Gene Name | Heterocephalus glaber isolate NMR 29 unplaced genomic scaffold, HetGla_female_1.0 scaffold00108, whole genome shotgun sequence |
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Myf5 myogenic factor 5
>XM_004867519.1 ATGGACATGATGGACGGCTGCCAGTTCTCACCTTCTCAGTACTTTTACGACGGCTCCTGCATCCCGTCCCCCGAGGGTGAGTTTGGGGACGAGTTTGAGCCCCGAGTGGCCGCCTTCGGGGTGCACAAAGCGGAGCTGCAGGGCTCGGATGAGGACGAGCACGTGCGAGCGCCCACAGGCCACCACCAGGCCGGCCACTGCCTCATGTGGGCCTGCAAGGCGTGTAAGAGGAAGTCCACCACGATAGACAGGCGGAAGGCGGCCACCATGCGCGAGCGGAGACGCCTGAAGAAGGTCAACCAGGCTTTCGAGACGCTCAAGAGGTGCACCACGACCAACCCTAACCAGAGGCTCCCCAAGGTGGAGATCCTCAGGAACGCCATCCGCTACATCGAGAGCCTGCAGGAGCTGCTGCGGGAGCAGGTGGAGAACTACTACAGCCTGCCGGGCCAAAGCTGCTCAGAGCCCACCAGCCCCACCTCCAACTGCTCCGACGGCATGCCTGAATGCAATAGTCCCATCTGGTCCAGAAAGAACAGCAGTTTTGACAGCGTCTACTGTCCTGATGTATCAAATGTATACGCCACAGACAAAAGCTCCCTATCCAGTTTGGATTGCTTGTCCAGCATAGTGGATCGCATCACCTCTTCAGAGCATCCAGGGCTGCCTCTCCAGGAGCCAGCCTCCCTCTCTCCAGTCACCAGCACGGATCCACAGCCTGTAACTCCAGGAGCCTCCAGTACCAGGCTTGTGTATCATGTGCTATGA
LOC101699199 prorelaxin-like
Length: 336 bp Location: 4675275..4675610 Strand: +>XM_004867544.1 ATGCTATCCTCTATCAACAGAGATGTGGACTCCCAAAATATGTTGGAATTCATTCATAATTTGCCACAAGAGTTGAAGGCAGCACTGTCCAAGAGGCAGCCATCATTACCACAGCTACAACAATATGTACTTGCATTAAAGCGTTCAAATGTTGGATTTCAAGAGCTTAAGAAAACTATTCATAACAGACAATATGAAGCAGAAGATGATAGTCATTCTGTATTAAAATACTTAGGGTTGAATACTCATTCACCAAAAAGACAGTTTGATATGTCAATGAGTGAGAAATGTTGCCAAGTTGGTTGTACCAGAAGATCTATTGCTAAATCATGCTGA
Cep290 centrosomal protein 290kDa
Length: 7428 bp Location: 7138815..7054706 Strand: ->XM_004867539.1 ATGCCACCTAATATAAACTTCAAAGAACTAATCAAAGTTGATCCAGATGAACTGCCTCGTCAGGAAGAATTGGCAGATAATTTATTGATTTCCTTATCCAAGGTGGAAGCAAATGACCTAAAAAATGAAGATCAAGAAAATGTGATACATCTTTTCAGGATTACTCAGTCATTAATGAAGATGAAAGCTCAAGAAGTAGAGCTAGCTTTGGAAGAAGTTGAAAAAGCAGGAGAAGAACAAGCAAAATTTGAAAATCAACTAAAAACGAAAGTAATGAAACTAGAAGATGAACTCGAGATGGCTCACCATTCTGCAGGTGGACGGGACACTCGGTTTTTACGTGATGAAATTCGCCAACTTGAAAAGCAGTTGGAACAAAAAGACAGAGAATTGGAGGACATAGAAAAGGAATTGAATAAAGAAAAGAAAGTTAATGAACAGTTGGCTCTTCGAAATGAGGAGGCAGAAAATGAAAACAGCAAATTAAGAAGAGAGAACAAACGTCTAAAGAAAAAGAATGAACAGCTTCGTCAGGACATTATTGACTACCAGAAACAAATAGATTCTCAAAGAGAATCGCTTCTATCAAGAAGAGGAGAAGATAGTGACTACCGATCACAATTGTCTAAAAAAAACTATGAGCTTGTTCAATATCTGGATGAAATTCAGACTTTAACAGAAGCTAATGAGAAAATTGAAGTTCAGAATCAAGAAATGAGAAAAAATCTGGAAGAGTCCGTACAGGAAATGGAGAAGATGACTGATGAATATAATAGGATGAAAGCTATTGTGCATCAGACAGATAATATTGTGGACCAGTTAAAAAAAGAAAATGATCACTATCGACTTCAAGTACAGGAACTTACAGATCTTCTGAAAGCAAAAAATGAAGAAGATGATCCAATCATGGTAGCTGTCAATGCCAAAGTAGAAGAATGGAAGTTAATTTTGTCTTCTAAAGATGATGAAATTATTGAATATCAGCAAATGTTACATAATCTAAGAGAGAAACTTAAAAATGCCCAGCTTGATGCTGATAAAAGTAACATTATGGCTCTACAAGAGGGTGTGCAAGAACGAGATAATCAAATTAAGATGCTCACTGAACAAATAGAACAATATACAAAAGAAATGGAAAAAAATACTTTTATTATTGAAGATTTGAAAAATGAGCTCCAAAGAAACAAAGGTGCTTCAGATCTTTCTCAACAGACTCATTATATGAAAATTCAGTCAAAGTTGCAAATTTTAGAAGAGAAAACTAAAGAGGCAGAGAGAACAGCTGAGCTAGCTGAGGGGGATGCTAGAGAAAAGGATAAAGAATTAATTGAGGCTGTGAAGCGATTAAAAGATTATGAATCGGGAGTATATGGTTTAGAAGATGCTGTTATTGAAATAAAGAATTGTAAAAACCAAATTAAAATAAGAGATCAAGACATTGAAGTATTAACCAAGGAGATCAATAAACTTGAGTTGAAGATCAATGATTTCCTTGATGAAAACGAGGCATTGAGAGAGCGTATGGGCCTTGAACCGCAGACGATGATTGATTTAACTGAATTTAGAAATAGTAAACGCTTAAAACAGCAGCAGTACAGAGCTGAAAACCAGATTCTTTTGAAAGAGATTGAAAGTCTAGAGGAAGAACGACTTAATCTGAAAAGAAAAATTCGTCAAATGGCTCAGGATAGAGGAGAAAGAAGTACAAATTCAGGATTAACGACTGAGGATCTGAATTTAACTGAAAACTTTATTCAAGAACATAGAACAGGAGAACAAAAACTGAATTTTGTCAGCCTCAGTATGAATGAAGCACAATCAAAAAATGAATTTCTTTCAAGAGAACTAATTGAAAAAGGAAGAGATTTAGAAAGAAGTAAGACAGTAATAACTAAATTTCAAAATAGATTAAAAGAATTAGTAGAAGAAAATAAGCAACTTGAAGAAGGTATGAAAGAAATATTGCAAGCTATCAAGGAAATGCAGAAAGATCCTGATATTAAGGGAGGAGAAACATCTCTAATTATCCCTAGTCTTGAAAGACTAGTTAATGCTATAGAATCAAAGAATGCGGAAGGAATCTTTGATGCCAGTCTGCATTTGAAAGCCCAAGTTGATCAACTTACTGGAAGGAATGAAGAATTAAGACAAGAGCTTAAAGAATCTCGGAAAGAAGCTATAAATTACTCACAGCAGTTGGCAAAAGCAAATTTAAAGATAGATCATCTTGAGAAAGAAATCAGTCTTCTAAGGCAATCAGAAGGATCTCATGTTGTTTATAAAGGGTTAGACTTACCTGATGGGGTAGCACCATCAAGTGCTAGCATCATTAATTCTCAGAACGAATATTTAATACATCTCTTACAGGAACTAGAAAATAAAGAAAAGAAGCTAAAGAATTTAGAAGATTCTCTTGAAGACTATAACAGAAAATTTGCAGTAATTCGTCATCAACAAAGCTTATTATATAAAGAATATCTGAGTGAAAAGGAGAACTGGAAAACAGAATCTGAAACAATAAAAGAAGAAAAGAGAAAACTTGAGGATCAAATCCAACAAGATGCTATAAAAGTAAAAGAATATAATAATTTGCTCAATGCTCTTCAGATGGATTCAGATGAAATGAAAAAAACACTTTCAGAAAATAGTAGAAAAATCACTGTCTTGCAAGTTAATGAAAAGTCACTTATAAGGCAATATACAACCTTAGTAGAAATGGAACAACAACTTAGAAAAGAAAATGGGAAACAAAAGAATGACTTGATGTCAATGGAGGCTGAAGTCTGTGAAAAAATTGGATGTTTACAAAGATTTAAGGAAATGGCCATTTTCAAGATTGCAGCTCTCCAAAAAGTTATAGATAATAGTGTTTCTTTGTCTGAACTAGAACTGGCCAATAAACAATATAATGAACTGACCGCTAAGTACAGGGACATCTTGCAAAAAGATAATATGCTTGTTCAAAGAACAAATAACTTGGAACACCTAGAGTGTGAAAATGTGTCCTTAAAAGAACAAATTGATTCTATAAATAAAGAACTGGAGATTACCAAGGAAAAACTTCATACTATTGAACAAGCCTGGGAACAAGATACTAAATTAAGAAATGAATCTAACATGGATAAGGCAAAGAAATCAATAACCAACAGTGACATTGTTTCTATTTCAAAAAAAATCACTATGTTGGAAATGAAGGAATTAAATGAAAGGCAGCGGGCTGAACATTGTCAAAAAATGTGTGAACACTTAAGGACTTCATTAAAGCAAATGGAAGAACGTAATTTTGAATTGGAAACCAAATTTGCTGAGCTTACCAAAATCAACTTGGATGCACAGAAGGTGGAACAAATGCTAAGGGATGAATTAGCTGACAGCGTGAGCAAGCCAGTGAGTGATGCTGATAGGCAACGAATTCTAGAATTAGAGAAGAGTGAAATGGAACTGAAAGTTGAAGTGTCAAAACTGAGAGAGATTTCTGATATTGCCAAAAGACAAGTTGAAATTTTGAATACACAGCAACAATCCAGGGAGAAGGAAGTAGAATCACTGAGAATGCAGCTGCTGGACTATCAGGCACAATCTGACGAAAAGGCACTGATTGCCAAGTTGCATCAGCACGTTGTCTCTCTTCAAGTTAGTGAGGCTGCTGCTCTTGGGAAGTTGGAGTCAGTAACATCCAAGCTACAGAAGGTCGAGGCCTACAATTTGCGCTTAGAGCAGAAACTTGACGAGAAAGAGCAGGCTCTCTATTACGCTCGTTCAGAGGGGAGAAACAAAGCAAAACATCTGCGCCAAACAATTCAGTCTCTGCGAAGACAGTTTAGTGGTGCTTTACCCTTGGCACAACAGGAGAAATTCTCTAAAACAATGATTCAACTGCAAAATGACAAGCTGAAGATAATGCAAGAAATGAAAAATTCTCAGCAAGAATATAGAAATATGCAGAACAAAACATTGGAATTGGAATTAAAGTTAAAGGGTCTAGAAGAGTTAACAAGCACGTTAAAGGACGCCAGGGGAGGGCAGAAGGTAATCAATTGGCATATGAAAATAGAAGAACTTCGTCTTCAAGAGCTTAAACTAAATCGAGAATTAGTCAGAGATAAAGAAGAAATAAAATATTTAAATAATATAATATCTGAATATGAACATACAATCAGCAACCTGGAAGAAGAAATTGTTCAACAGAACAAGTTTCATGAAGAACGACAAATGGCCTGGGATCAAAGAGAAGTTGAGCTGGAACGTCAACTCGATATTTTTGAGCATCAGCAAAATGAAATAATAAATGCAGCACAAAAGTTTGAGGAAGCTACAGGATCAATGCCAGACCCTAGTCTGCCCCTTCCAAATCAGCTGGAGATTGCTCTAAGAAAACTCAAGGAGAATATTCGAGTCATCCTAGAAACACAGGCAACTTGCAAAGCACTAGAAGAGAAGCTAAAAGAAAAAGAATCTGCTTTACGGTTAGCAGAGCAAAATATTCTGTCAAGAGACAAAGTAATCAGTGAACTGAGACTTCGATTGCCTGCTGCTACAGAACGAGAAAAACTTATAGCTGAACTAGGCAGAAAAGAGGTGGAACCAACATCTCATCATGCAATTAAAATTGCTCATCAAACCATTGCAAACATGCAAGCAAGGTTAAATCAAAAGGAAGAGGTATTAAAGAAATACCAGCATCTTCTAGAAAAAGCCAGAGAGGAGCAAAGAGAAATTGTTAAGAAGCATGAGGAAGATCTTCATATTCTTCATCATAAATTAGAACTACAGGCTGACAGTTCACTCAGTAAATTCAAACAAACAGCTTGGGATTTAATAAAACAATCTCCTACTCCAGTTCCAACCAACAAGCACTTTATTCGTCTAGCTGAGATGGAACAGACAGTTGCAGAACAAGATCACTCTCTTTCTGAACTTTTAAGCAAACTAAAGAAAGTATCACAAGAGTTAGAGAGACAAAAAGAAATCACGGAATTAAAAATCAAAGAATTTGAAAATATGAAATTACGGCTCCAAGAAAACCATGCAGGTGAAGTGAAAAAAATGAAAACAGAAGTAGAAGATTTAAGATGCCTTCTAGCCCAGTCACAAAAGGAATCACAGAGTTTAAAGTCTGAACTTCAGGCTCAAAAAGAAGCAAATTCAAGAGCTCCAACAACTACAATGAGAAATCTAGTAGATCGGCTAAAGAGCCAGTTGGCCTTGAAAGAGAAACAACAAAAAGCACTTAGTCAAGCACTTTTGGAACTCCGTGCAGAAATGACAGCAGCAGCAGAAGAACACATTATTTCTGTAACTTCTCAGAAAGAGGCAAATCTCAATGTTCAACAGATTGTTGATAGACAAACTAGAGAGCTAAAGTCACAAATTGAAGATTTAAATCAAAATCTTTTAAAATTGAGAGAAGCTCTTAAAACAAGTAAAAACAGAGAAAGCTCACTAACTGATAATTTGAATGATTTAAATAATGAACTGCAAAGAAAACAAAAAGCCTACAATAAAGTACTTAGAGAGAAAGATGGAATTGATCAAGAGAATGATGAACTCAAAAGGCAAATTAAAAGACTAACTAGTGGGTTACAGAGCAAACCTCTAATAGATAATAAACAAAGTTTAATTGAGGAACTTCAAAAGAAAGTTAAAAAACTAGAAAGCCAACTGGAAAGAAAAGTGGATGATGTAGAAGTAAAACCTATGAAAGAAAAGAATGCTAAAGAAGGATTAATTAGGTGGGAAGAAGGTAAAAAATGGCAAAACAAAATAGAGGGAATTCGAAACAAGTTAAAAGAGAAAGAAGGAGAAGTTTATACTCTAACAAAGCAGTTGACTACCTTGAAGGATCTTTTTGCCAAAGCTGATAAAGAGAAACATACTTTGCAGAGGAAACTAAAAACTGGTATGACTGTTGATCAGGTTATTGGAATGAGAGCTTTGGAGTCAGAGAAAGAGTTGGAAGAATTAAAAAAGAGAAATCTTGACTTAGAAAATGACATACTGTGTATGAGGAATCATCAGGCTCTTCCTCGAGATTCTGTTGTAGAAGATTTACGTTTACAAAATAGATACCTTCAAGAAAAACTTAATGCTTTAGAAAAGGAATTTTCAAAGGATGAATATTCTAGGCGTCCAACTTCTGGAATAGAGTCAGGTGATCATTATCAAAAAGAACAAGAGCTACAAAGGGCAAACTTGAAGTTGTCATCTGAAAATATTGAACTGAAATTTCAGCTTGAACAAGCAAATAAAGATTTGCCAAGGCTAAGGAATCAAGTAAGAGATTTGAAGGAAATGTGTGAATTTCTTAAGAAAGAAAAAGCAGAGGTTGAACGGAAACTTAGAGGGTCTGGTAGAAGTGGAAAAACAATCCCAGAACTAGAAAAAACCATTGGCTTAATGAAAAAAGTAGTTGAAAAGGTTCAGAGAGAAAATGAACAGTTGAAAAGAGCATCGGGAATACTGACCAGTGAAAAAATGGCTAACATTGAACAGGAAAATGAGAAATTAAAGGCCGAATTAGAAAAACTTAAAGTTCACCTTGGACATCAGTTGAGCATGCAGTATGAGTCTAAGACTAAAGGCACAGAAAAAGTTGTTGCTGAAAATGAAAGGCTTCGTAAAGAACTTAAAAAGGAAACCGAAGCTGCAGAGAAACTGCGGATAGCCAAGAATAATTTAGAGATACTAAATGAGAAGATGACAGTTCAACTAGAAGATACTGGTAAAAGATTACAGTTAGCAGAATGTAAAGGTCCCCAGCTTGAAGGTGCTGACAGAAAGAGCTGGAAATCAATCGTTGTTACAAGAATGTATGAAACTAAGCTGAAAGAATTGGAAACTGACATTGCCAAAAAGAATCAAACCATTACTGACCTTAAACAGCTTGTAAGAGAAGCAACAGAGAGAGAACAAAAAGTTAAGAAATACACTGAAGACCTTGAACAACAGATTGAGATTCTCAAGCATGTCCCTGAAGATGCTGAGACAAAGGAAGGCCTTAAACGGGAGCTGCAGCTTCTTAGATTAGCCTATAGTCAACTGGATAAAGAAAAAGTGGAATTAATGCATCAGTTAGAAGTAAACAAGGACCAAAGTGGAGCTGAAAGCACCATTCCTGATGCTGATCAATTAAAGGAAACAATAAAAGATCTAGAGACACAGCTCAAAATATCAGATCTAGAAAGGCAGCATTTGAAGGAGGAAATAAGAAAGCTGAAAAAAGAACTAGAAAACTTTGATCCTTCATTTTTTGAAGAAATTGAAGATCTGAAGTATAATTACAAGGAAGAAGTGAAAAAAAATATTCTCTTGGAAGAAAAATTTAAAAAGCTTTCTGAACAGTTTGGAGTTGAATTAACTAGCCCTGTTGCTGCTTCTGAACAGTCTGAAGATGAACAGGAAAGTCCCATTAATTTCCCCATTTATTAA
LOC101697092 kit ligand-like, transcript variant X2
Length: 819 bp Location: 7513024..7456766 Strand: ->XM_004867543.1 ATGAAGCAGAGCACAACTTGGATTATCACTTGTATTTATCTTCAGCTGCTCCTATTTAATCCTCTTGTCAAAACTAAAGAGATCTGCGGGAATCCTGTGACTGATAATGTAAAAGACATCACAAAATTGGTAGCAAATCTTCCAAAAGATTACCTGATAACCCTCAACTATGTCACCGGGATGGATGTTTTGCCTAGTCATTGTTGGTTACGCCAGATGGTAACACAGTTGTCAGTCAGCTTGACTAATCTTCTGGACAAGTTTTCAAATATTTCTGAAGGTTTAAGTAATTACTCTATCATAGACAAACTTGGGAAGATAGTTGATGACCTTGTGGAGTGCATGGAAACCTCATTTAAGAATGTGAAAGAATCCTCTAAGAGGCCTGAACCCAGACTCTTTACTCCTGAAGAATTCTTTAGAATTTTTAACAGATCCATCGATGCCTTCAAGGACTTTATGGTGGCCTCTGAAACTAGTGATTGTGTGGTTTCGTCAACACTGAGCCCCGAGAAAGATTCCAGAGTCAGTGTCACAAAACCATTTATGTTACCCCCTGTTGCAGCCAGCTCCCTTAAGAATGACAGCAGTAGCAGTAATAGCAAGGCTGTAGATTCCATCGGTGACCCCAACCTGCAGTGGGCAGCCATGGCTTTGCCCGCCTTCTTTTCTCTTGTAATTGGCTTTGCTTTTGGAGCCTTATACTGGAAGAAGAAACAACCAAATCTTTCAAGAGCAGGTGAAAATATACAGATTAATGAAGAAGATAATGAGATAAGTATGTTGCAAGAAAAAGAGAGAGAGTTTCAAGAAGTGTAA
Nts neurotensin
>XM_004867536.1 ATGGCCACAGCAGCCCTCATAGTTCACTCACATTCAAAGCCAGCTGAAGGGAAGAGAAGGCTCCAAAGAGAGCCCCCTTCAGTGTCTTTCTGGCTTTCGTGGACTTGGCTTGGTAGAAAACTGAAGGATATAATGGCAGGAATGAAAATCCAGCTGGTCTGCATGATACTCCTGGCTTTCAGCTCCTGGGGGCTATGCTCAGATTCTGAAGAGGAAATGAAAGCATTGGAAGCAGATTTATTGACAAATATGCATACATCAAAGATCAGTAAAGCAAGTGTTCCCTCTTGGAAAATGACCCTGCTGAATGTTTGCAGTCTTATAAATAACCTGAACAGCCAACCTGAGGAAGCAGGAGAGATTCATGAAGAAGAGCTTGTAACAAGAAGGAAACTCCCCATTGTTTTAGATGGCTTTAGCTTGGAAGCAATGCTGACAATATACCAGCTGCAAAAAATCTGTCACAGCAGGGCCTTTCAACACTGGGAGATGATTCAGGAAGATATTCTTGAGAATGGAAATGACAAAAATGAGAAGGAAGAAATCATAAAGAGAAAAATCCCTTACATTCTGAAAAGACAGCTGTATGAAAATAAATCCAGAAGACCTTATATACTCAAAAGAAGTTCTTACTACTACTAA
Myf6 myogenic factor 6 (herculin)
>XM_004867518.1 ATGATGATGGACCTTTTCGAAACTGGCTCCTATTTCTTCTACTTGGACGGGGAAAATGTTACTCTGCAGCCCTTAGAAGTGGCAGAGGGCTCTCCTTTGTATCCAGGGAGTGATGGTACCCTGTCCCCCTGCCAGGACCAAATACCCCCTGAAGCCGGGAGCGACAGCAGTGGAGAAGAACACGTACTGGCGCCCCCCGGCCTGCAGCCTCCCCACTGCCCGGGCCAGTGTCTCATCTGGGCTTGCAAGACCTGTAAGAGAAAATCTGCCCCCACCGACCGGCGGAAAGCCGCCACTCTGCGCGAGAGGAGAAGGCTCAAGAAAATCAACGAGGCCTTCGAGGCGCTGAAGCGGAGGACTGTGGCCAACCCTAACCAGAGGCTGCCCAAGGTGGAGATTCTGCGGAGCGCCATCACCTACATTGAAAGACTGCAGGACCTGCTGCACCGGCTGGATCAGCAGGAGAAAATGCAGGAGCTGGGGGTGGACCCCTTCAGCTACAGGCCCAAGCAAGAAATCCTTGAGGGTGCGGATTTCCTGCGCACCTGCAGCTCCCAGTGGCCAAGTGATCATTCCAGGGGGCTGGTGATAACTGCTAAGGAAGGAGGAGCAAGCACCGATTCCTCAGCCTCGAGCAGCCTTCGATGCCTTTCTTCGATCGTGGACAGTATTTCCTCGGAGGAGCGCAAGCTCCCGTGCTTGGACGAGGTGGTGGAGAAGTAA
Ppfia2 protein tyrosine phosphatase, receptor type, f polypeptide (PTPRF), interacting protein (liprin), alpha 2, transcript variant X4
Length: 3459 bp Location: 961920..627742 Strand: ->XM_004867526.1 ATGATTTTCTCGGATATGAACACCGTTTCTGGCTCCCCTAAAGTGCATCCTCCTAATGGGACCCGGTTTTACACTTTTCAAGAATTTGCTGCACTGACAAAAGAATTAAATGCCTGCAGGGAACAACTTCTGGAAAAAGAAGAAGAAATTTCTGAACTCAAGGCTGAAAGAAACAACACAAGACTGTTACTGGAACATTTGGAGTGCCTTGTGTCACGTCATGAAAGGTCATTAAGAATGACAGTGGTAAAACGGCAAGCCCAGTCCCCCTCGGGAGTATCTAGTGAAGTTGAAGTTCTCAAGGCACTGAAATCTTTGTTTGAGCACCACAAAGCCTTGGATGAAAAGATTATTGCCTTGCGTGAGCAAAATGTTCATATACAAAGAAAAATGGTATCAAGTGAGGGATCCACAGAGTCTGAACATCTTGAAGGGATGGAACCTGGCCAGAAAGTCCATGAAAAGCGTTTGTCCAATGGTTCCATAGACTCAACTGATGACACTAGTCAGATAGTGGAACTACAAGAACTACTCGAAAAGCAAAACTATGAAATGGTTCAAATGAAAGAACGCTTAGCTGCTCTTTCATCACGAGTGGGAGAAGTGGAACAGGAAGCAGAGACAGCAAGAAAAGATCTCATTAAAACAGAAGAAATGAATACTAAATATCAAAGGGATATTCGGGAGGCCATGGCACAGAAGGAAGATATGGAAGAAAGAATCACAACCCTTGAGAAGCGTTACCTCAGTGCTCAGAGAGAATCTACCTCCATACATGACATGAATGATAAACTAGAAAATGAGTTGGCAAACAAAGAAGCCATCCTACGGCAGATGGAAGAGAAAAACAGACAGTTACAAGAGCGTCTTGAACTGGCTGAGCAAAAGTTGCAGCAGACTATGAGGAAGGCTGAAACATTACCTGAAGTAGAGGCTGAACTGGCTCAGAGAATTGCAGCCCTAACAAAGGCTGAAGAAAGACATGGAAATATTGAAGAGCGTATGAGACATCTAGAAGGTCAACTTGAGGAAAAGAATCAAGAACTTCAAAGAGCTAGGCAAAGAGAGAAGATGAATGAAGAGCATAATAAAAGATTGTCCGATACTGTGGACAGACTTCTGACTGAATCCAATGAACGCTTACAGCTGCATTTGAAGGAAAGAATGGCTGCTCTAGAAGAGAAGAATGTTTTAATCCAAGAATCAGAAACTTTCAGAAAGAATCTTGAAGAATCTTTACATGATAAGGAAAGATTAGCAGAAGAAATTGAAAAACTGAGATCTGAACTTGACCAACTGAAAATGAGAACTGGCTCTTTAATTGAACCCACAATATCAAGAACTCATCTAGACACTTCAGCTGAGTTGCGGTACTCAGTTGGATCTCTAGTGGACAGCCAGTCTGATTACAGGACAACTAAAGTGATAAGAAGACCAAGGAGAGGCCGTATGGGTGTGAGAAGAGATGAGCCAAAGGTGAAATCTCTTGGGGATCATGAATGGAATAGAACTCAACAAATTGGAGTCCTAAGTAGTCACCATTTTGAAAGTGACACTGAAATGTCTGATATTGATGATGATGACAGAGAAACAATTTTTAGCTCAATGGATCTTCTCTCTCCAAGTGGTCATTCTGATGCCCAGACCCTAGCTATGATGCTTCAGGAACAATTGGATGCCATCAACAAAGAAATAAGGCTAATTCAAGAAGAAAAAGAATCTACCGAGTTGCGCGCTGAAGAAATTGAGAATAGAGTGGCGAGTGTGAGCTTGGAAGGCCTGAATTTGGCAAGGGTCCACCCAGGCACGTCCATCACTGCCTCTGTTACGGCGTCGTCGCTGGCCAGTTCGTCGCCCCCCAGTGGACACTCGACGCCAAAGCTCACCCCGCGAAGTCCTGCCAGGGAAATGGATCGAATGGGAGTCATGACGCTGCCAAGTGATCTAAGGAAACATCGAAGAAAGATTGCAGTGGTAGAAGAAGATGGTCGGGAGGATAAAGCAACCATTAAATGTGAAACTTCTCCTCCCCCCACACCCAGAGCCATCAGAATGACTCACACCCTCCCCTCTTCCTACCACAATGAAGCCAGAAGTAGTTTATCTGCCTCTCTCGAGCCAGAAAGCCTTGGGCTTGGAAGTGCCAATAGCAGCCAAGACTCTCTTCACAAAGCCCCCAAGAAGAAAGGAATCAAGTCTTCAATAGGACGCTTATTTGGTAAAAAAGAGAAAGCTCGTCTTGGACAACTCCGAGGCTTTATGGAGACGGAAGCTGCAGCTCAGGAATCTCTGGGATTAGGCAAACTTGGAACACAAGCTGAAAAGGACAGAAGACTTAAAAAAAAGCATGAACTTCTTGAAGAAGCTCGGAGGAAAGGATTGCCTTTTGCCCAGTGGGATGGACCCACTGTGGTGGCTTGGCTAGAGCTCTGGTTGGGAATGCCTGCCTGGTATGTGGCAGCTTGCAGAGCCAATGTGAAAAGTGGTGCCATCATGTCTGCTCTATCAGACACTGAGATCCAGAGAGAAATAGGCATCAGCAATCCTCTGCATCGCTTAAAACTCCGATTAGCCATCCAGGAGATGGTTTCCCTCACAAGCCCTTCAGCTCCTCCAACATCTCGAACTCCTTCAGGCAACGTTTGGGTGACCCATGAAGAAATGGAAAATCTTGCAGCTCCAGCCAAAACGAAAGAATCTGAGGAAGGAAGCTGGGCCCAGACCCTGGCTTATGGAGATATGAACCATGAATGGATTGGAAATGAGTGGCTTCCCAGCCTGGGGTTACCTCAATACAGAAGTTACTTTATGGAATGCTTGGTTGATGCAAGAATGTTAGATCACCTAACAAAGAAAGATCTTCGTGTTCATTTAAAAATGGTGGATAGTTTCCATCGAACAAGTTTACAGTATGGAATCATGTGCTTAAAAAGGTTGAATTATGACAGAAAAGAACTAGAGAGAAGACGAGAAGCAAGCCAACATGAAATAAAAGATGTGTTGGTGTGGAGCAATGATCGAGTTATTCGCTGGATACAAGCAATTGGACTTAGAGAATATGCAAATAATATTCTTGAAAGTGGTGTGCATGGCTCACTTATAGCCCTGGATGAGAACTTTGACTACAGCAGCTTAGCTTTGTTACTACAAATTCCAACACAGAACACCCAGGCCCGGCAGATACTTGAAAGGGAATACAATAACCTGTTGGCCCTGGGAACAGAACGGCGGCTGGATGAAAGTGATGACAAGAATTTCCGACGTGGATCAACCTGGAGAAGGCAATTTCCTCCACGTGAAGTCCACGGGATCAGCATGATGCCTGGGTCCTCAGAAACATTACCAGCTGGATTTAGGTTAACCACAACATCGGGGCAGTCGAGGAAAATGACAACAGATGTTGCTTCATCAAGACTGCAGAGGTTAGACAACTCCACTGTTCGCACATACTCATGTTGA
Ppfia2 protein tyrosine phosphatase, receptor type, f polypeptide (PTPRF), interacting protein (liprin), alpha 2, transcript variant X3
Length: 3471 bp Location: 961920..627742 Strand: ->XM_004867525.1 ATGATTTTCTCGGATATGAACACCGTTTCTGGCTCCCCTAAAGTGCATCCTCCTAATGGGACCCGGTTTTACACTTTTCAAGAATTTGCTGCACTGACAAAAGAATTAAATGCCTGCAGGGAACAACTTCTGGAAAAAGAAGAAGAAATTTCTGAACTCAAGGCTGAAAGAAACAACACAAGACTGTTACTGGAACATTTGGAGTGCCTTGTGTCACGTCATGAAAGGTCATTAAGAATGACAGTGGTAAAACGGCAAGCCCAGTCCCCCTCGGGAGTATCTAGTGAAGTTGAAGTTCTCAAGGCACTGAAATCTTTGTTTGAGCACCACAAAGCCTTGGATGAAAAGGTAAGGGAGCGACTGAGGGTTTCTTTAGAAAGAGTCTCTGCACTGGAAGAAGAACTAGCTGCTGCTAATCAGGAGATTATTGCCTTGCGTGAGCAAAATGTTCATATACAAAGAAAAATGGTATCAAGTGAGGGATCCACAGAGTCTGAACATCTTGAAGGGATGGAACCTGGCCAGAAAGTCCATGAAAAGCGTTTGTCCAATGGTTCCATAGACTCAACTGATGACACTAGTCAGATAGTGGAACTACAAGAACTACTCGAAAAGCAAAACTATGAAATGGTTCAAATGAAAGAACGCTTAGCTGCTCTTTCATCACGAGTGGGAGAAGTGGAACAGGAAGCAGAGACAGCAAGAAAAGATCTCATTAAAACAGAAGAAATGAATACTAAATATCAAAGGGATATTCGGGAGGCCATGGCACAGAAGGAAGATATGGAAGAAAGAATCACAACCCTTGAGAAGCGTTACCTCAGTGCTCAGAGAGAATCTACCTCCATACATGACATGAATGATAAACTAGAAAATGAGTTGGCAAACAAAGAAGCCATCCTACGGCAGATGGAAGAGAAAAACAGACAGTTACAAGAGCGTCTTGAACTGGCTGAGCAAAAGTTGCAGCAGACTATGAGGAAGGCTGAAACATTACCTGAAGTAGAGGCTGAACTGGCTCAGAGAATTGCAGCCCTAACAAAGGCTGAAGAAAGACATGGAAATATTGAAGAGCGTATGAGACATCTAGAAGGTCAACTTGAGGAAAAGAATCAAGAACTTCAAAGAGCTAGGCAAAGAGAGAAGATGAATGAAGAGCATAATAAAAGATTGTCCGATACTGTGGACAGACTTCTGACTGAATCCAATGAACGCTTACAGCTGCATTTGAAGGAAAGAATGGCTGCTCTAGAAGAGAAGAATGTTTTAATCCAAGAATCAGAAACTTTCAGAAAGAATCTTGAAGAATCTTTACATGATAAGGAAAGATTAGCAGAAGAAATTGAAAAACTGAGATCTGAACTTGACCAACTGAAAATGAGAACTGGCTCTTTAATTGAACCCACAATATCAAGAACTCATCTAGACACTTCAGCTGAGTTGCGGTACTCAGTTGGATCTCTAGTGGACAGCCAGTCTGATTACAGGACAACTAAAGTGATAAGAAGACCAAGGAGAGGCCGTATGGGTGTGAGAAGAGATGAGCCAAAGGTGAAATCTCTTGGGGATCATGAATGGAATAGAACTCAACAAATTGGAGTCCTAAGTAGTCACCATTTTGAAAGTGACACTGAAATGTCTGATATTGATGATGATGACAGAGAAACAATTTTTAGCTCAATGGATCTTCTCTCTCCAAGTGGTCATTCTGATGCCCAGACCCTAGCTATGATGCTTCAGGAACAATTGGATGCCATCAACAAAGAAATAAGGCTAATTCAAGAAGAAAAAGAATCTACCGAGTTGCGCGCTGAAGAAATTGAGAATAGAGTGGCGAGTGTGAGCTTGGAAGGCCTGAATTTGGCAAGGGTCCACCCAGGCACGTCCATCACTGCCTCTGTTACGGCGTCGTCGCTGGCCAGTTCGTCGCCCCCCAGTGGACACTCGACGCCAAAGCTCACCCCGCGAAGTCCTGCCAGGGAAATGGATCGAATGGGAGTCATGACGCTGCCAAGTGATCTAAGGAAACATCGAAGAAAGATTGCAGTGGTAGAAGAAGATGGTCGGGAGGATAAAGCAACCATTAAATGTGAAACTTCTCCTCCCCCCACACCCAGAGCCATCAGAATGACTCACACCCTCCCCTCTTCCTACCACAATGAAGCCAGAAGTAGTTTATCTGCCTCTCTCGAGCCAGAAAGCCTTGGGCTTGGAAGTGCCAATAGCAGCCAAGACTCTCTTCACAAAGCCCCCAAGAAGAAAGGAATCAAGTCTTCAATAGGACGCTTATTTGGTAAAAAAGAGAAAGCTCGTCTTGGACAACTCCGAGGCTTTATGGAGACGGAAGCTGCAGCTCAGGAATCTCTGGGATTAGGCAAACTTGGAACACAAGCTGAAAAGGACAGAAGACTTAAAAAAAAGCATGAACTTCTTGAAGAAGCTCGGAGGAAAGGATTGCCTTTTGCCCAGTGGGATGGACCCACTGTGGTGGCTTGGCTAGAGCTCTGGTTGGGAATGCCTGCCTGGTATGTGGCAGCTTGCAGAGCCAATGTGAAAAGTGGTGCCATCATGTCTGCTCTATCAGACACTGAGATCCAGAGAGAAATAGGCATCAGCAATCCTCTGCATCGCTTAAAACTCCGATTAGCCATCCAGGAGATGGTTTCCCTCACAAGCCCTTCAGCTCCTCCAACATCTCGAACTAAAGAATCTGAGGAAGGAAGCTGGGCCCAGACCCTGGCTTATGGAGATATGAACCATGAATGGATTGGAAATGAGTGGCTTCCCAGCCTGGGGTTACCTCAATACAGAAGTTACTTTATGGAATGCTTGGTTGATGCAAGAATGTTAGATCACCTAACAAAGAAAGATCTTCGTGTTCATTTAAAAATGGTGGATAGTTTCCATCGAACAAGTTTACAGTATGGAATCATGTGCTTAAAAAGGTTGAATTATGACAGAAAAGAACTAGAGAGAAGACGAGAAGCAAGCCAACATGAAATAAAAGATGTGTTGGTGTGGAGCAATGATCGAGTTATTCGCTGGATACAAGCAATTGGACTTAGAGAATATGCAAATAATATTCTTGAAAGTGGTGTGCATGGCTCACTTATAGCCCTGGATGAGAACTTTGACTACAGCAGCTTAGCTTTGTTACTACAAATTCCAACACAGAACACCCAGGCCCGGCAGATACTTGAAAGGGAATACAATAACCTGTTGGCCCTGGGAACAGAACGGCGGCTGGATGAAAGTGATGACAAGAATTTCCGACGTGGATCAACCTGGAGAAGGCAATTTCCTCCACGTGAAGTCCACGGGATCAGCATGATGCCTGGGTCCTCAGAAACATTACCAGCTGGATTTAGGTTAACCACAACATCGGGGCAGTCGAGGAAAATGACAACAGATGTTGCTTCATCAAGACTGCAGAGGTTAGACAACTCCACTGTTCGCACATACTCATGTTGA
Lin7a lin-7 homolog A (C. elegans), transcript variant X1
>XM_004867520.1 ATGCTGAAGCCGAGCGTCACTTCGGCTCCCACGGCAGACATGGCGACACTGACCGTGGTCCAGCCGCTCACCCTGGACAGAGATGTTGCAAGAGCAATTGAATTACTGGAAAAACTACAGGAATCTGGAGAAGTACCAGTGCACAAGCTACAGTCCCTCAAAAATGTGCTTCAGAGTGAGTTTTGTACAGCAATTCGAGAGGTATATCAATATATGCATGAAACGATAACTGTTAATGGCTGTCCTGAATTCCGTGCAAGGGCCACAGCAAAGGCAACAGTTGCAGCTTTTGCAGCTAGCGAAGGCCACTCCCACCCTCGTGTAGTCGAACTGCCAAAGACTGATGAAGGCCTTGGTTTTAATGTGATGGGAGGAAAAGAGCAAAATTCCCCAATTTATATCTCTCGCATCATTCCTGGAGGGGTGGCTGAAAGACACGGAGGACTCAAAAGAGGAGACCAGCTGCTCTCAGTGAATGGAGTGAGCGTGGAAGGAGAGCACCATGAGAAAGCTGTAGAACTACTCAAGGCTGCTAAGGACAGTGTCAAGTTGGTGGTTAGATACACCCCAAAAGTGCTGGAAGAAATGGAGGCTCGCTTTGAAAAGCTACGGACAGCCCGACGTCGACAGCAGCAGCAATTGCTCATTCAGCAGCAGCAACAGCAACAACAGCAACAAACACAACAAAACCACATGTCATAG
Lin7a lin-7 homolog A (C. elegans), transcript variant X2
Length: 336 bp Location: 155277..104948 Strand: ->XM_004867521.1 ATGGGAGGAAAAGAGCAAAATTCCCCAATTTATATCTCTCGCATCATTCCTGGAGGGGTGGCTGAAAGACACGGAGGACTCAAAAGAGGAGACCAGCTGCTCTCAGTGAATGGAGTGAGCGTGGAAGGAGAGCACCATGAGAAAGCTGTAGAACTACTCAAGGCTGCTAAGGACAGTGTCAAGTTGGTGGTTAGATACACCCCAAAAGTGCTGGAAGAAATGGAGGCTCGCTTTGAAAAGCTACGGACAGCCCGACGTCGACAGCAGCAGCAATTGCTCATTCAGCAGCAGCAACAGCAACAACAGCAACAAACACAACAAAACCACATGTCATAG
LOC101718436 PREDICTED: Heterocephalus glaber uncharacterized LOC101718436 (LOC101718436), misc_RNA.
Length: 486 bp>XR_206197.1 GGAGGCTGGAAGGCGGCGGTGGAGGAGAAGAAAGCTCGGGTGGGTTGGGAGCCAGATGGAGACGCAACTGTTCGCGGCGGCGGATCTTCAGACGCCACGCAGCCGAGCAGGTAATGGAAGTAGACTTTGGTTAACTTCAGCAAAAGTGAAATTTACAGAAACATTTCAAGAACATGTGAAATAAAATGAGGATGAATCTGGCTTTAGCTGAATAAACCAGGAAGCTCCCTTGGGTCAAAACTCCACAACCATGGACATGTTCGCTAAGGATCACAGATCCACACTGGAAAAGCTCCTGATCTTAATTGTCCTTCTACATCTGAGATGATTAAGATTTAGTTCTTGTGCCATACTTAAAGGCACTCTTCTATCCCTTCTCCACTGCCCTTCTCCTGAGAAATAGCTGATTCAAGTTACTTCCCTTTTCTATGGCTGCTGGATTTCAAGACAAAGCTTCCAGAATGACTCAAAACTACATGGCTACCA
Alx1 ALX homeobox 1
>XM_004867533.1 ATGGAGTTTCTCAGCGAGAAGTTCGCCCTGAAGAGCCTGCCAAGTAAGAACACTGACTTTTACATGGGCGCCGGAGGCGCGTTGGAGCACGTTATGGAGACGCTGGACAATGAGTCCTTTTACAGCAAAGCGTCGGCCGGCAAATGCGTGCAGGCCTTCGGGCCCCTGCCCCGAGCCGAGCATCACGTGCGCCTGGAGAGGACCTCGCCCTGTCAGGACGGCAGCGTGAATTATGGGATCACCAAAGTCGAAGGACAACAACCACTTCACACCGAACTGAACAGAGCAATGGACAACTGCAACAGTCTCCGGATGTCTCCCGGGAAAGGAATGCCAGAGAAGGGAGAAATGGATGAACTTGGGGATAAATGTGACAGCAATGTATCCAGCAGTAAAAAGCGGAGACACCGAACCACCTTCACCAGTTTGCAGCTGGAAGAACTAGAAAAGGTCTTTCAGAAAACCCATTATCCCGACGTCTATGTCAGAGAACAGCTTGCTCTGAGAACAGAGCTCACTGAGGCCAGGGTCCAGGTGTGGTTTCAAAATCGAAGAGCCAAGTGGAGAAAAAGAGAACGTTATGGCCAAATACAACAAGCTAAAAGCCACTTTGCAGCCACCTATGATATATCAGTTTTGCCAAGGACTGACAGCTACCCACAGATTCAGAACAATTTGTGGGCAGGAAATGCAAGTGGCGGTTCTGTGGTTACTTCATGCATGTTACCACGTGACACTTCCTCCTGTATGACACCTTATTCTCACTCACCTCGGACAGATTCCAGTTACACAGGGTTTTCAAACCACCAGAATCAGTTCAGCCACATGCCCCTCAACAATTTTTTCACTGACTCTCTTCTTACCGGGGCTACCAATGGACATGCATTTGAAACAAAGCCAGAGTTTGAAAGGAGATCTTCCAGTATTGCAGTTCTTCGAATGAAAGCCAAGGAGCACACCGCCAATATTTCATGGGCCATGTAA
Acss3 acyl-CoA synthetase short-chain family member 3
>XM_004867522.1 ATGAAGCCGTCTTGGCTGCAGTGCCGCAAAGTCACCGGCGCCGGGGCACTCGGGGGGCCCCTGCCCGGGTCCTCTTCGGCCCGAGGAGCCGGTGTAGCCCTCAGGGCTTTGGTAGCCCCGGGCCCGCGGGGCGCTCTCGGGGGCCGGGGCTACCGAGCGCTGTCCTCTGGGAGCTGCGAGTACAAGACCCACTTTGCGGCCTCGGTGGCGGACCCCGAGAGGTTCTGGGGCAAAGCTGCTGAGCAGATCAGCTGGTACAAGCCCTGGACCAAAACGCTGGAGAACAGACACCCGTCCTCCACCAGCTGGTTTGTGGAGGGAATGCTTAACATTTGTTATAATGCCATTGATCGTCATATTGAAAATGGTAGAGGGGATAAGATTGCTATCATCTATGACAGTCCCGTTACAAATACTAAAGAAACTATCACCTATAAAGAAGTCCTGGAGCAGGTCTCTAAACTAGCTGGTGTTTTGGTCAAGTATGGTATCAAAAAAGGAGACACTGTGGTCATCTACATGCCCATGATCCCACAAGCAATGTATACCATGCTGGCATGTGCAAGGATAGGAGCTATCCACAGCCTCATATTCGGGGGATTTGCATCTAAAGAACTAAGTGGTCGCATCGATCATTCAAAGCCCAAGGTGGTTGTTACAGCCTCATTTGGCATTGAACCTGGACGGAAGGTAGAATACGTACCACTTTTAGAAGAAGCCCTAAGAATAGGACAACACAAGCCAGACAAAGTTCTCATTTATAATCGTCCAAATATGGAGGCGGTTCCTTTGGTGCCAGGCCGTGATCTTGATTGGGAAGAAGAAATGGCAAAAGCCCAGTCACATGACTGTGTTCCTGTGCTCTCAGAGCATCCTCTGTATATTCTTTACACGTCTGGAACAACTGGGTTACCTAAGGGTGTGGTCAGACCCACTGGAGGATATGCTGTAATGCTAAACTGGACGATGTCTTCCATATACGGACTTAAACCTGGAGAGGTGTGGTGGGCAGCTTCTGACTTAGGCTGGGTTGTTGGACATTCCTACATCTGCTATGGACCTCTCCTGCATGGGAACACTACAGTTTTATATGAAGGGAAGCCTGTGGGAACACCAGATGCTGGCGCTTATTTCCGTGTGCTTGCAGAGTATGGAGTTGCTGCCTTGTTTACAGCACCTACTGCAATTAGATCAATCCGTCAACAGGACCCTGGGGCAGCCCTGGGGAAGCAGTACTCTCTGACAAGGTTCAAAACATTATTTGTGGCTGGAGAACGATGTGATGTGGAGACGCTGGAATGGTCCAAGAAGGTCTTCAGAGTACCTGTCCTAGATCATTGGTGGCAAACTGAGACCGGATCCCCAATTACAGCATCATGTGTTGGACTAGGTAACTCTAAAACACCTCCACCAGGGCAAGCAGGAAAATCTGTTCCAGGATATAATGTTATGATTTTGGATGACAACATGCAAAAATTGAAGGCTCGATGCTTAGGAAATATTGTGGTAAAGTTGCCATTACCACCGGGGGCTTTTTCAGGACTCTGGAAGAATCAGGAAGCGTTCAAGCATTTATATTTTGAAAAATTTCCTGGATACTATGACACTATGGATGCTGGTTACATGGATGAAGAAGGCTATGTGTATGTTATGTCTCGAGTTGATGATGTCATAAATGTTGCAGGTCACAGGATTTCTGCTGGTGCCATTGAAGAGTCTGTCCTTTCCCATGGTACTGTTGAAGACTGCGCTGTGGTTGGCAAGGAAGATCCTTTGAAAGGTCATGTTCCCTTAGCAATCTGTGTGTTGAAGAAGGGTATAAATGCAACAGAGAAACAAGTTTTAGAAGAAATTGTGAAACATGTTAGACAGAGCATTGGCCCTGTGGCTGCTTTTCGAAATGCAGTGTTTGTTAAACAGTTGCCCAAAACCAGATCTGGCAAAATTCCTCGATCTATTCTATCTGCTTTAGTAAATGGCAAGGCATATAAGATAACTCCCACAATTGAAGACCCCAGCATTTTTGGACACATAGAAGAAGTGCTGAAAAAGGCATCATGA
Ppfia2 protein tyrosine phosphatase, receptor type, f polypeptide (PTPRF), interacting protein (liprin), alpha 2, transcript variant X1
Length: 3756 bp Location: 1115334..627742 Strand: ->XM_004867523.1 ATGATGTGTGAAGTGATGCCCACGATTAACGAGGATACCCCAATGAGCCAAAGGGGGTCCCAAAGCAGTGGCTCGGACTCAGACTCCCATTTTGAGCAACTGATGGTAAATATGCTGGACGAAAGGGATCGTCTTCTAGACACCCTTCGAGAGACCCAGGAAAGCCTGTCACTTGCCCAGCAGAGACTGCAGGATGTCATCTATGACAGAGACTCACTCCAGAGACAGCTCAATTCAGCCCTGCCACAGGATAGCGAATCACTAACAGGAGGGCTGACTGGTTCTAAGGGGGCGGATCCACCGGAATTTGCTGCACTGACAAAAGAATTAAATGCCTGCAGGGAACAACTTCTGGAAAAAGAAGAAGAAATTTCTGAACTCAAGGCTGAAAGAAACAACACAAGACTGTTACTGGAACATTTGGAGTGCCTTGTGTCACGTCATGAAAGGTCATTAAGAATGACAGTGGTAAAACGGCAAGCCCAGTCCCCCTCGGGAGTATCTAGTGAAGTTGAAGTTCTCAAGGCACTGAAATCTTTGTTTGAGCACCACAAAGCCTTGGATGAAAAGGTAAGGGAGCGACTGAGGGTTTCTTTAGAAAGAGTCTCTGCACTGGAAGAAGAACTAGCTGCTGCTAATCAGGAGATTATTGCCTTGCGTGAGCAAAATGTTCATATACAAAGAAAAATGGTATCAAGTGAGGGATCCACAGAGTCTGAACATCTTGAAGGGATGGAACCTGGCCAGAAAGTCCATGAAAAGCGTTTGTCCAATGGTTCCATAGACTCAACTGATGACACTAGTCAGATAGTGGAACTACAAGAACTACTCGAAAAGCAAAACTATGAAATGGTTCAAATGAAAGAACGCTTAGCTGCTCTTTCATCACGAGTGGGAGAAGTGGAACAGGAAGCAGAGACAGCAAGAAAAGATCTCATTAAAACAGAAGAAATGAATACTAAATATCAAAGGGATATTCGGGAGGCCATGGCACAGAAGGAAGATATGGAAGAAAGAATCACAACCCTTGAGAAGCGTTACCTCAGTGCTCAGAGAGAATCTACCTCCATACATGACATGAATGATAAACTAGAAAATGAGTTGGCAAACAAAGAAGCCATCCTACGGCAGATGGAAGAGAAAAACAGACAGTTACAAGAGCGTCTTGAACTGGCTGAGCAAAAGTTGCAGCAGACTATGAGGAAGGCTGAAACATTACCTGAAGTAGAGGCTGAACTGGCTCAGAGAATTGCAGCCCTAACAAAGGCTGAAGAAAGACATGGAAATATTGAAGAGCGTATGAGACATCTAGAAGGTCAACTTGAGGAAAAGAATCAAGAACTTCAAAGAGCTAGGCAAAGAGAGAAGATGAATGAAGAGCATAATAAAAGATTGTCCGATACTGTGGACAGACTTCTGACTGAATCCAATGAACGCTTACAGCTGCATTTGAAGGAAAGAATGGCTGCTCTAGAAGAGAAGAATGTTTTAATCCAAGAATCAGAAACTTTCAGAAAGAATCTTGAAGAATCTTTACATGATAAGGAAAGATTAGCAGAAGAAATTGAAAAACTGAGATCTGAACTTGACCAACTGAAAATGAGAACTGGCTCTTTAATTGAACCCACAATATCAAGAACTCATCTAGACACTTCAGCTGAGTTGCGGTACTCAGTTGGATCTCTAGTGGACAGCCAGTCTGATTACAGGACAACTAAAGTGATAAGAAGACCAAGGAGAGGCCGTATGGGTGTGAGAAGAGATGAGCCAAAGGTGAAATCTCTTGGGGATCATGAATGGAATAGAACTCAACAAATTGGAGTCCTAAGTAGTCACCATTTTGAAAGTGACACTGAAATGTCTGATATTGATGATGATGACAGAGAAACAATTTTTAGCTCAATGGATCTTCTCTCTCCAAGTGGTCATTCTGATGCCCAGACCCTAGCTATGATGCTTCAGGAACAATTGGATGCCATCAACAAAGAAATAAGGCTAATTCAAGAAGAAAAAGAATCTACCGAGTTGCGCGCTGAAGAAATTGAGAATAGAGTGGCGAGTGTGAGCTTGGAAGGCCTGAATTTGGCAAGGGTCCACCCAGGCACGTCCATCACTGCCTCTGTTACGGCGTCGTCGCTGGCCAGTTCGTCGCCCCCCAGTGGACACTCGACGCCAAAGCTCACCCCGCGAAGTCCTGCCAGGGAAATGGATCGAATGGGAGTCATGACGCTGCCAAGTGATCTAAGGAAACATCGAAGAAAGATTGCAGTGGTAGAAGAAGATGGTCGGGAGGATAAAGCAACCATTAAATGTGAAACTTCTCCTCCCCCCACACCCAGAGCCATCAGAATGACTCACACCCTCCCCTCTTCCTACCACAATGAAGCCAGAAGTAGTTTATCTGCCTCTCTCGAGCCAGAAAGCCTTGGGCTTGGAAGTGCCAATAGCAGCCAAGACTCTCTTCACAAAGCCCCCAAGAAGAAAGGAATCAAGTCTTCAATAGGACGCTTATTTGGTAAAAAAGAGAAAGCTCGTCTTGGACAACTCCGAGGCTTTATGGAGACGGAAGCTGCAGCTCAGGAATCTCTGGGATTAGGCAAACTTGGAACACAAGCTGAAAAGGACAGAAGACTTAAAAAAAAGCATGAACTTCTTGAAGAAGCTCGGAGGAAAGGATTGCCTTTTGCCCAGTGGGATGGACCCACTGTGGTGGCTTGGCTAGAGCTCTGGTTGGGAATGCCTGCCTGGTATGTGGCAGCTTGCAGAGCCAATGTGAAAAGTGGTGCCATCATGTCTGCTCTATCAGACACTGAGATCCAGAGAGAAATAGGCATCAGCAATCCTCTGCATCGCTTAAAACTCCGATTAGCCATCCAGGAGATGGTTTCCCTCACAAGCCCTTCAGCTCCTCCAACATCTCGAACTCCTTCAGGCAACGTTTGGGTGACCCATGAAGAAATGGAAAATCTTGCAGCTCCAGCCAAAACGAAAGAATCTGAGGAAGGAAGCTGGGCCCAGACCCTGGCTTATGGAGATATGAACCATGAATGGATTGGAAATGAGTGGCTTCCCAGCCTGGGGTTACCTCAATACAGAAGTTACTTTATGGAATGCTTGGTTGATGCAAGAATGTTAGATCACCTAACAAAGAAAGATCTTCGTGTTCATTTAAAAATGGTGGATAGTTTCCATCGAACAAGTTTACAGTATGGAATCATGTGCTTAAAAAGGTTGAATTATGACAGAAAAGAACTAGAGAGAAGACGAGAAGCAAGCCAACATGAAATAAAAGATGTGTTGGTGTGGAGCAATGATCGAGTTATTCGCTGGATACAAGCAATTGGACTTAGAGAATATGCAAATAATATTCTTGAAAGTGGTGTGCATGGCTCACTTATAGCCCTGGATGAGAACTTTGACTACAGCAGCTTAGCTTTGTTACTACAAATTCCAACACAGAACACCCAGGCCCGGCAGATACTTGAAAGGGAATACAATAACCTGTTGGCCCTGGGAACAGAACGGCGGCTGGATGAAAGTGATGACAAGAATTTCCGACGTGGATCAACCTGGAGAAGGCAATTTCCTCCACGTGAAGTCCACGGGATCAGCATGATGCCTGGGTCCTCAGAAACATTACCAGCTGGATTTAGGTTAACCACAACATCGGGGCAGTCGAGGAAAATGACAACAGATGTTGCTTCATCAAGACTGCAGAGGTTAGACAACTCCACTGTTCGCACATACTCATGTTGA
LOC101721237 thyroid transcription factor 1-associated protein 26-like
Length: 717 bp Location: 1693493..1687419 Strand: ->XM_004867530.1 ATGGCGCCAGTGAGGCCGGAGGCGAAGCTGCGGAATAGAGGTTTGGATTCGCGAGGCGAGGGGGCATCTCAAGTCGGATTCAAGAATAAGAATGTGCAGCGCAGGACTTGGTGGCCTAACCATCCACAGGCCTTCGTGGGAAGCGTTCGCGAGGGACAAGGCTTTGCATTTCGGAGAAAACTGAAGATTCAGCAAAATTACAAGAAATTGCTATGGAAGGAAAAGAAGGCTGGAACATCACAGGAATCCCAATTCACAGATCACTACCCAGATCACTTGAAACATCTCTATTTAGCTGAAGAGGAAAGACTTAGGAAGCAACTAAAGAAAAGAAAACAGCCTTTGTCAGAAGAAAGAGTCAACCAGGCTTTGCCTGAAGAACAGTGTAGAGTTGACCATGCTTTGTCTGAAGAACAATGTCATCAGCCTCAGCCAGAAGAGCAGCGTAGCAAAACATTAAATTCCATGACTGTTCCAAAGAAAAAGAAAACATCCAATCAGAAAGCACAAGAAGAATATGAGCAGGTACAAGCTAAGCGTGCTGCTAAGAAACAAGAATTTGAGAAGAGAAAACAAGAGAGAGAAGAAGCTCAAAGGCTCCACAAAAAGAAAAAAATGGAAGTGTTCAAAATATTGAGCAAAAGGACTAAAAAGGGCCAGCCGAACTTGAATTTACAAATGGAGTATCTTCTTAAAAAAATACAAGAAAAAAGTTAA
LOC101722302 PREDICTED: Heterocephalus glaber uncharacterized LOC101722302 (LOC101722302), misc_RNA.
Length: 871 bp>XR_206198.1 GGCTAGGAATTACCCATAGGAAAAAGAACCCAGGATCTAGAAGTTTCACTGGAGAATATCATGCAAATCACGTAGTTCTCTGGGGTGTAATTGAATCATCTTGGATTTGAAATACCCCTAACTCTGAAGCACTTAAGAATGTCATTCAGAGACCTTCTGTACTTTGGACTAAAAGGACATACCAAGCTCAAGCTAAAAGGACAGCAGAAGCTGAGGAGCTACAGTCAGTATATTATTTGGGTTGGGGTATTGGAGAAAGACCACAGGAAGACACAGGAGGACAATATTGGGAGAGAGGAAGATGCTGGAGATTTGATAATCCATCTCTGAGACTGGGACAGTGAACTCACCTGGGCTATATACATCAGAATCACAGAGAATGCTGTTGAGATAAGAAGTCGCAAATGTAAAGTTGAGAAAAAAGGACTCTGAGAATCACTGTTTTCCAGAGGAAGAAACTAGTGCACACGGACCAAGGCTTGCTGAAGTGCCACGTCATGAGGAAAGGACAGACTGAACTGAAATTCTGACTTCCAGTCATGTGTTCTTTCATGTCAAGGTGCAGTAGGCCTGACGTATTAGAGGGGTACACTGAAGGGATTTGATCAACAGGAAGTTTGCTGCGAAAGGAAAGCAAGAGCAGTATGACTTTCTGCTGGAGAAAAAGCAAAATACAATGCAGTGTTTCTCTCAGTTTGGAGGGAAAAAGAATGAATGAAATATAGATAACTTTAAAAGAGCATCATATAAGGCTGGTATCACATCAATCCATAGTGTTTATTTTGTACAAGCTGGTGACATTTAGAGGGAACTGAGAGTTCCAGCAGTTTTCAGTAGGTGGTCAGCTTGACATTTCTGTATAATGTCTCAC
Tmtc2 transmembrane and tetratricopeptide repeat containing 2
>XM_004867531.1 ATGATTGCAGAGTTGGTGAGCAGCGCTCTGGGGCTCGCCTTGTATCTCAACACCCTGAGCGCGGATTTCTGCTACGATGACAGCCGTGCTATCAAGACTAATCAGGACCTCCTCCGAGAAACTCCATGGACACACATTTTCTACAATGATTTTTGGGGGACTCTTCTAACACACAGCGGCAGCCACAAGTCCTACCGGCCTTTCTGCACTCTTTCCTTTCGCCTGAACCATGCCATTGGAGGCTTGAATCCCTGGAGCTACCATCTGGTCAATGTCCTATTGCATGCGGCTGTCACCGGTCTCTTCACGAGCTTCTCCAAGACCCTCCTGGGTGACGGATACTGGACATTCATGGCCGGTTTGATGTTCGCTTCTCACCCCATCCACACAGAGGCAGTGGCGGGAATCGTGGGCCGCGCTGATGTTGGGGCCAGTCTGTTCTTTCTCCTCTCCTTGCTCTGCTACATTAAACACTGTTCTACAAGAGGCTACTCAGCCAGGACCTGGGGCTGGTTCCTGGGCACTGGACTGTGTGCGGGGTGCAGCATGTTGTGGAAGGAACACGGAGTGACTGTTCTCGCAGTTTCCGCAGTTTATGATGTCTTTGTCTTTCACAGACTGAAAATGAAGCAGATCTTACCTGCCATTTACAAAAGGAAGAATTTGTCTCTTTTTCTCAGCGTTAGTTTGTTAACTTTCTGGGGGACCTCCCTTTTGGGAGCCCGGTTATACTGGATGGGAAACAAACCACCAAGCTTTTCCAACTCAGACAACCCAGCCGCAGATTCAGATAGCCTCCTGGCTCGTGCGCTTACCTTCTTCTATTTGCCAACCAAGAACCTCTGGTTGTTGCTCTGTCCAGATACCCTCAGTTTTGATTGGTCCATGGATGCCGTGCCTCTGCTGAAAACAATTTGTGATTGGAGAAACCTACACACTGTGGCCTTCTATACTGGACTCCTCCTCCTTGCCTACTATGGTTTGAAGAGCCCAAGCTTAGAAAGAGAATACAATGGGAAAGCTGTCACAAATGGCAAGCAGAATGCTAATGGACATAGCTGCCATTCAGATGTGGAGTACCGGAACTCAGAGATTAAGCCCAGCTTTGCCTCCAAAGCAGAAAATGGCATTAAAAATAATGTATCACAGACAACACAGCTCCCTTCTACAGAGAACATTGTTGTTCTGTCTTTATCTTTGTTGGTAATACCCTTTCTTCCTGCTACGAACTTGTTTTTCTATGTTGGCTTTGTAATTGCAGAGCGAGTATTATATATTCCTAGTATGGGCTTTTGCCTGCTGATTACAGTGGGTGCCAGAGCCCTTTATGTCAAAGTCCAAAAGCGGTTTCTCAAGAGCTTGATTTTTTATGCTACAGCTACATTAATTGTTTTCTATGGACTCAAGACTGTCATCAGGAATGGAGACTGGCAGAATGAGGAAATGCTGTATAGGTCTGGGATAAAAGTAAACCCAGCTAAAGCGTGGGGTAACCTTGGAAATGTTCTGAAGAGTCAGAGCAAAATTTCTGAAGCTGAAAGCGCCTATAGAAATGCTTTGTACCACCGCAGCAACATGGCTGACATGCTTTATAATTTAGGGTTGCTTCTCCAAGAGAACAGCAGGTTTGCAGAGGCCCTCCATTATTATAAACTGGCCATCGGGAGCAGGCCTACCCTGGCTTCTGCATATTTAAATACCGGCATTATTCTAATGAACCAAGGAAAGACCGAAGAAGCCCGGCGGACCTTCCTAAAGTGTTCTGAGATTCCAGATGAAAACCTGAAGGACCCTCATGCACACAAGAGCTCTGTTACCAGCTGCCTGTACAACCTGGGGAAACTCTATCACGAGCAGGGACACTATGAGGAAGCCCTGACTGTGTACAAGGAAGCAATTCAGAAAATGCCCCGACAGTTTGCCCCACAGAGTTTGTACAACATGATGGGTGAAGCATATATGCGAATGAGCAAGCTCCCTGAAGCAGAGCATTGGTATATGGAGTCCCTGAGATCCAAGACGGACCACATCCCTGCTCATCTCACCTATGGGAAGTTGCTAGCTCTCACGGGTCGTAAGAGTGAGGCTGAAAAGTTCTTCTTGAAGGCCATTGAGTTGGATCCCACCAAAGGAAACTGTTACATGCATTATGGTCAGTTTCTTCTGGAAGAAGCTCGCCTCTTAGAAGCGGCTGAGATGGCAAAAAAAGCAGCTGAACTAGACAGTACAGAGTTCGATGTTGTCTTCAATGCTGCCCACATGCTCAGACAGGCTAGCCTCAATGAAGAAGCCGAAAAGTATTACGATCTGGCAGCCAGACTCAGGCCTAATTATCCAGCAGCTCTGATGAACCTGGGAGCGATCCTGCACCTCAATGGCCGACTCCAGAAAGCGGAGGCCAACTACCTGCGCGCCCTGCAGCTCAAGCCAGATGATGTCATCACGCAGTCCAATCTTCGCAAGCTGTGGAACATCATGGAAAAGCAAGGCTTAAAGACTTCCAAGACCTGA
Slc6a15 solute carrier family 6 (neutral amino acid transporter), member 15
>XM_004867532.1 ATGCCTAAGAATAGCAAGGTAGCAAAAAGAGAATTCGATGATGAGGTTATTGAGTCTGTCAAAGACCTTCTTTCCAATGAAGACTCAGCTGATGATGCTTTTAAAAAGAGTGAACTAATTGTTGATGTCCAAGAAGAGAAAGATACAGATGCAGAAGAAGGACCTGAAGTTGAAGATGAAAGACCAGCTTGGAACAATAAACTACAATACATCCTGGCCCAAGTTGGATTTTCTGTAGGTTTAGGGAATGTGTGGAGATTCCCATACCTCTGTCAGAAGAATGGGGGTGGTGCATATCTTTTACCATATTTAATACTACTTATGGTAATAGGTATTCCCCTTTTCTTCCTGGAACTTTCTGTGGGTCAGAGAATCCGGCGTGGCAGCATCGGTGTGTGGAATTACATAAGCCCCAAACTGGGCGGGATTGGATTTGCAAGTTGTGTAGTGTGCTACTTTGTGGCTCTCTACTACAACGTCATCATTGGCTGGACTTTGTTTTACTTTTCTCAGTCTTTTCAGCAACCTCTACCTTGGGATCAGTGTCCTTTGGTGAAAAATGCATCACACACTTATATAGAGCCGGAATGTGAAAAAAGTTCTGCCACCACCTATTACTGGTACAGAGAAGCACTGGATATTTCCAGTTCCATTTCTGAAAGTGGGGGCTTAAACTGGAAAATGACGATCTGCTTGCTGGCTTCCTGGGTCATGGTTTGCTTGGCAATGATCAAAGGCATTCAATCTTCTGGAAAAATTATGTATTTTAGTTCTCTGTTCCCATATGTGGTACTTGTATGCTTCCTAATCAGAGCTTTGCTTTTAAACGGTTCAATTGATGGCATTCGTCACATGTTTACTCCTAAGCTTGAAATAATGCTGGAGCCCAAGGTCTGGAGAGAAGCTGCTACTCAGGTGTTCTTTGCCTTAGGTCTTGGATTTGGTGGCGTCATCGCCTTTTCAAGCTACAACAAGAGAGACAACAACTGTCACTTTGATGCTGTCCTGGTGTCCTTCATCAACTTTTTCACTTCTGTCCTGGCCACACTGGTGGTGTTTGCAGTTCTTGGGTTCAAAGCTAATGTCGTAAATGAGAAATGCATTGCACAAAACTCAGAAATGATCATAAAATTTTTGAAAATGGGAAACATCAGTCAGGATATTATTCCCCATCATATCAACCTCTCAGCTGTTACTGCAGAAGATTATCATTTAGTTTATGACATCATTCAAAAAGTCAAAGAAGAAGAGTTTCCTGTTCTTCATCTCAATTCCTGTCAAATTGAAGATGAGCTAAATAAAGCTGTTCAGGGAACTGGTTTAGCTTTTATTGCCTTTACAGAAGCAATGACACATTTCCCTGCATCTCCCTTCTGGTCAGTAATGTTTTTCCTCATGCTGATAAATCTAGGACTTGGCAGCATGTTCGGGACCATTGAAGGAATCATCACACCCATTGTGGACACTTTCAAAGTCAGGAAGGAAATTCTTACTGTTATCTGTTGTCTTCTTGCATTTTGTACCGGTCTGATATTTGTGCAACGCTCTGGAAATTACTTTGTTACAATGTTTGACGATTATTCTGCTACATTGCCTCTGCTGATTGTAGTCATTTTGGAAAATATTGCTGTGAGCTTTGTTTATGGCATAGATAAGTTTGTAGAAGATCTGAAAGATATGCTGGGCTTTGCTCCCAGCAGATATTATTACTATATGTGGAAATATATTTCCCCTCTGATGCTGTTATCATTGCTCATAGCGAGCATCGTGAACATGGGATTAAGTCCTCCTGGCTATAATGCATGGATTGAAGAGAAGGCATCTGAAGAATTCCTGACCTATCCATTGTGGGGAATGGTTGTCTGTGTCTCTTTGATGGTCCTTGCAATACTTCCTGTACCAGTAGTCTACGTCATTCGTCGCTGCAACCTCATAGATGACAGTTCTGGTAATTTAGCATCTGTGACTTATAAGAGAGGAAGGGTCCTGAAAGAGCCTGCAAACTTAGAGGGAGATGATACAAGTCTCATTCACGGAAAGATATCAAGTGAAATGTCATCTCCAAATTTTGGTAAAAATATTTACCGAAAACAGAGTGGATCACCAACTCTGGATACTGCTCCTAATGGACGTTATGGAATAGGATACTTGATGGCAGACATGCCAGATATGCCAGATATGCCAGAATCATCTGATTTGTAG
Rassf9 Ras association (RalGDS/AF-6) domain family (N-terminal) member 9
>XM_004867535.1 ATGGCTCCTTTTGGAAGAAACTTGTTAAAGGCTCGGCATAAAAACAGATCTCCAACTAAAGACATGGAATCTGAAGAGAAGGAAATTGTGGTTTGGGTTTGCCAAGAAGAGAAGATTGTCTGTGGGTTGACTAAACGCACCACCTCTGCTGATGTTATCCAGGCCTTGCTGGAGGAACACGAGGCTACTTTTGGAGAGAAACGATTCCTGCTGGGAAAGCCCAATGACTACTGCATCATCGAGAAGTGGAGAGGCTCAGAACGGGTTCTTCCTCCACTAACTCGAATCCTGAAGCTTTGGAAATCATGGGGAGATGAACAGTCTAATATGCAATTTGTTTTGGTGAAAGCAGATGCTTTTTTCCCCGTTCCCTTGTGGCGGACAGCTGAAGCCAAATTAGTGCAAAACACAGAAAAACTGTGGGAGCTCAGCCCAGCAAACTACATGAAGACGTTACCACCGGATAAACAAAAAAGAATCGTTAGAAAAACATTCCGGAAATTGGCTAAAATCAAGCAAGACACAGTCTCTCATGATCGTGATGATATGGAGACATTAGTCCATCTGATCATCTCCCAGGACCATACTATTCATCAGCAAGTTCAGAGAATGAAAGAATTGGATCTGGAAATTGAAAAATGCGAAGCCAAGTTCCACCTTGATCGTGTAGAAAATAATGGAGAGAATTACGTTCAGGATGCATATTTAATGTCCACTGTCAGTGAAGTTGAGCAGAAACTAGACTCGCAGCCTGAGGAAAATCAGACTCTGGAGGACCTGAGTGAAAGTGATGGAATTGTACAGTTGGAAGAGCGTCTGACATATTACAGAATGCTCATTGATAAACTCTCAGCTGAAATTGAAAAAGAGGTGAAAAGTGTTTGTATTGGAATAAATGAAGATCTTGAAGGGGCAGCTGCAGGTGAACTTGAAAGCCCTGATTTAGGTAGTGTTAAGTGTGACTTGGAGCAAAGCATGAAAGCTGGTTTGAATATCCATTCTCACTTGAGTGGCATCCAGAAAGAGATCAAATACAGTGACTCATTGCTTCAGATGAAAGCAAAAGAATATGAACTCCTAACCAAGGAGCTGAATTCCCTTCACATTAGCAAAAAAGATGAATGCCATTTAAAGGAAAACGGAGGGAAGGAATCTGAGGTTCCGTGCAACAGTGAGGAGACACCTCCCTCTACCCCAAAGGTCTTTAATGGGTACACAAATGACACAGACTCAGACACTGGTATCAGCTCTAACCACAGTCAGGACTCAGAAATAACTGCGGGAGATGAGGTGCTACTGTCAACATAA
LOC101696366 chromosome unknown open reading frame, human C12orf29
Length: 978 bp Location: 7041984..7054162 Strand: +>XM_004867540.1 ATGAGACGCCTGGGCTCCGTGCAGCGGAAGATGCCGTGTGTGTTTGTGACGGAGGTGAAAGATGAGGCTTCCGCCAAAAGGGAGCATCAGCCATTTAAAGTTTTGGCAACTGAAACTATAAGTCACAAGGCATTAGATGCAGACATACACAGTGCAATTCCAACAGAAAAAGTGGATGGAACATGTTGTTATGTTACTACCTACAAAGATCAGCCATACCTTTGGGCTCGGCTAGATAGAAAACCCAACAAACAAGCTGACAAAAGATTCAAAAATTTTCTGTGTTCCAAAGAAAACTCAAAAGAATTTCTTTGGAATATTGAGGAAGATTTCAAACCCGTTCCTGAGTGCTGGATACCAGCAAAGGAAATAAAACATCTGAAGGGGAATCCAGTGCCTGATGAAAATGGACACATTCCTGGTTGGGTACCAGTAGAGAAAAGCAACAAACAGTATTGCTGGCATTCCTCTGTAGTTAATTACGAATTTGAAATTGCCCTGGTACTAATGCATCATCCTGATGATCCTGGACTTTTGCAAATTAGTCCAGTGCCATTAACAGATCTCTTAGAACAAACATTGGAACTCATAGGAACAAATATTAATGGAAACCCATACGGTTTAGGAAACAAGAAACATCCAATACATCTTCTCATACCACATGGAGCATTTCAAATAAGAAATCTGCCTAGATTGAAGCACAATGACCTGTTGTCCTGGTTTGAAGGCTGTAGAGAGGGTAAAATTGAAGGAATTGTATGGCATTGCAGTGATGGCTGCTTGATTAAGGTACATCGCCATCATCTTGGTTTATCCTGGCCAATTCCAGATACTTACATGAATTCAAAACCTGTTATTATTAACATGAACCTGAACAAATATGACTATACCTTTGATACTAAGTGTTTGTTTAACTATTTTTCAAAAATAGATAATCAGAAATTTGGTAGACTCAAAGACATAACTCTTGATGTATAA
LOC101697092 kit ligand-like, transcript variant X1
Length: 885 bp Location: 7541730..7467462 Strand: ->XM_004867542.1 ATGAAGAAGACACAAACTTGGATTATCACTTGTATTTATCTTCAGCTGCTCCTATTTAATCCTCTTGTCAAAACTAAAGAGATCTGCGGGAATCCTGTGACTGATAATGTAAAAGACATCACAAAATTGGTAGCAAATCTTCCAAAAGATTACCTGATAACCCTCAACTATGTCACCGGGATGGATGTTTTGCCTAGTCATTGTTGGTTACGCCAGATGGTAACACAGTTGTCAGTCAGCTTGACTAATCTTCTGGACAAGTTTTCAAATATTTCTGAAGGTTTAAGTAATTACTCTATCATAGACAAACTTGGGAAGATAGTTGATGACCTTGTGGAGTGCATGGAAACCTCATTTAAGAATGTGAAAGAATCCTCTAAGAGGCCTGAACCCAGACTCTTTACTCCTGAAGAATTCTTTAGAATTTTTAACAGATCCATCGATGCCTTCAAGGACTTTATGGTGGCCTCTGAAACTAGTGATTGTGTGGTTTCGTCAACACTGAGCCCCGAGAAAGATTCCAGAGTCAGTGTCACAAAACCATTTATGTTACCCCCTGTTGCAGCCAGCTCCCTTAAGAATGACAGCAGTAGCAGTAATAGCAAGGCTGTAGATTCCATCGGTGACCCCAACCTGCAGTGGGCAGCCATGGCTTTGCCCGCCTTCTTTTCTCTTGTAATTGGCTTTGCTTTTGGAGCCTTATACTGGAAGAAGAAACAACCAAATCTTTCAAGAGCAGGTGAAAATATACAGATTAATGAAGAAGATAATGAGATAAGGTATTTTGCTTTGCTAACTATGAGGATAAGCAAGCATGACATTGTTATTTCTCTTACTGAGCATGTACATTTTCATGATGTTAAGAAGTTAAGTTTCATGAGGTAG
Tmtc3 transmembrane and tetratricopeptide repeat containing 3
>XM_004867541.1 ATGGCTGATATTAACCTCAAAGAAGTAACCTTAATAGTAGGTGTGGTTATTGCCTGCTACTGGAACAGCCTATTCTGTGGTTTTGTTTTTGATGATGTTTCAGCAATACTGGATAATAAAGATCTGCATCCATCTACACCTTTAAAAACTTTATTTCAGAATGATTTCTGGGGAACCCCTATGTCCGAGGAGAGAAGTCACAAGTCCTACCGACCCTTAACAGTATTGACATTTCGCTTAAATTATATGTTTAGTGAACTAAACCCAATGTCATATCATCTCCTAAATATGATTTTTCATGCTATGGTTAGTGTGGTATTTCTTAAAGTCTGCAAACTTTTTCTGGACAACAAGAGCGGTCTGATTGCTGCTCTGCTTTTTGTAGTGCACCCCGTACATACAGAAGCAGTAACAGGTGTTGTAGGAAGAGCAGAACTTTTGTCATCTATCTTTTTTCTAGCTGCATTTTTGTCATATACAAAATCAAAAGGACCAGATAATTCCATAGTGTGGACTCCAATTGCATTGACAGTGATTTTAGTGGCTATTGCAACACTGTGTAAAGAACAAGGCATAACAGTTGTGGGAATATGTTGTGTATACGAAGTATTTATTGCCCAGGGGTATACTTTGCCATTATTGTGTACTACTGCTGCACAGTTTCTCCGTGGAAAGAGTAGTATTCCATTTTGTCTGCTACAGACACTAATAAAACTGATTGTCTTGATATTCAGTACATTATTACTTGTGGTAATTAGAGTCCAGGTTATTCAGTCCCAGCTTCCAGTATTTACAAGATTTGATAACCCAGCTGCTGTAAGTCCAACTCCTACAAGGCAGCTAACATTTAACTACCTTCTTCCTGTGAATGCTTGGCTTCTATTAAATCCTTCAGATCTCTGCTGTGATTGGACCATGGGAACAATACCACTAATAGAGTCATTTCTAGATATTCGAAATCTTGCCACTTTTGCTTTCTTTTGCTTTCTGGGGGTTTTGGGAATATTCAGTCTCCGGTACCCTGGTGATTCCTCAAAGACTGTATTAATGGCACTTTGTTTAATAGCATTACCTTTTATTCCTGCATCAAACCTTTTTTTTCCTGTTGGATTTGTTGTTGCTGAGCGAGTGCTATATGTTCCTAGCATGGGATTCTGTATTTTGGTAGCCCATGGATGGCAGAAAATTTCAAATAAAAGTGCATTTAAAAAGCTATCCTGGGCCTGTCTCTCAGTGGTGATACTTACTCATGCCTTAAAAACACTTCACAGAAATTGGGATTGGGAGTCTGAGTATACATTATTTATGTCAGCCTTGAAGGTAAATAAAAATAATGCCAAATTATGGAATAATGTTGGTCATGCTCTGGAAAATGAAAAGAACTTTGAGAGAGCTTTGAAATACTTCTTACAAGCTACCCACGTTCAGCCAGATGATATTGGTGCTCACATGAATGTAGGAAGAACTTACAAAAATTTAAATAGAACTAGAGAAGCTGAAGAATCTTACATGATGGCTAAGTCACTAATGCCTCAAATTATTCCTGGTAAAAAATACGCAGCCAGAATTGCCCCTAACCACCTAAATGTTTATATCAATCTGGCCAACCTGATCCGAGCAAATGAGTCCCGCCTAGAAGAAGCAGATCAGCTGTACCGACAAGCAATCAGCATGAGGCCTGACTTCAAGCAGGCTTATATTAGCAGGGGAGAATTGCTCTTAAAAATGAATAAGCCTCTCAAAGCAAAGGAAGCATATCTTAAAGCACTAGAGCTGGACAGAAATAATGCAGATCTTTGGTACAATTTGGCAATTGTGTATATTGAACTCAAAGAACCAAATGAAGCCCTAAAAAACTTCAATCATGCTTTAGAACTAAATCCAAGGCATAAGCTAGCATTATTCAATTCTGCTATATTAATGCAGGAATCAGGTGAAGTTAAACTCAGACCTGAAGCTAGAAAACGACTTCTGAACTATGTAAATGAAGAGCCATTAGATGCTAATGGTTATTTCAATTTGGGGATGCTTGCCATGGATGACAAAAAGGACACTGAGGCAGAGATTTGGATGAAGAAAGCCATTAAATTACAAGCTAACTTCAGAAGTGCTTTGTTTAATCTGGCTCTCCTCTATTCTCAGACTGCAAAGGAATTAAAGGCTCTGCCAATTTTAGAAGAGTTGCTCAAATACTACCCTGACCATATCAAGGGTCTCATTTTAAAAGGAGACATTCTGATGAATCAAAAGAAAGATATACTTGGAGCAAAAAAATGTTTTGAAAAAATCTTAGAGATGGATCCAACCAATGTCCAGGGGAAACACAATCTTTGTGTTGTTTATTTTGAAGAGAAAGACTTACTAAAAGCAGAAAGATGTCTGGTTGAAACATTGTCATTAGCACCACATGAAGAATATATTCAGCGCCATTTGAATATAGTCAGGGATAAAATCTCATCTGGTTTTGTAGAACAGCCAGTACTCCCACCTGGGAAGAATACAGATGAAGAAGGAGAAAACTTAATTCCAGCTGAAGATGTAAAGGAAATCAGAAGTGAGTCTAGACCAACACAGATAACGGAAACAAGTGATGATAAAAGTCAGTCTAAACCCAACAAACAATTGCAGAAAAATACAGACAAAGAGGTGCCTCAAAAAACAAAAGATATTAAAGAAATTGAGAAGAAAAGAGTTGCTGCTTTAAAAAGACTAGAAGAGATTGAACGTATTTTAAATGGGGAATAA
Ppfia2 protein tyrosine phosphatase, receptor type, f polypeptide (PTPRF), interacting protein (liprin), alpha 2, transcript variant X2
>XM_004867524.1 ATGATGTGTGAAGTGATGCCCACGATTAACGAGGATACCCCAATGAGCCAAAGGGGGTCCCAAAGCAGTGGCTCGGACTCAGACTCCCATTTTGAGCAACTGATGGTAAATATGCTGGACGAAAGGGATCGTCTTCTAGACACCCTTCGAGAGACCCAGGAAAGCCTGTCACTTGCCCAGCAGAGACTGCAGGATGTCATCTATGACAGAGACTCACTCCAGAGACAGCTCAATTCAGCCCTGCCACAGGATAGCGAATCACTAACAGGAGGGCTGACTGGTTCTAAGGGGGCGGATCCACCGGAATTTGCTGCACTGACAAAAGAATTAAATGCCTGCAGGGAACAACTTCTGGAAAAAGAAGAAGAAATTTCTGAACTCAAGGCTGAAAGAAACAACACAAGACTGTTACTGGAACATTTGGAGTGCCTTGTGTCACGTCATGAAAGGTCATTAAGAATGACAGTGGTAAAACGGCAAGCCCAGTCCCCCTCGGGAGTATCTAGTGAAGTTGAAGTTCTCAAGGCACTGAAATCTTTGTTTGAGCACCACAAAGCCTTGGATGAAAAGGTAAGGGAGCGACTGAGGGTTTCTTTAGAAAGAGTCTCTGCACTGGAAGAAGAACTAGCTGCTGCTAATCAGGAGATTATTGCCTTGCGTGAGCAAAATGTTCATATACAAAGAAAAATGGTATCAAGTGAGGGATCCACAGAGTCTGAACATCTTGAAGGGATGGAACCTGGCCAGAAAGTCCATGAAAAGCGTTTGTCCAATGGTTCCATAGACTCAACTGATGACACTAGTCAGATAGTGGAACTACAAGAACTACTCGAAAAGCAAAACTATGAAATGGTTCAAATGAAAGAACGCTTAGCTGCTCTTTCATCACGAGTGGGAGAAGTGGAACAGGAAGCAGAGACAGCAAGAAAAGATCTCATTAAAACAGAAGAAATGAATACTAAATATCAAAGGGATATTCGGGAGGCCATGGCACAGAAGGAAGATATGGAAGAAAGAATCACAACCCTTGAGAAGCGTTACCTCAGTGCTCAGAGAGAATCTACCTCCATACATGACATGAATGATAAACTAGAAAATGAGTTGGCAAACAAAGAAGCCATCCTACGGCAGATGGAAGAGAAAAACAGACAGTTACAAGAGCGTCTTGAACTGGCTGAGCAAAAGTTGCAGCAGACTATGAGGAAGGCTGAAACATTACCTGAAGTAGAGGCTGAACTGGCTCAGAGAATTGCAGCCCTAACAAAGGCTGAAGAAAGACATGGAAATATTGAAGAGCGTATGAGACATCTAGAAGGTCAACTTGAGGAAAAGAATCAAGAACTTCAAAGAGCTAGGCAAAGAGAGAAGATGAATGAAGAGCATAATAAAAGATTGTCCGATACTGTGGACAGACTTCTGACTGAATCCAATGAACGCTTACAGCTGCATTTGAAGGAAAGAATGGCTGCTCTAGAAGAGAAGAATGTTTTAATCCAAGAATCAGAAACTTTCAGAAAGAATCTTGAAGAATCTTTACATGATAAGGAAAGATTAGCAGAAGAAATTGAAAAACTGAGATCTGAACTTGACCAACTGAAAATGAGAACTGGCTCTTTAATTGAACCCACAATATCAAGAACTCATCTAGACACTTCAGCTGAGTTGCGGTACTCAGTTGGATCTCTAGTGGACAGCCAGTCTGATTACAGGACAACTAAAGTGATAAGAAGACCAAGGAGAGGCCGTATGGGTGTGAGAAGAGATGAGCCAAAGGTGAAATCTCTTGGGGATCATGAATGGAATAGAACTCAACAAATTGGAGTCCTAAGTAGTCACCATTTTGAAAGTGACACTGAAATGTCTGATATTGATGATGATGACAGAGAAACAATTTTTAGCTCAATGGATCTTCTCTCTCCAAGTGGTCATTCTGATGCCCAGACCCTAGCTATGATGCTTCAGGAACAATTGGATGCCATCAACAAAGAAATAAGGCTAATTCAAGAAGAAAAAGAATCTACCGAGTTGCGCGCTGAAGAAATTGAGAATAGAGTGGCGAGTGTGAGCTTGGAAGGCCTGAATTTGGCAAGGGTCCACCCAGGCACGTCCATCACTGCCTCTGTTACGGCGTCGTCGCTGGCCAGTTCGTCGCCCCCCAGTGGACACTCGACGCCAAAGCTCACCCCGCGAAGTCCTGCCAGGGAAATGGATCGAATGGGAGTCATGACGCTGCCAAGTGATCTAAGGAAACATCGAAGAAAGATTGCAGTGGTAGAAGAAGATGGTCGGGAGGATAAAGCAACCATTAAATGTGAAACTTCTCCTCCCCCCACACCCAGAGCCATCAGAATGACTCACACCCTCCCCTCTTCCTACCACAATGAAGCCAGAAGTAGTTTATCTGCCTCTCTCGAGCCAGAAAGCCTTGGGCTTGGAAGTGCCAATAGCAGCCAAGACTCTCTTCACAAAGCCCCCAAGAAGAAAGGAATCAAGTCTTCAATAGGACGCTTATTTGGTAAAAAAGAGAAAGCTCGTCTTGGACAACTCCGAGGCTTTATGGAGACGGAAGCTGCAGCTCAGGAATCTCTGGGATTAGGCAAACTTGGAACACAAGCTGAAAAGGACAGAAGACTTAAAAAAAAGCATGAACTTCTTGAAGAAGCTCGGAGGAAAGGATTGCCTTTTGCCCAGTGGGATGGACCCACTGTGGTGGCTTGGCTAGAGCTCTGGTTGGGAATGCCTGCCTGGTATGTGGCAGCTTGCAGAGCCAATGTGAAAAGTGGTGCCATCATGTCTGCTCTATCAGACACTGAGATCCAGAGAGAAATAGGCATCAGCAATCCTCTGCATCGCTTAAAACTCCGATTAGCCATCCAGGAGATGGTTTCCCTCACAAGCCCTTCAGCTCCTCCAACATCTCGAACTCCTTCAGGCAACGTTTGGGTGACCCATGAAGAAATGGAAAATCTTGCAGCTCCAGCCAAAACGAAAGAATCTGAGGAAGGAAGCTGGGCCCAGTGTCCGGTTTTTCTACAGACCCTGGCTTATGGAGATATGAACCATGAATGGATTGGAAATGAGTGGCTTCCCAGCCTGGGGTTACCTCAATACAGAAGTTACTTTATGGAATGCTTGGTTGATGCAAGAATGTTAGATCACCTAACAAAGAAAGATCTTCGTGTTCATTTAAAAATGGTGGATAGTTTCCATCGAACAAGTTTACAGTATGGAATCATGTGCTTAAAAAGGTTGAATTATGACAGAAAAGAACTAGAGAGAAGACGAGAAGCAAGCCAACATGAAATAAAAGATGTGTTGGTGTGGAGCAATGATCGAGTTATTCGCTGGATACAAGCAATTGGACTTAGAGAATATGCAAATAATATTCTTGAAAGTGGTGTGCATGGCTCACTTATAGCCCTGGATGAGAACTTTGACTACAGCAGCTTAGCTTTGTTACTACAAATTCCAACACAGAACACCCAGGCCCGGCAGATACTTGAAAGGGAATACAATAACCTGTTGGCCCTGGGAACAGAACGGCGGCTGGATGAAAGTGATGACAAGAATTTCCGACGTGGATCAACCTGGAGAAGGCAATTTCCTCCACGTGAAGTCCACGGGATCAGCATGATGCCTGGGTCCTCAGAAACATTACCAGCTGGATTTAGGTTAACCACAACATCGGGGCAGTCGAGGAAAATGACAACAGATGATGTCATCTTTTCAGTCTACTCTACCTAA
Mettl25 methyltransferase like 25, transcript variant X1
Length: 1836 bp Location: 1693529..1808945 Strand: +>XM_004867527.1 ATGGCGGCCTTTGGCCCTCTCCCGGTGACCCAGGACCTGTCCACGCTGCGTGCCAAGTTGCAGGGTCTGCTGCGATTCCTGAGGGACGCCGTGTCCATTTCCAACGCACACACCGTGGACTTCTACACAGAGTCCGTGTGGGAGGGGCTGGTTGACTTATCTCCGGAGACTGTGCTGGCCGTGCTGAGCAGGTCGGCGGCGCGGGCGGAGGCGGAGGCCCAGCCTTCTGAGGCGCGCCCCCTGGTGGAACCGGAGACAGGATCAGGTGTTACTGATTTTCCCAAAATATTTTGTGAAACTTCTCAGAGCCTAGTGAATGTGGAAGCCTTTGCTCTGGTTGCAAAATACTATTCTGTCCAAAACTTGGGAATCTGTACTTCTTTAGAACAGTTACTTATAGCTCTTCGAGGAAATAAAAAACAGAGAACTGGTATGTTCATTCGTGCCTGTGAAAATCTGAAGCCAAATGAGTTTATGAATGTGAAAAAATCTCATGAAGTTCAGGCAATGTCAGACCTAATCTGCAGTATTGCTGATTACTGTGGAATAAAACAAGTAATTGACTTGGGTTCTGGTAAAGGCTACCTAAGCTCATTTTTGTCCTTGAAATATGGCTTAAATGTTTATGGAATTGATTCCTCAAATACCAATACTCGTGGGGCTGAGGAGAGGAACCGGAAACTAAAGAAACATTGGAAACTCTACCATACTCAATCTAAAGTAGATGTCAATGGCCTGGCATTAAAAATGACAAAAGAAAGAAAAGTGCAGAATGAAATGAAATATAAAACAGATACTGAGCAAGTGTATAACAATAGTCCTGCAAAGCAAGAAAAGATGCCTACTTCAGATTTTTTGCCAGATTTTTCAAGCTCTGTAATTTCTGACATTAGAATACAAGTGGAAAACCTACATACGCAACCATATGAAGAAGAAAATTTGTGTTTTGTAAATACCTTTTCTCTCATAGACTTTTTGCCTATTGATGCCATAGAGCCTATTTCGTCATCACAGATATCTAACAGAGAAATGTCTGAAGTAAATAAAGGGAGAAGAAAAATGACATCACAGTCAAGTGAATCAAATATATATTCACCATTAACTTCTTTTATCACTGCTGATTCAGACCTACATGACATTATTAAAGATCTGGAGGATTGTTTAATGGTGGGCCTACATACTTGTGGTGATCTTGCTCCAAATACTCTGAGAATATTTACTTCCAAGTCTGAAATCAAGGGAGTGTGCAGTGTGGGTTGTTGCTACCACCTCTTATCTGAAGAGTTTGAAGATGAGCATAAAGACTGTACTGAAGAAAAATGGGGATTTCCAATGTGCCAGTATTTAAAGGAAGAGAGATGGTTCTGTGGCCAGAATGCCAGAATGTCAGCATGTTTGTCATTGGACCGGGTCGCAGTTGGCCAAGGGCTCCCTACTGAATCACTGTTTTATCGTGCAGTTCTTCAAGATATTATTAAAGATTGTTATGGCATTACCAAATGCAATCAGCATGTTGGTAAAATTTATTCCAAATGCTCTTCCTTTCTGGATTATGTCAGAAAGTCTCTAAAGAAGCTTGGATTAGATGACTCCAAGCTGCCAGAAAAAACTATAATGGACTACTATGAGAAGTATAAGCCTAGAATGAATGAACTGGAAGCTTTTAATATGTTAAAAGTTGTTTTGGCCCCTTGTGTAGAGACATTGATTCTTCTGGACCGACTTTGCTACCTAAAAGAGCAGGAAGATATTGCATGGTCTGCACTTGTGAAGTTGTTTGATCCTGTGAAATCTCCCAGATGTTATGCTGTTATTGCTCTGAAGAAGCCGCAGTGA
Mettl25 methyltransferase like 25, transcript variant X2
>XM_004867528.1 ATGGCGGCCTTTGGCCCTCTCCCGGTGACCCAGGACCTGTCCACGCTGCGTGCCAAGTTGCAGGGTCTGCTGCGATTCCTGAGGGACGCCGTGTCCATTTCCAACGCACACACCGTGGACTTCTACACAGAGTCCGTGTGGGAGGGGCTGGTTGACTTATCTCCGGAGACTGTGCTGGCCGTGCTGAGCAGGTCGGCGGCGCGGGCGGAGGCGGAGGCCCAGCCTTCTGAGGCGCGCCCCCTGGTGGAACCGGAGACAGGATCAGGTGTTACTGATTTTCCCAAAATATTTTGTGAAACTTCTCAGAGCCTAGTGAATGTGGAAGCCTTTGCTCTGGTTGCAAAATACTATTCTGTCCAAAACTTGGGAATCTGTACTTCTTTAGAACAGTTACTTATAGCTCTTCGAGGAAATAAAAAACAGAGAACTGGTGAAAATCTGAAGCCAAATGAGTTTATGAATGTGAAAAAATCTCATGAAGTTCAGGCAATGTCAGACCTAATCTGCAGTATTGCTGATTACTGTGGAATAAAACAAGTAATTGACTTGGGTTCTGGTAAAGGCTACCTAAGCTCATTTTTGTCCTTGAAATATGGCTTAAATGTTTATGGAATTGATTCCTCAAATACCAATACTCGTGGGGCTGAGGAGAGGAACCGGAAACTAAAGAAACATTGGAAACTCTACCATACTCAATCTAAAGTAGATGTCAATGGCCTGGCATTAAAAATGACAAAAGAAAGAAAAGTGCAGAATGAAATGAAATATAAAACAGATACTGAGCAAGTGTATAACAATAGTCCTGCAAAGCAAGAAAAGATGCCTACTTCAGATTTTTTGCCAGATTTTTCAAGCTCTGTAATTTCTGACATTAGAATACAAGTGGAAAACCTACATACGCAACCATATGAAGAAGAAAATTTGTGTTTTGTAAATACCTTTTCTCTCATAGACTTTTTGCCTATTGATGCCATAGAGCCTATTTCGTCATCACAGATATCTAACAGAGAAATGTCTGAAGTAAATAAAGGGAGAAGAAAAATGACATCACAGTCAAGTGAATCAAATATATATTCACCATTAACTTCTTTTATCACTGCTGATTCAGACCTACATGACATTATTAAAGATCTGGAGGATTGTTTAATGGTGGGCCTACATACTTGTGGTGATCTTGCTCCAAATACTCTGAGAATATTTACTTCCAAGTCTGAAATCAAGGGAGTGTGCAGTGTGGGTTGTTGCTACCACCTCTTATCTGAAGAGTTTGAAGATGAGCATAAAGACTGTACTGAAGAAAAATGGGGATTTCCAATGTGCCAGTATTTAAAGGAAGAGAGATGGTTCTGTGGCCAGAATGCCAGAATGTCAGCATGTTTGTCATTGGACCGGGTCGCAGTTGGCCAAGGGCTCCCTACTGAATCACTGTTTTATCGTGCAGTTCTTCAAGATATTATTAAAGATTGTTATGGCATTACCAAATGCAATCAGCATGTTGGTAAAATTTATTCCAAATGCTCTTCCTTTCTGGATTATGTCAGAAAGTCTCTAAAGAAGCTTGGATTAGATGACTCCAAGCTGCCAGAAAAAACTATAATGGACTACTATGAGAAGTATAAGCCTAGAATGAATGAACTGGAAGCTTTTAATATGTTAAAAGTTGTTTTGGCCCCTTGTGTAGAGACATTGATTCTTCTGGACCGACTTTGCTACCTAAAAGAGCAGGAAGATATTGCATGGTCTGCACTTGTGAAGTTGTTTGATCCTGTGAAATCTCCCAGATGTTATGCTGTTATTGCTCTGAAGAAGCCGCAGTGA
Mettl25 methyltransferase like 25, transcript variant X3
Length: 1680 bp Location: 1693529..1807165 Strand: +>XM_004867529.1 ATGGCGGCCTTTGGCCCTCTCCCGGTGACCCAGGACCTGTCCACGCTGCGTGCCAAGTTGCAGGGTCTGCTGCGATTCCTGAGGGACGCCGTGTCCATTTCCAACGCACACACCGTGGACTTCTACACAGAGTCCGTGTGGGAGGGGCTGGTTGACTTATCTCCGGAGACTGTGCTGGCCGTGCTGAGCAGGTCGGCGGCGCGGGCGGAGGCGGAGGCCCAGCCTTCTGAGGCGCGCCCCCTGGTGGAACCGGAGACAGGATCAGGTGTTACTGATTTTCCCAAAATATTTTGTGAAACTTCTCAGAGCCTAGTGAATGTGGAAGCCTTTGCTCTGGTTGCAAAATACTATTCTGTCCAAAACTTGGGAATCTGTACTTCTTTAGAACAGTTACTTATAGCTCTTCGAGGAAATAAAAAACAGAGAACTGGTATGTTCATTCGTGCCTGTGAAAATCTGAAGCCAAATGAGTTTATGAATGTGAAAAAATCTCATGAAGTTCAGGCAATGTCAGACCTAATCTGCAGTATTGCTGATTACTGTGGAATAAAACAAGTAATTGACTTGGGTTCTGGTAAAGGCTACCTAAGCTCATTTTTGTCCTTGAAATATGGCTTAAATGTTTATGGAATTGATTCCTCAAATACCAATACTCGTGGGGCTGAGGAGAGGAACCGGAAACTAAAGAAACATTGGAAACTCTACCATACTCAATCTAAAGTAGATGTCAATGGCCTGGCATTAAAAATGACAAAAGAAAGAAAAGTGCAGAATGAAATGAAATATAAAACAGATACTGAGCAAGTGTATAACAATAGTCCTGCAAAGCAAGAAAAGATGCCTACTTCAGATTTTTTGCCAGATTTTTCAAGCTCTGTAATTTCTGACATTAGAATACAAGTGGAAAACCTACATACGCAACCATATGAAGAAGAAAATTTGTGTTTTGTAAATACCTTTTCTCTCATAGACTTTTTGCCTATTGATGCCATAGAGCCTATTTCGTCATCACAGATATCTAACAGAGAAATGTCTGAAGTAAATAAAGGGAGAAGAAAAATGACATCACAGTCAAGTGAATCAAATATATATTCACCATTAACTTCTTTTATCACTGCTGATTCAGACCTACATGACATTATTAAAGATCTGGAGGATTGTTTAATGGTGGGCCTACATACTTGTGGTGATCTTGCTCCAAATACTCTGAGAATATTTACTTCCAAGTCTGAAATCAAGGGAGTGTGCAGTGTGGGTTGTTGCTACCACCTCTTATCTGAAGAGTTTGAAGATGAGCATAAAGACTGTACTGAAGAAAAATGGGGATTTCCAATGTGCCAGTATTTAAAGGAAGAGAGATGGTTCTGTGGCCAGAATGCCAGAATGTCAGCATGTTTGTCATTGGACCGGGTCGCAGTTGGCCAAGGGCTCCCTACTGAATCACTGTTTTATCGTGCAGTTCTTCAAGATATTATTAAAGATTGTTATGGCATTACCAAATGCAATCAGCATGTTGGTAAAATTTATTCCAAATGCTCTTCCTTTCTGGATTATGTCAGAAAGTCTCTAAAGAAGCTTGGATTAGATGACTCCAAGCTGCCAGAAAAAACTATAATGGACTACTATGAGAAGTATAAGCCTAGAATGAATGAACTGGAAGCTTTTAATATGAGACATTGA
Lrriq1 leucine-rich repeats and IQ motif containing 1
>XM_004867534.1 ATGGAAGACAGTGATGATAAAGATGCAAAGCTTGATGAAGAAATAGAAGCTGAGTTGGATAAAATCAGCATTTCCTCCTTGGAAAAAGAAGAGACTGAAAGTGATTCAAAGTCAGAAACCCAGAGTGATGACAGTGATATTGGTGAAGATAAATTACCAGAGTCAGTTATTCACTGTATTAACACTATAAAGAACAGGAGTAAAGCCGTTGAAGAGCTCATTCTTCAGGATTTAGAAGATAATGATGTCTTAAGCACTAGTTATGAAGCAGTTTCTAATAATCATATGCACTTAAGGATAGGATTATTAACTGAATGTAAAGAAAATCCGGAGCAATTATTGAAGATATTATCGGGACTAGAAAAAGAAGATTTTATTAGAAGTGAAACCCACTGTGCCAGCCGTGGTTCTCCTCCTGAGCTCAGTCCTCATGATTTGCCCATTGATGAATATGTTTTATCAGATGACGTGGATATAAACTTTGGATACTTTGAAGTGGAAGAAAGATGTAGGCAGTCTTTTGAAGCTTGGCAAAACAAACAGAAAGAGCTAGAAGACAAAGACAAAGAAACTCTCAAAGCACAGAGGGATAGAGAAGAAAAGCAGTTTCAAGAAGAAGAAAAAAAGAGAGATTACTGGATGAAGCAATTTGAAGTTGAAAAGCAAAAGATAGAGAATCTTCAAAAAGAAGAAGAAGACAAGATGAATGATAAGCTCCACAAAGAAGAGGAAATGTGGAAAGAGAAATTTAAACAGCATGAGGAATTCATTAAAAACTTGCATTTACAAATGGAAGAAGAAAGAACGAGATTTAAAGACCTACAGAAAAAAGAAGAAATACGTTTGTTAAAACTTCAGCATAATGCAGCTGTAAAAATTCAAGCTAAATACAAGGCATTTGTAACCTACCAAAAATATGGCCCAATCATAAGAGAACAAATAGAAACTAAGAAAAGGAAAGCACAAGAATGGATAGAAAAAGAAGCACAAATACTACAGAAGGCAGAGGAAAAGCAAAAAAGATTAGAGGAAGAACAAAGGATAGCAGAGGAGATAAAAAAGAAAAAGGAAGAGGAAAGGAAAAAGAGAGAGAGAGAATATGAAGAAAGAAAGAATATCTTGAGACAAGAAAGAGAGGAACTACTAAAAAAGGAAAAATTAAAATTAAAAGAAAATACAAGTCAACAGCTAATAGTAAGTAGTACATTAAAGAAGGGAGAATATAATACCAAACATTTAATAATTGGCGATATATCAAAGAATAAGAATGATACAGTGAAAATGTTAGTGAATGAAAACTTAAAGAAGCAGGAAGATGTTTCCCTATGTTTAGTTGAGCAATCAAATAAGAGACAAAATATATATAGACAGGTTGTATTGAAGGAATCAGCACAAGTACAGTTAAAATCAAACCAAACAATTTTAGCAGAATTAAAAATAGAAGAAAATAGTGAAAGCCTAGGAAAAAGACAATGTTCTGGAAAATCAGTTAAGCAAGAAATAAGAAATGAAAACATAGACAAAATAACTAAATTGGAAAATTCGGATCTAAAAGAAAATGTGACTGAACAAGAATTAAAGTCTCAAATACAAAAAGAGGAAGATCTGGAACATGCCATAAGTGAGATTGTCAGACAAGAAACTCAAATAATATTAGATCATAATCAAGAAATGAATGAGGTAAAAAATGCAGCAGAGAAAAAAATCAAAGATAATCAACAAAGAGTGATACAAAATGCAGAAAATGAAGAGACATCAGAAAAGAATGGATCATTGAATGAGGAGAACAATAGGTCAGTTATTTCAAAGAAACAAAAACTACTACCAATAAAGTTAGAAAATTCTGAAGCTGTTCTACAAGAAAAAGCAATTGATTTAAAATCCAAAGGAATTGAAGAAAACCCAAAAGAAAATTCTCTAAATAGTGACATTGTGATTTTTAATTCCACTGATGCCATCACAAATATAGAAAGCAAAATTAACAAACAGGACGTTGATTTTGGTAGCCCTGCTCCTTATGAAGACTTGGGTGTTTATAATGGAATAAGTTCCTTGGTTAGTAAAGAAGTAAACTCTCTTAACTATGATCCTAAAGAAATTCCTGAAGACTGCCATGAAAATAGGGCTAGATGTGAGAGTATCACAATTTGTTCTATACCAGAGTCAGCACTTTTATCTTCTATTGAAGAAAAGAGACTAGCTTGGATAAAATCATTTAAACCTTGGCTTGAGATTTCCACACAAAATCAACAAAAGAAAATTGTTAAAAGAACGAGACCTGCAAAATGCCCAGTCAATAGTATGTCCCCTTTGAATACATTAGAAATTCTTCGCTGTGGCCCTTGGAACAATTTACAGCAGGTTACAACTGTTACATTTCAAGATTTGCCAGGTTGTAATCTGTCCACTTTGGCTGAGTGTATGAATCTTCAGCTTCTATCTCTTAGACGCTGTGGATTAACTTCTTTGCACAGCTTGAGTAACTGCAAAAACCTGAAATACATCGATGCACAGGAAAACCATATTGAAAGTATCAATTGTGAACATTTGGAAAATCTCTGTGTGGTTCTTCTCAATAAAAATCAACTGACTTCTCTTCATGGTTTGGATGGCTGTACTAATATCCAAAATCTTGAGCTTTCACATAATAAAATCACTCGAATTGGTGGTTTAGAATCTTTGAAAAATCTTCAGCAACTAATTGTGGACCACAATCAATTAATTAGTACAAAAGGCCTTTGTGATACACCTACCATTATATACTTGGATTGCTCTTATAATAATCTTACTGATATTGATGGCATTGAAAATTGCGGATTGCTTCAAGTATTGAAGTTACAGGGAAATTATCTAAGTAAGCTTCCATCCTTGGGAAATCATGTTCTACTAAGAGAATTGCACTTGGATGATAACAATATTTCAACTATGGAAGCATTTTCTTCATATTGGCTACCTTTACTACAAAATCTTACTATTTCTCAGAACAGTTTGACAAGAATTGTACCACTTTTTCATTTTATTTCTTTGGAAAAACTAGATGTCAGCAACAATTGTCTTTCTGATCGTGAAAGTGCCATGAAATGGTTTGATGCATGTTATTCTCTCCGTGAATTGTCTCTCACTGGGAACCCACTTCTTCAAGAAATAAACTGGAGGCATTCTCTACTTCAAATGTTACCAGCTCTAAGAATCCTCAATGGCGATATGCTAAGCTCTTCCTCAGAAATCCACACTGAGGAACACTCCCCTGAAGAGTCAGGACAGTTCCTAATACTGTGTCAGGCCCAGATTCGAGAATTTCAGTTACTAGCTGAAAACAGTATCACCAGAAAAGGGGATGTTTTCACCTTGGATACAGCAGAAAACTTCTATCATTATTTTAAGAAACTGATGACACTTAGTAATGAATACAGACATGCACATGAACGTGGGGATGTACGTATCACCAAGAGAGATGAATCCGACACTCAGCAAAATCGTTTGGCCCCTCTGTATCACAGCACAGTGAAAAATGGGGGCTTCCGTTCTTGTGCAAAGGAACTTAATTCTGACTCATCAAATATTTCTGGGAAATCGATGGACTCTGGTTTTAGTCATTCCCCATTGAGCTACCCCTCTGTATGTAAAGGTTTGGAAGAAATAAATCAGGAAAAATTAGTATTCCAGAAGAGAGAAGACAGTAAGACATGCAGTATTACCACCAAAAGTATCCCATTGGTGGAAACAACAATGACAAATTCTCTGCTGAGGAATTGTCAAAATATCGACCACAGTGAAGAAATGATGGCAGCTCTGGTGATCCAGGCATACTGGCGTGGTTACGTTGTACGCAGACAGATTAATTTCTTTACAAGGATACATACTGTTACAACAGAACCCCTGCCAAATTCCTTCAATAATCAGACTATTCTAATGAAAGAAAAAAGGAAAAAGATTATGAATATCGACAAACAGAAGGAGAAGGCTGCTGTTCTTATTCAGGCAGTTTGGAAGGGATTTATTTTGCGAAAGAAACTGACAATAGCCCTAGAATCTATGAAGAATGAAGAATCTGAAGAAGAATATGAAGAAATAGATTTAAATGATTTTACCTTCGATGAAGCTGCCTTAGAGAGAGAATGGCTAGCTTTAGATTCTGTTCGCTTCCCTTCGCAAACACTGCTGCTCTCAAACCAGCTGCACCGGCCAAAGGTCCCTGGAACCTTGAAATATGATAATACTTCACTTGACTTACCAAGCCATCCAGCACAAGCATGGCTATATAATGAGAAAGAAAATTTGTTTTCATCAGAACACACACAGTTACATAGCAGATCAGAAAATAGAACGTTATCCTGGACACCTGAATCAAAGATCAGTAGAAAGAGTTTGCTAAAATCTGAAAAAGAAGAAAAAATCTCAGAAGAATGGGGTTTTAAGGATATTTCTACTGCTCAGCAAATGCTGAAGAGGGCACAGAAAATGAAATCAAAGACATTAAAGAAAAAGTTAGATCCTACTGTGCGTCTAGCGTTATTCAAAAACAGTGAAAATAAAGTTTCTCTTACAAAATCACCAAAGAAGTCACGTCCCATAAGAGATGGTCACTCTGAAGGTATGGAAGATGACTTAATCTACAAAGACACCTCTGCCAATGAAAAATTGGAACAGAGTACAGCATATACATACGAGTGGCTTCACACACAGGTTGGGGTTCATGAAACAACTAGTTCCAGAAATATGAAAAGCAATCACTTCTTGCCTGAGTTAGATCCAGATGTACTTAATGGTAGAAGAGTTCAACTTGTGGCAAGACATGTAAGCAGAGAAGACACGGATTTAGACCTTTTTTCCATGACCAGTGGAAGTACTTTGTCTGTGAACAGAGAAAAAAAGAGTCAGGCACATAGCAGACACTCAGCGGGATCTTCAAGTAAGTTGTGGTTTCCTTCAGAATTAATTTAG
Mgat4c mannosyl (alpha-1,3-)-glycoprotein beta-1,4-N-acetylglucosaminyltransferase, isozyme C (putative)
>XM_004867537.1 ATGATTAAATTTTATCAAATGAAAGATTTTTTTCAAATACTGGATAAAATGAGATGCTTGCGAAAACGCTCTACAGTGTCATTCTTAGGAGTTCTTATAATTTTCCTCCTGTTTATGAATTTGTACATTGAAGACAGTTATGTTCTGGAGGGTGACAAACAACTAATAAGGGAAACATCTACGCATCAACTAAATTCTGAACGCTATGTTCATACTTTCAAAGATTTATCTAATTTTTCAGGAGCCATAAATGTCACTTATCGCTATCTAGCTGCCACACCTTTACAAAGAAAGCGATATCTTACTATTGGACTTTCATCAGTGAAGCGAAGGAAAGGAAACTATTTACTTGAGACAATCAAATCAATTTTTGAGCAGTCCAGCTATGAAGAACTGAAGGAAATTTCAGTAGTGGTTCATTTAGCAGACTTTAATTCATCCTGGCGTGATATCATGGTGCAGGATATTACACAGAAATTTGCCCATCATATTATTGCAGGAAGATTAATGGTGATACACGCTCCAGAGGAATATTACCCAATCTTGGATGGTCTTAAAAGAAATTACAATGATCCAGAAGATAGAGTCAAATTTCGTTCCAAGCAAAATGTAGATTACGCTTTTCTGCTTAATTTCTGTGCCAACACTTCAGACTATTATGTGATGCTTGAAGACGATGTCCGATGTTCCAAAAATTTCTTAACTGCCATCAAGAAGGTTATTGCATCTTTAGAAGGAACTTACTGGGTAACTCTTGAGTTCTCTAAACTTGGCTACATTGGTAAACTCTATCATTCCCATGATCTCCCACGATTGGCACATTTTTTACTAATGTTTTATCAAGAAATGCCTTGTGATTGGCTATTGACCCATTTCCGGGGTCTGTTGGCTCAGAAAAATGTGATCCGATTTAAACCATCTCTCTTCCAGCACATGGGTTATTACTCCTCATATAAAGGAACTGAGAATAAGCTAAAGGATGATGATTTTGAAGAGGAGTCATTTGACATCCCCGATAACCCCCCTGCAAGTCTGTACACCAATATGAATGTGTTTGAAAATTATGAAGCAAGCAAAGCTTACAGCAGCGTTGATGAGTACTTTTGGGGAAAACCACCTTCCAAAGGAGATGTCTTTCTTATTGTCTTTGAAAACCCAATTATAATAAAAAAAATTAAAGTGAATACTGGAACAGAAGATCGGCAAAATGATATTTTGCATTATGGAGTCCTAGATGTTGGGAAAAAAATTAGTAAACAAATGAGAGAATGCGATACTTACTTAAGACTAGGGGAATTCAAAAATGGAAACTTTGAAATGTCAGAAGTTAATCAAAAAATTCCATTTGATGTATATTGTATTAGGATATGTGTGACTAAAACACAAAAGGAATGGCTGATTATTAGGAGTATTAGCATTTGGACTTCTTAG
LOC101726135 chromosome unknown open reading frame, human C12orf50
Length: 1251 bp Location: 7041795..6995192 Strand: ->XM_004867538.1 ATGGAAGTGCAGCAAAACTGCAGCATTTCATGCTTCTGGGAAACTCAACCTCTTGGTTGTGTGAAGATCAATTGTATGTTTCATCACAGCAAACCTCGAAATATTAATGGACTATTTTTGGCATCAAGTAGCAAAATCACACTACAGAAAGACAGTCAGGAAGGAACTCCATCCCCAACTCAGAGTCAGCAGAGTTTGAAGCCTCAGGAGAATATATTAGGACCCATTCACCATCCTTTAGTTTTGAAAATTAACTTTGAGGAGGAAGAGGAAGAAGAAGAGGAGGAACAAAATGATACTTCTGATTTGTGGACAAAGACTCCTGAAGAGATTGAAGAAGAAAGAATAATAAAGGAGATGTGCTATAAATCTGGCGAATACTATAGATTTCATACTCCTGCAGATATCTCATCAAAAAGCACAGCTCCTGCAGTGGAAAAAAAGCTAGGAAAGCCTGTGGAAAATGACAGTGAATTGCAAGAAGGGGATGGACTTACAATTGCAACAAAAGTTAGCCCAGCCGAAAGGCAAGGCAAAACAAAAATATCATTGGATAGGAAACCAACGACTGACACTGCTGCTTTTGAAAATGGAAGAGGTGACTGTTCTGTTCCACAAAGGATTGGATTTCTTGGAGTAGATGAAAGTGAAAGTTTAACTGAAGAGAAAGAGATCATCATGTCAAAATGTCCAAATACCAAAGATAACAAGGACAGTCCTCATCCAAAGTGTTCCTTAACTACCCGACTAGTACCCACCATGCATGTATTAAATGCTACTGAGAATATCAATATGAATTCCAGAGAGGATACCTCTTCAATGAATGATGTCCACCCTGTGAAGAAGCCTCATTTTAAAGGTGAGAAAAAAAGAAAATGCATTTATGATGAGCCAAAGAACTTTCCTGGCTCTGGAATGCCAAGAGCAGTACAAGACCCAAATCCAAAAAATAAAATGAATTACCATTATCATAATAAAAACAGGAATGCTGAAAATGCATCCCACATCCACTTTCGAAGAGACGCAGTCAGGACTGTCACGTTGAGTGACCCTCCCTGCAACAGGCCCACAAATGGATCCTACAATAAAGCTGATGTTAACAAGGAACCCAAAATCAATGTCTGTCCAGACAAATACATGTCAACAACATCATATAATGGTTCAGCCTGGAGAAAAAGAATTCCTTTTTCCAAAACTTATTCAAAAACTTAAAAGATATATCCAGAGCCAAGAAGAAATGGGAGCAAGTAA