Gene Name | Heterocephalus glaber isolate NMR 29 unplaced genomic scaffold, HetGla_female_1.0 scaffold00041, whole genome shotgun sequence |
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Twsg1 twisted gastrulation homolog 1 (Drosophila), transcript variant X4
Length: 540 bp Location: 18047800..18078670 Strand: +>XM_004853236.1 ATGAAGTCACACTGTGTCGCTGCACTGACGCTGGCCGGGCTGATGTTCCTGATGTGGCTCCCCGGGTCTCTGAGCTGCAACAAAGCACTCTGCGCCAGCGATGTGAGCAAATGCCTCATCCAGGAGCTGTGCCAGTGCCGGCCCGGCGAGGGGAACTGCTCGTGCTGCAAGGAGTGCATGCTGTGCCTGGGCGCCCTGTGGGACGAGTGCTGCGACTGCGTGGGGATGTGCAACCCGAGGAACTACAGCGACACCCCGCCCACCTCCAAGAGCACGGTGGAGGAGCTGCACGAGCCCATCCCCTCCCTCTTCCGGGCGCTCACCGAAGGGGACACCCAGCTCAACTGGAACATCGTGTCCTTCCCTGTCGCAGAGGAGCTTTCGCATCATGAAAATCTGGTTTCTTTCCTGGAAACTGTGAATCAGCCCCACCACCAGAACGTGTCTGTCCCCAGCAACAATGTTCACGCGCCTTACTCCAGCGACAAAGGTCTGCCTTTCTCTACACAGTTCCTGACTCCGATTACTCTGCATCCCTAG
Slmo1 slowmo homolog 1 (Drosophila), transcript variant X1
Length: 588 bp Location: 19639004..19644170 Strand: +>XM_004853262.1 ATGAGGATCTGGAGCTGCGAGCACGTGTTCGGCCACCCGTGGGACACGGTGATCAAGGCTGCCATGAGGAAGTACCCGAACCCCATGAACCCCAGCGTGGTGGGTGTGGATGTCCTGGAGCGCGCTGTGGATGGCCGAGGGCGGCTGCACAGCCTGCGCCTGCTAAGCACCGAGTGGGGGCTGCCGGGCCTGGTCACCGCGATTTTGGGAACCAGTAGGACCCTGACCTACATCAAAGAGCACTCTGTGGTAGACCCAGCCGAGAAGAAAATGGAGCTTTTCTCCACCAATGTAAGCAGTGGCCAGGACGAAACGGGCCCAGGGGCCTGGGGGCCGAGCTGTCTCCCACCCGCCCTTGCTGTGCACGATTGTGCGTTCTTAGGAGGAAGACTGGGCCTATTTCCCAGTATTTTGTCTTTATTCCAGTGTAGTACATGTGTAGGGAGACGTAGGAATCCAGCCAGAACTGCATCTTGTGGCTGTTGGCTGGCCTGGTGTGTGCTGCACAGACGCTGGGCCCTGCTGGGTCCCCAAGGTGTCACTCGGGCCCACCGCCTAACTCGGTTGCTGTGCCCTGCCGAGCGCTGA
Rab31 RAB31, member RAS oncogene family
>XM_004853237.1 ATGGCGATCCGCGAGCTCAAAGTGTGCCTGCTCGGGGACACCGGGGTTGGAAAGTCGAGCATCGTGTGTCGCTTTGTCCAGGACCATTTTGACCACAACATCAGCCCTACCATCGGGGCCTCTTTCATGACCAAAACTGTACCTTGTGGAAACGAGCTTCACAAATTCCTCATCTGGGACACCGCTGGGCAGGAGCGGTTTCACTCGCTGGCTCCCATGTACTATCGAGGATCTGCAGCAGCCGTCATAGTCTACGACATTACCAAACAGGATTCGTTTCATACCTTGAAGAAATGGGTCAAAGAATTGAAAGAGCATGGCCCAGAGAACATCGTGATGGCCATTGCTGGGAACAAGTGCGACCTCTCTGACATTAGGGAGGTTCCCCTGAAGGACGCGAAGGACTATGCCGAATCCATAGGCGCCGTCGTGGTGGAGACCAGTGCCAAGCATGCTATTAACATCGAGGAGCTCTTCCAAGGGATCAGTCGCCAGATCCCGCCCTTGGACCCCCTCGAGAAGGGCAACAACGGAGCCATCTGCATGCACGGCGGGAAGCCACCCGCGCAGGCCCGGCGGTGCTGCTGA
Twsg1 twisted gastrulation homolog 1 (Drosophila), transcript variant X2
Length: 672 bp Location: 18048665..18080664 Strand: +>XM_004853234.1 ATGAAGTCACACTGTGTCGCTGCACTGACGCTGGCCGGGCTGATGTTCCTGATGTGGCTCCCCGGGTCTCTGAGCTGCAACAAAGCACTCTGCGCCAGCGATGTGAGCAAATGCCTCATCCAGGAGCTGTGCCAGTGCCGGCCCGGCGAGGGGAACTGCTCGTGCTGCAAGGAGTGCATGCTGTGCCTGGGCGCCCTGTGGGACGAGTGCTGCGACTGCGTGGGGATGTGCAACCCGAGGAACTACAGCGACACCCCGCCCACCTCCAAGAGCACGGTGGAGGAGCTGCACGAGCCCATCCCCTCCCTCTTCCGGGCGCTCACCGAAGGGGACACCCAGCTCAACTGGAACATCGTGTCCTTCCCTGTCGCAGAGGAGCTTTCGCATCATGAAAATCTGGTTTCTTTCCTGGAAACTGTGAATCAGCCCCACCACCAGAACGTGTCTGTCCCCAGCAACAATGTTCACGCGCCTTACTCCAGCGACAAAGAGCACATGTGCACAGTGGTTTACTTCGACGACTGCATGTCCATCCACCAGTGCAAGATCTCCTGCGAGTCCATGGGCGCCTCCAAGTACCGCTGGTTCCACAATGCCTGCTGCGAGTGCATCGGACCCGAGTGCATCGACTACGGCAGCAAGACCGTCAAGTGCATGAACTGCATGTTCTAG
Piezo2 piezo-type mechanosensitive ion channel component 2
>XM_004853316.1 ATGCCACCACTGTCATGTGCGTTCCGGTACAATGGGCTTTCCTTTGTCTACCTTATCTACCTCCTGCTCATTCCTCTGTTCTCAGAACCAACAAAAGCGACGATGCAAGGACACACGGGTCGGCTGCTCAAGTCCCTGTGCCTCCTGAGCCTCTCCTTCCTGCTGCTGCACATCGTCTTCCACATCACGCTGGCAAGCCTCGAGGCCCAGCACCGCATCACGCCTGGCTACAACTGCTCAACGTGGGAAAAGACATTTCGGCAGATTGGCTTTGAAAGCTTGGAGGGTGCAGACGCTGGCAACGGGATCCGAGTGTTCGTGCCGGACATCGGGATGTTCATCGTCAGCCTGACCATCTGGCTCGTCTGTAGGAACATGGTCCAGAAACCCGCAGTGGAGGAAACAGCCCGGGACACCCCCGAGTTTGAAAACGAAGAACTGGCCAGAGGAGAGAAAATGGACTCCAAGGAGGCACTGATTGAGGATGAGGACCTGGACGGGGCTGACATGGAGGACACCGAGGGGGAGGACAGTGCCCGGCTGAGGCTGTTCCGCCAGCTGGCCTCGCTGGCCTCGCGACTCAAAGAGTTCGTGGGGAATATGATCACCACGGCCGGCAAGGTGGTGGTCACCATCCTCCTGGGCTCCTCAGGCATGATGCTGCCCTCACTGACCTCGGCTGTCTACTTCTTCGTCTTCCTGGGCCTGTGCACCTGGTGGTCCTGGTGCCGCACGTTTGACCCACTACTGTTCAGCTGCCTCTGTGTCCTGCTGGCCATCTTCACAGCCGGGCACCTAATTGGGCTGTACTTATACCAGTTCCAGTTCTTCCAGGAGGCCGTACCCCCCAATGACTACTACGCAAGGCTGTTTGGTATCAAGTCAGTGATCCAAACCGACTGTTCCAGTACTTGGAAGATCATCGTCAACCCAGACCTGTCCTGGTACCACCACGCCAACCCCATCCTGCTGCTGGTCATGTACTACACGCTGGCCACACTGATCCGAATCTGGCTCCAGGAGCCCCTCGTGCCAGATGAGATGGCCAAGGATGAGGACTGCGCCCTGGGTGACAGCCCCAGCCAGCACTCGGCGGAGCGGCGGCGGAGCTTGTGGTATGCGGCCCACTACCCGACCGACGAGAGGAAGCTTCTGTCCATGACCCAAGACGACTACAAACCATCTGATGGCCTGCTGGTGACGGTGAACGGCAACCCTGTGGACTACCACACCATCCACCCAAGCCTGCCCCTGGAGAATGGCCCCGCCAAGGCCGACCTGTACTCCACACCCCACTACCGCTGGGAGCCCTTGGAGGGGTCTGCAGAAAAGAAAGAGGATGAGGAGTATGAGAAGGAAGAATCTGAAGGGGAAAGGAGCCGGGAAGACAAGAGAAGTGTTAAAGTCCACGCCATGGTGTCCGTGTTCCAGTTCATCATGAAACAGAGCTACATCTGTGCCCTCATTGCCATGATGGCCTGGAGCATCACCTACCACAGCTGGCTGACATTCGTGCTGCTGATCTGGTCCTGCACTCTGTGGATGATCCGCAGCAGGAGGAAGTACGCCATGGTCAGCTCCCCATTCATGGTCATCTACGCCAATCTGCTGCTGGTGCTGCAGTACATATGGAGCTTCGAACTTCCGGAGATTAAAAAGGTCCCGGGATTTCTAGAGAAGAAAGAGCCAGGAGAACTTGCCTCAAAGATTCTCTTCACTATCACTTTTTGGCTCCTGCTGCGGCAGCACCTCACGGAGCAAAAAGCTCTTCGGGAAAAGGAAGCTCTTTTGTCAGAAGTCAAAATAGGAAGTCAGGAAAATGAAGAAAAAGATGAGGACCTGGAAGAGGTGCAAGTGGAAGGAGAGCCCAAGGAGAAGGAGGAGGAAGAGGGGGAGGGGCCGAAGGAGGAGAAGCAGGAGACAAAGGAGGAGGAGGAGGAAGCAGAGGAAGACGGAGATGACCAGGACATCATGAAAGTCTTGGGCAACCTGGTGGTGGCCATGTTCATCAAGTACTGGATCTACGTGTGCGGTGGCATGTTCTTCTTCGTCAGCTTTGAGGGCAAGATCGTCATGTACAAGATCATCTACATGGTGCTCTTCCTGTTCTGTGTGGCCTTGTACCAGGTCCACTACGAGTGGTGGCGGAAGATTCTGAAATACTTTTGGATGTCAGTAGTCATATACACGATGCTGGTGCTCATCTTTATCTACACGTATCAGTTTGAAAACTTCCCCAGCTTGTGGCAAAACATGACGGGGCTGAAGAAAGAGAAGCTGGAGGACCTGGGCCTGAAGCAGTTCACTGTGGCTGAGCTGTTCACACGCATCTTCATCCCCACCTCCTTCCTGCTCGTGTGCATCTTGCACCTGCACTACTTCCACGACCGCTTCTTGGAGCTCACAGACCTCAAAGCCATTCCCAGCAAGGAAGACAGCACCATCTACAGCCATGCCAAAGTCAATGGTCGCGTGTATCTGATAAGAAATAGGTTGGCACACCCCGAGGGCAGCCTGCCCGACCTGGCCATGATGCACCTGACCCCCAGCCTGGACAAGCCTGAAGTCCACAAGCAGGCGGAGCCGGGGCAGCAGCACCCTGAGGGACAGGAGCAGACGGAGGAAGGCAGGAAGGGTGAGCCCTCGAAGGACGGCAAGGACTCAGAGGAGGACTCAGAGGAGGACTCGGAGGAAGAAGAGGAGTTGGAGGAGGAGGAGGAGCTGTCAGATTTACGGAGCAAGTGGCACTTGGTGATCGACCGGCTCACTGTGCTCTTCCTGAAGTTCCTGGAGTTCTTCCACAAGCTGCAGGTGTTCGTGTGGTGGATGCTGGAGCTGCACATCACCAAGATTGTCTCCTCCTACATCATCTGGGTGTCTGTGAAAGAGGTGTCTTTGTTCAACTATGTGTTTCTGATTTCCTGGGCCTTCGCTCTGCCCTACGCCAAGCTTCGCCGTCTAGCTTCCAGCGTCTGCACCGTCTGGACCTGTGTGATCATTGTCTGCAAGATGCTGTACCAGCTCCAGACCATCAAGCCCAGCACCTTTTCTGTTAACTGCACCTTGCCAAATGAAAACCAAACCAACATACCTCTCAAGGAGCTGAACAAGTCCCTGCTCTACAGCGCCCCCATCGACCCCACGGAGTGGGTGGGCCTGAGGAAGTCTTCTCCCCTGCTCGTCTACCTGAGGAATAATCTCCTGATGTTGGCCATCCTGGCCTTTGAAGTCACCATTTACCGGCACCAGGAGTATTACCGAGGCCGGAACAAGCTGACAGCCCCCGTGTCGAAGACGATCTTCCACGACGTCACCAGGCTCCACCTGGATGACGGGTTGCTTAGCTGTGCCAAGTACTTCACAAACTACTTCTTCTACAAGTTCGGCCTGGAGACCTGTTTCCTACTGTCAGTGAATGTCATCGGCCAGAGGATGGACTTCTATGCCATGATCCACGCCTGCTGGCTGATCGGCGTCCTGTACCGCCGCCGGAGGAAAGCCATAGCCGAGGTGTGGCCCAAGTACTGCTGCTTCCTGGCCTGCATCCTTACCCTGCAGTACCTGGTGTGCATTGGGGTGCCCCCTGCACCCTGCCGAGATTACCCATGGAGGCTCAAGGGGGCTGACTTCAACGACAACATCATCAAGTGGCTGTACTTCCCTGACTTCATCGTGAGGCCCAACCCTGTGTTCCTGGTCTATGACTTCATGCTGCTGCTGTGCGCCTCCCTGCAGCGGCAGATCTTCGAGGATGAGAACAAGGCTGCAGTGCGCATCATGGCCGGTGACAATGTCGAGATCTGCATGAACCTGGATGCGGCCTCATTCAGCCAGCACAACCCTGTCCCTGACTTTATTCACTGCAGGTCCTACCTGGACATGTCCAAGGTGGTCATCTTCAGCTACCTCTTCTGGTTTGTCCTCACCATCATCTTCATCACGGGCACCACCAGGATCAGCATTTTCTGCATGGGCTACCTAGTGGCCTGCTTCTACTTCCTGCTCTTCGGGGGTGACCTGCTGCTGAAGCCCATCAGGAGCATCCTGCGCTACTGGGACTGGCTGATCGCCTACAACGTCTTCGTCATCACCATGAAGAACATCCTGTCGATCGGCGCCTGTGGATACATTGGGACGCTGGTGAAGAACAGCTGCTGGTTGATCCAAGCCTTCAGCCTGGCCTGCACCGTCAAAGGCTACACAATGCCTTCCGACGACGCGTCCTGCAAGCTGCCCAGCGGGGAGGCGGGCATCATCTGGGACAGCATCTGCTTTGCCTTCCTCCTACTGCAGCGAAGGGTGTTCATGAGCTACTACTTCCTGCACGTCGTGGCTGACATAAAAGCGTCCCAGATCCTGGCGTCCAGAGGGGCTGAACTCTTCCAGGCCACCATCGTGAAAGCCGTGAAAGCAAGAATAGAGGAGGAGAAAAAGTCCATGGACCAGCTGAAGAGACAGATGGATCGCATCAAGGCCAGGCAGCAGAAGTACAAAAAGGGTAAGGAGAGGATGCTAAGCTTGACCCAGGAGTCAGGGGAAGGCCAGGACACCCAGAAACTCTCCGAAGAAGACGACGAAAGAGAAGCAGACAAACAGAAAGCCAAGGGCAAAACAAAGCAGTGGTGGCGGCCTTGGGTCGATCATGCTTCCATGGTCAGGAGTGGAGATTATTATTTGTTTGAAACGGATAGTGAAGAAGAGGAAGAGGAAGAACTGAAGAAGGAGGACGAGGAGCTCCCAAGAAAGTCAGCATTCCAGTTTGTGTATCAAGCCTGGATTACTGACCCTAAGACGGCACTCAGACAGCGGCGCACGGAGAAGAAAAAGTCTGCAAGAGAAGAGCAGAAATGCAAGAGGAGAGGATCCGGGGAGGGTCTGGTGGACTGGGAAGACCGAGAGGAGGAGCCAGTCAAAAAGAAATCTGATGGACCAGACAACATCATCAAACGGATATTCAACATCGTGAAGTTCACCTGGGTGCTGTTCCTGGCCACCGTGGACAGCTTCACCACGTGGCTCAACTCCATCTCCAGGGAGCACATCGACATCTCCACGGTGCTGAGGATTGAGCGGTGCATGCTGACCCGAGAGATCAAGAAGGGCAATGTCCCAACGCGTGAGAGCATCCACATGTACTACCAGAACCACATCATGAACCTTTCCCAGGAGTCCGGCCTGGATACCATCGAGGACCAGCCCGGAGCCAGGCCCGGGGCCCCACCGGCCCACAGGATGGACAGCTTAGATTCCCACGACAGCATCTCCAGCTGCTACACTGAAGCCACCATGCTGTTTTCGAGGCAGTCCACCCTTGATGACTTAGACGGACCAGACCCTGTGCCCAAAACGAGCGAGCGCTCGAGGCCTCGGCTCCGTAAAATGCTCAGCATGGACATGTCCTCCTCATCCGCTGACAGTGGCAGCTTAGCGTCCAGCGAGCCCACGCAGTGCACCATGCTGTACTCCCGCCAGGGGACCACGGAGACCATCGAGGAGGTGGAGGCGGAGGCGGAGGAGGAGACAGAGGAGGAGGAGGAGGAGGAGGAGGAGCACGGGGCCGAGTGTGGGGCAGAGGCTGAGGAGGCCAGCCTCAGCCCCGAGGACGAGGAGGACGAGCCACCGCTGCTCTCCACCAATGACGGGGACATGGAGGTGCCACCCTCCTACAGCAAAGCTGTCAGCTTCGAGCACTTGTCCTTCGGCTCGCAGGACGGCGCCGAAGCCAAGAACCACATGGTGGTCAGCCCGGACGACAGCCGCACCGACAAGCTGGAGTCCAGCCTGCTGCCACCCCTGACCCACGAGCTGACGGCCAGCGAGCTGCTGCTCAACAAGATGTTCCATGACGACGAGCTGGAGGAGTCCGAGAGGTTCTACGTGGGCCAGCCGCGCTTCCTGCTGCTGTTCTACGCCATGTACAACACGCTGGTGGCCCGCTCCGAGATGGTGTGCTACTTCGTGATCATCCTCAACCACATGGTGTCCGCCTCCATGATCACGCTGCTGCTGCCCATCCTTATCTTCCTGTGGGCCATGCTCTCTGTGCCCAGGCCCAGCCGGCGCTTCTGGATGATGGCCATCGTCTACACCGAGGTGGCGATTGTGGTGAAGTATTTCTTCCAGTTCGGGTTCTTCCCCTGGAACAAGAACGTGGAGATCCACAAGGACAAGCCCTACCACCCGCCGAACATCATCGGGGTGGAGAAGAAGGAGGGCTACGTGCTCTACGACCTCATCCAGCTCCTGGCACTCTTCTTCCACCGCTCCATCCTGAAGTGCCACGGCTTGTGGGACGAGGAGGAGGCCGTGGACAGCGGCACCGACAAGGCCGACTCGGATGCTGAGCTTTCCCTCAGCCGTAGCAGGAGAGACTCCGCAGACTCGCTCAAGTCCATTGACCTGGCCGCCTCCGTGGAGTCAGTGCAGGTGACCTTCCCCGAGCCGCCCAGGGCCCTGCGCAGGAAGCGCTCGAGCAGCAGCGGCCGGGACTCCCCCGGCTCCAGCTTCTCCTCCAACAGGTCCAAAAGAGGCAGCACAAGCACCCGGAACAGCAGCCAGAAGGGCAGCAGCATCCTGAGCGTGAAGCAGAAGAGCAGGAGGGAGCTGTACGTGAAGAAGCTGCAGGGGCACCTGGTCCGGGCCAAGGCCTTCACCATCCGGAAGACTCTGCAAATCTACGTGCCCATCCGGCAGTTCTTCTACAACCTCATCCACCCAGACTACAGCGCCGTGACCGACGTGTATGTGCTCATGTTCCTGGCCGACACCGTGGACTTCATCATCATCGTCTTTGGCTTCTGGGCCTTCGGGAAACACTCGGCAGCTGCAGACATCACGTCCTCGCTGTCTGAGGACCAGGTCCCCGGGCCATTCCTGGTGATGGTGCTCATCCAGTTCGGCACCATGGTGGTGGACCGGGCGCTTTACCTCAGGAAGACTGTGCTGGGCAAGGTCATTTTCCAGGTCATCCTCGTGTTTGGAATTCACTTCTGGATGTTCTTCATCCTCCCTGGTGTCACAGAGAGGAAATTCAGCCAGAACCTGGTCGCTCAGCTCTGGTACTTTGTGAAGTGTGTTTACTTCGGACTGTCTGCCTACCAGATCCGCTGTGGCTACCCGACACGCGTCCTTGGGAACTTCCTCACCAAGAGCTACAATTATGTCAACCTCTTCCTGTTCCAAGGGTTCCGCCTGGTCCCGTTTCTCACCGAGCTGAGGGCAGTGATGGACTGGGTGTGGACTGACACGACCTTGAGCCTGTCCAGCTGGATCTGCGTGGAGGACATCTACGCACACATCTTCATCCTGAAGTGCTGGCGGGAGTCGGAGAAGAGGTACCCTCAGCCCCGGGGCCAGAAGAAGAAGAAAGTGGTGAAGTATGGCATGGGGGGCATGATCATCGTCCTGCTCATTTGCATCGTCTGGTTTCCTCTTCTCTTCATGTCTTTGATCAAGTCTGTCGCTGGGGTCATCAACCAGCCCCTGGACGTCTCTGTCACAATCACCTTGGGAGGGTACCAGCCGATTTTCACAATGAGTGCCCAACAAAGCCAGCTGAAAGTCATGGACAACCAGAGGTTTGGTGCATTTATAAAAAAGTTCTCTAGGGACACCGGTGCTATGCAATTTCTGGAAAATTATGAAAGAGAAGATATAACAGTAGCAGAACTGGAAGGAAACTCAAATTCTTTGTGGACCATCAGCCCTCCCAGTAAGCAGAAAATGATACAGGAACTCACGGACCCCAATAGTAGCTTCTCTGTTGTTTTTTCATGGAGTATCCAGAGAAACATGAGTCTGGGTGCAAAAGCAGAAATAGCAACAGATAAGCTCACGTTTCCTCTTAAAAATGTCACACGAGAAAGTATAGCTAAAATGATTGCTGGCAATGACACGGAAAGTTCAAAGACACCTGTGACAATAGAAAAGATATACCCATATTACGTGAAAGCACCGAGCGACTCTAACTCAAAACCTATAAAGCAGCTTTTATCAGAAAAAGATTTCATGAATATAACCATCATTCTGTCCAGAGACAACACGATTAAGTCTAGCAGTGAGTGGTGGGTCCTCAACCTGACCGGCGACAGAGTATACGACCAGGAGTCTCAGGCTCTGGAGCTGATGGTCTTCAACGACAAGGTCAGCCCCCCCAGCCTGGGGTTCCTGGCTGGCTACGGCATCATGGGATTATACGCTTCGGTTGTCCTAGTGATTGGGAAGTTTGTCCGGGAGTTCTTCAGTGGCATCTCGCACTCCATCATGTTCGAAGAGCTTCCGAATGTGGATCGGATTCTGAAGTTATGCACAGATATTTTTTTAGTTCGAGAGACAGGGGAACTGGAACTAGAAGAAGATCTCTATGCCAAGTTAATATTCCTGTACCGCTCACCAGAGACGATGATCAAATGGACCAGAGAAAAGACAAACTGA
Lama1 laminin, alpha 1
>XM_004853311.1 ATGGCTCGAGCGCTGCTGCTGGCGCTGCTCTGGGTAGCGGCGCGCGGGCAGCCGCGAGGTTTGTTCCCTGCCATTCTCAATCTGGCCACCAATGCTGAGATTAGTGCCAATGCCACCTGTGGCGAGAAGGGACCCGAGATGTCCTGCAAACTCGTGGAGCACGTGCCTGGCAGGCGTGTACGCAACGCCCAGTGCCGGCTCTGTGATGCCAACAGTGCGAGCCCCAAAGAACACCACCCGATATCGAATGCGATCGATGGCACCAATAACTGGTGGCAGAGCCCCAGTATTCAGAATGGGAGAGAGTACCACTGGGTCACCATCACACTGGACCTAAGACAGGTCTTTCAGGTGGCCTACATCATCATTAAAGCAGCCAATGCCCCGAGACCTGGAAACTGGATTTTGGAGCGCTCCCTGGACGGGCTCACGTTCAGCCCCTGGCAGTACTACGCAGTCAGCGACTCTGAGTGCTTGACACGCTACAACATAACCCCAAGGCGCGGGCCGCCCACCTACCGAGCTGACGATGAAGTGATCTGCACCTCCTATTACTCTAGACTCGTGCCGCTGGAGCACGGAGAGATTCATACGTCACTCATCAATGGCAGGCCTAGTGCTGATGACCTTTCCCCCAGGCTGCTGGAATTCACCTCTGCCAGATACATCCGCCTCCGCCTGCAGCGCATCAGGACGCTCAATGCAGACCTCATGACCCTCAGCCACCTGGACCCCAGAGACATCGACCCCATCGTCACAAGACGGTACTACTACTCCATCAAAGACATTTCTGTAGGAGGGATGTGTATCTGCCACGGCCACGCGAGCAGCTGTCCGTGGGATGACACCAGGAAGCGACTGCAGTGCCAGTGTGAACACAACACCTGTGGGGAGAGCTGCAACAGGTGCTGCCCTGGGTACCACCAGCAGCCCTGGAGGCCGGGCACCGTGTCCTCCGGCAACACCTGCGAAGAATGTAACTGCCACAACAAAGCCAAAGACTGCTACTATGACGAAAATGTTGCGAATCAGAAGAAAAGTCTGAACACCGCAGGGCAGTTCCGAGGCGGTGGCGTGTGTGTTGGCTGCCAGCAGAATACCATGGGGATCAACTGCGAAACCTGCGTTGACGGCTACTACAGGCCGCACAAGGTTTCTCCTTATGAGGATGAGCCCTGTCGTCCCTGCGACTGCGACCCGCTAGGGTCCCTCAGCTTCGTCTGCATTAAGGACGATCTCCAGTCGAACTTGCACGACGGGCTCTGGCCGGGGCAGTGCCCCTGTAAAGCGGGTTATGGAGGAGAGAGGTGTGACCGCTGCCAGTTTGCCTACAAGGGCTTCCCGAGCTGCGTGCACTGTGACTGCAGCCCGGCGGGCAGCGTGAACGACGACCCGTGTGCGGAGCCGTGTCTTTGCAAGGACAACGTCGAGGGCGAAGCCTGCGATCGCTGCAAACCAGGGTTCTACAACCTACAGGAGAAGAACCTGCAGGGCTGCTCTGAGTGCTTCTGCTTCGGCGTGTCCGGCGTCTGTGACAGCCTTTCTTGGGCCCTGGGTCAGGTGAATGACATGTCTGGGTGGCTGGTCACAGACCTGGTCAGTGCCAGGGAGATCAAGTCCCAGCAGGAGGTGGCGGGCGGGCGCCGTCAGATCAGCATCAGCCATGTGGAGGTGACGCAGAGGCTGGGCGCCAGGTACTACTGGTCGGCCCCCGAGGCCTACCTGGGGAACAAGCTGACCGCGTTCGGTGGCTTCCTGAAGTATACGGTGTCCTACGACATTCCAACGGAGACAGTGGACGGTGACCTCCTGTCTCACGCCGACGTCGTCATCAGGGGAAACGGACTCATGCTAAGCACCCAGGCTGAGGGTCTCTCTTTACAACCCTACGAAGAGTACCACAACATGGTGAGGCTCGTGCCAGAGAACTTCCGGGATTACAGCACTAAGAGGGAGATTGACCGCGACCAGCTGATGACTGTGCTCGCCAACCTGAGCCACCTCCTCATCAGAGCCAACTACAACACCGCAAAGACGGCTCTTTACAGGTTGGATTCTGTCTCTCTGGACATAGCGAGCCCCAATGCTATAGACCTGACAGTCGCCACCGATGTGGAGCACTGTGAATGTCCCCAGGGCTACCTGGGGACCTCCTGCGAGTCCTGCCAGCCTGGCTACTACCGCGTGGACGGCATTCTCTTCGGGGGGATCTGCCAGCCCTGTGAGTGCCACGGCCACGCGTGGGAGTGTGATGTTCATGGCGTTTGCCTGGACTGTACACACAACACCACTGGGGACCACTGCGAGCAGTGCCTGCCCGGCTTCTACGGGGCACCTTCCCGGGGGACACCGGGGGGCTGCCAGCGCTGTGCCTGCCCCCTCACCACACCCTCCAACAACTTCAGCCCGACCTGCCATCTGGACGAGGAGGAGGACATGGTCTGTGACCAGTGCGGCCCGGGCTATGCCGGAACCTGGTGCGAGAGATGCGCAGACGGTTACTATGGAAACCCCACAGTGCCGGGGGGATCCTGCCTTCCGTGTGACTGCAGCGGCAATGTGGACCCCTCCGAGCCCGGTGGCTGTGACCCGGTCACCGGGGAATGCTTGAAGTGCGTGGGGAACACAGACGGCGCCCGCTGTGAGAGGTGCGCGGACGGGTTCTACGGAGACGCGGTGGCTGCCAAGAACTGCCAGGCCTGTGACTGCCACGAGCAAGGCTCCCTGTCTGGTGTGTGCCACCGTGAGACCGGGCGCTGTGACTGCAGACCCCACGTGACCGGACAGCGGTGTGACCAGTGCCTGCCTGACCACTACGGGCTGGACGCGGGGCTCGGCTGCCTGCCCTGCAACTGCAGCGTGGCGGGCTCCACCTCGGAGGCGTGCACGGCCCAAGGCCAGTGCCACTGTGTGCCAGGCGTCGCCGGGCGAAGGTGTGACCGGTGTTCGCATGGGTTCTACGCGTACCGGGATGGCGGCTGCACACCCTGCGACTGTGCCCACACTCAGAACAGCTGCGACCCCAAGTCCGGAGAGTGCACCTGCCCCCCCCACACCCGGGGCCCGAAGTGTGAGGAGTGCGTGGCCGAGCACTGGGGCTGGGGCGCGGAGCGTGGGTGCCAGGTCTGCAACTGCAGCCGCCCGGGCTCTGAAGGCTCACAGTGCGACCTGCTGTCTGGCCAGTGCCCCTGCAAGGCTGAGTTTGGCGGGCAGAGCTGTGACCAGTGCTCCCTGGGCTACCGGAACTTTCCTGACTGTGTCCCCTGCGACTGTGACCTGAAGGGGACTCTGCCTGCCTCCTGCGCCCTGGACCGGGGTGTCTGCAGCTGCATGGAGGACACTGGCACCTGCTCCTGCAAGGAAAACGTCATCGGGCTCCAGTGCAGCGAGTGTCGCGCTGGCAGCTTCGCCCTGCGTGCTGAGGATCCCCAGGGCTGCATGCCCTGCTTCTGCTTCGGGCTGTCACACGTCTGCAGGGAGCTGGAGGGTTACGTGAGGACCTTGGTGACGCTGGGCATCCCTCCGCCCCTCCTGCATGTGGTCTCCCAGAGCAACCTGACGGGCACGACCGAGGGCGTGTATCACCAGGCCCCAGACATCCTGCTGGATGCTGCAGCCGTCCGACAGCACGTCCACACAGAGCCCTTCTACTGGCGGCTCCCAGCGCAGTTCCAGGGAGACCAGCTCCTGGCCTATGGAGGCAGGCTGAGGTACAGCGTGGCCTTCTATGCCTCCGATGGCACCGGAACCTTCAACCTGGAGCCTCAAGTCCTCATCAAAGGAGGCCGGACCAGGAAGCAAGTTATCTACACAGACACCACCGTGCCGGAGAACGGAGTGCGGCGGGATCAGGAAGTGGGGATGAAGGAGGATTTTTGGAAATACTTTAATTCTGTCTCTGAAGAACCTGTCACACGTGCGGATTTCATGTCTGTCCTTAGCAACATCGAGTACATCCTCGTCAAGGCGTCCTACGGTCAGGGACTACAGCAAAGCAGGATCTCCAACATCTCCATGGAGGTTGGCACGAAGGCTGGGGGCCAGCAGCCCATGGGGACGGTGGCATTGCTGATAGAGCACTGTGTCTGTCCTCCCGGCACGGCTGGCTTCTCCTGTCAGGACTGCGCCCCTGGGTTCCACAGACAGAAGCTCCCGGAAGGTGGCAGAGAATCCTGGCTGCCCCTCGCTCCTTGTGTGCCCTGCAGCTGCAGCAACCACAGTGATGCCTGTGACCCCAAAACTGGGAAGTGCCTGAACTGCAGGGACAACACGGCTGGGAACCACTGCGAGCTGTGTGCTCCCGGCTACTACGGGAGGGTGACCGGCACGGCCCAGGACTGCTCCCCGTGCACCTGTCCCCGCCAGCACCCTGCCAGTTTCAGTCCCACCTGCGTCTTGGAAGGTGACGGTGGCTTCCGGTGCAATGCCTGTGTTGTGGGCCATGAGGGCCGGCGTTGTGAGAGGTGCTCCGTGGGCTACCATGGGAACCCTGGACTGTCGGGCGGCCACTGCCAGAAGTGCGACTGTAGCCCCCACGGCTCCGTGCACAGCCACTGTGACCCCCTGTCCGGGCAGTGCGTCTGCAGGCCGGGGGCCACGGGGCTCCGATGCGATGGCTGCCAGCCGCGGCACGTGCTGGTGGACAGCAGCTGTGTCTCTTGTGATGACCAGTGCGTGGGTGTGCTCCTCGAAGACCTGGACCGCGTCCACGATGCCGTTCTCTCCGTGAACCTCACCGGGATCTTCCCTGCCCCATACGGGGTTTTGTCAAACCTGGAAAATACGACTAAATATCTCCGGGAATCTTTATTAAAAGAAAATGCCCAAAAGAATTTGGTAGAAATCCAAGTTGAAGGTGTCGCAAAGCAAACAAATGACCTGCAAAGCGAGTTGACCAGCGTGCTCACGCGAAGCCAGCAGGTGGGCAGGGCCACAGAGAGGAGCCTGCAGCAGAGTCAGGATCTTGCTGCGTTTGTTGAGCGGCTGCAGATGAACAGCAGAGAAATCCTTGAAAAGGCCATAAATCTGAATCAGACTCTAGATGAAGATGTCTGGCTCCCCAATTCTACTCTTCAGAATATGCAACACAACATTGCATCTTTGCTGGAAAGGATGCAGAGAAGGCAGTTCACGCAGTTGCTCCGTAACATCACCCTGGAGCTCAAGGCTGCTGAAGATGTGCTGTCTGTGGTTCAGAAGAATTTCCAGCAGCCACAGGAAGAGCTGGAAGTTCTGAAGGAAGCAGTGGGGCGCCTCCTTTCCAAGCACGTCGGTGAGCTGCAGGCGGCGGGGGAGCTGCTGAGGGAGGCGGAGGCCAAGGTCCGGGAGGGCGCCCACCTGCTGCTCCTCAGCGAGGCTAACCTGCGAGACTTCAGCGATACAAAGCTGCATATTCAGGAACAGCTCAATGTGACCTCAGAGCTGGTTGCTGAAGGAAGGGAGCTGATGGGCGCAGCCACTGCCCAGGCCGGCAGTTTGCAGGCCACTCTGGCGCAGGGGGAGCATCAGCGCGATGAGCTGCTCTTGTGGACAGCCCAAGTGAGGAGCCACGTGGATGGCCTGGTCATGCAGATGTCCGGGAGGAAGGTGATCGACCGGGTCTACGGAGCCGAGGGTCATGCCGCTGAGCTCCAGAGGTTAGCAGGTGTCCTGGACAGCGGCCTTGAAAATGTCCGACACGTGTCCCTGAACGCCACCAGTGCGGTGCGCGTCCACTCCGACATCCAGAGCCTGATGGGACAGTCTGAGAGCCTGGCCATAGATGCGCAGGAGACCTCAAGGAGGACGCGGCTGTCCTCGGCGTCCCTCGTCTCCAGGGGGAAGGAGGCTGTGCGGCATGCCTCTGGCTTTCTAGAGGACAGCAGCAGCCTGAGCGGGAAGCAGCAAGGTCTTACACGGAAGCTGAGTGAATTGAAAAGCACAGCAAGCAGAGTTCAGGAGACAGTGGGTAGACTTGCCCGGCAGACCAGTCAATCACTCTCAACACTGAGAGTGATCCCGGAAGGTGCCAGAGACCAAGCAGCTGGAAGCAAAGAACTGGCCGAATCTGCCAGTCAGAGTGCAGCGAGGGCAGTGCAGAAGGTCATGGGACTGAGCCGGAAGCTGTTGGACACGGCAGCTGGCCTGGCCAGAGTGAACGCCACCATGCAGGAGACACAGGGGCGGCTGCGGGACTCCGCGGTGACCACTCTGTTGGCCGGAAAGAAGGTTAGAGACGCGGAGGCACAAGCCAACCTTTTATTTGATCAGTTGAAGCCTTTGAGAATGTTAGAGGAGAACCTGAGCAGAAATTTATCAGAAATTAAACTGCTGATCAGCCAGGCCCGGAAACAGGCAGCCTCGATCAAAGTCGCGGTATCTGCAGACCGAGACTGCGTCCGGGCCTACCAGCCTCCGATCTCCTCCAGCAACTACAACACCCTGACTCTGAATGTGAAGACACAGGAGCCGGACAACCTCCTCTTCTACCTGGGCAGCAGCAGTGGAGCCGACTTCCTTGCAGTGGAGACGCGGCGGGGCAAGGTGGCCTTCCTCTGGGACCTAGGCTCTGGGGCCACGCGGCTGGAGCTCCCAGACCTCCGGATGGACGACGGCAGGTGGTACAGCATCCAGGCCGCCAGGTTTGGGAACGTTGGCTCATTGAGCGTGAAGGACACAAGCTCGACTCAGGAGCCACGGGTGAAGACAAGCAGGTCCCCAGGGGCGGCGAAAGTTCTGGATGTGAACAACTCCACACTCGTGTTCGTCGGAGGACTCGGAGGACAGATCAAGAAATCTCCGGCCGTGAAGGTCACCCACTTTAAAGGCTGCATGGGGGAGGCCTACCTGAACGGCCGGCCCATTGGCCTGTGGAACTACATTGAGCGTGAGGGCCGGTGCCAGGGCTGCTTCCGAAGCCCACAGAATGAAGACTCGTCCTTCCACTTTGATGGCAGTGGGTACTCCGTGGTGGAGAAGACCATGCGGGCCACCGTGACTCAGATTGTCATGCTCTTCAACACCTTCTCCCCCAGCGGGCTGCTTCTCTACCTGGCTTCAAATGGCACCAAAGACTTTGTGTCCGTCGAGCTGGTCCACGGCAGAGTCAGAGTTATGGTTGATCTGGGTTCAGGACCTCTCTCTCTTACCACGGACCGGCGGTACAACAACGGGACCTGGTACAAAATCGCCTTCCAGCGAAACCGGAAGCAAGGGCTCCTGGCCGTTACCGATGTCTACAACACCAGCGACAGAGAGACCAAGCAAGGCGAATCCCCAGGAGCCTCTTCTGACCTCAACCGGCTGGATAAGGATCCAATATACGTGGGCGGCCTGCCTAGGTCGAGAATTCCCAGGAAAGGTGTGATGAGCAAAAGCTATGTGGGCTGCATCAAGAACCTGGAAATATCCAGGTCCACCTTCGACTTGCTCCGGAACTCCTACGGTGTGGGCAAAGGCTGCGTCCTGGAGCCCATTCACAGTGTCAGCCTCCTGAGAGGTGGCTACGTGGAGCTGCCACCCAGGCCCCTGTCCCCAGAGTCCGGGGTGCTGGCCACATTTGCCACCCAGAACAGCACCGGCCTCATTCTGGCTGCCATCGGCCGGGCCTCGGAGAAGCAGGGCAGGCGGCCCACAAACGTGCCGTTCTTTGCCATCATGCTGGTCGATGGCCACGTGGAAGTGCACGTCAGTCTCGGGGATGGAACAAGCCTGCGGAAGGCCCTGGTGCACGCTCCCTCGGGCTCCTACAGCGATGGCCAGGAGCATTCGGTCTCCGTGGTGAGGACACAGAGAACTGTCACTGTGCAGCTGGATGAGGCGGAGCCTGTGGAGATGCGGCTGGGCCCCTCGGCGGAAAGCAGGCCAATCAGCGCGTCCAGCCTGTACGTGGGCGGCGTCCCCCAGGAAGAACGGACTTTGGTGCTCAAGACGAGGAGCTCCTTCTACGGCTGCATCAAGGACCTCGTCTTCAACATGGAACTTCTGGATTTCACCCGGGCAGCAGCCTCAGAGCAGGTGGAGCTGGACAGCTGCTTGCTGTCAGAAATGCCCGTGCCGGCCCCTCAAGTGGAGGACGAGGAGCTGCTATCCTGGCCCCAGGCTGCCCCGAGGCCGGGCCGGTGTGCGGTGGACACGGCTCCGCGGTTTGTTCCCGGTGCACACCAGTTTGGCCGCTCGCAGAACAGCCACCTGGTGCTGCCTTTTGACCCCACGGAGGTCAGGAAGAGGTTCCTGGTCCAGCTCAGCATCCGGACGTTCGCCTCCAGCGGCCTGGTCTTCTACACGGCCCATCAGAACCAGGTGGACCACGCCGTGCTGCAGCTCCACAGTGGCCGCCTTGTCTTCGTCTTCGACCTGGGCAAGGGCCGGACCCGCGTTGCTCACCCTGCACTGATCGATGATGGCAGGTGGCACACGGTGAAGGCAGAGTACTTTAAAAGAAAAGGCTCTGTGACTGTTGATGGCCATGAATCCCCCACGGTGACCACGGTGGGCGACGGAACCTCGCTGGATGTGGAGGGGAAGCTGTACCTCGGGGGCCTTCCCCCCGACTACAGGGCCCGGAACATCGGGAATGTCACACACAGCGTTGCCGCCTGCATTGGGGAGGTGGCAGTGAACAGCAGGCCCCTGGACACAGACGGCCCGGCAGCTGCCTTGGCAGTGGACAGGTGCTACGTGGCAGCTGAGGAAGGGATGTTCTTTGATGGCAGTGGCTATGCAGCTCTGGTCAGAGAGGGCTACAGGGTGCGCACGGACTTGAACATCTCGCTGGAGTTCCGCACCTCCTCGGAGAACGGCGTCCTCCTGGGGGTCAGCAGCGCCAAGGTGGACGCCCTGGGCCTGGAGATTGTCAACGGCCAGCTCCTGTTCCATGTCAACAATGGTGCAGGCCGCATCTCGGCCGCCTTCCAGCCCGCGGGCGCCGGCCGGCTGTGCGACGGCCGCTGGCACTCGGTCCACGCCAGCAAGAGCGGGCCGCACCTCCTGCTCCGCGTGGACGGCCGCGCCGTGGCGGCGGAGAGCCCGCATGCGCAGTCCACCTCGGCCGACACGCACGACCCGGTCTACGTGGGCGGCTTCCCGGCCGGCGTCAAGCAGAACTGCCTGAGCGGCCCAACTCCGTTCCGCGGCTGCCTGCGCGGCCTCACCCTGGCCCGGGGCTCTCAGGCGCTGCCCCTGGACTTCAGCCGGGCCTTCGAGCTTCGCGGCGTCCGCCCGCACTCCTGCCCCGCGGCTGGCCGGCGCCCGGAGCGCGGATCGCCCTGA
Greb1l growth regulation by estrogen in breast cancer-like
>XM_004853302.1 ATGGGGAATTCATATGCTGGGCAACTGAAATCTGCTCGATTTGAGGAAGCTCTCCACAACTCCATAGAAGCCTCTCTCAGATGTAGTAGTGTGGTACCACGGCCAATTTTTTCCCAACTCTACTTGGACCCTGACCAGCATCCTTTTTCATCTGCAGATGTCAAACCCAAGGTGGAGGATCTGGATAAAGATTTGGTACACCGCTACACACAAAATGGCAGCTTGGATTTTTCTAACAATCTAACAGTTAATGAAATGGAAGAAGATGATGATGAAGAAGAAATGTCCGATTCCAACAGCCCACCCATCCCCTATTCACAAAAGCCTGCCCCAGAAGGATCTTGCACTACAGATGGTTTTTGTCAAGCAGGAAAGGACTTGCGTTTGGTATCGCTCTGTACGGAACAGATCGACGTTCCAGCAGGGTTCCTTCTGGTGGGAGCCAAGTCTCCCAATCTTCCTGAGCACACCCTGGTCTGTGCCGTAGACAAGCGCTTTCTCCCGGATGATCATGGGAAAAATGCACTTTTAGGGTTTTCTGGAAACTGTATCGGCTGTGGAGAAAGAGGATTTCGGTATTTCACGGAATTTTCCAACCACATTAACTTGAAGCTCACCACCCAGCCAAAGAAGCAGAAGCACTTAAAGTACTACCTAGTCAGAACCTCCCAGGGTGTGCTGTCCAAGGGCCCACTTATCTGCTGGAAAGAATGTAGAAGCCGACAATCCTCTACGACTTGCCACTCTATTAAACCAAACTCTTCAGCATCAGCTGTGACCCCAGAAACTGGGACAACTAATGGATACAAAGCAGGATTCACTCAGACAGATGCTGCAAACGGGAACAGCAACCTCGGAGGGAAGACGGCCGCGTCCAGCTTCACCCCAGCCCGCCCAGGGAGCTACTCCTTGTCACCACGACCTAGTTATGCATCTGTAGACCAAGCTACCATCTTCACTTCCGGGCCACCAAAGAAACGACACCGGGGATGGTATCCTGGGTCACCTGTCCCCCAACCTGGTTTAGTTGTACCTGTTCCTACAATTCGTCCCCTTTCAAGAACCGAGCCCCTTTTATCTGCCCCAGTTCCACAGACCCCATTAACTGGAATTTTACAACCTCGGCCCATTCCTGCAGGGGAAACTGTAATGGTTCCTGAAAACCTGCTGAGTAACTCAGGAGTTAGACCAGTAATTCTGATAGGCTATGGCACTTTACCCTATTTCTATGGAAATGTTGGTGACATTGTGGTGAGTCCTCTGCTGGTGAATTGCTACAAGATTCCACAGTTGGAAAACAAAGATTTGGAACAATTAGGGTTGACTGGCAGCCAACTCCTGAGTGTAGAAAACATGATCCTTCTGACGATACAGTATCTTGTGCGGCTTGGTCCTGATCAGATACCTCTCAGGGAAGAATTTGAGCAGATTATGCTGAAAGCTATGCAGGAATTTACTCTGAGAGAGCGAGCCCTACAGGTGGGCGCCTCCTGTGTCCCAGTGTCACCGGGACAGCTCCCCTGGCTTGCTAGATTAATCGCCAGCGTGTCCCAAGACTTGGTTCATGTGATTGTGACCCAAAACTCTTTGGCCGAGGGCATTTCAGAGACTTTGCGGATTCTCAGTGAAATGAGACACTACCAAAGGCTTCCAGATTATGTTGTAGCAATTTGTGCTTCAAAAATCAGAGGAAATGAATTTTGTGTGGTGGTATTGGGTCAGCATCAATCTCGGGCTCTGGCAGAGAGCATGCTCACCACAAGTGAGTTTTTGAAGGAAATTAGTTATGAGCTCATCACAGGAAAGGTCAGTTTCCTGGCATCACATTTCAAAACCACATCATTAGGTGATGACCTGGACAGGCTGTTAGAAAAAATGCAGCAAAGAAGAGGAGATAGTGTGGTCACCCCTTTCAACGGAGACCTCAATGAATGTGTGTCGCCACAGGAGGCTGCTGCTATGGTTCCCACACAAAACCTGGATTTAGATAATGAAACCTTCCAAATTTATCAACCGCAGCTTACAGTTGCCAGAAAACTCTTATCCCAGGTATGTGCCATTGCGGACAGTGGCACCCAGAGCCTGGACCTCGGCCACTTCAGCAAAGTGGACTTCATCATCATTGTCCCGAGATCGGAGATTCTGGTCCAGCAGACTCTGCAGCGGGTTCGACAATCAGGTGTCCTTGTCGACTTGGGTCTGGAAGAGACAGGGACGGCTCACCAGAGAGCAGAGAAGTATGTGGTTCGCCTGGACAGTGAGATCCAGAGCAAGTTCGAAGTCTTCATGAGGAGAGTGAAACAGAACCCGTACACCCTGTTTGTGCTCATCCACGACAACTCCCACGTGGAGCTGACGAGCGTCATCTCAGGGTCCCTGTCCCACGGGGAGGCCAGCCACGGCCTGGCTGACCGAGTCATTAACTGCAGAGAAGTCCTGGAAGCCTTCAACCTCCTGGTGCTGCAGGTCAGCTCCTTCCCGTACACCCTGCAGACCCAGCAGTCCCGGATCAGCGCCAGCAACGAGGTGCACTGGACCCAGCTGGACGGCGCGGAGGACGTGGGCTGCGAGGAGAAGCTGTACTTCGGCCTGAATGAGTACAGCAAGTCCCTGCAGTGGGGTGTCACCAGCCCACTCCTGCGGTGCGACGAGACCTTTGAGAAGATGGTGAACACGCTCTTAGAGAGGTACCCCCGGCTGCACAGCATGGTGGTGCGCTGCTACCTGCTCATCCGGCAGTACTCCCAGGCGCTGATGGCACTCACCACCGAGGCGTCGCTCCGGGACCACAGCACGCCCGAGACACTGAGCATCGTGGATGACCTCCTCGGCTGCCCCGGGAAGGGCGCCAGTGGCCGTGGGCACATGCTCATGATCAGGGTGCCCTCGCTGCAGCTGGCCATGCTGGCCAAGGAGCGGCTGCAGGAGGTGCGCGACAAGCTGGGCCTGCAGTATCGCTTCGAGATCATCCTGGGGAACCCGGCCTCGGAGCTCAGTGTCGCCACGCACTTCGTTGCGCGATTAAAGACTTGGCGAGGAAACGAACCGGAGGAGTGGACGCCGCGGACGTACCAGGACCTAGACGGGCTGCCCTGTATCGTGATCCTGACCGGCAAGGACCCTCTGGGGGAGACCTTCCCCAGGTCTCTTAAGTACTGTGACCTCCGCTTAATCGACTCGAGCTACCTGACCCGCACGGCCCTGGAGCAGGAGGTGGGCCTGGCCTGCTGCTACGTCTCCAAGGAGGTCTTGCGGGGCCCCACGGTCGCCCTCGACCTCAGCGGGAAGGAGCCCGAGAGGCCGCTCACCGGCGACAACGACCCCGAGGAGCTGCTCATGGAGCTGGAGCGGCCGCAGAGCAATAGCAGCGCCTTCACGGGGACCTCGGGTTCCGTCATGGAGAACGGGGTGAGCTCCTCCAGCACGGCCGAGCGCGCCCAGCGGCGGCCCCCGAGCCCCGGCCCGCAGAGCCCGGCCCCCAGCGCGGGCCTGCAGCCTGGCGACGCCCCCCGGCAGGAGTGCGACTCGCTGGGCCCCGCGCCGCCGCCACCCGCGCTACCGCCCGTGGTAATCCTGTCGCGCGCCGCCTACCGCCTGCTGGGCGCGTCGCCCCTGTCGGCCTCGCTGCTGCCGCACGCGGACGTGGCCTGGGTGAGCGCGCTGCGGCCACGGCCGCGCGGGGACGCGAGCGGGGAGGAGCTGTCGCGCTACTACCGGCGCTGGACCGTGGCGCGACAGCACCACGCTGACCACTGCCACAGGCCAGATGCCGCTGCCGCCTCGGGCGCATGCGCCGGCCACCCGCGCCGCCTGCTGCTTGCCGGGCCGCCGCAGGTGGGGAAGACGGGCTCCTACCTGCAGTTCCTCAGGATCCTCTTCCGCATGCTCATCCGGCTCCTGGAGGTGGACGTGTTCGACGAGGAGGAGATCAACGCTTACCACGGCGAGAGCGGCACCTCGAGCCAGGCCGAAGGGGAGCCCTGGCCCGACCTGGAGAGCTTCAGCAAGGTGCCCTTCGACGTCAGCGTGCACGACCCCAAGTACAGCCCGATGAGCCCGGTGTACTCGGAGAAGCTGGCGGGCGTGAAGCAGGAAGCCCGAAAGGAGCGCAAGCCCGAGGAGCCCCGGAGGCGGGAGACGGTGTCCATGATGCTGACCCAGTACGCGGCCTACAACACCTTCCACCACTGCGAGCAGTGCCACCAGTACATGGAGTTCGCCGCCTCCCAGATGTCAGACTCCACCCTCTATGCCTTCACGTTCTCCTCCTCTATGCTGGGAGAAGAGGTCCAGCTCTACTTCATCATCCCCAAGTCCAAGGAGAGTCACTTCGTCTTCAGCAAGCAGGGCAAGCATCTGGAGAGCATGCGGCTGCCCCTGGTTTCAGACAAGAATTTGAATGCAGTCAAGAGCCCTATTTTCACTCCTTCCAGTGGTCGCCACGAGCACGGACTCCTAAACCTTTTCCACACCATGGAGGGCATCAGCCACCTCCACCTGCTGGTGGTCAAAGAATATGAGATGCCGCTGTACCGCAAGTACTGGCCTAACCACATCATGCTGGTGCTCCCCGGCATGTTCAATAACGCAGGCGTGGGTGCTGCCAGGTTCCTCATTAAGGAGCTGTCGTATCACAACCTAGAGCTGGAGAGGAACCGCCTGGAGGAGGTGGGAGTCAAGCGCCAGTGTGTCTGGCCTTTCATCGTGGTGATGGACGACTCCTGTGTCCTGTGGAACATTCACAGCGTTCAGGAGCAGAGCAGCCAGTCTGTGGAAGCGGGAGTTTCCAGTAAGAATGTGTCCTTGAAGAGTGTCTTGCAGCATATTGAATCCACACCAAAAATCATCCACTATGCGATCCTGGGCATACAGAAATGGAGCAGCAAGTTGACGTCTCAGAGCCTCCGGGCCCCGTTCTCTAGGTGCCACGTGCACGATTTTATTCTCCTCAACATTGACCTGACTCAGAACGTGCAGTATGACTTCAACAGGTATTTCTGTGAAGATGTTGACTTTAACCTGAGAACAAACAGTAGTGGCCTGCTCATCTGCCGCTTTAACAACTTCAGTCTCATGAAGAAACATGTTCAGGTTGGCGGGCAAAGGGACTTTATCATTAAACCAAAGATCATGGTGTCCGAGAGCTCAGCGCCCACCCTGCCCCTTCAGTACGTCTGTGCTCCTGACAGCGAGCACATGCTGCTGGCAGCCCCGGCGCAGTTCCTCCTGGAGAAGTTCCTGCAGCATGCCGCGTACAAACTCTTCCCCAAAGCCATCCACAACTTCAAGAGCCCTGTGCTGGCCATCGACTGCTACCTTAACATCGGACAGGAGGTGGCCATTTGCTACGTCAGCTCCAGACCACACTCCAGCAACGTCAACTGTGACGGGGTGTTTTTTAGTGGACTTCTCTTGTACCTTTGTGACTCTTTTGTAGGTGCTGATCTTCTTAAGAAATTTAAGTTTCTAAAAGGTGCTACCCTGTGTGTCATCTGCCAAGACAGAAGCTCCTTACGCCAAACAATTGTCCGCTTAGAGCTAGAGGATGAGTGGCAGTTCCGCCTTCGAGATGAGTTTCAAACTGCGAACAGCAGCGAAGACAAACCTCTCTACTTCCTTACTGGACGCCATGTGTGA
LOC101709176 laminin subunit alpha-3-like
Length: 5079 bp Location: 8319673..8237170 Strand: ->XM_004853300.1 ATGCCTCCCGTAGCCCGGCGGGCTGCCCAGGGTGCAGGATGGCTGTGGATCTTCGGGGTGGTCCTCGGGGAGTGTCTGGGGTACAGTTCACAGCAGCAGCAGCAGAGAGTAGCATTTCCTCAGCCTCCAAGTCAAAGTCAGCTGCAAGCAAGTTTTGTGGAGTTGAGACCCAACCAGGAGAGTTGCAGCCCTGGATACTATCGGGATTACAGAGGCTTGTATACTGGACTGTGCATTCCCTGCAATTGCCACGGACATTCAAATCGATGCCAGGATGGTTCCGGAATCTGTATTAACTGTCAGCACAGCACAGCCGGGGGGCACTGTGAGCGCTGCAAGGATGGTCACTACAGGAATGCTGCCCACGGACCCTGTAGGGCCTGCCCATGCCCTCACACCAACAGTTTTGCCACCGGCTGTGTTGTGAATGGCGGAAACGTGCAGTGCGCCTGCAAACTCGGATACACAGGGGTGCAGTGTGAGAGGTGTGCACCAGGATATTTTGGGAATCCTCAAAAGTTCGGAGGTAGCTGCCAACCTTGCAATTGTAACGGCAATGGCCAGTTGGGCTCTTGTCACCCCGTAACTGGAGACTGCATAAACCAAGAACCCAAAGATAGCAGCCCTGCAGAAGAATGTGACGATTGTGACAGCTGCGTGATGACGCTCCTGAATGACCTGGCCACCATTGGCGAAGAGCTCCACCTGGTCAAGTCTCAACTGCAGGGCTTGAGCACCAGCTTGGGTGCCCTGGAGCAGATTCAGCACATGGAGACCCAAGCCAAGGACCTGAGGGCTCAAGTAAATTCCAGAAAAGCACAAACATTATATAATAATGTTGACCGGACAATCCAGAGCACAAAAGAGCTGGACATGAAGATTAAAAATGTCATCCAGAATGTGCACATTCTCTTGAAGCAGATCTCCGGGACTGGGGGAGGAGGAGACAACTTACCCTCAGGCGGCTTTTCCAGGGAGCTGGCCGAAGCTGAACGCAAGCTGAGGGAAATGCGGAACCGACACTTGGGGAAGCACCTTCAAGAAGCAGAAGCTGAGGAGAGAGAAGCGCAGCTCTTGCTGAACCGGATAAAGAGCTGGCTGGAAACCCAGCAGGTGGGGGACAATGGACTCGCTAAGAATATACAAGAGTCTTTAAATGATTACGAGGCCAAACTTCATGACCTGCGTGCCATGATCCAGGAGGCAGCTGCCCAGGCAAAGCAGGCTGCTGGCCTCAACCATGAAAACGAGAGAGCTTTGGGAGCCATCAAGAGACAGGTGAACGAAATTAGTTCCCTGCACAGTGAATTCACCAAGTACCTGAGCATAGCAGACTCAACTCTGATACAGACCAACTCTATGCTGCAGCTAATGGACAAAAACTGGAAGGAATATGAAAACTTAGCAGCCACTTTAAATGAAGCAAGACAGGAACTAAGTGACAAAGTGAGAGAACTCTCCAGATCTTCCAGCCAAGAGTCCCTGGTGGTGCAGGCAGAAAAGCACGCACAGTCTTTACAAGAGCTGGCAAAGCAGCTCGAAGAGATAAAACAAAATGCCAGTGGGGATGAGCTGGTACGCCGTGCCGTGGATGCTGCCACCGCCTATGAGAACATCCTCAATGCCATCCAAGTAGCTGAGGATGCAGCCAACAAAGCCACCAGCGCATCTGAGTCCACCCTTCAGACAGTGATAAAGGAAGATCTTCCAAGAAAAGCTAAGACTCTGAGTTCTGACAGTGATAAACTGTTAAATGAAGCCAAGAGAACACAGAAGAAGTTACAGCAAGAAATTAGTCCGGCTCTCAACAACCTACAGCAAGCCTTGAATATTATGAAGGTTCAGAAAGAACTGATAGACACCAACCTCACTTCCATCCACAGAGATCTTCGTGGGATACAGAGAGGGGACATTGACAGTACGATCAGTGGTGCAAAAAGCGTGGTCAAAAAGGCCAGTGACATCACAAGTGAGGTTCTGGACGGACTCAGCCCCATTCAGACAGATTTGGAAAGGATCAAGGACAACTATGAGAGCGCACAGAGTGAAGACTTCAACAAAGCTCTAACTGATGCCGATAAGTCAGTGAAGAAATTAACCAAGAAACTGCCTGGTCTCTTGAGCAAGATTGAAAGTATCAACCAACAACTGTTGCCCCTGGGAAACATCTCTGACAATGTGGACCGAATTCGGGAACTAATTCAGCAGGCCAGAGATGCTGCGAATAAGGTCGCAGTCCCCATGAGGTTCAACGGGAAATCTGGGGTCGAAGTCCGGCTGCCAAGTGACCTGGAAGATTTGAAAGGCTACACATCTCTGTCTTTGTTTCTCCAAAGGCCTGACTCAAGAGAAAACGGGGGGACTGAGGACATGTTTGTGATGTACCTCGGAAATAAGAATGCCTCTGGGGACTATATTGGCATGGCAGTTGTGGATGGCCAGCTCAGCTGTGTCTACAGCCTAGGCAACCGAGTGGCTGAACTCCAGGTGGATCAGATCTTGACTGAGAGTGAGACTCAGGACGCACTTATGGACCGGGTGAAGTTTCAGAGAATTTATCAGTTTGCAAGGCTTAATTACACTGAAAAAGCCACCTCCACTAGACCCAAAGCGCCCCAATTCTATGACACTCATAGTGGAAGTAGCAACACACTCCTTAACTTGGATCCGGAAAATGTTGTGTTTTATGTTGGAGGTTACCCAACTGATTTTCAACTTCCCAGTAGACTAAGATTCCCTCCATATAAAGGTTGCATTGAATTAGATGACCTCAATGAAAATGTTGTGAGCTTGTACAACTTCAAAAAAACTTTCAATCTCAACACAACTGAAGTGGAACCTTGTAGACGGAGAAAGGAAGAGTCAGACAAAAATTATTTTGAAGGTACAGGCTATGCTCGAGTTCCAACTCAAGCAAATGCTTTCTTCCCTACCTTTGGACAGACAATCCAGACCACCATGGACAGAGGTTTGCTGTTCTTTGCAGAAAACCAGGATCACTTCATATCCTTAAATATAGAAGATGGCAGTGTCATGGTGCGATACAAACTGGACTCAGAGGCACCAAGAGAGAAAGGAATTAGAGGCACCATCAACAACGGGAAAGATCATTTGATTCTAATCAAAATTGGAAAAATGCAAAACCTTATGAGAATAAATGTGGATGATCAGAATATTAGAATTGAAGGGAAAATATTTGATTTCAGCACATATTATCTGGGCGGAATTCCAATTGCAATCAGGGAAAGGTTTAATATTTCTACACCTGCTTTCCGAGGGTGCATGAAAAATCTGAAGAAGACCAGCGGTGTCGTGAGGCTGAATGATACTGTGGGAGTGACTAAAAAGTGTTCTGAAGACTGGCAGCTTGTGCGGTCTGCCTCGTTCTCCAGGGGAGGACAGCTGAGTTTCAGTAACCTGCACGTGCCGCCCCCTGGCCACTTCCAGGCCTCCTTTGGCTTTCAGACCTTTCAACCCAGTGGTGTGTTGCTACATCACCAGACTCGGACAAGTAGCCTGCAGGTCACCCTGGAAGATGGTCACATTGAACTGAGCACCAAGGAGAGCAACAGCCCAATTTTTACGTCTCCTCAGACGTACATGGATGGGTTACTGCATTATGTGTCTGTAATAAGTGACACCTCCGGCCTCCGGCTTCTCATTGATGACCAGCCTCTCCGAAGTGACCAAAAGCTACAAGGCGTTTCAAATTCCCCACAGTCCCTCCGCCTGGGTGGGAGTGCTTTCGAGGGTTGTATCAGCAATGTTTTCTTCCAGAGGTTTATGGAGAGCCCTGAAGTCCTAGATTTTACTAATAAATCTACCAAGAGAGCTGTGTCCCTGGGAGGCTGCAGTCTGAACAAACCACCTTTCCTAATGTTACTTAAAGGTTCCACGAGGTTTAACAAGGCCAGGACCTTCAATATCAATGAAATGTTGCAGGATGCACCAGCCGCCTCCCCCAGCAGCATGGAAGTGTGGCGAGACTCAGAGCTTTGCTCACCCCCAGTTGGGGCCCAGATCAGTCACAGAGCCCTCCAGTTTGGGGACAGTCCCACCAGCCACTTGCTATTCCAGCTTCCCCAGGAGTTGCTGAAACCCAGGTCAGAGTTTGCTGTGGACATACACACAACCTCCTCCGGGGGGCTGGTGTTTTACACGGGCGCCAAGAACTCCTTCATGGCTCTTTACCTGTTGAAAGGACATCTGGTCTTTGCTTTGGGGGCAGAAGGCAAAAAACTGAGGCTCAAAAGTAAAGAGAAATACAATGACGGGAAGTGGCATACGGTGGTGTTTGGGCAAGATGGCCGAAGGGGGCACCTGCACATAGACGGGCTGAAGGCCCGGGAGGGCAGTTTGCCCGGAAATTCCACCAGCAGCCCCAGAGCACAGGTTTACCTGGGGTGGTCTCCATCAGGGAAGCCAAAGAATCTCCCCCAAAACAGCTTTGTGGGATGCCTGAAGAACTTTCAGTTGTCTTTAAAACCCTTGGATTCCCCTTTGATGAACTTTGGGGTGTCTCCTTGCTCAAGTGGCTCTTTGGAGAAAGGCATTTATTTCTCCCAAGGAGGAGGTCATGTCAACCTGGCTAACTCTGTGCTGTTGGGGCCAGAGTTCAAGCTTATGTTCAGCATTCGCCCAAGAAGTCTTGTTGGGATCCTGATACATATTGGAAGTCAACGAGGACAGCACTTAAGTGTTTACATGGAGGCAGGAAAGGTCACAGCCTCTGTGGACAGCGAGGCGGGCAGGATATTGACGTCAGTGACACCAAAGCAGTCTCTGTGTGATGGACAGTGGCACTCAGTTGCAGTCACCATCAAACAACACATCCTGCACCTGGAGCTGGACAAGGACAACAGCTACACAGCAGGGGAACTCACCTTCCCATCCCACAGCACCCAGGTGTCCCTACACATTGGCGGTGTCCCAGCCAATTTGAAGACATTGAACCTCCCAGTGTGGGGGTCATTTTTTGGCTGTTTAAAGAATGTTCAAGTCAACCACAAGCCAGTCCCTATTTCTGAAGCCATGGAAATCCAGGGCTCTGTTCGTCTGAACGGCTGCCCTGAGTACTAA
Cep192 centrosomal protein 192kDa, transcript variant X1
Length: 7440 bp Location: 19947817..20010802 Strand: +>XM_004853281.1 ATGTCCCTTAAGGTTGACTTCCTGGATATCCTGAAGCCAGTCCCTGTGGCTGTGGCGTGGGGCCACTGGTATCCAGATACCCAGACCTCCTACTTAGTAGAGGGGAGGTTCTCAGCTCCATCCGAGTCGTCTCCCAGTTGCTGCAGTGATGCTGACCCGAGAGAGAGATTGCAGCTGAGCTTCCAGGGGGAGGAGCGGGGGCTGATCAGATCCTCAGATACCTGTGAGGGGGAAATAATGGAGAATAAAGAGAAACAGAAACCATATTCAAGAAAAAAGAACAATACGGAAAGTCCACATCTGTCCCATGCGGTCCTGAAACTGTCGTCTCTTCAGAGTGCAGGACCAGGCATGGGAGAGCAGCCGGCTGACACTGCAGCCACGTGCCAGGCTTCGGCTGCTGCAGGCAGGGCTTCGCCTCCAAAGCAAGCACCAGACTCTTCTGCTGACTTTCATGTAAGATCCCGGATGAATAATCAGGAGTACAAGGTTGTTGTACCTGATGCTCAGAAACATTCTGAAGACAAGACTCCGAACAGTGACTTCAGCCATCTTAGCTTATTAGAAAATGAGAAACTCGTGTCCTTGACAAGCGTGGAGGATTCTTCTGATGATGACATTAATGATGAAGAGTTTTATGATGATCATTTGGAGTCTTATTTTGAACAATTGGCAATTCCGGGAATGATTTATGAAGATCTGGAAGGACAGGAATCTCTAGAAAGAGATTTTAGGTTATCTACGAGAAGTCCTAGTCAGGCAAATGAAAACAGCAGCTTAAGATGTAAAATTCAATCGGAAGATAACAGCACTCTGATTTCCCATGGCTCAGAACTTTCCAGAGCGACTCACAGAGAGACTGAGGAAAGCCGTGTTTGTTTATCTGGGACCACTCATTATGTAGGTCCTGGAGATGGTAGGATGCTTGTAGACGGTGTGTTTCTGTTTTCCCCGAATACTTGCAGAGTCGAGAAGGGAAGGGCAGACCATACCAAAGAGTGTACGAGAGAGGATGTTCTGGTGCAGAGTCCTCGAGTTATCACTGCGAAACTTCACCCCATTTGCTTCCATGACATGGACGCTGGCAGAGGTGGTTCTGACCCGGCTGACTCTGTAGGACAGGGGGCAGAACCTGCTCAGTGGGCGTCAGACTCTGGAATGATTTTGCCCAAGGATGGGTGCTTAGATGCTGAGTCTTCTGCAGTGCCTGGTCAGAAAAGTGTGGGCACAACATCTCTGAAGCATGCTGGTGACAATGGAACCAATTCCACTGATACCCTTTGGTCACCAACTTGTGAAAGGAGAACATGTCAGTGTTCTGAGTCCATGGACAAGAGTAAAGACCAAACGAACCTCCCACAGAATGTGGTTTATCAAAATGAAGATGGCAGGTGGGTCACTGACCTTGCTTATTACACATCTTTTAATAATGAACAGGATTTAAAAGTGCCTCCGAATGACATGAATGAAGTCTTCAGATCTGGTTCTGAAGTATTGGATTTGATTGCAAAAGATGAAGAAGAATTTAATAAAGAGCATCAGTTTATACAGGAAGAAAACATAGATGCTCAGAACATTTCAGCTGCCCTAGGCGATACGTCGTGGGCAGCTACAATTAATTATAATCTGTTGAGGAAATCAGTCAGCACATCAGATCTGGACAAAGATGATGCTAGTTATCTACGGCTGTCCTTAGGAGAGTTCTTTGCTCAAAGGTCTGAAGCTCTTGGTTGCCTTGGTGGTGGTAACAATGTGAAAAGACCATCATTTGGTTATTTTATTAGCTCACCTGAAAAGAGTGAACCTATTGCTTTAATCAGAAAGTCTGAGGTGTCGAGAAGTAATTTGGAAAAGGAAATGGCTCATCTGAACTCTAATCTGTCTTCAGGAGATTTAAACGAGCAATCCCAGGCACAGCTGAGCAAAGGGCCCGTCACCCTGCAGGTGGATGCCCTGGAGAGCCCTTCTGAAGTGGACGAGAATGATGAGACGCTGACTGCCGACCAGGGGCAGACAGAGGACACGTTCTTCAGGAATAACAAACTCCAGGAACGCAAAGAGGAGCCGGCCGACCATGGTGATTCAGTGCTCAGGATCAGCACCATCGCCTCAGCCATCGCAGACGCCTCAGTCAGCACTGATCCCTCCCAGTTTGCCGCCATGATGAAGGCCCTGAGAAACAGAGCCAGAGGCGGGGCGGCTTGGGAGCTCGGGGAGCGTGTGTACTGTGCTGAGTTGTCCCGTCGCTCACCCGGTGACTTGGAGAGGAGTGATGGCTTCGGTGCCTTTGATATGGAGAAGTACCTCACAAAAACAGAAGTCAGTAGGTGTGAAGCTGGCTTAGAAAGCATGTCAGGAGCTAGCCCGTTGGACGTTTGGAATTTATCTTTGCCCGAAGAACAGACTATTCCGGGTACCCACACGGTCAGCTCTTGTGCTACCAGTGTGAGTGTGCAGGAACCAGGAGAAAAAGCGGCAGCTGCCTTTTATGGTGGAAATGGAGAGAGTGAGAATCAGGACTCCTTCAGAACCACAGACTCTTCAAATTCTGCTCTTACAGATCGGAGGGAGAACGAGCGTGCAGCAGTGGACAGGCAGACGCCCGCCTTTGACAGCGCTTCACCAGACACTGGTTATGGTGCGAAAGCTGCCTCAGTGTCCACTCTGGCACCGAGCATTTACGCCTCGGTTACGAGCCCCACAGGAACACCCCTTTGCCTCGTGGAGGCGTGTGAAGAAACACAAAATCGGAGGCAAAAAGAGGGTGACAGCAAAACAAGCAGCGGTGACACACACGTGACTTTTGAAAAACATTGCGTCTCGCCCAGAAGTGTTGGCTTGAGGAACACCTCTCCTGAGCGTGGCAGGGCTGGCCTGGAGGAGCAGGAGCAGGAGCAGGAGCAGGAGAGCTTCCGGCCCTCCACTCCCCCACTCAGCCACTCTTCACCCAGCGAAGGCTGCAGGGCAAGTCTGTCGGGGGGTGCTTCAGAGTCCCTTAATTCGGCAGCCTGTCCCCAGAAGTCCCCTGCTGAGAGTGAGCTGTCCCGGCTGGCATGTTCCCATGCTGACACGAGCAGACTGACTTACGTGTCTGAACCAGAGAGCATCTGTCCTGCCTCAGCCACTGACAGTCCCCGCCAGAGCGAACTGGCCAGTGAGCTGAGCACCACCATCATCCGCAGCAGTCCAGTGCCCCCCGAGGAAGATGCAGCACTCTCCCTTGGGCAGCGCGGGGTCCGGAGCGAGGCTGCAGCTGCTTCTCTGGCTGGCGGGCCTCGGGACACAGAACCTCACTCCAACACGAGCCAGGACCCTTCCTCTGTGAGCGGAGAGCAGTGGGAAGCCCGGGAGGCAGTGAGGACGTCCCGCTGCGGGAGATGCCAGGTCCTGGGGCAGCCAGGCCTCGGCCACTGGGCAGGCCCAGCTGCTCCACAGCCCGCGGACGGAGGCCAGAGGCCAGCCTCTGGCGAAGCCCGCAGTGCATCTAGGGCCCAGGCTCCTCATCGGAGCGTCCCCACATGCCAGCCTGCCCCCGCCACTGCACTGCAGAGCGCGTCCTCTGTGTGCCCTGCACTCTGGGCCGGAGCCCCTCTCGCCACAGCTGCCTTGGCCCAGCAGTGCATGGGGACGAGTGTCGCCCTGCCTCCTCCAGGCCATGCAGGCAGCGCCCTGGTCTGCAGGCTCCCGGGCTGCCCCCCTTACCCGGCCACGGCAGGGGAGCATGTTCAGAACCCTGTGGCAGTGGGGCTTTGTCTAGGGCCGAGTCCCACCTCGGGACTGCTGGGCCCCTCTGCCCTCGGCAGCCCGTGTTCTGATGCATTCTGCCAGCACCTCCTCGGCACAGTGCAGCCTTTGCCCGCGCACCCTGCCCGCGCAGCCTGTGGGACTGAACACTGGAATTCAGGAATGGCGGCAGGGTTTGCAAGCGTCAGGGTGCCGGAGGAGCTGAAGTTCCCTTCCACTTGCTGCGTGGGCATTGCCTCGCAGACCCGCCTCAGCGTGCTCAACCCCTCTGACCGCTGGCTCCAGGTCAGCGTCGTGGCGCTAAGCGTCAGCGTCAATGGTGAGAAGGTGGATCTTTCAACATATCCTTGTTTAGTTTTCAAGAATAAAGTCATCGTAAGACCACATGCAACAGAAGAGATAGCAGTGCTTCTCTTACCCCTGGATCCCGGGCTTTTCCGATGTGTGTTCAGGGTTGCTTCGTGGCCGTTTTCGGCGGACCCTGAGACGATCATGCAGGCAGAAGCCTTGGCAAGCAGAGTTGTCCTTACTGCCATCGCCGAGAGCCCTGCTATTGAGGTAGAAACAGAAAGGAAAGGTGTTCTTGATTTTGGTGACTTGACATACGGAGGCTGGAAGGCCCTCCCGCTCAAACTGATAAACAGGTCCCATGCCTCCGTGCCCCTCAGACTGAGCATTAGCGCTAATGCCGTAGCCTGGTGCTGCTTCACGCTTTCCAAGGAACCGGTCCCTACTTCCCTGAAAGCTGCTCCTTATGCCGATGTGGTGGCTCAGCTGGCAGCTCCGTCCGTGGTCAGCCACGTGATGCCCGCCAGTTACGAAGGACAGGATCCAAAATTTCTGATAATTTGGGTTCTTTTCCATACTCCAAAGAAACTAATTGCTTCTTCAGAGATTCTAGATCCAGCAGAAGAGTTCGTGGCAAGAGTCGATATCGAAGTGGACAGCCCGAACCCCAGCCCAGCTCTCAGCAGCGTGGGTCTCCGAGCAAGAGCAGGCACCGCCAGGATCCACGCCCCCAGGGACCTGCAGACTGTGCATTTGTTGGCCAGTGTGAATTCTGCAGCAAAGCAGCCCTTACCTCTGAAAAATGCTGGAAATATCGAAGTTTATTTAGATATCAAGGTCCCAGAGCAAGGAAGTCACTTTTCAGTGTATCCGGAGAATCTGTTCCTCAAGCCTGGAGAAGAGCATGAAGTGATGGTTTCCTTTACACCGCGGGACCCCAAAGCCTGTGAAGAAAGGATCTTGAAGATATTTGTGCATCCATGTGGACCTCAGTATGAAGTAGTGTTAAAGGGCGAAGCTGTTTCTTCGGGAAGTCAGACTGTGCCCCCAGGCCCTTGCTGCCCAGATCTTCCGTCCCTTCTGTCCAACAAGCAGTTCCTGGCCTGGGGCGGGGTCCCCCTGGGCAGGACACAGCTTCAGAAGCTGGTTTTAAGAAGCAGTTGTGCCTCCACAGCCCAGCACTTACGACTGCTCATCAGAGGGCAGGACCAGGACTGCTTTCAGCTTCAGAACACTTTTGGCTCAGAAGAGCGATTGACCAGTAACTGTGAGGTTAGAATTGGCCCAAAGGAAGACATTGTCATCTCTGTGTTATTCGCTCCTACTCGATTATCTTGTATGTTGGCCAAACTAGAAATCAAACAACTCAGAAATCGATTACAGCCCGGTGTTAAATTCATGATACCTTTGTCTGGATATGGAGGAACAAGTAATCTTATTTTGGAAGGAGTCAAGAAATTGTCTGACAGTTACATGGTAACAGTGAACAGCTTAGTACCTGGCAAGGAGAGCCGAGCTGTACTTTCTGTCCGCAACACTGGCTCACGAGCAGCTTTCATTAAAGCAGTAGGCTTTAGAGATTATCAGAAAAAAGTTCTGTTGGATCCTAAAGTATTGAGGATTCTTCCAGATAAATTTGTACTCAAGGAAAGAACACAAGAAGATATTACTATCATATACCGCCCTCCAGACCGAGGGCGTGACCACAGAGCTTCAGTGGAGCTGTCAACTGTGTACTTCTTTGGTGGAGATGAAATTTGCCGACAGCAGTATCGAAGAGCCGTGTCTCAGAATCCAGGGGTTGTCAGGCGGATCCTTCCAGCACATAGTGTGCTGCACAGCGTTGACTTTGCCGAGGTGTTTCAGGACGAGCTGCTCGTGGATGAAGTCTATGATCTTCCTCAGCGGCCTAATGATGTTCAGCTCTTTTATGGAAACATGCGTAAAATTATCCTTTCGGTACTTGGAGAATTCCGAGATTCCATTTCCAGTAGAGAATTTCTTCCGCCTTCTTCCCAAGCTAGCTTGGAATCCAGAAGGGATGAAGGACTGTTTGGAAGGCACAGTGGCAATGTCTCTCTGGATGTCCTCCCCGTCAGAGGTCCGCAGGGCTCTCCCTTTCCCCCGAGAGCCGCCCGCCTGCATCAGGCCGCCCTGGCCTTGGGAGAGGCGTGGGCTGTGCAGCCCGAGCACGTGATCCTGCTGGTGCCCTCGGCCCTAGGTGACAAGGCCAAAACCGGGCATTTCCAGATTGTGAATGACTCTGCCAGGACACTGAAGTTCGAGCTGTACTGGCCAGCACACTGCTTGACGGTCACTCCGGAGCATGGGGTTGTCCCGCCAGAGAGTAAACAGCAAATTCTTGTGAGTCCTAATCTCTCCTTATCTGCAAAGCAGTCGATGTTCCCGTGGAGCGGTCTGGTCTACGTGCACTGTGACGATGGGGAGAAGAAAATTGTGAAAGTTCAAATCCGAGAAGATTTGACTCAGGAAGATCTTTTATCTCATTTGGCCTCGGGCATGTTTGGAATTCTTGCCCCGGCATCTGAGCCTCCTGTGAGTCACTGGACAAAACCTGCGACAAAGCCTCCTTCCACGCGGGTGCAGATCAGAAGCAAGACCATTACTTTTCCTGCCACGGCCCCTGGAGAAACCTCAGAGAGCTGTCTGGAGCTGGAGAACCATGGACCCACAGATGTGAGGTGGCATGTGTCGTCCTTTGCCCCGCCATACGTCAAGGGTGTCGATGAAAGCGGAGATGTCTTTCGAGCTACCTATGCAGCATTCAGGTGCGCTCCTCTTTCTGGCACGCTGGGAAGCCACGGGACTCAAAAGGTCTCCGTCACCTTCCTGCCGAGAGATCGAGGGAATTATGCCCAGTTTTGGGATGTCGAGTGCCACCCTGTTAAGGAGCCTCACTTGAGACACACGTTGAGATTCCAGCTCTCTGGACAAAGCGTCCGAGCAGGGGAGGAGCCGCCTGCCCACGCGGCCACCGCCACCGGCAGCCTGGCGAGGTTGGAGGGCAGGCCTCGCAGACGCGCCGCCTCGGAGCCCGCCCTCCCGCCGGGGCCGCCGGAGCCCCCAGCCAGCGCCAGCCCGCGAGGCGTGTACACGCCGCAGGACGCCTACACCTTCCCGCCCACGCGCGTCGGGGAGGCGCGGGCGCTGAAGGTCAGCGTGCGGAACAGTTCCTTCGTGACGCGGGCGCTCAAGTTCGTGCCGCCCCGGGAGCCGTTCCACGTGCGGCACTCCAGGTACTCCCTGAGGGCCCGGCACTACATCCACATCCCCGTGCACTTTCGGCCCACGGCGGCGGGCAGCTTCCAGGCGCTGCTTCTCATCCAGACGGACGGGGGCCGGAGCACGGCCGTGCGGCTGAGCGGCGAGGCCCTGGAGGACGACTGA
Cep192 centrosomal protein 192kDa, transcript variant X2
Length: 6102 bp Location: 19959938..20010802 Strand: +>XM_004853282.1 ATGCTGGTGACAATGGAACCAATTCCACTGATACCCTTTGGTCACCAACTTGTGAAAGGAGAACATGTCAGTGTTCTGAGTCCATGGACAAGAGTAAAGACCAAACGAACCTCCCACAGAATGTGGTTTATCAAAATGAAGATGGCAGCTGAAGTATTGGATTTGATTGCAAAAGATGAAGAAGAATTTAATAAAGAGCATCAGTTTATACAGGAAGAAAACATAGATGCTCAGAACATTTCAGCTGCCCTAGGCGATACGTCGTGGGCAGCTACAATTAATTATAATCTGTTGAGGAAATCAGTCAGCACATCAGATCTGGACAAAGATGATGCTAGTTATCTACGGCTGTCCTTAGGAGAGTTCTTTGCTCAAAGGTCTGAAGCTCTTGGTTGCCTTGGTGGTGGTAACAATGTGAAAAGACCATCATTTGGTTATTTTATTAGCTCACCTGAAAAGAGTGAACCTATTGCTTTAATCAGAAAGTCTGAGGTGTCGAGAAGTAATTTGGAAAAGGAAATGGCTCATCTGAACTCTAATCTGTCTTCAGGAGATTTAAACGAGCAATCCCAGGCACAGCTGAGCAAAGGGCCCGTCACCCTGCAGGTGGATGCCCTGGAGAGCCCTTCTGAAGTGGACGAGAATGATGAGACGCTGACTGCCGACCAGGGGCAGACAGAGGACACGTTCTTCAGGAATAACAAACTCCAGGAACGCAAAGAGGAGCCGGCCGACCATGGTGATTCAGTGCTCAGGATCAGCACCATCGCCTCAGCCATCGCAGACGCCTCAGTCAGCACTGATCCCTCCCAGTTTGCCGCCATGATGAAGGCCCTGAGAAACAGAGCCAGAGGCGGGGCGGCTTGGGAGCTCGGGGAGCGTGTGTACTGTGCTGAGTTGTCCCGTCGCTCACCCGGTGACTTGGAGAGGAGTGATGGCTTCGGTGCCTTTGATATGGAGAAGTACCTCACAAAAACAGAAGTCAGTAGGTGTGAAGCTGGCTTAGAAAGCATGTCAGGAGCTAGCCCGTTGGACGTTTGGAATTTATCTTTGCCCGAAGAACAGACTATTCCGGGTACCCACACGGTCAGCTCTTGTGCTACCAGTGTGAGTGTGCAGGAACCAGGAGAAAAAGCGGCAGCTGCCTTTTATGGTGGAAATGGAGAGAGTGAGAATCAGGACTCCTTCAGAACCACAGACTCTTCAAATTCTGCTCTTACAGATCGGAGGGAGAACGAGCGTGCAGCAGTGGACAGGCAGACGCCCGCCTTTGACAGCGCTTCACCAGACACTGGTTATGGTGCGAAAGCTGCCTCAGTGTCCACTCTGGCACCGAGCATTTACGCCTCGGTTACGAGCCCCACAGGAACACCCCTTTGCCTCGTGGAGGCGTGTGAAGAAACACAAAATCGGAGGCAAAAAGAGGGTGACAGCAAAACAAGCAGCGGTGACACACACGTGACTTTTGAAAAACATTGCGTCTCGCCCAGAAGTGTTGGCTTGAGGAACACCTCTCCTGAGCGTGGCAGGGCTGGCCTGGAGGAGCAGGAGCAGGAGCAGGAGCAGGAGAGCTTCCGGCCCTCCACTCCCCCACTCAGCCACTCTTCACCCAGCGAAGGCTGCAGGGCAAGTCTGTCGGGGGGTGCTTCAGAGTCCCTTAATTCGGCAGCCTGTCCCCAGAAGTCCCCTGCTGAGAGTGAGCTGTCCCGGCTGGCATGTTCCCATGCTGACACGAGCAGACTGACTTACGTGTCTGAACCAGAGAGCATCTGTCCTGCCTCAGCCACTGACAGTCCCCGCCAGAGCGAACTGGCCAGTGAGCTGAGCACCACCATCATCCGCAGCAGTCCAGTGCCCCCCGAGGAAGATGCAGCACTCTCCCTTGGGCAGCGCGGGGTCCGGAGCGAGGCTGCAGCTGCTTCTCTGGCTGGCGGGCCTCGGGACACAGAACCTCACTCCAACACGAGCCAGGACCCTTCCTCTGTGAGCGGAGAGCAGTGGGAAGCCCGGGAGGCAGTGAGGACGTCCCGCTGCGGGAGATGCCAGGTCCTGGGGCAGCCAGGCCTCGGCCACTGGGCAGGCCCAGCTGCTCCACAGCCCGCGGACGGAGGCCAGAGGCCAGCCTCTGGCGAAGCCCGCAGTGCATCTAGGGCCCAGGCTCCTCATCGGAGCGTCCCCACATGCCAGCCTGCCCCCGCCACTGCACTGCAGAGCGCGTCCTCTGTGTGCCCTGCACTCTGGGCCGGAGCCCCTCTCGCCACAGCTGCCTTGGCCCAGCAGTGCATGGGGACGAGTGTCGCCCTGCCTCCTCCAGGCCATGCAGGCAGCGCCCTGGTCTGCAGGCTCCCGGGCTGCCCCCCTTACCCGGCCACGGCAGGGGAGCATGTTCAGAACCCTGTGGCAGTGGGGCTTTGTCTAGGGCCGAGTCCCACCTCGGGACTGCTGGGCCCCTCTGCCCTCGGCAGCCCGTGTTCTGATGCATTCTGCCAGCACCTCCTCGGCACAGTGCAGCCTTTGCCCGCGCACCCTGCCCGCGCAGCCTGTGGGACTGAACACTGGAATTCAGGAATGGCGGCAGGGTTTGCAAGCGTCAGGGTGCCGGAGGAGCTGAAGTTCCCTTCCACTTGCTGCGTGGGCATTGCCTCGCAGACCCGCCTCAGCGTGCTCAACCCCTCTGACCGCTGGCTCCAGGTCAGCGTCGTGGCGCTAAGCGTCAGCGTCAATGGTGAGAAGGTGGATCTTTCAACATATCCTTGTTTAGTTTTCAAGAATAAAGTCATCGTAAGACCACATGCAACAGAAGAGATAGCAGTGCTTCTCTTACCCCTGGATCCCGGGCTTTTCCGATGTGTGTTCAGGGTTGCTTCGTGGCCGTTTTCGGCGGACCCTGAGACGATCATGCAGGCAGAAGCCTTGGCAAGCAGAGTTGTCCTTACTGCCATCGCCGAGAGCCCTGCTATTGAGGTAGAAACAGAAAGGAAAGGTGTTCTTGATTTTGGTGACTTGACATACGGAGGCTGGAAGGCCCTCCCGCTCAAACTGATAAACAGGTCCCATGCCTCCGTGCCCCTCAGACTGAGCATTAGCGCTAATGCCGTAGCCTGGTGCTGCTTCACGCTTTCCAAGGAACCGGTCCCTACTTCCCTGAAAGCTGCTCCTTATGCCGATGTGGTGGCTCAGCTGGCAGCTCCGTCCGTGGTCAGCCACGTGATGCCCGCCAGTTACGAAGGACAGGATCCAAAATTTCTGATAATTTGGGTTCTTTTCCATACTCCAAAGAAACTAATTGCTTCTTCAGAGATTCTAGATCCAGCAGAAGAGTTCGTGGCAAGAGTCGATATCGAAGTGGACAGCCCGAACCCCAGCCCAGCTCTCAGCAGCGTGGGTCTCCGAGCAAGAGCAGGCACCGCCAGGATCCACGCCCCCAGGGACCTGCAGACTGTGCATTTGTTGGCCAGTGTGAATTCTGCAGCAAAGCAGCCCTTACCTCTGAAAAATGCTGGAAATATCGAAGTTTATTTAGATATCAAGGTCCCAGAGCAAGGAAGTCACTTTTCAGTGTATCCGGAGAATCTGTTCCTCAAGCCTGGAGAAGAGCATGAAGTGATGGTTTCCTTTACACCGCGGGACCCCAAAGCCTGTGAAGAAAGGATCTTGAAGATATTTGTGCATCCATGTGGACCTCAGTATGAAGTAGTGTTAAAGGGCGAAGCTGTTTCTTCGGGAAGTCAGACTGTGCCCCCAGGCCCTTGCTGCCCAGATCTTCCGTCCCTTCTGTCCAACAAGCAGTTCCTGGCCTGGGGCGGGGTCCCCCTGGGCAGGACACAGCTTCAGAAGCTGGTTTTAAGAAGCAGTTGTGCCTCCACAGCCCAGCACTTACGACTGCTCATCAGAGGGCAGGACCAGGACTGCTTTCAGCTTCAGAACACTTTTGGCTCAGAAGAGCGATTGACCAGTAACTGTGAGGTTAGAATTGGCCCAAAGGAAGACATTGTCATCTCTGTGTTATTCGCTCCTACTCGATTATCTTGTATGTTGGCCAAACTAGAAATCAAACAACTCAGAAATCGATTACAGCCCGGTGTTAAATTCATGATACCTTTGTCTGGATATGGAGGAACAAGTAATCTTATTTTGGAAGGAGTCAAGAAATTGTCTGACAGTTACATGGTAACAGTGAACAGCTTAGTACCTGGCAAGGAGAGCCGAGCTGTACTTTCTGTCCGCAACACTGGCTCACGAGCAGCTTTCATTAAAGCAGTAGGCTTTAGAGATTATCAGAAAAAAGTTCTGTTGGATCCTAAAGTATTGAGGATTCTTCCAGATAAATTTGTACTCAAGGAAAGAACACAAGAAGATATTACTATCATATACCGCCCTCCAGACCGAGGGCGTGACCACAGAGCTTCAGTGGAGCTGTCAACTGTGTACTTCTTTGGTGGAGATGAAATTTGCCGACAGCAGTATCGAAGAGCCGTGTCTCAGAATCCAGGGGTTGTCAGGCGGATCCTTCCAGCACATAGTGTGCTGCACAGCGTTGACTTTGCCGAGGTGTTTCAGGACGAGCTGCTCGTGGATGAAGTCTATGATCTTCCTCAGCGGCCTAATGATGTTCAGCTCTTTTATGGAAACATGCGTAAAATTATCCTTTCGGTACTTGGAGAATTCCGAGATTCCATTTCCAGTAGAGAATTTCTTCCGCCTTCTTCCCAAGCTAGCTTGGAATCCAGAAGGGATGAAGGACTGTTTGGAAGGCACAGTGGCAATGTCTCTCTGGATGTCCTCCCCGTCAGAGGTCCGCAGGGCTCTCCCTTTCCCCCGAGAGCCGCCCGCCTGCATCAGGCCGCCCTGGCCTTGGGAGAGGCGTGGGCTGTGCAGCCCGAGCACGTGATCCTGCTGGTGCCCTCGGCCCTAGGTGACAAGGCCAAAACCGGGCATTTCCAGATTGTGAATGACTCTGCCAGGACACTGAAGTTCGAGCTGTACTGGCCAGCACACTGCTTGACGGTCACTCCGGAGCATGGGGTTGTCCCGCCAGAGAGTAAACAGCAAATTCTTGTGAGTCCTAATCTCTCCTTATCTGCAAAGCAGTCGATGTTCCCGTGGAGCGGTCTGGTCTACGTGCACTGTGACGATGGGGAGAAGAAAATTGTGAAAGTTCAAATCCGAGAAGATTTGACTCAGGAAGATCTTTTATCTCATTTGGCCTCGGGCATGTTTGGAATTCTTGCCCCGGCATCTGAGCCTCCTGTGAGTCACTGGACAAAACCTGCGACAAAGCCTCCTTCCACGCGGGTGCAGATCAGAAGCAAGACCATTACTTTTCCTGCCACGGCCCCTGGAGAAACCTCAGAGAGCTGTCTGGAGCTGGAGAACCATGGACCCACAGATGTGAGGTGGCATGTGTCGTCCTTTGCCCCGCCATACGTCAAGGGTGTCGATGAAAGCGGAGATGTCTTTCGAGCTACCTATGCAGCATTCAGGTGCGCTCCTCTTTCTGGCACGCTGGGAAGCCACGGGACTCAAAAGGTCTCCGTCACCTTCCTGCCGAGAGATCGAGGGAATTATGCCCAGTTTTGGGATGTCGAGTGCCACCCTGTTAAGGAGCCTCACTTGAGACACACGTTGAGATTCCAGCTCTCTGGACAAAGCGTCCGAGCAGGGGAGGAGCCGCCTGCCCACGCGGCCACCGCCACCGGCAGCCTGGCGAGGTTGGAGGGCAGGCCTCGCAGACGCGCCGCCTCGGAGCCCGCCCTCCCGCCGGGGCCGCCGGAGCCCCCAGCCAGCGCCAGCCCGCGAGGCGTGTACACGCCGCAGGACGCCTACACCTTCCCGCCCACGCGCGTCGGGGAGGCGCGGGCGCTGAAGGTCAGCGTGCGGAACAGTTCCTTCGTGACGCGGGCGCTCAAGTTCGTGCCGCCCCGGGAGCCGTTCCACGTGCGGCACTCCAGGTACTCCCTGAGGGCCCGGCACTACATCCACATCCCCGTGCACTTTCGGCCCACGGCGGCGGGCAGCTTCCAGGCGCTGCTTCTCATCCAGACGGACGGGGGCCGGAGCACGGCCGTGCGGCTGAGCGGCGAGGCCCTGGAGGACGACTGA
Slmo1 slowmo homolog 1 (Drosophila), transcript variant X5
Length: 486 bp Location: 19639004..19649375 Strand: +>XM_004853266.1 ATGAGGATCTGGAGCTGCGAGCACGTGTTCGGCCACCCGTGGGACACGGTGATCAAGGCTGCCATGAGGAAGTACCCGAACCCCATGAACCCCAGCGTGGTGGGTGTGGATGTCCTGGAGCGCGCTGTGGATGGCCGAGGGCGGCTGCACAGCCTGCGCCTGCTAAGCACCGAGTGGGGGCTGCCGGGCCTGGTCACCGCGATTTTGGGAACCAGTAGGACCCTGACCTACATCAAAGAGCACTCTGTGGTAGACCCAGCCGAGAAGAAAATGGAGCTTTTCTCCACCAATGTCACATTGCGGAACCTGGTGTCGGTAAATGAGAGGCTGGTGTACGCCCCGCACCCAGAGCACCCCGGGAAGACGGTGCTCACGCAGGAGGCTGTCATCTCCGTGGAGGGCACAGGCCTGGGCCGCTACCTGGAGAGCCTGATGGCCAGCACCATATCGTCCAACGCCAGGAAGGGGACACTCCCCAACTCCTGA
Ankrd12 ankyrin repeat domain 12, transcript variant X1
Length: 6147 bp Location: 17953049..18042178 Strand: +>XM_004853226.1 ATGCCCAAATCTGGGTTCACAAAACCAGTTCAGAGTGAAAATTCTGACAGTGACAGCAATATGGTAGAGAAACCATATGGAAGAAAGAGTAAAGATAAGATTGCATCCTACAGCAAAACTCAAAAAATTGATCGAAGTGATGCGGGCAAGGAAATGAAAGAGAAATCATCCATGAAACGTAAACTTCCTTTTACTATTAGCCCATCAAGAAATGAAGAACGAGATTCAGACACAGATTCAGACCCAGGACATACAAGTGAAAATTGGGGGGAGAGACTTATATCTTCTTACAGGACATACTCAGAGAAAGAAGGTCCAGAAAAGAAGAAAACAAAAAAGGAAGCTGGAAATAAGAAATCTACACCAGTGAGCATTCTTTTTGGTTATCCACTCTCAGAGCGAAAGCAGATGGCGCTTCTCATGCAGATGACAGCAAGAGACAACAGCCCAGATTCCACACCGAATCACCCATCACAGACAACACCAGCCCAAAAGAAAACTCCCAGTTCTTCGTCTCGACAAAAAGATAAAGTTAATAAAAGAAATGAACGTGGTGAAACTCCTCTACACATGGCAGCTATTCGTGGTGATGTGAAACAAGTTAAAGAATTAATAAGCTTAGGGGCAAATGTGAATGTGAAAGATTTTGCAGGTTGGACGCCACTACATGAGGCTTGCAATGTTGGATATTATGATGTTGCCAAGGTGCTGATTGCCGCTGGAGCTGATGTCAACACCCAGGGGCTGGATGATGACACTCCACTCCATGACTCTGCTAGCAGTGGGCATAGGGATATAGTAAAACTGTTGCTTCGTCATGGCGGAAACCCATTTCAAGCTAACAAACACGGGGAGCGGCCAGTGGATGTAGCAGAAACGGAGGAGTTGGAGTTGCTGTTGAAGAGAGAGGTGCCTTTGTCTGACGATGATGAAAGTTACACAGATTCTGAAGAGGCTCAGTCTGTAAATCCTTCTAGTGTTGATGAAAATATTGACTCTGAAACAGAGAAAGAATCTCTCATCTGTGAAAGTAAACAGATTGTTCCCAGTAAAGCACCTCTTGCATCGGCCCTTGATGAGTACGAGTTCAAAGATGATGATGATGAAGAAATAAACAAAATGATTGACGACAGGCATATTCTTAGAAAAGAACAACGAAAAGAGAATGAATCTGAACCAGAAAAGAGTTTATTTGCAAAACAGGAAAAAGCTTTCTATTCTAAATCATTTAAAAGTAAAAAACAAAAGCCATCTAGGGTTCTGTATTCAAGTACTGAAAGCTCTGATGAAGAAGTTGTTCAGAGCAAAAAGATTTCTGCTGCATCTTCTGTGCCTGAAACATCAAATTCTGACACACAAACCAAAAAAGAGTATGAATACAAGCAGAAGGGCAAAGTTAAAAGGAAGTTAAAAAACCAGAGCAAAAATAAAGAGAACCAAGAGCTAAAACAAGAGAAAGAAGAGAAAGAAAATACCAGAGTGACAAACTTGACAGTTAATGCTGCACTGGATTGTTCAGAAAAGACTAGAGAGGAGGGAAATTTTAGGAAATCATTTAGCCCAAAAGATGATTCTTCCTTACACTTATTTCATATTTCCACTGGTAAATCTCCCAAACATTCTTGTGGATTAAGTGAAAAACAATCAACACCACTAAAACAAGAACATACTAAAACATGTTTATCACCAGGAAGCTCTGAAATGTCATTACAGCCCGATCTTGTTCGATACGATAATACAGAATCTGAATTCTTGCCAGAAGGCTCAAGTGTTAAATCTTATAAACATAAGGAAAAAAATAAACATCAGAAAGACTTCCACTTAGAATTTGGTGAAAAATCAAATGCCAAAATAAAGGATGAAGATCATAATCCCACATTTGAAAATTCAGATTGCACCCTGAAAAAAATGGATAAAGAAGGTAAAACATTAAAAAAACATAAATTGAAACATAAGGAGAGGGAAAAAGAAAAGCACAAAAAAGAAACTGAAGGTGAAAAGGAAAAATACAAAAATAAGGATGGTGTTAAAGAACTGCAGCGGAGCATGGAATTTGATAGAGAATTTTGGAAAGAGAATTTTTTTAAAAGTGATGAAACTGAAGATCTATTTTTAAATATGGAACATGAGTCTCTAACAGAAAAAAAATCAAAATTGGAAAAAAGCATCAAAGATGAAAAATCAACTAAGGAAAAGCATGTCTCAAAAGAGAGGAATTTTAAAGAAGAACGGGAAAAGATTAAAAAGGAAAATGAGAAATCTTTTAGGGAAGAAAAGATAAAAGATGCAAAAGAAGAAAGAGAAAATGTACCCACAGATAAAGAAATAGAATTCACTTCTTTGGGTATAAGTATAAATGAGGAATCTGTGGGACTTCATTCAATGGAAAAGGAAATAGACGTTGAAAAACAAGAGAAACATATAAAAGAAAGCAAGGAAAAATCCGAGAAACGATTTCAAACTAAAGACGTTGAGAAGACTGAAAGAAAAAATTCTGAAAAAGAGAAGAAAATAAAACATGAGCATAAATCAGAAAAAGATAAGTTAGATTTTAGCGAATGTGTTGATAGAATAAAAGAAAAGGATAAACTGTACTCACATCACCCAGAAAAATGTCATAAAGAAGGTGAGAAGATAAAAAATGCTACTAAAAAAACTGATGACAGGGAGAAAAGTAGAGAGAAGGTGGAGAGAAAACATGATAAAGAAAAACCTGAAAAAGAGAGACACCTAACAGAAAGCAAAGAAAAGCACTTAATAGAGAAAAAAAGTAAACAATCAGATAACACTGAGTATACTAAATCAGAAAAGGGCAGAAATAAAGAAAGAGACAGGGAATTGGATAAAAAAGAAAAATCTAGAGATAAAGAAGGTATAACTAATTCCAAACACGTACAAGAAGAGAAAAGGTCAAGTATGATGGACAGCTGTAGTAAAGCACATGAGAAGACTTCCTCTCTTAAAGACAAGACAAAAGATGAGCCTTTGAAAACTCCAGATGGAAAAGAAAAAGATAAAAAAGATAGAGATATAGATAGATACAAAGAACGTGACAAACATAAAGATAAAATCCAACTAAATAGTTTACTCAAACTGAAGTCTGAAGCAGATAAGCCTAAACCTAAGTCATCACCAGCATCAAAAGATACTCGACCTAAAGAAAAGAGGCTGGTGAATGATGACTTAATGCAGACAAGTTTTGAGCGAATGCTAAGCCTTAAAGACCTAGAAATAGAACAGTGGCACAGAAAACATAAGGAAAAAATTAAGCAAAAAGAAAAAGAACGATTAAGAAACCGTAATTGTTTAGAACTTAAAGTAAAAGATAAAGAAAAAACAAAACATGGGCTAGCTGAATTGAAAAATAAAGAACTTACTAGGTCCAAGAGTTCAGAGCTGACCGATACTTACACCAAGGAGAAACAATCTAAAGATGCTGTCAGCAGTCGATCACAGTCTGTTGACACCAAAACTGTAACGAGTTTAGGGAAGTCATCCTTTGTTTCAGACAGTAGTTTAAACAGATCTCCTAGGTCAGAAGGTGAAAAGCCAGGTCTCAGCTCCAGGTCCATATCCATGATTTCCGTTGCTAGTTCAGAAGATTCCTGCCTTACTACAATGACAACCCCAAGGCCTCTTGCTGAATATGATTCAGACTTTATGTTAGAAGGGTCAGAGTCCCAAATGTCCTTTTCACAGTCACCTTTTTTGCCAATTGCCAAATCTCCGGCCCTTCATGAAAGGGAGTTGGACAGCCTGGCTGAACTGCCAGAGCGGATTAAACTAACATATGCAAACAGACTTCCAGCAACTCACCTCAGGGCATCTTCTGTAGAAGATGTTAAACTAATTATAAATGAGGGGAGACCTACTGTAGAACTTCGAAGATGTAGCATGCCATCTGTCATTTGTGAACATATAAAACAGTTCCAGACAACATCAGAAGAAAGCAATCAAGGTAGCTTAGCTGTGCCAAGAGATAATTGTCCTTCATCCAAATCTGAGGTATCTTCAAATGTACCTGAAAGAGACCTTTCAAACGTGTCTAACATACATTGCAGTTTCACGGCCTCTCCAGCTAGCTCTGCAAACAGCAAATACATTTCAGATGATGTAAATGTAATCAAGAGTACTGGTCCAGTGGCCACTCTGATGGACAGTCCTGTGCATTTAGATCCATCCAGTCAGGTTGGGGTGACCCAAAGTAAATCCTGGGAGATACCCGTGGATAGGATAGAGTCATTAAGCACCAGTGACTTTATCTGTCCAAATTCTGGGACACCTGATCAAGATTTCTCTGTTCAGGGTTTTTGTAATCCAGAAAATAAAATACTGAAAGAACAGAATACTGAATATTTATCCCAGCCCCAGACTGAACTGCCAGGAAACTCTTGTGCTCAGGATCCAGTATCCCTTCTGTCTTCACAGCAGCCTTGCTCTTTCCCCAGCCAGTCACTTTCAGACACTTCAGATACTGTCACTAAACATGTATCTTTGTCATATGTTGCCACTCAGGAGCTGGGTATTTTACAACAGAAAGATGCAGTTCAGATGATCAGTTCTGTTTCAGACATTGATAATGACTCAACAAAAGATGTGGAAAATACTTTTGTCCTAGCTGATGTTCAGAAGACTGATAACTTTGTCCCCGTGTACTCTGAAAGCACTATTCAAGAAGGATCATCAAACTTTGAGAAGGCAAGTATGTTGCCTGTGTTCCCATCAGAAAAGGACTTCACTGGAAGTGATGGCCACTCCCCACTAAATACACATGCATTTAGCAAACTCACTTACAAGTCTTCCAGCAGCTATGAATTTGAGAATAGCACAACTGATACTCAGGTTATTTTGCATGAAAAAGAAAACAAACTGGAGTGTTTGTTTTCAACTCATTTGAATAAGTATGATCCTGATTTATGTGAAATGAATACAGGGATGCCAAAGGGAAACCTAAATGAACAAGATAATCCAAAATGTCCTGAAAGTGAAAAAGGTCTGCTTTCCATCGAAGATGAAGAATCTCAACAAAGCACTTTATCCAGCCTGGAAAACCACTCACAGCACTCAGCACAACCGGAAATGAATAAATATGGTCAATTAGTTAAGGTAGAGTTGGAAGAAAATGCTGAAGACGATAAAACTGAAAACCAAATCCCTCAAAGAATGACTAGAACCAAAGCCAATACAATGGCAAATCAAAGCAAACAGATTCTTGCTAGCTGTGCACTGTTATCAGAAAAGGACAGTGACTCATCTCCTAGAGGAAGAATAAGACTTACTGAAGAGGATGATCCTCAGATTCACCATCCGCGGAAAAGGAAAGTGTCACGGGTGCCTCAACCTGTGCAAGTGAATCCTTCTTTACTACAAGCAAAGGAGAAGACACAGCAATCTCTGGCAGCCATCGTGGATTCTCTGAAGCTAGATGAGATTCAGCCATACAGTTCAGAGAGAGCAAATCCATATTTTGAATACTTGCACATAAGGAAAAAAATTGAAGAAAAGCGCAAGTTGTTGTGTAGCGTTATTCCTCAAGCACCTCAGTATTATGATGAATATGTAACATTCAATGGATCATATCTTCTGGATGGAAATCCCTTAAGCAAGATTTGTATTCCCACAATTACACCACCACCTTCACTGTCGGATCCGCTTAAAGAGCTTTTTCGGCAACAGGAGGTTGTAAGGATGAAATTGCGTTTGCAACACAGTATTGAAAGGGAAAAACTTATTGTGTCCAATGAACAGGAAGTTCTTCGAGTTCATTACCGAGCTGCGAGAACACTGGCAAATCAGACGCTCCCATTTAGTGCTTGTACTGTCTTACTGGATGCAGAAGTATACAATGTACCCTTGGACTCTCAGTCTGATGACAATAAAACTTCAGTGAGAGATCGCTTTAATGCAAGACAGTTCATGTCTTGGTTACAGGATGTAGATGATAAATTTGACAAATTAAAGACCTGTCTTTTAATGAGGCAACAACATGAAGCTGCGGCTTTAAATGCCGTCCAGAGATTAGAATGGCAGCTCAAACTCCAGGAACTTGATCCTGCCACCTATAAATCCATCAGCATTTACGAAATCCAGGAGTTCTATGTGCCCCTTGTTGATGTTAATGACGACTTCGAGTTGACTCCCATATAG
Ankrd12 ankyrin repeat domain 12, transcript variant X2
>XM_004853227.1 ATGCCCAAATCTGGGTTCACAAAACCAGTTCAGAGTGAAAATTCTGACAGTGACAGCAATATGGTAGAGAAACCATATGGAAGAAAGAGTAAAGATAAGATTGCATCCTACAGCAAAACTCAAAAAATTGATCGAAGTGATGCGGGCAAGGAAATGAAAGAGAAATCATCCATGAAACGTAAACTTCCTTTTACTATTAGCCCATCAAGAAATGAAGAACGAGATTCAGACACAGAGAAAGAAGGTCCAGAAAAGAAGAAAACAAAAAAGGAAGCTGGAAATAAGAAATCTACACCAGTGAGCATTCTTTTTGGTTATCCACTCTCAGAGCGAAAGCAGATGGCGCTTCTCATGCAGATGACAGCAAGAGACAACAGCCCAGATTCCACACCGAATCACCCATCACAGACAACACCAGCCCAAAAGAAAACTCCCAGTTCTTCGTCTCGACAAAAAGATAAAGTTAATAAAAGAAATGAACGTGGTGAAACTCCTCTACACATGGCAGCTATTCGTGGTGATGTGAAACAAGTTAAAGAATTAATAAGCTTAGGGGCAAATGTGAATGTGAAAGATTTTGCAGGTTGGACGCCACTACATGAGGCTTGCAATGTTGGATATTATGATGTTGCCAAGGTGCTGATTGCCGCTGGAGCTGATGTCAACACCCAGGGGCTGGATGATGACACTCCACTCCATGACTCTGCTAGCAGTGGGCATAGGGATATAGTAAAACTGTTGCTTCGTCATGGCGGAAACCCATTTCAAGCTAACAAACACGGGGAGCGGCCAGTGGATGTAGCAGAAACGGAGGAGTTGGAGTTGCTGTTGAAGAGAGAGGTGCCTTTGTCTGACGATGATGAAAGTTACACAGATTCTGAAGAGGCTCAGTCTGTAAATCCTTCTAGTGTTGATGAAAATATTGACTCTGAAACAGAGAAAGAATCTCTCATCTGTGAAAGTAAACAGATTGTTCCCAGTAAAGCACCTCTTGCATCGGCCCTTGATGAGTACGAGTTCAAAGATGATGATGATGAAGAAATAAACAAAATGATTGACGACAGGCATATTCTTAGAAAAGAACAACGAAAAGAGAATGAATCTGAACCAGAAAAGAGTTTATTTGCAAAACAGGAAAAAGCTTTCTATTCTAAATCATTTAAAAGTAAAAAACAAAAGCCATCTAGGGTTCTGTATTCAAGTACTGAAAGCTCTGATGAAGAAGTTGTTCAGAGCAAAAAGATTTCTGCTGCATCTTCTGTGCCTGAAACATCAAATTCTGACACACAAACCAAAAAAGAGTATGAATACAAGCAGAAGGGCAAAGTTAAAAGGAAGTTAAAAAACCAGAGCAAAAATAAAGAGAACCAAGAGCTAAAACAAGAGAAAGAAGAGAAAGAAAATACCAGAGTGACAAACTTGACAGTTAATGCTGCACTGGATTGTTCAGAAAAGACTAGAGAGGAGGGAAATTTTAGGAAATCATTTAGCCCAAAAGATGATTCTTCCTTACACTTATTTCATATTTCCACTGGTAAATCTCCCAAACATTCTTGTGGATTAAGTGAAAAACAATCAACACCACTAAAACAAGAACATACTAAAACATGTTTATCACCAGGAAGCTCTGAAATGTCATTACAGCCCGATCTTGTTCGATACGATAATACAGAATCTGAATTCTTGCCAGAAGGCTCAAGTGTTAAATCTTATAAACATAAGGAAAAAAATAAACATCAGAAAGACTTCCACTTAGAATTTGGTGAAAAATCAAATGCCAAAATAAAGGATGAAGATCATAATCCCACATTTGAAAATTCAGATTGCACCCTGAAAAAAATGGATAAAGAAGGTAAAACATTAAAAAAACATAAATTGAAACATAAGGAGAGGGAAAAAGAAAAGCACAAAAAAGAAACTGAAGGTGAAAAGGAAAAATACAAAAATAAGGATGGTGTTAAAGAACTGCAGCGGAGCATGGAATTTGATAGAGAATTTTGGAAAGAGAATTTTTTTAAAAGTGATGAAACTGAAGATCTATTTTTAAATATGGAACATGAGTCTCTAACAGAAAAAAAATCAAAATTGGAAAAAAGCATCAAAGATGAAAAATCAACTAAGGAAAAGCATGTCTCAAAAGAGAGGAATTTTAAAGAAGAACGGGAAAAGATTAAAAAGGAAAATGAGAAATCTTTTAGGGAAGAAAAGATAAAAGATGCAAAAGAAGAAAGAGAAAATGTACCCACAGATAAAGAAATAGAATTCACTTCTTTGGGTATAAGTATAAATGAGGAATCTGTGGGACTTCATTCAATGGAAAAGGAAATAGACGTTGAAAAACAAGAGAAACATATAAAAGAAAGCAAGGAAAAATCCGAGAAACGATTTCAAACTAAAGACGTTGAGAAGACTGAAAGAAAAAATTCTGAAAAAGAGAAGAAAATAAAACATGAGCATAAATCAGAAAAAGATAAGTTAGATTTTAGCGAATGTGTTGATAGAATAAAAGAAAAGGATAAACTGTACTCACATCACCCAGAAAAATGTCATAAAGAAGGTGAGAAGATAAAAAATGCTACTAAAAAAACTGATGACAGGGAGAAAAGTAGAGAGAAGGTGGAGAGAAAACATGATAAAGAAAAACCTGAAAAAGAGAGACACCTAACAGAAAGCAAAGAAAAGCACTTAATAGAGAAAAAAAGTAAACAATCAGATAACACTGAGTATACTAAATCAGAAAAGGGCAGAAATAAAGAAAGAGACAGGGAATTGGATAAAAAAGAAAAATCTAGAGATAAAGAAGGTATAACTAATTCCAAACACGTACAAGAAGAGAAAAGGTCAAGTATGATGGACAGCTGTAGTAAAGCACATGAGAAGACTTCCTCTCTTAAAGACAAGACAAAAGATGAGCCTTTGAAAACTCCAGATGGAAAAGAAAAAGATAAAAAAGATAGAGATATAGATAGATACAAAGAACGTGACAAACATAAAGATAAAATCCAACTAAATAGTTTACTCAAACTGAAGTCTGAAGCAGATAAGCCTAAACCTAAGTCATCACCAGCATCAAAAGATACTCGACCTAAAGAAAAGAGGCTGGTGAATGATGACTTAATGCAGACAAGTTTTGAGCGAATGCTAAGCCTTAAAGACCTAGAAATAGAACAGTGGCACAGAAAACATAAGGAAAAAATTAAGCAAAAAGAAAAAGAACGATTAAGAAACCGTAATTGTTTAGAACTTAAAGTAAAAGATAAAGAAAAAACAAAACATGGGCTAGCTGAATTGAAAAATAAAGAACTTACTAGGTCCAAGAGTTCAGAGCTGACCGATACTTACACCAAGGAGAAACAATCTAAAGATGCTGTCAGCAGTCGATCACAGTCTGTTGACACCAAAACTGTAACGAGTTTAGGGAAGTCATCCTTTGTTTCAGACAGTAGTTTAAACAGATCTCCTAGGTCAGAAGGTGAAAAGCCAGGTCTCAGCTCCAGGTCCATATCCATGATTTCCGTTGCTAGTTCAGAAGATTCCTGCCTTACTACAATGACAACCCCAAGGCCTCTTGCTGAATATGATTCAGACTTTATGTTAGAAGGGTCAGAGTCCCAAATGTCCTTTTCACAGTCACCTTTTTTGCCAATTGCCAAATCTCCGGCCCTTCATGAAAGGGAGTTGGACAGCCTGGCTGAACTGCCAGAGCGGATTAAACTAACATATGCAAACAGACTTCCAGCAACTCACCTCAGGGCATCTTCTGTAGAAGATGTTAAACTAATTATAAATGAGGGGAGACCTACTGTAGAACTTCGAAGATGTAGCATGCCATCTGTCATTTGTGAACATATAAAACAGTTCCAGACAACATCAGAAGAAAGCAATCAAGGTAGCTTAGCTGTGCCAAGAGATAATTGTCCTTCATCCAAATCTGAGGTATCTTCAAATGTACCTGAAAGAGACCTTTCAAACGTGTCTAACATACATTGCAGTTTCACGGCCTCTCCAGCTAGCTCTGCAAACAGCAAATACATTTCAGATGATGTAAATGTAATCAAGAGTACTGGTCCAGTGGCCACTCTGATGGACAGTCCTGTGCATTTAGATCCATCCAGTCAGGTTGGGGTGACCCAAAGTAAATCCTGGGAGATACCCGTGGATAGGATAGAGTCATTAAGCACCAGTGACTTTATCTGTCCAAATTCTGGGACACCTGATCAAGATTTCTCTGTTCAGGGTTTTTGTAATCCAGAAAATAAAATACTGAAAGAACAGAATACTGAATATTTATCCCAGCCCCAGACTGAACTGCCAGGAAACTCTTGTGCTCAGGATCCAGTATCCCTTCTGTCTTCACAGCAGCCTTGCTCTTTCCCCAGCCAGTCACTTTCAGACACTTCAGATACTGTCACTAAACATGTATCTTTGTCATATGTTGCCACTCAGGAGCTGGGTATTTTACAACAGAAAGATGCAGTTCAGATGATCAGTTCTGTTTCAGACATTGATAATGACTCAACAAAAGATGTGGAAAATACTTTTGTCCTAGCTGATGTTCAGAAGACTGATAACTTTGTCCCCGTGTACTCTGAAAGCACTATTCAAGAAGGATCATCAAACTTTGAGAAGGCAAGTATGTTGCCTGTGTTCCCATCAGAAAAGGACTTCACTGGAAGTGATGGCCACTCCCCACTAAATACACATGCATTTAGCAAACTCACTTACAAGTCTTCCAGCAGCTATGAATTTGAGAATAGCACAACTGATACTCAGGTTATTTTGCATGAAAAAGAAAACAAACTGGAGTGTTTGTTTTCAACTCATTTGAATAAGTATGATCCTGATTTATGTGAAATGAATACAGGGATGCCAAAGGGAAACCTAAATGAACAAGATAATCCAAAATGTCCTGAAAGTGAAAAAGGTCTGCTTTCCATCGAAGATGAAGAATCTCAACAAAGCACTTTATCCAGCCTGGAAAACCACTCACAGCACTCAGCACAACCGGAAATGAATAAATATGGTCAATTAGTTAAGGTAGAGTTGGAAGAAAATGCTGAAGACGATAAAACTGAAAACCAAATCCCTCAAAGAATGACTAGAACCAAAGCCAATACAATGGCAAATCAAAGCAAACAGATTCTTGCTAGCTGTGCACTGTTATCAGAAAAGGACAGTGACTCATCTCCTAGAGGAAGAATAAGACTTACTGAAGAGGATGATCCTCAGATTCACCATCCGCGGAAAAGGAAAGTGTCACGGGTGCCTCAACCTGTGCAAGTGAATCCTTCTTTACTACAAGCAAAGGAGAAGACACAGCAATCTCTGGCAGCCATCGTGGATTCTCTGAAGCTAGATGAGATTCAGCCATACAGTTCAGAGAGAGCAAATCCATATTTTGAATACTTGCACATAAGGAAAAAAATTGAAGAAAAGCGCAAGTTGTTGTGTAGCGTTATTCCTCAAGCACCTCAGTATTATGATGAATATGTAACATTCAATGGATCATATCTTCTGGATGGAAATCCCTTAAGCAAGATTTGTATTCCCACAATTACACCACCACCTTCACTGTCGGATCCGCTTAAAGAGCTTTTTCGGCAACAGGAGGTTGTAAGGATGAAATTGCGTTTGCAACACAGTATTGAAAGGGAAAAACTTATTGTGTCCAATGAACAGGAAGTTCTTCGAGTTCATTACCGAGCTGCGAGAACACTGGCAAATCAGACGCTCCCATTTAGTGCTTGTACTGTCTTACTGGATGCAGAAGTATACAATGTACCCTTGGACTCTCAGTCTGATGACAATAAAACTTCAGTGAGAGATCGCTTTAATGCAAGACAGTTCATGTCTTGGTTACAGGATGTAGATGATAAATTTGACAAATTAAAGACCTGTCTTTTAATGAGGCAACAACATGAAGCTGCGGCTTTAAATGCCGTCCAGAGATTAGAATGGCAGCTCAAACTCCAGGAACTTGATCCTGCCACCTATAAATCCATCAGCATTTACGAAATCCAGGAGTTCTATGTGCCCCTTGTTGATGTTAATGACGACTTCGAGTTGACTCCCATATAG
Soga2 SOGA family member 2, transcript variant X1
Length: 5691 bp Location: 17702793..17788849 Strand: +>XM_004853221.1 ATGGAGACGCTGAGCGGCCCCGCGGGCGGCGCCCCGGACGCCAAGCCGCAGCCGCCCGGCGCCCGCCACCCGCTCCTCCTGCGCCCGCCGGCCGAGCGCAGGCGGCTGCACCGCGAGCCCTCGCCCGCCCGCCCCGCAACCTGGGCCCCGGGCCCCGCGCCCGCCGCTTTGCGCGCCCCGGTTCTCGCGGGCCGCCCGCCGTCGTCCTCGGGGCCCCCTGCCCAGCCCGGCAGCCTTTCCCGGCGCAGCACCGGCGTCCCGGGCGCGAAGGACAAGCCGCCGCCGGGCTTCGGGACCAGGACTGCGAGCGGCGCCAAGGCCGCCCTGGGAGCCCGCAAGGCGGCGCGCGCGGTGCCCAACGAGCCGCTGCCCCGCGCCGCGAAGCCGCCGGGGCCCGTGCCGCCCGGAGCCGCCGCCAAGGCCCACAGGGCTAAACGCGAACCCGGGGCGGCCCCCTCCCGCGCCCTTGCCTCCCCGAGCCCCACCGCCCGCGCCCCCAACGCGCGCCTCGCCGGGGCCCCGGGTGCGCGCGCGGGCCACACAGACAGCAGCTCTGATCTCTCCGACTGCGCCTCTGAGCCGCCCGCCGCCGGCAGCGACGCCGAGTCCGGCACCGGCTCCAGCGACCGCGAGCCCGCGCGGGGGGCGCCGCCCGGCAGCCCCGAGACCCTCGCGCTCCTCGCCGCGCCCGCCGCCGGCCTCGGGGGCCGCAGCAGCCCTGGCGGGGTCCCCCCAGGGTCTCCGGGGCGCGGCGCGGTGGACGATGGCGAGGGGCGCGTGCCGCCCGAGCGAGCGGTCCCGGGGACCCCACAGGAGTCCGGCCCGGGCCTGCAGCCGCGGCTCGGGCCGAGCTTGGAGGAGGAGGAGCTGCTTCGGGAGATGGAGGAGCTGCGCTCAGAGAACGACTACCTCAAGGATGAGCTGGATGAACTCCGTGCCGAGATGGAGGAGATGAGAGACAGCTATTTGGAGGAAGACGTGTACCAGCTGCAGGAACTTCGGCGAGAGCTGGACCGAGCTAACAAAAACTGCCGCATCCTGCAGTACCGACTCCGGAAGGCCGAGCAGAAGAGCCTGAAAGTAGCAGAGACCGGGCAGGTGGACGGCGAGCTTATCAGGAGTCTGGAGCAGGACCTGAAGGTAGCCAAAGACGTGTCTGTGCGGCTGCACCATGAGCTAGAGACTGTGGAGGAGAAGCGGACTAGAGCTGAGGATGAGAACGAGACGCTGCGGCAGCAGGTGATCGAGGTGGAGATAGCCAGGCAGGCCCTGCAGAACGAGCTGGAAAGGCAGAAGGAGAGTTTCCTGAAGAGAAGAGGCAGTCGGGAAATGTACAAGGAGAAGAAAACCCTCAGCCAGGATGACAGTGCCGACCTGAAGTGCCAGCTTCAGTTTGCCAAAGAAGAGGCCTCGCTGATGCGCAAGAAAATGGCCAAGCTGTGCAGGGAGAAGGACGAGCTGGAGCAGGAGCTGCAGAAGTACAAGTCCCTCTATGGGGACGTGGACAGCCCCCTGCCCACTGGGGAGGCCGGCGGGCCCCCCAGCACGCGAGAGGCTGAGCTGAAGCTGCGGCTCAGGCTGGTGGAGGAGGAAGCCAACATCCTGGGCCGCAAGATTGTGGAGCTGGAGGTGGAGAACCGGGGCCTCAAGGCGGAGATGGAGGACCTGCAGGTCCAGCACAAGCAGGAGGGAGCTGGCCAGGACCGTGTGCCCCGTGCCCCGACCTCACCCTTCGGGGACTCCCTGGAATCCTGTGCCGAGCTGCGCCGGCACCTGCAGTTTGTGGAGGAGGAGGCCACACTGCTGCGGAGGTCCATCTCCGAGATCGCGGCCCACAACCAGCAGCTGACCCACGAGCTGAGCAAATTCAAGTTCGAGCCCTGCCCGGAGCCAGGGTGGCGCAGGGACAGCCTGGGGAAGGGCACCATGGCCCCGCTGCAGGAGGAACTGCGGTCAGCCAGGCTGCAGATCAGCAAGCTCAGCGGGAAGGTGCTCAAGCTGCAGAGCGAGAACCTGGCGATGCTGTCCAGTGCCCACCTCGGGCTGCAGGCCCCGAGCCCCCGTGACAGCGACGCCAACAGCGACACCGGCCAGAAGGAGAGTGACGTGGAGGACGGCCGCCTGCCCCAGCCCAAGCGGGAGGGCCCTGTGGGTGGGGAGAGCGACTCGGATGAGACGGTCGAGAAGACGTCAGGCTTCGGGAGCCGAAAGCCGTCGGAGGCCAGCGAGCCCTGCCTGGCGGAGCTTCGGGGGCCCAAGGACGCCGAGCACCTGGTGGCCCTGAAGCGCAAGGCCCAGCAGCTGGAGCGCACCATGGAGCACCTCATCACCGACACCGACAGTTTCCTCCGGAACTCACCTGGGCTCCAGGCTGAGGGCGAGAGGGCCCTCGGGGGCCAGGACGAGCCTCACCTGCTGGGGGCCATCAACAGGAAGATGAAGGCCTTCCGGAAGGAGCTGCAGGCCTTCCTGGAGCAGGTGGCCCGCCTCGGGGACAGCCTGTCAGCCCTGCCCCACCACACGGAGTCATCCAGCTTCCTGTCCACCGTGACCTCCATGCCCCGGGACTCCCCTGTTGGGAACCTGGGGAAGGAGCTGGGCCCCGACGTGCAGTCCAGAATGAGAGACCAGCAGGAGTGGCGGCTGGGGCCAGACCGAGGGGAGGACCACGACAGCGCGCACCTCCACACTGCACAGGAGCTGCACCGCCGGGCCGATGGGGACACCGGGAGCCACTGTCCAGGAGGCCAGAGCTGCTTCAGTCCCAAGATGGAGGAGGAGCACCTGTACGCACTGCGCTGGAAGGAGCTGGAGATGCAGAGCCTGGCGCTGCAGAGCACACTGCACACACGCACCTGGGGCGAGGAGCGGATGCTGCTGCAGCAGGAGCTGGGGGTGCTGAGGCAGAGCATCTTCCTCTTCTACCTCAAGCTGCGGTGGCTGCTGAAGCACTGGCGGCAGGCGAAGCAGGCAGGCGGCAGTGGGGAGGACGGCGCAGAGGGCGAGCATCCAGAGACCCTCCCCAGGCTCGGGGAGCTCGGAGTCCAGGGGTGCCTCCAGGCAGACGGGCTGGAGCACAGTGACGGTGACCGAGGCTGTGCCTTTCCGGTGGGGGAGGCTGCTCCATGCGCCCCAGTGCAGATCGGCGACCACGCATCGCGGCTGCAGACTGTGGACGGGGCGCCACTCCACAGGCAGGTGGTGGAGCACTGGCAGCTGTTCAGCACCCTCAAGGCCCTGCTGGAGGACTTCCGCTCCGAGCTGTGGGAGGACGAACTGGCCCGGCGGCGCCTGCAGCAGCAGTACGCCAGCGACAAGGCGGCCTGGGACGTGGAGTGGGCTGTGCTCAAGTGCCGCCTGCAGCAGCTGGAGGAGAAGACAGAGAAGAGCCTGGGTGAGCCCGACGCCGTGGTGGAGAGCAAGGGCGCACTGAAGAGGGAGCGGGAGGCGCACCAGAAGCTGCTGGCCGACAGCCACGGCCTGGTCCTGGACCTGCGCTGGCAGATGCACCACCGCGAGAAGAGTTGGAGGCGCGAGAAGATGGAGCTGCTCGAGCGCCTGGACCGAGAGCGGCGTGCTTGGGAGCAGCAGCAGCAGGAGCTGGCCTGGAGGATAGAGCAGTTGCAGAAAGAGAGCAGTCCCCAGAGAGGCGGCAGTTTCCCCTGTGATCAAAAAGGAGGCAACCTGCGCCCCTCTCCCCACCCCGGAGGAGCTCGCGGGTCGCGGCCTCTGTCTGCGTGGCACTGTGAGGTCACGGACTCTGCACCGCGTGAGGACCAGCCACTGTCCAAGCTGAAGGAGTCGGACAGGTGCTCGGCCAGCGAGAACCTCTACCTGGATGCCCTGTCCCTGGACACTGAGCAGGAGGAGCCGCCCCGACCCCGAGGGCCCAAGAGGACCTTCAGGAGCCACCTCCCCAAGGAAGAAGACAATCACAAGAGAAATCTTCAAAGGGCCATGTCTGTGTCCTCCATGTCCGAGTTCCAGCGCCTAATGGATGTGTCCCCCTTCCTGCCGGAGAGGGGCCTGGCGCCAGCCAGCAGCCGGGACGACGTCACCCCGCCCCTGTCCCCCGATGACCTGAAGTACATCGAGGAGTTCAACAGCGAGAGCTGGGGCTATGAGGTGGCCCCCAGGGCCGGCCTCGAGCGGCCCCCGGACTCCTGGGCAGACAGGACCGAGGGCGGGCGGGTGGGACAGGAGACCCCGGCAGAGCCCTTCCCCTCCTCCTCCTGGTACCTGACCACGAGTGTCACCATGCCCACGGACACCGTGAGCAGCCCCGAGCACTGCCGGAAGCAGGCGCTGCACAGCCACATCATTGCCGAGCCATCGAGGGTGCGTGTGCTGCACAGCCCGCCTGCCATCCGCAGGGTGGACAGCATTGGGCCCGCAGCAGGTGCCGAGGGCAGGGGCCGACTGGACCCTGAGGGCCCCTCACCCTCGGGCAGAGCCAGGGGGAGCCTTGCAGAGGCCAAGGAACCTCCCACACCGGGCAGGTGGCCCTGCACCCCTGCCAGACAGCCCCGAGACCATGTGGAGGGGGCCCTGTGCCCGCTCGACCTCCCTCTCTGTGCCCCACTGGGGCTCGCGTCCCCGCCGCACAGCCTGGACATGGCCAAGAACATGAGCGATGACACGAAGGCAGCGGCCTTCTCTGTCAGGAACGCCCTGTGCTCCGGGCCCCCAAGGCCGCGCGTCAAGGACATGGCCTGCCAGACAAACGGGTCCCGCGTGGCGGGGACGCAGGCCGTGCAGACAGTCAGCGTGGGCCTGCAGACTGAAGCCCTGCGCACCGGCACCATCACCAGCAGCCCCCACCGCTGCCTCACCCCAAAGGCGGGGGGCGGTGCCACTCCCGTGTCATCCCCGTCCCGGAGCCTTAGGAGCAGGCAGGTGGCCCCTGCCATCGAGAAGGTCCAGGCCAAGTTTGAGCGCACCTGCTGCTCCCCCAAGTACGGGTCCCCCAAGCTGCAGAGGAAGCCCCTCCCCAAAGCTGACCAGCCAGGCAGCAGGACCTCGGCAGGGGCCGGCCAGAAGGGGTTCAGCGAGTCGGCCTGGGCCCGCTCCACCACCACGCGGGAAAGCCCAGTGCACACCACCATCAACGACGGCCTCTCTAGCCTGTTCAGCATCATCGACCACAGCCCGGCCATGCAGGACGCCTTCCAGAAGGGTGCTCGGGCCGGGTCCCGGCCAGAGCTGGGCCCTGGCCAGGAAACGGGCCCGGGTTCCCAGGGAAGGTTGCCCAGCCCACTGGGCATGGGCACAGAGACGATGGGCAGGGAGGACAGGGGGGAGGGCACACCTGTGAGGCAGGACCTGTCCGCACCCCCTGGCTACACGCTGGCCGAGAGCGTGGCGCGGATCCTCAACAGGAAGCTGCTGGAGCACGCCTTAAAGGAGGACAGGAGGCAGGCTGCCCACGGCCTGGCGCTCAACAGCGACAGCCTTCCAGGAGAAGCGGCCTCAGCTGAGCCAGGGGCCATAGAGGAGCTGCCCTGTTCCGCCCGTGCCCCGTCCCTAGAGCCCTGCTTCTCCAGGCCCGAGAGACCAGCCAACCGCCGCCTGCCTTCCAGATGGGCCCCGCCTGACCCCACCGCCTCGGGGTGTCCGTCCCCCGGAAACGCGGCATCCCTGGAGGAGCTCGGGGACAGCGAGGATGGGCCCGAGGAGAAGCCGCAGCCGTGA
LOC101701736 chromosome unknown open reading frame, human C18orf42
Length: 210 bp Location: 14928821..14888182 Strand: ->XM_004853204.1 ATGGTGTTCGCCCCAGGTGAGAAGCCTGGCCGTGAGCCAGAGGAGGTGAAGCTGCAGATGGCCAGCAGGCAGATCGTGCAGACGGCCATCCTGCAGGCTGTGCAGCAGGTCTCCAGGGAGAGCCGGCGGGCGGACGACAGAGCCAGCGACAGCCGGGGTCGCCGCCAGCTGGGTGTGCGGGAGCTCACCAAGAAGCCCGACAAGAAGTAG
LOC101697505 myosin regulatory light polypeptide 9-like
Length: 519 bp Location: 13378727..13389716 Strand: +>XM_004853190.1 ATGTCGAGCAAAAGGGCGAAGACCAAGACCACGAAGAAGCGGCCTCAGCGCGCCACGTCCAACGTGTTCGCCATGTTCGACCAGTCGCAGATCCAGGAGTTCAAGGAGGCCTTCAACATGATCGACCAGAACCGAGATGGCTTCATCGACAAGGAGGACCTGCACGACATGCTGGCCTCGCTGGGGAAAAACCCAACTGATGAATACCTGGACGCCATGATGAACGAAGCCCCGGGCCCCATCAACTTCACCATGTTCCTCACCATGTTTGGCGAGAAGCTCAACGGCACAGACCCCGAGGACGTGATCAGGAACGCCTTCGCCTGCTTTGACGAGGAGGCCACAGGCACCATCCAGGAGGACTACCTGCGCGAGCTGCTCACCACCATGGGCGACCGCTTCACGGACGAGGAGGTGGACGAGCTGTACCGAGAGGCGCCCATCGACAAGAAGGGCAACTTCAACTACATCGAGTTCACGCGCATCCTCAAGCACGGGGCCAAGGACAAGGATGACTGA
Myom1 myomesin 1, transcript variant X1
Length: 4977 bp Location: 13355957..13239723 Strand: ->XM_004853187.1 ATGGCTCTGCCTTTTTATCAGAAGTCCCACCAGCACTATGACCTCAGCTACCGCGACAAAGACCTTCGCACCACCGTGAGCCATTACCAGCAGGAGAAGAAGCACTCTGCCATCTACACACACGGCTCCGCAGCCTACACCAGCCGCTCCTCTGCTGCCCACCGCCAGGAGTCCGAGGCTTTCAGCCAGGTGGCGGCCTCCTCCCAGCAGCAGGCCTCACACTACTCCCTAGGGGCTGAAGTCAGCCGCAAAGCCACCTCAGCCTATGACTACGGCTACTCCCACGGGCTTACCGGCTCCAGTTTGCTGCTAGAAGATTATTCATCCAGCTTGAGCCCCAAAACAAAGAGAGCAAAGCACAGTCTTCAATCCGGAGAGGAGAAGGAAAATCTGCCAGGAAACTACATGGTGCCTATTTATTCTGGGCGGCAAGTGCACGTCAGTGGAATTACAGACACAGAAGAAGAGAGAATTAAAGAGGCGGCTGCTTATATAGCCCAGAGAAATCTCCTTGCTAGTGAGGAAGAGATCAGGACGTCCAAACAACTCACAAGATCCAAACGGTCTGCCGTGTCCAAACAGGCCACATCTACCTTGGAGCAGGAGGAAACATTTGAAAAGTCAAGGGAAGCCACCATTCGAGAAAAGGCAGACCTCCTGTCCCTGAGAAAAACATTAGAAGAAACCCAGGCATATCATGGAAAGTTGAATGAGGACCATCTTCTCCACGCTCCGGAGTTCATCATTAAACCTCGCTCCCACACGGTGTGGGAGAAGGAGAGCGTGAAACTGCACTGCTCCGTGGCAGGCTGGCCAGAGCCCCGCGTCACATGGTATAAAAACCAGGTACCAATAAACGTCCATGCAAACCCTGGAAAGTACATTATTGAGAGTCGATATGGAATGCACACTTTGGAGATCAACACGTGTGACTTCGAAGACACAGCTCAGTACCGGGCCTCGGCCATGAACGTCAAAGGAGAGCTTTCAGCCTACGCATCAGTTGTGGTAAAGAGGTACAAGGGAGAGTTTGATGACCTGCACTTCCATGCCAGGGCTGCCTCCAGGCCCCTCAGCTTTGCTGTGACCCCTTATGGTTACGCATCCAAGTTTGAGATCCACTTTGATGACAAGTTTGACGTGTCCTTTGGGAGAGAGGGAGAGACAATGAGTCTGGGCTGTCGTGTGGTCATCACTCCTGAAATCAAGCATTTCCAGCCAGAAATCCAGTGGTACAGGAATGGGGCACCTGTTTCTCCATCCAAATGGGTGCAAACACAATGGAGCGGTGATCGGGCAACCCTGACATTTTCTCATCTCAACAAGGAAGATGAAGGCCTCTACATGATCTGCGTACGGATGGGAGAGTATTCTGAGCAATATGGTGCTTATGTCTTTGTCCGAGATGCGGACGCCGAGATCGAAGGCGCCCCCGCCGCACCCCTGGATGTGGAGAGCTTGGAAGCCAACAAAGACTACATCATCATCTCCTGGAAGCAGCCAGCTGTGGACGGCGGGAGCCCCGTCCTGGGCTACTTCATTGATAAGTGTGAGGTGGGCACGGATAGCTGGTCTCAGTGCAATGACACGCCTGTGAAGTTCGCTCGTTTTCCGGTCACTGGATTAATAGAGGGCCGTTCCTACATATTCCGGGTTCGAGCTGTGAATAAAAATGGAATAGGCCTACCCTCGCGAGTTTCCGAGCCTGTGGCTGCTCTGGATCCAGCAGAGAAAGCTAGACTTAAAAGTCGCCCGTCAGCACCCTGGACAGGACAGATCATTGTCACGGAAGAGGAGCCCTCAGCGGGCATTGTCCCCGGGCCCCCCACAGACCTCTCTGTCACTGAAGCCACCCGGAGCTACGTGGTCCTGAGCTGGAAGCCCCCTGGCCAGCGTGGCCATGAGGGCATTATGTACTTTGTGGAGAAGTGCGATGCGGGGACGGAAAACTGGCAGCGGGTGAACACGGAGCTCCCGGTGAAGTCTCCTCGCTTCGCGCTGTTTGATCTGGCGGAGGGCAAGTCCTACCGCTTCCGCGTGCGCTGCTCCAACTCGGCAGGGGTCGGCGAGCCCTCGGAGGCCACCGAGGCGACCATCGTGGGCGACAAACTTGATATCCCCCAGGCCCCTGGCAAAGTCGTCCCAAGCAGGAATACAGACACCTCCGTGGTGCTTTCTTGGGAGGAGTCCAAAGACGCCAAGGAGCTGGTGGGGTACTACATCGAAGCCAGCGTGGTGGGCTCCGGCATGTGGGAACCCTGCAACAACAACCCTGTGAAGGGCACACGGTTTACGTGCCACGGCTTGACGACCGGTCAGAGTTACATTTTCCGGGTCAGAGCAGTGAACGCAGCTGGACTTAGTGACTATTCCCAGGACTCAGAAGCTATCCAAGTCAAAGCTGCCATTGGGGGCGCAGCGTCTCCAGATGTGTGGCCCGACCTGCCCGCTGCTCCCGGTGGACTAACAGCCTCCCGGGGGGCTGCGCATGGAGCCTCCCCGAAAAGCTGTCTGAGAGATGCTTTGCCAGGTAGCAAACTTAACAAACCTGCACTGCCCAGCGCCCCTCACGACCTGGCCCGCACAGAAGCGAGTAAAGTAAGTGAGACAGTTGAGGAGGAGCCCACCCCAGCGCCCCGGAAGGCGGCTCCCAAGGGCCAGAGTGAGTCTGAGCCCCTGGAAAAGAAGAAGGACGCAGTAGCGGCACCGTCTCCACCCTGTGACATCACTTGCCTTGAAAGCTTTCGTGACTCCATGGTTCTCGGATGGAAGCAACCAGATAAGAGCGGAGGGGCAGAGATCACCGGCTATTACGTGAACTACCGGGAGGTAACCGATGGGGTGCCGGGCCCGTGGAGAGAAGCCAACGTCAAGGCAGTCAGTGAGGAGGCCTACAAGATTAGCAAGCTGAAGGAAAATGTGGTGTACCAGTTCCAAGTGGCGGCCATGAACATCGCCGGCCTGGGGGCGCCATCGGCCGTGAGCCAGTGCTTCAAGTGTGAGGAGTGGACCATCGCCGTGCCCGGACCACCGCACAGTCTCAGGTACAGCGAGGTCAGGAAGAGCTCCCTGGTCCTGCAGTGGAAGCCCCCAGTGCAATCTGGGAGGACCCCGGTCACTGGCTACTTTGTGGACCTGAAGGAGGCCACGGCCAAAGATGACCAATGGCGAGGACTCAACAAGGCTGCCATTAAAAACACATACCTCAAGGTGCAAGGCCTCCAGGAGGGTGTCAGCTACGTGTTCCGGGTCCGAGCCGTCAACCAGGCAGGCGTCGGGAAGCCGTCTGACCTCGCTGGCCCTGTCGTGGCAGAGACTCGTCCAGGAACCAAGGAGGTTGTTGTGAATGTGGATGATGATGGGATCATTTCGTTGAACTTCGAGTGTGATCAGATGACTCCAAATTCAGAATTCACCTGGTCTAAAGACTATGTGCGCACCGAGGATTCCCCGAGGGTGGATGTCGAAAGCAAAGGCAAAAAGACAAAACTGACCTTCAAAGATCCTGGGATGGATGACTTGGGCCTCTACTCCTGCGACGTGACAGATACCGATGGGATAGCGTCGAGCTACTTAATAGACGAGGACGAATTGAAACGTTTACTTGCTCTCAGCCAGGAACACAAGTTTCCAACTGTCCCAGCTAAGTCAGAGTTGGCAGTGGAAATTTTGGAGAAAGGTCAGGTCCGGTTTTGGATGCAGGCTGAGAAGCTGTCTGGTAATGCCAAAGTCAACTACATATTTAATGATAAGGAAATTTTTGAAGGACCGAAATACAAGATGCACATCGATCGCAACACTGGCATAATCGAGATGTTCATGGAGAAGCTGCAGGACGAGGATGAGGGGACGTACACTTTCCAGATTCAAGATGGAAAAGCGACAGGCCACTCCACGCTGGTGCTCATCGGAGACGTTTATAAAAAGCTCCAGAAAGAAGCTGAATTCCAGCGGCAAGAATGGATCAGGAAACAAGGCCCGCATTTTGCTGAGTATTTGAGCTGGGAAGTGACTGGTGAATGTAATGTACTGTTGAAATGCAAGGTGGCAAATATTAAGAAGGAGACTAACATCGTGTGGTACAAAGATGAGAGGGAGATATCCGTGGACGAAAAGCATGACTTCAAGGACGGCATATGCACCCTGCTTATAACAGAGTTTTCCAAGAAAGATGCTGGGTTTTACGAAGTCATCCTGAAAGATGACCGTGGGAAAGATAAAAGCAGACTGAAACTTGTGGATGAAGCCTTCCAAGAACTGATGACTGAGGTGTGCAGGAAGATCGCTTTGTCAGCCTCAGATCTGAAAATCCAGAGCACCGCCGAGGGCATCCGGCTATACTCTTTCGTCACTTACTACCTGGACGATTTGAAAGTCAACTGGTCCCACAATGGGACAGGTATTAAGTACACAGACAGAGTTAAGAGCGGGGTCACAGGTGAGCAGATCTGGCTACAAATCAATGAGCCCACCCCGAATGACAAAGGGAAGTACATAATGGAGCTCTTCGACGGCAAAACTGGGCACCAGCGGATGGTGGACCTTTCTGGACAAGCGTACGAAGAGGCCTATGCTGAATTCCAGAGGTTAAAACAAGCTGCCATTGCCGAGAAAAATCGCGCCCGGGTGCTGGGCGGGCTCCCTGATGTGGTCACCATTCAGGAGGGCAAGGCCCTCAATCTCACCTGCTCTGTGTGGGGCGACCCAGTGCCCGAGGTCTCCTGGCTGAAGAACGAGCGGCCGCTGGCCTCTGACGACCACTGCAACCTGCGCTTCGAGGCTGGGAAGACAGCCTACTTCACCATCTCGGGTGTGAGCACAGCCGACTCCGGCAAGTACGGGCTGGTGGTGAAGAACAAGTACGGCTCGGAGACCAGCGACTTCACCGTCAGCGTGTTCATCCCCGAGGAGGAGGCCCGGACAGCTGCAGCCGCACCTCAGAAGGGCGCCCCAAAAGGGGCCCCGAAGTCCAAGTGA
Snrpd1 small nuclear ribonucleoprotein D1 polypeptide 16kDa, transcript variant X1
>XM_004853170.1 ATGAAGCTCGTGAGATTTTTGATGAAACTGAGCCATGAAACTGTCACCATTGAATTGAAGAATGGAACACAGGTCCATGGAACAATCACAGGCGTAGATGTCAGCATGAACACACATCTGAAGGCGGTGAAGATGACCCTGAAGAACAGAGAGCCAGTGCAGCTGGAAACCTTGAGCATTCGCGGAAACAACATTCGCTATTTTATCCTGCCAGACAGCTTGCCTCTGGACACGCTACTTGTGGATGTTGAACCTAAGGTGAAATCTAAGAAGAGGGAAGCTGTTGCAGGAAGAGGCCGAGGCCGAGGCCGAGGCCGAGGGCGTGGCCGTGGCAGAGGAAGAGGAGGCCCTAGGCGGTAA
LOC101715001 uncharacterized LOC101715001
Length: 735 bp Location: 9803964..9802033 Strand: ->XM_004853165.1 ATGCCCGCTTTTGGGGAGCGAAGGATGCTCCAGCTGCTGCCCAGGCAGGTGGCGATGCCAGGCGGGACTGACACGGATGATGAAGACCCGGCTTCCCAAGCGAGCCAGTCCGGGGGGCTGAGTGCTCCTCGGCCTCGCACCTGCGCAGTTAGTCCCTGGCCCAGACCTGCTGCCGGGATGGCCTCGGTCTACACAGCTTTGCCCACCTTCCAGGTCGCCGGAGCAGAGCAGCCGAGAGCCCGGAGACGACCCCGCGCGGAGCTGGGGTTCGGTGCGGGTGCCAGACGCGTCCGCCTGGGTCTCCAGCCCTTCCGTGTGGGCGGCGCAGCCCCCGCCCCCTGCCCCATTGGCTGCCGCCCTGCGGCCCAAATAAATCAGCGGGGACAGGCCGCGCCAGGCCCGGCTGCCGAGGCAGAGCTCGGCCAGGGCCAGCGGGGCCCCAGCGGCCCCGGAGAGGCCGGAGGAGAGAGGAGGACCTCTGAAGAAAGAAAAACAAAAGCAAGGAAAAGAAAGGCGAGTCCGTCCACCTGGGGCTCCGGGACTCTCTCCAGCCTCCCTTGGGTTCTCCCGGCTTGGGGTGCGCCCTTCCCTCGCACCCCGGACTCTGCTGGCCTCCGCGCACGGCGGCGTCGGCTCGGAAAACGAGCCCCTGCCCGAGGACGTCGTCCCAGGGCCAGGGCCGACACCTCGCAAAAGGTGGATCCAAGAGGTCTGGCAGCCTGGTTTCTGTCCTAA
Tmem241 transmembrane protein 241, transcript variant X1
Length: 891 bp Location: 8706558..8814972 Strand: +>XM_004853159.1 ATGATCGCCCAGCGGTGCCTGGTCAGCCTCACCTTCTGTGCCTGCTACCTGGCTTCCTACCTTATGAACAAGTATGTCCTGTCTGTCCTGAAATTTACCTACCCCACATTGTTCCAAGGGTGGCAGGCGCTCCTGGGTGGCCTTTTGCTGCATGTGTCCTGGCGCCAGGGCTGGGTGGAGATCAACCGAGACTCCAGATCGGATGTGCTGACATGGCTCCCGGCCTCGGTGCTGTTTGTGGGTGTAATCTATGCAGGGTCCAGGGCCCTGTCCAGACTGGCCGTGCCTGTGTTTCTCATTCTGCACAACGCAGCGGAAGTCATCATCTGCGGGTACCAGAAGTGTTTTCGGAAAGAGAACATATCTTCTGCAAAGATCTGCAGTGCCCTCTTCCTCCTGGCCGCTGCGGGGTGCCTTCCCTTCAACGACCCCCAGTTTGATCCAGAGGGATATTTTTGGGCTGTAATTCACTTATTCTGTGTAGGGGTTTATAAAATACTACGCAAGGCCTGGAAACTCAGCACATTAAGTGATATTGACCAGCAGTACTTAAACTATATATTCAGTGTGGCACTCCTGGCTTTGGCGTCTCATCCCACAGGTGACCTCTTCAGCGTCCTGGACTTCCCGTTCCTGTATTTCTACAGATTCCACAGCAGCTGCTGTGCCAGTGGGGTTCTCGGGTTCCTGCTCATGCTGAGCACAGTGAAGCTGCAGAGCCTCATGGCCCCTGGGCAGTGTGCATCCTGGGTCTTCTTGGCTAAGGTCCTCACAGCTGGGCTGTCAGTGCTGCTCTTTGACGTGACCCTGACCAGCGCAACCTTGGGATGCCTCCTGCTGGGTGGGCTCGGAGAGGCCTTGCTGGTTTTCTCAGAGCACAAGGGCTGCTGA
Aqp4 aquaporin 4, transcript variant X2
Length: 807 bp Location: 5581184..5589720 Strand: +>XM_004853135.1 ATGAGTGATAGACCCGCAGCGAGGCGGTGGGGCAAGTGTGGACCCTTGTGTACCAGAGAGAACATCATGGTGGCTTTCAAAGGCGTCTGGACTCAAGCATTCTGGAAGGCAGTCACCGCAGAATTTCTGGCTATGCTTATCTTTGTCCTGCTCAGCCTGGGGTCCACCATCAACTGGGGTGGAATGGAAAAGCCCCTACCTGTCGACATGGTTCTCATCTCTCTCTGCTTTGGACTCAGCATTGCCACCATGGTGCAGTGCTTTGGCCACATCAGTGGAGGCCACATCAACCCTGCTGTGACAGTGGCCATGGTGTGCACCCGGAAGATCAGCATGGCCAAGTCTGTCTTCTACATTGTGGCCCAGTGCCTGGGGGCCATCATAGGAGCCGGGATTCTCTACTTGGTCACACCTCCCAGTGTGGTGGGGGGCCTGGGAGTCACCACGGTTCATGGAAATCTTACTGCTGGTCATGGTCTCCTGGTGGAGCTGATAATCACATTTCAGTTGGTGTTTACTATTTTTGCCAGCTGTGATTCCAAGCGGACTGATGTCACTGGTTCAATAGCTTTAGCAATTGGATTTTCGGTTGCAATTGGACATTTATTTGCAATCAATTACACTGGCGCCAGCATGAATCCTGCCAGATCCTTTGGACCTGCTGTTATCATGGGAAACTGGGAAAACCACTGGATGCTGAACTCAAACGTCGGCTTAAGGAAGCCTTCAGCAAAGCTGCCCAACAAACAAAAGGGAGTTACATGGAGGTGGAGGACAACAGGAGTCAGGTGGAAACCGAGGACTTGA
Rnf138 ring finger protein 138, E3 ubiquitin protein ligase, transcript variant X1
Length: 738 bp Location: 895052..860047 Strand: ->XM_004853109.1 ATGGCTGAAGAGCTCTCCGCGGCCACTTCCTACACCGAAGACGATTTCTACTGTCCCGTCTGTCAGGAGGTGCTCAAAACGCCCGTGCGCACCGCGGCCTGTCAGCACGTTTTCTGTAGAAAATGTTTCCTGACTGCAATGAGAGAAAGTGGAATACATTGTCCCTTGTGTCGTGGAAATGTGACTAGAAGAGAAAGAGCGTGTCCAGAACGGGCCTTAGATCTTGAAAATATCATGCGAAAGTTTTCTGGTAGCTGCAGATGCTGTGGGAAACAGATTAAGTTTTATCGTATGAGACATCATTACAAATCTTGTAAGAAGTATCAGGATGAATATGGAGTTTCATCTATCATTCCAAACTTTCAGATTTCTCAAGATTCTGTAGGGAACAGTAATAGGAGTGAAACATCCACATCTGATAATACAGACTCTTACCAAGAGAATACAAGTTCTTCTGGGCATCCCACCTTTAAGTGTCCCTTGTGTCAAGAGTCCAATTTTACCAGACAGCGCTTACTGGATCACTGTAATAGTAACCACCTATTTCAGATAGTACCTGTGACATGTCCTATTTGTGTGTCTCTTCCTTGGGGAGATCCTAGCCAGATTACTAGAAATTTCGTTAGTCATCTAAATCAAAGACATCAGTTTGATTATGGAGAATTTGTGAATCTTCAGCTAGATGAGGAAACCCAGTATCAAACTGCTGTTGAAGAATCTTTTCAAGTAAACATCTAA
Garem GRB2 associated, regulator of MAPK1, transcript variant X1
Length: 2628 bp Location: 501427..723592 Strand: +>XM_004853104.1 ATGGACCCGGTGCCCTTGCTGGGCTGCAGCCTCAAGGATGTGAAGTGGAGCTCGGTGGCCGTGCCGCTCGACCTGCTGGTCAGCACCTACCGGCTGCCCCAGATAGCGCGGCTGGACAGCGGAGAATGCATAGAAGGACTGCGGGAGAATGATTACCTTCTGATTCATTCATGTCGTCAGTGGACCACCATCACTGCCCATAGTCTGGAAGAGGGCCACTATGTCATTGGGCCAAAGATAGAGATCCCTGTTCATTATGCAGGGCAGTTCAAGCTGCTGGAACAAGACCGCGATATAAAGGAGCCTGTGCAATATTTCAACAGTGTAGAGGAGGTGGCAAAGGCATTTCCTGAGCGCGTGTACGTCATGGAGGAAATAACATTCAACGTGAAGGTTGCTTCTGGTGAATGCAATGAAGACACGGAGGTTTACAACATAACCCTGTGCACCGGGGATGAGCTCACCCTAATGGGACAGGCGGAAATCCTATATGCAAAGACTTTCAAGGAAAAGTCCCGGCTCAACACAATCTTCAAAAAGATTGGGAAACTCAATTCGATCAGCAAGCTGGGAAAAGGCAAAATGCCATGCCTCATTTGCATGAATCACCGGACCAACGAAAGCATCAGCCTTCCATTCCAGTGCAAGGGCAGATTTAGTACGCGGAGTCCCCTGGAGCTCCAGATGCAGGAGGGTGAGCACACCATCCGCAATATCGTGGAGAAAACCAGGCTGCCTGTGAACGTGACTGTGCCCAGCCCTCCACCCAGAAACCCGTACGACCTCCACTTTATCCGAGAGGGCCACCGCTACAAGTTTGTGAACATCCAGACCAAGACAGTGGTGGTTTGCTGTGTGCTGCGGAACAACAAGATCCTCCCCATGCACTTCCCTTTGCACTTGACTGTCCCCAAGTTCAGCCTCCCGGAACACCTGGTCAAGGGAGAGGTGTGGCCTGAAACCCTGGTCCATCACTGGCTGGGTATCTGCCAAGAACAGTTTGACATTGACGAGTATTCCCGGGCTGTCCGCGATGTGAAAACGGACTGGAATGAGGACTGCAAAAGCCCCAAAAAGAGCCGGTGCTCTGGCCACAACCACATGCCCAATTCCCTGAGCTACGCCCGCGATGAGCTCACCCAGTCCTTCCACCGGCTCTCCGTCTGTGTATATGGCAACAATCTCCATGGTAACAGCGAGGTGAACCTCCACGGCTGCAGGGACCTGGGAGGAGAGTGGGCTCCCTTTCCTCATGACATCCTGCCCTATCAGGACTCTGGTGACAGTGGGAGCGACTACCTTTTCCCGGAAGCTGGTGAAGAGTCAGCGGGCGTCCCAGGGAAGTCCGAACTTCCTTATGAGGAACTGTGGCTGGAGGAAGGCAAGCCCAGCTGCCAGCCTCTCACCCACTCACTGAGCGAGAAGAGCAGATGTGACCCCTTGAGAGGCTCTGTCCGCTCCAAATGTGCAACTTCGCCTCTTCCTGTCCCTGGGACTCCGGGAGCCACAATGAAGTCTTCAGAAATTGCCCTACCTCCGCCTCCAGTGCCTCCCAAATCTGAAGCTGTCAGGGAAGAATGCCGGCTCCTGAACGCCCCACCTGTTCCACCCCGAAGCGCAAAGCCTTTGTCCACAAGTCCCTCCATCCCTCCTCGCACAGTCAAGCCAGCGCGGCCACAGACTCGCTCTCCCAGCCCCACCTTGTCCTACTATTCTTCAGGGCTGCACAACATCAGCGTTACTAAAAGTGACACAAGCCCTTCTGAAAGTGCTCCGGTTTCCTGCTATCCGTGCAACCGAGTGAAAGCCGACTCTGTGGACCTGAAGTCCCCATGCGGAAGTCCTTCCGCGGAAGCTCTGTCCTCCCGGCTCTCGTGGCCTAACCATTATTCGGGAGCATCGGAGACCCAGACCAGGAGTGACTTCCTGCTGGATCCAAGCAGGAGTTACAGTTACCCCAGACAAAAGACACCCGGCACACCAAAGAGAAACTGCCCGGCACCTTTCGATTTTGATGGCTCAGAGCTCCTGAGCGGTGCCCTCACCACAGTCACTGCAGAATCTAGTGGCGGCGCCTCAGGTTGCCCCAAGTCAGCCAGCTACTCGCTGGGGAGCACAGAGAGCGCCCCTGCGGCAAGCGTGACCAAGCAGAGTGTCTCTTGCCCTGCCTTACCGCCCAGGGCCCCAAAGCCAGTGGAACAGGAAGCGGCCGCAGAAACGTCTCCTTTGCCTCTGAGAATTGATGGTGCTGAGGAGGACCCCAAGGCACGGTCACCAGACCTCTCCGAGGACCAGTATTTTGGTAAGAAGGGCGTGCAGGACATCTTCTCTGTCTCTTACCCTTTCTCCTCTCCGCTCCACCTCCAGCTAGTCCCCAGGTCTTGTGGCGATGGTTCCCCATGGCAGCCACCTGCGGACCTGTCAGGACTCTCTATAGAAGAAGTGTCCAAGTCACTACGGTTCATTGGTTTGTCCGAAGATGTCATATCCTTCTTCGTCACTGAAAAGATTGATGGGAATTTGCTTGTTCAACTAACAGAAGAAATCCTCTCAGAGGATTTCAAATTAAGCAAACTTCAAGTGAAGAAAATAAGGCAATTCATTAATGGCTGGAGGCCCAAAATATAG
Cidea cell death-inducing DFFA-like effector a, transcript variant X1
>XM_004853258.1 ATGGAGACTGCTCGGGACTACGCGGGAGCCCTGCTCAGGCCCCTGGCACTCGTGGGCTCCCAGACCAGGAAGGCCCTGCTCACGCCACTCGTGCAGCCCCCTCGCCCCTTCCGCGTCTCCAACTCGGATCGGAGCAGCCGCCGCGGGGTGATGGCCAGCAGCCTGCAGGAGCTCGTCGCCAAGGCCCTGGATGCGCTGGTCATTGCGGCGGGGCTGGTCACACTGGTGCTGGAGGAGGACGGCACCGTGGTGGACACGGAGGAATTCTTCCAGACCTTGGGGGACAACACACACTTCATGGTCCTGGAGGACGGGCAGAAGTGGACGCCAGCCAGCAGGTACGTGCCAGCCAGCCGGCTGCGCTCAGGCATCGCCAGGGTCACGCTGGACCTGTACAGGCTGCATCCCAAGGACTTCCTGGGCTGCCTGAGCATCAAGGCCACCCTGTACGAGATGTACTCCGTGTCTTATGACATCCGCTGCACCGGGCTTAAGGCTGTGCTGAGGAGCCTGCTGCGCCTCCTGTCCTATGCCGCGCAGGTGACAGGCCAGGTCCTGGTCTACGCCGGCTCCTGCACGCTGCGCCTGCTGGACGACGCTGCCTCACCACCCCCCGAGTGGCGGCTGGGCGACTGGCTCCGGTTCCTGCGCAGATAG
Dlgap1 discs, large (Drosophila) homolog-associated protein 1, transcript variant X1
>XM_004853197.1 ATGAAAGGGTTATCGGGCAGCCGCAGCCATCACCACGGGATCACCTGTGACTCGGCCTGTGACTCGCTGTCCCACCATTCGGACCGCAAGCCGTACCTGCTGAGCCCAGTGGAGCACCACCCCGCCGACCACCCTTACTACACACAGCGCAACTCCTTCCAGGCCGAGTGCAGAGGCCCCTTCAGCGACCCGCTGGCCAGTAGCACCTTCCCGCGCAGGCACTACGCCTCGCAGCAGGAGCTAAAGGACGAGTGCGCCCTGGTGCCACACACACTGGCCACCAAGGGGAACCGCATCCCTGCAAACCTGCTGGACCAGTTTGAGAGGCAGCTACCCCTCAACCGGGATGGCTACCACACTCTGCAGTACAAGCGGACCGCCGTGGAGCACCGCAGCGACAGCCCTGGGCGCATCCGGCATCTGGTCCACTCGGTCCAGAAACTCTTCACCAAGTCGCACTCTCTGGAGGGGCCATCTAAGGGCAGCGTCAATGGGGGCAAGGCCAGCCCTGACGAGACACAAACCGTGAGGTATGGCAAGCGCAGCAAAAGCAAGGAGAGGAGGGTGGAGCCCAAAACCCGGTCCAACGTCACACCCACCTCCACCTCCTCACCGGGTTGGTGGAGTTCTGATGACAACCTCGATGGCGATATGTGCATCTATCACGCACCCTCAGGTGTGATGACCATGGGCAGGTGCCCCGACCGCTCGACCTCCCAGTACTTCATGGAGGCCTACAATACCATCAGCGAGCAGGCCGTGAAGGCCTCCCGAAGTAACAATGATGTCAAGTGCTCCACCTGTGCCAATCTGCCCGTGAACCTGGACGCCCCACTCCTGAAGAAGAGTGCCTGGTCCTCCACCCTCACCGTGAGTCGGGCCCGGGAGGTTTACCAGAAAGCCTCTGTGAACATGGACCAGGCCATGGTGAAGTCTGAGTCATGTCAACAAGAACGCTCTTGCCAGTACTTGCAGGTTCCTCAGGATGACTGGACAGGCTACACCCCTCGAGGGAAAGATGATGAAATTCCTTGCCGAAGAATGCGCAGTGGCAGCTATATCAAGGCCATGGGGGACGAAGACAGCGGAGATTCAGACACAAGTCCTAAGCCTTCTCCCAAAGTTGCTGCCCGGAGAGAGAGCTATCTCAAGGCCACCCAGCCATCCCTCACTGAGCTCACCACACTCAAGATCTCCAATGAACACTCGCCCAAGCTCCAGATCCGAAGTCACAGCTACCTGAGGGCGGTGAGCGAAGTCTCCATCAACAGGAGCTTGGACAGCCTGGACCCCGCGGGCCTGCTCACGTCGCCCAAGTTCCGCTCCAGGAACGAGAGCTACATGCGCGCCATGAGCACCATCAGCCAGGTGAGCGAGATGGAGGTGAACGGGCAGTTCGAGTCCGTGTGTGAGTCGGTGTTCAGCGAGCTGGAGTCGCAGGCGGTGGAGGCTCTGGACCTGCCCGTGCCTGGTTGCTTCCGCATGCGGAGCCACAGCTACGTGCGCGCCATCGAGAAGGGCTGCTCGCAGGACGACGAGTGCGTGTCGCTGCGCTCGGTCTCGCCGCCGCGCACGGCCACCACGGTGCGCACCATCCAGAGCAGCACGGGTGTCATAAAACTGAGTTCAGCAGTGGAAGTGTCATCTTGCATTACAACCTATAAGAAGACACCACCTCCAGTCCCACCCAGAACCACCACGAAACCTTTCATTTCTATCACAGCGCAGAGTAGCACCGAGTCCGCGCAGGACGCCTACATGGACGGGCAGGGCCAGCGCGGTGACATAGTCAGCCAGTCGGGGCTCAGCAACTCCACCGAAAGCCTGGACAGCATGAAGGCCCTGACCGCCGCCATCGAGGCCGCCAATGCGCAGGTCCACGGCCCCGCCAGCCAGCACGCGGCCAGCGCGCCCGCGGCCGAGGACCGCCGGAAGGAGCCCAGGAAGAGCCGCTGCCTGTCCGTCGGGATACAGGTGGATGATGCTGAAGAACCAGATAAGACGGGAGAGAATAAAGCTCCCAGTAAGTTCCAGTCTGTGGGAGTCCAAGTAGAAGAGGAGAAGTGCTTCCGCAGGTTCACTCGATCCAACAGCGTGACGACAGCCGTCCAGGCGGACCTGGACTTCCACGATAACCTGGAAAATTCCCTGGAATCCATAGAGGACAATTCGTGTCCCGGCCCGATGGCCAGGCAGTTCTCCCGGGACGCCAGCACCTCCACGGTCAGCATCCAAGGCTCGGGCAACCACTACCACGCCTGCGCGGCCGACGACGACTTCGACGTGGATTTTGACCCGTCGATTCTGCCGCCTCCGGATCCCTGGATCGACTCGATCACGGAGGACCCGCTGGAGGCCGTGCAGCGGTCCGTGTGCCATCGGGACGGCCACTGGTTCCTGAAGCTGCTGCAGGCGGAGCGCGACCGCATGGAGGGCTGGTGCCAGCAAATGGAGCGGGAGGAGCGCGAGAACAGCCTGCCCGAGGACATTCTAGGGAAAATCCGAACCGCAGTGGGCAGTGCCCAACTTCTTATGGCCCAGAAATTCTACCAGTTCAGAGAACTGTGTGAAGAAAACCTGAATCCTAATGCCCATCCGAGACCCACCTCCCAGGACCTGGCGGGGTTTTGGGACATGCTGCAGTTGTCCATAGAAAACATTAGTATGAAATTTGATGAACTCCATCAGTTGAAGGCCAATAATTGGAAACAGACGGATCCTCTTGACAAGAAGGAGAGGAGGGCCCCTCCTCCAGTGCCCAAGAAGCCGGCGAGGGGCCCCGCGCCGCCGCTGACCCGGGAGCGCTCGCTGGAGAGCTCGCAGCGCCAGGACGCCCGCAAGCGCCTGCTGGCCGCCAAGCGCGCCGCGTCGGTCCGCCAGAGCTCGGCCACCGAGAGCGCGGAGAGCATCGAGATCTACATCCCCGAGGCGCAGACCCGGCTCTGA
Esco1 establishment of sister chromatid cohesion N-acetyltransferase 1, transcript variant X1
>XM_004853172.1 ATGTCCATTCCAGAGAAATCAAAAGAAAATTCCTCTGGCGTTGTTAAAGAAAGTGAAGATAAGAATTCAGAAATAGAAATTCAAGGTTCTCAAAACAGTCCAATCAAAAAATCAGATTCAAAGGAAGCTGTGAAGTCATTGGTTAAGTCTTCCAGTGAAAGTAACATAAATCAGCCTGAATTGGGAACACGCATGAGTACAAGGTCATCAAAGGCATCTTCCAATGATAAAAAAGCTACTAAATCTATTTGTAAAAATATGGTAACTGTGAAAGGACATTCACAACAAGAATCAATAAAAAGAAAATTATGTCAGAAAAAATTAGATGAAACCCCTAAAGCAAATGAGCAGCTTAACCGGAGATCACAAAGACTACAACAGTTAACAGAATGCTCAACAAGGTCTTTGCGCAGTAGAGACATTCAGCGTCAAGTTCAAGCAGTTAAACAGAGTTTGCCACCAACCAGAAAAGAGCATTGTAACAGTATTCAAAGTAAATCTAATAAAACAAGTAAAAAACATGTGAAAAGAAAAGTACTAGAAATAAAGTCTCATTCTAAAGAGGATGAAAATTCAGTCATTAATGAAGTAATAAATTCTCCGAAAGGAAAAAAACGCAAAGTAGAGGATCACACAGCTAACACTTGTAGTTCTCAGTCCATACAAGGGCCTGAAAAATGTCTTCAGAAAACTACTAGAAAAGAAGAAACAAAACCAGTGCCTGTCAATTCTGAGATAAAAAGATCAAAAGTGGCTACTTCAGTGGTTTCTAAAAAGGATGAGTTGAAGAAGTCATTTTATACACAAGTGAATACTAGCACAAAATCCCAAAAAAGTCCACTGCCTTCAGTGCCTGAACAAAGTGTTGAGGAGTTGGAGCAAGCAGGAAAGAGCAAAAGAGGTAGTATTCTCCAGCTCTGTGAAGAAATTGCTGGTGAAATTGAGTCGGATACTGTAGAGGTGAAAAAAGAATCTTCCCAAATAGAAAGTGCAAAGGAAGAGATACCCACAGAAATAAAATTGGAAGAGGCAGATGTTGACAGACAAATACTTCATCAGAAGGAAACAGGTCAGGATGTGCAATGTAATCGCTTCTTCCCCAGCAGAAAAACAAAGCCCATGAAGTGTATACTAAATGGAATAAACAGCTCAACTAAGAAGAACTCCAACTGGACTAAAATTAAACTCTCAAAATTTAACTCTGTGCAGCAAAATAAGTCGGACTCTCAAGTTCACCCTAAATTGGGCTTACTACGAACTGGTTTTTCACCACCAGTTTTAGAAATACATCATCCAGTGACTCAGAATACATTTTTAGGGACAAAACAACATGATACAAATGTAACTTGCCAACAGGAAAAAATGAAAGAAATTACATCTGAAGAAGTTAAAATTAATGATGTTAGAGTTGAAATTACTAAAACCACAAAAAGGGCACCTGAAAATTGTCATTTGGATAATCTGATAAATCCTTCTCCTGACCTACCATTGGATAATCAGAGGAAACCTACCTTTGACTCAACACCAGATAAGAATTTCAGCTTATGTTTGGAATCCAAGCTGGAAAACAATCTAGTAGAAAACACCACTGCTGTTTCAACTCCGCTCAGTCAAACAAAAATTGATACAGGAGAAAGTAAATTTTCAGGTTCAATTCCCAAACAGCACAGTATACTCAATAACCAAACATCTAAGGAGAGTGATAACAGGGAAAATCATTCTTGGCTTAAATGTAGTTCCCATTTGGAGATAACAATTCCAAAAGATTTGAAACTAAAAGAAGCAGAGAAATCTGATGAAAAACAGTTAGTCATAGATGCTGGACAAAAAAGACTTGGAGCAGTGTCCTGTAATGTTTGTGGGATGCTCTACACAGCTTCAAATCCAGAAGATGAGACCCAGCACCTGCTTTTTCACAACCAGTTTATAAGTGCTGTCAAGTACGTGGGCTGGAAAAAAGAGAGGATTCTGGCTGAATACCCTGATGGCAGGATAATAATGGTTCTTCCTGAAGACCCTAAGTATGCTCTGAAGAAGGTTGACGAGATTAGAGAGATGGTTGATAATGATTTAGGTTTCCAGCAGGCTCCGCTAATGTGCTATTCCAGAACTAAAACCCTTCTCTTTATTTCTAATGACAAAAAAGTAGTTGGCTGCTTAATTGCAGAACATATCCAATGGGGCTACAGAGTCATAGAAGAGAAACTTCCCGTTATTGGGTCAGAAGAAGAAAAAGTCAGATTTGAAAGGCAAAAAGCTTGGTGCTGCTCAACATTACCAGAGCCTGCAATATGTGGGATCAGCCGGATATGGGTGTTCAGCATGATGCGCCGCCAAAAGATAGCATCTCGCATGATCGAATGCCTGAGGAGTAACTTTATATATGGCTCATATTTGAATAAAGAAGAAATTGCTTTCTCAGATCCCACTCCTGATGGAAAACTGTTTGCAACACAGTACTGTGGCACGGGGCAGTTTCTGGTATATAACTTTATTAATGGACAGAATACCACCTAA
Impa2 inositol(myo)-1(or 4)-monophosphatase 2, transcript variant X2
>XM_004853257.1 ATGGAGGCGGGCGGCCCGGCTGTGGTGAGCCAGTGGGACGAGTGCTTCCAGGCGGCGGTGCAGGTGGCCCAGCGAGCGGGACAGGTCATCAGAAAAGCCTTCACAGAGGAAAAACATGTCTCGACAAAGACATCTGCGGCAGATCTTGTGACAGAGACGGACTGCCTCGTGGAACATCTGATCATTTCTGAGCTGCGAAAGCAGTTTCCTTCACACAGGTTCATCTCCGAGGAGGCCACGGCCGCCGGGGCCAAGTGTGAGCTCACCTCCAGCCCGACCTGGGTCATCGACCCCATCGATGGAACCTGCAACTTCGTGCACGGGTTCCCCAACGTGGCGGTCAGCATTGGATTTGCTGTTCATCAAGAGCTGGAGTTCGGCGTGGTTCACCACTGCATGGAGGAGCGGCTGTACATGGCCCGTCGGGGCCGCGGCGCCTTCTGCAACACCCAGCGGCTGTGCGCCTCGAGGGAGACAGATCTCTCCAAGGCTCTGATCCTGACCGAAATTGGCTCCAAGCGTGACCCTGCCACGCTGAAGCTGCTCCTCAGCAACATGGAGCAGCTGCTGCTCGCCAAGGCCCATGGGGTCCGAGTCATCGGCAGCTCCACCTTGGCACTCTGCCACCTGGCCGCCGGAGCCGCCGACGCCTATTACCAGTTTGGCCTGCACTGCTGGGACCTGGCGGCAGCCACGGTCATCATCAGAGAAGCAGGTGGCATCGTGATGGACACAACAGGTGGGCCCCTTAACCTCATGGCTCGGAGAGTGGTTGCTGCAGGCACCCAGAAGATGGCCACACTCATCGCCCAGGCCTTGCAGCCGATCAGCTGTGGACAGGATGACCAGGCGTGA
Cep76 centrosomal protein 76kDa, transcript variant X1
>XM_004853272.1 ATGTCGCTGCCTCCGGAGAAAGCCTCGGAGCTGAAGCAGCTCATCCAGCAGCAGCTGAGCAAGATGGATGTCCACGGCAGAATACGGGAGGTCCTGGCCGAGACCATCCGGGAAGAGCTGGGGCCAGACCAGCAACACCTGTCAACAGAAGATTTGATCAAAGCTCTTAGACGTCGAGGAATCATTGATGATGTGATGAAAGAACTTAATTTTGTTACCGATAATGTTGAGCAAGAACTCTCTTCCTCTCCAAAACAGCCTGTTGGTTTTGATAAACAGTCAACATTTAAAAAAACTAATATTGATCCAACACGGAGGTATCTTTACCTTCAGGTTCTGGGTGGAAAAGCTTTCTTGGAACATCTTCAAGAACCTGAGCCTTTACCAGGACAAGTTTGTTCAACTTTTACTTTATGTTTACATTATCGGAACCAGCGTTTTCGTTCCAAACCTGTTCCGTGTGCCTGCGAACCAGATTTTCATGATGGCTTTTTACTTGAAGTACACAGAGAAAACTTAGGTGATGGGACTAGAATGGCTGACCCAACAACAATGTTATCAATAAGTGACCCAGTTCACATGGTGCTAATCAAGACAGATATTTTTGGGGAGACCACTTTAGTAGCCTCTTATTTTCTAGAATGGCGATCAGTTTTGGGCTCAGAAGATGGAGTGACCAGTCTGACAGTGGAACTCATGGGTGTAGGCACGGAATCAAAAGTTTCTGTGGGAATTTTAAATATAAAATTTGAAATGTACCCACCACTCAGTCAAACACTATCTCAAGAAGTAGTGAACACCCAGCTTGCTTTGGAACGTCAGAAGACTGCAGAGAAAGAACGGTTGTTTCTTGTGTATGCTAAGCAGTGGTGGAGAGAATATTTGCAAATTCGACCCTCACACAATTCACGACTGGTCAAGATTTTTGCACAGGATGAGAATGGCATAAACAGGCCAGTCTGTTCCTATGTGAAGCCACTTGGAGCTGGACGGCTGCTGGACACCCCAAGGCAGGCAGCAAGATTTGTGAATGTGCTGGGGTATGAGCGGGCCCCTGTGATCGGAGGAGGAGGTAAACAGGAGCAGTGGTGCACTCTGCTGGCCTTTCTCTGTAGGAACAAGGGTGACTGTGAGGACCATGCTAATCTCCTGTGCAGCCTGCTGCTCGGCTACGGCCTGGAAGCCTTTGTCTGTGTCGGGACGAAGGCCAAAGGGGTGCCACACGCCTGGGTCATGACCTGTGGGACGGACGGCACCGTCACCTTCTGGGAGAGTCTAACAGGACACAGGTACATCCACAAACCTGCCAGTCCTGATGAGTCTCCACTTGCTGAGCAGCCCAAACCGCTGTACCCGTATCGAACAATTGGTTGTGTTTTCAATCATCACATGTTCCTGGGGAATTGCCAGCCCTCTGATGCTGTAGAAGCCTGTGTGTTTGATCTGAGTGATGAATCCAAATGGAAGCCCATGAGTGAAGAAGCAATCAAGTCTGTGTGTGCTCCTGGAGCTACAACCTCTCTCCCGCCCTTCCCACCACTGTGTGCGTCCACAGTGGACGCATCGGTGACTAGTAACGAAATTGAAATGCAGCTGAGGCTCCTGGTGTCTGAGCACAGGAAGGATCTGGGCCTCACTACCGTGTGGGAAGATCAGCTTTCTTATCTTTTGTCGCCAGCCCTGGCCTCCTATGAATTTGAGCGCACAACGAGCATATCTGCAGGAAATGAGGAGTTTCAGGACGCCATCAGGAGGGCTGTGCCTGACGGGCACACATTTAAGGGCTTCCCCATCCACTTCGTGTACAGAAATGCAAGGCGTGCATTTGCCACGTGTCTTCGGTCCCCGTTTTGTGAAGAAATAATCTGTTGCCGTGGAGACCAAGTGCGACTGGCAGTGCGTGTCCGAGTGTTCACTTACCCTGAGTCGGCCTGTGCTGTTTGGATCATGTTTGCTTGTAAATATCGCTCTGTGTTGTAG
Soga2 SOGA family member 2, transcript variant X2
>XM_004853222.1 ATGGAGACGCTGAGCGGCCCCGCGGGCGGCGCCCCGGACGCCAAGCCGCAGCCGCCCGGCGCCCGCCACCCGCTCCTCCTGCGCCCGCCGGCCGAGCGCAGGCGGCTGCACCGCGAGCCCTCGCCCGCCCGCCCCGCAACCTGGGCCCCGGGCCCCGCGCCCGCCGCTTTGCGCGCCCCGGTTCTCGCGGGCCGCCCGCCGTCGTCCTCGGGGCCCCCTGCCCAGCCCGGCAGCCTTTCCCGGCGCAGCACCGGCGTCCCGGGCGCGAAGGACAAGCCGCCGCCGGGCTTCGGGACCAGGACTGCGAGCGGCGCCAAGGCCGCCCTGGGAGCCCGCAAGGCGGCGCGCGCGGTGCCCAACGAGCCGCTGCCCCGCGCCGCGAAGCCGCCGGGGCCCGTGCCGCCCGGAGCCGCCGCCAAGGCCCACAGGGCTAAACGCGAACCCGGGGCGGCCCCCTCCCGCGCCCTTGCCTCCCCGAGCCCCACCGCCCGCGCCCCCAACGCGCGCCTCGCCGGGGCCCCGGGTGCGCGCGCGGGCCACACAGACAGCAGCTCTGATCTCTCCGACTGCGCCTCTGAGCCGCCCGCCGCCGGCAGCGACGCCGAGTCCGGCACCGGCTCCAGCGACCGCGAGCCCGCGCGGGGGGCGCCGCCCGGCAGCCCCGAGACCCTCGCGCTCCTCGCCGCGCCCGCCGCCGGCCTCGGGGGCCGCAGCAGCCCTGGCGGGGTCCCCCCAGGGTCTCCGGGGCGCGGCGCGGTGGACGATGGCGAGGGGCGCGTGCCGCCCGAGCGAGCGGTCCCGGGGACCCCACAGGAGTCCGGCCCGGGCCTGCAGCCGCGGCTCGGGCCGAGCTTGGAGGAGGAGGAGCTGCTTCGGGAGATGGAGGAGCTGCGCTCAGAGAACGACTACCTCAAGGATGAGCTGGATGAACTCCGTGCCGAGATGGAGGAGATGAGAGACAGCTATTTGGAGGAAGACGTGTACCAGCTGCAGGAACTTCGGCGAGAGCTGGACCGAGCTAACAAAAACTGCCGCATCCTGCAGTACCGACTCCGGAAGGCCGAGCAGAAGAGCCTGAAAGTAGCAGAGACCGGGCAGGTGGACGGCGAGCTTATCAGGAGTCTGGAGCAGGACCTGAAGGTAGCCAAAGACGTGTCTGTGCGGCTGCACCATGAGCTAGAGACTGTGGAGGAGAAGCGGACTAGAGCTGAGGATGAGAACGAGACGCTGCGGCAGCAGGTGATCGAGGTGGAGATAGCCAGGCAGGCCCTGCAGAACGAGCTGGAAAGGCAGAAGGAGAGTTTCCTGAAGAGAAGAGGCAGTCGGGAAATGTACAAGGAGAAGAAAACCCTCAGCCAGGATGACAGTGCCGACCTGAAGTGCCAGCTTCAGTTTGCCAAAGAAGAGGCCTCGCTGATGCGCAAGAAAATGGCCAAGCTGTGCAGGGAGAAGGACGAGCTGGAGCAGGAGCTGCAGAAGTACAAGTCCCTCTATGGGGACGTGGACAGCCCCCTGCCCACTGGGGAGGCCGGCGGGCCCCCCAGCACGCGAGAGGCTGAGCTGAAGCTGCGGCTCAGGCTGGTGGAGGAGGAAGCCAACATCCTGGGCCGCAAGATTGTGGAGCTGGAGGTGGAGAACCGGGGCCTCAAGGCGGAGATGGAGGACCTGCAGGTCCAGCACAAGCAGGAGGGAGCTGGCCAGGACCGTGTGCCCCGTGCCCCGACCTCACCCTTCGGGGACTCCCTGGAATCCTGTGCCGAGCTGCGCCGGCACCTGCAGTTTGTGGAGGAGGAGGCCACACTGCTGCGGAGGTCCATCTCCGAGATCGCGGCCCACAACCAGCAGCTGACCCACGAGCTGAGCAAATTCAAGTTCGAGCCCTGCCCGGAGCCAGGGTGGCGCAGGGACAGCCTGGGGAAGGGCACCATGGCCCCGCTGCAGGAGGAACTGCGGTCAGCCAGGCTGCAGATCAGCAAGCTCAGCGGGAAGGTGCTCAAGCTGCAGAGCGAGAACCTGGCGATGCTGTCCAGTGCCCACCTCGGGCTGCAGGCCCCGAGCCCCCGTGACAGCGACGCCAACAGCGACACCGGCCAGAAGGAGAGTGACGTGGAGGACGGCCGCCTGCCCCAGCCCAAGCGGGAGGGCCCTGTGGGTGGGGAGAGCGACTCGGATGAGACGGTCGAGAAGACGTCAGGCTTCGGGAGCCGAAAGCCGTCGGAGGCCAGCGAGCCCTGCCTGGCGGAGCTTCGGGGGCCCAAGGACGCCGAGCACCTGGTGGCCCTGAAGCGCAAGGCCCAGCAGCTGGAGCGCACCATGGAGCACCTCATCACCGACACCGACAGTTTCCTCCGGAACTCACCTGGGCTCCAGGCTGAGGGCGAGAGGGCCCTCGGGGGCCAGGACGAGCCTCACCTGCTGGGGGCCATCAACAGGAAGATGAAGGCCTTCCGGAAGGAGCTGCAGGCCTTCCTGGAGCAGGTGGCCCGCCTCGGGGACAGCCTGTCAGCCCTGCCCCACCACACGGAGTCATCCAGCTTCCTGTCCACCGTGACCTCCATGCCCCGGGACTCCCCTGTTGGGAACCTGGGGAAGGAGCTGGGCCCCGACGTGCAGTCCAGAATGAGAGACCAGCAGGAGTGGCGGCTGGGGCCAGACCGAGGGGAGGACCACGACAGCGCGCACCTCCACACTGCACAGGAGCTGCACCGCCGGGCCGATGGGGACACCGGGAGCCACTGTCCAGGAGGCCAGAGCTGCTTCAGTCCCAAGATGGAGGAGGAGCACCTGTACGCACTGCGCTGGAAGGAGCTGGAGATGCAGAGCCTGGCGCTGCAGAGCACACTGCACACACGCACCTGGGGCGAGGAGCGGATGCTGCTGCAGCAGGAGCTGGGGGTGCTGAGGCAGAGCATCTTCCTCTTCTACCTCAAGCTGCGGTGGCTGCTGAAGCACTGGCGGCAGGCGAAGCAGGCAGGCGGCAGTGGGGAGGACGGCGCAGAGGGCGAGCATCCAGAGACCCTCCCCAGGCTCGGGGAGCTCGGAGTCCAGGGGTGCCTCCAGGCAGACGGGCTGGAGCACAGTGACGGTGACCGAGGCTGTGCCTTTCCGGTGGGGGAGGCTGCTCCATGCGCCCCAGTGCAGATCGGCGACCACGCATCGCGGCTGCAGACTGTGGACGGGGCGCCACTCCACAGGCAGGTGGTGGAGCACTGGCAGCTGTTCAGCACCCTCAAGGCCCTGCTGGAGGACTTCCGCTCCGAGCTGTGGGAGGACGAACTGGCCCGGCGGCGCCTGCAGCAGCAGTACGCCAGCGACAAGGCGGCCTGGGACGTGGAGTGGGCTGTGCTCAAGTGCCGCCTGCAGCAGCTGGAGGAGAAGACAGAGAAGAGCCTGGGTGAGCCCGACGCCGTGGTGGAGAGCAAGGGCGCACTGAAGAGGGAGCGGGAGGCGCACCAGAAGCTGCTGGCCGACAGCCACGGCCTGGTCCTGGACCTGCGCTGGCAGATGCACCACCGCGAGAAGAGTTGGAGGCGCGAGAAGATGGAGCTGCTCGAGCGCCTGGACCGAGAGCGGCGTGCTTGGGAGCAGCAGCAGCAGGAGCTGGCCTGGAGGATAGAGCAGTTGCAGAAAGAGAGCAGTCCCCAGAGAGGCGGCAGTTTCCCCTGTGATCAAAAAGGAGGCAACCTGCGCCCCTCTCCCCACCCCGGAGGAGCTCGCGGGTCGCGGCCTCTGTCTGCGTGGCACTGTGAGGTCACGGACTCTGCACCGCGTGAGGACCAGCCACTGTCCAAGCTGAAGGAGTCGGACAGGTGCTCGGCCAGCGAGAACCTCTACCTGGATGCCCTGTCCCTGGACACTGAGCAGGAGGAGCCGCCCCGACCCCGAGGGCCCAAGAGGACCTTCAGGAGCCACCTCCCCAAGGAAGAAGACAATCACAAGAGAAATCTTCAAAGGGCCATGTCTGTGTCCTCCATGTCCGAGTTCCAGCGCCTAATGGATGTGTCCCCCTTCCTGCCGGAGAGGGGCCTGGCGCCAGCCAGCAGCCGGGACGACGTCACCCCGCCCCTGTCCCCCGATGACCTGAAGTACATCGAGGAGTTCAACAGCGAGAGCTGGGGCTATGAGGTGGCCCCCAGGGCCGGCCTCGAGCGGCCCCCGGACTCCTGGGCAGACAGGACCGAGGGCGGGCGGGTGGGACAGGAGACCCCGGCAGAGCCCTTCCCCTCCTCCTCCTGGTACCTGACCACGAGTGTCACCATGCCCACGGACACCGTGAGCAGCCCCGAGCACTGCCGGAAGCAGGCGCTGCACAGCCACATCATTGCCGAGCCATCGAGGGTGCGTGTGCTGCACAGCCCGCCTGCCATCCGCAGGGTGGACAGCATTGGGCCCGCAGCAGGTGCCGAGGGCAGGGGCCGACTGGACCCTGAGGGCCCCTCACCCTCGGGCAGAGCCAGGGGGAGCCTTGCAGAGGCCAAGGAACCTCCCACACCGGGCAGGTGGCCCTGCACCCCTGCCAGACAGCCCCGAGACCATGTGGAGGGGGCCCTGTGCCCGCTCGACCTCCCTCTCTGTGCCCCACTGGGGCTCGCGTCCCCGCCGCACAGCCTGGACATGGCCAAGAACATGAGCGATGACACGAAGGCAGCGGCCTTCTCTGTCAGGAACGCCCTGTGCTCCGGGCCCCCAAGGCCGCGCGTCAAGGACATGGCCTGCCAGACAAACGGGTCCCGCGTGGCGGGGACGCAGGCCGTGCAGACAGTCAGCGTGGGCCTGCAGACTGAAGCCCTGCGCACCGGCACCATCACCAGCAGCCCCCACCGCTGCCTCACCCCAAAGGCGGGGGGCGGTGCCACTCCCGTGTCATCCCCGTCCCGGAGCCTTAGGAGCAGGCAGGTGGCCCCTGCCATCGAGAAGGTCCAGGCCAAGTTTGAGCGCACCTGCTGCTCCCCCAAGTACGGGTCCCCCAAGCTGCAGAGGAAGCCCCTCCCCAAAGCTGACCAGCCAGGCAGCAGGACCTCGGCAGGGGCCGGCCAGAAGGGGTTCAGCGAGTCGGCCTGGGCCCGCTCCACCACCACGCGGGAAAGCCCAGTGCACACCACCATCAACGACGGCCTCTCTAGCCTGTTCAGCATCATCGACCACAGCCCGGCCATGCAGGACGCCTTCCAGAAGGGTGCTCGGGCCGGGTCCCGGCCAGAGCTGGGCCCTGGCCAGGAAACGGGCCCGGGTTCCCAGGGAAGGTTGCCCAGCCCACTGGGCATGGGCACAGAGACGATGGGCAGGGAGGACAGGGGGGAGGGCACACCTGTGAGGCAGGACCTGTCCGCACCCCCTGGCTACACGCTGGCCGAGAGCGTGGCGCGGATCCTCAACAGGAAGCTGCTGGAGCACGCCTTAAAGGAGGACAGGAGGCAGGCTGCCCACGGCCTGGCGCTCAACAGCGACAGCCTTCCAGGAGAAGCGGCCTCAGCTGAGCCAGGGGCCATAGAGAACCCACCCGTCTTACTAACTGCCCCGTGGGGACTCTAG
Adcyap1 adenylate cyclase activating polypeptide 1 (pituitary), transcript variant X2
>XM_004853182.1 ATGACCATGTGCAGCGGAGCGAGGCTGGCCCTGCTGGTCTATGGGATAATAATGCACAGCGGCGTCTACGGCTCACCTGCCGCCGCCGGACTCCGGTTCCCTGCGATCAGGTCGGAGGACGAGGCGTACGAAGAAGACGGAAACCCGCCGCAGGAGCTGCTGGCCGAGGGCCGGCCAGGCGCAGGGAGCCCCGCCTCCGCGCCGCAGGACGCCCACGACCTCTACGACCCGGCGGAGCGCAGAGACGTCGCCCGGGGAATGCTCAGCAAGGCCTACCGCAGAGTGCTGGATCAGCTGTCTGCCAGGAAGTACCTGCAGTTCCTGGCGGCCAGGGGCATGGGTGGGGACCTAGGCGGCGTCGCGGAGGACGACTCGGAGACGCTCTCCAAGCGCCACTCGGACGGAATCTTCACGGACAGCTACAGCCGCTACCGGAAACAAATGGCTGTCAAGAAATACTTGGCGGCCGTCCTGGGGAAAAGGTATAAACAAAGGGTTAAAAACAAAGGACGCCGAATAGCGTTTTTGTAG
Taf4b TAF4b RNA polymerase II, TATA box binding protein (TBP)-associated factor, 105kDa
>XM_004853137.1 ATGCCGGCGGGCCTCACCGAGCCGGCCGGCGCCGCTCCACCCGCGGTCGGGAGCGCCTCGGGGACCGTGGCCCTGGCCCCCGCCGCGGCGCCGCCAGTCCGCGTGGAGAGCACCCCGCTGGCCCTGGGCGCCGTGACTAAGTCGCCCGGCGCTGTCTGCGTGGAGTCCCCGGCGCCCCAGCCCCTGCGGTCCCCCGTGGGGACCCTGGTAACCAAAGTAGCTCCGGTCTGTGCTCTTCCAAAACTCAGCGGCGGCCCTAGGCTGCCCGCTCCTCAGATCCTCACCGTGAAAGCCCCCGCCACCGCGACAATCCAGCTGCCTGCCAATCTGCAGCTTCCTCCAGGAACAGTTCTGATCAAAAGTAACAGTGGTCAGTTGATGTTGGTATCTCCTCAGCAAGGGGTGACGAGAGCAGACATGGCAAGTACTGTAACTTCCAGGCCAGCAGTACCAGTGAACACGCAAACTGTCAAAATCTGTACGGTGACGAATTCTAGCTCACAGGTAATGAAGAACGTGGCAGTGGCACCTGTTAAAACATTGGCACAAAGAGGAGCTACTGTGGCCCCCGCTGTTCCAAACCCTTCCTCAGTACAGCCTGTGTCTCTGCCGGCCAGTGTGGCTTCGGTTACGGCTGTGAAGCCGGTGAAGCCTTCGGTGTTGGGAGCATCGTCTGCACCCTCAAGTGTGCCCAGTTCTAGAGCAGACAGCTTGGCCGCCCTGCAGACTGACCTCTCGCCGGCAATGGTAGAAAATGTGAAGAAATGTACAAACTTTCTGGCAATGTTAATAAAGCTAGCGTGCCATGGGTCACAGTCTCCAGAGATGGGGAAGAGCGTGAAGGAGCTGGTGGAGCAACTATTGGATGCAAAAATTGAAGTGGAAGAGTTTACTAAGAAACTGTATATCGAACTCAAGTCGTCACCTCAGCCTCACCTAGTTCCTTTCCTTAAGAAAAGTGTGATTGTTTTACGACAACTTCTGCCTGACTCCCAGAGCTTTATTCAGCAGTGTGTTCAGGAGACTTCCAGCGAGTTTGTCGTTGGCACCCGTACCCCAACAGTAACCGCTCCTCCTGTAGTGACAGCTGCAAGTTCCTCAGCCCAAACTGAAAAGCCCATCATCGTTTCTGCAGCAACAGTGCCCACACCTGTGTCTGTGCAAACTCTGAATCCACTTGCTGGGCTGGAGGGAGCAAAAACTGGCCTTGTGACCCTGCATTCAATGGGCCCGGCTGCTGTGCCAGGAAGAACAACAGCTGGAACTATTTTGCTCCAGACCTCAAAGCCACTCTTTACATCGGTACCGAATGCAGTAACAACAGTCTCGCTTCAGCCTGAGAAGCCAGTTGTGTCTGGATCAGCAGTAACACTGGCTCTTCCATCAGTAACTTTTGGAGAAAAGTCGCCTGCAAGTCTTTGTCTTCCGCCTGTGAAAACTGTTGCTGCTTCTGCAGGGACCATGCTGGACAAGCCTGTCATTCGCACTCCGGTCCAAATCAAACTTGGCCAGCCAGGTGCCCTCCTGTCACAGCCAGTTGGGATTCCGTCAGGTGTCAAAGTCAAGCAACTAGTAGTCCAGCAGCCATCAGGAGGCCTTGGAAAACAAGGGACCACAGCTTCTCATCCCTCAGCATTGACCATTCAGAAATCTGCAGAGAAGATTCCAGTGAACACTGTAGTACCTACTAGTAAGTGTCCTCCAGCTTCCATTCTAAAGCAAATTACTTTGCCTGGAAATAAAATTTTGTCGCTTCAAGCATCTACTGCTATTCAGAAAAATAAAATAAAAGAGAACGGAACAACAGGCTTCAGAGATGAAGATGACATCAATGATGTGACTTCCATGGCAGGGGTCAACCTCAGTGAAGAAAATGCCTGCATTGTAGCAACAAACTCTGAATTAGTTGGCACACTCATTCAGTCATGCAAAGATGAGCCGTTTCTTTTTATTGGAGCTCTACAAAAGAGAATCGTAGACATTGGTAAAAAGCATGACATTACGGAGTTTAACTCTGATGCTGTGAACTTGATCTCCCATGCAACACAGGAGAGATTACGAGGCCTTCTAGAAAAACTGACTACAATTGCTCAGCATCGAATGACTACTTACAAGGCAAGTGAAAATTACATCTTGTCTAGTGATACTAAGTCACAGCTCAAATTTTTTGAAAAGCTGGATCAATTGGAGAAACACAGGAAGGATTTAGAAGAAAGAGAAATGTTACTTAAGGCTGCCAAGAGTCGTTCCAATAAAGAAGATCCAGAACAGCTGAGATTAAAGCAGAAAGCCAAAGAGTTGCAGCAGTTGGAGCTCGCCCAGATACAGCACAGAGATGCTAATCTCACAGCTCTTGCAGCTATTGGACCAAGGAAGAAGAGACCGCTGGAACCTGGAAGTGAGGGTTCAAAAGACAGTCTTGCTTGTGGGACATCCAGCCTGACAGCCACCAAACAGTTGCTCCGTCCAAGAATCACGAGAATCTGCCTCAGGGACCTGATATTCTGTATGGAACAGGAAAGGGAGATGAAGTACTCTCGAGCTCTGTACCTTGCCCTTCTGAAGTGA
Rnf138 ring finger protein 138, E3 ubiquitin protein ligase, transcript variant X2
>XM_004853110.1 ATGGCTGAAGAGCTCTCCGCGGCCACTTCCTACACCGAAGACGATTTCTACTGTCCCGTCTGTCAGGAGGTGCTCAAAACGCCCGTGCGCACCGCGGCCTGTCAGCACGTTTTCTGTAGAAAATGTTTCCTGACTGCAATGAGAGAAAGTGGAATACATTGTCCCTTGTGTCGTGGAAATGTGACTAGAAGAGAAAGAGCGTGTCCAGAACGGGCCTTAGATCTTGAAAATATCATGCGAAAGTTTTCTGGTAGCTGCAGATGCTGTGGGAAACAGATTAAGTTTTATCGTATGAGACATCATTACAAATCTTGTAAGAAGTATCAGGATGAATATGGAGTTTCATCTATCATTCCAAACTTTCAGATTTCTCAAGATTCTGTAGGGAACAGTAATAGGAGTGAAACATCCACATCTGATAATACAGACTCTTACCAAGAGAATACAAGTTCTTCTGGGCATCCCACCTTTAAGTGTCCCTTGTGTCAAGAGTCCAATTTTACCAGACAGCGCTTACTGGATCACTGTAATAGTAACCACCTATTTCAGATAGTACCTGTGACATGTCCTATTTGTGTGTCTCTTCCTTGGGGAGATCCTAGCCAGATTACTAGAAATTTCGTTAGTCATCTAAATCAAAGACATCAGTTTGATTATGGAGAATTTGTGAATCTTCAGCTAGATGAGGAAACCCAGTATCAAACTGCTGTTGAAGAATCTTTTCAAGTAAACATCTAA
Myl12b myosin, light chain 12B, regulatory, transcript variant X2
>XM_004853192.1 ATGTCGAGCAAAAAAGCAAAGACCAAGACCACGAAGAAGCGGCCTCAGCGCGCCACGTCCAACGTGTTCGCCATGTTCGACCAGTCGCAGATCCAGGAGTTCAAGGAGGCCTTCAACATGATCGACCAGAACCGAGATGGCTTCATCGACAAGGAGGACCTGCACGACATGCTGGCCTCGCTGGGGAAGAACCCCACCGATGCCTACCTGGACGCCATGATGAATGAGGCCCCGGGCCCCATCAACTTCACCATGTTCCTCACCATGTTTGGCGAGAAGCTCAACGGCACGGACCCTGAGGATGTGATCAGGAACGCCTTCGCCTGCTTCGACGAGGAGGCCACAGGCACCATCCAGGAGGACTACCTGCGCGAGCTGCTCACCACCATGGGCGACCGCTTCACGGACGAGGAGGTGGACGAGCTGTACCGAGAGGCGCCCATCGACAAGAAGGGCAACTTCAACTACATCGAGTTCACGCGCATCCTCAAGCACGGGGCCAAGGACAAGGATGACTGA
LOC101698113 PREDICTED: Heterocephalus glaber uncharacterized LOC101698113 (LOC101698113), misc_RNA.
Length: 979 bp>XR_205605.1 AGCAAATATTGTACCAGAGACTGCTATCTGTCTACCAAATTCCATTCTGTCCTTCCTTTATGGCAAATACAGATTAAGTGCGATGTGAACAACATTGCTGGATACAGTTTCTGCTTCACTTGTTTGAAGATAAGCAAAAAACAAAGCCTGAGGTTGGAATGCTCAATAGTATGGAAGAAAAGGAGTAGCAGGGTGCCTGGAGGTGGGCAGAAGTGGGCACAGGCCAAGCCAGTCTTGGTGCAGACCCTGAATTTTGTTTTGCAAGAAACATCTGAGCCAAGTAATGGTCTCCTGTGAGGTTTGTTTCCTGGAGGAGTCCAGAAAGAAGCTGTTCTCTGCTGAACCATGGGTCAAGGAAAATGTTGACAGAACTATCAACTCTCAATTTCCTAAACTTGGCAGGGTTCAAACTTCCAAGACAAAGCTGATAGTGTCAAGGTAAACATGAAGGTTTTTAATATGGATACCAATCTCTAGGAAGGGCATTAGGAAATCCCTCAGTTATCACGGTGAAACCACCATCACCACTCAGCTAAGGTGCAAGTAGCAATCAAGTCATTCCTGATTATCTCAACCAGCAATCAAGACTTTCCCCTGGGATTGGTCTGACCTCGGAAGACAATGAGGCAAGTCCCAACAAGGAGGAGCCATCTGCTCGGACGGCAGGGTAGAGAATATGACATAGACTGGTGCACAAAAGCCATTTAAGCAGAACACTAGGGAGAGACCTTGAGGTGACTTCCACAGCCCAGTTGCTGTTTCTTTTTTGAGAAAGTGAGCAATGGCCCGAAGCTAGAAATGCAAAATGCATCCCTCAATATAAGTATTCATCACACACCTAAATCTTACATTTTATAGTTGTCAGACATTTTAGCTTTCACAAAGTCTGAGTTTAGATTTTGAAAGGTTTTTCACAACTTTGAAGTGCATTTAGTAAATGTATAGTCTAATTTTATCCAAACTATTAGCTCCATACCTA
LOC101701984 PREDICTED: Heterocephalus glaber uncharacterized LOC101701984 (LOC101701984), misc_RNA.
Length: 529 bp>XR_205606.1 ACTTTTCATTTTTCAAAAAGTGTGTCACCTGGAGAGCCGTGCATGGTTGAACTAAAATGTTAAAGTTGGAAAGCTCCTTTGCAGGTATCTGGCCCTTCACCATCACTTCACATGCGACGAAAGGAGAGCAGGCTGCCCAAGATGAAAAGCCCCACGTGGACAGGGGAGAGGCCACAAGATGCAGGACTAGAAGAAAGGTTTCCAAAGCCCTGGAGAGAGTACCTTATGATCTAAGAGCCCTGCTCAAAGGACAGAAAAAAAAAGGGCAGAGACATGATCAGACATCTGTTTACCAATGTTCCCGGCAGCATTATTCACAATAGACAAAAGGCTATAATCCTAATGGTTGGGACCAAAGACACCCAGGGTGGGTCTTCCCTCTTCAGTAAGTCCATCATCCACACCCAGAACTGTGTCAAACCAATCAGTGAACTACTGCAATATCACACACCTATGATCCAGTCACTTCTAAAAGCACCACTTATGAGCATATGAAGCATTGGGAGGACATCTACATATAAGCCACAGC
LOC101704577 PREDICTED: Heterocephalus glaber protein SSXT-like (LOC101704577), transcript variant X4, misc_RNA.
Length: 3104 bp>XR_205609.1 GCGTCTCTCCCCCAGTTTGCAGTTCACCCGGAGCACTCGGGACTTGCCCACGGTGGTGACGGCGGCGACATGTCTGTGGCGTTCGCGGCCCCGAGGCAGCGAGGCAAGGGGGAGATCACGCCCGCTGCGATTCAGAAGATGTTGGATGAAAATAACCATCTTATTCAGTGTATAATGGACTATCAGAATAAAGGAAAGACTTCAGAGTGTTCTCAGTATCAGCAGATGTTGCATACAAACTTGGTATACCTTGCTACAATAGCAGACTCTAATCAAAATATGCAGTCTCTTTTACCAGCTCCACCCACACAGAATATGCCTATGGGTCCCGGAGTGATGAATCAGAGCGGCCCCCCCCCTCCACGTACACACAACATGCCTTCAGATGGAATGGTAGGTGGGGGTCCGCCTGCACCACACATGCAGAACCAGATGAACGGCCAGATGCCTGGACCTAACCATATGCCTATGCAAGGACCTGGACCCAATCAACTCAATATGACGAACAGTTCCATAAATATGCCTTCAAGTAGCCATGGATCCATGGGTGGTTACAACCATTCTGTGCCCTCCTCGCAGAGCATGCCGGTGCAGAACCAGATGACAATGAGTCAGGGGCAACCAATGGGAAACTATGGCCCTAGGCCAAACATGAATATGCAGCCCAACCAAGGTCCAATGATACATCAGCAGCCACCTTCTCAACAGTACAATATGCCACAGGGAGGTGGGCAACACTACCAAGGACAGCAGCCACCAATGGGGATGATAGGTCAGGTTAACCAAGGCAATCATATGATGGGTCAGAGACAGATTCCTCCCTATAGACCACCTCAACAGGGCCCACCGCAGCAGTACTCAGGTCAGGAGGACTATTATGGGGACCAATACAGTCATGGTGGACAAGGTCCTCCAGAAGGCATGAACCAGCAATATTACCCTGATGGTCATAATGATTACGGTTATCAGCAACCGTCGTATCCTGAACAAGGCTACGATAGGCCTTATGAGGATTCCTCACAACATTACTACGAAGGAGGAAACTCACAGTATGGCCAACAGCAAGATGCTTACCAAGGACCACCTCCACAGCAAGGGTATCCTCCCCAGCAGCAGCAGTACCCGGGGCAGCAGGGCTATCCAGGACAGCAGCAGGGCTATGGTCCTTCACAGGGTGGTCCAGGTCCTCAGTATCCTAACTATCCACAAGGACAAGGTCAGCAGTATGGGGGATACAGACCAACACAGCCTGGACCACCCCAGCCCCCCCAGCAGAGGCCTTATGGGTATGACCAGGGACAGTATGGAAATTACCAACAGTGAAAGAGTACTTACATTCCAATAGCCAGTACTTCCTAGCAGCCGTATTGTCACCTCAGCACTGTGGCCACCTCCCTGTGAAGAGATCCTTCCATTCCATCTAGTTTTTTGGAAAAATCTTGTGGATAAGTGGCTGTTTCATCTTCAAGCAGCCTTTGTGGTTTAGTTGTAAAAGGCTTTAGTAGCTCAAAAATACTCTTGATTTCACATTTCTACTCTAGATGGCAACATTGGACAGAAAATGCAATGACATAACCAATTTGCAGTGATTTTGGAACTGTGTTTCAAATGGACTGTTACCGACTGAAAGGTGTGAACAGCTTTGTATGTTTATGAAGGTTAAGGGAATTTAATACTTTTCCACAGATTCTTTTGTAAGGGGAAGAGGGAAATGTACACTTTTTACAGCAGCAATATTTTGTATATTATGTTTATTTCATGTGTTGAATATGCAAGGCGGTACACTACGCACTGGACAGAATCAGAAATCCTCTTTTAATGTGGACTGAAGTGTGGTAGATGACCTGATTGTTTTGGTCTCAAAATGGTGTACAATGAAGCTAACGGTGAGGGAGGAAGACAAAAGCACACCGTATGTCCACTGTCGTGTTCTTACAGAGGAAACTTAAATCCCTTATATCTGTCAGGTAATGAAGGGCACTGTGATACTGTTTTGAGTAAAAATACATTTTTTTAAAAGCCTTCCCGTTTTGTGGATTAAAACCTTTTTTATAAAGATCATTTATAATACTGTTTTAAAATGTAAGGCAATAAGAATTACTTTATGTTGGATCTGAAGAATCTTTAGTAACAGTTTCATGTAAACAGAGTGGTACTCCTTTCCTCAAATAGCAATAACTGAAGACAAAAGTGTTCGTTTTATCTTGTTTGAGTAATCAGAAGGCTTAGTAAATAATGTCAAAAAACATTTTATAAAGAATATTAAAGAAGAGTCAACATTGATCCAGTAATTTTATTTTTTAACATCAGCAGGATAATTGGTTTGTATAATAAGATAGTAATTCAGGAGACTTTACAAACCTTTATTTCATCTTTCTTAACTGGAAATAATGCCATTATAAAGGAACGTTCTTATATTTTTTTCCCTTTTTTTTATGTTGGTTAATATAACCCAAAGAAATGGTTAGTATAATGCTTATTGATGAGGTTTATTCTGATCTATATTAAAAGCGTAAAGGTTGCATTTTAGATCTCCTTGTTTATAAGTATGAGATATTTACTCATTATTTGAGACTGTCCTGTGCCTGATTATTTAGTTAAATTCAGGGATAATGCATTGGGCAGGAAAGCATGCATTGAGAAATTTCTAACCACAGTTATTTAAGCATAATCTGAGAACATCTAGCCCAAAGGTAAGTTGCTGTTTTCATCACAGTTGCCTGTCCCCAGGGAATTAGATGTAGTCTTTGTAATTGAATTGGTTTTTCCCACTTCTAAGTGGAAACAAAACAGAAGGGGTGCCATAAATTTGTATAAGCAGAACATAGTGTTCTCTACATACTGTAATCAAAAGTGGGAATTTTAATGTGTCTCTGTGTGTGTATGAGAGAGAGAGAGAATGTGTGTGTCCTAAGGTCAGAATATGGTCTTTTTCAACTTGGTCAGTAGAAAATGGACATCAAGTTTGAACAGATAAAGCATGGACAGCCTTATTGTGATTGAAATGCTGAGAGATTTCTGTGCCAATTTTCCACCACTGTGTACTTCGTTGCTATTTAAAACTGTATCAACTCTAACGAAGAATAAATTATTTGTGATTTTAA
LOC101704577 PREDICTED: Heterocephalus glaber protein SSXT-like (LOC101704577), transcript variant X5, misc_RNA.
Length: 3010 bp>XR_205610.1 CGTCTCTCCCCCAGTTTGCAGTTCACCCGGAGCACTCGGGACTTGCCCACGGTGGTGACGGCGGCGACATGTCTGTGGCGTTCGCGGCCCCGAGGCAGCGAGGCAAGGGGGAGATCACGCCCGCTGCGATTCAGAAGATGTTGGATGAAAATAACCATCTTATTCAGTGTATAATGGACTATCAGAATAAAGGAAAGACTTCAGAGTGTTCTCAGTATCAGCAGATGTTGCATACAAACTTGGTATACCTTGCTACAATAGCAGACTCTAATCAAAATATGCAGTCTCTTTTACCAGCTCCACCCACACAGAATATGCCTATGGGTCCCGGAGTGATGAATCAGAGCGGCCCCCCCCCTCCACGTACACACAACATGCCTTCAGATGGAATGGTAGGTGGGGGTCCGCCTGCACCACACATGCAGAACCAGATGAACGGCCAGATGCCTGGACCTAACCATATGCCTATGCAAGGACCTGGACCCAATCAACTCAATATGACGAACAGTTCCATAAATATGCCTTCAAGTAGCCATGGATCCATGGGTGGTTACAACCATTCTGTGCCCTCCTCGCAGAGCATGCCGGTGCAGAACCAGATGACAATGAGTCAGGGGCAACCAATGGGAAACTATGGCCCTAGGCCAAACATGAATATGCAGCCCAACCAAGGTCCAATGATACATCAGCAGCCACCTTCTCAACAGTACAATATGCCACAGGGAGGTGGGCAACACTACCAAGGACAGCAGCCACCAATGGGGATGATAGGTCAGGTTAACCAAGGCAATCATATGATGGGTCAGAGACAGATTCCTCCCTATAGACCACCTCAACAGGGCCCACCGCAGCAGTACTCAGGTCAGGAGGACTATTATGGGGACCAATACAGTCATGGTGGACAAGGTCCTCCAGAAGGCATGAACCAGCAATATTACCCTGATGGAAACTCACAGTATGGCCAACAGCAAGATGCTTACCAAGGACCACCTCCACAGCAAGGGTATCCTCCCCAGCAGCAGCAGTACCCGGGGCAGCAGGGCTATCCAGGACAGCAGCAGGGCTATGGTCCTTCACAGGGTGGTCCAGGTCCTCAGTATCCTAACTATCCACAAGGACAAGGTCAGCAGTATGGGGGATACAGACCAACACAGCCTGGACCACCCCAGCCCCCCCAGCAGAGGCCTTATGGGTATGACCAGGGACAGTATGGAAATTACCAACAGTGAAAGAGTACTTACATTCCAATAGCCAGTACTTCCTAGCAGCCGTATTGTCACCTCAGCACTGTGGCCACCTCCCTGTGAAGAGATCCTTCCATTCCATCTAGTTTTTTGGAAAAATCTTGTGGATAAGTGGCTGTTTCATCTTCAAGCAGCCTTTGTGGTTTAGTTGTAAAAGGCTTTAGTAGCTCAAAAATACTCTTGATTTCACATTTCTACTCTAGATGGCAACATTGGACAGAAAATGCAATGACATAACCAATTTGCAGTGATTTTGGAACTGTGTTTCAAATGGACTGTTACCGACTGAAAGGTGTGAACAGCTTTGTATGTTTATGAAGGTTAAGGGAATTTAATACTTTTCCACAGATTCTTTTGTAAGGGGAAGAGGGAAATGTACACTTTTTACAGCAGCAATATTTTGTATATTATGTTTATTTCATGTGTTGAATATGCAAGGCGGTACACTACGCACTGGACAGAATCAGAAATCCTCTTTTAATGTGGACTGAAGTGTGGTAGATGACCTGATTGTTTTGGTCTCAAAATGGTGTACAATGAAGCTAACGGTGAGGGAGGAAGACAAAAGCACACCGTATGTCCACTGTCGTGTTCTTACAGAGGAAACTTAAATCCCTTATATCTGTCAGGTAATGAAGGGCACTGTGATACTGTTTTGAGTAAAAATACATTTTTTTAAAAGCCTTCCCGTTTTGTGGATTAAAACCTTTTTTATAAAGATCATTTATAATACTGTTTTAAAATGTAAGGCAATAAGAATTACTTTATGTTGGATCTGAAGAATCTTTAGTAACAGTTTCATGTAAACAGAGTGGTACTCCTTTCCTCAAATAGCAATAACTGAAGACAAAAGTGTTCGTTTTATCTTGTTTGAGTAATCAGAAGGCTTAGTAAATAATGTCAAAAAACATTTTATAAAGAATATTAAAGAAGAGTCAACATTGATCCAGTAATTTTATTTTTTAACATCAGCAGGATAATTGGTTTGTATAATAAGATAGTAATTCAGGAGACTTTACAAACCTTTATTTCATCTTTCTTAACTGGAAATAATGCCATTATAAAGGAACGTTCTTATATTTTTTTCCCTTTTTTTTATGTTGGTTAATATAACCCAAAGAAATGGTTAGTATAATGCTTATTGATGAGGTTTATTCTGATCTATATTAAAAGCGTAAAGGTTGCATTTTAGATCTCCTTGTTTATAAGTATGAGATATTTACTCATTATTTGAGACTGTCCTGTGCCTGATTATTTAGTTAAATTCAGGGATAATGCATTGGGCAGGAAAGCATGCATTGAGAAATTTCTAACCACAGTTATTTAAGCATAATCTGAGAACATCTAGCCCAAAGGTAAGTTGCTGTTTTCATCACAGTTGCCTGTCCCCAGGGAATTAGATGTAGTCTTTGTAATTGAATTGGTTTTTCCCACTTCTAAGTGGAAACAAAACAGAAGGGGTGCCATAAATTTGTATAAGCAGAACATAGTGTTCTCTACATACTGTAATCAAAAGTGGGAATTTTAATGTGTCTCTGTGTGTGTATGAGAGAGAGAGAGAATGTGTGTGTCCTAAGGTCAGAATATGGTCTTTTTCAACTTGGTCAGTAGAAAATGGACATCAAGTTTGAACAGATAAAGCATGGACAGCCTTATTGTGATTGAAATGCTGAGAGATTTCTGTGCCAATTTTCCACCACTGTGTACTTCGTTGCTATTTAAAACTGTATCAACTCTAACGAAGAATAAATTATTTGTGATTTTAA
LOC101704577 PREDICTED: Heterocephalus glaber protein SSXT-like (LOC101704577), transcript variant X2, misc_RNA.
Length: 3082 bp>XR_205607.1 TTATCAGGTGCCTCTAGGTGAGAGGCACTAGAGAATTGGAGGCGCCAATAATAAGCAAGTAGAATCATGGACCAAATTCCTAAAGATTTTAACATACAGCAGGGATGACAGACCTCAAGCCATCACACAAGCATGTAGAAATTGCAGCTGTCGGAAAGGCTATGGAGGAGGGGCATCTGGGACTGGGAGCAGACTGTGTGGGCCTTGACTCTCTGTGGTCAGGGGAGGATTTCTGGTGGTCAAGGTTGGAAGGACGTTTGAGGAAAAATTCACATACACCACCCACACAGAATATGCCTATGGGTCCCGGAGTGATGAATCAGAGCGGCCCCCCCCCTCCACGTACACACAACATGCCTTCAGATGGAATGGTAGGTGGGGGTCCGCCTGCACCACACATGCAGAACCAGATGAACGGCCAGATGCCTGGACCTAACCATATGCCTATGCAAGGACCTGGACCCAATCAACTCAATATGACGAACAGTTCCATAAATATGCCTTCAAGTAGCCATGGATCCATGGGTGGTTACAACCATTCTGTGCCCTCCTCGCAGAGCATGCCGGTGCAGAACCAGATGACAATGAGTCAGGGGCAACCAATGGGAAACTATGGCCCTAGGCCAAACATGAATATGCAGCCCAACCAAGGTCCAATGATACATCAGCAGCCACCTTCTCAACAGTACAATATGCCACAGGGAGGTGGGCAACACTACCAAGGACAGCAGCCACCAATGGGGATGATAGGTCAGGTTAACCAAGGCAATCATATGATGGGTCAGAGACAGATTCCTCCCTATAGACCACCTCAACAGGGCCCACCGCAGCAGTACTCAGGTCAGGAGGACTATTATGGGGACCAATACAGTCATGGTGGACAAGGTCCTCCAGAAGGCATGAACCAGCAATATTACCCTGATGGTCATAATGATTACGGTTATCAGCAACCGTCGTATCCTGAACAAGGCTACGATAGGCCTTATGAGGATTCCTCACAACATTACTACGAAGGAGGAAACTCACAGTATGGCCAACAGCAAGATGCTTACCAAGGACCACCTCCACAGCAAGGGTATCCTCCCCAGCAGCAGCAGTACCCGGGGCAGCAGGGCTATCCAGGACAGCAGCAGGGCTATGGTCCTTCACAGGGTGGTCCAGGTCCTCAGTATCCTAACTATCCACAAGGACAAGGTCAGCAGTATGGGGGATACAGACCAACACAGCCTGGACCACCCCAGCCCCCCCAGCAGAGGCCTTATGGGTATGACCAGGGACAGTATGGAAATTACCAACAGTGAAAGAGTACTTACATTCCAATAGCCAGTACTTCCTAGCAGCCGTATTGTCACCTCAGCACTGTGGCCACCTCCCTGTGAAGAGATCCTTCCATTCCATCTAGTTTTTTGGAAAAATCTTGTGGATAAGTGGCTGTTTCATCTTCAAGCAGCCTTTGTGGTTTAGTTGTAAAAGGCTTTAGTAGCTCAAAAATACTCTTGATTTCACATTTCTACTCTAGATGGCAACATTGGACAGAAAATGCAATGACATAACCAATTTGCAGTGATTTTGGAACTGTGTTTCAAATGGACTGTTACCGACTGAAAGGTGTGAACAGCTTTGTATGTTTATGAAGGTTAAGGGAATTTAATACTTTTCCACAGATTCTTTTGTAAGGGGAAGAGGGAAATGTACACTTTTTACAGCAGCAATATTTTGTATATTATGTTTATTTCATGTGTTGAATATGCAAGGCGGTACACTACGCACTGGACAGAATCAGAAATCCTCTTTTAATGTGGACTGAAGTGTGGTAGATGACCTGATTGTTTTGGTCTCAAAATGGTGTACAATGAAGCTAACGGTGAGGGAGGAAGACAAAAGCACACCGTATGTCCACTGTCGTGTTCTTACAGAGGAAACTTAAATCCCTTATATCTGTCAGGTAATGAAGGGCACTGTGATACTGTTTTGAGTAAAAATACATTTTTTTAAAAGCCTTCCCGTTTTGTGGATTAAAACCTTTTTTATAAAGATCATTTATAATACTGTTTTAAAATGTAAGGCAATAAGAATTACTTTATGTTGGATCTGAAGAATCTTTAGTAACAGTTTCATGTAAACAGAGTGGTACTCCTTTCCTCAAATAGCAATAACTGAAGACAAAAGTGTTCGTTTTATCTTGTTTGAGTAATCAGAAGGCTTAGTAAATAATGTCAAAAAACATTTTATAAAGAATATTAAAGAAGAGTCAACATTGATCCAGTAATTTTATTTTTTAACATCAGCAGGATAATTGGTTTGTATAATAAGATAGTAATTCAGGAGACTTTACAAACCTTTATTTCATCTTTCTTAACTGGAAATAATGCCATTATAAAGGAACGTTCTTATATTTTTTTCCCTTTTTTTTATGTTGGTTAATATAACCCAAAGAAATGGTTAGTATAATGCTTATTGATGAGGTTTATTCTGATCTATATTAAAAGCGTAAAGGTTGCATTTTAGATCTCCTTGTTTATAAGTATGAGATATTTACTCATTATTTGAGACTGTCCTGTGCCTGATTATTTAGTTAAATTCAGGGATAATGCATTGGGCAGGAAAGCATGCATTGAGAAATTTCTAACCACAGTTATTTAAGCATAATCTGAGAACATCTAGCCCAAAGGTAAGTTGCTGTTTTCATCACAGTTGCCTGTCCCCAGGGAATTAGATGTAGTCTTTGTAATTGAATTGGTTTTTCCCACTTCTAAGTGGAAACAAAACAGAAGGGGTGCCATAAATTTGTATAAGCAGAACATAGTGTTCTCTACATACTGTAATCAAAAGTGGGAATTTTAATGTGTCTCTGTGTGTGTATGAGAGAGAGAGAGAATGTGTGTGTCCTAAGGTCAGAATATGGTCTTTTTCAACTTGGTCAGTAGAAAATGGACATCAAGTTTGAACAGATAAAGCATGGACAGCCTTATTGTGATTGAAATGCTGAGAGATTTCTGTGCCAATTTTCCACCACTGTGTACTTCGTTGCTATTTAAAACTGTATCAACTCTAACGAAGAATAAATTATTTGTGATTTTAA
LOC101725298 PREDICTED: Heterocephalus glaber uncharacterized LOC101725298 (LOC101725298), misc_RNA.
Length: 379 bp>XR_205613.1 TCAATCAAAAGCATTGTGAGAACAAGAGATTTCGAAGCAACCGGCCAGGTCTCCAGGAAGTCACTCAGGCAGGAGCTGGGGAACTGTACAAAATGGCGACAGGGGTGGAGCAAGAGGATCTGTGAAGGACGTGAAGCTTTGACCAGGCTGTGCGGCAGGCTGTATTATGATTGGCTGGAGGCACTGTTCTGCTGCCTTCTCTGTGTCCTGTGACATCACTTACGTGTCTCACCGTTAGCAGACTCTCAACCCCCAGATCCAGGAACAGGAGGGCCACACCCAACAGCTATAAAGGCAGGAAGCATCCACAAGACTGAAGCACAAAAACATGAAAACCAAGTGTGTGTGCACAACGTTCCAACTAACCGTCATGCAGAAG
LOC101704708 PREDICTED: Heterocephalus glaber uncharacterized LOC101704708 (LOC101704708), misc_RNA.
Length: 915 bp>XR_205615.1 TGCTATATCCCTGGTATTTGGGGGAAAGGAACAAAGAAGTAACAAAAATCTGAAAACTGATCATTGCTGGGAAGAGATGACCGCTGAAATAACAAAGGGCATCCCTGAGAAACGCTGCCCCAGAGCAGCCCCCAAGCCACGTGACTTGGCAATTTCACCAGTGAGAACAGAATGAAGCAACTCAAATCTCCACAGACGGTGCAGCGCCACCTCCCCTGCCCGCAGCAGGCTGGAACTGTAGGAAATAAGCTGAACGCTGCTAATGCTGAGAGCGCCAGCGCTCGATGAGACTCCACGGGGCTCTCCAGCAGGCTCTTGGGAGGCCAAGCACACACTGGGATGTGGACTTGTCACTCCAACTGGATGAGCCGCCCCAGAGCCGGGCACTAATTTACACGCGCAGGTCTGAGCCAGTGAGTTGCTGAAGAGGAAGTAGAATGAAGAAAGGAAATCATGAAGATAAAAGCCATAGTTAATGAAATAGCAAACACACATAAATGAGAGAATCGAGACCAACAGTAACTCTTGGAAAAAGAAGGAACCACAAGCAAGACTGGAAAAGCTAATCAAGTAGACAGACAGAAGACAAGAAACAGTAGGATGAAAGGGAGACCTGCTTGAAGACATTTCAGACATTCAATAGGAAATCTGGTGGGAGCCCTACTGGTTTCGCTAGCTGTGGGACTGGATTAAGAGGCATTTGACATATATGTTCTCCAAAGAATCTGCCTGTGTTGGTAGAGAGGCTCTTGCAGTGCTGCAGGTGCTGGGGATGTGGAACCTTCACAGCCAGAGCACCCAGATTCCTGCCTCTTCTGGAGCCTGGAGCACAAATCAGTTTCACTGAAGACTTCCATCCAAAGGGGCTGTCTTCATATTCCTTGTAAAGATCTGAACAAATCTTTCTGTAGGCCT
LOC101704931 PREDICTED: Heterocephalus glaber uncharacterized LOC101704931 (LOC101704931), misc_RNA.
Length: 577 bp>XR_205616.1 GGAAGCAGGACAGCCTGAGCCCCCAGCATTCACGGGTCTGGAGAAGTGCTAGAAGGATTTCCATTCGGTGCTCTGTGTGCAAGGCGTGGGAAGACCTTGGTGCTGCGGGCTGACATGCCAGGACCCCTGACCTGTGTCCGGCTTTGGTGACAGCTGAAGGAGTGACATGATCAAGACCTAGCCCGGCGTGGCTGCCAACCTACGCGCCCTGGGAGAACATAAGGAAGACATCTCCGGTGTCACAAATGCACCGGACTGACCCTAAAGCAAACTTGGAATCGAAGGAGAACAATTTGAAGAGACTCTTTGCCTCAGGAGAAGACCCATGAAAGAGGAGTGGCCCAGGTGGCAGGAGACCCACAGAGTGTGCAGGAGGCTGAAGCAGCCTGGCCCAGCACCTTGTCCTCTGCAGAGGCCCCTGTCACTCACCAAGTCCAGCACCACACCTAGGTCACCCTGAGCACCAAGCCAGTGTGGGCAGTCGAGGGACATCCCTGGGCAGCTTTCCTGTCACCCTGGACTGTGCTGGTCATCAGCTGGGCACTCTGTTCCCTGTGGTGTGAGGATTTGGTCCACA
Twsg1 PREDICTED: Heterocephalus glaber twisted gastrulation homolog 1 (Drosophila) (Twsg1), transcript variant X5, misc_RNA.
Length: 1406 bp>XR_205617.1 TGCCCGAGCGGGCGCGGAGGACGCGATGCTCCTGTCCCTTTAAGGCGCCGGGGCTGGCGTGGACGCGGCTTGGCCTGGGGCGGCGACGCGGGGCCGGCGGGCGCGCTTGCTGGGAGTTGCCGATCATCTTCGTGGGAGAATCATGAAGTCACACTGTGTCGCTGCACTGACGCTGGCCGGGCTGATGTTCCTGATGTGGCTCCCCGGGTCTCTGAGCTGCAACAAAGCACTCTGCGCCAGCGATGTGAGCAAATGCCTCATCCAGGAGCTGTGCCAGTGCCGGCCCGGCGAGGGGAACTGCTCGTGCTGCAAGGAGTGCATGCTGTGCCTGGGCGCCCTGTGGGACGAGTGCTGCGACTGCGTGGGGATGTGCAACCCGAGGAACTACAGCGACACCCCGCCCACCTCCAAGAGCACGGTGGAGGAGCTGCACGAGCCCATCCCCTCCCTCTTCCGGGCGCTCACCGAAGGGGACACCCAGCTCAACTGGAACATCGTGTCCTTCCCTGTCGCAGAGGAGCTTTCGCATCATGAAAATCTGGTTTCTTTCCTGGAAACTGTGAATCAGCCCCACCACCAGAACGTGTCTGTCCCCAGCAACAATGTTCACGCGCCTTACTCCAGCGACAAAGAGCACATGTGCACAGTGGTTTACTTCGACGACTGCATGTCCATCCACCAGTGCAAGATCTCCTGCGAGTCCATGGGCGCCTCCAAGTACCGCTGGTTCCACAATGCCTGCTGCGAGTGCATCGGACCCGAGTGCATCGACTACGGCAGCAAGACCGTCAAGTGCATGAACTGCATGTTCTAGAGGAGGGAAAGAAATTCAGCCAAAGCGATTTCGTCACAAAGAAAAGGAAGCCCTAGCCAAGGACTTGCTTGCCGTCCCCACAAAACAATATAGCCGTGTCCTACTGCAGTATGTGGATGATTTACTGTTATGCAGCCCAACCCAAGAGTGGTGCTGGAAAGGCACCAAGAAGTTGTTACTGCACTTACAAAAAACTGGATAAAAGGCTCCCTGACTTGCAAATGACTCCCTTGTCCGATGCTGACCTTGTTCTGTTCATGGATGGGAGCAGCTTCATGGAAGATGGGGTTCGTCATGCTGGATATGCAGTAACCACGAAGGATGAGGTGATCCTAGCCAGGGCCCCTTCCTTTTGGCTGGTTGGCGCAACATGCTGAGCTCTGGGCACTCACAAAGGCACGCCGATGGGAAGAGTAAAAAGGTAAATATATATACAGACTCTCACTATGCATTTGCTCCATGGCATGATTCATCGAGAGTGAGGTCTTCTCACAGCAGAAGGGAAGCAAATCAAGAATAGACAGGAAATTGTACAGTTGCTAGAGGCAGTGTGGGAACGTAGCAAAGTTGCAGTAATACATTGTTCAGGACA
Impa2 PREDICTED: Heterocephalus glaber inositol(myo)-1(or 4)-monophosphatase 2 (Impa2), transcript variant X3, misc_RNA.
Length: 3012 bp>XR_205618.1 GGTAATGGAGGCGGGCGGCCCGGCTGTGGTGAGCCAGTGGGACGAGTGCTTCCAGGCGGCGGTGCAGGTGGCCCAGCGAGCGGGACAGGTCATCAGAAAAGCCTTCACAGAGGAAAAACATGTCTCGACAAAGACATCTGCGGCAGATCTTGTGACAGAGACGGACTGCCTCGTGGAACATCTGATCATTTCTGAGCTGCGAAAGCAGTTTCCTTCACACAGGTTCATCTCCGAGGAGGCCACGGCCGCCGGGGCCAAGTGTGAGCTCACCTCCAGCCCGACCTGGGTCATCGACCCCATCGATGGAACCTGCAACTTCGTGCACGGGTTCCCCAACGTGGCGGTCAGCATTGGATTTGCTGTTCATCAAGAGGTACACAGTGGTCCTCCTGCTTGCTCTCTGCCGCGTGCCTCAGCCGTACGGAAGAAAGCCAACTGGAGTTCGGCGTGGTTCACCACTGCATGGAGGAGCGGCTGTACATGGCCCGTCGGGGCCGCGGCGCCTTCTGCAACACCCAGCGGCTGTGCGCCTCGAGGGAGACAGGTGGGCTCCGGGGAAGAAGCGCTGTGGGCCTGGGGGCTCCCAGACCTCACGTCTGGAATCCCCGGTCGGCGCCATGGTGGGGGCGGAGTCTCCTCCGAGGGCCCTCCCGTTTGTTCAGGGACCTGGGTCCATGGTGCACCAGAACCCGGGTCTGCCTGTCCATCGGTGTGGCCGATGGGCCAGGGGCTCCATGGAGTCCTGTCCGCCTTGCACTCACATTTGTCACCATTAAAGCGGGAACCCGGTTGCCAGGGCGACTTGATCTCCATGGGGACTGGGGAACGTGCTGATGTGCTTCCTCACAGGACTAAACAAAATTTTCCCCCAAGATGACTTTTTTTTCAACTTAGGTCAGAGTCAAAAATAGCTGTGTTACAGTGAACCACTGAGTGACATTGAGCACATCCACGGTGCTGTGTGCCACGTGCTGTAGCAAGTTCTAAAACCTTCCCCACTCCACAGGGACAGAAACCCTGTGCCCCTAAAGTGGCGTCCCTGCTCTGTCTCCCCAGGCCCTGCAGTCTGCTCTGTCTAGAACTTACGCTTTTTAGGTAAAGGAAGTGGTTTTATTTTCACGTGGGTAGAGTGCAGCGGTCCCTGAGGTTGGGGCACGTTTGTCACAAGACCACTGGTGGAAGTGCTGTCCCAGGAGCGCACATCCAACAGAGCCAGGCCGGATGGGGCATCCTTGAAGGGGCGCGGGGACCCCGAGTGAGCTTCGCCCCACCACTGCCCTGGAACCAGCAGGGCCGTGCGACCAGGGCCTGAAACCCCAGGCACCTCGAGCCAAACTCTCTCCTCATGGAGTTGTCAGGGCCATTGTCACAGCGACGAAAAGCTAACCTGTCTTCCTCTCAAGCGTGACATCTCCAGAAAGACAAGCAGGACACTTGGATACTCAGGGTGTCTTAACTTAGTACTACTTAACCAGAGCAGAGCTTTCAGATGGTCAAAAAATCAGACCAGTTTTTTTGTTTGCCCTAAATTCTGCTTTATTGAAAAAATACACAAAAATGCCCTACTTAAAAATCTAGTAGGTTTTTGTTGCTGTGGTAGAAATGTTAAACATAAAATTTGGCACTTCACTCATTCATTAACAAGCTATTTGATGGCATTGCTTGAACCACAGTGTCATGTAACCCTCACAGTGATAGATTTCTGAAATTTTCGTCACCTCGAGCAGGAAGTCCATTCCTACCATCCCACCTCCCATGAAATCACAGATTATTTTAAGTTAAATCTGTCTATATATTGGCATCTGACTAGGAGCTAAAATATTATGACAAATATAAGACAAAGAGAAATAAAATACAAAAATCACAAAACTTGTGGACAACTGGTCAGAGCTAACCGCCATGTAGAATATTAGAGGGGATGTAATGGATTAGGTTTTTCCTTTATCTGAGGGATATCACTTAGTAGAAGGCATTTTGTCTGTAGGTGTAAGGGAAGGTACCAGTGGCGGAGTTCGGGCACTTCGCTGTGATGTCAGGGTAACGAGAAACCTCACCAGCTCTGGCGCAGTTGCCGGCCATGCCTGAGGCCCTGCATTCAACGGCCCTGGGAGGGAAAAAGACTTTAGAAAGATACGAAGCTACAAAGCGCTTTGTCTGGGTACACGGTGGGTGTGAGGTGGGAAGTAGATGTTAGAGGGTGGTGGCAGGACAGCCTGTCACCGCTTCCTCCTTCCCCGTGGCCGAGGCCCTCTTCCGGGTCCTGCTGTGGGACAGGTGGGCAGTGGCCTGCCTCTCTCTTCCGATAGCTCCGTGTTTAGAGAGGTTTGTTTCCTAGCACAGCTGAGCAGGGGTAGAGCCTTCCCACGTGGCTTCTGTCCCACCACAAGCTCTCACCAGCGTCCCCTCCAGAGGGGCATTTGTCACAGCCTGCCACTGTGCCAACCCCTTGCCGTTGCCGGAGCCCACGGTGTACAGGGGGCTCCTCTCAGTGGAGCCTTCTGTGGTGTGGTCCCTGCGCTGGTGGCCTGGCCTGAGTCACGCGAGCCCAAGCTGCATGGTGGGAGCCGGGTGTTTCGGAAGCGTTTAAAGTCGGACCCCAGAGCTGTGCTGTAGACGAGGGCTGCCTGCCCTGGATGCGAAGATGCCCTGGGCTCAGGCCATGGAAGAGAATGCAATGCTGTGGAGCTGTTTGCTGCCCGAGCACACTTGGTGCAGCCTGGGGTGGCACGGGCACAGCGTGTGGCAGTGCAGGCTGCTTCTTGTCCCCGGAGTCCTGGCCCCTCGCTTCCGCCCTGGCAGCGCCTGCCGGCCTCTCCCGTCACGGTGCACCACGTGTGCCAAGGATCCTCAGCCCTCAGGCATCTGCACCCTCCTCGGAGGCGACCTCGCATCTGAGTCACCTGCTCCATGGGAGTTTCCGTCTCTGTGACCTCAGCAGATCTCTCCAAGGCTCTGATCCTGACCGAAATTGGCTCCAAGCGTGACCCTGCCACGCTGAAGCTGCTCCTCAGC
LOC101697631 PREDICTED: Heterocephalus glaber uncharacterized LOC101697631 (LOC101697631), misc_RNA.
Length: 701 bp>XR_205619.1 GGAGCCAGGAAGTGATGCTCATGCTGAAGACCAGAGCCCCCTAATGAGAACAGCAGCCGTTCCCAATGACAGCGAGGCCCCGAGCCCCTTCTCCAGTGAGGACAGCCGAGTTCACATCAGGAAAACCGTCCGCAGCAAGCTTCTCCTCGAACACCAACAGCCCCGACCTTCCCCTCCAGTTCTGTTTTTGTGCCATTGGCAACAATCCTCAGCTTCGGCCTCCCCAGTAAATGGTGAAAACAGGAACTGTGTGTAACTTTCCCCTCTGGCCCTCAGCCCAGTGTGGCACACAGGCCCGCAGCCACCGACCCACCCTGCCCTCCAGAAGCCCCCATCTGGCTTCCTGTGTCCACCCCCAGCCCAGAGGGGACCCGGCAGAGCTCTGTGCAGACATAAGAAGTTGCCCCTGAAGCCGCAGGGAAGACCCTGGGAAGGAGCAGCGGCCTCTTCTCAGACCCAGGCTCGGGCATCGCCAGCCAATCCAGCCCAGCGCTGCCTGCTCTCAGAGACTGAGACAGCCAGAGACCCCTGCAGTCAGGTTCCAGTACCCGCCTGGCCAGTGTGTGGCGCAAGCCTGAGAAAAAGAATGCACTGAGAGACAGAACTGAGAGAGAGAAAGCGGGCTTCCAGGACCACCAATGCCGGTGCAACCGACAAAGGCCTGGCCAGGCCCAGCACTGACTTTTATTGGCAATCAACTG
LOC101697885 PREDICTED: Heterocephalus glaber uncharacterized LOC101697885 (LOC101697885), misc_RNA.
Length: 3087 bp>XR_205620.1 AATACTGCAGTTGTGTATCGTGGCTCCTACGTGACCTGTTGATGAAGGCTTCATTGGTAGATCTGCATTAGCCCTGATGTTTGGTGACCTAATGTCCCCAAGCACGGCTTGGCATTCTGCACCACTAAGTGAGGCCCATGTGGCTCGGAAGGCCGAGGCCCCTTGCCATGCACGGGGAGCCTGTGGTAACAGTGGGCTCCTCAAGGGGGTGCGGGGCCCCCGCTTGGGCTAGCATCTAGGCCTCACCTGTGGGAGGTCAGGTCCCTGATGGCGGAGCTCTCGAGTCTCCTCCATAAAACACAGCCAGTGACCAATGATGACAACAGAGCAAAGGGACACGCTGGGCACACGCTGGCAACACCACTGCCTTTGCCAGAACGTCATGTTTTAGGTTCAACTTACAAATATTTTGCCAGCACAACAGAGTGGACCCTCATTTACCAGCCACCCCCCAAGCTGAAAACAGGACAGCATACCAGCCTGGACTTGTCCTGCCAGGAGACCTTGATGCTGAGGGCATCCTGTGTCCAGGGAGATGGTTACCAGACCCAGACCTTCCTTGTCCTATGGCCTAAATGAAACACGCCACTTTTACCTGAGAATTGTGGATACACAGGGGTGAGGGGGTGAGATTCTTACAGTCTCATGGTTAAATCCAAAGAGTTCATTTGGGGGACAAATCCTTCAACCATCTTCATTCTTGCCTTGCTGCCCTACCTCTCCTTCCTTCCTTCTCTGATTGTTCTGCCTTTCTCTTCAGATGGGGCCAAGGGACACGTGTTGACTGGGGCTTTGTTACAGCATCCTCTCCCTGGCCAAGCTGGGGAGCAGGGAGATCCATCCCTCCCTCTGGCTCTGCATCCCCTCTGTACCCTGCCTGCTGGAATGAGATCCACAAGCCACGCTGACCTCCAGTGAGCATCTCCTACTTTTCTCCCAGCTGCCTGCTAGGAGCCGTCTTCTTTGCCAAGCTTCTCTGCCATGCCACCCACCTTGGAGCCAGCCGACTGTGGACTGAAACCTCTGGCTGCTGCCATGTCCTCAGCATCCCCAGAGACCAGGCCCCCAACTACTGCTGGACCATGAAGGTGTCCTGACCCTGGGACAGAGGCAAATGCAGCCACAAGATTCTCCAGAGACAGCATGGATTCACGTGTGAAGATAGATCCTGACCTGCTCTGCCAGGCCACGCTTGCCTGGACCACGACAGATGAGCGCCCATGGCCCCAGGGCCTCCCAGCCCACCACCTGTCCCTGGCAATGGAAGTGAGCCAGGACAAAACACTGGCACTGTTTCCTTCCCAAGTCAGAAGCTGAGTTCGTGGAGCAATGGCTATCATTCTAGGAACGGACAAAAAATAAAAAGTAGAATCTAAAAGAAGTAAAAGCTAGGAAGTTCAAAGCCAAAAGGTGAAAGGCAGCAGCAGATTGGTGTGGACGTGGGATATGAACCAGTTAGGGGCTTGGCGGAGCTTCTGTCTCCCACACACTCAGGACTCCAGAGTCCTGAGGCCAGAAGCTGACACCTGGGTTCAGATCTAGCCCCTGCTGCTTCACTCTTTGGCCAGAACTGTGGGCCTGATGCTCTTAGAACCCACTCAGTGATCAGCTAACTCTGTGGTTGTCTCAGCCTGGGCTCTAAGTAGTGGCTGAAAAAAATCATTAATCAAAAATATTTTCAAACCAGTGGAGCTAACAAATACTCTAAATTTTAAGAGTTGCATCAGGTTTTTGTGAACGTATTTGTTCAACAATATTGTCAACTTTTTTTACGTAACAGGACCTTGTCTCTTATTTCTGGACCAAAAGAAGCAGGATTGCAGGTTACATGCCGCATGTACTGTGTCGGCTTCTGAAGGAACAAAACAGCTCGTTTGCGGAGCCTGTGGGCCCATCCCACCACTGCTGATGACCAAGCAGTGGGCCTGGCACCTCCGGACCAGTGCCGGAGCAACTGTCACCAGAAAATAAAGCAACCCAGTCATGACATTAAATGTTCAAAGAAAATACTGGTTCAGACACAATGCAATACCTATCAGTAAAAGTATGCTTGTTCCTGAGTCTCAGAGACACACGCAAGGTAACAGCTGAAACACACGTGTGCATGCAGACACCCTGCACACTCCACAAGCACTGAGCTCCGCTTCTGGAATGCTAAGCATCTCCTCGGTAGAAGGGAAAATGAAAGGCACTGCTAACTCAGGTTCTGGGCTTCATGGAATTGTCCAGGCGGCTTTTGACATGTACGTGACTGAAGAGTTTGTGGAAATGTCATTAAAATGGGAGGATGAAGTTTAGGTTTCAGGGTCACAGCAGCCACCAGCAGAGCAGCCAGCAGCAGGCCTCAGACCTCAGTTTCCTAACATTTCAGTTGGGCACAACTCGGAGGGAAAAAGCCGCACAGGAAAGAGAGGCCACGTCCACCCAGCCCGTGCTCGGGGACACGCCCTCTGGGGCTTCGCCAGTGCTTTGTTTGAAACCACTGGCTGGGCTGTCTCTGGCTCCCCAGAGCCCACCCCTGGGCCTGTGGACCCCCACGCTCCACTCCACACTGCCTGGAAGGCTCTGCACCTCGGGCACCTTCCCTCTGAGGTCAGCTCACCAAACCCCAGACAGCTGCACAGGAGGCTGAGGCTCCGAGGTTGCTCACAGCTGTCTGTGCAGCATGCAGAAGAGCACAGCTTGGTTCTCAGAGCAAGACAACCCCACTCACTCCCACTGGTCAGAGGAACAGACTGGACATGGGAGCCACACAGGATGTCTCAGGAACCACATTGCACTGGGCTTGGGCAGCACCTCTGCGTAGAACCAGAAGGCCATGCCCAAGTTCATGGGCAGATGCCCCAACCACTCCAGTCCAGCAGGGGAGGACAGGGTCTTGACCCTTACTGTCCCCTTTGCCGTCCTACCCAATGCAAAGGTGTCAGTAAGCGATGCACCAGTGGGCCACTGTTTGCAGAATGAATAATCAACCCTCACGTTGGTTCTAGAGATTTCGGTTCAAAGCCCTGTGTGTTCCTCCCTGAAGTCTCTGCACTACCTAGACATCTGGGCTGATAACTGCACACGTTCCAAGACCTGCCACTG
LOC101700566 E3 ubiquitin-protein ligase ICP0-like
Length: 936 bp Location: 205844..203285 Strand: ->XM_004853293.1 ATGCCGGGCCGGAGGCAGGGAAAGGCCGGGAGTGGGGGGAGTCGGGGCGCCCCGAGAACGCAGAGGCGACCGACGGCGGGTTCCGGCTCAACTCTTGCTGGAAGCCGTGCGTGTTGTAGTTGGCCCAATTTTCTTTTTGGGGGGGTGGCTGGTAGGAAGGGGGCCAGACGGGCGTGCGGGTGGGCGATTCTTAGCTCTCCGAAAGCTGGGACCCCTTCGGTTATCCGCGCTGCCCGGAGAACTCCTAGAGATGCCTGTAAACCCGGCTGGAGAATCCCCCCCTCCCGCCCCGCCCCGCTCCGCTCCACCCGGGGCCCCCGGTGCACCCGCTCCCCGCATGCCGAGCCCCGAAGTTCGGACCTGGTCGCCCCTTCCAGCGCGGGGCGGCCCCGAGGATGGTGGGGGAAAAGTGGGGCCACCCGGGGGGTTCCGAGCCGGGCAGCGGGCGCAGTCGCTTTAGCTCCAGCAACTCTGAGAAGTTCAAGTTGGAAGGCAGGTGCTGGGGCAGGGGGTGGGGGCTGCTCGACCGGCCCGGGTGCGGCGCCCCGCGGGGTCTCGGCTCGCCCCCCTCCCGGTAGCCCGCAGCAGCCGCTCGCTTCCGAACCCGGTCTGAGCCGCCCGCATCTAGGAGGAGCAGGGTGGGGTGGGGAGGCGAGGAGAGACGGAGCGGCCCGGTCCTTAACCTGTAATTGCACCTTCCAGGACGCAGCGGAAAGGGACCCTCTGCCCGCCTCCCGCCGGCCCGCCCGGGAGAGCCGCCGCCTCCCGGCTCCGAGGGATCCCGCCGGAGCTGCGCCTTCCTTCCCCGCTCTGCGGCTCACTCTGCCCTGCCTGCTGCCGGTCCTGGATCGCCGGCTTCCCATTTCTCCCGGCCCCTGCTCCGCTCCACTCACTTTACCATCCCGAGCCAGGCTGGCGACTTCGCTGCTGAGCTGA
Klhl14 kelch-like family member 14, transcript variant X1
Length: 1890 bp Location: 203374..296787 Strand: +>XM_004853102.1 ATGTCCAGATCCGGGGACAGGACCTCCACCTTCGACCCCAGCCACAGCGACAACCTGCTGCACGGCCTCAACCTGCTGTGGAGGAAGCAGCTGTTTTGCGACGTGACCCTGACGGCCCAGGGCCAGCAGTTCCACTGCCACAAGGCCGTGCTGGCCTCCTGCTCGCAGTACTTCCGATCGCTCTTCTCCAGCCACCCCCCTCTCGGGGGAGGGGTCGGCGCCCAGGACGGCCTGGGGGCCCCCAAGGACCAGCAGCAGCCCACGCCGCAGCCGCAGTCGACCCAGCAGCCTCCGCCGCCTCCGCAGGAGGAGCCCGGGACTCCTTCCTCCTCCCCCGACGACAAGCTGCTGACCAGCCCCCGGGCCATCAACAACCTGGTGCTGCAGGGCTGCTCGTCCATCGGGCTGCGCCTGGTGCTCGAGTACCTCTACACGGCCAACGTGACCCTCTCCTTGGACACCGTGGAGGAGGTGCTGTCGGTCAGCAAGATCCTGCATATCCCCCAGGTCACCAAGCTCTGTGTGCAGTTCCTCAACGACCAGATCTCTGTGCAGAATTACAAGCAGGTGTGTAAGATAGCCGCGCTGCACGGCCTGGAGGAGACCAAGAAGCTGGCCAACAAGTACCTGGTGGAGGACGTGCTGCTCCTCAACTTCGAGGAGATGCGCGCCCTGCTGGACTCGCTGCCGCCCCCCGTGGAGTCGGAGCTGGCGCTCTTCCAGATGTCCGTGCTGTGGCTGGAGCATGACCGCGAGACCCGCATGCAGTACGCGCCCGACCTCATGAAGCGCCTCCGCTTCGCGCTCATCCCAGCCCCAGAGCTGGTGGAGCGGGTCCAGTCAGTGGATTTCATGCGCACCGACCCTGTCTGCCAGAAGCTGCTGCTGGACGCCATGAACTACCACCTGATGCCCTTCAGGCAGCACTGCAGGCAGAGCCTGGCCAGCAGAATTCGCTCTAACAAGAAAATGCTGTTATTGGTCGGAGGGCTGCCTCCTGGACCGGACCGGCTCCCCAGCAATTTGGTTCAGTATTATGACGATGAAAAGAAGACATGGAAAATACTCACAATTATGCCATACAACAGTGCTCACCACTGTGTTGTAGAGGTAGAAAACTTCTTGTTCGTGCTGGGCGGAGAGGACCAATGGAATCCAAATGGAAAACATAGTACGAATTTTGTCAGTCGATACGATCCCCGATTTAATAGCTGGATTCAACTTCCTCCTATGCAAGAAAGAAGAGCCAGTTTCTATGCATGTCGATTGGACAAGCATTTATATGTTATTGGTGGGAGGAATGAAACCGGCTACTTGTCCAGCGTGGAGTGCTATAACCTGGACACAAATGAATGGCGCTATGTGTCCTCTTTGCCACAGCCTCTGGCAGCTCATGCAGGAGCAGTGCACAATGGGAAGATATACATTTCAGGGGGTGTGCACAATGGAGAATATGTCCCATGGCTATATTGCTATGACCCCGTAATGGATGTCTGGGCTCGAAAACAAGATATGAACACAAAACGTGCAATCCACACTTTGGCTGTAATGAATGATCGCTTGTATGCAATTGGAGGAAATCATTTGAAAGGTTTCTCCCACCTAGATGTAATGCTTGTGGAATGCTATGACCCAAAAGGTGACCAGTGGAATATTCTGCAAACTCCTATTCTGGAGGGTCGAAGTGGTCCTGGTTGTGCAGTGCTTGATGACAGCATTTACCTTGTGGGAGGCTACAGCTGGAGTATGGGGGCCTATAAATCGTCTACAATATGTTACTGTCCAGAAAAAGGAAGCTGGACAGAACTTGAAGGAGATGTAGCAGAACCCCTGGCAGGACCAGCCTGTGCCACAGTCATCCTGCCTGCCTGTGTGCCCTACAACAAATGA
Garem GRB2 associated, regulator of MAPK1, transcript variant X2
Length: 2625 bp Location: 501427..723592 Strand: +>XM_004853105.1 ATGGACCCGGTGCCCTTGCTGGGCTGCAGCCTCAAGGATGTGAAGTGGAGCTCGGTGGCCGTGCCGCTCGACCTGCTGGTCAGCACCTACCGGCTGCCCCAGATAGCGCGGCTGGACAGCGGAGAATGCATAGAAGGACTGCGGGAGAATGATTACCTTCTGATTCATTCATGTCGTCAGTGGACCACCATCACTGCCCATAGTCTGGAAGAGGGCCACTATGTCATTGGGCCAAAGATAGAGATCCCTGTTCATTATGCAGGGCAGTTCAAGCTGCTGGAACAAGACCGCGATATAAAGGAGCCTGTGCAATATTTCAACAGTGTAGAGGAGGTGGCAAAGGCATTTCCTGAGCGCGTGTACGTCATGGAGGAAATAACATTCAACGTGAAGGTTGCTTCTGGTGAATGCAATGAAGACACGGAGGTTTACAACATAACCCTGTGCACCGGGGATGAGCTCACCCTAATGGGACAGGCGGAAATCCTATATGCAAAGACTTTCAAGGAAAAGTCCCGGCTCAACACAATCTTCAAAAAGATTGGGAAACTCAATTCGATCAGCAAGCTGGGAAAAGGCAAAATGCCATGCCTCATTTGCATGAATCACCGGACCAACGAAAGCATCAGCCTTCCATTCCAGTGCAAGGGCAGATTTAGTACGCGGAGTCCCCTGGAGCTCCAGATGCAGGAGGGTGAGCACACCATCCGCAATATCGTGGAGAAAACCAGGCTGCCTGTGAACGTGACTGTGCCCAGCCCTCCACCCAGAAACCCGTACGACCTCCACTTTATCCGAGAGGGCCACCGCTACAAGTTTGTGAACATCCAGACCAAGACAGTGGTGGTTTGCTGTGTGCTGCGGAACAACAAGATCCTCCCCATGCACTTCCCTTTGCACTTGACTGTCCCCAAGTTCAGCCTCCCGGAACACCTGGTCAAGGGAGAGGTGTGGCCTGAAACCCTGGTCCATCACTGGCTGGGTATCTGCCAAGAACAGTTTGACATTGACGAGTATTCCCGGGCTGTCCGCGATGTGAAAACGGACTGGAATGAGGACTGCAAAAGCCCCAAAAAGAGCCGGTGCTCTGGCCACAACCACATGCCCAATTCCCTGAGCTACGCCCGCGATGAGCTCACCCAGTCCTTCCACCGGCTCTCCGTCTGTGTATATGGCAACAATCTCCATGGTAACAGCGAGGTGAACCTCCACGGCTGCAGGGACCTGGGAGGAGAGTGGGCTCCCTTTCCTCATGACATCCTGCCCTATCAGGACTCTGGTGACAGTGGGAGCGACTACCTTTTCCCGGAAGCTGGTGAAGAGTCAGCGGGCGTCCCAGGGAAGTCCGAACTTCCTTATGAGGAACTGTGGCTGGAGGAAGGCAAGCCCAGCTGCCAGCCTCTCACCCACTCACTGAGCGAGAAGAGCAGATGTGACCCCTTGAGAGGCTCTGTCCGCTCCAAATGTGCAACTTCGCCTCTTCCTGTCCCTGGGACTCCGGGAGCCACAATGAAGTCTTCAGAAATTGCCCTACCTCCGCCTCCAGTGCCTCCCAAATCTGAAGCTGTCAGGGAAGAATGCCGGCTCCTGAACGCCCCACCTGTTCCACCCCGAAGCGCAAAGCCTTTGTCCACAAGTCCCTCCATCCCTCCTCGCACAGTCAAGCCAGCGCGGCCACAGACTCGCTCTCCCAGCCCCACCTTGTCCTACTATTCTTCAGGGCTGCACAACATCGTTACTAAAAGTGACACAAGCCCTTCTGAAAGTGCTCCGGTTTCCTGCTATCCGTGCAACCGAGTGAAAGCCGACTCTGTGGACCTGAAGTCCCCATGCGGAAGTCCTTCCGCGGAAGCTCTGTCCTCCCGGCTCTCGTGGCCTAACCATTATTCGGGAGCATCGGAGACCCAGACCAGGAGTGACTTCCTGCTGGATCCAAGCAGGAGTTACAGTTACCCCAGACAAAAGACACCCGGCACACCAAAGAGAAACTGCCCGGCACCTTTCGATTTTGATGGCTCAGAGCTCCTGAGCGGTGCCCTCACCACAGTCACTGCAGAATCTAGTGGCGGCGCCTCAGGTTGCCCCAAGTCAGCCAGCTACTCGCTGGGGAGCACAGAGAGCGCCCCTGCGGCAAGCGTGACCAAGCAGAGTGTCTCTTGCCCTGCCTTACCGCCCAGGGCCCCAAAGCCAGTGGAACAGGAAGCGGCCGCAGAAACGTCTCCTTTGCCTCTGAGAATTGATGGTGCTGAGGAGGACCCCAAGGCACGGTCACCAGACCTCTCCGAGGACCAGTATTTTGGTAAGAAGGGCGTGCAGGACATCTTCTCTGTCTCTTACCCTTTCTCCTCTCCGCTCCACCTCCAGCTAGTCCCCAGGTCTTGTGGCGATGGTTCCCCATGGCAGCCACCTGCGGACCTGTCAGGACTCTCTATAGAAGAAGTGTCCAAGTCACTACGGTTCATTGGTTTGTCCGAAGATGTCATATCCTTCTTCGTCACTGAAAAGATTGATGGGAATTTGCTTGTTCAACTAACAGAAGAAATCCTCTCAGAGGATTTCAAATTAAGCAAACTTCAAGTGAAGAAAATAAGGCAATTCATTAATGGCTGGAGGCCCAAAATATAG
Mep1b meprin A, beta, transcript variant X2
Length: 2106 bp Location: 806238..757643 Strand: ->XM_004853108.1 ATGGACTCGTGGTCTCTGCCTTGGTCTCTGCTCTTTGGCATCCTTCTCGGGGTTTCCGGCTTGCCAACTCCAGAAAATTTTGATATAGATGCTGGAATTGATCAGGATATATTTGATATCAATGAAGATTTGGGACTGGAGCTTTTTCAGGGAGACATCAGACTTGATCGGGTACAAGGTAGAAATTCCCTCATTGGAGAAGAATATAGATGGCCTCATACCATTCCATATGTTCTAGAAGACAGCTTGGAAATAAATGCCAAAGGAGTTATCCTCAATGCATTTGAACGTTATCGCCTAAAAACATGCATTGACTTCAAGCCTTGGGCTGGAGAAGCTAACTATATATCAGTGTTCAAGGAAAGTGGGTGCTGGTCTTACGTAGGAAACAGGCACATTGGCAGGCAAGAGCTCTCCATCGGTGCAAACTGTGACAGAATAGCAACGGTGCAACACGAGTTCCTCCATGCACTGGGATTCTGGCACGAGCAATCGCGTTTTGATCGGGATGACTATGTCAGGATAGTTTGGGACAGAATCCTGTCAGGCAGAGAGCACAATTTTAACATCCATGATGACACAGAATCAGATTCCCTGAATGTTCCCTATGATTACATGTCTGTAATGCACTATAGTAAAAACGCATTCCAAAATGGAACAGAGCCAACAATTGTAACAAGAGTCTCCGACTTCGAGGATGTGATTGGCCAACGGTTGGATCTCAGTGACACTGATGTCTTAAAGTTGAATCGACTGTACAACTGCACTTCTTCCTTGAGTTTTATGGACTCTTGCAATTTTGAACTGGAAAATGTATGTGGTATGATCCAAAGTTCAAGAGATAGTGTTGACTGGCAACGGGTTTCCCAGATTCCTGGGGGGCCAGAGAATGATCATTCCAACATGGGCCAGTGCCAAGGCTCCGGTTTCTTCATGCATTTTGACAGTCAGTCTGTAAATGTGGGTGGCACAGCAGTGCTGGAAAGTAGAATATTTTACCCTAAACGAGGATTTCAGTGCTTGGAGTTTTATTTGTACGACAGTGGAAGTGGAACTGACCAACTGAACATTTATGTGAGGGAGTACTCTGTCAACGATTTGGATGGTAAATTAACCCTTGTGAAAGAAATCAAAGAAATACCCACTGGGAGCTGGCAACTTTACTACGTAACATTGCAAGTGACCAGCAAATCTAGAGTGGTGTTTGAAGGACTCCGAGGAGCTGGTGCATCATCGGGTGGTCTGTCTATTGATGACATCAATCTTTCAGAAACACAGTGCCCTCATCATATTTGGCATATAAGGAACTTCACACAGATCTTTGACACTCCAAATGCAAGTCTATATAGCCCTCCATTCTATTCTCCTAAAGGTTATGCTTTCCAGATTTACTTGAATCTACAATCTTTGCCTAATGTAGGGATATATTTCCACTTGATCTCTGGAGCCAATGATGATCAATTACAGTGGCCATGTCCTTGGCAACAAGCCACAATGACACTCTTGGATCAAAATCCTGACATTCGACAGCGTATGTCCAACCAGCGGAGTATAACTACAGACCCATTTATGACCACCGATAATGGAAACTATTTTTGGGACAACCCTTCCAAAGTGGGAAAATTGGCTTTTTTCCCTAATGGAACCCAGTTTAGCAGAGGTGGAGGTTATGGAACCAGTGTCTTTATAACTGAAAAGAGGATCAAAAGCAGAGACTTTATAAAAGGAAATGATGTTTACATCTTATTAACAGTGGAAGACATATCTCACCTGAATTCTACATCATCTCAGCCAGCCCCGACCTCCAGTGTCCGTGACCTCTGCTCAAGTGTCACATGCGAAAATGGTGGCATCTGTACTGTCCAAGATGACAAAGCTGAGTGCAGGTGTCCCTCTGGGGAAGACTGGTGGTACATGGGAGAAAGGTGTGAGAAGAGAGGCTCCACCCAAGACACCATTGTCATTGCTGTCTCTTCCACCGTGGCTGTGTTTGTCCTGATGCTGATAGTCACTCTTGTCAGCGTCTACTGTGTCAGGAGGAAATATCGAAAAGGGACAAGTTCCAAGACACCAAATGTGGCTATCGAAAATCAATATGCTTTTTGA
Mep1b meprin A, beta, transcript variant X1
>XM_004853107.1 ATGGACTCGTGGTCTCTGCCTTGGTCTCTGCTCTTTGGCATCCTTCTCGGGGTTTCCGGCTTGCCAACTCCAGAAAATTTTGTCAAAGATATAGATGCTGGAATTGATCAGGATATATTTGATATCAATGAAGATTTGGGACTGGAGCTTTTTCAGGGAGACATCAGACTTGATCGGGTACAAGGTAGAAATTCCCTCATTGGAGAAGAATATAGATGGCCTCATACCATTCCATATGTTCTAGAAGACAGCTTGGAAATAAATGCCAAAGGAGTTATCCTCAATGCATTTGAACGTTATCGCCTAAAAACATGCATTGACTTCAAGCCTTGGGCTGGAGAAGCTAACTATATATCAGTGTTCAAGGAAAGTGGGTGCTGGTCTTACGTAGGAAACAGGCACATTGGCAGGCAAGAGCTCTCCATCGGTGCAAACTGTGACAGAATAGCAACGGTGCAACACGAGTTCCTCCATGCACTGGGATTCTGGCACGAGCAATCGCGTTTTGATCGGGATGACTATGTCAGGATAGTTTGGGACAGAATCCTGTCAGGCAGAGAGCACAATTTTAACATCCATGATGACACAGAATCAGATTCCCTGAATGTTCCCTATGATTACATGTCTGTAATGCACTATAGTAAAAACGCATTCCAAAATGGAACAGAGCCAACAATTGTAACAAGAGTCTCCGACTTCGAGGATGTGATTGGCCAACGGTTGGATCTCAGTGACACTGATGTCTTAAAGTTGAATCGACTGTACAACTGCACTTCTTCCTTGAGTTTTATGGACTCTTGCAATTTTGAACTGGAAAATGTATGTGGTATGATCCAAAGTTCAAGAGATAGTGTTGACTGGCAACGGGTTTCCCAGATTCCTGGGGGGCCAGAGAATGATCATTCCAACATGGGCCAGTGCCAAGGCTCCGGTTTCTTCATGCATTTTGACAGTCAGTCTGTAAATGTGGGTGGCACAGCAGTGCTGGAAAGTAGAATATTTTACCCTAAACGAGGATTTCAGTGCTTGGAGTTTTATTTGTACGACAGTGGAAGTGGAACTGACCAACTGAACATTTATGTGAGGGAGTACTCTGTCAACGATTTGGATGGTAAATTAACCCTTGTGAAAGAAATCAAAGAAATACCCACTGGGAGCTGGCAACTTTACTACGTAACATTGCAAGTGACCAGCAAATCTAGAGTGGTGTTTGAAGGACTCCGAGGAGCTGGTGCATCATCGGGTGGTCTGTCTATTGATGACATCAATCTTTCAGAAACACAGTGCCCTCATCATATTTGGCATATAAGGAACTTCACACAGATCTTTGACACTCCAAATGCAAGTCTATATAGCCCTCCATTCTATTCTCCTAAAGGTTATGCTTTCCAGATTTACTTGAATCTACAATCTTTGCCTAATGTAGGGATATATTTCCACTTGATCTCTGGAGCCAATGATGATCAATTACAGTGGCCATGTCCTTGGCAACAAGCCACAATGACACTCTTGGATCAAAATCCTGACATTCGACAGCGTATGTCCAACCAGCGGAGTATAACTACAGACCCATTTATGACCACCGATAATGGAAACTATTTTTGGGACAACCCTTCCAAAGTGGGAAAATTGGCTTTTTTCCCTAATGGAACCCAGTTTAGCAGAGGTGGAGGTTATGGAACCAGTGTCTTTATAACTGAAAAGAGGATCAAAAGCAGAGACTTTATAAAAGGAAATGATGTTTACATCTTATTAACAGTGGAAGACATATCTCACCTGAATTCTACATCATCTCAGCCAGCCCCGACCTCCAGTGTCCGTGACCTCTGCTCAAGTGTCACATGCGAAAATGGTGGCATCTGTACTGTCCAAGATGACAAAGCTGAGTGCAGGTGTCCCTCTGGGGAAGACTGGTGGTACATGGGAGAAAGGTGTGAGAAGAGAGGCTCCACCCAAGACACCATTGTCATTGCTGTCTCTTCCACCGTGGCTGTGTTTGTCCTGATGCTGATAGTCACTCTTGTCAGCGTCTACTGTGTCAGGAGGAAATATCGAAAAGGGACAAGTTCCAAGACACCAAATGTGGCTATCGAAAATCAATATGCTTTTTGA
LOC101701644 NANOG neighbor homeobox-like
Length: 483 bp Location: 827486..827968 Strand: +>XM_004853294.1 ATGCACGGCCCGGGCCACGGGCAACAACGCCATGGTGCCACAGCACATGAGGGACCTGGCCGGGACACCGTGCCCACCACTCGGCACTCAGGCCTCGGCTCACAGAGGCAGCCAGCCTTGCCTCAGGAACAAAGCCAGGACCCGCCTGGCCGGGACTGCCTTGACCTTGTCGGAGCAGGACAGCTGAAGCCGAGTGAGAGAGGAGGAAAGAGGAAAAGAGAAGCAGGCCCAGAGGAGGCGCAGAGGCCACGGGTCAGCAGGCCCCTGATGGCCACGCTGTGGGCCAGGTTCAAGCAGGGCGGCCGCCCCTCGCCCCTCGACAGCCTGCCTCTGTCCTTCCAGTTCGACGTGACGTACAGGCAGATAAATCGATGGTTTTGCACACAGAGAAAGAAATACAAAGAGGAAATGGCCAAAGAGAAGCACAGGAAAAGCGAGAAGCACAGCAAAAGGCACAAGAAGCATGGGAAATGGCCTCTGTGA
Rnf138 ring finger protein 138, E3 ubiquitin protein ligase, transcript variant X3
Length: 630 bp Location: 895048..860047 Strand: ->XM_004853111.1 ATGGCTGAAGAGCTCTCCGCGGCCACTTCCTACACCGAAGACGATTTCTACTGTCCCGTCTGTCAGGAGGTGCTCAAAACGCCCGTGCGCACCGCGGCCTGTCAGCACGTTTTCTGTAGAAAATGTTTCCTGACTGCAATGAGAGAAAGTGGAATACATTGTCCCTTGTGTCGTGGAAATGTGACTAGAAGAGAAAGAGCGTGTCCAGAACGGGCCTTAGATCTTGAAAATATCATGCGAAAGTTTTCTGGTAGCTGCAGATGCTGTGGGAAACAGATTAAGTTTTATCGTATGAGACATCATTACAAATCTTGTAAGAAGTATCAGGATGAATATGGAGTTTCATCTATCATTCCAAACTTTCAGATTTCTCAAGATTCTGTAGGGAACAGTAATAGGAGTGAAACATCCACATCTGATAATACAGACTCTTACCAAGAGAATACAAGTTCTTCTGGGCATCCCACCTTTAAGTGTCCCTTGTGTCAAGAGTCCAATTTTACCAGACAGCGCTTACTGGATCACTGTAATAGTAACCACCTATTTCAGATAGTACCTGTGAATCTTCAGCTAGATGAGGAAACCCAGTATCAAACTGCTGTTGAAGAATCTTTTCAAGTAAACATCTAA
Rnf125 ring finger protein 125, E3 ubiquitin protein ligase, transcript variant X1
Length: 714 bp Location: 926411..909808 Strand: ->XM_004853112.1 ATGTGTCTAACTGGGAAGGTAAGCCGTGGTCTGGGAAGCAAGTGGACCTGTGATTTGGTAATGCGGTTTGTAGTGTTGCAAGGTGTCACTAAATTACAGCTTCCACAGACACGGGGCGGGGGGCGGGGCGCTCTTTTGTGTCTTTCTGTGGGAGTGATGTGTTCTTGGTTGGTTTGGGGTAGATTCTGCCGCTCCTGTATTGCCACCAGTCTAAAGAACAATAAGTGGACCTGTCCGTATTGCCGGGCATATCTTCCTTCAGAAGGAGTTCCAGCGACAGACGTAGCCAGAAGAATGAAGTCAGAGTTCCAGAACTGTGCCGAGTGTGATGCCCTGGTTTGCCTTAGTGAAATGAGGGCACACATAAGGACTTGTGAGAAGTACATTGACACATATGGACCACTGCAAGAACTCGAGGAGACAACAAGGTGTGTCTGTCCATTTTGTCAGAGGGAATTGGATGAAGACAGTTTGCTGGATCACTGTATCACTCATCACAGATCCGAAAGGAGACCCGTGTTCTGCCCGCTTTGCCATTTTATACCAAATGAGAATCCAGGCAGCTTCAATGGCAGTTTAATAAGACATTTGCAAGTTAGCCACACTTTGTTTTATGATGATTTCATAGATTTTAATATAATTGAGGAAGCTCTTATCCGAAGAGCCTTGGACCAGTCGCTTCTTGAATATGTGAATCATTCGAACACCACATAA
Rnf125 ring finger protein 125, E3 ubiquitin protein ligase, transcript variant X2
>XM_004853113.1 ATGGGCTCCCTGCTGAGCAGCGACGCCGCCAAAGCCGCGCCCGCGCCCCCCGCGCCTCGGGCCCGGGAGCGCAGGGCGGATCCGCCGCTGCCGCTCGCGTCCTTCGACTGCGCCGTGTGCCTGGAGGTGCTGCACCAGCCCGTCCGCACCCGCTGCGGCCACGTATTCTGCCGCTCCTGTATTGCCACCAGTCTAAAGAACAATAAGTGGACCTGTCCGTATTGCCGGGCATATCTTCCTTCAGAAGGAGTTCCAGCGACAGACGTAGCCAGAAGAATGAAGTCAGAGTTCCAGAACTGTGCCGAGTGTGATGCCCTGGTTTGCCTTAGTGAAATGAGGGCACACATAAGGACTTGTGAGAAGTACATTGACACATATGGACCACTGCAAGAACTCGAGGAGACAACAAGGTGTGTCTGTCCATTTTGTCAGAGGGAATTGGATGAAGACAGTTTGCTGGATCACTGTATCACTCATCACAGATCCGAAAGGAGACCCGTGTTCTGCCCGCTTTGCCATTTTATACCAAATGAGAATCCAGGCAGCTTCAATGGCAGTTTAATAAGACATTTGCAAGTTAGCCACACTTTGTTTTATGATGATTTCATAGATTTTAATATAATTGAGGAAGCTCTTATCCGAAGAGCCTTGGACCAGTCGCTTCTTGAATATGTGAATCATTCGAACACCACATAA
Trappc8 trafficking protein particle complex 8, transcript variant X4
Length: 4329 bp Location: 999887..1090664 Strand: +>XM_004853117.1 ATGGCCCAGTGTGTACAATCCGTGCAGGAGCTCATCCCGGACTCCTTCGTTCCCTGTGTCGCCGCGCTGTGCAGCGACGAAGTCGAGCGGCTTACTCGTCTCAATCACCTGAGCTTCGCGGAGCTGCTTAAGCCCTTCTCGCGCCTCACTTCCGAGGTTCATATGAGAGATCCTAATAATCAACTTCACATAATTAAAAATTTGAAGATAGCAGTGAGCAACATTGTCACACAACCACCTCAGCCTGGAGCCATTCGAAAGCTGCTGAATGATGTTGTTTCTGGCAGTCAGCCTTCGGAAGGATTAGTAGCTAATGTGATTACAGCAGGAGATTATGACCTTAACATCAGTGCTACTACTCCATGGTTTGAGTCTTACAGAGAGACCTTTCTTCAGTCGATGCCGGCATCAGATCATGAATTTCTGAACCACTATTTAGCATGTATGTTGGTAGCATCGTCTAGTGAAGCTGAACCTATGGAACAGTTTTCAAGGTTGTCACAAGAACAGCATCGAATTCAGCACAACAATGATTATTCCTACCCCAAATGGTTTATACCAAATACACTTAAATATTATGTGCTGCTACATGATGTGAGTGCAGGAGATGAACAGAGAGCTGAATCAATTTATGAAGAGATGAAACAAAAATATGGAACTCAGGGTTGCTATTTACTTAAAATTAATTCTCGAACGTCAAATCGAGCATCAGATGAACAGATACCAGATCCTTGGAGTCAGTATCTCCAGAAAAATAGTATTCAAAACCAGGAATCATATGAAGATGGCCCTTGTACTATAACTTCAAATAAGAATTATGATAGTAACTTGCTTTCATTGGATGGATTAGATAACGAAGTCAAAGTAGATGCCTTACCAAATAACTTTAGAACTCACCCACTTCAACCGGACCAGCCCAGCGAGTCTTCTAACAGCATCGATGGCCCAGACCATGTAAAATCTGCTTCTTCATTACATGAAACAAAGAAAGCAAATACTGGAGTAATTCATGGTGCGTGTTTAACACTTACTGATCATGATAGAATTCGACAGTTTATACAGGAGTTTACATTTCGCGGCCTTTTGCCACATATAGAGAAAACAATTCGGCAATTAAATGATCAGCTAATATCAAGAAAAGGTTTGAGTCGATCTCTATTTTCTGCAACTAAAAAATGGTTTAGTGGCAGTAAAGTTCCAGAAAAGAGCATTAATGAATTGAAAAACACATCTGGGCTGCTGTATCCCCCGGAAGCACCAGAGCTTCAAATCAGGAAAATGGCTGACTTATGCTTTTTGGTGCAGCATTATGACTTAGCTTACAGTTGCTATCATACCGCAAAGAAGGATTTTCTTAATGATCAAGCAATGCTTTATGCAGCTGGTGCCTTGGAAATGGCAGCAGTATCAGCTTTTCTTCAACCAGGAGCACCTAGGCCATACCCTGCTCATTACATGGACACAGCAATTCAGACATACAGGGATATCTGCAAGAATATGGTATTGGCCGAAAGATGTGTATTGCTTAGTGCTGAAATTTTAAAAAGTCAAAGCAAATATTCAGAGGCTGCAGCTCTTCTAATACGGTTGACAAGTGAGAACACATGGAAGGGCATGGATTCTGATCTTCGAAGTGCACTTCTTTTGGAACAGGCGGCACATTGCTTCATAAACATGAAGAGCCCCATGGTGAGAAAGTATGCCTTTCACATGATTTTGGCAGGCCACCGCTTTAGTAAAGCAGGACAGAAAAAGCATGCCCTGCGCTGCTATTGTCAAGCCATGCAAGTGTACAAAGGCAAGGGCTGGTCTCTTGCAGAAGATCACATTAACTTCACCATTGGGCGCCAGTCCTACACGCTCAGGCAGCTGGACAATGCCGTGTCTGCCTTTAGGCATATCCTAATCAATGAAAGTAAACAGTCTGCTGCTCAACAGGGAGCTTTCCTCCGAGAGTATCTTTATGTTTATAAGAATGTAAGTCAGCTATCACCAGATGGCGCTTTTCCACAGCTTCCTTTACCTTATATTAACAGTTCAGCGACACGGGTTTTCTTTGGCCACGACAGAAGACCGGCAGATGGTGAAAAGCAAGCAGCTACTCATGTAAGTCTTGATCAAGAATATGACTCTGAGTCCTCTCAGCAGTGGCGAGAACTTGAGGAGCAAGTTGTGGCTGTGGTTAACAAAGGAATTATCCCATCTGGTTTCCATCCCACACAGTACTGTTTGAATAGTTACTCAGATAACTCCAGATTTCCACTTGCAGTAGTAGAAGAACCAATTACAGTGGAAGTGGCTTTTAGAAACCCTTTGAAGGTTCCACTTTTTTTGACTGACTTATCATTGCTCTGGAAGTTTCAACCTAAAGATGTCAATGGAAAGGATACTGAGGAAGTTAGAGAACTAGTTACAGGTGAACCTGAAATGATTGGAGCTGAAGTTATTTCAGAATTCTTAATTAATAGTGAAGAATCTAAAGTGGCAAGACTAAAGCTCTTTCCCCATCACATAGGGGAGCTGCATATTCTGGGAGTTGTGTATAATCTTGGCACTATTCAGGGATCCATGACCGTAGATGGTATTGGTGCTCTTCCTGGATGTCACACAGGAAAACATTCTTTGAGTATGTCAGTCCGAGGGAGGCAGGATTTAGAAATTCAAGGTCCTCGACTTAACAACACAAAAGAAGAGAAAACATCTATTACATATGGTCCAGATCGACGATTAGATCCCATAATCACTGAAGAAATGCCACTCTTGGAGGTGTTCTTTATACATTTTCCTACAGGGCTCCTCTGTGGAGAAATTCGAAAAGCATATGTAGAATTTGCCAATGTCAGCAAATGTCCTCTTACTGGATTGAAGGTTGTTTCTAAACGTCCAGAGTTCTTTACTTTTGGTGGCAATACTGCTGTTTTAACACCACTGAGCCCCTCAGCCTCTGAAAACTGCAGTGCTTACAAGACTGTTGTGACAGACTCTGCCTCTGTGTGTACAGCCCTTGTATCATCAGCTTCTTCTGTAGGCTTTGGCATTGGCATAGGGTGTCAGCCGGAGGTGATTCCTGTTCCCCTTCCTGACACGGTCCTTCTACCTGGAACTTCAGTCCAGCTACCAATGTGGTTACGTGGGCCAGATGAAGAAGGTGTCCATGAAATTAACTTTTTATTTTACTATGAAAGTGTTAAAAAGCAGCCTAAAATACAACATAGAATATTAAGACACACTGCAGTTATTTGTACTAGCCGGTCTTTGAATGTAAAAGCCACTGTCTGCAGAAGTAATTCACTCGAAGATGAAGAAGGCAGAGGAGACAATATGCTAGTCTTTGTCGATGTGGAAAATACCAATACTAGTGAAGCAGGTGTTAAGGAATTCCATATAGTGCAAGTATCAAGTAGTAGCAAGCACTGGAAGTTACAGAAATCTGTAGATCTCTCTGAAAACAAAGATGCCAAACTTGCCAGTAGGGAGAAAGGAAAATTTTGCTTCAAGGCAATAAGATGTAATGAAAGAGAAGGTGTTACACAGTCTTCAGAAAACTATACCTTTGCAGATATCATCTTTGGAAATGAACAGATAATAAGTTCAGCAAGCCCATGTGCAGATTTTTTTTATCAAAGTTTATCTTCTGAATTGAAAAAACCACGAACTCAGTTGTCTATGCATCTAGAAAAACATTCAGTAGAGGATGCCATGAGATTGATTCGAAAGTGCAGTGAGGTGGATTTGAATATTGTCATATTGTGGAAGGCATATGTTGTGGAAGACAGTAAGCAGCTTATTTTGGAAGGTCAGCATCATGTTATTCTTCACACTATAGGAAAAGAAGCCTTCTCATATCCTCAGAAACAGGACCCACCAGAAATGGAACTGTTAAAATTTTTCAGGCCAGAAAACACTTCGGCTTCCTTAAGACCGTCAGCAGAGCAGCTTTCTAATCTCATCAAAACGAGTCTTCACTACCCAGAAACATTTAATCACCCATTTCATCAAAAAAGCCTTTGTTTAGTACCAGTCACACTTTTACTTTCTAACTGTTCTAAGGCTGATGTAGATGTAATAGTTGATCTTCGGCATAAAACCACAAGTCCAGAAGCATTGGAAATCCATGGATCATTCCCATGGCTTGGACAGACACAGTATAAACTTCAACTTAAAAGCCGGGAGATTCACAGTTTGCAGCTGAAAGCATGCTTTGTTCATACAGGTGTTTATAACCTTGGAACTCCTAGGGTATTTGCTAAGTTATCGGACCAAGTTACAGTATTTGAAACAAGTCAGCAGAACTCCATGCCTGCCCTGATTATCATCACTGATGTATGA
Trappc8 trafficking protein particle complex 8, transcript variant X5
Length: 4311 bp Location: 999887..1090664 Strand: +>XM_004853118.1 ATGGCCCAGTGTGTACAATCCGTGCAGGAGCTCATCCCGGACTCCTTCGTTCCCTGTGTCGCCGCGCTGTGCAGCGACGAAGTCGAGCGGCTTACTCGTCTCAATCACCTGAGCTTCGCGGAGCTGCTTAAGCCCTTCTCGCGCCTCACTTCCGAGGTTCATATGAGAGATCCTAATAATCAACTTCACATAATTAAAAATTTGAAGATAGCAGTGAGCAACATTGTCACACAACCACCTCAGCCTGGAGCCATTCGAAAGCTGCTGAATGATGTTGTTTCTGGCAGTCAGCCTTCGGAAGGATTAGTAGCTAATGTGATTACAGCAGGAGATTATGACCTTAACATCAGTGCTACTACTCCATGGTTTGAGTCTTACAGAGAGACCTTTCTTCAGTCGATGCCGGCATCAGATCATGAATTTCTGAACCACTATTTAGCATGTATGTTGGTAGCATCGTCTAGTGAAGCTGAACCTATGGAACAGTTTTCAAGGTTGTCACAAGAACAGCATCGAATTCAGCACAACAATGATTATTCCTACCCCAAATGGTTTATACCAAATACACTTAAATATTATGTGCTGCTACATGATGTGAGTGCAGGAGATGAACAGAGAGCTGAATCAATTTATGAAGAGATGAAACAAAAATATGGAACTCAGGGTTGCTATTTACTTAAAATTAATTCTCGAACGTCAAATCGAGCATCAGATGAACAGATACCAGATCCTTGGAGTCAGTATCTCCAGAAAAATAGTATTCAAAACCAGGAATCATATGAAGATGGCCCTTGTACTATAACTTCAAATAAGAATTATGATAGTAACTTGCTTTCATTGGATGGATTAGATAACGAAGTCAAAGTAGATGCCTTACCAAATAACTTTAGAACTCACCCACTTCAACCGGACCAGCCCAGCGAGTCTTCTAACAGCATCGATGGCCCAGACCATGTAAAATCTGCTTCTTCATTACATGAAACAAAGAAAGCAAATACTGGAGTAATTCATGGTGCGTGTTTAACACTTACTGATCATGATAGAATTCGACAGTTTATACAGGAGTTTACATTTCGCGGCCTTTTGCCACATATAGAGAAAACAATTCGGCAATTAAATGATCAGCTAATATCAAGAAAAGGTTTGAGTCGATCTCTATTTTCTGCAACTAAAAAATGGTTTAGTGGCAGTAAAGTTCCAGAAAAGAGCATTAATGAATTGAAAAACACATCTGGGCTGCTGTATCCCCCGGAAGCACCAGAGCTTCAAATCAGGAAAATGGCTGACTTATGCTTTTTGGTGCAGCATTATGACTTAGCTTACAGTTGCTATCATACCGCAAAGAAGGATTTTCTTAATGATCAAGCAATGCTTTATGCAGCTGGTGCCTTGGAAATGGCAGCAGTATCAGCTTTTCTTCAACCAGGAGCACCTAGGCCATACCCTGCTCATTACATGGACACAGCAATTCAGACATACAGGGATATCTGCAAGAATATGGTATTGGCCGAAAGATGTGTATTGCTTAGTGCTGAAATTTTAAAAAGTCAAAGCAAATATTCAGAGGCTGCAGCTCTTCTAATACGGTTGACAAGTGAGGATTCTGATCTTCGAAGTGCACTTCTTTTGGAACAGGCGGCACATTGCTTCATAAACATGAAGAGCCCCATGGTGAGAAAGTATGCCTTTCACATGATTTTGGCAGGCCACCGCTTTAGTAAAGCAGGACAGAAAAAGCATGCCCTGCGCTGCTATTGTCAAGCCATGCAAGTGTACAAAGGCAAGGGCTGGTCTCTTGCAGAAGATCACATTAACTTCACCATTGGGCGCCAGTCCTACACGCTCAGGCAGCTGGACAATGCCGTGTCTGCCTTTAGGCATATCCTAATCAATGAAAGTAAACAGTCTGCTGCTCAACAGGGAGCTTTCCTCCGAGAGTATCTTTATGTTTATAAGAATGTAAGTCAGCTATCACCAGATGGCGCTTTTCCACAGCTTCCTTTACCTTATATTAACAGTTCAGCGACACGGGTTTTCTTTGGCCACGACAGAAGACCGGCAGATGGTGAAAAGCAAGCAGCTACTCATGTAAGTCTTGATCAAGAATATGACTCTGAGTCCTCTCAGCAGTGGCGAGAACTTGAGGAGCAAGTTGTGGCTGTGGTTAACAAAGGAATTATCCCATCTGGTTTCCATCCCACACAGTACTGTTTGAATAGTTACTCAGATAACTCCAGATTTCCACTTGCAGTAGTAGAAGAACCAATTACAGTGGAAGTGGCTTTTAGAAACCCTTTGAAGGTTCCACTTTTTTTGACTGACTTATCATTGCTCTGGAAGTTTCAACCTAAAGATGTCAATGGAAAGGATACTGAGGAAGTTAGAGAACTAGTTACAGGTGAACCTGAAATGATTGGAGCTGAAGTTATTTCAGAATTCTTAATTAATAGTGAAGAATCTAAAGTGGCAAGACTAAAGCTCTTTCCCCATCACATAGGGGAGCTGCATATTCTGGGAGTTGTGTATAATCTTGGCACTATTCAGGGATCCATGACCGTAGATGGTATTGGTGCTCTTCCTGGATGTCACACAGGAAAACATTCTTTGAGTATGTCAGTCCGAGGGAGGCAGGATTTAGAAATTCAAGGTCCTCGACTTAACAACACAAAAGAAGAGAAAACATCTATTACATATGGTCCAGATCGACGATTAGATCCCATAATCACTGAAGAAATGCCACTCTTGGAGGTGTTCTTTATACATTTTCCTACAGGGCTCCTCTGTGGAGAAATTCGAAAAGCATATGTAGAATTTGCCAATGTCAGCAAATGTCCTCTTACTGGATTGAAGGTTGTTTCTAAACGTCCAGAGTTCTTTACTTTTGGTGGCAATACTGCTGTTTTAACACCACTGAGCCCCTCAGCCTCTGAAAACTGCAGTGCTTACAAGACTGTTGTGACAGACTCTGCCTCTGTGTGTACAGCCCTTGTATCATCAGCTTCTTCTGTAGGCTTTGGCATTGGCATAGGGTGTCAGCCGGAGGTGATTCCTGTTCCCCTTCCTGACACGGTCCTTCTACCTGGAACTTCAGTCCAGCTACCAATGTGGTTACGTGGGCCAGATGAAGAAGGTGTCCATGAAATTAACTTTTTATTTTACTATGAAAGTGTTAAAAAGCAGCCTAAAATACAACATAGAATATTAAGACACACTGCAGTTATTTGTACTAGCCGGTCTTTGAATGTAAAAGCCACTGTCTGCAGAAGTAATTCACTCGAAGATGAAGAAGGCAGAGGAGACAATATGCTAGTCTTTGTCGATGTGGAAAATACCAATACTAGTGAAGCAGGTGTTAAGGAATTCCATATAGTGCAAGTATCAAGTAGTAGCAAGCACTGGAAGTTACAGAAATCTGTAGATCTCTCTGAAAACAAAGATGCCAAACTTGCCAGTAGGGAGAAAGGAAAATTTTGCTTCAAGGCAATAAGATGTAATGAAAGAGAAGGTGTTACACAGTCTTCAGAAAACTATACCTTTGCAGATATCATCTTTGGAAATGAACAGATAATAAGTTCAGCAAGCCCATGTGCAGATTTTTTTTATCAAAGTTTATCTTCTGAATTGAAAAAACCACGAACTCAGTTGTCTATGCATCTAGAAAAACATTCAGTAGAGGATGCCATGAGATTGATTCGAAAGTGCAGTGAGGTGGATTTGAATATTGTCATATTGTGGAAGGCATATGTTGTGGAAGACAGTAAGCAGCTTATTTTGGAAGGTCAGCATCATGTTATTCTTCACACTATAGGAAAAGAAGCCTTCTCATATCCTCAGAAACAGGACCCACCAGAAATGGAACTGTTAAAATTTTTCAGGCCAGAAAACACTTCGGCTTCCTTAAGACCGTCAGCAGAGCAGCTTTCTAATCTCATCAAAACGAGTCTTCACTACCCAGAAACATTTAATCACCCATTTCATCAAAAAAGCCTTTGTTTAGTACCAGTCACACTTTTACTTTCTAACTGTTCTAAGGCTGATGTAGATGTAATAGTTGATCTTCGGCATAAAACCACAAGTCCAGAAGCATTGGAAATCCATGGATCATTCCCATGGCTTGGACAGACACAGTATAAACTTCAACTTAAAAGCCGGGAGATTCACAGTTTGCAGCTGAAAGCATGCTTTGTTCATACAGGTGTTTATAACCTTGGAACTCCTAGGGTATTTGCTAAGTTATCGGACCAAGTTACAGTATTTGAAACAAGTCAGCAGAACTCCATGCCTGCCCTGATTATCATCACTGATGTATGA
Trappc8 trafficking protein particle complex 8, transcript variant X6
>XM_004853119.1 ATGGCCCAGTGTGTACAATCCGTGCAGGAGCTCATCCCGGACTCCTTCGTTCCCTGTGTCGCCGCGCTGTGCAGCGACGAAGTCGAGCGGCTTACTCGTCTCAATCACCTGAGCTTCGCGGAGCTGCTTAAGCCCTTCTCGCGCCTCACTTCCGAGGTTCATATGAGAGATCCTAATAATCAACTTCACATAATTAAAAATTTGAAGATAGCAGTGAGCAACATTGTCACACAACCACCTCAGCCTGGAGCCATTCGAAAGCTGCTGAATGATGTTGTTTCTGGCAGTCAGCCTTCGGAAGGATTAGTAGCTAATGTGATTACAGCAGGAGATTATGACCTTAACATCAGTGCTACTACTCCATGGTTTGAGTCTTACAGAGAGACCTTTCTTCAGTCGATGCCGGCATCAGATCATGAATTTCTGAACCACTATTTAGCATGTATGTTGGTAGCATCGTCTAGTGAAGCTGAACCTATGGAACAGTTTTCAAGGTTGTCACAAGAACAGCATCGAATTCAGCACAACAATGATTATTCCTACCCCAAATGGTTTATACCAAATACACTTAAATATTATGTGCTGCTACATGATGTGAGTGCAGGAGATGAACAGAGAGCTGAATCAATTTATGAAGAGATGAAACAAAAATATGGAACTCAGGGTTGCTATTTACTTAAAATTAATTCTCGAACGTCAAATCGAGCATCAGATGAACAGATACCAGATCCTTGGAGTCAGTATCTCCAGAAAAATAGTATTCAAAACCAGGAATCATATGAAGATGGCCCTTGTACTATAACTTCAAATAAGAATTATGATAGTAACTTGCTTTCATTGGATGGATTAGATAACGAAGTCAAAGATGCCTTACCAAATAACTTTAGAACTCACCCACTTCAACCGGACCAGCCCAGCGAGTCTTCTAACAGCATCGATGGCCCAGACCATGTAAAATCTGCTTCTTCATTACATGAAACAAAGAAAGCAAATACTGGAGTAATTCATGGTGCGTGTTTAACACTTACTGATCATGATAGAATTCGACAGTTTATACAGGAGTTTACATTTCGCGGCCTTTTGCCACATATAGAGAAAACAATTCGGCAATTAAATGATCAGCTAATATCAAGAAAAGGTTTGAGTCGATCTCTATTTTCTGCAACTAAAAAATGGTTTAGTGGCAGTAAAGTTCCAGAAAAGAGCATTAATGAATTGAAAAACACATCTGGGCTGCTGTATCCCCCGGAAGCACCAGAGCTTCAAATCAGGAAAATGGCTGACTTATGCTTTTTGGTGCAGCATTATGACTTAGCTTACAGTTGCTATCATACCGCAAAGAAGGATTTTCTTAATGATCAAGCAATGCTTTATGCAGCTGGTGCCTTGGAAATGGCAGCAGTATCAGCTTTTCTTCAACCAGGAGCACCTAGGCCATACCCTGCTCATTACATGGACACAGCAATTCAGACATACAGGGATATCTGCAAGAATATGGTATTGGCCGAAAGATGTGTATTGCTTAGTGCTGAAATTTTAAAAAGTCAAAGCAAATATTCAGAGGCTGCAGCTCTTCTAATACGGTTGACAAGTGAGGATTCTGATCTTCGAAGTGCACTTCTTTTGGAACAGGCGGCACATTGCTTCATAAACATGAAGAGCCCCATGGTGAGAAAGTATGCCTTTCACATGATTTTGGCAGGCCACCGCTTTAGTAAAGCAGGACAGAAAAAGCATGCCCTGCGCTGCTATTGTCAAGCCATGCAAGTGTACAAAGGCAAGGGCTGGTCTCTTGCAGAAGATCACATTAACTTCACCATTGGGCGCCAGTCCTACACGCTCAGGCAGCTGGACAATGCCGTGTCTGCCTTTAGGCATATCCTAATCAATGAAAGTAAACAGTCTGCTGCTCAACAGGGAGCTTTCCTCCGAGAGTATCTTTATGTTTATAAGAATGTAAGTCAGCTATCACCAGATGGCGCTTTTCCACAGCTTCCTTTACCTTATATTAACAGTTCAGCGACACGGGTTTTCTTTGGCCACGACAGAAGACCGGCAGATGGTGAAAAGCAAGCAGCTACTCATGTAAGTCTTGATCAAGAATATGACTCTGAGTCCTCTCAGCAGTGGCGAGAACTTGAGGAGCAAGTTGTGGCTGTGGTTAACAAAGGAATTATCCCATCTGGTTTCCATCCCACACAGTACTGTTTGAATAGTTACTCAGATAACTCCAGATTTCCACTTGCAGTAGTAGAAGAACCAATTACAGTGGAAGTGGCTTTTAGAAACCCTTTGAAGGTTCCACTTTTTTTGACTGACTTATCATTGCTCTGGAAGTTTCAACCTAAAGATGTCAATGGAAAGGATACTGAGGAAGTTAGAGAACTAGTTACAGGTGAACCTGAAATGATTGGAGCTGAAGTTATTTCAGAATTCTTAATTAATAGTGAAGAATCTAAAGTGGCAAGACTAAAGCTCTTTCCCCATCACATAGGGGAGCTGCATATTCTGGGAGTTGTGTATAATCTTGGCACTATTCAGGGATCCATGACCGTAGATGGTATTGGTGCTCTTCCTGGATGTCACACAGGAAAACATTCTTTGAGTATGTCAGTCCGAGGGAGGCAGGATTTAGAAATTCAAGGTCCTCGACTTAACAACACAAAAGAAGAGAAAACATCTATTACATATGGTCCAGATCGACGATTAGATCCCATAATCACTGAAGAAATGCCACTCTTGGAGGTGTTCTTTATACATTTTCCTACAGGGCTCCTCTGTGGAGAAATTCGAAAAGCATATGTAGAATTTGCCAATGTCAGCAAATGTCCTCTTACTGGATTGAAGGTTGTTTCTAAACGTCCAGAGTTCTTTACTTTTGGTGGCAATACTGCTGTTTTAACACCACTGAGCCCCTCAGCCTCTGAAAACTGCAGTGCTTACAAGACTGTTGTGACAGACTCTGCCTCTGTGTGTACAGCCCTTGTATCATCAGCTTCTTCTGTAGGCTTTGGCATTGGCATAGGGTGTCAGCCGGAGGTGATTCCTGTTCCCCTTCCTGACACGGTCCTTCTACCTGGAACTTCAGTCCAGCTACCAATGTGGTTACGTGGGCCAGATGAAGAAGGTGTCCATGAAATTAACTTTTTATTTTACTATGAAAGTGTTAAAAAGCAGCCTAAAATACAACATAGAATATTAAGACACACTGCAGTTATTTGTACTAGCCGGTCTTTGAATGTAAAAGCCACTGTCTGCAGAAGTAATTCACTCGAAGATGAAGAAGGCAGAGGAGACAATATGCTAGTCTTTGTCGATGTGGAAAATACCAATACTAGTGAAGCAGGTGTTAAGGAATTCCATATAGTGCAAGTATCAAGTAGTAGCAAGCACTGGAAGTTACAGAAATCTGTAGATCTCTCTGAAAACAAAGATGCCAAACTTGCCAGTAGGGAGAAAGGAAAATTTTGCTTCAAGGCAATAAGATGTAATGAAAGAGAAGGTGTTACACAGTCTTCAGAAAACTATACCTTTGCAGATATCATCTTTGGAAATGAACAGATAATAAGTTCAGCAAGCCCATGTGCAGATTTTTTTTATCAAAGTTTATCTTCTGAATTGAAAAAACCACGAACTCAGTTGTCTATGCATCTAGAAAAACATTCAGTAGAGGATGCCATGAGATTGATTCGAAAGTGCAGTGAGGTGGATTTGAATATTGTCATATTGTGGAAGGCATATGTTGTGGAAGACAGTAAGCAGCTTATTTTGGAAGGTCAGCATCATGTTATTCTTCACACTATAGGAAAAGAAGCCTTCTCATATCCTCAGAAACAGGACCCACCAGAAATGGAACTGTTAAAATTTTTCAGGCCAGAAAACACTTCGGCTTCCTTAAGACCGTCAGCAGAGCAGCTTTCTAATCTCATCAAAACGAGTCTTCACTACCCAGAAACATTTAATCACCCATTTCATCAAAAAAGCCTTTGTTTAGTACCAGTCACACTTTTACTTTCTAACTGTTCTAAGGCTGATGTAGATGTAATAGTTGATCTTCGGCATAAAACCACAAGTCCAGAAGCATTGGAAATCCATGGATCATTCCCATGGCTTGGACAGACACAGTATAAACTTCAACTTAAAAGCCGGGAGATTCACAGTTTGCAGCTGAAAGCATGCTTTGTTCATACAGGTGTTTATAACCTTGGAACTCCTAGGGTATTTGCTAAGTTATCGGACCAAGTTACAGTATTTGAAACAAGTCAGCAGAACTCCATGCCTGCCCTGATTATCATCACTGATGTATGA
LOC101725925 PREDICTED: Heterocephalus glaber uncharacterized LOC101725925 (LOC101725925), misc_RNA.
Length: 557 bp>XR_205603.1 GTTTGTTTGGTTTTTTTTGGTGCCGGGGATCGAACTAGGGTGCTTGAACTACTGCATACTCTCAATCAGCCTGAGGTCCAGCTTGGCTGTTCTAGGACATCATATGAATACAATCATACAATGTGGACTCTAGGCAAGGCTTCCACCACTCCTCCTGATGTTTCTGAGATTCATCCAGGTTCCTGCATATCTTTGTGTCTTCACCGCCTACAAAGCTCTGGTTCTCAATCAAGTGCTCTCAGCGAAAGAAATTCATAATTGGAATCCAGGAAGGCATGACTGATGGCCAACCCATGCTTGTGAGCCTTGATAGCATAGTAAAAATCACACCCTGAGGTAGAGACTTAAGATGGCAATGGAACATGCATGGGATAAAGAAACATGACAACGAAGACTGCAACTAGAACTCCACTTCTCCCTACCCTGACATGGAGAGACCAGGCCTTGTCTACCTCACAGATGCCATAGAAGGTTTTGTCCTTCGTTTGGGTCAGCCTGGGGTTCCTCTCCCTCACAGTTTTCCCCTTGTGCTCTAGCCTAAGAATAAAAGCCTTATG
Dsg4 desmoglein 4
Length: 3183 bp Location: 1491069..1457016 Strand: ->XM_004853296.1 ATGCCAACTATTTCACTCAATAATTTTTATAAGCATTATTCAAGAGATAACTGCTTATTAATAAGTTGGTCTAGGTGTGCAAATGACTTCAAAACTGACTTCAAAAAGGTGGTGCTGGCAATAAACAGTGAGTTTATCGTTGAGGTGAAAGAATTGGACATGGAAAACGGCACTACAACGTGGCAAACCGTCAGAAGACAGAAGAGGGAGTGGATCAAGTTTGCAGCGGCTTGTCGGGAAGGAGAGGACAACTCAAAGAGGAATCCAATCGCCAGAATTCGCTCCGACTGCGAAGTGAACCAGAAAATCACCTACCGCATCTCCGGGGCAGGGATTGATCGGCCACCTTATGGTGTGTTCACCATTAATCCTCGGACTGGGGAAATCAACATCACTTCGGTGGTGGACAGAGAGATAACTCCACTTTTCTTGATCTACTGCCGCGCTCTGAACTCACGGGGTGAAGATTTAGAGAGTCCGCTGGAGCTCAGAGTCAAGGTCATGGACATAAACGATAATGCCCCAGTCTTCACCCAAAACATCTACACGGCCAGCATTGAAGAGAACTGCAACGCCAATGCCCTGGTGGTAAAGTTGAGTGCCACTGATGCAGATGAAGACAACCATCTGAATTCTAAGATTGCCTATAAGATCATCTCTCAGGAGCCTGCAGGTGCCCCAATGTTCATGGTGAACAGGTATACTGGAGAAGTCCACACGATGTCCAGTTTCCTTGACAGAGAGCAACATAGTATGTACAACCTGCTCGTGAGGGGCTCAGATCGGGACGGAGCCACCGATGGGCTGTCCTCCGAGTGTGACTGCAGAATCAAGGTTTTAGATGTCAATGATAATTTCCCTGTCTTGGAAAAAACGTCATACTCAGCAAGTATCAAAGAAAATTGTTTGAGTTCAGAACTGATACGATTACAAGCAATTGATCTTGATGAAGAAGGCACCAATAATTGGCTGGCAAAATATGTAATCCTCTCTGGAAATGAGGGAAACTGGTTTGATATTCAAACAGACCCAGAAACCAATGAAGGCATTTTGAAGGTCATCAAGACATTAGATTATGAAACAATGCCTAATGTTCATCTTGGTATTGGAGTTAAAAACCAAGCTGAATTTCACCACTCGGTTGCTTCTCAATTCCGGATGCACTCAATCCCTGTGAGAATTCAGATTATTAATGTAAAAGAAGGACACACATTTCATCCAAGTTCCAAGACTTTCAGTGTACGAGAAGGAATAACAGGACACTCCTTACTGACTCGTGTGCTTGGCACATACACTGCTATCGATTTGGATACAGGAAATCCTGCAACAAATGTCAGGTATATCATAGGGCATGATGCAGGCAGCTGGTTAAAAGTTGATTCAAGGACTGGTGAGATACAGTTTTCTAGGGAATTCGATAAGAAGTCAAAATACATTACCAATGGGATATACACAGCAGAGATCCTGGCTATAGAAGATGGCTCTCGGAAGACCGCCACAGGAACCATATGTATCGAGGTTCCTGATGCCAACGATTACTGTCCAGTCGTTTATTCTGAAACAAATATCATCTGTACTAATTCTCCATCAGTCCTCATCTATGTCCGTGACTCTTCTTACGGGGCTCCCTTTACCTTCTGTGTTGTGGACCAGCCACCACACACAGCTCAAATGTGGGATATCAGACCCATAAATGATACTGCTGCCATCCTTATGACTGAGCAGATTTTATCAGAGCAACTTTACCAAGTCCCCATCCTAGTAAAGGACAGCTATAACAGACAGTGTGAACTGGCACAGATTGTGCAGTTAAATGCCTGCGATTGTGACAGCAACCACGTGTGCTGGCAGTGGAGTACCACAGGCATCTATAATGGGGATGTCAGCTCAGTGACTGCTGACATGAATGGGTTTGCCACTGATCATGGAGTTGAGGATTCAAATGTTGGGCTTGGACCTGGGGGGATCAGCATGATTGTTCTGGGCCTCTTATTAGTGCTTCTGTCACCACTCTTGCTGCTCATGTGCTGCTGCAAACGACGACAGCCAGAAGGCCTGGGGACCGGGTTTGCTCCTGTGCCTGAGGGGGGCGAAGGAGTGATACAGCCCTGGAGAATAGAAGGGGCCCATCCTGAGGACAGGGATGTGTCACATATATGCGGACCCATGACAGCTTCTAATACCCAGGATCATATTGATTCTTCTGAAATCTACACGAACACCTACGCAGGCGGAGGGACGGTGGAAGGGGGCGTGTCCGGAGTGGACCTCAACACCGCCGTGGGGACCGCAGGGGGCCTGGCCAGCGGGCCGGCGGCTGGAGCCTCGGGGAAGAGGAGCTCCACCATGGGCACCCTGCGGGAGTACGCGGACGCCGGCCTGAACGCGGCCTTCCTGGACGGCTACTTCTCCGAGAAAGCATATGCATATGCAGATGAAGACGAAGGCCGGCCAGCCAATGACTGCCTGCTCATTTACGACCATGAAGGAGTGGGGTCTCCCGTGGGCTCCATCGGGTGCTGCAGTTGGATTGTGGACGACTTAGATGAAGGCTACATGGAAACCTTAGATCCAAAATTTCGAACTCTTGCTGAAATCTGCTTAGACACAGAAATTGAGCCATTCCCTTCACACCAGGCCTGTATACCCATCAGTACTGACCTCCCTCTGCTCGGCCCTAACTACTTTGTGAACGAATCTTCAGGAATGACTCTCTCAGAGGCTGAATTCCAAGCAGAAATGGCAACAGCTGAACCAGTCATTCATGGGGACATCATAGTGACCGAGACCTACACTACTGCTGAGCCATGTGTCCAACCCACTACCATTGTCTTTGACCCGCAGCTCCCACCCTCTGTTGTAGTAACTGAGACAGTAATGGCACCTGTCTATGATGTTCAAGGGAATATTTGTGTACCTGCTGAGTTAGCCAACACACACGATGTATACCATGCTGAGAGAGTATTGGCTAGCCCTGGGATGCCTGACATGAACAGTGCTGGCATGGCTGATGCTTGTGTGGGACCTGTGATGAGTGGTGGTATCTTGGTAGGTCCAGAAATTCAAGTGACACAAATGGTGAGTCCAGACATTCACATAAGCCAAACCATCGGCTGTACATCTCCGATGACACCTCGACATAGAGTAACACGATATAGTAATATACGTTACTCCCCGCAGTAA
B4galt6 UDP-Gal:betaGlcNAc beta 1,4- galactosyltransferase, polypeptide 6, transcript variant X1
>XM_004853120.1 ATGTCTGTGCTCCGGCGGATGACGCGGGTCTCCAATCGCTCCCTCCTCGCCTTCATCTTCTTCTTCTCCCTCTCCTCGTCTTGTCTCTACTTCATCTATGTGGCTCCGGGAATCGCCAACACATATCTCTTTATGGTACAAGCCCGAGGTATAATGTTGAGAGAAAATGTGAAGACAATAGGACACATGATCAGACTGTACACCAATAAAAACACAACGCTCAATGGTACAGATTATCCTGAAGGCAATAATTCAAGTGATTATCCTGTCCAAACAACAACGTATCTTCCAGAAAACTTCACATATTCACCATACCTCCCCTGCCCAGAAAAACTGCCTTACATGCGGGGATTCCTCAATGTCAATGTAAGTGAAGTCAGTTTTGATGAAGTGCATCAGCTCTTCTCCAAGGATTTAGATATTGAGCCAGGAGGTCACTGGAGGCCTAAAGACTGTAAACCCAGATGGAAGGTGGCAGTTCTCATTCCTTTCCGTAATCGCCATGAGCATCTTCCAATTTTTTTCTTGCACCTGATTCCTATGCTCCAGAAACAGCGGCTGGAATTTGCCTTTTATGTCATTGAACAGACTGGCACACAGCCTTTTAACCGTGCAATGCTCTTCAATGTGGGGTTCAAAGAAGCCATGAAGGACAGTGTCTGGGACTGTGTGATCTTCCACGATGTGGATCATCTCCCTGAAAATGACCGGAACTACTATGGATGTGGAGAAATGCCGCGTCACTTTGCAGCAAAGCTGGATAAATACATGTATATTCTTCCATATAAAGAGTTTTTTGGTGGTGTAAGTGGACTGACAGTGGAACAGTTTGGAAAGATCAATGGTTTCCCTAATGCCTTCTGGGGGTGGGGAGGAGAAGATGATGACCTCTGGAACAGAGTACACTATGCTGGATATAATGTAACCAGACCAGAGGGAGATTTAGGGAAATACAAGTCTATTCCTCATCATCATCGAGGGGAAGTCCAGTTTTTAGGACGGTATAAATTACTAAGGTATTCTAAAGAACGTCAGTACATCGATGGGTTGAACAATTTATTATACACTCCAAAAATACTGGTTGATAGGTTGTATACAAATATATCTGTAAACCTCATGCCAGAGTTAGCTCCAATCGAAGACTATTAA
Dsg2 desmoglein 2, transcript variant X1
>XM_004853123.1 ATGGTGCGGAGCCTGTGGAGCCCGGGGCGCCGGTGCGAGCAGCCGCCGCCACTGCCGCTGCTGCTGCTGCTGCTGCTGCTGATCTGCTTTACGTTTGGAAATGGACTTCACTTAGAGACCTTAAACACACGAAGTGATAGCAGGCTCCTCCCCAAACACACTCACCTCGTGCGGCAGAAGCGGGCCTGGATCACTGCCCCAGTGTCTCTTCGGGAGGGAGAGGACCTGTCCAGAAAGAACCCCATTGCCAAGATACATTCTGATATTGCGGAAGAAAGGGGAGTAAAAATTACATACAAATACACTGGAGTAGGGATTACAGAGCCTCCTTTTGGTATATTTGTCTTTAACAAAGACACTGGAGAACTGAATGTTACCAGCATTCTTGATCGGGAAGAAACACCATTTTTTCTGCTAATGGGCTATGCTTTGGATTCAAGAGGAAACAATCTAGAAAAACCACTAGAACTGCGCATTAAGGTTCTTGATATCAATGACAATGAGCCTGTGTTCACGGAGGAAGTCTTTGTTGGGTCTGTTGAAGAATTGAGTGCAGCACATACACTTGTGATGAAAATCATTGCAACGGATGCAGATGAGCCCAATACTATGAATTCTAAAATTTCCTACAGAATTGTATCTCAGGAGCCTGCATATCCTCCAGTGTTCTACCTTAATAAAGATACAGGAGAGATTTATACAACCAGCATTGCCTTGGACCGAGAGGAACACAGCAGCTATTCTTTGACCGTGGAAGCAAAAGATGACAATGGACAAATAACAGACAAACCAGTACACCAAGCTCAAGTTCAGATTCGCATTTTGGATGTCAATGACAATATACCTGTAGTGGAACGTGAAATGTATGAAGGGATGATTGAAGAAAATCAAGTCAATGTAGAAGTTATGCGCATAAAAGTGACAGATGCAGATGAATTAGGCTCTGATAACTGGTTAGCAAATTTTACATTTGCGTCAGGAAATGAAGGGGGTTATTTCCACATAGAAACTGATGCTCAAACTAATGAAGGGATTGTGACCCTTGTTAAGGAAGTGGATTATGAAACAATGAAGAATCTTGACTTCAGTATTATTGTCACTAATAAAGCAGCTTTTCACAAATCAATTAGGAATAAGTATAAACCTACAGCCATTCCTATCAAAGTAAAGGTGAATAATGTGAAAGAAGGTATTCATTTCAAAAGCAGCACAATTTCAGTTCGTACTAGTGAAGGAATGGATAAGTCAAGCCAAAGCCAATCAATTGGAAAATTTGAAGTTTTTGATGAAGACACTGGACAGTCACCTCATGTAAAATACGTAAAGTTGGAAGATGGAGACAATTGGGTCTCTGTGGATTCGGTCACGTCAGAAATTAGACTTGTAAAAATTCCTGATTTTGAATCACGCTACGTCCACAATGGTACATATACTGTAAAAGTTTTGGCCGTATCACAAGATCATCCTAGAAAAACCATCACAGGCACCGTCCTTATCACAGTTGAAGACATCAATGACAACTGTCCTACACTGGTGAACCCTGTGCAGAGCATCTGTGAAGACCAGCCATATGTGAATGTTACGGCGGAGGACCTTGATGGACACCCCAACAGTTGGCCTTTCAGCTTCTCCATCATTGATACACCACCCGGAATGACAGAAAAATGGAAAATAATACGCCAAGAAAGTACCAGTGTGCTGCTACAGCAGGGTGAACGCCAGCTCGGGAGAAGTGAAATCCCGTTGCTGATTTCGGACAATCAGGGCTTCAGCTGCCCAGAGCAGCAGGTCCTCCAGCTGATGGTCTGCGAGTGCCTGCAGGGCAGTGGCTGTGTGGAGGCGCAGCGTGGCTCCTACGTGGGCCTGGGGCCCGCAGCGGTGGCACTCATGATTTTGGCCCTTCTGCTCTTGCTGATTGTGCCACTTTTGCTGCTGCTGTGTCATTGTGGAGAGGGCGCCAAAGGCTTCACCCCCATACCTGGCACTATAGAGATGCTGCATCCTTGGAACAATGAAGGGGCGCCACCTGAAGACAAGGTGGTGCCGTCGCTCCTGGCCGTGGATCACGGGGAGAATCTTGCAGCAAGAAATGGAGTAGGAGGTGCAATAACCAAGGAAGCCACCAGGAAAGGAAGTAGCTCTGCTTCCTTTTCCAGAGTGCAGCATGACTTGACCGAGGCGAACGGGAGATGGGAAGAACACAGAAGCCTCCTCAGCGGTGCGGCTGCCCAGGCGACGGGAACAGCAGGAGCCCAGCTCGGTGCTGAGACCATGCGGACCGTGAGAGCCGTGGGGGCTTCCAGAGATGCAACCGGAGCCCGAGCCGCTTCTGCTGGTGCAGTCAGTGAGGAATTCTTAAGGGATTATTTCTCTGATAAGGCAGCTTCCTACAGTGAGGAAGATGACATTCACGTGGCCAAAGACTGCCTTCTGGTGTACTCTCAGGAAGAAACAGAATCTCTTCACGGTTCCGTTGGCTGTTGCAGTTTTATTGAAGGAGAACTAGACGACAGTTTCTTAGATGATTTGGGACTTAAATTCAAGACACTAGCTGAGGTTTGCTTGGGTCAAAAAATAGATGTGGATATGGAAATTGAGCAGAGGCCAAAACCTGTCAAAGAAACAAATTTGACCAGAGCTGCACACTCGCTCTATGAGCAAACCACGTTTAATTCAGACAATACCCACTCCTCTGGCAGCAGCTTTCAAGTTCCCAAACCTTTGCATGAAACCAAAGCAGAGAAGCTCACTCAGGAAATAGTCACCGAGAGATCGGTATCCTCCAGGCAGGGTCAGAAGGTGGCGCCACCTCTTCCTGATCCACTGGCTTCTGGTAATATCATAATGACAGAAACGTCCTATACCACAGGCTCCGCTATGCCACCAAGCACTGTGGTCCTGGGTCCCGGACAGCCCCAGAGTCTTGTCGTGACGGAGAGGGTGTATGCGCCAGCTTCCACCTTGGTAGGTCAGCAGTATGCTGGGGAGAGTAATGTCGTGGTGACTGAAAGAGTGATCCAGCCTAATGGGGGCGTCCCACATCCTCTGGGAGGCACCCAGCATCTGCAGGATGCACAGTACGTTATGGTGAGGGAAAGAGAAAGCGTCCTTGCGCCCACCTTGGCCACGCCCAGTGCGGCCGCGGTAGGACAGAATGTGACAGTGACAGAAAGAGTGCTAACTCCTGCTTCCACTCTGGAATCCAGTTACCAAATTGCCACTGAAGCCTCAGGGAAGGCTGGGAGGGCCATGGTTTCTGGGGCTGGAGTCCCTGGCCCTCTGCCACATTCTGGTTTGGAAGGATCTGGCCATTCAGATTCTACCATAACCACGTCCTCCACCAGGGTCACCAAGCACAGTACTGTGCAGCATTCTTATGCCTAA
Ttr transthyretin
>XM_004853122.1 ATGGCCTCTCATCGTCTGCTCCTCCTTTGCCTTGCTGGACTGGTATTTGTGTCTGAAGCTGACCCTGTGAGCACTGACGAAGACAAGTGTCCTCTGATGGTCAAAGTCCTAGATGCCGTTCGAGGCAGTCCTGCTGTTGGTGTGGTTGTGAAAGTGTCCAGAAAAGCTGCTGATGACACCTGGGAGCCATTTGCCACTGGAAAAACTGGTGAAACTGGAGAGCTGCACGGGCTCACAACCGACAGGGACTTTGTTGAAGCAATGTACAAAGTGGAATTAGATACCAAATCTTACTGGACGGCGCTTGGCATTTCCCCATTCCATGAATACGCAGAGGTGGTGTTCACAGCAAATGACTCTGGCAAGCGCCACTATACCATCGCAGCCCTGCTCAGCCCCTACTCTTATTCCACCACCGCAGTCGTCACCAACCCCAAGGCATGA
Dsg1 desmoglein 1, transcript variant X1
Length: 3234 bp Location: 1551303..1517027 Strand: ->XM_004853125.1 ATGGACTGGCCACCCTTCACAGCAGCTGTCCTGCTCCTCTGCCTGGTCATGGCTGAAGTTAACAGTGAATTTCGAATCCAGGTAAGAGATCATAATGCTAAAAATGGCACCATCAAGTGGCATTCAATCAGAAGACAAAAGCGTGAATGGATCAAGTTTGCTGCAGCCTGCCGCGAAGGCGAAGACAACTCCAAGAGAAACCCAATTGCCAAAATTCATTCAGATTGTGCTGCAAACCAGCAAGTTACCTACCGCATCTCTGGAGTAGGAATTGATCAGCCACCTTATGGAATCTTTGTAATTAATCAAAAAACTGGTGAAATTAATATAACATCTATAGTTGATCGAGAGGTCACTCCTTATTTCATTATTGTTTGCCGGGCTTTGAATTCACAAGGTCAAGATTTAGAGAGGCCACTTGAGCTCAGAGTCAGGGTTTTGGATATAAATGACAACCCTCCAGTGTTTTCCATGGCTACATTTATAGGACAAATAGAAGAAAATTCTAATGCAAATACTTTGGTGATGAAACTCAATGCTACTGATGCCGATGAACCAAACAACTTGAATTCAAAAATCGCCTTCAAGATTATAAGACAGGAACCTTCTGACTCTCCAATGTTCATCATCAACCGATATACTGGAGAAATTCGAACAATGAACAATTTTCTAGACAGAGAGCAATATGGCCAGTATTCTCTTGCTGTAAAAGGCTCAGACCGAGATGGTGGGGCAGACGGCATGTCAGCGGAGTGCGACTGTAACATTAAAATCCTTGATGTCAATGATAACATCCCCTACCTGGAGAAATCTTCATACAGCATAGAAATTGAAGAAAATGCTCTACACTCAGACTTGGACCAGATTAGAGTCATTGATTTGGATGAAGAGTACACAGATAACTGGGTGGCAGTAATTTTCTTCATCTCCGGAAATGAGGGAAATTGGTTTGAGATAGAAATGAATGAAAAAACGAATGTGGGAATTCTGAAAGTTGTTAAGCCCCTAGATTACGAAACGATGAACAATCTGCAACTCAGTATTGGTGTTAGAAATAAAGCTGAATTTCATCATTCAATTATGGCTCAATATAAACTCACAGCTACTGTAATCTCTGTGTCTGTGAAAAATGTAGTTGAAGGCTCAGTGTTTCGCCCAGGTTCAAAGACATACGTGGTAACAAGTAACATGGGAGCAAATTCTAAAGTGGGAGACTTCATAGCTACTGACCTGGACACAGGTTTAGCTTCAACAACTGTTAGATATGTAATGGGAAATAATCCAGCTGACCTGCTAGCTGTTGACTCAAAAACAGGCATACTCACTTTAAGAAATAGAGTTACCATGGAACAGTATCAAATGCTTAACAAAAGATACCAAGGAACAATTTTATCTATAGATGATTCTCTTCATAGAACTTGTACTGGTACAATTATTATTGACCTTGAAGGTTCTGGCTGGGTAACAGAAGATAGCAGCAGTACACAGGGTGGCAGCAGCAACACAGGCACTACTTCAGAAAACACTACCGAAGACAGCAGTGGAGGTGGCACTAGTACCAACACCGGTGGACAATCTTCCAGTGATGATACTGATGTCAACAACGAAGAAAATGGTGACAAAAATGGTGGTGCATATAATGGTGGTGAAGCATTTGAAAATGGAATTGCAGATAATGTGCACTTTGGCCCTGCGGGCATTGGACTACTCATCATGGGATTCCTAGTCCTGGGATTGGTCCCATTCTTGTTGATCTGTTGTGATTGCGGAGGTGCCCCTGGGGGCGGCGCTGGCTTTGAGCCTGTCCCTGAGTGTTCCGATGGAGCGATTCATTCCTGGGCAGTAGAAGGACCACAGCCTGAACCCCACGATTTGGCCACTATCTGTGTGCCACAAATACCACCCGGTGGTGCAACCATGATGGAATGCATTGACAACTCAGGTGTTTATACAAATGACTATTGTGCCAGAGAAATGCAAGACCTGGGAGGAGGAGAAAGAATGACAGGATTTGAACTAATTGAGGGAGTTAAAACACCAGCTGCACCTGAGATATGCCAAGAATATTCCGGAACATTACGAAGAAACTCTATGAGGGAATGTAGAGAGGGTCTGAATATGAATTTCATGGAAAACTACTTCTGTCAGAAAGCATATGCCTATGCTGATGAGGATGAAGGACGCCCATCCAAAGATTGTTTGCTCATATATGATAATGAAGGTGTAGATTCCCCTGCTGGCTCTGTGGGTTGTTGTAGTTTCATTGGTGAAGACTTGGATGAAAGCTTCTTGGAGACTCTTGGGCCTAAATTTAAGAAGTTGGCAGATATCACCCTGGGAAAAGAAACCGTATGCTATCCAGACCCTGATCCCTCTTGGCCTCCTCAGAACACTGAACCAATCTACCCTCAGCAAACAACGGGGCTAGTGGCTAGTGGACACCAGCAAGTCTCCCAGCACGTTGGCGCTACCACAGTAATTTCTGAGAATACCTATCCCTCGGGACCTGCTGTACATCATCCTATGCCTATTCCTGACCCTCTGGGCTACGGTAATGTCACTGTGACCGAGTCCTACACCACCTCTGGTGCTCTGAAGCCCTCTGTCCACCTTCATGATAACCTGCATGCACCCAATGTGGTGGTGACAGAGAGGGTGGTAGGCCCCATCTCAGGTGCTGATTTGCATGGAATGTTAGAGATGCCTGACTTGAGAGATGGGTCAAATGTTATAGTGACAGAAAGGGTCATAGCACCAGGTTCAAGTCTACCCACCTCCCTGACTATCCCTACTCCTATAGAGCCTTCAAATGTGGTAGTTACAGAAAGAGTAATTCAACCAACTTCTGGTATGATGGGCAATCTAAGTATGCACCCAGATTTATCAAATGCCCACAATGTGATTGTGACAGAGAGGGTTGTTTCCGGTGCTGGCATTAGTGGAATTAGTGGTGCAGCTGGGTTAAGTGGTGGCGTAGGCAGCAGTGGCCTGGTTAGCACCAACATGGGTGTCAGTGGCAGTGGCCTGAGTGGAGCTGGAGTAAGTGGTGGTGGCATCGGGCTGGGAAGCCTGGGTGGAGGTGGAGGCCTGAGTGGCACCATGGGTGGGACAGCCACCATTAGCCACATGAGGAATTCCTCTGACCATCACTTTACCCAGCCCCTGGGATCTGCCTCCCCTAGCACAACCCGAAGTCGAATCACAAAGTACAGTACAGTACAATATACCAAGTAG
LOC101697883 PREDICTED: Heterocephalus glaber uncharacterized LOC101697883 (LOC101697883), misc_RNA.
Length: 915 bp>XR_205604.1 CTACTGAGATGGATTATTACTCAAAGTGCTCTAATTCCCAACTGGTGTTTTTCTGTGGTCACTACTGCATCCCTGGCCTCTCCGGACTTAGCGCTGTTGGGCAAATTGCCTGGCCTCCGGAATGCAGCTTGTGTGTCCGTGCCAGTTCTTAGTGCCCTGGAGTCCTCCAGTCCTGATAAAAGTCTTCAGCCACAGATTAAGCCAGAAGCTACTGTATGACCACAAGGATCAGAGGAGCCCTGCCTCTCTTTACTGGGATGGCCTTTGGGGGAAGTTTAGCTGGGTCACGCCTGTCCCGGCCCGCGGTACTGGAGAAACCAAAAACCCACCAACAACCAGCCTGGAAGGAGAACCTGCCTGAGTTCAGATAAGGCTCTACCACTTCCGAGTTGGCCGACTTCAAAGACCCCTGGCCTGCGTCCCTCGTCATATATACACTCTTCATGTGAGAAGACTAGCAGGAAGAGGGAGACCTGGGGACCATCCCGACACTGGTGAAGATTTTGCAATCTCCAGTCAAATCCATAGACATCCTCAGTTCCTGCAAACATGATACTCCATCTGCTTGTCCCATTTAAATGTAGTCTTTATAGAACCTGAGTAATTGTTAAAATGTATTTTCATAAAATAATTTTGTCATCTGATGCCAAGCATGTTGTCTTAAGTGCATTGCTGCTTTGGAATTTAATGTTTTATCTATTTTTGTGGTCTCTCCTTAATTGTTATGTATGCTATTCATACATGTTTCATGGCTTAGGCACCCAAGCAACGATGATCTTTCTGCCATTTATGCCAACACACTATTTATACTACCTGAAGATTGCAAATCCAAGGCATTACTAGATGACACTGTATCACAGCATTACGGTAGAGTTTACTTCCCAAATAAAGCTTTTCTTGTGCGTCAATATTAAA
Dsc1 desmocollin 1
Length: 2703 bp Location: 1710170..1741134 Strand: +>XM_004853127.1 ATGGCTGTGGCCTCCACTGCCCCAGGGAGCATCTTCTGTAAGCAGCTCCTTTTCTTTCTCCTGGTTCTGTTATTATTTTGTGATGCTCATCAGAAGATTGTTCTCCGAGTTCCTTCCCATGTTCGGGCTAATCAAATTGTTGCCACGGTGGATCTGAAGAAGTATGCCAAGTCAGATGTTGAAGTCTCTAGTTCCAATGCTGACAAACATGACTTCAGAGTTGATAAAAATGGCACAATTTATGCAAACCGTGACTTCCATTTGCCTCCTAAAACAACTTTTACGATTTTAATAAAAAACCGTCATACAGAGGAACAAAAAGAGGAAGATGTTGTATTGGAGCCAAGTACAGAAAAGGTATAGCAATCTCGTAGGAGGAAACCTCCCCAAAACAGATCCCTTGGGCGCAGTAAGAGAAGATGGGCTCCTATTCCGTGCTCATTGATGGAGAACTCATTGGGGCCATTTCCACAACATGTCCAGCAGATTCAATCCGATGCTGCACAGAATTACACTGTCTTCTACTCCATAAGTGGACCAGGAGTCGACAAAGAGCCCTTCAACCTGTTCTACATAGAGAAAGACACTGGAGATATTTATTGCACAAGAAGCATTGACCGTGAGCAGTATGATCAGTTTTTGGTATATGGCTATGTAACAACTGCAGATGGCTATGCACCAGATTATCCACTCCCCTTGTTATTCAAAGTTGAAGATGATAATGATAATGCCCCATATTTTGAAACCAAAATGACAGTTTTTAGTGTGCCTGAAAATTGCAGATCTGGCACTTCTGTGGGACAAGTGACTGCTATAGACCTTGATGAACCTGACACGCTACATACTCGTCTGAAATATAAAATCTTGCAACAAATCCCAGATCATCCAAAGCATTTCACCATACATCCAGACACAGGTGTCATTACTACAACTACACCTTTACTGGACAGAGAGAAATGTGATACTTACCAGTTAATAATGGAAGTGCGCGACATGGGGGGCCAACCTTTTGGTTTATTTTCTACTGGAAAAATTACTATTTCACTTGAAGATGAAAATGACAATTCACCATATTTCACACAAGCTTCTTATTTTACAGAAGTAGAAGAAAACAGAATAAATGTTGAGATTTTACGGATGAAAGTGCAGGACCAAGACTTAGCAAACACTCCTCACTCGAAGGCTGTATACACAATCCTACAGGGAAATGAAAATGGTAACTTCAAAATTACCACGGATCCAAAAACGAATGAAGGAGTCTTGTGTGTTGTCACACCATTGAACTATGAAGTCAATCGCCAAGTTATTTTGCAAATTGGTGTGCTTAATGAAGCACAATTCTCTAAAGCAGCGAACTCACCACTTCCTACAATGTGTACTACAACTGTCACTGTTAAAATTAAAGACAGAGATGAGGGGCCTGAATGTCAGCCACCAGTAAAAGTGATTCAGAGCAAGGATGGGCTCCCTGCTGGCAAAGAACTCCTTGGCTACAAAGCACTGGACCCAGAATCACGCAATGGCGAAGGCTTAAGGTATAAGAAGGTACAAGATGAAGGTAACTGGTTTAACATTGATGAAAACACTGGAAACTTGAAAACTGTAAAAGTACTAGATAGAGAATCAAAATTTGTAAAAAACAACCAGTACAATGTCTCAGTAGTAGCGATGGATGCAGTTGGCCGATCCTGCACAGGAACATTAGTAGTTTTTTTGGAAGATTATAATGATCACCCACCACAAATTGATAAAGATGTGACCATTTGCCAGCACAATCAAGACTATGCTGTTCTGGAACCTGTAGATCCAGATGGGCCTGAAAATGGTCCACCTTTTCAATTCTTTTTGGATAATTCTGCCAACAAACTTTGGACTATCGAATCAAAGGATGGTACAAGTGCCATTCTTCGTGGACGGCAACATCTCGAAAATAACTATTATTCTGTGCCTATCCAAATACAAGACAGACATGGTATTTCTGCAAAACATATTTTATCAGTGAAAGTATGTGACTGTACAACTCCATCTGAATGTAGAATGAGTTTTAAAGATGACAGAGATATTAAAGTATCAAGCTCAAACGTAATTCTTGGAAAGTGGGCTATTCTTGCCATGATTTTGGGTTCTGCATTGTTACTATGTATGATATTTACATGTTTTTGTGTTACTACCAAGACAACAGTAAAGAAATGTTTTCCAGAGGATGTAGCCCAGCAAAATTTAATTGTATCAAATACTGAAGGACCTGGAGAAGAAGTAACGGAAGCAAATATTAGACTCCCTATACAGACATCCAACATTTGTGACACAAGCATGTCTGTTGGTACTCTTGGTGGCCAGGGAATTAAAACACAGCAAAGTTTTGAAATGGTCAAAGGAGGCTACACTTTGGATTCCAGCAAAGGAGGTGGCCATCAAACCTTGGAGTCCACAAAGGGGGTGGCAGACCCTGGCAGATACACCTACACTGACTGGCAGAGCTTCACTCAGCCTCGGCTTGGAGAAAAGGTGTATCTTTGCGGACAAGATGAGCAGCATAAACATTCAGAAGACTACGTTCGTTCATATAACTATGAAGGCAAAGGCTCTGTGGCAGGCTCAGTGGGCTGCTGCAGTGATCAGCAGGAAGAAGAAGGCCTGGAGTTTCTAGATCACCTGGAACCCAAATTTAGGACATTAGCTAAAACGTGTGTAAAGAAATAA
Dsc2 desmocollin 2, transcript variant X2
Length: 2538 bp Location: 1748559..1776300 Strand: +>XM_004853129.1 ATGGCGGCGCCCAGACCCGCGCGCTCCTGGAGCGGAGGCCTCTGCCGGCAGCTCCTGCTGACCCTCTCGATCTTAACATTTGCCTGTGATGCCTGCAAACCAGTGATACTGTATGTTCCTTCCAAACTGGATGCTGAGAAATTCATTGGTAGAGTTAACCTGGAGGAGTGCTTTAAATCTGCAACTCTAATTCATTCAAGTGACCCCGATTTCCAGGTTTTAGAAGATGGATCAGTCTATACAACAAATGCTGTTCTTTTGGCCTCCGAGAAGAGAGAGTTTATCATATCACTTTTTGACACAGAAAGCCAAGAAGAGAAGACAATCTCTGTCTTTTTAGAGGATCAAACAAAGGTACAAAAGGAAAAGCATTCTACAGAAAAACTTCTAAGACGTTCCAAAAGAAGATGGGCTCCTATTCCCTGTTCAATGCTAGAGAATTCTTTGGGTCCGTTCCCACTTTTCCTTCAACAGATCCAATCTGACACAGCCCAAAACTACACTATATACTATTCCATCAGTGGACCTGGAGTGGACCAAGAACCTCGAAATTTATTTTATGTGGAGAGAGATACTGGGAACCTGTATTGTACAGGTCCAGTAGATCGTGAGCAGTATGAGTCTTTTCAGCTGGTTGCCTTTGCAACAACTTCAGATGGGTACACACCAGAACTTCCATTGCCACTAATAATCAAAATAGAGGATGAAAATGATAACTACCCGATTTTTACTGAAACAACATACATTTTTACAGTTCTTGAAAATGGCAGAGTTGGCACTACAGTGGGACAGGTTTGTGCAACGGACAAGGATGAGCCCGATACCATGCACACGCGCCTGAGGTACTCAATCCTTGAGCAGCTACCATCGCGACCCACTCTCTTTACTATGCATCCAGGCACGGGTGTGATCACCACAACATCATCTCAGCTGGACAGAGAGGTAATTGATAAATACCAGTTGAAAGTAAAAGTACAAGACATGGATGGTCAACATTTTGGTTTGCAGACAACTGCAACTTGTATCATAAATATTGGGGATGTGAATGACAACTTGCCAACATTTACCCACTCTTCTTATGTGACATCAGTGGAAGAAAATACAGCTGATGTGGAAATCTTACGTGTTACTGTTGAGGATAAAGATTTAGCTAATACTGCTAATTGGAGAGCTAATTACACCATTTTAAAGGGCAATGAAAACGGAAATTTTAAAATTGTAACAGATCCCAAAACCAATGAAGGAATTCTGTGTATAGTCAAGCCACTAGATTATGAAGAAAGACAACAGATGACCCTGGAAATTGGTGTAACTAATGAAGCTCCATATACCAGAGAGGCTACTTCCAAATCAGCCATTAGCACAGCGACAGTCACAGTTACTGTCAAAAATCAGGACGAGGGCCCTGAGTGCCAACCTTCGGCACAAACTGTTCGGATTAAAGAAAGTGAGCCAGTGGGGACCCGGAGCAATGGCTACAAAGCGTATGACCCAGAAACAGGAAGTAACAGTGGCATAAGGTACAGAAAGTTAAGTGATCCGAAAGGGTGGGTCACCCTTGATGAAGATTCAGGATCAATCACAATTTTCCGAAATTTGGATAGAGAGGCAGAGTCCATCAACAATGGTGTATATAATATTACAGTCCTTGCATCAGATAAAGATGGAAGAAGTTGTACTGGAACCCTGGGAATTGTAATGGAGGACGTGAATGATAACGGCCCATTCATACCTAAGACTACAGTGACCATCTGTAAACCCACCATGTTCTCCACGGAGATTGTCGCTGTTGATCCTGATGAACCCATAAATGGCCCACCATTTGCCTTTAGTTTGGAAAGTTCTGATTCAGAAGTACGGAGAATGTGGAGACTGAAAAAAATTAATGACACAGCAACATGGCTTTCTTATCAGAATGACCCTCCGTTTGGATCATATGTTGTGCCCATCCGAGTTACAGACAGACTCGGCCTGTCTACCATCAACTCATTGACTGTTAGGCTGTGTGATTGTGTTACCGAGGCAGAGTGTGATATTCGCTCAATTGAGAGAGCTGGCGAAGTAAGACTTGGAACATGGGCCATCCTCGCAATATTGTTGGGCATAGCGCTGCTATTTTGTATCCTGTTTACATTGGTGTGTGCGGCTTCTAGGGCAACCAGAGAGGTAAAAACACTTCCTGATGATTTAGCCCAACAGAACCTGATTGTATCTAACACTGAAGCTCCCGGAGATGACAAAGTGTATTCCACAAATGCCTTCACGACCCATACCGTGGGCACTTCTGGTCAGGGCGTCTGTGGCACCTTGGGATCTGGGGTCAGAAACGGTGGGCAAGAGACCATAGAACTGGTGAAAGGAGGACAGCAGACCTTGGACTCCTGGCGGGGTGCTGGGTACCACCACACCCTGGACCCCTGCAGGGGAGGACACGTGGAGATGGACAACTGTCGCTACACCTACTCCGAGTGGCACAATTTCACCCAGCCCCGACTCGGTGAAGAATCCATTAGAGGACACACTCTGATTAAAAATTAA
Dsc3 desmocollin 3, transcript variant X1
Length: 2691 bp Location: 1799994..1843687 Strand: +>XM_004853130.1 ATGGCCAAGGCCGGGCCCCGGAGCCCGCTGCGCGGAGCCCTCTGCGGGCCGCTGCTGCTGAGCCTCTGGTTCTTCAGTTTTACTGGTGAAGCCTGTAAAAATGTGATGTTAAATGTACCTTCTAAACTAGAGGCAGACAAACTGATTGGCAGAGTTAACTGGAAAGAGTGCTTCAGGTCTGCAGACCTCATCCGGTCACGTGATCCCGATTTCCGCGTTCTACGGGACGGGTCAGTGTACACAGCCAGAGCTGTTGTGCTGTCTCATGAGAGAAGAACATTCACCATACAGCTTTCTGATACGGAGACACAGACACAGAAAGAGCTAACTGTGGTCCTGGAACACCAGAAGAAGATATTGAAGAAAAGAAACATTAAAGAAACTGTTCTCAGGAGATCCAAGAGGAGATGGGCACCTATTCCTTGTTCGATGCAAGAGAATTCCTTGGGCCCTTTCCCTTTGCTTCTTCAACAAGTTCAATCTGATGCAGCCCAGAACTATACTGTCTTCTACTCAATAAGTGGACGTGGTGTTGACCAAGAACCTTTAAATTTGTTTTTCATAGAAAGAGACACTGGAAATCTGTATTGTACTCGGCCTGTGGATCGTGAGGAATATGATGTTTTTGATTTGATTGCCTATGCATCCACTGCTGATGGGTATTCAGCAGATTTACCTCTTCCACTGCCCATCAGAGTAGAGGATGAAAATGATAACCATCCTGTCTTCACAGAAGCAATTTTTAATTTTGAAGTTCCAGAAAGTAGTAGACTTGGAACTACAGTGGGAGTGGTTTGTGCCACAGATAGAGATGAACCAGACACGATGCACACACGCTTGAAGTACAGCATTTTGGAGCAGACACCAAGGTCACCGGGGCTCTTTTCTGTGCAGCCCAACACGGGCGTAATCACCACAGTCTCTCATTACCTGGACAGAGAGGTTGTGGATAAGTATACATTGATAATGAAAGTTCAAGACATGGATGGTCAATTTTTTGGATTGGCGGGTACATCAACTTGTATTATAACAGTGAAGGATTCAAATGACAATGCACCCACATTTAGACAAAATGCTTACGAAACATCAGTAGAGGAAAATGCATATAATGTGGAAATCTTACGAATTCCTATAGAAGATAAGGATTTAATAAACACTGCCAATTGGAGGGCCAATTTTACCATTTTAAAGGGAAATGAAAATGGACACTTCAAAATTAGCACAGAGAAAGCAACTAATGAAGGTATTTTGTATGTTGTAAAGCCACTGAATTATGAAGAAAACCGTCAAGTGATCCTAGAAATTGGTGTAAACAACGAAGCTCCATTTACTAGAGAAGTAACCAGAGTGACATCCATGAACCGAGCCTTGGTTACAGTTCATGTGAGGGATCAGGATGAGGGGCCCGAATGTGATCCTGCAGCTCAATATGTGCGGATTAAGGAAAACTCAGCAGTGGGGTTAAAGGTCAATGGTTATAAGGCATATGACCCTGAAACTAAAAATAGCAATGGTCTAAGATACAAAAAATTGCATGATCCTAAAGAGTGGATAAAAATTGATGAAACTTCAGGGTTAGTCACACTTTCCAAAATTCTGGACAGAGAAGCTGCAGCTCCCAAGAATGACTTATATAATATCACAGTCCTGGCAACAGACCAAGATGGTAGATCATGTACTGGAACCCTTGCAGTAAATATTGAAGATGTGAATGATAACGCGCCAGATATACTTCAGGATTATGTCGTCATTTGCAAACAAAAGATGACGTACACTGACATTTCAGCTCTTGACCCCGATGAACCTGCCCACGGAGCGCCATTTCATTTCAGCTTGGCAAGCCCCTCTCCAGAAGTCAATAAAATATGGACCCTCAACAGAGTTAACGATACAGCTGCCCGTCTGTCATATCACAAAAACGCTCAACTTCAAGAATATACAATTCCTATTACTGTGAAAGATAGAGGAGGCCAATCTGCAACCAAAACATTGAGAGTCAACCTGTGTGATTGCAATTTCCCGAGTCAGTGCATCTCAAAGGCAAGGAGCTCAGGAGTGGTGCTGGGAAAGTGGGCCATCCTCGCCATACTACTGGGCATAGCACTGCTGCTCTCTGTCCTGCTAACTTTAGTATGTGGAGTTGTTAGTGCCAGAAAAGGAAAAAAATTTCCTGAAGATTTAGCACAGCAAAACTTAATTATATCAAATACAGAAGCACCTGGAGATGACAGAGTGTGTTCTGCCAATGGATTCACAACCCAGACTGCCAACAACTGTAGCCAACGCTTTTGTGGCACAATGGGATCGGGAATCAGAAATGGTGGGCAAGAGACCATAGAACTGGTGAAGGGAGGACAGCAGACCTTGGACTCCTGCCGGGGTGCTGGGCACCACCACACCGTGGACCCCTGCAGGGGAGGACACGTGGAGATGGACAACTGTCGCTACACCTACTCCGAGTGGCACAATTTCACCCAGCCCCGACTCGGTGAAAAGTTGCATGTGTGTAACCAGAACGAAGAACAGGTGCCGTCACAAGACTATGTGCTCACATACAGCTATGAAGGAAGGGGGTCTCCAGCCGGCTCTGTAGGCTGCTGCAGTGAAAAACAGGAAGAAGATGGACTTGACTTTTTAAATAATTTGGAACCCAAATTTCTTACATTAGCAGAAACATGCACAAAGAGATAA
Dsc3 desmocollin 3, transcript variant X2
Length: 2520 bp Location: 1799994..1843407 Strand: +>XM_004853131.1 ATGGCCAAGGCCGGGCCCCGGAGCCCGCTGCGCGGAGCCCTCTGCGGGCCGCTGCTGCTGAGCCTCTGGTTCTTCAGTTTTACTGGTGAAGCCTGTAAAAATGTGATGTTAAATGTACCTTCTAAACTAGAGGCAGACAAACTGATTGGCAGAGTTAACTGGAAAGAGTGCTTCAGGTCTGCAGACCTCATCCGGTCACGTGATCCCGATTTCCGCGTTCTACGGGACGGGTCAGTGTACACAGCCAGAGCTGTTGTGCTGTCTCATGAGAGAAGAACATTCACCATACAGCTTTCTGATACGGAGACACAGACACAGAAAGAGCTAACTGTGGTCCTGGAACACCAGAAGAAGATATTGAAGAAAAGAAACATTAAAGAAACTGTTCTCAGGAGATCCAAGAGGAGATGGGCACCTATTCCTTGTTCGATGCAAGAGAATTCCTTGGGCCCTTTCCCTTTGCTTCTTCAACAAGTTCAATCTGATGCAGCCCAGAACTATACTGTCTTCTACTCAATAAGTGGACGTGGTGTTGACCAAGAACCTTTAAATTTGTTTTTCATAGAAAGAGACACTGGAAATCTGTATTGTACTCGGCCTGTGGATCGTGAGGAATATGATGTTTTTGATTTGATTGCCTATGCATCCACTGCTGATGGGTATTCAGCAGATTTACCTCTTCCACTGCCCATCAGAGTAGAGGATGAAAATGATAACCATCCTGTCTTCACAGAAGCAATTTTTAATTTTGAAGTTCCAGAAAGTAGTAGACTTGGAACTACAGTGGGAGTGGTTTGTGCCACAGATAGAGATGAACCAGACACGATGCACACACGCTTGAAGTACAGCATTTTGGAGCAGACACCAAGGTCACCGGGGCTCTTTTCTGTGCAGCCCAACACGGGCGTAATCACCACAGTCTCTCATTACCTGGACAGAGAGGTTGTGGATAAGTATACATTGATAATGAAAGTTCAAGACATGGATGGTCAATTTTTTGGATTGGCGGGTACATCAACTTGTATTATAACAGTGAAGGATTCAAATGACAATGCACCCACATTTAGACAAAATGCTTACGAAACATCAGTAGAGGAAAATGCATATAATGTGGAAATCTTACGAATTCCTATAGAAGATAAGGATTTAATAAACACTGCCAATTGGAGGGCCAATTTTACCATTTTAAAGGGAAATGAAAATGGACACTTCAAAATTAGCACAGAGAAAGCAACTAATGAAGGTATTTTGTATGTTGTAAAGCCACTGAATTATGAAGAAAACCGTCAAGTGATCCTAGAAATTGGTGTAAACAACGAAGCTCCATTTACTAGAGAAGTAACCAGAGTGACATCCATGAACCGAGCCTTGGTTACAGTTCATGTGAGGGATCAGGATGAGGGGCCCGAATGTGATCCTGCAGCTCAATATGTGCGGATTAAGGAAAACTCAGCAGTGGGGTTAAAGGTCAATGGTTATAAGGCATATGACCCTGAAACTAAAAATAGCAATGGTCTAAGATACAAAAAATTGCATGATCCTAAAGAGTGGATAAAAATTGATGAAACTTCAGGGTTAGTCACACTTTCCAAAATTCTGGACAGAGAAGCTGCAGCTCCCAAGAATGACTTATATAATATCACAGTCCTGGCAACAGACCAAGATGGTAGATCATGTACTGGAACCCTTGCAGTAAATATTGAAGATGTGAATGATAACGCGCCAGATATACTTCAGGATTATGTCGTCATTTGCAAACAAAAGATGACGTACACTGACATTTCAGCTCTTGACCCCGATGAACCTGCCCACGGAGCGCCATTTCATTTCAGCTTGGCAAGCCCCTCTCCAGAAGTCAATAAAATATGGACCCTCAACAGAGTTAACGATACAGCTGCCCGTCTGTCATATCACAAAAACGCTCAACTTCAAGAATATACAATTCCTATTACTGTGAAAGATAGAGGAGGCCAATCTGCAACCAAAACATTGAGAGTCAACCTGTGTGATTGCAATTTCCCGAGTCAGTGCATCTCAAAGGCAAGGAGCTCAGGAGTGGTGCTGGGAAAGTGGGCCATCCTCGCCATACTACTGGGCATAGCACTGCTGCTCTCTGTCCTGCTAACTTTAGTATGTGGAGTTGTTAGTGCCAGAAAAGGAAAAAAATTTCCTGAAGATTTAGCACAGCAAAACTTAATTATATCAAATACAGAAGCACCTGGAGATGACAGAGTGTGTTCTGCCAATGGATTCACAACCCAGACTGCCAACAACTGTAGCCAACGCTTTTGTGGCACAATGGGATCGGGAATCAGAAATGGTGGGCAAGAGACCATAGAACTGGTGAAGGGAGGACAGCAGACCTTGGACTCCTGCCGGGGTGCTGGGCACCACCACACCGTGGACCCCTGCAGGGGAGGACACGTGGAGATGGACAACTGTCGCTACACCTACTCCGAGTGGCACAATTTCACCCAGCCCCGACTCGGTGAAGAATCCATTAGAGGACACACTGGTTAA
LOC101706274 transcription factor BTF3-like
Length: 465 bp Location: 3070793..2945533 Strand: ->XM_004853297.1 ATGGGTCTGAACATTGATGCGGCACACATGGAGGAGTTTATGGAGGACCATGAGGAGGAGCTGACAATAGAAGAACTTGCTGAACTCCAGAGTATGCAGCAGAAGGTGCTGTTTGAAGAGTATTTCACTGAGAAAGAGGAAGACAGGGAGGAGGTCAACATTTTTCTTTTCACAAACCAAGTAACAGTGATCCACTTCAACAACCCAAAAGTTCAGGCATCTCTGGTAGCAAACACTTTCACCATTGCAGGCCATGCTGAGACGAAACAGCTGACAGAAATGCTACCCAGCATCTTGAACCAGCTTGGTGCAGACAATCTGACTAGTTTAAGGAGACTGGCTGAAGCTCTGCCCAAACAATCTGTGAATGGAAAAGTACCACTTGCCACTGGAGAGGATGATGATGATGAAGTTCCAGGTCTTGTGGAGAATTTTGATGAGGCTTCTAAGAATGAGGCAAACTGA
Cdh2 cadherin 2, type 1, N-cadherin (neuronal)
>XM_004853132.1 ATGTGCCGGATAGCGGGAGCGCCGCGGACCCTGCTGCCGCTCCTGGCGGCCCTGCTCCAGGCATCTGTAGAGGCTTCTGGTGAAATCGCATTATGCAAGACTGGATTTCCTGAAGATGTTTACAGTGCCGTCTTATCGAAGGATGTGCATGAAGGACAGCCTCTTCTCAATGTGAACTTTAGCAACTGCAATGGAAAGAGAAAAGTACAGTATGAAAGCAGTGAGCCAGCAGACTTCAAGGTGGATGAGGACGGCATGGTATATGCCGTGAGAAGCTTTCCACTCTCTTCTGAGCATGCAAAGTTCCTGATCTTTGCCCAGGACAAGGAGACTCAGGAAAAATGGCAAGTGGCAGTGAAGCTGAGCCTTAAACCAACCTTAACTGAGGAGTCAGCAAAGGAATCACATGAAATTGCAGAAATAGTGTTCCCAAGACAATCCACCAAGCACAGCAGCTCCCTGCAGAGGCAGAAGAGAGACTGGGTCATCCCTCCAATCAACTTGCCAGAAAACTCCAGAGGACCTTTTCCTCAGGAGCTCGTCAGGATCAGGTCTGATAGGGATAAAAACCTCTCGCTTCGGTACAGCGTCACTGGGCCAGGAGCTGACCAGCCTCCGACCGGCATCTTCATTATCAACCCCATCTCGGGTCAGCTGTCAGTGACCAAGCCCCTGGATCGCGAGCTGATAGCCCGGTTTCATTTGAGGGCACATGCAGTAGATATTAATGGCAATCAGGTGGAGAACCCAATTGACATTGTCATCAATGTTATTGACATGAATGATAATAGACCTGAGTTCTTACACCAGGTCTGGAATGGGACTGTTCCTGAGGGATCGAAGCCTGGAACGTATGTGATGACCGTAACTGCTATTGATGCTGATGACCCGAATGCCCTAAATGGAATGTTGAGGTACAGAATCCTGTCCCAGGCTCCGAGCACCCCTTCACCCAACATGTTTACAATCAACAATGAGACTGGAGACATCATCACAGTGGCAGCTGGACTTGATCGAGAAAAAGTGCAACAGTATACGTTAATAATTCAAGCTACCGACATGGAAGGCAATCCCACGTACGGCCTCTCCAACACAGCCACGGCTGTCATCACGGTGACAGATGTCAATGACAATCCTCCCGAGTTTACTGCCATGACGTTCTACGGTGAAGTCCCTGAGAATAGGGTGGATGTCATAGTGGCGAATCTAACGGTGACAGATAAGGATCAGCCCCATACACCAGCCTGGAACGCCGTGTACAGAATCAGCGGTGGAGACCCTACAGGAAGGTTTGCCATTCAGACTGATCCCAACAGCAACGACGGGTTAGTCACGGTGGTAAAACCCATCGACTTTGAAACAAATAGGATGTTTGTCCTCACTGTAGCTGCAGAAAATCAAGTGCCATTAGCCAAGGGAATTCAGCACCCGCCTCAGTCAACCGCAACTGTGTCTGTTACAGTTATTGATGTGAATGAAAACCCTTATTTTGCCCCCAATCCTAAAATTATTCGCCAGGAAGAAGGCCTTCATGCAGGTACCATGTTGACAGCCTTCACTGCTCAGGACCCGGATCGATATATGCAGCAAAATATTAGATATACAAAATTATCTGATCCTGCCAATTGGCTAAAAATAGATCCTGTGAATGGGCAAATCACTACAATTGCTGTTTTGGACAGAGAATCACCAAATGTGAAAAACAATGTATATAATGCTACTTTCCTTGCTTCTGACAATGGAATTCCTCCTATGAGTGGAACTGGAACGCTGCAGATCTATTTACTTGATATTAATGACAACGCCCCTCAAGTGTTACCTCAAGAGGCAGAGACTTGTGAAACACCAGACCCCAATTCAATTAACATCACAGCACTTGATTATGACATTGATCCAAACGCTGGACCATTTGCTTTTGATCTTCCTTTATCTCCAGTAACAATTAAGAGAAATTGGACCATCACTCGGCTTAACGGTGATTTTGCTCAGCTTCATTTAAAGATAAAATTTCTTGAAGCTGGTATCTATGAAGTTCCCATCATCATCACAGATTCGGGTAACCCTCCCAAGTCCAATATTTCCGTCCTCCGAGTGAAGGTTTGCCAGTGTGACTCCAACGGGGACTGCACAGATGTGGACAGGATCGTGGGCGCAGGGCTTGGCACGGGCGCAATCATAGCTATCCTACTCTGCATCATCATTCTGCTCCTCCTTGTCCTGATGTTTGTGGTATGGATGAAACGCCGGGATAAAGAACGCCAGGCCAAACAACTTTTAATCGATCCCGAAGATGATGTAAGAGATAATATTTTAAAATATGACGAAGAAGGTGGAGGAGAAGAAGACCAGGACTATGACTTGAGCCAGCTCCAGCAGCCTGATACCGTGGAGCCCGATGCGATCAAGCCTGTAGGAATCCGGCGGCTGGATGAGAGACCCATTCACGCTGAGCCGCAGTATCCAGTCCGATCTGCAGCCCCACATCCTGGGGACATTGGGGACTTCATTAATGAGGGCCTTAAAGCTGCTGACAATGACCCCACAGCTCCGCCATATGACTCCCTCTTAGTCTTCGACTACGAAGGCAGTGGCTCCACAGCTGGGTCCTTGAGCTCCCTTAATTCCTCAAGTAGTGGTGGGGAGCAGGACTATGATTACCTGAACGACTGGGGGCCACGGTTCAAGAAGCTTGCTGACATGTATGGTGGAGGTGATGACTGA
Aqp4 aquaporin 4, transcript variant X1
>XM_004853134.1 ATGAGTGATAGACCCGCAGCGAGGCGGTGGGGCAAGTGTGGACCCTTGTGTACCAGAGAGAACATCATGGTGGCTTTCAAAGGCGTCTGGACTCAAGCATTCTGGAAGGCAGTCACCGCAGAATTTCTGGCTATGCTTATCTTTGTCCTGCTCAGCCTGGGGTCCACCATCAACTGGGGTGGAATGGAAAAGCCCCTACCTGTCGACATGGTTCTCATCTCTCTCTGCTTTGGACTCAGCATTGCCACCATGGTGCAGTGCTTTGGCCACATCAGTGGAGGCCACATCAACCCTGCTGTGACAGTGGCCATGGTGTGCACCCGGAAGATCAGCATGGCCAAGTCTGTCTTCTACATTGTGGCCCAGTGCCTGGGGGCCATCATAGGAGCCGGGATTCTCTACTTGGTCACACCTCCCAGTGTGGTGGGGGGCCTGGGAGTCACCACGGTTCATGGAAATCTTACTGCTGGTCATGGTCTCCTGGTGGAGCTGATAATCACATTTCAGTTGGTGTTTACTATTTTTGCCAGCTGTGATTCCAAGCGGACTGATGTCACTGGTTCAATAGCTTTAGCAATTGGATTTTCGGTTGCAATTGGACATTTATTTGCAATCAATTACACTGGCGCCAGCATGAATCCTGCCAGATCCTTTGGACCTGCTGTTATCATGGGAAACTGGGAAAACCACTGGATATACTGGGTTGGACCAATAATAGGAGCTGTCCTCGCTGGTGGGCTTTATGAGTATGTCTTCTGCCCAGATGCTGAACTCAAACGTCGGCTTAAGGAAGCCTTCAGCAAAGCTGCCCAACAAACAAAAGGGAGTTACATGGAGGTGGAGGACAACAGGAGTCAGGTGGAAACCGAGGACTTGATTCTGAAACCTGGCGTGGTACACGTGATTGACATCGACCGAGGCGAGGAGAAGAAGGGGAAAGACCCATCCGGAGAGGTATTGTCTTCCGTATGA
Psma8 proteasome (prosome, macropain) subunit, alpha type, 8, transcript variant X1
>XM_004853138.1 ATGGCTTCTCGGTACGATAGGGCAATCACTGTATTTTCCCCAGACGGACACCTTTTCCAAGTGGAATATGCTCAGGAAGCGGTGAAGAAGGGATCCACAGTGGTTGGAATTCGAGGAACCAATATAGTTGTGCTTGGGGTAGAAAAAAAATCTGTTGCCAAGCTTCAAGATGAAAGAACTGTGAGGAAAATTTGTGCTCTTGATGACCACGTTTGCATGGCTTTTGCAGGACTGACTGCTGATGCTAGAGTCATAATAAACAGAGCCCAGGTGGAGTGTCAGAGCCATAAGCTTACAGTTGAGGATTCAGTCACCATAGAATACATAACTCGCTTCATAGCAACTTTAAAGCAGAAATACACCCAGAGCAACGGACGAAGACCTTTTGGTATTTCTGCCTTAATTGTAGGTTTTGATGATGATGGTATCCCAAGATTATATCAGACAGATCCCTCTGGTACTTATCATGCTTGGAAAGCAAATGCAATAGGCCGAAGTGCTAAAACTGTTCGAGAATTTCTAGAAAAGAATTACTCCGAAGATGCTGTATCAAATGACAGTGAAGCTATCAAATTAGCAATAAGAGCATTACTAGAAGTTGTCCAGTCTGGAGGAAAGAACATTGAACTAGCTATAATAAGAAGAAACCAACCTTTGAAGATGTTTAGTGCCAAAGAAATTAAATTACAAGTAACTGAATTAGAAAAGGAAAAGGAAGAAGCAGAGAAGAAAAAATCAAAGAAGACTGTCTAA
Psma8 proteasome (prosome, macropain) subunit, alpha type, 8, transcript variant X2
Length: 639 bp Location: 6235785..6185767 Strand: ->XM_004853139.1 ATGGCTTCTCGGTACGATAGGGCAATCACTGTATTTTCCCCAGACGGACACCTTTTCCAAGTGGAATATGCTCAGGAAGCGGTGAAGAAGGGATCCACAGTGGTGAGCAAGCAGCGACTGACTGCTGATGCTAGAGTCATAATAAACAGAGCCCAGGTGGAGTGTCAGAGCCATAAGCTTACAGTTGAGGATTCAGTCACCATAGAATACATAACTCGCTTCATAGCAACTTTAAAGCAGAAATACACCCAGAGCAACGGACGAAGACCTTTTGGTATTTCTGCCTTAATTGTAGGTTTTGATGATGATGGTATCCCAAGATTATATCAGACAGATCCCTCTGGTACTTATCATGCTTGGAAAGCAAATGCAATAGGCCGAAGTGCTAAAACTGTTCGAGAATTTCTAGAAAAGAATTACTCCGAAGATGCTGTATCAAATGACAGTGAAGCTATCAAATTAGCAATAAGAGCATTACTAGAAGTTGTCCAGTCTGGAGGAAAGAACATTGAACTAGCTATAATAAGAAGAAACCAACCTTTGAAGATGTTTAGTGCCAAAGAAATTAAATTACAAGTAACTGAATTAGAAAAGGAAAAGGAAGAAGCAGAGAAGAAAAAATCAAAGAAGACTGTCTAA
LOC101704577 PREDICTED: Heterocephalus glaber protein SSXT-like (LOC101704577), transcript variant X3, misc_RNA.
Length: 3017 bp>XR_205608.1 CAGGCAGCGGAACCACTGAGCTAAATCCCCGGCCCTTCCATGTTCATTATTACATAGAGAGTATTATTTATTATTTAGAGTTATTTTGCAGAGGAAATAGGAAAAGTTGAAGTGCTATTGATGTTCAGGTATCAGCAGATGTTGCATACAAACTTGGTATACCTTGCTACAATAGCAGACTCTAATCAAAATATGCAGTCTCTTTTACCAGCTCCACCCACACAGAATATGCCTATGGGTCCCGGAGTGATGAATCAGAGCGGCCCCCCCCCTCCACGTACACACAACATGCCTTCAGATGGAATGGTAGGTGGGGGTCCGCCTGCACCACACATGCAGAACCAGATGAACGGCCAGATGCCTGGACCTAACCATATGCCTATGCAAGGACCTGGACCCAATCAACTCAATATGACGAACAGTTCCATAAATATGCCTTCAAGTAGCCATGGATCCATGGGTGGTTACAACCATTCTGTGCCCTCCTCGCAGAGCATGCCGGTGCAGAACCAGATGACAATGAGTCAGGGGCAACCAATGGGAAACTATGGCCCTAGGCCAAACATGAATATGCAGCCCAACCAAGGTCCAATGATACATCAGCAGCCACCTTCTCAACAGTACAATATGCCACAGGGAGGTGGGCAACACTACCAAGGACAGCAGCCACCAATGGGGATGATAGGTCAGGTTAACCAAGGCAATCATATGATGGGTCAGAGACAGATTCCTCCCTATAGACCACCTCAACAGGGCCCACCGCAGCAGTACTCAGGTCAGGAGGACTATTATGGGGACCAATACAGTCATGGTGGACAAGGTCCTCCAGAAGGCATGAACCAGCAATATTACCCTGATGGTCATAATGATTACGGTTATCAGCAACCGTCGTATCCTGAACAAGGCTACGATAGGCCTTATGAGGATTCCTCACAACATTACTACGAAGGAGGAAACTCACAGTATGGCCAACAGCAAGATGCTTACCAAGGACCACCTCCACAGCAAGGGTATCCTCCCCAGCAGCAGCAGTACCCGGGGCAGCAGGGCTATCCAGGACAGCAGCAGGGCTATGGTCCTTCACAGGGTGGTCCAGGTCCTCAGTATCCTAACTATCCACAAGGACAAGGTCAGCAGTATGGGGGATACAGACCAACACAGCCTGGACCACCCCAGCCCCCCCAGCAGAGGCCTTATGGGTATGACCAGGGACAGTATGGAAATTACCAACAGTGAAAGAGTACTTACATTCCAATAGCCAGTACTTCCTAGCAGCCGTATTGTCACCTCAGCACTGTGGCCACCTCCCTGTGAAGAGATCCTTCCATTCCATCTAGTTTTTTGGAAAAATCTTGTGGATAAGTGGCTGTTTCATCTTCAAGCAGCCTTTGTGGTTTAGTTGTAAAAGGCTTTAGTAGCTCAAAAATACTCTTGATTTCACATTTCTACTCTAGATGGCAACATTGGACAGAAAATGCAATGACATAACCAATTTGCAGTGATTTTGGAACTGTGTTTCAAATGGACTGTTACCGACTGAAAGGTGTGAACAGCTTTGTATGTTTATGAAGGTTAAGGGAATTTAATACTTTTCCACAGATTCTTTTGTAAGGGGAAGAGGGAAATGTACACTTTTTACAGCAGCAATATTTTGTATATTATGTTTATTTCATGTGTTGAATATGCAAGGCGGTACACTACGCACTGGACAGAATCAGAAATCCTCTTTTAATGTGGACTGAAGTGTGGTAGATGACCTGATTGTTTTGGTCTCAAAATGGTGTACAATGAAGCTAACGGTGAGGGAGGAAGACAAAAGCACACCGTATGTCCACTGTCGTGTTCTTACAGAGGAAACTTAAATCCCTTATATCTGTCAGGTAATGAAGGGCACTGTGATACTGTTTTGAGTAAAAATACATTTTTTTAAAAGCCTTCCCGTTTTGTGGATTAAAACCTTTTTTATAAAGATCATTTATAATACTGTTTTAAAATGTAAGGCAATAAGAATTACTTTATGTTGGATCTGAAGAATCTTTAGTAACAGTTTCATGTAAACAGAGTGGTACTCCTTTCCTCAAATAGCAATAACTGAAGACAAAAGTGTTCGTTTTATCTTGTTTGAGTAATCAGAAGGCTTAGTAAATAATGTCAAAAAACATTTTATAAAGAATATTAAAGAAGAGTCAACATTGATCCAGTAATTTTATTTTTTAACATCAGCAGGATAATTGGTTTGTATAATAAGATAGTAATTCAGGAGACTTTACAAACCTTTATTTCATCTTTCTTAACTGGAAATAATGCCATTATAAAGGAACGTTCTTATATTTTTTTCCCTTTTTTTTATGTTGGTTAATATAACCCAAAGAAATGGTTAGTATAATGCTTATTGATGAGGTTTATTCTGATCTATATTAAAAGCGTAAAGGTTGCATTTTAGATCTCCTTGTTTATAAGTATGAGATATTTACTCATTATTTGAGACTGTCCTGTGCCTGATTATTTAGTTAAATTCAGGGATAATGCATTGGGCAGGAAAGCATGCATTGAGAAATTTCTAACCACAGTTATTTAAGCATAATCTGAGAACATCTAGCCCAAAGGTAAGTTGCTGTTTTCATCACAGTTGCCTGTCCCCAGGGAATTAGATGTAGTCTTTGTAATTGAATTGGTTTTTCCCACTTCTAAGTGGAAACAAAACAGAAGGGGTGCCATAAATTTGTATAAGCAGAACATAGTGTTCTCTACATACTGTAATCAAAAGTGGGAATTTTAATGTGTCTCTGTGTGTGTATGAGAGAGAGAGAGAATGTGTGTGTCCTAAGGTCAGAATATGGTCTTTTTCAACTTGGTCAGTAGAAAATGGACATCAAGTTTGAACAGATAAAGCATGGACAGCCTTATTGTGATTGAAATGCTGAGAGATTTCTGTGCCAATTTTCCACCACTGTGTACTTCGTTGCTATTTAAAACTGTATCAACTCTAACGAAGAATAAATTATTTGTGATTTTAA
LOC101705417 PREDICTED: Heterocephalus glaber uncharacterized LOC101705417 (LOC101705417), misc_RNA.
Length: 1820 bp>XR_205611.1 GGAAAGTCAATAAAAAATGCATATGGGCACCAATAACAACAATCACATAAGGTCACTGAGAAGCAGCCAGTGTGTGGTCCAAGGTCTGAAGGAAGCATAATGACCAAGAATGGGAAATCTTCCCTGATGTGAACCAGGTTCTCACAGGAGTGGAAGCCTGTCTGTTGCTTTGGAGACCATTATCTGGAAAAAAACAGGATGTTGACAGGAACTTTGGCCAATTTCTTCATTATGTCCTACAAGAAATAGCCTGTGGTCAAGTTAATTCAAGGGAGAATGCATGAAGTCGAAGGCGCTGGCAGGCGGAATGACAGTATTGACCCAAGTCTCCGCTGCTATCCGCCAAGCAGAGCACTTATGTCATAAAGAAAATCAGCGCAGCTGGAATCTCAGCCGTTAGGGCTCAACTTGGTTGATCACTGGTTTACTGATAGAGAAAAGAACAATGCAGAATAGCGTCAAGAAACTCAACATGCTTCTGGAATGGGGGAATTTTTGCCTTAGTGGTGAACAATCTGCATGAGTAGAGGAATTTAAAATCAATGATAGCTCTTGAGGATTTTACATGAGACACTGAATTCCGAGTCTATGACAGTTTTACAAGGAGACAACGCTTCATATTGCAGAGCCTGATGCTCAGAAGCCTATTTGAAGGAAAATCTCTCATTCCAGTTTGCCTTCACCTGAGAAGGAAACAGACCCACGTGCCTGGCCACGGGTGCCGCCAGAACACTGTGGTAACAAACAAGTTTAAAAGCAGTGGCTCCTGCAAGAAAGTTATGTTTGTTGCTTCTTCTTCGGATTGGCCTGGGTTTAACTCCTGCCACCTGAAGATCACTGGAAGGAGCAGCCTCCCTCTGGAAGAGGGCCAAAGTTACAGGCCAAGCTTAACTCCAGAAGGGTCAGGAAAATAGAGATCTTGCTTCGAGAGAGGCACTGGATATTGCCATATGAACCAGAAAAGCAATGTACTCATCTATCATATGGGAATAAAAGGTCACACCCGTTGTACAGAGCAACTGAGATTACATGGAATAATCCATCTGAAGAGTCTTGTGTGATACCTGCAAGTGAGGACCGGGAGACGAGGACCCATTTGGACAAAGAAGGACGACCATGTGAAGACAGGAGAAAATGACCAGCTGCAAGGCAAAGAGAGAGGGCTTACAAGAAACTAACCCTACTGACAACTTGTTCTGGGACTTCAAGCTTCCCCAGTTGTGAAAGAATAGATTTCTGTTGTTAGAGTCACCTGGTCTATGGTACTTTGCTGCGGACACCATAGCTCACTAATACAAGGTTTTAGCTTACAACATGAGGAATATCCACTGTCCTCCTCCCCATCCATACCATGATGAAGAGGAGCAGATCATCCTATCCTGCCCTACCCCTGATCTAGAGACCGGGATTGAGCAGTTCTCTTGGGTCTTTCAATGGGCAAGAACCAGGTTTAATGCCACAAAAAAGTCTGTTTTCTTGTTCCCAGCCACCCATGCCTTTTCACTGGCCATCTTGTTTAGGTAATAATGGCTCAAGGCAAGCCCATTGAGAATGTTCCTTTTCACTGCTGGTGACAGTATACTGATTAGTTAAGCTAGCTGTACCCATCAGCTCTTCTTTTCTTCCCTCAAGTTAGATACAGGCACTTGAACTTGAGATTTGTTAACAATAAATTTATTCTCAAATTCCAAGCAAGTAATGCATTATAGATGTGTTGGATTCTAAACAAGTAATCAAAATATGTTATAACTCTGTTGGTTTAATAGCCATAGTGCACACTTATTTTCACTCTGGCATTTTTTAGGCTATTGTAGAAATAG
Impact impact RWD domain protein
>XM_004853141.1 ATGGCTGAGAGGAACGCAGGGAACGACCAGAGGCAGAATGAAGAAATTGAAGCACTGGCAGCCATTTATGGCGAGGAATGGTGTGTCGTTGATGAACGGGCCAGAGTGTTTTGTATTAGAGTTAGCGATGACAAAGATCATCCCAAATGGACAATTTGCTTGCAGGTGATGCTGCCGAATGAATACCCAGCTACAGCTCCACCTATTTATCAATTGAATGCTCCTTGGCTTAGAGGGCAAGAACGTGTGAATATATCCAACAACCTTGAAGAAATATATATAGAGAATATTGGTGAAAGTATTCTTTACCTGTGGGTGGAGAAAATAAGAGATGTTCTAATGCGAAAGTCTCAGCTGACAGAACCAGGCCCAGTTGTACAGAAGAAAACTGAAGAGGAAGACGTTGAATGTGAAGATGATTTCTTTTTAGAATATGATCCAGAAAATCCATACAAAGCATTTGATTATGACTTCAGTGAAAATCAACCAGAAATAAAAGAATTACCTCCAATTGATCATGGCATTCCTATCACAGACCGAAGAAGTACTTTTCAGGCACACTTGGCTCCAGTAGTTTGTCCTAAACAGGTGAAAATGGTTCTTGCCAAGTTGTATGAGAATAAGAAAATAGCTAGTGCCACTCACAACATCTATGCCTATAGAATATACTGCGAGGGTAAGCAGACCTTCCTGCAGGACTGTGAGGATGATGGGGAGACAGCCGCTGGCGGACGTCTTCTCCATCTCATGGAGATTTTGGATGTGAGGAATGTCATGGTGGTAGTGTCACGTTGGTATGGAGGGATTCTGCTAGGACCAGATCGCTTCAAACATATCAACAACTGTGCCAGAAACATACTAGTGGAGAAGAACTACACAAGTTCACCTGAGGAATCATCTAAGGGTTTGGGAAAGAACAAAAAAGTAAAAAAGGACAAGAAGAGGAGTGAACATTAA
Osbpl1a oxysterol binding protein-like 1A
>XM_004853148.1 ATGGGGCGGGGAGACGGGGAAACGGTAAGCAGTGGTCGTGATCCCCGGCGCAGGCGCCCAGACATGAACACAGAAGCAGAACACCAGCTTCTCCATCACGCCAGAAACGGCAACGCTGAAGAAGTAAGGCAGCTGTTAGAAAGCATGGAGAGGAACGAAGTAATGGCTGACATTAACTGCAAAGGAAGAAGTAAGTCTAATTTGGGCTGGACACCTCTTCATCTGGCGTGCTATTTTGGACATAGACAAGTGGTCCAGGATCTGTTGAAGGCTGGTGCGGAAGTGAATGTGTTAAACGACATGGGAGACACGCCGCTCCATCGAGCTGCTTTTACAGGACGAAAGGAGTTGGTAATGCTTCTCTTAGAATATAATGCTGATACTACAGTGGTAAATGGGAGTGGACAGACAGCAAAAGAAGCCACTCATGACAAAGAAATCAGGAACATGCTTGAAGCTGTAGAAAGGACTCAACAAAGAAAACTTGAAGAATTGCTCTTAGCAGCAGCAAGAGAAGGCAAAATAGCAGACCTCACAGCTCTGCTCAACAGGCCCAATCCTCCTGATGTTAACTGTGTGGATCAGTTAGGAAATACACCCTTGCATTGTGCAGCTTACCGGGCCCATAAGCAGTGTGCCATAAAGCTTCTGAAAAGCGGAGCAGACCCGAATCTGAAGAACAAAAATGATCAGAAACCTCTTGACCTTGCCCAGGGTGCTGAAATGAAACATGTCCTTATTGGTAATAAGGTCATCTACAAAGCATTGAAACGATATGAAGGCCCTCTATGGAAGAGTTCAAGATTTTTTGGCTGGAGTTTATTCTGGGTAGTGTTAGAACATGGAGTCCTTTCATGGTATAGGAAACAGCCTGATGCAGCTCATAATATTTATCGCCAGGGATGCAAGCACCTGACTCAAGCAGTATGCACGGTGAAATCCAGTGATAGCTGCCTCTTCTTTATTAAATGCTTTGATGACACCATTCATGGCTTCAGGGTTCCTAAGAATAGCCTTCAACAGTCACGGGAGAACTGGCTGGAAGCAATCGAAGAGCATTCTGCTTATAGCACCCACTACTGTTCTCAGGACCAGATGACCGAGGATGAAGAGGAAGAGGCGGTTTCTGCTGTGGAGTTGAAGGAATCCTTACAGAAAGCACAAGGATGTCAACAGAGACTTGATATGGAAATTTCCAACTTTCTCAAAATGATAAAGGAGTACGACATGGCCAAAGAAATGCTTCCATCATTTCTCCAGAAAGTTGAAGTCATCTCTGAAGCTTCTAGAGAAACTTGTGCAGCTCTGGGTAATTGCCTTCGTCTGTTCACTAAACAAGAAGAGGTGAGGAATTTAAAATTGGAACAGGAGCAAGAGAAAAACAAAATCTTGTCAGAAGCACTGGAGGCTCTCGCCACTGAACATCATGAATTAGAGCAGTCTCTGGTTGAAGGGTCCCCGCCTCCCAGCATCCTTAGTGAGGACGAGTTCTATGATGCGCTGTCAGATTCTGAGTCGGAGAAGTCCCTGAGTCGACTGGAAGCAGTGACAGCACAGTCCTTTGAAGAGGAAGAAGAGCACGTGAGCAGTAGAAAACACAGAATGTCCGAAGGGAAGGATTGTGGTGGGGGAGATGCTCTCTCCAATGGCATCAAAAAGCACCGAACAAGTTTGCCCTCTCCTATGTTTTCCAGAAATGACTTCAGTATCTGGAGCATCCTCAGAAAATGTATTGGAATGGAACTCTCCAAGATCACAATGCCAGTTATATTTAATGAGCCTTTGAGCTTCCTACAGCGACTAACTGAATACATGGAGCATACTTACCTCATCCACAAGGCCAGTTCATTTTCTGACCCCGTGGAAAGAATGCAGTGTGTAGCTGCGTTTGCAGTGTCTGCGGTGGCCTCGCAGTGGGAGCGGACTGGGAAGCCCTTCAACCCGCTGCTGGGGGAAACCTACGAATTAGTGCGAGATGACCTTGGATTCAGACTCATCTCTGAGCAGGTCAGCCATCACCCCCCAATCAGCGCGTTTCATGCCGAAGGATTAAACAACGATTTCATCTTCCATGGCTCCATCTATCCCAAACTGAAGTTCTGGGGGAAGAGTGTAGAAGCAGAACCGAAAGGAACCATCACCTTGGAGCTCCTTGAACATAATGAAGCATATACGTGGACAAATCCTACCTGCTGTGTGCACAATATTATCGTGGGTAAACTCTGGATTGAGCAGTATGGCAATGTGGAAATCACAAACCACAAGACTGGGGACAAATGTGTGTTGAATTTTAAGCCATGTGGCCTTTTTGGTAAGGAATTACACAAAGTTGAAGGCTACATCCAAGATAAAAGCAAGAAGAAGCTCTGTGCGCTGTATGGGAAGTGGACCGAGTGTCTGTACAGTGTTGACCCTGCCACTTTTGAGGCTTACAAGAAAAATGATAAGAGAAACACTGAAGAGAAAAAGAACAGCAAACAGATGAGCAGCTCGGAGGAGTCAGATGAGATGCCCATGCCGGACTCGGAGAGCGTGTTTGTCATCCCGGGCAGTGCCCTCCTGTGGCGAATAGCCCCACGGCCTCCAAATTCTGCCCAGATGTATAATTTCACTAGCTTTGCAATGGTCCTGAATGAAGTGGACAGGGAAATGGAGAGTGTGATCCCTAAGACTGACTGCAGGTTGCGGCCTGACATCCGAGCCATGGAGAATGGAGAAATAGATCAAGCTAGTGAAGAAAAAAAGCGGCTTGAGGAGAAACAAAGAGCAGCCCGGAAAAACAGGTCCAAGTCAGAAGAGGATTGGAAGACGAGGTGGTTCCATCAGGGCCCAAACCCCTACAATGGAGCACAGGACTGGATTTACTCTGGCAGCTACTGGGACAGAAACTACTTTAATTTGCCTGACATTTATTAA
Cabyr calcium binding tyrosine-(Y)-phosphorylation regulated, transcript variant X5
Length: 1146 bp Location: 8079389..8055105 Strand: ->XM_004853146.1 ATGATTTCTTCAAAATCCAGACTTGTCATACCCAATGGCCTCAAGACTCTGCTTGAGGGAGTTAGCAGAGCTATTCTCAAAACCAATCCATCAAACATCACCCAGTTTGCAGCAGTTTATTTTAAAGAACTTGCAGTGTTTAGAGAAGGGAATGCTTCTCTGGATATAAAAGATCTGGTTAAACAATTCCATCAGATTAAAGTACAGAAATGGTCAGAAGGAATGATACTGGAGAAGAAACTAGTACGTATAAAGGAATCCGAAGGAACATCTAAGGTCTTCCAAGAATCTACACAGATGGAAAAATGCACAGACACGGAGGAGGACAATATTGCTGGGCCACAATTCATCAACAAAAGCACCCAGTTTCCGTTAGACCGTGCTGAGCACCGACAGCCTGAGGAGAAGGCTGAAGCAGCTCATGGTCCTTCTTCCAAACCGGCCACCCCCAAGGCCACCAGCCCAGCCCCATCGCCATCTCCAGCACCCGTCTCGGCAGAGTTCGCTTATGTTCCTGCTGACCTGGCTCAGCTTGCCGCTCAGATGCTAGCAATAGCAACAAGCGAAGCAAGACAACCACCACCATATTCTAATAACACGTGGACTCTTTATTGTCTAACTGATAAGAATCAACAAAGCTGCCCATCACCGCCACCTGCACCTGGGCCTTTCGCCCAAGCAACCCTCTATTTATCTAATTCTAAGGATCCACAGTTTCTGCAGAATTCACCAAAAATTACTTCTCCTTACGTGATGACAGATGACAGCAAGACCAGTCGCCCACCTTTTGTTTTAGTGGGCTCAAATGTTCAGGAAGCACAGGATTGGAAATCTCTTCCTGGACACACTGTTGTCTCACAGTCAGATGGTGTGAAGAGATACGCTATCGTACATGTACCTATTGCTGTTGCTGCAGACCAGAAATTCCAGAAACACACCCGGAGTCCCCAGAATGCTAGTCCTCCCACAAGTGGACACGATGGCCCCAGGCCACAAAGCCCAGTTTTTCTTTCTGTTGCTTTCCCAGTAGAAGACGTAGCTAAAAAAGGTTCAGAATCTGGTGACAAACATACTCCTTTTGGAAGTTACGGTATTGCTGGAGAGATTACTGTGACCAGTGCCCATGTTCGCAGAGCAGAACCTTAA
Cabyr calcium binding tyrosine-(Y)-phosphorylation regulated, transcript variant X2
Length: 1392 bp Location: 8079389..8055132 Strand: ->XM_004853143.1 ATGATTTCTTCAAAATCCAGACTTGTCATACCCAATGGCCTCAAGACTCTGCTTGAGGGAGTTAGCAGAGCTATTCTCAAAACCAATCCATCAAACATCACCCAGTTTGCAGCAGTTTATTTTAAAGAACTTGCAGTGTTTAGAGAAGGGAATGCTTCTCTGGATATAAAAGATCTGGTTAAACAATTCCATCAGATTAAAGTACAGAAATGGTCAGAAGGAATGATACTGGAGAAGAAACTAGTACGTATAAAGGAATCCGAAGGAACATCTAAGGTCTTCCAAGAATCTACACAGATGGAAAAATGCACAGACACGGAGGAGGACAATATTGCTGGGCCACAATTCATCAACAAAAGCACCCAGTTTCCGTTAGACCGTGCTGAGCACCGACAGCCTGAGGAGAAGGCTGAAGCAGCTCATGGTCCTTCTTCCAAACCGGCCACCCCCAAGGCCACCAGCCCAGCCCCATCGCCATCTCCAGCACCCGTCTCGGCAGAGTTCGCTTATGTTCCTGCTGACCTGGCTCAGCTTGCCGCTCAGATGCTAGGTAATGTTGCATCTACTCATTCTCATGAATCTGATGTATTAATGGTGGACATGGCGACCAGTATGCCCATTTTTACCGAGGAGGTGCTGAGTGCAGAGGTTGCTGAAGAAGTGGTGGCTGCCCCTCTGGGGTGCCCCAGAGAGGTGCAGGTTGTAAGCCAAGCATCTGTGCAGGTAGATGTGGGTCCTAAAGCTAAAGACTATGAGGCTGAACCATCCACACCTTCCTCAGTCCCCTTGCAGGACGAACACCACCCTCCTGTTTATGATCAAGCTCCTAAGGCCCCTTTGCAGGCTGACACCCCGGTCACATCAGCCCTTCGCATATCATCTATATATAACAATGCGCCTGTCACTGAAGAAGTTGTCTATGTTAAGCGAACCCCTGTTCCTGAAAAGCAGCAGTCACCACCAGGTAGTCCCAAACTTGTAGTATACGAGATGGCCTCAGGCATGTGCAAAAAATCTGTAGAGTCTGTAAAATTTGCAGAGGTGGAGAAGACAAATTACCAGCCCTTAGTCCATGTGGAGGTAGAAGCTATAGTACTGCTGCACTCTGACTCCTGTTTGCAAGGTCAGCCGGAGGCACCTGCAGAACCCCTGCATGCAGAGGACCTTATCGAAACAGGTCCCAAAAAGTCTCTGCACCTTGAAGTGGAGATCATGTCCGCAGACCTTGACAAACCCGGGCAGGAGGAGAAGCCCCAGGAGACAGAGGCCGAAGCGGTGCCCCCAGGGGCGGCTGCAACATCATCTAGTGGCCCCTTCCCTCCTGTGCTAGAAGGTCTTACTGAGCCAGAAATTGAACCAGAAGGGGAAGCAGCACCTGAACAGGTTTGGTGA
Cabyr calcium binding tyrosine-(Y)-phosphorylation regulated, transcript variant X4
>XM_004853145.1 ATGATTTCTTCAAAATCCAGACTTGTCATACCCAATGGCCTCAAGACTCTGCTTGAGGGAGTTAGCAGAGCTATTCTCAAAACCAATCCATCAAACATCACCCAGTTTGCAGCAGTTTATTTTAAAGAACTTGCAGTGTTTAGAGAAGGGAATGCTTCTCTGGATATAAAAGATCTGGTTAAACAATTCCATCAGATTAAAGTACAGAAATGGTCAGAAGGAATGATACTGGAGAAGAAACTAGTACGTATAAAGGAATCCGAAGGAACATCTAAGGTCTTCCAAGAATCTACACAGATGGAAAAATGCACAGACACGGAGGAGGACAATATTGCTGGGCCACAATTCATCAACAAAAGCACCCAGTTTCCGTTAGACCGTGCTGAGCACCGACAGCCTGAGGAGAAGGCTGAAGCAGCTCATGGTCCTTCTTCCAAACCGGCCACCCCCAAGGCCACCAGCCCAGCCCCATCGCCATCTCCAGCACCCGTCTCGGCAGAGTTCGCTTATGTTCCTGCTGACCTGGCTCAGCTTGCCGCTCAGATGCTAGGTAATGTTGCATCTACTCATTCTCATGAATCTGATGTATTAATGGTGGACATGGCGACCAGTATGCCCATTTTTACCGAGGAGGTGCTGAGTGCAGAGGTTGCTGAAGAAGTGGTGGCTGCCCCTCTGGGGTGCCCCAGAGAGGTGCAGGTTGTAAGCCAAGCATCTGTGCAGGTAGATGTGGGTCCTAAAGCTAAAGACTATGAGGCTGAACCATCCACACCTTCCTCAGTCCCCTTGCAGGACGAACACCACCCTCCTGTTTATGATCAAGCTCCTAAGGCCCCTTTGCAGGCTGACACCCCGGTCACATCAGCCCTTCGCATATCATCTATATATAACAATGCGCCTGTCACTGAAGAAGTTGTCTATGTTAAGCGAACCCCTGTTCCTGAAAAGCAGCAGTCACCACCAGGTAGTCCCAAACTTGTAGTATACGAGATGGCCTCAGGCATGTGCAAAAAATCTGTAGAGTCTGTAAAATTTGCAGAGGTGGAGAAGACAAATTACCAGCCCTTAGTCCATGTGGAGGTAGAAGCTATAGTACTGCTGCACTCTGACTCCTGTTTGCAAGGTCAGCCGGAGGCACCTGCAGAACCCCTGCATGCAGAGGACCTTATCGAAACAGGTCCCAAAAAGTCTCTGCACCTTGAAGTGGAGATCATGTCCGCAGACCTTGACAAACCCGGGCAGGAGGAGAAGCCCCAGGAGACAGAGGCCGAAGCGGTGCCCCCAGGGGCGGCTGCAACATCATCTAGTGGCCCCTTCCCTCCTGTGCTAGAAGGTCTTACTGAGCCAGAAATTGAACCAGAAGGGGAAGCAGCACCTGAACAGGTTTGGTGA
Ankrd29 ankyrin repeat domain 29
>XM_004853150.1 ATGTGCACGATGTCCTTCAAGAAGGAAACTCCTCTTGCCAATGCTGCATTCTGGGCAGCAAGGAGAGGAAATTTGGCGCTGCTGAAGCTGCTGCTAAACAGTGGACGGGTGGATGTGGACTGCAGAGACAGTCATGGCACCACGCTCCTCATGGTTGCCTCCTATGCTGGCCACATCGACTGTGTGAGGGAGCTGGTTCTGCAGGGAGCAGACATCAACCTCCAGAGAGAGTCAGGTACAACTGCCCTGTTCTTTGCTGCCCAGCAAGGTCATAATGACGTTGTGAGATTTCTCTTTGGATTCGGAGCGTCTACTGAATGTAGGACCAAAGATGGGGGCACTGCCCTGTTGGCTGCCAGTCAGTATGGGCACAGGCAGGTGGTGGAGACCTTGCTGAAGCATGGAGCCAACATCCATGATCACCTTTACGATGGAGCCACTGCCCTCTTTCTAGCTGCCCAAGGAGGTTACTTGGATGTCATCCGATTACTGTTGTCTTCAGGAGCAAAAGTCAACCAACCAAGGCAGGACGGGACGGCACCCCTGTGGATCGCGTCCCAGATGGGCCACAGCGAGGTGGTGCGCGTGATGCTGCTGCGCGGAGCCGACCGTGACGCCACGCGGAATGATGGTACCACAGCACTGTTGAAAGCAGCCAACAAGGGGTATAATGATGTTATAGAAGAGTTGCTTAAATTCTCACCCACTCTTGGTCTTTTGAAGAATGGCACAACGGCTCTCCATGCGGCAGTGCTAAGCAGGAATATTAAAACAGTTGCCCTGCTCCTGGAAGCAGGGGCAGACCCAGCCCTGAGAAACAAGGCCAATGAACTTCCAGCAGAACTAACCAAAAATGAACGCATACTGCGTCTCCTCCAAAGTAAAGAAGGTCATAGGAAGAGCTAA
Cabyr calcium binding tyrosine-(Y)-phosphorylation regulated, transcript variant X1
Length: 1392 bp Location: 8079389..8056295 Strand: ->XM_004853142.1 ATGATTTCTTCAAAATCCAGACTTGTCATACCCAATGGCCTCAAGACTCTGCTTGAGGGAGTTAGCAGAGCTATTCTCAAAACCAATCCATCAAACATCACCCAGTTTGCAGCAGTTTATTTTAAAGAACTTGCAGTGTTTAGAGAAGGGAATGCTTCTCTGGATATAAAAGATCTGGTTAAACAATTCCATCAGATTAAAGTACAGAAATGGTCAGAAGGAATGATACTGGAGAAGAAACTAGTACGTATAAAGGAATCCGAAGGAACATCTAAGGTCTTCCAAGAATCTACACAGATGGAAAAATGCACAGACACGGAGGAGGACAATATTGCTGGGCCACAATTCATCAACAAAAGCACCCAGTTTCCGTTAGACCGTGCTGAGCACCGACAGCCTGAGGAGAAGGCTGAAGCAGCTCATGGTCCTTCTTCCAAACCGGCCACCCCCAAGGCCACCAGCCCAGCCCCATCGCCATCTCCAGCACCCGTCTCGGCAGAGTTCGCTTATGTTCCTGCTGACCTGGCTCAGCTTGCCGCTCAGATGCTAGGTAATGTTGCATCTACTCATTCTCATGAATCTGATGTATTAATGGTGGACATGGCGACCAGTATGCCCATTTTTACCGAGGAGGTGCTGAGTGCAGAGGTTGCTGAAGAAGTGGTGGCTGCCCCTCTGGGGTGCCCCAGAGAGGTGCAGGTTGTAAGCCAAGCATCTGTGCAGGTAGATGTGGGTCCTAAAGCTAAAGACTATGAGGCTGAACCATCCACACCTTCCTCAGTCCCCTTGCAGGACGAACACCACCCTCCTGTTTATGATCAAGCTCCTAAGGCCCCTTTGCAGGCTGACACCCCGGTCACATCAGCCCTTCGCATATCATCTATATATAACAATGCGCCTGTCACTGAAGAAGTTGTCTATGTTAAGCGAACCCCTGTTCCTGAAAAGCAGCAGTCACCACCAGGTAGTCCCAAACTTGTAGTATACGAGATGGCCTCAGGCATGTGCAAAAAATCTGTAGAGTCTGTAAAATTTGCAGAGGTGGAGAAGACAAATTACCAGCCCTTAGTCCATGTGGAGGTAGAAGCTATAGTACTGCTGCACTCTGACTCCTGTTTGCAAGGTCAGCCGGAGGCACCTGCAGAACCCCTGCATGCAGAGGACCTTATCGAAACAGGTCCCAAAAAGTCTCTGCACCTTGAAGTGGAGATCATGTCCGCAGACCTTGACAAACCCGGGCAGGAGGAGAAGCCCCAGGAGACAGAGGCCGAAGCGGTGCCCCCAGGGGCGGCTGCAACATCATCTAGTGGCCCCTTCCCTCCTGTGCTAGAAGGTCTTACTGAGCCAGAAATTGAACCAGAAGGGGAAGCAGCACCTGAACAGGTTTGGTGA
Lama3 laminin, alpha 3
>XM_004853301.1 ATGGCGCCCGGCCGGGCTCCGTGGCCGCTGCTGCCGCTGCTCGCGCTGCTGCTCGCGCTTCTGCTGGCGTCGCCGGCCCAGGCCGAACTGCTCCCGCCCTTCTTGGACGTGGCCAAGGTGGCTCGGATTTGGGCCACCGCCACCTGCGGGGAGCCGGACCCGGAGAGGCCCCAGCCGGACCCGGGCAGGCTCGAGCCCGCGCTCTACTGCAAGCTGGGGGGTCCCTCCTCCCGCCCCGGCAAAGGCCTAATTCTCCAGGCACTGTTGTCTGCCAAGATCAAGTCATTTGGTCAGTCCTCACCTCTGCTGCTCCATGCCAAGTGGAAGCAGAATGGCCAGTTCTGTGACATCTGTAATTCCAGCGACCCGGAGAAGGCGCATCCAGCCACCAACGCGATTGATGGCACCAATCGTTGGTGGCAAAGCCCTCCTCTCTCCTTGGGCAAGAAGTACAGCCAGGTCAACCTCACCTTGGATCTGGGTCAGGTCTTCCGTGTGGCCTTTGTTTTCATCAAATTTGCAAATTCTCCTCGCCCATATCGTTGGGTCTTGGAAAGGTCTGTAGACTTTGGAAGCACCTACACACCATGGCAATATTTTGCTGCATCTTCAGAAGACTGTATGGAACACTTTGGGAAGGTGGCAGATGAACCTCTCACCAGGGACGATGATGTACCCTGTGTCACGAGATATTCCAGGAATATACCTTTGGAAGATGGAGAGATTAAGGTGTCCTTGATCCTCAACCGTCCAAGTACAAAAACTTCAAGTTTCTCAAATACCTTGAGGGAGTTTATGCAGGCAACAAACATTCGTCTGCGTTTTCTCCAACCCAACAGCTTTTTCGGCTATCACATCTCCGGATATTTGAGGGATCAAAGCCTCACTCGGCGGTATTACTACAGCGTAAAGGATATCAGCATTGGTGGGTGGTGTTCTTGCAATGGCCATGCTGAAGAGTGCAACACAAACAATCCCCAAAAACGGGCCATGGTGCCCATGGATAGATTCAGCGGTGCATCTCGCCCTGTGGTCATGCAGCACAACACGGCAGGTGTGAACTGTGAGGAGTGTGCTGAGGGTTATTATCGCCCTAATGGGGTTCAAGTTAATGACACCTATGGCTGCACCCCTTGCCAGTGTGAGGCTGGACGCTCAGATGGCTGTGAACGGGGCTCTGGCCTCTGTCGCTGCAAGCCGAATTTCCACGGAGACTACTGTGAGAAGTGTGCGGCTGGATACTATAACTTCCCGAGTGTGACTGTAACTTGCAAGGTGTCCTCCCAAGAGTATGTGACAACCAGAGAAGGTGCCTGTGCCGCCCGGGAGTGGAGGGCCCCCGATGTGACACTTGTAGCATGGGCTTCTACTCTTTCCCTCTTTGCCAAGGTTTCGGTGGAGGTTGTGACCCAGCTGGAACCGCCAGCTTCACATCGGGGCATTGCCAATGCAAGGATCACGTTGAAGGTTCTACTTGTAATGTCTGCAAGCCATTGTATTGGAATCTGGCCAAAGAAAACCCCCATGGGTGTTCAGGGAAATGGGGCCTGTCTCTGCAAGGCCCATGTGACTGGAAATGCCTGTGACACCTGCCCTGATGGATATTTCACTTTGAAAAAGCAAAATTACTTTGGATGTGAAGGGTGTCAGTGTGACGTTGGTGGGGCACTCACTCCCACGTGCAGTGAGCCCCACGGGGTGTGCAAGTGCCGGAAGCACGTGGTGGGGAAGACATGCCAGAGGGCTGAAAGGAACTACTATTTCCCAGATTTACATCACATGAAGTATGAAATTGAAGATGGCATTGTACCTAATGGCAAGATCCTTCGGTTTGGATTTGATTACCAGGAATTTCCTAGGTTCAGCTGGCGAGGCTATGCCCAAATGACTGCACTACAGGATGAAGTAAAGGTGACGTTGGATGTGGGGAAGGCAGATCACTCCTTGTTTCAAATTATCCTGAGATATGTTAACCCTGGAACTGACGCAGTCTCTGGCCATATAACTATTTATCCAAACTTGACAAAGGAAGGTGTTACTCAAAGCAAAGAGATCACTTTCCTGCCAAGTAAGCAGCCAGCCTTTGTGACCATCCCCGGAAATGGCCCTGCAGAACCGTTCTCAATGACACCGGGGACGTGGGTTGCTTTTATCAAGGCCAAAGGAATCCTCCTGGATTACCTGGTGCTGCTCCCCAGGGACTACTATGAAGCATCCGCACTTCGGCCCGTCGTCACAGAGCCATGTGGCTTCCAAGGGATTCCTCAGAAAAATTGCTTGCTTTACCAGCATTTGCCGGTGACCAGATTCTCCTGTTTTCTGGCTGAGAAAGCCAGTACCCTCCTGCCAAGTAATATACAGAAACCCCTGACCCTGAGGAAGCCCAGCCGGGCACACCCTCTCATGGTGGATCTCAGCGGACAAGAGGTGGAGCTGCATCTGCTGCTGCGCGTCCCACAGGCCGGCCACTATGCCATCTTGCTGGAGTACACCACCGAGACCAAAAACATGTTTGTGCTTGATGTGACTTTGAGGAGCTGGACGGACCTGGCAGGCCGAGTGAACATATACAGCTGCAAGTACAGGCTGAGAAGTTTGAGAGCATGGTGCTGGCTTCTGGCGAGAACCTTCGTGCGCAAGGGAGCCTGCTTTTATAACAAAGCCACTCCCGTGATAACTAACCCACTCCCATGA
Ttc39c tetratricopeptide repeat domain 39C
>XM_004853149.1 ATGGCCGGGGCCAGGCAGCAGCGACCGCCGCGGCCGGACGACGGAGAGCGGGGCGCGGCGGCGGGGCCCCTGCAGGACGCGGAGCTCGCCCTGGCCGGCATCAACATGCTGCTCAACAACGGCTTTCGGGAGTCGGACCAGCTTTTCAGACAATACAGAAACCACAGCCCATTAATGAGTTTTGGAGCCAGCTTCGTCAGTTTTTTGAATGCCATGATGACATTTGAGGAAGAAAAAATGCAGTTGGCGTGTGATGACTTAAAAACTACAGAAAAGCTGTGTGAAAGTGAAGAGGCTGGAGTAATTGAAACAATCAAGAATAAAATTAAGAAGAATGTTGATGTCCGAAAATCTGCCCCCTCTATGGTTGATCGGCTCCAAAGGCAGATAATCATAGCTGACTGTCAAGTTTACCTGGCTGTGCTTTCGTTTGTGAAGCAAGAATTGTCAGCGTACATAAAAGGTGGGTGGATCCTTAGGAAAGCCTGGAAGATTTACAATAAGTGCTACCTGGACATCAATGCCCTTCAGGAACTGTATCAGAAGAAGCTAACTGAAGAGCCCTTGACTTCTGACGCTGCAAATGATAATCACATTGTGGCTGAAGGGGTGACTGAGGAGTCCCTAAACAGACTGAAAGGTGCTGTGAGCTTTGGATATGGCCTTTTTCACCTTTGCATATCCATGGTGCCCCCAAACCTGCTCAAAATCATCAACCTGCTGGGTTTTCCTGGAGACCGCCTACAGGGGCTTTCTTCACTGATGTATGCAAGCGAAAGTAAGGACATGAAGGCCCCTTTAGCTACACTAGCTCTCCTCTGGTATCACACTGTCGTCCGCCCATTTTTCGCCTTGGATGGCAGCGATAACAAAGCAGGCCTGGATGAAGCGAAGGAAATTCTTCTCAAAAAAGAAGCTGCTTATCCAAATTCTTCCCTCTTTATGTTTTTCAAGGGACGGATCCAGCGATTAGAGTGTCACATCAACAGTGCCTTGACTTCTTTCCATACGGCTTTGGAACTTGCAATCGATCAGAGAGAAATCCAACACATCTGTCTCTATGAAATTGGTTGGTGCAGCATGATTGAGCTCAACTTCAAGGACGCATTTGACTCCTTTGAGAGGCTGAAGAACGAGTCCAGATGGTCGCAGTGCTATTACGCGTATCTGACTGCGGTTTGTCAGGGAGCCAGTGGTGATGTAGACGGGGCACAGATCGTCTTTAAAGAAGTTCAGAAACTCTTCAAAAGGAAGAACAACCAAATCGAACAGTTCTCAGTGAAAAAGGCAGAGAGATTTCGGAAGCAAACCCCAACCACAGTGCTGTGTGTGCTGGCGTCCATCGAGGTGTTGTACCTGTGGAAAGCACTGCCCAACTGCTCCTTCCCCAGCCTGCAGAGGATGAGTCAAGCTTGCCACGAAGTGGATGACTCATCTGTTGTTGGCCTAAAGTATTTGCTTCTTGGTGCCATACACAAATGTCTAGGAAACTCAGAAGATGCTGTTCAGTTCTTTCAGCGAGCTGCTAAAGATGAGTTGTGTCGTCAGAATAACTTATATGTTCAGCCATACGCTTGCTATGAACTTGGCTGTCTTCTATTAGACAAACCAGAGACTGTAGGGAGAGGCAGAACTCTACTTCTTCAAGCAAAGGAGGATTTCTCTGGCTACGACTTTGAAAACAGACTGCACGTCCGCATCCATGCCGCTCTGGCCTCTCTGAGGGAACTGGTTCCTCAGTGA
LOC101709754 chromosome unknown open reading frame, human C18orf8, transcript variant X2
Length: 1689 bp Location: 8662247..8641739 Strand: ->XM_004853152.1 ATGGGCGAGGAGGAATACTACCTGGAGCTGTGCGAGCGGCCGGTGCAGTTCGAGAAGGCCAACCCCATCAACTGCGTCTTCTTCGACGAGGCCAACAAGCAGGTGTTTGCTGTCCGATCCGGTGGGGCTACCGGGGTGGTAGTCAAAGGCACGGACGACAGGAATCCCATCTCATTTAGAATGGATGACAAAGGAGAAGTGAAGTGCATTAAGTTTTCCTTAGAAAATAAGATACTGGCTGTCCAGAGGACCTCGAAGACTGTGGTATTACCTGAGAAACGGAGCCTGAAACTCCTCAAAAGCCATAATATCAATGTGAACTGGTACATGTACTGTCCTGAGAGCACTGTGATTCTGCTGTCTACCACGGTCCTTGAAAATGTTCTGCAGCCTTTTTATTTTAGGGCTGGCACTATGTCGAAGCTGCCCAAGTTTGAGATTGAATTACCAGCTGCGCCCAAGTCAACTAAGCTCAGCCTTTCTGAAAGAGACATTGCAATGGCGACCATATACGGGCAGCTTTACATCCTCTTCCTGCGGCATCATTCTCGGACTTCCAACAGCACTGGAGCGGAGGTGGTCTTGTATCATTTGCCACGAGAGGGCGCCTGTAAGAAGATGCACATCCTGAAGTTAAATAGGACGGGGAAATTTGCTCTGAACGTGGTGGACAACCTGGTTGTCGTCCATCATCAGGACACAGAGACGTCTGTGATATTTGACATCAGGTTGCGGGGCGAGTTCGATGGCTCTGTCACCTACCATCACCCAGTGCTTCCGGCCCGGTCTATCCAGCCCTATCAGATCCCCGCGGCTGGTCCTGCGGCGGTGACCAGCCAGTCTCCTGTCCCCTGTAAACTCTATTCTTCATCGTGGATCGTCTTCCAGCCTGACATTATCATCAGTGCCAGCCAGGGTTACCTCTGGAACCTGCAGGTGAAACTTCAGCCCATAGTAAATCTCTTGCCAGATAAAGGAAGACTGATGGACTTTCTCGTCCAGAGGAAGGAGTGCAAGATGGTCATCCTGTCTGTCTGTTCGCAGATGCTGAGTGAGTCAGACAGAGCCACACTGCCTGTGATAGCCACTGTTTTTGATAAACTCAACCACGAGTATAAAAAGTACTTGGATGCCGAGCAGAGTTATACCATGGCTGTGGAAGCAGGGCAGAGCCGCAGCAACCCGCCTCTCAAAAGGCCTGTGCGGACCCAGGCCGTGGTGGACCAGTCCGATGTTTACACTCACGTGCTGTCGCCGTTCACAGAAAGCAAGGAGATGCCGCACAAGTTCGTGATAGCCGTGCTGATGGAATACATCCGCTCTCTGAACCAGTTTCAGATCGCAGTGCAGCATTACTTACACGAGCTGGTAATCAAGACGCTGGTCCAACACAACCTCTTCTACATGCTGCACCAGTTCCTGCAGTACCACGTGCTCAGCGACTCCAAGCCTCTGGCTTGCCTGCTGCTGTCCCTAGAAAGTTTCTACCCTCCCGCCCACCAGCTGTCTCTGGATATGCTGAAGATGCTGCAAAGCAGACTGAAGACAACATGCTCTTCTATACTATATTCCGGTTTTTTGAACAGCGAAACCAGCGTTTGCGAGGGAACCCTAATTTCACACCAGGAGAACACTGTGAGGAACATGTTGCTTTTTTTAAACAGGTTTTTGGAGATCAAGCTCTTATGA
LOC101709754 chromosome unknown open reading frame, human C18orf8, transcript variant X1
Length: 1974 bp Location: 8662247..8641739 Strand: ->XM_004853151.1 ATGGGCGAGGAGGAATACTACCTGGAGCTGTGCGAGCGGCCGGTGCAGTTCGAGAAGGCCAACCCCATCAACTGCGTCTTCTTCGACGAGGCCAACAAGCAGGTGTTTGCTGTCCGATCCGGTGGGGCTACCGGGGTGGTAGTCAAAGGCACGGACGACAGGAATCCCATCTCATTTAGAATGGATGACAAAGGAGAAGTGAAGTGCATTAAGTTTTCCTTAGAAAATAAGATACTGGCTGTCCAGAGGACCTCGAAGACTGTGGATTTTTGTAACTTTATTCCCGATAATTCTCAGCTGGAATACACACAGGAGTGCAAGACCAAGAATGCCAACATACTAGGATTCTGCTGGACCAGTTCTACTGAAATTGTCTTCATAACAGATCAAGGAATTGAATTTTACCAGGTATTACCTGAGAAACGGAGCCTGAAACTCCTCAAAAGCCATAATATCAATGTGAACTGGTACATGTACTGTCCTGAGAGCACTGTGATTCTGCTGTCTACCACGGTCCTTGAAAATGTTCTGCAGCCTTTTTATTTTAGGGCTGGCACTATGTCGAAGCTGCCCAAGTTTGAGATTGAATTACCAGCTGCGCCCAAGTCAACTAAGCTCAGCCTTTCTGAAAGAGACATTGCAATGGCGACCATATACGGGCAGCTTTACATCCTCTTCCTGCGGCATCATTCTCGGACTTCCAACAGCACTGGAGCGGAGGTGGTCTTGTATCATTTGCCACGAGAGGGCGCCTGTAAGAAGATGCACATCCTGAAGTTAAATAGGACGGGGAAATTTGCTCTGAACGTGGTGGACAACCTGGTTGTCGTCCATCATCAGGACACAGAGACGTCTGTGATATTTGACATCAGGTTGCGGGGCGAGTTCGATGGCTCTGTCACCTACCATCACCCAGTGCTTCCGGCCCGGTCTATCCAGCCCTATCAGATCCCCGCGGCTGGTCCTGCGGCGGTGACCAGCCAGTCTCCTGTCCCCTGTAAACTCTATTCTTCATCGTGGATCGTCTTCCAGCCTGACATTATCATCAGTGCCAGCCAGGGTTACCTCTGGAACCTGCAGGTGAAACTTCAGCCCATAGTAAATCTCTTGCCAGATAAAGGAAGACTGATGGACTTTCTCGTCCAGAGGAAGGAGTGCAAGATGGTCATCCTGTCTGTCTGTTCGCAGATGCTGAGTGAGTCAGACAGAGCCACACTGCCTGTGATAGCCACTGTTTTTGATAAACTCAACCACGAGTATAAAAAGTACTTGGATGCCGAGCAGAGTTATACCATGGCTGTGGAAGCAGGGCAGAGCCGCAGCAACCCGCCTCTCAAAAGGCCTGTGCGGACCCAGGCCGTGGTGGACCAGTCCGATGTTTACACTCACGTGCTGTCGCCGTTCACAGAAAGCAAGGAGATGCCGCACAAGTTCGTGATAGCCGTGCTGATGGAATACATCCGCTCTCTGAACCAGTTTCAGATCGCAGTGCAGCATTACTTACACGAGCTGGTAATCAAGACGCTGGTCCAACACAACCTCTTCTACATGCTGCACCAGTTCCTGCAGTACCACGTGCTCAGCGACTCCAAGCCTCTGGCTTGCCTGCTGCTGTCCCTAGAAAGTTTCTACCCTCCCGCCCACCAGCTGTCTCTGGATATGCTGAAGCGGCTCTCGACTGCCAACGATGAGATAGTGGAAGTCCTTCTGTCCAAACACCAGGTGTTGGCTGCCTTGAGGTTCATCCGGGGCATTGGTGGCCACGACAACATTTCTGCACGGAAATTTTTAGATGCTGCAAAGCAGACTGAAGACAACATGCTCTTCTATACTATATTCCGGTTTTTTGAACAGCGAAACCAGCGTTTGCGAGGGAACCCTAATTTCACACCAGGAGAACACTGTGAGGAACATGTTGCTTTTTTTAAACAGGTTTTTGGAGATCAAGCTCTTATGAGGCCTACAACATTCTGA
Riok3 RIO kinase 3, transcript variant X1
Length: 1671 bp Location: 8690234..8678219 Strand: ->XM_004853154.1 ATGTGGAGAATGATGTTGAGACTGGCAGAGTTAGCAGGGTTCTTGCCTGTGGTTGAATATGGGGTTTACGAGAAAAAGACATGTCCTGCTCTCATAGTCTGCAGGCTGTCTGTACCAGCGCATTGTGTTAGTTCCTTTTTTAAAAAAATTTTTTTTTTTTTTTGGTACCGGGGATCGAACTCGGGTCCTTGCGTTTGCGCAGCAGGCAGTGAAACCACTGAGCTAAATCCCCGGCCCCTATCTATTATTTTGAATAGCGCTGCTGAGGGACCATTTCTTTCGGGGGAAAACCTTGATACTTCCAGCGACCTGATGCTGGCTCAGATGCTGCAGATGGAGTTTGACAGAGAGTACGACGCCCAGCTGAGGCGTGAAGAAAAGAAATTCAATGGCGACAGCAAAGTTTCCATTTCCTTTGAAAATTACCGCAAAGTGCATCCCTTTGAAGACAGCGACAGCTCTGAAGACGAGGTAGACTGGCAGGACACTCGCGACGACCCCTACAGGCCAGCAAAACCAGTTCCCACTCCCAAAAAGGGTTTTATTGGAAAAGGAAAAGACATCACCACCAAACACGATGAAGTGGTGTGCGGGAGAAAGAATACAGCAAGAATGGAAAATTTTGCGCCTGGGTTTCAGGTAGGAGATGGAATTGGAATGGATTTAAAACTATCAAACCATGTTTTCAATGCTTTAAAACAACATGCCTACTCCGAAGAACGCCGGAGCGCCCGCCTGCACGAAAAGAAGGAGCATTCCACCGCAGAGAAAGCAGTTGACCCCAAGACACGCTTGCTTATGTATAAAATGGTCAACTCCGGGCTGCTGGACACCATCACTGGCTGCATTAGCACAGGGAAGGAGTCGGTTGTCTTTCATGCGTATGGAGGGAGCATGGAGGATGGAAAGGAAGATGTTAAAGCTGTACCTACAGAATGTGCCATCAAGGTATTTAAAACAACCCTTAATGAGTTTAAGAATCGTGACAAATATATTAAAGATGATTTCAGGTTCAAAGATCGCTTCAGTAAACTAAATCCACGTAAGATCATCCGCATGTGGGCAGAAAAAGAAATGCACAATCTCACAAGAATGCAGAAAGCTGGAATTCCTTGTCCAACAGTTGTATTACTCAAGAAACACGTTTTAGTTATGTCTTTTATTGGCCATGATCAAGTTCCAGCCCCTAAATTAAAGGAAGTAAAGCTCAGTAGTGAAGAAATGAAAGAAGCCTACTATCAAACTCTTCACCTGATGCAGCAGTTGTATCACGAGTGCACGCTGGTGCACGCCGACCTCAGCGAGTACAACATGCTGTGGCACGCCGGGAAGGTCTGGCTGATCGACGTCAGTCAGTCAGTGGAGCCAACGCATCCTCACGGCTTGGAGTTCCTGTTCCGGGACTGCAGGAATGTCTCCCAGTTTTTCCAGAAGGGAGGAGTAAAGGAAGCCCTCAGTGAGCGGAAACTTTTCAATGCTGTTTCGGGCCTGAACATCTCGGCCGATAATGAAGCGGACTTCTTAGCTGAGGTGAGTGGTGGATGGCAGTTGCTCACCTCCCTGGCGATGAGAGCTGCATGGAAGACAAAGTTTAAGCTCCCTTCCCCTAAACAAAATGAATTCGAGACTTTTCTTGAGACGAGTTTGGTCCTTTTCAGGCTTAAAACTTAG
Riok3 RIO kinase 3, transcript variant X5
Length: 1359 bp Location: 8696832..8678230 Strand: ->XM_004853158.1 ATGCTGGCTCAGATGCTGCAGATGGAGTTTGACAGAGAGTACGACGCCCAGCTGAGGCGTGAAGAAAAGAAATTCAATGGCGACAGCAAAGTTTCCATTTCCTTTGAAAATTACCGCAAAGTGCATCCCTTTGAAGACAGCGACAGCTCTGAAGACGAGGTAGACTGGCAGGACACTCGCGACGACCCCTACAGGCCAGCAAAACCAGTTCCCACTCCCAAAAAGGGTTTTATTGGAAAAGGAAAAGACATCACCACCAAACACGATGAAGTGGTGTGCGGGAGAAAGAATACAGCAAGAATGGAAAATTTTGCGCCTGGGTTTCAGGTAGGAGATGGAATTGGAATGGATTTAAAACTATCAAACCATGTTTTCAATGCTTTAAAACAACATGCCTACTCCGAAGAACGCCGGAGCGCCCGCCTGCACGAAAAGAAGGAGCATTCCACCGCAGAGAAAGCAGTTGACCCCAAGACACGCTTGCTTATGTATAAAATGGTCAACTCCGGGCTGCTGGACACCATCACTGGCTGCATTAGCACAGGGAAGGAGTCGGTTGTCTTTCATGCGTATGGAGGGAGCATGGAGGATGGAAAGGAAGATGTTAAAGCTGTACCTACAGAATGTGCCATCAAGGTATTTAAAACAACCCTTAATGAGTTTAAGAATCGTGACAAATATATTAAAGATGATTTCAGGTTCAAAGATCGCTTCAGTAAACTAAATCCACGTAAGATCATCCGCATGTGGGCAGAAAAAGAAATGCACAATCTCACAAGAATGCAGAAAGCTGGAATTCCTTGTCCAACAGTTGTATTACTCAAGAAACACGTTTTAGTTATGTCTTTTATTGGCCATGATCAAGTTCCAGCCCCTAAATTAAAGGAAGTAAAGCTCAGTAGTGAAGAAATGAAAGAAGCCTACTATCAAACTCTTCACCTGATGCAGCAGTTGTATCACGAGTGCACGCTGGTGCACGCCGACCTCAGCGAGTACAACATGCTGTGGCACGCCGGGAAGGTCTGGCTGATCGACGTCAGTCAGTCAGTGGAGCCAACGCATCCTCACGGCTTGGAGTTCCTGTTCCGGGACTGCAGGAATGTCTCCCAGTTTTTCCAGAAGGGAGGAGTAAAGGAAGCCCTCAGTGAGCGGAAACTTTTCAATGCTGTTTCGGGCCTGAACATCTCGGCCGATAATGAAGCGGACTTCTTAGCTGAGGTGAGTGGTGGATGGCAGTTGCTCACCTCCCTGGCGATGAGAGCTGCATGGAAGACAAAGTTTAAGCTCCCTTCCCCTAAACAAAATGAATTCGAGACTTTTCTTGAGACGAGTTTGGTCCTTTTCAGGCTTAAAACTTAG
Tmem241 transmembrane protein 241, transcript variant X2
>XM_004853160.1 ATGGGCACCTCGAGGGCCAAGTACCAAAGGAGATCGGATGTGCTGACATGGCTCCCGGCCTCGGTGCTGTTTGTGGGTGTAATCTATGCAGGGTCCAGGGCCCTGTCCAGACTGGCCGTGCCTGTGTTTCTCATTCTGCACAACGCAGCGGAAGTCATCATCTGCGGGTACCAGAAGTGTTTTCGGAAAGAGAACATATCTTCTGCAAAGATCTGCAGTGCCCTCTTCCTCCTGGCCGCTGCGGGGTGCCTTCCCTTCAACGACCCCCAGTTTGATCCAGAGGGATATTTTTGGGCTGTAATTCACTTATTCTGTGTAGGGGTTTATAAAATACTACGCAAGGCCTGGAAACTCAGCACATTAAGTGATATTGACCAGCAGTACTTAAACTATATATTCAGTGTGGCACTCCTGGCTTTGGCGTCTCATCCCACAGGTGACCTCTTCAGCGTCCTGGACTTCCCGTTCCTGTATTTCTACAGATTCCACAGCAGCTGCTGTGCCAGTGGGGTTCTCGGGTTCCTGCTCATGCTGAGCACAGTGAAGCTGCAGAGCCTCATGGCCCCTGGGCAGTGTGCATCCTGGGTCTTCTTGGCTAAGGTCCTCACAGCTGGGCTGTCAGTGCTGCTCTTTGACGTGACCCTGACCAGCGCAACCTTGGGATGCCTCCTGCTGGGTGGGCTCGGAGAGGCCTTGCTGGTTTTCTCAGAGCACAAGGGCTGCTGA
Cables1 Cdk5 and Abl enzyme substrate 1, transcript variant X2
>XM_004853162.1 ATGGCGGCGGCCACCGCCACCCCCGGCACGGCCGCCTGCAGCAGCGGCAGTGCAGGCTCCGACGCCGCGGGTACCGGCGGGTTGCAGCCGCAGAAACAGCCGGGCCCGCCGCCGCTGCCCGCGCACCCCCGGAAGCCGCGCATGGACCCGCGGCGGCGCCAGGCTGCCCTGTCCTTCCTCACCAACATCTCGCTGGACGGACGGCCGCCGCTGCAGGACGAGTGGGGAGGCGACGGCGGCGCGCCCAAACCGGGCGCCAGGGCTCGGCTCAGCCCGCTGCCCACCGGCTGCAGCGCGCTCGCCACGCCGGGCCCCTGCGTCTCGCAGCCCTGGCTGCTGCCCCGCGCGTCGGGGGAGCTGTCACTGCCGCCCCGGCCGGCGCCCATCGCCGCGTGCGTCCCGCTGCAGTCGCCGCCGGAGGGGCCCGGGCCGGAGGAGCTGGAGGAGGATGACGCCTTCGCCAGCGTGCAGGTGCCGGCGGCCGCCTTCCTGGGCTCCGGAATCCCCGGCAGCGCGAGCGGTAGTCGGGGTCGCCTCAATTCGTTCACTCAGGGAATCCTGCCCATCGCCTTCTCCAGGCAGACCTCCCTGGAGCAGCCGGGCCCGGGCGGCGGTGCCGGCGCCGGCGCCTTCGAGCAACTGCAGAGGTCCCGGCGTCGCCTCATCTCCCAGAGATCATCCTTGGAAACCCTGGAAGATATTGAGGAGAACGCCCCGCTCCGAAGATGTCGAACTCTCTCAGGTTCGCCCAGACCAAAGAATTTTAAGAAGATTCATTTTATCAAGAACATGCGGCAGCACGACACCAGGAATGGCAGGGACTTGAAGTTGGATGGAGGGAGACAATCAACAGGCGCCATGAGCTTGAAAGAGATCATTGGTCTGGAAGGTGTGGAGCTGGGAGCTGATGGGAAGACGGTTTCTTATACCCAGTTTCTGTTACCCACAAATGCCTTCGGAGCCCGGAGAAATACCATAGACTCCACCTCCTCTTTCTCCCAGTTCCATAACCTGAGCCACCGCAGCCTCTCCATCGGCCGGGCCAGCAGCACCCAGGGCAGCCTGGACATAGGTAGTGACCTGGGGGAATCCATGGACTATGACCCCAATCTCCTGGACGACCCTCAGTGGCCTTGCGGCAAGCACAAGCGAGTTCTGATCTTCCCTTCGTACATGACCACAGTAATCGACTATGTGAAGCCCTCAGATCTCAAGAAGGACATGAATGAGACCTTCAAGGAGAAGTTTCCTCACATTAAGTTAACACTCAGCAAAATAAGGAGCCTGAAACGAGAGATGCGGAAGCTTGCCCAGGAGGACTGTGGCTTCGAGGAGCCCACGGTGGCCATGGCCTTTGTCTACTTTGAGAAGCTCGCCCTCAAGGGGAAGCTGAACAAGCAGAACCGGAAGCTGTGTGCTGGAGCGTGTATGCTGTTAGCAGCCAAGATCGGAAGTGACCTCAAAAAGCACGAAGTCAAGCATTTAATTGACAAACTGGAAGAGAAGTTCCGGCTGAACCGGCGAGAACTGATTGCCTTTGAGTTCCCAGTGTTAGTGGCCTTGGAATTTGCACTCCACTTGCCAGAGCATGAAGTCATGCCGCACTACAGACGGCTGATCCAGAGCTCCTAG
Rbbp8 retinoblastoma binding protein 8
>XM_004853163.1 ATGAACGTCTCTGGAAGTGGTTGTGGAAGCCCTAGTTCTGCAGATATATCTAATGATTTTAAGGAACTTTGGACAAAACTGAAAGAATATCATGATAAAGAAGTACAAGGTTTACAAGTAAAAATATCCAAACTGAAAAAGGAACGCATTTTAGATGCACAAAGACTGGAAGAGTTCTTTACCAAAAATCAACAACTGAGAGAGCAACAGAAAGTCCTTCAAGAAACCATTAAAATTTTAGAAGATCGATTACGAGCAGGATTATGTGATCGCTGTGCAGTAACTGAAGAACATATGCGGAAAAAGCAGCAAGAGTTTGAAAATATCCGACAGCAGAATCTTAAGCTTATTACAGAGCTTATGAATGAAAAGAATGCTCTTCAGGAAGGAAATAAAAAGCTTTCTGAACAACTGCAGAAGATACTTGAGAAGGATAAACAGCATCAAGCAGCTGAACTTGAATGTGAGGAAAATGTTATTCCAGATTCACCAATAACAGCCTTTTCCTTTTCTGGCATTAACCGGCTACGAAGAAAGGAGAATCTCCATGTCCGATATGTAGAAAAAACAAATACTAGATTGGAGCATTCTATGTGTACAAATGAATTAAGAAAAGTTTCTAAGGCTTCAACTCTTTCACAACATAGCCCTAATGAAAAGGAAATTCTAGTTGCTGACACTTGTGATCAAAGTGACACTCCAGTGGCTGAAATATATGGAACAAGAAGTTGTCCCACTGATAAGTCATCTTTTAATTTAGCTACAGTTGTTGCTGAAACACTTGGACTTGGCATTCAAGAGGAATCTGAATCTCAGGGTCCCATGAGCCCTCTTGGTGATGAGCTGTACCACTCTCTGGAAGAAGATCACAAGAAACAGCCTTTTGAGGAGTCCATGAGAAATGCTAAAGATAGTTTAAGATTTTCAGACTCTACTTCAAAGACTCCTCCTCAAGAAGAATTGACTCCTCGGGTGTCATCTCCTGTATTTGTACCTACGTCTACTGTGAAAAGTAGTTTGGGTTTGAATACAAGTTTGTCCCCTTCTCTTTTAGACACTGGGAAACAAAGCCATCTCAAAACAGCCCCTTTCAGCAGCACTTCTATTTCTAGATCAGAGAAAACTAGATCAAAATCTGAGGATAGTGCCCTTTTCACTCATCATAGTCTTGGGTCTGAATTAAACAAGGCCATTAGCCAGTCATCTTCTAGTAAGCAGATTCTTAAAAATATAAGTGAATCCATAAATGAACAGGATATTACTGATCACACTAAAGATACTGTGATAGATAAACATATAGTGTCCCTGAAATCATTGGGAGGCAGAACATCCAAAAGGAAGAAAACTGAGGAAGAAAACGAACATGAAGTATGCTGCCCCCAAGCCTCTTTTGATAAAGAAAATTCTCTTCCTTTTCCAATGGATAGTCAATTCTCCATGAATGGGGACCATGTTTTGGATAAACCTCTGGATCTGTCTGATCGGTTTTCAGCTATTCAGCATCAAGAGAAAAGACAAGGAAATGAGACTTCCAAAAACAAATTCAAGCAAGTGACTCTTTATGAAGCTTTTAAGCCCATCCCAAAAGGCTCATCCTCAAACTATAAGGCCTTGGATGGGGGCTCCATGGACTCCCCAGAGGAGTCCTGTCTACAGGAGTGTGTCCGCCAGTCTTTACGTAAATCCCCTCCAGACAGTAAAACACCATTACCTATAAAAGAAGAAAATTCCATCTTCAAGATCCCTCTACGTCCACGTGAAAGTTTGGAGACAGAGAATCTTTTTGATGATACGAAGGGTGCTAGTTCTAATGAGCCAATAAAAGTAAAAACCAGATCAGTTCATGGAGGATGTGAACTTGCATCAGTTCTTCAGTTAAATCCCTGCAGAATTACCAAAACAAAGTCTAACAACCAAGATGCATCCTTTGAAAATATCCAGTGGAGTATAGATCCAGGAGCAGACCTTTCTGAGTATAAAATGGATATTACTGTAATAGATACAAAGGATGGCAGCCAGTCAAAATTAGGAGGAGAGACAGACATGGACTGTACGCTGGTCAGTGAAAGCTTGCTTTTAAAGGTGAAGAAACAAGGGCAAAAAGGTGAAAAAAGTCCAAATAGAGAAAGAAAGATGAATGATAGCTTGGAAGATTTATTTGATCGGACAACACATGAAGAATACGAATCCTGTTTTGCAGACAATTTTCCCCAAGTGGTAAATGAATTGGAGGAATTATCCACTGCCATAAGGAAACCAAATGCACATGATGATAAACAAGATAAAGTCAAGCAGAAAGCATTTGTGGAGCCATATTTTAAAGATAATGAGAGAGAGACTAGCTTACGAAATTTTCCTCATATTGAGGTTGTTCGGAAAAAAGAAGAGAGAAGAAAATTGCTTGGGCACACGTGTAAGGAATGTGAAATTTATTATGCAGACATGCCAGCCGAAGAAAGAGAAAAGAAGTTGACTTCCTGCTCAAGACACCGATTTCGCTACATTCCACCCAATACACCAGAGAATTTCTGGGAAGTTGGTTTTCCTTCCACTCAGACTTGTATGGAAAGAGGTTACATTAAGGAGGATCTTGATCTTTGTCCTCGTCCAAAAAGACGGCAGCCTTACAATGCAGTGTTTTCTCCAAAAGGCAAGGAGCAGAAGATATAG
Gata6 GATA binding protein 6
>XM_004853164.1 ATGGCCTTGACTGACGGCGGCTGGTGCCTGCCGAAGCGCTTCGGGGCCGCGGCTGCGGACGCCGGCGACCCGGGGGCCTTTCCAGCGCGGGAGCCGTCCACGCCGCCCTCCCCGATCTCCTCGTCGTCGTCCTCGTGCTCCCGGGGCGGCGCCGGCCCCTGCAGGACGCCGCAGCTCGACGCGGAGGCGGTGGCGGGGCCTCCGGCCCGCTCGCTGCTGCTCGGCCCCTACGCCTCGCACGCCTTCGGGGCAGCGCACGGACCTGCGGCGCCGGGGGTCGCGGGCCCCGGCAGCGCCCTGTCCAGCTGGGAGGACCTGTTGCTTTTCACCGACCTCGACCAGGCGGCCACGGCCAGCAAGCTGCTGTGGTCCAGCCGGGGTGCCAAGCTGAGCCCCTTTGCGCCCGAGCAGCCCGAGGAGATGTACCAGACGCTCGCCGCGCTCTCCGGCCAGGGCCCGGCCACCTACGACGGCGCCCCCGGCGGCTTCGTGCACTCGGCGGCGGCAGCGGCGGCAGCGGCGGCGGCGGCCGCCAGCTCCCCGGTCTACGTGCCCACCACGCGCGTGGGCTCCATGCTGCCCGGCCTGCCCTACCTGCAGGGCGCGGCCGGCGCCCCCCCCAGCCACGCGGGCGGCGCGGGCGCACACCCCGGCTGGCCCCAGGGGGCGGCCGACAGCCCCCCCTACGGCGGCGGGGGCGGCACGGCGCCTGGCGGGGCCCCGGGACCCGGCAGCGCCAGCTCGGCCGGGGCGCACGGCTCCGCGCGCTTCCCCTACTCGCCTAGCCCACCCGGGGCCACTGGCGCAGCGCGGGAGCCCGGTGGCTACGCGGCGGCCGGAGGCGGGGGCACGGGCGGCGTGAGCGGAGGCGCCGGGGGCGGCCTGGCGCCCATGGCCGGCCGGGAGCACCAGTACAGCTCGCTGTCCGCCGCACGGCCGCTGAACGGGACGTACCACCACCACCACCACCACCACCCCAGCCCTTACTCGCCCTATATGGGCGCGCCGCTGACGCCTGCCTGGCCGGCCGGACCCTTCGAGACCCCGGTGCTGCACAGCCTGCAGAGCCGCGCCGGAGGCCCGCTCCCCGTGCCGCGGGGGCCCAGCGCAGAGCTGCTGGAGGACCTGCCCGAGAGCCGCGAGTGCGCGAACTGCGGCTCCATCCAGACCCCGCTGTGGCGACGCGACGGCACCGGCCACTACCTGTGCAACGCCTGCGGCCTCTACAGCAAGATGAACGGCCTCAGTCGGCCCCTCATCAAGCCGCAGAAGCGCGTGCCTTCATCTCGGCGGCTTGGATTGTCTTGTGCCAACTGTCACACCACCACCACCACCTTGTGGCGCCGGAATGCCGAGGGCGAACCCGTGTGCAATGCGTGTGGGCTCTACATGAAACTCCACGGGGTGCCTCGACCACTCGCTATGAAAAAAGAGGGAATTCAAACCAGGAAACGAAAACCTAAAAACATAAATAAGTCAAAGACTTGCTCTGGTAATAGCAATAATTCCATTCCTATGACTCCAACTTCAACCTCTTCTAACTCAGACGATTGCAGCAAAAATACTTCCCCTCCGACACAACCGACAGCCTCGAGGGCCGGCCCCCCTGCGATGTCCGGCGTGGCCGAGGGCACCAACCCCACCGAGAGCAGCGAGCTCAAGTATCCGGGTCAGGACGGGCTGTACATCGGCGTCAGTCTGGCCTCGCCCGCGGCCGAGGTCACGTCCTCCGTCCGACAGGATTCCTGGTGCGCGCTGGCCCTGGCCTGA
Mib1 mindbomb E3 ubiquitin protein ligase 1
>XM_004853166.1 ATGAGTAACTCCCGCAACAACCGGGTGATGGTGGAAGGGGTCGGGGCCCGGGTAGTGCGCGGCCCGGACTGGAAGTGGGGGAAGCAGGACGGCGGCGAGGGCCATGTGGGCACCGTGCGGAGCTTCGAGAGCCCCGAGGAGGTGGTGGTGGTGTGGGACAACGGCACCGCCGCCAACTACCGCTGCTCCGGGGCCTACGACCTGCGCATCCTGGACAGCGCGCCCACTGGCATCAAGCATGATGGGACTATGTGTGATACCTGCCGTCAACAGCCAATCATTGGCATTCGGTGGAAGTGTGCAGAGTGTACAAATTATGATCTGTGCACGGTTTGTTATCATGGAGATAAGCATCACTTGAGGCATCGCTTTTACAGAATTACTACACCAGGAAGTGAGCGGGTTCTGTTAGAGTCTCGTAGAAAATCTAAGAAGATTACAGCCAGAGGAATCTTTGCAGGTGCCAGAGTGGTGCGAGGTGTGGACTGGCAGTGGGAAGATCAGGACGGAGGAAATGGGCGCCGGGGAAAGGTAACGGAAATCCAGGACTGGAGTGCATCGAGTCCACACAGTGCAGCATATGTTCTCTGGGACAACGGCGCAAAGAACCTTTACCGAGTGGGCTTTGAGGGCATGTCTGATCTGAAGTGTGTCCAGGATGCCAAAGGAGGTTCTTTCTACAGAGATCATTGTCCTGTGCTAGGCGAGCAGAATGGCAACAGGAATCCTGGTGGATTGCAGATTGGTGACTTGGTAAATATAGATCTTGACCTAGAAATTGTGCAGTCTCTGCAGCATGGTCACGGTGGATGGACTGATGGGATGTTTGAGACTTTAACTACCACTGGAACTGTTTGTGGCATCGATGAAGATCATGACATTGTAGTGCAGTACCCAAGTGGCAATAGGTGGACATTTAATCCTGCTGTCCTCACCAAAGCCAACATTGTTCGCAGTGGGGACTCTGCACAGGGTGCGGAAGGAGGCACTTCGCAGTTTCAGGTGGGCGATCTCGTGCAAGTTTGTTACGATCTGGAAAGAATCAAACTTCTGCAAAGAGGACATGGAGAGTGGGCTGAAGCAATGCTACCAACTTTAGGTAAAGTTGGCCGAGTACAACAGATTTATTCCGACAGCGACTTAAAGGTGGAAGTATGTGGAACATCTTGGACATATAATCCAGCAGCAGTTTCCAAGGTGGCATCTGCAGGATCAGCCATCAGCAATGCCTCTGGTGAAAGACTCTCTCAGCTCCTGAAGAAATTGTTTGAAACTCAAGAATCTGGTGATCTGAATGAAGAATTAGTTAAGGCTGCTGCCAATGGAGATGTTGCTAAAGTGGAAGATTTGCTGAAAAGACCAGACGTGGATGTGAATGGACAATGTGCTGGCCACACAGCTATGCAAGCTGCTAGTCAAAATGGACACGTTGATATTTTGAAGTTACTTTTGAAGCAAAATGTGGATGTAGAAGCAGAGGATAAAGATGGAGACCGAGCGGTTCACCACGCAGCTTTTGGAGATGAAGGTGCTGTTATTGAGGTGCTGCACCGGGGCAGTGCTGATCTGAATGCGCGCAACAAGCGCCGCCAGACGCCGTTGCACATTGCAGTCAACAAAGGTCACCTGCAGGTTGTGAAGACGCTCTTGGACTTTGGTTGTCATCCCAGCCTCCAGGACTCTGAAGGAGATACCCCTCTTCATGATGCCATCAGCAAGAAACGCGATGACATCCTGGCCGTCCTCCTGGAAGCTGGAGCAGACGTCACCATCACAAACAACAATGGGTTCAATGCTCTGCATCACGCCGCACTCCGGGGAAATCCCAGTGCAATGCGTGTTTTACTGTCAAAATTACCAAGACCATGGATTGTGGATGAGAAGAAAGATGATGGTTATACTGCCTTGCATCTGGCTGCCCTTAATAACCATGTGGAAGTGGCTGAACTGTTAGTACACCAGGGTAATGCAAACCTGGATATCCAGAATGTGAACCAGCAGACTGCCCTACACCTCGCCGTTGAGCGACAGCACACCCAGATCGTTAGGCTTTTGGTCCGTGCTGGTGCCAAGCTGGATATTCAGGATAAGGATGGAGATACTCCTCTGCATGAAGCTCTGAGGCACCACACTTTGTCCCAGCTGCGTCAGCTTCAAGACATGCAGGATGTGGGGAAGGTAGATGCTGCCTGGGAGCCATCGAAAAACACATTGATAATGGGACTTGGAACCCAGGGGGCAGAGAAGAAGAGTGCAGCATCTATTGCCTGTTTCTTGGCAGCCAATGGAGCTGACCTTGGCATTCGGAATAAGAAGGGTCAGTCACCGCTCGACCTCTGTCCTGATCCAAGTCTCTGCAAAGCACTGGCAAAGTGTCACAAGGAAAAAGTCAGTGGTCAGGTGGGTTCTCGGAGTCCTTCTATGATTAGCAATGATTCTGAAACCCTAGAAGAGTGTATGGTGTGCTCAGATATGAAAAGAGATACACTCTTTGGCCCATGTGGACACATTGCAACCTGTTCCTTATGTTCGCCACGAGTCAAGAAATGCCTCATCTGTAAAGAACAAGTTCAGTCTAGGACAAAGATCGAAGAATGTGTGGTGTGCTCTGACAAGAAAGCAGCTGTTCTTTTTCAACCCTGTGGACACATGTGTGCTTGCGAGAACTGTGCCAGCCTGATGAAGAAGTGTGTGCAGTGCCGGGCGGTGGTGGAGCGGAGGGTGCCCTTCGTGCTGTGCTGCGGTGGGAAGAGCGCCGAGGACGCCAGCGATGAGCTCTCAAGTGGGAATATTCCAGTGTTACAAAAGGACAAGGATAATACCAATGTCAACGCAGATGTGCAGAAGTTACAGCAGCAGTTACAGGACATTAAGGAACAGACGATGTGTCCCGTGTGTCTGGACCGCCTGAAGAACATGATCTTCCTCTGTGGCCACGGCACGTGCCAGCTCTGTGGAGACCGCATGAGTGAATGTCCCATTTGTCGCAAGGCCATCGAACGGAGGATTCTTTTGTACTAA
Abhd3 abhydrolase domain containing 3, transcript variant X3
Length: 1236 bp Location: 10073479..10112736 Strand: +>XM_004853169.1 ATGCAGCACCTGGCCACGGAGCTGCGGATGCTGTCCCGGGAGCTTTCGCTCTGCCTGGAGCGCCAAGTGCGCGTCGGGTTCTTCGGCTCGGGCATGGGCTTGTCCTTGATCCTGGGCTTCAGCGTCGCCTACGCCTGTTACTACCTGAGCAGCATAGCCAAGAAGCCCCGGCTAGTGACGGGAGGCGAAAGTTTCAGCCGCTTTCTCCAGGAGCACTGTCCCGTGGTGACGGAAACTTACTACCCCACGGTCTGGTGCTGGGAGAGCCGAGGACAGACGCTGCTGAGACCTTTCATCACCGCCAAGCCCCCGGTGCGCTACAGGAATGAACTTATTAAAACTGCAGATGGAGGACAGATTTCTTTGGACTGGTTTGATAATGATAACAGTGCGTATTATACAGATGCCAGCACCAGACCCACCATCTTATTGCTCCCTGGACTCACTGGAACAAGCAAGGAATCCTATATCCTTCATATGATCCATCTCAGTGAAGAATTAGGATACAGGTGTGTGGTTTTTAACAACAGAGGAGTGGCGGGAGAGAATCTCTTGACACCGAGGACTTACTGCTGCGCCAACACTGAAGACTTGGAGACAGTGATTCAGTACGTGCATGGCCTGTGCCCCTCTGCTCCTTTCCTGGCAGCGGGGGTCTCAATGGGAGGAATGCTGCTTCTAAATTACCTGGGCAAAATTGGGCCCAAAACTCCTCTGATGGGAGCCGCAACATTTTCTGTGGGCTGGAACACTTTCGCCTGCTCAGAGTCCCTGGAGAAGCCCCTGAACTGGCTGCTTTTTAATTACTACTTGACCACCTGCCTCCAGTCTTCGGTTAATAAGCACCGGCATATGTTTGTAAAACAAATTGATATGGACCACGTAATGAAGGCTAAATCTATCAGAGAGTTTGATAAGCGATTCACTTCCGTCATGTTTGGCTACCGAACAATTGACGATTATTACACCGACGCTAGCCCTAATCGCAGGCTGAACTCTGTCGGGATCCCAGTGCTGTGTCTCAATTCTGTGGATGATGTTTTCTCTCCCAGTCATGCTATCCCAGTAGAGACTGCTAAGAAGAACCCCAATGTCGCCTTGGTCCTTACTTCCTGCGGAGGCCACATTGGCTTTCTGGAGGGGATCTGGCCCAGGCAGTGCACGTACATGGACCGCGTCTTCAAACAATTTGTGCAGGCCATGGTGGAGCACGGGTGGGAGCTGGCCCGCACTTAG
Snrpd1 small nuclear ribonucleoprotein D1 polypeptide 16kDa, transcript variant X2
Length: 339 bp Location: 10145030..10135425 Strand: ->XM_004853171.1 ATGAAACTGAGCCATGAAACTGTCACCATTGAATTGAAGAATGGAACACAGGTCCATGGAACAATCACAGGCGTAGATGTCAGCATGAACACACATCTGAAGGCGGTGAAGATGACCCTGAAGAACAGAGAGCCAGTGCAGCTGGAAACCTTGAGCATTCGCGGAAACAACATTCGCTATTTTATCCTGCCAGACAGCTTGCCTCTGGACACGCTACTTGTGGATGTTGAACCTAAGGTGAAATCTAAGAAGAGGGAAGCTGTTGCAGGAAGAGGCCGAGGCCGAGGCCGAGGCCGAGGGCGTGGCCGTGGCAGAGGAAGAGGAGGCCCTAGGCGGTAA
Abhd3 abhydrolase domain containing 3, transcript variant X2
Length: 1065 bp Location: 10073488..10126061 Strand: +>XM_004853168.1 ATGCAGCACCTGGCCACGGAGCTGCGGATGCTGTCCCGGGAGCTTTCGCTCTGCCTGGAGCGCCAAGTGCGCGTCGGGTTCTTCGGCTCGGGCATGGGCTTGTCCTTGATCCTGGGCTTCAGCGTCGCCTACGCCTGTTACTACCTGAGCAGCATAGCCAAGAAGCCCCGGCTAGTGACGGGAGGCGAAAGTTTCAGCCGCTTTCTCCAGGAGCACTGTCCCGTGGTGACGGAAACTTACTACCCCACGGTCTGGTGCTGGGAGAGCCGAGGACAGACGCTGCTGAGACCTTTCATCACCGCCAAGCCCCCGGTGCGCTACAGGAATGAACTTATTAAAACTGCAGATGGAGGACAGATTTCTTTGGACTGGTTTGATAATGATAACAGTGCGTATTATACAGATGCCAGCACCAGACCCACCATCTTATTGCTCCCTGGACTCACTGGAACAAGCAAGGAATCCTATATCCTTCATATGATCCATCTCAGTGAAGAATTAGGATACAGGTGTGTGGTTTTTAACAACAGAGGAGTGGCGGGAGAGAATCTCTTGACACCGAGGACTTACTGCTGCGCCAACACTGAAGACTTGGAGACAGTGATTCAGTACGTGCATGGCCTGTGCCCCTCTGCTCCTTTCCTGGCAGCGGGGGTCTCAATGGGAGGAATGCTGCTTCTAAATTACCTGGGCAAAATTGGGCCCAAAACTCCTCTGATGGGAGCCGCAACATTTTCTGTGGGCTGGAACACTTTCGCCTGCTCAGAGTCCCTGGAGAAGCCCCTGAACTGGCTGCTTTTTAATTACTACTTGACCACCTGCCTCCAGTCTTCGGTTAATAAGCACCGGCATATGTTTGTAAAACAAATTGATATGGACCACGTAATGAAGGCTAAATCTATCAGAGAGTTTGATAAGCGATTCACTTCCGTCATGTTTGGCTACCGAACAATTGACGATTATTACACCGACGCTAGCCCTAATCGCAGGCTGAACTCTGTCGGGATCCCAGTGCTGTGTCTCAATTCTGTGGATGATGTTTTCTCTCCCAGTCATGGTCAATGA
Abhd3 abhydrolase domain containing 3, transcript variant X1
>XM_004853167.1 ATGCAGCACCTGGCCACGGAGCTGCGGATGCTGTCCCGGGAGCTTTCGCTCTGCCTGGAGCGCCAAGTGCGCGTCGGGTTCTTCGGCTCGGGCATGGGCTTGTCCTTGATCCTGGGCTTCAGCGTCGCCTACGCCTGTTACTACCTGAGCAGCATAGCCAAGAAGCCCCGGCTAGTGACGGGAGGCGAAAGTTTCAGCCGCTTTCTCCAGGAGCACTGTCCCGTGGTGACGGAAACTTACTACCCCACGGTCTGGTGCTGGGAGAGCCGAGGACAGACGCTGCTGAGACCTTTCATCACCGCCAAGCCCCCGGTGCGCTACAGGAATGAACTTATTAAAACTGCAGATGGAGGACAGATTTCTTTGGACTGGTTTGATAATGATAACAGTGCGTATTATACAGATGCCAGCACCAGACCCACCATCTTATTGCTCCCTGGACTCACTGGAACAAGCAAGGAATCCTATATCCTTCATATGATCCATCTCAGTGAAGAATTAGGATACAGGTGTGTGGTTTTTAACAACAGAGGAGTGGCGGGAGAGAATCTCTTGACACCGAGGACTTACTGCTGCGCCAACACTGAAGACTTGGAGACAGTGATTCAAATGCTGCTTCTAAATTACCTGGGCAAAATTGGGCCCAAAACTCCTCTGATGGGAGCCGCAACATTTTCTGTGGGCTGGAACACTTTCGCCTGCTCAGAGTCCCTGGAGAAGCCCCTGAACTGGCTGCTTTTTAATTACTACTTGACCACCTGCCTCCAGTCTTCGGTTAATAAGCACCGGCATATGTTTGTAAAACAAATTGATATGGACCACGTAATGAAGGCTAAATCTATCAGAGAGTTTGATAAGCGATTCACTTCCGTCATGTTTGGCTACCGAACAATTGACGATTATTACACCGACGCTAGCCCTAATCGCAGGCTGAACTCTGTCGGGATCCCAGTGCTGTGTCTCAATTCTGTGGATGATGTTTTCTCTCCCAGTCATGCTATCCCAGTAGAGACTGCTAAGAAGAACCCCAATGTCGCCTTGGTCCTTACTTCCTGCGGAGGCCACATTGGCTTTCTGGAGGGGATCTGGCCCAGGCAGTGCACGTACATGGACCGCGTCTTCAAACAATTTGTGCAGGCCATGGTGGAGCACGGGTGGGAGCTGGCCCGCACTTAG
Esco1 establishment of sister chromatid cohesion N-acetyltransferase 1, transcript variant X3
Length: 2055 bp Location: 10173756..10210027 Strand: +>XM_004853174.1 ATGTCCATTCCAGAGAAATCAAAAGAAAATTCCTCTGGCGTTGTTAAAGAAAGTGAAGATAAGAATTCAGAAATAGAAATTCAAGGTTCTCAAAACAGTCCAATCAAAAAATCAGATTCAAAGGAAGCTGTGAAGTCATTGGTTAAGTCTTCCAGTGAAAGTAACATAAATCAGCCTGAATTGGGAACACGCATGAGTACAAGGTCATCAAAGGCATCTTCCAATGATAAAAAAGCTACTAAATCTATTTGTAAAAATATGGTAACTGTGAAAGGACATTCACAACAAGAATCAATAAAAAGAAAATTATGTCAGAAAAAATTAGATGAAACCCCTAAAGCAAATGAGCAGCTTAACCGGAGATCACAAAGACTACAACAGTTAACAGAATGCTCAACAAGGTCTTTGCGCAGTAGAGACATTCAGCGTCAAGTTCAAGCAGTTAAACAGAGTTTGCCACCAACCAGAAAAGAGCATTGTAACAGTATTCAAAGTAAATCTAATAAAACAAGTAAAAAACATGTGAAAAGAAAAGTACTAGAAATAAAGTCTCATTCTAAAGAGGATGAAAATTCAGTCATTAATGAAGTAATAAATTCTCCGAAAGGAAAAAAACGCAAAGTAGAGGATCACACAGCTAACACTTGTAGTTCTCAGTCCATACAAGGGCCTGAAAAATGTCTTCAGAAAACTACTAGAAAAGAAGAAACAAAACCAGTGCCTGTCAATTCTGAGATAAAAAGATCAAAAGTGGCTACTTCAGTGGTTTCTAAAAAGGATGAGTTGAAGAAGTCATTTTATACACAAGTGAATACTAGCACAAAATCCCAAAAAAGTCCACTGCCTTCAGTGCCTGAACAAAGTGTTGAGGAGTTGGAGCAAGCAGGAAAGAGCAAAAGAGGTAGTATTCTCCAGCTCTGTGAAGAAATTGCTGGTGAAATTGAGTCGGATACTGTAGAGGTGAAAAAAGAATCTTCCCAAATAGAAAGTGCAAAGGAAGAGATACCCACAGAAATAAAATTGGAAGAGGCAGATGTTGACAGACAAATACTTCATCAGAAGGAAACAGGTCAGGATGTGCAATGTAATCGCTTCTTCCCCAGCAGAAAAACAAAGCCCATGAAGTGTATACTAAATGGAATAAACAGCTCAACTAAGAAGAACTCCAACTGGACTAAAATTAAACTCTCAAAATTTAACTCTGTGCAGCAAAATAAGTCGGACTCTCAAGTTCACCCTAAATTGGGCTTACTACGAACTGGTTTTTCACCACCAGTTTTAGAAATACATCATCCAGTGACTCAGAATACATTTTTAGGGACAAAACAACATGATACAAATGTAACTTGCCAACAGGAAAAAATGAAAGAAATTACATCTGAAGAAGTTAAAATTAATGATGTTAGAGTTGAAATTACTAAAACCACAAAAAGGGCACCTGAAAATTGTCATTTGGATAATCTGATAAATCCTTCTCCTGACCTACCATTGGATAATCAGAGGAAACCTACCTTTGACTCAACACCAGATAAGAATTTCAGCTTATGTTTGGAATCCAAGCTGGAAAACAATCTAGTAGAAAACACCACTGCTGTTTCAACTCCGCTCAGTCAAACAAAAATTGATACAGGAGAAAGTAAATTTTCAGGTTCAATTCCCAAACAGCACAGTATACTCAATAACCAAACATCTAAGGAGAGTGATAACAGGGAAAATCATTCTTGGCTTAAATGTAGTTCCCATTTGGAGATAACAATTCCAAAAGATTTGAAACTAAAAGAAGCAGAGAAATCTGATGAAAAACAGTTAGTCATAGATGCTGGACAAAAAAGACTTGGAGCAGTGTCCTGTAATGTTTGTGGGATGCTCTACACAGCTTCAAATCCAGAAGATGAGACCCAGCACCTGCTTTTTCACAACCAGTTTATAAGTGCTGTCAAGTACGTGGGCTGGAAAAAAGAGAGGATTCTGGCTGAATACCCTGATGGCAGGATAATAATGGTTCTTCCTGAAGACCCTAAGTATGCTCTGAAGAAGAAGTACTTCATAATGTAA
Esco1 PREDICTED: Heterocephalus glaber establishment of sister chromatid cohesion N-acetyltransferase 1 (Esco1), transcript variant X4, misc_RNA.
Length: 2998 bp>XR_205612.1 TATATATATTTTTATTTTTACTTCTTTTGTGGTACTGGGGATTGGACACATGGCCTTTGCACCGAGCAGGTGCTGTTTATGTGTTAAAAGCAGGTTTTAAGGAATGGTTTTATCAGATTTTCATGAGTTATGGTGGCTGAAACATCAATTCTGTCTTGTGGGAAAAGAATTAAATGGCAGCACAAAAGGAAATCTGTATCAATAGAATATTTTATTAAACGAAGGAAATTAAACAAGAACTGCAAACAAACAGACTCAACAAACAAGGAAGGAAACGTATTAGCCATAAGATATGTTTCAAATGAGGCAAAACCCAGTAACTGTAGACTTCAGAAGAAAAAAGTTTTTAACAATTTTGTCAAAATAGTCAGGTCGGTGATAATTAACTCCAGCAATAGGGCTAGGCCTGAAACTAACATTAATTAAAAGTTAGCAAAACAGATTGAATGTGAATTAAGTTTTTCATTAAAAAACTTCTAAAAAATCAAATTAGAATTAAATTTTCTTCAAATTTCTGTTGCCTTGCTAAGAAAAGCAACTATCGTTCAGTATTCGTGCCCGCTTTTTTCATGTTCTAGTTATGACAGAAACCTTATTTGAAGCAAACTAGTATTTTTGCTGAAAATGTATGTCAGCATCAGTTAAAGTTTATTTTTAAGACCTATTCCTCAGTAATTATACTGGATACTCAGCATTTGCACACAGCAGGACGCAAAAGTCCTCTTAAAAACTACTCAGAACAGGAAGACAGTTTTTGGGAGTGATGTCCATTCCAGAGAAATCAAAAGAAAATTCCTCTGGCGTTGTTAAAGAAAGTGAAGATAAGAATTCAGAAATAGAAATTCAAGGTTCTCAAAACAGTCCAATCAAAAAATCAGATTCAAAGGAAGCTGTGAAGTCATTGGTTAAGTCTTCCAGTGAAAGTAACATAAATCAGCCTGAATTGGGAACACGCATGAGTACAAGGTCATCAAAGGCATCTTCCAATGATAAAAAAGCTACTAAATCTATTTGTAAAAATATGGTAACTGTGAAAGGACATTCACAACAAGAATCAATAAAAAGAAAATTATGTCAGAAAAAATTAGATGAAACCCCTAAAGCAAATGAGCAGCTTAACCGGAGATCACAAAGACTACAACAGTTAACAGAATGCTCAACAAGGTCTTTGCGCAGTAGAGACATTCAGCGTCAAGTTCAAGCAGTTAAACAGAGTTTGCCACCAACCAGAAAAGAGCATTGTAACAGTATTCAAAGTAAATCTAATAAAACAAGTAAAAAACATGTGAAAAGAAAAGTACTAGAAATAAAGTCTCATTCTAAAGAGGATGAAAATTCAGTCATTAATGAAGTAATAAATTCTCCGAAAGGAAAAAAACGCAAAGTAGAGGATCACACAGCTAACACTTGTAGTTCTCAGTCCATACAAGGGCCTGAAAAATGTCTTCAGAAAACTACTAGAAAAGAAGAAACAAAACCAGTGCCTGTCAATTCTGAGATAAAAAGATCAAAAGTGGCTACTTCAGTGGTTTCTAAAAAGGATGAGTTGAAGAAGTCATTTTATACACAAGTGAATACTAGCACAAAATCCCAAAAAAGTCCACTGCCTTCAGTGCCTGAACAAAGTGTTGAGGAGTTGGAGCAAGCAGGAAAGAGCAAAAGAGGTAGTATTCTCCAGCTCTGTGAAGAAATTGCTGGTGAAATTGAGTCGGATACTGTAGAGGTGAAAAAAGAATCTTCCCAAATAGAAAGTGCAAAGGAAGAGATACCCACAGAAATAAAATTGGAAGAGGCAGATGTTGACAGACAAATACTTCATCAGAAGGAAACAGGTCAGGATGTGCAATGTAATCGCTTCTTCCCCAGCAGAAAAACAAAGCCCATGAAGTGTATACTAAATGGAATAAACAGCTCAACTAAGAAGAACTCCAACTGGACTAAAATTAAACTCTCAAAATTTAACTCTGTGCAGCAAAATAAGTCGGACTCTCAAGTTCACCCTAAATTGGGCTTACTACGAACTGGTTTTTCACCACCAGTTTTAGAAATACATCATCCAGTGACTCAGAATACATTTTTAGGGACAAAACAACATGATACAAATGTAACTTGCCAACAGGAAAAAATGAAAGAAATTACATCTGAAGAAGTTAAAATTAATGATGTTAGAGTTGAAATTACTAAAACCACAAAAAGGGCACCTGAAAATTGTCATTTGGATAATCTGATAAATCCTTCTCCTGACCTACCATTGGATAATCAGAGGAAACCTACCTTTGACTCAACACCAGATAAGAATTTCAGCTTATGTTTGGAATCCAAGCTGGAAAACAATCTAGTAGAAAACACCACTGCTGTTTCAACTCCGCTCAGTCAAACAAAAATTGATACAGGAGAAAGTAAATTTTCAGGTTCAATTCCCAAACAGCACAGTATACTCAATAACCAAACATCTAAGGAGAGTGATAACAGGGAAAATCATTCTTGGCTTAAATGTAGTTCCCATTTGGAGATAACAATTCCAAAAGATTTGAAACTAAAAGAAGCAGAGAAATCTGATGAAAAACAGTTAGTCATAGATGCTGGACAAAAAAGACTTGGAGCAGTGTCCTGTAATGTTTGTGGGATGCTCTACACAGCTTCAAATCCAGAAGATGAGACCCAGCACCTGCTTTTTCACAACCAGTTTATAAGTGCTGTCAAGTACGTGGTTCTGCTCATTAATCACCACGAGTGTGGATCTGAAGAAGAGTTTATTACCTCTCTTTTTTTGAGTATGTTTAACTTCAGATACACACAACGTAGCCTCTCCTTCCCTATTAGATTCTTAGAAGGGCTGGAAAAAAGAGAGGATTCTGGCTGAATACCCTGATGGCAGGATAATAATGGTTCTTCCTGAAGACCCTAAGTATGCTCTGAAGAAGGTTGACGAGATTAGAGAGATGGTTGATAATGATTTAGGTTTCCAGCAGGCTCCGCTAATGTGCTATTCCAGAAC
Esco1 establishment of sister chromatid cohesion N-acetyltransferase 1, transcript variant X2
Length: 2100 bp Location: 10173756..10208848 Strand: +>XM_004853173.1 ATGTCCATTCCAGAGAAATCAAAAGAAAATTCCTCTGGCGTTGTTAAAGAAAGTGAAGATAAGAATTCAGAAATAGAAATTCAAGGTTCTCAAAACAGTCCAATCAAAAAATCAGATTCAAAGGAAGCTGTGAAGTCATTGGTTAAGTCTTCCAGTGAAAGTAACATAAATCAGCCTGAATTGGGAACACGCATGAGTACAAGGTCATCAAAGGCATCTTCCAATGATAAAAAAGCTACTAAATCTATTTGTAAAAATATGGTAACTGTGAAAGGACATTCACAACAAGAATCAATAAAAAGAAAATTATGTCAGAAAAAATTAGATGAAACCCCTAAAGCAAATGAGCAGCTTAACCGGAGATCACAAAGACTACAACAGTTAACAGAATGCTCAACAAGGTCTTTGCGCAGTAGAGACATTCAGCGTCAAGTTCAAGCAGTTAAACAGAGTTTGCCACCAACCAGAAAAGAGCATTGTAACAGTATTCAAAGTAAATCTAATAAAACAAGTAAAAAACATGTGAAAAGAAAAGTACTAGAAATAAAGTCTCATTCTAAAGAGGATGAAAATTCAGTCATTAATGAAGTAATAAATTCTCCGAAAGGAAAAAAACGCAAAGTAGAGGATCACACAGCTAACACTTGTAGTTCTCAGTCCATACAAGGGCCTGAAAAATGTCTTCAGAAAACTACTAGAAAAGAAGAAACAAAACCAGTGCCTGTCAATTCTGAGATAAAAAGATCAAAAGTGGCTACTTCAGTGGTTTCTAAAAAGGATGAGTTGAAGAAGTCATTTTATACACAAGTGAATACTAGCACAAAATCCCAAAAAAGTCCACTGCCTTCAGTGCCTGAACAAAGTGTTGAGGAGTTGGAGCAAGCAGGAAAGAGCAAAAGAGGTAGTATTCTCCAGCTCTGTGAAGAAATTGCTGGTGAAATTGAGTCGGATACTGTAGAGGTGAAAAAAGAATCTTCCCAAATAGAAAGTGCAAAGGAAGAGATACCCACAGAAATAAAATTGGAAGAGGCAGATGTTGACAGACAAATACTTCATCAGAAGGAAACAGGTCAGGATGTGCAATGTAATCGCTTCTTCCCCAGCAGAAAAACAAAGCCCATGAAGTGTATACTAAATGGAATAAACAGCTCAACTAAGAAGAACTCCAACTGGACTAAAATTAAACTCTCAAAATTTAACTCTGTGCAGCAAAATAAGTCGGACTCTCAAGTTCACCCTAAATTGGGCTTACTACGAACTGGTTTTTCACCACCAGTTTTAGAAATACATCATCCAGTGACTCAGAATACATTTTTAGGGACAAAACAACATGATACAAATGTAACTTGCCAACAGGAAAAAATGAAAGAAATTACATCTGAAGAAGTTAAAATTAATGATGTTAGAGTTGAAATTACTAAAACCACAAAAAGGGCACCTGAAAATTGTCATTTGGATAATCTGATAAATCCTTCTCCTGACCTACCATTGGATAATCAGAGGAAACCTACCTTTGACTCAACACCAGATAAGAATTTCAGCTTATGTTTGGAATCCAAGCTGGAAAACAATCTAGTAGAAAACACCACTGCTGTTTCAACTCCGCTCAGTCAAACAAAAATTGATACAGGAGAAAGTAAATTTTCAGGTTCAATTCCCAAACAGCACAGTATACTCAATAACCAAACATCTAAGGAGAGTGATAACAGGGAAAATCATTCTTGGCTTAAATGTAGTTCCCATTTGGAGATAACAATTCCAAAAGATTTGAAACTAAAAGAAGCAGAGAAATCTGATGAAAAACAGTTAGTCATAGATGCTGGACAAAAAAGACTTGGAGCAGTGTCCTGTAATGTTTGTGGGATGCTCTACACAGCTTCAAATCCAGAAGATGAGACCCAGCACCTGCTTTTTCACAACCAGTTTATAAGTGCTGTCAAGTACGTGGTTCTGCTCATTAATCACCACGAGTGTGGATCTGAAGAAGAGTTTATTACCTCTCTTTTTTTGAGTATGTTTAACTTCAGATACACACAACGTAGCCTCTCCTTCCCTATTAGATTCTTAGAAGGGCTGGAAAAAAGAGAGGATTCTGGCTGA
Rock1 Rho-associated, coiled-coil containing protein kinase 1
>XM_004853303.1 ATGTCGACTGGGGACAGTTTTGAGACTCGGTTTGAAAAAATCGACAACCTGCTGCGGGATCCCAAATCGGAAGTGAATTCAGATTGTTTGCTGGATGGATTGGATGCTTTGGTGTATGATTTGGATTTTCCTGCCTTACGGAAAAACAAAAATATTGACAACTTTTTAAGCAGATATAAAGATACAATAAATAAAATCAGAGATTTACGAATGAAAGCTGAAGATTATGAAGTTGTGAAAGTGATTGGTAGAGGTGCATTTGGAGAAGTTCAGTTGGTAAGACATAAATCTACCAGGAAGGTATATGCAATGAAGCTTCTCAGCAAATTTGAAATGATTAAGAGATCTGATTCTGCTTTTTTTTGGGAAGAAAGGGACATCATGGCTTTTGCTAATAGTCCTTGGGTTGTTCAGCTTTTTTATGCATTTCAAGATGATCGATATCTCTACATGGTGATGGAATACATGCCTGGTGGGGACCTTGTAAATCTAATGAGCAACTATGATGTGCCTGAAAAGTGGGCACGATTCTATACTGCAGAAGTAGTTCTTGCATTGGATGCAATCCATTCCATGGGTTTTATTCATAGAGATGTGAAGCCTGATAACATGCTACTGGATAAATCTGGACACTTGAAGTTAGCAGATTTTGGTACTTGTATGAAGATGAATAAGGAAGGTATGGTACGATGTGATACAGCAGTTGGAACACCTGATTATATTTCTCCTGAAGTATTAAAATCCCAAGGTGGTGATGGTTATTATGGACGAGAATGTGACTGGTGGTCAGTTGGAGTATTTTTATATGAAATGCTTGTAGGTGATACACCCTTCTACGCAGATTCTTTGGTTGGAACTTACAGTAAGATTATGAACCATAAAAATTCACTTACCTTCCCTGATGACAATGATATATCAAAAGAAGCAAAAAATCTTATTTGTGCCTTCCTTACTGACAGAGAAGTGAGATTAGGGAGAAATGGTGTAGAAGAAATCAAAAGGCATCTGTTCTTCAAAAATGATCAATGGGCTTGGGAAACACTCCGAGACATGCCTCAAGAAATCTGGAAGATATCCAAAGAGGGTGAGGACACCATCCCCCGCCTATCCTTTCGCCCGCGCCAGCAGCCTGCGGGCCCGGGCCGCAATGTCCAGCAGCACCAGGCACAAGGCAGCGTCTGGCGCAAGGCAGCAACTTCAAACATAAAACTAGACAAGATAATGAAAGAATTAGATGAAGAGGGAAATCAAAGAAGAAATCTAGAATCTACAGTGTCTCAAATTGAGAAGGATAAAATGTTATTACAACATAGAATTAGTGAGTACCAAAGAAAAGCTGAACAGGAAAATGAGAAGAGGAGAAATGTAGAAAATGAAGTCTCTACATTAAAGGATCAATTGGAAGACTTAAAGAAAGTAAGTCAGAATTCACAGCTTGCTAATGAGAAGCTGGCACAATTACAGAAGCAGCTGGAAGAAGCCAATGACTTACTTAGGACAGAATCGGATACGGCTGTAAGATTAAGGAAGAGTCATACAGAAATGAGCAAATCAATTAGTCAGCTAGAGTCCTTGAACAGAGAATTGCAAGAGAGAAACAGAATTTTAGAGAATTCCAAGTCACAAACAGACAAGGATTACTATCAGCTTCAAGCTGTGTTGGAAGCTGAACGGAGAGACAGAGGTCATGATTCTGAGATGATTGGAGAACTTCAAGCTCGAATCACATCTTTACAAGAGGAAGTGAAGCATCTCAAACATAATCTTGAAAGAGTAGAAGAAGAAAGAAAAGAGGCTCAAGACATGCTTAATCATTCAGAAAAGGAAAAGAACAATTTAGAGATAGATTTAAACTATAAGCTTAAATCATTACAACAAAGGTTAGAACAAGAGGTGAATGAACACAAAGTTACCAAAGCTCGTTTAACTGACAAACATCAGTCTATTGAAGAGGCAAAGTCTGTTGCAATGTGTGAGATGGAAAAAAAACTAAAGGAAGAGAGAAAGGCTCGAGAGAAGGCTGAAAATCGAGTCGTTCAGATTGAGAAGCAGTGCTCCATGGTCGATGTTGATCTGAAACAGGCTCAGCAGAAGCTGGAGCATTTGACTGAAAATAAGGAACGGATGGAGGATGAGGTTAAGAATCTAACCTTGCAGTTGGAGCAGGAATCCAATAAGCGACTGCTGTTACAGAATGAATTGAAGACTCAAGCTTTTGAGGCAGACAATTTAAAAGGCTTAGAAAAGCAGATGAAACAGGAAATAAATACTGTTTTGGAAGCCAAGAGATTATTAGAATTTGAGTTAGCTCAGCTTACAAAACAATATAGAGGAAATGAAGGACAGATGCGGGAGCTACAAGATCAGCTCGAAGCTGAACAGTATTTCTCGACACTTTATAAAACCCAGGTAAAGGAACTTAAAGAAGAACTTGAAGAAAAAAACAGAGAATATTTAAAGAAAATACAGGAACTGCAAAATGAAAGGGAAGCTCTTTCTACTCAATTGGATCTAGCAGAAACAAAAGCTGAGTCCGAGCAGCTGGCTCGAGGACTTCTGGAAGAACAGTATTTTGAATTGACCCAAGAAAGCAAGAAAGCTGCTTCAAGAAACAGACAAGAGATTACAGATAAAGATCACACTGTTAGTCGGCTTGAAGAAACAAACAACATGCTAACCAAAGATATTGAATTATTAAGAAAAGAAAATGAAGAGCTGACCGATAAAATGAAGAAGGCAGAAGAAGAATATAAATTGAAGAAGGAGGAGGAGATCAGTAATCTTAAGGCTGCCTTTGAAAAGAATATCAATACAGAACGAACTCTTAAAACGCAGGCTGTTAACAAGTTGGCAGAAATCATGAATCGCAAAGATTTTAAAATTGATAGAAAGAAAGCTAATACACAAGATTTGAGAAAGAAGGAAAAGGAAAATCGAAAGCTACAATTGGAACTGAACCAAGAAAGAGAGAAATTCAACCAGATGGTAGTGAAACATCAAAAGGAACTGAATGAAATGCAAGCGCAATTGGTGGAAGAATGTACACATAGGAATGAGCTTCAGATGCAGTTGGCTAGCAAAGAAAGTGATATTGAACAGTTACGTGCAAAACTTTTGGACCTTTCGGATTCTACTAGTGTTGCTAGTTTTCCTAGTGCTGATGAAACGGATGGAAACCTCCCAGAGTCAAGAATTGAAGGTTGGCTTTCAGTACCAAATAGGGGAAATATCAAAAGATACGGCTGGAAGAAACAGTATGTGGTAGTAAGCAGCAAAAAAATTTTGTTCTATAATGATGAACAAGATAAGGAACAATCCAATCCATCTATGGTACTGGACATAGATAAACTGTTTCACGTTCGACCTGTAACCCAAGGAGATGTATACAGAGCTGAAACTGAAGAAATTCCTAAAATATTCCAGATACTATATGCAAATGAAGGTGAATGTAGAAAAGACGTAGAGATGGAACCAGTACAACAAGCTGAGAAAACTAATTTCCAAAATCACAAAGGCCACGAGTTCATCCCTACACTCTACCACTTTCCTGCCAACTGTGAGGCCTGTGCCAAACCTCTGTGGCATGTTTTTAAGCCACCCCCTGCCTTAGAGTGTCGAAGATGCCATGTTAAGTGCCACAGAGATCACTTAGACAAGAAAGAGGACTTAATTTCTCCATGTAAAGTAAGTTATGATGTAACATCAGCAAGGGATATGCTGCTGTTGGCATGTTCTCAGGATGAGCAAAAAAAATGGGTAACTCATTTGGTAAAGAAGATCCCTAAGAATCCACCATCTAGTTTTGTTCGTGCTTCACCTCGAACTCTTTCTACAAGATCTACTGCAAATCAGTCTTTCCGGAAAGTGGTTAAAAATACATCTGGAAAAACTAGTTAA
Usp14 ubiquitin specific peptidase 14 (tRNA-guanine transglycosylase)
>XM_004853304.1 TTTGCAGTTACTGTAAAATGGGGAAAGGAGAAGTTTGAAGGCGTAGAACTGAATACTGATGAACCTCCAATGGTGTTCAAGGCTCAGCTGTTTGCGCTGACTGGAGTCCAGCCAGCCAGGCAGAAAGTCATGGTGAAAGGAGGGACACTGAAGGATGATGATTGGGGGAACATCAAAATAAAAAATGGGATGACTTTACTAATGATGGGGTCAGCAGATGCTCTTCCGGAAGAACCTGCAGCTAAAACTGTCTTCGTTGAAGACATGACCGAAGAACAGTTAGCTTCTGCTATGGAATTGCCATGTGGATTGACAAACCTTGGTAATACTTGTTACATGAATGCTACAGTCCAGTGTATTCGTTCTGTGCCTGAACTCAAAGATGCCCTTAAAAGGTATGCAGGTGCCTTGAGAGCGTCAGGGGAAATGGCTTCAGCACAGTACATTACTGCAGCCCTTAGAGATTTGTTTGATTCCATGGATAAAACTTCTTCTAGTATTCCACCTATTATTCTACTGCAGTTTTTACACATGGCTTTCCCACAGTTTGCAGAGAAAGGTGAACAAGGACAGTATCTTCAACAGGATGCTAATGAATGTTGGATACAGATGATGCGAGTATTGCAGCAGAAATTGGAAGCCATAGAGGATGATTCTGTTAAAGAGACAGATTCTTCATCCGCTTCAGCAGTGACACCTACTAAAAAGAAAAGTCTAATTGACCAGTTCTTTGGTGTTGAGTTTGAAACTACCATGAAATGTACAGAATCTGAAGAAGAAGAAGTCACCAAAGGAAAGGAAAATCAGCTGCAGCTTAGCTGTTTTATTAATCAGGAGGTCAAGTATCTTTTTACAGGACTTAAATTGCGACTTCAGGAAGAAATCACCAAACAGTCTCCAACATTGCAAAGAAATGCTTTGTACATCAAATCTTCCAAGATCAGCCGACTACCTGCTTACTTAACTATTCAGATGGTTCGATTTTTTTATAAAGAGAAGGAATCAGTAAATGCCAAAGTTCTTAAGGATGTTAAATTTCCCCTTATGTTGGATGTGTACGAACTTTGTACACCTGAACTTCAAGAGAAAATGGTCTCTTTTCGATCAAAATTCAAGGATATAGAAGATAAAAAAGTGAATCAGCAGCCAAATACAAGTGACAAGAAGAATAGTCCCCAGAAAGAGATTAAATATGAACCTTTTTCATTTGCTGATGATACTGGCTCCAATAACTGTGGATACTATGACTTACAAGCAGTGCTAACGCACCAGGGAAGGTCTAGTTCTTCGGGCCATTATGTATCGTGGGTGAAAAGGAAACAAGATGAATGGATCAAGTTTGATGATGATAAGGTCAGCATCGTGACACCAGAAGATATCTTGCGGCTTTCTGGAGGCGGAGACTGGCACATCGCTTATGTTCTACTCTATGGGCCCCGCAGAGTGGAAATAATGGAAGAGGAAAGTGAACAGTAA
Thoc1 THO complex 1
>XM_004853175.1 ATGTCTGCGACACCGCTGCTCTTCAGTTTGCCCGAAGCGCGAACGCGGTTTGCGAAGTCTGCTAGAGAGGCCTTGAATAACAAAACTATCAAGCCATTGTCAAATACCTTCAACCAGTTACCTGGCAGTGAAAATGAAAAAAAATGTACCCTGGACCAGGCTTTCAGAGGTATTCTAGAAGAAGAGATTATAAATCATTCATCATGTGAAAACGTTTTAGCTATTATTTCTCTTGCTATTGGGGGAGTAACTGGAGGTATTTGTACTGCATCTACGCCTTTTGTATTGTTGGGAGATGTTTTGGATTGTCTTCCTTTGGATCAGTGTGACACAATATTCACTTTTGTGGAAAAAAATGTTGCTACTTGGAAATCAAATACATTTTATTCTGCTGGGAAAAATTATTTACTACGTATGTGCAATGATCTCCTAAGAAGATTATCTAAATCCCAGAACACAGTCTTCTGTGGACGAATTCAACTCTTTTTGGCCAGGCTTTTTCCTCTGTCTGAGAAATCCGGTCTGAACTTACAAAGCCAGTTTAATCTCGAAAATGTCACTGTTTTCAATACCAATGAGCAAGAAAGCACCTTGGGTCAGAAGCACACTGAGGATAGAGAAGAAGGAATGGATGTAGAAGAAGGTGAAATGGGAGATGATGAAGCGCCAACAACTTGCTCCATTCCAATCGATTACAACTTGTACAGAAAATTCTGGTCGCTTCAGGATTACTTCAGGAACCCAGTGCAATGCTATGAGAAGATTTCATGGAAAACTTTTCTCAAGTATTCTGAAGAAGTTTTAGCTGTTTTTAAGAGTTATAAATTAGATGACACTCAGGCCTCCAGGAAAAAGATGGAAGAATTGAAAACAGGAGGAGAACATGTATATTTTGCAAAATTTTTAACAAGTGAAAAGTTGATGGATTTACAGCTGAGTGATAGTAACTTCCGTCGACACATCCTGCTGCAGTATCTCATTTTATTCCAGTATCTCAAGGGGCAGGTCAAGTTCAAAAGTTCAAACTATGTTTTAACTGATGAACAATCACTCTGGATTGAAGATACTACAAAATCAGTCTATCAACTACTATCTGAAAACCCCCCCGATGGAGAAAGATTTTCAAAGATGGTAGAGCATATATTAAACACGGAAGAAAATTGGAACTCATGGAAAAATGAAGGTTGCCCAAGTTTTGTGAAAGAAAGAACATCAGATTCCAAGCCCACGAGAGTGGTACGGAAAAGAACAGCCCCAGAGGACTTCCTTGGGAAAGGACCCAATAAGAAAATTCTGATGGGAAATGAGGAGTTAACAAGGCTTTGGAATCTGTGTCCTGATAATATGGAAGCCTGTAAATCAGACACAAGGCAATACATGCCAACTTTGGAGGAATTCTTTGAAGAAGCCATTGAACAAGCAGATCCTGAAAACATGGTTGAAAGTGAATATAAAGTTGTGAACAATTCAAATTATGGCTGGAGAGCCCTGAGACTGTTGGCAAGGAGAAGCCCACATTTCTTCCAGCCGACTAACCAGCAGTTTAAAAGCTTGCCAGAGTATCTCGAAAACATGGTAATAAAGTTAGCCAAGGAACTACCACCTCCTTCTGAAGAAATAAAAACAGGTGAGGATGAAGATGAGGAAGATAATGATACTTTACTGAAGGAAAATGAAAGCCCTGATGTTCGGCGGGATAAACCCGTGACAGGGGAACAACTAGAATTATTTGCCAACAAGTTGGGTGAACAGTGGAAGATTCTGGCTCCTCACTTGGAAATGAAAGACTCAGAAATCCGGCAGATTGAATGTGATAGCGAAGACATGAAGATGAGAGCAAGGCAGCTGCTGGTCGCCTGGCAGGATCAAGAGGGCATCCATGCGACACCCGATAACCTGATCAGCGCACTGAACAAGTCGGGGTTGAGTGACCTTGCAGAGAGTCTAACTAATGACAATGAGACCAATAGTTAG
Tgif1 TGFB-induced factor homeobox 1, transcript variant X4
>XM_004853196.1 ATGGACAGCCCCCTGGACCTTTCCTCTTCCGCCACCTCCAGCAAGAGGAGGAGAAGGGGCAACCTGCCCAAGGAGTCCGTGCAGATTCTGCGCGACTGGCTGTTCGAGCACCGGTACAATGCCTACCCTTCGGAGCAGGAGAAGGCGCTGCTGTCCCAGCAGACTCACCTGTCCACACTGCAGGTGTGCAACTGGTTCATCAACGCGCGCCGCAGGCTGCTCCCAGACATGCTGAGGAAGGATGGCAAAGACCCAAATCAGTTCACCATTTCCCGCCGTGGGGCCAAGATTCCTGAGGCCAGCTCTCTGGAGGCCGCGATGGGCATCAGAAACTTCATGCCAGCCCTGGAGGAGAGCCCAGTTCATTCCCTGGCAGCCGGACCCACCCCGCCCCTGGGGCAGCCACTGTCGCCCAAGCCCGCGTGCCCGGGACAGCTGCTGCCGCGCCCCTCGGTGATCTGCCACACCACTGTGACTGCCCTGAAGGACGCGGCTTTGTCCTCCTGCTGCCAGCTGGCGGGCGCGGGGCCCGGCCCGGAGACGGCGCTGGGGCACCCGGAGGACACATGTAAGTCGGGGCCCAGCGCGAACCCGCAGAGCGGGCTGTTCAACACACCCCCGCCCACACCCCCGGACCTCAACCAGGACTTCAGCGGCTTCCAGCTCCTCGTGGATGTTGCACTCAAACGGGCTGCGGAGATGGAGCTTCAGGCGAAACTAGCGGCCTGA
Colec12 collectin sub-family member 12
>XM_004853176.1 ATGAAAGACGACTTCGCAGAGGAGGAGGAGGTGCAGTCCTTCGGTTACAAGCGGTTTGGTATTCAGGAAGGAACACAATGTACCAAATGTAAGAATAACTGGGCACTGAAGTTTTCTATCATATTATTATATATTTTGTGTGCCTTGCTAACCATCACAGTAGCCATTTTGGGATACAAAGTTGTAGAGAAAATGGACAATGTGACAGGAGGCATGGAGACATCTCGCCAATCCTATGATGACAAGCTCACAGCAGTGGAAAGTGACCTGAAGAAATTAGGGGACCAAACTGGGAAGAAAGCTATCAGCACCAATTCAGAACTCTCCACATTCAGGTCAGATATTCTGGATCTTCGCCAACAGCTTCGTGAGATTACAGAAAAAACCAGCAAGAACAGAGATACGCTGGAGAAGCTGCAGGCAGGTGGGGATGCGCTGGTGGACAGGCAGAGCCAACTGAAAGAAACTCTAGAGAATAATTCTTTCCTCATCACCACTGTAAACAAAACCCTCCAGGCGTACAATGGCTACGTCACGAATCTGCAGCAAGACACCAGCGTGCTCCAGAGCAATCTGCAGAACCAGATGTACTCCCACAGCGTGGTCATCATGAACCTCAACAACCTGAACCTGACCCAGGTGCAGCAGAGAAACCTCATCACCAACCTGCAGCGATCGGTGGACGACACCAGCCAGGCCATCCAGCGCATCAAGAATGACTTCCAGAACCTGCAGCAGGTTTTCCTTCAAGCCAAAAAGGACACCGACTGGCTGAAGGAGAAAGTGCAGAGCTTGCAGACGCTTGCTGCCAACAATTCCGCCTTGGCCAAGGCCAACAACGACACCCTGGAGGATATGAACGGCCAGCTCAGCTCATTCACAGGTCAGGTGGACAACATCACCACCGTCTCACAGGCCAACGAGCAGAACCTGAAGGACCTTCAGGACTTGCACAAGGATGCAGAGAATAGAACGGCAATCAAGTTCAGCCAACTGGAGGAACGCTTCCAGCTCTTTGAGACGGACATTGTGACCATCATTAGCAACATCAGCTACACAGCTCACCACCTGCGGACGCTGACCAGCAATCTGAACGAAGTCAGGACCACGTGCACAGACACCCTAACCAGGCACACAGACGATCTGACCTCCTTGAATAACACACTGGCCAACATCCGTTTGGATTCTGTGTCTCTCAGGATGCAACAAGATATGATGCGGTCACGGTTAGACACTGAGGTAGCCAACTTGTCAGTGATTATGGAAGAAATGAAGCTCGTGGATTCCAAGCATGGTCAGCTTATCAAGAATTTTACCATCCTGCAAGGTCCTCCTGGCCCCAGGGGTCCAAAAGGCGACAGAGGCTCTCAGGGTCCCCCTGGTCCAACCGGCAACAGAGGACAAAAAGGAGAGAAGGGGGAGCCTGGGCCCCCCGGCCCCGCCGGTGAGAGAGGCCCAGTCGGACCAGCTGGGCCCCCGGGAGAGCGCGGCAGCAAAGGCTCCAGAGGCTCCCAGGGCCCCAAAGGCTCCCGTGGGTCCCCCGGGAAGCCCGGCCCGCAGGGAACCAGTGGAGACCCAGGCGCCCCGGGCCCAGCAGGCAAGGATGGGCTCCCCGGCCCCCAGGGCCCTCCTGGCTTCCAGGGCCTGCAGGGCACTGTGGGGGAGCCTGGGGAACCCGGACCTCGAGGACCGCCAGGCCTGCCAGGGGAGCCAGGACCCAAGGGTGCCCCTGGTCCCCCGGGGCCAGCAGGGGCAGGGGCACTCCTGGCTCTGCAGTATGAGCCAACCCCGGTGCCAGAGGCCAGCGGCTGTCCACCCCACTGGAAGAACTTCACAGACAAATGCTACTATTTTTCGGTGGAAAAAGAAATTTTTGAGGATGCGAAACTTTTCTGTGAAGACAAGTCTGCACATCTTGTTTTCATAAACACAAGAGAGGAGCAGCAATGGATAAAAAAGCAAGTAGTAGGGAGAGAGAGCCACTGGATCGGCCTCACAGACTCAGAGCAAGAAAACGAGTGGAAGTGGCTAGACGGAACCCCTGCAGAATACAAAAATTGGAAAGCTGGACAGCCAGATAACTGGGGTCATGGCCACGGGCCTGGAGAAGACTGTGCTGGGTTGATTTATGCTGGGCAGTGGAACGATTTCCAGTGTGAAGACATCAACAACTTCATTTGCGAAAAAGACAGGGAGACAGGACCATCATTGGCATTATAA
Cetn1 centrin, EF-hand protein, 1
>XM_004853177.1 ATGGCTTCCAGCTTCAAGAAGCCAAATGTGGCCTCTACCAGCCAGAAGAAAAAAGTGGGCCCTAAGCCTGAACTCACTGAAGAGCAGAAGCAAGAAGTGCGGGAAGCATTTGACCTCTTCGATGCTGACGGCAGCGGGACCATCGACGTGAAGGAGCTGAAAGTGGCCATGCGGGCGCTGGGCTTCGAGCCCAGGAAGGAGGAGCTGAAGAAAATGATAGCGGAGGTGGACAAGGAAGACACAGGCAAGATCAGCTTCAATGACTTCCTGGCTGTGATGACCCAGAAGATGGCCGAGAAGGACACCAAAGAAGAAATCCTGAAAGCTTTCCGACTCTTTGACGATGACGAGACCGGGAAGATCTCTTTCAAAAACCTCAAGCGCGTGGCCAACGAGCTGGGCGAGAACCTCACGGACGAGGAGCTTCAGGAGATGATCGACGAGGCCGACCGCGACGGCGACGGCGAGGTGAGCGAGGAGGAGTTCCTCAGGATCCTGAAGACCAGTCTCTACTGA
Tyms thymidylate synthetase
>XM_004853178.1 ATGCCCGCCCCCGGCTCTCAGCTCCCGCCACCGCCCGCCGCGCACGACCAGGGCGCGAAGCCCTCGGCGCCGCACGCGGAGCTGCAGTACCTGCGGCAGGTGGAGCACATCCTGCAGAGCGGCTTTCGCAAGGAGGACCGCACGGGCACCGGGACGCTGTCGCTGTTCGGCATGCAGGCGCGCTACAGCCTGCGAGATCAGTTTCCCCTGCTGACCACCAAGCGTGTGTTCTGGAAGGGTGTTTTGGAGGAGCTGCTGTGGTTTATCAAGGGATCCACAAACGCCAAAGAACTGTCTTCCAAGGGCGTGAAGATCTGGGATGCCAATGGGTCCCGAGACTTCCTGGACAGCCTGGGGTTTTCCAGCCGCCAGGAAGGGGACCTGGGTCCCGTGTATGGCTTCCAGTGGAGGCATTTTGGGGCTGACTACAAAGATATGGACTCAGATTACTCGGGTCAGGGAGTGGACCAGCTGCAGAAAGTGATTGACACCATCAAAACCAACCCTGATGACAGAAGAATCATCATGTGCGCCTGGAACCCAAAAGACCTCCCTCTGATGGCGCTGCCTCCCTGCCATGCCCTCTGCCAGTTCTACGTGGTGAACGGAGAGCTGTCCTGCCAGCTGTACCAGCGCTCCGGGGACATGGGCCTGGGCGTGCCCTTCAACATTGCCAGCTACGCCCTGCTCACCTACATGGTCGCCCACGTCACTGGCCTGCAGCCAGGTGACTTTGTACATACTTTGGGAGATGCACATATTTACCTGAATCACATTGAGCCACTGAAAACTCAGCTTCAGCGAGAACCAAGACCTTTCCCAAAGCTCAAAATCCTTCGAACAGTTGAGACCATCGACAACTTCACAGCTGAAGACTTTCAGCTGGAAGGGTACAATCCACATCCTGCCATTAAGATGGAAATGGCTGTGTAG
Yes1 v-yes-1 Yamaguchi sarcoma viral oncogene homolog 1
>XM_004853180.1 ATGGGCTGCATTAAAAGTAAGGAAGACAAAAGTCCAGCCATTAAATACAGAACTGAAAACGCTCCGGAGCCTGTCAGTAGTGGTGTCGGCCATTACGGAGCAGAGCATACTGCGGTGGCCCCGCCCTCTTCAGTGAAGGGCACATCGGCGAACTTCAGCAGCCTCTCCCTAACACCATTTGGGGGATCCTCAGGGGTGACTCCTTTTGGGGGAGCATCTTCCTCCTTCTCAGTGGTGCCCAGTTCTTATCCTGCTGGTTTAACAGGTGGTGTTACTATATTTGTGGCCTTATATGATTATGAAGCTAGAACTACAGAAGACCTTTCATTTAAGAAGGGTGAAAGATTTCAAATCATTAACAATACGGAAGGAGACTGGTGGGAAGCGAGATCGATCGCAACAGGAAAGAACGGCTACATCCCCAGCAATTATGTGGCGCCTGCAGATTCCATTCAGGCAGAAGAATGGTATTTTGGCAAAATGGGGAGAAAAGATGCTGAACGATTACTTCTGAATCCTGGGAATCAACAAGGTATATTCTTAGTAAGAGAAAGTGAAACTACTAAAGGTGCTTACTCCCTCTCTATTCGTGATTGGGATGAGGTAAGGGGCGACAATGTGAAACACTACAAAATCAGGAAGCTTGACAGTGGTGGGTACTATATCACGACCAGAGCACAGTTTGAAACGCTGCAGAAATTGGTGAAACACTACACAGAACATGCTGATGGTTTATGCCACAAGTTAACAACTGTGTGTCCAACTGTGAAACCCCAGACTCAAGGTCTAGCAAAAGATGCTTGGGAAATTCCTCGGGAGTCTTTGCGACTAGAGGTCAAACTAGGACAAGGATGCTTTGGTGAAGTATGGATGGGAACATGGAATGGAACCACAAAAGTAGCAATCAAAACTCTAAAACCAGGCACAATGATGCCAGAAGCTTTTCTTCAAGAAGCGCAGATAATGAAAAAACTAAGACATGATAAACTTGTTCCACTCTATGCTGTTGTTTCTGAAGAGCCAATTTACATTGTCACTGAATTTATGTCCAAAGGGAGCTTATTAGATTTCCTTAAGGAAGGAGATGGAAAGTATTTGAAGCTTCCACAGCTGGTCGATATGGCTGCTCAGATTGCTGATGGTATGGCATATATTGAAAGAATGAACTACATCCACCGAGATCTTCGGGCTGCTAATATTCTTGTAGGAGAAAATCTTGTGTGCAAAATAGCAGATTTTGGTTTAGCAAGATTAATTGAAGACAATGAATACACTGCAAGACAAGGTGCAAAATTTCCAATCAAATGGACAGCTCCTGAGGCTGCACTTTATGGTCGATTTACAATAAAGTCTGATGTATGGTCATTTGGAATTCTACAGACAGAACTTGTCACAAAGGGGAGAGTGCCATATCCAGGTATGGTGAACCGCGAGGTGCTGGAGCAGGTGGAGCGGGGATACAGAATGCCCTGCCCTCAGGGCTGCCCAGAGTCACTCCATGAATTGATGAACCTTTGCTGGAAGAAGGACCCTGATGAAAGACCAACATTTGAATATATTCAGTCCTTCTTGGAAGACTACTTCACTGCTACAGAACCACAGTACCAGCCAGGAGAAAATTTATAA
Adcyap1 adenylate cyclase activating polypeptide 1 (pituitary), transcript variant X1
Length: 531 bp Location: 11360006..11375813 Strand: +>XM_004853181.1 ATGACCATGTGCAGCGGAGCGAGGCTGGCCCTGCTGGTCTATGGGATAATAATGCACAGCGGCGTCTACGGCTCACCTGCCGCCGCCGGACTCCGGTTCCCTGCGATCAGGTCGGAGGACGAGGCGTACGAAGAAGACGGAAACCCGCCGCAGGAGCTGCTGGCCGAGGGCCGGCCAGGCGCAGGGAGCCCCGCCTCCGCGCCGCAGGACGCCCACGACCTCTACGACCCGGCGGAGCGCAGAGACGTCGCCCGGGGAATGCTCAGCAAGGCCTACCGCAGAGTGCTGGATCAGCTGTCTGCCAGGAAGTACCTGCAGTTCCTGGCGGCCAGGGGCATGGGTGGGGACCTAGGCGGCGTCGCGGAGGACGACTCGGAGACGCTCTCCAAGCGCCACTCGGACGGAATCTTCACGGACAGCTACAGCCGCTACCGGAAACAAATGGCTGTCAAGAAATACTTGGCGGCCGTCCTGGGGAAAAGGTATAAACAAAGGGTTAAAAACAAAGGACGCCGAATAGCGTTTTTGTAG
Ndc80 NDC80 kinetochore complex component
>XM_004853185.1 ATGAAGCGCAGTTCAGTTTCCACTGGTGGTGCTGGCCGCCTCTCTATGCAGGAGTTAAGATCCTTGGACATGAATAAGCCAGGCCTTTATACTCCTCAAACCAAAGAGAAACCAACGTTCAGCAAGCTAAGTGTAAACAAACCTACATCTGAAAGAAAAGTCTCTGTATTTGGTAAAAGAACAAGCGGACACGGATCCCGGAATAGTCAACTTGGTATATTTTCCAGTTCTGAAAAAATCAAGGACCCAAGACCCCTTAATGACAAAGCGTTCATTCAGCAGTGTATTCGACAACTCTGTGAGTTTCTTACAGAAAATGGTTACGCATACAGTGTATCCATGAAATCTCTCCAAGCTCCATCTGTTAAAGACTTCCTAAAGATCTTCACTTTTCTCTATGGCTTCCTGTGCCCTTCCTATGAGCTCCCTGACACAAAATTTGAAGAAGAGGTTCCAAGAATTTTTAAAGACCTTGGGTATCCTTTTGCTCTGTCCAAAAGCTCCATGTACACCGTGGGAGCCCCTCACACCTGGCCACACATCGTGGCGGCCTTGATTTGGCTCATAGACTGCATCAAGATACATAATGCCATGAAGGAGAGCTCACCTTTATTTGATGATGGGCAGCCATGGGGAGAAGAAACTGAAGATGGAATTATGCATAATAAGTTGTTTCTGGACTACACCATTAGATGCTACGAGAGCTTCATGACTGGCGCTGACACCTTTGAAGAGATGAATGCAGAGCTGCAGTCCAAGCTGAAGGATTTATACAATGTCGATGCTTCCAAGCTGGAATCATTAGCCGCAAAAAACAAAGCGTTGAATGAACAGATTACAAGACTGGAGCGGGAAAGAGAAAAGGAACCGAATCGTCTAGAGTCTTTGAGGAAACTGAAAACTTCCCTACAAGCAGATGTTCAAAAATATCAATCATACATGAGCAATTTAGAGTCCCATTCAGCCATTCTTGACCAGAAATTGAGTGGCCTCGATGAAGAAATTTCTAGAGTAGAACTGGAATGTGAAACAATAAAACAGGAGAATGCTCGGCTACAGAATGTTGTTGATAACCAGAAGTACTCAGTCGCCGACATTGAGAGAATAAATCATGAAAAAAACAATTTGCAACAAACCATCAATAAATTAACCAAGGACCTAGAGGCTGAACAGCAGCAGTTGTGGAATGAGGAGCTCAAGTATGCCAGAGCCAAAGAAGCGATTGAAACACAATTAGCAGAATATCACAAATTGGCTAGAAAATTGAAACTTATCCCAAAAGGTGCTGAGAATTCCAAAGGTTATGACTTTGAAATTAAGTTTAATCCTGAAGCTGGTGCCAACTGCCTTGTCAAATACAGGGCACAAGTTTATGTACCTCTCAAGGAACTCCTAAATGAAAATGAAGAAAAAATTAATAAAGCGCAGAATAAGAAAATGGGTTTGGAGGATACTTTAGAGCAATTGAATACAATGATAACAGAAAGCAGGAGAAGCGTGAGGACTCTGAAGGAGGAAGTTCAGAAGCTGGATGACCTATACCAACAGAAGGTCAAGGAAGCGGAGGAAGAGGATGAGAAATGTGCCAGCGAGCTTGAGTCCTTGGAGAAGCATAAGCACCTGCTGGAGAGCGCCGTTAACGAGGGCCTCAGTGAGGCCATGAATGAGCTGGACGCCGTGCAGCGGGAGTACCAACTAGTGGTGCAGACCACAACTGAAGAAAGAAGGAAAGTGGGAAATAACTTGCAGCGTCTTCTAGAGATGGTTGCCATGCACGTAGGGTCCATGGAGAAACATCTTGAGGAGCAGATTACTAAAGTTGATAGAGAATACGAAGAATGTGTGTCTGAAGATCTTTTGGAAAACATTAGAGAGATGGCAGAAAAATATAAGAAGAATGCTACTCTCCTTAAGGCTTCTGATGAATGA
Smchd1 structural maintenance of chromosomes flexible hinge domain containing 1
>XM_004853186.1 ATGGCAGCGGCCGGCGGCGGCGAGCCCGGCGAGGCCTCGGCGGGGACTGCAGGCGACGGCCCCCGGACCGTGTACCTGTACGACCGGCGCGGGAAGGAGTCGGAGCTTGGGGACCGGGCCCTGCAGGTCGCCGAGCGCGCGGGCCTCGCGGGCTTCCGCGCCTCTGTGTGTCAGACACTTGGCATTTCACCTGAAGAAAAATTTGTTATTACAACAACGAACAGGAAAGAAATTACTTGTGATAATTTTGATGAAACTGTTAAAGATGGAGTGACTCTGTACCTGCTACAGTCCGTCAATCAATTACTGCTCTCAGCTACGAAAGAACGAATTGACTTCCTACCTCACTATGACACACTGGTTAAGAGTGGCATGTATGAGTATTATGCAAGTGAAGGGCAGAATCCTTTGCCATTTGCTCTTGCGGAATTAATTGACAATTCATTGTCTGCAACTTCTCGTAATGTTGGTATTAGAAGAATACAGATCAAATTGCTTTTTGATGAAACACAAGGAAAACCTGCGGTTGCAGTGATGGATAATGGAAGAGGAATGACCTCGAAACAGCTTAACAACTGGGCCGTGTATAGGTTGTCAAAATTTACAAGGCAAGGTGACTTTGAAAGTGATCATTCAGGTTATGTTCGTCCAGTACCAGTTCCACGCAGTTTAAATAGTGATATTTCCTATTTTGGTGTGGGGGGCAAGCAAGCTGTTTTCTTTGTTGGACAATCAGCCAGGATGATAAGTAAACCTGCAGATTCCCAGGATGTTCATGAGCTTGTGCTTTCCAAAGAAGATTTTGAGAAGAAAGAAAAAAATAAGGAGGCGATATATAGTGGATACATTAGAAACAGAAAGCCGTGTGATTCTGTTCATATTACAAATGATGATGAAAGATTTCTACATAATCTTATCTTAGAGGAGAAGGAAAAAGATAGCTTTACTGCTGTGGTTATTACAGGGGTGCAACCAGAACATATACAGTACCTGAAAAATTACTTCCATCTTTGGACTCGACAGTTAGCGCATATTTATCATTACTATATTCACGGACCAAAAGGAAATGAAATACATACATCGAAAGAAGTTGAACCTTTCAACAACATTGATATCGAAATTTCCATGTTTGAAAAAGGGAAGGCACCTAAGAATGTCAACTTAAGGGAAATACAAGATGACATGCAGACATTGTATATCAACACAGCATCTGATAGCTTTGAGTTCAAGGCTCATGTTGAAGGAGATGGTGTAGTAGAAGGGATTATCCGATACCATCCTTTCTTATATGATAGAGAAACTTACCCTGATGATCCGTGCTTTCCATCAAGATTAAAAGATGATGATGATGATGATGATTGTTTCATACTTGAGAAAGCAGCAAGAGGGAAAAGACCTATTTTTGAATGTTTTTGGAATGGACGATTGATACCGTATACATCAGTTGAAGACTTTGACTGGTGTACTCCTCCTAAGAAGAGAGGCCTTGCACCAATTGAATGCTACAATAGAATATCTGGTGCTTTGTTCACTAATGACAAATTTCAAGTCAGCACAAATAAACTGACCTTTATGGATCTTGAGCTAAAACTGAAAGACAAGAACACCCTTTTTACAAGGATTTTAAATGGACAGGAAATACGAATGAAAATTGACAGAGAATTTGCTTTATGGCTGAAGGACTGTCATGAAAAGTATGACAAACAAATAAAATTTACGCTTTTTAAAGGAATAATTACACGTCCTGATCTCCCGTCTAAAAAGCAAGGCCCCTGGGCAACATACTCAGCAATAGAATGGGATGGAAAAATATACAAAGCAGGACAGTTGGTCAAGACAATCAAAACACTTCCCCTCTTCTATGGAAGTATAGTAAGATTTTTCCTGTATGGTGATCATGATGGAGAAGTATATGCTACAGGAGGAGAAGTTCAAATTGCAATGGAACCTCAGGCACTATATGATGAAATAAAAACTGTGCCAATTGCAAAGCTGGATAGGACAGTTGCTGAGAAAACTGTTAAAAAATATGTAGAAGATGAAATGGCAAGGCTCCCTGACAGATTGTCAGTAACTTGGCCTGAAGGAGATGAATTATTGCCTAATGAGATTAGGCCTGCTGGAACTCCCATTGGTGCATTAAGAATAGAAATACTGAACAAAAAAGGGGAAGCAATGCAAAAGCTTCCAGGAACAAGTCATGGAGGGTCAAAAAAACTCCTGGTTGAGCTTAAAGTTATACTACACTCCTCAAGTGGAAATAAAGAAATCATTTCACATATCAGTCAACATGGAGGAAAATGGCCTTATTGGTTTAAAAAAATGGAAAATATTCAAAAATTGGGGAATTACACATTGAAATTGCAAGTGGTATTGAATGAAAGTAATGCAGACACCTATGCGGGAAGACCATTACCATCTAAAGCAATTAAATTTTCTGTTAAAGAGGGCAAGCCAGAGAAATTTTCCTTTGGACTCCTGGATCCTCCTTTTCGTGTTGGTGTCCCATTCAATATCCCTTTGGAGTTTCAGGATGAATTTGGTCACACTAGCCAACTAGCAACGGACATTCAGCCAGTTCTTGAAACAAGTGGTTTATCTTTACATTATGAAGAAATAACCAAAGGACCAAATTGTGTAATTCGAGGTGTTACAGCTAACGGCCCTGTGAACTCTTGCCAAGGCAAGAATTTTAACCTGAAGGTGATTCTGCCAGGTTTAAAAGAAGACTCGCAAATTCTCAAAATTAGATTACTACCGGGTCCCCCTCGTCGATTGAAAGTGAAACCTGATTCTGAAATTTTAGTGATAGAAAATGGAACAGCTTTCCCATTTCAGGTGGAGGTTCTAGATGAATCAGATAACATAACAGCACAGCCAAAATTGATTGTTCACTGCAAGTTTCTAGGTGTGCCCAATCTTCCAGTATATGTTGTAGACTGTAGCAGTTCTGGAACCAGTATTTTAACAGGATCTGCAATTCAAGTCCAGAATATTAAAAAAGACCAGACACTTAAAGCAAGAATTGAAATACCTAGCTGTAAAGATGTGTCGCCTGTGGAAAAGACTATCAAGTTGCTTCCCAGTAGCCATGTTGCACGACTGCAGATATTTAGTGTAGAGGGACAAAAGGCAATCCAGATTAAACATCAAGATGAGGTTAACTGGATAGCAGGCGATGTTATGCATAATCTTATTTTTCAAATGTATGATGAAGGAGAAAGAGAAATCAATATAACATCAACTTTAGCAGAAAAAATTAAAGTAAACTGGACTCCTGAGGTTAACAAAGAACACTTGCTACAGGGTCTGCTTCCTGATGTACAAGTACCAACATCTGTAAAAGATATGCGCTATTGTCAAGTTTCATTCCAAGATGATCACGTGTCTTTGGAAAGTGCATTTACAGTAAGACCACTTCCTGATGAACCCAAACATTTAAAATGTGACCTAAAAGGAGGAAAAATAGTGCAGATGGGCCAAGAGCTTCAAGGAGAAATAGTTATAATTATTACAGATCAGTATGGAAATCAGGTTCCAGCATTTTCACCAAGTACTTTATCTGCTTTGTCAATTGCTGGAGCTGGACTCGATAACTCAAGTGTGAAGACTGCTTTGCAGGAAAACTCACAAAGTGTAAGTGTAAGAGGCATCAGATTTATTCCGGGTCCTCCTGGAAACAAGGACCTTTGTTTCTCTTGGCGTGAATTTTCTGACTTTATTCGAGTGCAGCTAATTTCTGGACCTCCTGCAAAACTTCTCCTTATAGACTGGCCGGAATTAAAGGAGGCCATTCCAGTGATTAATGGAAGAGAATTACAGAGCCCTCTCACTGTTCAACTCTGTGATCAGTGGGATAATCCAGCAGCAGTACCTCATGTTAAAATAAGCCTCATAAAAGCTAGCAATTTAAAGCTCACGCCTTCAAACCAACAGCATAAAACAGATGAGAAGGGCCAGGCTAATTTGGGAGTGTTCGTTGTTTCTGCCCCTAGGGGAGAGCATACTATGCAAGTTAAAGCTGTCTATAACAAGAGTACCGTAGAAGGGCCTGTTATCAAGTTAATGATTCTTCCGGATCCCGAAAAACCGATTCGCCTCAATGTTAAATATGACAAAGATGCGTCCTTTTTAGCAGGAGGTATTTTCACTGATTTCATGGTTAGTGTTATTTCTGAAGATGACAGCATCATTAAAAATATTAATCCAGCTCGTATTTCCATGAAAATGTGGAAGCTGTCCAACAACGTGAACCGACCACCAGCAAATGCAGAAACATTTAGTTGTAATAAAATAAAAGATAATGACAAGGAAGAAGGCTGCTTCTATTTCAGGGATAAAATAATTCCTAACAAAGTGGGGACATATTGTATCCAGTTTGGTTTTATGATGGATAAAGCAAATATTCTCAACAGTGAACAGGTTATAGTTGATGTTCTGCCTAATCGACCTGTGAAGTTAGTTCCTGAAATTCAGCCCGCTACCCCAGCTGTTTCTAATGTTCGCTCAATTGCCAGTAGGACCTTGGTCAAAGATTTACGGCTCAATATCACGGACGCATATGGCAATCATACAGGAATAGATCTGGTTGGCATCGTGGTAGCTACTATTAAAGATTTTAAGGAGGAAGATACTGACTCGCCACTCTTTATTGGGAAAGTTAGAACGCTTGAATTTCCCTTCGTAAATGGTTCAGCTGAAATCACGAGTCTAGTGCTGGCAGAAAATAGTCCTGGAAAGGATAGTACTGAATATCTTATTATTTTTGAGCCCCGGTTACCACGTTTGTCAGAAACGTTAGAACCGTATATCCTACCATTCATGTTTTACAATGATGTTAAGAAGCAGCAACAAATGGCAGCACTTACAAAAGAAAAGGATGAGTTATCTAAGTCTATTATTATGTACAGAAGTTTATTTGAAGCCAGCAAACAGCTTCTTGATGAAATGAAATGCCAGGTTGAAGAAGCAAAGTTAAAAGAGGCTCAGTTGCGAAATGAACTCAAAATACATAACATTGACATTCCTACAACACAGCAGGTGGAACACATCGAAGCACTTTTGAAAAGAAAGATAACAGAACAGGAAGAACTAAGGAAAAAACCCAGAAGATCATGTACTCTTCCAAACTACACCAAAGGCGGTGGGGATGTTTTGGGAAAGATTGCACACCTGGCGCAGATTGAAGATGACAGAGCCGCCATGGTCATCTCCTGGCACCTGGCCAGCGACATGGACTGTGTAGTCACCATGACCACTGATGCTGCGCGCCGCATCTACGACGAGACCCAGGGCCGGCAGCAAGTGCTGCCTCTCGATTCTATCTATAAGAAGACTCTTCCAGACTGGAAAAGACCTTTACCTCATTTCCGAAATGGAAAATTGTATTTCAAACCCTTTGGAAATCCAGTCTTTGCCCGAGATTTGCTGACGTTTACGGATAATATAGAACATTGTGAAACAGTATTTGGCATGCTGTTAGGAGACACCATTATTTTGGATAATCTCGATGCAGCCAATCATTACAGAAAAGAGGTGGTTAAGATTACTCACTGCCCCACGCTGCTGACCCGAGATGGAGACCGCATCCGGAGTAACGGGAAGTTCGGCGGCCTGCAGAATAAAGCTCCCCCGATGGACAAGCTCCGGGGGATGGTGTTTGGAGCCCCAGTTCCAAAGCAGTGCTTGGTCTTGGGGGAACAGATAGATCTTCTGCAGCAGTACCGTGCTGCCGTGAGCAAGCTGGGCAGCGTGAGCAAGGACCTCAGCGGCCAGCTGCAGTACCTGCACACTCCGGACATGAAGAAGAAGAAGCAGGAGCTGGATGAGCAGGAGAAGAGCCTGAAGCTCATAGAGCAGAGACTTGGTATGACTCCCACACGAAAATGTAATGACTCGTTGCATCATTCGGCGAAGGTTGAGATGACAGAGTGTCCAGTTCCTCCTAAAAGAATGAGAAGAGAAGCCACCAGACAAAACAGAAGACCGAAAGGTGACTTGGCCAACTGA
Emilin2 elastin microfibril interfacer 2
>XM_004853306.1 ATGAAGGGCAGTGCTGAGGACGGAGCAGAGGCCCCCAGCCAGGTCCTGGTCCTGGCCTGCCTGCAGTATGAGGATCTGGGGCCTGACCATGCCAAGTCCCTGGGCGCCTCCTGCCGTCCTACCCTGGAATCCTGGAGGAACCAGAGAGGAGTCAGAATCCCCCAGGCCCTCCCAGGGGAACTGCGTTTCAGGAGAAACCGAGCCAAGCCGGCGCGGCTTCCGCACGTGGGGTCGGTCACGCGCCACCCCCACCCCGCGGTCCCCGCTCCACCCCGGGGCGGGAGTGGGGGTGCCGCCCGGCGTGGGCGGGGCCGAAGGAGGAGCCGCGCCCGACCCGTGCCGCTGGAGCGCGCGCTGCGCACTGCGCCGGGCATAAAGCGGGCGCGGGCAGAGCGGGCGTGGAGAGCGAGGATGCGGCCCCCGGCGCTGCTGCTGCTCGCGGCGTTGGGCGGCGCGGGACTGAGCTTGGGCGGCCCGCAGCCGGGGCGCGGGAACCGCTGCGCGCACATCGTGACGAGGGACGTGAGCTGCGCGGTGCTGGACGGCAGCGAGAGCTTCGTGCAGGCGCAGCCCGGCTGTCCCTGGGGCCCGGCGCCCTGCCCCGCGGCGCGCGTGTACCGCGTGAACTTCAGGCCCAGGTACGTGACCAGGTTCAAGACGGTGACCCAGCTGGAGTGGAGATGCTGCCCCGGCTTCCATGGTCCGGACTGCCAGGAGGGCCCCCGGTCCCCCGCTGCTGGCCCGCGCCCCACATCCGCACGGCGGCGCAACAGCATGAAGGCCCCAGATCATGAGCCCAGCCAGGCGTCCCAGCCCCGGGCCCCTCTGGCCCCGACTCGAGCTGAAGAGCCGAGGCGGGTGGGGGAGAGGAGGCCCAGGCCGCAGGAGCTCCAGGAGCAGCAGATCCAGGCGCTGGAGGAGAGCGTCCTGCGCCTTACCCGGACCGTGGCGGGCCTGGAGTCCTCCCTGGCGGGCGTCAGCGAGAACCTGCAGCGGGCGGCCCAGGCCCGGGCCCAGGACGACGCTGGCGAGGTGCGCACCACCTGGCCGAGCAGCCCGGCACCCGGCCCTGCCAGCGTCAGGGGCACCGAGATGGCCTGGCTGCCCGGCGTCCTGCACAGCAAGGAGCCGGGCATGAAAGACATCAAGTCGGAGCTGGCCGAGGTCAGGGGTGCCCTGAAGACCAAGAGCGACAAGCTGGAGGAGCTGGCCGGGAAGGTGCAGGGCTACGAGGGACGGCTGCAGCAGCTGCAGGAGGCGGCGCGGGGCCCCACGGCCACCATGGCCTCGGCCGAGCTGCTGCAGGCCTACGTGGACGGCCGGCTCGAGGCGCTGCGGGCCGAGCTCCTGGAGGGCGTGGACCGCAAGCTGGGCGACCTCAAGGCCACGTGCGAGTACAAGCAGCTGGGGCTGCAGCCACAGTGCGAGGACTACGGCAGCAGCCCGCTGGGCGTCCTGGAGCTGCTCTCGGAGAAGGAGGCCAGCCTGAGACAGGAGCTGGGGGACCTCCGCGCCCGGCTGCAGGACCCCGTGGCCCGGCCCGGCTGCTGCGATGGGGGGACCAGCGACGGGGGGCCGCAGATCGAGGCGCTGCACCGGAAGATCGAGCGGGTGGCAGAGGCCGCCAGGGCGCTGAACGCGCGGCTGGACAACGAGCTAGAGCGCCTGGCTGCGCCGGAGGCGGGCGCGGACTTTGGAGCCCGGTGGGCCGAGCTGGACGCCCGGATCAACGCGATGGAGCGCCGCGCGAGGGAGCAGCGGCCCGGCGGCTCGGCCCTCCCTGTCCCCCCGCTGCCCGGAGCCCCGTGCTGCGCCCAGCTCGAAGGCCGGTGGCAGACGCTGCAGGCCAGGATGCAGGCCGAGCTGGACGCGGTGGCCGGCGGCCTGCGGGGCGTCGGGGAGGGGCTGGGCCAGCAGGTGAGCGCGCTGTGGGGCTGCGTGCAAGGGCTGAACGGCACGCTGCGTGCGCAGGCCGGGGACCTCGCGGGCCTCCAGAGCTCGGTGCGGCAGTTCTACAGCCACGTCTTCCAGGTCCCCTCCGACCCGCGGGGCCTGGTCACCCTTCCGCCGCCGCCGCCAGCCGAGCCGGGCACAGGAACCAGAGGTCCCTCCCAGGGCCCGTCCGCAGCGCCGCCCACCCGGAAGAGCCCAAAGGTGCCAGCCGGGCCGGGGGAGGCCCTTACAGCGTCACCCCAGCCCGACCGCGGCCCCGCTTCCCCCGAGGACCAAGGCCCCGCGCTCCCCCCGCAGCTCCCGCAGCCGCCCCCAGCCGCGCGGCCTGGCTGGACTGGGCCCCCGCGGCTGCCCGGCTCCGCGGGCCTCACCACGGAGACGGGCGAGGCCGGGCCGCCAGGCGGGCGGGGAGTGTCGGGCAGGGGCCTGCCGCGGGGCGAGCACGGGCAGACCGGGCCCCGGCCGGTGCCCAGCGCAGAGGGCCACGCGGGCGCCCCAGGGTACCCCCAGGCACCACCTGCAGCCTCCCCAGGGCTCCTGGTGCCTGCCCTGGTGTCGTTCTCGGCTGGGCTCACACAGAACCCGTTCCCCAGCGACGGGGGCGTCATCCTCTTTAACAAGGTGCTGGTGAACGACGGGAACGTCTACAACCCCAACACTGGCGTCTTCACGGCCCCCTACGACGGGCGCTACCTGCTCTCGGCCACGCTCACCCCTGAGCGTGACGCCTACGTGGAGGCCGTGCTGTCGGTGGCCAACGCCAGCGTGGCGCAGCTGCACACGGCCGGGTACCAGCGCGAGCTCCTGGAGTACCACCGGCCCCCCGGGGCCCTACACCCCTGCGGGGGCCCCGGTGCCTTCCACCTGGTCGTGCACCTCAGGGCGGGTGACGGCGTGAGCGTGGTGCTGACCGGGGGCCGGCTGGCGCACGCGGACTTCGGCGAGGTGTACTCCACCTTCAGCGGCGTCTTCCTGTACCCAGCCCTCGGTGCCCTCTAG
LOC101697266 PREDICTED: Heterocephalus glaber uncharacterized LOC101697266 (LOC101697266), misc_RNA.
Length: 1183 bp>XR_205614.1 CGGCCTGGAACTCACTATGTAGCTGAGGTGATGATCCTCCTCCCTCAGCCTCCTGAGGGCTGAAATTATAGGTGGGTGCCACCACGTCCACCTGGGAGTAGTCTACTTTTATGTTACTCTAATAAAACACTTGAAGTAACTTTGTAAAGGAAAGAGGTGCTGAGCTCAGGATCCTGGAGGCCGAAGTCCTAGATCCTGCAAACTCATTGGTGTGGTTTCCGGCCAGGGCTTGGCAGATGGCAGGAGTGTGGTGGGAGGGAGCTCACCAAGCCAACAGGACTCCAGGGATCAGGACTGGGGCGGCTCCCTGTCGTGGGGCTCACAGGAGACCCGGGGGACACCCTCCCTCCTTCCGAGGCCCCGCACTGCTCCAGCCCCACTGCAGGGCAAGCTTCCGATGCACTCACTCGGGCCCCATCCGAACCCCGACTGCTGTGACCAAGGGTGGGGCCGTATCTCGCTCCTGCTGGGGGCAGCCCTGGACTCTCAGCTGGGACAGCAAAGCGAGGAGCCAGGCCCCTGACCGGGGCATCCCAGCCTCTGGAGCACAGGAAGCCGGCTCCTTCCTCGGCCAATCCCCCAGTCTCGGAACTCAGTCAGGGCACCACGGAACACACCGAGAAGCACTCAGGCGGGAGAGGGGGCGCCTCGCCAGCCTTCACCTCCGGGGGAACATGCCTGGTCTGGGGCCCGAGATCAGGGCAGTGCCAGCACAGCAAAAGTCCTGGCCAGGTCGCCATCCTCAGCAGCACCTCGCTGTGGCAGTGGCCTGGGGAGCCTCAGCCTGAGTCAGTTTGGTGGCCGGGTGGGTGACCGGCTTGGTGACAGCCTTGGCCGGCTCCCCCAGGTCCATTCCAGTCCCACTGCCAGCACAGTGAGAACCGGAAAATGGGGTGACAAGGCCACCAGCTGAGCCGTGGCCAGAGACAGAGGCACGGGGAGGGGAGGCGACACGGTTTATTCAAAGTGAGGAGGCGCTGGGCTGGGTGTCAACAGACGCACCCTGCACACGCGTCCTGACACACCACACACGCACACACGCAGGCCTTCAGTCTCAGTGTCATTGGGTGGGCCGCTGGGGCAGGATCACAATCCGGGAGAACTCACAGAAACCGACCCGCAACACAGCCCTCTGATCTCCGACATCACACCTGTCCCTCGACACAACACCGGCTCTCTCCTC
unclassified transcription discrepancy mRNA
>XM_004853307.1 ATGGGAGTGAAGACGGGGAGGAGGCTCCCGAGAGCCCCGTCAGTGAGCGTAGAGGCATTTACCGTGGCAAGGCCCCCCCGGGGCTCCTGTNCTCAGACCATGAATTACGTGGGCCAGCTGGCCGGGCAGGTGCTCGTCACCGTGAAGGAGCTGTACAAGGGCATCAACCAGGCCACCCTGTCGGGCTGCATCGATGTGGTGGTGGTGCGGCAGCAGGATGGCACCTACCAGTGCTCGCCCTTCCACGTGCGCTTTGGAAAGCTGGGCGTCCTGCGCTCCAAGGAGAAAGTGATTGACATAGAAATCAATGGCAGCGCGGTGGATCTTCACATGAAATTGGGTGACAATGGAGAAGCCTTCTTCGTGGAGGAGACGGAAGAGGAATATGAAAAGCTGCCTGCTTACCTGGCCACCTCCCCAATTCCCACGGAAGACCAGTTCTTTAAGGATATTGATGCCCCTGTGGGGAAATCAGGAGGAGACGCAAGACCGCCCCAGAGTCCAGGCGTCTCGCACGTCCTGGAAATGGAGACAGTGTTTGCTCCAAGTGCTGTGAAAAAGAAAAAGCGGAGGAGGAAGAAGTGCAAGCAGGAGGTCAAGAAGGAGGAGCCGGCGGCCTCGCCTACTGCAGAGGGTGCGCGCGATGTGCCTGTGAGCTCCGACGACGAGCAGGCGGCCCAGGCGGCCAGAGGACCTTCAAGTGCTTCCTTGAAGGAAGAAGAATATAAGGAACCTTTGCTCTTCCGTTCTGGGGATCACTACCCCTTATCTGATGGAGATTGGTCCCCGCTAGAGAATGCCTACCCCCAGGCAGTGTGTCCTAAGAGCGATTCAGAGCTGGAAGTGAAGCCCTCCGAGAGCCTGCTGCGGTCAGAGTCGCACATGGAGTGGACGTGGGGCGGCTTTCCGGAGTCCACCAAGGTCAGCAAAAGAGAAAGGGCCGACCATCACCCTCGGATGGCCACCATCACCCCGTCTGAAAACACTCACTTCCGGGTCATCCCGAGCGAGGACAGCCTGCTGCGCGGCGAGGCCGAGGAGGGCCCAGTGCTGGCCATCGTGAGGCCCACGCCCAGGGCCCCGTGTGCACTGAGGAACGAGGAGACCGCAGGCCCGGAGCCCCCAGCCGAGCCCCCCGAGCCCCGGCCCTCGGCGGCCAAGGCGGACTCGCCGTCCCGGAGGAGAGGTGTCCACAAGAGAAGCCAGCACCAGGGGCCCGATGACATCTACCTGGATGACTTGAAGGGGCTGGAGCCCGAGGTGGCTGCCCTCTACTTCCCCAAGAGTGATGCAGACCCCGGCTCTAGGCAGTGGCCCGAGTCCGACACGCTGTCCGGCTCCCAGTCCCCGCAGTCGGTGGGCAGCGCGGCCGCGGACAGCGGTACCGAGTGCCTCTCGGACTCTGCCATGGACCTGCCCGACGTCACCCTGTCCCTCTGCGGAGGCCTCAGCGACAACGGGGAGATTTCCAAAGGTAGGCGGGCGGATGATATCATTACCTATCAAGAGTTTGCGGAAAACCCTGGACTTATAGACAACCCTAACCTCGTCATACGGATTTATAACCGTTACTATAACTGGGCATTGGCTGCTCCCATGATCCTCAGCCTACAGGTTTTCCAGAAGAGTCTGCCAAAGGCCACCGTGGAGTCCTGGGTCAAGGACAAGATGCCAAAGAAGTCTGGGCGCTGGTGGTTTTGGCGGAAGCGGGAAAGCATGACCAAGCAGGTAACAGGCCGAGGCAGCCGGGCCCACCAACTAAGAATGGTGACTCCTTCGTGTACTGCAAACCTCTTGCCGAGCCCTCGCTCGGGCTCGCAGCTGTGCGCAAAACTGCAGCTGCACGATGGCCCCAATGACATCGTGTTCAGTATCACAACCCAGTACCAAGGCACATGCCGCTGCGCGGGGACCATTTACCTGTGGGACTGGAACGACAAGATCGTCATTTCTGACATCGATGGGACCATCACCAAGTCTGACGCTTTGGGCCAGATTCTCCCGCAGCTGGGTAAAGACTGGACGCACCAGGGCATCGCAAAGCTGTACCACTCCATCAACGAGAACGGCTACAAGTTCCTGTACTGCTCGGCCCGCGCCATCGGCATGGCCGACATGACCCGCGGCTACCTGCACTGGGTCAACGACAAGGGCACCATCCTGCCACGGGGCCCCCTCATGCTGTCGCCCAGCAGCCTGTTCTCCGCCTTCCACAGGGAAGTGATAGAAAAGAAACCAGAGAAGTTCAAAATCGAGTGTCTGAATGACATCAAGAACCTGTTTGCCCCGGCCAAGCAGCCCTTCTATGCTGCCTTTGGAAACCGGCCCAACGACGTCTACGCTTATACACAGGTCGGAGTCCCCGACTGCAGGATCTTCACCGTGAACCCCAAGGGGGAGCTGATCCAGGAGAGGACCAAGGGGAACAAATCATCGTACCACAGGCTCAGCGAGCTGGTGGAGCATGTGTTCCCGCTGCTCAGCAAGGAGCAGAACTCCGCCTTCCCGTGCCCCGAGTTCAGCTCCTTCTGCTACTGGAGGGACCCCATCCCCGCTGCGGACCTGGACGCCCTGGCCTGA
Myom1 myomesin 1, transcript variant X2
>XM_004853188.1 ATGGCTCTGCCTTTTTATCAGAAGTCCCACCAGCACTATGACCTCAGCTACCGCGACAAAGACCTTCGCACCACCGTGAGCCATTACCAGCAGGAGAAGAAGCACTCTGCCATCTACACACACGGCTCCGCAGCCTACACCAGCCGCTCCTCTGCTGCCCACCGCCAGGAGTCCGAGGCTTTCAGCCAGGTGGCGGCCTCCTCCCAGCAGCAGGCCTCACACTACTCCCTAGGGGCTGAAGTCAGCCGCAAAGCCACCTCAGCCTATGACTACGGCTACTCCCACGGGCTTACCGGCTCCAGTTTGCTGCTAGAAGATTATTCATCCAGCTTGAGCCCCAAAACAAAGAGAGCAAAGCACAGTCTTCAATCCGGAGAGGAGAAGGAAAATCTGCCAGGAAACTACATGGTGCCTATTTATTCTGGGCGGCAAGTGCACGTCAGTGGAATTACAGACACAGAAGAAGAGAGAATTAAAGAGGCGGCTGCTTATATAGCCCAGAGAAATCTCCTTGCTAGTGAGGAAGAGATCAGGACGTCCAAACAACTCACAAGATCCAAACGGTCTGCCGTGTCCAAACAGGCCACATCTACCTTGGAGCAGGAGGAAACATTTGAAAAGTCAAGGGAAGCCACCATTCGAGAAAAGGCAGACCTCCTGTCCCTGAGAAAAACATTAGAAGAAACCCAGGCATATCATGGAAAGTTGAATGAGGACCATCTTCTCCACGCTCCGGAGTTCATCATTAAACCTCGCTCCCACACGGTGTGGGAGAAGGAGAGCGTGAAACTGCACTGCTCCGTGGCAGGCTGGCCAGAGCCCCGCGTCACATGGTATAAAAACCAGGTACCAATAAACGTCCATGCAAACCCTGGAAAGTACATTATTGAGAGTCGATATGGAATGCACACTTTGGAGATCAACACGTGTGACTTCGAAGACACAGCTCAGTACCGGGCCTCGGCCATGAACGTCAAAGGAGAGCTTTCAGCCTACGCATCAGTTGTGGTAAAGAGGTACAAGGGAGAGTTTGATGACCTGCACTTCCATGCCAGGGCTGCCTCCAGGCCCCTCAGCTTTGCTGTGACCCCTTATGGTTACGCATCCAAGTTTGAGATCCACTTTGATGACAAGTTTGACGTGTCCTTTGGGAGAGAGGGAGAGACAATGAGTCTGGGCTGTCGTGTGGTCATCACTCCTGAAATCAAGCATTTCCAGCCAGAAATCCAGTGGTACAGGAATGGGGCACCTGTTTCTCCATCCAAATGGGTGCAAACACAATGGAGCGGTGATCGGGCAACCCTGACATTTTCTCATCTCAACAAGGAAGATGAAGGCCTCTACATGATCTGCGTACGGATGGGAGAGTATTCTGAGCAATATGGTGCTTATGTCTTTGTCCGAGATGCGGACGCCGAGATCGAAGGCGCCCCCGCCGCACCCCTGGATGTGGAGAGCTTGGAAGCCAACAAAGACTACATCATCATCTCCTGGAAGCAGCCAGCTGTGGACGGCGGGAGCCCCGTCCTGGGCTACTTCATTGATAAGTGTGAGGTGGGCACGGATAGCTGGTCTCAGTGCAATGACACGCCTGTGAAGTTCGCTCGTTTTCCGGTCACTGGATTAATAGAGGGCCGTTCCTACATATTCCGGGTTCGAGCTGTGAATAAAAATGGAATAGGCCTACCCTCGCGAGTTTCCGAGCCTGTGGCTGCTCTGGATCCAGCAGAGAAAGCTAGACTTAAAAGTCGCCCGTCAGCACCCTGGACAGGACAGATCATTGTCACGGAAGAGGAGCCCTCAGCGGGCATTGTCCCCGGGCCCCCCACAGACCTCTCTGTCACTGAAGCCACCCGGAGCTACGTGGTCCTGAGCTGGAAGCCCCCTGGCCAGCGTGGCCATGAGGGCATTATGTACTTTGTGGAGAAGTGCGATGCGGGGACGGAAAACTGGCAGCGGGTGAACACGGAGCTCCCGGTGAAGTCTCCTCGCTTCGCGCTGTTTGATCTGGCGGAGGGCAAGTCCTACCGCTTCCGCGTGCGCTGCTCCAACTCGGCAGGGGTCGGCGAGCCCTCGGAGGCCACCGAGGCGACCATCGTGGGCGACAAACTTGATATCCCCCAGGCCCCTGGCAAAGTCGTCCCAAGCAGGAATACAGACACCTCCGTGGTGCTTTCTTGGGAGGAGTCCAAAGACGCCAAGGAGCTGGTGGGGTACTACATCGAAGCCAGCGTGGTGGGCTCCGGCATGTGGGAACCCTGCAACAACAACCCTGTGAAGGGCACACGGTTTACGTGCCACGGCTTGACGACCGGTCAGAGTTACATTTTCCGGGTCAGAGCAGTGAACGCAGCTGGACTTAGTGACTATTCCCAGGACTCAGAAGCTATCCAAGTCAAAGCTGCCATTGCGGCACCGTCTCCACCCTGTGACATCACTTGCCTTGAAAGCTTTCGTGACTCCATGGTTCTCGGATGGAAGCAACCAGATAAGAGCGGAGGGGCAGAGATCACCGGCTATTACGTGAACTACCGGGAGGTAACCGATGGGGTGCCGGGCCCGTGGAGAGAAGCCAACGTCAAGGCAGTCAGTGAGGAGGCCTACAAGATTAGCAAGCTGAAGGAAAATGTGGTGTACCAGTTCCAAGTGGCGGCCATGAACATCGCCGGCCTGGGGGCGCCATCGGCCGTGAGCCAGTGCTTCAAGTGTGAGGAGTGGACCATCGCCGTGCCCGGACCACCGCACAGTCTCAGGTACAGCGAGGTCAGGAAGAGCTCCCTGGTCCTGCAGTGGAAGCCCCCAGTGCAATCTGGGAGGACCCCGGTCACTGGCTACTTTGTGGACCTGAAGGAGGCCACGGCCAAAGATGACCAATGGCGAGGACTCAACAAGGCTGCCATTAAAAACACATACCTCAAGGTGCAAGGCCTCCAGGAGGGTGTCAGCTACGTGTTCCGGGTCCGAGCCGTCAACCAGGCAGGCGTCGGGAAGCCGTCTGACCTCGCTGGCCCTGTCGTGGCAGAGACTCGTCCAGGAACCAAGGAGGTTGTTGTGAATGTGGATGATGATGGGATCATTTCGTTGAACTTCGAGTGTGATCAGATGACTCCAAATTCAGAATTCACCTGGTCTAAAGACTATGTGCGCACCGAGGATTCCCCGAGGGTGGATGTCGAAAGCAAAGGCAAAAAGACAAAACTGACCTTCAAAGATCCTGGGATGGATGACTTGGGCCTCTACTCCTGCGACGTGACAGATACCGATGGGATAGCGTCGAGCTACTTAATAGACGAGGACGAATTGAAACGTTTACTTGCTCTCAGCCAGGAACACAAGTTTCCAACTGTCCCAGCTAAGTCAGAGTTGGCAGTGGAAATTTTGGAGAAAGGTCAGGTCCGGTTTTGGATGCAGGCTGAGAAGCTGTCTGGTAATGCCAAAGTCAACTACATATTTAATGATAAGGAAATTTTTGAAGGACCGAAATACAAGATGCACATCGATCGCAACACTGGCATAATCGAGATGTTCATGGAGAAGCTGCAGGACGAGGATGAGGGGACGTACACTTTCCAGATTCAAGATGGAAAAGCGACAGGCCACTCCACGCTGGTGCTCATCGGAGACGTTTATAAAAAGCTCCAGAAAGAAGCTGAATTCCAGCGGCAAGAATGGATCAGGAAACAAGGCCCGCATTTTGCTGAGTATTTGAGCTGGGAAGTGACTGGTGAATGTAATGTACTGTTGAAATGCAAGGTGGCAAATATTAAGAAGGAGACTAACATCGTGTGGTACAAAGATGAGAGGGAGATATCCGTGGACGAAAAGCATGACTTCAAGGACGGCATATGCACCCTGCTTATAACAGAGTTTTCCAAGAAAGATGCTGGGTTTTACGAAGTCATCCTGAAAGATGACCGTGGGAAAGATAAAAGCAGACTGAAACTTGTGGATGAAGCCTTCCAAGAACTGATGACTGAGGTGTGCAGGAAGATCGCTTTGTCAGCCTCAGATCTGAAAATCCAGAGCACCGCCGAGGGCATCCGGCTATACTCTTTCGTCACTTACTACCTGGACGATTTGAAAGTCAACTGGTCCCACAATGGGACAGGTATTAAGTACACAGACAGAGTTAAGAGCGGGGTCACAGGTGAGCAGATCTGGCTACAAATCAATGAGCCCACCCCGAATGACAAAGGGAAGTACATAATGGAGCTCTTCGACGGCAAAACTGGGCACCAGCGGATGGTGGACCTTTCTGGACAAGCGTACGAAGAGGCCTATGCTGAATTCCAGAGGTTAAAACAAGCTGCCATTGCCGAGAAAAATCGCGCCCGGGTGCTGGGCGGGCTCCCTGATGTGGTCACCATTCAGGAGGGCAAGGCCCTCAATCTCACCTGCTCTGTGTGGGGCGACCCAGTGCCCGAGGTCTCCTGGCTGAAGAACGAGCGGCCGCTGGCCTCTGACGACCACTGCAACCTGCGCTTCGAGGCTGGGAAGACAGCCTACTTCACCATCTCGGGTGTGAGCACAGCCGACTCCGGCAAGTACGGGCTGGTGGTGAAGAACAAGTACGGCTCGGAGACCAGCGACTTCACCGTCAGCGTGTTCATCCCCGAGGAGGAGGCCCGGACAGCTGCAGCCGCACCTCAGAAGGGCGCCCCAAAAGGGGCCCCGAAGTCCAAGTGA
Myom1 myomesin 1, transcript variant X3
Length: 4572 bp Location: 13346321..13239723 Strand: ->XM_004853189.1 ATGGTGCCTATTTATTCTGGGCGGCAAGTGCACGTCAGTGGAATTACAGACACAGAAGAAGAGAGAATTAAAGAGGCGGCTGCTTATATAGCCCAGAGAAATCTCCTTGCTAGTGAGGAAGAGATCAGGACGTCCAAACAACTCACAAGATCCAAACGGTCTGCCGTGTCCAAACAGGCCACATCTACCTTGGAGCAGGAGGAAACATTTGAAAAGTCAAGGGAAGCCACCATTCGAGAAAAGGCAGACCTCCTGTCCCTGAGAAAAACATTAGAAGAAACCCAGGCATATCATGGAAAGTTGAATGAGGACCATCTTCTCCACGCTCCGGAGTTCATCATTAAACCTCGCTCCCACACGGTGTGGGAGAAGGAGAGCGTGAAACTGCACTGCTCCGTGGCAGGCTGGCCAGAGCCCCGCGTCACATGGTATAAAAACCAGGTACCAATAAACGTCCATGCAAACCCTGGAAAGTACATTATTGAGAGTCGATATGGAATGCACACTTTGGAGATCAACACGTGTGACTTCGAAGACACAGCTCAGTACCGGGCCTCGGCCATGAACGTCAAAGGAGAGCTTTCAGCCTACGCATCAGTTGTGGTAAAGAGGTACAAGGGAGAGTTTGATGACCTGCACTTCCATGCCAGGGCTGCCTCCAGGCCCCTCAGCTTTGCTGTGACCCCTTATGGTTACGCATCCAAGTTTGAGATCCACTTTGATGACAAGTTTGACGTGTCCTTTGGGAGAGAGGGAGAGACAATGAGTCTGGGCTGTCGTGTGGTCATCACTCCTGAAATCAAGCATTTCCAGCCAGAAATCCAGTGGTACAGGAATGGGGCACCTGTTTCTCCATCCAAATGGGTGCAAACACAATGGAGCGGTGATCGGGCAACCCTGACATTTTCTCATCTCAACAAGGAAGATGAAGGCCTCTACATGATCTGCGTACGGATGGGAGAGTATTCTGAGCAATATGGTGCTTATGTCTTTGTCCGAGATGCGGACGCCGAGATCGAAGGCGCCCCCGCCGCACCCCTGGATGTGGAGAGCTTGGAAGCCAACAAAGACTACATCATCATCTCCTGGAAGCAGCCAGCTGTGGACGGCGGGAGCCCCGTCCTGGGCTACTTCATTGATAAGTGTGAGGTGGGCACGGATAGCTGGTCTCAGTGCAATGACACGCCTGTGAAGTTCGCTCGTTTTCCGGTCACTGGATTAATAGAGGGCCGTTCCTACATATTCCGGGTTCGAGCTGTGAATAAAAATGGAATAGGCCTACCCTCGCGAGTTTCCGAGCCTGTGGCTGCTCTGGATCCAGCAGAGAAAGCTAGACTTAAAAGTCGCCCGTCAGCACCCTGGACAGGACAGATCATTGTCACGGAAGAGGAGCCCTCAGCGGGCATTGTCCCCGGGCCCCCCACAGACCTCTCTGTCACTGAAGCCACCCGGAGCTACGTGGTCCTGAGCTGGAAGCCCCCTGGCCAGCGTGGCCATGAGGGCATTATGTACTTTGTGGAGAAGTGCGATGCGGGGACGGAAAACTGGCAGCGGGTGAACACGGAGCTCCCGGTGAAGTCTCCTCGCTTCGCGCTGTTTGATCTGGCGGAGGGCAAGTCCTACCGCTTCCGCGTGCGCTGCTCCAACTCGGCAGGGGTCGGCGAGCCCTCGGAGGCCACCGAGGCGACCATCGTGGGCGACAAACTTGATATCCCCCAGGCCCCTGGCAAAGTCGTCCCAAGCAGGAATACAGACACCTCCGTGGTGCTTTCTTGGGAGGAGTCCAAAGACGCCAAGGAGCTGGTGGGGTACTACATCGAAGCCAGCGTGGTGGGCTCCGGCATGTGGGAACCCTGCAACAACAACCCTGTGAAGGGCACACGGTTTACGTGCCACGGCTTGACGACCGGTCAGAGTTACATTTTCCGGGTCAGAGCAGTGAACGCAGCTGGACTTAGTGACTATTCCCAGGACTCAGAAGCTATCCAAGTCAAAGCTGCCATTGGGGGCGCAGCGTCTCCAGATGTGTGGCCCGACCTGCCCGCTGCTCCCGGTGGACTAACAGCCTCCCGGGGGGCTGCGCATGGAGCCTCCCCGAAAAGCTGTCTGAGAGATGCTTTGCCAGGTAGCAAACTTAACAAACCTGCACTGCCCAGCGCCCCTCACGACCTGGCCCGCACAGAAGCGAGTAAAGTAAGTGAGACAGTTGAGGAGGAGCCCACCCCAGCGCCCCGGAAGGCGGCTCCCAAGGGCCAGAGTGAGTCTGAGCCCCTGGAAAAGAAGAAGGACGCAGTAGCGGCACCGTCTCCACCCTGTGACATCACTTGCCTTGAAAGCTTTCGTGACTCCATGGTTCTCGGATGGAAGCAACCAGATAAGAGCGGAGGGGCAGAGATCACCGGCTATTACGTGAACTACCGGGAGGTAACCGATGGGGTGCCGGGCCCGTGGAGAGAAGCCAACGTCAAGGCAGTCAGTGAGGAGGCCTACAAGATTAGCAAGCTGAAGGAAAATGTGGTGTACCAGTTCCAAGTGGCGGCCATGAACATCGCCGGCCTGGGGGCGCCATCGGCCGTGAGCCAGTGCTTCAAGTGTGAGGAGTGGACCATCGCCGTGCCCGGACCACCGCACAGTCTCAGGTACAGCGAGGTCAGGAAGAGCTCCCTGGTCCTGCAGTGGAAGCCCCCAGTGCAATCTGGGAGGACCCCGGTCACTGGCTACTTTGTGGACCTGAAGGAGGCCACGGCCAAAGATGACCAATGGCGAGGACTCAACAAGGCTGCCATTAAAAACACATACCTCAAGGTGCAAGGCCTCCAGGAGGGTGTCAGCTACGTGTTCCGGGTCCGAGCCGTCAACCAGGCAGGCGTCGGGAAGCCGTCTGACCTCGCTGGCCCTGTCGTGGCAGAGACTCGTCCAGGAACCAAGGAGGTTGTTGTGAATGTGGATGATGATGGGATCATTTCGTTGAACTTCGAGTGTGATCAGATGACTCCAAATTCAGAATTCACCTGGTCTAAAGACTATGTGCGCACCGAGGATTCCCCGAGGGTGGATGTCGAAAGCAAAGGCAAAAAGACAAAACTGACCTTCAAAGATCCTGGGATGGATGACTTGGGCCTCTACTCCTGCGACGTGACAGATACCGATGGGATAGCGTCGAGCTACTTAATAGACGAGGACGAATTGAAACGTTTACTTGCTCTCAGCCAGGAACACAAGTTTCCAACTGTCCCAGCTAAGTCAGAGTTGGCAGTGGAAATTTTGGAGAAAGGTCAGGTCCGGTTTTGGATGCAGGCTGAGAAGCTGTCTGGTAATGCCAAAGTCAACTACATATTTAATGATAAGGAAATTTTTGAAGGACCGAAATACAAGATGCACATCGATCGCAACACTGGCATAATCGAGATGTTCATGGAGAAGCTGCAGGACGAGGATGAGGGGACGTACACTTTCCAGATTCAAGATGGAAAAGCGACAGGCCACTCCACGCTGGTGCTCATCGGAGACGTTTATAAAAAGCTCCAGAAAGAAGCTGAATTCCAGCGGCAAGAATGGATCAGGAAACAAGGCCCGCATTTTGCTGAGTATTTGAGCTGGGAAGTGACTGGTGAATGTAATGTACTGTTGAAATGCAAGGTGGCAAATATTAAGAAGGAGACTAACATCGTGTGGTACAAAGATGAGAGGGAGATATCCGTGGACGAAAAGCATGACTTCAAGGACGGCATATGCACCCTGCTTATAACAGAGTTTTCCAAGAAAGATGCTGGGTTTTACGAAGTCATCCTGAAAGATGACCGTGGGAAAGATAAAAGCAGACTGAAACTTGTGGATGAAGCCTTCCAAGAACTGATGACTGAGGTGTGCAGGAAGATCGCTTTGTCAGCCTCAGATCTGAAAATCCAGAGCACCGCCGAGGGCATCCGGCTATACTCTTTCGTCACTTACTACCTGGACGATTTGAAAGTCAACTGGTCCCACAATGGGACAGGTATTAAGTACACAGACAGAGTTAAGAGCGGGGTCACAGGTGAGCAGATCTGGCTACAAATCAATGAGCCCACCCCGAATGACAAAGGGAAGTACATAATGGAGCTCTTCGACGGCAAAACTGGGCACCAGCGGATGGTGGACCTTTCTGGACAAGCGTACGAAGAGGCCTATGCTGAATTCCAGAGGTTAAAACAAGCTGCCATTGCCGAGAAAAATCGCGCCCGGGTGCTGGGCGGGCTCCCTGATGTGGTCACCATTCAGGAGGGCAAGGCCCTCAATCTCACCTGCTCTGTGTGGGGCGACCCAGTGCCCGAGGTCTCCTGGCTGAAGAACGAGCGGCCGCTGGCCTCTGACGACCACTGCAACCTGCGCTTCGAGGCTGGGAAGACAGCCTACTTCACCATCTCGGGTGTGAGCACAGCCGACTCCGGCAAGTACGGGCTGGTGGTGAAGAACAAGTACGGCTCGGAGACCAGCGACTTCACCGTCAGCGTGTTCATCCCCGAGGAGGAGGCCCGGACAGCTGCAGCCGCACCTCAGAAGGGCGCCCCAAAAGGGGCCCCGAAGTCCAAGTGA
Myl12b myosin, light chain 12B, regulatory, transcript variant X1
Length: 519 bp Location: 13393285..13408631 Strand: +>XM_004853191.1 ATGTCGAGCAAAAAAGCAAAGACCAAGACCACGAAGAAGCGGCCTCAGCGCGCCACGTCCAACGTGTTCGCCATGTTCGACCAGTCGCAGATCCAGGAGTTCAAGGAGGCCTTCAACATGATCGACCAGAACCGAGATGGCTTCATCGACAAGGAGGACCTGCACGACATGCTGGCCTCGCTGGGGAAGAACCCCACCGATGCCTACCTGGACGCCATGATGAATGAGGCCCCGGGCCCCATCAACTTCACCATGTTCCTCACCATGTTTGGCGAGAAGCTCAACGGCACGGACCCTGAGGATGTGATCAGGAACGCCTTCGCCTGCTTCGACGAGGAGGCCACAGGCACCATCCAGGAGGACTACCTGCGCGAGCTGCTCACCACCATGGGCGACCGCTTCACGGACGAGGAGGTGGACGAGCTGTACCGAGAGGCGCCCATCGACAAGAAGGGCAACTTCAACTACATCGAGTTCACGCGCATCCTCAAGCACGGGGCCAAGGACAAGGATGACTGA
Tgif1 TGFB-induced factor homeobox 1, transcript variant X2
Length: 780 bp Location: 13510104..13515387 Strand: +>XM_004853194.1 ATGGAAGGTGTCGTCGCAGTGTCCGGAAGTGAGACTGAGGATGAGGACAGCATGGACAGCCCCCTGGACCTTTCCTCTTCCGCCACCTCCAGCAAGAGGAGGAGAAGGGGCAACCTGCCCAAGGAGTCCGTGCAGATTCTGCGCGACTGGCTGTTCGAGCACCGGTACAATGCCTACCCTTCGGAGCAGGAGAAGGCGCTGCTGTCCCAGCAGACTCACCTGTCCACACTGCAGGTGTGCAACTGGTTCATCAACGCGCGCCGCAGGCTGCTCCCAGACATGCTGAGGAAGGATGGCAAAGACCCAAATCAGTTCACCATTTCCCGCCGTGGGGCCAAGATTCCTGAGGCCAGCTCTCTGGAGGCCGCGATGGGCATCAGAAACTTCATGCCAGCCCTGGAGGAGAGCCCAGTTCATTCCCTGGCAGCCGGACCCACCCCGCCCCTGGGGCAGCCACTGTCGCCCAAGCCCGCGTGCCCGGGACAGCTGCTGCCGCGCCCCTCGGTGATCTGCCACACCACTGTGACTGCCCTGAAGGACGCGGCTTTGTCCTCCTGCTGCCAGCTGGCGGGCGCGGGGCCCGGCCCGGAGACGGCGCTGGGGCACCCGGAGGACACATGTAAGTCGGGGCCCAGCGCGAACCCGCAGAGCGGGCTGTTCAACACACCCCCGCCCACACCCCCGGACCTCAACCAGGACTTCAGCGGCTTCCAGCTCCTCGTGGATGTTGCACTCAAACGGGCTGCGGAGATGGAGCTTCAGGCGAAACTAGCGGCCTGA
Tgif1 TGFB-induced factor homeobox 1, transcript variant X3
Length: 729 bp Location: 13511136..13515387 Strand: +>XM_004853195.1 ATGGACAGCCCCCTGGACCTTTCCTCTTCCGCCACCTCCAGCAAGAGGAGGAGAAGGGGCAACCTGCCCAAGGAGTCCGTGCAGATTCTGCGCGACTGGCTGTTCGAGCACCGGTACAATGCCTACCCTTCGGAGCAGGAGAAGGCGCTGCTGTCCCAGCAGACTCACCTGTCCACACTGCAGGTGTGCAACTGGTTCATCAACGCGCGCCGCAGGCTGCTCCCAGACATGCTGAGGAAGGATGGCAAAGACCCAAATCAGTTCACCATTTCCCGCCGTGGGGCCAAGATTCCTGAGGCCAGCTCTCTGGAGGCCGCGATGGGCATCAGAAACTTCATGCCAGCCCTGGAGGAGAGCCCAGTTCATTCCCTGGCAGCCGGACCCACCCCGCCCCTGGGGCAGCCACTGTCGCCCAAGCCCGCGTGCCCGGGACAGCTGCTGCCGCGCCCCTCGGTGATCTGCCACACCACTGTGACTGCCCTGAAGGACGCGGCTTTGTCCTCCTGCTGCCAGCTGGCGGGCGCGGGGCCCGGCCCGGAGACGGCGCTGGGGCACCCGGAGGACACATGTAAGTCGGGGCCCAGCGCGAACCCGCAGAGCGGGCTGTTCAACACACCCCCGCCCACACCCCCGGACCTCAACCAGGACTTCAGCGGCTTCCAGCTCCTCGTGGATGTTGCACTCAAACGGGCTGCGGAGATGGAGCTTCAGGCGAAACTAGCGGCCTGA
Dlgap1 discs, large (Drosophila) homolog-associated protein 1, transcript variant X2
Length: 2916 bp Location: 13841213..13543897 Strand: ->XM_004853198.1 ATGAAAGGGTTATCGGGCAGCCGCAGCCATCACCACGGGATCACCTGTGACTCGGCCTGTGACTCGCTGTCCCACCATTCGGACCGCAAGCCGTACCTGCTGAGCCCAGTGGAGCACCACCCCGCCGACCACCCTTACTACACACAGCGCAACTCCTTCCAGGCCGAGTGCAGAGGCCCCTTCAGCGACCCGCTGGCCAGTAGCACCTTCCCGCGCAGGCACTACGCCTCGCAGCAGGAGCTAAAGGACGAGTGCGCCCTGGTGCCACACACACTGGCCACCAAGGGGAACCGCATCCCTGCAAACCTGCTGGACCAGTTTGAGAGGCAGCTACCCCTCAACCGGGATGGCTACCACACTCTGCAGTACAAGCGGACCGCCGTGGAGCACCGCAGCGACAGCCCTGGGCGCATCCGGCATCTGGTCCACTCGGTCCAGAAACTCTTCACCAAGTCGCACTCTCTGGAGGGGCCATCTAAGGGCAGCGTCAATGGGGGCAAGGCCAGCCCTGACGAGACACAAACCGTGAGGTATGGCAAGCGCAGCAAAAGCAAGGAGAGGAGGGTGGAGCCCAAAACCCGGTCCAACGTCACACCCACCTCCACCTCCTCACCGGGTTGGTGGAGTTCTGATGACAACCTCGATGGCGATATGTGCATCTATCACGCACCCTCAGGTGTGATGACCATGGGCAGGTGCCCCGACCGCTCGACCTCCCAGTACTTCATGGAGGCCTACAATACCATCAGCGAGCAGGCCGTGAAGGCCTCCCGAAGTAACAATGATGTCAAGTGCTCCACCTGTGCCAATCTGCCCGTGAACCTGGACGCCCCACTCCTGAAGAAGAGTGCCTGGTCCTCCACCCTCACCGTGAGTCGGGCCCGGGAGGTTTACCAGAAAGCCTCTGTGAACATGGACCAGGCCATGGTGAAGTCTGAGTCATGTCAACAAGAACGCTCTTGCCAGTACTTGCAGGTTCCTCAGGATGACTGGACAGGCTACACCCCTCGAGGGAAAGATGATGAAATTCCTTGCCGAAGAATGCGCAGTGGCAGCTATATCAAGGCCATGGGGGACGAAGACAGCGGAGATTCAGACACAAGTCCTAAGCCTTCTCCCAAAGTTGCTGCCCGGAGAGAGAGCTATCTCAAGGCCACCCAGCCATCCCTCACTGAGCTCACCACACTCAAGATCTCCAATGAACACTCGCCCAAGCTCCAGATCCGAAGTCACAGCTACCTGAGGGCGGTGAGCGAAGTCTCCATCAACAGGAGCTTGGACAGCCTGGACCCCGCGGGCCTGCTCACGTCGCCCAAGTTCCGCTCCAGGAACGAGAGCTACATGCGCGCCATGAGCACCATCAGCCAGGTGAGCGAGATGGAGGTGAACGGGCAGTTCGAGTCCGTGTGTGAGTCGGTGTTCAGCGAGCTGGAGTCGCAGGCGGTGGAGGCTCTGGACCTGCCCGTGCCTGGTTGCTTCCGCATGCGGAGCCACAGCTACGTGCGCGCCATCGAGAAGGGCTGCTCGCAGGACGACGAGTGCGTGTCGCTGCGCTCGGTCTCGCCGCCGCGCACGGCCACCACGGTGCGCACCATCCAGAGCAGCACGGTGTCATCTTGCATTACAACCTATAAGAAGACACCACCTCCAGTCCCACCCAGAACCACCACGAAACCTTTCATTTCTATCACAGCGCAGAGTAGCACCGAGTCCGCGCAGGACGCCTACATGGACGGGCAGGGCCAGCGCGGTGACATAGTCAGCCAGTCGGGGCTCAGCAACTCCACCGAAAGCCTGGACAGCATGAAGGCCCTGACCGCCGCCATCGAGGCCGCCAATGCGCAGGTCCACGGCCCCGCCAGCCAGCACGCGGCCAGCGCGCCCGCGGCCGAGGACCGCCGGAAGGAGCCCAGGAAGAGCCGCTGCCTGTCCGTCGGGATACAGGTGGATGATGCTGAAGAACCAGATAAGACGGGAGAGAATAAAGCTCCCAGTAAGTTCCAGTCTGTGGGAGTCCAAGTAGAAGAGGAGAAGTGCTTCCGCAGGTTCACTCGATCCAACAGCGTGACGACAGCCGTCCAGGCGGACCTGGACTTCCACGATAACCTGGAAAATTCCCTGGAATCCATAGAGGACAATTCGTGTCCCGGCCCGATGGCCAGGCAGTTCTCCCGGGACGCCAGCACCTCCACGGTCAGCATCCAAGGCTCGGGCAACCACTACCACGCCTGCGCGGCCGACGACGACTTCGACGTGGATTTTGACCCGTCGATTCTGCCGCCTCCGGATCCCTGGATCGACTCGATCACGGAGGACCCGCTGGAGGCCGTGCAGCGGTCCGTGTGCCATCGGGACGGCCACTGGTTCCTGAAGCTGCTGCAGGCGGAGCGCGACCGCATGGAGGGCTGGTGCCAGCAAATGGAGCGGGAGGAGCGCGAGAACAGCCTGCCCGAGGACATTCTAGGGAAAATCCGAACCGCAGTGGGCAGTGCCCAACTTCTTATGGCCCAGAAATTCTACCAGTTCAGAGAACTGTGTGAAGAAAACCTGAATCCTAATGCCCATCCGAGACCCACCTCCCAGGACCTGGCGGGGTTTTGGGACATGCTGCAGTTGTCCATAGAAAACATTAGTATGAAATTTGATGAACTCCATCAGTTGAAGGCCAATAATTGGAAACAGACGGATCCTCTTGACAAGAAGGAGAGGAGGGCCCCTCCTCCAGTGCCCAAGAAGCCGGCGAGGGGCCCCGCGCCGCCGCTGACCCGGGAGCGCTCGCTGGAGAGCTCGCAGCGCCAGGACGCCCGCAAGCGCCTGCTGGCCGCCAAGCGCGCCGCGTCGGTCCGCCAGAGCTCGGCCACCGAGAGCGCGGAGAGCATCGAGATCTACATCCCCGAGGCGCAGACCCGGCTCTGA
Dlgap1 discs, large (Drosophila) homolog-associated protein 1, transcript variant X3
Length: 2862 bp Location: 13841213..13543897 Strand: ->XM_004853199.1 ATGAAAGGGTTATCGGGCAGCCGCAGCCATCACCACGGGATCACCTGTGACTCGGCCTGTGACTCGCTGTCCCACCATTCGGACCGCAAGCCGTACCTGCTGAGCCCAGTGGAGCACCACCCCGCCGACCACCCTTACTACACACAGCGCAACTCCTTCCAGGCCGAGTGCAGAGGCCCCTTCAGCGACCCGCTGGCCAGTAGCACCTTCCCGCGCAGGCACTACGCCTCGCAGCAGGAGCTAAAGGACGAGTGCGCCCTGGTGCCACACACACTGGCCACCAAGGGGAACCGCATCCCTGCAAACCTGCTGGACCAGTTTGAGAGGCAGCTACCCCTCAACCGGGATGGCTACCACACTCTGCAGTACAAGCGGACCGCCGTGGAGCACCGCAGCGACAGCCCTGGGCGCATCCGGCATCTGGTCCACTCGGTCCAGAAACTCTTCACCAAGTCGCACTCTCTGGAGGGGCCATCTAAGGGCAGCGTCAATGGGGGCAAGGCCAGCCCTGACGAGACACAAACCGTGAGGTATGGCAAGCGCAGCAAAAGCAAGGAGAGGAGGGTGGAGCCCAAAACCCGGTCCAACGTCACACCCACCTCCACCTCCTCACCGGGTTGGTGGAGTTCTGATGACAACCTCGATGGCGATATGTGCATCTATCACGCACCCTCAGGTGTGATGACCATGGGCAGGTGCCCCGACCGCTCGACCTCCCAGTACTTCATGGAGGCCTACAATACCATCAGCGAGCAGGCCGTGAAGGCCTCCCGAAGTAACAATGATGTCAAGTGCTCCACCTGTGCCAATCTGCCCGTGAACCTGGACGCCCCACTCCTGAAGAAGAGTGCCTGGTCCTCCACCCTCACCGTGAGTCGGGCCCGGGAGGTTTACCAGAAAGCCTCTGTGAACATGGACCAGGCCATGGTGAAGTCTGAGTCATGTCAACAAGAACGCTCTTGCCAGTACTTGCAGGTTCCTCAGGATGACTGGACAGGCTACACCCCTCGAGGGAAAGATGATGAAATTCCTTGCCGAAGAATGCGCAGTGGCAGCTATATCAAGGCCATGGGGGACGAAGACAGCGGAGATTCAGACACAAGTCCTAAGCCTTCTCCCAAAGTTGCTGCCCGGAGAGAGAGCTATCTCAAGGCCACCCAGCCATCCCTCACTGAGCTCACCACACTCAAGATCTCCAATGAACACTCGCCCAAGCTCCAGATCCGAAGTCACAGCTACCTGAGGGCGGTGAGCGAAGTCTCCATCAACAGGAGCTTGGACAGCCTGGACCCCGCGGGCCTGCTCACGTCGCCCAAGTTCCGCTCCAGGAACGAGAGCTACATGCGCGCCATGAGCACCATCAGCCAGGTGAGCGAGATGGAGGTGAACGGGCAGTTCGAGTCCGTGTGTGAGTCGGTGTTCAGCGAGCTGGAGTCGCAGGCGGTGGAGGCTCTGGACCTGCCCGTGCCTGGTTGCTTCCGCATGCGGAGCCACAGCTACGTGCGCGCCATCGAGAAGGGCTGCTCGCAGGACGACGAGTGCGTGTCGCTGCGCTCGGTCTCGCCGCCGCGCACGGCCACCACGGTGCGCACCATCCAGAGCAGCACGGGTGTCATAAAACTGAGTTCAGCAGTGGAAGCGCAGAGTAGCACCGAGTCCGCGCAGGACGCCTACATGGACGGGCAGGGCCAGCGCGGTGACATAGTCAGCCAGTCGGGGCTCAGCAACTCCACCGAAAGCCTGGACAGCATGAAGGCCCTGACCGCCGCCATCGAGGCCGCCAATGCGCAGGTCCACGGCCCCGCCAGCCAGCACGCGGCCAGCGCGCCCGCGGCCGAGGACCGCCGGAAGGAGCCCAGGAAGAGCCGCTGCCTGTCCGTCGGGATACAGGTGGATGATGCTGAAGAACCAGATAAGACGGGAGAGAATAAAGCTCCCAGTAAGTTCCAGTCTGTGGGAGTCCAAGTAGAAGAGGAGAAGTGCTTCCGCAGGTTCACTCGATCCAACAGCGTGACGACAGCCGTCCAGGCGGACCTGGACTTCCACGATAACCTGGAAAATTCCCTGGAATCCATAGAGGACAATTCGTGTCCCGGCCCGATGGCCAGGCAGTTCTCCCGGGACGCCAGCACCTCCACGGTCAGCATCCAAGGCTCGGGCAACCACTACCACGCCTGCGCGGCCGACGACGACTTCGACGTGGATTTTGACCCGTCGATTCTGCCGCCTCCGGATCCCTGGATCGACTCGATCACGGAGGACCCGCTGGAGGCCGTGCAGCGGTCCGTGTGCCATCGGGACGGCCACTGGTTCCTGAAGCTGCTGCAGGCGGAGCGCGACCGCATGGAGGGCTGGTGCCAGCAAATGGAGCGGGAGGAGCGCGAGAACAGCCTGCCCGAGGACATTCTAGGGAAAATCCGAACCGCAGTGGGCAGTGCCCAACTTCTTATGGCCCAGAAATTCTACCAGTTCAGAGAACTGTGTGAAGAAAACCTGAATCCTAATGCCCATCCGAGACCCACCTCCCAGGACCTGGCGGGGTTTTGGGACATGCTGCAGTTGTCCATAGAAAACATTAGTATGAAATTTGATGAACTCCATCAGTTGAAGGCCAATAATTGGAAACAGACGGATCCTCTTGACAAGAAGGAGAGGAGGGCCCCTCCTCCAGTGCCCAAGAAGCCGGCGAGGGGCCCCGCGCCGCCGCTGACCCGGGAGCGCTCGCTGGAGAGCTCGCAGCGCCAGGACGCCCGCAAGCGCCTGCTGGCCGCCAAGCGCGCCGCGTCGGTCCGCCAGAGCTCGGCCACCGAGAGCGCGGAGAGCATCGAGATCTACATCCCCGAGGCGCAGACCCGGCTCTGA
Dlgap1 discs, large (Drosophila) homolog-associated protein 1, transcript variant X7
Length: 1950 bp Location: 13835928..13543897 Strand: ->XM_004853203.1 ATGGATTTGAAGACATTAAAACTGTTTAATTCTCAGTTGAGATGTGGTTGGCTTTTATACATTTGGAATAAAGCATTTATGGCACATCTCAGGGTTCCTCAGGATGACTGGACAGGCTACACCCCTCGAGGGAAAGATGATGAAATTCCTTGCCGAAGAATGCGCAGTGGCAGCTATATCAAGGCCATGGGGGACGAAGACAGCGGAGATTCAGACACAAGTCCTAAGCCTTCTCCCAAAGTTGCTGCCCGGAGAGAGAGCTATCTCAAGGCCACCCAGCCATCCCTCACTGAGCTCACCACACTCAAGATCTCCAATGAACACTCGCCCAAGCTCCAGATCCGAAGTCACAGCTACCTGAGGGCGGTGAGCGAAGTCTCCATCAACAGGAGCTTGGACAGCCTGGACCCCGCGGGCCTGCTCACGTCGCCCAAGTTCCGCTCCAGGAACGAGAGCTACATGCGCGCCATGAGCACCATCAGCCAGGTGAGCGAGATGGAGGTGAACGGGCAGTTCGAGTCCGTGTGTGAGTCGGTGTTCAGCGAGCTGGAGTCGCAGGCGGTGGAGGCTCTGGACCTGCCCGTGCCTGGTTGCTTCCGCATGCGGAGCCACAGCTACGTGCGCGCCATCGAGAAGGGCTGCTCGCAGGACGACGAGTGCGTGTCGCTGCGCTCGGTCTCGCCGCCGCGCACGGCCACCACGGTGCGCACCATCCAGAGCAGCACGGCGCAGAGTAGCACCGAGTCCGCGCAGGACGCCTACATGGACGGGCAGGGCCAGCGCGGTGACATAGTCAGCCAGTCGGGGCTCAGCAACTCCACCGAAAGCCTGGACAGCATGAAGGCCCTGACCGCCGCCATCGAGGCCGCCAATGCGCAGGTCCACGGCCCCGCCAGCCAGCACGCGGCCAGCGCGCCCGCGGCCGAGGACCGCCGGAAGGAGCCCAGGAAGAGCCGCTGCCTGTCCGTCGGGATACAGGTGGATGATGCTGAAGAACCAGATAAGACGGGAGAGAATAAAGCTCCCAGTAAGTTCCAGTCTGTGGGAGTCCAAGTAGAAGAGGAGAAGTGCTTCCGCAGGTTCACTCGATCCAACAGCGTGACGACAGCCGTCCAGGCGGACCTGGACTTCCACGATAACCTGGAAAATTCCCTGGAATCCATAGAGGACAATTCGTGTCCCGGCCCGATGGCCAGGCAGTTCTCCCGGGACGCCAGCACCTCCACGGTCAGCATCCAAGGCTCGGGCAACCACTACCACGCCTGCGCGGCCGACGACGACTTCGACGTGGATTTTGACCCGTCGATTCTGCCGCCTCCGGATCCCTGGATCGACTCGATCACGGAGGACCCGCTGGAGGCCGTGCAGCGGTCCGTGTGCCATCGGGACGGCCACTGGTTCCTGAAGCTGCTGCAGGCGGAGCGCGACCGCATGGAGGGCTGGTGCCAGCAAATGGAGCGGGAGGAGCGCGAGAACAGCCTGCCCGAGGACATTCTAGGGAAAATCCGAACCGCAGTGGGCAGTGCCCAACTTCTTATGGCCCAGAAATTCTACCAGTTCAGAGAACTGTGTGAAGAAAACCTGAATCCTAATGCCCATCCGAGACCCACCTCCCAGGACCTGGCGGGGTTTTGGGACATGCTGCAGTTGTCCATAGAAAACATTAGTATGAAATTTGATGAACTCCATCAGTTGAAGGCCAATAATTGGAAACAGACGGATCCTCTTGACAAGAAGGAGAGGAGGGCCCCTCCTCCAGTGCCCAAGAAGCCGGCGAGGGGCCCCGCGCCGCCGCTGACCCGGGAGCGCTCGCTGGAGAGCTCGCAGCGCCAGGACGCCCGCAAGCGCCTGCTGGCCGCCAAGCGCGCCGCGTCGGTCCGCCAGAGCTCGGCCACCGAGAGCGCGGAGAGCATCGAGATCTACATCCCCGAGGCGCAGACCCGGCTCTGA
Dlgap1 discs, large (Drosophila) homolog-associated protein 1, transcript variant X5
Length: 2064 bp Location: 13835928..13543897 Strand: ->XM_004853201.1 ATGGATTTGAAGACATTAAAACTGTTTAATTCTCAGTTGAGATGTGGTTGGCTTTTATACATTTGGAATAAAGCATTTATGGCACATCTCAGGGTTCCTCAGGATGACTGGACAGGCTACACCCCTCGAGGGAAAGATGATGAAATTCCTTGCCGAAGAATGCGCAGTGGCAGCTATATCAAGGCCATGGGGGACGAAGACAGCGGAGATTCAGACACAAGTCCTAAGCCTTCTCCCAAAGTTGCTGCCCGGAGAGAGAGCTATCTCAAGGCCACCCAGCCATCCCTCACTGAGCTCACCACACTCAAGATCTCCAATGAACACTCGCCCAAGCTCCAGATCCGAAGTCACAGCTACCTGAGGGCGGTGAGCGAAGTCTCCATCAACAGGAGCTTGGACAGCCTGGACCCCGCGGGCCTGCTCACGTCGCCCAAGTTCCGCTCCAGGAACGAGAGCTACATGCGCGCCATGAGCACCATCAGCCAGGTGAGCGAGATGGAGGTGAACGGGCAGTTCGAGTCCGTGTGTGAGTCGGTGTTCAGCGAGCTGGAGTCGCAGGCGGTGGAGGCTCTGGACCTGCCCGTGCCTGGTTGCTTCCGCATGCGGAGCCACAGCTACGTGCGCGCCATCGAGAAGGGCTGCTCGCAGGACGACGAGTGCGTGTCGCTGCGCTCGGTCTCGCCGCCGCGCACGGCCACCACGGTGCGCACCATCCAGAGCAGCACGGGTGTCATAAAACTGAGTTCAGCAGTGGAAGTGTCATCTTGCATTACAACCTATAAGAAGACACCACCTCCAGTCCCACCCAGAACCACCACGAAACCTTTCATTTCTATCACAGCGCAGAGTAGCACCGAGTCCGCGCAGGACGCCTACATGGACGGGCAGGGCCAGCGCGGTGACATAGTCAGCCAGTCGGGGCTCAGCAACTCCACCGAAAGCCTGGACAGCATGAAGGCCCTGACCGCCGCCATCGAGGCCGCCAATGCGCAGGTCCACGGCCCCGCCAGCCAGCACGCGGCCAGCGCGCCCGCGGCCGAGGACCGCCGGAAGGAGCCCAGGAAGAGCCGCTGCCTGTCCGTCGGGATACAGGTGGATGATGCTGAAGAACCAGATAAGACGGGAGAGAATAAAGCTCCCAGTAAGTTCCAGTCTGTGGGAGTCCAAGTAGAAGAGGAGAAGTGCTTCCGCAGGTTCACTCGATCCAACAGCGTGACGACAGCCGTCCAGGCGGACCTGGACTTCCACGATAACCTGGAAAATTCCCTGGAATCCATAGAGGACAATTCGTGTCCCGGCCCGATGGCCAGGCAGTTCTCCCGGGACGCCAGCACCTCCACGGTCAGCATCCAAGGCTCGGGCAACCACTACCACGCCTGCGCGGCCGACGACGACTTCGACGTGGATTTTGACCCGTCGATTCTGCCGCCTCCGGATCCCTGGATCGACTCGATCACGGAGGACCCGCTGGAGGCCGTGCAGCGGTCCGTGTGCCATCGGGACGGCCACTGGTTCCTGAAGCTGCTGCAGGCGGAGCGCGACCGCATGGAGGGCTGGTGCCAGCAAATGGAGCGGGAGGAGCGCGAGAACAGCCTGCCCGAGGACATTCTAGGGAAAATCCGAACCGCAGTGGGCAGTGCCCAACTTCTTATGGCCCAGAAATTCTACCAGTTCAGAGAACTGTGTGAAGAAAACCTGAATCCTAATGCCCATCCGAGACCCACCTCCCAGGACCTGGCGGGGTTTTGGGACATGCTGCAGTTGTCCATAGAAAACATTAGTATGAAATTTGATGAACTCCATCAGTTGAAGGCCAATAATTGGAAACAGACGGATCCTCTTGACAAGAAGGAGAGGAGGGCCCCTCCTCCAGTGCCCAAGAAGCCGGCGAGGGGCCCCGCGCCGCCGCTGACCCGGGAGCGCTCGCTGGAGAGCTCGCAGCGCCAGGACGCCCGCAAGCGCCTGCTGGCCGCCAAGCGCGCCGCGTCGGTCCGCCAGAGCTCGGCCACCGAGAGCGCGGAGAGCATCGAGATCTACATCCCCGAGGCGCAGACCCGGCTCTGA
Dlgap1 discs, large (Drosophila) homolog-associated protein 1, transcript variant X6
Length: 2016 bp Location: 13835714..13543897 Strand: ->XM_004853202.1 ATGATCGACCTTTTCAAGGCTGAGTGGGTTTCTTCAGTGTGTGTGCAAGTTTCAAGAAATGGAAGGACTGACCAGGTTCCTCAGGATGACTGGACAGGCTACACCCCTCGAGGGAAAGATGATGAAATTCCTTGCCGAAGAATGCGCAGTGGCAGCTATATCAAGGCCATGGGGGACGAAGACAGCGGAGATTCAGACACAAGTCCTAAGCCTTCTCCCAAAGTTGCTGCCCGGAGAGAGAGCTATCTCAAGGCCACCCAGCCATCCCTCACTGAGCTCACCACACTCAAGATCTCCAATGAACACTCGCCCAAGCTCCAGATCCGAAGTCACAGCTACCTGAGGGCGGTGAGCGAAGTCTCCATCAACAGGAGCTTGGACAGCCTGGACCCCGCGGGCCTGCTCACGTCGCCCAAGTTCCGCTCCAGGAACGAGAGCTACATGCGCGCCATGAGCACCATCAGCCAGGTGAGCGAGATGGAGGTGAACGGGCAGTTCGAGTCCGTGTGTGAGTCGGTGTTCAGCGAGCTGGAGTCGCAGGCGGTGGAGGCTCTGGACCTGCCCGTGCCTGGTTGCTTCCGCATGCGGAGCCACAGCTACGTGCGCGCCATCGAGAAGGGCTGCTCGCAGGACGACGAGTGCGTGTCGCTGCGCTCGGTCTCGCCGCCGCGCACGGCCACCACGGTGCGCACCATCCAGAGCAGCACGGTGTCATCTTGCATTACAACCTATAAGAAGACACCACCTCCAGTCCCACCCAGAACCACCACGAAACCTTTCATTTCTATCACAGCGCAGAGTAGCACCGAGTCCGCGCAGGACGCCTACATGGACGGGCAGGGCCAGCGCGGTGACATAGTCAGCCAGTCGGGGCTCAGCAACTCCACCGAAAGCCTGGACAGCATGAAGGCCCTGACCGCCGCCATCGAGGCCGCCAATGCGCAGGTCCACGGCCCCGCCAGCCAGCACGCGGCCAGCGCGCCCGCGGCCGAGGACCGCCGGAAGGAGCCCAGGAAGAGCCGCTGCCTGTCCGTCGGGATACAGGTGGATGATGCTGAAGAACCAGATAAGACGGGAGAGAATAAAGCTCCCAGTAAGTTCCAGTCTGTGGGAGTCCAAGTAGAAGAGGAGAAGTGCTTCCGCAGGTTCACTCGATCCAACAGCGTGACGACAGCCGTCCAGGCGGACCTGGACTTCCACGATAACCTGGAAAATTCCCTGGAATCCATAGAGGACAATTCGTGTCCCGGCCCGATGGCCAGGCAGTTCTCCCGGGACGCCAGCACCTCCACGGTCAGCATCCAAGGCTCGGGCAACCACTACCACGCCTGCGCGGCCGACGACGACTTCGACGTGGATTTTGACCCGTCGATTCTGCCGCCTCCGGATCCCTGGATCGACTCGATCACGGAGGACCCGCTGGAGGCCGTGCAGCGGTCCGTGTGCCATCGGGACGGCCACTGGTTCCTGAAGCTGCTGCAGGCGGAGCGCGACCGCATGGAGGGCTGGTGCCAGCAAATGGAGCGGGAGGAGCGCGAGAACAGCCTGCCCGAGGACATTCTAGGGAAAATCCGAACCGCAGTGGGCAGTGCCCAACTTCTTATGGCCCAGAAATTCTACCAGTTCAGAGAACTGTGTGAAGAAAACCTGAATCCTAATGCCCATCCGAGACCCACCTCCCAGGACCTGGCGGGGTTTTGGGACATGCTGCAGTTGTCCATAGAAAACATTAGTATGAAATTTGATGAACTCCATCAGTTGAAGGCCAATAATTGGAAACAGACGGATCCTCTTGACAAGAAGGAGAGGAGGGCCCCTCCTCCAGTGCCCAAGAAGCCGGCGAGGGGCCCCGCGCCGCCGCTGACCCGGGAGCGCTCGCTGGAGAGCTCGCAGCGCCAGGACGCCCGCAAGCGCCTGCTGGCCGCCAAGCGCGCCGCGTCGGTCCGCCAGAGCTCGGCCACCGAGAGCGCGGAGAGCATCGAGATCTACATCCCCGAGGCGCAGACCCGGCTCTGA
LOC101715604 UPF0462 protein C4orf33-like
Length: 678 bp Location: 14002200..14017119 Strand: +>XM_004853308.1 ATGTCGTTTAATGAGCAGGAGGTGAGCACGCAGGGAGCGGCTCAAGTCCCGTCCACGCTGAGGGTGGATGATTACAGCATCTACTTAGCCGACTTCAAAGCAAACAGGACGTGGGAGGGGCATACGTGGGCACAGGCTGGTTTCCAGCCCTCTCTGCCCGCAAACAGCCCAGAGAAATCAGTGCGAGTGTGGAGATGTGAAGATGGGATGGAATGCGAAGGGGTCAGAGTCCCCTACCAGGCTGCCCACGTCTACAGCTGTGTTTCAGACTTCTCTGGGGACCTCTGCAGCGAAAACCCAACCGGGCAGGGCAGTCTTCAGGTGGATTTTAGAACTGAACACACTTGGGATGTTTCTCCAGTGAAGCATGAGCCAGTGCTTGTCAGGCTGAATCCAGGTGATGGAGGAGTAATGATGGAAGTTCATGCTCCGCATGCTCCGTTTTTCAATGATCCCCCAGCCCCAGTTGGAGAACCAGGAAAGCCTTTCAATGAACTGTGGGGTTATGAAGTTGTGGAAGCATTTTTCTTGAATGATGTAACTGAGCAGTATTTAGAAGTTGAACTTTGTCCCCATGGTCTGGAATATTTCAAGCCCTTCAGCTTTAACACGCTGCTTGGAGAAGAATGGAAACAACCAGAATCAGATCTGTGGCTAATAGAGAAATATGATTCATAG
LOC101715945 RWD domain-containing protein 1-like
Length: 633 bp Location: 14100917..14095238 Strand: ->XM_004853309.1 ATGAAGAATAATGAGTATGGGGAAAAGAAGAGATGTGAAGAAGGAAGAGAATACAAATGCCTTCTGTGTCACAAAAGTAATTCCCCCGGGAGTAGGCAGACCCTGTGTGCTGATGGGGGCCTCTGCTGGCAGTGTGTGAAAGGCTGCAAACCGCAGCCCTGCCCTCTGTGCCCCAGGGAGTCCCTCATGCTGTGTGGGCCTCCTGGACCCCCAGATATTAGGAGCAGCAACCTCTTCCTAGTGCTCTCAGCTGGCTTCATTCCTGTGCAGGAAGAAAAGAAACTAAAAGAAAAAGAAGCAGAAGAAGCAGAGAAGCAACTATTCCCCGGCACCCCTGTTACAATCGAGAATTTCTTGTGTTGGAAAGCCAAGTTTGATGCAGAACTCTTGGAAGTTAAAAAGAAACGGATAACAGAAAAAGAGCAAGCAGGAAAAAATAAATTAAGTGGCAAACAGCTGTTTGAAACCAATCATAATCCTGACACATCTGATATCCAGTTCTTGGAGGATGCTGGAAATAATATGGAAGTAGATGAGTCTTTGTTCCAGGAACTGGATGACTTGGAGCTGGAGGATGTTGAGGACGACCCAGACTACAGCCCTGCTGGCCCAGGGAGTGACTCAGAGGACTGA
Zbtb14 zinc finger and BTB domain containing 14
Length: 1350 bp Location: 15019786..15016689 Strand: ->XM_004853205.1 ATGGAGTTTTTCATCAGTATGTCTGAAACCATTAAGTACAATGACGATGATCATAAAACTCTGTTTCTGAAAACGCTAAATGAACAACGCCTGGAAGGAGAATTTTGTGATATTGCTATTGTGGTTGAAGATGTAAAATTCAGAGCACACAGATGTGTTCTCGCTGCCTGCAGTACCTACTTTAAAAAGCTTTTCAAGAAGCTTGAGGTGGATAGTTCTTCAGTAATAGAAATAGATTTTCTCCGTTCTGATATATTTGAAGAAGTTCTGAACTACATGTACACAGCAAAGATTTCTGTGAAAAAGGAAGATGTTAACTTAATGATGTCTTCGGGTCAGATTCTTGGTATACGATTTTTGGATAAACTCTGTTCTCAGAAGCGTGATGTGTCTAGTCCCGATGAAAGTAATGGTCAGTCCAAAAGTAAGTATTGCCTCAAAATAAATCGCCCCATTGGAGACACCACGGACACTCAGGATGATGATGTGGAAGAAATTGGGGATCAGGATGACAGCCCTTCCGATGACACAGTAGAGGGTACCCCCCCAAGTCAGGAGGACGGCAAGTCACCCACCACCACGCTCAGGGTGCAGGAGGCGATTTTGAAAGAACTAGGGAGTGAGGAGGTTCGGAAAGTCAATTGCTACGGCCAGGAAGTAGAGTCCATGGAGACCCCGGAGTCCAAAGATTTGGGGTCCCAGACCCCTCAAGCCTTAACATTTAACGATGGCATGAGCGAGGTGAAAGATGAACAGACCCCGGGCTGGACCACAGCCACAAGTGACATGAAGTTTGAGTACTTGCTGTATGGCCACCACCGGGAGCAGATTGCCTGCCAGGCCTGCGGAAAGACCTTCTCCGATGAGGGCCGCCTGCGGAAGCACGAGAAGCTGCACACGGCGGACCGGCCGTTCGTGTGCGAGATGTGCACGAAGGGCTTCACCACGCAGGCCCACCTGAAGGAACACCTGAAAATCCACACGGGCTACAAGCCCTACAGCTGTGAGGTGTGCGGCAAGTCCTTCATCCGCGCCCCAGACTTGAAGAAGCACGAGAGGGTGCACAGCAATGAGCGGCCCTTTGCGTGCCACATGTGTGACAAAGCCTTCAAGCACAAGTCCCACCTCAAGGACCATGAGAGGCGGCACCGAGGGGAGAAGCCCTTCGTGTGCGGCTCCTGCACCAAGGCCTTCGCCAAGGCCTCGGATCTGAAGCGGCACGAGAACAATATGCACAGCGAGAGGAAGCAGGTCACCCCCAGCGCCATGCAGAGCGAGACGGAACAGCTGCAGGCGGCTGCCATGGCCGCAGAGGCCGAGCAGCAGCTGGAAACCATTGCCTGCAGCTAG
Epb41l3 erythrocyte membrane protein band 4.1-like 3, transcript variant X4
Length: 3369 bp Location: 15304011..15092708 Strand: ->XM_004853209.1 ATGACGACCGAATCGGGATCAGACTCGGAGTCCAAGCCGGAGCAGGAGGCGGCGCCCCAGGAGGCGGTGGGGGCGCAGAGCCGTTCGGGGGCGCAGCACGAGGAGCCCCCCAGCGGGGGCGGCACAGAGCCCGGGGCTCCGGAGCAGTTCCAGGGCGCGGTGGCGCACAGCACCCCGGTGCGCAGGCAGGTCACCGACAAGGAGCAGGAGTTTGCTGCGGCAGCTGCCAAACAGCTCGAGTATCCGCAGTTCGAAGACGATAAACTCTCTCAGAGGTCCTCCAGCAGCAAACTCTCCCGGTCGCCTTTAAAGATCGTCAAGAAGCCCAGAAGTATGCAGTGCAAGGTGGTCCTCCTGGATGGCTCGGAGTACACCTGCGAGGTGGAGAAACGCTCCCGAGGGCAAGTGCTGTTTGACAAAGTGTGCGAGCACCTGAACCTGCTGGAGAAGGACTACTTTGGCCTCACGTACCGCGATGCCGAGAACCAGAAGAATTGGTTGGACCCTGCTAAGGAAATTAAAAAACAGATTCGAAGTGGCGCTTGGCACTTTTCATTTAATGTGAAGTTTTACCCACCAGACCCTTCCCAGCTCTCTGAAGATATAACCAGGTACTACCTCTGCCTCCAGCTACGCGATGACATCGTGTCTGGACGGCTGCCTTGCTCCTTCGTGACCCTCGCCCTGCTGGGCTCCTACACGGTCCAGTCAGAACTTGGAGACTACGACCCTGACGAGTGTGGCAGTGATTACATCAGCGAGTTCCGCTTTGCCCCGAACCACACGAAGGAGCTGGAGGATAAGGTGGTTGAGCTGCACAAGAGCCACAGAGGAATGACACCAGCGGAAGCAGAAATGCATTTCTTGGAAAACGCCAAAAAGCTCTCCATGTATGGGGTAGATTTACATCATGCCAAGGACTCAGAAGGAGTAGAAATCATGTTAGGAGTCTGTGCGAGTGGTCTGTTGATATATCGTGACCGACTGCGAATAAACAGATTTGCCTGGCCCAAGGTTCTGAAAATCTCATACAAAAGGAACAACTTTTACATTAAGATTCGGCCGGGAGAGTTTGAACAATTTGAAAGCACCATTGGGTTTAAGCTGCCAAACCATCGAGCTGCTAAGCGTTTATGGAAAGTGTGTGTGGAGCACCATACGTTTTTCAGACTACTACTACCGGAAGCACCTCCAAAGAAATTCCTCACCTTGGGTTCCAAGTTCCGGTACAGCGGCCGGACACAAGCGCAGACGAGGAGAGCCAGTGCGCTGATAGACCGCCCTGCGCCTTACTTCGAACGCTCCTCCAGCAAGCGCTACACCATGTCACGCAGCTTGGATGGAGCATCAGTGAATGAAAACCATGAAATGTACATGAAGGATTCTGTGTCTGCTGCAGAGGTTGGTACTGGCCAGTACGCCACGACAAAGGGCATCTCTCAGACCAACCTGATCACCACTGTGACTCCGGAGAAAAAGGCGGAGGAGGAGCGTGACGAGGAGGAGGACAGAGGGAGGAAGGCCGAGGAGGCCACGCCTGTGTCTGCGATCCGGCACGAGGGAAAGTCACCCAGGCTTGGCACTGATTCATGTCCCTTGTCACCTCCATCCGCCCCTCCCGACCCCGCATCCCCCCCAGAGCTCCGTAGGAGGTGTAAGGAGAATGAACACAAAGCACCGGGCTTCGAGGTGCCCCGAGCGGAGCCCGCGCCGGAAGAGCCCACGGTGGAGGCGTGCCCCGGGGACCGAGACGCGGCCTTCCGCTGCAGGCGGCCCGCCAGCAAGGGCGCCACCCTGTTCTCCTTCTCCTTGCAGCTCCCCGAGTGCTTCCCATCGCTGCTCGATGACGACGGGTACCTCTCTTTCCCCAGCCTGTCCGAGACCAGCCTCCTGCCTCAGAGCCTGCAGCATTACCTCCCGATCCGCTCGCCCTCCCTCGTGCCCTGCTTCCTCTTCATCTTCTTCTTCCTGCTCTCCGCCTCCTTCTCAGTGCCATCCGCCCTCACGCTCTCCTTCCCTCTGGCTCTGAGCCTCTGCTACCTGGAGCCCAAGGCGGCCTCCTTGAGCGCCTCCCTAGACAGTGACCCGAGTGACAGTTCAGAGGAAGAGACAGACAGCGAGCGCACAGACACCGCGGCTGACGGGGAGACCACTGCCACTGAGTCAGACCAGGAGGAAGATGCAGAGCTCAAGGCACAGAATAGTCTGATTAAGCGAATAAAGGGTGAAAATGTGTATGTCAAACATAGTAACCTTATGTTAGAGGAGCTAGATAAAACCCAAGATGAACTGATGAAACATCAAACCAACATTAGTGAGCTGAAAAGAACGTTCTTAGAGACCTCCACAGAGACTGCCGTATCGAGCGAGTGGGAGAAGAGGCTTTCTACCTCCCCCGTGCGGCTTGCGGCCAGGCAGGAGGACGCTCCCATGATCGAGCCCCTCATGCCTGAAGAGACTAAGCAGTCTTCTGGAGAAAAGCTCATGGACGGCTCTGAAATCCTCAGTTTATTAGAGTCGGCACGCAAGCCCACAGAGTTCATAGGCGGGGTGACTTCCACTTTGCAGAGCTGGGTGCAGAAGGTGGAAACCAAGACAGAGTCCAGCGAAGCAGAGACGGAAACGACCCCGCAGCCCCAGCCGCTCGGCACCGAGAAGCTGGTGCAGGAGACCATGCTGGTGGAGGAGCGGCGCGTGATGAAAGTGCATGCGAGCGGGGATGCTTCTCACACCGCGGAGGACAAGGCAGAGACTGCAGCACAGCCTGTGCCCAGCGGTGCTCCTGGCGTGAAGGGGAAGGAGGTCGCCAAAGAGGAGAGAGGGACGGAGGCCGAGAGACCTGACCTAGGACAGGATGACATAGCCACTGCCTCCCACAAGCAAGAGGAGGACCGGGGAGCCGCCGTCCACGTTTCTGAAGCCCCGGAGCCAAAGGCTCATTTCGAGTCGTCAGCCACGAAGACGGAAACCATCAGTTTTGGCGGTGTTTCCCCAGGAGGTGTCAAACTAGAAATTTCTACCAAGGAAGTGCCAGTAGTTCACACGGAGACAAAAACCATCACGTACGAATCATCACAGGTCGATCCTGGAGCTGATCTGGAGCCAGGCGTGCTGATGAGTGCCCAGACCATCACGTCGGAGACCACCAGCACCACTACCACCACGCACATCACCAAAACTGTGAAGGGAGGCATCTCGGAGACGAGGATTGAGAAGAGAATCGTCATCACGGGAGACGCCGACATCGACCACGACCAGGCGCTGGCTCAGGCAATTAAAGAAGCCAAAGAGCAGCACCCTGACATGTCAGTAACCAAAGTAGTGGTCCATAAAGAGACAGAGATCACACCGGAAGACGGAGAGGATTGA
Epb41l3 erythrocyte membrane protein band 4.1-like 3, transcript variant X3
Length: 3369 bp Location: 15231877..15092708 Strand: ->XM_004853208.1 ATGACGACCGAATCGGGATCAGACTCGGAGTCCAAGCCGGAGCAGGAGGCGGCGCCCCAGGAGGCGGTGGGGGCGCAGAGCCGTTCGGGGGCGCAGCACGAGGAGCCCCCCAGCGGGGGCGGCACAGAGCCCGGGGCTCCGGAGCAGTTCCAGGGCGCGGTGGCGCACAGCACCCCGGTGCGCAGGCAGGTCACCGACAAGGAGCAGGAGTTTGCTGCGGCAGCTGCCAAACAGCTCGAGTATCCGCAGTTCGAAGACGATAAACTCTCTCAGAGGTCCTCCAGCAGCAAACTCTCCCGGTCGCCTTTAAAGATCGTCAAGAAGCCCAGAAGTATGCAGTGCAAGGTGGTCCTCCTGGATGGCTCGGAGTACACCTGCGAGGTGGAGAAACGCTCCCGAGGGCAAGTGCTGTTTGACAAAGTGTGCGAGCACCTGAACCTGCTGGAGAAGGACTACTTTGGCCTCACGTACCGCGATGCCGAGAACCAGAAGAATTGGTTGGACCCTGCTAAGGAAATTAAAAAACAGATTCGAAGTGGCGCTTGGCACTTTTCATTTAATGTGAAGTTTTACCCACCAGACCCTTCCCAGCTCTCTGAAGATATAACCAGGTACTACCTCTGCCTCCAGCTACGCGATGACATCGTGTCTGGACGGCTGCCTTGCTCCTTCGTGACCCTCGCCCTGCTGGGCTCCTACACGGTCCAGTCAGAACTTGGAGACTACGACCCTGACGAGTGTGGCAGTGATTACATCAGCGAGTTCCGCTTTGCCCCGAACCACACGAAGGAGCTGGAGGATAAGGTGGTTGAGCTGCACAAGAGCCACAGAGGAATGACACCAGCGGAAGCAGAAATGCATTTCTTGGAAAACGCCAAAAAGCTCTCCATGTATGGGGTAGATTTACATCATGCCAAGGACTCAGAAGGAGTAGAAATCATGTTAGGAGTCTGTGCGAGTGGTCTGTTGATATATCGTGACCGACTGCGAATAAACAGATTTGCCTGGCCCAAGGTTCTGAAAATCTCATACAAAAGGAACAACTTTTACATTAAGATTCGGCCGGGAGAGTTTGAACAATTTGAAAGCACCATTGGGTTTAAGCTGCCAAACCATCGAGCTGCTAAGCGTTTATGGAAAGTGTGTGTGGAGCACCATACGTTTTTCAGACTACTACTACCGGAAGCACCTCCAAAGAAATTCCTCACCTTGGGTTCCAAGTTCCGGTACAGCGGCCGGACACAAGCGCAGACGAGGAGAGCCAGTGCGCTGATAGACCGCCCTGCGCCTTACTTCGAACGCTCCTCCAGCAAGCGCTACACCATGTCACGCAGCTTGGATGGAGCATCAGTGAATGAAAACCATGAAATGTACATGAAGGATTCTGTGTCTGCTGCAGAGGTTGGTACTGGCCAGTACGCCACGACAAAGGGCATCTCTCAGACCAACCTGATCACCACTGTGACTCCGGAGAAAAAGGCGGAGGAGGAGCGTGACGAGGAGGAGGACAGAGGGAGGAAGGCCGAGGAGGCCACGCCTGTGTCTGCGATCCGGCACGAGGGAAAGTCACCCAGGCTTGGCACTGATTCATGTCCCTTGTCACCTCCATCCGCCCCTCCCGACCCCGCATCCCCCCCAGAGCTCCGTAGGAGGTGTAAGGAGAATGAACACAAAGCACCGGGCTTCGAGGTGCCCCGAGCGGAGCCCGCGCCGGAAGAGCCCACGGTGGAGGCGTGCCCCGGGGACCGAGACGCGGCCTTCCGCTGCAGGCGGCCCGCCAGCAAGGGCGCCACCCTGTTCTCCTTCTCCTTGCAGCTCCCCGAGTGCTTCCCATCGCTGCTCGATGACGACGGGTACCTCTCTTTCCCCAGCCTGTCCGAGACCAGCCTCCTGCCTCAGAGCCTGCAGCATTACCTCCCGATCCGCTCGCCCTCCCTCGTGCCCTGCTTCCTCTTCATCTTCTTCTTCCTGCTCTCCGCCTCCTTCTCAGTGCCATCCGCCCTCACGCTCTCCTTCCCTCTGGCTCTGAGCCTCTGCTACCTGGAGCCCAAGGCGGCCTCCTTGAGCGCCTCCCTAGACAGTGACCCGAGTGACAGTTCAGAGGAAGAGACAGACAGCGAGCGCACAGACACCGCGGCTGACGGGGAGACCACTGCCACTGAGTCAGACCAGGAGGAAGATGCAGAGCTCAAGGCACAGAATAGTCTGATTAAGCGAATAAAGGGTGAAAATGTGTATGTCAAACATAGTAACCTTATGTTAGAGGAGCTAGATAAAACCCAAGATGAACTGATGAAACATCAAACCAACATTAGTGAGCTGAAAAGAACGTTCTTAGAGACCTCCACAGAGACTGCCGTATCGAGCGAGTGGGAGAAGAGGCTTTCTACCTCCCCCGTGCGGCTTGCGGCCAGGCAGGAGGACGCTCCCATGATCGAGCCCCTCATGCCTGAAGAGACTAAGCAGTCTTCTGGAGAAAAGCTCATGGACGGCTCTGAAATCCTCAGTTTATTAGAGTCGGCACGCAAGCCCACAGAGTTCATAGGCGGGGTGACTTCCACTTTGCAGAGCTGGGTGCAGAAGGTGGAAACCAAGACAGAGTCCAGCGAAGCAGAGACGGAAACGACCCCGCAGCCCCAGCCGCTCGGCACCGAGAAGCTGGTGCAGGAGACCATGCTGGTGGAGGAGCGGCGCGTGATGAAAGTGCATGCGAGCGGGGATGCTTCTCACACCGCGGAGGACAAGGCAGAGACTGCAGCACAGCCTGTGCCCAGCGGTGCTCCTGGCGTGAAGGGGAAGGAGGTCGCCAAAGAGGAGAGAGGGACGGAGGCCGAGAGACCTGACCTAGGACAGGATGACATAGCCACTGCCTCCCACAAGCAAGAGGAGGACCGGGGAGCCGCCGTCCACGTTTCTGAAGCCCCGGAGCCAAAGGCTCATTTCGAGTCGTCAGCCACGAAGACGGAAACCATCAGTTTTGGCGGTGTTTCCCCAGGAGGTGTCAAACTAGAAATTTCTACCAAGGAAGTGCCAGTAGTTCACACGGAGACAAAAACCATCACGTACGAATCATCACAGGTCGATCCTGGAGCTGATCTGGAGCCAGGCGTGCTGATGAGTGCCCAGACCATCACGTCGGAGACCACCAGCACCACTACCACCACGCACATCACCAAAACTGTGAAGGGAGGCATCTCGGAGACGAGGATTGAGAAGAGAATCGTCATCACGGGAGACGCCGACATCGACCACGACCAGGCGCTGGCTCAGGCAATTAAAGAAGCCAAAGAGCAGCACCCTGACATGTCAGTAACCAAAGTAGTGGTCCATAAAGAGACAGAGATCACACCGGAAGACGGAGAGGATTGA
Epb41l3 erythrocyte membrane protein band 4.1-like 3, transcript variant X2
Length: 3369 bp Location: 15229642..15092708 Strand: ->XM_004853207.1 ATGACGACCGAATCGGGATCAGACTCGGAGTCCAAGCCGGAGCAGGAGGCGGCGCCCCAGGAGGCGGTGGGGGCGCAGAGCCGTTCGGGGGCGCAGCACGAGGAGCCCCCCAGCGGGGGCGGCACAGAGCCCGGGGCTCCGGAGCAGTTCCAGGGCGCGGTGGCGCACAGCACCCCGGTGCGCAGGCAGGTCACCGACAAGGAGCAGGAGTTTGCTGCGGCAGCTGCCAAACAGCTCGAGTATCCGCAGTTCGAAGACGATAAACTCTCTCAGAGGTCCTCCAGCAGCAAACTCTCCCGGTCGCCTTTAAAGATCGTCAAGAAGCCCAGAAGTATGCAGTGCAAGGTGGTCCTCCTGGATGGCTCGGAGTACACCTGCGAGGTGGAGAAACGCTCCCGAGGGCAAGTGCTGTTTGACAAAGTGTGCGAGCACCTGAACCTGCTGGAGAAGGACTACTTTGGCCTCACGTACCGCGATGCCGAGAACCAGAAGAATTGGTTGGACCCTGCTAAGGAAATTAAAAAACAGATTCGAAGTGGCGCTTGGCACTTTTCATTTAATGTGAAGTTTTACCCACCAGACCCTTCCCAGCTCTCTGAAGATATAACCAGGTACTACCTCTGCCTCCAGCTACGCGATGACATCGTGTCTGGACGGCTGCCTTGCTCCTTCGTGACCCTCGCCCTGCTGGGCTCCTACACGGTCCAGTCAGAACTTGGAGACTACGACCCTGACGAGTGTGGCAGTGATTACATCAGCGAGTTCCGCTTTGCCCCGAACCACACGAAGGAGCTGGAGGATAAGGTGGTTGAGCTGCACAAGAGCCACAGAGGAATGACACCAGCGGAAGCAGAAATGCATTTCTTGGAAAACGCCAAAAAGCTCTCCATGTATGGGGTAGATTTACATCATGCCAAGGACTCAGAAGGAGTAGAAATCATGTTAGGAGTCTGTGCGAGTGGTCTGTTGATATATCGTGACCGACTGCGAATAAACAGATTTGCCTGGCCCAAGGTTCTGAAAATCTCATACAAAAGGAACAACTTTTACATTAAGATTCGGCCGGGAGAGTTTGAACAATTTGAAAGCACCATTGGGTTTAAGCTGCCAAACCATCGAGCTGCTAAGCGTTTATGGAAAGTGTGTGTGGAGCACCATACGTTTTTCAGACTACTACTACCGGAAGCACCTCCAAAGAAATTCCTCACCTTGGGTTCCAAGTTCCGGTACAGCGGCCGGACACAAGCGCAGACGAGGAGAGCCAGTGCGCTGATAGACCGCCCTGCGCCTTACTTCGAACGCTCCTCCAGCAAGCGCTACACCATGTCACGCAGCTTGGATGGAGCATCAGTGAATGAAAACCATGAAATGTACATGAAGGATTCTGTGTCTGCTGCAGAGGTTGGTACTGGCCAGTACGCCACGACAAAGGGCATCTCTCAGACCAACCTGATCACCACTGTGACTCCGGAGAAAAAGGCGGAGGAGGAGCGTGACGAGGAGGAGGACAGAGGGAGGAAGGCCGAGGAGGCCACGCCTGTGTCTGCGATCCGGCACGAGGGAAAGTCACCCAGGCTTGGCACTGATTCATGTCCCTTGTCACCTCCATCCGCCCCTCCCGACCCCGCATCCCCCCCAGAGCTCCGTAGGAGGTGTAAGGAGAATGAACACAAAGCACCGGGCTTCGAGGTGCCCCGAGCGGAGCCCGCGCCGGAAGAGCCCACGGTGGAGGCGTGCCCCGGGGACCGAGACGCGGCCTTCCGCTGCAGGCGGCCCGCCAGCAAGGGCGCCACCCTGTTCTCCTTCTCCTTGCAGCTCCCCGAGTGCTTCCCATCGCTGCTCGATGACGACGGGTACCTCTCTTTCCCCAGCCTGTCCGAGACCAGCCTCCTGCCTCAGAGCCTGCAGCATTACCTCCCGATCCGCTCGCCCTCCCTCGTGCCCTGCTTCCTCTTCATCTTCTTCTTCCTGCTCTCCGCCTCCTTCTCAGTGCCATCCGCCCTCACGCTCTCCTTCCCTCTGGCTCTGAGCCTCTGCTACCTGGAGCCCAAGGCGGCCTCCTTGAGCGCCTCCCTAGACAGTGACCCGAGTGACAGTTCAGAGGAAGAGACAGACAGCGAGCGCACAGACACCGCGGCTGACGGGGAGACCACTGCCACTGAGTCAGACCAGGAGGAAGATGCAGAGCTCAAGGCACAGAATAGTCTGATTAAGCGAATAAAGGGTGAAAATGTGTATGTCAAACATAGTAACCTTATGTTAGAGGAGCTAGATAAAACCCAAGATGAACTGATGAAACATCAAACCAACATTAGTGAGCTGAAAAGAACGTTCTTAGAGACCTCCACAGAGACTGCCGTATCGAGCGAGTGGGAGAAGAGGCTTTCTACCTCCCCCGTGCGGCTTGCGGCCAGGCAGGAGGACGCTCCCATGATCGAGCCCCTCATGCCTGAAGAGACTAAGCAGTCTTCTGGAGAAAAGCTCATGGACGGCTCTGAAATCCTCAGTTTATTAGAGTCGGCACGCAAGCCCACAGAGTTCATAGGCGGGGTGACTTCCACTTTGCAGAGCTGGGTGCAGAAGGTGGAAACCAAGACAGAGTCCAGCGAAGCAGAGACGGAAACGACCCCGCAGCCCCAGCCGCTCGGCACCGAGAAGCTGGTGCAGGAGACCATGCTGGTGGAGGAGCGGCGCGTGATGAAAGTGCATGCGAGCGGGGATGCTTCTCACACCGCGGAGGACAAGGCAGAGACTGCAGCACAGCCTGTGCCCAGCGGTGCTCCTGGCGTGAAGGGGAAGGAGGTCGCCAAAGAGGAGAGAGGGACGGAGGCCGAGAGACCTGACCTAGGACAGGATGACATAGCCACTGCCTCCCACAAGCAAGAGGAGGACCGGGGAGCCGCCGTCCACGTTTCTGAAGCCCCGGAGCCAAAGGCTCATTTCGAGTCGTCAGCCACGAAGACGGAAACCATCAGTTTTGGCGGTGTTTCCCCAGGAGGTGTCAAACTAGAAATTTCTACCAAGGAAGTGCCAGTAGTTCACACGGAGACAAAAACCATCACGTACGAATCATCACAGGTCGATCCTGGAGCTGATCTGGAGCCAGGCGTGCTGATGAGTGCCCAGACCATCACGTCGGAGACCACCAGCACCACTACCACCACGCACATCACCAAAACTGTGAAGGGAGGCATCTCGGAGACGAGGATTGAGAAGAGAATCGTCATCACGGGAGACGCCGACATCGACCACGACCAGGCGCTGGCTCAGGCAATTAAAGAAGCCAAAGAGCAGCACCCTGACATGTCAGTAACCAAAGTAGTGGTCCATAAAGAGACAGAGATCACACCGGAAGACGGAGAGGATTGA
Epb41l3 erythrocyte membrane protein band 4.1-like 3, transcript variant X1
Length: 3411 bp Location: 15197319..15092708 Strand: ->XM_004853206.1 ATGAGGAATTTAACATTAAACCAGTGCCTGGAACAATCCACCATGACGACCGAATCGGGATCAGACTCGGAGTCCAAGCCGGAGCAGGAGGCGGCGCCCCAGGAGGCGGTGGGGGCGCAGAGCCGTTCGGGGGCGCAGCACGAGGAGCCCCCCAGCGGGGGCGGCACAGAGCCCGGGGCTCCGGAGCAGTTCCAGGGCGCGGTGGCGCACAGCACCCCGGTGCGCAGGCAGGTCACCGACAAGGAGCAGGAGTTTGCTGCGGCAGCTGCCAAACAGCTCGAGTATCCGCAGTTCGAAGACGATAAACTCTCTCAGAGGTCCTCCAGCAGCAAACTCTCCCGGTCGCCTTTAAAGATCGTCAAGAAGCCCAGAAGTATGCAGTGCAAGGTGGTCCTCCTGGATGGCTCGGAGTACACCTGCGAGGTGGAGAAACGCTCCCGAGGGCAAGTGCTGTTTGACAAAGTGTGCGAGCACCTGAACCTGCTGGAGAAGGACTACTTTGGCCTCACGTACCGCGATGCCGAGAACCAGAAGAATTGGTTGGACCCTGCTAAGGAAATTAAAAAACAGATTCGAAGTGGCGCTTGGCACTTTTCATTTAATGTGAAGTTTTACCCACCAGACCCTTCCCAGCTCTCTGAAGATATAACCAGGTACTACCTCTGCCTCCAGCTACGCGATGACATCGTGTCTGGACGGCTGCCTTGCTCCTTCGTGACCCTCGCCCTGCTGGGCTCCTACACGGTCCAGTCAGAACTTGGAGACTACGACCCTGACGAGTGTGGCAGTGATTACATCAGCGAGTTCCGCTTTGCCCCGAACCACACGAAGGAGCTGGAGGATAAGGTGGTTGAGCTGCACAAGAGCCACAGAGGAATGACACCAGCGGAAGCAGAAATGCATTTCTTGGAAAACGCCAAAAAGCTCTCCATGTATGGGGTAGATTTACATCATGCCAAGGACTCAGAAGGAGTAGAAATCATGTTAGGAGTCTGTGCGAGTGGTCTGTTGATATATCGTGACCGACTGCGAATAAACAGATTTGCCTGGCCCAAGGTTCTGAAAATCTCATACAAAAGGAACAACTTTTACATTAAGATTCGGCCGGGAGAGTTTGAACAATTTGAAAGCACCATTGGGTTTAAGCTGCCAAACCATCGAGCTGCTAAGCGTTTATGGAAAGTGTGTGTGGAGCACCATACGTTTTTCAGACTACTACTACCGGAAGCACCTCCAAAGAAATTCCTCACCTTGGGTTCCAAGTTCCGGTACAGCGGCCGGACACAAGCGCAGACGAGGAGAGCCAGTGCGCTGATAGACCGCCCTGCGCCTTACTTCGAACGCTCCTCCAGCAAGCGCTACACCATGTCACGCAGCTTGGATGGAGCATCAGTGAATGAAAACCATGAAATGTACATGAAGGATTCTGTGTCTGCTGCAGAGGTTGGTACTGGCCAGTACGCCACGACAAAGGGCATCTCTCAGACCAACCTGATCACCACTGTGACTCCGGAGAAAAAGGCGGAGGAGGAGCGTGACGAGGAGGAGGACAGAGGGAGGAAGGCCGAGGAGGCCACGCCTGTGTCTGCGATCCGGCACGAGGGAAAGTCACCCAGGCTTGGCACTGATTCATGTCCCTTGTCACCTCCATCCGCCCCTCCCGACCCCGCATCCCCCCCAGAGCTCCGTAGGAGGTGTAAGGAGAATGAACACAAAGCACCGGGCTTCGAGGTGCCCCGAGCGGAGCCCGCGCCGGAAGAGCCCACGGTGGAGGCGTGCCCCGGGGACCGAGACGCGGCCTTCCGCTGCAGGCGGCCCGCCAGCAAGGGCGCCACCCTGTTCTCCTTCTCCTTGCAGCTCCCCGAGTGCTTCCCATCGCTGCTCGATGACGACGGGTACCTCTCTTTCCCCAGCCTGTCCGAGACCAGCCTCCTGCCTCAGAGCCTGCAGCATTACCTCCCGATCCGCTCGCCCTCCCTCGTGCCCTGCTTCCTCTTCATCTTCTTCTTCCTGCTCTCCGCCTCCTTCTCAGTGCCATCCGCCCTCACGCTCTCCTTCCCTCTGGCTCTGAGCCTCTGCTACCTGGAGCCCAAGGCGGCCTCCTTGAGCGCCTCCCTAGACAGTGACCCGAGTGACAGTTCAGAGGAAGAGACAGACAGCGAGCGCACAGACACCGCGGCTGACGGGGAGACCACTGCCACTGAGTCAGACCAGGAGGAAGATGCAGAGCTCAAGGCACAGAATAGTCTGATTAAGCGAATAAAGGGTGAAAATGTGTATGTCAAACATAGTAACCTTATGTTAGAGGAGCTAGATAAAACCCAAGATGAACTGATGAAACATCAAACCAACATTAGTGAGCTGAAAAGAACGTTCTTAGAGACCTCCACAGAGACTGCCGTATCGAGCGAGTGGGAGAAGAGGCTTTCTACCTCCCCCGTGCGGCTTGCGGCCAGGCAGGAGGACGCTCCCATGATCGAGCCCCTCATGCCTGAAGAGACTAAGCAGTCTTCTGGAGAAAAGCTCATGGACGGCTCTGAAATCCTCAGTTTATTAGAGTCGGCACGCAAGCCCACAGAGTTCATAGGCGGGGTGACTTCCACTTTGCAGAGCTGGGTGCAGAAGGTGGAAACCAAGACAGAGTCCAGCGAAGCAGAGACGGAAACGACCCCGCAGCCCCAGCCGCTCGGCACCGAGAAGCTGGTGCAGGAGACCATGCTGGTGGAGGAGCGGCGCGTGATGAAAGTGCATGCGAGCGGGGATGCTTCTCACACCGCGGAGGACAAGGCAGAGACTGCAGCACAGCCTGTGCCCAGCGGTGCTCCTGGCGTGAAGGGGAAGGAGGTCGCCAAAGAGGAGAGAGGGACGGAGGCCGAGAGACCTGACCTAGGACAGGATGACATAGCCACTGCCTCCCACAAGCAAGAGGAGGACCGGGGAGCCGCCGTCCACGTTTCTGAAGCCCCGGAGCCAAAGGCTCATTTCGAGTCGTCAGCCACGAAGACGGAAACCATCAGTTTTGGCGGTGTTTCCCCAGGAGGTGTCAAACTAGAAATTTCTACCAAGGAAGTGCCAGTAGTTCACACGGAGACAAAAACCATCACGTACGAATCATCACAGGTCGATCCTGGAGCTGATCTGGAGCCAGGCGTGCTGATGAGTGCCCAGACCATCACGTCGGAGACCACCAGCACCACTACCACCACGCACATCACCAAAACTGTGAAGGGAGGCATCTCGGAGACGAGGATTGAGAAGAGAATCGTCATCACGGGAGACGCCGACATCGACCACGACCAGGCGCTGGCTCAGGCAATTAAAGAAGCCAAAGAGCAGCACCCTGACATGTCAGTAACCAAAGTAGTGGTCCATAAAGAGACAGAGATCACACCGGAAGACGGAGAGGATTGA
Epb41l3 erythrocyte membrane protein band 4.1-like 3, transcript variant X6
Length: 3369 bp Location: 15192106..15092708 Strand: ->XM_004853211.1 ATGACGACCGAATCGGGATCAGACTCGGAGTCCAAGCCGGAGCAGGAGGCGGCGCCCCAGGAGGCGGTGGGGGCGCAGAGCCGTTCGGGGGCGCAGCACGAGGAGCCCCCCAGCGGGGGCGGCACAGAGCCCGGGGCTCCGGAGCAGTTCCAGGGCGCGGTGGCGCACAGCACCCCGGTGCGCAGGCAGGTCACCGACAAGGAGCAGGAGTTTGCTGCGGCAGCTGCCAAACAGCTCGAGTATCCGCAGTTCGAAGACGATAAACTCTCTCAGAGGTCCTCCAGCAGCAAACTCTCCCGGTCGCCTTTAAAGATCGTCAAGAAGCCCAGAAGTATGCAGTGCAAGGTGGTCCTCCTGGATGGCTCGGAGTACACCTGCGAGGTGGAGAAACGCTCCCGAGGGCAAGTGCTGTTTGACAAAGTGTGCGAGCACCTGAACCTGCTGGAGAAGGACTACTTTGGCCTCACGTACCGCGATGCCGAGAACCAGAAGAATTGGTTGGACCCTGCTAAGGAAATTAAAAAACAGATTCGAAGTGGCGCTTGGCACTTTTCATTTAATGTGAAGTTTTACCCACCAGACCCTTCCCAGCTCTCTGAAGATATAACCAGGTACTACCTCTGCCTCCAGCTACGCGATGACATCGTGTCTGGACGGCTGCCTTGCTCCTTCGTGACCCTCGCCCTGCTGGGCTCCTACACGGTCCAGTCAGAACTTGGAGACTACGACCCTGACGAGTGTGGCAGTGATTACATCAGCGAGTTCCGCTTTGCCCCGAACCACACGAAGGAGCTGGAGGATAAGGTGGTTGAGCTGCACAAGAGCCACAGAGGAATGACACCAGCGGAAGCAGAAATGCATTTCTTGGAAAACGCCAAAAAGCTCTCCATGTATGGGGTAGATTTACATCATGCCAAGGACTCAGAAGGAGTAGAAATCATGTTAGGAGTCTGTGCGAGTGGTCTGTTGATATATCGTGACCGACTGCGAATAAACAGATTTGCCTGGCCCAAGGTTCTGAAAATCTCATACAAAAGGAACAACTTTTACATTAAGATTCGGCCGGGAGAGTTTGAACAATTTGAAAGCACCATTGGGTTTAAGCTGCCAAACCATCGAGCTGCTAAGCGTTTATGGAAAGTGTGTGTGGAGCACCATACGTTTTTCAGACTACTACTACCGGAAGCACCTCCAAAGAAATTCCTCACCTTGGGTTCCAAGTTCCGGTACAGCGGCCGGACACAAGCGCAGACGAGGAGAGCCAGTGCGCTGATAGACCGCCCTGCGCCTTACTTCGAACGCTCCTCCAGCAAGCGCTACACCATGTCACGCAGCTTGGATGGAGCATCAGTGAATGAAAACCATGAAATGTACATGAAGGATTCTGTGTCTGCTGCAGAGGTTGGTACTGGCCAGTACGCCACGACAAAGGGCATCTCTCAGACCAACCTGATCACCACTGTGACTCCGGAGAAAAAGGCGGAGGAGGAGCGTGACGAGGAGGAGGACAGAGGGAGGAAGGCCGAGGAGGCCACGCCTGTGTCTGCGATCCGGCACGAGGGAAAGTCACCCAGGCTTGGCACTGATTCATGTCCCTTGTCACCTCCATCCGCCCCTCCCGACCCCGCATCCCCCCCAGAGCTCCGTAGGAGGTGTAAGGAGAATGAACACAAAGCACCGGGCTTCGAGGTGCCCCGAGCGGAGCCCGCGCCGGAAGAGCCCACGGTGGAGGCGTGCCCCGGGGACCGAGACGCGGCCTTCCGCTGCAGGCGGCCCGCCAGCAAGGGCGCCACCCTGTTCTCCTTCTCCTTGCAGCTCCCCGAGTGCTTCCCATCGCTGCTCGATGACGACGGGTACCTCTCTTTCCCCAGCCTGTCCGAGACCAGCCTCCTGCCTCAGAGCCTGCAGCATTACCTCCCGATCCGCTCGCCCTCCCTCGTGCCCTGCTTCCTCTTCATCTTCTTCTTCCTGCTCTCCGCCTCCTTCTCAGTGCCATCCGCCCTCACGCTCTCCTTCCCTCTGGCTCTGAGCCTCTGCTACCTGGAGCCCAAGGCGGCCTCCTTGAGCGCCTCCCTAGACAGTGACCCGAGTGACAGTTCAGAGGAAGAGACAGACAGCGAGCGCACAGACACCGCGGCTGACGGGGAGACCACTGCCACTGAGTCAGACCAGGAGGAAGATGCAGAGCTCAAGGCACAGAATAGTCTGATTAAGCGAATAAAGGGTGAAAATGTGTATGTCAAACATAGTAACCTTATGTTAGAGGAGCTAGATAAAACCCAAGATGAACTGATGAAACATCAAACCAACATTAGTGAGCTGAAAAGAACGTTCTTAGAGACCTCCACAGAGACTGCCGTATCGAGCGAGTGGGAGAAGAGGCTTTCTACCTCCCCCGTGCGGCTTGCGGCCAGGCAGGAGGACGCTCCCATGATCGAGCCCCTCATGCCTGAAGAGACTAAGCAGTCTTCTGGAGAAAAGCTCATGGACGGCTCTGAAATCCTCAGTTTATTAGAGTCGGCACGCAAGCCCACAGAGTTCATAGGCGGGGTGACTTCCACTTTGCAGAGCTGGGTGCAGAAGGTGGAAACCAAGACAGAGTCCAGCGAAGCAGAGACGGAAACGACCCCGCAGCCCCAGCCGCTCGGCACCGAGAAGCTGGTGCAGGAGACCATGCTGGTGGAGGAGCGGCGCGTGATGAAAGTGCATGCGAGCGGGGATGCTTCTCACACCGCGGAGGACAAGGCAGAGACTGCAGCACAGCCTGTGCCCAGCGGTGCTCCTGGCGTGAAGGGGAAGGAGGTCGCCAAAGAGGAGAGAGGGACGGAGGCCGAGAGACCTGACCTAGGACAGGATGACATAGCCACTGCCTCCCACAAGCAAGAGGAGGACCGGGGAGCCGCCGTCCACGTTTCTGAAGCCCCGGAGCCAAAGGCTCATTTCGAGTCGTCAGCCACGAAGACGGAAACCATCAGTTTTGGCGGTGTTTCCCCAGGAGGTGTCAAACTAGAAATTTCTACCAAGGAAGTGCCAGTAGTTCACACGGAGACAAAAACCATCACGTACGAATCATCACAGGTCGATCCTGGAGCTGATCTGGAGCCAGGCGTGCTGATGAGTGCCCAGACCATCACGTCGGAGACCACCAGCACCACTACCACCACGCACATCACCAAAACTGTGAAGGGAGGCATCTCGGAGACGAGGATTGAGAAGAGAATCGTCATCACGGGAGACGCCGACATCGACCACGACCAGGCGCTGGCTCAGGCAATTAAAGAAGCCAAAGAGCAGCACCCTGACATGTCAGTAACCAAAGTAGTGGTCCATAAAGAGACAGAGATCACACCGGAAGACGGAGAGGATTGA
Epb41l3 erythrocyte membrane protein band 4.1-like 3, transcript variant X5
Length: 3369 bp Location: 15176874..15092708 Strand: ->XM_004853210.1 ATGACGACCGAATCGGGATCAGACTCGGAGTCCAAGCCGGAGCAGGAGGCGGCGCCCCAGGAGGCGGTGGGGGCGCAGAGCCGTTCGGGGGCGCAGCACGAGGAGCCCCCCAGCGGGGGCGGCACAGAGCCCGGGGCTCCGGAGCAGTTCCAGGGCGCGGTGGCGCACAGCACCCCGGTGCGCAGGCAGGTCACCGACAAGGAGCAGGAGTTTGCTGCGGCAGCTGCCAAACAGCTCGAGTATCCGCAGTTCGAAGACGATAAACTCTCTCAGAGGTCCTCCAGCAGCAAACTCTCCCGGTCGCCTTTAAAGATCGTCAAGAAGCCCAGAAGTATGCAGTGCAAGGTGGTCCTCCTGGATGGCTCGGAGTACACCTGCGAGGTGGAGAAACGCTCCCGAGGGCAAGTGCTGTTTGACAAAGTGTGCGAGCACCTGAACCTGCTGGAGAAGGACTACTTTGGCCTCACGTACCGCGATGCCGAGAACCAGAAGAATTGGTTGGACCCTGCTAAGGAAATTAAAAAACAGATTCGAAGTGGCGCTTGGCACTTTTCATTTAATGTGAAGTTTTACCCACCAGACCCTTCCCAGCTCTCTGAAGATATAACCAGGTACTACCTCTGCCTCCAGCTACGCGATGACATCGTGTCTGGACGGCTGCCTTGCTCCTTCGTGACCCTCGCCCTGCTGGGCTCCTACACGGTCCAGTCAGAACTTGGAGACTACGACCCTGACGAGTGTGGCAGTGATTACATCAGCGAGTTCCGCTTTGCCCCGAACCACACGAAGGAGCTGGAGGATAAGGTGGTTGAGCTGCACAAGAGCCACAGAGGAATGACACCAGCGGAAGCAGAAATGCATTTCTTGGAAAACGCCAAAAAGCTCTCCATGTATGGGGTAGATTTACATCATGCCAAGGACTCAGAAGGAGTAGAAATCATGTTAGGAGTCTGTGCGAGTGGTCTGTTGATATATCGTGACCGACTGCGAATAAACAGATTTGCCTGGCCCAAGGTTCTGAAAATCTCATACAAAAGGAACAACTTTTACATTAAGATTCGGCCGGGAGAGTTTGAACAATTTGAAAGCACCATTGGGTTTAAGCTGCCAAACCATCGAGCTGCTAAGCGTTTATGGAAAGTGTGTGTGGAGCACCATACGTTTTTCAGACTACTACTACCGGAAGCACCTCCAAAGAAATTCCTCACCTTGGGTTCCAAGTTCCGGTACAGCGGCCGGACACAAGCGCAGACGAGGAGAGCCAGTGCGCTGATAGACCGCCCTGCGCCTTACTTCGAACGCTCCTCCAGCAAGCGCTACACCATGTCACGCAGCTTGGATGGAGCATCAGTGAATGAAAACCATGAAATGTACATGAAGGATTCTGTGTCTGCTGCAGAGGTTGGTACTGGCCAGTACGCCACGACAAAGGGCATCTCTCAGACCAACCTGATCACCACTGTGACTCCGGAGAAAAAGGCGGAGGAGGAGCGTGACGAGGAGGAGGACAGAGGGAGGAAGGCCGAGGAGGCCACGCCTGTGTCTGCGATCCGGCACGAGGGAAAGTCACCCAGGCTTGGCACTGATTCATGTCCCTTGTCACCTCCATCCGCCCCTCCCGACCCCGCATCCCCCCCAGAGCTCCGTAGGAGGTGTAAGGAGAATGAACACAAAGCACCGGGCTTCGAGGTGCCCCGAGCGGAGCCCGCGCCGGAAGAGCCCACGGTGGAGGCGTGCCCCGGGGACCGAGACGCGGCCTTCCGCTGCAGGCGGCCCGCCAGCAAGGGCGCCACCCTGTTCTCCTTCTCCTTGCAGCTCCCCGAGTGCTTCCCATCGCTGCTCGATGACGACGGGTACCTCTCTTTCCCCAGCCTGTCCGAGACCAGCCTCCTGCCTCAGAGCCTGCAGCATTACCTCCCGATCCGCTCGCCCTCCCTCGTGCCCTGCTTCCTCTTCATCTTCTTCTTCCTGCTCTCCGCCTCCTTCTCAGTGCCATCCGCCCTCACGCTCTCCTTCCCTCTGGCTCTGAGCCTCTGCTACCTGGAGCCCAAGGCGGCCTCCTTGAGCGCCTCCCTAGACAGTGACCCGAGTGACAGTTCAGAGGAAGAGACAGACAGCGAGCGCACAGACACCGCGGCTGACGGGGAGACCACTGCCACTGAGTCAGACCAGGAGGAAGATGCAGAGCTCAAGGCACAGAATAGTCTGATTAAGCGAATAAAGGGTGAAAATGTGTATGTCAAACATAGTAACCTTATGTTAGAGGAGCTAGATAAAACCCAAGATGAACTGATGAAACATCAAACCAACATTAGTGAGCTGAAAAGAACGTTCTTAGAGACCTCCACAGAGACTGCCGTATCGAGCGAGTGGGAGAAGAGGCTTTCTACCTCCCCCGTGCGGCTTGCGGCCAGGCAGGAGGACGCTCCCATGATCGAGCCCCTCATGCCTGAAGAGACTAAGCAGTCTTCTGGAGAAAAGCTCATGGACGGCTCTGAAATCCTCAGTTTATTAGAGTCGGCACGCAAGCCCACAGAGTTCATAGGCGGGGTGACTTCCACTTTGCAGAGCTGGGTGCAGAAGGTGGAAACCAAGACAGAGTCCAGCGAAGCAGAGACGGAAACGACCCCGCAGCCCCAGCCGCTCGGCACCGAGAAGCTGGTGCAGGAGACCATGCTGGTGGAGGAGCGGCGCGTGATGAAAGTGCATGCGAGCGGGGATGCTTCTCACACCGCGGAGGACAAGGCAGAGACTGCAGCACAGCCTGTGCCCAGCGGTGCTCCTGGCGTGAAGGGGAAGGAGGTCGCCAAAGAGGAGAGAGGGACGGAGGCCGAGAGACCTGACCTAGGACAGGATGACATAGCCACTGCCTCCCACAAGCAAGAGGAGGACCGGGGAGCCGCCGTCCACGTTTCTGAAGCCCCGGAGCCAAAGGCTCATTTCGAGTCGTCAGCCACGAAGACGGAAACCATCAGTTTTGGCGGTGTTTCCCCAGGAGGTGTCAAACTAGAAATTTCTACCAAGGAAGTGCCAGTAGTTCACACGGAGACAAAAACCATCACGTACGAATCATCACAGGTCGATCCTGGAGCTGATCTGGAGCCAGGCGTGCTGATGAGTGCCCAGACCATCACGTCGGAGACCACCAGCACCACTACCACCACGCACATCACCAAAACTGTGAAGGGAGGCATCTCGGAGACGAGGATTGAGAAGAGAATCGTCATCACGGGAGACGCCGACATCGACCACGACCAGGCGCTGGCTCAGGCAATTAAAGAAGCCAAAGAGCAGCACCCTGACATGTCAGTAACCAAAGTAGTGGTCCATAAAGAGACAGAGATCACACCGGAAGACGGAGAGGATTGA
Tmem200c transmembrane protein 200C
>XM_004853310.1 ATGATCGCCACCGGCGGCCTGCTGAGGATTTCCGCCCGCAAGCAGGATCCCCTGCGCCCCCCGGGCCAGGTGCCCAAGCGCAAGCGCAAGGCCAAGAAGAGGCGCAAGAACGACGTGGTGGTGGTGAAAGGCAAGCTGAAGCTGTGCTCCGTCTCGGGGCTCATCGCCCTGTGCGGAATCCTGGTGCTGCTGGTGGGGATCGCCCTGGCCGTGGTGGGCTACTGGCCCAAAGCTGGGGGGGCCGCAGGGGAGGGGGCCAGGCAGCTGCCCCCCGCGGGCCCTGAGCACCGCGCCCTGGCCAGCGGCAGCGGCCGCGCCCCGCCTAGGAGCGCCTCGGGGGACGCCCCCTCCAGCTCGGAAAGTGTGCCCCGAAGCACGCACGCGCCCGCTCCGTCCTCGCCCGCGCCCGCGGGCTTCTTCTTCCGCGTCTTCTCGGGCTACCTGCACTCTGACAAGCTCAAGGTCTTCGGGCCCCTCATCATGGGCATCGGCATCTTCCTCTTCATCTGCGCCAACGCCGTGCTGCACGAGAACCGCGACAAGAAGACCAAGGTCATCAACCTGCGGGACCTCTACTCCACTGTCATCGACGTGCACAGCCTCCGTGCCAAGGACCCGGACGCCGCCGCCGCCGCGCCCCCGGGGCCCGCGCCGCTCAACGGCTTCCCGGGCCGCGTGCAACTGCGCGGCCTGGAGCGGACGCCGGCGCTGCTGGCCCGCGGCGCCTGGCGCCCCCGCGCGGCGTCCCCGGCAGACCTGGCCTCGTCCCCCCGCCGCCCGCCCGAGCCCCCGAGCCTGGCTGAGGCGGTGTACAGCATCTGCCGCGAGCGTGCCGGTGTGGCCGGCCGCCCCCAGACCGCGGCGCCCCCGGCCGCCAGCGGCTGCAGCAGCCCGGCGCCCTGCAGCCCGCCCGGGAGCTGGGGACGCCCGAGCACTGCCAGCTCGCTCGTGGGCTCCTCGCTGAGCGCTTTCGCGCTGCTGCCCTTGCCCGGGGACCGCGAGCGAGACGGGGACGCGGAGGGCGCGAGCTGCAGCTGGCGGAAGTCGCCCTGGGAGCGAGGCCCCCGGGAGCTCCCGCGGGGCGGCGCCCTCGACCTGAGCCTGGCCGACCTCCGCGGCGCCGAGGGCGGCGCTCCCTGGGCGCACGGCGCGCTGGGGAAGCCAGAGAGCGGGGGCCAGGGCGGCCGCCTGCCCAGGACCGGCAGGTACGCAGCCCTGCGGCGCCGCAGCACCAGCGGGCTCCCGGACTACCGTGCCCCGCCGTCGCCGGAGACCCCGCCTTCCCCGAGGGGCGCGGACCCCGGCTCCGCCCATCCCGACGCAGCCTCCTCCCCCTCGCCTCCCCCGCACCTGGAGGAATCGCCCGGGGCCAGCAGGCGGGACTCGCAGAGCTCACAATCGGACGACCCGTCCGCCAGCAGCAATAAGGGCTACACCCCCCTGCGGGAGGCCGGCACCTCCATGGAGTCGGTGGTGGACTCAGCGGACAGCCTCAGGCAAGACTGTGCAGCCGCCTCCGATGTGGGGGGCGAGCAGCACCTCCCTGAGGGTTCAGGCCGAGAGCCGCCCAAGGCCGAGCCACCCCACCCGGTGCAGAGGCAGTTTACAAACAAGGAGAAACTCTTCATGATCTCCCGGTCTCACGCCGTGGGGGCAGAAGAAAGCCCCGGGGACTAG
unclassified transcription discrepancy mRNA
Length: 681 bp Location: 15694638..15591739 Strand: ->XM_004921117.1 ATGAACCAGTGCTGTTGGCTGACCACGTTCAGACATAAATTTGAAAAAGAATCAATGCTTCATGATCATCTGGGAGAACAAACCTCTGCAAATCTGGAAGCAAGCTGCACACTCAAAACTGGAAACCACTGTAGTATAAACNTCAGTGGAAAATATGAAAAGGGGAACACTCACCCTCGATTTGTACAGCAGGCAAAGTGGTTGAAAATCAAAGGAAAAGAAGATATTGGCTTGGATAATCTCTTCAGAGTTTTAATTAGCCACCCTGCTGGGCTTGAGTTTGAAATCCTCTTGGCTCACAGTGTACTCCATCAATCCCCCAGTGTTCATGACCTCTATGCCGCCTACCCTCTCTGGGACCTTCCCCTGGACAGGGAGCAACGCTGCAAGCTGCTTCCAGGGNTGGCTGATGTCCAGGCTGCCCAAGAGGCCCGATGGACAGTGGATGAGGTGGCTGAGTTTGTACAGTCTCTTCTAGGCTGTGAAGAGCATGCCAAGAGCTTCAAGAAAGAGCAAATCGATGGCAAAGCCTTCCTGCTTCTGACCCAGTCGGACATCGTCCAGGTCGTAAAGATCAACCTGAGCCCTGCGCTGAAGATCTACAATTCCATCCCAATGTTCAGGAGCTCCCAGGACCAAGCGGAAGATGAAGCTGCTTTGGGCCAGGACCCCAGGGGATAA
LOC101705550 40S ribosomal protein S4, X isoform-like
Length: 777 bp Location: 15830643..15831433 Strand: +>XM_004853212.1 ATGGCTCGTGGTCCTAAGAAGCATCTGAAGCGGGTAGCAGCTCCAAAGCATTGGATGCTGGATAAATCGACCGGTGTGTTTGCTCCTCGTCCATCCACCGGTCCCCACAAGCTGAGAGAATGTCTGCCTCTTATCATTTTCCTAAGGAACAGACTTAAGTCTGCCCTGACTGGTGATGAAGTAAAGAAGATTTGCATGCACCGTTTCATTAAGATTGATGGCAAAGTCCGAACTGAAATAACTTACCCTGCTGGTTTTATGGATGTTATCAGCATTGACAAGACTGGAGAGAATTTCCGACTGATCTATGACACCAAGGGTCGCTTTGCTATTCACCGCATTACACCAGAGGAGGCCCAGTATAAGTTATGCAAAGTAAGAAAGATCTTTGTGGGCACAAAAGGAATCCCACATCTGGTGACCCATGATGCTCGCACCATTCGCTACCCAGATCCCCTCATCAAGGTGAATGACACCATCCAGATTCATTTGGATACTGGCAAGATTACCAACACTAGTAACCTGTGTATGGTGACTGGAGGTGCCAACTTGGGAGGGATTGGTGTGATCACCAACGGGGAGAGACATCCTGGCTCTTTTGATGTGGTTCATGTGAAAGATACCAATGGCAACAGCTTTGCTACCCGGCTCTCCAACATTTTTGTCATTGGCAAAGGCAACAAACCATGGATTTCTCTTCCCCGAGGAAAGGGAATCCGTCTTACCATTGCCGAAGAGAGAGACAAGAGGCTGGCGGCCAAACAGAGCAGTGGGTGA
Arhgap28 Rho GTPase activating protein 28, transcript variant X1
Length: 2190 bp Location: 16179308..16342175 Strand: +>XM_004853213.1 ATGGAAGTGGAGGACTCGGGCGGCGTGGTGCTGACTGCCTACCACTCGTACGCGCGCTCGCAGCCGCCCGCCTCCGACGCGCGCTGCGCGCCCCGGGCCGCCGCCAGCCACCCGCTGAGCAGAAAATCTATTCCCCGCTGCCGAAGAATTAACAGGATGCTGTCCAACGAATCCCTACACCCTCCAGCCTTCAGCCGCTCCAACTCACAGGCCTCCGTAGACAGCGCATCCATGGAGGATTTCTGGCGGGAAATAGAAAGCATCCATGAGAGCAGTACTGGAGCGCGGGGGGAAGAGCTGCCCTCCGAGATCAAGCCGGTGGATGAAGGGGAGCTGGAAGCAGAGTGGCTTCAAGACGTGGGGCTGTCAACTCTGATCTCTGGGGAGGAAGAGGAAGACGGCAAAGCCCTGCTCTCCACATTGACTCGAACCCAGGCAGCCGCAGTGAAGAAGAGGTACAACACCTACACCCAGACTCTTCGGAAGAAGAGCAAGCAGCCCGTGAGGGACGTCAGGGACGTCTTTGGGGTCAGCAAGGCTCTGCCGGATGCTTCTTGTGACGAGCATACCACGCAGCTGGATGGCACCCCGGAAGAAAAGCAGCTACCAGAAGTCATCAACACAAGTGATCCAATGCCGCAGGATGCGCCTCTGGACAGCCCTGCCCTGTGCAACGGGCCGCGGGAGGAGGAGGGGAGCCTTTCGGACCCTGGGAGCAGCTCCACGTCGATCCTCGGGCCCATCCCGGATGTACCCATCCACGCCAACGGGTCCACGGAGCCGGGGCAGGCTGTTCCGAGCACGCTGAGCGACAATGACTATCTGGGAAAGAACATTCCAGCAGAGGCTGAGGAGCTGTCCTTTGAAGTGTCATACTCAGAACTGGTGACAGAGGCTCCAAAAAGAAACAAATTGAAGAAATCAGAGATTAAGAAAGAAGACTACGCTTTAACTAAATTTATTGTTCAGAAGACCAGATTTGGGCTCACTGAAGCAGGAGACCTGTCAGCAGAAGACATGAAGAAGATCCGCCACCTCTCTCTGATCGAGCTGACTGCCTTTCTTGATGCCTTTGGAATTCAACTGAAAAGAAACAAAACAGAGAAAGTAAAAGGACGAGACAATGGGATCTTTGGAGTTCCACTTACCGTGCTCCTGGACAATGACCACAAGAAAGACCCTGCGGTGAAAGTTCCCCTTATATTACAGAAATTCTTTGAGAAAGTTGAGGAGTCAGGTCTGGAATCCGAAGGAATCTTTCGGCTTTCAGGATGTACTGCCAAAGTCAAGCAATACCGTGAAGAGCTGGATACCAAGTTCAATGCCGATAAATTTAAATGGGACAAAATGTGCCACAGAGAAGCTGCAGTGATGCTGAAAGCATTTTTCCGAGAACTGCCAACCTCTCTCTTCCCTGTGGAATACATACCTGCCTTCGTCGCCCTGATGGAAAGAGGGTCCCACATCAGAGTGCAGCTTCAGGCCTTGCACCTCATGGTCATGGCGCTGCCGGATGCCAACAGGGACACGGCCCAGGCCCTCATGACGTTCTTCAATAAAGTGATAGCCAACGAATCCAAAAACCGCATGAGTGTGTGGAACATCTCCACGGTGATGGCACCCAACCTCTTCTTCAGCCGGGGCAAGCACTCCGACTGTGAGGAGCTGTTGCTGGCCAACACTGCAGCCCACATCCTCCGCCTGATGCTGAAGTACCAGAAGATCCTGTGGAAGGTTCCATCTTTCCTTATCACCCAAGTCCGCAGGATGAACGAAGCCACAATGCTGTTGAAGAAGCAACTCCCAAGCATGAAGAAGCTGCTCAGGAGGAAGACCATGGAGCGGGAGGTTGCAAACCCCAAGGCCTCAAAGGTACTACAAAAGTCACCTTCTGCCAGAAGAATGTCTGATGTGCCGGAAGGAGTCATAAGGGTCCACGCCCCGCTTTTCTCCAAGGTGTCCATGGCCATTCAACTGAACAGTCACACCAAAGCCAAAGACATACTGGCCAAATTCCAGTTTGAGAACAGCCATGGCTCATCAGAATGTATTAAGATTCAGAACCAAAGGTTATATGAAATTGGAGGAAATATAGGACAGCATTGCTTGGATCCAGATGCATACGTATTGGATGTATATCGTGTAAATCCTCATGCAGAATGGGTCATTAAGCCAGAACCAAGTCCTTGA
Arhgap28 Rho GTPase activating protein 28, transcript variant X4
Length: 2034 bp Location: 16241667..16342175 Strand: +>XM_004853216.1 ATGCTGTCCAACGAATCCCTACACCCTCCAGCCTTCAGCCGCTCCAACTCACAGGCCTCCGTAGACAGCGCATCCATGGAGGATTTCTGGCGGGAAATAGAAAGCATCCATGAGAGCAGTACTGGAGCGCGGGGGGAAGAGCTGCCCTCCGAGATCAAGCCGGTGGATGAAGGGGAGCTGGAAGCAGAGTGGCTTCAAGACGTGGGGCTGTCAACTCTGATCTCTGGGGAGGAAGAGGAAGACGGCAAAGCCCTGCTCTCCACATTGACTCGAACCCAGGCAGCCGCAGTGAAGAAGAGGTACAACACCTACACCCAGACTCTTCGGAAGAAGAGCAAGCAGCCCGTGAGGGACGTCAGGGACGTCTTTGGGGTCAGCAAGGCTCTGCCGGATGCTTCTTGTGACGAGCATACCACGCAGCTGGATGGCACCCCGGAAGAAAAGCAGCTACCAGAAGTCATCAACACAAGTGATCCAATGCCGCAGGATGCGCCTCTGGACAGCCCTGCCCTGTGCAACGGGCCGCGGGAGGAGGAGGGGAGCCTTTCGGACCCTGGGAGCAGCTCCACGTCGATCCTCGGGCCCATCCCGGATGTACCCATCCACGCCAACGGGTCCACGGAGCCGGGGCAGGCTGTTCCGAGCACGCTGAGCGACAATGACTATCTGGGAAAGAACATTCCAGCAGAGGCTGAGGAGCTGTCCTTTGAAGTGTCATACTCAGAACTGGTGACAGAGGCTCCAAAAAGAAACAAATTGAAGAAATCAGAGATTAAGAAAGAAGACTACGCTTTAACTAAATTTATTGTTCAGAAGACCAGATTTGGGCTCACTGAAGCAGGAGACCTGTCAGCAGAAGACATGAAGAAGATCCGCCACCTCTCTCTGATCGAGCTGACTGCCTTTCTTGATGCCTTTGGAATTCAACTGAAAAGAAACAAAACAGAGAAAGTAAAAGGACGAGACAATGGGATCTTTGGAGTTCCACTTACCGTGCTCCTGGACAATGACCACAAGAAAGACCCTGCGGTGAAAGTTCCCCTTATATTACAGAAATTCTTTGAGAAAGTTGAGGAGTCAGGTCTGGAATCCGAAGGAATCTTTCGGCTTTCAGGATGTACTGCCAAAGTCAAGCAATACCGTGAAGAGCTGGATACCAAGTTCAATGCCGATAAATTTAAATGGGACAAAATGTGCCACAGAGAAGCTGCAGTGATGCTGAAAGCATTTTTCCGAGAACTGCCAACCTCTCTCTTCCCTGTGGAATACATACCTGCCTTCGTCGCCCTGATGGAAAGAGGGTCCCACATCAGAGTGCAGCTTCAGGCCTTGCACCTCATGGTCATGGCGCTGCCGGATGCCAACAGGGACACGGCCCAGGCCCTCATGACGTTCTTCAATAAAGTGATAGCCAACGAATCCAAAAACCGCATGAGTGTGTGGAACATCTCCACGGTGATGGCACCCAACCTCTTCTTCAGCCGGGGCAAGCACTCCGACTGTGAGGAGCTGTTGCTGGCCAACACTGCAGCCCACATCCTCCGCCTGATGCTGAAGTACCAGAAGATCCTGTGGAAGGTTCCATCTTTCCTTATCACCCAAGTCCGCAGGATGAACGAAGCCACAATGCTGTTGAAGAAGCAACTCCCAAGCATGAAGAAGCTGCTCAGGAGGAAGACCATGGAGCGGGAGGTTGCAAACCCCAAGGCCTCAAAGGTACTACAAAAGTCACCTTCTGCCAGAAGAATGTCTGATGTGCCGGAAGGAGTCATAAGGGTCCACGCCCCGCTTTTCTCCAAGGTGTCCATGGCCATTCAACTGAACAGTCACACCAAAGCCAAAGACATACTGGCCAAATTCCAGTTTGAGAACAGCCATGGCTCATCAGAATGTATTAAGATTCAGAACCAAAGGTTATATGAAATTGGAGGAAATATAGGACAGCATTGCTTGGATCCAGATGCATACGTATTGGATGTATATCGTGTAAATCCTCATGCAGAATGGGTCATTAAGCCAGAACCAAGTCCTTGA
LOC101708671 ras-related protein Rab-12-like
Length: 678 bp Location: 17636044..17654863 Strand: +>XM_004853220.1 ATGGAGAGGCGGGCCGCGGGCGCCCAGCCCCGGCGCAGGAAGCAGCCGCCGCGGCCGGCCGACTTCAAGCTGCAGGTCATCATCATCGGCTCGCGCGGCGTGGGCAAGACCAGCCTGATGGAGCGCTTTACCGACGACACCTTCTGCGAGGCCTGCAAGTCCACCGTGGGTGTTGACTTCAAAATAAAAACTGTAGAGCTAAGAGGAAAGAAGATCAGATTACAGATCTGGGACACGGCAGGTCAGGAGAGATTCAACAGCATTACCTCAGCCTACTACAGAAGTGCCAAGGGGATCATCCTTGTGTACGACATCACTAAGAAGGAGACCTTCGACGACTTGCCCAAGTGGATGAAGATGATCGACAAGTACGCTTCCGAGGACGCTGAGCTCCTCCTGGTGGGAAACAAGCTGGACTGCGAGGTGGACCGGGAGATCAGCCGGCAGCAGGGAGAGAAGTTTGCACAGCAGGTAACCGGGATGCGATTCTGCGAAGCTAGCGCCAAGGACAACTTCAATGTGGACGAGATCTTCCTGAAGCTGGTCGGCGACATCCTGAAGAAGATGCCACTGGATGTGCTTCGGAATGAGCTGTCCAACAGCATCCTCTCCCTGCAGCCGGAGCCTGAGGTCCCGCCCGAGCTGCCCCCACCTCGGCCGAATGTGCGGTGCTGCTGA
Arhgap28 Rho GTPase activating protein 28, transcript variant X3
>XM_004853215.1 ATGCCGAAAGGACTCCTAAAATCTATTCCCCGCTGCCGAAGAATTAACAGGATGCTGTCCAACGAATCCCTACACCCTCCAGCCTTCAGCCGCTCCAACTCACAGGCCTCCGTAGACAGCGCATCCATGGAGGATTTCTGGCGGGAAATAGAAAGCATCCATGAGAGCAGTACTGGAGCGCGGGGGGAAGAGCTGCCCTCCGAGATCAAGCCGGTGGATGAAGGGGAGCTGGAAGCAGAGTGGCTTCAAGACGTGGGGCTGTCAACTCTGATCTCTGGGGAGGAAGAGGAAGACGGCAAAGCCCTGCTCTCCACATTGACTCGAACCCAGGCAGCCGCAGTGAAGAAGAGGTACAACACCTACACCCAGACTCTTCGGAAGAAGAGCAAGCAGCCCGTGAGGGACGTCAGGGACGTCTTTGGGGTCAGCAAGGCTCTGCCGGATGCTTCTTGTGACGAGCATACCACGCAGCTGGATGGCACCCCGGAAGAAAAGCAGCTACCAGAAGTCATCAACACAAGTGATCCAATGCCGCAGGATGCGCCTCTGGACAGCCCTGCCCTGTGCAACGGGCCGCGGGAGGAGGAGGGGAGCCTTTCGGACCCTGGGAGCAGCTCCACGTCGATCCTCGGGCCCATCCCGGATGTACCCATCCACGCCAACGGGTCCACGGAGCCGGGGCAGGCTGTTCCGAGCACGCTGAGCGACAATGACTATCTGGGAAAGAACATTCCAGCAGAGGCTGAGGAGCTGTCCTTTGAAGTGTCATACTCAGAACTGGTGACAGAGGCTCCAAAAAGAAACAAATTGAAGAAATCAGAGATTAAGAAAGAAGACTACGCTTTAACTAAATTTATTGTTCAGAAGACCAGATTTGGGCTCACTGAAGCAGGAGACCTGTCAGCAGAAGACATGAAGAAGATCCGCCACCTCTCTCTGATCGAGCTGACTGCCTTTCTTGATGCCTTTGGAATTCAACTGAAAAGAAACAAAACAGAGAAAGTAAAAGGACGAGACAATGGGATCTTTGGAGTTCCACTTACCGTGCTCCTGGACAATGACCACAAGAAAGACCCTGCGGTGAAAGTTCCCCTTATATTACAGAAATTCTTTGAGAAAGTTGAGGAGTCAGGTCTGGAATCCGAAGGAATCTTTCGGCTTTCAGGATGTACTGCCAAAGTCAAGCAATACCGTGAAGAGCTGGATACCAAGTTCAATGCCGATAAATTTAAATGGGACAAAATGTGCCACAGAGAAGCTGCAGTGATGCTGAAAGCATTTTTCCGAGAACTGCCAACCTCTCTCTTCCCTGTGGAATACATACCTGCCTTCGTCGCCCTGATGGAAAGAGGGTCCCACATCAGAGTGCAGCTTCAGGCCTTGCACCTCATGGTCATGGCGCTGCCGGATGCCAACAGGGACACGGCCCAGGCCCTCATGACGTTCTTCAATAAAGTGATAGCCAACGAATCCAAAAACCGCATGAGTGTGTGGAACATCTCCACGGTGATGGCACCCAACCTCTTCTTCAGCCGGGGCAAGCACTCCGACTGTGAGGAGCTGTTGCTGGCCAACACTGCAGCCCACATCCTCCGCCTGATGCTGAAGTACCAGAAGATCCTGTGGAAGGTTCCATCTTTCCTTATCACCCAAGTCCGCAGGATGAACGAAGCCACAATGCTGTTGAAGAAGCAACTCCCAAGCATGAAGAAGCTGCTCAGGAGGAAGACCATGGAGCGGGAGGTTGCAAACCCCAAGGCCTCAAAGGTACTACAAAAGTCACCTTCTGCCAGAAGAATGTCTGATGTGCCGGAAGGAGTCATAAGGGTCCACGCCCCGCTTTTCTCCAAGGTGTCCATGGCCATTCAACTGAACAGTCACACCAAAGCCAAAGACATACTGGCCAAATTCCAGTTTGAGAACAGCCATGGCTCATCAGAATGTATTAAGATTCAGAACCAAAGGTTATATGAAATTGGAGGAAATATAGGACAGCATTGCTTGGATCCAGATGCATACGTATTGGATGTATATCGTGTAAATCCTCATGCAGAATGGGTCATTAAGCCAGAACCAAGTCCTTGA
Ptprm protein tyrosine phosphatase, receptor type, M, transcript variant X1
Length: 4440 bp Location: 16953566..17507775 Strand: +>XM_004853218.1 ATGCATCCAGTCCCACCAGTCTACCGTGAAGAAAGCTGGGTGCTAATTGGTGGCTGCCTCTTTGATGAGCCCTACAGCACGTGTGGATATGGTCAAGCCGAGGATGATGACTTCAACTGGGAGCAGGTGAACACTTTGGGCAAGCTGGCTCCTGACCCGTGGATGCCTTCAGGCTCCTTCATGATGGTGAATGGGTCAGGGCGGCATGACGGACAGCGAGCCCACCTGCTGCTCCCTCAGCTGAAGGAGAATGACACTCACTGCATCGATTTCCACTACTTTGTATCCAGCAAGAGCAACTCTGCTCCTGGGTTCCTCAACGTGTACGTGAAGGTCAATAACGGGGCCCTGGGGAGCCCCATCTGGAACCTGTCAGGGGCCCCGACGGGGAGATGGAATCGGGCAGAGCTGGCCATCAGCACCTTCTGGCCTAACTTCTACCAGGTGATTTTTGAAGTGATTACCTCTGGACACCAAGGCTACCTTGCTATTGATGAAGTGAAGGTGCTGGGCCATCCGTGCACCCGGACTCCTCACTTCCTGCGGATCCAGAACGTTGAGGTAAACGCTGGCCAGTCGGCCACCTTCCAGTGCAGCGCGATTGGCAGGACCTCATCCAAGGAGGACAGACTGTGGCTACAGGGCATTGATGTCCCCGATGCTCCGCTGAAGGAAACGAAGGCGACCAGTTCCCGAAGGTTCATAGCTTCCTTTAGTGTTGTGAACACAACCAAACGTGACGCCGGGAAGTACCGCTGCATGATCCGCACTGAAGGAGGCGTTGGGATATCGAACTATGCAGAATTGGTAGTTAAAGAGCCACCGGTCCCCATTGCGCCACCCCAGCTGGCCTCGGTGGGGGCGACCTACCTGTGGATCCAGCTCAACGCCAACTCCATCAACGGCGACGGGCCCATTGTGGCCCGTGAGGTGGAGTACTGCACGGCCAGCGGCAGCTGGAGCGACCGCCAGCCCGTGGACTCCACCAGCTACAAAATCGGGCACCTGGACCCAGACACAGAGTATGAGATCAGCGTGCTGCTCACCAGGCCGGGTGAGGGCGGCACTGGGTCTCCAGGGCCGGCTCTCAGGACCAGAACCAAGTGTGCGGATCCCATGCGTGGGCCAAGAAAACTGGAAGTAGTCGAGGTCAAGTCTCGGCAGATCACCATCCGCTGGGAGCCCTTTGGCTACAATGTGACTCGTTGCCATAGCTACAATCTCACTGTGCACTACTGCTACCAGGTGGGCCGGCAGGAGCAGGTGCGGGAGGAGGTGAGCTGGGACAAGGACAGCGCCCACCCGCAGCACACCATCACCAACCTGGCGCCCTACACCAATGTCAGCGTCAAGCTCATCCTCATGAACCCCGAGGGCCGCAAGGAGAGCCAGGAGCTGGTGGTGCAGACGGACGAGGATGTCCCAGGTGCCGTCCCGACGGAGTCCATCCAAGGAAGCACCTTTGAAGAGAAGATATTTCTCCAGTGGAGGGAACCCACGCAAACCTACGGCGTCATCACGCTGTACGAGATCACCTACAAAGCAGTCAGCTCCTTCGACCCAGAAATTGATTTATCCAATCAAAGTGGAAGAGTTTCAAAACTGGGAAACGAAACCCATTTTCTGTTTTTTGGACTGTATCCAGGGACCACGTACTCCTTTACCATCCGAGCAAGCACAGCGAAGGGCTTCGGGCCCCCAGCCACAAACCAGTTCACCACCAAAATCTCAGCCCCGTCCATGCCAGCCTATGAACTGGAGACGCCTCTGAACCAGACCGACAACACGGTGACTGTCATGCTGAAGCCTGCGCAGAGCAGGGGCGCCCCAGTCAGTGTCTACCAAATAGTCGTTGAGGAAGAACGTCCTCGGAGAACTAAAAAGACAACAGAAATCTTAAAGTGCTACCCGATACCAATCCACTTCCAAAATGCCTCCCTCCTGAACTCACAGTACTACTTTGCTGCCGAGTTTCCGGCAGACAGCATCCAAGCTGCCCAGCCTTTCACTGTCGGTGACAACAAGACCTACAGTGGGTACTGGAACACCCCCCTGCTCCCCCACAAAAGCTACAGAATTTACTTCCAAGCTGCGAGTAGAGCCAATGGGGAAACCAAAATCGACTGTGTTCGAGTGGCCACAAAAGCTGCGATAATCGTGACTCAGCTTACAACTCCTTACATTCGCATCGCCCCTGCTGCAGGCGACGGCCAACTAACAGGTGCTGCCACTCCAAAACCTGCCCCAGAACCCGAGAAACAAACAGACCACACGGTTAAAATTGCGGGAGTCATCGCCGGCATCTTGCTGTTCGTCATTCTCTTCCTCGGAATTGTGTTGGTAATGAAGAAGAGGAAACTGGCCAAGAAGCGGAAGGAGACGATGAGCAGCACCCGCCAGGAGATGACTGTGATGGTGAACTCAATGGACAAGAGCTACGCTGAGCAGGGCACAAACTGTGACGAGGCTTTCTCGTTTGTGGACACGCACAATCTGAATGGGAGATCTGTGTCTTCCCCGTCGTCCTTCACAATGAAGACAAATACGCTGAGCACATCAGTGCCCAACTCCTACTACCCAGACCCATTTGTGCCAACTGCAATTTTAGACGAGACCCACACGATGGCCAGCGACACCAGCAGCCTGGTGCAGTCCCACACGTACAAGAAGCGCGAGGCGGCCGACGTGCCCTACCAGACCGGGCAGCTGCACCCTGCCATCCGCGTGGCGGACCTGCTGCAGCACATCACGCAGATGAAGTGCGCCGAGGGCTACGGCTTCAAGGAGGAATACGAGAGCTTCTTCGAAGGACAGTCTGCACCATGGGACTCCGCTAAGAAAGATGAGAACAGAATGAAGAACAGATACGGGAACATCATTGCATATGATCATTCCCGGGTGAGGTTGCAGACGATCGAAGGAGACACTAACTCAGACTACATCAATGGGAACTACATCGATGGCTATCATCGACCGAATCATTATATTGCTACCCAAGGGCCCATGCAGGAGACCATCTCTGACTTCTGGAGGATGGTGTGGCACGAAAACACGGCAAGCATCATCATGGTGACCAACCTGGTGGAGGTGGGAAGGGTCAAATGTTGCAAATACTGGCCAGACGATACAGAAATATACAAAGACATTAAGGTCACCCTAATAGAAACGGAACTGCTGGCAGAATACGTGATAAGAACATTTGCTGTGGAAAAGCGCGGCGTCCATGAAATCCGAGAGATCAGACAGTTTCACTTCACGGGCTGGCCGGACCACGGGGTCCCCTACCATGCCACCGGGCTGCTGGGATTCGTGCGCCAGGTCAAGTCCAAGAGCCCGCCCAGCGCGGGTCCGCTGGTGGTGCACTGCAGCGCTGGCGCCGGGAGGACCGGCTGCTTCATCGTCATCGACATCATGCTGGACATGGCGGAGCGGGAAGGGGTGGTGGATATCTACAACTGCGTGCGGGAGTTGCGTTCGCGGAGAGTGAACATGGTGCAGACCGAGGAGCAGTACGTGTTTATCCACGATGCCATCCTGGAAGCCTGTCTCTGCGGGGACACCTCCCTCCCTGCCTCCCAGCTCAGGTCTCTGTACTACGACATGAACAAACTGGACCCACAGACGAACTCCAGCCAGATTAAAGAGGAGTTCCGGACCCTCAACATGGTGACGCCGACCCTGCGCGTGGAGGACTGCAGCATTGCGCTCCTGCCCCGGAACCACGAGAAGAACCGCTGCATGGACATCTTGCCTCCAGACCGCTGCCTGCCCTTCCTCATCACCATTGACGGCGAGAGCAGCAACTATATCAACGCTGCCCTGATGGACAGCTACAAACAGCCTTCAGCTTTCATAGTCACCCAGCATCCTTTGCCAAACACAGTCAAAGACTTCTGGAGGTTGGTTCTGGATTACCACTGCACGTCAGTAGTGATGCTGAATGACGTGGACCCCACCCAGCTGTGTCCGCAGTACTGGCCCGAGAACGGCGTGCACAGACACGGCCCCATCCAGGTGGAGTTCGTGTCCGCTGACTTGGAGGAGGACATCATCAGCAGGATATTCCGGATTTATAACGCAGCCAGGCCCCAGGACGGGTACCGCATGGTGCAGCAGTTCCAGTTCCTCGGCTGGCCCCTGTACAGGGACACGCCCGTGTCCAAGCGCTCCTTCCTGAAGCTCATCCGCCAGGTGGCCAAGTGGCAGGAGGGGTACAACGGCGGGGAAGGCCGCACGGTGGCGCACTGCCTGAATGGGGGAGGCCGCAGCGGCACGTTCTGCGCCATCAGCATCGTCTGTGAGATGCTCCGGCACCAGAGAACCGTGGACGTCTTCCACGCCGTCAAGACGCTGCGGAACAACAAGCCCAACATGGTGGACCTCCTGGATCAGTACAAGTTCTGCTACGAGGTGGCCCTGGAGTACTTGAATTCTGGCTGA
Lrrc30 leucine rich repeat containing 30
>XM_004853217.1 ATGGGGGCTGGGAAGTCCAGGGCCAGCGCCAAGGACAAGGACCCCACGAGGATGCTGCTGTCGAGGAGGAGGCAGAAGTTTTCCTCCTGGGATGACGCCCTGCTCTCGGGCAAGGACCCGAGGTCCCTGCTGAAGCGGGGCATGCGCCATGTCAGCTTCAGCCTGGTCACCAAAGGAATGACAGACATCCCCGACTTTCTGTGGGGTTTGTCCGAGGTCCAGAAACTCAACCTGTCCCACAACCAGCTGCGGCTTCTCCCGCCCGAGGTGGGGAAGCTGACTCGGATTGTGGTTCTGAACCTGTGCGGGAACCGGCTCAAGAGTCTGCCCCGGGAACTCAGCCGCCTGCAGAGCCTCAAGGTCCTGTTCGCCAACATGAACTGCCTGGCAGAGGTGCCCGCCGAGCTCAGCCTCTGCAGAAGCCTGGAAGTGCTGAGTCTGTCACACAACTGCCTGTCCCAGCTCCCTGCCAGCCTCGCCGACCTCTCCAGGCTCAGGAAGCTGAACCTCAGCAACAACCACTTCGTCCACATCCCCATCTGCGTGTTCTCCTTGAAGGAGCTGGATTTCCTGCACGTGGGCTCCAATCGCCTGGAAAACATTGCCGAGAGCATCCAGTGCCTGTCCAGCCTGCAGATTTTCATCGCGGAGAACAACAACATCCACTCCTTCCCCAGGTCGCTGTGCCTCGTCTCGAGCCTGGAGCTACTGAATCTGAACAACAACGACATCCAGACCCTCCCGGAGGAGCTTTACCTGCTGTGTAGACTGGGGAGGATTGCCTGGAATCCCATGAACAAAGGGCTCCACATCTCCCATAACCCGTTATCCAAGCCCCTGCCGGAGCTGGTGGAGGGTGGCCTGGAGATGCTCTTCAGCTACTTGAAGGACAAAAAGCACAACTGA
Ptprm protein tyrosine phosphatase, receptor type, M, transcript variant X2
Length: 4338 bp Location: 16953566..17507775 Strand: +>XM_004853219.1 ATGCATCCAGTCCCACCAGTCTACCGTGAAGAAAGCTGGGTGCTAATTGGTGGCTGCCTCTTTGATGAGCCCTACAGCACGTGTGGATATGGTCAAGCCGAGGATGATGACTTCAACTGGGAGCAGGTGAACACTTTGGGCAAGCTGGCTCCTGACCCGTGGATGCCTTCAGGCTCCTTCATGATGGTGAATGGGTCAGGGCGGCATGACGGACAGCGAGCCCACCTGCTGCTCCCTCAGCTGAAGGAGAATGACACTCACTGCATCGATTTCCACTACTTTGTATCCAGCAAGAGCAACTCTGCTCCTGGGTTCCTCAACGTGTACGTGAAGGTCAATAACGGGGCCCTGGGGAGCCCCATCTGGAACCTGTCAGGGGCCCCGACGGGGAGATGGAATCGGGCAGAGCTGGCCATCAGCACCTTCTGGCCTAACTTCTACCAGGTGATTTTTGAAGTGATTACCTCTGGACACCAAGGCTACCTTGCTATTGATGAAGTGAAGGTGCTGGGCCATCCGTGCACCCGGACTCCTCACTTCCTGCGGATCCAGAACGTTGAGGTAAACGCTGGCCAGTCGGCCACCTTCCAGTGCAGCGCGATTGGCAGGACCTCATCCAAGGAGGACAGACTGTGGCTACAGGGCATTGATGTCCCCGATGCTCCGCTGAAGGAAACGAAGGCGACCAGTTCCCGAAGGTTCATAGCTTCCTTTAGTGTTGTGAACACAACCAAACGTGACGCCGGGAAGTACCGCTGCATGATCCGCACTGAAGGAGGCGTTGGGATATCGAACTATGCAGAATTGGTAGTTAAAGAGCCACCGGTCCCCATTGCGCCACCCCAGCTGGCCTCGGTGGGGGCGACCTACCTGTGGATCCAGCTCAACGCCAACTCCATCAACGGCGACGGGCCCATTGTGGCCCGTGAGGTGGAGTACTGCACGGCCAGCGGCAGCTGGAGCGACCGCCAGCCCGTGGACTCCACCAGCTACAAAATCGGGCACCTGGACCCAGACACAGAGTATGAGATCAGCGTGCTGCTCACCAGGCCGGGTGAGGGCGGCACTGGGTCTCCAGGGCCGGCTCTCAGGACCAGAACCAAGTGTGCGGATCCCATGCGTGGGCCAAGAAAACTGGAAGTAGTCGAGGTCAAGTCTCGGCAGATCACCATCCGCTGGGAGCCCTTTGGCTACAATGTGACTCGTTGCCATAGCTACAATCTCACTGTGCACTACTGCTACCAGGTGGGCCGGCAGGAGCAGGTGCGGGAGGAGGTGAGCTGGGACAAGGACAGCGCCCACCCGCAGCACACCATCACCAACCTGGCGCCCTACACCAATGTCAGCGTCAAGCTCATCCTCATGAACCCCGAGGGCCGCAAGGAGAGCCAGGAGCTGGTGGTGCAGACGGACGAGGATGTCCCAGGTGCCGTCCCGACGGAGTCCATCCAAGGAAGCACCTTTGAAGAGAAGATATTTCTCCAGTGGAGGGAACCCACGCAAACCTACGGCGTCATCACGCTGTACGAGATCACCTACAAAGCAGTCAGCTCCTTCGACCCAGAAATTGATTTATCCAATCAAAGTGGAAGAGTTTCAAAACTGGGAAACGAAACCCATTTTCTGTTTTTTGGACTGTATCCAGGGACCACGTACTCCTTTACCATCCGAGCAAGCACAGCGAAGGGCTTCGGGCCCCCAGCCACAAACCAGTTCACCACCAAAATCTCAGCCCCGTCCATGCCAGCCTATGAACTGGAGACGCCTCTGAACCAGACCGACAACACGGTGACTGTCATGCTGAAGCCTGCGCAGAGCAGGGGCGCCCCAGTCAGTGTCTACCAAATAGTCGTTGAGGAAGAACGTCCTCGGAGAACTAAAAAGACAACAGAAATCTTAAAGTGCTACCCGATACCAATCCACTTCCAAAATGCCTCCCTCCTGAACTCACAGTACTACTTTGCTGCCGAGTTTCCGGCAGACAGCATCCAAGCTGCCCAGCCTTTCACTGTCGGTGACAACAAGACCTACAGTGGGTACTGGAACACCCCCCTGCTCCCCCACAAAAGCTACAGAATTTACTTCCAAGCTGCGAGTAGAGCCAATGGGGAAACCAAAATCGACTGTGTTCGAGTGGCCACAAAAGGTGCTGCCACTCCAAAACCTGCCCCAGAACCCGAGAAACAAACAGACCACACGGTTAAAATTGCGGGAGTCATCGCCGGCATCTTGCTGTTCGTCATTCTCTTCCTCGGAATTGTGTTGGTAATGAAGAAGAGGAAACTGGCCAAGAAGCGGAAGGAGACGATGAGCAGCACCCGCCAGGAGATGACTGTGATGGTGAACTCAATGGACAAGAGCTACGCTGAGCAGGGCACAAACTGTGACGAGGCTTTCTCGTTTGTGGACACGCACAATCTGAATGGGAGATCTGTGTCTTCCCCGTCGTCCTTCACAATGAAGACAAATACGCTGAGCACATCAGTGCCCAACTCCTACTACCCAGACGAGACCCACACGATGGCCAGCGACACCAGCAGCCTGGTGCAGTCCCACACGTACAAGAAGCGCGAGGCGGCCGACGTGCCCTACCAGACCGGGCAGCTGCACCCTGCCATCCGCGTGGCGGACCTGCTGCAGCACATCACGCAGATGAAGTGCGCCGAGGGCTACGGCTTCAAGGAGGAATACGAGAGCTTCTTCGAAGGACAGTCTGCACCATGGGACTCCGCTAAGAAAGATGAGAACAGAATGAAGAACAGATACGGGAACATCATTGCATATGATCATTCCCGGGTGAGGTTGCAGACGATCGAAGGAGACACTAACTCAGACTACATCAATGGGAACTACATCGATGGCTATCATCGACCGAATCATTATATTGCTACCCAAGGGCCCATGCAGGAGACCATCTCTGACTTCTGGAGGATGGTGTGGCACGAAAACACGGCAAGCATCATCATGGTGACCAACCTGGTGGAGGTGGGAAGGGTCAAATGTTGCAAATACTGGCCAGACGATACAGAAATATACAAAGACATTAAGGTCACCCTAATAGAAACGGAACTGCTGGCAGAATACGTGATAAGAACATTTGCTGTGGAAAAGCGCGGCGTCCATGAAATCCGAGAGATCAGACAGTTTCACTTCACGGGCTGGCCGGACCACGGGGTCCCCTACCATGCCACCGGGCTGCTGGGATTCGTGCGCCAGGTCAAGTCCAAGAGCCCGCCCAGCGCGGGTCCGCTGGTGGTGCACTGCAGCGCTGGCGCCGGGAGGACCGGCTGCTTCATCGTCATCGACATCATGCTGGACATGGCGGAGCGGGAAGGGGTGGTGGATATCTACAACTGCGTGCGGGAGTTGCGTTCGCGGAGAGTGAACATGGTGCAGACCGAGGAGCAGTACGTGTTTATCCACGATGCCATCCTGGAAGCCTGTCTCTGCGGGGACACCTCCCTCCCTGCCTCCCAGCTCAGGTCTCTGTACTACGACATGAACAAACTGGACCCACAGACGAACTCCAGCCAGATTAAAGAGGAGTTCCGGACCCTCAACATGGTGACGCCGACCCTGCGCGTGGAGGACTGCAGCATTGCGCTCCTGCCCCGGAACCACGAGAAGAACCGCTGCATGGACATCTTGCCTCCAGACCGCTGCCTGCCCTTCCTCATCACCATTGACGGCGAGAGCAGCAACTATATCAACGCTGCCCTGATGGACAGCTACAAACAGCCTTCAGCTTTCATAGTCACCCAGCATCCTTTGCCAAACACAGTCAAAGACTTCTGGAGGTTGGTTCTGGATTACCACTGCACGTCAGTAGTGATGCTGAATGACGTGGACCCCACCCAGCTGTGTCCGCAGTACTGGCCCGAGAACGGCGTGCACAGACACGGCCCCATCCAGGTGGAGTTCGTGTCCGCTGACTTGGAGGAGGACATCATCAGCAGGATATTCCGGATTTATAACGCAGCCAGGCCCCAGGACGGGTACCGCATGGTGCAGCAGTTCCAGTTCCTCGGCTGGCCCCTGTACAGGGACACGCCCGTGTCCAAGCGCTCCTTCCTGAAGCTCATCCGCCAGGTGGCCAAGTGGCAGGAGGGGTACAACGGCGGGGAAGGCCGCACGGTGGCGCACTGCCTGAATGGGGGAGGCCGCAGCGGCACGTTCTGCGCCATCAGCATCGTCTGTGAGATGCTCCGGCACCAGAGAACCGTGGACGTCTTCCACGCCGTCAAGACGCTGCGGAACAACAAGCCCAACATGGTGGACCTCCTGGATCAGTACAAGTTCTGCTACGAGGTGGCCCTGGAGTACTTGAATTCTGGCTGA
Soga2 SOGA family member 2, transcript variant X4
Length: 4644 bp Location: 17703594..17788847 Strand: +>XM_004853224.1 ATGGAGGAGCTGCGCTCAGAGAACGACTACCTCAAGGATGAGCTGGATGAACTCCGTGCCGAGATGGAGGAGATGAGAGACAGCTATTTGGAGGAAGACGTGTACCAGCTGCAGGAACTTCGGCGAGAGCTGGACCGAGCTAACAAAAACTGCCGCATCCTGCAGTACCGACTCCGGAAGGCCGAGCAGAAGAGCCTGAAAGTAGCAGAGACCGGGCAGGTGGACGGCGAGCTTATCAGGAGTCTGGAGCAGGACCTGAAGGTAGCCAAAGACGTGTCTGTGCGGCTGCACCATGAGCTAGAGACTGTGGAGGAGAAGCGGACTAGAGCTGAGGATGAGAACGAGACGCTGCGGCAGCAGGTGATCGAGGTGGAGATAGCCAGGCAGGCCCTGCAGAACGAGCTGGAAAGGCAGAAGGAGAGTTTCCTGAAGAGAAGAGGCAGTCGGGAAATGTACAAGGAGAAGAAAACCCTCAGCCAGGATGACAGTGCCGACCTGAAGTGCCAGCTTCAGTTTGCCAAAGAAGAGGCCTCGCTGATGCGCAAGAAAATGGCCAAGCTGTGCAGGGAGAAGGACGAGCTGGAGCAGGAGCTGCAGAAGTACAAGTCCCTCTATGGGGACGTGGACAGCCCCCTGCCCACTGGGGAGGCCGGCGGGCCCCCCAGCACGCGAGAGGCTGAGCTGAAGCTGCGGCTCAGGCTGGTGGAGGAGGAAGCCAACATCCTGGGCCGCAAGATTGTGGAGCTGGAGGTGGAGAACCGGGGCCTCAAGGCGGAGATGGAGGACCTGCAGGTCCAGCACAAGCAGGAGGGAGCTGGCCAGGACCGTGTGCCCCGTGCCCCGACCTCACCCTTCGGGGACTCCCTGGAATCCTGTGCCGAGCTGCGCCGGCACCTGCAGTTTGTGGAGGAGGAGGCCACACTGCTGCGGAGGTCCATCTCCGAGATCGCGGCCCACAACCAGCAGCTGACCCACGAGCTGAGCAAATTCAAGTTCGAGCCCTGCCCGGAGCCAGGGTGGCGCAGGGACAGCCTGGGGAAGGGCACCATGGCCCCGCTGCAGGAGGAACTGCGGTCAGCCAGGCTGCAGATCAGCAAGCTCAGCGGGAAGGTGCTCAAGCTGCAGAGCGAGAACCTGGCGATGCTGTCCAGTGCCCACCTCGGGCTGCAGGCCCCGAGCCCCCGTGACAGCGACGCCAACAGCGACACCGGCCAGAAGGAGAGTGACGTGGAGGACGGCCGCCTGCCCCAGCCCAAGCGGGAGGGCCCTGTGGGTGGGGAGAGCGACTCGGATGAGACGGTCGAGAAGACGTCAGGCTTCGGGAGCCGAAAGCCGTCGGAGGCCAGCGAGCCCTGCCTGGCGGAGCTTCGGGGGCCCAAGGACGCCGAGCACCTGGTGGCCCTGAAGCGCAAGGCCCAGCAGCTGGAGCGCACCATGGAGCACCTCATCACCGACACCGACAGTTTCCTCCGGAACTCACCTGGGCTCCAGGCTGAGGGCGAGAGGGCCCTCGGGGGCCAGGACGAGCCTCACCTGCTGGGGGCCATCAACAGGAAGATGAAGGCCTTCCGGAAGGAGCTGCAGGCCTTCCTGGAGCAGGTGGCCCGCCTCGGGGACAGCCTGTCAGCCCTGCCCCACCACACGGAGTCATCCAGCTTCCTGTCCACCGTGACCTCCATGCCCCGGGACTCCCCTGTTGGGAACCTGGGGAAGGAGCTGGGCCCCGACGTGCAGTCCAGAATGAGAGACCAGCAGGAGTGGCGGCTGGGGCCAGACCGAGGGGAGGACCACGACAGCGCGCACCTCCACACTGCACAGGAGCTGCACCGCCGGGCCGATGGGGACACCGGGAGCCACTGTCCAGGAGGCCAGAGCTGCTTCAGTCCCAAGATGGAGGAGGAGCACCTGTACGCACTGCGCTGGAAGGAGCTGGAGATGCAGAGCCTGGCGCTGCAGAGCACACTGCACACACGCACCTGGGGCGAGGAGCGGATGCTGCTGCAGCAGGAGCTGGGGGTGCTGAGGCAGAGCATCTTCCTCTTCTACCTCAAGCTGCGGTGGCTGCTGAAGCACTGGCGGCAGGCGAAGCAGGCAGGCGGCAGTGGGGAGGACGGCGCAGAGGGCGAGCATCCAGAGACCCTCCCCAGGCTCGGGGAGCTCGGAGTCCAGGGGTGCCTCCAGGCAGACGGGCTGGAGCACAGTGACGGTGACCGAGGCTGTGCCTTTCCGGTGGGGGAGGCTGCTCCATGCGCCCCAGTGCAGATCGGCGACCACGCATCGCGGCTGCAGACTGTGGACGGGGCGCCACTCCACAGGCAGCTGGAGGAGAAGACAGAGAAGAGCCTGGGTGAGCCCGACGCCGTGGTGGAGAGCAAGGGCGCACTGAAGAGGGAGCGGGAGGCGCACCAGAAGCTGCTGGCCGACAGCCACGGCCTGGTCCTGGACCTGCGCTGGCAGATGCACCACCGCGAGAAGAGTTGGAGGCGCGAGAAGATGGAGCTGCTCGAGCGCCTGGACCGAGAGCGGCGTGCTTGGGAGCAGCAGCAGCAGGAGCTGGCCTGGAGGATAGAGCAGTTGCAGAAAGAGAGCAGTCCCCAGAGAGGCGGCAGTTTCCCCTGTGATCAAAAAGGAGGCAACCTGCGCCCCTCTCCCCACCCCGGAGGAGCTCGCGGGTCGCGGCCTCTGTCTGCGTGGCACTGTGAGGTCACGGACTCTGCACCGCGTGAGGACCAGCCACTGTCCAAGCTGAAGGAGTCGGACAGGTGCTCGGCCAGCGAGAACCTCTACCTGGATGCCCTGTCCCTGGACACTGAGCAGGAGGAGCCGCCCCGACCCCGAGGGCCCAAGAGGACCTTCAGGAGCCACCTCCCCAAGGAAGAAGACAATCACAAGAGAAATCTTCAAAGGGCCATGTCTGTGTCCTCCATGTCCGAGTTCCAGCGCCTAATGGATGTGTCCCCCTTCCTGCCGGAGAGGGGCCTGGCGCCAGCCAGCAGCCGGGACGACGTCACCCCGCCCCTGTCCCCCGATGACCTGAAGTACATCGAGGAGTTCAACAGCGAGAGCTGGGGCTATGAGGTGGCCCCCAGGGCCGGCCTCGAGCGGCCCCCGGACTCCTGGGCAGACAGGACCGAGGGCGGGCGGGTGGGACAGGAGACCCCGGCAGAGCCCTTCCCCTCCTCCTCCTGGTACCTGACCACGAGTGTCACCATGCCCACGGACACCGTGAGCAGCCCCGAGCACTGCCGGAAGCAGGCGCTGCACAGCCACATCATTGCCGAGCCATCGAGGGTGCGTGTGCTGCACAGCCCGCCTGCCATCCGCAGGGTGGACAGCATTGGGCCCGCAGCAGGTGCCGAGGGCAGGGGCCGACTGGACCCTGAGGGCCCCTCACCCTCGGGCAGAGCCAGGGGGAGCCTTGCAGAGGCCAAGGAACCTCCCACACCGGGCAGGTGGCCCTGCACCCCTGCCAGACAGCCCCGAGACCATGTGGAGGGGGCCCTGTGCCCGCTCGACCTCCCTCTCTGTGCCCCACTGGGGCTCGCGTCCCCGCCGCACAGCCTGGACATGGCCAAGAACATGAGCGATGACACGAAGGCAGCGGCCTTCTCTGTCAGGAACGCCCTGTGCTCCGGGCCCCCAAGGCCGCGCGTCAAGGACATGGCCTGCCAGACAAACGGGTCCCGCGTGGCGGGGACGCAGGCCGTGCAGACAGTCAGCGTGGGCCTGCAGACTGAAGCCCTGCGCACCGGCACCATCACCAGCAGCCCCCACCGCTGCCTCACCCCAAAGGCGGGGGGCGGTGCCACTCCCGTGTCATCCCCGTCCCGGAGCCTTAGGAGCAGGCAGGTGGCCCCTGCCATCGAGAAGGTCCAGGCCAAGTTTGAGCGCACCTGCTGCTCCCCCAAGTACGGGTCCCCCAAGCTGCAGAGGAAGCCCCTCCCCAAAGCTGACCAGCCAGGCAGCAGGACCTCGGCAGGGGCCGGCCAGAAGGGGTTCAGCGAGTCGGCCTGGGCCCGCTCCACCACCACGCGGGAAAGCCCAGTGCACACCACCATCAACGACGGCCTCTCTAGCCTGTTCAGCATCATCGACCACAGCCCGGCCATGCAGGACGCCTTCCAGAAGGGTGCTCGGGCCGGGTCCCGGCCAGAGCTGGGCCCTGGCCAGGAAACGGGCCCGGGTTCCCAGGGAAGGTTGCCCAGCCCACTGGGCATGGGCACAGAGACGATGGGCAGGGAGGACAGGGGGGAGGGCACACCTGTGAGGCAGGACCTGTCCGCACCCCCTGGCTACACGCTGGCCGAGAGCGTGGCGCGGATCCTCAACAGGAAGCTGCTGGAGCACGCCTTAAAGGAGGACAGGAGGCAGGCTGCCCACGGCCTGGCGCTCAACAGCGACAGCCTTCCAGGAGAAGCGGCCTCAGCTGAGCCAGGGGCCATAGAGGAGCTGCCCTGTTCCGCCCGTGCCCCGTCCCTAGAGCCCTGCTTCTCCAGGCCCGAGAGACCAGCCAACCGCCGCCTGCCTTCCAGATGGGCCCCGCCTGACCCCACCGCCTCGGGGTGTCCGTCCCCCGGAAACGCGGCATCCCTGGAGGAGCTCGGGGACAGCGAGGATGGGCCCGAGGAGAAGCCGCAGCCGTGA
Ndufv2 NADH dehydrogenase (ubiquinone) flavoprotein 2, 24kDa
>XM_004853225.1 ATGCATCCTCGCGCGCTGGGCGCGGGCCTCCGGCCTGGAAAGGGGGACGGCGTTGCCGCCATGTTCTTCTTGGCGCTGCGGGCTCGGGCTGCCGGCCTCACCGCCCCGTGGGGAAGACAGATAAGGAATTTGCATAAGACAGCTGTGCAGAATGGTGCCGGAGGAGCCTTGTTTGTGCACAGAGATACCCCTGAGAATAATCCGGATACTCCATTTGATTTCACACCAGAAAACTATAAGAGGATAGAGGCAATTGTAAGAAACTATCCAGAAGGGCATAAAGCGGCAGCTGTGCTTCCAGTCTTGGACTTAGCCCAAAGGCAGAGTGGGTGGTTGCCCATCTCTGCTATGAACAAGGTTGCAGAAATTTTACAAGTACCTCCAATGAGAGTATATGAAGTAGCTACTTTTTATACAATGTACAACCGAAAGCCAGTTGGGAAGTACCACATTCAGGTCTGCACTACAACACCTTGCATGCTCCGAGACTCTGACAGCATCCTGGAGGCCATTCAGCAAAAGCTTGGAATAAAGGTTGGGGAGACTACACCTGACAAACTTTTCACTCTAATAGAGGTGGAATGTTTAGGGGCCTGCGTAAACGCACCAATGGTTCAAATAAATGACAACTACTATGAGGATCTGACATCTAAGGATATTGAAGAAATTATTGATGAGCTGAAAGCTGGCAGAATCCCAAAACCTGGGCCAAGGAGTGGGCGTTTCTGTTGTGAGCCAGCTGGAGGTCTCACCTCGTTGACTGAACCACCTAAAGGACCTGGGTTTGGTGTGCAAGCAGGCCTCTAA
Twsg1 twisted gastrulation homolog 1 (Drosophila), transcript variant X1
Length: 672 bp Location: 18047800..18080664 Strand: +>XM_004853233.1 ATGAAGTCACACTGTGTCGCTGCACTGACGCTGGCCGGGCTGATGTTCCTGATGTGGCTCCCCGGGTCTCTGAGCTGCAACAAAGCACTCTGCGCCAGCGATGTGAGCAAATGCCTCATCCAGGAGCTGTGCCAGTGCCGGCCCGGCGAGGGGAACTGCTCGTGCTGCAAGGAGTGCATGCTGTGCCTGGGCGCCCTGTGGGACGAGTGCTGCGACTGCGTGGGGATGTGCAACCCGAGGAACTACAGCGACACCCCGCCCACCTCCAAGAGCACGGTGGAGGAGCTGCACGAGCCCATCCCCTCCCTCTTCCGGGCGCTCACCGAAGGGGACACCCAGCTCAACTGGAACATCGTGTCCTTCCCTGTCGCAGAGGAGCTTTCGCATCATGAAAATCTGGTTTCTTTCCTGGAAACTGTGAATCAGCCCCACCACCAGAACGTGTCTGTCCCCAGCAACAATGTTCACGCGCCTTACTCCAGCGACAAAGAGCACATGTGCACAGTGGTTTACTTCGACGACTGCATGTCCATCCACCAGTGCAAGATCTCCTGCGAGTCCATGGGCGCCTCCAAGTACCGCTGGTTCCACAATGCCTGCTGCGAGTGCATCGGACCCGAGTGCATCGACTACGGCAGCAAGACCGTCAAGTGCATGAACTGCATGTTCTAG
Ralbp1 ralA binding protein 1, transcript variant X5
>XM_004853232.1 ATGACCGAGTGCTTCCTGCCCCCACCCAGCAGCCCCGGGGAACACCGCAGGGCCGAGCATGGCAGCGGGCTGACTCGGACGCCCAGCTCAGAGGAGATCAGCCCCACCAAGTTCCCCGGCCTGTACCGAACGGGTGAGCCCTCGCCGCCCCACGACGTCCTCCATGAGCCCCCGGATACCGTGTCTGACGACGAGAAGGACCATGGAAAGAAAAAGGGGAAGTTCAAGAAGAAGGAGAAAAGGACTGAAGGCTATGCTGCCTTCCAGGAAGACAGCTCTGGAGATGAGGCCGAAAGTCCTTCAAAGATGAAGAGGTCCAAGGGCATCCATGTCTTCAAGAAGCCCAGCTTTTCTAAAAAGAAGGATAAGGATTTTAAAATAAAAGAGAAACCCAAAGAAGAAAAGCATAAAGAAGAAAAGCACAAAGAAGAAAAACATAAAGAAAAGAAGTCCAAGGACTTGACAGCAGCTGATGTTGTTAAACAGTGGAAAGAAAAGAAGAAAAAGAAGAAGCCTATCCAGGAGCCGGAGGGGCCTCCGCTCGACGCGCCCAGCCTCAGGCCCATCTTTGGGATTCCCTTGGCCGACGCGGTGGAGAGGACCATGATGCACGATGGCGTCCGGCTGCCGGCCGTCTTCCGGGAGTGCGTGGACTACGTGGAGAAGCACGGCATGAAGTGCGAGGGCATCTACAGGGTTTCAGGAATTAAGTCCAAGGTGGATGAGCTGAAAGCAGCCTACGACCGTGAGGAGTCTCCCAACCTGGAAGACTACGAGCCCAACACCGTGGCCAGCCTGCTGAAGCAGTACCTGCGTGAGCTCCCGGAGAACCTGCTTACCAAAGAGCTCCTGCCGCGCTTCGAGGAGGCATGTGGGAGGGCGGCGGAGAGCGAGAAGGTGCAGGAGTTCCAGCGCCTGCTCAGGGAGCTGCCCGAGTGCAACTGCCTCCTCGTCTCCTGGCTCGTCGTGCACATGGACCACGTCATCGCCAAGGAGCTGGAGACCAAGATGAACATTCAGAACATCTCCATCGTGCTCAGCCCGACCGTGCAGATCAGCAATCGTGTTCTATATGTGCTTTTCACGCATGTGCAAGAGCTCTTCGGGAACGTGGTACTGAAGCAGGTGACGAGGCCCCTGCGATGGTCCAACATGGCCACGATGCCCACGCTGCCCGAGACCCAAGCCGGCATCAAGGAGGAGATCCGGAGACAGGAGTTTCTTTTGAATTGTTTACATCGAGATCTGCAGGGTGGGATAAAGGATTTATCTAAAGAAGAAAGATTATGGGAAGTACAAAGAATTTTGACAGCCCTCAAAAGAAAACTGAGAGAAGCTAAAAGACAAGAGTGTGAGACCAAGATCGCCCAGGAGATAGCCAGTCTGTCAAAAGAGGACGTTTCCAAGGAAGAAACGAATGAAAACGAGGAAGTTATAAATATTCTCCTCACCCAGGAGAACGAGATCCTCACCGAGCAGGAGGAGCTGCTGGCCATGGAGCAGTTCTTACGCCGGCAGATCGCAGCTGAGAAAGAGGAGATCGAGCGCCTGCGTGCCGAGATCGCTGAGATCCAGAGTGTAGTTCGGAGAAAGGGTGGCAGGCGAGAGCGCCGGGCAATGTCCCCGCCTGTCCCCAGCCGCCAGCAGCACGGCCGGAGCGAGACGGAGGAGTACTCGTCAGAGAGTGAGAGCGAGAGCGAGGACGAGGAGGAGCTGCAGCTCATTTTGGAGGATCTGCAGCGCCAGAACGAGGAGCTGGAGATCAAGAACAACCACCTGAACCAAGCCGTCCACGAGGAGCGCGAGGCCATCATCGAGCTGCGCGTGCAGCTCCGCCTGCTGCAGCTGCAGCGCGCCCAGGCCGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGCCCGAGGAGCCCGAGGAGCCCGTGCGGCCAGCGGGCGTCCCGGAGGCCAAGCCCTCGCCCAGCAGAGAGCGGAAGGAGACGCCCATCTGA
Twsg1 twisted gastrulation homolog 1 (Drosophila), transcript variant X3
>XM_004853235.1 ATGAAGTCACACTGTGTCGCTGCACTGACGCTGGCCGGGCTGATGTTCCTGATGTGGCTCCCCGGGTCTCTGAGCTGCAACAAAGCACTCTGCGCCAGCGATGTGAGCAAATGCCTCATCCAGGAGCTGTGCCAGTGCCGGCCCGGCGAGGGGAACTGCTCGTGCTGCAAGGAGTGCATGCTGTGCCTGGGCGCCCTGTGGGACGAGTGCTGCGACTGCGTGGGGATGTGCAACCCGAGGAACTACAGCGACACCCCGCCCACCTCCAAGAGCACGGTGGAGGAGCTGCACGAGCCCATCCCCTCCCTCTTCCGGGCGCTCACCGAAGGGGACACCCAGCTCAACTGGAACATCGTGTCCTTCCCTGTCGCAGAGGAGCTTTCGCATCATGAAAATCTGGTTTCTTTCCTGGAAACTGTGAATCAGCCCCACCACCAGAACGTGTCTGTCCCCAGCAACAATGTTCACGCGCCTTACTCCAGCGACAAAGAGCACATGTGCACAGTGGTTTACTTCGACGACTGCATGTCCATCCACCAGTGCAAGATCTCCTGCGAGTCCATGGGCGCCTCCAAGTACCGCTGGTTCCACAATGCCTGCTGCGAGTGCATCGGACCCGAGTGCATCGACTACGGCAGCAAGACCGTCAAGTGCATGAACTGCATGTTCTAG
Ralbp1 ralA binding protein 1, transcript variant X3
Length: 1983 bp Location: 18118208..18147472 Strand: +>XM_004853230.1 ATGACCGAGTGCTTCCTGCCCCCACCCAGCAGCCCCGGGGAACACCGCAGGGCCGAGCATGGCAGCGGGCTGACTCGGACGCCCAGCTCAGAGGAGATCAGCCCCACCAAGTTCCCCGGCCTGTACCGAACGGGTGAGCCCTCGCCGCCCCACGACGTCCTCCATGAGCCCCCGGATACCGTGTCTGACGACGAGAAGGACCATGGAAAGAAAAAGGGGAAGTTCAAGAAGAAGGAGAAAAGGACTGAAGGCTATGCTGCCTTCCAGGAAGACAGCTCTGGAGATGAGGCCGAAAGTCCTTCAAAGATGAAGAGGTCCAAGGGCATCCATGTCTTCAAGAAGCCCAGCTTTTCTAAAAAGAAGGATAAGGATTTTAAAATAAAAGAGAAACCCAAAGAAGAAAAGCATAAAGAAGAAAAGCACAAAGAAGAAAAACATAAAGAAAAGAAGTCCAAGGACTTGACAGCAGCTGATGTTGTTAAACAGTGGAAAGAAAAGAAGAAAAAGAAGAAGCCTATCCAGGAGCCGGAGGGGCCTCCGCTCGACGCGCCCAGCCTCAGGCCCATCTTTGGGATTCCCTTGGCCGACGCGGTGGAGAGGACCATGATGCACGATGGCGTCCGGCTGCCGGCCGTCTTCCGGGAGTGCGTGGACTACGTGGAGAAGCACGGCATGAAGTGCGAGGGCATCTACAGGGTTTCAGGAATTAAGTCCAAGGTGGATGAGCTGAAAGCAGCCTACGACCGTGAGGAGTCTCCCAACCTGGAAGACTACGAGCCCAACACCGTGGCCAGCCTGCTGAAGCAGTACCTGCGTGAGCTCCCGGAGAACCTGCTTACCAAAGAGCTCCTGCCGCGCTTCGAGGAGGCATGTGGGAGGGCGGCGGAGAGCGAGAAGGTGCAGGAGTTCCAGCGCCTGCTCAGGGAGCTGCCCGAGTGCAACTGCCTCCTCGTCTCCTGGCTCGTCGTGCACATGGACCACGTCATCGCCAAGGAGCTGGAGACCAAGATGAACATTCAGAACATCTCCATCGTGCTCAGCCCGACCGTGCAGATCAGCAATCGTGTTCTATATGTGCTTTTCACGCATGTGCAAGAGCTCTTCGGGAACGTGGTACTGAAGCAGGTGACGAGGCCCCTGCGATGGTCCAACATGGCCACGATGCCCACGCTGCCCGAGACCCAAGCCGGCATCAAGGAGGAGATCCGGAGACAGGAGTTTCTTTTGAATTGTTTACATCGAGATCTGCAGGGTGGGATAAAGGATTTATCTAAAGAAGAAAGATTATGGGAAGTACAAAGAATTTTGACAGCCCTCAAAAGAAAACTGAGAGAAGCTAAAAGACAAGAGTGTGAGACCAAGATCGCCCAGGAGATAGCCAGTCTGTCAAAAGAGGACGTTTCCAAGGAAGAAACGAATGAAAACGAGGAAGTTATAAATATTCTCCTCACCCAGGAGAACGAGATCCTCACCGAGCAGGAGGAGCTGCTGGCCATGGAGCAGTTCTTACGCCGGCAGATCGCAGCTGAGAAAGAGGAGATCGAGCGCCTGCGTGCCGAGATCGCTGAGATCCAGAGTGTAGTTCGGAGAAAGGGTGGCAGGCGAGAGCGCCGGGCAATGTCCCCGCCTGTCCCCAGCCGCCAGCAGCACGGCCGGAGCGAGACGGAGGAGTACTCGTCAGAGAGTGAGAGCGAGAGCGAGGACGAGGAGGAGCTGCAGCTCATTTTGGAGGATCTGCAGCGCCAGAACGAGGAGCTGGAGATCAAGAACAACCACCTGAACCAAGCCGTCCACGAGGAGCGCGAGGCCATCATCGAGCTGCGCGTGCAGCTCCGCCTGCTGCAGCTGCAGCGCGCCCAGGCCGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGCCCGAGGAGCCCGAGGAGCCCGTGCGGCCAGCGGGCGTCCCGGAGGCCAAGCCCTCGCCCAGCAGAGAGCGGAAGGAGACGCCCATCTGA
Ralbp1 ralA binding protein 1, transcript variant X2
Length: 2103 bp Location: 18120421..18147472 Strand: +>XM_004853229.1 ATGACTGAGGCAGAGATTGAAGAAAGAAACTTAGACCAAAGGAAAGTTGGGACACACATGTGGCACGAGAGAGCATGGGACACTGAGGAGGAGGAAGTGTTCCACAGCTGTGGCCATTGTGAGGTATGTGATGGACAGGTGACCCCGAGGCCACCCCGTCGCTGCGCTCAGGGTGCCAGCATGACCGAGTGCTTCCTGCCCCCACCCAGCAGCCCCGGGGAACACCGCAGGGCCGAGCATGGCAGCGGGCTGACTCGGACGCCCAGCTCAGAGGAGATCAGCCCCACCAAGTTCCCCGGCCTGTACCGAACGGGTGAGCCCTCGCCGCCCCACGACGTCCTCCATGAGCCCCCGGATACCGTGTCTGACGACGAGAAGGACCATGGAAAGAAAAAGGGGAAGTTCAAGAAGAAGGAGAAAAGGACTGAAGGCTATGCTGCCTTCCAGGAAGACAGCTCTGGAGATGAGGCCGAAAGTCCTTCAAAGATGAAGAGGTCCAAGGGCATCCATGTCTTCAAGAAGCCCAGCTTTTCTAAAAAGAAGGATAAGGATTTTAAAATAAAAGAGAAACCCAAAGAAGAAAAGCATAAAGAAGAAAAGCACAAAGAAGAAAAACATAAAGAAAAGAAGTCCAAGGACTTGACAGCAGCTGATGTTGTTAAACAGTGGAAAGAAAAGAAGAAAAAGAAGAAGCCTATCCAGGAGCCGGAGGGGCCTCCGCTCGACGCGCCCAGCCTCAGGCCCATCTTTGGGATTCCCTTGGCCGACGCGGTGGAGAGGACCATGATGCACGATGGCGTCCGGCTGCCGGCCGTCTTCCGGGAGTGCGTGGACTACGTGGAGAAGCACGGCATGAAGTGCGAGGGCATCTACAGGGTTTCAGGAATTAAGTCCAAGGTGGATGAGCTGAAAGCAGCCTACGACCGTGAGGAGTCTCCCAACCTGGAAGACTACGAGCCCAACACCGTGGCCAGCCTGCTGAAGCAGTACCTGCGTGAGCTCCCGGAGAACCTGCTTACCAAAGAGCTCCTGCCGCGCTTCGAGGAGGCATGTGGGAGGGCGGCGGAGAGCGAGAAGGTGCAGGAGTTCCAGCGCCTGCTCAGGGAGCTGCCCGAGTGCAACTGCCTCCTCGTCTCCTGGCTCGTCGTGCACATGGACCACGTCATCGCCAAGGAGCTGGAGACCAAGATGAACATTCAGAACATCTCCATCGTGCTCAGCCCGACCGTGCAGATCAGCAATCGTGTTCTATATGTGCTTTTCACGCATGTGCAAGAGCTCTTCGGGAACGTGGTACTGAAGCAGGTGACGAGGCCCCTGCGATGGTCCAACATGGCCACGATGCCCACGCTGCCCGAGACCCAAGCCGGCATCAAGGAGGAGATCCGGAGACAGGAGTTTCTTTTGAATTGTTTACATCGAGATCTGCAGGGTGGGATAAAGGATTTATCTAAAGAAGAAAGATTATGGGAAGTACAAAGAATTTTGACAGCCCTCAAAAGAAAACTGAGAGAAGCTAAAAGACAAGAGTGTGAGACCAAGATCGCCCAGGAGATAGCCAGTCTGTCAAAAGAGGACGTTTCCAAGGAAGAAACGAATGAAAACGAGGAAGTTATAAATATTCTCCTCACCCAGGAGAACGAGATCCTCACCGAGCAGGAGGAGCTGCTGGCCATGGAGCAGTTCTTACGCCGGCAGATCGCAGCTGAGAAAGAGGAGATCGAGCGCCTGCGTGCCGAGATCGCTGAGATCCAGAGCCGCCAGCAGCACGGCCGGAGCGAGACGGAGGAGTACTCGTCAGAGAGTGAGAGCGAGAGCGAGGACGAGGAGGAGCTGCAGCTCATTTTGGAGGATCTGCAGCGCCAGAACGAGGAGCTGGAGATCAAGAACAACCACCTGAACCAAGCCGTCCACGAGGAGCGCGAGGCCATCATCGAGCTGCGCGTGCAGCTCCGCCTGCTGCAGCTGCAGCGCGCCCAGGCCGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGCCCGAGGAGCCCGAGGAGCCCGTGCGGCCAGCGGGCGTCCCGGAGGCCAAGCCCTCGCCCAGCAGAGAGCGGAAGGAGACGCCCATCTGA
Ralbp1 ralA binding protein 1, transcript variant X4
Length: 1983 bp Location: 18127025..18147472 Strand: +>XM_004853231.1 ATGACCGAGTGCTTCCTGCCCCCACCCAGCAGCCCCGGGGAACACCGCAGGGCCGAGCATGGCAGCGGGCTGACTCGGACGCCCAGCTCAGAGGAGATCAGCCCCACCAAGTTCCCCGGCCTGTACCGAACGGGTGAGCCCTCGCCGCCCCACGACGTCCTCCATGAGCCCCCGGATACCGTGTCTGACGACGAGAAGGACCATGGAAAGAAAAAGGGGAAGTTCAAGAAGAAGGAGAAAAGGACTGAAGGCTATGCTGCCTTCCAGGAAGACAGCTCTGGAGATGAGGCCGAAAGTCCTTCAAAGATGAAGAGGTCCAAGGGCATCCATGTCTTCAAGAAGCCCAGCTTTTCTAAAAAGAAGGATAAGGATTTTAAAATAAAAGAGAAACCCAAAGAAGAAAAGCATAAAGAAGAAAAGCACAAAGAAGAAAAACATAAAGAAAAGAAGTCCAAGGACTTGACAGCAGCTGATGTTGTTAAACAGTGGAAAGAAAAGAAGAAAAAGAAGAAGCCTATCCAGGAGCCGGAGGGGCCTCCGCTCGACGCGCCCAGCCTCAGGCCCATCTTTGGGATTCCCTTGGCCGACGCGGTGGAGAGGACCATGATGCACGATGGCGTCCGGCTGCCGGCCGTCTTCCGGGAGTGCGTGGACTACGTGGAGAAGCACGGCATGAAGTGCGAGGGCATCTACAGGGTTTCAGGAATTAAGTCCAAGGTGGATGAGCTGAAAGCAGCCTACGACCGTGAGGAGTCTCCCAACCTGGAAGACTACGAGCCCAACACCGTGGCCAGCCTGCTGAAGCAGTACCTGCGTGAGCTCCCGGAGAACCTGCTTACCAAAGAGCTCCTGCCGCGCTTCGAGGAGGCATGTGGGAGGGCGGCGGAGAGCGAGAAGGTGCAGGAGTTCCAGCGCCTGCTCAGGGAGCTGCCCGAGTGCAACTGCCTCCTCGTCTCCTGGCTCGTCGTGCACATGGACCACGTCATCGCCAAGGAGCTGGAGACCAAGATGAACATTCAGAACATCTCCATCGTGCTCAGCCCGACCGTGCAGATCAGCAATCGTGTTCTATATGTGCTTTTCACGCATGTGCAAGAGCTCTTCGGGAACGTGGTACTGAAGCAGGTGACGAGGCCCCTGCGATGGTCCAACATGGCCACGATGCCCACGCTGCCCGAGACCCAAGCCGGCATCAAGGAGGAGATCCGGAGACAGGAGTTTCTTTTGAATTGTTTACATCGAGATCTGCAGGGTGGGATAAAGGATTTATCTAAAGAAGAAAGATTATGGGAAGTACAAAGAATTTTGACAGCCCTCAAAAGAAAACTGAGAGAAGCTAAAAGACAAGAGTGTGAGACCAAGATCGCCCAGGAGATAGCCAGTCTGTCAAAAGAGGACGTTTCCAAGGAAGAAACGAATGAAAACGAGGAAGTTATAAATATTCTCCTCACCCAGGAGAACGAGATCCTCACCGAGCAGGAGGAGCTGCTGGCCATGGAGCAGTTCTTACGCCGGCAGATCGCAGCTGAGAAAGAGGAGATCGAGCGCCTGCGTGCCGAGATCGCTGAGATCCAGAGTGTAGTTCGGAGAAAGGGTGGCAGGCGAGAGCGCCGGGCAATGTCCCCGCCTGTCCCCAGCCGCCAGCAGCACGGCCGGAGCGAGACGGAGGAGTACTCGTCAGAGAGTGAGAGCGAGAGCGAGGACGAGGAGGAGCTGCAGCTCATTTTGGAGGATCTGCAGCGCCAGAACGAGGAGCTGGAGATCAAGAACAACCACCTGAACCAAGCCGTCCACGAGGAGCGCGAGGCCATCATCGAGCTGCGCGTGCAGCTCCGCCTGCTGCAGCTGCAGCGCGCCCAGGCCGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGCCCGAGGAGCCCGAGGAGCCCGTGCGGCCAGCGGGCGTCCCGGAGGCCAAGCCCTCGCCCAGCAGAGAGCGGAAGGAGACGCCCATCTGA
Txndc2 thioredoxin domain containing 2 (spermatozoa)
>XM_004853314.1 ATGAAGCTCTCCAACTTTGCTGTTGGGAGAGCAGACGTGGGGGTAGTCAAAGAGATGGAGATGGAAAATGTTCAAGCTGGAGCCCCAGGAAAACCAGAAACAAAACTAGACCCTCAAGAAGAAACACAAGAAAGTGACCCTCGTGAAAACCCTTTACAGGTTCCCTCCGGCAATGTGGCTCTTCTGCTCCCAGAGTTCTTGGACAGGGCACAGGCCAAGGGGAAGGCGGCCTTTCTCCCTGTGGTGAGCAACACACTCCACACGTCCACTGAGGAGTCTGAGTTCCCACAGAAGGGCAGCGATGTCCCCAAGTTCCCAGCAAACATCACGCATTACAAGAAAGGGAACATCTCTGGGTCCTCAGCTAAAACCAAGCACAGCAACACCAAGTCCTTGGCAAAAATTACCCAGGCCAAACAGGGGAACATCCCCAAGTCCTCAGAGAAAACCATCCAGTCCAAAGAGGATGATGTTCCCACATCCTCCGAGGGAATGACTCAGCCCAGAGAGCGTGATGTCCTCAAGTCCTCAGAGAAAAGCAGCCAGTTCAAGCCGGGGAACATCCTCAAGTCCTCAGCAAACACCATCCTCTCCAAGCACAGCAATATCCCCAAGTCCTTGGCAAAAAATACCCAGCCCAAACAGGGGAACAGTCCCAAGTTTTTAGCAAGTACAATCCACCCCAAGGATGGTGACATCTCCAGGTCCTCAGAGGAAACCACCCAGCCCAAGGATGGTGACATCCTCAAGTCTTCAGAGGAGACCACCCAGCCCAGAGAGAGCGACATCTCCAAGTCCTCAGAGGAGACCACCCAGCCCAAGGAAGATGCTCTCTTAAAGCTCAAAAAAGAATCAGTGGAGTCCCCTGAGAAGAATGCGGTGAAAGTGATCATGGGCAAGGAGCACTTTGAGGAAGCGCTCAGGGAAGCCAGGGAGAGGCTGGTGGTCATGGACTTCTCGGCCACGTGGTGTGGGCCCTGCAGGAGCATCCGGCCGCGTTTCCATTTCCTGTCTCTGAAGCACAGTGACGTCATGTTCCTGGAAGTGGACGCCGATGACTGTGAGGCGCTGGTGAAAGACTGTGAGGTCGTTTGTCTCCCAACCTTTCACTTTTATGAAAAAGAAGAAAAGGTAGGTGAGCTTTGTGGTGCCCAAAACGCAAAGCTCGAAGCAATAATTACAGAATTAAAGTAA
Vapa VAMP (vesicle-associated membrane protein)-associated protein A, 33kDa, transcript variant X1
Length: 885 bp Location: 18411789..18447004 Strand: +>XM_004853238.1 ATGGCGTCCGCCTCCGGGGCCATGGCGAAACACGAGCAGATCTTGGTCCTCGACCCGCCCACAGACCTCAAATTCAAAGGCCCCTTCACAGATGTAGTCACTACAAATCTTAAATTGCGAAATCCATCAGACAGAAAAGTGTGTTTCAAAGTGAAGACTACAGCACCTCGCCGGTACTGTGTGAGGCCCAACAGTGGAATTATTGACCCAGGGTCGACGGTGACTGTTTCAGTAATGTTACAGCCCTTTGATTATGATCCAAATGAAAAGAGCAAACACAAGTTTATGGTACAGACGATTTTTGCTCCACCAAACACTTCGGATATGGAAGCAGTGTGGAAAGAGGCAAAACCTGATGAATTAATGGATTCTAAATTGAGATGTGTATTTGAAATGCCGAATGAAAATGATAAATTGGGTGTAACTCCACCAGGGACAGCTCCGCCCGTCAGCTTGGTGAACAGAGCCAGCAACACAGCTGCAGCACCCGCCACTCATCCCAGGACGAGCGAAGCCAGGAAACTCAGTGTGCTGGCACAGGAGAAGCAGAAGAACGATATGGAACCTAGCAAAGCTGTCCCGCTGAATGCATCTAAACAAGACGGACCCATGCCAAAACCGCACAGTGTTTCACTCAGTGATACTGAGACGCGGAAGCTCATGGAAGAGTGTAAAAGACTTCAGGGAGAAATGATGAAGCTGTCAGAAGAAAATCGACACCTGAGAGAGGAAGGCTTAAGGCTCAGGAAGGTAGCACATTCGGAGAAGCCTGGCTTGCCCTCGGCCACGTCCTTCAGAGACAACGTCACCAGTCCTCTCCCCTCACTCCTCGTTGTGATCGCAGCCATCTTCATCGGGTTCTTTCTAGGGAAGTTCATCTTGTAG
LOC101714529 disintegrin and metalloproteinase domain-containing protein 21-like
Length: 2199 bp Location: 18709867..18712197 Strand: +>XM_004853240.1 ATGAGGTGGGCAGAGACGAACGTGCCTCTCAGGGCTCCGCTTCTGCTGTTGGGGCTGTGGGCGCTCCTGGGTCCAGTCCAGGGCCTCCTCGGCCGCCCCTCGTGGCGCTACATCTCTGCTGAGGTGGTGGTTCCCCGGAGGCACACGCACTATGGCAAAGGCCTTCGGGTGCCTGGCTGGCTCTCCTACAGCCTGCACTTTGGGGGCCAGAGGCACATCATCCATCTGCGGAGAAAAACACAGTTCCTCGCCAGACATCTGCTGCTGCTGACGCAGAATGACCAAGGTGCCTTGCAGATGGAGTACCCCTACTTCCCTCTGGACTGTAACTACCTCGGCTACGTGGAAGGAGTTCCTCACTCGGTGGCCAACATCGACACATGCTACGGAGGCCTGGAAGGCATCATCAAGCTGGATGACCTCACCTATGAAATCAAGCCCCTCAAGGATTCTCTCGCTTTTGAGCACATCGTGTCTCAGATAGCGGTGGACGCCAATGCAACGGAGCCTAGATACAGAGCCACCGAGAAGGAGCACTCATTGTTCGATGGAGCCAATATCACTGCAAGCCCCAGGATCCCTAGTAAAGTGTATCTATTCCATCCCTTTGGCATATCGGGCCATCTTCAATGTACCAACGTGGTGTTCAAGAGACATGGCAATGTCACAGTTTGCGTGAAATATATGATGACACTGGCTGGTGTGGTTCAAGCAATACTTGAAAATCTATCTGCGAGGTACACTGTGACTGTTTTGAGTGTATATGATAAGGCAGATCCAGTGCCAATCATGGACTTTAGGGTGCCAGACGGTCCTTACGCTCAGTTCTTCACGAGGGTCATCTATAAGAAATGGCCATGCTCTTCAACCTTCGTGATACTTATTCCAGGACCTTACGAATTGGATGTTGCTCCACCCAAGTATAGCATATGCAGTGATCGGAACCTGGTCTATCTTGGTGTGAGGGACAGACATGTATTCCTAGTATCTGTCGTAGGGGCACAGCAGATTGGGAGATCTTTTGGTCTAGAATACGATTCACGCTATTGCCAGTGCCAGAGAAGGGCCACCTGCGTAATGAACAAGCATCCTGTGCTGACAGATGCGTTCAGTAACTGCTCCTATGTGGACCTGGCACACGCATTTTCACAGGACTCCGTGCTGTGCCTGTATGATCCAAACTTTACATATTTTAATATGAGCTATACAAAGCACATTTGCGGGGACAGAAAAACGGAAGGAGAGGAGCAGTGTGATTGCGGATCCTTCAAGCGGTGTTATGCCAACCCGTGTTGTGAGAGTTCCTGTCGCTTTACGCCCGGCAGCGTTTGTGATGGGCAAACCTGCTGCAGGAACTGCACCTATGCCCCAGCGGGGACGCTCTGCAGAGCCATGCTCAATATATGCGACCTTCCAGAGTACTGTCCTGGAAACACAGTCTTGTGTCCAGAAAACCTGTATCTACAAAATGGATCCCCGTGCACTGAAGAGGGCTACTGTTATCATGGAAATTGTACTGACCGCACCATGCACTGCAGAGAAATCTTTGGAAGAAATGCTAGAAACGGTGATGATATCTGCTATCAAATAAATACAAAAGCCAACAGATTTGGGTTTTGTTATAGGAGATATGGAGCACTCACTTTCGCAGCTTGTGGAATAAACGATATTCCCTGCGGAAGGCTGCAGTGTGGCAACGTCACCCACCTACCCCGGGTGGATGAACATGTTTCATTCCATCAGTCTAAGTATGAAGACTCTTGGTGTTTTGGACTAGATGAACACTGTGGTGCAAACGCTATTGACCTTGGATTTGTGCGAGCTGGTACTCCCTGCGGTCCGGGAAAATACTGCAGTCATCATCGCTGCAGTAGCTCTGTGCAATCAATCAACTACGACTGTAAACCACAGAAGTGTGATTTTAAGGGAGTCTGCAACAACAAGAGGCAATGTCATTGTCACATAGGTTGGGCTCCTCCACGGTGCCTAAAGAGAGGTGCCGGGGGGAGTGAGAGCAGTGGACCACCTCCAAGAACAGTGCGGAAAATCACACAGAACCCTGAGCCAGTGCATTATTTGAGAATCCTCTTCGCTCGCATTTATGCGTTCATAGCAGCGCTGCTCTTTGGGGTGGCCACAAATGTGCAAACTATCAGGACTGCCACAGTTCGGGAAGTAAGACAGCCTCAGCCAGCTTAA
Apcdd1 adenomatosis polyposis coli down-regulated 1
>XM_004853315.1 ATGGGCCCAAACCGGGAGGTGAACCAAGCTGAGGGTGCCAGGGGCAGCAGGACGACCTGGGAAGGGATTCAGCGGCTCCGAAGCCGGAAGATCGGGATGCTCAGCCAGCTCAGACCAGGCTGCGGGACAAAGGGCTGGAGCCGAATCCTGCGCCTGCTCAAGGGCCCTGCAGAGCAGGCTCCACAGGACTCCCGGGGGAAACTGCTCTGCACTGTGCTGATTACCGGAGTCCGGGAAAAGGACCGCAGCCCTCGGTGTCTGGAACGGAAGCTGAAACACTCAGGCTTGGCCGGAAAGCCCAACATTGGCTGTGAAGGACGGGAGAAGCTGCTGGCCCGTCCAGATGACACTTCCCTCCAGCGCCCAGTTGTGGCTGTCTCCAGACCTCCGCCTGCCCTGAGAGAAGTGAAGGGGGCGCGGTCCTCGGCTCGCAGGAGGAGGATCCCTGGGAGACCCTCCAGCCCGGAGGAGTCTGGCTGCGGAGAGGGCGGACAGAGAAGGGGCTCCCGCAGGCACCGCCAGGCTCAGAGCGCACCAGGCCCTGGGAAGCCGCGCACTGAGCGGCTGGCCGCGAAGGAGCTGGGGGGCCGGGCGGCGGCCGCGCGCCGGGCGGAGATGCGCGCGGTGCTGCTGCGGAGCGTGCTCGCGGCCCTGCTGCTGCGCGGGCTGGGGGAGGGTTCTGCCCTCCTGCACCCCGACAGCAGGTCCCACCCTCGGTCCTTAGAGAAGAGCGCCTGGCGGGCCTTCAGGGAATCGCAGTGCCACCACATGCTCAGGCACCTCCACAACGGAGCACGGATCACTGTGCAGATGCCGCCCGCCATCGAGGGCCACTGGGTGTCCACGGGCTGTGAAGTGCGGTCTGGGCCAGAGTTCATCACGAGGTCCTACCGGTTCTACCCCAACAACACCTTCAAGGCCTACCAGTTCTACTATGGCAGCAACCGCTGCACGGACCCCACCTACACGCTCATCGTCCGGGGCAAGATCCGCCTGCGCCAGGCCTCCTGGATCATCCGAGGGGGCACCGAGGCCGACTACCAGCTGCACGGTGTTCAGGTCATTTGCCACACGGACACGGTGGCCGAGCAGCTCAGCCAGCTGGTGAACCGCACATGTCCTGGCTTTGTGGCCAGGGGCCCCTGGGTGCAGGATACGGCCTATGACCTGTGGCGGGCCGAGGGCGGCTTCGAGTGTACCCAGGCCCTGCGCTTCGCCATGCATGAGCTGCAGCTGCTCCGTGTGGAGAAGCACTACCTGCACCGCCTGGACCACCTCGTGGAGGAGCTGTTCCTTGGTGACATCCACACAGATGCCAGCCAGAGGAGGTTCTACCGGCCGTCCAGCTACCAGCCGCCCCTGCAGAGTGCCCAGAACCACGACCACGCCTGCATCGCCTGTCGGATCATCTACCGCTCGGATGAGCACCACCCCCCGCTGCTGCCCCCGAAGGCGGACCTGACTGTGGGCCTGCACGGGGAGTGGGTGAGCCAGCGCTGCGAGGTGCGCCCCGAAGTCCTCTTCCTCACGCGCCACTTCATCTTCCACAACAACAACAACACCTGGGAGGGCCACTACTACCACTACTCGGACCCTGTGTGCAAGCACCCGACCTTCACCATCTACGCCCGGGGCCGCTACAGCCGCGGGCTGCTGTCCTCCAGGGTCGTGGGCGGCACGGAGTTCGTGTTCAAAGTGAATCACATGAAGGTGACCCCCATGGACTCGGCCACAGCCTCGCTTCTCAATGTCTTCAATGGTGACGAGTGTGGGGCTGAGGGCTCCTGGCAGGTGGGCGTGCAGCAGGACGTCACACACACCAATGGCTGCATGGCGCTGGGCATCAAGCTGCCTCACACGGAGTATGAGATCTTCAAGATGGAGCAGGATGCCCGCGGGCGCTACCTGCTCTTCAATGGCCAGCGGCCCAGTGACGGGTCCAGCCCGGACCGGCCAGAGAAGAGGGCCACGTCCTACCAGATGCCCCTGGTGCAGTGCGCCTCCTCCTCTCCCAGAGCGGAGGACCTGTCTGCGGACGGTGGGGGCGAACAGCGCAGCCCGGCGCCCGGAAGGAGAGCGCAGCCCGTGCTGCTGGCCGCCCTTGCCGGCCTCCAGACTCTGCTGCACTGGGGCGGGCCCAGCTAG
Napg N-ethylmaleimide-sensitive factor attachment protein, gamma
>XM_004853241.1 ATGGCTGCCCAGAAAATAAACGAGGGGCTGGAGCACCTGGCTAAGGCAGAGAAATACCTAAAAACTGGTTTTTTAAAATGGAAGCCAGACTATGACAGTGCCGCTTCAGAATACGGAAAAGCAGCTGTTGCTTTTAAAAACGCCAAACAGTTTGAACAAGCAAAAGATGCCTGCCTGAGGGAAGCCATGGCCCATGAAAATAATAGGGCTCTTTTCCATGCTGCCAAAGCCTATGAACAAGCTGGCATGATGCTGAAGGAGATGCAGAAGCTGCCGGAGGCCGTCCAGCTGATCGAGAAAGCCAGCACGATGTACCTGGAGAACGGCACCCCGGACACGGCCGCCATGGCCCTGGAGCGCGCCGGGAAGCTGATAGAAAATGTAGATCCTGAAAAGGCTGTACAGTTGTATCAGCAGACAGCTAATGTGTTTGAAAATGAGGAGCGTCTCCGGCAGGCGGTTGAATTGCTGGGAAAAGCCTCCAGGCTGCTAGTTCGCGGACGCAGGTTTGATGAGGCGGCACTCTCTATTCAGAAAGAAAAGAACATTTATAAGGAAATTGAGAATTACCCAACTTGTTACAAGAAAACCATCGCTCAGGTCTTGGTTCACCTGCACAGAAATGACTACGTGGCTGCAGAGCGGTGTGTCAGGGAGAGCTACAGCATCCCGGGCTTCAACGGCAGCGAGGACTGTGCCTCGCTCGAGCAGCTCCTCGAGGGCTACGACCAGCAGGACCAAGACCAGGTGTCGGAGGTCTGCAACTCGCCCCTCTTCAAGTACATGGACAATGATTACGCCAAACTGGGCCTGAGCTTGGTGGTGCCAGGAGGAGGAATCAGGAAGTCACCAGCAACCCCCCAGGCCAAGCCCGACGGCGTGGCCCCTGCAGCCCCTGAGGAGGAGGAAGATGAATACTCAGGAGGACTGTGCTAG
Gnal guanine nucleotide binding protein (G protein), alpha activating activity polypeptide, olfactory type, transcript variant X2
Length: 1146 bp Location: 19433627..19504678 Strand: +>XM_004853255.1 ATGGGCTGCCTGGGCAGCAGCAAGACGGCCGAGGACACGGGCGTGGACGAGAAGGAGCGGCGCGAGGCCAACAAGAAGATCGAGAAGCAGCTGCAGAAGGAGCGCCTGGCGTACAAGGCCACGCACCGCCTGCTGCTGCTGGGGGCTGGCGAGTCCGGGAAAAGCACGATCGTCAAACAGATGAGGATCCTGCACGTCAACGGATTCAATCCCGACACGGAAAAGAAACAGAAAATTCTGGACATCCGAAAAAATGTCAAAGATGCTATTGTGACGATCGTCTCAGCAATGAGCACTATAATCCCTCCAGTCCCACTGGCCAACCCCGAAAATCAGTTCCGGTCCGATTACATCAAGAGCATAGCCCCCATCACTGACTTTGAATATTCCCAGGAGTTCTTTGACCACGTGAAGAAGCTCTGGGACGACGAGGGGGTGAAGGCCTGCTTCGAGAGGTCCAACGAGTACCAGCTCATCGACTGCGCACAGTACTTCCTGGAGAGAATCGACAGTGTGAGCCTGGTGGACTACACGCCCACGGACCAGGACCTGCTGAGGTGCAGGGTGCTGACCTCAGGGATCTTCGAGACTCGGTTCCAGGTGGACAAAGTGAATTTCCACATGTTCGACGTCGGCGGCCAGCGCGACGAGCGGAGGAAGTGGATCCAGTGCTTTAACGATGTCACCGCTATCATCTACGTGGCGGCCTGCAGCAGCTACAACATGGTCATCCGGGAAGACAACAACACCAACCGGCTGAGAGAGTCCCTGGACCTTTTTGAGAGCATCTGGAACAACAGGTGGCTGCGGACCATCTCCATCATCTTGTTCCTGAACAAACAGGACATGCTGGCCGAAAAAGTCTTGGCGGGGAAATCAAAGATTGAAGACTATTTCCCCGAGTATGCAAATTACACCGTTCCCGAAGACGCAACACCAGACGCAGGTGAAGACCCCAAGGTTACAAGAGCCAAGTTCTTCATCCGGGACCTGTTTTTGAGGATCAGCACGGCGACCGGTGACGGCAAGCACTACTGCTACCCCCACTTCACCTGTGCCGTGGACACGGAGAACATCCGCCGTGTCTTCAACGACTGTCGCGATATCATCCAGCGCATGCACCTCAAGCAGTATGAGCTTTTGTGA
Gnal guanine nucleotide binding protein (G protein), alpha activating activity polypeptide, olfactory type, transcript variant X1
>XM_004853254.1 ATGGGCTGCCTGGGCAGCAGCAAGACGGCCGAGGACACGGGCGTGGACGAGAAGGAGCGGCGCGAGGCCAACAAGAAGATCGAGAAGCAGCTGCAGAAGGAGCGCCTGGCGTACAAGGCCACGCACCGCCTGCTGCTGCTGGGGGCTGGCGAGTCCGGGAAAAGCACGATCGTCAAACAGATGAGGATCCTGCACGTCAACGGATTCAATCCCGAGGAAAAGAAACAGAAAATTCTGGACATCCGAAAAAATGTCAAAGATGCTATTGTGACGATCGTCTCAGCAATGAGCACTATAATCCCTCCAGTCCCACTGGCCAACCCCGAAAATCAGTTCCGGTCCGATTACATCAAGAGCATAGCCCCCATCACTGACTTTGAATATTCCCAGGAGTTCTTTGACCACGTGAAGAAGCTCTGGGACGACGAGGGGGTGAAGGCCTGCTTCGAGAGGTCCAACGAGTACCAGCTCATCGACTGCGCACAGTACTTCCTGGAGAGAATCGACAGTGTGAGCCTGGTGGACTACACGCCCACGGACCAGGACCTGCTGAGGTGCAGGGTGCTGACCTCAGGGATCTTCGAGACTCGGTTCCAGGTGGACAAAGTGAATTTCCACATGTTCGACGTCGGCGGCCAGCGCGACGAGCGGAGGAAGTGGATCCAGTGCTTTAACGATGTCACCGCTATCATCTACGTGGCGGCCTGCAGCAGCTACAACATGGTCATCCGGGAAGACAACAACACCAACCGGCTGAGAGAGTCCCTGGACCTTTTTGAGAGCATCTGGAACAACAGGTGGCTGCGGACCATCTCCATCATCTTGTTCCTGAACAAACAGGACATGCTGGCCGAAAAAGTCTTGGCGGGGAAATCAAAGATTGAAGACTATTTCCCCGAGTATGCAAATTACACCGTTCCCGAAGACGCAACACCAGACGCAGGTGAAGACCCCAAGGTTACAAGAGCCAAGTTCTTCATCCGGGACCTGTTTTTGAGGATCAGCACGGCGACCGGTGACGGCAAGCACTACTGCTACCCCCACTTCACCTGTGCCGTGGACACGGAGAACATCCGCCGTGTCTTCAACGACTGTCGCGATATCATCCAGCGCATGCACCTCAAGCAGTATGAGCTTTTGTGA
Chmp1b charged multivesicular body protein 1B
Length: 600 bp Location: 19487101..19489630 Strand: +>XM_004853253.1 ATGTCCACCATGGAGAAACACCTGTTCAACCTGAAGTTCGCGGCCAAAGAACTGAGCAGGAGTGCCAAAAAATGCGACAAGGAGGAAAAGGCCGAAAAGGCCAAAATTAAAAAGGCCATTCAGAAGGGCAACATGGAAGTGGCGAGGATACACGCCGAGAACGCCATCCGCCAGAAGAACCAGGGCGTGAACTTCCTGAGAATGAGCGCGCGCGTCGATGCGGTGGCCGCCCGAGTGCAGACGGCGGTGACCATGGGCAAGGTGACCAAGTCCATGGCCGGCGTGGTCAAGTCGATGGACGCGACGCTGAAGACCATGAACCTGGAGAAGATCTCCGCCCTGATGGACAAGTTCGAGCACCAGTTCGAGACGCTGGACGTCCAGACGCAGCAGATGGAAGACACGATGAGCAGCACGACCACGCTGACCACTCCCCAGAACCAGGTGGACCTGCTGCTCCAGGAGATGGCCGACGAGGCGGGCCTCGACCTCAACATGGAGCTGCCGCAGGGCCAGACCGGCTCCGTGGGCACCAGCGTGGCCTCGGCCGAGCAGGACGAGCTGTCCCAGAGACTGGCCCGCCTGCGGGACCAGGTGTGA
Mppe1 metallophosphoesterase 1, transcript variant X1
Length: 1290 bp Location: 19520032..19504774 Strand: ->XM_004853242.1 ATGAAGGCAGTTCAGCTGGACTCCATCTGCACCCTCCCAGCCTCTGCAGTTCCCCTCCGGACTCTTGACGGACTCGGCCCTGGTGCCTGGGCCTCAAAGGCAGGAGCCATGGGCCCTGCTGGGTGGGGGCTGGGAAGGCAGGGCCTCCGCCTTCTGAAGAGGAGTTTGCTGCCGTTGAAGCTCACAGCCATCATCTTCGCTGGGCTGCTGTTCTGCGAGTTCTTCATCTACTACTTAGTGATCTGCCGGTGTCACTGGGCTGAGGTGGAGGCACCTGCCTGGGGTGGAGAGCCGCTGGCACCTGTGCTGAGAGCCATGGTCCTGGCAGACACCCACCTGCTGGGGGAAGTTCAAGGCCACTGGCTGGACAAGCTCCGGAGGGAATGGCAGATGGAGAGAGCCTTCCAGACGGCCCTGTGGGTGCTGCAGCCTGAAGTCGTCTTCATCCTAGGCGACATCTTTGATGAGGGGAAGTGGAGCTCACCACAGGCCTGGGCAGACGACGTTGGGCGGTTCCACAGGATGTTCAGACACCCAGCTCATGTGCAGCTGAAGGTCGTCGCCGGCAACCACGACATCGGCTTCCATTACTGGATGAACAGTTTCAGAGTAAAGCGATTTGAGAAAGCCTTCAGCTCAGAGAGGCTGTTTTCTCGGAAAGGAGTAAACTTCGTGATGGTCAACAGCGTGGCCATGGAGGGCGACGCCTGTAACATCTGTGCCAAGGCTGAGGCTGAGCTCCTGCAGGTCTCGCGCCGGCTGAACTGCTCCCGAGAGGTGCCGGGCTCCGGGCCCTGTGGAGCGGGGCAGCAGCTGTCCCCGTCGGCCCCCATCCTGCTGCAGCATTACCCGCTGTACCGCGCCAGTGATGCCAACTGCTCTGGGCCGGATGCGGCTCCCCCGGAAGAGAGGAGCGTCCCCTTCAGGGAGAGATATGACTCGCTGTCCCGGGAGGCCTCGCAGAAGCTGCTGTGGTGGCTGCAGCCTCGCCTGGTGTTGAGCGGCCACACACACAGTGCCTGTGAGGTGCTGCACGGCGCAGGGGTCCCCGAGATCAGCGTGCCGTCCTTCAGCTGGAGGAACAGGAACAACCCCAGCTTCGTCATGGTCAGCCTGACGTCCCGGGACTTCGCCCTCTCCAAGTGCTTCCTCCCGCAGGAGGACACCGTGCTGGCCACCTACTGTGGGGTGGTGGGGCTCCTCGTGGTCCTCGTCCTGGCTCACACGGAGCGGCTGGCCTCGCCCTTCCTTTCTGGTTGGAACGAGCTCAGGAGGCACAGGAGCTGGTGA
Mppe1 metallophosphoesterase 1, transcript variant X8
Length: 1182 bp Location: 19520031..19504774 Strand: ->XM_004853249.1 ATGGGCCCTGCTGGGTGGGGGCTGGGAAGGCAGGGCCTCCGCCTTCTGAAGAGGAGTTTGCTGCCGTTGAAGCTCACAGCCATCATCTTCGCTGGGCTGCTGTTCTGCGAGTTCTTCATCTACTACTTAGTGATCTGCCGGTGTCACTGGGCTGAGGTGGAGGCACCTGCCTGGGGTGGAGAGCCGCTGGCACCTGTGCTGAGAGCCATGGTCCTGGCAGACACCCACCTGCTGGGGGAAGTTCAAGGCCACTGGCTGGACAAGCTCCGGAGGGAATGGCAGATGGAGAGAGCCTTCCAGACGGCCCTGTGGGTGCTGCAGCCTGAAGTCGTCTTCATCCTAGGCGACATCTTTGATGAGGGGAAGTGGAGCTCACCACAGGCCTGGGCAGACGACGTTGGGCGGTTCCACAGGATGTTCAGACACCCAGCTCATGTGCAGCTGAAGGTCGTCGCCGGCAACCACGACATCGGCTTCCATTACTGGATGAACAGTTTCAGAGTAAAGCGATTTGAGAAAGCCTTCAGCTCAGAGAGGCTGTTTTCTCGGAAAGGAGTAAACTTCGTGATGGTCAACAGCGTGGCCATGGAGGGCGACGCCTGTAACATCTGTGCCAAGGCTGAGGCTGAGCTCCTGCAGGTCTCGCGCCGGCTGAACTGCTCCCGAGAGGTGCCGGGCTCCGGGCCCTGTGGAGCGGGGCAGCAGCTGTCCCCGTCGGCCCCCATCCTGCTGCAGCATTACCCGCTGTACCGCGCCAGTGATGCCAACTGCTCTGGGCCGGATGCGGCTCCCCCGGAAGAGAGGAGCGTCCCCTTCAGGGAGAGATATGACTCGCTGTCCCGGGAGGCCTCGCAGAAGCTGCTGTGGTGGCTGCAGCCTCGCCTGGTGTTGAGCGGCCACACACACAGTGCCTGTGAGGTGCTGCACGGCGCAGGGGTCCCCGAGATCAGCGTGCCGTCCTTCAGCTGGAGGAACAGGAACAACCCCAGCTTCGTCATGGTCAGCCTGACGTCCCGGGACTTCGCCCTCTCCAAGTGCTTCCTCCCGCAGGAGGACACCGTGCTGGCCACCTACTGTGGGGTGGTGGGGCTCCTCGTGGTCCTCGTCCTGGCTCACACGGAGCGGCTGGCCTCGCCCTTCCTTTCTGGTTGGAACGAGCTCAGGAGGCACAGGAGCTGGTGA
Mppe1 metallophosphoesterase 1, transcript variant X7
Length: 1182 bp Location: 19520031..19504774 Strand: ->XM_004853248.1 ATGGGCCCTGCTGGGTGGGGGCTGGGAAGGCAGGGCCTCCGCCTTCTGAAGAGGAGTTTGCTGCCGTTGAAGCTCACAGCCATCATCTTCGCTGGGCTGCTGTTCTGCGAGTTCTTCATCTACTACTTAGTGATCTGCCGGTGTCACTGGGCTGAGGTGGAGGCACCTGCCTGGGGTGGAGAGCCGCTGGCACCTGTGCTGAGAGCCATGGTCCTGGCAGACACCCACCTGCTGGGGGAAGTTCAAGGCCACTGGCTGGACAAGCTCCGGAGGGAATGGCAGATGGAGAGAGCCTTCCAGACGGCCCTGTGGGTGCTGCAGCCTGAAGTCGTCTTCATCCTAGGCGACATCTTTGATGAGGGGAAGTGGAGCTCACCACAGGCCTGGGCAGACGACGTTGGGCGGTTCCACAGGATGTTCAGACACCCAGCTCATGTGCAGCTGAAGGTCGTCGCCGGCAACCACGACATCGGCTTCCATTACTGGATGAACAGTTTCAGAGTAAAGCGATTTGAGAAAGCCTTCAGCTCAGAGAGGCTGTTTTCTCGGAAAGGAGTAAACTTCGTGATGGTCAACAGCGTGGCCATGGAGGGCGACGCCTGTAACATCTGTGCCAAGGCTGAGGCTGAGCTCCTGCAGGTCTCGCGCCGGCTGAACTGCTCCCGAGAGGTGCCGGGCTCCGGGCCCTGTGGAGCGGGGCAGCAGCTGTCCCCGTCGGCCCCCATCCTGCTGCAGCATTACCCGCTGTACCGCGCCAGTGATGCCAACTGCTCTGGGCCGGATGCGGCTCCCCCGGAAGAGAGGAGCGTCCCCTTCAGGGAGAGATATGACTCGCTGTCCCGGGAGGCCTCGCAGAAGCTGCTGTGGTGGCTGCAGCCTCGCCTGGTGTTGAGCGGCCACACACACAGTGCCTGTGAGGTGCTGCACGGCGCAGGGGTCCCCGAGATCAGCGTGCCGTCCTTCAGCTGGAGGAACAGGAACAACCCCAGCTTCGTCATGGTCAGCCTGACGTCCCGGGACTTCGCCCTCTCCAAGTGCTTCCTCCCGCAGGAGGACACCGTGCTGGCCACCTACTGTGGGGTGGTGGGGCTCCTCGTGGTCCTCGTCCTGGCTCACACGGAGCGGCTGGCCTCGCCCTTCCTTTCTGGTTGGAACGAGCTCAGGAGGCACAGGAGCTGGTGA
Mppe1 metallophosphoesterase 1, transcript variant X11
>XM_004853252.1 ATGGGCCCTGCTGGGTGGGGGCTGGGAAGGCAGGGCCTCCGCCTTCTGAAGAGGAGTTTGCTGCCGTTGAAGCTCACAGCCATCATCTTCGCTGGGCTGCTGTTCTGCGAGTTCTTCATCTACTACTTAGTGATCTGCCGGTGTCACTGGGCTGAGGTGGAGGCACCTGCCTGGGGTGGAGAGCCGCTGGCACCTGTGCTGAGAGCCATGGTCCTGGCAGACACCCACCTGCTGGGGGAAGTTCAAGGCCACTGGCTGGACAAGCTCCGGAGGGAATGGCAGATGGAGAGAGCCTTCCAGACGGCCCTGTGGGTGCTGCAGCCTGAAGTCGTCTTCATCCTAGGCGACATCTTTGATGAGGGGAAGTGGAGCTCACCACAGGCCTGGGCAGACGACGTTGGGCGGTTCCACAGGATGTTCAGACACCCAGCTCATGTGCAGCTGAAGGTCGTCGCCGGCAACCACGACATCGGCTTCCATTACTGGATGAACAGTTTCAGAGTAAAGCGATTTGAGAAAGCCTTCAGCTCAGAGAGGCTGTTTTCTCGGAAAGGAGTAAACTTCGTGATGGTCAACAGCGTGGCCATGGAGGGCGACGCCTGTAACATCTGTGCCAAGGCTGAGGCTGAGCTCCTGCAGGTCTCGCGCCGGCTGAACTGCTCCCGAGAGGTGCCGGGCTCCGGGCCCTGTGGAGCGGGGCAGCAGCTGTCCCCGTCGGCCCCCATCCTGCTGCAGCATTACCCGCTGTACCGCGCCAGTGATGCCAACTGCTCTGGGCCGGATGCGGCTCCCCCGGAAGAGAGGAGCGTCCCCTTCAGGGAGAGATATGACTCGCTGTCCCGGGAGGCCTCGCAGAAGCTGCTGTGGTGGCTGCAGCCTCGCCTGGTGTTGAGCGGCCACACACACAGTGCCTGTGAGGTGCTGCACGGCGCAGGGGTCCCCGAGATCAGCGTGCCGTCCTTCAGCTGGAGGAACAGGAACAACCCCAGCTTCGTCATGGTCAGCCTGACGTCCCGGGACTTCGCCCTCTCCAAGTGCTTCCTCCCGCAGGAGGACACCGTGCTGGCCACCTACTGTGGGGTGGTGGGGCTCCTCGTGGTCCTCGTCCTGGCTCACACGGAGCGGCTGGCCTCGCCCTTCCTTTCTGGTTGGAACGAGCTCAGGAGGCACAGGAGCTGGTGA
Mppe1 metallophosphoesterase 1, transcript variant X4
Length: 1182 bp Location: 19520031..19504774 Strand: ->XM_004853245.1 ATGGGCCCTGCTGGGTGGGGGCTGGGAAGGCAGGGCCTCCGCCTTCTGAAGAGGAGTTTGCTGCCGTTGAAGCTCACAGCCATCATCTTCGCTGGGCTGCTGTTCTGCGAGTTCTTCATCTACTACTTAGTGATCTGCCGGTGTCACTGGGCTGAGGTGGAGGCACCTGCCTGGGGTGGAGAGCCGCTGGCACCTGTGCTGAGAGCCATGGTCCTGGCAGACACCCACCTGCTGGGGGAAGTTCAAGGCCACTGGCTGGACAAGCTCCGGAGGGAATGGCAGATGGAGAGAGCCTTCCAGACGGCCCTGTGGGTGCTGCAGCCTGAAGTCGTCTTCATCCTAGGCGACATCTTTGATGAGGGGAAGTGGAGCTCACCACAGGCCTGGGCAGACGACGTTGGGCGGTTCCACAGGATGTTCAGACACCCAGCTCATGTGCAGCTGAAGGTCGTCGCCGGCAACCACGACATCGGCTTCCATTACTGGATGAACAGTTTCAGAGTAAAGCGATTTGAGAAAGCCTTCAGCTCAGAGAGGCTGTTTTCTCGGAAAGGAGTAAACTTCGTGATGGTCAACAGCGTGGCCATGGAGGGCGACGCCTGTAACATCTGTGCCAAGGCTGAGGCTGAGCTCCTGCAGGTCTCGCGCCGGCTGAACTGCTCCCGAGAGGTGCCGGGCTCCGGGCCCTGTGGAGCGGGGCAGCAGCTGTCCCCGTCGGCCCCCATCCTGCTGCAGCATTACCCGCTGTACCGCGCCAGTGATGCCAACTGCTCTGGGCCGGATGCGGCTCCCCCGGAAGAGAGGAGCGTCCCCTTCAGGGAGAGATATGACTCGCTGTCCCGGGAGGCCTCGCAGAAGCTGCTGTGGTGGCTGCAGCCTCGCCTGGTGTTGAGCGGCCACACACACAGTGCCTGTGAGGTGCTGCACGGCGCAGGGGTCCCCGAGATCAGCGTGCCGTCCTTCAGCTGGAGGAACAGGAACAACCCCAGCTTCGTCATGGTCAGCCTGACGTCCCGGGACTTCGCCCTCTCCAAGTGCTTCCTCCCGCAGGAGGACACCGTGCTGGCCACCTACTGTGGGGTGGTGGGGCTCCTCGTGGTCCTCGTCCTGGCTCACACGGAGCGGCTGGCCTCGCCCTTCCTTTCTGGTTGGAACGAGCTCAGGAGGCACAGGAGCTGGTGA
Mppe1 metallophosphoesterase 1, transcript variant X9
Length: 1182 bp Location: 19520030..19504774 Strand: ->XM_004853250.1 ATGGGCCCTGCTGGGTGGGGGCTGGGAAGGCAGGGCCTCCGCCTTCTGAAGAGGAGTTTGCTGCCGTTGAAGCTCACAGCCATCATCTTCGCTGGGCTGCTGTTCTGCGAGTTCTTCATCTACTACTTAGTGATCTGCCGGTGTCACTGGGCTGAGGTGGAGGCACCTGCCTGGGGTGGAGAGCCGCTGGCACCTGTGCTGAGAGCCATGGTCCTGGCAGACACCCACCTGCTGGGGGAAGTTCAAGGCCACTGGCTGGACAAGCTCCGGAGGGAATGGCAGATGGAGAGAGCCTTCCAGACGGCCCTGTGGGTGCTGCAGCCTGAAGTCGTCTTCATCCTAGGCGACATCTTTGATGAGGGGAAGTGGAGCTCACCACAGGCCTGGGCAGACGACGTTGGGCGGTTCCACAGGATGTTCAGACACCCAGCTCATGTGCAGCTGAAGGTCGTCGCCGGCAACCACGACATCGGCTTCCATTACTGGATGAACAGTTTCAGAGTAAAGCGATTTGAGAAAGCCTTCAGCTCAGAGAGGCTGTTTTCTCGGAAAGGAGTAAACTTCGTGATGGTCAACAGCGTGGCCATGGAGGGCGACGCCTGTAACATCTGTGCCAAGGCTGAGGCTGAGCTCCTGCAGGTCTCGCGCCGGCTGAACTGCTCCCGAGAGGTGCCGGGCTCCGGGCCCTGTGGAGCGGGGCAGCAGCTGTCCCCGTCGGCCCCCATCCTGCTGCAGCATTACCCGCTGTACCGCGCCAGTGATGCCAACTGCTCTGGGCCGGATGCGGCTCCCCCGGAAGAGAGGAGCGTCCCCTTCAGGGAGAGATATGACTCGCTGTCCCGGGAGGCCTCGCAGAAGCTGCTGTGGTGGCTGCAGCCTCGCCTGGTGTTGAGCGGCCACACACACAGTGCCTGTGAGGTGCTGCACGGCGCAGGGGTCCCCGAGATCAGCGTGCCGTCCTTCAGCTGGAGGAACAGGAACAACCCCAGCTTCGTCATGGTCAGCCTGACGTCCCGGGACTTCGCCCTCTCCAAGTGCTTCCTCCCGCAGGAGGACACCGTGCTGGCCACCTACTGTGGGGTGGTGGGGCTCCTCGTGGTCCTCGTCCTGGCTCACACGGAGCGGCTGGCCTCGCCCTTCCTTTCTGGTTGGAACGAGCTCAGGAGGCACAGGAGCTGGTGA
Mppe1 metallophosphoesterase 1, transcript variant X3
Length: 1182 bp Location: 19519446..19504774 Strand: ->XM_004853244.1 ATGGGCCCTGCTGGGTGGGGGCTGGGAAGGCAGGGCCTCCGCCTTCTGAAGAGGAGTTTGCTGCCGTTGAAGCTCACAGCCATCATCTTCGCTGGGCTGCTGTTCTGCGAGTTCTTCATCTACTACTTAGTGATCTGCCGGTGTCACTGGGCTGAGGTGGAGGCACCTGCCTGGGGTGGAGAGCCGCTGGCACCTGTGCTGAGAGCCATGGTCCTGGCAGACACCCACCTGCTGGGGGAAGTTCAAGGCCACTGGCTGGACAAGCTCCGGAGGGAATGGCAGATGGAGAGAGCCTTCCAGACGGCCCTGTGGGTGCTGCAGCCTGAAGTCGTCTTCATCCTAGGCGACATCTTTGATGAGGGGAAGTGGAGCTCACCACAGGCCTGGGCAGACGACGTTGGGCGGTTCCACAGGATGTTCAGACACCCAGCTCATGTGCAGCTGAAGGTCGTCGCCGGCAACCACGACATCGGCTTCCATTACTGGATGAACAGTTTCAGAGTAAAGCGATTTGAGAAAGCCTTCAGCTCAGAGAGGCTGTTTTCTCGGAAAGGAGTAAACTTCGTGATGGTCAACAGCGTGGCCATGGAGGGCGACGCCTGTAACATCTGTGCCAAGGCTGAGGCTGAGCTCCTGCAGGTCTCGCGCCGGCTGAACTGCTCCCGAGAGGTGCCGGGCTCCGGGCCCTGTGGAGCGGGGCAGCAGCTGTCCCCGTCGGCCCCCATCCTGCTGCAGCATTACCCGCTGTACCGCGCCAGTGATGCCAACTGCTCTGGGCCGGATGCGGCTCCCCCGGAAGAGAGGAGCGTCCCCTTCAGGGAGAGATATGACTCGCTGTCCCGGGAGGCCTCGCAGAAGCTGCTGTGGTGGCTGCAGCCTCGCCTGGTGTTGAGCGGCCACACACACAGTGCCTGTGAGGTGCTGCACGGCGCAGGGGTCCCCGAGATCAGCGTGCCGTCCTTCAGCTGGAGGAACAGGAACAACCCCAGCTTCGTCATGGTCAGCCTGACGTCCCGGGACTTCGCCCTCTCCAAGTGCTTCCTCCCGCAGGAGGACACCGTGCTGGCCACCTACTGTGGGGTGGTGGGGCTCCTCGTGGTCCTCGTCCTGGCTCACACGGAGCGGCTGGCCTCGCCCTTCCTTTCTGGTTGGAACGAGCTCAGGAGGCACAGGAGCTGGTGA
Mppe1 metallophosphoesterase 1, transcript variant X6
Length: 1182 bp Location: 19519446..19504774 Strand: ->XM_004853247.1 ATGGGCCCTGCTGGGTGGGGGCTGGGAAGGCAGGGCCTCCGCCTTCTGAAGAGGAGTTTGCTGCCGTTGAAGCTCACAGCCATCATCTTCGCTGGGCTGCTGTTCTGCGAGTTCTTCATCTACTACTTAGTGATCTGCCGGTGTCACTGGGCTGAGGTGGAGGCACCTGCCTGGGGTGGAGAGCCGCTGGCACCTGTGCTGAGAGCCATGGTCCTGGCAGACACCCACCTGCTGGGGGAAGTTCAAGGCCACTGGCTGGACAAGCTCCGGAGGGAATGGCAGATGGAGAGAGCCTTCCAGACGGCCCTGTGGGTGCTGCAGCCTGAAGTCGTCTTCATCCTAGGCGACATCTTTGATGAGGGGAAGTGGAGCTCACCACAGGCCTGGGCAGACGACGTTGGGCGGTTCCACAGGATGTTCAGACACCCAGCTCATGTGCAGCTGAAGGTCGTCGCCGGCAACCACGACATCGGCTTCCATTACTGGATGAACAGTTTCAGAGTAAAGCGATTTGAGAAAGCCTTCAGCTCAGAGAGGCTGTTTTCTCGGAAAGGAGTAAACTTCGTGATGGTCAACAGCGTGGCCATGGAGGGCGACGCCTGTAACATCTGTGCCAAGGCTGAGGCTGAGCTCCTGCAGGTCTCGCGCCGGCTGAACTGCTCCCGAGAGGTGCCGGGCTCCGGGCCCTGTGGAGCGGGGCAGCAGCTGTCCCCGTCGGCCCCCATCCTGCTGCAGCATTACCCGCTGTACCGCGCCAGTGATGCCAACTGCTCTGGGCCGGATGCGGCTCCCCCGGAAGAGAGGAGCGTCCCCTTCAGGGAGAGATATGACTCGCTGTCCCGGGAGGCCTCGCAGAAGCTGCTGTGGTGGCTGCAGCCTCGCCTGGTGTTGAGCGGCCACACACACAGTGCCTGTGAGGTGCTGCACGGCGCAGGGGTCCCCGAGATCAGCGTGCCGTCCTTCAGCTGGAGGAACAGGAACAACCCCAGCTTCGTCATGGTCAGCCTGACGTCCCGGGACTTCGCCCTCTCCAAGTGCTTCCTCCCGCAGGAGGACACCGTGCTGGCCACCTACTGTGGGGTGGTGGGGCTCCTCGTGGTCCTCGTCCTGGCTCACACGGAGCGGCTGGCCTCGCCCTTCCTTTCTGGTTGGAACGAGCTCAGGAGGCACAGGAGCTGGTGA
Mppe1 metallophosphoesterase 1, transcript variant X10
Length: 1182 bp Location: 19516859..19504774 Strand: ->XM_004853251.1 ATGGGCCCTGCTGGGTGGGGGCTGGGAAGGCAGGGCCTCCGCCTTCTGAAGAGGAGTTTGCTGCCGTTGAAGCTCACAGCCATCATCTTCGCTGGGCTGCTGTTCTGCGAGTTCTTCATCTACTACTTAGTGATCTGCCGGTGTCACTGGGCTGAGGTGGAGGCACCTGCCTGGGGTGGAGAGCCGCTGGCACCTGTGCTGAGAGCCATGGTCCTGGCAGACACCCACCTGCTGGGGGAAGTTCAAGGCCACTGGCTGGACAAGCTCCGGAGGGAATGGCAGATGGAGAGAGCCTTCCAGACGGCCCTGTGGGTGCTGCAGCCTGAAGTCGTCTTCATCCTAGGCGACATCTTTGATGAGGGGAAGTGGAGCTCACCACAGGCCTGGGCAGACGACGTTGGGCGGTTCCACAGGATGTTCAGACACCCAGCTCATGTGCAGCTGAAGGTCGTCGCCGGCAACCACGACATCGGCTTCCATTACTGGATGAACAGTTTCAGAGTAAAGCGATTTGAGAAAGCCTTCAGCTCAGAGAGGCTGTTTTCTCGGAAAGGAGTAAACTTCGTGATGGTCAACAGCGTGGCCATGGAGGGCGACGCCTGTAACATCTGTGCCAAGGCTGAGGCTGAGCTCCTGCAGGTCTCGCGCCGGCTGAACTGCTCCCGAGAGGTGCCGGGCTCCGGGCCCTGTGGAGCGGGGCAGCAGCTGTCCCCGTCGGCCCCCATCCTGCTGCAGCATTACCCGCTGTACCGCGCCAGTGATGCCAACTGCTCTGGGCCGGATGCGGCTCCCCCGGAAGAGAGGAGCGTCCCCTTCAGGGAGAGATATGACTCGCTGTCCCGGGAGGCCTCGCAGAAGCTGCTGTGGTGGCTGCAGCCTCGCCTGGTGTTGAGCGGCCACACACACAGTGCCTGTGAGGTGCTGCACGGCGCAGGGGTCCCCGAGATCAGCGTGCCGTCCTTCAGCTGGAGGAACAGGAACAACCCCAGCTTCGTCATGGTCAGCCTGACGTCCCGGGACTTCGCCCTCTCCAAGTGCTTCCTCCCGCAGGAGGACACCGTGCTGGCCACCTACTGTGGGGTGGTGGGGCTCCTCGTGGTCCTCGTCCTGGCTCACACGGAGCGGCTGGCCTCGCCCTTCCTTTCTGGTTGGAACGAGCTCAGGAGGCACAGGAGCTGGTGA
Impa2 inositol(myo)-1(or 4)-monophosphatase 2, transcript variant X1
Length: 873 bp Location: 19526846..19546784 Strand: +>XM_004853256.1 ATGGAGGCGGGCGGCCCGGCTGTGGTGAGCCAGTGGGACGAGTGCTTCCAGGCGGCGGTGCAGGTGGCCCAGCGAGCGGGACAGGTCATCAGAAAAGCCTTCACAGAGGAAAAACATGTCTCGACAAAGACATCTGCGGCAGATCTTGTGACAGAGACGGACTGCCTCGTGGAACATCTGATCATTTCTGAGCTGCGAAAGCAGTTTCCTTCACACAGGTTCATCTCCGAGGAGGCCACGGCCGCCGGGGCCAAGTGTGAGCTCACCTCCAGCCCGACCTGGGTCATCGACCCCATCGATGGAACCTGCAACTTCGTGCACGGGTTCCCCAACGTGGCGGTCAGCATTGGATTTGCTGTTCATCAAGAGGTACACAGTGGTCCTCCTGCTTGCTCTCTGCCGCGTGCCTCAGCCGTACGGAAGAAAGCCAACTGGAGTTCGGCGTGGTTCACCACTGCATGGAGGAGCGGCTGTACATGGCCCGTCGGGGCCGCGGCGCCTTCTGCAACACCCAGCGGCTGTGCGCCTCGAGGGAGACAGGTGGGCTCCGGGGAAGAAGCGCTGTGGGCCTGGGGGCTCCCAGACCTCACGTCTGGAATCCCCGGTCGGCGCCATGGTGGGGGCGGAGTCTCCTCCGAGGGCCCTCCCGTTTGTTCAGGGACCTGGGTCCATGGTGCACCAGAACCCGGGTCTGCCTGTCCATCGGTGTGGCCGATGGGCCAGGGGCTCCATGGAGTCCTGTCCGCCTTGCACTCACATTTGTCACCATTAAAGCGGGAACCCGGTTGCCAGGGCGACTTGATCTCCATGGGGACTGGGGAACGTGCTGATGTGCTTCCTCACAGGACTAAACAAAATTTTCCCCCAAGATGA
Cidea cell death-inducing DFFA-like effector a, transcript variant X2
Length: 666 bp Location: 19559735..19573394 Strand: +>XM_004853259.1 ATGGAGACTGCTCGGGACTACGCGGGAGCCCTGCTCAGGCCCCTGGCACTCGTGGGCTCCCAGACCAGGAAGGCCCTGCTCACGCCACTCGTGCAGCCCCCTCGCCCCTTCCGCGTCTCCAACTCGGATCGGAGCAGCCGCCGCGGGGTGATGGCCAGCAGCCTGCAGGAGCTCGTCGCCAAGGCCCTGGATGCGCTGGTCATTGCGGCGGGGCTGGTCACACTGGTGCTGGAGGAGGACGGCACCGTGGTGGACACGGAGGAATTCTTCCAGACCTTGGGGGACAACACACACTTCATGGTCCTGGAGGACGGGCAGAAGTGGACGCCAGTAAGCAGCCACTGTCCCTCGTGTAGACCCAGCCGGCTGCGCTCAGGCATCGCCAGGGTCACGCTGGACCTGTACAGGCTGCATCCCAAGGACTTCCTGGGCTGCCTGAGCATCAAGGCCACCCTGTACGAGATGTACTCCGTGTCTTATGACATCCGCTGCACCGGGCTTAAGGCTGTGCTGAGGAGCCTGCTGCGCCTCCTGTCCTATGCCGCGCAGGTGACAGGCCAGGTCCTGGTCTACGCCGGCTCCTGCACGCTGCGCCTGCTGGACGACGCTGCCTCACCACCCCCCGAGTGGCGGCTGGGCGACTGGCTCCGGTTCCTGCGCAGATAG
Afg3l2 AFG3 ATPase family member 3-like 2 (S. cerevisiae), transcript variant X1
Length: 2448 bp Location: 19631598..19590812 Strand: ->XM_004853260.1 ATGGCGCTCCGCTGCTTGCTGCTGTGGGGCCGGGGCGGTTGCCGGCCTCGCGGGCTCGCGCCCTTGCTCTTGCCCGGCAGCGGCGCGGGCCGGGTCGGGCAGCACAGCCTGCGCATGCTCTATCAATGTGCTACAGCGCGAGTGACAGCCACCAGAAGGTCTCTTCTGACAGACATGATTGCTGTGTATCGCAGGTTCTGTTCCCGACCTCCCAAAGGATTTGAAAAATACTTTCCTAATGGAAAAAATGGAAAAAAAGCTAGTGAACCTAAAGAAGTTACAGGAGAAAAAAAAGAACCAAAACCAGCGAGTGCCCCACGGTCTTCTGGGGGAGCAAGTAGCGGTGGAGGAAAACGCCAGGGCAAGAAGGATGATTCCCACTGGTGGTCCAGGTTCCAGAAGGGTGACTTCCCGTGGGACGACAAGGACTTCAGGTTGTACTTCCTCTGGACTGCCCTGTTTTGGGGTGGAGTCATGCTGTACATCCTGTTCAAGCGCTCCGGGAGAGAAATCACTTGGAAGGACTTTGTCAATAACTATCTCTCCAAAGGCGTAGTAGACAGACTGGAAGTCGTCAACAAGCGTTTTGTTCGAGTGACTTTCATACCAGGAAAGACTCCAGTTGATGGGCAATATGTCTGGTTTAATATTGGCAGTGTAGACGCCTTTGAGCGGAATCTGGAAACTTTACAGCAAGAGCTGGGCATAGAAGGGGAAGACCGGGTGCCTGTTGTCTACATTACTGAAAGCGATGGCTCCTTTCTGCTGAGCATGCTGCCCACTGTCCTCATCATCACCTTTCTGCTCTACACCATTCGGAGGGGCCCTGCCGGCATCGGCCGGGGCGGCCGGGGCGTGGGCGGGCTCTTCAGCGTCGGGGAGACCACGGCCAAGGTCCTGAAGGACGAGATAGACGTCAAGTTCAAGGACGTGGCTGGCTGTGAGGAGGCCAAGCTGGAGATCATGGAGTTCGTGAACTTCTTGAAAAACCCAAAGCAGTACGAAGACCTAGGAGCCAAAATCCCAAAGGGTGCCATTCTCACGGGTCCTCCCGGCACCGGGAAGACACTGCTGGCCAAGGCCACGGCTGGAGAGGCCAACGTCCCCTTCATCACCGTCAGCGGATCCGAGTTCCTGGAGATGTTTGTTGGTGTGGGCCCAGCGCGGGTTCGAGACTTGTTTTCCCTTGCCCGGAAGCACGCCCCTTGCATCCTGTTCATTGACGAGATCGACGCAGTGGGCAGGAGGAGGGGCCGTGGCAACTTCGGGGGGCAGAGCGAGCAGGAGAACACGCTGAACCAGCTGCTGGTGGAGATGGACGGTTTTAACACGACAACAAACGTGGTCATCTTGGCGGGCACCAACCGGCCGGACATTCTGGACCCGGCGCTGCTGCGGCCCGGCCGCTTCGACCGGCAGATCTTCATTGGACCCCCAGACATAAAAGGAAGAGCCTCCATTTTCAAAGTTCACCTCCGGCCTCTGAAGCTGGATGTTGCCCTGGAGAAGGAGAAGCTGGCCCGGAAGCTGGCGTCTCTGACCCCGGGGTTTTCAGGAGCTGATGTGGCCAATGTGTGTAATGAGGCTGCCTTGATCGCTGCACGACACCTTTCAGACTCCATAAATGAGAAGCACTTTGAGCAAGCCATCGAACGAGTGATTGGCGGCTTGGAGAAGAAAACCCAGGTCCTGCAGCCCGAGGAGAAGAAGACAGTGGCGTACCATGAAGCAGGCCATGCGGTCGCTGGCTGGTACCTGGAGCATGCAGACCCTCTGCTAAAGGTGTCCATCATCCCCCGTGGCAAAGGGCTTGGCTACGCCCAGTACCTGCCGAAGGAGCAGTACCTGTACACCAGGGAGCAGCTCCTAGACCGGATGTGCATGACCCTGGGCGGCCGGGTCTCTGAGGAGATCTTCTTTGGGAGGATCACCACCGGTGCCCAGGACGACCTGCGGAAGGTCACACAGAGTGCCTATGCCCAGATTGTGCAGTTCGGCATGAATGAGAAGGTCGGGCAGATCTCCTTTGACCTCCCGCGCCAGGGCGACATGGTGCTGGAGAAGCCGTACAGCGAGGCCACCGCCAGGCTCATTGACGACGAGGTGCGGATCCTGATCAGTGAGGCCTACAAGAGAACTGTGGCTCTTCTCACGGAGAAGAAGGCCGACGTGGAGAAGGTTGCGCTTCTGTTGTTAGAGAAAGAAGTTTTAGATAAGAACGACATGGTTACGCTTCTGGGCCCCAGACCATTTGCAGAAAAATCCACGTATGAAGAGTTCGTGGAGGGCACGGGCAGCTTGGATGAGGACACCTCGCTGCCAGAGGGCCTGAAGGACTGGAACAAAGAGCGGGAGAAGGAGGAGAAGGAGCCCCCAGACCAGAAAGGTGCCAGCCAGATGCAGACAGTCCGTGGCGGCCGCTGTTGTCTGCCTGCGGTGTCAGCATGA
Slmo1 slowmo homolog 1 (Drosophila), transcript variant X3
Length: 519 bp Location: 19639004..19646517 Strand: +>XM_004853264.1 ATGAGGATCTGGAGCTGCGAGCACGTGTTCGGCCACCCGTGGGACACGGTGATCAAGGCTGCCATGAGGAAGTACCCGAACCCCATGAACCCCAGCGTGGTGGGTGTGGATGTCCTGGAGCGCGCTGTGGATGGCCGAGGGCGGCTGCACAGCCTGCGCCTGCTAAGCACCGAGTGGGGGCTGCCGGGCCTGGTCACCGCGATTTTGGGAACCAGTAGGACCCTGACCTACATCAAAGAGCACTCTGTGGTAGACCCAGCCGAGAAGAAAATGGAGCTTTTCTCCACCAATGTCACATTGCGGAACCTGGTGTCGGTAAATGAGAGGCTGGTGTACGCCCCGCACCCAGAGCACCCCGGGAAGACGGTGCTCACGCAGGAGGCTGTCATCTCCGTGGAGGGCACAGGCCTGGGCCGCTACCTGGAGAGCCTGATGGCCAGCACCATATCGTCCAACGCCAGGAAGGGTTGGGCAGCCATCGAGTGGATCATCAAGCACTCGGAGAGTTCCGCGGGCTAG
Spire1 spire homolog 1 (Drosophila), transcript variant X2
Length: 1959 bp Location: 19756409..19652845 Strand: ->XM_004853268.1 ATGGCCAACACAGCCGAGGCCGATGGCAGCCATGAGGAGGGTGAGAGTGAGCAGGAGGCCCAGCGGCGGCCCGGGGCCATCTGCTCCTACCGCGATGTCATGAAGATGTGTGCCGCTCATCTTCCGCCCAAGTCGGAGGCAGCAAATCACTATCGGGCCGTGTGCCGCGCCCTGTTCGCAGAGACTATGGAGCTCCACACGTTCCTGACCAAGATCAAGAGTGCGAAGGAGAACCTTAAGAAGATCCAGGAAATGGACCAGAGTGATGAGTCCCACGCCGACCTGGAGGAGCTGAAGAACGCGGACTGGGCGCGTTTCTGGGTCCAGGTGATGAGGGACTTGCGCAACGGGGTGAAGCTGAAGAAGGTGCAGGAGCGGCAGTACAGCCCGCTGCCCATCGAGTACCAGCTCACGCCCTACGAGATGCTGATGGAGGACATCCGCTGCCGGCGCTACACCCTTCGGAGAGTGATGGTGAATGGTGACATTCCCCCTCGGCTGAGGAAGAGTGCCCACGAAATCATCCTGGACTTCATCCGGTCCCGGCCGCCTCTCAATCCGGTGTCAGCCAGAAAACTGAAGCCCACCCCTCCACGACCACGCAGCCTCCATGAGAGAATCTTAGAGGAGATCAAGGCTGAAAGGAAGCTGCGGCCTGTCTCAGCCGAGGAGGTCCGCCGGAGCCAGCTAGCAATACGGCCACTTAGCATGTCTCACAGCTTTGACTTGTCAGATGTGACCACACCAGAATCTCCAAAGAGCCTCCGGGAGCCATCACAGGTGAACGGGGCCTCACTGTCACCAGCAGAGCCGGGGAAGAGCGGGCAGAGCCCCGCTGGGCTGGCGCCTGTGGTTCGGAAGAGGCTGCTCAAGGCCCCGACGCTGGCCGAGCTGGACAGCTCTGACTCCGAGGAGGAAGCCCCACGCAAGCCCAGCAGCAGCAGCGGCAGCAGCAGCGTATCCCCCTCCCTGCTCGAGGACCCTGTCCTGGAGGCCGTGTGCACAAGGAAGAAGCCTCCGAAATTCCTGCCCATATCGTCCACGCCCCAGCCGGAGAGGCGGCAGCCGCCCCAGAGACGCCACTCCATCGAGAAGGAGACGCCCACAAATGTGCGGCAGTTCCTGCCTCCATCCAGGCAGAGCTCCCGCTCTCTTGTTCCTAGGACGACCAGTGTATGGCCAAGGACATCTTTCCGACCGCTTTTCTCTACCATACACACAGCTTCTCTGCTCGGCTCCCACCCTCTGGAAGCGGCCATGTTTGGGGTGGCAGGGGCTGTGTATTATCTGTGTGAGAGAGCTTTGGCCAGCAGGTGGAGACCCGCACAGGAGGAGTTCTGCTACCCGGTGGAGTGCCTGGCGCTCACTGTGGAGGAGGTGATGCACATCCGGCAGGTGCTGGTCAAGGCGGAGCTGGAGAAGTACCAGCAGTACAAGGATGTCTACACCGCCCTGAAGAAGGGCAAGCTCTGTTTCTGCTGCAGAACCCGGAGGTTTTCCTTCTTCACCTGGTCGTACACCTGTCAGTTCTGTAAGAGGCCCGTGTGCTCGCAGTGCTGCAAGAAGATGCGGCTGCCCTCCAAGCCATACTCCACGCTCCCGATCTTCTCCTTGGGACCTTCTGCCTTGCAAAGAGGTGACAGCATGCCGTCAGAGAAGCCCTCTGCTGGCCACCATCGGCCACTGCGGAGCATCGCCAGGTTTTCCTCGAAGACTAGGTCTGTGGACAAAGTGGACGAGGAGCTCCAGTTCCCCAAGGAGCTCATGGAGGATTGGAGCGCGATGGAGGTGTGTGTGGACTGCAAGAAGTTCATCTCTGAGATCATCAGCTCCAGCCGGCGCAGCCTGGTGCTGGCCAACAAGCGAGCCCGGTTGAAGCGGAAGACGCAGTCTTTCTACGTGTCCTCGTCGGCAGCCGCGGAGTACTGTCCTTCGGAGCGGACCATCAGCGAGATCTGA
Spire1 spire homolog 1 (Drosophila), transcript variant X3
Length: 1959 bp Location: 19756332..19652845 Strand: ->XM_004853269.1 ATGGCCAACACAGCCGAGGCCGATGGCAGCCATGAGGAGGGTGAGAGTGAGCAGGAGGCCCAGCGGCGGCCCGGGGCCATCTGCTCCTACCGCGATGTCATGAAGATGTGTGCCGCTCATCTTCCGCCCAAGTCGGAGGCAGCAAATCACTATCGGGCCGTGTGCCGCGCCCTGTTCGCAGAGACTATGGAGCTCCACACGTTCCTGACCAAGATCAAGAGTGCGAAGGAGAACCTTAAGAAGATCCAGGAAATGGACCAGAGTGATGAGTCCCACGCCGACCTGGAGGAGCTGAAGAACGCGGACTGGGCGCGTTTCTGGGTCCAGGTGATGAGGGACTTGCGCAACGGGGTGAAGCTGAAGAAGGTGCAGGAGCGGCAGTACAGCCCGCTGCCCATCGAGTACCAGCTCACGCCCTACGAGATGCTGATGGAGGACATCCGCTGCCGGCGCTACACCCTTCGGAGAGTGATGGTGAATGGTGACATTCCCCCTCGGCTGAGGAAGAGTGCCCACGAAATCATCCTGGACTTCATCCGGTCCCGGCCGCCTCTCAATCCGGTGTCAGCCAGAAAACTGAAGCCCACCCCTCCACGACCACGCAGCCTCCATGAGAGAATCTTAGAGGAGATCAAGGCTGAAAGGAAGCTGCGGCCTGTCTCAGCCGAGGAGGTCCGCCGGAGCCAGCTAGCAATACGGCCACTTAGCATGTCTCACAGCTTTGACTTGTCAGATGTGACCACACCAGAATCTCCAAAGAGCCTCCGGGAGCCATCACAGGTGAACGGGGCCTCACTGTCACCAGCAGAGCCGGGGAAGAGCGGGCAGAGCCCCGCTGGGCTGGCGCCTGTGGTTCGGAAGAGGCTGCTCAAGGCCCCGACGCTGGCCGAGCTGGACAGCTCTGACTCCGAGGAGGAAGCCCCACGCAAGCCCAGCAGCAGCAGCGGCAGCAGCAGCGTATCCCCCTCCCTGCTCGAGGACCCTGTCCTGGAGGCCGTGTGCACAAGGAAGAAGCCTCCGAAATTCCTGCCCATATCGTCCACGCCCCAGCCGGAGAGGCGGCAGCCGCCCCAGAGACGCCACTCCATCGAGAAGGAGACGCCCACAAATGTGCGGCAGTTCCTGCCTCCATCCAGGCAGAGCTCCCGCTCTCTTGTTCCTAGGACGACCAGTGTATGGCCAAGGACATCTTTCCGACCGCTTTTCTCTACCATACACACAGCTTCTCTGCTCGGCTCCCACCCTCTGGAAGCGGCCATGTTTGGGGTGGCAGGGGCTGTGTATTATCTGTGTGAGAGAGCTTTGGCCAGCAGGTGGAGACCCGCACAGGAGGAGTTCTGCTACCCGGTGGAGTGCCTGGCGCTCACTGTGGAGGAGGTGATGCACATCCGGCAGGTGCTGGTCAAGGCGGAGCTGGAGAAGTACCAGCAGTACAAGGATGTCTACACCGCCCTGAAGAAGGGCAAGCTCTGTTTCTGCTGCAGAACCCGGAGGTTTTCCTTCTTCACCTGGTCGTACACCTGTCAGTTCTGTAAGAGGCCCGTGTGCTCGCAGTGCTGCAAGAAGATGCGGCTGCCCTCCAAGCCATACTCCACGCTCCCGATCTTCTCCTTGGGACCTTCTGCCTTGCAAAGAGGTGACAGCATGCCGTCAGAGAAGCCCTCTGCTGGCCACCATCGGCCACTGCGGAGCATCGCCAGGTTTTCCTCGAAGACTAGGTCTGTGGACAAAGTGGACGAGGAGCTCCAGTTCCCCAAGGAGCTCATGGAGGATTGGAGCGCGATGGAGGTGTGTGTGGACTGCAAGAAGTTCATCTCTGAGATCATCAGCTCCAGCCGGCGCAGCCTGGTGCTGGCCAACAAGCGAGCCCGGTTGAAGCGGAAGACGCAGTCTTTCTACGTGTCCTCGTCGGCAGCCGCGGAGTACTGTCCTTCGGAGCGGACCATCAGCGAGATCTGA
Spire1 spire homolog 1 (Drosophila), transcript variant X1
>XM_004853267.1 ATGGCCAACACAGCCGAGGCCGATGGCAGCCATGAGGAGGGTGAGAGTGAGCAGGAGGCCCAGCGGCGGCCCGGGGCCATCTGCTCCTACCGCGATGTCATGAAGATGTGTGCCGCTCATCTTCCGCCCAAGTCGGAGGCAGCAAATCACTATCGGGCCGTGTGCCGCGCCCTGTTCGCAGAGACTATGGAGCTCCACACGTTCCTGACCAAGATCAAGAGTGCGAAGGAGAACCTTAAGAAGATCCAGGAAATGGACCAGAGTGATGAGTCCCACGCCGACCTGGAGGAGCTGAAGAACGCGGACTGGGCGCGTTTCTGGGTCCAGGTGATGAGGGACTTGCGCAACGGGGTGAAGCTGAAGAAGGTGCAGGAGCGGCAGTACAGCCCGCTGCCCATCGAGTACCAGCTCACGCCCTACGAGATGCTGATGGAGGACATCCGCTGCCGGCGCTACACCCTTCGGAGAGTGATGGTGAATGGTGACATTCCCCCTCGGCTGAGGAAGAGTGCCCACGAAATCATCCTGGACTTCATCCGGTCCCGGCCGCCTCTCAATCCGGTGTCAGCCAGAAAACTGAAGCCCACCCCTCCACGACCACGCAGCCTCCATGAGAGAATCTTAGAGGAGATCAAGGCTGAAAGGAAGCTGCGGCCTGTCTCAGCCGAGGAGGTCCGCCGGAGCCAGCTAGATGTGACCACACCAGAATCTCCAAAGAGCCTCCGGGAGCCATCACAGGTGAACGGGGCCTCACTGTCACCAGCAGAGCCGGGGAAGAGCGGGCAGAGCCCCGCTGGGCTGGCGCCTGTGGTTCGGAAGAGGCTGCTCAAGGCCCCGACGCTGGCCGAGCTGGACAGCTCTGACTCCGAGGAGGAAGCCCCACGCAAGCCCAGCAGCAGCAGCGGCAGCAGCAGCGTATCCCCCTCCCTGCTCGAGGACCCTGTCCTGGAGGCCGTGTGCACAAGGAAGAAGCCTCCGAAATTCCTGCCCATATCGTCCACGCCCCAGCCGGAGAGGCGGCAGCCGCCCCAGAGACGCCACTCCATCGAGAAGGAGACGCCCACAAATGTGCGGCAGTTCCTGCCTCCATCCAGGCAGAGCTCCCGCTCTCTTGTTCCTAGGACGACCAGTGTATGGCCAAGGACATCTTTCCGACCGCTTTTCTCTACCATACACACAGCTTCTCTGCTCGGCTCCCACCCTCTGGAAGCGGCCATGTTTGGGGTGGCAGGGGCTGTGTATTATCTGTGTGAGAGAGCTTTGGCCAGCAGGTGGAGACCCGCACAGGAGGAGTTCTGCTACCCGGTGGAGTGCCTGGCGCTCACTGTGGAGGAGGTGATGCACATCCGGCAGGTGCTGGTCAAGGCGGAGCTGGAGAAGTACCAGCAGTACAAGGATGTCTACACCGCCCTGAAGAAGGGCAAGCTCTGTTTCTGCTGCAGAACCCGGAGGTTTTCCTTCTTCACCTGGTCGTACACCTGTCAGTTCTGTAAGAGGCCCGTGTGCTCGCAGTGCTGCAAGAAGATGCGGCTGCCCTCCAAGCCATACTCCACGCTCCCGATCTTCTCCTTGGGACCTTCTGCCTTGCAAAGAGGTGACAGCATGCCGTCAGAGAAGCCCTCTGCTGGCCACCATCGGCCACTGCGGAGCATCGCCAGGTTTTCCTCGAAGACTAGGTCTGTGGACAAAGTGGACGAGGAGCTCCAGTTCCCCAAGGAGCTCATGGAGGATTGGAGCGCGATGGAGGTGTGTGTGGACTGCAAGAAGTTCATCTCTGAGATCATCAGCTCCAGCCGGCGCAGCCTGGTGCTGGCCAACAAGCGAGCCCGGTTGAAGCGGAAGACGCAGTCTTTCTACGTGTCCTCGTCGGCAGCCGCGGAGTACTGTCCTTCGGAGCGGACCATCAGCGAGATCTGA
Cep76 centrosomal protein 76kDa, transcript variant X4
Length: 1719 bp Location: 19787022..19767870 Strand: ->XM_004853275.1 ATGTTGAGCAAGAACTCTCTTCCTCTCCAAAACAGCCTGTTGGTTTTGATAAACAGTCAACATTTAAAAAAAGTTCTGGGTGGAAAAGCTTTCTTGGAACATCTTCAAGAACCTGAGCCTTTACCAGGACAAGTTTGTTCAACTTTTACTTTATGTTTACATTATCGGAACCAGCGTTTTCGTTCCAAACCTGTTCCGTGTGCCTGCGAACCAGATTTTCATGATGGCTTTTTACTTGAAGTACACAGAGAAAACTTAGGTGATGGGACTAGAATGGCTGACCCAACAACAATGTTATCAATAAGTGACCCAGTTCACATGGTGCTAATCAAGACAGATATTTTTGGGGAGACCACTTTAGTAGCCTCTTATTTTCTAGAATGGCGATCAGTTTTGGGCTCAGAAGATGGAGTGACCAGTCTGACAGTGGAACTCATGGGTGTAGGCACGGAATCAAAAGTTTCTGTGGGAATTTTAAATATAAAATTTGAAATGTACCCACCACTCAGTCAAACACTATCTCAAGAAGTAGTGAACACCCAGCTTGCTTTGGAACGTCAGAAGACTGCAGAGAAAGAACGGTTGTTTCTTGTGTATGCTAAGCAGTGGTGGAGAGAATATTTGCAAATTCGACCCTCACACAATTCACGACTGGTCAAGATTTTTGCACAGGATGAGAATGGCATAAACAGGCCAGTCTGTTCCTATGTGAAGCCACTTGGAGCTGGACGGCTGCTGGACACCCCAAGGCAGGCAGCAAGATTTGTGAATGTGCTGGGGTATGAGCGGGCCCCTGTGATCGGAGGAGGAGGTAAACAGGAGCAGTGGTGCACTCTGCTGGCCTTTCTCTGTAGGAACAAGGGTGACTGTGAGGACCATGCTAATCTCCTGTGCAGCCTGCTGCTCGGCTACGGCCTGGAAGCCTTTGTCTGTGTCGGGACGAAGGCCAAAGGGGTGCCACACGCCTGGGTCATGACCTGTGGGACGGACGGCACCGTCACCTTCTGGGAGAGTCTAACAGGACACAGGTACATCCACAAACCTGCCAGTCCTGATGAGTCTCCACTTGCTGAGCAGCCCAAACCGCTGTACCCGTATCGAACAATTGGTTGTGTTTTCAATCATCACATGTTCCTGGGGAATTGCCAGCCCTCTGATGCTGTAGAAGCCTGTGTGTTTGATCTGAGTGATGAATCCAAATGGAAGCCCATGAGTGAAGAAGCAATCAAGTCTGTGTGTGCTCCTGGAGCTACAACCTCTCTCCCGCCCTTCCCACCACTGTGTGCGTCCACAGTGGACGCATCGGTGACTAGTAACGAAATTGAAATGCAGCTGAGGCTCCTGGTGTCTGAGCACAGGAAGGATCTGGGCCTCACTACCGTGTGGGAAGATCAGCTTTCTTATCTTTTGTCGCCAGCCCTGGCCTCCTATGAATTTGAGCGCACAACGAGCATATCTGCAGGAAATGAGGAGTTTCAGGACGCCATCAGGAGGGCTGTGCCTGACGGGCACACATTTAAGGGCTTCCCCATCCACTTCGTGTACAGAAATGCAAGGCGTGCATTTGCCACGTGTCTTCGGTCCCCGTTTTGTGAAGAAATAATCTGTTGCCGTGGAGACCAAGTGCGACTGGCAGTGCGTGTCCGAGTGTTCACTTACCCTGAGTCGGCCTGTGCTGTTTGGATCATGTTTGCTTGTAAATATCGCTCTGTGTTGTAG
Psmg2 proteasome (prosome, macropain) assembly chaperone 2, transcript variant X1
Length: 1254 bp Location: 19787587..19802623 Strand: +>XM_004853270.1 ATGAGCTGCTTCAGCTCCGAGGCTTTCTCCGGAGGCAGCGACATGCCTGCGGACGCCCTCGCACAGCCCCGCCGCCAGGTGTCCCGGCCGCGCCGCAGCGTCCGTCGCACAGCGTGCGTAGCTCCCGAGGGGCCGACGCCGCGTCAGCCTGGCGGGCGGGAACAGGCCGCGGGCGGCAACTGTTTTCAAACTTGCGGGCGCGCAGGCCCCGGGCTGCCCTTGGGCCGCCTGACCGTCCCCACGCACCGGCAGGCGCTGGGTCAGCCCCGGGGAGGCGCCGAGGAAATGGAAGGACCCCGCGCCGCACAGGGTTGTGGGCGCTGCGCTTGTGGACAGCCTCCGGGAAGCGGCAGGGGCTTCGCGGGATTCGCCCGCGGACTCCGTGCCGGGCTCAGGTTTTCTCCTGGAGACCCTCGTCCTCCTCACGTCAGCGCCGCTCTCTGCTCCACGACAATGTTCGTGCCCTGCGAGAAGTCGGGCCCCGACCTCTCGGGCTGCACCCTGCTGCTGCCAGCAGTATCTGTTGGAAATGTTGGTCAGCTTGCAGTAGATCTGATTATTTCTACACTGAACATGTCTAAGATCGGTTACTTCTATACTGATTGTCTGGTGCCAATGGTTGGAAACAATCCATACGCAACAGCAGAAGAAAATTCAACAGAACTCAGTATAAATGCTGAAGTATATTCATTGCCTTCAAGAAAATTAGTGGCTCTTCAGTTAAGATCTATTTTTATTAAGTATAAATCCACCTCATTCTGTGAAAAACTCCTTTCCTGGGTGAAAAGTAGCAGCTTTGCCAAAGTTATTGTTCTTTCGAGCAGTCACTCTTACCAACGAAACGACCTACAGCTTCGCAGCACTCCCTTTCGGTACCTGCTTACGCCTTGTATGCAAAAGAGTGTTGAGAATAAAATAAAGAGCCTTAACTGGCAAGAAATGGAAAAAACTCCATGCATTCCTGAAATGAGTGATTCTGATTACTGTGTCCGGATTCCAGGAGGAGGAATCACACGAGCACTCTACAAAGAGAGCTGTTCTAAAGAAATCCAAATGGTGGTTCTGCTGAAGTTTGTTTCCGAAGGGGACAACGTCCCAGACGCACTGGGTCTCGTTGAGTACCTTAATGAGTGGCTGCAGATAATCAAACCGCAGTTACAGAGTAACGACCCTGCACCATCTGCCTTGCCGTGGAAAATACCGAGTTCTTGGAAATTACTCTTTGGCAGTGGTCTTCCCCGTGCACTTTTTTGA
Psmg2 proteasome (prosome, macropain) assembly chaperone 2, transcript variant X2
>XM_004853271.1 ATGAGCTGCTTCAGCTCCGAGGCTTTCTCCGGAGGCAGCGACATGCCTGCGGACGCCCTCGCACAGCCCCGCCGCCAGGTGTCCCGGCCGCGCCGCAGCGTCCGTCGCACAGCGTGCGTAGCTCCCGAGGGGCCGACGCCGCGTCAGCCTGGCGGGCGGGAACAGGCCGCGGGCGGCAACTGTTTTCAAACTTGCGGGCGCGCAGGCCCCGGGCTGCCCTTGGGCCGCCTGACCGTCCCCACGCACCGGCAGGCGCTGGGTCAGCCCCGGGGAGGCGCCGAGGAAATGGAAGGACCCCGCGCCGCACAGGGTTGTGGGCGCTGCGCTTGTGGACAGCCTCCGGGAAGCGGCAGGGGCTTCGCGGGATTCGCCCGCGGACTCCGTGCCGGGCTCAGGTTTTCTCCTGGAGACCCTCGTCCTCCTCACGTCAGCGCCGCTCTCTGCTCCACGACAATGTTCGTGCCCTGCGAGAAGTCGGGCCCCGACCTCTCGGGCTGCACCCTGCTGCTGCCAGCAGTATCTGTTGGAAATGTTGGTCAGCTTGCAGTAGATCTGATTATTTCTACACTGAACATGTCTAAGATCGGTTACTTCTATACTGATTGTCTGGTGCCAATGGTTGGAAACAATCCATACGCAACAGCAGAAGAAAATTCAACAGAACTCAGTATAAATGCTGAAGTATATTCATTGCCTTCAAGAAAATTAGTGGCTCTTCAGTTAAGATCTATTTTTATTAAGTATAAATCCACCTCATTCTGTGAAAAACTCCTTTCCTGGGTGAAAAGTAGCAGCTTTGCCAAAGTTATTGTTCTTTCGAGCAGTCACTCTTACCAACGAAACGACCTACAGCTTCGCAGCACTCCCTTTCGGTACCTGCTTACGCCTTGTATGCAAAAGAGTGTTGAGAATAAAATAAAGAGCCTTAACTGGCAAGAAATGGAAAAAACTCCATGCATTCCTGAAATGAGTGATTCTGATTACTGTGTCCGGATTCCAGGAGGAGGAATCACACGAGCACTCTACAAAGAGAGCTGTTCTAAAGAAATCCAAATGGTGGTTCTGCTGAAGTTTGTTTCCGAAGGGGACAACGTCCCAGACGCACTGGGTCTCGTTGAGTACCTTAATGAGTGGCTGCAGATAATCAAACCGCAGAGTAACGACCCTGCACCATCTGCCTTGCCGTGGAAAATACCGAGTTCTTGGAAATTACTCTTTGGCAGTGGTCTTCCCCGTGCACTTTTTTGA
Ptpn2 protein tyrosine phosphatase, non-receptor type 2, transcript variant X2
>XM_004853277.1 ATGCCCGCCACCGTCCAGCGGGAGTTCGAGGAGCTGGATGCACAGTGTCGCTGGCAGCCGCTATACCTGGAAATTCGGAATGAGTCCCATGACTATCCTCATAGAGTGGCCAAGTTTCCAGAAAACAGAAATCGAAACAGATACAGAGATGTGAGCCCATATGACCACAGCCGTGTTAAACTGCAAAATATTGAAAATGATTACATTAATGCCAGCTTAGTTCACATGGAAGAGGCACAAAGGAGTTATGTCCTAACACAGGGTCCACTTCCTAATACCTGCTGCCATTTCTGGCTCATGGTCTGGCAGCAGAAGTCCAAAGCAGTTGTCATGCTAAACCGAGTTGTGGAGAAAGAATCGGTTAAATGTGCACAGTACTGGCCAACAGATGACCGAGAGATGGTGTTCAAAGAAACAGGATTCAGAGTGAAGCTCTTATCAGAAGACGTGAAGTCATATTATACAGTACATCTGCTACAGTTAGAAAATATCAGTAGTGGTGAAACCAGAACAATATCTCACTTTCATTATACTACCTGGCCAGATTTTGGAGTCCCCGAATCACCAGCTTCGTTTCTCAATTTCTTGTTTAAAGTGAGAGCGTCTGGCTCCTTGGACCCTGAGCATGGGCCTGCGGTCGTGCACTGCAGCGCCGGCATTGGGCGGTCCGGCACCTTCTCCCTAGTGGACACCTGCCTTCTTCTGATGGAAAAAGGAGATGATATTAACATTAAACAAGTATTACTAAATATGCGAAAATATCGAATGGGACTTATTCAGACTCCAGATCAACTCAGATTCTCTTACATGGCCATAATAGAAGGAGCAAAATGTATAAAGGGAGATTCAAATATACAGAAACGGTGGAAAGAGCTTTCTGAGGAAGACTTATCTCCTGCTTCGGATCATTCACCGACCAGAGGCGTGACTGAGAAGTACAATGGGAACAGAATCTGTCCTGAGGGAGAGAAGCTGCCGGGGGAGCGGTGTGCGGGGCTGTCCTCCAAGATACAGGACTCTGTGGAGGAGAGCAGAGAGAGTGTTGTACGGAAACGCATTCGAGAGGACAGGAAGGCCGCCACTGCTCAGAAGGTGCAGCGGATGAAACAGAGGCTAAATGAGACTGAACGAAAAAGAAAAAGGCCAAGATTGACAGACACCTAA
Ptpn2 protein tyrosine phosphatase, non-receptor type 2, transcript variant X1
Length: 1248 bp Location: 19876503..19813319 Strand: ->XM_004853276.1 ATGCCCGCCACCGTCCAGCGGGAGTTCGAGGAGCTGGATGCACAGTGTCGCTGGCAGCCGCTATACCTGGAAATTCGGAATGAGTCCCATGACTATCCTCATAGAGTGGCCAAGTTTCCAGAAAACAGAAATCGAAACAGATACAGAGATGTGAGCCCATATGACCACAGCCGTGTTAAACTGCAAAATATTGAAAATGATTACATTAATGCCAGCTTAGTTCACATGGAAGAGGCACAAAGGAGTTATGTCCTAACACAGGGTCCACTTCCTAATACCTGCTGCCATTTCTGGCTCATGGTCTGGCAGCAGAAGTCCAAAGCAGTTGTCATGCTAAACCGAGTTGTGGAGAAAGAATCGGTTAAATGTGCACAGTACTGGCCAACAGATGACCGAGAGATGGTGTTCAAAGAAACAGGATTCAGAGTGAAGCTCTTATCAGAAGACGTGAAGTCATATTATACAGTACATCTGCTACAGTTAGAAAATATCAGTAGTGGTGAAACCAGAACAATATCTCACTTTCATTATACTACCTGGCCAGATTTTGGAGTCCCCGAATCACCAGCTTCGTTTCTCAATTTCTTGTTTAAAGTGAGAGCGTCTGGCTCCTTGGACCCTGAGCATGGGCCTGCGGTCGTGCACTGCAGCGCCGGCATTGGGCGGTCCGGCACCTTCTCCCTAGTGGACACCTGCCTTCTTCTGATGGAAAAAGGAGATGATATTAACATTAAACAAGTATTACTAAATATGCGAAAATATCGAATGGGACTTATTCAGACTCCAGATCAACTCAGATTCTCTTACATGGCCATAATAGAAGGAGCAAAATGTATAAAGGGAGATTCAAATATACAGAAACGGTGGAAAGAGCTTTCTGAGGAAGACTTATCTCCTGCTTCGGATCATTCACCGACCAGAGGCGTGACTGAGAAGTACAATGGGAACAGAATCTGTCCTGAGGGAGAGAAGCTGCCGGGGGAGCGGTGTGCGGGGCTGTCCTCCAAGATACAGGACTCTGTGGAGGAGAGCAGAGAGAGTGTTGTACGGAAACGCATTCGAGAGGACAGGAAGGCCGCCACTGCTCAGAAGGTGCAGCGGATGAAACAGAGGCTAAATGAGACTGAACGAAAAAGAAAAAGGTGGTTATATTGGCAACCTATTCTCACTAAGATCGGGGTTCTGTCAGTCGTTTTGGTTGGCGCTTTGGTTAGCTGGACACTGTTCTTTCAGCAACATGTCCTGTAA
Cep192 centrosomal protein 192kDa, transcript variant X4
>XM_004853284.1 ATGATGAGCGAACTGGCCAGTGAGCTGAGCACCACCATCATCCGCAGCAGTCCAGTGCCCCCCGAGGAAGATGCAGCACTCTCCCTTGGGCAGCGCGGGGTCCGGAGCGAGGCTGCAGCTGCTTCTCTGGCTGGCGGGCCTCGGGACACAGAACCTCACTCCAACACGAGCCAGGACCCTTCCTCTGTGAGCGGAGAGCAGTGGGAAGCCCGGGAGGCAGTGAGGACGTCCCGCTGCGGGAGATGCCAGGTCCTGGGGCAGCCAGGCCTCGGCCACTGGGCAGGCCCAGCTGCTCCACAGCCCGCGGACGGAGGCCAGAGGCCAGCCTCTGGCGAAGCCCGCAGTGCATCTAGGGCCCAGGCTCCTCATCGGAGCGTCCCCACATGCCAGCCTGCCCCCGCCACTGCACTGCAGAGCGCGTCCTCTGTGTGCCCTGCACTCTGGGCCGGAGCCCCTCTCGCCACAGCTGCCTTGGCCCAGCAGTGCATGGGGACGAGTGTCGCCCTGCCTCCTCCAGGCCATGCAGGCAGCGCCCTGGTCTGCAGGCTCCCGGGCTGCCCCCCTTACCCGGCCACGGCAGGGGAGCATGTTCAGAACCCTGTGGCAGTGGGGCTTTGTCTAGGGCCGAGTCCCACCTCGGGACTGCTGGGCCCCTCTGCCCTCGGCAGCCCGTGTTCTGATGCATTCTGCCAGCACCTCCTCGGCACAGTGCAGCCTTTGCCCGCGCACCCTGCCCGCGCAGCCTGTGGGACTGAACACTGGAATTCAGGAATGGCGGCAGGGTTTGCAAGCGTCAGGGTGCCGGAGGAGCTGAAGTTCCCTTCCACTTGCTGCGTGGGCATTGCCTCGCAGACCCGCCTCAGCGTGCTCAACCCCTCTGACCGCTGGCTCCAGGTCAGCGTCGTGGCGCTAAGCGTCAGCGTCAATGGTGAGAAGGTGGATCTTTCAACATATCCTTGTTTAGTTTTCAAGAATAAAGTCATCGTAAGACCACATGCAACAGAAGAGATAGCAGTGCTTCTCTTACCCCTGGATCCCGGGCTTTTCCGATGTGTGTTCAGGGTTGCTTCGTGGCCGTTTTCGGCGGACCCTGAGACGATCATGCAGGCAGAAGCCTTGGCAAGCAGAGTTGTCCTTACTGCCATCGCCGAGAGCCCTGCTATTGAGGTAGAAACAGAAAGGAAAGGTGTTCTTGATTTTGGTGACTTGACATACGGAGGCTGGAAGGCCCTCCCGCTCAAACTGATAAACAGGTCCCATGCCTCCGTGCCCCTCAGACTGAGCATTAGCGCTAATGCCGTAGCCTGGTGCTGCTTCACGCTTTCCAAGGAACCGGTCCCTACTTCCCTGAAAGCTGCTCCTTATGCCGATGTGGTGGCTCAGCTGGCAGCTCCGTCCGTGGTCAGCCACGTGATGCCCGCCAGTTACGAAGGACAGGATCCAAAATTTCTGATAATTTGGGTTCTTTTCCATACTCCAAAGAAACTAATTGCTTCTTCAGAGATTCTAGATCCAGCAGAAGAGTTCGTGGCAAGAGTCGATATCGAAGTGGACAGCCCGAACCCCAGCCCAGCTCTCAGCAGCGTGGGTCTCCGAGCAAGAGCAGGCACCGCCAGGATCCACGCCCCCAGGGACCTGCAGACTGTGCATTTGTTGGCCAGTGTGAATTCTGCAGCAAAGCAGCCCTTACCTCTGAAAAATGCTGGAAATATCGAAGTTTATTTAGATATCAAGGTCCCAGAGCAAGGAAGTCACTTTTCAGTGTATCCGGAGAATCTGTTCCTCAAGCCTGGAGAAGAGCATGAAGTGATGGTTTCCTTTACACCGCGGGACCCCAAAGCCTGTGAAGAAAGGATCTTGAAGATATTTGTGCATCCATGTGGACCTCAGTATGAAGTAGTGTTAAAGGGCGAAGCTGTTTCTTCGGGAAGTCAGACTGTGCCCCCAGGCCCTTGCTGCCCAGATCTTCCGTCCCTTCTGTCCAACAAGCAGTTCCTGGCCTGGGGCGGGGTCCCCCTGGGCAGGACACAGCTTCAGAAGCTGGTTTTAAGAAGCAGTTGTGCCTCCACAGCCCAGCACTTACGACTGCTCATCAGAGGGCAGGACCAGGACTGCTTTCAGCTTCAGAACACTTTTGGCTCAGAAGAGCGATTGACCAGTAACTGTGAGGTTAGAATTGGCCCAAAGGAAGACATTGTCATCTCTGTGTTATTCGCTCCTACTCGATTATCTTGTATGTTGGCCAAACTAGAAATCAAACAACTCAGAAATCGATTACAGCCCGGTGTTAAATTCATGATACCTTTGTCTGGATATGGAGGAACAAGTAATCTTATTTTGGAAGGAGTCAAGAAATTGTCTGACAGTTACATGGTAACAGTGAACAGCTTAGTACCTGGCAAGGAGAGCCGAGCTGTACTTTCTGTCCGCAACACTGGCTCACGAGCAGCTTTCATTAAAGCAGTAGGCTTTAGAGATTATCAGAAAAAAGTTCTGTTGGATCCTAAAGTATTGAGGATTCTTCCAGATAAATTTGTACTCAAGGAAAGAACACAAGAAGATATTACTATCATATACCGCCCTCCAGACCGAGGGCGTGACCACAGAGCTTCAGTGGAGCTGTCAACTGTGTACTTCTTTGGTGGAGATGAAATTTGCCGACAGCAGTATCGAAGAGCCGTGTCTCAGAATCCAGGGGTTGTCAGGCGGATCCTTCCAGCACATAGTGTGCTGCACAGCGTTGACTTTGCCGAGGTGTTTCAGGACGAGCTGCTCGTGGATGAAGTCTATGATCTTCCTCAGCGGCCTAATGATGTTCAGCTCTTTTATGGAAACATGCGTAAAATTATCCTTTCGGTACTTGGAGAATTCCGAGATTCCATTTCCAGTAGAGAATTTCTTCCGCCTTCTTCCCAAGCTAGCTTGGAATCCAGAAGGGATGAAGGACTGTTTGGAAGGCACAGTGGCAATGTCTCTCTGGATGTCCTCCCCGTCAGAGGTCCGCAGGGCTCTCCCTTTCCCCCGAGAGCCGCCCGCCTGCATCAGGCCGCCCTGGCCTTGGGAGAGGCGTGGGCTGTGCAGCCCGAGCACGTGATCCTGCTGGTGCCCTCGGCCCTAGGTGACAAGGCCAAAACCGGGCATTTCCAGATTGTGAATGACTCTGCCAGGACACTGAAGTTCGAGCTGTACTGGCCAGCACACTGCTTGACGGTCACTCCGGAGCATGGGGTTGTCCCGCCAGAGAGTAAACAGCAAATTCTTGTGAGTCCTAATCTCTCCTTATCTGCAAAGCAGTCGATGTTCCCGTGGAGCGGTCTGGTCTACGTGCACTGTGACGATGGGGAGAAGAAAATTGTGAAAGTTCAAATCCGAGAAGATTTGACTCAGGAAGATCTTTTATCTCATTTGGCCTCGGGCATGTTTGGAATTCTTGCCCCGGCATCTGAGCCTCCTGTGAGTCACTGGACAAAACCTGCGACAAAGCCTCCTTCCACGCGGGTGCAGATCAGAAGCAAGACCATTACTTTTCCTGCCACGGCCCCTGGAGAAACCTCAGAGAGCTGTCTGGAGCTGGAGAACCATGGACCCACAGATGTGAGGTGGCATGTGTCGTCCTTTGCCCCGCCATACGTCAAGGGTGTCGATGAAAGCGGAGATGTCTTTCGAGCTACCTATGCAGCATTCAGGTGCGCTCCTCTTTCTGGCACGCTGGGAAGCCACGGGACTCAAAAGGTCTCCGTCACCTTCCTGCCGAGAGATCGAGGGAATTATGCCCAGTTTTGGGATGTCGAGTGCCACCCTGTTAAGGAGCCTCACTTGAGACACACGTTGAGATTCCAGCTCTCTGGACAAAGCGTCCGAGCAGGGGAGGAGCCGCCTGCCCACGCGGCCACCGCCACCGGCAGCCTGGCGAGGTTGGAGGGCAGGCCTCGCAGACGCGCCGCCTCGGAGCCCGCCCTCCCGCCGGGGCCGCCGGAGCCCCCAGCCAGCGCCAGCCCGCGAGGCGTGTACACGCCGCAGGACGCCTACACCTTCCCGCCCACGCGCGTCGGGGAGGCGCGGGCGCTGAAGGTCAGCGTGCGGAACAGTTCCTTCGTGACGCGGGCGCTCAAGTTCGTGCCGCCCCGGGAGCCGTTCCACGTGCGGCACTCCAGGTACTCCCTGAGGGCCCGGCACTACATCCACATCCCCGTGCACTTTCGGCCCACGGCGGCGGGCAGCTTCCAGGCGCTGCTTCTCATCCAGACGGACGGGGGCCGGAGCACGGCCGTGCGGCTGAGCGGCGAGGCCCTGGAGGACGACTGA
Rnmt RNA (guanine-7-) methyltransferase
>XM_004853289.1 ATGGAAAATTCTACAAAAGCAGAAGACTATCAAAAGATGTCTTTTAAAGAGGGAAATTCATCAGTAGATTGTGAAACAAAGTCTTTACTCAGTATTGATGAAACCTCAACAGCTTCTGGGGCTGGACTTTCTGAAAAGACTCCTGTCTGTGAGCAAGTGGATGTATCAAGAAAGAGGAAAAAGTTTGAGGACGATCTTGTAGAGGAAAGTTATGGGGAAGATACTCCATCCAAGAAAAGAAATCTTGGTGTTGAAATTGTCCTAGAGGAAAAAGCTTCAGGTGATGCTGACAGCTTTTCAAAGAAAAGAAAAATGGAAGCTGATAGTGTTCCTTCTACAGGAGATAGCACTCAGAAAAAGAGAAAACTAGAACTCGACGATGTTCCTGAAAAGCAGAAAAAGCTAGAAGGACACAGCTCTGCAGTTGCTGCCCACTACAATGAGCTTCAGGAAGTTGGTTTAGAGAAGCGTAGTCAAAGTCGTATTTTTTACCTAAGAAACTTCAATAATTGGATTAAAAGTGTCCTTATTGGGGAATTTTTAGAAAAGGTACGACAGAAAAAAACCCGTGATATCACTGTTTTGGACCTGGGATGTGGTAAAGGTGGAGATTTGCTGAAGTGGAGAAAAGGAAGAATTAGCAAGCTGGTTTGTACTGATATCGCTGACATTTCTGTCCAGCAGTGCCAGCAGCGGTATGAGGACATGAAAAATCGTCGTGATAATGAATATCTTTTTAATGCCGAATTTATAACTGCTGACTCTTCAAAGGAACTTTTAGTTGATAAATTTCGTGACCCAGAAATGTGCTTTGACATCTGCAGTTGTCAGTTTGTCTGTCATTACTCCTTTGAGTCCTATGAGCAGGCTGACGTGATGCTCAGAAATGCTTGTGAGAAACTCAGCCCCGGAGGCTACTTTATTGGAACCACTCCCAATAGCTTTGAACTGATAAGACGTCTTGAAGCTTCAGAAACAGAATCATTTGGAAATGAAATATATACTGTGAAATTTCAGAAGAAAGGAGATTATCCTTTATTTGGCTGCAAATATGACTTCAACTTGGAAGGTGTTGTGGATGTCCCTGAATTCTTGGTCTATTTTCCATTGCTAACTGAAATGCTGAAGAAGTACAGTATGAAACTAGTCTACAAAAAAACATTTATGGAATTCTTTGAAGAAAAGATTAAGAACAATGAAAATAAAATGCTGTTAAAACGAATGCAGGCCCTAGAGCCATACCCTGCAAATGAGAACTCTAAACTTAACTCTGAGAAGGCAGGTGATTATGAGCACGCAGCAGCATTCATGAAGAATAGTCAAGTGAGGTTACCACTGGGAACCCTAAGTAAATCAGAATGGGAAGCTACAAGTATTTACTTGGTCTTTGCCTTTGAGAAGCAGCAGTAA
Cep192 centrosomal protein 192kDa, transcript variant X3
Length: 4314 bp Location: 19976276..20010802 Strand: +>XM_004853283.1 ATGCACCCTGAAAACAGCGAACTGGCCAGTGAGCTGAGCACCACCATCATCCGCAGCAGTCCAGTGCCCCCCGAGGAAGATGCAGCACTCTCCCTTGGGCAGCGCGGGGTCCGGAGCGAGGCTGCAGCTGCTTCTCTGGCTGGCGGGCCTCGGGACACAGAACCTCACTCCAACACGAGCCAGGACCCTTCCTCTGTGAGCGGAGAGCAGTGGGAAGCCCGGGAGGCAGTGAGGACGTCCCGCTGCGGGAGATGCCAGGTCCTGGGGCAGCCAGGCCTCGGCCACTGGGCAGGCCCAGCTGCTCCACAGCCCGCGGACGGAGGCCAGAGGCCAGCCTCTGGCGAAGCCCGCAGTGCATCTAGGGCCCAGGCTCCTCATCGGAGCGTCCCCACATGCCAGCCTGCCCCCGCCACTGCACTGCAGAGCGCGTCCTCTGTGTGCCCTGCACTCTGGGCCGGAGCCCCTCTCGCCACAGCTGCCTTGGCCCAGCAGTGCATGGGGACGAGTGTCGCCCTGCCTCCTCCAGGCCATGCAGGCAGCGCCCTGGTCTGCAGGCTCCCGGGCTGCCCCCCTTACCCGGCCACGGCAGGGGAGCATGTTCAGAACCCTGTGGCAGTGGGGCTTTGTCTAGGGCCGAGTCCCACCTCGGGACTGCTGGGCCCCTCTGCCCTCGGCAGCCCGTGTTCTGATGCATTCTGCCAGCACCTCCTCGGCACAGTGCAGCCTTTGCCCGCGCACCCTGCCCGCGCAGCCTGTGGGACTGAACACTGGAATTCAGGAATGGCGGCAGGGTTTGCAAGCGTCAGGGTGCCGGAGGAGCTGAAGTTCCCTTCCACTTGCTGCGTGGGCATTGCCTCGCAGACCCGCCTCAGCGTGCTCAACCCCTCTGACCGCTGGCTCCAGGTCAGCGTCGTGGCGCTAAGCGTCAGCGTCAATGGTGAGAAGGTGGATCTTTCAACATATCCTTGTTTAGTTTTCAAGAATAAAGTCATCGTAAGACCACATGCAACAGAAGAGATAGCAGTGCTTCTCTTACCCCTGGATCCCGGGCTTTTCCGATGTGTGTTCAGGGTTGCTTCGTGGCCGTTTTCGGCGGACCCTGAGACGATCATGCAGGCAGAAGCCTTGGCAAGCAGAGTTGTCCTTACTGCCATCGCCGAGAGCCCTGCTATTGAGGTAGAAACAGAAAGGAAAGGTGTTCTTGATTTTGGTGACTTGACATACGGAGGCTGGAAGGCCCTCCCGCTCAAACTGATAAACAGGTCCCATGCCTCCGTGCCCCTCAGACTGAGCATTAGCGCTAATGCCGTAGCCTGGTGCTGCTTCACGCTTTCCAAGGAACCGGTCCCTACTTCCCTGAAAGCTGCTCCTTATGCCGATGTGGTGGCTCAGCTGGCAGCTCCGTCCGTGGTCAGCCACGTGATGCCCGCCAGTTACGAAGGACAGGATCCAAAATTTCTGATAATTTGGGTTCTTTTCCATACTCCAAAGAAACTAATTGCTTCTTCAGAGATTCTAGATCCAGCAGAAGAGTTCGTGGCAAGAGTCGATATCGAAGTGGACAGCCCGAACCCCAGCCCAGCTCTCAGCAGCGTGGGTCTCCGAGCAAGAGCAGGCACCGCCAGGATCCACGCCCCCAGGGACCTGCAGACTGTGCATTTGTTGGCCAGTGTGAATTCTGCAGCAAAGCAGCCCTTACCTCTGAAAAATGCTGGAAATATCGAAGTTTATTTAGATATCAAGGTCCCAGAGCAAGGAAGTCACTTTTCAGTGTATCCGGAGAATCTGTTCCTCAAGCCTGGAGAAGAGCATGAAGTGATGGTTTCCTTTACACCGCGGGACCCCAAAGCCTGTGAAGAAAGGATCTTGAAGATATTTGTGCATCCATGTGGACCTCAGTATGAAGTAGTGTTAAAGGGCGAAGCTGTTTCTTCGGGAAGTCAGACTGTGCCCCCAGGCCCTTGCTGCCCAGATCTTCCGTCCCTTCTGTCCAACAAGCAGTTCCTGGCCTGGGGCGGGGTCCCCCTGGGCAGGACACAGCTTCAGAAGCTGGTTTTAAGAAGCAGTTGTGCCTCCACAGCCCAGCACTTACGACTGCTCATCAGAGGGCAGGACCAGGACTGCTTTCAGCTTCAGAACACTTTTGGCTCAGAAGAGCGATTGACCAGTAACTGTGAGGTTAGAATTGGCCCAAAGGAAGACATTGTCATCTCTGTGTTATTCGCTCCTACTCGATTATCTTGTATGTTGGCCAAACTAGAAATCAAACAACTCAGAAATCGATTACAGCCCGGTGTTAAATTCATGATACCTTTGTCTGGATATGGAGGAACAAGTAATCTTATTTTGGAAGGAGTCAAGAAATTGTCTGACAGTTACATGGTAACAGTGAACAGCTTAGTACCTGGCAAGGAGAGCCGAGCTGTACTTTCTGTCCGCAACACTGGCTCACGAGCAGCTTTCATTAAAGCAGTAGGCTTTAGAGATTATCAGAAAAAAGTTCTGTTGGATCCTAAAGTATTGAGGATTCTTCCAGATAAATTTGTACTCAAGGAAAGAACACAAGAAGATATTACTATCATATACCGCCCTCCAGACCGAGGGCGTGACCACAGAGCTTCAGTGGAGCTGTCAACTGTGTACTTCTTTGGTGGAGATGAAATTTGCCGACAGCAGTATCGAAGAGCCGTGTCTCAGAATCCAGGGGTTGTCAGGCGGATCCTTCCAGCACATAGTGTGCTGCACAGCGTTGACTTTGCCGAGGTGTTTCAGGACGAGCTGCTCGTGGATGAAGTCTATGATCTTCCTCAGCGGCCTAATGATGTTCAGCTCTTTTATGGAAACATGCGTAAAATTATCCTTTCGGTACTTGGAGAATTCCGAGATTCCATTTCCAGTAGAGAATTTCTTCCGCCTTCTTCCCAAGCTAGCTTGGAATCCAGAAGGGATGAAGGACTGTTTGGAAGGCACAGTGGCAATGTCTCTCTGGATGTCCTCCCCGTCAGAGGTCCGCAGGGCTCTCCCTTTCCCCCGAGAGCCGCCCGCCTGCATCAGGCCGCCCTGGCCTTGGGAGAGGCGTGGGCTGTGCAGCCCGAGCACGTGATCCTGCTGGTGCCCTCGGCCCTAGGTGACAAGGCCAAAACCGGGCATTTCCAGATTGTGAATGACTCTGCCAGGACACTGAAGTTCGAGCTGTACTGGCCAGCACACTGCTTGACGGTCACTCCGGAGCATGGGGTTGTCCCGCCAGAGAGTAAACAGCAAATTCTTGTGAGTCCTAATCTCTCCTTATCTGCAAAGCAGTCGATGTTCCCGTGGAGCGGTCTGGTCTACGTGCACTGTGACGATGGGGAGAAGAAAATTGTGAAAGTTCAAATCCGAGAAGATTTGACTCAGGAAGATCTTTTATCTCATTTGGCCTCGGGCATGTTTGGAATTCTTGCCCCGGCATCTGAGCCTCCTGTGAGTCACTGGACAAAACCTGCGACAAAGCCTCCTTCCACGCGGGTGCAGATCAGAAGCAAGACCATTACTTTTCCTGCCACGGCCCCTGGAGAAACCTCAGAGAGCTGTCTGGAGCTGGAGAACCATGGACCCACAGATGTGAGGTGGCATGTGTCGTCCTTTGCCCCGCCATACGTCAAGGGTGTCGATGAAAGCGGAGATGTCTTTCGAGCTACCTATGCAGCATTCAGGTGCGCTCCTCTTTCTGGCACGCTGGGAAGCCACGGGACTCAAAAGGTCTCCGTCACCTTCCTGCCGAGAGATCGAGGGAATTATGCCCAGTTTTGGGATGTCGAGTGCCACCCTGTTAAGGAGCCTCACTTGAGACACACGTTGAGATTCCAGCTCTCTGGACAAAGCGTCCGAGCAGGGGAGGAGCCGCCTGCCCACGCGGCCACCGCCACCGGCAGCCTGGCGAGGTTGGAGGGCAGGCCTCGCAGACGCGCCGCCTCGGAGCCCGCCCTCCCGCCGGGGCCGCCGGAGCCCCCAGCCAGCGCCAGCCCGCGAGGCGTGTACACGCCGCAGGACGCCTACACCTTCCCGCCCACGCGCGTCGGGGAGGCGCGGGCGCTGAAGGTCAGCGTGCGGAACAGTTCCTTCGTGACGCGGGCGCTCAAGTTCGTGCCGCCCCGGGAGCCGTTCCACGTGCGGCACTCCAGGTACTCCCTGAGGGCCCGGCACTACATCCACATCCCCGTGCACTTTCGGCCCACGGCGGCGGGCAGCTTCCAGGCGCTGCTTCTCATCCAGACGGACGGGGGCCGGAGCACGGCCGTGCGGCTGAGCGGCGAGGCCCTGGAGGACGACTGA
LOC101720445 low-density lipoprotein receptor class A domain-containing protein 4-like
Length: 894 bp Location: 20124559..20269447 Strand: +>XM_004853317.1 ATGAGGTCTGTCTGCAGCTGGTCATCACAAGAGCTGTGCAGGGCTCATCCTGATGAATGTGTGCAAGGTGCTCCAGTGCCAGAGTGCAAATTCACCTGCACCAGCGGTAAATGCTTGTATCTTGGTTCACTGGTCTGTAACCAACAGGATGACTGCGGGGACAACAGTGACGAAGACAACTGTCTCCTGGTGACTGAGCATCCGCCTCCGGCCATCTTCAATTCGGAGCTGGAGTTCGCCCAAATCATCATAGTCATCGTGGTGGTCACCGTGATGCTCGTGGTCATCGTCTGCCTGCTGAGCCACTACAAGGTCTCCACGCGCTCCTTCATCCAGCGCCCGAGCCCAGGCAGGCGTCGAGGGGAAGGGCTGCCGCCGGAGGGGCACCTGTGGCCTCCAGATGCTGCTGTGCTGCGGCCCGGGGCCTCAGAGGTCCCCTGCCCCCCGACTGTCACCACGGCTTTCCTATCGCCCCTGCAGGTCACCTTCGCGCCGTGGGACCGCTTCGGCCGCCCGGCCCCGGCCCTGGCCCTGTCGTATGCGCGGCCCGACCTGCACCTGCCGCCCACCATCTCGCTGGCAGACGGCGAGGAGCCGCCCCCGTACCTGGGCGCCCGCGCGCTGCGCCTGCGCGACCCCGAGCAGCAGCGCGAGCTCAGCCGCGAGTCCGTGCGCGCGCCGCCCAACCGCACGGTGTTCGCCGGCGGCCCTGGGGCCTCGTGCCCGTGCCCGCCCAGCAGCCGCGCGGGAGTCAGCGCCGCTGCCCACTGCGGCCCAGGGCACAGCGGGCCGGGCGGGGCGTGCGGGGCCGGGCCGCCGCCGCCCTACAGCGAGGCGACCGGGACCTCGCGGCGCACACAGGACCAGGACCGCAGGCCCGGGGACCCCGCCTGA
Fam210a family with sequence similarity 210, member A, transcript variant X4
>XM_004853288.1 ATGCAGTGGAACGTACTGCGGACTGTGTCTCAGCTGGCACATAGGACGTGGCTGGAGCCACGGGCGGCTGGCCTGTTTGGACACTGGCACCATGTGAAGGGACCATTGCTTTTGCACCGTGCCAAGTCCACAGTGATTTGGGCCCAAAGCCCTCAGGAGTGGTGGCTGCACTCACCTGCGGCCCGGTGCCTGGTGGAGGAGCGGAAGCCATTGTCTGCACAGCCCCTCCAGTCCAGGGTCCTGTGCCACAAACGATGGGCGCGGGATGTTTCGTCTGCCAGGGGTCTATCATCCAGTGCCGCCCAAGGATCGCCTTCAGACAAAAAGGAAGAGCCTGACCCTTTGCAGGACAAATCTATTAGTCTTTATCAGCGGTTTAAGAAGACATTTAGACAATATGGGAAGGTTTTGATCCCTGTGCATCTAATAACTTCTGGTGTTTGGTTTGGAACCTTTTATTATGCAGCCATGAAAGGAGTGAATGTCATTCCTTTTCTAGAGCTCATCGGGTTACCTGACAGTATTGTGAACATCCTGAAAAACTCCCAGAGTGGAAATGCCCTGACAGCCTATGCCATGTTCAAGATTGCAACGCCTGCGCGCTACACAGTGACCTTGGGAGGAACGTCCTTCACAGTGAAGTATCTGCGTGGTCATGGCTACATGTCGACCCCACCGCCCGTCAAGGAGTATCTGCAGGACAGGATGGAGGAGACTAAGGAGCTCCTCACAGAGAAGATGGAGGAGACCAAGGACAGACTCTCAGAAAAACTGCAAGAAACCAAAGAAAAAGTTACCTTTAAGAAGAAAGTGGAATAG
Fam210a family with sequence similarity 210, member A, transcript variant X2
Length: 819 bp Location: 20312464..20290086 Strand: ->XM_004853286.1 ATGCAGTGGAACGTACTGCGGACTGTGTCTCAGCTGGCACATAGGACGTGGCTGGAGCCACGGGCGGCTGGCCTGTTTGGACACTGGCACCATGTGAAGGGACCATTGCTTTTGCACCGTGCCAAGTCCACAGTGATTTGGGCCCAAAGCCCTCAGGAGTGGTGGCTGCACTCACCTGCGGCCCGGTGCCTGGTGGAGGAGCGGAAGCCATTGTCTGCACAGCCCCTCCAGTCCAGGGTCCTGTGCCACAAACGATGGGCGCGGGATGTTTCGTCTGCCAGGGGTCTATCATCCAGTGCCGCCCAAGGATCGCCTTCAGACAAAAAGGAAGAGCCTGACCCTTTGCAGGACAAATCTATTAGTCTTTATCAGCGGTTTAAGAAGACATTTAGACAATATGGGAAGGTTTTGATCCCTGTGCATCTAATAACTTCTGGTGTTTGGTTTGGAACCTTTTATTATGCAGCCATGAAAGGAGTGAATGTCATTCCTTTTCTAGAGCTCATCGGGTTACCTGACAGTATTGTGAACATCCTGAAAAACTCCCAGAGTGGAAATGCCCTGACAGCCTATGCCATGTTCAAGATTGCAACGCCTGCGCGCTACACAGTGACCTTGGGAGGAACGTCCTTCACAGTGAAGTATCTGCGTGGTCATGGCTACATGTCGACCCCACCGCCCGTCAAGGAGTATCTGCAGGACAGGATGGAGGAGACTAAGGAGCTCCTCACAGAGAAGATGGAGGAGACCAAGGACAGACTCTCAGAAAAACTGCAAGAAACCAAAGAAAAAGTTACCTTTAAGAAGAAAGTGGAATAG
Fam210a family with sequence similarity 210, member A, transcript variant X3
Length: 819 bp Location: 20312426..20290086 Strand: ->XM_004853287.1 ATGCAGTGGAACGTACTGCGGACTGTGTCTCAGCTGGCACATAGGACGTGGCTGGAGCCACGGGCGGCTGGCCTGTTTGGACACTGGCACCATGTGAAGGGACCATTGCTTTTGCACCGTGCCAAGTCCACAGTGATTTGGGCCCAAAGCCCTCAGGAGTGGTGGCTGCACTCACCTGCGGCCCGGTGCCTGGTGGAGGAGCGGAAGCCATTGTCTGCACAGCCCCTCCAGTCCAGGGTCCTGTGCCACAAACGATGGGCGCGGGATGTTTCGTCTGCCAGGGGTCTATCATCCAGTGCCGCCCAAGGATCGCCTTCAGACAAAAAGGAAGAGCCTGACCCTTTGCAGGACAAATCTATTAGTCTTTATCAGCGGTTTAAGAAGACATTTAGACAATATGGGAAGGTTTTGATCCCTGTGCATCTAATAACTTCTGGTGTTTGGTTTGGAACCTTTTATTATGCAGCCATGAAAGGAGTGAATGTCATTCCTTTTCTAGAGCTCATCGGGTTACCTGACAGTATTGTGAACATCCTGAAAAACTCCCAGAGTGGAAATGCCCTGACAGCCTATGCCATGTTCAAGATTGCAACGCCTGCGCGCTACACAGTGACCTTGGGAGGAACGTCCTTCACAGTGAAGTATCTGCGTGGTCATGGCTACATGTCGACCCCACCGCCCGTCAAGGAGTATCTGCAGGACAGGATGGAGGAGACTAAGGAGCTCCTCACAGAGAAGATGGAGGAGACCAAGGACAGACTCTCAGAAAAACTGCAAGAAACCAAAGAAAAAGTTACCTTTAAGAAGAAAGTGGAATAG
Fam210a family with sequence similarity 210, member A, transcript variant X1
Length: 819 bp Location: 20300320..20290086 Strand: ->XM_004853285.1 ATGCAGTGGAACGTACTGCGGACTGTGTCTCAGCTGGCACATAGGACGTGGCTGGAGCCACGGGCGGCTGGCCTGTTTGGACACTGGCACCATGTGAAGGGACCATTGCTTTTGCACCGTGCCAAGTCCACAGTGATTTGGGCCCAAAGCCCTCAGGAGTGGTGGCTGCACTCACCTGCGGCCCGGTGCCTGGTGGAGGAGCGGAAGCCATTGTCTGCACAGCCCCTCCAGTCCAGGGTCCTGTGCCACAAACGATGGGCGCGGGATGTTTCGTCTGCCAGGGGTCTATCATCCAGTGCCGCCCAAGGATCGCCTTCAGACAAAAAGGAAGAGCCTGACCCTTTGCAGGACAAATCTATTAGTCTTTATCAGCGGTTTAAGAAGACATTTAGACAATATGGGAAGGTTTTGATCCCTGTGCATCTAATAACTTCTGGTGTTTGGTTTGGAACCTTTTATTATGCAGCCATGAAAGGAGTGAATGTCATTCCTTTTCTAGAGCTCATCGGGTTACCTGACAGTATTGTGAACATCCTGAAAAACTCCCAGAGTGGAAATGCCCTGACAGCCTATGCCATGTTCAAGATTGCAACGCCTGCGCGCTACACAGTGACCTTGGGAGGAACGTCCTTCACAGTGAAGTATCTGCGTGGTCATGGCTACATGTCGACCCCACCGCCCGTCAAGGAGTATCTGCAGGACAGGATGGAGGAGACTAAGGAGCTCCTCACAGAGAAGATGGAGGAGACCAAGGACAGACTCTCAGAAAAACTGCAAGAAACCAAAGAAAAAGTTACCTTTAAGAAGAAAGTGGAATAG
Mc5r melanocortin 5 receptor
>XM_004853290.1 ATGAACTTCTCGTTCCCCCTGCGTTTCCTGGACCTCCACCTGAACGCCACTGAGGGCAACTTCTCGGGAGCGGAGGGTGGGAACGGGTCCTCGCCGTGTGAAGACATGGGCATCGCCGTGGAGGTGTTCCTGGCCCTGGGCCTCCTCAGCCTCTTGGAGAATGTCCTGGTGGTCGGCGCCGTCGTGAAGAACAGGAACCTGCACTCCCCCATGTACTTCTTTGTGTGCAGCTTGGCGGTGGCCGACATGCTGGTGAGCGTGTCCAACGCCTGGGAGACGGTCACCATCTACCTGATCAGCAGCAAGCAGCTGGTGATCGCGGACGCCTCCCTGCGCCACATCGACAACGTGTTTGACTCCATGATCTGCATCTCTGTGGTGGCCTCCATGTGCAGCTTGCTGGCCATCGCGGTGGACAGGTACGTCACCATCTTCTACGCCTTGCGCTACCACCACATCATGACAGCGAAGCGCGCTGGGGCCATCATCGCGGCCATCTGGAGCTTCTGCACGGGCTGCGGCACCGTTTTCATCCTCTATTATGAGTCCACCTACGTTGTCGTCTGCCTCATTTCCATGTTCTTCACCATGCTGTTCCTCATGGTGTCCCTGTACATACACATGTTCCTCCTGGCACGGGCTCATGCCAGGCGGATTGCAGCTGCACCCGGATACAGCTCTCTGCGGCGCAGAGCCAGCTTGCAGGGCGCGGTCACCCTCACCATGCTGCTGGGGGTGTTCACCGTGTGCTGGGGGCCCTTCTTCCTCCATCTCATCCTGATGCTCTCATGCCCCAAGAACATCTACTGCTCCTGCTTCATGTCTCACTTCAACATGTACCTCATCCTCATCATGTGCAACTCTGCAATCGACCCTCTGATTTATGCCTTCCGCAGCCCGGAGATGAGGAAGACCTTCAAGGAGATCATTTGCTGCCACGGCTTCAGGACAGGCTGCTGGCTCCCTCGCAGGTATTAA
Mc2r melanocortin 2 receptor (adrenocorticotropic hormone), transcript variant X1
Length: 885 bp Location: 20476355..20431735 Strand: ->XM_004853291.1 ATGAAGCACATTATCCACACAAATGGAAATGTCAATGGCACAGCAAGAAACACCTCAGACTGTCCCCATGTGGCTTTGCCGGAAGAGATGTTTTTCATCATCTCCATTGCTGGGGTTTTGGAAAACCTCATCATCCTCCTGGCCGTGATCAAGAACAAGACCCTCCAGTCCCCCATGTACCTTTTCGTCTGTAGCTTGGCCGTTTCTGACATGCTGGGAAGCCTGTATAAGATCGTGGAAAATATCCTAATCATGTTCAGAAACATGGGTTATCTCAAGCCCCGTGGCAGTTTTGAAGCCACAGCAGATGACATCATTGACACCATGTTTATCCTCTCCCTGCTTGGCTCCATCTTTAGCCTACTGGCAATTGCTGTTGATCGCTACATCACCATCTTCCACGCCCTGCAGTACCACAGCATTGTGACCACGCGCCGCACTATTGCCACTCTGGCAGTCATCTGGACCTTTTGCATTGGAAGTGGCATTGCCATGGTGATCTTCTCCCATCATGTCCCCACAGTGCTCACCTTCGCCTCACTGTTCCCTCTGATGCTGGTCTTTATCCTCTGCCTCTATGTACACATGTTCCTGCTGGCTCGCTCTCATGTCAGGAACATCTCCACCCTTCCCAGAGCCAACATGAGAGGGGCCATCACCTTGACCATCCTGCTGGGGGTCTTCATCTTCTGTTGGGCCCCTTTCATCCTTCACATCCTTTTAATGACCTTCTGTCCCAGAAACCCCTATTGTACCTGTTACATGTCCCTCTTCCAGGTGAACGGCATGCTGATCATGTGCAATGGAGTCATTGACCCCTTCATCTATGCCTTCCGGAGTCCAGAGCTCAGGGGTGCATTCAGAAGGATGATATCCTATTGCTAG
Mc2r melanocortin 2 receptor (adrenocorticotropic hormone), transcript variant X2
>XM_004853292.1 ATGAAGCACATTATCCACACAAATGGAAATGTCAATGGCACAGCAAGAAACACCTCAGACTGTCCCCATGTGGCTTTGCCGGAAGAGATGTTTTTCATCATCTCCATTGCTGGGGTTTTGGAAAACCTCATCATCCTCCTGGCCGTGATCAAGAACAAGACCCTCCAGTCCCCCATGTACCTTTTCGTCTGTAGCTTGGCCGTTTCTGACATGCTGGGAAGCCTGTATAAGATCGTGGAAAATATCCTAATCATGTTCAGAAACATGGGTTATCTCAAGCCCCGTGGCAGTTTTGAAGCCACAGCAGATGACATCATTGACACCATGTTTATCCTCTCCCTGCTTGGCTCCATCTTTAGCCTACTGGCAATTGCTGTTGATCGCTACATCACCATCTTCCACGCCCTGCAGTACCACAGCATTGTGACCACGCGCCGCACTATTGCCACTCTGGCAGTCATCTGGACCTTTTGCATTGGAAGTGGCATTGCCATGGTGATCTTCTCCCATCATGTCCCCACAGTGCTCACCTTCGCCTCACTGTTCCCTCTGATGCTGGTCTTTATCCTCTGCCTCTATGTACACATGTTCCTGCTGGCTCGCTCTCATGTCAGGAACATCTCCACCCTTCCCAGAGCCAACATGAGAGGGGCCATCACCTTGACCATCCTGCTGGGGGTCTTCATCTTCTGTTGGGCCCCTTTCATCCTTCACATCCTTTTAATGACCTTCTGTCCCAGAAACCCCTATTGTACCTGTTACATGTCCCTCTTCCAGGTGAACGGCATGCTGATCATGTGCAATGGAGTCATTGACCCCTTCATCTATGCCTTCCGGAGTCCAGAGCTCAGGGGTGCATTCAGAAGGATGATATCCTATTGCTAG
Seh1l SEH1-like (S. cerevisiae), transcript variant X2
>XM_004853280.1 ATGTTCGTGGCGCGCAGCATCGCGGCAGACCATAAGGACCTCATCCACGATGTCTCCTTCGACTTCCACGGGCGGCGCATGGCCACCTGCTCCAGCGACCAGAGCGTCAAGGTCTGGGATAAAAGCGAAAGTGGAGATTGGCATTGTACAGCTAGCTGGAAGACGCACAGTGGATCTGTGTGGCGTGTGACATGGGCCCATCCTGAATTTGGACAGGTTTTGGCTTCCTGTTCTTTTGATCGAACAGCCGCTGTGTGGGAAGAAATAGTCGGAGAGTCGAATGATAAGCTGCGTGGACAGAGTCACTGGGTGAAGAGGACCACACTGGTGGATAGCAGAACATCTGTTACTGATGTGAAGTTTGCTCCCAAGCACATGGGTCTCATGTTGGCCACCTGCTCAGCAGATGGAATAGTCCGGATATATGAGGCACCTGATGTCATGAATCTCAGCCAGTGGTCCCTACAGCATGAGATCTCTTGCAAACTGAGCTGCAGTTGCATTTCTTGGAACCCTTCAAGCTCCCGTGCTCACGCGCCCATGATCGCTGTAGGAAGTGATGACAGCAGCCCAAACGCCGTGGCCAAGGTTCAGATTTTTGAATACAATGAAAACACCAGGAAATATGCAAAAGCTGAGACTCTGCTGACTGTCACCGACCCAGTGCATGACATTGCCTTTGCTCCAAACTTGGGACGGTCTTTCCACACGCTGGCAGTTGCAACCAAAGATGTAAGAATTTTCACGTTAAAACCTGTGAGGAAAGAACTCACTTCCTCAGGTGGGCCAACAAAATTTGAAATCCATATCGTGGCTCAGTTTGATAACCACAACTCCCAGGTCTGGCGAGTGAGTTGGAACATTACAGGAACTGTGCTGGCATCTTCAGGAGATGACGGCTGTGTCAGGTTGTGGAAAGCTAATTACATGGACAATTGGAAGTGCACTGGGATTCTGAAAGGTAATGGGAGCCCAGTCAATGGGAGTTCTCAGCAGGGAAACTCAAATCCTTCCCTAGGTTCAAACGTTCCAAATCTTCAAAGCTCATTAAATGGATCTTCTGCTAGCAGAAAGCACAGCTGA
Vapa VAMP (vesicle-associated membrane protein)-associated protein A, 33kDa, transcript variant X2
>XM_004853239.1 ATGGCGTCCGCCTCCGGGGCCATGGCGAAACACGAGCAGATCTTGGTCCTCGACCCGCCCACAGACCTCAAATTCAAAGGCCCCTTCACAGATGTAGTCACTACAAATCTTAAATTGCGAAATCCATCAGACAGAAAAGTGTGTTTCAAAGTGAAGACTACAGCACCTCGCCGGTACTGTGTGAGGCCCAACAGTGGAATTATTGACCCAGGGTCGACGGTGACTGTTTCAGTAATGTTACAGCCCTTTGATTATGATCCAAATGAAAAGAGCAAACACAAGTTTATGGTACAGACGATTTTTGCTCCACCAAACACTTCGGATATGGAAGCAGTGTGGAAAGAGGCAAAACCTGATGAATTAATGGATTCTAAATTGAGATGTGTATTTGAAATGCCGAATGAAAATGATAAATTGAACGATATGGAACCTAGCAAAGCTGTCCCGCTGAATGCATCTAAACAAGACGGACCCATGCCAAAACCGCACAGTGTTTCACTCAGTGATACTGAGACGCGGAAGCTCATGGAAGAGTGTAAAAGACTTCAGGGAGAAATGATGAAGCTGTCAGAAGAAAATCGACACCTGAGAGAGGAAGGCTTAAGGCTCAGGAAGGTAGCACATTCGGAGAAGCCTGGCTTGCCCTCGGCCACGTCCTTCAGAGACAACGTCACCAGTCCTCTCCCCTCACTCCTCGTTGTGATCGCAGCCATCTTCATCGGGTTCTTTCTAGGGAAGTTCATCTTGTAG
Slmo1 slowmo homolog 1 (Drosophila), transcript variant X2
Length: 540 bp Location: 19639004..19644901 Strand: +>XM_004853263.1 ATGAGGATCTGGAGCTGCGAGCACGTGTTCGGCCACCCGTGGGACACGGTGATCAAGGCTGCCATGAGGAAGTACCCGAACCCCATGAACCCCAGCGTGGTGGGTGTGGATGTCCTGGAGCGCGCTGTGGATGGCCGAGGGCGGCTGCACAGCCTGCGCCTGCTAAGCACCGAGTGGGGGCTGCCGGGCCTGGTCACCGCGATTTTGGGAACCAGTAGGACCCTGACCTACATCAAAGAGCACTCTGTGGTAGACCCAGCCGAGAAGAAAATGGAGCTTTTCTCCACCAATGTCACATTGCGGAACCTGGTGTCGGTAAATGAGAGGCTGGTGTACGCCCCGCACCCAGAGCACCCCGGGAAGACGGTGCTCACGCAGGAGGCTGTCATCTCCGTGGAGGGCACAGGCCTGGGCCGCTACCTGGAGAGCCTGATGGCCAGCACCATATCGTCCAACGCCAGGAAGGTGTGCACCCAGGCCCGTGCCAGAGCTCAGCCCCTGCACCCGCCCAGGGCCGGGCCCCTCAGTGACAGCAACTGA
Klhl14 kelch-like family member 14, transcript variant X2
>XM_004853103.1 ATGTCCAGATCCGGGGACAGGACCTCCACCTTCGACCCCAGCCACAGCGACAACCTGCTGCACGGCCTCAACCTGCTGTGGAGGAAGCAGCTGTTTTGCGACGTGACCCTGACGGCCCAGGGCCAGCAGTTCCACTGCCACAAGGCCGTGCTGGCCTCCTGCTCGCAGTACTTCCGATCGCTCTTCTCCAGCCACCCCCCTCTCGGGGGAGGGGTCGGCGCCCAGGACGGCCTGGGGGCCCCCAAGGACCAGCAGCAGCCCACGCCGCAGCCGCAGTCGACCCAGCAGCCTCCGCCGCCTCCGCAGGAGGAGCCCGGGACTCCTTCCTCCTCCCCCGACGACAAGCTGCTGACCAGCCCCCGGGCCATCAACAACCTGGTGCTGCAGGGCTGCTCGTCCATCGGGCTGCGCCTGGTGCTCGAGTACCTCTACACGGCCAACGTGACCCTCTCCTTGGACACCGTGGAGGAGGTGCTGTCGGTCAGCAAGATCCTGCATATCCCCCAGGTCACCAAGCTCTGTGTGCAGTTCCTCAACGACCAGATCTCTGTGCAGAATTACAAGCAGGTGTGTAAGATAGCCGCGCTGCACGGCCTGGAGGAGACCAAGAAGCTGGCCAACAAGTACCTGGTGGAGGACGTGCTGCTCCTCAACTTCGAGGAGATGCGCGCCCTGCTGGACTCGCTGCCGCCCCCCGTGGAGTCGGAGCTGGCGCTCTTCCAGATGTCCGTGCTGTGGCTGGAGCATGACCGCGAGACCCGCATGCAGTACGCGCCCGACCTCATGAAGCGCCTCCGCTTCGCGCTCATCCCAGCCCCAGAGCTGGTGGAGCGGGTCCAGTCAGTGGATTTCATGCGCACCGACCCTGTCTGCCAGAAGCTGCTGCTGGACGCCATGAACTACCACCTGATGCCCTTCAGGCAGCACTGCAGGCAGAGCCTGGCCAGCAGAATTCGCTCTAACAAGAAAATGCTGTTATTGGTCGGAGGGCTGCCTCCTGGACCGGACCGGCTCCCCAGCAATTTGGTTCAGTATTATGACGATGAAAAGAAGACATGGAAAATACTCACAATTATGCCATACAACAGTGCTCACCACTGTGTTGTAGAGGTAGAAAACTTCTTGTTCGTGCTGGGCGGAGAGGACCAATGGAATCCAAATGGAAAACATAGTACGAATTTTGTCAGTCGATACGATCCCCGATTTAATAGCTGGATTCAACTTCCTCCTATGCAAGAAAGAAGAGCCAGTTTCTATGCATGTCGATTGGACAAGCATTTATATGTTATTGGTGGGAGGAATGAAACCGGCTACTTGTCCAGCGTGGAGTGCTATAACCTGGACACAAATGAATGGCGCTATGTGTCCTCTTTGCCACAGCCTCTGGCAGCTCATGCAGGAGCAGTGCACAATGGGAAGATATACATTTCAGGGGGTGTGCACAATGGAGAATATGTCCCATGGCTATATTGCTATGACCCCGTAATGGATGTCTGGGCTCGAAAACAAGATATGAACACAAAACGTGCAATCCACACTTTGGCTGTAATGAATGATCGCTTGTATGCAATTGGAGGAAATCATTTGAAAGGTTTCTCCCACCTAGATGTAATGCTTGTGGAATGCTATGACCCAAAAGGTGACCAGTGGAATATTCTGCAAACTCCTATTCTGGAGGGTCGAAGTGGTCCTGGTTGTGCAGTGCTTGATGACAGCATTTACCTTGTGGGAGGCTACAGCTGGAGTATGGGGGCCTATAAATCGTCTACAATATGTTACTGTCCAGAAAAAGGAAGCTGGACAGAACTTGAAGGAGATGTAGCAGAACCCCTGGCAGGACCAGCCTGTGCCACAGTCATCCTGCCTGCCTGTGTGCCCTACAACAAATGA
Garem GRB2 associated, regulator of MAPK1, transcript variant X3
>XM_004853106.1 ATGACAGTCATTCTGGAAGGAGAATGCATAGAAGGACTGCGGGAGAATGATTACCTTCTGATTCATTCATGTCGTCAGTGGACCACCATCACTGCCCATAGTCTGGAAGAGGGCCACTATGTCATTGGGCCAAAGATAGAGATCCCTGTTCATTATGCAGGGCAGTTCAAGCTGCTGGAACAAGACCGCGATATAAAGGAGCCTGTGCAATATTTCAACAGTGTAGAGGAGGTGGCAAAGGCATTTCCTGAGCGCGTGTACGTCATGGAGGAAATAACATTCAACGTGAAGGTTGCTTCTGGTGAATGCAATGAAGACACGGAGGTTTACAACATAACCCTGTGCACCGGGGATGAGCTCACCCTAATGGGACAGGCGGAAATCCTATATGCAAAGACTTTCAAGGAAAAGTCCCGGCTCAACACAATCTTCAAAAAGATTGGGAAACTCAATTCGATCAGCAAGCTGGGAAAAGGCAAAATGCCATGCCTCATTTGCATGAATCACCGGACCAACGAAAGCATCAGCCTTCCATTCCAGTGCAAGGGCAGATTTAGTACGCGGAGTCCCCTGGAGCTCCAGATGCAGGAGGGTGAGCACACCATCCGCAATATCGTGGAGAAAACCAGGCTGCCTGTGAACGTGACTGTGCCCAGCCCTCCACCCAGAAACCCGTACGACCTCCACTTTATCCGAGAGGGCCACCGCTACAAGTTTGTGAACATCCAGACCAAGACAGTGGTGGTTTGCTGTGTGCTGCGGAACAACAAGATCCTCCCCATGCACTTCCCTTTGCACTTGACTGTCCCCAAGTTCAGCCTCCCGGAACACCTGGTCAAGGGAGAGGTGTGGCCTGAAACCCTGGTCCATCACTGGCTGGGTATCTGCCAAGAACAGTTTGACATTGACGAGTATTCCCGGGCTGTCCGCGATGTGAAAACGGACTGGAATGAGGACTGCAAAAGCCCCAAAAAGAGCCGGTGCTCTGGCCACAACCACATGCCCAATTCCCTGAGCTACGCCCGCGATGAGCTCACCCAGTCCTTCCACCGGCTCTCCGTCTGTGTATATGGCAACAATCTCCATGGTAACAGCGAGGTGAACCTCCACGGCTGCAGGGACCTGGGAGGAGAGTGGGCTCCCTTTCCTCATGACATCCTGCCCTATCAGGACTCTGGTGACAGTGGGAGCGACTACCTTTTCCCGGAAGCTGGTGAAGAGTCAGCGGGCGTCCCAGGGAAGTCCGAACTTCCTTATGAGGAACTGTGGCTGGAGGAAGGCAAGCCCAGCTGCCAGCCTCTCACCCACTCACTGAGCGAGAAGAGCAGATGTGACCCCTTGAGAGGCTCTGTCCGCTCCAAATGTGCAACTTCGCCTCTTCCTGTCCCTGGGACTCCGGGAGCCACAATGAAGTCTTCAGAAATTGCCCTACCTCCGCCTCCAGTGCCTCCCAAATCTGAAGCTGTCAGGGAAGAATGCCGGCTCCTGAACGCCCCACCTGTTCCACCCCGAAGCGCAAAGCCTTTGTCCACAAGTCCCTCCATCCCTCCTCGCACAGTCAAGCCAGCGCGGCCACAGACTCGCTCTCCCAGCCCCACCTTGTCCTACTATTCTTCAGGGCTGCACAACATCAGCGTTACTAAAAGTGACACAAGCCCTTCTGAAAGTGCTCCGGTTTCCTGCTATCCGTGCAACCGAGTGAAAGCCGACTCTGTGGACCTGAAGTCCCCATGCGGAAGTCCTTCCGCGGAAGCTCTGTCCTCCCGGCTCTCGTGGCCTAACCATTATTCGGGAGCATCGGAGACCCAGACCAGGAGTGACTTCCTGCTGGATCCAAGCAGGAGTTACAGTTACCCCAGACAAAAGACACCCGGCACACCAAAGAGAAACTGCCCGGCACCTTTCGATTTTGATGGCTCAGAGCTCCTGAGCGGTGCCCTCACCACAGTCACTGCAGAATCTAGTGGCGGCGCCTCAGGTTGCCCCAAGTCAGCCAGCTACTCGCTGGGGAGCACAGAGAGCGCCCCTGCGGCAAGCGTGACCAAGCAGAGTGTCTCTTGCCCTGCCTTACCGCCCAGGGCCCCAAAGCCAGTGGAACAGGAAGCGGCCGCAGAAACGTCTCCTTTGCCTCTGAGAATTGATGGTGCTGAGGAGGACCCCAAGGCACGGTCACCAGACCTCTCCGAGGACCAGTATTTTGGTAAGAAGGGCGTGCAGGACATCTTCTCTGTCTCTTACCCTTTCTCCTCTCCGCTCCACCTCCAGCTAGTCCCCAGGTCTTGTGGCGATGGTTCCCCATGGCAGCCACCTGCGGACCTGTCAGGACTCTCTATAGAAGAAGTGTCCAAGTCACTACGGTTCATTGGTTTGTCCGAAGATGTCATATCCTTCTTCGTCACTGAAAAGATTGATGGGAATTTGCTTGTTCAACTAACAGAAGAAATCCTCTCAGAGGATTTCAAATTAAGCAAACTTCAAGTGAAGAAAATAAGGCAATTCATTAATGGCTGGAGGCCCAAAATATAG
Trappc8 trafficking protein particle complex 8, transcript variant X1
Length: 4413 bp Location: 999887..1090664 Strand: +>XM_004853114.1 ATGGCCCAGTGTGTACAATCCGTGCAGGAGCTCATCCCGGACTCCTTCGTTCCCTGTGTCGCCGCGCTGTGCAGCGACGAAGTCGAGCGGCTTACTCGTCTCAATCACCTGAGCTTCGCGGAGCTGCTTAAGCCCTTCTCGCGCCTCACTTCCGAGGTTCATATGAGAGATCCTAATAATCAACTTCACATAATTAAAAATTTGAAGATAGCAGTGAGCAACATTGTCACACAACCACCTCAGCCTGGAGCCATTCGAAAGCTGCTGAATGATGTTGTTTCTGGCAGTCAGCCTTCGGAAGGATTAGTAGCTAATGTGATTACAGCAGGAGATTATGACCTTAACATCAGTGATCGATCAATTAAAGCTAGTGTTCCTTGGTACAGTAATTGGAAAGACACATTGATGGAATTGAAAGAATCCTCGTTACACACAGCTACTACTCCATGGTTTGAGTCTTACAGAGAGACCTTTCTTCAGTCGATGCCGGCATCAGATCATGAATTTCTGAACCACTATTTAGCATGTATGTTGGTAGCATCGTCTAGTGAAGCTGAACCTATGGAACAGTTTTCAAGGTTGTCACAAGAACAGCATCGAATTCAGCACAACAATGATTATTCCTACCCCAAATGGTTTATACCAAATACACTTAAATATTATGTGCTGCTACATGATGTGAGTGCAGGAGATGAACAGAGAGCTGAATCAATTTATGAAGAGATGAAACAAAAATATGGAACTCAGGGTTGCTATTTACTTAAAATTAATTCTCGAACGTCAAATCGAGCATCAGATGAACAGATACCAGATCCTTGGAGTCAGTATCTCCAGAAAAATAGTATTCAAAACCAGGAATCATATGAAGATGGCCCTTGTACTATAACTTCAAATAAGAATTATGATAGTAACTTGCTTTCATTGGATGGATTAGATAACGAAGTCAAAGTAGATGCCTTACCAAATAACTTTAGAACTCACCCACTTCAACCGGACCAGCCCAGCGAGTCTTCTAACAGCATCGATGGCCCAGACCATGTAAAATCTGCTTCTTCATTACATGAAACAAAGAAAGCAAATACTGGAGTAATTCATGGTGCGTGTTTAACACTTACTGATCATGATAGAATTCGACAGTTTATACAGGAGTTTACATTTCGCGGCCTTTTGCCACATATAGAGAAAACAATTCGGCAATTAAATGATCAGCTAATATCAAGAAAAGGTTTGAGTCGATCTCTATTTTCTGCAACTAAAAAATGGTTTAGTGGCAGTAAAGTTCCAGAAAAGAGCATTAATGAATTGAAAAACACATCTGGGCTGCTGTATCCCCCGGAAGCACCAGAGCTTCAAATCAGGAAAATGGCTGACTTATGCTTTTTGGTGCAGCATTATGACTTAGCTTACAGTTGCTATCATACCGCAAAGAAGGATTTTCTTAATGATCAAGCAATGCTTTATGCAGCTGGTGCCTTGGAAATGGCAGCAGTATCAGCTTTTCTTCAACCAGGAGCACCTAGGCCATACCCTGCTCATTACATGGACACAGCAATTCAGACATACAGGGATATCTGCAAGAATATGGTATTGGCCGAAAGATGTGTATTGCTTAGTGCTGAAATTTTAAAAAGTCAAAGCAAATATTCAGAGGCTGCAGCTCTTCTAATACGGTTGACAAGTGAGAACACATGGAAGGGCATGGATTCTGATCTTCGAAGTGCACTTCTTTTGGAACAGGCGGCACATTGCTTCATAAACATGAAGAGCCCCATGGTGAGAAAGTATGCCTTTCACATGATTTTGGCAGGCCACCGCTTTAGTAAAGCAGGACAGAAAAAGCATGCCCTGCGCTGCTATTGTCAAGCCATGCAAGTGTACAAAGGCAAGGGCTGGTCTCTTGCAGAAGATCACATTAACTTCACCATTGGGCGCCAGTCCTACACGCTCAGGCAGCTGGACAATGCCGTGTCTGCCTTTAGGCATATCCTAATCAATGAAAGTAAACAGTCTGCTGCTCAACAGGGAGCTTTCCTCCGAGAGTATCTTTATGTTTATAAGAATGTAAGTCAGCTATCACCAGATGGCGCTTTTCCACAGCTTCCTTTACCTTATATTAACAGTTCAGCGACACGGGTTTTCTTTGGCCACGACAGAAGACCGGCAGATGGTGAAAAGCAAGCAGCTACTCATGTAAGTCTTGATCAAGAATATGACTCTGAGTCCTCTCAGCAGTGGCGAGAACTTGAGGAGCAAGTTGTGGCTGTGGTTAACAAAGGAATTATCCCATCTGGTTTCCATCCCACACAGTACTGTTTGAATAGTTACTCAGATAACTCCAGATTTCCACTTGCAGTAGTAGAAGAACCAATTACAGTGGAAGTGGCTTTTAGAAACCCTTTGAAGGTTCCACTTTTTTTGACTGACTTATCATTGCTCTGGAAGTTTCAACCTAAAGATGTCAATGGAAAGGATACTGAGGAAGTTAGAGAACTAGTTACAGGTGAACCTGAAATGATTGGAGCTGAAGTTATTTCAGAATTCTTAATTAATAGTGAAGAATCTAAAGTGGCAAGACTAAAGCTCTTTCCCCATCACATAGGGGAGCTGCATATTCTGGGAGTTGTGTATAATCTTGGCACTATTCAGGGATCCATGACCGTAGATGGTATTGGTGCTCTTCCTGGATGTCACACAGGAAAACATTCTTTGAGTATGTCAGTCCGAGGGAGGCAGGATTTAGAAATTCAAGGTCCTCGACTTAACAACACAAAAGAAGAGAAAACATCTATTACATATGGTCCAGATCGACGATTAGATCCCATAATCACTGAAGAAATGCCACTCTTGGAGGTGTTCTTTATACATTTTCCTACAGGGCTCCTCTGTGGAGAAATTCGAAAAGCATATGTAGAATTTGCCAATGTCAGCAAATGTCCTCTTACTGGATTGAAGGTTGTTTCTAAACGTCCAGAGTTCTTTACTTTTGGTGGCAATACTGCTGTTTTAACACCACTGAGCCCCTCAGCCTCTGAAAACTGCAGTGCTTACAAGACTGTTGTGACAGACTCTGCCTCTGTGTGTACAGCCCTTGTATCATCAGCTTCTTCTGTAGGCTTTGGCATTGGCATAGGGTGTCAGCCGGAGGTGATTCCTGTTCCCCTTCCTGACACGGTCCTTCTACCTGGAACTTCAGTCCAGCTACCAATGTGGTTACGTGGGCCAGATGAAGAAGGTGTCCATGAAATTAACTTTTTATTTTACTATGAAAGTGTTAAAAAGCAGCCTAAAATACAACATAGAATATTAAGACACACTGCAGTTATTTGTACTAGCCGGTCTTTGAATGTAAAAGCCACTGTCTGCAGAAGTAATTCACTCGAAGATGAAGAAGGCAGAGGAGACAATATGCTAGTCTTTGTCGATGTGGAAAATACCAATACTAGTGAAGCAGGTGTTAAGGAATTCCATATAGTGCAAGTATCAAGTAGTAGCAAGCACTGGAAGTTACAGAAATCTGTAGATCTCTCTGAAAACAAAGATGCCAAACTTGCCAGTAGGGAGAAAGGAAAATTTTGCTTCAAGGCAATAAGATGTAATGAAAGAGAAGGTGTTACACAGTCTTCAGAAAACTATACCTTTGCAGATATCATCTTTGGAAATGAACAGATAATAAGTTCAGCAAGCCCATGTGCAGATTTTTTTTATCAAAGTTTATCTTCTGAATTGAAAAAACCACGAACTCAGTTGTCTATGCATCTAGAAAAACATTCAGTAGAGGATGCCATGAGATTGATTCGAAAGTGCAGTGAGGTGGATTTGAATATTGTCATATTGTGGAAGGCATATGTTGTGGAAGACAGTAAGCAGCTTATTTTGGAAGGTCAGCATCATGTTATTCTTCACACTATAGGAAAAGAAGCCTTCTCATATCCTCAGAAACAGGACCCACCAGAAATGGAACTGTTAAAATTTTTCAGGCCAGAAAACACTTCGGCTTCCTTAAGACCGTCAGCAGAGCAGCTTTCTAATCTCATCAAAACGAGTCTTCACTACCCAGAAACATTTAATCACCCATTTCATCAAAAAAGCCTTTGTTTAGTACCAGTCACACTTTTACTTTCTAACTGTTCTAAGGCTGATGTAGATGTAATAGTTGATCTTCGGCATAAAACCACAAGTCCAGAAGCATTGGAAATCCATGGATCATTCCCATGGCTTGGACAGACACAGTATAAACTTCAACTTAAAAGCCGGGAGATTCACAGTTTGCAGCTGAAAGCATGCTTTGTTCATACAGGTGTTTATAACCTTGGAACTCCTAGGGTATTTGCTAAGTTATCGGACCAAGTTACAGTATTTGAAACAAGTCAGCAGAACTCCATGCCTGCCCTGATTATCATCACTGATGTATGA
Trappc8 trafficking protein particle complex 8, transcript variant X3
Length: 4395 bp Location: 999887..1090664 Strand: +>XM_004853116.1 ATGGCCCAGTGTGTACAATCCGTGCAGGAGCTCATCCCGGACTCCTTCGTTCCCTGTGTCGCCGCGCTGTGCAGCGACGAAGTCGAGCGGCTTACTCGTCTCAATCACCTGAGCTTCGCGGAGCTGCTTAAGCCCTTCTCGCGCCTCACTTCCGAGGTTCATATGAGAGATCCTAATAATCAACTTCACATAATTAAAAATTTGAAGATAGCAGTGAGCAACATTGTCACACAACCACCTCAGCCTGGAGCCATTCGAAAGCTGCTGAATGATGTTGTTTCTGGCAGTCAGCCTTCGGAAGGATTAGTAGCTAATGTGATTACAGCAGGAGATTATGACCTTAACATCAGTGATCGATCAATTAAAGCTAGTGTTCCTTGGTACAGTAATTGGAAAGACACATTGATGGAATTGAAAGAATCCTCGTTACACACAGCTACTACTCCATGGTTTGAGTCTTACAGAGAGACCTTTCTTCAGTCGATGCCGGCATCAGATCATGAATTTCTGAACCACTATTTAGCATGTATGTTGGTAGCATCGTCTAGTGAAGCTGAACCTATGGAACAGTTTTCAAGGTTGTCACAAGAACAGCATCGAATTCAGCACAACAATGATTATTCCTACCCCAAATGGTTTATACCAAATACACTTAAATATTATGTGCTGCTACATGATGTGAGTGCAGGAGATGAACAGAGAGCTGAATCAATTTATGAAGAGATGAAACAAAAATATGGAACTCAGGGTTGCTATTTACTTAAAATTAATTCTCGAACGTCAAATCGAGCATCAGATGAACAGATACCAGATCCTTGGAGTCAGTATCTCCAGAAAAATAGTATTCAAAACCAGGAATCATATGAAGATGGCCCTTGTACTATAACTTCAAATAAGAATTATGATAGTAACTTGCTTTCATTGGATGGATTAGATAACGAAGTCAAAGTAGATGCCTTACCAAATAACTTTAGAACTCACCCACTTCAACCGGACCAGCCCAGCGAGTCTTCTAACAGCATCGATGGCCCAGACCATGTAAAATCTGCTTCTTCATTACATGAAACAAAGAAAGCAAATACTGGAGTAATTCATGGTGCGTGTTTAACACTTACTGATCATGATAGAATTCGACAGTTTATACAGGAGTTTACATTTCGCGGCCTTTTGCCACATATAGAGAAAACAATTCGGCAATTAAATGATCAGCTAATATCAAGAAAAGGTTTGAGTCGATCTCTATTTTCTGCAACTAAAAAATGGTTTAGTGGCAGTAAAGTTCCAGAAAAGAGCATTAATGAATTGAAAAACACATCTGGGCTGCTGTATCCCCCGGAAGCACCAGAGCTTCAAATCAGGAAAATGGCTGACTTATGCTTTTTGGTGCAGCATTATGACTTAGCTTACAGTTGCTATCATACCGCAAAGAAGGATTTTCTTAATGATCAAGCAATGCTTTATGCAGCTGGTGCCTTGGAAATGGCAGCAGTATCAGCTTTTCTTCAACCAGGAGCACCTAGGCCATACCCTGCTCATTACATGGACACAGCAATTCAGACATACAGGGATATCTGCAAGAATATGGTATTGGCCGAAAGATGTGTATTGCTTAGTGCTGAAATTTTAAAAAGTCAAAGCAAATATTCAGAGGCTGCAGCTCTTCTAATACGGTTGACAAGTGAGGATTCTGATCTTCGAAGTGCACTTCTTTTGGAACAGGCGGCACATTGCTTCATAAACATGAAGAGCCCCATGGTGAGAAAGTATGCCTTTCACATGATTTTGGCAGGCCACCGCTTTAGTAAAGCAGGACAGAAAAAGCATGCCCTGCGCTGCTATTGTCAAGCCATGCAAGTGTACAAAGGCAAGGGCTGGTCTCTTGCAGAAGATCACATTAACTTCACCATTGGGCGCCAGTCCTACACGCTCAGGCAGCTGGACAATGCCGTGTCTGCCTTTAGGCATATCCTAATCAATGAAAGTAAACAGTCTGCTGCTCAACAGGGAGCTTTCCTCCGAGAGTATCTTTATGTTTATAAGAATGTAAGTCAGCTATCACCAGATGGCGCTTTTCCACAGCTTCCTTTACCTTATATTAACAGTTCAGCGACACGGGTTTTCTTTGGCCACGACAGAAGACCGGCAGATGGTGAAAAGCAAGCAGCTACTCATGTAAGTCTTGATCAAGAATATGACTCTGAGTCCTCTCAGCAGTGGCGAGAACTTGAGGAGCAAGTTGTGGCTGTGGTTAACAAAGGAATTATCCCATCTGGTTTCCATCCCACACAGTACTGTTTGAATAGTTACTCAGATAACTCCAGATTTCCACTTGCAGTAGTAGAAGAACCAATTACAGTGGAAGTGGCTTTTAGAAACCCTTTGAAGGTTCCACTTTTTTTGACTGACTTATCATTGCTCTGGAAGTTTCAACCTAAAGATGTCAATGGAAAGGATACTGAGGAAGTTAGAGAACTAGTTACAGGTGAACCTGAAATGATTGGAGCTGAAGTTATTTCAGAATTCTTAATTAATAGTGAAGAATCTAAAGTGGCAAGACTAAAGCTCTTTCCCCATCACATAGGGGAGCTGCATATTCTGGGAGTTGTGTATAATCTTGGCACTATTCAGGGATCCATGACCGTAGATGGTATTGGTGCTCTTCCTGGATGTCACACAGGAAAACATTCTTTGAGTATGTCAGTCCGAGGGAGGCAGGATTTAGAAATTCAAGGTCCTCGACTTAACAACACAAAAGAAGAGAAAACATCTATTACATATGGTCCAGATCGACGATTAGATCCCATAATCACTGAAGAAATGCCACTCTTGGAGGTGTTCTTTATACATTTTCCTACAGGGCTCCTCTGTGGAGAAATTCGAAAAGCATATGTAGAATTTGCCAATGTCAGCAAATGTCCTCTTACTGGATTGAAGGTTGTTTCTAAACGTCCAGAGTTCTTTACTTTTGGTGGCAATACTGCTGTTTTAACACCACTGAGCCCCTCAGCCTCTGAAAACTGCAGTGCTTACAAGACTGTTGTGACAGACTCTGCCTCTGTGTGTACAGCCCTTGTATCATCAGCTTCTTCTGTAGGCTTTGGCATTGGCATAGGGTGTCAGCCGGAGGTGATTCCTGTTCCCCTTCCTGACACGGTCCTTCTACCTGGAACTTCAGTCCAGCTACCAATGTGGTTACGTGGGCCAGATGAAGAAGGTGTCCATGAAATTAACTTTTTATTTTACTATGAAAGTGTTAAAAAGCAGCCTAAAATACAACATAGAATATTAAGACACACTGCAGTTATTTGTACTAGCCGGTCTTTGAATGTAAAAGCCACTGTCTGCAGAAGTAATTCACTCGAAGATGAAGAAGGCAGAGGAGACAATATGCTAGTCTTTGTCGATGTGGAAAATACCAATACTAGTGAAGCAGGTGTTAAGGAATTCCATATAGTGCAAGTATCAAGTAGTAGCAAGCACTGGAAGTTACAGAAATCTGTAGATCTCTCTGAAAACAAAGATGCCAAACTTGCCAGTAGGGAGAAAGGAAAATTTTGCTTCAAGGCAATAAGATGTAATGAAAGAGAAGGTGTTACACAGTCTTCAGAAAACTATACCTTTGCAGATATCATCTTTGGAAATGAACAGATAATAAGTTCAGCAAGCCCATGTGCAGATTTTTTTTATCAAAGTTTATCTTCTGAATTGAAAAAACCACGAACTCAGTTGTCTATGCATCTAGAAAAACATTCAGTAGAGGATGCCATGAGATTGATTCGAAAGTGCAGTGAGGTGGATTTGAATATTGTCATATTGTGGAAGGCATATGTTGTGGAAGACAGTAAGCAGCTTATTTTGGAAGGTCAGCATCATGTTATTCTTCACACTATAGGAAAAGAAGCCTTCTCATATCCTCAGAAACAGGACCCACCAGAAATGGAACTGTTAAAATTTTTCAGGCCAGAAAACACTTCGGCTTCCTTAAGACCGTCAGCAGAGCAGCTTTCTAATCTCATCAAAACGAGTCTTCACTACCCAGAAACATTTAATCACCCATTTCATCAAAAAAGCCTTTGTTTAGTACCAGTCACACTTTTACTTTCTAACTGTTCTAAGGCTGATGTAGATGTAATAGTTGATCTTCGGCATAAAACCACAAGTCCAGAAGCATTGGAAATCCATGGATCATTCCCATGGCTTGGACAGACACAGTATAAACTTCAACTTAAAAGCCGGGAGATTCACAGTTTGCAGCTGAAAGCATGCTTTGTTCATACAGGTGTTTATAACCTTGGAACTCCTAGGGTATTTGCTAAGTTATCGGACCAAGTTACAGTATTTGAAACAAGTCAGCAGAACTCCATGCCTGCCCTGATTATCATCACTGATGTATGA
Trappc8 trafficking protein particle complex 8, transcript variant X2
Length: 4410 bp Location: 999888..1090664 Strand: +>XM_004853115.1 ATGGCCCAGTGTGTACAATCCGTGCAGGAGCTCATCCCGGACTCCTTCGTTCCCTGTGTCGCCGCGCTGTGCAGCGACGAAGTCGAGCGGCTTACTCGTCTCAATCACCTGAGCTTCGCGGAGCTGCTTAAGCCCTTCTCGCGCCTCACTTCCGAGGTTCATATGAGAGATCCTAATAATCAACTTCACATAATTAAAAATTTGAAGATAGCAGTGAGCAACATTGTCACACAACCACCTCAGCCTGGAGCCATTCGAAAGCTGCTGAATGATGTTGTTTCTGGCAGTCAGCCTTCGGAAGGATTAGTAGCTAATGTGATTACAGCAGGAGATTATGACCTTAACATCAGTGATCGATCAATTAAAGCTAGTGTTCCTTGGTACAGTAATTGGAAAGACACATTGATGGAATTGAAAGAATCCTCGTTACACACAGCTACTACTCCATGGTTTGAGTCTTACAGAGAGACCTTTCTTCAGTCGATGCCGGCATCAGATCATGAATTTCTGAACCACTATTTAGCATGTATGTTGGTAGCATCGTCTAGTGAAGCTGAACCTATGGAACAGTTTTCAAGGTTGTCACAAGAACAGCATCGAATTCAGCACAACAATGATTATTCCTACCCCAAATGGTTTATACCAAATACACTTAAATATTATGTGCTGCTACATGATGTGAGTGCAGGAGATGAACAGAGAGCTGAATCAATTTATGAAGAGATGAAACAAAAATATGGAACTCAGGGTTGCTATTTACTTAAAATTAATTCTCGAACGTCAAATCGAGCATCAGATGAACAGATACCAGATCCTTGGAGTCAGTATCTCCAGAAAAATAGTATTCAAAACCAGGAATCATATGAAGATGGCCCTTGTACTATAACTTCAAATAAGAATTATGATAGTAACTTGCTTTCATTGGATGGATTAGATAACGAAGTCAAAGATGCCTTACCAAATAACTTTAGAACTCACCCACTTCAACCGGACCAGCCCAGCGAGTCTTCTAACAGCATCGATGGCCCAGACCATGTAAAATCTGCTTCTTCATTACATGAAACAAAGAAAGCAAATACTGGAGTAATTCATGGTGCGTGTTTAACACTTACTGATCATGATAGAATTCGACAGTTTATACAGGAGTTTACATTTCGCGGCCTTTTGCCACATATAGAGAAAACAATTCGGCAATTAAATGATCAGCTAATATCAAGAAAAGGTTTGAGTCGATCTCTATTTTCTGCAACTAAAAAATGGTTTAGTGGCAGTAAAGTTCCAGAAAAGAGCATTAATGAATTGAAAAACACATCTGGGCTGCTGTATCCCCCGGAAGCACCAGAGCTTCAAATCAGGAAAATGGCTGACTTATGCTTTTTGGTGCAGCATTATGACTTAGCTTACAGTTGCTATCATACCGCAAAGAAGGATTTTCTTAATGATCAAGCAATGCTTTATGCAGCTGGTGCCTTGGAAATGGCAGCAGTATCAGCTTTTCTTCAACCAGGAGCACCTAGGCCATACCCTGCTCATTACATGGACACAGCAATTCAGACATACAGGGATATCTGCAAGAATATGGTATTGGCCGAAAGATGTGTATTGCTTAGTGCTGAAATTTTAAAAAGTCAAAGCAAATATTCAGAGGCTGCAGCTCTTCTAATACGGTTGACAAGTGAGAACACATGGAAGGGCATGGATTCTGATCTTCGAAGTGCACTTCTTTTGGAACAGGCGGCACATTGCTTCATAAACATGAAGAGCCCCATGGTGAGAAAGTATGCCTTTCACATGATTTTGGCAGGCCACCGCTTTAGTAAAGCAGGACAGAAAAAGCATGCCCTGCGCTGCTATTGTCAAGCCATGCAAGTGTACAAAGGCAAGGGCTGGTCTCTTGCAGAAGATCACATTAACTTCACCATTGGGCGCCAGTCCTACACGCTCAGGCAGCTGGACAATGCCGTGTCTGCCTTTAGGCATATCCTAATCAATGAAAGTAAACAGTCTGCTGCTCAACAGGGAGCTTTCCTCCGAGAGTATCTTTATGTTTATAAGAATGTAAGTCAGCTATCACCAGATGGCGCTTTTCCACAGCTTCCTTTACCTTATATTAACAGTTCAGCGACACGGGTTTTCTTTGGCCACGACAGAAGACCGGCAGATGGTGAAAAGCAAGCAGCTACTCATGTAAGTCTTGATCAAGAATATGACTCTGAGTCCTCTCAGCAGTGGCGAGAACTTGAGGAGCAAGTTGTGGCTGTGGTTAACAAAGGAATTATCCCATCTGGTTTCCATCCCACACAGTACTGTTTGAATAGTTACTCAGATAACTCCAGATTTCCACTTGCAGTAGTAGAAGAACCAATTACAGTGGAAGTGGCTTTTAGAAACCCTTTGAAGGTTCCACTTTTTTTGACTGACTTATCATTGCTCTGGAAGTTTCAACCTAAAGATGTCAATGGAAAGGATACTGAGGAAGTTAGAGAACTAGTTACAGGTGAACCTGAAATGATTGGAGCTGAAGTTATTTCAGAATTCTTAATTAATAGTGAAGAATCTAAAGTGGCAAGACTAAAGCTCTTTCCCCATCACATAGGGGAGCTGCATATTCTGGGAGTTGTGTATAATCTTGGCACTATTCAGGGATCCATGACCGTAGATGGTATTGGTGCTCTTCCTGGATGTCACACAGGAAAACATTCTTTGAGTATGTCAGTCCGAGGGAGGCAGGATTTAGAAATTCAAGGTCCTCGACTTAACAACACAAAAGAAGAGAAAACATCTATTACATATGGTCCAGATCGACGATTAGATCCCATAATCACTGAAGAAATGCCACTCTTGGAGGTGTTCTTTATACATTTTCCTACAGGGCTCCTCTGTGGAGAAATTCGAAAAGCATATGTAGAATTTGCCAATGTCAGCAAATGTCCTCTTACTGGATTGAAGGTTGTTTCTAAACGTCCAGAGTTCTTTACTTTTGGTGGCAATACTGCTGTTTTAACACCACTGAGCCCCTCAGCCTCTGAAAACTGCAGTGCTTACAAGACTGTTGTGACAGACTCTGCCTCTGTGTGTACAGCCCTTGTATCATCAGCTTCTTCTGTAGGCTTTGGCATTGGCATAGGGTGTCAGCCGGAGGTGATTCCTGTTCCCCTTCCTGACACGGTCCTTCTACCTGGAACTTCAGTCCAGCTACCAATGTGGTTACGTGGGCCAGATGAAGAAGGTGTCCATGAAATTAACTTTTTATTTTACTATGAAAGTGTTAAAAAGCAGCCTAAAATACAACATAGAATATTAAGACACACTGCAGTTATTTGTACTAGCCGGTCTTTGAATGTAAAAGCCACTGTCTGCAGAAGTAATTCACTCGAAGATGAAGAAGGCAGAGGAGACAATATGCTAGTCTTTGTCGATGTGGAAAATACCAATACTAGTGAAGCAGGTGTTAAGGAATTCCATATAGTGCAAGTATCAAGTAGTAGCAAGCACTGGAAGTTACAGAAATCTGTAGATCTCTCTGAAAACAAAGATGCCAAACTTGCCAGTAGGGAGAAAGGAAAATTTTGCTTCAAGGCAATAAGATGTAATGAAAGAGAAGGTGTTACACAGTCTTCAGAAAACTATACCTTTGCAGATATCATCTTTGGAAATGAACAGATAATAAGTTCAGCAAGCCCATGTGCAGATTTTTTTTATCAAAGTTTATCTTCTGAATTGAAAAAACCACGAACTCAGTTGTCTATGCATCTAGAAAAACATTCAGTAGAGGATGCCATGAGATTGATTCGAAAGTGCAGTGAGGTGGATTTGAATATTGTCATATTGTGGAAGGCATATGTTGTGGAAGACAGTAAGCAGCTTATTTTGGAAGGTCAGCATCATGTTATTCTTCACACTATAGGAAAAGAAGCCTTCTCATATCCTCAGAAACAGGACCCACCAGAAATGGAACTGTTAAAATTTTTCAGGCCAGAAAACACTTCGGCTTCCTTAAGACCGTCAGCAGAGCAGCTTTCTAATCTCATCAAAACGAGTCTTCACTACCCAGAAACATTTAATCACCCATTTCATCAAAAAAGCCTTTGTTTAGTACCAGTCACACTTTTACTTTCTAACTGTTCTAAGGCTGATGTAGATGTAATAGTTGATCTTCGGCATAAAACCACAAGTCCAGAAGCATTGGAAATCCATGGATCATTCCCATGGCTTGGACAGACACAGTATAAACTTCAACTTAAAAGCCGGGAGATTCACAGTTTGCAGCTGAAAGCATGCTTTGTTCATACAGGTGTTTATAACCTTGGAACTCCTAGGGTATTTGCTAAGTTATCGGACCAAGTTACAGTATTTGAAACAAGTCAGCAGAACTCCATGCCTGCCCTGATTATCATCACTGATGTATGA
B4galt6 UDP-Gal:betaGlcNAc beta 1,4- galactosyltransferase, polypeptide 6, transcript variant X2
Length: 1026 bp Location: 1160205..1237883 Strand: +>XM_004853121.1 ATGTCTGTGCTCCGGCGGATGACGCGGGTCTCCAATCGCTCCCTCCTCGCCTTCATCTTCTTCTTCTCCCTCTCCTCGTCTTGTCTCTACTTCATCTATGTGGCTCCGGGAATCGCCAACACATATCTCTTTATGGTACAAGCCCGAGGTATAATGTTGAGAGAAAATGTGAAGACAATAGGACACATGATCAGACTGTACACCAATAAAAACACAACGCTCAATGGTACAGATTATCCTGAAGGCAATAATTCAAGTGATTATCCTGTCCAAACAACAACGTATCTTCCAGAAAACTTCACATATTCACCATACCTCCCCTGCCCAGAAAAACTGCCTTACATGCGGGGATTCCTCAATGTCAATGTAAGTGAAGTCAGTTTTGATGAAGTGCATCAGCTCTTCTCCAAGGATTTAGATATTGAGCCAGGAGGTCACTGGAGGCCTAAAGACTGTAAACCCAGATGGAAGGTGGCAGTTCTCATTCCTTTCCGTAATCGCCATGAGCATCTTCCAATTTTTTTCTTGCACCTGATTCCTATGCTCCAGAAACAGCGGCTGGAATTTGCCTTTTATGTCATTGAACAGACTGGCACACAGCCTTTTAACCGTGCAATGCTCTTCAATGTGGGGTTCAAAGAAGCCATGAAGGACAGTGTCTGGGACTGTGTGATCTTCCACGATGTGGATCATCTCCCTGAAAATGACCGGAACTACTATGGATGTGGAGAAATGCCGCGTCACTTTGCAGCAAAGCTGGATAAATACATGTATATTCTTCCATATAAAGAGTTTTTTGGTGGTGTAAGTGGACTGACAGTGGAACAGTTTGGAAAGATCAATGGTTTCCCTAATGCCTTCTGGGGGTGGGGAGGAGAAGATGATGACCTCTGGAACAGAGTACACTATGCTGGATATAATGTAACCAGACCAGAGGGAGATTTAGGGAAATACAAGTCTATTCCTCATCATCATCGAGGGGAAGTCCAGTTTTTAGGACGCCAACATAGTTTCTTGATGAAATGA
Dsg2 desmoglein 2, transcript variant X2
Length: 3342 bp Location: 1355348..1316899 Strand: ->XM_004853124.1 ATGCCTCGAAGTCGAAAGGGGAGGATTTTAAGTTCTATGATCTGCTTTACGTTTGGAAATGGACTTCACTTAGAGACCTTAAACACACGAAGTGATAGCAGGCTCCTCCCCAAACACACTCACCTCGTGCGGCAGAAGCGGGCCTGGATCACTGCCCCAGTGTCTCTTCGGGAGGGAGAGGACCTGTCCAGAAAGAACCCCATTGCCAAGATACATTCTGATATTGCGGAAGAAAGGGGAGTAAAAATTACATACAAATACACTGGAGTAGGGATTACAGAGCCTCCTTTTGGTATATTTGTCTTTAACAAAGACACTGGAGAACTGAATGTTACCAGCATTCTTGATCGGGAAGAAACACCATTTTTTCTGCTAATGGGCTATGCTTTGGATTCAAGAGGAAACAATCTAGAAAAACCACTAGAACTGCGCATTAAGGTTCTTGATATCAATGACAATGAGCCTGTGTTCACGGAGGAAGTCTTTGTTGGGTCTGTTGAAGAATTGAGTGCAGCACATACACTTGTGATGAAAATCATTGCAACGGATGCAGATGAGCCCAATACTATGAATTCTAAAATTTCCTACAGAATTGTATCTCAGGAGCCTGCATATCCTCCAGTGTTCTACCTTAATAAAGATACAGGAGAGATTTATACAACCAGCATTGCCTTGGACCGAGAGGAACACAGCAGCTATTCTTTGACCGTGGAAGCAAAAGATGACAATGGACAAATAACAGACAAACCAGTACACCAAGCTCAAGTTCAGATTCGCATTTTGGATGTCAATGACAATATACCTGTAGTGGAACGTGAAATGTATGAAGGGATGATTGAAGAAAATCAAGTCAATGTAGAAGTTATGCGCATAAAAGTGACAGATGCAGATGAATTAGGCTCTGATAACTGGTTAGCAAATTTTACATTTGCGTCAGGAAATGAAGGGGGTTATTTCCACATAGAAACTGATGCTCAAACTAATGAAGGGATTGTGACCCTTGTTAAGGAAGTGGATTATGAAACAATGAAGAATCTTGACTTCAGTATTATTGTCACTAATAAAGCAGCTTTTCACAAATCAATTAGGAATAAGTATAAACCTACAGCCATTCCTATCAAAGTAAAGGTGAATAATGTGAAAGAAGGTATTCATTTCAAAAGCAGCACAATTTCAGTTCGTACTAGTGAAGGAATGGATAAGTCAAGCCAAAGCCAATCAATTGGAAAATTTGAAGTTTTTGATGAAGACACTGGACAGTCACCTCATGTAAAATACGTAAAGTTGGAAGATGGAGACAATTGGGTCTCTGTGGATTCGGTCACGTCAGAAATTAGACTTGTAAAAATTCCTGATTTTGAATCACGCTACGTCCACAATGGTACATATACTGTAAAAGTTTTGGCCGTATCACAAGATCATCCTAGAAAAACCATCACAGGCACCGTCCTTATCACAGTTGAAGACATCAATGACAACTGTCCTACACTGGTGAACCCTGTGCAGAGCATCTGTGAAGACCAGCCATATGTGAATGTTACGGCGGAGGACCTTGATGGACACCCCAACAGTTGGCCTTTCAGCTTCTCCATCATTGATACACCACCCGGAATGACAGAAAAATGGAAAATAATACGCCAAGAAAGTACCAGTGTGCTGCTACAGCAGGGTGAACGCCAGCTCGGGAGAAGTGAAATCCCGTTGCTGATTTCGGACAATCAGGGCTTCAGCTGCCCAGAGCAGCAGGTCCTCCAGCTGATGGTCTGCGAGTGCCTGCAGGGCAGTGGCTGTGTGGAGGCGCAGCGTGGCTCCTACGTGGGCCTGGGGCCCGCAGCGGTGGCACTCATGATTTTGGCCCTTCTGCTCTTGCTGATTGTGCCACTTTTGCTGCTGCTGTGTCATTGTGGAGAGGGCGCCAAAGGCTTCACCCCCATACCTGGCACTATAGAGATGCTGCATCCTTGGAACAATGAAGGGGCGCCACCTGAAGACAAGGTGGTGCCGTCGCTCCTGGCCGTGGATCACGGGGAGAATCTTGCAGCAAGAAATGGAGTAGGAGGTGCAATAACCAAGGAAGCCACCAGGAAAGGAAGTAGCTCTGCTTCCTTTTCCAGAGTGCAGCATGACTTGACCGAGGCGAACGGGAGATGGGAAGAACACAGAAGCCTCCTCAGCGGTGCGGCTGCCCAGGCGACGGGAACAGCAGGAGCCCAGCTCGGTGCTGAGACCATGCGGACCGTGAGAGCCGTGGGGGCTTCCAGAGATGCAACCGGAGCCCGAGCCGCTTCTGCTGGTGCAGTCAGTGAGGAATTCTTAAGGGATTATTTCTCTGATAAGGCAGCTTCCTACAGTGAGGAAGATGACATTCACGTGGCCAAAGACTGCCTTCTGGTGTACTCTCAGGAAGAAACAGAATCTCTTCACGGTTCCGTTGGCTGTTGCAGTTTTATTGAAGGAGAACTAGACGACAGTTTCTTAGATGATTTGGGACTTAAATTCAAGACACTAGCTGAGGTTTGCTTGGGTCAAAAAATAGATGTGGATATGGAAATTGAGCAGAGGCCAAAACCTGTCAAAGAAACAAATTTGACCAGAGCTGCACACTCGCTCTATGAGCAAACCACGTTTAATTCAGACAATACCCACTCCTCTGGCAGCAGCTTTCAAGTTCCCAAACCTTTGCATGAAACCAAAGCAGAGAAGCTCACTCAGGAAATAGTCACCGAGAGATCGGTATCCTCCAGGCAGGGTCAGAAGGTGGCGCCACCTCTTCCTGATCCACTGGCTTCTGGTAATATCATAATGACAGAAACGTCCTATACCACAGGCTCCGCTATGCCACCAAGCACTGTGGTCCTGGGTCCCGGACAGCCCCAGAGTCTTGTCGTGACGGAGAGGGTGTATGCGCCAGCTTCCACCTTGGTAGGTCAGCAGTATGCTGGGGAGAGTAATGTCGTGGTGACTGAAAGAGTGATCCAGCCTAATGGGGGCGTCCCACATCCTCTGGGAGGCACCCAGCATCTGCAGGATGCACAGTACGTTATGGTGAGGGAAAGAGAAAGCGTCCTTGCGCCCACCTTGGCCACGCCCAGTGCGGCCGCGGTAGGACAGAATGTGACAGTGACAGAAAGAGTGCTAACTCCTGCTTCCACTCTGGAATCCAGTTACCAAATTGCCACTGAAGCCTCAGGGAAGGCTGGGAGGGCCATGGTTTCTGGGGCTGGAGTCCCTGGCCCTCTGCCACATTCTGGTTTGGAAGGATCTGGCCATTCAGATTCTACCATAACCACGTCCTCCACCAGGGTCACCAAGCACAGTACTGTGCAGCATTCTTATGCCTAA
Dsg3 desmoglein 3
>XM_004853295.1 ATGGTCTTTGTATTGGTTCATGGAGAATTACAGATAGAGACAAAAGAGCCCCATGGAGAAGATGAGACAGCAGTTCAACAGGGGAAAAGAAGGCACAAACGAGAGTGGGTGAAATTTGCAACGCCCTGCAGAGAAAGAGAAGACAACTCCAAAAGAAACCCCATTGCCAAGATTACTTCAGATTTCCAAACAACCCAGAAAATTACCTATAGAATTTCTGGGGTGGGAATTGATCAGCCTCCTTTTGGAATCTTTATTGTTAACCCAAACACGGGTGAAATTAATATAACAGCCATCGTTGACCGAGAGGAAACCCCAAGCTTCCTGATCACGTGTCGAGCTCTAAGTGTCCTAGGACAAGATGTAGAGAAACCGCTTATACTAACGGTCAAAATTTTAGATGTTAATGATAATGCTCCAGTATTTTCACAAAGAATATTCAAGGGCGAAATTGAAGAAAACAGTGCTTCAAACTCGCTGGTGATGATACTAAATGCCACAGACGCAGATGAGCCAAACCATCTGAACTCTAAAATCGCCTTCAAAATCGTCTCCCAGGAGCCCACAGGAACACCCACGTTCCTCATAAGCAGAAACACTGGAGAAGTCCGTACTTTGACCAATGGTCTCGATCGAGAGCAATTTAGCAGCTATCGGCTGGTTGTGAGTGGTGCAGACCAGGATGGAGTAGGACTGTCAACTCAATGTGAATGCGATATTAAAGTGAAAGATGTCAACGACAATTTCCCAGTGCTTAAATATTCTCAGTATTCAGCACGTATTGAGGAAAATACTGTAAGCTCTGACTTACTTCGATTTCAAGTGACAGATTGGGATGAAGAGTATACAGATAATTGGTTGGCCGTGTATTTCTTTACCTCTGGAAATGAAGGGAAGTGGTTTGAAATAGAAACTGACCCAAGGACCAATGAAGGCATCCTGAAAGTGGTAAAGCCTCTAGATTATGAACAAATACAAAGCATGCAATTTAGTATTGCTGTCAAAAATAAAGCTGAATTTCACCAGTCAGTAGTCTCTCAATATAGAGTTCAGTCAACCCCAGTCATAATTCAGATCATAGATGTAAAAGAAGGAATTGCATTCCGCCCTGCTTCCAAGACGTTTACTGTGAAAAAAGGCATTAGTAGTAAACACTTGATTAATTATATCGTGGGAATATATCAAGCCATCGATGAAGACACTAACATGGCTGCCTCATCTGTTAGATATGTCATGGGTCGTAATGATGGCAATTTGTTAACTATTGATCCAAAAACTGCTCAAATCAAATTTGTCAAAAACATCGCCCGGGATTCTACTTTCATAGTTAACAAGACAATCACAGCTGAGGTTCTGGCCATAGACGAAAACACGGGTAAAACTGCCACTGGCACCGTACATGTTGAAGTACCTGGATTTAATGACAATTGTCCACCAGTTGTCCTGGAAAAAGGTGAAATCTGTAGTTCGTCACCTTCCGTGGTTGTGTCAGCAAGAGCCCTGGAAAGAGACAGATACATGGGTTCCTACACATTTTCAGTGGAGGAGCAACCTCTAAAGTTGCCAGTTGTGTGGAGAATCACAACTCTCAATGCTACCTCGGCACTGGTAAGAGCCCAGCAGCAGATATCTCCTGGAGTGTACAGAGTCCCCCTCACGGTTACAGGCAACAAGGACCGGAATTGCGAGTCCTCGGAGACCTTGACCCTGACGGTCTGTCAGTGTAACGACAGGGGCTCCTGTAGAAGTTCAAACACTGACCCTCATATCCAGCCCCAGAGGCAGCTGTCCAGGCTGGGGCCCGACGCCATCGGTTTGCTCCTTCTCGGGCTTTTGCTGCTGCTGTTGGTCCCTCTCCTACTGCTAACCTGTGACTGTCAAAGGGGTCCCACTGGGGGAGTGGCAGGTGGTTTTATTCCAGTTCCTGATGGTTCAGAAGGAACAATTCATCAGTGGGGAATTGAAGGAGCTCAACCTGAGGACAAGGAAATCACAAATATTTGTGTGCCACCTATAACAACTAATGGAGTAGATATTGTGGAGAATTCTGAAGTTTGTACAAATACATATACCGGAGGGACAGTGGTGGAAGGTGTTTCTGGAATGGAACTGACCACCAAGGTGGGAGCAGCTACAGGGTCTGGAGCTGTGCCGGGATTTGGAGCAGCAGCTGCACTAGGCCCCTGTCCCCTGGGGCATCTGGGACTTGAAACTATGAGAACAAGACATTCCACCAGGGGAACCCTGAAGGACTATGCAGAGGGGGCCATAAACATGAATTTCCTAGATTCCTACTTTTCCCAGAAAGCATTTGTCTGTGCAGAGGAAGAGGGTATCCAAGAAGCAAATGACTGCTTGCTGATCTATGATAACGAAGGCACAGATGATGCTCCTGATTCTCCCGTGGGATCCCTGGATTGCTGTAGTTTTATTGTTGATGACCTGGATGACAGCTTCTTGGACTCACTTGGCCCCAAGTTTAAAAAACTTGCAGAGATAACCCTTGGTATTGATGAGGAAGCCAAACAAGCTCATTCACCCCCTCAATACAGTGGTCCTGGGATTGACCACAAGATGGACTCCTGTAGTCGACTCATAGAAGTCCAGCAGTCAGGACTTGAGAGGTACCAGACTTTGTCTGGCAGTCAAGAACCTCATGCTTTGTCTACCTATGGGTCGCTCCAGCCAGCCATTCCCATACCCGACCCTCTGCAGCATAGTAACTATTTGGTAACAGAGTCTTACTCAGCTTCAAGTTCCTTTATGCAACCTACCACTGCAGTCTTTGATCCACTTCTCACACGAAATGTAACAATGACAGAAAGGGTGATTTGTCCCCTTTCCAATATCCCCAGTTCCACAGACCCACAAGGGTCATGCAATATGCTTTGTACTGAAGATACTTGTTCCCGTCAGTGA
Dsg1 desmoglein 1, transcript variant X2
Length: 3177 bp Location: 1551303..1517027 Strand: ->XM_004853126.1 ATGGACTGGCCACCCTTCACAGCAGCTGTCCTGCTCCTCTGCCTGGTCATGGCTGAAGTTAACAGTGAATTTCGAATCCAGGTAAGAGATCATAATGCTAAAAATGGCACCATCAAGTGGCATTCAATCAGAAGACAAAAGCGTGAATGGATCAAGTTTGCTGCAGCCTGCCGCGAAGGCGAAGACAACTCCAAGAGAAACCCAATTGCCAAAATTCATTCAGATTGTGCTGCAAACCAGCAAGTTACCTACCGCATCTCTGGAGTAGGAATTGATCAGCCACCTTATGGAATCTTTGTAATTAATCAAAAAACTGGTGAAATTAATATAACATCTATAGTTGATCGAGAGGTCACTCCTTATTTCATTATTGTTTGCCGGGCTTTGAATTCACAAGGTCAAGATTTAGAGAGGCCACTTGAGCTCAGAGTCAGGGTTTTGGATATAAATGACAACCCTCCAGTGTTTTCCATGGCTACATTTATAGGACAAATAGAAGAAAATTCTAATGCAAATACTTTGGTGATGAAACTCAATGCTACTGATGCCGATGAACCAAACAACTTGAATTCAAAAATCGCCTTCAAGATTATAAGACAGGAACCTTCTGACTCTCCAATGTTCATCATCAACCGATATACTGGAGAAATTCGAACAATGAACAATTTTCTAGACAGAGAGCAATATGGCCAGTATTCTCTTGCTGTAAAAGGCTCAGACCGAGATGGTGGGGCAGACGGCATGTCAGCGGAGTGCGACTGTAACATTAAAATCCTTGATGTCAATGATAACATCCCCTACCTGGAGAAATCTTCATACAGCATAGAAATTGAAGAAAATGCTCTACACTCAGACTTGGACCAGATTAGAGTCATTGATTTGGATGAAGAGTACACAGATAACTGGGTGGCAGTAATTTTCTTCATCTCCGGAAATGAGGGAAATTGGTTTGAGATAGAAATGAATGAAAAAACGAATGTGGGAATTCTGAAAGTTGTTAAGCCCCTAGATTACGAAACGATGAACAATCTGCAACTCAGTATTGGTGTTAGAAATAAAGCTGAATTTCATCATTCAATTATGGCTCAATATAAACTCACAGCTACTGTAATCTCTGTGTCTGTGAAAAATGTAGTTGAAGGCTCAGTGTTTCGCCCAGGTTCAAAGACATACGTGGTAACAAGTAACATGGGAGCAAATTCTAAAGTGGGAGACTTCATAGCTACTGACCTGGACACAGGTTTAGCTTCAACAACTGTTAGATATGTAATGGGAAATAATCCAGCTGACCTGCTAGCTGTTGACTCAAAAACAGGCATACTCACTTTAAGAAATAGAGTTACCATGGAACAGTATCAAATGCTTAACAAAAGATACCAAGGAACAATTTTATCTATAGATGATTCTCTTCATAGAACTTGTACTGGTACAATTATTATTGACCTTGAAGGTTCTGGCTGGGTAACAGAAGATAGCAGCAGTACACAGGGTGGCAGCAGCAACACAGGCACTACTTCAGAAAACACTACCGAAGACAGCAGTGGAGGTGGCACTAGTACCAACACCGGTGGACAATCTTCCAGTGATGATACTGATGTCAACAACGAAGAAAATGGTGACAAAAATGGTGGTGCATATAATGGTGGTGAAGCATTTGAAAATGGAATTGCAGATAATGTGCACTTTGGCCCTGCGGGCATTGGACTACTCATCATGGGATTCCTAGTCCTGGGATTGGTCCCATTCTTGTTGATCTGTTGTGATTGCGGAGGTGCCCCTGGGGGCGGCGCTGGCTTTGAGCCTGTCCCTGAGTGTTCCGATGGAGCGATTCATTCCTGGGCAGTAGAAGGACCACAGCCTGAACCCCACGATTTGGCCACTATCTGTGTGCCACAAATACCACCCGGTGGTGCAACCATGATGGAATGCATTGACAACTCAGGTGTTTATACAAATGACTATTGTGCCAGAGAAATGCAAGACCTGGGAGGAGGAGAAAGAATGACAGGATTTGAACTAATTGAGGGAGTTAAAACACCAGCTGCACCTGAGATATGCCAAGAATATTCCGGAACATTACGAAGAAACTCTATGAGGGAATGTAGAGAGGGTCTGAATATGAATTTCATGGAAAACTACTTCTGTCAGAAAGCATATGCCTATGCTGATGAGGATGAAGGACGCCCATCCAAAGATTGTTTGCTCATATATGATAATGAAGGTGTAGATTCCCCTGCTGGCTCTGTGGGTTGTTGTAGTTTCATTGGTGAAGACTTGGATGAAAGCTTCTTGGAGACTCTTGGGCCTAAATTTAAGAAGTTGGCAGATATCACCCTGGGAAAAGAAACCGTATGCTATCCAGACCCTGATCCCTCTTGGCCTCCTCAGAACACTGAACCAATCTACCCTCAGCAAACAACGGGGCTAGTGGCTAGTGGACACCAGCAAGTCTCCCAGCACGTTGGCGCTACCACAGTAATTTCTGAGAATACCTATCCCTCGGGACCTGCTGTACATCATCCTATGCCTATTCCTGACCCTCTGGGCTACGGTAATGTCACTGTGACCGAGTCCTACACCACCTCTGGTGCTCTGAAGCCCTCTGTCCACCTTCATGATAACCTGCATGCACCCAATGTGGTGGTGACAGAGAGGGTGGTAGGCCCCATCTCAGGTGCTGATTTGCATGGAATGTTAGAGATGCCTGACTTGAGAGATGGGTCAAATGTTATAGTGACAGAAAGGGTCATAGCACCAGGTTCAAGTCTACCCACCTCCCTGACTATCCCTACTCCTATAGAGCCTTCAAATGTGGTAGTTACAGAAAGAGTAATTCAACCAACTTCTGGTATGATGGGCAATCTAAGTATGCACCCAGATTTATCAAATGCCCACAATGTGATTGTGACAGAGAGGGTTGTTTCCGGTGCTGGCATTAGTGGAATTAGTGGTGCAGCTGGGTTAAGTGGTGGCGTAGGCAGCAGTGGCCTGGTTAGCACCAACATGGGTGTCAGTGGCAGTGGCCTGAGCCTGAGTGGCACCATGGGTGGGACAGCCACCATTAGCCACATGAGGAATTCCTCTGACCATCACTTTACCCAGCCCCTGGGATCTGCCTCCCCTAGCACAACCCGAAGTCGAATCACAAAGTACAGTACAGTACAATATACCAAGTAG
Dsc2 desmocollin 2, transcript variant X1
>XM_004853128.1 ATGGCGGCGCCCAGACCCGCGCGCTCCTGGAGCGGAGGCCTCTGCCGGCAGCTCCTGCTGACCCTCTCGATCTTAACATTTGCCTGTGATGCCTGCAAACCAGTGATACTGTATGTTCCTTCCAAACTGGATGCTGAGAAATTCATTGGTAGAGTTAACCTGGAGGAGTGCTTTAAATCTGCAACTCTAATTCATTCAAGTGACCCCGATTTCCAGGTTTTAGAAGATGGATCAGTCTATACAACAAATGCTGTTCTTTTGGCCTCCGAGAAGAGAGAGTTTATCATATCACTTTTTGACACAGAAAGCCAAGAAGAGAAGACAATCTCTGTCTTTTTAGAGGATCAAACAAAGGTACAAAAGGAAAAGCATTCTACAGAAAAACTTCTAAGACGTTCCAAAAGAAGATGGGCTCCTATTCCCTGTTCAATGCTAGAGAATTCTTTGGGTCCGTTCCCACTTTTCCTTCAACAGATCCAATCTGACACAGCCCAAAACTACACTATATACTATTCCATCAGTGGACCTGGAGTGGACCAAGAACCTCGAAATTTATTTTATGTGGAGAGAGATACTGGGAACCTGTATTGTACAGGTCCAGTAGATCGTGAGCAGTATGAGTCTTTTCAGCTGGTTGCCTTTGCAACAACTTCAGATGGGTACACACCAGAACTTCCATTGCCACTAATAATCAAAATAGAGGATGAAAATGATAACTACCCGATTTTTACTGAAACAACATACATTTTTACAGTTCTTGAAAATGGCAGAGTTGGCACTACAGTGGGACAGGTTTGTGCAACGGACAAGGATGAGCCCGATACCATGCACACGCGCCTGAGGTACTCAATCCTTGAGCAGCTACCATCGCGACCCACTCTCTTTACTATGCATCCAGGCACGGGTGTGATCACCACAACATCATCTCAGCTGGACAGAGAGGTAATTGATAAATACCAGTTGAAAGTAAAAGTACAAGACATGGATGGTCAACATTTTGGTTTGCAGACAACTGCAACTTGTATCATAAATATTGGGGATGTGAATGACAACTTGCCAACATTTACCCACTCTTCTTATGTGACATCAGTGGAAGAAAATACAGCTGATGTGGAAATCTTACGTGTTACTGTTGAGGATAAAGATTTAGCTAATACTGCTAATTGGAGAGCTAATTACACCATTTTAAAGGGCAATGAAAACGGAAATTTTAAAATTGTAACAGATCCCAAAACCAATGAAGGAATTCTGTGTATAGTCAAGCCACTAGATTATGAAGAAAGACAACAGATGACCCTGGAAATTGGTGTAACTAATGAAGCTCCATATACCAGAGAGGCTACTTCCAAATCAGCCATTAGCACAGCGACAGTCACAGTTACTGTCAAAAATCAGGACGAGGGCCCTGAGTGCCAACCTTCGGCACAAACTGTTCGGATTAAAGAAAGTGAGCCAGTGGGGACCCGGAGCAATGGCTACAAAGCGTATGACCCAGAAACAGGAAGTAACAGTGGCATAAGGTACAGAAAGTTAAGTGATCCGAAAGGGTGGGTCACCCTTGATGAAGATTCAGGATCAATCACAATTTTCCGAAATTTGGATAGAGAGGCAGAGTCCATCAACAATGGTGTATATAATATTACAGTCCTTGCATCAGATAAAGATGGAAGAAGTTGTACTGGAACCCTGGGAATTGTAATGGAGGACGTGAATGATAACGGCCCATTCATACCTAAGACTACAGTGACCATCTGTAAACCCACCATGTTCTCCACGGAGATTGTCGCTGTTGATCCTGATGAACCCATAAATGGCCCACCATTTGCCTTTAGTTTGGAAAGTTCTGATTCAGAAGTACGGAGAATGTGGAGACTGAAAAAAATTAATGACACAGCAACATGGCTTTCTTATCAGAATGACCCTCCGTTTGGATCATATGTTGTGCCCATCCGAGTTACAGACAGACTCGGCCTGTCTACCATCAACTCATTGACTGTTAGGCTGTGTGATTGTGTTACCGAGGCAGAGTGTGATATTCGCTCAATTGAGAGAGCTGGCGAAGTAAGACTTGGAACATGGGCCATCCTCGCAATATTGTTGGGCATAGCGCTGCTATTTTGTATCCTGTTTACATTGGTGTGTGCGGCTTCTAGGGCAACCAGAGAGGTAAAAACACTTCCTGATGATTTAGCCCAACAGAACCTGATTGTATCTAACACTGAAGCTCCCGGAGATGACAAAGTGTATTCCACAAATGCCTTCACGACCCATACCGTGGGCACTTCTGGTCAGGGCGTCTGTGGCACCTTGGGATCTGGGGTCAGAAACGGTGGGCAAGAGACCATAGAACTGGTGAAAGGAGGACAGCAGACCTTGGACTCCTGGCGGGGTGCTGGGTACCACCACACCCTGGACCCCTGCAGGGGAGGACACGTGGAGATGGACAACTGTCGCTACACCTACTCCGAGTGGCACAATTTCACCCAGCCCCGACTCGGTGAAAAGGTGCATCTGTGTGATCAGGATGACAACCACAAGCACGCTGAAGACTACGTCCTTTTGTATAACTATGAGGGCAAAGGATCAGTGGCTGGTTCCGTGGGGTGTTGTAGTGATCGACAGGAAGAAGATGGGCTTGAGTTTTTGGATCATTTGGAGCCCAAATTTAGGACCCTAGCTGAAGCATGCATGAAGAGATGA
Chst9 carbohydrate (N-acetylgalactosamine 4-0) sulfotransferase 9
>XM_004853133.1 ATGCAGCCATCTGAAATGGTCATGAACCCCAAGCAAGTCTTCCTGTCTCTGCTGATATTTGGAGTAGCAGGGCTCCTCCTCTTCATGTATTTGCAAGTCTGGATTGAAGAACAGCATACAGGGAGAGTGGAAAAGAAAAGAGAACAAAAAACAACTTCAGGATGGGGGCCAGTAAATTACCTTTACCCAGTACCAAAAACTATGACTACAGAAAAAATCCAGGAACATATTACCAACCAGAACACCAAGTTTCACATGCCTGAAGATCAGAAGGAAAAAAGGGAAAATCTACTCAACTCTGAGAGACCTACTAGGGATTTAACAAAGATCAGCCTTTCACAAGCAGAGGATCAAGCTTTGAGTAAAGTCACAGGGTCATCAATAAGTAAACTGGTTGAAAAACATCAAGGAACTAAAATTCTCTCCATGAAGTCCAGTGAAATGAATTGGCCATTGGACATTCGGCCTTTAAATAAAAGTTTAGTCAAAGACAACAAATGGAAAAAAACTGATGAAACCCAAGAGAAACGTAGGTCCTTCCTTCAGGAGTTTTGCAGGAAATACGGTGCAGTGAGCCATCGTCAGTCACATCTGTTTCATGTGGTTTCCAGGATCTATGTAGAAGACAAACACAAAATCTTATACTGTGAAGTGCCAAAGGCTGGGTGTTCCAACTGGAAAAGGGTTCTGATGGTACTAAATGGGTTGGCTTCCTCTGCATACAACATCTCCCACGATGCTGTCCACTATGGAAAGCATTTGAAAAAGCTAGATAGCTTTGACCTAAAAGAGATATACACTCGCTTAAATACCTACACCAAAGCTGTGTTTGTTCGTGACCCCATGGAAAGATTAGTGTCAGCATTTCGGGACAAATTCGAACACCCCAATAGTTACTATCATCCAGTATTTGGAAAAGCAATTATAAAGAAATATCGGCCAAATGCCTGTGAAGAAACATTGAATAATGGATCTGGAGTCAAATTCAAAGAGTTCATCCACTATTTGCTGGATGCTCACCGACCCGTTGGAATGGACATTCACTGGGAAAAGGTCAGCAAACTCTGCTATCCATGTTTGATCAACTATGATTTTGTAGGGAAATTTGAAACTTTGGAAGAAGATGCCAATTACTTTCTACAGATGATTGGTGCTCCAAAAGAGCTGAAATTCCCAAATTTTAAGGATAGGCACTCTTCTGATGAAAGAACCAATGCTCAAGTGGTGAAGCATTATTTAAAGGATCTGAGTAGAACTGAGAAACAGTTAATCTATGACTTTTATTACTTGGACTATTTGATGTTTAATTATACAACTCCATTTTTGTAG
Kctd1 potassium channel tetramerisation domain containing 1
>XM_004853136.1 ATGGCGAGAATGCCTGGCAGCGGGGACTGTAACACCGGCGCGGGCGGCTGCGGCGCCGCGGCCGCCGCTGCCGCCGCAGAGAACAATGGGGAGCGAGGAGAGGGCGAGCGCGGCGCGGGGCAGCGGGGCCGCCGCCACGGGCGCCCACACTACTGCAGCGCGGGCGAGGAGGAGGAGGAAGAGGAGGAGGAGGAGGACGAGATCCAGGAGGTGCAGATAACGGGGGACGAGGAGGAGGAGGACGGAGGCGGGGGGCTGGAGGAGGACGACGAGGAGGAGATGGGGCTGGACTGGGACGAGCCCCTGGAGCCCGAGGACTCGGCCGGGGAAGAGCTGGAGCCCGAGCCGGTCCGCAGGATCCATATGGACCAGGGCGCCGCGCTGGAGCCCGAGGCGCCGCCGCGACTGCTTGCGCCCCGGGCGCGCGGAGGGCCGCCCGGCGACGGCGCGGAGCTGGACCCCGACGGGCTGCAGCGCCCCGAGCGGGCCCGGCTGAGCGAGAACACCCGGCTGGCCACCCGCTACGCCGTGCGCATCTTCCGGGAGTACCTGAGCGAGAAGGCGCAGAGCCCGGACTTCGAGACCATGGACAAGGGGGCGCTGTGCCGCGTGCTGCGCTCCTTCTACGCCGAGGCCCGCTCTAAGAGCGGCCAGCTCTACAGCAAGTCGTCGCTGATCAGCATCCGCAGCTCGCTCAACCGCTACCTCAACGAGCCCCCGTACTGCCGCACGCTCGACCTCACCAAGGACCCCGAGCTGCGCAGCGCCAACCTGACGCTGGCCGCGGTCATCCGCAAGCTCGAGGAGCAGGGCGCGGGGCCGGTGGTGCAGAAGCAAGCCATCACGCGCGCCGACCTGCGCAAGCTCTACACCTCCAGCGTCTTCAGCACCAACACGCCCTTCGGGCTGCTCAACAAGGTCTGGTTCGAGACGTGCATGTACTTCTGCACGCGCGGCCGCGAGAACCAGCGCGAGCTGGAGGAGGACTCTTTCGGGCTGGCCATGGACGAGGACGGTCGCAAGTTCGTCTACTTCAAGTCCCTCGGGCCGTACCACAAGTCGCGCTCCTCGTCCTGGAGCAAGAAGCGCGCGGAGAGCAGCGACGAGGAGAACTTGCCTCGCATGTACGAGACGGGCACCGAGTTCTGTCCCTACGCCAGCTTCGTTAAGTACCTGTCCAAGCGCAATCCCTTGTGCAAGGCGTTCTTCCAGCGGCCCCGGGACCACTGCAGCGAGGGCGATGTGACCTGGTACGAGAACAAAGCCATCGGCAAGAACTTGCTGGGCACCAGGATGCAGATGCTGTCCAAGGCGGCCAAGCTGTCCAAGACCTACACCAACCACTGCATCGGTGCCGTCTCCATCGCCACGCTCAACAGCATCGCGGGCATCGGCACCAAGCTGGGCTCGCCGGCCCCGCAGGGTTGCTTCGCGGAGGCTTTGAACGGGGCGGCTCGCCACCCCTCCCACCACCACCCCACCCATCCCTCCCGCCACCACCGCCCCCAGCCGCCCTCGCTGGGGAACACTTACATACTCCCCAAAGACAGTCAGGTCGGGCCCGACGTGAAATCCGAGGCTGCGCCCAAGCGAGCCCTGTACGAGTCCGTGTTCGGGTCCGGGGAAATCTGCGGCCCCTCTTCCCCCAAAAGACTTTGTATTCGCCCCTCGGAGCCTGTGGATGCGGTGGTGGTGGTTTCGGTGAAACACGACCCCCTGCCTCTTCTTCCGGAAGCCAATGGGTACAGAAGCACCAATTCTCCCACAATAGTTTCACCTGCTATTGTTTCCCCTACCCAGGACAGTCGGCCCAATATGTCAAGACCTCTGATCACTAGATCCCCTGCATCTCCACTGAACAATCAAGGCATTCCTACTCCAGCACAGCTCACAAAATCCAATGCGCCCGTCCACATCGATGTGGGCGGCCACATGTACACCAGCAGCCTGGCCACCCTCACCAAATACCCCGAATCCAGAATCGGAAGACTTTTTGATGGTACAGAGCCCATTGTTTTGGACAGCCTCAAACAGCACTATTTCATTGACAGAGATGGACAGATGTTCAGATATATCTTGAATTTTCTACGAACATCAAAACTCCTCATTCCTGATGATTTCAAGGACTATACTTTGTTATATGAAGAGGCAAAATATTTTCAACTTCAGCCAATGTTGTTGGAGATGGAAAGATGGAAGCAGGACAGAGAAATGGGTCGCTTTTCACGGCCCTGTGAGTGCCTCGTGGTGCGTGTGGCCCCGGACCTTGGAGAAAGGATCACACTCAGCGGTGACAAGTCCTTGATAGAAGAAGTGTTTCCAGAGATTGGCGACGTGATGTGCAACTCAGTGAACGCAGGCTGGAATCACGACTCGACGCATGTCATCAGGTTTCCACTGAATGGCTACTGTCACCTCAACTCAGTCCAGGTCCTCGAGAGGTTGCAACAAAGAGGATTTGAAATCGTGGGCTCCTGTGGGGGAGGAGTGGACTCGTCCCAGTTCAGTGAATACGTCCTTCGGCGGGAACTGAGGCGGACACCCCGCATACCTTCTGTCATCCGGATAAAGCAAGAGCCTCTGGACTAA
LOC101704577 protein SSXT-like, transcript variant X1
Length: 1254 bp Location: 6256556..6338056 Strand: +>XM_004853140.1 ATGTCTGTGGCGTTCGCGGCCCCGAGGCAGCGAGGCAAGGGGGAGATCACGCCCGCTGCGATTCAGAAGATGTTGGATGAAAATAACCATCTTATTCAGTGTATAATGGACTATCAGAATAAAGGAAAGACTTCAGAGTGTTCTCAGTATCAGCAGATGTTGCATACAAACTTGGTATACCTTGCTACAATAGCAGACTCTAATCAAAATATGCAGTCTCTTTTACCAGCTCCACCCACACAGAATATGCCTATGGGTCCCGGAGTGATGAATCAGAGCGGCCCCCCCCCTCCACGTACACACAACATGCCTTCAGATGGAATGGTAGGTGGGGGTCCGCCTGCACCACACATGCAGAACCAGATGAACGGCCAGATGCCTGGACCTAACCATATGCCTATGCAAGGACCTGGACCCAATCAACTCAATATGACGAACAGTTCCATAAATATGCCTTCAAGTAGCCATGGATCCATGGGTGGTTACAACCATTCTGTGCCCTCCTCGCAGAGCATGCCGGTGCAGAACCAGATGACAATGAGTCAGGGGCAACCAATGGGAAACTATGGCCCTAGGCCAAACATGAATATGCAGCCCAACCAAGGTCCAATGATACATCAGCAGCCACCTTCTCAACAGTACAATATGCCACAGGGAGGTGGGCAACACTACCAAGGACAGCAGCCACCAATGGGGATGATAGGTCAGGTTAACCAAGGCAATCATATGATGGGTCAGAGACAGATTCCTCCCTATAGACCACCTCAACAGGGCCCACCGCAGCAGTACTCAGGTCAGGAGGACTATTATGGGGACCAATACAGTCATGGTGGACAAGGTCCTCCAGAAGGCATGAACCAGCAATATTACCCTGATGGTCATAATGATTACGGTTATCAGCAACCGTCGTATCCTGAACAAGGCTACGATAGGCCTTATGAGGATTCCTCACAACATTACTACGAAGGAGGAAACTCACAGTATGGCCAACAGCAAGATGCTTACCAAGGACCACCTCCACAGCAAGGGTATCCTCCCCAGCAGCAGCAGTACCCGGGGCAGCAGGGCTATCCAGGACAGCAGCAGGGCTATGGTCCTTCACAGGGTGGTCCAGGTCCTCAGTATCCTAACTATCCACAAGGACAAGGTCAGCAGTATGGGGGATACAGACCAACACAGCCTGGACCACCCCAGCCCCCCCAGCAGAGGCCTTATGGGTATGACCAGGGACAGTATGGAAATTACCAACAGTGA
Znf521 zinc finger protein 521
Length: 3954 bp Location: 7011142..7264440 Strand: +>XM_004853298.1 ATGGATCCTGCCAGTGCACCCTCTACGGAGGGAGTACTTATAGTCTTGATTTTTCTTGCAGACCCCAACTGTAAACTTGAAGACAAGACTGAAGATGGAGAGGCAATAGATTGTAAGAAGAGGCCGGAAGACGGGGAGGAGTTAGAAGAAGCTGTACACAGCTGTGACAGCTGCCTCCAGGTGTTTGAATCACTGAGCGATATCACAGAACACAAGATTAATCAATGTCAACTGACAGATGGCGTGGATGTTGAAGATGATCCCACGTGCTCCTGGCCAGCCTCCTCCCCTTCTAGCAAGGACCAGACGTCCCCCAGCCATGGAGAAGGTTGCGATTTTGGAGAGGAAGAAGGTGGCCCCGGACTGCCATACCCGTGTCAGTTCTGTGACAAGTCGTTTAGCCGCCTCAGCTACCTAAAGCACCATGAGCAGAGTCACAGTGATAAACTGCCTTTCAAGTGCACCTATTGTAGTCGGCTGTTCAAACACAAGCGGAGCCGAGACCGCCACATAAAACTGCACACCGGGGACAAGAAGTACCACTGCAGCGAGTGTGATGCTGCGTTCTCCAGAAGTGATCACTTGAAGATCCACTTAAAGACTCACACGTCCAACAAGCCATATAAATGTGCCATTTGTCGCCGTGGGTTCCTGTCCTCTAGCTCCTTACATGGACATATGCAGGTTCACGAGAGGAACAAAGACGGCTCCCAGTCGGGCTCCAGGATGGAGGACTGGAAGATGAAGGATGCTCAGAAGTGCAGTCAGTGTGAGGAAGGCTTTGACTTCCCAGAAGACCTTCAGAAGCACATTGCAGAGTGTCACCCTGAATGCTCCCCGAACGAGGACCGAGCGGCCCTTCAGTGTGTCTACTGCCATGAGCTCTTTGTGGAGGAGACGTCCCTCGTGAACCACATGGAGCAGGTGCACGGGGGCGAGAAGAAGAACTCCTGCAGCATCTGTTCTGAGAGTTTCCACACAGTGGAGGAACTGTACAGCCACATGGACAGTCACCAGCAACCGGAGTCCTGCAATCACAGCAACAGCCCCTCCCTGGTTACAGTGGGCTACACCTCCGTGTCCAGCACGACTCCAGATTCCAACCTCTCAGTGGACAGCTCAACCATGGTGGAGGCCGCCCCGCCAATCCCAAAGAGTCGAGGGAGAAAGAGGGCTGCTCAGCAAACCCCCGACATGACCGGCCCCTCGAGTAAACAACCGAAAGTTACATACAGCTGCATTTACTGCAACAAGCAGTTGTTTTCGAGTCTTGCAGTTCTGCAGATTCACCTGAAAACTATGCATTTAGATAAGCCAGAACAGGCCCATATCTGTCAGTATTGCTTGGAGGTCTTGCCCTCACTCTATAACCTAAATGAACATCTTAAGCAAGTGCACGAAGCTCAGGACCCAGGCCTGATCGTTTCTGCCATGCCTGCCATAGTTTACCAGTGCAACTTCTGTTCTGAAGTTGTCAATGACCTCAACACCCTTCAGGAACACATCCGATGTTCTCACGGCTTTGCAAACCCTGCGGCTAAGGACAGTAATGCTTTCTTTTGTCCCCATTGCTATATGGGGTTTCTCACTGACTCTTCCCTTGAAGAGCATATAAGACAGGTCCATTGTGACCTCAGTGGCTCTCGATTTGGGTCTCCAGTGCTTGGGACTCCAAAAGAACCAGTAGTAGAAGTCTATTCCTGTTCCTATTGTACAAATTCGCCAATATTCAACAGTGTTCTTAAACTGAACAAGCATATCAAAGAGAATCATAAAAACATTCCCTTGGCCTTGAATTATATTCACAATGGGAAGAAGTCCCGGGCCTTGAGCCCTCTGTCCCCTGTGGCCATTGAGCAGACATCTCTTAAGATGATGCAGGCAGTAGGAGGCGCACCCGCGCGTCCAGCTGGAGAGTATATCTGTAATCAGTGTGGTGCTAAGTACACGTCCCTAGACAGCTTTCAGACTCACCTGAAAACTCACCTCGACACTGTGCTGCCCAAATTGACCTGTCCTCAGTGCAACAAGGAATTCCCCAACCAAGAATCCCTGCTGAAGCATGTGACCATTCACTTTATGATCACCTCGACCTATTACATCTGTGAGAGTTGTGACAAGCAGTTCACATCCGTGGACGACCTTCAGAAGCACCTGCTGGATATGCACACCTTCGTCTTCTTCCGCTGCACGCTCTGCCAAGAGGTTTTTGACTCAAAAGTCTCCATTCAGCTGCACTTGGCCGTGAAGCACAGTAATGAGAAGAAGGTCTACCGGTGCACGTCCTGCAACTGGGACTTCCGCAACGAGACCGACTTGCAGCTCCACGTGAAGCACAATCACCTGGAAAACCAAGGCAAGGTGCACAAGTGCATCTTCTGTGGTGAGTCCTTTGGCACTGAGGTGGAGCTCCAGTGCCACATCACCACCCACAGCAAGAAGTACAACTGCAAGTTCTGCAGCAAAGCCTTCCACGCCATCATTTTGCTAGAGAAGCATTTGCGGGAGAAGCACTGCGTGTTTGAGACCAAGACACCGAACTGCGGGACGAATGGGGCTTCAGAGCAGGTACAGAAAGAGGAGGTGGAGCTGCAGACCTTGCTGACCAACAGCCAGGAGTCCCACAACAGTCACGATGGAAGCGAAGAAGACGTGGACAGCTCTGAGCCTATGTACGGGTGTGACATCTGTGGGGCGGCCTACACCATGGAAACCCTACTGCAGAATCACCAGCTTCGGGATCACAACATCAGGCCTGGAGAAAGCGCCATTGTGAAAAAGAAAGCTGAGCTCATTAAGGGGAATTACAAGTGCAACGTGTGCTCTCGAACCTTCTTTTCTGAAAATGGCCTCCGTGAACATATGCAGACCCACCTAGGCCCTGTCAAACACTACATGTGCCCCATTTGTGGAGAGCGGTTTCCTTCCCTTTTAACTCTTACCGAACACAAGGTCACACACAGTAAGAGCCTTGATACCGGAAACTGTCGGATTTGCAAGATGCCGCTGCAGAGTGAAGAGGAGTTTTTGGAGCATTGCCAAATGCACCCTGACTTGAGGAATTCCCTGACGGGATTCCGCTGCGTGGTGTGCATGCAGACTGTGACCTCCACCTTGGAACTCAAAATCCATGGGACATTCCACATGCAAAAGACAGGGAATGGGTCCGCCGTGCAGACCACCGGGCGTGGCCAGCACGTCCAGAAACTGTACAAGTGTGCATCTTGCCTCAAAGAATTCCGTTCCAAGCAAGATCTGGTGAAACTTGACATCAACGGCCTGCCATATGGTCTGTGTGCTGGCTGCGTGAATCTCAGTAAGAGCAGTAGCCCAGGCATCAGCCTCCCGCCCAGCACGAATAGACCAGGCTTGGGCCAGAATGAGAATCTCAGTGGCATGGAGGGCAAAGGCAAGACGGGGGGACTGAAGACACGCTGCTCCAGCTGCAATGTGAAGTTTGAGTCTGAAAGCGAACTCCAGACCCACATCCAGACCGTGCACCGAGAGCTCGTGCCAGACGCCAACAGCACACAGTTGAAAACGCCACAAGTGTCGCCCATGCCCAGAATCAGCCCCTCTCAGTCGGACGAGAAGAAGACCTATCAGTGCATCAAGTGTCAGATGGTTTTCTACAATGAATGGGACATTCAGGTCCATGTTGCAAATCACATGATTGACGAAGGACTGAACCATGAATGCAAGCTCTGCAGCCAGACCTTCGACTCCCCCGCCAAACTCCAGTGCCACCTGATAGAGCACAGCTTCGAAGGGATGGGCGGCACCTTCAAGTGTCCCGTGTGCTTTACAGTGTTTGTTCAAGCGAACAAGTTGCAGCAGCATATTTTCTCTGCCCATGGACAAGAAGACAAGATCTATGACTGTACACAGTGTCCGCAGAAGTTTTTCTTCCAAACAGAGCTGCAGAATCATACGATGACCCAACACAGCAGTTAG
Hrh4 histamine receptor H4
>XM_004853299.1 ATGTCTACAATGCCTTCCAATATTGACTATTCTACTTCACTGAACAGAATGCCTGTCATGGTCCTGCCTGTGTCATATAGAGTTCGGCACACTGGCACCTGGAAGATTGTCACTCGGATGGTGGCTGTTTGGGTGCTGTCCTTCTTGACGAATGGGCCCCTGATTCTGATTTCAGAGTCTTGGAAGAAAAGCACCAGCACCACATGTGAACCCGGATTTTTTATCACGTGGTACATTGCCGTCTTCACGTCGTTATTGGAATTCCTGGTTCCTATCTTAGTCGCTTATTTCAATGTCCACACTTACTGGAGCCTGTGGAAGCGAGGGAACCTCAGCAGGTGCCTCAGCCAACCCGGAGTCCCCTCTGTCTCTTCCAGTGATGGCCATGGGCACACATGCAGACAGGGCCCAGGTTCAAGGGTGACCCTTCCAGCACAGAAAGAAGCAGCGGCCTTCCTGGATCCAGGCAAACCACGAAGAAAGAGCAGTGTCTTGTTTTTCAGCAGAGCTCACAAGAATAACAGTATTATTGCCTCCAAAATGAATTCCCTCTCCCAATCAGATTCCCTGGCTCTTCAGCAAAAGGAACATTTTGAACTTCTCAGAGCCAGGAAATTGGCCAAGTCACTGGCCATTCTTTTAGGAGTTTTTGCCATTTGCTGGCCTCCATACTCACTGACCACAATTATTCATTCCATATTTCAGGTACAGGACTTTGCTAAATCCAACTGGTACAAAGTTGCCTTTTGGCTCCAGTGGTTCAATTCCTTTGTTAATCCCTTTTTGTATCCATTGTGTCACAAATGTTTTCAGAAGGCTTTCTTGAAAATATTTCGGGTGAGAAGACAATCCATACCAGCACACAATCGCTCAGTATCCTCTTGA
Cabyr calcium binding tyrosine-(Y)-phosphorylation regulated, transcript variant X6
Length: 1146 bp Location: 8079389..8055100 Strand: ->XM_004853147.1 ATGATTTCTTCAAAATCCAGACTTGTCATACCCAATGGCCTCAAGACTCTGCTTGAGGGAGTTAGCAGAGCTATTCTCAAAACCAATCCATCAAACATCACCCAGTTTGCAGCAGTTTATTTTAAAGAACTTGCAGTGTTTAGAGAAGGGAATGCTTCTCTGGATATAAAAGATCTGGTTAAACAATTCCATCAGATTAAAGTACAGAAATGGTCAGAAGGAATGATACTGGAGAAGAAACTAGTACGTATAAAGGAATCCGAAGGAACATCTAAGGTCTTCCAAGAATCTACACAGATGGAAAAATGCACAGACACGGAGGAGGACAATATTGCTGGGCCACAATTCATCAACAAAAGCACCCAGTTTCCGTTAGACCGTGCTGAGCACCGACAGCCTGAGGAGAAGGCTGAAGCAGCTCATGGTCCTTCTTCCAAACCGGCCACCCCCAAGGCCACCAGCCCAGCCCCATCGCCATCTCCAGCACCCGTCTCGGCAGAGTTCGCTTATGTTCCTGCTGACCTGGCTCAGCTTGCCGCTCAGATGCTAGCAATAGCAACAAGCGAAGCAAGACAACCACCACCATATTCTAATAACACGTGGACTCTTTATTGTCTAACTGATAAGAATCAACAAAGCTGCCCATCACCGCCACCTGCACCTGGGCCTTTCGCCCAAGCAACCCTCTATTTATCTAATTCTAAGGATCCACAGTTTCTGCAGAATTCACCAAAAATTACTTCTCCTTACGTGATGACAGATGACAGCAAGACCAGTCGCCCACCTTTTGTTTTAGTGGGCTCAAATGTTCAGGAAGCACAGGATTGGAAATCTCTTCCTGGACACACTGTTGTCTCACAGTCAGATGGTGTGAAGAGATACGCTATCGTACATGTACCTATTGCTGTTGCTGCAGACCAGAAATTCCAGAAACACACCCGGAGTCCCCAGAATGCTAGTCCTCCCACAAGTGGACACGATGGCCCCAGGCCACAAAGCCCAGTTTTTCTTTCTGTTGCTTTCCCAGTAGAAGACGTAGCTAAAAAAGGTTCAGAATCTGGTGACAAACATACTCCTTTTGGAAGTTACGGTATTGCTGGAGAGATTACTGTGACCAGTGCCCATGTTCGCAGAGCAGAACCTTAA
Cabyr calcium binding tyrosine-(Y)-phosphorylation regulated, transcript variant X3
Length: 1392 bp Location: 8079389..8056295 Strand: ->XM_004853144.1 ATGATTTCTTCAAAATCCAGACTTGTCATACCCAATGGCCTCAAGACTCTGCTTGAGGGAGTTAGCAGAGCTATTCTCAAAACCAATCCATCAAACATCACCCAGTTTGCAGCAGTTTATTTTAAAGAACTTGCAGTGTTTAGAGAAGGGAATGCTTCTCTGGATATAAAAGATCTGGTTAAACAATTCCATCAGATTAAAGTACAGAAATGGTCAGAAGGAATGATACTGGAGAAGAAACTAGTACGTATAAAGGAATCCGAAGGAACATCTAAGGTCTTCCAAGAATCTACACAGATGGAAAAATGCACAGACACGGAGGAGGACAATATTGCTGGGCCACAATTCATCAACAAAAGCACCCAGTTTCCGTTAGACCGTGCTGAGCACCGACAGCCTGAGGAGAAGGCTGAAGCAGCTCATGGTCCTTCTTCCAAACCGGCCACCCCCAAGGCCACCAGCCCAGCCCCATCGCCATCTCCAGCACCCGTCTCGGCAGAGTTCGCTTATGTTCCTGCTGACCTGGCTCAGCTTGCCGCTCAGATGCTAGGTAATGTTGCATCTACTCATTCTCATGAATCTGATGTATTAATGGTGGACATGGCGACCAGTATGCCCATTTTTACCGAGGAGGTGCTGAGTGCAGAGGTTGCTGAAGAAGTGGTGGCTGCCCCTCTGGGGTGCCCCAGAGAGGTGCAGGTTGTAAGCCAAGCATCTGTGCAGGTAGATGTGGGTCCTAAAGCTAAAGACTATGAGGCTGAACCATCCACACCTTCCTCAGTCCCCTTGCAGGACGAACACCACCCTCCTGTTTATGATCAAGCTCCTAAGGCCCCTTTGCAGGCTGACACCCCGGTCACATCAGCCCTTCGCATATCATCTATATATAACAATGCGCCTGTCACTGAAGAAGTTGTCTATGTTAAGCGAACCCCTGTTCCTGAAAAGCAGCAGTCACCACCAGGTAGTCCCAAACTTGTAGTATACGAGATGGCCTCAGGCATGTGCAAAAAATCTGTAGAGTCTGTAAAATTTGCAGAGGTGGAGAAGACAAATTACCAGCCCTTAGTCCATGTGGAGGTAGAAGCTATAGTACTGCTGCACTCTGACTCCTGTTTGCAAGGTCAGCCGGAGGCACCTGCAGAACCCCTGCATGCAGAGGACCTTATCGAAACAGGTCCCAAAAAGTCTCTGCACCTTGAAGTGGAGATCATGTCCGCAGACCTTGACAAACCCGGGCAGGAGGAGAAGCCCCAGGAGACAGAGGCCGAAGCGGTGCCCCCAGGGGCGGCTGCAACATCATCTAGTGGCCCCTTCCCTCCTGTGCTAGAAGGTCTTACTGAGCCAGAAATTGAACCAGAAGGGGAAGCAGCACCTGAACAGGTTTGGTGA
Npc1 Niemann-Pick disease, type C1
>XM_004853153.1 ATGGGCGCGCGCGGCCGGGCCCTCGGCCTTCTGCTGCTGCTGCTCTATCCCACGCAGGTGTTTTCACAGTCCTGCATTTGGTATGGAGAGTGTGGAATTGCATCTGGAGATAAAAGGTACAACTGCAAATATTCTGGACCGCCGAAGCCACTGCCAAAGGACGGGTATGACTTAGTGCAGGAGCTCTGTCCGGGATTCTTCTTTGACAATGTCAGCCTATGTTGCGATGTTCAGCAGCTCCAGACACTGAAAGAGAACTTGCAGCTGCCTCTGCAGTTTCTGTCCAGATGTCCATCCTGTTTTTATAACCTAATGAACTTGTTTTGTGAGCTGACCTGTAGCCCTCATCAGAGCCAGTTTCTGAATGTCACAGCAACTGAAGATTATGTTGATCCTTATACAAACCAGACAAAAACAAACGTAAAAGAGTTACAGTACTATGTTGGACAGAGTTTTGCCAATGCGATGTACAATGCCTGCCGGGATGTGGAGGCCCCCTCAAGTAATGTCAAGGCCCTGGGCCTGCTGTGTGGGAGGGATGCTGACACCTGCAATGCCACCAACTGGATTGAGTACATGTTCAATAAGGACAACGGACAGGCGCCATTTACCATCACACCCATCTTTTCAGATCTTCCCATCCAGGGGATGGAGCCCATGAGAAATGCCACCAAAGCCTGCAACGAGTCTATAGATGAGGTCACGGGGCCGTGCAGCTGCCAGGACTGCTCCATTGTCTGCGGCCCCAAGCCCCGGCCCCCACCCCCTCCCGCGCCTTGGCAACTCCTCGGCTGGGACGCCATGTATGTCATCATGTGGGTCACCTACATGGCCTTTCTGTTCGTATTTTTTGGAGTATTTTTCGCAGTGTGGTGCTACAGAAAACGATACTTTGTCTCGGAGTACACGCCCATCGACACCAATGTGGCTCTCGGTGCGCACGCCTTTGACAAAGGGGAGGCATCCTGCTGCGACCCACTGGGGGCCTCGTTCGAGGGCTGTTTGAGGCGCCTCTTCACACGGTGGGGGGCTTTCTGCGTCCGAAACCCTGGCTGCGTCATTTTCTTCTCACTGGTCTTCATTGCCACGTGCTCTTCAGGCCTGGTGTTTGTCCAGGTGACCACCAACCCGGTGGACCTCTGGTCGGCCCCCAGCAGCCAGGCCCACCTGGAGAAGAAGTACTTTGATACGCACTTCGGGCCCTTCTTCCGGACGGAGCAGCTCATCATCCAGGCCCCGAACACCAGCAAACACCTCTACTCCCCGTACCCCTCCGGAGCCGACGTGCCCTTTGGGCCTCCGCTTGACAAGGAGATCTTGCACCAGGTTCTCGACTTACAAATAGCCATTGAAAACATTACTGCCTATTATAACAATGAGACTGTGACACTTTGGGACATCTGCTTGGCCCCTCTCTCGCCGTATAACAAGAACTGCACCATCTTTAGTTTGCTAAATTACTTCCAGAATAGCCATGCTACGCTGGACCACGAAGTAGGGGACGACTTCTTTGTGTACGCTGACTACCATACGCACTTCCTGTACTGCATCCGGGCTCCCGCCTCTCTGAATGACACGACCATGCTCCATGACCCTTGCCTGGGGACGTTCGGAGGACCAGTGTTCCCGTGGCTCGTGCTAGGCGGCTATGATGAGGAAAACTACAATAATGCCACTGCCCTTGTGATTACCTTCCCTGTCAATAATTACTACGATGATCCGGAGAAGCTCCAGCGGGCCCAGGCCTGGGAGAAAGAGTTTATTAACTTTGTGAGCAACTACAAGAATCCCAACCTGACCATTGCTTTCTCTGCTGAACGGAGTGTTGAAGATGAGCTGAACCGAGAAAGCGACAGTGATGTCTTCACCATTGCGATCAGCTATGGAGTCATGTTTCTGTACATCTCCCTAGCCTTGGGCCACATCAGAGGCTGCTGCAGGTTTCTGATAGACTCTAAAATCTCCCTTGGCATTGCGGGGATCCTGATTGTGCTGAGCTCAGTGGCCTGCTCCCTGGGCATCTTCAGCTACATTGGGATCCCGTTGACCCTCATAGTTATTGAAGTCATCCCATTCCTGGTGCTGGCTGTTGGGGTGGACAACATTTTCATCCTGGTGCAGACCTACCAGAGAGATGAACGTCTTCAAGGAGAAACCCTGGATCAGCAACTGGGCAGGGTTCTAGGAGAAGTGGCTCCTAGTATGTTCCTGTCATCCTTCTGCGAGACTACAGTATTTTTCTTAGGAGGACTGTCGTTGATGCCAGCCGTGCACACCTTCTCGCTGTTTGCGGGGATGGCGGTCCTCATCGACTTCCTCCTTCAGATTTCCTGTTTCATGAGTCTCTTGGGCATGGACATTAAGCGTCAGGAGAAAAACCGGCTGGACATCCTGTGCTGTGTCAGAGGTGCTGACGATGGGAGAAGCATCCAGGCCTCCAAAGGCTGCCTGTTCCGCTTCTTTAAGAACTCCTATTCCCCACTTCTGCTGAAAGACTGGATGCGGCCACTTGTGATAGCCGTGTTTGTGGGTGTTCTCTCATTCAGTATCGCAGTCCTGAACAAAGTAGAAATTGGATTGGACCAGTCTCTTTCAATGCCAGATGACTCCTACGTCACAGATTATTTCAGATCCCTTGGTCAGTACCTGCATGCTGGGCCGCCTGTGTACTTTGTCCTGGAAGAGGGGCACGACTACACTTCCCTGCACGGGCAGAACATGGTGTGTGGTGGCATGGGCTGCGATAACGACTCACTGGTGCAGCAGATTTTCAACGCAGCCCAGCTGGACAACTACACCCGGATTGGCTTTCCCCCCTCGTCCTGGATTGACGATTATTTTGACTGGGTGAAGCCACAGTCCTCCTGCTGTAGAGTCTACAACGCCACTGACCAGTTCTGCAACGCTTCAGTGGTTGACCCTGCTTGCATCCGCTGCAGGCCTCTGACTCCGGAGGGCAAACAGAGGCCTCAGGGTGGAGACTTCATGAGATTCCTACCCATGTTCCTTTCTGATAACCCTAACCCCAAGTGTGGTAAAGGGGGACATGCTGCCTACGGCTCTGCTGTGAAGCTCCTCGGCAACAGCACCAGCGTCGGCGCCACGTACTTCATGAGCTACCACACAGTGCTCCGGACCTCAGCAGACTACACCGATGCTCTGAGGAAAGCCCGGCTTGTGGCCAGCAACATCACCAAAACCTTGAGTGCCAAAGGCAGCAGCTACCACGTGTTCCCGTACAGCGTGTTCTACGTCTTCTACGAGCAGTACCTGACCATCGTCAGTGACACCATCTTTAACCTCAGCGTGTCCCTGGGATCCATATTTCTGGTCACCACGGTGGTCCTGGGCTGCGAGCTGTGGTCTGCCATCGTCATGTGTGTCACCATCGCCATGATCCTGGTCGACATGTTTGGCGTCATGTGGCTGTGGGGTATCAGTCTGAACGCAGTTTCTTTGGTCAACTTGGTAATGAGCTGCGGCATTTCCGTGGAGTTCTGCAGCCACATAACCAGAGCGTTCAGCGTGAGCTGCAGGCGGAGTCGCGTGGACCGCGCAGAAGAGGCGCTGGCCCACATGGGCAGCTCTGTATTCAGTGGAATCACACTTACAAAATTTGGAGGGATTATGGTGTTGGCTTTTGCCAAATCTCAGATTTTCCAGATATTTTACTTCAGGATGTATTTAGCTATGGTCTTACTAGGAGCCGCTCACGGACTAATATTTCTCCCTGTCCTCCTCAGTTACATAGGGCCATCAGTAAATAAAGCTAAAATTCACGCCACTAGAGAGCGATACAGAGGCACAGAGCGAGACCGACTCCTGAATTTCTAG
Riok3 RIO kinase 3, transcript variant X4
>XM_004853157.1 ATGGATCTGGTGGGAGTAGCATCCCCTGAGCCCAGGCCGGCAGCGGCCTGGCAACCCCGCAAGTGTCCATGGGCTACTCCCCAAAAGACAATATCCTGCTCTTTGTCTGATGTCATGAGTGAACAGTTGGCTAAAGAACTGCAGTTAGAAGAAGAAGCTGCTGCTTTTCCTGAAGTTGTCGCTGCTGAGGGACCATTTCTTTCGGGGGAAAACCTTGATACTTCCAGCGACCTGATGCTGGCTCAGATGCTGCAGATGGAGTTTGACAGAGAGTACGACGCCCAGCTGAGGCGTGAAGAAAAGAAATTCAATGGCGACAGCAAAGTTTCCATTTCCTTTGAAAATTACCGCAAAGTGCATCCCTTTGAAGACAGCGACAGCTCTGAAGACGAGGTAGACTGGCAGGACACTCGCGACGACCCCTACAGGCCAGCAAAACCAGTTCCCACTCCCAAAAAGGGTTTTATTGGAAAAGGAAAAGACATCACCACCAAACACGATGAAGTGGTGTGCGGGAGAAAGAATACAGCAAGAATGGAAAATTTTGCGCCTGGGTTTCAGGTAGGAGATGGAATTGGAATGGATTTAAAACTATCAAACCATGTTTTCAATGCTTTAAAACAACATGCCTACTCCGAAGAACGCCGGAGCGCCCGCCTGCACGAAAAGAAGGAGCATTCCACCGCAGAGAAAGCAGTTGACCCCAAGACACGCTTGCTTATGTATAAAATGGTCAACTCCGGGCTGCTGGACACCATCACTGGCTGCATTAGCACAGGGAAGGAGTCGGTTGTCTTTCATGCGTATGGAGGGAGCATGGAGGATGGAAAGGAAGATGTTAAAGCTGTACCTACAGAATGTGCCATCAAGGTATTTAAAACAACCCTTAATGAGTTTAAGAATCGTGACAAATATATTAAAGATGATTTCAGGTTCAAAGATCGCTTCAGTAAACTAAATCCACGTAAGATCATCCGCATGTGGGCAGAAAAAGAAATGCACAATCTCACAAGAATGCAGAAAGCTGGAATTCCTTGTCCAACAGTTGTATTACTCAAGAAACACGTTTTAGTTATGTCTTTTATTGGCCATGATCAAGTTCCAGCCCCTAAATTAAAGGAAGTAAAGCTCAGTAGTGAAGAAATGAAAGAAGCCTACTATCAAACTCTTCACCTGATGCAGCAGTTGTATCACGAGTGCACGCTGGTGCACGCCGACCTCAGCGAGTACAACATGCTGTGGCACGCCGGGAAGGTCTGGCTGATCGACGTCAGTCAGTCAGTGGAGCCAACGCATCCTCACGGCTTGGAGTTCCTGTTCCGGGACTGCAGGAATGTCTCCCAGTTTTTCCAGAAGGGAGGAGTAAAGGAAGCCCTCAGTGAGCGGAAACTTTTCAATGCTGTTTCGGGCCTGAACATCTCGGCCGATAATGAAGCGGACTTCTTAGCTGAGATAGAAGCTTTGGAGAAAATGAACGAAGATCACGTTCAGAAGAACGGGAGGAAAGCAGCTGCGTTTGTCAAGGACGACGGCGGCCCGCCAGCGCTGTCCGCCGAGTAG
Riok3 RIO kinase 3, transcript variant X2
Length: 1638 bp Location: 8690220..8675511 Strand: ->XM_004853155.1 ATGTGGAGAATGATGTTGAGACTGGCAGAGTTAGCAGGGTTCTTGCCTGTGGTTGAATATGGGGTTTACGAGAAAAAGACATGTCCTGCTCTCATAGTCTGCAGGCTGTCTGTACCAGCGCATTGTGTTAGTTCCTTTTTTAAAAAAATTTTTTTTTTTTTTTGGTACCGGGGATCGAACTCGGGTCCTTGCGTTTGCGCAGCAGGCAGTGAAACCACTGAGCTAAATCCCCGGCCCCTATCTATTATTTTGAATAGCGCTGCTGAGGGACCATTTCTTTCGGGGGAAAACCTTGATACTTCCAGCGACCTGATGCTGGCTCAGATGCTGCAGATGGAGTTTGACAGAGAGTACGACGCCCAGCTGAGGCGTGAAGAAAAGAAATTCAATGGCGACAGCAAAGTTTCCATTTCCTTTGAAAATTACCGCAAAGTGCATCCCTTTGAAGACAGCGACAGCTCTGAAGACGAGGTAGACTGGCAGGACACTCGCGACGACCCCTACAGGCCAGCAAAACCAGTTCCCACTCCCAAAAAGGGTTTTATTGGAAAAGGAAAAGACATCACCACCAAACACGATGAAGTGGTGTGCGGGAGAAAGAATACAGCAAGAATGGAAAATTTTGCGCCTGGGTTTCAGGTAGGAGATGGAATTGGAATGGATTTAAAACTATCAAACCATGTTTTCAATGCTTTAAAACAACATGCCTACTCCGAAGAACGCCGGAGCGCCCGCCTGCACGAAAAGAAGGAGCATTCCACCGCAGAGAAAGCAGTTGACCCCAAGACACGCTTGCTTATGTATAAAATGGTCAACTCCGGGCTGCTGGACACCATCACTGGCTGCATTAGCACAGGGAAGGAGTCGGTTGTCTTTCATGCGTATGGAGGGAGCATGGAGGATGGAAAGGAAGATGTTAAAGCTGTACCTACAGAATGTGCCATCAAGGTATTTAAAACAACCCTTAATGAGTTTAAGAATCGTGACAAATATATTAAAGATGATTTCAGGTTCAAAGATCGCTTCAGTAAACTAAATCCACGTAAGATCATCCGCATGTGGGCAGAAAAAGAAATGCACAATCTCACAAGAATGCAGAAAGCTGGAATTCCTTGTCCAACAGTTGTATTACTCAAGAAACACGTTTTAGTTATGTCTTTTATTGGCCATGATCAAGTTCCAGCCCCTAAATTAAAGGAAGTAAAGCTCAGTAGTGAAGAAATGAAAGAAGCCTACTATCAAACTCTTCACCTGATGCAGCAGTTGTATCACGAGTGCACGCTGGTGCACGCCGACCTCAGCGAGTACAACATGCTGTGGCACGCCGGGAAGGTCTGGCTGATCGACGTCAGTCAGTCAGTGGAGCCAACGCATCCTCACGGCTTGGAGTTCCTGTTCCGGGACTGCAGGAATGTCTCCCAGTTTTTCCAGAAGGGAGGAGTAAAGGAAGCCCTCAGTGAGCGGAAACTTTTCAATGCTGTTTCGGGCCTGAACATCTCGGCCGATAATGAAGCGGACTTCTTAGCTGAGATAGAAGCTTTGGAGAAAATGAACGAAGATCACGTTCAGAAGAACGGGAGGAAAGCAGCTGCGTTTGTCAAGGACGACGGCGGCCCGCCAGCGCTGTCCGCCGAGTAG
Riok3 RIO kinase 3, transcript variant X3
Length: 1593 bp Location: 8696994..8678228 Strand: ->XM_004853156.1 ATGGATCTGGTGGGAGTAGCATCCCCTGAGCCCAGGCCGGCAGCGGCCTGGCAACCCCGCAAGTGTCCATGGGCTACTCCCCAAAAGACAATATCCTGCTCTTTGTCTGATGTCATGAGTGAACAGTTGGCTAAAGAACTGCAGTTAGAAGAAGAAGCTGCTGCTTTTCCTGAAGTTGTCGCTGCTGAGGGACCATTTCTTTCGGGGGAAAACCTTGATACTTCCAGCGACCTGATGCTGGCTCAGATGCTGCAGATGGAGTTTGACAGAGAGTACGACGCCCAGCTGAGGCGTGAAGAAAAGAAATTCAATGGCGACAGCAAAGTTTCCATTTCCTTTGAAAATTACCGCAAAGTGCATCCCTTTGAAGACAGCGACAGCTCTGAAGACGAGGTAGACTGGCAGGACACTCGCGACGACCCCTACAGGCCAGCAAAACCAGTTCCCACTCCCAAAAAGGGTTTTATTGGAAAAGGAAAAGACATCACCACCAAACACGATGAAGTGGTGTGCGGGAGAAAGAATACAGCAAGAATGGAAAATTTTGCGCCTGGGTTTCAGGTAGGAGATGGAATTGGAATGGATTTAAAACTATCAAACCATGTTTTCAATGCTTTAAAACAACATGCCTACTCCGAAGAACGCCGGAGCGCCCGCCTGCACGAAAAGAAGGAGCATTCCACCGCAGAGAAAGCAGTTGACCCCAAGACACGCTTGCTTATGTATAAAATGGTCAACTCCGGGCTGCTGGACACCATCACTGGCTGCATTAGCACAGGGAAGGAGTCGGTTGTCTTTCATGCGTATGGAGGGAGCATGGAGGATGGAAAGGAAGATGTTAAAGCTGTACCTACAGAATGTGCCATCAAGGTATTTAAAACAACCCTTAATGAGTTTAAGAATCGTGACAAATATATTAAAGATGATTTCAGGTTCAAAGATCGCTTCAGTAAACTAAATCCACGTAAGATCATCCGCATGTGGGCAGAAAAAGAAATGCACAATCTCACAAGAATGCAGAAAGCTGGAATTCCTTGTCCAACAGTTGTATTACTCAAGAAACACGTTTTAGTTATGTCTTTTATTGGCCATGATCAAGTTCCAGCCCCTAAATTAAAGGAAGTAAAGCTCAGTAGTGAAGAAATGAAAGAAGCCTACTATCAAACTCTTCACCTGATGCAGCAGTTGTATCACGAGTGCACGCTGGTGCACGCCGACCTCAGCGAGTACAACATGCTGTGGCACGCCGGGAAGGTCTGGCTGATCGACGTCAGTCAGTCAGTGGAGCCAACGCATCCTCACGGCTTGGAGTTCCTGTTCCGGGACTGCAGGAATGTCTCCCAGTTTTTCCAGAAGGGAGGAGTAAAGGAAGCCCTCAGTGAGCGGAAACTTTTCAATGCTGTTTCGGGCCTGAACATCTCGGCCGATAATGAAGCGGACTTCTTAGCTGAGGTGAGTGGTGGATGGCAGTTGCTCACCTCCCTGGCGATGAGAGCTGCATGGAAGACAAAGTTTAAGCTCCCTTCCCCTAAACAAAATGAATTCGAGACTTTTCTTGAGACGAGTTTGGTCCTTTTCAGGCTTAAAACTTAG
Cables1 Cdk5 and Abl enzyme substrate 1, transcript variant X1
Length: 1710 bp Location: 8935789..8837217 Strand: ->XM_004853161.1 ATGGCGGCGGCCACCGCCACCCCCGGCACGGCCGCCTGCAGCAGCGGCAGTGCAGGCTCCGACGCCGCGGGTACCGGCGGGTTGCAGCCGCAGAAACAGCCGGGCCCGCCGCCGCTGCCCGCGCACCCCCGGAAGCCGCGCATGGACCCGCGGCGGCGCCAGGCTGCCCTGTCCTTCCTCACCAACATCTCGCTGGACGGACGGCCGCCGCTGCAGGACGAGTGGGGAGGCGACGGCGGCGCGCCCAAACCGGGCGCCAGGGCTCGGCTCAGCCCGCTGCCCACCGGCTGCAGCGCGCTCGCCACGCCGGGCCCCTGCGTCTCGCAGCCCTGGCTGCTGCCCCGCGCGTCGGGGGAGCTGTCACTGCCGCCCCGGCCGGCGCCCATCGCCGCGTGCGTCCCGCTGCAGTCGCCGCCGGAGGGGCCCGGGCCGGAGGAGCTGGAGGAGGATGACGCCTTCGCCAGCGTGCAGGTGCCGGCGGCCGCCTTCCTGGGCTCCGGAATCCCCGGCAGCGCGAGCGGTAGTCGGGGTCGCCTCAATTCGTTCACTCAGGGAATCCTGCCCATCGCCTTCTCCAGGCAGACCTCCCTGGAGCAGCCGGGCCCGGGCGGCGGTGCCGGCGCCGGCGCCTTCGAGCAACTGCAGAGGTCCCGGCGTCGCCTCATCTCCCAGAGATCATCCTTGGAAACCCTGGAAGATATTGAGGAGAACGCCCCGCTCCGAAGATGTCGAACTCTCTCAGGTTCGCCCAGACCAAAGAATTTTAAGAAGATTCATTTTATCAAGAACATGCGGCAGCACGACACCAGGAATGGCAGAATAGTCCTTATCAGTGGCAGAAGATCCTTCTGTAGTATATTTTCCGTGCTGCCATATCGCGACAGTACCCAAGCCGGGGACTTGAAGTTGGATGGAGGGAGACAATCAACAGGCGCCATGAGCTTGAAAGAGATCATTGGTCTGGAAGGTGTGGAGCTGGGAGCTGATGGGAAGACGGTTTCTTATACCCAGTTTCTGTTACCCACAAATGCCTTCGGAGCCCGGAGAAATACCATAGACTCCACCTCCTCTTTCTCCCAGTTCCATAACCTGAGCCACCGCAGCCTCTCCATCGGCCGGGCCAGCAGCACCCAGGGCAGCCTGGACATAGGTAGTGACCTGGGGGAATCCATGGACTATGACCCCAATCTCCTGGACGACCCTCAGTGGCCTTGCGGCAAGCACAAGCGAGTTCTGATCTTCCCTTCGTACATGACCACAGTAATCGACTATGTGAAGCCCTCAGATCTCAAGAAGGACATGAATGAGACCTTCAAGGAGAAGTTTCCTCACATTAAGTTAACACTCAGCAAAATAAGGAGCCTGAAACGAGAGATGCGGAAGCTTGCCCAGGAGGACTGTGGCTTCGAGGAGCCCACGGTGGCCATGGCCTTTGTCTACTTTGAGAAGCTCGCCCTCAAGGGGAAGCTGAACAAGCAGAACCGGAAGCTGTGTGCTGGAGCGTGTATGCTGTTAGCAGCCAAGATCGGAAGTGACCTCAAAAAGCACGAAGTCAAGCATTTAATTGACAAACTGGAAGAGAAGTTCCGGCTGAACCGGCGAGAACTGATTGCCTTTGAGTTCCCAGTGTTAGTGGCCTTGGAATTTGCACTCCACTTGCCAGAGCATGAAGTCATGCCGCACTACAGACGGCTGATCCAGAGCTCCTAG
Clul1 clusterin-like 1 (retinal)
Length: 1383 bp Location: 11101199..11127490 Strand: +>XM_004853305.1 ATGGAGCTGCCACTTTTGATGTTTATTGTGTATCTGCTATGGTTGAAAGATTGTCACTGTGCACCTACTTGGAAGGACAAAAGTGCCATGGGTGGAAACCTGAAGGGTTTTTCTGAGGCTGAAGAGATAGATGGAGATGGAGAGGTGAAGAAGGCTTTGATTGGCATTAAACAGATGAAAATCATGATGGAGAGGAGAGGGGAAGAACATACCAAACTAGTGAAAACCTTGAAGAAGTGCAAAGAAGAAAAGCAGGAGGCCCTGAAACTTATGAATGAAGTTCAAGAACATCTGAAGAAGGAAGAAAGCTTATGCCAGGTGTTTCTGGCAGATTCCTGGGATGAATGCAGGGCTTGCCTGGAAAGTAACTGCATGAGGTTTTATGGCACCTGCCAACCTGCTTGGTCCTCTGTGAAAAATACGGTGGAACAGTTCTTTAGGAAGATCTATCAGTTTTTATTTCCTCTCCAGGAAAATGGTGGAAGTTATGTCCCTGTCAGCCAGGGGCTCACTGAGGAAGACACACAGGTGTCACACATGGAGCATGTGTTCAGCCAGCTGACTGAGGATGTGACAGCTCTCTTCAACAGGAGCGTCTACATCTTCAGACAGATGCAGCGAGAATTTGACCAGGGTTTTCAGTCATATTTCATGTCTGATGCTGACGTACCAGAGCCTTACTTTTTCCCAGCTTTGTTGGAAGAGCCAGCCAAAAAAGCAGATGTTGGGCAAAGCTGGGCCATTCCCAACGTCTTCCAGCTGCTCCAAAACTTCAGTCTCTCCATTTATGATAGTATCCGTGAAAAAATCACCAAGACACTGTGTGCAACAGAGGATTTACTGAAACAAGACAAAGACTCCAACCAGGGAGGCCCAATTTCAAAGATATTACCTGAGCAGAACAGAGGCTTGTGTGGGGACCTTGGTCAGAATTTGTCTGGATGCTTCAATTTTAGCAAAAGATGCCAAAAATGCCAGGATTATCTATCTGAAGACTGTCCTGCTGTGCCAGAACTACACATAGAACTCAATGAAGCCCTTAGACTGGTCAATATATCCAATCAGCAGTACGACCAGATCATGCAGATGACCCAGTATCACTTGGAAGGCACCACGTATCTAATGGAGAAGATGCGAGAGCAGTTCGGCTGGGTTTCTGAACTGGCAAACCAGTCCTCAGGAGCTGAGAATGTCTTTAATCCAATAAAAGTAGCTCCAAGTGTTCATGAAGGAAATTCTTCCAACCAAGATGCAAGCCGTCTGCCTGCCCCTCATTTCACACTCAGGAGTCCTCTTGACCAGGGTGCTGACGACTCTAACTTCACTGATTACATGGCAGAGAAGGCTCTTCAGTACTTTAGGGAACACTTTAAAACTTTGTAA
Enosf1 enolase superfamily member 1
Length: 1332 bp Location: 11179437..11150044 Strand: ->XM_004853179.1 ATGGTGCGCGGCAGGGTCTCCCGGATCTCGGTGCGCGACGTGCGCTTCCCCACGTCGCTCGGGGGCCACGGCTCGGACGCCATGCACACAGACCCTGACTACTCGGCAGCCTATGTTGTCTTAGAGACGGATACGGAGGACAGGCTCCAGGGCTGCGGGCTCACCTTCACGCTGGGAAAGGGCACCGAAGTGGTCGTCTGTGCTGTGAATGCCCTCGCCCACCACGTGCTTCACAAGGACCTCAGGGACATTGTCAGCAACTTCCGAGGCTTCTACAGGGAGCTCACCAGTGACGGGCAGCTCCGATGGATTGGTCCAGAGAAAGGTGTGGTACACCTGGCCACTGCAGCGATTCTGAATGCGGTGTGGGACCTCTGGGCGAAGCAAGAGGGAAAGCCTCTGTGGAAGCTCCTTGTGGACATGGACCCCAGGATGCTGTTATCCTGCATTGACTTCCGATACATCACTGACGCCCTGACCGAGGAGGACGCCCTGGAAATACTGCAGAAAGGTCAAGTTGGTAAAAAAGAAAGAGAAGAGCAAATGCTGACACATGGTTACCCTGCCTACACCACGTCGTGCGCCTGGCTTGGGTACTCGGACGACTTGCTGAAGAAGCTCTGCACGGCAGCCCTGAAGGATGGCTGGACCAGGTTCAAAGTGAAGGTGGGGGCTGACCTCGAGGATGACATGCGCAGATGCCGCCTCATCAGAGACATGATCGGACCTGAGAAGACTCTGATGATGGATGCCAACCAGCGCTGGGACGTGCCCGAGGCGGTGGAATGGATGTCCAAGCTGGCCGAGTTCAAGCCATTGTGGATCGAGGAGCCCACGTCTCCCGATGACATCCTGGGGCATGCTGCCATTTCCAAGGCACTGGTCCCTTTAGGAATTGGTGTGGCCACAGGAGAACAGTGTCACAATAGAGTGGTATTTAAGCAACTCCTACAGGTGAACGCCCTGCAGTTTCTCCAGATTGACAGCTGCAGACTGGGAAGTGTCAATGAAAACCTCTCAGTGTTACTGATGGCCAAGAAGTTTGGAACTCCTGTGTGCCCCCACGCCGGCGGAGTTGGCCTGTGTGAGCTAGTGCAGCACTTGATCATATTTGACTACATATCAGTCTCCGCAAGCCTTAACAACAGGATGTGTGAATACGTGGATCATCTGCACGAACATTTCAAGTATCCCGTGCAAATCAAGCAGGCTTCCTACATGCCTCCCAAGGATGCGGGCTACTCGACAGAAATGAAAGAGGACTCTGTAAGGAAACACCAGTATCCAGATGGCGAAGTCTGGAAGAAACTCCTTGCTGCTCAAGAAAATTAA
Mettl4 methyltransferase like 4, transcript variant X2
>XM_004853184.1 ATGTCTGTGGTACAGCAGCTGTCACCTGGGTGGTTACTGGATCACCTTTCTTTCATTAACAAGATAAACTATCTAGTTCATCAGCCTCATGAGCCTTGCTGCAGGAAAAATGAGTCCACTTCTGTCTGCTTTGATTCTCTGCAGACAGATTCTATGTCTTCTTTTGGATCCTCTGCTACCTTGATTGCTTCTGACTCTACCACTAAGCCAGAGAATAAGGATGGAGGAAATTGTAGAATGTTCACTCAGAAATATGCTTTTCGATCTGAACTGTTTGATGTCACCAAACCGTATATAACTGCAGCTGTTCATGAAGAATGCCAACAAAGTAATGAAAAAGAAGATGCAATGAATAGTGTTAAAAAAGAAATCTCCACTTCTATTATTGGGAAGAAGCGCAAGAAATGTGTTGTTTTCAATCAAGGTGAATTGGATGCTATGGAATACCATACAAAGATCAGAGAGCTGATTTTGGATGGATCCTTAAAATTAATCCAAGAAGGCCTCAAAAGTGGTTTTCTTTATCAATTTTTTGAAAAGCAGGACAAATGTAGTGAACCCAACGCCATACCACATGATGCCTGCAGCCTGTCAGGCTTATGTGAAATGGCGAAGCATCTGCCTGCTCTGAGTGAAAAGGAACTTCAGACGTTGCAGCTGATAGAAGAGGATTTGTCTGTGGCAGAGCAGGATTTATTTTCACGAGTTGTTGAAAACAACTCTAGCTTTTCAAAAATGATTACTTTAATGGGACAGAAATACTTGCTACCACCAAACTGCAGTTTTCTTTTGTCTGATATTTCTTGTATGCAACCACTTCTGAACTGCAGGAAAACATTTGATGTAATTGTGATAGATCCACCATGGCAGAACAAATCAGTTAAAAGAAGTAACAGGTACAGTTATTTATCACCTCTGCAAATACAGCAGATCCCCATCCATCAACTGGCCGCTCCCAACTGCCTTGTTGTTACGTGGGTGACCAACAGACAGAAGCACCTGCGCTTCGTAAAGGAAGAGCTTTTCCCGTCTTGGTCTGTGGAGACGCTGGCCGAATGGCACTGGGTGAAAATCACCAAGACGGGAGAGTTTGTGTTCCCTTTAGATTCTCCACACAAAAAGCCATATGAAGGTCTTATACTGGGAAGAGTTCAAGGAAAAACCACTCTACCATTAAGGAGCACAGATGTAAAAGTGCCGCCGATTCCAGACCATAAACTAATTGTCAGCGTGCCTTGTGTTCTTCACTCACACAAGCCGCCTCTGGCTGAGGTTCTAAAAGACTACATCAAGCCAGATGGGGAATGTTTGGAATTGTTTGCACGAAATTTACAGCCAGGTTGGACCAGTTGGGGCAATGAAGTTCTCAAATTTCAGCACATGGATTATTTCATTGCTCTGGAGTCTGGATGCTGA
Mettl4 methyltransferase like 4, transcript variant X1
Length: 1428 bp Location: 12937850..12905902 Strand: ->XM_004853183.1 ATGTCTGTGGTACAGCAGCTGTCACCTGGGTGGTTACTGGATCACCTTTCTTTCATTAACAAGATAAACTATCTAGTTCATCAGCCTCATGAGCCTTGCTGCAGGAAAAATGAGTCCACTTCTGTCTGCTTTGATTCTCTGCAGACAGATTCTATGTCTTCTTTTGGATCCTCTGCTACCTTGATTGCTTCTGACTCTACCACTAAGCCAGAGAATAAGGATGGAGGAAATTGTAGAATGTTCACTCAGAAATATGCTTTTCGATCTGAACTGTTTGATGTCACCAAACCGTATATAACTGCAGCTGTTCATGAAGAATGCCAACAAAGTAATGAAAAAGAAGATGCAATGAATAGTGTTAAAAAAGAAATCTCCACTTCTATTATTGGGAAGAAGCGCAAGAAATGTGTTGTTTTCAATCAAGGTGAATTGGATGCTATGGAATACCATACAAAGATCAGAGAGCTGATTTTGGATGGATCCTTAAAATTAATCCAAGAAGGCCTCAAAAGTGGTTTTCTTTATCAATTTTTTGAAAAGCAGGACAAATGTAGTGAACCCAACGCCATACCACATGATGCCTGCAGCCTGTCAGGCTTATGTGAAATGGCGAAGCATCTGCCTGCTCTGAGTGAAAAGGAACTTCAGACGTTGCAGCTGATAGAAGAGGATTTGTCTGTGGCAGAGCAGGATTTATTTTCACGAGTTGTTGAAAACAACTCTAGCTTTTCAAAAATGATTACTTTAATGGGACAGAAATACTTGCTACCACCAAACTGCAGTTTTCTTTTGTCTGATATTTCTTGTATGCAACCACTTCTGAACTGCAGGAAAACATTTGATGTAATTGTGATAGATCCACCATGGCAGAACAAATCAGTTAAAAGAAGTAACAGGTACAGTTATTTATCACCTCTGCAAATACAGCAGATCCCCATCCATCAACTGGCCGCTCCCAACTGCCTTGTTGTTACGTGGGTGACCAACAGACAGAAGCACCTGCGCTTCGTAAAGGAAGAGCTTTTCCCGTCTTGGTCTGTGGAGACGCTGGCCGAATGGCACTGGGTGAAAGTGAGTTCCGAGATCACCAAGACGGGAGAGTTTGTGTTCCCTTTAGATTCTCCACACAAAAAGCCATATGAAGGTCTTATACTGGGAAGAGTTCAAGGAAAAACCACTCTACCATTAAGGAGCACAGATGTAAAAGTGCCGCCGATTCCAGACCATAAACTAATTGTCAGCGTGCCTTGTGTTCTTCACTCACACAAGCCGCCTCTGGCTGAGGTTCTAAAAGACTACATCAAGCCAGATGGGGAATGTTTGGAATTGTTTGCACGAAATTTACAGCCAGGTTGGACCAGTTGGGGCAATGAAGTTCTCAAATTTCAGCACATGGATTATTTCATTGCTCTGGAGTCTGGATGCTGA
Tgif1 TGFB-induced factor homeobox 1, transcript variant X1
Length: 789 bp Location: 13508409..13515387 Strand: +>XM_004853193.1 ATGAAAAGCAAGAAAGGTGTCGTCGCAGTGTCCGGAAGTGAGACTGAGGATGAGGACAGCATGGACAGCCCCCTGGACCTTTCCTCTTCCGCCACCTCCAGCAAGAGGAGGAGAAGGGGCAACCTGCCCAAGGAGTCCGTGCAGATTCTGCGCGACTGGCTGTTCGAGCACCGGTACAATGCCTACCCTTCGGAGCAGGAGAAGGCGCTGCTGTCCCAGCAGACTCACCTGTCCACACTGCAGGTGTGCAACTGGTTCATCAACGCGCGCCGCAGGCTGCTCCCAGACATGCTGAGGAAGGATGGCAAAGACCCAAATCAGTTCACCATTTCCCGCCGTGGGGCCAAGATTCCTGAGGCCAGCTCTCTGGAGGCCGCGATGGGCATCAGAAACTTCATGCCAGCCCTGGAGGAGAGCCCAGTTCATTCCCTGGCAGCCGGACCCACCCCGCCCCTGGGGCAGCCACTGTCGCCCAAGCCCGCGTGCCCGGGACAGCTGCTGCCGCGCCCCTCGGTGATCTGCCACACCACTGTGACTGCCCTGAAGGACGCGGCTTTGTCCTCCTGCTGCCAGCTGGCGGGCGCGGGGCCCGGCCCGGAGACGGCGCTGGGGCACCCGGAGGACACATGTAAGTCGGGGCCCAGCGCGAACCCGCAGAGCGGGCTGTTCAACACACCCCCGCCCACACCCCCGGACCTCAACCAGGACTTCAGCGGCTTCCAGCTCCTCGTGGATGTTGCACTCAAACGGGCTGCGGAGATGGAGCTTCAGGCGAAACTAGCGGCCTGA
Dlgap1 discs, large (Drosophila) homolog-associated protein 1, transcript variant X4
Length: 2832 bp Location: 13841213..13543897 Strand: ->XM_004853200.1 ATGAAAGGGTTATCGGGCAGCCGCAGCCATCACCACGGGATCACCTGTGACTCGGCCTGTGACTCGCTGTCCCACCATTCGGACCGCAAGCCGTACCTGCTGAGCCCAGTGGAGCACCACCCCGCCGACCACCCTTACTACACACAGCGCAACTCCTTCCAGGCCGAGTGCAGAGGCCCCTTCAGCGACCCGCTGGCCAGTAGCACCTTCCCGCGCAGGCACTACGCCTCGCAGCAGGAGCTAAAGGACGAGTGCGCCCTGGTGCCACACACACTGGCCACCAAGGGGAACCGCATCCCTGCAAACCTGCTGGACCAGTTTGAGAGGCAGCTACCCCTCAACCGGGATGGCTACCACACTCTGCAGTACAAGCGGACCGCCGTGGAGCACCGCAGCGACAGCCCTGGGCGCATCCGGCATCTGGTCCACTCGGTCCAGAAACTCTTCACCAAGTCGCACTCTCTGGAGGGGCCATCTAAGGGCAGCGTCAATGGGGGCAAGGCCAGCCCTGACGAGACACAAACCGTGAGGTATGGCAAGCGCAGCAAAAGCAAGGAGAGGAGGGTGGAGCCCAAAACCCGGTCCAACGTCACACCCACCTCCACCTCCTCACCGGGTTGGTGGAGTTCTGATGACAACCTCGATGGCGATATGTGCATCTATCACGCACCCTCAGGTGTGATGACCATGGGCAGGTGCCCCGACCGCTCGACCTCCCAGTACTTCATGGAGGCCTACAATACCATCAGCGAGCAGGCCGTGAAGGCCTCCCGAAGTAACAATGATGTCAAGTGCTCCACCTGTGCCAATCTGCCCGTGAACCTGGACGCCCCACTCCTGAAGAAGAGTGCCTGGTCCTCCACCCTCACCGTGAGTCGGGCCCGGGAGGTTTACCAGAAAGCCTCTGTGAACATGGACCAGGCCATGGTGAAGTCTGAGTCATGTCAACAAGAACGCTCTTGCCAGTACTTGCAGGTTCCTCAGGATGACTGGACAGGCTACACCCCTCGAGGGAAAGATGATGAAATTCCTTGCCGAAGAATGCGCAGTGGCAGCTATATCAAGGCCATGGGGGACGAAGACAGCGGAGATTCAGACACAAGTCCTAAGCCTTCTCCCAAAGTTGCTGCCCGGAGAGAGAGCTATCTCAAGGCCACCCAGCCATCCCTCACTGAGCTCACCACACTCAAGATCTCCAATGAACACTCGCCCAAGCTCCAGATCCGAAGTCACAGCTACCTGAGGGCGGTGAGCGAAGTCTCCATCAACAGGAGCTTGGACAGCCTGGACCCCGCGGGCCTGCTCACGTCGCCCAAGTTCCGCTCCAGGAACGAGAGCTACATGCGCGCCATGAGCACCATCAGCCAGGTGAGCGAGATGGAGGTGAACGGGCAGTTCGAGTCCGTGTGTGAGTCGGTGTTCAGCGAGCTGGAGTCGCAGGCGGTGGAGGCTCTGGACCTGCCCGTGCCTGGTTGCTTCCGCATGCGGAGCCACAGCTACGTGCGCGCCATCGAGAAGGGCTGCTCGCAGGACGACGAGTGCGTGTCGCTGCGCTCGGTCTCGCCGCCGCGCACGGCCACCACGGTGCGCACCATCCAGAGCAGCACGGCGCAGAGTAGCACCGAGTCCGCGCAGGACGCCTACATGGACGGGCAGGGCCAGCGCGGTGACATAGTCAGCCAGTCGGGGCTCAGCAACTCCACCGAAAGCCTGGACAGCATGAAGGCCCTGACCGCCGCCATCGAGGCCGCCAATGCGCAGGTCCACGGCCCCGCCAGCCAGCACGCGGCCAGCGCGCCCGCGGCCGAGGACCGCCGGAAGGAGCCCAGGAAGAGCCGCTGCCTGTCCGTCGGGATACAGGTGGATGATGCTGAAGAACCAGATAAGACGGGAGAGAATAAAGCTCCCAGTAAGTTCCAGTCTGTGGGAGTCCAAGTAGAAGAGGAGAAGTGCTTCCGCAGGTTCACTCGATCCAACAGCGTGACGACAGCCGTCCAGGCGGACCTGGACTTCCACGATAACCTGGAAAATTCCCTGGAATCCATAGAGGACAATTCGTGTCCCGGCCCGATGGCCAGGCAGTTCTCCCGGGACGCCAGCACCTCCACGGTCAGCATCCAAGGCTCGGGCAACCACTACCACGCCTGCGCGGCCGACGACGACTTCGACGTGGATTTTGACCCGTCGATTCTGCCGCCTCCGGATCCCTGGATCGACTCGATCACGGAGGACCCGCTGGAGGCCGTGCAGCGGTCCGTGTGCCATCGGGACGGCCACTGGTTCCTGAAGCTGCTGCAGGCGGAGCGCGACCGCATGGAGGGCTGGTGCCAGCAAATGGAGCGGGAGGAGCGCGAGAACAGCCTGCCCGAGGACATTCTAGGGAAAATCCGAACCGCAGTGGGCAGTGCCCAACTTCTTATGGCCCAGAAATTCTACCAGTTCAGAGAACTGTGTGAAGAAAACCTGAATCCTAATGCCCATCCGAGACCCACCTCCCAGGACCTGGCGGGGTTTTGGGACATGCTGCAGTTGTCCATAGAAAACATTAGTATGAAATTTGATGAACTCCATCAGTTGAAGGCCAATAATTGGAAACAGACGGATCCTCTTGACAAGAAGGAGAGGAGGGCCCCTCCTCCAGTGCCCAAGAAGCCGGCGAGGGGCCCCGCGCCGCCGCTGACCCGGGAGCGCTCGCTGGAGAGCTCGCAGCGCCAGGACGCCCGCAAGCGCCTGCTGGCCGCCAAGCGCGCCGCGTCGGTCCGCCAGAGCTCGGCCACCGAGAGCGCGGAGAGCATCGAGATCTACATCCCCGAGGCGCAGACCCGGCTCTGA
Arhgap28 Rho GTPase activating protein 28, transcript variant X2
Length: 2100 bp Location: 16179308..16342175 Strand: +>XM_004853214.1 ATGGAAGTGGAGGACTCGGGCGGCGTGGTGCTGACTGCCTACCACTCGTACGCGCGCTCGCAGCCGCCCGCCTCCGACGCGCGCTGCGCGCCCCGGGCCGCCGCCAGCCACCCGCTGAGCAGAAAATCTATTCCCCGCTGCCGAAGAATTAACAGGATGCTGTCCAACGAATCCCTACACCCTCCAGCCTTCAGCCGCTCCAACTCACAGGCCTCCGTAGACAGCGCATCCATGGAGGATTTCTGGCGGGAAATAGAAAGCATCCATGAGAGCAGTACTGGAGCGCGGGGGGAAGAGCTGCCCTCCGAGATCAAGCCGGTGGATGAAGGGGAGCTGGAAGCAGAGTGGCTTCAAGACGTGGGGCTGTCAACTCTGATCTCTGGGGAGGAAGAGGAAGACGGCAAAGCCCTGCTCTCCACATTGACTCGAACCCAGGCAGCCGCAGTGAAGAAGAGGTACAACACCTACACCCAGACTCTTCGGAAGAAGAGCAAGCAGCCCGTGAGGGACGTCAGGGACGTCTTTGGGGTCAGCAAGGCTCTGCCGGATGCTTCTTGTGACGAGCATACCACGCAGCTGGATGGCACCCCGGAAGAAAAGCAGCTACCAGAAGTCATCAACACAAGTGATCCAATGTCGATCCTCGGGCCCATCCCGGATGTACCCATCCACGCCAACGGGTCCACGGAGCCGGGGCAGGCTGTTCCGAGCACGCTGAGCGACAATGACTATCTGGGAAAGAACATTCCAGCAGAGGCTGAGGAGCTGTCCTTTGAAGTGTCATACTCAGAACTGGTGACAGAGGCTCCAAAAAGAAACAAATTGAAGAAATCAGAGATTAAGAAAGAAGACTACGCTTTAACTAAATTTATTGTTCAGAAGACCAGATTTGGGCTCACTGAAGCAGGAGACCTGTCAGCAGAAGACATGAAGAAGATCCGCCACCTCTCTCTGATCGAGCTGACTGCCTTTCTTGATGCCTTTGGAATTCAACTGAAAAGAAACAAAACAGAGAAAGTAAAAGGACGAGACAATGGGATCTTTGGAGTTCCACTTACCGTGCTCCTGGACAATGACCACAAGAAAGACCCTGCGGTGAAAGTTCCCCTTATATTACAGAAATTCTTTGAGAAAGTTGAGGAGTCAGGTCTGGAATCCGAAGGAATCTTTCGGCTTTCAGGATGTACTGCCAAAGTCAAGCAATACCGTGAAGAGCTGGATACCAAGTTCAATGCCGATAAATTTAAATGGGACAAAATGTGCCACAGAGAAGCTGCAGTGATGCTGAAAGCATTTTTCCGAGAACTGCCAACCTCTCTCTTCCCTGTGGAATACATACCTGCCTTCGTCGCCCTGATGGAAAGAGGGTCCCACATCAGAGTGCAGCTTCAGGCCTTGCACCTCATGGTCATGGCGCTGCCGGATGCCAACAGGGACACGGCCCAGGCCCTCATGACGTTCTTCAATAAAGTGATAGCCAACGAATCCAAAAACCGCATGAGTGTGTGGAACATCTCCACGGTGATGGCACCCAACCTCTTCTTCAGCCGGGGCAAGCACTCCGACTGTGAGGAGCTGTTGCTGGCCAACACTGCAGCCCACATCCTCCGCCTGATGCTGAAGTACCAGAAGATCCTGTGGAAGGTTCCATCTTTCCTTATCACCCAAGTCCGCAGGATGAACGAAGCCACAATGCTGTTGAAGAAGCAACTCCCAAGCATGAAGAAGCTGCTCAGGAGGAAGACCATGGAGCGGGAGGTTGCAAACCCCAAGGCCTCAAAGGTACTACAAAAGTCACCTTCTGCCAGAAGAATGTCTGATGTGCCGGAAGGAGTCATAAGGGTCCACGCCCCGCTTTTCTCCAAGGTGTCCATGGCCATTCAACTGAACAGTCACACCAAAGCCAAAGACATACTGGCCAAATTCCAGTTTGAGAACAGCCATGGCTCATCAGAATGTATTAAGATTCAGAACCAAAGGTTATATGAAATTGGAGGAAATATAGGACAGCATTGCTTGGATCCAGATGCATACGTATTGGATGTATATCGTGTAAATCCTCATGCAGAATGGGTCATTAAGCCAGAACCAAGTCCTTGA
unclassified transcription discrepancy mRNA
Length: 1725 bp Location: 17555678..17611761 Strand: +>XM_004853312.1 ATGGATCAAATTTGGAATTCTTACATCAGTTCCTTAAATCCAAACTCTTTGCCTAGAAAAGTGAAGGTGACAGAAGGAAACTATTTTTCAGATAGGGGAGATGGGTCACTGACTCACCTGTCATTCTCCAGCNGGGACCTCATGACGGTGGTCAACCTTAGACCCGCCCATGTCAGAGCAGAAGGGATTGACGGGAGCACGNATCTGGGGATGGTCAGTGAACCTCTTGGATACGAAGGGAGGTTCCAGCTGATTGCAGATCCAGTCCCATTGGAAACAGTGGCCAACTTGGCCCACTCTGTCTGTGTTCCCCGAGGTCCTGTGACCCACAGAAGCCCTCCCTGTTTTGAGAACTTGGGCCCCATGGCCAAGCTGGAGCTGCCCATGCTGCTCAGGGAAAGACAAACATTGTCCTTGATTGGCCTTGAAGTTTGGGAAGGGAAGAGGCTGCTGAGATGCGAGTTGGCAAGAAAGAAGCCTCTGCTGCAGCTGCTGCTCCCCATGGACTGCTGGGGCCAGTTCCAGGAATCCCAGGATGACCAGCTCTGTACCATCAACACCATCGTGAGGTGGAAGCTGCTCACAGGCAGGAAACACAGGCTCAGGGCAGCAGGGCACAGCCTGAGGCTCACTGTTTGGGAGGCTGAAAATCCACACAGCCTGGGACCAGCTCTGATTGAGGGAGGTGAACACAAGGTCACCACCCCCTCTGAGCTGGACATCCGTGTTGCTGATGTGACAGGACTGGGACAGAATCCAGATGAATTTGTGACAATGAGACAAAACCTCAGCATGGAGGAAACGTGATTCCTGCTGAGAGTCAGGGTCACGAGCATGGTCACTGCAGAGCCCTTCCTGCTGAAGTGCGGGCAGCTCCTGACCATCCTTGGGACCAGGGAGNTGCACCACTTCCTGGCCACAGAGCTCTCCAGAGGGAAGACGGGGCGCCACTTCCTCAACCTTGCCACCTACTGGGACTCGGTGCTCTGGAGAGGCTGGTATTTCCACATGGTTTCCGACATCGCCATGGCCATGCAGCAANGACAGGTCCAGTTTCGGACCTGCAGGGACCACACGTCCCCCACAGAGCAGTTTGCACCATTTGCAGCCAACGAGTGCTTTCTGGTGCTGCAGACGAGTGTGGTTGCTGCTTAAATCTGCAGTGAGCTGNNCAGAGTTGACATCCTCAACTGCTACAGTACTGCCACCAACACCCTGGTCATGCTGCGTCTGTTTGCACAAGGTGACTTCCTGGAGCTGGCCATGGACCCTGGTGCGGGGAAGCTGCAGGAGGTGTGCCAGCTCACAAGACTCCCGTGTCACCTCAAGGCAGTCAGCCTGGACCCCACAATAGCCAGAGACCCTCTGTTCGGAACAGAGGAATTGAGAGTTGACAATGTCATCATTGAACAATCCCTTGTACACGGCTCCCCAGACATAGAAGAGATAACCGAAGCAGAGGCCCTGGCCTACAGCAATTGCTTGGTTGCACCCCATNCACCACCGCACCCACCAAAGCCCAGAAGTCAAGTTCCTCCCCACAACATGACACCTCTTCTGCAGCCCACCGACCAGCAAGTGACCTGCAACTTCAAGAAGCTGCACACAAAGGCGCTCTTCACCTGGTGTTTTCAAGTCACTGAAGAGATGCCCTCGACTCTGAAAGAGTTCTGGAAGAAACATTTCAGTATCGTCCACTGCATCAACCTCATTGACAAAGCCTGA
Soga2 SOGA family member 2, transcript variant X3
Length: 4809 bp Location: 17703594..17788847 Strand: +>XM_004853223.1 ATGGAGGAGCTGCGCTCAGAGAACGACTACCTCAAGGATGAGCTGGATGAACTCCGTGCCGAGATGGAGGAGATGAGAGACAGCTATTTGGAGGAAGACGTGTACCAGCTGCAGGAACTTCGGCGAGAGCTGGACCGAGCTAACAAAAACTGCCGCATCCTGCAGTACCGACTCCGGAAGGCCGAGCAGAAGAGCCTGAAAGTAGCAGAGACCGGGCAGGTGGACGGCGAGCTTATCAGGAGTCTGGAGCAGGACCTGAAGGTAGCCAAAGACGTGTCTGTGCGGCTGCACCATGAGCTAGAGACTGTGGAGGAGAAGCGGACTAGAGCTGAGGATGAGAACGAGACGCTGCGGCAGCAGGTGATCGAGGTGGAGATAGCCAGGCAGGCCCTGCAGAACGAGCTGGAAAGGCAGAAGGAGAGTTTCCTGAAGAGAAGAGGCAGTCGGGAAATGTACAAGGAGAAGAAAACCCTCAGCCAGGATGACAGTGCCGACCTGAAGTGCCAGCTTCAGTTTGCCAAAGAAGAGGCCTCGCTGATGCGCAAGAAAATGGCCAAGCTGTGCAGGGAGAAGGACGAGCTGGAGCAGGAGCTGCAGAAGTACAAGTCCCTCTATGGGGACGTGGACAGCCCCCTGCCCACTGGGGAGGCCGGCGGGCCCCCCAGCACGCGAGAGGCTGAGCTGAAGCTGCGGCTCAGGCTGGTGGAGGAGGAAGCCAACATCCTGGGCCGCAAGATTGTGGAGCTGGAGGTGGAGAACCGGGGCCTCAAGGCGGAGATGGAGGACCTGCAGGTCCAGCACAAGCAGGAGGGAGCTGGCCAGGACCGTGTGCCCCGTGCCCCGACCTCACCCTTCGGGGACTCCCTGGAATCCTGTGCCGAGCTGCGCCGGCACCTGCAGTTTGTGGAGGAGGAGGCCACACTGCTGCGGAGGTCCATCTCCGAGATCGCGGCCCACAACCAGCAGCTGACCCACGAGCTGAGCAAATTCAAGTTCGAGCCCTGCCCGGAGCCAGGGTGGCGCAGGGACAGCCTGGGGAAGGGCACCATGGCCCCGCTGCAGGAGGAACTGCGGTCAGCCAGGCTGCAGATCAGCAAGCTCAGCGGGAAGGTGCTCAAGCTGCAGAGCGAGAACCTGGCGATGCTGTCCAGTGCCCACCTCGGGCTGCAGGCCCCGAGCCCCCGTGACAGCGACGCCAACAGCGACACCGGCCAGAAGGAGAGTGACGTGGAGGACGGCCGCCTGCCCCAGCCCAAGCGGGAGGGCCCTGTGGGTGGGGAGAGCGACTCGGATGAGACGGTCGAGAAGACGTCAGGCTTCGGGAGCCGAAAGCCGTCGGAGGCCAGCGAGCCCTGCCTGGCGGAGCTTCGGGGGCCCAAGGACGCCGAGCACCTGGTGGCCCTGAAGCGCAAGGCCCAGCAGCTGGAGCGCACCATGGAGCACCTCATCACCGACACCGACAGTTTCCTCCGGAACTCACCTGGGCTCCAGGCTGAGGGCGAGAGGGCCCTCGGGGGCCAGGACGAGCCTCACCTGCTGGGGGCCATCAACAGGAAGATGAAGGCCTTCCGGAAGGAGCTGCAGGCCTTCCTGGAGCAGGTGGCCCGCCTCGGGGACAGCCTGTCAGCCCTGCCCCACCACACGGAGTCATCCAGCTTCCTGTCCACCGTGACCTCCATGCCCCGGGACTCCCCTGTTGGGAACCTGGGGAAGGAGCTGGGCCCCGACGTGCAGTCCAGAATGAGAGACCAGCAGGAGTGGCGGCTGGGGCCAGACCGAGGGGAGGACCACGACAGCGCGCACCTCCACACTGCACAGGAGCTGCACCGCCGGGCCGATGGGGACACCGGGAGCCACTGTCCAGGAGGCCAGAGCTGCTTCAGTCCCAAGATGGAGGAGGAGCACCTGTACGCACTGCGCTGGAAGGAGCTGGAGATGCAGAGCCTGGCGCTGCAGAGCACACTGCACACACGCACCTGGGGCGAGGAGCGGATGCTGCTGCAGCAGGAGCTGGGGGTGCTGAGGCAGAGCATCTTCCTCTTCTACCTCAAGCTGCGGTGGCTGCTGAAGCACTGGCGGCAGGCGAAGCAGGCAGGCGGCAGTGGGGAGGACGGCGCAGAGGGCGAGCATCCAGAGACCCTCCCCAGGCTCGGGGAGCTCGGAGTCCAGGGGTGCCTCCAGGCAGACGGGCTGGAGCACAGTGACGGTGACCGAGGCTGTGCCTTTCCGGTGGGGGAGGCTGCTCCATGCGCCCCAGTGCAGATCGGCGACCACGCATCGCGGCTGCAGACTGTGGACGGGGCGCCACTCCACAGGCAGGTGGAGCACTGGCAGCTGTTCAGCACCCTCAAGGCCCTGCTGGAGGACTTCCGCTCCGAGCTGTGGGAGGACGAACTGGCCCGGCGGCGCCTGCAGCAGCAGTACGCCAGCGACAAGGCGGCCTGGGACGTGGAGTGGGCTGTGCTCAAGTGCCGCCTGCAGCAGCTGGAGGAGAAGACAGAGAAGAGCCTGGGTGAGCCCGACGCCGTGGTGGAGAGCAAGGGCGCACTGAAGAGGGAGCGGGAGGCGCACCAGAAGCTGCTGGCCGACAGCCACGGCCTGGTCCTGGACCTGCGCTGGCAGATGCACCACCGCGAGAAGAGTTGGAGGCGCGAGAAGATGGAGCTGCTCGAGCGCCTGGACCGAGAGCGGCGTGCTTGGGAGCAGCAGCAGCAGGAGCTGGCCTGGAGGATAGAGCAGTTGCAGAAAGAGAGCAGTCCCCAGAGAGGCGGCAGTTTCCCCTGTGATCAAAAAGGAGGCAACCTGCGCCCCTCTCCCCACCCCGGAGGAGCTCGCGGGTCGCGGCCTCTGTCTGCGTGGCACTGTGAGGTCACGGACTCTGCACCGCGTGAGGACCAGCCACTGTCCAAGCTGAAGGAGTCGGACAGGTGCTCGGCCAGCGAGAACCTCTACCTGGATGCCCTGTCCCTGGACACTGAGCAGGAGGAGCCGCCCCGACCCCGAGGGCCCAAGAGGACCTTCAGGAGCCACCTCCCCAAGGAAGAAGACAATCACAAGAGAAATCTTCAAAGGGCCATGTCTGTGTCCTCCATGTCCGAGTTCCAGCGCCTAATGGATGTGTCCCCCTTCCTGCCGGAGAGGGGCCTGGCGCCAGCCAGCAGCCGGGACGACGTCACCCCGCCCCTGTCCCCCGATGACCTGAAGTACATCGAGGAGTTCAACAGCGAGAGCTGGGGCTATGAGGTGGCCCCCAGGGCCGGCCTCGAGCGGCCCCCGGACTCCTGGGCAGACAGGACCGAGGGCGGGCGGGTGGGACAGGAGACCCCGGCAGAGCCCTTCCCCTCCTCCTCCTGGTACCTGACCACGAGTGTCACCATGCCCACGGACACCGTGAGCAGCCCCGAGCACTGCCGGAAGCAGGCGCTGCACAGCCACATCATTGCCGAGCCATCGAGGGTGCGTGTGCTGCACAGCCCGCCTGCCATCCGCAGGGTGGACAGCATTGGGCCCGCAGCAGGTGCCGAGGGCAGGGGCCGACTGGACCCTGAGGGCCCCTCACCCTCGGGCAGAGCCAGGGGGAGCCTTGCAGAGGCCAAGGAACCTCCCACACCGGGCAGGTGGCCCTGCACCCCTGCCAGACAGCCCCGAGACCATGTGGAGGGGGCCCTGTGCCCGCTCGACCTCCCTCTCTGTGCCCCACTGGGGCTCGCGTCCCCGCCGCACAGCCTGGACATGGCCAAGAACATGAGCGATGACACGAAGGCAGCGGCCTTCTCTGTCAGGAACGCCCTGTGCTCCGGGCCCCCAAGGCCGCGCGTCAAGGACATGGCCTGCCAGACAAACGGGTCCCGCGTGGCGGGGACGCAGGCCGTGCAGACAGTCAGCGTGGGCCTGCAGACTGAAGCCCTGCGCACCGGCACCATCACCAGCAGCCCCCACCGCTGCCTCACCCCAAAGGCGGGGGGCGGTGCCACTCCCGTGTCATCCCCGTCCCGGAGCCTTAGGAGCAGGCAGGTGGCCCCTGCCATCGAGAAGGTCCAGGCCAAGTTTGAGCGCACCTGCTGCTCCCCCAAGTACGGGTCCCCCAAGCTGCAGAGGAAGCCCCTCCCCAAAGCTGACCAGCCAGGCAGCAGGACCTCGGCAGGGGCCGGCCAGAAGGGGTTCAGCGAGTCGGCCTGGGCCCGCTCCACCACCACGCGGGAAAGCCCAGTGCACACCACCATCAACGACGGCCTCTCTAGCCTGTTCAGCATCATCGACCACAGCCCGGCCATGCAGGACGCCTTCCAGAAGGGTGCTCGGGCCGGGTCCCGGCCAGAGCTGGGCCCTGGCCAGGAAACGGGCCCGGGTTCCCAGGGAAGGTTGCCCAGCCCACTGGGCATGGGCACAGAGACGATGGGCAGGGAGGACAGGGGGGAGGGCACACCTGTGAGGCAGGACCTGTCCGCACCCCCTGGCTACACGCTGGCCGAGAGCGTGGCGCGGATCCTCAACAGGAAGCTGCTGGAGCACGCCTTAAAGGAGGACAGGAGGCAGGCTGCCCACGGCCTGGCGCTCAACAGCGACAGCCTTCCAGGAGAAGCGGCCTCAGCTGAGCCAGGGGCCATAGAGGAGCTGCCCTGTTCCGCCCGTGCCCCGTCCCTAGAGCCCTGCTTCTCCAGGCCCGAGAGACCAGCCAACCGCCGCCTGCCTTCCAGATGGGCCCCGCCTGACCCCACCGCCTCGGGGTGTCCGTCCCCCGGAAACGCGGCATCCCTGGAGGAGCTCGGGGACAGCGAGGATGGGCCCGAGGAGAAGCCGCAGCCGTGA
Ralbp1 ralA binding protein 1, transcript variant X1
Length: 2163 bp Location: 18120417..18147472 Strand: +>XM_004853228.1 ATGACTGAGGCAGAGATTGAAGAAAGAAACTTAGACCAAAGGAAAGTTGGGACACACATGTGGCACGAGAGAGCATGGGACACTGAGGAGGAGGAAGTGTTCCACAGCTGTGGCCATTGTGAGGTATGTGATGGACAGGTGACCCCGAGGCCACCCCGTCGCTGCGCTCAGGGTGCCAGCATGACCGAGTGCTTCCTGCCCCCACCCAGCAGCCCCGGGGAACACCGCAGGGCCGAGCATGGCAGCGGGCTGACTCGGACGCCCAGCTCAGAGGAGATCAGCCCCACCAAGTTCCCCGGCCTGTACCGAACGGGTGAGCCCTCGCCGCCCCACGACGTCCTCCATGAGCCCCCGGATACCGTGTCTGACGACGAGAAGGACCATGGAAAGAAAAAGGGGAAGTTCAAGAAGAAGGAGAAAAGGACTGAAGGCTATGCTGCCTTCCAGGAAGACAGCTCTGGAGATGAGGCCGAAAGTCCTTCAAAGATGAAGAGGTCCAAGGGCATCCATGTCTTCAAGAAGCCCAGCTTTTCTAAAAAGAAGGATAAGGATTTTAAAATAAAAGAGAAACCCAAAGAAGAAAAGCATAAAGAAGAAAAGCACAAAGAAGAAAAACATAAAGAAAAGAAGTCCAAGGACTTGACAGCAGCTGATGTTGTTAAACAGTGGAAAGAAAAGAAGAAAAAGAAGAAGCCTATCCAGGAGCCGGAGGGGCCTCCGCTCGACGCGCCCAGCCTCAGGCCCATCTTTGGGATTCCCTTGGCCGACGCGGTGGAGAGGACCATGATGCACGATGGCGTCCGGCTGCCGGCCGTCTTCCGGGAGTGCGTGGACTACGTGGAGAAGCACGGCATGAAGTGCGAGGGCATCTACAGGGTTTCAGGAATTAAGTCCAAGGTGGATGAGCTGAAAGCAGCCTACGACCGTGAGGAGTCTCCCAACCTGGAAGACTACGAGCCCAACACCGTGGCCAGCCTGCTGAAGCAGTACCTGCGTGAGCTCCCGGAGAACCTGCTTACCAAAGAGCTCCTGCCGCGCTTCGAGGAGGCATGTGGGAGGGCGGCGGAGAGCGAGAAGGTGCAGGAGTTCCAGCGCCTGCTCAGGGAGCTGCCCGAGTGCAACTGCCTCCTCGTCTCCTGGCTCGTCGTGCACATGGACCACGTCATCGCCAAGGAGCTGGAGACCAAGATGAACATTCAGAACATCTCCATCGTGCTCAGCCCGACCGTGCAGATCAGCAATCGTGTTCTATATGTGCTTTTCACGCATGTGCAAGAGCTCTTCGGGAACGTGGTACTGAAGCAGGTGACGAGGCCCCTGCGATGGTCCAACATGGCCACGATGCCCACGCTGCCCGAGACCCAAGCCGGCATCAAGGAGGAGATCCGGAGACAGGAGTTTCTTTTGAATTGTTTACATCGAGATCTGCAGGGTGGGATAAAGGATTTATCTAAAGAAGAAAGATTATGGGAAGTACAAAGAATTTTGACAGCCCTCAAAAGAAAACTGAGAGAAGCTAAAAGACAAGAGTGTGAGACCAAGATCGCCCAGGAGATAGCCAGTCTGTCAAAAGAGGACGTTTCCAAGGAAGAAACGAATGAAAACGAGGAAGTTATAAATATTCTCCTCACCCAGGAGAACGAGATCCTCACCGAGCAGGAGGAGCTGCTGGCCATGGAGCAGTTCTTACGCCGGCAGATCGCAGCTGAGAAAGAGGAGATCGAGCGCCTGCGTGCCGAGATCGCTGAGATCCAGAGTGTAGTTCGGAGAAAGGGTGGCAGGCGAGAGCGCCGGGCAATGTCCCCGCCTGTCCCCAGCCGCCAGCAGCACGGCCGGAGCGAGACGGAGGAGTACTCGTCAGAGAGTGAGAGCGAGAGCGAGGACGAGGAGGAGCTGCAGCTCATTTTGGAGGATCTGCAGCGCCAGAACGAGGAGCTGGAGATCAAGAACAACCACCTGAACCAAGCCGTCCACGAGGAGCGCGAGGCCATCATCGAGCTGCGCGTGCAGCTCCGCCTGCTGCAGCTGCAGCGCGCCCAGGCCGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGCCCGAGGAGCCCGAGGAGCCCGTGCGGCCAGCGGGCGTCCCGGAGGCCAAGCCCTCGCCCAGCAGAGAGCGGAAGGAGACGCCCATCTGA
Ppp4r1 protein phosphatase 4, regulatory subunit 1
>XM_004853313.1 ATGACTGTGAGTGGACGGGAACACGCTGACCCCCGGCCCCCCGTGGCACCGGTTCCGCAGCCGCGCTCTGGCTCGTGTGGGTTGGACCCACTTTGGAGGACGAGGCGGACCTGGCTTAGCCTGGAGTCGCGAAGTCAGGACACGCGGCTTCCGCCCCTTCGCATCTCGGGGCTCAGACGAGTCCCGCGACTCGATAAAACAATGGGAGAGACGCAGGCGCCCGTTGGGGAGCGCTGCCAAAACCACGAGCAGAGCATCGAGTCCGGCTCCCGCCGTCCGCGTCGCCCCGGTGTCCGCGCGAGCGCGCGCCAGCGGGAGGGCCCGAGGCGATTCCGGACCGGGGCTAAGGCTGAGTCGCCAGCCTCGCCCGGCCGCTTTGGGGCGCGGGGCGCGGGCGCGGGCGCGGGTGCTGACGGCTCTCTCCCTTCTCCCGGCGCAGACCTGTCGCTGCTGCAGGAGGACCCGCCCGACGACGCCGACGGCTTTGGTGTGGATGCCTACGGCTCAGAGTCTGATGTGATTATTGTGCCTTCAGCCTTGGACTTTGTCTCTCAAGATGAAATGTTGACGCCACTGGGAAGATTGGACAAGTATGCTGCGAGTGAGAACGTGTTCAACAGACAAATGGTGGCTCGGAGTTTGCTGGATACGTTGAGGGAAGTCTGCGATGATGAAAGAGATTGTGTTGCTGTTCTGGAAAGAATTAGCAGATTAGCTGACGATTCAGAGCCCACGGTGCGCGCAGAATTGATGGAGCAAGTGCCTCACCTCGCGCTGTTCTGCCAGGAGAGCCGGCCTACCATCCCCTGTGCCTTTTCCAAGTACCTGCTGCCCGTTGTGGTGCGGTATCTGGCAGATCAGAACAACCAGGTGAGGAAAACAAGCCAAGCAGCTTTGCTGGCTTTGCTGGAGCAGGAGCTGATCGAGCGCTTTGATGTGGAGACCAAAGTGTGCCCTGTCCTCATAGAGCTGACTGCACCTGACAGCAACGACGACGTGAAGACAGAGGCCGTGGCCGTGATGTGCAGGATGGCGCCGATGGTTGGGAGGGGCATCACAGAGCGCCTCCTCCTCCCACGGTTCTGTGAGATGTGCTGCGACTGCAGAATGTTCCATGTTCGGAAGGTCTGTGCCGCCAATTTTGGGGACATTTGCAGTGTCGTTGGCCAGCAAGCTACTGAGGAGATGTTGCTGCCCAGGTTTTTCCAGCTTTGTTCTGACAACGTGTGGGGAGTCCGGAAGGCGTGTGCTGAGTGCTTCATGGCAGTCTCATGTGCAACGTGTCAAGAAATCCGACGGACCAAGTTATCAGCACAGTTTATTAATTTGATCAGTGACCCTTCACGTTGGGTTCGCCAAGCAGCTTTTCAGTCTCTGGGACCTTTCATATCAACTTTTGCTAATCCATCTAGCTCAGGCCAATATTTTAAAGAAGAAAGCAAAAATTCAGAAGATATTTCAGAAGATAAAAATAGGCTCGGAGACCAAGAGGTGCCAGAGGATGTCCCTTCAGCCCTCAGTGTCGCTGGGCCCAGTGCCAGGTTGGAGTGTGCGCTGGAAGACCGTGGTGCTGGAGCGCCTCGGGACTCTGCACAGGAGCTGGGTGTCCCGGCTCCGGCAGACAGCTCTTCACTGTGTACTGTGTCCTCAGAGTCTCACCCAGAAGCAGCTAGTAGTGATGAGGTTACAAAGCCCTATGGCTGCAAATCCGTGTTCCAGCTGGAGGCTGACAGCAAGTCACAAGACTCAGCTCTCCCAGATCAGGAATTGTACAACTCCTTCCATTTCTGGAGGACTCCTCTTCCCGAAATAGATCTGGACCTCGAGCTTGAGCAGGACTCTGGGAAGAGCCTCGGCCTGGAGCGGCCAGAAGGAGCCCCAGAAGACCTCATGCCAGGTTCTCTAAACATCACCATGGCCACCAGGAGGGAGCTGGAGGAGATGCTAGAAAACCTGGAGCCTCATATTGATGATCCTGATGTTAAAGCTCAAGTGGAGGTGCTGTCGGCTGCCCTGCGCGCCTCCAGCCTGGACACTCACACAGAGGCTGTCAGCATGGAAAAGAGCAGCGAGCTGCAAGACGAACCGGGTATAAATGAGCTACCAAATTGTAAAATAAATCAAGATGATTCTGTGCCTTTAATCAGCGATGCTGTTGAGAGCATGGACCCCGCTCTTCACTACGTCCACAGCGACTCAGACGTGAGCACCAGCAGCAGCTTCAGCCCGGACGAGGAGAGGAGCCCTAAAGTGCAGGACGTGGTGCCTCAGGCTCTGTTGGACCAGTACTTGTCTATGACCGACCCGTCCCGCGCACAGACGGTGGACACGGAGATCGCCAAGCACTGCGCATACAGCCTGCCCGGGGTGGCCCTGACCCTTGGCAGGCAGAACTGGCACTGCCTGAGAGAGACCTACGAGACCCTGGCCTCTGACATGCAGTGGAAAGTTCGAAGGACCTTAGCGTTCTCCATCCACGAGCTCGCAGTTATTCTTGGAGATCAGTTGACAGCTGCGGATCTGGTTCCAATTTTTAATGGATTTTTAAAAGACCTCGATGAAGTCAGGATAGGTGTCCTTAAACACTTGCATGATTTTCTGAAGCTTCTTCATATTGACAAAAGACGAGAGTATCTGTATCAACTGCAGGAGTTTCTGGTGACAGACAATAGTAGAAACTGGCGCTTCCGAGCCGAGCTGGCTGAGCAGCTGATCTTACTTCTAGAGCTATACGGCCCCAGAGACATTTATGACTATCTGCGCCCCATCGCCCTGAGCCTGTGTGCAGACAAAGTGTCCTCCGTCCGCTGGATTTCCTACAAGCTGGTCAGCGAGATGGTGAAGAAGCTGCACACAGCTTCATCCCCAACCTTTGGCGCGGATCTCATCCGGGAGCTGGTGGAGAACTTCGGCAGGTGTCCCCGGTGGTCAGGCCGCCAGGCCTTCGTCTTCGTGTGCCAGACTGTCATCGAGGACGACTGCCTCCCCATGGACCAGTTCGCTGCACACCTCATGCCACACCTGCTCACCCTGGCCAACGACAGAGTCCCGAACGTCAGAGTGCTGCTCGCCAAGACGCTGAGGCAGACGCTGTTAGAGAAAGAGTACTTCCTCACCTCTGCCAGCTGCCACCAGGAGGCTGTGGAGCAGACTATCATGGCCCTGCAGATGGACCGAGACAGTGACGTCAAGTACTTCGCCAGCACCCACCCCGCCGGCACCAAGATCTCTGAAGACGCCATGAGCACAGCCTCCTCCACGTACTAG
Mppe1 metallophosphoesterase 1, transcript variant X2
Length: 1182 bp Location: 19517232..19504774 Strand: ->XM_004853243.1 ATGGGCCCTGCTGGGTGGGGGCTGGGAAGGCAGGGCCTCCGCCTTCTGAAGAGGAGTTTGCTGCCGTTGAAGCTCACAGCCATCATCTTCGCTGGGCTGCTGTTCTGCGAGTTCTTCATCTACTACTTAGTGATCTGCCGGTGTCACTGGGCTGAGGTGGAGGCACCTGCCTGGGGTGGAGAGCCGCTGGCACCTGTGCTGAGAGCCATGGTCCTGGCAGACACCCACCTGCTGGGGGAAGTTCAAGGCCACTGGCTGGACAAGCTCCGGAGGGAATGGCAGATGGAGAGAGCCTTCCAGACGGCCCTGTGGGTGCTGCAGCCTGAAGTCGTCTTCATCCTAGGCGACATCTTTGATGAGGGGAAGTGGAGCTCACCACAGGCCTGGGCAGACGACGTTGGGCGGTTCCACAGGATGTTCAGACACCCAGCTCATGTGCAGCTGAAGGTCGTCGCCGGCAACCACGACATCGGCTTCCATTACTGGATGAACAGTTTCAGAGTAAAGCGATTTGAGAAAGCCTTCAGCTCAGAGAGGCTGTTTTCTCGGAAAGGAGTAAACTTCGTGATGGTCAACAGCGTGGCCATGGAGGGCGACGCCTGTAACATCTGTGCCAAGGCTGAGGCTGAGCTCCTGCAGGTCTCGCGCCGGCTGAACTGCTCCCGAGAGGTGCCGGGCTCCGGGCCCTGTGGAGCGGGGCAGCAGCTGTCCCCGTCGGCCCCCATCCTGCTGCAGCATTACCCGCTGTACCGCGCCAGTGATGCCAACTGCTCTGGGCCGGATGCGGCTCCCCCGGAAGAGAGGAGCGTCCCCTTCAGGGAGAGATATGACTCGCTGTCCCGGGAGGCCTCGCAGAAGCTGCTGTGGTGGCTGCAGCCTCGCCTGGTGTTGAGCGGCCACACACACAGTGCCTGTGAGGTGCTGCACGGCGCAGGGGTCCCCGAGATCAGCGTGCCGTCCTTCAGCTGGAGGAACAGGAACAACCCCAGCTTCGTCATGGTCAGCCTGACGTCCCGGGACTTCGCCCTCTCCAAGTGCTTCCTCCCGCAGGAGGACACCGTGCTGGCCACCTACTGTGGGGTGGTGGGGCTCCTCGTGGTCCTCGTCCTGGCTCACACGGAGCGGCTGGCCTCGCCCTTCCTTTCTGGTTGGAACGAGCTCAGGAGGCACAGGAGCTGGTGA
Mppe1 metallophosphoesterase 1, transcript variant X5
Length: 1182 bp Location: 19514534..19504774 Strand: ->XM_004853246.1 ATGGGCCCTGCTGGGTGGGGGCTGGGAAGGCAGGGCCTCCGCCTTCTGAAGAGGAGTTTGCTGCCGTTGAAGCTCACAGCCATCATCTTCGCTGGGCTGCTGTTCTGCGAGTTCTTCATCTACTACTTAGTGATCTGCCGGTGTCACTGGGCTGAGGTGGAGGCACCTGCCTGGGGTGGAGAGCCGCTGGCACCTGTGCTGAGAGCCATGGTCCTGGCAGACACCCACCTGCTGGGGGAAGTTCAAGGCCACTGGCTGGACAAGCTCCGGAGGGAATGGCAGATGGAGAGAGCCTTCCAGACGGCCCTGTGGGTGCTGCAGCCTGAAGTCGTCTTCATCCTAGGCGACATCTTTGATGAGGGGAAGTGGAGCTCACCACAGGCCTGGGCAGACGACGTTGGGCGGTTCCACAGGATGTTCAGACACCCAGCTCATGTGCAGCTGAAGGTCGTCGCCGGCAACCACGACATCGGCTTCCATTACTGGATGAACAGTTTCAGAGTAAAGCGATTTGAGAAAGCCTTCAGCTCAGAGAGGCTGTTTTCTCGGAAAGGAGTAAACTTCGTGATGGTCAACAGCGTGGCCATGGAGGGCGACGCCTGTAACATCTGTGCCAAGGCTGAGGCTGAGCTCCTGCAGGTCTCGCGCCGGCTGAACTGCTCCCGAGAGGTGCCGGGCTCCGGGCCCTGTGGAGCGGGGCAGCAGCTGTCCCCGTCGGCCCCCATCCTGCTGCAGCATTACCCGCTGTACCGCGCCAGTGATGCCAACTGCTCTGGGCCGGATGCGGCTCCCCCGGAAGAGAGGAGCGTCCCCTTCAGGGAGAGATATGACTCGCTGTCCCGGGAGGCCTCGCAGAAGCTGCTGTGGTGGCTGCAGCCTCGCCTGGTGTTGAGCGGCCACACACACAGTGCCTGTGAGGTGCTGCACGGCGCAGGGGTCCCCGAGATCAGCGTGCCGTCCTTCAGCTGGAGGAACAGGAACAACCCCAGCTTCGTCATGGTCAGCCTGACGTCCCGGGACTTCGCCCTCTCCAAGTGCTTCCTCCCGCAGGAGGACACCGTGCTGGCCACCTACTGTGGGGTGGTGGGGCTCCTCGTGGTCCTCGTCCTGGCTCACACGGAGCGGCTGGCCTCGCCCTTCCTTTCTGGTTGGAACGAGCTCAGGAGGCACAGGAGCTGGTGA
unclassified transcription discrepancy mRNA
Length: 1092 bp Location: 19580264..19590162 Strand: +>XM_004921118.1 ATGGACAGCGTGCGGTCAGGCNCCTTGGGGCAGCTGTTCCGGCCTGACAGCTTCATCTTCGGACAGATGGGCGCCGGCAACAACTGGGCGAAGGGCCACTACACGGAGGGCGTGGAGCTGGTGGATGCGGTGCTGGACGCTGTCCGGCGGGAGTGTGAGCGGTGTGACTGTNNGCAAGGCTTCCGGCTGGTGCGCTCACAGGGTGGTGGCACGGGCTCAGGCGGCACACTGCTGCTGGGCACACTGCTGCTGGGCACACTGCGGGAGGAGGTCCCTGACCGCGTGGTGAACACCTTCATTGTGCTCCCATCGCCCAAGGTGCCGGACACCGTGGTGGAGCCGTACAACACGGTGTTGTCCGTGCACCAGCTGGGGGAGCACACAGACCAGACCTACGACATCTGCTTCTGCACCCTCAAGCTGGCCATGCCCACCTACAGCAGCCTCAACCGCCTGGTGTCGGTCACTATGAGCGAGGAGACCACGTCCCTGCACTCCCTGGGCCAGCTCAATGCCAACCTGCACAAGCTGGCCACAAACAGGGTGCCCTTCCTGCACCTGCACTTCATGCCCGGCTTTAAGCCCGACTGTGTGGGGCGGCCAGCAGTACCACGCCGACCACCCGAGCTGGCCCAGNCGATGTTCAACGCCAAGAACTTGATGGCCACCTGCAACCCGTGCCATGGCCGCTTCCTCACTGTGGCCACTGTCTTCNATGGCCGCGAGTCCATGCAGGAGGTGGATGAGCAGATGCTGGCCGTCCAGAGCAAGCAAGGCAGCTGCTTCGTGGAGTGGATCCCCAACAATGTCAAGGTGGCTGTGTGCGACATCCCGCCGCGCGGGCTCAGCATGTCGGCCACCTTCATCAGCAACAGCACGCCCGTCCAGGAGCTGTTCAGGCGCCACATCTCAGAGCAGTTCATGGCCATGCTGCGGTGCCCGGCCTTCCTGCACTGGTTCACAAGCGAGGGCATGGACAGGATGGGATTCACCGAGGCCGAGAGCAATGTGAATGACCTGGTGTACAAGTACCAGCTGTACCAGGATGCCATGGCCAATGATGGGGACGAGGCCTTCTCACCACACACATAG
Afg3l2 AFG3 ATPase family member 3-like 2 (S. cerevisiae), transcript variant X2
Length: 1797 bp Location: 19615426..19590812 Strand: ->XM_004853261.1 ATGGGTGTAGACGCCTTTGAGCGGAATCTGGAAACTTTACAGCAAGAGCTGGGCATAGAAGGGGAAGACCGGGTGCCTGTTGTCTACATTACTGAAAGCGATGGCTCCTTTCTGCTGAGCATGCTGCCCACTGTCCTCATCATCACCTTTCTGCTCTACACCATTCGGAGGGGCCCTGCCGGCATCGGCCGGGGCGGCCGGGGCGTGGGCGGGCTCTTCAGCGTCGGGGAGACCACGGCCAAGGTCCTGAAGGACGAGATAGACGTCAAGTTCAAGGACGTGGCTGGCTGTGAGGAGGCCAAGCTGGAGATCATGGAGTTCGTGAACTTCTTGAAAAACCCAAAGCAGTACGAAGACCTAGGAGCCAAAATCCCAAAGGGTGCCATTCTCACGGGTCCTCCCGGCACCGGGAAGACACTGCTGGCCAAGGCCACGGCTGGAGAGGCCAACGTCCCCTTCATCACCGTCAGCGGATCCGAGTTCCTGGAGATGTTTGTTGGTGTGGGCCCAGCGCGGGTTCGAGACTTGTTTTCCCTTGCCCGGAAGCACGCCCCTTGCATCCTGTTCATTGACGAGATCGACGCAGTGGGCAGGAGGAGGGGCCGTGGCAACTTCGGGGGGCAGAGCGAGCAGGAGAACACGCTGAACCAGCTGCTGGTGGAGATGGACGGTTTTAACACGACAACAAACGTGGTCATCTTGGCGGGCACCAACCGGCCGGACATTCTGGACCCGGCGCTGCTGCGGCCCGGCCGCTTCGACCGGCAGATCTTCATTGGACCCCCAGACATAAAAGGAAGAGCCTCCATTTTCAAAGTTCACCTCCGGCCTCTGAAGCTGGATGTTGCCCTGGAGAAGGAGAAGCTGGCCCGGAAGCTGGCGTCTCTGACCCCGGGGTTTTCAGGAGCTGATGTGGCCAATGTGTGTAATGAGGCTGCCTTGATCGCTGCACGACACCTTTCAGACTCCATAAATGAGAAGCACTTTGAGCAAGCCATCGAACGAGTGATTGGCGGCTTGGAGAAGAAAACCCAGGTCCTGCAGCCCGAGGAGAAGAAGACAGTGGCGTACCATGAAGCAGGCCATGCGGTCGCTGGCTGGTACCTGGAGCATGCAGACCCTCTGCTAAAGGTGTCCATCATCCCCCGTGGCAAAGGGCTTGGCTACGCCCAGTACCTGCCGAAGGAGCAGTACCTGTACACCAGGGAGCAGCTCCTAGACCGGATGTGCATGACCCTGGGCGGCCGGGTCTCTGAGGAGATCTTCTTTGGGAGGATCACCACCGGTGCCCAGGACGACCTGCGGAAGGTCACACAGAGTGCCTATGCCCAGATTGTGCAGTTCGGCATGAATGAGAAGGTCGGGCAGATCTCCTTTGACCTCCCGCGCCAGGGCGACATGGTGCTGGAGAAGCCGTACAGCGAGGCCACCGCCAGGCTCATTGACGACGAGGTGCGGATCCTGATCAGTGAGGCCTACAAGAGAACTGTGGCTCTTCTCACGGAGAAGAAGGCCGACGTGGAGAAGGTTGCGCTTCTGTTGTTAGAGAAAGAAGTTTTAGATAAGAACGACATGGTTACGCTTCTGGGCCCCAGACCATTTGCAGAAAAATCCACGTATGAAGAGTTCGTGGAGGGCACGGGCAGCTTGGATGAGGACACCTCGCTGCCAGAGGGCCTGAAGGACTGGAACAAAGAGCGGGAGAAGGAGGAGAAGGAGCCCCCAGACCAGAAAGGTGCCAGCCAGATGCAGACAGTCCGTGGCGGCCGCTGTTGTCTGCCTGCGGTGTCAGCATGA
Slmo1 slowmo homolog 1 (Drosophila), transcript variant X4
>XM_004853265.1 ATGAGGATCTGGAGCTGCGAGCACGTGTTCGGCCACCCGTGGGACACGGTGATCAAGGCTGCCATGAGGAAGTACCCGAACCCCATGAACCCCAGCGTGGTGGGTGTGGATGTCCTGGAGCGCGCTGTGGATGGCCGAGGGCGGCTGCACAGCCTGCGCCTGCTAAGCACCGAGTGGGGGCTGCCGGGCCTGGTCACCGCGATTTTGGGAACCAGTAGGACCCTGACCTACATCAAAGAGCACTCTGTGGTAGACCCAGCCGAGAAGAAAATGGAGCTTTTCTCCACCAATGTCACATTGCGGAACCTGGTGTCGGTAAATGAGAGGCTGGTGTACGCCCCGCACCCAGAGCACCCCGGGAAGACGGTGCTCACGCAGGAGGCTGTCATCTCCGTGGAGGGCACAGGCCTGGGCCGCTACCTGGAGAGCCTGATGGCCAGCACCATATCGTCCAACGCCAGGAAGGGTTGGGCAGCCATCGAGTGGATCATCAAGCACTCGGAGAGTTCCGCGGGCTAG
Cep76 centrosomal protein 76kDa, transcript variant X3
Length: 1755 bp Location: 19787714..19767870 Strand: ->XM_004853274.1 ATGTCGCTGCCTCCGGAGAAAGCCTCGGAGCTGAAGCAGCTCATCCAGCAGCAGCTGAGCAAGATGGATGTCCACGGCAGAATACGGGAGGTCCTGGCCGAGACCATCCGGGAAGAGCTGGGGCCAGACCAGCAACACCTGTCAACAGAAGATTTGATCAAAGCTCTTAGACGTCGAGGAATCATTGATGATGTGATGAAAGAACTTAATTTTGTTACCGATAATGTTGAGCAAGAACTCTCTTCCTCTCCAAAACAGCCTGTTGGTTTTGATAAACAGTCAACATTTAAAAAAAGTGATGGGACTAGAATGGCTGACCCAACAACAATGTTATCAATAAGTGACCCAGTTCACATGGTGCTAATCAAGACAGATATTTTTGGGGAGACCACTTTAGTAGCCTCTTATTTTCTAGAATGGCGATCAGTTTTGGGCTCAGAAGATGGAGTGACCAGTCTGACAGTGGAACTCATGGGTGTAGGCACGGAATCAAAAGTTTCTGTGGGAATTTTAAATATAAAATTTGAAATGTACCCACCACTCAGTCAAACACTATCTCAAGAAGTAGTGAACACCCAGCTTGCTTTGGAACGTCAGAAGACTGCAGAGAAAGAACGGTTGTTTCTTGTGTATGCTAAGCAGTGGTGGAGAGAATATTTGCAAATTCGACCCTCACACAATTCACGACTGGTCAAGATTTTTGCACAGGATGAGAATGGCATAAACAGGCCAGTCTGTTCCTATGTGAAGCCACTTGGAGCTGGACGGCTGCTGGACACCCCAAGGCAGGCAGCAAGATTTGTGAATGTGCTGGGGTATGAGCGGGCCCCTGTGATCGGAGGAGGAGGTAAACAGGAGCAGTGGTGCACTCTGCTGGCCTTTCTCTGTAGGAACAAGGGTGACTGTGAGGACCATGCTAATCTCCTGTGCAGCCTGCTGCTCGGCTACGGCCTGGAAGCCTTTGTCTGTGTCGGGACGAAGGCCAAAGGGGTGCCACACGCCTGGGTCATGACCTGTGGGACGGACGGCACCGTCACCTTCTGGGAGAGTCTAACAGGACACAGGTACATCCACAAACCTGCCAGTCCTGATGAGTCTCCACTTGCTGAGCAGCCCAAACCGCTGTACCCGTATCGAACAATTGGTTGTGTTTTCAATCATCACATGTTCCTGGGGAATTGCCAGCCCTCTGATGCTGTAGAAGCCTGTGTGTTTGATCTGAGTGATGAATCCAAATGGAAGCCCATGAGTGAAGAAGCAATCAAGTCTGTGTGTGCTCCTGGAGCTACAACCTCTCTCCCGCCCTTCCCACCACTGTGTGCGTCCACAGTGGACGCATCGGTGACTAGTAACGAAATTGAAATGCAGCTGAGGCTCCTGGTGTCTGAGCACAGGAAGGATCTGGGCCTCACTACCGTGTGGGAAGATCAGCTTTCTTATCTTTTGTCGCCAGCCCTGGCCTCCTATGAATTTGAGCGCACAACGAGCATATCTGCAGGAAATGAGGAGTTTCAGGACGCCATCAGGAGGGCTGTGCCTGACGGGCACACATTTAAGGGCTTCCCCATCCACTTCGTGTACAGAAATGCAAGGCGTGCATTTGCCACGTGTCTTCGGTCCCCGTTTTGTGAAGAAATAATCTGTTGCCGTGGAGACCAAGTGCGACTGGCAGTGCGTGTCCGAGTGTTCACTTACCCTGAGTCGGCCTGTGCTGTTTGGATCATGTTTGCTTGTAAATATCGCTCTGTGTTGTAG
Cep76 centrosomal protein 76kDa, transcript variant X2
Length: 1809 bp Location: 19787714..19768093 Strand: ->XM_004853273.1 ATGTCGCTGCCTCCGGAGAAAGCCTCGGAGCTGAAGCAGCTCATCCAGCAGCAGCTGAGCAAGATGGATGTCCACGGCAGAATACGGGAGGTCCTGGCCGAGACCATCCGGGAAGAGCTGGGGCCAGACCAGCAACACCTGTCAACAGAAGATTTGATCAAAGCTCTTAGACGTCGAGGAATCATTGATGATGTGATGAAAGAACTTAATTTTGTTACCGATAATGTTGAGCAAGAACTCTCTTCCTCTCCAAAACAGCCTGTTGGTTTTGATAAACAGTCAACATTTAAAAAAACTAATATTGATCCAACACGGAGGTATCTTTACCTTCAGGTTCTGGGTGGAAAAGCTTTCTTGGAACATCTTCAAGAACCTGAGCCTTTACCAGGACAAGTTTGTTCAACTTTTACTTTATGTTTACATTATCGGAACCAGCGTTTTCGTTCCAAACCTGTTCCGTGTGCCTGCGAACCAGATTTTCATGATGGCTTTTTACTTGAAGTACACAGAGAAAACTTAGGTGATGGGACTAGAATGGCTGACCCAACAACAATGTTATCAATAAGTGACCCAGTTCACATGGTGCTAATCAAGACAGATATTTTTGGGGAGACCACTTTAGTAGCCTCTTATTTTCTAGAATGGCGATCAGTTTTGGGCTCAGAAGATGGAGTGACCAGTCTGACAGTGGAACTCATGGGTGTAGGCACGGAATCAAAAGTTTCTGTGGGAATTTTAAATATAAAATTTGAAATGTACCCACCACTCAGTCAAACACTATCTCAAGAAGTAGTGAACACCCAGCTTGCTTTGGAACGTCAGAAGACTGCAGAGAAAGAACGGTTGTTTCTTGTGTATGCTAAGCAGTGGTGGAGAGAATATTTGCAAATTCGACCCTCACACAATTCACGACTGGTCAAGATTTTTGCACAGGATGAGAATGGCATAAACAGGCCAGTCTGTTCCTATGTGAAGCCACTTGGAGCTGGACGGCTGCTGGACACCCCAAGGCAGGCAGCAAGATTTGTGAATGTGCTGGGGTATGAGCGGGCCCCTGTGATCGGAGGAGGAGGTAAACAGGAGCAGTGGTGCACTCTGCTGGCCTTTCTCTGTAGGAACAAGGGTGACTGTGAGGACCATGCTAATCTCCTGTGCAGCCTGCTGCTCGGCTACGGCCTGGAAGCCTTTGTCTGTGTCGGGACGAAGGCCAAAGGGGTGCCACACGCCTGGGTCATGACCTGTGGGACGGACGGCACCGTCACCTTCTGGGAGAGTCTAACAGGACACAGGTACATCCACAAACCTGCCAGTCCTGATGAGTCTCCACTTGCTGAGCAGCCCAAACCGCTGTACCCGTATCGAACAATTGGTTGTGTTTTCAATCATCACATGTTCCTGGGGAATTGCCAGCCCTCTGATGCTGTAGAAGCCTGTGTGTTTGATCTGAGTGATGAATCCAAATGGAAGCCCATGAGTGAAGAAGCAATCAAGTCTGTGTGTGCTCCTGGAGCTACAACCTCTCTCCCGCCCTTCCCACCACTGTGTGCGTCCACAGTGGACGCATCGGTGACTAGTAACGAAATTGAAATGCAGCTGAGGCTCCTGGTGTCTGAGCACAGGAAGCCCTGGCCTCCTATGAATTTGAGCGCACAACGAGCATATCTGCAGGAAATGAGGAGTTTCAGGACGCCATCAGGAGGGCTGTGCCTGACGGGCACACATTTAAGGGCTTCCCCATCCACTTCGTGTACAGAAATGCAAGGCGTGCATTTGCCACGTGTCTTCGGTCCCCGTTTTGTGAAGAAATAA
Ptpn2 protein tyrosine phosphatase, non-receptor type 2, transcript variant X3
Length: 1062 bp Location: 19876503..19808400 Strand: ->XM_004853278.1 ATGCCCGCCACCGTCCAGCGGGAGTTCGAGGAGCTGGATGCACAGTGTCGCTGGCAGCCGCTATACCTGGAAATTCGGAATGAGTCCCATGACTATCCTCATAGAGTGGCCAAGTTTCCAGAAAACAGAAATCGAAACAGATACAGAGATGTGAGCCCATATGACCACAGCCGTGTTAAACTGCAAAATATTGAAAATGATTACATTAATGCCAGCTTAGTTCACATGGAAGAGGCACAAAGGAGTTATGTCCTAACACAGGGTCCACTTCCTAATACCTGCTGCCATTTCTGGCTCATGGTCTGGCAGCAGAAGTCCAAAGCAGTTGTCATGCTAAACCGAGTTGTGGAGAAAGAATCGGTTAAATGTGCACAGTACTGGCCAACAGATGACCGAGAGATGGTGTTCAAAGAAACAGGATTCAGAGTGAAGCTCTTATCAGAAGACGTGAAGTCATATTATACAGTACATCTGCTACAGTTAGAAAATATCAGTAGTGGTGAAACCAGAACAATATCTCACTTTCATTATACTACCTGGCCAGATTTTGGAGTCCCCGAATCACCAGCTTCGTTTCTCAATTTCTTGTTTAAAGTGAGAGCGTCTGGCTCCTTGGACCCTGAGCATGGGCCTGCGGTCGTGCACTGCAGCGCCGGCATTGGGCGGTCCGGCACCTTCTCCCTAGTGGACACCTGCCTTCTTCTGATGGAAAAAGGAGATGATATTAACATTAAACAAGTATTACTAAATATGCGAAAATATCGAATGGGACTTATTCAGACTCCAGATCAACTCAGATTCTCTTACATGGCCATAATAGAAGGAGCAAAATGTATAAAGGGAGATTCAAATATACAGAAACGGTGGAAAGAGCTTTCTGAGGAAGACTTATCTCCTGCTTCGGATCATTCACCGACCAGAGGCGTGACTGAGAAGTACAATGGGAACAGAATCTGTCCTGAGGGAGAGAAGCTGCCGGGGGAGCGGTGTGCGGGGCTGTCCTCCAAGATACAGGACTCTGTGGAGGAGAGCAGAGAGAGGCCAAGATTGACAGACACCTAA
Seh1l SEH1-like (S. cerevisiae), transcript variant X1
Length: 1263 bp Location: 19913546..19938402 Strand: +>XM_004853279.1 ATGTTCGTGGCGCGCAGCATCGCGGCAGACCATAAGGACCTCATCCACGATGTCTCCTTCGACTTCCACGGGCGGCGCATGGCCACCTGCTCCAGCGACCAGAGCGTCAAGGTCTGGGATAAAAGCGAAAGTGGAGATTGGCATTGTACAGCTAGCTGGAAGACGCACAGTGGATCTGTGTGGCGTGTGACATGGGCCCATCCTGAATTTGGACAGGTTTTGGCTTCCTGTTCTTTTGATCGAACAGCCGCTGTGTGGGAAGAAATAGTCGGAGAGTCGAATGATAAGCTGCGTGGACAGAGTCACTGGGTGAAGAGGACCACACTGGTGGATAGCAGAACATCTGTTACTGATGTGAAGTTTGCTCCCAAGCACATGGGTCTCATGTTGGCCACCTGCTCAGCAGATGGAATAGTCCGGATATATGAGGCACCTGATGTCATGAATCTCAGCCAGTGGTCCCTACAGCATGAGATCTCTTGCAAACTGAGCTGCAGTTGCATTTCTTGGAACCCTTCAAGCTCCCGTGCTCACGCGCCCATGATCGCTGTAGGAAGTGATGACAGCAGCCCAAACGCCGTGGCCAAGGTTCAGATTTTTGAATACAATGAAAACACCAGGAAATATGCAAAAGCTGAGACTCTGCTGACTGTCACCGACCCAGTGCATGACATTGCCTTTGCTCCAAACTTGGGACGGTCTTTCCACACGCTGGCAGTTGCAACCAAAGATGTAAGAATTTTCACGTTAAAACCTGTGAGGAAAGAACTCACTTCCTCAGGTGGGCCAACAAAATTTGAAATCCATATCGTGGCTCAGTTTGATAACCACAACTCCCAGGTCTGGCGAGTGAGTTGGAACATTACAGGAACTGTGCTGGCATCTTCAGGAGATGACGGCTGTGTCAGGTTGTGGAAAGCTAATTACATGGACAATTGGAAGTGCACTGGGATTCTGAAAGGTAATGGGAGCCCAGTCAATGGGAGTTCTCAGCAGGGAAACTCAAATCCTTCCCTAGGTTCAAACGTTCCAAATCTTCAAAGCTCATTAAATGGATCTTCTGCTAGCAGGTATTTCTTTCCCCCTCTGGACTCCCCACGGGCTGGATCGAGATGGTCCAGTTATGCCCAGCTCCTTCCTCCTCCTCCTCCTCTGCTAGAGCACTCTTGCGATGCTGACACTGCCAGCCTCCAGTATCCTCACCCTCGCAGACGATGCCTCTCTCGGCCTCTTAATCCCTTACCTGAGAATGAAGGGGTTTAA