAGATAAATGCCACCTTCAAGGTTGCAGTGAAAAGCATAATCCTATGTGATGAATTTATATGTGTTATTTTTTAAAAAGCTATTTTATTACTGCATGTTCCCGTCCCGTCTTGTGAATGTGAGTCCCCGCCACCACGTGAGGTGCAGTCGTTGCAGCGGCTGGTGCAGGAGTGCAGCTGGCGCGTGTGTGATAGCATCTCGTAGGTGTTGCTGCACAAGAGTTAACCAGAGTCAATGCCAAACACATAGTATGAGAAGTGTACTTTTTAAGAAATTAATTTATTTGAGTTCAAATATTTTTGAAATATAAAAATTGGTTGTATTTTTTAAAGCTATAATTCTTGTAGACATTCTGTGGTTAAAAATTTGATTGTGCTTATTAAAAATGGTCATCTATGTTTTGCACTTCAGCTACGTGAAAATAAAATTTCTTTGGGAAGGTGAAAAAAAAAAAAAAAAAA
>gi|125987597|ref|NM_012120.2| Homo sapiens CD2 associated protein (CD2AP), mRNA
CTCTGTCTGGGTCCCCACCTTAGTCTACGGTGTCGCCTTTTCTAACTGCGAGTGCTAAGGAAGAGGCGAGGGGCGGGCTCCGAGGCTAGGCGGGCGCTCGGGGTTGGAGCCGAGGGTCTGGGCAAACCGGTGGGTCCCTCCCCACTGCGGGAGCGGCCAGGGTGGGAAAACCGCGGTCGGGCGGGCGGGGTAGGGCCCTCCCGCCGCCGTGGCTCCTGGGGAGGCCAGGGGTGAGGAGCTGTCGCCGCCTTTGCCTCTGCCTCGAGGGCCGCGCTGAAGAGACTGGTAGGAGAGCGCCGCGGGCGGATGGAGGCGACTCTTCGCCCCGCCTGAGCTCAGGAGGGGCTAGCGCGGAGCGCGGGTCCCGCCTCCAGCCGCGGGAGCGGCCGCGCGAGCCACCACTGGAGGAGGAGGAGGAGGAGCGGACGTCGGCTTCTCCCCGCGGGAGCCCCCAGCATGGTTGACTATATTGTGGAGTATGACTATGATGCTGTACATGATGATGAATTAACTATTCGAGTTGGAGAAATCATCAGGAATGTGAAAAAGCTACAGGAGGAAGGGTGGCTGGAAGGAGAACTAAATGGGAGAAGAGGAATGTTCCCTGACAATTTCGTTAAGGAAATTAAAAGAGAGACGGAATTCAAGGATGACAGTTTGCCCATCAAACGGGAAAGGCATGGGAATGTAGCAAGTCTTGTACAACGAATAAGCACCTATGGACTTCCAGCTGGAGGAATTCAGCCACATCCACAAACCAAAAACATTAAGAAGAAGACCAAGAAGCGTCAGTGTAAAGTTCTTTTTGAGTACATTCCACAAAATGAGGATGAACTGGAGCTGAAAGTGGGAGATATTATTGATATTAATGAAGAGGTAGAAGAAGGCTGGTGGAGTGGAACCCTGAATAACAAGTTGGGACTGTTTCCCTCAAATTTTGTGAAAGAATTAGAGGTAACAGATGATGGTGAAACTCATGAAGCCCAGGACGATTCAGAAACTGTTTTGGCTGGGCCTACTTCACCTATACCTTCTCTGGGAAATGTGAGTGAAACTGCATCTGGATCAGTTACACAGCCAAAGAAAATTCGAGGAATTGGATTTGGAGACATTTTTAAAGAAGGCTCTGTGAAACTTCGGACAAGAACATCCAGTAGTGAAACAGAAGAGAAAAAACCAGAAAAGCCCTTAATCCTACAGTCACTGGGACCCAAAACTCAGAGTGTGGAGATAACAAAAACAGATACCGAAGGTAAAATTAAAGCTAAAGAATATTGTAGAACATTATTTGCCTATGAAGGTACTAATGAAGATGAACTTACTTTTAAAGAGGGGGAGATAATCCATTTGATAAGTAAGGAGACTGGAGAAGCTGGCTGGTGGAGGGGCGAACTTAATGGTAAAGAAGGAGTATTTCCAGACAATTTTGCTGTCCAGATAAATGAACTTGATAAAGACTTTCCAAAACCAAAGAAACCACCACCTCCTGCTAAGGCTCCAGCTCCAAAGCCTGAACTGATAGCTGCAGAGAAGAAATATTTTTCTTTAAAGCCTGAAGAAAAGGATGAAAAATCAACACTGGAACAGAAACCTTCTAAACCAGCAGCTCCACAAGTCCCACCCAAGAAACCTACTCCACCTACCAAAGCCAGTAATTTACTGAGATCTTCTGGAACAGTGTACCCAAAGCGACCTGAAAAACCAGTTCCTCCACCACCTCCTATAGCCAAGATTAATGGGGAAGTTTCTAGCATTTCATCAAAATTTGAAACTGAGCCAGTATCAAAACTAAAGCTAGATTCTGAACAGCTGCCCCTTAGACCAAAATCAGTAGACTTTGATTCACTTACAGTAAGGACCTCCAAAGAAACAGATGTTGTAAATTTTGATGACATAGCTTCCTCAGAAAACTTGCTTCATCTCACTGCAAATAGACCAAAGATGCCTGGAAGAAGGTTGCCGGGCCGTTTCAATGGTGGACATTCTCCAACTCACAGCCCCGAAAAAATCTTGAAGTTACCAAAAGAAGAAGACAGTGCCAACCTGAAGCCATCTGAATTAAAAAAAGATACATGCTACTCTCCAAAGCCATCTGTGTACCTTTCAACACCTTCCAGTGCTTCTAAAGCAAATACAACTGCTTTCCTGACTCCATTAGAAATCAAAGCTAAAGTGGAAACAGATGATGTGAAAAAAAATTCCCTGGATGAACTTAGAGCCCAGATTATTGAATTGTTGTGCATTGTAGAAGCACTGAAAAAGGATCACGGGAAAGAACTGGAAAAACTGCGAAAAGATTTGGAAGAAGAGAAGACAATGAGAAGTAATCTAGAGATGGAAATAGAGAAGCTGAAAAAAGCTGTCCTGTCTTCTTGAGTGGTGTGGACCTGGTGTTCATAATGTTCCAGGGATTCAGAAGCAACGCTATGAACTTCAGCTGACTTGTTACTTAAAAATTGTGAATTCTGTTGTTGTGATAAATATGAGCAAATGAAGTGTAATATCTATAGAAAAGTAGAGTGAGGGTGAATTTATATATATATTTTGTTTTGCCAATATGAAGAAAAAGAGGCCTTATTTCTTAACTGTGCTGGGATTGCAAACACTTTTTAAAAAATTGTTTGCTTGAAAATACTACTGAATATAAATAAGAATGTGCACAGTAGTTTTTTTATTGAAACTTGTATTATTTTTAAAGAGATCTATACTATAAATATGGTGATATATTTACAAGTAATCTGTTAAGATATACTATTTGAGAGGGACAGATTAGCCTTTTAGTAACTATAGTCACTACTTTTTCCATAATGCATAAGGGATATAAACTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATATATATATATATATTTTTACTTTTATCCTCTTACCGAAGGTTACACTGTTGTGCCTGTTTGTCTGCAATGCTGTTTATATTTTGGGTGATGAAATAGGAGTTTCCTAGCTATATAAACCAGATTACTCACCCATGCATATAGTAAGAACTAATGAATAATCAAAATAATTTCATCAACTTTTAGAATATTTTATGTTGCTTGCACTATAGGAGTCATAAAAGGAACTTAGTTAAAATATGTTGGATTGTTAAACATTTGGGGAAATATGAACTGTATTTTAAATTTGTTAGGTCTGAAGAATCTAAAACTGTTAATTTAACCCTTAACTTGTGCCTAGAAACTACAGCACATATAAAATATGTAAACACCAGCCTGTTGCTGTACTTTTCTGCTTATTTTACAGCCTCAAATATTTCTCATTATCTTGTCACTTAGTTCTTCATGTTTCTCCTTCTGACTTTTAATAATGGTAATAGGAAAACAAAACCCAAAGCTTTTCAGAACTTCAGTGTGAGGTTTCCTATTTTGACAAGTTAACTTGTAAATACTCAGGTTTTACGATGTATAATTTACCTAATAGACCAAACTAACTCATGGAGATATTTTGAACTATTATTTAGGTACAAACTTTATAAAGAATGTTAGTATGTCATAAAATATAACATTACAGCTTATTTAAAACCAAATATAGTTGAACATATTTAAAATACATTTTCACAGAATGGATGAATTAGTTGTTTCTTCAGAGTTACTTATGAACAGTTGAATGCTTTAAAATGTTCTGTCTGTAGGTAACATCTAAAACACAAGTGGGTTTATTTAAATTTTTAAAATTTGAAATTTTTTATTTGCAAAAAATTGTTTTATGCTTTATTATATCGCAAATGAGTGTCAGATTTTTGAGTACCAATGATCATGCTTCCATTTTTTTTAGTTTTAAACCACCAAACCAATATTTTTCCTTTAAATTTTAATCTTATAATATAGAAATCTTATGTAAATGAAATTTTGTCATGTTTCAAATAAAGAGAACTGAAGTAGAAAATAGAAATGCCAGTAAACAACATAATGTTTAATTTACAACTTACATTAGGGGTTTGGGGGAATGCTAATTATATATTGAGAATATACATTAGAACTCTTCAAAATGGGCTCTTCTAATGAGGTCACTACTGAACAAAATTGTTCCCTCTTCTGTTAAATAGAATAGGTTTAAATGACTAGTCAAATGAATTATTTTCTTCTTGTTAAATAAATTAAATCTTACTTTCTTTTAATGACCAACCTTAGGTAAAACAAAAATATTGTAATCCTAGAAATTATCCTCCAGCTTTCTCACCTGAAAATCTATTGAAGTGATCCCTGGTCATCCTAATAATGGGATGAGGGAAGTTTCCAGCAGATTTCAGGCTGTTCTTAAAGTTTTTGTTGGTCATTTTCTCAATAGTACATGAAATCAAGATGCTTATGAGCATGGAAATGTATTTAAAGTTTTTGCTTGTGTCCTCCTCAGTCAGAATAGAAAAGTAACTGAAATACTTTTACCTTTCTGTCCTTGATAAAATAGTAAAGAAAACCAAACAAACCCAGGCCTGATGGGAAAAATGATTCCTTTATTCTAGCAACTTACTTTCTGTTGGTATGGGAAATGTTATTAATTTCTATTACTAAAGTTCATATCACAAAATGATATTTAATAATAACCTTGGGGTAAATCATGAATTTTTTTTCTACGTGTGAGTATAAAAGACAAAAGTTGAACAGCATGGAATCTCATTGCCAAATTATTAGTGAATGTATAGTTCAGGTATTCTTTGAGACACACAGTATCATTAATTTCTGAATTGTATTTCAGTGTTATTTTTTGTTTGTGACCACTAAGCTTCTGTCTTAATACAAAGCTGTTACCTTCTACAGAATTTAAGTCTGAAGATGTAAAGAGAGAACAGGCCTTGTGTAACAGAAGATACTCTTTTTTATGCTCCTTACTGTGATCACAGAAAAATTAAAAATCCAAGTGCTCTCTAGATTTGTTGATAAACATTTTATGCTTGCATTTAAACTTGAAATGTATGAGCAGAATGAGACAATCAGTTAAATCAGAAATGAGAAGTATTATAATGTAAAGGCCTTGTTTTGCTGTAGCAATAAAATGACCAAGTGCAATGACTTGATTTAATAAAATCATATTTTAAAAGTTGCTGCTATGAATATTTTTGGCTATAAAATTTTACCCTGACTTGCTTTCAATAACTGTTACGTAATGCAGTTGATGTTGTAACCTAACATTCCAAAAAAAAAATTGAGAGGGGGAATCTCAAAATAGTATATACTTCACTAACTTGTTTACAGGTGCTGTATTTAAAAGCATGCTTCTCTCTCAAAAAGAAAAATTAAAGGATTTTATTGCCAGTCGTGTCAGTCTTTATTGGTTATTTTTTGTTAACTTTAGCATTTGTGTATTTCAGAGTATGATGAAAATTATATTACTTCAATTTCCAAATACAAGAATAAATAGTAAACCAAAAACATTAAAAAAAAAAAAAAAAAA
>gi|121582462|ref|NM_002761.2| Homo sapiens protamine 1 (PRM1), mRNA
GACTCACAGCCCACAGAGTTCCACCTGCTCACAGGTTGGCTGGCTCAGCCAAGGTGGTGCCCTGCTCTGAGCATTCAGGCCAAGCCCATCCTGCACCATGGCCAGGTACAGATGCTGTCGCAGCCAGAGCCGGAGCAGATATTACCGCCAGAGACAAAGAAGTCGCAGACGAAGGAGGCGGAGCTGCCAGACACGGAGGAGAGCCATGAGGTGCTGCCGCCCCAGGTACAGACCGCGATGTAGAAGACACTAATTGCACAAAATAGCACATCCACCAAACTCCTGCCTGAGAATGTTACCAGACTTCAAGATCCTCTTGCCACATCTTGAAAATGCCACCATCCAATAAAAATCAGGAGCCTGCTAAGGAACAATGCCGCCTGTCAATAAATGTTGAAAAGTCATCCCAAAAAAAAAAAAAAAAAA
>gi|118442838|ref|NM_002113.2| Homo sapiens complement factor H related 1 (CFHR1), mRNA
CAGTTAGTACACTGAAATTCAAAGTCATGCTCATAACTGTTAATGAAAGCAGATTCAAAGCAACACCACCACCACTGAAGTATTTTTAGTTATATAAGATTGGAACTACCAAGCATGTGGCTCCTGGTCAGTGTAATTCTAATCTCACGGATATCCTCTGTTGGGGGAGAAGCAACATTTTGTGATTTTCCAAAAATAAACCATGGAATTCTATATGATGAAGAAAAATATAAGCCATTTTCCCAGGTTCCTACAGGGGAAGTTTTCTATTACTCCTGTGAATATAATTTTGTGTCTCCTTCAAAATCATTTTGGACTCGCATAACATGCACAGAAGAAGGATGGTCACCAACACCAAAGTGTCTCAGACTGTGTTTCTTTCCTTTTGTGGAAAATGGTCATTCTGAATCTTCAGGACAAACACATCTGGAAGGTGATACTGTGCAAATTATTTGCAACACAGGATACAGACTTCAAAACAATGAGAACAACATTTCATGTGTAGAACGGGGCTGGTCCACCCCTCCCAAATGCAGGTCCACTGACACTTCCTGTGTGAATCCGCCCACAGTACAAAATGCTCATATACTGTCGAGACAGATGAGTAAATATCCATCTGGTGAGAGAGTACGTTATGAATGTAGGAGCCCTTATGAAATGTTTGGGGATGAAGAAGTGATGTGTTTAAATGGAAACTGGACAGAACCACCTCAATGCAAAGATTCTACGGGAAAATGTGGGCCCCCTCCACCTATTGACAATGGGGACATTACTTCATTCCCGTTGTCAGTATATGCTCCAGCTTCATCAGTTGAGTACCAATGCCAGAACTTGTATCAACTTGAGGGTAACAAGCGAATAACATGTAGAAATGGACAATGGTCAGAACCACCAAAATGCTTACATCCGTGTGTAATATCCCGAGAAATTATGGAAAATTATAACATAGCATTAAGGTGGACAGCCAAACAGAAGCTTTATTTGAGAACAGGTGAATCAGCTGAATTTGTGTGTAAACGGGGATATCGTCTTTCATCACGTTCTCACACATTGCGAACAACATGTTGGGATGGGAAACTGGAGTATCCAACTTGTGCAAAAAGATAGAATCAATCATAAAATGCACACCTTTATTCAGAACTTTAGTATTAAATCAGTTCTTAATTTCATTTTTAAGTATTGTTTTACTCCTTTTTATTCATACGTAAAATTTTGGATTAATTTGTGAAAATGTAATTATAAGCTGAGACCGGTGGCTCTCTTCTTAAAAGCACCATATTAAAACTTGGAAAACTAAAAAAAAAAAAAAAAA
>gi|117414136|ref|NM_178857.5| Homo sapiens RP1 like 1 (RP1L1), mRNA
CTCCTGCCCAAGGGACTGGGGCCTCAGGCTCTCAGGCCAAGGAGAGTGGCCCCGAGGACTGTCCGGAGGAGGGTGGCCAGCCCTGCTGCCCAGAGGGACTGAGCCACTGGCAGGGAAGGAGGCGGTGTTCCCCCTGGCCTGACTTTCCTCCAAAGGACGTCCCCCTGAGGCTTAGGGGCTGAGCCATGCCCTTGTGCTCCCTGGAGGACGCGGCCAGAGCCCCCACACCATGAACAGCACCCCCAGGAATGCCCAGGCCCCGAGCCACCGTGAGTGCTTCCTGCCCTCTGTGGCTCGCACCCCCTCGGTCACCAAGGTCACGCCAGCCAAGAAGATCACCTTCCTCAAGCGAGGGGATCCACGGTTTGCTGGGGTCCGCCTGGCCGTTCACCAGCGCGCCTTTAAGACCTTCAGCGCCCTCATGGACGAGCTCTCCCAGCGCGTGCCTCTCTCCTTTGGGGTGCGCTCTGTCACCACACCCCGGGGCCTGCATAGCCTCAGCGCCCTGGAGCAGCTGGAAGATGGAGGCTGCTACCTCTGCTCTGATAAGAAGCCCCCCAAGACCCCCAGTGGACCAGGCCGGCCACAGGAGAGAAACCCCACTGCTCAGCAGTTGCGGGATGTCGAAGGCCAGCGTGAAGCCCCAGGCACCTCCTCCTCCCGGAAGAGTCTTAAAACCCCCCGGAGGATACTGCTGATTAAGAACATGGACCCTCGCCTCCAGCAGACAGTGGTTCTCAGTCACAGGAATACTAGGAACCTGGCCGCCTTTCTCGGCAAAGCCTCAGATCTCCTGCGCTTTCCTGTGAAGCAGTTGTACACGACCAGCGGGAAAAAGGTGGACTCGCTGCAGGCCCTGCTGCACAGCCCCTCTGTGCTGGTGTGTGCCGGGCATGAGGCCTTCAGAACCCCAGCCATGAAAAATGCCAGGAGAAGCGAGGCTGAAACTTTATCTGGGCTGACTTCAAGAAACAAAAACGGGAGCTGGGGGCCAAAGACCAAGCCGAGTGTGATCCATTCGCGGTCTCCGCCAGGCAGCACGCCACGGCTGCCAGAAAGGCCTGGTCCTAGCAACCCCCCGGTGGGCCCTGCTCCTGGCAGGCACCCTCAGGACACGCCAGCTCAGTCGGGCCCGCTGGTGGCTGGCGATGACATGAAGAAGAAGGTCCGCATGAATGAGGACGGCAGCCTGTCCGTGGAGATGAAAGTCCGCTTCCACCTGGTCGGCGAGGACACGCTCCTATGGTCCCGGAGGATGGGCAGGGCCAGCGCCCTCACGGCAGCCAGTGGGGAAGACCCCGTTCTGGGGGAGGTAGACCCCCTCTGCTGTGTGTGGGAGGGCTACCCTTGGGGCTTCTCAGAGCCTGGGGTGTGGGGACCCCGGCCCTGCAGGGTGGGATGCAGGGAAGTCTTTGGCCGAGGCGGGCAGCCAGGGCCCAAGTATGAAATCTGGACGAATCCCCTGCATGCCTCCCAGGGAGAGAGAGTGGCAGCTCGGAAGAGGTGGGGACTGGCCCAGCACGTCCGCTGCAGTGGCCTGTGGGGCCACGGGACTGCCGGGAGGGAGAGATGCAGCCAGGACAGTGCCAGCCCAGCCTCCAGCACCGGCCTCCCCGAGGGCTCGGAGCCAGAGTCCTCCTGCTGCCCCAGGACCCCGGAGGACGGGGTGGACAGTGCCAGCCCCTCTGCCCAGATAGGGGCTGAGCGGAAAGCTGGAGGGAGCCTGGGTGAGGACCCCGGCCTATGCATAGATGGAGCAGGGCTGGGCGGCCCAGAGCAAGGCGGCCGCCTGACACCGAGGGCCCGGAGTGAGGAGGGGGCTTCTTCGGACTCGTCAGCCAGCACCGGCTCTCATGAGGGATCCAGCGAATGGGGTGGGCGGCCCCAGGGCTGTCCAGGCAAGGCAAGGGCCGAGACCTCTCAGCAGGAGGCCAGCGAGGGAGGCGACCCCGCTTCTCCAGCCCTGAGTCTTTCATCTTTAAGGAGTGACGACCTGCAGGCAGAGACGCAAGGACAGGGCACCGAGCAGGCCACGGGAGCGGCTGTGACAAGGGAGCCTCTGGTTCTGGGCCTTTCCTGCTCCTGGGACTCGGAAGGAGCCTCTTCCACCCCTTCCACCTGCACTTCATCCCAGCAGGGGCAGAGAAGGCACAGAAGCCGGGCCAGTGCAATGTCCTCACCCAGCAGCCCTGGCCTTGGCCGAGTGGCCCCGAGAGGCCATCCCAGGCATTCTCACTACCGCAAGGACACCCACAGCCCACTGGACTCCTCTGTAACCAAGCAAGTGCCGAGGCCTCCTGAGCGGCGAAGGGCCTGCCAGGATGGCTCAGTGCCACGATATTCTGGAAGCTCATCGAGCACCAGGACACAGGCCTCTGGGAACCTGAGACCTCCCTCCTCGGGCTCTCTTCCTTCCCAGGACCTTCTGGGAACCAGCAGTGCCACTGTCACCCCTGCAGTCCACTCGGATTTTGTTTCTGGAGTCTCCCCGCACAACGCTCCCTCTGCCGGGTGGGCAGGGGACGCGGGGTCCAGGACATGCTCGCCGGCCCCCATACCTCCCCACACATCCGACTCCTGCTCAAAATCTGGGGCTGCCAGCCTGGGGGAAGAGGCCAGGGACACGCCTCAGCCCTCCTCACCCTTGGTTCTGCAGGTTGGACGGCCTGAGCAAGGGGCGGTGGGCCCCCACCGAAGCCACTGCTGCTCACAGCCTGGGACGCAGCCGGCCCAAGAGGCCCAGCGGGGACCCTCCCCTGAGGCTAGCTGGCTGTGTGGCAGGTACTGTCCCACCCCGCCCAGGGGGCGGCCCTGCCCCCAGAGGCGCTCTTCCAGCTGTGGGAGCACCGGCAGCAGCCACCAAAGCACTGCCCGGGGGCCAGGTGGGAGCCCGCAGGAGGGGACACGCCAGCCAGGCCCCACGCCGTCCCCAGGCCCCAATTCAGGGGCATCAAGGAGAAGCAGTGCCAGCCAGGGTGCGGGGTCTCGGGGGCTGTCCGAGGAGAAGACCTTGAGGAGTGGGGGAGGCCCCCAGGGGCAGGAGGAGGCCAGTGGTGTGTCACCCAGCTCTCTGCCCCGCTCGTCTCCAGAGGCTGTGGTCCGCGAATGGCTGGACAACATTCCAGAAGAGCCCATACTCATGACATATGAGTTGGCGGACGAGACCACAGGTGCAGCTGGGGGTGGCCTGAGAGGCCCCGAGGTGGACCCTGGGGATGACCATTCTCTGGAAGGCCTGGGGGAGCCAGCTCAGGCGGGACAGCAGTCCCTGGAAGGGGACCCCGGCCAGGACCCAGAGCCAGAGGGAGCCCTCCTGGGGAGTAGTGACACTGGTCCCCAATCAGGAGAGGGTGTCCCCCAAGGGGCAGCTCCAGAGGGAGTTTCCGAGGCCCCTGCAGAGGCCGGAGCAGACAGAGAGGCCCCAGCAGGCTGCAGGGTGAGCCTGCGGGCACTTCCTGGCCGGGTGTCTGCCTCCACGCAGATCATGAGGGCGCTGATGGGCTCCAAGCAGGGCCGGCCCAGCAGCGTGCCCGAAGTGTCTAGGCCCATGGCCAGGAGGCTCAGCTGCTCAGCCGGGGCCCTCATTACTTGTCTGGCCAGTCTGCAGTTATTTGAGGAAGACCTTGGGTCTCCTGCCAGCAAAGTGAGGTTCAAAGACTCCCCTCGGTACCAGGAGCTGCTCAGCATCTCGAAGGACCTGTGGCCAGGATGTGACGTTGGGGAAGACCAGCTGGACTCAGGCCTCTGGGAGCTCACATGGAGCCAGGCTCTGCCAGACCTTGGGTCCCATGCCATGACGGAGAACTTCACGCCCACATCCTCCTCTGGTGTGGACATCAGCAGCGGCTCTGGAGGCTCAGGGGAGAGTAGCGTACCCTGTGCCATGGACGGCACCCTGGTGACACAGGGGACAGAGCTGCCCCTGAAAACCTCCAACCAGAGGCCTGATTCAAGAACTTATGAGAGCCCAGGGGATCTGGAAAACCAACAGCAGTGTTGTTTCCCAACCTTCTTGAACGCCCGAGCCTGCGCTTGTGCCACCAATGAGGATGAAGCAGAAAGAGACAGTGAGGAGCAGAGGGCGAGCTCGAACCTGGAGCAGTTAGCTGAAAACACAGTGCAAGAAGAGGTGCAATTAGAGGAAACTAAAGAAGGAACAGAAGGAGAAGGGCTGCAAGAAGAGGCGGTGCAGTTAGAGGAAACTAAAACAGAAGAAGGGCTGCAAGAAGAGGGGGTGCAGTTAGAGGAAACTAAAGAAACAGAAGGAGAAGGACAGCAAGAAGAAGAGGCGCAGTTAGAGGAAATTGAAGAAACAGGAGGAGAAGGGCTGCAAGAAGAGGGGGTGCAGTTAGAGGAAGTTAAAGAAGGGCCAGAAGGAGGACTGCAAGGAGAGGCTCTTGAAGAGGGTCTCAAAGAGGAAGGACTTCCAGAAGAAGGAAGCGTCCACGGGCAGGAATTGTCAGAGGCCAGCTCTCCGGATGGGAAAGGCTCCCAGGAAGATGACCCAGTCCAGGAGGAGGAAGCAGGAAGAGCCTCTGCCTCTGCAGAGCCGTGCCCCGCAGAGGGCACAGAGGAACCCACAGAGCCCCCTAGTCATCTCAGCGAGACGGACCCAAGTGCCAGCGAGAGGCAGAGTGGCTCCCAGCTTGAGCCTGGTTTGGAAAAGCCGCCCGGAGCCACCATGATGGGCCAAGAGCACACGCAGGCCCAACCCACCCAGGGGGCTGCAGAGAGGAGCTCTTCGGTGGCCTGCAGCGCGGCTCTGGACTGCGACCCCATCTGGGTGTCCGTGTTACTGAAGAAGACGGAGAAGGCCTTCCTGGCCCACCTTGCCAGTGCGGTGGCTGAGCTCCGAGCACGCTGGGGCCTGCAGGACAATGATCTGCTGGACCAGATGGCGGCCGAGCTGCAGCAGGACGTGGCCCAACGCCTCCAGGACAGCACCAAGAGAGAGCTCCAGAAGCTCCAGGGCCGGGCGGGTAGGATGGTGCTGGAGCCTCCAAGGGAGGCCCTCACCGGGGAGCTGCTCCTGCAGACCCAGCAGCGCAGACACCGTCTCCGGGGCCTGCGAAACCTCTCGGCCTTCTCTGAGCGGACCCTGGGCCTGGGGCCCCTCTCCTTCACCCTGGAGGACGAGCCAGCCCTCAGCACAGCCCTGGGGAGCCAGCTGGGCGAGGAGGCGGAGGGGGAGGAGTTCTGTCCCTGCGAGGCCTGCGTGAGGAAGAAAGTGAGCCCTATGTCCCCCAAGGCCACAATGGGGGCAACCAGAGGTCCCATCAAAGAGGCCTTTGACCTGCAGCAGATTCTGCAGAGGAAGAGGGGAGAACACACTGATGGGGAGGCAGCAGAGGTGGCCCCTGGCAAGACCCACACGGACCCCACGAGCACTAGGACTGTCCAGGGAGCTGAGGGAGGGCTGGGGCCGGGGCTGAGCCAGGGGCCTGGAGTGGACGAGGGTGAGGATGGCGAGGGGAGCCAGAGACTCAACAGAGACAAAGATCCCAAACTCGGGGAGGCAGAGGGAGATGCAATGGCTCAGGAGAGAGAAGGGAAAACCCACAACAGTGAAACCAGTGCGGGCAGTGAGTTGGGGGAAGCTGAGCAGGAGGGAGAGGGCATAAGTGAAAGGGGAGAAACTGGGGGTCAAGGCTCTGGGCATGAGGACAACTTGCAGGGTGAAGCTGCGGCAGGAGGTGACCAAGATCCAGGACAGAGTGATGGGGCCGAAGGCATAGAGGCCCCGGAGGCTGAAGGGGAGGCCCAGCCAGAGTCAGAAGGTGTAGAGGCCCCAGAGGCAGAAGGGGATGCCCAGGAGGCTGAAGGGGAGGCCCAGCCAGAGTCAGAAGATGTAGAGGCCCCAGAGGCAGAAGGAGAGGCCCAGCCAGAGTCAGAAGATGTAGAGACCCCAGAGGCAGAATGGGAGGTCCAGCCAGAGTCAGAAGGTGCAGAAGCCCCGGAGGCAGAAAAGGAGGCCCAGCCAGAGACAGAAAGTGTAGAGGCCCTGGAGACTGAAGGGGAGGACGAGCCAGAGTCAGAAGGTGCAGAGGCCCAAGAGGCAGAAGAGGCGGCCCAGGAGGCAGAAGGGCAGACCCAGCCAGAGTCAGAAGTTATAGAGTCCCAGGAGGCAGAAGAGGAAGCCCAGCCAGAGTCAGAAGATGTAGAGGCCCTGGAGGTTGAAGTGGAGACCCAGGAGGCAGAAGGGGAGGCCCAGCCAGAGTCAGAAGATGTAGAGGCCCCAGAGGCTGAAGGGGAGATGCAAGAGGCAGAAGAGGAGGCCCAGCCAGAGTCAGACGGTGTAGAGGCCCAGCCAAAGTCAGAAGGTGAAGAGGCCCAGGAGGTTGAAGGGGAGACCCAGAAGACAGAAGGGGATGCCCAGCCAGAGTCAGACGGTGTAGAGGCCCCGGAGGCAGAAGAGGAGGCACAGGAGGCTGAAGGGGAGGTCCAGGAGGCAGAAGGGGAGGCCCACCCAGAGTCAGAAGATGTAGATGCCCAGGAGGCAGAAGGGGAGGCCCAGCCAGAATCAGAAGGTGTAGAGGCCCCAGAGGCAGAAGGGGAGGCCCAGAAGGCAGAAGGTATAGAGGCCCCAGAGACTGAAGGGGAGGCCCAGCCAGAGTCAGAAGGTATAGAGGCCCCAGAGGCTGAAGGGGAGGCCCAGCCTGAGTCAGAAGGTGTAGAGGCCCAGGATGCAGAAGGGGAGGCCCAGCCAGAGTCAGAAGGTATAGAGGCCCAGGAGGCTGAAGAGGAGGCCCAACCAGAGTTAGAAGGTGTAGAGGCCCCAGAGGCAGAAGGGGAGGCCCAGCCAGAGTCAGAAGGTATAGAGGCCCCAGAGGCAGAAGGGGAGGCCCAACCAGAGTTAGAAGGTGTAGAGGCCCCGGAGGCTGAAGAGGAGGCCCAGCCAGAGCCAGAAGGCGTAGAGACCCCGGAGGCTGAAGGGGAGGCCCAGCCAGAGTCAGAAGGAGAAACTCAAGGTGAGAAAAAGGGGAGCCCTCAGGTCAGTCTAGGAGATGGCCAATCTGAGGAGGCTTCTGAAAGCAGCAGCCCAGTCCCTGAGGACAGGCCCACTCCACCCCCTTCCCCAGGTGGAGACACTCCCCACCAAAGGCCAGGCTCCCAAACAGGCCCTTCCTCCTCCAGAGCATCCTCTTGGGGCAACTGCTGGCAGAAAGACTCAGAAAATGACCATGTACTTGGAGACACAAGGAGCCCTGATGCCAAGTCCACGGGGACCCCTCATGCAGAGAGGAAGGCCACCAGGATGTACCCAGAAAGTTCTACTTCTGAGCAAGAAGAGGCCCCTTTGGGCTCAAGGACTCCAGAGCAGGGGGCCAGTGAAGGTTATGACCTACAAGAGGACCAGGCACTCGGAAGTCTCGCCCCCACTGAGGCAGTGGGCAGGGCAGACGGCTTTGGCCAAGATGACTTAGATTTCTAGACAAGATCAAGCTAGAAAACAATCACGAGCTTGGGAGCTCTGTTTTTATTCATATTTTTTCTACAAAACTGAGCAACGTTCAGTCCACTGGAGATGTCCATAGTACATGGACAAAGACCAAGGACTTGCCAAGGACACAGCCCATGCCATGCTGTCCTGGGACTCTTAAGTCCAGAAGTGTCAGAGAGCTCTGCGGCCCGTCCCACACGCAGTGTGAAGAAAGGGGGTGTCTGCGGATCTGCCCGGTTATCGGAGGTCAGCCCGGCTCCTATTTATTTGTCTGCAGAGCCCGAAAGATGGAACTGATTGGAAAGGCTCCAGTTTAGCTTTTGTTTGTGGGTTTGTTTTCTGCTAGCAAGTGTTGCTCTCTGTCTTTTCCCTGTTGATCTCCTGTTACTTTTCTCCTTGGCTTCTGTTGGCACTCACCTCATTTGACTTTGAGGTGCTTTTTTTCTAGTCTTGAATATATTTGATGACTCTGCAGAAATACTTGGGCAAAGCAGGTAACTTCAGAGTCATTGGATAAAGTTTGTTCTCAACTCCAAA
>gi|117190518|ref|NM_006656.5| Homo sapiens neuraminidase 3 (NEU3), mRNA
CTTTTCGTTGCCGTTACCTGTTTCCGGCAGTCGACACGCTCTTCGCTTCTCGGGGCTTGTCTCCGTGTCCTCCGTCTCAGTTGTTTCTCCCTCTCTATCCTCCTCTGTCTCAGTCTCCCCAGCCTTGGGGCCGGTGCCTCTTCCGGGCTTCGGCGAATGAGACCTGCGGACCTGCCCCCGCGCCCCATGGAAGAATCCCCGGCGTCCAGCTCTGCCCCGACAGAGACGGAGGAGCCGGGGTCCAGTGCAGAGGTCATGGAAGAAGTGACAACATGCTCCTTCAACAGCCCTCTGTTCCGGCAGGAAGATGACAGAGGGATTACCTACCGGATCCCAGCCCTGCTCTACATACCCCCCACCCACACCTTCCTGGCCTTTGCAGAGAAGCGTTCTACGAGGAGAGATGAGGATGCTCTCCACCTGGTGCTGAGGCGAGGGTTGAGGATTGGGCAGTTGGTACAGTGGGGGCCCCTGAAGCCACTGATGGAAGCCACACTACCGGGGCATCGGACCATGAACCCCTGTCCTGTATGGGAGCAGAAGAGTGGTTGTGTGTTCCTGTTCTTCATCTGTGTGCGGGGCCATGTCACAGAGCGTCAACAGATTGTGTCAGGCAGGAATGCTGCCCGCCTTTGCTTCATCTACAGTCAGGATGCTGGATGTTCATGGAGTGAGGTGAGGGACTTGACTGAGGAGGTCATTGGCTCAGAGCTGAAGCACTGGGCCACATTTGCTGTGGGCCCAGGTCATGGCATCCAGCTGCAGTCAGGGAGACTGGTCATCCCTGCGTATACCTACTACATCCCTTCCTGGTTCTTTTGCTTCCAGCTACCATGTAAAACCAGGCCTCATTCTCTGATGATCTACAGTGATGACCTAGGGGTCACATGGCACCATGGTAGACTCATTAGGCCCATGGTTACAGTAGAATGTGAAGTGGCAGAGGTGACTGGGAGGGCTGGCCACCCTGTGCTATATTGCAGTGCCCGGACACCAAACAGGTGCCGGGCAGAGGCGCTCAGCACTGACCATGGTGAAGGCTTTCAGAGACTGGCCCTGAGTCGACAGCTCTGTGAGCCCCCACATGGTTGCCAAGGGAGTGTGGTAAGTTTCCGGCCCCTGGAGATCCCACATAGGTGCCAGGACTCTAGCAGCAAAGATGCACCCACCATTCAGCAGAGCTCTCCAGGCAGTTCACTGAGGCTGGAGGAGGAAGCTGGAACACCGTCAGAATCATGGCTCTTGTACTCACACCCAACCAGTAGGAAACAGAGGGTTGACCTAGGTATCTATCTCAACCAGACCCCCTTGGAGGCTGCCTGCTGGTCCCGCCCCTGGATCTTGCACTGTGGGCCCTGTGGCTACTCTGATCTGGCTGCTCTGGAGGAGGAGGGCTTGTTTGGGTGTTTGTTTGAATGTGGGACCAAGCAAGAGTGTGAGCAGATTGCCTTCCGCCTGTTTACACACCGGGAGATCCTGAGTCACCTGCAGGGGGACTGCACCAGCCCTGGTAGGAACCCAAGCCAATTCAAAAGCAATTAATTGGCTTAGGACCCAATTTCCATAGATGCAAATGGCAGTTACAGACAGGTTAACAGAAGCTACTGAAGTCTACAGATAATCAAAAAACTTAATATTCTGTTCCCTACCTTTTTTCACTTTTCCTCCTCCAAAGAGCAAAATGAAAATTTTGCCTTAGCTACTGCAGTGGAAAGAGCACTGAACTAGGAGTTGGAAGACAAGGATGTGGTCCTGGCTCTGCCACTGGCTTGCTTTTGGACCTTGGATGTGTCACCTGAACTCTCTGGACCTCAGGTTTCCATCTGTAAAATGAGAGTATTGGTTCTAAGATTTCTCATCTTCTCATCCCTAGGACAAGCATAGTGCCTGCATGCTTCATGATCAGTAAGTCCTGGCTGCATAAAGGACTCTGATGTCAAAATGGAAACCAGGGGACTTACCTTTTCACATGACTTACCCCTCATCCGAGTGTGAGGTTACAAGCAGGTGTCATGGCAGGAAGGAAGACCAGATCTGTATGATTTGTTCCATTTTTAATAACAAAAATATCCACACCCTTTTAATAATGCTCAGTTCTGTAGGCTCTCTATCCTAGAGGAATTGAGCAAAACAGAAGAATCATGAAGTCTCCTACCTTCTACAGCCTTGTAGTTCTGCTTACCTTCTCTTCCTCATCCAGAAAGCATCATTTTCTAGGGAGAACAATGAGAATCTCAATGCCAGTAGTACTGGATAATAGTGCGTATTGCTTCTGGTGGCATTACCCTGATGATGGGCTGAAGTTCATTTATTAGGGTGGTTCCTGATGGGAAAAGGACATGGATTAGGACTTTAAAACACTGGACAGAATTTCCCACAGTCTTTGCCCTCAAGGAGTTCACCAGTTTATGGGGCTAGAAGAGCGAGAAAATTCAAGAAAATAAATGTAGCTGGTGGGAGACTTTGTAGATGTTGGGCTATATGTTGGGGTGATGGTAGCTCCTGATGTAATTTTCTTAGTTGCATCTTCAATATGCCTGGAGTCGTCTGTCCAAGGCTTGTCCAGGCTTCTGGGTTTCTCTCAAGTTTGTTTTTCTCAGGATATTGTCCTGGCCCAGCTACTCCTTTACCTGTGAGAAGATCTTCACCATTAGGAAGATCTCTAGACCCCCAGATCTCAGAATCAGGCCTATTTGTGTAGGCCCATGGAAATCACTACTTGTGAAGTAGAGATGCCTTTTTGTCTAA
>gi|116014337|ref|NM_030981.2| Homo sapiens RAB1B, member RAS oncogene family (RAB1B), mRNA
GCGGGCGGGGCCTCTGGGGCGGAGCGGCCACCATCTTGGAACGGGAGGCGGAGCAGAGTCGACTGGGAGCGACCGAGCGGGCCGCCGCCGCCGCCATGAACCCCGAATATGACTACCTGTTTAAGCTGCTTTTGATTGGCGACTCAGGCGTGGGCAAGTCATGCCTGCTCCTGCGGTTTGCTGATGACACGTACACAGAGAGCTACATCAGCACCATCGGGGTGGACTTCAAGATCCGAACCATCGAGCTGGATGGCAAAACTATCAAACTTCAGATCTGGGACACAGCGGGCCAGGAACGGTTCCGGACCATCACTTCCAGCTACTACCGGGGGGCTCATGGCATCATCGTGGTGTATGACGTCACTGACCAGGAATCCTACGCCAACGTGAAGCAGTGGCTGCAGGAGATTGACCGCTATGCCAGCGAGAACGTCAATAAGCTCCTGGTGGGCAACAAGAGCGACCTCACCACCAAGAAGGTGGTGGACAACACCACAGCCAAGGAGTTTGCAGACTCTCTGGGCATCCCCTTCTTGGAGACGAGCGCCAAGAATGCCACCAATGTCGAGCAGGCGTTCATGACCATGGCTGCTGAAATCAAAAAGCGGATGGGGCCTGGAGCAGCCTCTGGGGGCGAGCGGCCCAATCTCAAGATCGACAGCACCCCTGTAAAGCCGGCTGGCGGTGGCTGTTGCTAGGAGGGGCACATGGAGTGGGACAGGAGGGGGCACCTTCTCCAGATGATGTCCCTGGAGGGGGCAGGAGGTACCTCCCTCTCCCTCTCCTGGGGCATTTGAGTCTGTGGCTTTGGGGTGTCCTGGGCTCCCCATCTCCTTCTGGCCCATCTGCCTGCTGCCCTGAGCCCCGGTTCTGTCAGGGTCCCTAAGGGAGGACACTCAGGGCCTGTGGCCAGGCAGGGCGGAGGCCTGCTGTGCTGTTGCCTCTAGGTGACTTTCCAAGATGCCCCCCTACACACCTTTCTTTGGAACGAGGGCTCTTCTGTCGGTGTCCCTCCCACCCCCATGTATGCTGCACTGGGTTCTCTCCTTCTTCTTCCTGCTGTCCTGCCCAAGAACTGAGGGTCTCCCCGGCCTCTACTGCCCTGGCTGCAGTCAGTGCCCAGGGCGAGGAATGTGGCCAGGGGATCCAGGACCTGGGATCCAGGGCCCTGGGCTGGACCTCAGGACAGGCATGGAGGCCACAGGGGCCCAGCAGCCCACCCTTTCCTCTCCCCACTGCCTCCTCTCCCTTCCTACACTCCCAGCTCGAGCCGTCCAGCTGCGGTGGGATCTGAGTATATCTAGGGCGGGTGGGCGGGTAGCAGTGCTGGGCCTGTGTCTTGAGCCTGGAGGGAGTCTGCTCCTGCCGCCCTCTGCCCTGCCAGAGACAGACCCATGCGCTGCCTGCCCACCGTGCCCCTTTGTCCCCATGTCAGGCGGAGGCGGAAGGCCCACCGTGCCAGAGGCTGGGCACCAGCCTTAACCCTCACTCTGCTAGCACCTCCTCCCTTTCCCCAAGGTAGCACATCTGGCTCACTCCCCACTCCGTCTCTGGAGCCCACCAGGGAAGGCCCTCATCCCCTGCCGCTACTTCTCTGGGGAATGTGGGTTCCATCCAGGATTGGGGGCCTCTCTGCTCACCCACTCTGCACCCAGGATCCTAGTCCCCTGCCCTCTGGCACAGCTGCTTCCTGCAAGAAAGCAAGTCTTTGGTCTCCCTGAGAAGCCATGTCCCTCGTGCTGTCTCTTGCCTGTCCCACCTGTGCCCTGCCCTCCAGCTTGTATTTAAGTCCCTGGGCTGCCCCCTTGGGGTGCCCCCCGCTCCCAGGTTCCCCTCTGGTGTCATGTCAGGCATTTTGCAAGGAAAAGCCACTTGGGGAAAGATGGAAAAGGACAAAAAAAATTAATAAATTTCCATTGGCCCTCGGGTGAGCTGAGGGTTTTTGCAAGGAA
>gi|116006966|ref|NM_013962.2| Homo sapiens neuregulin 1 (NRG1), transcript variant GGF2, mRNA
TTTTTTTTTTTGCCCTTATACCTCTTCGCCTTTCTGTGGTTCCATCCACTTCTTCCCCCTCCTCCTCCCATAAACAACTCTCCTACCCCTGCACCCCCAATAAATAAATAAAAGGAGGAGGGCAAGGGGGGAGGAGGAGGAGTGGTGCTGCGAGGGGAAGGAAAAGGGAGGCAGCGCGAGAGAGCCGGGCAGAGTCCGAACCGACAGCCAGAAGCCCGCACGCACCTCGCACCATGAGATGGCGACGCGCCCCGCGCCGCTCCGGGCGTCCCGGCCCCCGGGCCCAGCGCCCCGGCTCCGCCGCCCGCTCGTCGCCGCCGCTGCCGCTGCTGCCACTACTGCTGCTGCTGGGGACCGCGGCCCTGGCGCCGGGGGCGGCGGCCGGCAACGAGGCGGCTCCCGCGGGGGCCTCGGTGTGCTACTCGTCCCCGCCCAGCGTGGGATCGGTGCAGGAGCTAGCTCAGCGCGCCGCGGTGGTGATCGAGGGAAAGGTGCACCCGCAGCGGCGGCAGCAGGGGGCACTCGACAGGAAGGCGGCGGCGGCGGCGGGCGAGGCAGGGGCGTGGGGCGGCGATCGCGAGCCGCCAGCCGCGGGCCCACGGGCGCTGGGGCCGCCCGCCGAGGAGCCGCTGCTCGCCGCCAACGGGACCGTGCCCTCTTGGCCCACCGCCCCGGTGCCCAGCGCCGGCGAGCCCGGGGAGGAGGCGCCCTATCTGGTGAAGGTGCACCAGGTGTGGGCGGTGAAAGCCGGGGGCTTGAAGAAGGACTCGCTGCTCACCGTGCGCCTGGGGACCTGGGGCCACCCCGCCTTCCCCTCCTGCGGGAGGCTCAAGGAGGACAGCAGGTACATCTTCTTCATGGAGCCCGACGCCAACAGCACCAGCCGCGCGCCGGCCGCCTTCCGAGCCTCTTTCCCCCCTCTGGAGACGGGCCGGAACCTCAAGAAGGAGGTCAGCCGGGTGCTGTGCAAGCGGTGCGCCTTGCCTCCCCGATTGAAAGAGATGAAAAGCCAGGAATCGGCTGCAGGTTCCAAACTAGTCCTTCGGTGTGAAACCAGTTCTGAATACTCCTCTCTCAGATTCAAGTGGTTCAAGAATGGGAATGAATTGAATCGAAAAAACAAACCACAAAATATCAAGATACAAAAAAAGCCAGGGAAGTCAGAACTTCGCATTAACAAAGCATCACTGGCTGATTCTGGAGAGTATATGTGCAAAGTGATCAGCAAATTAGGAAATGACAGTGCCTCTGCCAATATCACCATCGTGGAATCAAACGCTACATCTACATCCACCACTGGGACAAGCCATCTTGTAAAATGTGCGGAGAAGGAGAAAACTTTCTGTGTGAATGGAGGGGAGTGCTTCATGGTGAAAGACCTTTCAAACCCCTCGAGATACTTGTGCAAGTGCCCAAATGAGTTTACTGGTGATCGCTGCCAAAACTACGTAATGGCCAGCTTCTACAGTACGTCCACTCCCTTTCTGTCTCTGCCTGAATAGGAGCATGCTCAGTTGGTGCTGCTTTCTTGTTGCTGCATCTCCCCTCAGATTCCACCTAGAGCTAGATGTGTCTTACCAGATCTAATATTGACTGCCTCTGCCTGTCGCATGAGAACATTAACAAAAGCAATTGTATTACTTCCTCTGTTCGCGACTAGTTGGCTCTGAGATACTAATAGGTGTGTGAGGCTCCGGATGTTTCTGGAATTGATATTGAATGATGTGATACAAATTGATAGTCAATATCAAGCAGTGAAATATGATAATAAAGGCATTTCAAAGTCTCACTTTTATTGATAAAATAAAAATCATTCTACTGAACAGTCCATCTTCTTTATACAATGACCACATCCTGAAAAGGGTGTTGCTAAGCTGTAACCGATATGCACTTGAAATGATGGTAAGTTAATTTTGATTCAGAATGTGTTATTTGTCACAAATAAACATAATAAAAGGAGTTCAGATGTTTTTCTTCATTAACCAAA
>gi|115345345|ref|NM_000862.2| Homo sapiens hydroxy-delta-5-steroid dehydrogenase, 3 beta- and steroid delta-isomerase 1 (HSD3B1), mRNA
AGGAAATGAGGTGAGAAGTACGTCCACTCTTCTGTCCAGCTTTTAACAATCTAACTAATGCCCTCTCCAGGGTCACCCTAGAATCAGATCTGCTCCCCAGCATCTTCTGTTTCCTGGTGAGTGATTCCTGCTACTTTGGATGGCCATGACGGGCTGGAGCTGCCTTGTGACAGGAGCAGGAGGGTTTCTGGGACAGAGGATCATCCGCCTCTTGGTGAAGGAGAAGGAGCTGAAGGAGATCAGGGTCTTGGACAAGGCCTTCGGACCAGAATTGAGAGAGGAATTTTCTAAACTCCAGAACAAGACCAAGCTGACAGTGCTGGAAGGAGACATTCTGGATGAGCCATTCCTGAAGAGAGCCTGCCAGGACGTCTCGGTCATCATCCACACCGCCTGTATCATTGATGTCTTCGGTGTCACTCACAGAGAGTCTATCATGAATGTCAATGTGAAAGGTACCCAGCTCCTGTTAGAGGCCTGTGTCCAAGCTAGTGTGCCAGTCTTCATCTACACCAGTAGCATAGAGGTAGCCGGGCCCAACTCCTACAAGGAAATCATCCAGAATGGCCATGAAGAAGAGCCTCTGGAAAACACATGGCCCGCTCCATACCCACACAGCAAAAAGCTTGCTGAGAAGGCTGTACTGGCGGCTAACGGGTGGAATCTGAAAAACGGCGGCACCCTGTACACTTGTGCCTTACGACCCATGTATATCTATGGGGAAGGAAGCCGATTCCTTTCTGCTAGTATAAACGAGGCCCTGAACAACAATGGGATCCTGTCAAGTGTTGGAAAGTTCTCCACTGTTAACCCAGTCTATGTTGGCAATGTGGCCTGGGCCCACATTCTGGCCTTGAGGGCCCTGCAGGACCCCAAGAAGGCCCCAAGCATCCGAGGACAGTTCTACTATATCTCAGATGACACGCCTCACCAAAGCTATGATAACCTTAATTACACCCTGAGCAAAGAGTTCGGCCTCCGCCTTGATTCCAGATGGAGCTTTCCTTTATCCCTGATGTATTGGATTGGCTTCCTGCTGGAAATAGTGAGCTTCCTACTCAGGCCAATTTACACCTATCGACCGCCCTTCAACCGCCACATAGTCACATTGTCAAATAGCGTATTCACCTTCTCTTATAAGAAGGCTCAGCGAGATCTGGCGTATAAGCCACTCTACAGCTGGGAGGAAGCCAAGCAGAAAACGGTGGAGTGGGTTGGTTCCCTTGTGGACCGGCACAAGGAGACCCTGAAGTCCAAGACTCAGTGATTTAAGGATGACAGAGATGTGCATGTGGGTATTGTTAGGAGATGTCATCAAGCTCCACCCTCCTGGCCTCATACAGAAAGTGACAAGGGCACAAGCTCAGGTCCTGCTGCCTCCCTTTCATACAATGGCCAACTTATTGTATTCCTCATGTCATCAAAACCTGCGCAGTCATTGGCCCAACAAGAAGGTTTCTGTCCTAATCATATACCAGAGGAAAGACCATGTGGTTTGCTGTTACCAAATCTCAGTAGCTGATTCTGAACAATTTAGGGACTCTTTTAACTTGAGGGTCGTTTTGACTACTAGAGCTCCATTTCTACTCTTAAATGAGAAAGGATTTCCTTTCTTTTTAATCTTCCATTCCTTCACATAGTTTGATAAAAAGATCAATAAATGTTTGAATGTTTAATGTGAAAAAAAAA
>gi|112293258|ref|NM_001736.3| Homo sapiens complement C5a receptor 1 (C5AR1), mRNA
CTTGGGCAGGAGGGACCTTCGATCCTCGGGGAGCCCAGGAGACCAGAACATGAACTCCTTCAATTATACCACCCCTGATTATGGGCACTATGATGACAAGGATACCCTGGACCTCAACACCCCTGTGGATAAAACTTCTAACACGCTGCGTGTTCCAGACATCCTGGCCTTGGTCATCTTTGCAGTCGTCTTCCTGGTGGGAGTGCTGGGCAATGCCCTGGTGGTCTGGGTGACGGCATTCGAGGCCAAGCGGACCATCAATGCCATCTGGTTCCTCAACTTGGCGGTAGCCGACTTCCTCTCCTGCCTGGCGCTGCCCATCTTGTTCACGTCCATTGTACAGCATCACCACTGGCCCTTTGGCGGGGCCGCCTGCAGCATCCTGCCCTCCCTCATCCTGCTCAACATGTACGCCAGCATCCTGCTCCTGGCCACCATCAGCGCCGACCGCTTTCTGCTGGTGTTTAAACCCATCTGGTGCCAGAACTTCCGAGGGGCCGGCTTGGCCTGGATCGCCTGTGCCGTGGCTTGGGGTTTAGCCCTGCTGCTGACCATACCCTCCTTCCTGTACCGGGTGGTCCGGGAGGAGTACTTTCCACCAAAGGTGTTGTGTGGCGTGGACTACAGCCACGACAAACGGCGGGAGCGAGCCGTGGCCATCGTCCGGCTGGTCCTGGGCTTCCTGTGGCCTCTACTCACGCTCACGATTTGTTACACTTTCATCCTGCTCCGGACGTGGAGCCGCAGGGCCACGCGGTCCACCAAGACACTCAAGGTGGTGGTGGCAGTGGTGGCCAGTTTCTTTATCTTCTGGTTGCCCTACCAGGTGACGGGGATAATGATGTCCTTCCTGGAGCCATCGTCACCCACCTTCCTGCTGCTGAATAAGCTGGACTCCCTGTGTGTCTCCTTTGCCTACATCAACTGCTGCATCAACCCCATCATCTACGTGGTGGCCGGCCAGGGCTTCCAGGGCCGACTGCGGAAATCCCTCCCCAGCCTCCTCCGGAACGTGTTGACTGAAGAGTCCGTGGTTAGGGAGAGCAAGTCATTCACGCGCTCCACAGTGGACACTATGGCCCAGAAGACCCAGGCAGTGTAGGCGACAGCCTCATGGGCCACTGTGGCCCGATGTCCCCTTCCTTCCCGGCCATTCTCCCTCTTGTTTTCACTTCACTTTTCGTGGGATGGTGTTACCTTAGCTAACTAACTCTCCTCCATGTTGCCTGTCTTTCCCAGACTTGTCCCTCCTTTTCCAGCGGGACTCTTCTCATCCTTCCTCATTTGCAAGGTGAACACTTCCTTCTAGGGAGCACCCTCCCACCCCCCACCCCCCCCACACACACCATCTTTCCATCCCAGGCTTTTGAAAAACAAACAGAAACCCGTGTATCTGGGATATTTCCATATGGCAATAGGTGTGAACAGGGAACTCAGAATACAGACAAGTAGAAAGATTCTCGCTTAAAAAAAATGTATTTATTTTATGGCAAGTTGGAAAATATGTAACTGGAATCTCAAAAGTTCTTTGGGACAAAACAGAAGTCCATGGAGTTATCTAAGCTCTTGTAAGTGAGTTAATTTAAAAAAGAAAATTAGGCTGAGAGCAGTGGCTCACGCCTGTAATCCCAGAACTTTGGGAGGCTAAGGTGGGTGGATCACCTGAGGTCAAGAGTTCCAGACCAGGCTGGCCAGCATGGTGAAACCCCGTCTGTACTAAAAATACAAAAAATTAACTGGGCATGGTAGTGGGTGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGTGGGAGAATTGCTCGAACTTGGAGGTGGAGGTTGTGGTGAGCCATGATCGCACCACTGCACTCTAGCCTGGGTGACCGAGGGAGGCTCTGTCTCAAAAGCAAAGCAAAAACAAAAACAAAAACACCTAAAAAACCTGCAGTTTTGTTTGTACTTTGTTTTTAAATTATGCTTTCTATTTTGAGATCATTGCAAACTCAACACAATTGTAAGTAATGATACAGAGGGATCTTGTGTACCCTTCACCCAGCCTCCCCCAATGGCAACATCTTGCAAAACTACAATGTAGTCTCATAACCAGGATATTGACATTGATACAGTGAAGATACAGGACATTCTCATCACCACAGGGATCCCCAGGATGCCCACTTCCCTCCACCCCCACACCCCAGCCGTGTCCCTAACCCCTGGCAACCAGGAATCCACTCTCCATTTCTATAATGTTGTCATTTCAAGAATGTTATTCAATGGAATCATATAGTATGTAACCTGTTTTGAGCTTAAAAAAAAAGTATACATGACTTTAATGAGGAAAATAAAAATGAATATTGAAATGTT
>gi|111118975|ref|NM_001844.4| Homo sapiens collagen type II alpha 1 chain (COL2A1), transcript variant 1, mRNA
AACGGGCGCCGCGGCGGGGAGAAGACGCAGAGCGCTGCTGGGCTGCCGGGTCTCCCGCTTCCCCCTCCTGCTCCAAGGGCCTCCTGCATGAGGGCGCGGTAGAGACCCGGACCCGCGCCGTGCTCCTGCCGTTTCGCTGCGCTCCGCCCGGGCCCGGCTCAGCCAGGCCCCGCGGTGAGCCATGATTCGCCTCGGGGCTCCCCAGACGCTGGTGCTGCTGACGCTGCTCGTCGCCGCTGTCCTTCGGTGTCAGGGCCAGGATGTCCAGGAGGCTGGCAGCTGTGTGCAGGATGGGCAGAGGTATAATGATAAGGATGTGTGGAAGCCGGAGCCCTGCCGGATCTGTGTCTGTGACACTGGGACTGTCCTCTGCGACGACATAATCTGTGAAGACGTGAAAGACTGCCTCAGCCCTGAGATCCCCTTCGGAGAGTGCTGCCCCATCTGCCCAACTGACCTCGCCACTGCCAGTGGGCAACCAGGACCAAAGGGACAGAAAGGAGAACCTGGAGACATCAAGGATATTGTAGGACCCAAAGGACCTCCTGGGCCTCAGGGACCTGCAGGGGAACAAGGACCCAGAGGGGATCGTGGTGACAAAGGTGAAAAAGGTGCCCCTGGACCTCGTGGCAGAGATGGAGAACCTGGGACCCCTGGAAATCCTGGCCCCCCTGGTCCTCCCGGCCCCCCTGGTCCCCCTGGTCTTGGTGGAAACTTTGCTGCCCAGATGGCTGGAGGATTTGATGAAAAGGCTGGTGGCGCCCAGTTGGGAGTAATGCAAGGACCAATGGGCCCCATGGGACCTCGAGGACCTCCAGGCCCTGCAGGTGCTCCTGGGCCTCAAGGATTTCAAGGCAATCCTGGTGAACCTGGTGAACCTGGTGTCTCTGGTCCCATGGGTCCCCGTGGTCCTCCTGGTCCCCCTGGAAAGCCTGGTGATGATGGTGAAGCTGGAAAACCTGGAAAAGCTGGTGAAAGGGGTCCGCCTGGTCCTCAGGGTGCTCGTGGTTTCCCAGGAACCCCAGGCCTTCCTGGTGTCAAAGGTCACAGAGGTTATCCAGGCCTGGACGGTGCTAAGGGAGAGGCGGGTGCTCCTGGTGTGAAGGGTGAGAGTGGTTCCCCGGGTGAGAACGGATCTCCGGGCCCAATGGGTCCTCGTGGCCTGCCTGGTGAAAGAGGACGGACTGGCCCTGCTGGCGCTGCGGGTGCCCGAGGCAACGATGGTCAGCCAGGCCCCGCAGGGCCTCCGGGTCCTGTCGGTCCTGCTGGTGGTCCTGGCTTCCCTGGTGCTCCTGGAGCCAAGGGTGAAGCCGGCCCCACTGGTGCCCGTGGTCCTGAAGGTGCTCAAGGTCCTCGCGGTGAACCTGGTACTCCTGGGTCCCCTGGGCCTGCTGGTGCCTCCGGTAACCCTGGAACAGATGGAATTCCTGGAGCCAAAGGATCTGCTGGTGCTCCTGGCATTGCTGGTGCTCCTGGCTTCCCTGGGCCACGGGGCCCTCCTGGCCCTCAAGGTGCAACTGGTCCTCTGGGCCCGAAAGGTCAGACGGGTGAACCTGGTATTGCTGGCTTCAAAGGTGAACAAGGCCCCAAGGGAGAACCTGGCCCTGCTGGCCCCCAGGGAGCCCCTGGACCCGCTGGTGAAGAAGGCAAGAGAGGTGCCCGTGGAGAGCCTGGTGGCGTTGGGCCCATCGGTCCCCCTGGAGAAAGAGGTGCTCCCGGCAACCGCGGTTTCCCAGGTCAAGATGGTCTGGCAGGTCCCAAGGGAGCCCCTGGAGAGCGAGGGCCCAGTGGTCTTGCTGGCCCCAAGGGAGCCAACGGTGACCCTGGCCGTCCTGGAGAACCTGGCCTTCCTGGAGCCCGGGGTCTCACTGGCCGCCCTGGTGATGCTGGTCCTCAAGGCAAAGTTGGCCCTTCTGGAGCCCCTGGTGAAGATGGTCGTCCTGGACCTCCAGGTCCTCAGGGGGCTCGTGGGCAGCCTGGTGTCATGGGTTTCCCTGGCCCCAAAGGTGCCAACGGTGAGCCTGGCAAAGCTGGTGAGAAGGGACTGCCTGGTGCTCCTGGTCTGAGGGGTCTTCCTGGCAAAGATGGTGAGACAGGTGCTGCAGGACCCCCTGGCCCTGCTGGACCTGCTGGTGAACGAGGCGAGCAGGGTGCTCCTGGGCCATCTGGGTTCCAGGGACTTCCTGGCCCTCCTGGTCCCCCAGGTGAAGGTGGAAAACCAGGTGACCAGGGTGTTCCCGGTGAAGCTGGAGCCCCTGGCCTCGTGGGTCCCAGGGGTGAACGAGGTTTCCCAGGTGAACGTGGCTCTCCCGGTGCCCAGGGCCTCCAGGGTCCCCGTGGCCTCCCCGGCACTCCTGGCACTGATGGTCCCAAAGGTGCATCTGGCCCAGCAGGCCCCCCTGGGGCTCAGGGCCCTCCAGGTCTTCAGGGAATGCCTGGCGAGAGGGGAGCAGCTGGTATCGCTGGGCCCAAAGGCGACAGGGGTGACGTTGGTGAGAAAGGCCCTGAGGGAGCCCCTGGAAAGGATGGTGGACGAGGCCTGACAGGTCCCATTGGCCCCCCTGGCCCAGCTGGTGCTAATGGCGAGAAGGGAGAAGTTGGACCTCCTGGTCCTGCAGGAAGTGCTGGTGCTCGTGGCGCTCCGGGTGAACGTGGAGAGACTGGGCCCCCCGGACCAGCGGGATTTGCTGGGCCTCCTGGTGCTGATGGCCAGCCTGGGGCCAAGGGTGAGCAAGGAGAGGCCGGCCAGAAAGGCGATGCTGGTGCCCCTGGTCCTCAGGGCCCCTCTGGAGCACCTGGGCCTCAGGGTCCTACTGGAGTGACTGGTCCTAAAGGAGCCCGAGGTGCCCAAGGCCCCCCGGGAGCCACTGGATTCCCTGGAGCTGCTGGCCGCGTTGGACCCCCAGGCTCCAATGGCAACCCTGGACCCCCTGGTCCCCCTGGTCCTTCTGGAAAAGATGGTCCCAAAGGTGCTCGAGGAGACAGCGGCCCCCCTGGCCGAGCTGGTGAACCCGGCCTCCAAGGTCCTGCTGGACCCCCTGGCGAGAAGGGAGAGCCTGGAGATGACGGTCCCTCTGGTGCCGAAGGTCCACCAGGTCCCCAGGGTCTGGCTGGTCAGAGAGGCATCGTCGGTCTGCCTGGGCAACGTGGTGAGAGAGGATTCCCTGGCTTGCCTGGCCCGTCGGGTGAGCCCGGCAAGCAGGGTGCTCCTGGAGCATCTGGAGACAGAGGTCCTCCTGGCCCCGTGGGTCCTCCTGGCCTGACGGGTCCTGCAGGTGAACCTGGACGAGAGGGAAGCCCCGGTGCTGATGGCCCCCCTGGCAGAGATGGCGCTGCTGGAGTCAAGGGTGATCGTGGTGAGACTGGTGCTGTGGGAGCTCCTGGAGCCCCTGGGCCCCCTGGCTCCCCTGGCCCCGCTGGTCCAACTGGCAAGCAAGGAGACAGAGGAGAAGCTGGTGCACAAGGCCCCATGGGACCCTCAGGACCAGCTGGAGCCCGGGGAATCCAGGGTCCTCAAGGCCCCAGAGGTGACAAAGGAGAGGCTGGAGAGCCTGGCGAGAGAGGCCTGAAGGGACACCGTGGCTTCACTGGTCTGCAGGGTCTGCCCGGCCCTCCTGGTCCTTCTGGAGACCAAGGTGCTTCTGGTCCTGCTGGTCCTTCTGGCCCTAGAGGTCCTCCTGGCCCCGTCGGTCCCTCTGGCAAAGATGGTGCTAATGGAATCCCTGGCCCCATTGGGCCTCCTGGTCCCCGTGGACGATCAGGCGAAACCGGCCCTGCTGGTCCTCCTGGAAATCCTGGACCCCCTGGTCCTCCAGGTCCCCCTGGCCCTGGCATCGACATGTCCGCCTTTGCTGGCTTAGGCCCGAGAGAGAAGGGCCCCGACCCCCTGCAGTACATGCGGGCCGACCAGGCAGCCGGTGGCCTGAGACAGCATGACGCCGAGGTGGATGCCACACTCAAGTCCCTCAACAACCAGATTGAGAGCATCCGCAGCCCCGAGGGCTCCCGCAAGAACCCTGCTCGCACCTGCAGAGACCTGAAACTCTGCCACCCTGAGTGGAAGAGTGGAGACTACTGGATTGACCCCAACCAAGGCTGCACCTTGGACGCCATGAAGGTTTTCTGCAACATGGAGACTGGCGAGACTTGCGTCTACCCCAATCCAGCAAACGTTCCCAAGAAGAACTGGTGGAGCAGCAAGAGCAAGGAGAAGAAACACATCTGGTTTGGAGAAACCATCAATGGTGGCTTCCATTTCAGCTATGGAGATGACAATCTGGCTCCCAACACTGCCAACGTCCAGATGACCTTCCTACGCCTGCTGTCCACGGAAGGCTCCCAGAACATCACCTACCACTGCAAGAACAGCATTGCCTATCTGGACGAAGCAGCTGGCAACCTCAAGAAGGCCCTGCTCATCCAGGGCTCCAATGACGTGGAGATCCGGGCAGAGGGCAATAGCAGGTTCACGTACACTGCCCTGAAGGATGGCTGCACGAAACATACCGGTAAGTGGGGCAAGACTGTTATCGAGTACCGGTCACAGAAGACCTCACGCCTCCCCATCATTGACATTGCACCCATGGACATAGGAGGGCCCGAGCAGGAATTCGGTGTGGACATAGGGCCGGTCTGCTTCTTGTAAAAACCTGAACCCAGAAACAACACAATCCGTTGCAAACCCAAAGGACCCAAGTACTTTCCAATCTCAGTCACTCTAGGACTCTGCACTGAATGGCTGACCTGACCTGATGTCCATTCATCCCACCCTCTCACAGTTCGGACTTTTCTCCCCTCTCTTTCTAAGAGACCTGAACTGGGCAGACTGCAAAATAAAATCTCGGTGTTCTATTTATTTATTGTCTTCCTGTAAGACCTTCGGGTCAAGGCAGAGGCAGGAAACTAACTGGTGTGAGTCAAATGCCCCCTGAGTGACTGCCCCCAGCCCAGGCCAGAAGACCTCCCTTCAGGTGCCGGGCGCAGGAACTGTGTGTGTCCTACACAATGGTGCTATTCTGTGTCAAACACCTCTGTATTTTTTAAAACATCAATTGATATTAAAAATGAAAAGATTATTGGAAAGTACA
>gi|109698600|ref|NM_001042432.1| Homo sapiens CLN3, battenin (CLN3), transcript variant 1, mRNA
ATAACTGGTGCTGGCAGGCTACTGTCTCGGTCTTGGGCGCCACTGATCTAAGGTCACGGCTCTGCTTGCTGCTCCCACCCGCTCCAGTTTAAAACCTGCGGTTCCAGGGTTCTCCAGCCCCTCCCTTTTTCACGCTCCGAAGCCGAGAAGGCCCAAAGCGAAGACAGAGAGGACCCGGAAGTAGGGAAAACCTCTGAGCACGTGATGGGGGAACACGCGGGTGCTGTCACGTGATCCGACAAACGGCCTCTGCATAGTGCAGAACATTCTGCTGCTCTTAAAGACCCTCATCCCTCCCGTGGGAGCCCCCTTTGGACACTCTATGACCCTGGACCCTCGGGGGACCTGAACTTGATGCGATGGGAGGCTGTGCAGGCTCGCGGCGGCGCTTTTCGGATTCCGAGGGGGAGGAGACCGTCCCGGAGCCCCGGCTCCCTCTGTTGGACCATCAGGGCGCGCATTGGAAGAACGCGGTGGGCTTCTGGCTGCTGGGCCTTTGCAACAACTTCTCTTATGTGGTGATGCTGAGTGCCGCCCACGACATCCTTAGCCACAAGAGGACATCGGGAAACCAGAGCCATGTGGACCCAGGCCCAACGCCGATCCCCCACAACAGCTCATCACGATTTGACTGCAACTCTGTCTCTACGGCTGCTGTGCTCCTGGCGGACATCCTCCCCACACTCGTCATCAAATTGTTGGCTCCTCTTGGCCTTCACCTGCTGCCCTACAGCCCCCGGGTTCTCGTCAGTGGGATTTGTGCTGCTGGAAGCTTCGTCCTGGTTGCCTTTTCTCATTCTGTGGGGACCAGCCTGTGTGGTGTGGTCTTCGCTAGCATCTCATCAGGCCTTGGGGAGGTCACCTTCCTCTCCCTCACTGCCTTCTACCCCAGGGCCGTGATCTCCTGGTGGTCCTCAGGGACTGGGGGAGCTGGGCTGCTGGGGGCCCTGTCCTACCTGGGCCTCACCCAGGCCGGCCTCTCCCCTCAGCAGACCCTGCTGTCCATGCTGGGTATCCCTGCCCTGCTGCTGGCCAGCTATTTCTTGTTGCTCACATCTCCTGAGGCCCAGGACCCTGGAGGGGAAGAAGAAGCAGAGAGCGCAGCCCGGCAGCCCCTCATAAGAACCGAGGCCCCGGAGTCGAAGCCAGGCTCCAGCTCCAGCCTCTCCCTTCGGGAAAGGTGGACAGTGTTCAAGGGTCTGCTGTGGTACATTGTTCCCTTGGTCGTAGTTTACTTTGCCGAGTATTTCATTAACCAGGGACTTTTTGAACTCCTCTTTTTCTGGAACACTTCCCTGAGTCACGCTCAGCAATACCGCTGGTACCAGATGCTGTACCAGGCTGGCGTCTTTGCCTCCCGCTCTTCTCTCCGCTGCTGTCGCATCCGTTTCACCTGGGCCCTGGCCCTGCTGCAGTGCCTCAACCTGGTGTTCCTGCTGGCAGACGTGTGGTTCGGCTTTCTGCCAAGCATCTACCTCGTCTTCCTGATCATTCTGTATGAGGGGCTCCTGGGAGGCGCAGCCTACGTGAACACCTTCCACAACATCGCCCTGGAGACCAGTGATGAGCACCGGGAGTTTGCAATGGCGGCCACCTGCATCTCTGACACACTGGGGATCTCCCTGTCGGGGCTCCTGGCTTTGCCTCTGCATGACTTCCTCTGCCAGCTCTCCTGATACTCGGGATCCTCAGGACGCAGGTCACATTCACCTGTGGGCAGAGGGACAGGTCAGACACCCAGGCCCACCCCAGAGACCCTCCATGAACTGTGCTCCCAGCCTTCCCGGCAGGTCTGGGAGTAGGGAAGGGCTGAAGCCTTGTTTCCCTTGCAGGGGGGCCAGCCATTGTCTCCCACTTGGGGAGTTTCTTCCTGGCATCATGCCTTCTGAATAAATGCCGATTTTATCCATGGAAA
>gi|98986458|ref|NM_014663.2| Homo sapiens lysine demethylase 4A (KDM4A), mRNA
ACGGCTGCGCAGATGCCGACTTTAGAGGAGGCGGAGTTTCGGCCTTCGCCTGCTGGAAAAGCAGTAGGATCGGCCAGTGGCGACAGCAGGAGCTGAGCCTAAGCCCTGGCGGGGCTTTGGGCTGTAGATTCCTGTCTGACTAAAGGGACCTCAAAAAGGAGGGAAAATGGCTTCTGAGTCTGAAACTCTGAATCCCAGTGCTAGGATAATGACCTTTTATCCAACTATGGAAGAGTTCCGAAACTTCAGTAGATACATTGCCTACATTGAATCCCAAGGAGCTCATCGGGCAGGGCTAGCCAAGGTTGTTCCTCCAAAAGAGTGGAAGCCACGAGCATCCTATGATGACATTGATGATTTGGTCATTCCTGCCCCCATTCAACAGCTGGTGACGGGGCAGTCTGGCCTCTTTACTCAGTACAACATACAGAAGAAAGCCATGACTGTTCGAGAGTTCCGCAAGATAGCCAATAGCGATAAGTACTGTACCCCACGCTATAGTGAGTTTGAAGAGCTCGAGCGGAAATACTGGAAAAATCTTACATTCAATCCTCCAATCTATGGTGCAGATGTGAATGGTACCCTCTATGAAAAGCATGTTGATGAGTGGAATATTGGCCGGCTGAGAACAATCCTGGACTTGGTGGAAAAGGAGAGTGGGATCACCATTGAGGGTGTGAACACCCCATACCTGTACTTTGGCATGTGGAAGACATCCTTTGCTTGGCACACTGAAGACATGGACCTCTACAGCATCAACTACCTGCACTTTGGAGAACCAAAGTCCTGGTACTCTGTTCCACCTGAGCATGGAAAGCGGTTGGAACGCCTCGCCAAAGGCTTTTTCCCAGGAAGTGCTCAAAGCTGTGAGGCATTTCTCCGCCACAAGATGACCCTGATTTCCCCGTTAATGCTGAAGAAATATGGAATTCCCTTTGACAAGGTGACTCAAGAGGCTGGAGAGTTTATGATCACTTTCCCTTATGGTTACCATGCCGGCTTTAACCATGGTTTTAACTGTGCGGAGTCTACCAATTTTGCTACCCGTCGGTGGATTGAGTACGGCAAGCAAGCTGTGCTGTGCTCCTGTAGAAAGGACATGGTGAAGATCTCCATGGATGTGTTTGTGAGAAAGTTCCAGCCAGAAAGGTACAAACTTTGGAAAGCTGGGAAGGACAACACAGTTATTGACCATACTCTGCCCACGCCAGAAGCAGCTGAGTTTCTTAAGGAGAGTGAACTGCCTCCAAGAGCTGGCAACGAGGAGGAGTGCCCAGAGGAGGACATGGAAGGGGTGGAGGATGGAGAGGAAGGAGACCTGAAGACAAGCCTGGCCAAGCACCGAATAGGGACAAAGAGGCACCGAGTTTGTCTTGAAATACCACAGGAGGTGAGTCAGAGTGAGCTCTTCCCCAAGGAGGATCTGAGTTCTGAGCAGTATGAGATGACGGAGTGCCCGGCAGCCCTCGCCCCTGTGAGGCCCACCCATAGCTCTGTGCGGCAAGTTGAGGATGGTCTTACCTTCCCAGATTATTCTGACTCCACTGAAGTCAAATTTGAAGAGCTTAAAAATGTCAAACTAGAAGAGGAGGATGAGGAGGAAGAACAAGCAGCAGCTGCCTTGGATCTTTCTGTGAATCCTGCGTCTGTAGGGGGACGCCTTGTCTTCTCAGGCTCCAAAAAGAAATCATCTTCTAGCCTGGGCTCTGGCTCTTCACGGGATTCTATCTCTTCTGATTCAGAAACTAGTGAGCCTCTCTCCTGCCGAGCCCAAGGGCAAACGGGAGTTCTCACTGTGCACAGTTATGCCAAAGGGGATGGCAGGGTCACTGTGGGAGAGCCATGCACGAGGAAGAAAGGAAGCGCCGCTAGAAGTTTCAGTGAGCGGGAGCTGGCAGAGGTTGCAGATGAATACATGTTTTCCCTAGAAGAGAATAAGAAGTCCAAGGGACGCCGTCAGCCTTTAAGCAAGCTCCCCCGCCATCACCCACTTGTGCTGCAGGAGTGTGTCAGTGATGATGAGACATCTGAACAGCTGACCCCTGAGGAAGAGGCTGAGGAGACAGAGGCCTGGGCCAAGCCTCTGAGCCAACTGTGGCAGAACCGACCTCCAAACTTTGAGGCTGAGAAGGAATTCAATGAGACCATGGCCCAACAGGCCCCTCACTGCGCTGTCTGTATGATCTTCCAGACTTATCATCAGGTTGAATTTGGAGGCTTTAATCAGAACTGTGGAAATGCTTCAGATTTAGCCCCCCAGAAGCAGAGGACCAAGCCATTGATTCCAGAAATGTGCTTCACTTCGACTGGCTGCAGCACGGACATCAACCTTTCTACTCCTTATCTTGAGGAGGATGGCACCAGCATACTCGTTTCCTGCAAGAAGTGCAGCGTCCGGGTCCATGCCAGTTGCTATGGGGTCCCCCCTGCAAAGGCTTCTGAAGACTGGATGTGTTCTCGGTGTTCAGCCAATGCCCTAGAGGAGGACTGCTGTTTATGCTCATTACGAGGAGGGGCCCTGCAGAGAGCAAATGATGACAGGTGGGTCCACGTTTCATGTGCTGTGGCAATTCTGGAAGCAAGGTTTGTCAACATTGCAGAAAGAAGTCCGGTGGATGTGAGCAAAATCCCCCTGCCCCGCTTCAAACTGAAATGTATCTTCTGTAAGAAGCGGAGGAAAAGAACTGCTGGCTGCTGTGTGCAGTGTTCTCACGGCCGCTGCCCAACTGCCTTCCATGTGAGCTGCGCCCAGGCTGCCGGTGTGATGATGCAGCCTGACGACTGGCCTTTTGTGGTCTTCATTACCTGCTTTCGGCACAAGATTCCTAATTTGGAGCGTGCCAAGGGGGCCTTGCAAAGCATCACTGCAGGCCAGAAAGTCATTAGCAAGCATAAGAACGGGCGCTTCTACCAGTGTGAAGTGGTCAGGCTCACCACCGAGACCTTCTATGAAGTCAACTTTGATGATGGCTCCTTCAGCGACAATCTTTATCCTGAGGACATAGTGAGCCAGGACTGTCTCCAGTTTGGTCCTCCTGCTGAAGGGGAAGTGGTCCAAGTGAGATGGACAGACGGCCAAGTCTATGGAGCCAAGTTTGTGGCCTCCCACCCTATCCAAATGTACCAGGTGGAGTTTGAGGATGGCTCACAACTTGTGGTTAAGAGAGATGATGTATACACACTGGATGAAGAGCTTCCCAAGAGAGTCAAATCTAGACTGTCAGTAGCCTCAGACATGCGCTTCAATGAGATTTTCACAGAGAAAGAGGTTAAGCAAGAAAAGAAACGGCAACGAGTTATCAACTCAAGATACCGGGAAGATTATATTGAGCCTGCACTATACCGGGCCATCATGGAGTAGGTGCTTCCAGGGTCCAAGGGATTCTCAGCCATCCAGGCAAGAGCACTCTGGGTTCCACAGCACAGCAGACATGGAACGCTGAAGTCTCTGAAAGTGAAGTTGTAAAAAGAAAAGGAATGAAATAACCGACCCATCATCTTCTCACCCACCCTCATTGCATTCCGCTGTAGTGAAAGGACGAGCCATTTCTGGGCACGTGGCAGCAGTCGCTGATCTCCCAGCTGAGGGGCTGAGCACTGGAATGCTGTGGCTGCACTGGCCCCAGTCCATAGAGGGGTCAACTATGCTGGCTGGACTGGCTGCCTTGTTCCTGGCCTAGGACTTAGCTTCATAACTATCACCTGCACCGACTAGGCTGAGGTGCTGGTACTTGCCCCAACCCCTACTTTTGTATTTATATGTGTGTGTGTGTGTGCGTGCGTGCGTGCGTGCGTGTATGTTTGGTCTGGACCAGCTTCTGCCAGCCCCTGGCCTTTACTTTCTTCCTTGCCTATGCAGGGCAAACAAAATGTGAAATTCTGCCCTCAGCTGAGCTGAGTAAGGGCTCCTGGGGGTTGGCTGGAGATGGGTGTGGCATCTGTCCAGGCCTGGAACCGTCTCAAGACAGTGCTGGCAAAGCTGCAGTATTGAGATGCTAAGGAGCTGATGCCACCTCTTTGTCTTCCCCTAAAGGAGAACATGGGGATAACATGGGTGTGTGCCCACAACACTCTAGGTGCAGAGCCCCTGTGGCAAAGTATTACAGGGTGTGGGTGGGGATTACCCTGAATCGGGGATTTTAATGATGGAAGCAGGCAGAGCCTGGTGGGTGATTCTGTCAACAGAAAATTGCAATCATGCAGGGGCTGGGAGGGTTAGGATGAAAAAACTGGGGCCATTGGAGGCCCACTGTAGGTGGGAGGGAGCTGATTTTGGGGTGGGGGGTGGGACTAGAGGGCAATACTGAAGGGGTTAAACAGGTTTTTGCTCCTCAAGAATTTGTTTGCCTGGGCCCAGGATTGGAGGGCTTCACACCAATACCCTGTGTATACAAGAATCAGATTTATAATACTTCCCCTTTTTTGTTACGTATGAACACTATAAACCAAATTATTTTGAAAACTGGTGCATCACCTTGTCCTTAGCAATAAAATGTGTTGAGCAGAGGAAAAAAAAAAAAAAAAAA
>gi|90421312|ref|NM_000492.3| Homo sapiens cystic fibrosis transmembrane conductance regulator (CFTR), mRNA
AATTGGAAGCAAATGACATCACAGCAGGTCAGAGAAAAAGGGTTGAGCGGCAGGCACCCAGAGTAGTAGGTCTTTGGCATTAGGAGCTTGAGCCCAGACGGCCCTAGCAGGGACCCCAGCGCCCGAGAGACCATGCAGAGGTCGCCTCTGGAAAAGGCCAGCGTTGTCTCCAAACTTTTTTTCAGCTGGACCAGACCAATTTTGAGGAAAGGATACAGACAGCGCCTGGAATTGTCAGACATATACCAAATCCCTTCTGTTGATTCTGCTGACAATCTATCTGAAAAATTGGAAAGAGAATGGGATAGAGAGCTGGCTTCAAAGAAAAATCCTAAACTCATTAATGCCCTTCGGCGATGTTTTTTCTGGAGATTTATGTTCTATGGAATCTTTTTATATTTAGGGGAAGTCACCAAAGCAGTACAGCCTCTCTTACTGGGAAGAATCATAGCTTCCTATGACCCGGATAACAAGGAGGAACGCTCTATCGCGATTTATCTAGGCATAGGCTTATGCCTTCTCTTTATTGTGAGGACACTGCTCCTACACCCAGCCATTTTTGGCCTTCATCACATTGGAATGCAGATGAGAATAGCTATGTTTAGTTTGATTTATAAGAAGACTTTAAAGCTGTCAAGCCGTGTTCTAGATAAAATAAGTATTGGACAACTTGTTAGTCTCCTTTCCAACAACCTGAACAAATTTGATGAAGGACTTGCATTGGCACATTTCGTGTGGATCGCTCCTTTGCAAGTGGCACTCCTCATGGGGCTAATCTGGGAGTTGTTACAGGCGTCTGCCTTCTGTGGACTTGGTTTCCTGATAGTCCTTGCCCTTTTTCAGGCTGGGCTAGGGAGAATGATGATGAAGTACAGAGATCAGAGAGCTGGGAAGATCAGTGAAAGACTTGTGATTACCTCAGAAATGATTGAAAATATCCAATCTGTTAAGGCATACTGCTGGGAAGAAGCAATGGAAAAAATGATTGAAAACTTAAGACAAACAGAACTGAAACTGACTCGGAAGGCAGCCTATGTGAGATACTTCAATAGCTCAGCCTTCTTCTTCTCAGGGTTCTTTGTGGTGTTTTTATCTGTGCTTCCCTATGCACTAATCAAAGGAATCATCCTCCGGAAAATATTCACCACCATCTCATTCTGCATTGTTCTGCGCATGGCGGTCACTCGGCAATTTCCCTGGGCTGTACAAACATGGTATGACTCTCTTGGAGCAATAAACAAAATACAGGATTTCTTACAAAAGCAAGAATATAAGACATTGGAATATAACTTAACGACTACAGAAGTAGTGATGGAGAATGTAACAGCCTTCTGGGAGGAGGGATTTGGGGAATTATTTGAGAAAGCAAAACAAAACAATAACAATAGAAAAACTTCTAATGGTGATGACAGCCTCTTCTTCAGTAATTTCTCACTTCTTGGTACTCCTGTCCTGAAAGATATTAATTTCAAGATAGAAAGAGGACAGTTGTTGGCGGTTGCTGGATCCACTGGAGCAGGCAAGACTTCACTTCTAATGGTGATTATGGGAGAACTGGAGCCTTCAGAGGGTAAAATTAAGCACAGTGGAAGAATTTCATTCTGTTCTCAGTTTTCCTGGATTATGCCTGGCACCATTAAAGAAAATATCATCTTTGGTGTTTCCTATGATGAATATAGATACAGAAGCGTCATCAAAGCATGCCAACTAGAAGAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTGAGTGGAGGTCAACGAGCAAGAATTTCTTTAGCAAGAGCAGTATACAAAGATGCTGATTTGTATTTATTAGACTCTCCTTTTGGATACCTAGATGTTTTAACAGAAAAAGAAATATTTGAAAGCTGTGTCTGTAAACTGATGGCTAACAAAACTAGGATTTTGGTCACTTCTAAAATGGAACATTTAAAGAAAGCTGACAAAATATTAATTTTGCATGAAGGTAGCAGCTATTTTTATGGGACATTTTCAGAACTCCAAAATCTACAGCCAGACTTTAGCTCAAAACTCATGGGATGTGATTCTTTCGACCAATTTAGTGCAGAAAGAAGAAATTCAATCCTAACTGAGACCTTACACCGTTTCTCATTAGAAGGAGATGCTCCTGTCTCCTGGACAGAAACAAAAAAACAATCTTTTAAACAGACTGGAGAGTTTGGGGAAAAAAGGAAGAATTCTATTCTCAATCCAATCAACTCTATACGAAAATTTTCCATTGTGCAAAAGACTCCCTTACAAATGAATGGCATCGAAGAGGATTCTGATGAGCCTTTAGAGAGAAGGCTGTCCTTAGTACCAGATTCTGAGCAGGGAGAGGCGATACTGCCTCGCATCAGCGTGATCAGCACTGGCCCCACGCTTCAGGCACGAAGGAGGCAGTCTGTCCTGAACCTGATGACACACTCAGTTAACCAAGGTCAGAACATTCACCGAAAGACAACAGCATCCACACGAAAAGTGTCACTGGCCCCTCAGGCAAACTTGACTGAACTGGATATATATTCAAGAAGGTTATCTCAAGAAACTGGCTTGGAAATAAGTGAAGAAATTAACGAAGAAGACTTAAAGGAGTGCTTTTTTGATGATATGGAGAGCATACCAGCAGTGACTACATGGAACACATACCTTCGATATATTACTGTCCACAAGAGCTTAATTTTTGTGCTAATTTGGTGCTTAGTAATTTTTCTGGCAGAGGTGGCTGCTTCTTTGGTTGTGCTGTGGCTCCTTGGAAACACTCCTCTTCAAGACAAAGGGAATAGTACTCATAGTAGAAATAACAGCTATGCAGTGATTATCACCAGCACCAGTTCGTATTATGTGTTTTACATTTACGTGGGAGTAGCCGACACTTTGCTTGCTATGGGATTCTTCAGAGGTCTACCACTGGTGCATACTCTAATCACAGTGTCGAAAATTTTACACCACAAAATGTTACATTCTGTTCTTCAAGCACCTATGTCAACCCTCAACACGTTGAAAGCAGGTGGGATTCTTAATAGATTCTCCAAAGATATAGCAATTTTGGATGACCTTCTGCCTCTTACCATATTTGACTTCATCCAGTTGTTATTAATTGTGATTGGAGCTATAGCAGTTGTCGCAGTTTTACAACCCTACATCTTTGTTGCAACAGTGCCAGTGATAGTGGCTTTTATTATGTTGAGAGCATATTTCCTCCAAACCTCACAGCAACTCAAACAACTGGAATCTGAAGGCAGGAGTCCAATTTTCACTCATCTTGTTACAAGCTTAAAAGGACTATGGACACTTCGTGCCTTCGGACGGCAGCCTTACTTTGAAACTCTGTTCCACAAAGCTCTGAATTTACATACTGCCAACTGGTTCTTGTACCTGTCAACACTGCGCTGGTTCCAAATGAGAATAGAAATGATTTTTGTCATCTTCTTCATTGCTGTTACCTTCATTTCCATTTTAACAACAGGAGAAGGAGAAGGAAGAGTTGGTATTATCCTGACTTTAGCCATGAATATCATGAGTACATTGCAGTGGGCTGTAAACTCCAGCATAGATGTGGATAGCTTGATGCGATCTGTGAGCCGAGTCTTTAAGTTCATTGACATGCCAACAGAAGGTAAACCTACCAAGTCAACCAAACCATACAAGAATGGCCAACTCTCGAAAGTTATGATTATTGAGAATTCACACGTGAAGAAAGATGACATCTGGCCCTCAGGGGGCCAAATGACTGTCAAAGATCTCACAGCAAAATACACAGAAGGTGGAAATGCCATATTAGAGAACATTTCCTTCTCAATAAGTCCTGGCCAGAGGGTGGGCCTCTTGGGAAGAACTGGATCAGGGAAGAGTACTTTGTTATCAGCTTTTTTGAGACTACTGAACACTGAAGGAGAAATCCAGATCGATGGTGTGTCTTGGGATTCAATAACTTTGCAACAGTGGAGGAAAGCCTTTGGAGTGATACCACAGAAAGTATTTATTTTTTCTGGAACATTTAGAAAAAACTTGGATCCCTATGAACAGTGGAGTGATCAAGAAATATGGAAAGTTGCAGATGAGGTTGGGCTCAGATCTGTGATAGAACAGTTTCCTGGGAAGCTTGACTTTGTCCTTGTGGATGGGGGCTGTGTCCTAAGCCATGGCCACAAGCAGTTGATGTGCTTGGCTAGATCTGTTCTCAGTAAGGCGAAGATCTTGCTGCTTGATGAACCCAGTGCTCATTTGGATCCAGTAACATACCAAATAATTAGAAGAACTCTAAAACAAGCATTTGCTGATTGCACAGTAATTCTCTGTGAACACAGGATAGAAGCAATGCTGGAATGCCAACAATTTTTGGTCATAGAAGAGAACAAAGTGCGGCAGTACGATTCCATCCAGAAACTGCTGAACGAGAGGAGCCTCTTCCGGCAAGCCATCAGCCCCTCCGACAGGGTGAAGCTCTTTCCCCACCGGAACTCAAGCAAGTGCAAGTCTAAGCCCCAGATTGCTGCTCTGAAAGAGGAGACAGAAGAAGAGGTGCAAGATACAAGGCTTTAGAGAGCAGCATAAATGTTGACATGGGACATTTGCTCATGGAATTGGAGCTCGTGGGACAGTCACCTCATGGAATTGGAGCTCGTGGAACAGTTACCTCTGCCTCAGAAAACAAGGATGAATTAAGTTTTTTTTTAAAAAAGAAACATTTGGTAAGGGGAATTGAGGACACTGATATGGGTCTTGATAAATGGCTTCCTGGCAATAGTCAAATTGTGTGAAAGGTACTTCAAATCCTTGAAGATTTACCACTTGTGTTTTGCAAGCCAGATTTTCCTGAAAACCCTTGCCATGTGCTAGTAATTGGAAAGGCAGCTCTAAATGTCAATCAGCCTAGTTGATCAGCTTATTGTCTAGTGAAACTCGTTAATTTGTAGTGTTGGAGAAGAACTGAAATCATACTTCTTAGGGTTATGATTAAGTAATGATAACTGGAAACTTCAGCGGTTTATATAAGCTTGTATTCCTTTTTCTCTCCTCTCCCCATGATGTTTAGAAACACAACTATATTGTTTGCTAAGCATTCCAACTATCTCATTTCCAAGCAAGTATTAGAATACCACAGGAACCACAAGACTGCACATCAAAATATGCCCCATTCAACATCTAGTGAGCAGTCAGGAAAGAGAACTTCCAGATCCTGGAAATCAGGGTTAGTATTGTCCAGGTCTACCAAAAATCTCAATATTTCAGATAATCACAATACATCCCTTACCTGGGAAAGGGCTGTTATAATCTTTCACAGGGGACAGGATGGTTCCCTTGATGAAGAAGTTGATATGCCTTTTCCCAACTCCAGAAAGTGACAAGCTCACAGACCTTTGAACTAGAGTTTAGCTGGAAAAGTATGTTAGTGCAAATTGTCACAGGACAGCCCTTCTTTCCACAGAAGCTCCAGGTAGAGGGTGTGTAAGTAGATAGGCCATGGGCACTGTGGGTAGACACACATGAAGTCCAAGCATTTAGATGTATAGGTTGATGGTGGTATGTTTTCAGGCTAGATGTATGTACTTCATGCTGTCTACACTAAGAGAGAATGAGAGACACACTGAAGAAGCACCAATCATGAATTAGTTTTATATGCTTCTGTTTTATAATTTTGTGAAGCAAAATTTTTTCTCTAGGAAATATTTATTTTAATAATGTTTCAAACATATATAACAATGCTGTATTTTAAAAGAATGATTATGAATTACATTTGTATAAAATAATTTTTATATTTGAAATATTGACTTTTTATGGCACTAGTATTTCTATGAAATATTATGTTAAAACTGGGACAGGGGAGAACCTAGGGTGATATTAACCAGGGGCCATGAATCACCTTTTGGTCTGGAGGGAAGCCTTGGGGCTGATGCAGTTGTTGCCCACAGCTGTATGATTCCCAGCCAGCACAGCCTCTTAGATGCAGTTCTGAAGAAGATGGTACCACCAGTCTGACTGTTTCCATCAAGGGTACACTGCCTTCTCAACTCCAAACTGACTCTTAAGAAGACTGCATTATATTTATTACTGTAAGAAAATATCACTTGTCAATAAAATCCATACATTTGTGTGAAA
>gi|89903011|ref|NM_001039802.1| Homo sapiens cell division cycle 42 (CDC42), transcript variant 3, mRNA
ACTTCCGCGGGCACCCAACTGTGCGTCTCCTGCGCGCTGACGTCAGGTGCGTGCCCCTGTCCGGCAGCCGAGGAGACCCCGCGCAGTGCTGCCAACGCCCCGGTGGAGAAGCTGAGACGGAGTCTCACTGTGTTGCCCAGGCTGGAGTGCAGTGGCGCCATCTTGGCTCACTGCAGTGCGCCTCTGCCCCCCGAGTTCAAGCGATTCTCCTGCCTCAGGCTCCTGAGTAGCTGGGACTACAGGTCATCATCAGATTTGAAATATTTAAAGTGGATACAAAACTATTTCAGCAATGCAGACAATTAAGTGTGTTGTTGTGGGCGATGGTGCTGTTGGTAAAACATGTCTCCTGATATCCTACACAACAAACAAATTTCCATCGGAATATGTACCGACTGTTTTTGACAACTATGCAGTCACAGTTATGATTGGTGGAGAACCATATACTCTTGGACTTTTTGATACTGCAGGGCAAGAGGATTATGACAGATTACGACCGCTGAGTTATCCACAAACAGATGTATTTCTAGTCTGTTTTTCAGTGGTCTCTCCATCTTCATTTGAAAACGTGAAAGAAAAGTGGGTGCCTGAGATAACTCACCACTGTCCAAAGACTCCTTTCTTGCTTGTTGGGACTCAAATTGATCTCAGAGATGACCCCTCTACTATTGAGAAACTTGCCAAGAACAAACAGAAGCCTATCACTCCAGAGACTGCTGAAAAGCTGGCCCGTGACCTGAAGGCTGTCAAGTATGTGGAGTGTTCTGCACTTACACAGAAAGGCCTAAAGAATGTATTTGACGAAGCAATATTGGCTGCCCTGGAGCCTCCAGAACCGAAGAAGAGCCGCAGGTGTGTGCTGCTATGAACATCTCTCCAGAGCCCTTTCTGCACAGCTGGTGTCGGCATCATACTAAAAGCAATGTTTAAATCAAACTAAAGATTAAAAATTAAAATTCGTTTTTGCAATAATGACAAATGCCCTGCACCTACCCACATGCACTCGTGTGAGACAAGGCCCATAGGTATGGCCCCCCCCTTCCCCCTCCCAGTACTAGTTAATTTTGAGTAATTGTATTGTCAGAAAAGTGATTAGTACTATTTTTTTTTGTTGTTTCAAAAAAAAAATTTTTGTGTGTGTGTGTTTTTTTTTTTTTTTTTTTTGTTGTTTAAAAGCAAGGCATGCTTGTGGATGACTCTGTAACAGACTAATTGGAATTGTTGAAGCTGCTCCCTGGTTCCACTCTGGAGAGTAATCTGGGACATCTTAGTGTTTTGTTTTGTTTTTTTCCCTCCTCTTTTTTTTGGGGGGGAGTGTGTGTGGGGTTTGTTTTTTAGTCTTGTTTTTTTAATTCATTAACCAGTGGTTAGCCCTTAAGGGGAGGAGGACGGATTGATTCCACATTCCACTTCCTAGATCTAGTTTAGAAAACATGTTCCCCATCTGGTGCTCTTAGGAAGGAGTATAGTAAATGCCTCATTTAATAACATACTCCTTTTTGAAAGTTGCCTTTTCTCTCCACCCTTGAGTAGATCCAGTATTTGATGAAACTCATGAAAGTGGGTGGAGCCCATCTTGCCCCTCCTCTTTTCTAGGACGCACTATATGTGACTGTGACTTTCAAGGACATTTGTTTGCCATTTGCTGATTTTTTTGGGAAGTTAATTTCTAACTTCTTTCACTGATAAATGAAGAAAAGTATTGCACCTTTGAAATGCACCAAATGAATTGAGTTTGTAATTAAAAAAATTTTTTTCCCTTTCAGTCATTGTCTTATATGCTTAGCATAGATTTGCAGCTCAGTAGTATATGGTGTTCCTAGAATGCAGCTGAAGACCTGTTATGTAGAGGAAATACGAGGGGTGGTGCTAGAAGACAGACATCTGTGGAATGATTCACATCCTCTCAAGTTAGGAGGATGGAGGCCTGCTTCATTAAGAAGCTGGGGGTAGGGTGGGGGTGGGGAGAACACTTAACAACATGGGGACCAGTCAGGGGAATCCCCTTATTTCTGTTTTGCATATGAGGAACCCTAGAGCAGCCAGGTGAGGCTCTCTAGTTTAATAAAAATCATGGAAAGACTCTTAATGCAGACTCTTCTTAAGTGTTAATAGGGATTTTTTCAGCTTATTTTGGTTGCAGTTTCCAATTTTTAAAAATGTTGAGGTAATCTTTCCCACCTTCCCAAACCTAATTCTTGTAGATGCATTAGTGTTGAACCAATGCTTTCTCATGTCTCAATTCTTTGTATATGCATTCTTTTCAGATGTATTAAACAAACAAAAACCCTTCAAAAAAAAAAAAAAA
>gi|89142742|ref|NM_020870.3| Homo sapiens SH3 domain containing ring finger 1 (SH3RF1), mRNA
GGCGCCGGCTGCGTCCCGGCCTCCTCCTCCTCTTCCTCCGCCCTCCTTGGCTGGGAAAGTGGGAGGCGGCGGCGGCGGCGTGGTGTGTGTGCGCGCGTGAGGGGGGCAGCAGAGAGGAGTCTCCCGGTGCCGCCGCGGCGTCAGAGACACTGCGAGCGGCGAGCGCGGTGGGGCCGCATCTGCATCAGCCGCCGCAGCCGCTGCGGGGCCGCGAACAAAGAGGAGGAGCCGAGGCGCGAGAGCAAAGTCTGAAATGGATGTTACATGAGTCATTTTAAGGGATGCACACAACTATGAACATTTCTGAAGATTTTTTCTCAGTAAAGTAGATAAAGATGGATGAATCAGCCTTGTTGGATCTTTTGGAGTGTCCGGTGTGTCTAGAGCGCCTTGATGCTTCTGCGAAGGTCTTGCCTTGCCAGCATACGTTTTGCAAGCGATGTTTGCTGGGGATCGTAGGTTCTCGAAATGAACTCAGATGTCCCGAGTGCAGGACTCTTGTTGGCTCGGGTGTCGAGGAGCTTCCCAGTAACATCTTGCTGGTCAGACTTCTGGATGGCATCAAACAGAGGCCTTGGAAACCTGGTCCTGGTGGGGGAAGTGGGACCAACTGCACAAATGCATTAAGGTCTCAGAGCAGCACTGTGGCTAATTGTAGCTCAAAAGATCTGCAGAGCTCCCAGGGCGGACAGCAGCCTCGGGTGCAATCCTGGAGCCCCCCAGTGAGGGGTATACCTCAGTTACCATGTGCCAAAGCATTATACAACTATGAAGGAAAAGAGCCTGGAGACCTTAAATTCAGCAAAGGTGACATCATCATTTTGCGAAGACAAGTGGATGAAAATTGGTACCATGGGGAAGTCAATGGAATCCATGGCTTTTTCCCCACCAACTTTGTGCAGATTATTAAACCGTTACCTCAGCCCCCACCTCAGTGCAAAGCACTTTATGACTTTGAAGTGAAAGACAAGGAAGCAGACAAAGATTGCCTTCCATTTGCAAAGGATGATGTTCTGACTGTGATCCGAAGAGTGGATGAAAACTGGGCTGAAGGAATGCTGGCAGACAAAATAGGAATATTTCCAATTTCATATGTTGAGTTTAACTCGGCTGCTAAGCAGCTGATAGAATGGGATAAGCCTCCTGTGCCAGGAGTTGATGCTGGAGAATGTTCCTCGGCAGCAGCCCAGAGCAGCACTGCCCCAAAGCACTCCGACACCAAGAAGAACACCAAAAAGCGGCACTCCTTCACTTCCCTCACTATGGCCAACAAGTCCTCCCAGGCATCCCAGAACCGCCACTCCATGGAGATCAGCCCCCCTGTCCTCATCAGCTCCAGCAACCCCACTGCTGCTGCACGGATCAGCGAGCTGTCTGGGCTCTCCTGCAGTGCCCCTTCTCAGGTTCATATAAGTACCACCGGGTTAATTGTGACCCCGCCCCCAAGCAGCCCAGTGACAACTGGCCCCTCGTTTACTTTCCCATCAGATGTTCCCTACCAAGCTGCCCTTGGAACTTTGAATCCTCCTCTTCCACCACCCCCTCTCCTGGCTGCCACTGTCCTTGCCTCCACACCACCAGGCGCCACCGCCGCTGCTGCTGCTGCTGGAATGGGACCGAGGCCCATGGCAGGATCCACTGACCAGATTGCACATTTACGGCCGCAGACTCGCCCCAGTGTGTATGTTGCTATATATCCATACACTCCTCGGAAAGAGGATGAACTAGAGCTGAGAAAAGGGGAGATGTTTTTAGTGTTTGAGCGCTGCCAGGATGGCTGGTTCAAAGGGACATCCATGCATACCAGCAAGATAGGGGTTTTCCCTGGCAATTATGTGGCACCAGTCACAAGGGCGGTGACAAATGCTTCCCAAGCTAAAGTCCCTATGTCTACAGCTGGCCAGACAAGTCGGGGAGTGACCATGGTCAGTCCTTCCACGGCAGGAGGGCCTGCCCAGAAGCTCCAGGGAAATGGCGTGGCTGGGAGTCCCAGTGTTGTCCCCGCAGCTGTGGTATCAGCAGCTCACATCCAGACAAGTCCTCAGGCTAAGGTCTTGTTGCACATGACGGGGCAAATGACAGTCAACCAGGCCCGCAATGCTGTGAGGACAGTTGCAGCGCACAACCAGGAACGCCCCACGGCAGCAGTGACACCCATCCAGGTACAGAATGCCGCCGGCCTCAGCCCTGCATCTGTGGGCCTGTCCCATCACTCGCTGGCCTCCCCACAACCTGCGCCTCTGATGCCAGGCTCAGCCACGCACACTGCTGCCATCAGTATCAGTCGAGCCAGTGCCCCTCTGGCCTGTGCAGCAGCTGCTCCACTGACTTCCCCAAGCATCACCAGTGCTTCTCTGGAGGCTGAGCCCAGTGGCCGGATAGTGACCGTTCTCCCTGGACTCCCCACATCTCCTGACAGTGCTTCATCAGCTTGTGGGAACAGTTCAGCAACCAAACCAGACAAGGATAGCAAAAAAGAAAAAAAGGGTTTGTTGAAGTTGCTTTCTGGCGCCTCCACTAAACGGAAGCCCCGCGTGTCTCCTCCAGCATCGCCCACCCTAGAAGTGGAGCTGGGCAGTGCAGAGCTTCCTCTCCAGGGAGCGGTGGGGCCCGAACTGCCACCAGGAGGTGGCCATGGCAGGGCAGGCTCCTGCCCTGTGGACGGGGACGGACCGGTCACGACTGCAGTGGCAGGAGCAGCCCTGGCCCAGGATGCTTTTCATAGGAAGGCAAGTTCCCTGGACTCCGCAGTTCCCATCGCTCCACCTCCTCGCCAGGCCTGTTCCTCCCTGGGTCCTGTCTTGAATGAGTCTAGACCTGTCGTTTGTGAAAGGCACAGGGTGGTGGTTTCCTATCCTCCTCAGAGTGAGGCAGAACTTGAACTTAAAGAAGGAGATATTGTGTTTGTTCATAAAAAACGAGAGGATGGCTGGTTCAAAGGCACATTACAACGTAATGGGAAAACTGGCCTTTTCCCAGGAAGCTTTGTGGAAAACATATGAGGAGACTGACACTGAAGAAGCTTAAAATCACTTCACACAACAAAGTAGCACAAAGCAGTTTAACAGAAAGAGCACATTTGTGGACTTCCAGATGGTCAGGAGATGAGCAAAGGATTGGTATGTGACTCTGATGCCCCAGCACAGTTACCCCAGCGAGCAGAATGAAGAAGATGTTTGTGTGGGTTTTGTTAGTCTGGATTCGGATGTATAAGGTGTGCCTTGTACTGTCTGATTTACTACACAGAGAAACTTTTTTTTTTTTTTAAGATATATGACTAAAATGGACAATTGTTTACAAGGCTTAACTAATTTATTTGCTTTTTTAAACTTGAACTTTTCGTATAATAGATACGTTCTTTGGATTATGATTTTAAGAAATTATTAATTTATGAAATGATAGGTAAGGAGAAGCTGGATTATCTCCTGTTGAGAGCAAGAGATTCGTTTTGACATAGAGTGAATGCATTTTCCCCTCTCCTCCTCCCTGCTACCATTATATTTTGGGGTTATGTTTTGCTTCTTTAAGATAGAAATCCCAGTTCTCTAATTTGGTTTTCTTCTTTGGGAAACCAAACATACAAATGAATCAGTATCAATTAGGGCCTGGGGTAGAGAGACAGAAACTTGAGAGAAGAGAAGTTAGTGATTCCCTCTCTTTCTAGTTTGGTAGGAATCACCCTGAAGACCTAGTCCTCAATTTAATTGTGTGGGTTTTTAATTTTCCTAGAATGAAGTGACTGAAACAATGAGAAAGAATACAGCACAACCCTTGAACAAAATGTATTTAGAAATATATTTAGTTTTATAGCAGAAGCAGCTCAATTGTTTGGTTGGAAAGTAGGGGAAATTGAAGTTGTAGTCACTGTCTGAGAATGGCTATGAAGCGTCATTTCACATTTTACCCCAACTGACCTGCATGCCCAGGACACAAGTAAAACATTTGTGAGATAGTGGTGGTAAGTGATGCACTCGTGTTAAGTCAAAGGCTATAAGAAACACTGTGAAAAGTTCATATTCATCCATTGTGATTCTTTCCCCACGTCTTGCATGTATTACTGGATTCCCACAGTAATATAGACTGTGCATGGTGTGTATATTTCATTGCGATTTCCTGTTAAGATGAGTTTGTACTCAGAATTGACCAATTCAGGAGGTGTAAAAATAAACAGTGTTCTCTTCTCTACCCCAAAGCCACTACTGACCAAGGTCTCTTCAGTGCACTCGCTCCCTCTCTGGCTAAGGCATGCATTAGCCACTACACAAGTCATTAGTGAAAGTGGTCTTTTATGTCCTCCCAGCAGACAGACATCAAGGATGAGTTAACCAGGAGACTACTCCTGTGACTGTGGAGCTCTGGAAGGCTTGGTGGGAGTGAATTTGCCCACACCTTACAATTGTGGCAGGATCCAGAAGAGCCTGTCTTTTTATATCCATTCCTTGATGTCATTGGCCTCTCCCACCGATTTCATTACGGTGCCACGCAGTCATGGATCTGGGTAGTCCGGAAAACAAAAGGAGGGAAGACAGCCTGGTAATGAATAAGATCCTTACCACAGTTTTCTCATGGGAAATACATAATAAACCCTTTCATCTTTTTTTTTTTCCTTTAAGAATTAAAACTGGGAAATAGAAACATGAACTGAAAAGTCTTGCAATGACAAGAGGTTTCATGGTCTTAAAAAGATACTTTATGTGGTTGAAGATGAAATCATTCCTAAATTAACCTTTTTTTTAAAAAAAAACAATGTATATTATGTTCCTGTGTGTTGAATTTAAAAAAAAAATACTTTACTTGGATATTCATGTAATATATAAAGGTTTGGTGAAATGAACTTTAGTTAGGAAAAAGCTGGCATCAGCTTTCATCTGTGTAAGTTGACACCAATGTGTCATAATATTCTTTATTTTGGGAAATTAGTGTATTTTATAAAAATTTTAAAAAGAAAAAAGACTACTACAGGTTAAGATAATTTTTTTACCTGTCTTTTCTCCATATTTTAAGCTATGTGATTGAAGTACCTCTGTTCATAGTTTCCTGGTATAAAGTTGGTTAAAATTTCATCTGTTAATAGATCATTAGGTAATATAATGTATGGGTTTTCTATTGGTTTTTTGCAGACAGTAGAGGGAGATTTTGTAACAAGGGCTTGTTACACAGTGATATGGTAATGATAAAATTGCAATTTATCACTCCTTTTCATGTTAATAATTTGAGGACTGGATAAAAGGTTTCAAGATTAAAATTTGATGTTCAAACCTTTGT
>gi|88999597|ref|NM_021973.2| Homo sapiens heart and neural crest derivatives expressed 2 (HAND2), mRNA
CTGTACATGGAGATCTTGCTGGGAAAATCCGCTTGCTCCCCTCACGTCGTCCAGCCCAGGAGAACCACCGCCGTCACCCCGGAGCTTCCTCGGCCACCGCGCAGAGCCCTCCGAGAGCCCGAGCCGCGGTCTTCGAGCTCCAAGGCTCATTCAGGGCCCCAGATCCTTGCCCCGAAAGGAGAGGATCTGAGAAAATGGATGCACTGAGACCTCTCTGAAAACCCTCCGAGAGAGCGCGAGAGGAGCGAGGACACGTTACTCGCAGCTAAAATCACATTTAAGGACCAAAACAACAACAACCAAAAATTTCATTAAAACAATAAGCGCCCAAGAACCCAGATCGGGCTGGTGGGGGGAGGGGAAGAGGCGGGAAGGGGAGGGTCGCACGGAGGTAGCTTTGCAGTGAGCAGTCGACCCCGCCGCCCCCCGGCACAGCTGGACCGGCTCCTCCAGCCGCGGCTCAGACTCGCCCCTGGATTCCGGGTTAGCTTCGGTGCCAGGACCGCGGCCCGGGCTTGGATTCCCGAGACTCCGCGTACCAGCCTCGCGGGAGCCCCGGCACCTTTGTATGAGCACGAGAGGATTCTGCCTCCGCGCAGCAGCCCGGGAAGCAGGAGCCGAAGCGCGGGCCGTGGAGCAAGGCGGGAACCGGAGGCGGCGGCGGCGGCGGCCAGGGGCGCACGGTGCCAGGACCAGCTCGCCGCGCCCCATGGGGAGCCGGCGGCCGCAGCGCTGCTGAGGCGGGCCCGGCTGGCCAGGCGGGGGGACGGGGCCCGGGCTGCAGCAGCCCCCTCTGCGGCTGCCGGGCGGGCCCGGGCGCCCGGGGGCTGGGGGGTGGGGGGTGGGGGAGGACGCCGAGCGCTGAGGCAGGGGCCCGGGCCGAGGGCGCGGCGGGGCTGCGCGCACGCTGGGGCGCGTGGAGGGGCGCGGAGGGCGAAATGAGTCTGGTAGGTGGTTTTCCCCACCACCCGGTGGTGCACCACGAGGGCTACCCGTTTGCCGCCGCCGCCGCCGCAGCTGCCGCCGCCGCCGCCAGCCGCTGCAGCCATGAGGAGAACCCCTACTTCCATGGCTGGCTCATCGGCCACCCCGAGATGTCGCCCCCCGACTACAGCATGGCCCTGTCCTACAGCCCCGAGTATGCCAGCGGCGCCGCCGGCCTGGACCACTCCCATTACGGGGGGGTGCCGCCGGGCGCCGGGCCCCCGGGCCTGGGGGGGCCGCGCCCGGTGAAGCGCCGAGGCACCGCCAACCGCAAGGAGCGGCGCAGGACTCAGAGCATCAACAGCGCCTTCGCCGAACTGCGCGAGTGCATCCCCAACGTACCCGCCGACACCAAACTCTCCAAAATCAAGACCCTGCGCCTGGCCACCAGCTACATCGCCTACCTCATGGACCTGCTGGCCAAGGACGACCAGAATGGCGAGGCGGAGGCCTTCAAGGCAGAGATCAAGAAGACCGACGTGAAAGAGGAGAAGAGGAAGAAGGAGCTGAACGAAATCTTGAAAAGCACAGTGAGCAGCAACGACAAGAAAACCAAAGGCCGGACGGGCTGGCCGCAGCACGTCTGGGCCCTGGAGCTCAAGCAGTGAGGAGGAGGAGAAGGAGGAGGAGGAGAGCGCGAGTGAGCAGGGGCCAAGGCGCCAGATGCAGACCCAGGACTCCGGAAAAGCCGTCCGCGCTCCGCTCTGAGGACTCCTTGCATTTGGAATCATCCGGTTTATTTATGTGCAATTTCCTTCCCCTCTCTTTGACCCCCTTTGAGGCATCTGCTCCCCGTCTCCCCCTCCAAAAAAAAAGTGGATATTTGAAGAAAAGCATTCCATATTTTAATACGAAGAGGACACTCCCGTGTGGTAAGGGATCCCGTCGTCTCATAGATTCTGTGTGCGTGAATGTTCCCTCTTGGCTGTGTAGACACCAGCGTTGCCCCCCGCCAACCTACTCAACCCCTTCCAGATAAAGACAGTGGGCACTAGTGCGTTTGTGAAGTGTATCTTTAATACTTGGCCTTTGGATATAAATATTCCTGGGTATTATAAAGTTTTATTTCAAAGCAGAAAACAGGGCCGCTAACATTTCCGTTGGGGTCGGTATCTAGTGCTATCCATTCATCTGTGGTCGTTCCCTCTTTGAAGATGTTTCCAACAGCCACTTGTTTTGTGCACTTCCGTCCTCTAAAACTAAATGGAATTTAATTAATATTGAAGGTGTAAACGTTGTAAGTATTCAATAAACCACTGTGTTTTTTTTTTACAAAAACCTTAATCTTTTAATGGCTGATACCTCAAAAGAGTTTTGAAAACAAAGCTGTTATACTTGTTTTCGTAATATTTAAAATATTCAGAAGTAAACTAAATTATCATGA
>gi|83367070|ref|NM_003753.3| Homo sapiens eukaryotic translation initiation factor 3 subunit D (EIF3D), mRNA
GGGAGAGCAGTTTACGACAGCGCCGGTCGTGTTTACGGCGGCGCCCGCTGCGCGCGCATGTTTCCTCTTTTCCTGGTTTCTCAAGAGTGCTGCTGCTAACGCGGTCCCCGGCACGCACCATCTGTTGCCATCCCGGCCGGCCGAGGCCATTGCAGATTTTGGAAGATGGCAAAGTTCATGACACCCGTGATCCAGGACAACCCCTCAGGCTGGGGTCCCTGTGCGGTTCCCGAGCAGTTTCGGGATATGCCCTACCAGCCGTTCAGCAAAGGAGATCGGCTAGGAAAGGTTGCAGACTGGACAGGAGCCACATACCAAGATAAGAGGTACACAAATAAGTACTCCTCTCAGTTTGGTGGTGGAAGTCAATATGCTTATTTCCATGAGGAGGATGAAAGTAGCTTCCAGCTGGTGGATACAGCGCGCACACAGAAGACGGCCTACCAGCGGAATCGAATGAGATTTGCCCAGAGGAACCTCCGCAGAGACAAAGATCGTCGGAACATGTTGCAGTTCAACCTGCAGATCCTGCCTAAGAGTGCCAAACAGAAAGAGAGAGAACGCATTCGACTGCAGAAAAAGTTCCAGAAACAATTTGGGGTTAGGCAGAAATGGGATCAGAAATCACAGAAACCCCGAGACTCTTCAGTTGAAGTTCGTAGTGATTGGGAAGTGAAAGAGGAAATGGATTTTCCTCAGTTGATGAAGATGCGCTACTTGGAAGTATCAGAGCCACAGGACATTGAGTGTTGTGGGGCCCTAGAATACTACGACAAAGCCTTTGACCGCATCACCACGAGGAGTGAGAAGCCACTGCGGAGCATCAAGCGCATCTTCCACACTGTCACCACCACAGACGACCCTGTCATCCGCAAGCTGGCAAAAACTCAGGGGAATGTGTTTGCCACTGATGCCATCCTGGCCACGCTGATGAGCTGTACCCGCTCAGTGTATTCCTGGGATATTGTCGTCCAGAGAGTTGGGTCCAAACTCTTCTTTGACAAGAGAGACAACTCTGACTTTGACCTCCTGACAGTGAGTGAGACTGCCAATGAGCCCCCTCAAGATGAAGGTAATTCCTTCAATTCACCCCGCAACCTGGCCATGGAGGCAACCTACATCAACCACAATTTCTCCCAGCAGTGCTTGAGAATGGGGAAGGAAAGATACAACTTCCCCAACCCAAACCCGTTTGTGGAGGACGACATGGATAAGAATGAAATCGCCTCTGTTGCGTACCGTTACCGCAGGTGGAAGCTTGGAGATGATATTGACCTTATTGTCCGTTGTGAGCACGATGGCGTCATGACTGGAGCCAACGGGGAAGTGTCCTTCATCAACATCAAGACACTCAATGAGTGGGATTCCAGGCACTGTAATGGCGTTGACTGGCGTCAGAAGCTGGACTCTCAGCGAGGGGCTGTCATTGCCACGGAGCTGAAGAACAACAGCTACAAGTTGGCCCGGTGGACCTGCTGTGCTTTGCTGGCTGGATCTGAGTACCTCAAGCTTGGTTATGTGTCTCGGTACCACGTGAAAGACTCCTCACGCCACGTCATCCTAGGCACCCAGCAGTTCAAGCCTAATGAGTTTGCCAGCCAGATCAACCTGAGCGTGGAGAATGCCTGGGGCATTTTACGCTGCGTCATTGACATCTGCATGAAGCTGGAGGAGGGCAAATACCTCATCCTCAAGGACCCCAACAAGCAGGTCATCCGTGTCTACAGCCTCCCTGATGGCACCTTCAGCTCTGATGAAGATGAGGAGGAAGAGGAGGAGGAAGAAGAGGAAGAAGAAGAGGAAGAAACTTAAACCAGTGATGTGGAGCTGGAGTTTGTCCTTCCACCGAGACTACGAGGGCCTTTGATGCTTAGTGGAATGTGTGTCTAACTTGCTCTCTGACATTTAGCAGATGAAATAAAATATATATCTGTTTAGTCTTTCCCTCA
>gi|82880646|ref|NM_005151.3| Homo sapiens ubiquitin specific peptidase 14 (USP14), transcript variant 1, mRNA
GTCTCCTCGCTGCAGTCGCTCCGGAGCTGCACGGGTGTTTTGCGTGTTGCTGCGTCATCGCCAGTGGCCGGTTTGAATGAGACTCGTCGCACCGAAGCCGCCGCCACCACCGCGCCTCCGCCTCGGCCGCCGCCGCAGCTGCTCCTGGTCCCCGTCCCTTTGCCGCCCTCGTCAGGCCCAGCTCTCCTGCGCCGCCGCCTCCCGCCGCGCCCCGCCATGCCGCTCTACTCCGTTACTGTAAAATGGGGAAAGGAGAAATTTGAAGGTGTAGAATTGAATACAGATGAACCTCCAATGGTATTCAAGGCTCAGCTGTTTGCGTTGACTGGAGTCCAGCCTGCCAGACAGAAAGTTATGGTGAAAGGAGGAACGCTAAAGGATGATGATTGGGGAAACATCAAAATAAAAAATGGAATGACTCTACTAATGATGGGGTCAGCAGATGCTCTTCCAGAAGAACCCTCAGCCAAAACTGTCTTCGTAGAAGACATGACAGAAGAACAGTTAGCATCTGCTATGGAGTTACCATGTGGATTGACAAACCTTGGTAACACTTGTTACATGAATGCCACAGTTCAGTGTATTCGTTCTGTGCCTGAACTCAAAGATGCCCTTAAAAGGTATGCAGGTGCCTTGAGAGCTTCAGGGGAAATGGCTTCAGCGCAGTATATTACTGCAGCCCTTAGAGATTTGTTTGATTCCATGGATAAAACTTCTTCCAGTATTCCACCTATTATTCTACTGCAGTTTTTGCACATGGCTTTCCCACAGTTTGCCGAGAAAGGTGAACAAGGACAGTATCTTCAACAGGATGCTAATGAATGTTGGATACAAATGATGCGAGTATTGCAACAGAAATTGGAAGCAATAGAGGATGATTCTGTTAAAGAGACAGACTCCTCATCTGCATCGGCAGCGACACCTTCTAAAAAGAAAAGTTTAATCGATCAGTTCTTCGGTGTTGAGTTTGAAACTACCATGAAATGTACAGAATCTGAAGAAGAAGAAGTCACCAAAGGAAAGGAAAATCAACTTCAGCTTAGCTGTTTTATCAATCAGGAAGTCAAGTATCTTTTTACAGGACTTAAATTGCGACTTCAGGAAGAAATCACCAAACAGTCTCCAACGTTGCAAAGAAATGCCTTGTATATCAAATCTTCCAAGATCAGCCGGCTGCCTGCTTACTTGACCATTCAGATGGTTCGATTTTTTTATAAAGAGAAGGAATCTGTGAATGCCAAAGTTCTTAAGGATGTTAAATTTCCTCTTATGTTGGATATGTATGAACTGTGTACACCAGAACTTCAAGAGAAAATGGTGTCTTTTCGATCCAAATTCAAGGATCTAGAAGATAAAAAAGTGAATCAGCAGCCAAATACAAGTGACAAAAAGAGTAGTCCCCAGAAAGAAGTTAAGTATGAACCCTTTTCTTTTGCTGATGATATTGGCTCCAATAATTGTGGATACTATGACTTACAAGCAGTACTAACACACCAGGGAAGGTCTAGTTCTTCAGGTCATTATGTATCATGGGTGAAAAGGAAACAAGATGAATGGATTAAGTTTGATGATGACAAAGTCAGCATCGTAACACCAGAAGATATCTTACGGCTTTCTGGTGGTGGAGACTGGCATATCGCTTACGTTCTACTCTATGGGCCTCGCAGAGTTGAAATAATGGAAGAGGAAAGTGAACAGTAATCTTCATTTTAGTATTTATGCTTAGATGTGAAAATAAATGTTATTTGTTGATCATTTCTATAATCCAGAGCTTTAGAGGAAGACACATAGGTGGGTTTATGTTTCACCTCATTTGGAACAAAAGAGGACAGAAGCAGACCACTCTGTGCACCAACCTAAAAAATTACAGAGAAGAGAAAATTATCTTTGGATTGTGCTGCCCTATATAAAGGTGGCAGAAAGACATTTTTAAAAAGCTTATTATTTCTTGCATTATTTTAAAAAGTTCAGAGTTGAAATGCCTTTCAACCATTTCCTTCTGTGGTCATTTTTCTTGCTGCCTTTTTCACCCAAGATTCAGCAGTCAGATGTTTACTGCACACCTATTACCTATTATTTGCTGTTCTTGCATGGTTCAAACCACCATTCTGTAGCCACCCATCCTTTGCCTTATCTAACAAACATTTTTCCAGGAAGGTGGAAAAGGAAGTGTTGCTCTCATTGTGTGACTCAGTGCTGCTGTCCATCCCATGGAAACATGGGCACAATCAAGTATTTGTCCAGCCTATTGCAGGCTTTTCCTGACTTTAAAATAAATTGTGATCAATAATAGTACCTTTGATTATACATTTATTATTGTGTCTCTCTCTGATGTACTGTGGATTGTACATTTAACTTTGGAATGGCTTTGTAATAATCAGTCTTAAGAAAATGTTGACAAGCTCTGGTTGCTTATTTTTAGAAAATGAGGACATTTAATAATAATAAAAAAAAAGGGATTAATAGCTTTTGACCTCAAGTCTTTTGTCTTCTGAGTGTTGGAGCTTGGCTGAAGACATGTTTAATACTGTACAATTTCTGAAGATGGTTATTAACACTGTGCTGTTAAGCATCCATTTAAAAATATTTGTTATCTTCTTTGCCTGCCTGTATTTTAAAAAGAAATACAAAGTTGTAAAAGTAATGGATTTCTTTGGATGCTGAATGCAGTGATGTTATCAGTCAGATTCTTTCCTTGGCTCAGTTGTGTTTGTATTTCCTTTCTTAATTCCCCAAATCTTGGCTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGTTCACTGGAGGTTGAGTTCGAGACCAGCCTGGCCACATGGTGAAACCCTGTCTCTACTAAAGATATAAAAATTAGCTGGATGTGGTGGTGCACACCTGTGATCCCAGCTACTTGGGAGGCTGAGGTGGGAGAATTGCTTGAACCTGGAAGGCAGAAGTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGAGACTCTGTCTCAAAAAAAAAAAGAAAAAATTCCCAAATCTTAATGTCTGTTTCAGAATTTTAGTGATTTTAAAGTGATAGTAGAAAATACCAAGCATATGAGGTATTTCAATATGATAGGCTTCTTACATTTTAATAGTTACTCATCTTTGTTCCAGGACCCTTGACTGATGCTAGGGAAAGGATAAAGCATAGAATACCAGCCAGTTTGGCTCTGATTTTGAGTTATTTATAATAAAGTTTGGGGATTATCATAACATCTCATATCTTTGTGTATGTTGTTTTAATGCTCGGCAGAGCACAACACTGATGATAACTATTAAAAATAGAAAATAACAGCCATTTTACTTTCAAATCTGATGTGATGCAATCTGTGAACACTAGGAGGGGATAAAATAAGCATTGCAGGGAAACTTATTTGTAAATAGCTTCCTCACCTAAACTTTGACTTGGCAATCAATACTTTCTACTTTGTGGAGGGGATTAAGAATAGAATGGGCAGGATGAGACCATGAAAATTATAATGATTCATGTATATTTGTATGATGCTTGTAACTTTGCAAAGTCTTTTTTATTCATTGTCTCATTTGGTCAGAACAATTTTATTGAGGACATGAATTTAACAATTAGAATTTAGATTTTCTGACTGTAGCTACTAAATGTTGTAGCTACTAGACCAGGTGAGCTAGGTTTAGAGCAAAGTATATAAGCCTTGTATGGACTATATTAGAATTTTAAAAATTGTAATTAATTCCTTATCATCATTATAAAAAGCTTGATTTTTTTATTTGATCTAAAAAAGCATTATTCCAAAGAATTTTTTCAAGTAGAAATGGGAGTTAGTTATACCAGTGTTGTTTTTAACTAATAAGGCTATTTTAGAATTCAGCCTTGCCTGTAAGGTCTTTGAGAAGGGAGAGGAGTAGGCCAAAAAAAAAAAAGTCTTGATTCCTGAATGTGCCTTATATGCTGTGCCACTCACACCGAGGCCATCATCTCAACATTAGAGTTGTGCTAGATTACTGCTTGACTGACTAGCTAGGTTAGGCCTAAGAGTGTTTACCGAATAATCTGCACTCACTCAGTAGCCCTTCTTCAGGATTAAAAACGATGATGACCTCATCTTAGAGCCCTAAAGGGAAATGCTTAT
>gi|82880644|ref|NM_001037334.1| Homo sapiens ubiquitin specific peptidase 14 (USP14), transcript variant 2, mRNA
GTCTCCTCGCTGCAGTCGCTCCGGAGCTGCACGGGTGTTTTGCGTGTTGCTGCGTCATCGCCAGTGGCCGGTTTGAATGAGACTCGTCGCACCGAAGCCGCCGCCACCACCGCGCCTCCGCCTCGGCCGCCGCCGCAGCTGCTCCTGGTCCCCGTCCCTTTGCCGCCCTCGTCAGGCCCAGCTCTCCTGCGCCGCCGCCTCCCGCCGCGCCCCGCCATGCCGCTCTACTCCGTTACTGTAAAATGGGGAAAGGAGAAATTTGAAGGTGTAGAATTGAATACAGATGAACCTCCAATGGTATTCAAGGCTCAGCTGTTTGCGTTGACTGGAGTCCAGCCTGCCAGACAGAAAGTTATGGTGAAAGGAGGAACGCTAAAGGATGATGATTGGGGAAACATCAAAATAAAAAATATGGAGTTACCATGTGGATTGACAAACCTTGGTAACACTTGTTACATGAATGCCACAGTTCAGTGTATTCGTTCTGTGCCTGAACTCAAAGATGCCCTTAAAAGGTATGCAGGTGCCTTGAGAGCTTCAGGGGAAATGGCTTCAGCGCAGTATATTACTGCAGCCCTTAGAGATTTGTTTGATTCCATGGATAAAACTTCTTCCAGTATTCCACCTATTATTCTACTGCAGTTTTTGCACATGGCTTTCCCACAGTTTGCCGAGAAAGGTGAACAAGGACAGTATCTTCAACAGGATGCTAATGAATGTTGGATACAAATGATGCGAGTATTGCAACAGAAATTGGAAGCAATAGAGGATGATTCTGTTAAAGAGACAGACTCCTCATCTGCATCGGCAGCGACACCTTCTAAAAAGAAAAGTTTAATCGATCAGTTCTTCGGTGTTGAGTTTGAAACTACCATGAAATGTACAGAATCTGAAGAAGAAGAAGTCACCAAAGGAAAGGAAAATCAACTTCAGCTTAGCTGTTTTATCAATCAGGAAGTCAAGTATCTTTTTACAGGACTTAAATTGCGACTTCAGGAAGAAATCACCAAACAGTCTCCAACGTTGCAAAGAAATGCCTTGTATATCAAATCTTCCAAGATCAGCCGGCTGCCTGCTTACTTGACCATTCAGATGGTTCGATTTTTTTATAAAGAGAAGGAATCTGTGAATGCCAAAGTTCTTAAGGATGTTAAATTTCCTCTTATGTTGGATATGTATGAACTGTGTACACCAGAACTTCAAGAGAAAATGGTGTCTTTTCGATCCAAATTCAAGGATCTAGAAGATAAAAAAGTGAATCAGCAGCCAAATACAAGTGACAAAAAGAGTAGTCCCCAGAAAGAAGTTAAGTATGAACCCTTTTCTTTTGCTGATGATATTGGCTCCAATAATTGTGGATACTATGACTTACAAGCAGTACTAACACACCAGGGAAGGTCTAGTTCTTCAGGTCATTATGTATCATGGGTGAAAAGGAAACAAGATGAATGGATTAAGTTTGATGATGACAAAGTCAGCATCGTAACACCAGAAGATATCTTACGGCTTTCTGGTGGTGGAGACTGGCATATCGCTTACGTTCTACTCTATGGGCCTCGCAGAGTTGAAATAATGGAAGAGGAAAGTGAACAGTAATCTTCATTTTAGTATTTATGCTTAGATGTGAAAATAAATGTTATTTGTTGATCATTTCTATAATCCAGAGCTTTAGAGGAAGACACATAGGTGGGTTTATGTTTCACCTCATTTGGAACAAAAGAGGACAGAAGCAGACCACTCTGTGCACCAACCTAAAAAATTACAGAGAAGAGAAAATTATCTTTGGATTGTGCTGCCCTATATAAAGGTGGCAGAAAGACATTTTTAAAAAGCTTATTATTTCTTGCATTATTTTAAAAAGTTCAGAGTTGAAATGCCTTTCAACCATTTCCTTCTGTGGTCATTTTTCTTGCTGCCTTTTTCACCCAAGATTCAGCAGTCAGATGTTTACTGCACACCTATTACCTATTATTTGCTGTTCTTGCATGGTTCAAACCACCATTCTGTAGCCACCCATCCTTTGCCTTATCTAACAAACATTTTTCCAGGAAGGTGGAAAAGGAAGTGTTGCTCTCATTGTGTGACTCAGTGCTGCTGTCCATCCCATGGAAACATGGGCACAATCAAGTATTTGTCCAGCCTATTGCAGGCTTTTCCTGACTTTAAAATAAATTGTGATCAATAATAGTACCTTTGATTATACATTTATTATTGTGTCTCTCTCTGATGTACTGTGGATTGTACATTTAACTTTGGAATGGCTTTGTAATAATCAGTCTTAAGAAAATGTTGACAAGCTCTGGTTGCTTATTTTTAGAAAATGAGGACATTTAATAATAATAAAAAAAAAGGGATTAATAGCTTTTGACCTCAAGTCTTTTGTCTTCTGAGTGTTGGAGCTTGGCTGAAGACATGTTTAATACTGTACAATTTCTGAAGATGGTTATTAACACTGTGCTGTTAAGCATCCATTTAAAAATATTTGTTATCTTCTTTGCCTGCCTGTATTTTAAAAAGAAATACAAAGTTGTAAAAGTAATGGATTTCTTTGGATGCTGAATGCAGTGATGTTATCAGTCAGATTCTTTCCTTGGCTCAGTTGTGTTTGTATTTCCTTTCTTAATTCCCCAAATCTTGGCTGGGCACGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGTGGTTCACTGGAGGTTGAGTTCGAGACCAGCCTGGCCACATGGTGAAACCCTGTCTCTACTAAAGATATAAAAATTAGCTGGATGTGGTGGTGCACACCTGTGATCCCAGCTACTTGGGAGGCTGAGGTGGGAGAATTGCTTGAACCTGGAAGGCAGAAGTTGCAGTGAGCTGAGATCACACCACTGCACTCCAGCCTGGGTGACAGAGAGACTCTGTCTCAAAAAAAAAAAGAAAAAATTCCCAAATCTTAATGTCTGTTTCAGAATTTTAGTGATTTTAAAGTGATAGTAGAAAATACCAAGCATATGAGGTATTTCAATATGATAGGCTTCTTACATTTTAATAGTTACTCATCTTTGTTCCAGGACCCTTGACTGATGCTAGGGAAAGGATAAAGCATAGAATACCAGCCAGTTTGGCTCTGATTTTGAGTTATTTATAATAAAGTTTGGGGATTATCATAACATCTCATATCTTTGTGTATGTTGTTTTAATGCTCGGCAGAGCACAACACTGATGATAACTATTAAAAATAGAAAATAACAGCCATTTTACTTTCAAATCTGATGTGATGCAATCTGTGAACACTAGGAGGGGATAAAATAAGCATTGCAGGGAAACTTATTTGTAAATAGCTTCCTCACCTAAACTTTGACTTGGCAATCAATACTTTCTACTTTGTGGAGGGGATTAAGAATAGAATGGGCAGGATGAGACCATGAAAATTATAATGATTCATGTATATTTGTATGATGCTTGTAACTTTGCAAAGTCTTTTTTATTCATTGTCTCATTTGGTCAGAACAATTTTATTGAGGACATGAATTTAACAATTAGAATTTAGATTTTCTGACTGTAGCTACTAAATGTTGTAGCTACTAGACCAGGTGAGCTAGGTTTAGAGCAAAGTATATAAGCCTTGTATGGACTATATTAGAATTTTAAAAATTGTAATTAATTCCTTATCATCATTATAAAAAGCTTGATTTTTTTATTTGATCTAAAAAAGCATTATTCCAAAGAATTTTTTCAAGTAGAAATGGGAGTTAGTTATACCAGTGTTGTTTTTAACTAATAAGGCTATTTTAGAATTCAGCCTTGCCTGTAAGGTCTTTGAGAAGGGAGAGGAGTAGGCCAAAAAAAAAAAAGTCTTGATTCCTGAATGTGCCTTATATGCTGTGCCACTCACACCGAGGCCATCATCTCAACATTAGAGTTGTGCTAGATTACTGCTTGACTGACTAGCTAGGTTAGGCCTAAGAGTGTTTACCGAATAATCTGCACTCACTCAGTAGCCCTTCTTCAGGATTAAAAACGATGATGACCTCATCTTAGAGCCCTAAAGGGAAATGCTTAT
>gi|82546823|ref|NM_001037165.1| Homo sapiens forkhead box K1 (FOXK1), mRNA
CCGCGCGAACATGGCCGAAGTCGGCGAGGACAGCGGCGCCCGCGCCCTGCTCGCGCTGCGCTCGGCGCCCTGCAGCCCAGTGCTGTGCGCCGCAGCCGCCGCCGCCGCCTTCCCCGCGGCCGCACCCCCGCCGGCCCCCGCGCAGCCCCAGCCTCCGCCCGGGCCGCCGCCGCCGCCGCCACCGCCGCTGCCTCCGGGCGCGATCGCGGGCGCGGGCTCCTCCGGGGGCTCCTCCGGGGTATCCGGGGACTCCGCGGTCGCGGGCGCGGCGCCGGCCCTGGTGGCCGCGGCGGCCGCCTCGGTACGGCAGAGCCCGGGGCCGGCGCTGGCGCGGCTGGAGGGCCGCGAGTTCGAGTTCCTCATGCGCCAGCCCAGCGTCACCATCGGCCGCAACTCGTCGCAGGGCTCGGTGGACTTGAGCATGGGCCTGTCCAGCTTCATCTCGCGGCGCCACCTGCAGCTCAGCTTCCAGGAGCCGCACTTCTACCTGCGCTGCCTCGGCAAGAACGGCGTCTTCGTGGACGGGGCCTTCCAGAGACGCGGCGCGCCCGCCCTGCAGCTGCCCAAGCAGTGTACCTTCCGGTTTCCCAGCACGGCCATCAAGATCCAGTTCACGTCGCTCTATCACAAAGAAGAGGCCCCAGCCTCCCCGCTGCGGCCACTGTACCCCCAGATCTCCCCTCTGAAGATCCACATCCCGGAGCCGGACCTCCGGAGCATGGTCAGCCCCGTCCCCTCCCCGACGGGCACCATCAGTGTCCCCAACTCCTGCCCAGCCAGTCCACGCGGTGCCGGCTCCTCCAGTTACCGCTTTGTGCAGAACGTGACCTCGGACCTGCAGCTGGCAGCAGAGTTTGCAGCAAAGGCCGCGTCGGAGCAGCAGGCAGACACGTCTGGAGGAGACAGCCCCAAGGATGAGTCAAAGCCGCCGTTCTCCTACGCGCAGCTGATCGTGCAGGCCATCTCCTCCGCCCAGGACCGGCAGCTGACCCTGAGCGGGATCTACGCCCACATCACCAAGCATTACCCCTACTACCGGACGGCCGACAAAGGCTGGCAGAATTCTATCCGGCACAACCTCTCTTTGAACCGTTACTTTATCAAAGTCCCACGTTCCCAGGAGGAGCCTGGGAAGGGGTCCTTTTGGCGAATAGACCCTGCCTCTGAAGCCAAGCTCGTGGAACAGGCATTCCGGAAACGGAGGCAGAGGGGTGTCTCCTGCTTCCGCACCCCCTTCGGGCCTCTGTCCTCAAGGAGCGCTCCAGCTTCGCCCACACACCCCGGGCTGATGTCCCCTCGCTCCGGCGGCCTGCAGACCCCAGAGTGCCTGTCTCGGGAGGGCTCCCCCATTCCACACGACCCTGAGTTTGGGTCCAAGTTAGCTTCTGTCCCAGAGTACCGGTATTCCCAAAGCGCACCCGGCTCCCCCGTCAGCGCCCAGCCAGTGATCATGGCCGTGCCTCCCCGACCGTCCAGCCTCGTGGCCAAGCCCGTGGCCTACATGCCCGCCTCCATCGTAACCTCACAGCAGCCCGCGGGCCACGCCATCCACGTCGTGCAGCAGGCCCCCACCGTCACCATGGTCAGGGTGGTCACCACATCTGCCAACTCGGCCAACGGATACATCCTCACCAGCCAGGGCGCGGCGGGGGGCTCCCATGATGCGGCGGGCGCAGCCGTGCTGGACCTGGGCAGCGAGGCCAGAGGCCTGGAGGAGAAACCCACCATTGCGTTTGCCACAATCCCCGCGGCTGGTGGAGTCATCCAGACGGTGGCCAGCCAGATGGCCCCCGGGGTCCCCGGACACACGGTCACCATCCTGCAGCCCGCCACACCCGTGACCCTCGGGCAGCACCACCTTCCAGTCCGGGCCGTGACCCAGAACGGAAAGCATGCGGTTCCCACGAACAGTTTAGCCGGCAACGCTTACGCCCTCACCAGCCCTTTGCAGCTCCTTGCGACCCAAGCGAGTTCATCCGCGCCGGTGGTGGTCACCCGGGTGTGCGAGGTGGGGCCCAAGGAGCCAGCAGCAGCCGTCGCGGCCACGGCCACCACCACCCCAGCCACTGCCACCACCGCCTCTGCCTCCGCCTCTTCCACTGGAGAGCCCGAGGTCAAAAGGTCCCGGGTGGAGGAGCCCAGTGGGGCTGTAACCACACCGGCTGGAGTGATCGCAGCTGCCGGCCCCCAGGGGCCAGGCACCGGGGAGTGAGGTCACCTGCAACGCGGGGGAGTGGGACTCACCCAGCGGCGACCCCGAAGCTGGACCCGGCAGCTCAGGCGGCCGCACCCACAGACGGAGGAGAACAGCCCGCGGCGGCCTGTGGGCATCGGCGGCACCTGGACACACCCAGCCCTTTCCATTTGATCGCCTGCCTTCCCGTGGTTTAAGACAAAAACACATAAACAAGTTCAGACAACTGATTGTATGATTCTGGGAATTCTTTGCTTTCCTTTCCTTCTCCCTCGGCACCACCTCCTCTCCCCAGGCCTCCCTGTCGGGCATGGGGAGGAGGTTGGAGCTCAGCATCTTGAGGAATGTGTCAAGACAGCCCCTCCGCTCCGCGCTGCACGGCCAGCCGCCTTTGTCCGGGAGGACAGACAGAAACGCAGCAAGGCACACACCAAGGCTGCCGGGGAGGCCCGGGCACCGGACAGATGCCTGTTGGGAAGCCAGGAGCTGCCGAGCCACGGACCACCTAACAGCCTCTCCGCCCGGAACGTGACATAGAGAGTGTTGGCATTAACTCGGGGGGTGTCCGATTTCACTTCAGACCCCAAGTTTTTCTTTGTTTGTTTAAACATGGAATTCAGACTTCATTGTACACCTGAGACAGACACAAAAGGGATCATGTATTTTTGAGGATTTTACCTGTTGACGTCTGATGACCGGCCGTAGGTCCAGGGTTCCCGCTGGGTTTAATCCCCTCGAAGAGTAAACCTGCCGCTCTGTCTGATAACTTCAAGTAAGAGCAGCGGCTTCCTGGGTTGGCGTTCGCGGTGGAAGGTTCCTAGGATGAAAGGTGAGCCTGGATCCGCCGGCCGCAGACATCGCGCTGCTGGGGACGATTGGGGCCGCTGCTCTGCAGACCAGACCTTCCCGAATTATCCGTGGCTCCGATGTCCCGGTGCTGACGGCCACATGGGGACCTAACAGTGCCAAACGCCATCTGCTCCAGCTGCTTTTTCACCCAGTTGCAGAGTCCTCACCACTCCCACATTGATCTGCTGTTTTCAATTGGAACCATTTCTCCTGCCTGAAACTCCAGGGCCCCTCCCTGGGCTGTCCGTGAGCAGGAGACCCCACCCCAGCAGCAGTGGTGAGCAGGCCTGTGCCTCCACGCCCAGCCCCCGCCAACGCGACTGGTTTTGTTTGCCACACGGTGAGAACCGGAGGACGGGATGCTCCAGCCAGTTGGGTGGTTCTGGGGTCCCTGAGGAAGCCCCCTCCTGCACTTCCATTAAGACAGCCAGTGGTTCCTGGATCTTTGTCACCAAGCAGCGTTGAGCCAGAGCTGTCTAATGCTGAGCCCAGCTCAGGAAGGAGAGAGGAGTCCTTCAGTGTGTCTTGGAGATGCGAAGTGCGTCCTCGTAAAGGTCAGCTGTCAGTTTTGCTGGCCGCTCCGGCGCTGGCTCTCCTGTCCGGGACCACAACGAGAAACAGCGACAGATTCGACGCAGAGCTCCGGAAGTGCCTGAGGAGCAGTGGTTCTTGGAAATCGCCCGTCCTCCGCATCACAGCCTCTCACCAGCAAAGCAGCCTCTGCCCAGGCCCTGGCGGGAGAGCTGCAGAGGGACCCAGGTGCCTGGAGGGCATTTGAGGGAGGTGGCTGGACAGGTGTCTCCCTGAAGAAGAAGGGAGAACACTTTTCAAAGTGATTCCGAGGCAGTGCGGGAGGACACACGTGCTGTGCAGTGGAGTGGGGTCGCCCGTGGCCCCCATCAGAGTCCCCGTCCCCCAGGACAAGTGCAGAACCTCTGTGGGCCCCCTCCTTCCACCTAGATAGAGAAAACCCCTTGTTCGGTTTCCTTCCCGTGTCCCGTTGTTTTTCTAAGCCCCCCGAATTGAGTCGTTTCTATGGCACTAACCTTTCCATGGGAAATAAGCTCTTTGTGGAAGTCCGTACCTGTTGCCCTGGGTGAGGTTTCAGAGAAACGGGGGCAGGATGAACACAGCCGGCTGTCCTGGGTGCAGTTACGTCCGTGGAGGGTGAGAGATTGCGCCCCGTTCCACACTTGTGTCGCCTGCTGTTGTCTGTGGGCCTTTTCTTTCCGTGGTGCCTGGTGTGTGCGTGCATGGCGTGAGAGAACGGGGGGTGGGGGTTGGAGGTGGCTCCCCGACACCGGTGCCTGTGTGGCCTGAGCCGGCGCCCTCCCGGGAGCGCCCGTCACGGGGGGCCTCTGTGATTACCTGCTGCTGCTCTCTCCCGCGTGGTGACTATATGTCCTCAGGGCTGCCTGTGGCCACCCTGATGGGAGACCTCTGTTTGCTTCTGGGCCACTGCAGGTTGGCCTCCTCAATACAAGCTGATGTCTGCAGGGAGCGCCGCGTGCTGGGATTGCACCACGTGTTGGTCACAAATCGAGGTCGCCTTTTGGCCTGGTCTGCTCAGGCTGGCCCTGACCCACGTGGTTTCCTGGCTTCTGAGACGCAGCGCATTCTTCCTGTTAGCGGTAGCGTTCTCTGATTTCACTGCTTCATTGCCAAGGGCGTGGAAAGGGGGTGGTGGATGGAGCCGGGAGGTGGCGAGCACAGGACCCCGGGGCTGCATTCTGCCGTGTGGGGTTCTGCACTGTCTAGCTTCTGCGGGGACTGCAAAGAGGGATGAAGGGACGTGGTCCTAGGGGTCGGCTCAGACTCGGAGCAGGGCAGGGAGAGGAGGGCAAGGAGAGGAGGCCTGGGTCCTGGATCCACTGCTCTGGGCTCATAACCATGAGATTTTGAAAGAGTTTTTGGTCATCTGAGCAGGTACCATGCCTGGCTCATGCCGGAACTTGTCTTGGAACCGGTAGCCAGAGGCCCAGGAAGGGACAGGGCCCAAAAGGGTTGCATGTCCCGGCCACAAAGCCCTCCCTGTGTGCCCTGAGCCAGCCCAGCAAGCGCCTCCCAGCCAGGCGCTTTCGCAGAAGCAAGAGCACAGGCCAGGGGGACCGGGAGAGCCTCAGCCCCCAGCCTGGGCGGCCTGTGACCCTGAGCCGTGTGGAGCCAGGACCCAAGAACCTTCTCTAGGTTCTCAAGGGTGAGCTGACCCGGGCAATGTGCAGGAATGTGGGGAGCAAAAGTAGCTGATTCCAGCCCCGTTCTGGGGTCACTGGGGAGGCAGAGGCTGAGGGCCTGTTCTCTGGTCACCAGGGACTGGGGGCACGGTCCACAGCGGATGAGAACAGCAGGTCACAGTAGTGGCTTTGGGAAGGGCCCCTCCTGCTTTGCCCTGTTCGGAAAGGGGCTCCCTCAGAGCCCCTGGGCCCAGTAACCCGCTTCTGTCTCCTGACTCCTGCTGGATAAATTGCCAGGTTTATCAAATACAAGAAAACACCTGCTTTGGCTAGGAGGTAAGTCCCAAAAAGAACGTCTTAAGTAGAGCAAAGGCATCCACCGAGGCCATTTGGTGGCCCCTGGGAAGTGGGGAAGCAGGGCCTGAGCGTCCCCAGGCTGCTAGGGCAGCAGCTGGCTCAGGGCACACTCTCTCGTGCCAGCTTCTGCCACCAGCCCAGTGTCCACGGAGCCGCGGGGCCAGAGGAGCTCAGGGAGACCTGGCTGTCTAGGGCATGGTACCCAGTATCCCGGTGTGTGCCCATCCTCAGCCACTTGTGTCTTTCTTTCCATGTGGGAGTTCTCCCGGTGACACCTGCCCTCCGTTGAGGGTGGAATCTGTCACTCATGCCTTTGAGGGACCCAGATGGACCATCCCTCTTCTGCTTGCTTTCTACATTCCTAAAAACCTCAACGTTAATCCCTCACCAGTCGGGCCGAGTGTGGCCTCATGGTTCTGCCGCGGCCCAGTCTTCTCCCACTGGCTTCACGCTAGAGGGCGCCATGCGCTCTGGGTGAAATGAGACGCTGGTGTGGGGTCCCCATGTAGAGACCCTCAGGTCCCTATCCAGAGACCCTCCAGGCAGTGCTGGGAAGACACTGGTGGCGGGGACCATGACCAGGCGGGTGGAGCCATGTGTGTCTCACACCTGCCGCCCCTCACTTTCCTTCCCGAGGTCTGGTAGGTCCTCTTTGGGATTTGCTGTTTATTTGTATCTCCCTTTTCTTTGATTTAAGAACAATGCCAAGTGAAAAAGCTGGGAATGAATTTCTGAGTTGCTGAGTGTTCCCTGCTCCTAGGTACCACGCTCTGTGCTTCTCAGGCAGGGAGGAGATGGATTCGGTGGAGTTGGGCCAGGACGGGGGCTTCACCCTGCCCCCTCCAGACTGCCGAAGCCCCCAAGAAGTTTTGAGCCCAGCTGGGCCTCGCCTCCCCGGCTCCTGGGTCCATTTTCTGTACTGGTTTGAGATCACAGGCATCATTCAGCGAATGCTCTTGTGTCCTCTGCATAAAGAGGGCCCTCCCTGGAGCACCCCCGGGGAGCTGGGACTCTCCAGAAAGCCCCGGGTGAGGGCTCCGTCTTGAGAGAGAGAGAAATCCCTTCTTTGGGCGATTCAGTGAGTTCAGGAGGAGGAGGAAGCTTTTCCTTGGCTTTGAAATCAGTGTTTTTATGGAGACAAAGAACAGACCTCAGTGGGAAAAATGAAAACGTAATGGAACACGGGGAGGTGTCGGAGAAGAAAGGATTTTCCCCTTCGCTTTCAGAGCCGGCGGGAGTGCAGGTCTGTTTTGCTTCAGAAGCCTCACATTCTGCTTTGCCCTTGAGTGACTTCATGCGGGATGAGGAACTGTTGACCCCTCTAGAGAGGACACCCCAAGTCCATCCTGGGCTCCTCCTCACCCCTCTGAGAAAGCCCCCCTAAAAAAAGGCTTCAGAGTCACCGGCATGCCGCCTCACGTTGCAGGACGGAATCGCGCGCTCCTCACGCTGGAGTAAGTTACGAAACATGATCGTCAGGCTCTTTGCAAACGCAGAGCCCCAGAACGCTGGATGGAGGCCTCCTCGGCCCTGCGGGCGGCCTGGCTGCGGTAGGTCTGCTGCAAGGAGCCACCACGGGGACTGCGCCACACTCCTGATGAAAACGTGTTTACCCACAGCCTCGCCTCGAGCCTCCTTGACAATACCGCTGCTTCAAAGCAATATTATTTAATGAGAATACTTTACATTGCTCACATGTGCTGCTATGAAGACAGGATTAGTCTGTAGACGGGACTCAGCTCCAGAGGTTCCTGGGTAATGTATTGTGGCTCTTGGAAATGAGGGTAGAATTTGAAATATAACAAATGGTCTCTCGCCCGGTTCTGTCCCTTATTTTTAGATTGTTTTCCTGCATCTTACAATTTCCTTTTCTTTTCAAAGTTCCTTTCTCCAGGCCTGTTTTTCAGTGCTCAGGACACGGTTTTCATCACATACTTACTGTTTTTTTGGTTGGGTTTTGATACGAAAAGCTGCTACGTTTGGTGACCAGAGGGAGGGTTTGGAATCTGTGCTTTGCAGGGGATCTCGGTGGGTACCGCGGCCCCTCGCAGGGTGGCGAGTGGGGTCCGTGCCTCGAGAAGGGGGCCCTTACCCACACCGTGCGGCTTGAATTCTGTCGGAGTTGAATCTGTGGAAAGGATTGTCCCATTAGAGCTGCTGCGTCCTTTCCTCTGTCCTCCCTGTCACCCAAACCCCGAAGTCACAGCTGCTTAGAAGAATGGGATTTTGGGGATACAACCACACACATTTCCCTCTGGACTGAAATTTTAAAAACAGACCCATTTCACTGACTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCCGCTACCACGCCCGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCCACTGACTTCTTTAGGGAAAATAGTTTCAGTCTTGGGTTGTCTTGTGAGCCCACGGGCATGGGACCCTGTCTCTGCTGGGCTTTTCCGGCCCCGTCCCAGCTCCTCCTCAGGCAGAGGCTGCAGCCCTCAGCTCTGCTGCTGGATGGAACATTTCAACCCCCTCCGGGAAGGTGGGCAGGGTGGAGGGCCCAGGGCTAGGCCTGCCATGCACCATGAGCAGGGGTGCTACCTGGGTGTGTGAAGTTGGGCTGGCTTTTCCTGGAGGTGGGTGAGAAGGCTCTCCGGGCAAATCAGAAGGCCACGAGAGAGAGAGGAGCGGGGAGAGTGGTGAGGAGGATTCGTCTCTGACTGATGAACCTCGCCGTGCCTGTCTGTCACATCCAAGTCTGTGCCAGCTGCTGGGAGGTCAGACTCCTGCCCTGAGAAACAGCCCAGTCCTTGGAGAATGAAACCCTGAGGGTCAGTGAGTGGAGGCCTTCCCTCGGGGCCAGCCATTCCCGGGAGGCCTGAGTGTGACCTGGAAGCTCTGTGGGTCACCAAGACTGGCATTTTCCTTGTATTTTTGTGCAGGGCTGAAGTGAGCGTTCCTCCTCTGAATTGGTGAGGCTTTGGAAATTTTTTGTTTCTTCTACTCATCCTAATGGCTGGTTTTGGCTGCCCGGAGTATCAGAGAATATCACTAAGAGGGCAGTCAGTTTATTTTTAGGCATCTTTCTTTCTGTCCAGGGAGAAACCCCTCGGAAGAATCTTAGTCACTCTTTGCACCTGCCCTGTCATTCTCGCCATGGGGAAAATGCGTTGAAAAGAAAAATACCGGGGCCAGGGAGAAGCCGTGAATGTATTTATTTGCTTTGGTGAAGCTGCTGAACACTGGCTGCGGAGGGCCCCCCGCCCCCATCCCGCTTCAGGCCCCAGTGACCCAGTTGCGTCTTAAGTTCCATCGTCCAGATTTCAGGCCACCAGAGGCTGCCAAAGGTGACTGAAGCGGTCTCCAAGTCACTCTGTCACCACTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTATCGCCCAGGCTGGAGTGCAGTGGCCCAATCTCGGCTCACTGCAACCTCCGCCTCCCAGGTTCGAGCGAATTCTCCTGCCTCAACCTCCCAAGTAGCTGGGATTACAGGCACCTGCCACCACACCCGGCTAATTTTTGTATTTCTAATAGAGATGAGAGTGTTACCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTGCCCACCTCAACCTCCCAAAGTGCTGGGATTATAGGCATGAGCCACCGCGCCTGGCCTCTGTCACTTTTTTTGCTCCTTACCCAGTTTTTGTTTTTTGTTGTTTTGTTTTGTTTTAGCGTGATACTACAATGGAAAGACTCCTAGTTGGTTATTCTTTATCTCGGATTCTTTTTTCTGGAATTGTTTGCTCATTTGAGTGGTTGGTGGTTTGCCCTGTGTCAGACACGGTGAAAAGAGTGCAGGAAAGCTGGGGCCAGGGGAAGCGAAGTGGCTTCAATCCGGGCTGACAGCCAAGAAGAGTTTTCCTCCCTTCGGTGACAGGGCCTGCCCCTCCGAGTCTAGAGGTAAAAGCAGCTTCTAGAACTGGCCCCTAAGTCTCCAAATGTGTTGGCTAAGCTGAAATGAGAGACTCTGAATTAGAGTTTTTGTTTGTTTGTTTGTTCTCTGCATGAAGTTCACAGGCCTGTATGGATGTTAAATTGTGTCTATAGCCTCTAAATCTCCAGGTTAACTGGTCCAGATTTTTTTTTTTTAATCAGTAACAATGGGAATTTAAAATCAAATATTTGGCCAGGTGCGGTGGCTCATGCCCGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGCGCATCACCTGAGGAGTTTGAGACCAGCCTGACCAACATGGTGAAATCCTGTCTCTACTAAAAATACAAAAAATTAGCCAGGCGTGGTGGCGTGTGCCTGTAATCCCAGCTACCAGGGAGGCTGAGGCATGAGAATCGCTTGAACCTGGGAGATGGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCAACAGAGGGAGACTCTGTCTCAAAAATAATAATCAAATCAAGTATTTTAAGTTTGGCTCTTCTTTTTTTCAAGAAAGGCTTTTTGGATACCTAGAATACCTTCATGTATGTGGCTTGATTTCTGTTTCAGGAAAAGGGGGGCGGGAGGAGAGACAACAGCCGTGTTCCAGAGTCTGTCCTGAGATGTCGCTGAGTCCAGACACTTGGGCTGCACGTGCCCTGCAGATGACAAAGGCCGGCAGCTCAGCACACGTGCAGGAGGGGTTAAAGCCAATATTGAGTTTTTGTTCTTGTTGTTTTAATCTGAACGATTATTCTCCTGTAAAAATAATTTGGGAGGGGCGGGTGTTGTTCGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTTTTTTTTTACAGTGGCGCCTGTCTAAAGTATTTTTCACAACATGTTTGATAATCAGTGCTTTAAAAAGCAGCAGTGTCCTATGAAGTGGAAATGTCAGTTCTAGAGCATTGGATGTGAAGTTCTGGTCATGTCACCTTGCGTGTCTCACCCTGGAGGAGTGAAGGTGGGCGCCCGGCGGGGGGGTGTGGCTGCACCCCAGCACCGGGAGGGGGCACGCACGACACCAGAGGAAGGGACAGCCCCACCCATGTCAACAGCAGGCAACCTGTGTTTTCATTTCAAGTGGGATACAGTATTTTTTTAATAAGGAGCCATACTTTTTTTTAAGAGTTTGAGATCTGAATGTGATTTCTAATTGTATCAGACGTTAATGTTTTAAAGCTATAACAAAGTTTAAAATTTCTACTTTTTGTTTTTCATTTATTTTAACTGTTCTTTTATCTATTAAATTGTTGTATGTGGATGGGGAAGTTTTGTTTCTCCTCTTAGCATTTGTTTCTATAACCAGAAATAAAATTCTATATTAAAGAAATGAC
>gi|74027268|ref|NM_001014443.2| Homo sapiens ubiquitin specific peptidase 21 (USP21), transcript variant 3, mRNA
GCGCAGGCGCTTTGAGAGACGGTGAAGCCGGTGGCCGGTGGCCGGGCGGGACCAACAAAGATGGCGGCGGCCCCTGCGGCGGGAGCGATCTGGGCAACGGCTGCGGCTAAAGCTGCAGCCGGGCCCACGGGGGGGCTGCACGGGGGTAGTAGGGGGTGGCCCTGAACTGGGGCCTGGCCCTGGCTGGCCTCTCCCGCCGCCTCACTGGGGGACAGGTACTGGGGATACGATGGCTGATTCGATAGATCTGGTTCCTGCCCTCAGTGCGTATACTGCTCCCCACTTTCGTTGATGTGGTAGTGGTGATGACTGAGCCAACCACCTAATGTGGAAATGAGAGGACAGCAAGATTGTGGGTCCAGCCTGTGGTGTCCACAATGCCCCAGGCCTCTGAGCACCGCCTGGGCCGTACCCGAGAGCCACCTGTTAATATCCAGCCCCGAGTGGGATCCAAGCTACCATTTGCCCCCAGGGCCCGCAGCAAGGAGCGCAGAAACCCAGCCTCTGGGCCAAACCCCATGTTACGACCTCTGCCTCCCCGGCCAGGTCTGCCTGATGAACGGCTCAAGAAACTGGAGCTGGGACGGGGACGGACCTCAGGCCCTCGTCCCAGAGGCCCCCTTCGAGCAGATCATGGGGTTCCCCTGCCTGGCTCACCACCCCCAACAGTGGCTTTGCCTCTCCCATCTCGGACCAACTTAGCCCGTTCCAAGTCTGTGAGCAGTGGGGACTTGCGTCCAATGGGGATTGCCTTGGGAGGGCACCGTGGCACCGGAGAGCTTGGGGCTGCACTGAGCCGCTTGGCCCTCCGGCCTGAGCCACCCACTTTGAGACGTAGCACTTCTCTCCGCCGCCTAGGGGGCTTTCCTGGACCCCCTACCCTGTTCAGCATACGGACAGAGCCCCCTGCTTCCCATGGCTCCTTCCACATGATATCCGCCCGGTCCTCTGAGCCTTTCTACTCTGATGACAAGATGGCTCATCACACACTCCTTCTGGGCTCTGGTCATGTTGGCCTTCGAAACCTGGGAAACACGTGCTTCCTGAATGCTGTGCTGCAGTGTCTGAGCAGCACTCGACCTCTTCGGGACTTCTGTCTGAGAAGGGACTTCCGGCAAGAGGTGCCTGGAGGAGGCCGAGCCCAAGAGCTCACTGAAGCCTTTGCAGATGTGATTGGTGCCCTCTGGCACCCTGACTCCTGCGAAGCTGTGAATCCTACTCGATTCCGAGCTGTCTTCCAGAAATATGTTCCCTCCTTCTCTGGATACAGCCAGCAGGATGCCCAAGAGTTCCTGAAGCTCCTCATGGAGCGGCTACACCTTGAAATCAACCGCCGAGGCCGCCGGGCTCCACCGATACTTGCCAATGGTCCAGTTCCCTCTCCACCCCGCCGAGGAGGGGCTCTGCTAGAAGAACCTGAGTTAAGTGATGATGACCGAGCCAACCTAATGTGGAAACGTTACCTGGAGCGAGAGGACAGCAAGATTGTGGACCTGTTTGTGGGCCAGTTGAAAAGTTGTCTCAAGTGCCAGGCCTGTGGGTATCGCTCCACGACCTTCGAGGTTTTTTGTGACCTGTCCCTGCCCATCCCCAAGAAAGGATTTGCTGGGGGCAAGGTGTCTCTGCGGGATTGTTTCAACCTTTTCACTAAGGAAGAAGAGCTAGAGTCGGAGAATGCCCCAGTGTGTGACCGATGTCGGCAGAAAACTCGAAGTACCAAAAAGTTGACAGTACAAAGATTCCCTCGAATCCTCGTGCTCCATCTGAATCGATTTTCTGCCTCCCGAGGCTCCATCAAAAAAAGTTCAGTAGGTGTAGACTTTCCACTGCAGCGACTGAGCCTAGGGGACTTTGCCAGTGACAAAGCCGGAAGTCCTGTATACCAGCTGTATGCCCTTTGCAACCACTCAGGCAGCGTCCACTATGGCCACTACACAGCCCTGTGCCGGTGCCAGACTGGTTGGCATGTCTACAATGACTCTCGTGTCTCCCCTGTCAGTGAAAACCAGGTGGCATCCAGCGAGGGCTACGTGCTGTTCTACCAACTGATGCAGGAGCCACCCCGGTGCCTGTGACACCTCTAAGCTCTGGCACCTGTGAAGCCCTTTAAACACCCTTAAGCCCCAGGCTCCCCGTTTACCTCAGAGACGTCTATTTTTGTGTCTTTTTAATCGGGGAGGGGGGAGGGGGTGGTTGTAGCTCCATTATTTTTTTTATTAAAAAATACCCTTCCACCTGGAGGCTCCCTTGTCTCCCAGCCCCATGTACAAAGCTCACCAAGCCCCTGCCCATGTACAGCCCCCAGACCCTCTGCAATATCACTTTTTGTGAATAAATTTATTAAGAAAAAATGAAAAA
>gi|72198188|ref|NM_000633.2| Homo sapiens BCL2, apoptosis regulator (BCL2), transcript variant alpha, mRNA
TTTCTGTGAAGCAGAAGTCTGGGAATCGATCTGGAAATCCTCCTAATTTTTACTCCCTCTCCCCGCGACTCCTGATTCATTGGGAAGTTTCAAATCAGCTATAACTGGAGAGTGCTGAAGATTGATGGGATCGTTGCCTTATGCATTTGTTTTGGTTTTACAAAAAGGAAACTTGACAGAGGATCATGCTGTACTTAAAAAATACAACATCACAGAGGAAGTAGACTGATATTAACAATACTTACTAATAATAACGTGCCTCATGAAATAAAGATCCGAAAGGAATTGGAATAAAAATTTCCTGCATCTCATGCCAAGGGGGAAACACCAGAATCAAGTGTTCCGCGTGATTGAAGACACCCCCTCGTCCAAGAATGCAAAGCACATCCAATAAAATAGCTGGATTATAACTCCTCTTCTTTCTCTGGGGGCCGTGGGGTGGGAGCTGGGGCGAGAGGTGCCGTTGGCCCCCGTTGCTTTTCCTCTGGGAAGGATGGCGCACGCTGGGAGAACAGGGTACGATAACCGGGAGATAGTGATGAAGTACATCCATTATAAGCTGTCGCAGAGGGGCTACGAGTGGGATGCGGGAGATGTGGGCGCCGCGCCCCCGGGGGCCGCCCCCGCACCGGGCATCTTCTCCTCCCAGCCCGGGCACACGCCCCATCCAGCCGCATCCCGGGACCCGGTCGCCAGGACCTCGCCGCTGCAGACCCCGGCTGCCCCCGGCGCCGCCGCGGGGCCTGCGCTCAGCCCGGTGCCACCTGTGGTCCACCTGACCCTCCGCCAGGCCGGCGACGACTTCTCCCGCCGCTACCGCCGCGACTTCGCCGAGATGTCCAGCCAGCTGCACCTGACGCCCTTCACCGCGCGGGGACGCTTTGCCACGGTGGTGGAGGAGCTCTTCAGGGACGGGGTGAACTGGGGGAGGATTGTGGCCTTCTTTGAGTTCGGTGGGGTCATGTGTGTGGAGAGCGTCAACCGGGAGATGTCGCCCCTGGTGGACAACATCGCCCTGTGGATGACTGAGTACCTGAACCGGCACCTGCACACCTGGATCCAGGATAACGGAGGCTGGGATGCCTTTGTGGAACTGTACGGCCCCAGCATGCGGCCTCTGTTTGATTTCTCCTGGCTGTCTCTGAAGACTCTGCTCAGTTTGGCCCTGGTGGGAGCTTGCATCACCCTGGGTGCCTATCTGGGCCACAAGTGAAGTCAACATGCCTGCCCCAAACAAATATGCAAAAGGTTCACTAAAGCAGTAGAAATAATATGCATTGTCAGTGATGTACCATGAAACAAAGCTGCAGGCTGTTTAAGAAAAAATAACACACATATAAACATCACACACACAGACAGACACACACACACACAACAATTAACAGTCTTCAGGCAAAACGTCGAATCAGCTATTTACTGCCAAAGGGAAATATCATTTATTTTTTACATTATTAAGAAAAAAAGATTTATTTATTTAAGACAGTCCCATCAAAACTCCTGTCTTTGGAAATCCGACCACTAATTGCCAAGCACCGCTTCGTGTGGCTCCACCTGGATGTTCTGTGCCTGTAAACATAGATTCGCTTTCCATGTTGTTGGCCGGATCACCATCTGAAGAGCAGACGGATGGAAAAAGGACCTGATCATTGGGGAAGCTGGCTTTCTGGCTGCTGGAGGCTGGGGAGAAGGTGTTCATTCACTTGCATTTCTTTGCCCTGGGGGCTGTGATATTAACAGAGGGAGGGTTCCTGTGGGGGGAAGTCCATGCCTCCCTGGCCTGAAGAAGAGACTCTTTGCATATGACTCACATGATGCATACCTGGTGGGAGGAAAAGAGTTGGGAACTTCAGATGGACCTAGTACCCACTGAGATTTCCACGCCGAAGGACAGCGATGGGAAAAATGCCCTTAAATCATAGGAAAGTATTTTTTTAAGCTACCAATTGTGCCGAGAAAAGCATTTTAGCAATTTATACAATATCATCCAGTACCTTAAGCCCTGATTGTGTATATTCATATATTTTGGATACGCACCCCCCAACTCCCAATACTGGCTCTGTCTGAGTAAGAAACAGAATCCTCTGGAACTTGAGGAAGTGAACATTTCGGTGACTTCCGCATCAGGAAGGCTAGAGTTACCCAGAGCATCAGGCCGCCACAAGTGCCTGCTTTTAGGAGACCGAAGTCCGCAGAACCTGCCTGTGTCCCAGCTTGGAGGCCTGGTCCTGGAACTGAGCCGGGGCCCTCACTGGCCTCCTCCAGGGATGATCAACAGGGCAGTGTGGTCTCCGAATGTCTGGAAGCTGATGGAGCTCAGAATTCCACTGTCAAGAAAGAGCAGTAGAGGGGTGTGGCTGGGCCTGTCACCCTGGGGCCCTCCAGGTAGGCCCGTTTTCACGTGGAGCATGGGAGCCACGACCCTTCTTAAGACATGTATCACTGTAGAGGGAAGGAACAGAGGCCCTGGGCCCTTCCTATCAGAAGGACATGGTGAAGGCTGGGAACGTGAGGAGAGGCAATGGCCACGGCCCATTTTGGCTGTAGCACATGGCACGTTGGCTGTGTGGCCTTGGCCCACCTGTGAGTTTAAAGCAAGGCTTTAAATGACTTTGGAGAGGGTCACAAATCCTAAAAGAAGCATTGAAGTGAGGTGTCATGGATTAATTGACCCCTGTCTATGGAATTACATGTAAAACATTATCTTGTCACTGTAGTTTGGTTTTATTTGAAAACCTGACAAAAAAAAAGTTCCAGGTGTGGAATATGGGGGTTATCTGTACATCCTGGGGCATTAAAAAAAAAATCAATGGTGGGGAACTATAAAGAAGTAACAAAAGAAGTGACATCTTCAGCAAATAAACTAGGAAATTTTTTTTTCTTCCAGTTTAGAATCAGCCTTGAAACATTGATGGAATAACTCTGTGGCATTATTGCATTATATACCATTTATCTGTATTAACTTTGGAATGTACTCTGTTCAATGTTTAATGCTGTGGTTGATATTTCGAAAGCTGCTTTAAAAAAATACATGCATCTCAGCGTTTTTTTGTTTTTAATTGTATTTAGTTATGGCCTATACACTATTTGTGAGCAAAGGTGATCGTTTTCTGTTTGAGATTTTTATCTCTTGATTCTTCAAAAGCATTCTGAGAAGGTGAGATAAGCCCTGAGTCTCAGCTACCTAAGAAAAACCTGGATGTCACTGGCCACTGAGGAGCTTTGTTTCAACCAAGTCATGTGCATTTCCACGTCAACAGAATTGTTTATTGTGACAGTTATATCTGTTGTCCCTTTGACCTTGTTTCTTGAAGGTTTCCTCGTCCCTGGGCAATTCCGCATTTAATTCATGGTATTCAGGATTACATGCATGTTTGGTTAAACCCATGAGATTCATTCAGTTAAAAATCCAGATGGCAAATGACCAGCAGATTCAAATCTATGGTGGTTTGACCTTTAGAGAGTTGCTTTACGTGGCCTGTTTCAACACAGACCCACCCAGAGCCCTCCTGCCCTCCTTCCGCGGGGGCTTTCTCATGGCTGTCCTTCAGGGTCTTCCTGAAATGCAGTGGTGCTTACGCTCCACCAAGAAAGCAGGAAACCTGTGGTATGAAGCCAGACCTCCCCGGCGGGCCTCAGGGAACAGAATGATCAGACCTTTGAATGATTCTAATTTTTAAGCAAAATATTATTTTATGAAAGGTTTACATTGTCAAAGTGATGAATATGGAATATCCAATCCTGTGCTGCTATCCTGCCAAAATCATTTTAATGGAGTCAGTTTGCAGTATGCTCCACGTGGTAAGATCCTCCAAGCTGCTTTAGAAGTAACAATGAAGAACGTGGACGTTTTTAATATAAAGCCTGTTTTGTCTTTTGTTGTTGTTCAAACGGGATTCACAGAGTATTTGAAAAATGTATATATATTAAGAGGTCACGGGGGCTAATTGCTGGCTGGCTGCCTTTTGCTGTGGGGTTTTGTTACCTGGTTTTAATAACAGTAAATGTGCCCAGCCTCTTGGCCCCAGAACTGTACAGTATTGTGGCTGCACTTGCTCTAAGAGTAGTTGATGTTGCATTTTCCTTATTGTTAAAAACATGTTAGAAGCAATGAATGTATATAAAAGCCTCAACTAGTCATTTTTTTCTCCTCTTCTTTTTTTTCATTATATCTAATTATTTTGCAGTTGGGCAACAGAGAACCATCCCTATTTTGTATTGAAGAGGGATTCACATCTGCATCTTAACTGCTCTTTATGAATGAAAAAACAGTCCTCTGTATGTACTCCTCTTTACACTGGCCAGGGTCAGAGTTAAATAGAGTATATGCACTTTCCAAATTGGGGACAAGGGCTCTAAAAAAAGCCCCAAAAGGAGAAGAACATCTGAGAACCTCCTCGGCCCTCCCAGTCCCTCGCTGCACAAATACTCCGCAAGAGAGGCCAGAATGACAGCTGACAGGGTCTATGGCCATCGGGTCGTCTCCGAAGATTTGGCAGGGGCAGAAAACTCTGGCAGGCTTAAGATTTGGAATAAAGTCACAGAATTAAGGAAGCACCTCAATTTAGTTCAAACAAGACGCCAACATTCTCTCCACAGCTCACTTACCTCTCTGTGTTCAGATGTGGCCTTCCATTTATATGTGATCTTTGTTTTATTAGTAAATGCTTATCATCTAAAGATGTAGCTCTGGCCCAGTGGGAAAAATTAGGAAGTGATTATAAATCGAGAGGAGTTATAATAATCAAGATTAAATGTAAATAATCAGGGCAATCCCAACACATGTCTAGCTTTCACCTCCAGGATCTATTGAGTGAACAGAATTGCAAATAGTCTCTATTTGTAATTGAACTTATCCTAAAACAAATAGTTTATAAATGTGAACTTAAACTCTAATTAATTCCAACTGTACTTTTAAGGCAGTGGCTGTTTTTAGACTTTCTTATCACTTATAGTTAGTAATGTACACCTACTCTATCAGAGAAAAACAGGAAAGGCTCGAAATACAAGCCATTCTAAGGAAATTAGGGAGTCAGTTGAAATTCTATTCTGATCTTATTCTGTGGTGTCTTTTGCAGCCCAGACAAATGTGGTTACACACTTTTTAAGAAATACAATTCTACATTGTCAAGCTTATGAAGGTTCCAATCAGATCTTTATTGTTATTCAATTTGGATCTTTCAGGGATTTTTTTTTTAAATTATTATGGGACAAAGGACATTTGTTGGAGGGGTGGGAGGGAGGAAGAATTTTTAAATGTAAAACATTCCCAAGTTTGGATCAGGGAGTTGGAAGTTTTCAGAATAACCAGAACTAAGGGTATGAAGGACCTGTATTGGGGTCGATGTGATGCCTCTGCGAAGAACCTTGTGTGACAAATGAGAAACATTTTGAAGTTTGTGGTACGACCTTTAGATTCCAGAGACATCAGCATGGCTCAAAGTGCAGCTCCGTTTGGCAGTGCAATGGTATAAATTTCAAGCTGGATATGTCTAATGGGTATTTAAACAATAAATGTGCAGTTTTAACTAACAGGATATTTAATGACAACCTTCTGGTTGGTAGGGACATCTGTTTCTAAATGTTTATTATGTACAATACAGAAAAAAATTTTATAAAATTAAGCAATGTGAAACTGAATTGGAGAGTGATAATACAAGTCCTTTAGTCTTACCCAGTGAATCATTCTGTTCCATGTCTTTGGACAACCATGACCTTGGACAATCATGAAATATGCATCTCACTGGATGCAAAGAAAATCAGATGGAGCATGAATGGTACTGTACCGGTTCATCTGGACTGCCCCAGAAAAATAACTTCAAGCAAACATCCTATCAACAACAAGGTTGTTCTGCATACCAAGCTGAGCACAGAAGATGGGAACACTGGTGGAGGATGGAAAGGCTCGCTCAATCAAGAAAATTCTGAGACTATTAATAAATAAGACTGTAGTGTAGATACTGAGTAAATCCATGCACCTAAACCTTTTGGAAAATCTGCCGTGGGCCCTCCAGATAGCTCATTTCATTAAGTTTTTCCCTCCAAGGTAGAATTTGCAAGAGTGACAGTGGATTGCATTTCTTTTGGGGAAGCTTTCTTTTGGTGGTTTTGTTTATTATACCTTCTTAAGTTTTCAACCAAGGTTTGCTTTTGTTTTGAGTTACTGGGGTTATTTTTGTTTTAAATAAAAATAAGTGTACAATAAGTGTTTTTGTATTGAAAGCTTTTGTTATCAAGATTTTCATACTTTTACCTTCCATGGCTCTTTTTAAGATTGATACTTTTAAGAGGTGGCTGATATTCTGCAACACTGTACACATAAAAAATACGGTAAGGATACTTTACATGGTTAAGGTAAAGTAAGTCTCCAGTTGGCCACCATTAGCTATAATGGCACTTTGTTTGTGTTGTTGGAAAAAGTCACATTGCCATTAAACTTTCCTTGTCTGTCTAGTTAATATTGTGAAGAAAAATAAAGTACAGTGTGAGATACTG
>gi|71774012|ref|NM_014326.3| Homo sapiens death associated protein kinase 2 (DAPK2), mRNA
GACCGCGGCAGCTCAGCCTCCCGCCGATTGTATGTTCCAGGCCTCAATGAGGAGTCCAAACATGGAGCCATTCAAGCAGCAGAAGGTGGAGGACTTTTATGACATCGGAGAGGAGCTGGGGAGTGGCCAGTTTGCCATCGTGAAGAAGTGCCGGGAGAAGAGCACGGGGCTTGAGTATGCAGCCAAGTTCATCAAGAAGCGGCAGAGCCGGGCGAGCCGGCGCGGTGTGAGCCGGGAGGAGATCGAGCGGGAGGTGAGCATCCTGCGGCAGGTGCTGCACCACAATGTCATCACGCTGCACGACGTCTATGAGAACCGCACCGACGTGGTGCTCATCCTTGAGCTAGTGTCTGGAGGAGAGCTCTTCGATTTCCTGGCCCAGAAGGAGTCACTGAGTGAGGAGGAGGCCACCAGCTTCATTAAGCAGATCCTGGATGGGGTGAACTACCTTCACACAAAGAAAATTGCTCACTTTGATCTCAAGCCAGAAAACATTATGTTGTTAGACAAGAATATTCCCATTCCACACATCAAGCTGATTGACTTTGGTCTGGCTCACGAAATAGAAGATGGAGTTGAATTTAAGAATATTTTTGGGACGCCGGAATTTGTTGCTCCAGAAATTGTGAACTACGAGCCCCTGGGTCTGGAGGCTGACATGTGGAGCATAGGCGTCATCACCTACATCCTCTTAAGTGGAGCATCCCCTTTCCTGGGAGACACGAAGCAGGAAACACTGGCAAATATCACAGCAGTGAGTTACGACTTTGATGAGGAATTCTTCAGCCAGACGAGCGAGCTGGCCAAGGACTTTATTCGGAAGCTTCTGGTTAAAGAGACCCGGAAACGGCTCACAATCCAAGAGGCTCTCAGACACCCCTGGATCACGCCGGTGGACAACCAGCAAGCCATGGTGCGCAGGGAGTCTGTGGTCAATCTGGAGAACTTCAGGAAGCAGTATGTCCGCAGGCGGTGGAAGCTTTCCTTCAGCATCGTGTCCCTGTGCAACCACCTCACCCGCTCGCTGATGAAGAAGGTGCACCTGAGGCCGGATGAGGACCTGAGGAACTGTGAGAGTGACACTGAGGAGGACATCGCCAGGAGGAAAGCCCTCCACCCACGGAGGAGGAGCAGCACCTCCTAACTGGCCTGACCTGCAGTGGCCGCCAGGGAGGTCTGGGCCCAGCGGGGCTCCCTTCTGTGCAGACTTTTGGACCCAGCTCAGCACCAGCACCCGGGCGTCCTGAGCACTTTGCAAGAGAGATGGGCCCAAGGAATTCAGAAGAGCTTGCAGGCAAGCCAGGAGACCCTGGGAGCTGTGGCTGTCTTCTGTGGAGGAGGCTCCAGCATTCCCAAAGCTCTTAATTCTCCATAAAATGGGCTTTCCTCTGTCTGCCATCCTCAGAGTCTGGGGTGGGAGTGTGGACTTAGGAAAACAATATAAAGGACATCCTCATCATCACGGGGTGAAGGTCAGACTAAGGCAGCCTTCTTCACAGGCTGAGGGGGTTCAGAACCAGCCTGGCCAAAAATTACACCAGAGAGACAGAGTCCTCCCCATTGGGAACAGGGTGATTGAGGAAAGTGAACCTTGGGTGTGAGGGACCAATCCTGTGACCTCCCAGAACCATGGAAGCCAGGACGTCAGGCTGACCAACACCTCAGACCTTCTGAAGCAGCCCATTGCTGGCCCGCCATGTTGTAATTTTGCTCATTTTTATTAAACTTCTGGTTTACCTGATGCTTGGCTTCTTTTAGGGCTACCCCCATCTCATTTCCTTTAGCCCGTGTGCCTGTAACTCTGAGGGGGGGCACCCAGTGGGGTGCTGAGTGGGCAGAATCTCAGAAGGTCCTCCTGAACCGTCCGCGCAGGCCTGCAGTGGGCCTGCCTCCTCCTTGCTTCCCTAACAGGAAGGTGTCCAGTTCAAGAGAACCCACCCAGAGACTGGGAGTGGTGGCTCACGCCTATAATCCCTGCGCTTTGGCAGTCCGAGGCAGGGGAATTGCTTGAACTCAGGAGTTGGAGACCAGCCTGGGCAACATGGCAAAACGCAGTCTGTACAAAAAATACAAAAAATTAGCCAGGTGTAGGGGTAGGCACCTGGCATCCCAGCTACTCCAGGGGCTGAGGTGACAGCATTGCTTAAGCCCAGAAGGTCGAGGCTGCAGTGAGCTGAGATCACGCCACTGCACTCCAGTCTGGGTGACAGAGAGAGACCATATCCAAAAAAAAAAAAAGTTGCCAGAGACGAGTATGCCCATGCTCCCTCTACCTCACTGCCACCACTCCTGCTGTTAGGAGCTGAGTGTGTCTCCCTAAAATTTCTATGTTGAAGTCTTAACCCTTGGTACCACAGAATATCACTGTATTTGGAGATGGGGTCTTTAGAAAGGCACTTAAATTAAAATGAGCTCACTGATATGGGCCCCGATGCAATATAATTGGTGTCCTTATAAGAAGGGGAGGTTAGGACACGCAGGAAAGACCACATGAAGGCCCAGGAGTGGGAGGGGGAATAGCCATCGACAAACTAAGGGGGCCTCAGAGGAAACCAACCCTGCTGACACCTCAATCTTAGACTCTGGCCTCAAAAATTGTAAGAAAATAAACTTCTGTCTTTTAAGCCA
>gi|71067342|ref|NM_001026213.1| Homo sapiens cytochrome P450 family 11 subfamily B member 1 (CYP11B1), transcript variant 2, mRNA
CATTGGAATGGCACTCAGGGCAAAGGCAGAGGTGTGCATGGCAGTGCCCTGGCTGTCCCTGCAAAGGGCACAGGCACTGGGCACGAGAGCCGCCCGGGTCCCCAGGACAGTGCTGCCCTTTGAAGCCATGCCCCGGCGTCCAGGCAACAGGTGGCTGAGGCTGCTGCAGATCTGGAGGGAGCAGGGTTATGAGGACCTGCACCTGGAAGTACACCAGACCTTCCAGGAACTAGGGCCCATTTTCAGGTACGACTTGGGAGGAGCAGGCATGGTGTGTGTGATGCTGCCGGAGGACGTGGAGAAGCTGCAACAGGTGGACAGCCTGCATCCCCACAGGATGAGCCTGGAGCCCTGGGTGGCCTACAGACAACATCGTGGGCACAAATGTGGCGTGTTCTTGCTGAATGGGCCTGAATGGCGCTTCAACCGATTGCGGCTGAATCCAGAAGTGCTGTCGCCCAACGCTGTGCAGAGGTTCCTCCCGATGGTGGATGCAGTGGCCAGGGACTTCTCCCAGGCCCTGAAGAAGAAGGTGCTGCAGAACGCCCGGGGGAGCCTGACCCTGGACGTCCAGCCCAGCATCTTCCACTACACCATAGAAGCCAGCAACTTGGCTCTTTTTGGAGAGCGGCTGGGCCTGGTTGGCCACAGCCCCAGTTCTGCCAGCCTGAACTTCCTCCATGCCCTGGAGGTCATGTTCAAATCCACCGTCCAGCTCATGTTCATGCCCAGGAGCCTGTCTCGCTGGACCAGCCCCAAGGTGTGGAAGGAGCACTTTGAGGCCTGGGACTGCATCTTCCAGTACGGCGACAACTGTATCCAGAAAATCTATCAGGAACTGGCCTTCAGCCGCCCTCAACAGTACACCAGCATCGTGGCGGAGCTCCTGTTGAATGCGGAACTGTCGCCAGATGCCATCAAGGCCAACTCTATGGAACTCACTGCAGGGAGCGTGGACACGACGGTGTTTCCCTTGCTGATGACGCTCTTTGAGCTGGCTCGGAACCCCAACGTGCAGCAGGCCCTGCGCCAGGAGAGCCTGGCCGCCGCAGCCAGCATCAGTGAACATCCCCAGAAGGCAACCACCGAGCTGCCCTTGCTGCGTGCGGCCCTCAAGGAGACCTTGCGGCTCTACCCTGTGGGTCTGTTTCTGGAGCGAGTGGCGAGCTCAGACTTGGTGCTTCAGAACTACCACATCCCAGCTGGGGTGCTGAAACACCTCCAGGTGGAGACACTAACCCAAGAGGACATAAAGATGGTCTACAGCTTCATATTGAGGCCCAGCATGTTCCCCCTCCTCACCTTCAGAGCCATCAACTAATCACGTCTCTGCACCCAGGGTCCCAGCCTGGCCACCAGCCTCCCTTTCTGCCTGACCCCAGGCCACCCCTCTTCTCTCCCACATGCACAGCTTCCTGAGTCACCCCTCTGTCTAACCAGCCCCAGCACAAATGGAACTCCCGAGGGCCTCTAGGACCAGGGTTTGCCAGGCTAAGCAGCAATGCCAGGGCACAGCTGGGGAAGATCTTGCTGACCTTGTCCCCAGCCCCACCTGGCCCTTTCTCCAGCAAGCACTGTCCTCTGGGCAGTTTGCCCCCATCCCTCCCAGTGCTGGCTCCAGGCTCCTCGTGTGGCCATACAAGGGTGCTGTGGTTTTGTCCCTTGCCTTCCTGCCTAGTCTCACATGTCCCTGTTCCTCTTCCCCTGGCCAGGGCCCCTGCGCAGACTGTCAGAGTCATTAAGCGGGATCCCAGCATCTCAGAGTCCAGTCAAGTTCCCTCCTGCAGCCTGACCCCTAGGCAGCTCGAGCATGCCCTGAGCTCTCTGAAAGTTGTCACCCTGGAATAGGGTCCTGCAGGGTAGAATAAAAAGGCCCCTGTGGTCACTTGTCCTGACATCCCCATTTTCAAGTGATACAACTGAGTCTCGAGGGACGTGTGTTCCCCAGCTGATCGTGTCAGCCTCATGCCCCAGGCCTCATCTTTCATGGACCAGGCCTTGTTCCAGGAGTGGGTGTTGGGTCCTCTGCTTCCTGTGCTGTCCCCTGGGGAAGGTCCCGAGGATGCTGTCAGGAGATGGAAGAGTCATGTGGGGTGGGAACCTGGGGTGTGGTTCCAGAAATGTTTTTGGCAACAGGAGAGACAGGATTGGGCCAACAAGGACTCAGACGAGTTTTATTGACTCATTTCTCTGGTTGATACGGAGCCATGTCATGTGCCACGACCTGGGGTGGGCACAGGGAGGCTGCAGTTTCCTGCGTGAACCTGCCTTGGGCCTCATCTGCTCCTAGCCCAGCAGAGAGAGTTGACCCCTCCTGAACTGGCCACTCCCCAGTGCTCCCGTGCAGGGAGAGGAAGCACCCAGTTTGAGAGTGTACCCAGCCAGACTGTCTTTATCTCCATGGATTTTCATCAGGGCAAAGATCACAGCAGCCAGCTCCTGGTGGCTGATGAGGATCAGAGCATTTGTTCCCCCATGAAAGGGGAAATCCCTATGGCATCATTCCAGTGGTGGTCAGTAGATCCAGGACGCCCTGCAGGACTCAGCCTGTACAGGGAGATGAAGTGCCCCAGGTTGGGAGCACACCTAGCTAGAGTTATTTGTGTTAATCTATTCAGGATGCTCTAAGAAAACGCCATAGACTGGGTTGCTGACAAACATCAGAATTCTATTTCTCATGGTTCTGAAGGCTTAGAAGGCTAAGATCAAGGTGTCAGCAGGTTCTGTGTCTGGTGAGGACCCACCTCTTGTTTCATAGATAAAACCTTCTTGCTGTGTCCTCACATGGTGGAAAAGGGCAAGACAGCTCACAGAGACCTCTTTTATAAGGACGCCAGTTCCATTCAAGAGGGCACTGCCTGCATTCCCTTCCCCCCTCAAAGGCCCGGCCCTGCTATTATCGTCACCTTGGTGACTAGATTTCAGCCTATGAATTCTGGAGGCGGACACAAAAATTCAGATTAAACTACTCTGCTTCTGTTTCTCTAAAATCTACATCCTTCTCATATACAAAATACATGCATTTCTCCCCAGTAGCCCCAAATATCAACTCATTTTAGCATCAACTTTAAAATTGTAGTCCAAAGTGTGATTTAAATGTTATCTGAGTCAAACATGGGTAAGACTCAAGGTACAATTTATCCTGAGTCCAACTGTTCTTGCTGCGAACCTATGAAATCAAACATGTTATGTGCTTCCAAAATACAGTGGTTGGAGAGGCATAGGATAAACATTCCCATTCCAGAAAGGAGAAACAGGAAAGAAGAAAGGAGTAACAAGTTTCAAGCAACTCCAAAATTGAATGTGACAAACAGTATTAAACCTTAAGCCTCAAGAAAAAAAAAAAAAAAAAA
>gi|68342037|ref|NM_001025109.1| Homo sapiens CD34 molecule (CD34), transcript variant 1, mRNA
CCTTTTTTGGCCTCGACGGCGGCAACCCAGCCTCCCTCCTAACGCCCTCCGCCTTTGGGACCAACCAGGGGAGCTCAAGTTAGTAGCAGCCAAGGAGAGGCGCTGCCTTGCCAAGACTAAAAAGGGAGGGGAGAAGAGAGGAAAAAAGCAAGAATCCCCCACCCCTCTCCCGGGCGGAGGGGGCGGGAAGAGCGCGTCCTGGCCAAGCCGAGTAGTGTCTTCCACTCGGTGCGTCTCTCTAGGAGCCGCGCGGGAAGGATGCTGGTCCGCAGGGGCGCGCGCGCAGGGCCCAGGATGCCGCGGGGCTGGACCGCGCTTTGCTTGCTGAGTTTGCTGCCTTCTGGGTTCATGAGTCTTGACAACAACGGTACTGCTACCCCAGAGTTACCTACCCAGGGAACATTTTCAAATGTTTCTACAAATGTATCCTACCAAGAAACTACAACACCTAGTACCCTTGGAAGTACCAGCCTGCACCCTGTGTCTCAACATGGCAATGAGGCCACAACAAACATCACAGAAACGACAGTCAAATTCACATCTACCTCTGTGATAACCTCAGTTTATGGAAACACAAACTCTTCTGTCCAGTCACAGACCTCTGTAATCAGCACAGTGTTCACCACCCCAGCCAACGTTTCAACTCCAGAGACAACCTTGAAGCCTAGCCTGTCACCTGGAAATGTTTCAGACCTTTCAACCACTAGCACTAGCCTTGCAACATCTCCCACTAAACCCTATACATCATCTTCTCCTATCCTAAGTGACATCAAGGCAGAAATCAAATGTTCAGGCATCAGAGAAGTGAAATTGACTCAGGGCATCTGCCTGGAGCAAAATAAGACCTCCAGCTGTGCGGAGTTTAAGAAGGACAGGGGAGAGGGCCTGGCCCGAGTGCTGTGTGGGGAGGAGCAGGCTGATGCTGATGCTGGGGCCCAGGTATGCTCCCTGCTCCTTGCCCAGTCTGAGGTGAGGCCTCAGTGTCTACTGCTGGTCTTGGCCAACAGAACAGAAATTTCCAGCAAACTCCAACTTATGAAAAAGCACCAATCTGACCTGAAAAAGCTGGGGATCCTAGATTTCACTGAGCAAGATGTTGCAAGCCACCAGAGCTATTCCCAAAAGACCCTGATTGCACTGGTCACCTCGGGAGCCCTGCTGGCTGTCTTGGGCATCACTGGCTATTTCCTGATGAATCGCCGCAGCTGGAGCCCCACAGGAGAAAGGCTGGGCGAAGACCCTTATTACACGGAAAACGGTGGAGGCCAGGGCTATAGCTCAGGACCTGGGACCTCCCCTGAGGCTCAGGGAAAGGCCAGTGTGAACCGAGGGGCTCAGGAAAACGGGACCGGCCAGGCCACCTCCAGAAACGGCCATTCAGCAAGACAACACGTGGTGGCTGATACCGAATTGTGACTCGGCTAGGTGGGGCAAGGCTGGGCAGTGTCCGAGAGAGCACCCCTCTCTGCATCTGACCACGTGCTACCCCCATGCTGGAGGTGACATCTCTTACGCCCAACCCTTCCCCACTGCACACACCTCAGAGGCTGTTCTTGGGGCCCTACACCTTGAGGAGGGGCAGGTAAACTCCTGTCCTTTACACATTCGGCTCCCTGGAGCCAGACTCTGGTCTTCTTTGGGTAAACGTGTGACGGGGGAAAGCCAAGGTCTGGAGAAGCTCCCAGGAACAATCGATGGCCTTGCAGCACTCACACAGGACCCCCTTCCCCTACCCCCTCCTCTCTGCCGCAATACAGGAACCCCCAGGGGAAAGATGAGCTTTTCTAGGCTACAATTTTCTCCCAGGAAGCTTTGATTTTTACCGTTTCTTCCCTGTATTTTCTTTCTCTACTTTGAGGAAACCAAAGTAACCTTTTGCACCTGCTCTCTTGTAATGATATAGCCAGAAAAACGTGTTGCCTTGAACCACTTCCCTCATCTCTCCTCCAAGACACTGTGGACTTGGTCACCAGCTCCTCCCTTGTTCTCTAAGTTCCACTGAGCTCCATGTGCCCCCTCTACCATTTGCAGAGTCCTGCACAGTTTTCTGGCTGGAGCCTAGAACAGGCCTCCCAAGTTTTAGGACAAACAGCTCAGTTCTAGTCTCTCTGGGGCCACACAGAAACTCTTTTTGGGCTCCTTTTTCTCCCTCTGGATCAAAGTAGGCAGGACCATGGGACCAGGTCTTGGAGCTGAGCCTCTCACCTGTACTCTTCCGAAAAATCCTCTTCCTCTGAGGCTGGATCCTAGCCTTATCCTCTGATCTCCATGGCTTCCTCCTCCCTCCTGCCGACTCCTGGGTTGAGCTGTTGCCTCAGTCCCCCAACAGATGCTTTTCTGTCTCTGCCTCCCTCACCCTGAGCCCCTTCCTTGCTCTGCACCCCCATATGGTCATAGCCCAGATCAGCTCCTAACCCTTATCACCAGCTGCCTCTTCTGTGGGTGACCCAGGTCCTTGTTTGCTGTTGATTTCTTTCCAGAGGGGTTGAGCAGGGATCCTGGTTTCAATGACGGTTGGAAATAGAAATTTCCAGAGAAGAGAGTATTGGGTAGATATTTTTTCTGAATACAAAGTGATGTGTTTAAATACTGCAATTAAAGTGATACTGAAACACAAAAAA
>gi|67782353|ref|NM_001024844.1| Homo sapiens CD82 molecule (CD82), transcript variant 2, mRNA
GGCCTGCCGAGTCCGCGGCGTTCCCCGGCTGCAGCCGGGAGGGGGCCGAGGAGTGACTGAGCCCCGGGCTGTGCAGTCCGACGCCGACTGAGGCACGAGCGGGTGACGCTGGGCCTGCAGCGCGGAGCAGAAAGCAGAACCCGCAGAGTCCTCCCTGCTGCTGTGTGGACGACACGTGGGCACAGGCAGAAGTGGGCCCTGTGACCAGCTGCACTGGTTTCGTGGAAGGAAGCTCCAGGACTGGCGGGATGGGCTCAGCCTGTATCAAAGTCACCAAATACTTTCTCTTCCTCTTCAACTTGATCTTCTTTATCCTGGGCGCAGTGATCCTGGGCTTCGGGGTGTGGATCCTGGCCGACAAGAGCAGTTTCATCTCTGTCCTGCAAACCTCCTCCAGCTCGCTTAGGATGGGGGCCTATGTCTTCATCGGCGTGGGGGCAGTCACTATGCTCATGGGCTTCCTGGGCTGCATCGGCGCCGTCAACGAGGTCCGCTGCCTGCTGGGGCTGCTGAAGCAGGAGATGGGCGGCATCGTGACTGAGCTCATTCGAGACTACAACAGCAGTCGCGAGGACAGCCTGCAGGATGCCTGGGACTACGTGCAGGCTCAGGTGAAGTGCTGCGGCTGGGTCAGCTTCTACAACTGGACAGACAACGCTGAGCTCATGAATCGCCCTGAGGTCACCTACCCCTGTTCCTGCGAAGTCAAGGGGGAAGAGGACAACAGCCTTTCTGTGAGGAAGGGCTTCTGCGAGGCCCCCGGCAACAGGACCCAGAGTGGCAACCACCCTGAGGACTGGCCTGTGTACCAGGAGGGCTGCATGGAGAAGGTGCAGGCGTGGCTGCAGGAGAACCTGGGCATCATCCTCGGCGTGGGCGTGGGTGTGGCCATCATCGAGCTCCTGGGGATGGTCCTGTCCATCTGCTTGTGCCGGCACGTCCATTCCGAAGACTACAGCAAGGTCCCCAAGTACTGAGGCAGCTGCTATCCCCATCTCCCTGCCTGGCCCCCAACCTCAGGGCTCCCAGGGGTCTCCCTGGCTCCCTCCTCCAGGCCTGCCTCCCACTTCACTGCGAAGACCCTCTTGCCCATCCTGACTGAAAGTAGGGGGCTTTCTGGGGCCTAGCGATCTCTCCTGGCCTATCCGCTGCCAGCCTTGAGCCCTGGCTGTTCTGTGGTTCCTCTGCTCACCGCCCATCAGGGTTCTCTTAGCAACTCAGAGAAAAATGCTCCCCACAGCGTCCCTGGCGCAGGTGGGCTGGACTTCTACCTGCCCTCAAGGGTGTGTATATTGTATAGGGGCAACTGTATGAAAAATTGGGGAGGAGGGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAATTTAGCCGGGCGCGGTGGCGGGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGCGGAGGTTGCAGTGAGCTGAGATCGTGCTACTGCACTCCAGCCTGGGGGACAGAAAGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|67782352|ref|NM_002231.3| Homo sapiens CD82 molecule (CD82), transcript variant 1, mRNA
GGCCTGCCGAGTCCGCGGCGTTCCCCGGCTGCAGCCGGGAGGGGGCCGAGGAGTGACTGAGCCCCGGGCTGTGCAGTCCGACGCCGACTGAGGCACGAGCGGGTGACGCTGGGCCTGCAGCGCGGAGCAGAAAGCAGAACCCGCAGAGTCCTCCCTGCTGCTGTGTGGACGACACGTGGGCACAGGCAGAAGTGGGCCCTGTGACCAGCTGCACTGGTTTCGTGGAAGGAAGCTCCAGGACTGGCGGGATGGGCTCAGCCTGTATCAAAGTCACCAAATACTTTCTCTTCCTCTTCAACTTGATCTTCTTTATCCTGGGCGCAGTGATCCTGGGCTTCGGGGTGTGGATCCTGGCCGACAAGAGCAGTTTCATCTCTGTCCTGCAAACCTCCTCCAGCTCGCTTAGGATGGGGGCCTATGTCTTCATCGGCGTGGGGGCAGTCACTATGCTCATGGGCTTCCTGGGCTGCATCGGCGCCGTCAACGAGGTCCGCTGCCTGCTGGGGCTGTACTTTGCTTTCCTGCTCCTGATCCTCATTGCCCAGGTGACGGCCGGGGCCCTCTTCTACTTCAACATGGGCAAGCTGAAGCAGGAGATGGGCGGCATCGTGACTGAGCTCATTCGAGACTACAACAGCAGTCGCGAGGACAGCCTGCAGGATGCCTGGGACTACGTGCAGGCTCAGGTGAAGTGCTGCGGCTGGGTCAGCTTCTACAACTGGACAGACAACGCTGAGCTCATGAATCGCCCTGAGGTCACCTACCCCTGTTCCTGCGAAGTCAAGGGGGAAGAGGACAACAGCCTTTCTGTGAGGAAGGGCTTCTGCGAGGCCCCCGGCAACAGGACCCAGAGTGGCAACCACCCTGAGGACTGGCCTGTGTACCAGGAGGGCTGCATGGAGAAGGTGCAGGCGTGGCTGCAGGAGAACCTGGGCATCATCCTCGGCGTGGGCGTGGGTGTGGCCATCATCGAGCTCCTGGGGATGGTCCTGTCCATCTGCTTGTGCCGGCACGTCCATTCCGAAGACTACAGCAAGGTCCCCAAGTACTGAGGCAGCTGCTATCCCCATCTCCCTGCCTGGCCCCCAACCTCAGGGCTCCCAGGGGTCTCCCTGGCTCCCTCCTCCAGGCCTGCCTCCCACTTCACTGCGAAGACCCTCTTGCCCATCCTGACTGAAAGTAGGGGGCTTTCTGGGGCCTAGCGATCTCTCCTGGCCTATCCGCTGCCAGCCTTGAGCCCTGGCTGTTCTGTGGTTCCTCTGCTCACCGCCCATCAGGGTTCTCTTAGCAACTCAGAGAAAAATGCTCCCCACAGCGTCCCTGGCGCAGGTGGGCTGGACTTCTACCTGCCCTCAAGGGTGTGTATATTGTATAGGGGCAACTGTATGAAAAATTGGGGAGGAGGGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAATTTAGCCGGGCGCGGTGGCGGGCACCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATGGTGTGAACCCGGGAGCGGAGGTTGCAGTGAGCTGAGATCGTGCTACTGCACTCCAGCCTGGGGGACAGAAAGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|63252905|ref|NM_001018020.1| Homo sapiens tropomyosin 1 (TPM1), transcript variant Tpm1.3, mRNA
GGAAGGGGGGCAGGAGAAAAAAGCTTTTCCAAAAAAGTATTGGCTGTCTTGAGGAATGCGGTCGCCCCCTTGGGAAAGTACATATCTGGGAGAAGCAGGCGGCTCCGCGCTCGCACTCCCGCTCCTCCGCCCGACCGCGCGCTCGCCCCGCCGCTCCTGCTGCAGCCCCAGGGCCCCTCGCCGCCGCCACCATGGACGCCATCAAGAAGAAGATGCAGATGCTGAAGCTCGACAAGGAGAACGCCTTGGATCGAGCTGAGCAGGCGGAGGCCGACAAGAAGGCGGCGGAAGACAGGAGCAAGCAGCTCGAGGAGGACATCGCGGCCAAGGAGAAGTTGCTGCGGGTGTCGGAGGACGAGCGGGACCGGGTGCTGGAGGAGCTGCACAAGGCGGAGGACAGCCTCCTGGCCGCCGAAGAGGCCGCCGCCAAGGCTGAAGCCGACGTAGCTTCTCTGAACAGACGCATCCAGCTGGTTGAGGAAGAGTTGGATCGTGCCCAGGAGCGTCTGGCAACAGCTTTGCAGAAGCTGGAGGAAGCTGAGAAGGCAGCAGATGAGAGTGAGAGAGGCATGAAAGTCATTGAGAGTCGAGCCCAAAAAGATGAAGAAAAAATGGAAATTCAGGAGATCCAACTGAAAGAGGCCAAGCACATTGCTGAAGATGCCGACCGCAAATATGAAGAGGTGGCCCGTAAGCTGGTCATCATTGAGAGCGACCTGGAACGTGCAGAGGAGCGGGCTGAGCTCTCAGAAGGCCAAGTCCGACAGCTGGAAGAACAATTAAGAATAATGGATCAGACCTTGAAAGCATTAATGGCTGCAGAGGATAAGTACTCGCAGAAGGAAGACAGATATGAGGAAGAGATCAAGGTCCTTTCCGACAAGCTGAAGGAGGCTGAGACTCGGGCTGAGTTTGCGGAGAGGTCAGTAACTAAATTGGAGAAAAGCATTGATGACTTAGAAGAGAAAGTGGCTCATGCCAAAGAAGAAAACCTTAGTATGCATCAGATGCTGGATCAGACTTTACTGGAGTTAAACAACATGTGAAAACCTCCTTAGCTGCGACCACATTCTTTCGTTTTGTTTTGTTTTGTTTTTAAACACCTGCTTACCCCTTAAATGCAATTTATTTACTTTTACCACTGTCACAGAAACATCCACAAGATACCAGCTAGGTCAGGGGGTGGGGAAAACACATACAAAAAGGCAAGCCCATGTCAGGGCGATCCTGGTTCAAATGTGCCATTTCCCGGGTTGATGCTGCCACACTTTGTAGAGAGTTTAGCAACACAGTGTGCTTAGTCAGCGTAGGAATCCTCACTAAAGCAGAAGAAGTTCCATTCAAAGTGCCAATGATAGAGTCAACAGGAAGGTTAATGTTGGAAACACAATCAGGTGTGGATTGGTGCTACTTTGAACAAAAGGTCCCCCTGTGGTCTTTTGTTCAACATTGTACAATGTAGAACTCTGTCCAACACTAATTTATTTTGTCTTGAGTTTTACTACAAGATGAGACTATGGATCCCGCATGCCTGAATTCACTAAAGCCAAGGGTCTGTAAGCCACGCTGCTCTTCCGAGACTTCCATTCCTTTCTGATTGGCACACGTGCAGCTCATGACAATCTGTAGGATAACAATCAGTGTGGATTTCCACTCTTTTCAGTCCTTCATGTTAAAGATTTAGACACCACATACAACTGGTAAAGGACGTTTTCTTGAGAGTTTTAACTATATGTAAACATTGTATAATGATATGGAATAAAATGCACATTGTAGGACATTTTCTAAAAAAAAAAA
>gi|63252901|ref|NM_001018007.1| Homo sapiens tropomyosin 1 (TPM1), transcript variant Tpm1.4, mRNA
GGAAGGGGGGCAGGAGAAAAAAGCTTTTCCAAAAAAGTATTGGCTGTCTTGAGGAATGCGGTCGCCCCCTTGGGAAAGTACATATCTGGGAGAAGCAGGCGGCTCCGCGCTCGCACTCCCGCTCCTCCGCCCGACCGCGCGCTCGCCCCGCCGCTCCTGCTGCAGCCCCAGGGCCCCTCGCCGCCGCCACCATGGACGCCATCAAGAAGAAGATGCAGATGCTGAAGCTCGACAAGGAGAACGCCTTGGATCGAGCTGAGCAGGCGGAGGCCGACAAGAAGGCGGCGGAAGACAGGAGCAAGCAGCTCGAGGAGGACATCGCGGCCAAGGAGAAGTTGCTGCGGGTGTCGGAGGACGAGCGGGACCGGGTGCTGGAGGAGCTGCACAAGGCGGAGGACAGCCTCCTGGCCGCCGAAGAGGCCGCCGCCAAGGCTGAAGCCGACGTAGCTTCTCTGAACAGACGCATCCAGCTGGTTGAGGAAGAGTTGGATCGTGCCCAGGAGCGTCTGGCAACAGCTTTGCAGAAGCTGGAGGAAGCTGAGAAGGCAGCAGATGAGAGTGAGAGAGGCATGAAAGTCATTGAGAGTCGAGCCCAAAAAGATGAAGAAAAAATGGAAATTCAGGAGATCCAACTGAAAGAGGCCAAGCACATTGCTGAAGATGCCGACCGCAAATATGAAGAGGTGGCCCGTAAGCTGGTCATCATTGAGAGCGACCTGGAACGTGCAGAGGAGCGGGCTGAGCTCTCAGAAGGCAAATGTGCCGAGCTTGAAGAAGAATTGAAAACTGTGACGAACAACTTGAAGTCACTGGAGGCTCAGGCTGAGAAGTACTCGCAGAAGGAAGACAGATATGAGGAAGAGATCAAGGTCCTTTCCGACAAGCTGAAGGAGGCTGAGACTCGGGCTGAGTTTGCGGAGAGGTCAGTAACTAAATTGGAGAAAAGCATTGATGACTTAGAAGAGAAAGTGGCTCATGCCAAAGAAGAAAACCTTAGTATGCATCAGATGCTGGATCAGACTTTACTGGAGTTAAACAACATGTGAAAACCTCCTTAGCTGCGACCACATTCTTTCGTTTTGTTTTGTTTTGTTTTTAAACACCTGCTTACCCCTTAAATGCAATTTATTTACTTTTACCACTGTCACAGAAACATCCACAAGATACCAGCTAGGTCAGGGGGTGGGGAAAACACATACAAAAAGGCAAGCCCATGTCAGGGCGATCCTGGTTCAAATGTGCCATTTCCCGGGTTGATGCTGCCACACTTTGTAGAGAGTTTAGCAACACAGTGTGCTTAGTCAGCGTAGGAATCCTCACTAAAGCAGAAGAAGTTCCATTCAAAGTGCCAATGATAGAGTCAACAGGAAGGTTAATGTTGGAAACACAATCAGGTGTGGATTGGTGCTACTTTGAACAAAAGGTCCCCCTGTGGTCTTTTGTTCAACATTGTACAATGTAGAACTCTGTCCAACACTAATTTATTTTGTCTTGAGTTTTACTACAAGATGAGACTATGGATCCCGCATGCCTGAATTCACTAAAGCCAAGGGTCTGTAAGCCACGCTGCTCTTCCGAGACTTCCATTCCTTTCTGATTGGCACACGTGCAGCTCATGACAATCTGTAGGATAACAATCAGTGTGGATTTCCACTCTTTTCAGTCCTTCATGTTAAAGATTTAGACACCACATACAACTGGTAAAGGACGTTTTCTTGAGAGTTTTAACTATATGTAAACATTGTATAATGATATGGAATAAAATGCACATTGTAGGACATTTTCTAAAAAAAAAAA
>gi|63252899|ref|NM_001018006.1| Homo sapiens tropomyosin 1 (TPM1), transcript variant Tpm1.7, mRNA
GGAAGGGGGGCAGGAGAAAAAAGCTTTTCCAAAAAAGTATTGGCTGTCTTGAGGAATGCGGTCGCCCCCTTGGGAAAGTACATATCTGGGAGAAGCAGGCGGCTCCGCGCTCGCACTCCCGCTCCTCCGCCCGACCGCGCGCTCGCCCCGCCGCTCCTGCTGCAGCCCCAGGGCCCCTCGCCGCCGCCACCATGGACGCCATCAAGAAGAAGATGCAGATGCTGAAGCTCGACAAGGAGAACGCCTTGGATCGAGCTGAGCAGGCGGAGGCCGACAAGAAGGCGGCGGAAGACAGGAGCAAGCAGCTGGAAGATGAGCTGGTGTCACTGCAAAAGAAACTCAAGGGCACCGAAGATGAACTGGACAAATACTCTGAGGCTCTCAAAGATGCCCAGGAGAAGCTGGAGCTGGCAGAGAAAAAGGCCACCGATGCTGAAGCCGACGTAGCTTCTCTGAACAGACGCATCCAGCTGGTTGAGGAAGAGTTGGATCGTGCCCAGGAGCGTCTGGCAACAGCTTTGCAGAAGCTGGAGGAAGCTGAGAAGGCAGCAGATGAGAGTGAGAGAGGCATGAAAGTCATTGAGAGTCGAGCCCAAAAAGATGAAGAAAAAATGGAAATTCAGGAGATCCAACTGAAAGAGGCCAAGCACATTGCTGAAGATGCCGACCGCAAATATGAAGAGGTGGCCCGTAAGCTGGTCATCATTGAGAGCGACCTGGAACGTGCAGAGGAGCGGGCTGAGCTCTCAGAAGGCCAAGTCCGACAGCTGGAAGAACAATTAAGAATAATGGATCAGACCTTGAAAGCATTAATGGCTGCAGAGGATAAGTACTCGCAGAAGGAAGACAGATATGAGGAAGAGATCAAGGTCCTTTCCGACAAGCTGAAGGAGGCTGAGACTCGGGCTGAGTTTGCGGAGAGGTCAGTAACTAAATTGGAGAAAAGCATTGATGACTTAGAAGAGAAAGTGGCTCATGCCAAAGAAGAAAACCTTAGTATGCATCAGATGCTGGATCAGACTTTACTGGAGTTAAACAACATGTGAAAACCTCCTTAGCTGCGACCACATTCTTTCGTTTTGTTTTGTTTTGTTTTTAAACACCTGCTTACCCCTTAAATGCAATTTATTTACTTTTACCACTGTCACAGAAACATCCACAAGATACCAGCTAGGTCAGGGGGTGGGGAAAACACATACAAAAAGGCAAGCCCATGTCAGGGCGATCCTGGTTCAAATGTGCCATTTCCCGGGTTGATGCTGCCACACTTTGTAGAGAGTTTAGCAACACAGTGTGCTTAGTCAGCGTAGGAATCCTCACTAAAGCAGAAGAAGTTCCATTCAAAGTGCCAATGATAGAGTCAACAGGAAGGTTAATGTTGGAAACACAATCAGGTGTGGATTGGTGCTACTTTGAACAAAAGGTCCCCCTGTGGTCTTTTGTTCAACATTGTACAATGTAGAACTCTGTCCAACACTAATTTATTTTGTCTTGAGTTTTACTACAAGATGAGACTATGGATCCCGCATGCCTGAATTCACTAAAGCCAAGGGTCTGTAAGCCACGCTGCTCTTCCGAGACTTCCATTCCTTTCTGATTGGCACACGTGCAGCTCATGACAATCTGTAGGATAACAATCAGTGTGGATTTCCACTCTTTTCAGTCCTTCATGTTAAAGATTTAGACACCACATACAACTGGTAAAGGACGTTTTCTTGAGAGTTTTAACTATATGTAAACATTGTATAATGATATGGAATAAAATGCACATTGTAGGACATTTTCTAAAAAAAAAAA
>gi|63252895|ref|NM_001018004.1| Homo sapiens tropomyosin 1 (TPM1), transcript variant Tpm1.6, mRNA
GGAAGGGGGGCAGGAGAAAAAAGCTTTTCCAAAAAAGTATTGGCTGTCTTGAGGAATGCGGTCGCCCCCTTGGGAAAGTACATATCTGGGAGAAGCAGGCGGCTCCGCGCTCGCACTCCCGCTCCTCCGCCCGACCGCGCGCTCGCCCCGCCGCTCCTGCTGCAGCCCCAGGGCCCCTCGCCGCCGCCACCATGGACGCCATCAAGAAGAAGATGCAGATGCTGAAGCTCGACAAGGAGAACGCCTTGGATCGAGCTGAGCAGGCGGAGGCCGACAAGAAGGCGGCGGAAGACAGGAGCAAGCAGCTGGAAGATGAGCTGGTGTCACTGCAAAAGAAACTCAAGGGCACCGAAGATGAACTGGACAAATACTCTGAGGCTCTCAAAGATGCCCAGGAGAAGCTGGAGCTGGCAGAGAAAAAGGCCACCGATGCTGAAGCCGACGTAGCTTCTCTGAACAGACGCATCCAGCTGGTTGAGGAAGAGTTGGATCGTGCCCAGGAGCGTCTGGCAACAGCTTTGCAGAAGCTGGAGGAAGCTGAGAAGGCAGCAGATGAGAGTGAGAGAGGCATGAAAGTCATTGAGAGTCGAGCCCAAAAAGATGAAGAAAAAATGGAAATTCAGGAGATCCAACTGAAAGAGGCCAAGCACATTGCTGAAGATGCCGACCGCAAATATGAAGAGGTGGCCCGTAAGCTGGTCATCATTGAGAGCGACCTGGAACGTGCAGAGGAGCGGGCTGAGCTCTCAGAAGGCAAATGTGCCGAGCTTGAAGAAGAATTGAAAACTGTGACGAACAACTTGAAGTCACTGGAGGCTCAGGCTGAGAAGTACTCGCAGAAGGAAGACAGATATGAGGAAGAGATCAAGGTCCTTTCCGACAAGCTGAAGGAGGCTGAGACTCGGGCTGAGTTTGCGGAGAGGTCAGTAACTAAATTGGAGAAAAGCATTGATGACTTAGAAGAGAAAGTGGCTCATGCCAAAGAAGAAAACCTTAGTATGCATCAGATGCTGGATCAGACTTTACTGGAGTTAAACAACATGTGAAAACCTCCTTAGCTGCGACCACATTCTTTCGTTTTGTTTTGTTTTGTTTTTAAACACCTGCTTACCCCTTAAATGCAATTTATTTACTTTTACCACTGTCACAGAAACATCCACAAGATACCAGCTAGGTCAGGGGGTGGGGAAAACACATACAAAAAGGCAAGCCCATGTCAGGGCGATCCTGGTTCAAATGTGCCATTTCCCGGGTTGATGCTGCCACACTTTGTAGAGAGTTTAGCAACACAGTGTGCTTAGTCAGCGTAGGAATCCTCACTAAAGCAGAAGAAGTTCCATTCAAAGTGCCAATGATAGAGTCAACAGGAAGGTTAATGTTGGAAACACAATCAGGTGTGGATTGGTGCTACTTTGAACAAAAGGTCCCCCTGTGGTCTTTTGTTCAACATTGTACAATGTAGAACTCTGTCCAACACTAATTTATTTTGTCTTGAGTTTTACTACAAGATGAGACTATGGATCCCGCATGCCTGAATTCACTAAAGCCAAGGGTCTGTAAGCCACGCTGCTCTTCCGAGACTTCCATTCCTTTCTGATTGGCACACGTGCAGCTCATGACAATCTGTAGGATAACAATCAGTGTGGATTTCCACTCTTTTCAGTCCTTCATGTTAAAGATTTAGACACCACATACAACTGGTAAAGGACGTTTTCTTGAGAGTTTTAACTATATGTAAACATTGTATAATGATATGGAATAAAATGCACATTGTAGGACATTTTCTAAAAAAAAAAA
>gi|62362411|ref|NM_007313.2| Homo sapiens ABL proto-oncogene 1, non-receptor tyrosine kinase (ABL1), transcript variant b, mRNA
GGTTGGTGACTTCCACAGGAAAAGTTCTGGAGGAGTAGCCAAAGACCATCAGCGTTTCCTTTATGTGTGAGAATTGAAATGACTAGCATTATTGACCCTTTTCAGCATCCCCTGTGAATATTTCTGTTTAGGTTTTTCTTCTTGAAAAGAAATTGTTATTCAGCCCGTTTAAAACAAATCAAGAAACTTTTGGGTAACATTGCAATTACATGAAATTGATAACCGCGAAAATAATTGGAACTCCTGCTTGCAAGTGTCAACCTAAAAAAAGTGCTTCCTTTTGTTATGGAAGATGTCTTTCTGTGATTGACTTCAATTGCTGACTTGTGGAGATGCAGCGAATGTGAAATCCCACGTATATGCCATTTCCCTCTACGCTCGCTGACCGTTCTGGAAGATCTTGAACCCTCTTCTGGAAAGGGGTACCTATTATTACTTTATGGGGCAGCAGCCTGGAAAAGTACTTGGGGACCAAAGAAGGCCAAGCTTGCCTGCCCTGCATTTTATCAAAGGAGCAGGGAAGAAGGAATCATCGAGGCATGGGGGTCCACACTGCAATGTTTTTGTGGAACATGAAGCCCTTCAGCGGCCAGTAGCATCTGACTTTGAGCCTCAGGGTCTGAGTGAAGCCGCTCGTTGGAACTCCAAGGAAAACCTTCTCGCTGGACCCAGTGAAAATGACCCCAACCTTTTCGTTGCACTGTATGATTTTGTGGCCAGTGGAGATAACACTCTAAGCATAACTAAAGGTGAAAAGCTCCGGGTCTTAGGCTATAATCACAATGGGGAATGGTGTGAAGCCCAAACCAAAAATGGCCAAGGCTGGGTCCCAAGCAACTACATCACGCCAGTCAACAGTCTGGAGAAACACTCCTGGTACCATGGGCCTGTGTCCCGCAATGCCGCTGAGTATCTGCTGAGCAGCGGGATCAATGGCAGCTTCTTGGTGCGTGAGAGTGAGAGCAGTCCTGGCCAGAGGTCCATCTCGCTGAGATACGAAGGGAGGGTGTACCATTACAGGATCAACACTGCTTCTGATGGCAAGCTCTACGTCTCCTCCGAGAGCCGCTTCAACACCCTGGCCGAGTTGGTTCATCATCATTCAACGGTGGCCGACGGGCTCATCACCACGCTCCATTATCCAGCCCCAAAGCGCAACAAGCCCACTGTCTATGGTGTGTCCCCCAACTACGACAAGTGGGAGATGGAACGCACGGACATCACCATGAAGCACAAGCTGGGCGGGGGCCAGTACGGGGAGGTGTACGAGGGCGTGTGGAAGAAATACAGCCTGACGGTGGCCGTGAAGACCTTGAAGGAGGACACCATGGAGGTGGAAGAGTTCTTGAAAGAAGCTGCAGTCATGAAAGAGATCAAACACCCTAACCTGGTGCAGCTCCTTGGGGTCTGCACCCGGGAGCCCCCGTTCTATATCATCACTGAGTTCATGACCTACGGGAACCTCCTGGACTACCTGAGGGAGTGCAACCGGCAGGAGGTGAACGCCGTGGTGCTGCTGTACATGGCCACTCAGATCTCGTCAGCCATGGAGTACCTGGAGAAGAAAAACTTCATCCACAGAGATCTTGCTGCCCGAAACTGCCTGGTAGGGGAGAACCACTTGGTGAAGGTAGCTGATTTTGGCCTGAGCAGGTTGATGACAGGGGACACCTACACAGCCCATGCTGGAGCCAAGTTCCCCATCAAATGGACTGCACCCGAGAGCCTGGCCTACAACAAGTTCTCCATCAAGTCCGACGTCTGGGCATTTGGAGTATTGCTTTGGGAAATTGCTACCTATGGCATGTCCCCTTACCCGGGAATTGACCTGTCCCAGGTGTATGAGCTGCTAGAGAAGGACTACCGCATGGAGCGCCCAGAAGGCTGCCCAGAGAAGGTCTATGAACTCATGCGAGCATGTTGGCAGTGGAATCCCTCTGACCGGCCCTCCTTTGCTGAAATCCACCAAGCCTTTGAAACAATGTTCCAGGAATCCAGTATCTCAGACGAAGTGGAAAAGGAGCTGGGGAAACAAGGCGTCCGTGGGGCTGTGAGTACCTTGCTGCAGGCCCCAGAGCTGCCCACCAAGACGAGGACCTCCAGGAGAGCTGCAGAGCACAGAGACACCACTGACGTGCCTGAGATGCCTCACTCCAAGGGCCAGGGAGAGAGCGATCCTCTGGACCATGAGCCTGCCGTGTCTCCATTGCTCCCTCGAAAAGAGCGAGGTCCCCCGGAGGGCGGCCTGAATGAAGATGAGCGCCTTCTCCCCAAAGACAAAAAGACCAACTTGTTCAGCGCCTTGATCAAGAAGAAGAAGAAGACAGCCCCAACCCCTCCCAAACGCAGCAGCTCCTTCCGGGAGATGGACGGCCAGCCGGAGCGCAGAGGGGCCGGCGAGGAAGAGGGCCGAGACATCAGCAACGGGGCACTGGCTTTCACCCCCTTGGACACAGCTGACCCAGCCAAGTCCCCAAAGCCCAGCAATGGGGCTGGGGTCCCCAATGGAGCCCTCCGGGAGTCCGGGGGCTCAGGCTTCCGGTCTCCCCACCTGTGGAAGAAGTCCAGCACGCTGACCAGCAGCCGCCTAGCCACCGGCGAGGAGGAGGGCGGTGGCAGCTCCAGCAAGCGCTTCCTGCGCTCTTGCTCCGCCTCCTGCGTTCCCCATGGGGCCAAGGACACGGAGTGGAGGTCAGTCACGCTGCCTCGGGACTTGCAGTCCACGGGAAGACAGTTTGACTCGTCCACATTTGGAGGGCACAAAAGTGAGAAGCCGGCTCTGCCTCGGAAGAGGGCAGGGGAGAACAGGTCTGACCAGGTGACCCGAGGCACAGTAACGCCTCCCCCCAGGCTGGTGAAAAAGAATGAGGAAGCTGCTGATGAGGTCTTCAAAGACATCATGGAGTCCAGCCCGGGCTCCAGCCCGCCCAACCTGACTCCAAAACCCCTCCGGCGGCAGGTCACCGTGGCCCCTGCCTCGGGCCTCCCCCACAAGGAAGAAGCTGGAAAGGGCAGTGCCTTAGGGACCCCTGCTGCAGCTGAGCCAGTGACCCCCACCAGCAAAGCAGGCTCAGGTGCACCAGGGGGCACCAGCAAGGGCCCCGCCGAGGAGTCCAGAGTGAGGAGGCACAAGCACTCCTCTGAGTCGCCAGGGAGGGACAAGGGGAAATTGTCCAGGCTCAAACCTGCCCCGCCGCCCCCACCAGCAGCCTCTGCAGGGAAGGCTGGAGGAAAGCCCTCGCAGAGCCCGAGCCAGGAGGCGGCCGGGGAGGCAGTCCTGGGCGCAAAGACAAAAGCCACGAGTCTGGTTGATGCTGTGAACAGTGACGCTGCCAAGCCCAGCCAGCCGGGAGAGGGCCTCAAAAAGCCCGTGCTCCCGGCCACTCCAAAGCCACAGTCCGCCAAGCCGTCGGGGACCCCCATCAGCCCAGCCCCCGTTCCCTCCACGTTGCCATCAGCATCCTCGGCCCTGGCAGGGGACCAGCCGTCTTCCACCGCCTTCATCCCTCTCATATCAACCCGAGTGTCTCTTCGGAAAACCCGCCAGCCTCCAGAGCGGATCGCCAGCGGCGCCATCACCAAGGGCGTGGTCCTGGACAGCACCGAGGCGCTGTGCCTCGCCATCTCTAGGAACTCCGAGCAGATGGCCAGCCACAGCGCAGTGCTGGAGGCCGGCAAAAACCTCTACACGTTCTGCGTGAGCTATGTGGATTCCATCCAGCAAATGAGGAACAAGTTTGCCTTCCGAGAGGCCATCAACAAACTGGAGAATAATCTCCGGGAGCTTCAGATCTGCCCGGCGACAGCAGGCAGTGGTCCAGCGGCCACTCAGGACTTCAGCAAGCTCCTCAGTTCGGTGAAGGAAATCAGTGACATAGTGCAGAGGTAGCAGCAGTCAGGGGTCAGGTGTCAGGCCCGTCGGAGCTGCCTGCAGCACATGCGGGCTCGCCCATACCCGTGACAGTGGCTGACAAGGGACTAGTGAGTCAGCACCTTGGCCCAGGAGCTCTGCGCCAGGCAGAGCTGAGGGCCCTGTGGAGTCCAGCTCTACTACCTACGTTTGCACCGCCTGCCCTCCCGCACCTTCCTCCTCCCCGCTCCGTCTCTGTCCTCGAATTTTATCTGTGGAGTTCCTGCTCCGTGGACTGCAGTCGGCATGCCAGGACCCGCCAGCCCCGCTCCCACCTAGTGCCCCAGACTGAGCTCTCCAGGCCAGGTGGGAACGGCTGATGTGGACTGTCTTTTTCATTTTTTTCTCTCTGGAGCCCCTCCTCCCCCGGCTGGGCCTCCTTCTTCCACTTCTCCAAGAATGGAAGCCTGAACTGAGGCCTTGTGTGTCAGGCCCTCTGCCTGCACTCCCTGGCCTTGCCCGTCGTGTGCTGAAGACATGTTTCAAGAACCGCATTTCGGGAAGGGCATGCACGGGCATGCACACGGCTGGTCACTCTGCCCTCTGCTGCTGCCCGGGGTGGGGTGCACTCGCCATTTCCTCACGTGCAGGACAGCTCTTGATTTGGGTGGAAAACAGGGTGCTAAAGCCAACCAGCCTTTGGGTCCTGGGCAGGTGGGAGCTGAAAAGGATCGAGGCATGGGGCATGTCCTTTCCATCTGTCCACATCCCCAGAGCCCAGCTCTTGCTCTCTTGTGACGTGCACTGTGAATCCTGGCAAGAAAGCTTGAGTCTCAAGGGTGGCAGGTCACTGTCACTGCCGACATCCCTCCCCCAGCAGAATGGAGGCAGGGGACAAGGGAGGCAGTGGCTAGTGGGGTGAACAGCTGGTGCCAAATAGCCCCAGACTGGGCCCAGGCAGGTCTGCAAGGGCCCAGAGTGAACCGTCCTTTCACACATCTGGGTGCCCTGAAAGGGCCCTTCCCCTCCCCCACTCCTCTAAGACAAAGTAGATTCTTACAAGGCCCTTTCCTTTGGAACAAGACAGCCTTCACTTTTCTGAGTTCTTGAAGCATTTCAAAGCCCTGCCTCTGTGTAGCCGCCCTGAGAGAGAATAGAGCTGCCACTGGGCACCTGCGCACAGGTGGGAGGAAAGGGCCTGGCCAGTCCTGGTCCTGGCTGCACTCTTGAACTGGGCGAATGTCTTATTTAATTACCGTGAGTGACATAGCCTCATGTTCTGTGGGGGTCATCAGGGAGGGTTAGGAAAACCACAAACGGAGCCCCTGAAAGCCTCACGTATTTCACAGAGCACGCCTGCCATCTTCTCCCCGAGGCTGCCCCAGGCCGGAGCCCAGATACGGGGGCTGTGACTCTGGGCAGGGACCCGGGGTCTCCTGGACCTTGACAGAGCAGCTAACTCCGAGAGCAGTGGGCAGGTGGCCGCCCCTGAGGCTTCACGCCGGGAGAAGCCACCTTCCCACCCCTTCATACCGCCTCGTGCCAGCAGCCTCGCACAGGCCCTAGCTTTACGCTCATCACCTAAACTTGTACTTTATTTTTCTGATAGAAATGGTTTCCTCTGGATCGTTTTATGCGGTTCTTACAGCACATCACCTCTTTGCCCCCGACGGCTGTGACGCAGCCGGAGGGAGGCACTAGTCACCGACAGCGGCCTTGAAGACAGAGCAAAGCGCCCACCCAGGTCCCCCGACTGCCTGTCTCCATGAGGTACTGGTCCCTTCCTTTTGTTAACGTGATGTGCCACTATATTTTACACGTATCTCTTGGTATGCATCTTTTATAGACGCTCTTTTCTAAGTGGCGTGTGCATAGCGTCCTGCCCTGCCCCCTCGGGGGCCTGTGGTGGCTCCCCCTCTGCTTCTCGGGGTCCAGTGCATTTTGTTTCTGTATATGATTCTCTGTGGTTTTTTTTGAATCCAAATCTGTCCTCTGTAGTATTTTTTAAATAAATCAGTGTTTACATTAGAA
>gi|61744461|ref|NM_003405.3| Homo sapiens tyrosine 3-monooxygenase/tryptophan 5-monooxygenase activation protein eta (YWHAH), mRNA
GCGGCCGCGTCTCCTCCCTCGGCGTTGTCCGCGGCGCGAGCCACAGCGCGCGGGGCGAGCCAGCGAGAGGGCGCGAGCGGCGGCGCTGCCTGCAGCCTGCAGCCTGCAGCCTCCGGCCGGCCGGCGAGCCAGTGCGCGTGCGCGGCGGCGGCCTCCGCAGCGACCGGGGAGCGGACTGACCGGCGGGAGGGCTAGCGAGCCAGCGGTGTGAGGCGCGAGGCGAGGCCGAGCCGCGAGCGACATGGGGGACCGGGAGCAGCTGCTGCAGCGGGCGCGGCTGGCCGAGCAGGCGGAGCGCTACGACGACATGGCCTCCGCTATGAAGGCGGTGACAGAGCTGAATGAACCTCTCTCCAATGAAGATCGAAATCTCCTCTCTGTGGCCTACAAGAATGTGGTTGGTGCCAGGCGATCTTCCTGGAGGGTCATTAGCAGCATTGAGCAGAAAACCATGGCTGATGGAAACGAAAAGAAATTGGAGAAAGTTAAAGCTTACCGGGAGAAGATTGAGAAGGAGCTGGAGACAGTTTGCAATGATGTCCTGTCTCTGCTTGACAAGTTCCTGATCAAGAACTGCAATGATTTCCAGTATGAGAGCAAGGTGTTTTACCTGAAAATGAAGGGTGATTACTACCGCTACTTAGCAGAGGTCGCTTCTGGGGAGAAGAAAAACAGTGTGGTCGAAGCTTCTGAAGCTGCCTACAAGGAAGCCTTTGAAATCAGCAAAGAGCAGATGCAACCCACGCATCCCATCCGGCTGGGCCTGGCCCTCAACTTCTCCGTGTTCTACTATGAGATCCAGAATGCACCTGAGCAAGCCTGCCTCTTAGCCAAACAAGCCTTCGATGATGCCATAGCTGAGCTGGACACACTAAACGAGGATTCCTATAAGGACTCCACGCTGATCATGCAGTTGCTGCGAGACAACCTCACCCTCTGGACGAGCGACCAGCAGGATGAAGAAGCAGGAGAAGGCAACTGAAGATCCTTCAGGTCCCCTGGCCCTTCCTTCACCCACCACCCCCATCATCACCGATTCTTCCTTGCCACAATCACTAAATATCTAGTGCTAAACCTATCTGTATTGGCAGCACAGCTACTCAGATCTGCACTCCTGTCTCTTGGGAAGCAGTTTCAGATAAATCATGGGCATTGCTGGACTGATGGTTGCTTTGAGCCCACAGGAGCTCCCTTTTTGAATTGTGTGGAGAAGTGTGTTCTGATGAGGCATTTTACTATGCCTGTTGATCTATGGGAAATCTAGGCGAAAGTAATGGGGAAGATTAGAAAGAATTAGCCAACCAGGCTACAGTTGATATTTAAAAGATCCATTTAAAACAAGCTGATAGTGTTTCGTTAAGCAGTACATCTTGTGCATGCAAAAATGAATTCACCCCTCCCACCTCTTTCTTCAATTAATGGAAAACTGTTAAGGGAAGCTGATACAGAGAGACAACTTGCTCCTTTCCATCAGCTTTATAATAAACTGTTTAACGTGAGGTTTCAGTAGCTCCTTGGTTTTGCCTCTTTAAATTATGACGTGCACAAACCTTCTTTTCAATGCAATGCATCTGAAAGTTTTGATACTTGTAACTTTTTTTTTTTTTTGGTTGCAATTGTTTAAGAATCATGGATTTATTTTTTGTAACTCTTTGGCTATTGTCCTTGTGTATCCTGACAGCGCCATGTGTGTCAGCCCATGTCAATCAAGATGGGTGATTATGAAATGCCAGACTTCTAAAATAAATGTTTTGGAATTCAATGGGTAAATAAATGCTGCTTTGGGGATATTAAAAAAAAAAAAAAA
>gi|61743917|ref|NM_000497.3| Homo sapiens cytochrome P450 family 11 subfamily B member 1 (CYP11B1), transcript variant 1, mRNA
CATTGGAATGGCACTCAGGGCAAAGGCAGAGGTGTGCATGGCAGTGCCCTGGCTGTCCCTGCAAAGGGCACAGGCACTGGGCACGAGAGCCGCCCGGGTCCCCAGGACAGTGCTGCCCTTTGAAGCCATGCCCCGGCGTCCAGGCAACAGGTGGCTGAGGCTGCTGCAGATCTGGAGGGAGCAGGGTTATGAGGACCTGCACCTGGAAGTACACCAGACCTTCCAGGAACTAGGGCCCATTTTCAGGTACGACTTGGGAGGAGCAGGCATGGTGTGTGTGATGCTGCCGGAGGACGTGGAGAAGCTGCAACAGGTGGACAGCCTGCATCCCCACAGGATGAGCCTGGAGCCCTGGGTGGCCTACAGACAACATCGTGGGCACAAATGTGGCGTGTTCTTGCTGAATGGGCCTGAATGGCGCTTCAACCGATTGCGGCTGAATCCAGAAGTGCTGTCGCCCAACGCTGTGCAGAGGTTCCTCCCGATGGTGGATGCAGTGGCCAGGGACTTCTCCCAGGCCCTGAAGAAGAAGGTGCTGCAGAACGCCCGGGGGAGCCTGACCCTGGACGTCCAGCCCAGCATCTTCCACTACACCATAGAAGCCAGCAACTTGGCTCTTTTTGGAGAGCGGCTGGGCCTGGTTGGCCACAGCCCCAGTTCTGCCAGCCTGAACTTCCTCCATGCCCTGGAGGTCATGTTCAAATCCACCGTCCAGCTCATGTTCATGCCCAGGAGCCTGTCTCGCTGGACCAGCCCCAAGGTGTGGAAGGAGCACTTTGAGGCCTGGGACTGCATCTTCCAGTACGGCGACAACTGTATCCAGAAAATCTATCAGGAACTGGCCTTCAGCCGCCCTCAACAGTACACCAGCATCGTGGCGGAGCTCCTGTTGAATGCGGAACTGTCGCCAGATGCCATCAAGGCCAACTCTATGGAACTCACTGCAGGGAGCGTGGACACGACGGTGTTTCCCTTGCTGATGACGCTCTTTGAGCTGGCTCGGAACCCCAACGTGCAGCAGGCCCTGCGCCAGGAGAGCCTGGCCGCCGCAGCCAGCATCAGTGAACATCCCCAGAAGGCAACCACCGAGCTGCCCTTGCTGCGTGCGGCCCTCAAGGAGACCTTGCGGCTCTACCCTGTGGGTCTGTTTCTGGAGCGAGTGGCGAGCTCAGACTTGGTGCTTCAGAACTACCACATCCCAGCTGGGACATTGGTGCGCGTGTTCCTCTACTCTCTGGGTCGCAACCCCGCCTTGTTCCCGAGGCCTGAGCGCTATAACCCCCAGCGCTGGCTAGACATCAGGGGCTCCGGCAGGAACTTCTACCACGTGCCCTTTGGCTTTGGCATGCGCCAGTGCCTTGGGCGGCGCCTGGCAGAGGCAGAGATGCTGCTGCTGCTGCACCATGTGCTGAAACACCTCCAGGTGGAGACACTAACCCAAGAGGACATAAAGATGGTCTACAGCTTCATATTGAGGCCCAGCATGTTCCCCCTCCTCACCTTCAGAGCCATCAACTAATCACGTCTCTGCACCCAGGGTCCCAGCCTGGCCACCAGCCTCCCTTTCTGCCTGACCCCAGGCCACCCCTCTTCTCTCCCACATGCACAGCTTCCTGAGTCACCCCTCTGTCTAACCAGCCCCAGCACAAATGGAACTCCCGAGGGCCTCTAGGACCAGGGTTTGCCAGGCTAAGCAGCAATGCCAGGGCACAGCTGGGGAAGATCTTGCTGACCTTGTCCCCAGCCCCACCTGGCCCTTTCTCCAGCAAGCACTGTCCTCTGGGCAGTTTGCCCCCATCCCTCCCAGTGCTGGCTCCAGGCTCCTCGTGTGGCCATACAAGGGTGCTGTGGTTTTGTCCCTTGCCTTCCTGCCTAGTCTCACATGTCCCTGTTCCTCTTCCCCTGGCCAGGGCCCCTGCGCAGACTGTCAGAGTCATTAAGCGGGATCCCAGCATCTCAGAGTCCAGTCAAGTTCCCTCCTGCAGCCTGACCCCTAGGCAGCTCGAGCATGCCCTGAGCTCTCTGAAAGTTGTCACCCTGGAATAGGGTCCTGCAGGGTAGAATAAAAAGGCCCCTGTGGTCACTTGTCCTGACATCCCCATTTTCAAGTGATACAACTGAGTCTCGAGGGACGTGTGTTCCCCAGCTGATCGTGTCAGCCTCATGCCCCAGGCCTCATCTTTCATGGACCAGGCCTTGTTCCAGGAGTGGGTGTTGGGTCCTCTGCTTCCTGTGCTGTCCCCTGGGGAAGGTCCCGAGGATGCTGTCAGGAGATGGAAGAGTCATGTGGGGTGGGAACCTGGGGTGTGGTTCCAGAAATGTTTTTGGCAACAGGAGAGACAGGATTGGGCCAACAAGGACTCAGACGAGTTTTATTGACTCATTTCTCTGGTTGATACGGAGCCATGTCATGTGCCACGACCTGGGGTGGGCACAGGGAGGCTGCAGTTTCCTGCGTGAACCTGCCTTGGGCCTCATCTGCTCCTAGCCCAGCAGAGAGAGTTGACCCCTCCTGAACTGGCCACTCCCCAGTGCTCCCGTGCAGGGAGAGGAAGCACCCAGTTTGAGAGTGTACCCAGCCAGACTGTCTTTATCTCCATGGATTTTCATCAGGGCAAAGATCACAGCAGCCAGCTCCTGGTGGCTGATGAGGATCAGAGCATTTGTTCCCCCATGAAAGGGGAAATCCCTATGGCATCATTCCAGTGGTGGTCAGTAGATCCAGGACGCCCTGCAGGACTCAGCCTGTACAGGGAGATGAAGTGCCCCAGGTTGGGAGCACACCTAGCTAGAGTTATTTGTGTTAATCTATTCAGGATGCTCTAAGAAAACGCCATAGACTGGGTTGCTGACAAACATCAGAATTCTATTTCTCATGGTTCTGAAGGCTTAGAAGGCTAAGATCAAGGTGTCAGCAGGTTCTGTGTCTGGTGAGGACCCACCTCTTGTTTCATAGATAAAACCTTCTTGCTGTGTCCTCACATGGTGGAAAAGGGCAAGACAGCTCACAGAGACCTCTTTTATAAGGACGCCAGTTCCATTCAAGAGGGCACTGCCTGCATTCCCTTCCCCCCTCAAAGGCCCGGCCCTGCTATTATCGTCACCTTGGTGACTAGATTTCAGCCTATGAATTCTGGAGGCGGACACAAAAATTCAGATTAAACTACTCTGCTTCTGTTTCTCTAAAATCTACATCCTTCTCATATACAAAATACATGCATTTCTCCCCAGTAGCCCCAAATATCAACTCATTTTAGCATCAACTTTAAAATTGTAGTCCAAAGTGTGATTTAAATGTTATCTGAGTCAAACATGGGTAAGACTCAAGGTACAATTTATCCTGAGTCCAACTGTTCTTGCTGCGAACCTATGAAATCAAACATGTTATGTGCTTCCAAAATACAGTGGTTGGAGAGGCATAGGATAAACATTCCCATTCCAGAAAGGAGAAACAGGAAAGAAGAAAGGAGTAACAAGTTTCAAGCAACTCCAAAATTGAATGTGACAAACAGTATTAAACCTTAAGCCTCAAGAAAAAAAAAAAAAAAAAA
>gi|58331121|ref|NM_001009924.1| Homo sapiens transmembrane protein 230 (TMEM230), transcript variant 2, mRNA
ACTTCCGGCGCACTGATCCCGCCTGGGGCCGGCTGAGTGGCACTTAAGCGGGCCATGCCATGCAACCTTGGGCGCTGCCAACCGTGGGCGAGCTCTGGGTGTGCGGGCGGCCTGGCGCGGCGCTCCGGTAAGGCGTGTGTGCGGCAGGGCGGGGACAGAACCGTCCTCTCGGGCTCTGGGCGTGTCCGAGACCGCGCTCCCCGCCGAAATCAAGCTCCGAGTCATCCGTGTGGGGCATTCGTCCCCCCTGGCACAGTTGGCCTCTTTCCAGAAGCCCGTTTTGTTTGTTTTACGTCTAAATTCGCGTCGGTTCTTATTTCTCTCCCTGGCAAGGTCTGAAGACGGATGGAGTCTAGTTCTGTCGCCCAGGCTGGAGCCCAGTGGTGTGATCTCAGCTCACTGCAATCTCCACCTCCTGGCTTCAAGCGATTCTTCTGCTTCAGCCTCCCGACTGTGTCAGCGTGTTATGATGCCGTCCCGTACCAACCTGGCTACTGGAATCCCCAGTAGTAAAGTGAAATATTCAAGGCTCTCCAGCACAGACGATGGCTACATTGACCTTCAGTTTAAGAAAACCCCTCCTAAGATCCCTTATAAGGCCATCGCACTTGCCACTGTGCTGTTTTTGATTGGCGCCTTTCTCATTATTATAGGCTCCCTCCTGCTGTCAGGCTACATCAGCAAAGGGGGGGCAGACCGGGCCGTTCCAGTGCTGATCATTGGCATTCTGGTGTTCCTACCCGGATTTTACCACCTGCGCATCGCTTACTATGCATCCAAAGGCTACCGTGGTTACTCCTATGATGACATTCCAGACTTTGATGACTAGCACCCACCCCATAGCTGAGGAGGAGTCACAGTGGAACTGTCCCAGCTTTAAGATATCTAGCAGAAACTATAGCTGAGGACTAAGGAATTCTGCAGCTTGCAGATGTTTAAGAAAATAATGGCCAGATTTTTTGGGTCCTTCCCAAAGATGTTAAGTGAACCTACAGTTAGCTAATTAGGACAAGCTCTATTTTTCATCCCTGGGCCCTGACAAGTTTTTCCACAGGAATATGTATCATGGAAGAATAGAGGTTATTCTGTAATGGAAAAGTGTTGCCTGCCACCACCCTCTGTAGAGCTGAGCATTTCTTTTAAATAGTCTTCATTGCCAATTTGTTCTTGTAGCAAATGGAACAATGTGGTATGGCTAATTTCTTATTATTAAGTAATTTATTTTAAAAATATCTGAGTATATTATCCTGTACACTTATCCCTACCTTCATGTTCCAGTGGAAGACCTTAGTAAAATCAAAGATCAGTGAGTTCATCTGTAATATTTTTTTTACTTGCTTTCTTACTGACAGCAACCAGGAATTTTTTTATCCTGCAGAGCAAGTTTTCAAAATGTAAATACTTCCTCTGTTTAACAGTCCTTGGACCATTCTGATCCAGTTCACCAGTAGGTTGGACAGCATATAATTTGCATCATTTTGTCCCTTGTAAATCAAGATGTTCTGCAGATTATTCCTTTAACGGCCGGACTTTTGGCTGTTTCCTAATGAAACATGTAGTGGTTATTATTTAGAGTTTATAGCCGTATTGCTAGCACCTTGTAGTATGTCATCATTCTGCTCATGATTCCAAGGATCAGCCTGGATGCCTAGAGGACTAGATCACCTTAGTTTGATTCTATTTTTTAGCTTGCAAAAAGTGACTTATATTCCAAAGAAATTAAAATGTTGAAATCCAAATCCTAGAAATAAAATGAGTTAACTTCAAACATTTCAGAAAACAAAAAAAAAAA
>gi|57242791|ref|NM_005883.2| Homo sapiens APC2, WNT signaling pathway regulator (APC2), transcript variant 1, mRNA
GCAGCGCCGCCTGCCCAGGCCCGGACCGGGCTTTGTCCGCCCCGGAGCCCCTGCCCGCGCCGCGGAGACCCCGGAGCCCGCGCGCTCCGAGGCCACCCCGGGCCGGGATTTCCGGTGGGGCCCGCGGAGCCGCGCAGAGGGAGGAGGCCCCAGACCCAGGCGCCCCGCCAGCCCAGCTGCACGTAAGCGGACGCTGCAGGAGCTGAAGATGGCGAGCTCCGTGGCGCCCTACGAGCAGCTGGTGAGGCAGGTGGAGGCCTTGAAGGCTGAGAACAGCCACCTGAGGCAGGAGCTAAGGGACAACTCCAGCCACCTGTCCAAGCTGGAGACAGAGACGTCGGGCATGAAGGAGGTCCTGAAGCACCTACAGGGAAAACTGGAGCAGGAGGCCCGAGTGCTGGTGTCCTCGGGGCAGACGGAGGTGCTGGAGCAGCTGAAGGCCCTACAGATGGACATCACCAGCCTGTACAACCTCAAGTTCCAGCCGCCCACCCTGGGCCCGGAGCCTGCCGCCCGGACCCCCGAGGGCAGCCCAGTACACGGCTCCGGGCCCTCCAAGGACAGCTTTGGGGAGCTGAGCCGGGCCACCATCCGGCTGCTGGAGGAACTGGACCGGGAACGGTGTTTCCTGCTGAATGAGATTGAGAAGGAGGAGAAGGAGAAGCTCTGGTACTACTCTCAGCTGCAGGGCCTGTCCAAGCGCCTGGACGAGCTGCCGCACGTGGAGACGCAGTTCTCGATGCAGATGGACCTGATCCGGCAGCAGCTTGAGTTCGAGGCCCAGCACATCCGCTCGCTGATGGAGGAGCGCTTCGGCACCTCGGACGAGATGGTGCAGCGGGCACAGATCCGCGCCTCGCGCCTGGAGCAGATTGACAAGGAGCTGCTGGAGGCGCAGGACCGAGTGCAGCAGACGGAGCCCCAGGCCTTGCTGGCGGTGAAGTCGGTGCCGGTGGACGAGGACCCCGAGACAGAGGTCCCCACACACCCTGAGGATGGCACCCCTCAGCCGGGCAACAGCAAGGTGGAGGTGGTCTTCTGGCTGTTGTCCATGTTGGCGACGCGCGACCAGGAGGATACAGCGCGCACGCTGCTGGCCATGTCCAGCTCGCCCGAGAGCTGCGTGGCCATGCGCCGCTCGGGCTGTCTGCCTCTGCTGCTGCAAATCCTCCACGGCACCGAGGCCGCGGCCGGGGGTCGCGCCGGGGCCCCAGGGGCACCGGGCGCCAAGGACGCACGCATGCGCGCCAACGCGGCGCTGCACAACATCGTCTTCTCGCAGCCGGACCAGGGCCTGGCGCGCAAGGAGATGCGCGTCCTGCACGTGCTGGAGCAGATCCGGGCCTACTGCGAGACCTGCTGGGACTGGCTGCAGGCCCGAGACGGCGGGCCCGAGGGAGGTGGCGCCGGCAGCGCCCCGATCCCCATCGAGCCGCAGATCTGCCAGGCCACCTGTGCTGTTATGAAGCTGTCCTTTGATGAGGAGTACCGCCGTGCCATGAACGAGCTAGGTGGGCTGCAGGCCGTGGCAGAGCTGCTGCAGGTTGACTATGAGATGCACAAGATGACCCGGGACCCGCTGAACCTGGCGCTGCGCCGCTACGCGGGCATGACCCTCACCAACCTCACCTTTGGGGACGTTGCCAACAAGGCCACCCTGTGTGCGCGCCGCGGCTGCATGGAGGCCATCGTGGCCCAGCTGGCCTCCGACAGTGAGGAGCTCCACCAGGTGGTGTCCAGCATCCTTCGGAACTTGTCCTGGAGGGCCGACATCAACAGCAAGAAGGTGCTGAGGGAGGCGGGCAGCGTGACTGCCCTGGTGCAGTGTGTCCTGCGGGCCACCAAGGAGTCCACCCTGAAGAGCGTGCTGAGCGCCCTGTGGAATCTGTCTGCACACAGCACAGAGAACAAGGCGGCCATCTGCCAGGTGGATGGCGCCCTGGGCTTCCTGGTGAGCACCCTGACCTACAAGTGTCAGAGCAACTCGCTGGCCATCATCGAGAGCGGCGGCGGCATCCTCCGCAATGTGTCCAGCCTCGTCGCCACCCGTGAGGACTACAGGCAGGTGCTCCGGGATCACAACTGTCTGCAGACGCTGCTGCAGCATCTGACTTCGCACAGCCTGACCATCGTGAGCAACGCGTGCGGCACGCTCTGGAACCTGTCGGCCCGCAGCGCCCGTGACCAGGAGCTGCTGTGGGACCTGGGCGCCGTGGGCATGCTGCGTAATCTGGTGCACTCCAAGCACAAGATGATCGCCATGGGCAGCGCCGCCGCCCTGCGCAACCTGCTGGCCCATCGGCCCGCCAAGCACCAGGCGGCCGCCACCGCCGTGTCCCCAGGCAGCTGCGTGCCCAGCCTGTACGTGCGCAAGCAGCGGGCGCTGGAGGCCGAGCTGGACGCACGGCACCTCGCGCAGGCGCTGGAGCACCTGGAGAAGCAGGGCCCGCCGGCAGCCGAGGCCGCCACTAAGAAGCCGCTGCCGCCCCTGCGACACCTGGACGGCCTGGCCCAAGACTATGCTTCCGATTCGGGCTGCTTTGACGACGACGATGCACCGTCATCCCTGGCTGCGGCCGCGGCCACCGGGGAGCCAGCCAGCCCTGCCGCGCTGTCCCTCTTCCTGGGCAGCCCCTTCCTGCAGGGGCAGGCGCTGGCTCGCACCCCGCCCACCCGCCGAGGCGGCAAGGAGGCAGAGAAGGACACCAGTGGGGAGGCAGCCGTGGCGGCCAAGGCCAAGGCCAAGCTGGCGCTTGCAGTGGCGCGCATCGACCAGCTGGTGGAGGACATCTCCGCCCTGCACACCTCGTCCGACGATAGCTTCAGCCTCAGCTCTGGAGACCCGGGACAGGAGGCGCCACGGGAGGGCCGCGCCCAGTCCTGCTCGCCATGCCGCGGCCCGGAGGGCGGGCGGCGAGAGGCAGGAAGCCGGGCGCACCCGCTGCTGCGGCTCAAGGCGGCCCACGCCAGCCTCTCCAACGACAGCCTCAACAGCGGCAGTGCCAGCGACGGGTACTGCCCACGCGAACATATGCTGCCCTGCCCGCTGGCCGCACTGGCTTCGCGCCGCGAGGACCCCAGGTGTGGGCAGCCTCGGCCCAGCCGGCTTGACCTTGACCTGCCCGGCTGCCAGGCCGAGCCCCCGGCCCGCGAGGCCACCTCCGCCGACGCCCGCGTGCGCACCATCAAGCTGTCGCCTACCTATCAGCACGTGCCACTGCTTGAGGGTGCCTCAAGGGCGGGTGCAGAGCCCCTCGCGGGGCCTGGAATCTCTCCAGGGGCCCGGAAGCAGGCCTGGCTGCCGGCAGACCACCTGAGCAAGGTTCCCGAGAAGCTGGCGGCTGCCCCGCTGTCTGTGGCCAGCAAGGCACTGCAGAAACTGGCGGCGCAAGAGGGGCCACTCTCGCTGTCCCGATGCAGCTCCCTTTCCTCGCTGTCCTCGGCCGGCCGCCCAGGCCCCAGCGAGGGTGGTGACCTGGATGACAGTGACTCCTCCCTGGAGGGGCTGGAGGAGGCCGGCCCCAGCGAGGCTGAGCTGGACAGCACGTGGCGGGCGCCCGGGGCCACCTCGCTGCCCGTAGCCATTCCGGCTCCCCGGCGTAACCGAGGCCGGGGCCTGGGGGTGGAAGACGCCACGCCGTCCAGCTCGTCGGAGAACTACGTGCAGGAGACACCGCTTGTGCTGAGCCGCTGCAGCTCTGTGAGCTCGCTGGGCAGCTTCGAGAGCCCGTCCATCGCCAGCTCCATCCCCAGTGAACCTTGCAGCGGGCAGGGCAGCGGCACCATCAGCCCTAGCGAGCTGCCCGACAGCCCCGGACAGACCATGCCTCCCAGCCGGAGCAAGACGCCACCGCTGGCGCCCGCGCCACAGGGTCCCCCCGAGGCCACCCAGTTCAGCCTGCAGTGGGAGAGCTACGTGAAGCGCTTCCTGGACATCGCCGACTGCCGGGAGCGCTGCCGGCTGCCATCTGAGCTGGACGCAGGCAGCGTGCGCTTTACCGTGGAGAAGCCAGACGAGAACTTCTCGTGCGCCTCCAGCCTCAGCGCGCTGGCCTTGCACGAGCACTACGTGCAGCAGGACGTGGAGCTGCGGCTGCTGCCCTCGGCCTGCCCCGAGCGCGGCGGGGGCGCCGGGGGCGCCGGCCTCCACTTTGCAGGGCACCGGCGGCGGGAGGAGGGGCCGGCGCCCACGGGTTCTCGCCCTCGCGGCGCCGCGGACCAGGAGCTGGAACTGCTGCGGGAGTGCCTGGGAGCCGCCGTGCCTGCCCGGCTGCGCAAGGTGGCCTCCGCGCTGGTGCCAGGTCGCCGCGCACTCCCCGTGCCCGTCTACATGTTGGTGCCCGCCCCGGCCCCGGCCCAGGAGGACGACTCCTGCACTGACTCCGCGGAGGGCACGCCGGTCAACTTCTCTAGCGCCGCCTCGCTCAGCGACGAGACGCTGCAGGGACCCCCCAGGGACCAGCCCGGGGGACCAGCGGGCAGGCAAAGACCCACCGGCCGCCCCACCTCTGCCAGACAGGCCATGGGGCACCGGCACAAGGCGGGAGGCGCCGGCCGCAGCGCGGAGCAGTCTCGGGGCGCGGGCAAGAACAGAGCAGGGCTGGAGCTGCCCCTGGGCCGGCCCCCGAGCGCCCCCGCAGACAAGGACGGCTCAAAGCCCGGCCGGACCCGCGGGGACGGGGCGCTCCAGTCGCTGTGCCTCACGACGCCCACTGAGGAGGCCGTGTACTGCTTCTACGGCAACGACTCGGACGAGGAGCCCCCGGCGGCCGCGCCCACGCCAACCCACCGGCGCACATCGGCCATCCCTCGCGCTTTTACGCGGGAGCGTCCGCAGGGCCGGAAGGAGGCCCCTGCCCCGTCCAAGGCTGCACCAGCTGCCCCGCCGCCCGCCCGGACCCAGCCCAGCCTCATTGCTGACGAGACCCCGCCCTGCTACTCCCTGAGCTCCTCCGCCAGCTCCCTCAGCGAGCCCGAGCCCTCGGAGCCGCCGGCCGTCCATCCACGAGGCCGGGAGCCCGCGGTCACCAAGGACCCGGGCCCAGGAGGCGGACGCGACAGCTCGCCCAGCCCGCGGGCCGCGGAGGAGCTTCTGCAGCGGTGCATCAGCTCGGCCCTGCCCAGGCGCCGGCCCCCCGTGTCTGGCCTGCGGCGCCGCAAGCCCCGAGCCACCCGGCTGGATGAGCGGCCCGCAGAGGGGTCCCGGGAACGCGGCGAGGAGGCAGCGGGCTCGGACCGGGCCTCCGACCTGGATAGCGTGGAGTGGCGCGCCATCCAGGAGGGCGCCAATTCAATTGTCACGTGGCTGCACCAGGCAGCAGCTGCCACGCGGGAGGCCTCGTCCGAGTCCGACTCCATCCTGTCCTTCGTATCCGGGCTGTCAGTGGGATCCACCCTACAGCCCCCCAAGCACAGGAAGGGACGACAGGCGGAGGGAGAAATGGGCAGTGCCCGGCGGCCAGAGAAAAGGGGCGCAGCCTCAGTCAAGACCAGCGGGAGCCCCCGTTCCCCTGCAGGCCCCGAGAAGCCACGTGGCACACAGAAGACCACGCCCGGGGTGCCAGCTGTGCTCCGGGGACGAACAGTGATCTACGTCCCCAGCCCGGCACCCCGTGCCCAGCCCAAAGGGACCCCCGGCCCCCGCGCCACACCGCGGAAGGTGGCGCCCCCTTGCCTGGCACAGCCCGCGGCTCCAGCCAAAGTCCCGAGCCCCGGGCAGCAGCGGTCGCGGAGCCTACACCGGCCTGCCAAGACCTCGGAGCTGGCGACGCTGAGCCAGCCCCCCAGAAGCGCCACACCGCCCGCCCGCCTCGCCAAGACCCCCTCCTCCAGCTCCTCCCAGACCTCGCCCGCCTCCCAGCCCCTGCCCAGAAAGCGCCCCCCGGTCACCCAGGCTGCTGGGGCCCTGCCCGGCCCCGGAGCCTCCCCGGTGCCCAAAACGCCGGCGCGCACCCTTCTGGCGAAGCAGCACAAGACGCAGAGATCGCCCGTGCGGATCCCGTTCATGCAGAGGCCGGCCCGGCGTGGGCCGCCACCGCTGGCTCGGGCAGTCCCGGAGCCGGGCCCCAGGGGCCGGGCGGGGACCGAGGCGGGCCCGGGGGCGCGCGGGGGCCGCCTGGGCCTGGTGCGTGTGGCCTCAGCCCTCTCCAGCGGCAGCGAGTCCTCCGACCGCTCGGGCTTCCGGCGACAGCTAACCTTCATCAAGGAGTCGCCGGGCTTGCGGCGCCGCCGCTCCGAGCTGTCCTCGGCCGAGTCCGCGGCCTCTGCCCCCCAGGGCGCCTCGCCCCGCCGCGGCCGGCCCGCGCTGCCCGCCGTCTTCCTCTGCTCCTCGCGCTGCGAAGAGCTCCGAGCGGCACCCCGGCAGGGCCCGGCCCCGGCCCGGCAGCGGCCCCCCGCGGCCCGACCCAGCCCTGGCGAGCGCCCTGCCCGGCGCACCACCTCCGAGAGCCCGTCCCGCCTGCCTGTGCGCGCGCCCGCCGCCCGGCCGGAGACTGTCAAGCGCTACGCGTCGCTGCCGCACATCAGCGTGGCCCGCAGGCCCGACGGCGCCGTCCCCGCGGCCCCTGCCTCAGCCGACGCCGCGCGCCGCAGCAGCGACGGGGAGCCCCGGCCGCTCCCCAGGGTGGCCGCGCCGGGCACGACCTGGCGGCGCATCCGAGATGAGGACGTGCCCCACATCCTGCGCAGCACGCTTCCCGCCACGGCCCTGCCACTGCGGGGCTCCACGCCCGAGGACGCCCCGGCCGGGCCCCCGCCGCGCAAGACCAGCGACGCCGTGGTCCAGACCGAGGAGGTCGCCGCCCCCAAGACCAACTCCAGCACGTCCCCGAGCCTGGAGACCAGGGAGCCCCCCGGGGCCCCCGCCGGCGGCCAGCTCTCCCTCCTCGGCAGCGACGTGGACGGTCCCAGCCTCGCCAAGGCTCCCATCTCCGCACCCTTCGTGCACGAGGGCCTGGGGGTCGCCGTGGGGGGCTTCCCCGCCAGCCGGCACGGCTCCCCCAGCCGCTCGGCCCGAGTACCCCCCTTCAACTATGTGCCCAGCCCCATGGTGGTCGCAGCCACCACCGACTCGGCCGCGGAGAAAGCCCCGGCCACTGCCTCCGCCACCCTCCTGGAATAGTGGCCTAGGCCGGCCTTCTGGAACGTTCTCTCCCGGCCCTGCGGCGCGGTCTGGCTGCCCCATGGGCCTGCGCTGTAGACGTCCCCCATAGGTCGCCCCAGGGCCTCTGCCCACCCGAGCCCCACCACTCTCAGAACCCCCGCCCAGCGCACGGCGACCTCGCGCCTCACCGGAAGACCTTGCCTCTGTGCCGCGGAGGTCCAGGAGGAAACGGGGCGGCCGCTAGGCCTCAAGTCCCGACCGTGGAGCGCTGGCAAGGGCGTCCTGGCCCAGCCCTGAGCGCGCGGCCCTTCCCCTGTCGGAAGCCGTTGCTTGACCCCGGGCGAGGGAGGCGGTAGCCTCCGGGTCCGGGTCTGGGTCTGGGTCCGCTGCTTCGCAGGGACAGCGCTGGGGAGGTGACGGCGCCCGCCGCAGGTGGGGCGAGGCTGGGGGAGGGCGGCGCCGCGGCGGGCCTGCCAGCTGGGGGCCTTTGCGGCGCGCAGGGGCGAAGCCTGTAATCACTGCAGCCGCCGGTAATTCGCTAATGAGGGCTTTGCAGGGATTGTTTTCATTCTCAGCCCCAGCTGTGGGAGTGCGGGTGGGGGTGTGGCCGAGCCCCGGCAGGAAGCCCCGCCCAGACGGTGTTCAGGGAACCCGGAGCCCAAGCGCTCCGGCGGAGCCCAAAAGGGTGGGGGTGGGAGGGGCAGAGGCCAACGGATCCCCCTGCCTGTCGCACCCCTTGGCGGGAGACGGGAAGGCAGCGGGCTGCGTACGATGGGACCCTGGTGCAGACGCCGGGCCGGCTGACATTTGGACCCCATCCCAGAGGAGATGCTGGCTACCAGCTGGGGCGACCCCAAGGGTCGCTGGAGTCAGTATCGGCCCGGCGCAGCCGCGGCGGGCGAGGCCAATGGAAAGGAGACTGAGGGGAGTCCCGGCAGTGAGCCCGAGGCCCTGGGACCTGGAGCCCGCGCTGGCCTCTCCCCAGCGGAGCCTGCACGTTACGGAGACCATCACATGTGGGCGTGGTCAGTGCCCAGGACCGCACCGCTGCTCATCTTGTCCCTTTTCAATTCCCTTCTGGTTCATGATGCATAAAGCGCTAGGCCCTAGAACTCCAGAAACAGCACAGCTGGGGCGGGGACCCAGCCTTGCCCTCCACCCGAGGCTCTGGGACAAGGCGGGAGGTTCGGGGGCCTTCCGGCAGGTGAACGCAGGGCTGGAGAGTATTTGGTGCCAGATGAGGTGAAAGCTTATAGAAGGGCCTGAGGGGCTCGGCTGCCTCATCCCCTGGCGGGGGAGGCTGGGAGCTGGGCCTCCTGCGTGGGGTGGGACTCGCAGGGGCCGGGTCTCCGTGACTGGGGCAACGCCTCGTCCTGCAGAGGGAGCCGACGACCTCTTTTCTGCAGAAAAGCTCCAGCAGGCGCTGCCTTCACCCACGGATCTGCCCAGGCTGAAGGCACACGCTCAATGCCCCACGTGCCTTCTCCAGGAGGAACGAAGCAGGGTTTGAGGGTTGGGTGGATGGAGCTCAGAAGGAAACCCCAGCCCCACCACGGATGACACCATCCCTCCCGTCCCATCCCCAGCATGGGCAAGGCCAGCCTTTCTGGCAGAAGGAGCTGTCCTCAACTCAGGGCCGCTGTGAGCAAAGCTGACCCCAGCCCCCACCCCCAGTTAACACTGCTGCTTCTCTGAATGCATGTCACGCTGCACCCCATGCTCCGGGCCCACACCCTGCAGGACAAGGAGCTCCAGACAGGACGTCCATAAGTCACCGAGGTGTGCCACCCAGCAGGTGCTGGAGGTGCCCAATGCTCCCTCCTAGGACCTCGCAGCCAGGCAAGGCTGTCAGGTTGTTTTGGGGGAAGAGGGGGTCATGGATGGCTGAGCAGAGAGCGGGGAAAATGCAGGCTGAGTGGGGCGACCTCCTGCCTGCCAGGAGCCCCCTTTCAGGACACAGCGGGGGTCTCACACTTGCTGTCCCCATCCATGGCCCGAGGGGGAACCTGGTGGTCTCTTCTGAGCTTTTGGACTTGGGGATGCCAAACACGTGCTCACCCTCACACTCGCCCCGGCCCGCTGCGCCCCTAATTGCCAAAGGGTAGGGAAATGGCGAAGCCAGCCACCAGGTCGCTGGTGACAGGGCCAGGGTTATGCAGGAAGGTGGTGCGGCATTGCCTTCCACATATGTAAGTCTCTGGGCGGCGCCCTCCCAGCTCCCTGCCTCTGTTTCCCCATGTGGGCCGTGGGGAACTCCCAGAGCTACCTCTTGGGGGAGCGTGGTGGCAGCGATGATGGGGAGACGCCTGGAAGCTCACAGAACTTGGGTCTGGCTGGCTCCTGCCCGTGACGCCTTGCCCAGCAGCAAGGTGCGCAACATGGCTGCCAGCCCCGCCTCCCACCCCCACCCCGAGTCCTGAGCTCACTTTCGCCTTCTCCATCCCCTGCCGTGGGGGCCACAGCCACACCTCACCGCCCAGTCCAGCTGTCTCCAGAAGGGGACAGGCAGTCCGCGGTCTCTGGACAATCAACTCAAGGTACGCCCACTGCAAGGCCTCCCTCCCACCGCGGCCCCTGCCTGGCCACCTGGCCTCTCTGCACCAGGGTGACAAGGGGTCCTCGTCTGCCCCCCAATGCTCCAGGGCCAGTCCTAAGGAGCTGAGGGTCTGAGGACGCAGGGAGGGTGGAGGTGTCCTGAGGCTGATGGACAGTGACCGCCACTGGCCCCCAACATGACCACACGTGGGTGCTGAACTCGGGGCGCCGTGCCCACCGGCATGGTCCTCCCGAGCTCCGACAGCATTACCTCACCCGGCCCCATCTGTTGCCCCGGTCCAGCCCTGATGGCGCGCGCCTGGTCTGTCTGATTCCCCTAGCCGCCACCCCACGTTTCTGTACCGGGTCTCTGCAGTGTTAAACGGACGTGTAAATAGTGGTAAATAGTGAAAGCCTGTCCTTCCCTAAATGTAAAGCCATCTGTCCGGCGTAAGGACGACACCGTCAGCTGTCCGACTCGCACACATTTAATAAACTGAGCTCTTGCATTGCC
>gi|56682960|ref|NM_000146.3| Homo sapiens ferritin light chain (FTL), mRNA
GCAGTTCGGCGGTCCCGCGGGTCTGTCTCTTGCTTCAACAGTGTTTGGACGGAACAGATCCGGGGACTCTCTTCCAGCCTCCGACCGCCCTCCGATTTCCTCTCCGCTTGCAACCTCCGGGACCATCTTCTCGGCCATCTCCTGCTTCTGGGACCTGCCAGCACCGTTTTTGTGGTTAGCTCCTTCTTGCCAACCAACCATGAGCTCCCAGATTCGTCAGAATTATTCCACCGACGTGGAGGCAGCCGTCAACAGCCTGGTCAATTTGTACCTGCAGGCCTCCTACACCTACCTCTCTCTGGGCTTCTATTTCGACCGCGATGATGTGGCTCTGGAAGGCGTGAGCCACTTCTTCCGCGAATTGGCCGAGGAGAAGCGCGAGGGCTACGAGCGTCTCCTGAAGATGCAAAACCAGCGTGGCGGCCGCGCTCTCTTCCAGGACATCAAGAAGCCAGCTGAAGATGAGTGGGGTAAAACCCCAGACGCCATGAAAGCTGCCATGGCCCTGGAGAAAAAGCTGAACCAGGCCCTTTTGGATCTTCATGCCCTGGGTTCTGCCCGCACGGACCCCCATCTCTGTGACTTCCTGGAGACTCACTTCCTAGATGAGGAAGTGAAGCTTATCAAGAAGATGGGTGACCACCTGACCAACCTCCACAGGCTGGGTGGCCCGGAGGCTGGGCTGGGCGAGTATCTCTTCGAAAGGCTCACTCTCAAGCACGACTAAGAGCCTTCTGAGCCCAGCGACTTCTGAAGGGCCCCTTGCAAAGTAATAGGGCTTCTGCCTAAGCCTCTCCCTCCAGCCAATAGGCAGCTTTCTTAACTATCCTAACAAGCCTTGGACCAAATGGAAATAAAGCTTTTTGATGCAAAAAAAAAAAAAAAAAAA
>gi|55956787|ref|NM_005381.2| Homo sapiens nucleolin (NCL), mRNA
CTTTCGCCTCAGTCTCGAGCTCTCGCTGGCCTTCGGGTGTACGTGCTCCGGGATCTTCAGCACCCGCGGCCGCCATCGCCGTCGCTTGGCTTCTTCTGGACTCATCTGCGCCACTTGTCCGCTTCACACTCCGCCGCCATCATGGTGAAGCTCGCGAAGGCAGGTAAAAATCAAGGTGACCCCAAGAAAATGGCTCCTCCTCCAAAGGAGGTAGAAGAAGATAGTGAAGATGAGGAAATGTCAGAAGATGAAGAAGATGATAGCAGTGGAGAAGAGGTCGTCATACCTCAGAAGAAAGGCAAGAAGGCTGCTGCAACCTCAGCAAAGAAGGTGGTCGTTTCCCCAACAAAAAAGGTTGCAGTTGCCACACCAGCCAAGAAAGCAGCTGTCACTCCAGGCAAAAAGGCAGCAGCAACACCTGCCAAGAAGACAGTTACACCAGCCAAAGCAGTTACCACACCTGGCAAGAAGGGAGCCACACCAGGCAAAGCATTGGTAGCAACTCCTGGTAAGAAGGGTGCTGCCATCCCAGCCAAGGGGGCAAAGAATGGCAAGAATGCCAAGAAGGAAGACAGTGATGAAGAGGAGGATGATGACAGTGAGGAGGATGAGGAGGATGACGAGGACGAGGATGAGGATGAAGATGAAATTGAACCAGCAGCGATGAAAGCAGCAGCTGCTGCCCCTGCCTCAGAGGATGAGGACGATGAGGATGACGAAGATGATGAGGATGACGATGACGATGAGGAAGATGACTCTGAAGAAGAAGCTATGGAGACTACACCAGCCAAAGGAAAGAAAGCTGCAAAAGTTGTTCCTGTGAAAGCCAAGAACGTGGCTGAGGATGAAGATGAAGAAGAGGATGATGAGGACGAGGATGACGACGACGACGAAGATGATGAAGATGATGATGATGAAGATGATGAGGAGGAGGAAGAAGAGGAGGAGGAAGAGCCTGTCAAAGAAGCACCTGGAAAACGAAAGAAGGAAATGGCCAAACAGAAAGCAGCTCCTGAAGCCAAGAAACAGAAAGTGGAAGGCACAGAACCGACTACGGCTTTCAATCTCTTTGTTGGAAACCTAAACTTTAACAAATCTGCTCCTGAATTAAAAACTGGTATCAGCGATGTTTTTGCTAAAAATGATCTTGCTGTTGTGGATGTCAGAATTGGTATGACTAGGAAATTTGGTTATGTGGATTTTGAATCTGCTGAAGACCTGGAGAAAGCGTTGGAACTCACTGGTTTGAAAGTCTTTGGCAATGAAATTAAACTAGAGAAACCAAAAGGAAAAGACAGTAAGAAAGAGCGAGATGCGAGAACACTTTTGGCTAAAAATCTCCCTTACAAAGTCACTCAGGATGAATTGAAAGAAGTGTTTGAAGATGCTGCGGAGATCAGATTAGTCAGCAAGGATGGGAAAAGTAAAGGGATTGCTTATATTGAATTTAAGACAGAAGCTGATGCAGAGAAAACCTTTGAAGAAAAGCAGGGAACAGAGATCGATGGGCGATCTATTTCCCTGTACTATACTGGAGAGAAAGGTCAAAATCAAGACTATAGAGGTGGAAAGAATAGCACTTGGAGTGGTGAATCAAAAACTCTGGTTTTAAGCAACCTCTCCTACAGTGCAACAGAAGAAACTCTTCAGGAAGTATTTGAGAAAGCAACTTTTATCAAAGTACCCCAGAACCAAAATGGCAAATCTAAAGGGTATGCATTTATAGAGTTTGCTTCATTCGAAGACGCTAAAGAAGCTTTAAATTCCTGTAATAAAAGGGAAATTGAGGGCAGAGCAATCAGGCTGGAGTTGCAAGGACCCAGGGGATCACCTAATGCCAGAAGCCAGCCATCCAAAACTCTGTTTGTCAAAGGCCTGTCTGAGGATACCACTGAAGAGACATTAAAGGAGTCATTTGACGGCTCCGTTCGGGCAAGGATAGTTACTGACCGGGAAACTGGGTCCTCCAAAGGGTTTGGTTTTGTAGACTTCAACAGTGAGGAGGATGCCAAAGCTGCCAAGGAGGCCATGGAAGACGGTGAAATTGATGGAAATAAAGTTACCTTGGACTGGGCCAAACCTAAGGGTGAAGGTGGCTTCGGGGGTCGTGGTGGAGGCAGAGGCGGCTTTGGAGGACGAGGTGGTGGTAGAGGAGGCCGAGGAGGATTTGGTGGCAGAGGCCGGGGAGGCTTTGGAGGGCGAGGAGGCTTCCGAGGAGGCAGAGGAGGAGGAGGTGACCACAAGCCACAAGGAAAGAAGACGAAGTTTGAATAGCTTCTGTCCCTCTGCTTTCCCTTTTCCATTTGAAAGAAAGGACTCTGGGGTTTTTACTGTTACCTGATCAATGACAGAGCCTTCTGAGGACATTCCAAGACAGTATACAGTCCTGTGGTCTCCTTGGAAATCCGTCTAGTTAACATTTCAAGGGCAATACCGTGTTGGTTTTGACTGGATATTCATATAAACTTTTTAAAGAGTTGAGTGATAGAGCTAACCCTTATCTGTAAGTTTTGAATTTATATTGTTTCATCCCATGTACAAAACCATTTTTTCCTACAAATAGTTTGGGTTTTGTTGTTGTTTCTTTTTTTTGTTTTGTTTTTGTTTTTTTTTTTTTTGCGTTCGTGGGGTTGTAAAAGAAAAGAAAGCAGAATGTTTTATCATGGTTTTTGCTTCAGCGGCTTTAGGACAAATTAAAAGTCAACTCTGGTGCCAGAAAAAAAAAAAAAAAA
>gi|55770875|ref|NM_004557.3| Homo sapiens notch 4 (NOTCH4), mRNA
AGACGTGAGGCTTGCAGCAGGCCGAGGAGGAAGAAGAGGGGCAGTGGGAGCAGAGGAGGTGGCTCCTGCCCCAGTGAGAGCTCTGAGGGTCCCTGCCTGAAGAGGGACAGGGACCGGGGCTTGGAGAAGGGGCTGTGGAATGCAGCCCCCTTCACTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTATGTGTCTCAGTGGTCAGACCCAGAGGGCTGCTGTGTGGGAGTTTCCCAGAACCCTGTGCCAATGGAGGCACCTGCCTGAGCCTGTCTCTGGGACAAGGGACCTGCCAGTGTGCCCCTGGCTTCCTGGGTGAGACGTGCCAGTTTCCTGACCCCTGCCAGAACGCCCAGCTCTGCCAAAATGGAGGCAGCTGCCAAGCCCTGCTTCCCGCTCCCCTAGGGCTCCCCAGCTCTCCCTCTCCATTGACACCCAGCTTCTTGTGCACTTGCCTCCCTGGCTTCACTGGTGAGAGATGCCAGGCCAAGCTTGAAGACCCTTGTCCTCCCTCCTTCTGTTCCAAAAGGGGCCGCTGCCACATCCAGGCCTCGGGCCGCCCACAGTGCTCCTGCATGCCTGGATGGACAGGTGAGCAGTGCCAGCTTCGGGACTTCTGTTCAGCCAACCCATGTGTTAATGGAGGGGTGTGTCTGGCCACATACCCCCAGATCCAGTGCCACTGCCCACCGGGCTTCGAGGGCCATGCCTGTGAACGTGATGTCAACGAGTGCTTCCAGGACCCAGGACCCTGCCCCAAAGGCACCTCCTGCCATAACACCCTGGGCTCCTTCCAGTGCCTCTGCCCTGTGGGGCAGGAGGGTCCACGTTGTGAGCTGCGGGCAGGACCCTGCCCTCCTAGGGGCTGTTCGAATGGGGGCACCTGCCAGCTGATGCCAGAGAAAGACTCCACCTTTCACCTCTGCCTCTGTCCCCCAGGTTTCATAGGCCCAGACTGTGAGGTGAATCCAGACAACTGTGTCAGCCACCAGTGTCAGAATGGGGGCACTTGCCAGGATGGGCTGGACACCTACACCTGCCTCTGCCCAGAAACCTGGACAGGCTGGGACTGCTCCGAAGATGTGGATGAGTGTGAGACCCAGGGTCCCCCTCACTGCAGAAACGGGGGCACCTGCCAGAACTCTGCTGGTAGCTTTCACTGCGTGTGTGTGAGTGGCTGGGGCGGCACAAGCTGTGAGGAGAACCTGGATGACTGTATTGCTGCCACCTGTGCCCCGGGATCCACCTGCATTGACCGGGTGGGCTCTTTCTCCTGCCTCTGCCCACCTGGACGCACAGGACTCCTGTGCCACTTGGAAGACATGTGTCTGAGCCAGCCGTGCCATGGGGATGCCCAATGCAGCACCAACCCCCTCACAGGCTCCACACTCTGCCTGTGTCAGCCTGGCTATTCGGGGCCCACCTGCCACCAGGACCTGGACGAGTGTCTGATGGCCCAGCAAGGCCCAAGTCCCTGTGAACATGGCGGTTCCTGCCTCAACACTCCTGGCTCCTTCAACTGCCTCTGTCCACCTGGCTACACAGGCTCCCGTTGTGAGGCTGATCACAATGAGTGCCTCTCCCAGCCCTGCCACCCAGGAAGCACCTGTCTGGACCTACTTGCCACCTTCCACTGCCTCTGCCCGCCAGGCTTAGAAGGGCAGCTCTGTGAGGTGGAGACCAACGAGTGTGCCTCAGCTCCCTGCCTGAACCACGCGGATTGCCATGACCTGCTCAACGGCTTCCAGTGCATCTGCCTGCCTGGATTCTCCGGCACCCGATGTGAGGAGGATATCGATGAGTGCAGAAGCTCTCCCTGTGCCAATGGTGGGCAGTGCCAGGACCAGCCTGGAGCCTTCCACTGCAAGTGTCTCCCAGGCTTTGAAGGGCCACGCTGTCAAACAGAGGTGGATGAGTGCCTGAGTGACCCATGTCCCGTTGGAGCCAGCTGCCTTGATCTTCCAGGAGCCTTCTTTTGCCTCTGCCCCTCTGGTTTCACAGGCCAGCTCTGTGAGGTTCCCCTGTGTGCTCCCAACCTGTGCCAGCCCAAGCAGATATGTAAGGACCAGAAAGACAAGGCCAACTGCCTCTGTCCTGATGGAAGCCCTGGCTGTGCCCCACCTGAGGACAACTGCACCTGCCACCACGGGCACTGCCAGAGATCCTCATGTGTGTGTGACGTGGGTTGGACGGGGCCAGAGTGTGAGGCAGAGCTAGGGGGCTGCATCTCTGCACCCTGTGCCCATGGGGGGACCTGCTACCCCCAGCCCTCTGGCTACAACTGCACCTGCCCTACAGGCTACACAGGACCCACCTGTAGTGAGGAGATGACAGCTTGTCACTCAGGGCCATGTCTCAATGGCGGCTCCTGCAACCCTAGCCCTGGAGGCTACTACTGCACCTGCCCTCCAAGCCACACAGGGCCCCAGTGCCAAACCAGCACTGACTACTGTGTGTCTGCCCCGTGCTTCAATGGGGGTACCTGTGTGAACAGGCCTGGCACCTTCTCCTGCCTCTGTGCCATGGGCTTCCAGGGCCCGCGCTGTGAGGGAAAGCTCCGCCCCAGCTGTGCAGACAGCCCCTGTAGGAATAGGGCAACCTGCCAGGACAGCCCTCAGGGTCCCCGCTGCCTCTGCCCCACTGGCTACACCGGAGGCAGCTGCCAGACTCTGATGGACTTATGTGCCCAGAAGCCCTGCCCACGCAATTCCCACTGCCTCCAGACTGGGCCCTCCTTCCACTGCTTGTGCCTCCAGGGATGGACCGGGCCTCTCTGCAACCTTCCACTGTCCTCCTGCCAGAAGGCTGCACTGAGCCAAGGCATAGACGTCTCTTCCCTTTGCCACAATGGAGGCCTCTGTGTCGACAGCGGCCCCTCCTATTTCTGCCACTGCCCCCCTGGATTCCAAGGCAGCCTGTGCCAGGATCACGTGAACCCATGTGAGTCCAGGCCTTGCCAGAACGGGGCCACCTGCATGGCCCAGCCCAGTGGGTATCTCTGCCAGTGTGCCCCAGGCTACGATGGACAGAACTGCTCAAAGGAACTCGATGCTTGTCAGTCCCAACCCTGTCACAACCATGGAACCTGTACTCCCAAACCTGGAGGATTCCACTGTGCCTGCCCTCCAGGCTTTGTGGGGCTACGCTGTGAGGGAGACGTGGACGAGTGTCTGGACCAGCCCTGCCACCCCACAGGCACTGCAGCCTGCCACTCTCTGGCCAATGCCTTCTACTGCCAGTGTCTGCCTGGACACACAGGCCAGTGGTGTGAGGTGGAGATAGACCCCTGCCACAGCCAACCCTGCTTTCATGGAGGGACCTGTGAGGCCACAGCAGGATCACCCCTGGGTTTCATCTGCCACTGCCCCAAGGGTTTTGAAGGCCCCACCTGCAGCCACAGGGCCCCTTCCTGCGGCTTCCATCACTGCCACCACGGAGGCCTGTGTCTGCCCTCCCCTAAGCCAGGCTTCCCACCACGCTGTGCCTGCCTCAGTGGCTATGGGGGTCCTGACTGCCTGACCCCACCAGCTCCTAAAGGCTGTGGCCCTCCCTCCCCATGCCTATACAATGGCAGCTGCTCAGAGACCACGGGCTTGGGGGGCCCAGGCTTTCGATGCTCCTGCCCTCACAGCTCTCCAGGGCCCCGGTGTCAGAAACCCGGAGCCAAGGGGTGTGAGGGCAGAAGTGGAGATGGGGCCTGCGATGCTGGCTGCAGTGGCCCGGGAGGAAACTGGGATGGAGGGGACTGCTCTCTGGGAGTCCCAGACCCCTGGAAGGGCTGCCCCTCCCACTCTCGGTGCTGGCTTCTCTTCCGGGACGGGCAGTGCCACCCACAGTGTGACTCTGAAGAGTGTCTGTTTGATGGCTACGACTGTGAGACCCCTCCAGCCTGCACTCCAGCCTATGACCAGTACTGCCATGATCACTTCCACAACGGGCACTGTGAGAAAGGCTGCAACACTGCAGAGTGTGGCTGGGATGGAGGTGACTGCAGGCCTGAAGATGGGGACCCAGAGTGGGGGCCCTCCCTGGCCCTGCTGGTGGTACTGAGCCCCCCAGCCCTAGACCAGCAGCTGTTTGCCCTGGCCCGGGTGCTGTCCCTGACTCTGAGGGTAGGACTCTGGGTAAGGAAGGATCGTGATGGCAGGGACATGGTGTACCCCTATCCTGGGGCCCGGGCTGAAGAAAAGCTAGGAGGAACTCGGGACCCCACCTATCAGGAGAGAGCAGCCCCTCAAACGCAGCCCCTGGGCAAGGAGACCGACTCCCTCAGTGCTGGGTTTGTGGTGGTCATGGGTGTGGATTTGTCCCGCTGTGGCCCTGACCACCCGGCATCCCGCTGTCCCTGGGACCCTGGGCTTCTACTCCGCTTCCTTGCTGCGATGGCTGCAGTGGGAGCCCTGGAGCCCCTGCTGCCTGGACCACTGCTGGCTGTCCACCCTCATGCAGGGACCGCACCCCCTGCCAACCAGCTTCCCTGGCCTGTGCTGTGCTCCCCAGTGGCCGGGGTGATTCTCCTGGCCCTAGGGGCTCTTCTCGTCCTCCAGCTCATCCGGCGTCGACGCCGAGAGCATGGAGCTCTCTGGCTGCCCCCTGGTTTCACTCGACGGCCTCGGACTCAGTCAGCTCCCCACCGACGCCGGCCCCCACTAGGCGAGGACAGCATTGGTCTCAAGGCACTGAAGCCAAAGGCAGAAGTTGATGAGGATGGAGTTGTGATGTGCTCAGGCCCTGAGGAGGGAGAGGAGGTGGGCCAGGCTGAAGAAACAGGCCCACCCTCCACGTGCCAGCTCTGGTCTCTGAGTGGTGGCTGTGGGGCGCTCCCTCAGGCAGCCATGCTAACTCCTCCCCAGGAATCTGAGATGGAAGCCCCTGACCTGGACACCCGTGGACCTGATGGGGTGACACCCCTGATGTCAGCAGTTTGCTGTGGGGAAGTACAGTCCGGGACCTTCCAAGGGGCATGGTTGGGATGTCCTGAGCCCTGGGAACCTCTGCTGGATGGAGGGGCCTGTCCCCAGGCTCACACCGTGGGCACTGGGGAGACCCCCCTGCACCTGGCTGCCCGATTCTCCCGGCCAACCGCTGCCCGCCGCCTCCTTGAGGCTGGAGCCAACCCCAACCAGCCAGACCGGGCAGGGCGCACACCCCTTCATGCTGCTGTGGCTGCTGATGCTCGGGAGGTCTGCCAGCTTCTGCTCCGTAGCAGACAAACTGCAGTGGACGCTCGCACAGAGGACGGGACCACACCCTTGATGCTGGCTGCCAGGCTGGCGGTGGAAGACCTGGTTGAAGAACTGATTGCAGCCCAAGCAGACGTGGGGGCCAGAGATAAATGGGGGAAAACTGCGCTGCACTGGGCTGCTGCCGTGAACAACGCCCGAGCCGCCCGCTCGCTTCTCCAGGCCGGAGCCGATAAAGATGCCCAGGACAACAGGGAGCAGACGCCGCTATTCCTGGCGGCGCGGGAAGGAGCGGTGGAAGTAGCCCAGCTACTGCTGGGGCTGGGGGCAGCCCGAGAGCTGCGGGACCAGGCTGGGCTAGCGCCGGCGGACGTCGCTCACCAACGTAACCACTGGGATCTGCTGACGCTGCTGGAAGGGGCTGGGCCACCAGAGGCCCGTCACAAAGCCACGCCGGGCCGCGAGGCTGGGCCCTTCCCGCGCGCACGGACGGTGTCAGTAAGCGTGCCCCCGCATGGGGGCGGGGCTCTGCCGCGCTGCCGGACGCTGTCAGCCGGAGCAGGCCCTCGTGGGGGCGGAGCTTGTCTGCAGGCTCGGACTTGGTCCGTAGACTTGGCTGCGCGGGGGGGCGGGGCCTATTCTCATTGCCGGAGCCTCTCGGGAGTAGGAGCAGGAGGAGGCCCGACCCCTCGCGGCCGTAGGTTTTCTGCAGGCATGCGCGGGCCTCGGCCCAACCCTGCGATAATGCGAGGAAGATACGGAGTGGCTGCCGGGCGCGGAGGCAGGGTCTCAACGGATGACTGGCCCTGTGATTGGGTGGCCCTGGGAGCTTGCGGTTCTGCCTCCAACATTCCGATCCCGCCTCCTTGCCTTACTCCGTCCCCGGAGCGGGGATCACCTCAACTTGACTGTGGTCCCCCAGCCCTCCAAGAAATGCCCATAAACCAAGGAGGAGAGGGTAAAAAATAGAAGAATACATGGTAGGGAGGAATTCCAAAAATGATTACCCATTAAAAGGCAGGCTGGAAGGCCTTCCTGGTTTTAAGATGGATCCCCCAAAATGAAGGGTTGTGAGTTTAGTTTCTCTCCTAAAATGAATGTATGCCCACCAGAGCAGACATCTTCCACGTGGAGAAGCTGCAGCTCTGGAAAGAGGGTTTAAGATGCTAGGATGAGGCAGGCCCAGTCCTCCTCCAGAAAATAAGACAGGCCACAGGAGGGCAGAGTGGAGTGGAAATACCCCTAAGTTGGAACCAAGAATTGCAGGCATATGGGATGTAAGATGTTCTTTCCTATATATGGTTTCCAAAGGGTGCCCCTATGATCCATTGTCCCCACTGCCCACAAATGGCTGACAAATATTTATTGGGCACCTACTATGTGCCAGGCACTGTGTAGGTGCTGAAAAGTGGCCAAGGGCCACCCCCGCTGATGACTCCTTGCATTCCCTCCCCTCACAACAAAGAACTCCACTGTGGGGATGAAGCGCTTCTTCTAGCCACTGCTATCGCTATTTAAGAACCCTAAATCTGTCACCCATAATAAAGCTGATTTGAAGTGTTAAAAAAAAAAAAAAAAAA
>gi|55770829|ref|NM_003655.2| Homo sapiens chromobox 4 (CBX4), mRNA
AGCCGGGGCGGGCGCGGGCAGCGGCGGGCCGGCCGGGCTGTGCGGGGCGAGCGGCGGCGGCGGCGGGGGCGCTTCGGCCGGGGCGGCAGCTGGGCGCCGGCGGGAGCTAGCAGCGTCTGCAGCCGCGCCGGCCGCCAGCGCCCCGGCGCGCTCCGGCTCGGCCATGGAGCTGCCAGCTGTTGGCGAGCACGTCTTCGCGGTGGAGAGCATCGAGAAGAAGCGGATCCGCAAGGGCAGAGTGGAGTATCTGGTGAAATGGAGAGGCTGGTCGCCCAAATATAACACGTGGGAACCGGAGGAGAACATCCTGGACCCCAGGCTGCTGATCGCCTTCCAGAACAGGGAACGGCAGGAGCAGCTGATGGGATATCGGAAGAGAGGGCCGAAGCCCAAACCGCTAGTGGTGCAGGTGCCTACCTTTGCCCGTCGTTCCAATGTCCTGACCGGCCTCCAGGACTCCTCCACTGACAACCGTGCCAAGCTGGATTTGGGCGCGCAGGGGAAGGGCCAGGGGCATCAGTACGAGCTCAACAGCAAGAAGCACCACCAGTACCAGCCGCACAGCAAGGAGCGGGCGGGCAAGCCCCCGCCGCCGGGCAAGAGCGGCAAGTACTACTACCAGCTCAACAGCAAGAAGCACCACCCCTACCAGCCCGACCCCAAAATGTACGACCTGCAGTACCAGGGCGGCCACAAGGAGGCGCCCAGCCCCACCTGCCCGGACCTGGGGGCCAAGAGCCACCCGCCCGACAAGTGGGCGCAAGGTGCGGGGGCCAAAGGCTACCTGGGGGCGGTGAAGCCCCTGGCCGGTGCGGCGGGTGCTCCAGGCAAAGGCTCCGAGAAGGGCCCCCCCAACGGAATGATGCCGGCCCCCAAAGAGGCTGTGACGGGCAACGGGATTGGGGGCAAGATGAAGATAGTCAAGAACAAGAACAAGAACGGACGCATCGTGATCGTGATGAGCAAATACATGGAGAACGGCATGCAGGCGGTGAAGATCAAGTCCGGCGAGGTGGCAGAGGGGGAGGCTCGCTCCCCCAGCCACAAGAAGCGGGCAGCCGACGAGCGCCACCCTCCTGCCGACAGGACTTTTAAAAAGGCGGCGGGCGCAGAGGAGAAGAAGGTGGAGGCGCCGCCCAAGAGGAGGGAGGAGGAGGTGTCCGGGGTTAGCGATCCGCAGCCCCAGGATGCCGGCTCCCGCAAGCTGTCCCCGACCAAGGAGGCCTTTGGAGAGCAGCCCCTGCAGCTCACCACCAAGCCCGACCTGCTTGCCTGGGACCCGGCCCGGAACACGCACCCGCCCTCACACCACCCGCACCCGCACCCCCATCACCACCACCACCACCACCACCACCACCACCACGCCGTCGGCCTGAATCTCTCCCACGTGCGCAAGCGCTGCCTCTCCGAGACCCACGGCGAGCGCGAGCCCTGCAAGAAGCGGCTGACTGCGCGCAGCATCAGCACCCCCACCTGCCTGGGGGGCAGCCCAGCCGCTGAGCGCCCGGCCGACCTGCCACCAGCCGCCGCCCTCCCGCAGCCCGAGGTCATCCTGCTAGACTCAGACCTGGATGAACCCATAGACTTGCGCTGCGTCAAGACGCGCAGCGAGGCCGGGGAGCCGCCCAGCTCCCTCCAGGTGAAGCCCGAGACACCGGCGTCGGCGGCGGTGGCGGTGGCGGCGGCAGCGGCACCCACCACGACGGCGGAGAAGCCTCCAGCCGAGGCCCAGGACGAACCTGCAGAGTCGCTGAGCGAGTTCAAGCCCTTCTTTGGGAATATAATTATCACCGACGTCACCGCGAACTGCCTCACCGTTACTTTCAAGGAGTACGTGACGGTGTAGCCGGAGGGCGTCGGAAGGGGAAGCGCCATTCCCGCGGGGGGGCGGGGAGCTGAGCACCTGGGGCCTCGGGGCGGGCTCCCCTCTCGCCAACCCGCCAACCGCGAGAGACCCAGGCTGGCCCCCAGGGTGAGGACGCCCGGAGCGGAGGTAACCATGTTCCCCCTGCGGCGGCTGTCAGACCTGGGCGGAGGCCCCTTCCACGCGGTGCCGGCGGGGCTCGCCCTCTCCTGCCCTTCCCCGCTGGAGATGGACCCCCGGAACGGACAGGGCAGCTCTGCGCCCGGCCTCAGAGTTCTAGTATTATATTTTAACCGTGCTAACTTGTCAAGTGCTGACTCTACTCCCGTTTGTACGTGGTGTTATTATTGAAATGTATTGTTTGAGCTCAAAAGGCCCGACCACCCCCCTTCGGGCTGCTATATATATATTTATTTGTAGGTATTTATATATTGAAATATAAAAACCTAGATTTATGGAGTTTCCTCTAGATCATGTTATATTCTATATCAGACAAACTATTTTCTTTTGACCTTTCTTCCCCTCCATCCAGTATTTCGGTTGATTTCATTTTCTCCCCTCTCTTCCCCTTCCACGAACTGCAATACCAGTAACCTTGGTATATATTTTTTGATACTGTACACATGGATGTCTTGTTTCTATGTGCAAAAAAAAAAAAAAAAAAAAGTTTGTTAAAAGGCTACACGAGCTCTCTAGAAACTGCTGCTACTAGAAATGTCTAAACTATAAGCTTCCAACTATTACCTGCTTGAATGTAAATATTAAATGGAGATGTTGAAGGTGCAAAAAAA
>gi|52352808|ref|NM_005902.3| Homo sapiens SMAD family member 3 (SMAD3), transcript variant 1, mRNA
GCGGCCGCCGCCTCCGCCCCGCGTTCGGGGCCTTCCCGACCCTGCACTGCTGCCGTCCGCCCGCCCGGCCGCTCTTCTCTTCGCCGTGGGAGCCGCTCCGGGCGCAGGGCCGCGCGCCGAGCCCCGCAGGCTGCAGCGCCGCGGCCCGGCCCGGCGCCCCGGCAACTTCGCCGAGAGTTGAGGCGAAGTTTGGGCGACCGCGGCAGGCCCCGGCCGAGCTCCCCTCTGCGCCCCCGGCGTCCCGTCGAGCCCAGCCCCGCCGGGGGCGCTCCTCGCCGCCCGCGCGCCCTCCCCAGCCATGTCGTCCATCCTGCCTTTCACTCCCCCGATCGTGAAGCGCCTGCTGGGCTGGAAGAAGGGCGAGCAGAACGGGCAGGAGGAGAAATGGTGCGAGAAGGCGGTCAAGAGCCTGGTCAAGAAACTCAAGAAGACGGGGCAGCTGGACGAGCTGGAGAAGGCCATCACCACGCAGAACGTCAACACCAAGTGCATCACCATCCCCAGGTCCCTGGATGGCCGGTTGCAGGTGTCCCATCGGAAGGGGCTCCCTCATGTCATCTACTGCCGCCTGTGGCGATGGCCAGACCTGCACAGCCACCACGAGCTACGGGCCATGGAGCTGTGTGAGTTCGCCTTCAATATGAAGAAGGACGAGGTCTGCGTGAATCCCTACCACTACCAGAGAGTAGAGACACCAGTTCTACCTCCTGTGTTGGTGCCACGCCACACAGAGATCCCGGCCGAGTTCCCCCCACTGGACGACTACAGCCATTCCATCCCCGAAAACACTAACTTCCCCGCAGGCATCGAGCCCCAGAGCAATATTCCAGAGACCCCACCCCCTGGCTACCTGAGTGAAGATGGAGAAACCAGTGACCACCAGATGAACCACAGCATGGACGCAGGTTCTCCAAACCTATCCCCGAATCCGATGTCCCCAGCACATAATAACTTGGACCTGCAGCCAGTTACCTACTGCGAGCCGGCCTTCTGGTGCTCCATCTCCTACTACGAGCTGAACCAGCGCGTCGGGGAGACATTCCACGCCTCGCAGCCATCCATGACTGTGGATGGCTTCACCGACCCCTCCAATTCGGAGCGCTTCTGCCTAGGGCTGCTCTCCAATGTCAACAGGAATGCAGCAGTGGAGCTGACACGGAGACACATCGGAAGAGGCGTGCGGCTCTACTACATCGGAGGGGAGGTCTTCGCAGAGTGCCTCAGTGACAGCGCTATTTTTGTCCAGTCTCCCAACTGTAACCAGCGCTATGGCTGGCACCCGGCCACCGTCTGCAAGATCCCACCAGGATGCAACCTGAAGATCTTCAACAACCAGGAGTTCGCTGCCCTCCTGGCCCAGTCGGTCAACCAGGGCTTTGAGGCTGTCTACCAGTTGACCCGAATGTGCACCATCCGCATGAGCTTCGTCAAAGGCTGGGGAGCGGAGTACAGGAGACAGACTGTGACCAGTACCCCCTGCTGGATTGAGCTGCACCTGAATGGGCCTTTGCAGTGGCTTGACAAGGTCCTCACCCAGATGGGCTCCCCAAGCATCCGCTGTTCCAGTGTGTCTTAGAGACATCAAGTATGGTAGGGGAGGGCAGGCTTGGGGAAAATGGCCATGCAGGAGGTGGAGAAAATTGGAACTCTACTCAACCCATTGTTGTCAAGGAAGAAGAAATCTTTCTCCCTCAACTGAAGGGGTGCACCCACCTGTTTTCTGAAACACACGAGCAAACCCAGAGGTGGATGTTATGAACAGCTGTGTCTGCCAAACACATTTACCCTTTGGCCCCACTTTGAAGGGCAAGAAATGGCGTCTGCTCTGGTGGCTTAAGTGAGCAGAACAGGTAGTATTACACCACCGGCCCCCTCCCCCCAGACTCTTTTTTTGAGTGACAGCTTTCTGGGATGTCACAGTCCAACCAGAAACACCCCTCTGTCTAGGACTGCAGTGTGGAGTTCACCTTGGAAGGGCGTTCTAGGTAGGAAGAGCCCGCAGGGCCATGCAGACCTCATGCCCAGCTCTCTGACGCTTGTGACAGTGCCTCTTCCAGTGAACATTCCCAGCCCAGCCCCGCCCCGCCCCGCCCCACCACTCCAGCAGACCTTGCCCCTTGTGAGCTGGATAGACTTGGGATGGGGAGGGAGGGAGTTTTGTCTGTCTCCCTCCCCTCTCAGAACATACTGATTGGGAGGTGCGTGTTCAGCAGAACCTGCACACAGGACAGCGGGAAAAATCGATGAGCGCCACCTCTTTAAAAACTCACTTACGTTTGTCCTTTTTCACTTTGAAAAGTTGGAAGGATCTGCTGAGGCCCAGTGCATATGCAATGTATAGTGTCTATTATCACATTAATCTCAAAGAGATTCGAATGACGGTAAGTGTTCTCATGAAGCAGGAGGCCCTTGTCGTGGGATGGCATTTGGTCTCAGGCAGCACCACACTGGGTGCGTCTCCAGTCATCTGTAAGAGCTTGCTCCAGATTCTGATGCATACGGCTATATTGGTTTATGTAGTCAGTTGCATTCATTAAATCAACTTTATCATATGCTCTTTTAAATGTTTGGTTTATATATTTTCTTTAAAAATCCTGGGCTGGCACATTGACTGGGAAACCTGAGTGAGACCCAGCAACTGCTTCTCTCCCTTCTCTCTCCTGAGGTGAAGCTTTTCCAGGTTTTGTTGAAGAGATACCTGCCAGCACTTCTGCAAGCTGAAATTTACAGAAGCAAATTCACCAGAAGGGAAACATCTCAGGCCAACATAGGCAAATGAAAAGGGCTATTAAAATATTTTTACACCTTTGAAAATTGCAGGCTTGGTACAAAGAGGTCTGTCATCTTCCCCCTGGGATATAAGATGATCTAGCTCCCGGTAGAGGATCACCGGTGACAACTATAGCAGTTGTATTGTGTAACAAGTACTGCTCCCAGCAGCAATTAGGGAGAAAACTAGTCTAAATTATTTCAACTGGAAAAAAGAAAAAAGAGTCCTCTTCTTTTCCCAGCCTTTTGCAGAACACAGTAGACAGAACTGCCACCTTCAATTGGTACTTTATTCTTTGCTGCTGTTTTTGTATAAAATGACCTATCCCACGTTTTTGCATGAATTTATAGCAGGAAAAATCAAGGGATTTCCTATGGAAGTCCTGCTTTATTCCAGGTGAAGGGAAGGAAGTGTATATACTTTTGGCAAGTCATACAGCTCAAATGTGATGAGATTTCTGATGTTAGAGGGAGATGGAGAGGCTTCCTGATGCCTCATCTGCAGGGTCCTGTGCCTCTGAAGTTCTAGCCATGAGGTTTCCAGGTAGGACAGCTGCTCCCCAAGCCTCCTGAGGACACAGGAAGAGACGGAAGGAGCACCTTGACAGACTTGTGTGAGTCTTCTCGAAGGAGGGTTGACTCAGAACCCAGAGACAATACAAAACCCCTCACTTCCTCTGAGAGGGCCAAATGCTGTGAGTCTGAAGTATGTGCCTGGTGTGAAATGATCTATGGCCTGTTTCTTACACAGGAAGCCCCCTGAACCTCCTGTACATGTGTTCATGTTCCCAGCCAGCTCTGAGACCCAGGAACCAAATATTCCATTTTGGCTTCTGCTAGAGCAGTCATGGTTCCTCTCCTAAAAGCCATGGGCAGCAGTTTCCGAGGGCCTGCATGATCCACCTGCTGCACGATCCTATGAGGGCTTCCTGTGGCACACAGCCCTCTGGGTGCTTGGGAACTAGCTTCAGGCACAGCCTGATTCTGGTGATCCAGTGATCTATGGAAGTCGTGTCTTACTCCAGGTGAAGGGGGAAAAAAAAAGCCTATACTTTGGCAGGTTATGAACTTTGAATGTGATGAAATGACACGTTTGGCTGCATTTGGATGGTGTCTTAGAACCCTCATTGCTCAGACCTGAAGGCTACTTCTAGGAGCATGAAGTTTGAGTTTTGTGTTTTTCCAAAGGATACTTCCTTGGCCCTTTTTCTTTATTGACTAGACCACCAGAGGAGGATGTGTGGGATTGTAGGCAAACCCACCTGTGGCATCACTGAAAATAAATTTGATCATACCTAAGAGGTTAGGAAATGGTGCCATTCCCACCTTAGAGTGCTACATAGGTGCTTTGGGCGTATGTAACATTAGTGTCCTTCCTTGAAGCCACAAGCTAGTTTTCTTAGTTTTAAAATCCTGTTGTATGAATGGCATTTGTATATTAAAACACTTTTTTAAAGGACAGTTGAAAAGGGCAAGAGGAAACCAGGGCAGTTCTAGAGGAGTGCTGGTGACTGGATAGCAGTTTTAAGTGGCGTTCACCTAGTCAACACGACCGCGTGTGTTGCCCCTGCCCTGGGCTCCCCGCCATGACATCTTCACCTTGCAGCTTGTGCTGAGACTGACCCAAGTGCAGCTAGCACTGGGACACAGATCCTTGTCTTCAGCACCTTCCAAGGAGCCAACTTTTATTCCCTTTCCTCTCTCCCCTCCCCACCTCGCTTCTTCCCAATTTAGTAACTTAGATGCTTCCAGCACATACGTAGGTAGCTACCCCAGCCGGTTTGGATTACAGGCCTGTGCTGGAACATCATCTCAGTTGGCCACCTTCCTGGCAGGCTGTAGACCTGACATTTTGAGACAAGCCTAGAGTCAGGAGCAGGGACTTTGACTCTTAGGAAGAGCACACATGAGGGCAAGGCTGCTGGCAGACGTCTCCATTGTCCTTATGTTGTCTGTGTTGTATTTTTTTTTTTTTATTGACCATGGTGATTATTTTTTTAAACCATCGTTAATATACTGAAGTGAGCTATAGCACATATCATGTGCTTAGTTTGTTTATTTTTCTCCATCTCCCCTTGGCTTCCTAGAGTTTGGACATATTCCAGGCTAAATGCTTTTACTCAAGACTACAGAAAGGTTTGAAGTAGTGTGTGCATGGCATGCACGTATGTAAGTAATCTGGGGAAGAAGCAAAGATCTGTTTCATTCTTAGCCTCAGGCCTCATGAGGGTCTCCACAGGGCCGGAGCTCAGGTTACACCACTCCTTCGTCCTTACAGGAGATGTAGGGAGAAGAATCTGCAGGCTGCTTGTAGGACTGTTCACCAAGGGGGATACCAGCAGCAAGAGAGTGCACCCGTTTAGCCCTGGACCCTGTTTCTTACTGTGTGACTTGGCTAGAGTTGGGAGTTCCCCCAAAATAAACGTGTCCCCATTTTACCAGAACCAAACCTCAACACAGCGAAGCTGTACTGTCTTTGTGTGGCAAAGATGTTCCCTTGTAGGCCCCTTTCAGGTAACCGTCTTCACAATGTATTTTCATCACAGTTTAAGGAGCATCAGCCGCTTCTCAAGTGGGTAGGGAAAGCAGAAAAACGTACGCAAGAGGACATGGATCCAAAATGATGATGAAGCATCTCCCATGGGGAGGTGATGGTGGGGAGATGATGGGCTAAACAGGCAACTTTTCAAAAACACAGCTATCATAGAAAAGAAACTTGCCTCATGTAAACTGGATTGAGAAATTCTCAGTGATTCTGCAATGGATTTTTTTTTAATGCAGAAGTAATGTATACTCTAGTATTCTGGTGTTTTTATATTTATGTAATAATTTCTTAAAACCATTCAGACAGATAACTATTTAATTTTTTTTAAGAAAGTTGGAAAGGTCTCTCCTCCCAAGGACAGTGGCTGGAAGAGTTGGGGCACAGCCAGTTCTGAATGTTGGTGGAGGGTGTAGTGGCTTTTTGGCTCAGCATCCAGAAACACCAAACCAGGCTGGCTAAACAAGTGGCCGCGTGTAAAAACAGACAGCTCTGAGTCAAATCTGGGCCCTTCCACAAGGGTCCTCTGAACCAAGCCCCACTCCCTTGCTAGGGGTGAAAGCATTACAGAGAGATGGAGCCATCTATCCAAGAAGCCTTCACTCACCTTCACTGCTGCTGTTGCAACTCGGCTGTTCTGGACTCTGATGTGTGTGGAGGGATGGGGAATAGAACATTGACTGTGTTGATTACCTTCACTATTCGGCCAGCCTGACCTTTTAATAACTTTGTAAAAAGCATGTATGTATTTATAGTGTTTTAGATTTTTCTAACTTTTATATCTTAAAAGCAGAGCACCTGTTTAAGCATTGTACCCCTATTGTTAAAGATTTGTGTCCTCTCATTCCCTCTCTTCCTCTTGTAAGTGCCCTTCTAATAAACTTTTCATGGAAAAGCTCCTGTGCCAGGAGCTCAGTCTGAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|51558687|ref|NM_001003940.1| Homo sapiens Bcl2 modifying factor (BMF), transcript variant 1, mRNA
GGAAACAATACCGCACCGTGCGGAGTGGCCTCCTCCCGCCCCGGCCTGTGCCCGCCGCCGCCGCCGCCCCTGCCTGCGCCTCCCGCCTCCTGCCGCAGCCCGCTGGGCTTTTTCCCTCCTTCCCAATCGAGTCTGGGCGTCCAGCCCCCGAGTGCTCGTCACGCTGGACCCTGGCGCGGAGCCCTGGCATCACGACTCGGAGGCCGAGACTCTCTCCTGGAGTCACCCAGGAGAGATGGAGCCATCTCAGTGTGTGGAGGAGCTGGAGGATGATGTGTTCCAACCAGAGGATGGGGAGCCGGTGACCCAACCCGGGAGCTTGCTCTCTGCTGACCTGTTTGCCCAGAGCCTACTGGACTGCCCCCTCAGCCGACTTCAGCTCTTCCCTCTCACCCACTGCTGTGGCCCTGGCCTTCGACCCACCAGCCAGGAAGACAAAGCTACCCAGACTCTCAGCCCAGCCTCCCCCAGCCAAGGTGTCATGCTGCCTTGTGGGGTGACTGAGGAACCCCAGCGACTCTTTTATGGCAATGCTGGCTATCGGCTTCCTCTCCCTGCCAGTTTCCCAGCAGTCTTGCCCATTGGGGAGCAGCCCCCCGAAGGGCAGTGGCAACATCAAGCAGAGGTACAGATTGCCCGAAAGCTTCAGTGCATTGCAGACCAGTTCCACCGGCTTCATGTGCAGCAACACCAGCAGAACCAAAATCGTGTGTGGTGGCAGATCCTCCTCTTCCTGCACAACCTTGCTTTGAATGGAGAAGAGAACAGGAACGGGGCAGGCCCTAGGTGAGGGTGGGCTGCCCTCTTCACATGGGGCACCAGGAACACCGTCTGGAACAGGAAGGACATCGGGCAGGACTGACACTGTGTCTTGTGAAATTGTTTTTTTGTTGTTATTTTGTGTTTTAATTTTTTTTAATTTCTCTCTGAGTGTACATACAACATACTCAAGCGGGACCTTCTTTCTCTGTCAGGCCCTTGACCTGGAATGGGGGCCTTTGTCAAACACTGTTGAAGGAGAGGCTGATGTGTCTGTGATGGTGAGAATTCCCAAGGGCTCTGACAAGTAGATTCTTCGACTGAGGAATCTACCAGTTGTCGAAGATGATCCGTTAGTGATGTTCTCTGGGAAGTGGACTGTGGTTTTTCCAGAGGAACTCAGTTAAGAAATCGAGAGTGGATTAGACTCCCAGTTCCACCAAACCTATGAGCCTTCCACTGTGGATGGGGGCCGTGATCCTGATGGTCACATTGCTTTAACCCAGCAGGGCTTCGGCCAGGGGCTTTCCACTTGAGGATAGCAGCTTCACTAGGCTGGCCGGCCAGCTCCACATCTGACTGGGTTCTTACTTCTCAGCCAGTACCTGCCCCATGGGCTCAAGGATTCCTGGCCAGCTCCTGCCACCTCCAGCAGACCTCAGGGAGGGTTGGGTTTCTCTAAGGACCCCTCAAACATGTCGCAAAATGAACCAAACTTCTGGCTAGGCCTCAAAACTGACTTGGTCCCACTTGGAGGCCCCAGGATTGGTCCTGAGGTACAGAGCCACTGCCACCACTGGCGGCCTGGGACCAGCTGGGTGTCAGCCACGGATGAGCCGAATAGCCAGTCAGCATGTTGCTGCTGGCAGCCTGTGCCTTTGTCAGCTCTTCTTTCAAAAGACCCCACCGACAGACCGCATTCCACCCCCAACATCGGCACTGAGGGACATCGGGGGCAAGTTTGCAGTGGGGCCGGAAAATATGGTGGCCACCCTACCATGAGAGTCAGCCGTAGGGGACCCCAGACCCCTTGGTTTCCTTGGAAACAACATACCTCTTCCCCCTTATCCCCAGTCCTTTTTCATACCTAGTGGGATACAGAAGAAGCCAGGACAGTGGCTTTGCCAGCTAAGTGACTTTTAGAGTAACAGATAACGATTAGAGTGGGGAACCGTCAAAGCTGGGTACACATTTCCTATCTTCCTCCAGCTTCCAGCTAGGCCAGAAGGGCATGCTCTGGAACCCAGCAGGATCACAGCTGCCTGTGCACGTCTTCCCTTCTCTCCCTGCTGCGGCACTTATGGAGAGGATCTAAAGCAGCCGGTGTGGCAGCTCCGATAGCAGGCACAGGGAATCTGTTAACCAGACGCTAGAAACTAAATTATAACTTTTGCATATGTGAGAAAAGACAACATTGGTGCTAACAGTGAAGTAAGGCCCAAAGGAAAGACGGCTTCCCTGGACAAAGAAGACCTCAGGGCTACCCAAGGAAATAGGAGGAGTCTAGAGTAGACTCACAAATCTGAACAAGCCCAAGTCTTCCAGTTCTGAGGAGAGGAGGTCTTCAGTACTATTGAAGGAGACATTGATCTTCTGGATGTACAGTTGTGCAGGTTGTTCACTGCACAAGGGCACCTGCAGCTAATGGAGGCTGGAATTCAGCTTGTGTTCTGCTCACTAAGCTGTGTGCGTGCCCTGGTGTGGGGCTACTTCTCCCAAGAAGAAGGGGTGCCTTTCCTAATTTGCAAAGGTGCCATATGGGCTCACAGCACCCTGGAGGAGAAGGGCCTCAAACTGTGCATGTAAGCCTTTGTTTTGTTCTGCTCAGATATTCTGGATATTACCTCTTCTTGGTCAGAATTCTATTCTCAGGGTGTGTACCATGATTTGTCTGCTAAGAAGACGGGTTCCTGCTTTGCAGAGAAGGAGCCGGGGACCAGCTTGAAGACTGGCTCTGGGACACACTGACCATTGTGAAATTCAGCCTTCCCTGTGGGTCTCCATACCATTTTATGATGTGTATGGGACATACGTTGTTCTCCCCTCTCTGGATCAAGGTGGTGACAGGCAGCCTGCTGCCGTATGCTTCAGTGGCACACACCAAAAAACCGGGATTATTTACAGCAGCCACTATTCACCCCTTTTGGCAGACTCTCCACCTGAGTTCAGTGAGAGAGAAAATGATTTAGATCTTGGTGCTGGGGCAAGGCCATCAGCTTCAGAGACCTTGCCAGGCCCAGGCTGGGTGCCCTGTGGCCTGAGAACTGAGCCCAGACTTTGACAAACCCACCTCAACATCAAGCCTGGGGCAGGTGGAAGGTGGTCTGACTGCACTGTCTCCATCTTATGCAAAGCCAGGAACTCACTCACTGTCTTAAGTGAGCCAGGGCAAAATTTACACCCCTCACGTTTCCCTCTCCCTTCTTCCCCACCAACAAAACCCAGGAGGTAGCTGGCAGAGTAGCTGTCAGGAAGGAGAAAGGTTCTTTCTGGCTGGTTGTTTTTAATTGGCTTAGTGATCTAAACTGGCCCCTTCCTCCTCTGCCTGGTGAGTTGGCCTAAACATTCCTCAAGTCTAGCCTCAGGAGACCTGCCCCTCCCCCCCGACCTCCACCCCCTCAGACTCCATCCCCCACCCCCAGGAGCCTGGCTGTCTCTAGCGAGGGGTGGAGAATCAGATTTAGAGGGAGGGAGAGTCTGACCTGGATCCTGACCTGTAACCAGCTGAAGACGGTGGAGGCTTTGTGGCTTGCTGAGGGTGGGGGTTGGGAGAGGGACTGGAAACCTTCCTCCTCGGGAAAGAAATGCCTGGGAGGAAGGGAAGCCTGATATTCAGGGTCAAAACAGCCCTTCTAATTCACAACCCCAAAGCAGGGGTTTCTAGAAGTTGGTCAACAGATCTGGTGAGGGAAGTCCCCAGGCCAGACGCTGGACTCCTGCAATGAGGGTGGAGGACTCAGCCTGGCCTCTGCCTGGCCTGTTTCAAAGTCTGGGCCACTGGCAGCCTTCTCTTGCTCAATCCGAGGTGGAAAAAGATCACCTCCCAGTGACCTCCCTCAGCCCCCAGGGGAGTAGGTCTGTGTCCAAAGCTATGTGGCAGGCTTGTTTGAAGGACCCAGAGGGGCCCAGCTGACCTGTCTCACTGCTCCTGGCAGCCCAGCCCCATCGGCAGGTGGCCCCTGCCTGGGGGTTATTCGGGATGGTTCAGCCAGGGCCTCCCAGGAAGAGTGCTGTGGAGCCACGGTGACTGTCCTGGACAGCAAGGAGCATGCTACCCCAGTGAGCACTTCTTTTTGAGGGACTTGATGGGGAGGTGGGGTAGGCAGAAGGGACGTGGCAGAAGCGGGAAGACTTTGGTCACCATGGCTCTGCAGGCCTTCTGCAAATCAGTGCTGGCCTGGGCTGGAAACAGCTCTGTGTGTGAAGGTGAGGACTCTTGGAAGCAGGCCATCCTGGCCAGACACCCTAGCAGGAAGGGGCTCACCTGTCACCCTTAGGCAGCCTGAGGGCTGGTGGGGACTTTTGAGTCTTGAGGGGATAGCGGAAAAAGCTGAGCTCATAGGTGCCCAGCCAGCCTCCCAGCTAAAGGTGCTCAGAGCCCCACTGCCCCCTCTCTCTGTGCAGGTGGCCAGTGCCCCTCCCTGCTCTGGGAGCATTGCTAGCCTTCTACCCCATCCCTGGATCCACAGGGGCTATCGAGGAGACCCAGTGAGAATGTAGCATTTTGTTCATCCCCAGGGTAGCTGCCCTGGGGTCTGGGCACTCTGCCTCTGGGAGAGAGGAAGAAGAAAGGGGCCCCATTTTTTAAAAAACTGTACAGAGCCTTTGGCTTTATGTGTTTATGTTCTTCACATGCATATGTGTGTATGTGTGTATATCTTTCCCCCCATCAATTGGTACAATTTTTAATAAAATCATTTAAAGCAAAAAAAAAAAAAAAA
>gi|47132609|ref|NM_078487.2| Homo sapiens cyclin dependent kinase inhibitor 2B (CDKN2B), transcript variant 2, mRNA
GGCTCCCCACTCTGCCAGAGCGAGGCGGGGCAGTGAGGACTCCGCGACGCGTCCGCACCCTGCGGCCAGAGCGGCTTTGAGCTCGGCTGCGTCCGCGCTAGGCGCTTTTTCCCAGAAGCAATCCAGGCGCGCCCGCTGGTTCTTGAGCGCCAGGAAAAGCCCGGAGCTAACGACCGGCCGCTCGGCCACTGCACGGGGCCCCAAGCCGCAGAAGGACGACGGGAGGGTAATGAAGCTGAGCCCAGGTCTCCTAGGAAGGAGAGAGTGCGCCGGAGCAGCGTGGGAAAGAAGGGAAGAGTGTCGTTAAGTTTACGGCCAACGGTGGATTATCCGGGCCGCTGCGCGTCTGGGGGCTGCGGAATGCGCGAGGAGAACAAGGGCATGCCCAGTGGGGGCGGCAGCGATGAGGGTCTGGCCAGCGCCGCGGCGCGGGGACTAGTGGAGAAGGTGCGACAGCTCCTGGAAGCCGGCGCGGATCCCAACGGAGTCAACCGTTTCGGGAGGCGCGCGATCCAGGTAGCTGGGGCCCCAGGGCCTCGCCGGCAGGGGGCGCGCGAACGCGGGGCGCGGCCTCGGCGGATCGGGGCTGGAACCTAGATCGCCGATGTAGATTTGTACAGGAGTCTCCGTTGGCCGGAGGTCATGATGATGGGCAGCGCCCGCGTGGCGGAGCTGCTGCTGCTCCACGGCGCGGAGCCCAACTGCGCAGACCCTGCCACTCTCACCCGACCGGTGCATGATGCTGCCCGGGAGGGCTTCCTGGACACGCTGGTGGTGCTGCACCGGGCCGGGGCGCGGCTGGACGTGCGCGATGCCTGGGGTCGTCTGCCCGTGGACTTGGCCGAGGAGCGGGGCCACCGCGACGTTGCAGGGTACCTGCGCACAGCCACGGGGGACTGACGCCAGGTTCCCCAGCCGCCCACAACGACTTTATTTTCTTACCCAATTTCCCACCCCCACCCACCTAATTCGATGAAGGCTGCCAACGGGGAGCGGCGGAAAGCCTGTAAGCCTGCAAGCCTGTCTGAGACTCACAGGAAGGAGGAGCCGACCGGGAATAACCTTCCATACATTTTTTTCTTTGTCTTATCTGGCCCTCGACACTCACCATGAAGCGAAACACAGAGAAGCGGATTTCCAGGGATATTTAGGAGTGTGTGACATTCCAGGGGTCGTTTGCTTTTCAGGGTTTTCTGAGGGAAAGTGCATATGAAATCCTTGACTGGACCTGGTGGCTACGAATCTTCCGATGGATGAATCTCCCACTCCAGCGCTGAGTGGGAGAAGGCAGTGATTAGCACTTGGGTGACGGCAGTCGATGCGTTCACTCCAATGTCTGCTGAGGAGTTATGGTGAACCCACAACTTAGGCCCTAGCGGCAGAAAGGAAAACCTGAAGACTGAGGACAAAGTGGAGGAGGGCCGAGGTGGGCTTCAGTAAGTCCCCGGCGGCGCTTTAGTTTGAGCGCATGGCAAGTCACATGCGTAAACGACACTCTCTGGAAGCCCTGGAGACCCTCGCCCAACTCCACCAGATAGCAGAGGGGTAAGAGAGGATGTGCAAGCGACGACAGATGCTAAAATCCCTGGATCACGACGCTGCAGAGCACCTTTGCACAGGATGCTGGCCTTTGCTCTTACTACACTGAGGAGAGATTCCCGCGGGTTCCGCAGGCAGACTACACAGGATGAGGTGGTGGAGTGGAGTGAGAGCAATTGTAACGGTTAACTGTAACGTTTTCTTTCACACACACACACACACACACACACACACATGCTAGGATGCGGAAATCCCCTTATGACTTGCTACTTTTTGATTTTGTGATATTTTGTACTTTTTAGTTGTTCAGCAACTGTCTTATTTAATGGGGAGATTTTAAGTAACATAACTAGTGGCTCTCAGTTAAAATGTGAGGAAGAACTACAGCTCTTAAATGTAGCAATGGCACTGTTGCAAACTCAGTGCAAACGCCTAGATTGCTTTCTTCTTAACCTATTTATTTCTTTGTTAAATTTTTCTGATTGTTTCCTTTATAGAGTGTCTCAGGGTGCAGAGGTCAGACTAAGAAATATTCCAAATGTCTTTTAGAAGATAGATGCACTTATGCAGTAAATTATCTTGGGATAGTTCCCAAAAGATTGCTGAAAAAGTAGATTGAGTATAAAAACTTGAAAATATATGATGGCTCGTGGGATGTCCTACTATCACTGAACAAACTAAAGGTGCACTGCTTTGGGATTTAATTTCCAGGGTTGCTTGATCATTATATCATTGGAACAACTGATACTTCACTACTTTAATAAAGAATTAACAGAGATTGAACTCCAAGAGGTGGGTAATTTGGTTTAAAAATACATGTTCATGGGTTTACCACTAACTCCTGAGAAATGTTAAAGGTTCACAGGGGTTCCCTTCTCTCAATGTTTGTAATAATTGCTCATAAGCAATACCAGCAATTCATAAAAACTGCTTACTTATGCCATAGAAAATTAAACACAAAGTGTATACATGTATTATGCTTCTAAATGCTCATTCTACCAGATACACATTTAAAAGAGAAAAAAGGAACAGAAACAAGTCATTTGAGAGTGGAGACTTATAAGAAGGAGTACATTTGAGTTGAATACACAAATCTTTACTTCTCTACCAATTCCTATTCCCAAAATGAACATATTACTGGGGAAAGTTAGTTGAGAATCAGAGCATATGTTATTGGGGAAAGGATATGTTTATTGACACATAATCTGTACCAGGTATGCATTAAAATATATTTGTTAATTTAATATTTAAACCTGAGAGATAGGTATTGTTTCCCAGATGAGGACAATGAGGCAAAGAAATATCAAGTAACTTGCCAAAGGTTACAAGATATTCATTCCATGGATGCACAAAGAAGTGCATCTAGTTCCACAGCTGATTATGGTTGTCTTGCTTTTCTTCCCATTGCACCAGCTTGTCCTCCAAAATCATGAATGATACACATGAAGATAACTTTTTTTAAAAAAAAGCAGAAATACACAATGATCTCCCTTGTAAGCTCCTAAGGTGGCTTTTCTTTCTCTAACTTCTAGTAAATATAAACGGTTTGTTTGAAAACTATTTTAAAATGTCAACAATATGGAGAATAACCCCCCCCAACACACCTATAAAAACCCAAATTTTTGGAACAAAGATAATGGAACCTCCATTTTCAAACTGAAGCACAGGGACAGAAAATATATTTCTAGTTATCACTTAAGCACTCAATCATTAGAGGCTACAAGAATAATATTTTTAAAGTTACAGTATTTTACAATTATTAGAAAACATTCTATATAAAAGAAGTCAGTTGATACTTTAAAATCTCCCATTTGGTTTATAAAATCCCTTAATTTGACCTCTATATCTTAAATTCCAAGATGTTTAAATTTGCTAGTTGCATTATACTGGGTCATGAAAAATTATCCCTTGAAATAGATATGAAACATGTTACTTCATTTCTGGTTTAAATAACTTGTGGAATCTTTCCTAATGACAACCTGATATTAAGGGAAACTAAAGAAAATGTTATTGTGGATCCCACAGTACTATATTACACTGTTTTTTTTGTTTGTTTTGTTAGTTTTTTTTATTTAAAGCAAACCTCAAACATTATTGGGTATCAATTACCACCTGGTTGTATTGAAATAGTAACTTATCAATGCCATGTAAAAATTAATTCCATTTTCGAAGCCACCTGGCAGACAGGTTTAGCTGTTTCATCAGCAGCCTAATATATACTGTTAAATTTGTTAAGGATTTCACTTTGAAGGATACATGCAAAACATATAGTTACTATTTTCATGAGTCCTGCTTCTAGCTCCATTGTGGAATACAGAAAATTAAATATACCTGTTAAGTTCGTATCTAAACCTAAGACATTACCAAGGTTTGTACAAATTCTACTACCTGACATTTATTCCAAGAAGATCTGGAAAGTTAAATAAATTTATAAATTTAATAACAAAAAAAAAAAAAAAAAA
>gi|47132586|ref|NM_145040.2| Homo sapiens caveolae associated protein 3 (CAVIN3), mRNA
GTTGCAGGCAGACGGAGCAGAGCGGTCAGGGATCATGAGGGAGAGTGCGTTGGAGCGGGGGCCTGTGCCCGAGGCGCCGGCGGGGGGTCCCGTGCACGCCGTGACGGTGGTGACCCTGCTGGAGAAGCTGGCCTCCATGCTGGAGACTCTGCGGGAGCGGCAGGGAGGCCTGGCTCGAAGGCAGGGAGGCCTGGCAGGGTCCGTGCGCCGCATCCAGAGCGGCCTGGGCGCTCTGAGTCGCAGCCACGACACCACCAGCAACACCTTGGCGCAGCTGCTGGCCAAGGCGGAGCGCGTGAGCTCGCACGCCAACGCCGCCCAAGAGCGCGCGGTGCGCCGCGCAGCCCAGGTGCAGCGGCTGGAGGCCAACCACGGGCTGCTGGTGGCGCGCGGGAAGCTCCACGTTCTGCTCTTCAAGGAGGAGGGTGAAGTCCCAGCCAGCGCTTTCCAGAAGGCACCAGAGCCCTTGGGCCCGGCGGACCAGTCCGAGCTGGGCCCAGAGCAGCTGGAGGCCGAAGTTGGAGAGAGCTCGGACGAGGAGCCGGTGGAGTCCAGGGCCCAGCGGCTGCGGCGCACCGGATTGCAGAAGGTACAGAGCCTCCGAAGGGCCCTTTCGGGCCGGAAAGGCCCTGCAGCGCCACCGCCCACCCCGGTCAAGCCGCCTCGCCTTGGGCCTGGCCGGAGCGCTGAAGCCCAGCCGGAAGCCCAGCCTGCGCTGGAGCCCACGCTGGAGCCAGAGCCTCCGCAGGACACCGAGGAAGATCCCGGGAGACCTGGGGCTGCCGAAGAAGCTCTGCTCCAAATGGAGAGTGTAGCCTGAGGGCTGGTGTTGCCTGCCTCCCCTGTGCTTGTGCCTTGTCCCAAAATAAATCCTTTCAGAATGTAGCACTCACGCCCTAATAAGGAGCGAATCCTACATCCACCAAGGCGGGCGCTCTGGCCCTCCCTTCCTTAAGCCCAGTCCTGTGTCCTCTGAAAGAGGTGCAGTCACTCACACCTGCTTGCGCTCACCATCAATAAAAGTAATTTCACCCGAAAA
>gi|47078259|ref|NM_004331.2| Homo sapiens BCL2 interacting protein 3 like (BNIP3L), transcript variant 1, mRNA
CGTCAGGGGCAGGGGAGGGACGGCGCAGGCGCAGAAAAGGGGGCGGCGGACTCGGCTTGTTGTGTTGCTGCCTGAGTGCCGGAGACGGTCCTGCTGCTGCCGCAGTCCTGCCAGCTGTCCGACAATGTCGTCCCACCTAGTCGAGCCGCCGCCGCCCCTGCACAACAACAACAACAACTGCGAGGAAAATGAGCAGTCTCTGCCCCCGCCGGCCGGCCTCAACAGTTCCTGGGTGGAGCTACCCATGAACAGCAGCAATGGCAATGATAATGGCAATGGGAAAAATGGGGGGCTGGAACACGTACCATCCTCATCCTCCATCCACAATGGAGACATGGAGAAGATTCTTTTGGATGCACAACATGAATCAGGACAGAGTAGTTCCAGAGGCAGTTCTCACTGTGACAGCCCTTCGCCACAAGAAGATGGGCAGATCATGTTTGATGTGGAAATGCACACCAGCAGGGACCATAGCTCTCAGTCAGAAGAAGAAGTTGTAGAAGGAGAGAAGGAAGTCGAGGCTTTGAAGAAAAGTGCGGACTGGGTATCAGACTGGTCCAGTAGACCCGAAAACATTCCACCCAAGGAGTTCCACTTCAGACACCCTAAACGTTCTGTGTCTTTAAGCATGAGGAAAAGTGGAGCCATGAAGAAAGGGGGTATTTTCTCCGCAGAATTTCTGAAGGTGTTCATTCCATCTCTCTTCCTTTCTCATGTTTTGGCTTTGGGGCTAGGCATCTATATTGGAAAGCGACTGAGCACACCCTCTGCCAGCACCTACTGAGGGAAAGGAAAAGCCCCTGGAAATGCGTGTGACCTGTGAAGTGGTGTATTGTCACAGTAGCTTATTTGAACTTGAGACCATTGTAAGCATGACCCAACCTACCACCCTGTTTTTACATATCCAATTCCAGTAACTCTCAAATTCAATATTTTATTCAAACTCTGTTGAGGCATTTTACTAACCTTATACCCTTTTTGGCCTGAAGACATTTTAGAATTTCCTAACAGAGTTTACTGTTGTTTAGAAATTTGCAAGGGCTTCTTTTCCGCAAATGCCACCAGCAGATTATAATTTTGTCAGCAATGCTATTATCTCTAATTAGTGCCACCAGACTAGACCTGTATCATTCATGGTATAAATTTTACTCTTGCAACATAACTACCATCTCTCTCTTAAAACGAGATCAGGTTAGCAAATGATGTAAAAGAAGCTTTATTGTCTAGTTGTTTTTTTTCCCCCAAGACAAAGGCAAGTTTCCCTAAGTTTGAGTTGATAGTTATTAAAAAGAAAACAAAACAAAAAAAAAAGGCAAGGCACAACAAAAAAATATCCTGGGCAATAAAAAAAATATTTTAAACCAGCTTTGGAGCCACTTTTTTGTCTAAGCCTCCTAATAGCGTCTTTTAATTTATAGGAGGCAAACTGTATAAATGATAGGTATGAAATAGAATAAGAAGTAAAATACATCAGCAGATTTTCATACTAGTATGTTGTAATGCTGTCTTTTCTATGGTGTAGAATCTTTCTTTCTGATAAGGAACGTCTCAGGCTTAGAAATATATGAAATTGCTTTTTGAGATTTTTGCGTGTGTGTTTGATATTTTTTACGATAATTAGCTGCATGTGAATTTTTCATGACCTTCTTTACATTTTTTATTTTTTATTTCTTTATTTTTTTTTCTCTAAGAAGAGGCTTTGGAATGAGTTCCAATTTGTGATGTTAATACAGGCTTCTTGTTTTAGGAAGCATCACCTATACTCTGAAGCCTTTAAACTCTGAAGAGAATTGTTTCAGAGTTATTCCAAGCACTTGTGCAACTTGGAAAAACAGACTTGGGTTGTGGGAACAGTTGACAGCGTTCTGAAAAGATGCCATTTGTTTCCTTCTGATCTCTCACTGAATAATGTTTACTGTACAGTCTTCCCAAGGTGATTCCTGCGACTGCAGGCACTGGTCATTTTCTCATGTAGCTGTCTTTTCAGTTATGGTAAACTCTTAAAGTTCAGAACACTCAACAGATTCCTTCAGTGATATACTTGTTCGTTCATTTCTAAAATGTGAAGCTTTAGGACCAAATTGTTAGAAAGCATCAGGATGACCAGTTATCTCGAGTAGATTTTCTTGGATTTCAGAACATCTAGCATGACTCTGAAGGATACCACATGTTTTATATATAAATAATTACTGTTTATGATATAGACATTGATATTGACTATTTAGAGAACCGTTGTTAATTTTAAAACTAGCAATCTATAAAGTGCACCAGGTCAACTTGAATAAAAACACTATGACAGACAGGTTTGCCAGTTTGCAGAAACTAACTCTTTTCTCACATCAACATTTGTAAAATTGATGTGTTATAGTGGAAAATAACATATAGATTAAACAAAATTTTTATCTTTTTTCAAGAATATAGCTGGCTATCTTTAAGAAAGATGATATATCCTAGTTTTGAAAGTAATTTTCTTTTTTCTTTCTAGCATTTGATGTCTAAATAATTTTGGACATCTTTTTCCTAGACCATGTTTCTGTCTTACTCTTAAACCTGGTAACACTTGATTTGCCTTCTATAACCTATTTATTTCAAGTGTTCATATTTGAATTTCTTTGGGAAGAAAGTAAATCTGATGGCTCACTGATTTTTGAAAAGCCTGAATAAAATTGGAAAGACTGGAAAGTTAGGAGAACTGACTAGCTAAACTGCTACAGTATGCAATTTCTATTACAATTGGTATTACAGGGGGGAAAAGTAAAATTACACTTTACCTGAAAGTGACTTCTTACAGCTAGTGCATTGTGCTCTTTCCAAGTTCAGCAGCAGTTCTATCAGTGGTGCCACTGAAACTGGGTATATTTATGATTTCTTTCAGCGTTAAAAAGAAACATAGTGTTGCCCTTTTTCTTAAAGCATCAGTGAAATTATGGAAAATTACTTAAAACGTGAATACATCATCACAGTAGAATTTATTATGAGAGCATGTAGTATGTATCTGTAGCCCTAACACATGGGATGAACGTTTTACTGCTACACCCAGATTTGTGTTGAACGAAAACATTGTGGTTTGGAAAGGAGAATTCAACAATTAATAGTTGAAATTGTGAGGTTAATGTTTAAAAAGCTTTACACCTGTTTACAATTTGGGGACAAAAAGGCAGGCTTCATTTTTCATATGTTTGATGAAAACTGGCTCAAGATGTTTGTAAATAGAATCAAGAGCAAAACTGCACAAACTTGCACATTGGAAAGTGCAACAAGTTCCCGTGATTGCAGTAAAAATATTTACTATTCTAAAAAAATGAGAATTGAAGACTTAGCCAGTCAGATAAGTTTTTTCATGAACCCGTTGTGGAAATTATTGGAATTAACTGAGCCAAAGTGATTATGCATTCTTCATCTATTTTAGTTAGCACTTTGTATCGTTATATACAGTTTACAATACATGTATAACTTGTAGCTATAAACATTTTGTGCCATTAAAGCTCTCACAAAACTTTAAAAA
>gi|45827732|ref|NM_003079.4| Homo sapiens SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily e, member 1 (SMARCE1), mRNA
GCTCCGGACGCGAGGGGCGGGGCGAGCGCGGGACAAAGGGAAGCGAAGCCGGAGCTGCGGGCGCTTTTTCTGCCCGCGGTGTCTCAGATTCATTCTTAAGGAACTGAGAACTTAATCTTCCAAAATGTCAAAAAGACCATCTTATGCCCCACCTCCCACCCCAGCTCCTGCAACACAAATGCCCAGCACACCAGGGTTTGTGGGATACAATCCATACAGTCATCTCGCCTACAACAACTACAGGCTGGGAGGGAACCCGGGCACCAACAGCCGGGTCACGGCATCCTCTGGTATCACGATTCCAAAACCCCCAAAGCCACCAGATAAGCCGCTGATGCCCTACATGAGGTACAGCAGAAAGGTCTGGGACCAAGTAAAGGCTTCCAACCCTGACCTAAAGTTGTGGGAGATTGGCAAGATTATTGGTGGCATGTGGCGAGATCTCACTGATGAAGAAAAACAAGAATATTTAAACGAATACGAAGCAGAAAAGATAGAGTACAATGAATCTATGAAGGCCTATCATAATTCCCCCGCGTACCTTGCTTACATAAATGCAAAAAGTCGTGCAGAAGCTGCTTTAGAGGAAGAAAGTCGACAGAGACAATCTCGCATGGAGAAAGGAGAACCGTACATGAGCATTCAGCCTGCTGAAGATCCAGATGATTATGATGATGGCTTTTCAATGAAGCATACAGCCACCGCCCGTTTCCAGAGAAACCACCGCCTCATCAGTGAAATTCTTAGTGAGAGTGTGGTGCCAGACGTTCGGTCAGTTGTCACAACAGCTAGAATGCAGGTCCTCAAACGGCAGGTCCAGTCCTTAATGGTTCATCAGCGAAAACTAGAAGCTGAACTTCTTCAAATAGAGGAACGACACCAGGAGAAGAAGAGGAAATTCCTGGAAAGCACAGATTCATTTAACAATGAACTTAAAAGGTTGTGCGGTCTGAAAGTAGAAGTGGATATGGAGAAAATTGCAGCTGAGATTGCACAGGCAGAGGAACAGGCCCGCAAAAGGCAGGAGGAAAGGGAGAAGGAGGCCGCAGAGCAAGCTGAGCGCAGTCAGAGCAGCATCGTTCCTGAGGAAGAACAAGCAGCTAACAAAGGCGAGGAGAAGAAAGACGACGAGAACATTCCGATGGAGACAGAGGAGACACACCTTGAAGAAACAACAGAGAGCCAACAGAATGGTGAAGAAGGCACGTCTACTCCTGAGGACAAGGAGAGTGGGCAGGAGGGGGTCGACAGTATGGCAGAGGAAGGAACCAGTGATAGTAACACTGGCTCGGAGAGCAACAGTGCAACAGTGGAGGAGCCACCAACAGATCCCATACCAGAAGATGAGAAAAAAGAATAAGTGTTGCCTTGTTTTGTGTGTTCTAAATACTTTTTTTAATGAAAAAATGTTTTTTGGTTTTAATGGTGTTACGTGGTTTGTGTATTAATTTTTTTTCTTGTCCATATCACACCACCAAAGGCTTTTGGACCATTTAGCATCATGAGCCTAATGGCTCAGTCAGTCACCTTTCTTAAGTGTTGTGAAGATGGCTCTTTTCTTTGGATCTTGTTTCTAGCCCTCAACTGCTGAAAGCCTCAGAATTTAGATTAATTGAGAAAACACCCACCTCTTTTAGAGAATTATCCTTTGATGCTGCAGAATCTACTCTTACAATGCCTTCCTACAGCTCACTGGGGTGCTTACCAAAGCCATAGCTTTAAACCTTCCCAGTCCCCATCAGTAGCTTCCTGAAAGTCTCCTCTCTTGTTTACTTCTGCAAAGGGTAGCTTCTTAAAAACGTGATCATGTATGAGTATGTATTTGTTCACTTACCCTTTTTTACTTTTAATCAATGTCAGATACCAAGAGTTGTGTTAAGCTGAGTGTAGTGTGTAACTAACTACACTTGGATCTTACTGATCCAGAAATAGTCCCCATAGTTAGAGTAGTTACTTATGAAGTGGTTATTAAAGTGAACACAGCACATATACATTATCTATACTGCTTTTTGTTATGATTAATACTGGGTATGTTCTGGTAAATCCATCCTTATTGTATAGAAAAAAAATTACTTTTTTACCAGGTTTTCCAAAGACAGAATAGATCACAAAGCTCAAGGAATTTAATATTCTTGTAATGGACTAGATAATTCAAACTGATTAGCCCATTCCAGAAGAAAAACAGCTGGGAATTAAGTTAATCCACTTGAAATTGTTTTACAATAATCAGAACATCCAAACCTCAAGGCTCAGGATCCCATAGACCAGAGCCCACCTTTTTGATAAACTTAGTAAAGTCTTGGAGACTAGAAGCAAGATAGTTTGTGACACATAAGCTTCCCAAAAACTAGAATAGATTTTTACTGAATAGTGGTATATCTGATGGTATATGTTTCTTAAAGGTCCAAATGTAATAAAAAAAAAA
>gi|42490759|ref|NM_201567.1| Homo sapiens cell division cycle 25A (CDC25A), transcript variant 2, mRNA
GAACAGCGAAGACAGCGTGAGCCTGGGCCGTTGCCTCGAGGCTCTCGCCCGGCTTCTCTTGCCGACCCGCCACGTTTGTTTGGATTTAATCTTCAGGTTGCCGGCGCCCGCCCGCCCGCTGGCCTCGCGGTGTGAGAGGGAAGCACCCGTGCCTGTGGCTGGTGGCTGGCGCCTGGAGGGTCCGCACACCCGCCCGGCCGCGCCGCTTGCCCGCGGCAGCCGCGTCCCTGAACCGCGGAGTCGTGTTTGTGTTTGACCCGCGGGCGCCGGTGGCGCGCGGCCGAGGCCGGTGTCGGCGGGGCGGGGCGGTCGCGGCGGAGGCAGAGGAAGAGGGAGCGGGAGCTCTGCGAGGCCGGGCGCCGCCATGGAACTGGGCCCGGAGCCCCCGCACCGCCGCCGCCTGCTCTTCGCCTGCAGCCCCCCTCCCGCGTCGCAGCCCGTCGTGAAGGCGCTATTTGGCGCTTCAGCCGCCGGGGGACTGTCGCCTGTCACCAACCTGACCGTCACTATGGACCAGCTGCAGGGTCTGGGCAGTGATTATGAGCAACCACTGGAGGTGAAGAACAACAGTAATCTGCAGAGAATGGGCTCCTCCGAGTCAACAGATTCAGGTTTCTGTCTAGATTCTCCTGGGCCATTGGACAGTAAAGAAAACCTTGAAAATCCTATGAGAAGAATACATTCCCTACCTCAGAAGCTGTTGGGATGTAGTCCAGCTCTGAAGAGGAGCCATTCTGATTCTCTTGACCATGACATCTTTCAGCTCATCGACCCAGATGAGAACAAGGAAAATCTTTCCTCAAATGAAAGAGATAGCAGTGAACCAGGGAATTTCATTCCTCTTTTTACACCCCAGTCACCTGTGACAGCCACTTTGTCTGATGAGGATGATGGCTTCGTGGACCTTCTCGATGGAGAGAATCTGAAGAATGAGGAGGAGACCCCCTCGTGCATGGCAAGCCTCTGGACAGCTCCTCTCGTCATGAGAACTACAAACCTTGACAACCGATGCAAGCTGTTTGACTCCCCTTCCCTGTGTAGCTCCAGCACTCGGTCAGTGTTGAAGAGACCAGAACGATCTCAAGAGGAGTCTCCACCTGGAAGTACAAAGAGGAGGAAGAGCATGTCTGGGGCCAGCCCCAAAGAGTCAACTAATCCAGAGAAGGCCCATGAGACTCTTCATCAGTCTTTATCCCTGGCATCTTCCCCCAAAGGAACCATTGAGAACATTTTGGACAATGACCCAAGGGACCTTATAGGAGACTTCTCCAAGGGTTATCTCTTTCATACAGTTGCTGGGAAACATCAGGATTTAAAATACATCTCTCCAGAAATTATGGCATCTGTTTTGAATGGCAAGTTTGCCAACCTCATTAAAGAGTTTGTTATCATCGACTGTCGATACCCATATGAATACGAGGGAGGCCACATCAAGGGTGCAGTGAACTTGCACATGGAAGAAGAGGTTGAAGACTTCTTATTGAAGAAGCCCATTGTACCTACTGATGGCAAGCGTGTCATTGTTGTGTTTCACTGCGAGTTTTCTTCTGAGAGAGGTCCCCGCATGTGCCGGTATGTGAGAGAGAGAGATCGCCTGGGTAATGAATACCCCAAACTCCACTACCCTGAGCTGTATGTCCTGAAGGGGGGATACAAGGAGTTCTTTATGAAATGCCAGTCTTACTGTGAGCCCCCTAGCTACCGGCCCATGCACCACGAGGACTTTAAAGAAGACCTGAAGAAGTTCCGCACCAAGAGCCGGACCTGGGCAGGGGAGAAGAGCAAGAGGGAGATGTACAGTCGTCTGAAGAAGCTCTGAGGGCGGCAGGACCAGCCAGCAGCAGCCCAAGCTTCCCTCCATCCCCCTTTACCCTCTTTGCTGCAGAGAAACTTAAGCAAAGGGGACAGCTGTGTGACATTTGGAGAGGGGGCCTGGGACTTCCATGCCTTAAACCTACCTCCCACACTCCCAAGGTTGGAGCCCAGGGCATCTTGCTGGCTACGCCTCTTCTGTCCCTGTTAGACGTCCTCCGTCCATATCAGAACTGTGCCACAATGCAGTTCTGAGCACCGTGTCAAGCTGCTCTGAGCCACAGTGGGATGAACCAGCCGGGGCCTTATCGGGCTCCAGCCATCTCATGAGGGGAGAGGAGACGGAGGGGAGTAGAGAAGTTACACAGAAATGCTGCTGGCCAAATAGCAAAGACAACCTGGGAAGGAAAGGTCTTTGTGGGATAATCCATATGTTTAATTTATTCAACTTCATCAATCACTTTATTTTATTTTTTTTTCTAACTCCTGGAGACTTATTTTACTGCTTCATTAGGTTGAAATACTGCCATTCTAGGTAGGGTTTTATTATCCCAGGGACTACCTCGGCTTTTAATTTAAAAAAAAAAAAGAAGTGGGTAAGAAAATGCAAACCTGTTATAAGTTATCGGACAGAAAGCTAGGTGCTCTGTCACCCCCAGGAGGCGCTGTGGTACTGGGGCTGCTGCTATTTAAGCCAAGAACTGAGGTCCTGGTGAGAGCGTTGGACCCAGGCTTGGCTGCCTGACATAAGCTAAATCTCCCAGACCCACCACTGGCTACCGATATCTATTTGGTGGGAGGTGTGGCCCTGTTCTTCCTCACCCCAGTTCCATGACATTGGCTGGTATAGGAGCCACAGTCAGGAAAGCACTTGAGGCAGCATCTGTTGGGCCACCCCCGGCTCAGTGCTGGAATGTTGCAGTGTAGGTTTCCCAGGGAAGGGGGGTGGGGGTAGGTGGGCTCCACAGGATGGGGGAGGAGCATGTCCACTGAGTATCTTCCTTATGTTGCTGTGATATTGATAGCTTTTATTTTCTAATTTTTAAAAAATGGTCATATTATGAGTCAAAGAGTATCAAATCAGTGTTGGATGGACCACCCAAGGGTGAGGAGAGGGGCTGGAAGCCCTGGGCATTAGGAGAAGGGAGTGGGTGCTGGCATGGACATGACTGGATAGAATTTTCTCAGGAGGGAGCTTGGTGGATTTTGAAGGTAAAACTTTCTGGGTTTATCATGTTTTAATTTTAGAGACAGGGAGTGATGAATCATCACCGGTTGTCCCCTTATCTAACTCCATAAAAGTGGGAATTTCAAAAGAACACCTCATCCAAGGAGCTGGGGCAGACTTCATTGATTCTAGAGAGACCTGTTTCAGTGCCTACTCATCCCTGCCCTCTGGTGCCAGCCTCCTTACCATCACGGCTTCACTGAGGTGTAGGTGGGTTTTTCTTAAACAGGAGACAGTCTCTCCCCTCTTACCTCAACTTCTTGGGGTGGGAATCAGTGATACTGGAGATGGCTAGTTGCTGTGTTACGGGTTTGAGTTACATTTGGCTATAAAACAATCTTGTTGGGAAAAATGTGGGGGAGAGGACTTCTTCCTACACGCGCATTGAGACAGATTCCAACTGGTTAATGATATTGTTTGTAAGAAAGAGATTCTGTTGGTTGACTGCCTAAAGAGAAAGGTGGGATGGCCTTCAGATTATACCAGCTTAGCTAGCATTACTAACCAACTGTTGGAAGCTCTGAAAATAAAAGATCTTGAACCCATAAAAAAAAAAA
>gi|42490757|ref|NM_001789.2| Homo sapiens cell division cycle 25A (CDC25A), transcript variant 1, mRNA
GAACAGCGAAGACAGCGTGAGCCTGGGCCGTTGCCTCGAGGCTCTCGCCCGGCTTCTCTTGCCGACCCGCCACGTTTGTTTGGATTTAATCTTCAGGTTGCCGGCGCCCGCCCGCCCGCTGGCCTCGCGGTGTGAGAGGGAAGCACCCGTGCCTGTGGCTGGTGGCTGGCGCCTGGAGGGTCCGCACACCCGCCCGGCCGCGCCGCTTGCCCGCGGCAGCCGCGTCCCTGAACCGCGGAGTCGTGTTTGTGTTTGACCCGCGGGCGCCGGTGGCGCGCGGCCGAGGCCGGTGTCGGCGGGGCGGGGCGGTCGCGGCGGAGGCAGAGGAAGAGGGAGCGGGAGCTCTGCGAGGCCGGGCGCCGCCATGGAACTGGGCCCGGAGCCCCCGCACCGCCGCCGCCTGCTCTTCGCCTGCAGCCCCCCTCCCGCGTCGCAGCCCGTCGTGAAGGCGCTATTTGGCGCTTCAGCCGCCGGGGGACTGTCGCCTGTCACCAACCTGACCGTCACTATGGACCAGCTGCAGGGTCTGGGCAGTGATTATGAGCAACCACTGGAGGTGAAGAACAACAGTAATCTGCAGAGAATGGGCTCCTCCGAGTCAACAGATTCAGGTTTCTGTCTAGATTCTCCTGGGCCATTGGACAGTAAAGAAAACCTTGAAAATCCTATGAGAAGAATACATTCCCTACCTCAGAAGCTGTTGGGATGTAGTCCAGCTCTGAAGAGGAGCCATTCTGATTCTCTTGACCATGACATCTTTCAGCTCATCGACCCAGATGAGAACAAGGAAAATGAAGCCTTTGAGTTTAAGAAGCCAGTAAGACCTGTATCTCGTGGCTGCCTGCACTCTCATGGACTCCAGGAGGGTAAAGATCTCTTCACACAGAGGCAGAACTCTGCCCCAGCTCGGATGCTTTCCTCAAATGAAAGAGATAGCAGTGAACCAGGGAATTTCATTCCTCTTTTTACACCCCAGTCACCTGTGACAGCCACTTTGTCTGATGAGGATGATGGCTTCGTGGACCTTCTCGATGGAGAGAATCTGAAGAATGAGGAGGAGACCCCCTCGTGCATGGCAAGCCTCTGGACAGCTCCTCTCGTCATGAGAACTACAAACCTTGACAACCGATGCAAGCTGTTTGACTCCCCTTCCCTGTGTAGCTCCAGCACTCGGTCAGTGTTGAAGAGACCAGAACGATCTCAAGAGGAGTCTCCACCTGGAAGTACAAAGAGGAGGAAGAGCATGTCTGGGGCCAGCCCCAAAGAGTCAACTAATCCAGAGAAGGCCCATGAGACTCTTCATCAGTCTTTATCCCTGGCATCTTCCCCCAAAGGAACCATTGAGAACATTTTGGACAATGACCCAAGGGACCTTATAGGAGACTTCTCCAAGGGTTATCTCTTTCATACAGTTGCTGGGAAACATCAGGATTTAAAATACATCTCTCCAGAAATTATGGCATCTGTTTTGAATGGCAAGTTTGCCAACCTCATTAAAGAGTTTGTTATCATCGACTGTCGATACCCATATGAATACGAGGGAGGCCACATCAAGGGTGCAGTGAACTTGCACATGGAAGAAGAGGTTGAAGACTTCTTATTGAAGAAGCCCATTGTACCTACTGATGGCAAGCGTGTCATTGTTGTGTTTCACTGCGAGTTTTCTTCTGAGAGAGGTCCCCGCATGTGCCGGTATGTGAGAGAGAGAGATCGCCTGGGTAATGAATACCCCAAACTCCACTACCCTGAGCTGTATGTCCTGAAGGGGGGATACAAGGAGTTCTTTATGAAATGCCAGTCTTACTGTGAGCCCCCTAGCTACCGGCCCATGCACCACGAGGACTTTAAAGAAGACCTGAAGAAGTTCCGCACCAAGAGCCGGACCTGGGCAGGGGAGAAGAGCAAGAGGGAGATGTACAGTCGTCTGAAGAAGCTCTGAGGGCGGCAGGACCAGCCAGCAGCAGCCCAAGCTTCCCTCCATCCCCCTTTACCCTCTTTGCTGCAGAGAAACTTAAGCAAAGGGGACAGCTGTGTGACATTTGGAGAGGGGGCCTGGGACTTCCATGCCTTAAACCTACCTCCCACACTCCCAAGGTTGGAGCCCAGGGCATCTTGCTGGCTACGCCTCTTCTGTCCCTGTTAGACGTCCTCCGTCCATATCAGAACTGTGCCACAATGCAGTTCTGAGCACCGTGTCAAGCTGCTCTGAGCCACAGTGGGATGAACCAGCCGGGGCCTTATCGGGCTCCAGCCATCTCATGAGGGGAGAGGAGACGGAGGGGAGTAGAGAAGTTACACAGAAATGCTGCTGGCCAAATAGCAAAGACAACCTGGGAAGGAAAGGTCTTTGTGGGATAATCCATATGTTTAATTTATTCAACTTCATCAATCACTTTATTTTATTTTTTTTTCTAACTCCTGGAGACTTATTTTACTGCTTCATTAGGTTGAAATACTGCCATTCTAGGTAGGGTTTTATTATCCCAGGGACTACCTCGGCTTTTAATTTAAAAAAAAAAAAGAAGTGGGTAAGAAAATGCAAACCTGTTATAAGTTATCGGACAGAAAGCTAGGTGCTCTGTCACCCCCAGGAGGCGCTGTGGTACTGGGGCTGCTGCTATTTAAGCCAAGAACTGAGGTCCTGGTGAGAGCGTTGGACCCAGGCTTGGCTGCCTGACATAAGCTAAATCTCCCAGACCCACCACTGGCTACCGATATCTATTTGGTGGGAGGTGTGGCCCTGTTCTTCCTCACCCCAGTTCCATGACATTGGCTGGTATAGGAGCCACAGTCAGGAAAGCACTTGAGGCAGCATCTGTTGGGCCACCCCCGGCTCAGTGCTGGAATGTTGCAGTGTAGGTTTCCCAGGGAAGGGGGGTGGGGGTAGGTGGGCTCCACAGGATGGGGGAGGAGCATGTCCACTGAGTATCTTCCTTATGTTGCTGTGATATTGATAGCTTTTATTTTCTAATTTTTAAAAAATGGTCATATTATGAGTCAAAGAGTATCAAATCAGTGTTGGATGGACCACCCAAGGGTGAGGAGAGGGGCTGGAAGCCCTGGGCATTAGGAGAAGGGAGTGGGTGCTGGCATGGACATGACTGGATAGAATTTTCTCAGGAGGGAGCTTGGTGGATTTTGAAGGTAAAACTTTCTGGGTTTATCATGTTTTAATTTTAGAGACAGGGAGTGATGAATCATCACCGGTTGTCCCCTTATCTAACTCCATAAAAGTGGGAATTTCAAAAGAACACCTCATCCAAGGAGCTGGGGCAGACTTCATTGATTCTAGAGAGACCTGTTTCAGTGCCTACTCATCCCTGCCCTCTGGTGCCAGCCTCCTTACCATCACGGCTTCACTGAGGTGTAGGTGGGTTTTTCTTAAACAGGAGACAGTCTCTCCCCTCTTACCTCAACTTCTTGGGGTGGGAATCAGTGATACTGGAGATGGCTAGTTGCTGTGTTACGGGTTTGAGTTACATTTGGCTATAAAACAATCTTGTTGGGAAAAATGTGGGGGAGAGGACTTCTTCCTACACGCGCATTGAGACAGATTCCAACTGGTTAATGATATTGTTTGTAAGAAAGAGATTCTGTTGGTTGACTGCCTAAAGAGAAAGGTGGGATGGCCTTCAGATTATACCAGCTTAGCTAGCATTACTAACCAACTGTTGGAAGCTCTGAAAATAAAAGATCTTGAACCCATAAAAAAAAAAA
>gi|40806168|ref|NM_014946.3| Homo sapiens spastin (SPAST), transcript variant 1, mRNA
GGCCCGAGCCACCGACTGCAGGAGGAGAAGGGGTTGTGCTCCTGGCCGAGGAAGGAGAAAGGGGCGGGGCCGGCGGGCAGCGTGCGGCAGTGCGGAGCTCCTGAGACCGGCGGGCACACGGGGGTCTGTGGCCCCCGCCGTAGCAGTGGCTGCCGCCGTCGCTTGGTTCCCGTCGGTCTGCGGGAGGCGGGTTATGGCGGCGGCGGCAGTGAGAGCTGTGAATGAATTCTCCGGGTGGACGAGGGAAGAAGAAAGGCTCCGGCGGCGCCAGCAACCCGGTGCCTCCCAGGCCTCCGCCCCCTTGCCTGGCCCCCGCCCCTCCCGCCGCCGGGCCGGCCCCTCCGCCCGAGTCGCCGCATAAGCGGAACCTGTACTATTTCTCCTACCCGCTGTTTGTAGGCTTCGCGCTGCTGCGTTTGGTCGCCTTCCACCTGGGGCTCCTCTTCGTGTGGCTCTGCCAGCGCTTCTCCCGCGCCCTCATGGCAGCCAAGAGGAGCTCCGGGGCCGCGCCAGCACCTGCCTCGGCCTCGGCCCCGGCGCCGGTGCCGGGCGGCGAGGCCGAGCGCGTCCGAGTCTTCCACAAACAGGCCTTCGAGTACATCTCCATTGCCCTGCGCATCGATGAGGATGAGAAAGCAGGACAGAAGGAGCAAGCTGTGGAATGGTATAAGAAAGGTATTGAAGAACTGGAAAAAGGAATAGCTGTTATAGTTACAGGACAAGGTGAACAGTGTGAAAGAGCTAGACGCCTTCAAGCTAAAATGATGACTAATTTGGTTATGGCCAAGGACCGCTTACAACTTCTAGAGAAGATGCAACCAGTTTTGCCATTTTCCAAGTCACAAACGGACGTCTATAATGACAGTACTAACTTGGCATGCCGCAATGGACATCTCCAGTCAGAAAGTGGAGCTGTTCCAAAAAGAAAAGACCCCTTAACACACACTAGTAATTCACTGCCTCGTTCAAAAACAGTTATGAAAACTGGATCTGCAGGCCTTTCAGGCCACCATAGAGCACCTAGTTACAGTGGTTTATCCATGGTTTCTGGAGTGAAACAGGGATCTGGTCCTGCTCCTACCACTCATAAGGGTACTCCGAAAACAAATAGGACAAATAAACCTTCTACCCCTACAACTGCTACTCGTAAGAAAAAAGACTTGAAGAATTTTAGGAATGTGGACAGCAACCTTGCTAACCTTATAATGAATGAAATTGTGGACAATGGAACAGCTGTTAAATTTGATGATATAGCTGGTCAAGACTTGGCAAAACAAGCATTGCAAGAAATTGTTATTCTTCCTTCTCTGAGGCCTGAGTTGTTCACAGGGCTTAGAGCTCCTGCCAGAGGGCTGTTACTCTTTGGTCCACCTGGGAATGGGAAGACAATGCTGGCTAAAGCAGTAGCTGCAGAATCGAATGCAACCTTCTTTAATATAAGTGCTGCAAGTTTAACTTCAAAATACGTGGGAGAAGGAGAGAAATTGGTGAGGGCTCTTTTTGCTGTGGCTCGAGAACTTCAACCTTCTATAATTTTTATAGATGAAGTTGATAGCCTTTTGTGTGAAAGAAGAGAAGGGGAGCACGATGCTAGTAGACGCCTAAAAACTGAATTTCTAATAGAATTTGATGGTGTACAGTCTGCTGGAGATGACAGAGTACTTGTAATGGGTGCAACTAATAGGCCACAAGAGCTTGATGAGGCTGTTCTCAGGCGTTTCATCAAACGGGTATATGTGTCTTTACCAAATGAGGAGACAAGACTACTTTTGCTTAAAAATCTGTTATGTAAACAAGGAAGTCCATTGACCCAAAAAGAACTAGCACAACTTGCTAGAATGACTGATGGATACTCAGGAAGTGACCTAACAGCTTTGGCAAAAGATGCAGCACTGGGTCCTATCCGAGAACTAAAACCAGAACAGGTGAAGAATATGTCTGCCAGTGAGATGAGAAATATTCGATTATCTGACTTCACTGAATCCTTGAAAAAAATAAAACGCAGCGTCAGCCCTCAAACTTTAGAAGCGTACATACGTTGGAACAAGGACTTTGGAGATACCACTGTTTAAGGAAATACCTTTGTAAACCTGCAGAACATTTTACTTAAAAGAGGAAACACAAGATCTTCAATGAACGTCATCGGCTACAGAAACAGCCTAAGTTTACAGGACTTTTTAGAGTCTTACATATTTGTGCACCAAACTTGAAGATGAACCAGAAAACAGACTTAAACAAAATATACAATGCAAATGTAATTTTTTGTTGTTTAAGGCCTTGCCTTGATGGTCACAGTTATCCCAATGGACACTAAGTTAGAGCACAACAAAACCTGATTCTGGTCTTCTTTACCAATATAATCATAATGTAAATAATAATTTGTATATTGTGTTGCAGATGAAAGTATTCCAGGAACAGTGAATGGTAGAAGACACAAGAACATTTGTTTGTTTGTCTTCTGATGTTTTTTCTTAAAATAGTAATTTCTCCTACTTTTCTTTTCTACTGTTGTCTTAACTACAGGTGATTGGAATGCCAAACACTCTTAAGTTTATTTTCTTTTTTCGTTTTATAAATTCAGTGTGCCAAATGAAACTTTTTTCCTAAGTAACTGTAATAGGAAAAAGTTTATTTTGAGAGTTTCTTCTTCATAAATCTACAGACATTAAACAATTGTTGTGTTCTTTTTACCTTTTATTTTTCTATTACCTTGCTACCAAACAGTTTAGATAGCAATATAATAGCAAAAAAGCAAATATGGTAAAATAGAGAAGGTTTGAAGGTTTGAGTTACTCTGTCATATAACATGTAGATCAGTCTTCATGTGACCTGCAGTATTTTTTTTTCTAATGTATTTGTCAGAAATCTGTTGTAGACTGTTAACTTCTTCCTGATGGAATTTATTTTCTGCAAGAATTATTCTGATATTTAAGAGAGCCAATTTTAACTGCTGTGAAAATGTTTCCAGTGCAAGAGAAGGGAAATACTAGGAACTAAGACATTTCTAATTTATTGCTTATTACTTTCTTAATTTTACAGGATAATTATAAGCAAGTGGAACTACCATCTTTTATTCTTAATAATTATTAATCCCTTCAATGAAACTTTAAAAAAACTGAATTTTTATACATGGCATACATTTTTCTAGTTCCTTCTGCTTGCTTTATTAACTCAAAAGTTCTAGTTCTAGTCTGTTGATCTGCCTTTTGTTCTCCCAAAATGTACAGTAATTCCATTTGTTTGTATAAATATGCCTGGATTTTCATTATAAAAATGTCATTGTAGGGAGTAGAGACTCATATCATGGCCTTTTAAATATTGTAATAAAGGCAAATAGATATTTGCCCTTAGTTTACTGGTTAAAAGTTTGTTTACAGAACTTTTCTCTGGTGCTTAAATGATGCTATGTAAAATGTCATGAGTGGAAAGAATATTTGTAGTAGTAACAAGAATTTTTCATTTAGGAAAGATTTCTTAGGTTTTGAAAGAATACATTAAAATAAAAAACTTGCCCCTACTAGGTAAGAACTTTATAATGAAGACATACATTCTTCTTAATTTTACTCTTGCTCTTGTTAAAGATTTGTTTGAATATAGAAGATGCATGATTTCTGGGTTTTTTTTTTTTTTTGAGACAGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGCGCAATCTCGACTCACCACAACCTCCGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCATGCGCCACTACCCCAGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGCCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACTGCGCCCAGCCAGAAGATGCATGATTTCTTAGGATCATATGCTGTTTGTAGCCATAAGGTAAATCATGTCTCTTCCAATCATGACTTTGGAACTCCCTGAATAATAAAAATGAGAGTTGAGATAAATAGGGGAAAAAAAATTTTTTTCAAGCCAGAGCTATGCATATGTTAGGTGATGGGTAGTATCCCTTTAAGGTCTCAAACATTACAACATCAATTATGAAATACTGATAACGAAAGGTAGTAATGAAATATATATGATGAAAAGAATTGAGAAGTTCTAAATTAAGACATTTCAGTTAAGCTCATAAAATTTCATTGTTTTCATTTAAAAGATTAACGTTATTGATACTTGGATAACTGGCTAATCATATTAAAGGACTATGTGGTTCCAGCTCAACTTTTAATATATTGTCTCCTTTAAAACTATCATGGTTATAATTCTATTGGGAAAGACTTTTAGATAACAAAGATTTCAAATGTTAAAAGAGATAAAAGTCAGGTTAATACTATCTTAAACACTGAGTCAGAAAATCATTACTGTATAGAAGTTGCTTTCCTGATCAAGTCTGAACTTCAGCTAGTGCTAGAGAACTATTTTCTATGACTTAACTCTAACCAAGTTTTATTTTAAGCTGTTTCTTTGATAGAAGGGCCATGAAAATAGAGTAATGATATAGTAGGAGATAAGGGATTGGTTTGGTCTTTTTCAATAAAGATAGAAGTTGCTGAAGTTTTCTGAATTAATAATGACTTAGATTGTGACCTTTTAGATTCGGTGTTGAGCTCTGTGTTGTATTACTTCCTAAAAGATAATGCTTAAACATTAAGCATTAGTGTGCTCTTCATGTTAATATGGCAGAGTTTTGTAAACTAAATTAAAACTTACTGATATATTGGACTTTGAGCCAAGGGAAAGAATGAGTACTATCTTTCCAGATATCTTAAGGGTAAAAGCTTATTCTAAGACAGTCTGTCCATTGAGAATATTAGATTTCTGACTTGCAAATATGTTTGTACTCCAGAAGAATTAGAGGAAAAGCAGATACTAGAATTCTAATTTAATTACATATACAGCCGTCTTTGTTTATAGTGTAGAATTCTTTATATTTTGTACAAAAACTAATTCTTTTGGTAAAATGAACCATTTACAGTTCGGTTTTGGACTCTGAGTCAAAGGATTTTCCTTTAAATGCTTGTCTCAATTTTAGTCTGGTCTTTTGTACTTTTCTTCAGAAGAAATGAATTAAAGGGTACAGTTGCATAAAGTGGGTTTTTATCCTAATGTATTGGAAATAAATGATAAACTTTAAAAAAAAA
>gi|33598947|ref|NM_002660.2| Homo sapiens phospholipase C gamma 1 (PLCG1), transcript variant 1, mRNA
GAGCCGCCGCCGGGTCCCGCTCGTCTGCCGCCTCAGCCTCAGCCCCAACCTCAGCCGCCGCCGTTGCGCTTGCTCCCGGGCGGTCCTGGCCTGTGCCGCCGCCGCCCCCAGCGTCGGAGCCATGGCGGGCGCCGCGTCCCCTTGCGCCAACGGCTGCGGGCCCGGCGCGCCCTCGGACGCCGAGGTGCTGCACCTCTGCCGCAGCCTCGAGGTGGGCACCGTCATGACTTTGTTCTACTCCAAGAAGTCGCAGCGACCCGAGCGGAAGACCTTCCAGGTCAAGCTGGAGACGCGCCAGATCACGTGGAGCCGGGGCGCCGACAAGATCGAGGGGGCCATTGACATTCGTGAAATTAAGGAGATCCGCCCAGGGAAGACCTCACGGGACTTTGATCGCTATCAAGAGGACCCAGCTTTCCGGCCGGACCAGTCACATTGCTTTGTCATTCTCTATGGAATGGAATTTCGCCTGAAAACGCTGAGCCTGCAAGCCACATCTGAGGATGAAGTGAACATGTGGATCAAGGGCTTAACTTGGCTGATGGAGGATACATTGCAGGCACCCACACCCCTGCAGATTGAGAGGTGGCTCCGGAAGCAGTTTTACTCAGTGGATCGGAATCGTGAGGATCGTATATCAGCCAAGGACCTGAAGAACATGCTGTCCCAGGTCAACTACCGGGTCCCCAACATGCGCTTCCTCCGAGAGCGGCTGACGGACCTGGAGCAGCGCAGCGGGGACATCACCTACGGGCAGTTTGCTCAGCTGTACCGCAGCCTCATGTACAGCGCCCAGAAGACGATGGACCTCCCCTTCTTGGAAGCCAGTACTCTGAGGGCTGGGGAGCGGCCGGAGCTTTGCCGAGTGTCCCTTCCTGAGTTCCAGCAGTTCCTTCTTGACTACCAGGGGGAGCTGTGGGCTGTTGATCGCCTCCAGGTGCAGGAGTTCATGCTCAGCTTCCTCCGAGACCCCTTACGAGAGATCGAGGAGCCATACTTCTTCCTGGATGAGTTTGTCACCTTCCTGTTCTCCAAAGAGAACAGTGTGTGGAACTCGCAGCTGGATGCAGTATGCCCGGACACCATGAACAACCCTCTTTCCCACTACTGGATCTCCTCCTCGCACAACACGTACCTGACCGGGGACCAGTTCTCCAGTGAGTCCTCCTTGGAAGCCTATGCTCGCTGCCTGCGGATGGGCTGTCGCTGCATTGAGTTGGACTGCTGGGACGGCCCGGATGGGATGCCAGTTATTTACCATGGGCACACCCTTACCACCAAGATCAAGTTCTCAGATGTCCTGCACACCATCAAGGAGCATGCCTTTGTGGCCTCAGAGTACCCAGTCATCCTGTCCATTGAGGACCACTGCAGCATTGCCCAGCAGAGAAACATGGCCCAATACTTCAAGAAGGTGCTGGGGGACACACTCCTCACCAAGCCCGTGGAGATCTCTGCCGACGGGCTCCCCTCACCCAACCAGCTTAAGAGGAAGATCCTCATCAAGCACAAGAAGCTGGCTGAGGGCAGTGCCTACGAGGAGGTGCCTACATCCATGATGTACTCTGAGAACGACATCAGCAACTCTATCAAGAATGGCATCCTCTACCTGGAGGACCCTGTGAACCACGAATGGTATCCCCACTACTTTGTTCTGACCAGCAGCAAGATCTACTACTCTGAGGAGACCAGCAGTGACCAGGGCAACGAGGATGAGGAGGAGCCCAAGGAGGTCAGCAGCAGCACAGAGCTGCACTCCAATGAGAAGTGGTTCCATGGGAAGCTAGGGGCAGGGCGTGACGGGCGTCACATCGCTGAGCGCCTGCTTACTGAGTACTGCATCGAGACCGGAGCCCCTGACGGCTCCTTCCTCGTGCGAGAGAGTGAGACCTTCGTGGGCGACTACACGCTCTCTTTCTGGCGGAACGGGAAAGTCCAGCACTGCCGTATCCACTCCCGGCAAGATGCTGGGACCCCCAAGTTCTTCTTGACAGACAACCTCGTCTTTGACTCCCTCTATGACCTCATCACGCACTACCAGCAGGTGCCCCTGCGCTGTAATGAGTTTGAGATGCGACTTTCAGAGCCTGTCCCACAGACCAACGCCCACGAGAGCAAAGAGTGGTACCACGCGAGCCTGACCAGAGCACAGGCTGAGCACATGCTAATGCGCGTCCCTCGTGATGGGGCCTTCCTGGTGCGGAAGCGGAATGAACCCAACTCATATGCCATCTCTTTCCGGGCTGAGGGCAAGATCAAGCATTGCCGTGTCCAGCAAGAGGGCCAGACAGTGATGCTAGGGAACTCGGAGTTCGACAGCCTTGTTGACCTCATCAGCTACTATGAGAAACACCCGCTATACCGCAAGATGAAGCTGCGCTATCCCATCAACGAGGAGGCACTGGAGAAGATTGGCACAGCTGAGCCTGACTACGGGGCCCTGTATGAGGGACGCAACCCTGGCTTCTATGTAGAGGCAAACCCTATGCCAACTTTCAAGTGTGCAGTCAAAGCCCTCTTTGACTACAAGGCCCAGAGGGAGGACGAGCTGACCTTCATCAAGAGCGCCATCATCCAGAATGTGGAGAAGCAAGAGGGAGGCTGGTGGCGAGGGGACTACGGAGGGAAGAAGCAGCTGTGGTTCCCATCAAACTACGTGGAAGAGATGGTCAACCCCGTGGCCCTGGAGCCGGAGAGGGAGCACTTGGACGAGAACAGCCCCCTAGGGGACTTGCTGCGGGGGGTCTTGGATGTGCCGGCTTGTCAGATTGCCATCCGTCCTGAGGGCAAGAACAACCGGCTCTTCGTCTTCTCCATCAGCATGGCGTCGGTGGCCCACTGGTCCCTGGATGTTGCTGCCGACTCACAGGAGGAGCTGCAGGACTGGGTGAAAAAGATCCGTGAAGTGGCCCAGACAGCAGACGCCAGGCTCACTGAAGGGAAGATAATGGAACGGAGGAAGAAGATTGCCCTGGAGCTCTCTGAACTTGTCGTCTACTGCCGGCCTGTTCCCTTTGATGAAGAGAAGATTGGCACAGAACGTGCTTGCTACCGGGACATGTCATCCTTCCCGGAAACCAAGGCTGAGAAATACGTGAACAAGGCCAAAGGCAAGAAGTTCCTTCAGTACAATCGACTGCAGCTCTCCCGCATCTACCCCAAGGGCCAGCGACTGGATTCCTCCAACTACGATCCTTTGCCCATGTGGATCTGTGGCAGTCAGCTTGTGGCCCTCAACTTCCAGACCCCTGACAAGCCTATGCAGATGAACCAGGCCCTCTTCATGACGGGCAGGCACTGTGGCTACGTGCTGCAGCCAAGCACCATGCGGGATGAGGCCTTCGACCCCTTTGACAAGAGCAGCCTCCGCGGGCTGGAGCCATGTGCCATCTCTATTGAGGTGCTGGGGGCCCGACATCTGCCAAAGAATGGCCGAGGCATTGTGTGTCCTTTTGTGGAGATTGAGGTGGCTGGAGCTGAGTATGACAGCACCAAGCAGAAGACAGAGTTTGTGGTGGACAATGGACTCAACCCTGTATGGCCAGCCAAGCCCTTCCACTTCCAGATCAGTAACCCTGAATTTGCCTTTCTGCGCTTCGTGGTGTATGAGGAAGACATGTTTAGTGACCAGAATTTCCTGGCTCAGGCTACTTTCCCAGTAAAAGGCCTGAAGACAGGATACAGAGCAGTGCCTTTGAAGAACAACTACAGTGAGGACCTGGAGTTGGCCTCCCTGCTGATCAAGATTGACATTTTCCCTGCCAAGCAGGAGAATGGTGACCTCAGTCCCTTCAGTGGTACGTCCCTGCGGGAGCGGGGCTCAGATGCCTCAGGCCAGCTGTTTCATGGCCGAGCCCGGGAAGGCTCCTTTGAATCCCGCTACCAGCAGCCGTTTGAGGACTTCCGCATCTCCCAGGAGCATCTCGCAGACCATTTTGACAGTCGAGAACGAAGGGCCCCAAGAAGGACTCGGGTCAATGGAGACAACCGCCTCTAGTTGTACCCCAGCCTCGTTGGAGAGCAGCAGGTGCTGTGCGCCTTGTAGAATGCCGCGAACTGGGTTCTTTGGAAGCAGCCCCCTGTGGCGGCCTTCCGGGTCTCGCAGCCTGAAGCCTGGATTCCAGCAGTGAATGCTAGACAGAAACCAAGCCATTAATGAGATGTTATTACTGTTTTGGGCCTCCATGCCCCAGCTCTGGATGAAGGCAAAAACTGTACTGTGTTTCGCATTAAGCACACACATCTGGCCCTGACTTCTGGAGATGGATCCTTCCATCTTGTGGGGCCAGGACCATGGCCGAAGCCCCTTGGAGAGAGAGGCTGCCTCAGCCAGTGGCACAGGAGACTCCAAGGAGCTACTGACATTCCTAAGAGTGGAGGAGGAGGAGGAGCCTTGCTGGGCCAGGGAAACAAAGTTTACATTGTCCTGTAGCTTTAAAACCACAGCTGGGCAGGGTGAGAAGCTAGATGCCCCTGCAGTTTGGCCCTGGAGCCAGGGCAGAGGAATGTAGGGCCTGCATGGAGAAGGGTTCTGCCCTGCCTGAGGAGGAGGACACAGCACAAGGGCACATTGCCCATGGCTGGGAACATGACCCAGCCTGAAAGATACAGGGGATCATGTTAAAAATAGCAGTATTATTTTTCGTCTCAATGGTATTGTAACTAAGTTATTTACTCCTCCTGCTCCTCACCCCTGTAGGGAAACCTTGGAGAGGAGAGTGGCAGGTGGGCTGCCTGCTGTGTTAAGAGGACTTAGTTTGTGATGTAAGGCACTGTCAGGAATGGGGGGCGGGCCAGGGTGGGAAGAGAAGAAATAGCAGAGCCTATTTTGGTGAGGTTTTTTGTTTTTAAGTCAAAGAAGACTCAGTATGCTTTCCCTGAGGAATGAAAAAGGGATTGAGGAGTTGCCTGACTCCTGGGTGGGTGGGGTACAGGCAGTTAGGTGCTGAATGAAGCTGCCATCCTTGCTGCAGCTTCTAACTGGTAAAAAGATCCAGGGATGGAGATGGGAAGGTTAGAAAGGCAGCCCTCACCTCTGAGGACAGAGGCCGGGGTCCAGGCCCGTGGGCGCAAAGGTGCCTCATAGCATAGCCAGCATTCAGCACACACAAACCTACTGCCCACATTTGGGCTCAGGGTTGGCCATTTGCTAGTTCTGCTGCCCTCTTAAGATCTGACTGCCAAATAAATCATCCTCATGTCCTT
>gi|31880782|ref|NM_015946.4| Homo sapiens pelota mRNA surveillance and ribosome rescue factor (PELO), mRNA
GATTTGGCCCGGAGAACGAGATCACCCTCTCAATGAAAGGCAGATGTCCCTTTAAGGTTTGCTTCTACAGCCCGTGGACTTTAGCCTAAACACGGACCCGCGAAGCTGGCTTTATTTGTCCATGTCTCGGACAGAGCCTGGGAAGCTGCCAGTGAGATTTCAGAGACCAAGAGCGCGAAGGGGCGGGCGATGTGGCAATCCGTCTGGGATGTGAAAAGCGTGGAGCGCATTTAGAGGAATTCGACGAAAACACAGGAAATCACTCCTCTCCCGCTCCTGGGCGCCGCTGCCACTGGGGCAGAGGACTGGGAACCGCGGCAGCGGGATAAGTGGCCCAGCCAGAGAGCGCAGCTCCCGCGCCCGGTCCTGCCCTGCGAACCAGCGCGGCCCCCTGGCGCTGAGGCTGCTCCGGCCATGGCCCCTCGGCCCCGCGCCCGCCCAGGGGTCGCTGTCGCCTGCTGCTGGCTCCTCACTGACAGGGATGGAAGAGAAAACTTAGGAAGTTGAAGTTTGGCATTAAAATAAAGGACTCGCCACCACTCTGTGCACCTTCTTGAGGGAGTTCATTCGTCCGGAGCGCCTCACAGCTTAGTGCGCCTGCGCACGCGCGAACTGCGGCCCCGCCTCTCCTTTGGGGACGGGAGACGTGCGTCGGGTCGCGGGACGGGGGCTGCGCATGCGCCTTCATTTCGTCAGCCCGCTGTTGCGTGCTGCCAGCGGGAACTGTGTAGGGGTAGATTTTCGCTGCAGTGTTCCCCGAGCCTGTTAGACGCAGCGCGCCGGGAGACTGAGAGAGGAAAGGATAGAGGAAGTGCTGCCCTAGGCTGCATGAGTCGAAGCAAGCGTGTTTCCTTCCCGCCAGGCAAGTGCCCTTAGAAACCGGGCCCCGCCCCCTTCCTGGCCTGCATTCCCATCCCCTCTCCCGGGGCGGAGGTGAGGACCTCCTTGGTTCCTTTGGTTCTGTCAGTGAGCCCCTTCCTTGGCCATGAAGCTCGTGAGGAAGAACATCGAGAAGGACAATGCGGGCCAGGTGACCCTGGTCCCCGAGGAGCCTGAGGACATGTGGCACACTTACAACCTCGTGCAGGTGGGCGACAGCCTGCGCGCCTCCACCATCCGCAAGGTACAGACAGAGTCCTCCACGGGCAGCGTGGGCAGCAACCGGGTCCGCACTACCCTCACTCTCTGCGTGGAGGCCATCGACTTCGACTCTCAAGCCTGCCAGCTGCGGGTTAAGGGGACCAACATCCAAGAGAATGAGTATGTCAAGATGGGGGCTTACCACACCATCGAGCTGGAGCCCAACCGCCAGTTCACCCTGGCCAAGAAGCAGTGGGATAGTGTGGTACTGGAGCGCATCGAGCAGGCCTGTGACCCAGCCTGGAGCGCTGATGTGGCGGCTGTGGTCATGCAGGAAGGCCTCGCCCATATCTGCTTAGTCACTCCCAGCATGACCCTCACTCGGGCCAAGGTGGAGGTGAACATCCCTAGGAAAAGGAAAGGCAATTGCTCTCAGCATGACCGGGCCTTGGAGCGGTTCTATGAACAGGTGGTCCAGGCTATCCAGCGCCACATACACTTTGATGTTGTAAAGTGCATCCTGGTGGCCAGCCCAGGATTTGTGAGGGAGCAGTTCTGCGACTACCTGTTTCAACAAGCAGTGAAGACCGACAACAAACTGCTCCTGGAAAACCGGTCCAAATTTCTTCAGGTACATGCCTCCTCCGGACACAAGTACTCCCTGAAAGAGGCCCTTTGTGACCCTACTGTGGCTAGCCGCCTTTCAGACACTAAAGCTGCTGGGGAAGTCAAAGCCTTGGATGACTTCTATAAAATGTTACAGCATGAACCGGATCGAGCTTTCTATGGACTCAAGCAGGTGGAGAAGGCCAATGAAGCCATGGCAATTGACACATTGCTCATCAGCGATGAGCTCTTCAGGCATCAGGATGTAGCCACACGGAGCCGGTATGTGAGGCTGGTGGACAGTGTGAAAGAGAATGCAGGCACCGTTAGGATATTCTCTAGTCTTCACGTTTCTGGGGAACAGCTCAGCCAGTTGACTGGGGTAGCTGCCATTCTCCGCTTCCCTGTTCCCGAACTTTCTGACCAAGAGGGTGATTCCAGTTCTGAAGAGGATTAATGATTGAAACTTAAAATTGAGACAATCTTGTGTTTCCTAAACTGTTACAGTACATTTCTCAGCATCCTTGTGACAGAAAGCTGCAAGAATGGCACTTTTTGATTCATACAGGGATTTCTTATGTCTTTGGCTACACTAGATATTTTGTGATTGGCAAGACATGTATTTAAACAATAAACTAAAAGGAAATAATCTCCACGTACTACCATCTTGATTAAATTGTGTAATTTTTTATAGGAATTATGAGTTATCTGTAGTACTTGGAAACAGAAAATGTGTGTATTTAAAGACGATGCCTATGCAGTATATTGTTTGGGATAGATTGCAAAATTTCACACTGCATGCTTTGAAACAGTTTTCCTTAGAAAAAGCTTTTGCTATCTTATCCTGTTTACATTATTTCTTTATTTTAATTCTGCTTGGTGTTCTTGCATTGCATTTAATGATCCCTTTTCTCCCCACCTCCACACACTACATTTTTTTTAGATTTAAATAGTTTTACTATTTTAAATGATTGCCGTACAATTAGTAGACTTGAAGACAAGTTTTAAATATTTTTCTTCAAAGGCTTGTTAAACCAATCATGTTAAAAGGAAATTCTTGGTTTTGGTTTGTTGTTGTTAGCATTAGTCATATTTGATTTAGAGGGTAACTTAAATCAGTTATTTTTAGCTTTTTAGAACTTTGATCTGCTAGGGATTGTCAAAATAATCTCCTTGAGGCATCTTTATTTTTAAAATGAGATTAAAGTATGTGATTTGCTTGTTATGTGGCTAAAAAAAAAAAAAAAAAAAAAAA
>gi|31317226|ref|NM_001964.2| Homo sapiens early growth response 1 (EGR1), mRNA
GCGCAGAACTTGGGGAGCCGCCGCCGCCATCCGCCGCCGCAGCCAGCTTCCGCCGCCGCAGGACCGGCCCCTGCCCCAGCCTCCGCAGCCGCGGCGCGTCCACGCCCGCCCGCGCCCAGGGCGAGTCGGGGTCGCCGCCTGCACGCTTCTCAGTGTTCCCCGCGCCCCGCATGTAACCCGGCCAGGCCCCCGCAACTGTGTCCCCTGCAGCTCCAGCCCCGGGCTGCACCCCCCCGCCCCGACACCAGCTCTCCAGCCTGCTCGTCCAGGATGGCCGCGGCCAAGGCCGAGATGCAGCTGATGTCCCCGCTGCAGATCTCTGACCCGTTCGGATCCTTTCCTCACTCGCCCACCATGGACAACTACCCTAAGCTGGAGGAGATGATGCTGCTGAGCAACGGGGCTCCCCAGTTCCTCGGCGCCGCCGGGGCCCCAGAGGGCAGCGGCAGCAACAGCAGCAGCAGCAGCAGCGGGGGCGGTGGAGGCGGCGGGGGCGGCAGCAACAGCAGCAGCAGCAGCAGCACCTTCAACCCTCAGGCGGACACGGGCGAGCAGCCCTACGAGCACCTGACCGCAGAGTCTTTTCCTGACATCTCTCTGAACAACGAGAAGGTGCTGGTGGAGACCAGTTACCCCAGCCAAACCACTCGACTGCCCCCCATCACCTATACTGGCCGCTTTTCCCTGGAGCCTGCACCCAACAGTGGCAACACCTTGTGGCCCGAGCCCCTCTTCAGCTTGGTCAGTGGCCTAGTGAGCATGACCAACCCACCGGCCTCCTCGTCCTCAGCACCATCTCCAGCGGCCTCCTCCGCCTCCGCCTCCCAGAGCCCACCCCTGAGCTGCGCAGTGCCATCCAACGACAGCAGTCCCATTTACTCAGCGGCACCCACCTTCCCCACGCCGAACACTGACATTTTCCCTGAGCCACAAAGCCAGGCCTTCCCGGGCTCGGCAGGGACAGCGCTCCAGTACCCGCCTCCTGCCTACCCTGCCGCCAAGGGTGGCTTCCAGGTTCCCATGATCCCCGACTACCTGTTTCCACAGCAGCAGGGGGATCTGGGCCTGGGCACCCCAGACCAGAAGCCCTTCCAGGGCCTGGAGAGCCGCACCCAGCAGCCTTCGCTAACCCCTCTGTCTACTATTAAGGCCTTTGCCACTCAGTCGGGCTCCCAGGACCTGAAGGCCCTCAATACCAGCTACCAGTCCCAGCTCATCAAACCCAGCCGCATGCGCAAGTACCCCAACCGGCCCAGCAAGACGCCCCCCCACGAACGCCCTTACGCTTGCCCAGTGGAGTCCTGTGATCGCCGCTTCTCCCGCTCCGACGAGCTCACCCGCCACATCCGCATCCACACAGGCCAGAAGCCCTTCCAGTGCCGCATCTGCATGCGCAACTTCAGCCGCAGCGACCACCTCACCACCCACATCCGCACCCACACAGGCGAAAAGCCCTTCGCCTGCGACATCTGTGGAAGAAAGTTTGCCAGGAGCGATGAACGCAAGAGGCATACCAAGATCCACTTGCGGCAGAAGGACAAGAAAGCAGACAAAAGTGTTGTGGCCTCTTCGGCCACCTCCTCTCTCTCTTCCTACCCGTCCCCGGTTGCTACCTCTTACCCGTCCCCGGTTACTACCTCTTATCCATCCCCGGCCACCACCTCATACCCATCCCCTGTGCCCACCTCCTTCTCCTCTCCCGGCTCCTCGACCTACCCATCCCCTGTGCACAGTGGCTTCCCCTCCCCGTCGGTGGCCACCACGTACTCCTCTGTTCCCCCTGCTTTCCCGGCCCAGGTCAGCAGCTTCCCTTCCTCAGCTGTCACCAACTCCTTCAGCGCCTCCACAGGGCTTTCGGACATGACAGCAACCTTTTCTCCCAGGACAATTGAAATTTGCTAAAGGGAAAGGGGAAAGAAAGGGAAAAGGGAGAAAAAGAAACACAAGAGACTTAAAGGACAGGAGGAGGAGATGGCCATAGGAGAGGAGGGTTCCTCTTAGGTCAGATGGAGGTTCTCAGAGCCAAGTCCTCCCTCTCTACTGGAGTGGAAGGTCTATTGGCCAACAATCCTTTCTGCCCACTTCCCCTTCCCCAATTACTATTCCCTTTGACTTCAGCTGCCTGAAACAGCCATGTCCAAGTTCTTCACCTCTATCCAAAGAACTTGATTTGCATGGATTTTGGATAAATCATTTCAGTATCATCTCCATCATATGCCTGACCCCTTGCTCCCTTCAATGCTAGAAAATCGAGTTGGCAAAATGGGGTTTGGGCCCCTCAGAGCCCTGCCCTGCACCCTTGTACAGTGTCTGTGCCATGGATTTCGTTTTTCTTGGGGTACTCTTGATGTGAAGATAATTTGCATATTCTATTGTATTATTTGGAGTTAGGTCCTCACTTGGGGGAAAAAAAAAAAAGAAAAGCCAAGCAAACCAATGGTGATCCTCTATTTTGTGATGATGCTGTGACAATAAGTTTGAACCTTTTTTTTTGAAACAGCAGTCCCAGTATTCTCAGAGCATGTGTCAGAGTGTTGTTCCGTTAACCTTTTTGTAAATACTGCTTGACCGTACTCTCACATGTGGCAAAATATGGTTTGGTTTTTCTTTTTTTTTTTTTTTGAAAGTGTTTTTTCTTCGTCCTTTTGGTTTAAAAAGTTTCACGTCTTGGTGCCTTTTGTGTGATGCGCCTTGCTGATGGCTTGACATGTGCAATTGTGAGGGACATGCTCACCTCTAGCCTTAAGGGGGGCAGGGAGTGATGATTTGGGGGAGGCTTTGGGAGCAAAATAAGGAAGAGGGCTGAGCTGAGCTTCGGTTCTCCAGAATGTAAGAAAACAAAATCTAAAACAAAATCTGAACTCTCAAAAGTCTATTTTTTTAACTGAAAATGTAAATTTATAAATATATTCAGGAGTTGGAATGTTGTAGTTACCTACTGAGTAGGCGGCGATTTTTGTATGTTATGAACATGCAGTTCATTATTTTGTGGTTCTATTTTACTTTGTACTTGTGTTTGCTTAAACAAAGTGACTGTTTGGCTTATAAACACATTGAATGCGCTTTATTGCCCATGGGATATGTGGTGTATATCCTTCCAAAAAATTAAAACGAAAATAAAGTAGCTGCGATTGGG
>gi|28144902|ref|NM_016584.2| Homo sapiens interleukin 23 subunit alpha (IL23A), mRNA
AAAACAACAGGAAGCAGCTTACAAACTCGGTGAACAACTGAGGGAACCAAACCAGAGACGCGCTGAACAGAGAGAATCAGGCTCAAAGCAAGTGGAAGTGGGCAGAGATTCCACCAGGACTGGTGCAAGGCGCAGAGCCAGCCAGATTTGAGAAGAAGGCAAAAAGATGCTGGGGAGCAGAGCTGTAATGCTGCTGTTGCTGCTGCCCTGGACAGCTCAGGGCAGAGCTGTGCCTGGGGGCAGCAGCCCTGCCTGGACTCAGTGCCAGCAGCTTTCACAGAAGCTCTGCACACTGGCCTGGAGTGCACATCCACTAGTGGGACACATGGATCTAAGAGAAGAGGGAGATGAAGAGACTACAAATGATGTTCCCCATATCCAGTGTGGAGATGGCTGTGACCCCCAAGGACTCAGGGACAACAGTCAGTTCTGCTTGCAAAGGATCCACCAGGGTCTGATTTTTTATGAGAAGCTGCTAGGATCGGATATTTTCACAGGGGAGCCTTCTCTGCTCCCTGATAGCCCTGTGGGCCAGCTTCATGCCTCCCTACTGGGCCTCAGCCAACTCCTGCAGCCTGAGGGTCACCACTGGGAGACTCAGCAGATTCCAAGCCTCAGTCCCAGCCAGCCATGGCAGCGTCTCCTTCTCCGCTTCAAAATCCTTCGCAGCCTCCAGGCCTTTGTGGCTGTAGCCGCCCGGGTCTTTGCCCATGGAGCAGCAACCCTGAGTCCCTAAAGGCAGCAGCTCAAGGATGGCACTCAGATCTCCATGGCCCAGCAAGGCCAAGATAAATCTACCACCCCAGGCACCTGTGAGCCAACAGGTTAATTAGTCCATTAATTTTAGTGGGACCTGCATATGTTGAAAATTACCAATACTGACTGACATGTGATGCTGACCTATGATAAGGTTGAGTATTTATTAGATGGGAAGGGAAATTTGGGGATTATTTATCCTCCTGGGGACAGTTTGGGGAGGATTATTTATTGTATTTATATTGAATTATGTACTTTTTTCAATAAAGTCTTATTTTTGTGGCTAAAAAAAA
>gi|27374999|ref|NM_007285.6| Homo sapiens GABA type A receptor associated protein like 2 (GABARAPL2), mRNA
CGACAGCCGGAAGTCCCGCCTGCCGTGTAGTCGCCGCCGTCGCTGCCGCTGCCGCTGCCGCCGTCGTTGTTGTTGTGCTCGGTGCGCTGAGCTCCGCGGCTCCGCGAGCCGGTTCCGTCCCCTTCCCGCCGCCGCCATGAAGTGGATGTTCAAGGAGGACCACTCGCTGGAACACAGATGCGTGGAGTCCGCGAAGATTCGAGCGAAATATCCCGACAGGGTTCCGGTGATTGTGGAAAAGGTCTCAGGCTCTCAGATTGTTGACATTGACAAACGGAAGTACTTGGTTCCATCTGATATCACTGTGGCTCAGTTCATGTGGATCATCAGGAAAAGGATCCAGCTTCCTTCTGAAAAGGCGATCTTCCTGTTTGTGGATAAGACAGTCCCACAGTCCAGCCTAACTATGGGACAGCTTTACGAGAAGGAAAAAGATGAAGATGGATTCTTATATGTGGCCTACAGCGGAGAGAACACTTTTGGCTTCTGAGGGCCATTGCTGGGCTAGGTGCACCGTAACTGCTTGTGTATCTTGTAAATAGCCAGCCATTTTCAGTTATTATACCAGAACCTCTTCACATAGACCTATTAGTGCATTTGTAACTGGATTTATTTCTTAATATATTGGAAGGTTTTGTTTCCTTAGACTAGTAAATTATCATACAGAGTTTTATTTTGAGTTTTTCTTTTTGTGCATTGTCCTCATGCCTGTATTCTCCAGGAAACTTGTCCTTCTGGAAATCATATTGAATGATATTTCTATATCGAAGTGAGGTAGGTGCGGTATTAAAGTGAAAGGGAAGGTGATGCATTTATTCTGGGTTATGCTTGAAGTGTTAGATGGCTAAGTATTAAAATTATCCAAATTAAATCCTTAGCAGTCAGAACACTTGCTTCACTAGAATATGCCAACTGCCAATCATGTTGGACTGAGCTAATTTGTTCCTCTTTCTGAAACTATTAAGGTAAATAATTAACAATAAAAATTCTCTTATAAAGGCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|22907059|ref|NM_018242.2| Homo sapiens solute carrier family 47 member 1 (SLC47A1), mRNA
ACTGCCGGCCTGCGCGGTACTCACTGCCGGCCTCCGCGGTACCCACTGCCGGCCTCCGCGCTACCCGGCCGCAGCGCGCGAGTCACATGGAAGCTCCTGAGGAGCCCGCGCCAGTGCGCGGAGGCCCGGAGGCCACCCTTGAGGTCCGTGGGTCGCGCTGCTTGCGGCTGTCCGCCTTCCGAGAAGAGCTGCGGGCGCTCTTGGTCCTGGCTGGCCCCGCGTTCTTGGTTCAGCTGATGGTGTTCCTGATCAGCTTCATAAGCTCCGTGTTCTGTGGCCACCTGGGCAAGCTGGAGCTGGATGCAGTCACGCTGGCAATCGCGGTTATCAATGTCACTGGTGTCTCAGTGGGATTCGGCTTATCTTCTGCCTGTGACACCCTCATCTCCCAGACGTACGGGAGCCAGAACCTGAAGCACGTGGGCGTGATCCTGCAGCGGAGTGCGCTCGTCCTGCTCCTCTGCTGCTTCCCCTGCTGGGCGCTCTTTCTCAACACCCAGCACATCCTGCTGCTCTTCAGGCAGGACCCAGATGTGTCCAGGCTTACCCAGACCTATGTCACGATCTTCATTCCAGCTCTTCCTGCAACCTTTCTTTATATGTTACAAGTTAAATATTTGCTCAACCAGGGAATTGTACTGCCCCAGATCGTAACTGGAGTTGCAGCCAACCTTGTCAATGCCCTCGCCAACTATCTGTTTCTCCATCAACTGCATCTTGGGGTGATAGGCTCTGCACTGGCAAACTTGATTTCCCAGTACACCCTGGCTCTACTCCTCTTTCTCTACATCCTCGGGAAAAAACTGCATCAAGCTACATGGGGAGGCTGGTCCCTCGAGTGCCTGCAGGACTGGGCCTCCTTCCTCCGCCTGGCCATCCCCAGCATGCTCATGCTGTGCATGGAGTGGTGGGCCTATGAGGTCGGGAGCTTCCTCAGTGGCATCCTCGGCATGGTGGAGCTGGGCGCTCAGTCCATCGTGTATGAACTGGCCATCATTGTGTACATGGTCCCTGCAGGCTTCAGTGTGGCTGCCAGTGTCCGGGTAGGAAACGCTCTGGGTGCTGGAGACATGGAGCAGGCACGGAAGTCCTCTACCGTTTCCCTGCTGATTACAGTGCTCTTTGCTGTAGCCTTCAGTGTCCTGCTGTTAAGCTGTAAGGATCACGTGGGGTACATTTTTACTACCGACCGAGACATCATTAATCTGGTGGCTCAGGTGGTTCCAATTTATGCTGTTTCCCACCTCTTTGAAGCTCTTGCTTGCACGAGTGGTGGTGTTCTGAGGGGGAGTGGAAATCAGAAGGTTGGAGCCATTGTGAATACCATTGGGTACTATGTGGTTGGCCTCCCCATCGGGATCGCGCTGATGTTTGCAACCACACTTGGAGTGATGGGTCTGTGGTCAGGGATCATCATCTGTACAGTCTTTCAAGCTGTGTGTTTTCTAGGCTTTATTATTCAGCTAAATTGGAAAAAAGCCTGTCAGCAGGCTCAGGTACACGCCAATTTGAAAGTAAACAACGTGCCTCGGAGTGGGAATTCTGCTCTCCCTCAGGATCCGCTTCACCCAGGGTGCCCTGAAAACCTTGAAGGAATTTTAACGAACGATGTTGGAAAGACAGGCGAGCCTCAGTCAGATCAGCAGATGCGCCAAGAAGAACCTTTGCCGGAACATCCACAGGACGGCGCTAAATTGTCCAGGAAACAGCTGGTGCTGCGGCGAGGGCTTCTGCTCCTGGGGGTCTTCTTAATCTTGCTGGTGGGGATTTTAGTGAGATTCTATGTCAGAATTCAGTGACGTGGTAGGAAAGAAAGTCAGGTCAAGTGATGCTTTTGAGCTTACACACAATTCACAGGCCCACCAGTGACAATTTACTGTGAGTTAATGTCATTCAGGTGTGCCCATGGATTTTGAGGGCTGGAAATGCAAAGACACATTTTTCTATAAAAAGAAAAAGCAACTAAGGTTAAAAGCTATATTGTGGCCCAAGACACTGTCTGAAAGATGACATGAGTAGTAATTCACCACTATCTGAACCAAGCAAGGATCAATGTGCTGACTGCATTGGCCAATGGCTTTGATACTTCTGCTATTTTTTTAGACACAAACCCATAAACTAACTGCTTAAGAATTCATACTGCTTGAATTATGTAAAATATATTTTACAGTATATCTTTCCTTGGGCCTTAGATTACTATTCACTGGGCAAATGGTATTTGTTTTTGTTTTAATTTTTTTTTTAATAGACGGAAGTCTTGCTCTGTCATGCAGGCTGGAGTGCGGTGGTGCGATCATAGCTCACTGCAGCCTCGAACTCTTGGGCTTCAAGCAATCCTCCTGTGTCAGCCACCAGAGTAGCTGAGACTACAGGGGTATGCCACCATGCCCAGCTGGCATTTGTTAATCTTCATTTGAGGTCTAGATCTAGGCACTGTGGACACTGAAAAACAGTTGGGAAATCTTTCGAGCTGTGGAAATCCAAACAAAGACTGATAATTCCTGGTAGGGGTGTGTGCGTGACGTACTGCAGCCTCAACCTCCTGGGCTCAAGTGATCCTCCCACCTCAGCCTCCTGAGTAGCTGAGACCACAGGCGTGTGCCACCACGCCTAGCTAATTTTTTATACCAGGGTCTACCCTTTGTTTCCCAGGCTGGTCTTGAATTCCTGGGATCAAGCAATCCTTCCACCTTGCCCTCCCAAAGTGTTGGGATTATAGGCATGAGCCACCACGACTGGCCAGAGGACAAAATTTTAATAAAGGTCTTAGCTTAAGCAGTAATCCTACTTCATTAAGCCTTCCTGGGGTGCGGTACACACCGTTAATTCAGCAACCCTCAGTACATACTAAGTATGCTCAGTGCTGTGAAAGTGGATTACACCAAATTAAGTCATTCTTATCACACCCAATCAAAAGTCAAGAAGCCAGGGATAAAAGCACCTCAGGCACATAACATTAATCTAGTAATGTAATTCTCTGCACATCCAGCTGGTGAAACTGCGTGCTGTAAGCTGGGACCAGCTTTGTCCATAACTGCTGAGAGAACTTGCTGAAGCTCTAGGAATAATTTTGCCTGCCCGGTTGCTCACCAGTTGTAGCTTGCCAGCTCCCAACACCCTTCCTGGTGCCAATAAACTTTCTCAAAGAGCAATACTGACATTTCTTTTGATAAAACCTCCAGCCTTCTCTGTGTTGTTCCGACATACCGAGGACCAACTGGTCTACATGGATGCCCTGAACATGCAATTCTTTCTTCCAAAATAAAACATTAAATAGAG
>gi|22538801|ref|NM_002987.2| Homo sapiens C-C motif chemokine ligand 17 (CCL17), mRNA
GCTCAGAGAGAAGTGACTTTGAGCTCACAGTGTCACCGCCTGCTGATGGGAGAGCTGAATTCAAAACCAGGGTGTCTCCCTGAGCAGAGGGACCTGCACACAGAGACTCCCTCCTGGGCTCCTGGCACCATGGCCCCACTGAAGATGCTGGCCCTGGTCACCCTCCTCCTGGGGGCTTCTCTGCAGCACATCCACGCAGCTCGAGGGACCAATGTGGGCCGGGAGTGCTGCCTGGAGTACTTCAAGGGAGCCATTCCCCTTAGAAAGCTGAAGACGTGGTACCAGACATCTGAGGACTGCTCCAGGGATGCCATCGTTTTTGTAACTGTGCAGGGCAGGGCCATCTGTTCGGACCCCAACAACAAGAGAGTGAAGAATGCAGTTAAATACCTGCAAAGCCTTGAGAGGTCTTGAAGCCTCCTCACCCCAGACTCCTGACTGTCTCCCGGGACTACCTGGGACCTCCACCGTTGGTGTTCACCGCCCCCACCCTGAGCGCCTGGGTCCAGGGGAGGCCTTCCAGGGACGAAGAAGAGCCACAGTGAGGGAGATCCCATCCCCTTGTCTGAACTGGAGCCATGGGCACAAAGGGCCCAGATTAAAGTCTTTATCCTC
>gi|22538799|ref|NM_005408.2| Homo sapiens C-C motif chemokine ligand 13 (CCL13), mRNA
AAAAGGCCGGCGGAACAGCCAGAGGAGCAGAGAGGCAAAGAAACATTGTGAAATCTCCAACTCTTAACCTTCAACATGAAAGTCTCTGCAGTGCTTCTGTGCCTGCTGCTCATGACAGCAGCTTTCAACCCCCAGGGACTTGCTCAGCCAGATGCACTCAACGTCCCATCTACTTGCTGCTTCACATTTAGCAGTAAGAAGATCTCCTTGCAGAGGCTGAAGAGCTATGTGATCACCACCAGCAGGTGTCCCCAGAAGGCTGTCATCTTCAGAACCAAACTGGGCAAGGAGATCTGTGCTGACCCAAAGGAGAAGTGGGTCCAGAATTATATGAAACACCTGGGCCGGAAAGCTCACACCCTGAAGACTTGAACTCTGCTACCCCTACTGAAATCAAGCTGGAGTACGTGAAATGACTTTTCCATTCTCCTCTGGCCTCCTCTTCTATGCTTTGGAATACTTCTACCATAATTTTCAAATAGGATGCATTCGGTTTTGTGATTCAAAATGTACTATGTGTTAAGTAATATTGGCTATTATTTGACTTGTTGCTGGTTTGGAGTTTATTTGAGTATTGCTGATCTTTTCTAAAGCAAGGCCTTGAGCAAGTAGGTTGCTGTCTCTAAGCCCCCTTCCCTTCCACTATGAGCTGCTGGCAGTGGGTTTGTATTCGGTTCCCAGGGGTTGAGAGCATGCCTGTGGGAGTCATGGACATGAAGGGATGCTGCAATGTAGGAAGGAGAGCTCTTTGTGAATGTGAGGTGTTGCTAAATATGTTATTGTGGAAAGATGAATGCAATAGTAGGACTGCTGACATTTTGCAGAAAATACATTTTATTTAAAATCTCCTAAAAAAAAAAA
>gi|19923714|ref|NM_138284.1| Homo sapiens interleukin 17D (IL17D), mRNA
AAAATGTTTTCAGCTCCTGGAGGCGAAAGGTGCAGAGTCGCTCTGTGTCCGTGAGGCCGGGCGGCGACCTCGCTCAGTCGGCTTCTCGGTCCGAGTCCCCGGGTCTGGATGCTGGTAGCCGGCTTCCTGCTGGCGCTGCCGCCGAGCTGGGCCGCGGGCGCCCCGAGGGCGGGCAGGCGCCCCGCGCGGCCGCGGGGCTGCGCGGACCGGCCGGAGGAGCTACTGGAGCAGCTGTACGGGCGCCTGGCGGCCGGCGTGCTCAGTGCCTTCCACCACACGCTGCAGCTGGGGCCGCGTGAGCAGGCGCGCAACGCGAGCTGCCCGGCAGGGGGCAGGCCCGCCGACCGCCGCTTCCGGCCGCCCACCAACCTGCGCAGCGTGTCGCCCTGGGCCTACAGAATCTCCTACGACCCGGCGAGGTACCCCAGGTACCTGCCTGAAGCCTACTGCCTGTGCCGGGGCTGCCTGACCGGGCTGTTCGGCGAGGAGGACGTGCGCTTCCGCAGCGCCCCTGTCTACATGCCCACCGTCGTCCTGCGCCGCACCCCCGCCTGCGCCGGCGGCCGTTCCGTCTACACCGAGGCCTACGTCACCATCCCCGTGGGCTGCACCTGCGTCCCCGAGCCGGAGAAGGACGCAGACAGCATCAACTCCAGCATCGACAAACAGGGCGCCAAGCTCCTGCTGGGCCCCAACGACGCGCCCGCTGGCCCCTGAGGCCGGTCCTGCCCCGGGAGGTCTCCCCGGCCCGCATCCCGAGGCGCCCAAGCTGGAGCCGCCTGGAGGGCTCGGTCGGCGACCTCTGAAGAGAGTGCACCGAGCAAACCAAGTGCCGGAGCACCAGCGCCGCCTTTCCATGGAGACTCGTAAGCAGCTTCATCTGACACGGGCATCCCTGGCTTGCTTTTAGCTACAAGCAAGCAGCGTGGCTGGAAGCTGATGGGAAACGACCCGGCACGGGCATCCTGTGTGCGGCCCGCATGGAGGGTTTGGAAAAGTTCACGGAGGCTCCCTGAGGAGCCTCTCAGATCGGCTGCTGCGGGTGCAGGGCGTGACTCACCGCTGGGTGCTTGCCAAAGAGATAGGGACGCATATGCTTTTTAAAGCAATCTAAAAATAATAATAAGTATAGCGACTATATACCTACTTTTAAAATCAACTGTTTTGAATAGAGGCAGAGCTATTTTATATTATCAAATGAGAGCTACTCTGTTACATTTCTTAACATATAAACATCGTTTTTTACTTCTTCTGGTAGAATTTTTTAAAGCATAATTGGAATCCTTGGATAAATTTTGTAGCTGGTACACTCTGGCCTGGGTCTCTGAATTCAGCCTGTCACCGATGGCTGACTGATGAAATGGACACGTCTCATCTGACCCACTCTTCCTTCCACTGAAGGTCTTCACGGGCCTCCAGGTGGACCAAAGGGATGCACAGGCGGCTCGCATGCCCCAGGGCCAGCTAAGAGTTCCAAAGATCTCAGATTTGGTTTTAGTCATGAATACATAAACAGTCTCAAACTCGCACAATTTTTTCCCCCTTTTGAAAGCCACTGGGGCCAATTTGTGGTTAAGAGGTGGTGAGATAAGAAGTGGAACGTGACATCTTTGCCAGTTGTCAGAAGAATCCAAGCAGGTATTGGCTTAGTTGTAAGGGCTTTAGGATCAGGCTGAATATGAGGACAAAGTGGGCCACGTTAGCATCTGCAGAGATCAATCTGGAGGCTTCTGTTTCTGCATTCTGCCACGAGAGCTAGGTCCTTGATCTTTTCTTTAGATTGAAAGTCTGTCTCTGAACACAATTATTTGTAAAAGTTAGTAGTTCTTTTTTAAATCATTAAAAGAGGCTTGCTGAAGGAAAAAAAAAAAAA
>gi|1277262346|ref|NM_152627.2| Homo sapiens cell division cycle 14C (CDC14C), mRNA
CTGACTGGCCGCGGCGGCCTCCAGGAAGCGGAAAAGCAAGGGGCGGTCGAGCTGGGCCGCCGCGCCCCACTGCTCGCCGCGCTGCTCTTTGACCTCGCAGGGTGTGAAGAAGATGCGCAGCTCCACGCTGCAGGACCCGCGCCGCCGGGACCCCCAGGACGACGTGTACGTGGACATCACCGATCGCCTTCGTTTTGCCATTCTCTACAGCAGACCAAAGAGTGCATCAAATGTACATTATTTCAGCATAGATAATGAACTCGAATATGAGAACTTCTCCGAAGACTTTGGACCACTCAATCTGGCAATGGTTTACAGATATTGTTGCAAGATAAATAAGAAATTAAAGTCCATTACAATGTTAAGGAAGAAAATTGTTCATTTTACTGGCTCTGATCAGAGAAAACAAGCAAATGCTGCCTTCCTTGTTGGATGCTACATGGTTATATACTTGGGGAGAACCCCAGAAGCAGCATATAGAATATTAATCTTTGGAGATACACCCTATATTCCTTTCAGAGATGCTGCCTATGGAAGCTGCAATTTCTACATTACACTTCTTGACTGTTTTCATGCAGTAAAGAAGGCAATGCAGTATGGCTTCCTTAATTTCAACTCATTTAACCTTGATGAATATGAACACTATGAAAAAGCAGAAAACGGAGATTTAAATTGGATAATACCAGACCGATTTATTGCCTTCTGTGGACCTCATTCAAGAGCCAGACTTGAAAGTGGTTACCACCAACATTCTCCCGAGACTTATATTCAATATTTTAAGAATCACAATGTTACTACCATTATTCGTCTGAATAAAAGGATGTATGATGCCAAACGCTTTACGGATGCTGGCTTCGATCACCATGATCTTTTCTTTGCGGATGGCAGCACCCCTACTGATGCCATTGTCAAAAGATTTCTGGATATCTGTGAAAATGCTGAGGGTGCCATTGCAGTACATTGTAAAGCTGGCCTTGGTCGCACAGGCACTCTGATAGCCTGCTACATCATGAAGCATTACAGGATGACAGCAGCCGAGACCATTGCGTGGGTAAGGATCTGCAGACCTGGCTTGGTGATCGGGCCTCAGCAGCAGTTTTTGGTGATGAAGCAAACAAGCCTCTGGCTGGAAGGGGACTATTTTCGTCAGAGGTTAAAGGGGCAGGAGAATGGACAACACAGAGCAGCCTTCTCCAAACTTCTCTCTGGTGTTGATGACATTTCCATAAATGGGGTCGAGAATCAAGACCAGCAAGAACCCAAACCTTACAGTGATGACGACGAAATCAATGGAGTGACACAAGGTGATAGAAGTCGGGCCCTGAAAAGGCGAAGACAATCAAAAACAAACGATATTCTTCTCCCATCTCCCCTGGCTGTGCTGACCTTTACACTGTGTAGTGTTGTCATCTGGTGGATTGTTTGTGACTACATTCTTCCCATCCTGCTATTCTGACTCAAAGATTTCAGAACATAGTAGCCATCAGGACCCCCTGACAGATAGCTGCTTCTCTCCATTTCAAGGACTAAAATGGTTTTGCATTAAGTAAAAACCTGTGACCAGAACTGAAGGAAGACTCTAGGAACTGAAAACTGCAACAGAAATTAGCACAATTTGAAAACAAAACAAAATTGCAAAAGACTTAGTTGCTTTCCACCTAAGAAGCTAATCAATGGGGAAAATGTCCACGGGGTTTCAGTAATGAACTTTTGAGTTTGGGTGCAAGCAAATGTACCAAGACCAGCTCAGTCAGGGAGACCCTACCCCAGTGGTGCTAGAGGAATTAAAGACACACACACAGAAATACAGAGGTGTAAAGTGGGAAATCAGGGGTCTCACAGCCTTCAGAGCTGAGAGCCCCGAACAGAGATTTACCCACATATTGATTAACAGCAAACAAGTCATTAGCATTGTTTCTATAGATATTAAATTAACTAAAAGTATCCCTTATGGGAAACGAAGGGATGGGCCTAATTAAAGGCATAGGTTGGGCTAGTTAACTGCGGCAGGAGCACGTCCTTAAGGCACAGATGGCTCATGCTATTGTTTGTGGCTTAAGAATGCCTTTAAGCAGTTTTCCACTCTGGGCTGGGTGGGCCAGGTGTTCCTTGCCCTCATTCCGGTAAACCCACACCCTTCCAGCGTGGGCATTAGGGCCATTATGAACATGTTACAGTGCTGCAGAGATTTTATTTATGGCCAGTTTTGGGGCCAGTTTATGGCTGGATTTTGGGGGGCTTGCTCCCAAAAAGAATGACTCAAAGAAAGGCCCAGCTCTCAAGCTGAATGACAAAAATGCTGTTGTAAATTTAGTCTCAGGTGTAAATACCCAAGCCCTCTGGTACTCAGGGAGCTGGCTGGTCTGTGGTGCATGTGTGTCCTTGTGATGGCAAGCATTGTAGTTGATGGCCTTCAGAAGAATTGAGGATCTGATGGAGGTTTTTTAATGTATTTATTTTCTGTTCAGCTTGTGACCCTGTGTCAAAATTTGTAAAGATACAAAAGGCATTACTGAAATGGTACTTTCTGTAATTTGATACTATTTGGCTTTACCATCTTCACTTGACTGTTTGTAATACTGTAGTAATATTAACTCTGATAAGTACCCAAGCTGCTTGTCTTCTACCAAAGAGTGCTTTATTAACAAGAATCTGTGAAAACCACATTTTAAACACTGTTGCATGTTGTAATACCAGGTGATACCTTGGTAACCTAAAACTTGCAAGAGAATATTAGTGGTAGCTTTAGAAGACTCAGGAGGAGAAACTGACTTCAGAGCTGGAAGATGTTGCAAGTCATTCCTTTTTCTGTCCTTTAGGGACTGAAGAACTGGGAGGTTGCCCATTGTTTGGTTGCCAGTCATACAAATTAAAATCATATTTCCTTCCATGCAAAAAAAAAAAAAAA
>gi|131888644|ref|NM_024099.3| Homo sapiens LBH domain containing 1 (LBHD1), mRNA
CAGCATTTTCCGCAAGGAATCCATGGCCGCCTGCACAGCCAGCGGAGCGCCCACGGGAGCTCCCCGCAGCCGCAAGCTGTTGCCGCGCGGTCTCACTACCCCTTGGCGCAGGCTAGAGCGCCCTATAGCAGAAACCATAGATAAGCGGCCGGCTAGAGAGGACCTGCTCGAGGAAACGTTTGGAATCCGGAGCGCTTGGATCTCAGAATCACCACCATGGCCCTTGTGCCAGGGAGAAGCAAGGAGGATGGGCTTTGGACTAGAAATAGCCCAGGCTCCTCCCAGCATCCAGAAAGTCCCAGGCTGCCCAACCCTCTCTGGGACAGAGGAAAAATTGGCAAGGTTGAAGGTCACCAGCACATTCAGGATTTCTCTCAAAAGTCCCATCTGCCGTCTATTGTGGTGGAATCCAGTGAGGTGAATGAAGAGAGTGGGGATCTCCATTTGCCCCATGAGGAGCTGCTGCTGCTCACTGATGGTGAGGAAGAGGATGCTGAGGCCTTCTTCCAAGACCAAAGTGAAGAGCCAGGCTGGGCTTGGAGCCCACAGGACCCTAGAAGTCCTTTAAGAACATTTAACGCTGGACTCAGCTGGGGGCAGGACCAGGATGAAGAAGATGCTTGTTGGATTCTTGAGGACACAGCATGTCTGGAAGCCACCAACCACTGTCCCTTCTGGGACTCAACAGGCTCCCGTGTTTGTAGAAGTGGCTTTGTGGAATATTCCCATCTCCTGCCTCCTAATAGCTTTGAGGGAGCTGAAGAAGAAGCTGTTCAAACGCCGGCGGGTGTTGAATCGGGAGCGGCGTCTGAGGCACCGGGTGGTCGGGGCTGTGATAGACCAAGGGCTGATCACGCGGCACCACCTCAAGAAGCGGGCGTCCAGTGCACGTGCCAACATTACACTGTCAGGGAAGAAGCGCAGAAAACTCCTCCAGCAGATCCGGCTTGCCCAGAAAGAGAAGACAGCCATGGAAGTGGAAGCCCCTTCAAAGCCAGCCAGGACTAGTGAACCACAGCTCAAAAGGCAAAAGAAGACAAAAGCCCCCCAGGATGTAGAAATGAAGGACCTTGAAGATGAGAGCTAAACCTCTTCCACTAGAAGATTCTCAACTGGAGCCAGCCTTCAGACTCAGTGGTTGTTTCAGAGGACTTTGACAAAAGCAAGGCCCCTTTTCACTCTCCAGATTTCCTCCTACCTAATGGCCTACTGACCTCCCCTAGAGGGATGTCTTTGGGAGGGAAGAAGGTACAGAAGAAAGATTGGAGAAGGGCCTCTCTAGCAGTCAACTCCATTTGTAATAAAGCCCTAGCACTCTGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|757813194|ref|NM_032856.3| Homo sapiens WD repeat domain 73 (WDR73), transcript variant 1, mRNA
ATCTCGCGAGAGCCGCGCGGCCCCCGAAGGCTCGCAGGCGGAAGTGAGACGCCGGAAGCGGTCGTTGCCATGGATCCTGGGGACGACTGGCTGGTGGAATCCTTGCGCTTGTACCAGGATTTCTATGCATTCGACCTGTCAGGAGCCACTCGAGTCCTTGAATGGATTGATGACAAAGGAGTCTTTGTTGCTGGCTATGAAAGCCTGAAAAAGAATGAAATTCTTCATCTGAAATTACCTCTCAGACTTTCTGTAAAGGAAAACAAGGGCTTATTCCCAGAAAGAGATTTCAAAGTGCGCCATGGAGGATTTTCAGACAGGTCTATCTTTGATCTAAAGCATGTGCCACATACCAGATTGCTGGTTACCAGTGGCCTTCCAGGTTGTTATCTGCAGGTGTGGCAGGTTGCAGAGGACAGTGATGTCATTAAAGCTGTCAGCACCATTGCTGTGCATGAGAAAGAGGAGAGTCTCTGGCCTAGGGTGGCCGTCTTCTCCACATTGGCACCCGGAGTCCTCCATGGGGCGAGGCTCCGAAGTCTGCAGGTCGTTGATCTGGAGTCCCGGAAGACCACGTACACCTCAGATGTCAGTGACAGTGAGGAGCTGAGTAGCCTGCAGGTCCTAGATGCAGACACCTTTGCCTTCTGCTGTGCTTCAGGCCGGCTGGGGCTTGTTGACACCCGGCAGAAGTGGGCACCGTTGGAGAATCGCAGCCCTGGCCCTGGGTCTGGTGGAGAGAGATGGTGTGCTGAAGTTGGGAGCTGGGGCCAGGGCCCTGGGCCCAGCATTGCCAGCCTTGGCTCAGATGGGCGTCTTTGTCTTCTTGACCCCCGGGATCTCTGCCATCCTGTGAGCTCAGTCCAGTGCCCAGTATCCGTACCTAGCCCTGACCCAGAGCTGCTGCGAGTGACTTGGGCCCCAGGCCTGAAGAATTGCTTGGCCATCTCAGGTTTTGATGGTACAGTCCAGGTCTATGATGCCACATCTTGGGATGGAACACGGAGCCAAGATGGAACACGGAGCCAAGTAGAACCTCTCTTCACTCACAGAGGTCACATCTTCCTAGATGGAAATGGGATGGACCCTGCTCCTTTGGTCACCACCCACACCTGGCATCCCTGCAGACCAAGGACTTTGTTATCAGCAACAAATGATGCCTCTCTGCATGTGTGGGACTGGGTGGACCTTTGTGCCCCCCGCTGACACCAGCATCTTTCCATCTAGGCCTCTAGAAAGGGGAGGAGCTGCTGTAGTAGCAAGGGTGCTCATGTAGGACTCAAGTGACTACCAGTCCCTGTTACCAGCTGTGTGGCCTTGGGCAAGTCTGCCAGCGTCACTTAGCCTCAGTTTCCTTATCTGTAAAATGAGGATAGTAAGAACTACCTCGTAGTGATATTGCGAAGGTTAGAAGAAACGCATGGCATAATTACTTGGTAGCTATTGTTAGATCTGGGAGTGTGAAATGGTAGCGTTTTGTCCCTGTCTTCACACTATCATAGGGAGAATCAAAAGAGCTAACAAATATAAACATGCTTTGTGAATTTTTTTAAAGAAAAAAATGTAGAGGGGCCAATAAACATGAAAAAATCCCAGCCCTAGTAGCAATTAAGGAAATAGCAAAACAGGATTTCTGCTCCTCTTGAGTGGGTCTCATGGGAACACAGGTGCACTTTCCCACACTTGTCCCCCCAGGTGACTAGGTTCAAGAGACATTTGCTTTTGGTGGCCCCACAAACATTTCCTTTTGAGGGCCCATAGTGAATATTAAAGTGTGCTGGACATGGTGGCTCATGCCTGTAATCCCAGCACTTTCAGAGGCTGAGGTGGGCAGATTGCTTGAGCTGAGGAGTTTGAGACCAGCCTGGGCAACATAGCAAGATCCCTTCCCTTAAAAAAAAAAAAAAATTTGGCTGGGCATGGTGGCTCATGCCTGTAATCCCAGCAATGTAGGCAGCCAAGACAGGTGGATCACTTGAGTCCAGGAGTTCGAGACTAGCCTGAGCAACATGGCGAAACCTTGTCTCTACTAAAAATACAAGTTAGCTGGTTGTGGTGGTATGAGCCTGCAGTCCCAGCTATTCAAGAGGCTGAGGTGGGAGGGTTGCCTGAGCCTGGCAGTTGAAGTTTGCAGTGAGCTGTGATCATGCCACTGTATTCCAGCCTGGGCAACAGAATGAGACCCTGTTACACACACACACACAAAATAGATAAGTTGTTCACTCTGTCAGCATCTATTAGCCCTTCCCATGTGCAACACTAATTACATGCTAGAAATACATAAATGAGAGGCTTCCTAAGGTGGTTGAATTTTTTTTTTTTTTTTTTTTGTAGTAGAGATGGAGTCTTGCTCTGTCACCCAGGCTTGAGTGCAGTGGCGTGATCTCGGCTCACTGCAACCTCCACCTCATGGGTTCAAGCAATGCTCCTGCCTCAGCCTGCCAAGTAGCTGGGATTACAGGCACGTACCACCATGCCCAGGTAATTTTTGTATTTTTGGTACAGACGGAGTTTCACCATGTTGGCCAGAATGGTCTTGATCTCTTGACCTTGTGATCTACCCACCTCGGCCTCCCGAAGAGCTGGGATTACAGGTGTGAGCCACCGCGCCCGGCCAGGGGATTTCTCCTGTGTGAATTCGCTGGTTAAGTGATAATTAACTGCAGTTAAAATTCAGGTCAAGCATGTGGCTCATGTCTGTAATCCCAGTACTTTGGGAGGCTGAGGTGGGAGGATAGCTTGAGTCCAGGAGGAGTTCGAGATCAGCCTGGGCACCATGGTGAACCCCTGTCTCTAAAAAAAAAGAAAGATTTTTATTTAAAAAACCTAAACAAATTCAGATAGGAATTTAAAGATAGACCAGGCACAGTGGCTCACGCCTGTAATCCCAGCACTTTGTGGGGGGCCAAGGTGGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATATAAAAATTAGAGACGGGCATGGTGGTGGCACACCTGTAATCCCCACTACTCAGGAGGGTGAGGCAGGAGAATTGCTTGAACCTGAGAGGTAGAGGCTGCAGTGAACCGAGATTGTGCCACTGCATTCCAGCCTGGGTGACAGGGTGAGACTCCATCTCAAAAAAAATAAAATAAAGATAAAATCATAAACACTCAAAAAAAAAAAAAAA
>gi|122056579|ref|NM_207373.2| Homo sapiens chromosome 10 open reading frame 99 (C10orf99), mRNA
AGGACTTCTGCAGCACAGCTCCCTTCCCAGGACGTGAAAATCTGCCTTCTCACCATGAGGCTTCTAGTCCTTTCCAGCCTGCTCTGTATCCTGCTTCTCTGCTTCTCCATCTTCTCCACAGAAGGGAAGAGGCGTCCTGCCAAGGCCTGGTCAGGCAGGAGAACCAGGCTCTGCTGCCACCGAGTCCCTAGCCCCAACTCAACAAACCTGAAAGGACATCATGTGAGGCTCTGTAAACCATGCAAGCTTGAGCCAGAGCCCCGCCTTTGGGTGGTGCCTGGGGCACTCCCACAGGTGTAGCACTCCCAAAGCAAGACTCCAGACAGCGGAGAACCTCATGCCTGGCACCTGAGGTACCCAGCAGCCTCCTGTCTCCCCTTTCAGCCTTCACAGCAGTGAGCTGCAATGTTGGAGGGCTTCATCTCGGGCTGCAAGGACCCTGGGAAAGTTCCAGAACTCCACGTCCTTGTCTCAATTGTGCCATCAACTTTCAGAGCTATCATGAGCCAACCTCACCCCACAGGGCCTCAGTCGCCACCATGTGGGCCTCTCCAGTGCAAACCACCGAGCATTCCACCATGACCGGTCACAGCTACAAATCCAGAGACCATCAATCCTGCTAGAGTGCAGGGTGGCAAGCACCCAAGGGTGGCTGACCAAGACTGCAGAGTCTCCTCCATCTTCAGGTCCATTCAGCCTCCTGGCATTTAACTACCAGCATCCAGTGGTCCCCAAGGAATCCCTTCCTAGCCTCCTGACATGAGTCTGCTGGAAAGAGCATCCAAACAAACAAGTAATAAATAAATAAATAAACTCAATGCAGACACAAAAAAAA
>gi|407892481|ref|NM_001145310.3| Homo sapiens leucine rich transmembrane and O-methyltransferase domain containing (LRTOMT), transcript variant 6, mRNA
CTGCCCTTTCGGACTCGGTTATGGAGGAGGCCTTCCGCTCGCAGCGGCCTCTCCAGCACCCCTTTTAGGCCTGAGCACCCGCAGGGGTGCCCAGGCCGCACGCCAAACGCGGGCCCGCGCCGGTTACCTGGCTGCGCGCTCCCGCTCTGCCTCGCGATTCTCCGGAATCGTACCTCTTCGTGGGCTCGCGCCAGCGCTGTGAGCGCACAATTAGTTTAAACTATGGCCCCGCCCCCTCGCGCTGCCCTCTGATTGGCCTCTGTCGGCGGGGCCCGCTTAAGGACCCGGGAAAAGGAAGTTTGAGGGCCACTGGGAAAGAGAAGGGGTATCACCGCTTCCGGACCCCGGCCTGTACTTGAAGGCAAAGAGAACTACAAATCCCAGCGTCACCCGCGGCCTTGAAGCCCCGCCCCTGACAAACTGAAGGTCCCGGTAAGCATCGCGTCAGTACTTATGGCGCCTGCCGGGTTGTGGTGACGAAAGCAGTTGCCATGGAGTTGCTCTGAGTAACCCTGAGGCAGTGGGACGCCAAGACTGGAGAGGAAGCGACTGCGGGGAGTATTTCCATTTTAACCGGAAACAATCCCTGAACCCACAGGAATGAATGCCTAATGGTGGAGTTTCAGCCATCAGTGACAGGCTGAACCCAGACTCCCAGGGCACCTGCTTGCACCTTTGAATGATGGCCTGAACTATGAACAAACGGGACTATATGAACACTTCGGTACAGGAGCCCCCTCTTGACTACTCCTTCAGAAGCATCCACGTCATTCAAGATCTGGTAAATGAGGAGCCAAGGACAGGACTACGACCACTGAAGCGTTCAAAGTCGGGGAAATCACTGACCCAGTCCCTGTGGCTGAATAACAATGTTCTCAATGATCTGAGAGACTTCAACCAGGTGGCTTCACAGCTGTTGGAGCACCCAGAGAACCTGGCCTGGATCGACCTGTCCTTTAATGACCTGACTTCCATTGACCCTGTCCTAACAACTTTCTTCAACCTGAGTGTCCTCTATCTTCACGGCAACAGCATCCAGCGCCTGGGGGAGGTGAATAAGCTGGCTGTCCTTCCTCGGCTCCGTAGCCTGACACTCCATGGGAACCCCATGGAGGAAGAGAAAGGGTATAGCAGGCCCTGGACTCCCCGACCTGTCCTGTGCTCTGGTCCTCCAGCCCAGCCTCCGAGACTGCCTGTCAGGGCTGCGGATCGAGGAGCGGGCCTTCAGCTACGTGCTCACCCATGCCCTGCCCGGTGACCCTGGTCACATCCTCACCACCCTGGACCACTGGAGCAGCCGCTGCGAGTACTTGAGCCACATGGGGCCTGTCAAAGGTCAGATCCTGATGCGGCTGGTGGAGGAGAAGGCCCCTGCTTGTGTGCTGGAATTGGGAACCTACTGTGGATACTCTACCCTGCTTATTGCCCGAGCCCTGCCCCCTGGGGGTCGCCTTCTTACTGTGGAGCGGGACCCACGCACGGCAGCAGTGGCTGAAAAACTCATCCGCCTGGCCGGCTTTGATGAGCACATGGTGGAGCTCATCGTGGGCAGCTCAGAGGACGTGATCCCGTGCCTACGCACCCAGTATCAGCTGAGTCGGGCAGACCTGGTGCTCCTGGCACACCGGCCACGATGTTACCTGAGGGACCTGCAGCTGCTGGAGGCCCATGCCCTACTGCCAGCAGGTGCCACCGTGCTGGCTGACCATGTGCTCTTCCCTGGTGCACCCCGCTTCTTGCAGTATGCTAAGAGCTGTGGCCGCTACCGCTGCCGCCTCCACCACACTGGCCTTCCAGACTTCCCTGCCATCAAGGATGGAATAGCTCAGCTCACCTATGCTGGACCAGGCTGAGGTCCAGGCCCAGGGGTACTTACTGATGCCCACCCCCACCCCCACCCAAGCAGGGACCTCAAAATCCCCTCCCTTTCCTGTTTGGGGCCTTGACACACGCTGGGCTCAGGGCTAGGGAGTCTCTCTTCCCACCTCTGACCTCTTTCAGCCTCTACACTGACCTCAAGTGTCAAGTTCTATCAGGCTGCTTGGTCTCACTAGGCCCCCTCTTTCCAGAGAGAACCATGGACTGACAGCAAGAAGCCTGAGCTCCCGACCCAGCTCTGTCACTGATTTGCTGAGTGACTCCAAGGGAATCCCCACCTTGCTCTGAGATTTAATCTTCTCTCTTAACACGAAGGAAGCTGGATGGGAGAGCTCCAGGGGCCTCCCAGTTCTCGGCCTCAGAAAGCCTCCCATCCTCAGCCCATGCCATTCTGGGTGGGATCAGAGGAAGTGGCAATGAGTTAGACGCCCTGCAGGAATAGCTGGATGCAAGCTGGGCCAGAGAAAATGGCACAGAACCCTGGACCCAGGGCCAGGGATGCCCTGGCCTTCCCTAACTCTGGCCCACCTAGCCAATTAGGTGTGGCTGATGTCCCTTGAGTGCCCTCTTCCTAAAGCCCAAAAGAAGATGCTGGACTCCTCTGGGCCCCACCAACAAATAGGGAATAGACATGGGTGGAAAATCACTCCTTTGTCTTTATTAAAGAAACTTAGACCAGACCTGGCAATCAAGGGGTGAGGTACTGGCCAGGAAGGTGGAGTAGGTTTCAGGCCCTGGGGATTTCAAGTGCAGACTGATGGCCTGGGAGGGGCCAAAGAGACCAGATCCTGGCAGCAGCTGAGGAGGTGCCCAAGGGCACTTTCAGGCACTGGGGCCATCAGCTGGTTCTGTGGGCAGGGGTTGGGGGTTGGGATGCAGGGTAGTTTGGGCTGGCCTGGAATCTCCCTGAGGCCACCCTGCCTTGTCTACCTAGATCATCCACTGGTCCTGATCCTGTTCGTTGCCTTCCATGTCCACCTGGAGAGGAGGCTGGGTGTGGGTGGGGAGGGGCCTCAGCCAGCCTCAGCCCCAGATCCTGCCCCTGGCTGGATCCAGGGTTTCTGTACCCCTTGGCCATCAACTGGGTCAGGAGCAAGGGTCCAGGAACAGAGGCCCTCCCCCATACCCCTTGCCTACCTCATTGACCTCTCCATCATCCGGTGACTCATTGTAGTCATTCATCTCGTCCATGTCCTGCATATCCTCATCATCCTCTGAGTCCTCTTCACTATCCTCATCATCTTCATCATCCTCTTCTTCCTCGTCATCATAGTGCTGGTGGGCAGGACAGAGCCTGTAAGCCCTACAGGCCTGCATGGACCAGTTCAAGAACTGACCCACTTGAGCCTCTCTCTAGGGCCAATGAATGACCCCCTACCCCGACACTCCCTCCTTGAGTCTAGCAGGCTGGTGCATGTTCTGCAGGACCTTAATGCTAGGCCCAATGCCCACCCCTTCTATCTCCCCTTTTAGGCTTTTACCCAGATCTGAGAACCACAACTGCTCTGGGTCAGAGACAGGACATTCAGAATTAGAGCAGAGCCTCGGTCCACTGCGGCCCCCACACAGGCCCCACCTGCTAGAGCCACTCACCTCTGAGGCTGGCTTGCCAATAGGAACCAGGTTGTTGTCTTTCTCCGCGATGCTTTGGAGCTGTGGGCAAAGGCACAGAGGAACAAGGCCAGAGCCCAAGTAGGGCAGGTCAGGGGCATGGGACTGGCCCATTCTGCCCAGAAGACAACCCACACGTGTTGGGGAGAAGCTTCCTCCCAGTTCTCAGGGAGATACAATCCCTTTCTTGTCATCTGCCATTTATGAACTTGATCCAAATA
>gi|407892480|ref|NM_001145309.3| Homo sapiens leucine rich transmembrane and O-methyltransferase domain containing (LRTOMT), transcript variant 5, mRNA
CTGCCCTTTCGGACTCGGTTATGGAGGAGGCCTTCCGCTCGCAGCGGCCTCTCCAGCACCCCTTTTAGGCCTGAGCACCCGCAGGGGTGCCCAGGCCGCACGCCAAACGCGGGCCCGCGCCGGTTACCTGGCTGCGCGCTCCCGCTCTGCCTCGCGATTCTCCGGAATCGTACCTCTTCGTGGGCTCGCGCCAGCGCTGTGAGCGCACAATTAGTTTAAACTATGGCCCCGCCCCCTCGCGCTGCCCTCTGATTGGCCTCTGTCGGCGGGGCCCGCTTAAGGACCCGGGAAAAGGAAGTTTGAGGGCCACTGGGAAAGAGAAGGGGTATCACCGCTTCCGGACCCCGGCCTGTACTTGAAGGCAAAGAGAACTACAAATCCCAGCGTCACCCGCGGCCTTGAAGCCCCGCCCCTGACAAACTGAAGGTCCCGGTAAGCATCGCGTCAGTACTTATGGCGCCTGCCGGGTTGTGGTGACGAAAGCAGTTGCCATGGAGTTGCTCTGAGTAACCCTGAGGCAGTGGGACGCCAAGACTGGAGAGGAAGCGACTGCGGGGAGTATTTCCATTTTAACCGGAAACAATCCCTGAACCCACAGGAATGAATGCCTAATGGTGGAGTTTCAGCCATCAGTGACAGGCTGAACCCAGACTCCCAGGGCACCTGCTTGCACCTTTGAATGATGGCCTGAACTATGAACAAACGGGACTATATGAACACTTCGGTACAGGAGCCCCCTCTTGACTACTCCTTCAGAAGCATCCACGTCATTCAAGATCTGGTAAATGAGGAGCCAAGGACAGGACTACGACCACTGAAGCGTTCAAAGTCGGGGAAATCACTGACCCAGTCCCTGTGGCTGAATAACAATGTTCTCAATGATCTGAGAGACTTCAACCAGGTGGCTTCACAGCTGTTGGAGCACCCAGAGAACCTGGCCTGGATCGACCTGTCCTTTAATGACCTGACTTCCATTGACCCTGTCCTAACAACTTTCTTCAACCTGAGTGTCCTCTATCTTCACGGCAACAGCATCCAGCGCCTGGGGGAGGTGAATAAGCTGGCTGTCCTTCCTCGGCTCCGTAGCCTGACACTCCATGGGAACCCCATGGAGGAAGAGAAAGGGTATAGCAGGCCCTGGACTCCCCGACCTGTCCTGTGCTCTGGTCCTCCAGCCCAGGGCCCAGGTAGGGACCATGTCCCCTGCCATTGCATTGGCCTTCCTGCCACTGGTGGTAACATTGCTGGTGCGGTACCGGCACTACTTCCGATTGCTGGTGCGCACGGTCTTGCTGCGAAGCCTCCGAGACTGCCTGTCAGGGCTGCGGATCGAGGAGCGGGCCTTCAGCTACGTGCTCACCCATGCCCTGCCCGGTGACCCTGGTCACATCCTCACCACCCTGGACCACTGGAGCAGCCGCTGCGAGTACTTGAGCCACATGGGGCCTGTCAAAGGTCAGATCCTGATGCGGCTGGTGGAGGAGAAGGCCCCTGCTTGTGTGCTGGAATTGGGAACCTACTGTGGATACTCTACCCTGCTTATTGCCCGAGCCCTGCCCCCTGGGGGTCGCCTTCTTACTGTGGAGCGGGACCCACGCACGGCAGCAGTGGCTGAAAAACTCATCCGCCTGGCCGGCTTTGATGAGCACATGGTGGAGCTCATCGTGGGCAGCTCAGAGGACGTGATCCCGTGCCTACGCACCCAGTATCAGCTGAGTCGGGCAGACCTGGTGCTCCTGGCACACCGGCCACGATGTTACCTGAGGGACCTGCAGCTGCTGGAGGCCCATGCCCTACTGCCAGCAGGTGCCACCGTGCTGGCTGACCATGTGCTCTTCCCTGGTGCACCCCGCTTCTTGCAGTATGCTAAGAGCTGTGGCCGCTACCGCTGCCGCCTCCACCACACTGGCCTTCCAGACTTCCCTGCCATCAAGGATGGAATAGCTCAGCTCACCTATGCTGGACCAGGCTGAGGTCCAGGCCCAGGGGTACTTACTGATGCCCACCCCCACCCCCACCCAAGCAGGGACCTCAAAATCCCCTCCCTTTCCTGTTTGGGGCCTTGACACACGCTGGGCTCAGGGCTAGGGAGTCTCTCTTCCCACCTCTGACCTCTTTCAGCCTCTACACTGACCTCAAGTGTCAAGTTCTATCAGGCTGCTTGGTCTCACTAGGCCCCCTCTTTCCAGAGAGAACCATGGACTGACAGCAAGAAGCCTGAGCTCCCGACCCAGCTCTGTCACTGATTTGCTGAGTGACTCCAAGGGAATCCCCACCTTGCTCTGAGATTTAATCTTCTCTCTTAACACGAAGGAAGCTGGATGGGAGAGCTCCAGGGGCCTCCCAGTTCTCGGCCTCAGAAAGCCTCCCATCCTCAGCCCATGCCATTCTGGGTGGGATCAGAGGAAGTGGCAATGAGTTAGACGCCCTGCAGGAATAGCTGGATGCAAGCTGGGCCAGAGAAAATGGCACAGAACCCTGGACCCAGGGCCAGGGATGCCCTGGCCTTCCCTAACTCTGGCCCACCTAGCCAATTAGGTGTGGCTGATGTCCCTTGAGTGCCCTCTTCCTAAAGCCCAAAAGAAGATGCTGGACTCCTCTGGGCCCCACCAACAAATAGGGAATAGACATGGGTGGAAAATCACTCCTTTGTCTTTATTAAAGAAACTTAGACCAGACCTGGCAATCAAGGGGTGAGGTACTGGCCAGGAAGGTGGAGTAGGTTTCAGGCCCTGGGGATTTCAAGTGCAGACTGATGGCCTGGGAGGGGCCAAAGAGACCAGATCCTGGCAGCAGCTGAGGAGGTGCCCAAGGGCACTTTCAGGCACTGGGGCCATCAGCTGGTTCTGTGGGCAGGGGTTGGGGGTTGGGATGCAGGGTAGTTTGGGCTGGCCTGGAATCTCCCTGAGGCCACCCTGCCTTGTCTACCTAGATCATCCACTGGTCCTGATCCTGTTCGTTGCCTTCCATGTCCACCTGGAGAGGAGGCTGGGTGTGGGTGGGGAGGGGCCTCAGCCAGCCTCAGCCCCAGATCCTGCCCCTGGCTGGATCCAGGGTTTCTGTACCCCTTGGCCATCAACTGGGTCAGGAGCAAGGGTCCAGGAACAGAGGCCCTCCCCCATACCCCTTGCCTACCTCATTGACCTCTCCATCATCCGGTGACTCATTGTAGTCATTCATCTCGTCCATGTCCTGCATATCCTCATCATCCTCTGAGTCCTCTTCACTATCCTCATCATCTTCATCATCCTCTTCTTCCTCGTCATCATAGTGCTGGTGGGCAGGACAGAGCCTGTAAGCCCTACAGGCCTGCATGGACCAGTTCAAGAACTGACCCACTTGAGCCTCTCTCTAGGGCCAATGAATGACCCCCTACCCCGACACTCCCTCCTTGAGTCTAGCAGGCTGGTGCATGTTCTGCAGGACCTTAATGCTAGGCCCAATGCCCACCCCTTCTATCTCCCCTTTTAGGCTTTTACCCAGATCTGAGAACCACAACTGCTCTGGGTCAGAGACAGGACATTCAGAATTAGAGCAGAGCCTCGGTCCACTGCGGCCCCCACACAGGCCCCACCTGCTAGAGCCACTCACCTCTGAGGCTGGCTTGCCAATAGGAACCAGGTTGTTGTCTTTCTCCGCGATGCTTTGGAGCTGTGGGCAAAGGCACAGAGGAACAAGGCCAGAGCCCAAGTAGGGCAGGTCAGGGGCATGGGACTGGCCCATTCTGCCCAGAAGACAACCCACACGTGTTGGGGAGAAGCTTCCTCCCAGTTCTCAGGGAGATACAATCCCTTTCTTGTCATCTGCCATTTATGAACTTGATCCAAATAAAAAAAAAAAAAAA
>gi|407892479|ref|NM_001271471.2| Homo sapiens leucine rich transmembrane and O-methyltransferase domain containing (LRTOMT), transcript variant 8, mRNA
CTGCCCTTTCGGACTCGGTTATGGAGGAGGCCTTCCGCTCGCAGCGGCCTCTCCAGCACCCCTTTTAGGCCTGAGCACCCGCAGGGGTGCCCAGGCCGCACGCCAAACGCGGGCCCGCGCCGGTTACCTGGCTGCGCGCTCCCGCTCTGCCTCGCGATTCTCCGGAATCGTACCTCTTCGTGGGCTCGCGCCAGCGCTGTGAGCGCACAATTAGTTTAAACTATGGCCCCGCCCCCTCGCGCTGCCCTCTGATTGGCCTCTGTCGGCGGGGCCCGCTTAAGGACCCGGGAAAAGGAAGTTTGAGGGCCACTGGGAAAGAGAAGGGGTATCACCGCTTCCGGACCCCGGCCTGTACTTGAAGGCAAAGAGAACTACAAATCCCAGCGTCACCCGCGGCCTTGAAGCCCCGCCCCTGACAAACTGAAGGTCCCGGTAAGCATCGCGTCAGTACTTATGGCGCCTGCCGGGTTGTGGTGACGAAAGCAGTTGCCATGGAGTTGCTCTGAGTAACCCTGAGGCAGTGGGACGCCAAGACTGGAGAGGAAGCGACTGCGGGGAGTATTTCCATTTTAACCGGAAACAATCCCTGAACCCACAGGAATGAATGCCTAATGGTGGAGTTTCAGCCATCAGTGACAGGCTGAACCCAGACTCCCAGGGCACCTGCTTGCACCTTTGAATGATGGCCTGAACTATGAACAAACGGGACTATATGAACACTTCGGTACAGGAGCCCCCTCTTGACTACTCCTTCAGAAGCATCCACGTCATTCAAGATCTGGTAAATGAGGAGCCAAGGACAGGACTACGACCACTGAAGCGTTCAAAGTCGGGGAAATCACTGACCCAGTCCCTGTGGCTGAATAACAATGTTCTCAATGATCTGAGAGACTTCAACCAGGTGGCTTCACAGCTGTTGGAGCACCCAGAGAACCTGGCCTGGATCGACCTGTCCTTTAATGACCTGACTTCCATTGACCCTGTCCTAACAACTTTCTTCAACCTGAGTGTCCTCTATCTTCACGGCAACAGCATCCAGCGCCTGGGGGAGGTGAATAAGCTGGCTGTCCTTCCTCGGCTCCGTAGCCTGACACTCCATGGGAACCCCATGGAGGAAGAGAAAGGGTATAGGTAAGTGCCCTGCCCCTGGAGGTAGCGTCTAGCTGGGCTCCCCTAAAGGAAAGGAGGAGGAGAAACAAGAAATCTACGACCATTCTTCTGCCATGCTTGGACCTGGGAAGGGAGTAACAGACCTCTAAGCATTCCTTGCTCTCAGTCAGGATAAACCTAATCTTTCCCAAACTATGCTCAAGTCCCTCCATTCCTTGCAGTCAGGGAAGACAACAGCAACTAGTGGAGGGGGAAGGGGATTCTGGTGGGGGTGCTGGCCCCCAGCCTAAGTCTTCCCCACAGGCAATATGTGCTGTGCACCCTGTCCCGTATCACCACGTTCGACTTCAGTGGGGTCACCAAAGCAGACCGCACCACAGCTGAAGTCTGGAAACGCATGAACATCAAGCCCAAGAAGGCCTGGACCAAGCAGAATACACTTTGAGGCTCCCACGACCCTAGTAGTCCTAAAGGCCTAAGCATAGACAGCATGGTTTGACAATAAATAATTTGAGCTGTTGAGCAGATGAGAAGTCACTTACACCTTGTAGAGATGTTCTCTAACTCAGGCAACTGCAAGTAGCTCTAGCCTTTTCTTTTCTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCACACAGGCTGGAGTGCAGTGGCACGATCTTGGCTCACTGCAACCTCAGCCTCCCAGGTTCAAGAGATTCTCCTGCCTCAGCCTCCCCAGTAGCTGTGATTAAAGGCGCCTGCCACCATGACTGGCTAATTTTGTTGTTGTTGTTGTTGTTTTGAGACGGTTTCACTCGTCACCCCAGCTGGAGTGCAGTGGTGCGATCTCAGCTCACTGCAACCTCCGCCTGCTGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCGCCTGCTACCACATCCAGCTAATTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAACTCCGCCTTCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTATAGGCACCTACTACCACGCCTGGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCCATCTCCTGACCTTGTGATCCACCCACCTCGGCTTCCCCCAGCTAATTTTTTATATTTTAGTAGAGACAAGGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGTCTGCTTTGGCCTCCCAAAGTGCTGGGATTAGAAGCGTGAGCCACCACGCCCAGCCTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTAGGATTACAGGATAAGCCACTGCACCTGGCCAGCTCTAGTCTTATTTTGCTGAAAAAGGGAGGCAATTGAGGGAAAGGCCTGCTGGCCTGGGACACTGGAGACGTGGGTTTACCACACAGCCTTGGGAAATTTATCTAACTCTCTGGGCCCCTTTGTACTTTTCAGCTTAGAGATTTGGGGGTTAAAGTAGATCAGTAATTTCCAAACTCTTCACAGAGTACCAGGGTCTGTAGAGATGCCTCACAGGCCTCCATGACAGGCCAAGAAGATGGCCTATGATCTCTGAAACCAGCCCCCACTTCAATCAGATCAAAGTAATTCCATTCTGTTTTATATGCTGGGATTCTGCTTAAGATTTCATTTGATAAAAAGAATCTTCTGCTTAAAAA
>gi|407892477|ref|NM_001145308.4| Homo sapiens leucine rich transmembrane and O-methyltransferase domain containing (LRTOMT), transcript variant 4, mRNA
CTGCCCTTTCGGACTCGGTTATGGAGGAGGCCTTCCGCTCGCAGCGGCCTCTCCAGCACCCCTTTTAGGCCTGAGCACCCGCAGGGGTGCCCAGGCCGCACGCCAAACGCGGGCCCGCGCCGGTTACCTGGCTGCGCGCTCCCGCTCTGCCTCGCGATTCTCCGGAATCGTACCTCTTCGTGGGCTCGCGCCAGCGCTGTGAGCGCACAATTAGTTTAAACTATGGCCCCGCCCCCTCGCGCTGCCCTCTGATTGGCCTCTGTCGGCGGGGCCCGCTTAAGGACCCGGGAAAAGGAAGTTTGAGGGCCACTGGGAAAGAGAAGGGGTATCACCGCTTCCGGACCCCGGCCTGTACTTGAAGGCAAAGAGAACTACAAATCCCAGCGTCACCCGCGGCCTTGAAGCCCCGCCCCTGACAAACTGAAGGTCCCGGTAAGCATCGCGTCAGTACTTATGGCGCCTGCCGGGTTGTGGTGACGAAAGCAGTTGCCATGGAGTTGCTCTGAGTAACCCTGAGGCAGTGGGACGCCAAGACTGGAGAGGAAGCGACTGCGGATCTGGTAAATGAGGAGCCAAGGACAGGACTACGACCACTGAAGCGTTCAAAGTCGGGGAAATCACTGACCCAGTCCCTGTGGCTGAATAACAATGTTCTCAATGATCTGAGAGACTTCAACCAGGTGGCTTCACAGCTGTTGGAGCACCCAGAGAACCTGGCCTGGATCGACCTGTCCTTTAATGACCTGACTTCCATTGACCCTGTCCTAACAACTTTCTTCAACCTGAGTGTCCTCTATCTTCACGGCAACAGCATCCAGCGCCTGGGGGAGGTGAATAAGCTGGCTGTCCTTCCTCGGCTCCGTAGCCTGACACTCCATGGGAACCCCATGGAGGAAGAGAAAGGGTATAGCAGGCCCTGGACTCCCCGACCTGTCCTGTGCTCTGGTCCTCCAGCCCAGGGCCCAGGTAGGGACCATGTCCCCTGCCATTGCATTGGCCTTCCTGCCACTGGTGGTAACATTGCTGGTGCGGTACCGGCACTACTTCCGATTGCTGGTGCGCACGGTCTTGCTGCGAAGCCTCCGAGACTGCCTGTCAGGGCTGCGGATCGAGGAGCGGGCCTTCAGCTACGTGCTCACCCATGCCCTGCCCGGTGACCCTGGTCACATCCTCACCACCCTGGACCACTGGAGCAGCCGCTGCGAGTACTTGAGCCACATGGGGCCTGTCAAAGGTCAGATCCTGATGCGGCTGGTGGAGGAGAAGGCCCCTGCTTGTGTGCTGGAATTGGGAACCTACTGTGGATACTCTACCCTGCTTATTGCCCGAGCCCTGCCCCCTGGGGGTCGCCTTCTTACTGTGGAGCGGGACCCACGCACGGCAGCAGTGGCTGAAAAACTCATCCGCCTGGCCGGCTTTGATGAGCACATGGTGGAGCTCATCGTGGGCAGCTCAGAGGACGTGATCCCGTGCCTACGCACCCAGTATCAGCTGAGTCGGGCAGACCTGGTGCTCCTGGCACACCGGCCACGATGTTACCTGAGGGACCTGCAGCTGCTGGAGGCCCATGCCCTACTGCCAGCAGGTGCCACCGTGCTGGCTGACCATGTGCTCTTCCCTGGTGCACCCCGCTTCTTGCAGTATGCTAAGAGCTGTGGCCGCTACCGCTGCCGCCTCCACCACACTGGCCTTCCAGACTTCCCTGCCATCAAGGATGGAATAGCTCAGCTCACCTATGCTGGACCAGGCTGAGGTCCAGGCCCAGGGGTACTTACTGATGCCCACCCCCACCCCCACCCAAGCAGGGACCTCAAAATCCCCTCCCTTTCCTGTTTGGGGCCTTGACACACGCTGGGCTCAGGGCTAGGGAGTCTCTCTTCCCACCTCTGACCTCTTTCAGCCTCTACACTGACCTCAAGTGTCAAGTTCTATCAGGCTGCTTGGTCTCACTAGGCCCCCTCTTTCCAGAGAGAACCATGGACTGACAGCAAGAAGCCTGAGCTCCCGACCCAGCTCTGTCACTGATTTGCTGAGTGACTCCAAGGGAATCCCCACCTTGCTCTGAGATTTAATCTTCTCTCTTAACACGAAGGAAGCTGGATGGGAGAGCTCCAGGGGCCTCCCAGTTCTCGGCCTCAGAAAGCCTCCCATCCTCAGCCCATGCCATTCTGGGTGGGATCAGAGGAAGTGGCAATGAGTTAGACGCCCTGCAGGAATAGCTGGATGCAAGCTGGGCCAGAGAAAATGGCACAGAACCCTGGACCCAGGGCCAGGGATGCCCTGGCCTTCCCTAACTCTGGCCCACCTAGCCAATTAGGTGTGGCTGATGTCCCTTGAGTGCCCTCTTCCTAAAGCCCAAAAGAAGATGCTGGACTCCTCTGGGCCCCACCAACAAATAGGGAATAGACATGGGTGGAAAATCACTCCTTTGTCTTTATTAAAGAAACTTAGACCAGACCTGGCAATCAAGGGGTGAGGTACTGGCCAGGAAGGTGGAGTAGGTTTCAGGCCCTGGGGATTTCAAGTGCAGACTGATGGCCTGGGAGGGGCCAAAGAGACCAGATCCTGGCAGCAGCTGAGGAGGTGCCCAAGGGCACTTTCAGGCACTGGGGCCATCAGCTGGTTCTGTGGGCAGGGGTTGGGGGTTGGGATGCAGGGTAGTTTGGGCTGGCCTGGAATCTCCCTGAGGCCACCCTGCCTTGTCTACCTAGATCATCCACTGGTCCTGATCCTGTTCGTTGCCTTCCATGTCCACCTGGAGAGGAGGCTGGGTGTGGGTGGGGAGGGGCCTCAGCCAGCCTCAGCCCCAGATCCTGCCCCTGGCTGGATCCAGGGTTTCTGTACCCCTTGGCCATCAACTGGGTCAGGAGCAAGGGTCCAGGAACAGAGGCCCTCCCCCATACCCCTTGCCTACCTCATTGACCTCTCCATCATCCGGTGACTCATTGTAGTCATTCATCTCGTCCATGTCCTGCATATCCTCATCATCCTCTGAGTCCTCTTCACTATCCTCATCATCTTCATCATCCTCTTCTTCCTCGTCATCATAGTGCTGGTGGGCAGGACAGAGCCTGTAAGCCCTACAGGCCTGCATGGACCAGTTCAAGAACTGACCCACTTGAGCCTCTCTCTAGGGCCAATGAATGACCCCCTACCCCGACACTCCCTCCTTGAGTCTAGCAGGCTGGTGCATGTTCTGCAGGACCTTAATGCTAGGCCCAATGCCCACCCCTTCTATCTCCCCTTTTAGGCTTTTACCCAGATCTGAGAACCACAACTGCTCTGGGTCAGAGACAGGACATTCAGAATTAGAGCAGAGCCTCGGTCCACTGCGGCCCCCACACAGGCCCCACCTGCTAGAGCCACTCACCTCTGAGGCTGGCTTGCCAATAGGAACCAGGTTGTTGTCTTTCTCCGCGATGCTTTGGAGCTGTGGGCAAAGGCACAGAGGAACAAGGCCAGAGCCCAAGTAGGGCAGGTCAGGGGCATGGGACTGGCCCATTCTGCCCAGAAGACAACCCACACGTGTTGGGGAGAAGCTTCCTCCCAGTTCTCAGGGAGATACAATCCCTTTCTTGTCATCTGCCATTTATGAACTTGATCCAAATAAAAAAAAAAAAAAA
>gi|1243057490|ref|NM_000040.2| Homo sapiens apolipoprotein C3 (APOC3), mRNA
AACCCTCCTGCCTGTCTGCTCAGTTCATCCCTAGAGGCAGCTGCTCCAGGAACAGAGGTGCCATGCAGCCCCGGGTACTCCTTGTTGTTGCCCTCCTGGCGCTCCTGGCCTCTGCCCGAGCTTCAGAGGCCGAGGATGCCTCCCTTCTCAGCTTCATGCAGGGTTACATGAAGCACGCCACCAAGACCGCCAAGGATGCACTGAGCAGCGTGCAGGAGTCCCAGGTGGCCCAGCAGGCCAGGGGCTGGGTGACCGATGGCTTCAGTTCCCTGAAAGACTACTGGAGCACCGTTAAGGACAAGTTCTCTGAGTTCTGGGATTTGGACCCTGAGGTCAGACCAACTTCAGCCGTGGCTGCCTGAGACCTCAATACCCCAAGTCCACCTGCCTATCCATCCTGCGAGCTCCTTGGGTCCTGCAATCTCCAGGGCTGCCCCTGTAGGTTGCTTAAAAGGGACAGTATTCTCAGTGCTCTCCTACCCCACCTCATGCCTGGCCCCCCTCCAGGCATGCTGGCCTCCCAATAAAGCTGGACAAGAAGCTGCTATGAGTAAAAAAAAAAAAAAA
>gi|1238777610|ref|NM_001354991.1| Homo sapiens interleukin 13 (IL13), transcript variant 2, mRNA
GCGCGGGGGCGCCCCTGCCCACCGCTCCCGGCAGGGCTTTTGGTGGCCATGGGGGATAAGGGGCGTTGACTCACCCGGGCGGGGCTCCGGGAGTTGCACAGACCAAGGCCCTGTGCCTCCCTCTACAGCCCTCAGGGAGCTCATTGAGGAGCTGGTCAACATCACCCAGAACCAGAAGGCTCCGCTCTGCAATGGCAGCATGGTATGGAGCATCAACCTGACAGCTGGCATGTACTGTGCAGCCCTGGAATCCCTGATCAACGTGTCAGGCTGCAGTGCCATCGAGAAGACCCAGAGGATGCTGAGCGGATTCTGCCCGCACAAGGTCTCAGCTGGGCAGTTTTCCAGCTTGCATGTCCGAGACACCAAAATCGAGGTGGCCCAGTTTGTAAAGGACCTGCTCTTACATTTAAAGAAACTTTTTCGCGAGGGACAGTTCAACTGAAACTTCGAAAGCATCATTATTTGCAGAGACAGGACCTGACTATTGAAGTTGCAGATTCATTTTTCTTTCTGATGTCAAAAATGTCTTGGGTAGGCGGGAAGGAGGGTTAGGGAGGGGTAAAATTCCTTAGCTTAGACCTCAGCCTGTGCTGCCCGTCTTCAGCCTAGCCGACCTCAGCCTTCCCCTTGCCCAGGGCTCAGCCTGGTGGGCCTCCTCTGTCCAGGGCCCTGAGCTCGGTGGACCCAGGGATGACATGTCCCTACACCCCTCCCCTGCCCTAGAGCACACTGTAGCATTACAGTGGGTGCCCCCCTTGCCAGACATGTGGTGGGACAGGGACCCACTTCACACACAGGCAACTGAGGCAGACAGCAGCTCAGGCACACTTCTTCTTGGTCTTATTTATTATTGTGTGTTATTTAAATGAGTGTGTTTGTCACCGTTGGGGATTGGGGAAGACTGTGGCTGCTAGCACTTGGAGCCAAGGGTTCAGAGACTCAGGGCCCCAGCACTAAAGCAGTGGACACCAGGAGTCCCTGGTAATAAGTACTGTGTACAGAATTCTGCTACCTCACTGGGGTCCTGGGGCCTCGGAGCCTCATCCGAGGCAGGGTCAGGAGAGGGGCAGAACAGCCGCTCCTGTCTGCCAGCCAGCAGCCAGCTCTCAGCCAACGAGTAATTTATTGTTTTTCCTTGTATTTAAATATTAAATATGTTAGCAAAGAGTTAATATATAGAAGGGTACCTTGAACACTGGGGGAGGGGACATTGAACAAGTTGTTTCATTGACTATCAAACTGAAGCCAGAAATAAAGTTGGTGACAGAT
>gi|1238777608|ref|NM_001354992.1| Homo sapiens interleukin 13 (IL13), transcript variant 3, mRNA
GCGCGGGGGCGCCCCTGCCCACCGCTCCCGGCAGGGCTTTTGGTGGCCATGGGGGATAAGGGGCGTTGACTCACCCGGGCGGGGCTCCGGGAGTTGCACAGACCAAGGCAAATGCCGTGGCCTCTGCTGTGGGGGTTTCTGGAGGACTTCTAGGAAAACGAGGGAAGAGCAGGAAAAGGCGACATGGCTGCAGGGGCCAAGCCCAGGAGCCGCCCTCCACAGCACTCATTCTGCAGAAGGGAAATTTGAGGCCCCCAGACGGCAGGGGTTGATCCTGCAGAGACTGGCCCTGTGCCTCCCTCTACAGCCCTCAGGGAGCTCATTGAGGAGCTGGTCAACATCACCCAGAACCAGAAGGCTCCGCTCTGCAATGGCAGCATGGTATGGAGCATCAACCTGACAGCTGGCATGTACTGTGCAGCCCTGGAATCCCTGATCAACGTGTCAGGCTGCAGTGCCATCGAGAAGACCCAGAGGATGCTGAGCGGATTCTGCCCGCACAAGGTCTCAGCTGGGCAGTTTTCCAGCTTGCATGTCCGAGACACCAAAATCGAGGTGGCCCAGTTTGTAAAGGACCTGCTCTTACATTTAAAGAAACTTTTTCGCGAGGGACAGTTCAACTGAAACTTCGAAAGCATCATTATTTGCAGAGACAGGACCTGACTATTGAAGTTGCAGATTCATTTTTCTTTCTGATGTCAAAAATGTCTTGGGTAGGCGGGAAGGAGGGTTAGGGAGGGGTAAAATTCCTTAGCTTAGACCTCAGCCTGTGCTGCCCGTCTTCAGCCTAGCCGACCTCAGCCTTCCCCTTGCCCAGGGCTCAGCCTGGTGGGCCTCCTCTGTCCAGGGCCCTGAGCTCGGTGGACCCAGGGATGACATGTCCCTACACCCCTCCCCTGCCCTAGAGCACACTGTAGCATTACAGTGGGTGCCCCCCTTGCCAGACATGTGGTGGGACAGGGACCCACTTCACACACAGGCAACTGAGGCAGACAGCAGCTCAGGCACACTTCTTCTTGGTCTTATTTATTATTGTGTGTTATTTAAATGAGTGTGTTTGTCACCGTTGGGGATTGGGGAAGACTGTGGCTGCTAGCACTTGGAGCCAAGGGTTCAGAGACTCAGGGCCCCAGCACTAAAGCAGTGGACACCAGGAGTCCCTGGTAATAAGTACTGTGTACAGAATTCTGCTACCTCACTGGGGTCCTGGGGCCTCGGAGCCTCATCCGAGGCAGGGTCAGGAGAGGGGCAGAACAGCCGCTCCTGTCTGCCAGCCAGCAGCCAGCTCTCAGCCAACGAGTAATTTATTGTTTTTCCTTGTATTTAAATATTAAATATGTTAGCAAAGAGTTAATATATAGAAGGGTACCTTGAACACTGGGGGAGGGGACATTGAACAAGTTGTTTCATTGACTATCAAACTGAAGCCAGAAATAAAGTTGGTGACAGAT
>gi|1238777596|ref|NM_001354993.1| Homo sapiens interleukin 13 (IL13), transcript variant 4, mRNA
GCGCGGGGGCGCCCCTGCCCACCGCTCCCGGCAGGGCTTTTGGTGGCCATGGGGGATAAGGGGCGTTGACTCACCCGGGCGGGGCTCCGGGAGTTGCACAGACCAAGGCAAATGCCGTGGCCTCTGCTGTGGGGGTTTCTGGAGGACTTCTAGGAAAACGAGGGAAGAGCAGGAAAAGGCGACATGGCTGCAGGGGCCAAGCCCAGGAGCCGCCCTCCACAGCACTCATTCTGCAGAAGGGAAATTTGAGGCCCCCAGACGGCAGGGGTTGATCCTGCAGAGACTGGCTCCGCTCTGCAATGGCAGCATGGTATGGAGCATCAACCTGACAGCTGGCATGTACTGTGCAGCCCTGGAATCCCTGATCAACGTGTCAGGCTGCAGTGCCATCGAGAAGACCCAGAGGATGCTGAGCGGATTCTGCCCGCACAAGGTCTCAGCTGGGCAGTTTTCCAGCTTGCATGTCCGAGACACCAAAATCGAGGTGGCCCAGTTTGTAAAGGACCTGCTCTTACATTTAAAGAAACTTTTTCGCGAGGGACAGTTCAACTGAAACTTCGAAAGCATCATTATTTGCAGAGACAGGACCTGACTATTGAAGTTGCAGATTCATTTTTCTTTCTGATGTCAAAAATGTCTTGGGTAGGCGGGAAGGAGGGTTAGGGAGGGGTAAAATTCCTTAGCTTAGACCTCAGCCTGTGCTGCCCGTCTTCAGCCTAGCCGACCTCAGCCTTCCCCTTGCCCAGGGCTCAGCCTGGTGGGCCTCCTCTGTCCAGGGCCCTGAGCTCGGTGGACCCAGGGATGACATGTCCCTACACCCCTCCCCTGCCCTAGAGCACACTGTAGCATTACAGTGGGTGCCCCCCTTGCCAGACATGTGGTGGGACAGGGACCCACTTCACACACAGGCAACTGAGGCAGACAGCAGCTCAGGCACACTTCTTCTTGGTCTTATTTATTATTGTGTGTTATTTAAATGAGTGTGTTTGTCACCGTTGGGGATTGGGGAAGACTGTGGCTGCTAGCACTTGGAGCCAAGGGTTCAGAGACTCAGGGCCCCAGCACTAAAGCAGTGGACACCAGGAGTCCCTGGTAATAAGTACTGTGTACAGAATTCTGCTACCTCACTGGGGTCCTGGGGCCTCGGAGCCTCATCCGAGGCAGGGTCAGGAGAGGGGCAGAACAGCCGCTCCTGTCTGCCAGCCAGCAGCCAGCTCTCAGCCAACGAGTAATTTATTGTTTTTCCTTGTATTTAAATATTAAATATGTTAGCAAAGAGTTAATATATAGAAGGGTACCTTGAACACTGGGGGAGGGGACATTGAACAAGTTGTTTCATTGACTATCAAACTGAAGCCAGAAATAAAGTTGGTGACAGAT
>gi|1237938321|ref|NM_001354825.1| Homo sapiens PPARG coactivator 1 alpha (PPARGC1A), transcript variant 5, mRNA
GCGGTCTCTCGCTCTGCGCGCACACACCACACACACGCACACGCACACACACGCGCGCACACACGCAGCCGGCACAGGCGGCGGCGGCGGCTGCCCAAGTCAGGACGAACCTATCTAGGTACCGTCTTGAGAAGGCGGCAGCGGCGGCGGCGGCGGCGGCGGCGGCAGCCCGAGCATCCCTCCTCTCCCGGAGAGGGAGCACCGCCGAGAGTTTCCGTTCCCTTTGCCATTCCCTTCCCCCTCCTTTTCTTTTATTTTCGAGAGAATTTCTTCTTGGCTTATTGGTTTAATTTGATTTTTAAAATTTTGGGTTGCTTTTGTGTATGTGTGCTTTTTTTTTCTTTCCTCATTTTATTTGCATCCAGAGCATGGCGGGCTGCGGGCTGTCGGAAGACACCCTCTTCTCTTCCTTCTTTTACAACTACGGCTCCTCCTGGGAAACCCCTTCCAACCAGTCTGCCCCTGGACTGCCCTGGCTGCTGCTTTGGTAAAAGCTTGCAAGGAGAGAGAGTAACAGCCGCTGGCGAATCCAGTTTGTGCAAGCAGCATCAGCAATGGATGAGACCTCCCCAAGGCTGGAAGAAGACTGGAAAAAAGTACTTCAGCGAGAAGCAGGCTGGCAGTGTGCTGCTCTGGTTGGTGAAGACCAGCCTCTTTGCCCAGATCTTCCTGAACTTGATCTTTCTGAACTAGATGTGAACGACTTGGATACAGACAGCTTTCTGGGTGGACTCAAGTGGTGCAGTGACCAATCAGAAATAATATCCAATCAGTACAACAATGAGCCTTCAAACATATTTGAGAAGATAGATGAAGAGAATGAGGCAAACTTGCTAGCAGTCCTCACAGAGACACTAGACAGTCTCCCTGTGGATGAAGACGGATTGCCCTCATTTGATGCGCTGACAGATGGAGACGTGACCACTGACAATGAGGCTAGTCCTTCCTCCATGCCTGACGGCACCCCTCCACCCCAGGAGGCAGAAGAGCCGTCTCTACTTAAGAAGCTCTTACTGGCACCAGCCAACACTCAGCTAAGTTATAATGAATGCAGTGGTCTCAGTACCCAGAACCATGCAAATCACAATCACAGGATCAGAACAAACCCTGCAATTGTTAAGACTGAGAATTCATGGAGCAATAAAGCGAAGAGTATTTGTCAACAGCAAAAGCCACAAAGACGTCCCTGCTCGGAGCTTCTCAAATATCTGACCACAAACGATGACCCTCCTCACACCAAACCCACAGAGAACAGAAACAGCAGCAGAGACAAATGCACCTCCAAAAAGAAGTCCCACACACAGTCGCAGTCACAACACTTACAAGCCAAACCAACAACTTTATCTCTTCCTCTGACCCCAGAGTCACCAAATGACCCCAAGGGTTCCCCATTTGAGAACAAGACTATTGAACGCACCTTAAGTGTGGAACTCTCTGGAACTGCAGGCCTAACTCCACCCACCACTCCTCCTCATAAAGCCAACCAAGATAACCCTTTTAGGGCTTCTCCAAAGCTGAAGTCCTCTTGCAAGACTGTGGTGCCACCACCATCAAAGAAGCCCAGGTACAGTGAGTCTTCTGGTACACAAGGCAATAACTCCACCAAGAAAGGGCCGGAGCAATCCGAGTTGTATGCACAACTCAGCAAGTCCTCAGTCCTCACTGGTGGACACGAGGAAAGGAAGACCAAGCGGCCCAGTCTGCGGCTGTTTGGTGACCATGACTATTGCCAGTCAATTAATTCCAAAACAGAAATACTCATTAATATATCACAGGAGCTCCAAGACTCTAGACAACTAGAAAATAAAGATGTCTCCTCTGATTGGCAGGGGCAGATTTGTTCTTCCACAGATTCAGACCAGTGCTACCTGAGAGAGACTTTGGAGGCAAGCAAGCAGGTCTCTCCTTGCAGCACAAGAAAACAGCTCCAAGACCAGGAAATCCGAGCCGAGCTGAACAAGCACTTCGGTCATCCCAGTCAAGCTGTTTTTGACGACGAAGCAGACAAGACCGGTGAACTGAGGGACAGTGATTTCAGTAATGAACAATTCTCCAAACTACCTATGTTTATAAATTCAGGACTAGCCATGGATGGCCTGTTTGATGACAGCGAAGATGAAAGTGATAAACTGAGCTACCCTTGGGATGGCACGCAATCCTATTCATTGTTCAATGTGTCTCCTTCTTGTTCTTCTTTTAACTCTCCATGTAGAGATTCTGTGTCACCACCCAAATCCTTATTTTCTCAAAGACCCCAAAGGATGCGCTCTCGTTCAAGGTCCTTTTCTCGACACAGGTCGTGTTCCCGATCACCATATTCCAGGTCAAGATCAAGGTCTCCAGGCAGTAGATCCTCTTCAAGATCCTGCTATTACTATGAGTCAAGCCACTACAGACACCGCACGCACCGAAATTCTCCCTTGTATGTGAGATCACGTTCAAGATCGCCCTACAGCCGTCGGCCCAGGTATGACAGCTACGAGGAATATCAGCACGAGAGGCTGAAGAGGGAAGAATATCGCAGAGAGTATGAGAAGCGAGAGTCTGAGAGGGCCAAGCAAAGGGAGAGGCAGAGGCAGAAGGCAATTGAAGAGCGCCGTGTGATTTATGTCGGTAAAATCAGACCTGACACAACACGGACAGAACTGAGGGACCGTTTTGAAGTTTTTGGTGAAATTGAGGAGTGCACAGTAAATCTGCGGGATGATGGAGACAGCTATGGTTTCATTACCTACCGTTATACCTGTGATGCTTTTGCTGCTCTTGAAAATGGATACACTTTGCGCAGGTCAAACGAAACTGACTTTGAGCTGTACTTTTGTGGACGCAAGCAATTTTTCAAGTCTAACTATGCAGACCTAGATTCAAACTCAGATGACTTTGACCCTGCTTCCACCAAGAGCAAGTATGACTCTCTGGATTTTGATAGTTTACTGAAAGAAGCTCAGAGAAGCTTGCGCAGGTAACATGTTCCCTAGCTGAGGATGACAGAGGGATGGCGAATACCTCATGGGACAGCGCGTCCTTCCCTAAAGACTATTGCAAGTCATACTTAGGAATTTCTCCTACTTTACACTCTCTGTACAAAAACAAAACAAAACAACAACAATACAACAAGAACAACAACAACAATAACAACAATGGTTTACATGAACACAGCTGCTGAAGAGGCAAGAGACAGAATGATATCCAGTAAGCACATGTTTATTCATGGGTGTCAGCTTTGCTTTTCCTGGAGTCTCTTGGTGATGGAGTGTGCGTGTGTGCATGTATGTGTGTGTGTATGTATGTGTGTGGTGTGTGTGCTTGGTTTAGGGGAAGTATGTGTGGGTACATGTGAGGACTGGGGGCACCTGACCAGAATGCGCAAGGGCAAACCATTTCAAATGGCAGCAGTTCCATGAAGACACGCTTAAAACCTAGAACTTCAAAATGTTCGTATTCTATTCAAAAGGAAATATATATATATATATATATATATATATATATATATATAAATTAAAAAGGAAAGAAAACTAACAACCAACCAACCAACCAACCAACCACAAACCACCCTAAAATGACAGCCGCTGATGTCTGGGCATCAGCCTTTGTACTCTGTTTTTTTAAGAAAGTGCAGAATCAACTTGAAGCAAGCTTTCTCTCATAACGTAATGATTATATGACAATCCTGAAGAAACCACAGGTTCCATAGAACTAATATCCTGTCTCTCTCTCTCTCTCTCTCTCTCTCTTTTTTTTTTCTTTTTCCTTTTGCCATGGAATCTGGGTGGGAGAGGATACTGCGGGCACCAGAATGCTAAAGTTTCCTAACATTTTGAAGTTTCTGTAGTTCATCCTTAATCCTGACACCCATGTAAATGTCCAAAATGTTGATCTTCCACTGCAAATTTCAAAAGCCTTGTCAATGGTCAAGCGTGCAGCTTGTTCAGCGGTTCTTTCTGAGGAGCGGACACCGGGTTACATTACTAATGAGAGTTGGGTAGAACTCTCTGAGATGTGTTCAGATAGTGTAATTGCTACATTCTCTGATGTAGTTAAGTATTTACAGATGTTAAATGGAGTATTTTTATTTTATGTATATACTATACAACAATGTTCTTTTTTGTTACAGCTATGCACTGTAAATGCAGCCTTCTTTTCAAAACTGCTAAATTTTTCTTAATCAAGAATATTCAAATGTAATTATGAGGTGAAACAATTATTGTACACTAACATATTTAGAAGCTGAACTTACTGCTTATATATATTTGATTGTAAAAACAAAAAGACAGTGTGTGTGTCTGTTGAGTGCAACAAGAGCAAAATGATGCTTTCCGCACATCCATCCCTTAGGTGAGCTTCAATCTAAGCATCTTGTCAAGAAATATCCTAGTCCCCTAAAGGTATTAACCACTTCTGCGATATTTTTCCACATTTTCTTGTCGCTTGTTTTTCTTTGAAGTTTTATACACTGGATTTGTTAGGGGAATGAAATTTTCTCATCTAAAATTTTTCTAGAAGATATCATGATTTTATGTAAAGTCTCTCAATGGGTAACCATTAAGAAATGTTTTTATTTTCTCTATCAACAGTAGTTTTGAAACTAGAAGTCAAAAATCTTTTTAAAATGCTGTTTTGTTTTAATTTTTGTGATTTTAATTTGATACAAAATGCTGAGGTAATAATTATAGTATGATTTTTACAATAATTAATGTGTGTCTGAAGACTATCTTTGAAGCCAGTATTTCTTTCCCTTGGCAGAGTATGACGATGGTATTTATCTGTATTTTTTACAGTTATGCATCCTGTATAAATACTGATATTTCATTCCTTTGTTTACTAAAGAGACATATTTATCAGTTGCAGATAGCCTATTTATTATAAATTATGAGATGATGAAAATAATAAAGCCAGTGGAAATTTTCTACCTAGGATGCATGACAATTGTCAGGTTGGAGTGTAAGTGCTTCATTTGGGAAATTCAGCTTTTGCAGAAGCAGTGTTTCTACTTGCACTAGCATGGCCTCTGACGTGACCATGGTGTTGTTCTTGATGACATTGCTTCTGCTAAATTTAATAAAAACTTCAGAAAAACCTCCATTTTGATCATCAGGATTTCATCTGAGTGTGGAGTCCCTGGAATGGAATTCAGTAACATTTGGAGTGTGTATTCAAGTTTCTAAATTGAGATTCGATTACTGTTTGGCTGACATGACTTTTCTGGAAGACATGATACACCTACTACTCAATTGTTCTTTTCCTTTCTCTCGCCCAACACGATCTTGTAAGATGGATTTCACCCCCAGGCCAATGCAGCTAATTTTGATAGCTGCATTCATTTATCACCAGCATATTGTGTTCTGAGTGAATCCACTGTTTGTCCTGTCGGATGCTTGCTTGATTTTTTGGCTTCTTATTTCTAAGTAGATAGAAAGCAATAAAAATACTATGAAATGAAAGAACTTGTTCACAGGTTCTGCGTTACAACAGTAACACATCTTTAATCCGCCTAATTCTTGTTGTTCTGTAGGTTAAATGCAGGTATTTTAACTGTGTGAACGCCAAACTAAAGTTTACAGTCTTTCTTTCTGAATTTTGAGTATCTTCTGTTGTAGAATAATAATAAAAAGACTATTAAGAGCAATAAATTATTTTTAAGAAATCGAGATTTAGTAAATCCTATTATGTGTTCAAGGACCACATGTGTTCTCTATTTTGCCTTTAAATTTTTGTGAACCAATTTTAAATACATTCTCCTTTTTGCCCTGGATTGTTGACATGAGTGGAATACTTGGTTTCTTTTCTTACTTATCAAAAGACAGCACTACAGATATCATATTGAGGATTAATTTATCCCCCCTACCCCCAGCCTGACAAATATTGTTACCATGAAGATAGTTTTCCTCAATGGACTTCAAATTGCATCTAGAATTAGTGGAGCTTTTGTATCTTCTGCAGACACTGTGGGTAGCCCATCAAAATGTAAGCTGTGCTCCTCTCATTTTTATTTTTATTTTTTTGGGAGAGAATATTTCAAATGAACACGTGCACCCCATCATCACTGGAGGCAAATTTCAGCATAGATCTGTAGGATTTTTAGAAGACCGTGGGCCATTGCCTTCATGCCGTGGTAAGTACCACATCTACAATTTTGGTAACCGAACTGGTGCTTTAGTAATGTGGATTTTTTTCTTTTTTAAAAGAGATGTAGCAGAATAATTCTTCCAGTGCAACAAAATCAATTTTTTGCTAAACGACTCCGAGAACAACAGTTGGGCTGTCAACATTCAAAGCAGCAGAGAGGGAACTTTGCACTATTGGGGTATGATGTTTGGGTCAGTTGATAAAAGGAAACCTTTTCATGCCTTTAGATGTGAGCTTCCAGTAGGTAATGATTATGTGTCCTTTCTTGATGGCTGTAATGAGAACTTCAATCACTGTAGTCTAAGACCTGATCTATAGATGACCTAGAATAGCCATGTACTATAATGTGATGATTCTAAATTTGTACCTATGTGACAGACATTTTCAATAATGTGAACTGCTGATTTGATGGAGCTACTTTAAGATTTGTAGGTGAAAGTGTAATACTGTTGGTTGAACTATGCTGAAGAGGGAAAGTGAGCGATTAGTTGAGCCCTTGCCGGGCCTTTTTTCCACCTGCCAATTCTACATGTATTGTTGTGGTTTTATTCATTGTATGAAAATTCCTGTGATTTTTTTTAAATGTGCAGTACACATCAGCCTCACTGAGCTAATAAAGGGAAACGAATGTTTCAAATCTA
>gi|1237937873|ref|NM_001354827.1| Homo sapiens PPARG coactivator 1 alpha (PPARGC1A), transcript variant 7, mRNA
GCGGTCTCTCGCTCTGCGCGCACACACCACACACACGCACACGCACACACACGCGCGCACACACGCAGCCGGCACAGGCGGCGGCGGCGGCTGCCCAAGTCAGGACGAACCTATCTAGGTACCGTCTTGAGAAGGCGGCAGCGGCGGCGGCGGCGGCGGCGGCGGCAGCCCGAGCATCCCTCCTCTCCCGGAGAGGGAGCACCGCCGAGAGTTTCCGTTCCCTTTGCCATTCCCTTCCCCCTCCTTTTCTTTTATTTTCGAGAGAATTTCTTCTTGGCTTATTGGTTTAATTTGATTTTTAAAATTTTGGGTTGCTTTTGTGTATGTGTGCTTTTTTTTTCTTTCCTCATTTTATTTGCATCCAGAGCATGGCGGGCTGCGGGCTGTCGGAAGACACCCTCTTCTCTTCCTTCTTTTACAACTACGGCTCCTCCTGGGAAACCCCTTCCAACCAGTCTGCCCCTGGACTGCCCTGGCTGCTGCTTTGGTAAAAGCTTGCAAGGAGAGAGAGTAACAGCCGCTGGCGAATCCAGTTTGTGCAAGCAGCATCAGCAATGGATGAGACCTCCCCAAGGCTGGAAGAAGACTGGAAAAAAGTACTTCAGCGAGAAGCAGGCTGGCAGTGTGCTGCTCTGGTTGGTGAAGACCAGCCTCTTTGCCCAGATCTTCCTGAACTTGATCTTTCTGAACTAGATGTGAACGACTTGGATACAGACAGCTTTCTGGGTGGACTCAAGTGGTGCAGTGACCAATCAGAAATAATATCCAATCAGTACAACAATGAGCCTTCAAACATATTTGAGAAGATAGATGAAGAGAATGAGGCAAACTTGCTAGCAGTCCTCACAGAGACACTAGACAGTCTCCCTGTGGATGAAGACGGATTGCCCTCATTTGATGCGCTGACAGATGGAGACGTGACCACTGACAATGAGGCTAGTCCTTCCTCCATGCCTGACGGCACCCCTCCACCCCAGGAGGCAGAAGAGCCGTCTCTACTTAAGAAGCTCTTACTGGCACCAGCCAACACTCAGCTAAGTTATAATGAATGCAGTGGTCTCAGTACCCAGAACCATGCAAATCACAATCACAGGATCAGAACAAACCCTGCAATTGTTAAGACTGAGAATTCATGGAGCAATAAAGCGAAGAGTATTTGTCAACAGCAAAAGCCACAAAGACGTCCCTGCTCGGAGCTTCTCAAATATCTGACCACAAACGATGACCCTCCTCACACCAAACCCACAGAGAACAGAAACAGCAGCAGAGACAAATGCACCTCCAAAAAGAAGTCCCACACACAGTCGCAGTCACAACACTTACAAGCCAAACCAACAACTTTATCTCTTCCTCTGACCCCAGAGTCACCAAATGACCCCAAGGGTTCCCCATTTGAGAACAAGACTATTGAACGCACCTTAAGTGTGGAACTCTCTGGAACTGCAGGCCTAACTCCACCCACCACTCCTCCTCATAAAGCCAACCAAGATAACCCTTTTAGGGCTTCTCCAAAGCTGAAGTCCTCTTGCAAGACTGTGGTGCCACCACCATCAAAGAAGCCCAGGTACAGTGAGTCTTCTGGTACACAAGGCAATAACTCCACCAAGAAAGGGCCGGAGCAATCCGAGTTGTATGCACAACTCAGCAAGTCCTCAGTCCTCACTGGTGGACACGAGGAAAGGAAGACCAAGCGGCCCAGTCTGCGGCTGTTTGGTGACCATGACTATTGCCAGTCAATTAATTCCAAAACAGAAATACTCATTAATATATCACAGGAGCTCCAAGACTCTAGACAACTAGAAAATAAAGATGTCTCCTCTGATTGGCAGGGGCAGATTTGTTCTTCCACAGATTCAGACCAGTGCTACCTGAGAGAGACTTTGGAGGCAAGCAAGCAGGTCTCTCCTTGCAGCACAAGAAAACAGCTCCAAGACCAGGAAATCCGAGCCGAGCTGAACAAGCACTTCGGTCATCCCAGTCAAGCTGTTTTTGACGACGAAGCAGACAAGACCGGTGAACTGAGGGACAGTGATTTCAGTAATGAACAATTCTCCAAACTACCTATGTTTATAAATTCAGGACTAGCCATGGATGGCCTGTTTGATGACAGCGAAGATGAAAGTGATAAACTGAGCTACCCTTGGGATGGCACGCAATCCTATTCATTGTTCAATGTGTCTCCTTCTTGTTCTTCTTTTAACTCTCCATGTAGAGATTCTGTGTCACCACCCAAATCCTTATTTTCTCAAAGACCCCAAAGGATGCGCTCTCGTTCAAGGTCCTTTTCTCGACACAGGTCGTGTTCCCGATCACCATATTCCAGGTCAAGATCAAGGTCTCCAGGCAGTAGATCCTCTTCAAGATCCTGCTATTACTATGAGTCAAGCCACTACAGACACCGCACGCACCGAAATTCTCCCTTGTATGTGAGATCACGTTCAAGATCGCCCTACAGCCGTCGGCCCAGGTATGACAGCTACGAGGAATATCAGCACGAGAGGCTGAAGAGGGAAGAATATCGCAGAGAGTATGAGAAGCGAGAGTCTGAGAGGGCCAAGCAAAGGGAGAGGCAGAGGCAGAAGGCAATTGAAGAGCGCCGTGTGATTTATGTCGGTAAAATCAGACCTGACACAACACGGACAGAACTGAGGGACCGTTTTGAAGTTTTTGGTGAAATTGAGGAGTGCACAGTAAATCTGCGGGATGATGGCTATGGTTTCATTACCTACCGTTATACCTGTGATGCTTTTGCTGCTCTTGAAAATGGATACACTTTGCGCAGGTCAAACGAAACTGACTTTGAGCTGTACTTTTGTGGACGCAAGCAATTTTTCAAGTCTAACTATGCAGACCTAGATTCAAACTCAGATGACTTTGACCCTGCTTCCACCAAGAGCAAGTATGACTCTCTGGATTTTGATAGTTTACTGAAAGAAGCTCAGAGAAGCTTGCGCAGGTAACATGTTCCCTAGCTGAGGATGACAGAGGGATGGCGAATACCTCATGGGACAGCGCGTCCTTCCCTAAAGACTATTGCAAGTCATACTTAGGAATTTCTCCTACTTTACACTCTCTGTACAAAAACAAAACAAAACAACAACAATACAACAAGAACAACAACAACAATAACAACAATGGTTTACATGAACACAGCTGCTGAAGAGGCAAGAGACAGAATGATATCCAGTAAGCACATGTTTATTCATGGGTGTCAGCTTTGCTTTTCCTGGAGTCTCTTGGTGATGGAGTGTGCGTGTGTGCATGTATGTGTGTGTGTATGTATGTGTGTGGTGTGTGTGCTTGGTTTAGGGGAAGTATGTGTGGGTACATGTGAGGACTGGGGGCACCTGACCAGAATGCGCAAGGGCAAACCATTTCAAATGGCAGCAGTTCCATGAAGACACGCTTAAAACCTAGAACTTCAAAATGTTCGTATTCTATTCAAAAGGAAATATATATATATATATATATATATATATATATATATATAAATTAAAAAGGAAAGAAAACTAACAACCAACCAACCAACCAACCAACCACAAACCACCCTAAAATGACAGCCGCTGATGTCTGGGCATCAGCCTTTGTACTCTGTTTTTTTAAGAAAGTGCAGAATCAACTTGAAGCAAGCTTTCTCTCATAACGTAATGATTATATGACAATCCTGAAGAAACCACAGGTTCCATAGAACTAATATCCTGTCTCTCTCTCTCTCTCTCTCTCTCTCTTTTTTTTTTCTTTTTCCTTTTGCCATGGAATCTGGGTGGGAGAGGATACTGCGGGCACCAGAATGCTAAAGTTTCCTAACATTTTGAAGTTTCTGTAGTTCATCCTTAATCCTGACACCCATGTAAATGTCCAAAATGTTGATCTTCCACTGCAAATTTCAAAAGCCTTGTCAATGGTCAAGCGTGCAGCTTGTTCAGCGGTTCTTTCTGAGGAGCGGACACCGGGTTACATTACTAATGAGAGTTGGGTAGAACTCTCTGAGATGTGTTCAGATAGTGTAATTGCTACATTCTCTGATGTAGTTAAGTATTTACAGATGTTAAATGGAGTATTTTTATTTTATGTATATACTATACAACAATGTTCTTTTTTGTTACAGCTATGCACTGTAAATGCAGCCTTCTTTTCAAAACTGCTAAATTTTTCTTAATCAAGAATATTCAAATGTAATTATGAGGTGAAACAATTATTGTACACTAACATATTTAGAAGCTGAACTTACTGCTTATATATATTTGATTGTAAAAACAAAAAGACAGTGTGTGTGTCTGTTGAGTGCAACAAGAGCAAAATGATGCTTTCCGCACATCCATCCCTTAGGTGAGCTTCAATCTAAGCATCTTGTCAAGAAATATCCTAGTCCCCTAAAGGTATTAACCACTTCTGCGATATTTTTCCACATTTTCTTGTCGCTTGTTTTTCTTTGAAGTTTTATACACTGGATTTGTTAGGGGAATGAAATTTTCTCATCTAAAATTTTTCTAGAAGATATCATGATTTTATGTAAAGTCTCTCAATGGGTAACCATTAAGAAATGTTTTTATTTTCTCTATCAACAGTAGTTTTGAAACTAGAAGTCAAAAATCTTTTTAAAATGCTGTTTTGTTTTAATTTTTGTGATTTTAATTTGATACAAAATGCTGAGGTAATAATTATAGTATGATTTTTACAATAATTAATGTGTGTCTGAAGACTATCTTTGAAGCCAGTATTTCTTTCCCTTGGCAGAGTATGACGATGGTATTTATCTGTATTTTTTACAGTTATGCATCCTGTATAAATACTGATATTTCATTCCTTTGTTTACTAAAGAGACATATTTATCAGTTGCAGATAGCCTATTTATTATAAATTATGAGATGATGAAAATAATAAAGCCAGTGGAAATTTTCTACCTAGGATGCATGACAATTGTCAGGTTGGAGTGTAAGTGCTTCATTTGGGAAATTCAGCTTTTGCAGAAGCAGTGTTTCTACTTGCACTAGCATGGCCTCTGACGTGACCATGGTGTTGTTCTTGATGACATTGCTTCTGCTAAATTTAATAAAAACTTCAGAAAAACCTCCATTTTGATCATCAGGATTTCATCTGAGTGTGGAGTCCCTGGAATGGAATTCAGTAACATTTGGAGTGTGTATTCAAGTTTCTAAATTGAGATTCGATTACTGTTTGGCTGACATGACTTTTCTGGAAGACATGATACACCTACTACTCAATTGTTCTTTTCCTTTCTCTCGCCCAACACGATCTTGTAAGATGGATTTCACCCCCAGGCCAATGCAGCTAATTTTGATAGCTGCATTCATTTATCACCAGCATATTGTGTTCTGAGTGAATCCACTGTTTGTCCTGTCGGATGCTTGCTTGATTTTTTGGCTTCTTATTTCTAAGTAGATAGAAAGCAATAAAAATACTATGAAATGAAAGAACTTGTTCACAGGTTCTGCGTTACAACAGTAACACATCTTTAATCCGCCTAATTCTTGTTGTTCTGTAGGTTAAATGCAGGTATTTTAACTGTGTGAACGCCAAACTAAAGTTTACAGTCTTTCTTTCTGAATTTTGAGTATCTTCTGTTGTAGAATAATAATAAAAAGACTATTAAGAGCAATAAATTATTTTTAAGAAATCGAGATTTAGTAAATCCTATTATGTGTTCAAGGACCACATGTGTTCTCTATTTTGCCTTTAAATTTTTGTGAACCAATTTTAAATACATTCTCCTTTTTGCCCTGGATTGTTGACATGAGTGGAATACTTGGTTTCTTTTCTTACTTATCAAAAGACAGCACTACAGATATCATATTGAGGATTAATTTATCCCCCCTACCCCCAGCCTGACAAATATTGTTACCATGAAGATAGTTTTCCTCAATGGACTTCAAATTGCATCTAGAATTAGTGGAGCTTTTGTATCTTCTGCAGACACTGTGGGTAGCCCATCAAAATGTAAGCTGTGCTCCTCTCATTTTTATTTTTATTTTTTTGGGAGAGAATATTTCAAATGAACACGTGCACCCCATCATCACTGGAGGCAAATTTCAGCATAGATCTGTAGGATTTTTAGAAGACCGTGGGCCATTGCCTTCATGCCGTGGTAAGTACCACATCTACAATTTTGGTAACCGAACTGGTGCTTTAGTAATGTGGATTTTTTTCTTTTTTAAAAGAGATGTAGCAGAATAATTCTTCCAGTGCAACAAAATCAATTTTTTGCTAAACGACTCCGAGAACAACAGTTGGGCTGTCAACATTCAAAGCAGCAGAGAGGGAACTTTGCACTATTGGGGTATGATGTTTGGGTCAGTTGATAAAAGGAAACCTTTTCATGCCTTTAGATGTGAGCTTCCAGTAGGTAATGATTATGTGTCCTTTCTTGATGGCTGTAATGAGAACTTCAATCACTGTAGTCTAAGACCTGATCTATAGATGACCTAGAATAGCCATGTACTATAATGTGATGATTCTAAATTTGTACCTATGTGACAGACATTTTCAATAATGTGAACTGCTGATTTGATGGAGCTACTTTAAGATTTGTAGGTGAAAGTGTAATACTGTTGGTTGAACTATGCTGAAGAGGGAAAGTGAGCGATTAGTTGAGCCCTTGCCGGGCCTTTTTTCCACCTGCCAATTCTACATGTATTGTTGTGGTTTTATTCATTGTATGAAAATTCCTGTGATTTTTTTTAAATGTGCAGTACACATCAGCCTCACTGAGCTAATAAAGGGAAACGAATGTTTCAAATCTA
>gi|1236589318|ref|NM_001354826.1| Homo sapiens PPARG coactivator 1 alpha (PPARGC1A), transcript variant 6, mRNA
GCGGTCTCTCGCTCTGCGCGCACACACCACACACACGCACACGCACACACACGCGCGCACACACGCAGCCGGCACAGGCGGCGGCGGCGGCTGCCCAAGTCAGGACGAACCTATCTAGGTACCGTCTTGAGAAGGCGGCAGCGGCGGCGGCGGCGGCGGCGGCGGCAGCCCGAGCATCCCTCCTCTCCCGGAGAGGGAGCACCGCCGAGAGTTTCCGTTCCCTTTGCCATTCCCTTCCCCCTCCTTTTCTTTTATTTTCGAGAGAATTTCTTCTTGGCTTATTGGTTTAATTTGATTTTTAAAATTTTGGGTTGCTTTTGTGTATGTGTGCTTTTTTTTTCTTTCCTCATTTTATTTGCATCCAGAGCATGGCGGGCTGCGGGCTGTCGGAAGACACCCTCTTCTCTTCCTTCTTTTACAACTACGGCTCCTCCTGGGAAACCCCTTCCAACCAGGTTTTTTGCGAAAATCAGTGAACTAATATTGGTAAAATTGGAGCCCCATGGATGAAGGGTACTTTTGTGCTGCTCTGGTTGGTGAAGACCAGCCTCTTTGCCCAGATCTTCCTGAACTTGATCTTTCTGAACTAGATGTGAACGACTTGGATACAGACAGCTTTCTGGGTGGACTCAAGTGGTGCAGTGACCAATCAGAAATAATATCCAATCAGTACAACAATGAGCCTTCAAACATATTTGAGAAAGAATGAGCAATAAATGGTACCTCATATAAATTAATAAATAAGAAGGCCTTTCTTTTTAACCAAGGGGGTAGATGTCTACCTTTGTTTGCTTTACTAATTAGAAGATAGATGAAGAGAATGAGGCAAACTTGCTAGCAGTCCTCACAGAGACACTAGACAGTCTCCCTGTGGATGAAGACGGATTGCCCTCATTTGATGCGCTGACAGATGGAGACGTGACCACTGACAATGAGGCTAGTCCTTCCTCCATGCCTGACGGCACCCCTCCACCCCAGGAGGCAGAAGAGCCGTCTCTACTTAAGAAGCTCTTACTGGCACCAGCCAACACTCAGCTAAGTTATAATGAATGCAGTGGTCTCAGTACCCAGAACCATGCAAATCACAATCACAGGATCAGAACAAACCCTGCAATTGTTAAGACTGAGAATTCATGGAGCAATAAAGCGAAGAGTATTTGTCAACAGCAAAAGCCACAAAGACGTCCCTGCTCGGAGCTTCTCAAATATCTGACCACAAACGATGACCCTCCTCACACCAAACCCACAGAGAACAGAAACAGCAGCAGAGACAAATGCACCTCCAAAAAGAAGTCCCACACACAGTCGCAGTCACAACACTTACAAGCCAAACCAACAACTTTATCTCTTCCTCTGACCCCAGAGTCACCAAATGACCCCAAGGGTTCCCCATTTGAGAACAAGACTATTGAACGCACCTTAAGTGTGGAACTCTCTGGAACTGCAGGCCTAACTCCACCCACCACTCCTCCTCATAAAGCCAACCAAGATAACCCTTTTAGGGCTTCTCCAAAGCTGAAGTCCTCTTGCAAGACTGTGGTGCCACCACCATCAAAGAAGCCCAGGTACAGTGAGTCTTCTGGTACACAAGGCAATAACTCCACCAAGAAAGGGCCGGAGCAATCCGAGTTGTATGCACAACTCAGCAAGTCCTCAGTCCTCACTGGTGGACACGAGGAAAGGAAGACCAAGCGGCCCAGTCTGCGGCTGTTTGGTGACCATGACTATTGCCAGTCAATTAATTCCAAAACAGAAATACTCATTAATATATCACAGGAGCTCCAAGACTCTAGACAACTAGAAAATAAAGATGTCTCCTCTGATTGGCAGGGGCAGATTTGTTCTTCCACAGATTCAGACCAGTGCTACCTGAGAGAGACTTTGGAGGCAAGCAAGCAGGTCTCTCCTTGCAGCACAAGAAAACAGCTCCAAGACCAGGAAATCCGAGCCGAGCTGAACAAGCACTTCGGTCATCCCAGTCAAGCTGTTTTTGACGACGAAGCAGACAAGACCGGTGAACTGAGGGACAGTGATTTCAGTAATGAACAATTCTCCAAACTACCTATGTTTATAAATTCAGGACTAGCCATGGATGGCCTGTTTGATGACAGCGAAGATGAAAGTGATAAACTGAGCTACCCTTGGGATGGCACGCAATCCTATTCATTGTTCAATGTGTCTCCTTCTTGTTCTTCTTTTAACTCTCCATGTAGAGATTCTGTGTCACCACCCAAATCCTTATTTTCTCAAAGACCCCAAAGGATGCGCTCTCGTTCAAGGTCCTTTTCTCGACACAGGTCGTGTTCCCGATCACCATATTCCAGGTCAAGATCAAGGTCTCCAGGCAGTAGATCCTCTTCAAGATCCTGCTATTACTATGAGTCAAGCCACTACAGACACCGCACGCACCGAAATTCTCCCTTGTATGTGAGATCACGTTCAAGATCGCCCTACAGCCGTCGGCCCAGGTATGACAGCTACGAGGAATATCAGCACGAGAGGCTGAAGAGGGAAGAATATCGCAGAGAGTATGAGAAGCGAGAGTCTGAGAGGGCCAAGCAAAGGGAGAGGCAGAGGCAGAAGGCAATTGAAGAGCGCCGTGTGATTTATGTCGGTAAAATCAGACCTGACACAACACGGACAGAACTGAGGGACCGTTTTGAAGTTTTTGGTGAAATTGAGGAGTGCACAGTAAATCTGCGGGATGATGGAGACAGCTATGGTTTCATTACCTACCGTTATACCTGTGATGCTTTTGCTGCTCTTGAAAATGGATACACTTTGCGCAGGTCAAACGAAACTGACTTTGAGCTGTACTTTTGTGGACGCAAGCAATTTTTCAAGTCTAACTATGCAGACCTAGATTCAAACTCAGATGACTTTGACCCTGCTTCCACCAAGAGCAAGTATGACTCTCTGGATTTTGATAGTTTACTGAAAGAAGCTCAGAGAAGCTTGCGCAGGTAACATGTTCCCTAGCTGAGGATGACAGAGGGATGGCGAATACCTCATGGGACAGCGCGTCCTTCCCTAAAGACTATTGCAAGTCATACTTAGGAATTTCTCCTACTTTACACTCTCTGTACAAAAACAAAACAAAACAACAACAATACAACAAGAACAACAACAACAATAACAACAATGGTTTACATGAACACAGCTGCTGAAGAGGCAAGAGACAGAATGATATCCAGTAAGCACATGTTTATTCATGGGTGTCAGCTTTGCTTTTCCTGGAGTCTCTTGGTGATGGAGTGTGCGTGTGTGCATGTATGTGTGTGTGTATGTATGTGTGTGGTGTGTGTGCTTGGTTTAGGGGAAGTATGTGTGGGTACATGTGAGGACTGGGGGCACCTGACCAGAATGCGCAAGGGCAAACCATTTCAAATGGCAGCAGTTCCATGAAGACACGCTTAAAACCTAGAACTTCAAAATGTTCGTATTCTATTCAAAAGGAAATATATATATATATATATATATATATATATATATATATAAATTAAAAAGGAAAGAAAACTAACAACCAACCAACCAACCAACCAACCACAAACCACCCTAAAATGACAGCCGCTGATGTCTGGGCATCAGCCTTTGTACTCTGTTTTTTTAAGAAAGTGCAGAATCAACTTGAAGCAAGCTTTCTCTCATAACGTAATGATTATATGACAATCCTGAAGAAACCACAGGTTCCATAGAACTAATATCCTGTCTCTCTCTCTCTCTCTCTCTCTCTCTTTTTTTTTTCTTTTTCCTTTTGCCATGGAATCTGGGTGGGAGAGGATACTGCGGGCACCAGAATGCTAAAGTTTCCTAACATTTTGAAGTTTCTGTAGTTCATCCTTAATCCTGACACCCATGTAAATGTCCAAAATGTTGATCTTCCACTGCAAATTTCAAAAGCCTTGTCAATGGTCAAGCGTGCAGCTTGTTCAGCGGTTCTTTCTGAGGAGCGGACACCGGGTTACATTACTAATGAGAGTTGGGTAGAACTCTCTGAGATGTGTTCAGATAGTGTAATTGCTACATTCTCTGATGTAGTTAAGTATTTACAGATGTTAAATGGAGTATTTTTATTTTATGTATATACTATACAACAATGTTCTTTTTTGTTACAGCTATGCACTGTAAATGCAGCCTTCTTTTCAAAACTGCTAAATTTTTCTTAATCAAGAATATTCAAATGTAATTATGAGGTGAAACAATTATTGTACACTAACATATTTAGAAGCTGAACTTACTGCTTATATATATTTGATTGTAAAAACAAAAAGACAGTGTGTGTGTCTGTTGAGTGCAACAAGAGCAAAATGATGCTTTCCGCACATCCATCCCTTAGGTGAGCTTCAATCTAAGCATCTTGTCAAGAAATATCCTAGTCCCCTAAAGGTATTAACCACTTCTGCGATATTTTTCCACATTTTCTTGTCGCTTGTTTTTCTTTGAAGTTTTATACACTGGATTTGTTAGGGGAATGAAATTTTCTCATCTAAAATTTTTCTAGAAGATATCATGATTTTATGTAAAGTCTCTCAATGGGTAACCATTAAGAAATGTTTTTATTTTCTCTATCAACAGTAGTTTTGAAACTAGAAGTCAAAAATCTTTTTAAAATGCTGTTTTGTTTTAATTTTTGTGATTTTAATTTGATACAAAATGCTGAGGTAATAATTATAGTATGATTTTTACAATAATTAATGTGTGTCTGAAGACTATCTTTGAAGCCAGTATTTCTTTCCCTTGGCAGAGTATGACGATGGTATTTATCTGTATTTTTTACAGTTATGCATCCTGTATAAATACTGATATTTCATTCCTTTGTTTACTAAAGAGACATATTTATCAGTTGCAGATAGCCTATTTATTATAAATTATGAGATGATGAAAATAATAAAGCCAGTGGAAATTTTCTACCTAGGATGCATGACAATTGTCAGGTTGGAGTGTAAGTGCTTCATTTGGGAAATTCAGCTTTTGCAGAAGCAGTGTTTCTACTTGCACTAGCATGGCCTCTGACGTGACCATGGTGTTGTTCTTGATGACATTGCTTCTGCTAAATTTAATAAAAACTTCAGAAAAACCTCCATTTTGATCATCAGGATTTCATCTGAGTGTGGAGTCCCTGGAATGGAATTCAGTAACATTTGGAGTGTGTATTCAAGTTTCTAAATTGAGATTCGATTACTGTTTGGCTGACATGACTTTTCTGGAAGACATGATACACCTACTACTCAATTGTTCTTTTCCTTTCTCTCGCCCAACACGATCTTGTAAGATGGATTTCACCCCCAGGCCAATGCAGCTAATTTTGATAGCTGCATTCATTTATCACCAGCATATTGTGTTCTGAGTGAATCCACTGTTTGTCCTGTCGGATGCTTGCTTGATTTTTTGGCTTCTTATTTCTAAGTAGATAGAAAGCAATAAAAATACTATGAAATGAAAGAACTTGTTCACAGGTTCTGCGTTACAACAGTAACACATCTTTAATCCGCCTAATTCTTGTTGTTCTGTAGGTTAAATGCAGGTATTTTAACTGTGTGAACGCCAAACTAAAGTTTACAGTCTTTCTTTCTGAATTTTGAGTATCTTCTGTTGTAGAATAATAATAAAAAGACTATTAAGAGCAATAAATTATTTTTAAGAAATCGAGATTTAGTAAATCCTATTATGTGTTCAAGGACCACATGTGTTCTCTATTTTGCCTTTAAATTTTTGTGAACCAATTTTAAATACATTCTCCTTTTTGCCCTGGATTGTTGACATGAGTGGAATACTTGGTTTCTTTTCTTACTTATCAAAAGACAGCACTACAGATATCATATTGAGGATTAATTTATCCCCCCTACCCCCAGCCTGACAAATATTGTTACCATGAAGATAGTTTTCCTCAATGGACTTCAAATTGCATCTAGAATTAGTGGAGCTTTTGTATCTTCTGCAGACACTGTGGGTAGCCCATCAAAATGTAAGCTGTGCTCCTCTCATTTTTATTTTTATTTTTTTGGGAGAGAATATTTCAAATGAACACGTGCACCCCATCATCACTGGAGGCAAATTTCAGCATAGATCTGTAGGATTTTTAGAAGACCGTGGGCCATTGCCTTCATGCCGTGGTAAGTACCACATCTACAATTTTGGTAACCGAACTGGTGCTTTAGTAATGTGGATTTTTTTCTTTTTTAAAAGAGATGTAGCAGAATAATTCTTCCAGTGCAACAAAATCAATTTTTTGCTAAACGACTCCGAGAACAACAGTTGGGCTGTCAACATTCAAAGCAGCAGAGAGGGAACTTTGCACTATTGGGGTATGATGTTTGGGTCAGTTGATAAAAGGAAACCTTTTCATGCCTTTAGATGTGAGCTTCCAGTAGGTAATGATTATGTGTCCTTTCTTGATGGCTGTAATGAGAACTTCAATCACTGTAGTCTAAGACCTGATCTATAGATGACCTAGAATAGCCATGTACTATAATGTGATGATTCTAAATTTGTACCTATGTGACAGACATTTTCAATAATGTGAACTGCTGATTTGATGGAGCTACTTTAAGATTTGTAGGTGAAAGTGTAATACTGTTGGTTGAACTATGCTGAAGAGGGAAAGTGAGCGATTAGTTGAGCCCTTGCCGGGCCTTTTTTCCACCTGCCAATTCTACATGTATTGTTGTGGTTTTATTCATTGTATGAAAATTCCTGTGATTTTTTTTAAATGTGCAGTACACATCAGCCTCACTGAGCTAATAAAGGGAAACGAATGTTTCAAATCTA
>gi|1209857127|ref|NM_001352968.1| Homo sapiens DENN domain containing 1A (DENND1A), transcript variant 7, mRNA
CGCGCGCCGGGCACGCGCGCCGGCGACCATGGCGTTCGCCGGGCTGGAGCGAGTACATTAACCCCTGGAGGCGGCGGCGGCGGCGAGGGAGCGAGCCTCGAGCGGGCGGGCCCCAGCCTGAGGGAAGGGAGGAAGGGGCGGGGAGAGCGCCAGAGGGAGGCCGGTCGGCCGCGGGCGGGCGGGCAGCGCAGCGCCGAGCGGGGCCCGCGGGCCCATGAGGAGGCCTGGGGACCATGGGCTCCAGGATCAAGCAGAATCCAGAGACCACATTTGAAGTATATGTTGAAGTGGCCTATCCCAGGACAGGTGGCACTCTTTCAGATCCTGAGGTGCAGAGGCAATTCCCGGAGGACTACAGTGACCAGCCTCACAGTTAGCCAAGTTGGCCAGAACTTCACATTCGTGCTCACTGACATTGACAGCAAACAGAGATTCGGGTTCTGCCGCTTATCTTCAGGAGCGAAGAGCTGCTTCTGTATCTTAAGCTATCTCCCCTGGTTCGAGGTATTTTATAAGCTGCTTAACATCCTGGCAGATTACACGACAAAAAGACAGGAAAATCAGTGGAATGAGCTTCTTGAAACTCTGCACAAACTTCCCATCCCTGACCCAGGAGTGTCTGTCCATCTCAGCGTGCATTCTTATTTTACTGTGCCTGATACCAGAGAACTTCCCAGCATACCTGAGAATAGAAATCTGACAGAATATTTTGTGGCTGTGGATGTTAACAACATGTTGCATCTGTACGCCAGTATGCTGTACGAACGCCGGATACTCATCATTTGCAGCAAACTCAGCACTCTGACTGCCTGCATCCACGGGTCTGCGGCGATGCTCTACCCCATGTACTGGCAGCACGTGTACATCCCCGTGCTGCCGCCGCATCTGCTGGACTACTGCTGTGCTCCCATGCCCTACCTCATAGGAATCCATTTAAGTTTAATGGAGAAAGTCAGAAACATGGCCCTGGATGATGTCGTGATCCTGAATGTGGACACCAACACCCTGGAAACCCCCTTCGATGACCTCCAGAGCCTCCCAAACGACGTGATCTCTTCCCTGAAGAACAGGCTGAAAAAGGTCTCCACAACCACTGGGGATGGTGTGGCCAGAGCGTTCCTCAAGGCCCAGGCTGCTTTCTTCGGTAGCTACCGAAACGCTCTGAAAATCGAGCCGGAGGAGCCGATCACTTTCTGTGAGGAAGCCTTCGTGTCCCACTACCGCTCCGGAGCCATGAGGCAGTTCCTGCAGAACGCCACACAGCTGCAGCTCTTCAAGCAGTTTATTGATGGTCGATTAGATCTTCTCAATTCCGGCGAAGGTTTCAGTGATGTTTTTGAAGAGGAAATCAACATGGGCGAGTACGCTGGCAGTGACAAACTGTACCATCAGTGGCTCTCCACTGTCCGGAAAGGAAGTGGAGCAATTCTGAATACTGTAAAGACCAAAGCAAATCCGGCCATGAAGACTGTCTACAAGTTCGCAAAAGATCATGCAAAAATGGGAATAAAAGAGGTGAAAAACCGCTTGAAGCAAAAGGACATTGCCGAGAATGGCTGCGCCCCCACCCCAGAAGAGCAGCTGCCAAAGACTGCACCGTCCCCACTGGTGGAGGCCAAGGACCCCAAGCTCCGAGAAGACCGGCGGCCAATCACAGTCCACTTTGGACAGGCGTTGTGAATCCCCAAAAGGAGCAAGACAGAAGACAGCATTTCTCAGATTTGCCTGGCTGGGGAACCTCCTTTTTTCCCTTCACACAATGCGTCTCCCAGGATGGTGTTTCTCAGCAGACACCCTGTGAGATGCCGGCCTTCCACTGAGATGATTTCATCTGCCAAGTGCCAAGACTGGGTGGACATTTTTTTAAGTCCTCTCTGGAAACAAATGTAGGCGATGGACTGGGAGGGGGAGAGGCTGGAGGCAGGGAAACCTGCTGATGGTAATGGTTGCTAATGTCTGTTGGTGGCACTGTGCAAAGAACCTGACGTCCATCATCTCGTTGAATCTTCCTAACAGGACACTCGGGTAGGCAGTGCTGTTACCTGTACTTCACAGATGAGGACAGTAAGGCTTGGAATGGTCAAATCGTGGGCCTGGAGTAACCCAGGGAGTAAATGGGAGAACTGGGGTTCTCTCCAAAACTGTCTGACCCCTAGAGGCTGCCTCCCGAGCGCTCTGGTGCACTGCCACCCAGCAGGAATGGAAATAGCCCAAGCCAGAGGTGACAAGCAGTGAAGACAGTGGGGCTGGAGAAGATGGTTCCCCCGAAGTAGAAAGGCCAAGCATAAGAGAAGCAGTATTGTGGGGAGTGGTGTAGGAGAGCTGGGTGTCTAGACAGGGTAGCAGCCTGTGCACCGGTGGAGGGGGTGGGCTCCCCTCTCCCTGATCACCTCTTCCTCTTGATGAATGGTGTGAATTGAGGGGTGGGGGGGCTGTTCCCCTTTCCCCCACACACTTCCTGTAAGCCAGGAAGGGGAAAAAACATGGTGGCCTTGCCCATCCCTAGGCAGCACCCCCAACTCCCGGGTAGCTGTCAGCTGAAGGGTCACCAAGCATGGGTCAGCCCTCACGCCCAGCTAATGGCATAGGATCTGGGAAGCCACGGTGTCATTCTATCCCATCGTGTTCTCCATGTGCCGCCAGGGAACCCTCCACCAAGTCCCTGGACCCGCTTTCCCCTCAGGCTGCCCCGACAGGTTCCATGCAGAGCACCAGGGACCCAGGGACAACTGGGACACAGGCCCTGCCCTCCAGGAGTAGTGGGGCAGGTTCAGAAAACAAATTCTAAGGCAGATTTGAGATCTGAAGTGTCACTCCCACTCAGTAGAGCCCTATATCAGCACTGTCCAAGAAAAACATAATGGGAGCTTCATACGGGAGTCACATGTGGAATTCTGAATGTGAAACATAAACAGGTGAAATTGATTTTAATATAATGAACCCAATATATCCAAAATATTATTTCAACATGTAATCAATCTAAAAATTA
>gi|1199277042|ref|NM_001351834.1| Homo sapiens ATM serine/threonine kinase (ATM), transcript variant 1, mRNA
CCGGAGCCCGAGCCGAAGGGCGAGCCGCAAACGCTAAGTCGCTGGCCATTGGTGGACATGGCGCAGGCGCGTTTGCTCCGACGGGCCGAATGTTTTGGGGCAGTGTTTTGAGCGCGGAGACCGCGTGATACTGGATGCGCATGGGCATACCGTGCTCTGCGGCTGCTTGGCGTTGCTTCTTCCTCCAGAAGTGGGCGCTGGGCAGTCACGCAGGGTTTGAACCGGAAGCGGGAGTAGGTAGCTGCGTGGCTAACGGAGAAAAGAAGCCGTGGCCGCGGGAGGAGGCGAGAGGAGTCGGGATCTGCGCTGCAGCCACCGCCGCGGTTGATACTACTTTGACCTTCCGAGTGCAGTGAGGCATACATCACAATTTGGAATTATGCATTGGTTTATCAATTTACTTGTTTATTGTCACCCTGCTGCCCAGATATGACTTCATGAGGACAGTGATGTGTGTTCTGAAATTGTGAACCATGAGTCTAGTACTTAATGATCTGCTTATCTGCTGCCGTCAACTAGAACATGATAGAGCTACAGAACGAAAGAAAGAAGTTGAGAAATTTAAGCGCCTGATTCGAGATCCTGAAACAATTAAACATCTAGATCGGCATTCAGATTCCAAACAAGGAAAATATTTGAATTGGGATGCTGTTTTTAGATTTTTACAGAAATATATTCAGAAAGAAACAGAATGTCTGAGAATAGCAAAACCAAATGTATCAGCCTCAACACAAGCCTCCAGGCAGAAAAAGATGCAGGAAATCAGTAGTTTGGTCAAATACTTCATCAAATGTGCAAACAGAAGAGCACCTAGGCTAAAATGTCAAGAACTCTTAAATTATATCATGGATACAGTGAAAGATTCATCTAATGGTGCTATTTACGGAGCTGATTGTAGCAACATACTACTCAAAGACATTCTTTCTGTGAGAAAATACTGGTGTGAAATATCTCAGCAACAGTGGTTAGAATTGTTCTCTGTGTACTTCAGGCTCTATCTGAAACCTTCACAAGATGTTCATAGAGTTTTAGTGGCTAGAATAATTCATGCTGTTACCAAAGGATGCTGTTCTCAGACTGACGGATTAAATTCCAAATTTTTGGACTTTTTTTCCAAGGCTATTCAGTGTGCGAGACAAGAAAAGAGCTCTTCAGGTCTAAATCATATCTTAGCAGCTCTTACTATCTTCCTCAAGACTTTGGCTGTCAACTTTCGAATTCGAGTGTGTGAATTAGGAGATGAAATTCTTCCCACTTTGCTTTATATTTGGACTCAACATAGGCTTAATGATTCTTTAAAAGAAGTCATTATTGAATTATTTCAACTGCAAATTTATATCCATCATCCGAAAGGAGCCAAAACCCAAGAAAAAGGTGCTTATGAATCAACAAAATGGAGAAGTATTTTATACAACTTATATGATCTGCTAGTGAATGAGATAAGTCATATAGGAAGTAGAGGAAAGTATTCTTCAGGATTTCGTAATATTGCCGTCAAAGAAAATTTGATTGAATTGATGGCAGATATCTGTCACCAGGTTTTTAATGAAGATACCAGATCCTTGGAGATTTCTCAATCTTACACTACTACACAAAGAGAATCTAGTGATTACAGTGTCCCTTGCAAAAGGAAGAAAATAGAACTAGGCTGGGAAGTAATAAAAGATCACCTTCAGAAGTCACAGAATGATTTTGATCTTGTGCCTTGGCTACAGATTGCAACCCAATTAATATCAAAGTATCCTGCAAGTTTACCTAACTGTGAGCTGTCTCCATTACTGATGATACTATCTCAGCTTCTACCCCAACAGCGACATGGGGAACGTACACCATATGTGTTACGATGCCTTACGGAAGTTGCATTGTGTCAAGACAAGAGGTCAAACCTAGAAAGCTCACAAAAGTCAGATTTATTAAAACTCTGGAATAAAATTTGGTGTATTACCTTTCGTGGTATAAGTTCTGAGCAAATACAAGCTGAAAACTTTGGCTTACTTGGAGCCATAATTCAGGGTAGTTTAGTTGAGGTTGACAGAGAATTCTGGAAGTTATTTACTGGGTCAGCCTGCAGACCTTCATGTCCTGCAGTATGCTGTTTGACTTTGGCACTGACCACCAGTATAGTTCCAGGAACGGTAAAAATGGGAATAGAGCAAAATATGTGTGAAGTAAATAGAAGCTTTTCTTTAAAGGAATCAATAATGAAATGGCTCTTATTCTATCAGTTAGAGGGTGACTTAGAAAATAGCACAGAAGTGCCTCCAATTCTTCACAGTAATTTTCCTCATCTTGTACTGGAGAAAATTCTTGTGAGTCTCACTATGAAAAACTGTAAAGCTGCAATGAATTTTTTCCAAAGCGTGCCAGAATGTGAACACCACCAAAAAGATAAAGAAGAACTTTCATTCTCAGAAGTAGAAGAACTATTTCTTCAGACAACTTTTGACAAGATGGACTTTTTAACCATTGTGAGAGAATGTGGTATAGAAAAGCACCAGTCCAGTATTGGCTTCTCTGTCCACCAGAATCTCAAGGAATCACTGGATCGCTGTCTTCTGGGATTATCAGAACAGCTTCTGAATAATTACTCATCTGAGATTACAAATTCAGAAACTCTTGTCCGGTGTTCACGTCTTTTGGTGGGTGTCCTTGGCTGCTACTGTTACATGGGTGTAATAGCTGAAGAGGAAGCATATAAGTCAGAATTATTCCAGAAAGCCAAGTCTCTAATGCAATGTGCAGGAGAAAGTATCACTCTGTTTAAAAATAAGACAAATGAGGAATTCAGAATTGGTTCCTTGAGAAATATGATGCAGCTATGTACACGTTGCTTGAGCAACTGTACCAAGAAGAGTCCAAATAAGATTGCATCTGGCTTTTTCCTGCGATTGTTAACATCAAAGCTAATGAATGACATTGCAGATATTTGTAAAAGTTTAGCATCCTTCATCAAAAAGCCATTTGACCGTGGAGAAGTAGAATCAATGGAAGATGATACTAATGGAAATCTAATGGAGGTGGAGGATCAGTCATCCATGAATCTATTTAACGATTACCCTGATAGTAGTGTTAGTGATGCAAACGAACCTGGAGAGAGCCAAAGTACCATAGGTGCCATTAATCCTTTAGCTGAAGAATATCTGTCAAAGCAAGATCTACTTTTCTTAGACATGCTCAAGTTCTTGTGTTTGTGTGTAACTACTGCTCAGACCAATACTGTGTCCTTTAGGGCAGCTGATATTCGGAGGAAATTGTTAATGTTAATTGATTCTAGCACGCTAGAACCTACCAAATCCCTCCACCTGCATATGTATCTAATGCTTTTAAAGGAGCTTCCTGGAGAAGAGTACCCCTTGCCAATGGAAGATGTTCTTGAACTTCTGAAACCACTATCCAATGTGTGTTCTTTGTATCGTCGTGACCAAGATGTTTGTAAAACTATTTTAAACCATGTCCTTCATGTAGTGAAAAACCTAGGTCAAAGCAATATGGACTCTGAGAACACAAGGGATGCTCAAGGACAGTTTCTTACAGTAATTGGAGCATTTTGGCATCTAACAAAGGAGAGGAAATATATATTCTCTGTAAGAATGGCCCTAGTAAATTGCCTTAAAACTTTGCTTGAGGCTGATCCTTATTCAAAATGGGCCATTCTTAATGTAATGGGAAAAGACTTTCCTGTAAATGAAGTATTTACACAATTTCTTGCTGACAATCATCACCAAGTTCGCATGTTGGCTGCAGAGTCAATCAATAGATTGTTCCAGGACACGAAGGGAGATTCTTCCAGGTTACTGAAAGCACTTCCTTTGAAGCTTCAGCAAACAGCTTTTGAAAATGCATACTTGAAAGCTCAGGAAGGAATGAGAGAAATGTCCCATAGTGCTGAGAACCCTGAAACTTTGGATGAAATTTATAATAGAAAATCTGTTTTACTGACGTTGATAGCTGTGGTTTTATCCTGTAGCCCTATCTGCGAAAAACAGGCTTTGTTTGCCCTGTGTAAATCTGTGAAAGAGAATGGATTAGAACCTCACCTTGTGAAAAAGGTTTTAGAGAAAGTTTCTGAAACTTTTGGATATAGACGTTTAGAAGACTTTATGGCATCTCATTTAGATTATCTGGTTTTGGAATGGCTAAATCTTCAAGATACTGAATACAACTTATCTTCTTTTCCTTTTATTTTATTAAACTACACAAATATTGAGGATTTCTATAGATCTTGTTATAAGGTTTTGATTCCACATCTGGTGATTAGAAGTCATTTTGATGAGGTGAAGTCCATTGCTAATCAGATTCAAGAGGACTGGAAAAGTCTTCTAACAGACTGCTTTCCAAAGATTCTTGTAAATATTCTTCCTTATTTTGCCTATGAGGGTACCAGAGACAGTGGGATGGCACAGCAAAGAGAGACTGCTACCAAGGTCTATGATATGCTTAAAAGTGAAAACTTATTGGGAAAACAGATTGATCACTTATTCATTAGTAATTTACCAGAGATTGTGGTGGAGTTATTGATGACGTTACATGAGCCAGCAAATTCTAGTGCCAGTCAGAGCACTGACCTCTGTGACTTTTCAGGGGATTTGGATCCTGCTCCTAATCCACCTCATTTTCCATCGCATGTGATTAAAGCAACATTTGCCTATATCAGCAATTGTCATAAAACCAAGTTAAAAAGCATTTTAGAAATTCTTTCCAAAAGCCCTGATTCCTATCAGAAAATTCTTCTTGCCATATGTGAGCAAGCAGCTGAAACAAATAATGTTTATAAGAAGCACAGAATTCTTAAAATATATCACCTGTTTGTTAGTTTATTACTGAAAGATATAAAAAGTGGCTTAGGAGGAGCTTGGGCCTTTGTTCTTCGAGACGTTATTTATACTTTGATTCACTATATCAACCAAAGGCCTTCTTGTATCATGGATGTGTCATTACGTAGCTTCTCCCTTTGTTGTGACTTATTAAGTCAGGTTTGCCAGACAGCCGTGACTTACTGTAAGGATGCTCTAGAAAACCATCTTCATGTTATTGTTGGTACACTTATACCCCTTGTGTATGAGCAGGTGGAGGTTCAGAAACAGGTATTGGACTTGTTGAAATACTTAGTGATAGATAACAAGGATAATGAAAACCTCTATATCACGATTAAGCTTTTAGATCCTTTTCCTGACCATGTTGTTTTTAAGGATTTGCGTATTACTCAGCAAAAAATCAAATACAGTAGAGGACCCTTTTCACTCTTGGAGGAAATTAACCATTTTCTCTCAGTAAGTGTTTATGATGCACTTCCATTGACAAGACTTGAAGGACTAAAGGATCTTCGAAGACAACTGGAACTACATAAAGATCAGATGGTGGACATTATGAGAGCTTCTCAGGATAATCCGCAAGATGGGATTATGGTGAAACTAGTTGTCAATTTGTTGCAGTTATCCAAGATGGCAATAAACCACACTGGTGAAAAAGAAGTTCTAGAGGCTGTTGGAAGCTGCTTGGGAGAAGTGGGTCCTATAGATTTCTCTACCATAGCTATACAACATAGTAAAGATGCATCTTATACCAAGGCCCTTAAGTTATTTGAAGATAAAGAACTTCAGTGGACCTTCATAATGCTGACCTACCTGAATAACACACTGGTAGAAGATTGTGTCAAAGTTCGATCAGCAGCTGTTACCTGTTTGAAAAACATTTTAGCCACAAAGACTGGACATAGTTTCTGGGAGATTTATAAGATGACAACAGATCCAATGCTGGCCTATCTACAGCCTTTTAGAACATCAAGAAAAAAGTTTTTAGAAGTACCCAGATTTGACAAAGAAAACCCTTTTGAAGGCCTGGATGATATAAATCTGTGGATTCCTCTAAGTGAAAATCATGACATTTGGATAAAGACACTGACTTGTGCTTTTTTGGACAGTGGAGGCACAAAATGTGAAATTCTTCAATTATTAAAGCCAATGTGTGAAGTGAAAACTGACTTTTGTCAGACTGTACTTCCATACTTGATTCATGATATTTTACTCCAAGATACAAATGAATCATGGAGAAATCTGCTTTCTACACATGTTCAGGGATTTTTCACCAGCTGTCTTCGACACTTCTCGCAAACGAGCCGATCCACAACCCCTGCAAACTTGGATTCAGAGTCAGAGCACTTTTTCCGATGCTGTTTGGATAAAAAATCACAAAGAACAATGCTTGCTGTTGTGGACTACATGAGAAGACAAAAGAGACCTTCTTCAGGAACAATTTTTAATGATGCTTTCTGGCTGGATTTAAATTATCTAGAAGTTGCCAAGGTAGCTCAGTCTTGTGCTGCTCACTTTACAGCTTTACTCTATGCAGAAATCTATGCAGATAAGAAAAGTATGGATGATCAAGAGAAAAGAAGTCTTGCATTTGAAGAAGGAAGCCAGAGTACAACTATTTCTAGCTTGAGTGAAAAAAGTAAAGAAGAAACTGGAATAAGTTTACAGGATCTTCTCTTAGAAATCTACAGAAGTATAGGGGAGCCAGATAGTTTGTATGGCTGTGGTGGAGGGAAGATGTTACAACCCATTACTAGACTACGAACATATGAACACGAAGCAATGTGGGGCAAAGCCCTAGTAACATATGACCTCGAAACAGCAATCCCCTCATCAACACGCCAGGCAGGAATCATTCAGGCCTTGCAGAATTTGGGACTCTGCCATATTCTTTCCGTCTATTTAAAAGGATTGGATTATGAAAATAAAGACTGGTGTCCTGAACTAGAAGAACTTCATTACCAAGCAGCATGGAGGAATATGCAGTGGGACCATTGCACTTCCGTCAGCAAAGAAGTAGAAGGAACCAGTTACCATGAATCATTGTACAATGCTCTACAATCTCTAAGAGACAGAGAATTCTCTACATTTTATGAAAGTCTCAAATATGCCAGAGTAAAAGAAGTGGAAGAGATGTGTAAGCGCAGCCTTGAGTCTGTGTATTCGCTCTATCCCACACTTAGCAGGTTGCAGGCCATTGGAGAGCTGGAAAGCATTGGGGAGCTTTTCTCAAGATCAGTCACACATAGACAACTCTCTGAAGTATATATTAAGTGGCAGAAACACTCCCAGCTTCTCAAGGACAGTGATTTTAGTTTTCAGGAGCCTATCATGGCTCTACGCACAGTCATTTTGGAGATCCTGATGGAAAAGGAAATGGACAACTCACAAAGAGAATGTATTAAGGACATTCTCACCAAACACCTTGTAGAACTCTCTATACTGGCCAGAACTTTCAAGAACACTCAGCTCCCTGAAAGGGCAATATTTCAAATTAAACAGTACAATTCAGTTAGCTGTGGAGTCTCTGAGTGGCAGCTGGAAGAAGCACAAGTATTCTGGGCAAAAAAGGAGCAGAGTCTTGCCCTGAGTATTCTCAAGCAAATGATCAAGAAGTTGGATGCCAGCTGTGCAGCGAACAATCCCAGCCTAAAACTTACATACACAGAATGTCTGAGGGTTTGTGGCAACTGGTTAGCAGAAACGTGCTTAGAAAATCCTGCGGTCATCATGCAGACCTATCTAGAAAAGGCAGTAGAAGTTGCTGGAAATTATGATGGAGAAAGTAGTGATGAGCTAAGAAATGGAAAAATGAAGGCATTTCTCTCATTAGCCCGGTTTTCAGATACTCAATACCAAAGAATTGAAAACTACATGAAATCATCGGAATTTGAAAACAAGCAAGCTCTCCTGAAAAGAGCCAAAGAGGAAGTAGGTCTCCTTAGGGAACATAAAATTCAGACAAACAGATACACAGTAAAGGTTCAGCGAGAGCTGGAGTTGGATGAATTAGCCCTGCGTGCACTGAAAGAGGATCGTAAACGCTTCTTATGTAAAGCAGTTGAAAATTATATCAACTGCTTATTAAGTGGAGAAGAACATGATATGTGGGTATTCCGACTTTGTTCCCTCTGGCTTGAAAATTCTGGAGTTTCTGAAGTCAATGGCATGATGAAGAGAGACGGAATGAAGATTCCAACATATAAATTTTTGCCTCTTATGTACCAATTGGCTGCTAGAATGGGGACCAAGATGATGGGAGGCCTAGGATTTCATGAAGTCCTCAATAATCTAATCTCTAGAATTTCAATGGATCACCCCCATCACACTTTGTTTATTATACTGGCCTTAGCAAATGCAAACAGAGATGAATTTCTGACTAAACCAGAGGTAGCCAGAAGAAGCAGAATAACTAAAAATGTGCCTAAACAAAGCTCTCAGCTTGATGAGGATCGAACAGAGGCTGCAAATAGAATAATATGTACTATCAGAAGTAGGAGACCTCAGATGGTCAGAAGTGTTGAGGCACTTTGTGATGCTTATATTATATTAGCAAACTTAGATGCCACTCAGTGGAAGACTCAGAGAAAAGGCATAAATATTCCAGCAGACCAGCCAATTACTAAACTTAAGAATTTAGAAGATGTTGTTGTCCCTACTATGGAAATTAAGGTGGACCACACAGGAGAATATGGAAATCTGGTGACTATACAGTCATTTAAAGCAGAATTTCGCTTAGCAGGAGGTGTAAATTTACCAAAAATAATAGATTGTGTAGGTTCCGATGGCAAGGAGAGGAGACAGCTTGTTAAGGGCCGTGATGACCTGAGACAAGATGCTGTCATGCAACAGGTCTTCCAGATGTGTAATACATTACTGCAGAGAAACACGGAAACTAGGAAGAGGAAATTAACTATCTGTACTTATAAGGTGGTTCCCCTCTCTCAGCGAAGTGGTGTTCTTGAATGGTGCACAGGAACTGTCCCCATTGGTGAATTTCTTGTTAACAATGAAGATGGTGCTCATAAAAGATACAGGCCAAATGATTTCAGTGCCTTTCAGTGCCAAAAGAAAATGATGGAGGTGCAAAAAAAGTCTTTTGAAGAGAAATATGAAGTCTTCATGGATGTTTGCCAAAATTTTCAACCAGTTTTCCGTTACTTCTGCATGGAAAAATTCTTGGATCCAGCTATTTGGTTTGAGAAGCGATTGGCTTATACGCGCAGTGTAGCTACTTCTTCTATTGTTGGTTACATACTTGGACTTGGTGATAGACATGTACAGAATATCTTGATAAATGAGCAGTCAGCAGAACTTGTACATATAGATCTAGGTGTTGCTTTTGAACAGGGCAAAATCCTTCCTACTCCTGAGACAGTTCCTTTTAGACTCACCAGAGATATTGTGGATGGCATGGGCATTACGGGTGTTGAAGGTGTCTTCAGAAGATGCTGTGAGAAAACCATGGAAGTGATGAGAAACTCTCAGGAAACTCTGTTAACCATTGTAGAGGTCCTTCTATATGATCCACTCTTTGACTGGACCATGAATCCTTTGAAAGCTTTGTATTTACAGCAGAGGCCGGAAGATGAAACTGAGCTTCACCCTACTCTGAATGCAGATGACCAAGAATGCAAACGAAATCTCAGTGATATTGACCAGAGTTTCAACAAAGTAGCTGAACGTGTCTTAATGAGACTACAAGAGAAACTGAAAGGAGTGGAAGAAGGCACTGTGCTCAGTGTTGGTGGACAAGTGAATTTGCTCATACAGCAGGCCATAGACCCCAAAAATCTCAGCCGACTTTTCCCAGGATGGAAAGCTTGGGTGTGATCTTCAGTATATGAATTACCCTTTCATTCAGCCTTTAGAAATTATATTTTAGCCTTTATTTTTAACCTGCCAACATACTTTAAGTAGGGATTAATATTTAAGTGAACTATTGTGGGTTTTTTTGAATGTTGGTTTTAATACTTGATTTAATCACCACTCAAAAATGTTTTGATGGTCTTAAGGAACATCTCTGCTTTCACTCTTTAGAAATAATGGTCATTCGGGCTGGGCGCAGCGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGAGCGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGGCCAAGAGACCAGCCTGGCCAGTATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCGAGCATGGTGGCGGGCACCTGTAATCCCAGCTACTCGAGAGGCTGAGGCAGGAGAATCTCTTGAACCTGGGAGGTGAAGGTTGCTGTGGGCCAAAATCATGCCATTGCACTCCAGCCTGGGTGACAAGAGCGAAACTCCATCTCAAAAAAAAAAAAAAAAAAACAGAAACGTATTTGGATTTTTCCTAGTAAGATCACTCAGTGTTACTAAATAATGAAGTTGTTATGGAGAACAAATTTCAAAGACACAGTTAGTGTAGTTACTATTTTTTTAAGTGTGTATTAAAACTTCTCATTCTATTCTCTTTATCTTTTAAGCCCTTCTGTACTGTCCATGTATGTTATCTTTCTGTGATAACTTCATAGATTGCCTTCTAGTTCATGAATTCTCTTGTCAGATGTATATAATCTCTTTTACCCTATCCATTGGGCTTCTTCTTTCAGAAATTGTTTTTCATTTCTAATTATGCATCATTTTTCAGATCTCTGTTTCTTGATGTCATTTTTAATGTTTTTTTAATGTTTTTTATGTCACTAATTATTTTAAATGTCTGTACTTGATAGACACTGTAATAGTTCTATTAAATTTAGTTCCTGCTGTTTATATCTGTTGATTTTTGTATTTGATAGGCTGTTCATCCAGTTTTGTCTTTTTGAAAAGTGAGTTTATTTTCAGCAAGGCTTTATCTATGGGAATCTTGAGTGTCTGTTTATGTCATATTCCCAGGGCTGTTGCTGCACACAAGCCCATTCTTATTTTAATTTCTTGGCTTTAGGGTTTCCATACCTGAAGTGTAGCATAAATACTGATAGGAGATTTCCCAGGCCAAGGCAAACACACTTCCTCCTCATCTCCTTGTGCTAGTGGGCAGAATATTTGATTGATGCCTTTTTCACTGAGAGTATAAGCTTCCATGTGTCCCACCTTTATGGCAGGGGTGGAAGGAGGTACATTTAATTCCCACTGCCTGCCTTTGGCAAGCCCTGGGTTCTTTGCTCCCCATATAGATGTCTAAGCTAAAAGCCGTGGGTTAATGAGACTGGCAAATTGTTCCAGGACAGCTACAGCATCAGCTCACATATTCACCTCTCTGGTTTTTCATTCCCCTCATTTTTTTCTGAGACAGAGTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGAAACCTCTGCCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGTGTGCCAACACGCCCGGCTAATTTTTTGTATTTTTATTAGAGACGGAGTTTCACCGTGTTAGCCAGGATGGTCTCGATCGCTTGACCTCGTGATCCACCCTCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCGCGCCCGGCCTCATTCCCCTCATTTTTGACCGTAAGGATTTCCCCTTTCTTGTAAGTTCTGCTATGTATTTAAAAGAATGTTTTCTACATTTTATCCAGCATTTCTCTGTGTTCTGTTGGAAGGGAAGGGCTTAGGTATCTAGTTTGATACATAGGTAGAAGTGGAACATTTCTCTGTCCCCCAGCTGTCATCATATAAGATAAACATCAGATAAAAAGCCACCTGAAAGTAAAACTACTGACTCGTGTATTAGTGAGTATAATCTCTTCTCCATCCTTAGGAAAATGTTCATCCCAGCTGCGGAGATTAACAAATGGGTGATTGAGCTTTCTCCTCGTATTTGGACCTTGAAGGTTATATAAATTTTTTTCTTATGAAGAGTTGGCATTTCTTTTTATTGCCAATGGCAGGCACTCATTCATATTTGATCTCCTCACCTTCCCCTCCCCTAAAACCAATCTCCAGAACTTTTTGGACTATAAATTTCTTGGTTTGACTTCTGGAGAACTGTTCAGAATATTACTTTGCATTTCAAATTACAAACTTACCTTGGTGTATCTTTTTCTTACAAGCTGCCTAAATGAATATTTGGTATATATTGGTAGTTTTATTACTATAGTAAATCAAGGAAATGCAGTAAACTTAAAATGTCTTTAAGAAAGCCCTGAAATCTTCATGGGTGAAATTAGAAATTATCAACTAGATAATAGTATAGATAAATGAATTTGTAGCTAATTCTTGCTAGTTGTTGCATCCAGAGAGCTTTGAATAACATCATTAATCTACTCTTTAGCCTTGCATGGTATGCTATGAGGCTCCTGTTCTGTTCAAGTATTCTAATCAATGGCTTTGAAAAGTTTATCAAATTTACATACAGATCACAAGCCTAGGAGAAATAACTAATTCACAGATGACAGAATTAAGATTATAAAAGATTTTTTTTTTGTAATTTTAGTAGAGACAGGGTTGCCATTGTATTCCAGCCTTGGCGACAGAGCAAGACTCTGCCTCAAAAAAAAAAAAAAAAAGGTTTTGGCAAGCTGGAACTCTTTCTGCAAATGACTAAGATAGAAAACTGCCAAGGACAAATGAGGAGTAGTTAGATTTTGAAAATATTAATCATAGAATAGTTGTTGTATGCTAAGTCACTGACCCATATTATGTACAGCATTTCTGATCTTTACTTTGCAAGATTAGTGATACTATCCCAATACACTGCTGGAGAAATCAGAATTTGGAGAAATAAGTTGTCCAAGGCAAGAAGATAGTAAATTATAAGTACAAGTGTAATATGGACAGTATCTAACTTGAAAAGATTTCAGGCGAAAAGAATCTGGGGTTTGCCAGTCAGTTGCTCAAAAGGTCAATGAAAACCAAATAGTGAAGCTATCAGAGAAGCTAATAAATTATAGACTGCTTGAACAGTTGTGTCCAGATTAAGGGAGATAATAGCTTTCCCACCCTACTTTGTGCAGGTCATACCTCCCCAAAGTGTTTACCTAATCAGTAGGTTCACAAACTCTTGGTCATTATAGTATATGCCTAAAATGTATGCACTTAGGAATGCTAAAAATTTAAATATGGTCTAAAGCAAATAAAAGCAAAGAGGAAAAACTTTGGACAGCGTAAAGACTAGAATAGTCTTTTAAAAAGAAAGCCAGTATATTGGTTTGAAATATAGAGATGTGTCCCAATTTCAAGTATTTTAATTGCACCTTAATGAAATTATCTATTTTCTATAGATTTTAGTACTATTGAATGTATTACTTTACTGTTACCTGAATTTATTATAAAGTGTTTTTGAATAAATAATTCTAAAAGC
>gi|1179910917|ref|NM_001350508.1| Homo sapiens arginyl-tRNA synthetase 2, mitochondrial (RARS2), transcript variant 7, mRNA
GGGGAGGCGGGTCGTATAAGGAGGTGGGGCGAGGCCGGAACTGGCGGACTGCGGCGCACTTCCGTAGAGGTGGACATGGCGTGCGGCTTTCGCCGCGCTATTGCTTGCCAGGTATGGATCCCGGAGCGCGCAGAGGAGTCCCTGAGGAGCTAGGGACCCCAAAGGCCTTTCACCGCTGCGGGCCAGTCCTCAGTCAGCTGGAGGGTGGGTCCCACGGAATCCTGTTAGTTTCTACCACCTCCTCCCCCTTCTCTGGAGCTGGTGGAGCTTCAGAAGTCCTGTGGAGCGTCGGCTGGGATCAGTTTGTCTCGGTGAAAAGTAAACTTTGAAAGCTTTCCAGAGTGTTGAATCTTCCACCAGAAAACTTGATCACATCAATATCTGCAGTTCCAATTTCCCAAAAAGAAGAAGTAGCTGATTTTCAGCTTTCTGTGGATTCTTTATTGGAAAAAGACAATGACCATTCAAGACCAGATATTCAAGTTCAAGCCAAGAGACTAGCAGAGAAGCTAAGATGTGATACAGTGGTGAGTGAAATCAGTACTGGTCAAAGGACTGTAAATTTCAAAATAAACAGAGAGCTCTTAACAAAGACAGTGCTACAACAAGTAATTGAAGATGGCTCAAAATATGGATTAAAAAGTGAACTTTTCTCTGGACTTCCCCAGAAGAAGATTGTGGTTGAATTCAGGGTAGCAAGACCTCTTTACAAAGGTACTCAAGGCTCTAAGATAGTGAAATCATCTAGTCTTGAAACAGGCACAGCATCATTTTTGTCACTTTCTGCTGATGAAAGCAAGTCACAAGATCACCCCAGATTCAAGGGAAGAAAAATAGAGTACATCTCTTAATGTTCACCTAATGTTGCCAAAAAATTTCATGTTGGACATTTGCGTTCTACCATCATAGGAAATTTTATAGCAAATCTCAAAGAAGCTTTAGGACATCAAGTAATAAGAATAAATTACCTTGGCGATTGGGGCATGCAGTTTGGTCTTCTGGGAACTGGCTTCCAGCTGTTTGGCTATGAGGAAAAACTGCAGTCCAATCCTCTACAGCATCTCTTTGAAGTTTATGTACAAGTTAATAAAGAAGCAGCAGATGATAAAAGTGTAGCAAAAGCAGCACAGGAGTTCTTCCAACGATTGGAACTGGGCGATGTGCAAGCACTTTCACTGTGGCAAAAATTTCGGGACTTGAGCATTGAAGAGTACATTCGGGTTTACAAGCGTCTGGGAGTATATTTTGATGAATATTCAGGAGAATCATTTTATCGTGAAAAATCTCAAGAGGTCTTAAAGTTGCTGGAGAGTAAAGGACTCCTACTGAAAACAATAAAAGGAACGGCTGTAGTAGATCTCTCTGGGAATGGCGACCCCTCCTCAATTTGTACTGTAATGCGAAGTGATGGGACTTCTCTCTATGCAACCAGAGATCTTGCAGCTGCTATAGATCGAATGGACAAGTATAATTTTGATACAATGATATATGTGACAGATAAAGGACAAAAAAAGCATTTTCAGCAAGTATTCCAAATGCTGAAGATCATGGGATATGACTGGGCAGAAAGGTGCCAGCACGTGCCCTTTGGAGTAGTACAGGGAATGAAGACTCGAAGAGGAGATGTCACTTTCCTGGAAGATGTTTTAAATGAGATTCAATTAAGGATGCTACAGAACATGGCTTCAATTAAGACAACTAAAGAACTCAAGAACCCACAAGAGACTGCAGAGAGGGTCGGGCTCGCAGCACTCATTATTCAGGACTTCAAAGGTTTACTCTTATCTGACTACAAGTTCAGCTGGGATCGTGTTTTCCAGAGTCGCGGGGACACAGGAGTCTTCCTACAGTACACACACGCCCGCCTCCACAGTTTGGAAGAGACTTTTGGATGTGGGTACCTGAATGACTTCAACACTGCTTGTTTACAAGAGCCACAGTCTGTTTCAATTCTTCAGCATCTTCTCAGGTTCGACGAGGTGCTTTATAAATCATCTCAGGACTTTCAACCCAGGCATATCGTCAGTTACCTTCTAACTTTAAGTCATCTTGCAGCTGTGGCACACAAAACACTACAAATAAAAGATAGTCCTCCTGAAGTGGCTGGGGCCAGACTTCATCTTTTCAAAGCTGTCCGTTCTGTCCTAGCCAATGGAATGAAACTTCTTGGAATAACACCTGTATGTAGGATGTAATTTCCATTAAAATGGCTTTTAAAATGTCAAGTGAATTCTAGTTATCTATTCTGAGATGCCTTGCTGTTCAGAATAAATTTAAATTTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGTGATGTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACGTGCCATCACGCCAGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCTATGTTGGTCAGGCTGGTCTTGCACTCCCGACCTCAGGTTATCTGTCTGCCTTGGCCTCCCAAAGTGTTGGGATTAGAGGCATGAACCACCACGCCCAGCCAAAGTTAAACTATTATTCTGTGTCAGAATCTGTATTAAATGTGACTTGTCAAGTTATTCAGTCTTTATCCTTAAATAAATGAGTTATCTGAATTC
>gi|1179910168|ref|NM_001350507.1| Homo sapiens arginyl-tRNA synthetase 2, mitochondrial (RARS2), transcript variant 6, mRNA
GGGGAGGCGGGTCGTATAAGGAGGTGGGGCGAGGCCGGAACTGGCGGACTGCGGCGCACTTCCGTAGAGGTGGACATGGCGTGCGGCTTTCGCCGCGCTATTGCTTGCCAGGTATGGATCCCGGAGCGCGCAGAGGAGTCCCTGAGGAGCTAGGGACCCCAAAGGCCTTTCACCGCTGCGGGCCAGTCCTCAGTCAGCTGGAGGGTGGGTCCCACGGAATCCTGTTAGTTTCTACCACCTCCTCCCCCTTCTCTGGAGCTGGTGGAGCTTCAGAAGTCCTGTGGAGCGTCGGCTGGGATCAGTTTGTCTCGGTGAAAAGTAAACTTTGAAAGACGCAGTTTTGTTCTTGTTGCCCAGGCTGGAGTGCAATGGCACAATCTCGGCTCACCGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAGGTAGCTGGGATTACAGCTTTCCAGAGTGTTGAATCTTCCACCAGAAAACTTGATCACATCAATATCTGCAGTTCCAATTTCCCAAAAAGAAGAAGTAGCTGATTTTCAGCTTTCTGTGGATTCTTTATTGGAAAAAGACAATGACCATTCAAGACCAGATATTCAAGTTCAAGCCAAGAGACTAGCAGAGAAGCTAAGATGTGATACAGTGGTGAGTGAAATCAGTACTGGTCAAAGGACTGTAAATTTCAAAATAAACAGAGAGCTCTTAACAAAGACAGTGCTACAACAAGTAATTGAAGATGGCTCAAAATATGGATTAAAAAGTGAACTTTTCTCTGGACTTCCCCAGAAGAAGATTGTGGTTGAATTCAGTTCACCTAATGTTGCCAAAAAATTTCATGTTGGACATTTGCGTTCTACCATCATAGGAAATTTTATAGCAAATCTCAAAGAAGCTTTAGGACATCAAGTAATAAGAATAAATTACCTTGGCGATTGGGGCATGCAGTTTGGTCTTCTGGGAACTGGCTTCCAGCTGTTTGGCTATGAGGAAAAACTGCAGTCCAATCCTCTACAGCATCTCTTTGAAGTTTATGTACAAGTTAATAAAGAAGCAGCAGATGATAAAAGTGTAGCAAAAGCAGCACAGGAGTTCTTCCAACGATTGGAACTGGGCGATGTGCAAGCACTTTCACTGTGGCAAAAATTTCGGGACTTGAGCATTGAAGAGTACATTCGGGTTTACAAGCGTCTGGGAGTATATTTTGATGAATATTCAGGAGAATCATTTTATCGTGAAAAATCTCAAGAGGTCTTAAAGTTGCTGGAGAGTAAAGGACTCCTACTGAAAACAATAAAAGGAACGGCTGTAGTAGATCTCTCTGGGAATGGCGACCCCTCCTCAATTTGTACTGTAATGCGAAGTGATGGGACTTCTCTCTATGCAACCAGAGATCTTGCAGCTGCTATAGATCGAATGGACAAGTATAATTTTGATACAATGATATATGTGACAGATAAAGGACAAAAAAAGCATTTTCAGCAAGTATTCCAAATGCTGAAGATCATGGGATATGACTGGGCAGAAAGGTGCCAGCACGTGCCCTTTGGAGTAGTACAGGGAATGAAGACTCGAAGAGGAGATGTCACTTTCCTGGAAGATGTTTTAAATGAGATTCAATTAAGGATGCTACAGAACATGGCTTCAATTAAGACAACTAAAGAACTCAAGAACCCACAAGAGACTGCAGAGAGGGTCGGGCTCGCAGCACTCATTATTCAGGACTTCAAAGGTTTACTCTTATCTGACTACAAGTTCAGCTGGGATCGTGTTTTCCAGAGTCGCGGGGACACAGGAGTCTTCCTACAGTACACACACGCCCGCCTCCACAGTTTGGAAGAGACTTTTGGATGTGGGTACCTGAATGACTTCAACACTGCTTGTTTACAAGAGCCACAGTCTGTTTCAATTCTTCAGCATCTTCTCAGGTTCGACGAGGTGCTTTATAAATCATCTCAGGACTTTCAACCCAGGCATATCGTCAGTTACCTTCTAACTTTAAGTCATCTTGCAGCTGTGGCACACAAAACACTACAAATAAAAGATAGTCCTCCTGAAGTGGCTGGGGCCAGACTTCATCTTTTCAAAGCTGTCCGTTCTGTCCTAGCCAATGGAATGAAACTTCTTGGAATAACACCTGTATGTAGGATGTAATTTCCATTAAAATGGCTTTTAAAATGTCAAGTGAATTCTAGTTATCTATTCTGAGATGCCTTGCTGTTCAGAATAAATTTAAATTTTTTTTTTTTTTTTTTGAGATGGAGTTTCGCTCTTGTTGCCCAGGCTGGAGTGCAATGGTGTGATGTTGGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACGTGCCATCACGCCAGGCTAATTTTGTATTTTTAGTAGAGACAGGGTTTCTCTATGTTGGTCAGGCTGGTCTTGCACTCCCGACCTCAGGTTATCTGTCTGCCTTGGCCTCCCAAAGTGTTGGGATTAGAGGCATGAACCACCACGCCCAGCCAAAGTTAAACTATTATTCTGTGTCAGAATCTGTATTAAATGTGACTTGTCAAGTTATTCAGTCTTTATCCTTAAATAAATGAGTTATCTGAATTC
>gi|1154885016|ref|NM_001349321.1| Homo sapiens F-box and leucine rich repeat protein 2 (FBXL2), transcript variant 6, mRNA
GGGACGGGGCGGGGCGCCTGGCTGGCGTCACCAGGACAACGGGCGTCGCCGGCGCCGTGTGACTTCGGGCTGTGGGCTCGCTCGCGGCTCTTCGGCCATGGTTTTCTCAAACAATGATGAAGGCCTTATTAACAAAAAGTTACCCAAAGAACTTCTGTTAAGAATGCTGTTCAGCTTGTTGTTAAATTTTACTTGGTCTAATCCAGAATGTACTAAGTATGTACATAGCATTGGTCTGGATTCTTTTTGTAATGTGAATATTTTCCTTCTTGGATATAGTAACTTTGTGCCGATGTGCACAGATTTCCAAGGCTTGGAACATCTTAGCCCTGGATGGAAGCAACTGGCAAAGAATAGATCTTTTTAACTTTCAAACAGATGTAGAGGGTCGAGTGGTGGAAAATATCTCGAAGCGATGCGGTGGATTCCTGAGGAAGCTCAGCTTGCGAGGCTGCATTGGTGTTGGGGATTCCTCCTTGAAGACCTTTGCACAGAACTGCCGAAACATTGAACATTTGAACCTCAATGGATGCACAAAAATCACTGACAGTGCGTCTGCTCTTTTTCAGCACGTGTTATAGCCTTAGCAGATTCTGTTCCAAGCTGAAACATCTGGATCTGACCTCCTGTGTGTCTATTACAAACAGCTCCTTGAAGGGGATCAGTGAGGGCTGCCGAAACCTGGAGTACCTGAACCTCTCTTGGTGTGATCAGATCACGAAGGATGGCATCGAGGCACTGGTGCGAGGTTGTCGAGGCCTGAAAGCCCTGCTCCTGAGGGGCTGCACACAGTTAGAAGATGAAGCTCTGAAACACATTCAGAATTACTGCCATGAGCTTGTGAGCCTCAACTTGCAGTCCTGCTCACGTATCACGGATGAAGGTGTGGTGCAGATATGCAGGGGCTGTCACCGGCTACAGGCTCTCTGCCTTTCGGGTTGCAGCAACCTCACAGATGCCTCTCTTACAGCCCTGGGTTTGAACTGTCCGCGACTGCAAATTTTGGAGGCTGCCCGATGCTCCCATTTGACTGACGCAGGTTTTACACTTTTAGCTCGGAATTGCCACGAATTGGAGAAGATGGATCTTGAAGAATGCATCCTGATAACCGACAGCACACTCATCCAGCTCTCCATTCACTGTCCTAAACTGCAAGCCCTGGTGAGTCTGAGTTTTTCTGACATTATTCACCTGTTAAAGATGAAAGAGCCCTCCCACCACAACAAGAAGCTGTTTGGGTTCTCTTTCTGTAAGAGCCTGTCCCACTGTGAACTCATCACAGATGATGGGATCCTGCACCTGAGCAACAGTACCTGTGGCCATGAGAGGCTGCGGGTACTGGAGTTGGACAACTGCCTCCTCATCACTGATGTGGCCCTGGAACACCTAGAGAACTGCCGAGGCCTGGAGCGCCTCGAGCTGTACGACTGCCAGCAGGTTACCCGTGCAGGCATCAAGCGGATGCGGGCTCAGCTCCCTCATGTCAAAGTCCACGCCTACTTTGCTCCCGTCACCCCACCGACAGCAGTGGCAGGAAGTGGACAGCGACTGTGCAGGTGCTGTGTCATTCTCTGACAGCAGCTGCCTGGGCCCAAGGGGTGATGAGGCATCCTTTCCTCTAGAAGACCTGAGTCTTCCTGACCGACTCCACCATCACCCAATCTGTTGATTCTCCATTGGGAAAGGCATTTACAGGTAAAAGACTTCTGTATGGATTGCAGTTACTCTGGTGATAGTTTTCACCTTTATTCTGCTGTGAAACAATCAAATCAAAGCCTTGTGTCAGTTAACACATGACAAGTGGTCTCAATGCAGCTAGGACCATGCCAGAAACCTGGATCTCTTAAGAGATTGGTACCTACCTAGGTACGAAAGTTCTACCCTTGGCATACTCAGCATTCCTCAAAAAGACCATCAGTGTTAGCACAAACTGAGCAGAAAAAATAAGCTGTTGATTTTCTACCTGATACTTAAGCCAGTGGCCTACTTTAATTCACAATTCCATTTTGATTAGCAGGACTTTTCCACTTTGAAGATAAATAGCAACTTTATCAAAGTGACTGTACTGCAAATTAATTCATAATGCCTGATAGTTTTATATATAGAGACTTATGTGGAAGGCATGTTAATAGGTTTCCATGAGACACCAAAGAAAAGAGGACTCTATACTGGGTGGAGCAGGGTCTTCACCTTTTTGTTTCTGTCAACTTGTCATATACACCTCCAGGGACCAAAAACAAAAGCAGCTCGGAGTCTGTGTTGCCTGATTGGAAAGTAGAAGCTCTGGTGTATGCTACAGCACATAACACATTTTTACTAAAGGAAAAAAGCTAATTATGTCCATGCCTCTCGTAAAACTGGGGGGAACCTTAAAGAGAAAGAACTAAGGCTTAAGTTATCTGTAGTATAATCAATTAGAAGTAATGAATGGATGCATGTAAAATGGATGTGATTTTTTTTCAAGCTTATTTTGAAATCTTAAAAATCAGGTTACACCATAGCTACTCAAAAGTTTTACACACTTAAAACTCAGATCAGTAAGTGTTGGTACCTTTTAGACTCATAAAATTGAATAAACCATTGCAATGCTTTAAAAAAAATTAAGTCAGAGGGTTTTATTGCTATGATTTTATGGCAGACACATCCAAGCAAAACCATTTTCCAAATGCAGACCTTCCTGATGTTATCTGAAATCTGATAAAATGACCCTACTCTCTGCTGTGGTTCATTCTTGCTCCATGCTGTCCATATTTATGATCTTTATTAAGAACCTGTCAATCAGTCATCACCACCTTCATTGTAAACTTAGGTGTTCATGGTGGCTGGCCCTTCCAAACAACCACTCCCCCAAACTGAAGGGCCAGAGCTCATGAGAAACTTAAAAGTGAAACGGCAAAAGCAAGATGTGTTCCCATGACTACCAATACCTTTATTAGGCAGTTTTAGAAGTGTTTTTAAGGATATATTATGTCAGCTGCATTCTAGGAAGAGAAGCAGATTATATATATATATAATCTCCCCATAAACGGACTTAGCACAATTATCATCAGAGTAAGCATTAAAGTCATTTTATTGCCTTATGATATATTCCAGTATTCCTTGGTCTAAAAATTGTGTGGATACCATAGCAGTTAGTTAAATATACATTTATACCCACTGTTTGTTGTGGAAGAGATGATGGGGGAGGAGGACTGATGCAGGAAGCAACTTCAATAAATGAGCATATAACAGA
>gi|1071358129|ref|NM_001039848.3| Homo sapiens glutathione peroxidase 4 (GPX4), transcript variant 3, mRNA
GGCTGGGGCGGAGCTGGACCGTTGAGGGCCACGGCGGGGCGTCTCCGGGCCGAGCGGGGCTGCTGCGCCCGAGCGGTTGGGGGCGCGGAGGGCTGGAAATCCCGGATCACGCGCCCCCGGGCGCCGCCCCGCCCCCGCACCTTGGCCTAGCGCGGTGGCGTCACAGTCGCGCAGTCCTGACTACGGCCTCCGGGCCCTTTGTCCCCGCTAGCGGCGCTCGGGGTGGGGGAGCCAGGAGGGGCGGGAGACGGGCGGGTATGGGCCGCGCGGGCGCAGGCTCCCCCGGGCGCCGCAGGCAGCGGTGCCAGAGCCGGGGCAGGCGGCGGCCGCGAGCCCCTCGGCGGCGGAAGGCCCCAGCGTGCAGGCGCAGGAGGGCGCGGCGCCGGCGGAAGAAGCCCTGTCCCCGCAGCTTGCGACCGGAGATCCACGAATGTCCCAAGTCCCAGGACCCGTGCGCGTCCCGGGACGACTGGCGCTGTGCGCGCTCCATGCACGAGTTTTCCGCCAAGGACATCGACGGGCACATGGTTAACCTGGACAAGTACCGGGGCTTCGTGTGCATCGTCACCAACGTGGCCTCCCAGTGAGGCAAGACCGAAGTAAACTACACTCAGCTCGTCGACCTGCACGCCCGATACGCTGAGTGTGGTTTGCGGATCCTGGCCTTCCCGTGTAACCAGTTCGGGAAGCAGGAGCCAGGGAGTAACGAAGAGATCAAAGAGTTCGCCGCGGGCTACAACGTCAAATTCGATATGTTCAGCAAGATCTGCGTGAACGGGGACGACGCCCACCCGCTGTGGAAGTGGATGAAGATCCAACCCAAGGGCAAGGGCATCCTGGGAAATGCCATCAAGTGGAACTTCACCAAGTTCCTCATCGACAAGAACGGCTGCGTGGTGAAGCGCTACGGACCCATGGAGGAGCCCCTGGTGATAGAGAAGGACCTGCCCCACTATTTCTAGCTCCACAAGTGTGTGGCCCCGCCCGAGCCCCTGCCCACGCCCTTGGAGCCTTCCACCGGCACTCATGACGGCCTGCCTGCAAACCTGCTGGTGGGGCAGACCCGAAAATCCAGCGTGCACCCCGCCGGAGGAAGGTCCCATGGCCTGCTGGGCTTGGCTCGGCGCCCCCACCCCTGGCTACCTTGTGGGAATAAACAGACAAATTAGCCTGCTGGATAAAAAAA
>gi|1064788213|ref|NM_001330751.1| Homo sapiens PPARG coactivator 1 alpha (PPARGC1A), transcript variant 1, mRNA
GCGGTCTCTCGCTCTGCGCGCACACACCACACACACGCACACGCACACACACGCGCGCACACACGCAGCCGGCACAGGCGGCGGCGGCGGCTGCCCAAGTCAGGACGAACCTATCTAGGTACCGTCTTGAGAAGGCGGCAGCGGCGGCGGCGGCGGCGGCGGCGGCAGCCCGAGCATCCCTCCTCTCCCGGAGAGGGAGCACCGCCGAGAGTTTCCGTTCCCTTTGCCATTCCCTTCCCCCTCCTTTTCTTTTATTTTCGAGAGAATTTCTTCTTGGCTTATTGGTTTAATTTGATTTTTAAAATTTTGGGTTGCTTTTGTGTATGTGTGCTTTTTTTTTCTTTCCTCATTTTATTTGCATCCAGAGCATGGCGGGCTGCGGGCTGTCGGAAGACACCCTCTTCTCTTCCTTCTTTTACAACTACGGCTCCTCCTGGGAAACCCCTTCCAACCAGGTTTTTTGCGAAAATCAGTGAACTAATATTGGTAAAATTGGAGCCCCATGGATGAAGGGTACTTTTCTGCCCCTGGACTGCCCTGGCTGCTGCTTTGGTAAAAGCTTGCAAGGAGAGAGAGTAACAGCCGCTGGCGAATCCAGTTTGTGCAAGCAGCATCAGCAATGGATGAGACCTCCCCAAGGCTGGAAGAAGACTGGAAAAAAGTACTTCAGCGAGAAGCAGGCTGGCAGTGTGCTGCTCTGGTTGGTGAAGACCAGCCTCTTTGCCCAGATCTTCCTGAACTTGATCTTTCTGAACTAGATGTGAACGACTTGGATACAGACAGCTTTCTGGGTGGACTCAAGTGGTGCAGTGACCAATCAGAAATAATATCCAATCAGTACAACAATGAGCCTTCAAACATATTTGAGAAGATAGATGAAGAGAATGAGGCAAACTTGCTAGCAGTCCTCACAGAGACACTAGACAGTCTCCCTGTGGATGAAGACGGATTGCCCTCATTTGATGCGCTGACAGATGGAGACGTGACCACTGACAATGAGGCTAGTCCTTCCTCCATGCCTGACGGCACCCCTCCACCCCAGGAGGCAGAAGAGCCGTCTCTACTTAAGAAGCTCTTACTGGCACCAGCCAACACTCAGCTAAGTTATAATGAATGCAGTGGTCTCAGTACCCAGAACCATGCAAATCACAATCACAGGATCAGAACAAACCCTGCAATTGTTAAGACTGAGAATTCATGGAGCAATAAAGCGAAGAGTATTTGTCAACAGCAAAAGCCACAAAGACGTCCCTGCTCGGAGCTTCTCAAATATCTGACCACAAACGATGACCCTCCTCACACCAAACCCACAGAGAACAGAAACAGCAGCAGAGACAAATGCACCTCCAAAAAGAAGTCCCACACACAGTCGCAGTCACAACACTTACAAGCCAAACCAACAACTTTATCTCTTCCTCTGACCCCAGAGTCACCAAATGACCCCAAGGGTTCCCCATTTGAGAACAAGACTATTGAACGCACCTTAAGTGTGGAACTCTCTGGAACTGCAGGCCTAACTCCACCCACCACTCCTCCTCATAAAGCCAACCAAGATAACCCTTTTAGGGCTTCTCCAAAGCTGAAGTCCTCTTGCAAGACTGTGGTGCCACCACCATCAAAGAAGCCCAGGTACAGTGAGTCTTCTGGTACACAAGGCAATAACTCCACCAAGAAAGGGCCGGAGCAATCCGAGTTGTATGCACAACTCAGCAAGTCCTCAGTCCTCACTGGTGGACACGAGGAAAGGAAGACCAAGCGGCCCAGTCTGCGGCTGTTTGGTGACCATGACTATTGCCAGTCAATTAATTCCAAAACAGAAATACTCATTAATATATCACAGGAGCTCCAAGACTCTAGACAACTAGAAAATAAAGATGTCTCCTCTGATTGGCAGGGGCAGATTTGTTCTTCCACAGATTCAGACCAGTGCTACCTGAGAGAGACTTTGGAGGCAAGCAAGCAGGTCTCTCCTTGCAGCACAAGAAAACAGCTCCAAGACCAGGAAATCCGAGCCGAGCTGAACAAGCACTTCGGTCATCCCAGTCAAGCTGTTTTTGACGACGAAGCAGACAAGACCGGTGAACTGAGGGACAGTGATTTCAGTAATGAACAATTCTCCAAACTACCTATGTTTATAAATTCAGGACTAGCCATGGATGGCCTGTTTGATGACAGCGAAGATGAAAGTGATAAACTGAGCTACCCTTGGGATGGCACGCAATCCTATTCATTGTTCAATGTGTCTCCTTCTTGTTCTTCTTTTAACTCTCCATGTAGAGATTCTGTGTCACCACCCAAATCCTTATTTTCTCAAAGACCCCAAAGGATGCGCTCTCGTTCAAGGTCCTTTTCTCGACACAGGTCGTGTTCCCGATCACCATATTCCAGGTCAAGATCAAGGTCTCCAGGCAGTAGATCCTCTTCAAGATCCTGCTATTACTATGAGTCAAGCCACTACAGACACCGCACGCACCGAAATTCTCCCTTGTATGTGAGATCACGTTCAAGATCGCCCTACAGCCGTCGGCCCAGGTATGACAGCTACGAGGAATATCAGCACGAGAGGCTGAAGAGGGAAGAATATCGCAGAGAGTATGAGAAGCGAGAGTCTGAGAGGGCCAAGCAAAGGGAGAGGCAGAGGCAGAAGGCAATTGAAGAGCGCCGTGTGATTTATGTCGGTAAAATCAGACCTGACACAACACGGACAGAACTGAGGGACCGTTTTGAAGTTTTTGGTGAAATTGAGGAGTGCACAGTAAATCTGCGGGATGATGGAGACAGCTATGGTTTCATTACCTACCGTTATACCTGTGATGCTTTTGCTGCTCTTGAAAATGGATACACTTTGCGCAGGTCAAACGAAACTGACTTTGAGCTGTACTTTTGTGGACGCAAGCAATTTTTCAAGTCTAACTATGCAGACCTAGATTCAAACTCAGATGACTTTGACCCTGCTTCCACCAAGAGCAAGTATGACTCTCTGGATTTTGATAGTTTACTGAAAGAAGCTCAGAGAAGCTTGCGCAGGTAACATGTTCCCTAGCTGAGGATGACAGAGGGATGGCGAATACCTCATGGGACAGCGCGTCCTTCCCTAAAGACTATTGCAAGTCATACTTAGGAATTTCTCCTACTTTACACTCTCTGTACAAAAACAAAACAAAACAACAACAATACAACAAGAACAACAACAACAATAACAACAATGGTTTACATGAACACAGCTGCTGAAGAGGCAAGAGACAGAATGATATCCAGTAAGCACATGTTTATTCATGGGTGTCAGCTTTGCTTTTCCTGGAGTCTCTTGGTGATGGAGTGTGCGTGTGTGCATGTATGTGTGTGTGTATGTATGTGTGTGGTGTGTGTGCTTGGTTTAGGGGAAGTATGTGTGGGTACATGTGAGGACTGGGGGCACCTGACCAGAATGCGCAAGGGCAAACCATTTCAAATGGCAGCAGTTCCATGAAGACACGCTTAAAACCTAGAACTTCAAAATGTTCGTATTCTATTCAAAAGGAAATATATATATATATATATATATATATATATATATATATAAATTAAAAAGGAAAGAAAACTAACAACCAACCAACCAACCAACCAACCACAAACCACCCTAAAATGACAGCCGCTGATGTCTGGGCATCAGCCTTTGTACTCTGTTTTTTTAAGAAAGTGCAGAATCAACTTGAAGCAAGCTTTCTCTCATAACGTAATGATTATATGACAATCCTGAAGAAACCACAGGTTCCATAGAACTAATATCCTGTCTCTCTCTCTCTCTCTCTCTCTCTCTTTTTTTTTTCTTTTTCCTTTTGCCATGGAATCTGGGTGGGAGAGGATACTGCGGGCACCAGAATGCTAAAGTTTCCTAACATTTTGAAGTTTCTGTAGTTCATCCTTAATCCTGACACCCATGTAAATGTCCAAAATGTTGATCTTCCACTGCAAATTTCAAAAGCCTTGTCAATGGTCAAGCGTGCAGCTTGTTCAGCGGTTCTTTCTGAGGAGCGGACACCGGGTTACATTACTAATGAGAGTTGGGTAGAACTCTCTGAGATGTGTTCAGATAGTGTAATTGCTACATTCTCTGATGTAGTTAAGTATTTACAGATGTTAAATGGAGTATTTTTATTTTATGTATATACTATACAACAATGTTCTTTTTTGTTACAGCTATGCACTGTAAATGCAGCCTTCTTTTCAAAACTGCTAAATTTTTCTTAATCAAGAATATTCAAATGTAATTATGAGGTGAAACAATTATTGTACACTAACATATTTAGAAGCTGAACTTACTGCTTATATATATTTGATTGTAAAAACAAAAAGACAGTGTGTGTGTCTGTTGAGTGCAACAAGAGCAAAATGATGCTTTCCGCACATCCATCCCTTAGGTGAGCTTCAATCTAAGCATCTTGTCAAGAAATATCCTAGTCCCCTAAAGGTATTAACCACTTCTGCGATATTTTTCCACATTTTCTTGTCGCTTGTTTTTCTTTGAAGTTTTATACACTGGATTTGTTAGGGGAATGAAATTTTCTCATCTAAAATTTTTCTAGAAGATATCATGATTTTATGTAAAGTCTCTCAATGGGTAACCATTAAGAAATGTTTTTATTTTCTCTATCAACAGTAGTTTTGAAACTAGAAGTCAAAAATCTTTTTAAAATGCTGTTTTGTTTTAATTTTTGTGATTTTAATTTGATACAAAATGCTGAGGTAATAATTATAGTATGATTTTTACAATAATTAATGTGTGTCTGAAGACTATCTTTGAAGCCAGTATTTCTTTCCCTTGGCAGAGTATGACGATGGTATTTATCTGTATTTTTTACAGTTATGCATCCTGTATAAATACTGATATTTCATTCCTTTGTTTACTAAAGAGACATATTTATCAGTTGCAGATAGCCTATTTATTATAAATTATGAGATGATGAAAATAATAAAGCCAGTGGAAATTTTCTACCTAGGATGCATGACAATTGTCAGGTTGGAGTGTAAGTGCTTCATTTGGGAAATTCAGCTTTTGCAGAAGCAGTGTTTCTACTTGCACTAGCATGGCCTCTGACGTGACCATGGTGTTGTTCTTGATGACATTGCTTCTGCTAAATTTAATAAAAACTTCAGAAAAACCTCCATTTTGATCATCAGGATTTCATCTGAGTGTGGAGTCCCTGGAATGGAATTCAGTAACATTTGGAGTGTGTATTCAAGTTTCTAAATTGAGATTCGATTACTGTTTGGCTGACATGACTTTTCTGGAAGACATGATACACCTACTACTCAATTGTTCTTTTCCTTTCTCTCGCCCAACACGATCTTGTAAGATGGATTTCACCCCCAGGCCAATGCAGCTAATTTTGATAGCTGCATTCATTTATCACCAGCATATTGTGTTCTGAGTGAATCCACTGTTTGTCCTGTCGGATGCTTGCTTGATTTTTTGGCTTCTTATTTCTAAGTAGATAGAAAGCAATAAAAATACTATGAAATGAAAGAACTTGTTCACAGGTTCTGCGTTACAACAGTAACACATCTTTAATCCGCCTAATTCTTGTTGTTCTGTAGGTTAAATGCAGGTATTTTAACTGTGTGAACGCCAAACTAAAGTTTACAGTCTTTCTTTCTGAATTTTGAGTATCTTCTGTTGTAGAATAATAATAAAAAGACTATTAAGAGCAATAAATTATTTTTAAGAAATCGAGATTTAGTAAATCCTATTATGTGTTCAAGGACCACATGTGTTCTCTATTTTGCCTTTAAATTTTTGTGAACCAATTTTAAATACATTCTCCTTTTTGCCCTGGATTGTTGACATGAGTGGAATACTTGGTTTCTTTTCTTACTTATCAAAAGACAGCACTACAGATATCATATTGAGGATTAATTTATCCCCCCTACCCCCAGCCTGACAAATATTGTTACCATGAAGATAGTTTTCCTCAATGGACTTCAAATTGCATCTAGAATTAGTGGAGCTTTTGTATCTTCTGCAGACACTGTGGGTAGCCCATCAAAATGTAAGCTGTGCTCCTCTCATTTTTATTTTTATTTTTTTGGGAGAGAATATTTCAAATGAACACGTGCACCCCATCATCACTGGAGGCAAATTTCAGCATAGATCTGTAGGATTTTTAGAAGACCGTGGGCCATTGCCTTCATGCCGTGGTAAGTACCACATCTACAATTTTGGTAACCGAACTGGTGCTTTAGTAATGTGGATTTTTTTCTTTTTTAAAAGAGATGTAGCAGAATAATTCTTCCAGTGCAACAAAATCAATTTTTTGCTAAACGACTCCGAGAACAACAGTTGGGCTGTCAACATTCAAAGCAGCAGAGAGGGAACTTTGCACTATTGGGGTATGATGTTTGGGTCAGTTGATAAAAGGAAACCTTTTCATGCCTTTAGATGTGAGCTTCCAGTAGGTAATGATTATGTGTCCTTTCTTGATGGCTGTAATGAGAACTTCAATCACTGTAGTCTAAGACCTGATCTATAGATGACCTAGAATAGCCATGTACTATAATGTGATGATTCTAAATTTGTACCTATGTGACAGACATTTTCAATAATGTGAACTGCTGATTTGATGGAGCTACTTTAAGATTTGTAGGTGAAAGTGTAATACTGTTGGTTGAACTATGCTGAAGAGGGAAAGTGAGCGATTAGTTGAGCCCTTGCCGGGCCTTTTTTCCACCTGCCAATTCTACATGTATTGTTGTGGTTTTATTCATTGTATGAAAATTCCTGTGATTTTTTTTAAATGTGCAGTACACATCAGCCTCACTGAGCTAATAAAGGGAAACGAATGTTTCAAATCTAAAAAAAAAAAAAAAAAA
>gi|1043572675|ref|NM_201397.2| Homo sapiens glutathione peroxidase 1 (GPX1), transcript variant 2, mRNA
GAGCCCTCGAGGGCCCCAGCCCTTGGAAGGGTAACCTGGACCGCTGCCGCCTGGTTGCCTGGGCCAGACCAGACATGCCTGCTGCTCCTTCCGGCTTAGGAGGAGCACGCGTCCCGCTCGGGCGCACTCTCCAGCCTTTTCCTGGCTGAGGAGGGGCCGAGCCCTCCGGGTAGGGCGGGGGCCGGATGAGGCGGGACCCTCAGGCCCGGAAAACTGCCTGTGCCACGTGACCCGCCGCCGGCCAGTTAAAAGGAGGCGCCTGCTGGCCTCCCCTTACAGTGCTTGTTCGGGGCGCTCCGCTGGCTTCTTGGACAATTGCGCCATGTGTGCTGCTCGGCTAGCGGCGGCGGCGGCGGCGGCCCAGTCGGTGTATGCCTTCTCGGCGCGCCCGCTGGCCGGCGGGGAGCCTGTGAGCCTGGGCTCCCTGCGGGGCAAGGTACTACTTATCGAGAATGTGGCGTCCCTCTGAGGCACCACGGTCCGGGACTACACCCAGATGAACGAGCTGCAGCGGCGCCTCGGACCCCGGGGCCTGGTGGTGCTCGGCTTCCCGTGCAACCAGTTTGGGCATCAGGTGCGCCGGGCGGAGCGGGGCGGGGCGGGGGCGGACGTGCAGTAGTGGCTGGGGGCGCCGGCGGTGTGCTGGTGGGTGCCGTCGGCTCCATGCGCGGAGAGTCTGGCTACTCTCTCGTTTCCTTTCTGTTGCTCGTAGCTGCTGAAATTCCTCTCCGCCCTTGGGATTGCGCATGGAGGGCAAAATCCCGGTGACTCATAGAAAATCTCCCTTGTTTGTGGTTAGAACGTTTCTCTCCTCCTCTTGACCCCGGGTTCTAGCTGCCCTTCTCTCCTGTAGGAGAACGCCAAGAACGAAGAGATTCTGAATTCCCTCAAGTACGTCCGGCCTGGTGGTGGGTTCGAGCCCAACTTCATGCTCTTCGAGAAGTGCGAGGTGAACGGTGCGGGGGCGCACCCTCTCTTCGCCTTCCTGCGGGAGGCCCTGCCAGCTCCCAGCGACGACGCCACCGCGCTTATGACCGACCCCAAGCTCATCACCTGGTCTCCGGTGTGTCGCAACGATGTTGCCTGGAACTTTGAGAAGTTCCTGGTGGGCCCTGACGGTGTGCCCCTACGCAGGTACAGCCGCCGCTTCCAGACCATTGACATCGAGCCTGACATCGAAGCCCTGCTGTCTCAAGGGCCCAGCTGTGCCTAGGGCGCCCCTCCTACCCCGGCTGCTTGGCAGTTGCAGTGCTGCTGTCTCGGGGGGGTTTTCATCTATGAGGGTGTTTCCTCTAAACCTACGAGGGAGGAACACCTGATCTTACAGAAAATACCACCTCGAGATGGGTGCTGGTCCTGTTGATCCCAGTCTCTGCCAGACCAAGGCGAGTTTCCCCACTAATAAAGTGCCGGGTGTCAGCAGAACTGTGAAAAAAAAAAAAAAAAAAAAAAAA
>gi|1018191616|ref|NM_001322818.1| Homo sapiens unc-5 netrin receptor D (UNC5D), transcript variant 2, mRNA
TTAAATAAGTAGGGATTGTTTAAAAAAAAAAGCTGTAATATGTTATCTGGGGGTGGATGATCCTGGTGTTAGTTAAAGCTCTCAGTGATGTCTGTGCTGGGACTTCCGGGTTCCTGTTGGACTTTTCCTCCCAAACTTCACCAGGAACTGACAATGGCGAAGCCCTTCCCGAATCCATCCCATCAGCTCCTGGGACACTGCCTCATTTCATAGAGGAGCCAGATGATGCTTATATTATCAAGAGCAACCCTATTGCACTCAGGTGCAAAGCGAGGCCAGCCATGCAGATATTCTTCAAATGCAACGGCGAGTGGGTCCATCAGAACGAGCACGTCTCTGAAGAGACTCTGGACGAGAGCTCAGGTTTGAAGGTCCGCGAAGTGTTCATCAATGTTACTAGGCAACAGGTGGAGGACTTCCATGGGCCCGAGGACTATTGGTGCCAGTGTGTGGCGTGGAGCCACCTGGGTACCTCCAAGAGCAGGAAGGCCTCTGTGCGCATAGCCTATTTACGGAAAAACTTTGAACAAGACCCACAAGGAAGGGAAGTTCCCATTGAAGGCATGATTGTACTGCACTGCCGCCCACCAGAGGGAGTCCCTGCTGCCGAGGTGGAATGGCTGAAAAATGAAGAGCCCATTGACTCTGAACAAGACGAGAACATTGACACCAGGGCTGACCATAACCTGATCATCAGGCAGGCACGGCTCTCGGACTCAGGAAATTACACCTGCATGGCAGCCAACATCGTGGCTAAGAGGAGAAGCCTGTCGGCCACTGTTGTGGTCTACGTGAATGGAGGCTGGTCTTCCTGGACAGAGTGGTCAGCCTGCAATGTTCGCTGTGGTAGAGGATGGCAGAAACGTTCCCGGACCTGCACCAACCCAGCTCCTCTCAATGGTGGGGCCTTTTGTGAGGGAATGTCAGTGCAGAAAATAACCTGCACTTCTCTTTGTCCTGTGGATGGGAGCTGGGAAGTGTGGAGCGAATGGTCCGTCTGCAGTCCAGAGTGTGAACATTTGCGGATCCGGGAGTGCACAGCACCACCCCCGAGAAATGGGGGCAAATTCTGTGAAGGTCTAAGCCAGGAATCTGAAAACTGCACAGATGGTCTTTGCATCCTAGATAAAAAACCTCTTCATGAAATAAAACCCCAAAGCATTGAGAATGCCAGCGACATTGCTTTGTACTCGGGCTTGGGTGCTGCCGTCGTGGCCGTTGCAGTCCTGGTCATTGGTGTCACCCTTTACAGACGGAGCCAGAGTGACTATGGCGTGGACGTCATTGACTCTTCTGCATTGACAGGTGGCTTCCAGACCTTCAACTTCAAAACAGTCCGTCAAGGTAACTCCCTGCTCCTGAATTCTGCCATGCAGCCAGATCTGACAGTGAGCCGGACATACAGCGGACCCATCTGTCTGCAGGACCCTCTGGACAAGGAGCTCATGACAGAGTCCTCACTCTTTAACCCTTTGTCGGACATCAAAGTGAAAGTCCAGAGCTCGTTCATGGTTTCCCTGGGAGTGTCTGAGAGAGCTGAGTACCACGGCAAGAATCATTCCAGGACTTTTCCCCATGGAAACAACCACAGCTTTAGTACAATGCATCCCAGAAATAAAATGCCCTACATCCAAAATCTGTCATCACTCCCCACAAGGACAGAACTGAGGACAACTGGTGTCTTTGGCCATTTAGGGGGGCGCTTAGTAATGCCAAATACAGGGGTGAGCTTACTCATACCACACGGTGCCATCCCAGAGGAGAATTCTTGGGAGATTTATATGTCCATCAACCAAGGTGAACCCAGCCTCCAGTCAGATGGCTCTGAGGTGCTCCTGAGTCCTGAAGTCACCTGTGGTCCTCCAGACATGATCGTCACCACTCCCTTTGCATTGACCATCCCGCACTGTGCAGATGTCAGTTCTGAGCATTGGAATATCCATTTAAAGAAGAGGACACAGCAGGGCAAATGGGAGGAAGTGATGTCAGTGGAAGATGAATCTACATCCTGTTACTGCCTTTTGGACCCCTTTGCGTGTCATGTGCTCCTGGACAGCTTTGGGACCTATGCGCTCACTGGAGAGCCAATCACAGACTGTGCCGTGAAGCAACTGAAGGTGGCGGTTTTTGGCTGCATGTCCTGTAACTCCCTGGATTACAACTTGAGAGTTTACTGTGTGGACAATACCCCTTGTGCATTTCAGGAAGTGGTTTCAGATGAAAGGCATCAAGGTGGACAGCTCCTGGAAGAACCAAAATTGCTGCATTTCAAAGGGAATACCTTTAGTCTTCAGATTTCTGTCCTTGATATTCCCCCATTCCTCTGGAGAATTAAACCATTCACTGCCTGCCAGGAAGTCCCGTTCTCCCGCGTGTGGTGCAGTAACCGGCAGCCCCTGCACTGTGCCTTCTCCCTGGAGCGTTATACGCCCACTACCACCCAGCTGTCCTGCAAAATCTGCATTCGGCAGCTCAAAGGCCATGAACAGATCCTCCAAGTGCAGACATCAATCCTAGAGAGTGAACGAGAAACCATCACTTTCTTCGCACAAGAGGACAGCACTTTCCCTGCACAGACTGGCCCCAAAGCCTTCAAAATTCCCTACTCCATCAGACAGCGGATTTGTGCTACATTTGATACCCCCAATGCCAAAGGCAAGGACTGGCAGATGTTAGCACAGAAAAACAGCATCAACAGGAATTTATCTTATTTCGCTACACAAAGTAGCCCATCTGCTGTCATTTTGAACCTGTGGGAAGCTCGTCATCAGCATGATGGTGATCTTGACTCCCTGGCCTGTGCCCTTGAAGAGATTGGGAGGACACACACGAAACTCTCAAACATTTCAGAATCCCAGCTTGATGAAGCCGACTTCAACTACAGCAGGCAAAATGGACTCTAGTCCACTTCCTCCCATGAGACAGAGTGATGGCCAGCTTGGGGACATTTGCTTTAAATGGGAAAGAGGCCGCTTTCTGCCCAGTGGCGTTGGGGGAATTCAGCCTTCATTTATAATCAGTGAGATTCCCCTGTTGAAGAAACTAAATTTTATATAGGTAAAACATGTTAATAGGGAAGAGTACAAGCTCTCTTACATATAAGAGGGCTCTACTATCTCCTTGGAATCCACATTTGGGTTAACTCCTCAGATTTGGAGTGGCAAGGATAAAAGTGAGGGCAGAAGTAGCTGTGGGAAAAGATGAGCTATGATAATGCTGGGAAGGCAGAGATTGATTAAGTGCATGCTTTGAAATAGGTTTTTAATGATGTGCCCCAAAGGGCCAGCTGATTCTGGTACTAGATTGTCAGAGTTTTCTACCAACTGGCATCTGTGATGTCAGAGATCATTGTAAAAATGGCTTTTAGACGTGAAACAGGGTTGCCAACCCATTTGTATGACTTCAACAACGTCAAGGAGGGCATTTAGAATTTAGAATCTGAGCACATCACACCAGCACCAGCTCCCTGTCTCTTCTAGCCACTTAATGGAGACACAATGGAGAGGTAAGACAGACCACAAACTAGTTCTTATAGTGTACTCCACCTTTTACTTTTTTCCTGAGACAAATCTACCCTTATTCTTTCTTCCTCTTCCTTACCCCTTGCAGTAGGGAGGTATCAAGGAGCATAATTAAACTTGTCAATACGGAAAGTTGTTTTTTCTAACACAACAAAGTGGGACCATCTCTATTCCCATCTAAGCCACTCAAATTGCTGAGTGCTATTAGAACACAGCTTATTACATGGATATGGGGACAGGAGAGATTAAAGCAGGTTCAAAAACACATGAACTGCAGATGCCATAGGCCTCAAATCAGCTGTAATTCTAGGAGACACGTGTTGATCTAGTTATCTAACATTGTTGTTATAAGAAAATGAGTTTACTGCATTTTTCAATCCAGATTCTTGAAATTGTCTAACATGTGGGTACTGTGTCATCACAAAATCTCTCAGTAAGGCTATATGTGATCCTCATTTTGCCTCTTGGGAAATTAGCAGATAGTCTTTGCTCTAAATGATATCTGAGTAAATAGACTTGAGGAATCCTCTACCACAGTGTCCCTGAAACCACATGCATCATTCAGGAAGCCTTCACCCTGTGACTATTCAGCCTCCCTGAATATGCTTTCTCTATAGAACCACTAACATATGGCTATTGCTCTATGATTTTTTTTTTTACATTAGGAGGCAGTGATATTGTGGAAGATTGAAATCCACAGATAATTCATGACCCTCATCTTATCACTTTACTCCATCTTTTTATCCTATTAAATTATTTTTGACAAGATGTCCTGGTAGACTAAAGGTGAACAGATTTGCTCTTGCTCATCTTCTGGTGGATATTTTAACTTGCTATTCACAATCAGGACAACCAAAGTCAAGGACCCAGATGAACCACAAGGCAGCTAGTCAGCTACTTAGAGGTTGGTTACATTCGAATAAAAAGTAGTCAGGGAATGGGGGAGGTGGGGAGTTGGGGAGTACTTGGCAGTTGGGATATGATCCATTTTTTTAAACAAGTTTTTTGTAGATCCCTTGTAAAATAATAATAATAATGTTGTGAATCTCCATGCCAAGTGAAAAAGGCCTAAAGATGAGTTGAATTTGTGATACCATGGGTAAGGCATGGAAGAACTCTTGAATGTGTTGGCCATTTTCTCTAACTAACATGTGGTATGTATGGTCCCCTATATTAGATAGAAGTCTTTGCTACATGTAATTCAAAAGCATCTCGCTTTTCTCAGGAACCAAAGGCTTATGATGTAGGACAAAGAAATCATCTTAGAACTGTCAAGCATATTTTCACAATACCATGTCAAGATCAGGAAAACACCCTTTTGCTAGTGTGCTTAACTTATTTATTTCTTCTAGGAAACAATAGATAAACAGCATGAAAATGTAAATCATCTGGCATCACTGATAGAATTTCTGAAAGAGAAAGAGAAGTAGATGGTCAACCAGTCACTAGTTGGTTGGCATGAGGTGGTGTGCAGAGGAAAGCTGCATTCACTATTGAGTAAAAACTTGTAGAAAGCACATTATAGAGCTTATGTTGGAATCCATCTTGGAGGATTTTTGTTTTAAACTGTCTTTAGCATTTTCCCTCTTCCCTTCTAATGGGCATTATAATTGTTTCATCTACTCTGTGAATCTACATAGGTCTTTTTTTTTAGATGTTTGATACATTTTAAGTATTTTTAAATAGATGAAAATTCTAAATGATTTTCCCTCAAATCTATCTAGATTATTTTAAGATGAGACAAGATTATTGTCAATCCCTGAATGTCTGGAGTTACCTCCCATGGATTTTTTTTTCCTTTGGCCTGGGTTTTATAAACAACTTGAACATCATATCATATAGGATAACAAAGGAGGAAGTTAACTTAATTCACCTCAGACTTCAGCCTAAGATTCAATCAAATTCATCCTTCAGCCTGTCTTGTTTCTTCTTTATGTTTCTTTTACTTATTGCTGCTAGGATCCTACATAGGATTTCTATAGAAATGTATGAAATTCTGTGGTCACTGCATGTCAGGATTGCACAGTATGTTACAATACAATTTCAAAGAGAACCCACATTTGTGAGATTTACAGACCAAGGTGTGGTGGAGGAGGTAGAATTGCAGATCAGATAAAAAGTGAGCTTACACTTGAACTTAGTTATTCACTGTGACCTAAATTTAGTCCTATTGTAATATGTGCCTGTCACAACACAAATACCCCTCTTGAAAGAGATTTACTCATCTATCCAAGCACTTAATTTGGAAATTTTATTGTCCTATTGCAAAATGAAACAAAATTAAAAGTGGCCTCGAGTACTTGGTAAGTTACTTAAAATTTTTACAAAAATATCCCACTCAATGCCAAATCTTTCAGTCCTCAAAGGCATTTAAGTCCAATAGTCATGCTTTAAATATGGCTTTAAATTATGCCACCAAAATGGTGCACTTCACAGATTCACCAGACTGTAGCATCATAAAGTTAATTTACAGTTTTTACAACATTGCTTCTACATTCTTACTGGTTTACATTAAAATCCTTTAAGCCAAAAGGAAGCTTGCTCTATGGATTTAAATGCAAACTTCATTTACCAGTGCAGGAAGTCTCATAAAACTCAGATGTACTCCCACAAAAATTTTATTGGCCTTTTTGTAAGAGATGAAAAAGAATTGACACAGTTCTCTTTAAAGAGAAGAACTTTTTTATTATTATTTTTATCTCCAACTGCAGGTGGTGTCTTTTGCCAAGGTCTCTGTATTTTTCTTTCAGTTGTCTTTGGGAGGGGATGTTAAGTCAAATCACTAAAACAGGGTTCTCTTTGGATTAAAAGTTCTGGATTTATTGCAACTATTTTCCTTGAGAAACATTCTCAGCATCAGGATTGATAAACAAATGTAGATGATTAAAATAGGATAATTGGTTTTAGATAATATCTTCTACTGCCAAACTTCTGGCAAATTTACCTGTGAATTTCAAAATGTTATAAAATCTCTTGATATGCTTTTGTTTTTCCTTTTAGCCATTTTCTCTTCAATTTCTTAGTCCCTCTGCCCTCTGTAAATGTGTTGAGTGATATAGCTATCAGATGTATTGAAGGCAAAGTTCTCGCAGAGGTCTCTGTTCCAGCTCTGTAAAGGTCACAGGAATCGTGAAGGAGCTGAGAAATCTTCCTCTCCGGCCCACTGTCTGTGGCCCATTGTCATTGTTTCCTCATGAAACATTGCAGAGTTTGAATCCTCAGTAACTCTCATTGACTGGATTAGAGGTGATGGCCACAGCAAATGGGAGAGCAAAATGTTGGCCTACAGAGAATGACACAATTTTATTCGCCTTTGGTGTTAGTTGCCATAGTGCTGTATTTGAAAATCGATGCTTTAGCCAAAAGCTGAATGACCACCGTTTCCGTAGTTTCCACTGTTTTGTCTGCATAGAATTTTCCTGAACTACAAGCAAAAATGTATTTTGTCCAATGTCACAAAAGTGAAAATGTTACTAATCTTAGATGTGTTGCATATTTTGTGTTTTTACGTTCCAAACTCTTTCAAAAGCTGCCGTTACAAAGCTGTTTGGCTGTATTGACAGCATGTGGTGTTTTTACAAAAGCAATTCTAGGAGAGCCAGTGTCTACCATGAACTCCTGACATCCCCACTCCAGGGTCATTCATGACATTGAAATGGCAACTTGTACACTGTAATTCTTCGAAAAGTAACAGGGGATGGAAATCAGACCTGGCCGTTAGTCACTAGTGTGTAGTACCGTGATCTGAAGTAGGAAATTTAACTGACATAGAATAATTGTGGTTTTTGAAGCAGCTACTCATTGCTTTTTCCTTTTGCTGTGAAGATCATGGATTGGGAATGTCCTCGTGAGGTGGACCTAAGGCAGTAACATTTAAACTTCATGTCCTAGCACCCGCCCTCCATCTGACCCAAAGATAAAAAAGGCATCAAGCTTCATGGTTATGCCTAAGCTTAAAAATTCCCTTCCCCACTACTAATATTGAGTTCAGCAGGGCCCCATCTTACTTATTTTTCAAAAAAGTTATAGCTTTGAATTATAGACTATATTACTAAATTTGGTAAGGTAGTTCTTTGCATGAATGGGAATGTGTGTCAAAATACTTTCACAAAAGGCATGATTACAATGGAAATGCCCCTTTGCCTCCAGTTTTGCTAACCCTAAAAAGTATTTCACTAATTTCAAGCACTGTTTACACTCAAATCCCAAAATTGGCCAAATTATATAATTCTCTTAAATTTTCATTTCTGTAGGTGGAGATTTAACTATGGTTCTGGTGAATCATAGAAGGGAGAGACAATATTTGAGGGGAGTTTATCAGCAGAATATCATGCCTTATGACCCCATTACTGAAACACAGACATTACAATCAGAAATAGACCTAATAATTCCAATATCCCTCCATTAACTAGTTCCAGTGATGCTGAGAGACACAGCACCCTGTGCCAGGTATCAGAAATATAAGCCTCAGCAGAGGGTAACTGAAAACTTTCAATCAGAAACACTCTCCAAGGCTTATGGCTAGATTATGTAGGTCACTACCATTCAAAACTTTTCTATACAAAGGTGGAAAAGCACTCAGAATCTGGGAATTTTCTGGTTGGAAGAACAATGTTCTCCTTTTCCAAATTGGAATAAAGACTCAGAATTACCCATTCTTCATAATCATGTCTGATTGGTACATACACTCCAGGAAGTCTCAACCTAGAAACATTTCCAACCTAAGCATTTAAAGGAAAACTGGCTCATTCTTCTGACCCAAACTCAAAAAATATGAGTACTTGCGTACCTCCATTTCTGCATGAAGATTTTAAAACAGATTTCATTTTTTTCTGTTTATTTTGGGAAGGTGCGTGGGGGTGTTCTTTCAAGTGATTCACATCTCAAACCCATACCACTCTCAACTTTTATTTGATGTGTTCAAAGCCAAAAAATAAAATAAAATAAAGCAGGGCTGAACACTTAATTTGACATGAAGCTGAAGGACTGAGCAAGCCAGAGGAGAGAGGTTGAATGAAGCATAGCCTTGGCTTCATACCACACTTTTTGTGCCTTGTATTATCAATGTAAATTCTGAATGTTGTACAGTAAACTTGGATGGACTTCTTAGAAAAGGCTGCACTGGCTTCTTTTTCAGCACATGTACATATCTATAAATATATATACATATATATTTGGTAATGCCAAACAGCTCTGTTATATTGTATTGAACAAAATGGACGGTTTGGATGTTTTATGTCGAGTTTGCAAAAAAAAAAAAAAAAAAAAAAACTGGATGGTTGCAGACTTTTCAAGATAAATGTACAGACGTAAATTACTGCATATCAGTTATTTATGAATAAAGAGTCTTTTATTGACATTTTAGGATAAAAAAAAAA
>gi|1018191604|ref|NM_080872.3| Homo sapiens unc-5 netrin receptor D (UNC5D), transcript variant 1, mRNA
CGGACTCTCGCCTCCGCTCCGTAGTTCGGGGCCCGGCAGCGGCGCGAGGGCTGGGAACTGCGCGGCGGGGACTGCGGGCGACTCCGGCATCCGCGCTGGCGGCAGCGGTCGCCGCGCCGTGGGAAGCTATGGGGACGCGCCCTTTCTCGGGGTGCCCATTCAGCGGCGGCTCGGAGCTCCCTGCCCCGCTGCTTTAGGAAGCGATCGTGGAGCAGAGTCACTCTCTGAAGACTCCCGAGACCCATTCGACTCGGGACCCTCATCGCCGACCCTTTCCCGGGCTCCCGGAGCGTGAAGAAGAGCCGCCCTCCGGAACGCGGCGAGGAGCATGGGGAGAGCGGCGGCCACCGCAGGCGGCGGCGGAGGGGCGCGCCGCTGGCTCCCGTGGCTGGGGCTGTGCTTCTGGGCGGCAGGGACCGCGGCTGCCCGAGGAACTGACAATGGCGAAGCCCTTCCCGAATCCATCCCATCAGCTCCTGGGACACTGCCTCATTTCATAGAGGAGCCAGATGATGCTTATATTATCAAGAGCAACCCTATTGCACTCAGGTGCAAAGCGAGGCCAGCCATGCAGATATTCTTCAAATGCAACGGCGAGTGGGTCCATCAGAACGAGCACGTCTCTGAAGAGACTCTGGACGAGAGCTCAGGTTTGAAGGTCCGCGAAGTGTTCATCAATGTTACTAGGCAACAGGTGGAGGACTTCCATGGGCCCGAGGACTATTGGTGCCAGTGTGTGGCGTGGAGCCACCTGGGTACCTCCAAGAGCAGGAAGGCCTCTGTGCGCATAGCCTATTTACGGAAAAACTTTGAACAAGACCCACAAGGAAGGGAAGTTCCCATTGAAGGCATGATTGTACTGCACTGCCGCCCACCAGAGGGAGTCCCTGCTGCCGAGGTGGAATGGCTGAAAAATGAAGAGCCCATTGACTCTGAACAAGACGAGAACATTGACACCAGGGCTGACCATAACCTGATCATCAGGCAGGCACGGCTCTCGGACTCAGGAAATTACACCTGCATGGCAGCCAACATCGTGGCTAAGAGGAGAAGCCTGTCGGCCACTGTTGTGGTCTACGTGAATGGAGGCTGGTCTTCCTGGACAGAGTGGTCAGCCTGCAATGTTCGCTGTGGTAGAGGATGGCAGAAACGTTCCCGGACCTGCACCAACCCAGCTCCTCTCAATGGTGGGGCCTTTTGTGAGGGAATGTCAGTGCAGAAAATAACCTGCACTTCTCTTTGTCCTGTGGATGGGAGCTGGGAAGTGTGGAGCGAATGGTCCGTCTGCAGTCCAGAGTGTGAACATTTGCGGATCCGGGAGTGCACAGCACCACCCCCGAGAAATGGGGGCAAATTCTGTGAAGGTCTAAGCCAGGAATCTGAAAACTGCACAGATGGTCTTTGCATCCTAGATAAAAAACCTCTTCATGAAATAAAACCCCAAAGCATTGAGAATGCCAGCGACATTGCTTTGTACTCGGGCTTGGGTGCTGCCGTCGTGGCCGTTGCAGTCCTGGTCATTGGTGTCACCCTTTACAGACGGAGCCAGAGTGACTATGGCGTGGACGTCATTGACTCTTCTGCATTGACAGGTGGCTTCCAGACCTTCAACTTCAAAACAGTCCGTCAAGGTAACTCCCTGCTCCTGAATTCTGCCATGCAGCCAGATCTGACAGTGAGCCGGACATACAGCGGACCCATCTGTCTGCAGGACCCTCTGGACAAGGAGCTCATGACAGAGTCCTCACTCTTTAACCCTTTGTCGGACATCAAAGTGAAAGTCCAGAGCTCGTTCATGGTTTCCCTGGGAGTGTCTGAGAGAGCTGAGTACCACGGCAAGAATCATTCCAGGACTTTTCCCCATGGAAACAACCACAGCTTTAGTACAATGCATCCCAGAAATAAAATGCCCTACATCCAAAATCTGTCATCACTCCCCACAAGGACAGAACTGAGGACAACTGGTGTCTTTGGCCATTTAGGGGGGCGCTTAGTAATGCCAAATACAGGGGTGAGCTTACTCATACCACACGGTGCCATCCCAGAGGAGAATTCTTGGGAGATTTATATGTCCATCAACCAAGGTGAACCCAGCCTCCAGTCAGATGGCTCTGAGGTGCTCCTGAGTCCTGAAGTCACCTGTGGTCCTCCAGACATGATCGTCACCACTCCCTTTGCATTGACCATCCCGCACTGTGCAGATGTCAGTTCTGAGCATTGGAATATCCATTTAAAGAAGAGGACACAGCAGGGCAAATGGGAGGAAGTGATGTCAGTGGAAGATGAATCTACATCCTGTTACTGCCTTTTGGACCCCTTTGCGTGTCATGTGCTCCTGGACAGCTTTGGGACCTATGCGCTCACTGGAGAGCCAATCACAGACTGTGCCGTGAAGCAACTGAAGGTGGCGGTTTTTGGCTGCATGTCCTGTAACTCCCTGGATTACAACTTGAGAGTTTACTGTGTGGACAATACCCCTTGTGCATTTCAGGAAGTGGTTTCAGATGAAAGGCATCAAGGTGGACAGCTCCTGGAAGAACCAAAATTGCTGCATTTCAAAGGGAATACCTTTAGTCTTCAGATTTCTGTCCTTGATATTCCCCCATTCCTCTGGAGAATTAAACCATTCACTGCCTGCCAGGAAGTCCCGTTCTCCCGCGTGTGGTGCAGTAACCGGCAGCCCCTGCACTGTGCCTTCTCCCTGGAGCGTTATACGCCCACTACCACCCAGCTGTCCTGCAAAATCTGCATTCGGCAGCTCAAAGGCCATGAACAGATCCTCCAAGTGCAGACATCAATCCTAGAGAGTGAACGAGAAACCATCACTTTCTTCGCACAAGAGGACAGCACTTTCCCTGCACAGACTGGCCCCAAAGCCTTCAAAATTCCCTACTCCATCAGACAGCGGATTTGTGCTACATTTGATACCCCCAATGCCAAAGGCAAGGACTGGCAGATGTTAGCACAGAAAAACAGCATCAACAGGAATTTATCTTATTTCGCTACACAAAGTAGCCCATCTGCTGTCATTTTGAACCTGTGGGAAGCTCGTCATCAGCATGATGGTGATCTTGACTCCCTGGCCTGTGCCCTTGAAGAGATTGGGAGGACACACACGAAACTCTCAAACATTTCAGAATCCCAGCTTGATGAAGCCGACTTCAACTACAGCAGGCAAAATGGACTCTAGTCCACTTCCTCCCATGAGACAGAGTGATGGCCAGCTTGGGGACATTTGCTTTAAATGGGAAAGAGGCCGCTTTCTGCCCAGTGGCGTTGGGGGAATTCAGCCTTCATTTATAATCAGTGAGATTCCCCTGTTGAAGAAACTAAATTTTATATAGGTAAAACATGTTAATAGGGAAGAGTACAAGCTCTCTTACATATAAGAGGGCTCTACTATCTCCTTGGAATCCACATTTGGGTTAACTCCTCAGATTTGGAGTGGCAAGGATAAAAGTGAGGGCAGAAGTAGCTGTGGGAAAAGATGAGCTATGATAATGCTGGGAAGGCAGAGATTGATTAAGTGCATGCTTTGAAATAGGTTTTTAATGATGTGCCCCAAAGGGCCAGCTGATTCTGGTACTAGATTGTCAGAGTTTTCTACCAACTGGCATCTGTGATGTCAGAGATCATTGTAAAAATGGCTTTTAGACGTGAAACAGGGTTGCCAACCCATTTGTATGACTTCAACAACGTCAAGGAGGGCATTTAGAATTTAGAATCTGAGCACATCACACCAGCACCAGCTCCCTGTCTCTTCTAGCCACTTAATGGAGACACAATGGAGAGGTAAGACAGACCACAAACTAGTTCTTATAGTGTACTCCACCTTTTACTTTTTTCCTGAGACAAATCTACCCTTATTCTTTCTTCCTCTTCCTTACCCCTTGCAGTAGGGAGGTATCAAGGAGCATAATTAAACTTGTCAATACGGAAAGTTGTTTTTTCTAACACAACAAAGTGGGACCATCTCTATTCCCATCTAAGCCACTCAAATTGCTGAGTGCTATTAGAACACAGCTTATTACATGGATATGGGGACAGGAGAGATTAAAGCAGGTTCAAAAACACATGAACTGCAGATGCCATAGGCCTCAAATCAGCTGTAATTCTAGGAGACACGTGTTGATCTAGTTATCTAACATTGTTGTTATAAGAAAATGAGTTTACTGCATTTTTCAATCCAGATTCTTGAAATTGTCTAACATGTGGGTACTGTGTCATCACAAAATCTCTCAGTAAGGCTATATGTGATCCTCATTTTGCCTCTTGGGAAATTAGCAGATAGTCTTTGCTCTAAATGATATCTGAGTAAATAGACTTGAGGAATCCTCTACCACAGTGTCCCTGAAACCACATGCATCATTCAGGAAGCCTTCACCCTGTGACTATTCAGCCTCCCTGAATATGCTTTCTCTATAGAACCACTAACATATGGCTATTGCTCTATGATTTTTTTTTTTACATTAGGAGGCAGTGATATTGTGGAAGATTGAAATCCACAGATAATTCATGACCCTCATCTTATCACTTTACTCCATCTTTTTATCCTATTAAATTATTTTTGACAAGATGTCCTGGTAGACTAAAGGTGAACAGATTTGCTCTTGCTCATCTTCTGGTGGATATTTTAACTTGCTATTCACAATCAGGACAACCAAAGTCAAGGACCCAGATGAACCACAAGGCAGCTAGTCAGCTACTTAGAGGTTGGTTACATTCGAATAAAAAGTAGTCAGGGAATGGGGGAGGTGGGGAGTTGGGGAGTACTTGGCAGTTGGGATATGATCCATTTTTTTAAACAAGTTTTTTGTAGATCCCTTGTAAAATAATAATAATAATGTTGTGAATCTCCATGCCAAGTGAAAAAGGCCTAAAGATGAGTTGAATTTGTGATACCATGGGTAAGGCATGGAAGAACTCTTGAATGTGTTGGCCATTTTCTCTAACTAACATGTGGTATGTATGGTCCCCTATATTAGATAGAAGTCTTTGCTACATGTAATTCAAAAGCATCTCGCTTTTCTCAGGAACCAAAGGCTTATGATGTAGGACAAAGAAATCATCTTAGAACTGTCAAGCATATTTTCACAATACCATGTCAAGATCAGGAAAACACCCTTTTGCTAGTGTGCTTAACTTATTTATTTCTTCTAGGAAACAATAGATAAACAGCATGAAAATGTAAATCATCTGGCATCACTGATAGAATTTCTGAAAGAGAAAGAGAAGTAGATGGTCAACCAGTCACTAGTTGGTTGGCATGAGGTGGTGTGCAGAGGAAAGCTGCATTCACTATTGAGTAAAAACTTGTAGAAAGCACATTATAGAGCTTATGTTGGAATCCATCTTGGAGGATTTTTGTTTTAAACTGTCTTTAGCATTTTCCCTCTTCCCTTCTAATGGGCATTATAATTGTTTCATCTACTCTGTGAATCTACATAGGTCTTTTTTTTTAGATGTTTGATACATTTTAAGTATTTTTAAATAGATGAAAATTCTAAATGATTTTCCCTCAAATCTATCTAGATTATTTTAAGATGAGACAAGATTATTGTCAATCCCTGAATGTCTGGAGTTACCTCCCATGGATTTTTTTTTCCTTTGGCCTGGGTTTTATAAACAACTTGAACATCATATCATATAGGATAACAAAGGAGGAAGTTAACTTAATTCACCTCAGACTTCAGCCTAAGATTCAATCAAATTCATCCTTCAGCCTGTCTTGTTTCTTCTTTATGTTTCTTTTACTTATTGCTGCTAGGATCCTACATAGGATTTCTATAGAAATGTATGAAATTCTGTGGTCACTGCATGTCAGGATTGCACAGTATGTTACAATACAATTTCAAAGAGAACCCACATTTGTGAGATTTACAGACCAAGGTGTGGTGGAGGAGGTAGAATTGCAGATCAGATAAAAAGTGAGCTTACACTTGAACTTAGTTATTCACTGTGACCTAAATTTAGTCCTATTGTAATATGTGCCTGTCACAACACAAATACCCCTCTTGAAAGAGATTTACTCATCTATCCAAGCACTTAATTTGGAAATTTTATTGTCCTATTGCAAAATGAAACAAAATTAAAAGTGGCCTCGAGTACTTGGTAAGTTACTTAAAATTTTTACAAAAATATCCCACTCAATGCCAAATCTTTCAGTCCTCAAAGGCATTTAAGTCCAATAGTCATGCTTTAAATATGGCTTTAAATTATGCCACCAAAATGGTGCACTTCACAGATTCACCAGACTGTAGCATCATAAAGTTAATTTACAGTTTTTACAACATTGCTTCTACATTCTTACTGGTTTACATTAAAATCCTTTAAGCCAAAAGGAAGCTTGCTCTATGGATTTAAATGCAAACTTCATTTACCAGTGCAGGAAGTCTCATAAAACTCAGATGTACTCCCACAAAAATTTTATTGGCCTTTTTGTAAGAGATGAAAAAGAATTGACACAGTTCTCTTTAAAGAGAAGAACTTTTTTATTATTATTTTTATCTCCAACTGCAGGTGGTGTCTTTTGCCAAGGTCTCTGTATTTTTCTTTCAGTTGTCTTTGGGAGGGGATGTTAAGTCAAATCACTAAAACAGGGTTCTCTTTGGATTAAAAGTTCTGGATTTATTGCAACTATTTTCCTTGAGAAACATTCTCAGCATCAGGATTGATAAACAAATGTAGATGATTAAAATAGGATAATTGGTTTTAGATAATATCTTCTACTGCCAAACTTCTGGCAAATTTACCTGTGAATTTCAAAATGTTATAAAATCTCTTGATATGCTTTTGTTTTTCCTTTTAGCCATTTTCTCTTCAATTTCTTAGTCCCTCTGCCCTCTGTAAATGTGTTGAGTGATATAGCTATCAGATGTATTGAAGGCAAAGTTCTCGCAGAGGTCTCTGTTCCAGCTCTGTAAAGGTCACAGGAATCGTGAAGGAGCTGAGAAATCTTCCTCTCCGGCCCACTGTCTGTGGCCCATTGTCATTGTTTCCTCATGAAACATTGCAGAGTTTGAATCCTCAGTAACTCTCATTGACTGGATTAGAGGTGATGGCCACAGCAAATGGGAGAGCAAAATGTTGGCCTACAGAGAATGACACAATTTTATTCGCCTTTGGTGTTAGTTGCCATAGTGCTGTATTTGAAAATCGATGCTTTAGCCAAAAGCTGAATGACCACCGTTTCCGTAGTTTCCACTGTTTTGTCTGCATAGAATTTTCCTGAACTACAAGCAAAAATGTATTTTGTCCAATGTCACAAAAGTGAAAATGTTACTAATCTTAGATGTGTTGCATATTTTGTGTTTTTACGTTCCAAACTCTTTCAAAAGCTGCCGTTACAAAGCTGTTTGGCTGTATTGACAGCATGTGGTGTTTTTACAAAAGCAATTCTAGGAGAGCCAGTGTCTACCATGAACTCCTGACATCCCCACTCCAGGGTCATTCATGACATTGAAATGGCAACTTGTACACTGTAATTCTTCGAAAAGTAACAGGGGATGGAAATCAGACCTGGCCGTTAGTCACTAGTGTGTAGTACCGTGATCTGAAGTAGGAAATTTAACTGACATAGAATAATTGTGGTTTTTGAAGCAGCTACTCATTGCTTTTTCCTTTTGCTGTGAAGATCATGGATTGGGAATGTCCTCGTGAGGTGGACCTAAGGCAGTAACATTTAAACTTCATGTCCTAGCACCCGCCCTCCATCTGACCCAAAGATAAAAAAGGCATCAAGCTTCATGGTTATGCCTAAGCTTAAAAATTCCCTTCCCCACTACTAATATTGAGTTCAGCAGGGCCCCATCTTACTTATTTTTCAAAAAAGTTATAGCTTTGAATTATAGACTATATTACTAAATTTGGTAAGGTAGTTCTTTGCATGAATGGGAATGTGTGTCAAAATACTTTCACAAAAGGCATGATTACAATGGAAATGCCCCTTTGCCTCCAGTTTTGCTAACCCTAAAAAGTATTTCACTAATTTCAAGCACTGTTTACACTCAAATCCCAAAATTGGCCAAATTATATAATTCTCTTAAATTTTCATTTCTGTAGGTGGAGATTTAACTATGGTTCTGGTGAATCATAGAAGGGAGAGACAATATTTGAGGGGAGTTTATCAGCAGAATATCATGCCTTATGACCCCATTACTGAAACACAGACATTACAATCAGAAATAGACCTAATAATTCCAATATCCCTCCATTAACTAGTTCCAGTGATGCTGAGAGACACAGCACCCTGTGCCAGGTATCAGAAATATAAGCCTCAGCAGAGGGTAACTGAAAACTTTCAATCAGAAACACTCTCCAAGGCTTATGGCTAGATTATGTAGGTCACTACCATTCAAAACTTTTCTATACAAAGGTGGAAAAGCACTCAGAATCTGGGAATTTTCTGGTTGGAAGAACAATGTTCTCCTTTTCCAAATTGGAATAAAGACTCAGAATTACCCATTCTTCATAATCATGTCTGATTGGTACATACACTCCAGGAAGTCTCAACCTAGAAACATTTCCAACCTAAGCATTTAAAGGAAAACTGGCTCATTCTTCTGACCCAAACTCAAAAAATATGAGTACTTGCGTACCTCCATTTCTGCATGAAGATTTTAAAACAGATTTCATTTTTTTCTGTTTATTTTGGGAAGGTGCGTGGGGGTGTTCTTTCAAGTGATTCACATCTCAAACCCATACCACTCTCAACTTTTATTTGATGTGTTCAAAGCCAAAAAATAAAATAAAATAAAGCAGGGCTGAACACTTAATTTGACATGAAGCTGAAGGACTGAGCAAGCCAGAGGAGAGAGGTTGAATGAAGCATAGCCTTGGCTTCATACCACACTTTTTGTGCCTTGTATTATCAATGTAAATTCTGAATGTTGTACAGTAAACTTGGATGGACTTCTTAGAAAAGGCTGCACTGGCTTCTTTTTCAGCACATGTACATATCTATAAATATATATACATATATATTTGGTAATGCCAAACAGCTCTGTTATATTGTATTGAACAAAATGGACGGTTTGGATGTTTTATGTCGAGTTTGCAAAAAAAAAAAAAAAAAAAAAAACTGGATGGTTGCAGACTTTTCAAGATAAATGTACAGACGTAAATTACTGCATATCAGTTATTTATGAATAAAGAGTCTTTTATTGACATTTTAGGATAAAAAAAAAA
>gi|1015172278|ref|NM_001322014.1| Homo sapiens PMS1 homolog 2, mismatch repair system component (PMS2), transcript variant 13, mRNA
AGCCAATGGGAGTTCAGGAGGCGGAGCGCCTGTGGGAGCCCTGGAGGGAACTTTCCCAGTCCCCGAGGCGGATCGGGTGTTGCATCCATGGAGCGAGCTGAGAGCTCGAGTACAGAACCTGCTAAGGCCATCAAACCTATTGATCGGAAGTCAGTCCATCAGATTTGCTCTGGGCAGGTGGTACTGAGTCTAAGCACTGCGGTAAAGGAGTTAGTAGAAAACAGTCTGGATGCTGGTGCCACTAATATTGATCTAAAGCTTAAGGACTATGGAGTGGATCTTATTGAAGTTTCAGACAATGGATGTGGGGTAGAAGAAGAAAACTTCGAAGGCTTAACTCTGAAACATCACACATCTAAGATTCAAGAGTTTGCCGACCTAACTCAGGTTGAAACTTTTGGCTTTCGGGGGGAAGCTCTGAGCTCACTTTGTGCACTGAGCGATGTCACCATTTCTACCTGCCACGCATCGGCGAAGGTTGGAACTCGACTGATGTTTGATCACAATGGGAAAATTATCCAGAAAACCCCCTACCCCCGCCCCAGAGGGACCACAGTCAGCGTGCAGCAGTTATTTTCCACACTACCTGTGCGCCATAAGGAATTTCAAAGGAATATTAAGAAGGAGTATGCCAAAATGGTCCAGGTCTTACATGCATACTGTATCATTTCAGCAGGCATCCGTGTAAGTTGCACCAATCAGCTTGGACAAGGAAAACGACAGCCTGTGGTATGCACAGGTGGAAGCCCCAGCATAAAGGAAAATATCGGCTCTGTGTTTGGGCAGAAGCAGTTGCAAAGCCTCATTCCTTTTGTTCAGCTGCCCCCTAGTGACTCCGTGTGTGAAGAGTACGGTTTGAGCTGTTCCGATGCTCTGCATAATCTTTTTTACATCTCAGGTTTCATTTCACAATGCACGCATGGAGTTGGAAGGAGTTCAACAGACAGACAGTTTTTCTTTATCAACCGGCGGCCTTGTGACCCAGCAAAGGTCTGCAGACTCGTGAATGAGGTCTACCACATGTATAATCGACACCAGTATCCATTTGTTGTTCTTAACATTTCTGTTGATTCAGAATGCGTTGATATCAATGTTACTCCAGATAAAAGGCAAATTTTGCTACAAGAGGAAAAGCTTTTGTTGGCAGTTTTAAAGACCTCTTTGATAGGAATGTTTGATAGTGATGTCAACAAGCTAAATGTCAGTCAGCAGCCACTGCTGGATGTTGAAGGTAACTTAATAAAAATGCATGCAGCGGATTTGGAAAAGCCCATGGTAGAAAAGCAGGATCAATCCCCTTCATTAAGGACTGGAGAAGAAAAAAAAGACGTGTCCATTTCCAGACTGCGAGAGGCCTTTTCTCTTCGTCACACAACAGAGAACAAGCCTCACAGCCCAAAGACTCCAGAACCAAGAAGGAGCCCTCTAGGACAGAAAAGGGGTATGCTGTCTTCTAGCACTTCAGGTGCCATCTCTGACAAAGGCGTCCTGAGACCTCAGAAAGAGGCAGTGAGTTCCAGTCACGGACCCAGTGACCCTACGGACAGAGCGGAGGTGGAGAAGGACTCGGGGCACGGCAGCACTTCCGTGGATTCTGAGGGGTTCAGCATCCCAGACACGGGCAGTCACTGCAGCAGCGAGTATGCGGCCAGCTCCCCAGGGGACAGGGGCTCGCAGGAACATGTGGACTCTCAGGAGAAAGCGCCTAAAACTGACGACTCTTTTTCAGATGTGGACTGCCATTCAAACCAGGAAGATACCGGATGTAAATTTCGAGTTTTGCCTCAGCCAACTAATCTCGCAACCCCAAACACAAAGCGTTTTAAAAAAGAAGAAATTCTTTCCAGTTCTGACATTTGTCAAAAGTTAGTAAATACTCAGGACATGTCAGCCTCTCAGGTTGATGTAGCTGTGAAAATTAATAAGAAAGTTGTGCCCCTGGACTTTTCTATGAGTTCTTTAGCTAAACGAATAAAGCAGTTACATCATGAAGCACAGCAAAGTGAAGGGGAACAGAATTACAGGAAGTTTAGGGCAAAGATTTGTCCTGGAGAAAATCAAGCAGCCGAAGATGAACTAAGAAAAGAGATAAGTAAAACGATGTTTGCAGAAATGGAAATCATTGGTCAGTTTAACCTGGGATTTATAATAACCAAACTGAATGAGGATATCTTCATAGTGGACCAGCATGCCACGGACGAGAAGTATAACTTCGAGATGCTGCAGCAGCACACCGTGCTCCAGGGGCAGAGGCTCATAGCACCTCAGACTCTCAACTTAACTGCTGTTAATGAAGCTGTTCTGATAGAAAATCTGGAAATATTTAGAAAGAATGGCTTTGATTTTGTTATCGATGAAAATGTCATGGATTTTTCTCAAAATTGTATTCTTTTAGCTCCAGTCACTGAAAGGGCTAAACTGATTTCCTTGCCAACTAGTAAAAACTGGACCTTCGGACCCCAGGACGTCGATGAACTGATCTTCATGCTGAGCGACAGCCCTGGGGTCATGTGCCGGCCTTCCCGAGTCAAGCAGATGTTTGCCTCCAGAGCCTGCCGGAAGTCGGTGATGATTGGGACTGCTCTTAACACAAGCGAGATGAAGAAACTGATCACCCACATGGGGGAGATGGACCACCCCTGGAACTGTCCCCATGGAAGGCCAACCATGAGACACATCGCCAACCTGGGTGTCATTTCTCAGAACTGACCGTAGTCACTGTATGGAATAATTGGTTTTATCGCAGATTTTTATGTTTTGAAAGACAGAGTCTTCACTAACCTTTTTTGTTTTAAAATGAACCTGCTACTTAAAAAAAATACACATCACACCCATTTAAAAGTGATCTTGAGAACCTTTTCAAACCAGATGGAGCATTGCTTGCAAATTTTTTTTCTCTATGTTTGCATGCGCTCGTGTGTGTGTGTCCAGGCAAGAACACATTTTATAAAAATAAGAACACTTGGGCTGGGCATGGTGGCTCATGCCTGTGATCGCAGCACTTTGGGAGGCCGAGGCCGGCGGATCACCTGAGATCAGAAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCTGCCTCTACTAAAAATACAAAATTAGCCAGGTGTGCTGGCGCATGCCTGTAATCCCCGCTACCCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGACGGAGGTTGCAGTGAACCGAGATTGCGCCACTGCGCTCCAGCCTGGGTGAGATAGAACAAGACTGTGTCTCAAAAAACAAAACAAAACAAAACAAAAAAAAAAAAACCAAACCACTTTGGAAGTTACTCAGGCCTCTGCTCTGGCTGGACATAGTTTAGTCTATAACTTTCAACCCTTAATGATAATTAAATTCATCTTTGTTTAATTTCATAAATTTAAAAGTAGGGTCCTTTTCAGTTAGTGATTCTCAGCCCTGATTCACATTAAATTTTTAAACACGGGGGATTCTCTGCCCGGCTGGAAGAAAATGACTGGATGGGACAGGGGTCACTATTTGAAACATTCCTCTGTGCGGCCAAGGTCGCAAAATGCTGTCCTCGCAGGGGAACAAAAAGAGTTTGATTTCCCATAATTTGATGCTGTGATTTGGTTTCCTCAGGATGTGAACTGTAGAACATTCCAGTTACTGGCCTTGAATGGTTCTGGGAATATAAGAATCCCTGTCTGTCTTTTCAAATAGTTTTCATGGAACCTTGTCCTGTTTGAACTTGGCTGAAAATGGAAGTAAAGATGCCCTCTTGGGGGCCCAGAGATGACAGATGTGGCTCCCCCTGCTGCCCCCACCCCTTCTCCAGACTGTGGGCGGCTCCCCTTCCTGCTTTAGAATCCCTCAGATGGAGGAGGCAGTACAGTAGTCACTGTGCCATCGTGTCTGGCACTGTGCTGGCGTGGTCTGCAGGATCCCACTTATGAACTCTCCAGATTGGGAGCTGTGGCAGGATAACAGCCCCCAAGACAGCTGTGTCCTAATCCCCAGAACCTGTGACCACGCTGCCTCACGTGGCAGAAGGGACTCGGCAGGTGTGATTGAGTGAAGGATCTTTTTTTTTTTTTTCTTTGAGATGAAGTTTCGCTCTTGTTGCCCAGGCTGGAGTTCAATAGCATGATCTCAGCTCACTGCAGCCTCTGCCTCCCAGGTTCAAGTGATTCTCCCACCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGTCCAGAACCATACTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGACCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGACCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCATCATGCCTGGCTGAGTTAAGGATCTTGCAACAGAGAGATTATCCTGGATTGTCTGGGTGGGCCCAGTCCATTGGGTGAGTCCTTCAAAGGTGGAGACCTTTCCCTGCTGGCCAGAGAGAGGCTGTCTTGCTGGTTTTGGAGATGGAAGGAGGTACCACTAGTCAAGGATTGCAAGCAGTCTCTAGAACAGGGATTCCAACACTCCGGACACAGACCAGTAGTGGTCCATGGCCTATTAGGAAGTGGGGTGCACAGCAGGTTAGGGGCCGGCAAGCCAGCGAAGCTTCATCTGTATTTATAGCCACTCCCCGTCGCTGGCGTTACCACCCGAGCTCCGCCTCCTGTCACATCAGCGGTGGGCATTAGATTCTCATAGCAGCACGAGCCCTATTGTGAACTGCACACACGAGGGATGTAGGTTGCACGCTCCTTATGAGAATCTGATGCCTGATGATCTGTCACTGTCTCCCGTCACCCCCAGATGGGGCTGTCTAGTTGCAGGAAAACAAGCTCAGGGCTCCCACTGAGTCTCTGTGATGGTGAGTTGTAGAATTATTTAATTATATGTTACAATGTAATAATAGTAGAAATAAAGTGCACAATAAATGCAATGCACTTGAATCGTCCTGAAACCATCCCTCCCCGACCCCAATCCATGGAAAAATTGTGTTCCGCGAAACCGGTCTCTGGTGCCAAAAAGGTTGGGGACCGCTTCTGGAAAAGCTGGAAAAGGCAAGAAAACGCATTCTCTCCCTCAGCCTCTGGAAGGAACCAGCACTGTGGGACTAATTTACATACTGTAGGGTAATAAATTTGTGTTGCTTCGAACCACTAAAAAAAAA
>gi|1015158970|ref|NM_001322009.1| Homo sapiens PMS1 homolog 2, mismatch repair system component (PMS2), transcript variant 8, mRNA
GTTGCATCCATGGAGCGAGCTGAGAGCTCGAGGTGAGCGGGGCTCGCAGTCTTCCGGTGTCCCCTCTCGCGCGCCCTCTTTGAGACCCACGGCATTCCAACCTCCCTGGAAATGGGGGGAACATGGCCGAGGCGCGTGGCGAGGCAGCCCCCTGGAGGCCCCGGAGTGGCGACCTCAGTGTTGCAGCGATCTCGTGCCCCTTGGGTGCGCCTTGAGGCCGAGAACCTGCTAAGGCCATCAAACCTATTGATCGGAAGTCAGTCCATCAGATTTGCTCTGGGCAGGTGGTACTGAGTCTAAGCACTGCGGTAAAGGAGTTAGTAGAAAACAGTCTGGATGCTGGTGCCACTAATATTGATCTAAAGCTTAAGGACTATGGAGTGGATCTTATTGAAGTTTCAGACAATGGATGTGGGGTAGAAGAAGAAAACTTCGAAGGCTTAACTCTGAAACATCACACATCTAAGATTCAAGAGTTTGCCGACCTAACTCAGGTTGAAACTTTTGGCTTTCGGGGGGAAGCTCTGAGCTCACTTTGTGCACTGAGCGATGTCACCATTTCTACCTGCCACGCATCGGCGAAGGTTGGAACTCGACTGATGTTTGATCACAATGGGAAAATTATCCAGAAAACCCCCTACCCCCGCCCCAGAGGGACCACAGTCAGCGTGCAGCAGTTATTTTCCACACTACCTGTGCGCCATAAGGAATTTCAAAGGAATATTAAGAAGGAGTATGCCAAAATGGTCCAGGTCTTACATGCATACTGTATCATTTCAGCAGGCATCCGTGTAAGTTGCACCAATCAGCTTGGACAAGGAAAACGACAGCCTGTGGTATGCACAGGTGGAAGCCCCAGCATAAAGGAAAATATCGGCTCTGTGTTTGGGCAGAAGCAGTTGCAAAGCCTCATTCCTTTTGTTCAGCTGCCCCCTAGTGACTCCGTGTGTGAAGAGTACGGTTTGAGCTGTTCCGATGCTCTGCATAATCTTTTTTACATCTCAGGTTTCATTTCACAATGCACGCATGGAGTTGGAAGGAGTTCAACAGACAGACAGTTTTTCTTTATCAACCGGCGGCCTTGTGACCCAGCAAAGGTCTGCAGACTCGTGAATGAGGTCTACCACATGTATAATCGACACCAGTATCCATTTGTTGTTCTTAACATTTCTGTTGATTCAGAATGCGTTGATATCAATGTTACTCCAGATAAAAGGCAAATTTTGCTACAAGAGGAAAAGCTTTTGTTGGCAGTTTTAAAGACCTCTTTGATAGGAATGTTTGATAGTGATGTCAACAAGCTAAATGTCAGTCAGCAGCCACTGCTGGATGTTGAAGGTAACTTAATAAAAATGCATGCAGCGGATTTGGAAAAGCCCATGGTAGAAAAGCAGGATCAATCCCCTTCATTAAGGACTGGAGAAGAAAAAAAAGACGTGTCCATTTCCAGACTGCGAGAGGCCTTTTCTCTTCGTCACACAACAGAGAACAAGCCTCACAGCCCAAAGACTCCAGAACCAAGAAGGAGCCCTCTAGGACAGAAAAGGGGTATGCTGTCTTCTAGCACTTCAGGTGCCATCTCTGACAAAGGCGTCCTGAGACCTCAGAAAGAGGCAGTGAGTTCCAGTCACGGACCCAGTGACCCTACGGACAGAGCGGAGGTGGAGAAGGACTCGGGGCACGGCAGCACTTCCGTGGATTCTGAGGGGTTCAGCATCCCAGACACGGGCAGTCACTGCAGCAGCGAGTATGCGGCCAGCTCCCCAGGGGACAGGGGCTCGCAGGAACATGTGGACTCTCAGGAGAAAGCGCCTAAAACTGACGACTCTTTTTCAGATGTGGACTGCCATTCAAACCAGGAAGATACCGGATGTAAATTTCGAGTTTTGCCTCAGCCAACTAATCTCGCAACCCCAAACACAAAGCGTTTTAAAAAAGAAGAAATTCTTTCCAGTTCTGACATTTGTCAAAAGTTAGTAAATACTCAGGACATGTCAGCCTCTCAGGTTGATGTAGCTGTGAAAATTAATAAGAAAGTTGTGCCCCTGGACTTTTCTATGAGTTCTTTAGCTAAACGAATAAAGCAGTTACATCATGAAGCACAGCAAAGTGAAGGGGAACAGAATTACAGGAAGTTTAGGGCAAAGATTTGTCCTGGAGAAAATCAAGCAGCCGAAGATGAACTAAGAAAAGAGATAAGTAAAACGATGTTTGCAGAAATGGAAATCATTGGTCAGTTTAACCTGGGATTTATAATAACCAAACTGAATGAGGATATCTTCATAGTGGACCAGCATGCCACGGACGAGAAGTATAACTTCGAGATGCTGCAGCAGCACACCGTGCTCCAGGGGCAGAGGCTCATAGCACCTCAGACTCTCAACTTAACTGCTGTTAATGAAGCTGTTCTGATAGAAAATCTGGAAATATTTAGAAAGAATGGCTTTGATTTTGTTATCGATGAAAATGTCATGGATTTTTCTCAAAATTGTATTCTTTTAGCTCCAGTCACTGAAAGGGCTAAACTGATTTCCTTGCCAACTAGTAAAAACTGGACCTTCGGACCCCAGGACGTCGATGAACTGATCTTCATGCTGAGCGACAGCCCTGGGGTCATGTGCCGGCCTTCCCGAGTCAAGCAGATGTTTGCCTCCAGAGCCTGCCGGAAGTCGGTGATGATTGGGACTGCTCTTAACACAAGCGAGATGAAGAAACTGATCACCCACATGGGGGAGATGGACCACCCCTGGAACTGTCCCCATGGAAGGCCAACCATGAGACACATCGCCAACCTGGGTGTCATTTCTCAGAACTGACCGTAGTCACTGTATGGAATAATTGGTTTTATCGCAGATTTTTATGTTTTGAAAGACAGAGTCTTCACTAACCTTTTTTGTTTTAAAATGAACCTGCTACTTAAAAAAAATACACATCACACCCATTTAAAAGTGATCTTGAGAACCTTTTCAAACCAGATGGAGCATTGCTTGCAAATTTTTTTTCTCTATGTTTGCATGCGCTCGTGTGTGTGTGTCCAGGCAAGAACACATTTTATAAAAATAAGAACACTTGGGCTGGGCATGGTGGCTCATGCCTGTGATCGCAGCACTTTGGGAGGCCGAGGCCGGCGGATCACCTGAGATCAGAAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCTGCCTCTACTAAAAATACAAAATTAGCCAGGTGTGCTGGCGCATGCCTGTAATCCCCGCTACCCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGACGGAGGTTGCAGTGAACCGAGATTGCGCCACTGCGCTCCAGCCTGGGTGAGATAGAACAAGACTGTGTCTCAAAAAACAAAACAAAACAAAACAAAAAAAAAAAAACCAAACCACTTTGGAAGTTACTCAGGCCTCTGCTCTGGCTGGACATAGTTTAGTCTATAACTTTCAACCCTTAATGATAATTAAATTCATCTTTGTTTAATTTCATAAATTTAAAAGTAGGGTCCTTTTCAGTTAGTGATTCTCAGCCCTGATTCACATTAAATTTTTAAACACGGGGGATTCTCTGCCCGGCTGGAAGAAAATGACTGGATGGGACAGGGGTCACTATTTGAAACATTCCTCTGTGCGGCCAAGGTCGCAAAATGCTGTCCTCGCAGGGGAACAAAAAGAGTTTGATTTCCCATAATTTGATGCTGTGATTTGGTTTCCTCAGGATGTGAACTGTAGAACATTCCAGTTACTGGCCTTGAATGGTTCTGGGAATATAAGAATCCCTGTCTGTCTTTTCAAATAGTTTTCATGGAACCTTGTCCTGTTTGAACTTGGCTGAAAATGGAAGTAAAGATGCCCTCTTGGGGGCCCAGAGATGACAGATGTGGCTCCCCCTGCTGCCCCCACCCCTTCTCCAGACTGTGGGCGGCTCCCCTTCCTGCTTTAGAATCCCTCAGATGGAGGAGGCAGTACAGTAGTCACTGTGCCATCGTGTCTGGCACTGTGCTGGCGTGGTCTGCAGGATCCCACTTATGAACTCTCCAGATTGGGAGCTGTGGCAGGATAACAGCCCCCAAGACAGCTGTGTCCTAATCCCCAGAACCTGTGACCACGCTGCCTCACGTGGCAGAAGGGACTCGGCAGGTGTGATTGAGTGAAGGATCTTTTTTTTTTTTTTCTTTGAGATGAAGTTTCGCTCTTGTTGCCCAGGCTGGAGTTCAATAGCATGATCTCAGCTCACTGCAGCCTCTGCCTCCCAGGTTCAAGTGATTCTCCCACCTCAGCCTCCCGAGTAGCTGGGATTACAGGTGTCCAGAACCATACTGGCTAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCATGTTGACCAGGCTGGTCTCGAACTCCTGACCTCAGGTGATCCGACCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCATCATGCCTGGCTGAGTTAAGGATCTTGCAACAGAGAGATTATCCTGGATTGTCTGGGTGGGCCCAGTCCATTGGGTGAGTCCTTCAAAGGTGGAGACCTTTCCCTGCTGGCCAGAGAGAGGCTGTCTTGCTGGTTTTGGAGATGGAAGGAGGTACCACTAGTCAAGGATTGCAAGCAGTCTCTAGAACAGGGATTCCAACACTCCGGACACAGACCAGTAGTGGTCCATGGCCTATTAGGAAGTGGGGTGCACAGCAGGTTAGGGGCCGGCAAGCCAGCGAAGCTTCATCTGTATTTATAGCCACTCCCCGTCGCTGGCGTTACCACCCGAGCTCCGCCTCCTGTCACATCAGCGGTGGGCATTAGATTCTCATAGCAGCACGAGCCCTATTGTGAACTGCACACACGAGGGATGTAGGTTGCACGCTCCTTATGAGAATCTGATGCCTGATGATCTGTCACTGTCTCCCGTCACCCCCAGATGGGGCTGTCTAGTTGCAGGAAAACAAGCTCAGGGCTCCCACTGAGTCTCTGTGATGGTGAGTTGTAGAATTATTTAATTATATGTTACAATGTAATAATAGTAGAAATAAAGTGCACAATAAATGCAATGCACTTGAATCGTCCTGAAACCATCCCTCCCCGACCCCAATCCATGGAAAAATTGTGTTCCGCGAAACCGGTCTCTGGTGCCAAAAAGGTTGGGGACCGCTTCTGGAAAAGCTGGAAAAGGCAAGAAAACGCATTCTCTCCCTCAGCCTCTGGAAGGAACCAGCACTGTGGGACTAATTTACATACTGTAGGGTAATAAATTTGTGTTGCTTCGAACCACTAAAAAAAAA
>gi|1002341788|ref|NM_000830.4| Homo sapiens glutamate ionotropic receptor kainate type subunit 1 (GRIK1), transcript variant 1, mRNA
AGCGAGGGGAGGAGGAAAGCAAAGATTCAGAGAAGCCGGAACGTGGCTCCGCTCCCAGTTAACCTGCTGGAGCTCATCAGGCTTGCTCAGAGCCCCTGCACCAACTCACCCTGTACCCTCTCTCCTTCTTCGTTAGTCTTCTTTCCCCCTTTTCCCTCCTCTGTCTGTGCCTATCCCCCGACTTTTGCATCTGACCAAAGGACGAATGAGGGAGACGTTCCTGCAGATCGGGGCAGCAACTTTCCTCAGCTGGTCTCTGGGCTCCGGGAGCCAGAGAGCGCTGATCCTCCGCGGTCTGCGGCCCATGGAAGAGGAGGAGGAGGAGCCGTGATGGGCTAGCGACAGCACTGAGGAGCCCCGAGAGAGCTCAGCCTTGCCAGCCAGCTCCGCGGTCCCACGCGGGTTCCCTCGAGCTCGCTCCGTGGGGAGCGCGCAGCGTGCTTGGAACCGGAGCATCCAGAGAGGATGAGGCGGGGACCCGGCCCAAGTTGGGTGCATCTCTCGGGCGTCCGGCAGCGGCTGTATCTCGGCATGAATTAAGAAGCTAGGAAGATGGAGCACGGCACACTCCTCGCCCAGCCCGGGCTCTGGACCAGGGACACCAGCTGGGCACTCCTCTATTTCCTCTGCTATATCCTCCCTCAGACCGCCCCGCAAGTACTCAGGATCGGAGGGATTTTTGAAACAGTGGAAAATGAGCCTGTTAATGTTGAAGAATTAGCTTTCAAGTTTGCAGTCACCAGCATTAACAGAAACCGAACCCTGATGCCTAACACCACATTAACCTATGACATCCAGAGAATTAACCTTTTTGATAGTTTTGAAGCCTCGCGGAGAGCATGTGACCAGCTGGCTCTTGGTGTGGCTGCTCTCTTTGGCCCTTCCCATAGCTCCTCCGTCAGTGCTGTGCAGTCTATTTGCAATGCTCTCGAAGTTCCACACATACAGACCCGCTGGAAACACCCCTCGGTGGACAACAAAGATTTGTTTTACATCAACCTTTACCCAGATTATGCAGCTATCAGCAGGGCGATCCTGGATCTGGTCCTCTATTACAACTGGAAAACAGTGACAGTGGTGTATGAAGACAGCACAGGTCTAATTCGTCTACAAGAGCTCATCAAAGCTCCCTCCAGATATAATATTAAAATCAAAATCCGCCAGCTGCCCTCTGGGAATAAAGATGCCAAGCCTTTACTCAAGGAGATGAAGAAAGGCAAGGAGTTCTATGTGATATTTGATTGTTCACATGAAACAGCCGCTGAAATCCTTAAGCAGATTCTGTTCATGGGCATGATGACCGAGTACTATCACTACTTTTTCACAACCCTGGACTTATTTGCTTTGGATCTGGAACTCTATAGGTACAGTGGCGTAAACATGACCGGGTTTCGGCTGCTTAACATTGACAACCCTCACGTGTCATCCATCATTGAGAAGTGGTCCATGGAGAGACTGCAGGCCCCACCCAGGCCCGAGACTGGCCTTTTGGATGGCATGATGACAACTGAAGCGGCTCTGATGTACGATGCTGTGTACATGGTGGCCATTGCCTCGCACCGGGCATCCCAGCTGACCGTCAGCTCCCTGCAGTGCCATAGACATAAGCCATGGCGCCTCGGACCCAGATTTATGAACCTGATCAAAGAGGCCCGGTGGGATGGCTTGACTGGGCATATCACCTTTAATAAAACCAATGGCTTGAGGAAGGATTTTGATCTGGACATTATTAGTCTCAAAGAGGAAGGAACTGAAAAGGCTGCTGGCGAAGTGTCTAAACACTTGTATAAAGTGTGGAAGAAGATTGGGATTTGGAATTCCAACAGTGGGCTTAACATGACGGACAGCAACAAAGACAAGTCCAGCAATATCACTGATTCATTGGCCAACAGAACACTCATTGTCACCACCATTCTGGAAGAACCCTATGTTATGTACAGGAAATCTGATAAGCCTCTATATGGAAATGACAGATTTGAAGGATATTGCCTAGACCTGTTGAAAGAATTGTCAAACATCCTGGGTTTCATTTATGATGTTAAACTAGTTCCCGATGGCAAATATGGGGCCCAGAATGACAAAGGGGAGTGGAACGGGATGGTTAAAGAACTCATAGATCACAGGGCTGACCTGGCAGTGGCTCCTCTTACCATCACCTACGTGCGGGAGAAAGTCATTGACTTCTCCAAACCCTTCATGACCCTAGGCATCAGCATTCTCTACCGGAAGCCCAATGGTACCAATCCAGGCGTTTTCTCCTTCCTCAACCCCCTGTCTCCAGATATTTGGATGTATGTGCTCTTAGCCTGCTTGGGAGTCAGCTGTGTACTCTTTGTGATTGCAAGGTTTACACCCTACGAGTGGTATAACCCCCACCCATGCAACCCTGACTCAGACGTGGTGGAAAACAATTTTACTTTACTAAATAGTTTCTGGTTTGGAGTTGGAGCTCTCATGCAGCAAGGATCAGAGCTGATGCCCAAAGCTCTATCGACCAGAATAGTTGGAGGGATATGGTGGTTTTTCACCCTAATCATCATTTCATCCTACACGGCCAATCTGGCTGCCTTCTTGACAGTAGAGAGAATGGAATCCCCCATAGATTCGGCAGATGATCTGGCAAAGCAAACCAAGATAGAATATGGGGCGGTTAGAGATGGATCAACAATGACCTTCTTCAAGAAATCAAAAATCTCCACCTATGAGAAGATGTGGGCTTTCATGAGCAGCAGGCAGCAGACCGCCCTGGTAAGAAACAGTGATGAGGGGATCCAGAGAGTGCTCACCACAGACTACGCGCTGCTGATGGAGTCCACCAGCATTGAGTATGTGACGCAGAGAAACTGCAACCTCACTCAGATCGGGGGCCTCATTGACTCCAAAGGTTACGGAGTGGGAACACCTATTGGTTCTCCTTACCGGGATAAAATTACTATTGCTATTCTTCAACTCCAAGAAGAAGGGAAGCTGCATATGATGAAAGAGAAGTGGTGGCGTGGGAATGGCTGCCCCGAGGAAGACAACAAAGAAGCCAGTGCCCTGGGAGTGGAAAATATTGGAGGCATCTTCATTGTTCTGGCTGCCGGACTGGTCCTTTCTGTATTTGTAGCTATTGGAGAATTCATATACAAATCACGGAAGAATAATGATATTGAACAGGCTTTTTGTTTCTTTTATGGACTGCAATGTAAGCAAACCCATCCAACCAACTCCACTTCTGGAACTACTTTATCTACGGATTTAGAATGTGGTAAATTAATTCGAGAGGAGAGAGGGATTCGAAAACAGTCCTCAGTTCATACTGTGTAATCAGTTTAAAAAAAAAAAAAAAGATGTGCCCAGTAGAAAATGTTTTTGCTAATTGGTGTTGTTGATATTTGTATTTGCTAAGCATAAATAGCCACAATTCTCTATTCCTTTAGGATAGCAAAACTCATGTATTCTAGACATTGAAATGAATACACTGGAAAGATACTTGCACTGTATGTTGAAGCAGGGGCATATTAGGGGTATAAAGACTTCTAGAAATGTGTATTTACAGGAATCTTCTCTGTCCCACTCATCATCTTAGTTCTATCTTCATGCATTAAAAATAAGTAACTCTTCCTTCATGAAAAAGGAGATTCAGACTTTCAACAGGGCAAAGCATGGAAACACGATGCTAATTCTATGGACTTCTTTTCATCTTTGTGAACTTTGTTCCCTCCTCTTTTCTTCTCCCTGTCTCATATATTGTGTAGATCTGCGTATTTTCAAACTACCCAAAACCCTTACCTTTTCAACAGTACACACATAACTCCATAACAATGTTAATTTTTAATTGAAACTGATTCCACGATTTAAAATGTATTATTTACACAAAGACTCAAAAGTGTCTTAGCATTTAAAGATTTAAAAACCGTGATCCACAGAAAGAAAACTAAACTTGAAACCTCTGGTGTCACAGAAGAGCACTAGCTATGTTGAACATCACTCATGGAAACAGAACACAGTCAAGAATAATTCCTGGGCAGAAATTCATTAACCTCAAACTCTCAAATAACATTTACTTGTAGAATTTAACAGTCTTCTGTAGGTTCTGAGTCTCTAAGGAATGGTGATATTTTTCAAGCTATATAGTACTTCTTTGAAGATCCCAGCAAAGTCCTAAGCTATGTACTAATTCATTTCTATTTACCACTCACTTTGCATTGATGAACATCTTTCTACGAGATGTTATTTCACTTCCTTCCCACTTACCCTAGATAGAGGGGTTGTTCTTGGAACAATCTTTTCTGAACATCACCATTTTCACAGTTATTTCTTTGGATCCATCATTATTATTAATTCATTTAAAGTATTCTGGGGAAACGGGCAAGAAGGAAAAAATAAAGGAAAGAATGTCCATACACATTAGTTACAGATCTCTGTAGATTCATTTTCCATCTGCATTCAAAGTGCTGTAAATAATTTCCATGCTAACTCAACCAGGTGACATAAAAAACCTCTTGCACATTTAATTTGTTGTGACAGAGAATATCTGATGATTCCTCACTAGTGAATAAGAGAGTTGAAGGTGTGTTTCATCTTTTCTAAATATGGGATCAGTTGGTCTTTATTCTTTTCTTAATGGGATTATCTTTTGACATATCAAGAAATCCCCTAAAGCACTTCCTTGAAGTAGAGATATGCCATCTGTGCAATCATACAGCATTTTACCTTCTCTTTGCTTAGCTTTAAATGGCTCCCAGTTTTGGAAGCCACAGGCTTCTCCAATCAACTGTATATTTCTCCAGTAAAGCATATTCAGGAAAGTTGACTAGTTGATTCTTATCCTGATTGTTTCTCAGCTTTGCTTCCTTCTTTAAAGAAATGTACTCAGAAGAAAATATCATAAATTACACTAACATTGTTTTATTATTATTAAACTAGAAGCAACATACTATTTGTCCCAGGTCAGAGTTCACATTTTCATAATCAATAGAATCAGATGTTGGGATGAATATGACATTATTCTTAGTTTCATATTTCATGGATTCAGTATATAGAAACCACAAATTTCCTAAGTTTACTCTCCCAAAGACAATTTAATAAACCAAAAATGCTACCAAAAGAGTTCAAGTGTGATTGATGAAGTATTGACAATCAAAATTAACAATAACTGACAAAACTTAACTTTCTGCAGAGACTATTACTTAAAAGTGTAATTCAGAGATTTGGATAAAGAAATGATCTCTTTCAAAAGTTAATATTTCTATACTACTTTAGACTGTATACTACCTAATTCTGACATTTATGTATTATTTTATAGTTTTCAAAATGTTTTCACATACATTACATTTGATCCTTTCAACAATTTAAATTCAGCTTTACTAACAGAGAAGTAGATATCCATCATCGACCTGTAGTTATAGATTTTAGAAGCAGAAGAAAATTTTCTAAAACAGCCAAACTTAGATTCAGGTTCTAGCAGAGCCACATGCTGAATGACTGCAGGCAAGTTACCAAACTTCTCAGTCTCAATTTCTTAATATGTAGCAGTGGGACAAAATTTCTGGAACACAAAGTTTTGTAGGGGTGTTTTTCAAAATGTGTTCAATTGGCAAATGTTTCTCAAATAGAATTTTCATAGTTAAATAACCCATAGAGCGTCACTCTAAATGTTCCTTTACTACATGCTATCTCAGTGTGCGTCACAAGTTTTTGCGCATTGAGAATTTTCAACAAAGTAGAAAAGTATTCAGCACTTCTGAAGCCTATTAGATTGCAGATTTTTTTCCCCACAGCATCTTGACAGACCAGTGTTCCACAGATCATCCTCAAGGGAACACAGGTATGATCATGTGAATCTCATCCCATAATAGTGTACAAGACATCTTGCATTGTGCTTGGCACATAGTAGCCACTCAATAAATAATTATGTATTCTTTAGAGTAAATTTCTAAGCCTCAATTTTCTTACTTGTAAAATGAAGGTAATATTATGGACTTTATACATTTACTATGATAATTAAATAAAATCATGGCATAGAAAATGAAAAAAAAAAAAAAAA
>gi|987437901|ref|NM_001012964.2| Homo sapiens kallikrein related peptidase 6 (KLK6), transcript variant B, mRNA
AGACCCAGGAGTCCAGGCCCTCACTGCACTCAGGGACCAGTGCTCCCTTCCCTGGAGGCCTGGTCAGGGGTCACCAAGAGCAGAGCGTGGGGGCGGGAGGAATGTGTGTGGGAGGCCTGGGTAAGGAGGAAAAGGGTGTAGCCAGTCTCCTGGCTCAGGGACCTGAGAGACAGGGGTTAAAAGGACGTTCCAGAAGCATCTGGGGACAGAACCAGCCTCTTCCAGGGAGGCCTGGGAGCTGGGGGTGTGTGTCTGGCAGTCCCTGCAGCCCTGGGCTCTGCGGCCCCTGCGTCCTCCGCTTGGCTCTGCCACTGCATCTGAGTGTCTTCTCTCCTCACGGCTCCCCGCATTTCTAACTCTTTCTGCCTCCTCGTCTCAAAGCTGTTCCTTCCCCCGACTCAAGAATCCCCGGAGGCCCGGAGGCCTGCAGCAGGAGCGGCCATGAAGAAGCTGATGGTGGTGCTGAGTCTGATTGCTGCAGCCTGGGCAGAGGAGCAGAATAAGTTGGTGCATGGCGGACCCTGCGACAAGACATCTCACCCCTACCAAGCTGCCCTCTACACCTCGGGCCACTTGCTCTGTGGTGGGGTCCTTATCCATCCACTGTGGGTCCTCACAGCTGCCCACTGCAAAAAACCGAATCTTCAGGTCTTCCTGGGGAAGCATAACCTTCGGCAAAGGGAGAGTTCCCAGGAGCAGAGTTCTGTTGTCCGGGCTGTGATCCACCCTGACTATGATGCCGCCAGCCATGACCAGGACATCATGCTGTTGCGCCTGGCACGCCCAGCCAAACTCTCTGAACTCATCCAGCCCCTTCCCCTGGAGAGGGACTGCTCAGCCAACACCACCAGCTGCCACATCCTGGGCTGGGGCAAGACAGCAGATGGTGATTTCCCTGACACCATCCAGTGTGCATACATCCACCTGGTGTCCCGTGAGGAGTGTGAGCATGCCTACCCTGGCCAGATCACCCAGAACATGTTGTGTGCTGGGGATGAGAAGTACGGGAAGGATTCCTGCCAGGGTGATTCTGGGGGTCCGCTGGTATGTGGAGACCACCTCCGAGGCCTTGTGTCATGGGGTAACATCCCCTGTGGATCAAAGGAGAAGCCAGGAGTCTACACCAACGTCTGCAGATACACGAACTGGATCCAAAAAACCATTCAGGCCAAGTGACCCTGACATGTGACATCTACCTCCCGACCTACCACCCCACTGGCTGGTTCCAGAACGTCTCTCACCTAGACCTTGCCTCCCCTCCTCTCCTGCCCAGCTCTGACCCTGATGCTTAATAAACGCAGCGACGTGAGGGTCCTGATTCTCCCTGGTTTTACCCCAGCTCCATCCTTGCATCACTGGGGAGGACGTGATGAGTGAGGACTTGGGTCCTCGGTCTTACCCCCACCACTAAGAGAATACAGGAAAATCCCTTCTAGGCATCTCCTCTCCCCAACCCTTCCACACGTTTGATTTCTTCCTGCAGAGGCCCAGCCACGTGTCTGGAATCCCAGCTCCGCTGCTTACTGTCGGTGTCCCCTTGGGATGTACCTTTCTTCACTGCAGATTTCTCACCTGTAAGATGAAGATAAGGATGATACAGTCTCCATAAGGCAGTGGCTGTTGGAAAGATTTAAGGTTTCACACCTATGACATACATGGAATAGCACCTGGGCCACCATGCACTCAATAAAGAATGAATTTTATTATGAAAAAAAAAAAAAAAA
>gi|974005361|ref|NM_001318784.1| Homo sapiens OCRL, inositol polyphosphate-5-phosphatase (OCRL), transcript variant c, mRNA
CGCTCTCTCTTGGGTCAGATTCTCAGCTCCCAGCTCCCCGCTCCCGGCTCCCGGCGCCCGGCGCCCGGCGCGGAGCTGTTCCTCAAACGACACGCAGCCGAGGTGGGTGGGTGTGGGGACGCGGGAGCCAGTGTCGTCGGATCGGCCCGCAGTCCGCTGTCCTGCTGAGCCCGGAGGCCGCCTGGATGGAGCCGCCGCTCCCGGTCGGAGCCCAGCCGCTTGCCCATACTGTCGAGGGTATGGAGATGAAGGGTCCTCTCCGGGAGCCCTGCGCCCTGACCCTAGCCCAGAGGAACGGGCAATATGAGTTAATAATCCAGTTGCATGAGAAGGAACAGCATGTTCAAGATATCATTCCTATAAATAGCCACTTCAGATGTGTTCAAGAAGCAGAAGAAACTCTTTTGATTGACATAGCTTCTAACAGTGGCTGCAAAATTCGGGTTCAGGGGGACTGGATCAGAGAGCGCCGCTTTGAAATCCCTGATGAGGAACACTGTTTGAAGTTCCTCTCAGCTGTCCTTGCTGCTCAGAAAGCTCAGTCACAGCTTCTTGTTCCAGAGCAAAAGGACTCATCTAGCTGGTACCAGAAATTAGACACTAAGGACAAACCTTCTGTTTTTTCAGGGCTTCTTGGATTTGAAGACAATTTTTCTTCTATGAATTTGGACAAGAAAATAAATTCACAAAATCAGCCTACTGGGATTCATCGGGAACCCCCACCTCCACCCTTTTCAGTGAATAAAATGCTTCCACGTGAAAAAGAAGCTTCTAACAAGGAGCAGCCCAAAGTGACCAACACCATGCGGAAGCTCTTTGTACCAAATACCCAATCTGGGCAGCGGGAGGGTCTCATCAAACATATCCTGGCAAAGCGAGAGAAAGAATATGTCAACATTCAGACTTTCAGATTTTTTGTTGGAACTTGGAATGTGAATGGCCAGTCTCCAGATAGCGGGTTAGAACCTTGGCTGAACTGTGATCCCAATCCTCCTGATATCTACTGCATTGGATTCCAAGAACTGGACTTGAGCACAGAAGCCTTCTTCTACTTTGAATCTGTGAAGGAACAAGAATGGTCCATGGCTGTAGAGAGAGGTTTGCATTCCAAAGCCAAGTATAAGAAAGTTCAACTGGTGCGCCTTGTTGGGATGATGCTTCTTATATTTGCCAGAAAGGATCAGTGTCGATACATTCGTGATATTGCTACAGAAACAGTTGGAACTGGAATCATGGGGAAAATGGGAAACAAAGGTGGGGTAGCTGTGAGATTTGTATTTCACAACACCACCTTTTGCATTGTCAATTCCCATCTGGCTGCACACGTGGAGGACTTTGAGAGAAGGAATCAAGATTATAAGGACATTTGTGCGAGAATGAGTTTTGTGGTCCCAAATCAGACCCTCCCGCAGTTGAACATCATGAAACATGAGGTTGTCATTTGGTTGGGAGATTTGAATTATAGACTTTGCATGCCTGATGCCAATGAGGTGAAAAGTCTTATTAATAAGAAAGACCTTCAGAGACTCTTGAAATTCGACCAGCTAAATATTCAGCGCACACAGAAAAAAGCTTTTGTTGACTTCAATGAAGGGGAAATCAAGTTCATCCCCACTTATAAGTATGACTCTAAAACAGACCGGTGGGATTCCAGTGGGAAATGCCGGGTTCCAGCCTGGTGTGACCGAATTCTTTGGAGAGGAACAAATGTTAATCAGCTTAATTATCGGAGTCACATGGAACTGAAAACCAGCGACCACAAGCCTGTTAGCGCCCTCTTCCATATTGGGGTGAAGGTTGTGGATGAACGAAGGTACCGGAAAGTCTTTGAAGATAGTGTACGCATCATGGACAGAATGGAAAATGACTTCCTTCCTTCCTTAGAACTCAGCAGGAGGGAGTTTGTGTTTGAAAATGTGAAGTTTCGGCAACTACAAAAGGAGAAGTTCCAGATCAGCAACAATGGACAGGTTCCCTGCCATTTTTCTTTCATCCCTAAACTTAATGACAGCCAGTACTGCAAGCCATGGCTTCGGGCTGAACCTTTTGAGGGCTACTTGGAGCCAAATGAGACAGTGGACATTTCTCTTGATGTGTATGTCAGCAAAGACTCTGTAACCATCCTGAACTCGGGAGAAGATAAGATTGAAGATATTCTCGTCCTTCACCTGGATCGAGGCAAAGATTACTTCTTGACTATCAGTGGAAATTACCTCCCAAGTTGTTTTGGCACATCCTTAGAGGCTCTGTGCCGTATGAAAAGACCAATCCGAGAAGTTCCTGTTACCAAACTCATAGACTTGGAAGAAGACAGCTTCCTAGAAAAGGAGAAATCCCTTCTGCAAATGGTTCCTTTGGATGAAGGTGCCAGTGAGAGACCCCTTCAGGTTCCCAAGGAGATCTGGCTTCTAGTAGATCACCTATTCAAATACGCCTGTCACCAGGAGGACCTGTTCCAGACCCCTGGAATGCAGGAAGAGCTCCAGCAGATCATTGATTGTCTGGATACCAGCATTCCTGAGACAATCCCTGGCAGCAACCACTCTGTGGCTGAAGCACTGCTCATTTTCTTGGAAGCCCTGCCAGAGCCAGTCATCTGTTACGAGCTGTATCAGCGATGTCTTGACTCTGCTTATGATCCCCGGATCTGCCGACAGGTGATCTCCCAGCTTCCGAGATGCCATAGAAATGTTTTCCGTTACTTGATGGCATTCCTTCGAGAACTCTTAAAATTCTCTGAATACAATAGCGTCAATGCCAACATGATCGCTACTCTCTTCACTAGTCTTCTCCTGAGGCCTCCACCCAACCTTATGGCAAGACAGACTCCAAGTGACCGCCAGCGTGCTATTCAGTTCCTTCTGGGCTTTCTGCTTGGGAGCGAAGAAGACTAAGGCTTTTACTGTTCTCTGATATTCTAGAAGCAGACGATCTCGGGCTCCAAGTATTTCAGAATGATTTAAAAAGTCATGCCACAGGAAGGGTCTATTGCAGAATTTCAAGTTCTGTTTATAGTAAAAAGGAAGAGCGTTTCCTAATCCCTCCTTTACCATATCCTACACAGAAAAATACTTTTAGACTTATATTGCCAAGCCAAAGTTACCATATTTTGGTGTTTTTGTGTTTTCTCTTTATAAGGCAAAAAGATCTGTATTTACACTCCTTCACCTAGGGATGTGTTTGTTGCCCTCCTACCCAATTGTCATGATTGTCCTTAGTACCCTAGGCCTAGATTCTGAGATCTTCCCATTCTAGGCCTACAAGCACTACTTGCTGTAGCTGAGACTTGTCTAGAGTCCTTTGTTTTGCACTTTTGACCCACCCCTTCCTGGATCACTCCTTTGCACTCCACTCCCCTCGTTCTGTCACTTTGAACGAAGTCTGAGTGAGGCTAGTGACTCCTTGGGTGTCCTCAACAGTGAATTCACTGTCTGCGTGCAGTTATTACATGCATTTGTGCATTTCTACTACAATGGCATCTTTATGTCTCTGTAACATTGGCCTTTTCATGGCTCCACACTGGGTGGAACCATATTCTCTTAGATCACATTTAGTAGCATAACTGTAGGGACTATTAGAGATGGCATCTCATCGATGAGAGAGAATCACAATCAGAATGGAAGCACTTTGAGTATCTGAAGAGTGAGAGCATTCATGTTTGACAGGTCCTGCTTCCCACTATCCTTTTCCTGTTATTATTCAAATTTTACACAAGGACTAATCCTGGGTGTCTCTGAGACCCATCTCCTGCCTAGACATCCACCTCCAGAGCAACACTGGCCCCACAGTAAAAGAGGAAGTCTTGTACCTCAGGCAGGCCCATCTAGAGCTATTGCTCCTTCCCACAGCAAAGGTATTGTGGATGACCCTTAGAATCCATTCTCTGGTCTTCTGAAATACCAAGGGCAGATGTCACCTCCTTCCTCAGCAGGACTGACTCTGGGCTCTACAACCAGCTCCTTCACATAAAGGGTTTAGAGACTCCCCTTGGCTCCCAGTCACCATATCCAGTGTTGTGTAAAGAGACTGGCCAACAGGACCAACCAAGCACCTTACCTCTCCCATACAAGATGACCCTCTGAGCTTTTCATTTATTCAAGCTCTGTGGTACAGCCTTTTTTTAAAATAAATTAATCTATATTGGTTGACAAACAAGCCACCAACCACTGACTGCAAAACTGCCTGATGCAGTTGGGTTCCTCCTGGTTTTCTTTTGTTACAACCACCCTTGCCTGTTTACATTAATTGCAAGGAGCATAACGTACAGGCTGTATGTACAATCCTGGGCATTGACTCTGTGACATTTCTAGCATATCCAAGGCACCACCAGTGATTTCTCCTGTTTCTTGGTGGGGGTGGGGGGGAAGGTACGTATTCTGCAATATGGCTAAACCCTTTCCTGATTGAGAGTTAAAGCAATAGGAGTCAAGTTACTGGTGCCACAGATCTGGAGGTATGATAGGTCAGGGGCTAGGTGTTGAACTTAGTTAATGGAAGACTGAGAGCAGAACAGGTTTGTCATCTCCGCAAGGCCAGAAAGTGATCACAAAAAGAGGCAGATGATAGACACTGGGGTAGGGTCATACCACAGGGAAATACCTTTCCTGGGCTTGTTTTCTAGCATATCACTGACCTGGGATCTTTGGGTGATCAAGGGTGTGGTTAGTGGAGGCTCTGTGCTGCACGTATGCAGTATCCTATCTCTTTCTACATCAGATCAAAACACTAAGTTGGTGTACTGCCTCGACCTTTTTTCAGCTCATCCTGGAACATATACAGAGTTGAGAGTTTTAGACAATCTCTAGGTAGAGGAGACAAGATGTAGACCCAGACAGAAGAAATCTGCTTCCCTACCATGGCTATTCCAGCACCCCAACCTGTAATTGCCAAGTCCTCTAAGGTACTAATTTGTAGCTGCTCTGAAGTAAGGATTTCGGATTCAGCTGGTAGGGAAAGACTCTGCACCTGCTGTCTTAGGGAAGAAATGGTTCAAATCCATGTGGTGACATTGCATTAGTCTCCCTTTCACTGTTTTCTTATTCTGTAATTGTTTGTTATATTTCCCAAAAACGTCTTGATCACTAAGCAAAGCTGCTAGTGGGATTCTATATTTCGTGTCATCTTTTTTATTATAATTTATTGCAAATTTTTTTCTGAATAAATATATGTTGTGTGAAAAAGCAAAAAAAAAAA
>gi|974005229|ref|NM_178452.5| Homo sapiens dynein axonemal assembly factor 1 (DNAAF1), transcript variant 1, mRNA
AGTGCGCGTGCGCAGCGGTTGCCTGGGCGACCGGGGAAGCGTTGGGCTGTAAAGACTAGGGCGCCAGCGGCTGGCGAAGAAGGAAAGAGGGTACTCTCTGGCTGGGCTGGGGCCGTAGCGACGTCCGCCGCGAACCTGGGCCCCCCAAAGCTGCGGGGCGTTCGGTGTCGCCGAAGTAAACATGCACCCTGAGCCCTCGGAGCCTGCGACAGGTGGTGCAGCAGAGCTGGATTGCGCGCAGGAGCCCGGCGTGGAGGAGTCTGCGGGTGACCACGGGAGCGCAGGCCGAGGGGGCTGCAAGGAAGAAATTAATGATCCTAAGGAAATATGTGTGGGTTCTTCTGACACATCCTACCACAGCCAGCAGAAACAGAGTGGTGATAATGGGTCAGGTGGTCACTTCGCACACCCAAGAGAAGACAGGGAAGATCGGGGCCCCAGAATGACTAAAAGTTCCCTGCAAAAACTCTGCAAGCAGCACAAGCTTTATATTACCCCAGCATTGAATGATACGCTGTATTTACACTTTAAAGGTTTTGATCGCATTGAGAACCTGGAAGAGTACACAGGGCTGCGCTGTCTCTGGCTGCAGAGCAATGGAATACAGAAAATCGAAAACCTGGAGGCCCAAACTGAGTTGCGTTGCCTCTTCTTGCAAATGAACTTGCTCCGTAAAATTGAGAACCTGGAACCTCTGCAGAAACTGGATGCTCTTAACCTCAGCAACAATTACATCAAGACCATTGAAAACCTCTCCTGCCTCCCAGTCCTGAACACATTGCAGATGGCCCACAATCACCTGGAGACCGTGGAGGACATTCAGCATCTACAAGAGTGTTTGAGGCTTTGTGTCCTTGACCTTTCGCACAACAAGCTGAGTGACCCGGAGATCCTGAGCATTCTGGAAAGCATGCCCGATTTGCGTGTACTGAATTTGATGGGAAACCCGGTTATCAGACAGATTCCTAATTACAGAAGGACAGTCACTGTACGACTAAAGCACTTAACATACCTGGATGATAGACCAGTGTTTCCAAAGGACAGAGCTTGTGCGGAGGCCTGGGCTAGGGGAGGGTACGCAGCTGAAAAGGAGGAGAGACAGCAGTGGGAGAGCAGGGAGCGGAAGAAGATCACAGACAGCATTGAAGCCTTGGCCATGATCAAGCAGCGGGCAGAGGAGAGGAAAAGACAGAGAGAGAGTCAAGAGAGAGGGGAGATGACATCTTCAGATGATGGTGAGAATGTGCCCGCCAGTGCGGAAGGCAAGGAGGAGCCTCCCGGGGACAGAGAAACAAGGCAGAAGATGGAGCTATTTGTTAAGGAAAGCTTTGAGGCCAAGGACGAGCTCTGCCCGGAAAAGCCAAGTGGAGAGGAGCCGCCTGTGGAGGCTAAAAGAGAGGATGGAGGTCCAGAGCCAGAGGGGACCCTCCCAGCTGAGACCCTGCTACTGTCGTCACCTGTGGAGGTTAAAGGAGAGGACGGAGATGGAGAGCCAGAGGGGACCCTCCCAGCTGAGGCCCCACCACCCCCGCCACCTGTGGAGGTTAAAGGAGAGGATGGAGATCAAGAGCCAGAGGGGACCCTCCCAGCTGAGACCCTGCTACTGTCACCGCCTGTGAAGGTTAAAGGAGAGGATGGAGATCGAGAGCCAGAGGGGACCCTCCCAGCTGAGGCCCCACCACCACCGCCCCTGGGAGCTGCCAGGGAAGAACCGACTCCCCAGGCTGTGGCCACTGAGGGTGTATTCGTTACAGAACTTGATGGAACGAGAACGGAAGATTTAGAAACCATTAGACTGGAGACAAAGGAGACATTCTGCATTGATGACCTACCTGACTTGGAAGATGATGATGAAACAGGCAAATCTCTGGAAGACCAGAATATGTGCTTTCCGAAGATTGAGGTCATCTCGAGCTTGAGTGATGACAGTGACCCTGAACTGGACTACACGTCACTCCCTGTGCTGGAAAACCTCCCCACAGACACTCTGTCAAATATATTTGCAGTCTCTAAAGACACCTCAAAGGCGGCTCGGGTGCCCTTCACAGACATCTTTAAAAAAGAAGCTAAGAGGGACTTGGAAATCCGAAAACAAGACACCAAGTCCCCAAGACCCCTGATCCAGGAGCTCAGCGACGAGGACCCCTCTGGCCAGCTACTGATGCCCCCCACCTGCCAAAGAGATGCTGCACCACTCACTTCCAGTGGAGACAGGGACAGCGACTTCCTTGCAGCCTCTTCTCCGGTGCCGACTGAGAGCGCCGCCACACCCCCAGAGACGTGTGTCGGAGTTGCCCAGCCCAGCCAAGCTCTGCCCACGTGGGACCTCACTGCATTCCCAGCACCGAAAGCATCATAGTTTTCCCCAGTTATATGTAGCATAAATGGTTTAATCATAAATGTCTCCCTTAGGCATGATAAACATTTTAACACCCACGAAAAAAAAAAAAAA
>gi|970949435|ref|NM_001318315.1| Homo sapiens HscB mitochondrial iron-sulfur cluster cochaperone (HSCB), transcript variant 3, mRNA
TCTGGTTAGACGCTCTCTTTGCTTTTCCCCACGAGTGACCACGGCTAGATAGGCCGCCGGCCAGATGTGGCGGGGGAGAGCCGGGGCTTTGCTCCGGGTGTGGGGGTTTTGGCCGACAGGGGTTCCCAGAAGGAGACCGCTAAGCTGCGATGCTGCGTCGCAGGCGGGAAGCAATTATCCCCGCTGTTGGAACTGCGGCGGCCCATGGGGCCCCGGGCGGGAGGACAGGTTCTTCTGCCCACAGTGCCGAGCGCTGCAGGCACCTGACCCCACTCGAGACTACTTCAGCCTTATGGACTGCAACCGTTCCTTCAGAGTTGATACAGCGAAGCTCCAGCACAGGTACCAGCAACTGCAGCGTCTTGTCCACCCAGATTTCTTCAGCCAGAGGTCTCAGACTGAAAAGGACTTCTCAGAGAAGCATTCGACCCTGGTGAATGATGCCTATAAGACCCTCCTGGCCCCCCTGAGCAGAGGACTGTACCTTGTAAGCTAAACAGAAAGAATTTACTGACAATGTGAGCAGTGCTTTTGAACAAGATGACTTTGAAGAAGCCAAGGAAATTTTGACAAAGATGAGATACTTTTCAAATATAGAAGAAAAGATCAAGTTAAAGAAGATTCCCCTTTAATTGTGGATAGTTTAAAGTTTAAAAAATAAAGTTCTTGCTGGGCACAGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGTGGATGACAAGGTCAGGAGTTCAAGACCAGCTTGGCCAACATAGTGAAACCCCGTCTCTGCTGAAAATACAAAAATTAGCCGGGCATGGTGGCGCGTGCCTGTAATCCCAGCTACTTGGTAGGCCGAGGCAGGAGAATCGCTTAAACCCGTGAGGTGGAGGTTGCAGTGAGCAGAGATCACGCAACTGCACTCCAGCTTGGGCAACAGAGTGAGACTTAATCTTGAAAAATAAATAAATGAAAAATAAAATTCTTGTAAAAAAAAAAAAA
>gi|969812508|ref|NM_000600.4| Homo sapiens interleukin 6 (IL6), transcript variant 1, mRNA
GTCTCAATATTAGAGTCTCAACCCCCAATAAATATAGGACTGGAGATGTCTGAGGCTCATTCTGCCCTCGAGCCCACCGGGAACGAAAGAGAAGCTCTATCTCCCCTCCAGGAGCCCAGCTATGAACTCCTTCTCCACAAGCGCCTTCGGTCCAGTTGCCTTCTCCCTGGGGCTGCTCCTGGTGTTGCCTGCTGCCTTCCCTGCCCCAGTACCCCCAGGAGAAGATTCCAAAGATGTAGCCGCCCCACACAGACAGCCACTCACCTCTTCAGAACGAATTGACAAACAAATTCGGTACATCCTCGACGGCATCTCAGCCCTGAGAAAGGAGACATGTAACAAGAGTAACATGTGTGAAAGCAGCAAAGAGGCACTGGCAGAAAACAACCTGAACCTTCCAAAGATGGCTGAAAAAGATGGATGCTTCCAATCTGGATTCAATGAGGAGACTTGCCTGGTGAAAATCATCACTGGTCTTTTGGAGTTTGAGGTATACCTAGAGTACCTCCAGAACAGATTTGAGAGTAGTGAGGAACAAGCCAGAGCTGTGCAGATGAGTACAAAAGTCCTGATCCAGTTCCTGCAGAAAAAGGCAAAGAATCTAGATGCAATAACCACCCCTGACCCAACCACAAATGCCAGCCTGCTGACGAAGCTGCAGGCACAGAACCAGTGGCTGCAGGACATGACAACTCATCTCATTCTGCGCAGCTTTAAGGAGTTCCTGCAGTCCAGCCTGAGGGCTCTTCGGCAAATGTAGCATGGGCACCTCAGATTGTTGTTGTTAATGGGCATTCCTTCTTCTGGTCAGAAACCTGTCCACTGGGCACAGAACTTATGTTGTTCTCTATGGAGAACTAAAAGTATGAGCGTTAGGACACTATTTTAATTATTTTTAATTTATTAATATTTAAATATGTGAAGCTGAGTTAATTTATGTAAGTCATATTTATATTTTTAAGAAGTACCACTTGAAACATTTTATGTATTAGTTTTGAAATAATAATGGAAAGTGGCTATGCAGTTTGAATATCCTTTGTTTCAGAGCCAGATCATTTCTTGGAAAGTGTAGGCTTACCTCAAATAAATGGCTAACTTATACATATTTTTAAAGAAATATTTATATTGTATTTATATAATGTATAAATGGTTTTTATACCAATAAATGGCATTTTAAAAAATTCAGCAAAAAAAAAA
>gi|930192095|ref|NM_002412.4| Homo sapiens O-6-methylguanine-DNA methyltransferase (MGMT), mRNA
GTGCCCCTCGGCCCCGCCCCCGCGCCCCGGATATGCTGGGACAGCCCGCGCCCCTAGAACGCTTTGCGTCCCGACGCCCGCAGGTCCTCGCGGTGCGCACCGTTTGCGACTTGGTACTTGGAAAAATGGACAAGGATTGTGAAATGAAACGCACCACACTGGACAGCCCTTTGGGGAAGCTGGAGCTGTCTGGTTGTGAGCAGGGTCTGCACGAAATAAAGCTCCTGGGCAAGGGGACGTCTGCAGCTGATGCCGTGGAGGTCCCAGCCCCCGCTGCGGTTCTCGGAGGTCCGGAGCCCCTGATGCAGTGCACAGCCTGGCTGAATGCCTATTTCCACCAGCCCGAGGCTATCGAAGAGTTCCCCGTGCCGGCTCTTCACCATCCCGTTTTCCAGCAAGAGTCGTTCACCAGACAGGTGTTATGGAAGCTGCTGAAGGTTGTGAAATTCGGAGAAGTGATTTCTTACCAGCAATTAGCAGCCCTGGCAGGCAACCCCAAAGCCGCGCGAGCAGTGGGAGGAGCAATGAGAGGCAATCCTGTCCCCATCCTCATCCCGTGCCACAGAGTGGTCTGCAGCAGCGGAGCCGTGGGCAACTACTCCGGAGGACTGGCCGTGAAGGAATGGCTTCTGGCCCATGAAGGCCACCGGTTGGGGAAGCCAGGCTTGGGAGGGAGCTCAGGTCTGGCAGGGGCCTGGCTCAAGGGAGCGGGAGCTACCTCGGGCTCCCCGCCTGCTGGCCGAAACTGAGTATGTGCAGTAGGATGGATGTTTGAGCGACACACACGTGTAACACTGCATCGGATGCGGGGCGTGGAGGCACCGCTGTATTAAAGGAAGTGGCAGTGTCCTGGGAACAAGCGTGTCTGCCCTTTCTGTTTCCATATTTTACAGCAGGATGAGTTCAGACGCCCGCGGTCCTGCACACATTTGTTTCCTTCTCTAACGCTGCCCTTGCTCTATTTTTCATGTCCATTAAAACAGGCCAAGTGAGTGTGGAAGGCCTGGCTCATGTTGGGCCACAGCCCAGGATGGGGCAGTCTGGCACCCTCAGGCCACAGACGGCTGCCATAGCCGCTGTCCAGGGCCAGCTAAGGCCCATCCCAGGCCGTCCACACTAGAAAGCTGGCCCTGCCCCATCCCCACCATGCCTCCCTTCCTGGCTGTGTCCATGGCTGTGATGGCATTCTCCACTCAGCAGTTCCTAGCATCCCACACCCAGGTCTCACTGAAAGAAAGGGGAACAGGCCATGGCAGTCAGTGCTTACAGAGGTTTTCTAGCTTTGTTTCCTACCTGCCAAAAAGGCTAATGCAAGATGCATCCACTTATGGTCTGTATCAGGTGAATAGAAAATAACCATTTGCCAAGATTT
>gi|906394183|ref|NM_021815.4| Homo sapiens solute carrier family 5 member 7 (SLC5A7), transcript variant 1, mRNA
ATACTCGATCGATTCCCACCTCGCCCTGCGCCGCGCGCCCTCCGCCGGCGCCAACACCTGTCAACTCTGCGCGCTCCCAGGTTCTTGGAGACGCCGAGTGAGGAGCCGCCCTGACCGCCCGGCCCCGCTCCGCACTGCACCCCGACCCACCCCGCACCCTCCCTTTCTGCACCCTCGCACCCACACCCCTCGCGGTTCCAGGGGGCGGCGGCCCCGGGCGGAGCGCTTTCGCGTGCAGCCACCACTCCAGAAGACTTAATGAAGTAGCCAGCTGCAGAAGAATCTGGATCATTAGATAAAAATGGCTTTCCATGTGGAAGGACTGATAGCTATCATCGTGTTCTACCTTCTAATTTTGCTGGTTGGAATATGGGCTGCCTGGAGAACCAAAAACAGTGGCAGCGCAGAAGAGCGCAGCGAAGCCATCATAGTTGGTGGCCGAGATATTGGTTTATTGGTTGGTGGATTTACCATGACAGCTACCTGGGTCGGAGGAGGGTATATCAATGGCACAGCTGAAGCAGTTTATGTACCAGGTTATGGCCTAGCTTGGGCTCAGGCACCAATTGGATATTCTCTTAGTCTGATTTTAGGTGGCCTGTTCTTTGCAAAACCTATGCGTTCAAAGGGGTATGTGACCATGTTAGACCCGTTTCAGCAAATCTATGGAAAACGCATGGGCGGACTCCTGTTTATTCCTGCACTGATGGGAGAAATGTTCTGGGCTGCAGCAATTTTCTCTGCTTTGGGAGCCACCATCAGCGTGATCATCGATGTGGATATGCACATTTCTGTCATCATCTCTGCACTCATTGCCACTCTGTACACACTGGTGGGAGGGCTCTATTCTGTGGCCTACACTGATGTCGTTCAGCTCTTTTGCATTTTTGTAGGGCTGTGGATCAGCGTCCCCTTTGCATTGTCACATCCTGCAGTCGCAGACATCGGGTTCACTGCTGTGCATGCCAAATACCAAAAGCCGTGGCTGGGAACTGTTGACTCATCTGAAGTCTACTCTTGGCTTGATAGTTTTCTGTTGTTGATGCTGGGTGGAATCCCATGGCAAGCATACTTTCAGAGGGTTCTCTCTTCTTCCTCAGCCACCTATGCTCAAGTGCTGTCCTTCCTGGCAGCTTTCGGGTGCCTGGTGATGGCCATCCCAGCCATACTCATTGGGGCCATTGGAGCATCAACAGACTGGAACCAGACTGCATATGGGCTTCCAGATCCCAAGACTACAGAAGAGGCAGACATGATTTTACCAATTGTTCTGCAGTATCTCTGCCCTGTGTATATTTCTTTCTTTGGTCTTGGTGCAGTTTCTGCTGCTGTTATGTCATCAGCAGATTCTTCCATCTTGTCAGCAAGTTCCATGTTTGCACGGAACATCTACCAGCTTTCCTTCAGACAAAATGCTTCGGACAAAGAAATCGTTTGGGTTATGCGAATCACAGTGTTTGTGTTTGGAGCATCTGCAACAGCCATGGCCTTGCTGACGAAAACTGTGTATGGGCTCTGGTACCTCAGTTCTGACCTTGTTTACATCGTTATCTTCCCCCAGCTGCTTTGTGTACTCTTTGTTAAGGGAACCAACACCTATGGGGCCGTGGCAGGTTATGTTTCTGGCCTCTTCCTGAGAATAACTGGAGGGGAGCCATATCTGTATCTTCAGCCCTTGATCTTCTACCCTGGCTATTACCCTGATGATAATGGTATATATAATCAGAAATTTCCATTTAAAACACTTGCCATGGTTACATCATTCTTAACCAACATTTGCATCTCCTATCTAGCCAAGTATCTATTTGAAAGTGGAACCTTGCCACCTAAATTAGATGTATTTGATGCTGTTGTTGCAAGACACAGTGAAGAAAACATGGATAAGACAATTCTTGTCAAAAATGAAAATATTAAATTAGATGAACTTGCACTTGTGAAGCCACGACAGAGCATGACCCTCAGCTCAACTTTCACCAATAAAGAGGCCTTCCTTGATGTTGATTCCAGTCCAGAAGGGTCTGGGACTGAAGATAATTTACAGTGACCCCATCTAAATAAAATACTGCTTTTGCAAACAGAACACTGTAATAGGGTAGTTCTGGAGAGATGGTATGCAGCATACAAAAATATATTAAAAATATAAACAATGTTCAGGAGAGTAAAAATTCATATAAAGTGCAATTGCACAAATACAAGCCAAGCTAGAAGGAAGCACCTATGAAAGCAACAACTTTGTTTCTCATCCATAGTAGTATTGATTTTGATGCTAGATAGTTTTGCTAGGTATAAAAAATAAGTAAAGTTCCACTTAGAGAACAAAGGGCCAAATAGAGTTTTTATATTTGTTATGATAAAAGGAAGTAGATGTGAAAAAGCCTAAGAAAAAGGAAATTGGACAGTTTTGATACAAACTTTGTTTGCTAATGCACTGATGAGTCTAGTTTCATTATAGCACGAAGCTATGAGAATAACTTCAGTCACTCCCTTGAATGGTGCAATGAATTAACCAGCTGATTTTTCTTAGTGTGATGATTAACCCCTTCTTTCATGTTCTGAGCTATAACATTTGCTGAATATGCAATTTGTTATTCTTTTATTAATGGCATGTAATATTCTGAGCACGGGCAAAGAAAACACACAAAAGATTATGTATTGGCATTTATTTATGTGCAAGGTGATAGGAAAACTGAATCCATCTTTGTAGAAGAGCACTGGGCTAATTTGTATGTTTCCATAGCTACTATATGCATAAACAACAGTACCTGAAGGATTATTAAGCAACCTTAAAGCAATAAGTTCATTAAACAGAAGGTAATAGGAAGAACAGTACATTTTTGTCTTTATCTCAAGTATATAAAGTTTTGCCCCATGATAAAATAAGTAACATATAAATTAATACATAAGTTAATATTGGAAGTGAAATTAGGCCTTATGTAAGGAGAGGTAGCTACACAGCATCTGTTACGGTTAATGAGAGGCACACTGCTAAATTTACGTATATTTCATTGAATACTTTATGGGAAGCCTCCACAACACCTCCTGATAGTAGTAAAATTAGAAAAAAACAAACTCTACTAATTTTTAGATATTCATTAATAGGAAAGATTTAATGTTACAGCATCTACTCTTTGGCACTTTTTCACATAAGCCAGCCTTAGAGACTAGACAAATAACTACTGCAAAAAGTACATAGTGAATTTTAAAATGTAGAAGAAAGCAAAAAATAAAATAAGTCCTAAAGTGAAGAAGCCATCAATTTTAACATTTGATGTCTAGATAACATTCATGAGATTGGTCATTAAATACTATTTTGCTCCTTTTCTGGTGTTACACATACACACTCATACGTGTGTGTGTGTGTATGTGTGTGTGTGTATGTGTAATGATTTGTGTCCATTTCAAGTGTTTTCACACCAGTCACACATTATAGAAATTACTGGAGCCATGTCTACAAAAGCAAAGTGAAGTGATGAGCTGAAAAGTGATCAGGGAATCTGATCCCATAAAGAAAGTGAGTCTGAATTGTTGAAACTAAAGCACTTCTTTTCCAAAAATACTTCTGCAACTCATGAACAAAATGAAGTTAACTTAGTGTTTAGCATTAAAAATAAAAGTTGTACCTTGACCCTAGAATTCCTTTTATAAGATTTAATTGTAATTGTCTCAAAGCATCAAATAATACATCTTTATCATTAAACATGAATTTAATGTCTAGGATAATTTTTAAAAGAGGAAATTAAATAATTTTACATGTCTCATATTTTCAGTGCTTTCTCAAAATTTGATGGTGAATATTACATTGCATTCAAAATCTTCACTGAATATCATATGTATCTAAATGAAAAGAGAATTACTTATATTCATCTATTTTCTCAGAATCTATTCAGTACCCTATGGAGTACATGGAAGAAGTATATTTTTGGAACCAGTAAGTATGGGAGTCCACGATTCTCAGGTATTGATTGAAAAAAGAGAAAGGGGCAAGAAATTCATTAAAGAAAAACCACAGATACTGAAACATTTGACACATAAAAGTAATTAATTGCTGGAGACTACAATTCCTGGCAAACACCATTATTCCAGATGCACCATGCTACCCAGCATGCTACCTGAATGGCGGTTTTTATCCATCCTGTCACCCTGAGCATCTGTCTCAACCTGCTGAGGCACAGACTTCCACCATGTGCATCAGGAAACACCTCACTCATACTGTCATATAATGCAACAGGGAGGCATAGTCTCTCTACAGGTCTCTCTCTTTACGTTGTACCATTCTGTTGGGCAACAATTGTCCCAACAACCACACTTAAATCCAGTGGGGAAAAAAAGGTTAACAGTAAAAATTTCTTCCACGTAATTCAATTTCTCACAATAGACAGAAACAGGGGGAAAATGTTTGCCCTGTTCAAAGTACTAAAACTAGATAACTTAAATAATTTAAGCCAATAAATAATATTATATTGTATTTAACCCATTATTCCTCACCTACCCTCAAAGTAGGTATACAAAAGACTAGTTTGTTATTAATCCACAAATATGCTAAATGTTAGCAAGATGATTTTTAAGTACAAAAAAGTTTAAGATTGCAAGGAAGGAAACAATGGTCACAAGGTCTTTACTTATGCACATTTGTGCATAAATTTCCACCCAATTTCCAAGACAGTTGTATCACAAAGCTGTGAAATGTGCAAGAGTATACTTTGTACCCATCATGTGCTCTGTTTTGACATAATGAGTAATGCAGACATTTACATGTTCTTCCAGCTTCAATCAGTAGACCTGATTTTCAAAATCTGCCCTCAGATGAAAATAAAATAAACGAAACATTTAGACAATGGCTATATTAATCTGGGAAGGCAACACCTGTGGATAAAACATTAGAAGAAAACATATATTTTATTTTCATACTTTTGATATGATTGTAACATATTTCTTGAGTAATTTAAATGCTTTGTTTTCCCACACATATTCAAATCAGCAAGCTTGTAGCTGGACTGCAATATCAACAACAAGTTGTTTCAAACAGCATCAAAATACAACTTCATTGCTACACTTACAAGTAATGAATTTTATGTGACTATGAAACGAATATAAGCTTAAAATAAGTGAATCTAATAAAATGGCTATTCCTCTTTTTACTTGGAAATAATAAATTAACATTATATTTTAAA
>gi|817476593|ref|NM_001291484.2| Homo sapiens carcinoembryonic antigen related cell adhesion molecule 5 (CEACAM5), transcript variant 2, mRNA
GATGCTGAGAAGTACTCCTGCCCTAGGAAGAGACTCAGGGCAGAGGGAGGAAGGACAGCAGACCAGACAGTCACAGCAGCCTTGACAAAACGTTCCTGGAACTCAAGCTCTTCTCCACAGAGGAGGACAGAGCAGACAGCAGAGACCATGGAGTCTCCCTCGGCCCCTCCCCACAGATGGTGCATCCCCTGGCAGAGGCTCCTGCTCACAGCCTCACTTCTAACCTTCTGGAACCCGCCCACCACTGCCAAGCTCACTATTGAATCCACGCCGTTCAATGTCGCAGAGGGGAAGGAGGTGCTTCTACTTGTCCACAATCTGCCCCAGCATCTTTTTGGCTACAGCTGGTACAAAGGTGAAAGAGTGGATGGCAACCGTCAAATTATAGGATATGTAATAGGAACTCAACAAGCTACCCCAGGGCCCGCATACAGTGGTCGAGAGATAATATACCCCAATGCATCCCTGCTGATCCAGAACATCATCCAGAATGACACAGGATTCTACACCCTACACGTCATAAAGTCAGATCTTGTGAATGAAGAAGCAACTGGCCAGTTCCGGGTATACCCGGAGCTGCCCAAGCCCTCCATCTCCAGCAACAACTCCAAACCCGTGGAGGACAAGGATGCTGTGGCCTTCACCTGTGAACCTGAGACTCAGGACGCAACCTACCTGTGGTGGGTAAACAATCAGAGCCTCCCGGTCAGTCCCAGGCTGCAGCTGTCCAATGGCAACAGGACCCTCACTCTATTCAATGTCACAAGAAATGACACAGCAAGCTACAAATGTGAAACCCAGAACCCAGTGAGTGCCAGGCGCAGTGATTCAGTCATCCTGAATGTCCTCTATGGCCCGGATGCCCCCACCATTTCCCCTCTAAACACATCTTACAGATCAGGGGAAAATCTGAACCTCTCCTGCCACGCAGCCTCTAACCCACCTGCACAGTACTCTTGGTTTGTCAATGGGACTTTCCAGCAATCCACCCAAGAGCTCTTTATCCCCAACATCACTGTGAATAATAGTGGATCCTATACGTGCCAAGCCCATAACTCAGACACTGGCCTCAATAGGACCACAGTCACGACGATCACAGTCTATGCAGAGCCACCCAAACCCTTCATCACCAGCAACAACTCCAACCCCGTGGAGGATGAGGATGCTGTAGCCTTAACCTGTGAACCTGAGATTCAGAACACAACCTACCTGTGGTGGGTAAATAATCAGAGCCTCCCGGTCAGTCCCAGGCTGCAGCTGTCCAATGACAACAGGACCCTCACTCTACTCAGTGTCACAAGGAATGATGTAGGACCCTATGAGTGTGGAATCCAGAACGAATTAAGTGTTGACCACAGCGACCCAGTCATCCTGAATGTCCTCTATGGCCCAGACGACCCCACCATTTCCCCCTCATACACCTATTACCGTCCAGGGGTGAACCTCAGCCTCTCCTGCCATGCAGCCTCTAACCCACCTGCACAGTATTCTTGGCTGATTGATGGGAACATCCAGCAACACACACAAGAGCTCTTTATCTCCAACATCACTGAGAAGAACAGCGGACTCTATACCTGCCAGGCCAATAACTCAGCCAGTGGCCACAGCAGGACTACAGTCAAGACAATCACAGTCTCTGCGGAGCTGCCCAAGCCCTCCATCTCCAGCAACAACTCCAAACCCGTGGAGGACAAGGATGCTGTGGCCTTCACCTGTGAACCTGAGGCTCAGAACACAACCTACCTGTGGTGGGTAAATGGTCAGAGCCTCCCAGTCAGTCCCAGGCTGCAGCTGTCCAATGGCAACAGGACCCTCACTCTATTCAATGTCACAAGAAATGACGCAAGAGCCTATGTATGTGGAATCCAGAACTCAGTGAGTGCAAACCGCAGTGACCCAGTCACCCTGGATGTCCTCTATGGGCCGGACACCCCCATCATTTCCCCCCCAGACTCGTCTTACCTTTCGGGAGCGAACCTCAACCTCTCCTGCCACTCGGCCTCTAACCCATCCCCGCAGTATTCTTGGCGTATCAATGGGATACCGCAGCAACACACACAAGTTCTCTTTATCGCCAAAATCACGCCAAATAATAACGGGACCTATGCCTGTTTTGTCTCTAACTTGGCTACTGGCCGCAATAATTCCATAGTCAAGAGCATCACAGTCTCTGCATCTGGAACTTCTCCTGGTCTCTCAGCTGGGGCCACTGTCGGCATCATGATTGGAGTGCTGGTTGGGGTTGCTCTGATATAGCAGCCCTGGTGTAGTTTCTTCATTTCAGGAAGACTGCATTTGCAACAGCTACAGTCTAAAATTGCTTCTTTACCAAGGATATTTACAGAAAAGACTCTGACCAGAGATCGAGACCATCCTAGCCAACATCGTGAAACCCCATCTCTACTAAAAATACAAAAATGAGCTGGGCTTGGTGGCGCACACCTGTAGTCCCAGTTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGATTGCAGTGAGCCCAGATCGCACCACTGCACTCCAGTCTGGCAACAGAGCAAGACTCCATCTCAAAAAGAAAAGAAAAGAAGACTCTGACCTGTACTCTTGAATACAAGTTTCTGATACCACTGCACTGTCTGAGAATTTCCAAAACTTTAATGAACTAACTGACAGCTTCATGAAACTGTCCACCAAGATCAAGCAGAGAAAATAATTAATTTCATGGGACTAAATGAACTAATGAGGATAATATTTTCATAATTTTTTATTTGAAATTTTGCTGATTCTTTAAATGTCTTGTTTCCCAGATTTCAGGAAACTTTTTTTCTTTTAAGCTATCCACAGCTTACAGCAATTTGATAAAATATACTTTTGTGAACAAAAATTGAGACATTTACATTTTCTCCCTATGTGGTCGCTCCAGACTTGGGAAACTATTCATGAATATTTATATTGTATGGTAATATAGTTATTGCACAAGTTCAATAAAAATCTGCTCTTTGTATGACAGAATACATTTGAAAACATTGGTTATATTACCAAGACTTTGACTAGAATGTCGTATTTGAGGATATAAACCCATAGGTAATAAACCCACAGGTACTACAAACAAAGTCTGAAGTCAGCCTTGGTTTGGCTTCCTAGTGTCAATTAAACTTCTAAAAGTTTAATCTGAGATTCCTTATAAAAACTTCCAGCAAAGCAACTTTAAAAAAGTCTGTGTGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGATCCGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCCAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAGTTAGCCGGGCGTGGTGGTGGGGGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAACGGCATGAACCCGGGAGGCAGGGCTTGCAGTGAGCCAAGATCATGCCGCTGCACTCCAGCCTGGGAGACAAAGTGAGACTCCGTCAAAAAAAAAAAAAA
>gi|817472180|ref|NM_004363.5| Homo sapiens carcinoembryonic antigen related cell adhesion molecule 5 (CEACAM5), transcript variant 1, mRNA
GATGCTGAGAAGTACTCCTGCCCTAGGAAGAGACTCAGGGCAGAGGGAGGAAGGACAGCAGACCAGACAGTCACAGCAGCCTTGACAAAACGTTCCTGGAACTCAAGCTCTTCTCCACAGAGGAGGACAGAGCAGACAGCAGAGACCATGGAGTCTCCCTCGGCCCCTCCCCACAGATGGTGCATCCCCTGGCAGAGGCTCCTGCTCACAGCCTCACTTCTAACCTTCTGGAACCCGCCCACCACTGCCAAGCTCACTATTGAATCCACGCCGTTCAATGTCGCAGAGGGGAAGGAGGTGCTTCTACTTGTCCACAATCTGCCCCAGCATCTTTTTGGCTACAGCTGGTACAAAGGTGAAAGAGTGGATGGCAACCGTCAAATTATAGGATATGTAATAGGAACTCAACAAGCTACCCCAGGGCCCGCATACAGTGGTCGAGAGATAATATACCCCAATGCATCCCTGCTGATCCAGAACATCATCCAGAATGACACAGGATTCTACACCCTACACGTCATAAAGTCAGATCTTGTGAATGAAGAAGCAACTGGCCAGTTCCGGGTATACCCGGAGCTGCCCAAGCCCTCCATCTCCAGCAACAACTCCAAACCCGTGGAGGACAAGGATGCTGTGGCCTTCACCTGTGAACCTGAGACTCAGGACGCAACCTACCTGTGGTGGGTAAACAATCAGAGCCTCCCGGTCAGTCCCAGGCTGCAGCTGTCCAATGGCAACAGGACCCTCACTCTATTCAATGTCACAAGAAATGACACAGCAAGCTACAAATGTGAAACCCAGAACCCAGTGAGTGCCAGGCGCAGTGATTCAGTCATCCTGAATGTCCTCTATGGCCCGGATGCCCCCACCATTTCCCCTCTAAACACATCTTACAGATCAGGGGAAAATCTGAACCTCTCCTGCCACGCAGCCTCTAACCCACCTGCACAGTACTCTTGGTTTGTCAATGGGACTTTCCAGCAATCCACCCAAGAGCTCTTTATCCCCAACATCACTGTGAATAATAGTGGATCCTATACGTGCCAAGCCCATAACTCAGACACTGGCCTCAATAGGACCACAGTCACGACGATCACAGTCTATGCAGAGCCACCCAAACCCTTCATCACCAGCAACAACTCCAACCCCGTGGAGGATGAGGATGCTGTAGCCTTAACCTGTGAACCTGAGATTCAGAACACAACCTACCTGTGGTGGGTAAATAATCAGAGCCTCCCGGTCAGTCCCAGGCTGCAGCTGTCCAATGACAACAGGACCCTCACTCTACTCAGTGTCACAAGGAATGATGTAGGACCCTATGAGTGTGGAATCCAGAACGAATTAAGTGTTGACCACAGCGACCCAGTCATCCTGAATGTCCTCTATGGCCCAGACGACCCCACCATTTCCCCCTCATACACCTATTACCGTCCAGGGGTGAACCTCAGCCTCTCCTGCCATGCAGCCTCTAACCCACCTGCACAGTATTCTTGGCTGATTGATGGGAACATCCAGCAACACACACAAGAGCTCTTTATCTCCAACATCACTGAGAAGAACAGCGGACTCTATACCTGCCAGGCCAATAACTCAGCCAGTGGCCACAGCAGGACTACAGTCAAGACAATCACAGTCTCTGCGGAGCTGCCCAAGCCCTCCATCTCCAGCAACAACTCCAAACCCGTGGAGGACAAGGATGCTGTGGCCTTCACCTGTGAACCTGAGGCTCAGAACACAACCTACCTGTGGTGGGTAAATGGTCAGAGCCTCCCAGTCAGTCCCAGGCTGCAGCTGTCCAATGGCAACAGGACCCTCACTCTATTCAATGTCACAAGAAATGACGCAAGAGCCTATGTATGTGGAATCCAGAACTCAGTGAGTGCAAACCGCAGTGACCCAGTCACCCTGGATGTCCTCTATGGGCCGGACACCCCCATCATTTCCCCCCCAGACTCGTCTTACCTTTCGGGAGCGAACCTCAACCTCTCCTGCCACTCGGCCTCTAACCCATCCCCGCAGTATTCTTGGCGTATCAATGGGATACCGCAGCAACACACACAAGTTCTCTTTATCGCCAAAATCACGCCAAATAATAACGGGACCTATGCCTGTTTTGTCTCTAACTTGGCTACTGGCCGCAATAATTCCATAGTCAAGAGCATCACAGTCTCTGCATCTGGAACTTCTCCTGGTCTCTCAGCTGGGGCCACTGTCGGCATCATGATTGGAGTGCTGGTTGGGGTTGCTCTGATATAGCAGCCCTGGTGTAGTTTCTTCATTTCAGGAAGACTGACAGTTGTTTTGCTTCTTCCTTAAAGCATTTGCAACAGCTACAGTCTAAAATTGCTTCTTTACCAAGGATATTTACAGAAAAGACTCTGACCAGAGATCGAGACCATCCTAGCCAACATCGTGAAACCCCATCTCTACTAAAAATACAAAAATGAGCTGGGCTTGGTGGCGCACACCTGTAGTCCCAGTTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGATTGCAGTGAGCCCAGATCGCACCACTGCACTCCAGTCTGGCAACAGAGCAAGACTCCATCTCAAAAAGAAAAGAAAAGAAGACTCTGACCTGTACTCTTGAATACAAGTTTCTGATACCACTGCACTGTCTGAGAATTTCCAAAACTTTAATGAACTAACTGACAGCTTCATGAAACTGTCCACCAAGATCAAGCAGAGAAAATAATTAATTTCATGGGACTAAATGAACTAATGAGGATAATATTTTCATAATTTTTTATTTGAAATTTTGCTGATTCTTTAAATGTCTTGTTTCCCAGATTTCAGGAAACTTTTTTTCTTTTAAGCTATCCACAGCTTACAGCAATTTGATAAAATATACTTTTGTGAACAAAAATTGAGACATTTACATTTTCTCCCTATGTGGTCGCTCCAGACTTGGGAAACTATTCATGAATATTTATATTGTATGGTAATATAGTTATTGCACAAGTTCAATAAAAATCTGCTCTTTGTATGACAGAATACATTTGAAAACATTGGTTATATTACCAAGACTTTGACTAGAATGTCGTATTTGAGGATATAAACCCATAGGTAATAAACCCACAGGTACTACAAACAAAGTCTGAAGTCAGCCTTGGTTTGGCTTCCTAGTGTCAATTAAACTTCTAAAAGTTTAATCTGAGATTCCTTATAAAAACTTCCAGCAAAGCAACTTTAAAAAAGTCTGTGTGGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGATCCGCCGAGGCGGGCGGATCACGAGGTCAGGAGATCCAGACCATCCTGGCTAACACAGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAGTTAGCCGGGCGTGGTGGTGGGGGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGAGAACGGCATGAACCCGGGAGGCAGGGCTTGCAGTGAGCCAAGATCATGCCGCTGCACTCCAGCCTGGGAGACAAAGTGAGACTCCGTCAAAAAAAAAAAAAA
>gi|816197625|ref|NM_001308358.1| Homo sapiens cytokine induced apoptosis inhibitor 1 (CIAPIN1), transcript variant 3, mRNA
CCAGATACCGCCGCCGCCGCCATTTTGGAAGCGGGCACGTCGCCCACGGCGACGCGACCGGTAGCTACGGGACCACGGCCCTAAGGAGGGCGGAAGTCGTCGCTCCGTGGAGCCTCCTCCTCTCGCGAGAGGCGCAAGGCGTGGAGTCGACGGCTGGAGAGAAGCCGGGAGCGAGCCCAGGCGGCAGTCTTGATTCCCTTTTGGCCAGCAGTTTTTAGGTCTGTCAGTACTGCACTGCAAGAATGGCAGATTTTGGGATCTCTGCTGGCCAGTTTGTGGCAGTGGTCTGGGATAAGTCATCCCCAGTGGAGGCTCTGAAAGGTCTGGTGGATAAGCTTCAAGCGTTAACCGGCAATGAGGGCCGCGTGTCTGTGGAAAACATCAAGCAGCTGTTGCAATCTGCCCACAAAGAATCCAGCTTTGACATTATTTTGTCAGGTTTAGTCCCAGGAAGCACCACTCTGCACAGTGCTGAGATTTTGGCTGAAATCGCCCGGATCCTTCGGCCTGGTGGATGTCTTTTTCTGAAGGAGCCAGTAGAGACAGCTGTAGATAACAATAGCAAAGTGAAGACAGCATCTAAGCTGTGTTCAGCCCTGACTCTTTCTGGTCTTGTGGAAGTGAAAGAGCTGCAGCGGGAGCCCCTAACCCCTGAGGAAGTACAGTCTGTTCGAGAACACCTTGGTCATGAAAGTGACAACCTGCTGTTTGTTCAGATCACAGGCAAAAAACCAAACTTTGAAGTGGGTTCTTCTAGGCAGCTTAAGCTTTCCATCACCAAGAAGTCTTCTCCTTCAGTGAAACCTGCTGTGGACCCTGCTGCTGCCAAGCTGTGGACCCTCTCAGCCAACGATATGGAGGACGACAGCATGCACCTGTGGCCTTGCCGAAGAACTGGAAAAAGAGAAGTCAAGGGAACAGATGAGCTCCCAACCCAAGTCAGCTTGTGGAAACTGCTACCTGGGCGATGCCTTCCGCTGTGCCAGCTGCCCCTACCTTGGGATGCCAGCCTTCAAACCTGGGGAAAAGGTGCTTCTGAGTGATAGCAATCTTCATGATGCCTAGGAGGTTCCTGACATGGGACCCATCTGCTCCTCCAGCCAACTCCTGTCCCTCACATCCCACCATGGTGGCTCCTCCCACCTCCTCTGGATTTGTTCACTCTGAGATCTGTTTGCAGAGTGGGTGCTTAGCAGACAGAGTGAAGCTGGCTGGGGGGCACAGTGGTGTGTAGTGCTGCTGTGTATCAAAAGACCAAGGTATTATGGGACCTGGTTTCAGAATGGGATGGGTTTCTTCACCTCATGTTAAGAGAAGGGAGTGTGTCCTGAAGAAGCCCTTCTTCTGATGTTAAAATGCTGACCAGAACGCTCTTGAGCCCAGGCATCGTTGAGCATTAACACTCTGTGACAGAGCTGCAGACCCCTGCCTTGAGTCTCATCTCAGCAATGCTGCCACCCTCTTGTCTTTCAGAGTTGTTAGTTTACTCCATTCTTTGTGACACGAGTCAAGTGGCTCACAACCTCCTCAGGGCACCAGAGGACTCACTCACTGGTTGCTGTGATGATATCCAGTGTCCCTCTGCCCCCTTCCATCCCCAACCACATTTGACTGTAGCATTGCATCTGTGTCCTGTTGTCATTTATGTTAACCTTCAGGTATTAAACTTGCTGCATATCTTGACATATCTTGAGATTCTGCATGTCTTGTAAAGAGAGGGGATGTGCATTTGTGTGTGATGTTGGATAGTCATCCACGCTCAGTTTGGACCATTGGAGGAACTTAGTGTCACGCACAAATGGGGCTATTCCTACGCTTAGAATAGGGCTTGTCTGCCCACTTTAGAAGAGTCCAGGTTGGTGAGCATTTAGAGGGAAGCAGGGCAGAACTCTGAACGACAATACGTCTCTCTGAGCAGAGACCCCTTTGTTCTTGTTATCCACCCATATGGACTTGGAATCAATCTTGCCAAATATTTGGAGAGATTGTGTGGATTTAAGAGACCTGGATTTTTATATTTTACCAGTAAATAAAAGTTTTCATTGATATCTGTCCTTGAAACTTGAAAAAAAAAAAAAAAAAA
>gi|800924417|ref|NM_001024688.2| Homo sapiens nibrin (NBN), transcript variant 2, mRNA
AAGCGCCCAAGTCGCACTCCCGCCTCATCCAAGGCAGCCTGCGTGGCTCCCGGGAGCGCGCACGTCCCGGAGCCCATGCCGACCGCAGGCGCCGTATCCGCGCTCGTCTAGCAGCCCCGGTTACGCGGTTGCACGTCGGCCCCAGCCCTGAGGAGCCGGACCGATGTGGAAACTGCTGCCCGCCGCGGGCCCGGCAGGAGGAGAACCATACAGACTTTTGACTGGCGTTGAGTACGTTGTTGGAAGGAAAAACTGTGCCATTCTGATTGAAAATGATCAGTCGATCAGCCGAAATCATGCTGTGTTAACTGCTAACTTTTCTGTAACCAACCTGGTATAGAAAAACATTTTGGAAATTTCTACAGAAAAAGTAAAATTGTTACTAGTCAAACAGATGAAATCCCTGTATTGACATTAAAAGATAATTCTAAGTATGGTACCTTTGTTAATGAGGAAAAAATGCAGAATGGCTTTTCCCGAACTTTGAAGTCGGGGGATGGTATTACTTTTGGAGTGTTTGGAAGTAAATTCAGAATAGAGTATGAGCCTTTGGTTGCATGCTCTTCTTGTTTAGATGTCTCTGGGAAAACTGCTTTAAATCAAGCTATATTGCAACTTGGAGGATTTACTGTAAACAATTGGACAGAAGAATGCACTCACCTTGTCATGGTATCAGTGAAAGTTACCATTAAAACAATATGTGCACTCATTTGTGGACGTCCAATTGTAAAGCCAGAATATTTTACTGAATTCCTGAAAGCAGTTGAGTCCAAGAAGCAGCCTCCACAAATTGAAAGTTTTTACCCACCTCTTGATGAACCATCTATTGGAAGTAAAAATGTTGATCTGTCAGGACGGCAGGAAAGAAAACAAATCTTCAAAGGGAAAACATTTATATTTTTGAATGCCAAACAGCATAAGAAATTGAGTTCCGCAGTTGTCTTTGGAGGTGGGGAAGCTAGGTTGATAACAGAAGAGAATGAAGAAGAACATAATTTCTTTTTGGCTCCGGGAACGTGTGTTGTTGATACAGGAATAACAAACTCACAGACCTTAATTCCTGACTGTCAGAAGAAATGGATTCAGTCAATAATGGATATGCTCCAAAGGCAAGGTCTTAGACCTATTCCTGAAGCAGAAATTGGATTGGCGGTGATTTTCATGACTACAAAGAATTACTGTGATCCTCAGGGCCATCCCAGTACAGGATTAAAGACAACAACTCCAGGACCAAGCCTTTCACAAGGCGTGTCAGTTGATGAAAAACTAATGCCAAGCGCCCCAGTGAACACTACAACATACGTAGCTGACACAGAATCAGAGCAAGCAGATACATGGGATTTGAGTGAAAGGCCAAAAGAAATCAAAGTCTCCAAAATGGAACAAAAATTCAGAATGCTTTCACAAGATGCACCCACTGTAAAGGAGTCCTGCAAAACAAGCTCTAATAATAATAGTATGGTATCAAATACTTTGGCTAAGATGAGAATCCCAAACTATCAGCTTTCACCAACTAAATTGCCAAGTATAAATAAAAGTAAAGATAGGGCTTCTCAGCAGCAGCAGACCAACTCCATCAGAAACTACTTTCAGCCGTCTACCAAAAAAAGGGAAAGGGATGAAGAAAATCAAGAAATGTCTTCATGCAAATCAGCAAGAATAGAAACGTCTTGTTCTCTTTTAGAACAAACACAACCTGCTACACCCTCATTGTGGAAAAATAAGGAGCAGCATCTATCTGAGAATGAGCCTGTGGACACAAACTCAGACAATAACTTATTTACAGATACAGATTTAAAATCTATTGTGAAAAATTCTGCCAGTAAATCTCATGCTGCAGAAAAGCTAAGATCAAATAAAAAAAGGGAAATGGATGATGTGGCCATAGAAGATGAAGTATTGGAACAGTTATTCAAGGACACAAAACCAGAGTTAGAAATTGATGTGAAAGTTCAAAAACAGGAGGAAGATGTCAATGTTAGAAAAAGGCCAAGGATGGATATAGAAACAAATGACACTTTCAGTGATGAAGCAGTACCAGAAAGTAGCAAAATATCTCAAGAAAATGAAATTGGGAAGAAACGTGAACTCAAGGAAGACTCACTATGGTCAGCTAAAGAAATATCTAACAATGACAAACTTCAGGATGATAGTGAGATGCTTCCAAAAAAGCTGTTATTGACTGAATTTAGATCACTGGTGATTAAAAACTCTACTTCCAGAAATCCATCTGGCATAAATGATGATTATGGTCAACTAAAAAATTTCAAGAAATTCAAAAAGGTCACATATCCTGGAGCAGGAAAACTTCCACACATCATTGGAGGATCAGATCTAATAGCTCATCATGCTCGAAAGAATACAGAACTAGAAGAGTGGCTAAGGCAGGAAATGGAGGTACAAAATCAACATGCAAAAGAAGAGTCTCTTGCTGATGATCTTTTTAGATACAATCCTTATTTAAAAAGGAGAAGATAACTGAGGATTTTAAAAAGAAGCCATGGAAAAACTTCCTAGTAAGCATCTACTTCAGGCCAACAAGGTTATATGAATATATAGTGTATAGAAGCGATTTAAGTTACAATGTTTTATGGCCTAAATTTATTAAATAAAATGCACAAAACTTTGATTCTTTTGTATGTAACAATTGTTTGTTCTGTTTTCAGGCTTTGTCATTGCATCTTTTTTTCATTTTTAAATGTGTTTTGTTTATTAAATAGTTAATATAGTCACAGTTCAAAATTCTAAATGTACGTAAGGTAAAGACTAAAGTCACCCTTCCACCATTGTCCTAGCTACTTGGTTCCCCTCAGAAAAAAATTCATGATACTCATTTCTTATGAATCTTTCCAGGGATTTTTGAGTCCTATTCAAATTCCTATTTTTAAATAATTTCCTACACAAATGATAGCATAACATATGCAGTGTTCTACACCTTGCTTTTTTACTTAGTAGATTAAAAATTATAGGAATATCAATATAATGTTTTTAATATTTTTTCTTTTCCATTATGCTGTAGTCTTACCTAAACTCTGGTGATCCAAACAAAATGGCTTCAGTGGTGCAGATGTCACCTACATGTTATTCTAGTACTAGAAACTGAAGACCATGTGGAGACTTCATCAAACATGGGTTTAGTTTTCACCAGAATGGAAAGACCTGTACCCCTTTTTGGTGGTCTTACTGAGCTGGGTGGGTGTCTGTTTTGAGCTTATTTAGAGTCCTAGTTTTCCTACTTATAAAGTAGAAATGGTGAGATTGTTTTCTTTTTCTACCTTAAAGGGAGATGGTAAGAAACAATGAATGTCTTTTTTCAAACTTTATTGACAAGTGATTTTCAAGTCTGTGTTCAAAAATATATTCATGTACCTGTGATCCAGCAAGAAGGGAGTTCCAGTCAAGAGTCACTACAACTGATTAGTTGTTTAGAGAATGAGAAATGGAACAGTGAGGAATGGAGGCCATATTTCCATGACTTCCCTTGTAAACAGAAGCAACAGAAGGGACAAGAGGCTGGCCTCTACATCACTCTCACCTTCCAAATCTTGTGGAAGTGCATCTACTTGCCAGAACCAAATTAACTTACTTCCAAGTTCTGGCTGCTTGCAGGTGGAACTCCAGCTGCAAGGGAGTTAGGGAAATGAAGGTCTTTTTTTAAAAGCTTCTCAGCCTTCCTAGGGAACAGAAATTGGGTGAGCCAATCTGCAATTTCTACTACAGGCATTGAGACCAGTTAGATTATTGAAATATTATAGAGAGTTATGAACACTTAAATTATGATAGTGGTATGACATTGGATAGAACATGGGATACTTTAGAAGTAGAATTGACAGGGCATATTAGTTGATGAAATGGAGTCATTTGAGTCTCTTAATAGCCATGTATCATAATTACCAAGTGAAGCTGGTGGAACATATGGTCTCCATTTTACAGTTAAGGAATATAATGGACAGATTAATATTGTTCTCTGTCATGCCCACAATCCCTTTCTAAGGAAGACTGCCCTACTATAGCAGTTTTTATATTTGTCAATTTATGAATATAATGAATGAGAGTTCTGGTACCTCCTGTCTTTACAAATATTGGTGTTGTCAGTATTTTTCCTTTTTAACCATTCCAATCGGTGTGTAGTGATGTTTCATTTTGGTTTTAATTTGTATATCCCTGATAGCTATAATTGGGTCATAGAAATTCTTTATACATTCTAGATGCAAGTCTCTTGTCGGATATATGTATTGAGATATTACACCTAGTCTGTGGCTTGACTGTTTTCTTTATGTCTTTTGATGAATAGAAGTTTTAAATTTTGACAAGGTCAAATTTATTTTTTTCTTTTGTTTGATATTTTTTCTCTCCAATTTAACCCCAAGATTTCAGATATTCTGCTCTATTATATAAACTTTATATTTTTATATTTGTGATCTACCTTGAATTGATATGTATGTTGTGAATTATGGATCAGGGTTCTTTTTTTCCCCCATACAAGTATCCAGTCATTGTAACACTGTTTATTGAAAGAATTATCCTTTCCTCATTAAATTACCTTGCCAATTAGTAAAAAATCAATTAACCATAATGGTGGATCTGTTTCTGGACTTTCTGTTTGGTTACACTGAAATGTTTGTCCATCCTTGCACTCACTCATACCATACTGCCTTGAATTACTGTAGCTGCATAGATGCTCCTTAAGTTGGGATTACATTGTAATAAACGCAATGTAAGTT
>gi|769468216|ref|NM_003246.3| Homo sapiens thrombospondin 1 (THBS1), mRNA
AGCCGCTGCGCCCGAGCTGGCCTGCGAGTTCAGGGCTCCTGTCGCTCTCCAGGAGCAACCTCTACTCCGGACGCACAGGCATTCCCCGCGCCCCTCCAGCCCTCGCCGCCCTCGCCACCGCTCCCGGCCGCCGCGCTCCGGTACACACAGGATCCCTGCTGGGCACCAACAGCTCCACCATGGGGCTGGCCTGGGGACTAGGCGTCCTGTTCCTGATGCATGTGTGTGGCACCAACCGCATTCCAGAGTCTGGCGGAGACAACAGCGTGTTTGACATCTTTGAACTCACCGGGGCCGCCCGCAAGGGGTCTGGGCGCCGACTGGTGAAGGGCCCCGACCCTTCCAGCCCAGCTTTCCGCATCGAGGATGCCAACCTGATCCCCCCTGTGCCTGATGACAAGTTCCAAGACCTGGTGGATGCTGTGCGGGCAGAAAAGGGTTTCCTCCTTCTGGCATCCCTGAGGCAGATGAAGAAGACCCGGGGCACGCTGCTGGCCCTGGAGCGGAAAGACCACTCTGGCCAGGTCTTCAGCGTGGTGTCCAATGGCAAGGCGGGCACCCTGGACCTCAGCCTGACCGTCCAAGGAAAGCAGCACGTGGTGTCTGTGGAAGAAGCTCTCCTGGCAACCGGCCAGTGGAAGAGCATCACCCTGTTTGTGCAGGAAGACAGGGCCCAGCTGTACATCGACTGTGAAAAGATGGAGAATGCTGAGTTGGACGTCCCCATCCAAAGCGTCTTCACCAGAGACCTGGCCAGCATCGCCAGACTCCGCATCGCAAAGGGGGGCGTCAATGACAATTTCCAGGGGGTGCTGCAGAATGTGAGGTTTGTCTTTGGAACCACACCAGAAGACATCCTCAGGAACAAAGGCTGCTCCAGCTCTACCAGTGTCCTCCTCACCCTTGACAACAACGTGGTGAATGGTTCCAGCCCTGCCATCCGCACTAACTACATTGGCCACAAGACAAAGGACTTGCAAGCCATCTGCGGCATCTCCTGTGATGAGCTGTCCAGCATGGTCCTGGAACTCAGGGGCCTGCGCACCATTGTGACCACGCTGCAGGACAGCATCCGCAAAGTGACTGAAGAGAACAAAGAGTTGGCCAATGAGCTGAGGCGGCCTCCCCTATGCTATCACAACGGAGTTCAGTACAGAAATAACGAGGAATGGACTGTTGATAGCTGCACTGAGTGTCACTGTCAGAACTCAGTTACCATCTGCAAAAAGGTGTCCTGCCCCATCATGCCCTGCTCCAATGCCACAGTTCCTGATGGAGAATGCTGTCCTCGCTGTTGGCCCAGCGACTCTGCGGACGATGGCTGGTCTCCATGGTCCGAGTGGACCTCCTGTTCTACGAGCTGTGGCAATGGAATTCAGCAGCGCGGCCGCTCCTGCGATAGCCTCAACAACCGATGTGAGGGCTCCTCGGTCCAGACACGGACCTGCCACATTCAGGAGTGTGACAAGAGATTTAAACAGGATGGTGGCTGGAGCCACTGGTCCCCGTGGTCATCTTGTTCTGTGACATGTGGTGATGGTGTGATCACAAGGATCCGGCTCTGCAACTCTCCCAGCCCCCAGATGAACGGGAAACCCTGTGAAGGCGAAGCGCGGGAGACCAAAGCCTGCAAGAAAGACGCCTGCCCCATCAATGGAGGCTGGGGTCCTTGGTCACCATGGGACATCTGTTCTGTCACCTGTGGAGGAGGGGTACAGAAACGTAGTCGTCTCTGCAACAACCCCACACCCCAGTTTGGAGGCAAGGACTGCGTTGGTGATGTAACAGAAAACCAGATCTGCAACAAGCAGGACTGTCCAATTGATGGATGCCTGTCCAATCCCTGCTTTGCCGGCGTGAAGTGTACTAGCTACCCTGATGGCAGCTGGAAATGTGGTGCTTGTCCCCCTGGTTACAGTGGAAATGGCATCCAGTGCACAGATGTTGATGAGTGCAAAGAAGTGCCTGATGCCTGCTTCAACCACAATGGAGAGCACCGGTGTGAGAACACGGACCCCGGCTACAACTGCCTGCCCTGCCCCCCACGCTTCACCGGCTCACAGCCCTTCGGCCAGGGTGTCGAACATGCCACGGCCAACAAACAGGTGTGCAAGCCCCGTAACCCCTGCACGGATGGGACCCACGACTGCAACAAGAACGCCAAGTGCAACTACCTGGGCCACTATAGCGACCCCATGTACCGCTGCGAGTGCAAGCCTGGCTACGCTGGCAATGGCATCATCTGCGGGGAGGACACAGACCTGGATGGCTGGCCCAATGAGAACCTGGTGTGCGTGGCCAATGCGACTTACCACTGCAAAAAGGATAATTGCCCCAACCTTCCCAACTCAGGGCAGGAAGACTATGACAAGGATGGAATTGGTGATGCCTGTGATGATGACGATGACAATGATAAAATTCCAGATGACAGGGACAACTGTCCATTCCATTACAACCCAGCTCAGTATGACTATGACAGAGATGATGTGGGAGACCGCTGTGACAACTGTCCCTACAACCACAACCCAGATCAGGCAGACACAGACAACAATGGGGAAGGAGACGCCTGTGCTGCAGACATTGATGGAGACGGTATCCTCAATGAACGGGACAACTGCCAGTACGTCTACAATGTGGACCAGAGAGACACTGATATGGATGGGGTTGGAGATCAGTGTGACAATTGCCCCTTGGAACACAATCCGGATCAGCTGGACTCTGACTCAGACCGCATTGGAGATACCTGTGACAACAATCAGGATATTGATGAAGATGGCCACCAGAACAATCTGGACAACTGTCCCTATGTGCCCAATGCCAACCAGGCTGACCATGACAAAGATGGCAAGGGAGATGCCTGTGACCACGATGATGACAACGATGGCATTCCTGATGACAAGGACAACTGCAGACTCGTGCCCAATCCCGACCAGAAGGACTCTGACGGCGATGGTCGAGGTGATGCCTGCAAAGATGATTTTGACCATGACAGTGTGCCAGACATCGATGACATCTGTCCTGAGAATGTTGACATCAGTGAGACCGATTTCCGCCGATTCCAGATGATTCCTCTGGACCCCAAAGGGACATCCCAAAATGACCCTAACTGGGTTGTACGCCATCAGGGTAAAGAACTCGTCCAGACTGTCAACTGTGATCCTGGACTCGCTGTAGGTTATGATGAGTTTAATGCTGTGGACTTCAGTGGCACCTTCTTCATCAACACCGAAAGGGACGATGACTATGCTGGATTTGTCTTTGGCTACCAGTCCAGCAGCCGCTTTTATGTTGTGATGTGGAAGCAAGTCACCCAGTCCTACTGGGACACCAACCCCACGAGGGCTCAGGGATACTCGGGCCTTTCTGTGAAAGTTGTAAACTCCACCACAGGGCCTGGCGAGCACCTGCGGAACGCCCTGTGGCACACAGGAAACACCCCTGGCCAGGTGCGCACCCTGTGGCATGACCCTCGTCACATAGGCTGGAAAGATTTCACCGCCTACAGATGGCGTCTCAGCCACAGGCCAAAGACGGGTTTCATTAGAGTGGTGATGTATGAAGGGAAGAAAATCATGGCTGACTCAGGACCCATCTATGATAAAACCTATGCTGGTGGTAGACTAGGGTTGTTTGTCTTCTCTCAAGAAATGGTGTTCTTCTCTGACCTGAAATACGAATGTAGAGATCCCTAATCATCAAATTGTTGATTGAAAGACTGATCATAAACCAATGCTGGTATTGCACCTTCTGGAACTATGGGCTTGAGAAAACCCCCAGGATCACTTCTCCTTGGCTTCCTTCTTTTCTGTGCTTGCATCAGTGTGGACTCCTAGAACGTGCGACCTGCCTCAAGAAAATGCAGTTTTCAAAAACAGACTCAGCATTCAGCCTCCAATGAATAAGACATCTTCCAAGCATATAAACAATTGCTTTGGTTTCCTTTTGAAAAAGCATCTACTTGCTTCAGTTGGGAAGGTGCCCATTCCACTCTGCCTTTGTCACAGAGCAGGGTGCTATTGTGAGGCCATCTCTGAGCAGTGGACTCAAAAGCATTTTCAGGCATGTCAGAGAAGGGAGGACTCACTAGAATTAGCAAACAAAACCACCCTGACATCCTCCTTCAGGAACACGGGGAGCAGAGGCCAAAGCACTAAGGGGAGGGCGCATACCCGAGACGATTGTATGAAGAAAATATGGAGGAACTGTTACATGTTCGGTACTAAGTCATTTTCAGGGGATTGAAAGACTATTGCTGGATTTCATGATGCTGACTGGCGTTAGCTGATTAACCCATGTAAATAGGCACTTAAATAGAAGCAGGAAAGGGAGACAAAGACTGGCTTCTGGACTTCCTCCCTGATCCCCACCCTTACTCATCACCTGCAGTGGCCAGAATTAGGGAATCAGAATCAAACCAGTGTAAGGCAGTGCTGGCTGCCATTGCCTGGTCACATTGAAATTGGTGGCTTCATTCTAGATGTAGCTTGTGCAGATGTAGCAGGAAAATAGGAAAACCTACCATCTCAGTGAGCACCAGCTGCCTCCCAAAGGAGGGGCAGCCGTGCTTATATTTTTATGGTTACAATGGCACAAAATTATTATCAACCTAACTAAAACATTCCTTTTCTCTTTTTTCCTGAATTATCATGGAGTTTTCTAATTCTCTCTTTTGGAATGTAGATTTTTTTTAAATGCTTTACGATGTAAAATATTTATTTTTTACTTATTCTGGAAGATCTGGCTGAAGGATTATTCATGGAACAGGAAGAAGCGTAAAGACTATCCATGTCATCTTTGTTGAGAGTCTTCGTGACTGTAAGATTGTAAATACAGATTATTTATTAACTCTGTTCTGCCTGGAAATTTAGGCTTCATACGGAAAGTGTTTGAGAGCAAGTAGTTGACATTTATCAGCAAATCTCTTGCAAGAACAGCACAAGGAAAATCAGTCTAATAAGCTGCTCTGCCCCTTGTGCTCAGAGTGGATGTTATGGGATTCTTTTTTTCTCTGTTTTATCTTTTCAAGTGGAATTAGTTGGTTATCCATTTGCAAATGTTTTAAATTGCAAAGAAAGCCATGAGGTCTTCAATACTGTTTTACCCCATCCCTTGTGCATATTTCCAGGGAGAAGGAAAGCATATACACTTTTTTCTTTCATTTTTCCAAAAGAGAAAAAAATGACAAAAGGTGAAACTTACATACAAATATTACCTCATTTGTTGTGTGACTGAGTAAAGAATTTTTGGATCAAGCGGAAAGAGTTTAAGTGTCTAACAAACTTAAAGCTACTGTAGTACCTAAAAAGTCAGTGTTGTACATAGCATAAAAACTCTGCAGAGAAGTATTCCCAATAAGGAAATAGCATTGAAATGTTAAATACAATTTCTGAAAGTTATGTTTTTTTTCTATCATCTGGTATACCATTGCTTTATTTTTATAAATTATTTTCTCATTGCCATTGGAATAGATATCTCAGATTGTGTAGATATGCTATTTAAATAATTTATCAGGAAATACTGCCTGTAGAGTTAGTATTTCTATTTTTATATAATGTTTGCACACTGAATTGAAGAATTGTTGGTTTTTTCTTTTTTTTGTTTTGTTTTTTTTTTTTTTTTTTTTTGCTTTTGACCTCCCATTTTTACTATTTGCCAATACCTTTTTCTAGGAATGTGCTTTTTTTTGTACACATTTTTATCCATTTTACATTCTAAAGCAGTGTAAGTTGTATATTACTGTTTCTTATGTACAAGGAACAACAATAAATCATATGGAAATTTATATTTATACTTACTGTATCCATGCTTATTTGTTCTCTACTGGCTTTATGTCATGAAGTATATGCGTAAATACCATTCATAAATCAATATAGCATATACAAAAATAAATTACAGTAAGTCATAGCAACATTCACAGTTTGTATGTGATTGAGAAAGACTGAGTTGCTCAGGCCTAGGCTTAGAATTTGCTGCGTTTGTGGAATAAAAGAACAAAATGATACATTAGCCTGCCATATCAAAAACATATAAAAGAGAAATTATCCCTAAGTCAAGGGCCCCCATAAGAATAAAATTTCTTATTAAGGTCATTAGATGTCATTGAATCCTTTTCAAAGTGCAGTATGAAAACAAAGGGAAAAACACTGAAGCACACGCAACTCTCACAGCGACATTTTCTGACCCACGAATGATGCCTTGGGTGGGCAACACGATTGCATGTTGTGGAGACACTTCGGAAGTAAATGTGGATGAGGGAGGAGCTGTCCTTGCAATGTTGAGCCAAGCATTACAGATACCTCCTCTTGAAGAAGGAATAATAAGTTTAATCAAAAAAGAAGACTAAAAAATGTAAAATTTGGAAGGAATCCATAAATGCGTGTGTGTCTAAATACAAATTATCATGTGAAGAAAAGGCCCAAGTGTACCAATAAGCAGACCTTGATTTTTGGATGGGCTAATTATGAATGTGGAATACTGACCAGTTAATTTCCAGTTTTAATGAAAACAGATCAAAGAAGAAATTTTATGAGTAGGTTAAAGGTCTGGCTTTGAGGTCTATTAAACACTAGAAAGGACTGGCTGGGTGAGATAAAATCTTCCTTGTTGATTTTCACTCTCATTCTATAAATACTCATCTTTCTGAGTAGCCATGATCACATACAAATGTAAATTGCCAAATCATTTTATAGTACCAAGGTGAAGAAGCAGGAACTAGAAAGTGTTGATAATAGCTGTGGAGTTAGGAAAACTGATGTGAAGGAAATAATTCTTTGAAATGGCAAAGAATTAAATACCATCATTCATTATCAGAAGAGTTCAACGTTTGAAGTGCTGGGAGATAATTCTAATTCATTCTTGGATAGTGAAGCAAAACTGATTGAAAATACCAAGATAAGACAGAAAAAGTGACTGGAAAGAGGAGCTTTTCTTCCAGGCATGTTCCAGTTTCACCCTAAGACTGACCTTCAAATAATCAGGTTGTACTGAAATAAAGGACTTGTTAAAAATTAAAATTATGTCATCGAGATGATAGCTTTTTTCCTCCTCCAACAGTTTATTGTCATGTGTTGTGGGAGAGCTCGAGTGAAGAGCAATAAACTCCAGGTCTTATAAGAATGTACATACAATAAAGGTGGTGCCAGCAGTTTTTTTTTTTCTAAAGAGTCACATGTAGAAAAGCCTCCAGTATTAAGCTCCTGAATTCATTCCTTAAATAAATTGGCTCTCTCTCTCTTCTATAAAAAAAAAAAAAA
>gi|749502315|ref|NM_001304382.1| Homo sapiens glycophorin B (MNS blood group) (GYPB), transcript variant 2, mRNA
GCAGTTGTCTTTGGTAGTTTTTTTGCACTAACTTCAGGAACCAGCTCATGATCTCAGGATGTATGGAAAAATAATCTTTGTATTACTATTGTCAGATGGAGCCAACCCTGAAAATTCTGGGAGAAGAGGACAGAAGGCAGAGGGAAGAGCAAGAGCAAAAATTCTGAAACAGGAGAAATTGTGAGCATATCAGCATTAAGTACCACTGAGGTGGCAATGCACACTTCAACCTCTTCTTCAGTCACAAAGAGTTACATCTCATCACAGACAAATGGAGAAACGGGACAACTTGTCCATCGTTTCACTGTACCAGCTCCTGTAGTGATAATACTCATTATTTTGTGTGTGATGGCTGGTATTATTGGAACGATCCTCTTAATTTCTTACACTATTCGCCGACTGATAAAGGCATGAGGATGTGGCCTGCATGCTGCCTGATCTTGCCTAGAACCGGCTGCACCTGCTGTTCTCTTGTTTATGCAAACTGGCTGCACCTGCTATTCCTTTGCTTATGCCCCTACCCCTGGCTATCCTAATTCCCTGTTCTCCTGCCTCACTATTACTGTATTCTCTACTTCTAAATAAAAATAAAACAAAATACAAACCGTT
>gi|695917252|ref|NM_001302272.1| Homo sapiens peroxiredoxin 3 (PRDX3), transcript variant 3, mRNA
AGAGGGCCCGCTCACCACCCCGTAGGCCCCGCCCCTGCGTCTCTGCCCGCCCCGTGGCGCCCGAGTGCACTGAAGATGGCGGCTGCTGTAGGACGGTTGCTCCGAGCGTCGGTTGCCCGACATGTGAGTGCCATTCCTTGGGGCATTTCTGCCACTGCAGCCCTCAGGCCTGCTGCATGTGGAAGAACGAGCTTGACAAATTTATTGTGTTCTGGTTCCAGTCAAGCAAAATTATTCAGCACCAGTTCCTCATGCCATGCACCTGCTGTCACCCAGCATGCACCCTATTTTAAGGGTACAGCCGTTGTCAATGGAGAGTTCAAAGACCTAAGCCTTGATGACTTTAAGGGGAAATATTTGGTGCTTTTCTTCTATCCTTTGGATTTCACCTTTGTGTGTCCTACAGAAATTGTTGCTTTTAGTGACAAAGCTAACGAATTTCACGACGTGAACTGTGAAGTTGTCGCAGTCTCAGTGGATTCCCACTTTAGCCATCTTGCCTGGATAAATACACCAAGAAAGAATGGTGGTTTGGGCCACATGAACATCGCACTCTTGTCAGACTTAACTAAGCAGATTTCCCGAGACTACGGTGTGCTGTTAGAAGGTTCTGGTCTTGCACTAAGATCAAGCCAAGTCCAGCTGCTTCCAAAGAGTACTTTCAGAAGGTAAATCAGTAGATCACCCATGTGTATCTGCACCTTCTCAACTGAGAGAAGAACCACAGTTGAAACCTGCTTTTATCATTTTCAAGATGGTTATTTGTAGAAGGCAAGGAACCAATTATGCTTGTATTCATAAGTATTACTCTAAATGTTTTGTTTTTGTAATTCTGGCTAAGACCTTTTAAACATGGTTAGTTGCTAGTACAAGGAATCCTTTATTGGTAACATCTTGGTGGCTGGCTAGCTAGTTTCTACAGAACATAATTTGCCTCTATAGAAGGCTATTCTTAGATCATGTCTCAATGGAAACACTCTTCTTTCTTAGCCTTACTTGAATCTTGCCTATAATAAAGTAGAGCAACACACATTGAAAGCTTCTGATCAACGGTCCTGAAATTTTCATCTTGAATGTCTTTGTATTAAACTGAATTTTCTTTTAAGCTAACAAAGATCATAATTTTCAATGATTAGCCGTGTAACTCCTGCAATGAATGTTTATGTGATTGAAGCAAATGTGAATCGTATTATTTTAAAAAGTGGCAGAGTGACTTAACTGATCATGCATGATCCCTCATCCCTGAAATTGAGTTTATGTAGTCATTTTACTTATTTTATTCATTAGCTAACTTTGTCTATGTATATTTCTAGATATTGATTAGTGTAATCGATTATAAAGGATATTTATCAAATCCAGGGATTGCATTTTGAAATTATAATTATTTTCTTTGCTGAAGTATTCATTGTAAAACATACAAAATAAACATATTTTAAAACATTTGCATTTTACCACCAGTAAAAAAAAAAAAAAAA
>gi|683523919|ref|NM_001301718.1| Homo sapiens C-C motif chemokine receptor 7 (CCR7), transcript variant 5, mRNA
AGGAGAAGGTGCCTTAAACAGGTTCCCACGCATTTCCTGGCGCTATTGAGCTTGGAGCTGCCAAGGGCCTGCCTTCACTTGTGGCATCGCAGTTACTGACTCTCCAGTGGGCCAGGCCCTACCTAGCTGGGACCTGAGGGTCAGGATACGGGAAGAGGGCTACTGCCGCCCTGACTTGTAGGGAAACCAATGAAAAGCGTGCTGGTGGTGGCTCTCCTTGTCATTTTCCAGGTATGCCTGTGTCAAGATGAGGTCACGGACGATTACATCGGAGACAACACCACAGTGGACTACACTTTGTTCGAGTCTTTGTGCTCCAAGAAGGACGTGCGGAACTTTAAAGCCTGGTTCCTCCCTATCATGTACTCCATCATTTGTTTCGTGGGCCTACTGGGCAATGGGCTGGTCGTGTTGACCTATATCTATTTCAAGAGGCTCAAGACCATGACCGATACCTACCTGCTCAACCTGGCGGTGGCAGACATCCTCTTCCTCCTGACCCTTCCCTTCTGGGCCTACAGCGCGGCCAAGTCCTGGGTCTTCGGTGTCCACTTTTGCAAGCTCATCTTTGCCATCTACAAGATGAGCTTCTTCAGTGGCATGCTCCTACTTCTTTGCATCAGCATTGACCGCTACGTGGCCATCGTCCAGGCTGTCTCAGCTCACCGCCACCGTGCCCGCGTCCTTCTCATCAGCAAGCTGTCCTGTGTGGGCATCTGGATACTAGCCACAGTGCTCTCCATCCCAGAGCTCCTGTACAGTGACCTCCAGAGGAGCAGCAGTGAGCAAGCGATGCGATGCTCTCTCATCACAGAGCATGTGGAGGCCTTTATCACCATCCAGGTGGCCCAGATGGTGATCGGCTTTCTGGTCCCCCTGCTGGCCATGAGCTTCTGTTACCTTGTCATCATCCGCACCCTGCTCCAGGCACGCAACTTTGAGCGCAACAAGGCCATCAAGGTGATCATCGCTGTGGTCGTGGTCTTCATAGTCTTCCAGCTGCCCTACAATGGGGTGGTCCTGGCCCAGACGGTGGCCAACTTCAACATCACCAGTAGCACCTGTGAGCTCAGTAAGCAACTCAACATCGCCTACGACGTCACCTACAGCCTGGCCTGCGTCCGCTGCTGCGTCAACCCTTTCTTGTACGCCTTCATCGGCGTCAAGTTCCGCAACGATCTCTTCAAGCTCTTCAAGGACCTGGGCTGCCTCAGCCAGGAGCAGCTCCGGCAGTGGTCTTCCTGTCGGCACATCCGGCGCTCCTCCATGAGTGTGGAGGCCGAGACCACCACCACCTTCTCCCCATAGGCGACTCTTCTGCCTGGACTAGAGGGACCTCTCCCAGGGTCCCTGGGGTGGGGATAGGGAGCAGATGCAATGACTCAGGACATCCCCCCGCCAAAAGCTGCTCAGGGAAAAGCAGCTCTCCCCTCAGAGTGCAAGCCCCTGCTCCAGAAGATAGCTTCACCCCAATCCCAGCTACCTCAACCAATGCCAAAAAAAGACAGGGCTGATAAGCTAACACCAGACAGACAACACTGGGAAACAGAGGCTATTGTCCCCTAAACCAAAAACTGAAAGTGAAAGTCCAGAAACTGTTCCCACCTGCTGGAGTGAAGGGGCCAAGGAGGGTGAGTGCAAGGGGCGTGGGAGTGGCCTGAAGAGTCCTCTGAATGAACCTTCTGGCCTCCCACAGACTCAAATGCTCAGACCAGCTCTTCCGAAAACCAGGCCTTATCTCCAAGACCAGAGATAGTGGGGAGACTTCTTGGCTTGGTGAGGAAAAGCGGACATCAGCTGGTCAAACAAACTCTCTGAACCCCTCCCTCCATCGTTTTCTTCACTGTCCTCCAAGCCAGCGGGAATGGCAGCTGCCACGCCGCCCTAAAAGCACACTCATCCCCTCACTTGCCGCGTCGCCCTCCCAGGCTCTCAACAGGGGAGAGTGTGGTGTTTCCTGCAGGCCAGGCCAGCTGCCTCCGCGTGATCAAAGCCACACTCTGGGCTCCAGAGTGGGGATGACATGCACTCAGCTCTTGGCTCCACTGGGATGGGAGGAGAGGACAAGGGAAATGTCAGGGGCGGGGAGGGTGACAGTGGCCGCCCAAGGCCCACGAGCTTGTTCTTTGTTCTTTGTCACAGGGACTGAAAACCTCTCCTCATGTTCTGCTTTCGATTCGTTAAGAGAGCAACATTTTACCCACACACAGATAAAGTTTTCCCTTGAGGAAACAACAGCTTTAAAAGAAAAAGAAAAAAAAAGTCTTTGGTAAATGGCAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|683523915|ref|NM_001301716.1| Homo sapiens C-C motif chemokine receptor 7 (CCR7), transcript variant 3, mRNA
CTCTAGATGAGTCAGTGGAGGGCGGGTGGAGCGTTGAACCGTGAAGAGTGTGGTTGGGCGTAAACGTGGACTTAAACTCAGGAGCTAAGGGGTAATTCAGTGAAAAAGGGGAATGAGCGGTGGGGAGCTCTGTTGCAACAGGGTCCAATCGCAGCAGGACTACAAATGCCCGAGCGCAGGCTGGGAACGAGGGGACAGCGGCTGCCTGTCCCCAGAATAGAAAATGCAGCTAGGAAGCCCTCTTTGAGTGGACAGCGGAGGACTGGACTGCCAGGCCAAGCATCAGGGGCTTCATCCTCAGGGCCGGTTAGAGCCCCTGAGGATTTAGGAGGAAGGGAAACCAATGAAAAGCGTGCTGGTGGTGGCTCTCCTTGTCATTTTCCAGGTATGCCTGTGTCAAGATGAGGTCACGGACGATTACATCGGAGACAACACCACAGTGGACTACACTTTGTTCGAGTCTTTGTGCTCCAAGAAGGACGTGCGGAACTTTAAAGCCTGGTTCCTCCCTATCATGTACTCCATCATTTGTTTCGTGGGCCTACTGGGCAATGGGCTGGTCGTGTTGACCTATATCTATTTCAAGAGGCTCAAGACCATGACCGATACCTACCTGCTCAACCTGGCGGTGGCAGACATCCTCTTCCTCCTGACCCTTCCCTTCTGGGCCTACAGCGCGGCCAAGTCCTGGGTCTTCGGTGTCCACTTTTGCAAGCTCATCTTTGCCATCTACAAGATGAGCTTCTTCAGTGGCATGCTCCTACTTCTTTGCATCAGCATTGACCGCTACGTGGCCATCGTCCAGGCTGTCTCAGCTCACCGCCACCGTGCCCGCGTCCTTCTCATCAGCAAGCTGTCCTGTGTGGGCATCTGGATACTAGCCACAGTGCTCTCCATCCCAGAGCTCCTGTACAGTGACCTCCAGAGGAGCAGCAGTGAGCAAGCGATGCGATGCTCTCTCATCACAGAGCATGTGGAGGCCTTTATCACCATCCAGGTGGCCCAGATGGTGATCGGCTTTCTGGTCCCCCTGCTGGCCATGAGCTTCTGTTACCTTGTCATCATCCGCACCCTGCTCCAGGCACGCAACTTTGAGCGCAACAAGGCCATCAAGGTGATCATCGCTGTGGTCGTGGTCTTCATAGTCTTCCAGCTGCCCTACAATGGGGTGGTCCTGGCCCAGACGGTGGCCAACTTCAACATCACCAGTAGCACCTGTGAGCTCAGTAAGCAACTCAACATCGCCTACGACGTCACCTACAGCCTGGCCTGCGTCCGCTGCTGCGTCAACCCTTTCTTGTACGCCTTCATCGGCGTCAAGTTCCGCAACGATCTCTTCAAGCTCTTCAAGGACCTGGGCTGCCTCAGCCAGGAGCAGCTCCGGCAGTGGTCTTCCTGTCGGCACATCCGGCGCTCCTCCATGAGTGTGGAGGCCGAGACCACCACCACCTTCTCCCCATAGGCGACTCTTCTGCCTGGACTAGAGGGACCTCTCCCAGGGTCCCTGGGGTGGGGATAGGGAGCAGATGCAATGACTCAGGACATCCCCCCGCCAAAAGCTGCTCAGGGAAAAGCAGCTCTCCCCTCAGAGTGCAAGCCCCTGCTCCAGAAGATAGCTTCACCCCAATCCCAGCTACCTCAACCAATGCCAAAAAAAGACAGGGCTGATAAGCTAACACCAGACAGACAACACTGGGAAACAGAGGCTATTGTCCCCTAAACCAAAAACTGAAAGTGAAAGTCCAGAAACTGTTCCCACCTGCTGGAGTGAAGGGGCCAAGGAGGGTGAGTGCAAGGGGCGTGGGAGTGGCCTGAAGAGTCCTCTGAATGAACCTTCTGGCCTCCCACAGACTCAAATGCTCAGACCAGCTCTTCCGAAAACCAGGCCTTATCTCCAAGACCAGAGATAGTGGGGAGACTTCTTGGCTTGGTGAGGAAAAGCGGACATCAGCTGGTCAAACAAACTCTCTGAACCCCTCCCTCCATCGTTTTCTTCACTGTCCTCCAAGCCAGCGGGAATGGCAGCTGCCACGCCGCCCTAAAAGCACACTCATCCCCTCACTTGCCGCGTCGCCCTCCCAGGCTCTCAACAGGGGAGAGTGTGGTGTTTCCTGCAGGCCAGGCCAGCTGCCTCCGCGTGATCAAAGCCACACTCTGGGCTCCAGAGTGGGGATGACATGCACTCAGCTCTTGGCTCCACTGGGATGGGAGGAGAGGACAAGGGAAATGTCAGGGGCGGGGAGGGTGACAGTGGCCGCCCAAGGCCCACGAGCTTGTTCTTTGTTCTTTGTCACAGGGACTGAAAACCTCTCCTCATGTTCTGCTTTCGATTCGTTAAGAGAGCAACATTTTACCCACACACAGATAAAGTTTTCCCTTGAGGAAACAACAGCTTTAAAAGAAAAAGAAAAAAAAAGTCTTTGGTAAATGGCAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|669174624|ref|NM_001301248.1| Homo sapiens ELKS/RAB6-interacting/CAST family member 1 (ERC1), transcript variant zeta, mRNA
ATATGGTGTAAGATACTTCTTCAAGATTGGACAGCTGGGGACCTTCTTCTGATTAACCTTAAACCAACTTGTAGCCATAGAGACACCTCACAAGGTTCCCATTTTTGTTGTTGTTGTTGTTGATTTTCTGCTCACACCTTTCCTGACCTTGCAACCATGTATGGAAGTGCCCGCTCTGTTGGGAAGGTGGAGCCGAGCAGCCAGAGCCCTGGGCGTTCACCCAGGCTTCCACGTTCCCCTCGCTTGGGTCACCGTCGAACCAACAGTACGGGAGGGAGTTCGGGAAGCAGTGTTGGAGGTGGCAGTGGGAAAACCCTTTCAATGGAAAATATACAATCTTTAAATGCTGCCTATGCCACCTCTGGCCCTATGTATCTAAGTGACCATGAAAATGTGGGTTCAGAAACACCTAAAAGCACCATGACACTTGGCCGTTCTGGGGGACGTCTGCCTTACGGTGTTCGGATGACTGCTATGGGTAGTAGCCCCAATATAGCTAGCAGTGGGGTTGCTAGTGACACCATAGCATTTGGAGAGCATCACCTCCCTCCTGTGAGTATGGCATCCACTGTACCTCACTCCCTTCGTCAGGCGAGAGATAACACAATCATGGATCTGCAGACACAGCTGAAGGAAGTATTAAGAGAAAATGATCTCTTGCGGAAGGATGTGGAAGTAAAGGAGAGCAAATTGAGTTCTTCAATGAATAGCATCAAGACCTTCTGGAGCCCAGAGCTGAAGAAGGAACGAGCCCTGAGAAAAGATGAAGCTTCCAAAATCACCATTTGGAAGGAACAGTACAGAGTTGTACAGGAGGAAAACCAGCACATGCAGATGACAATCCAGGCTCTCCAGGATGAATTGCGGATCCAGAGGGACCTGAATCAGCTGTTTCAGCAGGATAGTAGCAGCAGGACTGGCGAACCTTGTGTAGCAGAGCTGACAGAGGAGAACTTTCAGAGGCTTCATGCTGAGCATGAGCGGCAGGCCAAAGAGCTGTTTCTTCTTCGAAAGACATTGGAGGAAATGGAGCTGCGTATTGAGACTCAAAAGCAGACCCTAAATGCTCGGGATGAATCCATTAAGAAGCTTCTGGAAATGTTGCAGAGCAAAGGACTTTCTGCCAAGGCTACCGAGGAAGACCATGAGAGAACAAGACGACTGGCAGAGGCAGAGATGCACGTTCATCACCTAGAAAGCCTTTTGGAGCAGAAGGAAAAAGAGAACAGTATGTTGAGAGAGGAGATGCATCGAAGGTTTGAGAATGCTCCTGATTCTGCCAAAACAAAAGCTCTGCAAACTGTTATTGAGATGAAGGATTCAAAAATTTCCTCTATGGAGCGTGGGCTTCGAGACCTGGAAGAGGAAATTCAGATGCTGAAATCGAATGGTGCTTTGAGTACTGAGGAAAGGGAAGAAGAAATGAAGCAAATGGAAGTGTATCGGAGCCATTCTAAATTTATGAAAAATAAGGTAGAACAACTGAAGGAGGAACTAAGTTCGAAAGAGGCTCAATGGGAGGAGCTGAAAAAGAAAGCGGCTGGTCTTCAGGCTGAGATTGGCCAGGTGAAACAGGAGCTGTCCAGAAAGGACACAGAACTACTCGCCCTGCAGACAAAGCTAGAAACACTCACAAACCAGTTCTCAGATAGTAAACAGCACATTGAAGTGTTGAAGGAGTCCTTGACTGCTAAGGAGCAGAGGGCTGCCATCCTGCAGACTGAGGTGGATGCTCTCCGATTGCGTTTGGAAGAGAAGGAAACCATGTTGAATAAAAAGACAAAACAAATTCAGGATATGGCTGAAGAGAAGGGGACACAAGCTGGAGAGATACATGACCTCAAGGACATGTTGGATGTGAAGGAGCGGAAGGTTAATGTTCTTCAGAAGAAGATTGAAAATCTTCAAGAGCAGCTTAGAGACAAGGAAAAGCAGATGAGCAGCTTGAAAGAACGGGTCAAATCCTTGCAGGCTGACACCACCAACACTGACACTGCCTTGACAACTTTGGAGGAGGCCCTTGCAGAGAAAGAGCGGACAATTGAACGCTTAAAGGAGCAGAGGGACAGAGATGAGCGAGAGAAGCAAGAGGAAATTGATAACTACAAAAAAGATCTTAAAGACTTGAAGGAAAAAGTCAGCCTGTTGCAAGGCGACCTTTCAGAGAAAGAGGCTTCACTTTTGGATCTGAAAGAGCATGCTTCTTCTCTGGCATCCTCAGGACTGAAAAAGGACTCACGGCTTAAGACACTAGAGATTGCTTTGGAGCAGAAGAAGGAGGAGTGTCTGAAAATGGAATCACAATTGAAAAAGGCACATGAGGCAGCATTGGAAGCCAGAGCCAGTCCAGAGATGAGTGACCGAATACAGCACTTGGAGAGAGAGATCACCAGGTACAAAGATGAATCTAGCAAGGCCCAGGCAGAAGTTGATCGACTCTTAGAAATCTTGAAGGAGGTGGAAAATGAGAAGAATGACAAAGATAAGAAGATAGCTGAGTTGGAAAGGCAAGTGAAAGACCAGAATAAGAAGGTAGCAAATCTGAAGCACAAGGAACAGGTGGAAAAAAAGAAGAGTGCACAAATGTTAGAGGAGGCGCGACGACGGGAGGACAATCTCAACGACAGCTCTCAGCAGCTACAGGACAGTCTCCGTAAGAAGGATGACAGGATTGAAGAGCTGGAAGAAGCACTAAGAGAAAGTGTACAGATAACTGCAGAGCGGGAAATGGTGCTAGCACAAGAGGAATCAGCCAGGACCAATGCTGAAAAACAGGTGGAGGAGTTACTGATGGCCATGGAGAAGGTAAAGCAGGAACTAGAATCCATGAAAGCAAAGCTGTCCTCCACCCAGCAGTCTCTGGCAGAAAAGGAAACTCACTTGACTAATCTTCGGGCAGAGAGAAGGAAACACTTAGAGGAAGTTCTGGAGATGAAGCAAGAAGCTCTTCTGGCTGCCATTAGTGAAAAAGACGCCAATATAGCTCTCTTGGAGCTTTCGTCCTCTAAGAAGAAGACCCAAGAGGAAGTGGCTGCCCTGAAGCGGGAGAAGGATCGTCTGGTACAGCAGCTTAAGCAGCAGACGCAAAATCGAATGAAGCTAATGGCCGACAACTACGAGGATGACCACTTCAAATCCTCCCATTCCAATCAAACAAATCACAAGCCCTCCCCAGACCAGATCATCCAGCCCCTCTTAGAACTTGACCAAAATAGAAGTAAATTAAAGTTGTACATTGGACACCTGACAACCCTCTGCCATGACCGAGACCCCCTGATCCTCCGTGGACTCACTCCACCAGCTTCCTATAACTTGGACGATGACCAGGCGGCTTGGGAGAATGAGCTGCAGAAGATGACCCGGGGGCAGAATCCGTTGCATCCCAAAGCCATGGAAAAACTGCCTTTTTTCATGTGATGCTCATGCTTCAGGATGAGTTAGAGAAAGGTGAACGGGACAATGCAGAACTGCAGGAGTTTGCCAACGCCATTCTTCAGCAGATAGCAGACCATTGTCCCGACATCCTAGAGCAAGTGGTCAACGCCCTGGAAGAGTCCTCTTGACCCTGCTTTATGGGGAAGCCTGAGGTAGTCAACCCAGGAGCCAAGAAAAGAGAACTACGAGGAACAGGTGCCCGGAACCTTCTTGGCACCAAACACTACAAACTTCATCCCAACTTGCTCACTTGAAGAAGTGTGATTCCAGCACCGTTTCTACATCTGCCATCTTACTCTGCCTTTCTGCTTTGGATGTGGTCTCTACACTAACCTTCTTGATGTCCAGGGTAGATAAAGGGTCGAATCTCTCTGAAGAACTGCCACCTGGTCATCAGCAGTGGAGAACTGTGGGAGCTGGTGGCTCTGCCCTGACAGAGAGCCATGGAGCAGAGGAGCCTCTCACCTCCTGTCCTCTGACATGAGAATGAAACCAGGAATGGACTTGGAGTTCAACAGGCTGAGAGGATGCCTCCAATGGACCAGAGAGCTGAGTGTTCTAATATCACAATAGGTGCTTTCTCCTAAAAGGGCAAAAAACAATCTCAAAAAGATTAGAAAAAGAGAAGGGGGGAAGGGAAGAGAAAATCGACTCTTCTTTTTACTGTCTCTTCTGCTTACTTTCCACATGAGATGCTTTGTACCGGGGAGCTGTGAGCAGGCCTCACGATGGCTTGGGAGCACTCGTTCTCCCAAGGTCTGAGTCTTCATCCAGCCCTGCCTGTCTGTCGCAGCCTTCCTCACTCTGTTCCTCGGCCAGTTAACAAGAAGATGGTGTGAGGTGTTCTCCACCAGTCTCTCCTGTTTGAGACTGTTGACGTTATCATACTGAGGTGTTAGATCAAATATCTCTAATTGAAGAACATGTGAGGTTGAAAGAGCACCAGCCAGGGCAACATAGCGTGACCCTGTCTCTACAAAAAATTAAAAAGAGAACATACAAAGTTGACATATGAGACCCTGTTGTCCCCGCCTGCAGCTTTGCCCCAGTAACAGATGCCCGTTGCTCTTGGGCTGGTTTCCCCTGAACACCTCCAAGAGGCTGCCTGCCTTGCCAGCACCCGTGTCCTGAGCTCCTGCAGCCCAGTGGCTGCTGAAGTTGTGATCCCTCACTCACCCTGCTAGCTTTGCCCTTGACTCGTCTTCTCTGAACCTCAGCCTCGTGCATTGCCTGGAACCTTCTTCTAGCATAAATGAAGGTTTTTCCTCCTACACACATTCCTTCCTCGGTTATTTCATTCAGAGAATATTTATGAAATGCCTACTGTGTGCAAGTCATCCATCCTTGAAAAGGCCACTTCTCAGTGAGGGAGAGATGTAGTGGATTCTGTGAGACATACCTGCTGGAGTTGAAGCAGTAAATAGCATGTCCTTCCCCTCCCCGATCTTAAGGTGTGTTTTCTAGAAAAGTTCCCTAATGGAATTCATGAGTTTGGGGGTCTCAGTCACCCGCTTGCCTGTAGGATTCCATTTGATGATTCTGGATTTTTGCTGTTTGTTATTGCCCTTAGAGGGGCTCTGAGTATCTACTTGTGGGTGGCCATTTCCTGACATCTGCATGTACCTCGTGGAATTCAGCCAGCTTCATGTTGCAAATCAGAAAGCTGACCCCAAGACTGCAAATCAATGAAGGTATTGGCATTGTTAAGGACGTAGCGTAGACAACAGCAGTCATAAATAATTAGGCAGGAACTTAACCCAAATCTAGTTCTTTGACCACCTCTACCACCAGAACCCAGCAGACACTCACATCTCCTGATAAGAGTTGCTGGACTCGATGTTTTTGTTTTGCATTTTCTCCTCTCCTTCCCCACTTACTCAGAGAATTTAAAGTCTGTAGAGTCAGCACAGCCCCATCAGTCCAGGAACTTCCCACCACCAGCCCTTGACTGTCCCATTAACTGACATGGTCAGATTTCCAGCTCCCCCTACTCCCTGCTGTGAAACAATCCCTCTCCCTGTGAGAGGAAACTGTGGAGCGTTTCTTATCGAAGGTTAAATGGACTCTGCTCATAAACCTCTTACTGAGATGCTTCCTGATAGCCAGGCTGGCCAGAGAGGGGTGCAGGGGTTAGATAGTAAGTGGTGGTCGTTTGTGGTCAGTTACCTCAATTCTGTTCATTGCAGTGCCCGTAAACCATGTAGAAAGCTCCCAGCACTGAAAGGCAGGAGTGTTAGCATCTCGCTTTATCCACCATAACGTAAAGAACTGCGGTGTGATAACAGCCTTCACGGGGCCACGGTGGAACCAAGACAGCAGGCGAGGCCATGCCTAAACAAGTGGTCTGGCACGGGCACTGGCCAGCTGCTCTCTCCAAGCAGGTGGCCCAGATCCCACCCACGTGGACTTTCTCATCAGGTGCAGCGCCTGCCACTCTCAGCCACTGGGTGTGTCACTCTCCTCTTCATCTCAGCATTCTCCATCACTTCCCCTCCAGAAAAACGGATGGAAGGAAGCCCTCTGTGACACTGCTTCTGAGAAGAAGCATTTCCGGGACCGATATCATCTGTCTGGTCTCTGTGAACAGCAAGGAATCTTCTTGACCGTTCTTGGGCACTGGAGGCTGGCTAGGAGTTCAGTAATAAACGTGGCCTTCGTGCTGTAGGGCAGAGTGGATGCAGTTTGTAGCTTTCAGAGTGTCTCATTGAGTCTAGATCATTGAACCAACACTTAACCAAATGTCCCACTCCCATCACACTAGGACTTGTCATTCCATGCCCCTCTCCTAGTGGTCATGGTTTCATATGGGCATACAACTGCTACTGAAGTTATATAGCCTTGAAAACTCAGTGCAGGTTGCCCTTAATTTTCCCCAAACCCCTCCATCGGCAAGTCTAGTTGCCCTTTAGCACCTAAAGATCTGCACCCCAAACCAATGTCACCATAAAGAGGGCACGAAGAAGAGTGGGTGTGATCCCAACGGGGTTTTGTAACTGAAGAAGCCCAGTGTGAGCTTCTCATCTTTTCATATACCTCTAACCCCCGGTACTCATTGAATCATTGATGAGGTATCTCAATTGAGATTTGCAAGGACTTTGATACCATTTGAAATGGAAAAATTTTGAACGGGCTTTAACATGTTTAAGAAATATGGATGGGGCCGGCCACAGTGGCTCACGCCTGTAATCCCAGAACTCTGGAAGGCTGAGGCAGGCGGATCACCTGAGATCAGGAGTTCGAGGCCAGCCTGGCCAAGATGGCAAAAACCCCGACTCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGCGTACGCCTGTAATCCCAGCTACTCAGGAGGCAGGAGAATCGCTTGAGCCTGGGAGGCAGAGGCTGCGGTGAGCCGAGATCGTGTCACTGCACTCCAGCCTGGGTGACAGAGACTCCATTTAAAAAAAAAAAAAAAAAATATATATATATATATATATATATATATATGGATGGGAATCACCAAATTCATCTCAGCTCTAACCTTTTAACCTTTGTCCTTGCACTTTACAATCTAAAGATCTACCTGTGGCTCTCAGACTTCCTCACACTTGGGTTTTAGAAATAACTTGTAAAGCAGACTGGACCCAAGGCCGCCTTCAGTGTCAAGAAGGGCATTGTGACTTGCCCCTCAATTTCTGTCCATTGAAGTCTGGTTTTCCATGAGGAACTTGCGGGCTCACCCACCCCCAGAGTGAGAGAAGAGGAAGGCGAAGTCATCACAGACACGGTCTTAGCCACCTGCTGAACTAATCCCTCCGCTATTGAGGGTCAGGGTTGTGAGGCAACCATCATGTGTCACCCCAAAATATAAATGTTTCTGAGCCGCCCATCCACTGGCATTTGGATTTGCTGCCAGAGTCCTGTTCCTCCCAGAACCATCCCGCCCTCCTGTTGACCATGTTACTTGAGTGTAGGCCCGGTGTCAAGACCCTCAGAGTCTTTGAGGAAAGAGCCAAGCAGAGAAGACCGCTGCGTGGAGTGTGACACCACATGGCATTTCTCAAGCCCAGCGGACCCTGTGTCAGCAAATACCAGTAATTTAACATCTGCTCCTGGCCTCCTCTTCACCTGCCTGGGTTCGGAACTGAGGAGGAAGGATGAGAAGAGACTGCAATGCAGCAGGCACCCTCTGCAGAGTGAGGCCGCCCGTCCATCACTGCCAGCCCTGGGCTGCTCAGGAGGGGACGTGAACCACTCAAAGGAATGTCTTAAAGAGGATCTGGAGTTTCCCCCATGCAAATTAGGGAAGAATTAGGCAAGAAAAGACATACATTACAGGGAAATCCTTCTGAACAAAATGGCTGTCTTCACCTACTCTTCTTGCAAGAAAAGACATACATTACAGGGAAATCCTTCTGAACAAAATGGCTATCTTCACCTACTCTTCAGCAAAAACCGTCTCCAGACTTTTTAGTGTCAAAAATGTAACCAACTGTCTCCTGATTTTTTCCAATGTGTTTGGCAAGTGCTGTGGCCCTGTTGTAGGTACTTCTCCTGACTCTTGGGGGAGAAGTGGTTTTAGGGATTGATTTGGGGGAGCGGGTTTTTGTCCCATCCCACCTCCTCTCTTCTTTCTCTGCTTGTCGATATTGTCTGTGTGATTCAGAGAATTGGGGCAGTTACATTGTGTCTGTTGTTGAGATTATTAAAAGATTAAAACGTAGTTGTAGAAATGAAAAATTAAACAGCTGTGTTTTAAAAATGCAAACCAATATCTTGTTAATAAAGGAATTCAAGCTATGGGGCAGCCACACTCCCCTCCTCCCAGGCTGGCATAGGTGGCCCTGGGCTGGCGGCTTAGGAAGCATGGAGCACACTTAGGGTAGTGCCTGCCTGGGCAAGAGACACCTGCCGAGCAAAAGGAACGAGAATCTGGGGCTCAGAGCCTCGCAGTTGTGCCAGGATTTTCCTATACATGTTCAGGACCTCTGGGTAGAGGTTTCACAGTTTGTGACCCCATAACCACCCTCACCCGACGTGGGTTCTAGCTCAGTGTGCCTAATACTGCATGGTAACCTGGGCTTGACCCTGAAGCCCCTGCCTGGCAGGCCACAGGACCTCTCCTGCCCACTTGGTGCTATCTCTTCCAGTGACCACCCAGCACGGGTGAGCACTGGCCAGCCTGGAGCCTGCAATCCAGGTGGAACAGACTGTCCTCCATGTCAGTTCCTTCTGGCTTCAGGCCCTCAATTATTTCCCTTTGAGCTTTTTTAGACCCTAGATCTCCTAGGCCCAGGCTCTCTCTTGACCCCAGAGAAGCCACTGTCAGGAAAGGAAGTGAACCCTACTGAAGCCAGAGAATTCACCCCGGCCAAAGCAGGCCCTCTGGGTCCAGCCCCTCATTCCACACCACGCCAGTATTGCATCCATCTACTGCAGCTACACATCCTGAGGGCAGCACCACCCACTCTGGCCTGCTGGCCCATCGCAGGACTAGCCCAGGCACCTGCCGGGCATTGCAGGATATCCAGTGGGGCCTGTGACTGCTCCCTGATGCGTCAGAAGAGAAGTGTTGCACTTTAGTGGAGGAGCTGAGGAGCACCTGCCCCCTTGTAGCTTGAGTTCCTTTTGGTAACAGTAGCAGCCTCCATGGTGGTGTCTGGGATGCACGTGCACCCGCTGCCTTCAGCTGTATGTGTGTGTTCCTGCTGGAGTTGTGTTACTGACAGGATAATGACATTACAAAGAAATTGTGTTATATTCAACTTTGCCTTGATAATTATTGTAAACACTTTGTTCATTTTTTCTTTTTTATTCACAAACTAAATCCACCAGGAAATTATAAAGTTATTTAAAAACCGTAAAAAAAAAAAAAAAAAA
>gi|669174623|ref|NM_178039.3| Homo sapiens ELKS/RAB6-interacting/CAST family member 1 (ERC1), transcript variant delta, mRNA
GGGCGCGGTGACGTCGCGGGCGCCTGGGCCGTGCTGTGGCGGCGGCGGCGGCGGTAGTGGCGGCGGCGGCGGTGCCTGGGCGGCAGCAGCAGCAGTAGCGGCAGCCCTGAGGACGATATGGTGTAAGATACTTCTTCAAGATTGGACAGCTGGGGACCTTCTTCTGATTAACCTTAAACCAACTTGTAGCCATAGAGACACCTCACAAGGTTCCCATTTTTGTTGTTGTTGTTGTTGATTTTCTGCTCACACCTTTCCTGACCTTGCAACCATGTATGGAAGTGCCCGCTCTGTTGGGAAGGTGGAGCCGAGCAGCCAGAGCCCTGGGCGTTCACCCAGGCTTCCACGTTCCCCTCGCTTGGGTCACCGTCGAACCAACAGTACGGGAGGGAGTTCGGGAAGCAGTGTTGGAGGTGGCAGTGGGAAAACCCTTTCAATGGAAAATATACAATCTTTAAATGCTGCCTATGCCACCTCTGGCCCTATGTATCTAAGTGACCATGAAAATGTGGGTTCAGAAACACCTAAAAGCACCATGACACTTGGCCGTTCTGGGGGACGTCTGCCTTACGGTGTTCGGATGACTGCTATGGGTAGTAGCCCCAATATAGCTAGCAGTGGGGTTGCTAGTGACACCATAGCATTTGGAGAGCATCACCTCCCTCCTGTGAGTATGGCATCCACTGTACCTCACTCCCTTCGTCAGGCGAGAGATAACACAATCATGGATCTGCAGACACAGCTGAAGGAAGTATTAAGAGAAAATGATCTCTTGCGGAAGGATGTGGAAGTAAAGGAGAGCAAATTGAGTTCTTCAATGAATAGCATCAAGACCTTCTGGAGCCCAGAGCTGAAGAAGGAACGAGCCCTGAGAAAAGATGAAGCTTCCAAAATCACCATTTGGAAGGAACAGTACAGAGTTGTACAGGAGGAAAACCAGCACATGCAGATGACAATCCAGGCTCTCCAGGATGAATTGCGGATCCAGAGGGACCTGAATCAGCTGTTTCAGCAGGATAGTAGCAGCAGGACTGGCGAACCTTGTGTAGCAGAGCTGACAGAGGAGAACTTTCAGAGGCTTCATGCTGAGCATGAGCGGCAGGCCAAAGAGCTGTTTCTTCTTCGAAAGACATTGGAGGAAATGGAGCTGCGTATTGAGACTCAAAAGCAGACCCTAAATGCTCGGGATGAATCCATTAAGAAGCTTCTGGAAATGTTGCAGAGCAAAGGACTTTCTGCCAAGGCTACCGAGGAAGACCATGAGAGAACAAGACGACTGGCAGAGGCAGAGATGCACGTTCATCACCTAGAAAGCCTTTTGGAGCAGAAGGAAAAAGAGAACAGTATGTTGAGAGAGGAGATGCATCGAAGGTTTGAGAATGCTCCTGATTCTGCCAAAACAAAAGCTCTGCAAACTGTTATTGAGATGAAGGATTCAAAAATTTCCTCTATGGAGCGTGGGCTTCGAGACCTGGAAGAGGAAATTCAGATGCTGAAATCGAATGGTGCTTTGAGTACTGAGGAAAGGGAAGAAGAAATGAAGCAAATGGAAGTGTATCGGAGCCATTCTAAATTTATGAAAAATAAGATTGGCCAGGTGAAACAGGAGCTGTCCAGAAAGGACACAGAACTACTCGCCCTGCAGACAAAGCTAGAAACACTCACAAACCAGTTCTCAGATAGTAAACAGCACATTGAAGTGTTGAAGGAGTCCTTGACTGCTAAGGAGCAGAGGGCTGCCATCCTGCAGACTGAGGTGGATGCTCTCCGATTGCGTTTGGAAGAGAAGGAAACCATGTTGAATAAAAAGACAAAACAAATTCAGGATATGGCTGAAGAGAAGGGGACACAAGCTGGAGAGATACATGACCTCAAGGACATGTTGGATGTGAAGGAGCGGAAGGTTAATGTTCTTCAGAAGAAGATTGAAAATCTTCAAGAGCAGCTTAGAGACAAGGAAAAGCAGATGAGCAGCTTGAAAGAACGGGTCAAATCCTTGCAGGCTGACACCACCAACACTGACACTGCCTTGACAACTTTGGAGGAGGCCCTTGCAGAGAAAGAGCGGACAATTGAACGCTTAAAGGAGCAGAGGGACAGAGATGAGCGAGAGAAGCAAGAGGAAATTGATAACTACAAAAAAGATCTTAAAGACTTGAAGGAAAAAGTCAGCCTGTTGCAAGGCGACCTTTCAGAGAAAGAGGCTTCACTTTTGGATCTGAAAGAGCATGCTTCTTCTCTGGCATCCTCAGGACTGAAAAAGGACTCACGGCTTAAGACACTAGAGATTGCTTTGGAGCAGAAGAAGGAGGAGTGTCTGAAAATGGAATCACAATTGAAAAAGGCACATGAGGCAGCATTGGAAGCCAGAGCCAGTCCAGAGATGAGTGACCGAATACAGCACTTGGAGAGAGAGATCACCAGGTACAAAGATGAATCTAGCAAGGCCCAGGCAGAAGTTGATCGACTCTTAGAAATCTTGAAGGAGGTGGAAAATGAGAAGAATGACAAAGATAAGAAGATAGCTGAGTTGGAAAGGCAAGTGAAAGACCAGAATAAGAAGGTAGCAAATCTGAAGCACAAGGAACAGGTGGAAAAAAAGAAGAGTGCACAAATGTTAGAGGAGGCGCGACGACGGGAGGACAATCTCAACGACAGCTCTCAGCAGCTACAGGACAGTCTCCGTAAGAAGGATGACAGGATTGAAGAGCTGGAAGAAGCACTAAGAGAAAGTGTACAGATAACTGCAGAGCGGGAAATGGTGCTAGCACAAGAGGAATCAGCCAGGACCAATGCTGAAAAACAGGTGGAGGAGTTACTGATGGCCATGGAGAAGGTAAAGCAGGAACTAGAATCCATGAAAGCAAAGCTGTCCTCCACCCAGCAGTCTCTGGCAGAAAAGGAAACTCACTTGACTAATCTTCGGGCAGAGAGAAGGAAACACTTAGAGGAAGTTCTGGAGATGAAGCAAGAAGCTCTTCTGGCTGCCATTAGTGAAAAAGACGCCAATATAGCTCTCTTGGAGCTTTCGTCCTCTAAGAAGAAGACCCAAGAGGAAGTGGCTGCCCTGAAGCGGGAGAAGGATCGTCTGGTACAGCAGCTTAAGCAGCAGACGCAAAATCGAATGAAGCTAATGGCCGACAACTACGAGGATGACCACTTCAAATCCTCCCATTCCAATCAAACAAATCACAAGCCCTCCCCAGACCAGATCATCCAGCCCCTCTTAGAACTTGACCAAAATAGAAGTAAATTAAAGTTGTACATTGGACACCTGACAACCCTCTGCCATGACCGAGACCCCCTGATCCTCCGTGGACTCACTCCACCAGCTTCCTATAACTTGGACGATGACCAGGCGGCTTGGGAGAATGAGCTGCAGAAGATGACCCGGGGGCAGCTTCAGGATGAGTTAGAGAAAGGTGAACGGGACAATGCAGAACTGCAGGAGTTTGCCAACGCCATTCTTCAGCAGATAGCAGACCATTGTCCCGACATCCTAGAGCAAGTGGTCAACGCCCTGGAAGAGTCCTCTTGACCCTGCTTTATGGGGAAGCCTGAGGTAGTCAACCCAGGAGCCAAGAAAAGAGAACTACGAGGAACAGGTGCCCGGAACCTTCTTGGCACCAAACACTACAAACTTCATCCCAACTTGCTCACTTGAAGAAGTGTGATTCCAGCACCGTTTCTACATCTGCCATCTTACTCTGCCTTTCTGCTTTGGATGTGGTCTCTACACTAACCTTCTTGATGTCCAGGGTAGATAAAGGGTCGAATCTCTCTGAAGAACTGCCACCTGGTCATCAGCAGTGGAGAACTGTGGGAGCTGGTGGCTCTGCCCTGACAGAGAGCCATGGAGCAGAGGAGCCTCTCACCTCCTGTCCTCTGACATGAGAATGAAACCAGGAATGGACTTGGAGTTCAACAGGCTGAGAGGATGCCTCCAATGGACCAGAGAGCTGAGTGTTCTAATATCACAATAGGTGCTTTCTCCTAAAAGGGCAAAAAACAATCTCAAAAAGATTAGAAAAAGAGAAGGGGGGAAGGGAAGAGAAAATCGACTCTTCTTTTTACTGTCTCTTCTGCTTACTTTCCACATGAGATGCTTTGTACCGGGGAGCTGTGAGCAGGCCTCACGATGGCTTGGGAGCACTCGTTCTCCCAAGGTCTGAGTCTTCATCCAGCCCTGCCTGTCTGTCGCAGCCTTCCTCACTCTGTTCCTCGGCCAGTTAACAAGAAGATGGTGTGAGGTGTTCTCCACCAGTCTCTCCTGTTTGAGACTGTTGACGTTATCATACTGAGGTGTTAGATCAAATATCTCTAATTGAAGAACATGTGAGGTTGAAAGAGCACCAGCCAGGGCAACATAGCGTGACCCTGTCTCTACAAAAAATTAAAAAGAGAACATACAAAGTTGACATATGAGACCCTGTTGTCCCCGCCTGCAGCTTTGCCCCAGTAACAGATGCCCGTTGCTCTTGGGCTGGTTTCCCCTGAACACCTCCAAGAGGCTGCCTGCCTTGCCAGCACCCGTGTCCTGAGCTCCTGCAGCCCAGTGGCTGCTGAAGTTGTGATCCCTCACTCACCCTGCTAGCTTTGCCCTTGACTCGTCTTCTCTGAACCTCAGCCTCGTGCATTGCCTGGAACCTTCTTCTAGCATAAATGAAGGTTTTTCCTCCTACACACATTCCTTCCTCGGTTATTTCATTCAGAGAATATTTATGAAATGCCTACTGTGTGCAAGTCATCCATCCTTGAAAAGGCCACTTCTCAGTGAGGGAGAGATGTAGTGGATTCTGTGAGACATACCTGCTGGAGTTGAAGCAGTAAATAGCATGTCCTTCCCCTCCCCGATCTTAAGGTGTGTTTTCTAGAAAAGTTCCCTAATGGAATTCATGAGTTTGGGGGTCTCAGTCACCCGCTTGCCTGTAGGATTCCATTTGATGATTCTGGATTTTTGCTGTTTGTTATTGCCCTTAGAGGGGCTCTGAGTATCTACTTGTGGGTGGCCATTTCCTGACATCTGCATGTACCTCGTGGAATTCAGCCAGCTTCATGTTGCAAATCAGAAAGCTGACCCCAAGACTGCAAATCAATGAAGGTATTGGCATTGTTAAGGACGTAGCGTAGACAACAGCAGTCATAAATAATTAGGCAGGAACTTAACCCAAATCTAGTTCTTTGACCACCTCTACCACCAGAACCCAGCAGACACTCACATCTCCTGATAAGAGTTGCTGGACTCGATGTTTTTGTTTTGCATTTTCTCCTCTCCTTCCCCACTTACTCAGAGAATTTAAAGTCTGTAGAGTCAGCACAGCCCCATCAGTCCAGGAACTTCCCACCACCAGCCCTTGACTGTCCCATTAACTGACATGGTCAGATTTCCAGCTCCCCCTACTCCCTGCTGTGAAACAATCCCTCTCCCTGTGAGAGGAAACTGTGGAGCGTTTCTTATCGAAGGTTAAATGGACTCTGCTCATAAACCTCTTACTGAGATGCTTCCTGATAGCCAGGCTGGCCAGAGAGGGGTGCAGGGGTTAGATAGTAAGTGGTGGTCGTTTGTGGTCAGTTACCTCAATTCTGTTCATTGCAGTGCCCGTAAACCATGTAGAAAGCTCCCAGCACTGAAAGGCAGGAGTGTTAGCATCTCGCTTTATCCACCATAACGTAAAGAACTGCGGTGTGATAACAGCCTTCACGGGGCCACGGTGGAACCAAGACAGCAGGCGAGGCCATGCCTAAACAAGTGGTCTGGCACGGGCACTGGCCAGCTGCTCTCTCCAAGCAGGTGGCCCAGATCCCACCCACGTGGACTTTCTCATCAGGTGCAGCGCCTGCCACTCTCAGCCACTGGGTGTGTCACTCTCCTCTTCATCTCAGCATTCTCCATCACTTCCCCTCCAGAAAAACGGATGGAAGGAAGCCCTCTGTGACACTGCTTCTGAGAAGAAGCATTTCCGGGACCGATATCATCTGTCTGGTCTCTGTGAACAGCAAGGAATCTTCTTGACCGTTCTTGGGCACTGGAGGCTGGCTAGGAGTTCAGTAATAAACGTGGCCTTCGTGCTGTAGGGCAGAGTGGATGCAGTTTGTAGCTTTCAGAGTGTCTCATTGAGTCTAGATCATTGAACCAACACTTAACCAAATGTCCCACTCCCATCACACTAGGACTTGTCATTCCATGCCCCTCTCCTAGTGGTCATGGTTTCATATGGGCATACAACTGCTACTGAAGTTATATAGCCTTGAAAACTCAGTGCAGGTTGCCCTTAATTTTCCCCAAACCCCTCCATCGGCAAGTCTAGTTGCCCTTTAGCACCTAAAGATCTGCACCCCAAACCAATGTCACCATAAAGAGGGCACGAAGAAGAGTGGGTGTGATCCCAACGGGGTTTTGTAACTGAAGAAGCCCAGTGTGAGCTTCTCATCTTTTCATATACCTCTAACCCCCGGTACTCATTGAATCATTGATGAGGTATCTCAATTGAGATTTGCAAGGACTTTGATACCATTTGAAATGGAAAAATTTTGAACGGGCTTTAACATGTTTAAGAAATATGGATGGGGCCGGCCACAGTGGCTCACGCCTGTAATCCCAGAACTCTGGAAGGCTGAGGCAGGCGGATCACCTGAGATCAGGAGTTCGAGGCCAGCCTGGCCAAGATGGCAAAAACCCCGACTCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGCGTACGCCTGTAATCCCAGCTACTCAGGAGGCAGGAGAATCGCTTGAGCCTGGGAGGCAGAGGCTGCGGTGAGCCGAGATCGTGTCACTGCACTCCAGCCTGGGTGACAGAGACTCCATTTAAAAAAAAAAAAAAAAAATATATATATATATATATATATATATATATGGATGGGAATCACCAAATTCATCTCAGCTCTAACCTTTTAACCTTTGTCCTTGCACTTTACAATCTAAAGATCTACCTGTGGCTCTCAGACTTCCTCACACTTGGGTTTTAGAAATAACTTGTAAAGCAGACTGGACCCAAGGCCGCCTTCAGTGTCAAGAAGGGCATTGTGACTTGCCCCTCAATTTCTGTCCATTGAAGTCTGGTTTTCCATGAGGAACTTGCGGGCTCACCCACCCCCAGAGTGAGAGAAGAGGAAGGCGAAGTCATCACAGACACGGTCTTAGCCACCTGCTGAACTAATCCCTCCGCTATTGAGGGTCAGGGTTGTGAGGCAACCATCATGTGTCACCCCAAAATATAAATGTTTCTGAGCCGCCCATCCACTGGCATTTGGATTTGCTGCCAGAGTCCTGTTCCTCCCAGAACCATCCCGCCCTCCTGTTGACCATGTTACTTGAGTGTAGGCCCGGTGTCAAGACCCTCAGAGTCTTTGAGGAAAGAGCCAAGCAGAGAAGACCGCTGCGTGGAGTGTGACACCACATGGCATTTCTCAAGCCCAGCGGACCCTGTGTCAGCAAATACCAGTAATTTAACATCTGCTCCTGGCCTCCTCTTCACCTGCCTGGGTTCGGAACTGAGGAGGAAGGATGAGAAGAGACTGCAATGCAGCAGGCACCCTCTGCAGAGTGAGGCCGCCCGTCCATCACTGCCAGCCCTGGGCTGCTCAGGAGGGGACGTGAACCACTCAAAGGAATGTCTTAAAGAGGATCTGGAGTTTCCCCCATGCAAATTAGGGAAGAATTAGGCAAGAAAAGACATACATTACAGGGAAATCCTTCTGAACAAAATGGCTGTCTTCACCTACTCTTCTTGCAAGAAAAGACATACATTACAGGGAAATCCTTCTGAACAAAATGGCTATCTTCACCTACTCTTCAGCAAAAACCGTCTCCAGACTTTTTAGTGTCAAAAATGTAACCAACTGTCTCCTGATTTTTTCCAATGTGTTTGGCAAGTGCTGTGGCCCTGTTGTAGGTACTTCTCCTGACTCTTGGGGGAGAAGTGGTTTTAGGGATTGATTTGGGGGAGCGGGTTTTTGTCCCATCCCACCTCCTCTCTTCTTTCTCTGCTTGTCGATATTGTCTGTGTGATTCAGAGAATTGGGGCAGTTACATTGTGTCTGTTGTTGAGATTATTAAAAGATTAAAACGTAGTTGTAGAAATGAAAAATTAAACAGCTGTGTTTTAAAAATGCAAACCAATATCTTGTTAATAAAGGAATTCAAGCTATGGGGCAGCCACACTCCCCTCCTCCCAGGCTGGCATAGGTGGCCCTGGGCTGGCGGCTTAGGAAGCATGGAGCACACTTAGGGTAGTGCCTGCCTGGGCAAGAGACACCTGCCGAGCAAAAGGAACGAGAATCTGGGGCTCAGAGCCTCGCAGTTGTGCCAGGATTTTCCTATACATGTTCAGGACCTCTGGGTAGAGGTTTCACAGTTTGTGACCCCATAACCACCCTCACCCGACGTGGGTTCTAGCTCAGTGTGCCTAATACTGCATGGTAACCTGGGCTTGACCCTGAAGCCCCTGCCTGGCAGGCCACAGGACCTCTCCTGCCCACTTGGTGCTATCTCTTCCAGTGACCACCCAGCACGGGTGAGCACTGGCCAGCCTGGAGCCTGCAATCCAGGTGGAACAGACTGTCCTCCATGTCAGTTCCTTCTGGCTTCAGGCCCTCAATTATTTCCCTTTGAGCTTTTTTAGACCCTAGATCTCCTAGGCCCAGGCTCTCTCTTGACCCCAGAGAAGCCACTGTCAGGAAAGGAAGTGAACCCTACTGAAGCCAGAGAATTCACCCCGGCCAAAGCAGGCCCTCTGGGTCCAGCCCCTCATTCCACACCACGCCAGTATTGCATCCATCTACTGCAGCTACACATCCTGAGGGCAGCACCACCCACTCTGGCCTGCTGGCCCATCGCAGGACTAGCCCAGGCACCTGCCGGGCATTGCAGGATATCCAGTGGGGCCTGTGACTGCTCCCTGATGCGTCAGAAGAGAAGTGTTGCACTTTAGTGGAGGAGCTGAGGAGCACCTGCCCCCTTGTAGCTTGAGTTCCTTTTGGTAACAGTAGCAGCCTCCATGGTGGTGTCTGGGATGCACGTGCACCCGCTGCCTTCAGCTGTATGTGTGTGTTCCTGCTGGAGTTGTGTTACTGACAGGATAATGACATTACAAAGAAATTGTGTTATATTCAACTTTGCCTTGATAATTATTGTAAACACTTTGTTCATTTTTTCTTTTTTATTCACAAACTAAATCCACCAGGAAATTATAAAGTTATTTAAAAACCGTAAAAAAAAAAAAAAAAAA
>gi|669174622|ref|NM_178040.3| Homo sapiens ELKS/RAB6-interacting/CAST family member 1 (ERC1), transcript variant epsilon, mRNA
GGGCGCGGTGACGTCGCGGGCGCCTGGGCCGTGCTGTGGCGGCGGCGGCGGCGGTAGTGGCGGCGGCGGCGGTGCCTGGGCGGCAGCAGCAGCAGTAGCGGCAGCCCTGAGGACGATATGGTGTAAGATACTTCTTCAAGATTGGACAGCTGGGGACCTTCTTCTGATTAACCTTAAACCAACTTGTAGCCATAGAGACACCTCACAAGGTTCCCATTTTTGTTGTTGTTGTTGTTGATTTTCTGCTCACACCTTTCCTGACCTTGCAACCATGTATGGAAGTGCCCGCTCTGTTGGGAAGGTGGAGCCGAGCAGCCAGAGCCCTGGGCGTTCACCCAGGCTTCCACGTTCCCCTCGCTTGGGTCACCGTCGAACCAACAGTACGGGAGGGAGTTCGGGAAGCAGTGTTGGAGGTGGCAGTGGGAAAACCCTTTCAATGGAAAATATACAATCTTTAAATGCTGCCTATGCCACCTCTGGCCCTATGTATCTAAGTGACCATGAAAATGTGGGTTCAGAAACACCTAAAAGCACCATGACACTTGGCCGTTCTGGGGGACGTCTGCCTTACGGTGTTCGGATGACTGCTATGGGTAGTAGCCCCAATATAGCTAGCAGTGGGGTTGCTAGTGACACCATAGCATTTGGAGAGCATCACCTCCCTCCTGTGAGTATGGCATCCACTGTACCTCACTCCCTTCGTCAGGCGAGAGATAACACAATCATGGATCTGCAGACACAGCTGAAGGAAGTATTAAGAGAAAATGATCTCTTGCGGAAGGATGTGGAAGTAAAGGAGAGCAAATTGAGTTCTTCAATGAATAGCATCAAGACCTTCTGGAGCCCAGAGCTGAAGAAGGAACGAGCCCTGAGAAAAGATGAAGCTTCCAAAATCACCATTTGGAAGGAACAGTACAGAGTTGTACAGGAGGAAAACCAGCACATGCAGATGACAATCCAGGCTCTCCAGGATGAATTGCGGATCCAGAGGGACCTGAATCAGCTGTTTCAGCAGGATAGTAGCAGCAGGACTGGCGAACCTTGTGTAGCAGAGCTGACAGAGGAGAACTTTCAGAGGCTTCATGCTGAGCATGAGCGGCAGGCCAAAGAGCTGTTTCTTCTTCGAAAGACATTGGAGGAAATGGAGCTGCGTATTGAGACTCAAAAGCAGACCCTAAATGCTCGGGATGAATCCATTAAGAAGCTTCTGGAAATGTTGCAGAGCAAAGGACTTTCTGCCAAGGCTACCGAGGAAGACCATGAGAGAACAAGACGACTGGCAGAGGCAGAGATGCACGTTCATCACCTAGAAAGCCTTTTGGAGCAGAAGGAAAAAGAGAACAGTATGTTGAGAGAGGAGATGCATCGAAGGTTTGAGAATGCTCCTGATTCTGCCAAAACAAAAGCTCTGCAAACTGTTATTGAGATGAAGGATTCAAAAATTTCCTCTATGGAGCGTGGGCTTCGAGACCTGGAAGAGGAAATTCAGATGCTGAAATCGAATGGTGCTTTGAGTACTGAGGAAAGGGAAGAAGAAATGAAGCAAATGGAAGTGTATCGGAGCCATTCTAAATTTATGAAAAATAAGGTAGAACAACTGAAGGAGGAACTAAGTTCGAAAGAGGCTCAATGGGAGGAGCTGAAAAAGAAAGCGGCTGGTCTTCAGGCTGAGATTGGCCAGGTGAAACAGGAGCTGTCCAGAAAGGACACAGAACTACTCGCCCTGCAGACAAAGCTAGAAACACTCACAAACCAGTTCTCAGATAGTAAACAGCACATTGAAGTGTTGAAGGAGTCCTTGACTGCTAAGGAGCAGAGGGCTGCCATCCTGCAGACTGAGGTGGATGCTCTCCGATTGCGTTTGGAAGAGAAGGAAACCATGTTGAATAAAAAGACAAAACAAATTCAGGATATGGCTGAAGAGAAGGGGACACAAGCTGGAGAGATACATGACCTCAAGGACATGTTGGATGTGAAGGAGCGGAAGGTTAATGTTCTTCAGAAGAAGATTGAAAATCTTCAAGAGCAGCTTAGAGACAAGGAAAAGCAGATGAGCAGCTTGAAAGAACGGGTCAAATCCTTGCAGGCTGACACCACCAACACTGACACTGCCTTGACAACTTTGGAGGAGGCCCTTGCAGAGAAAGAGCGGACAATTGAACGCTTAAAGGAGCAGAGGGACAGAGATGAGCGAGAGAAGCAAGAGGAAATTGATAACTACAAAAAAGATCTTAAAGACTTGAAGGAAAAAGTCAGCCTGTTGCAAGGCGACCTTTCAGAGAAAGAGGCTTCACTTTTGGATCTGAAAGAGCATGCTTCTTCTCTGGCATCCTCAGGACTGAAAAAGGACTCACGGCTTAAGACACTAGAGATTGCTTTGGAGCAGAAGAAGGAGGAGTGTCTGAAAATGGAATCACAATTGAAAAAGGCACATGAGGCAGCATTGGAAGCCAGAGCCAGTCCAGAGATGAGTGACCGAATACAGCACTTGGAGAGAGAGATCACCAGGTACAAAGATGAATCTAGCAAGGCCCAGGCAGAAGTTGATCGACTCTTAGAAATCTTGAAGGAGGTGGAAAATGAGAAGAATGACAAAGATAAGAAGATAGCTGAGTTGGAAAGGCAAGTGAAAGACCAGAATAAGAAGGTAGCAAATCTGAAGCACAAGGAACAGGTGGAAAAAAAGAAGAGTGCACAAATGTTAGAGGAGGCGCGACGACGGGAGGACAATCTCAACGACAGCTCTCAGCAGCTACAGGACAGTCTCCGTAAGAAGGATGACAGGATTGAAGAGCTGGAAGAAGCACTAAGAGAAAGTGTACAGATAACTGCAGAGCGGGAAATGGTGCTAGCACAAGAGGAATCAGCCAGGACCAATGCTGAAAAACAGGTGGAGGAGTTACTGATGGCCATGGAGAAGGTAAAGCAGGAACTAGAATCCATGAAAGCAAAGCTGTCCTCCACCCAGCAGTCTCTGGCAGAAAAGGAAACTCACTTGACTAATCTTCGGGCAGAGAGAAGGAAACACTTAGAGGAAGTTCTGGAGATGAAGCAAGAAGCTCTTCTGGCTGCCATTAGTGAAAAAGACGCCAATATAGCTCTCTTGGAGCTTTCGTCCTCTAAGAAGAAGACCCAAGAGGAAGTGGCTGCCCTGAAGCGGGAGAAGGATCGTCTGGTACAGCAGCTTAAGCAGCAGACGCAAAATCGAATGAAGCTAATGGCCGACAACTACGAGGATGACCACTTCAAATCCTCCCATTCCAATCAAACAAATCACAAGCCCTCCCCAGACCAGATCATCCAGCCCCTCTTAGAACTTGACCAAAATAGAAGTAAATTAAAGTTGTACATTGGACACCTGACAACCCTCTGCCATGACCGAGACCCCCTGATCCTCCGTGGACTCACTCCACCAGCTTCCTATAACTTGGACGATGACCAGGCGGCTTGGGAGAATGAGCTGCAGAAGATGACCCGGGGGCAGCTTCAGGATGAGTTAGAGAAAGGTGAACGGGACAATGCAGAACTGCAGGAGTTTGCCAACGCCATTCTTCAGCAGATAGCAGACCATTGTCCCGACATCCTAGAGCAAGTGGTCAACGCCCTGGAAGAGTCCTCTTGACCCTGCTTTATGGGGAAGCCTGAGGTAGTCAACCCAGGAGCCAAGAAAAGAGAACTACGAGGAACAGGTGCCCGGAACCTTCTTGGCACCAAACACTACAAACTTCATCCCAACTTGCTCACTTGAAGAAGTGTGATTCCAGCACCGTTTCTACATCTGCCATCTTACTCTGCCTTTCTGCTTTGGATGTGGTCTCTACACTAACCTTCTTGATGTCCAGGGTAGATAAAGGGTCGAATCTCTCTGAAGAACTGCCACCTGGTCATCAGCAGTGGAGAACTGTGGGAGCTGGTGGCTCTGCCCTGACAGAGAGCCATGGAGCAGAGGAGCCTCTCACCTCCTGTCCTCTGACATGAGAATGAAACCAGGAATGGACTTGGAGTTCAACAGGCTGAGAGGATGCCTCCAATGGACCAGAGAGCTGAGTGTTCTAATATCACAATAGGTGCTTTCTCCTAAAAGGGCAAAAAACAATCTCAAAAAGATTAGAAAAAGAGAAGGGGGGAAGGGAAGAGAAAATCGACTCTTCTTTTTACTGTCTCTTCTGCTTACTTTCCACATGAGATGCTTTGTACCGGGGAGCTGTGAGCAGGCCTCACGATGGCTTGGGAGCACTCGTTCTCCCAAGGTCTGAGTCTTCATCCAGCCCTGCCTGTCTGTCGCAGCCTTCCTCACTCTGTTCCTCGGCCAGTTAACAAGAAGATGGTGTGAGGTGTTCTCCACCAGTCTCTCCTGTTTGAGACTGTTGACGTTATCATACTGAGGTGTTAGATCAAATATCTCTAATTGAAGAACATGTGAGGTTGAAAGAGCACCAGCCAGGGCAACATAGCGTGACCCTGTCTCTACAAAAAATTAAAAAGAGAACATACAAAGTTGACATATGAGACCCTGTTGTCCCCGCCTGCAGCTTTGCCCCAGTAACAGATGCCCGTTGCTCTTGGGCTGGTTTCCCCTGAACACCTCCAAGAGGCTGCCTGCCTTGCCAGCACCCGTGTCCTGAGCTCCTGCAGCCCAGTGGCTGCTGAAGTTGTGATCCCTCACTCACCCTGCTAGCTTTGCCCTTGACTCGTCTTCTCTGAACCTCAGCCTCGTGCATTGCCTGGAACCTTCTTCTAGCATAAATGAAGGTTTTTCCTCCTACACACATTCCTTCCTCGGTTATTTCATTCAGAGAATATTTATGAAATGCCTACTGTGTGCAAGTCATCCATCCTTGAAAAGGCCACTTCTCAGTGAGGGAGAGATGTAGTGGATTCTGTGAGACATACCTGCTGGAGTTGAAGCAGTAAATAGCATGTCCTTCCCCTCCCCGATCTTAAGGTGTGTTTTCTAGAAAAGTTCCCTAATGGAATTCATGAGTTTGGGGGTCTCAGTCACCCGCTTGCCTGTAGGATTCCATTTGATGATTCTGGATTTTTGCTGTTTGTTATTGCCCTTAGAGGGGCTCTGAGTATCTACTTGTGGGTGGCCATTTCCTGACATCTGCATGTACCTCGTGGAATTCAGCCAGCTTCATGTTGCAAATCAGAAAGCTGACCCCAAGACTGCAAATCAATGAAGGTATTGGCATTGTTAAGGACGTAGCGTAGACAACAGCAGTCATAAATAATTAGGCAGGAACTTAACCCAAATCTAGTTCTTTGACCACCTCTACCACCAGAACCCAGCAGACACTCACATCTCCTGATAAGAGTTGCTGGACTCGATGTTTTTGTTTTGCATTTTCTCCTCTCCTTCCCCACTTACTCAGAGAATTTAAAGTCTGTAGAGTCAGCACAGCCCCATCAGTCCAGGAACTTCCCACCACCAGCCCTTGACTGTCCCATTAACTGACATGGTCAGATTTCCAGCTCCCCCTACTCCCTGCTGTGAAACAATCCCTCTCCCTGTGAGAGGAAACTGTGGAGCGTTTCTTATCGAAGGTTAAATGGACTCTGCTCATAAACCTCTTACTGAGATGCTTCCTGATAGCCAGGCTGGCCAGAGAGGGGTGCAGGGGTTAGATAGTAAGTGGTGGTCGTTTGTGGTCAGTTACCTCAATTCTGTTCATTGCAGTGCCCGTAAACCATGTAGAAAGCTCCCAGCACTGAAAGGCAGGAGTGTTAGCATCTCGCTTTATCCACCATAACGTAAAGAACTGCGGTGTGATAACAGCCTTCACGGGGCCACGGTGGAACCAAGACAGCAGGCGAGGCCATGCCTAAACAAGTGGTCTGGCACGGGCACTGGCCAGCTGCTCTCTCCAAGCAGGTGGCCCAGATCCCACCCACGTGGACTTTCTCATCAGGTGCAGCGCCTGCCACTCTCAGCCACTGGGTGTGTCACTCTCCTCTTCATCTCAGCATTCTCCATCACTTCCCCTCCAGAAAAACGGATGGAAGGAAGCCCTCTGTGACACTGCTTCTGAGAAGAAGCATTTCCGGGACCGATATCATCTGTCTGGTCTCTGTGAACAGCAAGGAATCTTCTTGACCGTTCTTGGGCACTGGAGGCTGGCTAGGAGTTCAGTAATAAACGTGGCCTTCGTGCTGTAGGGCAGAGTGGATGCAGTTTGTAGCTTTCAGAGTGTCTCATTGAGTCTAGATCATTGAACCAACACTTAACCAAATGTCCCACTCCCATCACACTAGGACTTGTCATTCCATGCCCCTCTCCTAGTGGTCATGGTTTCATATGGGCATACAACTGCTACTGAAGTTATATAGCCTTGAAAACTCAGTGCAGGTTGCCCTTAATTTTCCCCAAACCCCTCCATCGGCAAGTCTAGTTGCCCTTTAGCACCTAAAGATCTGCACCCCAAACCAATGTCACCATAAAGAGGGCACGAAGAAGAGTGGGTGTGATCCCAACGGGGTTTTGTAACTGAAGAAGCCCAGTGTGAGCTTCTCATCTTTTCATATACCTCTAACCCCCGGTACTCATTGAATCATTGATGAGGTATCTCAATTGAGATTTGCAAGGACTTTGATACCATTTGAAATGGAAAAATTTTGAACGGGCTTTAACATGTTTAAGAAATATGGATGGGGCCGGCCACAGTGGCTCACGCCTGTAATCCCAGAACTCTGGAAGGCTGAGGCAGGCGGATCACCTGAGATCAGGAGTTCGAGGCCAGCCTGGCCAAGATGGCAAAAACCCCGACTCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGCGTACGCCTGTAATCCCAGCTACTCAGGAGGCAGGAGAATCGCTTGAGCCTGGGAGGCAGAGGCTGCGGTGAGCCGAGATCGTGTCACTGCACTCCAGCCTGGGTGACAGAGACTCCATTTAAAAAAAAAAAAAAAAAATATATATATATATATATATATATATATATGGATGGGAATCACCAAATTCATCTCAGCTCTAACCTTTTAACCTTTGTCCTTGCACTTTACAATCTAAAGATCTACCTGTGGCTCTCAGACTTCCTCACACTTGGGTTTTAGAAATAACTTGTAAAGCAGACTGGACCCAAGGCCGCCTTCAGTGTCAAGAAGGGCATTGTGACTTGCCCCTCAATTTCTGTCCATTGAAGTCTGGTTTTCCATGAGGAACTTGCGGGCTCACCCACCCCCAGAGTGAGAGAAGAGGAAGGCGAAGTCATCACAGACACGGTCTTAGCCACCTGCTGAACTAATCCCTCCGCTATTGAGGGTCAGGGTTGTGAGGCAACCATCATGTGTCACCCCAAAATATAAATGTTTCTGAGCCGCCCATCCACTGGCATTTGGATTTGCTGCCAGAGTCCTGTTCCTCCCAGAACCATCCCGCCCTCCTGTTGACCATGTTACTTGAGTGTAGGCCCGGTGTCAAGACCCTCAGAGTCTTTGAGGAAAGAGCCAAGCAGAGAAGACCGCTGCGTGGAGTGTGACACCACATGGCATTTCTCAAGCCCAGCGGACCCTGTGTCAGCAAATACCAGTAATTTAACATCTGCTCCTGGCCTCCTCTTCACCTGCCTGGGTTCGGAACTGAGGAGGAAGGATGAGAAGAGACTGCAATGCAGCAGGCACCCTCTGCAGAGTGAGGCCGCCCGTCCATCACTGCCAGCCCTGGGCTGCTCAGGAGGGGACGTGAACCACTCAAAGGAATGTCTTAAAGAGGATCTGGAGTTTCCCCCATGCAAATTAGGGAAGAATTAGGCAAGAAAAGACATACATTACAGGGAAATCCTTCTGAACAAAATGGCTGTCTTCACCTACTCTTCTTGCAAGAAAAGACATACATTACAGGGAAATCCTTCTGAACAAAATGGCTATCTTCACCTACTCTTCAGCAAAAACCGTCTCCAGACTTTTTAGTGTCAAAAATGTAACCAACTGTCTCCTGATTTTTTCCAATGTGTTTGGCAAGTGCTGTGGCCCTGTTGTAGGTACTTCTCCTGACTCTTGGGGGAGAAGTGGTTTTAGGGATTGATTTGGGGGAGCGGGTTTTTGTCCCATCCCACCTCCTCTCTTCTTTCTCTGCTTGTCGATATTGTCTGTGTGATTCAGAGAATTGGGGCAGTTACATTGTGTCTGTTGTTGAGATTATTAAAAGATTAAAACGTAGTTGTAGAAATGAAAAATTAAACAGCTGTGTTTTAAAAATGCAAACCAATATCTTGTTAATAAAGGAATTCAAGCTATGGGGCAGCCACACTCCCCTCCTCCCAGGCTGGCATAGGTGGCCCTGGGCTGGCGGCTTAGGAAGCATGGAGCACACTTAGGGTAGTGCCTGCCTGGGCAAGAGACACCTGCCGAGCAAAAGGAACGAGAATCTGGGGCTCAGAGCCTCGCAGTTGTGCCAGGATTTTCCTATACATGTTCAGGACCTCTGGGTAGAGGTTTCACAGTTTGTGACCCCATAACCACCCTCACCCGACGTGGGTTCTAGCTCAGTGTGCCTAATACTGCATGGTAACCTGGGCTTGACCCTGAAGCCCCTGCCTGGCAGGCCACAGGACCTCTCCTGCCCACTTGGTGCTATCTCTTCCAGTGACCACCCAGCACGGGTGAGCACTGGCCAGCCTGGAGCCTGCAATCCAGGTGGAACAGACTGTCCTCCATGTCAGTTCCTTCTGGCTTCAGGCCCTCAATTATTTCCCTTTGAGCTTTTTTAGACCCTAGATCTCCTAGGCCCAGGCTCTCTCTTGACCCCAGAGAAGCCACTGTCAGGAAAGGAAGTGAACCCTACTGAAGCCAGAGAATTCACCCCGGCCAAAGCAGGCCCTCTGGGTCCAGCCCCTCATTCCACACCACGCCAGTATTGCATCCATCTACTGCAGCTACACATCCTGAGGGCAGCACCACCCACTCTGGCCTGCTGGCCCATCGCAGGACTAGCCCAGGCACCTGCCGGGCATTGCAGGATATCCAGTGGGGCCTGTGACTGCTCCCTGATGCGTCAGAAGAGAAGTGTTGCACTTTAGTGGAGGAGCTGAGGAGCACCTGCCCCCTTGTAGCTTGAGTTCCTTTTGGTAACAGTAGCAGCCTCCATGGTGGTGTCTGGGATGCACGTGCACCCGCTGCCTTCAGCTGTATGTGTGTGTTCCTGCTGGAGTTGTGTTACTGACAGGATAATGACATTACAAAGAAATTGTGTTATATTCAACTTTGCCTTGATAATTATTGTAAACACTTTGTTCATTTTTTCTTTTTTATTCACAAACTAAATCCACCAGGAAATTATAAAGTTATTTAAAAACCGTAAAAAAAAAAAAAAAAAA
>gi|668259454|ref|NM_021158.4| Homo sapiens tribbles pseudokinase 3 (TRIB3), transcript variant 1, mRNA
GAGCCGAGATCGCGCCACCGCCCTCCAGCCTGGGCGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAGAGCAAATTTTTTTTCCAAGGTGATAGGGAGAGTCCGTGGCTGATGTCTGCACTGACCAGACGCCCCTAGGGGGCCAGCGAGGGCGGGTCCCAGGTGCAGCGGATGCAGAGGAGAGAGGCCCGGGCGCGGCGCGGGGGATGGTGCGATCCCGGGCCCGAGGGCATCAGACGGCGGCTGATTAGCTCCGGTTTGCATCACCCGGACCGGGGGATTAGCTCCGGTTTGCATCACCCGGACCGGGGGATTAGCTCCGGTTTGCATCACCCGGACCGGGGGCCGGGCGCGCACGAGACTCGCAGCGGAAGTGGAGGCGGCTCCGCGCGCGTCCGCTGCTAGGACCCGGGCAGGGCTGGAGCTGGGCTGGGATCCCGAGCTCGGCAGCAGCGCAGCGGGCCGGCCCACCTGCTGGTGCCCTGGAGGCTCTGAGCCCCGGCGGCGCCCGGGCCCACGCGGAACGACGGGGCGAGATGCGAGCCACCCCTCTGGCTGCTCCTGCGGGTTCCCTGTCCAGGAAGAAGCGGTTGGAGTTGGATGACAACTTAGATACCGAGCGTCCCGTCCAGAAACGAGCTCGAAGTGGGCCCCAGCCCAGACTGCCCCCCTGCCTGTTGCCCCTGAGCCCACCTACTGCTCCAGATCGTGCAACTGCTGTGGCCACTGCCTCCCGTCTTGGGCCCTATGTCCTCCTGGAGCCCGAGGAGGGCGGGCGGGCCTACCAGGCCCTGCACTGCCCTACAGGCACTGAGTATACCTGCAAGGTGTACCCCGTCCAGGAAGCCCTGGCCGTGCTGGAGCCCTATGCGCGGCTGCCCCCGCACAAGCATGTGGCTCGGCCCACTGAGGTCCTGGCTGGTACCCAGCTCCTCTACGCCTTTTTCACTCGGACCCATGGGGACATGCACAGCCTGGTGCGAAGCCGCCACCGTATCCCTGAGCCTGAGGCTGCCGTGCTCTTCCGCCAGATGGCCACCGCCCTGGCGCACTGTCACCAGCACGGTCTGGTCCTGCGTGATCTCAAGCTGTGTCGCTTTGTCTTCGCTGACCGTGAGAGGAAGAAGCTGGTGCTGGAGAACCTGGAGGACTCCTGCGTGCTGACTGGGCCAGATGATTCCCTGTGGGACAAGCACGCGTGCCCAGCCTACGTGGGACCTGAGATACTCAGCTCACGGGCCTCATACTCGGGCAAGGCAGCCGATGTCTGGAGCCTGGGCGTGGCGCTCTTCACCATGCTGGCCGGCCACTACCCCTTCCAGGACTCGGAGCCTGTCCTGCTCTTCGGCAAGATCCGCCGCGGGGCCTACGCCTTGCCTGCAGGCCTCTCGGCCCCTGCCCGCTGTCTGGTTCGCTGCCTCCTTCGTCGGGAGCCAGCTGAACGGCTCACAGCCACAGGCATCCTCCTGCACCCCTGGCTGCGACAGGACCCGATGCCCTTAGCCCCAACCCGATCCCATCTCTGGGAGGCTGCCCAGGTGGTCCCTGATGGACTGGGGCTGGACGAAGCCAGGGAAGAGGAGGGAGACAGAGAAGTGGTTCTGTATGGCTAGGACCACCCTACTACACGCTCAGCTGCCAACAGTGGATTGAGTTTGGGGGTAGCTCCAAGCCTTCTCCTGCCTCTGAACTGAGCCAAACCTTCAGTGCCTTCCAGAAGGGAGAAAGGCAGAAGCCTGTGTGGAGTGTGCTGTGTACACATCTGCTTTGTTCCACACACATGCAGTTCCTGCTTGGGTGCTTATCAGGTGCCAAGCCCTGTTCTCGGTGCTGGGAGTACAGCAGTGAGCAAAGGAGACAATATTCCCTGCTCACAGAGATGACAAACTGGCATCCTTGAGCTGACAACACTTTTCCATGACCATAGGTCACTGTCTACACTGGGTACACTTTGTACCAGTGTCGGCCTCCACTGATGCTGGTGCTCAGGCACCTCTGTCCAAGGACAATCCCTTTCACAAACAAACCAGCTGCCTTTGTATCTTGTACCTTTTCAGAGAAAGGGAGGTATCCCTGTGCCAAAGGCTCCAGGCCTCTCCCCTGCAACTCAGGACCCAAGCCCAGCTCACTCTGGGAACTGTGTTCCCAGCATCTCTGTCCTCTTGATTAAGAGATTCTCCTTCCAGGCCTAAGCCTGGGATTTGGGCCAGAGATAAGAATCCAAACTATGAGGCTAGTTCTTGTCTAACTCAAGACTGTTCTGGAATGAGGGTCCAGGCCTGTCAACCATGGGGCTTCTGACCTGAGCACCAAGGTTGAGGGACAGGATTAGGCAGGGTCTGTCCTGTGGCCACCTGGAAAGTCCCAGGTGGGACTCTTCTGGGGACACTTGGGGTCCACAATCCCAGGTCCATACTCTAGGTTTTGGATACCATGAGTATGTATGTTTACCTGTGCCTAATAAAGGAGAATTATGAAATAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|667751394|ref|NM_017672.5| Homo sapiens transient receptor potential cation channel subfamily M member 7 (TRPM7), transcript variant 1, mRNA
GCGCCGCTCACGTGGTCCGTCCCCAGCCCCGTCGCCGGCGGAGGCGGGCGCGGGCGCGTCCCTGTGGCCAGTCACCCGGAGGAGTTGGTCGCACAATTATGAAAGACTCGGCTTCTGCTGCTAGCGCCGGAGCTGAGTTAGTTCTGAGAAGGTTTCCCTGGGCGTTCCTTGTCCGGCGGCCTCTGCTGCCGCCTCCGGAGACGCTTCCCGATAGATGGCTACAGGCCGCGGAGGAGGAGGAGGTGGAGTTGCTGCCCTTCCGGAGTCCGCCCCGTGAGGAGAATGTCCCAGAAATCCTGGATAGAAAGCACTTTGACCAAGAGGGAATGTGTATATATTATACCAAGTTCCAAGGACCCTCACAGATGCCTTCCAGGATGTCAAATTTGTCAGCAACTCGTCAGGTGTTTTTGTGGTCGCTTGGTCAAGCAACATGCTTGTTTTACTGCAAGTCTTGCCATGAAATACTCAGATGTGAAATTGGGTGACCATTTTAATCAGGCAATAGAAGAATGGTCTGTGGAAAAGCATACAGAACAGAGCCCAACGGATGCTTATGGAGTCATAAATTTTCAAGGGGGTTCTCATTCCTACAGAGCTAAGTATGTGAGGCTATCATATGACACCAAACCTGAAGTCATTCTGCAACTTCTGCTTAAAGAATGGCAAATGGAGTTACCCAAACTTGTTATCTCTGTACATGGGGGCATGCAGAAATTTGAGCTTCACCCACGAATCAAGCAGTTGCTTGGAAAAGGTCTTATTAAAGCTGCAGTTACAACTGGAGCCTGGATTTTAACTGGAGGAGTAAACACAGGTGTGGCAAAACATGTTGGAGATGCCCTCAAAGAACATGCTTCCAGATCATCTCGAAAGATTTGCACTATCGGAATAGCTCCATGGGGAGTGATTGAAAACAGAAATGATCTTGTTGGGAGAGATGTGGTTGCTCCTTATCAAACCTTATTGAACCCCCTGAGCAAATTGAATGTTTTGAATAATCTGCATTCCCATTTCATATTGGTGGATGATGGCACTGTTGGAAAGTATGGGGCGGAAGTCAGACTGAGAAGAGAACTTGAAAAAACTATTAATCAGCAAAGAATTCATGCTAGGATTGGCCAGGGTGTCCCTGTGGTGGCACTTATATTTGAGGGTGGGCCAAATGTTATCCTCACAGTTCTTGAATACCTTCAGGAAAGCCCCCCTGTTCCAGTAGTTGTGTGTGAAGGAACAGGCAGAGCTGCAGATCTGCTAGCGTATATTCATAAACAAACAGAAGAAGGAGGGAATCTTCCTGATGCAGCAGAGCCCGATATTATTTCCACTATCAAAAAAACATTTAACTTTGGCCAGAATGAAGCACTTCATTTATTTCAAACACTGATGGAGTGCATGAAAAGAAAGGAGCTTATCACTGTTTTCCATATTGGGTCAGATGAACATCAAGATATAGATGTAGCAATACTTACTGCACTGCTAAAAGGTACTAATGCATCTGCATTTGACCAGCTTATCCTTACATTGGCATGGGATAGAGTTGACATTGCCAAAAATCATGTATTTGTTTATGGACAGCAGTGGCTGGTTGGATCCTTGGAACAAGCTATGCTTGATGCTCTTGTAATGGATAGAGTTGCATTTGTAAAACTTCTTATTGAAAATGGAGTAAGCATGCATAAATTCCTTACCATTCCGAGACTGGAAGAACTTTACAACACTAAACAAGGTCCAACTAATCCAATGCTGTTTCATCTTGTTCGAGACGTCAAACAGGGAAATCTTCCTCCAGGATATAAGATCACTCTGATTGATATAGGACTTGTTATTGAATATCTCATGGGAGGAACCTACAGATGCACCTATACTAGGAAACGTTTTCGATTAATATATAATAGTCTTGGTGGAAATAATCGGAGGTCTGGCCGAAATACCTCCAGCAGCACTCCTCAGTTGCGAAAGAGTCATGAATCTTTTGGCAATAGGGCAGATAAAAAGGAAAAAATGAGGCATAACCATTTCATTAAGACAGCACAGCCCTACCGACCAAAGATTGATACAGTTATGGAAGAAGGAAAGAAGAAAAGAACCAAAGATGAAATTGTAGACATTGATGATCCAGAAACCAAGCGCTTTCCTTATCCACTTAATGAACTTTTAATTTGGGCTTGCCTTATGAAGAGGCAGGTCATGGCCCGTTTTTTATGGCAACATGGTGAAGAATCAATGGCTAAAGCATTAGTTGCCTGTAAGATCTATCGTTCAATGGCATATGAAGCAAAGCAGAGTGACCTGGTAGATGATACTTCAGAAGAACTAAAACAGTATTCCAATGATTTTGGTCAGTTGGCCGTTGAATTATTAGAACAGTCCTTCAGACAAGATGAAACCATGGCTATGAAATTGCTCACTTATGAACTGAAGAACTGGAGTAATTCAACCTGCCTTAAGTTAGCAGTTTCTTCAAGACTTAGACCTTTTGTAGCTCACACCTGTACACAAATGTTGTTATCTGATATGTGGATGGGAAGGCTGAATATGAGGAAAAATTCCTGGTACAAGGTCATACTAAGCATTTTAGTTCCACCTGCCATATTGCTGTTAGAGTATAAAACTAAGGCTGAAATGTCCCATATCCCACAATCTCAAGATGCTCATCAGATGACAATGGATGACAGCGAAAACAACTTTCAGAACATAACAGAAGAGATCCCCATGGAAGTGTTTAAAGAAGTACGGATTTTGGATAGTAATGAAGGAAAGAATGAGATGGAGATACAAATGAAATCAAAAAAGCTTCCAATTACGCGAAAGTTTTATGCCTTTTATCATGCACCAATTGTAAAATTCTGGTTTAACACGTTGGCATATTTAGGATTTCTGATGCTTTATACATTTGTGGTTCTTGTACAAATGGAACAGTTACCTTCAGTTCAAGAATGGATTGTTATTGCTTATATTTTTACTTATGCCATTGAGAAAGTCCGTGAGATCTTTATGTCTGAAGCTGGGAAAGTAAACCAGAAGATTAAAGTATGGTTTAGTGATTACTTCAACATCAGTGATACAATTGCCATAATTTCTTTCTTCATTGGATTTGGACTAAGATTTGGAGCAAAATGGAACTTTGCAAATGCATATGATAATCATGTTTTTGTGGCTGGAAGATTAATTTACTGTCTTAACATAATATTTTGGTATGTGCGTTTGCTAGATTTTCTAGCTGTAAATCAACAGGCAGGACCTTATGTAATGATGATTGGAAAAATGGTGGCCAATATGTTCTACATTGTAGTGATTATGGCTCTTGTATTACTTAGTTTTGGTGTTCCCAGAAAGGCAATACTTTATCCTCATGAAGCACCATCTTGGACTCTTGCTAAAGATATAGTTTTTCACCCATACTGGATGATTTTTGGTGAAGTTTATGCATACGAAATTGATGTGTGTGCAAATGATTCTGTTATCCCTCAAATCTGTGGTCCTGGGACGTGGTTGACTCCATTTCTTCAAGCAGTCTACCTCTTTGTACAGTATATCATTATGGTTAATCTTCTTATTGCATTTTTCAACAATGTGTATTTACAAGTGAAGGCAATTTCCAATATTGTATGGAAGTACCAGCGTTATCATTTTATTATGGCTTATCATGAGAAACCAGTTCTGCCTCCTCCACTTATCATTCTTAGCCATATAGTTTCTCTGTTTTGCTGCATATGTAAGAGAAGAAAGAAAGATAAGACTTCCGATGGACCAAAACTTTTCTTAACAGAAGAAGATCAAAAGAAACTTCATGATTTTGAAGAGCAGTGTGTTGAAATGTATTTCAATGAAAAAGATGACAAATTTCATTCTGGGAGTGAAGAGAGAATTCGTGTCACTTTTGAAAGAGTGGAACAGATGTGCATTCAGATTAAAGAAGTTGGAGATCGTGTCAACTACATAAAAAGATCATTACAATCATTAGATTCTCAAATTGGCCATTTGCAAGATCTTTCAGCCCTGACGGTAGATACATTAAAAACACTCACTGCCCAGAAAGCGTCGGAAGCTAGCAAAGTTCATAATGAAATCACACGAGAACTGAGCATTTCCAAACACTTGGCTCAAAACCTTATTGATGATGGTCCTGTAAGACCTTCTGTATGGAAAAAGCATGGTGTTGTAAATACACTTAGCTCCTCTCTTCCTCAAGGTGATCTTGAAAGTAATAATCCTTTTCATTGTAATATTTTAATGAAAGATGACAAAGATCCCCAGTGTAATATATTTGGTCAAGACTTACCTGCAGTACCCCAGAGAAAAGAATTTAATTTTCCAGAGGCTGGTTCCTCTTCTGGTGCCTTATTCCCAAGTGCTGTTTCCCCTCCAGAACTGCGACAGAGACTACATGGGGTAGAACTCTTAAAAATATTTAATAAAAATCAAAAATTAGGCAGTTCATCTACTAGCATACCACATCTGTCATCCCCACCAACCAAATTTTTTGTTAGTACACCATCTCAGCCAAGTTGCAAAAGCCACTTGGAAACTGGAACCAAAGATCAAGAAACTGTTTGCTCTAAAGCTACAGAAGGAGATAATACAGAATTTGGAGCATTTGTAGGACACAGAGATAGCATGGATTTACAGAGGTTTAAAGAAACATCAAACAAGATAAAAATACTATCCAATAACAATACTTCTGAAAACACTTTGAAACGAGTGAGTTCTCTTGCTGGATTTACTGACTGTCACAGAACTTCCATTCCTGTTCATTCAAAACAAGCAGAAAAAATCAGTAGAAGGCCATCTACCGAAGACACTCATGAAGTAGATTCCAAAGCAGCTTTAATACCGGATTGGTTACAAGATAGACCATCAAACAGAGAAATGCCATCTGAAGAAGGAACATTAAATGGTCTCACTTCTCCATTTAAGCCAGCTATGGATACAAATTACTATTATTCAGCTGTGGAAAGAAATAACTTGATGAGGTTATCACAGAGCATTCCATTTACACCTGTGCCTCCAAGAGGGGAGCCTGTCACAGTGTATCGTTTGGAAGAGAGTTCACCCAACATACTAAATAACAGCATGTCTTCTTGGTCACAACTAGGCCTCTGTGCCAAAATAGAGTTTTTAAGCAAAGAGGAGATGGGAGGAGGTTTACGAAGAGCTGTCAAAGTACAGTGTACCTGGTCAGAACATGATATCCTCAAATCAGGGCATCTTTATATTATCAAATCTTTTCTTCCAGAGGTGGTTAATACATGGTCAAGTATTTACAAAGAAGATACAGTTCTGCATCTCTGTCTGAGAGAAATTCAACAACAGAGAGCAGCACAAAAGCTTACGTTTGCCTTTAATCAAATGAAACCCAAATCCATACCATATTCTCCAAGGTTCCTTGAAGTTTTCCTGCTGTATTGCCATTCAGCAGGACAGTGGTTTGCTGTGGAAGAATGTATGACTGGAGAATTTAGAAAATACAACAATAATAATGGAGATGAGATTATTCCAACTAATACTCTGGAAGAGATCATGCTAGCCTTTAGCCACTGGACTTACGAATATACAAGAGGGGAGTTACTGGTACTTGATTTGCAAGGTGTTGGTGAAAATTTGACTGACCCATCTGTGATAAAAGCAGAAGAAAAGAGATCCTGTGATATGGTTTTTGGCCCAGCAAATCTAGGAGAAGATGCAATTAAAAACTTCAGAGCAAAACATCACTGTAATTCTTGCTGTAGAAAGCTTAAACTTCCAGATCTGAAGAGGAATGATTATACGCCTGATAAAATTATATTTCCTCAGGATGAGCCTTCAGATTTGAATCTTCAGCCTGGAAATTCCACCAAAGAATCAGAATCAACTAATTCTGTTCGTCTGATGTTATAATATTAATATTACTGAATCATTGGTTTTGCCTGCACCTCACAGAAATGTTACTGTGTCACTTTTCCCTCGGGAGGAAATTGTTTGGTAATATAGAAAGGTGTATGCAAGTTGAATTTGCTGACTCCAGCACAGTTAAAAGGTCAATATTCTTTTGACCTGATTAATCAGTCAGAAAGTCCCTATAGGATAGAGCTGGCAGCTGAGAAATTTTAAAGGTAATTGATAATTAGTATTTATAACTTTTTAAAGGGCTCTTTGTATAGCAGAGGATCTCATTTGACTTTGTTTTGATGAGGGTGATGCTCTCTCTTATGTGGTACAATACCATTAACCAAAGGTAGGTGTCCATGCAGATTTTATTGGCAGCTGTTTTATTGCCATTCAACTAGGGAAATGAAGAAATCACGCAGCCTTTTGGTTAAATGGCAGTCAAAATTTTCCTCAGTGTATTTAGTGTGTTCAGTGATGATATCACTGGTTCCCAACTAGATGCTTGTTGGCCACGGGAAGGGAAATGACTTGTTCTAATTCTAGGTTCACAGAGGTATGAGAAGCCTGAACTGAAGACCATTTTCAAGAGGGACGGTATTTATGAATCAGGGTTAGGCTCCATATTTAAAGATAGAGCCAGTTTTTTTTTTTAAATAGAACCCAAATTGTGTAAAAATGTTAATTGGGTTTTTTAAACATTGTTTTATCAAGTCACTGTTAAGTAGAAGAAAGCCATGGTAAACTGATACATAACCTAAATTATAAAAGCAGAAACCTAACTCACTCGTCAAGGGAAGTTACCTTTTGAGGAAAGTTAAAGTACTTTTTTCCCTATCTGTATCTATAGCAACAACCCAGAACTTACAAACTTCTCCAAAGATTTTATTGATTGTTATATCAAATCAGAATGTAAACATGAACTCTTGCATATATTTAAAATTGTGTTGGAACATTTGAACATGAATGCTGTTTGTGGTACTTAAGAAATTAATTCAGTTGGATTATCATTATGTGATACTGGCAGATTGCAGTGCAACCTTATGCCAATAAAATGTAATTTAACAGCCCCAGATATTGTTGAATATTCAACAATAACAAGAAAAGCTTTTCATCTAAGTTTTATGCTTTAATTTTTTTTCTTTTTTTTTCTTTTTCTTTTGTTTCCTTGGTACTAATTTTAATTTTTATTTGGAAGGGAGCAGTATAAAGCTTATTTGTATTTAGTAGTGTATCTCATAGATACAGACAAGGCAAGAGATGATAAGCTGTTTAAATAGTGTTTAATATTGATTGGGGGTGGGGAGAAAGAAAAAGTGTATTACTTAAAGATACTATATACGTTTTGTATATCATTAAATCTTTAAAAGAAATGAAATAAATTTATTGTTTACAGATGTTTAGTGAGTTTAATCATTCTGAAAAATTATCTGACATTTTCAGGGTGTCAATTTGAGTATCAGTTTTTTTAAATGAACCATTTGTATACCTGTGCTTTTGATCTCCTGTCCTGTACAATGTTTAAATTAATACTGATTTCTTACTGTCTTCTTAGAAATCTGTTTTTTGTTAGGCCAAAAAAGGGCAATATGGGCTGTCTGTTGATTTTTAATTTTATATTGATTATTTTCACAGGATTATAATAGTAGCTATACTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTTGCTTGGGCTGGAGTGCAGTGGTGCGATCTCAGCTCACCACAACCGCCGCCTTCCGGGTTTAAGTGATTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACACGCCACCATGCCCAGCTAATTTTTATATTTTTAGTAGAGACAGGGTTTCACTATGTTGGCCAGTGTGGTCACAAACTCCTGACCTTGTGAGCCACCGCACCTGGCTGCTAACACTTATTTAGTGCCTACTGTGTACCAGACATTACTCTAAGTATTTCACATATATTAACCTACTTAATCCTTATAACAATGTTATAAAGAAATAGGTGTTATTATCCTGTTTTGCAGATTTGAAAGTCAAGGTGCTAGAGAGGTAAAGTAACGTCCATAAGATTCTTACGTTTATTTAATAATAAGTAGCAACGGTAGGATTTGAACCCAGGCTGGCTGCCTTTCATCTATACTGTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTGTCTTGGTGGGGCATGGTGGCTCATGCCTGTAATCCCAGCACTTCGGGAGGCCAAGGCAGGTGGATCACTTGGGCTCAGGAGTTTGAGACCAGCCTGGGCAACATGGCAAAATCCTATCTCTGCTAAAAAAAAAAATACAAAAATTAGGCCAGGTGCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCACAAGGTCAGGAGTTCGAGACCAGCCTGACCAACATAGTGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCTGGGCATGGCGGTGAGTGCCTGTAATCCCAGCTACTCAGGAGTCTGAGGCAGGAGAATTGCTTGAACCTGGGAGGTGGAGGTTGCAGTGAGCTGAGATCGTGCCATTGCGCTCCAGCCTGGGCAACAGTGCGAGACTCCGTCAAAAAAAAAAAAATAACTGGATGTGATGGTGTGCACCTGTAGTTCCAGCTACTTGGGAGACTGAGGTGGGAGGATCACTTGAGCCTGGGAGACTGAGGCAGCAGTGAGCTGAGATCATGCCACTGCTTTCCAACCTGGGCAACAGAGTGAGATCCTGTCTCAGAAAGAAAAAAAAAAAAAAGACAACCTCTTGCTCTGTTGCCCAGGCTGGAGTGTAGTAGCGTGATCATAGCTCACTGCAGCCGTAAACTCCTGGGCTCAAGCAATCCTCCTGCCACTGCCTCTTGATTAGGTGGAACCACAGGCATGCACCACCACACGTACCTAATTTTATATATATATTTTTTTATTTTTCATTTTTATTTATTTTTGTTTTTTTGAGTTGAAGTCTCACTCTGTTGCCCAGGCCGGAGTACAGTGGCACAATCTTGGCTCACTGCAACCTCTGCCTCCCAAGATCAAGCAATTCTCGTGCTTCAGCCTCCAAAGTAGCTGAGATTACAGGTACCCACCATAATGCCTGGCTGATTTTTGTATTTTTCGTAGAGACAAGGTTTCACCTTGTTGGCCAGGCTGATCTCAAACTCCTGACCTCAAGTGATCCACCTCCCCCGGCTACCCAAAGTACTGGGATTATAGGTGTGAGCCACCATGCCTGGGTAACACCCAACTAATTTTAAATATATATTTTGTAGAGATGGGGTCTAGCCTTGTTGCCCACGCTGGTCTCAAATTCCTGGGCTCAAGTGATCCTCTCGCCTGAGCTTCCCAAAGTGGTAGAATTGCAGGCATGAATTGCTGCACCCAGCCTCATCTGTGCTGTGAATTATGTGCTGTATTGACTCTCAAGCATGATGACCATTGGTGGTTTCTGTACCATTTCCTGTTACTTTACTGAAACACACCTACTCCATTAACTTCTTGGGTTAAGTCTAGAAAGTAACAGTTTACTTGTAAACCACATTTCTTATCCCCAATAAGTATTTTTTTAAGATTATTAAAGTTCATTATTACTACCCTATGATGTGAAAGTGTCATTTGCTTAATCTTTTTAATTTTTTATTCTCAACCTCATCTTACTGAAGAGAATAAAACTCTTTTACCATATTCTTAAAATGTGGAATTCTCGGCCAGGTGCAGTGGCTCACGCCTGTAATTCCATCACTTTGGGAGGCCAAGGTGGGTGGATCATCTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTATCTGGGTGTGGTGGCGCGTGCCTGTAGGCCCAGCTACTCAGGAGGCTGAGGCAGGAGAATTGCTTGAACCCAAGAGGTGGAGGTTGCAGTGAGCCTAGATTGCTGCCACTGCACTCCAGCCTGGGTGACAGCAGAACTCTGTCTCAAAAAAAAGATGTGGAATTCTTTTCTGCAAATGTTCTCTAATAGTATACCTTCTTCAGTCTGTCGATATATGTATGCTATTATTTTACAAGTAATACATGTTGATTGTATTGGAAATTATAGAAAAGATTATATTGGATTGTTTAGAAAATATTTTTAAATGTGAAGAAAAATATAAAAATTACTCCCTTGTTCCACTTTCCCCACTCTCAAGTCAGACTATGTTGTTTTCATAGTTAGTAGCTAGCAGTCTACCCCACTAGATTATATGCTTCACAGAGGGAAGGGACCCTCAAGACTTCACTGGATTGAGTAGCACCCAATACCTTGCTTGCTGCCTGGTTTGTGATGGGCATACTGTAAGAAAAAAAAATCTGAATGACAAAATGTTTTTCCATAATACCAGACTTCCTCTTGAAGAGATGGGTCGTAATGTTGTAGTCTTACATGCTTACGTAGACAATCAAAGCAAGAATACTCAATAAATGGCTATTTACCACTTGAAAAAAAAAAAAAAA
>gi|663071049|ref|NM_001297698.1| Homo sapiens Nanog homeobox (NANOG), transcript variant 2, mRNA
TTCATTATAAATCTAGAGACTCCAGGATTTTAACGTTCTGCTGGACTGAGCTGGTTGCCTCATGTTATTATGCAGGCAACTCACTTTATCCCAATTTCTTGATACTTTTCCTTCTGGAGGTCCTATTTCTCTAACATCTTCCAGAAAAGTCTTAAAGCTGCCTTAACCTTTTTTCCAGTCCACCTCTTAAATTTTTTCCTCCTCTTCCTCTATACTAACATGAGTGTGGATCCAGCTTGTCCCCAAAGCTTGCCTTGCTTTGAAGCATCCGACTGTAAAGAATCTTCACCTATGCCTGTGATTTGTGGGCCTGAAGAAAACTATCCATCCTTGCAAATGTCTTCTGCTGAGATGCCTCACACGGAGACTGTCTCTCCTCTTCCTTCCTCCATGGATCTGCTTATTCAGGACAGCCCTGATTCTTCCACCAGTCCCAAAGGCAAACAACCCACTTCTGCAGAGAAGAGTGTCGCAAAAAAGGAAGACAAGGTCCCGGTCAAGAAACAGAAGACCAGAACTGTGTTCTCTTCCACCCAGCTGTGTGTACTCAATGATAGATTTCAGAGACAGAAATACCTCAGCCTCCAGCAGATGCAAGAACTCTCCAACATCCTGAACCTCAGCTACAAACAGGTGAAGACCTGGTTCCAGAACCAGAGAATGAAATCTAAGAGGTGGCAGAAAAACAACTGGCCGAAGAATAGCAATGGTGTGACGCAGGGATGCCTGGTGAACCCGACTGGGAACCTTCCAATGTGGAGCAACCAGACCTGGAACAATTCAACCTGGAGCAACCAGACCCAGAACATCCAGTCCTGGAGCAACCACTCCTGGAACACTCAGACCTGGTGCACCCAATCCTGGAACAATCAGGCCTGGAACAGTCCCTTCTATAACTGTGGAGAGGAATCTCTGCAGTCCTGCATGCAGTTCCAGCCAAATTCTCCTGCCAGTGACTTGGAGGCTGCCTTGGAAGCTGCTGGGGAAGGCCTTAATGTAATACAGCAGACCACTAGGTATTTTAGTACTCCACAAACCATGGATTTATTCCTAAACTACTCCATGAACATGCAACCTGAAGACGTGTGAAGATGAGTGAAACTGATATTACTCAATTTCAGTCTGGACACTGGCTGAATCCTTCCTCTCCCCTCCTCCCATCCCTCATAGGATTTTTCTTGTTTGGAAACCACGTGTTCTGGTTTCCATGATGCCCATCCAGTCAATCTCATGGAGGGTGGAGTATGGTTGGAGCCTAATCAGCGAGGTTTCTTTTTTTTTTTTTTTCCTATTGGATCTTCCTGGAGAAAATACTTTTTTTTTTTTTTTTTTTGAAACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGGTCTTGGCTCACTGCAAGCTCCGTCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGCAGCTGGGACTACAGGCGCCCGCCACCTCGCCCGGCTAATATTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCGCCTCGGCCTCCCTAACAGCTGGGATTTACAGGCGTGAGCCACCGCGCCCTGCCTAGAAAAGACATTTTAATAACCTTGGCTGCCGTCTCTGGCTATAGATAAGTAGATCTAATACTAGTTTGGATATCTTTAGGGTTTAGAATCTAACCTCAAGAATAAGAAATACAAGTACAAATTGGTGATGAAGATGTATTCGTATTGTTTGGGATTGGGAGGCTTTGCTTATTTTTTAAAAACTATTGAGGTAAAGGGTTAAGCTGTAACATACTTAATTGATTTCTTACCGTTTTTGGCTCTGTTTTGCTATATCCCCTAATTTGTTGGTTGTGCTAATCTTTGTAGAAAGAGGTCTCGTATTTGCTGCATCGTAATGACATGAGTACTGCTTTAGTTGGTTTAAGTTCAAATGAATGAAACAACTATTTTTCCTTTAGTTGATTTTACCCTGATTTCACCGAGTGTTTCAATGAGTAAATATACAGCTTAAACATAA
>gi|663071048|ref|NM_024865.3| Homo sapiens Nanog homeobox (NANOG), transcript variant 1, mRNA
TTCATTATAAATCTAGAGACTCCAGGATTTTAACGTTCTGCTGGACTGAGCTGGTTGCCTCATGTTATTATGCAGGCAACTCACTTTATCCCAATTTCTTGATACTTTTCCTTCTGGAGGTCCTATTTCTCTAACATCTTCCAGAAAAGTCTTAAAGCTGCCTTAACCTTTTTTCCAGTCCACCTCTTAAATTTTTTCCTCCTCTTCCTCTATACTAACATGAGTGTGGATCCAGCTTGTCCCCAAAGCTTGCCTTGCTTTGAAGCATCCGACTGTAAAGAATCTTCACCTATGCCTGTGATTTGTGGGCCTGAAGAAAACTATCCATCCTTGCAAATGTCTTCTGCTGAGATGCCTCACACGGAGACTGTCTCTCCTCTTCCTTCCTCCATGGATCTGCTTATTCAGGACAGCCCTGATTCTTCCACCAGTCCCAAAGGCAAACAACCCACTTCTGCAGAGAAGAGTGTCGCAAAAAAGGAAGACAAGGTCCCGGTCAAGAAACAGAAGACCAGAACTGTGTTCTCTTCCACCCAGCTGTGTGTACTCAATGATAGATTTCAGAGACAGAAATACCTCAGCCTCCAGCAGATGCAAGAACTCTCCAACATCCTGAACCTCAGCTACAAACAGGTGAAGACCTGGTTCCAGAACCAGAGAATGAAATCTAAGAGGTGGCAGAAAAACAACTGGCCGAAGAATAGCAATGGTGTGACGCAGAAGGCCTCAGCACCTACCTACCCCAGCCTTTACTCTTCCTACCACCAGGGATGCCTGGTGAACCCGACTGGGAACCTTCCAATGTGGAGCAACCAGACCTGGAACAATTCAACCTGGAGCAACCAGACCCAGAACATCCAGTCCTGGAGCAACCACTCCTGGAACACTCAGACCTGGTGCACCCAATCCTGGAACAATCAGGCCTGGAACAGTCCCTTCTATAACTGTGGAGAGGAATCTCTGCAGTCCTGCATGCAGTTCCAGCCAAATTCTCCTGCCAGTGACTTGGAGGCTGCCTTGGAAGCTGCTGGGGAAGGCCTTAATGTAATACAGCAGACCACTAGGTATTTTAGTACTCCACAAACCATGGATTTATTCCTAAACTACTCCATGAACATGCAACCTGAAGACGTGTGAAGATGAGTGAAACTGATATTACTCAATTTCAGTCTGGACACTGGCTGAATCCTTCCTCTCCCCTCCTCCCATCCCTCATAGGATTTTTCTTGTTTGGAAACCACGTGTTCTGGTTTCCATGATGCCCATCCAGTCAATCTCATGGAGGGTGGAGTATGGTTGGAGCCTAATCAGCGAGGTTTCTTTTTTTTTTTTTTTCCTATTGGATCTTCCTGGAGAAAATACTTTTTTTTTTTTTTTTTTTGAAACGGAGTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGCGGTCTTGGCTCACTGCAAGCTCCGTCTCCCGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCGAGCAGCTGGGACTACAGGCGCCCGCCACCTCGCCCGGCTAATATTTTGTATTTTTAGTAGAGACGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCACCCGCCTCGGCCTCCCTAACAGCTGGGATTTACAGGCGTGAGCCACCGCGCCCTGCCTAGAAAAGACATTTTAATAACCTTGGCTGCCGTCTCTGGCTATAGATAAGTAGATCTAATACTAGTTTGGATATCTTTAGGGTTTAGAATCTAACCTCAAGAATAAGAAATACAAGTACAAATTGGTGATGAAGATGTATTCGTATTGTTTGGGATTGGGAGGCTTTGCTTATTTTTTAAAAACTATTGAGGTAAAGGGTTAAGCTGTAACATACTTAATTGATTTCTTACCGTTTTTGGCTCTGTTTTGCTATATCCCCTAATTTGTTGGTTGTGCTAATCTTTGTAGAAAGAGGTCTCGTATTTGCTGCATCGTAATGACATGAGTACTGCTTTAGTTGGTTTAAGTTCAAATGAATGAAACAACTATTTTTCCTTTAGTTGATTTTACCCTGATTTCACCGAGTGTTTCAATGAGTAAATATACAGCTTAAACATAA
>gi|634743316|ref|NM_213647.2| Homo sapiens fibroblast growth factor receptor 4 (FGFR4), transcript variant 3, mRNA
GACAGGAGGTGGGCCGCTCGCGGCCACGCCGCCGTCGCGGGTACATTCCTCGCTCCCGGCCGAGGAGCGCTCGGGCTGTCTGCGGACCCTGCCGCGTGCAGGGGTCGCGGCCGGCTGGAGCTGGGAGTGAGGCGGCGGAGGAGCCAGGTGAGGAGGAGCCAGGTGAGCAGGACCCTGTGCTGGGCGCGGAGTCACGCAGGCTCGAGGAAGGCAGTTGGTGGGAAGTCCAGCTTGGGTCCCTGAGAGCTGTGAGAAGGAGATGCGGCTGCTGCTGGCCCTGTTGGGGGTCCTGCTGAGTGTGCCTGGGCCTCCAGTCTTGTCCCTGGAGGCCTCTGAGGAAGTGGAGCTTGAGCCCTGCCTGGCTCCCAGCCTGGAGCAGCAAGAGCAGGAGCTGACAGTAGCCCTTGGGCAGCCTGTGCGTCTGTGCTGTGGGCGGGCTGAGCGTGGTGGCCACTGGTACAAGGAGGGCAGTCGCCTGGCACCTGCTGGCCGTGTACGGGGCTGGAGGGGCCGCCTAGAGATTGCCAGCTTCCTACCTGAGGATGCTGGCCGCTACCTCTGCCTGGCACGAGGCTCCATGATCGTCCTGCAGAATCTCACCTTGATTACAGGTGACTCCTTGACCTCCAGCAACGATGATGAGGACCCCAAGTCCCATAGGGACCCCTCGAATAGGCACAGTTACCCCCAGCAAGCACCCTACTGGACACACCCCCAGCGCATGGAGAAGAAACTGCATGCAGTACCTGCGGGGAACACCGTCAAGTTCCGCTGTCCAGCTGCAGGCAACCCCACGCCCACCATCCGCTGGCTTAAGGATGGACAGGCCTTTCATGGGGAGAACCGCATTGGAGGCATTCGGCTGCGCCATCAGCACTGGAGTCTCGTGATGGAGAGCGTGGTGCCCTCGGACCGCGGCACATACACCTGCCTGGTAGAGAACGCTGTGGGCAGCATCCGCTATAACTACCTGCTAGATGTGCTGGAGCGGTCCCCGCACCGGCCCATCCTGCAGGCCGGGCTCCCGGCCAACACCACAGCCGTGGTGGGCAGCGACGTGGAGCTGCTGTGCAAGGTGTACAGCGATGCCCAGCCCCACATCCAGTGGCTGAAGCACATCGTCATCAACGGCAGCAGCTTCGGAGCCGACGGTTTCCCCTATGTGCAAGTCCTAAAGACTGCAGACATCAATAGCTCAGAGGTGGAGGTCCTGTACCTGCGGAACGTGTCAGCCGAGGACGCAGGCGAGTACACCTGCCTCGCAGGCAATTCCATCGGCCTCTCCTACCAGTCTGCCTGGCTCACGGTGCTGCCAGAGGAGGACCCCACATGGACCGCAGCAGCGCCCGAGGCCAGGTATACGGACATCATCCTGTACGCGTCGGGCTCCCTGGCCTTGGCTGTGCTCCTGCTGCTGGCCGGGCTGTATCGAGGGCAGGCGCTCCACGGCCGGCACCCCCGCCCGCCCGCCACTGTGCAGAAGCTCTCCCGCTTCCCTCTGGCCCGACAGTTCTCCCTGGAGTCAGGCTCTTCCGGCAAGTCAAGCTCATCCCTGGTACGAGGCGTGCGTCTCTCCTCCAGCGGCCCCGCCTTGCTCGCCGGCCTCGTGAGTCTAGATCTACCTCTCGACCCACTATGGGAGTTCCCCCGGGACAGGCTGGTGCTTGGGAAGCCCCTAGGCGAGGGCTGCTTTGGCCAGGTAGTACGTGCAGAGGCCTTTGGCATGGACCCTGCCCGGCCTGACCAAGCCAGCACTGTGGCCGTCAAGATGCTCAAAGACAACGCCTCTGACAAGGACCTGGCCGACCTGGTCTCGGAGATGGAGGTGATGAAGCTGATCGGCCGACACAAGAACATCATCAACCTGCTTGGTGTCTGCACCCAGGAAGGGCCCCTGTACGTGATCGTGGAGTGCGCCGCCAAGGGAAACCTGCGGGAGTTCCTGCGGGCCCGGCGCCCCCCAGGCCCCGACCTCAGCCCCGACGGTCCTCGGAGCAGTGAGGGGCCGCTCTCCTTCCCAGTCCTGGTCTCCTGCGCCTACCAGGTGGCCCGAGGCATGCAGTATCTGGAGTCCCGGAAGTGTATCCACCGGGACCTGGCTGCCCGCAATGTGCTGGTGACTGAGGACAATGTGATGAAGATTGCTGACTTTGGGCTGGCCCGCGGCGTCCACCACATTGACTACTATAAGAAAACCAGCAACGGCCGCCTGCCTGTGAAGTGGATGGCGCCCGAGGCCTTGTTTGACCGGGTGTACACACACCAGAGTGACGTGTGGTCTTTTGGGATCCTGCTATGGGAGATCTTCACCCTCGGGGGCTCCCCGTATCCTGGCATCCCGGTGGAGGAGCTGTTCTCGCTGCTGCGGGAGGGACATCGGATGGACCGACCCCCACACTGCCCCCCAGAGCTGTACGGGCTGATGCGTGAGTGCTGGCACGCAGCGCCCTCCCAGAGGCCTACCTTCAAGCAGCTGGTGGAGGCGCTGGACAAGGTCCTGCTGGCCGTCTCTGAGGAGTACCTCGACCTCCGCCTGACCTTCGGACCCTATTCCCCCTCTGGTGGGGACGCCAGCAGCACCTGCTCCTCCAGCGATTCTGTCTTCAGCCACGACCCCCTGCCATTGGGATCCAGCTCCTTCCCCTTCGGGTCTGGGGTGCAGACATGAGCAAGGCTCAAGGCTGTGCAGGCACATAGGCTGGTGGCCTTGGGCCTTGGGGCTCAGCCACAGCCTGACACAGTGCTCGACCTTGATAGCATGGGGCCCCTGGCCCAGAGTTGCTGTGCCGTGTCCAAGGGCCGTGCCCTTGCCCTTGGAGCTGCCGTGCCTGTGTCCTGATGGCCCAAATGTCAGGGTTCTGCTCGGCTTCTTGGACCTTGGCGCTTAGTCCCCATCCCGGGTTTGGCTGAGCCTGGCTGGAGAGCTGCTATGCTAAACCTCCTGCCTCCCAATACCAGCAGGAGGTTCTGGGCCTCTGAACCCCCTTTCCCCACACCTCCCCCTGCTGCTGCTGCCCCAGCGTCTTGACGGGAGCATTGGCCCCTGAGCCCAGAGAAGCTGGAAGCCTGCCGAAAACAGGAGCAAATGGCGTTTTATAAATTATTTTTTTGAAATAAAGCTCTGTGTGCCTGGGAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|634743313|ref|NM_001291980.1| Homo sapiens fibroblast growth factor receptor 4 (FGFR4), transcript variant 4, mRNA
GACAGGAGGTGGGCCGCTCGCGGCCACGCCGCCGTCGCGGGTACATTCCTCGCTCCCGGCCGAGGAGCGCTCGGGCTGTCTGCGGACCCTGCCGCGTGCAGGGGTCGCGGCCGGCTGGAGCTGGGAGTGAGGCGGCGGAGGAGCCAGGTGAGGAGGAGCCAGGAAGGCAGTTGGTGGGAAGTCCAGCTTGGGTCCCTGAGAGCTGTGAGAAGGAGATGCGGCTGCTGCTGGCCCTGTTGGGGGTCCTGCTGAGTGTGCCTGGGCCTCCAGTCTTGTCCCTGGAGGCCTCTGAGGAAGTGGAGCTTGAGCCCTGCCTGGCTCCCAGCCTGGAGCAGCAAGAGCAGGAGCTGACAGTAGCCCTTGGGCAGCCTGTGCGTCTGTGCTGTGGGCGGGCTGAGCGTGGTGGCCACTGGTACAAGGAGGGCAGTCGCCTGGCACCTGCTGGCCGTGTACGGGGCTGGAGGGGCCGCCTAGAGATTGCCAGCTTCCTACCTGAGGATGCTGGCCGCTACCTCTGCCTGGCACGAGGCTCCATGATCGTCCTGCAGAATCTCACCTTGATTACAGGTGACTCCTTGACCTCCAGCAACGATGATGAGGACCCCAAGTCCCATAGGGACCCCTCGAATAGGCACAGTTACCCCCAGCAAGCACCCTACTGGACACACCCCCAGCGCATGGAGAAGAAACTGCATGCAGTACCTGCGGGGAACACCGTCAAGTTCCGCTGTCCAGCTGCAGGCAACCCCACGCCCACCATCCGCTGGCTTAAGGATGGACAGGCCTTTCATGGGGAGAACCGCATTGGAGGCATTCGGCTGCGCCATCAGCACTGGAGTCTCGTGATGGAGAGCGTGGTGCCCTCGGACCGCGGCACATACACCTGCCTGGTAGAGAACGCTGTGGGCAGCATCCGCTATAACTACCTGCTAGATGTGCTGGAGCGGTCCCCGCACCGGCCCATCCTGCAGGCCGGGCTCCCGGCCAACACCACAGCCGTGGTGGGCAGCGACGTGGAGCTGCTGTGCAAGGTGTACAGCGATGCCCAGCCCCACATCCAGTGGCTGAAGCACATCGTCATCAACGGCAGCAGCTTCGGAGCCGACGGTTTCCCCTATGTGCAAGTCCTAAAGACTGCAGACATCAATAGCTCAGAGGTGGAGGTCCTGTACCTGCGGAACGTGTCAGCCGAGGACGCAGGCGAGTACACCTGCCTCGCAGGCAATTCCATCGGCCTCTCCTACCAGTCTGCCTGGCTCACGGTGCTGCCAGAGGAGGACCCCACATGGACCGCAGCAGCGCCCGAGGCCAGTTCTCCCTGGAGTCAGGCTCTTCCGGCAAGTCAAGCTCATCCCTGGTACGAGGCGTGCGTCTCTCCTCCAGCGGCCCCGCCTTGCTCGCCGGCCTCGCTGGTGCTTGGGAAGCCCCTAGGCGAGGGCTGCTTTGGCCAGGTAGTACGTGCAGAGGCCTTTGGCATGGACCCTGCCCGGCCTGACCAAGCCAGCACTGTGGCCGTCAAGATGCTCAAAGACAACGCCTCTGACAAGGACCTGGCCGACCTGGTCTCGGAGATGGAGGTGATGAAGCTGATCGGCCGACACAAGAACATCATCAACCTGCTTGGTGTCTGCACCCAGGAAGGGCCCCTGTACGTGATCGTGGAGTGCGCCGCCAAGGGAAACCTGCGGGAGTTCCTGCGGGCCCGGCGCCCCCCAGGCCCCGACCTCAGCCCCGACGGTCCTCGGAGCAGTGAGGGGCCGCTCTCCTTCCCAGTCCTGGTCTCCTGCGCCTACCAGGTGGCCCGAGGCATGCAGTATCTGGAGTCCCGGAAGTGTATCCACCGGGACCTGGCTGCCCGCAATGTGCTGGTGACTGAGGACAATGTGATGAAGATTGCTGACTTTGGGCTGGCCCGCGGCGTCCACCACATTGACTACTATAAGAAAACCAGCAACGGCCGCCTGCCTGTGAAGTGGATGGCGCCCGAGGCCTTGTTTGACCGGGTGTACACACACCAGAGTGACGTGTGGTCTTTTGGGATCCTGCTATGGGAGATCTTCACCCTCGGGGGCTCCCCGTATCCTGGCATCCCGGTGGAGGAGCTGTTCTCGCTGCTGCGGGAGGGACATCGGATGGACCGACCCCCACACTGCCCCCCAGAGCTGTACGGGCTGATGCGTGAGTGCTGGCACGCAGCGCCCTCCCAGAGGCCTACCTTCAAGCAGCTGGTGGAGGCGCTGGACAAGGTCCTGCTGGCCGTCTCTGAGGAGTACCTCGACCTCCGCCTGACCTTCGGACCCTATTCCCCCTCTGGTGGGGACGCCAGCAGCACCTGCTCCTCCAGCGATTCTGTCTTCAGCCACGACCCCCTGCCATTGGGATCCAGCTCCTTCCCCTTCGGGTCTGGGGTGCAGACATGAGCAAGGCTCAAGGCTGTGCAGGCACATAGGCTGGTGGCCTTGGGCCTTGGGGCTCAGCCACAGCCTGACACAGTGCTCGACCTTGATAGCATGGGGCCCCTGGCCCAGAGTTGCTGTGCCGTGTCCAAGGGCCGTGCCCTTGCCCTTGGAGCTGCCGTGCCTGTGTCCTGATGGCCCAAATGTCAGGGTTCTGCTCGGCTTCTTGGACCTTGGCGCTTAGTCCCCATCCCGGGTTTGGCTGAGCCTGGCTGGAGAGCTGCTATGCTAAACCTCCTGCCTCCCAATACCAGCAGGAGGTTCTGGGCCTCTGAACCCCCTTTCCCCACACCTCCCCCTGCTGCTGCTGCCCCAGCGTCTTGACGGGAGCATTGGCCCCTGAGCCCAGAGAAGCTGGAAGCCTGCCGAAAACAGGAGCAAATGGCGTTTTATAAATTATTTTTTTGAAATAAAGCTCTGTGTGCCTGGGAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|574957209|ref|NM_001145775.2| Homo sapiens FK506 binding protein 5 (FKBP5), transcript variant 2, mRNA
AGAACAAACTCCTACCTCTGTTTGCAACTAAGAGTTACATCCCCCATGCCAAGACCTTCCGAGGCGTCCCAGAGGGGGAAATTCCTCGCTGCCGGACTGCGCCCACCCTTGAGGACCTCACATTCTCTTTGGGCAGAGCGGAAGCCAGACAGAGACAGGGACTACGAAGCGACAATCCCCAGCCCTGTGTGTGCAAGGAGCCCCCGAGGGGCAGGCAGCCACGCTGCAGAAGGCTAGACTCTCCGACCCCCAGGGAGCCTGGTGTGGGCTGCAGGGACAGAACGCTTCTCAGAGGAGGTTCTCTACTTAAAAGACAATGACTACTGATGAAGGTGCCAAGAACAATGAAGAAAGCCCCACAGCCACTGTTGCTGAGCAGGGAGAGGATATTACCTCCAAAAAAGACAGGGGAGTATTAAAGATTGTCAAAAGAGTGGGGAATGGTGAGGAAACGCCGATGATTGGAGACAAAGTTTATGTCCATTACAAAGGAAAATTGTCAAATGGAAAGAAGTTTGATTCCAGTCATGATAGAAATGAACCATTTGTCTTTAGTCTTGGCAAAGGCCAAGTCATCAAGGCATGGGACATTGGGGTGGCTACCATGAAGAAAGGAGAGATATGCCATTTACTGTGCAAACCAGAATATGCATATGGCTCGGCTGGCAGTCTCCCTAAAATTCCCTCGAATGCAACTCTCTTTTTTGAGATTGAGCTCCTTGATTTCAAAGGAGAGGATTTATTTGAAGATGGAGGCATTATCCGGAGAACCAAACGGAAAGGAGAGGGATATTCAAATCCAAACGAAGGAGCAACAGTAGAAATCCACCTGGAAGGCCGCTGTGGTGGAAGGATGTTTGACTGCAGAGATGTGGCATTCACTGTGGGCGAAGGAGAAGACCACGACATTCCAATTGGAATTGACAAAGCTCTGGAGAAAATGCAGCGGGAAGAACAATGTATTTTATATCTTGGACCAAGATATGGTTTTGGAGAGGCAGGGAAGCCTAAATTTGGCATTGAACCTAATGCTGAGCTTATATATGAAGTTACACTTAAGAGCTTCGAAAAGGCCAAAGAATCCTGGGAGATGGATACCAAAGAAAAATTGGAGCAGGCTGCCATTGTCAAAGAGAAGGGAACCGTATACTTCAAGGGAGGCAAATACATGCAGGCGGTGATTCAGTATGGGAAGATAGTGTCCTGGTTAGAGATGGAATATGGTTTATCAGAAAAGGAATCGAAAGCTTCTGAATCATTTCTCCTTGCTGCCTTTCTGAACCTGGCCATGTGCTACCTGAAGCTTAGAGAATACACCAAAGCTGTTGAATGCTGTGACAAGGCCCTTGGACTGGACAGTGCCAATGAGAAAGGCTTGTATAGGAGGGGTGAAGCCCAGCTGCTCATGAACGAGTTTGAGTCAGCCAAGGGTGACTTTGAGAAAGTGCTGGAAGTAAACCCCCAGAATAAGGCTGCAAGACTGCAGATCTCCATGTGCCAGAAAAAGGCCAAGGAGCACAACGAGCGGGACCGCAGGATATACGCCAACATGTTCAAGAAGTTTGCAGAGCAGGATGCCAAGGAAGAGGCCAATAAAGCAATGGGCAAGAAGACTTCAGAAGGGGTCACTAATGAAAAAGGAACAGACAGTCAAGCAATGGAAGAAGAGAAACCTGAGGGCCACGTATGACGCCACGCCAAGGAGGGAAGAGTCCCAGTGAACTCGGCCCCTCCTCAATGGGCTTTCCCCCAACTCAGGACAGAACAGTGTTTAATGTAAAGTTTGTTATAGTCTATGTGATTCTGGAAGCAAATGGCAAAACCAGTAGCTTCCCAAAAACAGCCCCCCTGCTGCTGCCCGGAGGGTTCACTGAGGGGTGGCACGGGACCACTCCAGGTGGAACAAACAGAAATGACTGTGGTGTGGAGGGAGTGAGCCAGCAGCTTAAGTCCAGCTCATTTCAGTTTCTATCAACCTTCAAGTATCCAATTCAGGGTCCCTGGAGATCATCCTAACAATGTGGGGCTGTTAGGTTTTACCTTTGAACTTTCATAGCACTGCAGAAACCTTTAAAAAAAAAATGCTTCATGAATTTCTCCTTTCCTACAGTTGGGTAGGGTAGGGGAAGGAGGATAAGCTTTTGTTTTTTAAATGACTGAAGTGCTATAAATGTAGTCTGTTGCATTTTTAACCAACAGAACCCACAGTAGAGGGGTCTCATGTCTCCCCAGTTCCACAGCAGTGTCACAGACGTGAAAGCCAGAACCTCAGAGGCCACTTGCTTGCTGACTTAGCCTCCTCCCAAAGTCCCCCTCCTCAGCCAGCCTCCTTGTGAGAGTGGCTTTCTACCACACACAGCCTGTCCCTGGGGGAGTAATTCTGTCATTCCTAAAACACCCTTCAGCAATGATAATGAGCAGATGAGAGTTTCTGGATTAGCTTTTCCTATTTTCGATGAAGTTCTGAGATACTGAAATGTGAAAAGAGCAATCAGAATTGTGCTTTTTCTCCCCTCCTCTATTCCTTTTAGGGAATAATATTCAATACACAGTACTTCCTCCCAGCATTGCTACTGCTCAGCTTCTTCTTTCATTCTAATCCTTGCTATTAAGAATTTAAGACTTGTGCTTACAATATTTTTGACCTGGAGTGGATCTATTTACATAGTCATTTAGGATCCATGCAGCTTTTTTTGTCTTTTTAAGATTATTGGCTCATAAGCATATGTATACTGGTTTATGGAACTTTATTTACACTCCTCTATCATGCAAAAAAATTTTGACTTTTTAGTACTAAGCTTAATTTTTAAAAACAAAATCTGTAGGGTTGACAAATAAATAGTTGCTCTTCTACACTAGGGGTTTCACCTGCAGGTTTGACACGCAGTTGCTCGCTTTTCCTGCCCTGTCAAGCTTCTCTGTTCTGGCGTGAGTTGTGAAAGAGTTGAAGACAGCTTCCCATGCCGGTACACAGCCAGTAGCCTAAATCTCCAGTACTTGAGCTGACCATTGAACTAGGGCAAGTCTTAAATGTGTACATGTAGTTGAATTTCAGTCCTTACGGGTAAACAGATTGAGCATGGCTCTCTATTCCCTCAGCCTAAGAAACACTCATGGGAATGCATTTGGCAACCCAAGGAACCATTTGCTTAAACCTGGAACATCTCACCTTTTTAAATCCTAAAAAACACTGGCAGTTATATTTTAAATTAGTTTTTATTTTTATGATGGTTTTATCAAAAGACTTTTATTATTAGATTGGGACCCCCTTCAAACCTAAAAATCAAGTTATTTCCTTTTATAATACTTTTCTTCCCCATGGAACAAATGGGATCAATTTGTGAGTTTTTTCCTTTAATGATAACTAAAATCCCTCTAATTTCTCATTTATGCTTTTGTCTTTTTTATGAAATATTTCTTTTAAAAGCCCCAGTCTCACCTACGAAATATGAAGAGCAAAAGCTGATTTTGCTTACTTGCTAAACTGTTGGGAAAGCTCTGTAGAGCATGGTTCCAGTGAGGCCAAGATTGAAATTTGATACTAAAAAGGCCACCTAGCTTTTTGCAGATAACAAACAAGAAAGCTATTCCAAGACTCAGATGATGCCAGCTGTCTCCCACGTGTGTATTATGGTTCACCAGGGGGAACTGGCAAAAGTGTGTGTGGGGAGGGGAAGGGTGTGTGAGTGGTTCTGAGCAAATAACTACAGGGTGCCCATTACCACTCAAGAAGACACTTCACGTATTCTTGTATCAAATTCAATAATCTTAAACAATTTGTGTAGAAGTCCACAGACATCTTTCAACCACCTTTTAGGCTGCATATGGATTGCCAAGTCAGCATATGAGGAATTAAAGACATTGTTTTTAAAAAAAAAAAATCATTTAGATGCACTTTTTTGTGTGTTCTTTAAATAAATCCAAAAAAAATGTGACTTCCAAAAAAAAAAA
>gi|572871808|ref|NM_000235.3| Homo sapiens lipase A, lysosomal acid type (LIPA), transcript variant 2, mRNA
AGAGCTGTGGACCTGCCAGCCTGCGAGGCGGAGGACGGGCTCCATCTCTTAGAAACGCCTACGGCGCATGCTCTATGGGGTCAACTGGGGGGCTGGCAAGCGGCAGCGCTGGTCTGGGGCGGAGTCTCCGAGGCACTTCCCGGTGGCTGGCTGCTCTGATTGGCTGAACAAATAGTCCGAGGGTGGTGGGCATCCGCCCTCCCGACAAGGCAGACCAGGCCCCCTGCAGGTCCCCTATCCGCACCCCGGCCCCTGAGAGCTGGCACTGCGACTCGAGACAGCGGCCCGGCAGGACAGCTCCAGAATGAAAATGCGGTTCTTGGGGTTGGTGGTCTGTTTGGTTCTCTGGACCCTGCATTCTGAGGGGTCTGGAGGGAAACTGACAGCTGTGGATCCTGAAACAAACATGAATGTGAGTGAAATTATCTCTTACTGGGGATTCCCTAGTGAGGAATACCTAGTTGAGACAGAAGATGGATATATTCTGTGCCTTAACCGAATTCCTCATGGGAGGAAGAACCATTCTGACAAAGGTCCCAAACCAGTTGTCTTCCTGCAACATGGCTTGCTGGCAGATTCTAGTAACTGGGTCACAAACCTTGCCAACAGCAGCCTGGGCTTCATTCTTGCTGATGCTGGTTTTGACGTGTGGATGGGCAACAGCAGAGGAAATACCTGGTCTCGGAAACATAAGACACTCTCAGTTTCTCAGGATGAATTCTGGGCTTTCAGTTATGATGAGATGGCAAAATATGACCTACCAGCTTCCATTAACTTCATTCTGAATAAAACTGGCCAAGAACAAGTGTATTATGTGGGTCATTCTCAAGGCACCACTATAGGTTTTATAGCATTTTCACAGATCCCTGAGCTGGCTAAAAGGATTAAAATGTTTTTTGCCCTGGGTCCTGTGGCTTCCGTCGCCTTCTGTACTAGCCCTATGGCCAAATTAGGACGATTACCAGATCATCTCATTAAGGACTTATTTGGAGACAAAGAATTTCTTCCCCAGAGTGCGTTTTTGAAGTGGCTGGGTACCCACGTTTGCACTCATGTCATACTGAAGGAGCTCTGTGGAAATCTCTGTTTTCTTCTGTGTGGATTTAATGAGAGAAATTTAAATATGTCTAGAGTGGATGTATATACAACACATTCTCCTGCTGGAACTTCTGTGCAAAACATGTTACACTGGAGCCAGGCTGTTAAATTCCAAAAGTTTCAAGCCTTTGACTGGGGAAGCAGTGCCAAGAATTATTTTCATTACAACCAGAGTTATCCTCCCACATACAATGTGAAGGACATGCTTGTGCCGACTGCAGTCTGGAGCGGGGGTCACGACTGGCTTGCAGATGTCTACGACGTCAATATCTTACTGACTCAGATCACCAACTTGGTGTTCCATGAGAGCATTCCGGAATGGGAGCATCTTGACTTCATTTGGGGCCTGGATGCCCCTTGGAGGCTTTATAATAAAATTATTAATCTAATGAGGAAATATCAGTGAAAGCTGGACTTGAGCTGTGTACCACCAAGTCAATGATTATGTCATGTGAAAATGTGTTTGCTTCATTTCTGTAAAACACTTGTTTTTCTTTCCCAGGTCTTTTGTTTTTTTATATCCAAGAAAATGATAACTTTGAAGATGCCCAGTTCACTCTAGTTTCAATTAGAAACATACTAGCTATTTTTTCTTTAATTAGGGCTGGAATAGGAAGCCAGTGTCTCAACCATAGTATTGTCTCTTTAAGTCTTTTAAATATCACTGATGTGTAAAAAGGTCATTATATCCATTCTGTTTTTAAAATTTAAAATATATTGACTTTTTGCCCTTCATAGGACAAAGTAATATATGTGTTGGAATTTTAAAATTGTGTTGTCATTGGTAAATCTGTCACTGACTTAAGCGAGGTATAAAAGTACGCAGTTTTCATGTCCTTGCCTTAAAGAGCTCTCTAGTCTAACGGTCTTGTAGTTAGAGATCTAAATGACATTTTATCATGTTTTCCTGCAGCAGGTGCATAGTCAAATCCAGAAATATCACAGCTGTGCCAGTAATAAGGATGCTAACAATTAATTTTATCAAACCTAACTGTGACAGCTGTGATTTGACACGTTTTAATTGCTCAGGTTAAATGAAATAGTTTTCCGGCGTCTTCAAAAACAAATTGCACTGATAAAACAAAAACAAAAGTATGTTTTAAATGCTTTGAAGACTGATACACTCAACCATCTATATTCATGAGCTCTCAATTTCATGGCAGGCCATAGTTCTACTTATCTGAGAAGCAAATCCCTGTGGAGACTATACCACTATTTTTTCTGAGATTAATGTACTCTTGGAGCCCGCTACTGTCGTTATTGATCACATCTGTGTGAAGCCAAAGCCCCGTGGTTGCCCATGAGAAGTGTCCTTGTTCATTTTCACCCAAATGAAGTGTGAACGTGATGTTTTCGGATGCAAACTCAGCTCAGGGATTCATTTTGTGTCTTAGTTTTATATGCATCCTTATTTTTAATACACCTGCTTCACGTCCCTATGTTGGGAAGTCCATATTTGTCTGCTTTTCTTGCAGCATCATTTCCTTACAATACTGTCCGGTGGACAAAATGACAATTGATATGTTTTTCTGATATAATTACTTTAGCTGCACTAACAGTACAATGCTTGTTAATGGTTAATATAGGCAGGGCGAATACTACTTTGTAACTTTTAAAGTCTTAAACTTTTCAATAAAATTGAGTGAGACTTATAGGCCCAAAGAAAAAAAAAAAAAA
>gi|563407071|ref|NM_001287183.1| Homo sapiens hepatocyte nuclear factor 4 alpha (HNF4A), transcript variant 9, mRNA
GGCCATGGTCAGCGTGAACGCGCCCCTCGGGGCTCCAGTGGAGAGTTCTTACGGTCTGCAGTTTCCATGGAGACCGCCTCCCACCATCCCTGAAATCTCATTGTGACCAGTATTAAGGGATTAACTCTGCCCAGCGGCCCTCGCAGGGTCTGGGGTGCTGAGAGGGGCCAGCAGGAGCTCCCTCAAGGATGAAGAGGTTGTGCACTGTGCGGGACCCCATAGCAGCAGGAGGAGGATGTCGGACTGGGGCCAGGGCTTCCCCCAGGACCCACCAGACACGTCCCCATCAGAAGGCACCAACCTCAACGCGCCCAACAGCCTGGGTGTCAGCGCCCTGTGTGCCATCTGCGGGGACCGGGCCACGGGCAAACACTACGGTGCCTCGAGCTGTGACGGCTGCAAGGGCTTCTTCCGGAGGAGCGTGCGGAAGAACCACATGTACTCCTGCAGATTTAGCCGGCAGTGCGTGGTGGACAAAGACAAGAGGAACCAGTGCCGCTACTGCAGGCTCAAGAAATGCTTCCGGGCTGGCATGAAGAAGGAAGCCGTCCAGAATGAGCGGGACCGGATCAGCACTCGAAGGTCAAGCTATGAGGACAGCAGCCTGCCCTCCATCAATGCGCTCCTGCAGGCGGAGGTCCTGTCCCGACAGATCACCTCCCCCGTCTCCGGGATCAACGGCGACATTCGGGCGAAGAAGATTGCCAGCATCGCAGATGTGTGTGAGTCCATGAAGGAGCAGCTGCTGGTTCTCGTTGAGTGGGCCAAGTACATCCCAGCTTTCTGCGAGCTCCCCCTGGACGACCAGGTGGCCCTGCTCAGAGCCCATGCTGGCGAGCACCTGCTGCTCGGAGCCACCAAGAGATCCATGGTGTTCAAGGACGTGCTGCTCCTAGGCAATGACTACATTGTCCCTCGGCACTGCCCGGAGCTGGCGGAGATGAGCCGGGTGTCCATACGCATCCTTGACGAGCTGGTGCTGCCCTTCCAGGAGCTGCAGATCGATGACAATGAGTATGCCTACCTCAAAGCCATCATCTTCTTTGACCCAGATGCCAAGGGGCTGAGCGATCCAGGGAAGATCAAGCGGCTGCGTTCCCAGGTGCAGGTGAGCTTGGAGGACTACATCAACGACCGCCAGTATGACTCGCGTGGCCGCTTTGGAGAGCTGCTGCTGCTGCTGCCCACCTTGCAGAGCATCACCTGGCAGATGATCGAGCAGATCCAGTTCATCAAGCTCTTCGGCATGGCCAAGATTGACAACCTGTTGCAGGAGATGCTGCTGGGAGGGTCCCCCAGCGATGCACCCCATGCCCACCACCCCCTGCACCCTCACCTGATGCAGGAACATATGGGAACCAACGTCATCGTTGCCAACACAATGCCCACTCACCTCAGCAACGGACAGATGTGTGAGTGGCCCCGACCCAGGGGACAGGCAGCCACCCCTGAGACCCCACAGCCCTCACCGCCAGGTGGCTCAGGGTCTGAGCCCTATAAGCTCCTGCCGGGAGCCGTCGCCACAATCGTCAAGCCCCTCTCTGCCATCCCCCAGCCGACCATCACCAAGCAGGAAGTTATCTAGCAAGCCGCTGGGGCTTGGGGGCTCCACTGGCTCCCCCCAGCCCCCTAAGAGAGCACCTGGTGATCACGTGGTCACGGCAAAGGAAGACGTGATGCCAGGACCAGTCCCAGAGCAGGAATGGGAAGGATGAAGGGCCCGAGAACATGGCCTAAGGGCCACATCCCACTGCCACCCTTGACGCCCTGCTCTGGATAACAAGACTTTGACTTGGGGAGACCTCTACTGCCTTGGACAACTTTTCTCATGTTGAAGCCACTGCCTTCACCTTCACCTTCATCCATGTCCAACCCCCGACTTCATCCCAAAGGACAGCCGCCTGGAGATGACTTGAGGCCTTACTTAAACCCAGCTCCCTTCTTCCCTAGCCTGGTGCTTCTCCTCTCCTAGCCCCTGTCATGGTGTCCAGACAGAGCCCTGTGAGGCTGGGTCCAATTGTGGCACTTGGGGCACCTTGCTCCTCCTTCTGCTGCTGCCCCCACCTCTGCTGCCTCCCTCTGCTGTCACCTTGCTCAGCCATCCCGTCTTCTCCAACACCACCTCTCCAGAGGCCAAGGAGGCCTTGGAAACGATTCCCCCAGTCATTCTGGGAACATGTTGTAAGCACTGACTGGGACCAGGCACCAGGCAGGGTCTAGAAGGCTGTGGTGAGGGAAGACGCCTTTCTCCTCCAACCCAACCTCATCCTCCTTCTTCAGGGACTTGGGTGGGTACTTGGGTGAGGATCCCTGAAGGCCTTCAACCCGAGAAAACAAACCCAGGTTGGCGACTGCAACAGGAACTTGGAGTGGAGAGGAAAAGCATCAGAAAGAGGCAGACCATCCACCAGGCCTTTGAGAAAGGGTAGAATTCTGGCTGGTAGAGCAGGTGAGATGGGACATTCCAAAGAACAGCCTGAGCCAAGGCCTAGTGGTAGTAAGAATCTAGCAAGAATTGAGGAAGAATGGTGTGGGAGAGGGATGATGAAGAGAGAGAGGGCCTGCTGGAGAGCATAGGGTCTGGAACACCAGGCTGAGGTCCTGATCAGCTTCAAGGAGTATGCAGGGAGCTGGGCTTCCAGAAAATGAACACAGCAGTTCTGCAGAGGACGGGAGGCTGGAAGCTGGGAGGTCAGGTGGGGTGGATGATATAATGCGGGTGAGAGTAATGAGGCTTGGGGCTGGAGAGGACAAGATGGGTAAACCCTCACATCAGAGTGACATCCAGGAGGAATAAGCTCCCAGGGCCTGTCTCAAGCTCTTCCTTACTCCCAGGCACTGTCTTAAGGCATCTGACATGCATCATCTCATTTAATCCTCCCTTCCTCCCTATTAACCTAGAGATTGTTTTTGTTTTTTATTCTCCTCCTCCCTCCCCGCCCTCACCCGCCCCACTCCCTCCTAACCTAGAGATTGTTACAGAAGCTGAAATTGCGTTCTAAGAGGTGAAGTGATTTTTTTTCTGAAACTCACACAACTAGGAAGTGGCTGAGTCAGGACTTGAACCCAGGTCTCCCTGGATCAGAACAGGAGCTCTTAACTACAGTGGCTGAATAGCTTCTCCAAAGGCTCCCTGTGTTCTCACCGTGATCAAGTTGAGGGGCTTCCGGCTCCCTTCTACAGCCTCAGAAACCAGACTCGTTCTTCTGGGAACCCTGCCCACTCCCAGGACCAAGATTGGCCTGAGGCTGCACTAAAATTCACTTAGGGTCGAGCATCCTGTTTGCTGATAAATATTAAGGAGAATTCATGACTCTTGACAGCTTTTCTCTCTTCACTCCCCAAGTCAAGGGGAGGGGTGGCAGGGGTCTGTTTCCTGGAAGTCAGGCTCATCTGGCCTGTTGGCATGGGGGTGGGACAGTGTGCACAGTGTGGGGGCAGGGGAGGGCTAAGCAGGCCTGGGTTTGAGGGCTGCTCCGGAGACCGTCACTCCAGGTGCATTCTGGAAGCATTAGACCCCAGGATGGAGCGACCAGCATGTCATCCATGTGGAATCTTGGTGGCTTTGAGGACATTCTGGAAAATGCCACTGACCAGTGTGAACAAAAGGGATGTGTTATGGGGCTGGAGGTGTGATTAGGTAGGAGGGAAACTGTTGGACCGACTCCTGCCCCCTGCTCAACACTGACCCCTCTGAGTGGTTGGAGGCAGTGCCCCAGTGCCCAGAAATCCCACCATTAGTGATTGTTTTTTATGAGAAAGAGGCGTGGAGAAGTATTGGGGCAATGTGTCAGGGAGGAATCACCACATCCCTACGGCAGTCCCAGCCAAGCCCCCAATCCCAGCGGAGACTGTGCCCTGCTCAGAGCTCCCAAGCCTTCCCCCACCACCTCACTCAAGTGCCCCTGAAATCCCTGCCAGACGGCTCAGCCTGGTCTGCGGTAAGGCAGGGAGGCTGGAACCATTTCTGGGCATTGTGGTCATTCCCACTGTGTTCCTCCACCTCCTCCCTCCAGCGTTGCTCAGACCTCTGTCTTGGGAGAAAGGTTGAGATAAGAATGTCCCATGGAGTGCCGTGGGCAACAGTGGCCCTTCATGGGAACAATCTGTTGGAGCAGGGGGTCAGTTCTCTGCTGGGAATCTACCCCTTTCTGGAGGAGAAACCCATTCCACCTTAATAACTTTATTGTAATGTGAGAAACACAAAACAAAGTTTACTTTTTTGACTCTAAGCTGACATGATATTAGAAAATCTCTCGCTCTCTTTTTTTTTTTTTTTTTTTTTTTTGGCTACTTGAGTTGTGGTCCTAAAACATAAAATCTGATGGACAAACAGAGGGTTGCTGGGGGGACAAGCGTGGGCACAATTTCCCCACCAAGACACCCTGATCTTCAGGCGGGTCTCAGGAGCTTCTAAAAATCCGCATGGCTCTCCTGAGAGTGGACAGAGGAGAGGAGAGGGTCAGAAATGAACGCTCTTCTATTTCTTGTCATTACCAAGCCAATTACTTTTGCCAAATTTTTCTGTGATCTGCCCTGATTAAGATGAATTGTGAAATTTACATCAAGCAATTATCAAAGCGGGCTGGGTCCCATCAGAACGACCCACATCTTTCTGTGGGTGTGAATGTCATTAGGTCTTGCGCTGACCCCTGAGCCCCCATCACTGCCGCCTGATGGGGCAAAGAAACAAAAAACATTTCTTACTCTTCTGTGTTTTAACAAAAGTTTATAAAACAAAATAAATGGCGCATATGTTTTCTAAAAAAAAAAAAAAAAA
>gi|550822008|ref|NM_001145284.3| Homo sapiens opioid receptor mu 1 (OPRM1), transcript variant MOR-1B3, mRNA
CCAGGACTGGTTTCTGTAAGAAACAGCAGGAGCTGTGGCAGCGGCGAAAGGAAGCGGCTGAGGCGCTTGGAACCCGAAAAGTCTCGGTGCTCCTGGCTACCTCGCACAGCGGTGCCCGCCCGGCCGTCAGTACCATGGACAGCAGCGCTGCCCCCACGAACGCCAGCAATTGCACTGATGCCTTGGCGTACTCAAGTTGCTCCCCAGCACCCAGCCCCGGTTCCTGGGTCAACTTGTCCCACTTAGATGGCAACCTGTCCGACCCATGCGGTCCGAACCGCACCGACCTGGGCGGGAGAGACAGCCTGTGCCCTCCGACCGGCAGTCCCTCCATGATCACGGCCATCACGATCATGGCCCTCTACTCCATCGTGTGCGTGGTGGGGCTCTTCGGAAACTTCCTGGTCATGTATGTGATTGTCAGATACACCAAGATGAAGACTGCCACCAACATCTACATTTTCAACCTTGCTCTGGCAGATGCCTTAGCCACCAGTACCCTGCCCTTCCAGAGTGTGAATTACCTAATGGGAACATGGCCATTTGGAACCATCCTTTGCAAGATAGTGATCTCCATAGATTACTATAACATGTTCACCAGCATATTCACCCTCTGCACCATGAGTGTTGATCGATACATTGCAGTCTGCCACCCTGTCAAGGCCTTAGATTTCCGTACTCCCCGAAATGCCAAAATTATCAATGTCTGCAACTGGATCCTCTCTTCAGCCATTGGTCTTCCTGTAATGTTCATGGCTACAACAAAATACAGGCAAGGTTCCATAGATTGTACACTAACATTCTCTCATCCAACCTGGTACTGGGAAAACCTGCTGAAGATCTGTGTTTTCATCTTCGCCTTCATTATGCCAGTGCTCATCATTACCGTGTGCTATGGACTGATGATCTTGCGCCTCAAGAGTGTCCGCATGCTCTCTGGCTCCAAAGAAAAGGACAGGAATCTTCGAAGGATCACCAGGATGGTGCTGGTGGTGGTGGCTGTGTTCATCGTCTGCTGGACTCCCATTCACATTTACGTCATCATTAAAGCCTTGGTTACAATCCCAGAAACTACGTTCCAGACTGTTTCTTGGCACTTCTGCATTGCTCTAGGTTACACAAACAGCTGCCTCAACCCAGTCCTTTATGCATTTCTGGATGAAAACTTCAAACGATGCTTCAGAGAGTTCTGTATCCCAACCTCTTCCAACATTGAGCAACAAAACTCCACTCGAATTCGTCAGAACACTAGAGACCACCCCTCCACGGCCAATACAGTGGATAGAACTAATCATCAGGGACCTCCAGCCAAGTTTGTTGCTGACCAACTTGCCGGGTCGTCTTGAAAAGGGGGCTTACAGGTGTTCCAAGCCCGTGTTTTATCCTGAAGTATCCCTCAACACAGAAAAACGACCTCATAACACAAAATACACCAGCTTAAAAATAGCCTTTGAATTATTTTTCACATTAATCAAAACTTTACAGAGGAGATAAACACTGATTTTTTTATTTTATTTTATTTTATTTTATTTTATTTTATTGCCATTCATTCAACCGTTTGCACAGAGAGAAAGAAGACAGAAATCTGACTGGTAAGAAATTGTTACCCTTTTGCCAGCATGCCAGGCTTCTGGGTTCCCTTTCCCTGAGCGGCCCTAGTGATCCGGCTTGCGGCACCATCGCCTACGGGCCAAGCTGCATCATAAAGGAAATTTTTTTTTTTCATTCTGGCCAGAGCAAAACACATGTGATAAAACATAGGCATTAGCTACTCTGCTTAGCACCAAATATCAGACTAGCTTAAATTTGCCCCCAGATGGGTTCCATCATCTTTAATCCGACCTCTGACTTGCAGTTTCAACACGTGCTCTCTGGGCAAAACAGTTGCCCTGAGTAACAGAAAAGATAGGAAAGGAAAAGGAGAGAGAGAAAAACGTGCCAGTGGAAGGGTGGGGAAGGTGAAATGATCAAGGAGGCCAGAGAAAGACTCACCTATTGCAGCAACACTGTAGAAGTTCAGGCAGCTGCTTCTCGGTAGCAAAAGGATCTTTTCCAGCAATCCTATTAGCTCTCAAGTTTCCCCTTTTAGGGAGGAAAAAGCTCCCCATGTCCCGCGATCCTGTACATGTCCAACCCTGCCATCCACAGCCATCAGCAAAGAGTGCAAGACAGATTAATCCAAAGAGAATAGCAATTAATATCCCATAGCATCAAAGCTGTTCTTAGCCAAGAGGGACTTTAACGAGAGGGGTCTCTAACACCCTAAATCTTAGAAGAGACTCTAACCATCCTAAGTAGGGCCTCTAACCCCGCTTTATAAACTTTTAATTGACTCCCATCTTAACAGTTGCAATCCATGGAGGAATGCTTGATAACCTCGGTGATAAGATAAAAAACCAAGCATACTAGAAGTGTTCTCTAAAATTAAAAATACAGTAGTTACTAGAGAAAAATTTTAGTCCAAAAATCCAACTATAGAAACATAGAATGTGAGAGGTAGCACATAAGAAATAAGTCATGGGGATTTTATTTCATGGACCAGCAATATGATGATAAAAGCCATCTAACC
>gi|540344535|ref|NM_001282450.1| Homo sapiens estrogen related receptor alpha (ESRRA), transcript variant 2, mRNA
TAGAGGTCTCCCGCGGGCGGGGAGGGGGAGGCGTAGCAACTTTAGGCAACTTCCCAAAGGTGTGCGCAGGTTGGGGGCGGGACGCGGCGCCCCGGGAGGTGGCGGCCTCTGCGACAGCGGGAGTATAAGAGTGGACCTGCAGGCTGGTCGCGAGGAGGTGGAGCGGCGCCCGCCGTGTGCCTGGGACCGGCATGCTGGGGCAGGAGGGCAGCCGCGTGTCAGGTGACCAGCGCCATGTCCAGCCAGGTGGTGGGCATTGAGCCTCTCTACATCAAGGCAGAGCCGGCCAGCCCTGACAGTCCAAAGGGTTCCTCGGAGACAGAGACCGAGCCTCCTGTGGCCCTGGCCCCTGGTCCAGCTCCCACTCGCTGCCTCCCAGGCCACAAGGAAGAGGAGGATGGGGAGGGGGCTGGGCCTGGCGAGCAGGGCGGTGGGAAGCTGGTGCTCAGCTCCCTGCCCAAGCGCCTCTGCCTGGTCTGTGGGGACGTGGCCTCCGGCTACCACTATGGTGTGGCATCCTGTGAGGCCTGCAAAGCCTTCTTCAAGAGGACCATCCAGGGGAGCATCGAGTACAGCTGTCCGGCCTCCAACGAGTGTGAGATCACCAAGCGGAGACGCAAGGCCTGCCAGGCCTGCCGCTTCACCAAGTGCCTGCGGGTGGGCATGCTCAAGGAGGGAGTGCGCCTGGACCGCGTCCGGGGTGGGCGGCAGAAGTACAAGCGGCGGCCGGAGGTGGACCCACTGCCCTTCCCGGGCCCCTTCCCTGCTGGGCCCCTGGCAGTCGCTGGAGGCCCCCGGAAGACAGCAGCCCCAGTGAATGCACTGGTGTCTCATCTGCTGGTGGTTGAGCCTGAGAAGCTCTATGCCATGCCTGACCCCGCAGGCCCTGATGGGCACCTCCCAGCCGTGGCTACCCTCTGTGACCTCTTTGACCGAGAGATTGTGGTCACCATCAGCTGGGCCAAGAGCATCCCAGGCTTCTCATCGCTGTCGCTGTCTGACCAGATGTCAGTACTGCAGAGCGTGTGGATGGAGGTGCTGGTGCTGGGTGTGGCCCAGCGCTCACTGCCACTGCAGGATGAGCTGGCCTTCGCTGAGGACTTAGTCCTGGATGAAGAGGGGGCACGGGCAGCTGGCCTGGGGGAACTGGGGGCTGCCCTGCTGCAACTAGTGCGGCGGCTGCAGGCCCTGCGGCTGGAGCGAGAGGAGTATGTTCTACTAAAGGCCTTGGCCCTTGCCAATTCAGACTCTGTGCACATCGAAGATGCCGAGGCTGTGGAGCAGCTGCGAGAAGCTCTGCACGAGGCCCTGCTGGAGTATGAAGCCGGCCGGGCTGGCCCCGGAGGGGGTGCTGAGCGGCGGCGGGCGGGCAGGCTGCTGCTCACGCTACCGCTCCTCCGCCAGACAGCGGGCAAAGTGCTGGCCCATTTCTATGGGGTGAAGCTGGAGGGCAAGGTGCCCATGCACAAGCTGTTCTTGGAGATGCTCGAGGCCATGATGGACTGAGGCAAGGGGTGGGACTGGTGGGGGTTCTGGCAGGACCTGCCTAGCATGGGGTCAGCCCCAAGGGCTGGGGCGGAGCTGGGGTCTGGGCAGTGCCACAGCCTGCTGGCAGGGCCAGGGCAATGCCATCAGCCCCTGGGAACAGGCCCCACGCCCTCTCCTCCCCCTCCTAGGGGGTGTCAGAAGCTGGGAACGTGTGTCCAGGCTCTGGGCACAGTGCTGCCCCTTGCAAGCCATAACGTGCCCCCAGAGTGTAGGGGGCCTTGCGGAAGCCATAGGGGGCTGCACGGGATGCGTGGGAGGCAGAAACCTATCTCAGGGAGGGAAGGGGATGGAGGCCAGAGTCTCCCAGTGGGTGATGCTTTTGCTGCTGCTTAATCCTACCCCCTCTTCAAAGCAGAGTGGGACTTGGAGAGCAAAGGCCCATGCCCCCTTCGCTCCTCCTCTCATCATTTGCATTGGGCATTAGTGTCCCCCCTTGAAGCAATAACTCCAAGCAGACTCCAGCCCCTGGACCCCTGGGGTGGCCAGGGCTTCCCCATCAGCTCCCAACGAGCCTCCTCAGGGGGTAGGAGAGCACTGCCTCTATGCCCTGCAGAGCAATAACACTATATTTATTTTTGGGTTTGGCCAGGGAGGCGCAGGGACATGGGGCAAGCCAGGGCCCAGAGCCCTTGGCTGTACAGAGACTCTATTTTAATGTATATTTGCTGCAAAGAGAAACCGCTTTTGGTTTTAAACCTTTAATGAGAAAAAAATATATAATACCGAGCTCAAAAAAAAAAAAAAA
>gi|523425747|ref|NM_004599.3| Homo sapiens sterol regulatory element binding transcription factor 2 (SREBF2), transcript variant 1, mRNA
CTGGGGCGGGGGAATCCCGCCCCGCCCTTTCTGTGCGGCGCCCGGGCGCAACGCAAACATGGCGGCGGGTGGCACCCGTCGGTGAGGCGGTGCCGGGCGGGGGTTGTCGGGTGTCATGGGCGGTGGCGACGGCACCGCCCCCGCGTCTCCCTGAGCGGGACGGCAGGGGGGGCTTCTGCGCTGAGCCGGGCGATGGACGACAGCGGCGAGCTGGGTGGTCTGGAGACCATGGAGACCCTCACGGAGCTGGGCGACGAGCTGACCCTGGGAGACATCGACGAGATGCTGCAATTTGTCAGTAATCAAGTGGGAGAGTTCCCTGACTTGTTTTCAGAACAGCTGTGTAGCTCCTTTCCTGGCAGTGGTGGTAGTGGTAGCAGCAGCGGCAGCAGTGGCAGCAGCAGCAGCAGCAGCAATGGCAGGGGCAGCAGCAGCGGAGCTGTGGACCCTTCAGTGCAACGGTCATTCACCCAGGTCACATTACCTTCCTTCTCTCCCTCGGCGGCCTCCCCACAGGCTCCAACTCTGCAAGTCAAGGTTTCTCCCACCTCAGTTCCCACCACACCCAGGGCAACTCCTATTCTTCAGCCCCGCCCCCAGCCCCAGCCTCAACCTCAAACTCAGCTGCAACAACAGACGGTAATGATCACGCCAACATTCAGCACCACTCCGCAGACGAGGATCATCCAGCAGCCTTTGATATACCAGAATGCAGCTACTAGCTTTCAAGTCCTTCAGCCTCAAGTCCAAAGCCTGGTGACATCCTCCCAGGTACAGCCGGTCACCATTCAGCAGCAGGTGCAGACAGTACAGGCCCAGCGGGTGCTGACACAAACGGCCAATGGCACGCTGCAGACCCTTGCCCCGGCTACGGTGCAGACAGTTGCTGCGCCACAGGTGCAGCAGGTCCCGGTCCTGGTCCAGCCTCAGATCATCAAGACAGATTCCCTTGTTTTGACCACACTGAAGACAGATGGCAGCCCTGTTATGGCTGCGGTCCAGAACCCGGCCCTCACCGCCCTCACCACCCCTATCCAGACGGCTGCCCTTCAAGTACCAACCCTGGTGGGCAGCAGTGGGACCATTCTGACCACAATGCCTGTAATGATGGGGCAAGAGAAAGTGCCCATTAAGCAGGTACCTGGGGGAGTCAAGCAGCTTGAGCCCCCCAAAGAAGGAGAAAGGCGGACAACCCATAATATCATTGAGAAACGATATCGCTCCTCCATCAATGACAAAATCATCGAATTGAAAGACCTGGTCATGGGGACAGACGCCAAGATGCACAAGTCTGGCGTTCTGAGGAAGGCCATTGATTACATCAAATACTTGCAGCAGGTCAATCATAAACTGCGCCAGGAGAACATGGTGCTGAAGCTGGCAAATCAAAAGAACAAGCTTCTAAAGGGCATCGACCTAGGCAGTCTGGTGGACAATGAGGTGGACCTGAAGATCGAGGACTTTAATCAGAATGTCCTTCTGATGTCCCCCCCAGCCTCTGACTCAGGGTCCCAGGCTGGCTTCTCTCCCTACTCCATTGACTCTGAGCCAGGAAGCCCTCTATTGGATGATGCAAAGGTCAAAGATGAGCCAGACTCTCCTCCTGTGGCGCTGGGCATGGTAGACCGCTCACGGATTCTTCTGTGTGTCCTCACCTTCCTGTGCCTCTCCTTTAACCCCCTGACTTCCCTGCTGCAGTGGGGAGGGGCCCACGACTCTGACCAGCACCCACACTCAGGCTCTGGCCGCAGTGTCCTGTCATTCGAGTCAGGTTCTGGGGGCTGGTTTGACTGGATGATGCCTACTCTTCTCTTATGGCTGGTAAATGGTGTGATTGTCCTGAGCGTCTTTGTGAAGCTGCTGGTTCATGGGGAGCCAGTGATCCGGCCACACTCGCGCTCCTCGGTCACCTTCTGGAGGCACCGGAAACAGGCAGATCTGGATCTCGCCAGAGGAGATTTTGCAGCTGCTGCCGGCAACCTACAAACCTGCCTGGCAGTTTTGGGCCGGGCACTGCCCACCTCCCGCCTGGACCTGGCCTGCAGCCTCTCCTGGAACGTGATCCGCTACAGCCTGCAGAAGCTACGCCTGGTGCGCTGGCTGCTCAAGAAAGTCTTCCAGTGCCGGCGGGCCACGCCAGCCACTGAGGCAGGCTTTGAAGACGAAGCTAAGACCAGCGCCCGGGATGCGGCTCTGGCCTATCACCGGCTGCACCAGCTGCACATCACAGGGAAGCTTCCTGCAGGATCCGCCTGTTCCGATGTACACATGGCGTTGTGTGCCGTGAACCTGGCTGAATGTGCAGAGGAGAAGATCCCACCGAGCACACTGGTTGAGATCCATCTGACTGCTGCCATGGGGCTCAAGACCCGGTGTGGAGGCAAGCTGGGCTTCCTGGCCAGCTACTTCCTCAGCCGAGCCCAGAGCCTGTGTGGCCCCGAGCACAGTGCTGTTCCTGACTCCCTGCGCTGGCTCTGCCACCCCCTGGGCCAGAAGTTTTTCATGGAGCGGAGCTGGTCTGTGAAGTCAGCTGCCAAGGAGAGTCTATACTGTGCCCAGAGGAACCCAGCTGACCCCATTGCGCAGGTCCACCAGGCCTTCTGCAAGAACCTGCTGGAGCGAGCTATAGAGTCCTTGGTGAAACCTCAGGCCAAGAAGAAGGCTGGAGACCAGGAAGAAGAGAGCTGTGAATTCTCCAGTGCTCTGGAGTACTTGAAATTACTTCATTCTTTTGTGGACTCTGTGGGGGTTATGAGCCCCCCACTCTCCAGGAGCTCCGTGCTCAAGTCCGCCCTGGGTCCAGACATCATCTGTCGGTGGTGGACGTCTGCAATCACTGTGGCCATCAGCTGGCTCCAGGGAGACGATGCAGCTGTGCGCTCTCATTTTACCAAAGTGGAACGCATCCCCAAGGCCCTGGAAGTGACAGAGAGCCCCCTGGTGAAGGCCATCTTCCATGCCTGCAGAGCCATGCATGCCTCACTCCCTGGGAAAGCAGATGGGCAGCAGAGTTCCTTCTGCCATTGCGAGAGGGCCAGTGGCCACCTATGGAGCAGCCTCAACGTCAGTGGGGCCACCTCTGACCCTGCCCTCAACCACGTGGTCCAGCTGCTCACCTGTGACCTGCTACTGTCGCTACGGACAGCGCTCTGGCAAAAACAGGCCAGTGCCAGCCAGGCTGTGGGGGAGACCTACCACGCGTCAGGCGCTGAACTGGCGGGCTTCCAACGGGACCTGGGCAGCCTGCGCAGGCTGGCACACAGCTTCCGCCCAGCATACCGCAAGGTGTTCCTGCATGAAGCCACCGTGCGCCTGATGGCAGGAGCCAGCCCCACCCGCACCCACCAGCTGCTGGAACACAGCCTGCGGCGGCGCACCACGCAGAGCACCAAGCACGGAGAGGTGGATGCCTGGCCCGGCCAGCGAGAGCGGGCCACCGCCATCCTGCTGGCCTGCCGCCACCTGCCCCTCTCCTTCCTCTCCTCCCCGGGCCAGCGGGCAGTGCTGCTGGCCGAAGCTGCCCGCACCCTGGAGAAGGTGGGCGACCGGCGCTCCTGCAACGACTGCCAGCAGATGATTGTTAAGCTGGGTGGTGGCACTGCCATTGCCGCCTCCTGACCACCAGGCTCAGCCCACCCCTCCACCTCTCTCTCGATTTCTCTCTCTCCCCCTCAGCATCTTCCCGCTGAGAGTGGTGGGGAAGAGCCTTGTCTTCTTAGCTGTCACCTGCCGAGGCTTCTGGGCCACTCAGGCCAGTGCACCCCTGGGCAGAGCCCCTTAAAGCTGCTGTCACTAGATGCCCATGGTCCAGGGCCTGGTGGGCGTGAGAGGATAGGTGGCAGGGCAGAAACTGGGCAGCCCTGACTTGATAGCAGCAGGGGGAGCTCCCAAGCTGCCAAGCCCCTGCCTCCAGCCTTCCTGAGTTTCTCTCTCCTGAACCCTACTCTCTCCTTTTTGCTTCCTCAGTTTTTATCAGGCTTTCTCTGGGGGACAGCAGTCTCTGAGCACCAGGGAGCAGTTGCCCTCAGGCCTGTGCCCAGCATGCCCTCCCCTTTTTATACGAATGTTTTCTACCAGTGTGCTTGGGTTTGCCATGATGCGAGGCTGAGTTGCTGTAGCGTCTTGATTCTCTCCCTGGGTCTGCGTTCCCTCCCCTGGGCCTGACTGAGCCTGCTCATTGTTTTTCCCTTTATTACACAGGACAGCCAGGGGAGGAGGGGGGCCCAGCCCTGGGAGGCTGGTGGGAGGCAGGGGGCAGGCCTGCGGATGCATGAAATAATGTTGGCATTATTTTTTAATTTTTTAAAAAATAAATGGTATCTTATTTAATTGTCCTGTTCCTTCCCACTCCCCGCCTCCTAGGATGTTAGCCCAAGCTCAGGGTAGGCCCAGGGGGCTGGGAGAAATGAAGCCACCCATGGGGACTGGGGACCAGGGGCCTTCAGCATGGCTTCTAGGTTCCCTCCTCCCCCTACCCCATCTCCTACCTCCACAGTACAGACTGTCCCCAACTTAACAGTGGTTCAACTTAAACCATGTTTCAACTTTACAATTGGTCTGTTGGGGTATTAAATGAATTTGTGACTTAGGATATTTTCATTTATGATGGGTTTATCAGGAAGTAACCCCATGGTAAGTTGAGGCATATCTGTATATATTTAAACCTAATTAATTCTTGAGCTGAAAATAAATAAACCAGGATGGCAGGGACCAACCCCTAATCCCTCCCCAGCGGCAAGCCCCTCTTTTCAGAGTGGGCAGAGGGTTGCCTATGGTGGGCACTAGGAATGAGGTCCCCTGCCTCGATGCGGGTCCTAGGAGAAAAAGTCCTACTTTTCTGGGTCCCCAGGTGCAGCACCTCCCGGAGACTGTTTCTCCCATGGCCTCCTGAGTGATGGGCCCTGCCTCCCTGTGCCTCATCCTCAGGCTGGTTGGAGCAGAGGGTGGGCAGGAGCCCCAGCACAGACTGGGGGGTGCTCACAGCAGGGCCACCTTGATGCAGGCTGGAATGTTATCCCTGGGGTGTGCTTGGACCCCACCTGCTTTCTTTCTCTCCTGCCCCTCCCCTACTCTCACTGTAATTTATGGACCCTGCCCGCCTGCGTGTTGTGTGTATGTCCTGTGCCTTTTCTCACTATTGTTTGGGTGTGGGAGGGGGTGGTTTTTCACTGAAAAGGGGGGTACACCTATAGCTTTCTTGATGTTCAATCAATCAGTCACTGTGTCCCAGACATATTCAATAAACACAGATTGGTACCACCCAGCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|503774417|ref|NM_001278236.1| Homo sapiens protein tyrosine phosphatase, non-receptor type 5 (PTPN5), transcript variant 4, mRNA
AGCTACGTGGTGGCTCGCCTCTGATTCCCCGTGTAAAAAATGGAGTTTAGGATCCCTGCCCTGTGTGCAGCCCACAGCCTCAAGCCCCCATGGGGATGGAATGCCGGAAACCTCTGGCCAGCGCACTAGCAGCCTGGAGAATACGGAAGATTGTGGCAGGATTGTGGGGCACATGGGCAGCTCCCTGCTCGTCCGGGCCCCTGGTGCCCACGAGAAAACCAAAACAGGTGCGTGCCCCGCGCCGCACGTCAGGAGGGCAAGACTCAGTGGAGGGAGGGGCTGTCCACTCGCTCTAGCTCCCCAGAGGCTGAACAGGGAGAACTGGGAAAAAGGACGCCTCCTCAGCGTCCTAGAACGAGTCCTCGGCACCTGGTATTGCATGCGCCCTAGTATGGGGCCGCTCCACTTGCGCAGGTGTTGGCAACATGCGGGGAGCGCCACGGCATGCCCCCAATGAGCCGACTCCCTCCCCCAACTCTGCCCCCTTTGTCTCGCTGGCCCCTACTCCTTCTGTCTGCCTGTCTGTCCCGTCCCAGGTTCAGCGCGCACGGCCCTGCCGGGGTCCCTCTGGCAGTTGCCGTAGCCGCGCGGCCCGACCCGGGGCTCCCAAGAGGAGAAAAAATCATGAATGAAATGGATGCGCTGCTCCCACTCCTCCGCCCTCCTTGTCCAAGCAACCTTGGCATGGGGGCGACGACTGCGGAGACTCCGCGCAGAGTTGCTCGGGAGAGGGAGGCACCTGAGATGAGGTCAGGGGTTAAGGGTCTGTGATCCGGCCCCCTTCGTGCCCCGGGAGCAGGCCGCTCTCCCGGTCCCCCGCCCCGCCAGCCCTGCGCAATTCCCGGCGAGCGGCGGAAGCCCGCCCGGGGGCGGGGCGGAGCCGGGGCTGGGGGGTGCCAAACCCACCCGGCGGCTGCGCCAGCGACTCTGCAGCTGAAGCGCATTTGGTGAGGCGGTCGGGCGAGGGAGCGCGCACGGAGCGCGGGACGGAGCGCCAGGCGGACGGACCGAAGGACGGAGGCACCGAAGGACGGACGCCCCCGCACACGCAGACGCACAGAGCTCGGCGCGGCCCCCGTCGCATACACACTGGCACAGACACAAGCAGGGACACACGCAGACACACGCACACTCGCGCGCGCATCCTCCCGCCAGCCTGCCCGCCTGCTCGCCGGCGCCCGGAGCCCGCTCTGGCCGCTTGCTTTTTGCTGAGAAAGCTTCCTGCCCTGGAAGATGGCACCCTTCCCCATCCAGACACCTTGGGAATGAATTATGAGGGAGCCAGGAGTGAGAGAGAGAACCACGCTGCTGATGACTCCGAGGGAGGGGCCCTGGACATGTGCTGCAGTGAGAGGCTACCGGGTCTCCCCCAGCCGATAGTGATGGAGGCACTGGACGAGGCTGAAGGGCTCCAGGACTCACAGAGAGAGATGCCGCCACCCCCTCCTCCCTCGCCGCCCTCAGATCCAGCTCAGAAGCCACCACCTCGAGGCGCTGGGAGCCACTCCCTCACTGTCAGGAGCAGCCTGTGCCTGTTCGCTGCCTCACAGTTCCTGCTGGAACCCACGGCCTGGCTTGACTCTGGGACGTGGGGAGTCCCCAGTCTGCTGCTGGTCTTTCTGTCCGTGGGCCTGGTCCTCGTTACCACCCTGGTGTGGCACCTCCTGAGGACACCCCCAGAGCCACCCACCCCACTGCCCCCTGAGGACAGGCGCCAGTCAGTGAGCCGCCAGCCCTCCTTCACCTACTCAGAGTGGATGGAGGAGAAGATCGAGGATGACTTCCTGGACCTCGACCCGGTGCCCGAGACTCCTGTGTTTGATTGTGTGATGGACATCAAGCCTGAGGCTGACCCCACCTCACTCACCGTCAAGTCCATGGGTCTGCAGGAGAGGAGGGGTTCCAATGTCTCCCTGACCCTGGACATGTGCACTCCGGGCTGCAACGAGGAGGGCTTTGGCTATCTCATGTCCCCACGTGAGGAGTCCGCCCGCGAGTACCTGCTCAGCGCCTCCCGTGTCCTCCAAGCAGAAGAGCTTCATGAAAAGGCCCTGGACCCTTTCCTGCTGCAGGCGGAATTCTTTGAAATCCCCATGAACTTTGTGGATCCGAAAGAGTACGACATCCCTGGGCTGGTGCGGAAGAACCGGTACAAAACCATACTTCCCAACCCTCACAGCAGAGTGTGTCTGACCTCACCAGACCCTGACGACCCTCTGAGTTCCTACATCAATGCCAACTACATCCGGGGCTATGGTGGGGAGGAGAAGGTGTACATCGCCACTCAGGGACCCATCGTCAGCACGGTCGCCGACTTCTGGCGCATGGTGTGGCAGGAGCACACGCCCATCATTGTCATGATCACCAACATCGAGGAGATGAACGAGAAATGCACCGAGTATTGGCCGGAGGAGCAGGTGGCGTACGACGGTGTTGAGATCACTGTGCAGAAAGTCATTCACACGGAGGATTACCGGCTGCGACTCATCTCCCTCAAGAGTGGGACTGAGGAGCGAGGCCTGAAGCATTACTGGTTCACATCCTGGCCCGACCAGAAGACCCCAGACCGGGCCCCCCCACTCCTGCACCTGGTGCGGGAGGTGGAGGAGGCAGCCCAGCAGGAGGGGCCCCACTGTGCCCCCATCATCGTCCACTGCAGTGCAGGGATTGGGAGGACCGGCTGCTTCATTGCCACCAGCATCTGCTGCCAGCAGCTGCGGCAGGAGGGTGTGGTGGACATCCTGAAGACCACGTGCCAGCTCCGTCAGGACAGGGGCGGCATGATCCAGACATGCGAGCAGTACCAGTTTGTGCACCACGTCATGAGCCTCTACGAAAAGCAGCTGTCCCACCAGTCCCCAGAATGACTGCGCTTCTCCTACAAGGTTCTCTGGGCACTGCCCAGCCTGAGTCTCGGCCCTCACCCAGGGCCCTGCCTCGGGTCCTGGGCCTGCTCCCCGCTTCCTCCCCTTCAGTCAGCTCCCTCTGTCCTCTGTCAGCCTGGCCTGACCCCTACCCTCCAGCATTGCTCTTCCTACTGTACATATTGGGGAGTGGGGGGCAGGGTCGGGAAGGGACATGCCAGGCCAGGCCTGGGGCCCCGGGGCCTGACCCACACCACGCAGACCCCGGGCTCCAGTTTTTAACGATGGTTCCATCAATACCTGATCCAGAATGTTTCCGTGCTACACTTTGTGTCCTGCTGCAATGTGTTCTGTCTGTCCATCCATCTCTGCCCTCTGTACCGGACACTGTGTCTCCTCAGCCAGGAAGGGGTAATGAGCTCCAGCCCCTAAGCAACCGGACTTGCCTGCCTCGGCCTCACCCGCACTTCTCCCAAAAGGCAGATGACGGGGAGTTAGGCATGGGGAGCTCCAGAAGGTCACCAGAGAGCTTTCAGCTGAGGGAGAGTTCTCTAGGTTGGAGTGGGCATCACAGCCAGGGTGGCCTCTGGGTGTCAGATGCTCTCAGGAGGGTGCCCAGCCTGTGAGGCACTGGCAAGGTAGGGGGCAGATGGGGCATGGAGAACCCAGAGGATCTAGGCCCTGTTGGGGAGGGGAGGGGAGCTCAAGGTTTGGGTGGGGACTCAGCCCAGATCTACGTGAGACATTTTTCTGTGTCACTGTGGGAAAGCCTTCCCAGAAGTCTCACTGCGTGTTGCTCTGCGTGTGTTCCCATGTCCATGCGTGTGTTGAGAGCCCATCAGGAGGGCATGCATGACTCTTTGGCAACATGTATTATCTTGGAGCCACGTGTTTTTATTGCTGACTTTAAATATTTATCCCACGGCAGACAGAGACATTTGGTGTCTTTTTATAATTCGCTCGTGGTCATTGAATAGAGCAATAAACGGAGCATTTTGAGCAAAACTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>gi|459683817|ref|NM_001277127.1| Homo sapiens leucine rich repeat containing 31 (LRRC31), transcript variant 2, mRNA
AGTCATGTAGGGGAGGATATTTTGATTGAACACAGGCTTGACAGAATCTTCTTTTCTTCTTAGAAATCCTAGAAAACAGAAAGCAACAGGAAGATGTCTTATTGGGAACTACCCCCATCAACTTCACCATGAGTCAAACAAGGAAGAAAACTTCCTCAGAAGGAGAAACTAAGCCCCAGACTTCAACTGTCAACAAATTTCTCAGGGGCTCCAATGCTGAAAGCAGAAAAGAGGACAATGACCTTAAAACAAGTGATTCCCAACCCAGCGACTGGATACAGAAGACAGCCACCTCAGAGACTGCTAAGCCTCTCAGTTCAGAAATGGAATGGAGATCCAGTATGGAGAAAAATGAGCATTTCCTGCAGAAGCTGGGCAAAAAGGCTGTCAACAAGTGTCTAGATTTGAATAACTGTGGATTAACAACAGCGGACATGAAAGAAATGGTTGCCTTGCTGCCTTTTCTCCCAGACTTGGAAGAACTGGATATCTCCTGGAATGGTTTTGTAGGTGGAACCCTCCTTTCCATCACTCAGCAAATGCATCTGGTCAGCAAGTTAAAAATCTTGAGGCTGGGTAGCTGCAGACTCACCACTGACGATGTTCAAGCACTGGGAGAAGCATTTGAGATGATTCCTGAACTTGAAGAGCTAAATTTGTCTTGGAACAGTAAAGTGGGAGGAAATTTGCCTCTGATCCTTCAGAAGTTCCAAAAAGGGAGCAAGATACAAATGATTGAGCTTGTGGATTGCTCCCTCACGTCAGAAGATGGGACATTTCTGGGTCAACTGCTACCTATGCTGCAAAGTCTCGAAGTACTTGATCTTTCCATTAACAGAGACATTGTTGGCAGTCTGAACAGTATTGCTCAGGGATTAAAAAGCACCTCAAATCTGAAAGTACTGAAGTTACATTCATGTGGATTATCACAAAAGAGTGTCAAAATATTGGATGCTGCTTTTAGGTATTTGGGTGAGCTGAGGAAATTAGATCTTTCCTGCAATAAGGATCTAGGTGGAGGTTTTGAAGACTCGCCGGCTCAGTTGGTCATGCTAAAGCATCTACAAGTCCTAGATCTTCACCAGTGCTCACTAACAGCAGATGACGTGATGTCACTGACCCAGGTCATTCCTTTACTTTCAAATCTTCAAGAATTGGATTTATCAGCCAACAAAAAGATGGGCAGTTCTTCTGAAAACTTACTCAGCAGGCTCCGATTTTTACCAGCATTGAAGTCATTAGTTATCAACAACTGTGCTTTGGAGAGTGAGACTTTTACAGCTCTTGCTGAAGCCTCTGTTCACCTCTCTGCTCTGGAAGTATTCAACCTTTCTTGGAACAAGTGTGTTGGTGGCAACTTGAAGCTGCTTCTGGAAACACTAAAGCTTTCCATGTCTCTTCAAGTGCTGAGGCTGAGCAGCTGTTCCCTGGTGACAGAGGATGTGGCTCTCCTGGAGTGATTCTGTTTTCCAGCATCGGTCATACAGACGGGTCATCTGGCCAAACTGCAAAAGCTGGACCTGAGCTACAATGACAGCATCTGTGATGCGGGGTGGACCATGTTCTGCCAAAACGTGCGGTTCCTCAAAGAGCTAATCGAGCTGGATATTAGCCTTCGACCATCAAATTTTCGAGATTGTGGACAATGGTTTAGACACTTGTTATATGCTGTGACCAAGCTTCCTCAGATCACTGAGATAGGAATGAAAAGATGGATTCTCCCAGCTTCACAGGAGGAAGAACTAGAATGCTTTGACCAAGATAAAAAAAGAAGCATTCACTTTGACCATGGTGGGTTTCAGTAAACTGATTTCCCATGTCCTACTAAGCTACAAACCATTCTCCAAAGGAAAAGAACATGAACGAATTCCAGAGTCATGAACTGAATTTCAACTTCTGGGCCATTTAATGGGACTTATATTACAAGAGCTTTGTAAATATATATATATATTACATATATATATGTAATATACATATATACACATATATATAATATACATATATAATACACATATATATGTAAATATATATATAATATCTAATATGAGCATGCCATTATTCTCTGTCTATGAAACAAAAATGGCATTTTTCAATGGATTTGTTTTGGATATATAATTAGTTCATTTGCTGTTTAGAAGCCTTGCCAAAAGTGTTTAGATTTTGGTACTGCAACTGCTTTCCTCTTGCCCAGAAATGTTTTGCCTCTTCTTTTCCTACAAGTTAAATGTTCTAAATATAAAGGGGTATGTGTGTGTGTGTGTAATTCTAATGTGAAAGGCACTAGCTGTCTAATAGTTTCATGTATCATTACTATTACTATATGTATCTTAATGTAGTCTATGTAGGTTTTTATCAGAAAGTGTACCTTTCTATGGTTTATTATTTTATATTCTGGTGCCTTTTATCTCAGATATAAACCATGAACAGTAATGATAGTCACTGACATATAAATCTTAGTAAAAAGTGATTAAAAATCTAAAACTCAGTATGAAAAACATATCTTGTTAGAATAAATTAAAACCTTTTATTGTTTAAAAAATTGTTAAAAAAAAAAAAAAAAA
>gi|442796463|ref|NM_005059.3| Homo sapiens relaxin 2 (RLN2), transcript variant 2, mRNA
GTCCCGACCTCCAGGAGAGACCAGGCCCAGGATGCCTCGCCTGTTTTTTTTCCACCTGCTAGGAGTCTGTTTACTACTGAACCAATTTTCCAGAGCAGTCGCGGACTCATGGATGGAGGAAGTTATTAAATTATGCGGCCGCGAATTAGTTCGCGCGCAGATTGCCATTTGCGGCATGAGCACCTGGAGCAAAAGGTCTCTGAGCCAGGAAGATGCTCCTCAGACACCTAGACCAGTGGCAGGTGATTTTATTCAAACAGTCTCACTGGGAATCTCACCGGACGGAGGGAAAGCACTGAGAACAGGAAGCTGCTTCACCCGAGAGTTCCTTGGTGCCCTTTCCAAATTGTGCCATCCTTCATCAACAAAGATACAGAAACCATAAATATGATGTCAGAATTTGTTGCTAATTTGCCACAGGAGCTGAAGTTAACCCTGTCTGAGATGCAGCCAGCATTACCACAGCTACAACAACATGTACCTGTATTAAAAGATTCCAGTCTTCTCTTTGAAGAATTTAAGAAACTTATTCGCAATAGACAAAGTGAAGCCGCAGACAGCAGTCCTTCAGAATTAAAATACTTAGGCTTGGATACTCATTCTCGAAAAAAGAGACAACTCTACAGTGCATTGGCTAATAAATGTTGCCATGTTGGTTGTACCAAAAGATCTCTTGCTAGATTTTGCTGAGATGAAGCTAATTGTGCACATCTCGTATAATATTCACACATATTCTTAATGACATTTCACTGATGCTTCTATCAGGTCCCATCAATTCTTAGAATATCTAAGAATCTTTGTTAGATATTAGGTCCCATCAATTCTTAGAATATCTAAACATCTTTGTTGATGTTTAGATTTTTTTATTTGATGTGTAAGAAAATGTTCTTTGTGTGATTAAATGACACATTTTTTTGCTGAAAAAAAAAA
>gi|442796462|ref|NM_134441.2| Homo sapiens relaxin 2 (RLN2), transcript variant 1, mRNA
GTCCCGACCTCCAGGAGAGACCAGGCCCAGGATGCCTCGCCTGTTTTTTTTCCACCTGCTAGGAGTCTGTTTACTACTGAACCAATTTTCCAGAGCAGTCGCGGACTCATGGATGGAGGAAGTTATTAAATTATGCGGCCGCGAATTAGTTCGCGCGCAGATTGCCATTTGCGGCATGAGCACCTGGAGCAAAAGGTCTCTGAGCCAGGAAGATGCTCCTCAGACACCTAGACCAGTGGCAGAAATTGTGCCATCCTTCATCAACAAAGATACAGAAACCATAAATATGATGTCAGAATTTGTTGCTAATTTGCCACAGGAGCTGAAGTTAACCCTGTCTGAGATGCAGCCAGCATTACCACAGCTACAACAACATGTACCTGTATTAAAAGATTCCAGTCTTCTCTTTGAAGAATTTAAGAAACTTATTCGCAATAGACAAAGTGAAGCCGCAGACAGCAGTCCTTCAGAATTAAAATACTTAGGCTTGGATACTCATTCTCGAAAAAAGAGACAACTCTACAGTGCATTGGCTAATAAATGTTGCCATGTTGGTTGTACCAAAAGATCTCTTGCTAGATTTTGCTGAGATGAAGCTAATTGTGCACATCTCGTATAATATTCACACATATTCTTAATGACATTTCACTGATGCTTCTATCAGGTCCCATCAATTCTTAGAATATCTAAGAATCTTTGTTAGATATTAGGTCCCATCAATTCTTAGAATATCTAAACATCTTTGTTGATGTTTAGATTTTTTTATTTGATGTGTAAGAAAATGTTCTTTGTGTGATTAAATGACACATTTTTTTGCTGAAAAAAAAAA
>gi|442769480|ref|NM_006911.3| Homo sapiens relaxin 1 (RLN1), mRNA
GGTTGAGCCGGGTAGGGAAAGCAGCCTAAAGCCCGGGACAGGCACACAGGCCCAGGTGTGTAGGCCACAGCAGCCGCAGTCCTGAAAGGCTGCAACACCCAGACCTCCAGGAGAGACCAGGCCCAGGATGCCTCGCCTGTTCTTGTTCCACCTGCTAGAATTCTGTTTACTACTGAACCAATTTTCCAGAGCAGTCGCGGCCAAATGGAAGGACGATGTTATTAAATTATGCGGCCGCGAATTAGTTCGCGCGCAGATTGCCATTTGCGGCATGAGCACCTGGAGCAAAAGGTCTCTGAGCCAGGAAGATGCTCCTCAGACACCTAGACCAGTGGCAGAAATTGTACCATCCTTCATCAACAAAGATACAGAAACTATAATTATCATGTTGGAATTCATTGCTAATTTGCCACCGGAGCTGAAGGCAGCCCTATCTGAGAGGCAACCATCATTACCAGAGCTACAGCAGTATGTACCTGCATTAAAGGATTCCAATCTTAGCTTTGAAGAATTTAAGAAACTTATTCGCAATAGGCAAAGTGAAGCCGCAGACAGCAATCCTTCAGAATTAAAATACTTAGGCTTGGATACTCATTCTCAAAAAAAGAGACGACCCTACGTGGCACTGTTTGAGAAATGTTGCCTAATTGGTTGTACCAAAAGGTCTCTTGCTAAATATTGCTGAGATGAAGCTAATTGTGCACATCTTGTCTAATTTTCACACATAGTCTTGATGACATTTCACTGATGCTTCTGTCAGGTCCCACTAATTATTAGAATATAAGAAATCTTTATTAATGTTTAGATTTTTCATTTGGTGTGTAAGAAAATATTCTTTGTATGATTGTAGTTTCTGTAAATGACACTTTCTATGCTGAAGTCTTTTTGTCTTTTTATTAACAGTATAATTGTGTTGATTCTTTTTAATGCTGTTAACTTAAAATTACAATAAAACCTTTGCCACTTTAACCATACATAATAACAATACAGTACCTAACAACAGTAAAAAAAAAAAAAAA
>gi|429484500|ref|NM_005027.3| Homo sapiens phosphoinositide-3-kinase regulatory subunit 2 (PIK3R2), transcript variant 1, mRNA
GTGGCGGCGGCGGAGGCGGGGATCCCGCGGCTGCGGCGACGGTGGCCGCGGTGGAGCCACGGGGCGGGCTTGGCTTGGTGTGACGGCGGCTGCGGCGGCGGTGGCGGCCGCGACCAGGTCGGCGTCCTCAGCTGGCCGAGCATGGTGGCAGCCTGCACCCTTGGCTCCCTTGTCTGGTGCAGCCAGCAGAGCCGCCAGCCTTGGGCGCCCATGGCCCTCCGTGTGAGGGCGTGAGCGGCCTGCCCCAGCCTCACCTGCTGATGGAGGACTCAATGGCCCAGTGACCTGACACCACACCACCAACTCCCTCCCACCAGCTGACGAATGGTGGACCCAGTGACGAGTGGCCCTTGTAAGGGTCATGGAATAATTTGAAGCGAGGCATGAGCGGCCCCTGTGGTCGCCTGTGACTGCTGGAGATAGAGGTCCCAGCACCCCAAGCCAACCCAGCGGACCCTCCCAGCCCTGCTTCAACCAATGGGGCCAGTGGGGCTCCAAGCAGCCACCTAACCATCCAGACCCCACCCCACTCACGCGGCCATGGCGGGCCCTGAGGGCTTCCAGTACCGCGCTCTGTACCCGTTCCGCCGGGAGCGGCCGGAGGACCTGGAGCTGCTGCCCGGCGACGTGCTGGTAGTGAGCCGGGCGGCCTTGCAGGCGCTGGGCGTGGCCGAGGGTGGCGAGCGCTGCCCACAGAGCGTGGGCTGGATGCCCGGCCTCAACGAGCGCACACGGCAGCGAGGTGACTTCCCTGGCACCTATGTGGAGTTCCTGGGGCCCGTGGCCCTGGCCCGGCCCGGCCCTCGCCCACGGGGCCCCCGCCCACTGCCCGCCAGGCCCCGTGATGGGGCCCCTGAGCCAGGCCTCACACTCCCCGACTTGCCCGAGCAGTTCTCCCCACCTGATGTGGCTCCCCCTCTTCTGGTGAAGCTTGTGGAGGCCATTGAAAGGACAGGGCTGGACAGCGAATCTCACTACCGCCCGGAGCTGCCCGCACCGCGTACAGACTGGTCCCTGAGCGACGTGGATCAGTGGGACACGGCAGCCCTGGCTGACGGCATTAAGAGCTTCCTGCTGGCACTGCCCGCGCCGCTCGTGACCCCCGAGGCCTCGGCCGAGGCGCGCCGGGCCCTGCGGGAGGCCGCGGGGCCCGTGGGGCCGGCGCTGGAGCCACCGACGCTGCCGCTGCACCGCGCGCTCACGCTGCGCTTCCTGCTCCAGCACCTGGGCCGCGTGGCCCGCCGCGCCCCGGCCCTGGGTCCCGCGGTCCGGGCCCTGGGCGCCACCTTTGGGCCGCTGCTGCTGCGCGCGCCGCCGCCGCCGTCCTCGCCGCCGCCAGGGGGCGCTCCCGACGGGAGTGAGCCCAGCCCTGACTTCCCGGCGCTGCTGGTGGAGAAGCTGCTTCAGGAACACTTGGAAGAGCAGGAGGTTGCGCCCCCAGCGCTGCCGCCTAAACCCCCCAAGGCAAAGCCGGCCCCCACAGTCCTGGCCAATGGAGGGAGCCCACCCTCCCTGCAGGATGCTGAGTGGTACTGGGGGGACATTTCAAGGGAGGAGGTGAACGAGAAACTCCGGGACACTCCCGATGGCACCTTCCTAGTCCGAGATGCTTCTAGCAAGATCCAGGGCGAGTACACGCTGACCCTCAGGAAAGGCGGGAACAATAAGCTGATCAAGGTCTTCCACCGAGATGGGCACTATGGCTTCTCAGAGCCACTCACCTTCTGCTCCGTTGTGGACCTCATCAATCACTACCGCCACGAGTCTCTGGCCCAGTACAATGCCAAGCTGGACACACGGCTCCTCTACCCTGTGTCCAAATACCAGCAGGACCAGATTGTCAAGGAGGACAGCGTGGAGGCAGTGGGCGCCCAGCTTAAGGTCTATCACCAGCAGTACCAGGACAAGAGCCGCGAGTATGACCAGCTTTATGAAGAGTACACACGGACCTCCCAGGAGCTGCAGATGAAGCGTACTGCAATTGAGGCCTTCAATGAGACTATCAAGATCTTTGAAGAGCAGGGCCAGACTCAAGAGAAATGCAGCAAGGAATACCTGGAGCGCTTCCGGCGTGAGGGCAACGAGAAAGAGATGCAAAGGATCCTGCTGAACTCCGAGCGGCTCAAGTCCCGCATTGCCGAGATCCATGAGAGCCGCACGAAGCTGGAGCAGCAGCTGCGGGCCCAGGCCTCGGACAACAGAGAGATCGACAAGCGCATGAACAGCCTCAAGCCGGACCTCATGCAGCTGCGCAAGATCCGAGACCAGTACCTCGTGTGGCTCACCCAGAAAGGCGCCCGGCAGAAGAAAATCAACGAGTGGCTGGGGATTAAAAATGAGACTGAGGACCAGTACGCACTCATGGAGGACGAGGACGATCTCCCGCACCACGAGGAACGCACTTGGTACGTGGGCAAGATCAACCGCACGCAGGCAGAGGAGATGCTGAGTGGCAAGCGGGATGGCACCTTCCTCATCCGCGAGAGCAGCCAGCGGGGCTGCTACGCCTGCTCCGTGGTAGTGGACGGCGACACCAAGCACTGCGTCATCTACCGCACGGCCACCGGCTTCGGCTTCGCGGAGCCCTACAACCTGTACGGGTCGCTGAAGGAGCTGGTGCTGCACTACCAGCACGCCTCGCTGGTGCAGCACAACGACGCGCTCACCGTCACCCTGGCGCACCCAGTGCGCGCCCCGGGCCCCGGCCCGCCGCCTGCCGCCCGCTGAGCACCGAGGACCCGCCCCAAGCAGAGCCGCCCCTGGGCCCGTCTGCGCCGGAGGCTGCGGCGGCGGGAGCCACGGACCAGACCAGCCACATCCAGGGGTCCTCATTTCTCCGGCTCTGGCTCTTGTTTGGGGTTCTCTCACCCTCTTTCTCTTTCCTTCCCTCCCCCATTCTCCAGATCTCCCTCTGTCTCCTTTTCTCTGTCTTTCTTGGCCCCTGTCTCTCTCCATGTTGGGGGTCCTAACTCCCCCACCCCATATCTACGTGTCCTCCGGGCATTGCCCTCTCCATGGCTCTGGTCACCCTGACCCTCTGCCCTGCCCACCGCAGGTCCCCCGGGGTCCCGGAAGCCCCTTCTGGCTGCACCTGCCATGTTTACAGAGGGCCCCTGGGCTGCGCGGCCCCAGCCTGGGCACCCTGATTTTTAAGCCATAGACCTGGGGTCAGGGCAGGAAGGAACTTCACTCTGCTGCTTCCGAGAACCTCGGCCGTGACATTCGGGGCCGGGCGGGACCCGCCCCACAGACTCCAACTTCCCCTCCAAACCCCGAAGTGAAACCCGCCACCGGGTTACCCCCACAAGGGGGCCGCTGCGAGAAGTTCACCCACCCCCGAAAAAATAATTAAACTCGCAGGCCAGGCACGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCCAAGACGGGCGGATCTTTTGAGGTCGGGAGTTGGAGGCCAGCCTGGCCAAAATGGCAAAACCCCGCATCTACTAAAATACAAAAATTAGCCGGGCGTGGTGGCGGCCGCCTGTAATCCCAGCTACTTGGGAGGCTGAGGCGTGAGAATCTCTTGAACCCAGGAGATGGAGGTTGCAGTGAGCAGAGATCGTGCCACTGCACTCCAGCCTGGGTAACAGAGGGAGACTCCTCCGTCTCAAAAAAATAAATAAATAAACTTGTGAGCTGGCCCCAACCCCTCCTAGGAATCACAGCTCCCCGTACTGGTGCCGCCGCAGTGGCCAAGTTGCGACACTGCCCACGGCCCCTCCCTCTGATGCAGATTCAGGGCTTCTCTTCGATCATGTTGGGTTTTGATTCTGTTTTTCCTTGACTGCAAAACCCTCTTTCCTCTCCTCTTTTGGGACAAGAGCCCTGGTTTTCTACGCTGCCCTTGGCCACCACACTGCCTGCCCCACGAGCTGGGAGGCAGGTTTTGTACGGTACGTTGTTATTGATATGATATAAAACATCAAACGTCGAAAAAAAAAAAAAAA
>gi|428673520|ref|NM_001516.4| Homo sapiens general transcription factor IIH subunit 3 (GTF2H3), transcript variant 1, mRNA
GGGGGCTGGCACGAGTCACAGCACCTCGTGCGTCACTTGGCGGCGCCGGACGTTGGGCTGCGCAGGATTTGAGACGCTCCCCTGACCACCACTTGCTCTGCGCTGAGGTGCTGGGACAGCCATGGTTTCAGACGAAGATGAATTGAATCTTCTGGTTATTGTAGTTGATGCCAACCCAATTTGGTGGGGAAAGCAAGCATTAAAGGAATCTCAGTTCACTTTATCCAAATGCATAGATGCCGTGATGGTGCTGGGAAATTCGCATTTATTCATGAATCGTTCCAACAAACTTGCTGTGATAGCAAGTCACATTCAAGAAAGCCGATTCTTATATCCTGGAAAGAATGGCAGACTTGGAGACTTCTTCGGAGACCCTGGCAACCCTCCTGAATTTAATCCCTCTGGGAGTAAAGATGGAAAATACGAACTTTTAACCTCAGCAAATGAAGTTATTGTTGAAGAGATTAAAGATCTAATGACCAAAAGTGACATAAAGGGTCAACATACAGAAACTTTGCTGGCAGGATCCCTGGCCAAAGCCCTTTGCTACATTCATAGAATGAACAAGGAAGTTAAAGACAATCAGGAAATGAAATCAAGGATATTGGTGATTAAGGCTGCAGAAGACAGTGCGTTGCAGTATATGAACTTCATGAATGTCATCTTTGCAGCACAGAAACAGAATATTTTGATTGATGCCTGTGTTTTAGACTCCGACTCAGGGCTCCTCCAACAGGCTTGTGACATCACGGGAGGACTGTACCTGAAGGTGCCTCAGATGCCTTCTCTTCTGCAGTATTTGCTGTGGGTGTTTCTTCCCGATCAAGATCAGAGATCTCAGTTAATCCTCCCACCCCCAGTTCATGTTGACTACAGGGCTGCTTGCTTCTGTCATCGAAATCTCATTGAAATTGGTTATGTCTGTTCTGTGTGTTTGTCAATATTCTGCAATTTCAGCCCCATTTGTACTACGTGCGAGACAGCCTTTAAAATTTCTCTGCCTCCAGTGCTGAAAGCCAAGAAAAAGAAACTGAAAGTGTCTGCCTGAGGATAAAATATTTTCCCCATCTTTTAGAGCTGTTAATAGAAATTATATAGCAGATTCTTTGTTGGGAAGACTGAAAAAAATAAAGATAGGTATAGGATAATTTTTAATATGGTGACCTTACAGAAAATATTTCCCAAACATCCTTTTCATCCTGTGCTTCTGGAGGACTGATTTGTTTGAGGGAATCATTCTATGCATTATATCCTAAAATATTCTATGACTGGTTTCTGTCCATGTTTGTGGCTTTCATTTTTTTAATGGGATGACTATTAGTCAAAGTCAGCTTGTCATGACTCATCATAGGCTTTCTAACCTACTCCCTGAATCCGGGTCCTCATTGTGAAATGCATGCCATACGAAATTTGAACGTAGCTTTGGAAAAAGGGACTATTTGTGGAGTAATGGCATTAATCAACATAGAACATCTTATTTGAATCAACAGTTAACTTCAGTAGTCATGTGAATAAAATTCTTATTGTCTAAATTGAGACAGCCTCAGATATTTGCAGATATTTACTTTTTGTCTGATATCAGTACATATTTGGACAAAGTCATCTAAATAATAGTTTGTCACCAAATAACTACAAAATCTCATTTTAAATGAGTAAGGAGAACGTGTACAGAAGCAAATTTTCTTCAAAATAGTTGTGGGAAGAGCTTATATGTGAAAGCTTATGACTGGTTTTGAGGGAGAACTTACTGGAGAAAATGGACTCTATGTTAAGTATGGTTTTCAGATAGAATTCTTTCCTTTTTTAATGAGGAAAAAAAATCCACATTAATATTGAAACTGCACCTGTAATCCCAGCACTTTGGGAGGCTGAGGACAGAGGATTGCTTGAGCCCAGGAGTTCGAGAGCAGCCTGGGCAGCAAAGTGAGACCCCATCTCTACTAAAAATTTAAATGTATTTATTAAAACTGTTCTCTAGAAGCTTTGGACTGAATCCCAAAAGTGTTTATAAGTTCAAAAGCAAAAGTATTTGTAATTTCAACAACAAAAAATGTATTTCTTTATGTAATCTTGAAATTATTAAAAGTCCTTTTAGCTTCTAGCACATATTTGTACAAAGAGTTTAAGGAATGGTGGCTGGTTTGGTTTGTTTTTTAAAAATGTTTACTGACGAGGCCGGGCGTGGTGGCTCACCCCTGCAATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCACAAGGTCAGGAGTTCAAGATCAGCCTGGCCAGTATGGTGAAACCCTGTCTCTACTAAAAATAGAAAAATTAGCCATGCGAAGTAGCAGGTGCCTGTAGTTCCAGCTACTCGGGAGGCTGAGGCAAGAGAATTGCTTGAATCCAGGAGGCAGAGGTTGCAGTGAGCCAAGATAGCGCCTCTGTACTCCAGCCTGGGTGACAGAGCGAGACTCTGTATCAAAAAAAAAAAAGATCGGGCACGTTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACGAGGTCAGGAGTGATCAGGCTGGGTTTCTGTTTTGTTTTGTTTTGTGAGACAGAGTCTCGCTCTGTTGCCCAGGCTGGGGTGCAGTGGTGCAAGCTCGGCTCTCTGCAAGCTCTGTCTCCTGGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACTACTCTACTGAACCCATGAGGCAGAAATTTGAGACCATCCTGCCCAACGTGGTGAAAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCTGGGCGTGGTGGCAGGTGCCTGTAATCCCAGCTACTCAGGAGACTGAGGCAGGAGAATTGCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAAGATCAAGATTGCGCCATTGCACTCCAGCCTGGGCGACAAGAACAAAACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAGTCTGTACTGATAAAACCCATTGTGTACAAAACTTTGTATGTAAGGAAGATTTTAATTTTCTCTTTATACAAGCTGAGTCATATTTAAATAATTTGATGTTGGCTTAGATAATTTCAGATAGATTTTATATTCTGGATTTGTGTTTTTGTTAACAAATATACAAAGACTTTGGTGATCACTTTGCAAATATTTGTTAATCCTTGAGTTTGAGAACCTGTCTTTTAAAAATAATATTTTGTATACTAATTAAGTGTAATGGAAATCACAATTTTAAGTCTAGGAAATAAAGTATTATATATACTTTCAAACAAGCTAGCAAGGCTTTTATTATTACTTTTTTATTTGAAATATCTTATATATTTGGTTAGTTCTGTTTAACTTGTTTTTAACTGTTGCCCTTATGAGTTATTTTATATAAATTTTTACAATAAAATAATTTGATTTTCAAAAAAAAAAAAAAAAAA
>gi|398650629|ref|NM_001270771.1| Homo sapiens sorbin and SH3 domain containing 2 (SORBS2), transcript variant 9, mRNA
ATGCATTAAACTCCAGGTATTTTCAGGGAGGAATCATGAAGCCGCTCCTGTTAAATCATATCCATTTTATTACGTCTCTCCTTGTGGATTACGTAGAACTTTGGAAAATTAAACATTAGACATCTTCATAGAAAATCATGTCACTGATTTTTAAAGCCAGCTCAATTTAACCTGCCACTGATTCCCTAACCAGCTCTTCTCTGACTGTATCCCGAGGGAAAATGTATTGAACGCAGCAGAAGGTTAAGGCAGAGGAGTTCGGCTAGACCGGGTAGCAGCCAATCAGATGGGGAGGGTCCAAGGATCTGATGCCTCCAGGCGAGCAGCGCCAAGCTGAGCTGGTTAGTCTCCTTTTATTGTGGATGAACACCACGTACATGCCGTAAATGCTCCCTAGGCTGGCTGCGGCTACAAGGCAGACCCGGGAGCTGAGAATAGAGGAATACCTGCCCAAGCAACTCATTCTGCACAGCAGCCGACAAGACAGCGATTTTCCTGTGCTGGAATGTGCCCATCCAAAGCCAACCAATTTGTTGGAAAATCAGTCAAAATCTAATTTTGATGTTCTGCAAGTTCCCTGGGGGCCATGAAGCACCTGACACTTGGATTGGACTTAATCTTAAACCTCTGGAGTTCAAGACCTTTTAAAAAGGGCTAAATAAACAATCTCTACATGTAAAAGGCCACTGACTCCTACTTCCTCTGTATAGAGCAACTGTTGAACTCAGCTGCCTGTAGGAAAACTGAAGACTTTAATAACAAACTCTCCAAGGTGAAAATGAACACAGATAGCGGTGGGTGTGCTCGCAAACGTGCCGCCATGTCTGTTACGCTAACATCTGTGAAGAGAGTGCAAAGTTCTCCAAACCTATTGGCTGCAGGGCGTGATTCTCAGTCACCAGACTCAGCTTGGAGATCTTACAATGATGGCAATCAGGAGACACTGAACGGAGATGCTACATATTCCTCTCTTGCAGCAAAAGGTTTTAGAAGCGTTCGACCAAACCTACAAGATAAAAGATCACCAACTCAGAGCCAGATAACAGTGAATGGAAACTCAGGAGGTGCCGTGAGTCCCATGAGTTACTATCAGAGGCCGTTTTCCCCCTCGGCATATTCTCTCCCAGCCTCACTCAACTCCAGCATTGTCATGCAGCACGGCACATCCCTCGATTCCACAGACACATATCCCCAGCATGCGCAGTCTCTGGATGGCACCACCAGCAGCTCTATCCCCCTGTACCGATCCTCAGAGGAAGAGAAGAGAGTGACAGTCATCAAAGCCCCGCATTACCCAGGGATCGGGCCCGTGGATGAATCCGGAATCCCCACAGCAATTAGAACGACAGTCGACCGGCCCAAGGACTGGTACAAGACGATGTTTAAGCAAATTCACATGGTGCACAAGCCGGATGATGACACAGACATGTATAATACTCCTTATACATACAATGCAGGTCTGTACAACCCACCCTACAGTGCTCAGTCACACCCTGCTGCAAAGACCCAAACCTACAGACCTCTTTCCAAAAGCCACTCCGACAACAGCCCCAATGCCTTTAAGGATGCGTCCTCCCCAGTGCCTCCCCCACATGTTCCACCTCCAGTCCCGCCGCTTCGACCAAGAGATCGGTCTTCAACAGAAAAGCATGACTGGGATCCTCCAGACAGAAAAGTGGACACAAGAAAATTTCGGTCTGAGCCAAGGAGTATTTTTGAATATGAACCTGGCAAGTCATCAATTCTTCAGCATGAAAGACCAGCCTCCTTGTATCAGTCCTCTATAGACAGAAGCCTGGAAAGACCCATGAGTTCTGCAAGCATGGCCAGTGACTTCAGGAAGCGGAGGAAGAGCGAGCCTGCAGTGGGTCCACCACGGGGCTTGGGAGATCAAAGTGCGAGCAGGACTAGCCCAGGCCGAGTGGACCTCCCAGGATCAAGCACCACTCTTACAAAGTCTTTCACTAGCTCTTCTCCTTCTTCCCCATCAAGAGCAAAAGGTGGGGATGATAGCAAAATATGTCCATCCCTTTGCAGTTACTCAGGGCTCAACGGCAACCCCTCCAGTGAGTTAGATTACTGTAGCACTTACAGACAGCACTTGGATGTCCCTCGGGACTCACCAAGAGCCATTAGTTTCAAGAACGGCTGGCAAATGGCCCGGCAAAACGCAGAAATCTGGAGCAGCACGGAAGAAACCGTCTCTCCCAAAATCAAATCCCGGAGCTGTGACGATCTCCTAAACGACGACTGCGATAGCTTCCCGGACCCGAAAGTCAAGTCGGAAAGCATGGGCTCCCTGTTATGTGAGGAGGACTCCAAGGAGAGCTGCCCCATGGCGTGGGGGTCCCCCTACGTCCCGGAGGTTCGCAGTAACGGCAGATCAAGGATCAGACACAGGTCAGCCCGCAACGCCCCGGGGTTCCTGAAGATGTACAAGAAAATGCACCGCATCAACCGCAAGGACCTGATGAACTCCGAGGTGATCTGCTCCGTGAAGTCCAGGATTCTGCAGTACGAGAGCGAGCAGCAGCACAAGGACCTGCTGCGCGCCTGGAGCCAGTGCTCCACGGAGGAGGTGCCCCGGGACATGGTGCCCACACGCATCTCCGAATTCGAAAAGCTGATCCAGAAGTCCAAATCCATGCCAAATTTAGGGGATGACATGCTGTCTCCCGTAACCCTAGAACCACCGCAAAATGGCCTATGTCCCAAGAGGCGGTTTTCCATTGAGTATTTGCTGGAGGAAGAAAATCAAAGCGGCCCCCCCGCTCGGGGCCGGCGAGGCTGCCAGTCTAACGCCCTGGTGCCCATTCACATTGAAGTCACCAGCGATGAGCAGCCCCGAGCACACGTGGAGTTTTCCGACAGCGACCAGGACGGGGTTGTGTCCGACCACAGTGACTACATTCACCTAGAGGGGTCATCCTTCTGCAGTGAAAGTGACTTTGATCACTTTTCCTTCACATCCTCCGAAAGCTTTTACGGATCCAGCCACCACCACCACCATCACCACCACCACCACCACCGCCACCTCATCAGCTCCTGCAAAGGCAGGTGCCCGGCCTCCTACACTCGATTTACCACAATGTTAAAACACGAAAGAGCCAGACACGAAAACACCGAGGAGCCCAGAAGGCAAGAAATGGACCCTGGCCTTTCTAAACTTGCTTTTCTAGTCAGTCCTGTGCCTTTCCGGAGGAAAAAAAATTCGGCTCCTAAGAAACAGACTGAAAAGGCAAAATGTAAAGCATCTGTGTTTGAGGCTCTGGACTCTGCCCTTAAAGACATCTGTGACCAAATTAAAGCTGAAAAGAAAAGGGGGAGCTTGCCGGACAACAGCATCCTGCACCGCCTCATCAGTGAGCTGCTGCCAGATGTTCCCGAGAGGAACTCATCCCTGAGAGCGCTGAGGAGGAGCCCCCTGCACCAGCCTCTCCACCCACTGCCTCCCGATGGTGCTATTCATTGTCCACCCTACCAGAATGACTGCGGGAGAATGCCCCGCAGTGCCTCTTTCCAAGACGTGGACACAGCCAACAGCAGCTGCCACCACCAAGACCGTGGCGGTGCACTCCAAGACCGTGAGTCCCCTAGAAGTTACTCATCCACTTTGACTGACATGGGGAGAAGTGCACCAAGGGAAAGAAGAGGAACTCCAGAAAAAGAGAAATTGCCTGCAAAAGCTGTTTATGATTTTAAGGCTCAGACATCTAAGGAGTTGTCATTTAAGAAAGGAGATACTGTCTACATCCTCAGGAAAATTGATCAAAATTGGTATGAGGGAGAACACCACGGGAGAGTGGGCATCTTCCCGATCTCATACGTAGAGAAACTCACACCTCCTGAGAAAGCACAGCCTGCAAGACCACCTCCGCCAGCCCAGCCCGGAGAAATCGGAGAAGCTATAGCCAAATACAACTTCAACGCAGACACAAATGTGGAGCTGTCACTGAGAAAGGGAGATAGAGTTATTCTTCTTAAAAGAGTTGATCAAAACTGGTATGAAGGTAAAATCCCAGGAACCAACAGACAAGGCATCTTCCCTGTTTCCTATGTGGAGGTCGTCAAGAAGAACACAAAAGGTGCTGAGGACTACCCTGACCCTCCAATACCCCACAGCTATTCTAGTGATAGGATTCACAGCTTGAGCTCAAATAAGCCACAGCGTCCTGTGTTTACTCATGAAAATATTCAAGGTGGGGGGGAACCGTTTCAGGCTCTGTATAACTATACTCCCAGGAATGAAGATGAGCTGGAGCTCAGAGAAAGTGATGTCATTGATGTCATGGAAAAGTGTGATGACGGCTGGTTTGTGGGGACCTCAAGAAGAACCAAATTCTTTGGTACTTTCCCCGGAAACTACGTCAAGAGGCTGTGAATTGCGCTCCCTCCTTCTGTAGAGGCCGCCTGCCAGCCATGCACCTGCGTCAACGCGCCTGAAACACCCCGCGGGCCTCCCGTTGTCATGCCTTACGGTTTCCAATGCGCCGTCACCATCTCCACCTGCCACCAAACCACCAGCAGAGTAGCCGCCGCTGCTGTGAGCCTGGGGACGACATGGCAGGCTGGTCCCCCTCCGTGAAAGTGTGGATTCCTACTTCCTGCTCTAAGCTTTGACACGTCAAAATGTGGGATCAGAAAGAAAAAAATCATGATATTTAAAAATGGTCAAATATTTGAGGCAAAAAAAAAAAAAAAAAGTGTCTCCAGGAGGCTGTCCAGCCTCGTGGCTCCATTTCAACATCTCCCCCCAGGCGATGTTCTCCCCCAAGACGACCAGAAAATTGTTTATTGGGGAATGCTGTGGTTTGCATTTTCATATTCTTCGCTTGGCAGTGTGTATTCTTTTCACAAGTTTGCCTAGTGTCTTGGTTTACACAATATGACAACTGTAACTGTACTTTAGCTATTGTTTGCCTGCACATACATGTTGTAATATGCACAGTGATTACAACCTTTAAAGCAAGAGGAGGCGAGTTAATTTGGATGAGTGTGATTTTGCTGATTGAATGTGAGTTTTCAAATAGGAGTCTTTTTCTGCAATTTGTTTGCATTTTTTAGAAGTGCAAACAGTAAGTAAATAAAAGCCTTCGGTAATAATCATGACAATACAAGAGGCTGAGCTAGGCTACAGGGGAAAACTATTGTGTTGTAAAGTTGCATCGCTATTTTATATTAAAATGTAATGATCAGCATCATGAACAATGAGCTCTTAGTGTTTTATTTATCTGAAAAAATGTAAGTAAAAGCAGTGTTAGTGAGAGGTGCAAAGAATTATTCTAACAGACACCTGAAAGTATCTGTAAGCAATACTAGTAGGTAAGATTTCACTGTGTGTACACATACACATTTGAGATTGTATGAGAACATATAATCCATATGATATGTTGTACATTTTATGGAAATGTAATAGAATCTCACACATTATTTTATAGAAATAGAGTACAGAAGCATCACAAGTATTAAAGTTGGTTTTAGCAAGGATTAGGATTACTACAATTATTTTTACTATAATAATTATTTTTCTTCTATGGAACTCAGAATCCTGGCTACATTTGAGGACAGGAATATGTTGAGCCTGATTTTCCTGGTGTGTGTAAAATATTTCCTAGGAATAAATTAGGCACTTTTTAGAAGCAATGTTAAATCATTCAGGTTTTATTTTCTGCCCTGAAGCAGAAATTTAAAAAATGATATTGGGACCTGGAAGGTTTAATATGGTTCACAGTGCCTGAATTACACCTGCTCCGAAAACTAGCTTTGTATTTCTTATGACTTTGCATAAGAACTGTTCATCTTTGGATCTTGAGCACCTTACAGATAAAACTTTTTATGGCATCTCTTTCATGGACAGTGATATTGATCTTTTCACAATGTACGTAGCCTCTAGAATTTTGTACATATGTTTGCTCTTTTTTTGTACAGACTAGTTGTTGAGAAAACAGGGGCGTTTCCTAATTTGGTCTTTATCCTGCGACAACACTTTCAGCAGACTAGCCTCTCCTTATCTCACAGATCACAAGCACCCCTAGATAGTGTGATTCTGTCAGATAGCATTTATGCAAAAATCTATGAAGTTAAAAGATCGTAGAAGCCAAATGAAATGTACATATCTACTGACTGATGACAAGGGAATTTCATTAGGAAGAAGGTAAAGAAACATCGTTGAGTAGCCTACCTTGATTTCTGTCAAGTTCATAACCAGCTTCATATTTTAAAGGCTTCAGGTTTGAAATTAAGTCAACTGCATGCAGCTTTGCTGATAAATGAATAATTCTCTTTGATGCCATTTATGAGAAAAGACTTCAATATCTGTTGCCTGTCATATTTAAGAAAAATTACTGTTTCTACTCTCTGTATCTGATTTTAAAAGAAAAAACTATTCATACCTGGCTTCCAGGTAATTGACTTTGAATTCTTACAAGCAAAGGTCATTGTGTTTTTCTTGAATAGACATCTAATAAATTTTGCTTGGAAGTATACTTCAGTTTTTCTTCTTGACATTTATCTTTATAAAAATTGTGTATTTTATTCCAACTTGTTAAACTAAGAGAAAATGCA
>gi|395627667|ref|NM_006449.4| Homo sapiens CDC42 effector protein 3 (CDC42EP3), transcript variant 1, mRNA
CGCGCCCACCGGAGCCCGGGCTGAGAGGGACCTGGGGAGCTGCGGCCTGGCCGGGGCGGCGCACTCAGGTGGCCTCGCTTCCCTGCGGGTCACCGCCCGCCACTCGCACAGCTAGGTCGGCCTGTTGGGATCGGGAGAGGTGGGCGCACGAGTTTTAGTGCGGGAGTCCGGGGTGCGGGCGGAGTCCTATTGTCCCCGTGCACCCGGGCGGCAGCACCTCCGGGTCCCTCTTTAAACCGAGCGTCCGGCGACCTTTCTTTGTGCTTAGGGAGTCGAAAGCGGCATCTTCTCCGAGAGAAGTCGCCTACTGGGGGGTGGCGCTGGGGAGGTAACAATGGGCGCCCATTGTCCTCCGAGGGTCCAACGGTGACCCCCCCCCGCGCGCGCGCCCGGCCACCGGTTGGCCCCGGGCCAGGGCACAGGTACCGCGGCTGGGAGGGTCGGCCCCGCTGCCCGCGCCCTCCGCCCCGCCCCAGTGAGTCCCCGCGCCGCCGGCCCCGCCCCGCGCCGCCCCGCCCTCCGCAGGTTCAGTCCTCGCGTCCGGCCGCCCCGCGCTCAGTCGCGCGCACCTTCTCTCGCGGCCGGGGGACCGCAGCGCGGGGCTAGCCCGGAGACCCGGCCACCGGCCTGGGGCGCCTTCACGCCGTCTCGGAGCGGATAATGCGGTGAGCAGGCACCACGCCGGCAGACTCGGCTGGATCTGCGCACAGCGGCAGGGATTGCGTGCGCCCGCGGGAGGCCCGGGGCAGCGGCTGGGATCCTCAGCGGCGGCCGGTTTGTCCTGGTTGTGGTCAAGACTGGATGATGTAACTGGCTCTCTAGGAAGCCTCACTTGGCCGTAACCTCAGGAAGGTTCTCTTTGACCCCATCTCATTTCGAAGCCACTTCTGAAGCCACTTGAGAAAAATGATGTGACAGTTCCTATCAAAAAGGATTCAGAAACATATACCATCTGTGAAGAAAGTGGCCCTTTCTCCCGCTTGCAAAATAGACATTCTCAAATTCCAAAATGCCAGCCAAGACCCCAATTTACCTGAAAGCAGCCAATAACAAGAAAGGAAAGAAATTTAAACTGAGGGACATTCTGTCTCCTGATATGATCAGTCCCCCGCTTGGAGACTTTCGCCACACCATCCACATTGGCAAAGAGGGCCAGCACGATGTCTTTGGAGATATTTCCTTTCTTCAAGGGAACTACGAGCTTTTACCTGGAAACCAGGAGAAAGCACACCTGGGCCAGTTCCCTGGGCATAATGAGTTCTTCCGGGCCAACAGCACCTCGGACTCTGTGTTCACAGAAACGCCCTCCCCGGTGCTCAAAAATGCCATCTCCCTCCCGACCATTGGAGGATCCCAAGCTCTCATGTTGCCCTTATTGTCACCAGTGACATTTAATTCCAAACAGGAGTCCTTCGGGCCAGCAAAGCTGCCCAGGCTTAGCTGCGAGCCCGTCATGGAGGAAAAAGCTCAGGAGAAAAGCAGTCTGTTGGAGAATGGGACAGTCCACCAGGGAGACACCTCGTGGGGCTCCAGCGGTTCTGCATCTCAGTCCAGCCAAGGCAGAGACAGCCACTCCTCCAGCCTGTCCGAACAGTACCCCGACTGGCCAGCCGAGGACATGTTTGACCATCCCACCCCATGCGAGCTCATCAAGGGAAAGACTAAGTCAGAGGAGTCCCTCTCTGACCTTACAGGTTCCCTCCTCTCCCTGCAGCTTGATCTTGGGCCCTCACTTTTGGATGAGGTGCTGAATGTAATGGATAAAAATAAGTAACAAGATGCCAACTTTTTTCCTTTGGGGTAAAAGGTACAAAAACAAACTAACCACAGTTGAAGAGAAGGGCTTCCGGAGCTGTATTTGCAGTTTTGTGTTGGGTTTTCTAAAATAATATTCTTACAAAGTATTTTTTTACCTGTTATGCCCTGTTTGCAAAAACAATTTAGAAAAAAACAACAAAGCAAAACCTATCTTGGCAAAAAAAGGAAGTGAGTCAGAGCCCATTTTCAGGAGGCATTGGTGATGTTCGGCTCACATATTGTTTGCAGACACACAAGAAATCTGGCTTGGCCAGGATTGGCACTAGCTATGAAGGGCTGAGCGAGTCACATTAAGGAACTTCACGGAACTTTATAGCACTCCGACATTTTCTGAGCAAGAGGAAGTCAAAATTTATTTAACACCTAAGCCTTTTTGTAGACTCTTTTCTATATATTGCTTAGGCTCACCATAGCGAATTCTCCAGTGTTAAAACTTTTCTGTTTTCACATTTGAACTTTATGGGTTTTGGGGATTTTCTTGTAGTTCTTATATATCCCTATATATTATATCTATATTGCAAAATTTTGACTGTCAGCTACATGTTGGTAAGACACAGGCAAAGTATTACTGTAACTAAGTTATTTTTAAAGTTAAAATATATTTTTACGTGCCTTTGGCTTTTTATTGCAGAGTCTACATTTTATAGATTCTACATCAGATGTTGTCACTTATTTCCATTGGGATTCCATTGTAAGCTGTGTATGTGCGTGTTTGGAAAAGTGTATTCATACTTAGTTTTTTTTTCTTCATCTGTTATCATACTTTTAACAGCAACCAATAACGGATTGTAAAGTGTAAAGGCACAGGTTACTCATGATGCTTCTGCAGAGACTGTGGGCTACACCACATATGTTATTTGGAAATATAGGTATTTTAGTACAGTACATACTTGCATTACATAGGTACTTCAAGCAACACAATAAAAAGTAAATGATAAAGTGAACTTGCTTGTTTATAGTAATAAACAAGACCATAAGAGAATAAGTATAGCTAGAGAAATTGCTTCTCTGAAATGTACATGAGCCCTTAAGGTAAGAGATGATTTCCATCTACTCTCATTTTGATTACTTCCTTATGGTTTGAGAGGCTAGAAACTGAGCCTCTCTACTTTTGGAAAAATGAACATGTGAGGTCAGATTTTTTTTTTTTTTTTTAAGTCAGCACTGATGCCACCCTCTCAGTGGTCATTTCTGAGCATCTTCCTGACTTGAACACCTTCTACAGCAAACTCTTGCAAGTCCAGTTTCATCCCTGTAAGGCAAATGTCTTTTCACGCAGAAAGTGCCATATAGACGAGATAAAGGCAGCTAAAACGAGGGCAGTAGAGAGCACTTACCCGACCCCAAGGTGCCAGAGATGCCCTGAGGATGGTGGTTAAGGAAACAGGAGCAGGAAATGTACACACAGATTCCTGTCCCTTTGCCAACTACTCCTTCCCCATCAAAGAAAAACACTTGCACACAGTAACTACCAGCTCCTTCTCTCAAACTTGTATTTCTCCTGGAAATGTATCTCAGAAATGACCTCCTCTCCCAACCACTTCAACGATTCTTTCTTTGGGTTTGGGGTTCTTGCAGTTCTATCATCTAAAATAACCTTTGGACTGCAGGTAAAATGCAATTAGGACAACTAACCAAGTAGACGAAACAAGTTCCCCTAGGCAGGGGTGTCCAATATTTTAGCTTCCCTGGACCGCATTGGAAGAATTTTCTTGGGCCACATGTAAAACACACTAACACTAACCATAGTTGATGAGCTTAAAAAAATAAAAATAGAAAATTGCAAAAAAAAAAAAAAAAAAAAATCTCAGACTGTTTTAAGAAAGTTTAAAAATTTGTGTTGGACTTCATGCGGGCCACAGGTTGGACAAGCTTGCCCTAGGGCATTGTGTGCTTTCCGTAACTTCTCAGTTGTATTTCGTTATCCATGACTCTCCAGTGTTTTTTCTGTTGGACCACACCCGTCACAGTTCACAGTTCCAAAGAGAAATTTCCCAGCCTATTCTAAATCTTGTTAATGACGAAGAGTCCAATGTATCTCATTATTTGTAGCCAATTTTAGACTCTTTTCAATACCTCCCCCCCATTTTAATTAGTATTGATCATATTCAGTCTTTCATTTTACTCTTCATCTGTAGCGTGACCTCAAGGTAAAGATGAAACTATTTCATGAAAAGGGGAGGAGTATGGCTGTGCATTAGCTCTACTCCCTCTCTGGTAAGTACTGGGGAGAGAACAGCCCTGCCAGTACTGGGTTTGATAGATTCTAAATATTAATCACACATCCTGCCTACAGTTAGCCATTTTAGTTTCTGGGAGTTCTTTCATGTACATTTTCTTCCATTAATTGAATTAGGTATAATTGAGATGGCAATAAATATGCCCGTATTAGAAAGAGGAAACAAAGCTACATGCGGCTTATGATTTTGTTGAGTCACTTCTCCCGAGGCAGCCTTTCCAATGCCTGGTCCCTTCCCCTGAGAGCAGGTGGACTGCTGGTGGTGGCTTTCTTTCCTGCAGAGAGGCACTTTAGACCCATACCTGCTGTGAGCTGAATTGATGTTCTCATCCTGTGAACCTTCTCCCACTTTAACCTAATTTATCTTTACTTGTTTAAAGATAAGGAAACCCAAGATGTACTTTATTTGCAAACTCAAAGCAAATGGCGAGCCACCTGTGACCCAGTAACCAGAAAAGAAACCATGCCATTTGTATAAGTAGAGACACTTCTTGTTGAGGTAGGCAAGGCTCTTGTGAGCGATTTTTTTCCCCTAGTGAGACCTAACAAAAGACAAGCTATATCATTTCTGCCTGAAATTATCTGCTTGAAAAGATCAAAATATCAGGATACTTAGCTCTTCACAAATATGAAGTCATTATCACATTTCACTGAGCCAGAAATCACTGTTAACAGCACACACAAAAGACTACACTGGTTGAACAGCAAAGAGAAACCCGGGTCTCCAGAATCACAGTTTAGTCCTTCTATATTACTGCAAGTGACCTGTTTTTTCTGAAGGCTCCCCGCAAATGAAGTCCTGGAATGGAAAAAATCCATAAGTCCATAAATTAACTTGATAAATATTTTAGAACAGACAAAAGAAAATATTGAGTGATGTAGTTCTAATCCTCCTAATATGGAACCTGGCAAGACTGAATCATTTTACTGTGAAATATATAAACACAATAGAATGAGCCAACATGATGGTTTCTCTCCAGTAAGAGTTTTTCTTTTGGAAATGAGGTTAACCTAGCCCCAAATCTAGCAATTCTCATAAAATCCGATTTTAGAATTAGCCTCCCAGATTAATCTGAATGATTGACTTATTTTTTCTTAGGCAAGTCAGTAAGCCACCCACTAGACAGCCATATCCAGCAAAATAAGAGAAGTTTCCAGATGCCAAATGATAAGCCACCATCAACCCAGCGGGGAAGCCTTCTGGTTGGTTTGGCTGTATGAGATTCAGGAAGGCCAGAATACCCAAAATTATTCACACGACGTTAACTTATTGGTACTGGCTAAGCAATACATGTATTTCCTAAAGGAGGAGATGGTCTTTTGGTTGATTTATGGACACACTTGTTTCATCTGACTGTAAATATATTGCATGCTTTATTCTGATGGTGCACTATTTCATCCAGCAAGCTTTTCATCTGAGAATGTTTAATGTTGACCTTATTCTTAGAGCAAGTAGATCTAAATATTTTTCAGCTGAGTTATTAGGGAGTCATTATTCTGTGGTACAATGCTGCAAAAAGCATCATGTGGAAGAATGGGAACTATGCTTACTTTATGAAGTGATGTATAACACAATGAAATCTGTTTTACAACTACTGTGCTGCATTTAATTATCTTCCATTTTTGCTGTTAAAAAAAAAAAATCCGTTAATGATGTC
>gi|395627661|ref|NM_001270436.1| Homo sapiens CDC42 effector protein 3 (CDC42EP3), transcript variant 2, mRNA
CGCTGGCGGTGGCCGGGTGACCGGCGGGCGCAGGTGCCACCGCGGCCTGAATTTTACTCTCTCGGGCCGGCAGCTGCGCCACTTGCGCCTCGTCGCGCGTCTGGGGCAGCCGCCACCGGCTTGCCCCAGCTTTAGGCAAATCCTTTTGAAAGACCCTGAGGGAGAAGAAACGCCTCCCTCTGGGTTTGTCCTGGTTGTGGTCAAGACTGGATGATGTAACTGGCTCTCTAGGAAGCCTCACTTGGCCGTAACCTCAGGAAGGTTCTCTTTGACCCCATCTCATTTCGAAGCCACTTCTGAAGCCACTTGAGAAAAATGATGTGACAGTTCCTATCAAAAAGGATTCAGAAACATATACCATCTGTGAAGAAAGTGGCCCTTTCTCCCGCTTGCAAAATAGACATTCTCAAATTCCAAAATGCCAGCCAAGACCCCAATTTACCTGAAAGCAGCCAATAACAAGAAAGGAAAGAAATTTAAACTGAGGGACATTCTGTCTCCTGATATGATCAGTCCCCCGCTTGGAGACTTTCGCCACACCATCCACATTGGCAAAGAGGGCCAGCACGATGTCTTTGGAGATATTTCCTTTCTTCAAGGGAACTACGAGCTTTTACCTGGAAACCAGGAGAAAGCACACCTGGGCCAGTTCCCTGGGCATAATGAGTTCTTCCGGGCCAACAGCACCTCGGACTCTGTGTTCACAGAAACGCCCTCCCCGGTGCTCAAAAATGCCATCTCCCTCCCGACCATTGGAGGATCCCAAGCTCTCATGTTGCCCTTATTGTCACCAGTGACATTTAATTCCAAACAGGAGTCCTTCGGGCCAGCAAAGCTGCCCAGGCTTAGCTGCGAGCCCGTCATGGAGGAAAAAGCTCAGGAGAAAAGCAGTCTGTTGGAGAATGGGACAGTCCACCAGGGAGACACCTCGTGGGGCTCCAGCGGTTCTGCATCTCAGTCCAGCCAAGGCAGAGACAGCCACTCCTCCAGCCTGTCCGAACAGTACCCCGACTGGCCAGCCGAGGACATGTTTGACCATCCCACCCCATGCGAGCTCATCAAGGGAAAGACTAAGTCAGAGGAGTCCCTCTCTGACCTTACAGGTTCCCTCCTCTCCCTGCAGCTTGATCTTGGGCCCTCACTTTTGGATGAGGTGCTGAATGTAATGGATAAAAATAAGTAACAAGATGCCAACTTTTTTCCTTTGGGGTAAAAGGTACAAAAACAAACTAACCACAGTTGAAGAGAAGGGCTTCCGGAGCTGTATTTGCAGTTTTGTGTTGGGTTTTCTAAAATAATATTCTTACAAAGTATTTTTTTACCTGTTATGCCCTGTTTGCAAAAACAATTTAGAAAAAAACAACAAAGCAAAACCTATCTTGGCAAAAAAAGGAAGTGAGTCAGAGCCCATTTTCAGGAGGCATTGGTGATGTTCGGCTCACATATTGTTTGCAGACACACAAGAAATCTGGCTTGGCCAGGATTGGCACTAGCTATGAAGGGCTGAGCGAGTCACATTAAGGAACTTCACGGAACTTTATAGCACTCCGACATTTTCTGAGCAAGAGGAAGTCAAAATTTATTTAACACCTAAGCCTTTTTGTAGACTCTTTTCTATATATTGCTTAGGCTCACCATAGCGAATTCTCCAGTGTTAAAACTTTTCTGTTTTCACATTTGAACTTTATGGGTTTTGGGGATTTTCTTGTAGTTCTTATATATCCCTATATATTATATCTATATTGCAAAATTTTGACTGTCAGCTACATGTTGGTAAGACACAGGCAAAGTATTACTGTAACTAAGTTATTTTTAAAGTTAAAATATATTTTTACGTGCCTTTGGCTTTTTATTGCAGAGTCTACATTTTATAGATTCTACATCAGATGTTGTCACTTATTTCCATTGGGATTCCATTGTAAGCTGTGTATGTGCGTGTTTGGAAAAGTGTATTCATACTTAGTTTTTTTTTCTTCATCTGTTATCATACTTTTAACAGCAACCAATAACGGATTGTAAAGTGTAAAGGCACAGGTTACTCATGATGCTTCTGCAGAGACTGTGGGCTACACCACATATGTTATTTGGAAATATAGGTATTTTAGTACAGTACATACTTGCATTACATAGGTACTTCAAGCAACACAATAAAAAGTAAATGATAAAGTGAACTTGCTTGTTTATAGTAATAAACAAGACCATAAGAGAATAAGTATAGCTAGAGAAATTGCTTCTCTGAAATGTACATGAGCCCTTAAGGTAAGAGATGATTTCCATCTACTCTCATTTTGATTACTTCCTTATGGTTTGAGAGGCTAGAAACTGAGCCTCTCTACTTTTGGAAAAATGAACATGTGAGGTCAGATTTTTTTTTTTTTTTTTAAGTCAGCACTGATGCCACCCTCTCAGTGGTCATTTCTGAGCATCTTCCTGACTTGAACACCTTCTACAGCAAACTCTTGCAAGTCCAGTTTCATCCCTGTAAGGCAAATGTCTTTTCACGCAGAAAGTGCCATATAGACGAGATAAAGGCAGCTAAAACGAGGGCAGTAGAGAGCACTTACCCGACCCCAAGGTGCCAGAGATGCCCTGAGGATGGTGGTTAAGGAAACAGGAGCAGGAAATGTACACACAGATTCCTGTCCCTTTGCCAACTACTCCTTCCCCATCAAAGAAAAACACTTGCACACAGTAACTACCAGCTCCTTCTCTCAAACTTGTATTTCTCCTGGAAATGTATCTCAGAAATGACCTCCTCTCCCAACCACTTCAACGATTCTTTCTTTGGGTTTGGGGTTCTTGCAGTTCTATCATCTAAAATAACCTTTGGACTGCAGGTAAAATGCAATTAGGACAACTAACCAAGTAGACGAAACAAGTTCCCCTAGGCAGGGGTGTCCAATATTTTAGCTTCCCTGGACCGCATTGGAAGAATTTTCTTGGGCCACATGTAAAACACACTAACACTAACCATAGTTGATGAGCTTAAAAAAATAAAAATAGAAAATTGCAAAAAAAAAAAAAAAAAAAAATCTCAGACTGTTTTAAGAAAGTTTAAAAATTTGTGTTGGACTTCATGCGGGCCACAGGTTGGACAAGCTTGCCCTAGGGCATTGTGTGCTTTCCGTAACTTCTCAGTTGTATTTCGTTATCCATGACTCTCCAGTGTTTTTTCTGTTGGACCACACCCGTCACAGTTCACAGTTCCAAAGAGAAATTTCCCAGCCTATTCTAAATCTTGTTAATGACGAAGAGTCCAATGTATCTCATTATTTGTAGCCAATTTTAGACTCTTTTCAATACCTCCCCCCCATTTTAATTAGTATTGATCATATTCAGTCTTTCATTTTACTCTTCATCTGTAGCGTGACCTCAAGGTAAAGATGAAACTATTTCATGAAAAGGGGAGGAGTATGGCTGTGCATTAGCTCTACTCCCTCTCTGGTAAGTACTGGGGAGAGAACAGCCCTGCCAGTACTGGGTTTGATAGATTCTAAATATTAATCACACATCCTGCCTACAGTTAGCCATTTTAGTTTCTGGGAGTTCTTTCATGTACATTTTCTTCCATTAATTGAATTAGGTATAATTGAGATGGCAATAAATATGCCCGTATTAGAAAGAGGAAACAAAGCTACATGCGGCTTATGATTTTGTTGAGTCACTTCTCCCGAGGCAGCCTTTCCAATGCCTGGTCCCTTCCCCTGAGAGCAGGTGGACTGCTGGTGGTGGCTTTCTTTCCTGCAGAGAGGCACTTTAGACCCATACCTGCTGTGAGCTGAATTGATGTTCTCATCCTGTGAACCTTCTCCCACTTTAACCTAATTTATCTTTACTTGTTTAAAGATAAGGAAACCCAAGATGTACTTTATTTGCAAACTCAAAGCAAATGGCGAGCCACCTGTGACCCAGTAACCAGAAAAGAAACCATGCCATTTGTATAAGTAGAGACACTTCTTGTTGAGGTAGGCAAGGCTCTTGTGAGCGATTTTTTTCCCCTAGTGAGACCTAACAAAAGACAAGCTATATCATTTCTGCCTGAAATTATCTGCTTGAAAAGATCAAAATATCAGGATACTTAGCTCTTCACAAATATGAAGTCATTATCACATTTCACTGAGCCAGAAATCACTGTTAACAGCACACACAAAAGACTACACTGGTTGAACAGCAAAGAGAAACCCGGGTCTCCAGAATCACAGTTTAGTCCTTCTATATTACTGCAAGTGACCTGTTTTTTCTGAAGGCTCCCCGCAAATGAAGTCCTGGAATGGAAAAAATCCATAAGTCCATAAATTAACTTGATAAATATTTTAGAACAGACAAAAGAAAATATTGAGTGATGTAGTTCTAATCCTCCTAATATGGAACCTGGCAAGACTGAATCATTTTACTGTGAAATATATAAACACAATAGAATGAGCCAACATGATGGTTTCTCTCCAGTAAGAGTTTTTCTTTTGGAAATGAGGTTAACCTAGCCCCAAATCTAGCAATTCTCATAAAATCCGATTTTAGAATTAGCCTCCCAGATTAATCTGAATGATTGACTTATTTTTTCTTAGGCAAGTCAGTAAGCCACCCACTAGACAGCCATATCCAGCAAAATAAGAGAAGTTTCCAGATGCCAAATGATAAGCCACCATCAACCCAGCGGGGAAGCCTTCTGGTTGGTTTGGCTGTATGAGATTCAGGAAGGCCAGAATACCCAAAATTATTCACACGACGTTAACTTATTGGTACTGGCTAAGCAATACATGTATTTCCTAAAGGAGGAGATGGTCTTTTGGTTGATTTATGGACACACTTGTTTCATCTGACTGTAAATATATTGCATGCTTTATTCTGATGGTGCACTATTTCATCCAGCAAGCTTTTCATCTGAGAATGTTTAATGTTGACCTTATTCTTAGAGCAAGTAGATCTAAATATTTTTCAGCTGAGTTATTAGGGAGTCATTATTCTGTGGTACAATGCTGCAAAAAGCATCATGTGGAAGAATGGGAACTATGCTTACTTTATGAAGTGATGTATAACACAATGAAATCTGTTTTACAACTACTGTGCTGCATTTAATTATCTTCCATTTTTGCTGTTAAAAAAAAAAAATCCGTTAATGATGTC
>gi|395132503|ref|NM_001270458.1| Homo sapiens monoamine oxidase A (MAOA), transcript variant 2, mRNA
GGCGGAGCCAGGCCGGCCTAGAGTCACTTCTCCCCGCCCCTGACTGGGCCGGGAGCCCGGGGCTGGTCTCTAAGAGTGGGTACCGAGAACAGCCTGACCGTGGAGAAGGGCTGCGGGAAGCAGAACACCGCCCCCAGCGCCCAGCGTGCTCCAGAAACATGAGCACAAACGCCTCAGCCTCCTTCCCCGGCGGCACCGGCACCGGCACCAGTACCCGCACCAGTACCGGCACCGGCACCAGTACCCGCACCAGTACCGGCACCGGCACCAGTACCCGCACCAGTACCGGCACCGGCACCGAGCGCAAGGCGGAGGGCCCGCCCGAAGCCGGGGGCACAACTGCCCAGGTCCCGAACCCGGACTCCAGCTTGGACGACACCTCCTACAGCCTGTCCGAATGGAGCGTCCGTTCTGAGTGGCGGTCCGTCTCGGATCCGCTAGCCAGTTCCCAGTGGAGCACGTCCTCAACTGCCGAGGCCGCCTCCTGGAGCTCCAGCATACACTCCCCAATCAGCACTACCGGTCTTAGCGAGAGTACTGACTCCGACTCCAAGAGTGGCCTCCGGGGTTTCAGCGCTTACAACCCGAGCAGTCGGATCCCCAAGTCTACCACCAGCTCGAACTCCTCCGATGGGGCCGTCACAGCCTCCAATCAGGACACCGGCATTCCCTGGGTATTAGTAACAGGACCTACCCCGCCCGTAAACTCCCCCGTAGAGTCATTGCAAGGGTCTGCCTTCTCCTCAGGGTTCAGCACCCCACGGGGTTTGGTAAAAGGACCGACCCTGCCCCCGGATTCCAACCTGACCTCAGTGTCCGACTACACTTGGATATTTGTACGGGGACCTCCTATACCCAATGACCTTTCGCAAGTGTCAATACAAGCACCTCCTACACCCAGTAACACCCCCGAGTGTCAGTACAAGGGTCTGCCGCATCCTCAGTGTCCAGCTTCCCCTGGGGTTTGGTACCAGGACCACCTCTACCCAATAACATTTCCCCAGTGTCGCCACAAGCACCTCCTGCACCCCATAACATCCCCCCAGTGTCAAGGCAGGCGTCTACCCCCACCTCAGTGCCTGACACTCCGCGGGGTTCAATACAAGAACCTCCTGCACCCAGTAATCCTTTCCAGCTGCCGACACAAGGACATTCTAAACCTAATAACTCTCGCCGAGTGTCAGTACAAGGGTCCGCCCCGCTCTCAGTGCCCAGCTCCCCCCGGGTATCAGCTGAAACATCAGCTCCGCCCCTGGGCGCTCCCGGAGTATCAGCAAAAGGGTTCGCCCCGCCCACAGTGCCCGGCTCCCCCCGGGTATCAAAAGAAGGATCGGCTCCGCCCCCGGGCTCCCCGGGGGAGTTGATAGAAGGGTCCTTCCCACCCTTTGCCGTCCCCACTCCTGTGCCTACGACCCAGGAGCGTGTCAGCCAAAGCATGGAGAATCAAGAGAAGGCGAGTATCGCGGGCCACATGTTCGACGTAGTCGTGATCGGAGGTGGCATTTCAGGCCAAGAGAAGAGATTGGCATGAACTGTTGCTTTGCCAGTTCCAGCCAGTACCAGCAAAAACATACATGTATGTTGGAGCATCAGAGGAAAGCAGCTCCTGGTGGAGAGACTATCTGCTGCCAAACTCTTGACTGAATATGGCGTTAGTGTTTTGGTTTTAGAAGCTCGGGACAGGGTTGGAGGAAGAACATATACTATAAGGAATGAGCATGTTGATTACGTAGATGTTGGTGGAGCTTATGTGGGACCAACCCAAAACAGAATCTTACGCTTGTCTAAGGAGCTGGGCATAGAGACTTACAAAGTGAATGTCAGTGAGCGTCTCGTTCAATATGTCAAGGGGAAAACATATCCATTTCGGGGCGCCTTTCCACCAGTATGGAATCCCATTGCATATTTGGATTACAATAATCTGTGGAGGACAATAGATAACATGGGGAAGGAGATTCCAACTGATGCACCCTGGGAGGCTCAACATGCTGACAAATGGGACAAAATGACCATGAAAGAGCTCATTGACAAAATCTGCTGGACAAAGACTGCTAGGCGGTTTGCTTATCTTTTTGTGAATATCAATGTGACCTCTGAGCCTCACGAAGTGTCTGCCCTGTGGTTCTTGTGGTATGTGAAGCAGTGCGGGGGCACCACTCGGATATTCTCTGTCACCAATGGTGGCCAGGAACGGAAGTTTGTAGGTGGATCTGGTCAAGTGAGCGAACGGATAATGGACCTCCTCGGAGACCAAGTGAAGCTGAACCATCCTGTCACTCACGTTGACCAGTCAAGTGACAACATCATCATAGAGACGCTGAACCATGAACATTATGAGTGCAAATACGTAATTAATGCGATCCCTCCGACCTTGACTGCCAAGATTCACTTCAGACCAGAGCTTCCAGCAGAGAGAAACCAGTTAATTCAGCGGCTTCCAATGGGAGCTGTCATTAAGTGCATGATGTATTACAAGGAGGCCTTCTGGAAGAAGAAGGATTACTGTGGCTGCATGATCATTGAAGATGAAGATGCTCCAATTTCAATAACCTTGGATGACACCAAGCCAGATGGGTCACTGCCTGCCATCATGGGCTTCATTCTTGCCCGGAAAGCTGATCGACTTGCTAAGCTACATAAGGAAATAAGGAAGAAGAAAATCTGTGAGCTCTATGCCAAAGTGCTGGGATCCCAAGAAGCTTTACATCCAGTGCATTATGAAGAGAAGAACTGGTGTGAGGAGCAGTACTCTGGGGGCTGCTACACGGCCTACTTCCCTCCTGGGATCATGACTCAATATGGAAGGGTGATTCGTCAACCCGTGGGCAGGATTTTCTTTGCGGGCACAGAGACTGCCACAAAGTGGAGCGGCTACATGGAAGGGGCAGTTGAGGCTGGAGAACGAGCAGCTAGGGAGGTCTTAAATGGTCTCGGGAAGGTGACCGAGAAAGATATCTGGGTACAAGAACCTGAATCAAAGGACGTTCCAGCGGTAGAAATCACCCACACCTTCTGGGAAAGGAACCTGCCCTCTGTTTCTGGCCTGCTGAAGATCATTGGATTTTCCACATCAGTAACTGCCCTGGGGTTTGTGCTGTACAAATACAAGCTCCTGCCACGGTCTTGAAGTTCTGTTCTTATGCTCTCTGCTCACTGGTTTTCAATACCACCAAGAGGAAAATATTGACAAGTTTAAAGGCTGTGTCATTGGGCCATGTTTAAGTGTACTGGATTTAACTACCTTTGGCTTAATTCCAATCATTGTTAAAGTAAAAACAATTCAAAGAATCACCTAATTAATTTCAGTAAGATCAAGCTCCATCTTATTTGTCAGTGTAGATCAACTCATGTTAATTGATAGAATAAAGCCTTGTGATCACTTTCTGAAATTCACAAAGTTAAACGTGATGTGCTCATCAGAAACAATTTCTGTGTCCTGTTTTTATTCCCTTCAATGCAAAATACATGATGATTTCAGAAACAAAGCATTTGACTTTCTGTCTGTGGAGGTGGAGTAGGTGAAGGCCCAGCCTGTAACTGTCCTTTTTCTTCCCTTAGGCAATGGTGAACTGTCATTACAGAGCCTAGAGGCTCACAGCCTCCTGGAGGAAGCAGCCTCCACTTTGGATCAGGAAATAGTAAAGGAAAGCAGTGTTGGGGGTAGCGGCATGCAGACCCTCAGACCAGAATGGGGACATCTTGTGGTCTGCTGCCTCAGGAATCTCCTGACCACTTGTAGTCCCTCCGACTTCTCTAGACATCTAGTCTCAGTGCTAGCTTATTTGTATTTTTCCTCTTTCACTTCTTATGGAGGAGAGTGTTTAACTGAGTTAGAATGTTGAAACTGACTTGCTGTGACTTATGTGCAGCTTTCCAGTTGAGCAGAGGAAAATAGTGGCAGGACTGTCCCCCAGGAGGACTCCCTGCTTAGCTCTGTGGGAGACCAACTACGACTGGCATCTTCTCTTCCCCCTGGAAGGCAGCTAGACACCAATGGATCCTTGTCAGTTGTAACATTCTATTTCAACTTCAGGAAAGCAGCAGTTTTCTTTTAATTTTTCCTATGACCATAAAATTAGACATACCTCTCAACTTACATATGTCTTCAACATGGTTACCTCTGCATAAATATTAGCAAAGCATGCCAATTTCTCTTAAGTACTGAAATACATATGATAAATTTGACTGTTATTTGTTGAGACTATCAAACAGAAAAGAAATTAGGGCTCTAATTTCCTTAAAGCAAGCTCACTTGCTTTAGTTGTTAAGTTTTATAAAAGACATGAAATTGAGTCATTTTATATATGAAAACTAAGTTCTCTATCTTAGGAGTAATGTCGGCCCACAAGGGTGCCCACCTCTTGTTTTCCCCTTTTAAAAACTCAGATTTTTAAAAGCCCTTTCCAAAGGTTTCAACTGTAAAATACTTCTTTTTACAATGTATCAACATATTTTTATTTAAGGGGAATTAACAATTGCCAGGGAAACCAGCCAACCCAAGTTTATTATATCATTAACCTTATCATAAATTCAAACCTAAGTTGCTGGACCCTGGTGTGAGGACATAAATCTTCCAAAGTTTTGCCTATCCTAAGAGCTGCATTTTTCTACTGCTCTTTACCTTGCATTTTAGCTAATTTAGGAGTTTTGAGAATGTATTGGATACGCTCCAGTACATAAGGAGTTGCCGCATATTATATCAGACTGCTTTGAGAAATCTCATCCCTAGTCTATTGCAGTTGTTTCTATTAGCTTACTGATTAACTCAGTCCTGACACACCTTTTGGGAAATGCTGATTTAAACTTCTTAACTGGCAACAGTTGGAACAGTAATCAGTTTGCTAACATATTTAAAGTCTTGAATGTTGAAGAACTCATGTGATTTACCCTTTTCAACTTTTTGGAAAACGATTTAATTTATTCTAATTAGATTAACCCTATTAATCTATGGATTGGGTATCAAAATGAATGCCAGTCCAGATGTGCCTAGACACGAAATTGGAGCTGAGGACTCTCACGATATGCAAGTTCATCCAACGTGAAGATACCATAAGCTTTTTCTCTGAACCAGAGAAATGAAAGTCAGTTTAAGAGGCTGATAGATCTTGGCCCTGTTAAGGCATCCACTTCACAGTTCTGAAGGCTGAGTCAGCCCCACTCCACAGTTAGGCCAAGAATTAGATTTTAAAACTTCATCTGTCTGTCCCAGTTAACTGTTAAATAAGGCCTCATCCTCCACTGAAGAGTATGGATTGAAGGATTGTGAACTATGTTTAGTGTGATTGTGAACTTGGTGCCTAATGTTCCATGTCTGAAGTTTGCCCCAGTGCTACACGTTGGAGTATACCTATGTGTGTGCTTTGCCACTGAAGTAAGATTTTGCCTGTATGGTACTGTTTTGTTTGTTAATAAAGTGCACTGCCACCCCCAATGCAGAC
>gi|393715090|ref|NM_001270399.1| Homo sapiens tubulin alpha 1a (TUBA1A), transcript variant 2, mRNA
ATAATGGATGCTCGGCCGACTGCTTCTGCACGGTCTCTTTGTCTAAAGGATGCAAACAGTCTACGGATGCTAGAGAAAAAGGGGTGGGGGAGAGATTACCTCATCCCACGTCGCTTGCACCAATCACCAGTCTCCTGTCATGGCTTCTCTGGGCAGATTGGGGGTCTGGACCAACAGGAAAAGGCCCCGGCCCATCCCCATGGTGACCGAGTTGTATATAGGGAGCCGCATCCGCCTATGTGCCGCAGGTTCTCTTACATCGACCGCCTAAGAGTCGCGCTGTAAGAAGCAACAACCTCTCCTCTTCGTCTCCGCCATCAGCTCGGCAGTCGCGAAGCAGCAACCATGGTGAGAATCGGCTTCGGCTCTTTGTGGCCGTTGGGTGGAGTCAGCGCCCCCAGGCTCTACTTGGAAAACCTTTAAGCTCTTTTCTTTCGTAAGCTCTCTGGGCGAGGGTGGTGGTATGTTTTGTGAGGTTTAGCTTAGCCCCAAATCCTCAAGCCCCGCCGCCGCCGCAGTGCGGGTGCAGGAACCGGGCCAGTACTGCGCCCAGGGCGCAGCAGAGCGCTGGGGAGGAACAAAGGCGGCGCCTAGGCGCCTGTGTTATCCGAGAGACTTTCGGGGGCCGCGGGCAGCCCGTCTGCCGCGACCGAGGGGTCTGGGGCGTCCCGGCTGGGCCCCGTGTCTGTGCGCACGGTTTCGCTGATGCTGAGGGGCCACTTTCTGTCTCGCGTTGTTCTCTGGGGACCGGGAGAGGAGGAGGCACCCAAAAAGAGCGGGGGCGTTGGGCGAGCTGGGGGACGTGGGAGGGGGAACGGGAACAAAGCGCAGCCTAGGGTTAGCGTGGGAAGACCCTCCGCGGTCTTTGGCGTTTTGGAAAGATACCCACACATTCCCGGGAAAACATGCGTGAGTGCATCTCCATCCACGTTGGCCAGGCTGGTGTCCAGATTGGCAATGCCTGCTGGGAGCTCTACTGCCTGGAACACGGCATCCAGCCCGATGGCCAGATGCCAAGTGACAAGACCATTGGGGGAGGAGATGATTCCTTCAACACCTTCTTCAGTGAGACGGGGGCTGGCAAGCATGTGCCCCGGGCAGTGTTTGTAGACTTGGAACCCACAGTCATTGATGAAGTTCGCACTGGCACCTACCGCCAGCTCTTCCACCCTGAGCAACTTATCACAGGCAAAGAAGATGCTGCCAATAACTATGCCCGAGGGCACTACACCATTGGCAAGGAGATCATTGACCTCGTGTTGGACCGAATTCGCAAGCTGGCCGACCAGTGCACGGGTCTCCAGGGCTTCTTGGTTTTCCACAGCTTTGGTGGGGGAACTGGTTCTGGGTTCACCTCGCTGCTCATGGAACGTCTCTCAGTTGATTATGGCAAGAAGTCCAAGCTGGAGTTCTCTATTTACCCGGCGCCCCAGGTTTCCACAGCTGTAGTTGAGCCCTACAACTCCATCCTCACCACCCACACCACCCTGGAGCACTCTGATTGTGCCTTCATGGTAGACAATGAGGCCATCTATGACATCTGTCGTAGAAACCTCGATATTGAGCGTCCAACCTATACTAACCTGAATAGGTTAATAGGTCAAATTGTGTCCTCCATCACTGCTTCCCTGAGATTTGATGGAGCCCTGAATGTTGACCTGACAGAATTCCAGACCAACCTGGTGCCCTATCCCCGCATCCACTTCCCTCTGGCCACATATGCCCCTGTCATCTCTGCTGAGAAAGCCTACCATGAACAGCTTTCTGTAGCAGAGATCACCAATGCTTGCTTTGAGCCAGCCAACCAGATGGTGAAATGTGACCCTCGCCATGGTAAATACATGGCTTGCTGCCTGTTGTACCGTGGTGACGTGGTTCCCAAAGATGTCAATGCTGCCATTGCCACCATCAAGACCAAGCGTACCATCCAGTTTGTGGATTGGTGCCCCACTGGCTTCAAGGTTGGCATCAACTACCAGCCTCCCACTGTGGTGCCTGGTGGAGACCTGGCCAAGGTACAGAGAGCTGTGTGCATGCTGAGCAACACCACAGCCATTGCTGAGGCCTGGGCTCGCCTGGACCACAAGTTTGACCTGATGTATGCCAAACGTGCCTTTGTTCACTGGTACGTTGGGGAGGGGATGGAGGAAGGTGAGTTTTCAGAGGCCCGTGAGGACATGGCTGCCCTTGAGAAGGATTATGAGGAGGTTGGTGTGGATTCTGTTGAAGGAGAGGGTGAGGAAGAAGGAGAGGAATACTAAAGTTAAAACGTCACAAAGGTGCTGCTTTTACAGGGAAGCTTATTCTGTTTTAAACATTGAAAAGTTGTGGTCTGATCAGTTAATTTGTATGTAGCAGTGTATGCTCTCATATACAATTACTGACCTATGCTCTAAAACATGAATGCTTTGTTACAGACCCAAGCTGTCCATTTCTGTGATGGGTTTTGAATAAAGTATTCCCTGTCTTAAATGAAAAAAAAAAAAAAAA
>gi|389616136|ref|NM_001267569.1| Homo sapiens cAMP responsive element modulator (CREM), transcript variant 30, mRNA
TGGAACACTTTATGTTGAACTGTGGTAGAGGAAACAAGACAGTTCTGTCTGCAGAAGCCCATTATGGCTGTAACTGGAGATGACACAGATGAGGAAACTGAACTTGCCCCAAGTCACATGGCTGCTGCCACTGGTGACATGCCAACTTACCAGATCCGAGCTCCTACTGCTGCTTTGCCACAGGGAGTGGTGATGGCTGCATCGCCCGGAAGTTTGCACAGTCCCCAGCAGCTGGCAGAAGAAGCAACACGCAAACGAGAGCTGAGGCTAATGAAAAACAGCCTTGTCAGAGTTTCTTCCTTGCCTTGCACTTCCTCTCCGTGCTGAGGATACACCCAGACACATGCAAGCCTGAAAACCGAGCTCACTATTAATAGAAGAAACAGGTGTTTTCCATGGCTGAGGAGTGCTTAGGAATGTACCATCTACTGATGTGATCGGGGAAAGCTTTGTGCCTGCAACATTTTGACTCTAGTAATATGTGTGTCTGTGCATGCACACACACACATGCACACTCAAATGTAGAAGATGAAGTATGAGTATTTATAATAGCTTATTAAAGAAAATGTTTAAACACCCGCAACACCGCTATTAGGTCTTTAAATTTTTCATTTAATGGTAACCATGTTTTGTAAAATGACTATCTTCCTTCTAGGTCTAGAATTTAATATAATTTAATCATGAAAACGTTGGTATTCATAAATGAATTTCAGTGCCTTTGTGGAAAAGAGTTAAATTATGTCCCCAAATTGGCAAATGTGTGTGTTTGGATTTATTCTTAACTTTTCCAATTGCATCATTTAGATTAAATTAGTCACTATAACATTCTTTTCAATTTTACATTTTAAATTTCTTTTGTTAACCAGCTGAGAAGTCTGAGAACTTTGTATGTTCACAGGGTGAGTCCATTGTTCCTGGCTAGGAAGCAGGGGTTGATCTTTTCCTGCAGTTCATTTGGATTGAAGGTTCTTCTTTGCTGACTCTTGCTTCCATAGTGAAAACACAGATATCCACTCAGTGAGAGTCAGCTATCTTAAAAAAAAAAAAAAAATCATGTATACATCACATGTGGTTCAGGATGCTAGCTGGCATTACAGAAACTGGTGTTTAGACATTCAACACTGCTTTTTTTAACATATTTGAATGATAGTGTCTGTTTCAGTGCAGGCTTTTTTGACATGAAGGGTGATCTACCTCAAAGGCAGTTATTCTGGAATTGAATCCTCCAAAATGAGGCCAATTAAAGGGTGTCTTCTACATAGGAGTTAAGGGAAGTGGTTGCCATCCCTCCCACCCTGAAAAAAAGAAAAAGAGAAAATGTTGGCTCTATTTATTGTTTTGGTGGGGTTATGTATGAAAATGACTAAGTCAACTCATCTGTTTGTGTTGTTGCTTTGGCTACTGGTCTGTTCTTTCATTTTGGGCTTATAGTGCTTTAAAATTCAATATATTGGATATTAAATGCATGTGATTAGGAAACAGTCTTGAAATATGCCCAGAGTTACTCAGTAGCTTCTTTTTTATAATTTTAATTGTGGTGGTCTCACATTTGTGGGTTTAAATTGTCTGAGTTATTGAGTGTTGTATTTTGTAGCCCCCTTCTTTAATTTTCAGAAGCACTGTCCATTTCATTTCGGTTTATAAAAATGCACATCTTTTGTTTATTGTTATGATTTATCCATGTGTGTTTTCTAGCCAATAAACTGTGTCTTGCAGTCATAAAAAAAA
>gi|389616134|ref|NM_001267568.1| Homo sapiens cAMP responsive element modulator (CREM), transcript variant 29, mRNA
TGGAACACTTTATGTTGAACTGTGGTAGAGGAAACAAGACAGTTCTGTCTGCAGAAGCCCATTATGGCTGTAACTGGAGATGACACAGCTGCCACTGGTGACATGCCAACTTACCAGATCCGAGCTCCTACTGCTGCTTTGCCACAGGGAGTGGTGATGGCTGCATCGCCCGGAAGTTTGCACAGTCCCCAGCAGCTGGCAGAAGAAGCAACACGCAAACGAGAGCTGAGGCTAATGAAAAACAGCCTTGTCAGAGTTTCTTCCTTGCCTTGCACTTCCTCTCCGTGCTGAGGATACACCCAGACACATGCAAGCCTGAAAACCGAGCTCACTATTAATAGAAGAAACAGGTGTTTTCCATGGCTGAGGAGTGCTTAGGAATGTACCATCTACTGATGTGATCGGGGAAAGCTTTGTGCCTGCAACATTTTGACTCTAGTAATATGTGTGTCTGTGCATGCACACACACACATGCACACTCAAATGTAGAAGATGAAGTATGAGTATTTATAATAGCTTATTAAAGAAAATGTTTAAACACCCGCAACACCGCTATTAGGTCTTTAAATTTTTCATTTAATGGTAACCATGTTTTGTAAAATGACTATCTTCCTTCTAGGTCTAGAATTTAATATAATTTAATCATGAAAACGTTGGTATTCATAAATGAATTTCAGTGCCTTTGTGGAAAAGAGTTAAATTATGTCCCCAAATTGGCAAATGTGTGTGTTTGGATTTATTCTTAACTTTTCCAATTGCATCATTTAGATTAAATTAGTCACTATAACATTCTTTTCAATTTTACATTTTAAATTTCTTTTGTTAACCAGCTGAGAAGTCTGAGAACTTTGTATGTTCACAGGGTGAGTCCATTGTTCCTGGCTAGGAAGCAGGGGTTGATCTTTTCCTGCAGTTCATTTGGATTGAAGGTTCTTCTTTGCTGACTCTTGCTTCCATAGTGAAAACACAGATATCCACTCAGTGAGAGTCAGCTATCTTAAAAAAAAAAAAAAAATCATGTATACATCACATGTGGTTCAGGATGCTAGCTGGCATTACAGAAACTGGTGTTTAGACATTCAACACTGCTTTTTTTAACATATTTGAATGATAGTGTCTGTTTCAGTGCAGGCTTTTTTGACATGAAGGGTGATCTACCTCAAAGGCAGTTATTCTGGAATTGAATCCTCCAAAATGAGGCCAATTAAAGGGTGTCTTCTACATAGGAGTTAAGGGAAGTGGTTGCCATCCCTCCCACCCTGAAAAAAAGAAAAAGAGAAAATGTTGGCTCTATTTATTGTTTTGGTGGGGTTATGTATGAAAATGACTAAGTCAACTCATCTGTTTGTGTTGTTGCTTTGGCTACTGGTCTGTTCTTTCATTTTGGGCTTATAGTGCTTTAAAATTCAATATATTGGATATTAAATGCATGTGATTAGGAAACAGTCTTGAAATATGCCCAGAGTTACTCAGTAGCTTCTTTTTTATAATTTTAATTGTGGTGGTCTCACATTTGTGGGTTTAAATTGTCTGAGTTATTGAGTGTTGTATTTTGTAGCCCCCTTCTTTAATTTTCAGAAGCACTGTCCATTTCATTTCGGTTTATAAAAATGCACATCTTTTGTTTATTGTTATGATTTATCCATGTGTGTTTTCTAGCCAATAAACTGTGTCTTGCAGTCATAAAAAAAA
>gi|387598067|ref|NM_001261445.1| Homo sapiens thioredoxin reductase 1 (TXNRD1), transcript variant 5, mRNA
AGACCCTCACGTGATGACAACAGCTAGCAAAGTTCTGTAGCTACTGCCTTAGGGCATAGTCTAATTTCTTCAGTAAAAACACACTTATTCCAAATTTGGTTCCAGAATTGCCTTAAATTGTTTTTGCTCTGTTCTTAGGTTGGGGGCGGCTATGAGCAGGCAGAGGATGTGGTGTCACCCAATTAGGAGCTCTCAGCTTACGAGGCAATTAGCATAGGTTGCCAGGGCTGCACGAGGAGTGGATTTCTGCTTTGTCATTCTGACTCTGGCAGTTAGCCCGCCCGCTCGGCGCAGGGCGTGGCTTCTCGTAGCCATTAGGAAACAGCAACCCTTTCACCTCAGTTTTCTTCACTCCGGCATTTGCAGCAGAGCGAAAGGTGGTCGAGTCCTGAAGGAGGGCCTGATGTCTTCATCATTCTCAAATTCTTGTAAGCTCTGCGTCGGGTGAAACCAGACAAAGCCGCGAGCCCAGGGATGGGAGCACGCGGGGGACGGCCTGCCGGCGGGGACGACAGCATTGCGCCTGGGTGCAGCAGTGTGCGTCTCGGGGAAGGGAAGATATTTTAAGGCGTGTCTGAGCAGACGGGGAGGCTTTTCCAAACCCAGGCAGCTTCGTGGCGTGTGCGGTTTCGACCCGGTCACACAAAGCTTCAGCATGTCATGTGGTAGGTGAGGCCGGCGCCTGTAGGCTGGCGGTTTCCTTCCTCTTGGTCTTTGTAGAGACAGTTTGCAGAACAGCGGAGAAAATGGAGGACGGTCGGGCCCTGGAAGGAACGCTCTCGGAATTGGCCGCGGAAACCGATCTGCCCGTTGTGTTTGTGAAACAGAGAAAGATAGGCGGCCATGGTCCAACCTTGAAGGCTTATCAGGAGGGCAGACTTCAAAAGCTACTAAAAATGAACGGCCCTGAAGATCTTCCCAAGTCCTATGACTATGACCTTATCATCATTGGAGGTGGCTCAGGAGGTCTGGCAGCTGCTA